##gff-version 3
sequence1	MetaGeneAnnotator	CDS	119	658	.	-	0	ID=MGA_1;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978068.1;translation=MSNLVPISFILNVMHGFFSLIYYGSVMIFGVIVAPRLSKLSNETVNDLMYNLFPTLVSFIEATGMITIVFGAGEFIHYLIGYYRSGGISEVYHVLFSTGWGICIFSGAILGIIGFSIGLLIGHYFEKLFKLFRSIDPESIDEIKLVQGKLKYYSTFGALLLTITVILMILGVSFLPLPQ;locus_tag=LOCUS_00010;note=WP_010978068.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:62.3%25%2C q_cov:97.8%25%2C s_cov:95.1%25%2C Eval:1.2e-58],MGA_1
sequence1	MetaGeneAnnotator	CDS	668	1069	.	-	0	ID=MGA_2;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978069.1;translation=MNMTEERLGRNTPVLIASSVETILLMGAFLAGTTAMLNDQFPLTATWMAALLSAHLSLALLSGLGAVLLFTLSYLSDRKDLFYLGLLTVVFVGLAAAGGLAFYATYNYAFSYLMALSFIIAIITSTGCLVYSL;locus_tag=LOCUS_00020;note=WP_010978069.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:65.6%25%2C q_cov:98.5%25%2C s_cov:97.8%25%2C Eval:5.6e-41],MGA_2
sequence1	MetaGeneAnnotator	CDS	1151	1582	.	-	0	ID=MGA_3;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978070.1;translation=MILMSSRSLLDVYNTMASKFSRNQYTPALAAAELACLIITYVAGMGIAIYKLPLLGVPITAHIYAAAFDVIFAISLYGSSTRAGNLPLRVLSVLDILSVLGAAFMGLFYFGGFSIPMYALGMGTGFIFTIVFTSAILFYALRR;locus_tag=LOCUS_00030;note=WP_010978070.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:71.7%25%2C q_cov:96.5%25%2C s_cov:99.3%25%2C Eval:5.6e-50],MGA_3
sequence1	MetaGeneAnnotator	CDS	1631	1819	.	-	0	ID=MGA_4;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978071.1;translation=MKLTGRLLLTILVVLFFIILSIPIDIFVSSAIGVENTTIISAALYIILASAAFFLVFFKDFY;locus_tag=LOCUS_00040;note=WP_010978071.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:37.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.4e-07],MGA_4
sequence1	MetaGeneAnnotator	CDS	2003	2920	.	-	0	ID=MGA_5;product=Rieske 2Fe-2S domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978072.1;translation=MRNGNTKFDEREFMARGRDYLFNYAEKNAGPLDPGRRAFLKGLLIGIGVLAVASAVPLVSSLNPALVSLKKFPWMIIVDSDGKPIEASKFPVNDPTIMLFQYPLLGDITFLINMGDENNKPVEIKPTTVVIPENGHTYTFPGGVGPYKSIVAYSAICQHLGCTPPEIHFYPPQYFKPGGVVPNFLPSVAYNAAVSANAKSVIHCDCHGSTYDPWHGAAVLTGPTVRPLPYVELYWDSNTDYLYAVSMNLHAPPIMDHPSDLVGAAYLDSYDETTGCPKLIVQKNQTPTNCYTKVQSDGNTFGGSS;locus_tag=LOCUS_00050;note=WP_010978072.1 Rieske 2Fe-2S domain-containing protein (Sulfurisphaera tokodaii) [pid:73.8%25%2C q_cov:100.0%25%2C s_cov:93.3%25%2C Eval:1.0e-138],MGA_5
sequence1	MetaGeneAnnotator	CDS	3266	3790	.	+	0	ID=MGA_6;product=proton pump complex quinol oxidase subunit SoxA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846856.1;translation=MIKMAFVEKIKEHAELSWFIVMLILVAIFVGWNIVGVTSGSSTSYRYGLPLFSGMPKIAQAAVKYFESHPPANGDSEVVNGVLVVNMTVTQLGYNPNIIIANANEPIAIILHSPQVITGFFMRLPDGVVNINAPPNYTNYVYFVAPSTPGNYTWRDPEYAGYNFSYWTGILEVK;locus_tag=LOCUS_00060;gene=soxA;EC_number=1.10.3.-;note=WP_052846856.1 proton pump complex quinol oxidase subunit SoxA (Sulfurisphaera) [pid:67.9%25%2C q_cov:94.3%25%2C s_cov:97.6%25%2C Eval:1.2e-62],MGA_6
sequence1	MetaGeneAnnotator	CDS	3793	5487	.	+	0	ID=MGA_7;product=proton pump complex quinol oxidase subunit SoxB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978074.1;translation=MNYKNIIKNIINYIKDFINKASKVANPKDTIGIVWLYLIGAVAWLIVLGTAAMNMRTYLVYDQNSPAVGPIYYMMLTIHGWSAMLGLVPDAALGIIAFSMYKSGLSVVHRKLVTSMFWISNLGLVFALFGGPDMGWYMYPPLAIEDNSLFQAFRIYHGAMMGAGYLALAFNSACGAIAALTFVIDAYLTKPKDKKINIFAAYGVAFSLIIALTLPALTASELWYVLAIWLPTLVKVNPLLWVILFWFYGHPVVYYVPFPLFGALYYYIPIYAKRSLFSEKWARWNIFLLAIGSMLIWVHHLQTFPLPVDLRAWITVSTLVLASGSGLTVLNLGLTILTSKGYDYKDPLGMTFLIALIGFIIGGVQALPLPINIINGVVHNTYYVVGHFHLVIWTLILVGFTGVFVDLLKSTNPNLNFSAKAKKIMLMGVLWWTVPFVGVGYTMTIAGYLGLLRREIAYPPMFSSYMQLMSFLAEVGIPGLVLTISTAIAEYVRTSRPTGISITVPSMPGSMAYVNSNEKLVKQVTYANQIKSNINNFILNKTNYKSNDLINLKDNMRRTNIGGG;locus_tag=LOCUS_00070;gene=soxB;EC_number=1.10.3.-;note=WP_010978074.1 proton pump complex quinol oxidase subunit SoxB (Sulfurisphaera tokodaii) [pid:77.9%25%2C q_cov:92.9%25%2C s_cov:99.8%25%2C Eval:4.8e-245],MGA_7
sequence1	MetaGeneAnnotator	CDS	5489	7180	.	+	0	ID=MGA_8;product=proton pump complex cytochrome B SoxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978075.1;translation=MGENEKKKGFFDLILDRVGIEEAPLFRTPDYMYNVSYWLGGLVAASFIYTVITGLILLLLYEPANAYGQTQIIIHSIPYGAVLLFSHLYGAYIMIILVYIHMFRNFFKGSYKKPRELQWVTGVLLLALTLGASFFGYSLVGDVLGIDAVDIGSSLLIGTGFPGATTVVGWLFGPGIDAVESTNPIVRSEFFDRILGWHIILVALIGLLFIFHLMLSERYGMTPSKKEKPFVPAYYTKEEQQRFNPWWPRNFVYMLSLVLMTWGIILIVPDVLANLNGATVFGHTIELPLVINPFPAPQAFTAAAIHTAPYPPWFFLFLYKFVDFLLPNGLPLLPSMVIAILIVGLVIIMLIPFFENSNVMFLSSRKFWTWVMCVLIYSLIALSFWGYFYPGVPAPFTAQMEILGIPALIMAAIIYLFGSRSKQKSINISSTNLPSVRPTTILGTSVVTLLFAGTFGDFLLKPSLLGILLLLPLGTLVYHYMSKLVKVFNSTRVSTEPGFPITKKMAFFAIPTIFVITIFLLILMIKLPSVGVASTYAGIDLGVILFLWGYAINLYHYLVYVKD;locus_tag=LOCUS_00080;gene=soxC;note=WP_010978075.1 proton pump complex cytochrome B SoxC (Sulfurisphaera tokodaii) [pid:75.1%25%2C q_cov:99.6%25%2C s_cov:98.2%25%2C Eval:1.8e-247],MGA_8
sequence1	MetaGeneAnnotator	CDS	7250	7807	.	+	0	ID=MGA_9;product=DUF1404 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978076.1;translation=MKLDKEKVKFSHFIPPIILLALVLNPLTESQEFLHEWLFMVSHYVLFIGGLLLSYKVIKGSTYWIIPSAFLVSFWHVPYFFALAGAFTFFRALNDFSLILAGILAGISASRLSLFSWLSLIIIWMLADTILSIVFLLEFPAYSNAVYKFSPYSESQEFNTAISMWIVMSAIIVYVFGKFLKELLF;locus_tag=LOCUS_00090;note=WP_010978076.1 DUF1404 domain-containing protein (Sulfurisphaera tokodaii) [pid:60.9%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:1.6e-61],MGA_9
sequence1	MetaGeneAnnotator	CDS	7940	8971	.	-	0	ID=MGA_10;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980658.1;translation=MRIVILGGGFAGIAAKCAYENSILIDKEDKFLLTPKLVDTIAKGESALFYRRPDIKAEVLKINFKDKKITTTKGEINYDKLIVALGYQQDLTRIKGAQDHVMKLENFEDALKIREEINKAKSLIVIGGGDLGVEVIGSTIELLGKIKGKERIILINRGKRVLPHMPEEISLYAEKILTELGIELFLDTAVNEIKGKEVNTTQGTFSADHIFYAGGIRGPNILNSLGFTTKNYKMEVNDDLSSVDYKDVYGAGACASLKYPSNAEVSMQSGVHAIYNALNDSEEKFNPKSLADVVEINNSFLGVFMGMPIKGSFARLLKSLALANVLYKINKINFLNNSLNTKN;locus_tag=LOCUS_00100;note=WP_010980658.1 FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:41.0%25%2C q_cov:97.7%25%2C s_cov:97.9%25%2C Eval:5.0e-68],MGA_10
sequence1	MetaGeneAnnotator	CDS	8976	10625	.	-	0	ID=MGA_11;product=pyruvate oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000467257.1;translation=MAKNVAEIIVDTLVKAGVKRIYGIPGDSIDPLMDAIRKNKEIQYIQVRHEEGAAFAASVESKLTGNLTACMGTSGPGSIHLLNGLYDAKMDHASVIALTGQVESDMLGHDYFQEVNMVKLFDDVSVFNQMIVNPKNAGYLVWRAIHEAKTKKGVSHLNLPVDILRMDGEEFEGNLEVKVSYSVNVDSAVDLINESKNPVVMIGGGARGSSELLNKFAEKIGSPIIYALNGKGILSDYDEKVMGGIGLLGTKPSVDALNRTDLLILLGTSFPYVNFLPKDVKVIQVDINPENISKRIKANVSLVCTVEDFLKSVLNKIKEKDEKFYIKMKNQKEKWFDELKKVEDENSIPIKPQKVASKLSEVFTEGTVVVDTGNVTMWGARNFKASGKQRFVFSTWLGSMGVGVPGAVGASFVSDNVLALVGDGGFAMTMMELITAKKYSRPIKVVIFNNSKLGMIKFEQEVMGYPEWGVDLYNPDFSKLAESIGIEGIRIEDPKDLDEGLKKLKESKGPFVMDVVVDPNERPMPPKLTFTQAKNYVLSIFREKLESSE;locus_tag=LOCUS_00110;EC_number=1.2.3.3;note=WP_000467257.1 pyruvate oxidase (Bacillus cereus) [pid:43.6%25%2C q_cov:99.6%25%2C s_cov:98.4%25%2C Eval:3.2e-129],MGA_11
sequence1	MetaGeneAnnotator	CDS	10840	11274	.	+	0	ID=MGA_12;product=rubrerythrin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980455.1;translation=MKSLKGTKTEENFKNGFIGESMANRRYLYFAKRADEEGYPEIAALLRSISEGETAHAFGHLDFIRQGDSVDPATGKPIKTIEEMLESAVAGETYEFTQMYPGFAKVAREEGFDEAAEWFETLARAEKSHAEKFTNALKALKGEK;locus_tag=LOCUS_00120;note=WP_010980455.1 rubrerythrin family protein (Sulfurisphaera) [pid:85.2%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:9.8e-66],MGA_12
sequence1	MetaGeneAnnotator	CDS	11275	12456	.	+	0	ID=MGA_13;product=heterodisulfide reductase-related iron-sulfur binding cluster;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980454.1;translation=MYSLNKDNPDFFNQTKLQSEFIRQASVCHGCRRCFNYCPVFPKLFKFTDQKGPKALTLDDLFDISPDCFHCNMCYVNCPFTPPNDLNMDFAHLMSWGWLFYRSKTGIPLKDRIFEMLDFAGFVRPLSRNMVKGLISEGAPELRVAEKGFLSNFKRKDIQNPKARVVLFHTCLVENFYPEIGEDLVEVYNKLGIEVITANFICCGAPMLDVGDSEALKRNAEYNYNIIKEYIKKGYDVVSPIPTCTLMLTKEYQYILDKDAIKVYDAMEYLLKLKREGKIELKGEMPKSIFYHTPCHLRYLGVGYPGVQLMRSLKSKVEIADKGCSGIDGGWGLRNYSKAKVIGSKMMEAFSQSNAEIFATECPLAGLQIFKASGRKPLHPIQVLKEAMKNDKS;locus_tag=LOCUS_00130;note=WP_010980454.1 heterodisulfide reductase-related iron-sulfur binding cluster (Sulfurisphaera tokodaii) [pid:65.6%25%2C q_cov:99.2%25%2C s_cov:99.7%25%2C Eval:2.2e-158],MGA_13
sequence1	MetaGeneAnnotator	CDS	12539	13000	.	+	0	ID=MGA_14;product=DUF3501 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980453.1;translation=MELGDRLGILFENRDTVLQQIQEMVYLDKLSNKKDIEEEINIYSSWLPCGGKAKASLYIYAQDEKDLERVFNELPEIYNSIFLRVGKKLIQGEPESGRNQGHAFSTVQFLTFDLEGEKSTDMEVNVVHQNYKVKVKVPENLAKKVIEEAYEEC;locus_tag=LOCUS_00140;note=WP_010980453.1 DUF3501 family protein (Sulfurisphaera tokodaii) [pid:71.9%25%2C q_cov:100.0%25%2C s_cov:81.4%25%2C Eval:2.1e-59],MGA_14
sequence1	MetaGeneAnnotator	CDS	13017	13469	.	-	0	ID=MGA_15;product=HPP family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978077.1;translation=MHFPSRKKKLVAILNLIISISILVAITIITNTEFILPPFLATAATKYPDPDWRMHRSIIILFSYTICGLVGLIFSLFHLYGIIMATIASFIAFSICVLINIEHTPAILATLLGVLERVNVVYIIHPIITGVIIVEGINYLLTKYVEPRIK;locus_tag=LOCUS_00150;note=WP_010978077.1 HPP family protein (Sulfurisphaera tokodaii) [pid:54.5%25%2C q_cov:95.3%25%2C s_cov:97.9%25%2C Eval:7.2e-41],MGA_15
sequence1	MetaGeneAnnotator	CDS	13719	13919	.	+	0	ID=MGA_16;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846382.1;translation=MIKTKFYLALFITLIVDIILYSVFPFFNRIYPELFGLPLFYWYQTILLVVSSLMFLGITLIFKEVE;locus_tag=LOCUS_00160;note=WP_052846382.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:45.0%25%2C q_cov:90.9%25%2C s_cov:96.8%25%2C Eval:7.9e-11],MGA_16
sequence1	MetaGeneAnnotator	CDS	13921	15483	.	+	0	ID=MGA_17;product=sodium:solute symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978751.1;translation=MISIPKSNIDGITLGVFLILFVIFIFLGFYGARWRKGDMNKLHEWGLAGRRLGVFFVWFLMGADLYTAYTFIAVPAALFGIGSLYFFAVPYVAWTFAIALLTMPRLWTVSRNKGYVTAADFVKDRFNSRTLAILVAIVGIVAELPYIALQIVGMKAALSMLLLGLGIGTSSVSSLTFINEISLLLAFAILAAFTYTSGLRGATLTGVFKDALIWFTVIVSIIAIPIFIGGFHTAFSDIKAPAKFLTLPSSFITAYFSLALGSAIALYLYPHAINGSLSSNSKNQLKLSTSMLPIYGIGLAFLALFGILVYAVSPALSAISTLKPIIGASSAADLVVPATIAYEMPNWFVGIALVGVFIGGLVPAAIMAIAIANLFTRNIVKEFKPLSEKAESSMAKWVSVVFKFLALGFVFAVPGYAITLQLLGGIIVAQALPPVFLGLYTNKLEKRSLIAGLIAGVVSGIGLYYYSHGVFMKTPIGLIYIALIALIINLAISGIGSLIAYSMGWRPKIIVKDEEIMKSL;locus_tag=LOCUS_00170;note=WP_010978751.1 sodium:solute symporter (Sulfurisphaera tokodaii) [pid:58.3%25%2C q_cov:98.7%25%2C s_cov:99.2%25%2C Eval:8.4e-164],MGA_17
sequence1	MetaGeneAnnotator	CDS	15499	15660	.	-	0	ID=MGA_18;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSNATFLDFNANDFAIIKANVDFPTPPSLDIIFIFMNVNSVKDEYNHKLKKL;locus_tag=LOCUS_00180;note=MGA_18
sequence1	MetaGeneAnnotator	CDS	15659	16186	.	+	0	ID=MGA_19;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLLGYPSWVIGVEGNGIITTLLKNKDYKHAIKEIEIGKGSITTLKLFDGKEITDLDRNILIEAMNIINDTLRNFKYVITDTPTMSFRERIKQLEPEGKSLMITRYSSEIPSVTDSDTLGIIVNMVPDNFKTFSKHIKNEIVIPFYEQLFNFSGNINEIPIFDEISKIETMFESS;locus_tag=LOCUS_00190;note=MGA_19
sequence1	MetaGeneAnnotator	CDS	16167	16472	.	-	0	ID=MGA_20;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846470.1;translation=MTDELKKIMELLNDPTLSNSARLGILLSLYILGKSTFSDLQRSSGISKSSLFMHLQVLEESGLITVKKVPTLSGPRTIIEITEKGIQTIKQYIDLIKKIQT;locus_tag=LOCUS_00200;note=WP_052846470.1 transcriptional regulator (Sulfurisphaera tokodaii) [pid:52.6%25%2C q_cov:96.0%25%2C s_cov:90.7%25%2C Eval:6.4e-21],MGA_20
sequence1	MetaGeneAnnotator	CDS	16465	17076	.	-	0	ID=MGA_21;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240240.1;translation=MTEKDLIIKSKELAKNTVMTEFRKALGKYYISWGTFPLSFGLAYFILNFLNLYSYISFSISITGILIFYILLSIRFFRKARKILNNFISIFGENSRKIHIFEYYIYPFLLIISFVFLGVGAFFFNIIFLIFGSTLYAISVDISLYFLYKTANGIKYYDILALITFTMLMTLSETRFIEFFSMIFGISWIFAGYKSLMEVIESD;locus_tag=LOCUS_00210;note=WP_053240240.1 hypothetical protein (Pyrobaculum islandicum) [pid:28.3%25%2C q_cov:96.6%25%2C s_cov:96.8%25%2C Eval:1.5e-13],MGA_21
sequence1	MetaGeneAnnotator	CDS	17077	17844	.	-	0	ID=MGA_22;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979077.1;translation=MIELNNVSIFYGKDKVVKDVNATINEKVILLGPNGSGKSTLLKAIAGIIPYQGHIFIDGKEVSKLRNYTELSTNINEAFSLGVKLKDVIYIYEEIKGINSKLAIGMLSQLGLKDLNKNIYSLSAGQGVIFRTIIALASNSKIILLDEPFENVDIGKRKIIANWIKEYGKEGIIVTHELDMVKIFKDYKANLIFEGKVFGPITAKDILESSIIEGEDQSAILEIEVNKKKYSFVKGEKGYKVENLVTLDRIYNLGE;locus_tag=LOCUS_00220;note=WP_010979077.1 ATP-binding cassette domain-containing protein (Sulfurisphaera tokodaii) [pid:50.4%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:2.4e-68],MGA_22
sequence1	MetaGeneAnnotator	CDS	17841	18665	.	-	0	ID=MGA_23;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979078.1;translation=MRLIYYIAKRLLTNPYDLIWAVGFMIFWILMGAYIFSPGIAHGEYYNQEVYYYTSGWAGTIILFSLGSLSVGITAMLNYQTGGLSHLFRYSKLTPLYYISSIYIGSIIASLIIGSTMIAFTTVAFSNRFGFIVYPKDILLLIISIILTAIFLTSFSMFLSIITLKTTRKIREFINMVPLLFSFLFGFGYLYLKLNYFTYASPFTMVDSLTMSGYLGKPSPLNYASIILSGQSGSFISIPLAIISSILWTVVLTIIDIIGIRKLYYKPLEEEKLA;locus_tag=LOCUS_00230;note=WP_010979078.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:27.9%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.4e-32],MGA_23
sequence1	MetaGeneAnnotator	CDS	19102	19302	.	-	0	ID=MGA_24;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKGKEVKRSYGDKAYDTNEIYNLGVDVVVPPRKNALGVVILLGVRLCASSRSWVMSVGGMRRVS;locus_tag=LOCUS_00240;note=MGA_24
sequence1	MetaGeneAnnotator	CDS	19543	19803	.	-	0	ID=MGA_25;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKNTRDWNKYDENVVTRYKLMFPFYVFEHWWELLQEENRYAKTKYNSKEFNDFLAFLHLFLPYRAIEGVLSALAEMKIIPTSLD;locus_tag=LOCUS_00250;note=MGA_25
sequence1	MetaGeneAnnotator	CDS	19911	21185	.	-	0	ID=MGA_26;product=arsenic transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003243030.1;translation=MLKLLIAILIFVATLLLVNFKPKRIPIGYSALIGGALTLILGISNIHDVVLVFDIVWDATFTFVAIIIMTLILDEAGFFDYIAYKILGLGNRLGKAFVLLLLLDAVVSALFANDGAALVMTPIATSIISRSSIDERSKIVFMTGIGFVADTASLPFIISNLVNIIDATYFDVSFLLYAEYMIFPFIISVIISVILYYFLLVRKTDKNQELPSFQPTINDQLLVKLGFPFIAILVVAYFLTSFAKIPVAMVAIPAATLLGIIAKRRKKIDIYKVVREAPWQIVLFSLGMYIVVFGMGKQGVTNFLASTDSTLFSLPSPFNVIMEGLLFAFTAAFMNNLPSVMINSLAINSTHSTNHFLLALVNVISNDIGPKFTPIGSLATLLWIYSLERKHGVKIPLRIYVYLGLITTPIVLVATILSLWILFL;locus_tag=LOCUS_00260;note=WP_003243030.1 arsenic transporter (Bacillus) [pid:41.1%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:3.5e-85],MGA_26
sequence1	MetaGeneAnnotator	CDS	21192	21584	.	-	0	ID=MGA_27;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLIFFDERPKETRENLYDRDEELSLLQSAISEPIVPLTGIRRIGKTSILKVFLNNINLPYALIDARISLSSYRALYTIFSDILSQINRKKSIKSILQHFSGISILGVNISLSWDPKERASILLKVFILG;locus_tag=LOCUS_00270;note=WP_048147062.1 ATP-binding protein (Pyrococcus abyssi) [pid:43.7%25%2C q_cov:85.4%25%2C s_cov:32.7%25%2C Eval:7.2e-20%2C partial hit],MGA_27
sequence1	MetaGeneAnnotator	CDS	22000	22386	.	+	0	ID=MGA_28;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980168.1;translation=MIKSLISGLLAGVLDISFYTNDMNVFAVISYHILKIYSIPLGIILHLIASTIIFAVAVLIIEKSKINATSFISYFILGIMVGSSVLALFSLPVHLLIFPIKVTLTYVMGHIFYGIVGYLILWILKNKI;locus_tag=LOCUS_00280;note=WP_010980168.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:50.4%25%2C q_cov:97.7%25%2C s_cov:96.2%25%2C Eval:2.2e-29],MGA_28
sequence1	MetaGeneAnnotator	CDS	22436	23407	.	-	0	ID=MGA_29;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980376.1;translation=MWKETQFFKEYGNFHAKASIIIPVRGIDVNIENNVKSLLSQDYPDEYEVIYVVDKGDSVKNILTKYNVKIVITDYYCEKCSGKIKAQITGLKYAKGDVIVFGDSDTYYPRYWLKELVSPLGEYMASTTFSFAKPFKITLRNLIRAGFWTLAFESQAVGGTFLWGGSMAFKKDFFTSYVIDELSNEWCDDCTLTRIVKRRGGKIAFVGRAEPLNVYDERNLIKWAKRQVITVRVYSPKGAKAYLLFGPLMFIILLSFIFTLNIVFITPFILWIIKNIIRMRKKDSILPALMSVIGIFFAWIVLVISWRENKIVWRDNVYNINLS;locus_tag=LOCUS_00290;note=WP_010980376.1 glycosyltransferase family 2 protein (Sulfurisphaera tokodaii) [pid:57.6%25%2C q_cov:99.1%25%2C s_cov:94.1%25%2C Eval:1.7e-102],MGA_29
sequence1	MetaGeneAnnotator	CDS	23455	23607	.	-	0	ID=MGA_30;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSLFNLILKNISIHTVLLYLVNGVKICLSIMDNYKNLLENLLIGDSLRS;locus_tag=LOCUS_00300;note=MGA_30
sequence1	MetaGeneAnnotator	CDS	23993	24838	.	+	0	ID=MGA_31;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEEELLKKMDLNSTTKIYWSLTILATIGGFLFGYDTADIGTALDLIPYHLSAFALGYLVAGASLGAAIGAIIAGPLTDKYGRKSILLVDALIYAIGAIVSAITINANMLLIARTFIGLAVGADSAIATAYIAEYAPKDKRGSLEMLQEWMITAAQTISYIIGFFILFEFPLIAYNIDWRIILGIAAIPAIIGLIYRMKMPESPRWLLIKGKFDKLKETLNTLGIKNVSNDELYTIANEIKNDKPKLTPGVKRALLVAGLWMMFQQITGVNSYGDFHEQHS;locus_tag=LOCUS_00310;note=WP_010978906.1 sugar porter family MFS transporter (Sulfurisphaera tokodaii) [pid:56.9%25%2C q_cov:95.4%25%2C s_cov:56.3%25%2C Eval:2.2e-81%2C partial hit],MGA_31
sequence1	MetaGeneAnnotator	CDS	24912	25124	.	+	0	ID=MGA_32;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIKPHVAGWLYVPRDLTCGTTSRVGVCKNLRGRSHTYSTLSPNKINNTTRIIIEKFKNQEKEYYTWKGR;locus_tag=LOCUS_00320;note=MGA_32
sequence1	MetaGeneAnnotator	CDS	25109	26260	.	+	0	ID=MGA_33;product=IS110-like element ISSto4 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978850.1;translation=MERKIKPKVFAIDVGESRLVATKMEINNNTVKEADTREFKYNEEGLKELIKFLEGYEEGIMEATGVYFYHVYNVLRDNGLKVNVINPVQTVEVLGKKTDKNDSIRLAIAYAAGTVKGSYIPTGEMQELREMTRHREGLVERKTQVKNEIRKVLETAGYKLPPFEKKTKEIVRKLATDEKLTDEEIKEYSKLLGRKLTRIEAFILKQLLDLLNIIEEQIKEVENEIMKFLPEEAVELTKIPGIGPISAATIYAELGDVSRFESSKQAASYAGVSPRTKQSGKTEFHNGLIKGNKHLSRVLFLVARSAKNTAQFNGFYQALLKRTSNSKKATLALANKICRIVYHVLKDGEYKGETKKTRYRGGGGEGPQVDPNQVVPSALQAIA;locus_tag=LOCUS_00330;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:54.5%25%2C q_cov:95.3%25%2C s_cov:95.6%25%2C Eval:5.2e-109],MGA_33
sequence1	MetaGeneAnnotator	CDS	26263	26442	.	+	0	ID=MGA_34;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEAKHVEPPTVIFTNNTPKQEDKPYKSETKKTRYRGGGGEGPQVDPNQVVPSALQAIA;locus_tag=LOCUS_00340;note=MGA_34
sequence1	MetaGeneAnnotator	CDS	26601	26780	.	+	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLLNGAEAYHIDPRFNQGVSVTLTPSVTAINRIFEKEVYKFYKGGYPSPPLPVDPKSN;locus_tag=LOCUS_00350;note=MGA_35
sequence1	MetaGeneAnnotator	CDS	27183	27554	.	+	0	ID=MGA_36;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSRGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYYKN;locus_tag=LOCUS_00360;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:70.5%25%2C q_cov:97.6%25%2C s_cov:34.2%25%2C Eval:5.8e-46%2C partial hit],frameshifted%2C insertion/deletion at around 27764%2C27542,MGA_36
sequence1	MetaGeneAnnotator	CDS	27500	27772	.	+	0	ID=MGA_37;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGEGLERKENRFLLQKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEQR;locus_tag=LOCUS_00370;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:61.4%25%2C q_cov:96.7%25%2C s_cov:24.6%25%2C Eval:6.9e-23%2C partial hit],frameshifted%2C insertion/deletion at around 27545%2C27764,MGA_37
sequence1	MetaGeneAnnotator	CDS	27844	28236	.	+	0	ID=MGA_38;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLLYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_00380;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:76.3%25%2C q_cov:100.0%25%2C s_cov:36.7%25%2C Eval:4.0e-55%2C partial hit],frameshifted%2C insertion/deletion at around 27763,MGA_38
sequence1	MetaGeneAnnotator	CDS	28360	28674	.	-	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVQPIPPTPRPKNIINPIKLIIRPITFPIPENNITETPPKAKKIAIPKYPNLPKPFLPILSIYFRATRTIAVCVAEIISVAIIPALIADNPSLDPKNGANMYGP;locus_tag=LOCUS_00390;note=MGA_39
sequence1	MetaGeneAnnotator	CDS	28574	28930	.	+	0	ID=MGA_40;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFSGIGKVIGLIISFIGFMIFFGLGVGGIGWTIQGEYFPTNIRGTMASLLAFINWTSNFVLIEVFPAWKAAIGLAPVMFSFAGLSIIAEILFLFILPETKGMSVEEIAEMFENMKVK;locus_tag=LOCUS_00400;note=WP_010978906.1 sugar porter family MFS transporter (Sulfurisphaera tokodaii) [pid:49.5%25%2C q_cov:77.1%25%2C s_cov:19.1%25%2C Eval:4.9e-21%2C partial hit],MGA_40
sequence1	MetaGeneAnnotator	CDS	28933	29343	.	-	0	ID=MGA_41;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980665.1;translation=MKKIYFLIPLIILIIALIPLIFISHHTISQVEVEGEGILGYGYLSLEKGIGENISMYYINVTVNNPGKSEAICYAKNNDNTISFNCIYVFVNGKYYGESIPPGLNNITILVNHNITLPYLDLYLGNGQNLIINIKK;locus_tag=LOCUS_00410;note=WP_010980665.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:38.0%25%2C q_cov:97.8%25%2C s_cov:98.6%25%2C Eval:1.6e-14],MGA_41
sequence1	MetaGeneAnnotator	CDS	29379	29669	.	-	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIHEFFNCNSVKCMKSGEFCVEVDNVKITFTLDFTLGPITEISLKSSNYKVNCKILFDSRKEKIISVDCYGFKADKICKSLKECFREKGLLYASL;locus_tag=LOCUS_00420;note=MGA_42
sequence1	MetaGeneAnnotator	CDS	29666	30004	.	-	0	ID=MGA_43;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILTLLKFEIKGEQFFPSQIKGKIALQKNVVLIVKTQARALYVDYIGNDSNIGAYNPPVFLSGKIYFYEVVKIPEEYSSYIKCIAKEIENKLNPLYKNKNLNCKDDITVVVK;locus_tag=LOCUS_00430;note=MGA_43
sequence1	MetaGeneAnnotator	CDS	30203	30346	.	+	0	ID=MGA_44;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPRISILKTAEINGTEVRIALRSILLMGKGLNVRRVNKDTENMIFME;locus_tag=LOCUS_00440;note=MGA_44
sequence1	MetaGeneAnnotator	CDS	30564	30758	.	+	0	ID=MGA_45;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKITQICSCSILTILGIFLLLSGIIGGISYFRYSPDVPIYLGILLLSLATISISISIANRQNEW;locus_tag=LOCUS_00450;note=MGA_45
sequence1	MetaGeneAnnotator	CDS	30776	33970	.	-	0	ID=MGA_46;product=molybdopterin dinucleotide binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980475.1;translation=MFMINMSDKRPSYPRNSKVPLPPVNAEYYTTVCRFCNTGCGYQVYVFPADKAGEPQAGKNALVWNVVDKIYDRNLKDYKADYTAPAPPLGALVGEPWIGEGMVSKTIKRNPNTGVWEEVYIEMVPSPECPANEGNYSPRGGRNAKRIWSTFISDDGSGFAQYWARAKNPMVRFNGSLQAVSWEYAIDVVARVLKYYLDHETYEYPIGPGALQLFVDRVTHGGGQGGGNITTMVASLFFHLAMASPMIRSHYQPTLTMTTAGFIDAAQDPDNSSMLDISIADSIVIWGANEYSTSTVNFIQHMFDNLKGITQTRKKKYFEPGEPIPPTQMAIVEVRNTETVKAAEAAAPNPKEQVLYVQVNPGTDTVLINAVAAYIYSTYPDVVKHFVSLYENAKVYGFKWMSSSYQDYVKEILTSKPLEEILNDASKTTGVPVDTIKRLGDIIAKPKIGTDGKVYYRRTVIEYEKGLIWTINYLPQYALANMCMISGALSGRPGCGCQITGGHQRGYAGPNPPPTPWSDGIRDWISRPSKTIYEEYTKTLYPAVDKYLPIIDSRLISGQGKIFYTFDANPFKLSYNIPKLQQVVNRRAQALSNYINGVSGLGDVSEKVGDTFNVDAVKKTNPEFPTSEEYANLIIDGLNKVSGALFVILQDSYLDQNFLGQYSAHVVLPSAVNNGEMYEMRYNAHERRFRLSEAFHDPPGEAMPDPWIYGMISYRIYQLYEEEGRQSSAQAQRIYKAFNPLWTYLKKYMKPNAPLMEKIPFSHRYEDYDWFNIANDFWVTYVANADTFFGKSGINWPYGWTIIHWSPGWKYMNLKKFKLLRTVGEVLPIVGAEDNPNGGFTVYGVVNLAEPGIHGKFRVEKIIVDPSQSVTVGTITLPLIIRELGYMTLDEVREKFGYDLLPWVINTFYPWPAYFPGYYGYMKEARQKYKYNANNGRWEILWQSCWPDFEVPEIRSRVPYVFIMISKEDADNEGLKNGDIVEVYNDYGTLTGVIWISNTASPGVLFIAMANPHQQAANLITLPNVDPATGNWTFKMTWANIKKIGSLPEIEKEQLVFAPIDFRT;locus_tag=LOCUS_00460;note=WP_010980475.1 molybdopterin dinucleotide binding domain-containing protein (Sulfurisphaera tokodaii) [pid:48.8%25%2C q_cov:98.4%25%2C s_cov:98.1%25%2C Eval:1.9e-312],MGA_46
sequence1	MetaGeneAnnotator	CDS	34547	37879	.	-	0	ID=MGA_47;product=molybdopterin dinucleotide binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980475.1;translation=MSSSSQSNVAYPRNSKIPLPPVTAERYFATCRFCNVGCGYDIFVFPDNQAGNPKAGQNAVVYNMVDKVFNRNLQNYMADYTQPVPPLGAQIGTPWIGEGMVSRTIRYNKNTGTWESVYILEVPSSECPVNEGNYSTRGGRNAQRNWSPFSDNAAGFRVYTTRIKSPLIRWNGSLQPVGWSYAIDVAARILKYYLDNENFTYPDPVGPAATQVLAIRADHGGGQGGGVFSNLMPGLLIHMGLATPFVRFHYQVAFSFTQDALEEATNGNGTDTASMLDISIADVLVLWGIDEYSTSTVNFIQHIFDNITGVTVTRKQQWFESGEPAEAGKIIIVEARPSETVKAAAAKLGITVEQAQSGQSDQMLFVQVNPGTDSELANAVAAYIYYTYPDVVNNFISTYKSASSYGFMFNDQTYEYYIQYLQSKSLSDWLSEAEQITGVPQNIIMKMGDMLAKPKTNSSGQTFYKRDLFEFEKGIIWSANYTPIYSVANLGIIVGALSGRPGCGVSTGFGHQRGAAFPLPPPPPWSSNLSQSRQFFIQMHEYVPKQLTAQGITPSGTSIADYIKKFYNEYTSTLVPQIYQHNPVIDYLIYSGYGKVLWTFTANPYKLTMGGGKLAQVIDNRSHLLQECVENTQSLGIPSSSSTTPSSSYNVSAVSSTIPQFPTSDQYASAVISCLSGSSAVSGAMFVVGNDIILQQNGLLERACHLILPSASNHGETYEIRWDGHDRRLRLDEVYHSPVGMAMPDVWIYGMIAYRIYQLYQAEGNGSSLQAQRIYNAFNQVWSLLTSNMAQNSQPLSVIPEYSENYYDYNWFNIYNGLWNYYVANGPINFKSWPYGYVVPHWAPGWSQIDLTDLQAARTIGVQLPILGKTTNADGSFTLWGLVNYAEPAIAGKFRAEKVTINPNQSVTIGNTTLPLITREVVYLSIDDLQSMFGYSWNDLLPYVINGFNPFPTPYVGIFGYAAQLSQKYKYWANNGRWNIIFQSGWVDYQIPEILQRLPYPIIMMSEQDASNEGLQNGDIIQAYNDYGSVDGIVWISNTVPPGQLFIAMAFEVKPGANQVTTETVDPVTDNQMVKWSWVNIKKVGRLTQDQIQQMTFAPIEFQIPSSSGS;locus_tag=LOCUS_00470;note=WP_010980475.1 molybdopterin dinucleotide binding domain-containing protein (Sulfurisphaera tokodaii) [pid:72.0%25%2C q_cov:99.8%25%2C s_cov:99.9%25%2C Eval:0.0e+00],MGA_47
sequence1	MetaGeneAnnotator	CDS	38032	38595	.	-	0	ID=MGA_48;product=DUF1404 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980481.1;translation=MIRYIPSSFSWKSIILPIVFVVAFVNPYVEILQFNNPVIFMLDHYALYAAGVLIGYKMFKGSIYSFILGIIPAVFWHVPYFFALAAAYIDFRALCEITLFLGGLLAGSFIYKMSLTLRIISLAVYMLGDTLLSIFFILAYPQYSNATYRFLSWSPGALPAVGIAMLIVMNLILVYSIIKIMKSAMIF;locus_tag=LOCUS_00480;note=WP_010980481.1 DUF1404 domain-containing protein (Sulfurisphaera tokodaii) [pid:61.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-65],MGA_48
sequence1	MetaGeneAnnotator	CDS	38685	40268	.	-	0	ID=MGA_49;product=proton pump complex quinol oxidase subunit SoxB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980480.1;translation=MAKLYPKTTLGISLLFTAGGLSWLAAMGLAAMWFRTILLSPHINIKAGYAIAPLYYFLVTFHGQAAMMIIVEDVTFSVFAYALYKSGMSLLHNKLITLAFWLVNIPMIVEFAGGPTTGWYMYPPLALQQGTWIFYRGDMIGLAYFMMFLNTIGVIIASITMFIDGYKTRPKEGKMPIFAAYGMTFGGPFTFITEFALSAATLWYALYFWASVPVNPLTWVVLFWFWGHPVVYYAPFAIFGGLYYLIPRFSGRSLFSEKWARWNMILLFTFGMLVWVHHLQTWPLPVVLRAFITPTTLILAAGSGLTVLNLGLTIATGKGYNWKDPVGLASLIALIGFILAGLQALMLPINPLNVIVHNTYYIVGHFHLMIWTIIIVGYIAILLDMLKTKMGNVTFSSLGKGMVSGGLIMWTIGSLALGYTMSYAGYIGLIRRWVAYPIKFVPFMDTMTYLAIMLGASFVMYALPILFTLLGIKTSLFWETIPISGLPAGISGTMGPVAPTGGANAVDSSENTKANLTDNIHTTSKNS;locus_tag=LOCUS_00490;gene=soxB;EC_number=1.10.3.-;note=WP_010980480.1 proton pump complex quinol oxidase subunit SoxB (Sulfurisphaera tokodaii) [pid:64.3%25%2C q_cov:97.2%25%2C s_cov:97.9%25%2C Eval:1.5e-200],MGA_49
sequence1	MetaGeneAnnotator	CDS	40270	40809	.	-	0	ID=MGA_50;product=proton pump complex quinol oxidase subunit SoxA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980479.1;translation=MSSHQGHDWEKIWFVVMLIIVAFFVGWSYTTIMSGSAATYRTGLPLASGLPTKLPNGTVIIYMLAVQWSWIPQNATEIIYTPNGTMENISVNNIITYVNGFPYIKVYPNQPVEMVLYSNNVVHAFYLRLPHGPQNWNIVPGINSYAFFYAPPSPGNYTFHCAEYCGIGHSYMYGYLWVM;locus_tag=LOCUS_00500;gene=soxA;EC_number=1.10.3.-;note=WP_010980479.1 proton pump complex quinol oxidase subunit SoxA (Sulfurisphaera tokodaii) [pid:78.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-84],MGA_50
sequence1	MetaGeneAnnotator	CDS	40909	41046	.	-	0	ID=MGA_51;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEFLAATYAPPSSISFEDIFGFGLAGVGILGGILYYLLIRKKAI;locus_tag=LOCUS_00510;note=MGA_51
sequence1	MetaGeneAnnotator	CDS	41280	41930	.	+	0	ID=MGA_52;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRIGVAILVLIFAGTAFMAGFLVYNFSIVLYPVHPTHAAPLLAPITTTTVPPTTTTTTSTTSTSVLPSGAKVLPYDASNHTVFLYITSLSTGTPFNFNGTSNGELHVYIPAGWTVIVYYTNEEAIAHNFNIVQNDTPTPNNVNIEADGKVLLFVGTTSSTYESNGIASGESASGSIALPAGIYWFACGIAGHAESGMWGVIVSSTSVTEPYYVVS;locus_tag=LOCUS_00520;note=WP_010980477.1 sulfocyanin (Sulfurisphaera tokodaii) [pid:67.5%25%2C q_cov:70.8%25%2C s_cov:68.4%25%2C Eval:1.6e-56%2C partial hit],MGA_52
sequence1	MetaGeneAnnotator	CDS	42534	42869	.	+	0	ID=MGA_53;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLVTLAQSLLILRNLNLKPRKYKLEDLTLAIAAYLLGVQVTKLGIPPSTLYYYKKLGIRRKEERPTCPSCNSNKIITDRLEEKQSTSVKRAEKRFTTLITSWTRNKKKES;locus_tag=LOCUS_00530;note=WP_052846156.1 IS1-like element ISSto7 family transposase (Sulfurisphaera tokodaii) [pid:80.0%25%2C q_cov:69.4%25%2C s_cov:24.9%25%2C Eval:1.2e-27%2C partial hit],frameshifted%2C insertion/deletion at around 43046%2C42764%2C43118%2C42992%2C42935%2C43067,MGA_53
sequence1	MetaGeneAnnotator	CDS	43145	43318	.	+	0	ID=MGA_54;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFPKNEVNYTDDYCVYQVLDHVAGKKYTYTIESYNSYCRSHLARLARDTKSIGVNG;locus_tag=LOCUS_00540;note=WP_052846156.1 IS1-like element ISSto7 family transposase (Sulfurisphaera tokodaii) [pid:74.5%25%2C q_cov:87.7%25%2C s_cov:15.9%25%2C Eval:1.3e-16%2C partial hit],frameshifted%2C insertion/deletion at around 43364%2C43045%2C43117%2C43150%2C42991%2C43315%2C42937%2C43069,MGA_54
sequence1	MetaGeneAnnotator	CDS	44086	44757	.	-	0	ID=MGA_55;product=sulfocyanin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980477.1;translation=MAKLDTPVIVAVVVAIILVAVAGYYVATRAPISIVNTTTTLPPKVVSTITSTVPVTTVPPTTTTTTSTTSTSVLPSGAKVLPYDASNHTVFLYITSLSTGTPFNFNGTSNGELHVYIPAGWTVIVYYTNEEAIAHNFNIVQNDTPTPNNVNIEADGKVLLFVGTTSSTYESNGIASGESASGSIALPAGIYWFACGIAGHAESGMWGVIVSSTSVTEPYYVVS;locus_tag=LOCUS_00550;note=WP_010980477.1 sulfocyanin (Sulfurisphaera tokodaii) [pid:54.3%25%2C q_cov:96.4%25%2C s_cov:97.3%25%2C Eval:5.5e-63],MGA_55
sequence1	MetaGeneAnnotator	CDS	45004	45384	.	+	0	ID=MGA_56;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERKIKPKVFAIDVGESRLVATKMEINNNTVKEADTREFKYNEEGLKELIKFLEGYEEGIMEATGVYFYHVYNVLRDNGLKVNVINPVQTVEVLGKKTDKNDSIRLAIAYAAGTVKGSYQREKCKN;locus_tag=LOCUS_00560;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:51.2%25%2C q_cov:94.4%25%2C s_cov:31.9%25%2C Eval:2.0e-30%2C partial hit],frameshifted%2C insertion/deletion at around 45360%2C45483,MGA_56
sequence1	MetaGeneAnnotator	CDS	45372	45506	.	+	0	ID=MGA_57;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQELREMTRHREGLVERKTQVKNEIRKVLETAGYKLPSKRRQRK;locus_tag=LOCUS_00570;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:72.2%25%2C q_cov:81.8%25%2C s_cov:9.3%25%2C Eval:3.7e-08%2C partial hit],frameshifted%2C insertion/deletion at around 45360%2C45483,MGA_57
sequence1	MetaGeneAnnotator	CDS	45506	45949	.	+	0	ID=MGA_58;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLATDEKLTDEEIKEYSKLLGRKLTRIEAFILKQLLDLLNIIEEQIKEVENEIMKFLPEEAVVTKIPGIGPISAATIYAELGDVSRFESSKQAASYAGVSGLSRAGRPNFTTVSSRGISTYPAFYSLLQGPLRTRPNLMASIKPC;locus_tag=LOCUS_00580;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:50.5%25%2C q_cov:68.0%25%2C s_cov:26.2%25%2C Eval:3.8e-20%2C partial hit],frameshifted%2C insertion/deletion at around 45360%2C45483%2C45816,MGA_58
sequence1	MetaGeneAnnotator	CDS	46254	46451	.	+	0	ID=MGA_59;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHVTSEGRVYTTTRVMKKY;locus_tag=LOCUS_00590;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:18.5%25%2C Eval:4.4e-17%2C partial hit],frameshifted%2C insertion/deletion at around 46586%2C46692%2C46421%2C46550,MGA_59
sequence1	MetaGeneAnnotator	CDS	46504	46689	.	+	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILQGKRDQDTTSKPKLWKEKDLRGKQIFTTKTSKHGKQGKGVQLQPIERTSNTIRLPKS;locus_tag=LOCUS_00600;note=MGA_60
sequence1	MetaGeneAnnotator	CDS	47665	48174	.	+	0	ID=MGA_61;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILGYVGFYPYIGYGIGATVTPPWPYFIYWEATSPGFWINIGPYESDTVPFTAFIGVLLAMLIGANIEKIFELYKTIKNSRRISTAIVAIPSIGIISGTSCCLSLPSILIYLTALSIGAVSSVLGILASPLYFGLAYYGLPIGSVFLLLVNLRDMNRIISKCKIYNIKR;locus_tag=LOCUS_00610;note=WP_010980473.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:55.0%25%2C q_cov:97.0%25%2C s_cov:66.4%25%2C Eval:5.3e-47%2C partial hit],frameshifted%2C insertion/deletion at around 47688%2C47709,MGA_61
sequence1	MetaGeneAnnotator	CDS	48322	49812	.	+	0	ID=MGA_62;product=proton pump complex quinol oxidase subunit SoxB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980480.1;translation=MKLYPKSEINVSLMFTLGAIAWLTAMGLAAMWFRTILLSPHINIKAGYAIAPLYYFLVTFHGQVGIFIVVPDLALAILAYSIYKSGMSLSHYKLISIGFYLINIPLIVEFAGGPLTGWYMYPPLALQASSWLVYRGDMIGLAYFMMFLNTIGVIIASITMFIDGYKTRPKEGKMPIFAAYGMSFSGMFMPITISALSAATLWYALYFWASVPVNPLTWVVLFWFYGHPVVYYVPFPVFGGLYYLIPKYAKTTLFSEKWARWNIILLFTFGMIAWVHHLQTWPLPVVLRAFITPTTLILAAGSGLTVLNLGLTILKGKGYNWKDPVGLASLIALIGFILAGLQALMLPINTLDVIVHNTYYIVGHFHLMIWTIIIVGYIAILLDMLKTKMGNAEFSSLGKGMLIGGLIMWTASGLALGYTMSYAGYIGLIRRWVAYPIRFLPFMDTMTYLAIAMGSSFVMFAIPILFTIIPLKTSSFWTQIEVTSGNIPGTMINDKK;locus_tag=LOCUS_00620;gene=soxB;EC_number=1.10.3.-;note=WP_010980480.1 proton pump complex quinol oxidase subunit SoxB (Sulfurisphaera tokodaii) [pid:63.1%25%2C q_cov:99.4%25%2C s_cov:94.5%25%2C Eval:9.6e-186],MGA_62
sequence1	MetaGeneAnnotator	CDS	50190	50831	.	+	0	ID=MGA_63;product=arsenate reductase (azurin) small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980476.1;translation=MAEGKGSGKGNDKVDTNRRAIVIGGAAAVAGLAAGIVIGGDAFPRLLQKTVTEVKPEVTEKEVTKTVTVTKTVTVPEVEQYQKQKIANYSQLSVGQPMSATYMGYPVFIVRTGVKSINGVGPNGDVVAFSALCAHMGGPVQYNPNTNCGVCPYHYSEYDLTRGGMPVIGHPNQYLAQLYLEYDESTGDIYAVGFNRLVYGAHNNVLQSTTSTS;locus_tag=LOCUS_00630;EC_number=1.20.9.1;note=WP_010980476.1 arsenate reductase (azurin) small subunit (Sulfurisphaera tokodaii) [pid:52.6%25%2C q_cov:96.7%25%2C s_cov:96.3%25%2C Eval:1.5e-54],MGA_63
sequence1	MetaGeneAnnotator	CDS	50986	51756	.	+	0	ID=MGA_64;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846787.1;translation=MKGYYYFAGLAFGLLLLYIAPNSPNYSMYSVVGNLMFWISLVIILYKSVLHNAFAYVRKNLSRVTIAIFGTYLSIHYFVYSIALEKILTGIYGQLFFVNSPFVTFTITPFYPSSLYATFVNLIFNPSIVAGIPPDYYIELSFYAIFMGFIIATLVTANIVRVIRIAGFLKKAKIILLAPLLGVIGGGSCCISIPILLATAIPAANVLFFTSLGNSALFLAYVILPPLTAIGLKLNYDALTPKPPKEIRIKELNIRK;locus_tag=LOCUS_00640;note=WP_052846787.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:56.7%25%2C q_cov:93.0%25%2C s_cov:92.9%25%2C Eval:1.4e-79],MGA_64
sequence1	MetaGeneAnnotator	CDS	51758	52159	.	-	0	ID=MGA_65;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGISRPILGHVSDKIGRAKTVLLVDILITFGALLLTINLIGPSVLVIGFFGGSMITLYFSLVGDIFGSKFSTSNNAFLYTGKAISGIMGSVIFSYLFLTMPEVSRLYTLMCGITGTLLLVIAMPRKEILKVR;locus_tag=LOCUS_00650;note=WP_052846664.1 MFS transporter (Sulfurisphaera tokodaii) [pid:53.5%25%2C q_cov:97.0%25%2C s_cov:35.1%25%2C Eval:3.3e-33%2C partial hit],MGA_65
sequence1	MetaGeneAnnotator	CDS	52158	52511	.	+	0	ID=MGA_66;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGNKLISITKSCNGRALPMTDNEEDITVNGTAAVTKEKYMSHHLGETKISLGVFPVKPLAGYLENDRRVGKIISSIKPIISVISLKLVNEAIIGLVSDAPTPNPKETKPVANPLLS;locus_tag=LOCUS_00660;note=MGA_66
sequence1	MetaGeneAnnotator	CDS	52644	52817	.	+	0	ID=MGA_67;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDENMPTILGPLVSAKYPPTVWKVVENIVKRVKATSISTMLTANPFLNKGSNAFQEY;locus_tag=LOCUS_00670;note=MGA_67
sequence1	MetaGeneAnnotator	CDS	53322	54104	.	+	0	ID=MGA_68;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDYTEEFLLPADKSSIVSILADPSRFSGITGHIAFFKIFDSEKQNYVAQGSAVRPINKYRAVFIYEDNNGNLNHVLGTMEGPEIMPNQISYKGESDDGKMSASFVFSFIPKGSDTRLNIKSEISLRQGFFSRLFNKFYGNMAEHIVKCHIIPYLSKIGPQVSYNLTEISKTLGNMNELILTLRNLPKIDLGCVIIKGDTFKFVASIKEGELRNMRLKSNGDEINGGEALAKLFTLNGRAEMSIYKLPAEEVLLEKINKL;locus_tag=LOCUS_00680;note=MGA_68
sequence1	MetaGeneAnnotator	CDS	54184	54555	.	+	0	ID=MGA_69;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980317.1;translation=MSSNLDPVQIAKMPFTERNDAIMHAFNLLLNLDDKSKLEAFKGLLTALGTKAKDEEYINWCDSTLRVLSMYPDDVIKAVLSLRMKAVSELPKELQEKDQKMVTQVLNGLDPSIKEKILKEMKS;locus_tag=LOCUS_00690;note=WP_010980317.1 hypothetical protein (Sulfurisphaera) [pid:50.8%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:1.6e-32],MGA_69
sequence1	MetaGeneAnnotator	CDS	54568	55323	.	-	0	ID=MGA_70;product=sulfite exporter TauE/SafE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846195.1;translation=MIPIYILIIIGIAVGALTGITGSSGVLIVVPALSYLGLSFEQSIGSSLLVDVITTLSVVFVYFKHENVDLKISMILGIGAIVGAQIGSAIAFITPEEGLESVFTIFTAYMAYVSFKRSRNPKLNIKRMNLKTASYVVAPILSLLIGIVTGTLGASGGIMFIAVMMLLFSIDVKRMIGTATLAMLLSAISGATAYSFAGKVDMIASLTIGITALISGYFFARLANKMRPSTIYIFLGSVFVITSISELFRII;locus_tag=LOCUS_00700;note=WP_052846195.1 sulfite exporter TauE/SafE family protein (Sulfurisphaera tokodaii) [pid:74.7%25%2C q_cov:96.0%25%2C s_cov:94.9%25%2C Eval:4.9e-98],MGA_70
sequence1	MetaGeneAnnotator	CDS	55347	56042	.	-	0	ID=MGA_71;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000224891.1;translation=MALITANVGDLGEKSIIVGNLQRMKTVTSLLDNPKQVSEFAGYYTYVGNYKGEKVSVVFHGIGIPSLTLVTHDLYNLGVKEIVRFGSATGLKDVKPGQVVVPIGYSYNLGGTFYQYLNGEFTSYALTPDYDLLNKVVGNLKQKSLEVRVGNVFTSDALFTHTKDYLEKLSSRNHLAVELEGAGLYFLGNLMNFKTVSIHLIYRNGITGESLSQEEISNKEKTIAQAILESL;locus_tag=LOCUS_00710;gene=deoD;EC_number=2.4.2.1;note=WP_000224891.1 purine-nucleoside phosphorylase (Vibrio) [pid:32.2%25%2C q_cov:98.3%25%2C s_cov:96.2%25%2C Eval:8.7e-27],MGA_71
sequence1	MetaGeneAnnotator	CDS	56174	56995	.	-	0	ID=MGA_72;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846403.1;translation=MESKRVANIYAKLYAFIYIRGFKIWTSYKTQVILTILSWTLPVFTYYFVGTSLGNSIVSKIGVSNYTSFFVIGLAFQGYVSSVITTVSQRIRNEQLYGTIEYYVLSKSGVTSFLLYSSMWGFTINTINALVILSVGLGLGVNYHIDILASLLVIILLILSTLGLAFLSGAFTMIIKQGNPISFFFSTFTTLMTGVVFPVAVIPSFIRGVSYVLPLTWALETLRETMLEGASLPQVAFQLLILAIFDAILLPLGILAFKLAFKKARIKGTLGEY;locus_tag=LOCUS_00720;note=WP_052846403.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:62.3%25%2C q_cov:98.2%25%2C s_cov:100.0%25%2C Eval:3.2e-93],MGA_72
sequence1	MetaGeneAnnotator	CDS	56977	57891	.	-	0	ID=MGA_73;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846404.1;translation=MIDVIKLTKIYKLKNKQVSALSDVSFTLKSGIGSLVGHNGAGKTTLIKILSTLVIPTSGDAFIEGHSVTREEKKVRELVGLVSVSERQFYYRLTAMENLLFFSSLQGLSITEAKKRAKEVLEMLNLSEWENVQYMKFSTGMQRKLALARALITDPPVILLDEPTLGLDPLSAREFRNVIKNFKDKTILFSSHYLKEVEELADKIILIKRGKIICEGNAEELKSKLGKVVEVKVREIPRGLERYAISLVGEPVLRLPEKETEKLKYFEDIREVEPTLDDVYAYMIGDEEDSIRMERVRRSWKAKE;locus_tag=LOCUS_00730;note=WP_052846404.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:58.7%25%2C q_cov:98.7%25%2C s_cov:98.0%25%2C Eval:1.1e-95],MGA_73
sequence1	MetaGeneAnnotator	CDS	57934	58335	.	-	0	ID=MGA_74;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAKPSGKIPIEGKVWLDGKEVESKLFLHVRGYNRARVTHIDIEGEKIRGLIRPRHSVYPEVEWKDKVEIPIYDHILILEIPEIKLEFKGNLYVGGKGKGIFLGFHRDQIKILEEIAKQKGVIPPLKKTNTKV;locus_tag=LOCUS_00740;note=MGA_74
sequence1	MetaGeneAnnotator	CDS	58461	60143	.	+	0	ID=MGA_75;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979769.1;translation=MESKWIALTNTTIAIFMAFANYNMIIIALPAIFQGIDFNPTNPSAIAYLLWLILGYMIITSSFVVTLGRISDSLGRAKLYTIGLVIFTIASALLSAVTTKGTTAILELIVFRLLQGVGGGFLMVNSAAILTDYFPRNELGKALGLNQVAGLVGGIAGLILGGVLSAINWRFIFLVNVPIGAFAAIWSYRTLKDIGQKRKGKIDIKGNILFTGFITLFLVAISYMLIPYGGSQLGFGNPIVWIGLPISLAMLMAFIFVETKVKDPMFNLSLFKIKDFSIANLTNLTASLVRQGITILFILLLEAIWLPLHGYSFSSVPFWAGIYLIPNLVGFAIFGSLGGYLSDRYGSKYFTSGGLFISAVGFAILYFLPYDFNYTIFAITIFIIGGGMGLFNSPNMADIMSSVPINQRGVASGMRAALGNTGSTASVAIYFVIIISGMALALPSALSSALHSAGISSVPYIPAAVALFSALLGYDPLSSLAAKLPPSVAAQVSQPSFFSDAIAPAFMAGFKEIVLISIIILIVSGVLSLIRSGNRIGSVGEMGGNPQRVQESQEITSKRS;locus_tag=LOCUS_00750;note=WP_010979769.1 MFS transporter (Sulfurisphaera tokodaii) [pid:47.2%25%2C q_cov:94.8%25%2C s_cov:98.2%25%2C Eval:1.3e-141],MGA_75
sequence1	MetaGeneAnnotator	CDS	60067	60474	.	+	0	ID=MGA_76;product=MarR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846786.1;translation=MEALEKWEEILKGFRNLRRLLQREAEKYGYSSTEIQILYQLHIKPRNITELSELIGIGKSSVTEIIEKMEKRNLVKKIKNENDKRYTIIKITEEGEKALEQTREEYKKILSSILERVNAEEVIKFFEEIEKELNR;locus_tag=LOCUS_00760;note=WP_052846786.1 MarR family transcriptional regulator (Sulfurisphaera tokodaii) [pid:39.1%25%2C q_cov:97.8%25%2C s_cov:97.1%25%2C Eval:7.5e-25],MGA_76
sequence1	MetaGeneAnnotator	CDS	60463	61155	.	-	0	ID=MGA_77;product=TIGR00266 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978627.1;translation=MPQYQIVGQDIQYVKVYLNSGEKIFGDAGHLLMKTASVNMQTKMRGGLFGALKRELTGGTFFVTELNGPGEAVFAGIFPGKIVQIPLNGQGIIAESHTFLFAEDGVNYDSQMARLSVGILGGEGLFLARFHGNGNLFIHSYGGLYIKDLAPGEIIQVEASHLMAFQEGMQYSVSRVGGLRSLLFAHEGLFFVTLQGPGRVWIHSLTAEQLASALIPFLPSGQQGGFQLPI;locus_tag=LOCUS_00770;note=WP_010978627.1 TIGR00266 family protein (Sulfurisphaera tokodaii) [pid:70.7%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.3e-94],MGA_77
sequence1	MetaGeneAnnotator	CDS	61305	63083	.	-	0	ID=MGA_78;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRKAISPVIAMLFVLLIVIVILIPLSYMIFSIPTSSDMAQANAQIYETSSQQQLSEITVIRNNLQLSSNNAMGSITPKYFGLVYDNSELYVLILQNNPSVPLVIKTILGLNSKNEWTVINKNVNIVINETNINSKFNGYDSVKIPVSGNYNAIAVVTNLGNIIAVPPYTVILTTYETEPAGIVSLNPNSFKVLQNPQFTINSTAPLQALMAEYGNTLTLYSGELCPSSESSFFYINSYYSGSMYPESNPLEINGSISGIFDLSSNSQLTLNGMFDGNITLVPSLLSSQQPTLVVNGSVSMTVLGSMISLSNFDGTINGTAIKSLTINATSATIIKGKGIISITPSYYYGFLGLISYFTTYINGSAVGKIIIENPESNVFNYHAEFDGNMEGNISVSNIVSNIGPFNLNLNNAGFSEFAGIINGTFNSGIYSSNSMELSVYKEENIIVKPQISSFFVETPITVKFNFAISNPSNKTIEIYYAYVSFDEYFVFSLSGSSGPQSGEFIGLVKVPLSINISPGESVNRTLIVSIPQQLFSSVSLSNILKTQQNMFVITPTYETINLEFYSNIGYLTSGTFVLPVQSPPIVYPQSD;locus_tag=LOCUS_00780;note=MGA_78
sequence1	MetaGeneAnnotator	CDS	63088	63612	.	-	0	ID=MGA_79;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNIISTFILVIATIIIGLIALGLFGGYFGIQASNINNIKQAQEISMSLQIRELQISNSSGINFVIYPFIPSYNIALYIVAFQVSSSLQNSQTYVTPLQSEGWVNVNYTIGSYRPIVVYSDSGSVLYNGNAYIYSTHSNSVQFIYLKNGENAILWFIVNLNGQYYRIGYVWISG;locus_tag=LOCUS_00790;note=MGA_79
sequence1	MetaGeneAnnotator	CDS	63818	64804	.	-	0	ID=MGA_80;product=alcohol dehydrogenase catalytic domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980693.1;translation=MRNLKALVFDKNGIENLKYSDVDMPMIKDDEVLVKIVKSGVTQLDYMTISSMKVNPIPHIAGSEFSGIVEEVGNNVNNVKEGDKVAVYTRTFDGNCNYCKRGLEMLCKAGRRIGIDENGGYAEYVKVPARNVIKANLDWEIMPALSISALASYHALKYSRIKKGDVVVVFGSSGNAGLFASQLAEIMGGIVVSVTNNELKVSSNVVTYTEVEEAVKNITDGEMADIVVNPLGSKYWDLGLRLLKQGGKMVFFGTLSGNKVTIDLTQAYLRHISFIGTVRGTFEEFRELTEICNKCKSFVWKEFPLSNGKEALLSLFSKERKGRILISI;locus_tag=LOCUS_00800;note=WP_010980693.1 alcohol dehydrogenase catalytic domain-containing protein (Sulfurisphaera tokodaii) [pid:46.5%25%2C q_cov:98.8%25%2C s_cov:99.7%25%2C Eval:7.4e-82],MGA_80
sequence1	MetaGeneAnnotator	CDS	65042	65422	.	+	0	ID=MGA_81;product=Hsp20/alpha crystallin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979712.1;translation=MSFSGIVKKEITKRVEDLTRSFYESALPPVDIYEEGGYLIVVADLAGFNKTNIHARITPQNELVIEADREISETGTKYLTQRPKSIRRVISLPVAVKKDGEITGKYENGVLTLRFPVEGSATVKIE;locus_tag=LOCUS_00810;note=WP_010979712.1 Hsp20/alpha crystallin family protein (Sulfurisphaera tokodaii) [pid:66.9%25%2C q_cov:93.7%25%2C s_cov:95.9%25%2C Eval:1.1e-41],MGA_81
sequence1	MetaGeneAnnotator	CDS	65427	66836	.	-	0	ID=MGA_82;product=AarF/UbiB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979711.1;translation=MIRHYRKLMLEGKSLDDKEMEKEAEKLLNALISLGPAFIKMGQMISVHSDVLPEPYLKVLSRLQDQVPPSPWEEVKKEIEEDLGEKINEFEINNEPISSASIGQVYLAKTKEGNEVVFKVNRPKIREVVKEDVEVIKRLLPFLRFLFDESFYESFKAIVNDFSSRIFEEMDFTKEEFYMKKIKEELSEFPDVRVPEPYFATKRVLIMEYIKAHKVTSEEAKKIIQPSYLAYRVFKIFMVLLLEKEYFHADPHPGNIAVDDEGNIVIYDFGMIGRMDKDTRNKLIRAYTALIRLDGVGLVRVLEELNAVQPEADRELLAKGIELFLKGFQGVTPETLEVEEFIQAANEVFYRFPLRLPEKMVLYVRMTSTLGGTCTQIDPDFNFFERLVDLIEDEGLVFPAMIDEVKDTLSNAIRKFRLSLLEKPEKPKKEKYETLPIAIIVLSIILYIAFKQPILSILLAILGVVLKRG;locus_tag=LOCUS_00820;note=WP_010979711.1 AarF/UbiB family protein (Sulfurisphaera tokodaii) [pid:65.1%25%2C q_cov:99.6%25%2C s_cov:96.3%25%2C Eval:1.5e-180],MGA_82
sequence1	MetaGeneAnnotator	CDS	66925	67656	.	-	0	ID=MGA_83;product=DUF929 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979760.1;translation=MRRSITAIVFAIAIIFIILFSYWGNVISLFMPDPLNHLVKVANRDFAGNSTEIYFISWYGCPYGATLSWPLYVMLRHYGNVSVQPHYSIFESDIGEPVPGLIFTNFSSNSSIQFHYIYLYNQYLNATPNGTKITNLVQYGLEIIKNKTPEWVYSLVEKYEVNEPLAGFMLSVVNSGNPPHIATVLIITDPKGTWMLIGYPSSLTPGQILSISTNSTSLLKDINSGNVPSSIYSYYEKLEETLD;locus_tag=LOCUS_00830;note=WP_010979760.1 DUF929 domain-containing protein (Sulfurisphaera tokodaii) [pid:39.4%25%2C q_cov:81.9%25%2C s_cov:76.9%25%2C Eval:5.2e-41],MGA_83
sequence1	MetaGeneAnnotator	CDS	67701	68201	.	-	0	ID=MGA_84;product=thiosulfate:quinone oxidoreductase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846665.1;translation=MERTVIIGIIFAILIAGWILGTGQWSYGNVVGPLFNNSKLPKLDITYANAYPVSNGTEIILNITDIDGPDAYPASGTMMIISNSTYSLTLNSSEIYHDTVKIIQAPWNENKKDSVNSYSGFVIILGSEAQFQLIIPVHLSPGTYKITLVTPAISPSRWATATITIS;locus_tag=LOCUS_00840;gene=doxA;EC_number=1.8.5.2;note=WP_052846665.1 thiosulfate:quinone oxidoreductase small subunit (Sulfurisphaera tokodaii) [pid:62.9%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:3.9e-55],MGA_84
sequence1	MetaGeneAnnotator	CDS	68207	68755	.	-	0	ID=MGA_85;product=thiosulfate:quinone oxidoreductase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979923.1;translation=MAGKEMLHAGNSTRMEYLWPVRFAVGWMYLDGGLRKAVLKPAKLDPNSASFVGGKLVNFLPHAGPFKGLLLFTLENKAFDVTFLTIFSYVEIIVGLFIVIGLLTRLASLGALGMAVGFAPAYWLGSTCEDEWQIGALLTAGAVTLMLTAPGRVFGLDYFLYKKFGDRPLAKNVPILKWIKLW;locus_tag=LOCUS_00850;gene=doxD;EC_number=1.8.5.2;note=WP_010979923.1 thiosulfate:quinone oxidoreductase large subunit (Sulfurisphaera tokodaii) [pid:81.5%25%2C q_cov:95.1%25%2C s_cov:95.6%25%2C Eval:8.7e-81],MGA_85
sequence1	MetaGeneAnnotator	CDS	69143	70342	.	-	0	ID=MGA_86;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979895.1;translation=MSNSTNYLGSYISWVMDSYDLGAVVITASILEKLYYPTLGLLGAVLPIVFTIISRPLGGFVFGYLADLRGRKKALIFTVLGYSLTIGLTGLLPTYYQIGILAPVILSLLRLMQGVFIGGDVSSSFTLAMESVSRRRGLTSGIMQSGTLVGFVIVDLLFTFLAPTKDFISIGWRYIFILGIIPAALAVIIRAKLTESKVFLEAKKESPLIGLKPIIQTILVMIGFWIMIYAGPQFVPVLFGTVMHLSPAVYGPLALFMNLIGIPAMIISGLISDYIGRRTMAIIGSIISVLAAGIFYFGIEHALLLPTLIFGFGINLPSAISPAYLAERFKTFSRATGVGFSYNGAFIVAGFSSIYISLFSKISNPYIAAFTVLSIGAIISIFGLSMGPETLKTSELKVE;locus_tag=LOCUS_00860;note=WP_010979895.1 MFS transporter (Sulfurisphaera tokodaii) [pid:67.0%25%2C q_cov:99.7%25%2C s_cov:99.8%25%2C Eval:3.0e-147],MGA_86
sequence1	MetaGeneAnnotator	CDS	70608	71813	.	+	0	ID=MGA_87;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980666.1;translation=MAVTSVIAYALPTYVIVAPAYTVNQFNVAQWLAFLIVSIPFGGRVIGALSYQKIIVSLGSRLTFLTSLFSLGIISIASGIVSNIGILIVLRLLVGVMFGLATSFAVEQAIKTGNRFITALTMSGWAIGWIGGAFAYLDLKTWYLIALSGGITIPLSLLYQKTDSFKGEKIKLGLPSLLSVLAFFFAFEPAFILQLAPTILEKEGGLSWLILGYSISVPMYFIIPALARILGETKAIIISTSISALSGTLFFVTGIPYLVVIFNAFGLGINSLAPRISQFYGAGARNMGVALNAAALGGVIVPVVGSINIKIVASLITAISMIALLIMGIKVREGIAVGNYRSTSNYSSISNSVERYNLKYIKIINKLQNYITRSFKRINLSNKRVLAILSTIDFHFYHRFG;locus_tag=LOCUS_00870;note=WP_010980666.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:57.9%25%2C q_cov:84.0%25%2C s_cov:97.1%25%2C Eval:6.1e-108],MGA_87
sequence1	MetaGeneAnnotator	CDS	71854	72432	.	+	0	ID=MGA_88;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNTILAIIVITMFVSSMLGFFIGTKVSYDKINNYTIINVNSKNSDPIPPANIGNNQDYLINPVFPAHTIASQYAYVTQGQGKVFIGALYNSGNGYLAGAKGAAVVASMLAYQPLTEYNYYLYITAPSPINVGGAVKTDSATVMYLASMLGDVSNLNKSMYFLGDVGLEGYMYSTGVVYLNKGFKGGGRLHP;locus_tag=LOCUS_00880;note=WP_052846938.1 serine protease (Sulfurisphaera tokodaii) [pid:66.3%25%2C q_cov:92.7%25%2C s_cov:34.5%25%2C Eval:1.3e-61%2C partial hit],MGA_88
sequence1	MetaGeneAnnotator	CDS	72476	72667	.	-	0	ID=MGA_89;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNTYLNVTTKGAPTAIFTNNTPKQEDKPYKGETKKTRYRGGGSEGPQVDPNQVVPSALQAIA;locus_tag=LOCUS_00890;note=MGA_89
sequence1	MetaGeneAnnotator	CDS	72597	72968	.	-	0	ID=MGA_90;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSSEGPQDNKLLLDIAVLSFGELLRPNGRGFLLQSRGLPKVEVSAPQALRVVPTPSTNVNPQYPNMGLLNGVEAYHIDPRFNQGVSVTLTPSVTAINRIFEKYVFKCNYKGGSYGDFHEQHS;locus_tag=LOCUS_00900;note=MGA_90
sequence1	MetaGeneAnnotator	CDS	72959	73939	.	+	0	ID=MGA_91;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMALAEGKNFKMAQEFALQHGDVLLTATSLPQMYQIETQNPLPEPIGYLDLQYNITAGFKYLSQIYSTLYNSSTNQTIKNMAQSYWLKAEGLAEEGDYIAFYFLPNPAVNAICYLLKTSNYNISNGVNNAIKNASSLNNLWKIETAAEAAYLYDGNMSDKILATSWAALSLSINVGPSITPYGFYEGLYNAFLIDIYAAEYYDSVTGSNYGNVTLLTNIYNNPNVLYDYGFFNNYYAELAINFSNYFLKQLNSTSLLEVKSSIYNYMKSEDNVLENAAAYYDGPSIVGYLMMTYGIQSHNIRDLYYAMPFIRNTMNTEQLTWYNSD;locus_tag=LOCUS_00910;note=WP_052846938.1 serine protease (Sulfurisphaera tokodaii) [pid:64.1%25%2C q_cov:99.1%25%2C s_cov:61.5%25%2C Eval:6.2e-121%2C partial hit],MGA_91
sequence1	MetaGeneAnnotator	CDS	73996	74277	.	+	0	ID=MGA_92;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_054836519.1;translation=MEEVRKLKETGEAYEKLLNEVLNKLFIIIPNCVALNMEDSLIPIYAPSVTKNKGIIAFPYKCEGRIGYIVITEKGEVVFEDTEGESKIIGELK;locus_tag=LOCUS_00920;note=WP_054836519.1 hypothetical protein (Metallosphaera hakonensis) [pid:56.5%25%2C q_cov:98.9%25%2C s_cov:95.8%25%2C Eval:3.0e-26],MGA_92
sequence1	MetaGeneAnnotator	CDS	74282	74596	.	-	0	ID=MGA_93;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979733.1;translation=MKIKSLNIRGDSVEFCYEGSSIRLSVINDELRIYEEVTYEVAIGEIFSKIQIVIKDGKVFLSSLFGENEVNNPQNIINGIKEILELIKNKNTKLYGKINNIISA;locus_tag=LOCUS_00930;note=WP_010979733.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:45.2%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:5.5e-20],MGA_93
sequence1	MetaGeneAnnotator	CDS	75092	75328	.	+	0	ID=MGA_94;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846801.1;translation=MAKQGKPLMAMTMIKSYVQDNVEGKDIRKMNKECRDLIYAILSTPSLNDESWGVFVPAPTEKEIEIVIEKIRDCLSLF;locus_tag=LOCUS_00940;note=WP_052846801.1 hypothetical protein (Sulfurisphaera) [pid:41.6%25%2C q_cov:98.7%25%2C s_cov:89.0%25%2C Eval:5.7e-09],MGA_94
sequence1	MetaGeneAnnotator	CDS	75317	76597	.	-	0	ID=MGA_95;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978004.1;translation=MALPVIPFITNSSEASMIAALGLFGYIPGAIGLSYLADIIGRRPTLIISAFLTTIGSFGDALATNYPMLAVFRFLTGMGIGADLVLVMTYLAEMAPNSKRGLYVNLAYIGGWAGIGLGPFLGAVLVDTYPTIGWRLVFAVGGALALMALAIRATAPETVRFLAKAHKFDEAGRLVSRMEETSMRRANVNMLPEPQILNYTIHHKNPFSIFKNPKYLKRYIVLLALIFFWYFGEYPYLTLFTTWTKDVLGYTSSLEASAIFLFGLAGVASFLGSIGIRPLLERMDRRILVTLANTGFVLGMAIAVLGGLYRSMPLFFTGMVIGNFIGVGWSNQLNYLLATENYPTYARATAYAMTDGLAHLGAAIAQLILLSSLIPLLGSFGGWMVIEFEMIIAGILTIFTIPRTLGRRLEEVNELEELETQTQLKE;locus_tag=LOCUS_00950;note=WP_010978004.1 MFS transporter (Sulfurisphaera tokodaii) [pid:54.0%25%2C q_cov:94.8%25%2C s_cov:86.5%25%2C Eval:4.7e-122],MGA_95
sequence1	MetaGeneAnnotator	CDS	76836	77432	.	-	0	ID=MGA_96;product=sulfite oxidase-like oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978815.1;translation=MEVQLPHGQRYIKKFIYYAALGVPEVDISTYKLKINGLVENKLEFSYEDLLKMIDTKYTKDFHCVTGWSIKDVYWEGIKIRNIVEKSKVKEEAKWVIFYSLDGYTSTIPIEDALSEDSIIALRINGKPLTIEQGFPARPFMPHLYGWKSAKWLTEIEFIDKYVDGYWEERGYHERGNVWEEERFKGHLGKHSPKRPIL;locus_tag=LOCUS_00960;note=WP_010978815.1 sulfite oxidase-like oxidoreductase (Sulfurisphaera tokodaii) [pid:77.0%25%2C q_cov:96.5%25%2C s_cov:95.5%25%2C Eval:5.1e-88],MGA_96
sequence1	MetaGeneAnnotator	CDS	77518	78666	.	-	0	ID=MGA_97;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429682.1;translation=MNKSFPIISAIIIIGITFSLRASNNMIITTLPLIARYDFHFSSILIGVVSSLAAIFAFISSGLVNSKLKSKLRRRFFVLFSIFYAIIFPLFYFSNPFNIWFFASFLGFSMGLIMPNIMTYAGLFPDQRTRERMLSLYTLALSTSLILGPLIESVVLLKFTLFQAFLFFSLFAILVAIFSFFIKFPNDAPENGIKTTPVWKNPGFELSIALNLMYGIPFGMLTTFGGIFAVESFKASYSLATALFGIFFATSFLGRLILTVIPPRNLWTPIWVAASLTVIGLLLVFISPSLMFYILALVILGIPHGLTYPISLISISRSFSVEERNIANSYFSAIMMGFSSFIPIIISSIVNFFGIRDSFALLIPVALAFILFVIRIFLKQKI;locus_tag=LOCUS_00970;note=WP_198429682.1 MFS transporter (Sulfurisphaera tokodaii) [pid:43.8%25%2C q_cov:96.6%25%2C s_cov:93.1%25%2C Eval:2.1e-86],MGA_97
sequence1	MetaGeneAnnotator	CDS	78703	79542	.	-	0	ID=MGA_98;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980523.1;translation=MIEKIIFYEIKRAIARKKVISLIGITLVFEVGTYLALSEVKTPKIEHLLAPISPLLWLAGVLLPQSLLLHFITISISSGSLSEEYEQGTVDFFLTKPITRFQFTLGKLLGGYILVSLIYLFMVTLALVFSFSFFGAQKFLGYLPELISTVLFSALTFYSIAFMIGELLRRSSLAFLIASSILIGSILIGAVLVFVAKLTGIFLFKAIAISLPSWGATELPFLYAQTIPGASLIVQALEIFPAIPGTQIDAIAYVILYSGISLVIAFLSFINRDIPKRVS;locus_tag=LOCUS_00980;note=WP_010980523.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:51.1%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:3.0e-70],MGA_98
sequence1	MetaGeneAnnotator	CDS	79535	80440	.	-	0	ID=MGA_99;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980522.1;translation=MSVRAEEVEKFYGNKHALRGVSLEAENGRITSILGPNGAGKTTLIRIIMGLIFPSRGKVEVLNKDPFKNKKIFKEIGYVQELPNLPPFMTGKELLEMSCRIKGIDKSEIKRVLEIVGMEDSANKKIAKYSKGMTQRIAIAEAILGNPELLIMDEPNIGTDPSLNYNMREMLKEMRKDGKSILMTSHVLDDVKKVSDDVYLIFNGKVFFHGSPEDLIKKFLGVIVIVESDDKESIKSVIKDLDYITNIKFDNKRIILKLKEDRREDLIHYLVTSGIKIRSFYLDDELEEAYLMAIKEASKSD;locus_tag=LOCUS_00990;note=WP_010980522.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:51.5%25%2C q_cov:96.7%25%2C s_cov:96.7%25%2C Eval:1.4e-87],MGA_99
sequence1	MetaGeneAnnotator	CDS	80866	81420	.	+	0	ID=MGA_100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979754.1;translation=MKKYYVYVDESYKENIFALSVIWVKNPAEADRIKADAVRKINKKYHFHFKNDKYNIRRIFLLAILNSKINFGIILFNKIPRCCKDYARYYIAEVINNSPFDENSQLIITIKGIEDWINRKKCNIYDESINFVQKRIFYRIKYNDRSGLEIADYIASVYVYCIFNNFDLCKSIKEKIRFKVNENI;locus_tag=LOCUS_01000;note=WP_010979754.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:39.7%25%2C q_cov:96.7%25%2C s_cov:97.8%25%2C Eval:4.3e-35],MGA_100
sequence1	MetaGeneAnnotator	CDS	81688	82596	.	+	0	ID=MGA_101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKSAIYRHITRALELFNSHKYDLALKEIDKALEIDDKDYDLHVLKSIIFLNLAQYNEALNEINIALLIDNSPFAYATKSFILTEQGNLRDALSILDNIEDLEEYEEIILQKASLLILMDRIKEALALIKNMNSTSAHYIRSYVYYKLKDYEKSLNEIDVIEENTVIKNLYKYIINIKQEKLYNIDYSSIENNNSLIMFLFEYLNGIYSLKYNKYNEAITYFNRALKYNEDIILRSIIENINSINFDLDHKIKFYTFKHGSIVSEYIIYEPYTLIKINEQIHNKKYRLVHTIRSTFIPSIY;locus_tag=LOCUS_01010;note=MGA_101
sequence1	MetaGeneAnnotator	CDS	82652	83257	.	+	0	ID=MGA_102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRLTKRTVTLPIIGYSLATFYLVGFIFYLKYLHFPIFLDTVLIGIPFIGRMLTPILYPLSVIKYGMEKILYLSLAIMGIISILEEFSDSLIILIIFRFITGVLYGLSTSSAIEMASMTKIRLLIGLTMGGWSIGWIFSALSAFFLSNLMLFTGLISIPFILYPTRRHGINLISTPVNSISTHISKKINIDFSVKAFIIFF;locus_tag=LOCUS_01020;note=MGA_102
sequence1	MetaGeneAnnotator	CDS	83627	84049	.	-	0	ID=MGA_103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQLQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVSAV;locus_tag=LOCUS_01030;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:65.2%25%2C q_cov:98.6%25%2C s_cov:39.5%25%2C Eval:2.2e-43%2C partial hit],frameshifted%2C insertion/deletion at around 84075%2C84237%2C84111%2C83631%2C83538%2C84060,MGA_103
sequence1	MetaGeneAnnotator	CDS	83970	84158	.	-	0	ID=MGA_104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILQGKRDQDTTSKPKLWKEKDLRGKQIFTTKTNKHGKQGKGVQLQPIERTSNTIYLPKRP;locus_tag=LOCUS_01040;note=MGA_104
sequence1	MetaGeneAnnotator	CDS	84211	84408	.	-	0	ID=MGA_105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHVTSEGRVYTTRRVMKKY;locus_tag=LOCUS_01050;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:18.5%25%2C Eval:2.0e-17%2C partial hit],frameshifted%2C insertion/deletion at around 84243%2C84075%2C84111,MGA_105
sequence1	MetaGeneAnnotator	CDS	84717	85154	.	-	0	ID=MGA_106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNSNNINTRSIKEESKVITEEFSLTLPISTTLGIMKPAAAARFILGPISLNLILIILDNIGKSEFIPRPNVVNIMNKGTFNVKKLKNPVIDTIIPEIINDLLGFPIMGSNAYPIKATLYESIVSVNYHALTGVASCFKAKACQR;locus_tag=LOCUS_01060;note=MGA_106
sequence1	MetaGeneAnnotator	CDS	85166	85843	.	-	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429719.1;translation=MDKSNLLYEAYKTRKSIDPFEVTEEESNRIFNDFSSKLIKDEGLGGYKISLVTKEHLIRFKGKEPMYGILTKPMITQEKEVELWFQNHFAEVEVVFLANHCSSNNIPECIRDIRLGIEIPGTRFNTWNLNALQLKADDSAAGRLYIGERIDLPVKGVSLYINDKLMGKGKPDFVYGGPLEMLKWLTKIGEINGYVSSGVFIGPFVVKKGDKIRVEGDANFEIKLI;locus_tag=LOCUS_01070;note=WP_198429719.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:50.5%25%2C q_cov:94.7%25%2C s_cov:93.1%25%2C Eval:1.7e-56],MGA_107
sequence1	MetaGeneAnnotator	CDS	86000	87622	.	-	0	ID=MGA_108;product=S9 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979803.1;translation=MQYQDLFKIKPITNYDVKDGRVAFIREEDIPRAYILGEGRIDSNFYAEEVSWINEKKLAVVGDPKGSEKREIYIFEGSLSPILKDEYDNVNPWFITDDKFYFLSNRESNTIHLFLYEGGEINRLSEGNIPVDSFCVSEDGKKVAYSQGIYDQDLHILEVDKWREEIVSLSQSEEFPASSQCFTRDGILFISNKNNYFDIGIFNNGDIKWLKTSNHEKYEALYFNDKLVYIEDNFGDFNIIKDDKIIVSEGYNRNLYVDGNYLYYLGSNYDRFSDLYRVDKDGNIERLTNSMEGISGNFVRPKKVEYKSFDGVNIPSLLYSKGNETKGVVYIHGGPDWECVNTFSPTIQFLVDAGFKVICPNYRGSTGYGRKFNHLNDKDLGGGDLKDVIHAAKFLNLNKIAVTGASYGGYLTMMAVTKYPDIWCSAVAVVPFVNWFTERQFEREFLQQYDEIKMGNDHNLLVDRSPIFFIDNIKTPLMILAGEYDPRCPAEETEQVVKKLKEKGVEIEYKIYENEGHGFAKIENYVDSIRNTVEFIKKCK;locus_tag=LOCUS_01080;note=WP_010979803.1 S9 family peptidase (Sulfurisphaera tokodaii) [pid:53.9%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:4.8e-170],MGA_108
sequence1	MetaGeneAnnotator	CDS	87895	88155	.	-	0	ID=MGA_109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFKKKSHDIKEIFYDRISIPKREIFSFDRDLSKITNNVRFKIKGDLPGIRVADYVSSSIRLYYEKKNDRYYSKIKNKVVKEIILR;locus_tag=LOCUS_01090;note=MGA_109
sequence1	MetaGeneAnnotator	CDS	88281	88460	.	-	0	ID=MGA_110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIDIYCLIIDKDVRNYLAIHDKNFAEKWKIFVEELIESMDSFSSKIPAVLRYLKNNLI;locus_tag=LOCUS_01100;note=MGA_110
sequence1	MetaGeneAnnotator	CDS	88430	88657	.	-	0	ID=MGA_111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIYMDESGTLGSDSEYYIISAVVSYKPRNIEKHYYESINEARLINFILRMIKTRLERYLQNIYLKWILIFIVLL;locus_tag=LOCUS_01110;note=MGA_111
sequence1	MetaGeneAnnotator	CDS	89086	89856	.	-	0	ID=MGA_112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSFSRFRAGINLGWVVGPIIGSLLYYYIGWNFILLLGSLGNLISIPIAYKLNNTKNGNNGVNRKYFIRPSKYLMEIILVQFIFAFVSSQVLFGFTVYSTNILKISSLLIGYFISLSSLLGAVFQEPIGRYMTKLNLKYMYILGSFVFSMSYLSIFYLGNIVGLTMFIIFISLGEIILNPIILSISYIVSYKYHSKGIGMAMGSTRMAEGLGRAFSTSITAYLFSIHDYEISFTLLSLVGIIGLIANRVIYTSLEN;locus_tag=LOCUS_01120;note=MGA_112
sequence1	MetaGeneAnnotator	CDS	90231	91124	.	-	0	ID=MGA_113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNFLRNDIIFVFKGDFMSIINYEELRKYVPEERLDKVKERLEILDSYDLSYITSNFIWKGRRFSPEQVWPIKIYYGKADRELAEKIEKEFRRFVALTVIFPKRLFTAGGAVDLYWHFLILHTKEYEKFSKSVWGIPKHDNVSLKKLLNNDDNSFGLRFNLKPDNVNEITILPKKVLESLDNSSLYRILMLERLDLSPISENLLHSIDEFKFVPEQRFPLIAHFGKIDYEIIKRIELEFKKWMALNIAYGGKELSYVAPSGVVDMYFHLFILHSILYKQFCEIFFGKFIHHPLGELF;locus_tag=LOCUS_01130;note=MGA_113
sequence1	MetaGeneAnnotator	CDS	91117	91356	.	-	0	ID=MGA_114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKVEEYKIIEHIPANSRTRPVARDAYKETRELYIKIFGNIDTSIWPETPMPCGDSYSGAFVDYDEKKYPVEEYKDPFE;locus_tag=LOCUS_01140;note=MGA_114
sequence1	MetaGeneAnnotator	CDS	91813	95313	.	+	0	ID=MGA_115;product=MMPL family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979710.1;translation=MFNGLAKFISKKWYVLLVVWVIVLIVAAPLSSLFFKSVSYSVTISIPGSTASKAENIVSNYFKLQGASSANGVLLLKGNASKYSLFLSNLTSYGNISLESFYTIEKSTLNASLSKIYPSALNLTKNFIKIANNETELYYNLSKNAEKLNSTIPKLENITNSTRLIESKFSEVKDNINTTTNEIEFLHNGMYKNLTSFEILKEGEVKVNSTAFNLTKLLFYPQVAFLKVWISVYDNESLPSYHNVAISNEIAYNYVSKELEEPEVKDFFNIFFKYWNSSYNYQKLSQFPENSSVPYIVADNSIYDASQIFFAQNSTTLNFVDFMLKYFNITNFNQENTFEDFTVNYVHTIYNVPISLAYTLYTTSPLDVVLNIYHEKTNISISLLKDILESNTTQQFSNISLTIILSKVNSTERQFIYQVFYNMSKTPYEFAVNYISYKANISPEIVGELANFTQPIQYINYISEKEANQTGLPVWFFTELIEDHNYSNLTAYLVAPKLAKLNYILERSNITAFNLALYLENATWEKTANISSLLIANFVNSTTLIHINNTKLYHTLYSMIYSNISLSTEINKLISQNTFPVELIQNITNGLFTNNYYIIAMKGNFTYKEAENFESYVENQTHLQPYLTGPKPVTHSLEGIANSAFSIAIPVGIALAIILAGIYFRSIVAAFAPLGTYLAAYLASSVLIWAIVVKILGITIDFLTPSQVLLLALGLGTDYVVFISSRYIEERKKGVSKDNAVEEAVKWGGRAVTITAFVVMLSFLFLYVYNVPFFSDTAIAEMLAVAVVWIASVTLFTSILAALGDKLFFPRKLSKREEKEGKGIRRAGLIVGVITAIVIISAVYAVTTPLTFNILDLLPPNQATEGVNLLSSQFTSDNVFPIYVVIPINSTFNESTYQYALSIYHQLSSIQGVTAVDSPVSPLGGVVSYNNLSEYNYTQYISHGYMLFLVNQKYQPFSDKAFNVVKNILSVIGNKGYVGGGPVDAFNILNFVNTDFAEIFLLITVTMYIILVIMTRSFSVAGVIIFTIMSAVAITLGLERLVFSSMGYSLFAIVPLFLVAIIIGIGMDYNIFLVARIHEELEKGNNMEKAVEITRSRIGKTIVFLGLIFAGTMGSLMLVNAAILQEIGFALAVAAILETSLLWYYLAPSLLILLYRKLKVKPKMLI;locus_tag=LOCUS_01150;note=WP_010979710.1 MMPL family transporter (Sulfurisphaera tokodaii) [pid:54.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_115
sequence1	MetaGeneAnnotator	CDS	95502	96740	.	+	0	ID=MGA_116;product=PQQ-binding-like beta-propeller repeat protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980486.1;translation=MHDLTLIIHFYSPQKPKTNTFQFEGNPTHVYYVNTTTGYFSLNVNSAIVVPPSIYGQYLIITTSGPMNMQTRSLNEMLGCVIAVNINNGKIIWKDVFPNQIMTQPIIVNGTVVVGLGNAYFINSTIRGNGTNAIVAINIENGKEIWNFSTLGEDMPTPVYYNGNIIEPNGNGCIYAINLLTGTLSWKTKIYSYVSMSSPVLVNGSMYFGSAYPYVFFAINASNGKILWDDNFTALYNNYCVHGLDDSSPAYSNGIVTTSFTLLNNSNSSMVSDMLTAINATSGRILWVLNEGVGSIPPNLESPPEVIYNGTVFQDTPSVGILYAVNLTTGKVIWEIDTGPTTSNIDIYNNYVMIQNSTGTLFIINNGKITEETQLGVMPGPGNLLITRNSIILVGINGEIESIPLKVFQLPS;locus_tag=LOCUS_01160;note=WP_010980486.1 PQQ-binding-like beta-propeller repeat protein (Sulfurisphaera tokodaii) [pid:60.2%25%2C q_cov:94.2%25%2C s_cov:83.7%25%2C Eval:3.8e-137],MGA_116
sequence1	MetaGeneAnnotator	CDS	96705	97478	.	-	0	ID=MGA_117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRISIIGVKGGSGKSTISLLLSKALSEMGEKVLLIDRDPLGWTSRILGLEGDGLVKSIIEGKEHGEFYAEKKYNNGKISVIKFYGEGPRFFTDVSIIHKNTVLLNKVEELYSQILKKKFDFYIVDNPSLVDFNDEIVKHELSIFLKNFPKVKILRIYVTDPSEPSIKATIDYIKKIESQNNLGNGYGLIINLVPPYPEELDKSKRDLKEALEETKLNSGFVLPFIENLFQFNGKIEDLEIPEEIKLLARQLKYLKGD;locus_tag=LOCUS_01170;note=MGA_117
sequence1	MetaGeneAnnotator	CDS	97515	97907	.	-	0	ID=MGA_118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978746.1;translation=MAIFKKEREYPSQQDVNQIINQFVQYLQNEGYKVQQKVEGNKAIVQAQKAGILRDLIAADRALTFTFENTPENLKVNVGIGKWIQNLGVTAVEALIVSPLFLAVDVPEILWTEHVESGLMKYLDSIIKGT;locus_tag=LOCUS_01180;note=WP_010978746.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:68.5%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:2.0e-46],MGA_118
sequence1	MetaGeneAnnotator	CDS	98033	98188	.	+	0	ID=MGA_119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKYFTILKTNHCKTNYGLFECKIEDGKENCKLIACVVPRENEELSLYTNI;locus_tag=LOCUS_01190;note=MGA_119
sequence1	MetaGeneAnnotator	CDS	99783	100400	.	-	0	ID=MGA_120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMRKLNISRRILIPILVLVAIVPVVAADVIYYYSGVVNIYSTSSPLTISVGPNGVVSLPSGKGYYIDVTTTPANSFTADINITDSSYDYFYEAVTLTASSTLNLYITNVSYSYTSTTNPITNAWIIIESSTGGYNGEFKVISSGSAVSSPSSVITLTSGTYYIGILIQPNTPLPSPSSSSIATFTVYFGDNVVTSTVAVPLPPT;locus_tag=LOCUS_01200;note=MGA_120
sequence1	MetaGeneAnnotator	CDS	100397	100582	.	-	0	ID=MGA_121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVENIAITKSIITMTTNIFRLISTKLFIKMLIKKFFRMKSRNKKLYLLANLIKYHVEGLYR;locus_tag=LOCUS_01210;note=MGA_121
sequence1	MetaGeneAnnotator	CDS	100569	101288	.	+	0	ID=MGA_122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSTIYATKFTIKSGKFYPPYAKVIGAFTSNGKINVEIKIENESFPIKIEGGYVSILNTHQKENISPTNLTIFNVSFPITRDLASFSTVSVNGVIQGIMKGNKVFITFSSVAILHISISVTIINFTYNNYTEDIYLKIFNPINITIFGIKYPSISNANLSQSVVGGYYFPLNITLPIGVHYLNISLNFKKYPNSLIYDRNLSIGYYYYFSGYLLTRLYFIPPQNDTFYLYHIEEFSPIR;locus_tag=LOCUS_01220;note=MGA_122
sequence1	MetaGeneAnnotator	CDS	101325	102167	.	+	0	ID=MGA_123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKELKIRPEIAIYLSIVLLILFTWVFYPIWNLKSINYAQFITPLGFKVYFFKNSFLLISPLTITAIVFMIISAIIPIIWRSSRYSLYASSFSLFLSFIMIINSLIFQQRYLFFHGYSAIPTVTGTFYILFPYKTYFSIPFYLIFVAIAISTLNSVKRARWIPYNRLTLLEKINSDINNKGIITTFSEWFEKFGISYASESNLLKTKDLVLSTEDKKRNLSVFFPSGETIVFGKKYVLYITKEGETKYLNINDGIKLAIAKAIERADVEKTQIKEEKTYL;locus_tag=LOCUS_01230;note=MGA_123
sequence1	MetaGeneAnnotator	CDS	102186	102785	.	+	0	ID=MGA_124;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIIKVSSIKGGVGKSTISAYLSKYLSKRHKVLLIDADLIKYSGYIVKVFEGFWRLKRNLTVYEIEENDNIEKILKNNYEYAVVDCPPFPEIICNKIDSNIDIYVSDITSLDLLLQYVTNKKIKILVINMVPPFPEDLEQISEKIKNLDFNLKVVIPFIPKIFMSKFRDIENSEIEIIEKMSNRIEKNSFNGEVISPLS;locus_tag=LOCUS_01240;note=WP_010883920.1 ParA family protein (Borreliella burgdorferi) [pid:28.3%25%2C q_cov:68.3%25%2C s_cov:72.9%25%2C Eval:3.4e-07%2C partial hit],MGA_124
sequence1	MetaGeneAnnotator	CDS	102777	104234	.	-	0	ID=MGA_125;product=carboxypeptidase M32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979709.1;translation=MFMQEILNEYRKAWSISYAISLLGWDLETYMPQEGAKARGEVFAQLSTLRREKIMQLKENVEKLRDEDLDDFGKGVKRVLSREIKYFLAVPKEIDEELNRLTSEAEIVWRQARKENNFLKFEPYLTKIVELERKIAEKLGYEGHPYNALLDLYEEGFTVSDADKIFSYLLPELKQILDKIMNDDKFPKKHELEDVEYNVDEMKKVNEEIIKLLGMPLTRFRLDISPHPFTVKISADDVRITTRYEGKDFKETMFSVIHESGHAMYELLIDKSLDMTPVGGGVSSGIHESQSRFWENIIGRSREFVSVIYPILKSNLQFLEKYDSEDIYKYFNVVRPSLIRVDADEVTYNFHIALRYEIEKRLIAGEIDVKDIPSIWNEFMEKYLGIQPKNDAEGSLQDIHWSQASFGYFPTYTLGNVVAGMLYHNFPTLKEKIKERDFDSVRDFLKNKICYYGSIYSPKVLLNRAFNEDYNPSYFVEYLKDKYLA;locus_tag=LOCUS_01250;note=WP_010979709.1 carboxypeptidase M32 (Sulfurisphaera tokodaii) [pid:62.8%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:1.7e-182],MGA_125
sequence1	MetaGeneAnnotator	CDS	104306	105085	.	-	0	ID=MGA_126;product=5%2C6-dimethylbenzimidazole synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846372.1;translation=MNYKSFLLELIYLLLVKLKKLIIDTIEKLISFYMDILSMELYTAIKSRRDIRSYFKKDPIPLDVLGRILFAAHLAPSVGFSQPWNFIIIKDYELRKKVKEEVVRQRERYRKILDNEKRNLFDNIKIEGILDTPINIAVTCDLNKCGPNVLGRITQPETCIYSTVLAIENLWLAARAENIGVGWVSFMDKNVIKTLLGIPSNVELIAYLDLGYVTDFPEKPELEEKGWNKRLPLSSVIFLDKWNGIPDENTKRIFDGISI;locus_tag=LOCUS_01260;gene=bluB;EC_number=1.13.11.79;note=WP_052846372.1 5%2C6-dimethylbenzimidazole synthase (Sulfurisphaera tokodaii) [pid:66.2%25%2C q_cov:81.1%25%2C s_cov:95.0%25%2C Eval:6.3e-80],MGA_126
sequence1	MetaGeneAnnotator	CDS	105247	105519	.	+	0	ID=MGA_127;product=ACT domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846230.1;translation=METAVVVVIGIDKPGIVAGISSKLAENNINIIDISQTVLRGVFSMIMIVDISKSKVNIGKLREELEAKGKELGVDVLVYHGEVFQYMERI;locus_tag=LOCUS_01270;note=WP_052846230.1 ACT domain-containing protein (Sulfurisphaera tokodaii) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-29],MGA_127
sequence1	MetaGeneAnnotator	CDS	105520	106860	.	+	0	ID=MGA_128;product=PFL family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978189.1;translation=MRYDAEEIVEVIRMLNEQDLDIRSVTLSINTLFAISDSENKVFDKIRNIENIIKRFVSAVNKTEEKYGIRIVTKRVAISPLQYFLEVVPKEDFAIELAKILDSIAEKNSVDYISGFSAHAERGLSLGSRVLMESLSSALNSTKRITGMINAASTSAGLNTDAVKLFTDKIFEMSPEASSRVSIMANSPPDSPFVPSAHHGEGMPDVMINIAISGPGVIENAIKTSNPKNFVELYEIIKKSSFKITRLGELIGKSVSKEINAQFGSVDLSIAPSPKIGDSVAGIIESMGIGKIGGHGSVAAMALLMDAVKKGGAMGTSSVGGLSSAFIPVSEDSIMAERALDGSIDFFTLLSMSAVCNSGIDMVGISKSQGKDKVIGLILDVLSMGIVLNKILGVRIIPVDQKPGEYIDLGGLLGKVVVMKLKDINVERFSNMKGFIPNTIKRLEMG;locus_tag=LOCUS_01280;note=WP_010978189.1 PFL family protein (Sulfurisphaera tokodaii) [pid:66.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-174],MGA_128
sequence1	MetaGeneAnnotator	CDS	106857	108572	.	-	0	ID=MGA_129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979011.1;translation=MDKGRLLSLNISQVLLALDMLFFSNPNYLNLVYISINIFLLLLSGTFLFISNLYNISKYFYWIIIAEYIVIPFVYVEYGGLNLGLSLSLEVILFIIYYGLLLLGYLLNYLSEAILLVFFVFNMLFLRPARFGTDELAIDYLSAGVFLSGHNPYNPITTSNLYQVIRDFSPYFFGTPLTTGGYVTWLGYPSLSFLFEIPARFFRFSPTYTLVFFYFMTVFVYYVFLKRKKMLPIFNALIPGIMVNINNLNYPAGGIDDIVWVFFVSLSLFVNSERLKGIFYGLAVSYKQTPLALLPFYLIYLYKEKRNIKNFILYGILSFMITNGYFILLSPSLYFSAVLSPITSPLIGIGFGPSIFSFNGMFYIERNFFTISMIIIAISEIILFIVTYPKFRNRWSSFPYFIFLLEYRVLWNYIMYWSWLGFAQESDIKEIKFNSIRNHIINSKTIIVATLIILFSLGMLYHYNYVGYTDDFHVNVIKFSNSEIILNVSYDPSNGNLPTFVYPQFRLFINKVMITANGYIWNYTAKPLYEGKWEIIELKSPFPIFDIPNYTQVELQVYYGDMLSVYYLYLN;locus_tag=LOCUS_01290;note=WP_010979011.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:35.1%25%2C q_cov:97.4%25%2C s_cov:96.9%25%2C Eval:1.1e-76],MGA_129
sequence1	MetaGeneAnnotator	CDS	108847	109713	.	+	0	ID=MGA_130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSINCRSDSCKKVFKYLSRKEGTLEIIDQAPKAYPGFKSYIRKIIKKEELLFKDIVLGEDIVSAMESGYKNALMGFLRSAEESNRFIIERACLTVFVSATTPKYIDLLRKKKWHTLVDLGYIIRAESEGTGRMKKFANRKVKLDQWSVYLMGKPFCKKHVKILEYSIPVEDLEEKLKMRIDARCSLCHKPADYFTLAMPKASALIGLAGYIKGKDVTTLMKTYANISRILHPYGFNDINKDKVFTIWARDFLTVITEINDLLNLVDGSRSSSDDGNPTIKSIKNRKGR;locus_tag=LOCUS_01300;note=MGA_130
sequence1	MetaGeneAnnotator	CDS	109600	110235	.	-	0	ID=MGA_131;product=maleate cis-trans isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978650.1;translation=MISLIVSEENPVLPKDIKLVFDQVNVFYMKYYPGHGNSRDEMQRMYNELSKIKKEAEKGDAIIYARSYGVFYSDGMKRLKNFFSKPVIISTEAIVQKLKDLKANNLYVITPYNQRRHDYEIKWLYGLGFKVVGSIALGRTGGPAIASTPHQLVIDATKVAQESSADAIYIACTILSTLPILDRLNGRIPVVTAASASVDKVKEIINLRNNS;locus_tag=LOCUS_01310;note=WP_010978650.1 maleate cis-trans isomerase (Sulfurisphaera tokodaii) [pid:64.2%25%2C q_cov:96.2%25%2C s_cov:97.1%25%2C Eval:8.1e-74],MGA_131
sequence1	MetaGeneAnnotator	CDS	110349	110876	.	-	0	ID=MGA_132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979900.1;translation=MRSLKYSIPLALAIWWLPILGPIIVGLANSFLERKLYSSIISSIISSAIASTVYIFLAVKFLFVPLLGDLLQFLSIILSIVGIGISAFVAFLVSRHMVYSYYNENSLNMEFYAKDQDEIEDRLRPFYENCSSPVYSFSENKIIVKRKCSGFTLEYEMTKEGKGYRVKVRVIQGDA;locus_tag=LOCUS_01320;note=WP_010979900.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:39.3%25%2C q_cov:95.4%25%2C s_cov:96.0%25%2C Eval:1.1e-29],MGA_132
sequence1	MetaGeneAnnotator	CDS	110920	111135	.	-	0	ID=MGA_133;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978621.1;translation=MFLTNDAKHTHMTTVKFKYKGEEKEVDISKVKKVWKVGKMVSFTYDDNGKTGRGAVSEKDAPKELLDKLGK;locus_tag=LOCUS_01330;note=WP_010978621.1 DNA-binding protein (Sulfurisphaera) [pid:83.3%25%2C q_cov:84.5%25%2C s_cov:93.8%25%2C Eval:7.1e-23],MGA_133
sequence1	MetaGeneAnnotator	CDS	111327	112790	.	+	0	ID=MGA_134;product=benzoylformate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011089983.1;translation=MKLGYEIYNVIRDFTDRIYGNPGTTELSFLKYLPDDFNYYLALADGIAVGMAEGYYLKTDNLAIVNLHAAPGLSNAAGFIHTAFMDRVPMLIIDGEQSSKYIVDEPRLYGDLKNLPSVKGFFEIKNSHEGLKIINKAIRLSLTPPYGPTVVSIPQDLVDEEVKSIKLNKFSVNQNCSECTLNYVTEKINSSEKVAIVAGYEIDVFNAHEELQKFAEKIGAPIYAEPFASRAPALHIDGTLPRYASQINKILENYDLVLVIGGSLNNVLFPDEEIIGNIIEITYDSLEASKRIWDCFVCNPKSFLINIFNGVKQKNKKSPLISIPNGKNKEIEEAIKTLSLNLKGYTIFEEAPSYRETIREIMGYNKRSFFANRAGFIGWAIPASFGYSSAKGKAFAIVGDGSFNYSFQGLWSATKYGGKMKVLVINNGGYRSLKGWANYNKDFLSPATDPWKLASSYNFESKEFDNQTEAIKWLMEDDSQKLAEIRI;locus_tag=LOCUS_01340;gene=mdlC;EC_number=4.1.1.7;note=WP_011089983.1 benzoylformate decarboxylase (Bradyrhizobium diazoefficiens) [pid:30.2%25%2C q_cov:86.7%25%2C s_cov:82.0%25%2C Eval:2.5e-45],MGA_134
sequence1	MetaGeneAnnotator	CDS	112862	113401	.	+	0	ID=MGA_135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978488.1;translation=MNTLEQLMEEFGFTDDEISYALDKAKGIILGFAMEYRARQVLESMNFINVKSVDLPTHDIEAEKDGRRYFIEVKATKKSPTKEYSAYKIAMIAKLGGTHLTLLMTPKPTLYLTEDILSEPKRILLKFFRLIFAEDLVDLKDFLDNDKNRKIVTSYEKVISSYLDKIPNENLLDIVKSVF;locus_tag=LOCUS_01350;note=WP_010978488.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:54.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.2e-52],MGA_135
sequence1	MetaGeneAnnotator	CDS	113372	113911	.	-	0	ID=MGA_136;product=KH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978489.1;translation=MFVTVSDEKLNEVKSLIPRLQEISGVEIHYDDKNKFFEIDPKTQNSYEALKVVSVIKALGLGFSIDDALRLMSDEYQLDVIDLKISLGSNPDLIRRVKGRIIGEAGKAKRIIQEYTSVIISIYDHYVAMIGTYDQLSIARKAIDMLIEGREHNTVYKYLDKAEEELVRYFSKNRLNNIK;locus_tag=LOCUS_01360;note=WP_010978489.1 KH domain-containing protein (Sulfurisphaera tokodaii) [pid:58.0%25%2C q_cov:97.2%25%2C s_cov:95.0%25%2C Eval:1.3e-52],MGA_136
sequence1	MetaGeneAnnotator	CDS	113911	114666	.	-	0	ID=MGA_137;product=serine protein kinase RIO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846354.1;translation=MEKRKIEKRRKDEDLFKVVDSTLDPKTYVNLENIASRLDIETYLGSISSGKEAKIYPARTYDGKYYAVKIYYVSTASHKRAVERYTLGDQRFEKIKISNTRQLIYTWARKEFKNLKRMHEAGVRVPEPIYVYENILVMQFIGENGVRAPLLKELPDEEIDNNLYSDIISQLQLMVNKAKLVHGDLSEYNIMVYDGVYIIDVSQSVPIDHENAMDFLIRDINNVNRFFESKGLSIIDTEEILKTLEIPNREE;locus_tag=LOCUS_01370;note=WP_052846354.1 serine protein kinase RIO (Sulfurisphaera tokodaii) [pid:69.4%25%2C q_cov:98.4%25%2C s_cov:96.9%25%2C Eval:1.4e-92],MGA_137
sequence1	MetaGeneAnnotator	CDS	114671	114994	.	-	0	ID=MGA_138;product=translation initiation factor aIF-1A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846355.1;translation=MPKKDRSEAPTREVMKPEEGEVICVVKKMLGAEHIIVACVDGKQRVARIPGRMRKKVWIKEGDVVLTAPWDFQSDKCDIIHKYMHDEIRKLTEENIVSRDIIDQLRG;locus_tag=LOCUS_01380;note=WP_052846355.1 translation initiation factor aIF-1A (Sulfurisphaera) [pid:67.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.0e-39],MGA_138
sequence1	MetaGeneAnnotator	CDS	115045	116277	.	-	0	ID=MGA_139;product=thiolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846356.1;translation=MFKKFKKYDVLLLSMEDVYIVSAVRTPIGKFGGQFKDVSPVDLGATAMKSAMEKVNLDPKLVDISIMGNILRAGHGQDLARQAAIKAGIPYDVDGYSLDMVCSSGMMSVINASQMIKSGDANVIVAGGMESMSQAALALKSESRWGVKYLLGKSLEFVDTMLVDGLTDPFNTMLMGKEADMVAKAHDFTRKELDEVAYESNRRAAEATEKGLFNSEIVPIEVKGKKINRDEGIRADTSIEKLSQLKPAFSDDGFHTAGNSSQLSDGASSLVLMSEKAVKELGVEPIAKILGYSWVGIESWRFTEAPIFAVKKLLKKINMEITNFDYFENNEAFAVNSVLANKYLGIPYDKLNVFGGAIALGHPIGASGARIITTLINVLSKMDGRRGIASICHGVGGSTAIAIELLKPLK;locus_tag=LOCUS_01390;note=WP_052846356.1 thiolase family protein (Sulfurisphaera tokodaii) [pid:78.4%25%2C q_cov:95.9%25%2C s_cov:99.7%25%2C Eval:6.8e-179],MGA_139
sequence1	MetaGeneAnnotator	CDS	116270	117526	.	-	0	ID=MGA_140;product=tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011277826.1;translation=MKVYIETYGCALNKGDTYIMMTLLKDKNHEIVSSPKDADVLVLNTCDVRLETGERMKKRITQLNKLGKKLIVAGCFAGAEPGVVSKIAPNASIIGPQALGKIIDATEAKNRVIFLESDAPNHTPRIFMNKIGIIPIADGCAGDCNFCITKLARKKLRSYPLRAIIDTIKDLVSKGAVEIELTGQDAAAYGLDYGGKVKLSDVIREASKVDGNFMLRIGMMTPEQAMRNIDDLIDTFKDPKVYKFFHLPVQSGDDNVLKIMNRKYTVDEYRNLVKEIRKKIPNANITTDIIVGHPGEDENAFKNTLDLIKEIRFEKLHIAIYSLRPNTKSSLMQQIPDSVKTERMKIINSLYEEIARENHSEYLGKVSKVIITENGKDNSKIGRTINYIPVIVQNAEIGKWYNVRINNFSFYDLRGDIV;locus_tag=LOCUS_01400;EC_number=2.8.4.5;note=WP_011277826.1 tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase (Sulfolobus acidocaldarius) [pid:65.6%25%2C q_cov:99.5%25%2C s_cov:99.3%25%2C Eval:7.0e-163],MGA_140
sequence1	MetaGeneAnnotator	CDS	117575	117991	.	+	0	ID=MGA_141;product=translation initiation factor IF-2 subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156013749.1;translation=MSSDKEYTYLLDRVYTKIPKKTSESTQNLPSLIILNIGNTTIIRNFSEYCDRLRREDKLCMRYLLKELAAAGSISDNGQLVIQGKFSSSIINTLMERFIRTYVQCSTCKSLDTVLVKENKVWFIQCLACGAKTSVKPL;locus_tag=LOCUS_01410;note=WP_156013749.1 translation initiation factor IF-2 subunit beta (Sulfurisphaera) [pid:68.3%25%2C q_cov:100.0%25%2C s_cov:86.3%25%2C Eval:8.4e-53],MGA_141
sequence1	MetaGeneAnnotator	CDS	117988	118293	.	+	0	ID=MGA_142;product=DUF424 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846357.1;translation=MRKMKVILNIIRGEGNVFVNICEKDLLGKEFRENEVILNINKEFYEGDEVDMEYAFSLVDEATVVSIVGNILVDEAIKRGFVHKDSVLEVSGVKFAQVYNL;locus_tag=LOCUS_01420;note=WP_052846357.1 DUF424 family protein (Sulfurisphaera) [pid:66.3%25%2C q_cov:97.0%25%2C s_cov:100.0%25%2C Eval:1.2e-32],MGA_142
sequence1	MetaGeneAnnotator	CDS	118290	119006	.	+	0	ID=MGA_143;product=60S ribosomal export protein NMD3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846889.1;translation=MTTMPSKFCVRCGKENVKLIDRLCIDCYIKTKKLILLPKEINGKVCKICYAEFLDGKWENIHDNLQDSVKDLALREISKKISIDKNVLDYSIDLGDIWKDSNGKEHVKIIANGKIDNEKFTISEDININIDYTICDACKKRKSKYYEAIIQLRGKNGKFLLEKRRLFESFFSEEEISNLSDIIEGKEGVDYYFIKKSVAKKLVSSVASMTDAQINESFQDETTKKGKRLAKLVISLRL;locus_tag=LOCUS_01430;note=WP_052846889.1 60S ribosomal export protein NMD3 (Sulfurisphaera tokodaii) [pid:50.0%25%2C q_cov:98.7%25%2C s_cov:100.0%25%2C Eval:9.4e-64],MGA_143
sequence1	MetaGeneAnnotator	CDS	119003	119632	.	+	0	ID=MGA_144;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978497.1;translation=MRLGIDEAGRGPVIGPMIVAGVLIDENEAKILKNYGVKDSKKLSRKQRENLINIITEFSESFVVTKVWPEEIDIRNLNCITYEKVIQIIDAMSVFKPEIITVDKVGKEEIVIEQIKQLGSIPNVVFKADENYIECSAASIVAKVFRDRIIDELKITYGDFGSGYPSDPKTIEWIKKIYSEKKEPPNILRRSWKILQRVAPDFYIEKRLK;locus_tag=LOCUS_01440;gene=rnhB;note=WP_010978497.1 ribonuclease HII (Sulfurisphaera tokodaii) [pid:58.8%25%2C q_cov:97.6%25%2C s_cov:98.1%25%2C Eval:6.8e-65],MGA_144
sequence1	MetaGeneAnnotator	CDS	119632	120699	.	+	0	ID=MGA_145;product=TGS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978498.1;translation=MVTNLPAEAKVKWLRVMDAKTTDEKIKAIQDFLSSVPKHKGTENLVYWARRRLAELREETEKQKRKKSASTSFFIEKEGAGQVLVLGREELKNKIVRLLTNVKQDPKDFPIPAMTYYEDVGIQLINPPPLILNSRLIVSKILGLVRNADALLIIVYDENEFIRIKEFLESNNIILGKPKGKVIIERSRNSKDGLRIINMGKIVGSSENDIRKYLEDFGIKSAIVKIFGEITLDDVEKSLFEAIAYKPTVIVALHKFNSNLPVIEFSELNKLSKALFESLDVIRVYTKEPGEKPTSDPLILKKGTTVLEVARKLHSALSENFKFARVWGPSAKFPGQKVGGEHILEDKDILEIKAK;locus_tag=LOCUS_01450;note=WP_010978498.1 TGS domain-containing protein (Sulfurisphaera tokodaii) [pid:61.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-131],MGA_145
sequence1	MetaGeneAnnotator	CDS	121050	122789	.	+	0	ID=MGA_146;product=type II secretion system F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846358.1;translation=MSKNYEKKLLLAGSTEDPRIFAAKILFYTLISIALSLVLIIFGIIIFVKFYLLFRLAKYIVLSFMMILFGIIIPPITYLLLSINVSQAIDSRKNGINSETFAFSSVFIIFLRSGLSPRLLFEKLPKTQAFQYINQIMLYTNKRIKYLGESVEEALRNTTRISPSKIFNDFILTYVTAIRTGAPVIETMESKVKDLLKEFELIGSLASDKLQGVAEGYVIWLSSGYIMFFLVLILQAIFPQLAGSIPLPLIGAIAIFLIPAVNLVFILMADQIQLKFPERKMNAYKTFYITFPIGIITMLLILAAEHQLTYLIFLDGSTSNILPVSFAIAIGLIIAAIPPYVISEKELRAGSGYDEYVAGFLRSISEGLRAGLPPETIIYNIKDAKEMGKLKEILNSVYAYIKLGYPLKDAFQKASEKINDFTSKIALVSISDMIDIGSMTPETIESLADEIDSQVRIKREYESKVKVLMFTPYIGVVIALIAAIFLGIALVKLIVSQNFMLVGPLADASILLPRAVFIASISSIFNSFLAGLLVGKIGSGKAATGFKHSVILVVLTILVILILLHVNLSFKPPSSSGLI;locus_tag=LOCUS_01460;note=WP_052846358.1 type II secretion system F family protein (Sulfurisphaera tokodaii) [pid:48.8%25%2C q_cov:99.0%25%2C s_cov:93.9%25%2C Eval:5.2e-162],MGA_146
sequence1	MetaGeneAnnotator	CDS	123010	124731	.	+	0	ID=MGA_147;product=type II/IV secretion system ATPase subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978500.1;translation=MASILSKFKFNGNKASQGTIETEKIPVNLFPVSAPVEEITEIISDYEIAILDYVPPSVKNSFNKVNVELNIANPHVFITYDQDKGIYKYVLIEPPIDPSVFNIYKFFISEIERELLDKKEQIDLGKIIAESAIKRKDLEIIQGTRGDLQLLSTRGKVALYYLLRNMFGYNILTPLLADFKIEDISCSGLDLPVYVYHRDFEYIPTNITFREKMKVIDQDIDGTELLDEIVMRYVSLSGKTISIANPIADGILPKGDRIAATFRKEVSARGSSFVIRRFNDRPITILDLINSGVLSPQAAAYLWYAIDLRMSFMVIGVTGAGKTTMLNAILNLSKESMKIVSIEDIPELRLAQDNWVQLYSREVYGTTGKEISLMDLLKLSLRYRPDMIVVGEIRGQEAYVLFQALSTGHGGATTFHAYDTDSALKRLMNEPLNIPKEWVPMMNIVVNVRRLPVFVGEKLVLRRRVVGIDEVADYNDFRRVVNWDARSDFHNLDLDSAKVMRLRIEEIGKGLDEVKQEIDKRALYLKLLAASKDVIQNPESYREVKKYIIKYSLRPDEALKEAMRITSIKITNV;locus_tag=LOCUS_01470;note=WP_010978500.1 type II/IV secretion system ATPase subunit (Sulfurisphaera tokodaii) [pid:65.1%25%2C q_cov:97.9%25%2C s_cov:97.7%25%2C Eval:3.8e-213],MGA_147
sequence1	MetaGeneAnnotator	CDS	124752	125993	.	-	0	ID=MGA_148;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978501.1;translation=MSFFLSILLLLSSIISSIWFVLQALYFSSKKIVEIGYDRNKKISIIIAIKDEEVDTIRDLIRNLSELDYDNYEVIIVSDDKQEIFEKYLSIPYPKNFKIVRREVPTGRKAGALNFGVNLSSGDFLVFLDAEARVDKDFLKHVSYLLKYNVISLRLKVRNAQGIGRIYSYFTDFSMSSLFRGRFMRGLYIFPNGSAFAIKKSILVNIGGWKENVVTEDLELGIRLALNNIRIYYFDEPSISILSPLNYYDLYMQIKRWAYGSGELFLDGLKLIKKGIKGLEGFLYVIQWGVYSLFLSIIILLSLLPYSINVYIFIISIIIYGFSLLIYSSKNPKEADLSGIIVVFAAMIGFIQGFFRVKFSWRVTPKIHSDNLTPNSVEILRYIFFIISIFDILLNKYSFFLIMFLLSITMFEL;locus_tag=LOCUS_01480;note=WP_010978501.1 glycosyltransferase family 2 protein (Sulfurisphaera tokodaii) [pid:40.5%25%2C q_cov:96.1%25%2C s_cov:96.4%25%2C Eval:5.2e-78],MGA_148
sequence1	MetaGeneAnnotator	CDS	125990	126508	.	-	0	ID=MGA_149;product=inorganic diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846890.1;translation=MKVGPGKNAPDSVNVFIEIPMGSNIKYEYDDEEEIVKVDRILYTSMFYPFNYGFVPGTLGEDGDPIDVLVISNYPFYPGTVVEARPIGMLYMRDEEGEDEKIIAVPKDKIDPSFSTIRDIEDLPQSIKDKINHFFDHYKELEPGKWVKTSGWGTVSVAKEKIKEAIERKMKE;locus_tag=LOCUS_01490;gene=ppa;EC_number=3.6.1.1;note=WP_052846890.1 inorganic diphosphatase (Sulfurisphaera tokodaii) [pid:82.1%25%2C q_cov:90.7%25%2C s_cov:90.7%25%2C Eval:3.7e-75],MGA_149
sequence1	MetaGeneAnnotator	CDS	126547	127089	.	-	0	ID=MGA_150;product=HD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978503.1;translation=MTMQLEKLLISCKNLVRTGWMQKGIPPSIGETVASHSFEAAILAFTIASKLKDKGVNVNPDHAAVIALFHDVGESILGDFPKWTSEKINKRDVELEAFKELGVGVDLFIEFKEKKTLESNIAKLSDRLSTVLQAKRYIKLGYDAQEIANSYLDEINYLVSTEPLIKIKDFVNNIIEKNYE;locus_tag=LOCUS_01500;note=WP_010978503.1 HD family hydrolase (Sulfurisphaera tokodaii) [pid:63.4%25%2C q_cov:96.7%25%2C s_cov:97.8%25%2C Eval:1.8e-59],MGA_150
sequence1	MetaGeneAnnotator	CDS	127086	128417	.	-	0	ID=MGA_151;product=bifunctional hydroxymethylpyrimidine kinase/phosphomethylpyrimidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978504.1;translation=MKKQVALSVAGIDTGNGAGVETDIKVFEILGVHGILAVSAITVQNTLGIKEIFPISSELLDSQISWLLSDFKVDSVKLGMLYNSAQFKVINDKLRQYKIVTDPVIYAKDGTQLINDIEDYKKYIIKNTTVLTPNAVEASILSGVKIESKNDQEIAAKKIYEIYGVPYVIIKGGHIKGDYSFDVLYDGKDFYEIGYRRISEKNTHGTGSVFASAIAAEIAKGNNIVDAIRIARDLLQGSIAYGLEIGKGIGPVDPFFLLKEIMKYEVLEDMVKFGDFIVNTQNFWKLIPEVQSNFAHSIDSNYVNSIDDIATFRGRIVKTWNNNVKVGFPAVFGNPTHTARLLFSIISKGYNANSLINIKYDEKIISLFKEIGYEVIEINRDLEPAHGENKTMQWIIEYIAANYGNIPKVIFDKGTKGKEAMIRFWTNSLEEMENSLGYICKSL;locus_tag=LOCUS_01510;gene=thiD;EC_number=2.7.1.49%3B 2.7.4.7;note=WP_010978504.1 bifunctional hydroxymethylpyrimidine kinase/phosphomethylpyrimidine kinase (Sulfurisphaera tokodaii) [pid:61.3%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:2.8e-157],MGA_151
sequence1	MetaGeneAnnotator	CDS	128395	129111	.	-	0	ID=MGA_152;product=MoaD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978505.1;translation=MGMLKVIIKYFAFMKDITGVSEEELSTECSDIDCLINDLEKKYGRKFSEYVKNGVNGIKVAILINGETNIRNISNGDEIAFLPPPAGGDVIRGKFDFLEEIRKFRETAPPEAGSLVVYLGFVKGLVDSHKVYELDYEAYETYTQRRINEIEKYIIDKYKDVINIKIIHAIDNMKPGDNVILIMCIGKGRKDAINAIGEAIELVKHTTGIWKLEIRDDGEYWVVAGNTRVKKNEKASSS;locus_tag=LOCUS_01520;note=WP_010978505.1 MoaD family protein (Sulfurisphaera tokodaii) [pid:61.0%25%2C q_cov:98.7%25%2C s_cov:100.0%25%2C Eval:6.1e-87],MGA_152
sequence1	MetaGeneAnnotator	CDS	129127	129555	.	+	0	ID=MGA_153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978506.1;translation=MLVYMEEDDKLFDLLDPNLQSNKNTEIIKKLNEIEFMVRSLLQQRSKEARSNSLCENILEKTYIIVNRRINENTNPNLFILRIDNNNYLITFKDTIELLYFYMKLGDKIEDEIPKRLYPLFSFLKRNGLIYLDRETKEYKLT;locus_tag=LOCUS_01530;note=WP_010978506.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:48.0%25%2C q_cov:85.2%25%2C s_cov:85.6%25%2C Eval:1.5e-23],MGA_153
sequence1	MetaGeneAnnotator	CDS	129547	131754	.	-	0	ID=MGA_154;product=4Fe-4S dicluster domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978507.1;translation=MDVSSLKKYMDEKEHEIVLGRATSMDGSVLKFLRPKIVTSKKRLDDGSILKFESRSENFSIITAASGATFEELINVLEKEDYYPAVFPLYPRGSVGGFIATNGSGFGSYKFGFPKFKKNIYENTEKDSRLTVVNYSELIESSTENQFAWSSLIIDGEKRYYIPILYKSFVKEKNNTVYTKDLIKSIFDKSLKIIKKGYIPICLRSTTLESLKEFPGMLYLGYEIRFNSPSKFFVMCGNIKEDELDKTFEFLKKHPNVLPFPSLREYDTIHKIIIEKYKKSVRIPKNFEKIKDKYIDASRCVNCGLCLESCTSFRITNNLIYSPLGKFNRMITGENNFEICFGCKECEDSCPEGINISQITEILPSLSTVKENVSISLEPVSFRIKDLEAKIDEKYKSQPPYLLFIGCSYKYDPMGVEGLLDFLLENGSKISTSARVRIIDNLCCGFDKYISGNIEGAKLDVSKIIEMKKKYGAKGVYFMCPEGLYVYNTLSGDRGILAFDVIRPFINIDFHAGCWAQKLGIKGSDKECAGLFFTAYKGQSIPLKRKDMLTICPFSTWKFGTRSVYSTFLKENTEKRDNNVQVSDTEIVEVMLTSLRESALESVDDIAEKVETWIVGGRNYFILLTIPIVRKRFTTDFRSNVLKNDNIKNFFKSLINDNVLLEEKIGRYIEAIQAENILTLVEELLKKILESSKLEFEARDLVSKKEFSDALLEILKKVIEEKVIRDLIGDIAFSS;locus_tag=LOCUS_01540;note=WP_010978507.1 4Fe-4S dicluster domain-containing protein (Sulfurisphaera tokodaii) [pid:42.4%25%2C q_cov:99.9%25%2C s_cov:98.0%25%2C Eval:3.1e-178],MGA_154
sequence1	MetaGeneAnnotator	CDS	131856	132602	.	+	0	ID=MGA_155;product=pantoate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978508.1;translation=MIETHIPISISGIWYPEVYKEAKFSGSIGLSLVLEPYTIFEIRKSESPEVYINGLKINFPNLLILKKLGNLQIQGIAKVPLGYGYGLSASISLAYALGAYEIFNIKKNIALETAHESEVITNNGLGDIISQYYGGGLIYRKKPGAPNIGEIEIINVDWHKIFSKPIERLSTSSIIKPIKEAKMLIDEFLRERTLEKFFEVSRKFTELLGYSSPYPLSFRKKGLIVKMDKPEEGEWIEHNPAKHGAYVI;locus_tag=LOCUS_01550;note=WP_010978508.1 pantoate kinase (Sulfurisphaera tokodaii) [pid:55.9%25%2C q_cov:99.2%25%2C s_cov:98.4%25%2C Eval:6.4e-74],MGA_155
sequence1	MetaGeneAnnotator	CDS	132599	133348	.	+	0	ID=MGA_156;product=4-phosphopantoate--beta-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978509.1;translation=MIPKNHPRRESLLLREKLVEALENNILVPQGLIAHGRGECFDYLLGEKTQYFADDAEKVAAAMLLIAKNPVISVNGNMAALVPESIVKLSEVTNSKIEVNLFYRDEKRIDAISDVLIKNGAKNVLTEGNAVIPELFSERRRVNKEGIFSADVVLLAMEDGDRTEALIKMNKKVIAIDLNPLSRTSLTATITIIDNVIRAIPNIINYAMVLKKENPDELNYIISQYNNKKIISESMKFLSDRLAQLSKDL;locus_tag=LOCUS_01560;EC_number=6.3.2.36;note=WP_010978509.1 4-phosphopantoate--beta-alanine ligase (Sulfurisphaera tokodaii) [pid:63.5%25%2C q_cov:100.0%25%2C s_cov:94.7%25%2C Eval:2.1e-85],MGA_156
sequence1	MetaGeneAnnotator	CDS	133327	133974	.	-	0	ID=MGA_157;product=3-methyl-2-oxobutanoate hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978510.1;translation=MAVLGYNSTLPVNMKDIIHHLKAVVNAKINQLIVADMPFLSYEYSSKAAIKNAGILVKHGADAIKLEGGKEISGKISKIVKAGIPVMGHIGLTPQRFLEIGGYKIVKDEAKLLEDAKALESAGVFSIVIENVYSEIAQKITREVNVPTICIGAGPFCDGQILVINDLLGLGEFTPYFAKKYLDLNNEILSAVNSFIDDVRNSKFPSKEYYRSLDN;locus_tag=LOCUS_01570;gene=panB;EC_number=2.1.2.11;note=WP_010978510.1 3-methyl-2-oxobutanoate hydroxymethyltransferase (Sulfurisphaera tokodaii) [pid:64.4%25%2C q_cov:100.0%25%2C s_cov:82.0%25%2C Eval:1.6e-77],MGA_157
sequence1	MetaGeneAnnotator	CDS	134003	134680	.	-	0	ID=MGA_158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGGVRDRTLEAILKYGDKARIILRSAITIYDERGNQELGDFDYKTLIAELQREGYSGDPKMILRALERDFGIIETSYKSANQHWWKFIDVNEVKSVIDDNNDDPEITLIKIQANSLDLDNIQKRLEFMLRKTKLSDVDKALFKKIAFDDLNYLIDVYKKAESYEETQYIVDRIKRILILASKVSVKINGKGNNKELSEKEGERQNSNVNGLRLFDNENLREDTA;locus_tag=LOCUS_01580;note=MGA_158
sequence1	MetaGeneAnnotator	CDS	134734	135471	.	+	0	ID=MGA_159;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978512.1;translation=MTNNDIAVSVTNLKKNFKTKLILDGISFKVKIGEVYGIIGPNGAGKTTTLRILAGIIKHYSGNVEIFGLTPEIARKNGLISYMPEDAFPYDRLTGYENLMFYAQIYSRGNKKETKELIERGIKIADLGDRIYDRTSEYSRGMKRRLLIARTLMVRPKVAILDEPTSALDVESAIKVRKTIRELKGDTTIILSSHNMLEVEYLCDEISLINNGKIVANGKPQEIVKLTGTTNLEEAFIKVTDGEKC;locus_tag=LOCUS_01590;note=WP_010978512.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:63.6%25%2C q_cov:96.7%25%2C s_cov:98.0%25%2C Eval:1.9e-83],MGA_159
sequence1	MetaGeneAnnotator	CDS	135465	135689	.	+	0	ID=MGA_160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRYLLSKEWLDVKRDRKLILGSIILPLLLLPLIGIIIFAAAVSQPPVVEIVNENYSNLPYVRNLESYIQSNGV;locus_tag=LOCUS_01600;note=MGA_160
sequence1	MetaGeneAnnotator	CDS	135947	136642	.	+	0	ID=MGA_161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLQYIQPTGKHVTSAQDQFAQLARIVAIILFPASTPVIYFVTDGILGEKERKTLESLLASPVSARAFIFSKIIISMILGTISSIGDIAGLVIFSIFAPFIVGASVSFSLSFAVVVLILYLTMIFLTAALSTFVLVLVGGSSRNIQIINFLITSFGLLASFSALFVNFGNLTFPMSMILVIPYVQIVASLLLYVFGLILESIFYISGTILASILLILISSKLLDNERLLLK;locus_tag=LOCUS_01610;note=WP_010978513.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:49.8%25%2C q_cov:99.1%25%2C s_cov:58.6%25%2C Eval:5.6e-58%2C partial hit],frameshifted%2C insertion/deletion at around 135683,MGA_161
sequence1	MetaGeneAnnotator	CDS	136675	136905	.	+	0	ID=MGA_162;product=Lrp/AsnC ligand binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978514.1;translation=MSIVKGYVLLITSIGKETDIVNDLKRIQGVKEATPVYGEYDIVVEIEAPTLEELNKVISQIRRNSNIIRTVTLISM;locus_tag=LOCUS_01620;note=WP_010978514.1 Lrp/AsnC ligand binding domain-containing protein (Sulfurisphaera tokodaii) [pid:61.6%25%2C q_cov:96.1%25%2C s_cov:97.3%25%2C Eval:5.0e-21],MGA_162
sequence1	MetaGeneAnnotator	CDS	137054	137353	.	-	0	ID=MGA_163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846359.1;translation=MPTIHLSLPESLYEELRRKADDMGVQITDLVKFFIKQGIEGKEDTGEENGEQYEESVAFLEAKVAQLDAMVSELVKKIKLLEEGEDEDTEEVEIKRENA;locus_tag=LOCUS_01630;note=WP_052846359.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:62.2%25%2C q_cov:94.9%25%2C s_cov:93.1%25%2C Eval:7.3e-25],MGA_163
sequence1	MetaGeneAnnotator	CDS	137498	137674	.	+	0	ID=MGA_164;product=ribbon-helix-helix protein%2C CopG family;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978515.1;translation=MRVVTFKAEEDLLELLDRYAIRYGLNRSEAIRKAIEKMVGDEVKKETVPVAKVEKIRL;locus_tag=LOCUS_01640;note=WP_010978515.1 ribbon-helix-helix protein%2C CopG family (Sulfurisphaera) [pid:86.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-21],MGA_164
sequence1	MetaGeneAnnotator	CDS	137664	138278	.	-	0	ID=MGA_165;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978516.1;translation=MIKYFGHSMFSIDDKILIDPHDGGSIGLTKPNVEYTDLVLITHDHYDHNAYQLLKFKEIKQSFYGNYTFEGYKILGLRAFHDKENGKRRGETAIYRIDTGKSIIVHLGDVCDKLSEKIIKEISSPDILMIPIGGLITIDYKEAIDLINDLKPSTVIPMHYWVNGHLMPLDPPDEFLRKMGWKIRELNKNYFEDIEKGEIIYFKA;locus_tag=LOCUS_01650;note=WP_010978516.1 MBL fold metallo-hydrolase (Sulfurisphaera tokodaii) [pid:51.9%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:3.7e-60],MGA_165
sequence1	MetaGeneAnnotator	CDS	138295	139350	.	-	0	ID=MGA_166;product=isopropylmalate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978517.1;translation=MEQKVRIAKQLSKLGVDVIEAGFPASSEGEFIATKKILEEVGDNTEVIGLARANKYDIDKVISTGLSSIHIFIATSDIHLKYKLKMTRDEVLEKIYDNVRYAKDHGLVVEYSPEDATRTENEFLIRAIKTALEAGADRINIPDTVGTMDPFRFYNLIKEIVSATNDKIVSVHCHNDFGLATANSIAGVAAGARQVHVTVNGIGERAGNASLEEVVMALKKLMGFDVNIKTWMLYDTSKLVSEITGIPIPYFKAIVGENAFGHEAGIHVHGVVENPLTYEPISPEEVGNFRRIALGKHSGIHGLKKVLEDQGIYLNDDQLKIVLQEVKKLADEGNKITSEEAKNIAIKLLNS;locus_tag=LOCUS_01660;EC_number=2.3.3.13;note=WP_010978517.1 isopropylmalate synthase (Sulfurisphaera tokodaii) [pid:80.2%25%2C q_cov:99.1%25%2C s_cov:90.2%25%2C Eval:3.5e-165],MGA_166
sequence1	MetaGeneAnnotator	CDS	139469	140017	.	-	0	ID=MGA_167;product=DUF115 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978518.1;translation=MNEILSDNPVDLLNILNHKEVAVIGAGPSLEKIDKIREEVIISADGATNYLVSKGIIPDIIVTDLDGIETFPNSVYVVHAHGNNINLLHKVYNMTKVIGTAQVSPFGRINLFGGFTDGDRAVVIAKKFGASKIILYGMDFDSNLIGKFSKPYLLSDVPISWIKRNKLKIAKEIVKLTLEQNL;locus_tag=LOCUS_01670;note=WP_010978518.1 DUF115 domain-containing protein (Sulfurisphaera tokodaii) [pid:62.0%25%2C q_cov:97.8%25%2C s_cov:98.9%25%2C Eval:6.5e-60],MGA_167
sequence1	MetaGeneAnnotator	CDS	140086	140289	.	-	0	ID=MGA_168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLDYVNLDSEECGFNPIDAIYFLKGKDIVFIISTSNPYYEDIIKIFHIEILKKDGDKIFFTVLSGG;locus_tag=LOCUS_01680;note=MGA_168
sequence1	MetaGeneAnnotator	CDS	140511	140996	.	+	0	ID=MGA_169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846362.1;translation=MEKEYLEDKPSMDINIIEINVPCGIHCLENSKYRDLLKNENFRAQLEVVDSLTDLINTNVDTLKRELEDIFSNYNVNIYNLIYTIFRLIEYGGDVIIGNGIKYNDKIIAEGNFETLMQIYKKIEDIRKNSNIISICDEIRYLEEALWEHFNKNLRRSLYES;locus_tag=LOCUS_01690;note=WP_052846362.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:47.5%25%2C q_cov:98.1%25%2C s_cov:94.1%25%2C Eval:1.3e-36],MGA_169
sequence1	MetaGeneAnnotator	CDS	140986	141402	.	+	0	ID=MGA_170;product=6-pyruvoyl tetrahydropterin synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978523.1;translation=MKVKVGIEGFTIDSAHYTLSSPQDSQLHGHTYILNVEIEGEVNPSNGFVIDFNIAKKTIQDIISKWDHKFIVPTDDYNKINIEAPFKVEVKNIDAPFPTAEYIAIEVARDIYEKLDRKFKIAVKIYEGKDSYAIVEYP;locus_tag=LOCUS_01700;note=WP_010978523.1 6-pyruvoyl tetrahydropterin synthase family protein (Sulfurisphaera tokodaii) [pid:59.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.6e-46],MGA_170
sequence1	MetaGeneAnnotator	CDS	141499	141909	.	-	0	ID=MGA_171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978524.1;translation=MWREEMNEYGPRIIAIPNTIYEKYKNYTVVVAVLPTITKGEIIEKLRNSMSVTVCDYIECYPLLFGGIFVFLDDKVLTRYEFEGYVRIDQQKYDEFNINDFVREKCYTFEKETLCFTKSKCNNCIPIDNVGLRFII;locus_tag=LOCUS_01710;note=WP_010978524.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:33.8%25%2C q_cov:91.2%25%2C s_cov:97.0%25%2C Eval:3.7e-16],MGA_171
sequence1	MetaGeneAnnotator	CDS	141887	143371	.	-	0	ID=MGA_172;product=dihydropteroate synthase-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978525.1;translation=MKALVVTGKLAYPIVREVTKKYDNVDVKVLNYPVAALMSIRYILENLKNIDKKYDVIILPGLVNGDVKIIEDTLGIKTFKGTENAWDIPLVFDALDKGIPLSTIDPADEIISRIKEKNIDSYEEKIINNAQIAFDLGVRIPLYPPPFRIFLEMDPKWGCDKIREEIQRTRNFVDVFVIGFPVGHNDNEEVRRKLNIAIDEGVIVGIDAESPSELIYGIKNGAKFVFNLNEINIDKLTEAKKEAAFIVAPFNVENRGDITINLVKKAKNLGYDMLIADPVLSPPLEGLVDSLFEYRKVRKLLPDIPLLMGILNVSELIDADSHGVNALMTSIAGEIGISNLLVMEKGKTKWSSWETKTASKLVGISMLQRKPPKDIGIDLLILKDKKKIEERVNIEKAEVAEYSPPDMDSAGFAKIFKLEDKIGVEFYGKKKISIIGNDGLAIGRKLVKEIDLTPQHALYIGYELAKAEIAMNLDKNYIQDSPLFKKLYVERRNE;locus_tag=LOCUS_01720;note=WP_010978525.1 dihydropteroate synthase-like protein (Sulfurisphaera tokodaii) [pid:52.1%25%2C q_cov:98.8%25%2C s_cov:97.4%25%2C Eval:2.0e-135],MGA_172
sequence1	MetaGeneAnnotator	CDS	143591	144559	.	+	0	ID=MGA_173;product=thioredoxin-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846363.1;translation=MSLLPKSSNVDLNQVFDTVIIGLGPAAYSAALYCGRYMLKTLVIGETPGGQLTEAGEVDDYLGLIGIQAQEMIRVFNSHIEKYNVPVILDSVESFKKEGDLYIVKTKRKGEVKTRTIIVAVGVKRRKLNVPGEDQFAGRGVSYCSVCDAPLFKNRIVAVVGGGDSALEGTELISRYATKVYLIHRRDQFKAQPFYVENVKAKPNVEFIFNSSVTEIKGDKIVKQITVKNLKSGETRQLDVNGIFIEIGFEPPVDFAKANSLETDKNGYIKVDEWTRTNLPGVFAAGDCTATWIGFRQITTATAQGAVAAHSAYTYLNEHKVR;locus_tag=LOCUS_01730;gene=trxB;EC_number=1.8.1.9;note=WP_052846363.1 thioredoxin-disulfide reductase (Sulfurisphaera tokodaii) [pid:73.8%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:1.9e-138],MGA_173
sequence1	MetaGeneAnnotator	CDS	144562	145335	.	+	0	ID=MGA_174;product=extragenic suppressor protein suhB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978527.1;translation=MEKILRDIGKEAIDFLNELKGKEGIDKIIGRHGDDTTRVVDKKSEDYIFELLRNTGYKFLFVSEESGTINENNYDYIAVIDPLDGSTNFINGIPWSSVSIALYKNNEKNFIRSYAGVVANIFSKEIYTYYNGKSYINGNIVENVRPKSNIVLAYFGKKEIDKAYQILKKLEGFKIRTLGSSSLDMILICTGKAYFYFDIRDKIRNVDVAASTGFCSSLKIYPFNSRNEIITSSLESVDVIGEIMLTYDEELKKRLFL;locus_tag=LOCUS_01740;note=WP_010978527.1 extragenic suppressor protein suhB (Sulfurisphaera tokodaii) [pid:55.3%25%2C q_cov:97.7%25%2C s_cov:95.8%25%2C Eval:7.9e-75],MGA_174
sequence1	MetaGeneAnnotator	CDS	145295	147034	.	-	0	ID=MGA_175;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978528.1;translation=MGIFKKFTTNFMSSDKATQLQVKNKKKDEEEKKVSWTEIGGYPDVKKEIKDYVEFPLKNKDVARRYGLRPPKGILLFGPPGCGKTLMMRALASDAKINFIYVNVSDIMSKWYGESEARLRELFANARKNAPCILFFDEIDTIGVKRESHTGDSVTPRLLSLMLSEIDGLHSDDGVIIVGSTNVPQTLDKALLRAGRFDKLIYVGPPNKDARLEILKIHCGGKPLADDVSLEKIADMTERYSGADLANICQEAARKVAVEALETNKDRKITMQDFLDIIQRYKPSITLQMLEDFEKFRLDYERRSRKGDDIETEIGDKITLDDIGGYTKVKIELKELLELQLKYSALMEQMKVPPIRGILLYGPPGVGKTMMAKALSKTLDVKLISVSVAEIMYKGYEGAVSTIKEVFNRARENRPSIVLLDELDAIASKRSQKNGGESSKIVNQLLTEMDGIRNLKEVVVIGTTNRIRTIDPALLRPGRFDIIVKMGLPNKEERLDILQKYLGKDTCEKVNCAKIAELTDNYSGADLAALAREAKIRVLKDVIKGNTNRVISEEDLLEAYKKIKPSTIKKVSSSVLHHK;locus_tag=LOCUS_01750;note=WP_010978528.1 AAA family ATPase (Sulfurisphaera tokodaii) [pid:71.2%25%2C q_cov:98.8%25%2C s_cov:94.5%25%2C Eval:9.3e-236],MGA_175
sequence1	MetaGeneAnnotator	CDS	147212	148765	.	-	0	ID=MGA_176;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846891.1;translation=MYDVIIIGAGHNGLVTASYLAKNGLKVAVFERRNIVGGASVTEELWPGIKVSTGAYVLSLFRQKIIDDLNLYSNGLKVYTKDPGLFVPFPNGKNLYIWSSLKKTQKEIEKFSKQDSKNYEKWVKFWDPFYELADLLMLNRPIKISEIENIVSLIKNLNIDEEKALNFMRTFVQDGKSLLDEFFESDEVKSALIEDAVVGTYASPSTSGTAYVLAHHVIGEVNGIKGAWGYVEGGMGGITQALKRSAEKFGVDIFTQSEISEIKIKNNQVNGVMLNSGKVIESKIVVSNADPKTTFLRLVKSDMDNDFIKKIRNLKTTGVSFKIVGYLEELPNFGNGTSLAPEHIASELIMPSVEYIEKSFYDAKFFGYSKEPWLSINIQSSVDPTVAPPGKFVFSIFGQYLPYSKKLDSIKDKIAEITINKIREFAPNFNPIKYEVLTPLDIERRFGIWEGNIFHVDMTPDQLYVFRPIPSFSDYTTPIKGLYLCGSGTHPGGGVTGAPGYNAATKILEDIRSGYYK;locus_tag=LOCUS_01760;note=WP_052846891.1 NAD(P)/FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:70.4%25%2C q_cov:99.0%25%2C s_cov:99.8%25%2C Eval:3.2e-216],MGA_176
sequence1	MetaGeneAnnotator	CDS	148913	149995	.	+	0	ID=MGA_177;product=alkaline phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978530.1;translation=MILPNYNENLYSLACGISDFLGVNRECLSKIDISGRRLVVILMDGFGWNIMQKANINKPEARKIQTVFPSTTSTVLTTLFTAMTPGEHGILGYNTFVKNMGGIINTLKYTHPAIDERDSLKGAVPFDKAFPNVRGYLQEIKDKKTLDIVPKGIEDTEFSKATHARTTEHKPYVDFWDAMYLFSQSLNNNYDFIYFYLPYVDTLAHKHGPYAEPTISAAREIFESIYSIANKFNQYTFIITADHGHVMVSDNINIKEDKEFMGMLDVPPYGDSRALFLRSRYDMKTYLSHKFNLKIFTKIEMEKLFGKIGNIDLPDFIAVPEDNKAYIFDYKENGDYGKLKGHHGGLLEEEFEIPLVTING;locus_tag=LOCUS_01770;note=WP_010978530.1 alkaline phosphatase family protein (Sulfurisphaera tokodaii) [pid:53.2%25%2C q_cov:99.7%25%2C s_cov:99.2%25%2C Eval:1.5e-107],MGA_177
sequence1	MetaGeneAnnotator	CDS	149988	150518	.	+	0	ID=MGA_178;product=phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978531.1;translation=MVEYYIPTWDEIEEDVFQIAEKIANEKFVPDVIIAILTGGVIPAKLFSDIFGIKTLRYIEIKFYRGVNKTDAKPVVKAVYVNDVENKKILIVDDVADSGETLEAVTNVIAMFNPSLIRTATIYVKPWSRKYPDYYSKIIDKWIIFPWDKWDVVRENKDAPVKNKERFLELHNSIKK;locus_tag=LOCUS_01780;note=WP_010978531.1 phosphoribosyltransferase (Sulfurisphaera tokodaii) [pid:64.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-71],MGA_178
sequence1	MetaGeneAnnotator	CDS	150508	152169	.	-	0	ID=MGA_179;product=methylmalonyl-CoA mutase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846364.1;translation=MDVEDRLREWEDNVYKKWIAKRKERKAVFTTPSGIQIKPLYTPLDLKGDYNENIGFPGEYPYTRGIYPNMYRGRIWTIRQYAGFGSSEDTNLRFRKLLEAGQTGLSMAFDLPTQLGLDPDNDLAYTEVGVVGVSMFHWKEMDNVMSSIPIDKVSTSMTINATAMELLSMYVTTAENRGIDTRLVDGTVQNDILKEYIARKNFIYPPEPSMRYAVDLIEYSYKNFPKWHPISISGYHIREAGADAVLEVAFTLSDGIEYVRKTIERGIPVDDFASTLSFFFAGYTNIFEEVAKFRAARRIWAKIMKEWFNAKKPDSMTLKFHTQTGGAELTAQQPEINIIRTTLQALAAVLGGTQSLHVNAYDEALALPGEKAAKIAIRVQQIIAYESGSTETVDPLAGSYYIEWLTDEIEDKAWKIIHKIEDMGGMMSAIEKGYPQAEIAESAYRLQKKIEDGDMIKIGVNFAFEQDWLGTTEVFRVNPEVRERVLQRLKKYRSERDEMKTRDSLNSLRKVAESRKENMFPHILNAVKSGATVGEISNTLREVWGEYREPIIF;locus_tag=LOCUS_01790;note=WP_052846364.1 methylmalonyl-CoA mutase family protein (Sulfurisphaera tokodaii) [pid:82.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-274],MGA_179
sequence1	MetaGeneAnnotator	CDS	152257	152676	.	+	0	ID=MGA_180;product=methylmalonyl-CoA epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978533.1;translation=MESENVDHIGIVVENLENAINFYQEKFGMKVIDKEILEDRGLKVAFMIGKNGETALELLEPVNHEDLNNTIAKFLKNRGPGLHHIAIRVSNIEMSLKDLQNEGLTLIDKEPRKGARGHLVAFIHPKSSMGTLIELVQER;locus_tag=LOCUS_01800;gene=mce;EC_number=5.1.99.1;note=WP_010978533.1 methylmalonyl-CoA epimerase (Sulfurisphaera tokodaii) [pid:71.9%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:2.0e-57],MGA_180
sequence1	MetaGeneAnnotator	CDS	152729	153244	.	+	0	ID=MGA_181;product=Hsp20/alpha crystallin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978534.1;translation=MAGRKERKDPFSYFDDMIRDLEKEFEDMEREFFEAAKKGEVKTYGPYVYGFSVTVGPDGKPVVEEFGNIKRLGNKPVISEEREPVVDVIEKKDEISVVAEVPGVDKNSIKVTVDGNKLTISANSPDKKYYKEVELPAKVDENSAKATYKNGVLEVTFKKIETSSGKEIKVE;locus_tag=LOCUS_01810;note=WP_010978534.1 Hsp20/alpha crystallin family protein (Sulfurisphaera tokodaii) [pid:59.5%25%2C q_cov:97.7%25%2C s_cov:98.8%25%2C Eval:1.9e-55],MGA_181
sequence1	MetaGeneAnnotator	CDS	153213	153725	.	-	0	ID=MGA_182;product=ZPR1 zinc finger domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978535.1;translation=MEPKLIFEETLKCPVCGKNTLVARDYLYESENTGKLILSNWVCSNCNYRYRDVKPYETYTPKKIELKIERDEDLNILVYRSAFASMFIPELDVEITPMAGSQGIISTVEGLIEAIMDNLGSLCDENNCKKLYKAKNGELTFTLIIEDPSGLSFIKSEKAKITQLLSLSQS;locus_tag=LOCUS_01820;note=WP_010978535.1 ZPR1 zinc finger domain-containing protein (Sulfurisphaera tokodaii) [pid:57.7%25%2C q_cov:98.8%25%2C s_cov:98.2%25%2C Eval:5.2e-50],MGA_182
sequence1	MetaGeneAnnotator	CDS	153787	155352	.	+	0	ID=MGA_183;product=GTP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978536.1;translation=MKYPRENDIGKIEYKLILSDVPDERLQELASQMKFRIEEGGGEAIYIVGVSDDGDVIGLDQNELSNTISVLEKIAKMINAKIVHQRLVEVKNDRYVAELLIRLHKDNMPIQVNVAVMGHVNAGKSTVTGTLISGKLDDGNGSLRIMIARYLHEIISGRTSSITMRILGFNDSGNIVNHFLRDPLDEADVTINSSKIIRLIDLGGHERYLRTTLKGLMGYDVNYVMLVVGADDGLSIMGREHLAVASVLKFPIFVVITKVDKFPKERVEKIVYDIKNVLKIPGINRFTMEVEDENDVLNAIVGLKTGRIVPIFQVSNVTGQGINLLTRFLYMLPPRKLETVSRNPLIYIDEIYNVTGVGIVVLGSVIRGNVNSNEQIFIGPTKFGDFIQAKIKSIQVNRVFVDEVKPGTIATFAVQGIERDLLRKGMVITKNKPKAVMSFKAKIIVLHHPTTIKEGYVATMHLYTIRQAVRFSKINKGLLRTGDSSDVELTFLYRPEYIEKGQIFIFREGRTRGLGIITDVD;locus_tag=LOCUS_01830;note=WP_010978536.1 GTP-binding protein (Sulfurisphaera tokodaii) [pid:70.4%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:2.6e-221],MGA_183
sequence1	MetaGeneAnnotator	CDS	155326	155745	.	-	0	ID=MGA_184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEISGKEEIRDKEVAIKILGNKDNLLKCTPNVTKVEGNKFTAEMKMGPLQIELEGEIRDFQVLNNEVKNVIEVSGPGIIITINTNVKVEDKYVEWHASYDVRGPLSNAIRKTIDSKAKEVTKEIIACTLSLINVSNNS;locus_tag=LOCUS_01840;note=MGA_184
sequence1	MetaGeneAnnotator	CDS	155742	156164	.	-	0	ID=MGA_185;product=CoxG family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978538.1;translation=MKYQGSVEVKANKSEIMNILQNLEDVAKCFPGIKEIKKEGDEYKVTGSTGIGFIKGDYKATVKFTEMRDNGFSLTAKGTGLNSNVDILANVIVEDNKIAYEADVKVSGILASVGGRLMEPAMNKIIGELFDCLKQRVDKK;locus_tag=LOCUS_01850;note=WP_010978538.1 CoxG family protein (Sulfurisphaera) [pid:54.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.3e-39],MGA_185
sequence1	MetaGeneAnnotator	CDS	156200	156766	.	+	0	ID=MGA_186;product=nucleotidyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978539.1;translation=MTIASIILAGGEARRFGKNKLIEKINGKEIILRVLDAVPTEERAIIVGKYWEDILKLIQNEIIIYNPFWKSGLSSSLKLGIKFFYNYEAVMVFLGDMPLITKDISNRIIKSFKDMCVAIVPTYSGIWGNPVILRKNLFDDIMQLTGDKGAKDILKTKKNICTVEIGKEVLTDVDTESDLSLISEKQTL;locus_tag=LOCUS_01860;note=WP_010978539.1 nucleotidyltransferase family protein (Sulfurisphaera tokodaii) [pid:49.5%25%2C q_cov:97.9%25%2C s_cov:99.5%25%2C Eval:3.4e-51],MGA_186
sequence1	MetaGeneAnnotator	CDS	156708	157220	.	-	0	ID=MGA_187;product=glyceraldehyde dehydrogenase subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846892.1;translation=MKVIENNEKTKIHLKINGNVYEYETEPRRLLVHVLRELGFTGVHVGCDTSNCGACTVIMNGKSVKSCTVLAVEADGSEILTVEGLAKDGKLHPIQEAFWEKHALQCGYCTPGMIMEAYWLLNENPNPTETEIREGISGNLCRCTGYQNIVEAIKSASQKLRINQTPYQHQ;locus_tag=LOCUS_01870;gene=cutC;EC_number=1.2.99.8;note=WP_052846892.1 glyceraldehyde dehydrogenase subunit gamma (Sulfurisphaera tokodaii) [pid:85.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-83],MGA_187
sequence1	MetaGeneAnnotator	CDS	157226	158059	.	-	0	ID=MGA_188;product=glyceraldehyde dehydrogenase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978541.1;translation=MYPPKFGYVFPDNLNEALEFLEKHDDSKALAGGHSLIPMLKLRIIRPSYLVDIRKLNELHYLKKEGDEYAIGALSTHYEISKANIPLLSETASKIGDPQVRNMGTIGGSASHLDPSADYPAALIAMDAKVKIVGKNGERTEDFSAYDKDMFSPDLNQGELLKEIRVNDFSSYKFSYQKLEKRAGDFAIVGVAVLLKMEGEEAKDVRIGLTAVNTKAVRAYDAENILKDKINEKTIEEASNLVLKYANPSSDIRGSAEYKKKVTKIMTKRAIIEAIRR;locus_tag=LOCUS_01880;gene=cutB;EC_number=1.2.99.8;note=WP_010978541.1 glyceraldehyde dehydrogenase subunit beta (Sulfurisphaera tokodaii) [pid:69.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.0e-108],MGA_188
sequence1	MetaGeneAnnotator	CDS	158238	158963	.	-	0	ID=MGA_189;product=uroporphyrinogen-III C-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846366.1;translation=MYGRVYLIGAGPGDPELITVKGLRILKNADVVVYDRLISKELLDNCKKDVELIYVGKNIGDSRYQDEINEILVKKAMEGKIVVRLKGGDPYVFGRGEEECSFVINSGIDCEVIPGITSAIAVPEYAGIPVTSRWFSSGFCVITGTKAGGEVIDKGYIPKKGTLVILMGINKVDRLKQVLLEVRDPDSPVAIIQDGTLDTQKVYISTISNLEKIVRENNVKSPAIIVVGEVIKLRNKLWQLS;locus_tag=LOCUS_01890;gene=cobA;EC_number=2.1.1.107;note=WP_052846366.1 uroporphyrinogen-III C-methyltransferase (Sulfurisphaera tokodaii) [pid:59.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.6e-80],MGA_189
sequence1	MetaGeneAnnotator	CDS	159002	159589	.	-	0	ID=MGA_190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_069168176.1;translation=MNFLNLGKYLSFFILIISGVVYVIGDPLQKLISYQGPIIGGAILGWYVMNSSTPKDKFVDLDGTQMPIASLLLRKRSWIGFVIFSFLVIPWLTPLAFRAVETNAAISILAYASELSGGFIAGYFISSLKFMEKVVLYSLAFAGDLFYVIVLYIFSQIYGLPETVLVDNVLGYVYGIKFSEGVIFAVYVIKKINAI;locus_tag=LOCUS_01900;note=WP_069168176.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:50.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.1e-54],MGA_190
sequence1	MetaGeneAnnotator	CDS	159595	159834	.	-	0	ID=MGA_191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846367.1;translation=MNELDLSKQPGGCGASTTSVSLMKFWLETGGNQEVRIIAQQGVQADEVEMWAMAMQEKGVKILKKEILDGKVIYNIYLP;locus_tag=LOCUS_01910;note=WP_052846367.1 hypothetical protein (Sulfurisphaera) [pid:54.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.4e-20],MGA_191
sequence1	MetaGeneAnnotator	CDS	159827	160666	.	-	0	ID=MGA_192;product=SIS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978544.1;translation=MSDKIDYIKIINEELNTQYKIKADINLDSAYVTGAGDSFAASLVIEGKTNGRFRAIDPYDALTYNELDKPLIIVSVSGKPISNIKLAKKFSKKVKIITITANENTELAKLSDLIIKIPYSSKYQLPGTLSFLMSLSALYSIANIEEDKGTDDPFPLCNPFFIGKGENFGIAFYAYLKIAEIFGQKSNYERLEQFCHSPIFSSKNGNVIILSSNDKRERKLYSLIDFTNVYATKCEGAFCNTRTIIRSVLNEMQKKNWNKIYFLEDKKILDVSSKMIYNE;locus_tag=LOCUS_01920;note=WP_010978544.1 SIS domain-containing protein (Sulfurisphaera tokodaii) [pid:57.6%25%2C q_cov:97.8%25%2C s_cov:100.0%25%2C Eval:9.0e-83],MGA_192
sequence1	MetaGeneAnnotator	CDS	160737	161870	.	+	0	ID=MGA_193;product=amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978545.1;translation=MKVLIKAGLALTKDSPLRDIYIGINNEKIEVISKDEPEDYDDAELSIGGLDRLVSPGFISIQTFLSLYPFRYRIFSGKLNVNDIVSVMDEKDVYYFSLLAGYHLLKTGITKIITADPKPEHAARALMTIGLKPIIAVSVGCSWSSSDWKREFKALYSRWSTKEENRVIIKLCDEDEAEEVFGISNEYKIPVLVDRSINLSRFKEIPRNIIALGGGSRKDLEIIRKENLGLSFTPSYEICKFTLGSYMPSISLDSTPRYDIRTEMGIAASRLLLTSEEAYKAATIWGYKQVGITEGIERGSLTDLIIFEVNEPPSFPLDKESPFESIIYSSYNLETAIVGGEAILDGGVPLNIGIKDIEEANKRIEEIDEKYRNMEKD;locus_tag=LOCUS_01930;note=WP_010978545.1 amidohydrolase family protein (Sulfurisphaera tokodaii) [pid:55.1%25%2C q_cov:99.7%25%2C s_cov:98.7%25%2C Eval:1.9e-124],MGA_193
sequence1	MetaGeneAnnotator	CDS	161839	162600	.	+	0	ID=MGA_194;product=methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846368.1;translation=MKNIEIWKRIEIVGDIAIIGIPFNEEPSDLIDYAKLLLQEYKYIKSVWGRFRNTSGEYRLPEYHYLAGEKRSYTLYKENGCTYFLDFTKVFFSQTLSYEHLRIAKQVRKNEIIINMFAGFGPFSILADKIGYPQKVYSIDINPYAYYFMNCNININKTYDVIPIYGDAFKKIYSLEDANRIISPLPEKHKEAYEVALQKVKKDGIINLFVEVEVKKGENPIKVAMKEYPKSIFGRIVRSVNPRKYHVILDIKP;locus_tag=LOCUS_01940;note=WP_052846368.1 methyltransferase (Sulfurisphaera tokodaii) [pid:60.7%25%2C q_cov:99.6%25%2C s_cov:97.6%25%2C Eval:6.9e-84],MGA_194
sequence1	MetaGeneAnnotator	CDS	162635	162862	.	+	0	ID=MGA_195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846369.1;translation=MNIDKMILGYNLSQKKKVTIGNYMIKFHRRKVSKKQYDYLYVIEIFFMNSLIKRGIFSEYGNAVDFAGEFLYSLL;locus_tag=LOCUS_01950;note=WP_052846369.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:56.2%25%2C q_cov:85.3%25%2C s_cov:83.6%25%2C Eval:3.8e-13],MGA_195
sequence1	MetaGeneAnnotator	CDS	162962	164245	.	+	0	ID=MGA_196;product=glutamine synthetase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846893.1;translation=MSRDDVIETLKSGRIDYVRVEFIDILGNVRGRSLRRAEFENLILKEEGVPYPESLVLLDYKDAPIKTRYEDIIAQPDPSTFVVLPYLERTARVLSYLTYPDLTPSQYCSRGLLRKATQKLEEVGYKLNVAFEPTFYLLKSDDGNIIPADYGKAFSPEGLMEEQGFLRDMIKSLEQVGVQVEMVNKHYGPGQYEITFSNKEALQASDSLVTAREVIRDVARIYNTFATYMPKPFSDKPGSSMDIYFSLEGIDGKKAIDTNDTKGLGLSKSAYSFIAGIMEHLSGILAFAAPTINSYKRFKEIITPTLPGIGTERHYIIRIPSNFRDTNLLEFRLADPLSNSYLLLSSIIFSGIDGIEKNLDIEPNAIMGNIPTNINEALEKLDKDNYLKYTLGSDLISSFIELKKREVENYESYITDWELDAYLKAGW;locus_tag=LOCUS_01960;note=WP_052846893.1 glutamine synthetase family protein (Sulfurisphaera tokodaii) [pid:61.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.7e-151],MGA_196
sequence1	MetaGeneAnnotator	CDS	164245	165243	.	+	0	ID=MGA_197;product=alcohol dehydrogenase catalytic domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978548.1;translation=MKAAVFETQGKPLVIKDVKAPIQTNDGIVLKVLATGLCHGDVHIIMGDWQGDLDIKTPIILGHEIVGEVVTDGKKVKKGDMVLVYNAFGCNSCKYCKLGYYQYCEKVKVLGVHENGGFAEYVKVPDENNLIKVEGNPFSLAPLADAGITAYNASEGIQNGDKVAVLGTGAVSMLAVQILKFFGAEITVVGRNPLKLSKMQEIGINEIIFSRGEYAKDLSEKSTTRKFDYILDFIGNELTLDDVSWMLSRMGELRIIGEFGGTLRIPEQLIVLRGLRVKGILYGKMEHLTNVIKLFQEGKIRTFPILYRLDEINSAINDLMSGRVIGRAVIVP;locus_tag=LOCUS_01970;note=WP_010978548.1 alcohol dehydrogenase catalytic domain-containing protein (Sulfurisphaera tokodaii) [pid:59.5%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:9.4e-117],MGA_197
sequence1	MetaGeneAnnotator	CDS	165230	166234	.	-	0	ID=MGA_198;product=RNA 3'-terminal phosphate cyclase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978549.1;translation=MLEIDGSFGEGGGEILRTSLSLAVVTKTPFRIFNIRSKRSKPGLQRQHLAAVKIMKQLCNAETRGDFLGSQELEFTPKDTLDEGEITYDVGSAGSVTLISVSVIPVIINKKIRITLIGGTDVPKAPTIDYIRLVYMKILELIGIHGEVKVIKRGHYPRGGGIISIENFRGYPNKFNITEFGKLEKILGIAHVSSLPLNIAEREKDSAIKILSNISNNIDIELDIRDNESEGTGITLAAYGKSIIGADSLGEKGKRAEKVGEEAARTLITELNSGAAVDSHMSDMLMIYAALYGGIFSGAKLTKHAITNYEIIKKFIKNRSIEIEGNSPFIFKAL;locus_tag=LOCUS_01980;gene=rtcA;note=WP_010978549.1 RNA 3'-terminal phosphate cyclase (Sulfurisphaera tokodaii) [pid:57.4%25%2C q_cov:99.7%25%2C s_cov:98.8%25%2C Eval:8.4e-105],MGA_198
sequence1	MetaGeneAnnotator	CDS	166248	166673	.	+	0	ID=MGA_199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846894.1;translation=MRVKIKPLLNIIGHEELYVIPIKRNGDYLLCLNFYEDIIGGTLARLVIVLDKYNEINSIKVIEGDKGIVEVFGIKEDFDLLKKQIRLPKILVSTRIPFFINIKIKNQPETLDRGITGYLNYVKKYGEIKPLNLNLDLEILV;locus_tag=LOCUS_01990;note=WP_052846894.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:51.2%25%2C q_cov:90.8%25%2C s_cov:88.4%25%2C Eval:4.3e-31],MGA_199
sequence1	MetaGeneAnnotator	CDS	166656	167705	.	-	0	ID=MGA_200;product=DNA polymerase IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846370.1;translation=MIVALADLDYFFAQVEEIMNPSLKGKPLAVCVFSGRTKDSGAIATSNYEARKLGIKSGMPIIMAKKIAPDTIFLPMRKDLYKQVSSRVMKILENFSDRIEVASIDEAYLDITKKVKSYSDIMELGKKIKEEVKMREGLTITVGIAPNKVFAKIMADMSKPDGLGILRDNDVNNFINSLDIGKVPGIGKVLEDRLREIGINYLGDVLKVDFLTIKNKIGKAKANYLLSLANNSYDEPVRPRISKHKGRYVTLSKNTRNIEIILPFLKKAIDEAYNKIDGLPKSIAVVTIMNDLDIISREKSFPYGIDREKALQESLLLLKKILEDDNRQVRRVGVRLGKIYKSSTLDKYF;locus_tag=LOCUS_02000;note=WP_052846370.1 DNA polymerase IV (Sulfurisphaera tokodaii) [pid:57.0%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:2.1e-114],MGA_200
sequence1	MetaGeneAnnotator	CDS	167702	168547	.	-	0	ID=MGA_201;product=carbohydrate kinase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978553.1;translation=MKPIHLAVGKFNVDVIVKVNKIPEIDFSLNTDVFEILPGGSATNYCVAVTRLGHTSKLLSKVSKTEIVKPLMAHLAEEGVGLDLVEEINSPPNYALILLRENGNISMIRRTSNSLLPTAEDVAKYNRIFDVTHFASIPANVISKVSKLITYDPGAYSKAYEGEKVDILFVNKKEYADVKNKINAKLTVIKKGSEGAMIYGDDEECYSEALKTDVIDTTGAGDVFDAAFNVFYLNGNNLEDVLRYANVSAGLKVSRIGGTSSPTLEEVVQTLKKVKINAKCR;locus_tag=LOCUS_02010;note=WP_010978553.1 carbohydrate kinase family protein (Sulfurisphaera tokodaii) [pid:51.1%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:2.6e-77],MGA_201
sequence1	MetaGeneAnnotator	CDS	168683	170026	.	+	0	ID=MGA_202;product=RuvB-like helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978554.1;translation=MVEIKEIRKVETEKASIHSHITGLGLDEKGKALPKGDGLVGQLEAREASGIVVQLIRQGKMAGKGVLFVGPSGTGKTALAVAIAKELGEGTPFNMLNASEIYSTELKKTEILTQAIRKSIGVRIREKRTVYEGEVKELRLKVAKSRLNPYSEVPREVEITLVTKDDQTKLTAGETVAEQIVRLGIRKGDVIWIDAETGNVVKEGKAKGSVQYDIGKTIDIPSGAVKKEKELVTTVSLHDLDLNVAAQSVSITAIFSLWTEREITQDVRKQVDTLVKDLINKGMGELLPGVLFIDDAHMLDIETYSFLTKALEADLAPILILATNRGITKIRGTDIESPHGIPLDLLDRLLIIPTKPYTPEEIKEIIKIRSDELEIEIEPTALEELTKIGSEESLRYAVQLLEPARIIAQRNSRNIVKVEDIKEVYSLFADVKRSVKYAKEYENLLLK;locus_tag=LOCUS_02020;note=WP_010978554.1 RuvB-like helicase (Sulfurisphaera) [pid:71.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-180],MGA_202
sequence1	MetaGeneAnnotator	CDS	170091	170528	.	-	0	ID=MGA_203;product=CoA pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978555.1;translation=MDCQAAVVLIVSENKFLIIKRAERKGDPWSGDMGLPGGHVKSGESCVDAALRECKEEIGFEPKIVGFLGYYFPNNVKIKVAVFLGKYENEKIKIDNNEISKYFWISREDLVEQDGAYLYNNYRIWGMTFRILRDYFKNFNNIHLL;locus_tag=LOCUS_02030;note=WP_010978555.1 CoA pyrophosphatase (Sulfurisphaera tokodaii) [pid:44.5%25%2C q_cov:91.7%25%2C s_cov:87.3%25%2C Eval:6.0e-26],MGA_203
sequence1	MetaGeneAnnotator	CDS	170535	171977	.	-	0	ID=MGA_204;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979215.1;translation=MFDKMIYVIGNGIAGLSAAISLFNSGYKVTVITKNITGGSTYIAKGGLAAAVGENDSPEIHAKDTIIVGDGLCDEKAVSYVTKEAPLAVEILEKWGFRFASDLRLEGGHSRRRVLHKTDETGRDIYDFLMYKAKQLGIQLVEDRVKSLKVENNEIKGFITERRGEISADKIILATGGYGYLYKYSSNQSTNIGDGMAIAFRAGAFLADMEFVQFHPTVTALDDETFLLTETLRGEGAKIINDKGERFTFKYHEKGELAPRDVLSRAIYSEYLKGNKVFMDLSNIENFEEKFPVVNNYLKRHNLSVIDKIPIFPGAHFVDGGIRVNTRGETNIEGLYAIGEVSDTGLHGANRLASNSLAEGLVFGINISNYIDKWEGLYFNDGEIYSLQLTNGNLIDINEIRTINWENIGIVRNEEKLNKAISIYTQADTFSTNENSNAALVSLLTAKAAEIRKESRGNHYREDYPSKDNKWKKRIYFKIQ;locus_tag=LOCUS_02040;note=WP_010979215.1 FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:64.8%25%2C q_cov:99.0%25%2C s_cov:99.6%25%2C Eval:7.6e-180],MGA_204
sequence1	MetaGeneAnnotator	CDS	172082	172813	.	+	0	ID=MGA_205;product=substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978086.1;translation=MDLTLPLFDTLEDLWGDINGIKMSFAGNQWFVSKALISLLNSKGYKVYLETIPPGVVRKRAEGESLKIGNLEITFNPEIISLPPSMMDGLKIREKFDYVENEIVIVYTKNEINDWCEVLGKRIAIPNPKTEGIGKNFMELYQENCGNYEELANSGVYITMVHHREIPHMLKLGDIEAGIMWKTEAMYWGFKYSIPSKNRISKLSFALLENSSEKARQVYDILKSNEVKAIYEKFGFRWIKGSP;locus_tag=LOCUS_02050;note=WP_010978086.1 substrate-binding domain-containing protein (Sulfurisphaera tokodaii) [pid:63.2%25%2C q_cov:98.4%25%2C s_cov:99.2%25%2C Eval:2.6e-88],MGA_205
sequence1	MetaGeneAnnotator	CDS	172797	173453	.	-	0	ID=MGA_206;product=DUF3834 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979919.1;translation=MLPMKVLAAPGPVSYPIIASKMKNKDIQIVFGKDGNNDVDVILDSTVSLVRRNLKIDYITIKGLMVISPDIGKKIGVWRKGSAADVLTRVLLREKKINAELIYANEMQELVKMLKEKNIDSAVLSSAVAKGKSFEELLNIPGSCGAKVYKNEDEFIRLYTEGIELIKEDPEGSSEFIASTLPMSVPKDFIIGSMKNSVLEINRLHDDTRFANLIKDFL;locus_tag=LOCUS_02060;note=WP_010979919.1 DUF3834 domain-containing protein (Sulfurisphaera tokodaii) [pid:52.1%25%2C q_cov:98.2%25%2C s_cov:96.0%25%2C Eval:1.7e-61],MGA_206
sequence1	MetaGeneAnnotator	CDS	173533	174414	.	-	0	ID=MGA_207;product=PTO1314 family radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980496.1;translation=MCPFWRRKDEKLLDLNDEIKMMKKLADAGVIFMGFEGGEPLLRRDLPEILKESHDRFHTSLVTNGILLKNKIDSIKKNLDFLFVSIDGIGEVHDSIRGVEGAFEKSLEGIKVASQYVPTDISFTITSENMNEAVKIVKLAEDLNVSVNFQVAYNYSTADKLSPDFIELRSILEQLLELKKSGAPITNSREYFESIINSWYRKIPWECKPWLTINIDPQGRVVLPCYVLNEYNGSVYVWDTDIEDLWEKYEWDKYYSCNKCGLSCYLEPSLFSWSNPSMVKERIIDGIISLMTR;locus_tag=LOCUS_02070;note=WP_010980496.1 PTO1314 family radical SAM protein (Sulfurisphaera tokodaii) [pid:64.2%25%2C q_cov:99.3%25%2C s_cov:86.7%25%2C Eval:2.2e-111],MGA_207
sequence1	MetaGeneAnnotator	CDS	174607	175200	.	-	0	ID=MGA_208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980546.1;translation=MKFFKKFKKEKDVNIAIEVFSELSSSKLGRYLGYPILDLEIIEKDGEKGFIMEYLPDRAIPTVLNIEKLKEALAFEEWTLNIDLKEDHVLMKDNNAYIIDHGHTLTAWKPLYYIQQIINSKVSRFNLWSDYESFYSGVRNIKSIDFKTIEKILKETSKEILDLNFCSMYTQSVANEHIDLSLRILKYRLNILHNLFY;locus_tag=LOCUS_02080;note=WP_010980546.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:49.2%25%2C q_cov:97.5%25%2C s_cov:96.4%25%2C Eval:4.5e-44],MGA_208
sequence1	MetaGeneAnnotator	CDS	175354	176229	.	+	0	ID=MGA_209;product=mechanosensitive ion channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980466.1;translation=MAYRNQSIKILLTLIILAIIAFSLHLISHYLITYVKPLAPYVNYVDLAIDAAIVGIGGYILIRILQKIISIYLLSKVETSTAHTLSLVLNIMLYSILVLAILAALGVNLTGAAIGGAIGGIAIGLAAQTFLSNILSGLMVTSSKTLRPGDAVSLSSWIWGSPIIGETQKVSILFTEVKTIYGNVVKIPNSAFLGNTVFTKLEGGNSLIYSFQVTLNADVAADQVLVKAQNYIKDDFTKLRLTFPEIYFSGKNGGTNTFTVILHFQNLIDLNKLLDLINKAFDKAYWDSKKQ;locus_tag=LOCUS_02090;note=WP_010980466.1 mechanosensitive ion channel family protein (Sulfurisphaera tokodaii) [pid:49.8%25%2C q_cov:99.3%25%2C s_cov:99.7%25%2C Eval:3.4e-72],MGA_209
sequence1	MetaGeneAnnotator	CDS	176304	178199	.	+	0	ID=MGA_210;product=COG1361 S-layer family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979983.1;translation=MRYKALWKTLLVLFLIIINSEGIYLGFNQSSTFIGYAKPQTLIAPGETEVPITFSITNLGNTLYNVSITPLQIFPFYLYKYYNTTDIVNIPIWEHGQEINITFLYNINSTALDGVYKISLDINATNVTKIVSFSVPILGYVKITAQGVWGSLNSPLVVAPGETNLPLSIILVNEGNVEGYNVSITLNSTYPIKFEQKKVDIGYLPIGQPITATIYASIYNNASEGVYNIPITINYFKNSNEKTLISVPINGYENFSISALWGTQSSPMTASPGSENLPLTFIVKNLGNVLASNVSIFLKQAYPLKISQKYVSIGIIPAGEYNLATITASVYSNVTPGIYYIPVILHYFETNVTQYVPLLISSPKIAINILTLPPQIFPGFYDVRVSAIVLNYGNGIAENSTVSLSSPFPIVSSNNVSLGAIPIGVPENVTFLINVPNSTPAGNYILKFHIKYDGGSLVKYYNLTIYPKANIIIVSTYYPTLNPGSSKVPITLTFKNIGNAEAKNIIVRLGTSNVIYPHVSSSNPLAALTASEIFIGNLKPGQETNVTYIVDISSGATAGKYPLAFALIWNQTGSIIPLYETDQVNITISPTLLSQISSVNVVSIPVLYLIIVIIVLIVIIAIISVRARRKR;locus_tag=LOCUS_02100;note=WP_010979983.1 COG1361 S-layer family protein (Sulfurisphaera tokodaii) [pid:53.9%25%2C q_cov:93.7%25%2C s_cov:92.4%25%2C Eval:4.4e-194],MGA_210
sequence1	MetaGeneAnnotator	CDS	178379	179134	.	+	0	ID=MGA_211;product=winged helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846782.1;translation=MKAILLLILPIIFSLASSAYNTVNINYNGHVIIYDTQSKELYIPPNARNLSINVKYVIENNTIILSSIPATISYYENFSGVISFSENFTSKIIIILPSYIKLSYISMSPISFKYYNDYFNLTFISKNITILYYVSGYTYTTEVSHNKISIFFIGFLVSLFSTTFLLFLLIKRNRVNINFEENTNTLDDRDKKIIEAIKNGADNLTRISEMTQLPRTTVYRRVKRLKSLGYLAEIREKGKVKYLVKGDKNEQ;locus_tag=LOCUS_02110;note=WP_052846782.1 winged helix-turn-helix transcriptional regulator (Sulfurisphaera tokodaii) [pid:34.4%25%2C q_cov:84.5%25%2C s_cov:97.2%25%2C Eval:5.0e-26],MGA_211
sequence1	MetaGeneAnnotator	CDS	179124	179549	.	+	0	ID=MGA_212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKLLLALFIISLLVLVYSTTELTSNIVIHKISRTQYYTFSYNYSQVILIHFKNFGDYTFHLNVTNNNINQVYAIVIVKPIMSPIILKRNVITLSSLNNTFVIFLHPGKYVLEIYISGIATKNLTVTQLRNYISITLYKS;locus_tag=LOCUS_02120;note=MGA_212
sequence1	MetaGeneAnnotator	CDS	179555	179977	.	-	0	ID=MGA_213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLAEVILEVGKSSPQDLAEALEGKVDEKEVAKIRLESAKFYLEQAELNMSLPAAASEDLYKAILEGMKSLKSYLGISEDLRNAIPKISDILGDWIDEAWELGLKLHYEGYISENFEESDLQFYFVKVERFIENCEIAIS;locus_tag=LOCUS_02130;note=MGA_213
sequence1	MetaGeneAnnotator	CDS	180061	181359	.	-	0	ID=MGA_214;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012952500.1;translation=MVSLSKKLEPKENSIPKYLVISQSLSSIAPLGSVSAYLTFALASSLASTGLASIVGVFVYLLWVIIGYRYSKVIASTGGTYEFARQASGETIGSIAGWLYWISYAIYLPSVTTYLVGIVLPTVINFQSIYLSIIEVTIPIILTLLMISGIKPPLFYSLISSTIEVILIIILGFKVLIIKGFSLEPFFITVPQYDFWSGALAVAFTLAGGGASFFLGYEAKGKGKTIGSSYLIAFVIASIAVIFASYYEIAAAGYSNLGVTNLLNITEFPGFYISEKFMGFTFAFIIFIFTVNSLLGSAISAYVALSRLTYTLVSKNMLKSILTVFIFFLIFNVLGSITGQLQLIYYFTTEISLITLFASHSIVSAVYPFFIRKISKISFIDILLAISSSGIMMYGIYSNLIPIQLTSIISIGVILFVAAIVIIYRYISKSKY;locus_tag=LOCUS_02140;note=WP_012952500.1 APC family permease (Sulfolobus islandicus) [pid:59.7%25%2C q_cov:97.7%25%2C s_cov:91.9%25%2C Eval:4.3e-139],MGA_214
sequence1	MetaGeneAnnotator	CDS	181384	181623	.	-	0	ID=MGA_215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILIPAIIGGFFITTAFITFFIIKKPKLGDTLIFYSIYAGYYMGLILYYFHMIVLAIITAFLIIMPIIVWKFLKKLYI;locus_tag=LOCUS_02150;note=MGA_215
sequence1	MetaGeneAnnotator	CDS	181732	181917	.	-	0	ID=MGA_216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNIPKTKPRFISAFFFLEFIEYARYIRKITIINVEIVKIKGTFPINIIPPINRDIEDPSR;locus_tag=LOCUS_02160;note=MGA_216
sequence1	MetaGeneAnnotator	CDS	182108	182572	.	+	0	ID=MGA_217;product=AAA-associated domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980406.1;translation=MKIVDPGARVADLLGLLSILQNTFNGKTDLYQLEKEMEVDLDDLMPIVYTASYLGFITVGEGDIIISDKGIDFLNSNIKKRKEILKESLLDVEPFATAKDLKSFTLEELKDSLEKKGINIYNSPEGLYDLQITLSEWGIYSGFISRHNDIYKIN;locus_tag=LOCUS_02170;note=WP_010980406.1 AAA-associated domain-containing protein (Sulfurisphaera tokodaii) [pid:62.3%25%2C q_cov:98.1%25%2C s_cov:94.4%25%2C Eval:3.4e-52],MGA_217
sequence1	MetaGeneAnnotator	CDS	182775	183515	.	+	0	ID=MGA_218;product=VIT1/CCC1 transporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980407.1;translation=MQESQKEPVIHYTEEADTFRTKVFGIQDGLIGVGSITIGAAGFSHDPLIVVVMGLIATIGQGFSMGIGEYISTRVRMQVIANEIKKENYEINNFPEKERDELIGFYMRKGLGKEESEKIADIVMKDKKVTLNEMMMHELRIFPEEFENPIKLGFLMSLYLIIGGIVPLVPFILSIFIKFDFYYALLSSVAIIIATLGIFGSLATKYTGLHKSRGALEQISVGIIALIGSYLGGLILAHFIPISYLP;locus_tag=LOCUS_02180;note=WP_010980407.1 VIT1/CCC1 transporter family protein (Sulfurisphaera tokodaii) [pid:62.9%25%2C q_cov:97.6%25%2C s_cov:97.2%25%2C Eval:8.1e-90],MGA_218
sequence1	MetaGeneAnnotator	CDS	183499	184422	.	-	0	ID=MGA_219;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980408.1;translation=MIIEPLAFESLGVRSQATFIETKDIRILIDPAVSLAPRRYGLPPHQKEVDKLSELAKIVTEKARLADVIIVTHYHYDHHDPGYIIPRDIYKNKKVFIKDPKNMINNSQRRIRAPKFLNSIKSLPSSIEVAEGKKIEIGSTKIFFSNAVPHGADERLGYVVQVGIRDGDQTLLITSDIEGAPRDMHIKFTEELKPNTIIIDGPLSYLLGYALKQEDLDKSIDNLEHIVKEGLETMIVDHHVLRDINYKSVLSRVYEVAKSVNARVITAAEYLNKEPEILEARRKELFKEENKPARIPRNLAEILKVDS;locus_tag=LOCUS_02190;note=WP_010980408.1 MBL fold metallo-hydrolase (Sulfurisphaera tokodaii) [pid:68.6%25%2C q_cov:98.7%25%2C s_cov:98.4%25%2C Eval:1.6e-120],MGA_219
sequence1	MetaGeneAnnotator	CDS	184636	186024	.	+	0	ID=MGA_220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKIDLSTSEVYRITILGIKGGVGKSTTALSLGKALAMNSKNVLLVDRDLIGYSSYIMGIRDKGILAKVVDDEDNFGNSYKEIAINEGTLGVIKLFGDGDRFQDDIDKIHKNKYLMEQFSLLYKRFLVYRKYDYYIIDNPPLVTSNSEVAKHELQVFYSLFENAKNLRIYITNYSENSIQNTIDYIKNIEGNTTYPGIPLSFIINLVPNTYDELQHAKDKMKKIISNLNIAFGLVIPLNEKLINFSGNIVEIPIPEEINELAINIIDKKFADHKILSVAPKSLENILNSNSVILIEGVPNSKKTNLILNISKTLNNRKKVIILVSTNDRIYDIFKRNDINFINISILPKYREERFVIKNISDVIKLSKRLSNEILDEIKDIDNPAIILHRTNDITPASNCCDLHAEKNEFWNSFINYLKYKKNSQIFLICDKIADDCDEIKSFVEYDIYTFENGEYEIRDIL;locus_tag=LOCUS_02200;note=WP_010978764.1 ParA family protein (Sulfurisphaera tokodaii) [pid:30.7%25%2C q_cov:57.1%25%2C s_cov:99.6%25%2C Eval:2.1e-30%2C partial hit],MGA_220
sequence1	MetaGeneAnnotator	CDS	186021	187526	.	+	0	ID=MGA_221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVANLIFSLSPFFVSTIFTYITFVSFATAIIAFGIWISMVVGFYIFLDFFILSIRSKKYSVKLVGKETRYKVAAFVTSFNEDPKIVEGTLMSIKTAIGNLGNVFLLDDSTNNKISTELKNFCNKNDIIYLHREKRRGYKAGAINDALKNISEKYDFVAIFDADQRPVEDFFKQVLPYFSDPAVALVQVPQNYSEINSGIASGAKYQQEPFLRIIMRGRSMSSAFSLGSGSVFRISALKDVGYMSENSVTEDAATSIKIHEKGYKSIYIDAPLIWYGEPPQDLNAYMIQQSRWAFGYFQLTKEIIFSNLDFSKFFDYFSGTLYWIKEGPITLIEFLAPIFFLMFKIPIMKINPVCYLLAYIPYLIFTIALFIFATRDKTEYGIKGFYFHQSVEYLEFPSITLAFVSWIMRKRTPFKVTPKETRKFNLNLILPHLFILFLLIFSDILGFIWLFSVRSYTLAYAISINIFWASYQIPFLIGGVILSKEFYKEKKYVSMSKVNN;locus_tag=LOCUS_02210;note=WP_010964794.1 glycosyltransferase (Clostridium) [pid:26.9%25%2C q_cov:92.8%25%2C s_cov:61.5%25%2C Eval:2.6e-37%2C partial hit],MGA_221
sequence1	MetaGeneAnnotator	CDS	187547	188878	.	+	0	ID=MGA_222;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979669.1;translation=MVVLRYYKGLIISDSYAPGLEWNDELKNYVGFGYKYRDVLKYFKKSGIEIKDYVMQSLPFPLIKDSLKLREYQEKALDSWLKLKRGIIVLPTGSGKTAVALKAISVLKVSTIIIVPTIDLVNQWYDNILKFLRVSSGRIGGGYDEIKGITVITYDSAYTRIEEIGNRFYFAIFDEVHHLPSEGYSNIAEMLVSPYRLGLTATPEREDGRHVILPNIVGPEVFRIKPSQLAGKYLSQYEIEKIYVNLTDKEKEKYDELREKLNNFLKKKKFKLDSLRAFHRLLAMAGRDPEAREALMAWHESLKLSVNSEAKIDKLREILKDSEQDKIIIFTRDIDMCYRVSREFLIPAVTYKTPKDERNEILRKFKENKYRVIVVSNVFDEGVDIPDANLAIVLGGYGSSRQFLQRLGRILRMKENKKAKLIEIITKGTSDYRLSKRRSRATI;locus_tag=LOCUS_02220;note=WP_010979669.1 DEAD/DEAH box helicase (Sulfurisphaera tokodaii) [pid:63.0%25%2C q_cov:98.9%25%2C s_cov:99.5%25%2C Eval:3.4e-163],MGA_222
sequence1	MetaGeneAnnotator	CDS	188865	190310	.	+	0	ID=MGA_223;product=DUF790 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979670.1;translation=MLPSELSRYRIIGNNIVPLLASEEDISIASEIIKLFKVGDKLGNIQDGEKVLEQIYQYDSNLLKFIRGLYRIMLRKCTLTGESPIEPILIRRELFSKGPAINDKDRQKILNHVSNSLKIDAERFMYSDLDSEKVVSSIEDISPEKLLKEYNLSLLQTLLFKCYKIRVQVQDNWKEIARRIKWLGLMYFAYENPISIEIMGPATLLKLTEKYGRNIAILLPYILSSKNWKIEAEIVIGKNKRRIYKLELSNIDFIEYNKEKYEKEFDSSIEEKFYNDFKNSIKDWNIVREPEALVVNKHLFIPDFKVMKGNLSIYIEIVGFWTKNYIREKISKLKDTKAPILVLLNSELSKEDFEDFQVIKFKGKVNIAEVYKWLKDYERKNAKYEINYSLDKDIVSIKEISKKTNIPEDILRKNLKKFSNYTFIRNYYIKNNILDELKQIDFSNKKLSELINKYGDYIVEVLDFLGYKLKWINITDAIVTK;locus_tag=LOCUS_02230;note=WP_010979670.1 DUF790 family protein (Sulfurisphaera tokodaii) [pid:53.5%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:5.3e-149],MGA_223
sequence1	MetaGeneAnnotator	CDS	190307	190927	.	+	0	ID=MGA_224;product=HAD family phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980129.1;translation=MIKAAIFDLDGTLVSTANVHKTAWELALKDLNISVNVKLDNLMGMRTIEIAKILGGDRYLELFNKKNEYYKDLVIKMAKPTPCAVEILKNLRENNIKIAIVTSSLKASAELSLSILNFSPDLLIAGDEVKNGKPNPEPVISALNKLMVKADETFAVGDTMQDIIAYNRSNIQKIYLVINDININREEAKNYGARIINTLCDLFKEI;locus_tag=LOCUS_02240;note=WP_010980129.1 HAD family phosphatase (Sulfurisphaera tokodaii) [pid:43.7%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:7.6e-45],MGA_224
sequence1	MetaGeneAnnotator	CDS	191673	191858	.	+	0	ID=MGA_225;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978621.1;translation=MATKIKFKYKGEEKEVDISKVKKVWKVGKMVSFTYDDNGKTGRGAVSEKDAPKELLDKLGK;locus_tag=LOCUS_02250;note=WP_010978621.1 DNA-binding protein (Sulfurisphaera) [pid:82.5%25%2C q_cov:93.4%25%2C s_cov:89.1%25%2C Eval:1.3e-21],MGA_225
sequence1	MetaGeneAnnotator	CDS	191987	192313	.	+	0	ID=MGA_226;product=twin-arginine translocase TatA/TatE family subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980696.1;translation=MIGGNLSPTDLGIIILVAVLLFFGTSKIPELFRNMGKAVGEFKKGRLESEMEINQMQQTVPQTQVSQQPTQQTTPASSQANPQDLEKQIRDLQNQLEQLKKQQNQTTS;locus_tag=LOCUS_02260;note=WP_010980696.1 twin-arginine translocase TatA/TatE family subunit (Sulfurisphaera tokodaii) [pid:40.7%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:2.4e-15],MGA_226
sequence1	MetaGeneAnnotator	CDS	192373	192711	.	+	0	ID=MGA_227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSNISDMIIIIIVGILLLGGEKDISGTVRNLGRTFQEFKKRQEEFRNELTREINNVGDIPRQAGQSLVNDVSSSYSRRYNSYNQEKINQLEEEIRKMQAELERLKKNGGKN;locus_tag=LOCUS_02270;note=MGA_227
sequence1	MetaGeneAnnotator	CDS	192695	193555	.	+	0	ID=MGA_228;product=twin-arginine translocase subunit TatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978579.1;translation=MVARTEEIADQERPLLSHLRELALRLRRAFITLAIVFVILFAFDFRFITIYGYSIPIIYPNLFHSISTRLIVFFIHAELPPQLHLLNLNPFDTIYSSAYISFYFAFFVALPIIFKEIWGFISPGLYENERKLFRNIILPGITLFVAGSSFAYFIIVPFMMKFVLIFTQSLGVEPTLSLRAFISTLITLMLAVGLAFEFPLVMTILSYIGLVKAETWKKNWRWGVLGSFIIAWAISPGTTGGIIETTIGLILSALFFVGVAASSFAQKRRSASLELKQSLNSIKRNS;locus_tag=LOCUS_02280;gene=tatC;note=WP_010978579.1 twin-arginine translocase subunit TatC (Sulfurisphaera) [pid:52.1%25%2C q_cov:91.3%25%2C s_cov:93.9%25%2C Eval:5.3e-78],MGA_228
sequence1	MetaGeneAnnotator	CDS	193558	193836	.	+	0	ID=MGA_229;product=ATP cone domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011761814.1;translation=MKIIKRDGSEEDIIYEKIVVSVLKTGASIEVARKIAFMVIGKLYMENKEKISAKELTSLILSFLRKENEEWYRNWIIFDKVVKKRETEKEIS;locus_tag=LOCUS_02290;note=WP_011761814.1 ATP cone domain-containing protein (Pyrobaculum islandicum) [pid:54.9%25%2C q_cov:98.9%25%2C s_cov:97.8%25%2C Eval:7.8e-22],MGA_229
sequence1	MetaGeneAnnotator	CDS	194054	194395	.	-	0	ID=MGA_230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVIAPCEIASRDIIPAIRAIIVIGLYKKGTSQTQIASFLGITTAEVNYYIKGKRGNNEIINKLQSDVEFMDTVSSTVEKIINDTDVINLCTLCSIARKKILKDGSSCPFDW;locus_tag=LOCUS_02300;note=MGA_230
sequence1	MetaGeneAnnotator	CDS	194450	194896	.	-	0	ID=MGA_231;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980172.1;translation=MSVNLNLQIRTASINDVEHIYNLYSSLSPDDLYMRFFSFKKITEEEIKNLISRKALVTLIAEIDNNIVGEASLYEDGEFSLVVSPNYRKMGIGTKLVEELVNQAMEHKLDKIKFYTLPDNIPMIKIGKKLGFSLKFDEDEVFGIKYIH;locus_tag=LOCUS_02310;note=WP_010980172.1 GNAT family N-acetyltransferase (Sulfurisphaera tokodaii) [pid:54.2%25%2C q_cov:95.9%25%2C s_cov:90.4%25%2C Eval:2.4e-38],MGA_231
sequence1	MetaGeneAnnotator	CDS	195131	196465	.	-	0	ID=MGA_232;product=pyruvate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979673.1;translation=MRKTKIVATLGPSSENKVKELSKYVNIFRLNFAHGDENSHKKYFDLIKDYAKDASILVDLPGPKIRIGDINGKLDLKSGDKIVFSEKEGIPVEDPLFYKAVKEGIYILLADGNIKVKIDKVDSDKVEATVIEGGILTSRKGINIPDIKLDSGITDNDLKLLNEALRLGADFIGLSFVISYKDVIKIKNMVKDKVWIISKIEKKSAVNDLHNIIRESDGIMVARGDLGVEIGLENLPFVQKKIIKLSKLNGKPVILATQVLESMVNSPMPTRAEVIDISNSISQGVDAIMLSDETAAGNFPIEAVKYLDNIITAVEKRVKTVRPPPKSSSDDAIAIAAVNVAEVSKSKIIAVHSRSGISAIRISRLRPKVPIIALCPNENIVKKLKLCWGVYPFYVREVRSLDEITQLVEEYSKDYVKEGESIVIAGGDPKLEEGRTNFIKLHRA;locus_tag=LOCUS_02320;gene=pyk;EC_number=2.7.1.40;note=WP_010979673.1 pyruvate kinase (Sulfurisphaera tokodaii) [pid:54.4%25%2C q_cov:99.1%25%2C s_cov:98.9%25%2C Eval:4.0e-127],MGA_232
sequence1	MetaGeneAnnotator	CDS	196465	196980	.	-	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIMGAEYRQLIKTLTNAKELIFNGHIKEGLDIIEKTVTPNNIKESNWVICNIIDAGNCNAVVSVLDSIGKMFDITACGNIKRVIKCYASVGKYGEFVDIAIDTLVSKGRKDQLDKILPDVGNNGKILLKLAQAYSKLKDQKKANELLRKACENGEKEGCENINQISTSFS;locus_tag=LOCUS_02330;note=MGA_233
sequence1	MetaGeneAnnotator	CDS	197031	198113	.	-	0	ID=MGA_234;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846613.1;translation=MKVAIVGGGIIGLFTAYFLQKEGTDVTLYEKAELGSYSIHAAGLIEPYRFDKINSTEMIVKMLKYTIRGDTYIKSANKLWLTELIKELNKNPPKEAWNTLKEMAEFSLSQYKEMSEEKNDFDYFNDGLYEAYNDEKSLEKGIEEEKKSPFSVRFEVKELQGFAGAIYFPELSRISTEKFIKRISSEISKVKVINKEIASLDELNDFDSIVLASGIWTTKFINIPLTAFKGYGYRVNGNSKFKNAIVIVDDGVAISPLSDHIKITGGFDADFSFDSSRAELFLKKASKIVDINYIYEMDMGFRPCSPDGFPILGKKGKVTIATGACRLGWSYAPAMGKYAADLALDKIKSLGYMSRFIDNI;locus_tag=LOCUS_02340;note=WP_052846613.1 FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:58.2%25%2C q_cov:99.2%25%2C s_cov:98.1%25%2C Eval:2.2e-122],MGA_234
sequence1	MetaGeneAnnotator	CDS	198110	198763	.	-	0	ID=MGA_235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156006377.1;translation=METRKKNLSRVLYGLRSINKATREKSWKEIEKISEFEPSYLYRYRGYLRSLLWNKLQGVREDAWSHLSIYKILSVDGIERSLSLSSDKLKITAWLHVADMINLGILDKGDVIAMRDHFWKLLKSYYPTIRKKAWNLFPILVKEGFFLEKDKNRFLEFLKNPKPSIRIKAWQKSILLLNMGFLSKEDIKNNIKYLNELLTKESNIKKIAQNILRGLNV;locus_tag=LOCUS_02350;note=WP_156006377.1 hypothetical protein (Stygiolobus azoricus) [pid:51.0%25%2C q_cov:92.6%25%2C s_cov:89.4%25%2C Eval:1.2e-51],MGA_235
sequence1	MetaGeneAnnotator	CDS	198766	198972	.	-	0	ID=MGA_236;product=MoaD/ThiS family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979679.1;translation=MKVKVKLVRENTEKNVELNDKSSVKDLLRLLGYNVQGVVVLKDGIPIIEDEKIHDGDSFTIFLTASGG;locus_tag=LOCUS_02360;note=WP_010979679.1 MoaD/ThiS family protein (Sulfurisphaera) [pid:63.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-18],MGA_236
sequence1	MetaGeneAnnotator	CDS	198996	199823	.	-	0	ID=MGA_237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFICKNGIINDFTFYIDNENAILIRKTDILIKKQGINVRLCKDLDKNAVNILLSALKNGFYNIYYKGYLLIYNIGYGYGLYRILKINYIDDILSEKTIQLLNGKISQEEYEKCMTKLKNEKGLKGFTIVAIDEFSLLSENINWDLFSYKVDKLENCHEINAKISDKIEIGNLKFDIQKEAEFVDLAAFITLFNIINGKYIGNFEIKDGEGYIYKPFTEINITNIGNTRICGKIRLPKEKPCAFGDGISFYSDNTNTLNEVISDINKIKEISGKLK;locus_tag=LOCUS_02370;note=MGA_237
sequence1	MetaGeneAnnotator	CDS	199827	201524	.	-	0	ID=MGA_238;product=glycogen/starch synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846917.1;translation=MKRIESFWIPDKVDKVWMITFELLNIASMGGLGNAVYNLSKALVNNGINVTVIMPSHGRHLNDYYRNKLRLTEMPIAAIGNRKGSDGNSYPYKLGFEKGELDGIKIVLVKGLDYTSGKIMDSWEIYDYTMEKSALLARALESYVSSIQFNDIPSIIHVNDWHSVLAGVKAKFAFEERRIIVPLMYTIHLLNKVGAPWHFASEDWAGLENYDHYIWMVSRHVLYKTRTLWDMCDGKIEKFGCYEADSIASVSKNYLTYDVFQFVGNMMENKSCVTYNGTDWTIQEIEDYARKNLGTTNRKEIRSRLFSSLPNMKVIPDDYSSGNMLWNNRWRIGIRDDWTYEALQDGPLVIFTGRIVYQKGIDLLLRAFRQVVNEIWNAKLVVLGIPAGDYGLLQDVIDRSAEIKDNVRLIIGKLDFNIYKLWHYASSVFAVPSRWEPFGINAIESMAVGTPVVASSLGGLSESIIDVRWSPEGTGFLSEPNSIDSLAKLLKNAIYLSLAEEYGDSNYLNKADLVKVSDVKFWSKVRQNCINRVDANFRWNVVAKEALNCYEKSILMAKYRGLAFM;locus_tag=LOCUS_02380;note=WP_052846917.1 glycogen/starch synthase (Sulfurisphaera tokodaii) [pid:60.0%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.1e-204],MGA_238
sequence1	MetaGeneAnnotator	CDS	201511	202857	.	-	0	ID=MGA_239;product=glycoside hydrolase family 57 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978813.1;translation=MVERIIVGFEVHQPFRVRKDAFWNPRYTGSVFEKYFDMQLNKEIFERVKKKCYLPATNIILEEIENAENEGRDVKFFFSLSGTFIEQAEKWGKDVLDIFRILASTKKVEFLSQTYYHSVTSLWEDKYEWIDQIKSHKELIKEYFGQDPKIFENTELLTRKDLIQEAEKLGFKGYILEGKESNLKGKSPNYVYKLKDSKISLFFRNYKLSDDIAFRFSKRDWNQYPLTADKFSNWIKDSPGQSILIFVDYETFGEHHWPESGILDFLRWLPRELNKRGVKMVLPSELINEAYYETDIDTTSSWADVNKDETSWLGNLMQWAYDEAVKRSEMPSRELGNEFLKAWKYFTTSDNYYYLFTGGGGPGEVHSYFSSYSSPVDAFLNEFYAINSFLNDELKELKINNEPFFFTKNGKRVDVAWNIKEFNDIIKRDNSLKENEKHLKEWLKNEKN;locus_tag=LOCUS_02390;note=WP_010978813.1 glycoside hydrolase family 57 protein (Sulfurisphaera tokodaii) [pid:66.8%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:9.6e-182],MGA_239
sequence1	MetaGeneAnnotator	CDS	202892	204136	.	+	0	ID=MGA_240;product=NDP-sugar synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978812.1;translation=MKWDPADIKVIIPIGGEATRLRPLTIETSKATVRLLNRPMIEFSILELAKQGVKEFIFGVRGYINYKSLFDTFKEGIGFSARYRIKPRVHFKYQPRVDSLGNADSVKINMEYYRIEDITLVIQGDNIFRINLKNLIDYHLNKNSIMTIVLKKWNNVEDFGVADLDNDMRIKRFVEKPKKEEAPSNLINTGIYVLSPKIMEIFNNEDVQKMREEGKMDFGKDIIPYLIENGYPVYGYEMNDVWFDVGTPDRYLDAMETLLATLSDQEIGGKRIDENKRIFVQGSSSDSIRRRNIIISKYKRGRLEIEGNALIGRHCQIGSNIFIQNSTVDNFSIIENDVKIIKSSIMDRTYIGKNVRIENSIIGRHSEIKDGTKIIDSVIGDDVTIGEESEIVRSRIYPHRAINSGSKIHDTILT;locus_tag=LOCUS_02400;note=WP_010978812.1 NDP-sugar synthase (Sulfurisphaera tokodaii) [pid:66.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-160],MGA_240
sequence1	MetaGeneAnnotator	CDS	204311	206170	.	+	0	ID=MGA_241;product=glycoside hydrolase family 15 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978811.1;translation=MRYASLGNGKLLINLDENGRIVDIYYPYIGLENQISGIPIRKALWDGENLKFDLDWKTEVSYLDNNNVVEIKSDLEKPKISITSYDFVDIDQPIYYSIIKILNHDNIKRNIKLFYYHDFNIYSNPFGDTALFDPYTFSVIHYKSKRYFATKLLSTSNIDMDFTTSKDDITRDMEDGKLSKNPIAHGNVQSAIGIDIEIEPLSFGKVYYVIAAEKTLEGIRNLINRISPAEIESKFVSNYMFWKSWLSKGNKLSNELSRLYNISLLIIKNHMDINGSFIASSDYSFVNLYGDSYQYCWPRDCAYAAYALDVAGYGELVVKHFNFIKDIINDEGFLYHKYNPNKTLASSWHPWYYEGKRIYPIQEDETALEVWSIGSHYEKYKDLDELIAIYKRVVKPSMYFMMRFVEDGLPKPSFDLWEERYGIHLFTVATVYGGLIKGSLLARDMGDETLGNDAEDVAKVMIEETKKKMVYNGRFIRRIDEYGNIDYTVDASMYAPYFFGMFNINDPLVVNTMKMIENKLIVNGGVIRYENDYYQRRKNLPNPWIITTLWLTEYYADAGNTSKAKSLIEWVNLRATKSGLLPEQVDPENFTSTSVIPLVWSHAEYIIALNKYLAKSNIQ;locus_tag=LOCUS_02410;note=WP_010978811.1 glycoside hydrolase family 15 protein (Sulfurisphaera tokodaii) [pid:57.3%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:4.3e-226],MGA_241
sequence1	MetaGeneAnnotator	CDS	206167	208002	.	+	0	ID=MGA_242;product=amylo-alpha-1%2C6-glucosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978810.1;translation=MIDPEECEQREWLIPTGTGGYSSSTICGINSRTYHGYLIVPQDPPHKRYMILSKFEDFLIYNGKEYPLSTNRYNYNVYYPNGYRYLNKAILGENFISWNYNFGDLNTTKTLIVNKGSDSISISYSSENGMFRICPLITFRSHHVALKTRPGFFDFSINNNIIEIKLNEKPILYFRINGDFSLENTQYWYYNFFYNLDYERGSNYLEDLYNPFCIVSKSNEIEIDAYVLYPKKCSIMHLNKDIVRLLSASSRDFVVKGKDWAIIAGYHWFDEWGRDTFVSMEGLLLLNGEYEIAKSIIKRYLDFEEKGLLPNGFLHNGEPIYKGVDVSLWAINSIYSFYQYTKDKSFIMKIFPKILDIIDWYWKGNGIINNTNGMLFHIGSPRTWMDAQFDGTVVTPREGAAVEVNALWYNALMITSILSKELGLDYTEFIEKARVVKSAFKENFVGQNGLYDYIDLNMKPNEEIRPNQIFAISLPFPIIDNEEIANKILLTVENELLRPYGLSTLSRKDPSYIPYYRGDRISRDKAYHNGPIWPWLIGAYTDAKIRLEKNIIKVKNLLNEIKPLLDIAGKNNGYIQELFEDIPPYKSGGCIAQAWSVAEVYRSLNKIITFS;locus_tag=LOCUS_02420;note=WP_010978810.1 amylo-alpha-1%2C6-glucosidase (Sulfurisphaera tokodaii) [pid:59.0%25%2C q_cov:99.7%25%2C s_cov:99.8%25%2C Eval:1.4e-213],MGA_242
sequence1	MetaGeneAnnotator	CDS	207989	209431	.	-	0	ID=MGA_243;product=4-hydroxyphenylacetate 3-hydroxylase N-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846143.1;translation=MIRNSSEYIKSLRDGRSIYYRGTKVDDVTTHPILSVPISHAKSFFDFREDKELRKFLTFNDSKLGEISGFYKIPKNSDDLWYRSRLIQETTRLSSGLFNIIQAIGTDALYALMIVTKKLNDQKFYSNVIKYYEYLATKDLAVATAQTDVKGDRQKRPSEQSDPDLYVRVVDVRDDGIVVRGAKVHTTQSIASNEIIFLPYRAMIEGDKDHAIAFAIPSNTKGLKMIVRPMIEIEGLPSKEDAPLASKHAEAETMTILDDVFVPWERVFMFKDWKYAGELANLFALFHRFTAISYRTVEADLYLGAAKLSARYNNIESAPHVKDEIIDSIMYREIMYMAARISALEPNIDSNSGIAVPNSLYTNIGKLYSNAYFPEILKDVIDIAGGIVSTLPSTADINNPQEKVYIEKYLRGNPQFTGEERFKLLRFVRELVGGPFAGYMLGWMIHAEGSVAASKIAMLREYNFDRAEDLVSKIADVRKK;locus_tag=LOCUS_02430;note=WP_052846143.1 4-hydroxyphenylacetate 3-hydroxylase N-terminal domain-containing protein (Sulfurisphaera tokodaii) [pid:51.2%25%2C q_cov:98.5%25%2C s_cov:99.4%25%2C Eval:2.9e-131],MGA_243
sequence1	MetaGeneAnnotator	CDS	209438	210862	.	-	0	ID=MGA_244;product=phenylacetate--CoA ligase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980174.1;translation=MSSSLSYYESIHRELKEEGYINSGNINPSERLWNRKIMTMKREDLDKLKSFRLKRIVKWAWENSEFYRKFWKSRGFDPEVIKDWRDVTKIPILRKDDLRNDLSANPPFGSIMVPELARRIRFVGATSGSTGMPTFQGWGALELDYFEEAQARYLWSFAGVKPTVVYANYLNMSGFYSWGPPLVETAMWRCGATAIAGGGETYFSWKNRHNLIFRLWKVDVLATTPWLHRLIGEEAKKEGWETPFKVLLLHGGAAAKNTKEKLFQVHPNAKLAISVWGTTDGHMAIEVPGLDGQLVVWEDMEIFDIVDPKTDEPSNEGERGELIATLLNHFTMPLIRYSLGDYVKNEFLTDPDPTYGITHMRFSEPIPGRVEWMFKVKGKLLLPIYIEDAVDEIPDTTGMFNVFVYDNDMDKLKIRIETVKGNVDALYDKKARELLANRIGLNSDDIDIEWVEPGKTIWTGYKLQVFIDQRKKNK;locus_tag=LOCUS_02440;note=WP_010980174.1 phenylacetate--CoA ligase family protein (Sulfurisphaera tokodaii) [pid:80.1%25%2C q_cov:99.6%25%2C s_cov:99.8%25%2C Eval:3.2e-239],MGA_244
sequence1	MetaGeneAnnotator	CDS	210894	212060	.	-	0	ID=MGA_245;product=3-hydroxyacyl-CoA dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846720.1;translation=MKILVVGSGTMGHGIAEVAAISGFDVKLVDISWEILNRAKEKMLESLKKLYEKGTIKDSPESIMSKIEMAVTYDVAKDIDIAIEAVPEIIDLKRKVFSELDRVAPQHAILATNTSSIPISDIAEITSRKEKVIGMHFFNPPPIMKLVEIIPSKYTSSDTINEIIELSKKMNKIPVRLKVEVPGFVSNRIYFRLLQEACREVEAKEATIEGIDSAARYKLRLPMGIFELADYVGLDVSLDLWNVIVSRGATDVKCSLFSEKVKLKELGVKSGKGFYNYPAGKYSKPELPKESDVKGSRLISLAVNEASWLIENKIVNANEIDTVMKYGFNFPQGLLEIADNLGLDSILYELEDIYSKGYSAYMPNALLKNMVNNGYIGRKSGKGFYEYS;locus_tag=LOCUS_02450;note=WP_052846720.1 3-hydroxyacyl-CoA dehydrogenase (Sulfurisphaera tokodaii) [pid:68.0%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:1.9e-151],MGA_245
sequence1	MetaGeneAnnotator	CDS	212137	213225	.	+	0	ID=MGA_246;product=zinc-binding dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980130.1;translation=MKAAVLYKYNEKLKIVDNVKIDEPKAGEVKLKVVTTGMCHSDVNVFEGKTPVPTPVVAGHEIAGIVEEIGEGVTRVKPGDRVVSAFIHPCGKCRNCVSGHENLCEVFSQVRLKGTMMDGTTRLRIDGQPVRAFLGGGFAEYSIVGENALTVVPPDMDLEKIAVLGCAGLTGYGAVDLAKIEPGETVAVIGVGGVGLSVIQLLKASGAGKIIALGTKKWKLERAIELGATDTINTEETDPINAIKEISNGGADVVIEAGGNEKTIQMALDSVRIGGRVILVGLPPANALIPIKEASIVRNGITIIGNYGGRPRVDMPRLLDMVKLGRYDPTKLVTGKYTLDEINEAVKLLQEGEAIRSLIVQK;locus_tag=LOCUS_02460;note=WP_010980130.1 zinc-binding dehydrogenase (Sulfurisphaera tokodaii) [pid:73.1%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:4.9e-154],MGA_246
sequence1	MetaGeneAnnotator	CDS	213226	213615	.	-	0	ID=MGA_247;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980456.1;translation=MILKELVSRPPVTAEEDTTISFACKIMKKEGVGSLLITEGEQPKGIVTERDIVYAIADDISLSAPIKDIMSTNLVSADSSTDVSDAALLMTTKKIRHLIVIESGKIIGVVSLRDVARALGLVTADLSIW;locus_tag=LOCUS_02470;note=WP_010980456.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:50.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-30],MGA_247
sequence1	CRT:1.2	repeat_region	213681	217193	.	+	.	ID=CRT_1;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=ctttcaactctatggaagattaac;note=CRT_1
sequence1	MetaGeneAnnotator	CDS	218812	218952	.	+	0	ID=MGA_249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSGKEGEYYFVTIENDEELEKLKELTLKKVSARNGKLSYASQSSK;locus_tag=LOCUS_02480;note=MGA_249
sequence1	MetaGeneAnnotator	CDS	218930	219313	.	+	0	ID=MGA_250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPPNPPSELPRPNGRGFLLQSRGLPKVEVSAPQALRVVPTPSTNVNPQYPLMGLSNGAEAYHIDPRFNQGVSATLTPSVTAINRIFEKEVYKFYKGGNPSPPLRMESYAPFEPLVKIKIVQFFGSKL;locus_tag=LOCUS_02490;note=MGA_250
sequence1	MetaGeneAnnotator	CDS	219250	219525	.	-	0	ID=MGA_251;product=type II toxin-antitoxin system RelE/ParE family toxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980311.1;translation=MFRKRITNLEELSEFLAKKFPHEEVVMLIFDRLYLLREDPKKYTREKLKNQTDKDGRPLFSIEVTGDIRIIYSFEPKNCTIFILTRGSKGA;locus_tag=LOCUS_02500;note=WP_010980311.1 type II toxin-antitoxin system RelE/ParE family toxin (Sulfurisphaera tokodaii) [pid:88.0%25%2C q_cov:91.2%25%2C s_cov:79.0%25%2C Eval:3.7e-37],MGA_251
sequence1	MetaGeneAnnotator	CDS	219874	220164	.	-	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIRVIFSSDKLERENSVLKSHIYGIGLIEEPKEFAGEIAMIDGLLVRDIRIRDFSNDGYGYTILKTPFGVREEHHQYDAIGKSKPVSMIEVPHEA;locus_tag=LOCUS_02510;note=MGA_252
sequence1	Aragorn:1.2.38	tRNA	220575	220650	.	-	.	ID=Aragorn_1;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00010;note=Aragorn_1
sequence1	MetaGeneAnnotator	CDS	220691	221173	.	-	0	ID=MGA_253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSCIDDLNRAFLLSWIGDVKNSNKIVEKCIRDLKDAKRIKKDINNAIEKSSRLFEVPSILRKEGISEEDILRLTLYEFSKRISRSDYERIIYTEGKLIYSINSNGFKKILRGIEFDRKGYTFSFINSCNGFVIAYNQIIYAELLCDNIEAAIKEIIKIIG;locus_tag=LOCUS_02520;note=MGA_253
sequence1	MetaGeneAnnotator	CDS	221170	221787	.	-	0	ID=MGA_254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978457.1;translation=MKIKLYWISIDSDILPHTDKDSNSDLNEVVNCILDEFESRDYFEELEIDPKLITILGIFSGRIVEGIADNLIDYYDGRWSGKLFSGDISATLGESLTYAILYTKFDIDISRIIPLRIVKYLGVSPDTIISSDNNKKLVEFLGITKSAILLVNSRSSINYNRYITAENIKKDILNLENLRYPDNYSLLSYVMNYNGLSSLMLVIKP;locus_tag=LOCUS_02530;note=WP_010978457.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:36.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-32],MGA_254
sequence1	MetaGeneAnnotator	CDS	221820	222833	.	-	0	ID=MGA_255;product=acryloyl-coenzyme A reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978456.1;translation=MFKFMKAVVVTGYKQGYRIQEVADPKPSSDEVVIKVDRAALCYRDLLQLQGYYPRMKYPVILGHEVVGTIEEIGNNVSNFKKGDKVVSLLYAPDGTCKYCKQGEEAYCHSRLGYSEELDGFFAEYAKIKVTSLVKVPQGTQDEGSVLVPCVTGMVYRGLTRAKLKQGETVLVTGASGGVGIHALQVAKAMGAKVIGVTTSEEKADIIKKYADYVIVGTNFSKEARKIDDVNVVIDTVGTPTFDESLKSLWMGGRIVQIGNVDPSKIYELKLGYVILKDIEIIGHASATKKDVEGALKLTAEGKISPVIAGSVNLEEIDKGYEILKDKHKVGKVLLKP;locus_tag=LOCUS_02540;EC_number=1.3.1.84;note=WP_010978456.1 acryloyl-coenzyme A reductase (Sulfurisphaera tokodaii) [pid:79.9%25%2C q_cov:98.8%25%2C s_cov:100.0%25%2C Eval:6.2e-156],MGA_255
sequence1	MetaGeneAnnotator	CDS	223010	223441	.	+	0	ID=MGA_256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978455.1;translation=MKLKVPPRIKVLEALGAIADGRIKKVEDHYEVISSEGDRIYNVKINGEKAYSNDNGTVYRNYIGYPIIAVLMLEGKLKYDEKISKSLKGIDWKRLNETYKNYAKVEEIVDKIAEEKGVNKEEINNIVEEVLNELRRLSLEKAS;locus_tag=LOCUS_02550;note=WP_010978455.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:64.1%25%2C q_cov:98.6%25%2C s_cov:99.3%25%2C Eval:9.3e-45],MGA_256
sequence1	MetaGeneAnnotator	CDS	223465	224646	.	+	0	ID=MGA_257;product=amidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846343.1;translation=MSLEELNTKYNAFITIKEVAPNSNGPLSGLTFGVKDIILTKGIKTTAGSKILKDYIPQNNAWIVNKILNNGGKIIGKTNTHEFAIGATNTSSIAGPAKNPIDPERISGGSSGGSAVAVALNMVDVGIGTDTGGSIRIPASLCGVIGFKPTTGIIPTTGIIPFSWTFDTVGFLTKNMNTLRKVVETVIPVENKDVLISKTRLKPRLGIFLFSDDPASRALKPLLNKLTNYFDLVDINLNFLQFFGGNIRGTIALAEGASYHRDWIESIPGEYFPDVKALLMEGVKIKAIDYLESLRARRVVLEEYIKAFENIDAIISPTTKIPAPKISEVIGKEKDFRSLLVANTELFSVVGAPSISIPATKINGLPIGLMISGEPYNDGVVLDIAEKILSIIQ;locus_tag=LOCUS_02560;note=WP_052846343.1 amidase (Sulfurisphaera tokodaii) [pid:63.8%25%2C q_cov:99.7%25%2C s_cov:99.0%25%2C Eval:7.7e-140],MGA_257
sequence1	MetaGeneAnnotator	CDS	224636	226168	.	-	0	ID=MGA_258;product=phosphoenolpyruvate carboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980180.1;translation=MRKIPRTMSTQHPDNARVPEWARSEVIEGDDEVVEAYYSYMTLGTHEVMWDAEGKDVDTHVVRKLLSNYSEYFKENLLGQDIFLTYRLPNPKIEGAERKVFAETMESIPIAYDVAEKFYNKKVIPVFEVILPFTTDYTEIVAVAKYYEKAVSGKENIELNDGIYVKDFVGEINPKKVEVIPLIEDKDSLLKVEDIVTGYYKAIKPNYMRIFIARSDPAMNYGMLSAVLLAKYALSKLYTLKSKLNIDIFPIIGVGSLPFRGHLSPDNYENHLKEYKGVYTFTIQSAYKYDYEENKIKESINNINNTGITEPLVFSEEEEKILKRIIERYVVSYQPIIESLAPAINYIAFFLPKRRARKLHISLFGYARSTGKVTLPRAITFVGTLYSIGLPPEIFGISSLLSLSNEETDLLNKSYIMMKKDLEESAKYINPDSLDLIRKIWNIDENIIKMIENDITFLENNLGIKIDNKDFNSKKHVLLSSLLLLACREKREEEIRQYAKEMALIRKSIG;locus_tag=LOCUS_02570;gene=ppcA;EC_number=4.1.1.31;note=WP_010980180.1 phosphoenolpyruvate carboxylase (Sulfurisphaera tokodaii) [pid:62.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-185],MGA_258
sequence1	MetaGeneAnnotator	CDS	226221	226667	.	+	0	ID=MGA_259;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980181.1;translation=MVLEKGQEAPDFEAESSKGRIKLSSLRGKKVVLYFYPKAFTPGCTRELQRFTELYEEFKKNNSEVIGVSVDSLNTQKKFSEKYNSTFPLISDKEKQIVNTYGVINEKGTSAQRITFIIDENGKIIEVLKNLKKAEEHADKALEIVKSN;locus_tag=LOCUS_02580;note=WP_010980181.1 peroxiredoxin (Sulfurisphaera tokodaii) [pid:74.6%25%2C q_cov:95.9%25%2C s_cov:94.7%25%2C Eval:3.0e-60],MGA_259
sequence1	MetaGeneAnnotator	CDS	226660	228165	.	-	0	ID=MGA_260;product=bifunctional ADP-dependent NAD(P)H-hydrate dehydratase/NAD(P)H-hydrate epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980182.1;translation=MITSLEMRAIEINSEALGVPTLLLMENAGRSVKDEIIKKIGDVKGKSVYVFVGHGGKGGDGLVCARHLAGEGANVNVILLGENKHKDALFNQSAIQEMDYTIKLLEIKDIDYLKPVEADILVDAMLGTGFRGKPREPFRTAIKVFNESMGFKVSIDVPSGIDSDTGDAPGDYVKPDLVVTFHDIKTGLLKHNFTVVVDKIGIPPEAEIFVGPGDLLTNIRKREMKSKKGAGGRVLIIGGSKTYSGAPSLSGLAALKTGADLVYVASPEDTASIIASYSPDLITIKLKGKNINPNNLDELKPWIDKVNSIVIGPGMGLSDETIEASKIIVNYMKEKGKFAVIDADALKAIRGEKLYQNFIITPHAGEFKIFFGIDVLEDPIQRINQVIEKAKECNCTVLLKGYFDVISDGKKFKLNKTGNPGMTVGGTGDTLTGIVATLLAQGLSTFNAASIGVFINSLAGSLVYAKEGNHILSTEIINEIPNVLQDPIESFKKKPYTRVLN;locus_tag=LOCUS_02590;note=WP_010980182.1 bifunctional ADP-dependent NAD(P)H-hydrate dehydratase/NAD(P)H-hydrate epimerase (Sulfurisphaera tokodaii) [pid:73.3%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:7.9e-212],MGA_260
sequence1	MetaGeneAnnotator	CDS	228494	229042	.	+	0	ID=MGA_261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALGKETEMGLKELFKANAEDYLMLTFLANKLEKMGRTEEAKMLREKATVEYGHATGIFEKLLANYDASKLLGDFAKEEDEEHVSEYNNVAMKAKEEGHNDIEAMLCAYADQEKGIAEASKKVLAMIGDFAKEEDEEHVSEYNNVAMKAKEEGHNDIEAMLCAYAEQEKDIAETAKKVAKAL;locus_tag=LOCUS_02600;note=WP_010980184.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:59.8%25%2C q_cov:63.7%25%2C s_cov:96.8%25%2C Eval:1.9e-35%2C partial hit],MGA_261
sequence1	MetaGeneAnnotator	CDS	229131	230033	.	+	0	ID=MGA_262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKNTRDWSKYDENVVTRYKLMFPFYVFEHWWELLQEENRYAKTKYKAPKEFNDFLAFLHLFLPYRAIEGVLSALAEMKIIPTSLDYSTIWERVRNMNINFPEASDELEVIADGTGISTTRGGQYVVAKWGKRRDSKFLKIEVVMEKDEFKIVSAEVTSNEAESASNTVKDLKEKGKEVKRFYGDKAYDTNEIYNLGVDVVVPPRKDASTRRGHPARRKAVREFKKLGYERWRDEKGYGNRWLVESLFSAVKRTFGESVRATSFAGQVVEAKLKFWAYAWMMYMANLVVGRAKGFEVKK;locus_tag=LOCUS_02610;note=MGA_262
sequence1	MetaGeneAnnotator	CDS	230186	231670	.	+	0	ID=MGA_263;product=DNA double-strand break repair helicase HerA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980185.1;translation=MIVGYIIGTATTQEATMLAKEPVRLGRYVILEYDNLKVLGLITAVTRGSPLINDSMDDVEILDDMTFVNQIPRYIKSEIKLVFDFNSGSQPDIPPIAGTPVRFAEDDELKKLFSDGDISIGKLIGTKVPVKIKINSLARHLAILAATGSGKSNTVAVISQRISNIGGSVLIFDYHGEYYNSDIQFLNPIDPKLNPRYLAAREFSTLLEIPRNAPIQYRILRRAFTEYQKEIEEKINSGEIDMSQLNDSFIDDIERIINDILKDDQQKKAKDSADEVKNKLEEFAERYAGIIDLTAPDITLQIKTRRVNVVDISHLDEDAMDAIVSHYLRKILECRKNYKRKGKGLSFPVISVIEEAHVFLSKIDNTLTKIWAGKIAREGRKFGVGLIIVSQRPKGLDENILSQMTNKIILKIVEPNDKKYILDASDNLSEDLVNQLSALDTGEAIIIGNLVKIPAFVKIDRFEGRLGGADPDMIGEWQKAEEEDKLNSTAADFG;locus_tag=LOCUS_02620;gene=herA;EC_number=3.6.4.12;note=WP_010980185.1 DNA double-strand break repair helicase HerA (Sulfurisphaera tokodaii) [pid:60.6%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.8e-168],MGA_263
sequence1	MetaGeneAnnotator	CDS	231678	232820	.	+	0	ID=MGA_264;product=DNA double-strand break repair protein Mre11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980186.1;translation=MQFLHISDTHLGNRRYNLESRENDIYNTFNELIDTAVREHVTAVVHTGDLFDEYKPSNTAIMQCIRGLKKLKEKNIPFIAIPGDHDTPKKKGEIYTHRILSESLELMHLITGDEIKFYEMNYNGDTIKFFGIKHIPTVAKQKLLDTLSTLKPDGKKNVLMLHQGLRDKLPYDGAWQIEEGNLPKGFDYYALGHFHTRFIEHISSGVLAIAGSPDIIREEEIEGYKNLGKGAYLVDLSGDQPNVGKINLEIRPQEVISINTSRIDSDIDNILKKYENYKLKPILHVILEGEKIERNKLFQKISNLNKIAEYYRIFKDNTEEGEKTKIKVPTGSTINQIIKNYLQARGYSDNEINSIIEIINNYNSDEIENMIKKFGGMDEN;locus_tag=LOCUS_02630;gene=mre11;note=WP_010980186.1 DNA double-strand break repair protein Mre11 (Sulfurisphaera tokodaii) [pid:47.8%25%2C q_cov:99.7%25%2C s_cov:98.2%25%2C Eval:2.4e-98],MGA_264
sequence1	MetaGeneAnnotator	CDS	232810	235407	.	+	0	ID=MGA_265;product=DNA double-strand break repair ATPase Rad50;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846723.1;translation=MRIDNIYLKNFLSHTENSVSFKGKVNVIIGHNGAGKTSIIDGIVYALYRESNRAKANNLIKLGTSSATINLTISNDNSKIIVKRNIPSGTSDILYINNSATARGAEKVTEELEKIMQMDRDVMLSTIIVRQGEIEDIFRNLTNVMKNIMKIENMEKLTESTGPIFSVLKDINSKLEYIEKSEKEYNDVKISLTDLKNKYVALNEELKDLNEKEKEINEKEKEINEKYDKLTMIQTKYNSLKNMLIDKENNLKKILQELEKMGDLEKNKQDVENKINKLAGIEQARNLFDELKRITKELDMENSDKNKLEIEISSIEKSLQRKEQISNEYLRYVEIEQLLEDLENEEKDYNNKLSEKKIREKRINDLREKLNRIKIENLDEIQKNIDELDKRISDLRTQKGQSQAELNEAEKILTGFKDIKDNKCPLCKRPLDEEHRTKLMQEANEKYAEKKKEIKDLDKKISEAQSEKDNLTRKLDNYRKNQTIYNQISHDLNDEEEKLKELEEKLKELEEKHNYYQNLKLEEKRLKQFYEEYMTLRNITEDYLNSKKQQLNNISKIIIEKKNRIDEIKTKLGNLTEQDISDKLKELNEAKNELQKINIQIGKKKTYMENLQNLQESIDQIKSDISKINFSEEEYQEVKQERENILKEQKDIISKISEIKGKLEQISISIKEKENKLTEIENTIKDKTKLENAKKKLQKLREDLGEKGLQNYIISAVKTKIENNLNEIAPMFNLAFTRISLNFDASTRGQKIKANISAYDNYGREFSIDMLSGGEKISIALALRLAIAKSLMDTVGFMILDEPTIHLDDERRKELMNVIRSSLDMVPQIIIVTHDDEILEIGDYVIRLEKRGSESKVFEEVPGND;locus_tag=LOCUS_02640;gene=rad50;note=WP_052846723.1 DNA double-strand break repair ATPase Rad50 (Sulfurisphaera tokodaii) [pid:33.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-139],MGA_265
sequence1	MetaGeneAnnotator	CDS	235400	236392	.	+	0	ID=MGA_266;product=DNA double-strand break repair nuclease NurA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980188.1;translation=MIDKAYKELAENYDNLKNQLKTFYKNIGKEVSNKVKEIWIPYTPKSSIKKYLAIDGGEFVKEMRVGTIFIVNAEAILSNGINSEPIDTYTKVGVFRPGNLAKERVSELMATVETKLALKNSDKSDFILMDGSFNKKLNKGKGIESNLEYSLDDINSLKFYDENEMYKSLIVEKQITISKLINELDKRVLWISKTSRSRDIFLQQLSDLVILETFTYETGYTLPVCKRINQDDLVTHPLVNLSDFNVCTSFIRLKNGKKILRLDIVSKDKIEEKYIQQIIDNLSPVSIKGYPYPLLKVHYDVKVNIKDRERITRMLGLSRSGVDWWPNQFF;locus_tag=LOCUS_02650;gene=nurA;note=WP_010980188.1 DNA double-strand break repair nuclease NurA (Sulfurisphaera tokodaii) [pid:40.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.0e-68],MGA_266
sequence1	MetaGeneAnnotator	CDS	236380	237177	.	-	0	ID=MGA_267;product=cation diffusion facilitator family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846724.1;translation=MEKSVFSFWLVFSILLMIFILSKNVIALAESLHALFDAITVSFSILAVYFMKNSNYTYGLHRLEVLSALVNTSIVFIGTILSVILSIVYVEFKIIENSSLVVISSILVSLILLLTINHKERGIRLHTISDIIGYLIGGFGAFISIFYNFKNIIDLITALLVVLVMLLLNVNTIKISLDVLMEKSPVDITMIEKNIREIFPGAHHIHVWALCDHMRIATLHVEENPDVTLRELDIKREKIEKILSQKFNINHVTIQFESKREDQKN;locus_tag=LOCUS_02660;note=WP_052846724.1 cation diffusion facilitator family transporter (Sulfurisphaera tokodaii) [pid:39.3%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:1.5e-55],MGA_267
sequence1	MetaGeneAnnotator	CDS	237187	237792	.	-	0	ID=MGA_268;product=methyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980190.1;translation=MEIFNNPNEYKGWYIKHIKIYNTEKKAVELLNLNDCLDIGSGPAVFHEVMKGRTISIDISEFMLKDVENDKIVADALYLPIRDNAVKCAFISVTICFISDVEAFIREIWRVANEINTCIVAKDSPWGEFYEELGKKGHKYYSKAHFISKDELIKYISKYYRIIKIISTLTYSPFDQEKEEEPRLDSSGSYVCVKGIKAINS;locus_tag=LOCUS_02670;note=WP_010980190.1 methyltransferase domain-containing protein (Sulfurisphaera) [pid:51.0%25%2C q_cov:98.0%25%2C s_cov:93.5%25%2C Eval:3.8e-54],MGA_268
sequence1	MetaGeneAnnotator	CDS	237779	238258	.	-	0	ID=MGA_269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980191.1;translation=MEEFRLKILDVFLSSKIKNYEQIEYEGKSRKDSCAYFTNGFCSRINIKENIVTIWRSENKINPHPVLCFICPFFSIRNENLYSITDLLEIYSYYEKIKNNIVKEIEYIESRLNEFMYNSSSLKRRKEELMYFLNEIEDKLNVTLILIKLSIKQDNNGNI;locus_tag=LOCUS_02680;note=WP_010980191.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:43.3%25%2C q_cov:93.7%25%2C s_cov:98.7%25%2C Eval:7.8e-31],MGA_269
sequence1	MetaGeneAnnotator	CDS	238561	239367	.	+	0	ID=MGA_270;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980192.1;translation=MGIIRESVILRPYDSILYAIKVMIMESVPKAVVTDEKQYPLGFLTQKDIIRFLFEKSEKRNLKDIFISEAMRKDFICVNQSIDPLEAAQVIIDKKQPLLIVCSDEDKYIGMIIKSDLNSFYSSQIKGLQKVSEYMTAPAITVSPKEDLFNAIKIILEKNLSRLIVFDDKIEGTITTTDLLYMAPIIKYKDVKIEVADVMSPNLIVIDEEEDLSNAAKLMASRKIKGIPVVKKDGTLSGVITTTDIVKALLDDKVRRYLYEIKMYTSTF;locus_tag=LOCUS_02690;note=WP_010980192.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:58.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.4e-87],MGA_270
sequence1	MetaGeneAnnotator	CDS	239364	239660	.	-	0	ID=MGA_271;product=MTH1187 family thiamine-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980193.1;translation=MKYIVDISVEPIGTGTTSISKYVKIVYDVLKSKGIKFYPAPSMTSLELDDITQLGYILKDIDDALASEGIKRIVSFMKIDDRRDKENSIEHKLEVIKT;locus_tag=LOCUS_02700;note=WP_010980193.1 MTH1187 family thiamine-binding protein (Sulfurisphaera) [pid:69.1%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:3.5e-35],MGA_271
sequence1	MetaGeneAnnotator	CDS	239749	240153	.	+	0	ID=MGA_272;product=Fur family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980194.1;translation=METDNVELLRKKGLKVTPQRIAILKLLNRGGHFNGEQIFEELKKTEPSISLSTVYNTLDVLEKSGIINSFEANGITWYEMRRIPHINVFCIDTNEIIDMDVNLESISEQLNEKGIKVINLSLVAYAECSSLKEH;locus_tag=LOCUS_02710;note=WP_010980194.1 Fur family transcriptional regulator (Sulfurisphaera tokodaii) [pid:59.1%25%2C q_cov:97.8%25%2C s_cov:93.6%25%2C Eval:6.1e-40],MGA_272
sequence1	MetaGeneAnnotator	CDS	240134	241048	.	-	0	ID=MGA_273;product=nucleoside hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980195.1;translation=MARNVILDSDTASDDTIAILLASKLFNLVGVTIVSGNVNFEQEVKNALFTLEYFNMDVPVFMGSSRPILGIWKTVEEVHGKKGMGKIEHLESNRKAEKEHAVDAIIRLSKEYDNLEILAVSPLTNLALAYLKDPSIVQRIRKVWIMGGAFSRGNTTCIAEFNFWVDPEAAKIVLHAGFDITIVPWEVTEDAAFIDDNLWNKIEKLNTRSSNFFVSVNSTLREYSKAHGAPGSVQTDSLTVYLAYDNSSILKSKKYFVDVETCSISRGAMLIDFYKNSKRKCNAEIVLEANRENFIKTLFNVLSN;locus_tag=LOCUS_02720;note=WP_010980195.1 nucleoside hydrolase (Sulfurisphaera tokodaii) [pid:64.0%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:5.0e-106],MGA_273
sequence1	MetaGeneAnnotator	CDS	241353	243101	.	+	0	ID=MGA_274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980196.1;translation=MKFKVYNIGGIVNPLEVEISKGVSVYKAPNAYGKTSIARALLSLLTSSIKPDELLNVFADNGYIELEYEGKSYYRRIKRIRNKLLESSKLYMDDDRALLLSYFSPENKLLNQVLGGQENVEWFISSTSKIDEIKKKKEEVETKLSSLQKEREELNDKYKQALDLKAKMRNIDDEIARLEKEKESDKILNKTTHAITTTRQNKLNEIIDKINAKRNELNEIQTRLTKLELEIQQKESMIKPEIIKSFQDQIAQIDEELQRKSSLRNDTEIEIRLLERVLDEIKESEKKKLSTCYVCGSHVDPDAWKVRSDIISKELREKMASFDSIKKESEELSKKKDELSRRIKEIEALQNDVAKLRTSRQDLIDKIEAIKTQIENYERQKREMEDRFSRSSDMLRVVEVEDEPTRRIHELQKKRGELEYELSLLGVPNALLEKLSEKEKEIEDLQKLSEDLKKEYIRRLTIAREEFMKISNQLLSQLEFDLEAEINDNYQLVVKRNGATLDLKKLSSSERTTLALILVITGLKSYFKTPFFIVDESFMTFDQKRFDRLVNYLADVTDYIIITKSDENVEFVKETMEPQVSS;locus_tag=LOCUS_02730;note=WP_010980196.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:48.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-157],MGA_274
sequence1	MetaGeneAnnotator	CDS	243067	243393	.	-	0	ID=MGA_275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980197.1;translation=MIIFYAIGEKDRAKELVRIITKTRWKTISKHSIKISSSSIGPSIVIFKPTLAGLAVALWLKSKAEELGMTTAVGWFTPITSIPQQVQDAVNTDLNKILMKRLEVPWSP;locus_tag=LOCUS_02740;note=WP_010980197.1 hypothetical protein (Sulfurisphaera) [pid:72.2%25%2C q_cov:100.0%25%2C s_cov:96.4%25%2C Eval:5.2e-39],MGA_275
sequence1	MetaGeneAnnotator	CDS	243427	243921	.	-	0	ID=MGA_276;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980198.1;translation=MSTKVSQVATTKIHFVKDTDTVSFAAQEMKKFNLGSLLVLNSEQVVVGIITERDLVKVVADRNIDAKVSEYMTKDVKGVTEDTTVAEALNIMLENGFRHLPIIEKDGKVYGIVSIRDLAKAVLDPHFLQFGKEWTEVKGSGVICPVCGMEIDEYGYCGCGTGSG;locus_tag=LOCUS_02750;note=WP_010980198.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:64.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.6e-60],MGA_276
sequence1	MetaGeneAnnotator	CDS	243953	244930	.	-	0	ID=MGA_277;product=metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978653.1;translation=MGLFHRKQNNNNVDSKPFKILYTSDIHGSDIVFKKFLNAGKMYKVDALIIGGDLAGKALIPIIELGEGKYEADGKTVGKEGLQQIITEIRNAGNYYIITDKKDVEVMQDDKKKVNEAFKTAISEVLRNWIKIADEKLSDTNMPLYYNLGNDDPEYMFDVLSESDRMIKTEGKLIQLGDYEMVSYGYVNPTPWNTPREMKEEDLYVKLKEEAEKVSNPEKAIFNFHAPPYGSNLDNAPLLDKNLKPVVKGGEIVMTHVGSTSVRKIEEEYQPLLGLHGHIHESRAFDKVGRTLVLNPGSEYGEGILHAVYIVLEGNKVKAHQFIIG;locus_tag=LOCUS_02760;note=WP_010978653.1 metallophosphoesterase (Sulfurisphaera tokodaii) [pid:67.4%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:3.6e-129],MGA_277
sequence1	MetaGeneAnnotator	CDS	245007	245642	.	+	0	ID=MGA_278;product=2%2C3-diphosphoglycerate-dependent phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846725.1;translation=MVLLLFIRHGQSESNVNKILSHDINGYPLTNEGKLQAKKTADELKKIRISKIFTSPVLRAYQTASIIGNELGIIPIIDDRLRERGLGELNNKKFDPNDHWKLKLTKGQIEVKGLESWDSMKKRLSEFVYSLADNDCAIVVVSHYDPIRALIGYILDLDDLSAYGISLPNASITTVEFEKDKNMFKIHSIGSPIISQSLLSKLNRYIITINT;locus_tag=LOCUS_02770;EC_number=5.4.2.11;note=WP_052846725.1 2%2C3-diphosphoglycerate-dependent phosphoglycerate mutase (Sulfurisphaera) [pid:59.9%25%2C q_cov:95.7%25%2C s_cov:99.0%25%2C Eval:1.3e-63],MGA_278
sequence1	MetaGeneAnnotator	CDS	245601	246308	.	-	0	ID=MGA_279;product=D-aminoacyl-tRNA deacylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980200.1;translation=MNIEIIVSEKDPVGRTAKKLFDFKEVKDDVTDFTYNDADAIVILSRHESSSHIPAFTVHYPGNPSEKAMGGRPKTLGIAFPRLLTSIYREMLKINVNIDKVIEATHHGPTLNKPVVFAEIGSSEEYWENEKLVKELVNSVVNGIDKYQSISCEKIAVGFGGPHYATYFSELAKKYCISHIISKHYLTELDSNIINQVIQNSIDRIDTIIFDSVNRNLRQKIMSSINSNNISIEFR;locus_tag=LOCUS_02780;note=WP_010980200.1 D-aminoacyl-tRNA deacylase (Sulfurisphaera tokodaii) [pid:56.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-75],MGA_279
sequence1	MetaGeneAnnotator	CDS	246326	247210	.	-	0	ID=MGA_280;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980201.1;translation=MYDFAIIGGGITGLLAAYYIGGNTIVIDDNSGNSRASLWSIIPPLCGKFYNQCIDAEKYYSELCDNFHVYCKRTHIIRYSDNKIGGKEIDKTELSRIEPNLNLDNAEYYDNGFFVEGNELIDKLSEKVKLYITRVKELRISNNNVKSILTTNGEISAKNIILTTGYKTKSLLSNININLYKGHLLILNKVGLNGILIYKDRIAVEGNNLYINGDSNNDTTKNINYDEVNKSVQKIGEVLPIDTHKFSIKVGFRTISDNGDPIIKKIFDNTVLVTGYKFGFALAPILISQVKDLL;locus_tag=LOCUS_02790;note=WP_010980201.1 FAD-dependent oxidoreductase (Sulfurisphaera) [pid:38.6%25%2C q_cov:98.3%25%2C s_cov:97.4%25%2C Eval:3.6e-53],MGA_280
sequence1	MetaGeneAnnotator	CDS	247270	247698	.	+	0	ID=MGA_281;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846726.1;translation=MSSDYDPELDKLLKEKLKQMVSENNNMQENKPEKTEEEPVAHLNSNNFDSFVKSHKVAVVDFWAEWCAPCLMLAPIIEELAKDYPQVGFGKLNSDESQDIAARYGVMSLPTVLFFKNGEPVDEVIGAVPREEIEIRLKQLIE;locus_tag=LOCUS_02800;gene=trxA;note=WP_052846726.1 thioredoxin (Sulfurisphaera tokodaii) [pid:71.8%25%2C q_cov:92.3%25%2C s_cov:90.9%25%2C Eval:1.0e-48],MGA_281
sequence1	MetaGeneAnnotator	CDS	247704	248342	.	+	0	ID=MGA_282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846727.1;translation=MKPLLLGIDGLSYSSFMKCNPRYLLALFSSTFRGVVVNRSPQHPASSWMSILQMQDVRGNEFYKSLEETPLLIKETNAVAINLPITNPTYGEVNLPYGDGLSAKDEINKVVEAVLEELEDRPVIASITALDRLLHVNKENKCEIYKELDDAVKKLINKADDFIVFSPYGEPKSSSFCDHEDYGVYLSTVPRPNEHDVVKLPEIGMLFKRIVK;locus_tag=LOCUS_02810;note=WP_052846727.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:61.5%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:1.0e-68],MGA_282
sequence1	MetaGeneAnnotator	CDS	248319	249479	.	-	0	ID=MGA_283;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978633.1;translation=MKILILGAGYAGLTAAYKLRKFTDFDISIISKSRIVKENTIFPALLTDDVKIEDTEFDAYKEASKRKINFVEADINGIFPESNEIKTSVGKFDYDILFIALGGAYEENFSKIPGHEFAFMHHTLEGFLGLKNALDKMEDGVRVFVGNSQNSPIEGPSYQVALIAEYLMRKKGIKGEVYLSTQSPKGVFGPIPETWISEAANKYFEKRGIKILKGKSVKEIRKDKVIFSDNTEIYADIKSVLPTLSAPDIVKSANLTDSSNFINVSIPTFKHINFKNIFGLGDSAKSMVPSKTARGAMISAENAVSTLLHEVKGIDLPYYSQGILCMMIGGDDGGILRFDKNNNTTKIILDFGKIYLNAKKLYSRFLVNRAFDVSYHAALSFNYSFK;locus_tag=LOCUS_02820;note=WP_010978633.1 FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:61.1%25%2C q_cov:98.4%25%2C s_cov:99.7%25%2C Eval:9.8e-132],MGA_283
sequence1	MetaGeneAnnotator	CDS	249502	250011	.	-	0	ID=MGA_284;product=inosine/xanthosine triphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847016.1;translation=MLVSIGSTNPTKINAVKSALQIIGLEYDLVAVSVSSGVSNQPFCDETFVGARNRAIRSLLEAHADLGIGIEGGICVEKNRLVAFAVVYAVNKNGKENFAKSASFTLPAKIAELIYRGIELGSATDLAFSTHDSKHKSGAVGILTKYIDRTRLYVDPVIMALYPFYNSID;locus_tag=LOCUS_02830;gene=yjjX;EC_number=3.6.1.-;note=WP_052847016.1 inosine/xanthosine triphosphatase (Sulfurisphaera tokodaii) [pid:60.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.0e-53],MGA_284
sequence1	MetaGeneAnnotator	CDS	250040	250906	.	+	0	ID=MGA_285;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980205.1;translation=MVTIKVGALADSGDLYPFIPLIEDIIKPSGFNLEIEVIPTVQEVNEKVLKHEVDVSVPSAAMYPYIQEDYYILGNAVASAVDGITGMPILAVNEMSINDLKKARLIVHGQNTSAFTLYRLLIGKYGKLVIIKRVLDEIKGLGKEGDVLVAVHEIKMMYTMKKLGIKPFVISSMWDLWKNISNNSPMPMGMVVINKDLGKDLAMKFKETYEQSKKYAEKHLNEIIPKDIEIMKNAQGANLDSEIVEKTIWADIQEYNVPTDKVIDGMRKFYELTAEKGILPKVIKLDVI;locus_tag=LOCUS_02840;note=WP_010980205.1 ABC transporter substrate-binding protein (Sulfurisphaera tokodaii) [pid:74.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-124],MGA_285
sequence1	MetaGeneAnnotator	CDS	250903	251589	.	-	0	ID=MGA_286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980206.1;translation=MRSLGPNLDIISNVIRDSKKNIENELLKINNLYFTPIPSFGIFKLNLNDKSLIRKNLREDFCLSISREGLKVNEFINYSGIPEAYDFITDEWDLHMDIKAEGIKPFIQYEDNAEPLLYSSLRSFYSFNDILKTSLNYGLISGFIIDYGKRDYVIDVFTTEKEVRERLEYIPFIRYSISLDLESNNLFIIELLISDKDLLFILELLKEMRQYIDILFTLRKPYYFNGVI;locus_tag=LOCUS_02850;note=WP_010980206.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:35.3%25%2C q_cov:90.4%25%2C s_cov:85.9%25%2C Eval:5.4e-29],MGA_286
sequence1	MetaGeneAnnotator	CDS	251564	252481	.	-	0	ID=MGA_287;product=cation diffusion facilitator family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762647.1;translation=MLPLSKLNSASRIFLVSGILIFPISVLEIYFGEKYSSSLLVVDSYHGFIDATSAILFSVLLKIIYRKSKRFPWGLYNLESLAILMSSAIIVFLSMTYLFQGLHASYDVPDWLASIIWGSSIITLIIYYMERKYRWIEIVRTDLVHSKLDMLMEIIGGIAILSQNFYFNMAVILSIIGFILADTIRQVKEAILSLIGASCDCPIKDRIYTILKGFGINVSNVYVRRLGSFFMVYVVVTMPSRTELRKVYRIRKKISRIVYSFDSVALVDVKIVPQKVKNTLKIDIKSNVSKTSNDNKANAVVRSKS;locus_tag=LOCUS_02860;note=WP_011762647.1 cation diffusion facilitator family transporter (Pyrobaculum islandicum) [pid:30.6%25%2C q_cov:92.1%25%2C s_cov:98.6%25%2C Eval:1.1e-28],MGA_287
sequence1	MetaGeneAnnotator	CDS	253000	253581	.	+	0	ID=MGA_288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846728.1;translation=MARVNIAADAELIKELEKEVKSRGYTIFAVTNIALKAILELLKSGEDSTTLQNLVEMYKITKDLDIIPIPSWYIENLVKLAYEKDSKSFQDICDGTGEQLSSYLKSRASSFEDLLNLYSEIRGVLPIKDINVKKGSGDSIDIRLTGTGFNIESTLCAGRVFKKILEAYSFEVIEMTTSPGGIIFVKAKYSRPT;locus_tag=LOCUS_02870;note=WP_052846728.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:56.9%25%2C q_cov:97.4%25%2C s_cov:94.9%25%2C Eval:1.1e-60],MGA_288
sequence1	MetaGeneAnnotator	CDS	253567	254079	.	-	0	ID=MGA_289;product=16S rRNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980208.1;translation=MKNLPNSEKRGRPDIVHLAMIMFLSESNIKGDFYIHTIDSKIIKVNNNMRPPKNYDRFVSLMEQLLTMGKVPPNSDNPLMEVTSLQLKDIAKKYNIILLSENGKKIKPEKICNDITEDKIVGIGAFPHGEFSKEVLDYASFIYSISSYVLETQQTICRLISACNEILGWP;locus_tag=LOCUS_02880;note=WP_010980208.1 16S rRNA methyltransferase (Sulfurisphaera tokodaii) [pid:60.8%25%2C q_cov:100.0%25%2C s_cov:77.6%25%2C Eval:6.4e-56],MGA_289
sequence1	MetaGeneAnnotator	CDS	254279	254620	.	+	0	ID=MGA_290;product=ribonuclease P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980209.1;translation=MKKLVESRSLDLIDMAVDLVYEGEIDLAREYIKLAREYSAKGKIKLPIEYKRKFCRRCNVPLVPGITERRRIRRKVLIRTCLICGWIRRYELRENKTNKSSECRSENREKRNH;locus_tag=LOCUS_02890;note=WP_010980209.1 ribonuclease P (Sulfurisphaera) [pid:58.0%25%2C q_cov:88.5%25%2C s_cov:92.6%25%2C Eval:1.6e-27],MGA_290
sequence1	MetaGeneAnnotator	CDS	254547	254798	.	+	0	ID=MGA_291;product=YhbY family RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980210.1;translation=MNSEKIKQIRAQNAEVRIGKNGITEGIINEIKRRLKDHEVIKIKIGSKDKNRKEIALKIAELANAKLIEVRGYTFILSKIDSD;locus_tag=LOCUS_02900;note=WP_010980210.1 YhbY family RNA-binding protein (Sulfurisphaera) [pid:70.3%25%2C q_cov:89.2%25%2C s_cov:79.6%25%2C Eval:1.2e-22],MGA_291
sequence1	MetaGeneAnnotator	CDS	254785	255276	.	+	0	ID=MGA_292;product=DUF371 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980211.1;translation=MIAIDFLKIRGHKNVKGTHKTTLEFTKDTYLTPRGDCIIGIYADKGVNDLKDDIKRMIKNEGFIYIVINVCGIFDIISARGSSKLTLSNKNKMIIRKSSFISDATLAINSNKSAFDIKREIIKGLQNEHNGLVYIVTSDIPLKNEEILGIVINFNPFESIKTC;locus_tag=LOCUS_02910;note=WP_010980211.1 DUF371 domain-containing protein (Sulfurisphaera tokodaii) [pid:55.1%25%2C q_cov:95.7%25%2C s_cov:97.5%25%2C Eval:5.6e-43],MGA_292
sequence1	MetaGeneAnnotator	CDS	255178	256083	.	-	0	ID=MGA_293;product=methyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980212.1;translation=MMCAKIKRREFDKIKSKLNVDNNFSFIFDDEYILIPIMSADKSIEIVECNPSPKRKTPRLHDIIDNASSYYIIGDIALVNVKNQKIDFNQLLTAILSINKNVKSVFLRKKVKGELRINDIEFIGGEYKTKTIYKENGVKFVVDISKVYVNPSLANERLNIRKEVNDNEKILDAFAGYGAISLNLAKKDVYIIAGDLNIDGLLLLKESLQINKIYNIDIINYDARFLPFRDKVFNRVYGDNPTMIKDFIQELCRVTKEILEIYILSDENELARLNAFKWIKINDYSKNLFIFKGYIRCNNIN;locus_tag=LOCUS_02920;note=WP_010980212.1 methyltransferase domain-containing protein (Sulfurisphaera tokodaii) [pid:52.0%25%2C q_cov:98.7%25%2C s_cov:100.0%25%2C Eval:4.4e-78],MGA_293
sequence1	MetaGeneAnnotator	CDS	256080	257090	.	-	0	ID=MGA_294;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847017.1;translation=MIAMSEYDMIIVGGGPVGLFGAFYATLRDMKVLLIDSQDELGGQLVTLYPEKIVYDVGGYPGILAYDLAIKLVEQAKMFSPDIRTKEWADILDKTSDGMYVIKTDKGNQFKTKTVLLAIGLGRLSPSRLGAKGELEYENKGVYYTVRRKKDFEGKNILIVGGGDSAVDWALTLAPVAKSVTLIHRRDQFRAHERSVKELYQVAKVYTWHELKEVKGDGQRVTQATIFDNRTKDEKTIDVDAVIISIGHKGDLGNIPKWGINMKGRDILTNTKMETNLPGIYASGDIAQVEGAPKLALIAVGFGQVAIATSVAKKYIDPNASVFAGHSSEMDKFKKP;locus_tag=LOCUS_02930;note=WP_052847017.1 NAD(P)/FAD-dependent oxidoreductase (Sulfurisphaera) [pid:83.4%25%2C q_cov:98.8%25%2C s_cov:100.0%25%2C Eval:1.1e-165],MGA_294
sequence1	MetaGeneAnnotator	CDS	257245	257598	.	+	0	ID=MGA_295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980214.1;translation=MISEITLLLLPFIFLWGLWLRFYRKIISEGLAFPGSDYKEEKIKIKPNSSVILQVKGKCTILVNSMTGWATIRINNGAKQKIYKIRLINIDGKLEIINESKIFPLDIIVRCSYLTYE;locus_tag=LOCUS_02940;note=WP_010980214.1 hypothetical protein (Sulfurisphaera) [pid:49.5%25%2C q_cov:89.7%25%2C s_cov:91.2%25%2C Eval:1.8e-23],MGA_295
sequence1	MetaGeneAnnotator	CDS	257570	258637	.	-	0	ID=MGA_296;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980491.1;translation=MKGKSIYIARVIYSISWFYLAPYIPYIIYKFNIQASLAGFVPFAFFIGSGTMQVPSAYLSTRIGLRNTLCLGLLIMSISSLFIGLSITFLQLLIFYFVGGIGASMFFSSGGAILAELNKNNLSRIMGLYNAAFSIGGIVGLNWIFFDKVLSFTYASLLLSLLTLISLFINVKLPNVKPTWKTIRNRNILYLGLSTSGVWGIYYAIGELFPNFAFNFLHLSAIESGEITSLLLFSSFIGGLLGFIGDKIGKLRGLILASLAGIFPSLLLYTKFFIIGIIILGIFNELAISIMYSMVAVEAKGANTGIGLAEVNSLNIVLGTWLDPLATFTGFYSWIILVLISIIPLFLIRKLSMSI;locus_tag=LOCUS_02950;note=WP_010980491.1 MFS transporter (Sulfurisphaera tokodaii) [pid:42.9%25%2C q_cov:98.0%25%2C s_cov:98.9%25%2C Eval:1.9e-78],MGA_296
sequence1	MetaGeneAnnotator	CDS	258696	259445	.	+	0	ID=MGA_297;product=NAD(+)/NADH kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980216.1;translation=MKIKIVRKPSVQIEDIENKIRDLAKSFGYEITEEDPDIVFAVGGDGTLLRAIKYDKPIITVKAGRRGFLMDVNPEKLEEVFKRLSNNDYTKEEYILLETNINGINAIAFNEIGILYDKPEALKINVKFLDENIIFEGDGVLISTPQGTSAWSFSISGNYVYNLNALEICLVNPILTSLKSIIIPPLNVKLKLENKGYPQLARVVADGEIIARIEVGNEINIWKSNKKANIYRFYEIDPIKGILNGKRDI;locus_tag=LOCUS_02960;note=WP_010980216.1 NAD(+)/NADH kinase (Sulfurisphaera) [pid:43.9%25%2C q_cov:97.2%25%2C s_cov:99.2%25%2C Eval:7.3e-54],MGA_297
sequence1	MetaGeneAnnotator	CDS	259426	259914	.	+	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980217.1;translation=MENVIFDTAGFLAGLENYFDRVYTTPLVMNEVKDYVSRSLLSLASSSGKIIILEPEKRNIDITNNTLRKIGEYSLSKTDISIIALALQLQPSIVFTDDFSVQNILLKLGIKFNSVKLNRSIKYEREYYYVCENCGKVYQRKKESCDICGGKIIKKSKLDSKK;locus_tag=LOCUS_02970;note=WP_010980217.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:51.4%25%2C q_cov:90.1%25%2C s_cov:90.1%25%2C Eval:2.2e-39],MGA_298
sequence1	MetaGeneAnnotator	CDS	260001	260864	.	+	0	ID=MGA_299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980218.1;translation=MQKALKVGGNPYALSKLTTFTVTQIKNTFNYLIVKYDFALFPLVISENLGLRKAVLICKDTKINMENRKNLFFPLVNVFRHDIEKNEFILTLYVNKTSLNEVSSAIEKLNAKGYVNCKLILVKNVFRFTRDPLCFDFEKGKWICEDKIVIINKYFKVNPDADDINLITSIQRNPYLNYIRNIHWRHIKSVINAFIYTLGRSNFILDVFSKEDISDKFPNTIWTLKTDEMFISEIYCYDELEKIIEKVKKYSSDFLIVPKTPGYAEGYSIPYEIFKKKTWEFPKIVIE;locus_tag=LOCUS_02980;note=WP_010980218.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:32.5%25%2C q_cov:98.3%25%2C s_cov:95.0%25%2C Eval:6.4e-39],MGA_299
sequence1	MetaGeneAnnotator	CDS	260894	262018	.	+	0	ID=MGA_300;product=aminotransferase class V-fold PLP-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980220.1;translation=MIDNFRDLVPITKNYIYLNHAAISPTPLPVLFETFNYLYNVSQNGTYTVNEEEKDEFLHIREKIANLINSSPNEISFIPNTSYGVNIIANALDLKPGDKVITDSLEFPATVYPFLKLRKKGINVDIVKTNPENIEQDILTKIDNNTKLISVSHVSFNTGTKLDIKKIVSKAKSVSAYVLLDIIQSAGAINVDVKDLGIDFAVAGGYKWLMAPQGSGFIYVKNGLIDDPPFYGWKSSKNYLDFNATEFELEKGPRRFEIGTIDVAANIGLGKSAEIISPYKKDIEKKVLELSKLAIDLAEDKDLEIITPKEKISGIVVIKLHNPKKIAEELAQKKIIVSPRGEGIRISSHFYNTDDEIRTTINEIATSLYSQKHV;locus_tag=LOCUS_02990;note=WP_010980220.1 aminotransferase class V-fold PLP-dependent enzyme (Sulfurisphaera tokodaii) [pid:62.2%25%2C q_cov:96.8%25%2C s_cov:97.6%25%2C Eval:5.3e-135],MGA_300
sequence1	MetaGeneAnnotator	CDS	261975	262913	.	-	0	ID=MGA_301;product=quinolinate synthase NadA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846504.1;translation=MPNIENLITEINRLKKDKNAIILGHNYMEYGVHLVSDFTGDSYDLAVKAMRTNADIIVFAGVYFMAEQASALNPDKKVLSPDPMAGCSLSDALDVETLKKYKKMYPNSPVVLYINTSIYTKALADYIVTSSTAINVVKSLDADVVLFGPDANLANYVEKKTGKKLIRVPPNGRCLVHASYTKQLVSLARKKYPNAKLMAHPESPLEILEAADFVGSTNQMIKYAKDSESKEFVVATEIGMLNALQIQVPNKRFYPFMSMETCACARCPYMAMVTLEKIKSSLVNEKYEVKVPNDVAEKAKRAFENTMKLLSH;locus_tag=LOCUS_03000;gene=nadA;EC_number=2.5.1.72;note=WP_052846504.1 quinolinate synthase NadA (Sulfurisphaera tokodaii) [pid:80.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-145],MGA_301
sequence1	MetaGeneAnnotator	CDS	262932	263300	.	-	0	ID=MGA_302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_221267070.1;translation=MSTRFWLLYKNIEKGTKVSLDEFSENKELNYEVRNSSLSLYRDVITEASRIVNESEDSKIIWELLRRNIISVSLAQELIDISKIIANIFSIDDAVIYSMLVRIMEDLEELYFSIQKYLSSNA;locus_tag=LOCUS_03010;note=WP_221267070.1 hypothetical protein (Sulfurisphaera ohwakuensis) [pid:47.7%25%2C q_cov:91.0%25%2C s_cov:98.2%25%2C Eval:3.5e-22],MGA_302
sequence1	MetaGeneAnnotator	CDS	263378	264403	.	+	0	ID=MGA_303;product=TIGR00303 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980223.1;translation=MVDVIGNFSEKISGKRSLFLLVIATTDVSLIPGITIAGATEELTLFTPAADAEFLVLGKCKVINSVPVTPTGIPTPAIITKASLSLLNIPKLVVDAGSKIKPNIPYISLNGEPGKDIRKRSLDPITAERIIENGITLGNELSKNFELLVIGESIAAGTTTAMATLLGLGYDAIDKVSSASPENPKEIKRKVVLEAIKDLPSNFIDKISKLADPMLLGVAGITVGFKGNVLLAGGTQMTAASAIIKEINKKKMNDIGIGTTRWIINDKSSDIISLSKEVGVNLSYVNLDFSASKFDGLKAYERGYVKEGVGAGGSSLLATLNGITEANILKRIEEIYEEIRV;locus_tag=LOCUS_03020;note=WP_010980223.1 TIGR00303 family protein (Sulfurisphaera tokodaii) [pid:66.4%25%2C q_cov:95.0%25%2C s_cov:93.9%25%2C Eval:3.9e-121],MGA_303
sequence1	MetaGeneAnnotator	CDS	264405	265181	.	+	0	ID=MGA_304;product=sugar nucleotide-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847038.1;translation=MKIAFTDEGELARVLARSLKNNEIIIVDNPQRVINEKPDVVIHTLDIPYFENKSYVWNFNTWYAINIARAAHKVNATNIYLSTFMIFNGKKGYYHENSTPDPLNYYGISKLVGETGTASLGNFLIIRCGVLYSLNYKGLLASFFKAALNGKNLKCNKNFYISPISIYSLSNIIAKFVNDEIKGVINVGGPRISIVEMCNLIADLFGVNVIELNGKKYDFSLDTWLLNTFNIKLSLKEDLVNAIEYRVLNNERKGISIT;locus_tag=LOCUS_03030;note=WP_052847038.1 sugar nucleotide-binding protein (Sulfurisphaera tokodaii) [pid:56.1%25%2C q_cov:90.3%25%2C s_cov:99.2%25%2C Eval:1.4e-74],MGA_304
sequence1	MetaGeneAnnotator	CDS	265126	265437	.	+	0	ID=MGA_305;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980224.1;translation=MLLNTEFLTTREKVFLLLKYSEDPLTAKDIMKALDIKKEKEVYDHIYHLAKSAKRKNYVVILFPPKCENCGYIFSIDMPKKPSKCPICKSERIIPPKFLIREK;locus_tag=LOCUS_03040;note=WP_010980224.1 transcriptional regulator (Sulfurisphaera) [pid:64.3%25%2C q_cov:95.1%25%2C s_cov:94.2%25%2C Eval:5.7e-33],MGA_305
sequence1	MetaGeneAnnotator	CDS	265448	266119	.	+	0	ID=MGA_306;product=HAD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980225.1;translation=MVAIFVDMGETLVRFKPRFHESIANAIREEGIEVSDIEVFKALMRHLGRSCFPHPQFDGLSQIDFKDLFYELNLHIPNDIIKKLENKNYLADEYELYDDAIPFLENVRELGFKTILVTNTTKKVNKIIKDLNLDNYLDGIIASCDYNILKPHPKIFYYAKKLAGSEGIHIGDVYEIDVIGARRAYMNAILLDRLNLYPEIKNNKVTNLHEALNIIQKLELTQT;locus_tag=LOCUS_03050;note=WP_010980225.1 HAD family hydrolase (Sulfurisphaera tokodaii) [pid:46.5%25%2C q_cov:95.5%25%2C s_cov:97.3%25%2C Eval:7.4e-52],MGA_306
sequence1	MetaGeneAnnotator	CDS	266105	266788	.	-	0	ID=MGA_307;product=phosphoglycolate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980227.1;translation=MTDILVASDYDRTISDEKDSFVINNAVREKINKFSKNNYFVVVTGRERRFIDRLAYGLEPTGWVLENGALIMINDKVYYNIPKSWPKLRFEIGKRLSAERLNFTYGEVIIYLNNVSNNICDLFSDLYEVSVEWNRSDVMIMPKGVNKGNGIKKFAEILGFKGRIIAVGDSQNDVSLFKAADFKVAVNNALKEIKEMADLVLNKDDGQGIIELLDYIESGEIYKLGLS;locus_tag=LOCUS_03060;EC_number=3.1.3.18;note=WP_010980227.1 phosphoglycolate phosphatase (Sulfurisphaera tokodaii) [pid:50.5%25%2C q_cov:93.4%25%2C s_cov:93.4%25%2C Eval:8.7e-56],MGA_307
sequence1	MetaGeneAnnotator	CDS	266781	267608	.	-	0	ID=MGA_308;product=deoxyribonuclease IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847020.1;translation=MAKIYLGTAGIPLSTKAKDTIEGIKRIRELGLNAMEVEFVQGVRMKIEKARGAGNIAKNLNVRLSVHAPYFINLCSEDKEKVNSSKKRILDSADRANAMNADAIAIHIAFYGKMSPEECYSRVKSELGEVVDIAKDNEIKVKFGIETMAKETAFGTIDEVISISKEIKNVVPYIDWAHTFGRQGGKIDYGDIIDRLIKELNISHINSHFESLEIRNGKYVDVHRSIIYNTPPFEPLAKEILKRDISITLICESPELEKDALIMKNVIEKLGYKFD;locus_tag=LOCUS_03070;note=WP_052847020.1 deoxyribonuclease IV (Sulfurisphaera) [pid:77.5%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:9.9e-119],MGA_308
sequence1	MetaGeneAnnotator	CDS	267634	270609	.	-	0	ID=MGA_309;product=FAD-binding and (Fe-S)-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980229.1;translation=MTLRDELESRFRENFSDALVERLSHSVDMGFVPELVWSGIKINVIPDYVVYPQNTEDIIDLVKIGISNNVPLTPYGRGTNRYGNAIPADGGIVLDFSKMNKIEIDEANRIAVAEAGATWKLVDIAAQQKGLQLRTFPSSYDSTVGGGTAGDALGVGSYEYGFICDNIAFVEMVNPKGEIVRLEGKDLAIVCGAEGTTGIITKVGIKLRPFSSTESLVISFEDFEKVYGAIGEFYREVIPAWHIQVRGPAISSYIHDKFRATLDPGKWNMVVLYPSTRSSIVEPKLYKIAQTYNGKVFEGEWTGWWSFNHGVNAALRSKGLLIHQHGLLHYTKIKDLIDSIQRDLGNIGVLEPNKGFDLDIDLERREVLLVNAFTQVSLNPVDRKIIYDLAKNTLMMEDFVKLGGSMLSVGMFVHKYARNRLSTMGKTFQDLGVDRYEVMKKYKEEMDSEEIFNPGKVFEPKKRAKTVLEIVDKQNEALKFRFGIGIAKSLSPGGEVEGYKVAKKYLDIFADYALTCIDCAMCVTVCPQYRLIPQWPYAPKGMFDFTRGIISYFELHDTVDIPDSTIAEISGCHKCGLCDGVCPARIPISTLLIKLNSLVARKIPEEPTIDIRIPDYYKDVISDDSEIGLWLGRYLSDNPSIVYVTLDLLKRLGLKVKVFGTSKDSGFMDYISGNGNSLIEKIKENSNINLLELITISPEDYKTFSEAYREYSKLAGYSNVFEVVPIEVRLLKSIQFEGNDEINLHVACFSSSYADEIIKRLREKGFKVKKIEGCSGAILERNLGKRSDRMAKALGETYPNLITLCPLAEMKFRSVGVNAKSLIEFIAEKAGIIISTQVSSFKVPDEDKKKINDTLLSSILASLNKRTQVIADTLSFISSGPDEYKKIIEPIIVEAMDEVSQSFVQGIKTMLSNEYGNEDLSKKSIITSTYVKEISSILLSISLENVIQELINVIKTITNEKFDEKTLSSVLLDLIRDNENKIRSSLVSLSF;locus_tag=LOCUS_03080;note=WP_010980229.1 FAD-binding and (Fe-S)-binding domain-containing protein (Sulfurisphaera tokodaii) [pid:63.4%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:0.0e+00],MGA_309
sequence1	MetaGeneAnnotator	CDS	270623	271054	.	-	0	ID=MGA_310;product=HIT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980230.1;translation=MCIFCDIVNDRLQSNVIYRNDYITVILDKFPLAPGHTLILSNEHYDNFLECPEKISCEIAKMSSIVAKAVISSVNADGARILTNIGKSAGQVIFHLHVHIIPSWSDPPSEYKEFEPRKEQPLEYYETLKKVISYNIQRILNRK;locus_tag=LOCUS_03090;note=WP_010980230.1 HIT family protein (Sulfurisphaera tokodaii) [pid:49.3%25%2C q_cov:97.2%25%2C s_cov:93.3%25%2C Eval:2.5e-37],MGA_310
sequence1	MetaGeneAnnotator	CDS	271207	271812	.	+	0	ID=MGA_311;product=cysteine hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980595.1;translation=MIRIGSKLVYNTLPEIVNPAHTALIVWDVQTILVQSIFNREEFMKSIYNVLNSARRARVRIFFTRIEPLPIDFESPAKLYLYSKWKINRLDSRGLTLALRPLPNERVISKHSASIFFGTDFENMAKNAGIQTIVITGIATELGVESTVRDAYNRGFYSVVVKDAVSSSDKEAHERSLENMKKFADIVTSSDLARIWSTRSR;locus_tag=LOCUS_03100;note=WP_010980595.1 cysteine hydrolase (Sulfurisphaera tokodaii) [pid:40.0%25%2C q_cov:92.0%25%2C s_cov:95.2%25%2C Eval:4.8e-33],MGA_311
sequence1	MetaGeneAnnotator	CDS	271796	272008	.	-	0	ID=MGA_312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIILPTKDISGKIVEIRIDRSFSPDFSPDFIPQGITQIVLDIRQNLLKGNHILEIITEKGNYAKFTLNV;locus_tag=LOCUS_03110;note=MGA_312
sequence1	MetaGeneAnnotator	CDS	272066	272662	.	+	0	ID=MGA_313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980231.1;translation=MSIDYLIIIFAISFATNSTPFFGTPYTLVATSFLVKSGITPLNMIEVILITAIGAALAKSVMYSLGYGVRNTFKNNKNVKFFSKFINKRSFFIALFFAALFPFLPLDDFIFLIGGAGKASLLKMLEITFVSKIIKSSIEITVEAFGLIAISDLIGISPFLLGIISSIVFTILGIVLFKIDWESIYTKLKDKFDLFYTD;locus_tag=LOCUS_03120;note=WP_010980231.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:44.7%25%2C q_cov:96.0%25%2C s_cov:95.5%25%2C Eval:3.6e-41],MGA_313
sequence1	MetaGeneAnnotator	CDS	272664	273176	.	+	0	ID=MGA_314;product=NUDIX hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980232.1;translation=MKVFSCKKFEVNVDKITLPNGKEKELQYIKHRGSAVMIPVIDRENIVLIKQYRPVIGKWIYEFPAGTIEENEEPEVTARRELIEEVGYEAGELIHLFDFYPSPGITTELMHMYLAKNLKFVGSKPEEYEIIESEKMSLDNAINMFLQGQIEDGKTIIGILYLARNRDLIQ;locus_tag=LOCUS_03130;note=WP_010980232.1 NUDIX hydrolase (Sulfurisphaera tokodaii) [pid:52.9%25%2C q_cov:99.4%25%2C s_cov:97.1%25%2C Eval:2.3e-50],MGA_314
sequence1	MetaGeneAnnotator	CDS	273165	273830	.	-	0	ID=MGA_315;product=chlorite dismutase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429825.1;translation=MTNEAYMIVLALRLDRNWWGLPVIERKSILSKVEETEKRFNNEFISLKKYASLSQGSQLIYWASALNTSSIIDFKSSILSSFSGNAVEDVSLFSIFTPSPYMKSDFDPLSVLKVEPLKYFVAYPMKKSVDWYLIPFDERENIMMEHINMAKNHPKNNGIRSYTTYSFGLGDYEFVVIYEIPSLPDWVEVVEKLREAKARKWVIKEEPLLVGELKDQGYLLY;locus_tag=LOCUS_03140;note=WP_198429825.1 chlorite dismutase family protein (Sulfurisphaera tokodaii) [pid:59.5%25%2C q_cov:94.6%25%2C s_cov:97.2%25%2C Eval:1.6e-67],MGA_315
sequence1	MetaGeneAnnotator	CDS	273820	275058	.	-	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVLQVYSNPAKAVISCSLVDENGNEKEILTITLEDNGIHVHKNIEKDDHYIIPPIPQIDMLIREVIEQIAEELNVQTVVFRYGENSDLEETDDLILSDAWYDIEKLALAASKHAALANDVESKVIIGIVKFSNFIYAATVLRKEDTFPLLQIFMDSSNNEIKIYNEIGQLVEERREKVQDFEEYVKSLVNSSDVAVVYKESLDEIPSPKEITTDNGRYYVGVVFKYFMGFFPSSSIKEVSSKRIYVRNKSKFVKLLRALLYLDKLSDDGGVEVLLSSSAVPLNDIPKEVDKIKGKVDKILGKYKITDVNYFGINDTLIKELVNYKPQFGEGDVYLGMRVIPVAFVIITENKQDFDNYVERILNGPTSDGYEILDEAVKKYISSYFIGYLMSVEEALIIYSDIFNELSKDDK;locus_tag=LOCUS_03150;note=MGA_316
sequence1	MetaGeneAnnotator	CDS	275248	275913	.	+	0	ID=MGA_317;product=uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980489.1;translation=MDQMDVKYLNSAIIRCRKCDRLINYIEKIRVEKKIQFKNWDYWSRPVPGFGDKNACILIVGLAPAAHGGNRTGRTFTGDESGKWVIKALYEIKYSNYPESISRTDGLKLTNVYLTNVVHCAPPLNRPTREEILNCEPYLKTLIRSLSNLKVIITLGKLAFDSICEIFSVKLKFSHNNIFKLDNYYLISSYHPSPRNTRTGRLTWNSWLSVFNNAKHICENS;locus_tag=LOCUS_03160;note=WP_010980489.1 uracil-DNA glycosylase (Sulfurisphaera tokodaii) [pid:53.7%25%2C q_cov:97.3%25%2C s_cov:98.2%25%2C Eval:1.8e-63],MGA_317
sequence1	MetaGeneAnnotator	CDS	275939	277546	.	+	0	ID=MGA_318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_184650984.1;translation=MNEVRRYVVYAIIGAVILSTLFLIAYRDNILNNPVQASILAIAFFSAIAILIISLNPQLINPNRNISKIDDLIFTISILTYSIVAIALINGFGTDDMEYITQAITNLLNGKDPYTQFYHPVNVQPTYLISGKISSNFIYPPLSFLLYIPFYLFLKIANLNLYYINIVNIIFQDILIFLIYNEGKKRGDPIATLPVIFLFVTAGILAPSFAGVNGAIWATFIALSYIYDGKKSGIFLAMAVSFSQLAWLITPFLFLYKRQNLYDILKSFLTSIIIFNLPFFMWNPHAFLDIITLDQGTIPVAVTGFTIFNLTTLLNVEPWFFTLAIAVIGGLSLYIYFRLFPAIKESLWIFPMLILWFSWRTLTEYFLFWPELMFISIFRLDYTNKINIDITKIKRELVGVLVSVLFLLAAVGGYSHAEYIAQNPIKISEVIVPQGKTPINQVYIVVKNNANYSVNITLVRVSVPNSLNMVWNFTQEKIPPNSTKELVAFTNNPKLTINTTEFTVEVYYKYFISSYKVYINESNTTLVYENTTNVN;locus_tag=LOCUS_03170;note=WP_184650984.1 hypothetical protein (Sulfurisphaera ohwakuensis) [pid:48.0%25%2C q_cov:96.8%25%2C s_cov:98.9%25%2C Eval:8.7e-140],MGA_318
sequence1	MetaGeneAnnotator	CDS	277521	278363	.	+	0	ID=MGA_319;product=NAD+ synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847022.1;translation=MRIQQTLIKILNIDYKTISDYIVERLREYLEESGKSGMILGLSGGIDSSVVAYLVSRATENFYILLMPSNSTPKEDVEDSYDVISNIKAESKFKVINIDGITKNFSDNIDTSDKLIIGNIKARIRMILLYAYAQKFNYLVVGTGDKSELLLGYFTKYGDGGVDILPIGDLYKTQVKELGKMLGVPERIVKKPSSPALWEGQTAEGELGISYDIADAILYLRYEELKSIDDVAKELDISKDVIIKIDKMVKTSQHKRLPPEIFRLSGRAINSDWRYPREWA;locus_tag=LOCUS_03180;EC_number=6.3.1.5;note=WP_052847022.1 NAD+ synthase (Sulfurisphaera tokodaii) [pid:66.1%25%2C q_cov:96.8%25%2C s_cov:97.5%25%2C Eval:3.8e-105],MGA_319
sequence1	MetaGeneAnnotator	CDS	278354	279163	.	+	0	ID=MGA_320;product=amidohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980238.1;translation=MGLKIELAQIKPKLGNIEYNLNRHLEIIETSSADCVIFPELSLTGYVLRDLVYDIYKESEKAAIKIQEKSKCAIFGMIKEYNPGILRNTAAVTINGKIDYVYKFYLPTYGLFEERRYFQPGNPLKDIKIFNINDFKFGVAICEDAWHTEPLQALSLLGAEVVFIPSESPMRRLSSRLLIEDQWETLIKAHSIMNGIWTAFVNSVGSQEEEYFWGGSMVSNPSGVIVAKAEKFKEERLQTSINKEEIRKSRFFSSFRDYNRDFHKFLYNV;locus_tag=LOCUS_03190;note=WP_010980238.1 amidohydrolase (Sulfurisphaera tokodaii) [pid:67.7%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:1.4e-109],MGA_320
sequence1	MetaGeneAnnotator	CDS	279186	279464	.	+	0	ID=MGA_321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYMLKQRFNPEIVMLILMLILLILSIIIPILILGAIGLSLISSYTDRIFIPISVLLLLLLELHGNFYIISILLLLVLIIFNLYKNIVKYLFK;locus_tag=LOCUS_03200;note=MGA_321
sequence1	MetaGeneAnnotator	CDS	279593	279841	.	+	0	ID=MGA_322;product=winged helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980239.1;translation=MITKIDEIIEGKGWETRKKILEELSKRPSTAYDLSKRLDLNYSTVKYHLELLEKAGMITCNKDKRNRYFYEVSKNVNLLKIL;locus_tag=LOCUS_03210;note=WP_010980239.1 winged helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:50.0%25%2C q_cov:95.1%25%2C s_cov:82.6%25%2C Eval:9.9e-17],MGA_322
sequence1	MetaGeneAnnotator	CDS	279900	280448	.	+	0	ID=MGA_323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTLLLLLLTLAQPSHSLLYQVTINVNNTLYTYDYNFSILYQNTTNIVFNLTITGNNFYQLKTYTVNTTNPYPLPINYNAFNTSKISFIKNTIINGKSAEIYSGYFDALGKYTIPVTIYFINGTLYSLNGTKNNINVVITQEQQPITTIPPISQDLETYFPLILFGIILVVGVIILIKVGKI;locus_tag=LOCUS_03220;note=MGA_323
sequence1	MetaGeneAnnotator	CDS	280532	280900	.	+	0	ID=MGA_324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKILNILCNKFSMNYKESPKFMVLKGLLQIIVAYILYRYGDMYGYQIKKKLEEINQKKVPQGLIYVTLKRMVNNGILETYDKEDKKYYRLTEGGKMFLINHIDILKRVDNIIHDILQFMSR;locus_tag=LOCUS_03230;note=MGA_324
sequence1	MetaGeneAnnotator	CDS	280882	281307	.	-	0	ID=MGA_325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980482.1;translation=MVKYPNVQIYISIHISYFMIICTTVDKNLRLMEFSRAEYIILYDLDKKEIIEKKPNPAMWAKIKRPAVARECVRAKPDIVLAPHGSTCFPSYRIFKTAHLKVVVDNNGKRLNEIDPWGLNMKEVIYSSFVAIFERFHRLMN;locus_tag=LOCUS_03240;note=WP_010980482.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:50.8%25%2C q_cov:83.0%25%2C s_cov:95.9%25%2C Eval:8.3e-27],MGA_325
sequence1	MetaGeneAnnotator	CDS	281306	282985	.	+	0	ID=MGA_326;product=dihydroxy-acid dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980252.1;translation=MIKKSRSQKVYGGFEKAPNRAFLKAMGLTDDDINSKPLVGIATAWNEAGPCNIHTLGLANVVREGVREAGGTPRVFTTPVVIDGIAMGSEGMKYSLVSREVVADTVELTVNAHGYDGFVAVGGCDKTQPGLMMAMARLNIPSIIMYGGTTLPGYYKGKNIAIGDVYEAVGSYSSGKISAEDLRIMEDNAIPGPGTCGGLYTANTMALMTEALGLSLPGSASPPAVDSARVRYAKETGKALLKLMELDLKPRDILSFEAFENAIAVLMASGGSTNAVLHLLAIAYEAGVNLTLDDFDRISKKVPEIVNMKPGGEYVMADLDKVGGAPLIMRKFLDAGLIHGDIITVTGKTVKQNLDEFKLPNIKYDSIVKEIANPYNPTGGIRILKGNLATEGAVIKVSASKVKYHKGSARVFNSEEEAFNAVIKEKIEEGDVVVIRYEGPKGGPGMREMLAVTSAIVGQGLGEKVALITDGRFSGATRGIMVGHVAPEAIVGGTIALLEDGDTIVIDANNGRLDVDLSEEEIKSRAKDWVPPEPKYKTGLLAKYAKLVSSSSKGAVLTV;locus_tag=LOCUS_03250;gene=ilvD;EC_number=4.2.1.9;note=WP_010980252.1 dihydroxy-acid dehydratase (Sulfurisphaera tokodaii) [pid:82.9%25%2C q_cov:99.3%25%2C s_cov:98.9%25%2C Eval:3.3e-270],MGA_326
sequence1	MetaGeneAnnotator	CDS	283141	284208	.	+	0	ID=MGA_327;product=aspartate-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846737.1;translation=MKRILKAAILGATGLVGIEYARMLSEHPYIKPAYLAGKNSVGRPYGEIVRWQTVGQVPKEVRDMEVKPTDPKLMDDVDIIFSPLPQGAAGPVEEQFAKLGFPVISNSPDHRFDPDVPLLIPEVNPHTVSLIDEQKKRRDWKGFIVTTPLCTAQGAAIPLSPIYMNFKMNGAYITTIQSLSGAGYPGIPSLDIVDNILPLGDAYDAKTIKEVTRILGEVKRNIGEPSMQEVSLAATTHRIATIHGHYEVSYVTFKEDTEVSKVREVLDNFRGEPQDLKLPTAPEKPIITMNEDNRPQVYFDRWAGNPPGMSIVVGRLKQINNRTIRMVSLIHNTIRGAAGGGILSAELLKEKGYIE;locus_tag=LOCUS_03260;gene=asd;EC_number=1.2.1.11;note=WP_052846737.1 aspartate-semialdehyde dehydrogenase (Sulfurisphaera tokodaii) [pid:83.9%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:7.3e-179],MGA_327
sequence1	MetaGeneAnnotator	CDS	284300	285094	.	+	0	ID=MGA_328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846736.1;translation=MDYIALSEALGIEKDKATYVYKRLNGGYYISLYYSKPPILISLRNWPLLYLKKKYFPKFSQPGYNEEFQLLVTLDIYTILGSSYFLINNEYNVPHKLVNKELEGVYYAIEQVAKQESIYPYPTMSIDNIDTDLTPFIKDIVERRVRDNKEDIARLFQSIAFNSTVMEELRKNYPWAKTINENNSLKAIALSNKFEDFIKEYSNYIFYLAAEKTFLFDKIVIDQGIRDAINYVEKSEIKENPSTDYEKEITNIYNIIKAEANYID;locus_tag=LOCUS_03270;note=WP_052846736.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:30.5%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:8.7e-32],MGA_328
sequence1	MetaGeneAnnotator	CDS	285327	285695	.	+	0	ID=MGA_329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980248.1;translation=MILYKTSFVKTRTESRRKKLSKGESITAFKEELRSLTFEPIYGETIKSIITSITTKIQTLAEEYGYEIEFPKRAEIETDGNIYYFIYTLKVRTKITTKKIRLHVQYIMYEEENWIGIITEVK;locus_tag=LOCUS_03280;note=WP_010980248.1 hypothetical protein (Sulfurisphaera) [pid:53.8%25%2C q_cov:86.9%25%2C s_cov:91.2%25%2C Eval:3.2e-28],MGA_329
sequence1	MetaGeneAnnotator	CDS	285688	288924	.	-	0	ID=MGA_330;product=S8 family serine peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980247.1;translation=MLKSLLIAVIILAQVIPLISTNHINTSLNSSLNSNSYITVTVIEQPKNLELLQLYLENHTVLNSSQVEKLFVPQSSINNILQYLKSFNINAKSYLNVIVASGQMKELEKAFNGKFYSLKFNNITYYKFEGNLPSLLGNAIIIGSNVTQAIFKRPDTLYNVTQAVAFSVVTPKDIRLAYNVTPLLREGIDGNGTNIGILDFYGDPYISQQLVQFDKLYNISNPPVFKVVPIGPYNPNDGILNGWALEISLDVEYSHEIAPDAGIYLYVANPSISLPAAIAYIDQQDKVNVVSESFGIPEIYFDLGILSISCIQSLNYEYWLGEVEGITFVAASGDYGGDGYNYYLFPKGSLLFPASDPYVLAAGGSSLYISGNSSVQTAWSGESVYGATTGGYSSIFPSPWYQGAQGFREVPDLVADGNPYTGVPVLYYYNETYLIGGTSVASPTISGIIDLATQIHGKLGFINPLIYKLNNTKAITPITFGYNTPYAVSSQYNPVTGLGYINAGYFVNMISYKPQISVAVQNESYLDGQTVSVIAKAPYYFHLKGYVYNGKSIIKEFPLYFNGTYWVGNFTAEGSGVQEVIISGDNETSGTYIVVGLQAEFLLPEVGIYYQPGGIPILVQLLYPNGSVAEPDANYTAKILSYNPLNNTFTNVTLVSLSKVRIIDISLFGINITSPKYIYGIYNISKNIGGNYLVSINNTFGFDEFVEGIYVVPYIIPSVFTEPTTASPGSNITIGVLAETVGSPNVSVYFYRHGELMYETQINSICIDNNQYYLSNIKIPNNLTKGYYTIIARANYSNNGYTDSGIGFTQIYISSNSLSSLIYEHPKVVLQGTNIILEAKITYPNGTLVKYGAFTAVLLPSFLSQNFDSLSDNYAYPLSYHNGIWLANISVINGSISNSLGLSQEAVSSNWYIYVFGVSASGYPTYLPSTVNFNTLNIIPEIPQSTFILLPYTYIKYFNGSYAYDDYIDYARIVNHNATIINSIVKNITIVNGSVTLINTQLYNYSVSNGTIIFNGTIKPYHSNIVYPQNFASIPNSSSNTELKHVSVSISLSTILSLVVVIISTIITIYLIKKSKPT;locus_tag=LOCUS_03290;note=WP_010980247.1 S8 family serine peptidase (Sulfurisphaera tokodaii) [pid:49.6%25%2C q_cov:91.4%25%2C s_cov:91.3%25%2C Eval:3.5e-282],MGA_330
sequence1	MetaGeneAnnotator	CDS	289078	290319	.	+	0	ID=MGA_331;product=NADP-dependent isocitrate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980246.1;translation=MQIMMYTFPEEGEKISFKDGKWITPNKPIVLYIEGDGIGPEITQASIKVINKAVEKSYGSSKEIKWVEVYAGDKAQNLIGDRFPKETRDALMKYRVVLKGPLQTPIGKGWKSVNVEMRLMLDLYANIRPVKYIKGIESPLKNPEKVDLIIFRENTDDLYRGIEYPFDSNEAKKIREFLRNELNVNIEDDTGIGIKVISKYKTERIARMAFKYAIENKRRKVTIMHKGNVMKYTEGSFMNWAYEVAQNEFREKTITENEINQGKDPSDKIIINDRIADNMFQQIITRPEDYDIILAPNVDGDYISDAAGALIGNIGLLGGANVGDDAGMFEAIHGTAPKYAGKNVANPTGIIKGGELMLRFMGWTEAADLIEKAINTAIEEKKVTQDIARFLGVKALGTKEFASELVNIIDTLK;locus_tag=LOCUS_03300;note=WP_010980246.1 NADP-dependent isocitrate dehydrogenase (Sulfurisphaera tokodaii) [pid:78.2%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:1.6e-191],MGA_331
sequence1	MetaGeneAnnotator	CDS	290807	291964	.	+	0	ID=MGA_332;product=orc1/cdc6 family replication initiation protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980245.1;translation=MIREALKGGKGEVIKNPKVFIDPLSVFTDIPYREDIIRETAVAIRYFVKNDVRFSNLFLGLTGTGKTFVAKYMFNEIEEVRKEDDDYLEVKQAYINCREVGGTPQAVLSVLAEKLSSGIVPRHGVNLGEYIDKIKNSVKGKKAIVYLDEVDTLVKRRGGDIVLYQLLRSDAEISVIMISNDINVRDYMEPRVLSSLGPSVIFKPYDADQLKEILAKYAEYGIFNGTYTDNVLAYIAAVSAKEHGDARKAVNLLFRSAQLASGEGSIKKEHVDKAIVEYEQERLVEAIKSLPFHYKLALRSVLDTDDVVTAHKIYTDYCNKLKQRPLSYRRFSDIISELDMFGIVKIKLLNRGRAGGIKKYVEVQDKDKILKALDENILDEMGYEY;locus_tag=LOCUS_03310;note=WP_010980245.1 orc1/cdc6 family replication initiation protein (Sulfurisphaera tokodaii) [pid:76.0%25%2C q_cov:99.5%25%2C s_cov:98.7%25%2C Eval:4.2e-175],MGA_332
sequence1	MetaGeneAnnotator	CDS	292000	292320	.	+	0	ID=MGA_333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846734.1;translation=MLWEKVKDIEERLNEIKQEREKIEKEIKELPDGHIDIKKIGNRSYYYLRYWEEGKLKSKYLGKDASEIAAKVNLCNELKRKLVLVKDEEKRLEKAIEKIKNAVENS;locus_tag=LOCUS_03320;note=WP_052846734.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:44.3%25%2C q_cov:100.0%25%2C s_cov:97.2%25%2C Eval:8.7e-26],MGA_333
sequence1	MetaGeneAnnotator	CDS	292317	292610	.	-	0	ID=MGA_334;product=4a-hydroxytetrahydrobiopterin dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980242.1;translation=MKKLSEAEINSLIKNLKGWTLDNNKLKKEFKFSNFKQSINFLDLVEPVADSIDHHPDVCIYYNRVVVELTTHDVGGLSDLDFQLAEKMDELSAHVKT;locus_tag=LOCUS_03330;EC_number=4.2.1.96;note=WP_010980242.1 4a-hydroxytetrahydrobiopterin dehydratase (Sulfurisphaera tokodaii) [pid:58.2%25%2C q_cov:93.8%25%2C s_cov:97.8%25%2C Eval:2.9e-29],MGA_334
sequence1	MetaGeneAnnotator	CDS	292722	293531	.	-	0	ID=MGA_335;product=gamma-glutamylcyclotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980286.1;translation=MYLFAYGSLRYGFELNHFLKESRFVGYGFTEGFEMYDLGSYPGVIKGDGIIWGEVYEINDSLLKTLDEVEDYKGKEDDLYIRYKTRVFFDQKRKYYLDGVYLYVYNQDISYRDKIESGDYSAYVGMPRVINYFAYAENTNIKILKERGVRKILKEINAVLPGYSIIFNVKCKYGYCANLKEDPEGKVCGYIYLMIEDDLNSLDKAEEHLIKYFRETVKVLDENGKEYFASAYVSDYKEGQGTPREEYLNAIKEGLRRKWGESCKSSGLT;locus_tag=LOCUS_03340;note=WP_010980286.1 gamma-glutamylcyclotransferase (Sulfurisphaera tokodaii) [pid:67.0%25%2C q_cov:99.3%25%2C s_cov:98.9%25%2C Eval:2.4e-109],MGA_335
sequence1	MetaGeneAnnotator	CDS	293532	293810	.	-	0	ID=MGA_336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSYNALQKLYSSSNYSIEEENSIIKIFYYPPSYSEASGIEEDVNRTIEITGKKENNYIEIIDAKIIENGKEVRKMDDSELGFWIEFIEGE;locus_tag=LOCUS_03350;note=MGA_336
sequence1	MetaGeneAnnotator	CDS	293794	294162	.	-	0	ID=MGA_337;product=NfeD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846745.1;translation=MAAHIVIPIIIIIVVLIALIVTGYISDPLVDIPSFIIIGFISYRIFYIIIKTRKRNLFTYVGKIGKAVDNISPNQGGYIMVNGEYWEAVSNENIEAGDTVVVIGMQGLKLVVKKSNSNEVVV;locus_tag=LOCUS_03360;note=WP_052846745.1 NfeD family protein (Sulfurisphaera tokodaii) [pid:51.8%25%2C q_cov:90.2%25%2C s_cov:90.9%25%2C Eval:1.4e-28],MGA_337
sequence1	MetaGeneAnnotator	CDS	294198	295484	.	+	0	ID=MGA_338;product=thermopsin family protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980288.1;translation=MKAIFLILIILLPLVYTPFFHSQSTLAYPTGMTFFPFTSSILTNFVEGVINVYNLSIGSSYLPNGAYLTSGNASLQLNSILNGKFWAQNVALFHEINSKEFLVTMVVNFWNLSGPFENYPNTTTYEGLGVYCYQGPSFILKTPFSLILYMNSSNGLEFGYIVNNTLHTYLKLPFPGEFTLGGFTAGLPNDLELVWGGPGGGSTVYINEVASEELFYESSNKLSIVPSAISVGLDTAESAYGISVTSNLDNIFHPFATISKGYNTPSILWPIPPSITVTQVNKTVNVKVSINGKPLVNQEVEVLYPTLTGFKVGYENITNSSGLVTFPNASTALYIIYYPGNFSLATAYSLSSSSAPILQSIASKFISTFQSLTNFLKTYNFKKALSSDFNHIKYKGYSTYNINLVLIEYISAFAIGVLISAILIKYKF;locus_tag=LOCUS_03370;EC_number=3.4.23.-;note=WP_010980288.1 thermopsin family protease (Sulfurisphaera tokodaii) [pid:46.3%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.9e-107],MGA_338
sequence1	MetaGeneAnnotator	CDS	295509	296300	.	+	0	ID=MGA_339;product=slipin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980289.1;translation=MSDLGLIIGLVFLLIIVLVFVGLSFRIVKEWQRAVVLRLGRVLGVKGPGIIFLIPFVDRPVVVDLRINNVDIPPQTMITKDNVTLSIDAVVYYKVVDTIKAVANISNYNSAVVNIAQTSLRDIIGQMSLDEVLSERESINKKLQEILDSYTEGWGVKVTAVTVRDVKLPADLSTAMAQYAAADRLRKAKVILSEGERQASTILADASKSYKENPIALQLRFLETLSDISQKGGLIIVVPAGQEIYPTLSTAVSAGLVNYKKGE;locus_tag=LOCUS_03380;note=WP_010980289.1 slipin family protein (Sulfurisphaera tokodaii) [pid:72.0%25%2C q_cov:89.7%25%2C s_cov:90.8%25%2C Eval:1.9e-95],MGA_339
sequence1	MetaGeneAnnotator	CDS	296305	297045	.	+	0	ID=MGA_340;product=precorrin-4 C(11)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871103.1;translation=MKVFLIGVGPGDPELLTLKAYRIIKESDVIFYTGSLISPEIKEFFVNKESFDTSKMTIDEITDKVYNRLLENKKVSILHDGDPSIYGAISEQIYSLENKGINVEIIPGISSFQLSSSLLGLELTCPQGPQSIIITRLPYRTNYEKKLLLSKNASIIIFLSIHLIDKVKQQLLEVFPEDFPFAVVYHAGWKDQKIVTGVIKDIDKVVKSNKIYKTALILISECLKRIERHSNLYSENFTHSYRRSTK;locus_tag=LOCUS_03390;gene=cobM;EC_number=2.1.1.133;note=WP_010871103.1 precorrin-4 C(11)-methyltransferase (Methanocaldococcus jannaschii) [pid:45.2%25%2C q_cov:99.6%25%2C s_cov:97.3%25%2C Eval:6.1e-53],MGA_340
sequence1	MetaGeneAnnotator	CDS	297042	297569	.	+	0	ID=MGA_341;product=cobalt-factor II C(20)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979885.1;translation=MKLFGIGVGPGDPELLTLKAYRIIKESDVVIVPFSSKKITYNIVKDLIANKDIIKFDLPIRKGEEAYKKLIENIRGYNKVAYLTLGDPAFYSSFYRLAKFLEPYEVIPGITSFSWCSAINKIPIALGKENVLITTQYQENDKIDNIILMKNQDKFGVSCGNGYFTVSLIKKHPYY;locus_tag=LOCUS_03400;EC_number=2.1.1.151;note=WP_010979885.1 cobalt-factor II C(20)-methyltransferase (Sulfurisphaera tokodaii) [pid:34.4%25%2C q_cov:92.6%25%2C s_cov:82.0%25%2C Eval:1.6e-20],MGA_341
sequence1	MetaGeneAnnotator	CDS	297695	298099	.	-	0	ID=MGA_342;product=rhodanese-like domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978594.1;translation=MQVIENYSSPYFRHIIDLPASIVRKLWKKNQITLVDVRTPEEYEDHHIPGALLIPLDYLEILSKYIQDKEIAVVCEHGNRSRYATYGMPHLYKKKTINMLGGMMSWISMGYEIESGIDENGIKWQEWLDKEINQ;locus_tag=LOCUS_03410;note=WP_010978594.1 rhodanese-like domain-containing protein (Sulfurisphaera tokodaii) [pid:64.9%25%2C q_cov:97.0%25%2C s_cov:98.5%25%2C Eval:9.5e-49],MGA_342
sequence1	MetaGeneAnnotator	CDS	298211	300412	.	-	0	ID=MGA_343;product=glyceraldehyde dehydrogenase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980567.1;translation=MSQYRYIGQRIKRKEDPKLITGEGRYIDDIEYPGTLYLAIVRSPIAHGILKRVDYSDATKLNGIVGVISGLNLKVENRPTNFPMATNELLYVGQPIVAIVGTDRYVVQDAVELVQIDYEPLSSVIDPEIALKDDVKAVEGRSNIAYRKTYSAGNPEKALEESDIKIEEKFVLNRVYPAAMEPRGLLSIYQQGFLTIYASTQSPHYMRRYLLESLGNMIKDIRVIQADVGGAFGSKLFPYPEDYITAYASIIFEKPIKWIATRSEDIRQTYHGRGQIHKIKVGAKKDGTLQGIIDNVIIDLGAASHGYYLADISSTMLPGPYVIPNIKAEVYGVYTNKTPLDQYRGAGRPEATFVIERIMDILADELKIDEIEIRRKNIIKTTPYVNPFGIKYDNGDYTYLLNKAEKIYRELENKAEEEKKKGRRVGVGFSFYLEENNFGPWESASVRVRGDGKVTVIIGAAPHGQGTATGIAQIVAEELGIDLDNVEIIWGDTNAIGEGFGTYGSRSLTLAGNAALLAARKVKDKAIRLASQFMKSDIQELKYDNGKVINPKTGEFMTLKEISEKGMATLGGVWQYKEEPGLEATAYFGLDNLTFPYGSHIAMVEIEDTGNVKVLEYHAIDDIGLVVNPMLAEGQVMGGVIQGFGESTLEKITYDNEGNLLTGSFGDYMIPTAVESFNISWEYIEKGMSEAPLPSKGIGEGAAIGTLPAIARAIEKAIGKKVTELPVITDLYF;locus_tag=LOCUS_03420;gene=cutA;EC_number=1.2.99.8;note=WP_010980567.1 glyceraldehyde dehydrogenase subunit alpha (Sulfurisphaera tokodaii) [pid:66.6%25%2C q_cov:98.5%25%2C s_cov:98.9%25%2C Eval:4.3e-289],MGA_343
sequence1	MetaGeneAnnotator	CDS	300930	301295	.	-	0	ID=MGA_344;product=DUF2203 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978601.1;translation=MDYIYFDLSTAREILPWLKERLLKLKEIKYNTEEVLVNGNKKEIEKYILNVDKIIKEITKKGIIIRDPDLGLVDFPAIINDRPAYLCWKIDEEDIKFWHYAEEGYIGRKPITGKENILSFL;locus_tag=LOCUS_03430;note=WP_010978601.1 DUF2203 family protein (Sulfurisphaera) [pid:61.9%25%2C q_cov:97.5%25%2C s_cov:96.7%25%2C Eval:9.7e-41],MGA_344
sequence1	MetaGeneAnnotator	CDS	302026	303309	.	-	0	ID=MGA_345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLLSISLAGFDFFMMLGLSAYAAYKDLYIISISMILSMIWYFILIFYRFSDRKINIGIKYPFIFLILINLAELTMGFGESVLGFNITNSIFMTHHMESMKMPMRSPFTNPYWWIFPMNPLSMTIMSFKDVLMNSHNIIFATFWGSYILIMMTTMMPFYVIMMGAEMIYLVYERFKISKNSQIKYWAIAIMIGMPIFVWLIPYYTDFYIFGMSGMIFPVTLIGFSISIIAIIIASILFGKRAYCNLACMSAHMWTNIFYDKFKPKKNYRFWDYFRWIPFTLMLITFGYWSSMELGITKVPHIGMTAINPLDIFGMFTLNYIWWFFFFLTPIFGTYSCSRQGWCGFGTFVGLFNKIIFKIKAKNVEDCRVCNNIQCEKACPIKIEIRKDILSKGFSNRISCVGCGDCVEACPKNNLEIYDITRLFKKK;locus_tag=LOCUS_03440;note=WP_010979761.1 4Fe-4S binding protein (Sulfurisphaera tokodaii) [pid:60.2%25%2C q_cov:99.8%25%2C s_cov:65.9%25%2C Eval:2.2e-159%2C partial hit],MGA_345
sequence1	MetaGeneAnnotator	CDS	303479	303769	.	+	0	ID=MGA_346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFIEEIARKNIASLSIIIPKAILLTEEIKGFNLGPKAEEKAYPIANSSNTIVNANVIDATLSALHWIDESLSLTESTAGIEAKSRLIGSENIEPL;locus_tag=LOCUS_03450;note=MGA_346
sequence1	MetaGeneAnnotator	CDS	304089	305441	.	+	0	ID=MGA_347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIREVISSIQKNTSGVIVLPGLNVDILSKIFESISGKYLLISKRNGIDVLRNYVDVSSKPLKGYTKYIIDTAHFFPEYANKDGYILITESPTRDIINSNILRIYHSENLIKKKYLEPFRIIRYTPNKLLSQHKGYNNRVEVLKDISIKYPNATILASNSIENGELQKEGISSVLDMNDINTNNVILSRELESIPGYLFLRNKLWGGTLIDLTDTTEKFENWEKIRLGELGFYNANKYDFEGYESFNLEQVKNFTLKYDGESIIKPRSNIPSLIIKDRKLFLKEKNLGEFDTKSRKVIIKINCRSIQTFALSKLSLSPFISPLSTGRCSLLMACVEVFQDKDLCTRVAFEGFLKIRDYISNLYSSNIGKILSSIVTRKLIVDITKSKRILSINISGKNIVLELNRNGNYITISCDSCSKKTKIRIRGDINSTRYILINSLYDIIKNEI;locus_tag=LOCUS_03460;note=MGA_347
sequence1	MetaGeneAnnotator	CDS	305425	306279	.	-	0	ID=MGA_348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846379.1;translation=MEINIYYGKEHVSIKDQIVTLTGSSDRYQIDRAVYYILKTLYSMPRLYGISIKDNILEAWKKEFEIKFLDILKSDMELERIKFNNMRFEINTDKISIEGNLDTQNIFVKVKLLDIPDVENSLSGLVKLDSYYFNSIPKLKPYIILGNRSGLIAAFHKFLILHNEGTPGIPKTLGIVSEFINSIVIPEGVNYDIFGNELTSASDGIMINNVSGYNASPDTLSLFPLKFLLETSNGYFIIEDPEANLSNEFKVKLINLIKNNKSKLIISTNDKDFMLGNIITISHF;locus_tag=LOCUS_03470;note=WP_052846379.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:37.1%25%2C q_cov:96.1%25%2C s_cov:99.3%25%2C Eval:2.4e-46],MGA_348
sequence1	MetaGeneAnnotator	CDS	306338	308677	.	+	0	ID=MGA_349;product=M1 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978604.1;translation=MEVKYYQVFLDFDFNELYYRGNEKIIINTEDKVTLDLDGIKILSVKVDGKTVKYTLDDQSLIIDSGKFSGTLDIDFEGKVRDDLVGIYKAPYNGSYIITTQFESTHARKFIPCVDNPSYKAEFKLIVKVDKDLDVISNMPIERITNEGSKKTVEFYKTPKMSTYLLYLGIGKFEEYQLGETPKIIVATVPGKISKSKIPADYALRFIRFYENYFGIKYVMPKVHLIAVPEFAFGAMENWGAITFRETALLADENSAFKQIRRVAEVVAHELAHQWFGDLVTMKWWNDLWLNESFATFMSYKAVDSNFSDWDFWGEFISEETSGAMLKDSLHITHPIEVEVKSPSEIEQIFDDISYGKGASILRMIEAYLGKEDFQKGIRDYLEAHKFGNAEGKDLWQSLEVASGKPVSRIMPEWVTKEGYPIVFVKTNGNSIELSQKRFMLSGLEDKVYPIPLTIEINGKKESILLDKDKDIINFGEDIKSLKLNLDRTGMYRVYYDNLDLFWNSNPNHFERFGLVNDYFNLLLSGNIQVNDYFKIINHEMNEQNYLPAMEISDQLFTLYQINSDKYRKIAYDFHSSMVQKFENAKSSLDKLAFGTIAERFIKISDEYARKISEEFYNYDKLDPDIKDAVVEAYAIVKEDESLDTLLEKYRKEKFDEDRMRYLKALLSYKKSYLVVNNLSLALTGEIKKQDVITVISNSIVYPEVRYAVWTWLKTNIQFIARIYQGTGILGRVMSNVIPILGLGRETQVEDFFSKNKVSGAEKGILQGLEILKAYSKLA;locus_tag=LOCUS_03480;note=WP_010978604.1 M1 family metallopeptidase (Sulfurisphaera tokodaii) [pid:56.0%25%2C q_cov:99.9%25%2C s_cov:99.7%25%2C Eval:1.0e-259],MGA_349
sequence1	MetaGeneAnnotator	CDS	308664	309362	.	-	0	ID=MGA_350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKVAQDIYDEIRSFINGATISIVLLSDKLNDAIVEDIERKAGSGVRSKVITSDRNWSRWLENRKNSYGYDEERRFNKELSALLNRILFFERFPYIVMTIFVAISIITFLKTYTVSLYLITEIITGIIVIVISVVISRNKVKSYKYEYSLKEQELEKIKGQYNDIRQHLSKYLEVVELQNPPGFSILVADDKAIITSTSVDIKNNKEIDFIEEVSKEKALTFIEKITSMQA;locus_tag=LOCUS_03490;note=MGA_350
sequence1	MetaGeneAnnotator	CDS	309377	312172	.	-	0	ID=MGA_351;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978606.1;translation=MSNEQFFNKLAEKWSKDFCNLFNVDPNEKPKFFITVAFPYTNSPFHIGHGRTYVTADIYARYMRMKGHNVLFPLAFQFTGTPILSMSEAIKRGDKDIISEFIDIYGIPREKLEEFTDPLKLAEYFKNEMENTAKKLGLSIDWRREFTTVDKRFEKFIQWQFRKLKDKGYVSQSTEAVGFCPNDNFPVGMHDTKGDIEPEIVKQNVILFENNDYLFPVVTPRPETIFGATALMINPKATYIIVKKDSKKWILTDKAFSKLSYQMNLEKIGEIKLEDLLKIKVINPLTGEKLDIIPNKIVEPDVGTGIVMAVPSHEPLHYLALIESGIKPELKRIIYTSEYEDIPSVEVVSIAGTKTPAELKDYIESLYKIEYYKGYMANDLENLVPDFMKQYIKDEINGKPVKDAREKIIELLKKLGHYDNIYEISNGPIYCRCGTEIVVKMMQNQLFINYDDPNWKSLTLKSLDKIKIIPEDERKDLEKVIFSLNKRACSRSRGLGARLPWDNSQIVDSLSDSTIYTVFYTIAHKLPQDPEKLQDVFWNYVLLGEGDVNKISEELQLDKKILEDIKSEFEYWYPVDSRHSGRDLIRNHLPFYLYNHLAIFGEKYLPRSIIINGFVRVGGKKMSKSFGNVYPLFKAINEFGADPIRLALTVSSEISEDTDFSSYITNSISNQLKRIYDTIMFFSKMEVSNDIKDEDIWFSSILHYKIKEISSLMDNLEFRKAYNIILYEFYELLKEYLEFRKNPNKDILNKFIDSWIKLLSPGAPFISEELWHSRYSTFVSKESFPNASDFQLDKKILMSMEYIRYLIDYINKMESILNKKSEKIIFYVTRPEKIGYIRDVINAVRAHKELPESDYLIRIRNNLQQIPDLIKDLILEYDLDEFNTIVGNVNFLLNKLNVDEIRVYYSDDPEAPDIKGKKGIALPLMPSIVII;locus_tag=LOCUS_03500;gene=leuS;EC_number=6.1.1.4;note=WP_010978606.1 leucine--tRNA ligase (Sulfurisphaera tokodaii) [pid:53.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.9e-303],MGA_351
sequence1	MetaGeneAnnotator	CDS	312214	313266	.	-	0	ID=MGA_352;product=radical SAM/SPASM domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978607.1;translation=MLWLLVTTGKCNLICDYCGGSFPKDVVPWKTTYNINKLKKLIENDSNPTVIFYGGEPLNNPKFIMDFIDNVRAKRIGIQTNGTLIRILPLKYWKKINVALLSIDGREEITDKHRGKKIYRVVTENSKLLKSLGIETIARMTVTEDSDIYEEVMHLINLGLYDKIHWQLNVIWTEKWNVERWARENYIPGIKKLVDYFVEKIWEGKIIKIIPILGVISAHYFEGYKGSPCGAGYKSVTVTSDGRVLSCPIAVREKWAELGSVDGFKLMEDPLPEICKNCEYNRYCGGRCLYASKEKYWGEEGFNIVDNITKEYLKIVLSIIPEIDNAIRKGSIKLSDLKYDPTLDSTEVIP;locus_tag=LOCUS_03510;note=WP_010978607.1 radical SAM/SPASM domain-containing protein (Sulfurisphaera tokodaii) [pid:69.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.1e-154],MGA_352
sequence1	MetaGeneAnnotator	CDS	313378	313800	.	+	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIELVRKGLLYVGIGLVLLSVIVGDMFLNGNMTASNLVLNRNQFSTTFTFSEPVAVEVHSEANVNIKGGNVYTVGNNYIAIPTSTELLLSIKNSTSSFISINIFKLPSYIYMIFSLILTGVMLIIISIIIIIYIKFKNF;locus_tag=LOCUS_03520;note=MGA_353
sequence1	MetaGeneAnnotator	CDS	313787	314371	.	-	0	ID=MGA_354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYDERTTAEAIIEIYFNLYAFRESISNYQITYENDWSILKGKEGSYISKEFDTYAILIYPTNAPDDLLNAFSNKISKIDKFREILYKPKYWREYITLHLNGNKIFTGNDLNLFPFNGEDIVNDLLNSEGIEFITLDDELRIATHLERPINSDTLSRALNKLLVSLSLYYRIKEAQEDIALKLTKEILDSIRNS;locus_tag=LOCUS_03530;note=MGA_354
sequence1	MetaGeneAnnotator	CDS	314496	315785	.	-	0	ID=MGA_355;product=RNA-guided endonuclease TnpB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979067.1;translation=MSKNLRLKSFQPQEEYVYLTYSLKNDKKEETKILLENYRALLQKALDYLWEKTRIERKEVKKGKKIFAKVKITLPKKKEVYKKLRDELEKVNNLASHYVDKAINDAYSVLKSWKRRAEKGQASLRKPTLRKVYVRVKSTLRKVDGEDVRITVRPHEYVTFSWSHKWFSRRVEGLELCEPIIKEDRVHLPFRYRLPWFTPIDFLSIDSNLYTLDAYDGEKFVTFSLKELYSLKYGMELKRSKIQSFASKHGRKGKVLMNKYSHRERNRVLDYVHKFVNKLLEMYPLTLIAVEKLDKQSMFQDADDKLSKKVSRTVWRTIHRVLKYKAPLYGSFVKEVDPHLTSKSCPRCGWVSRKVGRTFRCERCGFTLDRQLNASLNIYLKMCGFPRIRDIPRVWVGVIPLKGRRGNGFPRDSGEAQGLRIDMKYYEIL;locus_tag=LOCUS_03540;note=WP_010979067.1 RNA-guided endonuclease TnpB family protein (Sulfurisphaera tokodaii) [pid:80.9%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.3e-207],MGA_355
sequence1	MetaGeneAnnotator	CDS	315763	316338	.	-	0	ID=MGA_356;product=IS607-like element ISSto11 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742643.1;translation=MLRPKEVCQRLGISYATLREYVKKGYIQPVVLQSEKWRFREEDVERLMGIVRKRKVILYARVSSNTQKDDLINQVKYLEENVKDYDQVITDVGSSLNMKRKGFLKLLRMILNNEVSKIVIAYPDRLVMFGFEIIEEVCKAHNCELVVLNKEDKTPEQELIEDLISILVSFSEKLQGMRKEKVKKCVEELKA;locus_tag=LOCUS_03550;note=WP_084742643.1 IS607-like element ISSto11 family transposase (Sulfurisphaera tokodaii) [pid:84.8%25%2C q_cov:86.4%25%2C s_cov:90.7%25%2C Eval:5.4e-76],MGA_356
sequence1	MetaGeneAnnotator	CDS	316486	317127	.	-	0	ID=MGA_357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTWISELSFSFHCSETSINFQCNSRSNIIELTWNNNVLILNIFNPNHRVNYSNGRLYDFNNLSVKKDSEAIQEIKLLVNNMINNTQEDVNKTHIIHEIPLSIIEDFLIDMSEFRFEPKKYIDFGLEELKIELNKEFLQDKPGFNTERKLKIYIKNKNGSCFNLIYWLNSNKKEILWASDCNSFVYSDKKRFSSEFRPINKYSIEIKRFIENVF;locus_tag=LOCUS_03560;note=MGA_357
sequence1	MetaGeneAnnotator	CDS	317124	317765	.	-	0	ID=MGA_358;product=TenA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978670.1;translation=MISDKLKENNKELWERYVKHDFVVKMRNGTLNLENFRYYLIQDSKYVKIMLKSLIKASSLGPIEQTSKILTKIFQTRDKGVEVHSFLLDKLGITEKEIEKTGYSLVNYAYTRHLYYYSTIGWAEFLAAWAPCMWGYYEIGKYVIDTSNNIYKKWAEFYASDEYKSRIDIILDSLNSIDYKEELNTIFRDSINFEIMFWESALRNDETKISGIE;locus_tag=LOCUS_03570;note=WP_010978670.1 TenA family protein (Sulfurisphaera tokodaii) [pid:50.5%25%2C q_cov:94.4%25%2C s_cov:97.6%25%2C Eval:5.3e-57],MGA_358
sequence1	MetaGeneAnnotator	CDS	317762	318478	.	-	0	ID=MGA_359;product=SDR family NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980372.1;translation=MRLKNKNILIIGVSKGLGYALAYFLLQEGANVIINSGNEIKLREISEKLKQYGTIDYLQGRISSKENAKEIIEKAFNKLGKLDGLAILIGGYIEDTIENLSGLDEMITNNIKLPLYIVSAAENYLNRNSAIVLVSALRGIDKALPNQLSYSISKAGTAKAVEILASELIKKEIRVVGIAPSWIYGEFEIGRNWKSLRKLGDVKAPPEDFARVIVWLMTEEAEWVNGVVIPVDGGVRLI;locus_tag=LOCUS_03580;note=WP_010980372.1 SDR family NAD(P)-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:64.6%25%2C q_cov:99.6%25%2C s_cov:99.1%25%2C Eval:2.9e-81],MGA_359
sequence1	MetaGeneAnnotator	CDS	318489	320432	.	-	0	ID=MGA_360;product=thioredoxin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846763.1;translation=MNKLANSKSAFLRESINSPINWYEWTEEAFEIAKNENKPIIVDVGASWCHWCHVMDKSYEDPDVVKIINENFIAIKVDRDEKPDLDKSLQNAVFAISGESGWPLTVFMTPDKKVFYGGTYFPPDDFYGRIGFKKLLREILNIWKNERDKINSSSISIIRHFNIEEGNTKLDFDLISSSYSAIVGAYDIEYGGIGNSMKFPHPKIDEFLLAYSAWTGDDLGKKLSLYTLKKMYYGGIFDQVGGGFHRYTVDREWLVPHFEKLLIDNAELILDYFNEYIALNDPEILDALDLSVDFVLRDLYLGEGFANSIDADSDGIEGGYYTWTENEFDEALGQKSKEAKKIFGFYQLGGEVEGRKVLRLAYDMRDISKFLNLSINETISFLRNIRDELLKYRLNSRKMPNIDDNKYTYSNCRIAESLVLSSMVSGKGLNEGLNIVNKLQKISRRLEGGQDGLIEDYASALNASIVAYEVTSQHKYLDMAIDIFNSLQKFRANDIFIDSQGDIPKNDIPNESAISLLLKGMYKLELMGYTNVSNTLKSSISDSDDPSFTAGMLLTLGSYIKGGAHIIIIDEKDGNANKLHKEAILTYYPFKAVEKVSIDDKDYVNSLIRSMMRESEGKSRAFICIGNTCSLPIFEEKDVKRLLITKL;locus_tag=LOCUS_03590;note=WP_052846763.1 thioredoxin domain-containing protein (Sulfurisphaera tokodaii) [pid:54.9%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:5.7e-197],MGA_360
sequence1	MetaGeneAnnotator	CDS	320476	321111	.	-	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980370.1;translation=MRYLLFIILIVTLLSTLACSSTIHVRILNKGITVIVEYGSTILSLNKNSTVQVPNSSVTILAYTNDIGYNIEINNNESSVVQINPNNVSWLNVSLVPNYVYLNLSIDGPGEIIAKLYNGSIIVINKSTELKLIEGTTLTLQPKASKGYTFDSWSNLSNYPRYWIIAYGNTSVTAIFSKYKGTPITIPKYEFAGLAFFGILGAIYLINKRNK;locus_tag=LOCUS_03600;note=WP_010980370.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:26.3%25%2C q_cov:98.6%25%2C s_cov:96.2%25%2C Eval:1.1e-09],MGA_361
sequence1	MetaGeneAnnotator	CDS	321360	322178	.	+	0	ID=MGA_362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979743.1;translation=MINQRSWSKIPWDNETWVDSGGYQIMKGEKISLEEVVKKYQILDGDQFMSLDIPSFCGQVNEINFKNFEYLYEKINVIPVIHAYDIDNIDKALDFYKRYSDKIAYGGIVPPSLKGGRKIVTLIYHYLRRKVKYVHVLGAGSPFMRRIFFNADSVDTATYRIKAMNGLVLIPGKGERYVGERKISWKAKRATEEEIDRLYDFLDKTRFPYSIDLQNWKNRAIINAWTLLYSEYEDENYNISYSVEVSKMGEDYLRSSIEDICKKAQKIELSSA;locus_tag=LOCUS_03610;note=WP_010979743.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:64.8%25%2C q_cov:96.0%25%2C s_cov:90.1%25%2C Eval:1.0e-99],MGA_362
sequence1	MetaGeneAnnotator	CDS	322159	322689	.	+	0	ID=MGA_363;product=DUF5591 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979744.1;translation=MNCPPLKGERVIKEKGKDPFKHPVVMEWHQFFIKNWKSDKEIAFLLPCTSVKPYNRSPTHKLAYSIAKKFNLNLQFYSVSEPMLLVPREYENCYPFNSYDYPPNMMTEEEKQEFINLLSVALQKIAEFHNRIIAVLPKHHYTIVEKAEQKANIKIELHPYGKLAFKTISDTLKSIK;locus_tag=LOCUS_03620;note=WP_010979744.1 DUF5591 domain-containing protein (Sulfurisphaera tokodaii) [pid:60.2%25%2C q_cov:100.0%25%2C s_cov:95.7%25%2C Eval:1.5e-63],MGA_363
sequence1	MetaGeneAnnotator	CDS	322895	324502	.	+	0	ID=MGA_364;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846406.1;translation=MLEDGKTVGIILQKGEANSLQAVINPFEDITSGQLFILKDNDKLSLGRLDSYEYINEFYDEKIPMLKSLIGDNNSFELLNMNTIIKGSISIIKRYNHNSTPKPGSLVKLLPEINSEISLMEFYGISDISGNIKYGKFVGSDIPLLLDLNSITMHVGIFGETGSGKSYNMRYLIYLLSNIEIKGVKTALPLVIIDANGDYSDFASINYSVVKGGRKWIKRFVIRDPINDSESRLTIDLSLFTPKDLADFIISLKFSGESLNSLQSNLLDFILSRHDIKEYNFLLGTDEGIEKLKSEFQDPSLKEIGFSYGTLRAVLSALEIFRSKMITKYKLVSNTSSINESVLELLWKNKGMLIIDFSADGSPGVDIATKQLIVSYISRLILNYLTKTKYSGSQKLIGFVIEEAQNYIPSNDYPVNASITKDTLVTLATQGRKFGVSLFLVSQRPAFVDKYVLSMLNTFFFHRIYHEDLRYVMSASGGLPESLAKSLPSLDVGYVIVNGLMSELKVPALVRIPWDPRLGSYAGSVERIDRLLIGE;locus_tag=LOCUS_03630;note=WP_052846406.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:67.0%25%2C q_cov:98.7%25%2C s_cov:99.6%25%2C Eval:6.6e-204],MGA_364
sequence1	MetaGeneAnnotator	CDS	324510	327563	.	+	0	ID=MGA_365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978758.1;translation=MTCSYRLSETSADSESIYKIYKCVMSKTKFTDKLRFFRQIGEEIIRIKSSRESPEIIVLLADWGQGKTTFLNIIEEALLEEKRSISKINFLDILRDLQKLNEIELSDISLIDEVESGIDFAVYKEYSSSIREFWIFIKNLANSKGNKIIYLSMTPSAFYKIFSSGGQLGIMFPETYYSFLQRIKVININTPSKLEFYAMLSCLLEFNNKDDSLLRFMDLPFWTISQERRKYARFFNDIICNSFNFDNIMEYLFKSIKDSKWLNEEGETIRESNLLNFEKNMDIDEIEKFHRALLSRILYRDEIIAKLSPYVVKGFTIDYDSWVEIAGPTNIDDFVLTFLPSKTFDDSLKVFVSEELDKIVYEGFNKDDLRKILDRLKIRKIDEAYSLSWNFFESLVNTNVGGLVIDFKSREIKEKAIKFVNENLINPEREIDALYSFIKLLNNNSEEKNISEKIRLISLQLDRKYSVIVANIANESDYTRLMNILNSRERIINGLILLLNDFIKNNDDISKSIAKETDRLSIAFLALDLSTPIKRQLLYLNFMDMHPQLVKLREDIVNLRLGDLRDNISRLLNEMKSKIEVYQLPVAKGNKRPLQSVNWILFNDDIYPDKVRNVFSKVDELVNEKFRIFGSKQFSLEDIESDETLKNDIVQYMAENEIINVSNELIYYDDLPGRIVKNFTKNLSGYLYQRFGNETENMILEYLFYLSKLRDKQQLTNISKIFDTKKQTSLDFLIYMSVVSGEIINYIDRNKVINKIEEQSKEILNNIQNIDLQHGYFITAKKRGAGIRSLKDMRDSLVKFRQSAIRSLEREDFRNYIRLSFVFFTLYSLYKDFIDETEYSENIVTSIKNDMNTKINLINSARKLIGIKDNIDEEKILVEIFNSLESNFENYISDIFISIDILTKNKEMDDLRNFIQIIQKNFNNEYNNLYLIIWEAIKLSLDGIILPFPQSFRNTKLHNDALRLVDIGGSLRRLSNIISEIRKIDPEISKLREEVIRKKEEVNKLVNTLEAKISEFN;locus_tag=LOCUS_03640;note=WP_010978758.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:42.9%25%2C q_cov:99.6%25%2C s_cov:99.9%25%2C Eval:1.5e-229],MGA_365
sequence1	MetaGeneAnnotator	CDS	327550	328221	.	+	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLTELVMELENFKNNSSWDKLRDEKEKLDSILVKLQDANNIIDKLKINIEKCKKSDLEEINLEINYILNILKSNNGDAISIYSAIENAYERSDKCIKKMNEIRSKLIMEYTNKLKEYNNKIFIYFRLFNNILKINIDISTFEISDNLKELENEIKEAENELNILNDRLKEELIKSNLTQEYANLLLEFLNEGEIVISKKNSDKMLKLLEFLLSKNIPIKVRI;locus_tag=LOCUS_03650;note=MGA_366
sequence1	MetaGeneAnnotator	CDS	328218	329282	.	+	0	ID=MGA_367;product=DNA double-strand break repair nuclease NurA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978760.1;translation=MKPEETFKRLEDLAKDETEKLRKISIITDYIVDEITLGNIDLDMEIAEPEVKQHVATSVDGSMYQVDIGDIYLIIARAVKITGIYSQKREIPPEISEDFKIVSDYYGIDTAKKDAILLMLTLETNLLESCNSDIIFIDGPLVDPPVFSDQIYGKNILENLAYRRSEIFNKNYDKVVGIVKRFSQRFMINYLLSSGYSQIVNSMERFFISNLISKLRNKKGIKNNVPIILGWINWDKAFEGSVIDDLESTKIAYLKYREKLNYSIFSAYYQYDVISPISRVDVLGLNYPYNLQNFITAWGASGYSEVTILNKLADDFSEISKNEANAYAKLLFSKIKRDINPSDIVMMRRSPNDL;locus_tag=LOCUS_03660;note=WP_010978760.1 DNA double-strand break repair nuclease NurA (Sulfurisphaera tokodaii) [pid:43.9%25%2C q_cov:92.1%25%2C s_cov:94.2%25%2C Eval:1.3e-66],MGA_367
sequence1	MetaGeneAnnotator	CDS	329339	330478	.	+	0	ID=MGA_368;product=RsmB/NOP family class I SAM-dependent RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978669.1;translation=MEDKISLFTEAIKVILFQKIQPERAFDIAFKKLNFQGDRRSLYLSFLDIIKGFQYVSYINPELSIREKVIRAIDCDYDPLYSFPNWILERLLPILGKDGLRKIYNKFYWIRVNTLKADVDKVVRSLEAQGFTLVQDDFPFLFKVDKWYKISKTEEYKLGHIIPQDKAAVLAVKVLDPKPYETIIEIGAAPGIKTSLIQQFTDNKSRVISIDISSKRLKIQQELMKKWNVKNVELIQADGTRFPAIKGDKIFIDAPCSNSGTINADPSVYMRLTKSELMRLIQLQSRILRESSKLKKEVVYVTCSLFPEEGEKIVEKYQKYLRKINNKEDMYGYLKSKVWLRVMRTYPHIHGSEGFFIAKLCFEEDSESLLGNSYLLHKP;locus_tag=LOCUS_03670;note=WP_010978669.1 RsmB/NOP family class I SAM-dependent RNA methyltransferase (Sulfurisphaera tokodaii) [pid:55.9%25%2C q_cov:96.0%25%2C s_cov:97.6%25%2C Eval:1.6e-110],MGA_368
sequence1	MetaGeneAnnotator	CDS	330411	331646	.	-	0	ID=MGA_369;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978370.1;translation=MIEKYSEIVGEDEIDALFKIAAKLKDFSILHVNSTRAGGGVAEILNRMVPLMRELGLNVDWKVIRGDNDFFKVTKSFHNALQTGQGNLPEGAFETYNKWQEINSAEVPLDYDIIMIHDPQPLGLIDYKKKGKWIWRCHIDISNPYMPVWEFLNKRLSKFNSMIISTPVFARNDVDIPQFIIPPSIDPLSIKNKKIPDSTVRRILYKYELDLDKPLLVQISRFDYAKDPIGAIRAFKMAKKHIDLQMAYVGSPATDDPEGEEVYKKTAAEASGEKDIRLLMLPPYSDLEINAFQTGATIVLQKSIKEGFGLTVSEAMWKKKLVIGGRTGGIPLQIIHNITGYLVDNVEGAAHYIIHSIRNPDIAKRLGENAKEHVRNNFVITRHMREYLMVMAYVTGKNSPEDFQNLPQNKA;locus_tag=LOCUS_03680;EC_number=2.4.-.-;note=WP_010978370.1 glycosyltransferase (Sulfurisphaera tokodaii) [pid:67.2%25%2C q_cov:97.3%25%2C s_cov:99.8%25%2C Eval:3.3e-165],MGA_369
sequence1	MetaGeneAnnotator	CDS	331643	332299	.	-	0	ID=MGA_370;product=DUF5752 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978371.1;translation=MDLDSSGKGIPFRFYSAYYPPTYTKIKANSLQELYDGISKVDKHSIFYHVFHPMLSSHVVPEDLPNDFAFWIRDSLHDENLAELVADISGLEPLTVEDIRNEILELIKSYGINNKSADYPFIFISCVPVVYYLGIEIKTLSDFLDSVASVPARSLFYHFVYKRIVGEKTKNDLSDWLEKNFGLFELSEKLSKVDPQTYTDEEKFRDDILKIIEGELLK;locus_tag=LOCUS_03690;note=WP_010978371.1 DUF5752 family protein (Sulfurisphaera tokodaii) [pid:51.2%25%2C q_cov:93.1%25%2C s_cov:91.8%25%2C Eval:2.0e-62],MGA_370
sequence1	MetaGeneAnnotator	CDS	332361	332726	.	-	0	ID=MGA_371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHSLQHFIILLVSLIIAWIIISFPIWISAKFFNSSASLGKAMIATIAGLIVFYILSAIFGLILPFPIPQIIGFLGILWVFKNIFNVGWGGAFGIAILAAIIIIIINLVIIVLFNISIPFI;locus_tag=LOCUS_03700;note=MGA_371
sequence1	MetaGeneAnnotator	CDS	332757	333113	.	-	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978593.1;translation=MRIAITYDQSQNLKPLDEADIIAVIDEEKKEVEQYENPAHNVSKEAAMGVILDLGVDAIVVKKQFLCPGSYMMSQGRIKYIPTDYKTLKEVLDNLETLEKGIKEELDEEMYAEAFPEE;locus_tag=LOCUS_03710;note=WP_010978593.1 hypothetical protein (Sulfurisphaera) [pid:69.9%25%2C q_cov:95.8%25%2C s_cov:93.3%25%2C Eval:2.6e-38],MGA_372
sequence1	MetaGeneAnnotator	CDS	333262	333441	.	+	0	ID=MGA_373;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERALDLARDILSYFDDAKVELEQGKNGIFDIYLDGNKIFSRYEEKRFPENEEILKKLA;locus_tag=LOCUS_03720;note=WP_052846377.1 Rdx family protein (Sulfurisphaera tokodaii) [pid:69.0%25%2C q_cov:98.3%25%2C s_cov:73.4%25%2C Eval:1.4e-18%2C partial hit],MGA_373
sequence1	MetaGeneAnnotator	CDS	333445	335058	.	-	0	ID=MGA_374;product=cbb3-type cytochrome c oxidase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978659.1;translation=MSTRPNSLVTLLNSIFQLDKDWVSRITMAMIVMSLIWGMLGIIDALMARIQEAAWATSASLVMTSQEYYGGITLHGVRDLFGFAVQLEIAIFIFLSYKLLNFQPRAKWFLNIGFVLFNIAFMLIEGPIVAYPTFNDNFFGASGWYYLSPLGIPTYSNYVLSPLWFIGYELMDIGTYIFVIWLIYHYYLVSKTTKEKLPIFAVFALMTSLMIAIGWSGETAANTWDILAYFGITGLDPIANQIAFWILGHSIVYIVWMPAVASMYYLIPMLANKPIYSEKSARIAALLYLIFSNNVPIHHLYMVDLPVAIKLLQEVLTYAVVVPSMMTFLNLWATVKGANINLNLISVWISISFAGAIAAGVTGIANADLSFDSIIHNSMWVPGHFHAMIFWSIVPAGFATLYYMIPMLTGKMWYSNKIGWIHMVGYMIGTAMIVVGFDDLGLTGLIRRAEIFPLIPTYIIPEVVASAGAVIADVATLGWLGNLVLTLLKGRSANLANASIGEAINTIAMQLEVPKEITSGLDRINTKLNIIKIINKR;locus_tag=LOCUS_03730;note=WP_010978659.1 cbb3-type cytochrome c oxidase subunit I (Sulfurisphaera tokodaii) [pid:61.3%25%2C q_cov:95.0%25%2C s_cov:97.5%25%2C Eval:6.4e-191],MGA_374
sequence1	MetaGeneAnnotator	CDS	335170	337116	.	-	0	ID=MGA_375;product=4Fe-4S binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979927.1;translation=MEFDLVFIVVASLMALFSIYLIYLIKKGINGLGFLVVLYLSGSMVVMFASLPFFFSTQNKITEALVLMSNSFYMIIGLLAILGLVKKKIGNIRNNLTIFVFALLMAVSEALMGETFYSILTKSLGNPLLGVENYYYFGVMATEMLFTLVYFLKTINFPLREYLAILFPIMIFSPVIFPNNIKFVYDTIWVTASLMIVATIIIYETLYRERLKATQETMTSLEMMIIFTLMMAGEFVYFLIGSWYLFDFSMIAGMTWFIFRAISGPSKIKGNYTQNAKWTFSFITLTFIMEWFMGGVLDFATGIFAPSIPGFISSLSLGYVNPLSYYGLGLLFDLISIIGSVTGSVWFLIMMGTEMGMLAVFRIKNLKNTENKIRFILMISAYAIYTIFLPTFSPIASKVQYIPYMWSMGLGTLGPVSPSVLLTGIIGTYAVSAVLSFLFGARQICSVTCTAPLMYQGTFYDSLKTFNRSSKLGRKTLGSKLKPWFKLIVISVWSALLVAAIISYLNEIGILNFTIFGVDTTVFLYSFYFNVLWYIVFISIPFMGSYACLTQGWCSWGTFNQFIGSFGFFKLQVKDPTICLKCKTKDCARACPVGLTDMAGNFIKKGEFKSMKCVGVGDCVEACPYNNIMFHDVRHVIRNLFRRKIKYK;locus_tag=LOCUS_03740;note=WP_010979927.1 4Fe-4S binding protein (Sulfurisphaera tokodaii) [pid:50.8%25%2C q_cov:98.8%25%2C s_cov:99.5%25%2C Eval:1.8e-182],MGA_375
sequence1	MetaGeneAnnotator	CDS	337266	338024	.	+	0	ID=MGA_376;product=enoyl-CoA hydratase/isomerase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978591.1;translation=MYVNLEDHNNYCVISFNTGGKYNLVNIKFMIEFLDTLAEIEKNRSYRFIMIHGENGNFGAGADIRELLKASEDKEFAISFFNYMKAMYQKLLNINKITIAQVNGVAYGASLEMLLLMDFVIAEESSKFAAPGGKIGVFPPVLVSLGPYIIGLRNVKRLAMLGEEIDSKEAKNIGLIDSYGDIKEETNSLVSKLVSFSPTALLSMKRLVLSNMSHNLDDAFESIISQVTSDNAKEGISSFLAKIKPSWTNFQF;locus_tag=LOCUS_03750;note=WP_010978591.1 enoyl-CoA hydratase/isomerase family protein (Sulfurisphaera tokodaii) [pid:49.2%25%2C q_cov:93.3%25%2C s_cov:93.3%25%2C Eval:2.8e-61],MGA_376
sequence1	MetaGeneAnnotator	CDS	338027	339019	.	-	0	ID=MGA_377;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978590.1;translation=MKNIFLTTKAIIKDNLNSKETWFFIIFFPIFLTLIFALGFGAGTQVHEFVIINNSQVGKFINGSQLFTALYGNNEKEALLHNYIYVQIIKDNVSIYYPQDDKYLVPSLQALINQYYTNNSQIHYSSVLKYGNSYYEYIISGMIGVVALSNGIFGVTGVASGYYRDRLVDRLAASPLKSYEWVTSLVIYEIIITLISITPILALSLLFGFLPLIGLSFIGFLIISTLMFSGLGAIIFGLTPKDKLFVSNVAANVVTIPLIFLSTAFFSIYAFPSSLRVVVQYQPVSVIDSIIRDIIVYNVPPNPFYIIYVILGTLIFLALGSRLMKLREFE;locus_tag=LOCUS_03760;note=WP_010978590.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:41.7%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:4.1e-64],MGA_377
sequence1	MetaGeneAnnotator	CDS	339019	339741	.	-	0	ID=MGA_378;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846901.1;translation=MMSIEVEDLWKIYKNRVEALRGISFSVNSGEVFSLLGPNGAGKTTTVKILSCVLKPTKGKVSVLGFNIPEMCNEVRKIVGIVPQEFQGFSDLTVEDNIKYFSSLYDKKSDIDELIDILDLKKYVKTKFKQLSGGYKRRVAIACALAGDPKIVYLDEPTVGLDPKSRRNLWDIVRDLKRSGITVLLTTHYLDEAEILSDKVAVIYDGRIVRIGTPKELMSEFNKSNLEEAYLALMESLGEQ;locus_tag=LOCUS_03770;note=WP_052846901.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:67.1%25%2C q_cov:98.8%25%2C s_cov:97.9%25%2C Eval:9.2e-91],MGA_378
sequence1	MetaGeneAnnotator	CDS	339773	340720	.	+	0	ID=MGA_379;product=AIR synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846376.1;translation=MSFGKISPEQFLSRIKSGNCIICPALGEDDAVLKLNKKYLVIHSDPITESGLDSGFLSVVVACNDVNMKGTACKWVLTTVLLSREDNLNNIIDGINEACSLIGCNVVGGHTEVVDINRDIVVTTALGETDKIMEINSVKDGDYVVLIGDIGIEGSWILATQFQSLLRSKGVSDEVIEAAKAFKKELIVQSKALAISRLVKFMHDTTDGGLLQALFELAKRSNMTVSIREDSIPLRREVHEVTAALNIDPLKFISSGAFIAITDNPKEILSKVNGYIIGKLVKGEPIVKTEKRIINDNVKEELARIENSYNGWWKR;locus_tag=LOCUS_03780;note=WP_052846376.1 AIR synthase family protein (Sulfurisphaera tokodaii) [pid:54.3%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:1.4e-90],MGA_379
sequence1	MetaGeneAnnotator	CDS	340686	341180	.	+	0	ID=MGA_380;product=NTP transferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846375.1;translation=MKIVIMAGGKGSRLSPRKPLLEVCSIPMIARVYNVAEKISTDIYIATIKNHVIEKELILRFPNIIYTSGKGYENDVLEAVTTIGFPVLVLPSDIPFLKIDYVKPLFTCKSSICTLLSRGKFVGISLWNSDNLNDFSSIESNVDIINVNTKEDLSIANKLCYENI;locus_tag=LOCUS_03790;note=WP_052846375.1 NTP transferase domain-containing protein (Sulfurisphaera tokodaii) [pid:45.6%25%2C q_cov:97.6%25%2C s_cov:96.3%25%2C Eval:1.1e-35],MGA_380
sequence1	MetaGeneAnnotator	CDS	341180	341914	.	+	0	ID=MGA_381;product=DUF1614 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978586.1;translation=MRILKRIVIFSPFRGMLLPVYILLGLLLMVVALGYFKDLLVFVGISKKLSYFFAFELSFLSLALSPVNVVLKEVRKKDLSQSYDVVYVFGIPFYVPKLSLSYTTTLIAFNIGGAIIPVLLSLTLLFYLVSKIFLILINIILITIISKYFSKVIPGVGVVMHPLIPPIFSTIISYILFLHQPILVPVSAYIGSVFGTLIGADLLNLRKIIEASPQIVSIGGMGSFDGIFLSGLFSVVFGELLISI;locus_tag=LOCUS_03800;note=WP_010978586.1 DUF1614 domain-containing protein (Sulfurisphaera) [pid:54.1%25%2C q_cov:98.4%25%2C s_cov:99.2%25%2C Eval:4.6e-69],MGA_381
sequence1	MetaGeneAnnotator	CDS	341900	342157	.	-	0	ID=MGA_382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIYVFTTPPRSISSEDYELFILDRIGNKFNLGELLDYDSYSEGNIQYLIGQFTGGKVMVKFKEQGEAVALIKIYKKGRISYRY;locus_tag=LOCUS_03810;note=MGA_382
sequence1	MetaGeneAnnotator	CDS	342211	342762	.	+	0	ID=MGA_383;product=thiamine-phosphate synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980290.1;translation=MVEQTERDQVLLKLKEAADYFVSNPKSYLLIPEIRVNIVYALPDAKDEKDVAAIPGRITSAFSRAIYCMPPAFGASDHVARVVLTAMKYNKDRRSAIDIRYYDNIVKKLDDVYIFDRRQEPLESREKEGHTMNFMVDTAFRKKGQIPTYIVDLGDIGKEPTIFILGNDPLSVVKKSLELLSFI;locus_tag=LOCUS_03820;note=WP_010980290.1 thiamine-phosphate synthase family protein (Sulfurisphaera tokodaii) [pid:63.3%25%2C q_cov:97.3%25%2C s_cov:98.4%25%2C Eval:2.7e-61],MGA_383
sequence1	MetaGeneAnnotator	CDS	342745	343188	.	-	0	ID=MGA_384;product=PadR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980291.1;translation=MNLERLKKGKLKLLILECLNEKPMHAYEIMKTIEKKFGGIYKPSPGSLYPVLKGLMSQNLIGVEEKDSKKIYYITEDGKKEYLRIKEKVNTFFATHSEYRRLVSELINLGFFLYNYKDILDEEKYKEISEILNNCKKEIENRLNERK;locus_tag=LOCUS_03830;note=WP_010980291.1 PadR family transcriptional regulator (Sulfurisphaera tokodaii) [pid:43.4%25%2C q_cov:87.1%25%2C s_cov:85.4%25%2C Eval:1.4e-27],MGA_384
sequence1	MetaGeneAnnotator	CDS	343405	344478	.	+	0	ID=MGA_385;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980292.1;translation=MAKVVVIGGGNAGSIVANRLQNKGIDVTVIEPSDLHLYQPGIIDVAFGEEREEEIIRPVNQIIKSNIIKDKATKVDIENHSVYTSRGLKIEYDYLVIAAGAENKKIEGFPQWHSIDGIGGLKEQINKFDGKKIVVGYSGVIKCPAAPFEFAFFLKQKFPKAEVTLVNPVSQPPDIQKPMAELLGKRSKELGINVIRGFKIKDIDKDSKIIYSEDGQNVSYDMALLDTPIRAGQEFENLTDKTGFIPVDKYTLKYKDYDNVFAVGDITNIMTPPKTGAIAHFGAKIIADNIYADVNGYEKKKFDGSIFCAVYGGFGKGLLIRTNYEKSYAAGPFSIFYIVKKSFIRLYWNTLTGNFII;locus_tag=LOCUS_03840;note=WP_010980292.1 FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:57.6%25%2C q_cov:98.9%25%2C s_cov:94.2%25%2C Eval:2.7e-120],MGA_385
sequence1	MetaGeneAnnotator	CDS	344520	344963	.	-	0	ID=MGA_386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846765.1;translation=MSELDFLLNRKKSIENNEEKREKKEDAQNSIEKNNTEKKENTLEYAKNSQENEEKREERIIVKEDTRNNTKESRDPIEDSMEKFLDKDPKIGVWSYPAFLVLQYLYNTKPGFRMSKVAKEALELGLKQIYPELFKIAEKVSEEKKNR;locus_tag=LOCUS_03850;note=WP_052846765.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:44.8%25%2C q_cov:97.3%25%2C s_cov:96.5%25%2C Eval:1.9e-27],MGA_386
sequence1	MetaGeneAnnotator	CDS	344960	345619	.	-	0	ID=MGA_387;product=ParA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980379.1;translation=MIITVINQKGGVGKTTTSVNLAYVVSKTKNVGLLDIDPEGGTTTSFGMKRERKELPLGSKSVNIFNVEVFPAHLGLLKLELNGDINEIVNIIKEISKNFDILVIDTPPNLGTLAVSSMLAADKIISPVAPQPLALEAIKNLDSRLQSIGKIAIAYTNFSKKATNLDLKNVKFVNIAVPQSRLFIDASRLGVPASRYEEIRTKRLKISKYFEELAKVTLE;locus_tag=LOCUS_03860;note=WP_010980379.1 ParA family protein (Sulfurisphaera) [pid:69.5%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:3.5e-83],MGA_387
sequence1	MetaGeneAnnotator	CDS	346027	346500	.	+	0	ID=MGA_388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980383.1;translation=MSVEEYFLKYNNEKVFVILLGSNSSRSYFYYPKGDALFIVNDHIELKEIDQIIGSSLAGMKLSNPTDSWDKIKSREVKWYILGKEIISDNIYIVLESEDQFKLIENASPNRLKYYVLHDQNPFDYKDWCCVLIASTKDIEVPSTFKKISIREILSNS;locus_tag=LOCUS_03870;note=WP_010980383.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:48.7%25%2C q_cov:95.5%25%2C s_cov:98.7%25%2C Eval:6.2e-41],MGA_388
sequence1	MetaGeneAnnotator	CDS	346532	347455	.	+	0	ID=MGA_389;product=VIT1/CCC1 transporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979583.1;translation=MDKLVEENYLDEVFGYQLYSNLAIKENNPKVREILEELAEGEKRHSEFWRMIASKKNVSLKSLTFWLKFKLLLLLFLRKIIGIALTLKIAEYGEISDAEKYDKLSRMDIFSDTEKEEINKIKMEELYHEDLLVQTQINIDKIRDAIYAISDGLIEVLAGVSGLSGVFNTPILVALGGLIIGISGTISMSIGAYLSSQSETDIEKSSLRKLGKTSQDSQKPKESVTTTAVSYIIGALIPVLPFLIGLSGIVGIIVAYAATGLATFVVGNIIGLLSNVNPTKKGLQMTVLAIAAALVTHAIGSLFHIIE;locus_tag=LOCUS_03880;note=WP_010979583.1 VIT1/CCC1 transporter family protein (Sulfurisphaera tokodaii) [pid:35.2%25%2C q_cov:96.4%25%2C s_cov:96.8%25%2C Eval:5.0e-53],MGA_389
sequence1	MetaGeneAnnotator	CDS	347494	347964	.	+	0	ID=MGA_390;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429739.1;translation=MKNVKIPEVIYSILLQKANDERKNLEDVIVDLLISSLNGDKSRLYTQLSREYLQLATKLEKEGKLSESGEAYWKSLSYILRKIGSELKMDIENYHDYFSLIEYLSYRTDNKELIVDFLNSEKLHGEFHPRSQNVEEFKIRVNHLKNLLNILENINI;locus_tag=LOCUS_03890;note=WP_198429739.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:36.9%25%2C q_cov:89.7%25%2C s_cov:89.8%25%2C Eval:5.9e-28],MGA_390
sequence1	MetaGeneAnnotator	CDS	347961	348767	.	-	0	ID=MGA_391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980387.1;translation=MEASSLSKLAKNTAITKIIDIAKKYCEENHLVPILSFYLEDNLLTSLVKDLEPILKNIFKQYGYDRSIFIKKAEEVLDNAKREDIIEFPYYAIPISEESEITFVENNLVPAKAIVNKGTFRFIFMPYPSYSSLNEAISKQGEDDVLVTFENGKIVNIEKKRSIFMESKSVDKVVEADKVIINLTPTLDTFLIPSIIAMNVKLLENKVIIKKNNESLSYEILSGKVDSNEVIKGNTLDSTTKASIYYDFKKKTIIQENIIDGILNKMPI;locus_tag=LOCUS_03900;note=WP_010980387.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:40.2%25%2C q_cov:98.1%25%2C s_cov:98.5%25%2C Eval:1.5e-55],MGA_391
sequence1	MetaGeneAnnotator	CDS	348829	349542	.	-	0	ID=MGA_392;product=carbon-nitrogen hydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846768.1;translation=MKIGIVQPSNVKSAIELTETVLSKGAQLVLLPEKWVKTLDEIPLSDFQRLALKYTAYIIPGAIEDGVSVIAPIIDNSGKVRGIAKKLHLFGKEKERLLPGDKSIIFTYSGIKFGISICYDIDFPETIRNMFRKGVEILLVPSKITTEGLKIWKDYIKIRSLENRIAIVNANALDPPNYVGNSFALTPIKKGELVDTLTVAELGEEDGYAIADIDPLSYFHLRLERLKEISDTSVEEI;locus_tag=LOCUS_03910;note=WP_052846768.1 carbon-nitrogen hydrolase family protein (Sulfurisphaera tokodaii) [pid:58.6%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:1.3e-81],MGA_392
sequence1	MetaGeneAnnotator	CDS	349539	350663	.	-	0	ID=MGA_393;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980390.1;translation=MTLTDLAIEPKVVATINSKLGEILNKMKEENQWVVPVIKDKKLIAMLTDKDLLKRRVSLETRVLSLASPTVSLAENDDFGKVVAKFYTSKARAIPLVNSSRELTGLITRETVLKYLLDSKQIPENKAREFMSSPPITLDISESVARARWEMVKNNVTRLPLLAEKKLEGIVTSRDIVNILYSVGEKKKESILTEEERIMAMPVKEIMVSPVITANGNESLIKVTEKILKNKISGLPILEGDYIAGVLSGIDIISSLQSKYQLTLPLEAKLTSDLKKEEIKAEIDGVLERYLSKLDKLTDIINFRVSFKEEANSQDKTIYKVTVNASTKIGNFIANETDWDPIVAVKKAVEKVEERLIRKLKRIENKKGFKREED;locus_tag=LOCUS_03920;note=WP_010980390.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:53.6%25%2C q_cov:96.8%25%2C s_cov:96.5%25%2C Eval:1.2e-113],MGA_393
sequence1	MetaGeneAnnotator	CDS	350810	351775	.	+	0	ID=MGA_394;product=acetoin utilization protein AcuC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846769.1;translation=MAKKLMEERGFFHEIDLVKPSRIDENILLKVHDKNYVDFVKAMSEKGSGYLDSGDTPVFKGIFEAALIRVAGTLKALELLNSYDHAINIGGGFHHAKRNSAEGFCVFNDVALAAKIAEEKYDKIAIVDIDGHHGDGTQEILYADPKTLKISLHMYHRNFFPGSGNMEEIGEGDGKGLTVNIPLPPGTADDAYIEAFNEIAVKKIQKFSPNLIILVEGGDSHFDDPLVELKLTTLGYLQIVKEVHRLAHEYSNGKLLLLGVGGYNYDATARIWTVSTAEIANIKSPDVDVLNDCCYTSSTPFVINKVHDIINKLKEIHGLVN;locus_tag=LOCUS_03930;note=WP_052846769.1 acetoin utilization protein AcuC (Sulfurisphaera tokodaii) [pid:64.5%25%2C q_cov:100.0%25%2C s_cov:91.7%25%2C Eval:3.1e-125],MGA_394
sequence1	MetaGeneAnnotator	CDS	351764	352951	.	-	0	ID=MGA_395;product=formate-dependent phosphoribosylglycinamide formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846770.1;translation=MQIGTPLLEGGNKVLLLGSGELGKEMAVEAQRMGIEVTAVDRYDLAPAMHVANKKYVIDMMNKDAIKSVVRRENPDAVIAEIEAINTDALIDLEDSGFRIIPNANAVKICMNRMDLRQLAAEKVKVPTTNYAFAESPDEIKRICKDIGYPCLIKPEMSSSGHGHALINNEEEVEGAFKESISHARGKSRRVIVEEYVKIDTELTILTYRYIDDSGIVMNTFPAIEHKRPSYYYVESWQPANVNEDILNRSKDYALRVVDALGGIGIYGVEIIVSGNRVLFSEVAPRPHDTGLVTLVSQDINEFQVHIRSALGLPTPEVKLVSPAASHVILAQKEEWAPKYLNIDKALKIPGVQIRLFGKPSSYEKRRMGVVLATGNNVDEAKEKARKASSMILID;locus_tag=LOCUS_03940;gene=purT;EC_number=2.1.2.-;note=WP_052846770.1 formate-dependent phosphoribosylglycinamide formyltransferase (Sulfurisphaera tokodaii) [pid:72.5%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:7.0e-173],MGA_395
sequence1	MetaGeneAnnotator	CDS	353004	353600	.	-	0	ID=MGA_396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156015403.1;translation=MRLFSFSLKDGKLIHDPKGNIVAFVDGELVKIMYKNGEEIDTNKVSFLLSNDDAKLIEKINKIEKINILPALVYPEEERRLRLLQILGTSFEDFIYERLKGKYNIVKHPNIFKSLSKLTNSRNFNIPDFLVNNKVIIEAKVGEYNYHQIETYSRYFKYGIVAIPFSGNCRVPKFWQCVNNCVLDIERLTKRIDFYLNK;locus_tag=LOCUS_03950;note=WP_156015403.1 hypothetical protein (Sulfurisphaera ohwakuensis) [pid:38.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-30],MGA_396
sequence1	MetaGeneAnnotator	CDS	353634	354284	.	+	0	ID=MGA_397;product=phosphatidate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980395.1;translation=MILTLTDVLWGSLLIVWVAVVTLYISKIFAKKFNIYVARKVIHMMGGGVVAILSPFLLSSPLIPILSAYLLTVYLLIHRKEGKMLSWFQDKQDIGEIYFTFSFGTVLLLSWILQPTFWSINSKFLYVALLPLFYMSFGDGVTGIIRNYVYKKRVKGFWGSLGMLIISSSLGFVFLSIPGLISGILATFLERIKKIDDNLTVSLVSFLFLYIVIKFF;locus_tag=LOCUS_03960;note=WP_010980395.1 phosphatidate cytidylyltransferase (Sulfurisphaera tokodaii) [pid:53.5%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:1.0e-66],MGA_397
sequence1	MetaGeneAnnotator	CDS	354252	354887	.	-	0	ID=MGA_398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_069168210.1;translation=MKNRNFIKDLQNVKNKILTRYGIIDIEDIFNKLIEFHKLGFINTGHSTLELITAAFLIKNGFRTTVEYENSGKIMDVYGIKGIDIGIEVETGFVPPNFANSQEEFLRSRTALKIARYSNIAKEFFIAVPSFYIPPVPNMFLKSSFERSEEEIREIMSLIRKYHKSLDVNLSSLKEAKIDGIIVINTTDLRIKIFNQEEFLKLKKLYNDIEK;locus_tag=LOCUS_03970;note=WP_069168210.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:52.7%25%2C q_cov:95.7%25%2C s_cov:97.1%25%2C Eval:1.2e-53],MGA_398
sequence1	MetaGeneAnnotator	CDS	354988	355425	.	+	0	ID=MGA_399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980397.1;translation=MISWLLGSQAPPWYYLRDIFSDYRNAGIYINNKNEIEIIKVSDLDDFFIPTSVLLHAKYLKELKPYYIKLEKYVAFPIFDINAIKILIQGKGWRSIEYYYCDNFIGGWVLYDCTNCEEKQMLHLQVSRDLGTEDLVKAHLKIYNS;locus_tag=LOCUS_03980;note=WP_010980397.1 hypothetical protein (Sulfurisphaera) [pid:56.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-44],MGA_399
sequence1	MetaGeneAnnotator	CDS	355413	356399	.	-	0	ID=MGA_400;product=FAD-binding oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980398.1;translation=MKIVIIGGGIAGSSLYIQLKKKHHEVFVIDPRIRKIFMTLIHSLLLKDSDVIIAKKSLDFYIENKIPLKEFKSITIGKIDAKLIDLWSQVGVKIEKDKIDWLNTEGIVAEHGDRLVYVKRMIDSIPIVKEKAFISQKGNNVEVLVNNKKIDADIFILASGPWNNLLFNVISKSYYCWASLVITRNKILDNIFIYDYEKEFYSRPFLGIGLKTAIVGDGKTIEAKPGTKINVNPLEVITKAQERLGNLRHIYTSGEFCEGTPDMRPAYGRLLDNLFYIGGFNGYGAEIGPGIASLLVDMIENGYENKEYLLDRFRGIKNFELGREAHEL;locus_tag=LOCUS_03990;note=WP_010980398.1 FAD-binding oxidoreductase (Sulfurisphaera tokodaii) [pid:49.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.5e-86],MGA_400
sequence1	MetaGeneAnnotator	CDS	356818	357468	.	+	0	ID=MGA_401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980399.1;translation=MDIVQQKFPYLLKYYDEIGFRVPAVPLDESIILDPFSFNPYGVLRDFSLFFRNVGITGSYLYEGDGNDIDLLSFDENNYKILRLLRQQGITSPLESINSEEVEGLDSRDFLNLKKFRVLEGFFKGIPYTFKIVRCEDFGKVMKMEEFSGTLEIKNAIKPYSIPVKYYTDNFVLTSFRTRYTELEEGKKIFVKGKVLRRDIFNDLDLDIAEEVKILS;locus_tag=LOCUS_04000;note=WP_010980399.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:56.7%25%2C q_cov:99.1%25%2C s_cov:81.3%25%2C Eval:9.7e-62],MGA_401
sequence1	MetaGeneAnnotator	CDS	357511	358047	.	+	0	ID=MGA_402;product=molybdenum cofactor biosynthesis protein MoaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980400.1;translation=MNSHELHRELAPKILNFFVITISTSRYEKMIKKEPVVDESGDAIKQEIITAGHKILGYDLVPDNKIKILKAFLNAVDNENVDVIVSTGGTGYSPSDTTVETLRKIFDREVEGFSDVFRMLSYNDPKVKSAAYLTKASAGIINSKVIYLLPGSPSAVTLAMKELIIPEVSHLVYIVRSK;locus_tag=LOCUS_04010;note=WP_010980400.1 molybdenum cofactor biosynthesis protein MoaB (Sulfurisphaera tokodaii) [pid:73.3%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:1.1e-72],MGA_402
sequence1	MetaGeneAnnotator	CDS	358040	359896	.	-	0	ID=MGA_403;product=4Fe-4S dicluster domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980401.1;translation=MEKFLFSALSPTVKVNPPEVIIKVRKEDDLQNLRDFTPRYEFIRGLQGNKIADLTEFKGVEDLGDKIKVMPGTKWKEIINYNPEIFCIRDFTVGGSVSFNDACFGFNEFGYIKDRVEVEAYIDGQKYEGKYKGGIISAVLINKENKEMCYKYLEGDFLYLANLVKKWFISDFPVFRDVTLIKENNKAKVFVSYTKTREVLVKKFIDNFQDSKPPYEDIRKHKFRYAGYITLVSFEPSVFSRSDLVYFHFRKNEVYYYAFSQNPLVLPNTTVYSDVNDKILFNGCILCGKCTEVCPHKDQRDSSVFSPLGFYVLSSFSKEKEVSNCHMCGKCTNVCPVDLSIVLDLIKSAKFPETKLGININLFSRRVIVLTVISKDLKEFAIKAFKILDSMGIKVGIITLDLSYAELIKSEFNNDIKERIKYIDEIITLTPEEFHFLSSLQNVKIIDVTFIYQLLEKEIKNKLEKMKVHVPCFYDANFKNADKTCSYEFLNEVNNEGYGKKNPNADISLCPLAARRLGIKNILDLFNVQIDYSISDKFYKDFISYLGSLNELFKDLEWYTDIDDNVKNEAFTDLIENFLSSRSKDELLLFYLNNDKYIDLDKNIRDHIVKGIEKLFAT;locus_tag=LOCUS_04020;note=WP_010980401.1 4Fe-4S dicluster domain-containing protein (Sulfurisphaera tokodaii) [pid:38.8%25%2C q_cov:96.4%25%2C s_cov:96.5%25%2C Eval:1.9e-117],MGA_403
sequence1	MetaGeneAnnotator	CDS	359941	362163	.	-	0	ID=MGA_404;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846772.1;translation=MDILENVKERLNLFNAEITHIYTETAFEPDLGSTVDNLNINEKIKKSLKNIGIEKVYKYQEEAINKILDRRNILIISGTGTGKTEAFLIPILNFAINGEKSILIYPTKALARDQLNRICKLIKNLPIRVGVIDGDTPRIERNRIYEDPPEILITNPDMLHFGLAMSRRFSETIRQADHFVFDEIHVYEGVLGSHLRMIIDRLRDINNKIHIISSSATIGASPYMFEAMFGEQGEIIYGSSRRKGMAFHVLINSNGVSRWTLSAYLAAILIKLGLKILIFTDSQQMAEVTAKIAQRFGADLEVHRAGILPEERLKVEQGLRQGKINGVVATPTLELGIDIGNIDAVIMAENPPSYPKYLQRAGRAGRRNVAGYVFTILSDDPIDSYFLRKPKEFFARKLTPIPFDTSNIEVVKVHTAAYILEKYMVKIKELPNLWQKACKELEKNNVIRIVNGIAYATKETRKFVLESSLRSSGPIVKIYNDDKKIGERELPIALYDLYPNAVYIASKRNYIVDNLDLKKMIATVKKTSDNLPYYTKPLYSVDLKEFNEIENRNVFGLPVKYGEVMVKVSVEGYTVHDFYSKKDKSSAEFKFENPISYSYRTKGLIIKHPILDEFTLMDGMEAYHATEHVLISAGRVVAGASLTDLSGISYPSGHVVIYDSIVGGSGVSKLLYDRLEDAYEVALDIVGKCDCEDGCPKCIYDPYCGNNNKVLSRRKSLRLISEVMKGTRSKDEEFWGESIR;locus_tag=LOCUS_04030;note=WP_052846772.1 DEAD/DEAH box helicase (Sulfurisphaera tokodaii) [pid:63.1%25%2C q_cov:99.9%25%2C s_cov:99.9%25%2C Eval:2.7e-283],MGA_404
sequence1	MetaGeneAnnotator	CDS	362198	362404	.	+	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEILDNEGDLSTFLEAQEKLRTQKLEIVIPERLLEESPYISKKYGYSIIDGEDLPNGYIKLTLVYRR;locus_tag=LOCUS_04040;note=MGA_405
sequence1	MetaGeneAnnotator	CDS	362442	363830	.	+	0	ID=MGA_406;product=7-cyano-7-deazaguanine synthase QueC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980403.1;translation=MCSVSGVIIFDNSNFDKIEKKFAQIMKKAEDRGRDSFGIVAIEKDGNVRSIRSLGKPSDYEEKLYGIFNENTNVVIANNRAEPTTEYINKKSEKDIQPFEGGRYVVSHNGIIANDNEIERKYGIHRQTKIDSAIIPPFLDKLWDGSLESLRKSLSEIKGSFAFILGDKKRPDRIFAVQNFKPIYMAYDFSLKAAFFSSLDDYFDVKPFDPVNVKKLDPYSIVEITKDMKINQIPLISKLSKRALVIASGGLDSTVAATKLIRDGYDVTLIHFNYNHKAEEKEREAVRKISEYLNVKLIEMDTNIFKIIGHTSLLKNGGEIIKDRMGEEGAEFAHEWVPARNSIFMTIALGIAEAEGYDAVATGINLEESGAYPDNEMEFIRLFDKLSPYVTGPNKKIDILMPVGNLVKHEIVKLGVEIGAPLHLTWSCYEGGNKHCGRCGPCYMRKTAFKINGLKDPVEYES;locus_tag=LOCUS_04050;gene=queC;EC_number=6.3.4.20;note=WP_010980403.1 7-cyano-7-deazaguanine synthase QueC (Sulfurisphaera tokodaii) [pid:71.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-203],MGA_406
sequence1	MetaGeneAnnotator	CDS	363827	364468	.	-	0	ID=MGA_407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429719.1;translation=MQLFYLTKLLSLSMSGMNKAELLFEAYKERKTIEPFPLTQEEAKDIGKEFSNMLVSYEGFGGYKIAKGGVIGILTKKMITFDNVELWFPTHKLEVEIIALVKNGRLEKTFLGLELPATRFNTWDLSQEYIIADDAFAGRLYVGKEIEPPFGIFKLSINDKFTAEGGPSYSIKDLIKSDMNGYISLGAFIGPLKISKGDKIKVEGKKTINVKLI;locus_tag=LOCUS_04060;note=WP_198429719.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:36.4%25%2C q_cov:90.6%25%2C s_cov:97.0%25%2C Eval:2.9e-26],MGA_407
sequence1	MetaGeneAnnotator	CDS	364572	366185	.	+	0	ID=MGA_408;product=molybdopterin-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846383.1;translation=MDIKRNSINRIEYPIIDGKEVSLHTAIEQIARVIKGVEDKSKILHIDYDGNQGLLTWYYPSRLWNVIGASTTDYSICSLEGHEAIKQIYGTSFGALPEDFLKFNTVVFWGSESAISFIHGWKILKNKFKVTIDVRLSETARRSDKYYIIKPGSDVFLAIGILKFLLKNKKIENIKNLDLYNVSDISQITGISEDKIEELANFYSETKPLTIIGFALGRSLNGGNAISTISLIPYLLGIQHGFFYSNSQGWGIDFDYLRGLHLARPSKIVSMAEIGDKIDEFQVIFVWNSNPIVSLPGGNKIVEKVREGKVILIVHDPFWSETAKIANIVIPASTFLEKEDVVYSYWHQYLVYNEPILPKKGITEIEFINLLSKELNIQHSLLEESPWNAVDYSLRKTGITVDLLKKEKITKITPKITYNVKVTIPHPNELIKPSGDFIVYSAHPNYTNSQFKEVYGAKTAVIYNSSFEGYGYITSTSGKLKVRFKKDNKIPSGVYFVFKNSLLTDEGISINSIIPSNKGKYGGPLLNVNLKIDFLKN;locus_tag=LOCUS_04070;note=WP_052846383.1 molybdopterin-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:56.9%25%2C q_cov:98.9%25%2C s_cov:93.3%25%2C Eval:1.1e-177],MGA_408
sequence1	MetaGeneAnnotator	CDS	366256	367476	.	+	0	ID=MGA_409;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846588.1;translation=MFSALFFGIVNGPLSTLVSLEILNLGGNAIDVAYAITSANVVLIPASMFWGIIADRYHLRNIIILGFSLSTLFLSLMYFTYSIPLLTLSYSIFTFFSVAYSTPMNLLVMETSEKSKWAYNFSRLSMLSSIGSLIGLILSTLLVAIIRIFQVYLFLTIFGIMALGSSVLYTPKTIIGIERTSMLHHKESFLTRLKMIPLIFLHFPSVHSFKMFKLSRLLRKPINYLPLLYLAIFIFYISSGLFNTVYPVSLYQGNLSKSEVLGIITEGMLAQIVTFHFTGKLLEKIDEREAASKALLLRGGSYIILGIVTLFPSLLLGAGAIFYPLAAGLAFSTYYSASNTLIFKAVGGRRQGTTLGVYSTLVGIAMFIGSLLSGYISHYYGFITDFIIAGTLLFISSYIFRYIEEG;locus_tag=LOCUS_04080;note=WP_052846588.1 MFS transporter (Sulfurisphaera tokodaii) [pid:54.4%25%2C q_cov:100.0%25%2C s_cov:98.1%25%2C Eval:1.6e-119],MGA_409
sequence1	MetaGeneAnnotator	CDS	367477	367971	.	-	0	ID=MGA_410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHTLLKIGIIIAIVGLVLVFVLSPLLAYQQANYISSQIIKNSHEVALNPGESTNIYFNGKNNNSMFVLIYNTSSYLPLRVSGLPSNVSESNIENHTYIYYIRPLEGTMQITNNQTTSQNLYYSYGYISALDITLIELASILGLVTIFVGIAVGVIGFIRGRKKT;locus_tag=LOCUS_04090;note=MGA_410
sequence1	MetaGeneAnnotator	CDS	368102	368614	.	-	0	ID=MGA_411;product=TRASH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979777.1;translation=MSEETNEIKLSDIEFRVLQILKEDARMPAAKIAKQLGLSRVTVSRIINSLRKKGVKFTIEAKDKELVAFVVTDSCKSTECYKTISGDFISLIRSNTLNEIENELEKIKPKNVILARSLGKRFVRTSLYCDYCGGKIESEPIIYKRGKKIYYACCNACLNGLKKKLTKLKD;locus_tag=LOCUS_04100;note=WP_010979777.1 TRASH domain-containing protein (Sulfurisphaera tokodaii) [pid:48.0%25%2C q_cov:87.6%25%2C s_cov:88.8%25%2C Eval:1.4e-34],MGA_411
sequence1	MetaGeneAnnotator	CDS	368711	368869	.	+	0	ID=MGA_412;product=YHS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429811.1;translation=MIDPVCGMEVDETSIYKTMYKGKLYYFCSNGCKKAFEKDPEKYLREGPKGMP;locus_tag=LOCUS_04110;note=WP_198429811.1 YHS domain-containing protein (Sulfurisphaera tokodaii) [pid:88.5%25%2C q_cov:100.0%25%2C s_cov:88.1%25%2C Eval:9.1e-23],MGA_412
sequence1	MetaGeneAnnotator	CDS	368924	369184	.	-	0	ID=MGA_413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVSKGIYEGYKVLKQITGEAYLFVNEDQYFLVGIEKASCKDKSKIIDKVLDKVYNYGDEFFISVIITEKENFEKIKKELGKQIIP;locus_tag=LOCUS_04120;note=MGA_413
sequence1	MetaGeneAnnotator	CDS	369237	369716	.	-	0	ID=MGA_414;product=DUF2299 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979674.1;translation=MDLDNEIKNWIQSLGLSIFTPPQAKEFFHISVTPPQGGPVVDIVRPLENSNFYIIAMGVGVHPTHQNALKELKDSDRKKFINEIKYDILKMGLDVIFLPMGQEVPQIIQITRVVIAENLTANEFMNSFYFVRNAGMLVIFKFTDTFGNIPQGQTSTKYL;locus_tag=LOCUS_04130;note=WP_010979674.1 DUF2299 domain-containing protein (Sulfurisphaera tokodaii) [pid:44.9%25%2C q_cov:98.1%25%2C s_cov:98.7%25%2C Eval:3.5e-39],MGA_414
sequence1	MetaGeneAnnotator	CDS	369741	370403	.	-	0	ID=MGA_415;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979677.1;translation=MSGDDPFPCKTRILIKIKNAQVIYNLVEEKELTKEAYEHIVHRRKPINIHVTEFPAGDIGCGSGQNCSAIKGYVICLDIAEKQLLESRKKGCENLVQGDMEFLPFRNESFRTLIYIASIHHLRSPENAIIEGKRVLKNNGIIIITVWLAQFRYLFKRHIYKKTVINGSPYYRFYRLFYPWELLYLCKKYGFGIELYRVYRVKSLFPNNSLCIGRKIDHKI;locus_tag=LOCUS_04140;note=WP_010979677.1 class I SAM-dependent methyltransferase (Sulfurisphaera tokodaii) [pid:51.6%25%2C q_cov:85.9%25%2C s_cov:99.0%25%2C Eval:1.0e-50],MGA_415
sequence1	MetaGeneAnnotator	CDS	370360	370935	.	+	0	ID=MGA_416;product=prolyl oligopeptidase family serine peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978655.1;translation=MRILVLHGKGSSPDKIKWLSKPLEEFGEIIVPDFDYEVKEGVEKALKYDFDCIAGHSRGGTIALMSSALTGKCCIAVSAPSDRVEQMKYLSSFPQDSIQYRNYLDLSKISIEDLKKYSPINYADKLHNVLLIHGKNDNIVSPTHSINLCNKIKENGGKCELYLIEMKHSPPMDKYSELAGIIKKWVKTQIY;locus_tag=LOCUS_04150;note=WP_010978655.1 prolyl oligopeptidase family serine peptidase (Sulfurisphaera tokodaii) [pid:61.3%25%2C q_cov:99.5%25%2C s_cov:97.4%25%2C Eval:4.0e-63],MGA_416
sequence1	MetaGeneAnnotator	CDS	370958	372319	.	+	0	ID=MGA_417;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846393.1;translation=MRDSFGWKNVIISGMGVFTDGYNLYSISLSSYFIILSIHLTNLTLGLLVAGSYYGAAISALFFGVVADRIGRKRMYGIDVTLMGIGALMQAFSGNFAELFISRLILGMGIGADYVLSPIIVAENSSARNRGKMMVITFAVMWGLGAVLAAFVEQVTLMLALPASLIWRIVLGFGAIPALSVILLRRRMYETILFLSRIKPDYKEINRIEKEIKNKISINKDTSSFISRLRSSVLLIAMSSILWLLYDVYSSTFAIYGPITIAENLGLTPIMFTYVAQFIAGIPGQLICISLIDKIGRKPLIVVGYSGVAFWLFMYSLLLLDPTLFGVSLVKGELIGFAAELGFSFYLLNYLFSAMGPASIIGSAMVAPELIPTKIRGTGQAINVSIDRLAAALNITAFPTLLLSFGLGAVVGIYASIALISSLITLIFIPETKGKSIEIIEKKEIVDKKETVS;locus_tag=LOCUS_04160;note=WP_052846393.1 MFS transporter (Sulfurisphaera tokodaii) [pid:62.4%25%2C q_cov:96.9%25%2C s_cov:98.2%25%2C Eval:9.5e-153],MGA_417
sequence1	MetaGeneAnnotator	CDS	372372	372701	.	+	0	ID=MGA_418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978987.1;translation=MEPFYFKSYDRIVGVAHDVNELEKEMDRLSKEDIDCLEYHLKEGHIVSWLNYIGERGLAEMLKGVSDPKEALARLREYKALKVIPSYPDYKVGHEYKASFGKRKSKKRF;locus_tag=LOCUS_04170;note=WP_010978987.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:62.2%25%2C q_cov:75.2%25%2C s_cov:82.0%25%2C Eval:2.5e-25],MGA_418
sequence1	MetaGeneAnnotator	CDS	372751	374157	.	+	0	ID=MGA_419;product=tRNA uridine(34) 5-carboxymethylaminomethyl modification radical SAM/GNAT enzyme Elp3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978681.1;translation=MLIRKPVRMLSGVSIVSIMVHPHRCPHGKCIFCPGGVEYDTPQSYYGREPTLMRAIENNYDPYYQVQSRLSQYISNGHVPSKIELIIMGGTFLSTSIDYQDWFVTNALEAMNRFPGRKKEGFVYLEDAQNRNEKSNIRCVGMTIETKPDWGKEWHANQMLRLGATKVELGIQTIYDDVLKINNRGHTVKDSIESTRILKDSGFKVVYHIMLGLPGSSPDKDLNTLKEIFSNPDFRPDMLKIYPTLVVESAPLVELWKRGKYTPYDTETLVDIISEAYRYLPRWVRVMRIQRDIPANIILAGNKKGNLRELVEKEVERKGIKNNDIRYREVGLAWLHRGVIPSTPRLIKEKYEASGGVEIFISFEDDKGILIGYLRLRYPNNPHREEIKGSTIVRELHVYGIEVPVGMWDEIGFQHKGYGSALLEEAEKISAEEFDVKKISVLSGIGVREYYRNKGYVKEGPYMVKYLN;locus_tag=LOCUS_04180;note=WP_010978681.1 tRNA uridine(34) 5-carboxymethylaminomethyl modification radical SAM/GNAT enzyme Elp3 (Sulfurisphaera tokodaii) [pid:76.1%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:3.4e-217],MGA_419
sequence1	MetaGeneAnnotator	CDS	374150	375532	.	-	0	ID=MGA_420;product=tRNA 4-thiouridine(8) synthase ThiI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762723.1;translation=MKVLIVRYDEIGIKKPGTRNKMENTLISNLLASAKFYNCGKTEVKKQQGRIFLYGNVECLSNSSIKVFGVKSVSIAEELHFENINDIAQKAVEIWADKVIRKKFAVIVRRVGKHNFSSYDVARLVGEVLLKHDGKVDLDNPEIKLYIEIRDYIAYFYDNIIEGPGGLPLGSEGIAISLISGGIDSPVSSWMIMKRGVAVDFLYCNLGSEITKNAVLNVIYKLVEWSQGYTPKIFVADCSAITKTIMTQTDKKIWPLVFKRALYKIAEKISEKMGYEAIVTGESLGQVSTQTLPAIKTLNYQISLPMLRPLVGFDKDEITKIARKIGTYEYSEKVPEYCSIFSFHPKIKISYNEIIEIDKKLDNAIQSVVNSVEKVDLNTNKSININDLIIDKIPENSIIINLTNSAECAKGIQLSPKNVIEFIFKTGIDKNYIFCTNGDKFNIDLVSSLRKMGIKAYIIN;locus_tag=LOCUS_04190;gene=thiI;EC_number=2.8.1.4;note=WP_011762723.1 tRNA 4-thiouridine(8) synthase ThiI (Pyrobaculum islandicum) [pid:43.1%25%2C q_cov:99.1%25%2C s_cov:98.3%25%2C Eval:2.3e-106],MGA_420
sequence1	MetaGeneAnnotator	CDS	375615	376499	.	+	0	ID=MGA_421;product=bifunctional 2-dehydro-3-deoxy-phosphogluconate/2-dehydro-3-deoxy-6-phosphogalactonate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846807.1;translation=MEIIVPNVTPFTKDNRIDKDRLKEHLENLIEKGIDIIFINGTTGMGPSLSAEEKKEILNISYDVTGKIIFQLGGLNLDDTLNLLQYSRDFDIIGVASYSPYYYPQLPSKWVIRYFKTLVEKSPHPVYVYNFPAATGFDMNYELMKQIDGLAGLKDTNDNFVHSLQYKRFLNIKVYNGSDYLTVQSLTYLDGTVTAGGNYMPELLSLQKKLVSEGKINDAFEVQKTYYKFLDIARKYGQMSAHYILVKELQGYDVGYPREPLYPLTEDEIKQLEADVKEIKNEYTFILDKYGITS;locus_tag=LOCUS_04200;EC_number=4.1.2.55;note=WP_052846807.1 bifunctional 2-dehydro-3-deoxy-phosphogluconate/2-dehydro-3-deoxy-6-phosphogalactonate aldolase (Sulfurisphaera tokodaii) [pid:50.4%25%2C q_cov:95.9%25%2C s_cov:97.9%25%2C Eval:1.4e-84],MGA_421
sequence1	MetaGeneAnnotator	CDS	376489	376860	.	-	0	ID=MGA_422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSINLPDIVQISKLNEKEREKTMSSLFSELLKMPDKQKLEILKNLLKEMGDRASDEEYINLCKTNIKVASSLPEDTLSAFLKLRMQAVSELPKNYQDRDQKLMMNALNTFSDDIKNKIMNAMK;locus_tag=LOCUS_04210;note=MGA_422
sequence1	MetaGeneAnnotator	CDS	377200	378507	.	+	0	ID=MGA_423;product=hydrogenase 4 subunit F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000122538.1;translation=MKPIDLETISLVLIPIIANVFFFRGIKYSSIIAGILEIILSLTLFINLPIISSYFYITRITWYFIIMVSSIYLLSVVFSHNYLKGEKTKISEREYFALLNFFASSMFFTLIINNLGLMWVGIEATTASTVILVITEGTETAIEAGWRYIIIVSAGVTFAFISVILVYYGLHSLQVSSILGTHYSLVLQLASAIALLGFGTKVGVFPVNTWLPDAHSESPAPVSALFSGVLLPVALYVLYIVYQISPLPMLYSAFSIVSIIIASISMASQTNFKRLFAYSTIENMNLALLGFVTGSIIGAIILLVAHAFGKAGAFYSSGSIFRMVGSKKIDEYGLWKLKFIPYSLLLSSLAVTGTPPFGTFVGEFLILSALLKFSIAEFALLIPFIAIAFISINSHISRMIFKGDKNLKEDNLMGIISLISSLISLAIGLFLIWWL;locus_tag=LOCUS_04220;gene=hyfF;note=WP_000122538.1 hydrogenase 4 subunit F (Enterobacteriaceae) [pid:31.2%25%2C q_cov:82.5%25%2C s_cov:76.6%25%2C Eval:3.9e-47],MGA_423
sequence1	MetaGeneAnnotator	CDS	378507	379640	.	+	0	ID=MGA_424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRLIGQLGKFCLYSDTYFEGTCPHIENEEIANSPYGAFNFTYGPSAGGLFESVGIDINTFGEYIRNIKVNPNYKKREIRILDKSIEDAILYIERINAAFSASHVISFLSAIDKISESDIDSDVLNLRILQIEMERIRNNLFVIERLVESAGFQVPLYQLQYLIENVNRKIGKLFGHRYFFGVNSLRKININDPKVDFTGIEREFKTIYEDIIENRIFIDRLQGNGIIKDERSIGPAARAAGFYYDARIEDEFLPYKDFDFKISTYNSADAFGRLIVRSEEIFESLRIISQIKVKSKEYKIKVNDGEGIGRVESPSGDLAYFVKVNNGKVVNIDLLSPSSINIELFSKSMVKNIFTDFPFNWESFGIWISEVGVRFI;locus_tag=LOCUS_04230;note=WP_041272520.1 NADH-quinone oxidoreductase subunit C (Desulfitobacterium hafniense) [pid:23.2%25%2C q_cov:96.3%25%2C s_cov:73.1%25%2C Eval:1.7e-19%2C partial hit],MGA_424
sequence1	MetaGeneAnnotator	CDS	379637	380254	.	+	0	ID=MGA_425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNWFLKGLKKGIKTEKFPKTNPIDIAPWSTELNGSGNVNCPTKAIDNGSWNSERCIYCRRCYPLYSPTGNIDIFKVNKKNNIFRRSFYVYPIDIGTCGGCNLELKLISSPQYDMTRFGIFFTNTPRHADALIIMGVMTEGMKEPLLNAYEAMPEPKLIIALGVCAISGGILGTGSQIEPDVIIPGCPPNPYTILKALIEAKGDKE;locus_tag=LOCUS_04240;note=WP_011393671.1 NADH-quinone oxidoreductase subunit B family protein (Moorella thermoacetica) [pid:46.3%25%2C q_cov:55.1%25%2C s_cov:48.0%25%2C Eval:2.0e-26%2C partial hit],MGA_425
sequence1	MetaGeneAnnotator	CDS	380251	381990	.	+	0	ID=MGA_426;product=hydrogenase 4 subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011089079.1;translation=MIYFIYLLFILSIFLSIFKKKIGYALSAITSIIFVYYGITIGNIYGYFFIISGLVWLFSSIFSIFYDTYGRWLSPLFITSILGMTIALTARTYIEFLAGWEIMTIPAYAIIGLNRKLDSPAFIFMGFGELSTILIFAGFIYAYTTSNSFYFTALDTYIPLIVVTFGFMIKMGIFPFLVTEWLPIAHGNSPANASAILSATMTLVAAYGIVKMMLLSPDIPILGYILMGIGGFSVFFGALYAYISEHVKGLLAFSTIENNGAILSAIGVYMTYPTKTIAEFALDVIVTFAFAHSIAKTGLFMISGTVEGEALSKLKIIRNKLGEIGGILLASSMSGLLPNIGGVATWSLLESLFMEAYILHSTLSSISIITGSVIAMGEGFASAAMIKFISYTQVFKGITGKSAKITIFSIIGFVILILGSLSYLLFRNFIYGVPSLGIPNGFIIISEYSSGKIFGDISPFYVLILIVVFSLLTLGIFGKPKVRKTNTWNNGIKPREEYTAFAFANNIRLMLSKLLRTEIKRDSLETSTDIFWKVMYYIAKKYVIFSRLLARSYMNSSISWYIIYMILAFILITILVVIL;locus_tag=LOCUS_04250;gene=hyfB;note=WP_011089079.1 hydrogenase 4 subunit B (Bradyrhizobium diazoefficiens) [pid:22.0%25%2C q_cov:91.9%25%2C s_cov:87.2%25%2C Eval:3.5e-25],MGA_426
sequence1	MetaGeneAnnotator	CDS	381987	382928	.	+	0	ID=MGA_427;product=respiratory chain complex I subunit 1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393677.1;translation=MISVFLETIIQVIGVILVSPLYSGILDKWKANVASRKGQSIFQPYFDIFKLLKKETTVSSNASSIFIYTPYVVFSTYIVISLVIPVVYPEPILLTPTVDFLGGALLFSLAGFLKIIEAMESGSNFVALGSARATSFSFLGESTLITVFFAVALITGTNNPYIEHEFAQIPQYYLALDHILATVAFFMLWLFETGKLPVESSGLAELGMIDDALIYEYSGKPLALLKWGGYMKQYLLGSVLLNVFLLPWGMQLGVLGAMEDIGIMFIKWLFLLFIALVIDTSLAKLRLFKVQDFLAVAFVLSIMSLLLSVIQNA;locus_tag=LOCUS_04260;note=WP_011393677.1 respiratory chain complex I subunit 1 family protein (Moorella thermoacetica) [pid:33.3%25%2C q_cov:98.7%25%2C s_cov:98.4%25%2C Eval:6.8e-37],MGA_427
sequence1	MetaGeneAnnotator	CDS	382921	383562	.	+	0	ID=MGA_428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNINTEIIDLVSVSIIALAFYMQGQAYYKPLIEASGIQSVILAVLSTFLGFITGIYDYFVLAIILILLRGIVTPYVLLKALGKKYGEREKIKGVTSLLVVDLAFFFTAVLIIYEFVISKILISTTYGVYELIFPLSLFFQGLYLIASRNSTPAQILGYIEEENALVMFGIFLIPIPLLIEASVFLDVLALVVISSVIIFEKREHTPIDELKG;locus_tag=LOCUS_04270;note=MGA_428
sequence1	MetaGeneAnnotator	CDS	383570	383923	.	+	0	ID=MGA_429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKRRRNTKEDKRREENNRRFEEESRGSEERYREDRDTTKGIESMYEDECIDLLRELSKLTSESSSLKFELYQLNETARIETMRLAALISECEFYDKEKALFLRKEMEPYFKKYVPF;locus_tag=LOCUS_04280;note=MGA_429
sequence1	MetaGeneAnnotator	CDS	383943	384101	.	-	0	ID=MGA_430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNGNINTSNITATAIGEIFKDCDLFVSFHDDNISEITLEFYVAQYAVSYKL;locus_tag=LOCUS_04290;note=MGA_430
sequence1	MetaGeneAnnotator	CDS	384563	384895	.	+	0	ID=MGA_431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLTSFAYIIYGNMELAQLTIRDLQKLVRSLIYSISIVAMGEKGSTKKDLLSIRNELRSFLKELKKGKVGYEDVAGEFGFILLSLSIIKGETHNDRTIEMISKIESMLYS;locus_tag=LOCUS_04300;note=MGA_431
sequence1	MetaGeneAnnotator	CDS	384943	385284	.	+	0	ID=MGA_432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980543.1;translation=MDKYYFALLGEAGAAGIAKAFYVRFKSEKLKESYIQEESHWKYFKKYRRSILEMPTYYTLFLVGIIISLFGFKITRKVIIRLETAAINFYIKNFSIQGDIEKILEDEKHHMEI;locus_tag=LOCUS_04310;note=WP_010980543.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:51.8%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:4.5e-30],MGA_432
sequence1	MetaGeneAnnotator	CDS	385309	385530	.	+	0	ID=MGA_433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846706.1;translation=MNIEILSVKKDGNKTVVDGLVPAKCAIGSYKVRIILDNNKLVSSQCQCKEELCSHAIKLYLHYRAYNYMRNRS;locus_tag=LOCUS_04320;note=WP_052846706.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:39.7%25%2C q_cov:86.3%25%2C s_cov:87.5%25%2C Eval:1.4e-10],MGA_433
sequence1	MetaGeneAnnotator	CDS	385563	386246	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979142.1;translation=MDYRQLLIASNPFDRLDAWFKTKWILDNNVLTKEDLIGLKEKFLELLNDSDETVRLHAWQQTPFLLENGIIDYSDIDKYKTNLILSLKDGSLEAWLLVNDLYLGKIITKEDVDNVINTFISMLKGNELDRIAVWSLVPNMLKNSLISAEIIMDLKKYVLDLLDFDDYNIQFNVLFLIVDLYRSKVITRDEIQSRVDKIKEIMSDERFNEFLRLYEKNSRDLDELIIM;locus_tag=LOCUS_04330;note=WP_010979142.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:36.1%25%2C q_cov:95.6%25%2C s_cov:91.0%25%2C Eval:3.8e-27],MGA_434
sequence1	MetaGeneAnnotator	CDS	386303	386659	.	+	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGFSTEEIENTLKFSGLLVTKIDKISNGVRFFINGKSYIDLIYDGHFIIYYFRKIACSEIDKIRQLIKHEPNDIMKGFYITEKECFLLISKSSFKEEELAKKYIELIKIADSIIDKL;locus_tag=LOCUS_04340;note=MGA_435
sequence1	MetaGeneAnnotator	CDS	386756	388078	.	+	0	ID=MGA_436;product=aspartate aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979128.1;translation=MEDPSKIVREHTFGTWRKQKGWEPINIVKADGVYFYDSAGKKYLDFSSQLVNVNLGYGNNHVIKEIEHQLENLQYISPAFATETRAKAASSLLQVMPRNLTKFFFSTSGTEANEGAIKISRLVKKPSYKVVARYRAYHGSTLASMSLTGDYRRWFTEPNTMQGVVRIPEPYCYRCPLNLKYPDCGIACATYLDYVIKNEGNVASVIIEPITGTNGVVVPPKEYLPIIRKITSENNVILITDEVMTGWGRTGEWFAVNNWNVEPDILTTAKGASASYLPIGITAVNKEIAEFFEDNIFAHGHTFEAHPVTLAAIPAVIEEYKRLDLLSHVKAMGQYLGDRLKELKERHKSIGDVRGMGLFWAIELIKDSKKTPFGTYEDKYEGKSTPVDVLTKRLMNDGIYVFGGPSWLVISPPLIISKEDIDIGIEKIDETLNSLDKQFT;locus_tag=LOCUS_04350;note=WP_010979128.1 aspartate aminotransferase family protein (Sulfurisphaera tokodaii) [pid:72.0%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:2.1e-197],MGA_436
sequence1	MetaGeneAnnotator	CDS	388109	389464	.	+	0	ID=MGA_437;product=dihydrolipoyl dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978673.1;translation=MDVDVLIAGAGGAGYPAAFRLSKAGFSVIMADPKGELGGNCLYQGCVPSKTVRELTQMIKRAKLLNTNIDVNFQLIQNHKDKVQETRFKQHKSELSETHVEFIKGEVEIVDNHNAIIKGDKDLNVRAKYIILATGSEPFRPKFPGENLCITSDDLYKYKSPIRELPKEMVIIGGGYIAFEAATMFNILGTKVHVLVRSDKILRGIDSKLSSTLLSLMDKNIDIRFNSPVLEVKKNSKSLDVIFSHNGNKELLTADQVLLATGRSPVYPKGIEKTEVKTDRKGIIVDNSIITSVNNIFAPGDINGISMFFHSAVRQSLVAAHNIMSGGTPIDYMDFNSVPKTIFTFPPIAYIGITPDIAKKNGIEIVEASYPFAKDSRAQMYEETEGEIRLFFEKTSLRLIGGWIIGIDAPSLINEIGIAMANGLTARQIADYADQHPMTNEGVSYAARSIF;locus_tag=LOCUS_04360;EC_number=1.8.1.4;note=WP_010978673.1 dihydrolipoyl dehydrogenase (Sulfurisphaera tokodaii) [pid:55.3%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:3.6e-144],MGA_437
sequence1	MetaGeneAnnotator	CDS	389461	389817	.	-	0	ID=MGA_438;product=PadR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978749.1;translation=MLANEGNLTGAEIMEKIEANTMGMWKPSPGSVYPMIKALEDEGLIKVVKTEGTKKYYGITDKGREIIGETSIENKISNSIRELDSLVDYILDNWDNLSIDEKENIRKIYEKFKKAFET;locus_tag=LOCUS_04370;note=WP_010978749.1 PadR family transcriptional regulator (Sulfurisphaera tokodaii) [pid:42.7%25%2C q_cov:99.2%25%2C s_cov:83.8%25%2C Eval:6.8e-23],MGA_438
sequence1	MetaGeneAnnotator	CDS	389913	390404	.	-	0	ID=MGA_439;product=zinc ribbon domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978642.1;translation=MEKTYTGRYINLQALAQEINSILAGEGWESSTQMMSPPMGSMQDYIVRGLKKGHMHHAEELIIRITGAPNDFRIIIEEEHIGALGRELIDHRLFKQIDKEINDGLFDMPYTPTPSPQMTPTPQMPSMQPQMPQTTAQGLRCSQCGYQNPPGAKFCLNCGNKLM;locus_tag=LOCUS_04380;note=WP_010978642.1 zinc ribbon domain-containing protein (Sulfurisphaera tokodaii) [pid:54.7%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:1.1e-46],MGA_439
sequence1	MetaGeneAnnotator	CDS	390450	391691	.	-	0	ID=MGA_440;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011728679.1;translation=MKKITIAGSMIGTIIEWYDIFIFSSGSVYIGEELFPSSNKAVAVLDVLLVFALGFLTRPIGAFLFGHYGDRNGRKYSLLITLLISGISSGLVGVLPTYAQLGLITIILLVILRLVLGLGLGGEWGGAILLVNETNERKRAFFSAFVQSTVGIGLLLGTGVFLILTSYLPSSEMFSFGWRIPFLLSFIMVAVGITIRLKIDETRLFTEVKNSGLIVRFPGKEMVVRYWKELLLGTLLAGSLGTIFYVGAVLLPVVFSGLGIISENISLIAVSLLAIADLTTVFISGKISDIIGRRLLLLLSNLGSLAIIIPAFEFRNPASFIFFVTLFGIFHGLGYSPLAASLSEMFPTIVRYSGSSSAYQFGNSFIAGPASYISDFLGSISYALYPLYSIAFILIAIYSTIRMKETKDLQLNE;locus_tag=LOCUS_04390;note=WP_011728679.1 MFS transporter (Mycolicibacterium smegmatis) [pid:32.4%25%2C q_cov:97.3%25%2C s_cov:91.3%25%2C Eval:4.0e-54],MGA_440
sequence1	MetaGeneAnnotator	CDS	391875	393836	.	+	0	ID=MGA_441;product=hydantoinase/oxoprolinase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979746.1;translation=MPVAVDVGGTFTDIIFMDEKGNLQYYKLSTTPKNPEIGVYQGIKKIGINTSEIIHATTIATNSLLGQVNLDLPKIALLTTKGFRDIIEIGRQNRPELYNPYFEKPRVIVPREYRYEINERVDANGNIIIPLDKEEAESKIKEIDNNATSIAVSFLHSYLNPSHEKIVKDIASKYFKYISISSEIASEPREYERTSTTVINALLMPIVSRYLESLENLLQEFGRPRLYIMSSSGGLIDSKEASYRPVQIIESGPTAGVVGILTMSKFLGIKNAISFDMGGTTAKAGSIINGEIEITSEYEVGGKTHYGRVVKGSGYPVRFPFVDLVEVSAGGGTIIWKDDAGALRIGPLSAGADPGPMSYNKGGDKPTLTDASLVLGKINDRLLSGDMVLRKDLAIKGLKELGDEEVISTNALKLANLEMSRAIRLVTVERGLDPSEFTLFAFGGAGPQFALDIAEELSIREVVVPPAPGLFSAMGMLFADKKFEARKSYPTDLFRDYETLEKELITKLGKVDYFIRYADVRYEGQGWELTIQVSDPSRIKQDFENKHLSVYGFKLDKPIEVVTIRVFAIILSAKPKIPDPPSTLNPKNSYRKVKFEDWINVPVYIRESLPLGFHIEGPAIIEEYSSTTVVKPGWTADIGKMGSIFLRCAKCGK;locus_tag=LOCUS_04400;note=WP_010979746.1 hydantoinase/oxoprolinase family protein (Sulfurisphaera tokodaii) [pid:62.7%25%2C q_cov:97.7%25%2C s_cov:98.3%25%2C Eval:9.4e-232],MGA_441
sequence1	MetaGeneAnnotator	CDS	393824	395362	.	+	0	ID=MGA_442;product=hydantoinase B/oxoprolinase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979745.1;translation=MWEIVHKSSIYIAEEMGVALKKSALSPNIRERMDHSCAIVNDEGKIIAQAEHIPVHLGSFKIGVTNILNYIEKEGIELNENDMLVFNDPYISGTHLNDVGIIAPIYIDGKISGYVINKAHHVDVGGPIPGSLNPFAKTIYEEGTVIPPLKIMEKGNINRSVLSIIRENFKVPDYSIGDINAQIAANRLGIIRVKELFGKYDNVKENWRISIDYVRELVLSQLRKWPKGIFDAEDYLEWNNNLVPIKLELSITGDKISADFSGTSAQMENPLNAVFGVTYSAVSFAVRSLLPEIPTNDGFYSIIEIKVPEGSLLNPKKPAAVGGGNVETSQRVADVTFLALSKALPNKVPAASSGTMMNIMLGGLFNGKYWSYYETIGGGSGGRPCKPGVSAVQNNMTNTLNTPIEIAEKQFPILFTKYYIRENSGGKGKYPGGDGIIRGFRILSRTRISVIADRFMIGPWGIDGGERGKPGKITISGKNMPSKFSMEIEPNDEVIVETPGGGGYGKFNSNLK;locus_tag=LOCUS_04410;note=WP_010979745.1 hydantoinase B/oxoprolinase family protein (Sulfurisphaera tokodaii) [pid:64.1%25%2C q_cov:98.6%25%2C s_cov:99.2%25%2C Eval:1.3e-190],MGA_442
sequence1	MetaGeneAnnotator	CDS	395660	397270	.	+	0	ID=MGA_443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846626.1;translation=MSEYNTLELQAYSPASTNYTVYYSKYDSVLFIPTQMPLHGTYMHMLSLNSTIYMVSSERFYSSSFQGSNVHLRDNYAIYYITEGTLKNEEINYTISIRDGMFITVHSSPQLIRVLVNSQGMLKVVWAGYLVTTGSVTGYTYINNSAEVILQYLNGTSVLNITVTVNPNSNVSGHLNTFLMNSQITKIISYLRTSIVTINMPKRYSNIYSLVTLHNNSIGLIERYNVTVSQLNGTLVPAIYWNGSSSVNFNNTIPIVKQPISNRGEIYSHYIGFYGINGSLIGFISTKTFSSYSQKSFIIGGKITSSMIYTSQMIVFINGHKAIRTVSINIMHLNNVYLAIAITVNGSLESTANINFTHTVYISTPGILAKVSVNSTTYYIVAFKNNYTAQVHTIKPLSTLNTTINYNNSKYFAEEVNINSSGYVLFNVTLVHNLARVIVLEKTSSGLMQLNSSDYFIVNNTVNIFTDPYSTYYVIYPTISTSVPTTTSATSSSTTNTSVPLSSTSTTISSKLSYYIIIGIVIAIIIVISIILLRRK;locus_tag=LOCUS_04420;note=WP_052846626.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:30.4%25%2C q_cov:86.2%25%2C s_cov:82.9%25%2C Eval:1.7e-58],MGA_443
sequence1	MetaGeneAnnotator	CDS	397272	398990	.	-	0	ID=MGA_444;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979771.1;translation=MNTSEALNIAILILQVLFFIVPIMFFLMMMRANTFAKKRLKKISYIPNVSWDRIYDRDYVKNRLEKIANEVKEGKTYGVILFGPPGTGKTMIAKAIANKMQWNFFELKANDILSKWYGESEYLLYSFLNDVENNSPSILFIDEIDGFAMSRSDDIHEVTHRLVNILLTKIQEMHDKNDKILIIGATNIPQEIDEAFLRPGRFDEVIYVDLPDEKERERIWKGYVGIEGIDYSLLAKKSNRFSPADIKLLSEKVISECNEKGKYPSTEDFLKYIENYKPSVSISTIIKFENIAKKYSRTKVEIENYGIPDVTWNDLGDLENVKSIIRDSIELPLKNKDFAEKLGIKPVKGILLYGPPGTGKTSIAKALSNEINASFIILSGDEIASAGPLKAPELISEKFAVAKDNSPSIIFIDEVDMLARARAFNEWRNALTQLLAEMDGIRDIGDVIVIGATNRPWDIDPALLRPGRFDKIIFVPPPDYVGRIKVLKVITRGLEIDDFTIQEVAKLTENFTPADLKLVIEEIKRNLLKEATQTKILRTKININDFKKVLQIVKPSVTQDQIKLYEDFMKRN;locus_tag=LOCUS_04430;note=WP_010979771.1 AAA family ATPase (Sulfurisphaera tokodaii) [pid:63.4%25%2C q_cov:98.4%25%2C s_cov:95.9%25%2C Eval:7.6e-214],MGA_444
sequence1	MetaGeneAnnotator	CDS	399023	400507	.	-	0	ID=MGA_445;product=aldehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002225842.1;translation=MEKTQDLFINGEWVKPSSEEYLNKYNPSTGELYGKFASASKEDVDRAVDAAYDAQKKWEKLTSVERSKYLYKLIELINQDREALEELLMDEVGKPRKEASQEVDGVLDQLQYYAEFARKITGDVIEGTKPDRVIYQYKIPYGVVLAITPWNFPAAMVARKMGPALITGNTVIVKPSSDTPFVAGWLVEKARQAGFPAGTVNLITGKGSVIGDYMTSHKKISVITLTGESKTGVEVMKSSSSIMAKLILELGGKAPFIVWKDADLELAAKVLMWAKYWNAGQSCIAAERLYVHEDVYDKFLNLFIEKTKSLKIGEPRSSDMGPLINKAALSKVSGFVEKAVSDGAKIIYGGNKPELPSRYSNGFFYMPTIITDVKQNMEIFREEVFGPVIGAMKVSDDFDEVISLANDSDYGLASYLFTKDVSLAMKAAREIKFGELYINMPGPEASQGYHTGFRMSGQAGENSKYGIEEYVKVKNIYIDYSKDPTKGEVIPPYT;locus_tag=LOCUS_04440;gene=aldA;EC_number=1.2.1.-;note=WP_002225842.1 aldehyde dehydrogenase (Neisseria) [pid:40.4%25%2C q_cov:95.7%25%2C s_cov:98.3%25%2C Eval:4.6e-103],MGA_445
sequence1	MetaGeneAnnotator	CDS	400722	402836	.	+	0	ID=MGA_446;product=molybdopterin-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879871.1;translation=MAFVRCYMCKNMCGIIATVEGKTVRVAANRNHPQPGICGRGAAGPYLLTHPDRLKGPMIRQGESLVKTDWDRALDEVTKYFKELIDEGHPEYLAITFHDYGKEILERFAALYGTPNLIGHESVCHGSRTVAAELVLGAEGPRSIDPDYPNSKFVVFISRNPLEGIVPDIVRRIDEGRKKGMKIAVIDPRKSAIAERYADRWIPIRPGTDSAFLLSVIYYMIKNKMYDEDFLMKYSNASLLIYDDLSSANTYANSLLYEGQINGRKVSTAFSLLMKEGEKVYPRLKDITGVTYDDVKYIAENLWDNRPSAVIDDAWHTSFSTDSTYAWMAALILNTMIGNIDKKGGLIFSKKGKVKLYDESRVKAKRIDKIRYPLSYAAFQEVYRSILTGNPYPIKALMVVGTNLDGRDPNSDFVRRALNSVDFLVVIDVMPSDVTEYADVVLAESTYLERDELPLPVGWTLESWIDVHQKAIEPFYDTKPLWWIILELEHRLGLSKDTYADLEKKILDQFKINREELYSKGCIEIPQEIYEIYPYKRPLSTPSGKVEIYSETLHKYGYYPIPTYIEKNVMPRAQDEFFLTTGHTLYHTQDSITFDIPTLIRLAPDNPVMISKNKAQLLGIKDNDDIEVISLTTGQKVKCKVKVTDGIRDDTVFTYFGFGRHSKGERYAYGHGFDVNSLISDQITDPISGSVAQSLNIVKIRLSK;locus_tag=LOCUS_04450;note=WP_010879871.1 molybdopterin-dependent oxidoreductase (Archaeoglobus fulgidus) [pid:32.3%25%2C q_cov:98.7%25%2C s_cov:94.2%25%2C Eval:5.4e-87],MGA_446
sequence1	MetaGeneAnnotator	CDS	402937	404355	.	+	0	ID=MGA_447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNGILIGIVLAILVVIGADYYIISFQSLTHTNASNSTTFSSTQSTSYQNSQTTTSQNSTNKETNNIQLIPNKAFYYNGYVKSRLFINGLYFYVLHGNDTIIDSTSKGMNITTINSVIAIGYIIPGYYYETTVDFSFNQQGPFGVFLKIINTSQLNNEQRLDSIVIAFYKPPTAQPPDAIYLYNITIPIIINGTEENVIFMIYKSPIHIFFIPQKTLLGNITLILKYFTEASNYTLPYQVGIFDHSTLKSNTTSIATDFVYNWSLDYIKLFQNPNEIESHIPNKFESIMKEISIHNYTDFVIIKNGSIELGGEKYYALNSGMLIVEHSQPNNVSYKQVMFGISQYSNAETYSQIQALTIGLAYHILNGTDNFGIKIASNQEVYLLLYSSNILTSSKVVRIPMEINGHPVFMNFYEIKNDNVIYLYPENDIKSAQVVINAEIVLKVLKIPGEVYYVDLGNILPSSNYMYSIFS;locus_tag=LOCUS_04460;note=MGA_447
sequence1	MetaGeneAnnotator	CDS	404360	405280	.	-	0	ID=MGA_448;product=2-oxoacid:ferredoxin oxidoreductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980384.1;translation=MAGPNWKLEWADWCPGCGNFGLLNAEQRAIQELGEDPKKIIMVSGIGCSGKIPHFMRIPVSGVHTLHGRSLAYAQGIKLANPELEVIVNVGDGDGLGIGAAHFVNAGRRNPDITVIIHDNGVYALTKGQASPTLRRGDKPKSLPVPNISDNANPIALALASGYTFVARGYAYDVNGLKELIKAAIKHKGLAVIDVLQPCPTYNDVYTKEFYDKRIYNLSSEKDWDPIVKSPEEEGEKMSKALQKSLEWGTRIPIGIFYQNELVPIYEERILQQAPSYKDNYPAKAKIEKDGKLITSVDDILKEKKI;locus_tag=LOCUS_04470;EC_number=1.2.7.11;note=WP_010980384.1 2-oxoacid:ferredoxin oxidoreductase subunit beta (Sulfurisphaera tokodaii) [pid:72.8%25%2C q_cov:98.4%25%2C s_cov:98.7%25%2C Eval:1.0e-130],MGA_448
sequence1	MetaGeneAnnotator	CDS	405267	407159	.	-	0	ID=MGA_449;product=2-oxoacid:ferredoxin oxidoreductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980386.1;translation=MKINWLIGGAQGAGVDTAALVFGNAIAGAGYYIYGNREYYSDIKGRHSYFALTVSDERVRSFSFTTDILATFDAETVFQHFTEVKKVLIYNKGLLNTKAEYVQSMEPEITDEAINVLKQNGYDTTIGDVVNYVKSKGITVIGIDYDEIIRKIAEEVKVPLSVVERTKNTAAIGASYGLFGLNKQYLLKAIKDVFKNETFVKFNTMAAEMGISQVSPMFQLKEIPLTKERVQLDGNTAIAIGKIYGGLGFQSFYPISPASDESTYIQAHQEVWYIDPETGDKKKRTIVVLQAEDELAAINMAIGASLTGTRAATATSGPGFSLMTEGISWAGMDEAPVVITYYIRGGPATGQPTRTSQADLLFVMNVSHGEFPRIVLASGDHIEAFQDAVWALSLAEKYQTPVIHFVEKAIANAYSVFDIDDLEMEKLNAERGKIVENPGDEYERFKFTEDGISPRAFLGSTYMFYTGDEHNEMGHIREASTNREKMYAKRMQKLETADKEIPEENRIKTFGDIDSKNIVITWGSPKGPVLDAMEELKSEGIKFSVLQLRMFSPFPKNLVRKLLLDKEKIIDIEGNYMGQAAMVVKLYTGIEATHYILKWNGRPMGRDEVKEGLKAVINNDEKKVVLHGGA;locus_tag=LOCUS_04480;EC_number=1.2.7.11;note=WP_010980386.1 2-oxoacid:ferredoxin oxidoreductase subunit alpha (Sulfurisphaera tokodaii) [pid:62.3%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:3.7e-233],MGA_449
sequence1	MetaGeneAnnotator	CDS	407337	407633	.	+	0	ID=MGA_450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNELHSLWGIVLLDKKVRVSLEKIIGLLIELHEKEEMTLEESRKIIGDKASHPIIIRTLEKLNVLERYRCENRYCIKLTDIGEKIVTAYNELDKSIIE;locus_tag=LOCUS_04490;note=MGA_450
sequence1	MetaGeneAnnotator	CDS	407689	407823	.	+	0	ID=MGA_451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLNIFIPDPLFEEIKAISRKRNTDIGDLIIEALEYYVEISKYD;locus_tag=LOCUS_04500;note=MGA_451
sequence1	MetaGeneAnnotator	CDS	407947	408261	.	+	0	ID=MGA_452;product=zinc-containing ferredoxin Zfx1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978102.1;translation=MGIDPNFRTSKQVVGEHEGHKVYGPVEPPKVLGIHGTIVGVDFDLCIADGSCITACPVNVFQWYDTPGHPASEKKADPINEQACIFCMACVNVCPVAAIDVKPP;locus_tag=LOCUS_04510;gene=zfx1;note=WP_010978102.1 zinc-containing ferredoxin Zfx1 (Sulfurisphaera tokodaii) [pid:94.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.7e-58],MGA_452
sequence1	MetaGeneAnnotator	CDS	408279	409418	.	-	0	ID=MGA_453;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978856.1;translation=MLERRYLVLLALGTSLSFWDIFNVPYIVDYASKIFNVNTDLSSLPLSAEMLGYFIGGSFNGYIASKWGRKKGLILSMGLISLGSVIGLLSLSFIMIIISEFIIGMGIEGEVATVPSYISEMVENRGKTIGIVESFGFLMSLVVGPIAVLAGQEYWKLLFLAGVTIAIPSLFFRFYLPESKLWIKKSNEKFKWDNTILLFLIAWFFSYFAGYALFSDPIFSLIGNKGFNNTAVYFTYILYGDPLGVLIASIVNDKIERKLTSFLTNFLSGVLIISWPFLSGISFLGIGFTIMFLQGFKFPVMYTYTAENITTKIRTLGFGIADGIGHLGGVIGPIILSLYYQQDVILAFTIVGLTAIISGSILGIFGLKTKGLSLEKIKG;locus_tag=LOCUS_04520;note=WP_010978856.1 MFS transporter (Sulfurisphaera tokodaii) [pid:57.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-125],MGA_453
sequence1	MetaGeneAnnotator	CDS	409676	410110	.	+	0	ID=MGA_454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLMLIIIMLRIVKSIKTKHDRNSLIIILSDPSFILPRIFPPIKSVENNNSSFIAKGKFLFTDFCLRGNVYSSIDNIRYIFTLKSGNKTGNGKLEFQFTENINISFEYDGWRDLMARNFMSKWVNDFLDKLDEDIRMERIRRKI;locus_tag=LOCUS_04530;note=MGA_454
sequence1	MetaGeneAnnotator	CDS	410188	411495	.	+	0	ID=MGA_455;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429692.1;translation=MNEENYIIFLTISLLIGFIYFMINSYFAVSSPKLLPKKSYDLKKVTAIIPVYNEDPDLFEKVMQSVSGIKTIVVGDGCLEPYYSITKKYEGEFIYIKNRSGKRNALAQGLKKVKTEFVLFLDSDTILSEGSLTHMLSLMDEKTGGISPRVLMINNNKYSYYYSEFFERMSEVLQRALSRRGKVAVLYGHCALYRVDLIKKIVLSKNFTNPQVLGKRLTIGDDRQLTNFILNSGYRAIIDYESTAFTMPPEDIKGFVNQVIRWTKSNYFYFISDVIHGTIFKKGTLYIFNSFYTNVLPLLFIVFLLLDFSHDPKSYMYELFEYPKILLYVIFRIMDFLASMPILINILYIHTSHSFHGTPIHLFYNGHKLHVKFLTTTIHILSSLSSLPFAFAMFKLVERDRLKIIILGSVALVVQFFAAFYALLTLWKQDSWRTR;locus_tag=LOCUS_04540;note=WP_198429692.1 glycosyltransferase family 2 protein (Sulfurisphaera tokodaii) [pid:40.8%25%2C q_cov:89.2%25%2C s_cov:100.0%25%2C Eval:2.6e-83],MGA_455
sequence1	MetaGeneAnnotator	CDS	411496	412338	.	-	0	ID=MGA_456;product=SMP-30/gluconolactonase/LRE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979913.1;translation=MDKISPYSGELYEGPIWVKDSLYWVDILKGEIHRLKGKEYKKIVLENYVSSIQPHVNGNIIATSGHGLYSINFEKNDIHKIFEVKDWDSRNRFNDGKCDALGRYWIGTMNLEEKYPTGGLFVLDLNKNYKKVLDGTTISNGLAWSSDNKKFYFIDSPTKKVFSFDFNINEGYLSNMVVAIDLSKYNGNPDGMTIDSEGKLWVALFGGKKVLRCDPNNGDILDEVELPTPNVTSVTFGGDNLNILYITTAKIHLKEPDKNAGYLYYEKTNYRGTETNYCKI;locus_tag=LOCUS_04550;note=WP_010979913.1 SMP-30/gluconolactonase/LRE family protein (Sulfurisphaera tokodaii) [pid:59.1%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.3e-94],MGA_456
sequence1	MetaGeneAnnotator	CDS	412615	412872	.	+	0	ID=MGA_457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKVEVSAPQALRVVPTPSTNVNPQYPNMGLLNGVEAYHIDPRFNQGVSVTLTPSVTAINRIFEKYVFKCNYKGGSYGDFHEQHS;locus_tag=LOCUS_04560;note=MGA_457
sequence1	MetaGeneAnnotator	CDS	413982	414317	.	+	0	ID=MGA_458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDEKSKEIGEILKFVASSPIFSSPIRLTILLALAGFKEINFTDLQKALEVNKSTLSINLKVLESEGVIQIKYKIDRNRPKQIIIITEKGKEITEKYLSMLEKYKNFLTNL;locus_tag=LOCUS_04570;note=MGA_458
sequence1	MetaGeneAnnotator	CDS	414312	415067	.	-	0	ID=MGA_459;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979637.1;translation=MLREILYIVVMQIKGAKSYALGYVFFSLLFPLGFMLVFASFVSNSYRLYIISGTLTAYLFISTFTAVANNLANEIESGRFSLILDAGVRKELYSISIALSQIILDIMPILTILTIGVLIYNIQLKSIPLIIIALSSSIALSSIFGMTLASVIKNPYEVSQYSNVLGFALTFFAPVYYPLSFIPLPYRYLVFLEPSTYVSQSIYYSLEGNAYSLLWSLGAVMISFLLTIINKRSQRLYRRNLIIKDESSVHL;locus_tag=LOCUS_04580;note=WP_010979637.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:45.7%25%2C q_cov:92.4%25%2C s_cov:97.9%25%2C Eval:9.6e-54],MGA_459
sequence1	MetaGeneAnnotator	CDS	415069	415821	.	-	0	ID=MGA_460;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979636.1;translation=MTVRENEIVSILGPNGAGKTTLLKQIYGELEPDKGEIRILDKRPTDVKVKKKIGTLPQEVRPFTQLTVYDNLFYIGRIKGVNKKTLEERIEELLRKLDLEHVKMKIARDLSGGMKRKLLLAMALVNNPQLLVLDEPTTGLDPEGRRKIWDLLLDMKRNGKSILLTTHYLDEAEKLSNRIYFLNKKVIFSGTPLEIKAKFTEWYEVIDYTNNKVYKVGGDKVKDIVMSIKGKFEVKTPSLEDIYLQIFQSE;locus_tag=LOCUS_04590;note=WP_010979636.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:61.0%25%2C q_cov:99.2%25%2C s_cov:90.9%25%2C Eval:2.3e-87],MGA_460
sequence1	MetaGeneAnnotator	CDS	416024	416203	.	+	0	ID=MGA_461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGFSLYSIRKFERYEFPTNRRYSDFTDFYINGNCGCSTEPMSAATFPVMVARHANICT;locus_tag=LOCUS_04600;note=MGA_461
sequence1	MetaGeneAnnotator	CDS	416835	417032	.	-	0	ID=MGA_462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAQRRVLYTSDANLNWAFNALNVCSLVYALKRNPTSDINRIFEKYAFKCNYKGGSYGDFHEQHS;locus_tag=LOCUS_04610;note=MGA_462
sequence1	MetaGeneAnnotator	CDS	417406	418122	.	+	0	ID=MGA_463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLTPSGRVYITFVVDQEYPQLPKTNKVVAVDVGVEKLLTTSDGEYVPNQRPYEKALNKMKRLHKALSRKKFLSRNWFKAKIRLARAHEHLKNLRKDMYMKLGKYFAEHYDVLVMEDIHVKQLVGKSLRRLRMRLHDVAIHELRSIMEYQLGKYGKKLTLVDPAFTSMTCARCGHVKKDLTLADRVFVCPKCGWVADRDYNASLNILRRSGSERPLVPVELRPLPLASLGFEAGSPVR;locus_tag=LOCUS_04620;note=WP_011057329.1 RNA-guided endonuclease TnpB family protein (Thermosynechococcus vestitus) [pid:34.0%25%2C q_cov:87.0%25%2C s_cov:53.1%25%2C Eval:1.5e-29%2C partial hit],MGA_463
sequence1	MetaGeneAnnotator	CDS	418302	418505	.	+	0	ID=MGA_464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFGYGEYLLNYIVRDVFAQKIKTSEISNRYISIYASSLGPILDYIKVNSNGLMDLTKIRIYADNKL;locus_tag=LOCUS_04630;note=MGA_464
sequence1	MetaGeneAnnotator	CDS	418657	419187	.	-	0	ID=MGA_465;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978770.1;translation=MHNHSFLLSPLRKKFEDPEKFLPNLININDTIADLGCGPGYYCQFLVKLTRNKIYCVDKNEEFINEAKRIVNSDNVIFLIEDSSHTSIPSSSIDKVIFANSFHDMKNKEKVYEEVLRILKPTGKVIIIDWKKENTSFGPPLSIRMSKEDYLNIFKNFKIEKEFYVGPYHQGLVLSR;locus_tag=LOCUS_04640;note=WP_010978770.1 class I SAM-dependent methyltransferase (Sulfurisphaera tokodaii) [pid:50.3%25%2C q_cov:98.3%25%2C s_cov:97.1%25%2C Eval:6.6e-43],MGA_465
sequence1	MetaGeneAnnotator	CDS	419407	420195	.	-	0	ID=MGA_466;product=ParA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978988.1;translation=MRITVYGVKGGIGKSTICLTLGKTLARKGKKVLIIDRDPLGWSSNVIGIKDKGLINSIIDNISANFFKSVKIENGYLDVIKFYGDPSRVFNDSYILTRNREAKKKFEEIYSNILHTNKYDFYIVDNFAMVNYNNDIVFHEREVFYRILPNIESYRIYVSDHSATTLKNTENYIEKIEKSTNIGKPLGLTVNMVPPYPKDLEDIRIEVEKILQRKKLGIGIIIPFIEKLFGFSGTLNELDIPNQIDKLSDNIIKGFLTGYTIT;locus_tag=LOCUS_04650;note=WP_010978988.1 ParA family protein (Sulfurisphaera tokodaii) [pid:36.0%25%2C q_cov:96.6%25%2C s_cov:96.8%25%2C Eval:8.0e-38],MGA_466
sequence1	MetaGeneAnnotator	CDS	420347	421828	.	+	0	ID=MGA_467;product=M61 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978622.1;translation=MLFNVIPRSRYLDILAEGQEGIVTFPTYIPGSYVIRELERNIIEIEGVRMSKNKFYVKSKFKYRIYTLSKDQREAISTRDYLFINPASVFPFQDINEKYCVQIETSWNIITPLKKEGNFYCGENYHEFADSPIEASPFLKEIKIDDLHSISTIDEIDISAIRKIVEEADKIIKPKEKYIFFFRRSDKNYGGIEHKNSSAIVVSWERKDLSELFAHEYFHRLNVKTLIPKDLVHNYEREIYTDLLWFAEGFTDYMALLISLRAGLDTPEEALRGILSSLYKLTFPGAKIMSLAESSYTTWIKYYRQDENFLNSSISYYNGGLSLAFYVDIKLTKNGKRIDEIFKRLPNRYSFSDIQGVLDKLGFYESDLVYSPARKILDSIKEEISLEFMDKDKPYYGIMLDNNKIRFVEDNSPADNAGLLPDDQIVAVNGINKPLEVKDEVNLTVLREGRLKDVKISSGRNPGHALRAKIDGKIAETIFGKNEVKAEYTSSIL;locus_tag=LOCUS_04660;note=WP_010978622.1 M61 family metallopeptidase (Sulfurisphaera tokodaii) [pid:52.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.7e-147],MGA_467
sequence1	MetaGeneAnnotator	CDS	421911	423098	.	+	0	ID=MGA_468;product=divalent metal cation transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979972.1;translation=MHRNNIYFLKLFGPAWLVMMADMDASSTIGAAETGAIFKYGLIWFLLLLVIPLYFIQEVSGRIGAVTRKGLGEVIRENYSRKTAILLSFPMALTDVITYIIEYLGVAIGLEMMGVPVYITVPIVYIIHILIVTKRKYIKAEKILLLISSLLIIGFGATLAVRGIKDYSPIYFVPSPDFIYILAVNVGAVIMPFMLFFQASATAEKMRWIPKTSENFLNRAIKHVKAETLIGAIVTELLMAIVEMATAGIDPSANFASASDLSSALQYIAGSYSPYLFGIGLIGAGFLALVIISLGSAWGIVEALGIPREKSYIVYILESLPAVIVTLIIPSYLLINVVLNLLVAFIFVLIGPAIVMGMIARNKKIMGEFRSSCLQNVEYWGSLIFIVIFGILAIL;locus_tag=LOCUS_04670;note=WP_010979972.1 divalent metal cation transporter (Sulfurisphaera tokodaii) [pid:57.7%25%2C q_cov:98.2%25%2C s_cov:96.5%25%2C Eval:8.6e-123],MGA_468
sequence1	MetaGeneAnnotator	CDS	423178	423525	.	-	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLGKYFAEHYDVLVMEDIQVKQIVGKSLRRLRMRLHDVAFHELRSVMEYQLGKYGKEIRFVNPAFTSMTCAKCGHVKRDLTLADRVFVCPNCGWTVDRDYNASLNILKRSGLER;locus_tag=LOCUS_04680;note=WP_076629448.1 IS200/IS605 family element RNA-guided endonuclease TnpB (Clostridioides difficile) [pid:37.3%25%2C q_cov:93.9%25%2C s_cov:29.0%25%2C Eval:8.5e-13%2C partial hit],internal stop codon at [423526:423528](-),MGA_469
sequence1	MetaGeneAnnotator	CDS	423526	423951	.	-	0	ID=MGA_470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREIRTKSKKNKKKVITLQLSNLGIFNVVVHRDFPLEKVKRVVIKLTPSGRVYITFVVDQEYPQLPKTNKVVAVDVGVEKLLTTSDGEYVPNQRPYEKALNKTRKLHKALSRKKFLSHNWFKAKIRLARAYEHLKNLRMDM;locus_tag=LOCUS_04690;note=MGA_470
sequence1	MetaGeneAnnotator	CDS	424186	426516	.	-	0	ID=MGA_471;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978696.1;translation=MSNINLPNIGIFLVLFLIMVIALEVTMPVLTTGYAIGNFNTPILNPDQARYTQPWVGKITFLYSYTSHTDEFEALTAGKIDFATIDHASEVKEALEKYNSTIFVGIAPVESFGQLVFSFNSTISSLTSNLYFRYAVSSLINPINITNIVWENGILGIDYPYFVSPKVYSEWFSTAAEQYYQKYESYNITRAVMYLESIPNVTHVDGKWYYKGKPLTLSFIYAEDEQPQLRLADYLKDQFALINISVTILAEPFGTLIQTAVTPPYDFNMTTFGWIDLGPLVPQWMTIYTSPENVGGFSNATIDNLINEAQTAPSLSQSISIMKQVELDLQQQLPYIIVVWSNAIQGVYLPGWANYIYMKDGTAVYAINVLNIHPVNSTLTGDFLFSSVASDLPRHMQPYASESLYAFNVLDCMYEPLATTPLTDVTSVLPPSQLVPMLAKNWTLDTGVTTTAPNGEKIVNGTILTVNLVHNATWINGYPVTAYDVNFTYWYYDLAGISGTNTFDGITLNYTYLIDNSFINTDVFGSIPQLVDSQVTNPYQIVFYLNSTSDLVIDETLTEIDIYFPASVYSHIQPATIWTDKYAPLISNGPYMWNSTSSAFSDEEFTLTYNPHYFKIDPLIFLANVKAGTPYNYTTTFTYYNWDNSTDSLVPTPANGTAYVWLKALDVPGVPYGNYTKPVTMSMIAPGEYSAMINTTGLPAGIYEIVAKIISPGGLEEYSYGSLNVSSVPVVTTTHPPVTTTTTTHPPSISPIVYAGIAIVIVIIVVAAVVVLLRRR;locus_tag=LOCUS_04700;note=WP_010978696.1 ABC transporter substrate-binding protein (Sulfurisphaera tokodaii) [pid:55.8%25%2C q_cov:94.6%25%2C s_cov:94.2%25%2C Eval:1.2e-236],MGA_471
sequence1	MetaGeneAnnotator	CDS	426780	427925	.	+	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978695.1;translation=MNSKNMKIISIALVVFFIILLVSAIYSTYFSENYSIIYLPKFSKIVSFIPISSNSILIAGNEILGNTTEGLAGIYYINNNSFIDLNLNGSFDNGSIYSVASNGSSYLFVGAKYIGTELVPTAFLYDNGKIYNYSKYFSSFAPGQAFAADWFNRTWLVGGDFVIYQSGGQHSIMFMFLVGIKGNEAIDYTKNISMELGELPEGEIFTINNSSNEVLIGGSFSIYTSVFLLSNENLNVDPSTILYKTPGSILTASPYGKLWLAGGMEFTPQSVEAPQPYPVPYLITVGNNISQINIPYKIGVITSIATESDKIAVAIRVPFSQYQNITGGSVILYGKLSSLSKVYQSEDISINQLSFIHGYLLGVGYKIAGNNSVGVLLLYKV;locus_tag=LOCUS_04710;note=WP_010978695.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:32.9%25%2C q_cov:97.9%25%2C s_cov:98.9%25%2C Eval:5.8e-44],MGA_472
sequence1	MetaGeneAnnotator	CDS	428094	429032	.	+	0	ID=MGA_473;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429734.1;translation=MLFAIINFNFFLFDIIPVIFNINIASFYVPPGFTHSGLSRSTIVEGVERQFGLNKPLDIRYIDYLKDIVTFNFSTSFHYEEPVTQLILQRLPITAMIVIPALILTTIMAIFFGVYSATREGKAVDHVISNSAIITYFIPVFWLGFIIWYFLTIQTNLFPSSYTLALLEKGNRELNLIYLLIPPILTLSITSFGVRTILMRNNSIDTLDQDFVTVLKAKGLPRSKILYKHVFRNAFLPVFTRVGIDLAFLLSGIVFIEDVFNIPGLGRLLLTAATHFDIPLLLGDFFTISLFAIIVLTLMDFLYVLIDPRVKY;locus_tag=LOCUS_04720;note=WP_198429734.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:46.9%25%2C q_cov:100.0%25%2C s_cov:90.5%25%2C Eval:5.9e-81],MGA_473
sequence1	MetaGeneAnnotator	CDS	429034	430467	.	+	0	ID=MGA_474;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978693.1;translation=MNSTFKRLISQKSFIVSIVIIGFVVGLALFSLVYGSYNPYYTSSYYVSAPYSVPTWATIFPQYKGLPPNLHENFTYNGQLEKYNSTTYEIIVNPGQVKNIFFEINWKYKAPYSSVFSLDVYPNVSSNQAFFINMSWITPSNVSEELISAAPVSQEPFIFASYMTFISSDKWIPIVFNTQYSTTIPSPFVSSLPSRDQIIAPEILPDLMFPKPGEYHLELTFSNNSTKPEEFLFTLPSFSEKGYVYGLLGTDENGAPVFPEFAIGARFDLEIALIASILIVFIGAAFGIISGYFGGKTDTAVVGVTDFFLLLPGLPLLITLEIILVKAGINIPRIDLIVLLISILSWPATTRVVRSQALSIRSRTFIEAAKSLGLNNRQIMLRHVLPNLIPIIAAQVAYDVPTVILIESGLDFLGLGITGFPTWGNMLGFASTHISSANSFAWWWVLPPGLGIVLLSAAFYYLGNAFIDTFSSRRIGE;locus_tag=LOCUS_04730;note=WP_010978693.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:45.9%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:9.7e-111],MGA_474
sequence1	MetaGeneAnnotator	CDS	430470	431453	.	+	0	ID=MGA_475;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978692.1;translation=MFDELVQNPILEVKDLSVHFYSKTREVKALDNIFISLEKGKVLGIAGESGSGKSTLAKAIFRILPYNARILKGQIIYKGTNLINVNENDLQKKIRWKSIAYVPQVSMNSLDPVYRVKSQMLETIFAHEDVSKAEALERIENVIKDVGLPSEILDKFPHELSGGQKQRVMIAMSMLLNPEMLIADEPTTALDVVIQAQIIAMIKKIQKEKNLSMIFITHDLSLLAQISDIMAIMYAGKIVEVGKVEDIYYSPLHPYTQLLIKSIPSIKNRKKKLISIPGEVPDLSDPPQGCRFNPRCPLAQEICRKESPELTRVNGSHYVACFMVGGQ;locus_tag=LOCUS_04740;note=WP_010978692.1 ABC transporter ATP-binding protein (Sulfurisphaera) [pid:55.8%25%2C q_cov:97.6%25%2C s_cov:99.4%25%2C Eval:6.6e-107],MGA_475
sequence1	MetaGeneAnnotator	CDS	431453	432400	.	+	0	ID=MGA_476;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846907.1;translation=MIEGKALKIFFKSREKLIKAVDDITIKLQKGRILGIVGESGSGKTTLIRALMGLQKIDDGIILYNDKDISKLKSKEWKEFRKNNQMIFQDPFDAMDPRFKVYDTVAEGIRAQGIASSKQEEKELVYNTLSKVGLTPPEKFSDVFVTQLSGGQLQRVSIARSLVLKPEIIAADEPVSMLDVSIRAGILNIFLDLKETENVGFAVVSHDLSTLSYIADELYIMYMGRFMESGTVDDIIEKPLNPYTQALLSAIPEPDPKHRGNEITLKGEISYDHFKYGCRLYPRCPFAMDICAKEAPQPIEVSPGHVVACHLYLRR;locus_tag=LOCUS_04750;note=WP_052846907.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:55.3%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:1.7e-96],MGA_476
sequence1	MetaGeneAnnotator	CDS	432402	432893	.	+	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQEELENPLSKSEKIFAIFLVILSIIISYLEGNIPLYLSICSLSVFVLLYRFYSIVKMLTQNKYEVNIIPKVRYEKTRFINLTIIVMLFLFVPFALLYLLPLRLWITATLGIISLWPISSLLASLIIYKIERKFNGRLFRYYIIEEKLGEVVIKEYGYKIIKS;locus_tag=LOCUS_04760;note=MGA_477
sequence1	MetaGeneAnnotator	CDS	432883	433302	.	-	0	ID=MGA_478;product=thioesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979056.1;translation=MAIRYVNKEVVKVYDTDFQQVAHYAAYYRFFTDAVTNFSKEVFGDSTETLAYRGVWFVVVESSAKYMKSAKLGDELDVEVTAELLSKKAIKYSFEIKRKGELLTTGYLVMVCVDPEKWKATEIPQELIDKFKIYEKSMT;locus_tag=LOCUS_04770;note=WP_010979056.1 thioesterase family protein (Sulfurisphaera) [pid:47.3%25%2C q_cov:94.2%25%2C s_cov:97.0%25%2C Eval:1.6e-30],MGA_478
sequence1	MetaGeneAnnotator	CDS	433333	433737	.	-	0	ID=MGA_479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRDIGKNAERELVSILKSEGFYAVRIPTSNSSSNPLPDIFATKRNLLLAIECKSTWEDKVKVREIQIRKLFEFLSMFTMDGKAVIAVKFKNIHKWKIFEIQKIEEIVVTKDNSEFLENFLSLTIKKSIEENVV;locus_tag=LOCUS_04780;note=MGA_479
sequence1	MetaGeneAnnotator	CDS	433763	434950	.	-	0	ID=MGA_480;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742630.1;translation=MKCYIHATIASFFAWAGNIYDLLIITYVYEYLEKYLGLNTVDGTLLFALGLIFRVIGGYVFGKIADIRGRKIILILGTAGYALFQGIMAFSPDIIILLLARSLQGLFMGAEWTAGTVIAYENAPINLRGLINGIVQAGYGMGYAFTGMAFILFSPYMEGIGWRIFLLTGALPLILLPYIQLKVKNVSIKISKIKVDIKEYYSVLIRSSVIISGMFFSYYSIFAVYPEFSESIGLSKNFVGSIMLVSNIALGISFIIFGRLADRISKRKLIIGGVIGEMIGLPFMLPISFYLRSPPTILSGLMLYSVSTGFWPLAPLLIVESVPPEVRSALTGLSYNLGSVIGGIGSIIMGSLVQIYGLSSASVWGNIMGYASLTVVMATLLTWPRGSISQKATNL;locus_tag=LOCUS_04790;note=WP_084742630.1 MFS transporter (Sulfurisphaera tokodaii) [pid:62.1%25%2C q_cov:92.2%25%2C s_cov:97.6%25%2C Eval:9.2e-125],MGA_480
sequence1	MetaGeneAnnotator	CDS	435101	435337	.	+	0	ID=MGA_481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEEKVLSSPIKRKIVYLLKTDGPMIFKTIKDEISISSDSLKIALNDLEADGIIKKKKGKIELTELGKEISQKISSME;locus_tag=LOCUS_04800;note=MGA_481
sequence1	MetaGeneAnnotator	CDS	435327	436229	.	-	0	ID=MGA_482;product=agmatinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003895813.1;translation=MRQLDALKSPRFTQISTYGRLPICEELVNVKAVFLGIPFDDATTYRPGARFGPSAIRQGSRLLRPYNQFVDIHPFDTLNMCDAGDVNAIPGYIEDSMRIIEEEVSKINAIPFIAGGDHSITLPVLRAMYKTYGKVNLVHLDSHYDFWDSYWGKKYTHGTWLRRALEEGLLKEVVQMGIRGSLYSKDDIEDSKRLKIKSFTIRDLKYKLEEVKKQLPSGKTYVSIDIDVVDPAFAPGTGTPEVGGLTSFDILEIVRSFKFDIIGFDVVEVSPPYDVSEITSMLAANILYEGMSVLAKSTTP;locus_tag=LOCUS_04810;gene=speB;EC_number=3.5.3.11;note=WP_003895813.1 agmatinase (Mycolicibacterium smegmatis) [pid:45.2%25%2C q_cov:97.3%25%2C s_cov:95.0%25%2C Eval:1.8e-71],MGA_482
sequence1	MetaGeneAnnotator	CDS	436555	437868	.	+	0	ID=MGA_483;product=circularly permuted type 2 ATP-grasp protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_218265777.1;translation=MIKPRKITESKFFFEYDEPYYSNLLEIIDKIPDFFKYVELINEVAYREGFTFYTQDYYRSIKVDPIPRILQAQEFREISRGLKNRALAINKFLYAVYHGENTPVAEDFITSSPYFRPEMMNFDPPKGIYVYIFGEDLVKVNGFPLILEDNVRIPSGMTYAVKASELFERFLGEMMQINRQRQDGLELLKKTLHYASDTRDPVIAILSDGTLNSAYFEHRFYSDKLDFLLIEPSDLIIKDGEVLAKTLDGEIHIDVIYRRIEDLDILTPGLMKAYLRGWVNLVNAPGTGIADDKITFCYMPQIMDYFGIKEGVKQPFSVPLGASKEEIINKLENMVLKRREGYGGSGTYVMKDMRDEEKRKVLKEVLSYPEEFMAQELLNFDTVLSAINDNFYETYADLRFFVFIDSTSNTILSRVAPLGSRITNNSSGGMVKPVWVV;locus_tag=LOCUS_04820;note=WP_218265777.1 circularly permuted type 2 ATP-grasp protein (Saccharolobus shibatae) [pid:50.1%25%2C q_cov:99.8%25%2C s_cov:98.2%25%2C Eval:3.4e-123],MGA_483
sequence1	MetaGeneAnnotator	CDS	437856	438653	.	+	0	ID=MGA_484;product=transglutaminase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979622.1;translation=MGGVTYGVFYQAKYEYEDVVMLNDNTLKIVPYDGDNQHVIEEKLDTEPKGYSVKFKDNFGNTVYRVKILDPHNAMVITSKSVVEVYPKKFEDCEIPCSEDYVFTRSSSLIDIDYFKNIATELLKSHKTLDDFVRSTIDLVRGKIKYKEGVTNVYTKAHESFSLGYGVCQDFTQITIGILRAAGIPARYVMGLVDDNPNTTHAWVEFKSRDGWIPVDPTRNKFYDLSYVKFAIGRDYNDASPIVGSFVSRGRGWLKQSIVEVKKID;locus_tag=LOCUS_04830;note=WP_010979622.1 transglutaminase family protein (Sulfurisphaera tokodaii) [pid:52.9%25%2C q_cov:98.1%25%2C s_cov:98.9%25%2C Eval:5.4e-74],MGA_484
sequence1	MetaGeneAnnotator	CDS	438646	439053	.	+	0	ID=MGA_485;product=alpha-E domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979623.1;translation=MIKSTAYKVYWTGRYLERIENIARFGVYLANNGISIQEMNNILGVKDAFLYISNEFQLLREDIRGFGDEAVMNALSSLETTIYAKRDNLSKYFADILNTIIYLENMVEENLKPQFVSIMPKKQEEIGSQEKIKKS;locus_tag=LOCUS_04840;note=WP_010979623.1 alpha-E domain-containing protein (Sulfurisphaera tokodaii) [pid:40.2%25%2C q_cov:95.6%25%2C s_cov:90.6%25%2C Eval:6.2e-19],MGA_485
sequence1	MetaGeneAnnotator	CDS	439057	442974	.	-	0	ID=MGA_486;product=protease pro-enzyme activation domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980576.1;translation=MSLKPLLLVTVFLISIIGITGLGISNPQGITIQPYQLHGFKEIGTLNPNTPVLFTIFLPLKNVGYLYYYAEETSNPSSSLYHHFLSKQEIEKMFYPVKQYNQVLNYLKNDNFNILLTSSDSVIVAEGTVSQIHQYLGLSYVMYSNGTDYYYSAYGTPTINAFVYSSNISTIFFSHPNTLVTGKTIQNLKKSVEISNMTFPIEAYWPTALQKVYNATSLYALGDEGQNRSIGILDFFGDPYIQQQLAYYDKVTGLPNPPSFKIIPIGPYNPNLGIETGWAGEISLDVQISHTMAPKANITLFIANGALPLAAIISYIDQLDNVNDLSQSFSIPEEAFSQFNAQEFYACVVESDMYYAMGSAEGITFLASSGDAGGAGYSNGPLGTVGYPSTSPFVTAVGGTTTYIQFPGSYYQSAWSNYGFVPNDVNYGGSTGGISEIEPIPYYQWGLQTPLSYPNGREVPDISGNANVYPGIYIICPGNITCITGGTSEASPLNAGLLTLVMNYVNSSLGLINPILYEIGFNSSLYNKVFNPITFGYNIPWVASYGYNLVTGWGTLNVGEFAYYYSKIITKPSLNIEVNVLNSTGETPIEFFPNETMEIIANITYKGISITSGNFYATVETTQGNISSVQLTFNPSLKLWIGTLKLPSTANGILYVNVYGSSDGISGRGFYETFSGYYVQFLSPVTFAPIFTGVSSAIIANVTDIYGNQPTFPIAVNIYYYNISINEYTPVTTLNLIPISASVIGYPGLIWVGKIPYLPSGDLYITSENAEGFDAFTSGTMLQSLFILPPNVAEPGSVAPGQNIIIQGLPTPPYNLVTITSIQTGEPIFNNILQGTNITAELVSSSGKVVSKAVIPFNLEKGIYLGYLPVPNTEPGIYYIYLESNYSSITLGENITGFFYGAIYVNNYSHINIKTESYAYQGQTLTIYANITYPNGSEVNYGMYSATVYPMAITNEYSLVSQIVELPLWYNSDLGEWIGNVTLPSTFNSGNLTYYEGELYYGAPFEILVTGLSSEAYPTLNSPSAEKTFYVLPYNLIKNQKVDGFQTYDAVLVNDTIITNGSLTNDILINDTVIGNVRILDSNITNVTFDNSNVTLLYSQSDNIHAINSMLILINSKVNTISLENSKILTMESVITNISPSLPTISITYPLNNQNVTGSITINFTVTGKNISQDILYLNGKMLTSFSGNGTFTYTLNTEKYPDGTYNLTITSLQNDNLESSATIYVNFENELTNVNNNLTQVNQKVSNLSTELKEQNSTLSSQISSDISSVNSSLNSIKDLIYVAIIIAIIGIIIGVVSLVRKGR;locus_tag=LOCUS_04850;note=WP_010980576.1 protease pro-enzyme activation domain-containing protein (Sulfurisphaera tokodaii) [pid:54.2%25%2C q_cov:97.6%25%2C s_cov:97.8%25%2C Eval:0.0e+00],MGA_486
sequence1	MetaGeneAnnotator	CDS	443514	444686	.	-	0	ID=MGA_487;product=M20 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582490.1;translation=MNYTSILNEAKQIEPKIIEIRRKIHENPELSYKEFNTSALVESFLKNLGIQVIKGVGLPTAVVGIIDSGKPGNTVALRADMDALPVEEATDLPFKSKNKGIMHACGHDSHVAMLLGASILIKKYLTKGRIKLLFQPAEEDGGLGGAKPMIDAGVMDDVDYVFGLHISSAYPVGTFALRKGPIMATPDSFKIIIHGKGGHGSAPHETIDPVFISAQIILALQGIRSRIIDPRQPFVLSVTSVHSGTKDNIIPDDAIMEGTIRSLDESTRGKAIEYTKKIVQSICSAFNANCEVKFMEDVYPITVNDPNITEKVIRILEKIEGTKTIETEPILGAEDFSRFLQKAPGTYFFLGTRNEEKGYIYPNHSSKFMVDESVLKLGTTALTLLALEFS;locus_tag=LOCUS_04860;note=WP_012582490.1 M20 family metallopeptidase (Dictyoglomus turgidum) [pid:45.9%25%2C q_cov:91.5%25%2C s_cov:92.1%25%2C Eval:4.3e-82],MGA_487
sequence1	MetaGeneAnnotator	CDS	444829	445617	.	+	0	ID=MGA_488;product=aldose 1-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846458.1;translation=MLEISDGDLIAQIMEEGAYLYSLTKSGKDVILKGKERKTHGGMALLIPYANRVKDGEYIWEDKKYELPKNSEGNAIHGLIMDKLFDVKFKGKSRVTLEYLLSHPGYPSTLRITITYSVVFDLLDVFITVKNEGEVSAPLVVGAHPYFLVRGKWSITPDRVRRCLMENKIPTGNVEDFRIVQKDYDDCFIIENREITLKSDYSTVAIEKSNMDYIQLYTGEPGAVAVEPMSGAPDAYHNGLGLIILEPSKSRDFNFTISAVIH;locus_tag=LOCUS_04870;note=WP_052846458.1 aldose 1-epimerase (Sulfurisphaera tokodaii) [pid:53.9%25%2C q_cov:97.7%25%2C s_cov:98.1%25%2C Eval:5.3e-74],MGA_488
sequence1	MetaGeneAnnotator	CDS	445629	446162	.	+	0	ID=MGA_489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKKFRLNPKPYEILKMSSLLLLVYSFSFSITYELDHSLFSYLSIIASTFFIFGFGYYVRKAFNNMSEEYGLIIKVSPVLFIGQLIYLVSFFLYDISFMSIVEYIGVILVLAYLLEFSLEILRLAGEFNLRELKISAYVILASLLAFVIVGPIPFSFILTIGSVILYLGINKILYLK;locus_tag=LOCUS_04880;note=MGA_489
sequence1	MetaGeneAnnotator	CDS	446298	447551	.	+	0	ID=MGA_490;product=amino acid permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978848.1;translation=MFQALSIGLGNIIGAGIFIMAGASITAAGPAAILAFLITAFYATTVGISNAELSSDFPSVEGGVYSFTLLTMGETLGFLVGWFRLIAYSISGAATALGFSGYLISIGLPKILYFPIAAFLILILVIIDYLGLRLAAVIESSLVVLNILGLLLFSFSSLFISGIKVGNFTPFLPHGILGVLVASNIAFFAYSGFNTIATLTPNVENGEKTVPKAIIFSLIISASLYMLVTFSMVDSLYWNKFGTASDPLSLVLSSIRAPSYLIYFIDLTAIIATITVTLSIIIAGERTLSQMVKDSMLPKILGGKKTTLLIISAIMIASLSLGNVESIALASNFGIVFSYMLSGIQVAIARKRKIKGKFRSPLYPFLQIFSVILSALFMASLGENALVIGVVTLIVGLVVFSLHKEFIKEFESRRAIR;locus_tag=LOCUS_04890;note=WP_010978848.1 amino acid permease (Sulfurisphaera tokodaii) [pid:60.8%25%2C q_cov:97.6%25%2C s_cov:96.0%25%2C Eval:1.7e-132],MGA_490
sequence1	MetaGeneAnnotator	CDS	447686	448396	.	-	0	ID=MGA_491;product=5-formyltetrahydrofolate cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978111.1;translation=MDKQEIREEIWKILEEKNIASFPRPVYGRIPNFKGSNIAAQILSKTPEFKKAEVIKVNPDSPQRKIREIALTQGKKVLSPTPRLKGEFFLLDGKKISDPKKASSISGFTSFGEKINFDKIPPIDLIIVGSVAVTRKGDRVGKGEGYSELEYAILRELSKIDEKTPVATTVHSVQIVEEIPYQIFDVPVDIIATEQELIRTHSERKKPTGLYLEFLTKEKIEDTPYLRYYLKITGRY;locus_tag=LOCUS_04900;note=WP_010978111.1 5-formyltetrahydrofolate cyclo-ligase (Sulfurisphaera tokodaii) [pid:63.7%25%2C q_cov:99.2%25%2C s_cov:97.9%25%2C Eval:1.4e-83],MGA_491
sequence1	MetaGeneAnnotator	CDS	448423	450267	.	-	0	ID=MGA_492;product=glycoside hydrolase family 15 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980092.1;translation=MFYAINNMRSGFTSNGKISALYDNNFYIRELYYPYLGQYNHSVGGYFKIGIWHDGKFTWLDQINDKDKKIYMDNLIVNAEIEWYNIKVKFSDVAIFSHSVIIRKVDVKGEGYIRIIFYHDFKLNGNEIGDTAFYDPELDSILHYKDNTWFLIGSSHKLYEYTTGRRDKKEVLNDCEDGTLNKNSIAQGSVASAISIAYPSFYYFIIAGETFDHVVSIYKEIKENPEFHYAKNKFYWNSITSEFTDNLAKISLAIMLGHIGDNGAVPASLDTDILKFNLDTYAYVWPRDAALTAYVLDMAGYSSFTRKFYDLVFHKLFENGYLFQKYNPDGTWGSTWHSWTARTKKSFNIQEDETSTVIWAFWNYFTKSRDYDMLKNIYHTIRDAADFMVKFRDEKLKLPLETFDLWEEKLGVHTYTVASVYAGLKAASNFANVVGDEENMKKWNDVAEEIKNSLKNYMFDKERGIFYKFINIDDGKITSVDKTVESSILGIVTFDVFDINDPIVTSSINEIINKLWVKNIGGLARYENDSYQRIEGDYNGIPGNPWIITTMWLAQYYAKKKDMNKAKELLAWAEKHSISGLLPEQISPFNGGPLSVMPLLWSHAEYLKTYLMLK;locus_tag=LOCUS_04910;note=WP_010980092.1 glycoside hydrolase family 15 protein (Sulfurisphaera tokodaii) [pid:38.7%25%2C q_cov:97.7%25%2C s_cov:98.2%25%2C Eval:2.0e-114],MGA_492
sequence1	MetaGeneAnnotator	CDS	450409	450855	.	-	0	ID=MGA_493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156014741.1;translation=MKLLSVLGIVIIIIGVIVASFSLIFSHEETYKTNNSIILGPYSRYSVPYLSDSEIIFTYNSTLPVNVSGYPSSATLLNNSVLYTICFFSSKEGNLSLYNPYNSTSVFQYILEEATMKDVFVEYGFIAGLIITGSGIFITIYALATKKK;locus_tag=LOCUS_04920;note=WP_156014741.1 hypothetical protein (Sulfurisphaera ohwakuensis) [pid:38.2%25%2C q_cov:91.9%25%2C s_cov:93.1%25%2C Eval:3.8e-23],MGA_493
sequence1	MetaGeneAnnotator	CDS	451541	451714	.	+	0	ID=MGA_494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVTLDPFNVILCKYDYSYWLLPDLEMKLDMCFKLEGEIEEYFKERFLRYLPVKMEE;locus_tag=LOCUS_04930;note=MGA_494
sequence1	MetaGeneAnnotator	CDS	451801	452838	.	+	0	ID=MGA_495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIANFVKKYFYPIHNAPSYSIYALVYYNEIFYVDISKDNKKILIYKKKINSKLDKILESKGGIEDFNNIKLEIDVDKDILGILRKAIYFTEESHYSNNIRKEYKTYITNTKFIIGRMNVKKAKKLLTRAKLLAKDFSKKYNSCDLLTMIDVASLIIKALEKKEGNPIELYFKYADFRNPITNEVYGGKVWNICKNKKEEECFEELYKYLDEKRKNGTLEPMYFYQSTYDHTNEIYSGNYDFHIHYDGIWWVGFHDFTYNSDYAMKFQEELINANLGIIVSDLDFLYNQYINPEPKELSWEGLHFYVPKYAIPIMPNISVLTDDGLKEYEKMRKKRYAIHLKHDL;locus_tag=LOCUS_04940;note=MGA_495
sequence1	MetaGeneAnnotator	CDS	453024	453401	.	+	0	ID=MGA_496;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429703.1;translation=MSINISAEIYYNEAEELLSKGDLVQASEKYYKAAEESVKLLVFENNLKDIIKESEEYGWDSKTLNDAVTELSYKLGDNLIDLWASAVTLFTSRKYLDKDLIENYKKDVKTLVEKAKQSFHLKVVE;locus_tag=LOCUS_04950;note=WP_198429703.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:48.3%25%2C q_cov:94.4%25%2C s_cov:90.8%25%2C Eval:1.8e-23],MGA_496
sequence1	MetaGeneAnnotator	CDS	453343	453726	.	+	0	ID=MGA_497;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156015132.1;translation=MLRRWLRKPNKAFILRLLNEAEELLSKGDLVQASEKYYKAAEESVKLLVFENNLKDIIKTIENRGRWESEDLFKSCKLLRFKNSEILRFWTSAWTLHVEGFHELSLSEKEIRKLKEDVKRLVSFTIS;locus_tag=LOCUS_04960;note=WP_156015132.1 PaREP1 family protein (Sulfurisphaera ohwakuensis) [pid:42.0%25%2C q_cov:88.2%25%2C s_cov:87.2%25%2C Eval:7.0e-23],MGA_497
sequence1	MetaGeneAnnotator	CDS	453842	454006	.	+	0	ID=MGA_498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRIAPEITPVSYPNNKLPIAVITVAIIMNLSSLLSEAYYRYNILVNNYFLEIM;locus_tag=LOCUS_04970;note=MGA_498
sequence1	MetaGeneAnnotator	CDS	454173	455108	.	+	0	ID=MGA_499;product=NAD-dependent epimerase/dehydratase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979934.1;translation=MNYLVLGLGFVATHVAEFLSNYGNVTVTYRNLNPVKEIYMDLLKEKHVNIIKLDPLIDDIGKYIAQSDTIINLIGEISGSEEALRRANVEVPRLLSKTISEINPNATLIHLSGLPGVTGNNVKPETSHCEGINPITLFEKTKCEGERVLKNNAKFNLAILRPSLIYGKYGAHIQFITMYRFAKMGFVPSLGFRFSVISANALSRIIKNLSEAKPKFTYFYVTECEPIRIDVFFEIMAKTLGKGYIKVPIPKFLAKAYLPSDIRNLLKYDGTTFDCSKAKEFAGDLKFDEKEVEENAKFLQYLDKNRILIPT;locus_tag=LOCUS_04980;note=WP_010979934.1 NAD-dependent epimerase/dehydratase family protein (Sulfurisphaera tokodaii) [pid:52.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.9e-86],MGA_499
sequence1	MetaGeneAnnotator	CDS	455101	455397	.	-	0	ID=MGA_500;product=nucleotidyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978737.1;translation=MRFEDFINEIIKYYNGKVSIALFGSRARGDFWESSDYDIMIFLDKVKDSAEEASKLYAMKRGFSADILVLTTDKLEDPIIRKMLEYKKVLYDGLKIFK;locus_tag=LOCUS_04990;note=WP_010978737.1 nucleotidyltransferase domain-containing protein (Sulfurisphaera tokodaii) [pid:72.2%25%2C q_cov:99.0%25%2C s_cov:98.0%25%2C Eval:4.9e-37],MGA_500
sequence1	MetaGeneAnnotator	CDS	455432	455806	.	+	0	ID=MGA_501;product=HEPN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846402.1;translation=MVEKFWFEKSKEFLEIAKKLLNDGYFWYACFSSQQSVEFALKGILVKYKGSFPFTHDLGEIMEKIENELSINVPENIMHNCDFLTPHYTMSRYSQFTEYNKRKAEECISSAMEILEWLKKNFSI;locus_tag=LOCUS_05000;note=WP_052846402.1 HEPN domain-containing protein (Sulfurisphaera tokodaii) [pid:74.2%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:1.5e-54],MGA_501
sequence1	MetaGeneAnnotator	CDS	455842	457149	.	+	0	ID=MGA_502;product=amino acid permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978848.1;translation=MEEVSFAQAIAVGLGAIIGAGIFVLSGTAISLAGSLSLIAFLFIGLMSVLIATQLGELSTIFPHAKGSTYSYAFEAFGYELGFLTGIMVYFSFSTSIAAVADGFGAYIVSILGLGKSIAVIFSIILIIILTILNIVGIQKAAEADFFLVLIKLSILSIFILAAFIIAFGHFSISHFYSSPNQIGILPFFSSSIAIFFAYTGFQVITSFSDRVKGGPNNAAKAVVVSVLISMIFYILVAFSLILLVPASRFKINADPLSFALDYAHAPSWLHIIVDIGGMIATTSASLAMILLSGRTLYQIGKDMNFPSFIIKYNQSKDVAPIATIISSFIAIVSLFAGNVYIVASISNFGLIFSFLISSLAVFHFRRKKIIGTYKVPFYPYSVILTIIMLMLLLVGFPRESLVINSSIMIIIIILSYILKDLREEKLKNNKIKYN;locus_tag=LOCUS_05010;note=WP_010978848.1 amino acid permease (Sulfurisphaera tokodaii) [pid:29.9%25%2C q_cov:91.0%25%2C s_cov:92.9%25%2C Eval:1.3e-50],MGA_502
sequence1	MetaGeneAnnotator	CDS	457268	458131	.	-	0	ID=MGA_503;product=3-methyl-2-oxobutanoate dehydrogenase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846976.1;translation=MKFLRGNAACPGCPIPKELDALLEVTGKKTVLVVPASCTTVIMGDTTGMPSTVPVVHSAFAASPAIASGISASLRSKGEKDYSVVVWAGDGGTGDIGFASLSGAAERNEDIIYVCYDNEAYMNTGIQRSGLTPYGAWTTTTPSGKREFKKPLPMIVAEHNVPYVATASVAYIFDYQNKVKKAKEIKGFRYIHLLSPCPPGWRYDSSLTIEIAKLAVETGIWPLYEIENGEFRLTSISKVLIDKDKRKPVESYIKYQGRFAKLSAEDIKKLQDYVDEMWEQIKGLIKK;locus_tag=LOCUS_05020;note=WP_052846976.1 3-methyl-2-oxobutanoate dehydrogenase subunit beta (Sulfurisphaera tokodaii) [pid:76.9%25%2C q_cov:99.7%25%2C s_cov:96.3%25%2C Eval:4.9e-132],MGA_503
sequence1	MetaGeneAnnotator	CDS	458128	459285	.	-	0	ID=MGA_504;product=transketolase C-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979581.1;translation=MQVVRGKVLALVGNHAVAYAVKQAKPQVLAVYPITPQTTMLEKLSEYVDKGELKAEMIKVESEHSAMASIYGAAVSGSRVFTATSSQGLLYMTEMIYWVGGQRAPIVAAIATRAIASPWSIWDDHQDFVSKRDAIWIQMMAENVQDAYDMTLQAFKISEDKRVVLPVMMGFDGFILTHTMERVETLPDNVVDSFIPPRQFNLIDFDNPLGVGPIATPDKYIEFRYKAMQAMERSKNVIKEVAKEYEDISGRNQYGLTECYMCDDAEFLLIAMGAWVGDIRVAVNRMRNEGKKVGLLKIRVFRPFPKEEVNDILKGRKGALVFDRAYSFGSGGVLGIETRANAYGLDTPIYNVIAGLGGKDVRPMEIQKITEDMIEGKLENERWLL;locus_tag=LOCUS_05030;note=WP_010979581.1 transketolase C-terminal domain-containing protein (Sulfurisphaera tokodaii) [pid:71.6%25%2C q_cov:99.7%25%2C s_cov:99.5%25%2C Eval:5.3e-170],MGA_504
sequence1	MetaGeneAnnotator	CDS	459287	459544	.	-	0	ID=MGA_505;product=4Fe-4S binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846589.1;translation=MSDEFPLASPKKGSAGLTGYWRVIRPVIDFSKCTRCRLCILYCVENTIDQENNLYPRIDYDYCKGCGVCAQVCPTKAINMIPEVK;locus_tag=LOCUS_05040;note=WP_052846589.1 4Fe-4S binding protein (Sulfurisphaera tokodaii) [pid:71.2%25%2C q_cov:94.1%25%2C s_cov:90.9%25%2C Eval:5.3e-31],MGA_505
sequence1	MetaGeneAnnotator	CDS	459537	460079	.	-	0	ID=MGA_506;product=2-oxoacid:acceptor oxidoreductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979580.1;translation=MLEISLKGRGGQGVVTAGELLVSAAIKEGIYGQSIPFYGGERRGAPVTSEVRVSKEPIFMHRRVYNPDIIAIFDPSLINLENMLEGIKNTGIVVINSSNPKKIWKNTYVLDATKIATQLGLVIAGWAVVNTAMVGAIAKITDILNRDEVEEAAEEEFEGKLSELNAEAVKLGFNEVKKLE;locus_tag=LOCUS_05050;note=WP_010979580.1 2-oxoacid:acceptor oxidoreductase family protein (Sulfurisphaera tokodaii) [pid:60.0%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:1.2e-58],MGA_506
sequence1	MetaGeneAnnotator	CDS	460943	461419	.	+	0	ID=MGA_507;product=phosphohistidine phosphatase SixA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979596.1;translation=MISLIIVRHGEAEPKVDSIEDKERKLIKKGIKQMRRVAGFIDEMDYNFDRILTSTYIRAYQSAEAILDELGEDEKKIETINELDPDKDPSEFINKIKESDNTSMLVVGHEPFLSQLIRNLTGGNIEIKKGGLAVVDYNPVDGKGVLKMLITQKIMKLI;locus_tag=LOCUS_05060;gene=sixA;note=WP_010979596.1 phosphohistidine phosphatase SixA (Sulfurisphaera tokodaii) [pid:63.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-54],MGA_507
sequence1	MetaGeneAnnotator	CDS	461420	462658	.	+	0	ID=MGA_508;product=Ppx/GppA phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979594.1;translation=MLSAVIDTGYNSTRLCIYDVFPNKTFRLLGSSKFFLRIGEGIEEGSSISENKIKDLENTFRLFRNLLDKKNVNNIKVVGTSAFRYATNGLDVAKKITDIIGSQMIILSGEEEGKMAALGVIDTLPIDSGVIFDLGGGSLEVIYFESREIKEVYHFRLGALKLSREYKSEGELRKKIRNELSILKPIKGTLIGSGGNIRALGKMDQKLSAYPLKSVHGYIIKTSEISKYSKVLMNLDPEERSSLPGISKDRAYTIHTASVVIEELANILGASSITISAYGMREGVLIQDKIDDIQKNWLDTISREFLIDPPWEIYNSFDNPFMKLSSFIATIMKEAGFLDPYEACFRFLKYSTIPGFEDNDVLISSLLCKGASGKLKKKYFKLIKNNYNKKDFLKMAKEVKEVVNASVAGVKI;locus_tag=LOCUS_05070;note=WP_010979594.1 Ppx/GppA phosphatase family protein (Sulfurisphaera tokodaii) [pid:43.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-98],MGA_508
sequence1	MetaGeneAnnotator	CDS	462655	463293	.	+	0	ID=MGA_509;product=dTMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979593.1;translation=MKGSLIAFEGIDGSGKSSQTVLLRDWLLEKRDTFLTEWNSSEWIHGIIKEAKKKNILTPITFSLIHATDFADRYEKYILPMLKTGFAVIADRYVYTAYARDSVRGVNIDWVKKLYSFARKPDITFYIRVTPEVALDRIKKSRRQIKPTEAGSDVFPGLKPEDGFLKYQSAVLEVYDKIADENNFFIIDGTLSPREIQKIIREKVMEIWKEEK;locus_tag=LOCUS_05080;gene=tmk;EC_number=2.7.4.9;note=WP_010979593.1 dTMP kinase (Sulfurisphaera tokodaii) [pid:74.3%25%2C q_cov:97.2%25%2C s_cov:96.7%25%2C Eval:5.3e-89],MGA_509
sequence1	MetaGeneAnnotator	CDS	463275	463910	.	+	0	ID=MGA_510;product=thymidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846593.1;translation=MERGKIIAIEGIESSGKSTHAQTLKSYLEDQGYGVIIFGLQMSKLMAEAIARVKKEIVFQRRTLFLAYLTDLADQVENVVKPAIDSGFITIADGYALTLEAWGLTRGLEKDWMEDVLSVLPKPSVSVSLLSPSVEIMRRIIRKRGFLDPLSENVDLCVNSEIFSSYKSYINKFQSYLKDISIGKNIITKKKIEEVNEEIAKYVMEVINLET;locus_tag=LOCUS_05090;note=WP_052846593.1 thymidylate kinase (Sulfurisphaera tokodaii) [pid:56.3%25%2C q_cov:93.8%25%2C s_cov:97.1%25%2C Eval:7.9e-61],MGA_510
sequence1	MetaGeneAnnotator	CDS	463900	464541	.	+	0	ID=MGA_511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846592.1;translation=MRPEEYANFHLKNFLKNTGILEKNIHDSRVDLRKYLAVARSTYVLHGKAECILKGKKIMKKLGKIRDMDVITCLKTEDRDSLAVEVVKSFNTLENCFLPKLYGSRIVIIKSLYNNYIKLLEENDFHKIRKLIRESRFLIDSLGYSSLDLKDISQELGNMRDTYLFQTECQNLQQKIDYERLRELKEKALVEIRSQIMITNFIHIKELLTHHLK;locus_tag=LOCUS_05100;note=WP_052846592.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:42.3%25%2C q_cov:90.1%25%2C s_cov:91.4%25%2C Eval:2.8e-34],MGA_511
sequence1	MetaGeneAnnotator	CDS	464529	465497	.	-	0	ID=MGA_512;product=Ldh family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980169.1;translation=MLTDYNKLKELVTEVLNKRGIEESKVIADHFVEAELRGHSSHGVQRLIPLVKGVELGTIRKELCFEVIRETNDSILVDGMHSIGISLWNMLAEKEFGDTISIIAVRNASHVGFLGYYTEKVAKKGKVGIMIGNAEPAVVKPGSSDKILSTTPISIAIPSKIPLILDMALASTSRGKIIEASRKGYKIPYGVAVDKNGEITDEPESALNGGIMPLGGEKGFYLMLALELLVSYLSGSAVGPQVKGVLNTENPPNKGEIMIIINPRYLESKEDSLEFMRNIIKSELPGEHGLKMREIKMKRGIEIDDKLYSIIQELNNKVPYFK;locus_tag=LOCUS_05110;note=WP_010980169.1 Ldh family oxidoreductase (Sulfurisphaera tokodaii) [pid:55.9%25%2C q_cov:95.7%25%2C s_cov:95.3%25%2C Eval:1.5e-87],MGA_512
sequence1	MetaGeneAnnotator	CDS	465599	465778	.	-	0	ID=MGA_513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYSFKCSDIGQKCGLEIYGAQSEEELLQELSIHARIEHKMNSIPDEVLNAIKSNIKKS;locus_tag=LOCUS_05120;note=MGA_513
sequence1	MetaGeneAnnotator	CDS	465865	466059	.	+	0	ID=MGA_514;product=DUF1059 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846978.1;translation=MLFKKKKYYFNCEDIGMNCGYSIKGASSEEEVLNILKIHAKYSHNINEISNDLLGKIKSNIKKM;locus_tag=LOCUS_05130;note=WP_052846978.1 DUF1059 domain-containing protein (Sulfurisphaera tokodaii) [pid:55.7%25%2C q_cov:95.3%25%2C s_cov:91.0%25%2C Eval:2.4e-15],MGA_514
sequence1	MetaGeneAnnotator	CDS	466153	466938	.	+	0	ID=MGA_515;product=winged helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979642.1;translation=MDEIDKKILYYLLKDGRVSQRSISESLGLTPPTLVYRFKKMREDGILYGFSVLVNPNFYGKYYGFGAFKNIKDFSADWIFFKLKCFEWLNVYGIEGNSIEDIKDKISYMSKDLGEIQMTYVPEQEIITPNQFDVRILSKLLEDPRAQPSDIAESLNLSSKLVSKRLKIMESRGYIKVLPIINIPKSGSVIFSMFSMRIKDIRNILNECRFMEITDMKAGIQICFAESMEEAKKYINAVRAVDKQADVMLIYDYFIKRVDVK;locus_tag=LOCUS_05140;note=WP_010979642.1 winged helix-turn-helix transcriptional regulator (Sulfurisphaera tokodaii) [pid:52.7%25%2C q_cov:98.1%25%2C s_cov:100.0%25%2C Eval:6.6e-77],MGA_515
sequence1	MetaGeneAnnotator	CDS	467049	467531	.	+	0	ID=MGA_516;product=Lrp/AsnC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979029.1;translation=MELDDTDLRILKMIQGDAKFPLEKMADILRIPKSTIAYRIKKMEKSGIIRGYFTSIDPSSIKLDYVIISLVKAKYGKDYHDILGKKLSELPGVWGVYFVLGDNDFIVMGRYKTREDFMKNYLERLMDMPEIERTNTQVVAKTIKETPYVVIENILNPDNK;locus_tag=LOCUS_05150;note=WP_010979029.1 Lrp/AsnC family transcriptional regulator (Sulfurisphaera tokodaii) [pid:63.8%25%2C q_cov:93.1%25%2C s_cov:99.3%25%2C Eval:2.3e-54],MGA_516
sequence1	MetaGeneAnnotator	CDS	467641	468732	.	+	0	ID=MGA_517;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429682.1;translation=MLITTIPLIADYYFHFTPTFIGLVSSMASIFSFISSIFINSKLYPSLRRKVFIASSFLYAFTFPLFYLVNPILVWIFASIAGFSMGIIFPNIITFAGSIGDQKSRERMLSLYTTSLSVSLILSPSIESLILSKFTLIQAFLFFSLLSAIVPIIALKIKFFETNKKMGKVAFANYRVIKSPGFLVSLFNNIMYDIPFGMIETFGGIYAITLFHVSYSTATLLFTFYFLTSFISRSILTIRPPFHVIKLVILNSVISIIGLALASMSYNLSMYIFSLLLLGIPHGLTYPSSLILLSRSFTDEETRSVANSYFSGILIGLAAIIPIVMAVSVEIIGLRYSFGLLTAVVLFFFLLVMKEYNKLKQNI;locus_tag=LOCUS_05160;note=WP_198429682.1 MFS transporter (Sulfurisphaera tokodaii) [pid:36.9%25%2C q_cov:97.5%25%2C s_cov:88.6%25%2C Eval:6.2e-64],MGA_517
sequence1	MetaGeneAnnotator	CDS	468919	469575	.	+	0	ID=MGA_518;product=urease subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156014321.1;translation=MLFTPKEQEKLLLSWAAEVARRRKAKGIKLNYEEALAIISDFIIESAREGKKMSEIIKESQMLLSENDVMEGVPELLDLIQVEATFPDGTKLVTVRNPIKSDKSFLNTYDIKDGEIELLDEGEISITNSGDRPIQVSSHYHLFEVNSKLKFDREKAFGFRLAIPAGTAIRFEPGQTKLVKIRKIGGNRRVTGLNRLTEGSLDHNKEEAMKRAKEKGFI;locus_tag=LOCUS_05170;EC_number=3.5.1.5;note=WP_156014321.1 urease subunit gamma (Sulfurisphaera ohwakuensis) [pid:75.7%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:6.5e-90],MGA_518
sequence1	MetaGeneAnnotator	CDS	469572	471245	.	+	0	ID=MGA_519;product=urease subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979035.1;translation=MKLSRQRYSELYGPTEGDKIRLADTNLYIKIEKDLITKGDELVFGAGKSARDGLGLLPTSREEDSMDLVITNAIIIDPSIGIVKADIGIKNGIIIGIGHAGNPFIMNGVDFVVGSSTEIISGEGLIATPGFIDSHVHWVAPQQIFDALSAGFTTIIGGGTGPAEGTKATTAVPGSWNLKMMMEALDPFPLNFALTAKGSSGRISMEQVIHSGASGFKIHEDWGAMPSVIDETLTVADEYDVQVTIHTDTSNESGYLEDTLNAIGGRTIHAYHVEGAGGGHAPDIIRISGEPNVLPSSTNPTKPFTIHTYDEHLEMLMAVHHLNPKVPEDIAYAESRIRAETMAAEDYLHDIGAISMMSSDSQAMGRVGETGIRTFQLAHKMKELNLINIDDNFRVLRYISKITINPAITHGISDYVGSLLPGRVADIVLWDPRFFPVKPYMIIKGGAIAWAIMGETNASVAYAQPLLYKPMFGYYSAPMVSFFFTSQEGVKEASKVVKRSVLPVKNTRKLGKKDMKYNSTLPKIEVDPDSYEVKIDGIIPKVPPAVKLPLTQLYFMF;locus_tag=LOCUS_05180;gene=ureC;EC_number=3.5.1.5;note=WP_010979035.1 urease subunit alpha (Sulfurisphaera tokodaii) [pid:79.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-269],MGA_519
sequence1	MetaGeneAnnotator	CDS	471256	471729	.	+	0	ID=MGA_520;product=urease accessory protein UreE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979034.1;translation=MNVIKRLGNENQFRNLIEKARRSNLLIEAYVDRQCFERHRCKIKVDNKEISVNMLGIPLKDGDVLVTDEGYIVILRLKEESVLSFKLNELEKSFKLGYEIGNLHLRIMLKDNEVIIPTEIGIDYLLQKFKDYNPKLKKEKFLPNIEPTAVVISFADT;locus_tag=LOCUS_05190;note=WP_010979034.1 urease accessory protein UreE (Sulfurisphaera tokodaii) [pid:46.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-36],MGA_520
sequence1	MetaGeneAnnotator	CDS	471716	472312	.	+	0	ID=MGA_521;product=urease accessory UreF family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156006518.1;translation=MLIPRIFQIFDSALPIGSFNYSSGIEEAYYRGYNIENFIYTVFNNVILKGDTVAVIKSFKDPYYMDELVYASKLTNELREMTTNMGRSLASLDLCQDDFIRNVKEGKTYGTYPVVVARICKCLGISEDDCAIGLTYSEASLLVFSAVRLGAISYYRGQEILSTLLNRIEIHEEFEPFDPILDILSKSHEKREPKVFMS;locus_tag=LOCUS_05200;note=WP_156006518.1 urease accessory UreF family protein (Stygiolobus azoricus) [pid:59.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-63],MGA_521
sequence1	MetaGeneAnnotator	CDS	472309	472938	.	+	0	ID=MGA_522;product=urease accessory protein UreG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979032.1;translation=MIKIGVLGPVGSGKTTLIEFLAKEFIKMKFKVGIVTNDVVSNFDAVRIYSDLVLKDKVLPKENIVGLVTGGCPHTAIREDPSLNMRAIETLSRKSKLDIIFIESGGDNVMSTFSPLLSDYSIFVLDTSAGDKYPRKGGLGITQSDLLVINKIDLAPYVGADLSKMREDAESVREGKPTAFISLRTMEGTEELMRILLEDLNIEGLLGNK;locus_tag=LOCUS_05210;gene=ureG;note=WP_010979032.1 urease accessory protein UreG (Sulfurisphaera tokodaii) [pid:69.6%25%2C q_cov:98.6%25%2C s_cov:99.0%25%2C Eval:1.2e-82],MGA_522
sequence1	MetaGeneAnnotator	CDS	472913	473518	.	+	0	ID=MGA_523;product=urease accessory protein UreD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846462.1;translation=MKAYLEINNYNNKFYIFKEGPLGAFKVNKTIYIVNPSEVLANNDNIEIKIATDEGKITDQAYTKIISKSIVNLRISISGSFSYIPHPILFYNKANAEINNEFYVSDKAIIIESYILGRKGHGEIFREGKIKSITKIFSRNRLKIFDIFKVKNEDYRNPNLMGKECIINIYKIENDEVDIDKRIVSTEDIEEELSLLYMLTK;locus_tag=LOCUS_05220;note=WP_052846462.1 urease accessory protein UreD (Sulfurisphaera tokodaii) [pid:51.0%25%2C q_cov:94.5%25%2C s_cov:94.5%25%2C Eval:2.2e-46],MGA_523
sequence1	MetaGeneAnnotator	CDS	473788	475104	.	+	0	ID=MGA_524;product=glutamate-1-semialdehyde 2%2C1-aminomutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878736.1;translation=MFENYYADTINSKVLYEEATTIIPYGVSSNYRFFDPYPLYLKRGKGSKVWDVDGNEYIDFNLGFGVLEVGHSNEIVAEEVYNAFKESSILGFEYCKAIELAKIIKKRYNVDMVRFSSTGTEATMHSIRIARAYSRKKKIIKFEGHYHGSHDQLLVNVNPTKEGIVPSSLGIPEEVIKNTLIAEWNNLESFEKIIRENKDIGAVIMEPIAMNMGLIPTKLDFLKGVVELSRENNIVVIFDETKTGGKYNSGAAGYFNLEPDIKVIGKSIAGGLPLSVIAGKKEIMSVIGPGKVAHGGTFNANPLSVRAAIVTLEKILTENAFYHMHRLSEILESGYKDIAEDSKIELSVTRWGPSGSIYFLDKVPMSYKEFIKADFGKWGTYFFAMLSQGVIPMAGFNEQWTISIKHSEEDIRKHLECADNAIKLAKNKRTEVNLDESF;locus_tag=LOCUS_05230;gene=hemL;EC_number=5.4.3.8;note=WP_010878736.1 glutamate-1-semialdehyde 2%2C1-aminomutase (Archaeoglobus fulgidus) [pid:38.0%25%2C q_cov:93.8%25%2C s_cov:98.8%25%2C Eval:1.7e-77],MGA_524
sequence1	MetaGeneAnnotator	CDS	475318	475968	.	+	0	ID=MGA_525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSKKVFIRESSGLVREVSPWSSLLASWALVTGGIPILIIEWLYLAPGINWTLSFLITLVPAMGLAFLFYVAGISMPRSGGDYVFNSRASNPALGFINYFGLFVAFALSLGLYSYYAASWFAYLFSGLGLYYNSSFLLSLGNFFNTTMGNVVIGTIVVIISAVLAVSGRYAWKFILISGIISVISTIIMFIALISITPTEFYSALSSFTGKLKCLL;locus_tag=LOCUS_05240;note=WP_010979926.1 APC family permease (Sulfurisphaera tokodaii) [pid:57.4%25%2C q_cov:96.8%25%2C s_cov:39.4%25%2C Eval:2.2e-66%2C partial hit],frameshifted%2C insertion/deletion at around 475950,MGA_525
sequence1	MetaGeneAnnotator	CDS	476099	476905	.	+	0	ID=MGA_526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSVRKNVMYSIIVSMVLIAVYYILFTQLTLDAFGSRFLTAWSYISGNSINNPVYNSLSSIGPFTPFFMLLVDHSIPLYFISFIALWLPNFYSNPPLVIALTRYLFAWSFDRIAPESLADVNDRFHVPIKATLLITIIGILGVLLYAFLPVMETVDVTVVFEIGYAVFAISIALLPFFRKEIYSNIPFKRKILNIPIVSWIGFSSFAFLMYALFITWNNPVLLPINVPTIGSLVIIYGLGAAIYYASKELNKKKGIDISLVFKEIPPE;locus_tag=LOCUS_05250;note=WP_010979926.1 APC family permease (Sulfurisphaera tokodaii) [pid:59.1%25%2C q_cov:100.0%25%2C s_cov:50.8%25%2C Eval:1.6e-89%2C partial hit],frameshifted%2C insertion/deletion at around 475950,MGA_526
sequence1	MetaGeneAnnotator	CDS	476907	477107	.	-	0	ID=MGA_527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIVVRKKSNTDKLINEIENKELKEELEKYSNLDYNILMNLIILKVKEINDTLNDIKNILSKGIE;locus_tag=LOCUS_05260;note=MGA_527
sequence1	MetaGeneAnnotator	CDS	477110	477400	.	-	0	ID=MGA_528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGSSIVLIISGLIIGILVPFELFEIKVEIIVATIISIAALVISGFNFLWAFILEESTEDYSKDDMKMLLQLLSTLEEESKSMKEIRDILKKASEV;locus_tag=LOCUS_05270;note=MGA_528
sequence1	MetaGeneAnnotator	CDS	477390	477695	.	-	0	ID=MGA_529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLERISDLVRVAKALSVPQRVRILKMILQRPMYVQEIAEDMKMPYALAHLHLRALEEAGILKAEYIEIKEPKPHKRKMYYAKDFEIIINNQVIMGLKDER;locus_tag=LOCUS_05280;note=MGA_529
sequence1	MetaGeneAnnotator	CDS	477692	478039	.	-	0	ID=MGA_530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIDVNWLGLAITAFISLLVSSFMGLDLGLSLDQRKVNQLSQVLSFGLSFFAATFIPFYVLPLYFKIPTLLEPTTYVAQELRYNLDGQLNILWYIGISIYAIIFLIIYMYVRRKP;locus_tag=LOCUS_05290;note=WP_010979637.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:38.2%25%2C q_cov:65.2%25%2C s_cov:31.6%25%2C Eval:1.4e-07%2C partial hit],MGA_530
sequence1	MetaGeneAnnotator	CDS	477969	478334	.	+	0	ID=MGA_531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEETKSEINAVIANPSQLTSIFTIFSANITNIIIKGIDVIVVRKAKAKPTIHLGAPEVYKRVIWPSCFMKDICCEIDRKPSMNIYNVKVPATTLVEKYDFEKSSRNAIGSRIKKNMVVRR;locus_tag=LOCUS_05300;note=MGA_531
sequence1	MetaGeneAnnotator	CDS	478378	479178	.	-	0	ID=MGA_532;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979636.1;translation=MIVAKNVWKSYGKIIANEDISFEIDEGEFVTFLGPNGGGKTTLMRQIYGELYPDKGEIKIMGMSPQKAIKYIGVVPQESRPLTDLTVEEHIKLLGILKGLSRREAKIKSNELIQKLKLEPKKRVDDLSGGNKRKVLIASAVISNPKLLILDEPTVGLDPEIRREVWDYLKELKKDGTTIIMTTHYLDEAEELSDRVYFMNKRILISGKIGEIRERFSNYYEVVNIENGERYYVKEDEIKKFLNSVNFRFEVKLPSLEDIYMKVISQ;locus_tag=LOCUS_05310;note=WP_010979636.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:55.8%25%2C q_cov:99.2%25%2C s_cov:98.2%25%2C Eval:1.3e-80],MGA_532
sequence1	MetaGeneAnnotator	CDS	479338	481071	.	+	0	ID=MGA_533;product=S9 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978774.1;translation=MTPEEAYSIKLVSYVKISDKGLLHVETEIDKDKYKNYIYLNKVKIGEGLIPQFYLNNFYYIRGDKTKSLIVQTEYGEPKKLFTLAKISKYVFHKKGILILGEEKASKKEPFYANKLKYRFDGRGLLRSRQSLYIFDGNLRKILSGDFDVTDVATNGDRVIVSTTQSGDDYGLDDVYEVNIDNGDVRKITKGEGRVSAIAMNEKGDIAYLGHRKGLSPWATQEIIMPEEGKSFMCGNNCGSSVLTDLFDGSSNQIIFNKDEILSLGQEKGSVDIYRISDNKVAKLTNGNKVVKGFDYNGKLAYFYTTPEKPSILYYDGEYDPNPNIKGVSPIHIEGEIEGWAIIRGKENPTIVFIHGGPHTAYGYGYFIEFQFFASNGYNIIYCNPRGSQGYGEEFAKACVGDWGGKDMEDILNFTKKVISQFDLKGKIGVTGGSYGGFMTNWIVTQTDFFSAAISERSISNLVSMCGTSDIGFWFNTIEAGITDPWSKDGIQKLMSISPIYYVKNVKTPTMLIQGEQDYRCPIEQAEQFFIALKMNNIPTMLVRYQGDGHEHARKGNPKNMKDRLKIKMEWFDKYLK;locus_tag=LOCUS_05320;note=WP_010978774.1 S9 family peptidase (Sulfurisphaera tokodaii) [pid:68.3%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.2e-243],MGA_533
sequence1	MetaGeneAnnotator	CDS	481197	481907	.	+	0	ID=MGA_534;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980596.1;translation=MDCITLTNVVKRYGSFEALRNLSFSVPCGGRYALLGPNGAGKSTTMKILAGLLKPDLGTVSIAGYPPDSKEAKAIMGYLPEDPLPYRNLTVRENLEYIAALRGIKNTKEKADELMYAFDLTQYEKIAAGKLSRGNQQKLSIALAIMHNPQVVLLDEPLNYLDIPTQEKVISILKNMNSTFLVSTHIMSIAMRLTDHVIMIVNGSVLWAGSIQDLKAMGKEDEPIESVVARMMTNAR;locus_tag=LOCUS_05330;note=WP_010980596.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:62.2%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:2.0e-82],MGA_534
sequence1	MetaGeneAnnotator	CDS	481897	483246	.	+	0	ID=MGA_535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980597.1;translation=MLGKLIKLLILSRFTKPLLALNILILLLDYTSMEGLHDTPHVPRVFTEEAIFMLTFPVIISALASRVVVTKSDMDFLFTLPLDRREIFTGIYIASIFATGIFSLYFGIFAVVILGTIGIVIPILLAIMSTSMSITFSSMKGLYRGMIGAILTIWFVSPYFGFPFSPLSMIIGYYYGYPILIALTLIFVYSSIRNFDNIKFKTFQGSSKPIKDLISFEGSTPFTAILKRNLSFVELGGRFNFAGTPMYKTARVKLYYIILASTIISIIYYFIVRMIGFFSISFYLVIAEYILILQLAQTAFMYEPLWLGLGIINPIQYVRYYLGSKSIAAFFMLLPFGIVNIILGVYSLGLVTVIGIPLSMIYLASIIARLNPIQIKDENIPNVRFTAMQWLIGLFTFPILVIVMVSVFFPGIIYGIIADVILAIISLPFLFYQGFWEKVKDKMIEMGFV;locus_tag=LOCUS_05340;note=WP_010980597.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:30.3%25%2C q_cov:98.7%25%2C s_cov:98.6%25%2C Eval:2.0e-49],MGA_535
sequence1	MetaGeneAnnotator	CDS	484340	485320	.	-	0	ID=MGA_536;product=acetamidase/formamidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978088.1;translation=MYTIHAKTHNKWDNSLKPIISIKNEDEIEIETKEASDGQITKSSTKEDLKKLDFNLIHPLTGPIEIEDAEPGDALEIEFLNFSDFGWGWTAVIPGFGFLSQDLYTTPIDLAGPELTIWNTEEGYAKAKFGKVNVRIRTFPFPGVIGTALPYPGKWSTIPPRENGGNLDIKHLTTGSKIYLPVFKKGGLLSIGDTHLAQGDGEVCGSAIEAPLKVKIKVKIIKNMNISQPIFYTSKVKEMDYKEYIAYPGISQDLWIATKTAVKGIISILSNFMEPIEAYMLSSAALDLKVSELVDVPNWIVTAYFPLDIIENENIKNEIKELRENI;locus_tag=LOCUS_05350;note=WP_010978088.1 acetamidase/formamidase family protein (Sulfurisphaera tokodaii) [pid:70.8%25%2C q_cov:93.6%25%2C s_cov:95.9%25%2C Eval:2.1e-129],MGA_536
sequence1	MetaGeneAnnotator	CDS	485683	485994	.	+	0	ID=MGA_537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978882.1;translation=MISKVTSIVGGIVTLIAGLVDIITRHPLDHYIYGLNIISGSIMIYLGILGIVSGLMTLYGTYKDNKDFVIAGGAIGLATPTEFSLLSIIGGLSMKTEKQATKS;locus_tag=LOCUS_05360;note=WP_010978882.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:42.2%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:1.8e-18],MGA_537
sequence1	MetaGeneAnnotator	CDS	485999	487198	.	-	0	ID=MGA_538;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980508.1;translation=MKSYIHAVTSSTLAWAGNIYDLVLITYTYEFLHQYLHLSYPELTLLFSLGLVGRVAGASIFGKLADKKGRKIISIVGTGGYSIFQIAFAFSTIFPIMALFRTIEGAFMGAQWTSGTVLAIEQVPPRKIQLINSIVQAGYALGYALTGITYLFIGSSLDSLTGYRIFMLTGGIPLAIVPYIAFKVSEKFHPVSTTFKINVKDYMDYFIKASFAMSGMFIAYLSIFSIYPDFAKFSGFSTYNVGFLMALANGIQAAAYVIFGKLSYIFGTFKLIYIGIITLLIAAFLSMPVLSIFKSISIMSSGVILYAFAVGFWPLISGIVASSVPSEVRAFITGTSYNIGAVAGGVISALLGVFIAYFGMTSLPYFINVINLASLSVVFVSMYTWPKKIETKNHEIAIK;locus_tag=LOCUS_05370;note=WP_010980508.1 MFS transporter (Sulfurisphaera tokodaii) [pid:45.6%25%2C q_cov:97.0%25%2C s_cov:97.4%25%2C Eval:3.6e-92],MGA_538
sequence1	MetaGeneAnnotator	CDS	487278	488078	.	-	0	ID=MGA_539;product=BtpA/SgcQ family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496728.1;translation=MLDDLFHKKPYIIGMIHLPPLPGSPNNVYNIDEILKFAYSEGKKLEEAKVDGIIIENLGDYPFFKDQIPSITITSMTIITREIRKNFNFDAVGVNVLRNGCIDAFSISHITNSQFIRCNILIGAYVTDQGIIEGKAAELLRLKRYLNSKVMIAADIHVKHAYPLYNLPIEIAAQDLAERGGADAVIVSGYRSNIPPSIDTVKKVKSSIKLPIVIGSGISLENFKDFCKEADGLIIGEKDFKENGITGGPSNKEAYKKLVEECKNSS;locus_tag=LOCUS_05380;note=WP_064496728.1 BtpA/SgcQ family protein (Methanocaldococcus jannaschii) [pid:45.5%25%2C q_cov:89.8%25%2C s_cov:91.9%25%2C Eval:1.9e-50],MGA_539
sequence1	MetaGeneAnnotator	CDS	488470	488913	.	-	0	ID=MGA_540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLATDEKLTDEEIKEYSKLLGRKLTRIEAFILKQLLDLMNIIEEQIKEVENEIMKFLPEEAVVTKIPGIGPISAATIYAELGDVSRFESSKQAASYAGVSGLSRAGRPNFTTVSSRGISTYPAFYSLLQGPLRTRPNLMASIKPC;locus_tag=LOCUS_05390;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:49.5%25%2C q_cov:68.0%25%2C s_cov:26.2%25%2C Eval:6.5e-20%2C partial hit],frameshifted%2C insertion/deletion at around 488602%2C489058%2C488935,MGA_540
sequence1	MetaGeneAnnotator	CDS	488913	489047	.	-	0	ID=MGA_541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQELREMTRHREGLVERKTQVKNEIRKVLETAGYKLPSKRRQRK;locus_tag=LOCUS_05400;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:72.2%25%2C q_cov:81.8%25%2C s_cov:9.3%25%2C Eval:3.7e-08%2C partial hit],frameshifted%2C insertion/deletion at around 489058%2C488935,MGA_541
sequence1	MetaGeneAnnotator	CDS	489035	489415	.	-	0	ID=MGA_542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERKIKPKVFAIDVGESRLVATKMEINNNTVKEADTREFKYNEEGLKELIKFLEGYEEGIMEATGVYFYHVYNVLRDNGLKVNVINPVQTVEVLGKKTDKNDSIRLAIAYAAGTVKGSYQREKCKN;locus_tag=LOCUS_05410;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:51.2%25%2C q_cov:94.4%25%2C s_cov:31.9%25%2C Eval:2.0e-30%2C partial hit],frameshifted%2C insertion/deletion at around 489058%2C488935,MGA_542
sequence1	MetaGeneAnnotator	CDS	489759	490964	.	+	0	ID=MGA_543;product=RNA-guided endonuclease TnpB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057839.1;translation=MSDVGLRFRAYTNEQTLRALKAQLRLASEVYNTLRWADIYFHERDGKGLTKTELRQLALDLRKQDEQYQHLYSQTLQQIADRFYDARQRFFDGLARYPKEKKAHKWYSLVYPQSGWKVMKVREIRTKSKKNKKKVITLQLSNLGIFNVVVHRDFPLDKVKRVVIKLTPSGRVYITFVVDQEYPQLPKTNKVVAVDVGVEKLLTTSDGEYVPNQRPYEKALNKMKKLHKALSRKKFLSHNWFKAKIRLARAHEHLKNLRKDMYMKLGKYFAEHYDVLVMEDIRVKQLVGKSLRRLRMRLHDVAIHELRSIMEYQLGKYGKKLTLVDPAFTSMTCARCGHVKKDLTLADRVFVCPKCGWVADRDYNASLNILRRSGSERPLVPVELRPLPLASLGFEAGSHVR;locus_tag=LOCUS_05420;note=WP_011057839.1 RNA-guided endonuclease TnpB family protein (Thermosynechococcus vestitus) [pid:30.4%25%2C q_cov:90.8%25%2C s_cov:90.0%25%2C Eval:3.2e-32],MGA_543
sequence1	MetaGeneAnnotator	CDS	490992	491384	.	+	0	ID=MGA_544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIASILSILQNYDTEWKENYSKIIEILDKMDDYIVNGKELPDYTLLKDLDKGDITYSYSQLQSIQFSEKKTKISLLYYVAGLIQENLYWYSILAKKDKYAKNFNPDAFDILYTLLSVVRKRAYSIFQEN;locus_tag=LOCUS_05430;note=MGA_544
sequence1	MetaGeneAnnotator	CDS	491573	491812	.	+	0	ID=MGA_545;product=AbrB/MazE/SpoVT family DNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979114.1;translation=MDVKVHKKGIIVIPAEVRKEFNIKEGAVIDLEIEEDKIVLRPKQTLLDAYGIDGKEAGKKLLEELEKMRKEEVEKENSS;locus_tag=LOCUS_05440;note=WP_010979114.1 AbrB/MazE/SpoVT family DNA-binding domain-containing protein (Sulfurisphaera tokodaii) [pid:60.3%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:1.8e-18],MGA_545
sequence1	MetaGeneAnnotator	CDS	491790	492191	.	+	0	ID=MGA_546;product=type II toxin-antitoxin system VapC family toxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846479.1;translation=MKKKILLDTGFFHVYFSGSNYISKKVVEEIYANKIIAYTLDLNLAELFYTYAKVNGIQSAKTKISLILSSPIKIVSTTKDLAIKAGELKIKNNNLSIVDCYLIALGETENAEIYTTDSEIAKIYNNTNFLERN;locus_tag=LOCUS_05450;note=WP_052846479.1 type II toxin-antitoxin system VapC family toxin (Sulfurisphaera tokodaii) [pid:58.5%25%2C q_cov:97.7%25%2C s_cov:97.7%25%2C Eval:2.1e-40],MGA_546
sequence1	MetaGeneAnnotator	CDS	492836	493870	.	+	0	ID=MGA_547;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846815.1;translation=MVRGALIKFAIKRLIDGIITLFLLVLFVFILIHAAAPNPAALARIYAGNPHAPPSEIQQIINEYGLNKPIYDQFISYMSDIFRGNWGLDPIYKVPEISLLPGFLAISLQIVIPGDILAAILGIITGAIAAANRGKVKDKGIKATYVLTWASPPFLVAFLLQLIIAYYLGLLPATGTVNILLPTPHNYTPFPILNALISGDWAYFISAVRHAVLPSLSIALITFGLFTRVTRASMLDAMESDYTKLAFAKGLSRNYVVYRIALRNSLIPVMTLIALFFGYSVAGAVVVEDIFDYHGIGWFVTQAIESLDYIAVLDFTIIIGIAVIIANFIADVLYALLDPRVKIG;locus_tag=LOCUS_05460;note=WP_052846815.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:72.8%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:1.4e-142],MGA_547
sequence1	MetaGeneAnnotator	CDS	493867	494937	.	+	0	ID=MGA_548;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980628.1;translation=MKKSFLIPIIYLILSIILFAIFSSRAILKITGISIQDIVPFIIFLSISIMISVDAILFNFFKNNNFVRSIIRSKVALVTLTIISIYYSWSILEGLLQYTAFSLDYIRISYMLLPYNPFAFNFPFQSLKPPSLSHLFGTNYNGEDILTRILYATPSAAEISTVVVIFAIIVGAIVGIIAGYFGGILDEVLMRITDVFLAVPGLILVIAISVILHPSYTSAMIGLMVPWWSTYARLFRSQTLVVKNMNYIDAAKLSGLGNFRILIKHVFHNVMDPVIAYSALDFGNVILTYSVLTFLGIGIQAPGYPEWGSMVSNGMDYLPAAWWYPLFPSITILIIVISFVLLGDRLQDVMAGRINY;locus_tag=LOCUS_05470;note=WP_010980628.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:59.6%25%2C q_cov:95.2%25%2C s_cov:94.4%25%2C Eval:8.3e-114],MGA_548
sequence1	MetaGeneAnnotator	CDS	494949	495917	.	+	0	ID=MGA_549;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846816.1;translation=MLLQIKNLSVSYKVPIGKVKILDNINLDIDKGEIVGIVGESGSGKSTLGHSIIKLNPPNAIYDTGEIIFDGKDILKLREEEFRKIRGAGIFMVFQNPLNSLNPVKTIRLQLLEALKVKQERDEKRIDDKEAEEIIINTVRDVRLPDPKEIIKKYPHQLSGGQIQRVVIAMALLLRPKLLIADEPTSALDVTIQAQVVKLFKQLRDEEGTSIIFISHDISLVYAIADRLVVLYAGRLMEDGKIENVIKTPLHPYTQGLISSVPTITKKEGELKAIEGNPPSFLILPSGCKFNPRCPKVMGICKEKEPQVIEKDGRKVRCWLYE;locus_tag=LOCUS_05480;note=WP_052846816.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:73.2%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:1.7e-139],MGA_549
sequence1	MetaGeneAnnotator	CDS	495910	496881	.	+	0	ID=MGA_550;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980630.1;translation=MNELYIAKNIKKYFLTENYGIIEKIFRIKPIVVRALDDVTLNVYKNETLGIVGESGSGKTTLGRILATLDPPTSGELYFEGEKITKNNINKVRRKVQIVFQNPASSLDPRLKVFDVVSEPIMHMSFQERSKMVKEVLDEVGLDFDYVYNKYPRELSGGQQQRVAIARAIVGNPEFVVLDEPTSALDVSIQAQILNLLVRLQRERNLTYLFITHNINVAKYISDRISVMYAGKIVEIGNNEDIVSSPKHPYTQSLIASVPSLNRKELSPPKGEVPSLINPPPGCRFNPRCPFVMEICKDKEPPMIELNGRSVACWLADQKYQKQ;locus_tag=LOCUS_05490;note=WP_010980630.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:69.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-135],MGA_550
sequence1	MetaGeneAnnotator	CDS	496845	497249	.	+	0	ID=MGA_551;product=PH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980631.1;translation=MLVSRSKVSKTIIKGTIIIAIFSIFLKINLHTIFNYLIFLGIAYFSLFLYILWKRSYTYEIMDDKIVIKSPLKQKIIKYAEISDEFISSGFLAKRFNCGSIYLILNKNTVNIIKDVENPEKIEDEIRTHMSSEE;locus_tag=LOCUS_05500;note=WP_010980631.1 PH domain-containing protein (Sulfurisphaera tokodaii) [pid:48.4%25%2C q_cov:91.0%25%2C s_cov:93.0%25%2C Eval:2.1e-27],MGA_551
sequence1	MetaGeneAnnotator	CDS	497363	499345	.	+	0	ID=MGA_552;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980626.1;translation=MMRMKNKKLLGLGKTLAIVIAVVIIIAAIGGVAYYVTTSHHPPTPTVKTISLAASNPDVLTDVAQTAPPDALDPATGFYTQDGPLFTAVFQELVEFNGTNYHEVVPVLAENYSTPNYQNYYFNLRDYVHFADGVQFNSSTVWFSLYRTILMGQGPGVANYIGLLFNSTVYGMTGYAIPWGVNYAIQNATGLPTANNYTLTAQVLASILSHFNANNATIQKIMEYPNQAVVVKGPYEVEVSTLEPYKFFLYDIAAWWGAIVNPVIVDEHGGVSPNSVNSYLDEYGMNGTGPYVIVKVSPGFSTIELEANPNYWAVGHDVPLVAQPAHIKYVVINYGLSHNDRVEDFLKNDAQISYISIPYLSQILGAYPYNTIPMNSSFINFGSEPGVFYVSMNMEQYPTNITDFRLAMEYAVNYSALLSIFSYNGKPLASEFLGPISPQFPGYYDPSGLPDYNYSPSLAMHYLNEAGYIGHFYVVLPNGSTLGDSSGTQLPPLSLYALSPVNELEEDELEIISHDLSAIGISTTVYYVLPSVTDGWTTPKGTPVLVDLGWFPDWPDPVFQQLMPLTDVEFGGISGNLAWVNISTLQTMYNTLPFITNTSEQESMVGQAYSIIYHEAPYMWLPVPDTYYFVQPYVHGFEYNPYVGYFYNLMYYNGTYTYTT;locus_tag=LOCUS_05510;note=WP_010980626.1 ABC transporter substrate-binding protein (Sulfurisphaera tokodaii) [pid:76.9%25%2C q_cov:93.2%25%2C s_cov:88.6%25%2C Eval:3.0e-294],MGA_552
sequence1	MetaGeneAnnotator	CDS	499401	500315	.	+	0	ID=MGA_553;product=dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979074.1;translation=MNLIDLHEDFAYSSMYSDVIEDTEQSNIKILKNFDNVIIFSAIFPHINVWNNRSEKLTLLYGNKTKATAPLFDVLKEQVKFYLYLESKGLVNIVRDKINSGINFLLSLEGTDVLTDPYDLYLLKELNVLSVGITWNYDTKFGSSCMSKKDYGLTEDGEELIRIANKIGIIIDLAHSSKRTLMDAATVSNKPLIVSHANAMRLKKHPRNLDDEEIEAIVKTDGVIGITAIVETLPEDSIKGIIDNINYIGESYGWRYVALGTDFLGIEKVPKGFENIIKVGDLNMDHKEIFWENAMRVIKTNLNV;locus_tag=LOCUS_05520;note=WP_010979074.1 dipeptidase (Sulfurisphaera tokodaii) [pid:55.2%25%2C q_cov:98.0%25%2C s_cov:97.9%25%2C Eval:7.6e-86],MGA_553
sequence1	MetaGeneAnnotator	CDS	500728	501417	.	-	0	ID=MGA_554;product=creatininase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846811.1;translation=MKLLEITRDEIKGKIGLLPIGSIEQHGPHLPMGTDSIIAETIATKIEEKYKEDVILFPTIFYGCSLEHSGYPYIGISYITMINYMVEILKTTKKAGLKSAIIINAHGGNESVLDIIRRQINFTNKHFKVYLFSIIGRNYDLFNIIDMHSGSLETSIIKAINPYLVNEEKIKEINDYSVKEGVFKTITSYEANPYGVINIGGKIEVNENKGKIFIDRALNDLETLLISIK;locus_tag=LOCUS_05530;note=WP_052846811.1 creatininase family protein (Sulfurisphaera tokodaii) [pid:55.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-73],MGA_554
sequence1	MetaGeneAnnotator	CDS	501647	504289	.	+	0	ID=MGA_555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIALLILGFILFIVILASIQPTAIINNSNRSPSHSTFGEKYIQLVPTTQYYSYNGYTSKARLLLNDLWYYNIRGVSVEVNSTQYMKIISNQSILAIGYIMPEYYNEISVNYSYNLKGAFGVFLKEFNYSSNDNLKEMMLNSIVIAFYKPSSAQPPDAVYLYNISIPVIINGTENDITFDVYKSPVHLFYIPTKYLFGNITLFVNYFTENANYTRPYFIGIFNHAAVSTEKNAIAIANVYSWFIIQAHSMPIPPMPNFLRYGNLEINGIKYVAYNSTITFSNTFTELGAKSKSGSEAYAVTHYDIIGVSYNLISGENYFGFKIISTTNIIYMFLNSPIEKSNETISLQIIINKIPRIINFYEIENGSTIYLYPEEEINNATVEMDAPYVLYSLGIHGVIQNVSVGDVYYSDNISFTMNFYPAIFYPTGKIYVSSQSPIFYINGSEYESNMTYQISLPATIEIPEEYLTYGTRYLLISVTLNGQSIDNEFMIFYPGNYNISTNYLVQYYVSLPFNVSAYVNGIKENISSGWYNASTVIIIPSQIINISKGEIYNISETKIIVNSSINETIPFKLEYYVNVSHPIRALINNVNTTLISGYYTNGTKIIIPKYEYVSNNTRYYIESAEYVIVINSSTNININFELQFLITLHYPNGTITEWVNNGSIIKLPYIIQVSNNERLLLNSTQYYTVNYPITISPYYILQYYATIVYPNGTTSNWYNKNYILTLPSEIYINNSVRYVTNITKLEISSPGKYITSYEEQFYVTIVYPNGTLSNWYNKGQTITLPEEIEYNGITYKLVGSNEITILSPGTVKPAYSTTVPVSTTSVTTTSVTTSTVTNVSVTLPHSSISVSPPVSTSEVIAIAVIAAAIGIGVVVLVIKK;locus_tag=LOCUS_05540;note=WP_010980560.1 thermopsin family protease (Sulfurisphaera tokodaii) [pid:28.0%25%2C q_cov:52.0%25%2C s_cov:48.6%25%2C Eval:5.0e-29%2C partial hit],MGA_555
sequence1	MetaGeneAnnotator	CDS	504425	505912	.	-	0	ID=MGA_556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979719.1;translation=MKFLRQSTGLVKELGAFDAFSLNFSFIGPAAGLSYPLFVASTIAGASWILSAILGAILVLPLLLNYYLLSYHIPRSAGDYIYVSRSMGELAGTILAMSLIMSFSMGFPVLAELEVIMVIIPGLQSIGVSFHNSLLITIANSILSNNLYLLITTTFIILVSFLLSISYKIYTKSFRYLTILQIIGIVMMIFGMIVFRSSYSQYAKPYSEPTNYIQTLALSSIFVLSMYAFSNAPAYFGGEIKKPKTGFFAGYILSYSAAVIFTVFLILAIEFSIGKEGYIYATINGWNLPISTSSLLAFGVLPFLNIPEILVIVVMSALTWYLLYAMINVTASSRMIFSLAFDRVLPSFLGDVKRGIPVNAMLLSLFISIIFEFIEVYLGYSVSFAVDGLWFIIWNYLLVSIASIKFSNLDRKILITAVLSIISLITVVIVTILYGIVTFGNFSFGSIIFSGNEYFDISTIFIPPISGFLTYIISKEVRKREGIDLSLVFKEIPPD;locus_tag=LOCUS_05550;note=WP_010979719.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:46.7%25%2C q_cov:99.6%25%2C s_cov:99.8%25%2C Eval:1.8e-128],MGA_556
sequence1	MetaGeneAnnotator	CDS	506558	507235	.	+	0	ID=MGA_557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIIFIDESINANTFIGGIYLNLEDINLIIDCIDSSWKEIGKEWKFHYIIDKKYNVNGKPISEIFLKNIIKYIPTRNTIVVMHKGNVLIKCNDLYPIVVFNLYSFPIFLSRSDFALIDPNPQVKLTDPIIKRINYPKIFHNEDELINKLDKNTKSSIIKIIRENIRKAQSKRVSTILNRELQLKPDIAIKTILKWSLMIADYVVSSSDSKDSTWNIVDPYGCQLK;locus_tag=LOCUS_05560;note=MGA_557
sequence1	MetaGeneAnnotator	CDS	507265	508863	.	-	0	ID=MGA_558;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979023.1;translation=MSDKRIFIRESSGLIRQMGAKHAFAKVLALIVPISLYYTLIYSPSIPAANWFVGIIIAPIMALPIFLTYLKLAEYIPRSSGEYIYISRILGPLPATIQGIANIISTPLLAAILSQIEVAAGIAPALQIIGLALGNTTLFNIGVNILINPTYYFIASLASLILMWIVSILPQRIMGNFLFTIATMQVIGALIIVGLFAEGNSAFAADFNKFSSMFSGPTYSTLYSNGMSLYSPVSDPLQTMIFAVLMLMWLFIWFFGPSYFAGEYKQAAKSLKLGMLSGYIIATLIIIALTILTATTMGIPFFNYVALNGWGSSNPVSAGEGYIAWGGIMAISVPILAVLVGILNIGIQFVAGPLSLAIPSRVMLAMSFDRILPEKLAYVSPKLQTPLIASVIALILGIFFEVATLYLGFAVSTIALIAILFIYQFLQATISAAVAGFKGIIGVYLSQKEKNMLKIYGILGSIILSISVILAIGYAIINPVYSSMVFAGNLPLNIVLIVIIPLLGVLTFLISKKYRQNEGIDLNLIFKEIPPE;locus_tag=LOCUS_05570;note=WP_010979023.1 APC family permease (Sulfurisphaera tokodaii) [pid:62.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-189],MGA_558
sequence1	MetaGeneAnnotator	CDS	509022	510077	.	-	0	ID=MGA_559;product=saccharopine dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879085.1;translation=MKIALLGGSGLIGRVTARELQALGIDFAVMDIVKPEYNAEYEFLDLNDIEMTSSKVKNYDYVINAAQYYFNLNVMKACLKSGVNYVDLGGLFWMTKKQLELHKDFEKEGLLAVIGMGAEPGITNVIAEWIYEKHGIPERIKLRDGWISTTDNINWSIDTQLDEMTMDAPIFDGELKYYKPLSKSDEVDFSIGKIKTYLTIHSELATFPSSFPGVKYVDWMEGGTGFENIIFIGKLFGDNDEILGIKSRKYLRELLKKKGLLGYSSIPDEVEAAKVIFEYEKKIVSVEFVAKPMGLFDGTQYVTGISPAIAISVGIKGKGVLPPEKVISSEKFIEELKKRKIDLYYAVNEKL;locus_tag=LOCUS_05580;note=WP_010879085.1 saccharopine dehydrogenase family protein (Archaeoglobus fulgidus) [pid:24.4%25%2C q_cov:86.9%25%2C s_cov:82.4%25%2C Eval:2.7e-16],MGA_559
sequence1	MetaGeneAnnotator	CDS	510636	511643	.	-	0	ID=MGA_560;product=PLP-dependent aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979456.1;translation=MTYNLGGGLPDPSIFPKKISDIHFEPEISFQELDKELLKILNYRGINAKNEELLLTTGSIQGIYIFSYSFIDPGDKIAIEYPTFAGAIKVFKARNPDLVKLPVIPYYNIEVKEKIKAMYVIPTGQNPTGINMKLEDKKRLLELAEEKDFIILEDDAYGLLTPEQPTLKSMDKNGRVVYITTLSKVFSSGIRLGIMVADKEINETFRKVKENIDGGNSTLSLSLLFESLKDGSFWEGLTRAKRIYNEKKSIMCEALNRYLPQAEWNYPEGGLFYFIKIKGINSEQLLTKVKDKVIFSPGSKFFFDGYGKEYLRLSFSYSSPEEIEKGIEIISKEIQ;locus_tag=LOCUS_05590;note=WP_010979456.1 PLP-dependent aminotransferase family protein (Sulfurisphaera tokodaii) [pid:36.0%25%2C q_cov:93.7%25%2C s_cov:86.8%25%2C Eval:7.2e-56],MGA_560
sequence1	MetaGeneAnnotator	CDS	511633	513099	.	-	0	ID=MGA_561;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004527813.1;translation=MADKLNIGIKDNPNFRKEAGIFSLIAFSLGNIIGSGILLLPAVTASLTGPLSPIVWLVGGVLLLPVVIVYSKLANIFPFVGSKIRFINVTHGKVMASSVGWLYLIGTLLTIPIEAEATANYLSYVFPSIMYKGYPTPLGYLIEGVIVILIYSLVYLGIKGLSISVNTITYAKLGILALYILAVGFLDFHVSNLTMNFSPSFSNFFYAIALTMFAYGGFRSAMVYAGESKSNTGKAIMIAFIISMIIYTLVPLIFIASLSSSVLSAGWSSLGKMSAPLAESAIIAGIPALGALFILDGVISPSGASLIGAGDMIRYSYALTKSGSFPKALGKVDPKRGIPVLPVMLFGVFSLLTLFLSSTFEQSIGYLVATRILAYSTGPVSLFVISNDNKNKLLSFGSFLITGLIFSFVGFPKTLFGTMVILLSIIAMLPFSKNYIPALWYLGFSGVVTLITLISLPTLLSLPIVIITSAAFFYLATKTARGDGEVDV;locus_tag=LOCUS_05600;note=WP_004527813.1 APC family permease (Burkholderia) [pid:25.9%25%2C q_cov:85.0%25%2C s_cov:81.8%25%2C Eval:8.6e-38],MGA_561
sequence1	MetaGeneAnnotator	CDS	514215	515159	.	+	0	ID=MGA_562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIQDNKLDNNFFHIIFMLSEQCNFRCIYCYEKFSNNKVNDLDQRIIKSIHKLVYYYNIDRLNMSFFGGEPMLYYDKIIKIMEYSNSIINTHGDMTTNGYLLNKEKFEKLVKLNVREYQITFDGYKDYHDKVRITIGKTPTFDMIFKNIVSYKDLKEDFRITIRIHMHKNNFSSVKKLIDLLADYLADDKRYVLFLRSISRLGGPNDNAIMLPSREEVEDAITYAKSRGLNIVLNRNMSNFCYASLPNSIVIRADGKISKCTVDLYSDRNIVGYLDSNENLVLDQDKIRFWARGFFTGNLGELRCPLTGEDIYD;locus_tag=LOCUS_05610;note=WP_004083337.1 radical SAM protein (Thermotoga maritima) [pid:29.6%25%2C q_cov:90.8%25%2C s_cov:65.8%25%2C Eval:6.0e-25%2C partial hit],MGA_562
sequence1	MetaGeneAnnotator	CDS	515152	516327	.	+	0	ID=MGA_563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDIYIDFGGNLEIGMHNVDKKEIYVTTIPLIPYFFNLLDNNYRDDPKIDLYYNHNSTKNSTLELIRKYISQNFNIDDQIDNIIVSGSATNFLQNPLDKSLDIIRKIFGNNYNKIYYFTLLNTFIDITNNNFKKIDNTIYLLSHKTGILPLIELLGLGGKSLIFEMGTQSTGIFFSNNLTSDFSLSDLDFMSLGLFTDISYFYNNYHIPIGLSKIFQSELLLIIIYLFLSIKSKKFEKVSVKTMEFLKIFSKFYYTYFTDYLVNKNNINNEKILQDIKNILQTDSYQFNTLNENNVYTIVYNFYYNIKEKFMTRIIDFLNKHELTFSLKMIIGGVGEYILRDLLGDLSEIDQMELIQLSNITNKEVSVHSPIIGPLLKIRNMKLEHTVTVI;locus_tag=LOCUS_05620;note=MGA_563
sequence1	MetaGeneAnnotator	CDS	516324	517496	.	+	0	ID=MGA_564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIPNEIKIIIALLTLFDFITMFVGYYFVIDTYLIYKNLIISALIWMLSNARNIFSLPLPYIFMKIKSVKINVIIFSILISFVILALAQELAPLEEILLVSIFNFLIAIPSRALGYYARTLLNKYNEFINYNSTLNIFLLSATILALITAGVLNNYSSHLYLLLIILPLQIVILLLITRLNNIKITLSSANSFKVWIKYIKTNYIFRFLETRFYSITALSSALTILFIKIIYVNNTTFSEYYTIVFTISLIAQAVGASIALKKKTEILRNLLLLVFPVTLFDLIFPFISGKIIPITILTFLQSMVAAYVYIHLNSIYQYITSKDIYVNISITQRVLQQIFGSIMVILVSIMATVIGVTFTYIGIALLISSIVLLTLFTDTIKKIKIVDQK;locus_tag=LOCUS_05630;note=MGA_564
sequence1	MetaGeneAnnotator	CDS	517638	518039	.	-	0	ID=MGA_565;product=type II toxin-antitoxin system VapC family toxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009989951.1;translation=MKEKYVIDAGPLSLFFAGKKDVKKFFEEMYNNNVIIYMNEVNLAEFIYNYISKVGKDIAIARHRYIRNSPIRIISPNENITETAAILKSKYSYLSLADAYLIATAKKIGGKVITTDEDIEKTKEIEYIKISLD;locus_tag=LOCUS_05640;note=WP_009989951.1 type II toxin-antitoxin system VapC family toxin (Saccharolobus solfataricus) [pid:69.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.6e-49],MGA_565
sequence1	MetaGeneAnnotator	CDS	518017	518262	.	-	0	ID=MGA_566;product=AbrB/MazE/SpoVT family DNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980272.1;translation=MERYRVKVYKKGIIVIPKEIRETIGIKEGDIVELIVNEGKVSIEKPETLLDLFGVDGNRAVEVAKAIVEERRKEVEREVRH;locus_tag=LOCUS_05650;note=WP_010980272.1 AbrB/MazE/SpoVT family DNA-binding domain-containing protein (Sulfurisphaera tokodaii) [pid:80.6%25%2C q_cov:82.7%25%2C s_cov:82.7%25%2C Eval:1.8e-23],MGA_566
sequence1	MetaGeneAnnotator	CDS	518547	518885	.	+	0	ID=MGA_567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENEIEINYDNVWNFLLNNKEVYVIRASNIQPGKYLCKHNNNTVECFIDKVIDANPMIMRQYVDKSGFSSLQEWMRSAAKVHMSHVKGGPFRKMMSLMDKKYILHVILVSSD;locus_tag=LOCUS_05660;note=MGA_567
sequence1	MetaGeneAnnotator	CDS	518922	519860	.	-	0	ID=MGA_568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVNKEDLYSLVFSIFQKITFDEYAKILAEELVNANLAGHEDHGVQLVPYYVKLAKGEKVNLGGTIIPPINPKARIDIQRNDFLIKIDGKMTFGQVILRKASEEKVENFKIFLGRNVSHIGRLSSFTENFAKKGFITLLVARTPPLISLEGMKGRILGNNPISISFPGDPPITIDMALSKTSFGKVVSSLYRGEKIEEGMILNAEGKGTSKPEDLINGGSLLPIGGYKGFNLALAIEILTSLFSEDVDINPFFGIVIREDLIGNEKKIEKIKERIPTTPFYHFPGSRKVEKENIDLPDSLWDQLIKINDSIS;locus_tag=LOCUS_05670;note=WP_010867978.1 Ldh family oxidoreductase (Pyrococcus abyssi) [pid:34.0%25%2C q_cov:77.6%25%2C s_cov:68.2%25%2C Eval:5.2e-29%2C partial hit],MGA_568
sequence1	MetaGeneAnnotator	CDS	520099	521700	.	-	0	ID=MGA_569;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979926.1;translation=MSHEDKNKEKIFIRESSGLIKQFSSLDMLTLVLSFSIGSGILFFTVGITYEYPGSFPLLSLLIDAIPLFAAASVIYFLGLVMPKIGGQYVWISRILSPGLGYFINIFTWLGYCIIIGVVAYIGASFLSDSLTIAGLVTHSPSIVNIGKYFDSPIHIVIVAIIITILFTLLDSFSIRLSKLSIFVAFYIPLALLLILDFAMLFENPSSAPALWNKVFGPSSYQNIILLSNQKGWSSSLISFSLASTLLAVIPLTSSWSGFSHFGGWLAGDAKSPRKSLFFATIGAGLVALFLMALTIYSYQHLFGSAFISRLGYVSSSLSITPSIPLLGAVALSNFSILAIAVGFIMFLFPIKDILPSVVAQSRQIFAASFDRLLPEKLTHISKSGIPIVSYAVTATVIAISIIMVSPLFPLGLYVATDLFSIALGFLQIFTAISAIEFPITKHELYVNAPSPVNKEILGIPLISVLGTISLIGWIFLLSDSFYGVISSKVGFEVMFIIALIMGAIFLLYSYFNSKLSKEGIDVELIGKEIPPD;locus_tag=LOCUS_05680;note=WP_010979926.1 APC family permease (Sulfurisphaera tokodaii) [pid:23.8%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:6.4e-34],MGA_569
sequence1	MetaGeneAnnotator	CDS	521970	523277	.	+	0	ID=MGA_570;product=amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979026.1;translation=MVNAYYLKGVIGEINWVYCKMIIKDVKIITNDGIIEADIKIEDNKITKVSKIIHEKGEDIIRGNGKLLLPGGIDNHVHIFKKYLKVPTSDTVRRSTIASAFGGTTTVIDFAFSDRSPKVEERIEQFKDSFVNYSFHIFASDITDNLINTLKSGFKSVKFMMIEYAGIKSSLSGLRRINDLLKKFNGYIMVHAEDEELIKSLSEGKKGDPKLHLLTRPEETELSAVLRARAIVDNGIIAHVSCGRTLDLIEGKLLGEVVLHHLLLSKKVYERSDSHLFVTSPPVRDPEELWKRINKIYMIATDHNWFDRAIKEEHKEFPDLVPGLPGVELRVPMIITEFMKRKLPLSLAVKLLSENPAKLNGLNKGKIAEGYDADLVIYNQEKKWKISVDNTHMADWTPYEGYEVIGKPETVIINGKIAIENEEIKDEFFTGKLVK;locus_tag=LOCUS_05690;note=WP_010979026.1 amidohydrolase family protein (Sulfurisphaera tokodaii) [pid:67.7%25%2C q_cov:95.4%25%2C s_cov:100.0%25%2C Eval:1.0e-167],MGA_570
sequence1	MetaGeneAnnotator	CDS	523311	524447	.	+	0	ID=MGA_571;product=FAD-binding oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979025.1;translation=MVKVEKILSQYFEVYSDEENLEKYSIDYGYLSPVLSSIRKLPSAIIKIKNENEIKILMDIINEYHFPIIVRGAGSNTLGETIPIKENTIVVDITKFKGFERRGGYLITKAGSEFNDVGIEDLPTVPTSYYMATIGGYVAGGSLGFGSLRNGAVWDNVEEVEVYTPKGFFSLEGEEVYSIVQSAGTTGIISKIKMRIVKRPGKVRVIRKSFNYLTDALSFSLKILDDAEFISIRNKPMAELIEPGKNWEKWNVIAGIYGEGEEVSLKDVVTTFAGTYFTAVNKTKVNYNSLDIPLEKLNYVDNIRAMISCELSRSRKKLFSHTYFLDYDKLPEIEGYNFNLHSYKVNDRVEVDRLKKMIEFKEKVDEEDLLNPGKLVFK;locus_tag=LOCUS_05700;note=WP_010979025.1 FAD-binding oxidoreductase (Sulfurisphaera tokodaii) [pid:60.6%25%2C q_cov:97.9%25%2C s_cov:99.2%25%2C Eval:2.4e-127],MGA_571
sequence1	MetaGeneAnnotator	CDS	524444	525661	.	+	0	ID=MGA_572;product=amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980487.1;translation=MILKNARNLEGKKIDIEINDNKIVKIADTLDGEGIDLEGRLISPALIDSHAHIDSNFLLDLCKEAPTPKFEEALKVLMECKENLSENEIYSLMKKSVLYYIKSASLYVRTHLMIDGQKWRERLDSIMKLKEEFKDKIFIQVIGFIQSYDYFDDETEERIWKAIDFGVDGIGGQPHLQPSLEDGIKMIKKIFDIATQKGILMDFHADYSDDPNSRFSEVIASETMKRKYFNKVSLSHLLAMHSYNSDYALRLMRWLRESGISVIVSPITELEGSGAFEDYPKRRGIPRVREMIYNGVNVALGHDDIQNQLNPIGDGDLLKASFALMIGDYMYFSQFFGDIFNLMTYNGAKALNIKEYGLKECMKANLVVFEGKNVKDVLVGIKPRRMVISNGKIVYENSYLESIRI;locus_tag=LOCUS_05710;note=WP_010980487.1 amidohydrolase family protein (Sulfurisphaera tokodaii) [pid:36.4%25%2C q_cov:98.8%25%2C s_cov:96.4%25%2C Eval:8.4e-65],MGA_572
sequence1	MetaGeneAnnotator	CDS	525641	526444	.	-	0	ID=MGA_573;product=beta-ureidopropionase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979024.1;translation=MRIALVQTYMTWDKKDNIERQVEMVNKAADNQAKIVSLDELSNTVYFPFEQNPKYFELAEDERGYTIQKFREVAKERKINIIVPIFEKDLHNLQFYNTAFIINDQGEIIGKYRKTHLPQEDKFNEYYYFKVGDLGFPVVNLDSATIGTVICHDRHFPETVRAEVVKGAWIVFIPSVAAFKEIWELELKSHAVFNTSYIVGINRIGKEYPEQNDEYFGESMIVSPMGEIISKSGKKEEVIYADVNEDEVIKARIKRPFLKKRLNSYGL;locus_tag=LOCUS_05720;note=WP_010979024.1 beta-ureidopropionase (Sulfurisphaera tokodaii) [pid:75.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-120],MGA_573
sequence1	MetaGeneAnnotator	CDS	526598	528544	.	+	0	ID=MGA_574;product=molybdopterin-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979019.1;translation=MVWTINYVDDITVSDNYEYVAFIRSQLDHAKFSISGKAFTYEDLKEFKIPTVYDKSSLRIPEVPLLPKYKAVYKFQPLAIVIGKDRYDTFDKAEEVEAKYEPYDGPLYEEVPDNVIYRDYKKGEVSSEKEFSLRVDFNRSSQYSMEPRVIAVKNQGDQLIIHLSTQIPTVVKMLVSEMLEIPQNRISIVVPNVGGGFGLKQDINYEELSVIALAFKLNKNLKWVETRTESILTSQARDQVHELKVGYTDSGKLNYVLDKITYNAGAHPLPFTGISPLFVTLNTMKSLYNFEFYYDAEAKVSNKPPQGAYRGFGRPEAILIMERIMDEIAKRTKISPIEVRKVNIKEKLEGDVGNLNGVIDKLYKKYEEMRRVYGKGIGISLYVQYAAPNSEIMVKHEGSLIPGYECVRARLDLDGWIVIETTLTNQGQRMDSSIRKLVSKELGYDKVKVELAKTNINGYGVWASRSMLTAGNASILAVRKLKEIAKKIDESVDWEKISRIMRQEPWKLKELSVEECYETPEFVGTVSGQIIAVMKDDLGNVKPLYNYIVADVGVTGDDEVVKGQLIGGALQAISGSFLENTEDEIEYSIATAVEAPKFEVELLHTPSNTPAGVRGVGENSISGGYASFINAINDLGLECNSVPCRLVK;locus_tag=LOCUS_05730;note=WP_010979019.1 molybdopterin-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:47.6%25%2C q_cov:96.9%25%2C s_cov:97.5%25%2C Eval:7.6e-165],MGA_574
sequence1	MetaGeneAnnotator	CDS	528541	529845	.	+	0	ID=MGA_575;product=amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979017.1;translation=MIFKNARIITSNGIIDADFRVEEGKIKEIKKNIIPKDNVIDLSGYYVLPSVIDGHTHFNSRFLGAREVIPTADDYKSGSEVALAGGVTSFINFIDPAKEDPIKSVKTEIENATQSMTDYSFHLIVRNGDHIKYLDEIFNLGIKSVKVFMAYKGSMQLDDENIMRAMRKVKELGGVMAIHAENGDVIDELQKEYGDKDEAIYHALTRPSEVEEEAVNRVSMMAYLTKAKAYIVHVSSPNSLKIIQSWRAKGTEVYAETCPHYLMFDESYYNRPDGKRFIMSPPLRSKEMRKELVDSLKNMFTLGSDYSGYMSVYKDKALSYIEVPNGVASTEFLVPTIMSLMFDGFISPEHVAEITSEDQIKLYGIKNKGFSVGSDADFALIKKEEWIVKDWHGKMDHSIYEGVKFKAKVIRTYLKGELAFEEDVKGSKGEMLKR;locus_tag=LOCUS_05740;note=WP_010979017.1 amidohydrolase family protein (Sulfurisphaera tokodaii) [pid:70.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.9e-177],MGA_575
sequence1	MetaGeneAnnotator	CDS	529859	531046	.	+	0	ID=MGA_576;product=amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429754.1;translation=MTIIKNVNMMGLKRTNITLDDKANTIIDANGRIAFPSFFDMHVHLENSLSLKDTGENESGTLEEAVERWAKIRDSLSLEDIKNKIKKSLILEIFNGITHIRNHADTCSKNINSVKASLEVKEEMKDFIDIQVVAFPEQGIFNCNEEEFKKAVEISDIIGGKPDGEDNEDLGKRHLELISSLSLKLNKSIDSHIDQGDEPTRFSEYLLGLRNNHVALSHLTSIHSDNDEYVSKLIKLIKKRNASVISSPLTTVFLNGRFDGYPKRRGLTRIKQLVDEGVNVALGHDDFQNPFFPFGFGDIIQALWMAILMEQANLKDTEDWIGLITKNAEKEWILSSYLKPSEDIVILDAKSLREQFSTLSPRFMVIRKGKIIAYSNKSGEVILNGNKINPYELIV;locus_tag=LOCUS_05750;note=WP_198429754.1 amidohydrolase family protein (Sulfurisphaera tokodaii) [pid:48.6%25%2C q_cov:91.6%25%2C s_cov:96.3%25%2C Eval:1.1e-93],MGA_576
sequence1	MetaGeneAnnotator	CDS	531174	532658	.	-	0	ID=MGA_577;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847046.1;translation=MEEKDFPNSQIQKNEYKLKHNAVGLMHGVFQSISHVSPAGDVAILLTGTVAYAGAYTVIAVLIAWLIYGMWMNTPYQFSKLRTNAGGYYAYASLGSKILSIPTFLSYTENEMLGGPAFGILGFASFFYLISPSISSLPYVWVGLASVVAAYGFIISYLGIKESLSYAFYTGLAEVLFLGLASIAIIFKLGSLNTFSVFSPPTYALPLVFLGMVFSILDFTGLGTVITVSEEIKEPKKNVGKSILYAFLLTGFALIPPAYALTVGWGLGNISAFASSPDPGLIVFGKYLGIAGFALLTIFVANSYLSFIIANSNVVSRISFSAARDGVIIPRWFYYTHPKRKTPVRTLMLWLGVGFGSSLAAGLLLGPFNGALLLLTIAGIGVIFEHMFANIGLTIYANKQRQFDIFKHGVVPIISSILGVIVLYYSMQGLLSTAISSPSLLNYAFLGAGIFGIVWPLAVGFPLGIYYLKKHPEKLAKAGEYDIAMEIRPQSKET;locus_tag=LOCUS_05760;note=WP_052847046.1 APC family permease (Sulfurisphaera tokodaii) [pid:32.0%25%2C q_cov:97.8%25%2C s_cov:100.0%25%2C Eval:1.1e-51],MGA_577
sequence1	MetaGeneAnnotator	CDS	532764	534125	.	+	0	ID=MGA_578;product=aspartate aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011319592.1;translation=MNRLSYENAPRILVKPPGPKSLELLDIQDKYETKSRIYTQIFRMAVDDAKGSTVKDVDGNIYIDWFSGISVLNLGHSNPIVIDAIQNQLNKIDHINEVPTEARVQFLKTLESTLPGKLRNNAKIMFTVTGGDACEAAVSLARYITKKKIIIAFSGSYHGIAGEIASATANYHYREYENLDYHNFYHLPYPYKYRFPIKVNDEDISKVVIDMLENILKDNYSGIGPVGGVLVEPIQGEGGYIVPPDDFLPMLREVTEKYSIPLIADEVQSGVGRTGKIWASEHWSITPDIMCISKSIGGGIPASMIAYKKEYDEFLPQGFHLGTYRGNPLALAAGNAILNYLQNSEILNRVQEKGKYIVERFNEMSYISNYIGDVRGKGFMIGVELVKDRKSKEPATDVAIQLKKKLFEKGLLMHTCGHYGNVMRFMAPLTIEDDLIDKGLEVFENSIKEIGNT;locus_tag=LOCUS_05770;note=WP_011319592.1 aspartate aminotransferase family protein (Nostocaceae) [pid:35.8%25%2C q_cov:95.4%25%2C s_cov:89.2%25%2C Eval:1.1e-79],MGA_578
sequence1	MetaGeneAnnotator	CDS	534132	535172	.	+	0	ID=MGA_579;product=NAD(P)-dependent glycerol-1-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249740.1;translation=MLKLINFSSNVVFGNNVICSIPSEMESKNFPKDIIFISGENTFKLFGNKVLDKIQKSDFRVIKDIIGVGKDKDTIDDQISKFPKDKKYTIIAVGSGSVLDAGKYIASETNSPLISIPTSLSTDAIATSFSVLWRKGSSIAIKTVAPSLVIGDYQLLKKEDKRFIKAGIGDMLSKLSALYDWRLSFWLAKEKYNDFAYSLASYTTKLIIKRLNHILNSDYIGIETLFLAEVTDGYLMEISNTTRVAAGSEHLFSFAMETLGVNLLHGELCGIGTVIMHFLQTGSHKARKIFEKSHFPITVKELGINKETIIKALSISHKMRNWYTILGKEGLTEGQAERLAKYAGVI;locus_tag=LOCUS_05780;EC_number=1.1.1.261;note=WP_011249740.1 NAD(P)-dependent glycerol-1-phosphate dehydrogenase (Thermococcus kodakarensis) [pid:34.5%25%2C q_cov:97.1%25%2C s_cov:96.3%25%2C Eval:2.9e-47],MGA_579
sequence1	MetaGeneAnnotator	CDS	535181	535774	.	-	0	ID=MGA_580;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTLDLKQVESRNNSKITVLKTIRIPRYIANKLEEIAYEKNMKFNSIVAEELEKYVYYTYRIEKVSQDNIVTISYRFFRLLIDSIGKSENDIISIANSAGKDWGREYIMLWSEICKNCEKIDIFIFLLKYIAKYSGLYSITILNAQEKENYTVLLHHTLNRMYSLILAHYYSGILESLNLKVNFEIKENSVIMNIHK;locus_tag=LOCUS_05790;note=MGA_580
sequence1	MetaGeneAnnotator	CDS	535905	537221	.	-	0	ID=MGA_581;product=glutamine synthetase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846175.1;translation=MEYTDILKKLKSNGVDTLKIDFVDYGGFIRSKAEDIDELDDILENGTSTAMAIMNYTPAGSLARNGNLGVNSDDFIIIPDISTLSIVQPYAITIGKMYDKSGRPWEHDLRWQLTNTLTKIKNEFNIDFISAFEYEFYVTKENKPLNDVSCYEVGGYYGSSIDKFLIELKNTLKGIGIGVMKTLKECGPSQYEFNIRHSDPIKTSDSLIFFKEISKMISAKYNYDINFMPKPFKEYPGSGLHLNLSAWSNGNNIFYSDKDDLKISEIGYSFIAGIIEHAKSLTAIAAPTVNSYKRLVRIPDMWAPVKIGYGSNNRSTILRIPTPRFSSMSRDLRLEYRVPDPATNPYLLFIAFISAGLDGIERGLKAPKPVSDNAYENKELEEIPRDLNEALTELKKDTRLVNLIGDKIINEFIAVKKQELEEYNSVITDWEFNVYKNL;locus_tag=LOCUS_05800;note=WP_052846175.1 glutamine synthetase family protein (Sulfurisphaera tokodaii) [pid:49.8%25%2C q_cov:97.5%25%2C s_cov:98.1%25%2C Eval:2.4e-121],MGA_581
sequence1	MetaGeneAnnotator	CDS	537272	537796	.	-	0	ID=MGA_582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSLENIEMYLNYDKNEVSENEYIKIVRFLNREAELLEYHNYIDWLDLLHPDMEYIVLVRELKDKKDKSMSNGLVIYDKINTIKIKIDRLNSNDAWSDNPPSVSKYLITNTLAYNFLDYYLARSNVLFIKYRSTDLMYLSYKRVDIISKNMKLVKRIVLPDVHSINLQDLTYFL;locus_tag=LOCUS_05810;note=WP_005095285.1 3-phenylpropionate/cinnamic acid dioxygenase subunit beta (Mycobacteroides abscessus) [pid:32.3%25%2C q_cov:50.6%25%2C s_cov:50.5%25%2C Eval:2.3e-08%2C partial hit],MGA_582
sequence1	MetaGeneAnnotator	CDS	537798	539198	.	-	0	ID=MGA_583;product=aromatic ring-hydroxylating dioxygenase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000211158.1;translation=MIEKNDINKNKSDYEKERLIDELVKVREDLEENHELQLWWIADERVFELEKERLWPNIWHFVVHESEIPKPGDFAVRAIGPTDEVLAIRGQDNKIRIFLNICPHRGLQIVKAEKGNSKFITCPYHGWTFNGNGKLIGVPLESIAYGELDKERYGLLELKSESYAGFIFSTLNENPEPLENYLGEIKWYMDILFRRNSSGYQFLPPERRIIKFNWKMGADSFVHDVYHFVITHKSASSLYSFEYIKNIISGYQIASKKGHNIRFLGKDGKGRGFPAEFFPILYPIWEPAVVEEAKKLLEPKQFELFSLSYHMSGLVFPNLGFFNGIRKLPDVDLDYPKSVGIPHISFRLLRPINTDTTEYYNWFVVEKDVDEEFKDLSYRTFMNGFGAGGVVETDDIEHWTMITKASKYSTNLMRKIKVPYKVGDHLTSLKDFMGPHGEELDIIPTGLTEKSARYMWRRILDYLIGE;locus_tag=LOCUS_05820;note=WP_000211158.1 aromatic ring-hydroxylating dioxygenase subunit alpha (Enterobacteriaceae) [pid:31.5%25%2C q_cov:91.0%25%2C s_cov:90.3%25%2C Eval:3.6e-46],MGA_583
sequence1	MetaGeneAnnotator	CDS	539230	539928	.	+	0	ID=MGA_584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYIDNVYFRVLQCNLREVKINVFENGKTMKGIYVVRVDVLDSSIESSFNKWYSYVHLPDLMKIKYLEFSRRFFSNTSIPKYLSLYEFPDKEKLIEGKKSEEMQYVRSDTIKRWSGKLSKGERYYTTVEEIIVGDEKISDNNKIFITFDDNKILNNILNIILIEKEKMERCLKLDVFDKEPEDLPRYILLCDTNDKNNSKMFEALKDIDGIKGLGFYEPIISYSKVTYNDTL;locus_tag=LOCUS_05830;note=MGA_584
sequence1	MetaGeneAnnotator	CDS	539990	541258	.	+	0	ID=MGA_585;product=metabolite/H+ symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003529121.1;translation=MGSLKTIVLSSMIGNIMEWYDVFIFSTGALYIAKAFLPSKVTPTIALLDVFLILALGFITRPLGAFVFGNFGDKLGRKRMLIVTLSLTGISSGLVGLLPTYIDIGFISLILLSILRISLGIGLGGEWGGGLLLIVENTYHRNPFYVSFFQSSVSIGLIVGSLVFLTLETLLPSSEMYSFGWRIAFLISFLLLVIGLIIRLKIGETEMFKKALENGEILRKPGLSLFKNHFEKVVLGILIVGGLAIYFIGSVSIPNLYEFNKIVSPTQYFYGIMLFGIIDILFVFIGGILSSNWKKIIIFTVIGNLLGIFVLYPAFLLKTPTNYLLFQTLLGISHGIMYSPVAVILVKLFPTNVRYSGISASYQFAGAFLGGIEPYVITWLSTFNYLFYPIYQILLCVISIVISIIVYKYNLAKYLETEVEKR;locus_tag=LOCUS_05840;note=WP_003529121.1 metabolite/H+ symporter (Sinorhizobium meliloti) [pid:30.4%25%2C q_cov:94.8%25%2C s_cov:92.4%25%2C Eval:5.8e-56],MGA_585
sequence1	MetaGeneAnnotator	CDS	541255	542049	.	+	0	ID=MGA_586;product=deaminated glutathione amidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000959109.1;translation=MRISTVQLITSRNKEENLRKIQQYIEKAKDTNSELVVFPEASMFFSPPDESPEILYEKAEDLEGPWITEVKKSAKENGINVILGIYERSNNKKVYLTAVFIDKTGDLKYAYRKTHLYDAFSFMESERIEPGKEYYSPINIDGLKAGILLCYELRFPEISRTYALKGVDLLIVPAAWVKGYLKEDHLLTLAKARALENTSYLVLSAQIGNIFTGYSMVIDPLGVPISRATEKEGIITSEIDKERIKEVRDTLPVLYQRREDLYFR;locus_tag=LOCUS_05850;note=WP_000959109.1 deaminated glutathione amidase (Enterobacteriaceae) [pid:36.0%25%2C q_cov:97.7%25%2C s_cov:97.3%25%2C Eval:1.7e-43],MGA_586
sequence1	MetaGeneAnnotator	CDS	542046	543212	.	+	0	ID=MGA_587;product=PLP-dependent aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979456.1;translation=MTLLYNMFSKYADNLRLSELLRYFKIISKKPNIINFVNGLPDPRTVPVNEIEEILNQVIKEYSVTAFQYSITCGIKELKDQIIELVKNRGIYGVNENNICITVGSQEALYMLFSIFINPGDSVAVENPTYISALETLRTLNPNFKGINITNNGYEMDSLRESNAKLLYTVPSAQNPSGYTLSLKERKKIIELAHENNTTIIEDDTYGFLLFDNYVPSMKSLDDEDRVIYVGSMSKIFSSGLRIGWIIANEKVIEKIEALKQNINAHSPTINQLLTAEAIRSGVIDRNIINARNIYRLKSEIMKNEIMKNLGDKIEFISPTGGMFFFLWLKDIDTEKLLEKAINNNVAYLPGKYFYHDMSGYNTIRLSYSYPNEKEIVEGIKRLSEIIY;locus_tag=LOCUS_05860;note=WP_010979456.1 PLP-dependent aminotransferase family protein (Sulfurisphaera tokodaii) [pid:46.7%25%2C q_cov:97.7%25%2C s_cov:97.2%25%2C Eval:9.4e-98],MGA_587
sequence1	MetaGeneAnnotator	CDS	543209	544555	.	-	0	ID=MGA_588;product=cytosine permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005814314.1;translation=MEDDERKSEEISSGIPELGKIGKEIETIGVLPVPERMRKISSIDIFIFWAMASASAATPLAGYLLFGVGIPNFLIIVSLATLIGIIPAGLFSEIGRQKPIVSLTQARGTFGYYPANMLSLLYTFVNMGWFGLNLAVGAEILSSVSGLSLAFWSIVLGILQIVLVIFGAKWLNYFYRFTSPILVISYAILAYYLFSYYHPNISAMMSPSTTVNWGLSINLILTFSILSWAYKITTITRFAKPYNKFSLSYFVSPGIGIMLPVFLMGLLGYISQGATGNWNLAAVYRNGDPIWVLVAAIGASIAIIHTNSMNLYPAVADLLVSMETFMKKAKSYMISQPLASILLGTVSIILAILGILNYIENFLLLVGDLILPFTFILIVDWYVNLRNNSVSSFYYNNGIKLKAIIALIIGFMLNYYNFYGILSEYFPYQVLGSLIDSGIYYALQKIHF;locus_tag=LOCUS_05870;note=WP_005814314.1 cytosine permease (Desulfitobacterium hafniense) [pid:23.0%25%2C q_cov:85.3%25%2C s_cov:84.3%25%2C Eval:1.2e-17],MGA_588
sequence1	MetaGeneAnnotator	CDS	544639	545016	.	+	0	ID=MGA_589;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKNTRDWSKYDENVLTRYKLMFPFYVFEHWWELLQEENRYAKTKYKAPKEFNDFLAFLHLFLPYRAIEGVLSALAEMKIIPTSLDYSTIWERVRNMNINFPEASDELEVIADGTGISTTRGGQ;locus_tag=LOCUS_05880;note=MGA_589
sequence1	MetaGeneAnnotator	CDS	545070	545351	.	+	0	ID=MGA_590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKGEFKIVSAEVTSNEAESASNTVKDLKEKGKEVKRFYGDKAYDTNEIYNLGVDVVVPPRKDALGVVILLGVRLCASSRSWVMYVGGMRRVS;locus_tag=LOCUS_05890;note=MGA_590
sequence1	MetaGeneAnnotator	CDS	545619	546455	.	-	0	ID=MGA_591;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846484.1;translation=MVKVAMIQMGSIESKEANIKKALDYAKSAVKDGAELIVYNELFTTQYFAATEDPKFFDLAEPDDGPTVRTFYEFSKQYKVGMVITFFEEDKKIRGIYYDTSVFIKDGNILGKYRKTHLPQVPGYYEKFYFKAGKDYPVFNFGDYKVGGIICYDRHFPEGVRILTLKGADIVTIPTTTNFYPETWELELRAHAAFNTIYVVGVNRTPEVFQGKEIEYFGKSLVADPVGKIVKEMDSIEGYEIVDIDLNYIRERRKKAPFLRDRKPENYEEISSIYIESL;locus_tag=LOCUS_05900;note=WP_052846484.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:86.1%25%2C q_cov:95.7%25%2C s_cov:95.7%25%2C Eval:2.0e-138],MGA_591
sequence1	MetaGeneAnnotator	CDS	546448	547494	.	-	0	ID=MGA_592;product=NAD-dependent dihydropyrimidine dehydrogenase subunit PreA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979134.1;translation=MKDISVNFGDVSFPNPFFVGSGPTSGNPIKIISAYRAGWGGIVLKTIGDSIVRKSVRPMYGTMRRNKELIAFENLELITEDQLDTWDKYMKIIKSEVKIPIIASIMGGSDFSEWVKLARWAEDRGASMLELNFGCPHGEPERKTGAFIGQHPDLVYKYTKEVVSSVGIPIVVKLTPNVTEIKDIAKEAENAGAKAVTAINTVSGVIGVDIERGQPLPDINGYSGYGGISGPAIKPIGLAAVSKIFSSTSVEISGVGGIFDWKDAVEYMMMGAKTVQSVTYTMIRGFEFIEEWKKELYSFMERKGYSNLEDMIGIASKKMREYEFLEKVTKRRTNIDEEINVVRGEIYG;locus_tag=LOCUS_05910;gene=preA;EC_number=1.3.1.1;note=WP_010979134.1 NAD-dependent dihydropyrimidine dehydrogenase subunit PreA (Sulfurisphaera tokodaii) [pid:76.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-157],MGA_592
sequence1	MetaGeneAnnotator	CDS	547400	547588	.	+	0	ID=MGA_593;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFIGFPDVGPEPTKNGLGKETSPKFTDISFIEKLVIELYLSIDPFYIKYFPKYSIQKLFHS;locus_tag=LOCUS_05920;note=MGA_593
sequence1	MetaGeneAnnotator	CDS	547663	549093	.	+	0	ID=MGA_594;product=dihydropyrimidinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979132.1;translation=MEISYKYIRTKELMSLDIVLKNAKIFTSSGPIEGDIGIKDGKIVKIGDIQEQYIKTIDLSGKYVIPGLIDGHTHMEFPFMSEITADDFYYGTKASIAGGVTTIVDFVTPSHGQDLISAYEKWRGNADPKVVSDYGLHMIIREINSNVLEQIPSVINKGVVSFKLFMAYKNELMLPDGDLYKLIKKISDFGGVTGIHAENGEIINELIQEFLKEGKVEPIYHYYSRPDILEIEATNRIASIASLVGKDVKMYIVHTSTGEAVDIISNYRKMGYKFFNETTPHYLTLNTEMLKRPDAFRYVMSPPLRSDEQRTKLWYRLASGDIFTIGSDHCVYSDLQKKRHMEKVPPFNEIPNGVPGTETILPLLYYFGVKKGIISMERFIEVTSLNPAKLFGLYPQKGTIMPGSDADFAIIDPEKKVRISPDVLHSNIDYTIYDGVEVEGWNVMTMRRGEIVYEEGQVIGKKGSGKYIPGKTPIMM;locus_tag=LOCUS_05930;gene=hydA;EC_number=3.5.2.2;note=WP_010979132.1 dihydropyrimidinase (Sulfurisphaera tokodaii) [pid:80.6%25%2C q_cov:97.3%25%2C s_cov:100.0%25%2C Eval:2.5e-228],MGA_594
sequence1	MetaGeneAnnotator	CDS	549100	550689	.	+	0	ID=MGA_595;product=cytosine permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979131.1;translation=MAEKTIDRSSITKFYPEKGQVELTETFPNEKFLWNADVHPIPVKNRNWGSLTYFMIWVSMVFIIPSWTLASVGLVFGLNIIQSISMVFLGNLIVLIPMIIQSHGGARYGLAEPQLTRSRWGTYGAIFPSWIRAIIGAGWWGIESYIITEAATAIYAILSGKVSVVAYTVSHYADYPFILSKDFPQVFWGTFAIVILLQILVFYYSPIMKSQPLLKWLARIGGPIILVSFFAVWLYFMSKVGWSVDIFTLSSTSSASMLSILAFLNANIAYWATMALTMPDYTRLAKNQFSQTIGQIPMPILMLIVAIMGTMTTAAALKLYGAPIWDPIVLVTLHMSSSASILILFAFILATFLVNVFANAVGPAYDIANTFPKHLSWFKGSLILILIGLALGAWSYYGNAYSYIENWLLTYGGLLGSVEGVIIFDYAIIRRFKFDLVDIFLSNGRFKYWKGINPAAAITFLIVSAIIYLPYPGESIALGNAWVLSFLLSGAIYLPLMKYWVIPKYQPELKGSLTHGYFSEDTLKIFKVK;locus_tag=LOCUS_05940;note=WP_010979131.1 cytosine permease (Sulfurisphaera tokodaii) [pid:80.9%25%2C q_cov:99.8%25%2C s_cov:99.2%25%2C Eval:1.9e-259],MGA_595
sequence1	MetaGeneAnnotator	CDS	550692	551057	.	+	0	ID=MGA_596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDFRSKKVAIISNCILNQNSKVIGFAKYRGIIKEIVDLLYEYDYGILQLPCPETLFAGARRWWQVRDQYDTEGYREHCRMLTKPIITMLKEYEKEGYDVLLIGVDGSPSCGVNLSPTSKK;locus_tag=LOCUS_05950;note=WP_011949009.1 DUF523 domain-containing protein (Clostridium botulinum) [pid:50.0%25%2C q_cov:96.7%25%2C s_cov:64.8%25%2C Eval:1.5e-28%2C partial hit],internal stop codon at [551055:551057](+),MGA_596
sequence1	MetaGeneAnnotator	CDS	551103	551252	.	+	0	ID=MGA_597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKPGIFMEVLMEEIEKSGLKIPKTIGIGLDITDAEHWDKNKILDLIK;locus_tag=LOCUS_05960;note=MGA_597
sequence1	MetaGeneAnnotator	CDS	551470	552051	.	+	0	ID=MGA_598;product=IS607-like element ISSto13 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980553.1;translation=MLRWIREDKIRVVTTEGGKYRIPYSEIKKYLERREEIRAVIYARVSSADQKEDLEIQINYLTNYATAKGYKVVEVLKDIASGLNTQRKGLLTLFKLVEGRSIDVVLITYKDRITRFGFEYLEEFFSTMGVRIEVVFGEESKDATRELIEDLISIITSFAGKIYGMRSHKKTVLVQGVKKLIGELNGEDSEVKG;locus_tag=LOCUS_05970;note=WP_010980553.1 IS607-like element ISSto13 family transposase (Sulfurisphaera tokodaii) [pid:87.6%25%2C q_cov:100.0%25%2C s_cov:90.6%25%2C Eval:4.3e-92],MGA_598
sequence1	MetaGeneAnnotator	CDS	552023	553261	.	+	0	ID=MGA_599;product=IS200/IS605 family accessory protein TnpB-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980554.1;translation=MERTVKLRVKVDYTTYSALKEVEEEYREVLEDALNYGLLNKTTSFTRIKAGIYKTEREKHKDLPSHYIYTACEDASERLDSFEKLRKRGRTYTEKPSVRRVTVHLDDHLLKFNLDRISISTKKGRVFISPIFPKIFWEYYNKGWLIASEARFKLLKGNVVEFFIVFKKDEPKPYEPKGFIPVDLNENSVSVLINSKPVLLETNTKRITLGYEYKRKSITTGRSTKDREVKRKLRNLRERDKKADVRRKLAKLIVKEAYESRSAIILEDLPKRVPEHMVKNMKDSQLRLRIYRSAFSSMKNTIIEKAREFGVPVILVNPSHTSTICPVHETKIVYQPDGGTAPRVGVCEKGRELWHRDVVSLYNLRRRAGDVSPVQLGSKESHDPPIIKPGRWLRAKSLRLIMNEHKMNEMKV;locus_tag=LOCUS_05980;note=WP_010980554.1 IS200/IS605 family accessory protein TnpB-related protein (Sulfurisphaera tokodaii) [pid:77.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-190],MGA_599
sequence1	MetaGeneAnnotator	CDS	553745	554431	.	+	0	ID=MGA_600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNPLSIMIVGQIGLPIFYTTVVGYGAIMAGISKEITGSVTYDPTLLVVKFTTYLFAIPILIAYAFTMLNTNIFSNVVPPVYDLINTFPSKLSWIRGVIIVSILGIAVGAWSLYLKGAYTYFDTWIAFISGLLGPIAGIIVADYAILRKFKINLHDVFVRKGEYTFYKGFNISAILTLIIIFPIIFSTQLHIPIPFSIYIYKMSWMSGFLMSIPLYLLLTKLFDKYKR;locus_tag=LOCUS_05990;note=WP_010979617.1 NCS1 family nucleobase:cation symporter-1 (Sulfurisphaera tokodaii) [pid:38.6%25%2C q_cov:92.1%25%2C s_cov:38.6%25%2C Eval:9.8e-39%2C partial hit],frameshifted%2C insertion/deletion at around 553764,MGA_600
sequence1	MetaGeneAnnotator	CDS	554466	554636	.	-	0	ID=MGA_601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEPTKQDERIKYVIYLTMDEIILPFIGEQEMDTLSFDILTEYKKRISAPYLVNNK;locus_tag=LOCUS_06000;note=MGA_601
sequence1	MetaGeneAnnotator	CDS	554883	555164	.	-	0	ID=MGA_602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKGEFKIVSAEVTSNEAESASNTVKDLKEKGKEVKRFYGDKAYDTNEIYNLGVDVVVPPRKDALGVVILLGVRLCASSRSWVMNVGGMRRVS;locus_tag=LOCUS_06010;note=MGA_602
sequence1	MetaGeneAnnotator	CDS	555414	555581	.	-	0	ID=MGA_603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKNTRDWSKYDENVVTRYKLMFPFYVFEHWWELLQEENRYAKTKYKAPKEFND;locus_tag=LOCUS_06020;note=MGA_603
sequence1	MetaGeneAnnotator	CDS	555879	556247	.	+	0	ID=MGA_604;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTICPYCGIGCGVEFEKDRITPTKYITNKGMMCIKAALLPDTLKSKRLINPTLDGKEIDLDNALSVLSTYIRRNIKKYSKNSIAFYMGAQIPTEDQYLFVKLGKGFIGTGVFDSRECPKRK;locus_tag=LOCUS_06030;note=WP_062085955.1 nitrate reductase (Alteromonas stellipolaris) [pid:37.7%25%2C q_cov:95.9%25%2C s_cov:14.0%25%2C Eval:2.0e-17%2C partial hit],MGA_604
sequence1	MetaGeneAnnotator	CDS	556724	557338	.	-	0	ID=MGA_605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHWIEYYNGPVPYEHLSARHKTLVKMNYMLITSEVLSRLSDLFILRALIVMIVWTCSYRDVRSYYESDVVVRWFLGEYKSKSEIHRRAKKFRGEVKTLFKEYAKELEGKMSRLADYLPSSALYGKVGKLWIVDSFLIEVPFGKRNKETLKKKFELDLRQRKYREAANTLFLYIKCKVRRFKGEFTKKRNRSSASRSSTSCRLQ;locus_tag=LOCUS_06040;note=MGA_605
sequence1	MetaGeneAnnotator	CDS	558079	559368	.	-	0	ID=MGA_606;product=RNA-guided endonuclease TnpB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979067.1;translation=MSKSLRLKSFQPEEEYVYLTYSLKNDKKEESKILLENYRVLMQKALDWLWERTKIEKKETKKGKKVKITLPKKKEVYKVLRDELEKINNLASHYVDKAINDAYSILRGWKRRVEKGKASLRKPRLKKVYVRVKSTLRKVEGEEVRITVRPYEYITFSWSHKWFSRRVEGLELGEPIIKEDKVYLPFRYKLPWFTPLDFLAIDSNLYTLDAYDGEKFVTFSLKELYSLKFGMELKRSKIQSFASKHGKKGKVLLRKYSHRERNRVLDYVHKFVNKLLEMYPVTMFAVEKLNKQSMFQDADDKLSKRISRTVWRTIHSVLKYKAPLYGSFVKEVNPHLTSKSCPRCGWVSRKVGRTFHCVRCGFTLDRQLNASLNIYLKMCGFPHLFFTPTGSRWVGVIPLKGRRGMNGAMPRDSGEVQGLRIDIKYYEIL;locus_tag=LOCUS_06050;note=WP_010979067.1 RNA-guided endonuclease TnpB family protein (Sulfurisphaera tokodaii) [pid:81.7%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.7e-204],MGA_606
sequence1	MetaGeneAnnotator	CDS	559346	559924	.	-	0	ID=MGA_607;product=IS607-like element ISSto11 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742643.1;translation=MLRPKEVCQRLGISYATLREYVKKGYIKPVILETGKWRFKEEDVERLVGIVRKRKVILYARVSSNTQKDDLINQVKYLEENVKDYDQVITDIGSGLNMKRKGFLKLLRMILNNEVSKVVIAYPDRLVRFGFEIIEEVCKAHNCELVVLNKEDKTPEQELIEDLISILVSFSGKLYGMRSHEKVKKCVEELKA;locus_tag=LOCUS_06060;note=WP_084742643.1 IS607-like element ISSto11 family transposase (Sulfurisphaera tokodaii) [pid:86.3%25%2C q_cov:93.8%25%2C s_cov:100.0%25%2C Eval:3.8e-85],MGA_607
sequence1	MetaGeneAnnotator	CDS	559981	560331	.	-	0	ID=MGA_608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYYIDSSIIIALINEKDPNHEKAIAKSPKDGEKVISKLVVTELYSVFSRTLKLSEEELNALVDYALEKCGCKVEDVEFNRVFDLALRMSNRVKLKTLDLLHLSASISMGCEILSR;locus_tag=LOCUS_06070;note=MGA_608
sequence1	MetaGeneAnnotator	CDS	560597	561781	.	-	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEVRKLIIFKFLLIVAENSLGYFFLWHLLGIIGLVLTYTLFSITNYIFPHIQLFESPLIDKYKDIVKLLKIGYVLDIITIISLYPIFLYLVKLKLLFFTVLLIGIPFSSIIKALESTALDKLFKILMTDYQRGIYLVRKYEIVALATGQILGTLLLALSLFKNLTLIVIITLIGLAFLLSVRRVDNEVAQQSYISTFKVGFLNIIKNNVLKTILIFNIIYSLPGSLINLFIVYLVYYALHLPPVFIGLWSIIFIIGSLVGNKLGYKFSINSKAWMTFLFVLSDVSDISLVFFTNEQLLPIIYVILFLSSIAGSFANYYFSYLMYSSIPEETFATSSSIMGSISSVFDAVFTIISSLIISLISYFWSVLIAVIIFVVLDILLVSSIFKLKKIDH;locus_tag=LOCUS_06080;note=MGA_609
sequence1	MetaGeneAnnotator	CDS	561750	563117	.	-	0	ID=MGA_610;product=4Fe-4S cluster-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011251110.1;translation=MKRYYLSPFLIYFNNNDSIILFNQINHAIIEVNKDLWNKLLEYINNANVRLADQELIELINDLQRLNILFDYDINRYKHNIIEFRFNTLTNYNGMEIWFAISGKCNFVCPYCYQTYRKDGEVINDKRADKFINFVKKYVDQNNIRKIHLVYYGGEPLLAFNEIIKIHNELVNIKLNKNISLEEVIITNGSLLTEDKIEKLVELSDSSPIGIQITIDGMKEVMDKRRPLAGGGSSFDLVYNNFIKLVEKYPFDISLRSNINYDNIESVRKLLLKIKEDLGDLVDKVVFSPHWIYETQEVYMKNEYYLPEVSQTEAMELIKLELFAQELGFKTSPAYLHGPCTYVAKHGYAIDEFLRVYKCPGYLYTPKYFGIITDDGGIKITNSQYLIEAFGEIRKCYLNCQVGALCYGGCRAMKHCPKDEILTYVNTDLGKKVLLTHFLKNYGDDNGRGKKVNNI;locus_tag=LOCUS_06090;note=WP_011251110.1 4Fe-4S cluster-binding domain-containing protein (Thermococcus kodakarensis) [pid:33.4%25%2C q_cov:92.5%25%2C s_cov:93.2%25%2C Eval:1.1e-55],MGA_610
sequence1	MetaGeneAnnotator	CDS	563187	563684	.	-	0	ID=MGA_611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESIDNTLIEPKYRILYEGDDMFNFLEPNFCFGCGNFCNPICFGGGGGCFTDDLVLITPNGPRKFRELKVGDLILTPDGYKPIEEIYYEGVQRIYIYKGLKLSPTQPIVLSNGNLQSLALAKDVGVETSIYEHTWDLKVEGTLFYALGENDEKIILVDLPKKCSF;locus_tag=LOCUS_06100;note=MGA_611
sequence1	MetaGeneAnnotator	CDS	564605	564790	.	+	0	ID=MGA_612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVIRFVLQSYGTLSPRREKAADDFEKIMQVLKDELDNERLRLDMVFADRDSGGVAKSTAP;locus_tag=LOCUS_06110;note=MGA_612
sequence1	MetaGeneAnnotator	CDS	565189	566244	.	-	0	ID=MGA_613;product=ISH3 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012953324.1;translation=MVTPGLPHQNNIQQIGYKLLSMLNFKGEKVDEVAKTLISACLWNDSVENKSRAYDVSPQTVRNYVEKQGMEVIEKLLERARKISLEILKGVNEIDLSIDWTTKTWYGKPVKGLGSSEKGNSWNYATATTKYKGKVLLLAFIPQVNGMTKDEIVKILVEQVMAMGFKIRLITLDAGFYTVDVLNFISQFKYIIAVPVGDVKVFEEFDGDYTTNSKRHRRDEQVKFRLLVYSKEKVRRKKKSLVYFARATNLDLPKREVLDLYNKVRGPIETSYRNIKAFLPFTSSTKFVFRTLIFVLALVLYSLYTIFKGEVGREEFRLLLILLFPDLFNPENFTFNVIETLIYTIDLFLRR;locus_tag=LOCUS_06120;note=WP_012953324.1 ISH3 family transposase (Sulfolobus islandicus) [pid:92.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-179],MGA_613
sequence1	MetaGeneAnnotator	CDS	567253	567867	.	+	0	ID=MGA_614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHWIEYYNGPVPYEHLSARHKTLVKMNYMLITSEVLSRLSDLFILRALIVMIVWTCSYRDVRSYYESDVVVRWFLGEYKSKSEIHRRAKKFRGEVKTLFKEYAKELEGKMSRLADYLPSSALYGKVGKLWIVDSFLIEVPFGKRNKETLKKKFELDLRQRKYREAANTLFLYIKCKVRRFKGEFTKKRNRSSASRSSTSCRLQ;locus_tag=LOCUS_06130;note=MGA_614
sequence1	MetaGeneAnnotator	CDS	568698	569930	.	+	0	ID=MGA_615;product=amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979634.1;translation=MAFDIALKNGNIFNGKEFIGKSNIYINNGKIVKVSKEELDAKQEIDAMDMFVMPGLIDAHMHISGIKGGSLLKLMFERPEYRTIRATKWLEKLLLAGFTTVRDCGDPISISLAKAVKEGIIKGPNVIAAGRPITQTFGHGELSHDIPLEVSETTGFSEICDGTESCIHAARKVLREGSDFIKIFATGGVLSQRDKPENPQLTYDEIKVIVNEAEKVGTYVAAHAHGDKGARIAIEAGIKTLEHGTLLQDETLKLMIEKKVTLTPTLSIQEVIYRHGKEIGVDEWGLEKIAMVRDSISSVVKKAKDYGITIITGTDLGFETGLEDIDIGKNWMEIVLLIEIGGLTPVEALRAATYNSSIAININSGLIDSGKEADLIIINGNPLEDIKDISKVSYVIKDGKIEVEERKIKN;locus_tag=LOCUS_06140;note=WP_010979634.1 amidohydrolase family protein (Sulfurisphaera tokodaii) [pid:35.0%25%2C q_cov:95.4%25%2C s_cov:96.2%25%2C Eval:1.5e-53],MGA_615
sequence1	MetaGeneAnnotator	CDS	569937	571130	.	-	0	ID=MGA_616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSGESVKNLAKKNKKFYVLMIVLVLIPWFLEAYDSELYFFASPYIISTLKISSAYIGLTASIYAIGIAVFSMVGGYLFDKISPKYTIVSAVGLFTIFTILTGYVSNGLELLIYRFLVGVGVGIFQPATAAFAGDLLNTTRALRIGANSVAFGVGLFIAPYVISPFLPKFSLPFLISGILSIISLALFFYFVPINYREEIREKIDLKKILNVNTIILSIAILSFGIALFAFLGYYSDYLLYGLNLSKSNATIIASMNGLGELVFLLPIALLSDKISRKISLLLSSTILTLSSIGLFIGYLGYLPMILLTIAWGAGYGGLIVSIISFSQDVVPDEVVGSVTGFMFLTFNIGAIFGAPIMGGLISSYGFEKAGLLAIALPNFLALLLSIIVRSKKIVQK;locus_tag=LOCUS_06150;note=WP_011675003.1 MFS transporter (Lacticaseibacillus paracasei) [pid:23.5%25%2C q_cov:43.1%25%2C s_cov:44.8%25%2C Eval:2.9e-09%2C partial hit],MGA_616
sequence1	MetaGeneAnnotator	CDS	571325	573277	.	+	0	ID=MGA_617;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980626.1;translation=MNGKNIGISRTIIILIVLVIIIIAAVGAEFVITKHPTPTVKAISLAPSNTNVLTDVAQTAPPDALDPATGFFVQDGPLFTAVFQELVEFNGTNYHEVVPVLAENYSTPNYQNYYFNLRDYVHFADGVQFNSSTVWFSLYRTILMGQGPGVANYIGLLFNSTVYGMTGYAIPWGVNYAIQNATGLPTANNYTLTAQVLASILSHFNANNATIQKIMEYPNQAVVVKGPYEVEVSTLEPYRYLPFDLAGWWGAIVNPVIVDEHGGVSPNSVNSYLDEYGMNGTGPYVIVKVSPGFSTIELEANPNYWAVGHDVPLVAQPAHIKYVVINYGLSHNDRVEDFLKNDAQISYISIPYLSQILGAYPYNTIPMNSSFINFGSEPGVNFIALNTQKYPTNITDFRLAVEYAVNYSALLSIFSYNGKPLASEFLGPISPQFPGYYDPSGLPDYNYSPSLAMHYLNEAGYIGHFYVVLPNGSTLGDSSGTQLPPLSLYALSPVNELEEDELEIISHDLSAIGISTTVYYVLPSIVPSFNTPSNSPQLLDLGWFPDWPDPVFQQLMPITDIQFGALDHAWLNSSKLQSIYSNLPFITNSTLQKKLTAEAYSIIYHEAPYMWLPVTDYYYFVQPYVHGFEYNEFVGYYYNMMYYSNYTYTT;locus_tag=LOCUS_06160;note=WP_010980626.1 ABC transporter substrate-binding protein (Sulfurisphaera tokodaii) [pid:72.1%25%2C q_cov:91.8%25%2C s_cov:86.4%25%2C Eval:1.1e-267],MGA_617
sequence1	MetaGeneAnnotator	CDS	573723	574169	.	+	0	ID=MGA_618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSEEEKEYSLNKYIEFLRHPSISSTGEGIRETAGWLKDFMNDLGISARIEETGGNPVVYGEVNNGGNKTLLVYNHYDVQPVDPLDEWRFPPFSATIKDGYIFARGASDNKGTLTARLIAFSKYNGKLNFKFLFEGEEEEEVLIYRNM;locus_tag=LOCUS_06170;note=WP_010979127.1 M20/M25/M40 family metallo-hydrolase (Sulfurisphaera tokodaii) [pid:74.1%25%2C q_cov:93.9%25%2C s_cov:32.6%25%2C Eval:3.6e-58%2C partial hit],frameshifted%2C insertion/deletion at around 574139,MGA_618
sequence1	MetaGeneAnnotator	CDS	574208	575020	.	+	0	ID=MGA_619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGSGLDIKGRPMIVLGVKGLVYIQINLRTGERDVHSSNAPIVYNPVWELIKLLNSIFDGEKVKLKGFYDDITPLSKEVTELLDKYDQDPEELRKSLGIYKLKNNDLRSLFTEPTCNIDGIISGYVGKGSKTIVPSSVSVKLDFRLVPNQDPKKIFSSLLEHVKNQGFNVEIIEMGLEKPVRTEPNTAVTKAMVSSAKKVYSTEPLIIPNAAGTQPMGLFFDLGIKEIVSAIGVGTPSSNAHAPNENVKIENFYKAIEHAYEFYNEYEKI;locus_tag=LOCUS_06180;note=WP_010979127.1 M20/M25/M40 family metallo-hydrolase (Sulfurisphaera tokodaii) [pid:73.3%25%2C q_cov:100.0%25%2C s_cov:62.4%25%2C Eval:3.2e-114%2C partial hit],frameshifted%2C insertion/deletion at around 574139,MGA_619
sequence1	MetaGeneAnnotator	CDS	575040	576041	.	-	0	ID=MGA_620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVGDVGFTFSAIANLLANEPQKVFRGMGYGAIYAFNAQNGQLIWMMYTKGELMPSPAVYGNELVFATGNGTIEAVNPYDGEELWQDNLQGYIDSMSSLDYYILPNGIPVFIAGFTLLQQPYGVVVAVNGENGDILWISTPTDWSIYDTSGGDGPVAVDQQSGIVVQENVANESNNYVYTIVTAYNASNGEELWTTPIGYGYLPVAFKSAVPYIDNGIVYITSPSTASVTALNITNGNVIWNTSLTPYVKPASPDTPGAPRGAPVIYNGYLWLTAGPYVLALNPSNGQIEDSYDIGGGFGITNPVIAGSTMFLANSFGWAIAIPLQDIVPSLQ;locus_tag=LOCUS_06190;note=WP_010979181.1 PQQ-like beta-propeller repeat protein (Sulfurisphaera tokodaii) [pid:51.2%25%2C q_cov:99.1%25%2C s_cov:62.0%25%2C Eval:5.1e-94%2C partial hit],frameshifted%2C insertion/deletion at around 576049,MGA_620
sequence1	MetaGeneAnnotator	CDS	576038	576364	.	-	0	ID=MGA_621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINGKITWEQPLVEYVGGDAIPLNAPYSELPAYQVDGDRGAPAKLTQFDGQPLGVTLADNMLYVEFDSGGLGSIFAVNPLTGKPVWYASGLASYAMGNPIVYHGIWFS;locus_tag=LOCUS_06200;note=WP_010979181.1 PQQ-like beta-propeller repeat protein (Sulfurisphaera tokodaii) [pid:57.8%25%2C q_cov:94.4%25%2C s_cov:19.0%25%2C Eval:1.7e-26%2C partial hit],frameshifted%2C insertion/deletion at around 576049,MGA_621
sequence1	MetaGeneAnnotator	CDS	576460	576690	.	+	0	ID=MGA_622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRMLLLKDMENTHKVYTDFQICRILETLGIIALTCVSFAIFMNDIVANIIIDNITIIFKYPLNLDFIIVPSQTMK;locus_tag=LOCUS_06210;note=MGA_622
sequence1	MetaGeneAnnotator	CDS	577320	578036	.	-	0	ID=MGA_623;product=G1 family endopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013228226.1;translation=MSKYTFYFGEESLNWAGYVVSSNFSNPEPEVTDIDGSWIVQSVKPTMFPTYSAQWIGIGGFFSGDKSLIQTGTLSYSEFGQTYYCAWYEILPAAATPIQNFTVKPGDTIYSSIILLKVINSTTQEWKITLDDVTEHEYFSITLNYSSSLLSGEWIEERPEVFGHLSTLADFGIAYYGEGYTNIALTNYVTIDGTIGPIGAFPYESITMTNDIGEPIAVPGNLLYNGTSFNITYEGLIR;locus_tag=LOCUS_06220;note=WP_013228226.1 G1 family endopeptidase (Amycolatopsis mediterranei) [pid:26.8%25%2C q_cov:93.3%25%2C s_cov:76.8%25%2C Eval:1.3e-12],MGA_623
sequence1	MetaGeneAnnotator	CDS	578472	580328	.	+	0	ID=MGA_624;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980561.1;translation=MERSKAQAEDLGIKSDKMMRKTLSRLELLFLSLQGIIGSGWLFASLYTAAYVGGAGIISWIIGGILLIFIALTYSEISSSIPKSGGVVRYPHYTHGGIVGYIIAWSYFAAGATVPAIESTAIVTYLTSLFPSLTINGYLTTTGLGLAYGLLFSFFIINYLGVGLVGKVAHGVGWWKLIIPSLTVIMLLVFYFHPSNFYANGFFPPSKYLASGFSGWSSVLYAIPTTGILFSYTGFRQAIEYGGEAKNPSKDIPFAVVGALLISIVLYTLLQVAFTGAINWSSIGVKIGNWTGLQYSSLSSGPFYEIFKSSSVAGSILLLFDAFAILLLIDSAVSPAGTTVTGMGTGTRVLYGLASNGYLPEIFLKIGKTRVPVISLITVTVLGGIFLLPFPAWIALVGIVSSAAVFTYIMGGISLEVLRKKAPELHRPYRLPLARVLSPISTLVALLIVYWAGFVTLFEVVTIIFAGFPILFGYYARRNWNISVRLATLLGVANALIIGILDLYFFMITNGLSMSNTFAFMIYLIIMSILVFSDMAIIYLKSVTSRQEIKSGAWMPALIFSVLALSYFGSFGLDVLIPFPQDLMVLIVIGLFFHYIAVKSGIKTKAIEEIIDNMKGLI;locus_tag=LOCUS_06230;note=WP_010980561.1 APC family permease (Sulfurisphaera tokodaii) [pid:49.6%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:2.2e-174],MGA_624
sequence1	MetaGeneAnnotator	CDS	580420	581040	.	+	0	ID=MGA_625;product=type 1 glutamine amidotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978857.1;translation=MKYLIVKNYPIEGPGVLKEILRGEIKEIMAEDLHDEDFDALIIMGGPMGVYEKDKFPFLQKEIEIIRSSFEKGKRILGICLGSQLLSASLGGEVIKGQFGSEIGIKKVKFIGDLSYLGDANVFQWHGDTFSLPENAELLAYSEKYFQAFRLGKALGLQFHLEVNSSIVKDWLKEYGGDENLITDVSKNEIKLRELLEKIINYWLKL;locus_tag=LOCUS_06240;note=WP_010978857.1 type 1 glutamine amidotransferase (Sulfurisphaera tokodaii) [pid:52.9%25%2C q_cov:98.1%25%2C s_cov:96.3%25%2C Eval:2.8e-55],MGA_625
sequence1	MetaGeneAnnotator	CDS	581037	582458	.	-	0	ID=MGA_626;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979012.1;translation=MDIKTRTLLLLSSMLLIVNYVETMVIPALPTIESDFSISATLAGWVTSAYMIVAAATSPLMGKLADTYGKKKMYVIAIGFYIVAVSLAGFSPNIWFLLGARAIQGVGFSIFPIAIAIITDLFPREKVAFAQAILSAILGIGPALGLLVGSYVVEDLGWPYAFHTAAILSIIVFAASVAYLPHTGHRVKEKVDYGGATLIGLATVMVLVYITEGPTLGWLAINNLALLISGLVLYGVFIAYEQRVKEPLLRLDLFKIRNFAVANIVGLVSGIGMFMVFIFMVYYSQLPRPYGLGLSIIESGLLMSPVAFGMVIFGPLFGRLMPKIGPKPVLISGSIISALSYFMLLVNRATPVDLLEAGFVSSIGLVAVILPLVNMVALSLPDEYRTTGMGMNTMLRTLGGSAGPVAATVLMDSYQDPVIMMYNNQPLVLGYLPSATAFDYIAILGIFIMIVTLIVSLWTKNYTFKANKTAATT;locus_tag=LOCUS_06250;note=WP_010979012.1 MFS transporter (Sulfurisphaera tokodaii) [pid:73.5%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:2.4e-202],MGA_626
sequence1	MetaGeneAnnotator	CDS	582514	583689	.	-	0	ID=MGA_627;product=family 1 glycosylhydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978768.1;translation=MLYGFSIASFQYEEMNNNSDWYAWITDPTNLFLNKVSGELPTRNYYISKYSQIHDLALKVNANAWRLSFSWEKLVPKKDKISTEYLNLYRKILKDLKDKGFKIFACLNHFVLPLWLHDPIKARESLMTQGPLGWFDKSIIDEFLKFSLLIYDNFSEYIDYICTFNEPNNMIDFGYLTGYFPPGITSNYVAEKVRNNVIEAHNKVYEELSRKGAKVGIVYMIPAIQGEDNVKKEAEKRLVWDFLDKIKIDWIGVNYYSRIKLDKKGIPLHGYGFFCEKDSSSLDGNPTSDYGWEVYPEGITQVLESVKRIEKPIYVTENGVADERDYLRPRFILDHLNAIKSSRVKVEGYFHWSLLDNYEWNFGYNMKFGLYDINMNPRPSAYIFKEITYMP;locus_tag=LOCUS_06260;note=WP_010978768.1 family 1 glycosylhydrolase (Sulfurisphaera tokodaii) [pid:57.5%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:1.1e-138],MGA_627
sequence1	MetaGeneAnnotator	CDS	583780	584433	.	+	0	ID=MGA_628;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978977.1;translation=MLVINQPLPTKGIIVEEPEVVDIISSFLTDVKSINVRGFLIKIGKYNNENFVISSHGVGGPSTAFILEELINNGVKVILRYGTAGTLNGKNLGDYFIPLGVSHHYSSSLYQRSRGDIVLSLFPDLELAYGLYKTMKENGRNIFYGSIFQSDDFYSESHVSSDDAVDMESGTLFLISRLKEIKSASILIIANNRGKWINYEEIYKKDAPIILKFLSGI;locus_tag=LOCUS_06270;note=WP_010978977.1 purine-nucleoside phosphorylase (Sulfurisphaera tokodaii) [pid:39.5%25%2C q_cov:87.1%25%2C s_cov:84.4%25%2C Eval:3.9e-34],MGA_628
sequence1	MetaGeneAnnotator	CDS	584419	585447	.	-	0	ID=MGA_629;product=tellurite-resistance/dicarboxylate transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250965.1;translation=MAPKPASEWFPIVLGTMVLSLVSWIDSIVFNYNVFLGIGKIIYFIGIILFILIFSLWSYRYISNPRLIKEDFNKLNRLSFTSFLGVLIFVIGFFFTVYVNASSEVIHLLLYMYFIGYAIVLVVNILLGYKLFSQQIKPEELNYSILVPSIALSANIILSAPILPPSFPYIGKEETEIAYFMMLVAVGITFFQFIFIGTTAFLSHVNFKSAQSTPAIMIPVGASSIIAINILIFPSYNYLNLFYFPSNFALTIAIILWGFEIWNLTVALLLALRHVKEKMPLTVWAYVFPVGISDFSDFLLYEETKLPVFLWSVSVMSVAIVLLYIYATINTINIIKNKLNTR;locus_tag=LOCUS_06280;gene=tdt;note=WP_011250965.1 tellurite-resistance/dicarboxylate transporter (Thermococcus kodakarensis) [pid:21.3%25%2C q_cov:83.6%25%2C s_cov:83.3%25%2C Eval:1.2e-08],MGA_629
sequence1	MetaGeneAnnotator	CDS	585814	586083	.	+	0	ID=MGA_630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENAKWSSVHNWSFIAFSLGMTLEAYIFGMASIATNWVPMPKFLESILLAWAPLWLIIGIIFTGPMSDKLGRKRMFYLNKGAFSNKYFG;locus_tag=LOCUS_06290;note=MGA_630
sequence1	MetaGeneAnnotator	CDS	586152	586949	.	-	0	ID=MGA_631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILQGKRDQDTTSKPKYTMEGEGLERKTDFYDAEKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQLQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_06300;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:73.7%25%2C q_cov:92.5%25%2C s_cov:69.2%25%2C Eval:2.3e-101%2C partial hit],frameshifted%2C insertion/deletion at around 586864,MGA_631
sequence1	MetaGeneAnnotator	CDS	586838	587209	.	-	0	ID=MGA_632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKQIFTTQKN;locus_tag=LOCUS_06310;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:68.6%25%2C q_cov:94.3%25%2C s_cov:33.1%25%2C Eval:1.0e-42%2C partial hit],frameshifted%2C insertion/deletion at around 586867,MGA_632
sequence1	MetaGeneAnnotator	CDS	587668	587979	.	-	0	ID=MGA_633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWSLPRPNGRGFLLQSRGLPKVEVSAPQALRVVPTPSTNVNPQYPNMGLLNGAEAYHIDPRFNQGVSVTLTPSVTAINRIFEKYVFKCNYKGSSYGDFHEQHS;locus_tag=LOCUS_06320;note=MGA_633
sequence1	MetaGeneAnnotator	CDS	588038	589054	.	+	0	ID=MGA_634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLYAIGAVGITFAYEYYLILFFLAMLLFAAGGEMNTIMVMNHEIMPNRHRSKTMFFEINFINFGGLLLAAVALSSAYASITFQRLMIGITAIFILIILAYARLKIPESIRWLEEKGDLDGAEKEVKKYFTSIEDHSTVDKKTIKLPSIPLRLAVSIVMAAANTIGFGLMTYVAGPYFFPELTATIILVASIAEFLAGLGISPFADIISRKLTLLVSFIGTVSSTAIIYFTIPYWTSNLILFWILLVILNIFTSIGYLTEDTLKGELWPTPKRGTYTAIVRFVSIGSYIPVIFLAADLSIYQYMLFNLIIWTLGLIASIIWFTKGIETGKGRSLSEIS;locus_tag=LOCUS_06330;note=WP_010979148.1 MFS transporter (Sulfurisphaera tokodaii) [pid:29.5%25%2C q_cov:87.6%25%2C s_cov:68.3%25%2C Eval:9.3e-27%2C partial hit],MGA_634
sequence1	MetaGeneAnnotator	CDS	589267	590175	.	+	0	ID=MGA_635;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015868484.1;translation=MFKYVFGPVPSRRFGKSLGVNVVPLKYCNWNCVYCQLGRTNHFINSTVDFFNYEEIEEEIKIATKMYDYDYLTFIGDGEPTLYKDLGILIKWSKENQPKKVAVFTNGARLKMEEIRSYMSYADVVKVSNDAGDEKTFRIVDRPYRDIHFDDFMEGLKQFRKEFNGEIWSEVMLVKGVNDKEEELENIGRSLKAYSPDKVHIMVPTRPPAEPWATAPDSQKILEAGKILSKYVNNVYIIDYIERGEFYVDKDNPVNGILNILKIQPMTEEEIKDISFKYNVNIDNIKEKAREVVFNGIKYYVY;locus_tag=LOCUS_06340;note=WP_015868484.1 radical SAM protein (Kosmotoga olearia) [pid:35.2%25%2C q_cov:98.7%25%2C s_cov:94.7%25%2C Eval:7.6e-54],MGA_635
sequence1	MetaGeneAnnotator	CDS	590234	591037	.	+	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIDYSVLNVEGKVEGIDDAIYYLLKIRGVNFDFNLATSAMEVIDNAINMCKTVGSEEPTHDGIIKYPQVFPYEGLVAEGKWNLSNPCFYFAIVNNPTGIVAKGKELERFLEEAKNKSVKIIEDDIYGYFSDSKAFYSDNVIYVSSLSRILGSGIRLAFTNIKVKSKPSSISQYIVKRLYEMGTLQRVIQEEKYAYIKRLQKASEFFANYLFRKPEGGVSLLVNLAKEKFKAKVTDGSRYFRKKVKMTRITISRYEIEDIIRSIKA;locus_tag=LOCUS_06350;note=WP_003244019.1 PLP-dependent aminotransferase family protein (Bacillus) [pid:24.9%25%2C q_cov:67.4%25%2C s_cov:44.0%25%2C Eval:8.9e-08%2C partial hit],MGA_636
sequence1	MetaGeneAnnotator	CDS	591158	591541	.	-	0	ID=MGA_637;product=OsmC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979586.1;translation=MELTITLYGNPNNPQVEIGKNVSKANDIYVKSPLMAFLVSIPHCIYLITNEINERKGKELEFKVIARYQLDNLAIFTGNYVFEKIIIEICGKDCKEDYMEDLLEIVKNSCPIYLSLKDKVELKYKIY;locus_tag=LOCUS_06360;note=WP_010979586.1 OsmC family protein (Sulfurisphaera tokodaii) [pid:39.8%25%2C q_cov:96.1%25%2C s_cov:96.9%25%2C Eval:4.3e-20],MGA_637
sequence1	MetaGeneAnnotator	CDS	591687	592913	.	+	0	ID=MGA_638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980483.1;translation=MLKITTSEKTYTLNDCNVFYGYDNLSDLINSLSILDPTGYLKERRKIAWTAYFHISREYSDEIRKMYFTIFEIASIVREMNFRYINMAYALPSIISNVNTSIQLSWRDNKISLKTPIHIELESNLVEEIKKDINVKINDKEITVTENDREIKNSFDLYQITGVRDFYIISRFRYNSGKIVIDIDLEFYPSNKGINREISIEELNRVLRVTAKEVNEKSIGSHSEFEEFMISIVESLIEPLIIGVRENVSELLGLKEMVYIPPSKPFMLNAEESALNAQEVAQIFLDKCEMAINRIRSGKLNFSENEYTSYLPGLKIEGGLIEYNGKSIAISPYNIKALATIILELSSIKENAIVFLEAPEEYIIDEDRRMILNILDTVLKNGNKIIVHTWSRSMKEMLESLCKENRYL;locus_tag=LOCUS_06370;note=WP_010980483.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:38.0%25%2C q_cov:94.1%25%2C s_cov:99.4%25%2C Eval:1.7e-73],MGA_638
sequence1	MetaGeneAnnotator	CDS	593090	593479	.	+	0	ID=MGA_639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978701.1;translation=MYVVLGENDEVIGEFDDINSLYEFVKEKTKEGKKIRIRSFPSEYFLIVNNRIISKFSTPNEAFKEAKKYLNKGEDIKITNIKKFIVFNDSGKVIGEFDDINSLYEFVKEKTKEGKKITIKSPQEVYFLI;locus_tag=LOCUS_06380;note=WP_010978701.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:48.4%25%2C q_cov:99.2%25%2C s_cov:97.0%25%2C Eval:7.4e-33],MGA_639
sequence1	MetaGeneAnnotator	CDS	593476	593793	.	+	0	ID=MGA_640;product=clan AA aspartic protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978700.1;translation=MMLKATLNDSEEWFYVDTGFSGDVIVNYEIFDAISSPIMDVGDICISTEECYKGFGKISSINVNGREASVIVIWIPNFNENLIGERALIRLGLVINYKDLEITDP;locus_tag=LOCUS_06390;EC_number=3.4.23.-;note=WP_010978700.1 clan AA aspartic protease (Sulfurisphaera tokodaii) [pid:57.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.3e-33],MGA_640
sequence1	MetaGeneAnnotator	CDS	593951	594655	.	+	0	ID=MGA_641;product=class II glutamine amidotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979915.1;translation=MFAYYGSSSSKIEELFNCLKKSAEKDVYFGNATHPDGWGFVILTKDQIFHYRSANPIFTENLPIKLDDEETMAIFHARQATDKNLVGSQFSHPYSEANENGLFFFAHNGSVDKEKLSQDLLINSDMVVDSELALKFLLRYSNIYNGINDLKNYTRSSLNSFIIRISREKEAELFYLNYVRNRSEKASSNYYDLYIDTKDGISVFSSTLSYYCNDLGQNKVKYGELTPIGKMKLI;locus_tag=LOCUS_06400;note=WP_010979915.1 class II glutamine amidotransferase (Sulfurisphaera tokodaii) [pid:41.4%25%2C q_cov:96.2%25%2C s_cov:97.4%25%2C Eval:2.1e-36],MGA_641
sequence1	MetaGeneAnnotator	CDS	594715	595647	.	+	0	ID=MGA_642;product=aromatic ring-hydroxylating dioxygenase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979027.1;translation=MEKYWYPVDFSGFKIKEINLFGNEILVLNNGKYFAFQNRCPHRNAKLSLGKIMSDRIKCSYHGWEFDMNGKCVYVPSSDSEGHVNLKKYNIKEKNGIVWISLDIPDHDVPEFPEFNDMTFRKIKCGPYVFNSNPFRVMENILDVSHFAFVHEGYLGDSKYPQIPKYEVEVNNNEIIAKDIKVWQPNPDGTGETKLVSYTYKVLDPLILYFRKNSDEKIFSMYFAIFPESKQKSIVYAWIAMNYAFEYSEEKIRSFEDEVMSQDKMVVESQPYEYYLDVSKESHVEADKATILYRYWINKKIGKRSDIGLI;locus_tag=LOCUS_06410;note=WP_010979027.1 aromatic ring-hydroxylating dioxygenase subunit alpha (Sulfurisphaera tokodaii) [pid:53.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.7e-96],MGA_642
sequence1	MetaGeneAnnotator	CDS	596156	596455	.	-	0	ID=MGA_643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVLDSNIIITIMKGDKNILNFIKNNFNSISTTVINVYEIMRGKYNSTTLEDFLNQIIIYPLTIDAVKVASDIYKTLKSSGKIKSDSDILIASIVKANN;locus_tag=LOCUS_06420;note=MGA_643
sequence1	MetaGeneAnnotator	CDS	596442	596684	.	-	0	ID=MGA_644;product=antitoxin VapB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146550.1;translation=MPKVITISDGVYEKLSKLKGNKSFSQVINELIEYYNKNRKGRVEALDMIFGILNEEEAKELEKEVEEFRKNFKVREYGST;locus_tag=LOCUS_06430;note=WP_048146550.1 antitoxin VapB family protein (Pyrococcus abyssi) [pid:45.2%25%2C q_cov:91.2%25%2C s_cov:82.9%25%2C Eval:3.3e-09],MGA_644
sequence1	MetaGeneAnnotator	CDS	596962	597858	.	+	0	ID=MGA_645;product=pirin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980488.1;translation=MIRKVSGIIQGKYTVDGAGVKLYRVFGGVPTAYITDPFLLLDFFGSSNPSDYISGFPWHPHRGIETVTYLLEGKVEHEDSEGNKGVIYPGDVQWMTAGSGIFHQEMPKPLSLEDKGILQSKILDNSNKGLQLWINLPSNKKMSTPVYRGVKSSHVPKVKIDSGEVKIIAGEFQGVNGPVKAGLYVDPTYFDVILRPEGEFIQKVKENYTVLVYVIQGGADFDDRTKVDEGNLVIYGEGDEVRIRSQEGSRFIFLSGKPIKENIAWYGPIVMNTDDQIREALLDLRRGTFVRDKNPVFE;locus_tag=LOCUS_06440;note=WP_010980488.1 pirin family protein (Sulfurisphaera tokodaii) [pid:65.0%25%2C q_cov:98.3%25%2C s_cov:97.6%25%2C Eval:3.0e-103],MGA_645
sequence1	MetaGeneAnnotator	CDS	597859	599307	.	-	0	ID=MGA_646;product=4Fe-4S binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979646.1;translation=MNKYLLSITLYVYVLSLSIITVISKFNGFYILLALGIISEISNGLLFNYLYKTRNLEKQNLGEVYFLNISMLIAFSGILSFYLFLNEYLSISIILLSTVFILIQNFYKIKGNYIKSAKISFSLLLLVFTTTWVLATDISFGSGMLNFGVNNFITEAAGLGILDIPIISFLYNSFSVLVGIISTVWFSIMFGIFFLPLTIHRIISAKKLENKIRYTLMILAYWIYSTYIPSFSPISDKVQYLPYMWFNGLGTYGPVSSSYLLSGIVGTYIVTAILSYMFGSRQICSVTCTAPYMLQGSFMYSLKDYNRTSKLGRKTLGSKVSWWYKINSTIIMGSLIFLAIISFLNQEGVTNISILGIDPTVYICLLYFDLLWYIQFLIIPFIGNYSCVTSGICQWGIANQVFSYLGPFKLKVKDSNACLNCKTVDCAKACPVGITDMRGSFIKKGELKSFKCIGAGDCIESCPENNIYIYDIRKMIKDRIKI;locus_tag=LOCUS_06450;note=WP_010979646.1 4Fe-4S binding protein (Sulfurisphaera tokodaii) [pid:49.2%25%2C q_cov:94.4%25%2C s_cov:90.7%25%2C Eval:2.7e-121],MGA_646
sequence1	MetaGeneAnnotator	CDS	599490	600302	.	-	0	ID=MGA_647;product=DUF929 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979644.1;translation=MRSLRNVGFAFIGFIAILVVFGVYESYFTATSAIGDPISNNIYYKLEAYSNSNFSYSFVPSSIDMSTIKVYNSSYIAKYEGKPDIIYIGAEWCPYCGADRWAIIITLLRFGNFSGLDYMLSSTNDIYPNTPTFTFSNSTYNSKYVSFIPYEFENREGEPLNTPPYYIQYLWKGLANNSIPFVYIGGYYYQTGTIINPGLINGKSWNYVIDQLGSNTEFAKQVYTEANMLTAEICKVNGNQPSNVCKNPTILQIEKMLSIQFEDLEIDDKS;locus_tag=LOCUS_06460;note=WP_010979644.1 DUF929 domain-containing protein (Sulfurisphaera tokodaii) [pid:45.7%25%2C q_cov:90.0%25%2C s_cov:91.3%25%2C Eval:6.4e-62],MGA_647
sequence1	MetaGeneAnnotator	CDS	600390	601412	.	+	0	ID=MGA_648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979645.1;translation=MSNKMGRKNKRNLAISNVIFAAAVIILIIAAAVGFGLYLTKPPTTVTKTITSISTITTPPTTVTSTVTTTQTQTVTKTVPVIVNSSGAFLNGNVITFMYTAQFSCPPVNSSFYPNSTVESEVMGCEVGLPLNSSAMPANAAPVYVVVPAFAGLSIFGPTALGATPQGFPVFHYNGYNYTILTQCGAADTPTACPDHMSLIYSPAFTTVEQYLGIKNGVFGLPEGVLPTPAHEHIVTFSTNTSIPWYIVVVLDFNPNIYPNPITGQCSDIVQSNSSDPTGLCLNSYANLEAALSTHDTAVMAANSNNPIWIALGKPSVDAIAVPSNMILYFSDPDIYPYPI;locus_tag=LOCUS_06470;note=WP_010979645.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:58.8%25%2C q_cov:98.2%25%2C s_cov:99.7%25%2C Eval:1.2e-111],MGA_648
sequence1	MetaGeneAnnotator	CDS	601440	603773	.	-	0	ID=MGA_649;product=M1 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763369.1;translation=MSETFIFHVFLFSMSFVPINDQPSVRIGKSYVMKQHELIYPENLKFKIKHYIFDIYVNLEEKEIEGNAKIFLNSQGEMYLDALHFFINEIKLDNKPISWDYDGKKIKMNINGEHELSVSYKVKGSDNFRFLKINDHYEAANIGEVMSAPAWIPVVDYPGMKSTSEMIIRVKKPYIAVSNGYLKEKKEEKDFNIFHWVMDIPHSAYLNSLAVGQFFTKEEKWNDVILQYYLPKGYDQFIKNFSSTKDIMEFFSNYTGVKYPYPKYAQVVLFAMRGGMEYISSTHLTWMTLHDDIAEMDYSSDSLLSHEMAHQWFGDYVTTKDWPNIWLNEGFATYFQALYFEHSKGEDEFIYEMYRKLQDYLNEYKKYSRPIVIRYYKWAEELFDKHTYPKGALVLHTLRNYLGDDKFREGIKRYLEEHPYSPVDTEDFRKSMEKATGEDLTRFFDQFIYSAGHPVINVYYDKKRIRLEQAQDAPIYNINLEIKVVSGNNTKIINVDLGKSLEIEAEGEYVCVDPKFKTLKVVNDMQDEEKLIKESRDPEIMCRINAINSLTRFSDSKSISTLKELLTDSFWGVKYEAAIALGKIGNDEALEALVSSNVEPSKARRGVAKALGEFKFKKKAADYLVSIIENEKSYYVKADALSSLGKIGLPEYKEEIKKHFEEKSHIEVISTSVLEALSYYGDEDSFNFIVEKGVKNENELIRAAAAKNLGKFKEKALDILSALIKDESSQVRGSAVTALGDVGNSGSYLLQKVIDNEDEDGRIRANALRIYNSLNSQ;locus_tag=LOCUS_06480;note=WP_011763369.1 M1 family metallopeptidase (Pyrobaculum islandicum) [pid:36.1%25%2C q_cov:96.3%25%2C s_cov:95.4%25%2C Eval:9.8e-130],MGA_649
sequence1	MetaGeneAnnotator	CDS	603860	604369	.	-	0	ID=MGA_650;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429746.1;translation=MGEGTVPQIKDLHNYINFKLEEAIVELNLATELLQRGYSRNASQKAFMAWKAVVSVLVSINLDKMPKDEKEKKWYNKIGFLAPTTGLNGIARRLEEIGYNDLIGINSLALKLHRYAYNGIYRGASDYADRKDAIEDLKVLIKKISEIIMTLGKDKEAKEIIVRLETIQS;locus_tag=LOCUS_06490;note=WP_198429746.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:80.8%25%2C q_cov:98.8%25%2C s_cov:100.0%25%2C Eval:6.0e-75],MGA_650
sequence1	MetaGeneAnnotator	CDS	604856	606358	.	-	0	ID=MGA_651;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979018.1;translation=MSGRSLFVRESSGLRKEVSSLDAIMLNLGNMSAGVALFTGISPYISQGGVIWIASIIGLLLTLPQAYMYTALASKIPRTGGDYIWISRILNGPLGVVMAFALMLESTAFFALVAYFFSSAVGTVISTIGSLDGISSLVSLSSTLSAPIYSYLLGAVLFGVIIAFNIFKAKWGYALVSISGIIALLTTLIAMSVIALNLGDFSTAIKPFLTSQGITPPPHYSIAPFNLGATFAILPLLAIFTYPWMQAVPAVASELKKTKYVAYGIFGPLLITGFLVTIGFLLLYMAGGYSFTTYEFIKNGFVYTFWTVAMGLTTNYILQWIIGIGLMIWEFSILAYGVVVFARYIFAMAFDRVFPEIFTRLNKQGSPVFTHLFDLALTLGLLVLPVISISGATALYGAIVIGMVYFFIVSIAGIMYGIKEHKILVPVSIFSAGYFIFLTYEAVSNPTFSFVQSNGVPNPVTLGFVIGSFVIGGVIYGISRYINKRKGINIDLVYKEIPPD;locus_tag=LOCUS_06500;note=WP_010979018.1 APC family permease (Sulfurisphaera tokodaii) [pid:68.4%25%2C q_cov:99.4%25%2C s_cov:99.6%25%2C Eval:1.9e-197],MGA_651
sequence1	MetaGeneAnnotator	CDS	606532	607812	.	-	0	ID=MGA_652;product=glutamate-1-semialdehyde 2%2C1-aminomutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878736.1;translation=MEMLNTEKSRSFYEEAIDHVPMGVNSNYRLVLNYPLYLKRGKGSKVWDVDGNEYIDFNMAYGAMEVGYGNPLIVNEVVKTVEEGSILGFEYCKAIELAKIIKKRYNVDMVRFSSTGTEATMHSIRIARAYSRKKKIIKFEGHYHGSHDQLLVNVDPEKSMVKLPSSEGIPEEVIKNTLIAEWNNLESFEKIIRENKDIGAVIMEPIAMNMGLIPPDKDFLKGVVELSRENNITVIFDEIKTGGKSFSGASDYVEVEPDIKVIGKSIAGGLPLSVIAGKREVMSILNSGRVAHGGTFNANPLSVRAAIVTLEKILTENAFYKMKRLNRMLTRGYNDIIEDLSLEASISSLAISGTIYFHNKVPKNYSEFLNVDVEKWRNYFSKMMGRGIIPMADYDEQWTLSIAHDEKDIENHLTIAENTLKEIKSL;locus_tag=LOCUS_06510;gene=hemL;EC_number=5.4.3.8;note=WP_010878736.1 glutamate-1-semialdehyde 2%2C1-aminomutase (Archaeoglobus fulgidus) [pid:38.0%25%2C q_cov:97.9%25%2C s_cov:100.0%25%2C Eval:8.2e-82],MGA_652
sequence1	MetaGeneAnnotator	CDS	608096	609697	.	+	0	ID=MGA_653;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979926.1;translation=MASKKVSGGVFLRETSGLVRDVSPWPSLLATWALVTGGVPILILEWLWLGPGANWPLAFTITLIPTLGMAFLFYLAGASMPRSGGDYVFNSRATHPALGFANYWALFIAFVLSQGYYSYLGASWLGYLFTGLGMYYHDNFLLSIGGFFGLKIGRILWGIIVGTVITSLIALSVRFHWKFIAIAGAISLITTAVMFGTLLTINPTSFSSALSSFTGIKDAYSEVIADASSNGLSFVTPFYGAILAIPAIWYYYTWYNLPASWAGEMKKVRFNVFLSIIVGVLMIAVYYILFTQINISAFGEKFLTSYSYIYCNGYNDTVVNTLSSIGTFTPFFALLVLGNPIIYILMFIAIWLPNYYSGPPLVLGLSRYLFSWSFDRIMPSWMADVNSRLNAPIKAVLLIMALSGFGVVLYAYLPVLSLVDVTVAFEISYAIFAVSSALMPYIRKDVYESTMIIKKKILGIPIITLVGVPTFIFLVFATVITWGNPIILPVNLPTILSVVLMYASGFAIYYGAKIWNQRKGIKIDLAFKEIPPD;locus_tag=LOCUS_06520;note=WP_010979926.1 APC family permease (Sulfurisphaera tokodaii) [pid:55.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-177],MGA_653
sequence1	MetaGeneAnnotator	CDS	609694	610842	.	-	0	ID=MGA_654;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980485.1;translation=MILTSDYATFYSLPSLPLRLIPNFIRKNKFPPYGLRKIESIVNSKIVSPTAIQKFLHSDKILGIYVNDPLAQTEVSKGLSKIFGEQPYHYKAFKSFSNRIRLLKEKYKFKVIIGGPGAWEISIEKPNWVDTILLGEAEITLPKIMQNNFFPKIIYGEETEKFFPIKGPSAFSEVEIMRKDRKIPLDVIKSELKVQSKYHDYVNLISDDLLSYGSEEEILELLKISSTFGKVIFSQISAISAYNFNFEKIKSILNLNENNWRSPVLSGKPGICTLEFENEIINELNKNYIYPLIYINEEKVKDLMKYKCIIIPLPSTEKYYDILYETWIHNSCIFKSKLNKTIEFILYKNKETKGEYLKKINIRGIHLYNIFAILIKSYLKKN;locus_tag=LOCUS_06530;note=WP_010980485.1 radical SAM protein (Sulfurisphaera tokodaii) [pid:26.4%25%2C q_cov:99.0%25%2C s_cov:97.0%25%2C Eval:7.4e-31],MGA_654
sequence1	MetaGeneAnnotator	CDS	611081	611899	.	-	0	ID=MGA_655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAVFRYWIKYYVVSFLSILIIDIIISSLPINFPLFFIFQIVLIFGLWYLISPFIMKLVFKMKPADEHSYLLVKNLASIFKVKTPKVYIADVDFPNAFAFGNIFWRGIAITKPIFNILDDQEISAVIGHELSHLKNKDPEILILSIMGINSIYVGLLYVLPSLTGAIIIFYFLVLFPLFFAIHRRVEKRADITAVKTDNSLTIPLETSLIKLGYIKGENLRNMPRFQVLLMKYSLTNSKDGNAIFRTHPSIPERLQYLSKYEIYNWTVPNWY;locus_tag=LOCUS_06540;note=WP_198429668.1 M56 family metallopeptidase (Sulfurisphaera tokodaii) [pid:45.2%25%2C q_cov:74.6%25%2C s_cov:96.2%25%2C Eval:9.0e-40%2C partial hit],MGA_655
sequence1	MetaGeneAnnotator	CDS	612124	613548	.	+	0	ID=MGA_656;product=extracellular solute-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156015092.1;translation=MKGASLALIAGVVIVVILIGAVAAYFLLVHHPTTTPPVTSTTPVTPVTLTVVTFSGQSANFIQYAGNLFSQEHPGVTVKVISYPFSDYIANELTVLRAHSSEYDIIGFTSTSAQDVSPYLLQLNTSMFNMSDLIGPQEDFGGIIYNVTTGKNETIGIAYETAVYLMAYKTSIFDNSTLAQEFYNEYHVNFSPSTWQNWTDVIDADQFITSKGLTAYGFLIDDHLKHGIIDAFPAVYGYYYARNYSLNHGVIGGIPGFNIMFEGYTLPGYSYPLPSFNSTAGLEALETYGQLVSYEPSPSTIEMCYGNIPEFYSNSSGAFLFTTQLSSINSSELQETYLAPLPGGYAETGTDFLGISKYSTHVQLAEEFLQFLVSPKIQELGFIKFDKFPISKEAFTQLLQNTSIPSYELEWLNATYHAALNAWANPPNIPPTYNYLIPDFNNQIMQYLEGKITAQEALNTAALDWAEATASYYG;locus_tag=LOCUS_06550;note=WP_156015092.1 extracellular solute-binding protein (Sulfurisphaera ohwakuensis) [pid:63.8%25%2C q_cov:98.7%25%2C s_cov:99.6%25%2C Eval:7.5e-172],MGA_656
sequence1	MetaGeneAnnotator	CDS	613554	614510	.	+	0	ID=MGA_657;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846673.1;translation=MSVVLKDVTKRYKKLIAVNNVNLKVEKGEFFIILGPSGSGKTTLLRSVAGLERIEGKVLIDNVDVTNLPPGKREVSMVFQNYALYPNKTVFENLLMPIETIRRKDAEERITEVSKNLGIYDLLDRYPQELSGGQQQRVALARALVKKPKVFLMDEPLSNLDAPQRISARKLIKELQRDNNITTLYVTHDQTEAMALADRVAIMDNGKVIQIGSPEEIYENPANIFVANFFGNPPMSIVDGKIFGEEEKVGIRAENVILGEGKLLGKISDIEFWGEKYLVYINFEGYEIRAFSRSKLKVGEEINFSISEYKSLKSVITK;locus_tag=LOCUS_06560;note=WP_052846673.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:58.2%25%2C q_cov:96.9%25%2C s_cov:98.1%25%2C Eval:6.9e-101],MGA_657
sequence1	MetaGeneAnnotator	CDS	614507	616156	.	+	0	ID=MGA_658;product=ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979987.1;translation=MRYSIPYLTYIIAFGIIPFSYTFYIVGSNASSLSKAFILIPIDTVIYNTFIFAFLSALFSTIIGLFLAIGIDILPKGKRPISLLSMLPYTIPFTSSALIWTISLYGKYGWFSYLFGLKYDPLYFSSTALWTLIGINIWTSIPMSFLILLSAIRSVPYDVKEAALVDNVPLSEYYFRIVLPSIGKAFWLAFILQFVLSLGNFDLPYVLTQGGPGYATTTLPLLVYDEMFQLGNFSGGALASAILSIFATFPAILLLFLIKTRRNKLLPSFKLRLPDNIFKIIMFSIVTILLFFLDFPVYWMFLVAFRNASLDFRYPPIFSPIDLTSKYFSSALSSSIPYMITSLIVAITASLLTIGLSLPSAYEVSKGKGSWILPLSIYLYSLPSASFILPLFIFFSSEGLLNTWWALILSTPIFTATFAVWIMYNFFLDFPKAYDDAADVFSIKGKMRRIIFPLSRPALFSVFLLSFIFNWHLLFYPLIFATSPYNFSFPPQGAQTITIFALMALGDQSVNWGLLASSALVAALPVMIITIFAIDRVIKGTYKGGIKFI;locus_tag=LOCUS_06570;note=WP_010979987.1 ABC transporter permease subunit (Sulfurisphaera tokodaii) [pid:53.1%25%2C q_cov:99.6%25%2C s_cov:99.5%25%2C Eval:3.2e-169],MGA_658
sequence1	MetaGeneAnnotator	CDS	616361	617071	.	+	0	ID=MGA_659;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMKLLALLVIPLLLLIVNSDVLYFYSANNFFYVTNVMQPQEYNNFNFINNNYILSSSSYTSSNNGSIIILGYMATLPPKPNTYYTINSTSFEINVPTYSKLYIIPIIYNISNSSPKLAFSNISLTFIGRSSHIFSLVNNGNALNKTFCLQLLNNFYSVNIIWCLSAPQPPPGTYYANIFMMIVVSISGANYVYFWNLSITQIIGLPPPPPQPYTYIKEYQLNQIEIVKIIDSLYS;locus_tag=LOCUS_06580;note=MGA_659
sequence1	MetaGeneAnnotator	CDS	617202	617552	.	-	0	ID=MGA_660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846554.1;translation=MFEELIKAIDYINDGNVISAGKYLIELAKNQDDEDILKVVAETEKELREIEDEKTLLDLDSKFRDQLIDVIRENIKWKKEKIRVLSLYLIDKMSKGNEILLQMIRSPTEGRPHTFI;locus_tag=LOCUS_06590;note=WP_052846554.1 hypothetical protein (Sulfurisphaera) [pid:33.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-13],MGA_660
sequence1	MetaGeneAnnotator	CDS	617784	618299	.	-	0	ID=MGA_661;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978842.1;translation=MEEKLISPKIDRKAYIRARIIETLDDIDVAINMWIAGRSRNSAGKVFSAVKALLSALVTKNLDKLSNNDWYLKRGYNAPTHSLKGISIDLSKLGYKEVENITNLAFLLHDYQYNGFDLDFSKYKKKEEVLHDIFIVSNFVLEHIKEWFKNEWDSDLDKVYDITLSDMKKLG;locus_tag=LOCUS_06600;note=WP_010978842.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:38.8%25%2C q_cov:89.5%25%2C s_cov:88.8%25%2C Eval:1.8e-26],MGA_661
sequence1	MetaGeneAnnotator	CDS	618780	620300	.	+	0	ID=MGA_662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978784.1;translation=MYGRIKKILEKNSLKILTIFTIIIVTLTSILSILYLFTPILIGYQKTSNGIIDYFKNIIDPSFIIKAYSNNTPVNAIISVYINQPHKVKFYKEFYGESLKIPFTSIENYVKPWEKYENENTSLLVIATYIKGNETFTSTEEIQYNPNWVLKNQPIQIVANVNIIPQLIKLNNTMIQQENNKIQTLKTSYYKYCYCGGEKYPYIVNMSKEEYEEPPTYPVVVDGAPVVYEPVTSVLYFYNFSVPLNWITLSNNVKNNDNYTYISLDTSLFGKVSWYAVSNSTNYGGPYIGVSYSANVNWQASTYYNKPFLSNLYNPTIYNYYNATIAVVIYTIYKVGVHGIRIPIDNVTVFEILWASPNVSGAVESSNGLTCVIYTNSSGEYTHYLSIGNGSVTLFYNYFKEFIGNQKSGQYGYAQWGDGKITSTGNIKTAGNSFYFFVSYINEYIKNNNQTENYFTNTIVSVYIPVNTMNQICGSGHVYVSYLNYSTALQAPLLGFIMNYSSYYGG;locus_tag=LOCUS_06610;note=WP_010978784.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:42.7%25%2C q_cov:94.7%25%2C s_cov:96.4%25%2C Eval:3.7e-108],MGA_662
sequence1	MetaGeneAnnotator	CDS	620856	620996	.	-	0	ID=MGA_663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAVGVHLTHKDKEVVAFISGESYENLTEEQIINNIGLYVSSDDS;locus_tag=LOCUS_06620;note=MGA_663
sequence1	MetaGeneAnnotator	CDS	621281	622432	.	+	0	ID=MGA_664;product=IS110-like element ISSto4 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978850.1;translation=MERKIKPKVFAIDVGESRLVATKMEINNNTVKEADTREFKYNEEGLKELIKFLEGYEEGIMEATGVYFYHVYNVLRDKGLKVNVINPVQTVEVLGKKTDKNDSIRLAIAYAAGTVKGSYIPTGEMQELREMTRHREGLVERKTQVKNEIRKVLETAGYKLPPFEKKTKEIVRKLATDEKLTDEEIKEYSKLLGRKLTRIEAFILKQLLDLLNIIEEQIKEVENEIMKFLPEEAVELTKIPGIGPISAATIYAELGDVSRFESSKQAASYAGVSPRTKQSGKTEFHNGLIKGNKHLSRVLFLVARSAKNTTQFNGFYQALLKRTSNSKKATLALANKICRIVYHVLKDGEYKGETKKTRYRGGGGEGPQVDPNQVVPSALQAIA;locus_tag=LOCUS_06630;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:54.7%25%2C q_cov:95.3%25%2C s_cov:95.6%25%2C Eval:1.4e-109],MGA_664
sequence1	MetaGeneAnnotator	CDS	622557	623207	.	+	0	ID=MGA_665;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYVFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEQRSYLKKSKYYLKHYWKQARK;locus_tag=LOCUS_06640;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:70.2%25%2C q_cov:90.3%25%2C s_cov:55.5%25%2C Eval:1.8e-76%2C partial hit],frameshifted%2C insertion/deletion at around 623141,MGA_665
sequence1	MetaGeneAnnotator	CDS	623222	623611	.	+	0	ID=MGA_666;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLSALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_06650;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:75.6%25%2C q_cov:100.0%25%2C s_cov:36.7%25%2C Eval:3.8e-53%2C partial hit],frameshifted%2C insertion/deletion at around 623141,MGA_666
sequence1	MetaGeneAnnotator	CDS	623676	624038	.	-	0	ID=MGA_667;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQNLIVALVVITLITNVILGIELYTVLHPGTHGQVITQLNGSNVSIISKTNSSYSFSFKIKFNLKIHNNGEYTIGIKPTGFKQLYIILQFKDGKTVELTLNNTQVQIYLTRAFSNKYFG;locus_tag=LOCUS_06660;note=MGA_667
sequence1	MetaGeneAnnotator	CDS	624347	625549	.	+	0	ID=MGA_668;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDKFWRLLLARGFIRLSSMMFAIFFMWRLITQYNSIFIVSLIPALSIVGYVIVSIPEGYILDKFDRPKILFLSSVILLIIYIPLLFYSSLLLIYVIDLLSSVFFFISGDIFYTLIKDIVEKEKLSEAMSFNVISRSIFEIVGISLGGISAAFFPYLFPYLLVFISLLTLIISYSISSNIKTVAIEKKKEEKTEELNYSHVIKLIKYMLPALLISLVINGIFVALDVFASGIFYDILHSGALGYTAFILAFSLGTLLGGTIGNRFSEKLLNARSFALIIASFSLVFYLIVLVDFSPYIEPLYTLILGIGVSLIDIPLEALITKIIPSKIFGRTNSLIMIFINGSSPILAVVYGFISNFFSIKIIFITLGSLMLIISIPAFFIYRKLVRTREEDIKKVLQL;locus_tag=LOCUS_06670;note=MGA_668
sequence1	MetaGeneAnnotator	CDS	626339	626503	.	+	0	ID=MGA_669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKGIAIATLVVSIVAAIIIFSIFPPNPINILLGITLGLMISIAIYAKENYDEF;locus_tag=LOCUS_06680;note=MGA_669
sequence1	MetaGeneAnnotator	CDS	626745	627137	.	+	0	ID=MGA_670;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGNIALYSTAYILSRHGWNVLPTSRNTRGVDIVIYSQDGTKMHTIQVKGLFKRNPVPFGSNLNNLIAEFYVIVLLNELKSEPWAFVLKKENIIEKLVKRDKNRKVSYWLNDMKFLSEFKDKWDIIGYGY;locus_tag=LOCUS_06690;note=MGA_670
sequence1	MetaGeneAnnotator	CDS	627298	627528	.	+	0	ID=MGA_671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNKQEENGRITVPGIIAEEEKGNSEVHEVPPVIGSEMQPERAKSDLIATRQATLPQTPYVRIERIKKKYVMLLK;locus_tag=LOCUS_06700;note=MGA_671
sequence1	MetaGeneAnnotator	CDS	627648	627815	.	+	0	ID=MGA_672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSDKEFADILKLVLEVAKNENIRIEGKNRWKEFLENYEEAQKSKRKKNYEELAV;locus_tag=LOCUS_06710;note=MGA_672
sequence1	MetaGeneAnnotator	CDS	627845	628090	.	-	0	ID=MGA_673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGPYSKSIIACDWKLYLVEEPPKEVWERFLQYFGIDSKPDVIYVDYNKSKYKITLLKENEVEEFLVNQCSQLLHKNHQYS;locus_tag=LOCUS_06720;note=WP_052846542.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:69.7%25%2C q_cov:93.8%25%2C s_cov:65.0%25%2C Eval:3.0e-26%2C partial hit],MGA_673
sequence1	MetaGeneAnnotator	CDS	628348	628641	.	-	0	ID=MGA_674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHSTIFVEYKKVFVEYLRPFRILEFKYGTVLWNELLKKDLVILKLALLSDYNRIPHRLSKVLHDIPFTQFISRIGVLNIEEIRYKNWRFFSIFTTSF;locus_tag=LOCUS_06730;note=WP_052846543.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:80.2%25%2C q_cov:88.7%25%2C s_cov:59.7%25%2C Eval:1.8e-34%2C partial hit],frameshifted%2C insertion/deletion at around 628365,MGA_674
sequence1	MetaGeneAnnotator	CDS	628821	629177	.	-	0	ID=MGA_675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846950.1;translation=MHDPCESYLMKMHDCESYVECVLRSKGFKIIARDQHGYDVEAYYPSGMYYYFVEVKCGPRAKLSSYQRRFKSAVEIAREVGFNFTTDKGLELIPKFVLCQFDDKYRLIADQSCKKLLR;locus_tag=LOCUS_06740;note=WP_052846950.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:82.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-55],MGA_675
sequence1	MetaGeneAnnotator	CDS	629268	629516	.	-	0	ID=MGA_676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIFVDLKPGDKLTILEDKEVLKLSMFLQNENEIMDKKHVFIIIVRSDEHEKIARAFLEKTKLQGTAILVRMHANKQTFSQ;locus_tag=LOCUS_06750;note=MGA_676
sequence1	MetaGeneAnnotator	CDS	629564	629734	.	-	0	ID=MGA_677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMYFEETENEFRDYFVRIDITKKVEIPSGDIVEAMLNMRIRVLKIKIKSYWRIKEK;locus_tag=LOCUS_06760;note=MGA_677
sequence1	MetaGeneAnnotator	CDS	630074	630706	.	+	0	ID=MGA_678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVKITSEKEFREYVKRKGYIIRGAYGEKADISEALKVLIRSLTEDQLKVIKGLKVEGNKEVEVSSEVIEEMKKKGINEEDIPKIVRVAIDSDLLLERPPELVDLLKKKMTREEVIDFYKKYGYTEKAVNKMVDKAIEKGDVEEVIEFVKDKDVGGKAGEILRVIKDHGKIGRKELRGIVGREGLSGLLNYLKKEGAIKIYLESELLDKL;locus_tag=LOCUS_06770;note=MGA_678
sequence1	MetaGeneAnnotator	CDS	630907	632265	.	+	0	ID=MGA_679;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980514.1;translation=MKPFYFLDNLKWNTFMTKNTIITGMGVFTVGYEGTAISLTLLITLSSLHVSSSEKPLFEGLLVSTGYIGMVIGGLIFGILSNKGRKKYYGIDVLLMGIGSILQFFVNNSYELFLLRTIIGIGVGADFVLSPVIIAENFNALDRGKAIAIGRVIMITLGDIAASLVFLSLLLSHVSTSLLWRITLSLGVIPALSVFYFRRRLPDTVRYIGRIKGDINELKNAVIKITGRNEVNVNVTIDRTPAFVYFRRNWKFFLTSALLWALLDLNIGIKEFGPTLIARQIGITDPAVYKIITDLAFALPGAFLGIILIDRSRKITQSISLISLIIVLTSFVALRGILPDVFLFLIISSYYFVYNIGAHPIIGTGLPAIELSPTKVRSFVQGIVVATAKSGGAIGTLLFPILFHKYGLIGALLPSIAIYLIMLALFTLVLPETGRKSLEETSREIESEEKIK;locus_tag=LOCUS_06780;note=WP_010980514.1 MFS transporter (Sulfurisphaera tokodaii) [pid:35.8%25%2C q_cov:95.1%25%2C s_cov:94.8%25%2C Eval:1.3e-72],MGA_679
sequence1	MetaGeneAnnotator	CDS	632615	633073	.	-	0	ID=MGA_680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVDVKAIKGGLEIYASCKNLDRPVDRPTVDQEVGRVNSLKKLPHLKVLVVSSLNDQARETAKSEGFLLVELNRKVTDEDLDTACIEIRKQLEGYFETLAPPELVSAYTALQAALNSLNDVEEGLKKVEEGLKKAITALQKASNKQSTIKFI;locus_tag=LOCUS_06790;note=MGA_680
sequence1	MetaGeneAnnotator	CDS	633064	634041	.	-	0	ID=MGA_681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQEKYDYLIDYVNYMEYIAIIQVIIFSTACEYKNIFYCDADSRIRIWQDIKNSIFVLLTSDEITYLSGANPQKINYFFNSAPEQIIRQTCQSFVYNTNIANNLVKYELENYEKLKKAYIEFVRSMIYKILSTSSTSEIMDIKQALSQLLTFVKTKQHAFNVVRFTTHVGTIFVLDEDLKPDVPKPDSWRYAIKGLDIIFECNINGKQDFMYAFPAPMFTDDFVNLLQEFLKYKTDTTTPPLKENDETPLQDVSGYRYSSTGVNETITSVPQPLLPVVCSSEDIRNTFMGVRDPLEAATAYAFKLLGFDVRTNVYEKIGQDKTWR;locus_tag=LOCUS_06800;note=MGA_681
sequence1	MetaGeneAnnotator	CDS	634467	634685	.	+	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLPKDYRLNDRDLLVLKAIKDGKIILSEIMKYTNLPKTTAYRRVKKLVSLGYVKEVKKEGKIFYIANEENQ;locus_tag=LOCUS_06810;note=WP_052846782.1 winged helix-turn-helix transcriptional regulator (Sulfurisphaera tokodaii) [pid:50.0%25%2C q_cov:86.1%25%2C s_cov:28.4%25%2C Eval:1.4e-10%2C partial hit],MGA_682
sequence1	MetaGeneAnnotator	CDS	634760	635221	.	+	0	ID=MGA_683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979070.1;translation=MNKLILAAVLIPLVGLGVVIGDSFLGTLANISYSIHTTNNNYEILSANINLGNLTAGEQGNYSSTATMKINSGYYTFKLNNGALEGEFSNFTVILKFANHTIILSKEHHESKKIFLQSGEYNVTILIYYVVSMKAHNATVSNTQLITVKEENS;locus_tag=LOCUS_06820;note=WP_010979070.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:37.1%25%2C q_cov:89.5%25%2C s_cov:84.1%25%2C Eval:3.3e-20],MGA_683
sequence1	MetaGeneAnnotator	CDS	635545	635697	.	+	0	ID=MGA_684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTVKKEEDIFIEFSDFNEVKEVFEEAIKEMKDEEKAKASKPSYETRSLK;locus_tag=LOCUS_06830;note=MGA_684
sequence1	MetaGeneAnnotator	CDS	635741	635932	.	-	0	ID=MGA_685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKGEMDRREFIEWLKRNFPQSKLLRLILEKLGLINEDPFKYAREKLGKDKYGNPTFSIEVTW;locus_tag=LOCUS_06840;note=WP_010978099.1 type II toxin-antitoxin system RelE/ParE family toxin (Sulfolobaceae) [pid:88.7%25%2C q_cov:98.4%25%2C s_cov:60.8%25%2C Eval:1.2e-25%2C partial hit],internal stop codon at [635689:635691](-),frameshifted%2C insertion/deletion at around 635697%2C635746,MGA_685
sequence1	MetaGeneAnnotator	CDS	636184	636336	.	+	0	ID=MGA_686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIEDKDEKGEGYLVIESKEDLEEFRKMLIEAYYELNPDRKPSCETQSPK;locus_tag=LOCUS_06850;note=MGA_686
sequence1	MetaGeneAnnotator	CDS	636290	636571	.	-	0	ID=MGA_687;product=type II toxin-antitoxin system RelE/ParE family toxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978099.1;translation=MMKKVKEARDLARFVAREFSNLEYLMLVVDKLELLKGDPFKYSREKLGKDTYGNQMFSIEVTGDIRILYSVDSKNCIIFIWEIGSHKKAYGRD;locus_tag=LOCUS_06860;note=WP_010978099.1 type II toxin-antitoxin system RelE/ParE family toxin (Sulfolobaceae) [pid:62.0%25%2C q_cov:98.9%25%2C s_cov:90.2%25%2C Eval:6.6e-29],MGA_687
sequence1	MetaGeneAnnotator	CDS	636860	637960	.	+	0	ID=MGA_688;product=Nre family DNA repair protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978992.1;translation=MRIDIPKDLDGSSPPSVFVGRIGYPKISVFASSPPIKGNTSVYENPKEWIKMNLDDFLSLRLSMARGGDRFHVNEAKNPSKLLEDIKVLSLSPNPAEIEMKFKYEPKNVIFDEDHPPLGPSAPVEKIRLGTLPPPEKTVEKVFEDKDLKSSEGIMYLYKSGIDVERISRILSVGNIGIKRKLVPTRWSITAVDKIISDNLVNEIKKYETIDKVEVYVREFNKNLFVAILIPNKWSFEWGEAWFPGSTWNKFGNKVGIEVDNEGYFGRKDYPEIGGCYYASRIGVSEFLLSRKKQATAILWREIYSGFNLPIGVWFVRENVRELFKTKPMVFDSVDDALLSLKLRSGLGSWIKRSFIKRESIERWLR;locus_tag=LOCUS_06870;note=WP_010978992.1 Nre family DNA repair protein (Sulfurisphaera tokodaii) [pid:64.5%25%2C q_cov:97.3%25%2C s_cov:89.5%25%2C Eval:3.8e-138],MGA_688
sequence1	MetaGeneAnnotator	CDS	637957	638727	.	+	0	ID=MGA_689;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156015917.1;translation=MIKHIRVKSALSKSGLKELDYSLNPYMGCKFKCQYCYAPNFTRDVDASKNWGEVIVIKDNILDILKEEVLAKKKGTVGISTITDPYQPVEAEYKLTRGSLDILLSHGFRVSIQTKSPLVLRDIDILKKFKEKVDVGFTITSMEGKLENAPLPRSRITALEKLSEEGIETWVFLGPIIPNFTDNVEEVIREVSKIKTRIVFDKFRYYKGLNFSEGNSVWWENIRDRILSLCKKYNVECHEESEDWIFEKRRKYKILW;locus_tag=LOCUS_06880;note=WP_156015917.1 radical SAM protein (Sulfurisphaera ohwakuensis) [pid:65.0%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:3.5e-99],MGA_689
sequence1	MetaGeneAnnotator	CDS	638719	639555	.	-	0	ID=MGA_690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKRAIKRVKEFHEDMLGKEKGRLSFYYTYHSLEYESYSKSGVSFEKSLSSLFSKIKIPREKIAGKYGSFFIDRINKRLVYLYKDLAIENNYSDSSEIDEIKSDNDGYQEWLMISKILNYPPSGIKLSIIKSKTELILEELKDYFIKMHGDDGKKIYYSIYHYAEAESIKDYAKGLKDVLKDYIVNDIELEGTQIPGKLGNFYIKENEEEITYAYDKIKFTVKYEIDPKDFKKIEEYILHHRELIPNAHGDTEDWIINIFRAPFAKGAKIKICVDSP;locus_tag=LOCUS_06890;note=MGA_690
sequence1	MetaGeneAnnotator	CDS	640006	640650	.	+	0	ID=MGA_691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVEHSNCWTHLTDKTNLEIRLINQNFSNEAPLFNSYIIGKSNYLSDIKEFVKGIKHHESVNDVLKLEADENAFATNLSLIKKGSISNIIHKDDGIIMEHEIRDGIEAWSIIIDKENIPLLKEDIENNESSVLLKFRILEREKLFNILSSLTPNEALSLYLAVDKGFLDFPHKVSTKDLAEIMGVSSATFVTHLRKAIKKIALKNYHEIISYKE;locus_tag=LOCUS_06900;note=MGA_691
sequence1	MetaGeneAnnotator	CDS	640638	642050	.	-	0	ID=MGA_692;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847046.1;translation=MKSENESFKKEEGLSKGVLSPWLAMANGLASNAPSAVTALYFVGLAGLVGGSLPLVVVLAWLIYLSMTYVVYNWSKHIAASYGWAAIQKKGFNSSYISFVAGGWGYWFYYMLASAGFGVLGLSTFLPLLFPTLYSTYPWIWIPISLGIIAETSTLMYLGIKTNSKYNLYAGLGEIAFLLITSIILIIKAGPHNTVIPFTPLPLGAGWAVIFTSMIFGITTFGGMNSSIPVAEETADPKKNIPKSLVMLALILGIPIILNSYAQEVTYGVSNMFNYANLPDPGIIIYDAVLGSVFGIIFAIFIVNSFNSSTIGFGNGQVRTVYGMARDGVVFPKHFSEINKYGVPGKNIIIMAVINAVLAITAGLIMGPLNASIFLITANAFYSFLNHLLGAIGLIRYNKKQGTLRLTHIIVGGIVVIALGAAIVLSAMAPPPLDYAGLFALSWFILGSIIYLIEKRRNPEKIKKFGDYSL;locus_tag=LOCUS_06910;note=WP_052847046.1 APC family permease (Sulfurisphaera tokodaii) [pid:45.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.6e-112],MGA_692
sequence1	MetaGeneAnnotator	CDS	642138	643355	.	+	0	ID=MGA_693;product=FAD-binding oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980634.1;translation=MSQLLSFEKEFGKNFITDEKELEKASEDQYLVSPIIKNLSKKAIGLLKIDNENDIRTAIDISYKHNIPLVARGAGTSTIGQVILLKPSVVLDFNNMKGIEYDKYVSVKPGTKVLETLNYLRKRGKDLMVYPSSFYISSVGGYVAGGDVGIGSFQYGYYFDESLVQLKVIGFNKEEEVKGKYVWGFAQAAGTTGFIVDSSFKLTDFQDWKDYIIEGDDLLSLLVNIKKLDRKRVRRVVIEDHDAFSVVAKGRATSNKQWITIVSSTEPLGSEINLNFMDELAFAAVYVTMSKISPFKNYFYEVRLFPIERFLSIVTKVKSVLGNKVLIHGDVMTLKGEIIIYTVFISDRENFELIDEIMRSEGIPFEIHSVEVNDRVDDPERLSLMKRYKALMDPKDLINPGKLRI;locus_tag=LOCUS_06920;note=WP_010980634.1 FAD-binding oxidoreductase (Sulfurisphaera tokodaii) [pid:51.7%25%2C q_cov:98.5%25%2C s_cov:97.6%25%2C Eval:1.3e-118],MGA_693
sequence1	MetaGeneAnnotator	CDS	643352	644227	.	+	0	ID=MGA_694;product=DUF1177 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980635.1;translation=MILKTLMEVIEILESKNPFSYLEEECKKYGIELQEKKIGDVTFVKAKIGKGKRKAEILGRLGAIRVSNHYGIVSDADGAIISLTSMIEWAKNYSEIEGEAIFSTNISLDAKLIPHKPFNFMVPLVGLDDALRLEVDKEAQFLISVDSTKGNRIAKYNDFAISHIIKDGYILKIPDEIIDIYEKVTEHEPYFVALTSGDLTPMEINAYHISTFLSPWLYTESPILGLATVSKYPIPGYETGVQNVTMLERASRFSIEVLKYYFSGGDIYSEEELSSLKNVLGESQFMKLKKN;locus_tag=LOCUS_06930;note=WP_010980635.1 DUF1177 domain-containing protein (Sulfurisphaera tokodaii) [pid:56.9%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:3.0e-92],MGA_694
sequence1	MetaGeneAnnotator	CDS	644352	644699	.	+	0	ID=MGA_695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIVSLFKIVPNDTLIKILEKPLSLNVLLNISSYKNAIEESIMLKEKLLSRRDSKKIVMIGSDNDYNLRNLLYYSSLFYILLIYKNFMKLLEQIIGSINYVTLRGKIEFYKVNRK;locus_tag=LOCUS_06940;note=MGA_695
sequence1	MetaGeneAnnotator	CDS	644696	645910	.	+	0	ID=MGA_696;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979863.1;translation=MSFDADVIIVGGGLSGLSAGITAVREGLNVILLERGEYSGAKNLSGGRMYVHSLLKLIPDALDKAPFERPITKETFEFFCENKKLSFSLEEKDKKNSFSVLRSKFDRWLAGEAENLGLLISYSTLVTDAHREGNGITLETNRGALKAPLVIDASGVTSVVFRYLGLRNFSPSKWMLGVKEIVKTDIKMNDNEGEVRTIVGTIKGVKGGGFVYTNKDSLSVGMAVTFDSLPKSEYPAKDLVEGFREKLGIDGEILEYSAHAIPYYGYKNLPSIYTDNLIAVGDSAGFLINDGFTIRGMDLAIASGMIAGLSAKKIKDNGYKTEIYYDMLKESFILKHLELAYNRFELMNKAYTLNSYPEILCNVLSDMFTVSENRNTLIDDAILRLKEKGISLTQAINDMWRMLK;locus_tag=LOCUS_06950;note=WP_010979863.1 FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:80.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-184],MGA_696
sequence1	MetaGeneAnnotator	CDS	645907	646176	.	+	0	ID=MGA_697;product=4Fe-4S dicluster domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979864.1;translation=MIPLLKRLGLNKYNVDKTSHIEVNTDICLTCRDKPCTLSCPAGTYEALPNGRIEVHYERCLECGGALVICPYNAIKFRFPEGGVSFRYG;locus_tag=LOCUS_06960;note=WP_010979864.1 4Fe-4S dicluster domain-containing protein (Sulfurisphaera) [pid:82.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-41],MGA_697
sequence1	MetaGeneAnnotator	CDS	646180	648444	.	-	0	ID=MGA_698;product=MMPL family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979737.1;translation=MNKRLLIILWVIAIIIALGLSSQSSKYLNYNENTSIPPNYPSAKAQMFLDKYFHGANENNTIDVVLINATPQENYEVQKIIQNISGVTKIDSIVTAYLEYQNELGKVINSTGNQIINYTKEKGENISLFQVRLDISKTLHIPFYYTQLFNTTPEKILENNESLFFLIKPPSSLTSLYVSKNVSVLFVYTKYGPNYNLKNGTYPAGIISNNIQNSLKTLPLKYYLTGPAPLVQELSSSEAQRQDITFILVFIALILVTGIYFRSIVAPLVTMGIIGLSVIFGMAIVTLVGKFYHPVDFQVIEPMISILLGIGADYSVFLLSRFKEELAKGKNKEESALISIKTSGKAILISGTAVSLVFLSLSFIPYLHTWGLTIGFSVPITVALSFTLLPIIYGKIGDKIFWPSKPKFKMSNTLGNIARLSIRKPKTTLIIATIIGVMSLIFVVSVPLSLDFTSGLPNLPAVEGLKILENAFGNSFVNPILIVFNESQINTSVLIHLAQIERNISTFNGVTQVIGPVPTNFNGTYTPQVITSLKENIGTNNKTLLITVITSYNPYSSQAEALVSKIQNIVKPNGYVGGTTATAMDALDYLLPFYEILTILLPAVLIITLSFLLKSVRISLGAVGTIVLSIIFSLSIIYAIFRSPEGILFFIPITIFVLMMGLGNDYSTFILIRVKEEVDKERDIESIIRAVSISAGAVTALGVILAASFGVLAIDPIKPIAELGAGIAIAALLDTFIIRVFIYPALLKIALKIK;locus_tag=LOCUS_06970;note=WP_010979737.1 MMPL family transporter (Sulfurisphaera tokodaii) [pid:43.2%25%2C q_cov:98.4%25%2C s_cov:97.7%25%2C Eval:2.5e-175],MGA_698
sequence1	MetaGeneAnnotator	CDS	648724	650295	.	+	0	ID=MGA_699;product=thiamine pyrophosphate-requiring protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980494.1;translation=MNTAELILEAISKYTDKVFIVSGTDYPAFIKAELKIKNPEFVVIPHEITAASAAIGYSLGNKLGVLMVHTVPGTLNALGIIANAYTSRIPLLVIAGKSPYTDKGNLASRDLRIHWTQDADQEEIVRKYVKWEFEIRDPSQVSSSISRAIQIALSEPQGPVYIAIPREVSIADVNNKKVNMDPFYPGIPDYYLEKAKEMILRASNPVILTWRAGRKEPWFNSLRNFADNAEIPVVNYVGERVNYPSSGKMAIDHYNLKDSDLIIEVETEVPWIPKYTDVDAKIIKVDVDPSYSYIPYYEFPCDLCIQSSVDEFFNKLKIQRKAEKDLLEEIEKQKEEKIERIKKLSDLKEIHPDYLSYEIGKIKWSVFNEYDLNQKYGGFDEFNSYFGDPAMGHLGWALGASVGYKMSTGKDVIATVGDGSFIFGVPTAFYYISKKYPILTVIFDNKSWNAVEKAVKEVYPEEKFSSYPGSDIDIDNLPKTIESIGGFYEYIERPSEVEDALRKGKEKVKSGIPSIIHAKVIKE;locus_tag=LOCUS_06980;note=WP_010980494.1 thiamine pyrophosphate-requiring protein (Sulfurisphaera tokodaii) [pid:52.8%25%2C q_cov:95.6%25%2C s_cov:95.9%25%2C Eval:1.8e-145],MGA_699
sequence1	MetaGeneAnnotator	CDS	650320	650676	.	+	0	ID=MGA_700;product=HEPN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009069301.1;translation=MAKWFEKSNRDREVAKRLLQEGFFPEACFHSHMAVELKLKGILIESTGAIIYTHSLKRLLKELEKIKRITIDEKLIECADYLSSLYTGSRYPEESLIDLEKEEGERCVKCMEELLSIL;locus_tag=LOCUS_06990;note=WP_009069301.1 HEPN domain-containing protein (Metallosphaera yellowstonensis) [pid:66.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-44],MGA_700
sequence1	MetaGeneAnnotator	CDS	650630	651046	.	+	0	ID=MGA_701;product=nucleotidyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846477.1;translation=MKDVSNAWKNYSLFSDLLEIYKEEEKDFNNYVSKLCTKYSVILFGSRARKDNKIYSDYDILVIGNERPPLPPTDAIDVHFIKVSLIDSEIKDFNTIVIDAFYEGIILCDTLNIYEKAKNMVIERIRGLKRIKDGWEKI;locus_tag=LOCUS_07000;note=WP_052846477.1 nucleotidyltransferase domain-containing protein (Sulfurisphaera tokodaii) [pid:64.7%25%2C q_cov:95.7%25%2C s_cov:95.7%25%2C Eval:6.9e-47],MGA_701
sequence1	MetaGeneAnnotator	CDS	651407	652780	.	+	0	ID=MGA_702;product=TldD/PmbA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978647.1;translation=MDLENVIKRFDTYNYLEARFHKNDSLSIFLMDGQLLGVTKETYSGYSVRAYDKGILYFASSTTPENLELKKVESNGWEELGEEETTSGKYTVNQRKTFDSLPIDEKIKYLKDIYTRMKQLDIKSKLLNFNMYYVESTEDKRIMFKDGSIVEGNVPRIGIYYSLVMKYMDKTVTVWSDEYGGSGGLEWLDRWNIGEELENKIREVDNVLTKGKSPKEGKTDIVLSSMLAGIMAHESVGHPFEADRVLGREAAQAGMSYLRDLNTKKIGSEAVSVIDDPTLPNSNGFFQIDDEGIKARPKYLIKNGEVTELLQDRFSSPKYNTKSNGSARAMSYNREPIIRMSNTFFQPGNMTFDELLEDIKEGIYFKSYMEWNIDDMRLGERYVGLEAYEIKNGEIGDPLLFPVLEGKTTEFLPSIDAADNEIHFYAGLCGKGDPDQAVPVWLGGPDLRLRNVRVKVM;locus_tag=LOCUS_07010;note=WP_010978647.1 TldD/PmbA family protein (Sulfurisphaera tokodaii) [pid:55.2%25%2C q_cov:99.8%25%2C s_cov:99.1%25%2C Eval:5.1e-146],MGA_702
sequence1	MetaGeneAnnotator	CDS	652781	654046	.	+	0	ID=MGA_703;product=TldD/PmbA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978648.1;translation=MNDDLLALKEKIRGFEEFAIFKTKNENTVVKFVTGKVSTVQRLNDEVYYVLLKSNKKYIITTLRGNVEIDNFNNLIKIMDEPKLSPKISDNDREYRFIKLDDEIEKIREDPSNVISLVLSSEYPISGIINIRKVSISLLTSKGFNGNDTRNSIDGYFRAFNGDFSGQWAFASSKYSDSIIKDSVNTACEFASINKKIDIDDGKYDVVLSPLVFGNLMNYLAGMSSGLSIMMGESIFAKYKPGNKIANEKFTFSDVPKEDRPSALEFDQEATFTRNKKIIDHGVYNTPLLNNEIAEIMNLETTGNAGWISPTPWTLDVEQGTISKDSLLSGNVIMFNNNWYTRFQNYVEGNFSTVGRDAVVVYKNGNIEGVAGRLRIADSLNNIIGNIEELSKERYLVKWWDAPLPVLSPYVLIKDVKITKA;locus_tag=LOCUS_07020;note=WP_010978648.1 TldD/PmbA family protein (Sulfurisphaera tokodaii) [pid:48.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-110],MGA_703
sequence1	MetaGeneAnnotator	CDS	654064	654561	.	-	0	ID=MGA_704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRIGLIAILLMILVTGVTFGLYQINYQGFTHLTNYSKIPAYVLTGTKLYSNGTLFLQIANTAGSDTYGGFVVLVQILYPNGSVLYEWGPSQLSHIPSSDIINEFPLHPVHSNKFALVVPLGQNATVILQAPFHIQPGKYIVRAYDVDGDYESYGIKFQVTVQVI;locus_tag=LOCUS_07030;note=MGA_704
sequence1	MetaGeneAnnotator	CDS	654567	655094	.	-	0	ID=MGA_705;product=thiosulfate:quinone oxidoreductase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979923.1;translation=MAQSKVVDNTQKFLPILRITLGWMYFSAFLRRTVNVPTKLDPNSPAYVGGKLITFLPHAWPPVKGVLIYSLMHPAFLYYFLILFTSLEAIFGLFLMLGLLTRLSGLVIAGLAWGIGAAGGWLGSTCVDEWQIAATEGAAAFMFVFTGSRWLSIDQYLYKKYPDGIKIWKYKIPLW;locus_tag=LOCUS_07040;gene=doxD;EC_number=1.8.5.2;note=WP_010979923.1 thiosulfate:quinone oxidoreductase large subunit (Sulfurisphaera tokodaii) [pid:42.7%25%2C q_cov:90.9%25%2C s_cov:89.4%25%2C Eval:4.3e-26],MGA_705
sequence1	MetaGeneAnnotator	CDS	655308	656738	.	-	0	ID=MGA_706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGKSSHGIHTEISDLKRDVLHILDLIPLSTSSVAPTFSIAAAYGVMVSLAGSQAIMATFLTALPFLLTAFIFRQFNIHYPNAGASYHWGTKIIGRKFGSFQAWIITLAYFFSIPPIVVPAGEYTLALLYSLGLISYNVYSSQLYVAIMGIIWVIIATIPLILGAKPTARFTEAFLVIEIVILSLFLGFGLTHFKVVNPFSFNWFFDTKVNWSGVILAMIVASTIVDGWEIDSYSSEESKKPKQWPGLSGIIGLLSVLMIYGITMPLMTIETPLNLLSQSVDPLFTWAQGIIPSYSWLIDLAVLLSTASSLWLTAFILSRAWYAMARDNLLPSFFGWVHEGFGSPWMNIFIISGLNILLNVLMLLSPSVQSFFTMVLSAAGIFLAMEFFLDSISGIVFFWLKHRPMGKENSKEHIHWIYRIISILASVGLGLIIILGLYFSPQTIGQSFIYIFLGLISFSIVFVYLSRKIKVRDFI;locus_tag=LOCUS_07050;note=WP_005081393.1 APC family permease (Mycobacteroides abscessus) [pid:21.9%25%2C q_cov:83.0%25%2C s_cov:73.8%25%2C Eval:1.5e-18%2C partial hit],MGA_706
sequence1	MetaGeneAnnotator	CDS	656845	657222	.	+	0	ID=MGA_707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKNTRDWSKYDENVVTRYKLMFPFYVFEHWWELLQEENRYAKTKYKAPKEFNDFLAFLHLFLPYRAIEGVLSALAEMKIIPTSLDYSTIWERVRNMNINFPEASDELEVIADGTGISTTRGGQ;locus_tag=LOCUS_07060;note=MGA_707
sequence1	MetaGeneAnnotator	CDS	657496	657735	.	+	0	ID=MGA_708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREFKKLGYERWRDEKGYGNRWLVESLFSAVKRTFGESVRATSFAGQVVEAKLKFWAYAWMMYMANLVVGRAKGFEVKK;locus_tag=LOCUS_07070;note=MGA_708
sequence1	MetaGeneAnnotator	CDS	658055	658291	.	-	0	ID=MGA_709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLCKKFGLDPIKVSLSVMEITRTFDEKILRAAWLIRKGIGGFDAYHDSFSEGEIISSDHVYDNLGIKRIRLEDPSFF;locus_tag=LOCUS_07080;note=WP_052846631.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:66.7%25%2C q_cov:96.2%25%2C s_cov:63.0%25%2C Eval:4.8e-24%2C partial hit],frameshifted%2C insertion/deletion at around 658393%2C658309,MGA_709
sequence1	MetaGeneAnnotator	CDS	658908	659108	.	+	0	ID=MGA_710;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVSSEGRVYTTRRVMKKY;locus_tag=LOCUS_07090;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:18.5%25%2C Eval:7.9e-19%2C partial hit],frameshifted%2C insertion/deletion at around 659081,MGA_710
sequence1	MetaGeneAnnotator	CDS	659111	659548	.	+	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNTIVVEPTGASIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLSDEEKISKEMLEEFSKGNFKIQLYNLEQRSYLKKSKYYLKHYWKQVRK;locus_tag=LOCUS_07100;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:68.5%25%2C q_cov:85.5%25%2C s_cov:35.6%25%2C Eval:1.6e-42%2C partial hit],frameshifted%2C insertion/deletion at around 659081%2C659483,MGA_711
sequence1	MetaGeneAnnotator	CDS	659563	659955	.	+	0	ID=MGA_712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_07110;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:77.1%25%2C q_cov:100.0%25%2C s_cov:36.7%25%2C Eval:8.1e-56%2C partial hit],frameshifted%2C insertion/deletion at around 659482,MGA_712
sequence1	MetaGeneAnnotator	CDS	660052	660309	.	-	0	ID=MGA_713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYPLKHIRYFKSFATSMDWSISPTKAIIVTYSNYDVKNIYFFHKYTFMIVKLDDKGIIYLPKEIREKIKSKDFYITEVPDGILS;locus_tag=LOCUS_07120;note=WP_052846632.1 AbrB/MazE/SpoVT family DNA-binding domain-containing protein (Sulfurisphaera tokodaii) [pid:69.4%25%2C q_cov:42.4%25%2C s_cov:46.2%25%2C Eval:4.9e-08%2C partial hit],MGA_713
sequence1	MetaGeneAnnotator	CDS	660401	660937	.	-	0	ID=MGA_714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLWVDYKIFSYLMLGPRYIYEVKSLYNALEGKPYYEKVAEIVNILNTRDDNILKTEYTSCLVNDYKHLKCPPYESWYREKTLYGKSTQEVLEYYTKYKIIPQKQVPDHISTEFEFVSFLFFINEENDANDFIKTHILNWVPQLAQDIINNAYGEYTRELGKALLAFVNEEKKRIFSNN;locus_tag=LOCUS_07130;note=WP_010932180.1 molecular chaperone TorD family protein (Chlorobaculum tepidum) [pid:34.2%25%2C q_cov:62.4%25%2C s_cov:64.2%25%2C Eval:6.0e-15%2C partial hit],MGA_714
sequence1	MetaGeneAnnotator	CDS	660940	662370	.	-	0	ID=MGA_715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNFLTESNPLIKFKVSIFYHHCQHNPSESFQSCDPDEIAKKLREFQTKAIIIVGIYDDEHLKLYREAILKSGLNPLLVRIVDYRWGEAAIKQNMVILENGWTADLAKIEEKGVNISRRDLISGNIKTVKDRVDKPVYIQSMCGYLYRACNLCEATCPYDAIKVDKKSGVSINYEKCTACGICVSACPVSAIQFPSVSQQAIFEIAKLNGDKKISCYKNHDNSIKIPCLAMLSAVDIALLRSNGSITFECPECELSRNLSNFIMTLTDLNNKIGGIEFISPDIKIESKALKEIKIKNDTFFKRSEARKNIASSENLPDIIFDIDINSDMCTLCESCAKWCPTSAISIQRGENKENLIFDPLKCMGCNICINVCPEGSTCGSIPNVPGKKAINIHSMKETNLKQKVIFEDELVRCKVCGTPIGSRKSLNLIKKIMKDKGAECDDEWLERCPKHRAEYSFQKKFGMNAKFKPRRTLGE;locus_tag=LOCUS_07140;note=WP_064496751.1 4Fe-4S binding protein (Methanocaldococcus jannaschii) [pid:24.9%25%2C q_cov:47.3%25%2C s_cov:64.2%25%2C Eval:2.0e-07%2C partial hit],MGA_715
sequence1	MetaGeneAnnotator	CDS	662377	663774	.	-	0	ID=MGA_716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKILITWTIIFILIGGGILLYGTSMNPMAWFNGNVTFTEPNNAPIPWGLLVIGYMFFGVIGTGVSTYNSLYELFNKNHQERNPFNKIKLRTEWLALAVLIPGWIMVFSSTYKPAAAMFIYLSFRDTSRIAWNGVLYALVGIGIIAEILALIGEKIKEENKGGPINRFLEWLSGKTQFEIPGMLKIVVDIDALIVGYAILAELILDANLGSVFGYLSTWVEEFGAFTPILFVVLSFYGGIAMISFMTILYDWIKRPTSIVMPTPVPQSTKAYGKNYIDPSDDKDSIYKVLARDGLLSVISIGFLMLWWIWLTATNQESSPWASLLITGTYAPQFWIGLVLIGILLPITLYSIAYKTESKKLLFTSAIITLIGMFVIITLVTIIPQSITWYYSVSPITASGSNWVYELRSIFNNGPLWTLLPFEISKYDMVWFTGSALLLLGVYTLGVLLLPLESDEKPKHVWIFK;locus_tag=LOCUS_07150;note=MGA_716
sequence1	MetaGeneAnnotator	CDS	663771	664490	.	-	0	ID=MGA_717;product=4Fe-4S dicluster domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932182.1;translation=MSNSNILEKNQLINPYSKFGNTRSCEHWGFVVRVDQCLGCDACVAACTIENETPFWEDLWRTHVEDLEIGEYPNSQRMFVPRLCMQCENPPCYYVCPTGATQIVDGGIVVVDEYKCMGCLYCVEACPYGARYFYTYEDIQKAKEVYGDNEIHVVPHVDKCTFCYGTAPDNTHTPACVRTCPGGARVFGCLDDPNSEVSILVNTGQAVVLNPQLNVQPKVFYVFNKQTQRYVSQNGGDNS;locus_tag=LOCUS_07160;note=WP_010932182.1 4Fe-4S dicluster domain-containing protein (Chlorobaculum tepidum) [pid:52.8%25%2C q_cov:81.6%25%2C s_cov:97.5%25%2C Eval:7.8e-58],MGA_717
sequence1	MetaGeneAnnotator	CDS	664527	667694	.	-	0	ID=MGA_718;product=molybdopterin-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932183.1;translation=MNNEKFYIKKNLYAKKVDNYMQSKNSHGVRISRRDFIKISAAVAVAAGAAYAASKNFVFNIFSQDSIDDEILQPGWQYSYVPNVCAFCSSTCDVLVTTESKNGYIRAMEIDGNPLSPLNKGKICPRGRSGIFRTYNVDRIKTPLIRTGPKGTWAFKEATWEEAFNYIMQKLQELNVQPWEFLLVGGALPCANYKRYFIPFTLGTQIPNINGTPMQSCMFSEQQPIGTVIGGFDLHASDLMDDMSHSSLITVWGNNGFPTGIFVNRAVRLGEGLANGAYMITIDPRMSESASKSDLWVPVKPGSDLTLAMAIINYIIQNGYYDDNFVRYYTNASFLAYEENGVLKLLEDDWPDGTVRGFYVYDEISGQVREIPPFSNTNQFDVNGNQIRPALKLSQIKYNDKQVTTVFQHLANRVSNYTLEYASQITDVPLDLIKEVAYRIATIKPMDIVSGLKGFWSDLSPQFRRATAIIMALTGNIDIRGGWVYSGQYREGVKEVINAYNSAIQSGTSKPGILLQRPEILGSVPLVDLPGELLTIFAIIYAYNNPQFWKTGYPALSYAYAQTLMQQGKTPVATFGMYLDTGAYEALKGQVMWNGKPYTPKAVMSWGGTPFNFLWKQYRNILENTFYIDINILPTEDTLYADVILPDVTYLERDEDFRADGPAMDYALRGRWQAIPVVYPNTANGLDLFVMFAYMLGKEAGDGYVEWMANSKSIDKEVFKQIIASEMPEYQNYLIKNNGYPPWGSFTAKAWREAKVNYLSKKLNIPSEQITETLRNNGVFIVTTVDEYFNNNERIPWNLPVASPTGRIEIYSTTLYYYVIKTFGYNPIWDPLIAYIPPYWNGGYAVTPGIFVEPTPPYNDPAFKPTPPEMFFIEYKVPQFAYTSSTDNPLLMAISSSSYHKNISQMAWINPITASQLGINEGDWITIVRWKLPDSDGKYPQLTIRAHITQWIRPDTIGVPEPYGQRNPALTTAINAIENTGNKPVSELWPESYNPLGGFRQAEQYTVYVRKATPDEIQEATTIATAQTPNTLPSEVVVTPNTKINSTDWDKYEQS;locus_tag=LOCUS_07170;note=WP_010932183.1 molybdopterin-dependent oxidoreductase (Chlorobaculum tepidum) [pid:32.5%25%2C q_cov:88.7%25%2C s_cov:95.2%25%2C Eval:8.8e-129],MGA_718
sequence1	MetaGeneAnnotator	CDS	668244	668864	.	+	0	ID=MGA_719;product=cobalt-factor II C(20)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948630.1;translation=MRKIYAVGISPSIELITLKALELIKKAPVVLTYDSDFPFSMEEILKDKKIVKLKPSFNEPDVIEENIRVLKSLEEEWGVFLEIGDPSIRNPLFYHILGGYKDFEIETVPGVSSITAVFSKLGTHVRHFCMLGSEEEELLESLIDKCDLFVIVNIHKDHLKIFDKLKEHSYDITFVKNCCNKDEEISNEYKGDTYWIIAVARKEISR;locus_tag=LOCUS_07180;EC_number=2.1.1.151;note=WP_011948630.1 cobalt-factor II C(20)-methyltransferase (Clostridium botulinum) [pid:29.9%25%2C q_cov:88.3%25%2C s_cov:81.9%25%2C Eval:2.5e-08],MGA_719
sequence1	MetaGeneAnnotator	CDS	668873	669727	.	-	0	ID=MGA_720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGPNAAYPYELSPKESMNLCKKIADFGIPYAALSGGEPLLYPGFWDLFTCFRNNDIEVKIETNGNLISESVADRIARLEPRSVQISIDGATQKTYSTMRPRGVLEKALNAIKYLNERGIYVEVEFVPTRINYKELGDAIDNIVKFGAKAIYTGKIMYLGNAVTYWNILSLNDEDYEYIKGVIKSKSIKYNDIKIVFYPSDLIEELRMRLEDPPSSILMMANGKIRLLNSVPYVVADVRKHSMEEIWERYKKGWRHPKVKEWVEEVSKNPRLISRAILLEDLSL;locus_tag=LOCUS_07190;note=WP_010966081.1 putative heme d1 biosynthesis radical SAM protein NirJ1 (Clostridium) [pid:32.6%25%2C q_cov:48.6%25%2C s_cov:34.8%25%2C Eval:9.1e-14%2C partial hit],MGA_720
sequence1	MetaGeneAnnotator	CDS	669906	670115	.	-	0	ID=MGA_721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSKSKFDVTLYGIEANVTLRSIDLLDLSKILSKLLKKYDIINVQLDLQHINLALARGDKRVYISINLY;locus_tag=LOCUS_07200;note=MGA_721
sequence1	MetaGeneAnnotator	CDS	670270	670665	.	+	0	ID=MGA_722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNEGEEAPLVVGAHPYFIVKGNWRIFPEKAKRLIMKDKIPTGEMEDFTITQGEYDDCFLLKGNVTLISDYSKVTIEKENMDFIQIYTGQPSAVAVEPMSGAPDAFHNGIGLITLKEGETATFTFKISVRL;locus_tag=LOCUS_07210;note=WP_052846458.1 aldose 1-epimerase (Sulfurisphaera tokodaii) [pid:54.3%25%2C q_cov:96.9%25%2C s_cov:49.2%25%2C Eval:1.2e-35%2C partial hit],MGA_722
sequence1	MetaGeneAnnotator	CDS	670662	671795	.	-	0	ID=MGA_723;product=C4-dicarboxylate ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461822.1;translation=MFGGLKKFGGYQVLEALKNGPVKISQLRSIHKKIYILCNKVTHKKLGSEWFSVVIGTFALTMVSWMNSIFFKSQVLFDVGKVIYFLDLVIFAIIFFGWISRIMTNWREDMENLNRISFTAFLGVILFVAGFFFMTYVEINYEIAYALLVLYFLGYSIVFLVNVFLGYKLFTKGVRQNEISYALLVPGLALSANVFLSSALLPPSLPFISTYFAKIVYFIMLFSVGISFFQLIFIGSIAFLSHIINKESSAIIMLPVGAASVLAINVLVFPSYNYLHLFYFPPKSALTLAIMLWGFEIWNSLVALIIAVKHIKDKDKPSLTSWAYVFPLGISSFLDLMLYQETSLPVFEAIAVAFSLAIVLLYAYSLRNTILVLKNKV;locus_tag=LOCUS_07220;note=WP_011461822.1 C4-dicarboxylate ABC transporter (Desulfitobacterium hafniense) [pid:20.2%25%2C q_cov:86.7%25%2C s_cov:88.0%25%2C Eval:3.0e-08],MGA_723
sequence1	MetaGeneAnnotator	CDS	671988	672296	.	+	0	ID=MGA_724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKSEYKRDWSKYDENVITRYKLMFPFYVFEHWWDILAEENSKENLQGTEGVQRVPSIPPLVLTLQGNGRSIESTGGTEDRPDKPRLLDNMGKGEEHGHNVP;locus_tag=LOCUS_07230;note=MGA_724
sequence1	MetaGeneAnnotator	CDS	672202	672639	.	+	0	ID=MGA_725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRALEGLKIVPTSLDYSTIWERVRNMDITFPEAGDQLEVIADATGISTTRGGQYIIAKWGKRRDSKFLKIVIDKDELNVINAEVTSNEVETAVKTVKDLQDRGKKVKRFYGDKAYDANEVYNTGVEVVVPPRENASTRCGHPARL;locus_tag=LOCUS_07240;note=MGA_725
sequence1	MetaGeneAnnotator	CDS	673600	673869	.	+	0	ID=MGA_726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFFNIKNKVKLRKEKNGTVMFDIENEKVYTLNPTAEKIINKIKEGKSAEEIIKDLKEEYQDPENKIEEDVMNFINNLREAGILIDDKK;locus_tag=LOCUS_07250;note=MGA_726
sequence1	MetaGeneAnnotator	CDS	673866	674837	.	+	0	ID=MGA_727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSISNFSIDDLNVPTYWIWQLTNRCNLECIHCLWESGPNAAYPDELSPKESLELCKKIVNIQIPYTTLSGGEPLLYPGFWDLFTCFRNNDIEVKIETNGNLISESVADRIARLEPRSVQISIDGATQKTYSTMRPRGVLEKALNAIKYLNERGIYMEAVFVPTRFNYKEFEEVVEILHSLGVKTLYTGITMYLGRAVKNWNIVNPTSEEYKYVIDIARSKAKEYKDMNIVFYPFGLIEELKFRLENPPASPLLLSNGKVKLLGPIPYVVADVRKHSMEEIWERYKKGWRHPKVKEWVEEVSKNPEKVKITTQRSKFIDLWCE;locus_tag=LOCUS_07260;note=WP_003403490.1 mycofactocin radical SAM maturase (Mycobacterium tuberculosis complex) [pid:31.5%25%2C q_cov:65.6%25%2C s_cov:53.7%25%2C Eval:2.0e-23%2C partial hit],MGA_727
sequence1	MetaGeneAnnotator	CDS	674839	675690	.	+	0	ID=MGA_728;product=1%2C4-dihydroxy-2-naphthoate polyprenyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723268.1;translation=MFRKVIQLLRYRFFLTSGLLPYLLGSAIGYHVMRSFNASNFILGILGIFMLLGTVESFNEYFDPADRVFMLDNEKSKPPLKWLLFGIVSLVIASLIALYFTLTIGYIVLLISLLGVILAVFYVGPPLRLAFRGFGELAIFLAYGPFMTLGAFLLQTYSISFTPIIPSIITGIVIVSLDLANEIPDYYQDKLSGKNTITVRIGVNNSRKLIFYLILLSFIFLVLGVILFSMPEFSLLYLALLPIIIKSVPKRNYEETMQYIPLIKTLAVTYTLVNVIFIVSYIL;locus_tag=LOCUS_07270;EC_number=2.5.1.74;note=WP_003723268.1 1%2C4-dihydroxy-2-naphthoate polyprenyltransferase (Listeria) [pid:22.9%25%2C q_cov:99.6%25%2C s_cov:92.6%25%2C Eval:1.3e-12],MGA_728
sequence1	MetaGeneAnnotator	CDS	675852	676691	.	+	0	ID=MGA_729;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080828.1;translation=MKFQEELSTAESLDLCKKIADFGIPYVALSGGEPLLYPSFWEVSRCISDNAMQLKIESNGQFIDKKNAVRLSKLNLKSVQISIDGASSRTFSLVRQGGSFEKAVSAVKYLVEEGVDVEIVFVPTQLNINEIEKTIDLAYSLGAKAFLTQKTMYLGRAISNWKNIGLNNEDYAYISTVINKKIKEYKNMKILFYPYDSIEELQHYIQYPPASPLMMSNGKVILTTSIPYVVADVRKHSMEEIWERYKKGWRHPKVKEWVEEVSKNPEKLSLAHNFIDLLN;locus_tag=LOCUS_07280;note=WP_004080828.1 radical SAM protein (Thermotoga maritima) [pid:27.2%25%2C q_cov:86.4%25%2C s_cov:75.2%25%2C Eval:1.6e-18],MGA_729
sequence1	MetaGeneAnnotator	CDS	676728	677897	.	+	0	ID=MGA_730;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFKYIYLFIFSMKRRDFIIAITSLALASIAGGVIYFDNEGNKYCGEVKIIDSMGRTVYVPKEINKVVALGPGTLGMIIYAGGLDKISGIEQIELRNMWGQDCWLAYHDKFKGLPIVGQGGPNATPDPSAILTAKPQVIIEDQLYAQVMDPNQLQEETKIPVIVVYTFSPKRIGELGPNTFKSSMSLLGELLGTTDRTNELNEYVNSLVNDLNSRTSNISYRPSVYVGGLPYKTGSEGFLGTDVDFEVLNLINTKSVVDNLGWSPGFYNIDFSYLLRTQPEFVFIDEGNLETVISEFSQNKQQFCSLNAFKNGNVYGLLPYRWYQVNVTNQFLSAYYIGKNLYPDNFTDVDIFSLANEIYIKFLGINIYSNYLKYAPGYVNISGNFQC;locus_tag=LOCUS_07290;note=WP_011761820.1 ABC transporter substrate-binding protein (Pyrobaculum islandicum) [pid:40.4%25%2C q_cov:87.7%25%2C s_cov:49.1%25%2C Eval:5.0e-67%2C partial hit],MGA_730
sequence1	MetaGeneAnnotator	CDS	677891	678940	.	+	0	ID=MGA_731;product=iron ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011761974.1;translation=MLKTEIILKHRKKLIFVLVFLLIITFFAYLNLGYYPTTLSEVSDYLTNKIPYGSPLSAVLSLRLRRSLLAIFAGALMGVGGAVLQGTMRNPLASPFTLGIPQASALGVALVLIISSNLSFFLLQSPFILPLFAFLMALLQVFFIILLSRALGMSSGALILSAIALSFVYQAILSLSEYLFLNDLQVDIIVFWTFGDLSRAGWQQAYIIGISALILLPLFYYFSIDLDLIILGDEIAESSGLNAKKFRLISTLLVALAEAVPTSFIGVIPFLGLVAPHLGRLIVGGSHKYLIPTSALVGSELLLVADLLGRIIIMPITIPVGIILSFIGTPILIILAVVRMGGNAKSLQR;locus_tag=LOCUS_07300;note=WP_011761974.1 iron ABC transporter permease (Pyrobaculum islandicum) [pid:41.9%25%2C q_cov:78.2%25%2C s_cov:82.0%25%2C Eval:3.7e-58],MGA_731
sequence1	MetaGeneAnnotator	CDS	678912	679667	.	+	0	ID=MGA_732;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023287.1;translation=MVTLKVSNVSLSYSSVKVLNNITFSLEENSVVSLLGPNGSGKTTLLKTIDGLLRPNNGSVYVNCKLVHKLSRKDVAKVLGYVPQKLEVSELAAFEFVLTARRPYVDFDYSKEDKRIALDALKEVGMLQFKDRLLTELSGGQLQKIYIARALASGANVLLFDEPTSNLDPKASSEAMRLLKRISLLSNKTIIISIHDLSLAYRYSDISIFLKDGKIVAIGRTDEVFNADIIKLVYEIDTEVDKNKKIVIFYY;locus_tag=LOCUS_07310;note=WP_011023287.1 ABC transporter ATP-binding protein (Methanosarcina acetivorans) [pid:39.4%25%2C q_cov:96.0%25%2C s_cov:92.0%25%2C Eval:6.7e-47],MGA_732
sequence1	MetaGeneAnnotator	CDS	679672	680139	.	-	0	ID=MGA_733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIIGFLFGLGFDTATEVAILAISATLAGAFASIPLTTILVLPILFTLGMTLVDTADGIFMRMAYGWVFRNTLGKIWYNLTMTLISIIIAYGIGTIELLGLIACEFGFSGFFWDQIIALNNVYWETIGYYIIGTFAITWIISGILYKYKIKRQQF;locus_tag=LOCUS_07320;note=WP_084742683.1 HoxN/HupN/NixA family nickel/cobalt transporter (Sulfurisphaera tokodaii) [pid:73.0%25%2C q_cov:98.1%25%2C s_cov:42.3%25%2C Eval:2.3e-61%2C partial hit],frameshifted%2C insertion/deletion at around 680176,MGA_733
sequence1	MetaGeneAnnotator	CDS	680162	680569	.	-	0	ID=MGA_734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYTFGLRHAVDADHLAAIDNTTRKLLQEGKNPFFIGTFFSLGHSTVVILLSVMLMVATRYVVSNLSNIENIGSIIGTLISGGFLYIIGFLNLLVVLELYNIYKTVKKERTIDDQKLNEILLKRGFMNRFFWQTF;locus_tag=LOCUS_07330;note=WP_084742683.1 HoxN/HupN/NixA family nickel/cobalt transporter (Sulfurisphaera tokodaii) [pid:73.3%25%2C q_cov:100.0%25%2C s_cov:37.6%25%2C Eval:2.0e-54%2C partial hit],frameshifted%2C insertion/deletion at around 680661%2C680181,MGA_734
sequence1	MetaGeneAnnotator	CDS	680921	681592	.	+	0	ID=MGA_735;product=methyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762388.1;translation=MKENKWKKIIEAYDIIAPVYERGNKFVTLGNIEKWRKVTIKMLLQDCKNMHKVLDAGSGPGNMTKTLLKYKNAKVVLLDQSEIMIKEAKLPVDKVIGTFEYMPFRDNSFDTVIMGFSFHASTNMRMTVEELKRISRCVGIVSIGKPKNIIKRSLLYIYMKYFVPFLSFLSTGAKYYKGYSRIFDIYTSVPNNNDVEKIISSEFKVKRFKEVGLGSVYIIIGTK;locus_tag=LOCUS_07340;note=WP_011762388.1 methyltransferase domain-containing protein (Pyrobaculum islandicum) [pid:40.9%25%2C q_cov:96.0%25%2C s_cov:93.8%25%2C Eval:7.2e-39],MGA_735
sequence1	MetaGeneAnnotator	CDS	681585	682289	.	-	0	ID=MGA_736;product=DUF3211 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979930.1;translation=MIDVSYEFEYNESPSVLMEYLSNPENWVKYFKPAKKMEKIGPDEWILYLHWFKTVKSKLTRVISNNESEFIITSLGWPKFKMALKTYVLPSGNMTKVRTEFIYDGPLEGTSKKEMEEAYKTIAINLNADIKKYCEDNKCYSKEKDHNEKVFNNVSIKGLKIYEMKTVLKKEIQKSELDKILDQALIDSIDKDVVVIIENGNGIVRFHFSNGDLVEKEGNLDALGNTLKVLVKST;locus_tag=LOCUS_07350;note=WP_010979930.1 DUF3211 family protein (Sulfurisphaera tokodaii) [pid:32.2%25%2C q_cov:98.7%25%2C s_cov:94.8%25%2C Eval:6.2e-28],MGA_736
sequence1	MetaGeneAnnotator	CDS	682513	682758	.	+	0	ID=MGA_737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLDCRIDDCRDISNIVFIYANELDFGEYLIIDIPREYMDIILNICEAMCLKPLSVRLCKDYCSILVIKEPSVGTKYCTE;locus_tag=LOCUS_07360;note=MGA_737
sequence1	MetaGeneAnnotator	CDS	682698	683501	.	-	0	ID=MGA_738;product=DUF364 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867779.1;translation=MILDIIKRNVTEYLQKNELALKIVDAVVGYFYTIVVTEDENGEKYIGLNITPSFEISDIAERRNNPKFYPSLQEEIELVTSESWIERSLALATINSLSQKLLRFQQVNNTTEWIIRKLYDISASKVAIIGNMPPIVNELDKYFLAYTFDKKLCGKVMSESLEKRILPQIDAVIMSGAVIINESIDEILKYSSNSRLNLIIGPSAQLHPMFVKGLKINYLGSTAIVNNKEEAIRLLKIGYTRGIFYDSNYSVQYFVPTDGSFITNIEQ;locus_tag=LOCUS_07370;note=WP_010867779.1 DUF364 domain-containing protein (Pyrococcus abyssi) [pid:32.7%25%2C q_cov:90.6%25%2C s_cov:95.1%25%2C Eval:8.9e-24],MGA_738
sequence1	MetaGeneAnnotator	CDS	683498	684118	.	-	0	ID=MGA_739;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYKYLFRIFNGAIGLITIYSFIHTFLVPFPAPLFVRFAGPGGLFLGGTIALTSALTPDKLYALFTKEKYGKIIRGAIILFVIYMISTVEIFFAPRNFAGELSGVISSVSFAILLPLIVFYYNKINKNIVYIMIFLLILMLAFSLPKLNSLAQLMGPAGPPGLYFTGALLFHIYFEHTYTLVFANVVALKPKVLESLSRLKERLLK;locus_tag=LOCUS_07380;note=MGA_739
sequence1	MetaGeneAnnotator	CDS	684188	684949	.	-	0	ID=MGA_740;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKYAEVKGIKIYYEKIGNGKPLVMIHPSGFDDRFYHKLLNFITRDITTIIVDLPGHGKSDVDPIQLSGKGSAKVEFYGDYIIQFIKNLGLTKFSVLGTSLGGDIALDVGMRGNAENIIMISSSINTRSTFTEKDIENASNSDPQRIMRFAGPNVDRKLVEELTWIRSTNSLEMLRWDLYAWNNFDYTKKLEREINVLIIRGEYDPLVSKKMIEDTCKYINKCKSLEFKGVGHYVPAEDPKNTAKEVEKFILS;locus_tag=LOCUS_07390;note=WP_015064433.1 alpha/beta hydrolase (Bordetella bronchiseptica) [pid:25.6%25%2C q_cov:90.5%25%2C s_cov:57.6%25%2C Eval:1.9e-12%2C partial hit],MGA_740
sequence1	MetaGeneAnnotator	CDS	685038	685454	.	+	0	ID=MGA_741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELRPIGVVIGPSEGEVNKNMWKGGVKGIIKIHEEFKEGLLGIENFSHIIVVSWLHKITEDQRKILIVKPLRMTDLGFKLNELPSLGVFALHSPIRPNPIGITIVKLIERKDCLLYVEGLDLYDGTPILDIKGYYPYV;locus_tag=LOCUS_07400;note=WP_010978062.1 tRNA (N6-threonylcarbamoyladenosine(37)-N6)-methyltransferase TrmO (Sulfurisphaera tokodaii) [pid:56.4%25%2C q_cov:79.7%25%2C s_cov:71.4%25%2C Eval:4.1e-31%2C partial hit],MGA_741
sequence1	MetaGeneAnnotator	CDS	685945	686691	.	+	0	ID=MGA_742;product=DUF364 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979156.1;translation=MQNKVIDSLISYAKENDNEVKNVTMGKTWTCVLSSYCGVSMTYSINNEDLDVRDFGHLEEKNVGELSEYLRSWNLLEASIGLASINSIIEPKGNAEANGLDVALDYGKGKKIVMIGKFPGIQKFKYVAKKFIVLELNPFLINPSEGILPSTAAETVIEDSQVVIITATAIINKSIDRILELSRKAKAYVILIGPSTPMLDLMFDFGVDVLAGMKVNRPYSFINKIRQGCGMVNPSKLEGDISFIIRTR;locus_tag=LOCUS_07410;note=WP_010979156.1 DUF364 domain-containing protein (Sulfurisphaera tokodaii) [pid:47.6%25%2C q_cov:90.7%25%2C s_cov:90.9%25%2C Eval:7.8e-48],MGA_742
sequence1	MetaGeneAnnotator	CDS	686940	687371	.	+	0	ID=MGA_743;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNENKGAYSLIKFLRFSLAFAALLNIAAHLYAVPAATPIATMYLDSEVALYIFVAMIYTFGLRMWYWPALLYSVLNISLFFISGITAVPGVTPQPLVGHIEFLQYSFGRAGSVIAWLYLIIVGYIAIKYDKGSKINDLLKES;locus_tag=LOCUS_07420;note=MGA_743
sequence1	MetaGeneAnnotator	CDS	687368	688066	.	-	0	ID=MGA_744;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979601.1;translation=MRKATNEELREIYNDIPEFYDRANAMISFFQDVKWRAELIDTVEEYCPKPKRILDVASGKGELSYVVSKLMNANIVMLDYAENMLKTCMVNGDKVLGSFYNLPFRDRAFDAVVSSFALHAADNIEEVVKEMVRVSRKAVGVIAMGKSDNFLLRNYVAFYLRFVQPYLAALVGAKPLDYKYIYYIYRKIPTNSQLKEILRRNMDLKIFKVKALGSVYIFIGVKKEENKIITTT;locus_tag=LOCUS_07430;EC_number=2.1.1.-;note=WP_010979601.1 class I SAM-dependent methyltransferase (Sulfurisphaera tokodaii) [pid:55.5%25%2C q_cov:97.0%25%2C s_cov:98.7%25%2C Eval:5.1e-67],MGA_744
sequence1	MetaGeneAnnotator	CDS	688165	688680	.	-	0	ID=MGA_745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980507.1;translation=MKPLILGNIISLIAAFFILSILFLLGIYGLDFAFNNITKILMWIVWIFAFPAYVEYRKSSLKASYLINYLPPIAILITFIGLVLLMEGKFLGLETIVLGYILEPISGISIYLSIKDIQKFSAYLFFYGAVIYTIGLPFYLINIPEIAIIGDSIKIIGLSYFIKFMIKNSYQ;locus_tag=LOCUS_07440;note=WP_010980507.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:46.4%25%2C q_cov:89.5%25%2C s_cov:89.4%25%2C Eval:1.2e-33],MGA_745
sequence1	MetaGeneAnnotator	CDS	688881	689597	.	+	0	ID=MGA_746;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEKVKVRFKVRRFLNGKSWLQEYEAEVDRFTTVVQVLRQIKETQDPTLSFRASCHMGVCGSCGMKINGKPKLACKTIVLKEAKNGEIKLEPLDMKVVKDLIVDMDEFYVKMEKIDPRLRPEENVLSGDKEHRLKPEDQRELWSFEQCIWCGLCYSACPVTKYDKNFLGPAALAKAYRFISDPRDTETEKRIECVNSLDGIWACRVVGSCSVVCPRGVDPSLAIQKTKMLVLRNERVV;locus_tag=LOCUS_07450;note=WP_010978475.1 succinate dehydrogenase/fumarate reductase iron-sulfur subunit (Sulfurisphaera tokodaii) [pid:57.3%25%2C q_cov:95.4%25%2C s_cov:71.9%25%2C Eval:1.1e-72%2C partial hit],MGA_746
sequence1	MetaGeneAnnotator	CDS	689581	689943	.	+	0	ID=MGA_747;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEWFEFGWNFERYLSLLQIITGWIILAYLIFHVIYANRLAHGVTINDTFLMPILVIFGIVLTFHISNGIRILLIEYGYLTPRGHINENWLRYKKHRNYEMIMMIVLAVSLFISFWAIYK;locus_tag=LOCUS_07460;note=MGA_747
sequence1	MetaGeneAnnotator	CDS	689940	690263	.	+	0	ID=MGA_748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEAKLRFWFYVAGILTAIFLAVHLSMLFITPLNFVERTSTTTVDYYLRNYFYDTALSLLLIFAFIHATLGVRRTLHDYGIKNTKGVVITMFAILFILLYFLFTSFV;locus_tag=LOCUS_07470;note=MGA_748
sequence1	MetaGeneAnnotator	CDS	690247	690768	.	-	0	ID=MGA_749;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDHKSFGILGSLFFAITPFLNIFGIITSTLGAILLYLSINIVYKEYKEKKLMKYFVLADGLFYASMLVLSIGMFMAFGLKVFFVLIPSFSLYSLALLVYTYILSGIFYISSAVYFIKTFNSITALSEIRTFSISAYLIGISGLMLFTVVIGSAGLVLSLIAWILVGISFTQMK;locus_tag=LOCUS_07480;note=MGA_749
sequence1	MetaGeneAnnotator	CDS	690877	691368	.	+	0	ID=MGA_750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYCQALKEVLKHNIIWLEAQSCSGETIMMLKEGCEGVDDLFFHSSPVKLISMISEEKSGPDMMKDILNSDNYLLVVEGAIPKDDKLCNFGGMTCSEILKKLSEKAIGIVAVGSCAVNGGIIREVGGLGVGEVLKKKVYEVPGCPASDKTMVAMLYSVLQGGK;locus_tag=LOCUS_07490;note=WP_041272117.1 hydrogenase small subunit (Desulfitobacterium hafniense) [pid:28.7%25%2C q_cov:88.3%25%2C s_cov:48.5%25%2C Eval:4.8e-10%2C partial hit],MGA_750
sequence1	MetaGeneAnnotator	CDS	691370	692896	.	+	0	ID=MGA_751;product=nickel-dependent hydrogenase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003894103.1;translation=MVDLSLDPISRIEGHLGIHVKVENGEYTDSKVEVSMFRGFENLLKGKELHLAPNITAKICGVCGATHTLVSTEALEMASGLYPSERAIAFRNVAYSLADIMYNNVTVTYLFQSIDYSTEIVGKQTPKEYERAKNTPCKFKDVHGFSKISDILDNLYFGKSIYREAFKLQTNLRDLATAIWLRYPQPLSMKAGSITVRDPSIIDKVKKFMKEDKTIDKLFYIMADLRDFIDYYNNIDEDFVTYGLLEGGEYNADYEEMDSWAEERLFPPALIRKGEVIETNLSKILLGVRVYIGGTPYEKWDREYDKDELGNEIDEKHPWNKETKIKSLINTNFVPTVKQFHGEEFMPTTGDIARLYSMRLRRGKISALNYEWEPRGNNVIERTFARIFTVAFLKEFLENVEVPQGSLDPISGKKAYVMAVGAHDAPRGANAHWLIRDENKIKRYQIITPSDRNFSPLGGPVERSIIHQKVTEETITGLDALRIVRSFDPCSACAVHLEYKDSKLMIPV;locus_tag=LOCUS_07500;note=WP_003894103.1 nickel-dependent hydrogenase large subunit (Mycolicibacterium smegmatis) [pid:27.6%25%2C q_cov:97.8%25%2C s_cov:93.6%25%2C Eval:1.3e-47],MGA_751
sequence1	MetaGeneAnnotator	CDS	692879	693679	.	-	0	ID=MGA_752;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYCEAKKGEDNLLSRIFLRAIRKNKKYNLKVKEIVLGRKFTYVMTEESLGIAFNPLLEPPDSSLILEDKTIEDLVCLVWSHPTLSSIALAAINAASSLWLEDNKDKVLWNADITKLIPSGNIAVIGYLEKEVKKLIDKGSEVTVYEFDRDHLRDAMKEGIKVKYGYQLPIDVNKYDAFVITGASLVYPEILPILKNNSYKVMIGPTSSFFPCIADELNINVLGGSKIVDIEKVSKLIKAGFGFKALTRYVQKWTWLGKSVISDWNH;locus_tag=LOCUS_07510;note=MGA_752
sequence1	MetaGeneAnnotator	CDS	693731	694093	.	-	0	ID=MGA_753;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGHLAPQYHMLKFHLIKENLYNLPREFIIMKVKVRVKDSRLEISNLSDTPLKLLDVIIKYRVHVSTIEDGSAVKYVTQKIPINQEIIGFYEMPIHFPDVSEVTVIYKVGNEKVQETVSL;locus_tag=LOCUS_07520;note=MGA_753
sequence1	MetaGeneAnnotator	CDS	694041	695921	.	-	0	ID=MGA_754;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLIFPDDMERVFILSNIDSSEKMIMDILVFGDFQPEDPVYSSTFPRIEHTDEYLGIVHDYTFKIKEIIDFYGIPYKKCGEIIFSSLENVLKEIFDESEKYVKNVYEKISQERELKEEIIKTYEELEENRVEEKLVYLDKILSEEKEISNYLKNIRKDVEISIISLYNKLLTMENYFKIMSKARRSEYFFFLEGYIRSKSIPKLIEIFNKKYPHKVLIEREKPSKYEMKEEPPTAFSLPRVLKPFEIIAGIYGTPSYWEINPTVLFAFTFPIFFALMFPDSGDGIIVLIFSIFLYRYSKRKNNDQLAQISEVLGISSFLSIIIGMFIREFFGPLLIEGTRELLPSVPQTTVGPLYYVWPISPSIASKLSFIIPFGNYSEPVFGLIDTMIIAILIGILFMLTGNSLGIYNTLHKSGIRAVLLENIPIFIIYSSIVILFLYGFTDPRNYFGETISILSSLLYVILHFPNNPFQSPQNFISFISVLLVIFGLLYSGYAHFHILTRTKRKRSSASEAFMEGVFEPLLLLMSNTISFIRLLVLGMAHYFLLYAFSYFALMSANTLNTNAILVNPSSLTIIIVGNLLAIGLEGSMAFIQSLRLNLYELGGKFCLCNGRPFSPSVSYVKVSFN;locus_tag=LOCUS_07530;note=WP_010979478.1 V-type ATP synthase subunit I (Sulfurisphaera tokodaii) [pid:39.2%25%2C q_cov:79.2%25%2C s_cov:69.3%25%2C Eval:1.1e-96%2C partial hit],MGA_754
sequence1	MetaGeneAnnotator	CDS	696222	697226	.	+	0	ID=MGA_755;product=molybdopterin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435117.1;translation=MKYVATKDAIGKKLGYDTTYVGLNGATTLFERGHIIQEDDVNKLMDSGVYYVWIDDGTHEENIMYEWEITPYLASKIVDENIDIVSGKQGITLLYSKIPGLLKVDVEGLINFNQNQRVLLITKRNNEALGKGDFLGSVEVIPFSMRKDEVESIIPGKKLVSVIPFKYKKVGVVITGTEIFEGRKKDLYLPIIEEKTKKYGWDIVQTEFAPDNEDMISKAILKVRDNGAEAIIVTGGTSVDPTDRTLFAIRKLNANVISYGIPMKPTTMSIIAILENIPIFAVSAGGIYYKDYNSIDVMFTRLMTGRIPTIREIAELGNGGIMWNFEPKMKLKTL;locus_tag=LOCUS_07540;note=WP_003435117.1 molybdopterin-binding protein (Clostridioides difficile) [pid:32.8%25%2C q_cov:97.0%25%2C s_cov:95.9%25%2C Eval:3.0e-46],MGA_755
sequence1	MetaGeneAnnotator	CDS	697221	697736	.	-	0	ID=MGA_756;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDKLKIALRSILVIVGILLIYSGIILILSSKLEIKDIMMLAKVKPLIPLPFWLMEFAFLFNGLIILIVGLRPLFTLYLSKKEILPIIIRLLAIFSSIVMINPMLIEISFILQGKVDFLAIATAPGLYFPGGLFIHVFFEHWLGGILGFSLGVYPKIFSNLGKVIRKISHL;locus_tag=LOCUS_07550;note=MGA_756
sequence1	MetaGeneAnnotator	CDS	697930	698205	.	-	0	ID=MGA_757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVLVIHEWENDQKDTVNNFLKQIVSMAKEKKLPKGMKLEKVSVSQDANTAVCEWDVENMDMLMQAAKQFNVTWKVKPIAEEVLYQHKSII;locus_tag=LOCUS_07560;note=MGA_757
sequence1	MetaGeneAnnotator	CDS	698397	698789	.	+	0	ID=MGA_758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLKSKMDYKDVITLNENLTLNDALNEMNNSGINVLIVTNKHGKPIGLVTKEDIIKARSNGISMSEHIDSIMRKTIITITGKEDPLELLNLMIRNNLDYLVVVNDKGIVNGIISINDIFKTVKKMAKVND;locus_tag=LOCUS_07570;note=WP_002934126.1 magnesium transporter (Streptococcus sanguinis) [pid:30.3%25%2C q_cov:87.7%25%2C s_cov:25.6%25%2C Eval:1.1e-07%2C partial hit],MGA_758
sequence1	MetaGeneAnnotator	CDS	698793	699197	.	-	0	ID=MGA_759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979721.1;translation=MNGLNKTFKASLLTFFLLFGTFTLGLVRAMIDSGKIKLHMPIDFLYLHIAFALSTGALSLFLFYLAKNTGLIFPKILASINLAVISTAGIAGISYLLTDNDTFTMVMLYSFEIAFGVSSMLIGYLYCFYRTCFR;locus_tag=LOCUS_07580;note=WP_010979721.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:53.1%25%2C q_cov:94.8%25%2C s_cov:95.5%25%2C Eval:1.6e-32],MGA_759
sequence1	MetaGeneAnnotator	CDS	699181	699744	.	-	0	ID=MGA_760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980091.1;translation=MCLLKTVDVERPIISNDVVMVKHDDFAHLGEDTYLRILASDKRGKDISKSYYYFIVNKLRAIGLLLDNAISFKAVFPFTISSQHISISDSIMFITDDKKLIYYNSDNDTYTCGGCPVNSECLKGLKSVVKEVDIKVRNEYLDDAWLSVIDGIKSEFLSNIRYVRAKAEIGKIDIKERIKVRNNEWIK;locus_tag=LOCUS_07590;note=WP_010980091.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:29.2%25%2C q_cov:85.6%25%2C s_cov:96.4%25%2C Eval:2.2e-18],MGA_760
sequence1	MetaGeneAnnotator	CDS	699828	700802	.	-	0	ID=MGA_761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847040.1;translation=MIDWLVINLWNPQNVDVISALVIAYLLGIVHGVTPDEHTWPITFSYSVGTFSSKGGAKTGLIFSSGFTIQRSILSELAYLALAGIFMTTAAFGITYIFVGIAMFGAGIYISRKGGYLHWHYLEKKIGEATGIHKKGSQLQQEELEHKINPAYVNEQDLTKPVPVKLAFLHGFIAGFGFGAFALIVYTVLAPTMPNMYIGWLPGALFGLGTMTAQVMFGTIFATWLTRMKNLTYQGIAVVGKTITKTVLEYGGLAFIIGGIAILLYPPLLTYNIITPIKVHNLHSLGIGFFLVIISVIIFGIYGYKDGIKTAIKLGYTNKTVQKE;locus_tag=LOCUS_07600;note=WP_052847040.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:36.1%25%2C q_cov:96.6%25%2C s_cov:96.0%25%2C Eval:6.1e-52],MGA_761
sequence1	MetaGeneAnnotator	CDS	701087	701944	.	+	0	ID=MGA_762;product=sulfite exporter TauE/SafE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980461.1;translation=MIDPTFLLELLIASIIAGFIGALTGLGGATVLVPIYTLFLAIPIAYATGASLISTIATSSGAASAYIKDRITNVRIGMSLEIATTAGAIIGSLIAHIVYEDHLEFILFIIFGIVILSSLYPQIEKASLELPRNMKPDWSTRLFQLYGKYYDATLRQIVEYQGVRWWLGEIVMFFAGMVSGLLGIGSGALKVVGMDWAMNLPLKVSTTTSNFMIGVTAATSSSLYWIFGYIEPVLAGVTAIGVLIGSYLGSKALVRIRNVRLRLIFIAILLFLGIDMIIRGVTLWI;locus_tag=LOCUS_07610;note=WP_010980461.1 sulfite exporter TauE/SafE family protein (Sulfurisphaera tokodaii) [pid:73.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-117],MGA_762
sequence1	MetaGeneAnnotator	CDS	701935	702300	.	+	0	ID=MGA_763;product=DUF1634 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980460.1;translation=MDLNDVIGYALRIGVIISVILIIIGFILLIPNPKFSELESPHSRFNTSVIKPEQVLYGSFKGNGLDLILLGLMVLIATPVLRVILGVIQFTLEKNKIYTVITIIVLFNLLLAIFIIPLIVK;locus_tag=LOCUS_07620;note=WP_010980460.1 DUF1634 domain-containing protein (Sulfurisphaera tokodaii) [pid:56.7%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:4.1e-31],MGA_763
sequence1	MetaGeneAnnotator	CDS	702293	703231	.	-	0	ID=MGA_764;product=NAD-dependent epimerase/dehydratase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979934.1;translation=MKYTIIGLGFLSTHIAEYLSNYGEVVVTYRNLERVKKTYSEILQNKVKLVKLNPLSDIDNLRQLISSSDVVINTVGVIGNNESELKIAHVEIPRKISEIVSETSKPALIHISAASATGLTGNVKEEDKHCEGVSPKLPYEITKCEGEKIVFSKARENNFPLAIIRPTFIYGKYSAHIHFVLMYWLAKFGIIPSFDLSMSTISAKHIAMFVKVLSESKPKEFYMYASECKLVKLDKFFELMAEALGRKSIKIPIKGTELIPSSLKCALKYAGTTYDCSKGKELIKDLDFDENEVKENALFMDELRKKAMLFAT;locus_tag=LOCUS_07630;note=WP_010979934.1 NAD-dependent epimerase/dehydratase family protein (Sulfurisphaera tokodaii) [pid:50.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.2e-79],MGA_764
sequence1	MetaGeneAnnotator	CDS	703431	703973	.	-	0	ID=MGA_765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYKEWIEQALEDLDTAKVLLENGKYYASAWFELMYKISSYDIGIIYSISYLATALGSFFASNLSKWISILNIASWTRILSGALLILIPFSPYFIGSFIYILRSLIAGFGSPSRSTVNMKEISTEDFGAASSIQGIASRTSQATAGASGYLMEIYLPMPLIIGGLLQAISGWVYLRMLRQ;locus_tag=LOCUS_07640;note=MGA_765
sequence1	MetaGeneAnnotator	CDS	704131	705330	.	-	0	ID=MGA_766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKTNWKNALYNIMSINLINFNITLAIFTMEWIISKLTCSSLLTGILIGLSSLAYFFSYFTGAFMDLTRKKKTILLGLIIPLFTILFLSQIALLANNDIFTIILLFYTFAILTGFTSDIASIILSIWIKENVNEKDYRKVSSINRVTLRSLRILAEALAGIFLAISFKYSITPSLIILVVVGFLLLPMNITENVEEKRMHSFKKSLIDGFYYVRRSKVLTQFTILTTDNLFFEMQGLLLLFYVEDVLHQGPIYFSALLISAEIGIVVGSIFALRINKGKLGFYQIIFRLIISASLASYILINNIFLALIPTFLILFSSGVNSTLTSATLLRYIDKEYWGRTTGFIGVIANGLSTLSGPLGGILIEIIGVGWTYVLVSVVMLIFTFLKYTFKEYYNLEIK;locus_tag=LOCUS_07650;note=WP_052846396.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:57.6%25%2C q_cov:44.4%25%2C s_cov:94.1%25%2C Eval:5.2e-51%2C partial hit],MGA_766
sequence1	MetaGeneAnnotator	CDS	705317	706600	.	-	0	ID=MGA_767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKFRTKGIVNFFNYLTKDIKLDFLSTSYITEITLNVSGNCNLACKYCFASTGLYGYDKLGNMTFETAKRVIDEILSKYNDTKLLIKFFGGEPLLNFKLIEQVVNYFMELKENGKMKYLPKFLVITNLTILNDKIIDFLKKNEFRIVVSLDGPETINDKVRTFRNNLGSFKIVDKNLRKLINNLDTDYISIETVYSPVHIQYNISILDIYKFFNNNYNIFNISIHPLTKIGQGNEFLKNFLDELLRSYEEKIYEMSFELGRYMMRSFINGAKITEIYNFMKKVTQKRLLNSHCSAGFSNITIMPNGDIYPCYMLSYDNRFYMGNIINGLNNYRLFKVQNFLKYVNVKTNIDQCRTCDIMKICNACLGDLKFGENGKVIIDNYACNYYLGLYEGFLVELNDIMLNDIKWKSFKENLRKMKEIVEYVEN;locus_tag=LOCUS_07660;note=WP_011861666.1 thioether cross-link-forming SCIFF peptide maturase (Clostridioides difficile) [pid:29.9%25%2C q_cov:76.6%25%2C s_cov:68.4%25%2C Eval:5.9e-32%2C partial hit],MGA_767
sequence1	MetaGeneAnnotator	CDS	706652	706792	.	-	0	ID=MGA_768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEKTLELKIENRFNELKKILPEVPENIQPVSSCGVGCGDGDKTGF;locus_tag=LOCUS_07670;note=MGA_768
sequence1	MetaGeneAnnotator	CDS	707038	707790	.	-	0	ID=MGA_769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSDMGFKYLVFSRIFRSIGIIYITLVAPLYLKFIGFSLVSIGIIFLFIILFNTILVFALGLLGDRVGYKKTLIIGDLFPFLAAFLLFSSSLKIVIIISLLIGGIGGTAGGMRGVFSPGLTALVASNWKNDLERVRRLGILTSAAAFSSIGGSSMLSIKSFLPFSPELKFRFLFLISAILLALSILSLSAVNEVARPKKNSKIMKLSSLKYSGKVMLSNSLSGMGVGLAVPLLPLWFEELVEKVRKIWNK;locus_tag=LOCUS_07680;note=WP_010980484.1 MFS transporter (Sulfurisphaera tokodaii) [pid:43.0%25%2C q_cov:94.4%25%2C s_cov:60.6%25%2C Eval:3.2e-49%2C partial hit],MGA_769
sequence1	MetaGeneAnnotator	CDS	707839	708144	.	-	0	ID=MGA_770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGRLMGIGGYQILESLKNGPVKISQLRNSVPLYGSAFDFVLSQLMVTGLVRKFEKDGEEYVEITELGRNFPYQWGYGPYQGFGPYYGCGPHHHGHHGNWW;locus_tag=LOCUS_07690;note=MGA_770
sequence1	MetaGeneAnnotator	CDS	708327	709730	.	+	0	ID=MGA_771;product=Fe-S cluster assembly protein SufB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979219.1;translation=MEESKNITQLISREDDDISLEFDKEIKSELTRSTIEEISKSKKEPDWMLKLRIKYFEKAMKLPKSNWIPNNIDLDLSNFDIYSKPKLDHISSWEELPASLKKYYEYLGIPESERNILAGAVSILDSESIYSKVGEELKKRGIIMMPMDEAVKKYDILKDYFMNVLDSEYQIAALHGAIWSGGVFVYVPKGVRFQTPIEGIFIIGSDKVIQAEHTIIIADEGSSINYIEGCFAPRLNATAMHNGGVEVYVKNHASVKYVTIQNWSKNVINLSNKRGITGENANLEWVEGSVGSKHTFSYPSTILDGENSSSTSLLLTIAGEEGDWKEGGSKMIHKAPYTKSKIVSKSVSFNGGNVSYRGLVKVNKGALNSKAYVKCDSLILDDKSKAYTFPQNQVLEESAEVAHEAFTTKMSLDQLFYLENRGFKEKEGISLLVLGFMDEITKELPFQYATMLNNLMTLELDKIGALA;locus_tag=LOCUS_07700;gene=sufB;note=WP_010979219.1 Fe-S cluster assembly protein SufB (Sulfurisphaera) [pid:58.6%25%2C q_cov:98.7%25%2C s_cov:97.3%25%2C Eval:5.4e-159],MGA_771
sequence1	MetaGeneAnnotator	CDS	709835	709975	.	+	0	ID=MGA_772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTIELKPIGYIEHNISDELIAKTFKKFMAKVVIYREYKDGLKGIR;locus_tag=LOCUS_07710;note=MGA_772
sequence1	MetaGeneAnnotator	CDS	710070	710327	.	+	0	ID=MGA_773;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIETNIPIVGIFSTCAPYRPNPIGLSVVKLLKIQDNTIIIDDCDLYNKTLILDIKPYIYTVSEEVRIAEWRKRMLEYIRTLNLE;locus_tag=LOCUS_07720;note=WP_012546312.1 tRNA (N6-threonylcarbamoyladenosine(37)-N6)-methyltransferase TrmO (Thermodesulfovibrio) [pid:54.0%25%2C q_cov:58.8%25%2C s_cov:38.8%25%2C Eval:6.1e-11%2C partial hit],MGA_773
sequence1	MetaGeneAnnotator	CDS	710295	711302	.	-	0	ID=MGA_774;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980032.1;translation=MKDFVSVIITAYNRQKYLDNALNSVLNQTLDKDKFEIVVIKNFELGEINNRNIIDIYDNQEYLGEKIYKGLHESKGDIICLLDDDDIYREDKLERVTSFFKVFHPIYYHNNFVTIDDKGNEIKIIEDYLKIPPYASFNLPEFTLTIEDNRKTDIRNLLKLNVNFNSSSICVKREILENNAQYLKKIKAVIDSFIFYSSLLSEGNILLDPARLTSYRIHTLQTSSGNTKNIREYKDSFSNLFKKAVEDFYIIMEMLNDKINKNINETVNEELLRYKLLYKIFSGNNILIKTKFNIHLINYYLLSLLPTFLRNLYIKDQYNRTKKVRSFQVKSSNIL;locus_tag=LOCUS_07730;note=WP_010980032.1 glycosyltransferase family 2 protein (Sulfurisphaera tokodaii) [pid:28.3%25%2C q_cov:83.9%25%2C s_cov:79.3%25%2C Eval:1.3e-25],MGA_774
sequence1	MetaGeneAnnotator	CDS	711392	712009	.	+	0	ID=MGA_775;product=FmdE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164927076.1;translation=MEQKRIHEIPEWAFEFHGHRCPAMPLGYLAGKYALKLLGIEKEKDTNTYVFSETGDEHHQGCFDDGVQAATGCTYGKGNYKRLQYGKMAIIVYKPGKGAVRIRPKPEILDGCSKFEFFKYRKSGIPASQVPREVSDEVINYVLSKDFEELFYYEFLKDFTYSSPKKTMARIVCDDCGEPTYENYIKIFNGKRLCPRCYEIERNKR;locus_tag=LOCUS_07740;note=WP_164927076.1 FmdE family protein (Chlorobaculum tepidum) [pid:40.9%25%2C q_cov:89.8%25%2C s_cov:90.7%25%2C Eval:5.4e-35],MGA_775
sequence1	MetaGeneAnnotator	CDS	712016	712771	.	+	0	ID=MGA_776;product=sulfite exporter TauE/SafE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545035.1;translation=MNSIFLSIIFILTWILSALFAIAGVGAANTLIPIYYSLGIPFSIAAAAGLLLNVFSLSSATVNNGKRGRVLWKLGTIFLIPAVIMAPIGAFIGIHTPRKILLWIFVAFLGYTLYNLIRGRAKEETNKFSGNIKGYILGITVGAIAGFLGGLLGVGGGMIILPVLALIEKDYKKVSATAGYVALFSSASGFTSYLFLLRGISYDLWLVILIGGILGGFSGSYLMNKMKTLYVKYTIVSIITFVLIKILIGVI;locus_tag=LOCUS_07750;note=WP_012545035.1 sulfite exporter TauE/SafE family protein (Thermodesulfovibrio) [pid:31.5%25%2C q_cov:94.8%25%2C s_cov:95.1%25%2C Eval:2.0e-30],MGA_776
sequence1	MetaGeneAnnotator	CDS	712803	713342	.	+	0	ID=MGA_777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRQRNEEVTKEKILQAATEVFAEEDFFKASVDQVCKKAGVSKGIIFWHFKTKDQLILEVAKKSLPLDIVESCLKEKENTLECIGNKYLEKYDDPIMRKLFLHTISAMNIYKELGDDIRELCDSLVKKISKCALNSESNEDIIRIRSFMGGLLCYVVNPPNIDKKTYVNTLIKIALAKET;locus_tag=LOCUS_07760;note=WP_010865247.1 TetR/AcrR family transcriptional regulator (Thermotoga) [pid:38.0%25%2C q_cov:39.7%25%2C s_cov:33.0%25%2C Eval:1.6e-07%2C partial hit],MGA_777
sequence1	MetaGeneAnnotator	CDS	713460	714680	.	+	0	ID=MGA_778;product=UDP-sulfoquinovose synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846779.1;translation=METKKVLILGIDGYIGWALALRLGKKGHEVYGIDNLITRVQAMEVGGDSAFPLPSVEERRNIFKEYIGPIDFIVNDITKPYVLRDYISKIKPDAIIHFAEQRTAPYSMIDEEHAIYTMHNNIEGTIRLIYAVKDNPEIHVLKMGTMGEYGTPNYDIPESPYVKFEYKGKSDMVPVPKFAGSWYHWTKVHDSHNLLFANKVWGITITDINQGPVYGTRTTDMLDGDSIIEGLRTRIDVDEAWGTVVNRNAVRAVLGLPLLVYGKGGQTRGFISLEDSVNALEILINNPPKEGEFRVVNQFMELYSVEKIATLIADATEELFGYRPKIHYVRNPRIEKEEHYYNPERKILPDLGYKQKRFLKDEIYSILTDLYQYKDRLKNFSEWTNVKTDWKNGRNDKNRFDLIKEL;locus_tag=LOCUS_07770;gene=agl3;EC_number=3.13.1.1;note=WP_052846779.1 UDP-sulfoquinovose synthase (Sulfurisphaera tokodaii) [pid:58.1%25%2C q_cov:95.3%25%2C s_cov:99.5%25%2C Eval:2.7e-127],MGA_778
sequence1	MetaGeneAnnotator	CDS	714728	714991	.	-	0	ID=MGA_779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIWYNLTMTTISILVAYVVGSLELLGLIQSEFSLNGGFWNIISLINGDVWWGNIGMIIITTFASVWILSITIYKVKIRNMKKNTK;locus_tag=LOCUS_07780;note=WP_084742683.1 HoxN/HupN/NixA family nickel/cobalt transporter (Sulfurisphaera tokodaii) [pid:59.5%25%2C q_cov:94.3%25%2C s_cov:23.1%25%2C Eval:3.8e-21%2C partial hit],MGA_779
sequence1	MetaGeneAnnotator	CDS	715037	715588	.	-	0	ID=MGA_780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKQNYHLKSLFLDCLCSSPKPNGYGLIAGFDLNTDRLNVVINKESSIVTTKTWWCSEVVSHGFPKGEARALRLNALSQALIFLSRIGVDYVVFEDLFLVKRRRFTRSKSGNRKVSRFAKKQLLIHGVIKALRLGFNVILVNPKGTTNSEEHEKVMREKGFDRHTASAYLIALKGLGILNDGK;locus_tag=LOCUS_07790;note=WP_009074107.1 hypothetical protein (Metallosphaera yellowstonensis) [pid:84.3%25%2C q_cov:90.7%25%2C s_cov:46.0%25%2C Eval:2.1e-74%2C partial hit],MGA_780
sequence1	MetaGeneAnnotator	CDS	715531	716370	.	+	0	ID=MGA_781;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978637.1;translation=MKSIDNLKITILSDNFVSTLIPPLIGEWGFSALVEADDVKILYDVGNSGYPLIYNSEKLGIKLEDIDFIVLSHGHSDHTGGFSNNDVVTKLKGKMLIAHPSVFEKKVLNWSGKLEYIGMPLTRDETEKKFNLILSSEPLEISNGVMFSGEVKRYGYNEYTSGLYTSSNSSLLKDSMKDDVALYINTKKGLVILTGCGHSGILNIITHAKEVTNQNVYAALGGFHLLSSPKEHVEKVADELTKNLQKIGPAHCSGNMIKSIISENKEKWLDVSVGKSISF;locus_tag=LOCUS_07800;note=WP_010978637.1 MBL fold metallo-hydrolase (Sulfurisphaera tokodaii) [pid:62.8%25%2C q_cov:98.9%25%2C s_cov:98.2%25%2C Eval:2.3e-102],MGA_781
sequence1	MetaGeneAnnotator	CDS	716362	716790	.	-	0	ID=MGA_782;product=tRNA (N6-threonylcarbamoyladenosine(37)-N6)-methyltransferase TrmO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978062.1;translation=MYLKEIGVVKSKEENRGIIEIFNEYKEGLDGIEEFSHIILLAWLNKVSNDQRKILKVKPMRLDNLPTVGVFCTHSPHRPNPIALSIVKLIERKENLLYVDNLDLFVGTPILDIKAFSLAFCPKDVKVPHWNNELSKFHKKSE;locus_tag=LOCUS_07810;gene=tsaA;note=WP_010978062.1 tRNA (N6-threonylcarbamoyladenosine(37)-N6)-methyltransferase TrmO (Sulfurisphaera tokodaii) [pid:60.3%25%2C q_cov:94.4%25%2C s_cov:91.6%25%2C Eval:1.1e-42],MGA_782
sequence1	MetaGeneAnnotator	CDS	716861	717826	.	-	0	ID=MGA_783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKTIMSQNIKTLDIDSTLKDAAELMVKSGIRRVAVSAAGNIIGVVSARTVVREALNNQNWASKKIGDVTRPAISVDADTSNRTAAKLMLKYGVGSLLIKGQGIVTERDLAKVIPRVTIPAIAVGTQGVITLNSDQTVWDAANAMVSLGMSHIPIVSGADIIGIVSLRDVLKAYYEGNSSSKLSDIASKNIVSEDLDATVGDVADLIATKNVGSVLLLEENELKASSLRGIVTEWDLVRTYANMERAHVLIKADPSKIRTLLTTLFAIPRVSNVAITYGPYDLLVSIDVEDIEQLGTFIVNSIASLPGVKDTLTLIEAEQI;locus_tag=LOCUS_07820;note=WP_010979840.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:29.2%25%2C q_cov:33.0%25%2C s_cov:87.6%25%2C Eval:7.4e-10%2C partial hit],MGA_783
sequence1	MetaGeneAnnotator	CDS	718124	719191	.	-	0	ID=MGA_784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPYILLFFIPLSWFVTMFMIEAGSLVMLPICKYENYKEKMMLVLGSLWAIIATSLVYLVVSLDGIFAPIMFATGEALFGLLMTLIVILAFHHYFIGSAEGADSLGRHMSSKTFLILAAPFALIVAFIGTTIFTSVFSGYGIGLKLPLSTVATVLEKHELSVAMHEIPNLQVFYPEYMSMIFNAFNWVFFIGIVMYVVFFTVAFYGIKERFLVGVLALTLANILLLVSTDLWLPTVFNSAVGNAGFWVYLAILYGILYLSTHKNLPWRQAWVFFFTFLGGMMFGVFTQGNILVDAVPPSGIPATLLLTNPATLAAGSVLVGLAGVLVLGGVTAVSYKVLYKTAVEKAEARKASVK;locus_tag=LOCUS_07830;note=MGA_784
sequence1	MetaGeneAnnotator	CDS	719192	720682	.	-	0	ID=MGA_785;product=cytochrome ubiquinol oxidase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000381849.1;translation=MSLFVFDRVLAAFTMGGHMLFTYWAISLPFFIVTAEYLGYKRNDPYYLAIAKRFSIVMAVLFAVGSALGAAIAVEFITVWYKWMYVVNEVDILPFEIEVLAFFSEVIFLSLYLYGWDRVSRNAHMMLGLLVGVGSTASALLIILVNSWMNTPVGFNIVQFAQTGAITNVDPLGSLWPPAANAEVPMGVAGAWFVGFGSLAGYFSFRKLFKKNLTHDEVEYYNRGLKLAIFLAAIDAIFLGWAGDNAGKTLYAIQPLKLATLEGVMQTAKGAPMSVGPISIPGGLALLSTWPPNPNALVLGYSSFVQSVQDPIWWVAHNAYDLHATLGILGALVFWILAAFTFFKLPSLKNAFKFLGLDAPLDKKVPLYVTLLIGWLQLIAWESGWVAAETGRQPFVIWGPMVATSSGLYTIEAGMLTSQGFNNNPDVLPIGIAIMTAIVIAVVGTLYILRRLFSGKEVAQDVASLTTTFGSTSAQSPNIPSLKSVNSNDQGKKKVM;locus_tag=LOCUS_07840;note=WP_000381849.1 cytochrome ubiquinol oxidase subunit I (Staphylococcus) [pid:28.0%25%2C q_cov:94.8%25%2C s_cov:98.9%25%2C Eval:2.4e-43],MGA_785
sequence1	MetaGeneAnnotator	CDS	720956	721429	.	+	0	ID=MGA_786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNSLCFEVKREITEKPTLIMLNRDLFRKITENEIYLKVLSYPDFKVAGVSKSYYYYALEKLKEINLIRDRKINFKLVVSYFYDNKNQLIKIDPAFIFIGKNLMYVFDSRRRCNMDYELLVDLGIEDGRNTNLCKKVKKALSNMINEYLTTGVINVI;locus_tag=LOCUS_07850;note=MGA_786
sequence1	MetaGeneAnnotator	CDS	721419	721727	.	+	0	ID=MGA_787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSKNSLLWFLGGLLAGIGYIFGVFYLMITKKDPSRWLGLMLFLGPFGSIMLYFLCRNEHKDIATLSMYLFYGFLVWIPIALLLGINPLYQIFGYIHGWLGS;locus_tag=LOCUS_07860;note=MGA_787
sequence1	MetaGeneAnnotator	CDS	721818	722372	.	-	0	ID=MGA_788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980091.1;translation=MCDYRLVKINRVIGETENLVLLPREYFNKLSEDIYSKVLVNDNRESLHLSKSYYYYILSQLKKLELIEDNAISFKAIIPIVINEKGIEFDNSIAYIDKNNKMLIFIDMRSSKYGCPECPVYTECVFGLRRIANSIGAKVGEIGDEGRYSKLPAKLWNTIVDEILHKYLKNLKSIKIPTFRDVPI;locus_tag=LOCUS_07870;note=WP_010980091.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:37.9%25%2C q_cov:96.2%25%2C s_cov:100.0%25%2C Eval:6.1e-29],MGA_788
sequence1	MetaGeneAnnotator	CDS	722559	722966	.	+	0	ID=MGA_789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKRAEKGKNNFLMNWTFSIGYYPIFLDKYIKHLGKDYFMINVGLYYRVKKGHEEDFEKAFQGVINFLKTFPGFIDAKLYKRVDDPQEYLIYSEWDSLDTFRRFISSREYKDTTGYGKSILEGMPKHKVLQEINT;locus_tag=LOCUS_07880;note=WP_052847047.1 antibiotic biosynthesis monooxygenase (Sulfurisphaera tokodaii) [pid:59.4%25%2C q_cov:71.1%25%2C s_cov:100.0%25%2C Eval:5.9e-30%2C partial hit],MGA_789
sequence1	MetaGeneAnnotator	CDS	723041	723922	.	+	0	ID=MGA_790;product=1%2C4-dihydroxy-2-naphthoate octaprenyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081897.1;translation=MKNIYQMILITRPWGFILPIVCVSFSFSLGYYIYRIFNIQFFILTILGTVLFNASVDVLNDYFDYKKGLDSENSGTVKYRLHPIVQGVLTSTNTLLYGLILGMIGMAIAIYLTLFRFYAIIFALIGFFMVYAYNGPPFSCKYKALGEIEVFITYSFLIIASYYITTSHISIISFFDSLPLASIITAILVANNMRDANTDKLNKIKTLATIFPDKIKKIYLFLLIILPYSLIPLLILFGYLPYLDILILLTLPLSTKIGKYVYINLPIDSDPQTAKVLIIFGLTYVFLTLLSSF;locus_tag=LOCUS_07890;gene=menA;note=WP_004081897.1 1%2C4-dihydroxy-2-naphthoate octaprenyltransferase (Thermotoga) [pid:26.8%25%2C q_cov:85.7%25%2C s_cov:85.1%25%2C Eval:4.0e-20],MGA_790
sequence1	MetaGeneAnnotator	CDS	723889	724443	.	-	0	ID=MGA_791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVESPQGTRLKVEELRKLSQINPLDPWPHFMLGEIYSTLNPEEALKEYNEAIKLDPHVIDFHYKKALLLFNLGKIDEALECLEKASIIDYKNFSMYHYLKGNFLDEKGKYDEAIKEYEKAIEKDPNNVWIIESKLLDMVELGLVTEALNEIDNILKAKNFKDLIMLREKIVKINQNELRSVKNT;locus_tag=LOCUS_07900;note=WP_010875712.1 tetratricopeptide repeat protein (Methanothermobacter thermautotrophicus) [pid:32.9%25%2C q_cov:78.8%25%2C s_cov:36.0%25%2C Eval:2.2e-10%2C partial hit],MGA_791
sequence1	MetaGeneAnnotator	CDS	724634	725836	.	+	0	ID=MGA_792;product=hyaluronate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011761959.1;translation=MLAAPEWDKAIGKAVDMIKNGDVNIVWFEAQACEGNTTAIIQATDPTVVQVLFGASPLIGPGSVKISFWPSLMPQQGEQAIDILNDVIAGKYNPYVLVLEGSFPDEKTAQQYNSGGFWGMLGPKTLNEWVAELLPNAVAVLSVGNCASYGGLIGDKVYQPPPKFITPTWSPSPTGAVGFFDDPLRGYKGLLSRLYEDNYLNGQAGAAPFYTFVKNPNSYLDITPSPSASVKPAIAVPGCPANGNGIMRTLANLVLWAGGLAPLPEVDQYWRPMYFFQYTVHEQCPRAAWYAAGEFRTQPGQPNAACLFEVGCKGPVSNCPWNKYGWVGGIGGPTRTGAVCIGCTMPGFSDLYEPFYKPLQVPTPSSTLTTAGLIGAGIAIGAAVGLAEKKMVQKGGLRSK;locus_tag=LOCUS_07910;note=WP_011761959.1 hyaluronate lyase (Pyrobaculum islandicum) [pid:50.5%25%2C q_cov:90.2%25%2C s_cov:87.7%25%2C Eval:6.1e-108],MGA_792
sequence1	MetaGeneAnnotator	CDS	725838	726656	.	+	0	ID=MGA_793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011761958.1;translation=MQLPFGDYLVGNSLYPLALDLFIPTIVFFFFGASYRVFRYFAVYKKPFIPYATSVMRETSSTEKVKKLVDTFANSSKVGMKRKPVTTAAGLLMHLSLIVIIFLLAQHMVFWAYYIPPYKILFPFAIPESSADGALAFTLATSPYTSTSYPFVHDIWGPLTIILNGQYITYILMILLGIYLGHKFHALAEGLTLRSGDWWFFLLLYIDIILGFLATSHIPNSVVYYDDLLGAHIIVAEVLIATLPFTRGFHMFEFYLGKVREWYFMTYRRGEK;locus_tag=LOCUS_07920;note=WP_011761958.1 hypothetical protein (Pyrobaculum islandicum) [pid:37.4%25%2C q_cov:94.5%25%2C s_cov:98.1%25%2C Eval:8.4e-38],MGA_793
sequence1	MetaGeneAnnotator	CDS	726656	728017	.	+	0	ID=MGA_794;product=(Fe-S)-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011761957.1;translation=MAIAETKVDMEALNKAIDEVFYGQLDSTMLYYFQSCVNCKACEAACPFTPTSLHYSPVNKAEVSRELYRYRFSVWGKTIGRFIGGSKKYLSLEEAETMVDYVWHCTNCGACMFVCPMAIDSGAMIDLLKQVAFKAGMVPKIYRDIADLEISGKYWEIDFFKNSWNSLISKIKDAIGKEVPLDKKGSEVLFYTSIYEALAYPDVLVKVAKILDMLNKDWTFMSKPLGIRPPIGLVIGDKEGAAEVMQRVYSYFTDISPKYVMLTAGGFEYPSLRYTMHETFKVKPKYEVVHVTELLAKWYENKEFEIEPLDETITWHDPCQLGRRGGVFEAPRVLMKALSKKFKELPSHGVNSFCCSRGGGGCGVPSMVENMAKTLGIPVSDDDKKFLDSTLEPLIKAGKIKVNEINKIKAKEVLTGCPVCIESIGFSIDYYHASSKVNHIVDILADRIKVNKK;locus_tag=LOCUS_07930;note=WP_011761957.1 (Fe-S)-binding protein (Pyrobaculum islandicum) [pid:36.0%25%2C q_cov:94.0%25%2C s_cov:98.8%25%2C Eval:3.3e-81],MGA_794
sequence1	MetaGeneAnnotator	CDS	728073	729962	.	+	0	ID=MGA_795;product=nickel-dependent hydrogenase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011761956.1;translation=MSSIKLTVDPVTRVAGHLGMTATVDTNTRQVINNQGYTYVTMFRGFEVFLRGRQPPDAVHITSRSCGVCGAAHANASVRANDMALGAVPYPLGQTLRNLAYAMTDMIYDHLIILNVLEGPDFSAQVMQTYYPSCWQTAQQTQAEYSDIHGFSTIADIMTALNPFAGWLWVHAVKAQILAREAGVLIYGRHSHPPMLIPGGIGTDLSVGESLFTQYMYRLTTLTAMAKVVIAAWMDLANFLINNCNYQYQGLTYSAPTYISSYGYESPELYSNLGDTYEDIYKNYDTLAQQASEGPQTVFRATIVRNGELLSKSFIDLNVGQLEFVNSSYYHNWAHITSPFTETDPIGNKLAWGLTESDGTPLYMYHPWNKTTIPNPQAMNFMDKYSWDAEPRLSWNDGTIWPYETGPWARLHAVAHYHPNSPIVKNGKITITLPTISEIPAWLPSGSSAEWTVEWEPPNHSTTLSRIVGRAVDIAAAIFTAWDNLQYGLETFMKNQTSPKTSRPWKQPSFSVGVGQYEVPRGTSRHWLVNSNYSIANYQYQAPTTANVSPRDNRCNGPWCINGQAIGAFEMSVINTKVMEEVPPDQWVGYDFLRAIRSFDPCLVCAAHFEIKGKTNRSIDHLITPVCNT;locus_tag=LOCUS_07940;note=WP_011761956.1 nickel-dependent hydrogenase large subunit (Pyrobaculum islandicum) [pid:47.0%25%2C q_cov:98.1%25%2C s_cov:97.6%25%2C Eval:1.4e-155],MGA_795
sequence1	MetaGeneAnnotator	CDS	729959	730282	.	+	0	ID=MGA_796;product=non-heme iron oxygenase ferredoxin subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013098654.1;translation=MTCLKVKSKEIPKNSMVEFYFPAERPWERKPVLLINFDEEIYALEAFCTHNGLSLEDGFLTEDGRIVCPWHGSVFDVKTGKVLDGPAKRDLKKYNVKIEGEEVIVSE;locus_tag=LOCUS_07950;note=WP_013098654.1 non-heme iron oxygenase ferredoxin subunit (Enterobacteriaceae) [pid:40.7%25%2C q_cov:80.4%25%2C s_cov:79.4%25%2C Eval:1.6e-11],MGA_796
sequence1	MetaGeneAnnotator	CDS	730275	730910	.	+	0	ID=MGA_797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEISASGFTGVFTVRSFSDPDLYAFAGRLAGLGYSVAQIKLSGSTGYIYIPLDESGAFAKKNLGEIFYQPRTFTVVSDDLGNFQLASGEMMRALKESGSSSIDYAELSISYERVLTLHRTSFEGWDLRGFTISRNLLNSKDYEQISISKVNDDLSRYLITIYNRGDYETIAKIVSMLRPKMDETIDFLDKYIKNLFKVEGEIKGESYGST;locus_tag=LOCUS_07960;note=MGA_797
sequence1	MetaGeneAnnotator	CDS	730888	732084	.	+	0	ID=MGA_798;product=hydrogenase formation protein HypD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240243.1;translation=MKVMDLPKQIELIFRENSPLATKLSEEITKLAPKVTEKTGLEKIKVMNFCGSHEWTTTHYGLRSLMPREVELIPGPGCPVCVTPSSDIENVIKLAMDGYRVYTFGDVFKLPTVNHYKKDQIGSLAMAKAAGADVRIAYSFVDAIEDAKKDNKPSVFFGVGFETTIPSYAVLFAKEKIPKNVMFYSATKLTAPAAEYAVKIHKASKRSPVSGVIGPGHVSTIIGAIGWDFFPKEYKIPAVVTGFEPIDVLTGILTILKDLYTGDIKYTNLEYKRVVKPEGNLYAQEEIREVFDVVDAIWRGIGAIPKSGLDLNEKYSEYNARLQLGLKEKPWDYDLPPGCKCNEVTLGTAYPDECPLFMKACTPARPWGPCMVSMEGACAVWARFGSSQKVLDALKEVK;locus_tag=LOCUS_07970;gene=hypD;note=WP_053240243.1 hydrogenase formation protein HypD (Pyrobaculum islandicum) [pid:50.5%25%2C q_cov:97.5%25%2C s_cov:92.3%25%2C Eval:1.0e-107],MGA_798
sequence1	MetaGeneAnnotator	CDS	732086	732397	.	+	0	ID=MGA_799;product=HypC/HybG/HupF family hydrogenase formation chaperone;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011761965.1;translation=MCWAVPAKVISIDSDVMATVDLGGNTLKKVAIGVDNLNKGDYVMVHAGVIIAKLSKEEVIENIKFIAEQIKETAEIEGDNPDEAVKSFMDSVSGILKDVGSES;locus_tag=LOCUS_07980;note=WP_011761965.1 HypC/HybG/HupF family hydrogenase formation chaperone (Pyrobaculum islandicum) [pid:38.4%25%2C q_cov:94.2%25%2C s_cov:85.2%25%2C Eval:8.0e-11],MGA_799
sequence1	MetaGeneAnnotator	CDS	732397	733413	.	+	0	ID=MGA_800;product=hydrogenase expression/formation protein HypE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011761962.1;translation=MDRILISHGNGGKDTQNILQKYIFSKLPEDLKKTNNGLGLDYPDDGAVISSGDKIIVSTDSHTIDPYFFPGGSIGKLAVSGTINDVIMMGGKPIAILDSIIVAEGFPLDDLDKITTDMISILKEFNISLIGGDFKVIPSDSMKGIAINTVGIGVSKNPIIDRVSEGDSIIVTGPIGVHGSVIAALQYGIETQLKSDVKPLMKLLEIFDKFQGDIHAARDPTRGGLAATLNEWVQLSGKMISIDEKDIPIPDEVKSITEVTGLDPLVLANEGVAVLSVSSDKAENIVEELKKLGFEPSIIGKVIEPKNKDNKGLVIIRTEVGGAKILEMPSGDIVPRIC;locus_tag=LOCUS_07990;gene=hypE;note=WP_011761962.1 hydrogenase expression/formation protein HypE (Pyrobaculum islandicum) [pid:48.8%25%2C q_cov:99.1%25%2C s_cov:99.7%25%2C Eval:8.6e-89],MGA_800
sequence1	MetaGeneAnnotator	CDS	733425	733640	.	+	0	ID=MGA_801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSILDIIQEILALKDTIKNEIQKPLKQELLSPLYEIKTTKEDINLDELLKKYDAKDVVDLVNKIRKSMVK;locus_tag=LOCUS_08000;note=MGA_801
sequence1	MetaGeneAnnotator	CDS	733640	734071	.	+	0	ID=MGA_802;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIVVGFIPFFSTPDGQVVEEVFNLWKNKKNVIDLETDPVDAADQVKRLSADKVLLVGSSRYAPEGISEKEFTLETNDPWEMMELIRPGLDGRYYVEDIAYGVLIFGGYKKVYAIYYKGEYSEEKVKELNKKVEEKLEWLSKL;locus_tag=LOCUS_08010;note=MGA_802
sequence1	MetaGeneAnnotator	CDS	734053	734529	.	+	0	ID=MGA_803;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVKVIGMGNRLYGDDAIGSLTAECMNAFDAEANGFQALTFIEKGDIVFFIDAVIMEEEFNLFKVDIEKDNFVEISDPHRLSPVQVISLSKKSGNVPKEAYILAIKPEKLDWPGVSDKAIERIKELLTKYQDFLKKFGIDVNVENVVNCLKERSNTPW;locus_tag=LOCUS_08020;note=MGA_803
sequence1	MetaGeneAnnotator	CDS	734629	735246	.	+	0	ID=MGA_804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIEEEALIWASITLVLSILLTFFAGRHYFKSKNIMWLFWFLGFVLFVVAAICQEFFAFGIGGYLLSAIYVFSVAELVVILSLGSIQQAPKNWIKVYYWYSFFVTIAIIGSILLQRFNVLENYLPMNFPPVVMGTSSMGTIVGSGVILFFAAKALLFKGNKIKMSSVILGIVILGFGGTLVSGGFIEALYISEFIGMSLFLYGIS;locus_tag=LOCUS_08030;note=MGA_804
sequence1	MetaGeneAnnotator	CDS	735260	736591	.	-	0	ID=MGA_805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978909.1;translation=MSCNFPSDTVTTWSSNNREIFGSKYKKYYTDIKNRLLQNGKVFIFGDPGMGKTTILLNLSKDLSSSGYLPIYMDLSSDTPFVDEFWSFAKNSRIINNLSNEIFNRRKEIGYGKLTWLKKDFYTWIKSQCKKRVDNPFVRIYSLNFPDCKTYEGLDGLITFLDDMKKIGLKSVLLLDEARAEHYYPYIHKIINSGSSFLAVASPSGVLSSIKDEATIRRIRENSIILEQLTLDDAKEILSQMCKDIGENIAQEVYDHGMTIAQLIIQAKTLYQELEYECKHDLECVKNNAKNLGEIKDIQEKSKELEDIIRECIRKSKENLEVDKIYDTAKRVKGLGKFRNIDIVLISHGKVFLGDVKLTNGEILKNSSIENIVDVVSTKEQELEGLKYPVGGVFIISNGETRDFPGKTITIPSRIVKNALRKKQCTEDLRKMLEEELRIILKS;locus_tag=LOCUS_08040;note=WP_010978909.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:27.5%25%2C q_cov:100.0%25%2C s_cov:97.1%25%2C Eval:4.9e-45],MGA_805
sequence1	MetaGeneAnnotator	CDS	736597	737103	.	-	0	ID=MGA_806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKKSKLIEYLRNHGGSIAKSKVKWASDVLDDLENEGKIKITKKGNGYTIELLDNEARTEESSLNKEVKKETKENGDIITILNEINKKLDIILQKLGFSNIDFDKIFEEVKNPMGIAVLKDIRERMGLSKEEFYSKYSSYIELHYQMFRGGDEGIVKNGTIFGIIKR;locus_tag=LOCUS_08050;note=MGA_806
sequence1	MetaGeneAnnotator	CDS	737552	738043	.	+	0	ID=MGA_807;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRLVAIYGSLERDIDVLIVVDKLDELFNVFESILPLKPLDLHILTTETFNYLIHEDPFYVNVVVNGKILVKNMKINVNELKQEAIKKAKELVEKFCEEDTYKSFMSLVYYYLISLGIFPKDVYEASKILGYKNIKYAQISKEALCSKFSAGKNFSSTSTKIN;locus_tag=LOCUS_08060;note=MGA_807
sequence1	MetaGeneAnnotator	CDS	737984	738463	.	-	0	ID=MGA_808;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSRFVEICENKCCLKIDNANAIIDIEKGELKVKSRLKHGDFIFINDNKIGVVELKNINEIKDNNSICEEIIGKIDGYIPLIADPKNDKHKKLIELLRFNENNNEKERSFYLVIPKEITSAILGAKNLLIQLRKRKGKYSSIYLCGCGAEIFSCRELTT;locus_tag=LOCUS_08070;note=MGA_808
sequence1	MetaGeneAnnotator	CDS	738435	739712	.	-	0	ID=MGA_809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKSLKILLRFLIILVMELLIKSLGPITDSKVAISDLTVLFGPPKAGKSYILKAIYSKLAFFDEANNLELSKIFVRQLQDKLISFASEEKGETLTLDVEKEFLISIKTLSQYYLSYLTSNAEVDIPLKMEDIVKEILRDQTLNEETYYPYSTSCVNVIKISFQTGKINIRVSAKKEDRTCQTILASELISSLTNYSIKLFTKILNLSAKTLNIPLVKYAAYGRALALLTLNDVTSFNPSIRSLYYWLMKGLESKAEDSFLSFIDVNIKKSEKDKILIDEYTPEKSSSSLNDLAVIKLMVADGKKSLILIEEPESQLNIEQQIKVALYLYGLAQKHQVVITTHSDVILLILSALQYFGWSNVFEEEAKVPHEKSVNIRIYLVKDGKVTEKKGVDLLENIPTISEVGYKIISIIGRLLDEQQIRRNM;locus_tag=LOCUS_08080;note=WP_167827743.1 AAA family ATPase (Pyrobaculum islandicum) [pid:24.6%25%2C q_cov:54.6%25%2C s_cov:53.4%25%2C Eval:1.0e-07%2C partial hit],MGA_809
sequence1	MetaGeneAnnotator	CDS	740118	741914	.	+	0	ID=MGA_810;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFVKIDVNSLNSYQPLMVISPTGSGKTSSIIKYALKQNVYSRVVFALPTKAAIREIFNKIKMYTEDVGRDDSDARLEENFNSSEVWKRRIVVTSYERLLSELISDQDNFMNNLIVIDEAHLLLSEGRNCTLQEILAYYTYLKEKMRINVVLLSATMPEVDELSQYLGAKVICMKERPVDLEIRRIRLKKQGRENYYLSKAHAFIDYVKEGNLDLNKYKQILVYTNTRKSAEEISLLLEKYLGFPSTYHHAGLPLERRKEIENDMRSENNKYKIIVSTDTLAVSINTNVDVVVMLALKRFAGTKTFVEPSTISQVIGRAGRPGYSEKGLAIIFEENDEAKVVDKALKKDYGRVDEPIDYAQTVLRWIYTRKDPYLLSKYGFRYSQGKVKDAMVFLENIGAIENHEVTLIGKIFATEMVSKIGMNLLKIIMKFDKKMEKENPLSRSILYSFSYSFIVDGYYNKRVNLEILRERSPIILSYLGRIKGKLNDYSFQRIGIKVEPEEWFYYALTTPQKIFTDDIAESLRKSSEIISRLAENSLIDRKLVEPSNFIMRLMRSYRRLIRNKGDVNEFLYFALSNYKKLSNDEFLDRIWISSKGI;locus_tag=LOCUS_08090;note=WP_010978084.1 helicase-related protein (Sulfurisphaera tokodaii) [pid:27.3%25%2C q_cov:73.2%25%2C s_cov:71.3%25%2C Eval:6.7e-27%2C partial hit],MGA_810
sequence1	MetaGeneAnnotator	CDS	741916	742851	.	-	0	ID=MGA_811;product=endoglucanase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583001.1;translation=MRKIFGTLIIILIILSFPIFYEISRTAQSIAQDNFSKIYSMSIIGKYQSDSAYSIGEIYYSNSSVFISPFLWNMKYAKGLVNMTYNKFLYVNVALNSFEKINPKIGVDGYPGLMYGQECWFPFAGKTIENSIYLPIGVSSLSNFSSTLSFHLYNNIGIIDDFSYDIWLSQNPNTTYLEYPDIELMIWLYHEENLTSPFIRVGNIPLTLIVNGTKIIDNFNVYILPHTGSADGWIGVYYVSQKELEGNVSIPLSFIIKNEFSWIRKIFNNITSCEYYLDGIQVGMEFNDINGTANLGYTLYLWEIDSQKLIN;locus_tag=LOCUS_08100;note=WP_012583001.1 endoglucanase (Dictyoglomus turgidum) [pid:26.3%25%2C q_cov:81.7%25%2C s_cov:88.2%25%2C Eval:1.2e-12],MGA_811
sequence1	MetaGeneAnnotator	CDS	742960	743127	.	+	0	ID=MGA_812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKNTRDWSKYDENVVTRYKLMFPFYVFEHLWELLQEENRYAKTKYKAPKEFND;locus_tag=LOCUS_08110;note=MGA_812
sequence1	MetaGeneAnnotator	CDS	744144	744704	.	+	0	ID=MGA_813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240235.1;translation=MVRIKKSDGTYEDFNENKLYNSIIASGASPEIAHDIVEEVKKKLKEGMSTDEIRRVVLTKLKDLDPNATEAWKFYDRVAKGRITFEDGKAIVVDKGHLYLGKKVKEVNGKGLSSSEEVKDIIEELKDDLDYGISRATINARLYALFMAVLKTTHMQKDEKEKSIQLINNFREELGWKPYELKYPLT;locus_tag=LOCUS_08120;note=WP_053240235.1 hypothetical protein (Pyrobaculum islandicum) [pid:55.6%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:9.1e-57],MGA_813
sequence1	MetaGeneAnnotator	CDS	745083	745568	.	+	0	ID=MGA_814;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979103.1;translation=MQELPKPWFNLEAYKKTRLEEAKFEANLAEEFVKEGLLRNAAGKAFQAWKALLGALLTDKREDLIKKYSGKKRLKGRKEVAYADWLIAIVPTSYMEELSLMLGRDINLVNKLALAIHEYQYNGTDKDAILSPFRNDDIAKENILNLIGEIKSILGKIEEKI;locus_tag=LOCUS_08130;note=WP_010979103.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:78.3%25%2C q_cov:97.5%25%2C s_cov:100.0%25%2C Eval:1.1e-67],MGA_814
sequence1	MetaGeneAnnotator	CDS	746175	746318	.	+	0	ID=MGA_815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNEVSIEQISIIVREILGKEELIKLLPRIDPTTLTINTNSPEADGG;locus_tag=LOCUS_08140;note=MGA_815
sequence1	MetaGeneAnnotator	CDS	746308	747867	.	+	0	ID=MGA_816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAKIMIYIVDADSLRSNSIPNDFKLIAINIENFINYSNEMEELLKNNRIFKLYILFDDNNIINFNTYDNLSKLKDTLIKISKIKTLSGFKNEFVFIISQKYDIEVIRRILFLSEFRLYNFAIFVINLKSIKQYDLEMLLTSDIINNNLSEVVLVDDKTFWPGRYFRFMKQISNEEYLFYKNPFYAEFKGRLSDIISLETLKKVYQYYDSVGLIDSFRYWNFKGIVIELTYKCNFSCDHCYVSSSPQRSEILELNKIYKILEEALNLPFIDKKVHIAGGEVTLFWNKLVELIKFSKSLGYIVTLVTNGSWALNESRVRELKELKVDEIELSLTPYHLKFWNSKDNILKILYNLKKYNLNFFIRYLTSKSNNINDLYKLLGNELLGISVISSPVLRLGNALSKLPANEFYGNDKLPIGACFDSLNLSITPNGVYPCCNGSEITKYGRLGSLDESLKNILNRNYFLRLLTLIGPSRLLKELKLDYKYRNKEYTSICELCNEILNNDEVYNKSLELIKGRLR;locus_tag=LOCUS_08150;note=WP_003242609.1 YydG family radical SAM peptide epimerase (Bacillus) [pid:26.6%25%2C q_cov:55.1%25%2C s_cov:94.0%25%2C Eval:2.1e-21%2C partial hit],MGA_816
sequence1	MetaGeneAnnotator	CDS	747931	748671	.	+	0	ID=MGA_817;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979636.1;translation=MNFRFNRGILVILGPNGAGKTTLLRQIYDDLKPDRGEILIDGFKPSDKRAKRLLGIMPQNAEPIFNLTVYDHIKFFAKIRGIKDVDRTTKEIVKLFDLDPRKRVNGLSGGQKRRVMLASVLALNPKYLILDEPTVGLDLESRHITHDIFRELASEGKGIIFTTHYLEEAEKLAERVILFSRKVLFDGSKEELMRKVFSEDIYVVKVGDKELFIKKEEISKYICFNDIEIRRPTLEELYHEFLRKSN;locus_tag=LOCUS_08160;note=WP_010979636.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:42.1%25%2C q_cov:95.5%25%2C s_cov:88.3%25%2C Eval:4.1e-49],MGA_817
sequence1	MetaGeneAnnotator	CDS	748646	749383	.	+	0	ID=MGA_818;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFSERATEFKTLIELFLKRNGRVRNVINMLFSDVIYPLGLYFSISKLISPNELSYFLSGLLVLFTTTYIMNFVSAWLGMDKAYQYYPIIRSLGPSILEYSLALIVVILITSMPGVIVVALIIFKTISLLLPALLVVLTSALVSGFISAFLVITINEYTVTTVFTGIFSYVISVFPPIFYPSSLLPSPWNLVLNYIYTAKAADSLRALLQGDLVAFFSSYYVLLIYLLVLILAFVTYLNNRNYRL;locus_tag=LOCUS_08170;note=MGA_818
sequence1	MetaGeneAnnotator	CDS	749589	750236	.	-	0	ID=MGA_819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAYIIVILIIVGFLVAYYFAGSLIYNRNVVNGYAQISINNADNEIHDIPSYARISNNTIVFTSSNINLVVYTMGHIRAENLTGKFPPSYAHHDVFVIFGLINPTLVIPAGASIHVTVINLDDNMLHNFVVTNVPPPYPYNVMMSNMGPGMMGSGTSGRFITMMPLLHYANYSAGYAYEYGYSFTLNQEGTYWYICTYPGHAQMGMYGKIIVEG;locus_tag=LOCUS_08180;note=MGA_819
sequence1	MetaGeneAnnotator	CDS	750453	750680	.	+	0	ID=MGA_820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEPKPQLPASNLSAPEGSVVVVVDVMLRCKLDNEVMPASVALEHQQMHIKKGEEPCFIVESSPIQPKKPEGSGFI;locus_tag=LOCUS_08190;note=WP_052846464.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:46.9%25%2C q_cov:65.3%25%2C s_cov:59.0%25%2C Eval:8.3e-08%2C partial hit],MGA_820
sequence1	MetaGeneAnnotator	CDS	750666	751406	.	-	0	ID=MGA_821;product=P-loop NTPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979057.1;translation=MEPLRQLAKEKLDGKKVIAVMSAKGGVGKSIISSLLALSFSNVENTILIDMDIHTMATTKLFGFEGKLHDVGKDGIEPFKANSLGIVSLGGIVKDNYVLLPGGNNEEVMESLIAYTNMKNTKRIIFDLPPGLGDEVLVLERLTKYYPIVVTTPSKVSVKVVEYLVKYLSERNNKPLLAVNMSYFDCGKIVHPFGEIENVKSLSEKYNIKFVEMPIDPNIENYIGNIQNYRGILMEKIKELTSLYES;locus_tag=LOCUS_08200;note=WP_010979057.1 P-loop NTPase (Sulfurisphaera tokodaii) [pid:54.2%25%2C q_cov:97.2%25%2C s_cov:97.0%25%2C Eval:5.0e-63],MGA_821
sequence1	MetaGeneAnnotator	CDS	751381	751824	.	-	0	ID=MGA_822;product=hydrogenase maturation nickel metallochaperone HypA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846935.1;translation=MHEWSVADAIIRTVINWASENHVKEIVKVKVGIPSYSFLDLEILKEAFDTMKKDSVLDNAELDVEFKEPTFKCRNCGFTFTSSDVKDQLDSVRSEFGEEYPLHLMPALAPSFLKCPKCGSHDIITQTQDITIDGIEVKESGTTEAVS;locus_tag=LOCUS_08210;note=WP_052846935.1 hydrogenase maturation nickel metallochaperone HypA (Sulfurisphaera tokodaii) [pid:50.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-36],MGA_822
sequence1	MetaGeneAnnotator	CDS	751916	752203	.	-	0	ID=MGA_823;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKIYDNGELPFRKARNFNMLAFKYKPFVNQLIEEIKTKKIKVDKTKLSSVISELITEYSKNGNISFEEMLKNIEEDHVELKDFIDHNYETIKNF;locus_tag=LOCUS_08220;note=WP_010979753.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:58.9%25%2C q_cov:100.0%25%2C s_cov:29.9%25%2C Eval:9.7e-25%2C partial hit],internal stop codon at [751916:751918](-),MGA_823
sequence1	MetaGeneAnnotator	CDS	752598	753770	.	-	0	ID=MGA_824;product=amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979634.1;translation=MILTGEVFDGEKFIGTKSIVIEENKIKEIRDQEEESKGIILPGLIDAHIHFFGVKEDNLISWNLTPEGLSVARSFKDMINLLASGFTAVRDLGSKSAIFLSKAEKEGYIPGPRIIASGYSIAETGGNDDPTDLPLDMAQRLSYSFYCDSPWECRKAVRLAMRQGAEVIKIYSSGAFSQRGYPKPALTVEDIKAIVDEAHRSGLKVASHAYGEEAIANSIEGGVDSIEHGLGLTEELAEEIKRKGIFYVPTLATYSKEIKIRELDEEVAVKRKELIDKHLNEDVKIAVEKGLKIVAGTDYVGSPERRHGDNYKEIVLLSRFMSLDKALASATSIAADCLGLKMGRIAEGYEANLVMFRKIRNADDLNPENVVYVVRKGKLYDPQNLKAIFS;locus_tag=LOCUS_08230;note=WP_010979634.1 amidohydrolase family protein (Sulfurisphaera tokodaii) [pid:57.5%25%2C q_cov:96.9%25%2C s_cov:97.2%25%2C Eval:3.3e-119],MGA_824
sequence1	MetaGeneAnnotator	CDS	754113	754457	.	-	0	ID=MGA_825;product=nucleotidyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979627.1;translation=MGKGKSAIESQIKIINLVKEIVEEMAKDFQQLDEVYIFGSRAKGNYLDTSDIDVIFVFKGIKEMNVFDRMYMVSKYIKGNVDYIVLDEDEKNRIKEKKLFWKKNKGFVDIKEFL;locus_tag=LOCUS_08240;note=WP_010979627.1 nucleotidyltransferase domain-containing protein (Sulfurisphaera tokodaii) [pid:69.8%25%2C q_cov:100.0%25%2C s_cov:98.3%25%2C Eval:1.1e-41],MGA_825
sequence1	MetaGeneAnnotator	CDS	754433	754819	.	-	0	ID=MGA_826;product=HEPN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979628.1;translation=MNYKEWIEQALEDLDTAKVLLTNGKYYASAFYSQQAVEKSLKSIIIYLGKDPGKTHSLIELIEMIEKEGVTVPTNIKENLMVLSPHFIISRYPEAANGVPFKQYSKSISEDLYNRAKEVVEWVKENLQ;locus_tag=LOCUS_08250;note=WP_010979628.1 HEPN domain-containing protein (Sulfurisphaera tokodaii) [pid:76.4%25%2C q_cov:99.2%25%2C s_cov:97.7%25%2C Eval:5.9e-54],MGA_826
sequence1	MetaGeneAnnotator	CDS	755281	756015	.	-	0	ID=MGA_827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGEGLERKENRFLLQKLINMANKAKEYNYNPLKELVTLYVFLKDLEVKYKNRVKRALFLSDEEKISKEIEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQLQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_08260;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:70.0%25%2C q_cov:99.6%25%2C s_cov:69.2%25%2C Eval:1.3e-92%2C partial hit],frameshifted%2C insertion/deletion at around 755968%2C756022,MGA_827
sequence1	MetaGeneAnnotator	CDS	755996	756328	.	-	0	ID=MGA_828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSQNYGRRRT;locus_tag=LOCUS_08270;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:69.8%25%2C q_cov:94.5%25%2C s_cov:29.7%25%2C Eval:9.8e-38%2C partial hit],frameshifted%2C insertion/deletion at around 755971%2C756022,MGA_828
sequence1	MetaGeneAnnotator	CDS	756644	757081	.	-	0	ID=MGA_829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLNEEKLTDEEIKEYSKLLGRKLTRIEAFILKQLLDLLNIIEEQIKEVENEIMKFLPEEAVVTKILGIGPISAATIYAELGDVSRFESSKQAAYAGVSGLSRAGRPNFTTVSSRGISTYPAFYSLLQGPLRTRPNLMASIKPC;locus_tag=LOCUS_08280;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:51.1%25%2C q_cov:63.4%25%2C s_cov:24.4%25%2C Eval:1.5e-16%2C partial hit],frameshifted%2C insertion/deletion at around 756776%2C757226%2C757103,MGA_829
sequence1	MetaGeneAnnotator	CDS	757081	757215	.	-	0	ID=MGA_830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQELREMTRHREGLVERKTQVKNEIRKVLETAGYKLPSKRRQRK;locus_tag=LOCUS_08290;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:72.2%25%2C q_cov:81.8%25%2C s_cov:9.3%25%2C Eval:3.7e-08%2C partial hit],frameshifted%2C insertion/deletion at around 757226%2C757103,MGA_830
sequence1	MetaGeneAnnotator	CDS	757203	757580	.	-	0	ID=MGA_831;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERKIKPKVFAIDVGESRLVATKMEINNNTVKEADTREFKYNEEGLKELIKFLEGYEEGIMEATGVYFYHVYNVLRDKGLKVNVINPETVEVLGKKTDKNDSIRLAIAYAAGTVKGSYQREKCKN;locus_tag=LOCUS_08300;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:52.0%25%2C q_cov:94.4%25%2C s_cov:31.9%25%2C Eval:1.3e-29%2C partial hit],frameshifted%2C insertion/deletion at around 757226%2C757103,MGA_831
sequence1	MetaGeneAnnotator	CDS	757908	758315	.	+	0	ID=MGA_832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFKKAEKLAELNVNEFQITLDGNEDIHDIRRINIGKRGTFKIIWNNVKSLINSNIPLKIYLRIHLSLDNINSVKSLLNRIKNEIGFSNKLIISFARLGKYGSDYDKYLNTVNDSSYFKEIINYAKALNLNIGYW;locus_tag=LOCUS_08310;note=WP_011963983.1 radical SAM/SPASM domain-containing protein (Flavobacterium psychrophilum) [pid:34.4%25%2C q_cov:68.1%25%2C s_cov:21.1%25%2C Eval:1.9e-07%2C partial hit],MGA_832
sequence1	MetaGeneAnnotator	CDS	758324	758668	.	+	0	ID=MGA_833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLDPLRNSKARKVVIAEVLYQETPLIEAVTMLIYYVSKDLLLVGVLISLLSTVTLTMPIKGILFDKYNPNFISKTSKLFANTFYLLVALLSFLYVVLFLVSNYNISNFRVKY;locus_tag=LOCUS_08320;note=MGA_833
sequence1	MetaGeneAnnotator	CDS	758700	759482	.	+	0	ID=MGA_834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENINEEDINAVFSLTFTLLTLVATAIMFLIGFLAEIYGLVVIQIYLVIYTILQYNRFAIISTVKINNRKVEINKIYFRNAVKDNKLLLLTLSAVIFYFIFSGMSTVIIDIIGKIGNFFEIYATYSSVSYLIASFGGYISSLTFTKRISNLFIFPLIYSGISFLLVYSPSILSIGVFTLVSAFSGAVFSLNYYSLLNITVKQEQYGIQTGFSNAMTSIGELIAPLLFSFTLEFSLFSLETMIVLFAIFSIAILVALYKY;locus_tag=LOCUS_08330;note=MGA_834
sequence1	MetaGeneAnnotator	CDS	759852	761063	.	-	0	ID=MGA_835;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980656.1;translation=MNEIKQVLVDQKARLERKFEKEKIIERDIPDLKKYLSHPNVLAILGVRRSGKSTLAEMLLRGENFGYVNFDDDRLAGIKVDDLYKLEKIIYELFGEVEYFLFDEIHNVKGWELFVSRLREEGEKIIITGSNSKMLSGELATALTGRHVNFTLFPFSFSEYLRFKGVKIEKVKDTFTTSSEGVIKRELGNYMREGGFPEVLKISDDLIFSIFSDIVYKDVVQRLKIKRIELFKVFTVNIIKYYSNEVSLSKLSKTLKLSNNTVEEWFNGLINAYVVITSERFTNRPREGMTSPKKVYVIDPSFITSIALDSSKGRIMENLVALQLSRMGEKLFYLKGNNYEIDFLTRDKAIQVTYASGKDEIPKREIEGLNKIKTKEKIVITWDYEDKLGEIKFIPIWKFLLTI;locus_tag=LOCUS_08340;note=WP_010980656.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:87.3%25%2C q_cov:99.5%25%2C s_cov:98.5%25%2C Eval:7.8e-204],MGA_835
sequence1	MetaGeneAnnotator	CDS	761396	763039	.	-	0	ID=MGA_836;product=thermosome subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978816.1;translation=MENILFRENTSRRTGKDVIISNITAVRTLSEMLKSSLGPRGLDKMLISGTSDIVVTNDGATIVKEIDVQHPAAKIVVEAAKTQDTEVGDGTTTAVVFAGFLLEQAEKLLEQNVHPTVIIDGFKEALEFSLQISKNIATKINPEDRDYLKKVAYTTLSSKFFSSGKELDKIIDIAIDAILSVMEKNGEYRIDLGNIKFVKKRGESIDDIQLIKGYVLDKEVAHSGMPKYIEDAKIAVIDFPLETEKGEISAKLSINSPDQIKAALDEQAKHIKEMVDKLAAAGAKVVISQKGMDDIGQYFLAKKGIMGIKNVARSDIEKIAKTTGATIISTFRDIDSTSLGYAKTVEQKDVGKEKAIFIEGVKNSKVVTILIRGSTDVSMDEMERSLTDVLSAIRNVIIDPYIVPGGGAFEEELAMKLREKSVSGKEQLALEAFANALEEIPTTLAETAGLDPTNSMVNLRSLHAKGLINSGIDVMEGKVVEDITKLNVIDPLRVKEQVLKGATEAASAILKIDDLIAAAPSRQPPQQQGGYPGYGGGYGGGYPPMMG;locus_tag=LOCUS_08350;gene=thsA;note=WP_010978816.1 thermosome subunit alpha (Sulfurisphaera tokodaii) [pid:62.8%25%2C q_cov:94.7%25%2C s_cov:95.6%25%2C Eval:9.8e-187],MGA_836
sequence1	MetaGeneAnnotator	CDS	763314	763679	.	+	0	ID=MGA_837;product=DUF302 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979883.1;translation=MIGKCKLDFEKCIEEIKSRILKNGGIIFAEVDHSKNAKDVGLPLDDDKVIFFGNPKAGTVLMQINKKISYELPLRIAIWKENNEVYIEFKMPSEIAKEYGITHDIVKKMDEFMNNVIKGLI;locus_tag=LOCUS_08360;note=WP_010979883.1 DUF302 domain-containing protein (Sulfurisphaera tokodaii) [pid:52.9%25%2C q_cov:98.3%25%2C s_cov:97.5%25%2C Eval:5.2e-34],MGA_837
sequence1	MetaGeneAnnotator	CDS	763921	764883	.	+	0	ID=MGA_838;product=Gfo/Idh/MocA family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865093.1;translation=MKIALVGCRGFGRIHLDAYKEIRKEIDLELYVFSRTEEYAKQCMKEFEANGYFTSYNDVINSKIDVIDLVVSHDAHEPMGIAAMKSGKHLMLEKPIGRTEEEGERLISISKSTRKKFMVLENHYFDPSVWKAKELMEKLGEISLIILRNTRFNSPPGWRRNKELMGGGALIDGGIHYVDTLLNLGGEYKEVRGMCKSTFSGLEGEDTSEGIFTFNGPLGVLIYSWATKGDNFPHFEIYGEKGSIIEDYHSRVPGKPYGDLIVEIEGKKEIVKTEKINAVKEEIKGFLNSIIQDKEVPMDPQIALRDLRAVRDIYRSCGEF;locus_tag=LOCUS_08370;note=WP_010865093.1 Gfo/Idh/MocA family oxidoreductase (Thermotoga maritima) [pid:29.0%25%2C q_cov:99.4%25%2C s_cov:95.4%25%2C Eval:1.8e-24],MGA_838
sequence1	MetaGeneAnnotator	CDS	765147	765326	.	-	0	ID=MGA_839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLSALARKLARIIWSVWYNNKPYEPK;locus_tag=LOCUS_08380;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:85.0%25%2C q_cov:100.0%25%2C s_cov:16.8%25%2C Eval:7.6e-25%2C partial hit],frameshifted%2C insertion/deletion at around 765403,MGA_839
sequence1	MetaGeneAnnotator	CDS	765395	765739	.	-	0	ID=MGA_840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVKYKNRVKRALFLSDEEKISKEIEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQLQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVSAV;locus_tag=LOCUS_08390;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:60.3%25%2C q_cov:98.2%25%2C s_cov:32.5%25%2C Eval:4.2e-28%2C partial hit],frameshifted%2C insertion/deletion at around 765402%2C765844%2C765733,MGA_840
sequence1	MetaGeneAnnotator	CDS	765690	765929	.	-	0	ID=MGA_841;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILQGKRDQDTTGKPKYTMEGEGLERKTDFYDAQKLINMANKAKEYNYNPLKELVTLYVFLKVESKVQEQGKKSTIPK;locus_tag=LOCUS_08400;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:60.7%25%2C q_cov:69.6%25%2C s_cov:15.7%25%2C Eval:1.6e-11%2C partial hit],frameshifted%2C insertion/deletion at around 765402%2C765733%2C765847,MGA_841
sequence1	MetaGeneAnnotator	CDS	766332	767537	.	+	0	ID=MGA_842;product=RNA-guided endonuclease TnpB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057839.1;translation=MSDVGLRFRAYADEQTLRALKAQLRLASEVYNTLRWADAYFHERDGKGLTKTELRQLALDLRKQDGQYKQLYSQTVQQIADRFYDARQRFFDGLARYPKEKKAHKWYSLVYPQSGWKVLKVREIRTKSKKNKKKVITLQLSNLGIFNVIVHRDFPLEKVKRVVIKLTPSGRVYVTFVVDQEYPQLPKTNKVVAVDVGVEKLLTTSDGEYVPNQRPYEKALNKMKKLHKALSRKKFLSHNWFKAKIRLARAHEHLKNLRKDMYMKLGKYFAEHYDVLVMEDIRVKQLVGKSLRRLRMRLHDVAIHELRSIMEYQLGKYGKKLTLVDPAFTSMTCARCGHVKKDLTLADRVFVCPKCGWVVDRDYNASLNILRRSGSERPLVPVELRPLPLASLGFEAGSHVR;locus_tag=LOCUS_08410;note=WP_011057839.1 RNA-guided endonuclease TnpB family protein (Thermosynechococcus vestitus) [pid:29.0%25%2C q_cov:90.5%25%2C s_cov:90.3%25%2C Eval:1.6e-31],MGA_842
sequence1	MetaGeneAnnotator	CDS	767659	768636	.	+	0	ID=MGA_843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAFFLISVFETFLFYKITILSLLLILFLTITLYIISSLDGIFLYLTYKDKLNEDGYVSLSQFREIRDLVSLGLVSLLSFLVEEYGIRVLSFLFFLGGIYYLISHTVLLRLNVQKNQKFSSMKLTREAFRKYMEIIKTNARYFYVVFISIFILIFTYGTDLFFFAIFKNSQYLYEFYAILNIMLILVSVTNSLFLNKIINIIKNKISNYFLFLLISLSLYLIVLPIILFKFPAYLFFIGYFITSIVQGASSAYIGSIFNTSIPSEYAGYLISIESLRELVSKLIVIIFLVGYVTQYIGIIQSSVIIIFVVSLSSIFFYFKTRKIK;locus_tag=LOCUS_08420;note=MGA_843
sequence1	MetaGeneAnnotator	CDS	768717	769097	.	-	0	ID=MGA_844;product=nucleotidyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978679.1;translation=MLEQLCSAYSKFNPKIVVLFGSYARGDYTDQSDIDVLIVSDVFPRDPREGFAMAYNIEYPKVMPVAMNTQVFLKKLEEGSTFILEIIEDGKILCGDEVFMKGVLEKYNEVRKRFKRKGKVWERIQL;locus_tag=LOCUS_08430;note=WP_010978679.1 nucleotidyltransferase domain-containing protein (Sulfurisphaera tokodaii) [pid:50.4%25%2C q_cov:86.5%25%2C s_cov:96.6%25%2C Eval:2.1e-24],MGA_844
sequence1	MetaGeneAnnotator	CDS	769078	769470	.	-	0	ID=MGA_845;product=HEPN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978678.1;translation=MVSRYYDWLRQAERNLKSAEINFENGLYEETCYEAQQVAEKSVKSLLNYFHKEMRGHSITFLLQSLSISVPEEVLKCAQELDKNYIPSRYPDAYDQGAPVDYYSKDDAMSCLNCGKKILTWVKGIVGATV;locus_tag=LOCUS_08440;note=WP_010978678.1 HEPN domain-containing protein (Sulfurisphaera tokodaii) [pid:49.6%25%2C q_cov:94.6%25%2C s_cov:97.5%25%2C Eval:3.8e-29],MGA_845
sequence1	MetaGeneAnnotator	CDS	769649	769969	.	+	0	ID=MGA_846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLEESLLIISKSNMNTLKLKTQNELLIFKYTYIHFFIHFFLIQYTAKFYVRILQYTKKVYLTEGEYSLVDEIKQVLLDRRTRLERKFEKEKLIERDTLNLKKYLN;locus_tag=LOCUS_08450;note=WP_010980656.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:73.0%25%2C q_cov:34.9%25%2C s_cov:9.1%25%2C Eval:4.4e-09%2C partial hit],MGA_846
sequence1	MetaGeneAnnotator	CDS	770190	770543	.	+	0	ID=MGA_847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979096.1;translation=MKKFDDCCNPKRESASDFLMSQKYVGRNLEGYKYEVIKTQKGNVQIFWKKEGEKIDLRYYSPSCFTTKIALEALCEWINNGEVKNAKEAIEKLSKIKGYKITEDVKNLVYEIFTRVI;locus_tag=LOCUS_08460;note=WP_010979096.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:70.1%25%2C q_cov:99.1%25%2C s_cov:98.3%25%2C Eval:8.3e-45],MGA_847
sequence1	MetaGeneAnnotator	CDS	770543	770869	.	+	0	ID=MGA_848;product=DsrE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979097.1;translation=MKKVAYIALTNLAQYILVNMVIPQLEEGRHNVEVKGIFFVHDNVYMLTKNTDTAERLRKLHEKGIYLQACDQCTYMRNLANSLIDEAKIGCFPDFYSAVGDADLIITI;locus_tag=LOCUS_08470;note=WP_010979097.1 DsrE family protein (Sulfurisphaera tokodaii) [pid:87.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-51],MGA_848
sequence1	MetaGeneAnnotator	CDS	771145	771627	.	+	0	ID=MGA_849;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNILVPLIVGVLVATTALAAEELTGYLANLQFNVENNPSEVYTANIDLGTIYPNEFNNYTESTSMTIRQAGVYSITVLNNSVIQNVFTWFNITISILNGTAQMKYHIIDGNGINYPNNVTIYLNPGTYNVEVSIRYQVLPYPETISYDNPILAVYYQY;locus_tag=LOCUS_08480;note=MGA_849
sequence1	MetaGeneAnnotator	CDS	771759	772076	.	+	0	ID=MGA_850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLALLIAFDVTLGGIAFLITKDLMEKRSKKETKANDIIITEGLNERDNKVLEAIKEGARNLSEVIKYTGLPKSTAYRAVQKLVKEGYITIKRENGENVYLLKEKS;locus_tag=LOCUS_08490;note=MGA_850
sequence1	MetaGeneAnnotator	CDS	772071	773099	.	-	0	ID=MGA_851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVQLLQYRNEFSKLLYYIQRFGDLNPSIIGAISGIKNSQKLISELKSKYTFRAYPVIRESILGLKKYVATLYFKKYISLKDINYIFDGTLNYAMRDLLKPNVLNLSIYYNSNVNFIRVLENLIDQGLIYYYELNKVEDISIYPFDYSQFNYDLKEFEGIGENEIVPFELVDLSDDFKPDYYDIVILGKKQARTDFSLKDISSFLKIPFKEALKHYQSHVIGKGLISAYIVMLTIPDYRLIVKFRDEDVLNYLTRIPEFYSAFKLDDDSYIGHIRGRNSTLIKYLEFISEARRKFDDDITVNIHPADKDHIYTASIPYEHYENGKWEFNPEVMIMRAEKIAS;locus_tag=LOCUS_08500;note=MGA_851
sequence1	MetaGeneAnnotator	CDS	773150	773287	.	-	0	ID=MGA_852;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMLEPIKLNLFIKLSIIGAGLALAALGMSHVLVHAGEESNAYEGV;locus_tag=LOCUS_08510;note=MGA_852
sequence1	MetaGeneAnnotator	CDS	773557	774339	.	+	0	ID=MGA_853;product=aldo/keto reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240278.1;translation=MKLCGKEASPVGLGTWKMGGGYWTPDYSKDDLYVSIIKYAIEKGINVIDTAEMYGGGHTEELVGRAIKDFDREKIIIITKVWPSHLKFHDVIESVKASLKRLNSEYIDLYLIHWPNPEVEIEETMRAMEKLVNEGIVRCVGVSNFSVELMKEAQSFYKIEANEIEYNLHHLEPEKDVIPYCESNGIKVIAYSPLAQGRVLSDKRVIDLAKKYGRTPAQIALNYLIRRSIPIPKASKPEHVDEIVSSWNFQLDKKDIEALK;locus_tag=LOCUS_08520;note=WP_053240278.1 aldo/keto reductase (Pyrobaculum islandicum) [pid:49.8%25%2C q_cov:95.0%25%2C s_cov:92.3%25%2C Eval:1.5e-68],MGA_853
sequence1	MetaGeneAnnotator	CDS	774650	775525	.	-	0	ID=MGA_854;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846834.1;translation=MDRKIVIAIISILILSVVYVELTLHPLQVNETLPSNKSSTLQYSQDNEISPPISIDLAKNYYYVTYNSSLKLFMECPYANTYFVESDNLLASIALKYLNLSYPVFSNIKGNLTLSPYLVLIGVHNFSWNFRDPVNDKIWKNIYITNFTNKSMSYLSWYEFADLSFLYSIYLMENGNYTAMKVFSITMKDFWNGYGFVDESFNGVYSSYKIALAIIAWKYIYAHNETFALKYLKDIEEMYNVASHLQSPIGGYFTGYTVINNTIMPQGNVNTETTSLFVIAFLMNPEIIKGN;locus_tag=LOCUS_08530;note=WP_052846834.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:59.9%25%2C q_cov:81.8%25%2C s_cov:86.3%25%2C Eval:1.7e-79],MGA_854
sequence1	MetaGeneAnnotator	CDS	776462	776947	.	-	0	ID=MGA_855;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979328.1;translation=MENNSMSLDEVIKKLEKKGINVTEALLDILSKEDPEESSKERINLAEKYMKESEDYIEKGDAVQASEKAYKVAEEIVKALAEKFRTEEYEEFLKEGRWYTYLLGKASKSLSKKLGYWILDGWNAGYDLHVWGFHERKYSIEDIKVSLKKIEEMLMESKKIV;locus_tag=LOCUS_08540;note=WP_010979328.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:78.7%25%2C q_cov:96.3%25%2C s_cov:98.7%25%2C Eval:8.0e-71],MGA_855
sequence1	MetaGeneAnnotator	CDS	777045	777257	.	-	0	ID=MGA_856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLPKPYGDLIVEIEGKKEIVKTEKINAVKEEIKGFLNSIIQDKEVPMDPQIALRDLRAVRDIYRSCGEF;locus_tag=LOCUS_08550;note=MGA_856
sequence1	MetaGeneAnnotator	CDS	777809	778477	.	-	0	ID=MGA_857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVSNKLENPMSKVIIRLIVTNGNTSKSRDIILLKKIAEKVNGISKFLLYQTVFIQPKYSAIKEQISPTGSLKATFRAIKYIDEKEGKIIKAYLIIADIEHKEEMENAIKEFGFENFLKLDNGTVILKNSNHKLIILVFLGEKLCLEEQILLYLRNTNEIKDLDKLNEIKNCNEIKGIIKKNNEVRRYFSNFEDTLEYLIKKLNKNFFPQIWEAMEFIEKYC;locus_tag=LOCUS_08560;note=MGA_857
sequence1	MetaGeneAnnotator	CDS	778461	779879	.	-	0	ID=MGA_858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIATFKGEQWSWFKATKSRGKLIISDKELVEWLYSHGSSSYLIFGTDIIPSCLWDSKSNSPLLIFDYINRGGTIIWAGDVPFLYKGSKQVTGIDIFNTEILPSEVDTKNTLVGNLLEYPRNKGLRPINNISDIIPISVTSEGKPTAWILKKGNGYFIRLFDIGEVNEDYLFSFPEKFEELKKTFAIKLNVRNLEDLVLKFDKMNVIIGDNAAGKTTILEAISLFSNNNISIDGITYSRNLLQTNFDDALAMIISKNYGRTFTVEYINDMKYFIAKSRLYRVSSDIIFINSRRLTEYEKYVISNWENIFNKRKELSLLLKTIDKSFRNVLNEPFNGVQQLMIEKEDSSVIRLDDLGEGIKNLIVLILLYSIYSPKILLIDDMEAMGLYVNKLEILMNFLLKIIEQDGVKILVTTQSFDVLYSLVKAGAKVFIMGSGKIYEMNNDEAKVRIESNEDPRLISQSLEEILSEGKQ;locus_tag=LOCUS_08570;note=WP_010979991.1 AAA family ATPase (Sulfurisphaera tokodaii) [pid:25.9%25%2C q_cov:58.1%25%2C s_cov:49.9%25%2C Eval:9.5e-18%2C partial hit],MGA_858
sequence1	MetaGeneAnnotator	CDS	780058	781995	.	+	0	ID=MGA_859;product=Sip1-related alpha-galactosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846817.1;translation=MQNISLDKVIFKENNCKPSLLHKSENYFEYDACGSNFLVLNFKERIGIQSFSSFNFAELTIDIPKGDFLALTISPLVNYSSGYKYYNEIYTYGKTEAKEPERIEYPVIREYENYKEINKITPCWSYSYVSKDVKDIIYPTIALLIKGEKYTTYLVNSSNGIFSSLKGNKILLEGSYNSGKVSWNLFIGEGENPYESISRAFHEMSKWSNVKFRDDKKKPLILGKLGWCSWNAFLTNLNEEKMVSVIEGIIKRGVKLGYVIIDDGWQELNDKRALDSLDPDKKKFPKGFDVKRIKDLGIEDVGLWHTINLYWNGFSENVKNDLSEGEKVDNSYQLPQDVNKALKAYIKFHQKLKADGFSFIKVDNQWVLRKLYTLTENIQTALQFSGYVNDLDILNCMSMVPECYTNYSISNVMRTSNDYIPNWKDAGKLHLLFNAYNSLFFSNIVYPDYDMFVSYDPYALSHLIMRIFSGGPVYITDKDPEKTNVELLNKAMISGKLLTVDYPGLITKDIIFSNPFVEDKLLKIASKANGIPVIAAVNVNKDGKRIVDTLRAEDLPYTVDKSMMYYKVIKEEHGYLEDLKIDLGEMESEIIVLGKKGTPIGLKEYLLPPSTMKDGQTLASGTLIILNDEVKEVKVREGTKIDFVI;locus_tag=LOCUS_08580;note=WP_052846817.1 Sip1-related alpha-galactosidase (Sulfurisphaera tokodaii) [pid:42.5%25%2C q_cov:89.1%25%2C s_cov:89.7%25%2C Eval:2.5e-120],MGA_859
sequence1	MetaGeneAnnotator	CDS	782067	782450	.	+	0	ID=MGA_860;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDNELMSIISDWNFWGNLSRKNWIKRNEYVNYIVNLLKGINIIAISGIRRSGKSIISLQVIEELINRGIDPKDTLIIKLDDERLINPDYELLLRIFDLYLNNIKANSNSPISYRRSTGSSRMGKIY;locus_tag=LOCUS_08590;note=WP_010978991.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:30.4%25%2C q_cov:87.4%25%2C s_cov:25.9%25%2C Eval:1.8e-10%2C partial hit],frameshifted%2C insertion/deletion at around 782402,MGA_860
sequence1	MetaGeneAnnotator	CDS	782530	783375	.	+	0	ID=MGA_861;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGRHVEVRVFPLDLKEYLKFNSINFDDNLDIIKNMKEINKGIENLMSNGGFPDIVLHTDISNELISSHFDTIILKDVIGRYKIRDEGKIRALAKFYISSTSTRITYNSISKFLKIPVKTVERYSSYLEKVYLIFFLNNYSLSIKTIENSPRKVHVIDNGFTKIFNPKISRGRLFESLVAQFLYKYSLTKRMETYYWYDNVEVDLVVVNNDRILPIQVVYDLSEEDTFQREFKALKKFMEKMGVNNGIIVIYRGEEREVEGIKIIHAYKFFLSEILKTYLE;locus_tag=LOCUS_08600;note=WP_052846674.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:33.7%25%2C q_cov:96.8%25%2C s_cov:65.3%25%2C Eval:1.5e-29%2C partial hit],MGA_861
sequence1	MetaGeneAnnotator	CDS	783404	784861	.	-	0	ID=MGA_862;product=beta-galactosidase BgaS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868057.1;translation=MIRFPKDFVFGWSQSGFQTEMGLKGSEDPNSDWFVWVHDKENISSGLVSGDLPENGPAYWHNYKVFHDNAERMGLKIYRAGIEWSRIFPKSTFEVNVDTEINGNKITYVDIKERNLEELDKIANKEAVEHYREIFKDIKNRGIKLILNLYHWPLPLWLHDPIAIRKGEKTEKSGWLNKRTVIEFAKFSAYVAWKFSDLVDIYSTMNEPNVYHNNGYVGVKSGFPPAYLNSEYSEIVRYNLIQAHARAYDLIKRYNGIIGMIYGNTAFVPFSEKDKEAAEKAEYNARWIFFDAITSGKIGNEVREDLKNKLDWIGVNYYSRVVVRSTGDGYKYMPGYGGLCEKDSISLDGRPCSDVGWEFYPEGLRDVIEHYWNRYKLPIYVTENGIADEGDYLRPYYLVTHIYQVYRAIQAGIDVRGYLHWSLADNYEWALGFSKKFGLLQVDYDTKKLYWRPSAFIYKEIAENNGITDRIEHLNRVPPINQLRR;locus_tag=LOCUS_08610;gene=bgaS;EC_number=3.2.1.23;note=WP_010868057.1 beta-galactosidase BgaS (Pyrococcus abyssi) [pid:45.5%25%2C q_cov:91.8%25%2C s_cov:91.9%25%2C Eval:2.4e-112],MGA_862
sequence1	MetaGeneAnnotator	CDS	784929	787535	.	-	0	ID=MGA_863;product=GH116 family glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980617.1;translation=MLSSLLNYMKYSYSYNLDSGITLGGIGSGSIEIRADGRFYDWTIFNNGGYAERQDIRYVYYIDEMDSFIVARQKKDKVKVRVLQAYDYYFGGSPYTLPWLRPVKQVEFNGEPPIAYLNFIDDFKLSMKAFSPFIPLDLKNSSLPVAILKLNSDEVTDFMLGIKNPFPNGDVEFKNSTLIFSGKIDSNDPRYNGNLCVRVIGENTFGRYLEKTPIIEYELWNKFREEGRLETKSGKGNYGLIGGKGKNVIFILSWYFPNHVLSNGEKIGHFYENYFKNCEEVADYVQSKMDYLESKTTLFHDLLYNVKGIESWIADLIGSQLTTLIKSTWLSREGFFGIWEGYFNTADKRKHDEYALPPNFPYSDGPMHTALNTIDVLTYSIYTILNLFPDLAKKLILQFKDKTIKEGSPEHVIYSLAFNENRQKFLEKISKDPSIPTDYEKLSSTINEIVKETGKDPKGRVPHFFTDTLKVDEYHRADLNPEFTLMWYLIAKMTGDKDFLNNIFPEAKEALESTMRTQSLDGLIYHTLPAGLEWLRYVNSMFNLPRGDTNISHILGKDTIPLSIQTYDDWSMIGITSLTSIQWIASLQAFNEASKILNVNDKYDYEQSVKKLLEYLWNGEYFDLWYDPISNFRDKACNASQLLGHWYSTLLGSRFLDDSVVKSSLKAIIKYNLKDEEGLINGAYPDGYRPLKGKYQNPLNLPATTQVDTPWSGVEFYVVSHLIYEKMLKEAEEVLKNIYDRYKLAGNFWNHLEWGSHYLRPLSSMTIIPAYQGLRYDGFTSTLTIDPAVDELIWIIFLPTGWGKMEINKDKINIRLYHGMLSLSKLKLPKIPRKIIVNNEEINYTSDTEIKLSKEIILQENDFLEIHF;locus_tag=LOCUS_08620;note=WP_010980617.1 GH116 family glycosyl hydrolase (Sulfurisphaera tokodaii) [pid:54.1%25%2C q_cov:98.0%25%2C s_cov:99.8%25%2C Eval:6.9e-273],MGA_863
sequence1	MetaGeneAnnotator	CDS	787543	788550	.	-	0	ID=MGA_864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980616.1;translation=MINSLFILIGYMAVGYLTTIWKKSIIYYRLGIFLYIVFYITLFIINVNAPKVIDFIGALYGIAQGFYWSGWDILFYNTPKKLNFFNKSAYLGFITSVVAPGVYGSLLSIFHGNGYEILFTITSFFLLLSVLLVENIEVDSFKFDIRKSISVFNENKIYKNSMTSLAIISGVNYILGNLNTILIYSIAKTYFNFMIINYLMTALSIFSIYILRDRLVNRIKPYKLVLTGSIIIGISSLFIISGVPLIYLASFNIASPLIYPVIDVFNWNNMDRRFLTSYLVNRQIFLNLGRILSSVTEIFLANLSTGEEIIPLLPVVVIASLIFARSNSKEEVIEA;locus_tag=LOCUS_08630;note=WP_010980616.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:45.1%25%2C q_cov:96.4%25%2C s_cov:87.2%25%2C Eval:2.2e-84],MGA_864
sequence1	MetaGeneAnnotator	CDS	788743	790713	.	-	0	ID=MGA_865;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_069168215.1;translation=MIRINMNTHILLKYATLGIILILLIPMINSATVFASSSSSNTLYIGWVTSHPYTSLSTFNPNLFDGGMGGSFYGLIYSYTALLNVSDNGIIPCLISNWSISPANWEQVWQNETVNVTITLRNSGWANGAPVTANDILATCLILDILGAPPFPNYTVVNNHTIVISHPPGTMSPYLLPFTEICAIGLGEVALITSYQEYKPLVQQIENNWIALQHDNKTLINQFRKELHSYTPSGPLSANYNGPYYVAQITPSEIILDKNPYYFAANNVKFNQVVIYQYSSSSTAESGILSGQVSIEYSAFMSLPSTLISSLPSYYRVVNIPNPGGWALYFNFKDPWLAMLPVRQAIAYVLNRTSIALAGGSKYSPVAIPNGIPNFTYYRQYITPAVANLNPYLTNLQEATKLLESAGFTLKNGQWYAPNGSPFTLNIIVTNTPGPGETNILNTIKDELSSFGIPTTYYIETVGKVQLQDWATGDNYDIAFNAWGGYYPVTVDWYLEAMYFNGVPYNVTQWDGIVKAPNGTIYNISKLYGETVAPNSTSQLTSANDEMAYALNYYLPALPLVLQSQQIIVNTKDLVAPPSNSWFWEEYFYGIGGTAINQLGITADYMQPISIITTHPPVTTTTTTTHPPSISAAAIAGIVIVVIIIVAAAIFFLRRR;locus_tag=LOCUS_08640;note=WP_069168215.1 ABC transporter substrate-binding protein (Sulfurisphaera tokodaii) [pid:54.0%25%2C q_cov:95.4%25%2C s_cov:92.9%25%2C Eval:4.9e-204],MGA_865
sequence1	MetaGeneAnnotator	CDS	790837	791871	.	+	0	ID=MGA_866;product=MupG family TIM beta-alpha barrel fold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978861.1;translation=MRSVGILSQAWRKDKINELKEIAEKAGKLGFNEIWSGVDPNYIDGIKEIAEIAEKYGMYFFIDINPEILRGFGVTPSNLEIFKKLKIGGLRADYGFSIEDIIKMANNDLGLKIELNASIFPLDKLDYVVKKVKDIESLKASHDFYPIKYTALSLEDAIRKSKEFKERGIPVAAFIPTPREIEGRTTVEMLRGKNPGKSASILFNSGYIDRVIIGDPFPTEEELKEVKESKDYTKIRVLVYPGLTEEENKMFNIRFSDVRVKEYALALNQIIENGIKQRNIVKRFRGAVTVMNGRKDVVEVWIFKKEVEADPRFNVIGEVLPEDMDMLDYIGERIDVKLIPIGMK;locus_tag=LOCUS_08650;note=WP_010978861.1 MupG family TIM beta-alpha barrel fold protein (Sulfurisphaera tokodaii) [pid:73.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.6e-149],MGA_866
sequence1	MetaGeneAnnotator	CDS	791877	793841	.	-	0	ID=MGA_867;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_069168215.1;translation=MKVYIKKSSLLKYISLLISLLILVTPLGSIGSFVVTAQSSSSTLYIAWINPTPYESLSTYNPNIFAGGLGGSFYGIAYAYSTILNVSNNVMLPGLIENWSFSPSNWEQVWQKEPINVTLYVRHNTGWGDGTPVTAYDIMATDLILQASYLNPNPVKYTIINNYTLTLTFAPDCLSPYLMPYTLRYTAGLTQVATIIPYQEWKPVINEILGNLSAIRSQNTTVIDHFRKIIHSYLPSGPLSGNYNGPFYLSQITPNELILNKNPYYYASNEIKWNKVIIYQYTSESPALAAIKSGEVSLVYSGELSLSSQVLSSLPSYYKVIDVNQPFGWGLYFNLQNPWVSNLKVRQAIAYVLNRTAISLAGGIKYSPVSVPNGIPSFPAYKEFITPAVSNLNTYSVNLTKAQRLMESAGFTIKNGQWYAPNGTPLSFTILYGGPITPGISNMLDVIDSELSSFGIPTHYIDITSLTQLHNTYKSGAYTMDFGNWGGYFPGTIDWYLPLFYFGGYPFNVTHWNQIVTLPNGTTVNLHELGFLSTAPNSTSQLIDVNNEIAYTMNYYLPVLPLVKEDYVIVINTNQVSNIPTNNSWIWSEALYGVGGNAFLQEGFYYGYFEPIIHTTVPPTTTTTTSSTSVIYIAGVIIAIIIIAGVIFLLRKRH;locus_tag=LOCUS_08660;note=WP_069168215.1 ABC transporter substrate-binding protein (Sulfurisphaera tokodaii) [pid:56.1%25%2C q_cov:93.6%25%2C s_cov:90.9%25%2C Eval:8.1e-199],MGA_867
sequence1	MetaGeneAnnotator	CDS	794070	795038	.	+	0	ID=MGA_868;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_148691226.1;translation=MAFITIIVTIIISWALIEYSPDSPANALLSNVRLNEASNPKFAQIYASELQFYNSLVPHGNPIVGALSYLMNVLHGNMGLDVISEVPVTTIIATALPWTIFIVSTSLIISFFIGIRIGQKMGYKRGTKTDSSLTTFFTVLRSIPLYISGALLLFLLGFEFHLFPSGGAYSANVTIGPNLGFIISVLYHSTLPILTLTLANLAGWALHMRANTIYTLGEDYVSFAEVRGIKDKLIETKYVGRNALLPLYTSLIIGIGFSFGGSVFVEEIFSYPGVGNLLYYAITNNDYTLEMGIFIIIITAVVVGVLLADLTYSLIDPRVRHE;locus_tag=LOCUS_08670;note=WP_148691226.1 ABC transporter permease (Acidianus manzaensis) [pid:66.3%25%2C q_cov:100.0%25%2C s_cov:97.0%25%2C Eval:7.2e-122],MGA_868
sequence1	MetaGeneAnnotator	CDS	795096	796013	.	+	0	ID=MGA_869;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847043.1;translation=MERTKIPAVKDVSFSMEKGEILGIIGESGSGKSTLAKAILRAIKPPGKIEPSSKIFFKGRELLSMKETDFKKEILWKSISYVPQASQNSLNNTMRVIDHFYDTAYSHGLSKEKVTEKALELLKMVKLDPERVARAYPFQLSGGMKQRVLIALSLLLDPDLVIMDEAVSSLDVATQRYILEIIKDINKNIGTSIIFITHDISISAYLSTDILVLYAGELMEEGKAEAVIKTPLHPYTADLISSVPSIGGSMQNIRPIKEGQPSLVGCPFNARCNKLMDYCKLNHPEVYDVNGRKVRCFLYGNNKDK;locus_tag=LOCUS_08680;note=WP_052847043.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:55.7%25%2C q_cov:98.0%25%2C s_cov:93.4%25%2C Eval:6.0e-91],MGA_869
sequence1	MetaGeneAnnotator	CDS	795991	796944	.	+	0	ID=MGA_870;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980624.1;translation=MEIIRINNLSVKFTQGSFTRRVIYALRDVNLGIDDRETVTIIGESGAGKTTLARVLIALEKPTSGVYLYKGKNVWKDRKTKKILREEIQYIYQDPISSLNPSKTIGESLSYPIKKHLKLKGEKLHAKISELLNSVGLDNSVINRYPNQLSGGQLQRINIARAISVNPKVLIADEPVTMLDASYRIGIIDLLVNLKNERNMTLIMITHDLAIAKYLDYKAGGVKSFVFYGGRLIEEGYINEIIKNPLHPYSKFLVSSYIDINNEGENMEFLKYKEEGIAKEGCPFSLRCPYVMEKCKKDFPRYTLDGDRKVACYLYGG;locus_tag=LOCUS_08690;note=WP_010980624.1 ATP-binding cassette domain-containing protein (Sulfurisphaera tokodaii) [pid:48.3%25%2C q_cov:98.7%25%2C s_cov:99.7%25%2C Eval:2.1e-78],MGA_870
sequence1	MetaGeneAnnotator	CDS	796994	797422	.	+	0	ID=MGA_871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980625.1;translation=MIPFTIYYSNTTVYSNHFHLSLSDLGGSTVSYKGSTGDKVIICGYSTSSIKIIVLNPPLGGIYLGQFNGNFTTSFDATPFKQIVIEGGNYPANVTASIETYNTNFSGIGYTIAGIFLVLGLILLWYSYALSLNKSKIHKSKL;locus_tag=LOCUS_08700;note=WP_010980625.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:37.4%25%2C q_cov:92.3%25%2C s_cov:88.4%25%2C Eval:8.0e-17],MGA_871
sequence1	MetaGeneAnnotator	CDS	797417	797599	.	-	0	ID=MGA_872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEYRGLLAFGYIFLFLSIFSLVFDYRIISLDIVLSFTLAISIFAIVFSIYKIRKESREL;locus_tag=LOCUS_08710;note=MGA_872
sequence1	MetaGeneAnnotator	CDS	797722	798582	.	+	0	ID=MGA_873;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980619.1;translation=MRLLDYLKLVWRNKKGRVGLLITIFYVLLGTIGPLVVPKPVIVNINPSMIFRPPMLNPYYILGTGPIGDSILGDIVWGAPFILEVSFLAGLFTTLIGIAVGMIAGYKGGILDNLLMSVNDIVMTMPSLILILIIATSLRTSNPFILAAILSISGWTGLARAIRSQILLMKNLPYVEVARTLGLGSLHIIFREIMPTVASYIAIHFIFNVENALYAAIGLYFLGVLPVSQYNWGVMINEALQDGAIYGNSAIWFLLWPSLFVVMFMTGLIMLSYGIDEISNPRLRRV;locus_tag=LOCUS_08720;note=WP_010980619.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:63.4%25%2C q_cov:99.3%25%2C s_cov:99.6%25%2C Eval:1.1e-104],MGA_873
sequence1	MetaGeneAnnotator	CDS	798583	799071	.	+	0	ID=MGA_874;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIPFYVINNIMIDGYFMNKLSQKEDRILLVRNKRLGYPSGKIEPLPYTLVISLLEEGYSETLKTTSKELRASEVLESIFYNPSIYMKNREKEVIEKTLSKMYGELYSRLLKLIKDASYEITWHNIELIEDQIIFNSVPDKIYTKLYLNDEKFKNEFLKLSY;locus_tag=LOCUS_08730;note=MGA_874
sequence1	MetaGeneAnnotator	CDS	799104	801965	.	+	0	ID=MGA_875;product=alpha-mannosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979014.1;translation=MRKENEIFSRISYILANSFYDIKYLNWVNNNGYVIDLETNEPRHLIVIDYQGSALVKINSKPYYALDGYHNTFPLPLGKIKIEAIFSPYKAFGDKVQIDPGKPAIFKRNSSAYLLWSYANATLQLAKNSQGYLREKLLTILTEALSLSPFVSVSRDQLFLASKYWKEFPNYLLEFSQEMKYEEYTGNYDNALRYLREKLSELRETFGKAGIVQGIAHAHTDTAWLWNFDETRRKIARTFSTVISLMSKYDFHFMQSMAIYYEWIKEDYPELFEKIKEKVNEGKWILGAGWVEFDANLPSGESLSRQLLYSQEFYLQNFGKMSEILWLPDTFGFSGQLPQIMKLSGIKMFATHKVFWNDTNKFPYSLFNWIGIDGTSINAVAFGNGKGGYNSDFSVDSVIDQWNNWKDKDQPMLYSYGYGDGGGGPTEDMLNEAKAIDELPSVPRIKLDGIPQYESENSWNGELYLETHRGVYTSHSKMKYLHRKAEVALRDAEIWSTISGKYDQKIKSLWKILLKDEFHDVLPGSAINEVYKTVYPELENIIQESDKISLDSLKKIAGEGEKTMIFNSLSWEREDYAIINEEVNGSQKIDEGYLIMVKVPSLGFTEYKESPVSPVSINGLTMENEYLRIQLTPEGSVVSIYDKETGREVLRSPSKLIFYENIPGWADAWDIESSYKDTYFEINAEKYEIREKGPLRACIRFYYKFRNSEIIQDVYLYAKSRRIDFKTTTKMIDRELLLKSWFFFDLNSNEAVFEIPYGIIKRQTNKNTSWEKAKFEVPMEKWLDISEDNYGVALLNDGKYGVSVEGSNVGLSIARSPMYPDYATDLETNTFTYSIYPHKGNWKEAEVFKRAYELNYPLRSIKGKGGEKSFLKLSPQNLILEAIKEAEDGRGIIIRLYNVENSRGRGEIELWYSPKKVSLTNILENENNKELETNNNKIQLNYKNYEIISLRLE;locus_tag=LOCUS_08740;note=WP_010979014.1 alpha-mannosidase (Sulfurisphaera tokodaii) [pid:51.2%25%2C q_cov:99.9%25%2C s_cov:99.5%25%2C Eval:3.0e-285],MGA_875
sequence1	MetaGeneAnnotator	CDS	801935	802612	.	-	0	ID=MGA_876;product=PIG-L family deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978862.1;translation=MKILYVSAHPDDECDNAGGTLAKLSKHNDIYIIYFTDGRLGSPYPEERGDKLALIRKKEAMEGLKVLGIDPNKAYFLEYPDGELSKFISDAVKKTIPILQNISPNVVFYPSTFEAHPDHWAAGKIMKEAIHEARIQADQLSYLNWEPKISRNLKITLRYLEWKISMKKAIYVNIEEFMDVKFEATKKHESQIKYFDDQYMEKFFKSKYERFYVEKSYSNLKEIIS;locus_tag=LOCUS_08750;note=WP_010978862.1 PIG-L family deacetylase (Sulfurisphaera tokodaii) [pid:52.3%25%2C q_cov:97.8%25%2C s_cov:98.6%25%2C Eval:3.6e-62],MGA_876
sequence1	MetaGeneAnnotator	CDS	802609	804666	.	-	0	ID=MGA_877;product=GH116 family glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156014118.1;translation=MVTYTSDQGIGSGVPLGGIGAGKIEIDNKGKMVNLTIANNWTFPIKEMLGFHIFIKPDDSEPFFLQKELRFLSLNKLATNLTYEGKYPFVRISGGKVNAVMEAFSPIIPSDVLDSSLPSIGISIKVKGSSSGTIAVSISNICGLNKIGRYNERVKGGIRTKNSRSNEYDPYNGEMSLISLSPSKIITQYNFHVNRGLEKTLNLHRLIENEAPWDALLNDKDYPSDDGESQGSYYLPAGLISNRYDKGEELKFVLSWYFNKPWVYYPYRHYYANYFSSSLEVANYFLDNFDILRKKTFEWQENLIDPSLPEWLKDAVINSTYILSSSTWLDEKGRFSIYEAPEIGPMLGTIGGVVYETGSLPIILMFPELEKSFLKMISLSIREDGYVPHDLGTYSLDSPSDGTTAPPKWKDTNTTFILLVYRYYIRTKDKDFLMEMYPTVLKAMEWIIKQDKDNDGLPDLDGSCDTGYDCVPMEGTSSYTSSLYIASLISMIEISQILGDSKNSERMRLLLQKAKDSFNRLFDGKKFIAWTGKPQHNNASFAAQIFGEWWSLILGIEDITDKDKIISSLDTIYRVNGNSSKYCTPNMAREDGGPVDIDSQLTSSWPRLVFSLSALAYSLGKKEWLSLAKKEWDNLVNQGLTWNHPSIIHGEDGKPDKPFLDHYAGSAALWSFTYKYTLEHLSDKK;locus_tag=LOCUS_08760;note=WP_156014118.1 GH116 family glycosyl hydrolase (Sulfurisphaera ohwakuensis) [pid:65.8%25%2C q_cov:99.3%25%2C s_cov:99.6%25%2C Eval:1.4e-281],MGA_877
sequence1	MetaGeneAnnotator	CDS	804945	806984	.	+	0	ID=MGA_878;product=alpha-glucosidase MalA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980614.1;translation=MQISIEEKDGIYKVKVNEPFPPVDYGFKGRESSKRISDFSLEIKEEDYIVIEKPLELKEHILGLGEKAVELDRKRKRYIMYNVDPGAYQKFQDPLYINIPFMISVYEGKAIGYFVNSASKLIFDIGFEDYGKVRIKVPEKSFEFYVIEGPTLEKVLERYSELTGKPYLPPYWAFGYMISRYTYYPQEKIIELLDLMKKEGFKVTGVFLDIDFMDSFKLFTWHKERFHDPKKFLEEAHARDVKVITIVDHSVRADQSYNVFTSGIGKFCETSKGELFVGKLWPGNSVYPDFFREETREWWSNLINEWVSQGIDGIWLDMNEPTDFSKVFEINDIFKDTPIKVKDDRFYTTFPDDVIHYLNGKKVKHSMVRNAYPYYQAMATSTGLQKAGKSFVLSRSGYAGIQKYAGVWTGDSTSSWDQLKLQIQMVLGISISGIPYVGIDIGGFQGRGLKEIDNSPEMLMRQFQLALFFPFYRTHKATDGIDTEPIFLPSYYKEKVKEAIDTRYRFLPYLYYLAKEAHETGHPIVRPLFYEFTEDEDTFRIDDEYMVGKSILFAPIVSQTEKRKVYLPKGKWLDYWTGEIVEGWIDSSTDLPIYIREGSIIPLSEGDMIVYGNGKIDYDDTAIQSNGDITFSKPFFIRNLTVVSSASKVIVDGKEFSFSKKGKSIIINVNKEVKEIKMM;locus_tag=LOCUS_08770;gene=malA;EC_number=3.2.1.20;note=WP_010980614.1 alpha-glucosidase MalA (Sulfurisphaera tokodaii) [pid:63.2%25%2C q_cov:94.0%25%2C s_cov:97.0%25%2C Eval:3.2e-254],MGA_878
sequence1	MetaGeneAnnotator	CDS	806985	808934	.	+	0	ID=MGA_879;product=GH116 family glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980615.1;translation=MKFPNNCGIPIGSMGTGKIDFFSDLTIGNLTIMNNWSTPLKIVRGFHIVDLATGTFLQGNPSKNSEIKFQTKTAKIEADAFFPQVEYKTEDPNFTIKVYSPFIPGNLKDSSLPSIIFNIKGNGIIAISFPNLTGSRRWGRANYKVKGKVNGVLMTNLRALQSDPAYGEIFLGCEGCKVHVGHPYWVPALKEGMTEDVSIFDLNKLNESEDKYYIKPFAREEISGIVWKEVKGEENFYITWYFNGRPHHYPYGHYYENWFQNAIDIAEYINERKPGIELDESRDWLNEGFRNSLYVITHSWLTKDGRFAIYEDSKISLLMNTIGGMTWDVASFALLEYFPDLIKRMDEYFANYIIDGEVPHDIGEESIENPIYGASFPYSWNDLGPTWILMIYRDYKLTEDKDFLKRNYPYMKKVMDWLIKRDEDGDGIPDSKGGFDNSYDGTYMYGTSSYVASLFLCSLKAFISASEILGYEYSEYLRILDKARASMNSLWNGKYFVNWKYKDNEKDSCLNTQILGEFWCDILGLGNVLDEDKVISALKSIYELNGKASKFCLVNSVNPDGSIDETTDQMKSCWPRISFAIASHMILKGMKKEGIEIAQKEWNTISSRYPWNQPSKINAFNGDHFGLPYYIGSLSIYLVKYALKNSSHH;locus_tag=LOCUS_08780;note=WP_010980615.1 GH116 family glycosyl hydrolase (Sulfurisphaera tokodaii) [pid:61.5%25%2C q_cov:98.3%25%2C s_cov:97.8%25%2C Eval:2.5e-240],MGA_879
sequence1	MetaGeneAnnotator	CDS	808912	810018	.	-	0	ID=MGA_880;product=N-acetylglucosamine-6-phosphate deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980633.1;translation=MKLTNVRIIAPYREFIGTIEIEEGKIKRIKEGKEEGENLEGMIAIPGFVDIHTHGIGGYDFTSWDNKEDFIKNMLEMKKIYLKHGVTTFLPTTVTIPKENLMEACKAIGEIEDESIPGIHLEGPYISEKHAGAQDTRYIRNPDVKEIKECLELSKGKIKTITVAPEKDLDFISVLSKLGIHPSVGHTDADYDTAVKAFFSGADRTTHMFNAMRPFHHRDPGVILASINFSRYIEIISDFIHVDREVIKFLLNSVGINRIVAVTDSIIATDLKDGNYTLGKTTITVKDGKALTREGRLAGSTLTMDKAFRNLSSLRSLSEAVVMTSQNPAMAVDLKDRGSLEPGKKADIVILDEDLKVEKVYLNGENYF;locus_tag=LOCUS_08790;gene=nagA;EC_number=3.5.1.25;note=WP_010980633.1 N-acetylglucosamine-6-phosphate deacetylase (Sulfurisphaera tokodaii) [pid:62.9%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:1.1e-132],MGA_880
sequence1	MetaGeneAnnotator	CDS	810053	811807	.	+	0	ID=MGA_881;product=glutamine--fructose-6-phosphate transaminase (isomerizing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980632.1;translation=MGGIFGFVCKNPNDVSIVVNGLKRLVYRGYDSAGIAFLDGEISVKKIVGNISKNSITLKEKSKVALGHTRYASRGWPTLENAHPLMDCNRKIAVVMDGVIDDYEEIRDKLTKEGHKFVSTTDTEIIPHLLENSKDYIDSAIDIIKNVRGIYSFAFIVEGINKIFAASSGQPIVIGVSDCKYVSSDLPSLTGFAENALILPENSVAEISSDDVKVYDLQRNQINAVSKRIKYQEEIIEKGGFPHFMLKEIYDIPSSLISSYTSLMEKYLSLAAMIVYGAKNVYVIGNGTSLHAGLISSYYFSEVGINVNVVSAAEFPYYALQNIGTGSVIIAISQSGETSDVIRSVKMAKQRGSVIVGITNSVGSRLALESNIYLPITAGPELAVPATKTFTSTLVVLRTLSLYTGLNSGKKERYDLDQFKTDLEKLSSSLSSSLPQIERQAEDAVSKITKESIYVTSSGINFPVAMEGALKFKEASMIHAEGIQLGELLHGPIALTNKGYPIVIVKPAEEQAYDLYNKVIKSISDRGSPIISVSVDGMVKSVETTRELSPIANVVPLQLMAYKLGVKRSLPIDTPPGLVKAVVS;locus_tag=LOCUS_08800;gene=glmS;EC_number=2.6.1.16;note=WP_010980632.1 glutamine--fructose-6-phosphate transaminase (isomerizing) (Sulfurisphaera tokodaii) [pid:65.6%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:6.6e-221],MGA_881
sequence1	MetaGeneAnnotator	CDS	811839	812546	.	+	0	ID=MGA_882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSIGFAIFPGWKEIFERQKEMIIKGEDLGFSEIFFGIGRGVHTKSTLEAIKNAKELLKIANKLGYYSFVDINPEILAELNASPDNLGIFKAVGFSAVRIDYGFSIEKILRMKDIGIELNAFDFPQDKIEYLLDHIDPERVKATHNYYPVKGSGITISQLVEKSKPFVNAEIPVGAFVSVPSVKSDTTVEELREKMPGEAAKVLFSTKVISRVLIGDANPTDEEMKDLSMALRTY;locus_tag=LOCUS_08810;note=WP_010978861.1 MupG family TIM beta-alpha barrel fold protein (Sulfurisphaera tokodaii) [pid:40.6%25%2C q_cov:97.0%25%2C s_cov:65.7%25%2C Eval:1.2e-39%2C partial hit],MGA_882
sequence1	MetaGeneAnnotator	CDS	813073	813261	.	-	0	ID=MGA_883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVKYKNRVKRALFLSDEEKISKEIEEFSKGNFKIQLYNLEQRSYLKKSKYYLKHYWKQARK;locus_tag=LOCUS_08820;note=MGA_883
sequence1	MetaGeneAnnotator	CDS	813258	813497	.	-	0	ID=MGA_884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNTIVVEPTGASIKPCQYFKEKGIKILQVSPNILWKEKDLRGKQIFTTKTSKHGKQGKGVQLQPIERTSNTIYLPKS;locus_tag=LOCUS_08830;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:63.8%25%2C q_cov:58.2%25%2C s_cov:13.2%25%2C Eval:3.9e-10%2C partial hit],frameshifted%2C insertion/deletion at around 813255%2C813137%2C813361%2C813529%2C812990,MGA_884
sequence1	MetaGeneAnnotator	CDS	813500	813697	.	-	0	ID=MGA_885;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHVTSEGRVYTTTRVMKKY;locus_tag=LOCUS_08840;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:18.5%25%2C Eval:4.4e-17%2C partial hit],frameshifted%2C insertion/deletion at around 813529%2C813361%2C813255,MGA_885
sequence1	MetaGeneAnnotator	CDS	814659	815063	.	+	0	ID=MGA_886;product=glycine zipper 2TM domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980068.1;translation=MAEYIAKYIVSKGYRKIGEINTRYTANDDDESIKIAKSACEKLGEEDVEEIVIGKIIGAVSGAVIGNSLDKSDDDKLLGTIAGAIIGTLTGHIIDSIITKVIYSKKYPCIRARSLDDLDKYIDTKRLEEIVNER;locus_tag=LOCUS_08850;note=WP_010980068.1 glycine zipper 2TM domain-containing protein (Sulfurisphaera tokodaii) [pid:78.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-56],MGA_886
sequence1	MetaGeneAnnotator	CDS	815053	815529	.	+	0	ID=MGA_887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVDEFINLCDSSYVILDTSIILDYTRLLKSRKSYEQKMEILSRIMNCNKKTISSLIYEEILAGASQNEDELKRKILYSFEIFNISVNEAEVASHLERELKDRGCKPKGENWRIDLFTAAFVYTQQCYILAKDRDFTKILNCEKLDEVEYYVCKRSEF;locus_tag=LOCUS_08860;note=MGA_887
sequence1	MetaGeneAnnotator	CDS	816003	817520	.	+	0	ID=MGA_888;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978791.1;translation=MGDLSKDSVSFWKTTAWAIAGILPIGALLGSISATGGYASPFVVLLAFLLVIFLTIPILEYTRLAKFAGGYYGAAELGFGKAVGKFVALTNYFYYIGWQVANATYVGSLLAVGYYAIYGTYPPEYSYFLIGAAALVVPFLSSILHVKQVSSIIWYLTIAGFIMNIIAFSILLYRSHYLSLNEFNPSYSPGGIHGAFLSLIAYGFFTFAGYGFLLFYTEEGKQPFKNTWRAAIIALAVSTIFWMLGAISVNSVFGPQGIQKAISFPQPGLLLYVKYLGSVGELTIVGILLILVVFSFASGVGGQGRILYSLARDDFLKWKWIEKLNKNNVPMNAMLFNFIVSLSLFIILGVIFIPIYGYFNAIFYMSYVPTTIATILWYFHHLIPDLSLSMFYRRNRISLTKMRTFIIAVLVPTISTGVFVYSLYESVISDLVEPYFAGFVISVITLIFSAIYVVIKRNSLGTSIVLQNLNEEALKELRNPIETRNIENSPRLLYRIYKYFTNKNL;locus_tag=LOCUS_08870;note=WP_010978791.1 APC family permease (Sulfurisphaera tokodaii) [pid:22.6%25%2C q_cov:89.3%25%2C s_cov:92.6%25%2C Eval:3.5e-18],MGA_888
sequence1	MetaGeneAnnotator	CDS	817542	818513	.	+	0	ID=MGA_889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVTVALPTYKNNGTTIRDLLESLSHQTYANFRLLVVYKPSDGDVTEDVISKYKNLDIEVIYQKEGYIEEAMNLIFSNANADILITTDDDAIPSKDWIRNHVNLHEKFPEVGMVGPYFGNGHKINVFKKIYSFLMERPLDERMKDYLTYFSKTGIFVGNPFFNNYNLPYIKSFSFMGVNMSVKKEVYKDFRLLQMTLRGIGYEPYLCFHSFIKGLYPATFKDCCKLFHNERDSLSRPKSLSGIKERYAELMLSVYYLNKFYKLDLTKLKIDMLIKTLSWKLHKKTKEDEAMLDGIRLGLKISLEAIQNNYDSMWIRSKLKEIQ;locus_tag=LOCUS_08880;note=WP_010980463.1 glycosyltransferase (Sulfurisphaera tokodaii) [pid:36.5%25%2C q_cov:73.4%25%2C s_cov:75.2%25%2C Eval:6.9e-32%2C partial hit],MGA_889
sequence1	MetaGeneAnnotator	CDS	818709	819863	.	+	0	ID=MGA_890;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKLNRRQFLDLLLKSGVIAGAGALSTGVLVKKDTPTKGSTQGYPLLGQFLATVVQSSNEYTAYDAGGNVLFNGSCADGSGTCGIYEAVNFVQQNYRYGKVGLIGSFYPVNSPDGQFNVELDGSAIVYLNSASSNFMISIPKSKSVTYLWYQSAGMVNSILTRKQSFSLQPYVLFPGTVTSMFLGNNDQYLGTPSAFTISAWVNGFGVNTYGTGYVISYGSTEKGIIWAIQNTNGRLCFRVSSRGVCVAGPSSSPWHVAAVYNGGNLQLYLNGNLAGNWSGVNVEYYPSKYPAYLWIGNIPIATQQGGLIPANGPFAWLENIQFYNTALSSSQVSQLASSPAQDPVDYSALVSWSLYRYIFFVGDLITGVGYQRMYGFSESGVF;locus_tag=LOCUS_08890;note=MGA_890
sequence1	MetaGeneAnnotator	CDS	819865	821334	.	+	0	ID=MGA_891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFVISDHMDPDVDFYVPPGSDATQAIQQALELSKIYGVAHIIIRGRLYVYATTNVPFPLEQSLNYVFEGDGLGEIIYLQTDKSISPPSMITTAGTANAEMQQGISTHNSVISLPMLEYSMAGWYIAFKNLKLDNYTNQRWAIANGYSNYHSIVMYFDGVEFNINIWINETTEVLVINCYATGELLFDSRSRDVMVIGSRFENEGGFAVSSRGWTVVGCVFVGPHAFLNPGNDGNDGMVVGCVFDSGTIVTQGASGLRVVACTLHNVTFPGGYYGSMNYTYGQNFALIGCVISNYTIALNQLTGRGSYLIAFNTFNPSSDLIIAVADNAVVQSILIIGNTFSSIETHNSFIFIGGTNAPGSSETQLTGKVLMLYIAFNTFNNPNQTPGATYGAHFGSYYIHGIAYVNIGITVTYAYIVFNYFENTYGLYDNSTRKPVGYFQFVQLNSNVQLIQYLNFYFNVVENNIPIYIPSNQTYNAQFNVGIANSTA;locus_tag=LOCUS_08900;note=MGA_891
sequence1	MetaGeneAnnotator	CDS	821331	821795	.	+	0	ID=MGA_892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQMKLQIIYDDGTIEEVTPKKVEVIQSQKQNLAHYKYVDEEKHIIFHAYLPTDEEPTVRPAEITKRIAHEMESKKVVAKSYTMQADELMTKAKMMTMMGGTMMTKCYYCGDPATNEYQGKKVCSSCFRMLSQYKENSQEFQKYLKSKVIDRWK;locus_tag=LOCUS_08910;note=MGA_892
sequence1	MetaGeneAnnotator	CDS	821797	822765	.	-	0	ID=MGA_893;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980463.1;translation=MEITVAIPTYKNNGSTIGKLLEALQNQSYKNFRLLVVYKPSDGDVTEDVISKYKNLDIEVIYQKEGYIEEAMNLIFSNANADILITTDDDAIPSKDWVKDHIEMHSNPEFGVVGNNSTVRLINFSLLERSYAKLFEKPIDKAMSDYAIYIAETGLWTYNKSFRKNGRIIKTLGLSGYNMSLKKEVYKNFKLEQMTLRGAYYENYVGVNAIRKGFHSVFVQNCCKTEHLNRESISRSKNPSVIKELYAESVLSAYYFSRIYKINLEKLKTDILIKTWKWYLKDRSLLSLAAIEGLRLGLKITLDAIKKGYSGEQIRKRLLEIK;locus_tag=LOCUS_08920;note=WP_010980463.1 glycosyltransferase (Sulfurisphaera tokodaii) [pid:36.6%25%2C q_cov:82.3%25%2C s_cov:84.4%25%2C Eval:6.0e-36],MGA_893
sequence1	MetaGeneAnnotator	CDS	822881	824014	.	-	0	ID=MGA_894;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011101281.1;translation=MKYLIELDMVNITFVMYGLGGTGGDQEIYRIANRLSEDGHEVNIVTLVGWGYSGYNPVKNAKIITQPKILRPIFSIQYLLEFNKKFHKFSFLTKIPYKINLKILEYLIKKNKGDIIIATVWYTIPAVYKAGGKYCFCQDVIESWYEEDQWKGVKNAISKSFSLPMTMLSISNYTTSYLRKFSNTNKIINIGNFIADDFFNCEYLPPSSRPRVISTIARHEAHKGFDVFVKAIEEVYSRRNDFSVKILNKDDIKLNLNFPYKEVKRLRVDELKNFYASSYIIIYPSTRESFGLVGLEAMACGTPVIMTNTEGSKEYAVDGVNAIIVPINDYKAIAKNIEFLLDNPPIADKISINGLETAKQFQFKDFMRRFKEAIGLK;locus_tag=LOCUS_08930;note=WP_011101281.1 glycosyltransferase family 4 protein (Lactiplantibacillus plantarum) [pid:25.8%25%2C q_cov:97.3%25%2C s_cov:99.7%25%2C Eval:1.5e-23],MGA_894
sequence1	MetaGeneAnnotator	CDS	824128	825135	.	+	0	ID=MGA_895;product=glycosyltransferase family A protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980275.1;translation=MPFISVIVTAHNRREYLRDAVDSVLNQTIDDYEIIVVKNFKDEIDDYLKENGVKSVLVGDQTQGMDVISGLKEARGEVISFLDDDDLFLPRKLEKVKEVFQDEEVGYYHNAFENFLERTPNNLEKIHIKKDYDYTIIDNQEKVKKFGFMFNTETEINSSSISIRRSLFNNSFSYLEKINHAVDVFMFYLALMSEKKIVVDPEVLTLYRIHSNNTWFYMNDDFENWLEHKKSYMEKEIEDYITMLNMIKSSSFEIFIKEYILDLKLRLARLPSPYNNSKYKATIKDYIKFSKKDKNIRSLLSNLTAFTPSFIRRKLVKKWYQDEISRAKNVSSINN;locus_tag=LOCUS_08940;note=WP_010980275.1 glycosyltransferase family A protein (Sulfurisphaera tokodaii) [pid:30.1%25%2C q_cov:96.4%25%2C s_cov:97.2%25%2C Eval:5.2e-30],MGA_895
sequence1	MetaGeneAnnotator	CDS	825132	826769	.	-	0	ID=MGA_896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKILIFVLLFSFIFAFLPLIPSQGQTATPIKHVVIIILENHAFDNLFGTYPFGNPPIYNNVTESVMRPLGLNLSVIIPYNPDNISKGGMKPYYANSVILADPTEGYTAYHTDWNRGAMNGFIVGSGKQSLAYVSYEQVPLLWDYAEEYVLSDNYFSPVLVSTQPNRVAYLTGYPTKILGDGYASSVIPFQNTIMYQLSEYGVSWAYFDYGYYQGQSLPPFPLVVFSGAQNYSSHYFNTSVFLQDLKNGRLPDVSWLMFTGGDGHDTHSALDLHPPFNLTEGQVNLVKYINAIMESKYWNSTVIFITFDEGGGFYDQVPPPIIYTYGEGCDHYLEGLGIYNYSILGQRTPLLIISPYAKEGWINNYSISGYTLLGFIDYNWHLPYLTKIVANSNVYGLLQSFNFSVQREPIILYPNNWSYPIPLQYPIHYGYVANVKGNYTAYYLLYEKGYINENTLNYVMQFQNLTTSSVTTSTQISSTSQITQSSTSTTQITQTSTSQTQTTTSCITCTYSHSSQPHHYFIIALAILIGIAIIVAILIIRKH;locus_tag=LOCUS_08950;note=WP_003021808.1 alkaline phosphatase family protein (Francisella tularensis) [pid:24.7%25%2C q_cov:70.5%25%2C s_cov:87.0%25%2C Eval:1.5e-25%2C partial hit],MGA_896
sequence1	MetaGeneAnnotator	CDS	826826	827584	.	-	0	ID=MGA_897;product=sugar phosphate nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763234.1;translation=MHAVITAAGLGTRMLPASKEIPKEMFPIPFQGNFKPVIQIIFEQLFDSGIRDFVIVVGKGKRVIEDHFTPDYDFISYLEDKGKTKQAEDLRSFYQKIEGSNIAFVNQSEPRGFGDAVLRAEPFVEEDFILVAADTILGKIPLEKMKINSFLTTEVEDPRPYGVVVVEGEKVLDVEEKPAYPKSNLIIVPYYHFNEEIFPALREIKWEGELQLTDGIKYLMRKGREFRAIKVNDVYDLGNVENYITSLRKILM;locus_tag=LOCUS_08960;note=WP_011763234.1 sugar phosphate nucleotidyltransferase (Pyrobaculum islandicum) [pid:46.6%25%2C q_cov:99.6%25%2C s_cov:96.3%25%2C Eval:1.7e-58],MGA_897
sequence1	MetaGeneAnnotator	CDS	827586	828800	.	-	0	ID=MGA_898;product=UDP-glucose/GDP-mannose dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064256.1;translation=MKIGIVGLGIVGLSTGVVLAEQGHKVVGIDIDENRVQGLNCKRSPIYDPGLQEMIEKNFNNLKFTTDYSSLSDVDVVFITVSTPTVNGKIYLGYVFDAAKKMKEYLSDSIVVIKSTVVPGTARKVKDIVGENVVVNPEFLKEGSAILDTKSPDRIVIGSENEKAGDIVEGLWRFTGSTILRTSLEEAEMIKYAANSFLAVKISFINEIANLCERIGCDVNVIANAIGMDKRISPYFLKAGIGWGGSCFPKDTLAITSFAREVGERLRIIEAAIEVNEERPKRVVNLLEGLLGSIKDKRVCVLGVAFKPDTDDTRESIALKIIDILKSRGAIVLAYDPKARTNKAEMVSKEECIRDSDGIIIATEWKEFYGIEDLLKGKYVVDGRRILDPSKMDRTRFRAIGLGE;locus_tag=LOCUS_08970;note=WP_048064256.1 UDP-glucose/GDP-mannose dehydrogenase family protein (Archaeoglobus fulgidus) [pid:43.2%25%2C q_cov:95.5%25%2C s_cov:96.5%25%2C Eval:7.1e-88],MGA_898
sequence1	MetaGeneAnnotator	CDS	828797	829705	.	-	0	ID=MGA_899;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763235.1;translation=MKYLISGGAGFLGSHLIESLNGEITVVDDLSTTKFVPKGIKIIKERIENFDTQEKFDYVIHLAARPSPEDYIQHPVETALSNSLGTRNALEIARKSDATFLYTSSSEIYGHAEIVPTPEDYWGKVNPTGIRSCYDESKRFSEALIMSYYREYGLDVRIQRPFNVYGPRLREDGTYGRVVSRFIYQALKGEDITIFGDGNQTRAFLYVDDWVEGTLKMLGKGLKGEIFNIGSNKEVKIIDLAKKIISLTGSSSRIKFLPPRQDDPPRRAADITKIKEKLGWEPKISLDDGLMKTIEWFKGVLS;locus_tag=LOCUS_08980;note=WP_011763235.1 SDR family oxidoreductase (Pyrobaculum islandicum) [pid:45.4%25%2C q_cov:99.0%25%2C s_cov:94.4%25%2C Eval:2.6e-70],MGA_899
sequence1	MetaGeneAnnotator	CDS	829859	830881	.	-	0	ID=MGA_900;product=glycosyltransferase family A protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980275.1;translation=MPFISVIVTAHNRREYLRDAVDSVLNQTIDDYEIIVVKNFKDEIDDYLKENGVKSVLVGDQTQGMDVISGLKEARGEVISFLDDDDLFLPRKLEKVKEVFQDDNVGHYHNAYENFLDKTPNNLDKIHIKKDYDYTIIDNQEKVKKFKFMMNTETEINSSSISIRRSLFNNSFSYLEKINHAVDVFMFYLALMSEKKIVVDPEVLTLYRIHSNNTWFYMNDDFENWLEHKKSYMEKEIEDYITMLNMIKSSSFEIFIKEYILDLKLRLARLPSPYNNSKYKATIKDYIAYYNRYKSLRSLLSNLTAFTPSFIRRKLVKKWYQDERSSQEKIVQVSKIKNST;locus_tag=LOCUS_08990;note=WP_010980275.1 glycosyltransferase family A protein (Sulfurisphaera tokodaii) [pid:29.9%25%2C q_cov:96.8%25%2C s_cov:99.1%25%2C Eval:5.3e-30],MGA_900
sequence1	MetaGeneAnnotator	CDS	830999	831916	.	+	0	ID=MGA_901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKYKGKLIIKRRIYNFYMVSLSVNMIFRNEEPVVKKVLDNIFQQIDDDTEVILIDNMSRDRTFDILKSYERDNVIVDRYNGPKGGARNKALTLSHGKYILCLDGDQIYYNLQKLIDEYLNNYSNYGLKVGKSSFPILAPRELLLKVGGWRNLVHIEDWDLWFRLTDSCKFLYLANKDYIFGKHMRDHKKHHTKWQTAKGLIERYRDWTLTGLPGYPVRNDPKVIPFYIIGKLLVIPKYKMLAHYKCTKILKDDLPKEFQGIDWDLKRFYNLLKYEKIYCNDPIFDKAMKIFEEKYAKKPEASFR;locus_tag=LOCUS_09000;note=WP_235045001.1 glycosyltransferase family A protein (Geobacter sulfurreducens) [pid:27.5%25%2C q_cov:49.2%25%2C s_cov:59.0%25%2C Eval:7.5e-09%2C partial hit],MGA_901
sequence1	MetaGeneAnnotator	CDS	831923	833008	.	+	0	ID=MGA_902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSLLYVSLGERPTSGATTTIIELLTRLPKFQVNVDLVELLFKDEESLVSKCPKIKESISNYKVIRLPYSKSFLGKVIRFILVNSILKLNISKISNNYDFVIGFNTKNSIYIYYLTPYITFPLYKHYIKLVKRTNLIEGTVWFIKSINTLNRNRKRAWNICAGVVLQEKLKEYGISCFALEPPAGVDLELIDSSPTLNGFDVIHVARQGFMKGTLDAVKVISELNLSHAFIGPVDQGFSMPQVNYLGEILDKRRLYGIMKGSRVFLYPSRVDSFGIVVAEALASGLPVVAYNIPAIKYYFGDCEAVKLVEVCDIQGLVKGVKEMINGDYKNVARECAKKYSWEEVTKSFTNILQKLKKEKT;locus_tag=LOCUS_09010;note=WP_010878106.1 glycosyltransferase family 4 protein (Archaeoglobus fulgidus) [pid:46.6%25%2C q_cov:16.1%25%2C s_cov:14.6%25%2C Eval:5.6e-09%2C partial hit],MGA_902
sequence1	MetaGeneAnnotator	CDS	832989	834500	.	-	0	ID=MGA_903;product=flippase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870892.1;translation=MSDFEKLGKSLMLNYINLLQGRFLSHVIGFIGSILIIRILQPIDYGILSIAMTVPYMVGLFGNLGVNTAVTRFSAKYKEVDINKAYNVITSGMLFDFSYGTLLAIIGYFAAPFIFTYIYNKPEIIPYGQLASLYTIPYWGLSSIFSGLLGFEMTKHNSGIWIVHYSLQTILSVGLGITFLKVYGVIIGYSLAYAGAIVYGVYVLSKYSMLRSFPSISTIKELVSFGFPLVLPGVGGTVAGFYNSSIVNRILTIFEISNLTASSKIGFLFDTIFNPLGFALQPIFSKLDYNNKQNVINVVNELYKIGMIIQVPILFAVIFLSNQIIYLLAGKEYTLAPLLLRLSLIGPLISTASGSGILGSLILFKGYTKITAKINLIGVVINSVLLTIFLPTLGYFGYFLTGWISWIPSYIMSYSVVKSMYKDYKLPLYMVGKVYLISFLLLFPLVFIKSEFSLILGVILVLILFKIYVKMKIIREKEVEILISALNESNLRFLSKFLKFFLS;locus_tag=LOCUS_09020;note=WP_010870892.1 flippase (Methanocaldococcus jannaschii) [pid:23.7%25%2C q_cov:75.1%25%2C s_cov:90.6%25%2C Eval:1.9e-11],MGA_903
sequence1	MetaGeneAnnotator	CDS	834502	835578	.	-	0	ID=MGA_904;product=glycosyltransferase family 1 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240438.1;translation=MGFAGTSREWSLGRLTYLFYNGLTSLNQDVYIISKKNLDPQFKYVKLKEYRKIFGKDIITDLFSNYFTVRRLNPDIYHFIYPHVSASLMLTLPSRYKKIMTVHDLKPLILRQFMNRSEKLNISILKYTLKRIDGTIAISESTRDQIISMLDIDENKVFVVYNPVDPIFRRLNNEEISGIKEKYGNFILNVSRYDELKNPKNLIKSFRLISKCTDNIKLVIVGAYWKHGIDMIKKELGEYSKNVIILEWLNNEELVKLYNASQAFLFPSLYEGFGMPIIEAMASGAPVITSDRWSMKELAEGNGILVNPEDPEDIAEKTCKVISTPSLQSELRIKGLEKAKEFNYITISEKLLKVYREV;locus_tag=LOCUS_09030;note=WP_053240438.1 glycosyltransferase family 1 protein (Pyrobaculum islandicum) [pid:32.5%25%2C q_cov:79.3%25%2C s_cov:75.1%25%2C Eval:1.9e-33],MGA_904
sequence1	MetaGeneAnnotator	CDS	835679	836626	.	+	0	ID=MGA_905;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFHNSVQEPLVSIVIPTLNSGKTVRGTLESLSILDYENFEIIVVDGKSTDNTLEIVKEYQSRYNIRIVIEEKRGRGVAYNRGILEGKGKYIAFLDSDAKLGSKGWVKNAVKMMEENEKIGVVFTKVFAPPDSKYIQKSIDTFLCKGYTTANGAIYRRDAVIKVGGFNEKMNYMQEDELLYKLTKAGYEFRVNYEDKIYHYHRQSVRSYIKQNSEAAVGARLYYSFTGQSWIVKDSLIRIFILIFSVLIVAFLAVNFPLLLIPIIILFYTGLFVKVNMETCSQYKWSKYTLFAPVLIYLSMIGYSLGFLTNAIKQK;locus_tag=LOCUS_09040;note=WP_011250673.1 glycosyltransferase family A protein (Thermococcus kodakarensis) [pid:33.5%25%2C q_cov:68.6%25%2C s_cov:77.9%25%2C Eval:1.6e-25%2C partial hit],MGA_905
sequence1	MetaGeneAnnotator	CDS	836627	837292	.	+	0	ID=MGA_906;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQDIQSLMSQYKVIYSQYLHSLFISQLVLYIMLTIPIILFLIIYLNRGKLSTFYYRLWYRLNKNGFISSSKRNHDELFNGIVIGMILLVLIFSFGVYVLNTTAKEGFSEMLLLNVEGSIGNYPTHVLVGQNSSVYVLVENHEGKPELYEIKAILINNVTNSTVEENFAIIKNNGQWKVPVSFIVNNPGEYKLKIMLYYYSMGTNSFIYSNIFTQLLVNAT;locus_tag=LOCUS_09050;note=MGA_906
sequence1	MetaGeneAnnotator	CDS	837326	837802	.	+	0	ID=MGA_907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVEIFVGKRIIDAVEELKKEGYSEIDAIKMIHDSYEVDSMDGISIVTHFASIVLIASLFINSPVLDAFKIPLGTLYSIFLVGYVVLHTFYRNGLKDISNFSMIGLSLGVSFATIVLIGFLLNFTLGITPFTVILSVVSITEIFNIINNIMWWKRNEL;locus_tag=LOCUS_09060;note=MGA_907
sequence1	MetaGeneAnnotator	CDS	837792	838034	.	+	0	ID=MGA_908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKNYPISLVLSYTIVTFILSVVGVKDFRIYVLLFAVASILNEIAFYPFPRPSNYVISGITLIWIIASVYYILGILGVV;locus_tag=LOCUS_09070;note=MGA_908
sequence1	MetaGeneAnnotator	CDS	838039	839700	.	+	0	ID=MGA_909;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLELVTISMLLASIELTLVSILNISISNYDLLKYPFGLTEELPPLYWITEFLTALSFVIPLLLYKNFNKRIYSLLMPISFLLLLFNTFFIFYFINPVFVLSRDEMGHSTEVMYLLLRHTTLLNPGTYQAHYPLGFIYGAISYIFSGITPTYFFIYFGPMFFPIIQTLAVYGLIRLFFKSPYSELGILIYIFSSMPFYVAEWSPQLMSYNLLFPIFLIVGLIVKKGGLRFTPLLVVLSGLTGLTDIGTFGSAVTIAIGALVFAKKIGKLNIKFIAYSGILTASIYMYWVYFDPIASGALGGDYVLLGDFIDVIKSIFIPQSTKNLVLPTSTLIYTFLPPSPYHFISVASKLLDGGIFLLFSLISFLILVIRRKSDKYVWLTFALGSALLVMQTGIGLADNVSNVLTRMIPQAMAFYTILIVYFLYNKNLLTKAFSIFLVILIPLSILGYAMIATSEHSPEAAFFGGKLLGEYGLSSDPTYGFYQGVYQYEGKMVPTIGITYGDINFAGPYIETLALYFGGPSAAKGFEEYNNYVMQNESVIFNSGEMIVGLK;locus_tag=LOCUS_09080;note=MGA_909
sequence1	MetaGeneAnnotator	CDS	839692	840801	.	-	0	ID=MGA_910;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870581.1;translation=MQVTLLPGNAKPWDGIEVYSFELAKRLSNKGIYVIGLRISSKDDVFQYNKNFEVDYVKTSELQGGLGYHIRTLEMVIKKSRILIDSDIIHAIGGYYASIEFFPSSKKVATIIGASSLREKSILRKSLRRIYGSLIYRFASLYIVPNEIIKNEVKKYYRINPVVIPIGIDINGLKINEKKDDIKAKYGFNETDKIVLYLGQLVNGKRLFELIRSFKVASEKSDNIKLLFVAWGYLKDQLKELARQLKIENKIFFMNPVEYEMRKYVYNIADVFVMLGDSFGDGGISSAVMDALGTGLPIIVSKNSSNIVVVKDGYNGFTVDPQKYDEVASAILTSIENKEVFGKNSLEIAKKFDWDIIADEIIQKYKTLL;locus_tag=LOCUS_09090;note=WP_010870581.1 glycosyltransferase family 4 protein (Methanocaldococcus jannaschii) [pid:23.4%25%2C q_cov:99.7%25%2C s_cov:97.7%25%2C Eval:4.1e-15],MGA_910
sequence1	MetaGeneAnnotator	CDS	840901	841938	.	-	0	ID=MGA_911;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNISVILFDATVLGGIQLMTVDTIGILSKNGYNVNFVTMKISDRIYNYLKKYDLKNVKIKMLPKISNITLQMLYSRLFYREKDFSINMHGDIQPIASDIVYFHQFNIDYRIRSPFKEKLILIPQYIIRKGFMEKIRKEKLVLVNSRWTKAEAKYFWNINAEILYPPVHLERFRNINNLNRNNTVITISRFSRDRGLDNIIKIAKETDYNFIIAGYLQDQEYFNEIKDKKTKNIQLYPNIDEETKMKLLSSSKVYFNPTPYIEGFGTSVVEGMSAGLIPVTSNRGGVIDFVPEKYRFKEFSKAIEKVKRAMEDWNAKEMEEMKKISERFSLENYEKNLLDIINKF;locus_tag=LOCUS_09100;note=MGA_911
sequence1	MetaGeneAnnotator	CDS	841940	843136	.	-	0	ID=MGA_912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVRILTETQQRGTYATILIAYEKLKEKGIDTEFYTTFKSPYNVLPPPPKSKIFGEESMLNSEEYSKRILDIISPEKNSIIHLANAWHGIIPIAEKRGIRTVINVQYWWPTCYFNSMEKDGCDCKSISKVSKCIRYKKNGIRKLTSPAEALYAIRKLDKIKKNVSSASAIIAVSKVVKDVLISRGYPEEKIKVININALTFNIDYVPYNPGEYFTFAYLSYPDREKGIFQLLYAFSLALKKNKKIRLKVPGGLESHQVIETVKKLGIEDHVILTKRVPYDQYLKSLRDILYDVDFVVVPSLYIDTWGRVVIESMLAGRPTIVTKGNGGLIEQVSDRVDGFHVNTYDIKEFGEALYKISLISREEVRKMGEIARDNAFQKFDNEIIMNQLIDLYKEISE;locus_tag=LOCUS_09110;note=MGA_912
sequence1	MetaGeneAnnotator	CDS	843206	844255	.	-	0	ID=MGA_913;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPPVSLTSESLFATSFLKILTENNEVYAVFPKGLGKLNLNVNKISMKILLGPIISPLVDLPLIRFNSFLRRIDFSANLFYSHLHLGLDLDYIIYPPGIFRNDRIPPYYGIKKIYFKSIYPFIKKLAKSKVNLCSSIYVKNIMKNNIGFDCDVVYPPVIPPENYETREKQNIVVGIGKFIPSKHWEEFIEIAKKVRQKNPTIKFKIIGGLNNAPASLKYYKGLKDIAGNDVELLTDVNEEEKWRIFAESKLVLHCMRYDNFGLGVAEAMYAGAVPIVYKSSGTWEDTIQEGKYGIGYKTIEEAKEEIIKIIEDEKTYKEYSEKAKQRATQFSFNSFRENIMKYLNIYLEK;locus_tag=LOCUS_09120;note=WP_010877557.1 glycosyltransferase (Archaeoglobus fulgidus) [pid:24.3%25%2C q_cov:61.3%25%2C s_cov:56.7%25%2C Eval:4.0e-12%2C partial hit],MGA_913
sequence1	MetaGeneAnnotator	CDS	844445	845551	.	+	0	ID=MGA_914;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSLVLMPPLRYTSESAAALGVLYSLYEYGSEIHYVMTEKVYDNYFTTFPEKIVKPFLKSKEEKIKLIRGPLYSPFLDLIRIKNYTKKNHIDRVFNMYYVEYPIGMDVSYVVYPHSIIGYFKDFKLTYSRVKYPYLYTSRLLTKRIARSKNLLCSSNYIKNLMKNIGFDCDVVYPPVIPPENYETREKQNIVVGIGKFIPSKHWEEFIEIAKKVRQKNPTIKFKIIGGLNMIMYPSNEYYEKLVKLAGNDVELLTDVNEEEKWRALSSAKIILHCMREDNFGLGVAEAMYAGAVPIVYKSSGTWEDTIQEGKYGIGYKTIEEAKEEIIKIIEDEKTYKEYSEKAKQRATKFVIDEFKSKIIGIMDRFN;locus_tag=LOCUS_09130;note=WP_010877557.1 glycosyltransferase (Archaeoglobus fulgidus) [pid:27.3%25%2C q_cov:62.5%25%2C s_cov:60.1%25%2C Eval:8.6e-13%2C partial hit],MGA_914
sequence1	MetaGeneAnnotator	CDS	845665	846300	.	-	0	ID=MGA_915;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVIEFVVNEIQCEEFQGKRVIEVGSKYVNGSVRPFIEKFCKPKEYTGVDIEEGKFVDVVLPADKLVEKFGENSFDVLVSTETLEHVKDWRTIINNMKLIVKPMGYIYITTRSFGFPYHGYPYDFWRYEIEDMEKIFSDFEIIKLTKDPLKPGVFLKARKPLNFKLIDLSYIALYSMITNERTRQIPDKLPTPRKKISLYQRLRMKIRTQI;locus_tag=LOCUS_09140;note=MGA_915
sequence1	MetaGeneAnnotator	CDS	846628	847680	.	-	0	ID=MGA_916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSKLVDIEDFYYSDNPYDVLKFYTKFNSAEELVKWMKTRPRAPISFHEIEGDTDVIVVIPTADVNNKYAKGDLEMYNGLHIIFCESSGKYFNYATSVNTCVKEAMKYNPEWIIFSNDDVYKIDEPSVLKKELGKFDYKDPNTILPVGKNYKFVKSEIRVLKPTIIKGYRNCLLGGLSLLKGKFSGRYPKNFDISLIWFLARAQIYYNSLLRKFNLPFLDLRVASTDTISYKARYLMERALGEYINNFYIKKFGDFGGFSRGYLNKFGTNIFDETFINGVENYDLSLQLLWKKIPVNIINYRKGSYKGRSLGLGLNNKGVSRTIRSFSNFIYMAYKNLDNLVKKDAIDSL;locus_tag=LOCUS_09150;note=MGA_916
sequence1	MetaGeneAnnotator	CDS	847794	848714	.	-	0	ID=MGA_917;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980031.1;translation=MLTVIVTRNPNTNILYKNIIAIKNITNSKILIIDNASSIDLSKIRKLCDYFVQNNTNEGLAKAYNYAIKIASYLNEDWILLLDQDTEIYENLDIQKIFDEYNKLPIMGKVAIISLNRIYAHTTKNEIGNFKLCKSVVNSGSILNVKICSRFRYNEDLFIDRIDNDYCSRLRKNGFYILVYRYQLIYHSIGDYSRLYNKQISKIIIFLLKILSIRHGIREFKKVMHYRAFYVVYNNYYRYYTIIRNTVYLCSRGKIDLFYLKTLPSWVLSLYEQTNLIITLKLVSLALFHGILGDLKNDNKKLIKHF;locus_tag=LOCUS_09160;EC_number=2.4.-.-;note=WP_010980031.1 glycosyltransferase (Sulfurisphaera tokodaii) [pid:35.1%25%2C q_cov:99.3%25%2C s_cov:99.7%25%2C Eval:1.5e-36],MGA_917
sequence1	MetaGeneAnnotator	CDS	849258	850187	.	-	0	ID=MGA_918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMFHALKRANSYRKVYKNWIDVISKVRKGEQQIPVILRTDKNNKGVCTLSCVRLLIALITEFNFDITKFYFEDGKIFYDGNLIVQYNVSFLSFFIKKGNEWYLPKYNLKFDERIGYPLFEVFIQNQYDTDVQGEVIDIGANIGDSAIYFAVKGASHVYAFEPLPSIYEVALRNVKLNNLEDKITLINAGVSSKDGKIKVPSSIRVKDSGVYSAISSKGDVEVPLISFQKVIEMAKDPYLLKMDCEGCEADIILNCNSLPFEKIFVESHPYITKVSHKRLISKLRELKYKCEERIKVGRAELFYCSKIF;locus_tag=LOCUS_09170;note=WP_010878105.1 FkbM family methyltransferase (Archaeoglobus fulgidus) [pid:33.0%25%2C q_cov:68.6%25%2C s_cov:61.0%25%2C Eval:1.1e-20%2C partial hit],MGA_918
sequence1	MetaGeneAnnotator	CDS	850369	851292	.	+	0	ID=MGA_919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEIPIVILNYNGLNLLKLYLDSVLNTEYPNEVIVVDNGSKDGSLDYLKSKGVKTIALEKNYGPAYARNVAIKRYNTKYMAFLDNDVLVPRDWLNPLVDTIKNKENIAAVQSVYTEWKWGDQPSEIPWFSTAAALTKRDILEKIGGFDEHYFFYWEDIELSWRLYRAGYKILMVPKSKVIHEAHGTAKKLPSAFTSYLMMRNQLILLLSFYNKKQIFTNFVPLVLIRFFQAFRPPNRKAKLKAIFSLVGEINYVRKKRAQLKEISRTYDDVFMEYLGRDPFGYIEFRSVFEGIRTKIHRNEQISVSS;locus_tag=LOCUS_09180;note=WP_012582571.1 glycosyltransferase family 2 protein (Dictyoglomus turgidum) [pid:32.5%25%2C q_cov:61.6%25%2C s_cov:69.5%25%2C Eval:1.5e-17%2C partial hit],MGA_919
sequence1	MetaGeneAnnotator	CDS	851284	852120	.	-	0	ID=MGA_920;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSLSVNMIFRNEEPVVKKVLDNIFQQIDGEFVLIDNMSRDRTFDILKSYERDNVIVDRYNGPKGGARNKALILSHGKYILCLDGDQIYYNLQKLIDEYLNNYDGYGLKVGRSSFPILAPRELLIKVGGWRNLVHIEDWDLWFRLTDSCKYLYLANKDYIFGDHLHDHKMHHTKWQTAKGLIERYRDRTLTGLPSPYLKDNPELLPFYVIGKLLVIPKYKMLAHYKCTKHLREKLPPKLEGIDWDLKRHYNLLKYEKTHCNDLIFDEAIKIFEEKYSR;locus_tag=LOCUS_09190;note=MGA_920
sequence1	MetaGeneAnnotator	CDS	852233	853210	.	-	0	ID=MGA_921;product=glycosyltransferase family A protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980275.1;translation=MRDAVDSVLNQTIDDYEIIVVKNFKDEIDDYLKENSVKSVLVGEEMCGMDIVNGLREARGEVISFLDDDDLFLPRKLEKVKEVFQDEEVGYYHNAFENFLERTPNNLDKIHIKKDYDYTIIDNQEKVKKFGFMLSKDARINNSSISIRKTLITNSISYLEKIDYSIDMFMFYLGLISNKKMIVDPCVLSLRRIHYTNSSVLNNTNIIEWIKGKKNFKEHHINDFIILHNMARNTAYERNIRTELANDKITLARLPSIPIDKKYRPTLEDLYYYFKLNKKSLRAILSGISIYAPDFVKWKLIRKLYDLEQRRLKEKIERGNKLFYK;locus_tag=LOCUS_09200;note=WP_010980275.1 glycosyltransferase family A protein (Sulfurisphaera tokodaii) [pid:27.4%25%2C q_cov:97.2%25%2C s_cov:94.8%25%2C Eval:3.3e-21],MGA_921
sequence1	MetaGeneAnnotator	CDS	853566	854093	.	+	0	ID=MGA_922;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLLSIIIVNVKGKENLSRLLQSLSLSTFKDFEIIVIDNVKNESLNNVKTVYINEDKGPAYCRNIGARNSEGKFLLFLDNDTKVPEDSLGHLINFLSSNQYKIVQLKLIREDGTIDSAGGFIDDLGYPYEKYRGERSKNVNSIYPILYAKGAALIISRDVFEKLGGFDEDYFFRI;locus_tag=LOCUS_09210;note=WP_010932223.1 glycosyltransferase family 2 protein (Chlorobaculum tepidum) [pid:28.2%25%2C q_cov:98.3%25%2C s_cov:56.7%25%2C Eval:1.7e-14%2C partial hit],frameshifted%2C insertion/deletion at around 854090,MGA_922
sequence1	MetaGeneAnnotator	CDS	854068	854505	.	+	0	ID=MGA_923;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIIFFGYEETDLCFRAWKLGYEVVFLPVNIIHYEHGSYSNNDVKKERRLVYFLESRRLYFIHKNYNAKFLLKKLPFVYYYFLGSMVMDIVKRKNTNLCLGRLKALLWFFTKIPEIIRKRMIKKNYIRSENDLENLGLIISHKNR;locus_tag=LOCUS_09220;note=MGA_923
sequence1	MetaGeneAnnotator	CDS	854583	855644	.	+	0	ID=MGA_924;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763188.1;translation=MLEFLIAGLLLLIIHFGEPVYYFMYVKGNKLNISPVYSEPPKVSIIIPTYNEGDKIREKIKNVLDSYPNDYMEILVVDSSNDGTDEIVKTMGIPQIRIIKEEKRKGKIFAVKEGIRNAKNNLVIITDADAIWENPLINAVKFLGGEIGAVSCIKSANSETENAYRNFYNVIRLGESAIFATPIFHGEMTAFRKDIINDKDLPNVGADDSTIATLTAIKGFRAICVKDFLAKEIAPKGLDYVSWKMRRGSHLVRHFFRNLSKVLKSNNQYFKKIFVEEFYLHIINPWLLVLGILFLAIGNIEVFSILLILLLISLVSSKTREAIRAWIPNQFFLILAQLFATKGEVLAWKKEKK;locus_tag=LOCUS_09230;EC_number=2.4.-.-;note=WP_011763188.1 glycosyltransferase (Pyrobaculum islandicum) [pid:35.9%25%2C q_cov:97.2%25%2C s_cov:97.2%25%2C Eval:6.4e-50],MGA_924
sequence1	MetaGeneAnnotator	CDS	855623	856693	.	+	0	ID=MGA_925;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868366.1;translation=MEKGEKIIHVVHSFYPVVGGIEKAVYEVAKRQSKKYDVTIITSSQVPNGKDDLHVVRIRSVRPFGMPDLTIPLIIPDLSEAKVVHYHSQNSFFSYRILSKHDNNVFTIMALNSLKSHPNPVIKILSPIYSQILIKRVLKYSKRLIVKNERDKVMLEEIYGKESYIIPDGVDDMFFTVPKTSSFKEKIGGDYVLYIGRLHPLKGVNVLIKASKKINSKVVFIGPGDVNKYEKIAQKEGVKDKCIFMNYVDDLTKIAAIDSSKAVIIPSISDYVEAFSIVLSEAWSREKTVIASSVGSLPYRISNGIDGILVRPNDPEILAETVNQVVENDINLGKEGRRKVLNWDNVTEMLEKVYEE;locus_tag=LOCUS_09240;note=WP_010868366.1 glycosyltransferase family 4 protein (Pyrococcus abyssi) [pid:29.3%25%2C q_cov:98.0%25%2C s_cov:96.0%25%2C Eval:2.6e-27],MGA_925
sequence1	MetaGeneAnnotator	CDS	856697	857377	.	+	0	ID=MGA_926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVVWAYIIIIGIALLIPSLFIIGYPPFIILSIGLIISGSTAYAIDISNNIDDTINVTLDSLYENLELIFRYYNKQHYHRLFVPSSYGCNGVLLIDKYPIKIDKINKELVNKFDDSLGIFLETPGSIIINEMKGKGINFTENLDYLMKKALSELYKFSDNVNINYIRNDLIRVSLINPKPGKNYGILGYVQSLIAAAVLAEKESKLVYVDKQEKHRNTLNIDLVLL;locus_tag=LOCUS_09250;note=MGA_926
sequence1	MetaGeneAnnotator	CDS	857417	859435	.	+	0	ID=MGA_927;product=GH116 family glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156015680.1;translation=MVFYTWKDDIKAGVPLGGIGTGKIEINNKGKLVNLTIFGNMGSPIEETRGFHIFILPKDAKPFFLEKNLTIYGMEKYESELTYEGRYPFMYLKGKKDKVTAELQGFSPIIPKNLRDSNLPAAGFKIKINGSKEGIVAISFPNIVGSNQIGRINEKVKGGITFKNNHLLDFDPKKGEISLLSDIKGTKVIPQYNINVKPEIALSSFVWKNRYETNEPWNYIINGKDFQEEEHEVTGFWDDPAGILILPYEENEVKFVISWYATGKWIQYPYGYNYHKNFSNSLEVGEYFLKEFDRLMKETFSIEKSIPDWLKDAIINSSYILSSSTILDDKGRFGIYEAPEVCPCVSTIAALCYEGGSLPVVMFFPEIEKEYLNYLGSKMRNDGYVPHDLGLYSLDLPIDGTTSPPKWKDTNPTFILLIYRYYKFTGDINFLKEMYSKLLKAFNWELEQDKDGDGVPETEGAGDTGFDTTPIKGIDSYTTSLYIASILAMKEIASILNDKDTQEKMKDLLEKSRKVYSSLFNGKYFIAWRNEKEEKDFLFMGQLFGEWWAEILGLEKIIEEEKISSALKYLLNINGQASEYCTPNMVKENGEIVNMGPQSYSSWPRLVFAIGWLGYKRDKKWLDVVKKEWDNLVKNGLVWNQPSRINSKNGKPEPDRYLDHYIGNASIWSFLF;locus_tag=LOCUS_09260;note=WP_156015680.1 GH116 family glycosyl hydrolase (Sulfurisphaera ohwakuensis) [pid:51.6%25%2C q_cov:99.9%25%2C s_cov:97.2%25%2C Eval:4.3e-195],MGA_927
sequence1	MetaGeneAnnotator	CDS	859432	859797	.	-	0	ID=MGA_928;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978741.1;translation=MSKVEFPDGRQVEIHKLIGFIYGLCESETNILHLLLTSGEKLSEEDIALRLNLARTSINKPINALLSKNLVKREKQCEGKVRKPKYVYYTDKVEIYNKIIQDLEDIIKKYEEAYKVHVHKV;locus_tag=LOCUS_09270;note=WP_010978741.1 helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:46.5%25%2C q_cov:93.4%25%2C s_cov:91.9%25%2C Eval:1.3e-21],MGA_928
sequence1	MetaGeneAnnotator	CDS	859996	860493	.	-	0	ID=MGA_929;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156007889.1;translation=MSNENNNQNDDEKKKTVTVRGVDKDLYEKAVLTARETGRTVGEVINQALTSFLGITNKASRTIDQIIQGAKDTGKSFMMGYEDAKKNVTIISDLEELTVTKEEIMQSGKTLSFRNIKKLTLDIDQNTLNYIDSIIGVDDLIIPSTLNKISLLEKCKFVKKIETKS;locus_tag=LOCUS_09280;note=WP_156007889.1 hypothetical protein (Stygiolobus azoricus) [pid:52.8%25%2C q_cov:97.6%25%2C s_cov:95.3%25%2C Eval:3.9e-44],MGA_929
sequence1	MetaGeneAnnotator	CDS	860548	861534	.	-	0	ID=MGA_930;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGFVMMETIYPQRGGIHEQVYLLLRELKKYEDAEIIAYSKRNVEEKGKSLLWLREMSPFFIDRIIKGKYDVLVSETAWAILPTLISSKLSKADCILHLHSIESKQDVGLGMFGRNIIRFLESFSDYCNTILVPSENDAKLLKKKAIIFPNIIDTDAFNEKPQDLKKPAVVFVGGMGYPPNREAAEFLIRVSKRVQEMGRNVNFYLVGPSPPQVSPPIYATGYVRSTIPYILGADICVAPLKRGGGVKLKVLEYMGSGKPIIATKKAVEGIEKINYVNAETEEDFATAIINILEDKTNINFEENKEIVMNNHSPKSAVQKFLEVIKK;locus_tag=LOCUS_09290;note=WP_157860104.1 glycosyltransferase family 4 protein (Methanosarcina acetivorans) [pid:30.2%25%2C q_cov:47.0%25%2C s_cov:40.6%25%2C Eval:2.9e-17%2C partial hit],MGA_930
sequence1	MetaGeneAnnotator	CDS	861740	861952	.	+	0	ID=MGA_931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKVDIRHRQLTKTFPIYVFIEVFYFYEMFENDGISFITKIIILLAIIFGINLLVLVDYNNYTSKKIKGY;locus_tag=LOCUS_09300;note=MGA_931
sequence1	MetaGeneAnnotator	CDS	862181	863383	.	+	0	ID=MGA_932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFIPEIDTIFVVILSVYLSFFASINLLMLSLGKRKDEEKIKDYNDKVAIIIPVKDDESILNSLPYYKNIDYKNYFVVIVDDSDSVEISRKISSECENWECIHIIRPKEERKGRKGAAINYALDKISNLNPKYVVIMDADHRPPRDFLKLGVTLIKEKKVDAVIGYQKHDLGDYGIFGHYYRISQASSIYTLIARHKLNLTPIFTGSVAIFDYKWLKERRFDETSITEDWELSLRGYIKGKFTTYVTDKLYAHCAIPKDIKWFINQQMRWAEGTISDLKKHLISILKDRKISIKYKIGLLYQGLLYSQALVILLSFILYFVFPFPQGLISVILTVLVAIDTISWIGLIIRGAQVEKMKINLQLIIFSFMMIYTMSIFYAYSTLRGLIFHKGRWIVTKRRS;locus_tag=LOCUS_09310;note=MGA_932
sequence1	MetaGeneAnnotator	CDS	863383	864048	.	+	0	ID=MGA_933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLNKLKYSIGSAMFFFGSLVFLIIFTEIFIMNYSFNFDNFHLMSFGYPWASERVMKYTGFIKMPDFSNSNPDVYFLNYGEAMFISLIFGVYGVFLSEKYMTEIKNKENKILSRTFFTLFLISFIVTLIAFIRIQVLSSFYFIGNTLLVPDDRYSILNRIIVNYNIDPSNIIRYNGGVFGTQKIWIIDWDILLLLSSGISFVSYILWKYFSQIIVNKHEIQ;locus_tag=LOCUS_09320;note=MGA_933
sequence1	MetaGeneAnnotator	CDS	864134	864343	.	+	0	ID=MGA_934;product=RNA repair domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978686.1;translation=MVFWKYKDLSQFKLVIYDRFTITSEIPFEEIERVDNNYIYLKDGETVIPIHRVLEIKKGNYSIWKRKNG;locus_tag=LOCUS_09330;note=WP_010978686.1 RNA repair domain-containing protein (Sulfurisphaera tokodaii) [pid:61.5%25%2C q_cov:94.2%25%2C s_cov:87.8%25%2C Eval:4.3e-17],MGA_934
sequence1	MetaGeneAnnotator	CDS	864345	864602	.	-	0	ID=MGA_935;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANQKDVESVIAVYSETGIFGVLKNEEKNVEDVSSDPKIQVYACGVAMKMNNLTENDLAKGVKVAPISFYEIAKWQKEGYIYLRL;locus_tag=LOCUS_09340;note=MGA_935
sequence1	MetaGeneAnnotator	CDS	864754	865158	.	-	0	ID=MGA_936;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSKVLFITKEGKFYYDGDVHKVESITDLTNVEIKFSMPMIVYDVDNVNLDYFIVNYGNLQVGEYNLANIINFIVQYNYLLFVDHSKKRIDIYLNGGTEISLPYGYLDLLRYLLAKISSGVLLESTDFTTLYSF;locus_tag=LOCUS_09350;note=MGA_936
sequence1	MetaGeneAnnotator	CDS	865310	867061	.	-	0	ID=MGA_937;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980561.1;translation=MQSDNRLRKTLTRWELTYLSLGGIIGSGWLFAPLAAAAYAGGASIISWILGGILMIFIALSYAEISSAIPKSGGIIRYPHYTHGRIVGFTMAWVYLISAVSTVSIEAIATTTYLSHFVPSLYNVQEDSLTLQGILVTYVLLLIFFFANYFGVKILGRISHGIGWWKLIIPTVTAILLFIYFNPQNFSNFISNNVEGYGGINGILYAIPSSGIIFSYLGFRQAIEYGGEGKNPQKDIPFAIISSLLIAMLIFTILQIGFIGSINWSKIGLSPGDWGSLLSSPLSNAPIYSVFEINGVSLFLDIWLSILIFDAIISPAGTGIIYTGTTARTFYGSATNGYLPRIFSEIKKTGIPEFSLIVSIIAAAIFLLPLPSWYAIVSISSSATVLTYIMGGIGLHSLRHVASDLRRPYELKLWKIIAPISTITAGLLVYWSGFSTLFYIIVMGLLGLTVFFALNSKMKIINITSGIIILFSSYLFYMATNGLNYSNNIGLLLFLLMITSTIILQSLFINIPIKEIKASLWLLIFMLGIMPLSYFSPFGLVDLIPFPYDLIIVSLILIGIHYAAVKSSIRTSELEEIINANAV;locus_tag=LOCUS_09360;note=WP_010980561.1 APC family permease (Sulfurisphaera tokodaii) [pid:45.5%25%2C q_cov:99.5%25%2C s_cov:97.1%25%2C Eval:4.6e-150],MGA_937
sequence1	MetaGeneAnnotator	CDS	867546	869585	.	-	0	ID=MGA_938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGITEYIASLDPTSFEKFIADEFLPKLGFKNIKWVGGSGDRGVDILAWKEELDGIHKYAIQIKRYTSTKIGEKTVRDLYTSMKLQDCDKGIIITTSDFTVDATEVASKLNILLINGFQLAKLIQQNQVRVPMVSPTKISEDSQIIENEKEDIKEIKVNEGVYLDIDIENVINKAENLVGKYGNYKIKRTEAILKRLYVFQVKIGYNLQNDRRRKVLSSQIALDGAGEDVSELLETPMQRTIMASEVKYEKLNIEYPKIANLAVELLKRRLPNYSQIIDISKELKKKAWFLDTYNIIFQVELTEAIVSINRNKLNVSFKPIDNDKLEKLALMEIKRETELKNSPKISRNKDGYIIDYQDDKVEIQIELNEVGKIIRKNVRITKDYAIKLAQSKINGNIVKVEGNYDVFLSGDYLYKCHVDSSSKNVSCNKIGISLISAQKIALENFINSMFSKPMKTEYELRDSWIILESGVTGSVKYEISLDGTIKSLNKDINENYVKIFIANHGYNLQSIKNQDKKIFAFAYDSNFNYEFAWKTSGELIYQKSKVNDSYAIKIAYSAFNMQGNCKENLMREKESVNVDLMCNNMHYLTKISDSGKILSLKKVPDIASIKMNNIIFIGYKEDGITIKTDNGNKFEYIMLNYEGSIIRKDECNKGILNKLKCLKLDSEYKPKTKNPLELL;locus_tag=LOCUS_09370;note=WP_012257550.1 restriction endonuclease (Chloroflexus aurantiacus) [pid:36.2%25%2C q_cov:18.6%25%2C s_cov:35.3%25%2C Eval:2.5e-09%2C partial hit],MGA_938
sequence1	MetaGeneAnnotator	CDS	871391	872713	.	-	0	ID=MGA_939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979805.1;translation=MSLLFSHYNKEIVKREIYNFSKQRWIALYGSTMFRYDKQGNPLVFENEDSVAKKISEFKARTVYATAGKYEEVTKDNIEKDNLLYYTPFFDIDTKIDKWEYAVKAAEVIVSQLEKEGVEKSIYLLWSGEGIHVRINENSIPKDYYPLTAAHAIVQYIIEKSRNDLQKLSESSGGVLKVDELIDSKRIFTAPLSFHRELNYVAVCFSPDKLSKFSLDWANPQNFIHEEGIYERYEENETEDLLTKAIQSYKPSHEGVKPRKRKVTKTRENTGESMNEAKIGRFQVMGIVQAARYYVLYGNMDKAKSFGLNRAIFYAWAKYYGKGYAPKYSKTTVPSEFRKDRVLANVAGEQVYQDTEKGYYIIGDKMQTPEDYDREIKDKIEPIISYDKAWDATIKYVSSFPKEVLENQREFFEKVYLPIRDKFIEKVINRKSGLDAFFSS;locus_tag=LOCUS_09380;note=WP_010979805.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:68.2%25%2C q_cov:99.3%25%2C s_cov:99.8%25%2C Eval:2.9e-175],MGA_939
sequence1	MetaGeneAnnotator	CDS	873022	874206	.	+	0	ID=MGA_940;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978805.1;translation=MERLKDVYSIDKFGKNVPEWTEEVKYEFVDYIMGEKIKGSEEWIKNFQNIMNIAKEKLGLKDFILSKEMRSFLEDPRRHLVKKLFLYFHDLIRGRITPEEFSTKGRQAINSSFGSNLRGIYQSWGLLSIMILLSDKGFRIAYPEHKVINLDRTGMQKAGSIPPNAIMEDVIGRSFSFFVEAPRPIGWEDGGDLEKVWKLYSTLRPDMLIYKGFYTDIVDLSGNIPIKRPNYIVEFKELDDWWKRWRYLKGYKPFTVNEWRARWINGLYEGLADVLGKKPEDLPKFEKEEGKKIREYKIIELYMGVYNPDQGVLISRKSVGNEVKEELKNVMVIDDVEFNYNKLEELTNSMIKGIGINLNIKDLAYKYAMENLDDFRKWLREKIGIEISKEMLNF;locus_tag=LOCUS_09390;note=WP_010978805.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:61.8%25%2C q_cov:97.0%25%2C s_cov:96.0%25%2C Eval:1.7e-147],MGA_940
sequence1	MetaGeneAnnotator	CDS	874249	874893	.	-	0	ID=MGA_941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEKRINSIQIYCLLREIILIILKALTTCVRKLSAKAKNSLILSDIHYPHCDVEKIVEILNKENPDLVVLLGDIIVEKENDYKKFLKELNYKRKIIYIRGDEDVINGDTDILFLNVKNRNYILLHGNQYFNERAEYRFAKILKKINRNLPPLLFCLSFKILLRTTDYLILGHSHALVKFDNIKCANAGTLSDNHNIYMDKGYIKIDNNVELIKI;locus_tag=LOCUS_09400;note=MGA_941
sequence1	MetaGeneAnnotator	CDS	874925	876766	.	-	0	ID=MGA_942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNCQDIFDYVMNYARKDLISLKNEPLESRIQVYNELKKNRLYYENNCIKDLSFDEKNLKLGFFDLAMIRIASSLKDCKDSIVALISKDFTDDEYTAFLKLDNFLLLDYIKDTEIASALFNKTGKIYDIIKKWYDEEMYEYEKLLEPGEYKIRQTLGIALRHEYINRFDKIKSGIIAYFSKDPGAPRQLFNEYEYVIRKQYDAEIERRKIEENMRKIAEEKIDELEKEIEMLREEKEKIDKYLNNYGVKGVTLEDKIKNMITFLQGKVRELIEQKKILESQKAELENFAIKIKNESKTIIESEIRRYEDTIRELTEKIQNYQNTVSKLQIDNLELQEKINEYKNISESSIVISNTEARIMEVNFIGRLEMKMNTFPRKFLDPIRKGEINIDKSNNYIIERSDEINSLNINPKELHLYPHNTEVTYIIRKRRLLKDDLSIIIKAKFLSHIENYVKKLADDKTISLADILEYLDKSIDAAEQGKVLHVIGIASPTGFDKKVKEYIFSDDFKKNFTDYYLSVCLIDLLSGELIYNKLDNRINSYIDIFDQELDTEKIFKAKDIIKRKLMLSDAVTLSSVVREYNLTELIAKKAFYELQIENIGKIYNIKGEIILKKN;locus_tag=LOCUS_09410;note=MGA_942
sequence1	MetaGeneAnnotator	CDS	876763	877266	.	-	0	ID=MGA_943;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMYLIEVKYRNDNERKRLDYIVSKWPNKISKPEGYLLQVNDDIYSDVISEIVNKFPIDVISIYKISKIDLNEEKYSESRTFKLQRELKEVKSFMSYLISKRKGIFLGNSGEMEIYDIYTRKGIVRLYMNIKGDSSTSVFISLTGGQEAVRKLLEELTEEIKIFGDSK;locus_tag=LOCUS_09420;note=MGA_943
sequence1	MetaGeneAnnotator	CDS	877402	877992	.	+	0	ID=MGA_944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLFDKLIKNKGVKDVLKNVDIKEIKEEIGYLELQEKKLETQRQELEKEAEKLFQDSIGKSEATKRLNATKIKNLKDRIADIDKDLREINLRLGVLYKVQRLKEKAQKTYNSKVWEELVNNVDSETLEKWLVDQKIGDDEIMNKLRQLYNAQGPEEEAEEISPDEREILEAMEAVEKGEKKPEEATKEVTKEKETQ;locus_tag=LOCUS_09430;note=MGA_944
sequence1	MetaGeneAnnotator	CDS	878002	879108	.	+	0	ID=MGA_945;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867980.1;translation=MSIDFLILNQIKKLETEAEYYEKNGEKDKAYKVYEKIAYLYEEAASKALLQSTRELYLMKAGEYRSRINATKEKINGDEPDYTQIAKSMIEKTNLTWDNISGLEKIKSLLRQAVGIAISKPEKPVKIDPPRSILLFGPPGTGKTLLASAASNSINATFFNADISRILSRYVGDSPKTIDSLFLLARKMSPSIIFFDEFDSVSLNREEKENIGAGLIQKILTEMDGFRKSRDFVMVIGSTNRPWALDEAILNRFDYRIYVPLPDFEARRGIFEIELGKNNFEIEADYDDLAKKTEGYSGREISHICKKAIMSMIKRMNPDIENAKPGYKLRIGKITKEELYKSIDDTKPSVSKEIIKKYEEWNKEYGSE;locus_tag=LOCUS_09440;note=WP_010867980.1 ATP-binding protein (Pyrococcus abyssi) [pid:37.6%25%2C q_cov:97.8%25%2C s_cov:98.6%25%2C Eval:9.1e-63],MGA_945
sequence1	MetaGeneAnnotator	CDS	879114	879716	.	+	0	ID=MGA_946;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDIIQYLNEKMGIPSNVISVVSSITKVPLVSTTVTALTFFSIFAILWGYYYRKKSIDSLKEDELEKNEVELIVNNDKIERDLKYQYDRKKILEEEIRKTEGIFKDKYSKELEYVNNKIKVLESEYEDNLDRLSFVRNLKMIISHKKFLKEKGIWKQFEELSRKIEKENINIDKSILKRKEMREFLSSLNNEYELMRIFE;locus_tag=LOCUS_09450;note=MGA_946
sequence1	MetaGeneAnnotator	CDS	879727	881271	.	+	0	ID=MGA_947;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFNEKFLKLGFLIIFILLLAFLLLPFVKILILLFFVFLIFIFGMARIFPELHGHKKMKYKKHYSSMIKCPYCGTLNQKGAKYCSRCGARLTKPTIDDLINELFSRNINEVMTAINELKQIANTNINDLERYVKKLRKAERKIKNPQVQQTITQILTTIERNEVIKYNKNEKLPIEKQSVIKNHDVMQIPNYEILETIGEGGYAKVYKAKRKKDSLLVAIKVPKVPNKDFVKEIAVWLNLNHPNIVKLLDYDINPRPYIVMELMNGTLHGKTFDKDTATRIILDVLSGLKYAHEKGIIHRDIKPSNILLDTNGRAKISDWGIAKFSDITTSTNVAFTFAYAAPEQLDTHLGSIDEKTDVYQVCEVFYEILTGRPAFQGSITEVDHKKLNMQMTLPSGINPDLKDYDEIFLKCLSPKKENRYSTKELISILSNKQYTRLTTENNAYAFVELAYLNVQLDNYEQALLWVKKINTVYTKDVILSLENKIKYNIGTKEDILKRIELLKNQISSSKNRY;locus_tag=LOCUS_09460;note=WP_011986841.1 Stk1 family PASTA domain-containing Ser/Thr kinase (Clostridium botulinum) [pid:35.4%25%2C q_cov:52.5%25%2C s_cov:46.5%25%2C Eval:2.9e-28%2C partial hit],MGA_947
sequence1	MetaGeneAnnotator	CDS	881399	881548	.	-	0	ID=MGA_948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSGHVTLSSVVREYNLTELIAKKAFYELQIENIGKIYNVKGEIVLKRD;locus_tag=LOCUS_09470;note=MGA_948
sequence1	MetaGeneAnnotator	CDS	881762	882136	.	+	0	ID=MGA_949;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156015132.1;translation=MSITISAEVYYEEAEELLSKGDLVQACEKYYKAAEEAIKLLVIENNLKEIIKEVENKGRWESESLFKASKLLRNKYPEIAIQWRNAWTLHVEGFHEISLNEKEVTKLKEDVRKLVVIAVVSSFR;locus_tag=LOCUS_09480;note=WP_156015132.1 PaREP1 family protein (Sulfurisphaera ohwakuensis) [pid:42.6%25%2C q_cov:87.1%25%2C s_cov:84.0%25%2C Eval:3.8e-21],MGA_949
sequence1	MetaGeneAnnotator	CDS	882431	883486	.	+	0	ID=MGA_950;product=ISH3 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012953324.1;translation=MVTPGLPHQNNIQQIGYKLLSMLNFQGEKVDEVAKTLISACLWNDSVENKSRAYDVSPQTVRNYVEKQGMEVIEKLLERARKISLETLKGVNEIDLSIDWTTKTWYGKPVKGLGSSEKGNSWNYATATTKYKGKVLLLAFIPQVNGMTKDEIVKVLVEQVVAMGFKIRLITLDAGFYTVDVLNFISQFKYIIAVPAGDVKVFEEFDGDYKTNSKRHRRDEQVKFRLLVYSKEKVRRKKKSLVYFARATNLDLPKREVLDLYNKVRGPIETSYRNIKAFLPFTSSTKFVFRTLIFVLALVLYSLYTIFKGEVGREEFRLLLILLFPDLFNPENFTFNVIETLIYTIDLFLRR;locus_tag=LOCUS_09490;note=WP_012953324.1 ISH3 family transposase (Sulfolobus islandicus) [pid:92.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.0e-178],MGA_950
sequence1	MetaGeneAnnotator	CDS	883691	883882	.	-	0	ID=MGA_951;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVVLGLKRTGKSSLVLSTLNSLNVNCIFIDVRKIYDDVSKKVPAEKLYEELYSGLLKLSKKN;locus_tag=LOCUS_09500;note=MGA_951
sequence1	MetaGeneAnnotator	CDS	884281	884703	.	-	0	ID=MGA_952;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERQINYLTNYATAKGYKVVEVLKDIASGLNTQRKGLLKLFKLVEGRSVDVVLITYKDRLTRFGFEYIEEFFSTMGVKIEVVFGEEPKDDAQELVEDLISIITSFAGKIYGIRSHKKTLLVQGVKKLIGELSGEDSEVKG;locus_tag=LOCUS_09510;note=WP_010980553.1 IS607-like element ISSto13 family transposase (Sulfurisphaera tokodaii) [pid:89.3%25%2C q_cov:100.0%25%2C s_cov:65.7%25%2C Eval:5.4e-66%2C partial hit],MGA_952
sequence1	MetaGeneAnnotator	CDS	884995	885783	.	-	0	ID=MGA_953;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTPGLPHQNNIQQIGYKLLSMLNFQGEKVDEVAKTLISACLWNDSVENKSRAYDVSPQTVRNYVEKQGMEVIEKLLERARKISLETLKGVNEIDLSIDWTTKTWYGKPVKGLGSSEKGNSWNYATATTKYKGKVLLLAFIPQVNGMTKDEIVKVLVEQVVAMGFKIRLITLDAGFYTVDVLNFISQFKYIIAVPVGDVKVFEEFDGDYKTNSKRHRRDEQVKFRLLVYGKEKVRRKKKSLVYFARATNLDLPKRCWICTIR;locus_tag=LOCUS_09520;note=WP_012953324.1 ISH3 family transposase (Sulfolobus islandicus) [pid:92.9%25%2C q_cov:97.3%25%2C s_cov:71.9%25%2C Eval:1.9e-127%2C partial hit],frameshifted%2C insertion/deletion at around 885021,MGA_953
sequence1	MetaGeneAnnotator	CDS	886495	886947	.	-	0	ID=MGA_954;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978865.1;translation=MGVTICEELRIGKLVSSIIKRINPKKVLEIGCGNCLVTLSVEKETRLPSLISIEVWNEEITDKEVKDYLRDEDYNLVENMFPLPFKEKSFDLAYSVLYFYNKIRKERSDLANEVSKVIKDNGYFILIEPEIVRNMRKDFFNAGFLKSNIM;locus_tag=LOCUS_09530;note=WP_010978865.1 class I SAM-dependent methyltransferase (Sulfurisphaera tokodaii) [pid:41.7%25%2C q_cov:92.7%25%2C s_cov:75.8%25%2C Eval:8.5e-26],MGA_954
sequence1	MetaGeneAnnotator	CDS	887059	887715	.	-	0	ID=MGA_955;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKNEIHIAIDEAGNPNDEKPFIISAVLINDINCYLNLYEEAIKDAQRLTGKNIKYFKWSEDSPKQFKLGKDVKGIFVNKVLKNLTGISLIIRKVNETKLSNCSAKIYGEILGLHLRKYVASKSVVVHYDRTPILRESDKQYIIINFPKWTLAKVLGVDFTGHDKCELIHSADYISSIVREHVRKDELKEEYRQKVEEYFNVVIKNFKIKEVNIKDYE;locus_tag=LOCUS_09540;note=MGA_955
sequence1	MetaGeneAnnotator	CDS	887898	888242	.	+	0	ID=MGA_956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLESIKPMSKGQEELLNALTNSNYNIIGIFGPTGTGKSLFSLAYSIDSVSTGKFRKLIVAKPIVDVVTQEELTRKEYDKYEDMVKDYIKDVLGDFAEEKTIDDLFSSGKIEVLD;locus_tag=LOCUS_09550;note=WP_010979979.1 PhoH family protein (Sulfurisphaera tokodaii) [pid:51.8%25%2C q_cov:96.5%25%2C s_cov:29.5%25%2C Eval:2.9e-29%2C partial hit],internal stop codon at [888240:888242](+),MGA_956
sequence1	MetaGeneAnnotator	CDS	888303	888833	.	+	0	ID=MGA_957;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPESVLELFIRAGKNSRLIIAGNPVFQTLSNEADPSEIIREVLLNEKDAKVVDLGIKDIVRAGTKRGIRLLLEYKLRSRKLSEAEKKVMDSAKIRAPDADIITVVEFSEEKKKLNITSEHVPDALIVVKEGNAGRLIGKSGERINGIESDTKMKVRVVELKLDFKDIIRAVHLLP;locus_tag=LOCUS_09560;note=WP_010979979.1 PhoH family protein (Sulfurisphaera tokodaii) [pid:63.7%25%2C q_cov:100.0%25%2C s_cov:48.4%25%2C Eval:1.7e-59%2C partial hit],internal stop codon at [888240:888242](+)%2C[888831:888833](+),MGA_957
sequence1	MetaGeneAnnotator	CDS	888882	889016	.	+	0	ID=MGA_958;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLKKESGDFIGQKGVNIRLVEYVIKQMFNVGVRVIQPSEENQS;locus_tag=LOCUS_09570;note=MGA_958
sequence1	MetaGeneAnnotator	CDS	889129	889374	.	+	0	ID=MGA_959;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIRTSAEIYLEEADEFLNKGDLVDACEKYYKATEDFLKYIAIVDNMSEILNQVNAKNYWESELLFKVVKKKVELIDIWKP;locus_tag=LOCUS_09580;note=WP_010978905.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:41.0%25%2C q_cov:96.3%25%2C s_cov:61.1%25%2C Eval:6.0e-11%2C partial hit],MGA_959
sequence1	MetaGeneAnnotator	CDS	889527	889739	.	+	0	ID=MGA_960;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEIIKLVQELLAFKDAIKEEITRPIKQELLSTIYDIKTTPEEVNLDKMLKEYEAKDLLDLIRKIRAGNK;locus_tag=LOCUS_09590;note=MGA_960
sequence1	MetaGeneAnnotator	CDS	889736	890041	.	+	0	ID=MGA_961;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLVVGFIPFSATPDGLVVEKVYEMWKGKDFVLDLGTDPIAAAEEVRKLSPEKVLLVGSSRYAPEGISEKEIILETTDRWEMLELLRPGLDGRYYSVSWKK;locus_tag=LOCUS_09600;note=MGA_961
sequence1	MetaGeneAnnotator	CDS	890025	890675	.	-	0	ID=MGA_962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGFTPIFNKLREKKYLNSPDERKEFIYGVIMGFLVITVIIILCILIGHFNLVLNINPKIGKLLVGINGLIAYLAFSTSFADLIYHLIKKHINEKGKSENVQQDLRTRVMPLIKSISIIKILFNRITMSIRQIDSKTILIIVTILITILIDIILGTIILILRLPVHQYLVYSGLAGGLLQYIIPIIYILNKVKNNFLYHKKSTINFQLYMYVIFSN;locus_tag=LOCUS_09610;note=MGA_962
sequence1	MetaGeneAnnotator	CDS	890956	892194	.	+	0	ID=MGA_963;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNPSISLSTVIINSILLGLFIGTFIDGGILLSNYGIPKNISQAITKTVNTLRTNFTKSYTQTVTQNSIKTQNNATNPNKLLGKYEIIELIGEGGYAKVYKARNVNDSSLVAIKVPNIADKDFVKEIAVWLNLNHPNIVKLLDYDINPRPYIVMELMNGTLEGKVLEPITATRIILDVLSGLKYAHEKGIIHRDIKPSNILLDTNGRAKISDWGIAKLGNTKTTTKDLTFTLLYASPEQLDPRLGNVDEKSDIYQTCEVLYEILTGVQAFQGSITEITFKKINEQFKLPSTINPNLKYYDHLFQKCFSVKKENRYTTTDLMKELSQKQTQDLTNSRTGAYAIVELAYMYAQNDDFEEALFWINRLRNKNNVKELDDAVAILEEKIKNNVGTKEQIIEELEKLRKLVALGKI;locus_tag=LOCUS_09620;note=WP_012584135.1 serine/threonine-protein kinase (Dictyoglomus turgidum) [pid:36.4%25%2C q_cov:58.3%25%2C s_cov:38.4%25%2C Eval:6.9e-30%2C partial hit],MGA_963
sequence1	MetaGeneAnnotator	CDS	892524	893249	.	-	0	ID=MGA_964;product=endonuclease NucS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980375.1;translation=MVLPYKIIEMPDFDTVKNILENEKNMVINIFGLCSVFYDGRASSIATYSKRLISIKPDGTVFIHNNKKMKPVNWQPSGSRIKVDINEELIISVIRRRPKEVLKIVIPIAYYITLSSLEEGEFRLYGSEAEMVKDVIENPSLIEEDFSPIAREYNTPYGKIDLLGKTSRGLLVLEFKRAQAGLDAVSQVKRYVDFIRETYPNVRGGIVAPAISKSAYNLLIKYELEYFNFPLNRKKYVELLR;locus_tag=LOCUS_09630;gene=nucS;note=WP_010980375.1 endonuclease NucS (Sulfurisphaera tokodaii) [pid:46.7%25%2C q_cov:87.1%25%2C s_cov:84.1%25%2C Eval:1.4e-46],MGA_964
sequence1	MetaGeneAnnotator	CDS	893420	894070	.	+	0	ID=MGA_965;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978065.1;translation=MEIWELAAYDIENKKAKPIIFTLFSNKLSKWSERKLHNKLVSIFYKPSDYLRMLDYLTYYKLAHNIELDHYPYYRNQVDESICVYSLTLLSLYFPKILSIKTDICPILKDAEIISREEKWILDFMNDEIEDIGYDNAHLELLILLDIIKRIKNVRPDYFLGLWLNSNVNSQDRANLENEIIRKYNYLANRNTKKYVKRVINLIISFDNIINYIKGK;locus_tag=LOCUS_09640;note=WP_010978065.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:26.5%25%2C q_cov:77.8%25%2C s_cov:76.4%25%2C Eval:1.4e-12],MGA_965
sequence1	MetaGeneAnnotator	CDS	894350	895399	.	-	0	ID=MGA_966;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048147062.1;translation=MIFDERPKDNRRDLFDREKELEKIENNIIAKKPLLLLVGVRRIGKTSVLQTALNEINETSLIIDCRKLKENYGRRDLYSLFSQSLTSRLDKLKDILRKINGVSIFGNYVELKWSGKDYISIADLLDHLNERRIIIAIDEAQKLRGPLSKEVKDAIAHAYDYDKNITFILTGSEVGLLYDFLGVNDVESPLYGRYYNEIELERFDKEKSIEMLKKGFEELSFSIKDDIINSIVNEFDGIPGWLVFAGLQYFNKRDFNEIKETAISIALNEIEKLTGKSPASRRYKTVMKCIAKGNESWSKVKECLELEEKSTISSSILSNILGNLEKMSLIKDYKFLDPIYKEASIRIKP;locus_tag=LOCUS_09650;note=WP_048147062.1 ATP-binding protein (Pyrococcus abyssi) [pid:40.2%25%2C q_cov:98.3%25%2C s_cov:98.6%25%2C Eval:2.2e-66],MGA_966
sequence1	MetaGeneAnnotator	CDS	895551	895730	.	-	0	ID=MGA_967;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLSALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_09660;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:86.7%25%2C q_cov:100.0%25%2C s_cov:16.8%25%2C Eval:5.8e-25%2C partial hit],frameshifted%2C insertion/deletion at around 895807,MGA_967
sequence1	MetaGeneAnnotator	CDS	895799	895936	.	-	0	ID=MGA_968;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQLQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVSAV;locus_tag=LOCUS_09670;note=MGA_968
sequence1	MetaGeneAnnotator	CDS	895951	896265	.	-	0	ID=MGA_969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLSDEEKISKEMLEEFSKGNFKIQLYNLEQRSYLKKSKYYLKHYWKQARK;locus_tag=LOCUS_09680;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:71.4%25%2C q_cov:78.8%25%2C s_cov:23.5%25%2C Eval:4.7e-27%2C partial hit],frameshifted%2C insertion/deletion at around 896288%2C895805%2C896015,MGA_969
sequence1	MetaGeneAnnotator	CDS	896262	896594	.	-	0	ID=MGA_970;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSIGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSQNYGRRRT;locus_tag=LOCUS_09690;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:69.8%25%2C q_cov:94.5%25%2C s_cov:29.7%25%2C Eval:7.5e-38%2C partial hit],frameshifted%2C insertion/deletion at around 896288%2C896015,MGA_970
sequence1	MetaGeneAnnotator	CDS	897955	898281	.	-	0	ID=MGA_971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGYKLKDEVNIAVIILTLMIAIFHINLVYSLVALSASVAYLMQNFRIPKIFSYIPPITIIFSPDLTGVLLSLLAVSSGYLIGRKVYFIGLIYEISLAFSLLYIVNLI;locus_tag=LOCUS_09700;note=MGA_971
sequence1	MetaGeneAnnotator	CDS	898656	899717	.	+	0	ID=MGA_972;product=IS110-like element ISSto6 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979846.1;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVSSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYIFLKDLEAKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQLQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_09710;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:72.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-149],MGA_972
sequence1	MetaGeneAnnotator	CDS	900160	900969	.	-	0	ID=MGA_973;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKREILAIALFLTSLLPFNDFIPLALILLGFISLEKEWKILPVVSILTFTISFFFDYTRGNAVLLTLSLPLILISVRYDKLISSIFFSLSIAFLPFGTEDYIILFLTSILLIGVNYRGTIISGIFLLVISAFGYPYSNFAYFYLIFGVISAVLQDKITIKKEYYLSLGAVLFPLLYHYIIPSILLSLGFGMFFPFSIVFSAIMFFTEGVKYGLFLIPIIILPYVLKKWKNLITFSLISAGISWFSAIFPPLLLFLFPIYRIEKRSLIIS;locus_tag=LOCUS_09720;note=MGA_973
sequence1	MetaGeneAnnotator	CDS	901063	901716	.	+	0	ID=MGA_974;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979694.1;translation=MKKLTLKEYFNYLPKLNTEELYLFYLISRDREAKQMGLSIDKILFRIKEEDPEKATRILEAIRQNVEFQVKGIKLKKEWIKIMHVLNPVNFVKASHKAAIRYVEQCKENLNIEKLYNSELPRNVDFRIFMIDIDTKDKKILEKLIDIRPRLVITTKRGYHFHVWKEDLENPQTLFKIADKEIEIKTRNSIEYVPFILQGNFTPEAYEINNVEEVKDL;locus_tag=LOCUS_09730;note=WP_010979694.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:59.6%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:3.3e-70],MGA_974
sequence1	MetaGeneAnnotator	CDS	901811	901957	.	-	0	ID=MGA_975;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRLYVFKGNYIAIKLYKKIGFKEVGVLKNEIKRGEKYFDVIVMEYYL;locus_tag=LOCUS_09740;note=MGA_975
sequence1	MetaGeneAnnotator	CDS	901935	902321	.	-	0	ID=MGA_976;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIRNVQWKDFMQIQEIYTSTYEENRDTETLGIVFLKNKPDIKSEIKWFTDTYIRVLKKEGILMVAEDNNKIAGYCGILSARPDSESAHVGILGILIKKEYRGKGFGTALLRSSIENSKGIFEKIICF;locus_tag=LOCUS_09750;note=MGA_976
sequence1	MetaGeneAnnotator	CDS	902719	903507	.	-	0	ID=MGA_977;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIPGLPHQNNIQQIGYKLLSMLNFQGEKVDEVAKTLISACLWNDSVENKSRAYDVSPQTVRNYVEKQGMEVIEKLLERARKISLEVLKGVNEIDLSIDWTTKTWYGKPVKGLGSSEKGNSWNYATATTKYKGKVLLLAFIPQVNGMTKDEIVKILVEQVMAMGFKIRLITLDAGFYTVDVLNFISQFKYIIAVPAGDVKVFEEFDGDYTTNSKRHRRDEQVKFRLLVYGKEKVRRKKKSLVYFARATNLDLPKRCWICTIR;locus_tag=LOCUS_09760;note=WP_012953324.1 ISH3 family transposase (Sulfolobus islandicus) [pid:92.5%25%2C q_cov:97.3%25%2C s_cov:71.9%25%2C Eval:1.1e-127%2C partial hit],frameshifted%2C insertion/deletion at around 902745,MGA_977
sequence1	MetaGeneAnnotator	CDS	904071	904271	.	-	0	ID=MGA_978;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKLRSNLFRYKFSAKLLRTEVKAVPTATNLIHVGVSYYLVLNISNNFSLTILDSLTIVSLFKLIS;locus_tag=LOCUS_09770;note=MGA_978
sequence1	MetaGeneAnnotator	CDS	904453	905451	.	+	0	ID=MGA_979;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPICKIFDPYPKSDRKDFFDDEEVIEEVEKLIEGKIWPLILGPKRTGKTSILKIVSKEINGIYLDASGVNTLKELGNLLINSISQLKLEIDLKIIRLQIEKKPVNGLQNLLNKLDNTVILIDEVQNIITPWFITLLSNSYNNSQVRFAFTGSMIGLSKTLTGEGKGKLGSSFKGRPIIEIEVNPFTEEKGKEFLQYGSELCGFQIKSSEIEDAVRTYRGIQGWLTYYGNFRSLGYSHEKAKEFVLNIAKNIIRDELKQLSVTQRYIINALSLIDEIEWKDLKRLTESLNKIELKDSIFNNALKHLVDSRLVKKNNNKYGLIDPIYKILNKKS;locus_tag=LOCUS_09780;note=MGA_979
sequence1	MetaGeneAnnotator	CDS	905739	906935	.	-	0	ID=MGA_980;product=RNA-guided endonuclease TnpB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056452.1;translation=MPDVGLRFRAYTNEQTLRALKAQLRLASEVYNTLRWADIYFHERDGKGLTKTELRQLALDLRKQDGQYKQLYSQTVQQIADRFYDARQRFFYGLARFPKEKKAHKWYSLVYPQSGWKILRVRGIRTKSKKKVITLQLSNLGIFNVVVHRDFPLEKVKRVVIKLTPSGRVYITFVVDQEYPQLPKTNKVVAVDVGVEKLLTTSDGEYVPNQRPYEKALNKMKRLHKALSRKKFLSHNWFKAKIRLARAHEHLKNLRKDMYMKLGKYFAEHYDVLVMEDIHVKQLVGKSLRRLRMRLHDVAIHELRSIMEYQLGKYGKKLTLVDPAFTSMTCARCGHVKKDLTLADRVFVCPKCGWVADRDYNASLNILRRSGSERSLVPVELRPLPLASLGFEAGSSVR;locus_tag=LOCUS_09790;note=WP_011056452.1 RNA-guided endonuclease TnpB family protein (Thermosynechococcus vestitus) [pid:28.9%25%2C q_cov:90.7%25%2C s_cov:90.0%25%2C Eval:7.8e-31],MGA_980
sequence1	MetaGeneAnnotator	CDS	907072	907575	.	+	0	ID=MGA_981;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVSSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYVFLKVESKVQEQGKKSTIPK;locus_tag=LOCUS_09800;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:67.5%25%2C q_cov:97.6%25%2C s_cov:46.5%25%2C Eval:1.8e-60%2C partial hit],frameshifted%2C insertion/deletion at around 907648%2C907530,MGA_981
sequence1	MetaGeneAnnotator	CDS	907526	907714	.	+	0	ID=MGA_982;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVKYKNRVKRALFLSDEEKISKEIEEFSKGNFKIQLYNLEQRSYLKKSKYYLKHYWKQARK;locus_tag=LOCUS_09810;note=MGA_982
sequence1	MetaGeneAnnotator	CDS	907729	907968	.	+	0	ID=MGA_983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVREYRRRVISTCAACSTSSLR;locus_tag=LOCUS_09820;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:61.7%25%2C q_cov:74.7%25%2C s_cov:16.8%25%2C Eval:1.2e-14%2C partial hit],frameshifted%2C insertion/deletion at around 907648%2C907530%2C907909,MGA_983
sequence1	MetaGeneAnnotator	CDS	907935	908114	.	+	0	ID=MGA_984;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLSALARKLARIIWSVWYNNKPYEPK;locus_tag=LOCUS_09830;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:85.0%25%2C q_cov:100.0%25%2C s_cov:16.8%25%2C Eval:7.6e-25%2C partial hit],frameshifted%2C insertion/deletion at around 907908,MGA_984
sequence1	MetaGeneAnnotator	CDS	908199	908366	.	-	0	ID=MGA_985;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLECFDINEKPILHVKLSDLKKENSAEVDVLVDTGFSGWLLLNYEIYLNKGVQ;locus_tag=LOCUS_09840;note=MGA_985
sequence1	MetaGeneAnnotator	CDS	908344	908634	.	-	0	ID=MGA_986;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKAKASIEGISVSEAINEAIKLWLINKDLDRIMVIKSKDFWDAVNEGKYALFCDSNFIGGFKNEDEMIKEARKYNKCYALSKKWLIGEGELPGVF;locus_tag=LOCUS_09850;note=MGA_986
sequence1	MetaGeneAnnotator	CDS	909174	909401	.	-	0	ID=MGA_987;product=AbrB/MazE/SpoVT family DNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980667.1;translation=MVKVTEKFQIIISKEVREKISLKPNEEFEVIALNDNEILLKRKVKKVKNPLKVLISNEEMEEEIPSEKIDELGEE;locus_tag=LOCUS_09860;note=WP_010980667.1 AbrB/MazE/SpoVT family DNA-binding domain-containing protein (Sulfurisphaera tokodaii) [pid:65.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-17],MGA_987
sequence1	MetaGeneAnnotator	CDS	910140	910397	.	+	0	ID=MGA_988;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYVVKVDNKGRIKLPKGLDEASSVIIIDAGTFFVGIPVPKDPLAKTSGIIKTDLSVRELKELAEKEAEKDALERYQRRQHADRK;locus_tag=LOCUS_09870;note=MGA_988
sequence1	MetaGeneAnnotator	CDS	910381	910797	.	+	0	ID=MGA_989;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIESDVLIAHLKTEDRLKEESEKLLLKIAKGELSVIVSREAIHEIYYVLRNMNLSVQEILDKIGALKSIPNIEWIPTTIDIDLLALALMSQYNITSIFDAYHAATCLIYDKEKAIISTDHIYDKIPGIKRIDPKDIV;locus_tag=LOCUS_09880;note=MGA_989
sequence1	MetaGeneAnnotator	CDS	911207	911995	.	-	0	ID=MGA_990;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIPGLPHQNNIQQIGYKLLSMLNFQGEKVDEVAKTLISACLWNDSVENKSRAYDVSPQTVRNYVEKQGMEVIEKLLERARKISLEILKGVNEIDLSIDWTTKTWYGKPVKGLGSSEKGNSWNYATATTKYKGKVLLLAFIPQVNGMTKDEIVKILVEQVVAMGFKIRLITLDAGFYTVDVLNFISQFKYIIAVPAGDVKVFEEFDGDYTTNSKRHRRDEQVKFRLLVYGKEKVRRKKKSLVYFARATNLDLPKRCWICTIR;locus_tag=LOCUS_09890;note=WP_012953324.1 ISH3 family transposase (Sulfolobus islandicus) [pid:91.8%25%2C q_cov:97.3%25%2C s_cov:71.9%25%2C Eval:4.1e-127%2C partial hit],frameshifted%2C insertion/deletion at around 911233,MGA_990
sequence1	MetaGeneAnnotator	CDS	912489	912719	.	+	0	ID=MGA_991;product=type II toxin-antitoxin system CcdA family antitoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979989.1;translation=MGEWVTTSTKVRREILEKAKEYNINVSEVLRKALEEEVKKKEEEHARRLLDLASKEVAKINTDEVVEELKKWRKER;locus_tag=LOCUS_09900;note=WP_010979989.1 type II toxin-antitoxin system CcdA family antitoxin (Sulfurisphaera tokodaii) [pid:65.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.3e-24],MGA_991
sequence1	MetaGeneAnnotator	CDS	912701	913090	.	+	0	ID=MGA_992;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEERKIKYLFDSSAIFDLTKLGGKALDFLKNNYTITLAYYELGNILWKYKDKLGIEAVFNALSAALSFVNIIEVKLDKEIVEEAIKNNLTYYDSAYLVTAKRIGAKLVSLDKDLINNGAITMKDLLKMN;locus_tag=LOCUS_09910;note=WP_198429684.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:63.2%25%2C q_cov:52.7%25%2C s_cov:97.1%25%2C Eval:5.7e-17%2C partial hit],MGA_992
sequence1	MetaGeneAnnotator	CDS	913407	913682	.	-	0	ID=MGA_993;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTNETYIVSIIPYILQKVVEILKERGEKVEFKTKIQAYLEILPILEEEFNVVGKVFDSWYVNSKTLLEDTVRELKANARVVAGGRHVPVG;locus_tag=LOCUS_09920;note=WP_010980023.1 ISNCY-like element ISSto10 family transposase (Sulfurisphaera tokodaii) [pid:72.2%25%2C q_cov:98.9%25%2C s_cov:25.5%25%2C Eval:8.9e-31%2C partial hit],internal stop codon at [913407:913409](-)%2C[913747:913749](-),frameshifted%2C insertion/deletion at around 913707,MGA_993
sequence1	MetaGeneAnnotator	CDS	913747	914070	.	-	0	ID=MGA_994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNPSNDAYHQALNDAIYAALAPLEDIRKDSAIRLLLGGIIGKGTYEISQEMNMDYMTLLKNLDKIANLMKAVKNIVKDHPVILIIDDTHDHKQYARAIPVSRNAT;locus_tag=LOCUS_09930;note=WP_010980262.1 ISNCY-like element ISSto15 family transposase (Sulfurisphaera tokodaii) [pid:54.1%25%2C q_cov:100.0%25%2C s_cov:30.3%25%2C Eval:1.6e-24%2C partial hit],internal stop codon at [913747:913749](-),frameshifted%2C insertion/deletion at around 913707,MGA_994
sequence1	MetaGeneAnnotator	CDS	914335	914709	.	+	0	ID=MGA_995;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERYLGIPVKLLVVDDYKGYGRRYFFSTNVNDTAEDIITTWENRWDMEVLIRELKVLGLEKGSFLTWLRNKGFIVLKAFSLFVVLLFKYFTGLNLGAKRITRLIKSIYQASGGIKKLFKRKRKT;locus_tag=LOCUS_09940;note=WP_010980023.1 ISNCY-like element ISSto10 family transposase (Sulfurisphaera tokodaii) [pid:76.9%25%2C q_cov:97.6%25%2C s_cov:34.3%25%2C Eval:7.8e-51%2C partial hit],MGA_995
sequence1	MetaGeneAnnotator	CDS	915038	915523	.	-	0	ID=MGA_996;product=PIN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979747.1;translation=MIILDTSFLYSFLNKNDANHNKAVELMNKIISRKFGKPIIFEYVIDELFTLMINKQPFSYIEKVIDLILQDVEKNIFQIIILTDRENSLHDIIRLFKKINEDPNRKKKLSFTDCAILFAMIQNDIFYLASFDSGFDGILEKIEYGIYALSSDKILNLKKIL;locus_tag=LOCUS_09950;note=WP_010979747.1 PIN domain-containing protein (Sulfurisphaera tokodaii) [pid:31.4%25%2C q_cov:85.1%25%2C s_cov:87.5%25%2C Eval:1.1e-11],MGA_996
sequence1	MetaGeneAnnotator	CDS	915523	915939	.	-	0	ID=MGA_997;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLAINYIVKGTSYRLVINAEKLKVYEELDNVLKEICEKFNGEVEEYSASKIVEELPLGKIIMPIATNVTLHSSDIKFSDDDNLNFIIKTLLGTKIGLVAGHLIDSSISREEKVIDIKNPCERKEPSIFQAITEWKEQ;locus_tag=LOCUS_09960;note=MGA_997
sequence1	MetaGeneAnnotator	CDS	916027	916176	.	+	0	ID=MGA_998;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIFTNNTPKQEDKLYKGETKKTRYRGGGGEGPQVNPNQVVPSALQAIA;locus_tag=LOCUS_09970;note=MGA_998
sequence1	MetaGeneAnnotator	CDS	916182	916400	.	-	0	ID=MGA_999;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILVEQVMAMGFKIRLITLDAGFYTVDVLNFISQFKYIIAVPVGDVKVFEEFDGDYKTNSKRHRRLHMLCL;locus_tag=LOCUS_09980;note=WP_012953324.1 ISH3 family transposase (Sulfolobus islandicus) [pid:92.4%25%2C q_cov:91.7%25%2C s_cov:19.3%25%2C Eval:1.0e-29%2C partial hit],frameshifted%2C insertion/deletion at around 916574%2C916415,MGA_999
sequence1	MetaGeneAnnotator	CDS	916569	916847	.	-	0	ID=MGA_1000;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTPGLPHQNNIQQIGYKLLSMLNFQGEKVDEVAKTLISACLWNDSVENKSRAYDVSPQTVRNYVEKQGMEVIEKLLERARKISLEVLKGVR;locus_tag=LOCUS_09990;note=WP_012953324.1 ISH3 family transposase (Sulfolobus islandicus) [pid:95.6%25%2C q_cov:98.9%25%2C s_cov:25.7%25%2C Eval:8.9e-42%2C partial hit],frameshifted%2C insertion/deletion at around 916574%2C916415,MGA_1000
sequence1	MetaGeneAnnotator	CDS	917319	918155	.	+	0	ID=MGA_1001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIAFIDENGKGTFKELNKKTNKPYPFIVTSTITTDRELDNIRNNISELKANYGLPTNMEIHASDLFHPRKNFPLSEAQIRDFANEFAKIIRSLNLRIISSVVFKDYIIKKRIGERFTVTPRLIKDDKDLSVDVMGIAYKHLFERLLKLADREYSKDWILIVHDQINVDKDYQMAKDQMNIVKIVEGELVNNAFITRTSAIGRIFKPILFANSANYEALQISDFVGYIIRKHILNENSEKFPYEKLFEIISDKLDKDPKSGKIEGWGIKIWTYFAEVK;locus_tag=LOCUS_10000;note=MGA_1001
sequence1	MetaGeneAnnotator	CDS	918831	919310	.	+	0	ID=MGA_1002;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979993.1;translation=MLEYNEMIEENIRYIIEGYSTNSLENVKSSLKNSFKLDADVIIKKRSKYKVSISFRTSPEEKIRDCSDLDEFFSRLGIMITRIIIARVVTYALESTLDSAATGGVTGGAAFKRLDVGSLIAALSGLAGYTVGNIVEKTEEIILFCEKRNGKCIKIGKTI;locus_tag=LOCUS_10010;note=WP_010979993.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:42.9%25%2C q_cov:88.1%25%2C s_cov:92.1%25%2C Eval:1.7e-25],MGA_1002
sequence1	MetaGeneAnnotator	CDS	919402	919740	.	-	0	ID=MGA_1003;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILGSVTALKDDLIVEFNNIIGTISFFIQSLDKIDLVEEDLRRIVGNLNLGKIDYIELSLEIILNGKLNLNINMLGGEVVGMEVSSERKNVRINSYMAMANSYSVLITYKLN;locus_tag=LOCUS_10020;note=MGA_1003
sequence1	MetaGeneAnnotator	CDS	919899	920357	.	+	0	ID=MGA_1004;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKIDVNSKYFYVMGILKIAKDLGVSVSATKLQKLVFLIEKELNFNLGYEFIPYYFGPFSKELQDDVYRLKNLGYVEVKEEAVEDFVSGAIIGFKKAYKISDKVTFDFSSLDKNFVEFVVTHLKIPLDDLLKYVYVKYPEYTVNSVIKDRVF;locus_tag=LOCUS_10030;note=MGA_1004
sequence1	MetaGeneAnnotator	CDS	920370	921347	.	+	0	ID=MGA_1005;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSPQFFLEYIEDGIVDWDYALDARENIRNKYEKLLKEGSITKEEFEKYENRKINYLQQAVEKLSKGLLLIYAGIILLPFMIVAEMSNFGIKHPREMQEIINNARNHIKKSVSLNEIEKLGHEPIKESNLKELLELTQRNYRRYLGNEGIAKCLKSVENFITSSIKNRKWETLWEIVKKCEKLFNLSQLMKENLQLFVKCINNDKESCRKLNLSDAVLDQLAKNPYIINFSFAMTEMSIKEFIDMSILASYLEPLSTITRYSISSNPAYITRKELLEDVREHQDDIISFLEMKVQIVKNLVKNDEFVENMSKLYEVFGKILQNP;locus_tag=LOCUS_10040;note=MGA_1005
sequence1	MetaGeneAnnotator	CDS	922157	923386	.	+	0	ID=MGA_1006;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846674.1;translation=MNVEEIKSVLKEQREDAENLMSRAIPRDVPKEELLTNLSIPNVLAILGVRRSGKSTLSLLLLKDKNLAYVDFDDERLRNLKSEDLHMVEQAIYELYGNVDYILFDEIQNIQGWEPFVSRLRKTKRIILTGSNSKLLSGELATSLTGRHVDFTLFPFSFKEFLRFKGVNYSEPLTTRERAEIKNYLREHMSIGGFPEALLLNSRQIVNSIYNDILFKDVVQRLKIKRISKFKDFSSAVISLYSSEVSLNRIARMLRIDYKTVDEWFYGLTTSYLIYSVERYTGKLSRIAENKKVYVVDMGIIQEVSIKKDMGRLMENLVAIHLLRKNQNKGVYFVKGEEYEVNFLDEKNGELIQVTYDEEGIKERELSALTKASSLLGFKPKIVTWDMEEIMDYNGKKIELEPLWKFLLR;locus_tag=LOCUS_10050;note=WP_052846674.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:49.0%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:1.3e-105],MGA_1006
sequence1	MetaGeneAnnotator	CDS	923627	923872	.	+	0	ID=MGA_1007;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846983.1;translation=MSEIIRVSKDVKEKLVKIAAELQLNKGKRVSLNDAVEYLITFYEENKKSQKNVQLLFSLLGSAKGIREELERSRREDEGSS;locus_tag=LOCUS_10060;note=WP_052846983.1 hypothetical protein (Sulfurisphaera) [pid:80.3%25%2C q_cov:81.5%25%2C s_cov:81.5%25%2C Eval:3.1e-23],MGA_1007
sequence1	MetaGeneAnnotator	CDS	923856	924251	.	+	0	ID=MGA_1008;product=PIN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979701.1;translation=MRVVVDTGVLVEVLEGSDLGEKFLKLVNSSKLEPIITNLTLIELTYIICRKYGINKARELVKKLLDSGYFEVVNALEFADHIIETKCNNSISIIDASVIATAKGLGIQALFKLEKELKDKKLENVIFIENI;locus_tag=LOCUS_10070;note=WP_010979701.1 PIN domain-containing protein (Sulfurisphaera tokodaii) [pid:75.6%25%2C q_cov:100.0%25%2C s_cov:97.8%25%2C Eval:7.1e-52],MGA_1008
sequence1	MetaGeneAnnotator	CDS	924765	924929	.	+	0	ID=MGA_1009;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQIVFRSTVSSYGTDKYGNKRYGITIPSKLRDKGEKLYGKEVIVIVILPDDEE;locus_tag=LOCUS_10080;note=MGA_1009
sequence1	MetaGeneAnnotator	CDS	924931	926007	.	+	0	ID=MGA_1010;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009074107.1;translation=MIGSREALDNFQFVTINSRVLFNEKERVVRIARAYSQVVKSAIKQLFDGKSIDELTKEFYNVLPNYIYLETALKQAKTITDGLLDREDEKGEIIHARIRRFWFGSRGNKSDKGNRNIKFHVLEDHVLIKVKDPWGKWVFGKAYFGKEYLPLLKELEDLASKKVEGYGAVVSFKDYPMIHLQVPLWLYLKHFSSLKPNGYGLIAGFDLNSDRLNVVVISKDGEIIANKTWWYSDVTRPGFTKGKAMALRLNALSESLNFLSRVGVDYVVFEDLFLVKRRRFTRSKSGNRKVSRFAKRQMLAHGVIKSLRLCFNVVLVNPKGTTNSEEHEKVMREKGFDRHTASAYLIALKGLGMLNDIK;locus_tag=LOCUS_10090;note=WP_009074107.1 hypothetical protein (Metallosphaera yellowstonensis) [pid:84.9%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:8.5e-175],MGA_1010
sequence1	MetaGeneAnnotator	CDS	926363	926551	.	-	0	ID=MGA_1011;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEMGLAKNEAFNLIILYSINRTVEEIERKKKVKELTEKWLKGGLPFELPTSNDVISDREQF;locus_tag=LOCUS_10100;note=WP_052846110.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:52.5%25%2C q_cov:95.2%25%2C s_cov:74.1%25%2C Eval:8.0e-11%2C partial hit],frameshifted%2C insertion/deletion at around 926592,MGA_1011
sequence1	MetaGeneAnnotator	CDS	926915	927448	.	-	0	ID=MGA_1012;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSLKVEKGVLEENCCKFFIKDDNVLLFIDMEEVFRGLNKVEDEDLRKFYTGNLEEIGINSREHCDAIEIVRDAKGELIIKIIELTSMQGRDLHTLLNKMNFCIAFINTLVRRSLYLSANNVRYVTVFVVNPNDVDKVKEFIERNRDIITNTYRWLYYFTNTLVPEVIPCGKTVQLN;locus_tag=LOCUS_10110;note=MGA_1012
sequence1	MetaGeneAnnotator	CDS	927507	928919	.	-	0	ID=MGA_1013;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979208.1;translation=MKLHLSNLGPIKHGEIELGDITLFVGKPNTGKSTAMKALFYSLYCPGNLIKLKQDSFEVKDNLFLLRFTIDREGTKENYKSFISDSLPEGEFKLEPINVLDFILTQKLSYEEEYRPSTLPPMYFSKTCSDKDIERLRFSLSNTIYKISVNGDKGEVKVDVSDVSETCLKDNETLSSISTIMLNIAEQPVNSQYCIGFNESLSKNGINGVVYIPYGRSFLVLQKFILQEILNSPTSALPSPFSLLGEVISNIIRGLVMAINPPFKITRPNYLTEYFKGLTTYNEKVFNLIKPLLKGQIANDGGNLVYTEENKKIPWEYVSASILEIVSFLLSVKVGSLILFEEPETQLHEELQLLMGMVLYALSSINRIVISTHSQTIVSTIAHLSMLKPTKEELKDLFEDLEVKDYEALAEAVEKANEKVKVKVYHFTEGEVKDVSIDYVVRGLPGTKDVLEKEFRWFSSLHSKRLFGQK;locus_tag=LOCUS_10120;note=WP_010979208.1 AAA family ATPase (Sulfurisphaera tokodaii) [pid:33.1%25%2C q_cov:99.1%25%2C s_cov:98.3%25%2C Eval:5.1e-64],MGA_1013
sequence1	MetaGeneAnnotator	CDS	929184	929801	.	+	0	ID=MGA_1014;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHWIEYYNGPVPYEHLSARHKTLVKMNYMLITSEVLSRLSDLFISRALIVMIVWTCSYRDVRSYYESDVVVRWFLGEYKSKSEIHRRAKKFRGEIKTLFKEYAKELEGKMSRLADYLPSSALYGKVGKLWIVDSFLIEVPFGKRNKETLKKKFELELRQRKYREAANTLFFYIKCKVRRRFKGEFTKKRNRSSASRSSTSCRLQ;locus_tag=LOCUS_10130;note=MGA_1014
sequence1	MetaGeneAnnotator	CDS	930338	930595	.	+	0	ID=MGA_1015;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKVIEKGITGTYNVGTGVGITNLKLLEIIEKVLGKKAKVIYEKERPGDSKYRVANVKKLKEIIGYTPRIGLEEGIRKLKQYFGY;locus_tag=LOCUS_10140;note=WP_012868775.1 GDP-L-fucose synthase (Thermanaerovibrio acidaminovorans) [pid:34.3%25%2C q_cov:82.4%25%2C s_cov:21.7%25%2C Eval:4.9e-08%2C partial hit],MGA_1015
sequence1	MetaGeneAnnotator	CDS	931006	931473	.	-	0	ID=MGA_1016;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDSHFVDFDLTGRTVIHAGAYVRETALYYAKKGAIVYAFEPNPDCYKVADLNLKLNHELAKNIALKNYAIGEDDYVEFPKIKCSGAASVYSNVKDKVKVRSVSISTILKEFKINNPDILDIDIKGEEFKVIYDKSLEKFKIIRIEYTTEIEGKN;locus_tag=LOCUS_10150;note=MGA_1016
sequence1	MetaGeneAnnotator	CDS	931709	932632	.	-	0	ID=MGA_1017;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKLILKPLEEYRIGLRQSSGIVIENVDVVSAFPSPTTILGIIGKLGNSKPSDKHEIQDLKEAYKSLTSNELDKNKYNAEDPLIWGPIIKKDDTTNLSVYYPLLFNKVILNVEKYLNLALNPSDINYMEIVKDLHIQRRRMNQINRDSKDTIHLFYQKFFSNEYILEYCVNVNVNDDKVVKLGGENRYSKIDIISSKYNYSEGNYAVLLQPLLFEAGDDYFVKFDKVKGFKCIDEIYGILVEKGNRVDFKVKTTYYALGYGNERRPMLQALPPGTLIKVKEECKEAKALGILSQLGFGAIYRIKNT;locus_tag=LOCUS_10160;note=MGA_1017
sequence1	MetaGeneAnnotator	CDS	932629	935787	.	-	0	ID=MGA_1018;product=type III-B CRISPR-associated protein Cas10/Cmr2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846691.1;translation=MVDDNFFLYKIYALFHDPPHKMTVNLRQTGYEFFRDLVKEQKLCECLTVKIYSELGLNNRDRIYNICEADKNEELNNSKHKEENSRHKKVKNRYIKAHEIEALLFLSYLVWDTNFFNSMKQTVGSLALPMLKNNEAKKAKQIVHSADIYASEFNRWVLNYLYLSHVSGGMVKYFNFHNIFNPEKFSESNYDINKNNLEKFSNKFKSIINTNNISSIGDLYFLIYTIYEPLWIYYNLPVEVEDSRAPYFTIFDHLYASAAMVNWTYFNGKPKKTKPVKPSGFYVVIDIPGVQGIINSARKASDYWAGSWMLSMIIWLTAWQLIKEYGPDVLLAPTARFNPLYYAMVMNYLKTKGVIDDSTRKEIDEILNSVLGDLSGIYDYKNFLREPIIPATISLILAKEERSCEIKTKILKYYRDAYNCIAKEIPRGKIESGLCKEFITAFGIEKLNSGKNEEPFVRALVKEAERYTDMLLIRPAIYIIDIDEVKSEIEKDINNHEDLHKIQPSIYKQPSKYKWNHKMENDPCELSPYFSSYYLFHYISTKLYREKIKEIYKREVLPKPEWFNNLERKFDYKNGGKDWEYCTVCGNEPAIFNFRKKEREDDYSKETKCELKNLVNYDSNRLEENDEGLSRLKVWFKPGEKLGPLCILKRGLYYSLHYAGLKVFMSTDDIAYSYYKEAINPEVENIEGCEKFEEFLNSEETNVYATFGNPITARKVINKCSSITEKSLSCLTKEYDIDRATKSFVNTIKGYRDSYAIIKADADDMTELARAEINAVKYIKITNNIKTNNIEKSYDYACSLAEIINNGYILMSPTYRVALSTAMMITLLRDIKTVEVDNYGQIIYAGGDDVVALVPIDRLIDTLIGLEKNFVSEDGFFKVRNWYIPSMSPHGRSFSVRISNIADFMTNEIQTATELLNEVKTVEWCSNGDYKKKFSVIISSSRSNYVSILPMGDFKNLELLKKMWLLNLSGILSSSVFEDYEMGFKKLVDPLSDKENAQLINRLINYVLIRNNGKDLKRDFKINIMHVTARDYKKSNIFDEIFKTFRLMRGIL;locus_tag=LOCUS_10170;gene=cas10;note=WP_052846691.1 type III-B CRISPR-associated protein Cas10/Cmr2 (Sulfurisphaera tokodaii) [pid:23.5%25%2C q_cov:77.9%25%2C s_cov:80.8%25%2C Eval:3.5e-45],MGA_1018
sequence1	MetaGeneAnnotator	CDS	935774	936670	.	-	0	ID=MGA_1019;product=type III-B CRISPR module RAMP protein Cmr6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980049.1;translation=MQANNCIFNAIQYYVSNMLNNPYKKEEIKRELLKNLVSCSFSEKMDIANKSLEEGVNALRSLGYCAIDIKARTTKKLYVGISEISPFYLFFETGLTWNLALDLPYIPGSIIKGTLRSYMIDLCRENEECISYVYQIFGIPENERHRSENVEIYVTGLDSSSSLLVALDSYPISGDKLLAGDIITPHYFKEGKVVKNEYQANPTPIPRVAINEGITFRFAIGIHRDVIPLFQEWTNSIGYNGGGLSFFVPILYAFKQGIGAKTTRGYGEFDFEDFSLVSFNFTRPKKLGKARVRVNGRR;locus_tag=LOCUS_10180;gene=cmr6;note=WP_010980049.1 type III-B CRISPR module RAMP protein Cmr6 (Sulfurisphaera tokodaii) [pid:29.7%25%2C q_cov:88.3%25%2C s_cov:76.0%25%2C Eval:2.7e-19],MGA_1019
sequence1	MetaGeneAnnotator	CDS	936660	938117	.	-	0	ID=MGA_1020;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIFDIVDQLINKNKVEFIFINSTPWWGGNEFGYTFGDEGNVTVPSANTIVGKTRWLMRNIIVQILGLNSFDGIDERFLKDLGTLNSRSKIAVRVTRCEGNANPSYYFSKNEASYIFKTAKLLENWPTIKNKQRAISSKNLIRESIGNKIDIIKNIMNFTQDDNEKIKNKYSKEGIFNNYNSIFQEHKSSLEVALCYLSESAKEYFRYFLIPRFILAHIRVDSPEEYYYMQPAKPKSVKIKVEVINNGADEDFFNFFVTSLIFTMKYMGIGKAATRGFGRFILTDQQTSDFQTEFNSLLKIGTQLVCKEACKPNFDIPIIRIDNPQIFFFKVKRFEKITGKDPITYLIAIGNATLKVAWKIAIKKNYKDKGAAYHTWTLGLPRSQHKTGYLIDEEEGRRISYITISPICDGNTCDKIYLIPFIYEEKEEFKKLRYKGGHDRQPKSIYNKAITPDKKEYPVNAVRDHVYIALSWLRYILSGGDNAS;locus_tag=LOCUS_10190;note=MGA_1020
sequence1	MetaGeneAnnotator	CDS	938117	938656	.	-	0	ID=MGA_1021;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEVDEVDYALEIGEKVLNLSKKCRGKDSIRGFRSRAREFPQMMQQMDLIPSMTFLLSKIDDSILIPSIMYFSQAEENVTEKLCNEFKEEGYTSYLIVNFEWIKFKLQDIQFIDKCIKSSKSIEEIASDLLNSYIKNDLISVLKTLKDNVELLSEVEDSVLNLSIEIKKIVDGIYSGED;locus_tag=LOCUS_10200;note=MGA_1021
sequence1	MetaGeneAnnotator	CDS	938649	939563	.	-	0	ID=MGA_1022;product=type III-B CRISPR module RAMP protein Cmr4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980046.1;translation=MVNGYSLLMKGLFILAYAVTNLHPGAGRGYGIVDLSVQKDQLGYPIIYSSAFKGPLKALCASDAINDSGRINCKRKPECCCLFGSEPDDEESSKGILNVLDLPLFSVPAPIHDGFTQLSVDYLISRTNNIFNIISEINEYVGSLGNEISLLLHEHESGEEREVYNSKAKLFNIKGFRILSSLPLFNGKLAVSKDKKVIDKSLIIYTRNRLNLLTKVVTEGGLWSEEYIPMGSFFIGGLIIDENVQNNFCGGEMGKLTCDNLRFLSYLSKVFHASKISDDIYSFYLNIGGKESIGKGLVKVFLGV;locus_tag=LOCUS_10210;gene=cmr4;note=WP_010980046.1 type III-B CRISPR module RAMP protein Cmr4 (Sulfurisphaera tokodaii) [pid:26.2%25%2C q_cov:94.4%25%2C s_cov:94.4%25%2C Eval:5.2e-18],MGA_1022
sequence1	MetaGeneAnnotator	CDS	939634	940203	.	+	0	ID=MGA_1023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGTKTPSKWIFIPIIDGITYEFNTNNNDINSIKINSQELQLVDSKKEELYYDNRNNEIKKINNVFVLFGTIATSYSNKIKIELTLNPCDYIRGFIFSVNENGLNNLADIFENYIELNVSNKSFAILNRENKLNIPSTITIYVAKCDATVCINRNETEIKNVNSGVIKINGNDVSQDLLRIFRYSTQKV;locus_tag=LOCUS_10220;note=MGA_1023
sequence1	MetaGeneAnnotator	CDS	941716	943941	.	+	0	ID=MGA_1024;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILTYMEKFKKEGFIITYESMKISKFVQRKLEALLALDIIEARDIDLDLEQIILRYVTNSDVTAYRIIYRLLNEKLIETEDKELYSEVINKVKEALNRAKVKKGPYVGFTIGNTTKLVFKSYKEQRGKNYIRWKLTEKGKKTLIDGLRKLGFSKDEIKSLLNSNPLAAVRDIRLRIVQYLDETSEIESLQRYSHLLGDTTKLTTDVSAGKIFVKTALKVLRPDETYEPKAGFAISFARDEDLLANELIKINLWKDLNVNYLNPLITNFRDYLVKFSIAMLNPVSYNEITEHLKRIVNWPSLAERGNAQKVDAYLDSAIKSGYIIRKGNLLEFVDPFIANAHSPRSILEYLNEAYFAGTILYSGMLSIPINEKQLKIRGFEINFYRSIYTITATLLWQTTYSYPLPIIAEKRDNGLEIKTDEWYKELENIPGDLVNKSAFVKTILDMDKSIAKRVISSYVTEFIKKLENGHLLRLIGSKPPYYLVPYGIYTKLTNVFRDETSNTVVETVKAIAKVIAQYSRKTGNPYMITKEELIKVFKEYSIYEPLIQKLQQEGILLNVGGSYIITPYSLPGIYLDLLKGPSNIIHAQKFSIPLLELLYKVPNEDRQVFQQFLEELIKHEKIGVSDFSKDIVSKSSNPIKLIEAYKFIQGWGLIEDKNNEIYVSPNFDNGNFGAKTILVILKELLGWKEELEGLSNNEIKLIKDFSSAETNNEIEQIIHDYQKKSQYTEEVYDKKNYDSKE;locus_tag=LOCUS_10230;note=MGA_1024
sequence1	MetaGeneAnnotator	CDS	943965	944234	.	+	0	ID=MGA_1025;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIDNIHKTNSSSEGNTSNSEESQQVTQQTTTTPTNKYIGKVIISDRAKHNKFYVCVTKDENIEVGSTILVAEDVLCGILQFFSIGTYS;locus_tag=LOCUS_10240;note=MGA_1025
sequence1	MetaGeneAnnotator	CDS	944646	944849	.	+	0	ID=MGA_1026;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYHKKLNININGVLYKNIIMQGFSNKCYHVIKDGVYKVRKSFRVPRGKEVNVKDFDVGDTLDSLSP;locus_tag=LOCUS_10250;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:75.6%25%2C q_cov:58.2%25%2C s_cov:10.6%25%2C Eval:4.6e-11%2C partial hit],MGA_1026
sequence1	MetaGeneAnnotator	CDS	944960	945604	.	+	0	ID=MGA_1027;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKIYLDLETYRPNDAFLDEKIIALGMLIDFGSSNSIDPKDEVKEYNWGDPIPSSGIWKYIETDENTTEEEIISRFYQLLEKLNDIKMIIGFNILRFDIPLLVQRGKELGVKDVKDANFLFYNTFTVDYFQVCLALNNMRFKGNKLEDCASKLEQISGQQIPKRVGKGSDIAQLYKQKKYDEIKDHLYSDLLVIRAIDLIFVDKCRKACQQEHK;locus_tag=LOCUS_10260;note=MGA_1027
sequence1	MetaGeneAnnotator	CDS	945954	946349	.	-	0	ID=MGA_1028;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITVKKDYRPFIIIGIISAAEVVGVSYYLIPRIGIYGAAIAQAFNAIITSLLYLLFSHFQGVFKLERREIAGLALIGLSFLAFINWEVVLIVVLLSFKLLGIISNEEVKVIEGFTPYSLKRITRILYLIAR;locus_tag=LOCUS_10270;note=WP_010980022.1 lipopolysaccharide biosynthesis protein (Sulfurisphaera tokodaii) [pid:38.7%25%2C q_cov:99.2%25%2C s_cov:29.0%25%2C Eval:1.5e-17%2C partial hit],MGA_1028
sequence1	MetaGeneAnnotator	CDS	947508	948431	.	-	0	ID=MGA_1029;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRSMGLISKLGNSMRFTRLLLRFVNNWFDILYLTVTNKRVNTLEVELKDNHKIFLRSVYDLYVLLNFLERGWKVKEAYENNIILCKEICLNIRTTKGADIIHLDEIYERKIYGKSFRGVIIDVGASNADSSIFFAINGAEKVIALEPFPESYELGKYNIKINNLENKVFLLPYALANYEGYTEFIISSDKPNVNTANPSPYIIGSGMKFEQKIKVPTISLISIIKKYNIDTIFLFKMDCEGCEYTVLRDLPADILNRIENIILEFHDYPKDLPDILRKSGFNVDYEDKPIGILKAYKNDKLIIQFS;locus_tag=LOCUS_10280;note=WP_010980035.1 FkbM family methyltransferase (Sulfurisphaera tokodaii) [pid:33.5%25%2C q_cov:61.9%25%2C s_cov:80.5%25%2C Eval:4.0e-18%2C partial hit],MGA_1029
sequence1	MetaGeneAnnotator	CDS	949085	949993	.	-	0	ID=MGA_1030;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQMTCKEDPDRLYFSDNIIDIIKFYYCFNDAGDLIKWSRSRPSAEINIVEKEGDSEIVFIVPTPDIKDKLTINLLESIKNFHAILVESKGKYFNYARSVNKGMAIALKYNPRWIIISNNDIIIRDDIIKLYLKLLNIDNKKVNSVVGAGGSHVFKLCKFTFLSNLLFLSKYKQKFAILKKFNSKFYFYQYRNFFDLICRPLICVKNIAFFGEFLIISPYYILRNNGMLFDETYINGVEDMDVFLNILNTSSYKPIYFNIEHLHGRTLGNNDKRYLRNYINIIYLNYKIEKNIIKINKNNIIL;locus_tag=LOCUS_10290;note=MGA_1030
sequence1	MetaGeneAnnotator	CDS	949962	951593	.	-	0	ID=MGA_1031;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILVSLNIISLLPSYYGAVSYFSSHVGEAYYVNALKFYMQSFNGSIFNVLTLTYLPSNTISLIPYYYIFISGLFVTLLVLPAISQDRNIPKIYYISLMTFLLLSAWLAAPYLFPSYIKLYSSIPYLWSLDIPWLSFTYLIFVSLSIALGNGLISIKNKLLRIISVVLLLLILFAQTYPYYNGQVLTNSATHTSYAWDPPNYLWEVSNIINDGPYKNPRILVFPTSGVYVAYNFSSNNTYVGAGFWQTLFNGNVYASYFPYNCYSLEWFITIYPSFNLSSYQPFLNAARLLGINYIVITKNFIPKYYFTTNYINKVEIKKLTSTLPSSSIIYNNSQILVYNFSSETIAVIPKYIIFVNISKPLWINVSEFHILLSALNLSFVNYSSAALVSSSYEKEITESLQNYTILYSSSDITVIKLNNVPRLEVENENPSVIIIKIAKDDYNSLIPVLIRENYQSGINEYISSYNKVIPAYSNESFIIMSNSSTIIISYNGKNVSQYMYLIYFYLLIIIAFILILMKNNVFKYCFITRFFDANDLQRRSR;locus_tag=LOCUS_10300;note=MGA_1031
sequence1	MetaGeneAnnotator	CDS	952331	953242	.	+	0	ID=MGA_1032;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980031.1;translation=MLLDTLSISVCIVTYNPDTEIVFKIIHILKNARLPIILIDNNSSDKNFLSLLQSVNTIIPLENNVGLGKAYNICCKVSKELGAEWVLFLDQDSLPLEPFSVNEVIEKLKNDAQLYYNTAIVSINSDTATKTISINEDFYLAKYIVGSGMIVKNSVCEKYKFLENLFLYSIDIEYATRLRRAGYYILAYKKQMLKYRIGETYKKYRRRIPRYLSYLLSKLTGKDLINYPFYSNPMRYYIILRNNIYLLTRRKVEITYSKYLPFFVLYLYESLGLKETLKYVLRAIKYGIFGDLDNDNKRIFNLK;locus_tag=LOCUS_10310;EC_number=2.4.-.-;note=WP_010980031.1 glycosyltransferase (Sulfurisphaera tokodaii) [pid:39.5%25%2C q_cov:96.7%25%2C s_cov:99.3%25%2C Eval:3.0e-50],MGA_1032
sequence1	MetaGeneAnnotator	CDS	953254	954288	.	+	0	ID=MGA_1033;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVEVVFFNIPHLSVGRGGEVWESQVIEYLNRSSEFKAKLITTNCCHIKDVVTSFEYKVIPLKKYFGLHLFNYIDIKNDLEEAEIVYYFNSFIGSQLPILKNIKNINKIIFGYHAKNDWNYIQRVYYRLLSYKIRNIGYHHVLTRFYYEILIKRGFNNVFIIPNFVDLSEFKRVEKDKNLIVALGAVTREKGINTLLNIAKVKKDLTIYITGNKPSMKLPKNLKYLGKLNREEYTKLLAKSSICILPTYGETFSITFLECLASGNLVLARDLPVLREISGGIESVDFASSDNEFIIKLENLMNILDNMYKFDILSNKSIERAKLFDKNIILEKFKNKLLEIAKE;locus_tag=LOCUS_10320;note=WP_008767224.1 glycosyltransferase family 4 protein (Bacteroides) [pid:30.0%25%2C q_cov:41.0%25%2C s_cov:37.8%25%2C Eval:4.0e-09%2C partial hit],MGA_1033
sequence1	MetaGeneAnnotator	CDS	954595	955317	.	+	0	ID=MGA_1034;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVNKISVIITAHNRKKYILEALSSVINNNLSKDKLEIIIVKNYKDSVIDSEIERLSKQYNIISIIENDFRLGAKISKGVKSSSGDVITFLEDDDIYLPARLSNIFQIFEKDSNIIFYHNMFEIVGDKKINEIVSDYRHNIILACNDKRKIWKQIAKTEAKFNLSSMAIRASVLRSWMDLISRINLAVDNTLFYISLTEKGYLVIDPRIFTKFRVSDKKDCTKNEKELYPFVQSMTKKFY;locus_tag=LOCUS_10330;note=WP_010980036.1 glycosyltransferase family 2 protein (Sulfurisphaera tokodaii) [pid:33.8%25%2C q_cov:91.7%25%2C s_cov:67.0%25%2C Eval:8.5e-28%2C partial hit],MGA_1034
sequence1	MetaGeneAnnotator	CDS	955673	955984	.	+	0	ID=MGA_1035;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRELFYKLSYFFLILSNKYGFTNNLHFLIKKGKIRFPSGHSIRVDRENFRDILSLYLFSIKYGVDIGNDWKIDENNYTLTTPDGIKFSLKGFDNIIFAETFL;locus_tag=LOCUS_10340;note=MGA_1035
sequence1	MetaGeneAnnotator	CDS	955965	956585	.	+	0	ID=MGA_1036;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKHFCRISILYDTHFIDYNLEGKNVIHAGAYVGETALYYAKKGAYVYAFEPQLDCYNMAMQNLRLNHELSSRIVLKNWAIGEDGEIEFPQTKCNGGISAYDNYKEKVKVRSVSISTILDEFNIANPDILDLDIKGAEFQVINDKAIQKFQTVRIEYLTVINGKRIGDLNYLIEKLEAYGFTKIRIYKHNELPLNISVNGTILASK;locus_tag=LOCUS_10350;note=MGA_1036
sequence1	MetaGeneAnnotator	CDS	956850	957626	.	+	0	ID=MGA_1037;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDESFRDFYSRERRVYEGTLEEELGIRKFEIENKRMLYYIMRELKLLFPSGINNVLDVGGGIGATLYSISQYVKISNAYSVDLYIPPEYIQKVLHNIKFVNATVYDLSKIFNENFFDVVLLIDVIEHLFDTDKAIAEIRKVLRKDGFLVISTPNLSSLANRLLLLFGYQPLGTEVSTNKHYGRPKKYNLREGVAGHIRVFSYKALLEFLKDNGFEVIKAYTVINNWPKEYSLLNHIEKFLITIDKSLGSRILVIGKKV;locus_tag=LOCUS_10360;note=MGA_1037
sequence1	MetaGeneAnnotator	CDS	957726	958622	.	-	0	ID=MGA_1038;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868277.1;translation=MVKVSVAIPTYNRKEKLRRLLNSLKESTFKDFEVIVVDDASTDGTEEMIKNEFHYVKYIRHEKPTLVAKSRNDAIEASEGDYIFFIDDDNVVERDTIEKFLNYIEKHEEVGTIAPVTCYYSSPDKVMYAGAVFSKFMRRTISLYSGFPCKSLEGKVIEVDIFANSYMFRKEAIKKAGLIPWRRIPWNGEDGYLQYKIKKLGYKNATLGSARVYHDVDIKEGVRRYNEMRLYYAIKSKIVFHRDLDPLPKKATFFMSLPIYLTYWIYVANKAGRGIRGVKAVVQGMVDGLFNVEKNRYI;locus_tag=LOCUS_10370;EC_number=2.4.-.-;note=WP_010868277.1 glycosyltransferase (Pyrococcus abyssi) [pid:27.7%25%2C q_cov:91.6%25%2C s_cov:85.2%25%2C Eval:2.3e-15],MGA_1038
sequence1	MetaGeneAnnotator	CDS	958785	958994	.	-	0	ID=MGA_1039;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLCEDLKINGVNNVIIVDKGVGAKDDENTISWESLTKTYGSFDTAKINCDGHERVIAPYNKRKFQRHL;locus_tag=LOCUS_10380;note=WP_010980038.1 FkbM family methyltransferase (Sulfurisphaera tokodaii) [pid:65.5%25%2C q_cov:84.1%25%2C s_cov:23.8%25%2C Eval:1.3e-16%2C partial hit],internal stop codon at [959152:959154](-),frameshifted%2C insertion/deletion at around 958814%2C958810%2C958734%2C958983,MGA_1039
sequence1	MetaGeneAnnotator	CDS	958957	959091	.	-	0	ID=MGA_1040;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDIRAGIGDSLIYFSLAGAKEIVAVEINKRKVEIMRGFKDKRR;locus_tag=LOCUS_10390;note=WP_010980038.1 FkbM family methyltransferase (Sulfurisphaera tokodaii) [pid:70.3%25%2C q_cov:84.1%25%2C s_cov:15.2%25%2C Eval:2.1e-08%2C partial hit],internal stop codon at [959152:959154](-)%2C[959335:959337](-),frameshifted%2C insertion/deletion at around 958814%2C958810%2C958734%2C958983,MGA_1040
sequence1	MetaGeneAnnotator	CDS	959152	959325	.	-	0	ID=MGA_1041;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDIYFHREKIKCKLRNGQVLYLKPNEVVLLAGLRITELNEDSVKFQFKGREIYLRG;locus_tag=LOCUS_10400;note=WP_010980038.1 FkbM family methyltransferase (Sulfurisphaera tokodaii) [pid:73.7%25%2C q_cov:100.0%25%2C s_cov:23.4%25%2C Eval:5.6e-17%2C partial hit],internal stop codon at [959152:959154](-)%2C[959335:959337](-),frameshifted%2C insertion/deletion at around 958983,MGA_1041
sequence1	MetaGeneAnnotator	CDS	959982	960191	.	+	0	ID=MGA_1042;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763231.1;translation=MSLFRYGGLRIEIPIGYEYVYYSTFIVGEYDFLRFKKEDTVLDAGAFIGDFTVKIARKVKEVVAVEPLP;locus_tag=LOCUS_10410;note=WP_011763231.1 hypothetical protein (Pyrobaculum islandicum) [pid:59.4%25%2C q_cov:100.0%25%2C s_cov:93.2%25%2C Eval:3.5e-19],MGA_1042
sequence1	MetaGeneAnnotator	CDS	960378	960608	.	+	0	ID=MGA_1043;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKMDIEGTEGRLIKGNWLNSVRETAMELHGNENVISIPATLRDKGFNVRFMKWSDVVKNSVKKSLYTFWTFLKQK;locus_tag=LOCUS_10420;note=WP_053240441.1 FkbM family methyltransferase (Pyrobaculum islandicum) [pid:47.3%25%2C q_cov:97.4%25%2C s_cov:43.3%25%2C Eval:6.1e-11%2C partial hit],frameshifted%2C insertion/deletion at around 960569,MGA_1043
sequence1	MetaGeneAnnotator	CDS	961125	961601	.	+	0	ID=MGA_1044;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVINNLLNYFEKHREIIQKIKVEEITENFRYTDNQSNNSKFSLEGPSLVFVGNQAPGEPNDLRQALMTSWAFMETYNQDFNIEILITIWGPMWNVGKDAEETYNFEFSVVGDNPMKIIYDNQELGVISKKYCGFKAKITDINDIKSHFKEVCEKKAT;locus_tag=LOCUS_10430;note=MGA_1044
sequence1	MetaGeneAnnotator	CDS	961646	962041	.	+	0	ID=MGA_1045;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNAYVSCADLLLEEAKRDLEASRLLYAGKYIEQSLFYLQQATEKAHKTFRCAMQYLFQSVPEKIGECMESKLTQSSPYYPLVYTVTYYIKQLKIDDIEKFLKEKYSHDTISGFFEEFEEFDKEFKFLKKY;locus_tag=LOCUS_10440;note=MGA_1045
sequence1	MetaGeneAnnotator	CDS	962092	962736	.	+	0	ID=MGA_1046;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNIVIKNIIYVKMKELKNYLGQKHAEEEHIKRIIEYYNLKNPIVSNILSIYLYDSLKNILQNSLNNIMTIFDEKTKEEYDKYLRSMVNSVSSAIISYEILVLLNLVLSNYAEASRYPDLKNFKPIKDRIPQYILQNLEQLMNSAMLSLDFIEKLVVFIKNIDNNFSYICDKIEKNSIVEVINIIDKTLSIYGKDLSSMLKDINKLIHEKKNNK;locus_tag=LOCUS_10450;note=MGA_1046
sequence1	MetaGeneAnnotator	CDS	963067	963879	.	+	0	ID=MGA_1047;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIDIDETELDIKDGQTLHVRVRNDKRCHIIDTNTAYECYGRMWIFWRDSNKNEINYYCREKDRVDVCKLEEKKSPLGPYTLKWSNLPSSKYKRFETIINIPCGVKENCKLGRQLDLFGVKVINNEPYIIIQDTQQQASRDDIWKDISSKYKQQLPPNISNLPPYEAVDICLFKVNECQEDIKKEILQGGNILRILFNFPSQRIYYMAVKVICANAKSKIEVFKIAINNNKIRIEKCNDRNILKKIKIVVKRHNEPRNPCTITSNSKNKS;locus_tag=LOCUS_10460;note=MGA_1047
sequence1	MetaGeneAnnotator	CDS	964031	964819	.	+	0	ID=MGA_1048;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980039.1;translation=MFSIQIPSLHGKYLREVFESIRLQTFQDYEVVVVNSGGDEISDLIREYGFKEVRKDVKLLEARYLANKESKGDYALLLDETRPLRKDALELLSKNLHDMVIIGERELGESVWVRAAQLDKDNIMYCNSPEAIKGFALPRVFKRELLTLALETLRVNLGDVFSQVVFPDHELIYYEASKLSNDVTIVRDELIYHYGDVKLSDIMRKYYRYGKSLKVLKGTPYSFMTSVSRKRRNICKGGIYDRIVLYTLYSARGIPFLLGEIL;locus_tag=LOCUS_10470;note=WP_010980039.1 glycosyltransferase family 2 protein (Sulfurisphaera tokodaii) [pid:63.1%25%2C q_cov:98.9%25%2C s_cov:98.8%25%2C Eval:1.2e-94],MGA_1048
sequence1	MetaGeneAnnotator	CDS	965965	966705	.	-	0	ID=MGA_1049;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKECDFHADLNSKSNRQRINEVRKIIEAILRNVTSDKNLLNRLSNLKFEISKRERVAAYLISNYKIAKEELENVKACYIGGTIYFSDDVCIQIALHEFLHSIQNEKWDHVNLVIKEGLIEFISALILYTKKSENEYANKAFTCMLRKSNTPCSIKQRLGYSKGYAFWASIYLKLLGNCKNECTTRLLNNFLQLLTEFNSNDEMLNRVLERLQNKNSSSDICYILDKDMKDLCEQIECDMSYNIFDD;locus_tag=LOCUS_10480;note=MGA_1049
sequence1	MetaGeneAnnotator	CDS	966692	967291	.	-	0	ID=MGA_1050;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILSQSFAVVLAWQKGLSVFSSALRDYLSLIIKDSSDKEIVIKDISEDNEVQINAINNNINVNITITSYPAVILNFNQYDDDVYKVVDIVENIISEKFEKRNEVTETSYVGVYSIDGNIYEIIKKHVDIKQLFDDMSPFSIRLYKSDSYLNENLVVEPYASLRNAVYVNYIANCKDHNICIENTRKRISTLVKFFEGM;locus_tag=LOCUS_10490;note=MGA_1050
sequence1	MetaGeneAnnotator	CDS	967302	967814	.	-	0	ID=MGA_1051;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNNARIYEYVLVYAQYFSGGLMKELVHRIAEKEGKSLREVMKEMGMSTGTIYKPLGEDAKRKILEKAFEVLDPEEVLLEIFYDIRAIYGRVIRDILEVAKDETKEEILKNYNDIGIEKIPNIEQYRSIEEHKYASDIKLFFYTIPSNKLSYLLSTEVQTLKPELITAYR;locus_tag=LOCUS_10500;note=MGA_1051
sequence1	MetaGeneAnnotator	CDS	968042	968572	.	+	0	ID=MGA_1052;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIPRKYRVNKNLSNDAYYQASNDAALAPLEDIRKDSAIRLLLGGIIGKGTYEISQEINMDYMTLLKNLDKIANLMKAVKNIVKDHPIILIIDDTHDHKQYAIPVSRNATQVYYRKVHNEPADTNNCSKGLENKRNIHTLNNTIHTTKGSRNIKGKGRKSRIQDKNTSILENTTKT;locus_tag=LOCUS_10510;note=WP_010980262.1 ISNCY-like element ISSto15 family transposase (Sulfurisphaera tokodaii) [pid:50.4%25%2C q_cov:64.8%25%2C s_cov:34.3%25%2C Eval:8.1e-25%2C partial hit],frameshifted%2C insertion/deletion at around 968407,MGA_1052
sequence1	MetaGeneAnnotator	CDS	968804	969622	.	-	0	ID=MGA_1053;product=ISH3-like element ISSto14 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980012.1;translation=MEEQPQVIDQMLNVIKTISVKELGGRKRVKISIDWTSIEYKGKPVEGLGGSEKGYAWNYATATTRVKGKTLILAFTRVEKGMTRLKIVESLIQQILALGLEIELVTLDAGFYSVDVINYLSTSSLEYPWVGIHRNFDGDYTVKLNGKKATFRLIVHQGREKEYLAKGTNLDVNRSIVVKWYDKVRTPIETSYKLIKSFLIFTSSRSWLFRLFIFVLAMLIYTLYLLLKGTTSKEDFRLLLTILLLQDNITILQEYLVKLFYPLFNSLELFSW;locus_tag=LOCUS_10520;note=WP_010980012.1 ISH3-like element ISSto14 family transposase (Sulfurisphaera tokodaii) [pid:42.3%25%2C q_cov:98.9%25%2C s_cov:80.4%25%2C Eval:1.2e-55],frameshifted%2C insertion/deletion at around 969259%2C969229,MGA_1053
sequence1	MetaGeneAnnotator	CDS	969953	970852	.	+	0	ID=MGA_1054;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNISEVVVEGFRGLKIATRLKRVNIVVGENGSGKTSFLESIFMSTLFQSDINDNDIHTSLIYMLNSRGDILSAFSTLSDSKVGLDDVTTQFKKIDPNSIDVKINNEKVAEIRIKSGILTTKNLSGPFFLPTVRNIKRVNTKYSPLYISTFFDSSGNPERIYSIAKRKNKKIESNFEILQDEYGQFKLYYDRLPAYVMGRGLLKRELIELALMSSDILLIDEIENSLHPDLVMEVLNDIKREEGVQVIFTTHVNEVVKMAGKVLNDSEAQVIYLSKAGYKTYKLSEISEFEKPLSWLGYV;locus_tag=LOCUS_10530;note=MGA_1054
sequence1	MetaGeneAnnotator	CDS	970858	971466	.	+	0	ID=MGA_1055;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAISCDRIFVEGATEKIILSKLGFNEGNVEVVKFGKEEVIKEFKKYLSSSMSILKKGNVCFVIDGDEEGYKGVYDRLKKDIEVLDYSPPYIKMCKDNLCYVLVVIGDKNNDFKGCIETILLEKLRIDEKINDVILRVLEYEQQKVGHLSMCDRGKIRFYLSIFLLSGEPTLLYLSKRFTEELFRIVEEDVIRNIIADFIEIK;locus_tag=LOCUS_10540;note=MGA_1055
sequence1	MetaGeneAnnotator	CDS	972027	972437	.	-	0	ID=MGA_1056;product=PIN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_210433939.1;translation=MKLKVLVDTNIIIEKRNKLFNLLGSYDPIYSDLVLAEVMEVIRKNALEFLKKNKREVANKYFAFGREFLKILYQQNVQLEYPNIKDFVEAFEVMKDKDVDAVDAILAVIAKRQGVNVLSNDKDWDRLKDYAKRVNV;locus_tag=LOCUS_10550;note=WP_210433939.1 PIN domain-containing protein (Acidianus brierleyi) [pid:93.4%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:1.5e-65],MGA_1056
sequence1	MetaGeneAnnotator	CDS	972440	972952	.	-	0	ID=MGA_1057;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429687.1;translation=MTREKLREIESLRSTTEILNNILLTATTYLQSSYPISSVYAPPFRVLRIDYDNEGNPIYFTTFDDWLKYVRDSDLEEIVLPDIKSLDLEEVMKDLGWEYKIEIKHNLTPVDRETKILYLSDCRLVKRVEYVVLSLTLINGLGEEIIPVCGEFTMDKYKEHLSQQLYWLSK;locus_tag=LOCUS_10560;note=WP_198429687.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:62.7%25%2C q_cov:97.1%25%2C s_cov:100.0%25%2C Eval:1.8e-58],MGA_1057
sequence1	MetaGeneAnnotator	CDS	972955	973323	.	-	0	ID=MGA_1058;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAALGKTTDEKVEDAILKLSELGKLLNIDYLIEVMLIYVLDVELRGLSKYKKAGYVLLDYSNEGDLRESEYLSSINVLPYVLDSRKSLVEIIYRNRQVSVDVIKSLIHEIEKIVRGDEKLA;locus_tag=LOCUS_10570;note=WP_010980005.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:68.0%25%2C q_cov:100.0%25%2C s_cov:61.3%25%2C Eval:3.0e-42%2C partial hit],MGA_1058
sequence1	MetaGeneAnnotator	CDS	973388	973540	.	+	0	ID=MGA_1059;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVRREEGTGTLGYNDSLTEIKGNFRFTLSLDSTFKIASLLELVISEAEA;locus_tag=LOCUS_10580;note=MGA_1059
sequence1	MetaGeneAnnotator	CDS	973757	974605	.	-	0	ID=MGA_1060;product=ISH3 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012953324.1;translation=MEVIEKLLERARKISLEVLKGVNEIDLSIDWTTKTWYGKPVKGLGSSEKGNSWNYATATTKYKGKVLLLAFIPQVNGMTKDEIVKILVEQVMAMGFKIRLITLDAGFYTVDVLNFISQFKYIIAVPSGDVKVFEEFDGDYTTNSKRHRRDEQVKFRLLVYGKEKVRRKKKSLVYFARATNLDLPKREVLDLYNKVRGPIETSYRNIKAFLPFTSSTKFVFRTLIFVLALVLYSLYTIFKGEVGREEFRLLLILLFPDLFNPENFTFNVIETLIYTIDLFLRR;locus_tag=LOCUS_10590;note=WP_012953324.1 ISH3 family transposase (Sulfolobus islandicus) [pid:91.8%25%2C q_cov:100.0%25%2C s_cov:80.7%25%2C Eval:2.1e-140],frameshifted%2C insertion/deletion at around 974781,MGA_1060
sequence1	MetaGeneAnnotator	CDS	974937	975155	.	+	0	ID=MGA_1061;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILGLPYSAAKASADLFVKTYVRTYNVNAIIVRPSNNYGPRQFPEKFIPKAIIRTLLGLHVPVYGDGKAERD;locus_tag=LOCUS_10600;note=WP_010980043.1 dTDP-glucose 4%2C6-dehydratase (Sulfurisphaera tokodaii) [pid:80.6%25%2C q_cov:93.1%25%2C s_cov:20.9%25%2C Eval:3.6e-27%2C partial hit],internal stop codon at [975153:975155](+),MGA_1061
sequence1	MetaGeneAnnotator	CDS	975351	975491	.	+	0	ID=MGA_1062;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTSLSYETTPLKDGLRKTYEWYVSNEWWWRPLIDDKFFKEDEPWK;locus_tag=LOCUS_10610;note=WP_010980043.1 dTDP-glucose 4%2C6-dehydratase (Sulfurisphaera tokodaii) [pid:69.6%25%2C q_cov:100.0%25%2C s_cov:14.4%25%2C Eval:4.7e-16%2C partial hit],internal stop codon at [975153:975155](+),MGA_1062
sequence1	MetaGeneAnnotator	CDS	975640	976098	.	-	0	ID=MGA_1063;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKQVLAKVLSASLSDSEILNLLGKLKENDSELERECGISRKTLYNWKKGKVGEISRETKEKLIYFILNKYDKEGLMTIAGVKRYSYIQILLELMREGLNEEEKRKLEVIIKDDKVSGGEVVIPNSTPAYSDCSSNYNKTTNSSLLSLSLH;locus_tag=LOCUS_10620;note=MGA_1063
sequence1	MetaGeneAnnotator	CDS	976074	976247	.	+	0	ID=MGA_1064;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTLVFLSCVTYYTYKVIDDKNLSIDVMRIAYRHLFERVLKLADREYSNGYLLYTIR;locus_tag=LOCUS_10630;note=MGA_1064
sequence1	MetaGeneAnnotator	CDS	976268	976480	.	+	0	ID=MGA_1065;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKDQMNVVKIMEDELLNNAFITRTSAIGRIFKPILFANSANYDALQISDFAGYIIRKHVLNENSEKFPY;locus_tag=LOCUS_10640;note=MGA_1065
sequence1	MetaGeneAnnotator	CDS	977031	977501	.	+	0	ID=MGA_1066;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846703.1;translation=MEELIKKAEDIGINVEDVLISLISKNDPKEEIKLRLDLAKKYMKECEEYLKKGDAIQASEKAYKVAEELIKALSEKFNLEEYQKTLKEGRWYTYLLVSASSKLSQKLGDWVLSGWDAGYSLHVWGFHEAKLSVSDIIPRVEKVRKMLEESEKILTN;locus_tag=LOCUS_10650;note=WP_052846703.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:69.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-59],MGA_1066
sequence1	MetaGeneAnnotator	CDS	978690	979307	.	-	0	ID=MGA_1067;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHWIEYYNGPVPYEHLSARHKTLVKMNYMLITSEVLSRLSDLFISRALIVMIVWTCSYRDVRSYYESDVVVRWFLGEYKSKSEIHRRAKKFRGEVKTLFKEYAKELEGKMSRLADYLPSSALYGKVGKLWIVDSFLIEVPFGKRNKETLEKKFELDLRQRKYREAANTLFFYIKCKARRRFKGEFTKKRNRSSASRSSTSCRLQ;locus_tag=LOCUS_10660;note=MGA_1067
sequence1	MetaGeneAnnotator	CDS	979985	980713	.	+	0	ID=MGA_1068;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFWKIAIDLSFSNSITVISIVGLKESCNPAYCIPITYHFSSSGHLKRYNDISYKNSKKLYLRKIFKYYEYREYNYTQILNGGIFSEFLGRGGFAASLIFYGNSINLSEIDGVKKDYYNLIIKHKKVKYKDERKSSLVYKPIYNLINKKFYSSEKELYEIKELIIDDMLHAKIYFPVLSRMFKKENKRNRHNILGNRKTLLENNAKSMDKKDVEYILITLADNLANYIRIKSLPPTTHPLPA;locus_tag=LOCUS_10670;note=MGA_1068
sequence1	MetaGeneAnnotator	CDS	981364	983505	.	+	0	ID=MGA_1069;product=thermopsin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978891.1;translation=MKFQCIFLLSIILFSIIPQFSLTLQSAVHDTFIPEFNENTIPPSPSPLYYYSNITLKADYMIVVDSDLSQPCTLIVFTPSQYNAWHNGEQTYAVYVKNITSGKYYIPLPPGNYIVVLNGPIAVGVSIYTLAENAIPFLENEMNSSYNPTGIASYGIYNNSGELSEYTVKTHEILGFYNITSIKAYNSTFSDPYGASLQLNVVLQLITKNGNQSLWLQNVISFITNESTAFYVDNIWNDSAVNASINPSLISGNGSINIYNGRSYYAYATPYFSYNYPFAGYLIINTTNVKGGVEVTFGYVSVQNGFLIPPNVIYYDRVFISVPNLVNSYILVDPNLLTGSENLYDAELVFGGQYNGEITNYTSLNANLALMYNNSGVKTFPSVYTFGSDTAEAAGNLHVSLQNNNAIVTVGERDYGLLTNNFTPSIPGFTYLQFENVVNNLGIVKVYGFYINSRFPINVPLYIIPNDTVNYTLYKITLTINGVNETIPVNYDLPSFQYFDNITIICEYNENILVTINYPNGTVSQWYLRGEYTNFPRIIQINQTVRYLLTQNQFLVNSPMNIHPSYVEQYLISVQYPNGTITGWYNASSSIILPNTIYINNSTRYVADENSITITHSGDYSPAYTEEFLVTIKYTNGSVSQWYTKGSEIYLKANVNFFQTAKWVGTYNETNGGSILVNEPISEDEVLGINYIPIIGIISIIIVVGIIVFLRKK;locus_tag=LOCUS_10680;note=WP_010978891.1 thermopsin (Sulfurisphaera tokodaii) [pid:36.5%25%2C q_cov:90.3%25%2C s_cov:91.8%25%2C Eval:4.6e-102],MGA_1069
sequence1	MetaGeneAnnotator	CDS	983576	984142	.	+	0	ID=MGA_1070;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSPFDYMEFRRLLIQYGISDFGFPLIEMSLLWTFYLYLHNPLLFSVIAVGRPLVRTFSAPIGGMISDKYEKWKGLMIFKNLTVIAVLGVIFFLITNNIILAIIIFYLRIIVAEISNTIGHVSFSSLLPRNMLKDAYFYAKVVGHTSSIISQLSWFILYQIQVFKGDGRLHPWRWIGSTCFASNMARR;locus_tag=LOCUS_10690;note=MGA_1070
sequence1	MetaGeneAnnotator	CDS	984522	984707	.	-	0	ID=MGA_1071;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846987.1;translation=MISHADVGYAQKGGSDYGDVRPVPLGSKESHDPSTVKFGRWLRAKSLHSIMIEHKMSEMKV;locus_tag=LOCUS_10700;note=WP_052846987.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:74.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-18],MGA_1071
sequence1	MetaGeneAnnotator	CDS	984956	985228	.	+	0	ID=MGA_1072;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATTIKVKDKTKLDLESLRAEILLKSNIKLTMEELQDYLISFAIDNKESFFDYVMKKFKMKNYEKMKEAIKDWGIDTSNIDVDSVIYDNP;locus_tag=LOCUS_10710;note=MGA_1072
sequence1	MetaGeneAnnotator	CDS	985215	985595	.	+	0	ID=MGA_1073;product=PIN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979747.1;translation=MIILDTSFLIAFYNKRDSRHEEALKIFDDTNDKLVISDYIFDEIVTFLRAKVPWTAIEVGENILENLDIIRVNDEDFRTAWELFNKFNKLSFTDCTTLSLSKRLKIKRLVTFDQALSNAFAEINKK;locus_tag=LOCUS_10720;note=WP_010979747.1 PIN domain-containing protein (Sulfurisphaera tokodaii) [pid:33.3%25%2C q_cov:88.9%25%2C s_cov:83.3%25%2C Eval:1.3e-10],MGA_1073
sequence1	MetaGeneAnnotator	CDS	986244	986489	.	+	0	ID=MGA_1074;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846983.1;translation=MSEIIRVSKDVKEKLVKISAELQLSKGKKVSLNETIGYLITLYEENKKGNKNSQLLLSLLGSARGIREEFERSRIEDESSS;locus_tag=LOCUS_10730;note=WP_052846983.1 hypothetical protein (Sulfurisphaera) [pid:85.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-32],MGA_1074
sequence1	MetaGeneAnnotator	CDS	986473	986877	.	+	0	ID=MGA_1075;product=PIN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979701.1;translation=MKVVADTGVLVEVLEDSKLGEKFIQLVNSGKLEPIITNLTLIELTYIVCRKYGIDKARELVKKLLDSGYFEIVNALDFADEIVEIKCNNSLSIIDASAIATAKGLGISALFKMEKELKDKNLNNLIFIDNIDDI;locus_tag=LOCUS_10740;note=WP_010979701.1 PIN domain-containing protein (Sulfurisphaera tokodaii) [pid:84.7%25%2C q_cov:88.1%25%2C s_cov:88.1%25%2C Eval:7.0e-52],MGA_1075
sequence1	MetaGeneAnnotator	CDS	987024	988088	.	+	0	ID=MGA_1076;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980470.1;translation=MYSTVKSMMDLLFINHRDIYHPQAGGAEEVIYEIGKRLAKNNKVTWLSENVNGRPNSEELDGMKIKRTGNKFTIHLFSFLEAGKHDIVIDSVAHAVPFFSYIVNKRNIALVHHVHQDVLKFELNPIMAYIVRNMEKNIKNYDNIIAVSYTTKNDLINKLHVEENKIKVIHNGVDHKKYKPGEKSRAPLILWIGRMKNYKNPFDSLEIFKRLKNKAEMIVVGGGDLAEDFNEAAKTLGVKYLGRVNEEKKIELYQKSWVILSTSFIEGWGMTIVEANACGTPAVAYKTGSMPEIIKEGKNGFLVDYKDYDKAAEVIDYILDESVMNKLSKSSLEESLKYDWDKTAKEYEDYLRTI;locus_tag=LOCUS_10750;note=WP_010980470.1 glycosyltransferase family 4 protein (Sulfurisphaera tokodaii) [pid:60.6%25%2C q_cov:96.9%25%2C s_cov:98.3%25%2C Eval:1.1e-118],MGA_1076
sequence1	MetaGeneAnnotator	CDS	988265	988453	.	+	0	ID=MGA_1077;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDIPKSMKSIISRDDENSDITLLVIISTKNVINPTINPVKIRFIPLIALWVRSIYFNRMIQ;locus_tag=LOCUS_10760;note=MGA_1077
sequence1	MetaGeneAnnotator	CDS	989099	989332	.	-	0	ID=MGA_1078;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYDENVVTRYKLMFPFYVFEHWWELLQEENRYAKTKYKAPKEFNDFLAFLHLFLPYRVEGVLSALAEMKIIPTSLD;locus_tag=LOCUS_10770;note=MGA_1078
sequence1	MetaGeneAnnotator	CDS	989482	989661	.	+	0	ID=MGA_1079;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFREILALGKSFVSTGILLIILSAIFSSSIHVLSNTLGDYAYFTILIGIILTIVGSKK;locus_tag=LOCUS_10780;note=MGA_1079
sequence1	MetaGeneAnnotator	CDS	989665	990672	.	-	0	ID=MGA_1080;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979995.1;translation=MAIEEARLTKYKLFIYRDAGGNYDLNGVDYEILRRKGERGFLTPLFSYLTSLYASHRGKDATIDLDLIVHATRIIKGFTLFHDQFAGITGYLRKIFYDEDYAIYLHETSLTIKGLKYLLPRQLEKKILDHSKVIITNSYWNKQVLEEKGYKSEVIYPGCYPANKISYNRDKIVLSVSTWDSGRKPELYGEIAKKINGKFIMAGSWARKDTMDDFIARYGKYVEVTGKVSEEKLIELYSKASVLVRFGFNERGPGMGVLEAMGYGVPVVVNEGLGSKELIKQGENGYVVKDENEAIDRINQILENPYQLSKNAWETAKSLSWENHSKKLIEILHNY;locus_tag=LOCUS_10790;note=WP_010979995.1 glycosyltransferase family 4 protein (Sulfurisphaera tokodaii) [pid:60.6%25%2C q_cov:99.1%25%2C s_cov:92.9%25%2C Eval:2.0e-114],MGA_1080
sequence1	MetaGeneAnnotator	CDS	990806	990985	.	-	0	ID=MGA_1081;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPITVNVLDLVIDLSLELLVILVIAWLIYEILSMPRHMTLEEIEAQIDLELKKDSTDIT;locus_tag=LOCUS_10800;note=MGA_1081
sequence1	MetaGeneAnnotator	CDS	991791	992228	.	-	0	ID=MGA_1082;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLNDEKLTDEEIKEYSKLLGRKLTRIEAFILKQLLDLLNIIEEQIKEVENEIMKFLPEEAVVTKIPGIGPISAATIYAELGDVSRFESSKQAAYAGVSGLSRAGRPNFTTVSSRGISTYPAFYSLLQGPLRTRPNLMASIKPC;locus_tag=LOCUS_10810;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:52.1%25%2C q_cov:63.4%25%2C s_cov:24.4%25%2C Eval:1.0e-17%2C partial hit],frameshifted%2C insertion/deletion at around 992250%2C991923%2C992373,MGA_1082
sequence1	MetaGeneAnnotator	CDS	992228	992362	.	-	0	ID=MGA_1083;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQELREMTRHREGLVERKTQVKNEIRKVLETAGYKLPSKRRQRK;locus_tag=LOCUS_10820;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:72.2%25%2C q_cov:81.8%25%2C s_cov:9.3%25%2C Eval:3.7e-08%2C partial hit],frameshifted%2C insertion/deletion at around 992250%2C992373,MGA_1083
sequence1	MetaGeneAnnotator	CDS	992350	992727	.	-	0	ID=MGA_1084;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERKIKPKVFAIDVGESRLVATKMEINNNTVKEADTREFKYNEEGLKELIKFLEGYEEGIMEATGVYFYHVYNVLRDKGLKVNVINPETVEVLGKKTDKNDSIRLTIAYAAGTVKGSYQREKCKN;locus_tag=LOCUS_10830;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:52.0%25%2C q_cov:94.4%25%2C s_cov:31.9%25%2C Eval:1.3e-29%2C partial hit],frameshifted%2C insertion/deletion at around 992250%2C992373,MGA_1084
sequence1	MetaGeneAnnotator	CDS	993208	993426	.	+	0	ID=MGA_1085;product=ribbon-helix-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846897.1;translation=MLLYIIFAMYEVKKLKDNTYEINLDGIRTISFKLEEDMIKEIEIACKKLGYKNKSELIKDAIKEYLNYLSNH;locus_tag=LOCUS_10840;note=WP_052846897.1 ribbon-helix-helix domain-containing protein (Sulfurisphaera) [pid:50.8%25%2C q_cov:87.5%25%2C s_cov:87.5%25%2C Eval:6.6e-13],MGA_1085
sequence1	MetaGeneAnnotator	CDS	993412	995673	.	-	0	ID=MGA_1086;product=copper-translocating P-type ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979775.1;translation=MENKKKDFRIEEDLKVVGMHCATCVTTVSKSISSVKGVSNVNVNLATGQVKVEVENAKLKDIVEAVRKAGYDVLTQKITLKVSINPEEVDILRSKLESFNGVIKAIVNVNGLVYLEINPVTTNAEKIRDNLEKEGYKVSEIKGEREIPEIVAAKKEFNSYLRSLIIAIIFSSITIVFQYTDIVFLSLIFSIPVQFYSGLKFHSGAIRALKNKTSNMDTLVSLASNVAWFYSLYSVFTHGQVFFDAASLLITFVLIGKTIEAYLKARSANSIVGLLSIKANVLKNGKEEKVNSSELKVGDIVVVRSGEIIPADGVVDEGEGEVNESIFTGEITPSKKSKGSPVIGGTILLNGKLNIYVTRSGDNTYISQVIQSLRESQNVKFPIQKIVDKVSSIFVPVIIGISLLTFLIWRYVIGFPLYMSILFSVAVLAAACPCPLGLATPMAVLTTVNKLAKKGIIVRNGDSLEKIEKAKIIIFDKTGTLTEGKFTVTKYQGSEETIRLASSLESYSSHPIAKAISSLYRDKHKVEGFNDFPGEGVYGRVDGKEIIVGKREFVLKNCEGNADGDILICVNGKVEGSIWVEDKIRDDAKEVISKLKDMEKEIYIATGDPSSSAEEAGKELGVKVYKGLSPEDKVDIVKELRKRGVTVFIGDGVNDAEAIKEADIGIAISSGTEIAKYAGDIIIPSINSLLTVFRYGKRAVSKIKQNLIWAFAYNSVLVSIAAGVLYPIYLPPEYAALAMSMDSVSVVLWSMIR;locus_tag=LOCUS_10850;EC_number=3.6.3.-;note=WP_010979775.1 copper-translocating P-type ATPase (Sulfurisphaera tokodaii) [pid:56.1%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:1.5e-236],MGA_1086
sequence1	MetaGeneAnnotator	CDS	995775	997451	.	-	0	ID=MGA_1087;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAMLLISTLKSKCMRNKELIYAIIVISIYLIIFRNLLLVNIHVITEVPSYFSIGSLGVTFLGPGNYLYFLIYVLGGGNGEKFLYIFPFILGSLGFHFLAKQFSNNFIVKYIAPFFFMLNPGSSSILITNPEIIFDYSLLPFIFYFSYKIYKKFNLIDFLYLTGLLIIGQAIYFEMFFIAFIFQFPLILFAISSKIKEFPKFLAYIIAADSMAFISEIGVEIGSYITASSIGAAQYKFGYYLYGNALFFLILSLILASWSAVMKRNRISISIVATASLLLFITTFFSNIPVNVPLIGDLLLTLTTYEQKIILFTIGLLLLSFIFINKKDYMGTFLLLLVVIAGTLAPSYFPLLNNTYDLLNLKSSAYYDVYPQWSFTIDKYILDHQGIYTEGVGNPCNSTLQGLPYLINISNKYEPHYYVKYVVSQYHLTNENLSLMFHDHLYIYKNDNYKGLTVSPNTKPLNFTFKNYEITVYGNYSKAIIFIPYSQFWTNAKNYQGFLEINMKNGIGHAYLNLIIPEMLFYISLIPVIIEVVLLIYKKLSNILIKVFRYSLNRNNH;locus_tag=LOCUS_10860;note=MGA_1087
sequence1	MetaGeneAnnotator	CDS	997499	999430	.	-	0	ID=MGA_1088;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLLVILTPFIYISQANTPLPTYTVTFVEHGLPTNSEWSVTVTNTSNDKTFTQNSSSNEIVFTLTKGFYSFKVSSNTSYVPSPSSGYLEVYNSSITENITFSKPVAELNVTQFKMENSNTGATVSYLTKGTPYYLLFYIKNYGNIYAPVFASIQIISSSNVIVSQLTSFSNISPGLTQQIGIQWIPNTNGIYYVNLTLYKNLETKEVYIPSVIEKIFVGNVYPVVFKENGLPIGTQWKVNINGSVYTSNEQNLTVYLPDGTYTYEVTNITGYQISEYEGTFTVNNAGLTINLVFKPLVIIPEISEFKIVNSSGVPAITFFVNGQYNISFVLTNNGNETGYIYTIVEILNSSHQIVTTKYEDVLLAPGQSRTIELPFVPRVSGNYSIMVTSYNSTAYISKYVYNFSVLKGLEIIFKEIGLPEGQIWNVTLNGVTKYSNTDEIIFYEPPGSYSYVIGPVNGFTQSISSGSMFIISNKTITIQFTEILKPVITLNILNSSLQPTEVLYQGKPYMVSINVSNEGNLEASFIVEVYVSYNNAIVVEKNFTLTLMPKETKTLSINFTPTESGKYLINSTIYSTTHQLYVTKAVSLPSQVLHTVTPTTSTVPPTTTVSTTKPSSSSTLYIIIAIVIVIIIIAAIFLIRRK;locus_tag=LOCUS_10870;note=MGA_1088
sequence1	MetaGeneAnnotator	CDS	1000282	1000485	.	+	0	ID=MGA_1089;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYNNIILSLFIVISIAVFILNLYNLGYLEISIKYMKIGLLIFSISIISTLFLSDKAKEKTRKKGKK;locus_tag=LOCUS_10880;note=MGA_1089
sequence1	MetaGeneAnnotator	CDS	1001561	1001716	.	-	0	ID=MGA_1090;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFILIIGKDGGPDITIGIIQNKLLPSIAIDTFQEFFIRNGLIIMNVNGNR;locus_tag=LOCUS_10890;note=MGA_1090
sequence1	MetaGeneAnnotator	CDS	1001947	1003410	.	+	0	ID=MGA_1091;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNITTLHTISISEINDYTKKISNITNISSPELVFWNTSYPKISPIPFNNTNVNISSIRFIINKNFTYSNNTIYKGYPFYIEKIYSISNKIVKGNWTETPYTIFNINYSDFYYNYKSDNMSFNIKSNYILIKSNLSYQFLIWNISKLLNNFTINLIGRFSQDNLAPSILLGYNINNKTSLVFYNYNSILVNLGKDNFVFSDTQKGIGYIGKDAQFNPQNEFNVSIEFYNNNNSLEITKEIINDTEYNIDLDTHFNWNDIKEIGIVLPLGTYLDLYNMSIDIYNPVYINKTYINWDTIIHPSTLVFTPIEPLTGNITVNSSVPLNIYVQLPDGKIEKYVSGPITFSKLFLKEENQLNVTINSIYVKNDFKTFIIIGKEIYTINKYSYNESYILGGIKIIFNSNSAIKILIYDFPYTIIELNGKETHNNTLILYPGDNTLYIIYSDQSIIPYSIFLSIMSYIVLSIAITIYKFKNYFLANKIFKLTKKS;locus_tag=LOCUS_10900;note=MGA_1091
sequence1	MetaGeneAnnotator	CDS	1003393	1004127	.	-	0	ID=MGA_1092;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978883.1;translation=MLSIVIPAFNEEKRIERTLRALTSYFKNVDIVVVFDGNDKTPDIVKKFPVNLIVSKERLGKGGAIKKGIIESKGEFVLLLDADMPITVNELKKIVELGRDSDLLILNRKFVNSPKLRIILSKSFRIIVKLFFPSLIKIKDFQAGVKLLRRDKALKILDELIINDYLIDVNLIYSFVRNGFRIKEFFSSYLNDNKYSKISIKIFNIIILMFLSIIKLRVYYSPLRKILDTRFYLKVQNIILRLLR;locus_tag=LOCUS_10910;EC_number=2.4.-.-;note=WP_010978883.1 glycosyltransferase (Sulfurisphaera tokodaii) [pid:43.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-52],MGA_1092
sequence1	MetaGeneAnnotator	CDS	1004783	1005448	.	-	0	ID=MGA_1093;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIVMLGSLDFLYYVFQSDIYSTEYVENNLILRDYVHYNPSMLYYNGNYYNFYTINSSIPVSLEDIVSTNGIPLIQINDYTNCYWNVTKIPSYEEKTLLYAKIGNTQGYVIGESPLKPLIVNEKLNVWSSGNEVYVTAKNCGNIPVYYQYIIITGVEFCCIIVCNQSFWYYNWVSDYVSINSWFFPGYSYSTSASFVNLTYAYADLYYSDVVGEGVSYGST;locus_tag=LOCUS_10920;note=MGA_1093
sequence1	MetaGeneAnnotator	CDS	1005719	1006690	.	+	0	ID=MGA_1094;product=stage II sporulation protein M;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_069168205.1;translation=MRLLSKLILIFFGMELAIFLGVSSIPFYMPAVAQKFNSTAGAVDSEPYVPMVITIFSHNLMIALSEFIPIIGIGMLIYTTYSTGMVLSAFTTTVYHIPGIAAAVILLTLPHSWLELPSYAVAAGSGLYVILTRDWRRFVMMIPFVALELLMAASVESAEIYFRSVNSYYFWLAGAPLLVMLYLVYEYLQKKADILAPKPQTTTSVFIQGQPIQNQYVPEQNIVDQDLNAASVMENQGNYFTASQYYWNAIITLIGIVSKKTGFMPITLDDYFNAARLLGEKYSSEIPSLFDQAYKERTEGNFNEFRNTALSLITKLKAIDNTH;locus_tag=LOCUS_10930;note=WP_069168205.1 stage II sporulation protein M (Sulfurisphaera tokodaii) [pid:37.7%25%2C q_cov:99.7%25%2C s_cov:97.8%25%2C Eval:1.3e-51],MGA_1094
sequence1	MetaGeneAnnotator	CDS	1006737	1007540	.	+	0	ID=MGA_1095;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESEIQALKNIKIGSLYYFIAIVLALVTESLAITIKSLSTSAAFLVLELIAYVILILGFSKLRVGFFTISKEINTNIGITGINIFIFGVIALLFSDIFSILLYLGAFLIVLGNVMIGLNIYKIGQNFEGNMEKVAGILIMITVTSFIGYIISYFASDELIKKVSQTPEEKPLQIVTTDKNVGYGILKSNGDANFTVYSKGVSEIVSAQIIGYNFQVLQISPKTVGPGENKIYIKFNLSGLLSPGNIYNVEILLANNEKLLASLVYEI;locus_tag=LOCUS_10940;note=MGA_1095
sequence1	MetaGeneAnnotator	CDS	1007703	1007870	.	+	0	ID=MGA_1096;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAVLLSKKRTNSAEVPVNYTDMPLEYLKTEFPEVYESIMRSRRVVDGYIYMRNM;locus_tag=LOCUS_10950;note=MGA_1096
sequence1	MetaGeneAnnotator	CDS	1008046	1009425	.	-	0	ID=MGA_1097;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980514.1;translation=MNSPFKPLDDKKLGWFHLKSMITTGMGVFTDGYDLSSIGIVLLTVLSTFGITKTSPSYTLYTSLISGSALIGAAIGAIIFGILANKGRKTFYGIDVSLMTIGAFLQAFVSSPVELIIVRFLLGLGVGADYVLSPMIMAEHSNAKDRGKIIALGFGLFWGFGATTAALIYLGLSALGLSPMIVWKIVLAAGAIPAVSVIYLRRKIPETARFLGRIKGDMEGLRNVVKQVSGNTIDITSNLKDTNSFSFYFAKYWRQFLAACILWFLFDIVSYSGILFGPSLIASSLGVNSGVFQLIMEGAFVVPGGIIALSLIDRAGRKPLQVLGFIGMALSLLAFAAYKDLAGLAFSPVLALILYGGMNLAQQAGPGSISASGMLGVELAPTKVRGTVQALTVTSGRIGASLTAFVFPALFKAYGESFAVGFLGALAIVAAIITLALIPETKDRPLEVSSKEVEELQTQ;locus_tag=LOCUS_10960;note=WP_010980514.1 MFS transporter (Sulfurisphaera tokodaii) [pid:65.0%25%2C q_cov:97.6%25%2C s_cov:97.2%25%2C Eval:4.6e-163],MGA_1097
sequence1	MetaGeneAnnotator	CDS	1009588	1010427	.	+	0	ID=MGA_1098;product=undecaprenyl-diphosphate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979881.1;translation=MDALILGIILGLIQGISEWIPISSKTQILLASTFILGLGFSEGYVFGLFMEIGTIFAAIIYFRREIYRVIIALIGKGTEEDVVLLKYVVISTIITGIMGVPIYLFIINLIKGPVIGIPMSILGLILITDGIVIYFSRKSYIPRKSLKDLTIKDFAIVGFAQGLAALPGVSRSGMTTSALLLLGVKPEEAFRLSFIELIPAALGAIGVTLIFSKHTVETTLHLISFGALGISIIVATIVSIFLISALLRFARSNRILLIVFTLGALALISGIISSITGLG;locus_tag=LOCUS_10970;EC_number=3.6.1.27;note=WP_010979881.1 undecaprenyl-diphosphate phosphatase (Sulfurisphaera tokodaii) [pid:49.6%25%2C q_cov:90.7%25%2C s_cov:91.7%25%2C Eval:2.5e-61],MGA_1098
sequence1	MetaGeneAnnotator	CDS	1010474	1011511	.	-	0	ID=MGA_1099;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429682.1;translation=MFNNTEIGLISALISLGTFITSGIINARLKSPVRRKIFIASSISYAIVLPLFYLSSPLLIWLFSALAGISLGAIMPNIINAAGLLKDRKARERLLSIYTLALSISLVAGPAIESLILRYYVLKTVFLWFEPFAILGAILSFFIQFPEEKNVAKTSIKVFSNPGFKVAVINILSYNIPFAAFTAFAGVYAKQAFGISYSQVTALFSLFFLTSFIARLYLSIRPAQLISRFTTFSILTTAVGLSIIALTKSFPLFLLALFILGFPHGITYPMSVISISRTFTPENRNAANSQFFAIMMLIGVVTPTVAGFIAQVIGIRLMFGVLIPVVLFLLGLLRRYVKAVDEVST;locus_tag=LOCUS_10980;note=WP_198429682.1 MFS transporter (Sulfurisphaera tokodaii) [pid:61.6%25%2C q_cov:98.6%25%2C s_cov:86.3%25%2C Eval:2.4e-110],MGA_1099
sequence1	MetaGeneAnnotator	CDS	1011459	1011674	.	+	0	ID=MGA_1100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSEIKADISPISVLLNKKSYLAIKGIVVISILFDALIAKVIGTIIRSASKKERFLLFISIGNNVTYLNFS;locus_tag=LOCUS_10990;note=MGA_1100
sequence1	MetaGeneAnnotator	CDS	1011802	1012434	.	-	0	ID=MGA_1101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTAIIGIIGPFVTGYIYQGGGIRVLFSMSRSNYVSDKIQELNKYSVPLWSLIVFVIIGAIVAYIAAPLPTIYNLISDSVVAGYIGFSANPVAMQSLISKGKIKSVIPFSSIVSVLAFIFASLIIYWSGWPSVPYAVLLLAIASTVFSVVYKVKEDVRNSLWYIFFIGFLTLMTYIGDNGALAILNFYEASAISAIGSLIFYFWGVKSAKL;locus_tag=LOCUS_11000;note=WP_010979823.1 APC family permease (Sulfurisphaera tokodaii) [pid:79.9%25%2C q_cov:99.5%25%2C s_cov:41.2%25%2C Eval:9.2e-94%2C partial hit],MGA_1101
sequence1	MetaGeneAnnotator	CDS	1012462	1013667	.	-	0	ID=MGA_1102;product=RNA-guided endonuclease TnpB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057839.1;translation=MPDVGLRFRAYTNEQTLRALKAQLRLASEVYNTLRWADIYFHERDGKGLTKTELRQLALDLRKQDEQYQHLYSQTLQQIADRFYDARQRFFDGLARFPKEKKAHKWYSLVYPQSGWKVLKVREIRTKSKKNKKKVITLQLSNLGIFNVIVHRDFPLDKVKRVVIKLTSSGRVYITFVVDQEYPQLPKTNKVVAVDVGVEKLLTTSDGEYVPNQRPYEKALNKMKRLHKALSRKKFLSHNWFKAKIRLARAHEHLKNLRKDMYMKLGKYFAEHYDVLVMEDIHVKQLVGKSLRRLRMRLHDVAIHELRSVMEYQLGKYGKKLTLVDPAFTSMTCARCGHIKKDLTLADRVFVCPKCGWVADRDYNASLNILRRSGSERPLVPVELRPLPLASLGFEAGSHVR;locus_tag=LOCUS_11010;note=WP_011057839.1 RNA-guided endonuclease TnpB family protein (Thermosynechococcus vestitus) [pid:29.8%25%2C q_cov:90.8%25%2C s_cov:90.0%25%2C Eval:1.3e-30],MGA_1102
sequence1	MetaGeneAnnotator	CDS	1014207	1014407	.	+	0	ID=MGA_1103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVSSEGRVYTTRRVMKKY;locus_tag=LOCUS_11020;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:18.5%25%2C Eval:7.9e-19%2C partial hit],frameshifted%2C insertion/deletion at around 1014659%2C1014380,MGA_1103
sequence1	MetaGeneAnnotator	CDS	1014410	1014703	.	+	0	ID=MGA_1104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNTIVVEPTGASIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYVFLKVESKVQEQGKKSTIPK;locus_tag=LOCUS_11030;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:65.3%25%2C q_cov:95.9%25%2C s_cov:26.6%25%2C Eval:1.4e-28%2C partial hit],frameshifted%2C insertion/deletion at around 1014659%2C1014380%2C1014780,MGA_1104
sequence1	MetaGeneAnnotator	CDS	1014654	1014845	.	+	0	ID=MGA_1105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVKYKNRVKRALFLSDEEKISKEMLEEFSKGNFKIQLYNLEQRSYLKKSKYYLKHYWKQARK;locus_tag=LOCUS_11040;note=MGA_1105
sequence1	MetaGeneAnnotator	CDS	1014860	1015099	.	+	0	ID=MGA_1106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVREYRRRVISTCAACSTSSLR;locus_tag=LOCUS_11050;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:61.7%25%2C q_cov:74.7%25%2C s_cov:16.8%25%2C Eval:1.2e-14%2C partial hit],frameshifted%2C insertion/deletion at around 1015040%2C1014658%2C1014779,MGA_1106
sequence1	MetaGeneAnnotator	CDS	1015066	1015248	.	+	0	ID=MGA_1107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_11060;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:90.0%25%2C q_cov:100.0%25%2C s_cov:16.8%25%2C Eval:1.2e-27%2C partial hit],frameshifted%2C insertion/deletion at around 1015039,MGA_1107
sequence1	MetaGeneAnnotator	CDS	1015300	1016205	.	-	0	ID=MGA_1108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKIGSLRKELNLINLILIGISGAVGTGVLFSSAGMAAVAGPAIVISWLLGGIFYLFIGLTYVQLGTNFPEAGGPSRYPLYSHGRVTNMINAFSDLIWYLFIPPIEALAVVEGLNYFTTGYNIVLINSSGAPTTLGALLGVSFMLLFIPFNYFSVKFFGKSTTAFGTIKMILYLAVLFGFLIYLFHYQNFTAYGGFSPFGFAGIFSAIPLAMFAFGGIRVIPDYAEETKDHKVLGKAILYTVLGQTTIYVAFAIAFIASLDWSGLGISIGNWGALSNLAGNPFILTRGRSVINILVELQA;locus_tag=LOCUS_11070;note=WP_010979823.1 APC family permease (Sulfurisphaera tokodaii) [pid:79.5%25%2C q_cov:98.7%25%2C s_cov:58.8%25%2C Eval:6.7e-135%2C partial hit],MGA_1108
sequence1	MetaGeneAnnotator	CDS	1016474	1018243	.	+	0	ID=MGA_1109;product=chloride channel protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980495.1;translation=MKISSWPYFEKWIFLGFIIGILIGVFSISFTLLLNFLETIFLKDILQTTIPKPLGEGGNLNYTFVSGRFIFFPLIVGLGGLISGILIYKLSPETAGGGVDFAIESYHKLQGKIRKRVPFVELFSSTFILGSGGSAGDLGPMGLIGGGLGSVISQYFGLTPEDTRKAVAVGIGAGVGSIFKAPIGGALLSAEILYRRDLEPDVILPSMIASATAYSIYGSVVGFEPLFGIYPFHFSPLRLPLYALLGIIIGILSILFVKIYKSISAFFKKMKIKSIFKPAIGGLITGGLILIFPEVIGTGYGWDDILEFGNFSPIKTYGIPIIIFLFILAIAKMVSSSLTIGSGGSGGIEAPAFEIGAFIGAGVGMIFHNLLPSLVPYVAPFVVIGMLTMFGGPAKAPISVMIIITEMTSSLQLLPGEMIAVALAYVITGKYTLYPAQYPTRKDSPAHKSEYEIPVMLSIKIDECPLTELKAYSTDDIKEVSKRMEEEGYLSLPVVDKNNTFIGIVYYRDIADKKGEVINYTIRGVPYVSPNANLEDAWEVISRTKSRWVAVVENGKLKGVVTVESLLDRYEKEVMKIKGKSENNEEYNS;locus_tag=LOCUS_11080;note=WP_010980495.1 chloride channel protein (Sulfurisphaera tokodaii) [pid:45.5%25%2C q_cov:98.1%25%2C s_cov:99.3%25%2C Eval:5.7e-156],MGA_1109
sequence1	MetaGeneAnnotator	CDS	1018331	1019560	.	-	0	ID=MGA_1110;product=FAD/NAD(P)-binding oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846808.1;translation=MTKVLVIGGRFGALTPAYTLKRLVGSKADIKLINESRYSWLRLDMPHVSIGVKDVDEWKLDLSEALPQKGIAFEEGKITKVDAKNNKVIYVKPDGSTEEEDYDYLIVGIGARLAPELIKGFDAYGYSVCEPDYAVKLRDRLRQFKGGNVTIGSGYFYQGRNPRPKVPENLAPFSDAACEGPVFEMSLMLHGYFKKMGILDKVKMTVYSPGEYLSDLSSAARKAVGEMYKQMGITLINNFKVEKITEHEVIDEKGNSIPSDLSLILPPYVGNPALKNSTPDLVDDGGFIPTDLNMVSLKYDNIYASGDANAMTVPKLAYLAVKTGRIAAEHLATRLGVPTKIETYVPAVVCIADDPLEGYGVAVHDETFYGGTRSDAVPSPTNSLKKELFVKYFMWSKGDIALEKFMGEW;locus_tag=LOCUS_11090;note=WP_052846808.1 FAD/NAD(P)-binding oxidoreductase (Sulfurisphaera tokodaii) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:1.3e-169],MGA_1110
sequence1	MetaGeneAnnotator	CDS	1019692	1020171	.	-	0	ID=MGA_1111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIVHGLIAGFGFGAYATIITFILAPQVPGLIYAPLPGLMFGLGTMTMQIIFGGMFANIMKLKKLNEDEMRIIAGKSAGRTLYYGGLAFVIVGLLIIAFPIIDNFSISTGNPIPNLDAINIGFLLVVSVVGLIGISSIIMSFREVEKRRKQNKPLKKVL;locus_tag=LOCUS_11100;note=WP_052847040.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:72.9%25%2C q_cov:96.2%25%2C s_cov:51.5%25%2C Eval:1.7e-57%2C partial hit],frameshifted%2C insertion/deletion at around 1020230,MGA_1111
sequence1	MetaGeneAnnotator	CDS	1020225	1020581	.	-	0	ID=MGA_1112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISIEELLNPSSGLTLSTILLFSYILGLLHGATPDEHTWPITFSYAIGKYSTKKGMKAGFLFSLGFTIQRAFLTTLGFLGLAAIYKEYNLDGPVYFIVGIVMAIAGSYILHGRYIHLL;locus_tag=LOCUS_11110;note=WP_052847040.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:85.5%25%2C q_cov:99.2%25%2C s_cov:38.9%25%2C Eval:4.9e-53%2C partial hit],frameshifted%2C insertion/deletion at around 1020230,MGA_1112
sequence1	MetaGeneAnnotator	CDS	1020779	1022764	.	-	0	ID=MGA_1113;product=acetate--CoA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979587.1;translation=MSLNYLFRPSSIAVVGASRNREKIGNIITRNLISTFRGKIYPVNNKATDKIEGLTAYKTLKDIPGDVDLAIISVPRQFAISVMEDAIAKGVKSAIVITAGFKEVGGEGVKLEEDLINTAKKGGIRFLGPNTMGIVSPDYNGTFAYANINRGNIALVVQSGGIGAYMLDWAQRTRTGISFLVSMGNQADVKEYEVIDYLSKDPETKAIFVYLEGVSDGEKFIDTLPDATQRKPVIFIKGGATSKGAEAVKTHTGSLAGSYEVFRSAIKTVGGIFVEDLSDFLNLSRFTTSSEPISEDILVVTNSGGHGVLTSDAISRNNLNMIEIPERIKDDLRKILPDTSLPKNPLDLSGDAGRDRYMEALKIVQDLSCTKLVIVQSLPVVSDSEVAKVLLNFKGKGIVGVVMGVDEDSAMRILESASIPAFNMPESAVRAIRYLTTKPNPRKKIRVAQPINSAVEIVKGKQFLKDYEALKLMEVYGIRTPKWGIAESEDEAQRVADNIGYPVVMKISADTPVHKTEMKGVIMNVEKDQIKSTYKDLSKITKRVMIQEQLPGLEIFVGGLKDPVFGHTVLVGSGGIYVEVLKNVSYGLAPVYEDEALEMLQESKVHDMLNARKRNYDEGSLIRTIVSVSRLLVDLNVKEMDINPLIVNEKGAYAVDVRVVF;locus_tag=LOCUS_11120;note=WP_010979587.1 acetate--CoA ligase (Sulfurisphaera tokodaii) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:3.4e-269],MGA_1113
sequence1	MetaGeneAnnotator	CDS	1022792	1023808	.	+	0	ID=MGA_1114;product=pyridoxal-phosphate dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846928.1;translation=MFREVCARCNKEREGLELRCKRCGGPFKIEIDFPFSKNLRENFPYISEWTSLGEWNTPTIKSNVYYKLDFLNPTGSYKDRGSVTLISFLRQKGIKKISEDSSGNAGASIAAYGAAAGMKVAIFVPSNARGGKLKQIESYGAKVNKIEGNREDVAKAAESSEYYYASHVLQPQFRDGIRSLAYEIVRDLNWETPDSVYLPTSAGTLLLGVYEGFNHLLNNGMIEKMPRLVSIQTEQVMPLCSKINGVLYSPPEKVTSIADALVSTKPFLLQEMEEVIRRFGDCIVVSDDEILTAWKELARKGLLVEYSSATTLAAYKKDKRKEGEKNVLVLTGSGLKIL;locus_tag=LOCUS_11130;note=WP_052846928.1 pyridoxal-phosphate dependent enzyme (Sulfurisphaera tokodaii) [pid:72.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-141],MGA_1114
sequence1	MetaGeneAnnotator	CDS	1023794	1025062	.	-	0	ID=MGA_1115;product=M20/M25/M40 family metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978608.1;translation=MDLEDLYEFLKIDTTSAKGKGEEGAKFILDYMKDNGIEAELVKHKAINPYIIGEIDVNSNKTLLIYNHYDVQPVEPLDKWNTDPFRPVEKDGKIFARGIADDKGSLMARLQAIIELMKERKLKINIKFVYEGVEEIGSPYIEDFLSDYKDRLSSNYVLWEGSGRGPDDSPEIVLGVKGLLYVELRVRTEKDLHSMYAPIVRNPAWELVHFLNTLRTPEGKVNIKGFYDKVKWLSNEEKKYLKGDKKGMEKALGQEVPDDFMIRVVENPTCNIDGINSGYTGEGSKTVIPSYAFVKLDFRLVPDQDPIEILDKLNSIIPSNFEIKVLGKVKPYRTSLKSEIAKAIINSAKKVYGEDPTVLPNSPGTGPMEAFARILNNNQIADGVGVDNAGSNIHSFNENINKEDYFKAKEWMKELLFELENF;locus_tag=LOCUS_11140;note=WP_010978608.1 M20/M25/M40 family metallo-hydrolase (Sulfurisphaera tokodaii) [pid:73.1%25%2C q_cov:98.1%25%2C s_cov:98.6%25%2C Eval:1.1e-176],MGA_1115
sequence1	MetaGeneAnnotator	CDS	1025097	1025420	.	+	0	ID=MGA_1116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978609.1;translation=MIKYAEYTRHSLTEPLLLVYLYKKVEDGKIVSAFRIQMYKNMTISIFEDDKLQGGDVVDILTGNVDNVKKIIDKYYEESIDDLVIYGEQRYVDELLDKLEDKETQSA;locus_tag=LOCUS_11150;note=WP_010978609.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:57.0%25%2C q_cov:93.5%25%2C s_cov:99.0%25%2C Eval:5.3e-31],MGA_1116
sequence1	MetaGeneAnnotator	CDS	1025670	1025858	.	-	0	ID=MGA_1117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEKSENIKSNPEIPARIMANSPIEEKITILEFFDIKLNARIIKPKISRRNPDIICNIKIGP;locus_tag=LOCUS_11160;note=MGA_1117
sequence1	MetaGeneAnnotator	CDS	1026033	1026263	.	-	0	ID=MGA_1118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEKEEQKKDSKLYSRFTWVVVVGPLLFFFGLTMWVADFLEDFGPWREVVPVIILFAVAFFIAGVFLRSKFGRLML;locus_tag=LOCUS_11170;note=MGA_1118
sequence1	MetaGeneAnnotator	CDS	1026354	1026812	.	-	0	ID=MGA_1119;product=DNA primase noncatalytic subunit PriX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978610.1;translation=MVQSKKIKILLNYPDDTPAGYSIYDGIFSKVYDEKGELLFEVNGLFPPRITTRNYSWIEKILNSGLSDGRKRFILYVASRYLVNVKKVDEEEALKELKDFYYKNGSGKIYDAWLRSVIRGVQEKKLLPPSLKNIQDRDKELYEEITKILEKR;locus_tag=LOCUS_11180;gene=priX;note=WP_010978610.1 DNA primase noncatalytic subunit PriX (Sulfurisphaera) [pid:62.6%25%2C q_cov:96.7%25%2C s_cov:98.7%25%2C Eval:9.4e-52],MGA_1119
sequence1	MetaGeneAnnotator	CDS	1026799	1027761	.	-	0	ID=MGA_1120;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978611.1;translation=MKCSKCDEKAIIKIPYANIYLCKEHFNEWFENRFERIVKKYKIFEGSKKVAVAVSGGKDSTTLLHLLNKLSKKLGFEIFGITIDLGIDMGKGYSSKSVEFAIKNYEALGVRYRIVKLNEEYGFTIDEAKHKIRRPICSTCGLTKRYVLDEVASKEGADTLATAHNLNDVAQYVFIGYFNGDVNSLARLRVVSPAELGYIKKVKPLFLTPEKEIMTYALINNIPFIYDSCPHTFRVGGPTQDKIRRSLEEMEDKIPGFMLNLVQNFEDKIRPWINDVPKLTLGKCKICGRPTNNDRDICSFCAIRIKLNKISTNTTINGSE;locus_tag=LOCUS_11190;note=WP_010978611.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:67.5%25%2C q_cov:99.1%25%2C s_cov:99.4%25%2C Eval:1.9e-127],MGA_1120
sequence1	MetaGeneAnnotator	CDS	1027802	1028470	.	+	0	ID=MGA_1121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846903.1;translation=MQILAEVHPKSKREKLKGEINALQSFDGFDIPDSPLGLPSVLPSSIGVMIREELGDNKRIIVNQRLLDVNELFVNSLSYTARAFNFDIAFTKGDKPKIGKEVGYLSSEEAVNIAKNIGIKAGMMLSLRKSENEISARIESNADFFLALHFSEDKIKTLRRNVIPYIIVKTEKNKEIIKEITQPTIDENKVYDVLAELDGYCDAVLLSSPGDLEFLKRFSKKS;locus_tag=LOCUS_11200;note=WP_052846903.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:51.5%25%2C q_cov:99.5%25%2C s_cov:99.6%25%2C Eval:3.0e-53],MGA_1121
sequence1	MetaGeneAnnotator	CDS	1028467	1029015	.	-	0	ID=MGA_1122;product=zinc ribbon domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978698.1;translation=MNKSFQGVYVNPQQIAYFLENWFSSKGYKTQVLGSGSSVIVQAKKEGFFRALVGADRAFTVRLMGGQGYLNVDIGMSNWVKAADATEDVITALVFWPLAAFQGIEEIYDLRIEEDTMKEVERLIMSSQQFPQQFSSQPYQSYPYPQTYPVPQSPQMTKRCPACGYENPSNARFCMNCGYNLA;locus_tag=LOCUS_11210;note=WP_010978698.1 zinc ribbon domain-containing protein (Sulfurisphaera tokodaii) [pid:56.7%25%2C q_cov:97.8%25%2C s_cov:98.2%25%2C Eval:2.3e-49],MGA_1122
sequence1	MetaGeneAnnotator	CDS	1029429	1030373	.	+	0	ID=MGA_1123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVVSEIISYASGLSSAISTAALIATIYYYRKQTQLQQTQIVELKKQSSIQECLQMRDSTIRLHEVLTPLMLEEINNIINFREKINETCKDPIKCIVYIHNLLANSIENPEESETINFLEENVSKLIRDLNSLKIEDPRFERYENYIESIINSICNSYSLTEVKKENCQVLDEIHFLQKHYGNIRDSELYNYIDLPISQDIKGSKLEENSTRIELKNLFKIDNWDEISDILDKFDFLIDSKCGNSECSEKFPIKEIFDGKINPLKDMLNNPEEFCKLNEINLCCKEFEPILRKLSSAIYDEEKSKILYSFIYLN;locus_tag=LOCUS_11220;note=MGA_1123
sequence1	MetaGeneAnnotator	CDS	1030585	1031625	.	+	0	ID=MGA_1124;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980545.1;translation=MFSNLSDELKKALNEIHYDKPTKVQEIAIPPFLAGESVIVQAKTGSGKTASYLIPIIERGEQTIILAPTRELAEQVLYEGKRIAKYKGTTFGLVIGGVGYEKQEKEANNDVIIGTPGRILDLWGKGILDLSRFSIAVVDEVDRMFDMGFIDDVRMILSHTSAKNFGFYSATVPKEVEDLAFEFAPNAKMLKVDEYKPVEIEHKFLLVRGWREKVEKTQEEIKGKAIVFVNTKAKVDDLARELSDEFDITVLHGDLPQSARNRNLTKFRKNEASVLISTDLAARGIDVIDVDEVINFDAPRDIETYIHRVGRTGRMGRKGFAITFYTRREEQLIKRIKGVIKTVEYD;locus_tag=LOCUS_11230;note=WP_010980545.1 DEAD/DEAH box helicase (Sulfurisphaera tokodaii) [pid:45.6%25%2C q_cov:96.8%25%2C s_cov:98.8%25%2C Eval:2.4e-78],MGA_1124
sequence1	MetaGeneAnnotator	CDS	1031659	1032042	.	+	0	ID=MGA_1125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTRDSILVLLYERGELSKEELANMLRQEVDEIEALLKGLEREGLVMQKEKGLIFKRKVYGLTPSGLEEAKKAKEDLENKANKLIQAIQNGDYSQIQSFESDIPLMLALSMIDMMMLQGLMFDMFQF;locus_tag=LOCUS_11240;note=MGA_1125
sequence1	MetaGeneAnnotator	CDS	1032062	1033627	.	-	0	ID=MGA_1126;product=sodium:solute symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978616.1;translation=MIPHSNIDYVTLGIFLLLFGFFAFLGFYGSRFRSGDLKSLMEWGLGGRKLGTFLIWFLLGADLFTAYTFIAVPAGIFAAGSLYFFAVPYVAWGFGVALLTMPRLWTVSRNKGYITAADFVKERFNSKTLGIVVAATGIAAELPYIALQIVGMEAVIEMMFLGLGIASKFTEEISLLLAFLVLAAFTFVSGLRGAVLTGVFKDVLVWITVITVIIAVPLEVGGFSKAFTAAQTLKPIFDTLPAGEISAYFSLALGSSFALYLYPHAINGSLSSQDREKLKYSTSMLPIYGIGLAFISLFGILVYAVPHALSLLKVTGNGALAVPALISYTMPNWFIGIAMTAIFVGGLVPASIMAIAVANLFTRNIVKELKPNLPSYSEARIAKWTSTIFKFLALGFVFIVPATYAIQLQLLGGMLVTQTLPAVFLGLYTRKLEPKSLLVGWIAGIATSVGLAYYRNFIFLHLTSFTTSLYPILGQLIYMAIISLAVNLAVTLLGTAIAYAMGWRPKSNIKEEEIATVMQRK;locus_tag=LOCUS_11250;note=WP_010978616.1 sodium:solute symporter (Sulfurisphaera tokodaii) [pid:62.0%25%2C q_cov:97.5%25%2C s_cov:97.3%25%2C Eval:5.4e-179],MGA_1126
sequence1	MetaGeneAnnotator	CDS	1033627	1033827	.	-	0	ID=MGA_1127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846382.1;translation=MNKFYLTLGIVLLIDIIIYSLYPLFNKITPELFGIPFFYWYQTILLVITSLAFLGVSFIKESKGEK;locus_tag=LOCUS_11260;note=WP_052846382.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:48.3%25%2C q_cov:87.9%25%2C s_cov:93.5%25%2C Eval:4.2e-12],MGA_1127
sequence1	MetaGeneAnnotator	CDS	1034321	1034779	.	+	0	ID=MGA_1128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978615.1;translation=MPSDIISLMSIHSLVKYKARGRKLERWENYINKYKINISREEFSLILKLDALLTLYVDGYDFNGVSGDAVIKEFRLAKTMVNDELIIELSKIKPKLIVIRNKPNYWNLISAYKVEYIDKNLAKAFSKLNGVRRIECNDIRSIDSTKVCTIEN;locus_tag=LOCUS_11270;note=WP_010978615.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:44.0%25%2C q_cov:98.0%25%2C s_cov:75.6%25%2C Eval:1.7e-29],MGA_1128
sequence1	MetaGeneAnnotator	CDS	1034837	1035655	.	+	0	ID=MGA_1129;product=DUF929 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979760.1;translation=MMARSSKSKKKTKNNDSKLIYVPFVILAIIVGLFIALPYVHSSNTPSSISSTQNNGPLSDLVKISNVGYANTTQVYFISWYGCPFGAALSWPLYIALQDYGNVSVVTHYSITEPDIDNGLQGVPGLIFTKFNSTSNVAFHFLYIYNQNLTATPSGVPLNNNAVSIGLQEIKDNEPYFVYNIIYQYEVNETFPGLLAPIAYEGHPSHIATALIITGPKGTWLLIGYPNPLTPSTIISINNSSSQLLSEIKSGHVPSLINDIAKEIIEAINEAQ;locus_tag=LOCUS_11280;note=WP_010979760.1 DUF929 domain-containing protein (Sulfurisphaera tokodaii) [pid:39.3%25%2C q_cov:90.4%25%2C s_cov:91.8%25%2C Eval:3.8e-46],MGA_1129
sequence1	MetaGeneAnnotator	CDS	1035639	1036613	.	-	0	ID=MGA_1130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978618.1;translation=MSEAMRRAIKTLIDSSIPDVAKAYGFKYLTPIIGEPFFVPYGELNGKFKNTHEAFEAILSELRIRRQEAMEKFREWYPQAKEIEHFRFTFYSYTDPKEGMDVGVGANPLASLPEGDFKLGEIKDRIIDKDVIILNSALSGNIANGNSPLSKARSVKYIDFVSNRQDEIVDAYMWLSQTFHERYDKEKDYDPELGKTYMKRLFEVIDQESGKYRTNKIEGDIAILPLFVLPTNMRLLNGNIREVWNKSEEYSTMIRQGRFYDVNVLPILFNYIKLKEIVQEAKNNVNTLIILSDKKMHPLDRDDFLEIGKKATIDNEFVKVIELH;locus_tag=LOCUS_11290;note=WP_010978618.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:35.3%25%2C q_cov:95.7%25%2C s_cov:92.0%25%2C Eval:2.3e-51],MGA_1130
sequence1	MetaGeneAnnotator	CDS	1036677	1037897	.	+	0	ID=MGA_1131;product=cation:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978619.1;translation=MLKNLFYDVDNSDQLFLAFLEISIFITVAQAFHLASLKYKLPSIFGEILTGIILGPFALGTFLNSIIGLNIFTINNYLLLFSQFSVILLIFAAGLEHGFRSLRSSGLYALLAASIGAILPFVGVYYVMTFFTSKGVALLMGAATGATSLAAVSSIIEGMGIQREKFVKILTSSAAIDDVVSFIILSIALSLIEGIKGGYLGLLKTASFVVISWIIILLVSVLIIPRLLSVVSDNLVVETSLMILFILTVIMITLGFSPIIAAFIAGIAIAESRKAERIKGMVTALLSIFGSIFFVTIGAETNVLSFVNLQVLEIGILITALASILKFVGILPFAFLYTRKMKHAIMTSFGMIPRGEMGLVIASLAFADNIFSQNNLSEVVFMSLLTTVIGGMFFNLSVRKWLSSTQ;locus_tag=LOCUS_11300;note=WP_010978619.1 cation:proton antiporter (Sulfurisphaera tokodaii) [pid:46.2%25%2C q_cov:97.0%25%2C s_cov:98.7%25%2C Eval:8.4e-97],MGA_1131
sequence1	MetaGeneAnnotator	CDS	1037876	1038217	.	+	0	ID=MGA_1132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIFYAMSSELPRPNGRGFLLQSRGLPKVEVSAPQALRVVPTPSTNVNPQYPNMGLLNGAEAYHIDPRFNQGVSVTLTPSVTAINRIFEKYVFKCNHKGDYPSPPLPVDPKSY;locus_tag=LOCUS_11310;note=MGA_1132
sequence1	MetaGeneAnnotator	CDS	1038400	1039392	.	+	0	ID=MGA_1133;product=ISH3 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012953324.1;translation=MLNFQGEKVDEVAKTLISACLWNDSVENKSRAYDVSPQTVRNYVEKQGMEVIEKLLERARKISLEVLKGVNEIDLSIDWTTKTWYGKPVKGLGSSEKGNSWNYATATTKYKGKVLLLAFIPQVNGMTKDEIVKILVEQVMAMGFKIRLITLDAGFYTVDVLNFISQFKYIIAVPVGDVKVFEEFDGDYTTNSKRHRRDEQVKFRLLVYGKEKVRRKKKSLVYFARATNLDLPKREVLDLYNKVRGPIETSYRNIKAFLPFTSSTKFVFRTLIFVLALVLYSLYTIFKGEVGREEFRLLLILLFPDLFNPENFTFNIIETLIYTIDLFLRR;locus_tag=LOCUS_11320;note=WP_012953324.1 ISH3 family transposase (Sulfolobus islandicus) [pid:92.1%25%2C q_cov:100.0%25%2C s_cov:93.9%25%2C Eval:2.2e-166],MGA_1133
sequence1	MetaGeneAnnotator	CDS	1039487	1039687	.	+	0	ID=MGA_1134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYTTRRVMKKY;locus_tag=LOCUS_11330;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:65.2%25%2C q_cov:100.0%25%2C s_cov:18.5%25%2C Eval:2.7e-19%2C partial hit],frameshifted%2C insertion/deletion at around 1039660,MGA_1134
sequence1	MetaGeneAnnotator	CDS	1039690	1040544	.	+	0	ID=MGA_1135;product=IS110-like element ISSto6 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979846.1;translation=MKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAEKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIIWSVWYNNKPYEPK;locus_tag=LOCUS_11340;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:73.4%25%2C q_cov:100.0%25%2C s_cov:80.1%25%2C Eval:8.6e-121],frameshifted%2C insertion/deletion at around 1039660,MGA_1135
sequence1	MetaGeneAnnotator	CDS	1040772	1041332	.	-	0	ID=MGA_1136;product=DUF1404 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978076.1;translation=MEILRDQLKKRNFIVPLIFLIIAVNPYTEIMEFKYQWLFMTTHYLLYIAGFVLSYKIMRGSILYLIPGIILPVFWHLPQFFALAGAYVSWRILNDSTLFLGGIFAGMTITKLSNAVKILLLVLWMSGDSVLSVILIVGWPPYSNEVYPFSPFSVSQEVYTGIVMFGIMTAIFVYIVINLIKTVFRI;locus_tag=LOCUS_11350;note=WP_010978076.1 DUF1404 domain-containing protein (Sulfurisphaera tokodaii) [pid:47.0%25%2C q_cov:97.3%25%2C s_cov:97.8%25%2C Eval:6.7e-44],MGA_1136
sequence1	MetaGeneAnnotator	CDS	1041365	1042927	.	-	0	ID=MGA_1137;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979663.1;translation=MSQRKVFVRESSGLIKQVNLLDAVMLNLGNMSAGVALFESISPYLNSSNNPTIGGPGGVLWIASLLGLIFAIPQLIIYTVMTRHISRTGGDYVWVSRSINGGIGSVMAIALMLESLAYFALIAFFSASSINAVLSTIGGVDHSSFLLNLANNIFVNPYGNLTLIQKGIFYSIGAIFFVIVILLNIFKAKWGYNIVTILGIFSFASLIAAMIIIAISTPFMAKISPFMSSQGISIPSSVRYSFLPKINWDYTLLLLPIFALYTYPWMQAGPAVSAEFKQSQKIAKLNLVLAILITAFFVTVGFAEMDAVAGYYFNYYAYGTFIYNFWDVAIALSQNALVQWFLGLGVILWNFYVLSYGVIVFSRYVFALSFDRVLPAKFSEVNKYGSPIYAHLLDLILTLSLLSIPVFSTAAATSLYGATILGALYFLVVSIASIFYGVKNKIRILSIAGIISAIYFAFLTYEAGINPVFGFTSTVDGIPITEIFVGLVIVTGIVVYLLSKYINSKKGIDISMSFKEIPPE;locus_tag=LOCUS_11360;note=WP_010979663.1 APC family permease (Sulfurisphaera tokodaii) [pid:57.2%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:1.1e-166],MGA_1137
sequence1	MetaGeneAnnotator	CDS	1043117	1043302	.	+	0	ID=MGA_1138;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978621.1;translation=MATKVKFKIKGEEKEVDVSKVKKVWKVGKMVSFTYDDNGKTGRGAVSEKDAPKELLEKLGK;locus_tag=LOCUS_11370;note=WP_010978621.1 DNA-binding protein (Sulfurisphaera) [pid:68.4%25%2C q_cov:93.4%25%2C s_cov:89.1%25%2C Eval:2.4e-15],MGA_1138
sequence1	MetaGeneAnnotator	CDS	1043306	1046371	.	-	0	ID=MGA_1139;product=S41 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979182.1;translation=MQSSSVYLQYPDIKDSQIVFVTEDDLWKLDLNSKKVERLTSDFGIISHPKFSEDGKWIAFTRTQRGDQILSEVYIISSEGGEPERITYFGSPFTNVVGWKDGKVIVSSDYHKPFASWRELFHVDLNGDFERLPYGSASSIAFGSKAVVIGRNTVDLPYWKRYKGGTRGKFWIDYYKGEFEKFLDLNGNLTSPMWINDRFYFISDHEGIGNIYSVDLYGNDLKKHTSFREFYVRNGNSDGKNIVFQSAGDIYVFNPVNDNVDKISINVPISGNHKRPDFVEFWNYFTEFRIKEGVLSVTSRGKSFVMDPWEGPAIQIGLKNGVRYKLTKFIDKFTLVTVSDESGEERLEIYNIKDGNKDVLDLDLGLIEGVFPSPKGNYIVVTNNRFEIWLINIKDKNSKIIDKAEDIIYQVAWHPNESMIAYTYPDGYGFQHIKIYDMQSAKQYDVTNLGNNDFSPSFDPNGDFLFYLSTRNLDPVSDQIYFNFGFLKSVKPYYIPLKKGKSLYKSTLFDNETNNIYLNNLKEKTSSLPIEESNYVKLVAADGKIFLLSYPIKGALSTWLFGGIRSDGILEVYDINLRTKDQWLTNVTDFDIDIENKNLLVRQNKILRIVSTQTKPDLSSQEPGKKSGIIDMSRVKIFVDPVREWSQMFREAWRLMRENYWREDMNGIDWSYIYEKYSKLLSKINSRSELSDLIKEMQGELGTSHAYEMGGDYDVEKPYTIGGLGAEFRYSGECYEITRIYEGDPSYVEEKSPLKDPGVDIEEGDCIVSIDGVKLNKTIKPQNLLINKSGEQVILEVRKKDGKILTFSVRTLKDEKYLIYRDWVEKNRRYVHEITNGKVGYVHIPDMGPRGFIEFFKLYPFEVLNYGKVIIDIRYNGGGMVSQLLIEKLLPKRIGKDVPRRGKAYPYPSYSPEKLVLIINEYAGSDGDIFSKAFKSYNLGKIIGTRTWGGVIGINPRYRLVDGTIVTQPQFAFFFDDVGIGVENYGVDPDIEVEISPQDYAHNKDTQLYKAIDIIQEKNKN;locus_tag=LOCUS_11380;note=WP_010979182.1 S41 family peptidase (Sulfurisphaera tokodaii) [pid:47.3%25%2C q_cov:81.9%25%2C s_cov:96.5%25%2C Eval:4.3e-221],MGA_1139
sequence1	MetaGeneAnnotator	CDS	1047324	1047467	.	+	0	ID=MGA_1140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTGKDGEYYYAELSKDEVIKLKEIVEKKAKERTNVRKPSYETQSPK;locus_tag=LOCUS_11390;note=MGA_1140
sequence1	MetaGeneAnnotator	CDS	1047424	1047756	.	-	0	ID=MGA_1141;product=type II toxin-antitoxin system RelE/ParE family toxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048059939.1;translation=MFSISFIVICKEWKLRIMFSKRINNLDELADYLLDSFASDKLVMLILDKVLLLLDNPFKYSREKLGKDKHGNPMFSIEVTGDIRILYSVDSKNCIVFIWEIGSHKKVYGR;locus_tag=LOCUS_11400;note=WP_048059939.1 type II toxin-antitoxin system RelE/ParE family toxin (Metallosphaera) [pid:62.7%25%2C q_cov:92.7%25%2C s_cov:97.1%25%2C Eval:1.5e-30],MGA_1141
sequence1	MetaGeneAnnotator	CDS	1048462	1048869	.	+	0	ID=MGA_1142;product=EVE domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978585.1;translation=MWDVILTQGVYGYKSNLKDYIKVGDKLIIYVSKYYAKIYGGKIVGVVRVTSDWYVDETPVFPEETVRNKGFYIYRVKVEPEITGVCDIKAILDKIHFIEDTAQMAKYLRNAPANLKRPIPDDDGHTIEKCLKGEL;locus_tag=LOCUS_11410;note=WP_010978585.1 EVE domain-containing protein (Sulfurisphaera) [pid:51.1%25%2C q_cov:99.3%25%2C s_cov:91.8%25%2C Eval:1.9e-36],MGA_1142
sequence1	MetaGeneAnnotator	CDS	1048882	1049106	.	-	0	ID=MGA_1143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846501.1;translation=MLCEKVFRSKQGKTVILRVYFDGKIEKVEITGDFFADEKDLEMLEKYLRDLKIPKIEIIGFDPEEILEKIKDCL;locus_tag=LOCUS_11420;note=WP_052846501.1 hypothetical protein (Sulfurisphaera) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:97.2%25%2C Eval:6.6e-13],MGA_1143
sequence1	MetaGeneAnnotator	CDS	1049112	1049834	.	-	0	ID=MGA_1144;product=biotin/lipoate A/B protein ligase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979212.1;translation=MRLIIEGGNSGERQMALDETMLILLSNNMSEETLRLWHFSPTTLSIGRFLAVNDWVNEEERKKLGIPLIRRFTGGGPALHDENGEVTWSVSLKAVDMMETYKKISIALIKSLNLLGLKGEFSPINDIIVQGKKIVGMAGAKKKNAILVHGTFMFSTYLGFMTVIKSPEPKIKERGNPQGRVSNISLMLGREVTRREAIESLIQGFREIFNLEDGELTDIEKEFTEQLKYKYSNDKWTYLR;locus_tag=LOCUS_11430;note=WP_010979212.1 biotin/lipoate A/B protein ligase family protein (Sulfurisphaera tokodaii) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.7e-92],MGA_1144
sequence1	MetaGeneAnnotator	CDS	1049818	1050675	.	-	0	ID=MGA_1145;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_148692627.1;translation=MIGGFIIKRKFTVLSVTGSSCALNCFYCSTKYISSMESALTPDEMYKKIIELYNNGVKGFLISGGFNEKGELPIRNYIHIMKKVKKEMGVVFNIHPGILDKETIEDLKDVVDMVDYEFPYSIGAFKSKGVKREREDYIKTLENLIDFGPKYVVPHIMLGIPSDTDEEIENSLKILSSYKPYLINFLILIPTPNTPSRILKPMNVEKALRFIELGSKLMKGHVSVGCMRPYQIKEQLDREVIKRGLVERIANPHHKVIKEFNLKLFDACCSLPEKYLEDFKYETNN;locus_tag=LOCUS_11440;note=WP_148692627.1 radical SAM protein (Acidianus manzaensis) [pid:57.9%25%2C q_cov:96.8%25%2C s_cov:98.6%25%2C Eval:1.1e-88],MGA_1145
sequence1	MetaGeneAnnotator	CDS	1050672	1051475	.	-	0	ID=MGA_1146;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846502.1;translation=MQILLSAGTYFFIKKGLKYSNTAYALQTGGCEGKCAFCTQSSLSKSDKSYLSRVRWYSVNIEEIADKLSYFKRFCLQTVIKKNFENEVIEIIKYVKIPKSVTITPVSKEVLENMKKLGVDYLGIGLDTVESLWDKIGKPYTFQKYVEFIKNAVEVFGKRKVYVHLVFGLGEKKEEFVSLMEKIYSLGAEVALFAFTPVKGTPMENFPRPPLEEYREIQKIRFKLSTNGNPNEKAYITSGCPNCDRPFYNEDPREKMYNIPLFNVEGK;locus_tag=LOCUS_11450;note=WP_052846502.1 radical SAM protein (Sulfurisphaera tokodaii) [pid:62.0%25%2C q_cov:97.8%25%2C s_cov:96.7%25%2C Eval:3.6e-94],MGA_1146
sequence1	MetaGeneAnnotator	CDS	1051495	1052487	.	-	0	ID=MGA_1147;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980658.1;translation=MRTVILGGGFAGVSAFLNNTNSIVIDNKDYFVLTHKLVDVIETGDPSIAEIKYPDRFLKAYIRNVDFKKKKIITDRGEIDYDKLIISLGYEQDLSKIRGNVYKLENVEDAIKIRQQLSKVNSVAILGGGTLGVELAGTLNSMGKKVYLIEAQQKLLSFMSKDASAFALDTLKDLGVNVLLNTKVYDVKNTVETSSGEIKVDLTILTAGFKGPSIISEIGLSNINGRMLVDEYLKSIDYDDVYGAGDCMTIKNSFVPMSAQVAVQSGETAMLNVLGKDTKFKYKQIAIILRIGNIYFGDIFGKFVKGKMAELAKNIGIYRSIRMVQKASLI;locus_tag=LOCUS_11460;note=WP_010980658.1 FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:50.5%25%2C q_cov:94.8%25%2C s_cov:93.0%25%2C Eval:4.2e-77],MGA_1147
sequence1	MetaGeneAnnotator	CDS	1052649	1052966	.	+	0	ID=MGA_1148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITLNDIINVSIVREKYEFYENQIKHKDVSTIYSAIKDLVSFIKEIKGYASEELAIILKEQERIAKRIITVIRFRYIIIFLYKRIIEKLINSLEILMTKFLSKLS;locus_tag=LOCUS_11470;note=WP_010978584.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:26.4%25%2C q_cov:100.0%25%2C s_cov:72.1%25%2C Eval:1.1e-07%2C partial hit],MGA_1148
sequence1	MetaGeneAnnotator	CDS	1052963	1053475	.	-	0	ID=MGA_1149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIYIMCEFKFTKIERPISEHKIMFLRFDIFQRLSDDRLIRVISSHEKQGFSKSYFYFLFDKLKSLKIVKDNSIAFKIIIPFQSNDKIEFSKGLAYVSSDHIFYYINLESSKYSCDYCPIKGDCIVSMKQVAKENGVKISKENPRDAWNSIIEEIQDQIKNKIINLVISN;locus_tag=LOCUS_11480;note=MGA_1149
sequence1	MetaGeneAnnotator	CDS	1053546	1053818	.	-	0	ID=MGA_1150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846757.1;translation=MPWIPARSADKMILGQALKLKEGKVLRIESFKGDRWIEIKKLNSNEFEINEHGYNNTTYKVKEDEMKVILRRAIDLEFPRSHQLRISLSS;locus_tag=LOCUS_11490;note=WP_052846757.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:57.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-26],MGA_1150
sequence1	MetaGeneAnnotator	CDS	1053888	1055246	.	+	0	ID=MGA_1151;product=cytochrome b558/566 subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979723.1;translation=MSKRTRPTFVILGVLVALSLILAFVNVPMAQSSSQITAYKVVGSADLSNPGSESFWSKIPWNNISLTANIPNAPTSGLTHYILVKAAWNGSDIIILVSWQASKPAFGAWSTAAAGVYPPASGPGLFRIIEITPGSTYKLYTNYTNYSSIINGQTKVGRIVLNYSGVLVPLPNDSQIQVLPNGTILLYHSPRPIERILYESGLFYGYYTNSTWYYPDRVAMMWYMGSGTPTMDGMHIGGKYIGQVYDGEKMPAAGGALKQPGGAANIWMWVSGATWNNKTEDPAFAANLWDNESDTGLPYIDSGNSGFAVPLYTNNTNMYEVDCSGIWYAPVQSSGLNGSLFFIKTGAKYQNGYWTVEYVRPLSVPSNYAKYMPNISLGNTYYVAFAVWQGPLGETLFDKSITSSFLQLQLSTESSPPPPPIVTINPVVLDTTVAGVVIAVVALALIFFMYRK;locus_tag=LOCUS_11500;gene=cbsA;note=WP_010979723.1 cytochrome b558/566 subunit A (Sulfurisphaera tokodaii) [pid:65.3%25%2C q_cov:98.0%25%2C s_cov:97.4%25%2C Eval:1.5e-177],MGA_1151
sequence1	MetaGeneAnnotator	CDS	1055252	1056190	.	+	0	ID=MGA_1152;product=cytochrome b558/566 subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979724.1;translation=MNITEFLYKDIKIYSIFLAISASLEFIFETIFPISYLPLSIPNKLFLEYIGTAGLYMEYVAMSIVAIALSYKIKSLLPLGIILFISPVFTFIPNYSLSFLWMSIQVAIIVIGIVALFESLFRSNMLSLLLTPTLAMIILSLYAGYMINFEHLTFDFSFTYLFLFSIIGFMAYTVLWGKIVSKRSIASYIAGIPAAFIFLPLYFIVSTNRFMEMIMDMTLPAIFGIIFNNPFHVELFILLLSLALYLIITIAIKGNTYAGLGYFLIMSTVFLGLTGFHLIMYMITPVIGFALLNLKESKGIKILELRKKSVQR;locus_tag=LOCUS_11510;gene=cbsB;note=WP_010979724.1 cytochrome b558/566 subunit B (Sulfurisphaera tokodaii) [pid:38.8%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:4.1e-58],MGA_1152
sequence1	MetaGeneAnnotator	CDS	1056237	1057214	.	+	0	ID=MGA_1153;product=Rieske iron-sulfur protein SoxL2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979725.1;translation=MIKIRIGKDEKKILSPQDLYFIQKLLRKMRDPKTKFDSKEFVKKGDEYLFNYVNKNVGGVDEGRRNFLKGIIIGISAAAVASIIPGLRVIVPPNVSAISAFPKSLLVDSSGSPIEASKIPVNSPIITIYEYPLSGEPNFLINLGDSSNKPVKVPAGTVVVPQTGDKYTFPGGVGPNNSIVSYSAICQHLGCTPPYIHFYPPNHVNSAQLSAPEPDTLTGEALAAAKKANIPTLIHCDCHGSTYDPYHGAEPITGPTVRPLPTTILEWDSSTDYLYALGSIGVGIYPTGANGVPSKDPTSDLSSSFGSSVGDKTTVTQPENPFSSS;locus_tag=LOCUS_11520;gene=soxL2;note=WP_010979725.1 Rieske iron-sulfur protein SoxL2 (Sulfurisphaera tokodaii) [pid:71.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.3e-138],MGA_1153
sequence1	MetaGeneAnnotator	CDS	1057260	1058897	.	+	0	ID=MGA_1154;product=cytochrome b N-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979726.1;translation=MSITKRISNWFNERLGLDDLPFFRTPDYMYHADEWLGALVAAAFMYTVISGLILLLYYNPDEGYDSTQFIINSVPYGSVFLYSHLYGAYAMIILAYIHMFRNYFVGAYKKPRELLWILGVLMLVLTLGASFLGYSLIGDALATSAVDVGAGIISSIPQLSFLLPILFGNYDSGQYGRVLAWHIILVALIGLLFVFHFFMAEHYGMMPSRKVKAKAPAVYTKEEWSKFNPWWPRNFVYMISLVFLTWGFILAIPNALAYLNGLPQQLNPFLNPKPAPPPNSPLAAHITTYPPWFFLFVYKIADFTSDVIIFLLIGVIIPLVYLLLVPFLDKSEYLHPMSRKIFVGFGILMITYLIQTSIWGDLAPGIPVSITEQITVYLPPAIIVALGLAIIRVKPSGGGITKAQFSPISAIVFTVIALLMAGAFVGFMDYPSITTLGILIPLALVFLIGARSLTPRIFKADQTIPTTTSTVSETNLERKKKIAQGIMILLLIVSVILTATIWTIPPTGYQSNMFGVDLGLIFIMLGEAISLYHYIIYKKPNESYE;locus_tag=LOCUS_11530;note=WP_010979726.1 cytochrome b N-terminal domain-containing protein (Sulfurisphaera tokodaii) [pid:63.9%25%2C q_cov:98.5%25%2C s_cov:100.0%25%2C Eval:2.6e-195],MGA_1154
sequence1	MetaGeneAnnotator	CDS	1058929	1059222	.	+	0	ID=MGA_1155;product=antibiotic biosynthesis monooxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847047.1;translation=MINVGLYYKVKEGHEKEFENKFNEVVNFLKNNYPGLKQAKLYKSVEEPREYLIYTEWDSLETFRKFISSYEYKGTVDYGKSIIEGRPYHKVFQEINS;locus_tag=LOCUS_11540;note=WP_052847047.1 antibiotic biosynthesis monooxygenase (Sulfurisphaera tokodaii) [pid:61.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-30],MGA_1155
sequence1	MetaGeneAnnotator	CDS	1059266	1060168	.	+	0	ID=MGA_1156;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980463.1;translation=MDVTIGIPTIGRKSLDSLLWKLKKYKDVEILLVYKGDLKTKDYNRAIEQKEGYYEEAINIILKESHSSLLLITDDDAIPSESWIEDHALFHEKNEKIGVASGIIKGKKWKNYPNALFQRYKDTIYMEEYDYRFKDYIGFLTKTGLSVDRREHKEDIEKTLAIAGVNMSIKKEVYSNLQIPEYSLRGSYNETIIALAGIKKGFDSAIFNSGEVTHLGEESLSRTKNDKLERYFAIEKYSFPYAVNLELNLNVLLLKEFSFLINGEAKVGIDLAIRGISEKMSPHRFREELKTIYSKIISEL;locus_tag=LOCUS_11550;note=WP_010980463.1 glycosyltransferase (Sulfurisphaera tokodaii) [pid:48.8%25%2C q_cov:95.3%25%2C s_cov:95.4%25%2C Eval:2.6e-75],MGA_1156
sequence1	MetaGeneAnnotator	CDS	1060152	1060565	.	-	0	ID=MGA_1157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048054748.1;translation=MNSRTLGWNIAASIGYSFILTFITFIISAIVKFFYPPYALGISPFLLFSTSLGTAIVQLLILLALIAFAFPVRTKIAGIQLLSIRYLSLITSISYLFFSMLPYAIKTPYIQTFIGLVIAFNIINGIFSGSIASIIQK;locus_tag=LOCUS_11560;note=WP_048054748.1 hypothetical protein (Acidianus hospitalis) [pid:47.4%25%2C q_cov:98.5%25%2C s_cov:100.0%25%2C Eval:2.6e-30],MGA_1157
sequence1	MetaGeneAnnotator	CDS	1060565	1061431	.	-	0	ID=MGA_1158;product=SPFH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156014963.1;translation=MSVSLRGQVISTEREDGTSVMAPDVLIFRFPRENITSKSLFIVQPQEQCVVIIQGQVAGVLPPGTHNIQSPANVLSGFLSKFRYNALPYDTVAYFVSTTRHEVRVVGLSQTDDLVPLEYEVAVYFRVQNPPNLVINVQFSAAFFKDSDLATYIAPVIDQEVSSVLNQVKLTDVYKKFMDISTAVTAALKSFLGELGVELISVRVTRLIPQDPELRRIIQLRDLGIQVGDAVRLGLARVLAEKNDPSSVNMAIGVPYYPQLSTLVNLPDGLVRLSMGKKDEGQSGQGGG;locus_tag=LOCUS_11570;note=WP_156014963.1 SPFH domain-containing protein (Sulfurisphaera ohwakuensis) [pid:77.5%25%2C q_cov:91.0%25%2C s_cov:83.7%25%2C Eval:1.4e-115],MGA_1158
sequence1	MetaGeneAnnotator	CDS	1061436	1061909	.	-	0	ID=MGA_1159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979834.1;translation=MTSQLTPLEQLQLLVPGYRGYKVKDLIRQDDFLIRKAVADKLEFTISKINELESNIASTSPFSPVLKSLEFTLSKIRTMISELIGMQGGGSDIYARYKINSEELDSIVNHDLQMISIADQIYSLASNGNVEQINPLLDKLNSIIKERTTLFYPMEMR;locus_tag=LOCUS_11580;note=WP_010979834.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:55.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-43],MGA_1159
sequence1	MetaGeneAnnotator	CDS	1062000	1063061	.	-	0	ID=MGA_1160;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979064.1;translation=MYSITFVLIDIAKAFLVSLSAVIVAVTLSWIGGALGGFIFGILADKFGRKKSLFISIFLYSIFTILVFIINNIYELYIIWFLVGVGVNGENGISYAVIAELQFTNLRGFAGGLMQGLYSIGSLIGAITAFLIVPSFGWRYLFLIAGLISLLSFLFWIWIPEEKWKGRVQMKISEIFSKDLRRLTIIGSILSLASFLYLIPAFSLMPSILQNLRVPTYDIVIAIADLISAIVYGIAGYLSDIKGRKRASLYFAILAFISSIIFILLINTDYIEFSVFLVYASSAFFAFFGVWMSELYPGKLRATGANFTLLIGRLIGGGFGPLLVSLIPIGLSYALGTDLIITSLLAIASISLL;locus_tag=LOCUS_11590;note=WP_010979064.1 MFS transporter (Sulfurisphaera tokodaii) [pid:50.6%25%2C q_cov:95.2%25%2C s_cov:88.5%25%2C Eval:2.3e-92],MGA_1160
sequence1	MetaGeneAnnotator	CDS	1063171	1063512	.	-	0	ID=MGA_1161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKVFPIILLVLPFLIYFVTNSIFNSIIIGSFISLFYFLASGGKKYTYFVPYASSIILYLSIGSLSIGLISIFSRVSVLLNIFFYSFLATLSFTIITLFLGYMKVKKNSLRKE;locus_tag=LOCUS_11600;note=MGA_1161
sequence1	MetaGeneAnnotator	CDS	1063534	1065324	.	-	0	ID=MGA_1162;product=glycoside hydrolase family 15 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980092.1;translation=MTRYAILGNGQLTILADKNYAIRELYFPLSTENHMQMGRIGIWVNGKFSWLHDLSPKIEYEEDSLSVKVNSEFQGVKLAIKDSVDMAYPILTREVNISSKDDVVVFFAWDFNILGNEAGDTAFYDPFTDSIIHYKRDRWFLFSCNVPTYQYATGYKEVMGYQGTWKDCEDGVLSMNPIAQGAVDSAMSVKVKNKTFYCWLSASRDYDSVRKLHEYIQRKTPKTLIERTDNYWKAWLFKARNYEKEIRRSMLIIAAHWQNNGAIPASLDTDIMRFNKDTYNYVWHRDAAFSSIAMSLMGYQDFSRMLFIFSKPLLYRGFLFQKYTADGHWGSTWHPWTSGYIPIQEDETALTLYSAWVHFSLFRDVDFIKQFYRPSIKTAADFLAEYRDEKTGLPMPSYDLWEERLGVHFFTSAAVYAGLTAAAKFAEFFGEDNYKEKYLNAAEEIKKGLDMFFVGDHFARSLNDKTVDSSTLLGSMLALDKDDKRVSINRKTVEEKLLVNGGIARYENDWYLKEDNKPNAWFITTLWLAQHYVFEGNMENAIKYLNWVLTNSLSTGIIPEQISPTGNYPSVSPLVWSHAELIRTFYYIKNGFNRFI;locus_tag=LOCUS_11610;note=WP_010980092.1 glycoside hydrolase family 15 protein (Sulfurisphaera tokodaii) [pid:64.8%25%2C q_cov:98.8%25%2C s_cov:99.5%25%2C Eval:3.7e-243],MGA_1162
sequence1	MetaGeneAnnotator	CDS	1065436	1066044	.	+	0	ID=MGA_1163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979703.1;translation=MVLSSNNIGINRSFKIIEKLPYMDIIYSFIIVFILGLTHGLDPDHIVTARILKKVTKIFKFSLFHSAGFLIIALPISLLLFVRGVKFIIIFVSYIIGIIISLLLLYGSIIGKEFEIEPKKFGLLQGALVLTPSKILTIVLAIASGNVIIGLLIIAIFILTSVLSITIFTIINFIPKKYDKITNIMVSIFSLSYIIYNLIFLF;locus_tag=LOCUS_11620;note=WP_010979703.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:35.2%25%2C q_cov:84.7%25%2C s_cov:96.1%25%2C Eval:2.5e-21],MGA_1163
sequence1	MetaGeneAnnotator	CDS	1066122	1067054	.	+	0	ID=MGA_1164;product=mechanosensitive ion channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978840.1;translation=MAKFSERQIIALVITTIISAIVIGLGVFTLAAFKIIPSNFTLYFYATIWFGGVLLVTYLLSSLIKFRFSRLIGESNATSVSFITKLLGYILAFVGFFILIRVSIGAALAAGGFAGIVLGLASQTVLSNIFGGVMLLFSRPYKVGDRITISTWQYGLLAPTYPPKFFSNDFLIPGYTGKVIDISLLYTTIYTDDSVPVKIPNSIMVQAAIFIHNAEEKRNVRTKYEVSKDLDPELVINRLKDKLKGIDSIISEPSIKILETTTTTYILGIDTVCKSIYEEPIRDQILRITMKTIKELQNEVNKNGSQIIKQ;locus_tag=LOCUS_11630;note=WP_010978840.1 mechanosensitive ion channel family protein (Sulfurisphaera tokodaii) [pid:48.2%25%2C q_cov:94.8%25%2C s_cov:98.3%25%2C Eval:2.4e-74],MGA_1164
sequence1	MetaGeneAnnotator	CDS	1067128	1068351	.	+	0	ID=MGA_1165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979762.1;translation=MFMNAFETLTYLIEHAENGSVAALVTQDNTPIIITKDDEYSFSAYVCTNTGDVKRIKEEFDKTTFHKAVLDFLDEIGDFIGKEVTELSLSNIALFPNCIPKKEERKEHKREINIAEKINDFKKINSPYYAIPLLTDNGKLFAFIPEIDGTADLDFIIKSISKIEEKPKPVNLDLNSVYPILFTSKLDPKMGNPFTSAGNYTFFTAVYVYQDTEGSEKFMGQNMLKSSGKFFSTSPHGSMRTENLEFLSSSHKKGNIYVGFFVKGEKIIELQSLDLVDLHLENKIRVNDYIFSSFSLTARNGIIDFESYDKVMTNFINFALAKSNGREVLKDVIEIHSMGGIDLPFVKNSSGQNISVVDPISYWYYKVYEKTDELKDCNDCPLAEKVNERNFLISILRRKGWISAFLL;locus_tag=LOCUS_11640;note=WP_010979762.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:39.5%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:2.5e-80],MGA_1165
sequence1	MetaGeneAnnotator	CDS	1068504	1069079	.	+	0	ID=MGA_1166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVEKIIDEIMEKARSSFISEAETKYLISMIIWGLNKYSKDSLFENIKNTLKEAFKSNDLEIIMIFDDLEKLPPSDKIIKGYITAGDIIIQTLKNKWFERIRDESLRRAIENCKETIEIKEISNVNSFFRNFIPLSCEEFDKITGKKDSYKIAVRLLLGVYDSSPLKCKINIFNFAPDIIKSSLRYCHESL;locus_tag=LOCUS_11650;note=MGA_1166
sequence1	MetaGeneAnnotator	CDS	1069064	1070059	.	-	0	ID=MGA_1167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYQPPPYNPYGQPYGAPQQPYGQPYGPYGNNPMMTTMMCEQSTGLGGKTQMVPINYPINLQYVSQQITMYLMSQGFQAFPMVGQNMAVIQAKHDSVLGMITDKNKAYTIRLCQAQNMVVVETGIANLMEDLLVAGATAGGSYLIGDDMLHSKLLEILGGGATAYDAYNIYKDFAQEDQLMNMIVMAIMSAPPAGPMGPQPYPQYGQQYGYQQPYGQPYAGNPQPYGAPQQYGPYPPQSQPSQYPQPPSQQSVQQSVPQPQNQSQTKAPVVKKIKCWKCGTENDEDAKFCSSCGASLQPVKCPKCGTINQPGSKFCSNCGSKLVPIVQSDS;locus_tag=LOCUS_11660;note=WP_010979090.1 zinc ribbon domain-containing protein (Sulfurisphaera tokodaii) [pid:62.0%25%2C q_cov:49.5%25%2C s_cov:54.1%25%2C Eval:7.6e-58%2C partial hit],MGA_1167
sequence1	MetaGeneAnnotator	CDS	1070108	1070719	.	-	0	ID=MGA_1168;product=phosphatase PAP2 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980308.1;translation=MKKYWVLLFLYIIFSIIVKILGEPKVPLNIVIFELINYHQVSFINPAMIFFSLYGREYVWIPLTAILLIFKKTRKIAITLAASFILAIILGEASKYLMAQLRPFYYIPSFLLVPRPHDFSYPSGHALIVSDGAMVLALTSPKWLWIIMMIEAIIVSYSRVYVGVHWPADILGGWLLGSWIAFFTVELEQKGTLSKFEKIFRAN;locus_tag=LOCUS_11670;note=WP_010980308.1 phosphatase PAP2 family protein (Sulfurisphaera tokodaii) [pid:72.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.5e-86],MGA_1168
sequence1	MetaGeneAnnotator	CDS	1071527	1072243	.	+	0	ID=MGA_1169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979153.1;translation=MGFNGIGFYTSIPGEIPVPIVVAYFVIAFLVAIILGKRNGGLKAFSTIDWVYIGIGAAAAYVWEFIIGAIIGRIIPSGISTFVDPSFWGRMFIVFIVAALVRKVGVGMISLFLFDILGDLFHYGFSGEPMFFIYESLTYGLFVDLAIAATGGKLFGIGISKGLGYVAALAAIEGGIIGLLWAIPDPIFYRAFFDPLIYGATVNYARVVYDLIAFIPGDVAIGILAGLSANRVEKAVQV;locus_tag=LOCUS_11680;note=WP_010979153.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:38.2%25%2C q_cov:94.5%25%2C s_cov:96.5%25%2C Eval:5.0e-41],MGA_1169
sequence1	MetaGeneAnnotator	CDS	1072249	1072908	.	+	0	ID=MGA_1170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYAIEIKGLNFSYLGSTSPSISVDELYIEKGESVLITGRSGSGKSTFVSCINGIIPHMVSGNLKGEVNVLGKSVKDTPLSKLSTLVGTVLQDPESQVINYTVEEEIAFGPENLNLSPDDIEERVKESMKIAGIQHLWGKETTKLSGGELQRTILASVLAMRPEVLILDEPTSNIDPEGTDHIFSTLRNLRGQKTMLIVEHKVERVLPFIDRVILIDKGR;locus_tag=LOCUS_11690;note=WP_010979152.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:50.7%25%2C q_cov:100.0%25%2C s_cov:46.3%25%2C Eval:1.0e-58%2C partial hit],MGA_1170
sequence1	MetaGeneAnnotator	CDS	1073064	1073825	.	+	0	ID=MGA_1171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISDPPRKSINKEIFTANIKVYAKNKEILDVSFGLGEGEIVAMMGQNGAGKTTILKGISGMLDPSEYKVYGSIKYMEEELSNKPIWYRGKYMVYLPQTFDLMLVTSQVKKEIEYTLKHRKVKNYHEIAERYMKEFGLFEYKDQDPVILSMGQRRRVAMASILASGVKIMLMDEPTSGQDFYNKMMLGKELKDLASKGYTILIVTHDSRFVYEYADRLLIIDHGKKVLEGKPEEVFKESSKYGIYPPTDFLLRW;locus_tag=LOCUS_11700;note=WP_010979152.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:44.6%25%2C q_cov:92.1%25%2C s_cov:47.6%25%2C Eval:2.6e-46%2C partial hit],frameshifted%2C insertion/deletion at around 1072902,MGA_1171
sequence1	MetaGeneAnnotator	CDS	1073827	1074813	.	+	0	ID=MGA_1172;product=energy-coupling factor transporter transmembrane protein EcfT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065199.1;translation=MFIYQEPSLPPWLSSGISWFIFFFGAAGPIFIILGAIGIRGFLQITRFEKGNGILYKMSPLTKLVLTISSTIVASLTIWWFGAILTLVFLGLFFTLNDAKKKVMYVSYLLFSTILGITTGFAFYTPFNYLSQALNTNTFNVIWVWPSYFAYMGYEPVVTTQALFYAFQIVFRFLAPMLAGLLLIITTTPSDLLRYLEKIKFPLVFIFALTVAMRSIPRIFDTLDTIVKLEMMRGLGYGKPRIFKPLYILIAALSALVPTLIFLMRGAKYTAIAADTRAFNSNPKRTYMKQVTFNKIDYITWIFIALLYVIAIILILTGYGRGIPYVGY;locus_tag=LOCUS_11710;note=WP_048065199.1 energy-coupling factor transporter transmembrane protein EcfT (Methanosarcina acetivorans) [pid:24.3%25%2C q_cov:84.8%25%2C s_cov:97.9%25%2C Eval:6.2e-12],MGA_1172
sequence1	MetaGeneAnnotator	CDS	1074942	1076108	.	+	0	ID=MGA_1173;product=alanine--glyoxylate aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_184650945.1;translation=MTRKLLMHVGPVTIDYDVLIEGMKGDVGFTSKEFVDAFQYSLKSLRKIMGAQENSQPFIIPGGGTSAMESVTSLLRKDDKILVISNGVFGDRWEKILSRYPVHVKTIRAKPGDYVTPDDIEKEVSKEHYNMVTMTHVETSTGIREPIYEVSKKIRNYVDLIVVDGVSSVSAEEVKMDNIDVFLTASQKAIGTPPGAGLLVLSENAVSRLSDNSIAGYYLNLKNWIDVMKSMEEGRAAYFSTLPVHLILMITKAFKLIEKEGIENRIRRHEKVAAAIRTGIEGMGLSIVAKHPEAYSNTVTGVIVNKVNPSEVLKEIVNEGIELAPGVHPDLAGKYFRIGHMGWVNENDAISTIAALERVLSRLGEPIRLGEGVRSTQLYLSKGNISNL;locus_tag=LOCUS_11720;note=WP_184650945.1 alanine--glyoxylate aminotransferase family protein (Sulfurisphaera ohwakuensis) [pid:66.4%25%2C q_cov:97.9%25%2C s_cov:98.7%25%2C Eval:7.8e-145],MGA_1173
sequence1	MetaGeneAnnotator	CDS	1076075	1076716	.	-	0	ID=MGA_1174;product=thiaminase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979013.1;translation=MLSDDLWNSIRDIYSSILSHPFLRELVNGKLDVVKFKYYVSQDYLYLKQFSRVLSILSAKAPDKDSLLFATHVTHVMNVERELHEYFIKRLNITEFKESPTNLLYTSFLLSTVYSKPYYESVAAVLPCYWIYMEVGKELKKEGSPKEEYQKWIDTYGGEEYEKGVYQVLSIVNSFKITEEQKNQMIKNFRTASVMEYMFWDSAYRLEMFPFDR;locus_tag=LOCUS_11730;gene=tenA;note=WP_010979013.1 thiaminase II (Sulfurisphaera tokodaii) [pid:65.1%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:1.7e-79],MGA_1174
sequence1	MetaGeneAnnotator	CDS	1076801	1077268	.	-	0	ID=MGA_1175;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979103.1;translation=MQELPKPWFDLNAYKKIRLEEAKFEATIAEKFLGEGLIRNAAGKAFQAWKALIASMLVDKRSDIIKKYHGKKKLKGNKSIEKADWIIAIVPTSYLEELSLLLGKEINLLTEKALLIHDYQYNGPDKEGILSPFRADDIAKESIKILIEEILKRVS;locus_tag=LOCUS_11740;note=WP_010979103.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:64.3%25%2C q_cov:99.4%25%2C s_cov:98.1%25%2C Eval:3.6e-54],MGA_1175
sequence1	MetaGeneAnnotator	CDS	1077342	1078172	.	-	0	ID=MGA_1176;product=carboxylating nicotinate-nucleotide diphosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979217.1;translation=MINQIIIDKLMDFLKEDVYPEDITSRIVSGEKARGVIFSKDEGILSGTVFIVPFLQFLGLKVSEFMKDGTEVKKGDRIIALEGDAETLLSAERLALNLLGKLSGISTSTYQMVKIAREVNREIRIAGTRKTTPGLRIFEKYAIEIGGGDPHRFNLSDAILIKDNHLAIIGDVEEAIKRAKRIASFTKKIEIEVSNFSNAIKAYKAGADAILIDNLSPEEIIPIVRELKGKIILEASGKITPENVKDYAKTGVDIISSGYITHSSRSLDFSMDVFRV;locus_tag=LOCUS_11750;gene=nadC;EC_number=2.4.2.19;note=WP_010979217.1 carboxylating nicotinate-nucleotide diphosphorylase (Sulfurisphaera tokodaii) [pid:69.5%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.5e-111],MGA_1176
sequence1	MetaGeneAnnotator	CDS	1078169	1078735	.	-	0	ID=MGA_1177;product=GMP synthase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978556.1;translation=MKIALIYYGGQYNHLILKNLKYLGQDAEAVNPSTSLDNMKKYDCIVFSGGPYSVEQEISKMGNSSLFIKELKIPMLGICLGHQLIAYVLGGKVGKAENPEFGLARIKIEDHDTILQNIPKEFVAWESHNDEVKAQPEGFRVLAYSENAKIQAMVNKDNSIFSVQFHPEVKNTEYGLEVFKNFIKVCKK;locus_tag=LOCUS_11760;EC_number=6.3.5.2;note=WP_010978556.1 GMP synthase subunit A (Sulfurisphaera tokodaii) [pid:62.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-66],MGA_1177
sequence1	MetaGeneAnnotator	CDS	1078758	1079306	.	-	0	ID=MGA_1178;product=DUF3834 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980592.1;translation=MELILKDLEVNYSLIRKMLIVTPFIGDKIVIWKKGSANDLMLRAILKLLNKNSQIIYTEDPMQVFAIYKKGDADSALVTNSIDEKGIPLDELFEKFNIYIPGICGAHISRGEEDFISIYQEGIDLFIENPEETAEYVSDNLPIFRGSIFIQKLMERSILKIEKAKDYSKFKEIIMNIYHQSL;locus_tag=LOCUS_11770;note=WP_010980592.1 DUF3834 domain-containing protein (Sulfurisphaera tokodaii) [pid:47.1%25%2C q_cov:95.1%25%2C s_cov:77.5%25%2C Eval:1.4e-41],frameshifted%2C insertion/deletion at around 1079347,MGA_1178
sequence1	MetaGeneAnnotator	CDS	1079534	1080103	.	+	0	ID=MGA_1179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVSIEGSNDSIFIDNMEFKIKREFFPNLKIIVNDFEIIRDKGTYKILKSGLLRGEYSKNKLVYDGNEYVIENLNMHEFIKNKYLNKRILMNNIVIGSIILNKEKLKIDGDFPNEDPAIILASIFTPYTTLQKTRIMRRRYNRRIGIMLGVLEAFIITIIPFNIIYIGIAVLIFAVIDYLIFRIYIRNR;locus_tag=LOCUS_11780;note=MGA_1179
sequence1	MetaGeneAnnotator	CDS	1080104	1081111	.	-	0	ID=MGA_1180;product=AIR synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846612.1;translation=MTSLGKIGRDVFDKIIYPNLGKMREEVIVPPRNGVDVGVIDLGDGRVLVTKTDPVFIVPQYGFRKAAWFAVHILASDVMTSGIPPQYSLVDLNLPTSMTDEEFEEMWKGISDYLKDIGVMVVGGHTGRYEGTNYPMLGGFAMFGIGEKEKLANPSKIKPGDKVIVTKGPAVEATALLVNTYPEYFKKRLSPEVFNEAMEMYWKMSCWKDGLIASKIGVHAMHDATEGGLWNALVEVAEASNKRIRIFPERIPMYRSVKEVSSIVNIDPFISISEGTMVIVTDKEEVVGALKREGIEAEIIGIVEEGEAEVIGEKKIERPKEDPFWKAFFDLTSKV;locus_tag=LOCUS_11790;note=WP_052846612.1 AIR synthase family protein (Sulfurisphaera tokodaii) [pid:62.0%25%2C q_cov:98.8%25%2C s_cov:99.1%25%2C Eval:1.1e-123],MGA_1180
sequence1	MetaGeneAnnotator	CDS	1081173	1081520	.	+	0	ID=MGA_1181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRVLRIPRFTKDGKTKTLELLMDSPTTNDKGFPQEAKFLIVIDDGNNRVGFQLSQSEAALLYHRLDYILNEASKEYIDLEDKSRRSYEKKMNKGKEKEDEEFIDELNDEDQESQ;locus_tag=LOCUS_11800;note=MGA_1181
sequence1	MetaGeneAnnotator	CDS	1081480	1083327	.	-	0	ID=MGA_1182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980450.1;translation=MKRFAILILLILTIVQFSIFFGYTQGTEVSPSSFVHPLISNITVSSKIPFTEDPSYYSFEAYHIIPPNVTPLVIHVATNLLFNDTGLRPFYIKTYVPPGNYSMELLNVSIKEFNGTQYDRQAYIFVNGVPIFWGSTQEINNSTAEADVTMFENLLKGNVTFEPVIQNYYDAKVGITGLYELNITLYLYPGTPPKGLPNEFIPLFVNVTVPFNYSYVILNPKFDSITSSIKIPNGTYKMDALIYEEGGGNDEFWYTNEPATRSIMVYYDSHLASIVNPYETIYTGGIDLFYWKPLTSIDTLSFHNPYIIDLTPMIAYGTTANVTVSVSNLLQAYQLTGSLAYDWDIAGVMMLWVNQSNPLVGAKIITEFQNYMDSSPLFFGGYQNSEYYQEGGHYYLAYKSELMFEHGIENTSVIQYGRFYAYQTFNSIYELANLTETFSEIAKETGFYNSTLIIQGDYPISMYIDAAAVPITNPKVIPFNLSYEQEGYIDLGLHYYYSYTFDNYNKTTITNEKLYSNGGFGGIIEIINSYGGAVLVALTSNTANTVKDLSLTYLVNGKGFNEEFSAEGIQNSTVNLNGYYIYIHETFTNINPTNSLVMLNSVFIATLDLHRSARL;locus_tag=LOCUS_11810;note=WP_010980450.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:60.6%25%2C q_cov:95.0%25%2C s_cov:98.6%25%2C Eval:5.8e-207],MGA_1182
sequence1	MetaGeneAnnotator	CDS	1083334	1087269	.	-	0	ID=MGA_1183;product=protease pro-enzyme activation domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980449.1;translation=MNFMQQIKSLVLTILILGFLFPILAYSSQSEVSYSGPSLSGYEIGKINPNTEICLEFFVIPSNLNELYLVAQEVSNHQMKPLNNSQLVSEFGQSQKVNKIISFLENNGYEIVYESPFSVFAIAPASIVEKTFSVNLDLYKDNNEIYYKPSSLPQIPQLMKNVIIGGLTNYTLIQPQYFVLGKLEHGVIEPSNAPRSLPLSYLQFSALYYTPQDIQGAYNVSGSNPGKNVTIAVVDAYGDPEIYQDIHTFDKMFHLPPVNLSVIPVGPYHPIFGLFTGWNIETALDVEAAHSMSPYAKIDLVVAANNGAALFEAIDLIVSEDLAQVVSMSWGFPENLASASGFYAWYQGVPFPNYPYLDYYFALGTAEGISFFAASGDDGAYQGTLTTYGGVLFPSSSPFVTAVGGTSLYVNVTSGYLTSLNSTATYGYETAWSVEPQYESEGTSTVSSGGGYSTLFPSPWYQRDITHSNFRTTPDVAADANPYTGFVTIVDGAECIIGGTSLATPLWAGTAADIDSYIGHSLGLVNPLLYGIYQNSTLYDEAFHPVSFGYNGKYFANYTYNLVTGLGSPNVGMLEYVIKNYMINQGLKISVTTCEPQITQPWYMYGSAFKILAYISTPNGTTVTTGDFNAYIYTLNGYLASVPLSFNGTYWVGSYTIQKGEPQNVWSIVVNGSIYGLTGIGQTDIDVGESINIIFPVGQILPVDQSFPVVVCAYYPNGTPVSNTTFVAHFIKDGKTIFNVSLLPTSTPGQYEGIGTLLSPMPEGTYIMVINNTYGSAYTYNYFGGIIYGLLFTPINDGMPSANVGQNITLLAFTYDQAGLGLFTSNVTAFVYNPQNQLVATIPMSLAPDITEFGIYNLFGYHEANFTIPSNFTPGFYTVIIHSTISTSVGIENSNFTTAFYVEPSELSYQVRSVSTVYEGQNLKIYANITYSNGTEVKYGEFSATLFPSQLNFESLILEFETETLLQYNSTLGEWVGIAKIPSILTDQGTIYQGGNLYELSGAWDVVITGTSPFGSNLIAKSYTQVMPYTYLHTLIITPENVSEIPLLTYNGTTYELDDIYSPSITVEGLHNVILLNSIVGQIDSYNSTLIAIDSRIIQINSESSLVSLIKDTIGGREFAINSINSNISLVSSVIEDSTYAFNQSDSIITQEGVSITNVTSLSTLPEPKIVSISPTNVTTSSTNITITITGENLKVTGVEMDGSSISYSVSSTSSGIKITIPFDASLLPSGFYIFTINVNDGLQYSLQSGVYNSYHEVVSEGQIQSAEHSITTLSHSISSLSSSITVAYALGIIGIIIALIALFFSLRKRG;locus_tag=LOCUS_11820;note=WP_010980449.1 protease pro-enzyme activation domain-containing protein (Sulfurisphaera tokodaii) [pid:49.8%25%2C q_cov:99.5%25%2C s_cov:99.2%25%2C Eval:0.0e+00],MGA_1183
sequence1	MetaGeneAnnotator	CDS	1087382	1088161	.	+	0	ID=MGA_1184;product=exodeoxyribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963545.1;translation=MPLNFVSNEYLCVKLLSWNVNGLRAAIGKGIVNTIKSLDYDVLMFQEVRSDSIPLDFQTLPYEIYIFPSKKKGYSGTMTLTRIKPISVKYGIGVEDFDEEGRTITLEFNDFYVINSYFPNAGEGLKRLDFKLRFNSEFEKFVLSLNKPCIICGDFNVAHEEIDIARPKDNVNHAGFTPQEREWMTHFLSLGFVDTFRLFVKEGGHYSWWSYRFHAREKNIGWRIDYCVVSEKLKNRVKRAEILEKIMGSDHAPVILEIE;locus_tag=LOCUS_11830;note=WP_010963545.1 exodeoxyribonuclease III (Clostridium) [pid:49.2%25%2C q_cov:95.4%25%2C s_cov:100.0%25%2C Eval:8.9e-66],MGA_1184
sequence1	MetaGeneAnnotator	CDS	1088209	1089264	.	+	0	ID=MGA_1185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKNIIIGIIAIALIIIGAFELLHITTPSTTIVQKPSSVQTIRPPTSFVLDPKDAENTTGIYPFYVGAWIEINNFNMPNFSFKNFTASNIFNKLFIGVLIHNSSVRSLDFIAQINITKNSQFSGFNKNSLLYGIVAALNSNISIKGSGEYKTFYYIYGNTSRSGIALAYNGTYFIGISLNGTSNNVYYVKNLLLKQIDSLIINGSITPAPPDILANISIPLIGWGYINNSIINNSSFYFIKNINKIPLNQGYVGFYSDNNTLVEMEISQYKNSTDAENVYEHIYSVINTSNFHTNISQGSISGAKYFTLTITNNSTITISYYNEYVIEIGTYGYLNLNNITQILKSEINIL;locus_tag=LOCUS_11840;note=MGA_1185
sequence1	MetaGeneAnnotator	CDS	1089271	1089618	.	-	0	ID=MGA_1186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKIFVISTAGKDDINRAMMAMNFALGARKNAGATVALMFLGRGVETLLKDSGNSAQMKKVIEDMQNSGIEISYCGISLKNMGLTKDLIFEGIKEVMGGVETVKKVEEGYSVVSF;locus_tag=LOCUS_11850;note=MGA_1186
sequence1	MetaGeneAnnotator	CDS	1089649	1090008	.	-	0	ID=MGA_1187;product=NifB/NifX family molybdenum-iron cluster-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980093.1;translation=MKVAIPVTNGLVDGPGEGEKVQIYFLEGDKIELVEEYENPALKATAAPGAHMLKSALDKGVNAVVVAEIGGPGVRLLSGKAKIFLAPNMKVEEALKKLIKNELIETDKPTHEHGEHHKL;locus_tag=LOCUS_11860;note=WP_010980093.1 NifB/NifX family molybdenum-iron cluster-binding protein (Sulfurisphaera tokodaii) [pid:62.7%25%2C q_cov:98.3%25%2C s_cov:96.7%25%2C Eval:9.5e-36],MGA_1187
sequence1	MetaGeneAnnotator	CDS	1090032	1090778	.	-	0	ID=MGA_1188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLSLRSIASLLILGAVVAFGVIGTYFLGNTGHNFNENINLINAIYFTIITLSTVGYGDIVPLTPIAKMFVVTLIVFGMGAFLTALTSISSDLASKRILSLTSRLATIEGEMLRGHILLIGSGTVNMAMIEDLKKSKSKYIMIINDITTAEKLSEDGYKVSAINLLSEKEIEKFNPEKAKKIIIDVKDPSDTIYITLILAKIAKDIPTIVIAHTEDLEMRLESVRTIKDITIINPSKLVAKNLIQQNI;locus_tag=LOCUS_11870;note=WP_012289393.1 NAD-binding protein (Halobacterium) [pid:24.8%25%2C q_cov:97.6%25%2C s_cov:61.9%25%2C Eval:2.8e-21%2C partial hit],MGA_1188
sequence1	MetaGeneAnnotator	CDS	1090810	1092147	.	-	0	ID=MGA_1189;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979899.1;translation=MSKEEEKHYEEPKRVIGLRDLVFLSLGGQSPFLSVLTYGVYAFLLAGAFAPIAIILGTLLVLMNGLVIYKLSTRFTKSGGYYVYAYYSLTRRLGFETGWIYLVYSTLYGAAYVLGSAYVISHVLPINPWIAVGIILGISSIFAISGIRPTAKYAIVASLIEIGIMTVIALLFLRSTGFTFYNPFNYHVSLAVLALAILFGSSIPTGYGSITPLSGEVKNPKRTVPTAIITVILLGGLLASFDVYAIADHILYFNIAASSVDLLRLIEDRLGLITFVFVLFAAANDGILATLSFMLATSRTAYAMSTNNFLPKVFSKFDSGRGPIASIALAIILYVIAVVFGLLSVDSRPFLAFEYVGEIAVLSNLFVHIASDFSLFKISLKRMRRRLVEISLAIGAIIFTGYDLVSSIGASEPILVYLFMAMIIMGFLAAEIIYMDRGEEEENKE;locus_tag=LOCUS_11880;note=WP_010979899.1 APC family permease (Sulfurisphaera tokodaii) [pid:57.9%25%2C q_cov:98.7%25%2C s_cov:99.3%25%2C Eval:3.1e-140],MGA_1189
sequence1	MetaGeneAnnotator	CDS	1092270	1093985	.	+	0	ID=MGA_1190;product=alpha%2Calpha-trehalase TreH1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979139.1;translation=MKPLGFISNGISSALIDSGSIVWLPFPRFDSPSVFGKLLDIEGGEFSIFPLEEFSASISYLAPNVLSTKFHTKLGNAEVIDIMPLGENSIIRNIKTDIPLIMKIKPAFYYGLYRAIVKDEKDGTRFLNPKSRECLALFVENSKRIGIYEWEILPKSSIVYLAYSPDYLYGPFHKGKELKRDLERSFNFTLNHWKNKINDKNNDELRKIYYTSIGVLLGLMYSPTGAPVAAPTTSLPEAVGLSRNWDYRFAWVRDSAMIAEGLLYAGYVIEARRIINFILGLVNFTTKPLVHPLYTVDGGDPPPEIEIPWLSGFMDSHPVRIGNGAAAQIQLDIEGFLLDVIYKYYLKTEDKVFLEENWEKINYIADWISKNWKLRDAGMWEERGKTMHYTHSKVMMWVALDRAEKISNEIGKNVNWSEKDKLKEWIFSNCIKDESFVKTSETTDVDANLLTLPLYDFIDVKDKIFLNTLKRIENELYINGYVKRYSKDFLGQAMHPFTLAGIWLSRIYIRLGRTNEAIGLIKNAYLPSNGLYLAGEHIDITKKEYTGNYPQAFVHAQTILAINELDNSKIG;locus_tag=LOCUS_11890;gene=treH1;EC_number=3.2.1.28;note=WP_010979139.1 alpha%2Calpha-trehalase TreH1 (Sulfurisphaera tokodaii) [pid:48.9%25%2C q_cov:99.1%25%2C s_cov:98.9%25%2C Eval:1.2e-166],MGA_1190
sequence1	MetaGeneAnnotator	CDS	1094002	1095162	.	+	0	ID=MGA_1191;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980484.1;translation=MERNILFILISRIFRSLPLGYMAFLVPLYLHYIGFPPSIIGLYFLVATLSISFYLIIGGFLGDAFGKRNILIVFSILFSINFAIFTFSYNPYIIFITSLLGVGVGSGGGVGGGAGGGPFNPLQTSLIAQFTKKEELTKVYSYNFAASTISAFAGSLIADCVSKVEAPYHILFLIGLLFSLVSLIFTYFIEKDYGTGKIRIPKNSYSSISKISIAGSLGSLGLGMIMPLIPLWFKLYFHATEFQISFLYSISYALVGISFIFASRIEKMLGRVKAIAIMRGLSSIILIAMAFVPSFFIVEILFLSRSIMYTVTIPMRQSLSMNVFSETERATGVSITGLARRLPYGAGSLASGILLGLGLFISALFLGGLISILDPLLYYIFFRKIQ;locus_tag=LOCUS_11900;note=WP_010980484.1 MFS transporter (Sulfurisphaera tokodaii) [pid:28.9%25%2C q_cov:88.3%25%2C s_cov:87.5%25%2C Eval:3.4e-31],MGA_1191
sequence1	MetaGeneAnnotator	CDS	1095394	1095681	.	-	0	ID=MGA_1192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLGNTIIISNIIVVTTIFKPPFFPKIGRYIALKIKNIKSARISYIPSFFTYEIIANVNIGIISVPITKEYPNAFGIGIAIAIVASRNSVYNIVN;locus_tag=LOCUS_11910;note=MGA_1192
sequence1	MetaGeneAnnotator	CDS	1096036	1096353	.	-	0	ID=MGA_1193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSQNKSVSEIPRLRNVYIKSPAFPYSFLLNAVNNFFFILIGSKIPLGEAIPLIVIRNNGNIIDDNGKFFSIKKGYVEVNDKEKTISNTNNINRENDTADIISP;locus_tag=LOCUS_11920;note=MGA_1193
sequence1	MetaGeneAnnotator	CDS	1096451	1097689	.	+	0	ID=MGA_1194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKNRIPRDIDVILDILYNKDLSYAEKLAGFVLSKGTKDYREEKAKTIIAKILGNTQTAQNNTNTQVQSKPNDEKTPPLEKWDPNIWVGREIYGYKIIKVLGNGGTSYVLLGSRSGNNQNYAIKIPKLSVQKNEATRASFTTFDDLSKESSKLQEMSEKNNEIVKVYGTFVDVNTIKSITSGNNTLDYLKSPPAIVMELMEGGTLNDLIKNQIVINSTYWTNIVKLIFLKVGYALSFIHAEGYVHLDVKPANIFFNKSPGNYGEIIYNRIKSGEISVKLGDLGSARKIGERFFEYTPEYCPVDQVKSILFGKGADPSMDVYAFGASLYKALTGYSYNPPEVVNLMDKAITDSLSGRNFKKSIEEAENTYATFYSQLKIPDVDFSLQKIIISTVNPDPLKRPKMKDIIKELST;locus_tag=LOCUS_11930;note=WP_010978773.1 serine/threonine-protein kinase (Sulfurisphaera tokodaii) [pid:39.2%25%2C q_cov:97.8%25%2C s_cov:52.9%25%2C Eval:7.1e-75%2C partial hit],MGA_1194
sequence1	MetaGeneAnnotator	CDS	1097686	1098477	.	-	0	ID=MGA_1195;product=tetratricopeptide repeat protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_184651035.1;translation=MSQLEDIISQYNSGNLNYALRKIQELISSNPSKEAYQLLGKILLDMGREEEALEAFNNAGDKINAAKILINRIRYTDALQLLEGINEPEARLLRAMAYLKLEQYEKVLDELKEISGEYLNSPIFYKIKGITEYFLGNYYDSIKDLSKAISLYGFDADLFYYRALCHMSLNNDKDAEKDFDTAINLNPYYAEAYFGKGIMKEKKGKFEEAVKLYTRSISINPNYKGAYVRRAKTYMKMGMEDEAIKDIDKVKEIEDSKNKKDIH;locus_tag=LOCUS_11940;note=WP_184651035.1 tetratricopeptide repeat protein (Sulfurisphaera ohwakuensis) [pid:51.2%25%2C q_cov:95.8%25%2C s_cov:99.2%25%2C Eval:6.8e-69],MGA_1195
sequence1	MetaGeneAnnotator	CDS	1098529	1099335	.	-	0	ID=MGA_1196;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980565.1;translation=MNKYFTLLVFGGISFGTAAIFIKICDLSPSAIAFFRFLIAGLILSFGKINLKQIIKVMPFGFLLAIHMILFIMSVNITSIIDATVLVSTSPLFAILLYPLSKFTPSKMEIISALTAFLGVIILNYPIIPGEFEGNVFAIISAFMISLYTIFLSRKDAGDPISLTSAIYISSSIFMIPLMLINGVGKINMISIIALMGLIALPTLLGHTSVIVSSGHVKPHVIETIGLLEPVVATILAIIFFHQIPNIYEIIGSVIIVLSIFIILYRSS;locus_tag=LOCUS_11950;note=WP_010980565.1 DMT family transporter (Sulfurisphaera tokodaii) [pid:56.2%25%2C q_cov:98.5%25%2C s_cov:99.6%25%2C Eval:1.5e-79],MGA_1196
sequence1	MetaGeneAnnotator	CDS	1099383	1099784	.	+	0	ID=MGA_1197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979666.1;translation=MDIAKVIGVIVFISIIIIEIFVLNVNEMLTQGIYQITSLPNALKNLYFKFYYYKGDLILCANNQNNFSITIYNISGKYTYIKSPQTVLPHTTKNITIVVTNWNEFIKSYEDNSYNLTTKLGFLGLNVTSYSVI;locus_tag=LOCUS_11960;note=WP_010979666.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:30.8%25%2C q_cov:79.7%25%2C s_cov:81.1%25%2C Eval:1.6e-11],MGA_1197
sequence1	MetaGeneAnnotator	CDS	1099787	1100296	.	+	0	ID=MGA_1198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMYKLTIASLISNIIIALLPFYWWYYGTGNLIEVADSPFMLNIIFMGSQLEIIQIVNLFLLAFRFYVIIVSGIYIYYVIKGQKKTYGLIFWTSYLYILDPIVFYIIFNYLFPLIGYGFHYPFFIIGKEKVDFTYQNTLISTIVYSYPSSAYWISLAAGTIYLASRIFKR;locus_tag=LOCUS_11970;note=MGA_1198
sequence1	MetaGeneAnnotator	CDS	1100276	1101538	.	-	0	ID=MGA_1199;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979146.1;translation=MKIAIIGAGHNGLISAYYLRKRGFDVTVFEGSNKIGGMTDTQIINGVKISRASYVLGLMPKNLVNEFKIPVIEQDPIQTIYLDQPIPFWRDKKKRIEELKKAGEEKFEEFENKIEKFKKLIEDKFTFVTSPPSKEMIIEEAEKIGVEELMRTSAKDFLSKYLSRKLHRFFIYPGMENSPAYLVSYFYADWSFVEGGMGTVADRIAKSAEEIGVNIRTSSKVDKILISNNKAKGVKVNGKECDFDIVVSATSPAETVKLADLDAKFHLGKNRWVKYNIIFKDSPKVPKELEPFASSIIDCDAGEIVIPSLLDKTLGGNVMEMMGDLDEALSLIKGEVIYEEKITAEDAEKMYILPAGNINHLPMIEPYLFDGRPVKGWGYKSPIDGLYITGAGTYPGGQVTGIPGYNVAMKIIHDLSLKNS;locus_tag=LOCUS_11980;note=WP_010979146.1 NAD(P)/FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:41.2%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:8.5e-84],MGA_1199
sequence1	MetaGeneAnnotator	CDS	1101574	1103343	.	+	0	ID=MGA_1200;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846467.1;translation=MDLAVLIDEADKYAKENSVEGIIGRVTRFESVKIGETHYVSIDISFEDYLKTQVRRGEYLAIRSIIPKVTIVGIVDTITRSDMLASLKIRETTNNRDPSTIMTPTTIQLSPIAEIDDKEKVRPAVSPIDPQSPVFRPKAELLEKALGIPMRGVVIGNIYSGGEEIDAEVRLDEDTLRHHSLLIGTTGAGKTTTLKEIVNDENIEKQNVIFDRQGDFVRFSISKLDDTTIIMPVTKLMEGKEIQDYVIKFIDRYSNCKDVEYTDNSVVLDCGNKIRLVPYSINFGDIMNKFHKLTPYMSLRASMAWESLIRITKNKIIKGISEYFSLPNKDSYIIFITEILPRISIENLYSGYIEFESKKLPTNKSKKTQLISTNGDKIIISTKDAFFDSEKELKLPSQTTDAIERTLKAYGEYGIFNVEGSYQKLSEKILQSRNLIIDLSWVLDYTASIEALSTITYKILSDFFDLKDKKYKEGKNDILSLLIMDEAHEYFPQGGEEVSKEIIEEFLNKLMRLGRVRNIGVIMATHVPDDLNPLILQLSNTKIIMRNELEIIRKMYADEFADLLINAQPGVGLIRSIKFSNVVFRSKMI;locus_tag=LOCUS_11990;note=WP_052846467.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:45.7%25%2C q_cov:99.3%25%2C s_cov:98.0%25%2C Eval:9.8e-140],MGA_1200
sequence1	MetaGeneAnnotator	CDS	1103330	1104457	.	-	0	ID=MGA_1201;product=DNA double-strand break repair nuclease NurA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979050.1;translation=MLSEAQVRNYIYTISREISSIKNTLPQVIRNYEESAFGEEFSIVSLSELSNKFNEIEEKHVNEISSVDSSTRYLRDTTVGIVMTGMATFSTKEGLILAPYDKEIRFLGISANKDILTKIEDIINTKHIAIRNYIGDYFDQDYRLDDVADELRLESENSAIDDMNGLIIMDGPIYPTPLELTNVFEFRNMSRETHRKAYASLVRDRLNKIKDKEVIGIVKRLENSKKLYKLDEIQKILGKLPPITDPEVLRLLYHKLCKGESICILGPFMLSYQINVEGILKDVPPKYAYYVIVKRIVGPSSFFRVESLNLNTLQYIKSIFSRISCRGIPTWIEIVDTASKKISSSLFIIGYEISSSFLDIIHDDKLAFDTEVRSF;locus_tag=LOCUS_12000;note=WP_010979050.1 DNA double-strand break repair nuclease NurA (Sulfurisphaera tokodaii) [pid:39.5%25%2C q_cov:99.2%25%2C s_cov:95.6%25%2C Eval:5.5e-71],MGA_1201
sequence1	MetaGeneAnnotator	CDS	1104482	1105021	.	-	0	ID=MGA_1202;product=adenosylcobinamide amidohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978217.1;translation=MHVLYDLNGNYFSLTSALFPEGISYVNKVMIIFVDHNYCSDNPWKDAYEYCSKFIDCKNTVIFMTAAKNYIFKKTDYGKIIISAGIGESAENAGKTINIGVFLDEGVNINGLIDLIRTVTEAKSGALMDLSMKITGTVSDAVAVGAKVGNISFLGPGTPLGKKIALEIRETLKFLLRKD;locus_tag=LOCUS_12010;note=WP_010978217.1 adenosylcobinamide amidohydrolase (Sulfurisphaera tokodaii) [pid:57.8%25%2C q_cov:96.1%25%2C s_cov:95.5%25%2C Eval:2.9e-49],MGA_1202
sequence1	MetaGeneAnnotator	CDS	1105054	1106673	.	-	0	ID=MGA_1203;product=cbb3-type cytochrome c oxidase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978659.1;translation=MSSVTKGLVNLVNVVFQLDKPWVSRITMAMIVMSLIWGMLGLVDALMVRIQEAAWATTASLVITSQEYYASIALHAMRDLFGFAVQLEMAIFIFLSLRILNMQPRMKWFLNIGFILFNIAFMLIEGPIVAFPTFNDNYFPANSWYYLSPYGVPNYSQAVVSPLWFFGWELMDAGVYIMVIWLIYHFYLATKTMKEKLPIFAVFALMTSLMIAIGWSGEVAANTWDILAYYGLVGLNVISNQIAFGILWHSIVYISWMPAVGAMYYLIPTLANRPIYSDRSARIAALLYLVFSNNVPIHHLYMVNLPVGIKILQEVLTYGVVVPSMMTFLNLWATVKGVNIKMNLIAAWISISFAGSIAAGVTGIANGDLSFDAIIHDSMWVPGHFHAMIFWSIVPAGFATLYYMIPMLTGRQWYSNKIGWIHMIGYMIGTTMVIYGMDALGLTGLIRKAEIFPLIPAYITPEVIATAGAFIADIATLGWLGNVVLTLLKGRTGNFENLSIDDAVSTVAMYLSAPSLTEIKNDLKITRFEKVLKINKVKQ;locus_tag=LOCUS_12020;note=WP_010978659.1 cbb3-type cytochrome c oxidase subunit I (Sulfurisphaera tokodaii) [pid:61.0%25%2C q_cov:96.3%25%2C s_cov:99.6%25%2C Eval:9.6e-195],MGA_1203
sequence1	MetaGeneAnnotator	CDS	1106822	1108090	.	-	0	ID=MGA_1204;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978029.1;translation=MGYFDTLPFGVKIKTLFVSSAGFLLDGYDLSVISFAETFISKEMNLTAPLLGLVVSSSLIGMVIGSIILGNLADKLGRKKLMGIDLFFFSFFALTSAISQNFAELFASRLLLGIGIGGDYPISSTMLSEISPSANRGKYLVASVAMYWVGTLLANVANLLFLPVGIYFWRWVFLTGAIISIPVILLRLKLTESPRWLVSVGLLKEGPSKEDENKGAERFFDIFKGKLIYITLFASSVWFLFDVAAYGIGLYYPLILKQFAFPSAYKVIYGTIAISFAALLGYLLAGSLIDTLGRREVLLIGLGSMALLLFLGGITRITGGILVPYFMGFVALEQWAGAVTLFYPTELFPTSVRASGQGFATAVSRIGAILGVYFFPEMVSIIGFSSSLIFFASTSFIAFFISLIFAKETKRKQLEDTSIPLK;locus_tag=LOCUS_12030;note=WP_010978029.1 MFS transporter (Sulfurisphaera tokodaii) [pid:58.9%25%2C q_cov:98.6%25%2C s_cov:99.0%25%2C Eval:8.5e-140],MGA_1204
sequence1	MetaGeneAnnotator	CDS	1108138	1108503	.	-	0	ID=MGA_1205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFAISIIYFGYLSSKPVVDTLQPNETLNINFKEPTVVLFHDVANINININNASLFKEGNNLVVQGDNGHLKIVNNLSQPIILKYSEIIDNSSLGLEFFLAIILFILGAIIVLAGVKKKYK;locus_tag=LOCUS_12040;note=MGA_1205
sequence1	MetaGeneAnnotator	CDS	1108591	1109274	.	-	0	ID=MGA_1206;product=arylmalonate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978638.1;translation=MSMPGGRGRIGLILPSNNAAMEYDLWKMAPEGVTIHTTRMKPTKGCEPTDVNAFEKEIKETYSLIQEVSDVVIYGRTYGTHKHVNIIKDIIKNVVIPEEEVIRILKKLGIKRVWVGTPYIKERTLEEVEWIKNNGFEVTGFDGLGKIRGVDISNTPIFTIYRLVKKHLVEVLKADAVYIACTALSTYEAAQYLYQDLGIPIITENSAAMWGALERIKIKIKFPGFEA;locus_tag=LOCUS_12050;note=WP_010978638.1 arylmalonate decarboxylase (Sulfurisphaera tokodaii) [pid:73.5%25%2C q_cov:98.2%25%2C s_cov:100.0%25%2C Eval:4.1e-98],MGA_1206
sequence1	MetaGeneAnnotator	CDS	1109328	1110005	.	+	0	ID=MGA_1207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978639.1;translation=MKEIKGFFQYYKKGDDDILEEALSNVSYEKGKVKIRDEEIKVEKKKDSLGVFLANIPYAILGEGELHWDLPEKVTKVQGDALKLVEIGGLNEVATLETYLIMEMALRSLYTQWIGEVAVIKYKQKKVKVKNTDYRKLKLYLLKKGWSKYKVKINNEAFPYSQGSLLAWAESFMDEKTSLAFRLSINVRNLLAHGEVEWNLYPTRSSIESASFASWLLFQRLQKSK;locus_tag=LOCUS_12060;note=WP_010978639.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:64.3%25%2C q_cov:98.2%25%2C s_cov:94.4%25%2C Eval:1.0e-80],MGA_1207
sequence1	MetaGeneAnnotator	CDS	1109998	1110660	.	-	0	ID=MGA_1208;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978838.1;translation=MLIKGLNVKILNKEILKEINLEINKGINLILGPNGSGKTTLLRTIIGMIKPSGGEIVVNEDKSYVPAEFFEVQMKVIDVLLSGGKYTLERYKRYIQFLNVERYLNRDFSTLSTGEKKIVLITKALSEGNLVIMDEPTSGLDMRNSIIIMKVIKKIKDKTFLITTHDVNMIQIADNVILIKGGKIVFQGNPKDVTEDILSELYEIPIKKYEINGEVFFKAI;locus_tag=LOCUS_12070;note=WP_010978838.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:55.7%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:3.8e-61],MGA_1208
sequence1	MetaGeneAnnotator	CDS	1110641	1111621	.	-	0	ID=MGA_1209;product=iron ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978837.1;translation=MKLKIMFFVLILMLSFLLSLIYGSVKIPIQDIFRPEGVYKIIFLEIRLPTVISAAIIGAVLSISGAIMQLLLRNPLLDPYISGTASGGAFGAVLSYFLLAFNLPFSWIIYVSPVIAFVFALFSTFLTIAIGRKGGVYGIVIGGVVISYIFSSLITILLTFMEIRYPQVPPLVFWLLGDIQVIGWNYVIILALLSFSIIFLAIKFSRKIDLASISDEMAYSSGLNPSKFRIFWISIISIITGYIVSQVGIIGFIGIIVPHIVRRFFSGSSTQLIPFSALLGSSVLLLSNLVADGSLGFKIPITAITSLIASPIIIYVLVKGIANQGT;locus_tag=LOCUS_12080;note=WP_010978837.1 iron ABC transporter permease (Sulfurisphaera tokodaii) [pid:53.2%25%2C q_cov:95.7%25%2C s_cov:95.7%25%2C Eval:3.7e-89],MGA_1209
sequence1	MetaGeneAnnotator	CDS	1111622	1112602	.	-	0	ID=MGA_1210;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_218266461.1;translation=MKSEYIAILIVVLVAIAGLTLYDYIKTKSPSSVIITAQQNTQRIVSLAPSDTQILVSLGLGKHIIGIDEYSYQLLKYLNMTSQLPSNVTIFQQIYPPNISGIVSLNPTKVVGEIGLLGSYVGKLNASGLHLVLTNNDYASNFYQIEDSIKYLGNIFNSTNQSQELINWMNSKISNFTTSGNSTVAYLLWICPNEEFYTAGGNTFISNIISLSGGINVFAGYSDYPVLDPSQLIESNPHVIIVQEIYNVSYTEYLISHLPGIQNVTAYKEHRIYILSEGMPANLMNEPGPLAVYSIQMIKLIINGEAPQYINTSWIIKNINPDLPVF;locus_tag=LOCUS_12090;note=WP_218266461.1 ABC transporter substrate-binding protein (Saccharolobus shibatae) [pid:53.3%25%2C q_cov:96.6%25%2C s_cov:96.2%25%2C Eval:2.0e-95],MGA_1210
sequence1	MetaGeneAnnotator	CDS	1112638	1113309	.	-	0	ID=MGA_1211;product=CRISPR-associated protein Cas4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867432.1;translation=MVVKEIIYKHLSSTSISEFYEGEYWPSQIWNCMRKQYYSRISPIPQTLDSAKITILGTIIHEFIADILKKEENIKVMSEVPVRIPHPSDNIVITGRADDIILVSVGRTRYVIEVKTVEDVEEKKLKRYIPKKEHRAQLNLYLKAFPNSKGILLYVDRGNFEIEEFEVEFDQDLYNETVKRVEDLHNYLMRKTLPSAEAKNNPEMRWQCDYCDYRAKCEREDKH;locus_tag=LOCUS_12100;gene=cas4;note=WP_010867432.1 CRISPR-associated protein Cas4 (Pyrococcus abyssi) [pid:26.0%25%2C q_cov:87.9%25%2C s_cov:97.5%25%2C Eval:2.9e-08],MGA_1211
sequence1	MetaGeneAnnotator	CDS	1113409	1114425	.	+	0	ID=MGA_1212;product=NAD-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980538.1;translation=MEKKEIWNKFLLPIMENFAAPYSVLRRIFPQIFLLGLIVYFNSLIFVYFQHLDWISAIYAGINVVTTVGLYAPNINQMPSTEKLFLTVTIIFAVGLYASMVQSIVSTVVKRSTWLDAKARWRGSHMRSHTVVIGKGEVILSSAKRLEKLGVDYVVLTSSKEISDSLKSDRVILGDPTKDKDLLDAGIMEAKNAIICMDDDMNTLLVTLKVQKLNPPLSVIAVVKNENIADEFKTAGADIVIPYEEIVGRITAAAAVSNNVAGLIFSMNKVREDIVIGVFDIKNKIMIKDLPKEVIPLAIVKDGKINPYFSKDTELEQGESLIILGNPSSFKRVRDIVG;locus_tag=LOCUS_12110;note=WP_010980538.1 NAD-binding protein (Sulfurisphaera tokodaii) [pid:59.1%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:9.1e-115],MGA_1212
sequence1	MetaGeneAnnotator	CDS	1114422	1115189	.	-	0	ID=MGA_1213;product=winged helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979642.1;translation=MDELNRKILLMLLKDYNSSQRFIAKKLGISPPAVNYRIDKLLSDGIIRKISLYINPNFYGKYHGYVAFKNYKNWNGEYIAKFECLERTTIYEIESKSIEDLKSKINSMSEELGTPEMIYIPTQYPYSPSNFDFKLVSIMKDDPKIESIQISEKIKVSSKTVRRHIRYLINKNFMRLIPVVDLNKAGISMFAIFTKNVEIARKLFSEINFREISDNKAGIFVNIANDMEEIKRYTDKMREFDKEAELMVTYSYDFS;locus_tag=LOCUS_12120;note=WP_010979642.1 winged helix-turn-helix transcriptional regulator (Sulfurisphaera tokodaii) [pid:39.6%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.5e-54],MGA_1213
sequence1	MetaGeneAnnotator	CDS	1115320	1115502	.	+	0	ID=MGA_1214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARKYCPICKKVVDEKLVKEGKKVTKMCPNCGYIFISYEIGKGYIESNNDKKFEEKTVSK;locus_tag=LOCUS_12130;note=MGA_1214
sequence1	MetaGeneAnnotator	CDS	1115537	1116781	.	+	0	ID=MGA_1215;product=3-isopropylmalate dehydratase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978580.1;translation=MQTLTEKILSRAAGKNVSPGDVTEINTDIVAFHDLTGYHVIEVMEKAGLEKIFDKSKIVIAFDHLAPPPDIRSAEIQEYIRKFVKSMGLPNFHDINFGILHEILIERYANPGQVIVAADSHTTTSGAVGAFAQGMGATDIAAAVITGKTWLMVPEPFKVNLKGEPAKWINGKDVALKILGEFKADYFNGMSIEVHVENPKSFPMDYRATVSNMGIEMNADALMFVPDEETINYIKTMRGYEPQTVKPDENAKYTDEYEIELDKMEPLVAAPSSVDNVRTAREVEGTEVDQVYIGSCTNGRLSDFETAAKIMKGKKVKSRCIAIPASYEMFKKAMDLGYIETLVNSGCIVTYGTCGPCLGGHFGVAGPGETIVSTSSRNFKGRMGSVDSKVYLSGPAVAAATAIEGKIVDPRDVE;locus_tag=LOCUS_12140;note=WP_010978580.1 3-isopropylmalate dehydratase large subunit (Sulfurisphaera tokodaii) [pid:81.7%25%2C q_cov:99.0%25%2C s_cov:98.8%25%2C Eval:2.2e-201],MGA_1215
sequence1	MetaGeneAnnotator	CDS	1116778	1117260	.	+	0	ID=MGA_1216;product=3-isopropylmalate dehydratase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978581.1;translation=MIVEGPVMKFGDKIDTDIIIPARHLKYTDPQYLAQHAMEPIDPEFYKKASKGVIIVAGKVFGMGSSREQAAIALKAAGVKAIIAESFARIFYRNCINNGLPVVVLPKAKDEIKEGDNVKVNVETGEIIVGNRVLKGRGISGMALEILKSGGLMDYIKSIK;locus_tag=LOCUS_12150;EC_number=4.2.1.33;note=WP_010978581.1 3-isopropylmalate dehydratase small subunit (Sulfurisphaera tokodaii) [pid:78.8%25%2C q_cov:99.4%25%2C s_cov:95.2%25%2C Eval:9.0e-67],MGA_1216
sequence1	MetaGeneAnnotator	CDS	1117314	1118090	.	-	0	ID=MGA_1217;product=KaiC domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156013805.1;translation=MVRLSTGIPEFDKLIEGGIPQGFFVALTGEPGTGKSIFSESFIAEGLKEGDACIYVTTEESRDSIINQAKQFNWNFEDYLDKKLIIIDALMKEKEDEWSLSELSAEELVNKVIEAKQKLGKPRARLVIDSVSALFLDKPAMSRKISYYLKRVLYKWRFTILATSQYAITTSQAFGFGIEHVADGIIRFRRVVRDGELKRYILIEKMRQTNHDKYVWEIDIKPGKGIVLLGKINERKEDYALPGKINEKIKKANKDEIL;locus_tag=LOCUS_12160;note=WP_156013805.1 KaiC domain-containing protein (Sulfurisphaera) [pid:84.8%25%2C q_cov:99.6%25%2C s_cov:99.2%25%2C Eval:2.4e-124],MGA_1217
sequence1	MetaGeneAnnotator	CDS	1118150	1118614	.	+	0	ID=MGA_1218;product=dual specificity protein phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846895.1;translation=MITMYWVRKREIGGSCLPYTVDEIREWKAKGVKRVLVLPEEWEIEEAWGNADYYFSILKENGLDYLHIPIPDNYPPTQSQFNEIYEWLNKGKGNLVHCVGGIGRTGTVIAAYLIIKEGYDPNDAVTEVRKYREGAVQSLQQFEFLIKLSSKFER;locus_tag=LOCUS_12170;note=WP_052846895.1 dual specificity protein phosphatase family protein (Sulfurisphaera tokodaii) [pid:63.6%25%2C q_cov:98.1%25%2C s_cov:96.8%25%2C Eval:1.6e-54],MGA_1218
sequence1	MetaGeneAnnotator	CDS	1118611	1119207	.	+	0	ID=MGA_1219;product=endonuclease V;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978559.1;translation=MRRLESYLLDFLKLFQGLIAKNIKLEHLDISKVKTLCAVDVAYKGEEGYAVSVKFDGKNYEHYLVKGKVDFPYIPGFLFMREAPIMIKALSKYSCDLVLVDGHGLAHPRKSGIATVIGVLLDIPTIGVAKSRLTGNIVTEGEINYVIVNNEKVGVKSGKYFYSPGNRTDLNDVIELSKKGYPEILKIADRLSKQLKKE;locus_tag=LOCUS_12180;note=WP_010978559.1 endonuclease V (Sulfurisphaera tokodaii) [pid:67.7%25%2C q_cov:98.5%25%2C s_cov:99.5%25%2C Eval:1.6e-73],MGA_1219
sequence1	MetaGeneAnnotator	CDS	1119233	1119832	.	+	0	ID=MGA_1220;product=isochorismatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978560.1;translation=MEIRVPQIPEEKEIELDPRNTAVIIVDMQNDFVKKGGKLYVPNAEKTIGPINDLIKKSRNSSVTVIYTQDWHMKDDPEFKIWGEHALAGSWGAEIVDELKPEKDDFVIKKYRYDAFFETPLDYILRVKNIKNIVISGTVANICVLHTAGSASLRWYNVIMIKDGISALDDFDYYSTLRQVDFLYKGKITTSSGIKFNNS;locus_tag=LOCUS_12190;note=WP_010978560.1 isochorismatase family protein (Sulfurisphaera tokodaii) [pid:78.6%25%2C q_cov:98.5%25%2C s_cov:98.0%25%2C Eval:7.6e-92],MGA_1220
sequence1	MetaGeneAnnotator	CDS	1119851	1120834	.	+	0	ID=MGA_1221;product=DHHA1 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978561.1;translation=MDYYAIVHNDFDGTASVAVYARAVNSLPKKVWFTEPTKIHNLLAKLELRGVKKIMIADIGINGSTFQSVVESLTRLKNEGAEVQWFDHHVWKQEWKDKLKDIGIEVYHDTSTCGAGVVHKVLNPNDDFSGKLASADCSVDIWLHNDPMGEKLRRVVENNHDYAWKEKLIQIFYSGTLWNDEFQKILEKQVDEELKGYQKLPKYYKVIEIDGKKVAIAIRWRGPPDISYAGQYIMTRTGAIIFVSANGKSISFRSNSYEIRRYAAKLGGGGHPLAAGASLKIPLIYRILRRLGIISPALNWVSKVVYRTIKEEGFSEYKQKDITPKQS;locus_tag=LOCUS_12200;note=WP_010978561.1 DHHA1 domain-containing protein (Sulfurisphaera tokodaii) [pid:67.7%25%2C q_cov:98.5%25%2C s_cov:99.4%25%2C Eval:7.8e-132],MGA_1221
sequence1	MetaGeneAnnotator	CDS	1120846	1121556	.	+	0	ID=MGA_1222;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978562.1;translation=MLIQSGNVLIKLLLSNCSESKMVKIYQKFPDVQVLTTKGPIDFYKDIFGKGRWLFLYAHPADFTPVCTTEFAAFAQAYDEFDKLGVQLMGLSVDSIYSHIAWLNDIEQRYGVTIKFPVIADPDKKLARLLDLVEESSGVTVRGVFIVDPQGTIRFMAQYPIEAGRKIEEMLRITKAIMVAYKAKVATPVNWEPGQDVVLGAPTTLDEATMRMKLPNAKAWYLVFKKYNELPADQRI;locus_tag=LOCUS_12210;EC_number=1.11.1.24;note=WP_010978562.1 peroxiredoxin (Sulfurisphaera) [pid:73.5%25%2C q_cov:91.1%25%2C s_cov:100.0%25%2C Eval:2.5e-93],MGA_1222
sequence1	MetaGeneAnnotator	CDS	1121563	1122144	.	-	0	ID=MGA_1223;product=metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978563.1;translation=MPQVDLVLLAGDLVDRGRFLHFDPIYRALSKYKVVATFGNEDFSEYRNEYREKYPSVIWLDDESVNMEVDGKKITIVGSEGVIQRPTFYQKMKGINADFYKYRKNKIEEMLCSSNNFRILLTHYATTFNTVYGEKKFAYPSLGDNLLEELSCLPNISVHGHAHYSKVTFSIVKNVKVYNVALPATKKFTIINM;locus_tag=LOCUS_12220;note=WP_010978563.1 metallophosphoesterase (Sulfurisphaera tokodaii) [pid:58.2%25%2C q_cov:95.3%25%2C s_cov:83.6%25%2C Eval:1.9e-63],MGA_1223
sequence1	MetaGeneAnnotator	CDS	1122251	1123399	.	+	0	ID=MGA_1224;product=DUF763 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978564.1;translation=MEIEGIADLPLHGGKVPPWLVPIMKRLAKSIIEIMVIEWGPEKVLERLANPLWFQGFNNAIAMDWDSSGSTTVTMGILKDVLNPKEFGFAILGGKGKNALKVPQELEELPKNYNVNTKRLSIISKTVAKVDTTLVQDGHQLYHHTMAVTENGYWIIIQQGMNPETKFARRYHWKNTENFTVEPHEGIAGTKGIAVNIIERNKDDVRKLVLDLLREDPRHIISEYEKAQAMVKGQGILDMWIKGGSIIGLSKKAKMIYMKPVDTKRIKQILENIYEAQPSTLEEALTQGMGPSTARALYLVSDLIYNEPPSYNDPVTTPYDPFKYAFTVGGKDGVPYPVNIKVAEEVVTTLEDFVERAKLDKKDKSLSLNRLRELSCGIKERS;locus_tag=LOCUS_12230;note=WP_010978564.1 DUF763 domain-containing protein (Sulfurisphaera tokodaii) [pid:62.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-141],MGA_1224
sequence1	MetaGeneAnnotator	CDS	1123377	1124492	.	+	0	ID=MGA_1225;product=citrate synthase/methylcitrate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978565.1;translation=MELRKGLEDVAVKETAITYIDGELGRLYYRGYSIFDLAEFSNFEETAYLIWYGKLPNEKELEELRIKLSTNRELPDSIINYIKEVKKDANPMDVLRTAISMLGVEDTDNSDIMEKSIKITSKIPTIISYFYRSRKNLEIIHPDETLSHSENFFYMLNGKKPSEIESKSMDVSLILHMDHEMNASTFACLVVASTLSDIYSSVIAGIAALKGPLHGGANAEALKQFIEIGDKKNVEDYINKRLQSGQRLMGFGHRIYKTYDPRAKIMKEYVKEITKEKGIYNLYEIANAVDEIGIKELGNKGIFPNVDFYSGLMFYSLGFDPDMFPAVFASSRVVGWTAHVVEYLKNNRLIRPKAIYIGEIGRKYLPLEDRQ;locus_tag=LOCUS_12240;note=WP_010978565.1 citrate synthase/methylcitrate synthase (Sulfurisphaera tokodaii) [pid:66.0%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:8.1e-144],MGA_1225
sequence1	MetaGeneAnnotator	CDS	1125056	1125499	.	+	0	ID=MGA_1226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEQRSYLKKSKYYLKHYWKQARK;locus_tag=LOCUS_12250;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:70.1%25%2C q_cov:85.7%25%2C s_cov:35.6%25%2C Eval:1.4e-46%2C partial hit],frameshifted%2C insertion/deletion at around 1124952%2C1125435%2C1125027,MGA_1226
sequence1	MetaGeneAnnotator	CDS	1125514	1125903	.	+	0	ID=MGA_1227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQLQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLSALARKLARIIWSVWYNNKPYEPK;locus_tag=LOCUS_12260;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:76.6%25%2C q_cov:95.3%25%2C s_cov:34.7%25%2C Eval:1.1e-52%2C partial hit],frameshifted%2C insertion/deletion at around 1125433,MGA_1227
sequence1	MetaGeneAnnotator	CDS	1126060	1126719	.	+	0	ID=MGA_1228;product=DUF47 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846896.1;translation=MIKLTLNKEQLLFSKVLQIAESIKDASNRLTSLYINIFKQNYDASTMEMVKIKGIYEKIALVREDIVSMLYGEAFLPDFKESMMMLTQSLYETMKAIKDSGRAISSRKPDEKLCKILQENLLSYLSTISEASEKLVEMISLLQKDIGEAVKVGKEIQLLERNGDNIKDGLIQRLYESEKDSDIISILQLKDVTIFLDDILDNMEETSLSIETLYATLKS;locus_tag=LOCUS_12270;note=WP_052846896.1 DUF47 family protein (Sulfurisphaera) [pid:57.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-65],MGA_1228
sequence1	MetaGeneAnnotator	CDS	1126714	1127673	.	-	0	ID=MGA_1229;product=inorganic phosphate transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978567.1;translation=MFIFGILIFLVGLISAFIVGGNNSATALGILISTNALKRKYSYLVSALSVFIGTALGSYTMASSIYGEIKGSQIYVQVSIFSVIFASIIAFYYLNKSGIPSSLSQMIYPSLAVLVLVSKVLYFNWFKFWFTVASWGFSPLLAIVSALVMYYILRRLTSKEKRVIREMKIYKSLIIASSIFTSFVTGANAVGIIVSAGLIALPYYIVAPLYALAAAMGIYLSSKKASIVVGFKVTRLGYVSATSALLGSDIISEIFTIFGIPISITQTTMGGIIGLSFRSFGYDVEKQLKQVAKGWGTSPFIAIIASLAAFGIIKSILGL;locus_tag=LOCUS_12280;note=WP_010978567.1 inorganic phosphate transporter (Sulfurisphaera tokodaii) [pid:62.7%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:1.1e-111],MGA_1229
sequence1	MetaGeneAnnotator	CDS	1127673	1127876	.	-	0	ID=MGA_1230;product=ribbon-helix-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846897.1;translation=MDSVKKVGEGTYELELNSTVTISFKLEDELLGKVDDMVRRLGYTNRSDFIREAIIEYIKYNKNKGTK;locus_tag=LOCUS_12290;note=WP_052846897.1 ribbon-helix-helix domain-containing protein (Sulfurisphaera) [pid:54.0%25%2C q_cov:94.0%25%2C s_cov:87.5%25%2C Eval:3.4e-14],MGA_1230
sequence1	MetaGeneAnnotator	CDS	1128040	1130160	.	+	0	ID=MGA_1231;product=ATP-dependent DNA helicase Hel308;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978569.1;translation=MEFMSLEELNADQRIIDVIKKRGIERLNPVQTEAVKKGLMEGKRLLITSPTGSGKTLMAELGMISFLLKEGGKAVYVTPLRALTAEKYNTFKDWESLNFKVGMSSGDYDSDDEWLRNYDIIVTTYEKLDSLWRHKPSWLKDVNYFVLDEFHYLNDSDRGPVVESVAVRAKKKNILALSATISNYAKISSWLGADAVTTNWRPVPLKEGVIVQDRRKCQVIFQDNLTLTLNGSDAIIAYTLYTIEKGGQVLVFRNSRKMAETTARKIAAEMEKAPLNDKELLEVANRIKDVDDAGGNEKEELYNLSLKGVVFHHAGLSKGLREIIENAFRERKLKVIVATPTLAAGVNLPARVVIVGDMYRYNRKILGYQEEIPIMEYKQMSGRAGRPGYDDYGESLIVLRNKRDIEKIFEKYILSDPEPIESRLGNESSFYTFLLGILSTEGGLNKNEIYDYSHQTLLDREIVDDYLEKGISWLNENDFIEERDEKFRLTKFGRKVSDLYVNPFTAKTIRDYLSRAETSCELAYFHLLAYTPDGPSIGVSRAEQDQLIDEAYCPLFIDEPDDEDELYEYLSALKVALIVKDWIDEVDEDIILERYSIGSGDLRSIVETMDWLTYSGSHIAGVIEATEHSRKLEILNKRVKDGVKEDLIPLVQISGVGRKRARLLYNNKITTPEDIVMNPEKVKALLGQKIGEKIAKEAAKLIAGLH;locus_tag=LOCUS_12300;gene=hel308;EC_number=3.6.4.12;note=WP_010978569.1 ATP-dependent DNA helicase Hel308 (Sulfurisphaera tokodaii) [pid:63.2%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.6e-269],MGA_1231
sequence1	MetaGeneAnnotator	CDS	1130144	1130272	.	+	0	ID=MGA_1232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDYINGKREFEGDEDELQKLSLLLLAIGVKSEIKNKKLIVL;locus_tag=LOCUS_12310;note=MGA_1232
sequence1	MetaGeneAnnotator	CDS	1130267	1131841	.	-	0	ID=MGA_1233;product=acyl-CoA carboxylase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978571.1;translation=MAITSEKSDMDKIIAQLREIKAKAFQGGGEDKIKAQHDKGKLTARERLALLFDEGSFNEIMPLATTRATEFGLDKNKFYGDGVVTGWGKIEGRTVFAFSQDFTELGGTLGETHANKIGKVYELALKVGAPVIGINDSGGARIQEGAIALEGYATVFKMNTLASGVIPQITIMAGPAAGGAVYSPALTDFIIMIKGDAYYMFVTGPEITKVVLGEEVTFQDLGGAVVHATKSGVVHFLAENEQDAISIAKRLLSYLPSNNMEDPPYMDTGDPSDRETKDVESIVPTDSAKPFDMREVIYRIVDNGEFMEVHRHWAQNIVVGFARVAGNVIGIVANNSNTLGAAIDIDAADKAARFIRFCDAFNIPLLSLVDTPGYIPGTEQEYKGIIRHGAKMLYAFSEATVPKISVIIRKSYGGAHIAMSIKNLGADLVYAWPTAEIAVTGPEGAVRILYKRDIQNSQNPDEFLKQKIAEYKKLFANPYWAAEKGLIDDVIEPKDTRRIIVNALSMLKNKREYRYPKKHGNIPL;locus_tag=LOCUS_12320;note=WP_010978571.1 acyl-CoA carboxylase subunit beta (Sulfurisphaera tokodaii) [pid:80.5%25%2C q_cov:99.0%25%2C s_cov:99.2%25%2C Eval:2.7e-255],MGA_1233
sequence1	MetaGeneAnnotator	CDS	1131922	1132425	.	-	0	ID=MGA_1234;product=acetyl-CoA carboxylase biotin carboxyl carrier protein subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846898.1;translation=MKLYRAYADTGDTYIMAIDSKGDKDKIKTENNEFEIEYLGKGTRENEYLFKVNGKVHRAFIDNGYILLDNASVFRLERLTELPSKEGESIEEMIKGKEGEVISPLQGRIVTIRVNEGDAVNKGQPLLSVEAMKSETIISAPIAGIVEKIIVKPGQGVKKGDTLLIIK;locus_tag=LOCUS_12330;note=WP_052846898.1 acetyl-CoA carboxylase biotin carboxyl carrier protein subunit (Sulfurisphaera tokodaii) [pid:64.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-63],MGA_1234
sequence1	MetaGeneAnnotator	CDS	1132425	1133954	.	-	0	ID=MGA_1235;product=biotin carboxylase N-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978573.1;translation=MPPFSRVLVANRGEIATRVLKAIKEMGMTAIAVYSEADKYAVHTKYADEAYYIGKAPALDSYLNIEHIIDAAEKAHVDAIHPGYGFLSENAEFAEAVEKAGITFIGPSSEVMRKIKDKLDGKRLANMAGVPTAPGSDGPVTSIDEALKLAEKIGYPIMVKAASGGGGVGITRVDNQDQLMDVWERNKRLAYQAFGKADLFIEKYAVNPRHIEFQLIGDKYGNYVVAWERECTIQRRNQKLIEEAPSPALKMEERESMFEPIIKFGKLINYFTLGTFETAFSDVSRDFYFLELNKRLQVEHPTTELIFRIDLVKLQIKLAAGEHLPFSQEDLNKRVRGTAIEYRINAEDALNNFTGSSGFVTYYREPTGPGVRVDSGIESGSYVPPYYDSLVSKLIVYGESREYAIQAGIRALADYKIGGIKTTIELYKWIMQDPDFQEGKFSTSYISQKTDQFVKYLREQEEIKAAIAAEIQSRGLLRTSSTDNKGKAQSKSGWKTYGIITQSSTRVMW;locus_tag=LOCUS_12340;note=WP_010978573.1 biotin carboxylase N-terminal domain-containing protein (Sulfurisphaera tokodaii) [pid:78.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-237],MGA_1235
sequence1	MetaGeneAnnotator	CDS	1134094	1135707	.	-	0	ID=MGA_1236;product=ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846899.1;translation=MFDLGLAILATLATLARVFITIGASIVTGWLLGYIAIKNRIFENIYISISEVLESVPVITFFPVVLIFFVFEIGGSLGVELAVLFLVFTAVVWNIWMGIYQAFKTVPENLLEVSENYKLGFLDKMIKLYIPFSIPRIAANLIPSFADALFYISVSEVFSVGVHTYQVFGIGTLISEYTAMGEYTNALYLLLVLAIFTTSITFLLREFAAFSVQRYGLDTEVKENNMRRGRFRVGYSARLSSAKGPFTKLAKYVTRPRPIDIDEEESKKKMPWGKIGAGIGFLFLFLLAYSAFIVVKNVSASTWYYLFSTVPDDLIQIGMDYIRVAIIALISFVIAIFSGYFLAKDHKAERIAIPIIQSIAAFPAPAYFPLLFGATYPYLSKILGGYTDEFYVLFLGFISTFYYIFYSYWLGVKNMPSEYWEVMDNLNMGFWQRLRKVVIPSAFPYIIAGLSSTVNSAWGGLAIGEYWPQIYNNYNLEVRTGLMKELALADANGQLALVGWLSLIFAVIVVMYSIFFTRKLLDLARKKYVAEEGIYAA;locus_tag=LOCUS_12350;note=WP_052846899.1 ABC transporter permease subunit (Sulfurisphaera tokodaii) [pid:61.8%25%2C q_cov:98.7%25%2C s_cov:98.3%25%2C Eval:1.0e-188],MGA_1236
sequence1	MetaGeneAnnotator	CDS	1135700	1136380	.	-	0	ID=MGA_1237;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978575.1;translation=MGPSGIGKSTLLRILGGFIKPTEGEVRLLGKKIVSPTPKISLIHQSIATFPWLTALDNVKLGLQYRKLNKDEENKIAKKMLEIVGLQGFEDFYPKQMSGGMRQRVAIARALAADPLVLLMDEPFSHLDELTAEGLRQEVYGMLFNDQTSLRSAVLVSHNLTEVIELADRVYVLNDRPANVVGEVKIDIERPRNPKSEKFQELLDNLYRLLTPVTTKSKLNGGEANV;locus_tag=LOCUS_12360;note=WP_010978575.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:75.1%25%2C q_cov:96.0%25%2C s_cov:90.4%25%2C Eval:8.0e-94],MGA_1237
sequence1	MetaGeneAnnotator	CDS	1136547	1136921	.	+	0	ID=MGA_1238;product=thioesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_196772272.1;translation=MQNSSEKIFIVKPEYSARKVSSGAVDVLSTPMMIAFMEDVSFNLAKNVTKEGETTVGIHVDVKHLNPVPIGAEIKVRSELIKIDGKRLVFSVEAYWRNTKIGEGIHERYIVNENEFMKKIQNLQ;locus_tag=LOCUS_12370;note=WP_196772272.1 thioesterase family protein (Sulfurisphaera ohwakuensis) [pid:67.5%25%2C q_cov:94.4%25%2C s_cov:94.4%25%2C Eval:1.8e-39],MGA_1238
sequence1	MetaGeneAnnotator	CDS	1136893	1138860	.	-	0	ID=MGA_1239;product=helicase-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978084.1;translation=MNELQSLFLEKYDKDPDNNYLLSAPTGSGKTFLAKYVLENREKIAVYVSPLKALAKEVYEDVRQKRKSRYIDSDVYEDDLGSFESDVLLTTYEKFDSAIRHNYKWLSNVSVVVIDEVHNVETDRGIAIENIVLWSKNNSVPTISLSATLPNIKDYAEWLNADVISYEKRSVPLHECIAYPYVLRCYDNNFDIPLNTFEGIRQIKLQILASVLEYIRNQNKNALIFVKSRRSTEQLSSVLSKFGFKVENYHSGLSFEDRKAVMEALKKGEINFVVATTALGQGVNLPVYATIFYDTSLPQVDERGEFKGWRDLDLMEFKQMAGRAGRPIYDKEGLSIIIATSMRNADELRSKYFTNVYQSKLVNYKPENLSIGVISWAEGLDDDEIHKILMGSLKFKNMDKDDFSSILHKLSDTKLIRISRGIFLTALGKAVSRSYIDIDSLNGFPLNEENFDVLDIVSSSSVVLQSMRRCKLGKELLKKWSQGENISTVCPELSAKDLEEIIANARWISFALYRVLKALNRKYDEAFKLYMSVKYGVPYELSKIAELGLDRNTVMELKDIKIKDSVDFCIKAGIPKIKAILKEKGYSAEGICRKYYSNDPSLFEMKRALEKYYNKEFTLREIAREYGIDVASKLYKMKYIIKSGEKFIVNSESFS;locus_tag=LOCUS_12380;note=WP_010978084.1 helicase-related protein (Sulfurisphaera tokodaii) [pid:47.8%25%2C q_cov:96.2%25%2C s_cov:98.6%25%2C Eval:1.3e-164],MGA_1239
sequence1	MetaGeneAnnotator	CDS	1138909	1139235	.	-	0	ID=MGA_1240;product=DsrE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978085.1;translation=MKVVVQVSDNSRALQAMKSVLNLRNDIKDAEIEVVFHQDAIRSLIKGNENENTINELFKNNVAVVGCRNSMTALGIKDEQLIEGIKIVTAGVGEIVRKQSEGWIYLRL;locus_tag=LOCUS_12390;note=WP_010978085.1 DsrE family protein (Sulfurisphaera tokodaii) [pid:60.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-32],MGA_1240
sequence1	MetaGeneAnnotator	CDS	1139766	1140581	.	-	0	ID=MGA_1241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846621.1;translation=MIFVKNLTTENIHGITLAIDGITCILGDWDKDKSDLVDVLLGRKRFSGEVSYFNGIEKISPSNIRLIPRNLERPKVFVSQILKLFSKRYSGNYEVIMNFLNLNDTEMNSLEEFEVFKVYLSSVFFGKTKLIISEDFLELIEEQAKYLALKYLIKAAKMLNSTLLLFMSSAEYSEICSKIYVIYGGRVLEEGRKELYHPYSQTMQKSVITIGKKFEKIDVVEVGKPSDKGCPFHDYCYAAKNDKLLFRKCALQEPPFFIKGGNKVACWLYEM;locus_tag=LOCUS_12400;note=WP_052846621.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:40.1%25%2C q_cov:98.2%25%2C s_cov:97.7%25%2C Eval:1.9e-53],MGA_1241
sequence1	MetaGeneAnnotator	CDS	1140578	1141438	.	-	0	ID=MGA_1242;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979706.1;translation=MLKYNCITSEKLRCFDAEISDNMYLGVLGQRDSGKEDLIYLTLRLKNKISGSIILDGVDIFSLSEEEMNAIRWSKISAVFYDPYSMFNPIYNVASHFAEIAISHNFGDFHFSEEIAKEYLKILGAKEDLVYRHPLQLSPLEAKKISIALASFMEPKYIIVDDIEFGLNDNGRAIIINSLIDLMQIVKSSFIILDNDPAVISRLADYVIVIYKGEKVEEGSDVLYDHYHPYTTDLISGNIRERNIIGNGCVYSENCAFSSYKCKSNKPEEVKVGNNKVKCFLYPWET;locus_tag=LOCUS_12410;note=WP_010979706.1 ATP-binding cassette domain-containing protein (Sulfurisphaera) [pid:50.9%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:1.5e-80],MGA_1242
sequence1	MetaGeneAnnotator	CDS	1141443	1142198	.	-	0	ID=MGA_1243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979707.1;translation=MKVSVIILVFIILFSLFFSFYKLPQGSPLTSPNLEFPLGTYINGQNMINVNAIAIINTFIFGTVVGIIEILLAATYGVFSTIGSRTRVIMVRFLDALTIIPRIPFLLAIALFYGIPEGTFLRANFFLTAIIIALTGWSNYARQISENLYFSTSMPLLSRIVGKLSFRLSISQYWPSLSSLTKKFFIPAIIDGISTYTAMGVIAGVGDPSYPTLTTLLNTSRLLPDWWLFLIPAVFRGIVIVILYIISDSLR;locus_tag=LOCUS_12420;note=WP_010979707.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:54.4%25%2C q_cov:94.4%25%2C s_cov:92.5%25%2C Eval:9.6e-70],MGA_1243
sequence1	MetaGeneAnnotator	CDS	1142195	1143424	.	-	0	ID=MGA_1244;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979708.1;translation=MKYGLLFFSILSLLIGIVLSYISTITVFYQDISYGNGSIAYPPQNWRYQYWSVLSKGFPNSTIFLPNKEINITGVHDIYLNKSSFYVFSVYGYIQPYAILSILGLFLIFIGTAFGFRSSILLMQERVLGELSKGYAVEGSLSRYILKRFSSLVISISIVSVVVYFLEIIQGINPVKDIIDLLTFNEGLSKLGISVDSLLLTSLSYTSLLSGIAFSLTVYLSAFLVMRSIGSSGFLLTLIQKWKYIGNALASWVIGIALLYTFHYYLGILPIGSPKGHLIFYIILPLLSLFFPYIGIFANRIIYTVGSTSDINKAKGLSKDIIVYRHVVGNLMVVTLSTISSAFIEMLIAEFLIEAIFFWPGLGYLLRFSVDSGDIRVVEGILLIYSTIVLISNFIADVIYGIVDPRVRR;locus_tag=LOCUS_12430;note=WP_010979708.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:49.4%25%2C q_cov:97.1%25%2C s_cov:96.8%25%2C Eval:4.2e-104],MGA_1244
sequence1	MetaGeneAnnotator	CDS	1143474	1145891	.	-	0	ID=MGA_1245;product=plasma-membrane proton-efflux P-type ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065536.1;translation=MFKFPFFYIISMTDYEKASIEDILKELSTSKNGLSEEEAKNRLQTYGYNEIKEKKESPVIKFLKKFWAPVPWMLEAAIVLTYVLGKYLDMYIIAFLLVFNAIVSFVQENRAENAVELLKQKLNVKARVLRNGKWEVIPARYLVPGDVIHVRLGDIVPADVKIFDGKVSVDQSALTGESMPVSKTVGNVAYSGSIIKRGEATGVVILTGAKTYFGKTTELVQSAKAESHLEKLILNIVKYLIIIDVVLVIALTVFSIISGISISDVLPFSLIVLIASIPVALPATFTIAMALGAVELSKKGILVTRLTASEDAASMDVLNLDKTGTITENRMRVGDPIPMQGFSKDEVVKYAYMASDEASQDPIDNAVITCLRENKINPENFEKISFKPFDPSIKRTEAIVNYNGKILRVVKGAPQVIASMAELNNIGDYNKTLEDLSSRGFRTISVAIGDKEGKLKVVGILPLYDRPRPDSKSFIQEIKALGVKPKMVTGDTKLIAKEIAKEVDIGDTICNINDIKEIPDEHEKVKKIEECNVFSEVYPEDKYFIVKTLQKAGHYVGMTGDGVNDAPALKQAEVGIAVANATDVAKASASMVLTHEGLTDIVESIKTGRKIYQRMLTYTINKIIKTLQVVLFLTLSFFIVRFFVTTPFDIILLLFANDFVTMSIATDNVRYSQHPERWSAKKLIIASLILAFLVVVESFFALWVSLYQGLSINEIHTFIFDMLVFSGQFTVYMVRERRSMWASMPSKFLLTSSIADIIFITLISLLGIFVTPLPLFYILEVLAITFLFTVGIDLIKNISFKTVGI;locus_tag=LOCUS_12440;EC_number=7.1.2.1;note=WP_048065536.1 plasma-membrane proton-efflux P-type ATPase (Methanosarcina acetivorans) [pid:41.9%25%2C q_cov:97.1%25%2C s_cov:98.1%25%2C Eval:2.6e-178],MGA_1245
sequence1	MetaGeneAnnotator	CDS	1145884	1146282	.	-	0	ID=MGA_1246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978769.1;translation=MIEFRVSREIKNPEAVWKVASDVVSIPKYWKGISRLDVQKVGDHYEGKVRFAFPSTSYVRIFVDDDNKIMKIEFTKGIIKGFNEVGVKESEIYSFWKVSESIILKPFEKRNFEHFKLGAEHALERIIESVNV;locus_tag=LOCUS_12450;note=WP_010978769.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:41.4%25%2C q_cov:96.2%25%2C s_cov:97.7%25%2C Eval:4.3e-25],MGA_1246
sequence1	MetaGeneAnnotator	CDS	1146301	1147350	.	-	0	ID=MGA_1247;product=Zn-dependent exopeptidase M28;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979973.1;translation=MDIGFAEDLMKLGEAIHGGNIEKKILEIIEGNLDNFRKNVVRTKFWKIEREDVYVNNKRIEASLLPYTSGCIKGKIGREITIIDMPSHPFSLSQPETEGLLVVDNKLRRISLSKNKPVSFFIKNKMEGYVEICGEGKLEDATSYNLETIRKDGNDFIVIGAHVDHWLSGFHDNLFSIALALSLRPNLKNHGFKLVFFSSEEGPKCCTGSLQQPKDKTFVMISLDALFPNRVVFSATPDLWEFSKFFRLKRIEMPSPFSDHFPYVAEGYPGMVLYNDDLIPFYHSDQDLPIKEDLSYFNYMKTSLERMIESIDEKNSEYLDNQFYKYSKTKIRKGSIIPDYRNLTSRFKI;locus_tag=LOCUS_12460;note=WP_010979973.1 Zn-dependent exopeptidase M28 (Sulfurisphaera tokodaii) [pid:52.4%25%2C q_cov:97.7%25%2C s_cov:98.1%25%2C Eval:7.6e-96],MGA_1247
sequence1	MetaGeneAnnotator	CDS	1147373	1148296	.	-	0	ID=MGA_1248;product=CDC27 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980469.1;translation=MKRNTLDEAKFLYDKFKKSGNVEYLDSSIKILNSLKKDLNSLNLLGLCYLDKEDPDKALEYFDQAYKLAKDDESKGVILFNKALCFFKKKNYVETYEILKQVVSLRTSVRAHANRLLAKVCIVRGGKYLNEARSILESYDEPNEDLALVYILLSRSGEKDLYKKAIDIAKVLKNDKLLAEALLSSDEISDLEESLEIFRKIGDVSGEAKALFALSSKKPELIYEAIQKLEESGKGESAETLQLLFEMYKRTNILDFLKRAIEIAKKIDNKLFLARAYAELSLHENEIENLRKAVKYYEKYIESWQNK;locus_tag=LOCUS_12470;note=WP_010980469.1 CDC27 family protein (Sulfurisphaera tokodaii) [pid:49.0%25%2C q_cov:96.4%25%2C s_cov:96.7%25%2C Eval:7.7e-70],MGA_1248
sequence1	MetaGeneAnnotator	CDS	1148450	1148635	.	+	0	ID=MGA_1249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEAKSSIGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHVTSEGRVYTTRRVMKKY;locus_tag=LOCUS_12480;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:61.3%25%2C q_cov:100.0%25%2C s_cov:17.4%25%2C Eval:6.4e-16%2C partial hit],frameshifted%2C insertion/deletion at around 1148602%2C1148770%2C1148876%2C1148734,MGA_1249
sequence1	MetaGeneAnnotator	CDS	1148688	1148873	.	+	0	ID=MGA_1250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILQGKRDQDTTSKPKLWKEKDLRGKQIFTTKTNKHGKQGKGVQLQPIERTSNTIRLPKS;locus_tag=LOCUS_12490;note=MGA_1250
sequence1	MetaGeneAnnotator	CDS	1149635	1150072	.	+	0	ID=MGA_1251;product=deoxycytidine triphosphate deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846981.1;translation=MIKNISDESVRENGYDLRICGDKYYEVTGEIIIPDKKASLKEHQFKDYAEMEPLKTYLFETCEEIEMPNDTAGLMTLRSTLARNGFLTPPTVIDAGYKGKITIALTSLNKAKIKKESRVIHLIFIKLDKPTEMLYNGSYQGGKII;locus_tag=LOCUS_12500;note=WP_052846981.1 deoxycytidine triphosphate deaminase (Sulfurisphaera tokodaii) [pid:62.1%25%2C q_cov:100.0%25%2C s_cov:91.2%25%2C Eval:7.2e-48],MGA_1251
sequence1	MetaGeneAnnotator	CDS	1150168	1150731	.	+	0	ID=MGA_1252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRVEEAFKELANRLTLILPVLIIVILDFMVDLVIEVLIPPTLLTRIGISIINGIAFSFAISMVFSGYMTTPSLYEEWRDTSSRLNCIIELGIILGFFFFIFSYIPFGFLLNSLALAFLLVSFPFVYKSGIRGINQSLQWLTRAISEDALSFIIIYLSALLSFFPVIDILLLPYGTILGYIVYREVI;locus_tag=LOCUS_12510;note=MGA_1252
sequence1	MetaGeneAnnotator	CDS	1150755	1151270	.	+	0	ID=MGA_1253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRLEQLLDELDEEGRLNCREITKLLINDIVRNFDNYFNQKEVNYDITIDELIIYSLAHELNLQQLLTACFVVYMKLNTLQIQEPFFKFNRKGVSSERIKCHIKKLIEEEVIHKNKRFSLTYRGLFMRKILESKLRNGEIEKILIEIEKLTTNKDLRDFCYKILKFENERS;locus_tag=LOCUS_12520;note=MGA_1253
sequence1	MetaGeneAnnotator	CDS	1151588	1152157	.	-	0	ID=MGA_1254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVSVEKLLTTSDGEYVPNMRPYEKALNKTRRLHKALSRKKFLSRNWFKAKIRLARAYEHLKNLRKDMYMKLGKYFAEHYDVLVMEDIHVKQIVGKSLRRLRMRLQDVAFHELRSIMEYQLGKYGKEIRFVNPAFTSITCAKCGHVRRDLTLAERMFVCPNCGWSVDRDYNASLNILRRSGSERPSLWS;locus_tag=LOCUS_12530;note=WP_041233550.1 RNA-guided endonuclease TnpB family protein (Cylindrospermum stagnale) [pid:35.0%25%2C q_cov:95.2%25%2C s_cov:43.1%25%2C Eval:4.4e-22%2C partial hit],MGA_1254
sequence1	MetaGeneAnnotator	CDS	1152282	1152731	.	-	0	ID=MGA_1255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDVGLRFRAYIDEQTLRALKAQLRLASEVYNTLRWTDAYFHERDGKGLTKTELRQLALDLRKQDEQYQQIYSQTLQQIAGRFYDARQRFFDGLARYPKESAQVVFPRLPSIRLENTEGKRNKDEKQEEQEEGNNASAVKPRDLQRYCS;locus_tag=LOCUS_12540;note=MGA_1255
sequence1	MetaGeneAnnotator	CDS	1152743	1152931	.	+	0	ID=MGA_1256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTYISLTKGAPTAIFTNNTPKQEDKLYKGETKKTRYRRGGGEGPQVDPNQVVPSALQAIA;locus_tag=LOCUS_12550;note=MGA_1256
sequence1	Aragorn:1.2.38	tRNA	1153038	1153123	.	-	.	ID=Aragorn_2;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00020;note=Aragorn_2
sequence1	MetaGeneAnnotator	CDS	1153346	1154395	.	+	0	ID=MGA_1257;product=peptide chain release factor aRF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742617.1;translation=MKKWSAPATVLLSLYIPPGRPVADVANMLRQEASISQNIKLKRTRDAVESAISSAIDRLMSFNKVPDNGLAIFCGENFDTEEFKCYVFSPPEKITIYFYRTDKYFHTEFLEDMVEESEIYGLIIVERDQATIGILRGSKIEVLEEAEGFVPGKHMMGGQSQRRIDRIIEEMYDNFLKETGEKVNHYLLPYLEEGKLKGILLGGPGYAKKDFYDGEYIDYRLKKLIMEPLVDIGDQGEAGLREMVMKSRELLKSQKYVEVQDLMEELKFHLAKDDGLIIYGLEEIRKAIELGAVDSLIVYDEDNPELQKITQEAEKYGTKVYVVGDELPEAEWVKKTFGGAVGKLRYRIS;locus_tag=LOCUS_12560;gene=prf1;note=WP_084742617.1 peptide chain release factor aRF-1 (Sulfurisphaera tokodaii) [pid:78.4%25%2C q_cov:99.7%25%2C s_cov:96.4%25%2C Eval:7.0e-166],MGA_1257
sequence1	MetaGeneAnnotator	CDS	1154400	1155020	.	-	0	ID=MGA_1258;product=phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846345.1;translation=MPKIPVKVVKWEEAVEWSTRLADKIRDSYSPDMIIAIARGGLVPARIVADVLGILDLISIKVEHWVVTASHTPEAKIKYPFKVDLGGKKVIIIDDITDTGDSLIIAEKYVKENFNPSEIKTATMQHIKTASKYEPDFYAETVTDWTWFMYPWNYWEDEINLTKKILDEKGHMEISELEKEFKDSYGILPPIPLSKIMEEMKRRKIL;locus_tag=LOCUS_12570;note=WP_052846345.1 phosphoribosyltransferase (Sulfurisphaera tokodaii) [pid:67.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-80],MGA_1258
sequence1	MetaGeneAnnotator	CDS	1155104	1155907	.	+	0	ID=MGA_1259;product=S-methyl-5'-thioadenosine phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846346.1;translation=MLEYEKVPIAIIGGSGVYDPKIFSDTKEIKVYTPYGETSDLITIGTVEGKKVAFLPRHGKRHRIPPHKINYRANLWALHELGVKWVIGVSAVGSLRMDYKPGDFVIPDQFIDMTKGRQYTFFDGPVVAHVSMADPFCNHLRKIIIDSSKSLGIPTHDVGTYICIEGPRFSTRAESRVWREVFKADIIGMTLVPEINLACELQMCYSTIGMVTDYDVFADIPVTAEEVGKVMNENSEKARKLLYEVIKRIPEKPEECSCCNSLKTALV;locus_tag=LOCUS_12580;EC_number=2.4.2.28;note=WP_052846346.1 S-methyl-5'-thioadenosine phosphorylase (Sulfurisphaera tokodaii) [pid:80.0%25%2C q_cov:98.5%25%2C s_cov:98.1%25%2C Eval:8.9e-125],MGA_1259
sequence1	MetaGeneAnnotator	CDS	1155874	1156653	.	+	0	ID=MGA_1260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846347.1;translation=MLQFSKDSSSIISKLKIKDINLGNYSLVAYGKGMELPAFTYQRAKINLEGKIIKTIPIYELLFLEDAYADEKNLLIFLNDVSESKEVLDNLWSLGINADIFTCQKLKEKGNTKITEFEGELCETNLSLSILNNIAKSLNSPRSKRILEELDFSDLKDWIEKKSSEVDLNLPEIIISPVLLPSKYYIEENLGKIVKTYYDTNFSNSTLIYTGIDTLVMRRISFELKKNNYNVKELLLDTEPLMAPIYLTIISYILKNKIK;locus_tag=LOCUS_12590;note=WP_052846347.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:37.7%25%2C q_cov:89.6%25%2C s_cov:88.3%25%2C Eval:1.8e-42],MGA_1260
sequence1	MetaGeneAnnotator	CDS	1156666	1157514	.	+	0	ID=MGA_1261;product=hexaprenyl pyrophosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978463.1;translation=MDLLEFWTKSKETIDDLVGKFMNDLKDWEVLEMSKYIMRDGKRFRGTLLFLLNNALGGDEKDAYPGALATEILHSASLALDDIVDYDDYRRGKKAAWAIYTNRRVIFVSNFLIPTALNIISQYGDRALNISIELWKDTAVGALKDMYGESKDYFKTIELKTASLFKLPTMLASFSSGKSNAVDLTMDLGKYLGIIYQLVDDYVDCVKLEREKLVGSAKQLFQITEGRVDSLVAVEFDRNKSEYLKILDSLPIEENYKDSLSSLPDFLAYGLLSEAGIKNKMF;locus_tag=LOCUS_12600;gene=gdS-2;EC_number=2.5.1.82;note=WP_010978463.1 hexaprenyl pyrophosphate synthase (Sulfurisphaera tokodaii) [pid:60.4%25%2C q_cov:98.2%25%2C s_cov:98.9%25%2C Eval:5.2e-94],MGA_1261
sequence1	MetaGeneAnnotator	CDS	1157766	1158425	.	+	0	ID=MGA_1262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRVDVLEEMEKSGINIINKPSSMLLARDKFESLIKLRKHGIPVPETAIVEDPFEAMRLTQEWGEVVIKPVVGSLGLGSVKASDPDIVFRIAKSILSVNQPVYIQKYVKKPDRDIRSFVVGDKVIGTVYRISQGSWKTNVAQGAITQVLAPSKEIIEMSIKATQILGLDYSGIDIVEDIDGGYKILEVNGAPLWKGFMSATSINPAKYIVDHVIEKAKK;locus_tag=LOCUS_12610;note=WP_198429779.1 RimK family alpha-L-glutamate ligase (Sulfurisphaera tokodaii) [pid:66.2%25%2C q_cov:100.0%25%2C s_cov:74.5%25%2C Eval:1.1e-84%2C partial hit],MGA_1262
sequence1	MetaGeneAnnotator	CDS	1158474	1158938	.	-	0	ID=MGA_1263;product=Lrp/AsnC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978465.1;translation=MDFYYLDDVDKKILSILQQDSRISYSKLAKMLNLSESTIHMRLKRLRESGVIKNFSIEVNLEKVGLNVLAFVLIKADPKRYEEILKEIYDMKEIYEIYDVTGEYYALLKVRVSSKEELAKVLDKLGNMPGITSTYTMFVLRTIKEKRMFDEDEK;locus_tag=LOCUS_12620;note=WP_010978465.1 Lrp/AsnC family transcriptional regulator (Sulfurisphaera tokodaii) [pid:72.8%25%2C q_cov:95.5%25%2C s_cov:97.4%25%2C Eval:1.7e-59],MGA_1263
sequence1	MetaGeneAnnotator	CDS	1158938	1159927	.	-	0	ID=MGA_1264;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978466.1;translation=MKLAIVGGGPAGISLALFLKGTRIDATVYEGLGSLGLKPCAWGVLSDIEKIIHVPKESIISEIKGFKIYLDNKLLYDIRKKEKLGYIINKPLFLKILSENIDLRLNSKVVSKEGKILINGKEEYADKVIFANGHYSLPSETTIPAIQYITDYNIDPEIVEMYFYSDLLGYGWVFPEEGGSKIGIGGYAKVDFLKEKLNSLVKGKIKRFQGARVNDYGVLEERLNGEYVGEALGTVYAVTGEGIRPSIISSKILADSLLENKDFKEEFKKSRLYSSLKTHSSVIKSAKKSNSIKGLERVLLKADPDLVIKFAMGDFTKIDLLKLFGRMIF;locus_tag=LOCUS_12630;note=WP_010978466.1 NAD(P)/FAD-dependent oxidoreductase (Sulfurisphaera) [pid:60.9%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:2.4e-120],MGA_1264
sequence1	MetaGeneAnnotator	CDS	1159935	1160435	.	-	0	ID=MGA_1265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846348.1;translation=MKQSETAGISILLILLPTIPAFLHSFYGYLGASIVGLAIVIYLFAQYRPWENSNNAIIALYFTGIFAFGLAMAVFLTLPLKPRAYAGVALVESIPFFVSFYFVARLFLGKFFQKNVLKFANGYVAFLIVVIIGAIVGRFFHNFYELIIIYSGFVALGIIAYLYFKE;locus_tag=LOCUS_12640;note=WP_052846348.1 hypothetical protein (Sulfurisphaera) [pid:45.8%25%2C q_cov:93.4%25%2C s_cov:93.4%25%2C Eval:1.5e-38],MGA_1265
sequence1	MetaGeneAnnotator	CDS	1160493	1161305	.	+	0	ID=MGA_1266;product=isoaspartyl peptidase/L-asparaginase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979894.1;translation=MKYKQPILLIHGGAGSWETKDANIVNREIEKALDYGYDQFSTGSSIEAVVESISYMEDSGYFDAGKGSYKNAKGEIEMDAGIMHGNNYSVGAVAAVKVKNPIKEALKVMLDGRHVLMTGKVEEVIPSEKAIHYGDTVGAVALDKDGNIVAGTSTGGINGKLPGRIGDSPIPGAGYYATNNVAVSSTGIGEIILKILPAKEVDMLVSMGFPICDVVKSVIDKITSIFGKNNIGMIAIDKRGFATAYYNTRGMPRGIKNPEGKKILMFEGEI;locus_tag=LOCUS_12650;note=WP_010979894.1 isoaspartyl peptidase/L-asparaginase (Sulfurisphaera tokodaii) [pid:67.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-101],MGA_1266
sequence1	MetaGeneAnnotator	CDS	1161305	1161841	.	+	0	ID=MGA_1267;product=phosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846349.1;translation=MKILVMSNIRFPEPHIESTLSTIIKKEEPEAIVLDGDTTQCYWDYECPRVIDVLYVIRSIAPWAQIVYIQGDMDPHAIKCIMAEPRYREEIIGTTMYIADVSSVKYYIIHGHQGDVDQLRKDVGAGPWDWIVTGQYKKLEIDKLARVIYTGGITREFPPESRGYLVITDSNHYIRTLS;locus_tag=LOCUS_12660;note=WP_052846349.1 phosphoesterase (Sulfurisphaera tokodaii) [pid:83.1%25%2C q_cov:99.4%25%2C s_cov:98.9%25%2C Eval:2.2e-89],MGA_1267
sequence1	MetaGeneAnnotator	CDS	1161911	1162291	.	+	0	ID=MGA_1268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978469.1;translation=METDFRPIIVLFSAKNEETTELFRKVLREAKVLGGKKLIIHVIEDVNYWDFFSNSREAILDNLDLGIEIYTWKTTDTENMIKKIEEINNPKGIVTFCSDDYKYMMRKIIDNLPTSLKANIIKDYCK;locus_tag=LOCUS_12670;note=WP_010978469.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:35.2%25%2C q_cov:96.8%25%2C s_cov:96.0%25%2C Eval:3.4e-22],MGA_1268
sequence1	MetaGeneAnnotator	CDS	1162330	1163688	.	+	0	ID=MGA_1269;product=digeranylgeranylglycerophospholipid reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846351.1;translation=MKELNYDILIIGGGFGGATTAWHLANKGLKILLIDSKPWNRIGDKPCGDAVSKEHFDNLGMPYPEGEQLEQKIEGIKIYSPDNETSWKVEGEGFEINAPAYTQRLLKEAQNRGVEVLDLTTAMKPIFEDGYVKGAVLFDRRSNQQLEVRTKLVIEATGYSMSFRSKLPKELPITEELDEKDSDIAYREVGFTKDDIEDAGYLKIFINQKASPGGYWWYFPKGKNKVNVGLGIQGGMGYPSIYTFYQKFLNDYAPDLEKEKLIVKGGALVPTRRPLPTLAWNGIIVVGDSAYTANPVHGGGKGSAMISGFCAAKSALNAFETGDFSANSLWGTNLCYIERYGAKQASLELFRRFLQKLSDDEINYGMKRRVIREEDLLETSLKGDFQLSVVNKAMRVISALGKPSLLFKLKTVAEYMKKIKEIYNEYPSSPEDLNKWKARVNDTLLNFDQAIK;locus_tag=LOCUS_12680;note=WP_052846351.1 digeranylgeranylglycerophospholipid reductase (Sulfurisphaera tokodaii) [pid:71.2%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:2.6e-198],MGA_1269
sequence1	MetaGeneAnnotator	CDS	1163662	1165176	.	-	0	ID=MGA_1270;product=DUF2070 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978471.1;translation=MDGIESALILFRGLEIGLAFIYSFISYGIILFVIFRSKIKTGLTIFSFSSIIYLIFSLFPEFYLYSYGIFLPFLDYSLLIDYKALYSSLISFGASIIPVIISVPNDIRVFLYIFLVALITYLYIYSIDRKGTKLLGISSLTVVRPFLRAINYKREDELEKFLDKLSIPYYVNIYTLKISDRLLILPQIHYGLYGSVGSSKLPYIIEEKMKNVVVFHGPGSHDIDLPSRSYSNIIASYIKAETDKGMEPNSFYGIEFNDRGSFKLTTLVFDKSSLTFVERPGKGIDDMPTSLWKDMVENNNFLIDCHNENLKEEFSREEISTIREFIREKKTGFKKPLYFGYAEGTLSEKCEGICCNKVKVMAIGDGEKKILIIYVFGNNASVELGEQLKDKLKDLADRVILVTPDDHTCTGTSLYSLYVPSQPCVNLINISRELGIKAIENMKEVKSEQKIMKIRTKVIGKIISSMVEGLEKVGSYTLRTFWIPIISPYLLLLIFILFYSLIKI;locus_tag=LOCUS_12690;note=WP_010978471.1 DUF2070 family protein (Sulfurisphaera tokodaii) [pid:40.5%25%2C q_cov:94.8%25%2C s_cov:90.2%25%2C Eval:8.5e-97],MGA_1270
sequence1	MetaGeneAnnotator	CDS	1165281	1165571	.	+	0	ID=MGA_1271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978472.1;translation=MIELDKEYLGVKKIIYNKLDECDLYVLENDNETFLLFFFNGKIPYFKIMPIFSGRWECEEAIYNPVGLYGFIIDNEDVNAKIKQKLEELKENVKKL;locus_tag=LOCUS_12700;note=WP_010978472.1 hypothetical protein (Sulfurisphaera) [pid:30.4%25%2C q_cov:82.3%25%2C s_cov:84.0%25%2C Eval:9.7e-09],MGA_1271
sequence1	MetaGeneAnnotator	CDS	1165555	1166346	.	+	0	ID=MGA_1272;product=HAD-IIA family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978473.1;translation=MLRNYDLIISDVDGVIIREGEPIWENIEALRFLQELGKKVIFVTNNSGFSRVVLSRQLNYLGLSANPSQIITSGLAAAIYMRRKMKINSVFIIGEEGLIEEMKNFNFKVISMSEVDINNPDAVVLGLDRLSTYDKLSAGMRCVARGSKFIVTNMDRLWPSKDGLKLGAGALASVIIYALKREPDFIAGKPNKWIIDVAMEISGIRDLKKVVVIGDQIDTDVRMGFNIGADTVLVLTGISTKDDVEKSEIKPKYIVNNLSEIAN;locus_tag=LOCUS_12710;note=WP_010978473.1 HAD-IIA family hydrolase (Sulfurisphaera tokodaii) [pid:68.2%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:3.4e-105],MGA_1272
sequence1	MetaGeneAnnotator	CDS	1166378	1168075	.	+	0	ID=MGA_1273;product=succinate dehydrogenase flavoprotein subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978474.1;translation=MDKTSYDAIVVGGGLAGLMAAHEIAVSGYKVAVISKVFPTRSHSSSAEGGIAAYIQGNSDPNDDPQYMTYDTVKGGDYLVDQDAAELLSMKSGEIVRIMESWGTLFNRQPDGRVAVRYFGGQTYPRTRFVGDKTGMALLHALFQRVSGLNIDFYNEWFALDLIRNDKKIVGLVAMEMKSMEPTFFKTKAVVMATGGMGMLYAHSTNAYINTGDGYGMALRAGAALKDPEFVQFHPTALYPSDILISEAARGEGAILKNNKGERFMTKYAPKKLDLAPRDIVSRSIITEVKEGRGFPGGYVGLDLTHLGEEYIKERLALAYEAALNFAGVDATKEPIPVRPAQHYYMGGIDVDITGTNYDLIGLFAAGEAACVSVHGANRLGSNSLLETLVFGRETGKTVVKFLSSANESSESLDKEAEKIVDEAYSFTKSESGVHFGVVLNKLRETMWENIGIFRDENGMKTGLSEIIKLREMAKNMYVTDKSKTYNTEFFNALELRNMLDLALVIANAAINRTESRGAHYRTDYPERDDKNWLKHTIAYLRGNTVEIGYKPVKITKWQPEARVY;locus_tag=LOCUS_12720;note=WP_010978474.1 succinate dehydrogenase flavoprotein subunit (Sulfurisphaera tokodaii) [pid:79.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-271],MGA_1273
sequence1	MetaGeneAnnotator	CDS	1168077	1169024	.	+	0	ID=MGA_1274;product=succinate dehydrogenase/fumarate reductase iron-sulfur subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978475.1;translation=MSEKEQEIVVKIKRFSQDKGNYWQEYKVNVDRFTQMTEVLRRIKTEQDPSLSYRASCHMAVCGSCGMKINGEPRLACKTLALDIVKKYNSNVITLEPMDYFQPIKDLVVDLDDFYDRMFKVKPRLYPDKEVLEGKAEQRLKPEDQRELWKFEQCIWCGLCVSGCPSVRNDPEFLGPAAHAKGYRFLADPRDTIYEERLKILIDSSWRCTYCYQCFNVCPRDVEPVTTIKKTRAHTRFLKDRSAVAEIGEKHIEAIEESIKDSGMIKEAEVYLKTYGVIASLTDLIYAFQNGKLKYAFVKEMKVKNMDQIRKIMGD;locus_tag=LOCUS_12730;note=WP_010978475.1 succinate dehydrogenase/fumarate reductase iron-sulfur subunit (Sulfurisphaera tokodaii) [pid:73.5%25%2C q_cov:99.4%25%2C s_cov:97.8%25%2C Eval:1.7e-144],MGA_1274
sequence1	MetaGeneAnnotator	CDS	1169026	1169898	.	+	0	ID=MGA_1275;product=CoB--CoM heterodisulfide reductase iron-sulfur subunit B family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978476.1;translation=MKVAYYPGCATHGLSKDVDIATKKVADVLGLELVEVEDWNCCGGGFLDERDEKVHTALNLRNLSNVEKMGLEKMVTPCSVCLQSHRLASTKYKENRDLRKEVDKKLKEANINYSGKATAEHIVWILVRDVGLEKIKSNVKKPLTGLKVGAYYGCQMLRPEQVMGFEPSFHPHSMEDLISVTGATPVSFPMQTACCGFPLMGSNPKIGLKLAYNVMNSAKSKEADIMVHPCSLCHLQLDVTQLKVKAEFNLPWTMPAIYITQLLGLSFGFSAEELGISKIAQQILKEKGVI;locus_tag=LOCUS_12740;note=WP_010978476.1 CoB--CoM heterodisulfide reductase iron-sulfur subunit B family protein (Sulfurisphaera tokodaii) [pid:72.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-129],MGA_1275
sequence1	MetaGeneAnnotator	CDS	1169908	1170252	.	+	0	ID=MGA_1276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978477.1;translation=MIEDEIVESLKKAGAEVGNWYDVSERPGKKPFGKEIEYKIDEIMWGKVHLRIEGDVYIHIISKIPFNWKERVKDLKISGEIEDSAGGLLWIKEDPKNIEKDMNIIKQYLLSIKK;locus_tag=LOCUS_12750;note=WP_010978477.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:59.3%25%2C q_cov:98.2%25%2C s_cov:97.4%25%2C Eval:1.9e-36],MGA_1276
sequence1	MetaGeneAnnotator	CDS	1170345	1171703	.	-	0	ID=MGA_1277;product=VWA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978478.1;translation=MSGLLIGIDYEDPIVKYRGDRISYTLRKISGKESNIDSMFLIDTYYVHYLPLPLLKPKSDVNQEDNIKYSLLDMTLSSEVVMRNRNYSVANSAVSMALSVSYIQNLIEELERIRRTSQSPEEREAAEQILNGLMKGSMGKEGGEKQQQTQQNQQSMQKLMKQAHEKALSKASEDANAVRSMQRIVGGNGAGTGSVLNFEGEIHEVLRLARNTEIKKILEFLSGIPKLGSLTKKKTTRYAKGELFGYEEGTDLERLVPSELAMPEELFYVRLAEGQLLLYQKQIKETLGPIYLLLDKSGSMDGEKILWAKAVALALYSRAKRENRDFYLRFFDNIPYPLIKVIKSAKSKDVIKMIEYIGKIRGGGGTDISRSVISACEDVKEGHVKGVSELIILTDGEDKIAETTVRRSLKEANATLISVMIRGDNADLRRISDNYFVVYKLDQNDLLKVVEA;locus_tag=LOCUS_12760;note=WP_010978478.1 VWA domain-containing protein (Sulfurisphaera tokodaii) [pid:75.8%25%2C q_cov:99.6%25%2C s_cov:98.9%25%2C Eval:3.4e-195],MGA_1277
sequence1	MetaGeneAnnotator	CDS	1171700	1172857	.	-	0	ID=MGA_1278;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846352.1;translation=MGEVVDNRLIELPKKFLDSLSAPFVGREEEAKVITLALLTKEHVVLIGEPGTAKSALARRAAELLNAKFFMYLLTKYTEPAELFGALDINSLKQGIYKRITKERLPESELAFLDEIFNANSAILNALLSLLNERVIYDGYNVINVPLRTLISASNRVPDEPELEALYDRLLLRHYARPIGEDMWKNLIDASWDLEFTDKWKVSSPIMSIQDLDNLYEYLSEVDLTPIKGKLLKLYAMLEEKGIHLSDRRKGKVLKIVAAHSILNSRTKATEEDLIVLKYIAPKEIDDFEKVSALLSEELKTPIKYMRELNEIYNNIKEASKYVDAATESDPRLIDLIRTLRATRDRVIALGKESGEEKVEEFSKEVGVEIDKLLEKVAKKLGIYT;locus_tag=LOCUS_12770;note=WP_052846352.1 AAA family ATPase (Sulfurisphaera tokodaii) [pid:81.3%25%2C q_cov:98.7%25%2C s_cov:98.2%25%2C Eval:2.5e-175],MGA_1278
sequence1	MetaGeneAnnotator	CDS	1173115	1173570	.	+	0	ID=MGA_1279;product=OB-fold nucleic acid binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978480.1;translation=MDEKIGNLKGGMENVNVTARVLQVGDQKTVQTRNGPRTLRELIVGDETGRVKLTLWGTQNEDVKEGQVIKIENGWTTVFKGQVQLNAGSRSKISEGEDSIPEESEIPETMPTDNSFQPRRGGFRGRGGGGGGRRFNRGGYRRQPRQEEEEE;locus_tag=LOCUS_12780;note=WP_010978480.1 OB-fold nucleic acid binding domain-containing protein (Sulfurisphaera) [pid:54.7%25%2C q_cov:76.8%25%2C s_cov:80.7%25%2C Eval:1.1e-31],MGA_1279
sequence1	MetaGeneAnnotator	CDS	1173567	1173884	.	+	0	ID=MGA_1280;product=PqqD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978481.1;translation=MTDEFKGDEKKTMSYDDIKDKKPMKKGEVVDKAENGENYIIKLEEDKVYEVAPIAFYVWNMCDGEKTVTEILDEISKEANLETSQIRDPIVTVLEQLQEAALISL;locus_tag=LOCUS_12790;note=WP_010978481.1 PqqD family protein (Sulfurisphaera) [pid:59.1%25%2C q_cov:88.6%25%2C s_cov:100.0%25%2C Eval:1.0e-29],MGA_1280
sequence1	MetaGeneAnnotator	CDS	1173914	1175527	.	+	0	ID=MGA_1281;product=molybdopterin molybdotransferase MoeA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978482.1;translation=MRAILPEDNLLFAEEAFRKFTSEVSPKLCINEIPILDSLNKVSGEVVYSPIDLPPFSRSTVDGYAIKYENTPGKFTIIGKINIGEYKEIEIKENEAVEVDTGAMLPEGANAVIKIEDTKREDNIVFIDKKLRFGQNIAWIGSDIPKDFEILRKGERISPEKIATLASVGINKVKVYSPKVYVITTGDELVEPGEKLDKGKIYESNLYYLLTRLRDYIIVGSSLVRDRKEDIEKEIEKALDLADVLIITGGTSAGEKDYVHQIIREKGKIVVHGIKFKPGKPTILGQIKGKPVFGLPGNIVSTIMVYEQLIKKYLDLMSNSEHEENKKIRAKALITVEADKKRFTYIPIYILRSNKDTYFLPIPFDSYMIGTFSSADGYIALNPGDRIEEDQEAEIIIKNIDERPTLLGEEDLKMKNINVRKITLGSYPACKALEKGVGDILVISSLMCTPDNYDFKFDREILTNGKGPEIGYNDWIGISKIIKNPTVKLKSPSTVEHFLGKAKVYAPEGYIKGDKFYTERLYIVTLNNSRKFLQGIF;locus_tag=LOCUS_12800;note=WP_010978482.1 molybdopterin molybdotransferase MoeA (Sulfurisphaera tokodaii) [pid:57.3%25%2C q_cov:97.6%25%2C s_cov:97.6%25%2C Eval:4.0e-169],MGA_1281
sequence1	MetaGeneAnnotator	CDS	1175576	1176505	.	+	0	ID=MGA_1282;product=homoserine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978483.1;translation=MSITATAYSSSANLGSGFDVLSMAHKAFKDKVKATLISEGRNLKISVSSKNTPENVEKNSAGFAVKRMLEILGINAEISLEVIKGIPYGLGLGSSGASASAAIAAVNELLDLDLSLNEQVEFAKIGEIASSGSPHPDNVAASTFGGIVAVTSVSPTKVIRVPSNLNFKILLIVPQKTQEGKTKKAREMLPKEIEIERYVYNSRHLSSLLIGLSSGDRELVREGLNDEIFEVSRLPLFPYYPKIKENAIEKNAIGVCVSGAGPSILVLYDNKTDLEGIISSSKEICTKNDINCDFIQTELAGGVEIERGN;locus_tag=LOCUS_12810;EC_number=2.7.1.39;note=WP_010978483.1 homoserine kinase (Sulfurisphaera tokodaii) [pid:47.8%25%2C q_cov:97.4%25%2C s_cov:98.0%25%2C Eval:4.4e-73],MGA_1282
sequence1	MetaGeneAnnotator	CDS	1176489	1177613	.	+	0	ID=MGA_1283;product=aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846353.1;translation=MKEGTKVVREDFEDSTGAINTPIYQSTAFRFPEGEKYRYSREANPTTLELSKKIAEIEGGEIGVSFSSGMGAISTTLLTLLKPGSSLLVTMDMFGRSLRFCNDFLRQWGVEVEVTKPGNTNLLESSKIHHDVIFVESITNPLLRVIDIEALSKIAKENGSLVIVDSTFASPINQKPIELGADIALESASKFLAGHNDVIAGVAAGPSSIITKIDLMRRTLGTSLEPQPAYLVLRGLKTLKIRMDVINKNAMQIAEFLEDHPKVQKVYYPGLKSHPDYSIAKRVLKGFGGVVSFEVRGTMNDAIRVMQNLKVIIPAQSLGGVNSLISHPPTMSHRTLTPEERKIVGINESLLRLSVGIEEVEDLTDDLDKALNSI;locus_tag=LOCUS_12820;note=WP_052846353.1 aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme (Sulfurisphaera tokodaii) [pid:65.9%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:3.7e-144],MGA_1283
sequence1	MetaGeneAnnotator	CDS	1177792	1178388	.	+	0	ID=MGA_1284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846172.1;translation=MFVEYKIHSTISNEVICNVILENVSKTFPNGTFAYTIQVFFMNYSKYTQPSIVYDNLTNPQTFFYIPKNELGKSAIDRQIPLTLVNESNGTYVYFGKQFVDYVEIEDYYFVNSTGVPSKIEIIQIGENGGIVSVTTYTLIRTNIFQNETPFMPKGFSLENSSLKLPNQSLSDSLGTYVILFNIIVIPLLLTLYKVRKK;locus_tag=LOCUS_12830;note=WP_052846172.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:37.4%25%2C q_cov:97.5%25%2C s_cov:88.9%25%2C Eval:1.2e-25],MGA_1284
sequence1	MetaGeneAnnotator	CDS	1178385	1180649	.	+	0	ID=MGA_1285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978078.1;translation=MKYNIIEILFVLALTVITPIVALHYLIFHVGFIYNRDSYPAFYQNGPQTALSLLTFPQVIDNSYIPIVILLYFKIISPMVADWVSYLIFPFAISIPSMYWASRHFLKKFEKLDFWRTLSISMIIAFLYAVTPTAFYFSHWSNYAGFYALLPALIAGVDYSIDKKSPIALAFFSSLTTTDPRGFVFTLFIVITMLIFRKNAKIFLISIPFYILINIRLFLYLFINFHQYSTISFSISQEQLWLNYLNYPLLDSMRGLGLFRPLVPFYSGNKELDFIFSFSMIETGILGYIFINNKKKNIATYLLIIYLILVLVISSYFPFFGNSIQLNVLYPLLNYLSNGWAYQYLWIFLPTYLSEMVLAPIFLLSALVLAKLSKNKLLIPLMIFIIVSQLAFSAPTIASGNYFNNYLPQTPPQSLIQVADFLENHGEGNVITLGNVNPDIKNFYGVLPREISLPFNILEYNNTAKILNAFGVQYVVTPQDFNFNQNDFKEVFNNNEFIIYQNEDFNYKINSPIYLYNFPQDVEYLNNSNALPFYLMYSIPPKYLGGIIGNYTQAEYIAFKAYKAGIYPINLKVKHLPSPTNFTNSIPVNVNDINILSNYPGISFITVGSPSSLNIKVKPGFYTVIIEYITTLNGGTFCLSNGSVKLGVSTSSFYNNINFTILGNISTNGNLTLSFRGNYQSYLLGIILVPKNENFNVDSHVDSQNITSLSYSGNGLGRIYGEEDKESLIPIYINVITFLIVIFIVLQNRLHFPF;locus_tag=LOCUS_12840;note=WP_010978078.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:33.8%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:3.5e-108],MGA_1285
sequence1	MetaGeneAnnotator	CDS	1180620	1180934	.	-	0	ID=MGA_1286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846885.1;translation=MDSGISITAEKLIDYTAKKASFITVKNDELEKIVGISSKQMAEKVVDRVAFWLSEKQNGLLYCKLCNRGPFTKKGLFLHLTRLHRQEIKTMLEEELKREVKAIL;locus_tag=LOCUS_12850;note=WP_052846885.1 hypothetical protein (Sulfurisphaera) [pid:69.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-36],MGA_1286
sequence1	MetaGeneAnnotator	CDS	1180913	1181434	.	-	0	ID=MGA_1287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978486.1;translation=MSIESNNKVNEEVLGVKVGEAVAHIIAAASIVESIDGEIDDVKETVRRYVDAWISEMVPIKYIPGTAEIIGGKIKRRITEIFDEISEKELGETLEAVSDFKKSLDSGEVTYNYDEIEVRIERVLRSLGIDINVFSGILDVSDITERFSRLISIFTLTVGIASVWDKKWIAESQ;locus_tag=LOCUS_12860;note=WP_010978486.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:54.9%25%2C q_cov:93.6%25%2C s_cov:93.1%25%2C Eval:5.3e-45],MGA_1287
sequence1	MetaGeneAnnotator	CDS	1181814	1182242	.	-	0	ID=MGA_1288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTINRKRRNQKGLSGAVTALILVIASVAIAIVVVGFVFGIFGAVTSTPSVTAAGTGSISEIGNTGQYTLTVVLDSTGSATVVSVSVDGYTTSVSTALSSGNNLISITLPTGFTPTPGQTYTIDLGLNDGQSVAVAAVYTTT;locus_tag=LOCUS_12870;note=MGA_1288
sequence1	MetaGeneAnnotator	CDS	1182701	1183081	.	+	0	ID=MGA_1289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERLYSNPDVFVILYNLLSKTVEGLRVDAVIDGTGYSLIISKHYRTERERSGEEVKEWKDFMYSFFIFGLGSNLIVDGYSLKSEREAYEMTLKILRELGVQVDSLSADKYYGKSTLDDFPDWGYQL;locus_tag=LOCUS_12880;note=WP_010879711.1 ISNCY-like element ISA1214-6 family transposase (Archaeoglobus fulgidus) [pid:44.7%25%2C q_cov:88.1%25%2C s_cov:33.8%25%2C Eval:3.0e-18%2C partial hit],frameshifted%2C insertion/deletion at around 1182672,MGA_1289
sequence1	MetaGeneAnnotator	CDS	1183110	1183568	.	-	0	ID=MGA_1290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRNIMRVLPDKEKEELMIRVRDLKSSRNVEEGRKAISSLSQLVQPFSPARAKRLLDAADKYCAFLNFPREVRHYFYTNNTSESFNSILARFEEELGGYFPSLRSLEVYLYVSIQESNSRWKFRPMLVIRHHSYHLKQLHASRFQVSLDEDF;locus_tag=LOCUS_12890;note=MGA_1290
sequence1	MetaGeneAnnotator	CDS	1183590	1183928	.	-	0	ID=MGA_1291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRVAERISNKLKEFKNRELPHDLLALYVDVKFVKVRINESIMERAVYIAIGVDLEGNKFVLDYEVRDRKDLDGWKSFLGGLVSKGVSRVDVIVRDDFSGLNRVVSTLFPSP;locus_tag=LOCUS_12900;note=WP_201276079.1 IS256-like element ISEf1 family transposase (Parvimonas parva) [pid:24.5%25%2C q_cov:98.2%25%2C s_cov:31.2%25%2C Eval:3.4e-09%2C partial hit],internal stop codon at [1183589:1183591](-),frameshifted%2C insertion/deletion at around 1183933,MGA_1291
sequence1	MetaGeneAnnotator	CDS	1183835	1184287	.	-	0	ID=MGA_1292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVMEKIREKAVKEGVSLREIEEIILQEAMMEEREAYLEVEDNDKNGTYFRYLGTGNGVLRLRVSRTRKGGFRPKILPEKYERTSPDYEEFLQQLVLSGMPAGQVKAVLAAKGIPYSEIVWIGLPREYPINSRNSRTANYLTISWPFTSM;locus_tag=LOCUS_12910;note=MGA_1292
sequence1	MetaGeneAnnotator	CDS	1184392	1184640	.	+	0	ID=MGA_1293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPKSNATIKGGKRWRETVLRFMRNPLDYLEEYFKREKAESLISSIKRRTGWIINKVREERIHLTVLARVMIHDLLWSKALD;locus_tag=LOCUS_12920;note=MGA_1293
sequence1	MetaGeneAnnotator	CDS	1184741	1185136	.	+	0	ID=MGA_1294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDKRALYTGITAFLLIVASVLITLIVLSFAYSVLGGYNSVYPIVKQSGPGELKNNYLYVYLTSSRNITIISISVNGYTSSISVPLSEGSQLVKIPLPKGFYYTNGTYYSINLGLSDGESVVVSASCLSS;locus_tag=LOCUS_12930;note=MGA_1294
sequence1	MetaGeneAnnotator	CDS	1185119	1185814	.	-	0	ID=MGA_1295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRILGLFLIFMFIILFFNVFNVNSLSYSIKPDSFLIYNETSYIYYPKYFVQKIIIIQEIEKVFDNGSMLVNSTIIALSENTTLPSTLCIQNESSYGAFFYVNPSLLGKNISYGKGFLIFNETKNGLFQYYVTSYIEGVENDFILYFNSSGVVVKSIDYQTNGNIISKSVDILWKDNIFSNTTLPIFHVGHKKPISIKPGAGLNENLGYKLIKIFAITALLLVLVILLTRKT;locus_tag=LOCUS_12940;note=MGA_1295
sequence1	MetaGeneAnnotator	CDS	1186003	1186596	.	-	0	ID=MGA_1296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEDLSQIMENLPTINEIIKQLNQLKESGTLDTLVNLSFFLKSLKDMVNDESIKNIGEEISSIALVVDKINEKKEDVTEVIDKSEELNYLMQKIEEMRKSGALDTLVNLTYALKSLKDMLTDDMIVNLGATLSLLLDFLPKATEFLNNISPVLEGFSTAMKNPQSVTLGSLISAFRDPEFQKGMGIIVSLVKTLGKS;locus_tag=LOCUS_12950;note=WP_010978598.1 DUF1641 domain-containing protein (Sulfurisphaera tokodaii) [pid:36.6%25%2C q_cov:99.0%25%2C s_cov:55.0%25%2C Eval:1.8e-37%2C partial hit],MGA_1296
sequence1	MetaGeneAnnotator	CDS	1186593	1187723	.	-	0	ID=MGA_1297;product=FAD/NAD(P)-binding oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978596.1;translation=MKRIVIAGGGISGTIVANRLARSLSEEIDKGEVEIQVIEKSDKHVYQPGQLLMSIGLSDSSELVREERQLLDRRIKFVNKEIEKIDVQNHLVKAGKDYPYDYLVIATGSHLQWDEIPGYRSVYSPWDFDSAIKLRETLESFTGGNIVINVAKLPHKCPVAPMEITLMLDDYLRKRGLREKTNIIYTYPVPGIFGIKTTNDVMIKIFEERGIQIISPFNVKEVHENVIESQEGDKVKFDLAIGVPPHTGAKVIGDSELGDRRNWVPTDKFTLRMKDHSDVYVIGDTTDLPISKAGSTADFESYVVAGNIENEIRGTKSKKMFDGSVFCYIATGLNSGTYIRFNYSSPPIPPPPSYVHWWGKLMYNKLYWTVTAKAIV;locus_tag=LOCUS_12960;note=WP_010978596.1 FAD/NAD(P)-binding oxidoreductase (Sulfurisphaera) [pid:64.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-145],MGA_1297
sequence1	MetaGeneAnnotator	CDS	1188361	1188597	.	-	0	ID=MGA_1298;product=sulfurtransferase TusA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846902.1;translation=MTQLKIYKTIDLTGNTCSGPLGELSGVMDEVKEGEAVEAIISPENLEVVKSFCSLRDWKIVEEKNNGKNYILLITLAK;locus_tag=LOCUS_12970;note=WP_052846902.1 sulfurtransferase TusA family protein (Sulfurisphaera tokodaii) [pid:51.3%25%2C q_cov:96.2%25%2C s_cov:98.7%25%2C Eval:5.7e-17],MGA_1298
sequence1	MetaGeneAnnotator	CDS	1188917	1189636	.	+	0	ID=MGA_1299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIGITLDSTEILRKCIAILGIRGSGKSNTAKVLSEELNKEGIPLVIIDPDGEYSIDADVIDNFSLDESIPTERVLKEGKSVILDMNDWSEESFKFLLRFLNSLWLNSKIYKRNFFILLEEAHEFIQQGERNQLSDTIVRIALRGRKRGIGMIIVSQRSAKVNKDVLTQSEIYFLHKVVHPVDLKVYKEIIPWKSKDVENEVKKLETGEALFYFNGEVKKIRIRKFEEKINGEGQEVLI;locus_tag=LOCUS_12980;note=WP_011056105.1 DUF87 domain-containing protein (Thermosynechococcus vestitus) [pid:29.3%25%2C q_cov:62.8%25%2C s_cov:28.9%25%2C Eval:3.8e-12%2C partial hit],MGA_1299
sequence1	MetaGeneAnnotator	CDS	1190182	1191180	.	-	0	ID=MGA_1300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNILLLIIIITVILMSLIASSLYFISTTFTISASSIQKEALSLTEGFTSTVSPITYKVNLGKTISQSNYTVNFLFIPSISNYNGNIYIVPFIASPQLNYYYYIPSNNAEIHLSFPSVSINKIEFPQGGGLLVNVNAYKIDNGNTINITATVKNNEIIYFWIIVNISGILYRIATPYVNPWDYGLGVYVATTSGSYTVSSFSNSAVTPHSKLGDSFGFWFEEIGTGNIILSNYTYEAANKVNLSIVIYLINSHINTTIYENGIYKRSFTVAISKNSWYYFDARYNSRKWLFSSINSSTQLTFNLNSKEAPNSKSPLYLTLLEGDGNVATMS;locus_tag=LOCUS_12990;note=MGA_1300
sequence1	MetaGeneAnnotator	CDS	1191212	1191661	.	-	0	ID=MGA_1301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979082.1;translation=MRALSDFLAFIIILLIIVGAVIPLFLYLNSIYPQSSNIDYSKLISNEVNGGTVLIYYNASPTKPEIEILKPNSNYTLISVFIQTSVYVNISKNIYGNSKALPLPLIYNFTMPNTIGKMPIYEMPILLEIRAFNTTNFIYMLPNETGIAS;locus_tag=LOCUS_13000;note=WP_010979082.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:32.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.0e-16],MGA_1301
sequence1	MetaGeneAnnotator	CDS	1191668	1194712	.	-	0	ID=MGA_1302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAQAVVIFAIIMLFLIIAVIVPFFMIMNSTPSSSQQGKSAYDPSIQLQGYQVNEVLKGNPFIYYNSSSLPYIRFYYYSTIIPFNITSIMYFHGTWSAATGNIIVSGNYNLYLPKYVQNYPILIITSLGNIFLLNPNTSVIMSSVISGIAKPDVAFIGIAINGSKTFAVSINIDISGKTQITPVICEMKSGTYILSTPNSTIFLPQYSLTGKFENWTTIGRVSVSDTESKSTELTVFGTGLVTIVYLMNTQKYPVTISQEGIILENNYGNSPSISSLNASIPISIDNITYSLEQKITVNLTYGYHIIVFPSPVNITYNYTLYGYTVKDGEIDEYKINSYNSNYMISKSNNEFIIYVNSSGYLNINYGIQERYYLVEFKNNFQLIQPYSFFQHNYAIFIHNTSPVYGDIAGQLLQLCINGKNETFGPINSYQLEKVYLAQGSYNVTYNYLFQLNGNFTIEYYNWLDWPVSSNQTYQLIISYPIGVDYGFENPDNILGNGTGNYTALTVNSPLIVVDNQCWKYGVSSNPTGSLPSSILSNSFNSLYSLVIFPFYLIRKNKGQTNAIAFFMLLIIVIAIGVPLLLYESTFHQNSIVQNTITNNYVTIKNDEYKSVTLGHPSIYYNYNGSIDFLYVNSTVSFPINLEIRQIDYFTNGIWRNLTTFANGSSIDYPITVTQNSEFSIPKSVSGDPIVIISEYGNMFYLVLNSSIGPMPLQSTKGGVIILSQIQGNKGIYTTRVNITTNIDTKKENFTTPVTFTNDTGSFFVDAPEYAYAINASGFPYTGYFHNWIVLGNAKVNSTKSSDIEVTLEGSGVSLIANYTLINAKINLTLYTNATRPIYIGIDGHKYQINGEQIISVTAGYVNLTELTPAYNITKSTEICTYGFDGWEYGKTYTILPSILLFIPPNSTPASISIYYEHLYNYYTISISNNISYNPVLTLNSTTYSSGSYWIKEGMYNILAFGYVGIVKATIFDYWGHSTNIYFQNYTLGSTIVYIDGPGSIEAYWSFGYIQQLP;locus_tag=LOCUS_13010;note=WP_010979084.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:39.4%25%2C q_cov:51.3%25%2C s_cov:97.7%25%2C Eval:1.3e-89%2C partial hit],MGA_1302
sequence1	MetaGeneAnnotator	CDS	1194709	1195266	.	-	0	ID=MGA_1303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979085.1;translation=MAFGVGEIIILAVTVIIGLVIFSFVSAFLVPQLSFTNAEQTAKNMGSDISVTAGPLFLENGKGSSIFYIYSPQYSGNFTVIAFAVPTSDIASIGTITPSYSVSTLNVFLTNGKIPLSKTFSTIYSTSGEILSTNQVGYEVPSNEAFSVTSVTGLINSSDIIVVWIIYQSGNYYFRIYYTYSGVSQ;locus_tag=LOCUS_13020;note=WP_010979085.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:40.9%25%2C q_cov:96.8%25%2C s_cov:96.2%25%2C Eval:3.8e-31],MGA_1303
sequence1	MetaGeneAnnotator	CDS	1195425	1195991	.	-	0	ID=MGA_1304;product=acetate uptake transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002209246.1;translation=MTEEKRANPAPLGLSGFALTTLVLSAFNAGLISQGAGAVLGLAAFYGGLAQIVAGIFEFKSGNTFGYTAFFTYGAFWEWFFLSAMGIFGNITSASIGLVLVAFGIFTLVMWIATFKLNLGLFTTFLLLWITFFLLGIGNMENSISLVHAGGYMGILTAIAAWYTGLVAVVAEVWGKKAPLGNPLLKRS;locus_tag=LOCUS_13030;gene=satP;note=WP_002209246.1 acetate uptake transporter (Yersinia pseudotuberculosis complex) [pid:39.2%25%2C q_cov:97.9%25%2C s_cov:92.6%25%2C Eval:1.3e-29],MGA_1304
sequence1	MetaGeneAnnotator	CDS	1196082	1198013	.	+	0	ID=MGA_1305;product=acetate--CoA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762026.1;translation=MSQQENLPFDEEYYQPPYKAVYRESIENAEKFWRKMSEELEWFYPYEKVLDETNAPFYRWFSGGRINISYNALDRNLKSRGNKIAIYWENEKGENIGLTYSQLYNEVNRFAKVLQDLGIKKGDRAVIYLPLMPELPISMLALARLGAIHSIVFSGFSVQALIDRINDAKAKMVITTTHTMRRNKRVELKGIVDQAVEQTPSVENVLVIKRNEEPVMKKKDVLYQDLAKRTGYKKVEVEETSSTDPLFILYTSGTTGKPKGIFHLHGGYGIWTYLTTKWVFDLRDNDVFFNTADIGWITGHSYIVYGPLQAGATVLMYEGVPDYPNPDRWWELVEKYNVTVFYTSPTAIRSLMKYGEDWIKNHDLSTLRILGSVGEPINPEAWRWYYKNIGNSSLPIVDTWWQTETGGIMISATPGLGNYMLKPSANGLPLPGVDADVFTEEGIPTNPREKGYIVIKRPWPGMLAGVWNDPDRYIKTYWSKFQGVYYPGDYAVKDEDGFFFILGRADEVLKIAGHRIGTREIEDILISHPAVAESAVIGIPDPVRGETAVAAVVLKQGYTPSSQLRKELEDYVKKTLGSIVIFGGIYFVSKLPKTRSGKIMRRLVRSVISGQTLGDVSTLEDETSVDELKKVIEEFSKEIKNQS;locus_tag=LOCUS_13040;gene=acs;EC_number=6.2.1.1;note=WP_011762026.1 acetate--CoA ligase (Pyrobaculum islandicum) [pid:56.7%25%2C q_cov:98.9%25%2C s_cov:98.8%25%2C Eval:8.4e-225],MGA_1305
sequence1	MetaGeneAnnotator	CDS	1198184	1198795	.	+	0	ID=MGA_1306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKEVKINLKNANSKVILNEIFDIDNLPKLWKYLQKVEKIDSISYIAEFKVFMRFRFLMKREISEYSVVHSGVMKFPKASFTFSVNVIPLRDESLDMIVRGDYQGPLERLAGSPMQSFLNNFVEKFSNKIHFQTFENFTTLINEGIEQSKNYDGKIKISVDECEAFFENGKIVEITCGRIKDDDAMKELSSKKIYNAIIDYL;locus_tag=LOCUS_13050;note=WP_156015252.1 hypothetical protein (Sulfurisphaera ohwakuensis) [pid:36.1%25%2C q_cov:86.7%25%2C s_cov:65.8%25%2C Eval:1.6e-23%2C partial hit],MGA_1306
sequence1	MetaGeneAnnotator	CDS	1198966	1199340	.	+	0	ID=MGA_1307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRPLVAVDLNSRIDYLTLYKFMEGLLKKFKVVDTVFIMDDKSIVEIDENKVFRVSDSYSFVEVVRNLKELSEKKGTLDLKSLIMLQKELGRSLVVLVSNRKARSLGNLLIVFDGKKVKTLAGN;locus_tag=LOCUS_13060;note=MGA_1307
sequence1	MetaGeneAnnotator	CDS	1199340	1199798	.	+	0	ID=MGA_1308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980464.1;translation=MKFCKENGNYGIEFNGNYVSLISGKIFFEAIDNCFEIPIEIDERNLFYKELRVPLPYNLKANLARALFILLGEVSNDIFYYRRTKIFIDSKMKDIDLNAERKFSKICGNYGSTVMYYCIGNETFAILSPNKEEGESAFQNFKEFYYFVKSLR;locus_tag=LOCUS_13070;note=WP_010980464.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:38.3%25%2C q_cov:99.3%25%2C s_cov:95.7%25%2C Eval:2.0e-25],MGA_1308
sequence1	MetaGeneAnnotator	CDS	1199790	1200866	.	-	0	ID=MGA_1309;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979702.1;translation=MVTTTLAPLGKYVFGFDNLLAGIIDAVVFLSTFISTSYINPTLQSSSRKKAFISANLIIFVLLGIFYLSNAVIIWIITGIAGIAFGLILPNLITSASLVDDKRTAERLLSLYSTSLSISLIIGPSLESYVLSMFGYKSVFLAFLPLGALAFGLSWYVKFPEVKRETHGMSAIKNKGFISSVLSITTYNVPFAALTAFLTIYAIEKFGVPKDLAYFSYIPFFTISFLTRLSMTIRPFNSLRYPLLISILITLIGLTGMVLSPSFYSFLIFMAILGIPHGSIFPMSTIMIARSTSQIERNAVNSYFLAYNNILFVSIPIIVGALSQIIGLGYAFLVLVIPVVISAVMFFARFWNDKIILS;locus_tag=LOCUS_13080;note=WP_010979702.1 MFS transporter (Sulfurisphaera tokodaii) [pid:53.5%25%2C q_cov:99.2%25%2C s_cov:92.4%25%2C Eval:5.4e-105],MGA_1309
sequence1	MetaGeneAnnotator	CDS	1200814	1200975	.	+	0	ID=MGA_1310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKPKTYFPKGAKVVVTILFVALVAIVINDKTKAIYMKDLLSLIAVDIGNFVT;locus_tag=LOCUS_13090;note=MGA_1310
sequence1	MetaGeneAnnotator	CDS	1201082	1202008	.	-	0	ID=MGA_1311;product=sulfur oxygenase reductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979143.1;translation=MPKPYIAINMADLKNEPKTFEMFSAVGPKVCMVTARHPGFVGFQNHVQIGVLPFGERFGGAKMDMTKESSTVRVLQYTMWKDWKDHEEMHRQNWSYLFRLCYSCASQMVWGPWEPIYEIKYADMPINTEMTDFTAVVGKKFAEGKPLEIPVISQPYGKRVVAFGEHTVIPGKEKQFEDAIIKTLEMFKRAPGFLGAMLLKEIGVSGIGSFQFGSKGFHQLLESPGSLEPDPNNVMYQVPEAKPTPPQYIVHVEWANLDALQFGMGRVLLSPEYREVHDEALDTLIYGPYIRIINPVMEGTFWREYLNE;locus_tag=LOCUS_13100;note=WP_010979143.1 sulfur oxygenase reductase family protein (Sulfurisphaera) [pid:65.6%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:3.7e-128],MGA_1311
sequence1	MetaGeneAnnotator	CDS	1202147	1204339	.	-	0	ID=MGA_1312;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979982.1;translation=MKLDNLFLDAKKGYYRNLAFIQGDDSVSKAIVILKEYLKINPRATIAYAFHPWIEGSKEKLKKFMNVANVNDIDYSSSEKYLGSTFDVVILDCIDDFRPNYIARLSDMARGGGLVLLYSDNIFKNKLYKSSLTRHNIVKDLFEKRFLQKLLQNRGIIYLGDKEIIRPYSSSETSLPKKKGIFKIPKRLYDLCVTDDQAKVIEEFNFIEEEGKRVFTVIAPRGRGKSVAVGFALSNFMIKNIENTINIIVTSPSYYSAKELLEALVRGLKLFKVDIKVLRSKEGKIMSIRVGNVRIRWTAPEIAKDEDGDIIIIDEAASLGIENLDYILRRWEKVVMITTVHGYEGSGKAFLKYINNLEKNVKLQMVKLDYPIRYARGDPVEKLIYDIMLLDVEPEVAESTNNLTEISQETLFSDEQLLRQIYGILVSAHYRNSPDDLMLLGDMAFQKIFTIDPGIAVAQIVEEGGLNDSEIESMLYAEGNEGNLIPHRIIKYQRLKNFGELRGWRIMRIAVIPSLQDKGLGSLLLNKVTEIALNYSLDWVGSSFVSELKVLNFWLRNGFTPVYLASRKNEGLGGYSIIVLKGMSEKGKSITSFLSANLKDKILRTSHQVYFNVSPLVLVKILRSTPSIEYGNISDLYKAKIISYLNGILPYNSVSEAIHALATKYFFENKFDIDDVLLASLFARTFQGKSWYHAGLSLGLKPRQVEENMKSAISQIFSKYYNSFEDFAIF;locus_tag=LOCUS_13110;EC_number=2.3.1.-;note=WP_010979982.1 GNAT family N-acetyltransferase (Sulfurisphaera tokodaii) [pid:49.5%25%2C q_cov:97.8%25%2C s_cov:99.3%25%2C Eval:3.4e-209],MGA_1312
sequence1	MetaGeneAnnotator	CDS	1204326	1205267	.	-	0	ID=MGA_1313;product=glyoxylate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868561.1;translation=MKVLVTKKLPGNWISYLSENVEVALWEENYPPPKEWIIDNIRDKDGILITLTERIDKEIIDSAPKLKVISTYSVGFDHIDVEYAKKRGIIITYTPEVLTEATADLIFGLLIAVSRRIVEGDKLIREGKWEISWYPTFMLGSEVYGKTLGLLGMGRIARAVMRRAKGFDMNIIYNSRAPHDVDAKFVDLNTLFSESDFLVIAVDLNTTTYHIVNEEKLKLMKKSSFLINASRGPVIDENALIKALKEGWIRGAALDVFEHEPLPKDSPLISMNNVVLTPHLGSATIETRDKMAEIAVKNLILALRGEKPIYEVR;locus_tag=LOCUS_13120;gene=gyaR;EC_number=1.1.1.26;note=WP_010868561.1 glyoxylate reductase (Pyrococcus abyssi) [pid:49.5%25%2C q_cov:98.1%25%2C s_cov:93.7%25%2C Eval:6.5e-88],MGA_1313
sequence1	MetaGeneAnnotator	CDS	1205490	1206677	.	+	0	ID=MGA_1314;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980508.1;translation=MKSYIHATISSSLAWAGNIYDLLLMTYVYYYIMRAFSLSYFEVSILFALGLIGRVIGGIIFGKYADSIGRKPVLIIGTGGYAIFQGLMAFSPNVFLLFIFRAIEGIFMGAEWTAGTVIAYEQAPRSLKGFVTGIVQAGYGIGYALTGITYLVFLSMISDWRLFLLMGATPLILLPYVQLKVKESIVKTSKIRINYKGYLSILLKATLGMSGMFITYFAVFGNYPTIATDYAKMPEAILGILMTIANLLLAFSFILFGRLADRVNKKKLILMGLIGLLVSLPLSVPALSQLVNLYIMVLGTLMFSFFTGFWPVMPLLLADAVPLEVRGFLSGFAYNFGGLAGGIANIILGAIESIYGIDALSKAINIIGFTAIVMVFVSIITWPKSGSKAKIILQA;locus_tag=LOCUS_13130;note=WP_010980508.1 MFS transporter (Sulfurisphaera tokodaii) [pid:56.6%25%2C q_cov:98.5%25%2C s_cov:98.7%25%2C Eval:1.1e-120],MGA_1314
sequence1	MetaGeneAnnotator	CDS	1206786	1207178	.	+	0	ID=MGA_1315;product=universal stress protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980447.1;translation=MKIVLAYDGSENSKKAVIFSLRFVKKEDEIHVVTVVKEAPKSPEQKIIESEEKGAKTLEEIKSEMEGFNVKTKVLESTDVSDAIIEYCKEIGCDLIVTGSRGLTGIKKAIMGSVSSSLVNKSPYPVLVVK;locus_tag=LOCUS_13140;note=WP_010980447.1 universal stress protein (Sulfurisphaera tokodaii) [pid:63.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-43],MGA_1315
sequence1	MetaGeneAnnotator	CDS	1207220	1208170	.	+	0	ID=MGA_1316;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763736.1;translation=MSSVIAKNLTKKYGDFTAVDHINFEIEKGEIYGLLGPNGAGKTTTIKMLTGLVPPTEGDAIIAGFSVKEKPIEVKKRIGWISSEVILDDELTAWENLEIQAKLEGVKDWKERGDQLLDYFGIKEFKNRKAGKFSTGMRKKLEVSMALLNSPEIIFMDEPTIGLDVNTRASMWKLIRQINKDYSVTVLLTTHYMEEADMLCSRISIINKGKIIATGTPEYLKEKYGGDVIEIELKKDIEVKLPYTIVKKDGTLRIKVPNAENTLLEIINTIGGNNIKSLKVNKSSLDTVFLTLTGGSIEEEDFDAKKFYAMLRRARR;locus_tag=LOCUS_13150;note=WP_011763736.1 ATP-binding cassette domain-containing protein (Pyrobaculum islandicum) [pid:55.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-100],MGA_1316
sequence1	MetaGeneAnnotator	CDS	1208176	1208943	.	+	0	ID=MGA_1317;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763735.1;translation=MMEKLSALYMREIKRIYRSIYMWIMLISQPIMWLVFFGSSFSGVPKEFLQTFFHTDNYIAFILPGELSVSMLFVGMFSSMSLIQDKRFGYLKRVLITPTPKYNIFLAKALGGATRGILQAPIMIIASLALGVSLNLTPMSITVLFLALFFVGIGFSSLYSVLTVKTSDWQAPGVVANLINLPLMFSSTALFPKTFFPVWLKLISDVNPITYSAELGREALLLNDPNWTYLAYLGIFALAMLIIGSLITDKEMTAE;locus_tag=LOCUS_13160;note=WP_011763735.1 ABC transporter permease (Pyrobaculum islandicum) [pid:51.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-72],MGA_1317
sequence1	MetaGeneAnnotator	CDS	1209024	1210430	.	-	0	ID=MGA_1318;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980445.1;translation=MRLNKASISLRGTYGQAMAVTAPLGSVVSTSTAAIVYAGYSVVFTTLLALLGSALWIFTLTGYTRKIASAGGYYTYGYSAWKSKRISFFEALTESFAYSFLNAVNAITLYLLVSISYEILGYSMPSWVGYSVLIFGILYPTLISLTHIKQLLGYVVSISATLEAALLIFLFATSLSRGIHGNYFVPSGVSAQNLADAFVLSMVSISGAGAATYLGEETKKPTKTITQGMWISLLVGGISMLLGTYALVALWHGSLSNLANSPQPLLYEMFYFGSIPMVIGLILSINSLLSSNIGTTIGAARIIFNLSREGSAPKIFSKVNRSGEPLFATLFVGSLTGIIAFTSVFMVGITNAFLEISVISSLLWLSGRVVDGFGVPVFYYRIRQLGISTIIIPIAATSLNLWGILTSLQAPDLPQTLFLTSTLSIMLVWYIFKGRKGKPGSLVVDENNELINIDEYIERIKKKVEATA;locus_tag=LOCUS_13170;note=WP_010980445.1 APC family permease (Sulfurisphaera tokodaii) [pid:55.0%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:4.5e-145],MGA_1318
sequence1	MetaGeneAnnotator	CDS	1210620	1210928	.	-	0	ID=MGA_1319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980444.1;translation=MIYEKLWKAIDLEIPLVLTDMETFLVRDGEITEDDLKNAKLAAKKVRDAYEAKNKDASIKLVQEAISILNSIKPKKPFPPEMKIRFEDLKKTLEECINDSKE;locus_tag=LOCUS_13180;note=WP_010980444.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:53.2%25%2C q_cov:90.2%25%2C s_cov:87.0%25%2C Eval:3.5e-22],MGA_1319
sequence1	MetaGeneAnnotator	CDS	1211085	1211267	.	-	0	ID=MGA_1320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_13190;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:90.0%25%2C q_cov:100.0%25%2C s_cov:16.8%25%2C Eval:1.2e-27%2C partial hit],frameshifted%2C insertion/deletion at around 1211292%2C1211382,MGA_1320
sequence1	MetaGeneAnnotator	CDS	1211347	1212141	.	-	0	ID=MGA_1321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQSQSENHVLLTIPGIGKLSSGIIIGIVGTLNAFLTLSPS;locus_tag=LOCUS_13200;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:67.9%25%2C q_cov:97.7%25%2C s_cov:73.4%25%2C Eval:2.0e-97%2C partial hit],frameshifted%2C insertion/deletion at around 1211292%2C1211382,MGA_1321
sequence1	MetaGeneAnnotator	CDS	1212479	1213255	.	+	0	ID=MGA_1322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980443.1;translation=MIYQISIVAALLAGLTIVLGGIVEGYGYGLSLGTNWPYTRNIMELASKKDPEAIHRISATIVGLIALGYVIIYPSLITAIGFSAVVATALLGMATLYVLAGKLPSYFQGLHDIAAYTTYAVYLLLFLEGLGYHVNILSFMIDAVVPPHFLYFVIFMGGVVTGMRKMKFEIGNVTRPKNAIQISWVLHSILAAIFIIAVAILHYWLTLVFTAIEIGVGLFVYDTINRNSAKPGISVGLHQLFSLLVVTAIIINSLGIAI;locus_tag=LOCUS_13210;note=WP_010980443.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:61.4%25%2C q_cov:96.5%25%2C s_cov:98.0%25%2C Eval:4.7e-83],MGA_1322
sequence1	MetaGeneAnnotator	CDS	1213289	1215583	.	-	0	ID=MGA_1323;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980442.1;translation=MNEEEFLKTLKSSVKDSIDRFYRNLVYIEKKDYLNDLINVLKAYLEINSNPKVAYAFHPWVTESKERMLKIREIFSNFDDIDYSSSDKYLGNTYDIVILDLVDNFQPNYIGRLVDLVRGGGLIVLYTNNLVENKLFKNTIVRNGMVSSLYEERFKNKIAEHEGTFIINEQGYFARTFSGNLGKRTSAVIPKNPYMPIELHRLSLSEDQNNVIESFEFLLRGGKRILALTASRGRGKSAVTGLSLAGIIYKNLEDNFKSRIAVTAPSISSCSQIMEFLKKGLDALGIKNKVIKSDNGFIRAIDGNDFRVYYESPEATLTDQGNILVVDEAAALGINYIDIATKVWRKVVLVTTVYGYEGSGKVFLKYLRNMLVSRKLSVRWLTMEKPLRYAEGDPIENWLYNALMLNAEVSRPLNDINVTYFETLNKEKLINSDSILSQVYGILVTAHYRNNPDDLMIMLDGVHHHLKSIYYDDSYIAVAQVSEEGELSDPMIEYALKGGTFDGDLIPDRMLKHVRIKEFGKMKGWRIVRIAVIPELQDKGIGSKMLLMLSKEAEEERVDWIGSSFMGDPKVLNFWIKNGFYPIHVSPKRNEKFGDFPVVVIKPFSEEAKKIVNISSYIFKEKLLNTLHDVYYDMNPNLASILLKGSRSHKDVKLTKIHLAKISAFLQGTSPYESSADAIHLLVLKYFWDSKRNWNLENEEEQVLIGKILQGKPWGYLSSTLGINRTHMNEIIYESIYDLSKKYYNLDADSTLGVSLEDLSDEFR;locus_tag=LOCUS_13220;EC_number=2.3.1.-;note=WP_010980442.1 GNAT family N-acetyltransferase (Sulfurisphaera tokodaii) [pid:57.2%25%2C q_cov:99.9%25%2C s_cov:99.3%25%2C Eval:4.0e-269],MGA_1323
sequence1	MetaGeneAnnotator	CDS	1215619	1216020	.	-	0	ID=MGA_1324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980440.1;translation=MSVFNISVLNRYALDIPENIRNNLKEGECVIWCDNLVLCMTEDVPKISNPPIDIEVDREGRDVILRNIIKDDPNNPLYLEYAIDKNFVDYISKSNIIRIIFVNDKFSQEKTILIHLDKEDLSVIRREVGLGSF;locus_tag=LOCUS_13230;note=WP_010980440.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:48.3%25%2C q_cov:88.7%25%2C s_cov:99.2%25%2C Eval:2.6e-30],MGA_1324
sequence1	MetaGeneAnnotator	CDS	1216019	1217440	.	+	0	ID=MGA_1325;product=gamma-glutamyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980439.1;translation=MISASGEKIVSTQNYIASYIGAKVLENGGNAFDAAVAISGVLSVVMPHTSGLGGDAFLLAKTPEGFLAYNASGWAPKNLKVEKIDEKSPFSITVPGLVDLWDFLQSYTSKDYEELLSPAIKLAINGFNVGRSLHNAIKVSSGNSEWNKIFGNKKFSDKVKNLELGKILKQVSKEPRVFYEKIAEDLVKDLNNEGSPLVYEDFYDFHGEKVNPLKTTYKDFNLYELPPNTQGITTLELLKMIEISKINKLAYNDIKRINEHVNMSILAYEDRDKYVADPRFYNIPGFILDEKYLTERVKNIGKSFNVNDGDTTFFVVGDGENHIGFIQSLFHPFGSGIVSHGIVFSNRGYGFSSGVNKPEGRKRPLHTLSILYAEKDKEELIIGCAGGDLRPQIHSEVFEYYADYGMEIDESVDAPRFMYLGNKTIAEKRLEVPLTQVGYYSTQVGVVHALKRKNNSYIAVADPRSEGVALPVQ;locus_tag=LOCUS_13240;note=WP_010980439.1 gamma-glutamyltransferase family protein (Sulfurisphaera tokodaii) [pid:63.6%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:4.2e-167],MGA_1325
sequence1	MetaGeneAnnotator	CDS	1217406	1218314	.	-	0	ID=MGA_1326;product=BadF/BadG/BcrA/BcrD ATPase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156007451.1;translation=MIVVGVDAGGTSTGALAYTCEGKFIGYHISGPGNYHNIGIDRAVENIKEAIMSATHNKIPDVACIGLAGLDSKYDYEVLSRALNGMAKKTVLEHDSFIALYAETRGKPGIITIAGTGSVVVAYDGKKRIRYGGEGWLLSDEGSAYWIGRKALRTLVKMLEGRIERTRMAELIMDDIKIWDLDDLIRWAYHEGHKIDEIASLAKTIDKAAIEGDKIAKSILYSAAKDLASTTLYAAKKIEMDKAYLAGGMFTSKIYTEYFIEVLKEEKVEGITAKKSPEMGALLIALKEAGCTTEPEEPPLHF;locus_tag=LOCUS_13250;note=WP_156007451.1 BadF/BadG/BcrA/BcrD ATPase family protein (Stygiolobus azoricus) [pid:49.7%25%2C q_cov:96.0%25%2C s_cov:97.0%25%2C Eval:2.0e-78],MGA_1326
sequence1	MetaGeneAnnotator	CDS	1218363	1219520	.	+	0	ID=MGA_1327;product=UDP-sulfoquinovose synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846779.1;translation=MKILILGIDGYLGWPLALKMGSKGHEVIGIDNLSTRKFSEEVGSDSAFPLPSPSDRVKEAKKILGINIDFYVKDANDMEFLKETIRKHKPDVIVHFAEQRSAPYSMKDYNHAQYTLDNNLGTTLKLIYAVNEIDPSIHILKMGTMGEYGTPSLDIPESPFVEANINNKKDKIIFPRWGGSIYHWSKIFDTDLLLYFNQIFGLTVTDIMQGPVYGTRTTEITEEGLRTRFDFDETWGTVVNRFCVEAVLGLPLTPYGKGGQTRGFISLEDSMEALRTLIENPPKTGEYRLVHQFAEIYSVNKIAEVVKNAAESLGMSTEIKHVDNPRIEAEEHYYNPEIKILPSLGFKPKKNLKDEVKIILEDLIPYKSRLERYKDSIMPKTKWKK;locus_tag=LOCUS_13260;gene=agl3;EC_number=3.13.1.1;note=WP_052846779.1 UDP-sulfoquinovose synthase (Sulfurisphaera tokodaii) [pid:73.7%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:2.4e-170],MGA_1327
sequence1	MetaGeneAnnotator	CDS	1220105	1221289	.	+	0	ID=MGA_1328;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980417.1;translation=MIYYILIIVSGIVSIWSVYNSFLAFLGLKWNPNESKSPSGYTFSIIVPAKNEENVIGRLLDRLENQEYDRSKFNIIVVEDGSTDNTLYVCKNYEKMYDNLTVIHLNSTNVVNGKSRALNYALKNAKGEIIGIFDADTVPKLDTLAYVSSKFSDPNIAAVQGRLIPINVRESATARFASLEELFYEYSISGRARLGFFVPLEGTCTFIRKSVLNEIGGWNEESLTEDLDLSLKIISRGYKIIYSPSTVAWREVPISLRSLIKQRLRWYRGHFEVSLKVNKIKFDLRIIDGLMIVASPIFMVLSLVNYSLVLVYPSQIYFIAATLVSAASFISLLLAIMISRRHMIEFIFPFLSLIYMNFVIILNLIAVFMEFIKYPKIWIKTDRSGGITVKIHDS;locus_tag=LOCUS_13270;note=WP_010980417.1 glycosyltransferase family 2 protein (Sulfurisphaera tokodaii) [pid:66.9%25%2C q_cov:97.2%25%2C s_cov:97.5%25%2C Eval:9.8e-151],MGA_1328
sequence1	MetaGeneAnnotator	CDS	1221279	1221884	.	+	0	ID=MGA_1329;product=CRISPR-associated protein Cas4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847033.1;translation=MIVEFLAKKKMEDYLSHIREQDTFYVTDLVRCPLKTEFETKYKELALSEVYTPATMLGDLIHKGLESLIQIENYTTRTEIEGEKIINLEKPFKIKGRSDIILENEKEKIIVEIKSARSDNGIPHKHHIMQLQLYLWLFEAKKGILFYITPDRFTEFEINQPMDDATVINLVQQNIQKSPSPRFPWECQYCIFSIICPNKKK;locus_tag=LOCUS_13280;gene=cas4;note=WP_052847033.1 CRISPR-associated protein Cas4 (Sulfurisphaera tokodaii) [pid:52.2%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:5.8e-63],MGA_1329
sequence1	MetaGeneAnnotator	CDS	1221944	1223158	.	+	0	ID=MGA_1330;product=bifunctional hydroxymethylpyrimidine kinase/phosphomethylpyrimidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_184651015.1;translation=MRTRPVAITIAGSDSGGGAGLQADLKTFTSLGVFGATIVTGLTAQNTIGVSKIYEVSPEFVEAQFDSVINDLKPKYAKTGMLASKEIINIVKKKILEYKLDLVLDPVMIAKSGDLLVKEDVIPSIKDLIKNSIIATPNKFEAEKILGGEIKSAEDLKIAAKNFYNSFSTNVVIKGGSKLGGMDYAIIDGEELELTYENVNTKNTHGSGDVFSAAITAYLAKGYSLKDAVINAKQFVSYSIKYSLDLGNGHGPVDPFAYPESIIEREISREIAEKLVEYLETHKDIVKKLLDQEEKLNIGVGTAYGDIATLAGGIIRYINWIKVDGPIVINYYDNLVTSILKETNKKIGISFSMSNRILSASEKGLIKISESGINSDTIIRNGKIILVADDLNDLIKKIEMITND;locus_tag=LOCUS_13290;gene=thiD;EC_number=2.7.1.49%3B 2.7.4.7;note=WP_184651015.1 bifunctional hydroxymethylpyrimidine kinase/phosphomethylpyrimidine kinase (Sulfurisphaera ohwakuensis) [pid:58.3%25%2C q_cov:98.5%25%2C s_cov:98.8%25%2C Eval:6.8e-131],MGA_1330
sequence1	MetaGeneAnnotator	CDS	1223151	1224020	.	+	0	ID=MGA_1331;product=ribokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980414.1;translation=MIEVVGSYNVDFILKVKRFPQPGETVFCEKYIISHGGKGSNQAVSASRLGANVSLVSAIGNDTYGIDAIKFWKSENINIDKVKIKNERTGNAYIFLNDEGESMIIVNRGANYLLEEDDLDDLSGDILLTQMEIKENVVKRALMNFDGTKILNPAPAILTDFSILDYVDILTPNEIEFKQLTNSDDLEYGLDLLLKKVKKAVIVTLGERGALIATKGKKVLISAPKVPVIDATGAGDVFNSALAYYLEKNKDLEDAVSLATKIASFSVTQIGALGPRWEEVKSFVEEEKF;locus_tag=LOCUS_13300;gene=rbsK;EC_number=2.7.1.15;note=WP_010980414.1 ribokinase (Sulfurisphaera tokodaii) [pid:66.2%25%2C q_cov:95.8%25%2C s_cov:95.5%25%2C Eval:1.4e-97],MGA_1331
sequence1	MetaGeneAnnotator	CDS	1224129	1224818	.	+	0	ID=MGA_1332;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980413.1;translation=MEITFLGTGAGSTLGSKRMKSSILIEDSGNSVLLDLGTGANFKLEDIGKLNIDAIFISHLHIDHINGIFDYLVQRKIHGMNPIKIYSPPGFGNILNQFKTEGNEIDAEVIESKLPSAKIGNIEVRSVKACHKIYAVAYIINNKIIYSGDTAEPCNEIVSESKDAELIIHEATCVAGCEIYGHTSVKDALSIFPNDKLILTHIPSQKEKDIFQEVNNRAKIAYDGMRINV;locus_tag=LOCUS_13310;note=WP_010980413.1 MBL fold metallo-hydrolase (Sulfurisphaera tokodaii) [pid:57.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-73],MGA_1332
sequence1	MetaGeneAnnotator	CDS	1224811	1225524	.	+	0	ID=MGA_1333;product=class II glutamine amidotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980412.1;translation=MCRLLAFNTRENVDIKILKIFSNVAEKDFLSSTLSHSDGWGISTYIYNNSWKNLFYKSKDPIYKDTFYESISGLLNGEKIIGLVHARKAGKKFLHGVTHSHPYHLKVKNYELYFAHNGSVSRKAFQNPLLPYTDSFLILLEISKEIENGYSPLDAYNIVFNRLKPFSTSLNSVLLTFNEAEGPKIYVGYYYNKERLKEIEEYYKLYRFKDYVFSSTLKFYFDNDIEELIYGDIITLE;locus_tag=LOCUS_13320;note=WP_010980412.1 class II glutamine amidotransferase (Sulfurisphaera tokodaii) [pid:48.7%25%2C q_cov:98.3%25%2C s_cov:97.9%25%2C Eval:6.1e-63],MGA_1333
sequence1	MetaGeneAnnotator	CDS	1225529	1225849	.	+	0	ID=MGA_1334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFRKVNLYLRKLLKYNMESLAVATKSSIYLDKLGFEVSYKPENGYKIEYSYIPINSVKEAILYEIHNSEEKELGRFSNLDNILEVVKYLEKYPQKVVENILQTLK;locus_tag=LOCUS_13330;note=MGA_1334
sequence1	MetaGeneAnnotator	CDS	1225870	1226697	.	+	0	ID=MGA_1335;product=zinc ribbon domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980411.1;translation=MKEELVQAKIIDYGKLKSIYNDIFFYKEYSEALRRNGGSLDTPPPSLKKLNFIPNTYRLGPLKVSCNNKILKIDFVNALVESEREGLPKYAIIDFSKGIKIYLAYENERPIIGIDVGIRHLFTVASVNSNGKICKVRYFGDKEIIQPFIRYLGEEQGVVHLTEIKEKVKGLVHQTIRFIESLDPKIVAIEDLRLYDAKVGKGLRVIQEMLEHEFYNKGIKFKRLDPYNTSRICSHCGYKRGEIMGSIFVCPSCGYKADRDFNAAYNLALKCYYTC;locus_tag=LOCUS_13340;note=WP_010980411.1 zinc ribbon domain-containing protein (Sulfurisphaera tokodaii) [pid:50.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-81],MGA_1335
sequence1	MetaGeneAnnotator	CDS	1226819	1227871	.	+	0	ID=MGA_1336;product=aminopeptidase P family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980409.1;translation=MRIKKLIKAMEEKNIDYTIIGPTSNMFYFTQFSDEQMERPLLLIVGRNESYFVAPKIYEEQLSKTDIEIKTYDDGEDPYTKIKIPKGSSLSIDDQLWSVFLINIINKVSPSNILPASKLISKLRAIKEEEEIERMKKGLDIAEKSFLEFLDKIKEGKTECELAKELKDIFYDIGADNVSFEPILTSGSNTSMPHLRCTDRKVKNGDVVIADFGVKYHGYSTDTTRVISIGKPTAEVLHVYNIVKDAQASAEDALKEMTGKEIDSLARNVITAKSFGKYFIHRTGHGIGIDVHEEPYISQDYSEKIVNNMTFTIEPGIYLPGKFGIRIEDMVVMKDKVRVMNSLEKEIFIV;locus_tag=LOCUS_13350;note=WP_010980409.1 aminopeptidase P family protein (Sulfurisphaera tokodaii) [pid:58.7%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:4.4e-112],MGA_1336
sequence1	MetaGeneAnnotator	CDS	1227861	1228997	.	-	0	ID=MGA_1337;product=PLP-dependent aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980418.1;translation=MVSRIGKEIEISPVELASRMAKKAKINLASGSPDPKLIPVKDIQESYIEVIESYRDKAFSYPGAGGQEDLIREIENYLPFLGLRKGNNEIMVTSGAQHAMELLGKYFLENDVIAVENPTFIETFNALKLRSSVNIPINLDQNGLQIDQLKDILKIISIKLLYVIPNCHNPAGVVLSEDRRKELVELAEKYNFYIIEDDPYRPIAGKVPPPIKYFDKYGRVVYVSSFSKILAPGLRVGFILANKEIAEKIALIEQLDFSTSTINQYVISNLLKKGVITSRMEYIHDYYMKKLNILKDSLIDEGFNDFTRSECGFFQLIDLKKDSWKVFEEALKLGLSFVPASPFFLKGGETMARLSISVATEDEIKTGVKLLKKAISTQ;locus_tag=LOCUS_13360;note=WP_010980418.1 PLP-dependent aminotransferase family protein (Sulfurisphaera tokodaii) [pid:71.7%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:1.5e-156],MGA_1337
sequence1	MetaGeneAnnotator	CDS	1228970	1229923	.	-	0	ID=MGA_1338;product=ornithine cyclodeaminase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156015424.1;translation=MTIILKEEEVNEILNYHQAYNYLKEAFIALDNKTAVNYKRVRTSLGGATLSYQSGGINGYLGFKSFIRGNFISLLFSNTGELLLIAESDRMSQIRTASLAVLASDYLKGEYSSVGIIGLGKQGLAQVEAFYNLKSIDINVYSRTAARINQSIEILKNKGINVKVMPSYKELCSNSDVIVTITSSKDPFLKLDYIKKGSHINLMGSNLAERVEAFPEVIKAASIIAVEDIEQANEEAGDLILADKMKMLDKSKLVLFSNIITRKIQRYNKDDITIFKSVGIGLEDVSMLKFIFEEAKKRGLGKEMELRGVWSQGLVKK;locus_tag=LOCUS_13370;note=WP_156015424.1 ornithine cyclodeaminase family protein (Sulfurisphaera ohwakuensis) [pid:54.6%25%2C q_cov:98.7%25%2C s_cov:100.0%25%2C Eval:1.3e-91],MGA_1338
sequence1	MetaGeneAnnotator	CDS	1229988	1230302	.	+	0	ID=MGA_1339;product=HTH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980420.1;translation=MELTPRLQDVLSIIKNRGEINVKDLALELKVSQKTAKGYVRELSRLGLIESDEIGNIKIRSNEENREEEIYKLVQIHESEINSLKKEINELREELMKIKRKNKV;locus_tag=LOCUS_13380;note=WP_010980420.1 HTH domain-containing protein (Sulfurisphaera tokodaii) [pid:57.0%25%2C q_cov:96.2%25%2C s_cov:95.2%25%2C Eval:4.4e-25],MGA_1339
sequence1	MetaGeneAnnotator	CDS	1230280	1230990	.	-	0	ID=MGA_1340;product=polyprenol monophosphomannose synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846775.1;translation=MENVQKSQIVSIVIPTYNEKDNIINLIKRINSELNGNIIIVDDNSEDKTGEAVKSLGLENVKVFIRTDEKGLGSALRYGISKALEIGSSFIVTMDADFSHDPIYLKSMLDKARQGYDLVIGSRYIKGGRIENWSYKRKMISWGANLLVRLLLRSSLKDNTSNFRVYSRGASLQVLQCNTANGYEFQICAIYKILKSKMRVCEVPITFRDREKGQSKLSYSQILNWFAYVLKLYFSS;locus_tag=LOCUS_13390;note=WP_052846775.1 polyprenol monophosphomannose synthase (Sulfurisphaera tokodaii) [pid:58.1%25%2C q_cov:93.6%25%2C s_cov:96.0%25%2C Eval:8.1e-68],MGA_1340
sequence1	MetaGeneAnnotator	CDS	1230963	1231430	.	-	0	ID=MGA_1341;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980422.1;translation=MQRHFLSQKDLRTFINQIRDKYHVDIKTDKVEVGKEKKQVYYFIEGKLSFFSEDLIPTLCWIMDNKVELPSVVVDEGATRALSRGADLFVPGISLFNCDCNPGDIILAKTTSGIPVSVMKVLITKEEASANKKGKFSQNLHWIGDEIWKMCKNPK;locus_tag=LOCUS_13400;note=WP_010980422.1 RNA-binding protein (Sulfurisphaera tokodaii) [pid:57.6%25%2C q_cov:97.4%25%2C s_cov:94.3%25%2C Eval:7.7e-49],MGA_1341
sequence1	MetaGeneAnnotator	CDS	1231430	1233577	.	-	0	ID=MGA_1342;product=glyceraldehyde dehydrogenase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980423.1;translation=MHKYMHYIGQPIKRIEDPRLITGHGTYVDDLVFQGTKFVAFLRSTKPHARIKIAKREGIFTGEDINPGKDFPIATNETTYIGQPIAAVIAKDRYEAYDLLESIEVEYEDLPYVIDPYEALKDEKKAYSGLKSNIYINKTYSKGNPEEAIKNVDFVIEDELINQRMIASPLETRGILAYFDGQRLNVWSSTQSAHFLRRNLVQFLNYSNIRVIQPDVGGAFGSKIIAHPEEYAVSKLALKLGIPLKWVPTRTEEMISAGHGRDKSMRFKVGFNKNGKIMALMGTIVGDLGAPYSDANDDESGNVLSTTKMVLGPYDIPNASVTAYAVHTNKVPTTSYRGAGRPEATYFIERIINIIANELKMDPIEIRLNNVVKPNEMPYDNGFGIVYDTGDYVDILNKAKKYYTELSAEAKEKGYCTGLAMYVEITGFGPWEVARVFTKSDGKIIAITGSGPHGQGDATAFAQIVAETLEIPIENIEVKWGDTDIIEDGIGTWGSRTVTVGGSAMLKAAQELKSRFIEIASKMMNADIEELEYKEGTITHKTENKKLELSDIIKYAYKNGISLDVTSVYAVSKPTSPYGVHMAMIDVDKELNKMRVIKYIALDDIGKVINPMLAEGQIHGGVLQGIAQALYEGAKIADDGSLLNSNLGDYGFPTAVESPEIKWYYIEKGLSAHPTGSKGIGEAGAVVSTPVIVNAVENCLGKRIKTMPLSLGDSL;locus_tag=LOCUS_13410;gene=cutA;EC_number=1.2.99.8;note=WP_010980423.1 glyceraldehyde dehydrogenase subunit alpha (Sulfurisphaera tokodaii) [pid:64.8%25%2C q_cov:98.3%25%2C s_cov:98.9%25%2C Eval:1.3e-266],MGA_1342
sequence1	MetaGeneAnnotator	CDS	1233588	1234145	.	-	0	ID=MGA_1343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSFSFVIVPLVILYISYFGISRIYSRHYREVYVEGIDELKSKSNVNFSLRIKDSKDINAFSTSGNTIIVTSSLLNLDKKEIMAAIAHELGHIKMKHHIKNLFIISLILIGFFSLLNIPLIALLFLLLGFLVQRFLSRKFELEADKYAVKLTSKEALVLLINNYGDPSSSILSTHPSSILRVKKI;locus_tag=LOCUS_13420;note=WP_010867945.1 M48 family metalloprotease (Pyrococcus abyssi) [pid:29.3%25%2C q_cov:97.3%25%2C s_cov:60.7%25%2C Eval:5.1e-12%2C partial hit],MGA_1343
sequence1	MetaGeneAnnotator	CDS	1234233	1235249	.	+	0	ID=MGA_1344;product=zinc-dependent dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980425.1;translation=MKAIVLENGNPLLKEVPIPKLQEGDVLVKMKACGLCGTDVEKICGQYTASQPILGHEPAGIIQESTVEWLKPGDRVFAHHHVPCYECYYCKKGSPTMCPYYRKTNLDPGGFAEYFRVPAWNVKRGGILKLPDNVTFDEGAFIEPLATVIRAQRRVFIDKDDFILVVGAGPMGLLHVMAAKVNGAGKVFVSDVSEFRREYSLKVGADVSFNAAKINIEEEVKKLTDGRGVDVAIVASGAPQAILSALNSVRKGGRVLLFGVPYKGTILNYDISNLLNNEISIISSNAAVEEDTREALNMIANKKIDVTKLITGKFKLEEFNEAVREAKEGKTIKAIIYD;locus_tag=LOCUS_13430;note=WP_010980425.1 zinc-dependent dehydrogenase (Sulfurisphaera) [pid:76.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-148],MGA_1344
sequence1	MetaGeneAnnotator	CDS	1235178	1236089	.	-	0	ID=MGA_1345;product=cobalamin biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846776.1;translation=MLLVFIAALFWDLILGEPPIYIHPVVLTGKISEKLIRPYKGYVYGIFIWLLSVVPILILFILPLYIPILILKFILLALTLKTTFSIKMLYKIVNKSSNLDENSRYIVQQIVRRNLTKEDEGHIASAAIESLFESFVDGISSPLFWFLLLGMPGALLQRLSNTMDSMVGYKTTELKKEGFFSAKVDTILNYIPARISVLFMILAGIIMRLKVKNMLDIIRHSDIESINARYPISAAAYLLGVKLEKRGFYSVGNGNLPSSSDIKRALKLFKITTFLYISSILVIYYCFYGFSFFGFPYGLIKFL;locus_tag=LOCUS_13440;note=WP_052846776.1 cobalamin biosynthesis protein (Sulfurisphaera tokodaii) [pid:56.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-94],MGA_1345
sequence1	MetaGeneAnnotator	CDS	1236050	1236799	.	-	0	ID=MGA_1346;product=adenosylcobinamide-GDP ribazoletransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980427.1;translation=MKAFKGILAQLSFFTIIPSIKSDLETIARYSFLSPIFIGLITGIIDFASYLLLWNIIGILSKVLLFVIVEVVRGFNHLDGLLDISDALMVKGNMEKRIKAMKDVEVGSGGIGASLVYFSIMLVALLNLQYPSLYSFLVLISSEIACRSLGLLILSTLKPMENSYLGKIFNSYLSNKYALLLIQAIPFLLIIPLVLYIILYLIFYYIGKTSFHGSSGDLTGFVITLSFPLFLLANEKFCYLSSLLHYFGI;locus_tag=LOCUS_13450;gene=cobS;EC_number=2.7.8.26;note=WP_010980427.1 adenosylcobinamide-GDP ribazoletransferase (Sulfurisphaera tokodaii) [pid:48.8%25%2C q_cov:96.4%25%2C s_cov:96.4%25%2C Eval:2.4e-57],MGA_1346
sequence1	MetaGeneAnnotator	CDS	1236796	1236966	.	-	0	ID=MGA_1347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAISPPSSLGKLFNDIFCALNGMPLRILLKVDTKNDLPESLIGEEIITATFNKIL;locus_tag=LOCUS_13460;note=MGA_1347
sequence1	MetaGeneAnnotator	CDS	1236917	1238203	.	+	0	ID=MGA_1348;product=cobyric acid synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846777.1;translation=MSLNSFPSDEGGEIAFIQAFQAIGSGLSPKSFMNPVLLKPSGKSVEVIVFGNSLGNFSPGEYYSIIKKLWSKIKNIITDNMIIEAAGGLGEPNFLNRDISGFLIMKELKIPTILILDIDRGGAFASAFGIYKMFPTSVRGLLKGFIINKFRGEEKYLEKAIAWLENKTKMKYLGYVPYLEENPIMPEDSMNIKDIGDGEKKVSIIAYPYMSNFNEFYALYKSNSNVKFVYKPSQLKNSDLVILPGTKNTYKSILWLKERNFIDEIRKYPILGICGGFQLMGKKLVDPYGLEAENITEYPGLNIFDIKTIFDKNKVVSLSEGKGDVRIEGYEIRRGKIHYENERPLFYITKRNKVSVEIPDGAKKDDKMGLSLHGSLFSSFSRELEDYGIKIFSGSMKEEIENMVQKNVKIIKENIDVDRIDDIYNSKM;locus_tag=LOCUS_13470;note=WP_052846777.1 cobyric acid synthase (Sulfurisphaera tokodaii) [pid:57.4%25%2C q_cov:98.8%25%2C s_cov:92.1%25%2C Eval:6.6e-140],MGA_1348
sequence1	MetaGeneAnnotator	CDS	1238212	1239324	.	+	0	ID=MGA_1349;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980429.1;translation=MFDPENFIKEVTPQILNVAKDEKIVAAVSGGVDSTTAAVLLYKTLGFNVVPIMIDTGFLRKDETKIVKKLLENILPLRIIDKSEEFITSLEGIEDAEEKRKKFRNLFYKNISDIIRENNATFLAQGTIAADWIETQGGIKTQHNVLVQLGIDTEKTWGFKLIEPLADLYKDEVRALARYLGLPKELSERQPFPGPGLLIRTIGKLTKEKLEIVRESNDIVEKSLENYSFSQYFAAIFESDKKRDEKITNYIGQDIFVYNSRATGVKGDVRSYGKIASIDGELDYNEIMRIVSEITKFDITHVLYRINEKENGKYSVVIRAINTEDFMTADFAKISYSVLNEISQKILTLNDVKEVLYDVTTKPPATIEFE;locus_tag=LOCUS_13480;note=WP_010980429.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:60.2%25%2C q_cov:99.7%25%2C s_cov:99.5%25%2C Eval:1.5e-129],MGA_1349
sequence1	MetaGeneAnnotator	CDS	1239339	1240316	.	-	0	ID=MGA_1350;product=zinc metalloprotease HtpX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980430.1;translation=MNFALIKLKLGMVVASVGVFLLGFALVYAVAGYFFGVAFAPAVIIGILSFLIVLNIVQWLFGPYLINAMYRAVEVSPTDPKYGWLVDLVDEVAMYNHLDIPKVYIADVPFPNAFAYGSPIAGKRVAITLPLLKILNKDEIKAVLGHELGHLRHRDVQLLMAIGLIPTLIFFLGYSLMWGGMLGEGNRNNNAGSMWLIGIALLAVSYMFQFLVLYINRLREAYADVNSATTIPNGAENLQRALAKITLSVDPNTLEKYKKRNNNQMMNMLFFSPMDINEDVSDMDVEQLINYWKTEKVPWYADFFSDHPASPKRIQLLERLKNSIY;locus_tag=LOCUS_13490;gene=htpX;EC_number=3.4.24.-;note=WP_010980430.1 zinc metalloprotease HtpX (Sulfurisphaera tokodaii) [pid:56.3%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:1.0e-107],MGA_1350
sequence1	MetaGeneAnnotator	CDS	1240395	1240790	.	+	0	ID=MGA_1351;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980432.1;translation=MEETVKDYMKTEVISVDKSKSIKEVAEVMTKNNVGSVIVTENKKPLGIVTERDIVRAIGKGKDLNAKAEEIMTASLITIKIDSPITGALSLMRTYNIRHLPVVDYDGNLSGIISIRDIARALDDFYESGAE;locus_tag=LOCUS_13500;note=WP_010980432.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:68.5%25%2C q_cov:99.2%25%2C s_cov:97.7%25%2C Eval:2.2e-45],MGA_1351
sequence1	MetaGeneAnnotator	CDS	1241062	1241391	.	+	0	ID=MGA_1352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSQNYGRRRT;locus_tag=LOCUS_13510;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:68.9%25%2C q_cov:94.5%25%2C s_cov:29.7%25%2C Eval:7.0e-36%2C partial hit],frameshifted%2C insertion/deletion at around 1241364,MGA_1352
sequence1	MetaGeneAnnotator	CDS	1241388	1242116	.	+	0	ID=MGA_1353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGKKTDFYDAEKLINMANKAKEYNYNSLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_13520;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:74.9%25%2C q_cov:99.6%25%2C s_cov:68.1%25%2C Eval:2.4e-102%2C partial hit],frameshifted%2C insertion/deletion at around 1241364,MGA_1353
sequence1	MetaGeneAnnotator	CDS	1242272	1242490	.	+	0	ID=MGA_1354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011277334.1;translation=MQRVLIWKEWYEILEKIARDNKISMNELIAKILTTEECLNLPEVKTTSKKSINVNINDKYLMEKIHKYLFCD;locus_tag=LOCUS_13530;note=WP_011277334.1 hypothetical protein (Sulfolobus acidocaldarius) [pid:50.0%25%2C q_cov:97.2%25%2C s_cov:98.6%25%2C Eval:1.0e-13],MGA_1354
sequence1	MetaGeneAnnotator	CDS	1242493	1244007	.	+	0	ID=MGA_1355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980433.1;translation=MKNKENKPKRKPGLVRIGLFNLLLRLAISPLSFVFSLLMVKYLSDISAVTFGAWQTMFVLITGYFVIPADIFSNITSRYAAEGKKVGGILLINGIAGVLAISIYLLIIPFINPLLGGNFAKYFYFSSILVFLFYIFDITRSIALGRSPRVNAISASVFQIIRLIAGIILMFIFNLSIFAVILAYSLGYIAQILINILFSNANLQIDLKIAFKAIKKSIVFITSYIQNIIEASLVWIAVYLVRTALPVSYFESALIISNIVIWSGSITDGLILKLAENKDPDLLETATKLFFLAGSFFLLLTFVDGDPLLFILRPEYIEAFLALIVLSISNFLRGLYTIFYRGIYMADTTLSTEGSGELKGSTANLIRRNIFISIIGLSFSTCLMIILKTFSFSSPALAIAITLGLLINSIGMLTTAYISAKNIYRLIFPKIESVVPLIATVVSSLPFLIRYMEGNLPKFRAIHEIEIMLIYTLISSSIFVIINIALNPYARQLFIMIIKRIKNL;locus_tag=LOCUS_13540;note=WP_010980433.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:40.7%25%2C q_cov:97.4%25%2C s_cov:97.8%25%2C Eval:2.4e-99],MGA_1355
sequence1	MetaGeneAnnotator	CDS	1244031	1244840	.	+	0	ID=MGA_1356;product=class I fructose-bisphosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980434.1;translation=MSGINIRINRLFERKNAFVVALDHGLVMGPLKGIEKPMEIVKSLSNIPDALQMTPAMLKIVEENFFSRSSPMLIARLDTANVWRQQKKYDSGYYSAVYKVRDAIEAGADAVVTYFVVGYGQDQIEGYNIEELSKIRREANDYGIPFIIEPLFVSPENPDSIKDVNLVKYVTRIASEIGADILKVDYTGKDNFKEVVDVAFSPILIRGGPKTNTNRDFLSMLNDAIISGAKGITVGRNLWQSQDPQKMAKAISAVVHERKSVDEAVKILG;locus_tag=LOCUS_13550;note=WP_010980434.1 class I fructose-bisphosphate aldolase (Sulfurisphaera tokodaii) [pid:76.8%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.0e-115],MGA_1356
sequence1	MetaGeneAnnotator	CDS	1244872	1246053	.	+	0	ID=MGA_1357;product=glycosyltransferase family 39 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980435.1;translation=MKKYNSIFYLALVIILIIYTYETILTFDPTFNPQADHYIGDEVWYPTAAYNILKYIFHITPKMYFPYSHESGIQYYINPEHPPLGKYFMDIFILILGYSPLAWRIPSWIMGDLIIVIGFLLSRKIIGDNIIGNLAGILTAIVIALDPTLWLLHGIALLDIYVGFFSILSLYLLISKRIVLASIALGLAMASKEPAFFLVLPFLYYLGEITNRIKIRALYSIGVPILVYALASIPIMLYFNGIMGWLHGSFLYMLGWDAENGHIALSATSQISEPWDWFLDIHPFYMGYNFYANVNPAIMFLWLFTTPIAFLFKDSRLITVTMWAWTEWLGFVLVYILGNHTLFSFYVADFGAVIDAYIVTSLFFLVQNMKNLKYKLSMKSETNDTKSSNNSSR;locus_tag=LOCUS_13560;EC_number=2.4.-.-;note=WP_010980435.1 glycosyltransferase family 39 protein (Sulfurisphaera tokodaii) [pid:61.1%25%2C q_cov:95.2%25%2C s_cov:99.5%25%2C Eval:7.0e-141],MGA_1357
sequence1	MetaGeneAnnotator	CDS	1246019	1246786	.	+	0	ID=MGA_1358;product=sugar phosphate nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980436.1;translation=MIRKAVITAAGKGSRMKYITSVLPKALLPLFRHEDDKLVMRPIIDLITDSLGEIGVSKFCLVVGKHGKLLMDYMFERNITIVFQDEPKGFGDAVLRAEDFASNEPFFVHADDGVLTGGYREAKSLFEEINPDAVLLLREVKNPKRYGIVEIKDNGTYMNHKAYKIINAEEKPENPASNIAISAVYIFSPKIFNAIKKVSVAQGKELELTYGIKELLKNGGEVYGILLDNEKWLNVGDPENYYNALKFTYSDLKKC;locus_tag=LOCUS_13570;note=WP_010980436.1 sugar phosphate nucleotidyltransferase (Sulfurisphaera tokodaii) [pid:72.2%25%2C q_cov:98.8%25%2C s_cov:97.7%25%2C Eval:1.8e-108],MGA_1358
sequence1	MetaGeneAnnotator	CDS	1246783	1247055	.	-	0	ID=MGA_1359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846774.1;translation=MKDQSLKNISKELLGDYEPRGSTVQGIGKFIAMGLDDPFHITTISGFSIYGLGKLMQRGTNYGIRMASIDLNEIKRELNQLVIDVHSLRF;locus_tag=LOCUS_13580;note=WP_052846774.1 hypothetical protein (Sulfurisphaera) [pid:60.0%25%2C q_cov:87.8%25%2C s_cov:97.6%25%2C Eval:2.8e-24],MGA_1359
sequence1	MetaGeneAnnotator	CDS	1247129	1247332	.	-	0	ID=MGA_1360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGITKNKYNLKIFAITKSILYKNYLIKYMGYRNRLYHLGRRNFYLRYSFIMSRRLLMRLARKKAKYY;locus_tag=LOCUS_13590;note=MGA_1360
sequence1	MetaGeneAnnotator	CDS	1247302	1247916	.	-	0	ID=MGA_1361;product=trimeric intracellular cation channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979664.1;translation=MFVSLIMEVINYIGIFAFAASGALKAMEKQLDLLGAIVLGFVTSLAGGIIADILLGIFPPVNLVYLPYPITAIISVFLIILIRKNLTKISKKLLYFDAIGLGAFTAFGAQLAYFHNLNILGVAIVASITATGGGAIRDILVSEIPLILRKDFYATPSIIGGFVFYIVSLRFLDYISLILTFLLVTSIRLIAIKKKWELPKINII;locus_tag=LOCUS_13600;note=WP_010979664.1 trimeric intracellular cation channel family protein (Sulfurisphaera tokodaii) [pid:54.5%25%2C q_cov:97.5%25%2C s_cov:98.5%25%2C Eval:1.3e-54],MGA_1361
sequence1	MetaGeneAnnotator	CDS	1249004	1249330	.	+	0	ID=MGA_1362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSIGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGASIKPCQYFKEKGIKILQVSQNYGRRRT;locus_tag=LOCUS_13610;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:67.9%25%2C q_cov:94.4%25%2C s_cov:29.7%25%2C Eval:8.7e-34%2C partial hit],frameshifted%2C insertion/deletion at around 1249569%2C1249339%2C1249445%2C1249303,MGA_1362
sequence1	MetaGeneAnnotator	CDS	1249258	1249443	.	+	0	ID=MGA_1363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILQGKRDQDTTSKPKLWKEKDLRGKQIFTTKTSKHGKQGKGVQLQPIERTSNTIRLPKS;locus_tag=LOCUS_13620;note=MGA_1363
sequence1	MetaGeneAnnotator	CDS	1249440	1249634	.	+	0	ID=MGA_1364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEQRSYLKKSKYYLKHYWKQARK;locus_tag=LOCUS_13630;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:61.4%25%2C q_cov:67.2%25%2C s_cov:12.3%25%2C Eval:1.4e-07%2C partial hit],frameshifted%2C insertion/deletion at around 1249571%2C1249447%2C1249354%2C1249303%2C1249339,MGA_1364
sequence1	MetaGeneAnnotator	CDS	1249649	1250041	.	+	0	ID=MGA_1365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_13640;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:77.1%25%2C q_cov:100.0%25%2C s_cov:36.7%25%2C Eval:8.1e-56%2C partial hit],frameshifted%2C insertion/deletion at around 1249568%2C1249444,MGA_1365
sequence1	Aragorn:1.2.38	tRNA	1250242	1250318	.	-	.	ID=Aragorn_3;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00030;note=Aragorn_3
sequence1	MetaGeneAnnotator	CDS	1250591	1251730	.	-	0	ID=MGA_1366;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979766.1;translation=MLVIFPSFISGKIELEKNERIALLGKNGSGKTTIIRSILCDGNSKIIIDDNDFCMSKDYSKLSAVLQEPYTQILAETFSEEIAIIRRYHRVNLEIAKKLMNSYFDKKFMQLSDGYKKRYVISSILVSNPEYILLDEPFANLDKNSLEIVKEILPLGSLIAEHRTKEVRDFVDRIYLISNNNIKEVDKEKLFDENFLRENGLRGFKLEKEDNEKLGNIILDTIIDNVNIKLREKEVLCIVGRNGIGKTTLLKKLIGKAYVIFQNPDLQFFYTTVKDEVKSDYALKLFRLKDKADKSPYALSYGEKMRVLIASAFSSKSKIIALDEPSAGMDGYSLLSFYDMIKTLKEEDRGIIIATHDDDLIGICDNIINLENLKDRSLR;locus_tag=LOCUS_13650;note=WP_010979766.1 ATP-binding cassette domain-containing protein (Sulfurisphaera tokodaii) [pid:59.9%25%2C q_cov:95.8%25%2C s_cov:98.1%25%2C Eval:8.1e-123],MGA_1366
sequence1	MetaGeneAnnotator	CDS	1251691	1252041	.	-	0	ID=MGA_1367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDIVNKPSIIDIFGEKGIPIVIALSYYPYFYDLATQVLLNMRSRKEQFNPIKISRPIIVEMLKVAENLYLAYTIKLFGKYSSKRNFMPSKDDIIITMIGVITLCLSFFLHLFLVR;locus_tag=LOCUS_13660;note=WP_069168152.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:41.2%25%2C q_cov:98.3%25%2C s_cov:57.9%25%2C Eval:1.8e-23%2C partial hit],MGA_1367
sequence1	MetaGeneAnnotator	CDS	1252275	1252829	.	-	0	ID=MGA_1368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979768.1;translation=MSKENKSSKIDRKTLIYAAIFAVASYAVAASLALGIGAYAIGILGYFLDPVVTLTVPLIIISVGIQAINKKFGPLLISLISAVLYIILPFLAITFLVAGPVVEGVSRLVGYRSFRAVMINTTLAGGLVGTLSVIFGFMLLGVPHISNLALYLGGFTVLYFVESGIMGLLSYYLGSYLIKSGVLH;locus_tag=LOCUS_13670;note=WP_010979768.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:46.6%25%2C q_cov:93.5%25%2C s_cov:97.8%25%2C Eval:5.7e-35],MGA_1368
sequence1	MetaGeneAnnotator	CDS	1252875	1253096	.	-	0	ID=MGA_1369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIKFKIIGFLLIISALFLLSLSFSIMFLGLSIDFGNFNISPIIVKIINFIIIAVFLSFVAYVGYIMAFHAKD;locus_tag=LOCUS_13680;note=MGA_1369
sequence1	MetaGeneAnnotator	CDS	1253080	1253994	.	-	0	ID=MGA_1370;product=NAD-dependent epimerase/dehydratase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978125.1;translation=MVSIVTGGAGYIGGHLVDALVESGENVTVIDDFSNGNYVNPKSNILKIDLRREYPKIEKNSTIYHLAANPDVRTSMESIYEHFERDILTTLNVMEMARIYDADKVFFASSSTVYGETIRFPTPEFDNKLPISNYGLFKLMGEDIVEYYSRNYGIQGISLRLANITGGRVSHGVVIDFIKKLRQNSNELKILGNGKQRKSYLYISDLISAIFVLDRYFKSKYDYFNIGNDDWITVNDIAKIIEEEMNLSPKHIYEDQGEGRGWKGDVRFMLLDISKIRGYGWNPSLSSSQAIRKAVRDILYGNKI;locus_tag=LOCUS_13690;note=WP_010978125.1 NAD-dependent epimerase/dehydratase family protein (Sulfurisphaera tokodaii) [pid:62.3%25%2C q_cov:98.4%25%2C s_cov:98.0%25%2C Eval:1.3e-106],MGA_1370
sequence1	Aragorn:1.2.38	tRNA	1254103	1254191	.	-	.	ID=Aragorn_4;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00040;note=Aragorn_4
sequence1	MetaGeneAnnotator	CDS	1254267	1254554	.	-	0	ID=MGA_1371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846201.1;translation=MTNRDYQGKKISIWLAYFNAESRKKGRKFRKTRLSTEDIMSAANALGLEPEFFDKIHPASRIKGVIMVKKLGTKYATIRKIMEYINSKSKKNVTV;locus_tag=LOCUS_13700;note=WP_052846201.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:50.6%25%2C q_cov:89.5%25%2C s_cov:97.8%25%2C Eval:6.3e-16],MGA_1371
sequence1	MetaGeneAnnotator	CDS	1254551	1254988	.	-	0	ID=MGA_1372;product=30S ribosomal protein S8e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978126.1;translation=MELNLIYSYIQNSSDNKMGVYQGSDTRKITGGLKGTYRDKRKYEMGSPPTETRLADSDIREKERTLGGDYKLKLKYALYANVFDKRNNVAKKAKILSVLETPANREYARRGIIVKGSKIRTELGIAIVTSRPGQDGVINAILVQQ;locus_tag=LOCUS_13710;note=WP_010978126.1 30S ribosomal protein S8e (Sulfurisphaera) [pid:67.2%25%2C q_cov:88.3%25%2C s_cov:100.0%25%2C Eval:6.8e-46],MGA_1372
sequence1	MetaGeneAnnotator	CDS	1254978	1255751	.	-	0	ID=MGA_1373;product=polyprenyl diphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978127.1;translation=MLNSLLKPAYIFYEKMLWNQIKEGPIPAHVGIIPDGNRRWARQTNSSIQEAYLAGYKKLREVLIWLLELGVKNVTVFALSTENCDKRSQTELNTILKYIKMGIDDLLYEDFVPKYKVRVRTIGKTEKLPDDLKLSISKVVESSSNFKDRKLTLAICYGGRQEILDAVSKLVVDYKKGLLDSNVLDETVFKKYFYDEELEDIDLVIRTSGEMRISNFLLWHMAYSELFFCDAYWPEFRKIDLWRAIRSYQRRRRKFGA;locus_tag=LOCUS_13720;gene=uppS;EC_number=2.5.1.-;note=WP_010978127.1 polyprenyl diphosphate synthase (Sulfurisphaera tokodaii) [pid:65.6%25%2C q_cov:98.4%25%2C s_cov:96.6%25%2C Eval:2.4e-100],MGA_1373
sequence1	MetaGeneAnnotator	CDS	1255745	1256776	.	-	0	ID=MGA_1374;product=N-acetyl-lysine deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978128.1;translation=MLQEKEFLKQKAKQLLLSILSIYTPSGNEKNAESFFINVSKEFNLPLKITKSNSYFLSPGGKILLAPHVDTVPGFIEPHIENDIVFGRGAVDDKGPLIAMLLATWIALENGKKVSFIALSDEENKSAGARELLNEGINFEHIIVGEPTNTKNVVTEYRGLMHLDIICKAKSEHSSSATQNIIIDMSRKINEISLLPSTYDKPSIVPTIIRSGEYMNVTPSDAYLHLDVRYPYNTDKSNILSPIYEQFKDCEIKIIESVDPVKVSVNSPAVKAVMKGLIKQGIKPSIVRKAGTSDMNILKNITQSIVTYGPGDSKLEHTELEKITLDEIYIGIQTYLNAIEELC;locus_tag=LOCUS_13730;note=WP_010978128.1 N-acetyl-lysine deacetylase (Sulfurisphaera tokodaii) [pid:63.3%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:6.4e-124],MGA_1374
sequence1	MetaGeneAnnotator	CDS	1256724	1257887	.	-	0	ID=MGA_1375;product=aspartate aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978129.1;translation=MKLVTFYSGRGINIVKGENQYVWDDKGNKYLDLHAGHGVAFLGHNNKTIVRYLEKQMSEIMTLTTAFNTPIREEMLKELDKVKTGNLDNVFLLNSGSEAVELAMKSARKITGRKKFIAFKNSFHGRTSGSLSVTWTKRYREPFEPLLGPVDFLDFNNIDELKKIDENTAAIIVEPVQGEGGVIPAKEDFMKALKEVSQDKGALLIVDEVQSGFGRTGRVWAHQHFGIVPDIMTAGKAIGGGFPVSAVFMPDWIAEKLGEGDHGTTYGGNPMAAAAVTAATKVLVEENVAEQAKEKGEIFMRMLKDSLGDFKSVREIRGLGLMIGIDLRLNPAHAIKVLQDSKILSLKAGLTVIRFLSPYMITQEDMEMVVNAARKGISETESKAVTS;locus_tag=LOCUS_13740;note=WP_010978129.1 aspartate aminotransferase family protein (Sulfurisphaera tokodaii) [pid:71.5%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:1.4e-162],MGA_1375
sequence1	MetaGeneAnnotator	CDS	1257884	1258744	.	-	0	ID=MGA_1376;product=lysine biosynthesis protein LysX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978130.1;translation=MGRVILGISYDLVRWEEKNLIHEGQRLGHKVIPLFSKDFYLLFSEAYTIPNMDVVLQRNVAHSRAFATSLILENANYKIINDSYTLLRCENKLVTTSLLSKHGIPVPKTGIAFSKENAFSLASKLGYPTVIKPIEGSWGRMVAKADNEDSLRSFLEYQDYSMLQYKNIYYIQEFVKKPDRDIRIFVVGDETPVGIYRINSNNWRTNTALGAIAKPLKIDDELSELAIKVKEVIGGFFLGIDIFEDKERGYLVDEVNGVPEYKNTVRVNNFNLSEFLIKKIEEWIRK;locus_tag=LOCUS_13750;gene=lysX;note=WP_010978130.1 lysine biosynthesis protein LysX (Sulfurisphaera tokodaii) [pid:69.8%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:6.9e-118],MGA_1376
sequence1	MetaGeneAnnotator	CDS	1258732	1258902	.	-	0	ID=MGA_1377;product=alpha-aminoadipate/glutamate carrier protein LysW/ArgW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978131.1;translation=MVTLKCPVCGGNINLEDDALPGEIIEHECGAQLEVYNDNGRLALRLAEQVGEDWGE;locus_tag=LOCUS_13760;gene=lysW/argW;note=WP_010978131.1 alpha-aminoadipate/glutamate carrier protein LysW/ArgW (Sulfurisphaera) [pid:85.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-24],MGA_1377
sequence1	MetaGeneAnnotator	CDS	1258970	1259395	.	-	0	ID=MGA_1378;product=HTH-type transcriptional regulator LysM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978132.1;translation=MSSKIDENDLKILDFLKKNARTPYTIIAKDLKVSEAAVRKRIEKLIRLGVIKRFTIEYELENEVKAIVMVKSTPQIPTPEISKKLVKISGVETVYETTGDYDIIVVVRGINISSINKTIDEIRSIQGVIGTNSTIILRTWF;locus_tag=LOCUS_13770;gene=lysM;note=WP_010978132.1 HTH-type transcriptional regulator LysM (Sulfurisphaera) [pid:79.6%25%2C q_cov:97.2%25%2C s_cov:97.9%25%2C Eval:1.7e-59],MGA_1378
sequence1	MetaGeneAnnotator	CDS	1259392	1260180	.	-	0	ID=MGA_1379;product=[LysW]-aminoadipate/[LysW]-glutamate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978133.1;translation=MIVVKTGGRVIKDSFDSLIRSVLKYDNKIVLIHGGGDIVTEYSKKMGIEPVFVTSPEGIRSRYTSKEELEVYIMAMNLINKNIVKSLASNGKKCIGLTGADGPIAIAERKKRIMIIDERGKKRIIDGGYTGKITQVNSNYIFSLLNIFDDIIIAPLAIDIDENTLLNVDGDQMAFSIAKAIKADTLILLTDVNGVMMEGKIINNISAEDARDLSRKVGAGMNRKLLMASEAISSGVKKVIIAQGKIEDSINNALNGNGTVIS;locus_tag=LOCUS_13780;note=WP_010978133.1 [LysW]-aminoadipate/[LysW]-glutamate kinase (Sulfurisphaera tokodaii) [pid:63.6%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:2.9e-88],MGA_1379
sequence1	MetaGeneAnnotator	CDS	1260180	1261229	.	-	0	ID=MGA_1380;product=N-acetyl-gamma-glutamyl-phosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978134.1;translation=MVKVAVIGGSGYTGGELLRLLAIHRDVEVTLVTSREYAGKPISLVHPNLKGFYNINFSDFSIDKIGNKADTVFLSLPHKVSMNYAPKLLEMGMQVIDLSADFRLKDPEVYKKWYGIEHPYPDLLKKSVYGMPELHYEELKNAKLIASPGCNATATILALAPIVSSNITDDNRFISDVKVSSSEGGAKPKEGSQHSERANAIRPYEATGHRHAAEAEQELSIIAGKQIKVSIVPHAVSSIRGALSSAHLWMSQSYSEMDIWKKVAEFYRGKKFIRIIRGNVHPYPDPKYVIGSNFADIGFAIEERLNRLTMFSAIDNLMKGAAGQAIQSFNISNKFEEEEGLKTPPLRPA;locus_tag=LOCUS_13790;gene=argC;EC_number=1.2.1.38;note=WP_010978134.1 N-acetyl-gamma-glutamyl-phosphate reductase (Sulfurisphaera tokodaii) [pid:77.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-162],MGA_1380
sequence1	MetaGeneAnnotator	CDS	1261285	1261710	.	+	0	ID=MGA_1381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978135.1;translation=MMEANTDELKKFLENKISSLKKEIEYYEYLLSLLESGYAPIKGNKGSLDSIKNRKGEIIAEVYFTPPIAKIIIRKKISLQRAYINALSKILEESKDNDKIDYNIVFDNDAIKEISINNIKDDFIYNKIKSAIQAILERATS;locus_tag=LOCUS_13800;note=WP_010978135.1 hypothetical protein (Sulfurisphaera) [pid:52.5%25%2C q_cov:98.6%25%2C s_cov:99.3%25%2C Eval:2.9e-35],MGA_1381
sequence1	MetaGeneAnnotator	CDS	1261690	1263354	.	-	0	ID=MGA_1382;product=DNA import protein CedB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978136.1;translation=MNINSIKSFLVKQRVEASLQVENGVICKGNDYIAVVEIDDIPYDYRDFSDNEIKNSIIAFHKIINLGTQVDIIFRKKYIDSVKYKENLLNKAQNLRIMVDSDPSNAKARKELDLINSILKKISEGEIPFKYEIFLLIYGSSKEEVLQLAKVVMRGLEGLNIKSKIASKNDILDTIFLEESKSNKTALSFQVPFLTPFSLEKLPSVEIRTDGIFLGKDIEKNMPVFWNVSKAENPHVLIVGPTGSGKTEFLISLGAKLSLQENVPTVFFDIKGDIKSRLRKYGLSFRLLNPLIYSISLLRSQYVYSNIRSIQIEKIISNSFNLDRVYSSIVFNLVNTALENVKSGKINNINWDYIDEKARLEFDEITYVVLSKIFGTIKIVDHENSSIVDQIHDGINVIDLSLIKSEILRKLVIFSIITDLYNKYSSNVDEGLKISLVIDEAWTILRSEKDEYPIVTDIVKRGRGYGISILMATQNIEDLGELSDIYLDNVGLLMVMNNGDKRFWSETVKRFVNISNEEIVNRLSFLGRGEALIRFIGDPRPMLIKTHVLTSSSL;locus_tag=LOCUS_13810;gene=cedB;note=WP_010978136.1 DNA import protein CedB (Sulfurisphaera tokodaii) [pid:48.0%25%2C q_cov:99.1%25%2C s_cov:89.9%25%2C Eval:8.0e-144],MGA_1382
sequence1	MetaGeneAnnotator	CDS	1263662	1263814	.	-	0	ID=MGA_1383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_13820;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:90.0%25%2C q_cov:100.0%25%2C s_cov:14.0%25%2C Eval:3.5e-22%2C partial hit],frameshifted%2C insertion/deletion at around 1263825,MGA_1383
sequence1	MetaGeneAnnotator	CDS	1263811	1264719	.	-	0	ID=MGA_1384;product=IS110-like element ISSto6 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979846.1;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVSSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQLQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFSSLR;locus_tag=LOCUS_13830;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:69.2%25%2C q_cov:98.7%25%2C s_cov:84.6%25%2C Eval:1.7e-117],frameshifted%2C insertion/deletion at around 1263825,MGA_1384
sequence1	MetaGeneAnnotator	CDS	1265521	1266108	.	-	0	ID=MGA_1385;product=6-phospho-3-hexuloisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978137.1;translation=MYDIAEFILRGVQLIKPEQVEKMVNELENFYANNRNGKVLVMGAGRSGLVGRAFAMRLLHLGYNAYVLGETIAPAIGEKDIAIAISGSGRTRLIQTAAEAAKEAKATLIAITSYADSPIGKIADIVVEVPGRTKYSQNEDYFARQILGITEPLAPLGTLFEDTTQLFLDGIVAELMIRLKKSEEDLRQVHANIEL;locus_tag=LOCUS_13840;gene=hxlB;note=WP_010978137.1 6-phospho-3-hexuloisomerase (Sulfurisphaera tokodaii) [pid:84.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-90],MGA_1385
sequence1	MetaGeneAnnotator	CDS	1266262	1266540	.	+	0	ID=MGA_1386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNRWLPKWKIVEIEVNNKPFEVCYDETLKIYACPLCSPSCKSGGIPDYSSYFFHTEDLIRHINAHKYNLWTKKRPIEFEEEDEGEENNEED;locus_tag=LOCUS_13850;note=WP_052846203.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:54.7%25%2C q_cov:80.4%25%2C s_cov:73.5%25%2C Eval:1.3e-21%2C partial hit],MGA_1386
sequence1	MetaGeneAnnotator	CDS	1266527	1267318	.	+	0	ID=MGA_1387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846206.1;translation=MKRINIAILGGYTIDEIHENSATYERPGGAPIFSSYGVFKAGGVPEVFSIKGKDFVFDIPGFIVEKSIEVIEHNIRFKIVLNNGSRKIFLIRKNNQIHIDYDILNNYNGIIINPVCKEVPIDIKTDLPIALDLQGFIRNCNENEEIKLEQASLPINRSYMVFHANDEELEKSGLDIEKLYALGFREILISHGSKGFTLYYNNEHTDYESSIVGNYEIGNGDFLLGYYFTLRLLGNNIKDSAEKSLLASEEFSMYGLNLKIPQY;locus_tag=LOCUS_13860;note=WP_052846206.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:42.2%25%2C q_cov:97.0%25%2C s_cov:86.5%25%2C Eval:1.0e-48],MGA_1387
sequence1	MetaGeneAnnotator	CDS	1267278	1268150	.	-	0	ID=MGA_1388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIIIGGGLIGSHIAKEKGGIILEEQPYIGGLFSLSFKDLGITLVPPLVKDKILVNKFFSNLKFDEFRPQVIYEKEKYLKDKVCDSCEELPSWLSFDKTIYNIENPSDIIYSNNKVIFAHPVLINSNDKKIITNRGNVITYDKIYNTGSRLKLNKLLGIDENLGYISLFDFILISQHKDTEWNIYINGSAGIIFSYIIKIQKNDLDIYYVYSFFKWGKKLPDIYRVLGDLKRLKIINKDEILAYRSHVIKEAILYGEPVPRKVNYVEDCGRLGLWKNFSIEESLNSIRTC;locus_tag=LOCUS_13870;note=MGA_1388
sequence1	MetaGeneAnnotator	CDS	1268172	1268471	.	-	0	ID=MGA_1389;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKVIFGTYGDNNILPLLYEVVRSFKVKIGIDVETDLLYDYEYPTLEIDGKRVIFDYSSEEEAKEKLLRLIKGEIMEGKNTKKLLSQENYIFGNGATIY;locus_tag=LOCUS_13880;note=MGA_1389
sequence1	MetaGeneAnnotator	CDS	1268537	1268770	.	+	0	ID=MGA_1390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846210.1;translation=MKSVLGPNISQGAGILGFSTNINDANKIQLLGKKLYPDFNVIILDLSNPDQRITAINIDPDIADFKSGYVVAISILA;locus_tag=LOCUS_13890;note=WP_052846210.1 hypothetical protein (Sulfurisphaera) [pid:52.0%25%2C q_cov:97.4%25%2C s_cov:100.0%25%2C Eval:8.2e-16],MGA_1390
sequence1	Aragorn:1.2.38	tRNA	1268801	1268877	.	+	.	ID=Aragorn_5;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00050;note=Aragorn_5
sequence1	MetaGeneAnnotator	CDS	1269118	1269552	.	+	0	ID=MGA_1391;product=phosphate-starvation-inducible PsiE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979755.1;translation=MKLRKFKLKIPFNKLIMKVTSLVVQFLLILGLFAVILSTIFSIIYSLNQGLLAVASVTLENALLIVVFLEIYLSVFDFFEGKGRSIVYVLDATMSFISREIIIDVLTANINYVNIIYLGGVIGIIAFSRFIITRKKSRSTEKHN;locus_tag=LOCUS_13900;note=WP_010979755.1 phosphate-starvation-inducible PsiE family protein (Sulfurisphaera tokodaii) [pid:35.8%25%2C q_cov:94.4%25%2C s_cov:99.3%25%2C Eval:1.2e-18],MGA_1391
sequence1	MetaGeneAnnotator	CDS	1269526	1271148	.	-	0	ID=MGA_1392;product=thiamine pyrophosphate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846212.1;translation=MSQPKRKEETVGKEMSGDEALAFVVKELGVNKVFTTISLPEFLAERFKQYGIFLDYNISSRDALLQSYTYAMENNTAGVVIQVPGTSLLDGIGVIAQAFSDSVPLLIISTIRSYRDIGRARVGELRTNDDLSAILSPITKIRERAISIEEITVNVEKCYKEALSNRMRPAYVEIAEDLFKLKAYPLSPAEQKPEKKTPDKNTVAKVAEVLANSKLPLIIAGYGVIASESSKDLVELAEILKAPVITTIRAKGAIPSSHPLFAGEGLGLFGTDIANKLLSEADSILILGSRLTQLSTAGWSMKFKGFTMHNNIDGEDIGKIIIPHQPIVADTNLFLRELLTLLKQKNISRDIDIEKEIRINKKLPSLKPHNNLWPYDVVRLLQQFTYDRIFVDLSAVTFDSIRMPIERPIWFTSESLLEKGIGIAGIIESKTNSLGIIDISTAEKNLSLLHYKSREAKGTIVIFNDEASSYLDTTKSDMPTIGRTNYVIDIDRELESIGAITVDTYMDLKDALKNRNSERLNIINVKIDPNYESVVLFRTS;locus_tag=LOCUS_13910;note=WP_052846212.1 thiamine pyrophosphate-binding protein (Sulfurisphaera tokodaii) [pid:57.3%25%2C q_cov:99.1%25%2C s_cov:99.8%25%2C Eval:1.4e-174],MGA_1392
sequence1	MetaGeneAnnotator	CDS	1271363	1271923	.	+	0	ID=MGA_1393;product=nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846214.1;translation=MINFNDIGKVLSEIKEITDFVIIGDTVVDLCLKRKGTESDVDLFPLSISVITESDKIREFAYNKGWDYGSTPLDTPRLVIPINDDQLQVDFYENFQDFYVPKEIINSASERKIGKYDFKVIKLEDYILLKANAYREEDEDELKTLLYLVGEGKLTIDRDYLKKHVNLFEENSKSIKDRLNMIGFKI;locus_tag=LOCUS_13920;note=WP_052846214.1 nucleotidyltransferase (Sulfurisphaera tokodaii) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.0e-73],MGA_1393
sequence1	MetaGeneAnnotator	CDS	1272172	1272678	.	+	0	ID=MGA_1394;product=transcription elongation factor NusA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978145.1;translation=MKIPLDYLCVKSGLLCNRCQSLVDSGQVDSFEINVMKILLDLEDTQFKELKDSTYYKAIKVNNLLILLVSSGPSMTIQKWIKVAKVLQEKLGMKVRIIEKTSNIKSSAVQLLSPARVLGVNTVWLPDGSVQYVIRVSRTERRLLPADALVLESALSKIHDTRVKIRVE;locus_tag=LOCUS_13930;note=WP_010978145.1 transcription elongation factor NusA (Sulfurisphaera) [pid:75.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.5e-70],MGA_1394
sequence1	MetaGeneAnnotator	CDS	1272678	1273967	.	+	0	ID=MGA_1395;product=aspartate--tRNA(Asn) ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978146.1;translation=MLRTHFINQIVPQMEGKEITLAGWVHLVRDLGGKKFLILRDKTGLGQIVIDKNSNSFQVAKDLTQESTIMVRGIVKADNRAPNGVEIHAIEVIPLSIAKSPLPLDVSDKVKADLDTRLKERLLDLRRLEMQAVIKIQNNVVKSFRETLYNEGFTEIFTPKIIATATEGGAQLFPVIYFGKEAFLAQSPQLYKELLAGAVERVFEIAPAWRAEESDTPYHLAEFVSMDVEMAFADYNDIMNIIENLIVNMVQYVKKYNENELKTLNYELPEISKPIKRITYSDAIEMLQSKGTNIKFGDDIGTPELRILNKELGQDLYFITEWPALARPFYTKRKDDNPEISESFDLIFRWLELVSGSTRNYRREVLEKELKARGLNPINFEFFIKWFDYGMPPHAGFGMGLQRLMIMFTGLQNVKEISLFPRDKKRLVP;locus_tag=LOCUS_13940;gene=aspS;EC_number=6.1.1.23;note=WP_010978146.1 aspartate--tRNA(Asn) ligase (Sulfurisphaera tokodaii) [pid:72.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.8e-185],MGA_1395
sequence1	MetaGeneAnnotator	CDS	1273964	1274767	.	-	0	ID=MGA_1396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEYNGNNFHVTFLGYYNSKISHTGNIFNIRLISDDEEEIKTRLNIISQNPYLPAYIGYQRFGTKRPITHIVGRYLLKEEWCKAIMYILSMPFYSESDIMRDIRKMIYNNNYEEALRYIPSSFAQEKTLLKNLIRSGNCYEALKSSKIPLYFYVEAYQSYLFNRYLSRKIDELRDIPDKDNFTLTFPLEISKCDDDCIRILDEEGIFEEEFKNNELKFNLKPITRKAFMKIRKLKYENGSITFAIDRGMYATVFLKELLNANPLEIT;locus_tag=LOCUS_13950;note=WP_156004996.1 tRNA pseudouridine(13) synthase TruD (Stygiolobus azoricus) [pid:44.6%25%2C q_cov:98.9%25%2C s_cov:71.8%25%2C Eval:3.4e-60%2C partial hit],MGA_1396
sequence1	MetaGeneAnnotator	CDS	1275070	1275429	.	-	0	ID=MGA_1397;product=peptidyl-tRNA hydrolase Pth2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978149.1;translation=MKMVIIVRTDIKMGKGKIAAQVAHAAVSLVIDILNSSNSRWKSWLFEWLNEGQPKIVVKVNSIVELNTKIEEAKELGLPISLIEDAGRTQLEPGTVTCGGIGPSEDYLIDKITGDLKLL;locus_tag=LOCUS_13960;gene=pth2;EC_number=3.1.1.29;note=WP_010978149.1 peptidyl-tRNA hydrolase Pth2 (Sulfurisphaera tokodaii) [pid:73.7%25%2C q_cov:99.2%25%2C s_cov:97.5%25%2C Eval:2.9e-45],MGA_1397
sequence1	MetaGeneAnnotator	CDS	1275495	1275692	.	+	0	ID=MGA_1398;product=zinc finger domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978150.1;translation=MSVKLSLKEEIVPPVCSSCGRIIHPRERGVAFYCPNCGEVLIQRDMYCRLQGVEYTCPKCGFTGP;locus_tag=LOCUS_13970;note=WP_010978150.1 zinc finger domain-containing protein (Sulfurisphaera) [pid:69.2%25%2C q_cov:100.0%25%2C s_cov:97.0%25%2C Eval:1.7e-24],MGA_1398
sequence1	MetaGeneAnnotator	CDS	1275702	1275977	.	+	0	ID=MGA_1399;product=elongation factor 1-beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978151.1;translation=MTDVLVVLKVFPEGDDVNLDNLADNISKKLPEGYKLVRKDTEPIAYGLKALVLYIQMPEQTEGGTDTLENLASEVEGVSHAEVVGITRLGF;locus_tag=LOCUS_13980;note=WP_010978151.1 elongation factor 1-beta (Sulfurisphaera) [pid:76.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.0e-36],MGA_1399
sequence1	MetaGeneAnnotator	CDS	1276037	1278340	.	+	0	ID=MGA_1400;product=CDC48 family AAA ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429724.1;translation=MSASSQVQPNQRRELILKVLEARQKDVGRGRVRIDTDMMTQIDVSPGDVVEIEGQRKTAAIAWPLAPEDMTGEKDIIRMDGITRKNAGVSIGDKVVVRKANVKTATSIKLAPSNFSITVDPGFVAYVKKKLKEFPFVEGDTVLIPVLGQAIPFTVIQVRPTGVVMITDETSITISDKPIEQSRYPRVTYEDIGGMKNVIQKIRELVELPLRHPELFKRLGIEPPKGILLYGPPGVGKTLLAKAVANETDAYFTSINGPEIMSKFYGESEQRLREIFDDAKKHAPAIIFVDEIDAIAPKRDEVIGEVERRVVAQLLTLMDGLENRGNVIVIAATNRPNAVDPALRRPGRFDREIEIPLPDKQGRLEILQIHTRNMPLSKDVDLEKMADITHGYTGADLAALVREAAMIALRRYLPMIDISQDKVPPEILEQMEVRMEDFTKAHKEIVPSGFREIYIEVPEVKWNDIGGLGDIKEELREVAEYPLKFQEYYETAGVEPPKGILLFGPPGTGKTMLAKAVATESGANFIAVKGPEVLSKWVGESEKAIREIFRKARMYAPAVIFFDEVDAIAPMRGLSSDTGVTERLVNQMLAEMDGIEKLDNVVIIAATNRPDILDPALLRPGRFEKLIYVPPPDKNARYEILKVHTRKVVLNDDVNLEELSEKTDGYTGADLAALVREAAMIAIREGMRGCITKVSELCPSDDRDCRDTKMKECMSGASIKIEMRHFELAMRKVKPSVTQDMAQFYQNWIEKARQQLPRQVIKPSTFT;locus_tag=LOCUS_13990;note=WP_198429724.1 CDC48 family AAA ATPase (Sulfurisphaera tokodaii) [pid:80.8%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:0.0e+00],MGA_1400
sequence1	MetaGeneAnnotator	CDS	1278345	1278581	.	+	0	ID=MGA_1401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846216.1;translation=MWRELPLNYIVLEKVRKLEGPIKDDDLYSEIKKEVDYDFSFSDFLRALMSLEIRGYISVSLIRENIRMINYIGDKESE;locus_tag=LOCUS_14000;note=WP_052846216.1 hypothetical protein (Sulfurisphaera) [pid:68.4%25%2C q_cov:97.4%25%2C s_cov:100.0%25%2C Eval:1.8e-26],MGA_1401
sequence1	MetaGeneAnnotator	CDS	1278632	1279627	.	+	0	ID=MGA_1402;product=flap endonuclease-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742611.1;translation=MRGKKVSIDAYNAIYQFLTAIRQPDGTPLIDSQGKITSHLSGIFYRTINLMENGIIPIYVFDGKPPELKSAELQRRKKIKEEAEKKLEKAKEEGKTTELKKYSQMATRLTNEMADEGKKLLKSMGIPIVEAPSEGEAESAYINAIGLSFATASQDYDSLLFGAKNLIRNLTITGKRKLPNKDIYVEIKPERIELEPLLKKLGITREQLIDIAILIGTDYDPSGIKGIGPKTAYRLIKKYGRIEKIIEANEIPKNSIDFDINQIRQLFLNPNVKKPEENLDLQNPEEQEIIEILVNQHNFNEERVKSALERLNKAIKETKGLSRQTGLDQWF;locus_tag=LOCUS_14010;gene=fen;note=WP_084742611.1 flap endonuclease-1 (Sulfurisphaera tokodaii) [pid:67.9%25%2C q_cov:100.0%25%2C s_cov:94.3%25%2C Eval:1.9e-130],MGA_1402
sequence1	MetaGeneAnnotator	CDS	1279683	1280339	.	+	0	ID=MGA_1403;product=bifunctional precorrin-2 dehydrogenase/sirohydrochlorin ferrochelatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846218.1;translation=MSQLRYFPIFLDLTKFRVLVVGGGRIGSKRALKMSKYCNNVTVYSLEFSQELQESKINLIKGDAKNIDENFLKNYDIIFVATNDQLVNKEICLKAIKQGKLCNNPTDTDISQFIMPIFYSDEDVEIAVTTYGKSSLVSKMILDKIISNILDDTTIRTAIEIMYDIKNYLKKKINDPSIRYRLYHEIFNDNDFEIFIKDNKIIEAKKRAEEIINEYARK;locus_tag=LOCUS_14020;note=WP_052846218.1 bifunctional precorrin-2 dehydrogenase/sirohydrochlorin ferrochelatase (Sulfurisphaera) [pid:49.8%25%2C q_cov:95.9%25%2C s_cov:96.3%25%2C Eval:4.6e-51],MGA_1403
sequence1	MetaGeneAnnotator	CDS	1280320	1281546	.	+	0	ID=MGA_1404;product=glutamyl-tRNA reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978155.1;translation=MNMLENELNKRYYALIYTYKTIGLENLSSHYLRESEIKALASHFDGEMILLQTCNRIELYLYTKSENNISYFLEYLDKIHGKNISSDALLLTGKEVAKHLFEVAAGIDSLSIGEYEILSQIKLAVSNSNRLGISGKCLNTLFERAIKIGRRVRTSTNISRGKVGIYSLAIELVKSKFGNLDGKKIAIIGAGDIGKKLAFMLYKENVTNVTILNRTPEKAKEIAEKYGFKYASLDFNLIDNYDIVFVAIFYPGKITVQGENIIIDLSSPTVFRGKNVITMEELQGLSKEYLAQRMKEISYAKQIISDGIEEFLRDYENIRYNEIVSNIMSRIEEIRETEISKAIRKISDNNAQEILDAMTKSMIKKIFAPLLDKIRIALENGDTNYINYILELFNNGKLPDIKTEEIKE;locus_tag=LOCUS_14030;EC_number=1.2.1.70;note=WP_010978155.1 glutamyl-tRNA reductase (Sulfurisphaera tokodaii) [pid:47.0%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:1.2e-98],MGA_1404
sequence1	MetaGeneAnnotator	CDS	1281503	1282513	.	+	0	ID=MGA_1405;product=porphobilinogen synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978156.1;translation=MVNFPILRPRRLRNNKLIRDLVAETSISEKDLVLPIFIKEDIITPEKIESMPGVLRYPPDDSLIKYVEESYSNGIRYFILFGVPKYKDDIASSAYDKNGIIQKSVRLLKETFDDKIIVITDECTDEYTSHGHCGIVKSIKNSYYVDNDESLKIHAKIALSQAEAGSDVIAPSSMMDGVVGAIRKELDNAGFQNTLIMSYSAKYASTFYSPFREAAYSKPAFGDRKSYQMDPRNSEEAIKEVALDIEEGADIIMVKPAHTYLDVISLVKNSFPEYPLAAYHVSGEYSMIKAAALNGWIDERIAVLEITTAIKRAGANLILTYYANEIAKWLKEEMPF;locus_tag=LOCUS_14040;gene=hemB;EC_number=4.2.1.24;note=WP_010978156.1 porphobilinogen synthase (Sulfurisphaera tokodaii) [pid:76.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-149],MGA_1405
sequence1	MetaGeneAnnotator	CDS	1282486	1283760	.	+	0	ID=MGA_1406;product=glutamate-1-semialdehyde 2%2C1-aminomutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846220.1;translation=MVKRGDAVLNKDLWREALNLFAGGVNSPVRAAVKPQPFYTDHAYGPFLFTENNKKIVDYVLGYGPLILGHSPQQVKEKVIDQINKGWLYGTPSKVEIKLAEKISQHIRTVEKIRFVNSGTEATMNAIRLARGYTKREKIIKFDGNYHGAHDYALVDAGSAATEFGVPISDGIPKDVLKTVLLCNYNDLDCVENFLKKEDIAAVILEPIMGNMGVIPADQDFLEGLRELTKTYNSLLIFDEVITGFRVGLEGAQGLYEVYPDLTTLGKIIGGGFPIGAIGGKKEIIDNFTPNGRVFNAGTFNANPVSMAAGLATIEELEKGKPYDIANAAAREIVEELDKIPIFHTINSVKSMFQIFFGIEEVHNAKDARNANKEKYIEFQRKLLDNDIFFPPSQYETIFTSAAHTDEIVSLTIERIKKIASEIK;locus_tag=LOCUS_14050;gene=hemL;EC_number=5.4.3.8;note=WP_052846220.1 glutamate-1-semialdehyde 2%2C1-aminomutase (Sulfurisphaera tokodaii) [pid:66.5%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:2.1e-162],MGA_1406
sequence1	MetaGeneAnnotator	CDS	1283757	1284635	.	+	0	ID=MGA_1407;product=hydroxymethylbilane synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978158.1;translation=MKIKIAARNSLLSKVQVNIVEAKLHDMGIETEFIGVKTKADYFISEPLYRLGQGVFEKEVNEYVINGEADIAVHSMKDLTTELDNRLCILATIKRDSPYDALVGSKDIYKIESKSVVGTSSIRRKNFITFLRNDLEVKDLRGNIDTRIRKLQNKEYDAIIVAEAAIKRLKLDVQYQQLNPIDFTPEINQGIIAIVGKKSRKELSTIRELDDKNTRDEATAERNASRIVGGGCHSPIGIFFKKEDNSLFGIASFSNGKRKITVEISSNKEPNIVGIELGKKLLEEMKNEGITI;locus_tag=LOCUS_14060;gene=hemC;EC_number=2.5.1.61;note=WP_010978158.1 hydroxymethylbilane synthase (Sulfurisphaera) [pid:56.5%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:5.9e-88],MGA_1407
sequence1	MetaGeneAnnotator	CDS	1284616	1285272	.	+	0	ID=MGA_1408;product=uroporphyrinogen-III synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978159.1;translation=MKVLLFSPSLSENIHNKDIEIINIPLFEIKCISYKKDFDDYEAIAFTSKNAVKCFDDWDKVKNKKIFAIGKPTSELIREKGFNSIYPSEYDSIHLSNLILESGIKSLVAFRSSKASADMKSILSNKIAYMEIYDYKTTIIKENVKKAKEELKKCNVNIVALTSSEIARTIASFLNNCYKIISIGPMTTKTISLLRPDLKIIESNEHDFEGIIRKVLGE;locus_tag=LOCUS_14070;note=WP_010978159.1 uroporphyrinogen-III synthase (Sulfurisphaera tokodaii) [pid:37.4%25%2C q_cov:97.7%25%2C s_cov:95.3%25%2C Eval:2.2e-29],MGA_1408
sequence1	MetaGeneAnnotator	CDS	1285274	1285528	.	+	0	ID=MGA_1409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846862.1;translation=MEDVRELLVKILRKLDPKFVEDSLDIKYIQNFKNRYDVFGQFRNDIGIYEFAISFDNKGNIKRNHINMIRPLKFDDEIQKKLRE;locus_tag=LOCUS_14080;note=WP_052846862.1 hypothetical protein (Sulfurisphaera) [pid:51.9%25%2C q_cov:96.4%25%2C s_cov:94.2%25%2C Eval:1.6e-19],MGA_1409
sequence1	MetaGeneAnnotator	CDS	1285539	1287137	.	+	0	ID=MGA_1410;product=alkaline phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846222.1;translation=MKFLLIIIDGMAYHLFERFVYNLNTFSKLAEEGSYGPLESTYPSITPVALASIVTGLNPKNNGVTGPRIFVKGRTISSPLTAYNSYSLIAEPIWSILGKKGFKVIVTSSPQALPDIWKNNNVILFDPYKAKIKKCSEGKVINEGENEFLNKKWILKKSGDSFQLTLETPTGPLDIKANQDEWIGPIEILANCNNRDVKGIVFLHFRVNNVYISPPSFLTNWGNNESLVNEVWEKISKKVGMLLDGDYKSLSKGLITLEEYIKTAELSFNFFYEYSNFILRKTEWDLGITYLPIVDNFQHLFYGIDDGKSLDYIFSAYKMAEKFVNSLLDLADNLAIVSDHGIMKAKKRVYVNKILQKINVLRVDENKIDWKRTKAFYAGGGIIRINLVGREEKGIVKKEEYPKLVNYIVKNLENYVDPSSNEKIFPIIYEKQTPAGDREGDIELTIAEMYSMSSNNEKDKEIEDIIPYKNSSGDHGYYRKDDLYGIIILYGKNIARNRKINAKLVDIVPTILKVFNVNYNKLDGKPILDAIK;locus_tag=LOCUS_14090;note=WP_052846222.1 alkaline phosphatase family protein (Sulfurisphaera tokodaii) [pid:53.5%25%2C q_cov:100.0%25%2C s_cov:98.5%25%2C Eval:4.4e-168],MGA_1410
sequence1	MetaGeneAnnotator	CDS	1287134	1288540	.	+	0	ID=MGA_1411;product=(2Fe-2S)-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978162.1;translation=MICARSKKQRRCRIPKDCETGLPYTQIIHNGRRENLCTKISLENLNIHSRLYLPLSSEIIHKVKILRYFPKIIEIASKNISLPSFYLPSIEYNVDHLSIENMIIGGGISGLSLLENLNETILISDSLNDDIFFDPLSDKNIVEKIKGIIKEKKDKIINGLFLGKFDEGYLIKTEDTLFIVNAKNIIFANGSRYIPPLFKNNDIPGIISRRMYLRNYKSIGKVMVIGSSDDALKTAIIAKSKVLYKKGTNMFSKKWINIAEKEGIDIIGADKINVKRKGKELHINFDGIEEKINAIVYAIVKQPRLEAISNSNIDYIFYSFSHIYLPTHDINGKAKDNIYVIGGSRAISDYETSFLSAKIIIDEKYIDEFRKKINENESHLIHFYSKNWETRTSPYIFGDKGYFCECEDVTFSDVANEKRKGYKTVEDIKRTTGACTGECQGKICSYLLGSYLESEKLITFRSPLYPLW;locus_tag=LOCUS_14100;note=WP_010978162.1 (2Fe-2S)-binding protein (Sulfurisphaera tokodaii) [pid:34.4%25%2C q_cov:98.7%25%2C s_cov:98.0%25%2C Eval:1.1e-66],MGA_1411
sequence1	MetaGeneAnnotator	CDS	1288543	1289637	.	+	0	ID=MGA_1412;product=FAD-binding oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978163.1;translation=MSIIVIGAGGHGLSLVYHLYKKGISDIILIEKNRIGYGSSGRNASRFRYHFNSKENVNFAIEGIRFLIRESKEMKYNPLLLKTGYLWLLDNENIDIFRKLDKTWSSLGVGGKFMDCNNFDFLKYGETCYFAPQDGSFHHDYILYSYFEVIKDKIKIIYDEVEKILVDDKVRGVKLKSNKIIDGDIVAVTAGAWSSLLINDVPIYPEKKEIYITENIKFKVKPLVIDTNHEIYLSQTLKGEIIGGIEDKKDYSFYPFTISLENTIKFLKGVRNLIKGTEGIGILRGWSGYYEMTPDHSHIMGYSNNWPDGLYIDAGYSGHGMMFSPFSGKIMADLIADNIKSKFINIFSPDRFKNNQLIQENMVI;locus_tag=LOCUS_14110;note=WP_010978163.1 FAD-binding oxidoreductase (Sulfurisphaera tokodaii) [pid:57.6%25%2C q_cov:99.5%25%2C s_cov:99.7%25%2C Eval:3.9e-127],MGA_1412
sequence1	MetaGeneAnnotator	CDS	1289634	1290629	.	-	0	ID=MGA_1413;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978164.1;translation=MYFNMSIEIERGGAIIVGKNFTIDGHSKRNFRVVSHFHADHILGLSKSINECLGIIATPQTLDVLEILGYKIPLKKKFGLKYNLSLDMEGESISLKPAEHILGSAQVYIKLKDGTSVGYTSDFKNPGSGTPILDSDILILDSTYGKPEFRRPFKQEMEYLFPDYIRDSLINGPVRIYAYHGKIQEVMKFLRKSGIDAPFLAEGKIFEITKVAKKYGEKIDDIFNIKDEESKDIIKDGWYIEFRHFNEFKKRSSDFTNFLLSGWQFSVPIRKLDNKTFVVAFSDHGDFDETIYYVDNSPAKTIITDGGRNGYSKELAKYIRDKLKRNAFSLP;locus_tag=LOCUS_14120;note=WP_010978164.1 MBL fold metallo-hydrolase (Sulfurisphaera tokodaii) [pid:52.3%25%2C q_cov:97.0%25%2C s_cov:97.6%25%2C Eval:9.4e-101],MGA_1413
sequence1	MetaGeneAnnotator	CDS	1290648	1292444	.	-	0	ID=MGA_1414;product=ATP-dependent DNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978165.1;translation=MEFKVIADYFDKLEKISSRIQLTATLADLFKNTDKTVIDKVVYLIQGKLWPDFTGQPEIGIGEKFLIKAISIATSAKEEEIEKEFKNLGDLGQVAFNLKQNTQNSSILSYFGSQISQGLTVEEAYDDLVKIATSQGEGSRDIKIRILAGLLKKATPLEAKYLVRFVDGRLRVGIGDATVLDALAITFGGGQNFRPLIERAYNLRADLGNIAKVLVENGIEAIKTIKPQPGIPIRPMLAERLSDPQEMMEKMNNIALVDYKYDGERAQIHKSKDNIFIFSRRLENITSQYPDVVEYVSNFIRGEEFIVEGEVIPVDPESGEMRPFQELMHRKRKSDIHEAIKEYPVNVFLFDLMYYEGEDYTVKPLPERRKKLESILSQNDKIHIATHIIVDNTDKLKEFFYQAISEGAEGVMLKSISNDSIYQAGSRGWLWIKFKRDYQSEMADTVDLVLVGAFYGKGKKGGKYSSFLMAAYNPDKDVFETVCKVASGFTDEELDNLQKKIEELKRSDKHPRVDSEMIPDVWVTPSLVAEIIGAEITISPLHTCCKDNYEKGGLSVRFPRFIRWRPDKSPEDATTSKEIYEMYNSQLKKIDDKTSENI;locus_tag=LOCUS_14130;EC_number=6.5.1.1;note=WP_010978165.1 ATP-dependent DNA ligase (Sulfurisphaera) [pid:71.0%25%2C q_cov:99.2%25%2C s_cov:99.0%25%2C Eval:2.6e-249],MGA_1414
sequence1	MetaGeneAnnotator	CDS	1292630	1293169	.	+	0	ID=MGA_1415;product=dCTP deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846226.1;translation=MILGDRDLKYYLEKGWIIIDPLNSDSIRENGVDLRVGDQIARFKNTNKIFTLDENDINEFFIIEKGTEFIINPQEHVLLTTKEMIKLPSDVMAFVNMRSSFARLGLFVPPTIVDAGFEGQVTIEVLGSAFPIKIKEGTRFIHLIFAKTLTPVENPYHGKYQGQKGVTLARFNLQASSNF;locus_tag=LOCUS_14140;gene=dcd;EC_number=3.5.4.13;note=WP_052846226.1 dCTP deaminase (Sulfurisphaera tokodaii) [pid:73.3%25%2C q_cov:98.3%25%2C s_cov:95.6%25%2C Eval:5.1e-70],MGA_1415
sequence1	MetaGeneAnnotator	CDS	1293141	1293812	.	-	0	ID=MGA_1416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846227.1;translation=MRVLILKFTDEEYSKLEEEARREGYALLSDYVKSRIFYSSNSSSQPTQISNVDDIVRKIERKVQDMVNPFTAEVEDLKRKIAEISEKIENIETKSVENESKPRKEPIYRNEQKEQREKKTAIDYLRDQGAIYESEVKLKNPDLFFEKLEKQGAKIVYTEKERIGLDPKFFEEFSKKLNDIHTADDVDAQKFLNRTEYKLFQKLRSAGAVYFDNSTKSWKMLAN;locus_tag=LOCUS_14150;note=WP_052846227.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:47.0%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:9.3e-55],MGA_1416
sequence1	MetaGeneAnnotator	CDS	1293868	1294569	.	-	0	ID=MGA_1417;product=thioredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978168.1;translation=MAEQDYAELFTPEVQNALQDALKDMKNPVDIYVFIDSKDSNCNYCEVTKKFVEFVRDAAPKDSNGESLLKVNVIDRANGEDKQFEEFKVSRVPTVAFLKGYIRWTGAPLGEEIRALVETIVRLSQGESGLSPDTVSAIKEKLNGQVKVEVVVTPSCPYCPYAALLSHMVAYEACKAEKCNVLSEVVEAYENQDIAEKYQVMSVPALAVNESVEFIGVPNEENFVDTLIQKQKV;locus_tag=LOCUS_14160;note=WP_010978168.1 thioredoxin family protein (Sulfurisphaera tokodaii) [pid:75.0%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:1.7e-99],MGA_1417
sequence1	MetaGeneAnnotator	CDS	1294635	1295294	.	-	0	ID=MGA_1418;product=TIGR00296 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978169.1;translation=MSLVKIEDLSLEEGKKLVKIARQAIMLKLGLLKDKEDIFDDIINKKGLAFVTLETKTGNKYSLRGCIGYVEAVAPIKDIVANAAIAAAFSDPRFSPLTKGEFKNVIIEVTVLTKPEEISGTKKDLPKLVTVGEDGLIIEKGIFHSGLLLPQVAMEYCWDSETFLAETCLKAGLTPDCWLDENVKVKKFHGIIFRELDPGSEVVMIKPSEVKCKLLEEIS;locus_tag=LOCUS_14170;note=WP_010978169.1 TIGR00296 family protein (Sulfurisphaera tokodaii) [pid:67.4%25%2C q_cov:99.1%25%2C s_cov:97.0%25%2C Eval:1.0e-74],MGA_1418
sequence1	MetaGeneAnnotator	CDS	1295197	1295730	.	-	0	ID=MGA_1419;product=Mut7-C RNAse domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978170.1;translation=MPIQKFIVDAMLGRLARWLRILGYDTLYDNSYEDWKIIKISQEQNRIIITRDRGLCNRAKKKNLQCFFVDPDYDLIDILAQMSKKYKIDLHVNIEATRCAECNGILLKTGENKWQCTRCRKEYWKGKHWKSIEEILIKARSKIEDNELSKNRRSESRGGKETSKNSKTSNNAEARAT;locus_tag=LOCUS_14180;note=WP_010978170.1 Mut7-C RNAse domain-containing protein (Sulfurisphaera tokodaii) [pid:70.1%25%2C q_cov:83.1%25%2C s_cov:95.5%25%2C Eval:3.9e-59],MGA_1419
sequence1	MetaGeneAnnotator	CDS	1295733	1295981	.	-	0	ID=MGA_1420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQEDKILLMRGIIGLIIGSFSPFLGSFFISGIAILIGYIISVALIIVLFKPSKKWLIFGKGTLTLFVAWFLILVTVYNILV;locus_tag=LOCUS_14190;note=MGA_1420
sequence1	MetaGeneAnnotator	CDS	1296001	1297821	.	+	0	ID=MGA_1421;product=ribosome rescue protein RqcH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_184650963.1;translation=MALKLTRKNSMTYFDLLAWIVENSNQINCRIDNIYSTAIHNLFIFKLHCSSSTKDLIIEPGKRIHFSKYDREKIFDTKARILRELIRDSIIKKVEILDEERIIRLELSNDKVVYVELLPRGLLVITDINNKILFSTEYKEFKDRIIKPGSIYTAPPKIQINKEDLEKNIKKGNISKILGVPQEIVTALDIKISSIENLEEAKERINKLIDEIKSGKIQPCVSNTNVMPIEFNGCEKRASFNDALDDYFTNLEKEETSIKRSEKIEEEKKKLEITISQVAQAIEEDRKKEEELRKIGKIIMENYDKIEKEIERNTKRFTININNVEIELDPKISVLKNASKYFDEAKIYSQKAKKAEETLESLKKKLSDINSQIEKKNEESASIFKKREWYEKYRWAFTRNGYLVIAGKDQDQNESLVRKLLDEKDIFMHANIQGASATIIKNPVNIDESDLKDAALIAACYSKAWKIGLGAVDVFWVYGNQVSKSPPTGEYLPKGSFMIYGKKNFINSVKLELAIGICRNDNIFNIVVGSEDVISQKCKIYALLIPGNEDPSKISERLAKIFSKKLSLSSKLLQSEISKLLPGKCTIRKIEEAKDKSETSLSNNNP;locus_tag=LOCUS_14200;gene=rqcH;note=WP_184650963.1 ribosome rescue protein RqcH (Sulfurisphaera ohwakuensis) [pid:53.5%25%2C q_cov:96.9%25%2C s_cov:99.5%25%2C Eval:8.0e-177],MGA_1421
sequence1	MetaGeneAnnotator	CDS	1297846	1298709	.	+	0	ID=MGA_1422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978174.1;translation=MPVSSLAEKTSLVSSSEYIILKTLLQFRDQFEAVPQSFLARQINFRPKEMQISLLKLIDLGLINYEKLGGEISYRINFSGLDTIAIKNLYIKNILKTLGEKIGEGKESVVYYGYDFNDNTLAIKFHRIGKSSYKKARILRGYTERKSWITITLDNAKREFDALKCIHDNSGYVPKPIATEYNAVVTEFIEGTLLNNYELKDPNKALNSILGTLRIAYNYCGKMIHGDLSPYNILVDNDENVYIIDWPQWKVDDHVLLNRDLQNILYYFSKKYNIESDFDKIMKYIRG;locus_tag=LOCUS_14210;note=WP_010978174.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:50.5%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:1.2e-82],MGA_1422
sequence1	MetaGeneAnnotator	CDS	1298712	1300550	.	+	0	ID=MGA_1423;product=DUF460 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978175.1;translation=MGKILGIDIEPKNSPLSLSQTKYSIVVIDDKGNIVEKMDNCPLSRIIRLAWEQEISVIATDNIYELGSNDREIIKAISLLPDNVEVVQVTYVDGEFKDIRDVAKNYGIDIQGKPNSTKTAYLAAILALKGAGTKIKLIENKTKIVISRGRHLGPGGMSSNRYKRHIRGLLLRVFKQVKESLDKNNIDYDVIVKRTKSGIENATFIVYAPRESLFGIVKKMKGHDLNLEIRPVYKTKIEFGDKKTSNLKPLIVGIDPGLEVGISAIDLYGNPVLLTSRRSIDREDIITLLREKGSPVLLATDVNPLPDAVKKLSAALKAKVYIPEKSLSVDEKQQLLNEYCDRFSLNISDPHIRDSLGAALKAYKDLEKKLRQSDSVIRRFEIDINEDKVFKCIMDGNTIAECIEREIENKLESKTETKLSYVRNQNAVDDNVYKHYEYENSLLKHEINRLRSLTRQLFKEKAELEKRIEEIKLDYRSEVQRDRKIYELNNILEQKSKIIEKLQNENSKLNIKNEKLNMLIYDILRDKVKIINNNSPLITVKNGKLFVFDEEINDDIVLYIDSDFAIVDPSLLNDIYILNKEKEIERTINIDGIKKIIENYRNIRSKEHNFSV;locus_tag=LOCUS_14220;note=WP_010978175.1 DUF460 domain-containing protein (Sulfurisphaera tokodaii) [pid:50.7%25%2C q_cov:98.4%25%2C s_cov:99.2%25%2C Eval:2.7e-172],MGA_1423
sequence1	MetaGeneAnnotator	CDS	1300524	1301735	.	-	0	ID=MGA_1424;product=methionine adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978176.1;translation=MKNINVQLARISSMDRLEVELVERKGTGHPDYIADSASEEASRKLSLYYLKNYGTILHHNLDKTLVVGGQANPVFKGGDVLQPIYIIVAGRATTEVRTESGIDNIPIGTIIVESVKDWIKSHFRYLDSEKHVIVDYKVGKGSTDLVGIFEKSKSTPLSNDTSFGVGFSPYSTLENLVFQTERTLNSKDVKLELPEVGEDIKVMGLRKGNEIQLTIAMATISELIEDAQHYISIKEQVREKVLDLAHNLAPNYDVKVNINTGDKPESGIYYLTVTGSSAEHGDDGMTGRGNRGVGLITPMRPMSLEATAGKNPVNHVGKIYNVLANLIAKKVTDDTHVLNTQVEILGQIGRPIDDPLIVNVEVNSGDGKIDNNLKNEINGIVEEYLASFNKITELILDGKVMLF;locus_tag=LOCUS_14230;EC_number=2.5.1.6;note=WP_010978176.1 methionine adenosyltransferase (Sulfurisphaera) [pid:75.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.0e-176],MGA_1424
sequence1	MetaGeneAnnotator	CDS	1301767	1302030	.	-	0	ID=MGA_1425;product=U6 snRNA-associated Sm-like protein LSm6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846864.1;translation=MQAKVENPLKNLRAAVNKVVLVKLKDGSEYIGKLEQTDGTMNLVLRDCTELTEGSSEAIAKYGRVLIRGSNILFVSVDYESIMTKEK;locus_tag=LOCUS_14240;note=WP_052846864.1 U6 snRNA-associated Sm-like protein LSm6 (Sulfurisphaera) [pid:75.3%25%2C q_cov:97.7%25%2C s_cov:100.0%25%2C Eval:9.6e-33],MGA_1425
sequence1	MetaGeneAnnotator	CDS	1302130	1302435	.	+	0	ID=MGA_1426;product=winged helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978179.1;translation=MEINVDDPEEILKIAEALSSITRINILKILNESPKSITELSEELKMTKGNISNQVALLENAGLVDIEYQNGVKGIKKIIKTKYNRIIISLDISSSPKEANK;locus_tag=LOCUS_14250;note=WP_010978179.1 winged helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:61.4%25%2C q_cov:100.0%25%2C s_cov:98.1%25%2C Eval:3.9e-26],MGA_1426
sequence1	MetaGeneAnnotator	CDS	1302397	1303992	.	-	0	ID=MGA_1427;product=CTP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978180.1;translation=MRKYVIVTGGVLSSVGKGTAAASLGLLLKSMGYRVTVVKVDPYINVDAGTMNPYMHGEVFVTDDGAETDLDLGHYERFLDINMNKYNNVTAGKVYFNVIKKEREGKYLGQTVQIIPHVTDEIKSMIRKAGELDNADIVIVEIGGTVGDIESLPFLEAVRQLHLEEEEHNVVFVHVALVEYLNVTGELKTKPLQHSVQELRRIGIQPDIIIARSIVKLDEDTKKKIALFTNVRADYIFSSYDVPTSYEVPIILNEQGITHKLTQKLDLKDTIPDISNWKSFIESLKDGSKEVNVALVGKYTKLKDSYLSIKEAVLHAAAFLGLKVNIVWIESTDLENIVNLNDKFKKIDGIIVLPGFGARGVEGKINAIHYARVNNVPYLGICYGLQLAVVEFARNVLNLKNANTTEVDPSTPYPVITLLDDQKRVTQFGGTMRLGSQKVILKEGTTVYSLYGKTEIFERHRHRYEVNPEYVDKLQSAGLTISGVSENGLVEVIELKDHKFFVATQAHPEFKSRPLNPAPLFVGFLRAAANI;locus_tag=LOCUS_14260;EC_number=6.3.4.2;note=WP_010978180.1 CTP synthase (Sulfurisphaera tokodaii) [pid:75.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-234],MGA_1427
sequence1	MetaGeneAnnotator	CDS	1304087	1304770	.	+	0	ID=MGA_1428;product=3-hexulose-6-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978182.1;translation=MIRNSLLNKLRERKNLQVALDFININDAIKVAKQAIEGGAEIIEDGTPLIKSAGIQGLLKLDEIANEKILLADTKTADAGDIEVEIAKRGNAKIMTVLGIMDDSTIESAVNKAKELDILVQADLINVKDTIQRAKELHDIGVDIIGFHVGLDVQKKRNITVASLKEEIKEISKFTIVSVAGGLNASNIKDLLDIPINIYVVGGAITRSNNPYEATKEIVNVINTSYK;locus_tag=LOCUS_14270;gene=hxlA;EC_number=4.1.2.43;note=WP_010978182.1 3-hexulose-6-phosphate synthase (Sulfurisphaera tokodaii) [pid:67.0%25%2C q_cov:95.6%25%2C s_cov:97.8%25%2C Eval:9.9e-76],MGA_1428
sequence1	MetaGeneAnnotator	CDS	1304774	1305262	.	+	0	ID=MGA_1429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978183.1;translation=MGKNLSQPGQASKSKELKNVSKQVITPSILKEDKRKLELLYIIKVLNTISERALTTLLYEAKDKGLDLKYEFNTVGNNIFSPSIKEDITTLLYLGLIETDPSTKKLKLSTDGEEALESNLASIDDNFKNQLNQILNDVKNKIVAIDEEYSLKLRSERRSRRR;locus_tag=LOCUS_14280;note=WP_010978183.1 hypothetical protein (Sulfurisphaera) [pid:63.5%25%2C q_cov:91.4%25%2C s_cov:97.3%25%2C Eval:2.6e-45],MGA_1429
sequence1	MetaGeneAnnotator	CDS	1305268	1305681	.	-	0	ID=MGA_1430;product=DUF2153 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846228.1;translation=MENSFISNLDEWIKMQKNLLATLKDMQKQDQAMDRLDLILASRVAFQHMMRTIKAFDQWLQDPMVIKHMPKEMLEDVKRTSWGILEQLLELDIRHTSEARDLITKLGKEGKLDPLIWSRPLLEEQQNQGRRGTFTTM;locus_tag=LOCUS_14290;note=WP_052846228.1 DUF2153 domain-containing protein (Sulfurisphaera) [pid:75.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-55],MGA_1430
sequence1	MetaGeneAnnotator	CDS	1305728	1306111	.	-	0	ID=MGA_1431;product=Trm112 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978185.1;translation=MKYRLMDILACPMCKHFPMQLFVFDEKNVDRSTDEKKPLCELYCAYKNAYIKDISEPPCDECYKKEIVEGLLYCPSCKRWYPIMDEIPRMLPDKLRKKEDDIKFLEKYKQKIPKEITENGLPVNLGS;locus_tag=LOCUS_14300;note=WP_010978185.1 Trm112 family protein (Sulfurisphaera tokodaii) [pid:68.2%25%2C q_cov:100.0%25%2C s_cov:97.7%25%2C Eval:1.2e-51],MGA_1431
sequence1	MetaGeneAnnotator	CDS	1306108	1307475	.	-	0	ID=MGA_1432;product=phosphoglucosamine mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978186.1;translation=MGKLFGTDGIRGTINNELTPELALKIGKAVGTFFGKGSTILIGRDARAGGDMFMRAVESGLLSTGIKVYEGGFAPTPTLQYAVKTLNYDAGVIITASHNPAQYNGIKVIDRDGVEISRDKENIIEDIYFNDKFSTADWTYLTYDIKRDDRIIDTYVNGVLSHVDVDKIRKKNFKVLIDGANSVGSITSPIVARELGCKIYTTNTNLDPLFPARMPEPTMDSLKETAKIAKDLSVDLAIAHDGDADRVIFIDSEGRVQWGDRSGTLLSYWVSTKESEFPRRIFTAVSSSVLVQEFLSKYNISVKWTKVGSVDIAHYLMEEKGLAGFEENGGFIFPEHQYVRDGAMSFALMLEYLANENVSSAELFDRLPKYYPIKTKVSIKTTTNVQKIYDELKRIYGNKGEIITVDGVKIIGNDFWFLVRKSGTEPIIRIMVESKDEKEATSLANDLIKLVGSLA;locus_tag=LOCUS_14310;gene=glmM;EC_number=5.4.2.10;note=WP_010978186.1 phosphoglucosamine mutase (Sulfurisphaera) [pid:70.4%25%2C q_cov:99.1%25%2C s_cov:99.3%25%2C Eval:1.5e-190],MGA_1432
sequence1	MetaGeneAnnotator	CDS	1307891	1308892	.	+	0	ID=MGA_1433;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978410.1;translation=MNDKEKLEIYDVIIIGAGIAGLSAALYSARQKLNTLVISKDLGGQLNLTQLIENYPAISADTGIGLASKVESQAKKFGAKFIYGEEVSAIEKKDSLFIVRGIKDEYFAKSVILAFGKSPRELKVPGENELKGKGVSYCAICDAAFFKDVPAAVVGEGDPGLEAIDLLGKYAKPAYYISRSLQLAGEPDLVNSVMNNKNIIPLLGYTVEAIEGNSKVEGIKIRNIKTNEEKEIKVEGIIIEMGYLLNTTFLKGLVKLNEKGEVIIDDLAKTSMDGIFAAGDITQIPYKQAVVAAADGVKAALSAYNYIRSLQGLPPVTVDWKAEKKKTVISFRL;locus_tag=LOCUS_14320;note=WP_010978410.1 FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:67.3%25%2C q_cov:97.9%25%2C s_cov:97.6%25%2C Eval:3.0e-123],MGA_1433
sequence1	MetaGeneAnnotator	CDS	1309157	1309432	.	+	0	ID=MGA_1434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMIIVSLVWGILGIIDALMVRIQEAAWATSSSLLLTSQEYYGSIALHAMRDFFAFAVQLELAIFIFISFRLIKMQPKRNGCSTWDSFYLI;locus_tag=LOCUS_14330;note=WP_010978659.1 cbb3-type cytochrome c oxidase subunit I (Sulfurisphaera tokodaii) [pid:59.0%25%2C q_cov:85.7%25%2C s_cov:14.9%25%2C Eval:6.4e-21%2C partial hit],frameshifted%2C insertion/deletion at around 1309387%2C1309639,MGA_1434
sequence1	MetaGeneAnnotator	CDS	1309399	1309653	.	+	0	ID=MGA_1435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNLGFILFNIAFMLIEGPIVVFPTFNDNYFPSDSWYYLSPYGVAGYSQYVVSPLWYFGWEIMDAGVYLMVIWMVYQFYMLLRK;locus_tag=LOCUS_14340;note=WP_198429733.1 cbb3-type cytochrome c oxidase subunit I (Sulfurisphaera tokodaii) [pid:61.9%25%2C q_cov:98.8%25%2C s_cov:14.8%25%2C Eval:4.0e-26%2C partial hit],frameshifted%2C insertion/deletion at around 1309387%2C1309639,MGA_1435
sequence1	MetaGeneAnnotator	CDS	1309650	1310567	.	+	0	ID=MGA_1436;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKLPIFSVFSIMTALMIALGWSEATAANTWDLLAYYGISKLNVISDQIAFGILWHSIVYMTWMPAVASLYFLIPILANKPLYSDRMGRISALLYLIFSNNVPIHHLYMVNLPVGIKVLEEVLTFAVVVPSMMTFFNLWATTKGAKINLNLISVWISIAFAGSIAAGVTGIANGDLSFDSIIHDSMWVVGHFHAMIFFSIVPAGFATLYYMVPALTGRQWYSNKLGWIHMVGYVIGTVMIVVGFDDLGLEGLMRKAEIFPLIPAYITPEILASAGAFIADTATLLWLGNLVLTLLKEELEILRI;locus_tag=LOCUS_14350;note=WP_010978659.1 cbb3-type cytochrome c oxidase subunit I (Sulfurisphaera tokodaii) [pid:61.5%25%2C q_cov:97.0%25%2C s_cov:56.7%25%2C Eval:1.4e-111%2C partial hit],frameshifted%2C insertion/deletion at around 1309390%2C1309639,MGA_1436
sequence1	MetaGeneAnnotator	CDS	1310689	1311852	.	-	0	ID=MGA_1437;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978973.1;translation=MKKIVILGGGIAGMGVATTLVSKGFDITVINKDQYYFTGPSRPLLLTGEQKYERMVRGYEEVGKKGIKLTVGSVYKIDPDERKIYVSETTSSTTKEVSYDYLVIAPGIIFDGSSINGYDKWWWKNTTVYDLGRVNVLKERVWTKTEGNIVVYAPKAPYRCAPAPTETAMLIHTILKYRGIRDKFNITYIDANDKTQPPFTADIVSQVFEKAKINLVTNQEIIEMNDKEVITKSGEKYKFDILAMLEPNRAPSFIKDSGLGDDYVDVRSPQDLRHPKYDDVLSAGDVAKLPFPKNQEIAFESSLFAANKIMEIEGISDKVPVQYAFVGWAYMGNLEGKLETYSLQFRLDLTSKPPKPSKDPELKKEYTLQKDNWEQAYLERLFSYKNI;locus_tag=LOCUS_14360;note=WP_010978973.1 FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:71.5%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:2.4e-170],MGA_1437
sequence1	MetaGeneAnnotator	CDS	1312084	1312842	.	+	0	ID=MGA_1438;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_184651002.1;translation=MSFNGKVVVVTGGTKGIGRAISEKFKSLGANVIILYNSSDNIARELEEKGFLTIKCDVSKRSQVKKAAEIVAEKYDKVDVLVNNAGIWYLFSFEEFDEEKYEKMMKINLDGTIYVTYEFLPLIKKSKGVIINMASNAGLGTSAIGNTFYSITKAGIIILTRRLAYELGKYGIRVNAVAPGWVETDMTIGGKSAEEIEKLRQWFKDRTMLHTTGKPEYIANIVSFLASEDSTYITGQIIVADGGRIDYLTHGI;locus_tag=LOCUS_14370;note=WP_184651002.1 SDR family oxidoreductase (Sulfurisphaera ohwakuensis) [pid:69.4%25%2C q_cov:96.8%25%2C s_cov:94.2%25%2C Eval:3.0e-95],MGA_1438
sequence1	Aragorn:1.2.38	tRNA	1312925	1313001	.	-	.	ID=Aragorn_6;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00060;note=Aragorn_6
sequence1	MetaGeneAnnotator	CDS	1313123	1313644	.	-	0	ID=MGA_1439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSDIYNRLSENASKKNYSAYKYTNELVEAALDIEESGVSLKDIKDEIIIMEKLFKYKRIIIVPLTAISNIQQSQWIDLGRGFGLLIRQMSLNNNQIIPIFISVIKFFFSLVGAISINNNQIIISFPIYPQDIQEKLVSSARDLITSIVDIASISANIQEEKGQIKVEITSAI;locus_tag=LOCUS_14380;note=MGA_1439
sequence1	MetaGeneAnnotator	CDS	1313812	1314711	.	+	0	ID=MGA_1440;product=DUF1464 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978211.1;translation=MICAGVDPGSESYAIAFVDELGRLVKYYEIPTELVVNASMSIVKYIADLRPKLITLPSGHGLPFYKISDIQDKEIFLLTLSDPKKTGPLHNFLRAAKGLNGVTLPSIVELESVPNYRKTNIIDMGTADKLASTFFYRTFFDSFVLVEAGRHFYSVIVVINGKVIDGFGGTVIPGPFAPGALDGEVAYLLSKYSKITKDTIYTNGDKKRAIEIVKIISEWYSTKYDIPIIISGKDKYNIDFGEKFEFKFKESAIGASYIANALCGGIYRKYIDMLKSSNTPIYYVRLKGWEEIISLIKTL;locus_tag=LOCUS_14390;note=WP_010978211.1 DUF1464 family protein (Sulfurisphaera tokodaii) [pid:64.7%25%2C q_cov:98.3%25%2C s_cov:98.7%25%2C Eval:1.1e-110],MGA_1440
sequence1	MetaGeneAnnotator	CDS	1314675	1315577	.	+	0	ID=MGA_1441;product=nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978210.1;translation=MGRNYFLDKDALIDKNDNIFFVLTNYNPYGYVFAYLKYIYTGKGLWKGFDRNLRYYGIRNLLQSRQEFIYEPCFGASFPIKRLSEVKKHLTPEDKIDEIIRKSSTSELDEIILDLISKIDVKNIGITGSILLNIQHSKSDIDFVIYGDKDTEDFFNTFEGFDIDKDWILETSKNYNIPVELAKSLYNKKTRGIYKGIKYSILFVDNKPWQYCKDICIKEGPIKISGDIYGDVRALYYPSTAFLFSNKKTFKILSYEGIYNTVLYGNHKVEIYGMLMECNEDNTIIVGDREIGGYIRPYMQ;locus_tag=LOCUS_14400;note=WP_010978210.1 nucleotidyltransferase (Sulfurisphaera tokodaii) [pid:52.6%25%2C q_cov:98.7%25%2C s_cov:99.0%25%2C Eval:1.4e-89],MGA_1441
sequence1	MetaGeneAnnotator	CDS	1315546	1316451	.	+	0	ID=MGA_1442;product=triphosphoribosyl-dephospho-CoA synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846234.1;translation=MEVTLDLICSEIAGLLSKSSIIESLVFKPGNASRYQDINSVKFRDILESAIISEESYKIACKRGFYSDRPIYDLLYRSIYISKIIDVNFSIFGTEISLLPLAYSSVLAYNLDSLISMSTQVVRSLDRDDSKWFSNSLNELKLSYLGTLSSMDFRNMEETLWNVFMYSSNEDSLIRNIVRNYEYSIEVYNIIRQNPCKDFENNIQTAFIRILSKVPDGLIYRKFGARVALRVSDYASKLPECPSQSDLYEFNKFLVSNKYNPGSTADIIATGLALYNLDKWYEKTRLNIRLPLPRGCDRIYK;locus_tag=LOCUS_14410;note=WP_052846234.1 triphosphoribosyl-dephospho-CoA synthase (Sulfurisphaera) [pid:50.0%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:3.3e-73],MGA_1442
sequence1	MetaGeneAnnotator	CDS	1316432	1316905	.	+	0	ID=MGA_1443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_218266606.1;translation=MIEYINDQKFDAVIGLGDIECPQFLNNFYGILGEFESVFVMKYLKKTNRLIQTSIYGLSVNFSDKIVITHFPPKGFGTGIIGNFMIGNEETTKKILHNKPKIVLHGHSEYPSISEKNGIKIISIGSLYNGFYTEYYPDNVEFVFKRAAIKYASSPSA;locus_tag=LOCUS_14420;note=WP_218266606.1 hypothetical protein (Saccharolobus shibatae) [pid:43.6%25%2C q_cov:94.9%25%2C s_cov:88.1%25%2C Eval:6.8e-32],MGA_1443
sequence1	MetaGeneAnnotator	CDS	1316836	1317363	.	-	0	ID=MGA_1444;product=ribosomal protein S18-alanine N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978207.1;translation=MEQATNSHKSTFTLRNVRLDDVDQIMKINRLALPENYPYYFFVEHVKDYDKAFYVAVIDGDIVGYIMPRIEYGFSNFKSIPSLVKKGHVVSIAVLEQFRNQGIGSSLLEASMKSMKDDYGAEEVYLEVRVSNYPAISMYEKHGFVKIKILKHYYADGEDAYLMAALLNTNSTLSG;locus_tag=LOCUS_14430;gene=rimI;EC_number=2.3.1.266;note=WP_010978207.1 ribosomal protein S18-alanine N-acetyltransferase (Sulfurisphaera) [pid:70.7%25%2C q_cov:95.4%25%2C s_cov:100.0%25%2C Eval:2.7e-65],MGA_1444
sequence1	MetaGeneAnnotator	CDS	1317399	1318652	.	+	0	ID=MGA_1445;product=bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978206.1;translation=MKKLMVHPSKRIIGEISEELRNRKILLGVTGSVAVYKSIDLARELMRIGAEVYVIMSKGALKLVSKDIFEWATGNPVITKLSGKLEHVELSEELDTMIIAPATANTITKIAQGISDTPLTTTALNFIGKNKPVFIVPSMHLPMYQSPQIKNSLEYLKSINIRIIDPIIINDIAHYPELSLISSQISAALNRGEDLKGFKIIVTAGPTREYLDPVRFISNPSSGTMGIAIANEAYFRGADVVLIHGPLCSKIKSYVKTEVDVFTTENMANEVRKYVEKGYNIVILAGAPADFKFKISYNTKIDTHNKELPKIEIEKTPKISEYINGRAFIVGFSAETVESDNELLAKAKIKKNLHGFDLIVANNVKRKDIGFSSEYDEVYIIGNSFTKKIDKTSKQEIARVLLDIVKKEFKSNINNHI;locus_tag=LOCUS_14440;gene=coaBC;EC_number=4.1.1.36%3B 6.3.2.5;note=WP_010978206.1 bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC (Sulfurisphaera tokodaii) [pid:64.2%25%2C q_cov:97.6%25%2C s_cov:98.8%25%2C Eval:2.6e-149],MGA_1445
sequence1	Aragorn:1.2.38	tRNA	1318657	1318733	.	+	.	ID=Aragorn_7;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00070;note=Aragorn_7
sequence1	MetaGeneAnnotator	CDS	1319167	1319499	.	+	0	ID=MGA_1446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSQNYGRRRT;locus_tag=LOCUS_14450;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:69.8%25%2C q_cov:94.5%25%2C s_cov:29.7%25%2C Eval:9.8e-38%2C partial hit],frameshifted%2C insertion/deletion at around 1319472,MGA_1446
sequence1	MetaGeneAnnotator	CDS	1319496	1320071	.	+	0	ID=MGA_1447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVREYRRRVISTCAACSTSSLR;locus_tag=LOCUS_14460;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:68.6%25%2C q_cov:89.0%25%2C s_cov:48.2%25%2C Eval:5.8e-62%2C partial hit],frameshifted%2C insertion/deletion at around 1319472%2C1320012,MGA_1447
sequence1	MetaGeneAnnotator	CDS	1320038	1320220	.	+	0	ID=MGA_1448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_14470;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:90.0%25%2C q_cov:100.0%25%2C s_cov:16.8%25%2C Eval:1.2e-27%2C partial hit],frameshifted%2C insertion/deletion at around 1320011,MGA_1448
sequence1	MetaGeneAnnotator	CDS	1320481	1320687	.	+	0	ID=MGA_1449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGENSAKKKLVLDLINGKTIAIPLDTNITIIITVKNNKIKKKVYFKNTRNISKEYRDLVIFPIFITI;locus_tag=LOCUS_14480;note=MGA_1449
sequence1	MetaGeneAnnotator	CDS	1320693	1321076	.	-	0	ID=MGA_1450;product=DUF1634 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980460.1;translation=MTDLDAVTGIVMRVGVILSIVLVAIGVAITVIEHGADGYTLNELFSRVSVVNSSTASLPFILNGFTDLSGLSFIYIGLMVLISIPVIRTALALIYFLYDKNRLYIILSAIVLFNLLLAILILPRVLR;locus_tag=LOCUS_14490;note=WP_010980460.1 DUF1634 domain-containing protein (Sulfurisphaera tokodaii) [pid:34.9%25%2C q_cov:83.5%25%2C s_cov:83.5%25%2C Eval:1.8e-10],MGA_1450
sequence1	MetaGeneAnnotator	CDS	1321073	1321930	.	-	0	ID=MGA_1451;product=sulfite exporter TauE/SafE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980461.1;translation=MLTGIELFLAVLIASIIAGYLGSLTGLGGGTVLVPILTLYTGVPIVYATGASLISTISTSSGAASAYIKDKIINLKIGTSLQTATTLGAIAGSLTVTFIYSHHLENIIYIVFGIVLLGSVYPTLKRGKSEIPDMLPPDWSTKFFQMNGEYYDAALNSVVKYHGVRWIYGELVMFTAGYVSGLLGIGSGALKVIGMDWVMNLPIKVTTTTSNFMIGVTAATSSGIYWAFGYIQPIIAAATTIGVLIGAFTGTRTLVKLKNKRIRTVFIILLAFLGIQMILRGLGIS;locus_tag=LOCUS_14500;note=WP_010980461.1 sulfite exporter TauE/SafE family protein (Sulfurisphaera tokodaii) [pid:59.1%25%2C q_cov:96.1%25%2C s_cov:96.1%25%2C Eval:9.9e-93],MGA_1451
sequence1	Aragorn:1.2.38	tRNA	1322328	1322403	.	-	.	ID=Aragorn_8;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00080;note=Aragorn_8
sequence1	MetaGeneAnnotator	CDS	1322527	1323030	.	+	0	ID=MGA_1452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLVQINKVDRLILQSIVDVLLERKFSVNIFPEIFHISINAYDWNEDKYISDIILKKFQSRFNNFPFDIIIGITDIDINNTDNFYMKNGNIAIIPIKNIFNKNNVNLSIERINKIIFYIIGMYSGIDNCKNYCIMKGFKNIEELDSLPLDYCDSCMTRIKQNNY;locus_tag=LOCUS_14510;note=MGA_1452
sequence1	MetaGeneAnnotator	CDS	1323111	1323533	.	-	0	ID=MGA_1453;product=archease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978373.1;translation=MKKFEFFDHTSDVGIRAFGKNINEAFENAGLAVFEIMTDTSHVVPKVDKEIEVEGFDLENLLYRWIEALLFYYDTELLLFSRFSVNIDLDNIKLSAKVSGEKFDENKHERRTLVKAMTYNEMEIKRNEDGSYTITFVVDI;locus_tag=LOCUS_14520;note=WP_010978373.1 archease (Sulfurisphaera tokodaii) [pid:66.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.7e-51],MGA_1453
sequence1	MetaGeneAnnotator	CDS	1323813	1324598	.	-	0	ID=MGA_1454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978375.1;translation=MFNSFYFLGIAFNLAILTYFIGVLLMGSPIPVYGIKKWGPKLISDGIYSAVLVNSFEAILYFSQQISNIIGSNWTSFYNWIYQVIAQELEIYTLIRTLYATISISQDPAVSIFLSPLTIFFSFLTGLIATMETILTISYLVNENVGIFIALGILFLSLPFRIGRSIGGALIGFAVVFYIGLPYLPNFLTGLGVNVLNPPAVNSNSASDILNFLATEAIPFYVEGTVVLPAAYLTILAGLSIGLGSAISGYSSRLPIPIEIF;locus_tag=LOCUS_14530;note=WP_010978375.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:38.1%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:8.5e-48],MGA_1454
sequence1	MetaGeneAnnotator	CDS	1324608	1324844	.	-	0	ID=MGA_1455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846299.1;translation=MTGIETLVQQITTQVTEIAWSVFILAWAIGWAIRGSPIPIFKIKRTGQDFIEDAILAAFWLALGTTVFSLVSYVASQI;locus_tag=LOCUS_14540;note=WP_052846299.1 hypothetical protein (Sulfurisphaera) [pid:61.6%25%2C q_cov:93.6%25%2C s_cov:94.8%25%2C Eval:4.3e-25],MGA_1455
sequence1	MetaGeneAnnotator	CDS	1325063	1325596	.	-	0	ID=MGA_1456;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978376.1;translation=MIVVISGPSGSGKTTIAKILSNKLNLSYISAGELFRNMAKNVGKDVLDLNLAAEKDFSIDKEIDKKIFDIASKGNVVVESHIVGWLLKDIADYNIYIWASLEERSKRISKRDNISYSEAIQKVIAREESHYLRFWKYYGIDLLDLSVFDLCINTERMSVDNIIDIILRYVSSKDLSI;locus_tag=LOCUS_14550;note=WP_010978376.1 AAA family ATPase (Sulfurisphaera tokodaii) [pid:57.0%25%2C q_cov:96.6%25%2C s_cov:95.6%25%2C Eval:1.4e-48],MGA_1456
sequence1	MetaGeneAnnotator	CDS	1326332	1326919	.	-	0	ID=MGA_1457;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846302.1;translation=MKMGIVTGIPGVGKTTVLSMVSEILKEKKIPYKIMNYGDYMLNIALDQKYVNNRDEIRKLPLPKQRELQLEAAKKIVKDSEDLGDKGLSFIDTHAVIRTNSGYLPGLPKHIIEILSPTVIFLIESDPNNILKRQSRDKDRIRSDYSNIEIITETINFARYAAVASAVLVGASVKIVNNVEGDPRVAANVIIDSMM;locus_tag=LOCUS_14560;EC_number=2.7.4.3;note=WP_052846302.1 adenylate kinase (Sulfurisphaera tokodaii) [pid:69.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-69],MGA_1457
sequence1	MetaGeneAnnotator	CDS	1326923	1328323	.	-	0	ID=MGA_1458;product=preprotein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978380.1;translation=MSFTDFLAKLGQVLPAVTKPEQKPSLNQKLIWSIVAVAIYLVMSSVPLYGLQLSNSSFFSNFLLEQVIFASTAGTLAQLGIGPIITAGLIMQILVGSKLINVNLNNEDDRATFTEAQKGLAFIFIIIEAFLFGFALSGSAGVSRLNFALIIGGQLIVATFFILLLDEMIQKGWGLGSGVSLFILAGVMKIMFWYMFGIVTVSSQNLPVGFFPSLVATLISHGNLLDLIVNTTKPFQPDLVGLVSTIGLTILIIYLESININIPVTSQKLRGIRRTVPLNFLYVSSIPVIFVSVLGADIELFSTLTSYVSPSVQKILSAIDSAFVFPPPNTTIPHSVYAVVVDPLGALIYAIVFLVLGVMFGLVWVEVAGLDPATQARSLADAGIEIPGMRSSPRMIEAILARYIYPLAFFSSLIVSLIAVFATFLGVYGTGVGLILAVSIAMQYYSLLAYERSIEMYPLLKRIIGE;locus_tag=LOCUS_14570;gene=secY;note=WP_010978380.1 preprotein translocase subunit SecY (Sulfurisphaera tokodaii) [pid:67.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-178],MGA_1458
sequence1	MetaGeneAnnotator	CDS	1328396	1328776	.	-	0	ID=MGA_1459;product=uL15 family ribosomal protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978381.1;translation=MGWGAKGQHRDRGKEGGRQIGMGKEKWSWVVKYGKDWYGKHGFVNPTSYTKAVITLRQLSNLLDNGKIEIESKDGKNVVDLTKYGYEKLLGSGNVNMPIIIKIAEASEKAKQKIMKIGGQVISPEK;locus_tag=LOCUS_14580;note=WP_010978381.1 uL15 family ribosomal protein (Sulfurisphaera tokodaii) [pid:58.7%25%2C q_cov:96.0%25%2C s_cov:84.0%25%2C Eval:1.4e-39],MGA_1459
sequence1	MetaGeneAnnotator	CDS	1328828	1329298	.	-	0	ID=MGA_1460;product=50S ribosomal protein L30;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978382.1;translation=MSNSIIAIRIRGSASAPWNLEETLEMLRLKKQFNAMIYPDNDSIRGMLMKVQSYITWGKANDKAIDLLLSRIHTINGDFVNENFVKEKLSMSLEDLKQGILEGKVIVNKYDNLFKLPIRLHPPRGGFKGKVNKPYGTGGEFGYRGDKILELIERMI;locus_tag=LOCUS_14590;note=WP_010978382.1 50S ribosomal protein L30 (Sulfurisphaera tokodaii) [pid:51.7%25%2C q_cov:95.5%25%2C s_cov:95.6%25%2C Eval:2.7e-41],MGA_1460
sequence1	MetaGeneAnnotator	CDS	1329307	1329951	.	-	0	ID=MGA_1461;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978383.1;translation=MTEEVPVSNIEEWKPRTKVGVLVKEGKITSMKELFEKNLPIAEPEIVDALLPNLKYEVIDIRMVQKQTDAGELSRYKVLIVMGNYDGYVSIGNGKAKQLRVAIQKAVRDAKMNIIPVRRGCGSWECTCGEPHSLPFTVSGKAGSVEVVLRPAPKGTGLVAGSILKNLLTYAGLKDVWSFSSGETRTTENFIKAGYNALYNTYRFVTPADWARKR;locus_tag=LOCUS_14600;note=WP_010978383.1 30S ribosomal protein S5 (Sulfurisphaera tokodaii) [pid:80.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-99],MGA_1461
sequence1	MetaGeneAnnotator	CDS	1329954	1330550	.	-	0	ID=MGA_1462;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978384.1;translation=MVSLGPNYRVKFSRRREGKTNYYKRYTYVLSKATRLVVRLTNKYVIMQIVAFNPNGDSTVVMAHSIELCKKYGWKGDCNNTSAAYLTGYLLGLRAKKAGISSVVADIGLFTPIKGSRIFYAIKGSVDAGINIPIGDELEFDEDRIKGKHIVNYAEKLEKENPDKFNRIFSGYLGRGLNPKDLVSHFDETLNKIKSMGG;locus_tag=LOCUS_14610;note=WP_010978384.1 50S ribosomal protein L18 (Sulfurisphaera tokodaii) [pid:73.1%25%2C q_cov:97.5%25%2C s_cov:98.0%25%2C Eval:6.2e-78],MGA_1462
sequence1	MetaGeneAnnotator	CDS	1330557	1331012	.	-	0	ID=MGA_1463;product=50S ribosomal protein L19e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978385.1;translation=MPDLYLQKRLAADIANVGINNVKLPEENLDEIKDALTRSDIKKLIADGKIIIEKKRGISNSRVKLRRKNRRIKGEGRRQGSKNGKKGARVQPRSEWINRIRKIRQYIKWLRDSGTIDERTYRLYYKKAKGGTFKSLGDVRNSLKQSGKIKE;locus_tag=LOCUS_14620;note=WP_010978385.1 50S ribosomal protein L19e (Sulfurisphaera) [pid:55.1%25%2C q_cov:97.4%25%2C s_cov:97.4%25%2C Eval:1.3e-42],MGA_1463
sequence1	MetaGeneAnnotator	CDS	1331019	1331423	.	-	0	ID=MGA_1464;product=50S ribosomal protein L32e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978386.1;translation=MSNKNILEPSKIRELKVKYSSKKPDFLRYDWDKYFKLERQNKWIRPRGIDNKSRLRLKGFPKLVSTGYIKPKMIRYFHPSGLKPVYVSNINDLSKIREDEKNNVIVIINGNLGLRKRMEIVKKANEYGIRVANG;locus_tag=LOCUS_14630;note=WP_010978386.1 50S ribosomal protein L32e (Sulfurisphaera tokodaii) [pid:46.8%25%2C q_cov:92.5%25%2C s_cov:93.9%25%2C Eval:9.2e-28],MGA_1464
sequence1	MetaGeneAnnotator	CDS	1331413	1331967	.	-	0	ID=MGA_1465;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978387.1;translation=MQYSLIHEELEIPKNISVNLSNNKIVIKGPKAEVEKDFSFAKGIQMNLVGNKIIFESTFGTKQQKATLYSIKREIENIFVGVTKGYRYYLKIIFTHFPTSVKVVGNEVQITNLIGEKNIRRAKILQGVKVTVKGEDIIVEGADLEKVAQTAANIESTSKIKGFDRRVFSDGIYIYKKEVVGSEQ;locus_tag=LOCUS_14640;note=WP_010978387.1 50S ribosomal protein L6 (Sulfurisphaera tokodaii) [pid:69.3%25%2C q_cov:97.3%25%2C s_cov:96.2%25%2C Eval:3.3e-67],MGA_1465
sequence1	MetaGeneAnnotator	CDS	1331980	1332381	.	-	0	ID=MGA_1466;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978388.1;translation=MVVLNPLTNALSSINNNEVRRNKQVIIMPASKLIINVLRVMQKEGYVGEFEYIDDGRWGKITVQLLGRINKCGPITPRYSLNYRDMINLPDYVRRYLPSKEIGLIIVSTSKGVMSHKDAARLRIGGNALGYVY;locus_tag=LOCUS_14650;note=WP_010978388.1 30S ribosomal protein S8 (Sulfurisphaera) [pid:79.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-57],MGA_1466
sequence1	MetaGeneAnnotator	CDS	1332387	1332551	.	-	0	ID=MGA_1467;product=30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978389.1;translation=MGKFKPPAERKHGKGVQVCKRCGSTDSVIQKYDIYLCRQCFREVAGPLGFKKLR;locus_tag=LOCUS_14660;note=WP_010978389.1 30S ribosomal protein S14 (Sulfurisphaera) [pid:79.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.5e-21],MGA_1467
sequence1	MetaGeneAnnotator	CDS	1332566	1333096	.	-	0	ID=MGA_1468;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156013673.1;translation=MAEETQLSKNPMQMPRLVKVTVNIGLGESGERLEKAYNLLQELTGAKPVYTRAKKSIKDFGVRKGQPIGVKVTLRRDKGIEFLKKVLPAINYRLKSSSFDDSGNVSFGIAEHVVIPGVRYDPEVGIFGMDIAITLEKPGYRIGRRKRNRSSIPKSQRVSKEEAMTFLKETLGVTII;locus_tag=LOCUS_14670;note=WP_156013673.1 50S ribosomal protein L5 (Sulfurisphaera) [pid:69.0%25%2C q_cov:98.3%25%2C s_cov:97.7%25%2C Eval:1.3e-62],MGA_1468
sequence1	MetaGeneAnnotator	CDS	1333098	1333823	.	-	0	ID=MGA_1469;product=30S ribosomal protein S4e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978391.1;translation=MVHITRNASPWFLLISKKQYKWTVRTVPGAHSLNQSVPLSILLRDYIHAAVTLKEAKTIISSGEVLVDGKVRLDYRFPVGLMDVISIPSADLYYRIIPDNARFLKAIEIPREESSFKLVRILNKSLVKNGDLQLNLDSGRNIQIIKDNIAEYKYSTLTTLKIALPNQEILETYELKEGNYGIIIGGKNAGRHGIIGKIQMSQYKRRVYSVVNIQSKDGKTYESNLENIMAIGTTQPVIKVE;locus_tag=LOCUS_14680;note=WP_010978391.1 30S ribosomal protein S4e (Sulfurisphaera tokodaii) [pid:54.5%25%2C q_cov:97.5%25%2C s_cov:96.7%25%2C Eval:6.9e-78],MGA_1469
sequence1	MetaGeneAnnotator	CDS	1333823	1334209	.	-	0	ID=MGA_1470;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846306.1;translation=MVTSKPSKQRKILYNMAYHKRKVNLVAPVSDEVEKEYGISRISVKKGDTAKVARGEHAGFEGKVAAVDTKNGRVAIEGLTRKKADGTPIYVWIHASKVIVTKLDVADSKRKDLIERKRKTNESPKGES;locus_tag=LOCUS_14690;gene=rplX;note=WP_052846306.1 50S ribosomal protein L24 (Sulfurisphaera) [pid:61.3%25%2C q_cov:95.3%25%2C s_cov:90.5%25%2C Eval:7.0e-39],MGA_1470
sequence1	MetaGeneAnnotator	CDS	1334224	1334640	.	-	0	ID=MGA_1471;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846308.1;translation=MSEKLQMLGSRKGRTPALQNYSSVTVSDNSGGKEAVIVGVFGYRGVLRRVPFANVGDLVFVSVRKGTPEVRKQKFKAVIIRQKMPLRRADGTWISFEDNAVVIVNPDGTPKGTEVRGPVAREAAERWPKVASLATLII;locus_tag=LOCUS_14700;note=WP_052846308.1 50S ribosomal protein L14 (Sulfurisphaera) [pid:79.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-63],MGA_1471
sequence1	MetaGeneAnnotator	CDS	1334641	1334988	.	-	0	ID=MGA_1472;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846880.1;translation=MVKVSQSKNIGIPNISLPESVCNDKYCPFHGKLKVRGMIFEGKIIKLRANKTGVFEKSHIHYNTKYKRYERRRSRIHVHVPPCLNLKEGDNVIIAECRPIAKSVSYVVVGKVGGA;locus_tag=LOCUS_14710;note=WP_052846880.1 30S ribosomal protein S17 (Sulfurisphaera tokodaii) [pid:68.1%25%2C q_cov:81.7%25%2C s_cov:83.2%25%2C Eval:2.7e-35],MGA_1472
sequence1	MetaGeneAnnotator	CDS	1334976	1335257	.	-	0	ID=MGA_1473;product=ribonuclease P protein subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846311.1;translation=MRKKGIAIVKRSIDFIGFKIKILGYSNPILIGTSGIIVFETKNTFRIKVGNRYLTIMKSNGFYELDFKRCHIIISGCKLVSKPSKRVNKRWLR;locus_tag=LOCUS_14720;note=WP_052846311.1 ribonuclease P protein subunit (Sulfurisphaera tokodaii) [pid:50.0%25%2C q_cov:86.0%25%2C s_cov:98.7%25%2C Eval:1.4e-15],MGA_1473
sequence1	MetaGeneAnnotator	CDS	1335217	1335447	.	-	0	ID=MGA_1474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPHKTNDFLEDIRKLEIQDLNKRLQDTIADLIKLRAEARVGTIKDTASIRNMRKNIARLKTVINEKKRNSHREEKH;locus_tag=LOCUS_14730;note=WP_010978395.1 50S ribosomal protein L29 (Sulfurisphaera tokodaii) [pid:45.9%25%2C q_cov:76.3%25%2C s_cov:69.3%25%2C Eval:4.8e-08%2C partial hit],MGA_1474
sequence1	MetaGeneAnnotator	CDS	1335428	1336117	.	-	0	ID=MGA_1475;product=30S ribosomal protein S3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978396.1;translation=MVNVRKYFLQKSMVKVMVDEYLAKQFYMAEYAGTDIIKTPIGTRVIIYANRPAMIIGKGGRTIKQLAQVLEKFFNLENPQITVTNVENPELNARVMAFRLAVTLEKGYHFRRAAFITIRRIMNAGAMGAEVIVSGKITSERAKYEKLKEGTVYKSGNSLDLLVDRAIAIATLKMGIYGVEVVITKPLKPLDKITFREAPKSTEGGVTITNVKFIDESGTTGGVNASQNQ;locus_tag=LOCUS_14740;note=WP_010978396.1 30S ribosomal protein S3 (Sulfurisphaera) [pid:76.1%25%2C q_cov:96.5%25%2C s_cov:98.7%25%2C Eval:3.8e-91],MGA_1475
sequence1	MetaGeneAnnotator	CDS	1336123	1336593	.	-	0	ID=MGA_1476;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978397.1;translation=MSGWNYPLLNIDETKQGKAVSRNVSVSIKDLYNVCKAIRGKKLQDAKKYLDQVIEKKEAVPYWRYSTGASHKSGLETKWHIKDGRYPIKAAKYVLKTLENAEANAVSKGLDPDSLKIVHIAAHKGLILKRYMPRAFGRATAKNRRTSHIEVIVAEV;locus_tag=LOCUS_14750;note=WP_010978397.1 50S ribosomal protein L22 (Sulfurisphaera tokodaii) [pid:68.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-58],MGA_1476
sequence1	MetaGeneAnnotator	CDS	1336596	1337018	.	-	0	ID=MGA_1477;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978398.1;translation=MSIEFPPEWKKFTYRGKNLDELIEMPMDEFIKLLPSRQRRSLVRGFNNHQRRLLEKIRKLRRQGNLDKTIKTHVRDLVILPEMVGLKFGIYNGKEFVEVQIVPEMIGHYLGEFSISTKKVEHGEPGLKATRSSLFLAMKG;locus_tag=LOCUS_14760;note=WP_010978398.1 30S ribosomal protein S19 (Sulfurisphaera) [pid:81.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.4e-63],MGA_1477
sequence1	MetaGeneAnnotator	CDS	1337052	1337768	.	-	0	ID=MGA_1478;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978399.1;translation=MGKKLLQQRAGRGNINFRNPGWLRVGKVRYPSVVRYQIGKVIDIIHNPGMLAPVAKVKLEDGTSFYTQAVQGLVINQKIEIGKGAPSSLGNIVEVGSLPEGTMISNVEKYRGDGGRYARSAGSYAIIVGKAGNKVLIRMPSGKIKEVMYNALATIGVIAGGGALEKPLLKAGNNYWKYKVKAKVWPHVRGVAMNVVDHPHGGGLHASVSRSSTVSRNAPPGRKVGHIAARRTGRKERK;locus_tag=LOCUS_14770;note=WP_010978399.1 50S ribosomal protein L2 (Sulfurisphaera) [pid:72.9%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:1.4e-99],MGA_1478
sequence1	MetaGeneAnnotator	CDS	1337781	1338032	.	-	0	ID=MGA_1479;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978400.1;translation=MSVIIEPLATEKATKLIESTNTIVLVVNKSSTKTQIKSEIEKMFSVKVAKINVSISPTGEKKAYIKLKPEFKALDVAHKLGIL;locus_tag=LOCUS_14780;note=WP_010978400.1 50S ribosomal protein L23 (Sulfurisphaera) [pid:64.2%25%2C q_cov:97.6%25%2C s_cov:98.8%25%2C Eval:2.7e-22],MGA_1479
sequence1	MetaGeneAnnotator	CDS	1338029	1338820	.	-	0	ID=MGA_1480;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846313.1;translation=MYYELQVRKSNILSLDGSSLKEIELPLIFSYPVRKDLIRRAFYASLTRSLQPKARDPMAGKRTPASSFGINLGLARVPRIRTTGEGALAPNTVGGRAAFPPTLREKIIEEINEKEKRLATISAISATADKLFVTSRGHKFTIDNLPIVVTDELASISKPKELLSVLSKIKVIDDVYRVKDGIKIRAGKGKMRGRKYKIPVGPLIISHDVSKLLLAAKNIPGVDVVNAGIVSVIHLAPGAQPGRLTIYTESSLDILNRRLGGLL;locus_tag=LOCUS_14790;gene=rpl4p;note=WP_052846313.1 50S ribosomal protein L4 (Sulfurisphaera tokodaii) [pid:62.9%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:1.5e-92],MGA_1480
sequence1	MetaGeneAnnotator	CDS	1338827	1339849	.	-	0	ID=MGA_1481;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978402.1;translation=MGHRKLASPRRGSSGLRPRKRAEEILPTPRSWPIVNYENPTLLGFVGYKVGMTHVYMIDNTRGSDNFGKEIFVPSTVIETPPILPLAIKAYGITSKGEPASITEYWANLPSDIHLERRIRNIKINSEKQSAFLNKIKDNINNLLFLRLIVATQPKLVPALGKKTPDITEIQIGGGTLNAQLDYALSILGKPMTVNSVLKEGQLIDIIGVTKGKGFEGVVKRYSVQELPRWHKHRKGSRKVGTKGPSLGTPSYVPQPGQMGFHRRTEYNKLILKISDKIDEINPKGGFVKYGQVRNTYILLKGSTIGVRKRPLFLRYAIRPYEITPTPQNITYIDLNSKQG;locus_tag=LOCUS_14800;note=WP_010978402.1 50S ribosomal protein L3 (Sulfurisphaera) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-130],MGA_1481
sequence1	MetaGeneAnnotator	CDS	1339901	1340638	.	-	0	ID=MGA_1482;product=putative RNA uridine N3 methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978403.1;translation=MFEFPRRKELNVALFSSILSVESSIEEVTLKVSEIFRYLLIFRVSKLYIINDSPKLYNIIRKIFDYAILPPYLKRTIPRQKELSKVGLLSPMNIYSHIVHRLPTEGEVRIGKGGDFGLKRNLNIKDSSVLILDSVELDYIKYPYIYYSGFKLIKCDLDSIKTKKNLIIGSRNGKDPFLHKREINDLYEKNGITLLIGPPKGNLLNTLGLEFLIKSYNFIPKQGVSDIRTEEALISSLSILNLIIE;locus_tag=LOCUS_14810;note=WP_010978403.1 putative RNA uridine N3 methyltransferase (Sulfurisphaera tokodaii) [pid:52.1%25%2C q_cov:94.7%25%2C s_cov:94.7%25%2C Eval:1.0e-55],MGA_1482
sequence1	MetaGeneAnnotator	CDS	1340641	1343595	.	-	0	ID=MGA_1483;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978404.1;translation=MIKDCILRYERLSGFRVYDQPGYDTHGLPIEVAVEKQLGITKKQDIIDKVGVDKFVSLCKDFALKNASSMTQNFMNIGVFMDWNKPYYTLDSTYISNSWAIVKKAYEKGLLEKDVEVLHWCPRCETTLSDYEVSEYRDQEDPSIYVKFKIKGQNNRYLIIWTTTPWTLPANVFVMINKDYNYADVEVGNEIYVIAEERVKNVMTEAKISNYKVLKVYKGEELLGLNYENPLKDLVPAQNNLDAYHKVVDGGNLVSLEDGTGLVHSAPGHGDVDFDLGKRIGSPIVMLVDDRGNMTEQAGKYKGKYVRDASIEIIEDLKARNALLISTKIVHRYPICWRCKTPLILRAIQQWFIKVTKVKQELLNEINNVEWIPDWGKTRIGNMVKELRDWVISRQRFWGNPLPIWICKNNHVTVVGSVEELKKLAIDSVPNDLHKPWIDNVKLKCPICGEEAYRVPDVADVWFDSGVAFFASLGENWKEKWEKLSPVDLVLEGHDQLRGWFFSLLRSGVILDDKAPYKSVLVHGFMLDEQGREMHKSLGNYVEPSVVIDKYGRDVLRLWLLKNTTWEDAKFSWKSIELTKRDLQVVWNVYVFASMYMSLDNFNPEKYTFNDIKNALKIEDYWILSRFNRVLKGIKESMKYYKVHELANAIIQFLVDDVSRFYLRLIRNRAWIESNDPSKIAMYYILYYILKNWIILASSVIPYTAEKIYKEFVINGKLSVSMESIPEAQNELINDELEYAINLVKEINEAGLNARARAGIKLRWPLKSAYVFLNSENDIKSIGLVTDILKSTLNVKNLEIMGIESLKSFSKVVADPNSGSIGKEFRQNTPKIVQYINQNSEIVAKDILEKGTHTFMLDGTEVSLNLTHVTIRESVIEGYTIARFDKGAIAISKELSKEEEEEGIIRDLIRRIQFMRKSMNLNVLDNILVYIQSPEDKYSIINKWKDYIKSETRAVDVVTNKIEGELINDWDIEDEKYTIGIKKV;locus_tag=LOCUS_14820;gene=ileS;EC_number=6.1.1.5;note=WP_010978404.1 isoleucine--tRNA ligase (Sulfurisphaera tokodaii) [pid:66.0%25%2C q_cov:99.9%25%2C s_cov:94.2%25%2C Eval:0.0e+00],MGA_1483
sequence1	MetaGeneAnnotator	CDS	1343861	1344871	.	-	0	ID=MGA_1484;product=3-isopropylmalate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978405.1;translation=MSFILALIPGDGVGPEIVNASKRILGKLIENYDLKIDIIEVEAGDSALAKYGTALPQQTIDVINKADVILKGPVGESAMDVVVKLRQMYDMYANIRPAKTLPNVQSKYSNVDILIVRENTEDLYKGYEYLIDNDSAVGMKIITRKASERIAHVALNYAVKRKKKVTCVHKANVMRITDGLFAKACRNVIKGIEYNEMYVDAAAANLVRNPNMFDVIVTTNVYGDILSDEAAQIAGSLGLAPSANIGDNKALFEPVHGAAFDIAGKDIANPTAFLLSVSMLFEYLYDKSKDNRYLKASNSLLDSIISVYSENKYTTIDVGGNTKLSQMSDVIYQRIK;locus_tag=LOCUS_14830;gene=leuB;EC_number=1.1.1.85;note=WP_010978405.1 3-isopropylmalate dehydrogenase (Sulfurisphaera) [pid:71.4%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:7.8e-135],MGA_1484
sequence1	MetaGeneAnnotator	CDS	1344884	1345477	.	-	0	ID=MGA_1485;product=DUF447 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978406.1;translation=MIQINIKDIFPKDGVYESILGSTGVLNNLSPIGIIREGDNISAKIYRNTLTYSNISKIPKCSIHITDNPRIFYNSLFGNINYTIKNALPIINDESIYEIIFAKCIKLNNDNPSIFLLDPYSIEIGSNVHRGFSRGYSLLIDALVHFTRLDILPNKEVLKLLNIINYELKTSKRLSPDMEDIIRDLENKIVSKGYKLE;locus_tag=LOCUS_14840;note=WP_010978406.1 DUF447 family protein (Sulfurisphaera tokodaii) [pid:36.1%25%2C q_cov:97.0%25%2C s_cov:96.4%25%2C Eval:8.8e-32],MGA_1485
sequence1	MetaGeneAnnotator	CDS	1345521	1346903	.	+	0	ID=MGA_1486;product=M28 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978407.1;translation=MGEIVAGDQKERKLISKFEKMFSNIDDRKIVPIEVLNYSSETYMEGEKKIEAISLPYSPDIDFDGKIVRDFKSCNNSGILIILDNLYDINKFYIKALENQCQFIVFTLDNNLRKYVVKTPPFLNLSASIPPPIPAFYIRKNDLDYIREKISIKNLTKIKRTTGYIFEIIKNAKKDDKIYVSAHHDHWFTGEHDNLASLALFPEIESSIYELHLITFTAEEAGALGYSSFSWSFGSRYYLDNVVKNLDNIILNINLDNINPFSPVVKISPGLFTLSTKYFNVKREIEIYSDGYSFFKKGIPSLTIEGINPNYHSDNDTVNKDEEKGFYDILHKINTILNTEIVIDNLEIKENLVNIMENLPLPLRVNLVNITNNTFLDKKPTSIYKLYGGIYNFQERYAKVKPFPLILGLDSVRANTSKVFIEGKPSMELRPVDKEYYAHLMEQFIDYYINSIHELSKDIL;locus_tag=LOCUS_14850;note=WP_010978407.1 M28 family peptidase (Sulfurisphaera tokodaii) [pid:35.8%25%2C q_cov:97.0%25%2C s_cov:93.3%25%2C Eval:2.7e-62],MGA_1486
sequence1	MetaGeneAnnotator	CDS	1346886	1347611	.	-	0	ID=MGA_1487;product=HAD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978408.1;translation=MEDYNEFEKIRAIFFDFDNTLVDFETNSKRALDVLSKELYTYLIDNNLSLNISSSEINEIVTSISCKLDSEGVYDRTIWIEKILEKLGISVNKEQIFEWVSLYWSIASDTKVFDDVQDTLDFLKKKGYKLGIITNSDGEGGSKSRRLENFPLIKYFDIIVIGGENNIKPKPSVQPFIVGCEKLSLSSDQCVMVGDDPVKDCLAAKKAGLNSILIDRQNKVKFAELYADLVIRNIKSLQDIF;locus_tag=LOCUS_14860;note=WP_010978408.1 HAD family hydrolase (Sulfurisphaera tokodaii) [pid:55.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.3e-78],MGA_1487
sequence1	MetaGeneAnnotator	CDS	1347618	1349828	.	-	0	ID=MGA_1488;product=elongation factor EF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846316.1;translation=MPRFKTTEEVLGLMKDRERVRNIGIIAHVDHGKTTTSDQLLAASGIISPKVAGEALALDYLSVEQQRGITVKAANVSLYHEFENKGYVINLIDTPGHVDFSGRVTRSLRVLDGSIVVVDSVEGVMTQTETVLRQSLEERVRPILFINKVDRLIKELKLGPQEMMQKLLDIIKEVNNLIDIYAEPEFKEKWMINPTAGNVVFGSAKDKWGFSLPIAQKKGINMKNVIDAYTAPDKSKLEELANQVPINEALLDTVIKFIPNPIEAQKYRIPKIWKGDLNNELAKAMLNSDPNGPIVMMITDMKVDPHAGLVATGRVFSGTLRSGEEVWLVNAKAPQKVLQVSIYMGQFRELADEIPAGNIAAALGLDKARAGETLIAPEYKALQGSFETLHYVSEPVVTVAIEPKNPKDLTKMIDALRKLSIEDPNLVVKINEETGEYLVSGMGFLHVEVSLQLLKDNYGVDVVTSPPIVVYRESIRAKSQVFEGKSPNKHNKFYISVEPLNDKTVDLIANGTIKEDMDSKEMAKILRDQAEWDYDEAKKIIAIDENVNVFVDMTSGIQHLREIIDTLLQGFRLAMKEGPLAHEPVRGLKVTLHDAVIHEDPAHRGPAQIFPAVRNAIFAGFLTAKPTLLEPIQKLDIRVPMDLVGNVTSVLTRKRGKILNMSQVGSAARIAAEIPVAESYEIASDLRGSTGGRAFWGTEFSRWAPVPDSLLVDVIMKIRERKGLPKELPKPEDFLS;locus_tag=LOCUS_14870;note=WP_052846316.1 elongation factor EF-2 (Sulfurisphaera tokodaii) [pid:82.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_1488
sequence1	MetaGeneAnnotator	CDS	1349909	1350595	.	-	0	ID=MGA_1489;product=3'-flap repair endonuclease Xpf;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978411.1;translation=MIRIYADDREEASGIPSILRSLGITVFLRQLSVGDYIVGDNIAVERKSVIDLVNSIFDKRFFDQIGRLTSSYDISFLLIEGNLNRIYKITNNWKAVNSALISVMTIQNLRVIYSIDKQESAEILKKLAEKFQLNDNKKKSISLHDKPKFENIKEEQEYIVESFPQIGEILAKKLLEKFGTIKNICNANISDIEKAIGSRKKAEEIYKIINTPYSSSENNSKKSLLDFI;locus_tag=LOCUS_14880;gene=xpf;note=WP_010978411.1 3'-flap repair endonuclease Xpf (Sulfurisphaera tokodaii) [pid:57.4%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:1.5e-71],MGA_1489
sequence1	MetaGeneAnnotator	CDS	1350624	1351010	.	-	0	ID=MGA_1490;product=prefoldin subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978412.1;translation=MAEKLPPEVQTQLLKLQQLQSQLERLGYEKSVIDSELREVNKVLEELSTLPADTIIYKILGNLLVKKDKSTIEKELSDRKEILELRSRTYQKQEDLLKKQFDDLQRKVNELLQRYYPQGGSSTVPPKA;locus_tag=LOCUS_14890;note=WP_010978412.1 prefoldin subunit beta (Sulfurisphaera tokodaii) [pid:70.5%25%2C q_cov:95.3%25%2C s_cov:97.6%25%2C Eval:9.4e-44],MGA_1490
sequence1	MetaGeneAnnotator	CDS	1351011	1351235	.	-	0	ID=MGA_1491;product=KEOPS complex subunit Pcc1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978181.1;translation=MITISLELKDLPKDIENIVSKSILLEKIDLNYISISSSPFKIDIKSPSITRGRAIMNSYIFWIYTILRVIEEVK;locus_tag=LOCUS_14900;note=WP_010978181.1 KEOPS complex subunit Pcc1 (Sulfurisphaera tokodaii) [pid:49.3%25%2C q_cov:91.9%25%2C s_cov:87.7%25%2C Eval:4.0e-10],MGA_1491
sequence1	MetaGeneAnnotator	CDS	1351232	1351666	.	-	0	ID=MGA_1492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNELELIIPNSLKINRGRQSFKQILHISYDIGARFLLFILTYKGNPSYLELYSISYNAILLKYKFRISSISLVSDIKDKKIPRNPCINKMECTKIMDFITDINLFRLTRCESFLNIIKLSEKECEIYFTDLKGYKIGLSMRLLI;locus_tag=LOCUS_14910;note=WP_198429731.1 Brix domain-containing protein (Sulfurisphaera tokodaii) [pid:34.6%25%2C q_cov:89.6%25%2C s_cov:74.4%25%2C Eval:7.1e-16%2C partial hit],MGA_1492
sequence1	MetaGeneAnnotator	CDS	1351716	1351934	.	-	0	ID=MGA_1493;product=50S ribosomal protein L37ae;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978414.1;translation=MAKYKVVGVAGRLGPRYGSTLRKKWKEIMERRYAEYQCPVCKSSGKVVRISSGIWYCKKCGAKWAGLAYTPY;locus_tag=LOCUS_14920;note=WP_010978414.1 50S ribosomal protein L37ae (Sulfurisphaera) [pid:79.4%25%2C q_cov:94.4%25%2C s_cov:97.1%25%2C Eval:1.2e-30],MGA_1493
sequence1	MetaGeneAnnotator	CDS	1351949	1352776	.	-	0	ID=MGA_1494;product=exosome complex protein Rrp42;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978415.1;translation=MSVTPSNENVIPLIKKESILHMLERGVREDGRKLTDYRPLNITLDYAKKADGSALVKLGDTSVLAGVKVEEEEPFVDTPSQGNLVVNVELLPLAYETFEPGPPDENAIELSRVVDRSLRDSKAVDLNKLVIEAGKKVWTVWVDIYVLDYGGNVLDASTLAAVAALYNAKLPKVLNDNGEIKIIREEKGDRVPIMFPVVTITAAKIGKYIVIDPDLEEEGIADAKLSISYTPEGRIVGMQKTGQGSFTLQEILNIENIARSSSEKLLEELKKQLNI;locus_tag=LOCUS_14930;gene=rrp42;note=WP_010978415.1 exosome complex protein Rrp42 (Sulfurisphaera tokodaii) [pid:70.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-108],MGA_1494
sequence1	MetaGeneAnnotator	CDS	1352778	1353512	.	-	0	ID=MGA_1495;product=exosome complex exonuclease Rrp41;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846320.1;translation=MIQLQKPKLILDDGKRLDGRKPDELRPMKMEIGVLKNADGSSLVQVGNTKILAAVYGPREMHPRHLALPNRAVLRVRYHMTPFSTDERKNPAPSRREIELSKVIREALESTILVEEFPRSSIDVFMEVIQADAGTRLASLMAASLAVVDAGIPVKDLIAAVAVGKADGIVVLDLNEPEDMWGEADMPVAMMPALGQINLIQLNGNMTPDEFKQAMDLSMKGINIIYNMEKDVLKNRYAELKEES;locus_tag=LOCUS_14940;gene=rrp41;note=WP_052846320.1 exosome complex exonuclease Rrp41 (Sulfurisphaera tokodaii) [pid:77.8%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.2e-109],MGA_1495
sequence1	MetaGeneAnnotator	CDS	1353490	1354218	.	-	0	ID=MGA_1496;product=exosome complex RNA-binding protein Rrp4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978417.1;translation=MSSNKLYFQNRSIVVPGDLVAEGNFQIPWSPYFYKVGTKYYSTVIGIFESKDPVFEIIPLEGPHYYPKIGDTVIGLIEDIELYGWILDIKSMYSAYLPASSLLGRAVNVGEDIRKYMDIGDYVIAKLENFDRTIDPVLSIKGKGLGRISSGTVIDIMPVKVPRVIGKNKSMLEVLTTETGCEITVAQNGRIWANCPSQDKENILILAIKTIEEESHTKGLTDRIKNLIKEKVGEINDSASKT;locus_tag=LOCUS_14950;gene=rrp4;note=WP_010978417.1 exosome complex RNA-binding protein Rrp4 (Sulfurisphaera) [pid:68.7%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:3.5e-98],MGA_1496
sequence1	MetaGeneAnnotator	CDS	1354221	1354919	.	-	0	ID=MGA_1497;product=ribosome assembly factor SBDS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978418.1;translation=MPTKDYIIVKYESHGERFEILVKPKEAFLFRSGKNIPVSDIVVSDTIYKDVKRGLKASPSALKKVFGSTDFETVVKDILLKGEIPLTSEQRKELVENKRKQVLDFIHRNAVDPKTGLPIPPARLEMAMEQAKIQIDINKDPEAQAMQIIHELTKIIPIKLARALLEIKVSAKYSSKIKSTLQNLGSVKKTNWLADGSLIAEIEIPAGAQEEVIDKLNSITKGEVEVKVVQVR;locus_tag=LOCUS_14960;note=WP_010978418.1 ribosome assembly factor SBDS (Sulfurisphaera) [pid:70.3%25%2C q_cov:98.7%25%2C s_cov:98.3%25%2C Eval:3.0e-91],MGA_1497
sequence1	MetaGeneAnnotator	CDS	1354929	1355654	.	-	0	ID=MGA_1498;product=archaeal proteasome endopeptidase complex subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846326.1;translation=MAFGPAAMGYDRAITIFSPDGDLYQVDYAFQAVKKGWTTLGVKTKNAVVILGEKKQSLLVDIDSVEKIFLIDDHVGCSFAGLASDGRVLIDYARNSSLQHKLIYDEPISIDYLTKLVADVKQMYTQHGGVRPFGVSLIIGGVDKGTPKLFMTEPSGQFMPYLAVAIGENYTTATEFLQKNYKDDLSVEDTITLAINALKATKQPGEKLGPNEIEIGYGAANTGIFRKLTLEERNDILQKLG;locus_tag=LOCUS_14970;gene=psmA;EC_number=3.4.25.1;note=WP_052846326.1 archaeal proteasome endopeptidase complex subunit alpha (Sulfurisphaera) [pid:73.1%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.4e-102],MGA_1498
sequence1	MetaGeneAnnotator	CDS	1355752	1356141	.	-	0	ID=MGA_1499;product=Rpp14/Pop5 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846328.1;translation=MLTLYVIKNKNIYTKKIINKRSIRSKRYILFYIILSKNENINISNKTIEDAIRRSVKELLGNMWLEISNPKVVFYDPNKLQGVISTNRAGYKVVIASLPLVKEINNTKVLIVATRTTGSLKRAKKLMSM;locus_tag=LOCUS_14980;note=WP_052846328.1 Rpp14/Pop5 family protein (Sulfurisphaera tokodaii) [pid:51.5%25%2C q_cov:100.0%25%2C s_cov:90.0%25%2C Eval:3.2e-28],MGA_1499
sequence1	MetaGeneAnnotator	CDS	1356167	1356724	.	-	0	ID=MGA_1500;product=RNase P p30-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846330.1;translation=MLIETCIKNHDLLPILKKVGYNISFLEDNFQYSYKYLRKTIIASNLKEFKNGIASIKKKRLIFLKPLSKDVLRYGIINSKISGIIIDDSNFRILKKTSLNLLRQHNKFVEIPLPSSSSYLIYKIIPLAYKWFNVVFSSYSQDINEIWTPISKLNYLVIHGADEEEALRWIYDNPLKLLIHASNNY;locus_tag=LOCUS_14990;note=WP_052846330.1 RNase P p30-like protein (Sulfurisphaera tokodaii) [pid:47.5%25%2C q_cov:96.2%25%2C s_cov:96.7%25%2C Eval:1.0e-36],MGA_1500
sequence1	MetaGeneAnnotator	CDS	1356693	1357139	.	-	0	ID=MGA_1501;product=RNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978422.1;translation=MKLNNIIFLVFSYQTENKDKIKYAIDSLLSDYVKEGEIEEERIEGHYGDSIIEIKYLFQGKVCSKILDTLLSKFDKADIIYLLSTLDSRVEKSKVHLRLDKQLLIAKNKLALKDGDDIIKVIIGTGGRLKEFKEELKQFVNRDLHKES;locus_tag=LOCUS_15000;note=WP_010978422.1 RNA-binding domain-containing protein (Sulfurisphaera) [pid:47.3%25%2C q_cov:98.0%25%2C s_cov:99.3%25%2C Eval:1.5e-32],MGA_1501
sequence1	MetaGeneAnnotator	CDS	1357142	1357786	.	-	0	ID=MGA_1502;product=50S ribosomal protein L15e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978423.1;translation=MALSMYSYISKTWQSDNWKNVIKARMIEWRDDNSIVRLAKPTRLDRAREIGYKAKQGFTVVRVRVSRGGSDKLRPNSGRRPKRMGVYGYSPSKGYRWIAEEKAARKFPNLEVLGSYYVGEDGLYKYYEIILVDPNHPVIKADKDLKWLQNSSNHRRVFRGLTSAGKKARGLSKSRGLKYTINHKNSKKQKERELKKRHEANKYYRLQNYKIPGK;locus_tag=LOCUS_15010;note=WP_010978423.1 50S ribosomal protein L15e (Sulfurisphaera tokodaii) [pid:76.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.5e-95],MGA_1502
sequence1	MetaGeneAnnotator	CDS	1357855	1359057	.	+	0	ID=MGA_1503;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978424.1;translation=MISIGLIGKTNVGKSTFFEAATLLDVEIANRPFVTIEPNIGIAYVKNRCVHTELNVTCNPKNSVCIGDYRFIPIKLIDVAGLIPGAHEGRGLGNKFLDDLRKADVLIHVVDISGSTNDEGLPVPPGTRDPEEDIKFIENEIDEWFYSIIIKDWEKFSRISDLGGKDIIESLLSKLSGLSINREQIIKTLSTTKLENLKLMQWTKDDIKIFSKTLREISKPIIIAANKIDISTSKKNFEKVKSKYKYVIPTSAESELALRKAAKAGIIDYIPGESHFDIKEKIDEKRYKALEFIKNNILEIYGSTGVQQAINTAVLDALNQIVVYPVEDERKYTDKNGNVLPDAILIKEGSTPKDLAAQIHSDLAKGFLYAIDAKKKVRIGENYKLKNNDVIKIVSTLAHG;locus_tag=LOCUS_15020;note=WP_010978424.1 redox-regulated ATPase YchF (Sulfurisphaera tokodaii) [pid:74.1%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:4.2e-173],MGA_1503
sequence1	MetaGeneAnnotator	CDS	1359054	1360256	.	-	0	ID=MGA_1504;product=bifunctional sugar-1-phosphate nucleotidylyltransferase/acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978425.1;translation=MKAVILAAGKGERLEPITHTRPKPFVPVLGSTLIEYTIDLLRKYVSDIYIVIPSELSAEYSAFYNRLKGVKLYYQGKNSGTAAALASVGNISEDFLLVYGDIFFDEDAIRSVLNFTENAIVGVKVNNPTEYGVILMKNSILEKIIEKPMEPVSYFINSGIYKFNPDIFTYIDKISISSRGEYELTDAVNLMAKNEKIFVVQYKGSWIDVGRPWQVIDVNKIALDNKEPKNLGEIDDNVKIIGKVVIEEGAKVLHGSYIQGPVYIGKDCIIGPNSYLRPYTILTQNNKVGASVEIKESVIMENSKIPHLSYVGDSILGENVNLGAGTLIANLRFDEQNVKINIKGNKISSGRKKLGTIMGGYVKTGINVSILPGIKIGAYATIYPGSIVNRDVNKGEFYKN;locus_tag=LOCUS_15030;gene=spn;EC_number=2.3.1.-%3B 2.7.7.-;note=WP_010978425.1 bifunctional sugar-1-phosphate nucleotidylyltransferase/acetyltransferase (Sulfurisphaera) [pid:61.9%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.5e-138],MGA_1504
sequence1	MetaGeneAnnotator	CDS	1360228	1360890	.	-	0	ID=MGA_1505;product=30S ribosomal protein S3ae;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978426.1;translation=MTFNMSSKGSRGSSGAIKDKWKMKRWYSIYSPKVFGEISLGSTPAFTVDQTIGRKVETTLYDLTGDFSMVYVHIYFKVASHDGDRLYTAFYGHELSRDYIRSLVRRKSSKVNTVIDVATKDGYKLRVKGLALTTYRLHREQRTAIRKIMQDLIRKDAEAHTFDEFVQEMVFGNLSNTIFSETKKIAPLRKVEIEKSKVLGLLELPKEVAVTSEGSNTSSG;locus_tag=LOCUS_15040;note=WP_010978426.1 30S ribosomal protein S3ae (Sulfurisphaera tokodaii) [pid:66.8%25%2C q_cov:85.0%25%2C s_cov:96.9%25%2C Eval:7.7e-70],MGA_1505
sequence1	MetaGeneAnnotator	CDS	1360912	1361598	.	-	0	ID=MGA_1506;product=tRNA (cytidine-2'-O-)-methyltransferase TrmJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978427.1;translation=MIRVVLVEPEGEYNVGFVARLCKNFDIDELYIVNPKCNIVNAESFSAKGRDILENALIVNSFDDAIKGVELKIATSSIADTKGDILRKAIRPWELNDIIGGKKVALIFGRESVGLTREEIAKSDFLLYIPASKLYPTLNLSHAVGIVLYELWKTKDSRKMKVTSESLVLIDKYSKLLFNLIKNYEGDLSMYFALKRALIKGVSDEEEARTVIRFLRKIYTRILHQDKE;locus_tag=LOCUS_15050;gene=trmJ;EC_number=2.1.1.-;note=WP_010978427.1 tRNA (cytidine-2'-O-)-methyltransferase TrmJ (Sulfurisphaera) [pid:70.3%25%2C q_cov:97.4%25%2C s_cov:97.8%25%2C Eval:1.2e-84],MGA_1506
sequence1	MetaGeneAnnotator	CDS	1361558	1362169	.	-	0	ID=MGA_1507;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978428.1;translation=MSNFRTTKIYGINICLDDNVYEPAEDSEMLLSIIKVNNGEKVIEIGSGSGILSVLAARMKGIVSAVDINPYASLVTLCTAKLNNVDINIVNCDMLECFRDIHWDVAIFNPPYLPVEEYNSWIEYSWSGGKIGSEVLVRFLNKIQAKRVYTIYSSLDNEEIILRNIKKRGFIVSKKVEKVIGFEELIALELYDKSCTSRARRRI;locus_tag=LOCUS_15060;note=WP_010978428.1 class I SAM-dependent methyltransferase (Sulfurisphaera tokodaii) [pid:54.1%25%2C q_cov:94.6%25%2C s_cov:97.0%25%2C Eval:1.5e-53],MGA_1507
sequence1	MetaGeneAnnotator	CDS	1362121	1362777	.	-	0	ID=MGA_1508;product=16S ribosomal RNA methyltransferase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978429.1;translation=MTNLSQNFLCDSKFIEKFISYLDFSYPIIEIGCGNGVISKEINPDLCIEIDKKFIPNIRQYNLVISDARYLPVYRGSIISSFPYSITEVFFEEVIKNDKINSLLLILQKDFVDKIMTYPTFISFILNYYYRIIPKDIIPPKAFCPSPKVFSQIVLFTKIRHYDPYITKILKCITKYRNKKIKNAASICGIKANEEKKVRDFRPCQISELLKYMGLTYA;locus_tag=LOCUS_15070;note=WP_010978429.1 16S ribosomal RNA methyltransferase A (Sulfurisphaera tokodaii) [pid:56.8%25%2C q_cov:98.6%25%2C s_cov:99.1%25%2C Eval:6.8e-63],MGA_1508
sequence1	MetaGeneAnnotator	CDS	1362770	1363396	.	-	0	ID=MGA_1509;product=DUF655 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978430.1;translation=MLQRRRPKERFVYVLDYLREGNPLDKHRGHKNRPLAQVIGEDYFILMEALVSDQDFQIEEKVDLFNSSALRIDVVISYEDLTSVAKDTLPRVVKRIVTNKERVFVEFFNKSDALTIKLHALELLPGIGKKTLRIILEERKKKPFESFSDIEQRTGIKNTIDVIVERILTEIERKDKYYLFVYPTEVEHRKPQEQVIYVGYLDKLRGND;locus_tag=LOCUS_15080;note=WP_010978430.1 DUF655 domain-containing protein (Sulfurisphaera tokodaii) [pid:59.7%25%2C q_cov:97.6%25%2C s_cov:94.6%25%2C Eval:6.7e-65],MGA_1509
sequence1	MetaGeneAnnotator	CDS	1363438	1363776	.	-	0	ID=MGA_1510;product=DNA-directed RNA polymerase subunit F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846882.1;translation=MSSESIIDEHYISYSEAKKYIYEIIKSGLQSPMIQRVYEYLNNVEKCSNEDVSSLLDEIKPIIEKEEVLAMIASICPTTIDELRAILVIDNKTYSNDDLEKVIESIKKHLKS;locus_tag=LOCUS_15090;EC_number=2.7.7.6;note=WP_052846882.1 DNA-directed RNA polymerase subunit F (Sulfurisphaera) [pid:50.5%25%2C q_cov:98.2%25%2C s_cov:97.4%25%2C Eval:2.5e-28],MGA_1510
sequence1	MetaGeneAnnotator	CDS	1363780	1363992	.	-	0	ID=MGA_1511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEFKVGDKVIVKINSAIHNGMPHRRYQGKVGSVISKRGKAYEVKVNLGNKEKLIIVRPEHLVLFSNKSE;locus_tag=LOCUS_15100;note=WP_010978432.1 50S ribosomal protein L21e (Sulfurisphaera tokodaii) [pid:66.7%25%2C q_cov:94.3%25%2C s_cov:64.1%25%2C Eval:4.1e-20%2C partial hit],MGA_1511
sequence1	MetaGeneAnnotator	CDS	1365217	1365861	.	+	0	ID=MGA_1512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTPGLPHQNNIQQIGYKLLSMLNFQGEKVYEVAKTLISACLWNDSVENKSRAYDVSPQTVRNYVEKQGMEVIEKLLERARKISLEILKGVNEIDLSIDWTTKTWYGKPVKGLGSSEKGNSWNYATATTKYKGKVLLLAFIPQVNGMTKEEIVKILVEQVMAMGFKIRLITLDAGFYTVDVLNFISQFKYIIAVPVGDVKVFEEFDGDYTTNSK;locus_tag=LOCUS_15110;note=WP_012953324.1 ISH3 family transposase (Sulfolobus islandicus) [pid:94.4%25%2C q_cov:100.0%25%2C s_cov:60.5%25%2C Eval:2.1e-109%2C partial hit],frameshifted%2C insertion/deletion at around 1365858,MGA_1512
sequence1	Aragorn:1.2.38	tRNA	1366630	1366714	.	-	.	ID=Aragorn_9;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00090;note=Aragorn_9
sequence1	MetaGeneAnnotator	CDS	1366892	1367803	.	-	0	ID=MGA_1513;product=polyamine aminopropyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978308.1;translation=MQYGWSWHLEWQYPCEFHGHLIDRVIEDIKTSYQRIMVAELTRFGKTLIIDGKIQSSVFDEFIYHETLVHPLLLSIKNPKNVLILGGGEGATLREVLRHKLVTESVMVDIDQSVIDFAKKYLQEWHKGSFDDPRSKIIISDAYNFFDNNNDNYDAIILDLTDPILGNTSYKLYTKEFYEKLKKHINVGGGMVTQATSPSFNTDTFTTIYNTLKHIFQYVVTSIVYVPAFDGLWGFVYASDYINPIDLSKEDIDKKIKERINGELRFYDGETHHTIFSIPKYIRQEMIKQNKISTESNPTYIPA;locus_tag=LOCUS_15120;gene=speE;EC_number=2.5.1.16;note=WP_010978308.1 polyamine aminopropyltransferase (Sulfurisphaera tokodaii) [pid:62.5%25%2C q_cov:99.3%25%2C s_cov:99.7%25%2C Eval:1.0e-111],MGA_1513
sequence1	MetaGeneAnnotator	CDS	1367803	1367988	.	-	0	ID=MGA_1514;product=50S ribosomal protein L37e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978307.1;translation=MKGTPSFGKMNNNYTHIRCRRCGRNSYNVTKHYCAACGFGKSKRIRSYSWQNKKVNGVRIK;locus_tag=LOCUS_15130;note=WP_010978307.1 50S ribosomal protein L37e (Sulfurisphaera) [pid:78.3%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:5.8e-25],MGA_1514
sequence1	MetaGeneAnnotator	CDS	1368003	1368230	.	-	0	ID=MGA_1515;product=LSm family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846912.1;translation=MAETAHKLLAESLGSLVLVKLKGSKEVRGTLKSYDQHMNLVLSDSEEIQSDGSGKKIGTIVIRGDNVILISPIQQ;locus_tag=LOCUS_15140;note=WP_052846912.1 LSm family protein (Sulfurisphaera) [pid:79.5%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:6.1e-27],MGA_1515
sequence1	Aragorn:1.2.38	tRNA	1368949	1369023	.	-	.	ID=Aragorn_10;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00100;note=Aragorn_10
sequence1	MetaGeneAnnotator	CDS	1369146	1371065	.	-	0	ID=MGA_1516;product=beta-CASP ribonuclease aCPSF1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978304.1;translation=MSNNRLSIISSIYNGLPKDAQITRIEFEGPEIAVYVKNPSFLSSNVESIKKIAKEIKKRIVIKADRSIRKDEKETIEIIKNLVPQEAQIVDIKFDDELGEVLIRAKKPGLVIGKGGSIQQKIFLETFWRPEIIREPPIKSKTVESVLTHIYNETEYRAKILKTFGERIHREVIYKDRYVRITALGAFQEIGRSAVLVETSESRVLLDTGVNPSVNFGEKMYPKLDIDQLRLEDLDAVIITHAHLDHCGMVPFLFKYGYEGPVYTTQPTRDVMALMQLDLLDVAEKEGRPLPYSAKEVRKELVHTITLDYEEVTDVAPDIRLTFYNAGHILGSAMAHLHIGDGLHNVVYTGDFKYAKTRLLDRAVNEFPKVDTLIMETTYGAQRQTNREESEAELIEIINKTISRGGKVLIPVLAVGRGQEMMLVINDAMKRKLIPEVPVYVTGLFDEVTAIHTAYPEWLSKEVRDSILYKDENPFVSEMFKRIEGYKEDIAQGDPSIILATSGMLNGGPAVEFFKNMASDSRNSIIFVSYQAEGTLGRKVRDGSKEVQIINRDGRIENISINMEVETVDGFSGHSDKIQLLNFLRDLSPKPRNIVLDHGEASSIRSFMRIIENQKEKERLGIKSASIYAPNILDSLRVV;locus_tag=LOCUS_15150;note=WP_010978304.1 beta-CASP ribonuclease aCPSF1 (Sulfurisphaera tokodaii) [pid:76.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.9e-296],MGA_1516
sequence1	MetaGeneAnnotator	CDS	1371139	1372197	.	+	0	ID=MGA_1517;product=NAD(P)-dependent glycerol-1-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978305.1;translation=MASEEHIIDLPKRIYVGNGIIDKLHEYFYQLNSLSPFLIITGHNIRKIVVSKILDEIGNIESNIEVEEVEEANIDEATRIEEIAKKMNTNTIIGVGGGKSIDIAKYTAFRLNKDFISIPTAPSHDGITSPFASIKGLGKPVSMKAKGPMAIIADIDIMSSAPKRLINAGIGDTVGKIVAVRDWRLAAKLRGEYYGDYTASLALLSAKHALNCTKIINRDLKYGVRLLTEALISSGVAMGMAGSTRPASGSEHLFAHAVEMLYPNSALHGELVGIGTIIMAYIHGIKWKEIKRALARIGFPLTAKELGIPREIVIKALTIAHTIRPERYTILGDRGLTWSSAEKIAKDTGIID;locus_tag=LOCUS_15160;EC_number=1.1.1.261;note=WP_010978305.1 NAD(P)-dependent glycerol-1-phosphate dehydrogenase (Sulfurisphaera tokodaii) [pid:68.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-140],MGA_1517
sequence1	MetaGeneAnnotator	CDS	1372200	1372892	.	-	0	ID=MGA_1518;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978306.1;translation=MFKDNDFLYIDYTAKIKDTNEIIDTTIEEEAKKANIFNSEKKYGPQLVILGEHRLVKGLEEALYNFNINEEKTIEVTPDKAYGERDPTKIKIVSLGELKRQGISPYPNMVIRLQDGSLATIKSVSGGRVIIDLNHPYAGKTILYQVKIVKQLQDDKEKISALLERWFGSNPKLNFEITDDKKNVNFNVNKDIFLLEDIQMRKFMLAKDIITFVLPESVVSYTEKYDKSVF;locus_tag=LOCUS_15170;note=WP_010978306.1 peptidylprolyl isomerase (Sulfurisphaera tokodaii) [pid:62.5%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:2.3e-80],MGA_1518
sequence1	Aragorn:1.2.38	tRNA	1372947	1373035	.	-	.	ID=Aragorn_11;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00110;note=Aragorn_11
sequence1	MetaGeneAnnotator	CDS	1373082	1374332	.	-	0	ID=MGA_1519;product=adenosylhomocysteinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978302.1;translation=MEYNVKDLSLADQGKKQIEWAEMHMPALISIRQQLSSSQAFKGIRISAVLHVTKETAALVRTLKAAGADIYLAGSNPLSTQDDVAAALVKYDGIHVFAWKGESETDYYNNMNEILKYEPNVVMDDGGDLHALIHEKYRNIKLFGGTEETTTGVIRLKAMEEQGVLLYPVIAVNNAFTKYLFDNRVGTGQSAIDGILRATNILIAGKVAVVVGYGWVGRGIASRLRGMGARVIVVEVSPLRALEALMDGFDVMPMKDAAKIGDLFVTATGNINVISKDHILLMKNGAILANAGHFNVEIDVKGLKEIAKNIRTIRPYTEEYELPNGNKVYLLADGRLVNLAAAEGHPSEVMDLSFSNQALSVDYIVKNHLSIEKRVYNVPLDIDEQVAFLKLKGMGIEIETMTEEQKEYIKQWKYGT;locus_tag=LOCUS_15180;gene=ahcY;EC_number=3.13.2.1;note=WP_010978302.1 adenosylhomocysteinase (Sulfurisphaera tokodaii) [pid:77.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-186],MGA_1519
sequence1	MetaGeneAnnotator	CDS	1374372	1375655	.	-	0	ID=MGA_1520;product=TrpB-like pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979620.1;translation=MILRYDLSQDEIPTNWYNILPDLPEPLPQPQDPTGKSFGVLKQALPSKDLENEFSTQRYIKIPDEVIERYLQVGRPTPIIRAKKLEEYLGGYIKIYMKMESHTYTGSHKINSAIPHVYYATLDNAKFVSTETGAGQWGSAVALASALFKMKAYVFMVRTSYFAKPYRKYMIEMYGAEIHPSPSDFTEYGKKILEKDPNNPGSLGIAITDAITYALNNGGKYLVGSVVNSDILYKTIAGQEAKIQMEKIGEDPDYIIGVVGGGSNYAALAYPFLGDELRSGKIRRKYIASGSLEVPKMTKGVYRYDYPDTGKVLPMLKMYTIGYDFIPPAVYAGGLRYHAVAPSLSLLMNKGIVESRDYSQEEAFKWARIFSEIEGWIPAPETSHALPILKEIADNAKKEGEEKTVLVSFSGHGLLDLGNYADVLGFK;locus_tag=LOCUS_15190;note=WP_010979620.1 TrpB-like pyridoxal phosphate-dependent enzyme (Sulfurisphaera tokodaii) [pid:80.7%25%2C q_cov:99.3%25%2C s_cov:98.4%25%2C Eval:9.6e-208],MGA_1520
sequence1	Aragorn:1.2.38	tRNA	1375720	1375794	.	-	.	ID=Aragorn_12;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00120;note=Aragorn_12
sequence1	MetaGeneAnnotator	CDS	1375836	1376282	.	-	0	ID=MGA_1521;product=RecB-family nuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978296.1;translation=MIMIGLHNIASYQRLMDFSKAVFNFDIKYFVITKVSGTAAQTGIPDLSKLAFKQGKSFIVLPDLKDAIELLHPDNVYLLSNYSDKELHPDSIDYNKKTLIVFSGIESGFTKIEQSLGEIVRLPRIKLDIGPVASLGALLYCVINNSKN;locus_tag=LOCUS_15200;note=WP_010978296.1 RecB-family nuclease (Sulfurisphaera tokodaii) [pid:48.6%25%2C q_cov:98.6%25%2C s_cov:95.4%25%2C Eval:2.1e-37],MGA_1521
sequence1	MetaGeneAnnotator	CDS	1376260	1377231	.	-	0	ID=MGA_1522;product=DNA cytosine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978295.1;translation=MAPLTVVDLFCGTGGFSLGFRQQGFKILLGIDINHSAARSYALNFPSTITIEDDIRNITSRDIIDLIGGKPPDIVIGSPPCEPFTAANPFRLNNAIDRLYLDERGTLTLEYIRLIGELRPKVFVMENVPAIVETRELKEALITEFMKNGYKPIFNFLHAEDYGNPSKRTRVFISNIAICPAKDKKKVTVAEAINDLEERFDIPNNEITELSEKKMKEISKLSYGDYLTMFRSYRGDVPVYIRLDPYDLAPTILGNSRFIHPFHDRYLTVREQARLMSYPDDHVFIGSKDEQYNQIGESVPVVLSNAIASYIKVKIFGDNDRST;locus_tag=LOCUS_15210;note=WP_010978295.1 DNA cytosine methyltransferase (Sulfurisphaera tokodaii) [pid:70.4%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:2.8e-126],MGA_1522
sequence1	MetaGeneAnnotator	CDS	1377209	1377745	.	-	0	ID=MGA_1523;product=transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978294.1;translation=MSNIDNLVTSLAKELLGEEVLDVLQFLLNRKIEITDDEIANELGVKVNEVRKKLYALADQGLVSYRRSRDKDTGWYVYYWKVNTDQINDILLNRKREILEKLKTRLEYEENNEFYICPEDKNKYTFEEAFENEFKCPRCGSQLEYYDSKKVREVLGKKIKDLQDEIDKETKLGPSNSS;locus_tag=LOCUS_15220;note=WP_010978294.1 transcription factor (Sulfurisphaera tokodaii) [pid:58.5%25%2C q_cov:98.9%25%2C s_cov:98.3%25%2C Eval:2.3e-59],MGA_1523
sequence1	MetaGeneAnnotator	CDS	1377742	1378197	.	-	0	ID=MGA_1524;product=tRNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978293.1;translation=MVARAFGAKGIYIEGEDENILKSIEKVKNEWGGNYFTLSFIKNPKKLVEEWKNNGGKVIHLTMYGININSIAGTIPDLDNILVIVGAEKVESWYYHAADYNIAISNQPHSEVAALAIFLDRIYKGEQLNIVFGDSKFLIVPQKAGKKVIKK;locus_tag=LOCUS_15230;note=WP_010978293.1 tRNA methyltransferase (Sulfurisphaera tokodaii) [pid:65.4%25%2C q_cov:87.4%25%2C s_cov:97.8%25%2C Eval:3.4e-46],MGA_1524
sequence1	MetaGeneAnnotator	CDS	1378266	1379330	.	-	0	ID=MGA_1525;product=GTPase HflX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978292.1;translation=MKAVLFVSDEFKDEALTLAETAGYEILDIYKLPKKPNSFFYIQEDRLAKIAESNNIDTIIIFDLLRPRHFINLNRKIPEKKVIDKLLLLLEIFALHAGSKEAKLQIELARLRYELPIIKDMYKKSKITEQQGPLGAGVYGVESTLRLYHRKISRISKELEHLKESREIQVQKTKNEGLPSIAIAGYTNAGKTSIFNALTGLSQKVDNSMFTTTSPKRYSIKVDSKKILLVDTVGFIRGIPPQIIEAFFVTLSEIKYASGILMVVDISLPDLTLIDMIKSSFNIIREIGVSGKPIIMVANKVDKVHDNTDVLRKLDIISKLSNELYFPIIDVISTSATKLYNIDVLRERTLKLLS;locus_tag=LOCUS_15240;gene=hflX;note=WP_010978292.1 GTPase HflX (Sulfurisphaera tokodaii) [pid:64.6%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:2.5e-126],MGA_1525
sequence1	MetaGeneAnnotator	CDS	1379327	1379851	.	-	0	ID=MGA_1526;product=multiprotein bridging factor aMBF1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978291.1;translation=MFVAIYYISDSMQKEAENYCELCGSVIHGKGITVNYEGSTITICPACYSKIKSHAKIVENKKQNTVQSRQTKKTQTETIWEIVDDYPKIIKEARESHGMSTKELAQKLKVQENIVKRIETGKLKPTIQLAKDLERILSIKILVKIDESNDNNSNNINNYELTLGDIINIREGRK;locus_tag=LOCUS_15250;note=WP_010978291.1 multiprotein bridging factor aMBF1 (Sulfurisphaera tokodaii) [pid:55.4%25%2C q_cov:93.7%25%2C s_cov:100.0%25%2C Eval:3.1e-45],MGA_1526
sequence1	MetaGeneAnnotator	CDS	1379889	1381067	.	+	0	ID=MGA_1527;product=proteasome-activating nucleotidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846270.1;translation=MSGELDLSRDNTNSDEQIIKILEEKIKALQIEAESLRKELNYYKSELEKLLSPPLIEAVVLDVLNNNRVIVRSTSGPNLVVNLSNGIDISNIKPGSSVALNQRGSTIVEILPNREDPLVKSMEIVEKPSVKYSDIGGLEKQIQELREVVELPLKNPAIFKELGVQPPKGVLLFGPPGTGKTMLAKAVATESNSTFIHVVASEFAQKFVGEGARIVREVFELAKKKAPSIVFIDEIDAIGAKRVDLGTSGEREIQRTLMQLLSELDGFQPLDNVKIIAATNRVDILDPALLRPGRFDRLIEIPLPDLKARKDILQIYIKKMKVRLDNFDIDKIARYTEGFSGADIRNICTEAGYIAIREGRREIYVDDFIKAINRVNENRKKEEYKSREEKYA;locus_tag=LOCUS_15260;note=WP_052846270.1 proteasome-activating nucleotidase (Sulfurisphaera tokodaii) [pid:71.5%25%2C q_cov:95.7%25%2C s_cov:95.7%25%2C Eval:7.4e-151],MGA_1527
sequence1	MetaGeneAnnotator	CDS	1381060	1381593	.	+	0	ID=MGA_1528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978289.1;translation=MRDREEKQFVTEPQELVDFDFIYLRNIAEYQFRQDIANCLFPDKSIFFIQRSLNTWRIRNILNKDNSLYLVLRAQDNLFSLTNISANIIKQCSKPPDFRVIISNDIGRIIREGGNVFSKHIINIDKGLRSGDNVIVVNEEDELIAYGRMKISGEEAIEYKRGVAVNVKGRLKNGNNT;locus_tag=LOCUS_15270;note=WP_010978289.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:57.3%25%2C q_cov:92.7%25%2C s_cov:93.2%25%2C Eval:1.2e-47],MGA_1528
sequence1	MetaGeneAnnotator	CDS	1381577	1382293	.	+	0	ID=MGA_1529;product=PAC2 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978288.1;translation=MGIILKGISESELKHSFFITGFRTLGEVGYLATRHIVLKRRMQRIGFITTKYLNGVTFLDEYGIVTPFELFYDKEYNVIVELNHILPVEKEWNVFSRKIVNWVKKLEIKNAILIGGLDKNYKTSNEKLKWMKTSKSDLNLQYPELDKQLIMVGPLALFTIYSEIKDVPATVILPYSDKDRIDPAAAAAAVEAINKIVGFDIAVDELYEDAKKIEEEIRKQLEYLQKEANRSGLDRHYM;locus_tag=LOCUS_15280;note=WP_010978288.1 PAC2 family protein (Sulfurisphaera) [pid:59.7%25%2C q_cov:99.2%25%2C s_cov:98.3%25%2C Eval:1.1e-83],MGA_1529
sequence1	MetaGeneAnnotator	CDS	1382267	1383757	.	-	0	ID=MGA_1530;product=tRNA guanosine(15) transglycosylase TgtA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978287.1;translation=MIGDFELKDEDLAGRIGILETKHSKLETPVFFPVVNPLKSEITIDDIKQLKFKQFITNSYILYKNNVIQNNVHDDLHFDSTIMTDSGAYQILQYGNININNSEIVNYQIKIKPDIAVFLDIPTGNIDNFEDAKKTVEDTIYRGKETLEIIKDEQEIVWVHPIQGGKFLDLLSYSAKAANNTSYKFLALGSPTVIMKEYDYATLIDMIFTVRSNISRGKPLHLFGGGLPQIIPFAVALGVDSFDSASYIIYARDNRYITRTRTYKLDELDYFPCSCPVCSKYSPKELMEMDKDSRIRLLALHNLYKILEEINDTKLAIKENRLFEYLQEKSYSHPAVYSAFRRLLKYAEYLEKYDPRVKGEIKGIFYFDETSFSRPEILRHYRFLDSLQKHNRNAVIICGDNLTVPVINDSKVRRILLKRYSDSDIYVALPFYGLIPAMISESYPLAQFEMPTELSTEVISKTITQISNFIKSKKYDNIEFANCEKSILSHIMSIKP;locus_tag=LOCUS_15290;gene=tgtA;EC_number=2.4.2.48;note=WP_010978287.1 tRNA guanosine(15) transglycosylase TgtA (Sulfurisphaera tokodaii) [pid:59.5%25%2C q_cov:99.6%25%2C s_cov:99.0%25%2C Eval:3.3e-170],MGA_1530
sequence1	MetaGeneAnnotator	CDS	1383754	1384191	.	-	0	ID=MGA_1531;product=Lsm family RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846267.1;translation=MSIVRRIVSDINSLLDKTVIVKLVNNRVYTGQLSSYELTPFIISLSNAKDNDNNTFFKVILNGNNITEILVKNAPLFDVKEFADIIEHSLNLRPGDVKVYEEAGVITVLERIKVTEGGVEGNGPLAQRIYDMYNDYMSKKRKELK;locus_tag=LOCUS_15300;note=WP_052846267.1 Lsm family RNA-binding protein (Sulfurisphaera) [pid:68.8%25%2C q_cov:95.2%25%2C s_cov:95.8%25%2C Eval:1.6e-55],MGA_1531
sequence1	MetaGeneAnnotator	CDS	1384247	1384621	.	+	0	ID=MGA_1532;product=DNA-directed RNA polymerase subunit G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978285.1;translation=MLSKNSYEYQELCRITSIEQGAIRGIDVIKLDCGKIKIDVDMISQINVFTANQQVKFIISKNKPEFTNNDFCAHGYVVTEKHQESYVTIISLFGPLIRIVSDESFCNKYNISIMDHVYVCIIKT;locus_tag=LOCUS_15310;EC_number=2.7.7.6;note=WP_010978285.1 DNA-directed RNA polymerase subunit G (Sulfurisphaera tokodaii) [pid:41.6%25%2C q_cov:90.3%25%2C s_cov:89.7%25%2C Eval:8.1e-24],MGA_1532
sequence1	MetaGeneAnnotator	CDS	1384652	1385239	.	-	0	ID=MGA_1533;product=archaeal proteasome endopeptidase complex subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978284.1;translation=MEELPSTAVGIRLNDGVILGAVRRLSYGGYVLSKSAKKVFILGKFGIAGAGLFGDFQAIIRIMNANIKYYELSNNRPISTKAAAKLLSVMLYQYKYMPFISEILFGGMDDGKPQFYVLDPIGSLLEDTYAAVGSGARVAIGVLESAYKEDLSIDKGRDLVISSLRASIERDTTSGDGIDILTITKNKIDTEFISS;locus_tag=LOCUS_15320;gene=psmB;EC_number=3.4.25.1;note=WP_010978284.1 archaeal proteasome endopeptidase complex subunit beta (Sulfurisphaera) [pid:69.1%25%2C q_cov:97.9%25%2C s_cov:97.0%25%2C Eval:7.0e-74],MGA_1533
sequence1	MetaGeneAnnotator	CDS	1385274	1386542	.	-	0	ID=MGA_1534;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978283.1;translation=MVSFEPVRGMKDYYGIEAKKLRYLEELFRKHVEIAGYQETITPIVEDFALFAIKSGEEIRNTMYVFKDKAEREVALRPEITPSIVRLYLNSMQHLPKPIRLYYIGRVYRYDEPQLGRYREFRQAGVEMLGSNSILSDIEIIKLLYDFYNELGLSKSILLKINNIGLYRSIFRKFNIEENVQEHLLHLIDKGKKDESMQILNKYISQNNVLNLINTLLYSNLKMDEVESEIQKIGIKCLDEEFNRFKKTITILNNLNIRSVVDLSFVRGLAYYTGIIFEITHPKVTFSVAGGGRYDNLVEIYGGTYTPAIGFAIGIERTSVLINYETYRSPQVVVIVLDDSVIDYALSILDILRSSDIIAILNVKEQSLGKLLSSYFEQNVRYAVIVGNNEKISRKVVLKDLASRSQEIVSSDELITHLRQIL;locus_tag=LOCUS_15330;gene=hisS;EC_number=6.1.1.21;note=WP_010978283.1 histidine--tRNA ligase (Sulfurisphaera tokodaii) [pid:54.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-128],MGA_1534
sequence1	MetaGeneAnnotator	CDS	1386545	1386922	.	-	0	ID=MGA_1535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIDEIIKKFQIDLDIDEIIDYVKKNYDKDKLIWDKIVVYIDLKNKGKRISLSKSQDFIFIEKKNSNEHGSLVYVLTENQPILVSDLEKIVKLSKSLRVDVYLSIVDKYGDITYYNVDETKLTKG;locus_tag=LOCUS_15340;note=WP_010978282.1 hypothetical protein (Sulfurisphaera) [pid:37.8%25%2C q_cov:72.0%25%2C s_cov:93.5%25%2C Eval:3.9e-10%2C partial hit],MGA_1535
sequence1	MetaGeneAnnotator	CDS	1387010	1387528	.	+	0	ID=MGA_1536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKCPSCGSTNIIWKSKEGIVVCSDCGLVIDDKAYDYYPIYFDKEIKNTINSLQSKNMERDSYRVISKKIKITNNYNINRNQNVAKSNNIIALELLKMNSSALKIYNVINDNGYLSGTQIKTKVAVSFYLSGYNTRKIRSILEKLQINEKYFRKTIKKLTMKEKIRIIEMANI;locus_tag=LOCUS_15350;note=MGA_1536
sequence1	MetaGeneAnnotator	CDS	1387589	1389250	.	+	0	ID=MGA_1537;product=thermosome subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846874.1;translation=MASTATVATTPEGIPVIILKEGSSRTYGKEAVRANIAAVKAVEEALKSTYGPRGMDKMLVDSLGDITITNDGATILDKMDLQHPAAKLLVQIAKGQDEETADGTKTAVIFSGELVKKAEDLLYKDVHPTIIISGYKKAEEVALQTIQELAQTVSINDTDLLRKIAMTSLSSKAVAGAREYIADIVVKAVTQVAELRGDKWYVDLDNIQIVKKAGGSINDTQLVYGIVVDKEVVHPGMPKRLENAKIALIDASLEVEKPELDAEIRINDPTQMQKFLDEEENLIKEKVDKILATGANVIICQKGIDEVAQSYLAKKGVLAVRRAKKSDLEKLARATGGRVVSNIDEISEQDLGYASLIEERKVGEDKMVFVEGAKNPKSISILIRGGLERLVDETERALRDALGTVADVIKDGRAIAGGGAVEIEIAKKLRKYAPQVGGKEQLAVEAYANALESLVSILIENAGFDPIDLLMKLRSTHENENNKWYGIDLYAGQPVDMWQKGVIEPALVKMNAIKAATEAATLVLRIDDVVSAGKKSGGESKTPGGANKPSEED;locus_tag=LOCUS_15360;gene=thsB;note=WP_052846874.1 thermosome subunit beta (Sulfurisphaera) [pid:84.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-270],MGA_1537
sequence1	MetaGeneAnnotator	CDS	1389258	1390802	.	-	0	ID=MGA_1538;product=DUF87 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011277553.1;translation=MLVALNLIASYIIYYLIIVLIITFVFSIVLTRGKSFISIRKFLIRRNIFTLNLNESYVSGIAAKIIGKQEFDKNPVDLQKELNNLLNALIARNKNYQYLILTSVNGKQASSSIVVYKECKDCENEILYEFDNILEIAKVVSPHIILEAVPVSNKALPLPLAFGNVNFARVMDIKMESPTIDKIIVDYDIELGDMLVHNQTVPTGIRSTDVLRHIGIFGSTGSGKSNTATLIANELSNKGFNVMILDWHGEYSNKLSDYTIYNYRNLYKINPLKFNDIDDIIDILGDVLQLTDPQRFLLFLIISKLRKDKRFRLTDMLDVLKNTEDQSNWMREVKYALARKLYPLFTSKGKLLFSADTNPEIIDLLSKKGIVFDLSFINNIRLRKLYGLFLLKYITDFYMNNKPDKKLLLIIEEAHNFFNVENDFIDKLISEIRKFGVGLCIISQSPSSISSAVMKNTNIKIIHSIKSDIDKKILRDSLSLPDNLYSALDKLDVGEAILSAPNTKTPLLIKIRKL;locus_tag=LOCUS_15370;note=WP_011277553.1 DUF87 domain-containing protein (Sulfolobus acidocaldarius) [pid:38.8%25%2C q_cov:96.3%25%2C s_cov:92.1%25%2C Eval:5.3e-94],MGA_1538
sequence1	MetaGeneAnnotator	CDS	1390880	1391251	.	-	0	ID=MGA_1539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTIREIIWNQDIKSKLTYDGRCVSTVVKELPQLSVIRQACYIFFNVENTKIKDKSIYFMLLLNSTTQIKECIERNKVSEGDKGYLISCCKEDINDFSDKIEIKGIAERIALTFNAVYSVKSQ;locus_tag=LOCUS_15380;note=MGA_1539
sequence1	MetaGeneAnnotator	CDS	1391254	1391499	.	-	0	ID=MGA_1540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_069168171.1;translation=MVKIVFEGPLSRQYGKSVEIYENSFYSIKAKLKDLGILNEKDEVKPGYIVLVGDKDIRLFTDDERVLFNNEIRVIPINHGG;locus_tag=LOCUS_15390;note=WP_069168171.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:33.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-08],MGA_1540
sequence1	MetaGeneAnnotator	CDS	1391502	1391723	.	-	0	ID=MGA_1541;product=30S ribosomal protein S17e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846873.1;translation=MGNIYTRDIKRVSAELYEKYADEITEDYGKNKELVSRYLDIYSKKVRNRVAGYLTRYAKRARTVHTTEEEVEE;locus_tag=LOCUS_15400;note=WP_052846873.1 30S ribosomal protein S17e (Sulfurisphaera) [pid:64.5%25%2C q_cov:84.9%25%2C s_cov:79.5%25%2C Eval:1.0e-18],MGA_1541
sequence1	MetaGeneAnnotator	CDS	1391766	1392926	.	-	0	ID=MGA_1542;product=fructose-1%2C6-bisphosphate aldolase/phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846263.1;translation=MIDMKTTISVIKADIGSLAGHHVVHPDTMAAANKVLAEAKKQNIIIDYYVTNVGDDLELIMTHNRGELDTKVHETAWEAFKEATKVAKDLGLYAAGQDLLSDTFSGNLKGMGPGIAEMEIEERPAEPFVVFMADKTEPGAFNYPQYKMFADPFNTAGLVIDPTMHEGFKFEVLDVFEGESVILNSPEEIYDILGLIGTPSKYVIRRVYRKADNNIGAVTSIERLNLIAGKYVGKDDPVMIIRVQHGFPALGEALEAFSFPYLVPGWMRGSHYGPIMPVSQRDARATRFDGPPRLIGLGFNVKNGRLVGPTDLFDDPAFDETRRLAEDIADYMRRHGPFMPHRLEPSEMEYTTLPLITEKLKPRFKKESDVTKAKRSIYENTSQGTD;locus_tag=LOCUS_15410;gene=fbp;EC_number=3.1.3.11%3B 4.1.2.13;note=WP_052846263.1 fructose-1%2C6-bisphosphate aldolase/phosphatase (Sulfurisphaera) [pid:83.3%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:4.2e-191],MGA_1542
sequence1	MetaGeneAnnotator	CDS	1392956	1394758	.	-	0	ID=MGA_1543;product=ribosome biogenesis/translation initiation ATPase RLI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978275.1;translation=MRVAVINYDFCKPDKCNLECIRFCPINRSGSKAIELSETVKGKPIIYEETCIGCGICVKKCPFDAIDIVNLPDQFGSDIIHRYTINGFELFGLPILKQGNVIGILGKNGSGKTTILKILGGELIPNFGDPTAKLEPVNVLERFKGKELYDYFYKLYSRKLKVVHKIQYIEYVSRYLKGIVKDILSKVDERGKIDEVKSLLFMDSFWDKSVQYLSGGELQKLLVAATLLREADVYEFDEPSSYLDVKERINVAKGIRELTRNKYTVVVDHDLIVMDYLADLISIIFGESSVYGKVSKLYSTRVGINNFLNGYLPVENIKFRQDEIKFLLKELTDLDFSKNIKLRIQWSKISKKMEDFSLDIDEGDAREGEVIGIVGQNGIGKTTFVRILVGEIKPDFGEIIPPNISLSYKPQRLVPDYNGTVQQFLENSSKDILSSSSWFFVEVIKRLNLHRILESNVKDLSGGELQKLYVASTLAKQADLYVFDEPSSYLDVEERYIVAKAIKRITRERKAVTFMVDHDLALHDYISDRLIVFLGKPGKEGHGYSPTSLRKGMNIFLKEIGLTFRRDADSGRPRVNKLDSYLDRLQKDKGEYYSMETSRE;locus_tag=LOCUS_15420;note=WP_010978275.1 ribosome biogenesis/translation initiation ATPase RLI (Sulfurisphaera tokodaii) [pid:73.2%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:9.7e-268],MGA_1543
sequence1	MetaGeneAnnotator	CDS	1395315	1395665	.	+	0	ID=MGA_1544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIMNSKIEAKIAQMRCENKPVKLIAKKLGINRDDIEAIIKKWINNTDDFLNDIIKNRKVKNPKADPGFIVNSIQDLEELLKNDDVLDYIAVHRSDYHDRLMDCIRYKIYRYLNKE;locus_tag=LOCUS_15430;note=MGA_1544
sequence1	MetaGeneAnnotator	CDS	1396071	1396847	.	-	0	ID=MGA_1545;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLPNLEHMGLIRRRENEETYFYWYEHGKKVYLGKLVDRTVIDKIKYISPNLDKLSEEERKEFLEWIGELKAVLGLIPQSMPSNDLDVINKKLDKVVQLLDGIGSKEDKRKSPTELDRAYEMMKNSLGYVRIDDLRRQLGMSLEQFMSEFRDYILENYELISGGKEGIIKDGTVYGIIRRKKIEKTEKFNPSLFDKMYNKVKNPMDIAALKDIREMMGLSKEEFYSTYSSYIESHYEMFRGGEEGIVKNGTIFGIIKR;locus_tag=LOCUS_15440;note=WP_155864484.1 PepK (Acidianus infernus) [pid:66.2%25%2C q_cov:28.7%25%2C s_cov:81.3%25%2C Eval:3.5e-22%2C partial hit],MGA_1545
sequence1	MetaGeneAnnotator	CDS	1396974	1398500	.	-	0	ID=MGA_1546;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980590.1;translation=MSSFSPSPHSFVEFWIVSRLKKENSVSLTIMANEYAKERRISKRSAHKVLERHLKSLIQEDIVERLDTYPITYKLKRLPIQFILPSNKNFRLNESFDLSLNNHNSKTLELNTNHKQKLQELRKKGLRVITLANAFRQKGLLTAQHKVSIRPDTREHSDIAFLYNENVKEWDRSVMVFMNDDEEFMIMNVRTRFNDKKKAFMNLIKSSTALDNAFKKYKNAIMITLTIPHIFPLVYPIKQKGKIIGFIPLQDSILTQLKANMMAWIRKMWKGEDIKVFTAYEYHTDYALHLHVLIFGIPYLIDWNRKYGRKKEDALTYYVRRYNISLPSDLETKMKEGKLESKDKTLISKYVFTALLDMWLQKILVRFGSALRINILQAYLDYKKKRIQGPINEIHRIKNGKWKGKPPKDSIIEYSSGAAYRKFLSPKQYVLKYVLKMAYMIAQGSQVEVRDQGKVYGYWLFGKRHNSYSPSILPKEKKEKIPYWHFVGIYNKLDVPDYIAHNTIYDLT;locus_tag=LOCUS_15450;note=WP_010980590.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:75.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-227],MGA_1546
sequence1	MetaGeneAnnotator	CDS	1398510	1398827	.	-	0	ID=MGA_1547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980589.1;translation=MLTSNVISQILIAGVRIQKLVKRIGRNGKLYEYSQYFVYVPKAYEKYVIGNEWIVTVWIDNEIYPIGLRGLSRHNKYYIISLPSNLAYYWEKAIGKGVDVVLSRP;locus_tag=LOCUS_15460;note=WP_010980589.1 hypothetical protein (Sulfolobaceae) [pid:53.1%25%2C q_cov:93.3%25%2C s_cov:95.1%25%2C Eval:1.3e-24],MGA_1547
sequence1	MetaGeneAnnotator	CDS	1398814	1399191	.	-	0	ID=MGA_1548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980588.1;translation=MKIITQVKAKVTDFGDFKSLIIEDINLSVFVDSKEAYLNDISIPKEIGNYVIDCINRADTISYEDYLTLEIEDYGLSIKQGNKEVLTIEFHGNKAVLLTPKKYCYEIRNADKLREMLRYKVSAYV;locus_tag=LOCUS_15470;note=WP_010980588.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:51.2%25%2C q_cov:96.8%25%2C s_cov:95.4%25%2C Eval:2.8e-24],MGA_1548
sequence1	MetaGeneAnnotator	CDS	1399169	1399822	.	-	0	ID=MGA_1549;product=CRISPR-associated protein Cas4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980587.1;translation=MQSINSIFKNLSLTQTLFKRRFNDKKNHEKKDSNTIYVTDLLYCPLKPRLREQFKELTLAEAYNPSTLQGSLIHESVERILIEELNAEVEVPVTKEITIDDEVYKLVGRIDAKKDNVIIEIKTSKTDVGIPKEEHVLQLRIYVNMLNAEHGILLYITPDRITEFYVDTGISDDKLIELVQDYVYTRRIPRHEWECKYCVFAKVCPHKVSVNEDNNAS;locus_tag=LOCUS_15480;gene=cas4;note=WP_010980587.1 CRISPR-associated protein Cas4 (Sulfurisphaera tokodaii) [pid:71.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-91],MGA_1549
sequence1	MetaGeneAnnotator	CDS	1399872	1400036	.	-	0	ID=MGA_1550;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVRKPVKVSVILDNEEVEALDKIVKKEGYRGKSTILRALAKRFIKRHLDNSS;locus_tag=LOCUS_15490;note=MGA_1550
sequence1	MetaGeneAnnotator	CDS	1400334	1400498	.	+	0	ID=MGA_1551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980585.1;translation=MNVEEWVKAIKEDLEREDLPESYKKVLKVVLNLIESGDLDTAKEIAINLPPILE;locus_tag=LOCUS_15500;note=WP_010980585.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:61.1%25%2C q_cov:100.0%25%2C s_cov:98.1%25%2C Eval:2.7e-11],MGA_1551
sequence1	MetaGeneAnnotator	CDS	1400523	1400888	.	-	0	ID=MGA_1552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980584.1;translation=MPRRRTTYYQRWLKNHVTITLRLSREEIEGIKKYKSEINLSYHDMLLDYFPLLSALKEFFKVLEVRGYLYDKADANNVRFMSEQYYQQLPERIRQFFEEKQFAIKEGFIMRSVKGYVLKKE;locus_tag=LOCUS_15510;note=WP_010980584.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:86.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-57],MGA_1552
sequence1	MetaGeneAnnotator	CDS	1401317	1402231	.	-	0	ID=MGA_1553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980583.1;translation=MSSIFSEIENNIQNALAESYKITRGFFTTLFTDASALGRETGDLIFKHKLIPFSQAIQDVENQSVKETPIFSPLSNLGIETGRQLFNAGSKLVSNIIPISGTFGHLADHPNEPLPAKISDIAFGLIDIPGLVELADTGRLLVTGADELSPLGKLAVRLGESKAFNYPLLALGIGSMLFPSSLKPKGDSIITKEYVYKSLPNINVTLKKARDTTRPITYDPLALTLSPSSPSEPEITYILNNNELLHSFAKEIEGNVDPSLRIERDDKERESEPKHTSSTFSTLYIGITLVVIITFIILVIMVKG;locus_tag=LOCUS_15520;note=WP_010980583.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:60.1%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:8.4e-93],MGA_1553
sequence1	MetaGeneAnnotator	CDS	1402365	1403645	.	-	0	ID=MGA_1554;product=site-specific integrase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978269.1;translation=MPKIDVNKLDDEKKLKIIKKAIEKHGLSYVSRQLEINRSTLNRYINGKIQTIPNEVVEKCTELLTIEELSDIIYGLRTVEIDPTIAFSVIIKAIRDESFRNFFINLIWQYLGDYLKSVSNSYIVSKEDLDLFEKFVKNNKAKRTANMHLQNIRRITADLGYELTSERIKEYILDLQSKNVNKARHYATTLKLFIKEIVKSRNPILSRELYDSFKIPKTKTLYRPPILTLDSLKQIFQNINDLGAKTLFLLLVETGLRVGEVMNLRVDQIDLDHRIIKLMKENETKRAYISFLHEKTAKLLRETYLPYHDEFVRKYENSVRKLAAANPNQGIDIENWKAKLFPFREDILRTKIENEMRKILGSTFRLYDLRSFFASYMLKRGANPMIVDFLQGRASPKDFRILQNHYFVISEIELQQNYDKYAPKLL;locus_tag=LOCUS_15530;note=WP_010978269.1 site-specific integrase (Sulfurisphaera tokodaii) [pid:62.4%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:1.7e-156],MGA_1554
sequence1	Aragorn:1.2.38	tRNA	1403745	1403819	.	-	.	ID=Aragorn_13;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00130;note=Aragorn_13
sequence1	MetaGeneAnnotator	CDS	1403861	1404559	.	+	0	ID=MGA_1555;product=ribose 5-phosphate isomerase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979326.1;translation=MYDPKEVVSNYALQYIENKKIIGIGTGRTVRKLIELIIKNNIINNKLYVTSSIDSELEISKNGGTVISLYNGNIPDIYIDSFDYLVPVNDSYIMIKGGGGALLREKLLAYFANERVFIGEQSKIKNSFPIKIPIEIVPVSLSYVINKLKSYKYNIEIRESNGKIGPIISDNGNIILDMSVNGKADLCELDSKLKDIPGIIETGIFCDKLYDEIIIGNNDGRIEIIKKSRNSN;locus_tag=LOCUS_15540;gene=rpiA;EC_number=5.3.1.6;note=WP_010979326.1 ribose 5-phosphate isomerase A (Sulfurisphaera tokodaii) [pid:52.5%25%2C q_cov:96.1%25%2C s_cov:99.5%25%2C Eval:1.3e-59],MGA_1555
sequence1	MetaGeneAnnotator	CDS	1404516	1404866	.	+	0	ID=MGA_1556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEESKLLRKAEIAIKSNRIIKLEARDSFFYIFVFLGNGKNGKDHILNEKSCDCKSFLFNRIYRNTNMCYHLIALNKALENEDFITIKLNSKEIFEIITDIYANGKSLKLRKVYPNK;locus_tag=LOCUS_15550;note=MGA_1556
sequence1	MetaGeneAnnotator	CDS	1404863	1405018	.	+	0	ID=MGA_1557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILSITQIVLIVSVILIAGGITYGIFMEILESSGKKEVLIRSNKSSKRKRE;locus_tag=LOCUS_15560;note=MGA_1557
sequence1	MetaGeneAnnotator	CDS	1405022	1405342	.	+	0	ID=MGA_1558;product=transcription elongation factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846259.1;translation=MGGKRKKRTKIIRPKPKLPKTFECPRCGKISISIDIKDGLAKIQCGSCGLYTEIEVPPVFDEANAYGKFIDLYLDGKLEIKEENKDSTEDKNETEGESKELHSTSN;locus_tag=LOCUS_15570;note=WP_052846259.1 transcription elongation factor (Sulfurisphaera tokodaii) [pid:64.5%25%2C q_cov:87.7%25%2C s_cov:86.0%25%2C Eval:9.6e-33],MGA_1558
sequence1	MetaGeneAnnotator	CDS	1405296	1406054	.	+	0	ID=MGA_1559;product=geranylgeranylglyceryl/heptaprenylglyceryl phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846261.1;translation=MKLKGKVKNYIQRLIEEGSVLHFSLLDPDKISDISKLYDITKSLYNYGTNAFLIGGTLGISLDKLNKILEILDDFDIPKIIFPSNINLITEKADAILFMSLLNSDDIYYVMGAQVAAAPIIKKTEVETLSTGYLIIGNGGTAAHIGRARVIPYDNIDLAVAYSLAAEYMGMNFIYLEAGSGALEPVKPEMIRTVRKTTSLKIITGGGIRTPEKATEIATAGANIIVTGNIIESDLTKALKIIESIKKIKISE;locus_tag=LOCUS_15580;note=WP_052846261.1 geranylgeranylglyceryl/heptaprenylglyceryl phosphate synthase (Sulfurisphaera tokodaii) [pid:65.8%25%2C q_cov:94.8%25%2C s_cov:95.6%25%2C Eval:9.6e-86],MGA_1559
sequence1	MetaGeneAnnotator	CDS	1406058	1406231	.	+	0	ID=MGA_1560;product=preprotein translocase subunit Sec61beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978264.1;translation=MPSSKKKKENVPLMSMAGLVRYYEEENEKVKIDPKVVIIGSIVIIAVVIVLSKLVPI;locus_tag=LOCUS_15590;note=WP_010978264.1 preprotein translocase subunit Sec61beta (Sulfurisphaera) [pid:66.1%25%2C q_cov:98.2%25%2C s_cov:96.6%25%2C Eval:1.3e-13],MGA_1560
sequence1	MetaGeneAnnotator	CDS	1406257	1406829	.	+	0	ID=MGA_1561;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867433.1;translation=MFFDIKEIKRIRESIGITQSELAKRIGVSQSLIAKIENGKIDPKLSIVRKIFDELTALMEANDSAERIMHSPVIVSKINENIHEIVEKMEKYGISQIPVVNSSEELVGIIYDYILLRKLALKNPYEIVAKDIIAPLPPLIDAKTQLTEVMKLLTKYPVTLVVDKKLKPLGIITRSDLIGYLIKNYKREPQ;locus_tag=LOCUS_15600;note=WP_010867433.1 CBS domain-containing protein (Pyrococcus abyssi) [pid:41.7%25%2C q_cov:91.6%25%2C s_cov:90.6%25%2C Eval:7.6e-30],MGA_1561
sequence1	MetaGeneAnnotator	CDS	1406988	1407188	.	+	0	ID=MGA_1562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVAFKDEKIDLLGASRGKDETRPDFPLGRIAKSPNITEAGLLLWLSQKIGFYLQYLRVRLTFIRF;locus_tag=LOCUS_15610;note=MGA_1562
sequence1	MetaGeneAnnotator	CDS	1407114	1407611	.	-	0	ID=MGA_1563;product=DUF367 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978265.1;translation=MNIYIIDLDQDDPKKCTGKRLIKFGYAKRTRKPLGIVLNPISSIPVSIKDREIILNIGLTVIDSSWNKSDIEFFSKFKNKFSRRLPFLLAGNPINYSKPYKLSSIEAAAASLYIIGEENIAVEILNKVKWGHTFLELNGELLKSYEGKSDSEILQIESDFLREPQ;locus_tag=LOCUS_15620;note=WP_010978265.1 DUF367 family protein (Sulfurisphaera tokodaii) [pid:53.4%25%2C q_cov:98.8%25%2C s_cov:97.0%25%2C Eval:8.8e-44],MGA_1563
sequence1	MetaGeneAnnotator	CDS	1407667	1407915	.	+	0	ID=MGA_1564;product=Lrp/AsnC ligand binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978266.1;translation=MVSAIVLINTDAGGEEEVFDKLKTMNEISEAYIVYGVYDIVAKIEATDMDYLRNFVSSTIRKLPKVRSTLTMIIMEGKSIRK;locus_tag=LOCUS_15630;note=WP_010978266.1 Lrp/AsnC ligand binding domain-containing protein (Sulfurisphaera) [pid:72.0%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:1.9e-28],MGA_1564
sequence1	MetaGeneAnnotator	CDS	1407912	1409222	.	+	0	ID=MGA_1565;product=tRNA(Ile)(2)-agmatinylcytidine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_221267051.1;translation=MRYSVGIDDHDSPIAGCTTHFSTILINYFIKNNIKLLDYPYLIRLNPNIPWKTRGNAAIKFSIEFNGTKKELADIIWEKSIDYVKNVSKGLEYNRKPGVAVIDYEKSDNLYNLYLKAVSDIIPRDLVIKYSEKIGAELRGYRGVIGSLAAIGFRGPITYELLTYRKRENWNRKREIDISSVKAFDELFFPKVFANMDYIKKKPLIISHGNDPVFYGIRGLDPNILIKGLETIKTNEKLDMAMIFKSNQATDVHIIKTGNRVYQTIKDSCIVDDIKVIRGGDVIIKCLNSATLICYKETGELNLATKNLMHGDIIEFVGSIKPSLEFGEIIEIERIHINSLVNSKFANPRCPKCNGSTESLGKNKGFRCKKCGNKFLGNKMIIRIPRNLSLGIYQARYYRHLTKPLFLEDLDNSFKYEYIMDFYIIYNSINNILYSN;locus_tag=LOCUS_15640;note=WP_221267051.1 tRNA(Ile)(2)-agmatinylcytidine synthase (Sulfurisphaera ohwakuensis) [pid:56.2%25%2C q_cov:88.1%25%2C s_cov:93.9%25%2C Eval:4.9e-122],MGA_1565
sequence1	Aragorn:1.2.38	tRNA	1409289	1409363	.	-	.	ID=Aragorn_14;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00140;note=Aragorn_14
sequence1	MetaGeneAnnotator	CDS	1409884	1411074	.	+	0	ID=MGA_1566;product=ORC1-type DNA replication protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978258.1;translation=MSEIIDDILNSTRDSPIFKNREYLLPDYIPNELPHREEQIKKLASILAQVYKGSKPNNIFIYGLTGTGKTAVTKFVLKIFQEKIKNFTYVYINTRQSDTTYRILADIIENMGEKVPFTGISTAELYRRMLKIFLSTNKIIIITLDEIDAMVKKHGDDILYKLTRINSELDKSKVSLIGITNDVKFVDNLDPRVRSSLSEEELVFPPYNANELEDILKRRAVLAFKDGAINNSIISLCAALAARDHGDARRALDLLRVAGEIAERLKCNSISTEHVEKARIEIERDRVYEVIASLPFHSKLVLVSIIYGTENKNTMTTGEVYELYKSLTKTLGTEIVTQRRVSDIINELDMVGIITAKVVNRGRYGKTKEINLAVDKMIAIKALIENDERLASIWNR;locus_tag=LOCUS_15650;note=WP_010978258.1 ORC1-type DNA replication protein (Sulfurisphaera tokodaii) [pid:70.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-160],MGA_1566
sequence1	MetaGeneAnnotator	CDS	1411043	1411570	.	+	0	ID=MGA_1567;product=DUF99 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978257.1;translation=MKDLLVSGIDDGYFPVKYKGKKGKAPLVSVTYNDYKLIDVDVDFIYVDGDEATIKFNNLRRGDVSILYSIIVGGFNYIIPSGKYIIFYGKKPNITEIDRALKLHFDDKRREVILYYISNLIKVPTKKGSVYINTNLEISKAIDIIEFYQVNSKYPEPIQTAHVIGKGIGQHVNSS;locus_tag=LOCUS_15660;note=WP_010978257.1 DUF99 family protein (Sulfurisphaera tokodaii) [pid:53.6%25%2C q_cov:94.3%25%2C s_cov:87.0%25%2C Eval:4.8e-46],MGA_1567
sequence1	MetaGeneAnnotator	CDS	1411549	1412460	.	-	0	ID=MGA_1568;product=hotdog domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978256.1;translation=METYYNVFPWHTNHFGTLHGGIYMSWMIDSAGILMSSISQGNYLLASVDYIYLFKPARLGDILRIVALPKASWKSSVEIEVKGCIKRGEKEELASAALMTYVAVDENNKPRKLEIKIPADTEANIRKEKRMERKKRISVDYDEPLKYASFVKSYIRTIYPEHGFGNGILYAGKMYTMLDEALAIVAKLYSKGNTFTASAGSADFITPVRIGDILEIQGAVQYTGNTSLDVGAKVYAINHFTSEKRLVTSTTFSFVAIDENGKPRNIPKLIPANDKEKVIVDNDLKEREERIKLSKKIQEELTC;locus_tag=LOCUS_15670;note=WP_010978256.1 hotdog domain-containing protein (Sulfurisphaera tokodaii) [pid:73.6%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:5.2e-127],MGA_1568
sequence1	MetaGeneAnnotator	CDS	1412465	1412989	.	-	0	ID=MGA_1569;product=nicotinamide-nucleotide adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846254.1;translation=MLRALYPGRFQPFHLGHLSVIKWSLEKADQIIILIGSSQESHTLSNPFTAGERIEMIKTALEEYEIDSSRYFLIPIPDILMNSVWAYHVKTYVPSFNLVIARNPLVIRLFKEANLAVEEPPIFNREKYNSTLIRKMIITGEEWKELVPNSVYTYIKSIKGDERLKEIAGTDKRW;locus_tag=LOCUS_15680;EC_number=2.7.7.1;note=WP_052846254.1 nicotinamide-nucleotide adenylyltransferase (Sulfurisphaera tokodaii) [pid:67.6%25%2C q_cov:97.1%25%2C s_cov:98.8%25%2C Eval:7.3e-63],MGA_1569
sequence1	MetaGeneAnnotator	CDS	1412944	1413750	.	-	0	ID=MGA_1570;product=S-adenosyl-l-methionine hydroxide adenosyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011277600.1;translation=MNPQIAILTDFGISDNYNGVMEGVIKRINSNASITYITPNANNFNIISGAYLLYTSYKYFRKNTIFLTVIDPGVGTERKAIIIKSRNYYFVGPDNGVLFPAAHDDSILNIVKITNEKLFLSREISRTFHGRDIFAAVAAFLSLGIDLETFGNKLNMNEIEKLEFIQTKNNNIICGNVIYIDHFGNVATSIKERINNIRYVLINSNKFNIRYVNTFGEGKKGELLAYKNGYGFLEIGINMGNASELIKAKIGDKICLELSIQEDFSHFT;locus_tag=LOCUS_15690;note=WP_011277600.1 S-adenosyl-l-methionine hydroxide adenosyltransferase family protein (Sulfolobus acidocaldarius) [pid:55.1%25%2C q_cov:98.5%25%2C s_cov:97.8%25%2C Eval:9.7e-87],MGA_1570
sequence1	MetaGeneAnnotator	CDS	1413722	1414282	.	-	0	ID=MGA_1571;product=class IV adenylate cyclase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978253.1;translation=MPDVIEREVKLKLKGISIEELKNKLLNDQMKYVGVEKQTDIYLNSKFRNFKETDEALRIRKVNDTAEITYKGPKISSKSKSREEITVVINDENAMLKILQKLDFYPVYSVSKERHTFIDNNFNICLDKVEGLGDFIEIEGINSDENRLLQYINDFIKKYNINVEVERKSYLELLVEKNESANSNSN;locus_tag=LOCUS_15700;gene=cyaB;note=WP_010978253.1 class IV adenylate cyclase (Sulfurisphaera tokodaii) [pid:52.7%25%2C q_cov:97.8%25%2C s_cov:97.3%25%2C Eval:5.7e-43],MGA_1571
sequence1	MetaGeneAnnotator	CDS	1414284	1415291	.	+	0	ID=MGA_1572;product=RsmB/NOP family class I SAM-dependent RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846871.1;translation=MSTIDSYINEYKELFKYSPTLRAKELSIKYGFLDYMVERYLDIFKEKTEDFLESCSYPLIKSIRCNTLKIECNELIRRLDEKGFILDRVNWINYGFIVRERPKKPSLGSTLEYMEGYYYIQSLSSMVPAEVLHPSKDDIVLDMAAAPGSKTTQMAQLMNNEGLIIAVEKFRSRIKSLMSNINRLGVSNTIIVNMDARDLIYHNINFSKILLDAPCSGEGLIPEDPQRRTRTKPEDLYKLSLVQLQLLYTAFMLLQDNGDLVYSTCSIAPEENEFIINYAVEELGMKTVKIDKIPGDEGITEFNGIKFSNDVKNCIRLYPHKHKTEGFFICHLKKK;locus_tag=LOCUS_15710;note=WP_052846871.1 RsmB/NOP family class I SAM-dependent RNA methyltransferase (Sulfurisphaera tokodaii) [pid:58.7%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:3.2e-112],MGA_1572
sequence1	MetaGeneAnnotator	CDS	1415270	1415779	.	+	0	ID=MGA_1573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429725.1;translation=MSSKKEIKFKIIDYRELYEYISLLSKDYNCLFDIDFFKRYNIIKSYNANFSQIFLISSKKIPNIVLDELNIYSPGISILKISNKVILPQLPLGNLMVKYCKNKLSLPEPILMKILYGKDVEVREKYRFKYALLISKYNEFLGFIKIKQHRNGSKIIPEKDIGWYLRESG;locus_tag=LOCUS_15720;note=WP_198429725.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:34.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.5e-21],MGA_1573
sequence1	MetaGeneAnnotator	CDS	1415828	1416802	.	+	0	ID=MGA_1574;product=DNA repair and recombination protein RadA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846870.1;translation=MADQIEEKKKTKGISDLSGVGQAILNKLNDSGYSSLESIAVASPQDLSTAAGIPLTTAQRLIREAREALDIRFKTALEVKKERANVRKITTSSQALDGLLGGGIETRTMTEFFGEFGSGKTQICHQVSVNVQLPPEKGGLSGKAVYIDTEGTFRWERIEAMAKAQGIDPDSAMSNIYYMRAINTDHQIAIGDDLQELINKDPAIKVVIVDSVTSHFRAEYVGRENLAVRQQKLNKHLHQLVRLAEVYELAVIVTNQVMSRPDMFYGDPTVAVGGHTLYHTPGIRVQVKKSRGNRRIARMVDAPHLPEGEVVFAITEEGIRDAED;locus_tag=LOCUS_15730;gene=radA;note=WP_052846870.1 DNA repair and recombination protein RadA (Sulfurisphaera tokodaii) [pid:86.1%25%2C q_cov:97.5%25%2C s_cov:98.4%25%2C Eval:2.6e-156],MGA_1574
sequence1	MetaGeneAnnotator	CDS	1416837	1417349	.	+	0	ID=MGA_1575;product=HIT domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146469.1;translation=MKILWAPWRSTYVSNSSKNKLSECVFCDVIKKSDDRENLIVYRGSKSYIILNKFPYNPGHLMVVPYRHLSSIELLDDEEYKEIFYLVKKSLSALRKLYSPDGFNVGINIGRSAGAGIESHVHVHIVPRWNGDANFMPIISNTKVISDTLDNTYIKLSKMLSEHNEEALDH;locus_tag=LOCUS_15740;note=WP_048146469.1 HIT domain-containing protein (Pyrococcus abyssi) [pid:56.2%25%2C q_cov:95.3%25%2C s_cov:94.6%25%2C Eval:3.6e-51],MGA_1575
sequence1	MetaGeneAnnotator	CDS	1417376	1418590	.	+	0	ID=MGA_1576;product=threonine ammonia-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978248.1;translation=MDYNILQQKIVKIKESISPFIHETPLDYSYTFSQMIGSNIYLKMENLQKTGSFKVRGAFSKLMSLSSSEKEKGVIAVSAGNHAQGVAYASSVLGIKSIVVMPETAPISKYLATKGYGANVILYGKYLHESMQKAQEIIRDTGSILIHPYDDINVILGQGTLGVELYNQSPDYVVVPIGGGGLISGISIALKTKYKNTKIIGVQSYASSSLKISKDLGRLTEVEPSFSIADGILVKSPSKTTFEIINDLVDDIVLVDDDEISNAIVLLLERNKTLVEGAGAASLAALISGKIKIPYGKKVIPILSGGNIDLSLMTQIVDKMLYKTKRIVKIRVIVPDKPGYLNKVLTYITQIRGNIIDVIHDRISSDVPPGYTKIYVMFEISNIEMLSSFLYGLSKEGIEAKIID;locus_tag=LOCUS_15750;gene=ilvA;EC_number=4.3.1.19;note=WP_010978248.1 threonine ammonia-lyase (Sulfurisphaera tokodaii) [pid:68.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-154],MGA_1576
sequence1	MetaGeneAnnotator	CDS	1418692	1419417	.	+	0	ID=MGA_1577;product=prephenate dehydratase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_110369211.1;translation=MLSGKLIPKPTIKDIFVAVNNSLDALGVVPVENSIEGPVNETLDNLFAFDGIYSVYSIEIQIDLVLASKSDLSKVKKIYSHNHAIREAQNNLEKLGVTNFVPVESTSKAALMANNDRESAAICSSFAAKLYNLEILYDKIQDGVNITKFLVISKKMRTDGNKAIFLFTVPHKPGGLYRVIEKFYLKNINLTMIYSRPLRNTPWNYYFYLEFENFDNLSTLEKDVREVVIELKNKGSYTKLT;locus_tag=LOCUS_15760;note=WP_110369211.1 prephenate dehydratase domain-containing protein (Metallosphaera hakonensis) [pid:57.4%25%2C q_cov:99.2%25%2C s_cov:90.3%25%2C Eval:1.5e-72],MGA_1577
sequence1	MetaGeneAnnotator	CDS	1419410	1420375	.	-	0	ID=MGA_1578;product=Lrp/AsnC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429777.1;translation=MEISDIDKRLLMELEYNFPIDARPYEKIADKLNLSENYVINRVKDLIDNEIVKRVGMYVNFRAKGMEGALVAADIPLDGLEKYRKMSLGIRELTHNFIRNHPKYNVWLVIKAESREKLNGNIERLMEEAGARDYVILYSKKNLKLSVKYDIIKGISWSKSEGIPDKIPTADEIGISKELLKYLSMPLPINERPFMEIAKKFGYSEEDLIELINDLKKIHVIKDYGATLNGEKVGIKDNAMLLINTENEEYSCIKIAEELYEATHVVLRESNKPWDYLCYCMLHGKDKKVINEAARHAINITGAKSYMLLYSLDNLKPGIVM;locus_tag=LOCUS_15770;note=WP_198429777.1 Lrp/AsnC family transcriptional regulator (Sulfurisphaera tokodaii) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:1.4e-122],MGA_1578
sequence1	MetaGeneAnnotator	CDS	1420406	1421806	.	-	0	ID=MGA_1579;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978245.1;translation=MYDVVIIGGGPAGLFAAYELAKSISEGHNYKILLVDKGVRASKRNCPLLSPKEKCTFCTPCHINYGIGGAGTFSSGIINLRPDIGGELQELLRSWDNAQELINYVDDILVKFGAPKDRLFKPNMEKVKEIQKRSAKAGAEFIPILQRHIGTDKSPEVIENITNYIEKLGIGISELTDVFSIEKRGDSFNLKTNKGEIETKLLLVAPGRSGAKWFYDQSKKLGIDMMPGPLDIGVRVEVESFITEELTSAVWDPKIVMYTRKYDDKVRTFCVNPRGFIMKEVYDDGTIGVNGETYVDKKSNNTNFAFLTTIKLSDPLEDTIEYGKSIARLMTRLGGEKPILQRLIDFEKGRRSTWERIGRSTVKPTLKDVTPGDISMGLPYRVVSDLIEGLERLDNIASGIYSSNTLLYAPEIKYYSMKAVVDRNMETVVDNLYVAGDGVGLSRGINVAAATGVLAARGILIKLGLG;locus_tag=LOCUS_15780;note=WP_010978245.1 NAD(P)/FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:80.9%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:2.9e-221],MGA_1579
sequence1	MetaGeneAnnotator	CDS	1421806	1422822	.	-	0	ID=MGA_1580;product=adenylosuccinate synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978244.1;translation=MLDILVGGFYGDEGKGKIASYLGINDSPNYAVRTGSINAGHTVVFNNKTWKIRILPSAFVNKSTKLVLAPGALTSLEQLFNEIKSTDSDNRVIIDSHVGIITDKEIKDERNDENLMKMVGSTGQGVGYAEARRILRILKLAKDYKELENYIANVPDMLIDELQKDSRILIEGTQGTFLSLYHGEYPYVTSRNSTASGVLSEIGIGPKYVNNIIVVFKSFVTRVGNGYLENELNEEDAKKLGLTEIATVTGRKRRVAPFNVKLAKESIRLNSATQIAITKLDTLFKDSYKVRNYSNLPLEAKKWIEDLEEELKVPITIIGTGEDSMDTIDLRKEKIGEE;locus_tag=LOCUS_15790;note=WP_010978244.1 adenylosuccinate synthetase (Sulfurisphaera tokodaii) [pid:70.7%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:2.5e-136],MGA_1580
sequence1	MetaGeneAnnotator	CDS	1422948	1423991	.	-	0	ID=MGA_1581;product=formate--phosphoribosylaminoimidazolecarboxamide ligase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846248.1;translation=MKIAALASHSALDIFDGAKDEGFDTIALCKKGRERPYLEFKNIVDECILLNDFKEIYSDSIQQKLIYNEAIVVPNRSMAVYLGYDNLENMRTKFFGNKYMLRWEERLGDKNYYKILDEANIKRPKIYKIENIDGPVIVKLPEAKRRVERGFFFAKNKDDFDTKLNKLLKENIINEESLKDMVIEEFILGAYFNINYFNSMLFDRTEIISIDRRIQSDWDSFYKLPADIQLELNKTPRLIEVGHEPATIRESLLEKVFEIGYSFVNATKKLQYPGIIGPFTLQLIVTPELDLVVYDVAPRIGGGTNAYMGIGSQYSKLYFGKPISLGRRIAIEIKEAINNNRLNEITT;locus_tag=LOCUS_15800;note=WP_052846248.1 formate--phosphoribosylaminoimidazolecarboxamide ligase family protein (Sulfurisphaera tokodaii) [pid:76.1%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:1.5e-152],MGA_1581
sequence1	MetaGeneAnnotator	CDS	1423988	1424986	.	-	0	ID=MGA_1582;product=formate--phosphoribosylaminoimidazolecarboxamide ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978242.1;translation=MFITTLGSHSSLQILHGAKEEKFNTAIITDAKRESFYKRFTFIDKYLVYDNFDEAVNHINSINNSIFVPHGSLIEYLGMDRVSKIKVPIFGNRNLFEWESNQKKKMSLLEKSNIKIPESFESIEDVDRLVIVKLPGAKGGKGYFLARNKSELKNGINTLLEKNIIKNLDEIIIQEYVIGIPMYFQFFYSPILKRVELTGIDIRYESNIDGLKRLPWGNETEPTFVVAGNIPVVARESILPKAYEYADNFVETTKNIVPPGIIGPFSLESVVTDNLDIIVFEFSGRIVAGTNLYINGSPYSWLYWNEPMCVGKRIARELNIAIQQSKLDVVTT;locus_tag=LOCUS_15810;EC_number=6.3.4.23;note=WP_010978242.1 formate--phosphoribosylaminoimidazolecarboxamide ligase (Sulfurisphaera tokodaii) [pid:69.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-135],MGA_1582
sequence1	MetaGeneAnnotator	CDS	1425039	1426409	.	+	0	ID=MGA_1583;product=adenylosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978241.1;translation=MDDVCPLEWRYGSNEMRHLFSRDHIIKTRIDVEIALLKALQKLGYVTVDDIKKVIEESNNIRIEEIDKLEEKLGHDVMAMVVALAEKSGDSGKFIHFGATSYDIVDTAYAIIFRDAINIIYNKLTKIIDRLSELSDKYRNTIMVGRTHGQHALPITLGFKFANYVYELTRSLLRILESKERLIRGKMSGAVGTMAAWNGYGIKIEEYVMKELDLEPHVISTQIAPRDGFAEIVSDLAILGSQLDRLALEIRELMRPEISELKEGVGNRIGSSTMPQKENPVTAEKISGLAKILRGFVVSELENIPLWHERDLTNSSSERIIISHSFIIIDEMLDSALEVLSNIIINKENMERNLSISNGLIMAESLMINLTLKGMPRHKAHELVSRLSKNVRLSNKSLEEVALEDPTVRSFFSESEIKNILDYRKYLGQINDLIDRSLEYYKDVLNRDNLKSVNAK;locus_tag=LOCUS_15820;gene=purB;EC_number=4.3.2.2;note=WP_010978241.1 adenylosuccinate lyase (Sulfurisphaera tokodaii) [pid:61.1%25%2C q_cov:97.8%25%2C s_cov:99.3%25%2C Eval:2.9e-149],MGA_1583
sequence1	MetaGeneAnnotator	CDS	1426520	1427458	.	+	0	ID=MGA_1584;product=thiamine-phosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846246.1;translation=MKLKDLGEHNFISDIISKYLGKDVNSDVFIQGNKVYKLDGFQLSYTLPFMDYYDIGWKAVTGTISDIIFSLASPNIVMVSLGLSNDMEVNDAEKIIKGIYDASIYYHARYVGGDTNNSSSSGWIDVAGIGDLLCNEHPQIDKGDVIVVTNKIGFTSNFFISYLSNFKIPIFHDSLVKISHPVVNTHLPRVLQRFCGAISYSTDISDGLVITLYNIIQRFSVGIKLDRIPINDVIANMLKTYGYSIFDILKFSGEEYEGIFVVKEKNYEEFVNALSIIGYSPMEIGRVDGSNSLIYNDKKLNETGWDNFKGWF;locus_tag=LOCUS_15830;note=WP_052846246.1 thiamine-phosphate kinase (Sulfurisphaera tokodaii) [pid:43.0%25%2C q_cov:98.4%25%2C s_cov:100.0%25%2C Eval:3.7e-75],MGA_1584
sequence1	MetaGeneAnnotator	CDS	1427527	1429272	.	+	0	ID=MGA_1585;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978239.1;translation=MAQAEQTKNQGFRLLPAPSKFENGVVKFGDREIKIGGPLPKLATNEKLIRVTHSLCPVCYRLLPATIFEKDEKMYIRKVCPDHGEFEDLYYGDVGMYYKFDYWEYEGKGPKVPYVDLQSPCPFNCGLCPMHHQHSALVNLVITNRCDQACWYCFFFAEKAGYVFEPTLDQIKYMVDQLKRQDITLVIQVTGGEPTLREDIVEVIKLLRENGVKHIQLNSWGGTFAKLYLEDPDKAIKYAVALREAGVNTVYMSFDGTNRKTNPKNHWEIPYTLEAFRRAGMTSVVLVPTVIKTVNDNDLGNIVKFAAKNLDVVRAVNFQPVSLTGMMKRNMRAKFRITIPEVLKNIEDQTDGEVTRDSWYPIGTSVVFSRLVEALTGKEQFEMANHPSCGAGTYIYVEWKNNEPHFIPISKFIDLEGLLEYFKEKADELKEGASKYWVGMKILANIKKFIDKEKGPKDFDVFKMLYSVVMNHNYEALGEWHYRTLFLGTMHFMDLYNYDIQRVMRCDIHYVTPDGRVIPFCTYNVLNDLYRDKVLKEYQIPLEDWIKKYGENSIGDSTKYKRMASMLEKGEIYKETYKGFI;locus_tag=LOCUS_15840;note=WP_010978239.1 radical SAM protein (Sulfurisphaera tokodaii) [pid:85.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.4e-315],MGA_1585
sequence1	MetaGeneAnnotator	CDS	1429265	1429903	.	-	0	ID=MGA_1586;product=2%2C5-diamino-6-(ribosylamino)-4(3H)-pyrimidinone 5'-phosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978238.1;translation=MNKPYIIIFSTVSIDGRLAAKDFYSELSCKYDKIRQHILRSEVDAVLVGGNTVRKDNPSLKLKYVKGKDPVRVVVSKSFNLDINSKIFIIPPQTIVYTEKDNCILKDKLISRGIIVRIINNITICKIMNDLYENFAIRKIMIEGGGNTIWNAIKENCYDEIRVTISSRIFGNGINLANGEGFNGEESPRLQLVDAKICECNNEIHLIYKKFK;locus_tag=LOCUS_15850;EC_number=1.1.1.302;note=WP_010978238.1 2%2C5-diamino-6-(ribosylamino)-4(3H)-pyrimidinone 5'-phosphate reductase (Sulfurisphaera tokodaii) [pid:57.1%25%2C q_cov:98.1%25%2C s_cov:99.1%25%2C Eval:1.3e-66],MGA_1586
sequence1	MetaGeneAnnotator	CDS	1430070	1430588	.	-	0	ID=MGA_1587;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIARISKDIYKIGLPNFRDNCYLVNLGTYYILIDSTSGEYINDVIRSILEIIVDKNKLSYIILTSCLKNSAGGACEIHRIFGTKIVSHYPDSISIRHGNCNNQTIDSCEVFMELRKNVETIENLYIFNTKTPTLGSIIIRLNNIMFIGNSKISIEDKNIKIVCDNIDCWKI;locus_tag=LOCUS_15860;note=MGA_1587
sequence1	MetaGeneAnnotator	CDS	1430585	1431298	.	-	0	ID=MGA_1588;product=phosphoribosyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978236.1;translation=MIKSKDVELRERLFIIDILRELKNVYTYRQLSSLFNIQESLLCRYVNGITIPSEIQYNNIINKIKNKEFLTNFVKERIRIYNDGFIDTSFLLFYPNILKILVEITLNKIPKIENVTKVFGIASNGIPFATLVADTINRPLIIAKKHKDSIQMEYYEENIKESEGVINSLYLRKDLVNKNDKIIIVDDVIKSGKTILTSYNLLKKSGSDIILVLAIVAKEDALRKLINIANINALFTI;locus_tag=LOCUS_15870;note=WP_010978236.1 phosphoribosyltransferase family protein (Sulfurisphaera) [pid:50.6%25%2C q_cov:98.3%25%2C s_cov:99.1%25%2C Eval:1.9e-64],MGA_1588
sequence1	MetaGeneAnnotator	CDS	1431387	1432802	.	-	0	ID=MGA_1589;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846244.1;translation=MTKIGLEVHVHLNTLKTKLFCSCPTDYIGRDPNTVVCPVCLGLPGAIPVLNQEALNKAIMVAIALNCEIAPSLLFTRKHYFYPDMAKNYQISQYDGPGSMAIAKSGKIIINNKTIRIRRINIEEDPAKTIYPTGSMLTSKYTLLDYNRSGIGLLEIVTEPDIEDHKEAKDFLEKLRSILEHLDVCDCNMEGSMRADVNISIEGGERVEVKNVGSIKDVEDAIKYEVARQKAAVTQGIQIKRETRHWDSERKVTVPTRSKESEEDYRYFPDPDLPPYPINTEYINKISKEMPELPDARIKRFIEQYGISFKEANVLVMDKALADLFENTAKLYKNYQKLANLLVNDYLRWINDKKLRIIDSKASPNNIADLLNMLDSGIVTIKIVKSILPDLILNGESPKEIISKSQLTAVKDQEYLEKVISEVIEEEKDAAIAAKNDPKVINYLVGKVMKKTGNRADPQLTNNLIRKRLGL;locus_tag=LOCUS_15880;gene=gatB;note=WP_052846244.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Sulfurisphaera tokodaii) [pid:70.6%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:6.0e-198],MGA_1589
sequence1	MetaGeneAnnotator	CDS	1432816	1433205	.	-	0	ID=MGA_1590;product=cytidine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583680.1;translation=MTDPSDKELIEIALKATQNSYAPYSKINVGAALLTENGKIITGCNVENSSYGLSICAERVAIFNAISSGERKFKKIAIINSEGNGMMPCGACRQVMEEFSNDIEIITLDKNKRIVKYKLDELLPNAFKL;locus_tag=LOCUS_15890;gene=cdd;EC_number=3.5.4.5;note=WP_012583680.1 cytidine deaminase (Dictyoglomus turgidum) [pid:58.4%25%2C q_cov:96.1%25%2C s_cov:95.4%25%2C Eval:1.3e-37],MGA_1590
sequence1	MetaGeneAnnotator	CDS	1433186	1433836	.	-	0	ID=MGA_1591;product=uracil phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978234.1;translation=MPLFLLSDPLELHILTQLRNKNTDQINFRKGLVRLGRLIGYAVANTLDYEIIDVETPLGVKTKGVKISDLENVIIINILRAATPLVEGLLKAFPAARQGVVTAKRRETEEKEPPKEMEVDIFYEKIPYIRESIDNVIIADPMIATASTMIKVIDKVIKNKPKRVYIASVITSQYGLKRIFELYPDIYLFTISIDPELNTKGYILPGLGDAGDRSFG;locus_tag=LOCUS_15900;gene=upp;EC_number=2.4.2.9;note=WP_010978234.1 uracil phosphoribosyltransferase (Sulfurisphaera tokodaii) [pid:67.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-76],MGA_1591
sequence1	MetaGeneAnnotator	CDS	1433841	1434086	.	-	0	ID=MGA_1592;product=30S ribosomal protein S28e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978233.1;translation=MSEKPTQTSSIIEEFGFPAEVIQILDRTGVTGEVTQVRVRVLEGRDKGRILTRNIKGPVRLGDIVILRETEREARKLTTKR;locus_tag=LOCUS_15910;note=WP_010978233.1 30S ribosomal protein S28e (Sulfurisphaera) [pid:91.1%25%2C q_cov:97.5%25%2C s_cov:95.2%25%2C Eval:5.0e-34],MGA_1592
sequence1	MetaGeneAnnotator	CDS	1434155	1434340	.	+	0	ID=MGA_1593;product=50S ribosomal protein L24e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978232.1;translation=MPSTHTCSYCGGNIPAGTGLMYIKNDGTILWFCSSKCRKYMLKYRRDPKKFKWTSSYSRVR;locus_tag=LOCUS_15920;note=WP_010978232.1 50S ribosomal protein L24e (Sulfurisphaera) [pid:70.2%25%2C q_cov:93.4%25%2C s_cov:93.4%25%2C Eval:7.3e-20],MGA_1593
sequence1	MetaGeneAnnotator	CDS	1434341	1434781	.	+	0	ID=MGA_1594;product=nucleoside-diphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846241.1;translation=MSIQKTFVMIKPDGVKRKLSGEIIQRIEKKGLSIVGLKMVRISKNKAEELYAEHNGKSFFKDLINYITSGPVICMVIEGDEAVSVMRKMIGATDPKEALPGTIRGDYALSKSENVIHASDSEDKAKREISIFFNDEEILNLNIQTV;locus_tag=LOCUS_15930;gene=ndk;EC_number=2.7.4.6;note=WP_052846241.1 nucleoside-diphosphate kinase (Sulfurisphaera) [pid:77.7%25%2C q_cov:95.2%25%2C s_cov:94.6%25%2C Eval:7.9e-58],MGA_1594
sequence1	MetaGeneAnnotator	CDS	1434755	1436551	.	-	0	ID=MGA_1595;product=translation initiation factor IF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978230.1;translation=MSKDSRRFRQPIVVVLGHVDHGKTTLLDKIRGTAIVKKEPGEMTQEVGASFVPSSVIEKLSEPLKNIIPVKLEIPGLLFIDTPGHELFSNLRRRGGSVADIAILVVDIMEGFQKQTNESIEILKEKKVPFLVAANKIDRIPGWKPYDNEPFLVSFSKQSKAVQQRLENAIYNLVLQLAQLNFNAERFDRVKDFTQYIAIVPVSGKTGEGVPELLALLAGLTQRFMRTRIGFVEGPAKGVVLEVKEDQGYGYTIDTIIYDGILKRNDTIVLGGVNDVIVTKVRNLLLPAPLQDMRISKTDYRSVDEVYAASGVKIMATGLDEAVAGSPLYAVDNESRLDEYKKIIKEEISKIRFQKNITGIVVKADSLGTLESLVGALEKRNIPVRLADIGPISKRDIIEAELAGKEAEEYGIIAAFRVKPLPGVESSKIKIIYNDIIYQLIDDVEKYINDVREKRKRKTLDTLVLPAKIKILPGYVFRRSDPVIVGIKVLGGIIKPKYPLMKKDGRRVGEVLQIQDNKKTLDKATEGMEVALSIKGNIMIGRQIDEGEELYTDVPKEDLEILFSNYKDIITEDMKSVIKEIINIKRTEDPLYGLNIQV;locus_tag=LOCUS_15940;gene=infB;note=WP_010978230.1 translation initiation factor IF-2 (Sulfurisphaera tokodaii) [pid:72.0%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:1.1e-252],MGA_1595
sequence1	MetaGeneAnnotator	CDS	1436649	1437929	.	+	0	ID=MGA_1596;product=NADP-dependent malic enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978229.1;translation=MVDYDKLAVETASKYKGKIQMIPKVPVNSIDDFSILYTPGVAAVSRAINKDKNLSFQYTYRWNAIAIVTDGTRVLGLGNVGPEAAMPVMEGKSLLFKYLGGVDAIPITLGTTDAEKIIDTVKILEPSFGGINLEDIESPKCFYILDKLKEELQIPVWHDDQQGTAGATLAGLMGALEVVGKKANDIKVILFGTGAANIATARLLNKYGVPYKNMILIDSSGVLYKGRNDEDAIKEENVWKYELLKETNKEKITTIEKAFEGADVLIAASKPGPGTIDSSLISKMNKDAIVFALANPVPEIWPEEAKKAGARIVGTGRSDFPNQINNSLIFPAVFRGALDVRAKTISDEMVIEAARELVAFAREKGLNDEYIIPKMTEWEVFPRVAATVGLKAIQLGLSRITLSYDELYTNAKSMIENARKQMKMLA;locus_tag=LOCUS_15950;note=WP_010978229.1 NADP-dependent malic enzyme (Sulfurisphaera tokodaii) [pid:74.2%25%2C q_cov:99.3%25%2C s_cov:95.5%25%2C Eval:5.1e-185],MGA_1596
sequence1	MetaGeneAnnotator	CDS	1437986	1438237	.	+	0	ID=MGA_1597;product=DNA-directed RNA polymerase subunit H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846238.1;translation=MRSVSKKIDPRVHQLVPKHEILPIEEAYKMLKQLGIGPEQLPWIRASDPVVHAIGAKPGDIIKITRKSQTIGESVVYRYVISG;locus_tag=LOCUS_15960;EC_number=2.7.7.6;note=WP_052846238.1 DNA-directed RNA polymerase subunit H (Sulfurisphaera) [pid:77.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-30],MGA_1597
sequence1	MetaGeneAnnotator	CDS	1438243	1441617	.	+	0	ID=MGA_1598;product=DNA-directed RNA polymerase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978227.1;translation=MLSIDDRWEIVEAYFKSRGLVRQHLDSFNDFIKNRLQEIIDEQGEIDTEIPGLKIKLGKIRVGKPRVREADRGDREITPMEARLRNLTYAAPIYLTMIPVENNIEGEPIEVYVGDLPIMLKSIADPTSDLPAEKLIEIGEDPKDPGGYFIINGSERVIVTQEDLATNRVLVDVGKAGSNVTHTAKIISSTSGYRVPITLERLRDSTIHISFPAVPGRIPFVILMRALGILTDRDIVYAVSLDPEIQNELLPSIEQASSITTRDDALDFIGNRVAIGQKRESRIQKAEQVLDKYFLPHIGTSPSDRIKKAYYIGFAVSKILELYLGRREADDKDHYANKRLKLAGDLFASLYRVAFKAFVKDLVYQLEKSKVRGRRLALNALVRPDIISERIRHALATGNWVGGRTGVSQLLDRTNWLSMLSHLRRVISSLARGQPNFEARDLHGTQWGRMCPFETPEGPNSGLVKNLALMAQISVGINDRVVEKVLYDLGVVPVDEVINRIEEGEEDASTYSQWSKVILNGKLVGYYPDGDELAKKIREKRRNGEISNEVNSAFLSTEYYNEVYINCDSGRVRRPLIVVKDGTPLVTKEDVEKLKRGEMSFNELVDQGKIEFLDAEEEENSYIALDPDKLTSEHTHLEIWSPAILGITASIVPYPEHNQSPRNTYQSAMAKQALGLYAANYQLRTDSRAHLLHYPQKPIVHTRALEAVGYNDRPAGSNAILAVMSFTGYNMEDAIIMNKSSVERGMFRSTFFRLYSAEEIKYPGGQEDKIEKPEEGLKGYKGKEYYELLDDNGIVPPEVEVKGGDVLIGKVSPPRFLQEFKELSPEQAKRDTSIIARHGEKGIVDLVLVTETADGNRLVKVRVRDPRIPELGDKFATRHGQKGVIGMLISQPDMPYTVKGVVPDIILNPHSLPSRMTLGQIMEALAGKYAALSGHVVDATPFYSKPIDELQNEILKYGYLKDGSEVVYDGRTGQKIKGRILFGIVYYQKLHHMVADKMHGRARGPVQILTRQPTEGRAREGGLRFGEMERDCLIGYGAAMVIKDRLLDNSDKATVYVCEQCGYIGWYDRNKNKLVCPIHGDKTNLYPVTISYAFKLLLQELMSMVISPRLILGDKVDINGDHNE;locus_tag=LOCUS_15970;EC_number=2.7.7.6;note=WP_010978227.1 DNA-directed RNA polymerase subunit B (Sulfurisphaera tokodaii) [pid:79.8%25%2C q_cov:99.9%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_1598
sequence1	MetaGeneAnnotator	CDS	1441610	1444252	.	+	0	ID=MGA_1599;product=DNA-directed RNA polymerase subunit A';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846236.1;translation=MSEKIIKGIKFGILSPDEIRRMSVTAIITPDVYDEDGTPIEGSVMDPRLGVIEPGQRCPTCGNMIGSCPGHFGHIELVRPVLHVGYVKHIYDLLRATCRRCGRIKMSEDEIERYSRIYAAIKKRWPSAGKRVIDYVKKTSMKAAVCPHCGEKQLKIKLEKPYNFYEERKEGVVRLTPVDIRDRLERIPDSDVELLGYDRQSSRPEWMILTVLPVPPITIRPSIMIESGIRAEDDLTHKLVDIVRINERLKESIDAGAPQLIVEDLWDLLQYHVATYFDNEIPGLPTSKHRSGRPLRTLAQRLKGKEGRFRGNLSGKRVDFSARTVISPDPNISIDEVGVPVDIAQILTVPEKVTKWNIDRLREYVINGPDKWPGANYVIRSDGRRIDLRYVKDRKEFASTLAPGFTVERHLIDGDVVIFNRQPSLHRISMMGHKVRVLPGRTFRLNLLVCPPYNADFDGDEMNLHIPQSEEAIAEAREIMIVHRNILTPRYGGPIIGSAQDYISGAYLLTVKTTLISEEEVETILGVADIHKELGEPAILAPKRMYTGKQILSLFLPEDFNFHGQANISSGPRACKDEDCPHDSFVVIKEGKLLEGVFDKKALGNQQPESILHWLIREYSEDYALWLMDNIFKVFVRYIELHGLTMTLDDVTIPQEAVQKIAERSKQANEEVSQLIEKYNKGELEPIPGRTIEESLENYILDSLDKLRNDAGEIATSYLDPFNNAYIMARTGARGSVLNITQMAAMLGQQSVRGERISRGYYRRTLPHFKQGDISPEARGFVYSSFRIGLNPIEVFFHAAAGREGLVDTAVRTSQSGYMQRRLVNALSDLRVEYDGTIRTLYGEMIQALYGGDGVHPMYSAHGKTVDVDRILERVVGWKR;locus_tag=LOCUS_15980;gene=rpoA1;EC_number=2.7.7.6;note=WP_052846236.1 DNA-directed RNA polymerase subunit A' (Sulfurisphaera tokodaii) [pid:80.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_1599
sequence1	MetaGeneAnnotator	CDS	1444259	1445437	.	+	0	ID=MGA_1600;product=DNA-directed RNA polymerase subunit A'';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846867.1;translation=MIQKDVEQYMDEQLSKIKDIVPSTVVDKLKKSIENYPVEITKDEIDKIIELAIADYKNSLINPGEAIGVVAAQSIGEPGTQMTLRTFHFAGVRELNVTLGLPRLIEIVDARKTPSTPMMTIYLDEEYRTDKSKALDIARKLEYTKIESVVDSTSIDVASMSIIIHFDEDMLNDKGVTIDDVEKAIKKLKLGDYVIDKPDELTLSISFQNLDNITSLFKARERILGTKIKGVKGIKRAIVQKRGDEYVIITDGSNLEGILGIKGIDVSKIETNNLHEVENVLGIEAARELITKEIKKVLDEQGLDVDFRHIELVADIMTRTGEVRQIGRHGVTGEKTSVLARAAFEVTVKHLLDSSARGDLEEFRGVVENIIIGQPIKLGTGMVELLMKPALR;locus_tag=LOCUS_15990;gene=rpoA2;EC_number=2.7.7.6;note=WP_052846867.1 DNA-directed RNA polymerase subunit A'' (Sulfurisphaera tokodaii) [pid:67.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-153],MGA_1600
sequence1	MetaGeneAnnotator	CDS	1445442	1445759	.	+	0	ID=MGA_1601;product=50S ribosomal protein L30e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978224.1;translation=MSQNITFETELKNLLKSGKVIFGSKKTLKKLKLGKVKAIIVASTLKGDIMNDIIHYAKVSSIPIYKYPGSGWDLGTLAGKPFMISTIGVEDPGNSRILDIAKLVS;locus_tag=LOCUS_16000;note=WP_010978224.1 50S ribosomal protein L30e (Sulfurisphaera tokodaii) [pid:57.8%25%2C q_cov:97.1%25%2C s_cov:96.2%25%2C Eval:1.1e-28],MGA_1601
sequence1	MetaGeneAnnotator	CDS	1445771	1446202	.	+	0	ID=MGA_1602;product=NusA-like transcription termination signal-binding factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978223.1;translation=MPEIKLTQEEMNYMSLFQDVTKVTVRDCIIDTENNRIIFLVDPQFMGIAIGKSGLNVRKLRKIIGKDVEIVAYSENLEDMVKNLMAPARVRSVKIVDSDSKKSVYITVDPQDKGLAIGKSGKNVTRAKLILKRYMDIDSVVIV;locus_tag=LOCUS_16010;note=WP_010978223.1 NusA-like transcription termination signal-binding factor (Sulfurisphaera) [pid:74.6%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:3.6e-57],MGA_1602
sequence1	MetaGeneAnnotator	CDS	1446215	1446655	.	+	0	ID=MGA_1603;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978222.1;translation=MSGKSPKGLFAARKLKLKRLKFRWSQRTFKTRVLQLKKRFDPLEGSPMARGIVLEKVGIESRQPNSAVRKCVRVQLVKNGRVVTAFVPGDGGVNFIDEHDEVVIAGIGGTLGRSMGDLPGVRFKVVMVNGVSLDALYKGKKTKPVR;locus_tag=LOCUS_16020;note=WP_010978222.1 30S ribosomal protein S12 (Sulfurisphaera tokodaii) [pid:86.1%25%2C q_cov:98.6%25%2C s_cov:98.0%25%2C Eval:3.8e-68],MGA_1603
sequence1	MetaGeneAnnotator	CDS	1446657	1447115	.	-	0	ID=MGA_1604;product=DUF151 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978221.1;translation=MMSEQNEYVKVNNVDAFFYPINGISVIVCYLEDGREFDLFYVPAEVVLAINKIKKQTEENISLDKRETIYDVISFVPEVTEELSKHINKVIIDDIMDTVYIATIELKFDGVIIQKRMIPSHAIYLALVSNKPIFVKKKLVEDQEKDREQQKK;locus_tag=LOCUS_16030;note=WP_010978221.1 DUF151 domain-containing protein (Sulfurisphaera tokodaii) [pid:55.8%25%2C q_cov:97.4%25%2C s_cov:96.9%25%2C Eval:1.6e-43],MGA_1604
sequence1	MetaGeneAnnotator	CDS	1447197	1447778	.	+	0	ID=MGA_1605;product=30S ribosomal protein S7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978220.1;translation=MEYDLSQLDIKIFGKWNTKVEVRDPSLKKYISLIPVYLPHSGGRHEHRRFGKSRLNVVERLIDELMRPGRNKGKKMLAYNIVKASFEIIFARTGQNPLQILVKAIENVAPREEVTRIMYGGIVYYVAVDVSPERRVDLALRHLVEGARAASFNNPKPIDESLAEEIIAASSLDTKSYALRKKEEMERIALSSR;locus_tag=LOCUS_16040;note=WP_010978220.1 30S ribosomal protein S7 (Sulfurisphaera tokodaii) [pid:78.5%25%2C q_cov:99.0%25%2C s_cov:98.5%25%2C Eval:1.0e-85],MGA_1605
sequence1	MetaGeneAnnotator	CDS	1447837	1449144	.	+	0	ID=MGA_1606;product=translation elongation factor EF-1 subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978219.1;translation=MSQKPHLNLIVIGHVDHGKSTLVGRLLMDRGFLDEKTVKEAEEAAKKLGKESEKYAFLLDRLKEERERGVTINLTFMKFETQKYFFTIIDAPGHRDFVKNMITGASQADAAILAVSAKKGEFEAGMSAEGQSREHIILARTMGIDQIIVAVTKMDLTDPPYDEKRFKEVTDVVTKFMKSFGFDMSKVKFVPVVSPTGENITHRSENMKWYNGPTLEEALNMLVVPPKPIDKPLRIPIQEVYTISGVGTVPVGRVESGVLKVGDKIVFMPAGKSAEVRSIETHHTKMEKAEPGDNIGFNVRGIEKKDVKRGDVAGHTTNPPTVADEFTARIIVIWHPTALAVGYTPVLHLHTASIACRVSEIVSRLDPKTGKEAEKNPQFVKQGDAAIVKFKPIRPLCVEKYNDFPPLGRFAMRDMGKTVGVGVVTDVKPTKIEIK;locus_tag=LOCUS_16050;gene=tuf;note=WP_010978219.1 translation elongation factor EF-1 subunit alpha (Sulfurisphaera tokodaii) [pid:81.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.6e-211],MGA_1606
sequence1	MetaGeneAnnotator	CDS	1449162	1449470	.	+	0	ID=MGA_1607;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978218.1;translation=MPTKARIRLWSSNVNDLTYVINQIRAIVDKTGISMRGPIPLPTRRLEVPIMKLPHGEGRKKWEKWEMSIHKRVIDISADERVMRQLMRVRVPEDVYIEIELV;locus_tag=LOCUS_16060;gene=rpsJ;note=WP_010978218.1 30S ribosomal protein S10 (Sulfurisphaera) [pid:72.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-42],MGA_1607
sequence1	MetaGeneAnnotator	CDS	1449685	1449936	.	-	0	ID=MGA_1608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIYDEVLGIVSSYIDSLPNLTRNEKIIYVQQCSEDLNYLMATVNATGEKNEIKMYLLNKMGNYCSRYNLYPCPQGEDSEEE;locus_tag=LOCUS_16070;note=WP_052846334.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:44.6%25%2C q_cov:78.3%25%2C s_cov:12.1%25%2C Eval:5.8e-09%2C partial hit],MGA_1608
sequence1	Aragorn:1.2.38	tRNA	1451598	1451673	.	-	.	ID=Aragorn_15;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00150;note=Aragorn_15
sequence1	MetaGeneAnnotator	CDS	1452402	1453031	.	+	0	ID=MGA_1609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAFDHNADDDCTYLGLVGLVSGVLNSFENNKDDVYLGIYYLPVVLPPNSFSVKDVLDYARMFCSNGVCQDSAFSYLLDRVRSANRAMSSLISAGVLSGIAFAAVLVVDWYDVDQIIRDSEVYVKKLKEIYDEVLGIVSSYIDSLPNLTRNEKIIYVQQCSEDLNYLMATVNATGEKNEIKMYLLNKMGNYCSRYNLYPCPQGEDSEEE;locus_tag=LOCUS_16080;note=WP_052846334.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:39.4%25%2C q_cov:87.1%25%2C s_cov:35.5%25%2C Eval:6.0e-29%2C partial hit],MGA_1609
sequence1	MetaGeneAnnotator	CDS	1453257	1453805	.	-	0	ID=MGA_1610;product=methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846295.1;translation=MSYFIVNEVVNGIPLSLVSHTSLFSKRKLDTGTRILLENLTIPEKGKVADVGCGYGPIGIYIALKNNNLKIYMLDINPIAVKTAKYNVERYNLNNIITVLKSDVLDNLPEKVNAIFSNPPLSKGVDFLEKLAEQSNEKLEDGYIELVVYKGENNVIKIFGKYFSNIQIIKNQKGYSIIMIRR;locus_tag=LOCUS_16090;note=WP_052846295.1 methyltransferase (Sulfurisphaera tokodaii) [pid:61.1%25%2C q_cov:98.4%25%2C s_cov:97.8%25%2C Eval:1.1e-59],MGA_1610
sequence1	MetaGeneAnnotator	CDS	1453802	1454506	.	-	0	ID=MGA_1611;product=RNA-guided pseudouridylation complex pseudouridine synthase subunit Cbf5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978368.1;translation=MNYVTEAGKEYICVMQVHCDIEKDLLKSIIEKFKGKIYQRPPVRSSVKRRLRFRTVNEIELLETYNRMALLRISSEPGTYMRKICHDAGILLGCGAHMRELRRIRSGIFTEKNLVTLQEVSEALYMWKSCKDEEDLRKILIPMEMAFCGIPKIVIDDNAVDAIAYGASVMIPGIVAFQNFKKGDLVGILTLKGEAVAVGIALVDSKNLSSLEKGEAIKPKRVLIQKDLYPRSWK;locus_tag=LOCUS_16100;EC_number=5.4.99.-;note=WP_010978368.1 RNA-guided pseudouridylation complex pseudouridine synthase subunit Cbf5 (Sulfurisphaera tokodaii) [pid:69.7%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:8.5e-94],MGA_1611
sequence1	MetaGeneAnnotator	CDS	1454571	1454825	.	-	0	ID=MGA_1612;product=tRNA pseudouridine synthase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978367.1;translation=MNFYNFIYKIDEFCSYNNSWEIKKEETTSDKYGVYPDKRDINLLIKNSIINLDKPPGPTSHEVAFWVKKMFNINKVGHGGTLEP;locus_tag=LOCUS_16110;note=WP_010978367.1 tRNA pseudouridine synthase A (Sulfurisphaera tokodaii) [pid:64.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.7e-30],MGA_1612
sequence1	MetaGeneAnnotator	CDS	1454826	1455116	.	-	0	ID=MGA_1613;product=50S ribosomal protein L14e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978366.1;translation=MPVIEIGRICVKTRGREAGSKCVIVDIIDDNFVLVTGPKKVSGIKRRRLNIAHLEPTDKKIDIQKGATDEEIEKKLQEAGLTDFVKEKIKIKIPVI;locus_tag=LOCUS_16120;note=WP_010978366.1 50S ribosomal protein L14e (Sulfurisphaera) [pid:79.8%25%2C q_cov:87.5%25%2C s_cov:87.5%25%2C Eval:3.9e-34],MGA_1613
sequence1	MetaGeneAnnotator	CDS	1455159	1457873	.	-	0	ID=MGA_1614;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978365.1;translation=MLTAADFGKVLYSLGYTKLTPIQRIAIPKIISGKHTLIIAPTGSGKTEAAIIPLFYKIWNSRPEKISLLYITPLKALNRDLELRLKNLGNALGITIGTRHGDTSERKRKEILKSPPDLLITTPESLQYLIINQKYRDLLSNLKWIIIDELQEMLDEKRGYELSVVISRLKKFNKNKIQMIGLSATIGNIELAKKYLSDAEVEVAKVDLKKEYDIDLIIPDINDFPKKAIELNLDPYVISRLEKLKQIIETYKPIIIFTNTRETAEFLASELQALYNLKVATHHGSLSKDIRINIENNFKQGNLDAIIATSSLELGIDIGNINLVVQYMSPKEVTRLLQRIGRSGHSLNKVSKGIVIPSNYIYDIFECKSIIELSREGYLEQPYIELNALDVIAHEITGMVLEGVRNKEDILDILKNSVYFRDLSKDELENVVQLLKSSRILKEKDNQLLPSYRAWKYYYGTNMIPDSIRSYSVINMANNLELGKLDEDFVAMIDEESIFVLGGKLWKVVSIEDGKIFVDRAELKRGILPSWFGESIPVEKEVSERVYSYLIDAIKGKNYEFDEINDIIQEYKKRGYPELSNNDILVEIINGELIVVHSPFGSKGNNTLGSILSFYLNKIKGIRTSFRNDPYNIVIASVLPISKKDIEETITYVNKLSQIDARNIVIDAIKESPQFKWKLYIEAERFGNIDSNSKEIISSAILRQFSDTIVGEEAAREMLIKNHDLSVLTEIKKYTWKIVEVPSPSPLAKEFLDRLLITESEEAPVMLEVFKRRLLSKEVRVLCMVCGWNKKVSIEYSPEKCEKCQSVFLTATFPDDRDSIDIINKNIRGKKLSKTEMKKLKELKIIASLFSQYKKYALIALSARGVGSTNLGKALSKLSEGEESFYQNLFNVEKKFLKNRKYWQ;locus_tag=LOCUS_16130;note=WP_010978365.1 DEAD/DEAH box helicase (Sulfurisphaera tokodaii) [pid:56.8%25%2C q_cov:99.3%25%2C s_cov:99.2%25%2C Eval:8.7e-311],MGA_1614
sequence1	MetaGeneAnnotator	CDS	1458442	1459566	.	+	0	ID=MGA_1615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSQLGEIRVNKGLCIGKINGILRRSTFELGRVKTNAKYKWANIKSDFCIDLDNSKNYNMIILGTSGSGKSSLAKTIVSKLNVSYLIFDIHGEYFTEAKRIDASLISVNPLSLFGQSPRQRALEVAYMLKSIFNLGNLQVIDLFNIIFETYEEKGIYEEDSSSWNNTPPNFRDVILLLERKKRYINNSTELNKIQSLEPYLNFVSNSMFNTNSINYNDIFEDNYILDLSKITIPEIKYIVIETILRSLTSFMYSTGTSKLRKMIVIDEAPFILSKESGQLLVERLFAEGRKFGIGFILISQTSEYVKKLISNSAYLFALNLVEPADLDYVSKIISGPDQDIYKSIYDSLHKLDRGLIITRNILQDEIFLVRIQQ;locus_tag=LOCUS_16140;note=WP_010978364.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:54.9%25%2C q_cov:96.8%25%2C s_cov:65.8%25%2C Eval:7.7e-118%2C partial hit],MGA_1615
sequence1	MetaGeneAnnotator	CDS	1459576	1459863	.	+	0	ID=MGA_1616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDEYNNGEENEETTSEEKEPREEDSEFPAVSLQDIELLMKNTEVWYELLNGKISLDDAKKLFEQNISSMPSQSEGKKAKRKAPAKKVKKEKVKK;locus_tag=LOCUS_16150;note=WP_010978362.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:53.6%25%2C q_cov:58.9%25%2C s_cov:48.7%25%2C Eval:6.1e-11%2C partial hit],MGA_1616
sequence1	MetaGeneAnnotator	CDS	1459869	1460615	.	+	0	ID=MGA_1617;product=DNA polymerase sliding clamp;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978361.1;translation=MFKAIYPSSKDFYYLINAMSKLSDSIILNFTQEGIISRYLTDDKVLMGVLNIPKDSLEEYSIEKEVSVKLDLTNMKKILGKARSSKSRLEITETDAGIKIVIVDDKSGTRSNIYVKGEKGEIQNLKEPSVSLTVSAAFSGDILKTIIDDAEEISEEAEFSAEDDYIKIYVEESGKTYTAFLKNSKPLSSLEIEKPSKSIYSLEVLKTVASAANFSSSLKLNFGTNLPMKIEASGEKGASLFFWVAPRM;locus_tag=LOCUS_16160;note=WP_010978361.1 DNA polymerase sliding clamp (Sulfurisphaera tokodaii) [pid:48.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-69],MGA_1617
sequence1	MetaGeneAnnotator	CDS	1460605	1461717	.	-	0	ID=MGA_1618;product=amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846293.1;translation=MENSSEIFNLGYVLIGKNLQVKRNVNIEISDNKIVHIGNGFDSKGKDYRNAILIPTLVNAHVHAGDFSFPEIGIDKPIGDLVSDPKSIKYKFFNKLKFIDIKRYIKDFLEYSKKFGIFTIMDFREQDIFGAKLAKEIKDELANELNYIILSRLDKKISKIRLKTLFELSDGYGISSSTTYNKADLIKINNIFHDKIIAIHISETLKQGLQNDLGYILKVIRPKIIIHGTHLFEEDFLELKDRNISLVTCPRSNLWFSNGIPRIDKMIDSKVNLLIGTDNGAWIDPNIWKDMELALLITRIRKPLSNYSKEILKAATTNISRILFKNYINEGLPARFIIIEGERSGIFRSHNLYQAIIKRGYNILYSRFTF;locus_tag=LOCUS_16170;note=WP_052846293.1 amidohydrolase family protein (Sulfurisphaera tokodaii) [pid:48.5%25%2C q_cov:96.8%25%2C s_cov:96.2%25%2C Eval:2.5e-84],MGA_1618
sequence1	MetaGeneAnnotator	CDS	1461687	1462397	.	-	0	ID=MGA_1619;product=GTP cyclohydrolase IIa;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978359.1;translation=MKILAVELYKYKDWTESLGLDREWIIQNEQHSLAYKINTLSAELGAFLLPLRYDFFIILVDGIRNSHIKFIFNEIKRLSPVRPRACVGYGRTFIEAQQNAAECIKNTEPENIGIGEYDNEQIVSCHFDIDNFTKLSTDISFYKAFIDINKLYSILSEKIYELGGISQYLGGDNILAFTDKNNVKNILNIVEDMKDIKVGIGIGSNARISIKNSTEALEKIRELRNCKWRIVPKYSI;locus_tag=LOCUS_16180;EC_number=3.5.4.29;note=WP_010978359.1 GTP cyclohydrolase IIa (Sulfurisphaera tokodaii) [pid:39.0%25%2C q_cov:97.9%25%2C s_cov:98.2%25%2C Eval:3.7e-44],MGA_1619
sequence1	MetaGeneAnnotator	CDS	1462394	1462855	.	-	0	ID=MGA_1620;product=6%2C7-dimethyl-8-ribityllumazine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846879.1;translation=MQVQSIRVGIVIAEFNYDITYLMLQRAISHAEFLGAKVQVILKVPGSYEIPLAIKQLLKKDYIDCVVALGAIIKGETKHDELIANQVARLISDLELEYEKPIGLGIIGPGVSHEQAVERIEEYSTRAVEASVKMAKRMKKMEMISSESTVIIE;locus_tag=LOCUS_16190;gene=ribH;EC_number=2.5.1.78;note=WP_052846879.1 6%2C7-dimethyl-8-ribityllumazine synthase (Sulfurisphaera tokodaii) [pid:66.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-53],MGA_1620
sequence1	MetaGeneAnnotator	CDS	1462836	1463300	.	-	0	ID=MGA_1621;product=riboflavin synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978357.1;translation=MRKYGIVDTTFSRIDMGNIAIKTIKKEDLDSEVIRYTVPGIKDTPVAAKKLIEKGCDGVITLGWVGKTMLDKYSYLAASIGLITVQILTSKHIIDVTIHEDEADDIDKLKEIAIDRVVKHSKNLVKLIRDGENSLTPFAGKGLRQGYKDAGPID;locus_tag=LOCUS_16200;gene=ribC;EC_number=2.5.1.9;note=WP_010978357.1 riboflavin synthase (Sulfurisphaera tokodaii) [pid:77.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-68],MGA_1621
sequence1	MetaGeneAnnotator	CDS	1463297	1463959	.	-	0	ID=MGA_1622;product=3%2C4-dihydroxy-2-butanone-4-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978356.1;translation=MISKEIIRKNLESGLPILIYDFDGREEETDMIFYAGAINWKSIYTLRTSAGGLICYATGSKEANILGLRFQTDILRDNTIYKKLVKIPSYKDEPAFSIWVNHVNTTTGISDYDRAKTIQELHKVIITINENPLEAKENFYTYFYAPGHVPFLISRDITKRRGHTELSTTLMSFLGLEKSVAFAEMLDEKVSLKKNKALLFAKNNGLLFIEGKEILNEVIA;locus_tag=LOCUS_16210;note=WP_010978356.1 3%2C4-dihydroxy-2-butanone-4-phosphate synthase (Sulfurisphaera tokodaii) [pid:62.6%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:2.4e-71],MGA_1622
sequence1	MetaGeneAnnotator	CDS	1463995	1464453	.	-	0	ID=MGA_1623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNYVFTIEQTTDCFDKINITVIYLHNISISINKSINGIQLSILNNYTLVSDSNLYIEKYYINNTAIYNILYLNFNSNNSYRIIIYNITREIAIILINVRLIYNSSITIPNSTINIKSSDKISTTSYYPYAIIVIISVISTLLLRYRKHNK;locus_tag=LOCUS_16220;note=MGA_1623
sequence1	MetaGeneAnnotator	CDS	1464570	1465328	.	+	0	ID=MGA_1624;product=DUF2208 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978354.1;translation=MSSVTPNPYSWKYVLLSQVYLIVISVVLTYYPQYFIEAIVTYFIVMMGVMFYSMSKSNPMFRDRKLLYEINNSRLLYEEKNASELINKDKEYTEEYTKYAKKSFSMLGIYLVYMIVLYFLYTYISKIAISQASSFDRLLVYLIYFEVIYLFAFFVFRKIVKPAMLNIMAPFSYKITEKGIVGSGGMSTFLHARHLLDANISVNREKHYVEIDSAQAKLPYKLRLYSSDVDKVLDYIERIKRIELRRQSSSQQ;locus_tag=LOCUS_16230;note=WP_010978354.1 DUF2208 domain-containing protein (Sulfurisphaera tokodaii) [pid:45.3%25%2C q_cov:97.2%25%2C s_cov:96.1%25%2C Eval:1.4e-65],MGA_1624
sequence1	MetaGeneAnnotator	CDS	1465300	1466601	.	-	0	ID=MGA_1625;product=cobyrinate a%2Cc-diamide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978353.1;translation=MHSPRIIIASDRSDSGKTLVSAGLMKALSKKLKVRGFKAGPDFIDIGYHKLATTFPSINLDLFIMGKDNVIRSLCKYSKNFDISIIEGVMGLYDGINTEYSTYELSKVTKSPIILVINCYNLSSTVGAIIKGLIEYKNANIKGVILNKVASPTHFSYCKNSIDGVKVLGYIPYSKDLEIPSRHLGLFTIESYKEAEKVINNISKLIQDYIDLDALLQIANDANELDCNYNEYTSNYRKKIAAIAYDAAFNFYYQENIDRINTMYNIKFFSPLNNEKIENIDFIYLGGGYPELYLNELESSITTNWLKKEAEKGTPILGECGGLMYLSKNLIQNDRKYKMIGIFDIDINTSGKLTLGYTQLRAIRDSFIANKNDIIRGHEFHISQPIRVGEKSFLFENNQGKGIIDKKDGVNNYNTIALYSHLHFSTVEKRTVF;locus_tag=LOCUS_16240;note=WP_010978353.1 cobyrinate a%2Cc-diamide synthase (Sulfurisphaera tokodaii) [pid:60.0%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:1.1e-147],MGA_1625
sequence1	MetaGeneAnnotator	CDS	1466690	1467427	.	+	0	ID=MGA_1626;product=proliferating cell nuclear antigen (pcna);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978351.1;translation=MKVSYDDVRYFKAIIEALSRLVDEASFKIKPDGIELEAIDRAHISLIKINLPKDEFKEYDVQEDMNFGFSTQYLLKVLSTSKRKEELEIESQDVSTIIIRINGEYPRVFELRNMEVSPPELPELKIEFDVKATLKSEAFRKAVSEIATVSDVVDIIADENGIKVKSKGEAEAEVELSKDSGSIQDIEISKPIESSYSTDYLNDILVLTKLSGNTKMSFAEQKPLQLEFNTESGGSVIYLLAPQLG;locus_tag=LOCUS_16250;gene=pcn;note=WP_010978351.1 proliferating cell nuclear antigen (pcna) (Sulfurisphaera tokodaii) [pid:54.9%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:9.0e-73],MGA_1626
sequence1	MetaGeneAnnotator	CDS	1467424	1468395	.	+	0	ID=MGA_1627;product=5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978350.1;translation=MIKFRISIVGSYPKPISLGKVISRFRSNKIPKERYEDYLKKETSKFFQLVGSIGAEYTTDGMFRWDDIVDITFSYLTGAEKGDLMRFYDNNFYYRRPIIKSKLTSNMEYINYLSISKNILVESKINTKLKGVFLGPLSYLRFSENNYYKNDDELLSDYARETNKVIREAQNIVDAIEVHEPAIFDKGIKKDLLDRIPKIYDELLESIKIQKHLITYFDINTKRLDILFNLPVDVIGLDIIENKNKVGNIYRNFKDKNVFLGVLNTRNTKLERPSSIIRFVRNAYNKGAKDVLIGNASLMDFIPEIIAKRKIKLLGKVRSTYYG;locus_tag=LOCUS_16260;EC_number=2.1.1.14;note=WP_010978350.1 5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase (Sulfurisphaera tokodaii) [pid:45.0%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:1.1e-80],MGA_1627
sequence1	MetaGeneAnnotator	CDS	1468388	1469398	.	+	0	ID=MGA_1628;product=methionine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978349.1;translation=MAELPILPTTVIGSYPRPKWLREAIRLNKAGKLSDEELTEAFNDAALSVLHDHYVAGIDVPTDGEVKRDEMVEYFAERLKGFRFYGPVRVWGTAYYVKPAVVSKIEYLRPLLVDEFLYTKSISYTDNFKITITGPYTLAYWSYNEFYRTRKDLVFDLAKVINQELHNLVNVGAKIIQIDEPAIHSTKEDIDWAIEAVNESLKGIDAKLVMHICYGDYRIIAPYLNEFNVDQINFALKIYDYKYLDLFKKYDYNKEIGVGVIDVHNRRIESPEEVKKDILSVINYFEPNKIWINPDCGLKLLPRSIAFQKMVSMVKGTQMVREELKKKGYTDTISLR;locus_tag=LOCUS_16270;EC_number=2.1.1.13;note=WP_010978349.1 methionine synthase (Sulfurisphaera tokodaii) [pid:70.2%25%2C q_cov:98.8%25%2C s_cov:97.6%25%2C Eval:1.0e-142],MGA_1628
sequence1	MetaGeneAnnotator	CDS	1469403	1469861	.	+	0	ID=MGA_1629;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978348.1;translation=MNKKRARGKSHSTRPARAGAPKWVRFTREEVEMLIEELYKRGYSASMIGVILRDQYGIPLAKQITGKKITKTLEEKNLAPKIPEDLFNLIRKAVNVRRHLTEYPADKFSKKGLEEIESKIRRLVYYYKQTGKLPSNWAYDPATAELLVTSSS;locus_tag=LOCUS_16280;note=WP_010978348.1 30S ribosomal protein S15 (Sulfurisphaera tokodaii) [pid:77.0%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:8.2e-64],MGA_1629
sequence1	MetaGeneAnnotator	CDS	1469858	1470301	.	-	0	ID=MGA_1630;product=ribonuclease HI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978745.1;translation=MIEGYFDGLCEPKNPGGIATYGYYIKTDHNNIEGFGLAAEPWSSDATNNVAEYTGLLCLLTKLRELKIEEVLIYGDSQLVINQLNGIYKIKSHRLVKLFDQINQVIKTFKRIEIKWIPREMNKKADHLTRVAYKLALEGKLKKVGCN;locus_tag=LOCUS_16290;gene=rnhA;EC_number=3.1.26.4;note=WP_010978745.1 ribonuclease HI (Sulfurisphaera tokodaii) [pid:54.1%25%2C q_cov:99.3%25%2C s_cov:97.3%25%2C Eval:3.9e-41],MGA_1630
sequence1	MetaGeneAnnotator	CDS	1470298	1470684	.	-	0	ID=MGA_1631;product=CbiX/SirB N-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978347.1;translation=MIGVLLVLHGSRVEEWTDVATKYKDLLLKYFDNVEYGFIEFNQPTLRESAENLANKGVDEIIAVPLLFAAGRHFLRDIPKLLGVDENGFIQTKNKKIKIIIAKPIGIDNRVAEILKERIEEVSNVEQN;locus_tag=LOCUS_16300;note=WP_010978347.1 CbiX/SirB N-terminal domain-containing protein (Sulfurisphaera tokodaii) [pid:62.3%25%2C q_cov:95.3%25%2C s_cov:94.2%25%2C Eval:9.4e-36],MGA_1631
sequence1	MetaGeneAnnotator	CDS	1470750	1471385	.	+	0	ID=MGA_1632;product=30S ribosomal protein S6e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978346.1;translation=MPDFKVVVSDPEVKNVKQLKVKVKAVDSIPSMEGEKENRTLPMAKLSSKLKEQLGLESLLTLQVIKQEGDKKNKIKVHFTVQVDDSAGDYVLISKSAAEKFGSEEFEATAYRTKAFQINIDQNKINLLGLKLGDTFTININGINFKLKITGGSDNTGFAMRADVLGAAKRKIFLAGPPGYKPLEDGERRRKIVRGNMISNEIVQINSMIIR;locus_tag=LOCUS_16310;note=WP_010978346.1 30S ribosomal protein S6e (Sulfurisphaera tokodaii) [pid:60.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.3e-70],MGA_1632
sequence1	MetaGeneAnnotator	CDS	1471390	1472637	.	+	0	ID=MGA_1633;product=translation initiation factor IF-2 subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846878.1;translation=MPWPKVQPDVNIGVVGHVDHGKTTLVQALTGIWTSKHSEELKRGMTIKLGYAEASFGYCKSCKTPDAYVNEESCKQCGSDEDPEFIRRVSFLDAPGHEILMATMLSGTAILDGAILVVAANEPFPQPQTREHFVALGIVGIKNLIIVQNKIDVVSKDQAIEQYRQIKDFIKGTWAEGSPVVPVSALHKINIDALIEALITHIKAPQRDLTKTPIMLTVRSFDINKPGTLYSELKGGIIGGSIVQGVFKIDEEIKILPGLRVENKGKVSYEPLYTKIASLRFGDLEVKEARPGGLVAVGTYLDPSITKADTLVGNIVADSKANVPVLWKLDIIYNLLERVVGSQQLIKVEPIRNKETLMLTIGSSTTLGIVTSSKSDEIEVELKRPVAVWDNNVRLAISRQVGGRWRLVGWGQVQL;locus_tag=LOCUS_16320;gene=eif2g;note=WP_052846878.1 translation initiation factor IF-2 subunit gamma (Sulfurisphaera) [pid:71.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-176],MGA_1633
sequence1	MetaGeneAnnotator	CDS	1472616	1473038	.	+	0	ID=MGA_1634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156005204.1;translation=MGASSTLGVLVDTNILLYVYDRIDPFWKVINFLDYKPRFYVHKQVFNELSTLEGRNRNSFVMNARIRLARTYLDIHKSFWEEIDCCSELETDKALLCTAKKYNLLIFTNDRELKKEALKIGIGIIFLLDKGKIIKSFYPI;locus_tag=LOCUS_16330;note=WP_156005204.1 hypothetical protein (Stygiolobus azoricus) [pid:47.4%25%2C q_cov:95.7%25%2C s_cov:95.7%25%2C Eval:2.6e-28],MGA_1634
sequence1	MetaGeneAnnotator	CDS	1473050	1473580	.	+	0	ID=MGA_1635;product=DNA-directed RNA polymerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978343.1;translation=MFKLVKARGVVRIPPEDFGQELDQVAIEILKKEYQEKLFKDLGLVLAVLSAKASEEGMIIFGDGATYHEVEFELLTYVPVVQEIVEGEVTQVDNYGLYVNLGPIDGLVHISQIGDDNFKFDPVRGILAGEKTKKIYQKGDIVRARIVTISSASVGKLPRIGLTMRQPTLGKIEKKK;locus_tag=LOCUS_16340;EC_number=2.7.7.6;note=WP_010978343.1 DNA-directed RNA polymerase (Sulfurisphaera tokodaii) [pid:71.7%25%2C q_cov:98.3%25%2C s_cov:94.0%25%2C Eval:1.9e-69],MGA_1635
sequence1	MetaGeneAnnotator	CDS	1473587	1473781	.	+	0	ID=MGA_1636;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978342.1;translation=MANILKACKNCKALVPEDQDVCPICGGSSFTNDWEGMVIIIDNNSEISDLIGAKKPWKYAINLK;locus_tag=LOCUS_16350;note=WP_010978342.1 DNA-binding protein (Sulfurisphaera tokodaii) [pid:59.3%25%2C q_cov:92.2%25%2C s_cov:88.1%25%2C Eval:1.7e-16],MGA_1636
sequence1	MetaGeneAnnotator	CDS	1473754	1473903	.	+	0	ID=MGA_1637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIRDKSKVNLCFQAPSYLRKELSRPYGILFTKTNSLIDYVSKKKELFQ;locus_tag=LOCUS_16360;note=MGA_1637
sequence1	MetaGeneAnnotator	CDS	1473942	1474277	.	+	0	ID=MGA_1638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFLSIIDGKTKRIVKTKESIKPTYYIKNEPGILRIESIDLINRVLMSTSSSVVFVDGEEDLFVIPLVLAGEKGDLVVYGQPNAGAVVLEVCEATKWRVNDIFKKFQLKNC;locus_tag=LOCUS_16370;note=WP_010978341.1 GTP-dependent dephospho-CoA kinase family protein (Sulfurisphaera tokodaii) [pid:46.8%25%2C q_cov:100.0%25%2C s_cov:68.5%25%2C Eval:2.0e-22%2C partial hit],frameshifted%2C insertion/deletion at around 1473888,MGA_1638
sequence1	MetaGeneAnnotator	CDS	1474331	1475578	.	-	0	ID=MGA_1639;product=2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978340.1;translation=MKKYKILLIIADGLGDRQVRSLNNKTPLETADKPNIKSLLKSSLVGLMDPISPGIIPGSDTSHMAIFGIDPHKYYRGRGSFEALGSGAELTEGDISFRGNFATVDNEMRVVDRRAGRKIDEAEQLINELNSKIGEIDGVKVRFYKGTEHRVSVVLSGDNLSDKISDTDPHETGLKIKESKPLDNSPASSRTAEIVNKLSKKIYEVLSTSEINKLRLSENKLPANIILLRGVAVHRELPKIKDYTGLTTAAVTATPLIKGICRSLGMETITPPGATGGIDTNYDAKANEVINFLKSDKYDLVFLHIKATDAASHDGDVTEKVKAIEKIDNMVGKILDNYSSEIVIAFTGDHATPVELKEHSGDPVPIMIYVPENIIADDIKDFNEREAKKGSLKIMGINVMNLLLNYSNRASKYGA;locus_tag=LOCUS_16380;EC_number=5.4.2.12;note=WP_010978340.1 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Sulfurisphaera tokodaii) [pid:68.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-166],MGA_1639
sequence1	MetaGeneAnnotator	CDS	1475575	1477890	.	-	0	ID=MGA_1640;product=CDC48 family AAA ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978339.1;translation=MSSELKLKVLEARQRDVGRKIGRISEDSMRKIGIETGDYIEVKGNSNSSLLQAMPAYDLSNGEIRIDGYVRSAIGVSIGDEVSVKKAKVDEAKKIILAPTEPIRFDQSFVDYVKDYLLYKPLSKGEVIPIPIYTGQIELIVTSTSPSNNVYVSSNTEIEIKEEPVKEVSNYPKVSWEDIGDLEDVKEKIREIVELPMKHPELFQRLGIEPPKGILLFGPPGVGKTLLARALASEIGASFYTINGPEIMSKFYGESEQRLREIFEEAEKNSPSIVFIDELDAIAPKREETTGEVEKRVVAQLLTLMDGIKGRGKIVVIGATNRPDALDPALRRPGRFDREIEIRPPDTKARKEILQVHTRNMPLSDDVNLDAIAEMTNGYTGADLAALAKEAAMSALRKFLKDNTGKINLDIGQIPPETLKELKVNMDDFTEAMKTVQPTLLREVYVEVPTVHWTDIGGLDLVKQQLREAVEWPMRYPGIFEKTGIRPPKGILLFGPPGTGKTMLAKAVATESGANFIAVKGPEVLSKWVGESEKAIREIFKRARQTAPTIIFFDEIDAIAPMRGFSHDSGVTERIVNQMLAEMDGITPLSKVVVIAATNRPDILDPALLRPGRFDRLIYVPPPDKEARKEILMIHMRGVPIEGTQQCINLALNECKDEKCKDEKIKYCMADILSDKTEGYTGADLEALVREATMIMLRKLSNECNNKAMAECKGNNTCYDNFMRNCMNNLNAKVTMQDFEDALKVVTPSLSKADIQRYERMASELKRSVAV;locus_tag=LOCUS_16390;note=WP_010978339.1 CDC48 family AAA ATPase (Sulfurisphaera tokodaii) [pid:72.0%25%2C q_cov:99.7%25%2C s_cov:99.9%25%2C Eval:0.0e+00],MGA_1640
sequence1	MetaGeneAnnotator	CDS	1478136	1481801	.	+	0	ID=MGA_1641;product=reverse gyrase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846290.1;translation=MALDYDIPNIIYMNSCPNCGSNISSLRLYKGSACEKCIKEDIVFNDLNNLIQYLNSNSNLGLLKDFKNILDNYNKVVVLFNKILNSPPLGPQKSWILRALKGDSFAIVAPPGLGKTTFGILMSLYYSSKNIKSLMVFPTRTLVQQVTQRIQQMSKDLDNVPKLAYYLSNLTRSQKEELKKSLDASDFDIFVTTSRYLINNIADINPEQYGYLFVDDVDSVLKSSKSSSTILKLMGFNDTDIQNVKELLRKARNDDTVFEEIKKIREKKIGKKIAIFSSATITKGNPVFSSLMGFKPGSAVIYLRNVIDSYIQSNDIISITKSIIDRLGSGGLIYVPIDKGTSFAKELATALDGNLKVDAISSSSTSKLEKFEKGDIDILIGVATHYGILVRGIDIPWRVKYAVFAGIPKFRFKIGEKMHPLAMLRMLTLISLVLKDPEISKILRIVKFRLRNISPAALNILAKNVKDGTLNDQYMLKAYEIVNKYLKDKELLEKISEIGEISINGDFISTPDYLTYIQASGRTSRIFGGELTTGLSILIVDDTKLFDLLNRRLSLVLDDINWHQFDIENDKIGNLEIDKILEKINSERDQIRKIKESGFLSASSVQKIKTALFIVESPNKAKTISSFFSRPSVREFDGLRVYETVIGDKVLMVTASGGHIYDLTTKDIGIHGIEVKKNGKLSFYAYYNSIKRCSNGHQFTEYSEDNSCPLCGSKNVRDKMSTLNALRQLALEADEIFIGTDPDIEGEKIAWDIFLNLRPYNSNISRAEFHEVTRRAIIESLNNPRKFSIPLLQSQLVRRVEDRWIGFKLSKKLQTEFWPIECKNLGKPCVENKNLSAGRVQTPVLGWVISRFNEYSKTKKTVYVVKFLDSFTILIPRQSKLNKNTKLKIVINNIADSKESFGPLPPYTTDSMLADVSNFYGISASEIMRIAQDLFEMGLITYHRTDSTRISNVGISIAETYLKQTIGDNYKSIFKPRSWGEGGAHEAIRVTKPLDSDQLRAMIEEGELELPKRLTFNHYRVYDLIFRRFITSQLIPVILEKEIVNLSVKTENNVMLNIENNPVEFVYNVTLPGDTHFSKLYVPMKTSGKPIKSKINCIPGKDCEFDAKVQYSFSKSDVQLYTQGTLITEMKNKKIGRPSTYATIVSTLLKRGYMIESKNVKRLVPSKLGIDVHSFLVTRYQKFVSEDRTRSLLERMDMIEDGKEDYRQVLKQLYEEIQDIG;locus_tag=LOCUS_16400;gene=rgy;EC_number=3.6.4.12%3B 5.6.2.2;note=WP_052846290.1 reverse gyrase (Sulfurisphaera tokodaii) [pid:53.6%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:0.0e+00],MGA_1641
sequence1	MetaGeneAnnotator	CDS	1481808	1482683	.	+	0	ID=MGA_1642;product=carbon-nitrogen hydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978336.1;translation=MLISLTYLKMKEMSRKHNIEKAKKLIKTSKERGAKLVVLPSLFPVGNSFELYNNEKKMRSMVKNLAEKIPGSSTDILVKLAMEGEVHLIAGPLLEQAGPKIFLTTLVISPDGEIIGKYRKIVVSEKDIRLGISGGKEPIYVVLDNKYGIISEDDLMSPEISRILSLGGSQAVIGTMRALNKKQEIVKHLAISRTIENGISYLVTGEMIENEDGEIIGSSPTFITTPESLIYKEAEEEDSMILVESSIITQNKENAFSRLSNMETIINGLCKSIKKNRILNEKAITSKTSES;locus_tag=LOCUS_16410;note=WP_010978336.1 carbon-nitrogen hydrolase family protein (Sulfurisphaera) [pid:63.9%25%2C q_cov:94.5%25%2C s_cov:94.2%25%2C Eval:4.9e-103],MGA_1642
sequence1	MetaGeneAnnotator	CDS	1482680	1483006	.	-	0	ID=MGA_1643;product=30S ribosomal protein S25e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978335.1;translation=MGGVSKKPISNVEKRMKKEMEAQQKKASGKKTSKTGSEVISKNIVISNEMIKRVQDEIKKEKIITPYELATKSNITISVAKRILKELNSQGLIKESFKNRRTAVYMAA;locus_tag=LOCUS_16420;note=WP_010978335.1 30S ribosomal protein S25e (Sulfurisphaera) [pid:61.1%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:5.2e-31],MGA_1643
sequence1	MetaGeneAnnotator	CDS	1483053	1483778	.	+	0	ID=MGA_1644;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978334.1;translation=MTENLVDDLLSRVSRFASVLGISRTELRIYSTLLLEGQMSAREISEKLGISYTKVYSILTKLEERGWIRRTGKKPAFYNAIPIRDLWANIKKLLENRIDEFEKEFIEPLSAMLSSSSTYNIIVISSTDLKKTIFDLLNEASSKYLIAISYPEILTKEILDVIYTKSFSNEVKLIVPSSVNVEKIPNVKKADNMFGSGIITSSAVLLIIKNNDRLSGLLSNHKYFVDIATVYFDHLWENVCK;locus_tag=LOCUS_16430;note=WP_010978334.1 helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:45.5%25%2C q_cov:100.0%25%2C s_cov:95.3%25%2C Eval:7.6e-61],MGA_1644
sequence1	MetaGeneAnnotator	CDS	1483835	1483981	.	+	0	ID=MGA_1645;product=ribbon-helix-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846285.1;translation=MKIITVKLPEQFLEAIDELVNTGRYESRSEVIRAAIGDFIRKELWVKE;locus_tag=LOCUS_16440;note=WP_052846285.1 ribbon-helix-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:81.2%25%2C q_cov:100.0%25%2C s_cov:98.0%25%2C Eval:1.3e-16],MGA_1645
sequence1	MetaGeneAnnotator	CDS	1484075	1484845	.	+	0	ID=MGA_1646;product=tRNA (adenine-N1)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978333.1;translation=MALKEGDIVTIWIDSKRVFLLKITKGKKLETDKGYILHDDLIGKEYGDLVKMSRGSAYLLKPFLEDIYLDLKRPSQVLYPKDVAYMIYSSGIKPGDKVVEAGTGSGFLTISLAYFLGKEGKVVTYDIRKDMQETAKYNAYILNLTDRIEFKNKDIKNGIDESDVDAVFLDMPCPWEVVSKAYEALKPSGALIVFVPTVNQVEKSYLEMEKYNFIEIHAEELLLREYKVKEGATRPKNIGVVHTGFIIRGRKSIKPL;locus_tag=LOCUS_16450;note=WP_010978333.1 tRNA (adenine-N1)-methyltransferase (Sulfurisphaera tokodaii) [pid:64.4%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:7.6e-94],MGA_1646
sequence1	MetaGeneAnnotator	CDS	1484868	1485200	.	+	0	ID=MGA_1647;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSETKLNIYAKLIVNFEKDIKNVKSEIANDTKNLILLSQNLSQQFNSVAESSLKEISKSIDEEKNSEISKIRQKYSEDREQKLQQIKYNAEKNFEKAVSEVLSALSGAFK;locus_tag=LOCUS_16460;note=MGA_1647
sequence1	MetaGeneAnnotator	CDS	1485197	1486165	.	+	0	ID=MGA_1648;product=V-type ATPase subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978331.1;translation=MSSASLAYLSSISRNFKSKTLTKGLINELLAETEWKNAVNILKERGYFEEVSYNFDDMEYLIKSNAIQNLLLLMNLSMSVKTSYYIASLYYYILTLDEFENIISAIYNKVNIQNTRIFQKIMESKPENLNELVNLIRDSIHGKALQYALSKNPHDLSQLNSYLDYYFILELSKTIEGLRGDWKASADSIVCGYKDYYTVSMAIRQKTQENVVCKVSLDVIKDLVNSRSSTETIDILRRISYARSMEFTNVYSALSSLYREVRVLARKNALNAFMGSPFTPVTVLGISEILRLDKEDLISILNGIKLKMNPDKIKSKLSFEMV;locus_tag=LOCUS_16470;note=WP_010978331.1 V-type ATPase subunit (Sulfurisphaera tokodaii) [pid:39.9%25%2C q_cov:99.1%25%2C s_cov:99.4%25%2C Eval:1.7e-67],MGA_1648
sequence1	MetaGeneAnnotator	CDS	1486148	1486474	.	-	0	ID=MGA_1649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978330.1;translation=MFIKIDEKQFDNIITKFKELVYDYNSKIKVYDVYLKPFHVVHKNGKKYFYIGKYWYKLEKINGKLKWIYLGKEKPVNEMPDPPKFPEFTIIKDNNDYLVDEKLLYHFK;locus_tag=LOCUS_16480;note=WP_010978330.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:61.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.9e-38],MGA_1649
sequence1	MetaGeneAnnotator	CDS	1486525	1487505	.	+	0	ID=MGA_1650;product=aldo/keto reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846877.1;translation=MTMKTRKVGHTNIEVSEIGLGLWSLATDWWGNPYKGEDVIKEAYNNGINFYDTGDIYGEGKAEEIISKTLSNKRDSIIILTKIGYDFYHKVNNKSIQKFSIDYLEYAFKQSLKRLNTDYIDILMLHNPKINVIRDKEILDFMISLKNDGKVRAIGVALGPTLGWGEEGKEAIQMGYESLEHIYNMIEQYPGKELLKYNIGHFTRVPHASDALNEDKWPIVEDKKLHRSLKNINWIKEAVEKSQEMHNFAKSKGIKLSQLALKFVLYNSNVSSVIPNITTIDELKEFIQVEGIPDLTDDDIKFIDDYYDIKYKKLNEESIEETKIYK;locus_tag=LOCUS_16490;note=WP_052846877.1 aldo/keto reductase (Sulfurisphaera tokodaii) [pid:64.6%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:2.3e-123],MGA_1650
sequence1	MetaGeneAnnotator	CDS	1487489	1488058	.	-	0	ID=MGA_1651;product=XTP/dITP diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978328.1;translation=MLKNGVIKVITSNKHKFDELDEMAKRNNVNLEWINAPKLEIQADSLEEIVRYSASIFYSIFKSPILVDDSGLFIEELNGFPGPYTNFVKRTLDNKGILKLLSGIKNRKAYFETALCYIDDKITKIFSGKVNGTIISDIRGTEGFGFDPIFVPNGSFKTFAEMKIEEKNTYSHRAAAFKKFLDFYITYRS;locus_tag=LOCUS_16500;EC_number=3.6.1.66;note=WP_010978328.1 XTP/dITP diphosphatase (Sulfurisphaera tokodaii) [pid:61.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-67],MGA_1651
sequence1	MetaGeneAnnotator	CDS	1488024	1488677	.	-	0	ID=MGA_1652;product=Kae1-associated kinase Bud32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978327.1;translation=MEKLKILKRGSESIIYEGYFLGVHSIFKKRVSKSYRDSKLDYKINSERTISESRIMYDALKSDVNVPAILFIDIDNFTIIMEYIEGIVVKDLIRNNTENLYDIGYKIGVLTGKLHKASITHGDLTTNNLIINSKNDIFMIDFGLAKRSNDIEDLATDIHVFLRSLESIHPDKKDIIFNGFRNGYSQIVENYMDVLKTVNDIRMRGRYVEERRNKSNN;locus_tag=LOCUS_16510;note=WP_010978327.1 Kae1-associated kinase Bud32 (Sulfurisphaera tokodaii) [pid:61.9%25%2C q_cov:100.0%25%2C s_cov:95.6%25%2C Eval:5.9e-75],MGA_1652
sequence1	MetaGeneAnnotator	CDS	1488665	1489660	.	-	0	ID=MGA_1653;product=KEOPS complex N(6)-L-threonylcarbamoyladenine synthase Kae1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978326.1;translation=MITLGIESTAHTFGVGIATDNEPFILSNVKDTYVPKSGGMKPTDLARHHALVAADIIRKSLDEAKLTLKDIDYISISLGPGIGPALRVGAVIARALSLKYDKKLVPVNHGIGHIEIGYLSTKAIDPLILYLSGGNTIITTFYNGRFRIFGETLDIALGNMMDVFVRESGLAPPYVINGKHVIDICADENGKLIDLPYVVKGQDMSYSGLLTAALRARKKYNIHDICYSIREIAFDMLLEATERALALTSKKEILVVGGVAASVSLRKKMKELGDDWGVEIKIVPPNYSGDNGAMIAYAGLLAAKSGIYIPIEESVIRPRWRIDEVSIPWRN;locus_tag=LOCUS_16520;gene=kae1;EC_number=2.3.1.234;note=WP_010978326.1 KEOPS complex N(6)-L-threonylcarbamoyladenine synthase Kae1 (Sulfurisphaera tokodaii) [pid:70.5%25%2C q_cov:99.7%25%2C s_cov:98.8%25%2C Eval:8.2e-137],MGA_1653
sequence1	MetaGeneAnnotator	CDS	1489664	1489855	.	-	0	ID=MGA_1654;product=30S ribosomal protein S27ae;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978325.1;translation=MPAKNKNQVKAIVRTYYELDNGKVKLKNKKCPRCGSVMAHHLKPKERWACGKCGYTEFVTGKK;locus_tag=LOCUS_16530;note=WP_010978325.1 30S ribosomal protein S27ae (Sulfurisphaera) [pid:75.4%25%2C q_cov:88.9%25%2C s_cov:86.4%25%2C Eval:1.3e-21],MGA_1654
sequence1	MetaGeneAnnotator	CDS	1489827	1490192	.	-	0	ID=MGA_1655;product=30S ribosomal protein S24e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978324.1;translation=MMSQAQQIKISDKVQGVIERDFSNKVVDRRELTIKLFHIGTGTPSRQELIKSLSQLINAPEDKIVIRKIYTSYGAGISVAKVHIYNKKEILEKYEPKHLLSRGIGKKKEGEQNASQEQKSS;locus_tag=LOCUS_16540;note=WP_010978324.1 30S ribosomal protein S24e (Sulfurisphaera) [pid:49.6%25%2C q_cov:95.9%25%2C s_cov:99.2%25%2C Eval:9.4e-28],MGA_1655
sequence1	MetaGeneAnnotator	CDS	1490215	1491009	.	-	0	ID=MGA_1656;product=sulfide-dependent adenosine diphosphate thiazole synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978323.1;translation=MQTINIKQVDEIKISKYILKYTFEDWNNIIDSDVVIVGAGPSGMTAAYFLAKEGLKTVVFERRLSFGGGIGGGAMNFHKIVIESPADEVLKELNIKLQKAEEGIYIVDSAEFMAKLGASAIDAGAKIIHGINVDDVIFREDPLRVAGVAVEWTSTQMSGLHVDPLFISAKAVVDATGHDAEILSVASRKIPELGISIPGEKSAYSEIAEELVVNNAGKVAPGLYTTGMAVCEIKALPRMGPIFGAMVLSGKKVAEDIINDLHNS;locus_tag=LOCUS_16550;EC_number=2.4.2.59;note=WP_010978323.1 sulfide-dependent adenosine diphosphate thiazole synthase (Sulfurisphaera tokodaii) [pid:80.2%25%2C q_cov:99.2%25%2C s_cov:98.5%25%2C Eval:5.1e-117],MGA_1656
sequence1	MetaGeneAnnotator	CDS	1491240	1491854	.	+	0	ID=MGA_1657;product=UbiX family flavin prenyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429728.1;translation=MDERVAKETRAENWNKKKSIIVGITGASGIIYGIKFVEKLVEMNYKVYVIVSEGAKKVAERENEFNILQILSNYTSNIFSEKDIDAPPSSSSFTVTTKGMAIIPCSIKTLAEIANGIASNLISRTAINMIRTRKKLVLVIRETPLGPLELSNALKLSNLGAIILPASPAFYTKPKSIDDIINFIIGKTLDSLGISNSVYKRWTR;locus_tag=LOCUS_16560;note=WP_198429728.1 UbiX family flavin prenyltransferase (Sulfurisphaera tokodaii) [pid:59.9%25%2C q_cov:99.0%25%2C s_cov:93.5%25%2C Eval:2.4e-64],MGA_1657
sequence1	MetaGeneAnnotator	CDS	1491847	1492116	.	-	0	ID=MGA_1658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQTKYAKGSPYKVGFCRWVGDTCITGDCQYAYCEKRALLPGNKCAFAVNKKDGNKDDLEKELKEEDDYENKVKELISKKLGKKDVDLI;locus_tag=LOCUS_16570;note=WP_015385509.1 hypothetical protein (Sulfolobus acidocaldarius) [pid:66.7%25%2C q_cov:97.8%25%2C s_cov:66.4%25%2C Eval:1.2e-30%2C partial hit],MGA_1658
sequence1	MetaGeneAnnotator	CDS	1492285	1492833	.	-	0	ID=MGA_1659;product=tRNA-intron lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978320.1;translation=MAIHAVLFYDRIVIPNPQEGMSVYKSGFYGKPLGIAKPKKDEDLKRPLEVSLIEGLYLVKKGKIEVYNIDNKMDENDLEKYAKSIINRFDILYAVYEDLRNKGFIVRSGIKFGADFAIYTLGPGIEHAPYVIIALDENAKLMANELMSFGRVSHSTKKKLVLGLVNLNTRSVRYIIFKWVKM;locus_tag=LOCUS_16580;gene=endA;EC_number=4.6.1.16;note=WP_010978320.1 tRNA-intron lyase (Sulfurisphaera tokodaii) [pid:56.8%25%2C q_cov:96.7%25%2C s_cov:97.8%25%2C Eval:1.1e-56],MGA_1659
sequence1	MetaGeneAnnotator	CDS	1492835	1493467	.	-	0	ID=MGA_1660;product=DUF47 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978319.1;translation=MSIAHLTLEEKLQQISLKLIDEIRAFYEFLTVKSQNPMQLYAKIDGIKNSVENEKYLLGEYIIKIKEGLDDKDLYINILDRLEKISQNLDAGAYRLSVLRTRNTEIDNLTYKLIIIISEKILASLTHLIESIKSLSTDAKKSIDSARNILKLEEEVDDLYRNVELKLFERKYEDLIYVMLMKDIVDRLEDSEDLIRDSANDITYIAFGRI;locus_tag=LOCUS_16590;note=WP_010978319.1 DUF47 family protein (Sulfurisphaera tokodaii) [pid:49.8%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:6.0e-53],MGA_1660
sequence1	MetaGeneAnnotator	CDS	1493491	1493895	.	-	0	ID=MGA_1661;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978318.1;translation=MNEGELKILKVLKDFEEFIEDHSQYLEELENMIAIAEPDYNRAVRIVRRIRRVRKNILEGTSIILQNISEVKDPNIKEESIGIVSYLQLIGLKDEKDLLRSLNELVKKSGYDLDIQSDIEQLDGAIASLSKLSF;locus_tag=LOCUS_16600;note=WP_010978318.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:39.8%25%2C q_cov:91.8%25%2C s_cov:91.7%25%2C Eval:8.4e-21],MGA_1661
sequence1	MetaGeneAnnotator	CDS	1493892	1494245	.	-	0	ID=MGA_1662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978317.1;translation=MSKQDEDNEKKVDIKSLVNVIPPASALKSGERATIREKRVKIKKKPEVEKGTIIISIKLYNEMKIKSKAEISVKGKRMEFQTIPQDGLQEIEVWANPEDMIKLGLEDNSTVTLRVIQ;locus_tag=LOCUS_16610;note=WP_010978317.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:59.6%25%2C q_cov:97.4%25%2C s_cov:95.8%25%2C Eval:2.1e-32],MGA_1662
sequence1	MetaGeneAnnotator	CDS	1494238	1495947	.	-	0	ID=MGA_1663;product=glycine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978316.1;translation=MSEVDKVIELAKRRGIFWPSYEIYGGVAGLYDLGPVGVRIRNKILNIWRKFFIENNKEFVVEIETPIITPAKVLEASGHVQNFTDPIVECTKCHKIFRADHLIEEQIKINAERFSVSELNEIIKDKNIKCPVCGGDLGEVRLFNLLFSTNIGPYSGNTGFLRPETAQGMFTAFKRVYGTTRERLPLGIAQVGKVARNEISPRQGLIRMREFTIMEIEFFFDPEDLEVPLDKFEDDSINVLLGSEKIKGQENPVQYKLKELISEKIILNPWMGFWMATANRFVNYLGIQNTYFEEKLPQERAHYSKQTFDQIVVVKGEKVEISGHAYRGDYDLSRHSKVSGEDLTIFKKYDSPRIVKKKITIINKDKLNKEGSNFTKEFMKNVMSHTVEEIEEMINSGYSIDGKKISEFITVSEREEKETGKKFFPHVVEPSFGVERCLFLSIANAYTEKKDRVILSLPKSIAPYEVAVFPLLDRENLIKKAREIYDILKDKFDVIYDDSGSIGKRYARVDEIGVPYAITIDPQTLEDNSVTIRERDSWSQIRVKEDKLTTSLEKLFSGEQFNKLGEENE;locus_tag=LOCUS_16620;gene=glyS;EC_number=6.1.1.14;note=WP_010978316.1 glycine--tRNA ligase (Sulfurisphaera tokodaii) [pid:68.6%25%2C q_cov:99.3%25%2C s_cov:99.6%25%2C Eval:1.2e-238],MGA_1663
sequence1	MetaGeneAnnotator	CDS	1496002	1496883	.	+	0	ID=MGA_1664;product=agmatinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978315.1;translation=MEDPRLLYLYDSRKFAGFNKPASPFIVLGIPMDITSSYRPGSRFAPSYIRDAAQYIEFYSIRTGIDMGDVGFNDVGDIILHSSDAEENIRRISTVSSYFKDKGKILISIGGEHTITVGTTKGLNPDCVLSFDAHLDLRDEYMGYKYDHACVMRRISERSTRIFEIGTRAVSKEEIDYANSIGIPFITSHQVKLLGPREVSKKVMTHFEGCNKIYITFDMDSIDPSYAPGVATPEPEGLDPSTILDIVNLITDKRIIGFDVVEVSPPYDPSGITTVLASKIILETAASIFKSLL;locus_tag=LOCUS_16630;gene=speB;EC_number=3.5.3.11;note=WP_010978315.1 agmatinase (Sulfurisphaera tokodaii) [pid:72.3%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:5.8e-128],MGA_1664
sequence1	MetaGeneAnnotator	CDS	1496867	1497037	.	-	0	ID=MGA_1665;product=DNA-directed RNA polymerase subunit P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978314.1;translation=MLNIHTSMADKYRCGKCWKTFDDDKLKVLPGVRCPYCGYDIIYMIRKPTIKVIKAT;locus_tag=LOCUS_16640;EC_number=2.7.7.6;note=WP_010978314.1 DNA-directed RNA polymerase subunit P (Sulfurisphaera) [pid:75.6%25%2C q_cov:80.4%25%2C s_cov:93.8%25%2C Eval:5.1e-18],MGA_1665
sequence1	MetaGeneAnnotator	CDS	1497027	1497404	.	+	0	ID=MGA_1666;product=stress response translation initiation inhibitor YciH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978313.1;translation=MFSNDLKLFLIEKLKKGISNKYFSKMTDNLCGGLPPEICEQLNKEEQFIKVKLERRRYGKEVTVIEGISDSDVELKKIASELKSKLAAGGTVKNGRIEIQGDHREKVKDLLIKLGFPESNIMVIE;locus_tag=LOCUS_16650;gene=yciH;note=WP_010978313.1 stress response translation initiation inhibitor YciH (Sulfurisphaera) [pid:84.0%25%2C q_cov:80.0%25%2C s_cov:100.0%25%2C Eval:9.8e-46],MGA_1666
sequence1	MetaGeneAnnotator	CDS	1497451	1498377	.	-	0	ID=MGA_1667;product=transcription initiation factor IIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978312.1;translation=MSKEQDSKSGSYICPPDKIIFDADRGEYICTETGEVIEDRIVDQGPEWRAFTPEEKEKRSRVGGPLNNTIHDRGLSTLIDWKDKDAIGRNLDPKRRLEVLRWRKWQVRARIQSSIDRNLAQAMNELERIGNLLGLPKSVKDEAALIYRKAVEKGLVRGRSIESVVAASIYASCRRMKIARTLDEIAQYTKANRKEVARCYRLLLRELDVDVPVSDPKDYVTRIGSLLGLSGASMKLAAEILEKAKNVGLTAGKDPAGLAAAAIYIAALLNDERRTQKEIAQVAGVTEVTVRNRYKELIQELKIEIQNQ;locus_tag=LOCUS_16660;note=WP_010978312.1 transcription initiation factor IIB (Sulfurisphaera) [pid:83.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-147],MGA_1667
sequence1	Aragorn:1.2.38	tRNA	1498520	1498595	.	+	.	ID=Aragorn_16;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00160;note=Aragorn_16
sequence1	MetaGeneAnnotator	CDS	1498671	1498937	.	-	0	ID=MGA_1668;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLTIIGFLIIFIGMLLIIFGSISQVTPQSTSSAIGGLVLIGPIPIFFGVGPHQALLPLVTLGIIFTIISIIFFILSIYMFRKNIENR;locus_tag=LOCUS_16670;note=MGA_1668
sequence1	MetaGeneAnnotator	CDS	1498979	1499875	.	+	0	ID=MGA_1669;product=translation elongation factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980552.1;translation=MYYGGIISVLSSKKQDANEIAEKLGKLHEEGKIRIYYRRNGDFIRSVLVPSEYPEKILDAAEAVSLSSYCILHIPEDIKWVDGEEALLIDALGLPGKIVTNLPSDNIKKIFKGLTIEKFEIIKDIQEIENKENEKGFVYIDRAFVVKGVGVVITGFSFTQVKVHDKLKILPQGKEVEIKSIQVLDEDQTEVMPGIRIGFALRNVKEEELKDSFALVKSNSKLLKEFTAKITVYPWSKFTDGKYHVVSNGISVVAEIKRQENEALVSLPFEVPISQRIAIIDVNAKQGKSRVIGYLEPK;locus_tag=LOCUS_16680;note=WP_010980552.1 translation elongation factor (Sulfurisphaera tokodaii) [pid:47.5%25%2C q_cov:99.3%25%2C s_cov:98.3%25%2C Eval:1.0e-58],MGA_1669
sequence1	Aragorn:1.2.38	tRNA	1499917	1500006	.	+	.	ID=Aragorn_17;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00170;note=Aragorn_17
sequence1	MetaGeneAnnotator	CDS	1500065	1501792	.	-	0	ID=MGA_1670;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978120.1;translation=MIRMFEDIKGRLREVKIITRQTADGRGSISFRSFIIEMPYIAGKILNIGKLLAVKTMVENSYLLLEVADFLPMHYGMLELDETVPRDLREEIMRRVEESWNKEDDNTWIEVYSYPIGYTLELNGEPKFRKTYVPPLVGSTVYVLDQDFFRNFVCKKDGVEIGKVIGENLPLNIDLIKAINYHIGIFAFTGSGKSNLTASLIRRILKTTDMKIVIIDISMEYAILLLDQLLNINSRLVSTERLPINSEDAARKFLRTHVLPEEILDLKDTIKDVANKIYPKMRQLYVPPQEFQYLTFGDLMEMVRSQINDKYTAYAQKPLFGLLLRKIDIFMREKKLGKDDIVDDSIIGILDEIEETAKTSGLKETSSIFTFISTLKAYINSQEYETEDYDIEKMAIEILDGSSSSPRLFILELPNIEESRSIVASLINEVMNRRKRFYSTSPIMFVIDEAQEFIPFDTRQKDRSELSSNAIEKLLRHGRKYHLHALISTQRLAYLNTNVLQQLHTYFISTLPRPYDRQLISETFGINDVLMDRTLDLEIGQWLLVSFKAALPHDVPVFFTAENNLNELRTNIKNT;locus_tag=LOCUS_16690;note=WP_010978120.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:59.5%25%2C q_cov:99.1%25%2C s_cov:99.3%25%2C Eval:4.8e-200],MGA_1670
sequence1	MetaGeneAnnotator	CDS	1501789	1502490	.	-	0	ID=MGA_1671;product=DNA double-strand break repair nuclease NurA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978119.1;translation=MGVSTFIKLDSNIDYSFKLTLSAIDGSLHEIPTAEGIVSYVIAGAVNFTLNKHKLAFNSYNITDNIYEGSGEEFMRRMEYDLANSLNSDIILMDRKLSMDKEKNMKIPNNTIGIVKDFDPKIRSELNYNEYPWLLVKEENKDIISGYFKLNKYSWVFYFESNIIDPKKILTLLSICGEYPIPEALGYNYPLFLADKLVKYYRNKMEKAMDITKGKLLEYREFRSIMEYSRAKK;locus_tag=LOCUS_16700;note=WP_010978119.1 DNA double-strand break repair nuclease NurA (Sulfurisphaera tokodaii) [pid:42.2%25%2C q_cov:98.3%25%2C s_cov:97.0%25%2C Eval:2.7e-39],MGA_1671
sequence1	MetaGeneAnnotator	CDS	1502453	1503403	.	+	0	ID=MGA_1672;product=thiamine-phosphate synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846193.1;translation=MLLSSLIKVETPISLITDVFLPNIRALEAKKLRSMDMSQSKIASLLGVTQPAVKQYLDTRDSIYLNKLKELGITEEEINMFLSDLTEILLKNDVKSTMFFITIYSMDMLSRLRFCSYHRKVNPLIPQDCNICEKLYKEDEEEQLSLATSMLQNEIISPLIPEVLSNIAFARKNPREINDVIAIAGRITKIRGIPTPVSRPMWGASNHLAKILLAININYPEIRSVMNIKYDENVKNSLQKLGYKFTLAGPKDYANDDILAKDIAKAFNGGDAVIHLGGKGVEPITYIFGKNPLEVVRKVIEISRKYKEIIELSSLS;locus_tag=LOCUS_16710;note=WP_052846193.1 thiamine-phosphate synthase family protein (Sulfurisphaera tokodaii) [pid:55.9%25%2C q_cov:95.9%25%2C s_cov:99.3%25%2C Eval:5.0e-96],MGA_1672
sequence1	MetaGeneAnnotator	CDS	1503378	1505846	.	-	0	ID=MGA_1673;product=MMPL family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846671.1;translation=MKKSLITVIPWLLLIVILSPITLQIQNYFVYSDSPFLSNEYPSVTVSRVLDNYFNFSQDSTLYIIINGNYNQSLNQIDKNSKYLEDYRIVTPFQYINETKNEYSKEISELANITAAYLEPFHRIYNNLTILKYNLLKNFTNFECQLNVSFGIPLDKYHSNSSKAKEFLVAYSILTKNETKLNAARDAGAYVFKDPYILFFSFNNYSNFSLAYNFLKTFNNYSEIIYEITGKYIPESALVNPYNFSLTEVKNRILPPPISLSNFHKGNEWLFLIQIPKNESLIDVENFIKNTNGTVTGHFAIYAQSAYYTESNLKLIDIVTIILVGSLLIILLRSLLPILLLLASAVIGIEISYTLLYLLTFTGYQIYYISGLVIPPIVFGITIDYSILFIYRYFEEIKKKSNNPIKTALKTAGKGAIFSGLSITLGFMSFVFSPSPLLKNIGEALITASISSIIPAVIFTYTALKAIPISWLGYPRRDIPSPVDSRIKYLEKVASSSIHRKTIVIFVMIILTLFSFSVFYTHSTNININEIVPSYSSSVIGEKYLLNLFNYSIDYIIIHGNPNITYTKVYNLSKYIISNNGLVYSTFSINNIILNKSEYIPQFYRDNYTLVEAYIPYPVFSSKAIDFTKSIINQGYEVGGSNAQRIYIVNNTVSNYYNFVLPFTILIIIFYLFVILGSIVVPIRLALTLIVSSLTGVATMDLVFHSVYWLSPLIVFAMLFSIGIDYDMFIILRIIEEKGSEEKRILTGIKNSGLVVTAAGLILAGAFFSLVATNMRFLQEIGFSVGFSVLFDTFIVRPIFVPAIMSFLKQYNWWPKIRKIIR;locus_tag=LOCUS_16720;note=WP_052846671.1 MMPL family transporter (Sulfurisphaera tokodaii) [pid:53.8%25%2C q_cov:99.1%25%2C s_cov:99.2%25%2C Eval:5.5e-256],MGA_1673
sequence1	MetaGeneAnnotator	CDS	1505941	1506102	.	+	0	ID=MGA_1674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSLKDALNLLEEVEKIISNYNPSEEDKKILNDIITKNMKIEAELYSKYINMR;locus_tag=LOCUS_16730;note=MGA_1674
sequence1	MetaGeneAnnotator	CDS	1506168	1506791	.	+	0	ID=MGA_1675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978117.1;translation=MFEIFLDKLMPYGEKVLTDSGHVVTFSKNLSIELKNMGINIKVFAGVVADYFNEKSKSYSIYYRPLNMANMSDIFTRVFEFWVVYSSGQIQLFSIISNYKDISEITIIDPQLVTLELEKIMNFAKNYKTATITMPFLYKFLIFETFNLFRKNNILKFEGIIEEKRDAKYMMAVNKNLNAIIWKIDSTKLNYVNDISSEKIGGMVRNL;locus_tag=LOCUS_16740;note=WP_010978117.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:31.8%25%2C q_cov:95.2%25%2C s_cov:96.5%25%2C Eval:1.0e-20],MGA_1675
sequence1	MetaGeneAnnotator	CDS	1506820	1507431	.	+	0	ID=MGA_1676;product=peptidase M50;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846192.1;translation=MTKLEEWDWRFRNLNEVESFLLAIFSIAVKAIPLFFLLPNYSILVIPAVILAATIAVIPHELAHRQYARKYGCFSRFTLNFTGFLATTIINALPFFGLLFLSGYTLISCRFFSISKEIEGKSAAVGPLTNIIISVLSFLLIGYVTQTVAFFLYEIAAFNAAVAFFNLLPFWILDGLKVFRWNVGIWIVMIISSVVLMYFTGEL;locus_tag=LOCUS_16750;note=WP_052846192.1 peptidase M50 (Sulfurisphaera tokodaii) [pid:50.7%25%2C q_cov:97.5%25%2C s_cov:97.1%25%2C Eval:4.6e-47],MGA_1676
sequence1	MetaGeneAnnotator	CDS	1507428	1507997	.	+	0	ID=MGA_1677;product=rhomboid family intramembrane serine protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_069168135.1;translation=MKPKILSIKPTILLMILVAVGYIIGYVLSIVNFIDFLYLIQVNLLVFNGDYISLVTSIFITNSFIDFFFNFISLGVIYYLFRSYAGKIEYVVFLISGIVGNILTLFVFPPRTASEGASGGIFGIFAYYVILDMLELNRIDYNGLGILVFVFILSDIIPNVNYVAHIGGITSGILLAFATFRLLRKNRRI;locus_tag=LOCUS_16760;EC_number=3.4.21.105;note=WP_069168135.1 rhomboid family intramembrane serine protease (Sulfurisphaera tokodaii) [pid:46.9%25%2C q_cov:92.6%25%2C s_cov:96.2%25%2C Eval:3.6e-40],MGA_1677
sequence1	MetaGeneAnnotator	CDS	1508003	1508164	.	+	0	ID=MGA_1678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIIEEILLVLGIVMMPYGLYEVAKGNGDKQVKIILITISLALFATEFFLAYR;locus_tag=LOCUS_16770;note=MGA_1678
sequence1	MetaGeneAnnotator	CDS	1508161	1508715	.	+	0	ID=MGA_1679;product=adenylate kinase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978114.1;translation=MRILISGTPGVGKTEISKILSLKFNFLYFSVSKFILENKLYTSYDSKRETYNIDDSVIQKINDQINKMDNVIIETIYPSLVDNADKIIVLRKNPFVLYKDLKDRNWGDLKIAENVEAEILGVIAQEAREWFKNICEIDVTNKSREEVVKNIIDNRCDNVDWLSDDRIQDLLIELDKIISLYENK;locus_tag=LOCUS_16780;note=WP_010978114.1 adenylate kinase family protein (Sulfurisphaera tokodaii) [pid:58.5%25%2C q_cov:99.5%25%2C s_cov:97.3%25%2C Eval:1.3e-55],MGA_1679
sequence1	MetaGeneAnnotator	CDS	1508721	1509617	.	+	0	ID=MGA_1680;product=Mrp/NBP35 family ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846190.1;translation=MSSNPFRIQSPQQPQKQPRDLRKTQPQIPAADIKIQMKMKNIKYKIAVLSGKGGVGKSFVSSNLAMALAASGKKVGIVDVDFHGPSVPKMLGVRGQVLTADDNGINPVQGPFGIKVVSIDFLLPRDDTPVVWRGAIKHTAIKQFLGDVNWGELDYLIIDMPPGTGDEALSIAQLVPSISGAIIVTIPSEVSTLAVKKSITFVKTVNTKILGVVENMSYFVCPSDNKPYYIFGEGKGKKMAEDMGVSLLGQIPLDPKIAESNDSGEPFFLKYVDSPTSKEFLNIADNIIKIVEQNSSST;locus_tag=LOCUS_16790;note=WP_052846190.1 Mrp/NBP35 family ATP-binding protein (Sulfurisphaera) [pid:81.4%25%2C q_cov:99.0%25%2C s_cov:99.3%25%2C Eval:4.1e-137],MGA_1680
sequence1	MetaGeneAnnotator	CDS	1509583	1509810	.	-	0	ID=MGA_1681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKLREKIIEILKNRDMTSEEIMKEILKTSTEFSPMEFRETLADLVREGIIEKYPVYENKKFYFKLKKNFVPQF;locus_tag=LOCUS_16800;note=MGA_1681
sequence1	MetaGeneAnnotator	CDS	1509960	1510259	.	+	0	ID=MGA_1682;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978112.1;translation=MVAYGLSEADVDAFMKIVKSKEGKDVDSISSELGISKSRASLILKRLSDSGLIEKQKNSGSKGGRPKYLYYINKEEVISKMIRRAKEICTDLESIISSI;locus_tag=LOCUS_16810;note=WP_010978112.1 helix-turn-helix domain-containing protein (Sulfurisphaera) [pid:65.3%25%2C q_cov:99.0%25%2C s_cov:84.5%25%2C Eval:1.9e-33],MGA_1682
sequence1	MetaGeneAnnotator	CDS	1510252	1510809	.	-	0	ID=MGA_1683;product=LysE family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978110.1;translation=MISILLGIILGLSMAAPPGPVNAIILNESVKSKIHGSSVGLGAMTADLIFYFISYNFRNFIPKDFLKVIYIAGGLLLIIISTLIIKSKFNTNTSPKGNYLTGLSMGLTNPYQITWWLTIGIFMLENLGISSILGFFIGILIWVIIFPLISHKYIRKYSKYTKIASFIIILAFGFYILLEGIKLVI;locus_tag=LOCUS_16820;note=WP_010978110.1 LysE family transporter (Sulfurisphaera tokodaii) [pid:43.2%25%2C q_cov:95.1%25%2C s_cov:93.1%25%2C Eval:4.9e-39],MGA_1683
sequence1	MetaGeneAnnotator	CDS	1510806	1511501	.	-	0	ID=MGA_1684;product=DUF72 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980165.1;translation=MKIGICGFSYKAANLFNVLEIQDTFYDIVSIDKLKKWRNYNRDIELNVKALQVITHSYNKNYEKMKKFLVSDINNLGSFKVNIDTEKALEITLEEANVLNSRIIIFQTPPSFKPNAENIRNVIEFSSILDRKFLYGWEPRGEWYNNQDILLHVLEEAKLIHVTDPFRHMPLYGDIRYYRLHGIGGKEVNYRYNYSDEDLLKLKSIVNGESYVLFNNIYSIKNALKFKEMVS;locus_tag=LOCUS_16830;note=WP_010980165.1 DUF72 domain-containing protein (Sulfurisphaera tokodaii) [pid:54.3%25%2C q_cov:99.6%25%2C s_cov:99.1%25%2C Eval:2.3e-67],MGA_1684
sequence1	MetaGeneAnnotator	CDS	1511559	1512011	.	+	0	ID=MGA_1685;product=CRISPR DNA repeat-binding protein Cbp1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156013406.1;translation=MQNEETSKIAKEMYERGKSIREIARELNLSYSRVRKILKDSGVQFRGKISRDLEEKIIDLAKRGYSANRISKETKINSNTVLRVLKKNNLAKTKRKLAPEKIEEIKNLYKNGVSIYKIAKNLNISTNLVVYHLKKLNVYKPTHESYSTSQ;locus_tag=LOCUS_16840;gene=cbp1;note=WP_156013406.1 CRISPR DNA repeat-binding protein Cbp1 (Sulfurisphaera ohwakuensis) [pid:51.7%25%2C q_cov:99.3%25%2C s_cov:98.6%25%2C Eval:5.3e-36],MGA_1685
sequence1	MetaGeneAnnotator	CDS	1511980	1513128	.	-	0	ID=MGA_1686;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978108.1;translation=MSNENFSVTPWEVKGKVDYDKLIIQFGTQKITPELKEEISKLIGGDLHVMLRRDIFFSHRDLDLILKDYRNGKGFFLYTGRAPSLGMHIGHLIPFIFTKWLQDKFKVNVYIEITDDEKFMRNQEYTLEQTRQWAYDNILDIIAVGFDPDKTFIFQDTEYIKNMYPITTKIAKKLTFNEVKATFGLELSSNIGIIFYPALQIAPTMFEKKRCLIPAGIDQDPYWRLQRDIAESLGYYKAAQIHSKFLPPLTGPEGKMSSSIPESAIYLTDDPKTVERKIMKYAFSGGQPTVELHRKLGGNTEIDVSFQWLYYFFEPDDNKIREIEEEYRSGKMLTGELKEILIEKLNNTLEEHRQMKEMAKDKVRLFKYDGKLATEMWNKIHE;locus_tag=LOCUS_16850;EC_number=6.1.1.2;note=WP_010978108.1 tryptophan--tRNA ligase (Sulfurisphaera) [pid:85.5%25%2C q_cov:99.2%25%2C s_cov:99.5%25%2C Eval:1.6e-195],MGA_1686
sequence1	MetaGeneAnnotator	CDS	1513165	1513800	.	-	0	ID=MGA_1687;product=cell division protein CdvB1/B2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846860.1;translation=MLGKDFQKYWAGSEDKDMWKSFKGAFKSKEPLKYRIVQAHYQLSSMVSRLDAYIGRMQERDRTLFERVVEAQMSKDTARAAMYANEVAEIRKISRQLLTTQIALEQVELRLETVSEIGDVFVNLVPVVGVINELKGVLRGVMPELSVELGELGEGLQEVVVEAGDFTGSYSYASAPTAEARKILDEASTIAEQKMKEKFPDLPAATLTQKA;locus_tag=LOCUS_16860;gene=cdvB1/B2;note=WP_052846860.1 cell division protein CdvB1/B2 (Sulfurisphaera tokodaii) [pid:67.3%25%2C q_cov:98.1%25%2C s_cov:97.1%25%2C Eval:4.9e-71],MGA_1687
sequence1	MetaGeneAnnotator	CDS	1513898	1514164	.	+	0	ID=MGA_1688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFIQVDEDPDFDIIQEGNKINIYVDLRGKGLNIDNIQVKINSNSVYIIDQQSNSTVKTINLAANTNLQVSEVRKHNGTLLIILEKNN;locus_tag=LOCUS_16870;note=MGA_1688
sequence1	MetaGeneAnnotator	CDS	1514164	1514862	.	+	0	ID=MGA_1689;product=alanyl-tRNA editing protein AlaXM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846184.1;translation=MVEEIYLTDSYVKNFKAKVVKVGQDGVILDRTAFYPGGGGLENDIGKLVIDNKEIQVTEVKRQDNEIVHKINGNLSEGDLVDGIIDWERRYSMMKLHTASHIIASIAYNKYGAMVTGGHISPEYAKDDFNVEDKNVLTNIINEANDIIKKNIDVKVYFKPKEEALKIPGIVKLMGRNPPDVPIWRIVEIPGIDIQADGGPHVKNTSEIGHIELIKVENRGKNKKRVYYTVKS;locus_tag=LOCUS_16880;gene=alaXM;note=WP_052846184.1 alanyl-tRNA editing protein AlaXM (Sulfurisphaera tokodaii) [pid:64.2%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.6e-84],MGA_1689
sequence1	MetaGeneAnnotator	CDS	1514859	1515290	.	-	0	ID=MGA_1690;product=GtrA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978105.1;translation=MSRLLKFAIVGGLGTLVNELVFLSTTKLLSISISLALAIEISIIFNFMLNDVWTFKDKRIGNIWKRLLKFHMSSASGGIIQYIVVISIIVIMFHFSNASEILAILFFTSYLKLQSLVLGIINFIGIISGFIVRFITSIKWVWP;locus_tag=LOCUS_16890;note=WP_010978105.1 GtrA family protein (Sulfurisphaera tokodaii) [pid:52.8%25%2C q_cov:99.3%25%2C s_cov:97.9%25%2C Eval:9.3e-37],MGA_1690
sequence1	MetaGeneAnnotator	CDS	1515302	1516297	.	-	0	ID=MGA_1691;product=aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978104.1;translation=MIHGGAKWINGKPNTIDDFSINLNPLGMPDFLSDLISDAIKYKVYQYYPDNYTKLKENIAEIYDVNPEYIGVFNGATEAIRLLDKGINVPEPNFSEYPRTSIYFAEENGNSFIYRILGKKVLLSNPNNPTGSTISLEEIVSALNDGKELIIDESFSDISAVSSAKKLVEEFNNILIISTFTKSFSVPGLRLGFTIGKSSKVLESKAIPWRVNSIAYYIFSNVNPNDVRIFFNESKSYTKNLLSEIKLSIKFDFNYKMYNSNAPYLLFKFPFKVNILNDYLVKKGFMVRDASSFVGLNSYYARISIKRNFKTLINYINKFYSTNQSILKFII;locus_tag=LOCUS_16900;note=WP_010978104.1 aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme (Sulfurisphaera tokodaii) [pid:52.0%25%2C q_cov:96.1%25%2C s_cov:97.5%25%2C Eval:1.1e-85],MGA_1691
sequence1	MetaGeneAnnotator	CDS	1516294	1516878	.	-	0	ID=MGA_1692;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978103.1;translation=MLLYVSIKLPHEEWTKNIDWTRNSLVILDIKNFSNVPKILAEFKGDEKTLSVLNGKFTKVSKFKYLGTLNINYPVEKILSNYIILNGTITLEGFYWTVILSDYTELKKLLKEFLNYKIDTKIIKVVKVKSQDILTARQEQILKIAFEAGFFDFPRKIKVSELADKLNISVSNLSEILRRAEKNIIGNYFRERGL;locus_tag=LOCUS_16910;note=WP_010978103.1 helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:53.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.0e-48],MGA_1692
sequence1	MetaGeneAnnotator	CDS	1517577	1517750	.	+	0	ID=MGA_1693;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIEDRIYRLIELLLYVAKEESAEVTATKLQKIFNIARSFETLSKTFLAAYGTLYRG;locus_tag=LOCUS_16920;note=MGA_1693
sequence1	MetaGeneAnnotator	CDS	1517895	1518236	.	-	0	ID=MGA_1694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979788.1;translation=MLWVSVLILVAGIISTLLTVHFSLRKADKRSLVIILSSLVLIGIGLWLLSMDHTVYINNPVYASSSHFGSFYLCPKIPPPWYATLWFYFLGIGLGMLSVMVIFESIIRLLRNG;locus_tag=LOCUS_16930;note=WP_010979788.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:36.4%25%2C q_cov:90.3%25%2C s_cov:93.9%25%2C Eval:8.0e-11],MGA_1694
sequence1	MetaGeneAnnotator	CDS	1518379	1518717	.	-	0	ID=MGA_1695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980722.1;translation=MKIRTLWLIIIICSAFDVIYSYILWTDNYEVNVDAYVFELNPIARFVESNGSLVLPDLISIKVLSLLAVYWITKLLSENLKLLLLKFLAGLYIALVTYELTLPYLLQLFSHF;locus_tag=LOCUS_16940;note=WP_010980722.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:45.9%25%2C q_cov:87.5%25%2C s_cov:87.0%25%2C Eval:9.8e-17],MGA_1695
sequence1	MetaGeneAnnotator	CDS	1519388	1519741	.	+	0	ID=MGA_1696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAESDIEKRIAYYRCQNKPVIYIAKTLNIDCQSVKYILKKWKFLTKEYINSLTQCENSFLNPDITGLLKSSDLTFDYAKKLLSNKYVLNYIFLNKNENHNRYMDCLRYHIILLQKNM;locus_tag=LOCUS_16950;note=MGA_1696
sequence1	MetaGeneAnnotator	CDS	1520058	1520255	.	-	0	ID=MGA_1697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDAIAAPPISLKVILDSSAFLIISRALLINLVRSIVIPKHLSYLTLEYKIIFMIIISKLYLTLQR;locus_tag=LOCUS_16960;note=MGA_1697
sequence1	MetaGeneAnnotator	CDS	1520410	1520898	.	+	0	ID=MGA_1698;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYDSVLDSTIDVFLDEFIMCHKLILKDRLKLYYPTIPPSDLLLTKMQIINLTENDKKDIAALLYDFEIGNKDEDKILDANHIASILSNDWGFYKTYTINHDRMVDFLKNSEYSNIILPKLQKIMEIIEQFPKSMKWKMRAKIGDKVKWYEEPEEVNTDFKK;locus_tag=LOCUS_16970;note=WP_156013597.1 hypothetical protein (Sulfurisphaera ohwakuensis) [pid:60.3%25%2C q_cov:96.3%25%2C s_cov:61.0%25%2C Eval:8.2e-47%2C partial hit],MGA_1698
sequence1	Aragorn:1.2.38	tRNA	1520903	1520989	.	-	.	ID=Aragorn_18;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00180;note=Aragorn_18
sequence1	MetaGeneAnnotator	CDS	1521023	1521292	.	-	0	ID=MGA_1699;product=UPF0147 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978435.1;translation=MATLYDNEAKIKQAVILLQKIVNDTSVPRNIRRAATDAIRNLQDENSSPAVRAANAIGILEDISQDPNMPTHTRISIWNVVSILETVKD;locus_tag=LOCUS_16980;note=WP_010978435.1 UPF0147 family protein (Sulfurisphaera) [pid:91.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-40],MGA_1699
sequence1	MetaGeneAnnotator	CDS	1521351	1521704	.	+	0	ID=MGA_1700;product=Sjogren's syndrome/scleroderma autoantigen 1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978437.1;translation=MSNDQSIKKGAELLTQGATMLNESCPICHSPLFKLKNGDVICPVHGKVYLVKSDEEEKKVKKDIVLSSTEDELINNLNYLLKKLRDSPEDSDVMMQIIRYLDAIERLRRILGTSQQH;locus_tag=LOCUS_16990;note=WP_010978437.1 Sjogren's syndrome/scleroderma autoantigen 1 family protein (Sulfurisphaera tokodaii) [pid:52.6%25%2C q_cov:97.4%25%2C s_cov:95.8%25%2C Eval:1.7e-29],MGA_1700
sequence1	MetaGeneAnnotator	CDS	1521670	1522233	.	-	0	ID=MGA_1701;product=dTMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978438.1;translation=MLLIALEGIDGAGKTTVAKKLFEKLHNKNVIITAEPFTQDIIKMIEDNGWKNPIILTLLFAADRAIHINWIYNQHPDIVILDRYIYSSIAYQSVMGIDEEWIREVNSKFPKPTITFLIDVPIEIAIQRINKNDKFNFEEKIKLLHNVRNKYLEIAKKDKLIIVNGQNNIETITTEIFNVVEKYLKSS;locus_tag=LOCUS_17000;gene=tmk;EC_number=2.7.4.9;note=WP_010978438.1 dTMP kinase (Sulfurisphaera tokodaii) [pid:55.4%25%2C q_cov:98.4%25%2C s_cov:97.9%25%2C Eval:1.2e-56],MGA_1701
sequence1	MetaGeneAnnotator	CDS	1522224	1523282	.	-	0	ID=MGA_1702;product=Clp1/GlmU family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978439.1;translation=MKLNKEEDIIVEGPCEIKILTGNIFIQGKEFGDIAIIGKGTFSVSTNNIAEIETNCNILAKISHLGWDEIISQIIQTEGTTIVLGSNDSGKTYFCKTFINKTKNITYLTADVGQPDIFIPTFISSKIFPENSIFNYTEFYGYTSPSYNPRLHVEQTSKIYEKTKSKINVIDTDGWVRGLKAYMHKKELIYYINPDYILLFDERLKNDLPSMFQNRIVIVNKIPRFLFKNKLERIRSRREKFIKYFRDSHILEVNYTDVFGSRLNHNLSTAWGDMLQFEYGECYGYFIDKSIIKGALVALLNSGKISGAGIIRNINEKIEILTPEKKADGVILGSISLNDNFEERSLRLLKCY;locus_tag=LOCUS_17010;note=WP_010978439.1 Clp1/GlmU family protein (Sulfurisphaera tokodaii) [pid:40.4%25%2C q_cov:99.7%25%2C s_cov:97.8%25%2C Eval:4.4e-67],MGA_1702
sequence1	MetaGeneAnnotator	CDS	1523279	1523824	.	-	0	ID=MGA_1703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978440.1;translation=MGIKKPLLRINDPRLFPLTIKEIKKRENLLDSMSSKIEVSECSGDIVINKEEDIELAINKAICEAQGKEKFNEVLVGIDTNSFRLTIAVVADGTLIDTKQTQIESVEDTIDSILESFPHNRFYIGVGTGNRLGELVYKVLSLKFPGVKRVDERKTSSKNPYVKIKNKDIRAAYLIALRSTT;locus_tag=LOCUS_17020;note=WP_010978440.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:45.4%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:3.1e-38],MGA_1703
sequence1	MetaGeneAnnotator	CDS	1523898	1524380	.	+	0	ID=MGA_1704;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846337.1;translation=MSIYGASGRGKTIIGLQVAKEFSRSIFISSEGYIYKSRVSNIYFKNVLFADVSTSLELMNSILKAMLLEPSVIVVDTINKFYRIDKKYKGLLYPLMLLSEYSKYGKVLLFWQVSMNNKVSGEKFMRYFSGDVLRLANGNIIGNLRNCKFKISEDGVIGCL;locus_tag=LOCUS_17030;note=WP_052846337.1 AAA family ATPase (Sulfurisphaera tokodaii) [pid:50.9%25%2C q_cov:100.0%25%2C s_cov:92.6%25%2C Eval:7.5e-37],MGA_1704
sequence1	MetaGeneAnnotator	CDS	1524371	1524874	.	+	0	ID=MGA_1705;product=CDP-2%2C3-bis-(O-geranylgeranyl)-sn-glycerol synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978442.1;translation=MFVSLLSLLIGFSFYIPAFIANGSGPFVRKGTPIDRGKNFIDGRRIFGDGKTFEGLLVALTFGTTVGLILAKFYGNWWIFVSFFESLFAMFGDMSGAFIKRRLNIPRGGRAILLDQLDFVIGATIALIILGIQINIYQFIFVAIIAFLLHIMTNDIAYRLKIKSVPW;locus_tag=LOCUS_17040;EC_number=2.7.7.67;note=WP_010978442.1 CDP-2%2C3-bis-(O-geranylgeranyl)-sn-glycerol synthase (Sulfurisphaera tokodaii) [pid:64.4%25%2C q_cov:95.8%25%2C s_cov:96.4%25%2C Eval:3.2e-57],MGA_1705
sequence1	MetaGeneAnnotator	CDS	1524868	1525218	.	+	0	ID=MGA_1706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978443.1;translation=MVSYIMANSRRTYSQVLNTYLVIILIIIMMVAIFGVLAVPYYISPITYFNGGVPQATGLLVLGSILVAMLLSGIYLLERRQIEFGSFLIIFAVMILAILIWEQYGISSVNNIIHNI;locus_tag=LOCUS_17050;note=WP_010978443.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:44.7%25%2C q_cov:88.8%25%2C s_cov:90.4%25%2C Eval:2.2e-21],MGA_1706
sequence1	MetaGeneAnnotator	CDS	1525274	1525492	.	+	0	ID=MGA_1707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846339.1;translation=MEPIKVKLTSGREVEINDDAIRLLNKYVRTQITLEQLARDLGLAGWEEAYELIKSVPSWVMWTPISIYKRLA;locus_tag=LOCUS_17060;note=WP_052846339.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:71.8%25%2C q_cov:98.6%25%2C s_cov:97.3%25%2C Eval:8.9e-26],MGA_1707
sequence1	MetaGeneAnnotator	CDS	1525489	1527543	.	-	0	ID=MGA_1708;product=minichromosome maintenance protein MCM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846340.1;translation=METQVDIGDVFEEFLKNFQDIPGNFKYMNQINEIIAYRKKSIIVDFNDLFSFNEKIANEIILNPLQSLTLLEDRMIKIIEELDNSYPLEVEKVHVRIINLPRVIELRKIRSSDVNKIISVEGILTKQTPVKERAYRVTFKHVHPDCNQEFIWPEEGEMNDIITTPSVCPRCGKIGQFEIVPEKTKLIDWQKVILQERPEEVPPGQLPRQIEAILEDDLVDSARPGDRVKLTGILMIKQDSIVKRGSRTVFDVYMKVISIEVSEKVLDEVEITDEDKKKIQELAKDPWIKERIMSSIAPSIYDHWEIKEAIGLALFGGVQRTMQDGTRIRGDIHVLIIGDPGTAKSQLLQFAARVAPRSVYTTGKGATAAGLTAAVVREKNTGDYYLEAGALVLADGGIAVIDEIDKMKDEDRVAIHEAMEQQTVSIAKAGIVAKLNARATIIAAGNPKFGRYIQERGIAENIDLPPTILSRFDLIFILVDKPGSEDQLLANHILDMHGGKSVKNSIDVDLLKKYIAFSRKYVNPQLSDEAKKLLADFYVEMRKKSSDTPDSPILITPRQLEALIRLTEAYARMGLREVATRDDAERAINIMRIFLEKVGLDVESGSIDIDTIMLGKPKSAREKMVKILEIIDTLAQNEECAKIKEISKEAEREGIEKQSTEKIVSDMKKSGLIYEVKTECFKKV;locus_tag=LOCUS_17070;note=WP_052846340.1 minichromosome maintenance protein MCM (Sulfurisphaera tokodaii) [pid:70.7%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:2.9e-287],MGA_1708
sequence1	MetaGeneAnnotator	CDS	1527527	1528027	.	-	0	ID=MGA_1709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846341.1;translation=MVEKEKVIVLDDTGTIDLGFNEISLYKGSEDEIPFWLAKELEKSGKTKVNRPNIDEMGRILFQEKQNINTPASIIQLYNNFYIIIKFLINDLKNSSNIEDLERLRKVYAIIKELSSIRLRKIIQLALLNINEQTLISKMTKEEFLVYSTISEILRKYYGDIIGNSS;locus_tag=LOCUS_17080;note=WP_052846341.1 hypothetical protein (Sulfurisphaera) [pid:50.6%25%2C q_cov:98.2%25%2C s_cov:90.6%25%2C Eval:3.5e-40],MGA_1709
sequence1	MetaGeneAnnotator	CDS	1528125	1528400	.	-	0	ID=MGA_1710;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRHSDTLQIISLVSKGNIIFIGNIFFAHAGGAEIISPYVSIGDNDVSTIITFCVISFAIALESFINILFNISTTHLLPLLDAVVTRTLGSI;locus_tag=LOCUS_17090;note=MGA_1710
sequence1	MetaGeneAnnotator	CDS	1528465	1528623	.	+	0	ID=MGA_1711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEIGIALKLKGLLSVDYKTPDKVVNLNIIKDTVYVSILNKDQEKVSVKSLG;locus_tag=LOCUS_17100;note=MGA_1711
sequence1	MetaGeneAnnotator	CDS	1528667	1529905	.	+	0	ID=MGA_1712;product=ORC1-type DNA replication protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429732.1;translation=MATPEDIINSELESPSVFRNKGILFPDYIPKRLLHREDKIRELTIAFKDIINDPGNSSIRVVIWGRTGTGKTATTKSFGQGFKGITNNRGIKTEYIHINCHRQRTLYLLTLEIANILKLPIPVRGLSSQEVFKVIHDYLDKRNMYIIVTLDEFDYLVNTSPQEDVYFLVRLYDEISAAVKRISYIFVVRDLSTINSLDKSIKDHILRNIIEFKPYSSTELYDILQDRVREAFNENAVLDDAVKFVADMNGFDKGGSGNARLSIETLQLAGEIADREKSLLVTLDHVKLANSKLNQEASVIFDEIGDLELHSLLLIKSVSNLSKRFRDEAFSMGKVEEEYQQICKDIGEEPRRHTQVYEYVRRLKLMGIFNTQQSGRGTRGRTTLISLSVPLSQEFDDYITKQIRGKLNTKYT;locus_tag=LOCUS_17110;note=WP_198429732.1 ORC1-type DNA replication protein (Sulfurisphaera tokodaii) [pid:59.9%25%2C q_cov:97.6%25%2C s_cov:97.3%25%2C Eval:2.7e-143],MGA_1712
sequence1	MetaGeneAnnotator	CDS	1529925	1530143	.	+	0	ID=MGA_1713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_149528472.1;translation=MLTLMQYGDLSLTRLSRLSKVRFSVLKREILILKNKGYIEIIDSGRVKIARLNYSNQKVIILKNLLEELEDI;locus_tag=LOCUS_17120;note=WP_149528472.1 hypothetical protein (Sulfuracidifex tepidarius) [pid:50.7%25%2C q_cov:100.0%25%2C s_cov:88.0%25%2C Eval:1.3e-13],MGA_1713
sequence1	MetaGeneAnnotator	CDS	1530140	1530583	.	+	0	ID=MGA_1714;product=cyclic pyranopterin monophosphate synthase MoaC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978449.1;translation=MTAKMVDISPKDIVLREAIAEGFIKLKKETIERIKKGEIEKGDVITVAKVAGIMAAKKNYELLPMCHPIPLEYSGLEIFLEEEGVRVRSTIKAHYRTGVEMEALTSVAVALLTIWDMVKQYEKDENGQYPTTIIKNIKVVNKIKSSS;locus_tag=LOCUS_17130;gene=moaC;EC_number=4.6.1.17;note=WP_010978449.1 cyclic pyranopterin monophosphate synthase MoaC (Sulfurisphaera tokodaii) [pid:76.9%25%2C q_cov:88.4%25%2C s_cov:86.1%25%2C Eval:4.5e-53],MGA_1714
sequence1	MetaGeneAnnotator	CDS	1530567	1531892	.	-	0	ID=MGA_1715;product=replication factor C large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846342.1;translation=MSNLPWIIKYRPKSLNDVENQDDVKNSVKEWIESWLKGKAENRAILLYGPPGSGKTTIAIAVANDYKLELMEMNASDNRNITAIKNIAEKAALSGSLFGIRGKLIFLDEVDGINVKQDSGAIPAILELIQKSKYPIIMAANNPWDPSLRDLRNATKMIEVKKLGKYALKRILSKICNSEKIQCEDEALGDIIDISEGDARYAINLLQSVAEGYKKVTETTVSEIAKRKERELDSFETVRNVFWAKYVWQAKNAVSNSQVDYDLLIKWFSENIPIQYDNLEDIWRAYDALSRASIFLNRAKTSGWDLLSYTFDLMGPGVAMAETEKFKQGWKPKWKKYQFPQVIQMLYKSKENRDLKNSILEKIGKKIHTSSDKILNDVFPYFIQYSKIKEVSKNLELTPKEQEYLSTISGETSSEETQTKYTQKYSQKKTYRRYSSSKKKT;locus_tag=LOCUS_17140;note=WP_052846342.1 replication factor C large subunit (Sulfurisphaera tokodaii) [pid:64.4%25%2C q_cov:91.2%25%2C s_cov:91.8%25%2C Eval:1.2e-152],MGA_1715
sequence1	MetaGeneAnnotator	CDS	1531885	1532877	.	-	0	ID=MGA_1716;product=replication factor C small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978451.1;translation=MSEIVEEVLWAEKYRPKTLNDIVDQEDIVSRLKRFAQEKNMPHLLFAGPPGTGKTTAALALVHDLYGDNYLQYFLELNASDERGIDIIRNKVKEFARTMVPGNVPFKVILLDEADNMTADAQQALRRTMELYTETTRFILACNYLSKIIDPIQSRTALFRFYPLKKDDIVGRLEYISKQEKVDFDTKALETIYDVTMGDMRKSINILQAASAYGKVTVESVYKVLGFAQPKEVRDMLNFALKGKFMDAREKLRSLLVTYGLSGEDIVKQLHRELTSNELQIPEELRVLLMDYIGEIEFRIIEGADDEIQLSGLLAKIAIYGNKYLGSNNE;locus_tag=LOCUS_17150;note=WP_010978451.1 replication factor C small subunit (Sulfurisphaera tokodaii) [pid:80.3%25%2C q_cov:97.0%25%2C s_cov:97.9%25%2C Eval:6.9e-152],MGA_1716
sequence1	MetaGeneAnnotator	CDS	1532921	1533367	.	-	0	ID=MGA_1717;product=YbhB/YbcL family Raf kinase inhibitor-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978452.1;translation=MEIRSAFTNGEEIPIKYTCDGIDISPPLEWEKIDNAKTYAIIVEDPDAPGGTFIHWVIYNIKRNSLPENVKKEMESEIGIQGVNDFGKIGYNGPCPPKSHGPHRYYFNVYALDSELPLRKNITADNLKSLMENHIISAGNLMGKYKRK;locus_tag=LOCUS_17160;note=WP_010978452.1 YbhB/YbcL family Raf kinase inhibitor-like protein (Sulfurisphaera tokodaii) [pid:70.1%25%2C q_cov:97.3%25%2C s_cov:96.6%25%2C Eval:2.5e-59],MGA_1717
sequence1	MetaGeneAnnotator	CDS	1533393	1534013	.	-	0	ID=MGA_1718;product=archaeal proteasome endopeptidase complex subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978453.1;translation=MESESKIKILKGTTTVGLVTKTAVVLAADRRASAGSFVANKMVRKILYITDKIGVTTAGSVADLQFIYNYLKNLYHFNYISGNRPTSIKSLSTYLANVLSQTKYLPYVVQILIGGYDDAPRLYNLDYFGDMTEEKYVATGSGSPVAMGVLEDDYNENLSEDEAMDLAGRAILSAIKRDSFTGTGAIVTKINAQGHIEKEIYPNKKA;locus_tag=LOCUS_17170;gene=psmB;EC_number=3.4.25.1;note=WP_010978453.1 archaeal proteasome endopeptidase complex subunit beta (Sulfurisphaera tokodaii) [pid:65.5%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:1.1e-72],MGA_1718
sequence1	MetaGeneAnnotator	CDS	1534115	1534924	.	+	0	ID=MGA_1719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980179.1;translation=MKILVNGLLTFDSGKTTFASYILSELKNTGLNFFPLKPIAGHNGWYSYETLLKSKSINALAGNDALKYYNITGIDVRLINPFAVLLFPVDLEKLDYKISFYEQLMENGYPVMIRYTDVNGNDYYYAVDPGLVIDSLSDILEDLYNTFKPIIVSNRCIRNKVNESSYIVDNNVKEFLKKDNIIIESYNDALAPTYSSLGVDVMFAVAPGKVFMIDGDRLRKILSLFTLPPWIIRTKEIFEYTKPDKTFVINIKNSKNDIIVNELLRYVDL;locus_tag=LOCUS_17180;note=WP_010980179.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:48.6%25%2C q_cov:90.0%25%2C s_cov:87.9%25%2C Eval:3.9e-59],MGA_1719
sequence1	MetaGeneAnnotator	CDS	1534909	1535739	.	-	0	ID=MGA_1720;product=DUF1641 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980570.1;translation=MASEIEVNVLDNILSGDKLITVNHLLSLLEKLDKLGIIDVVNGLLEDDEYLGKIMGAIVNDKTMELIGNWNNLMSFMDILTDENTKENLQFALNMLTQLRKTGIIDPVLGILNDEEYMSKIMGAIVNDKTLELIGRWNNIVDLIDTVTSTETISSIKSILEVLKDLQNTGIIDPIKGLLKDEETLGKIISGLVNDFTMNLLTNWDNIMKGLSAMNLENFKYYTDLINKVGEAIKVEKVKPVGLGGLLSSLRDPEVQKGLGIMISILRHIGENYKST;locus_tag=LOCUS_17190;note=WP_010980570.1 DUF1641 domain-containing protein (Sulfurisphaera tokodaii) [pid:42.0%25%2C q_cov:94.9%25%2C s_cov:93.0%25%2C Eval:1.2e-63],MGA_1720
sequence1	MetaGeneAnnotator	CDS	1535745	1536974	.	-	0	ID=MGA_1721;product=FAD/NAD(P)-binding oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846808.1;translation=MPKVLVLGGRFGALTAAYTLKRLVGSSADIKVINQSRFSYFRPALPHVAIGVRDVDELKIDLSEALPNKGIKFQEGKVQKIDAKNSKVIYTKSDGSTEEEDYDYVIVGIGAHLATELMKGWNEYGYSVCEPEFASKLREKLNEFKGGNITIGSGPFYQGHNPKPKVPENFVPNADSACEGPVFEMSLMLHGYFKKKGLLDKVKVTVFSPGEYLSDLSPQSRKAVASIYQQLGVKLVHNFRIKEIREHEIVDEKGNKLDSDLTIVLPPYTGNPALKNSTPDLVDDGGFIPTDLNMVSLKYDNVYAVGDSNSMTVPKLGYLAVMTGRIAAQHLANRLGVHTKIDSYYPTIVCVADNPYEGFAVSVKDDTWYGGSITVAEPAAVNHLKKELFTKYFMWTKGDMALEKFLASW;locus_tag=LOCUS_17200;note=WP_052846808.1 FAD/NAD(P)-binding oxidoreductase (Sulfurisphaera tokodaii) [pid:78.7%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:5.2e-195],MGA_1721
sequence1	MetaGeneAnnotator	CDS	1537128	1537715	.	+	0	ID=MGA_1722;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980178.1;translation=MQNLEKFVQVNGAKIHYIEAGNGKAVVLHHGARFNAHTWEETGTISAIAEVGYRAISIDFPGFGKSESGNFGNLSDFISSFIETMKLDKPILLGASMGGEAVLEYAVDNPKKLGGLILVGAVGVSSYENKLKDLDGLPILLIWGKHDNVSPKHNYELILKYVKSAKFVNIGNQHACYLDDPNGFNEQIKTFLKGL;locus_tag=LOCUS_17210;note=WP_010980178.1 alpha/beta hydrolase (Sulfurisphaera tokodaii) [pid:62.1%25%2C q_cov:97.4%25%2C s_cov:98.4%25%2C Eval:8.3e-67],MGA_1722
sequence1	MetaGeneAnnotator	CDS	1537715	1538350	.	+	0	ID=MGA_1723;product=DUF2250 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980177.1;translation=MEDTLRTKLYEVLKDKRYLEVLEHLKKANIDYGKSIMLNTKIPIDQVVDILDKLEQLGLIERVHGATLKNTEAKFKLSSEVHKHHTYYTLTRDGDHLLRNLDEKILIKTYIDMVKNDDLAKTILNLADELNADHALTYSKLTHKTLEEVTPKLEELERMGLLEEAKAKIIKFGERKSKPKKETRTHHKYYGLSRTGELVVREMKRRGLLPR;locus_tag=LOCUS_17220;note=WP_010980177.1 DUF2250 domain-containing protein (Sulfurisphaera tokodaii) [pid:77.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.6e-92],MGA_1723
sequence1	MetaGeneAnnotator	CDS	1538354	1539301	.	-	0	ID=MGA_1724;product=methylmalonyl Co-A mutase-associated GTPase MeaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846722.1;translation=MNHELLKKALEGDELSISKIFTNIEYSTKDGMEYLKELSLRAGNAYTIGITGSPGAGKSTLISDLIEEYAKNDLKIGVIMIDPSSPFSKGSFMGNRIRMQDKTMLKNVFIRSIASRGFLGGVSAEAIMLMEAMDGLGFDKIIVETVGSGQTDTDIVSAVHSILVLVIPGSGDEIQALKAGIMEIGDFYVINKSDKIEAESLYNSIKFAIESGETNWRDGWKPSIIKISALKKYGISELIQGITQHEKFVKEHDLFIKRIYQRRHKIIELYLKKKIDEVLLNTIRENEDIISEYEKKGTGLTETIEEIYENFKKKI;locus_tag=LOCUS_17230;gene=meaB;note=WP_052846722.1 methylmalonyl Co-A mutase-associated GTPase MeaB (Sulfurisphaera tokodaii) [pid:60.8%25%2C q_cov:98.7%25%2C s_cov:99.7%25%2C Eval:9.1e-106],MGA_1724
sequence1	MetaGeneAnnotator	CDS	1539291	1539710	.	-	0	ID=MGA_1725;product=cobalamin B12-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846721.1;translation=MEKRIKVIVAKLGLDGHDRGAKVIARALKDAGMEVVYTGLRQTPEQIVKTAIQEDADVVGISILSGAHLELIPKVVEIMRKNNLNDVGLVVGGVIPPEDIPKLKSIGVDDVFLPGSSLKEVAEKVRQVAEKKRGIKIEP;locus_tag=LOCUS_17240;note=WP_052846721.1 cobalamin B12-binding domain-containing protein (Sulfurisphaera tokodaii) [pid:82.4%25%2C q_cov:97.8%25%2C s_cov:95.8%25%2C Eval:2.3e-58],MGA_1725
sequence1	MetaGeneAnnotator	CDS	1539844	1540131	.	+	0	ID=MGA_1726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFELWYIHISLAIISVIFSSLIFIEFKSLRSEFKGKLSAILLIISVLLLLQSITDTIAFSMWSSSKNPVYVYPSLLIAIITTTIIILFYYYVTKA;locus_tag=LOCUS_17250;note=MGA_1726
sequence1	MetaGeneAnnotator	CDS	1540149	1540319	.	+	0	ID=MGA_1727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSYTNMDAEIEIIISEKTCDAIICDLKNTTKIISDVKKNDAKNADIGIRKFANLT;locus_tag=LOCUS_17260;note=MGA_1727
sequence1	MetaGeneAnnotator	CDS	1540624	1541199	.	+	0	ID=MGA_1728;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIAGVLLAITLAYISIYMSAGNYTRIQNSPNVSMPNIEFSTENSPAVYRLNISDNNFSAEYTVLLTTDSIINSYCINNDTQIPQYGPAFVVNTKIYIYPLLYVYPQQIVINNSNRNIEFNIMSDSLKEIFIGYNSSLYEISFIHEYLSGNNTLIQVGLHLKDISRQSEIVIPIWTEYNMKYYYTYIIIIY;locus_tag=LOCUS_17270;note=MGA_1728
sequence1	MetaGeneAnnotator	CDS	1541250	1542131	.	-	0	ID=MGA_1729;product=dihydrodipicolinate synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980319.1;translation=MGLNYMEGILTALITPFDEKENLNLSMLKSVMEFDKNRGVSSFWVLGTSGEFNMLSLDEKISVVKTARESVNSKILAGINENSLKNSDILLKNFVDFGVDGVFSIPPLYHKPNDKGIIQFYENLSKPGLPVYIYNIPSYVGYNISLDILTKLVDDGIIDGMKYTTSDMDSFIKYTMVLKEMNKDFNMLIGSDTLVLPALMYGADGAVSGIANFAPEIISSIYTKYKEGDFKEAYKYQLVAIKLNNAVSLSDYPTGIKIALRYRGLYVGKSRSPLQENISAEASIYDTMKEFNL;locus_tag=LOCUS_17280;note=WP_010980319.1 dihydrodipicolinate synthase family protein (Sulfurisphaera tokodaii) [pid:45.1%25%2C q_cov:98.3%25%2C s_cov:100.0%25%2C Eval:2.3e-68],MGA_1729
sequence1	MetaGeneAnnotator	CDS	1542187	1543701	.	-	0	ID=MGA_1730;product=cation:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429818.1;translation=MNVLIITLLYLGIMLFLAKLAEELFSRLGLIPFVGAIFIGIILGEGVTDFIKVNEIISFITSLGIVFLLFLAGAEEINMEQKLDKKLVLTSIIQITIPFSLVLVVLYILNVPHYLILIIPLIMTSAGPLTRLLIDLGITKSEFGVNLFYQATIVEIISVILFAIFLGINGNLLYTALEIIAIFVLIFALGPFLSRLLEKIEGYIKVREIEFASIISLILIIGFLSEILKFNSAIAALFLGFLLRRYLKDRPELLEKLHGFTYGFFEPLFFVSIGLFFVKIDYQILIIGSILFIVIFISKFSAGIISSMIIKNNLFLNGLGTSTKGGVDASLLISALTINAITPSEYSYSALAITFSALFIPLLFKLRSGYKVERKEKIKLNTKVSLILSQFSSPIFANCNETLREAINKINEKNARALVVVSDMKPVGIITVSKLLEISPDYYDKLRLCDMELDDIDIMPLDSKISDILKKFRETETPVIAIVDKDHRLQLTIYERELLRFLIT;locus_tag=LOCUS_17290;note=WP_198429818.1 cation:proton antiporter (Sulfurisphaera tokodaii) [pid:53.7%25%2C q_cov:99.6%25%2C s_cov:99.0%25%2C Eval:2.5e-141],MGA_1730
sequence1	MetaGeneAnnotator	CDS	1543740	1544132	.	+	0	ID=MGA_1731;product=metal-dependent transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_184651021.1;translation=MKISHRELQYLLIIKKYNDDGKPARLTNIAKEVEVSPASAYEEINHLSEKGMVTKEKSEIWITNNGINYIMKAVRAHRVIESFLVKLGVDKDEACKYSQQFDLMVPDEIVEKLYEFLGKPHNCPHGEDIP;locus_tag=LOCUS_17300;note=WP_184651021.1 metal-dependent transcriptional regulator (Sulfurisphaera) [pid:58.5%25%2C q_cov:100.0%25%2C s_cov:98.5%25%2C Eval:1.5e-41],MGA_1731
sequence1	MetaGeneAnnotator	CDS	1544129	1544701	.	+	0	ID=MGA_1732;product=DedA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980578.1;translation=MIDYLEIFLLMIVESIGFPVPSEIILPLAGYYSSQGLTNPVYVIIISTLGSIVGSIVDYFIAFKLGIPFLHKYGKIFGLTSIKLNKLNLWFSKYGTFSVFIFRFVPEFRALISFPAGIASMQIVKFLISTFLGNIIWDSILVWIGFAFPSSWELLISTVYRYLIYITILLVIGIILYIIRNKLKVLFFKI;locus_tag=LOCUS_17310;note=WP_010980578.1 DedA family protein (Sulfurisphaera tokodaii) [pid:46.0%25%2C q_cov:92.6%25%2C s_cov:92.1%25%2C Eval:2.8e-40],MGA_1732
sequence1	MetaGeneAnnotator	CDS	1544835	1545710	.	+	0	ID=MGA_1733;product=sulfite exporter TauE/SafE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980321.1;translation=MVVIDLTPLQYLLSIVSGILVGFSLGLIGGGGSILAIPLLLYFVGLYYAVPIADRGYAVHLAIGTTALAVGLNAYINSYIHFKKGNVKVPQGIMFTLPGLVGVFAGTTLDKITPGNSLLFFFSILMIVVALMMLRPQKKIVSQSNVDASKGFSLSSLISSVSIKKVIPAGFLVGFASGYFGIGGGFLVVPGLLFSTGLCMVRAVGTSLIAVGTFGVASAISYTFSGYVLFIVSILYLLGGIAGGYAGASIASRMPRGLLRKIFAIIIIIVAIYTMYTSINGLYLLLHILGI;locus_tag=LOCUS_17320;note=WP_010980321.1 sulfite exporter TauE/SafE family protein (Sulfurisphaera tokodaii) [pid:51.6%25%2C q_cov:94.2%25%2C s_cov:96.4%25%2C Eval:1.6e-69],MGA_1733
sequence1	MetaGeneAnnotator	CDS	1545699	1545995	.	-	0	ID=MGA_1734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNKEFIRLQDLILEKTSLEKVKLHIENRKEKTVYKWVSSELSGFLIKHDKDLNPYVEKIISDIKAENYSELLSDINATIDIISKKINELYDYLSNS;locus_tag=LOCUS_17330;note=MGA_1734
sequence1	MetaGeneAnnotator	CDS	1546035	1546529	.	+	0	ID=MGA_1735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980465.1;translation=MNEKKLVLSRYYIYVIIGSILIFMISLSVAPFAPLDEPKVYAYDGEYYNLGIPVGFSFSAFISLIIFILSAIILWGNKNVLYNIIIDSSALSFIILNYINYYFIWDVWRPYIMFLPFFVLIKYNGATAMQLDLGQIVLIIFLYRFYRFYKKSKSSRPLSGPDLQ;locus_tag=LOCUS_17340;note=WP_010980465.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:42.3%25%2C q_cov:90.9%25%2C s_cov:94.0%25%2C Eval:7.6e-32],MGA_1735
sequence1	MetaGeneAnnotator	CDS	1546811	1547422	.	+	0	ID=MGA_1736;product=type-4 uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980322.1;translation=MDLDELNSTIRSCKLCKLSISRTNAVPGEGNPKASVLFVGEAPGATEDKMGRPFVGSAGKLLDELLKSIGLDREKVYITNLVKCRPPNNRDPESDEISSCSPYLETQISLINPKIIVTLGKYSTIYMLKKVNINVTSISKVRGKFYEWNNILIFPTYHPAAALYNPNLKEVLEKDFKVLGSKIGSKLFTLDNFMNENGPRNTK;locus_tag=LOCUS_17350;gene=udg;EC_number=3.2.2.27;note=WP_010980322.1 type-4 uracil-DNA glycosylase (Sulfurisphaera tokodaii) [pid:60.6%25%2C q_cov:94.6%25%2C s_cov:90.0%25%2C Eval:6.4e-65],MGA_1736
sequence1	MetaGeneAnnotator	CDS	1547394	1548179	.	+	0	ID=MGA_1737;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847027.1;translation=MKMDLGIRNKKVIVTAASKGIGYATAKRFLEEGAHVLISSHDEQKLLDAYNKLKDIGDVYYLKADLRSIEEIKNLILKGNEILNGIDVFVYVAGSPKPGNLFELTDNDWEEGFKLLLMSAVVSIREVSKFMKNNGRIILSTSISIKQPLENLDLSNVIRLSLAGLIKSVSNQLAHKGILVNGVIPGWTLTERVDQLVKDRSRRENRSESDIINDIVKDVPLGRMALPEEVANVIIFLASELSTYITGALIPVDGGYIKATF;locus_tag=LOCUS_17360;note=WP_052847027.1 SDR family oxidoreductase (Sulfurisphaera tokodaii) [pid:68.2%25%2C q_cov:98.9%25%2C s_cov:99.6%25%2C Eval:4.9e-96],MGA_1737
sequence1	MetaGeneAnnotator	CDS	1548290	1549774	.	+	0	ID=MGA_1738;product=ATP/GTP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980324.1;translation=MRLIEFYTNNFRSLSNVNLDSLGGFNVIVGFNGYGKTNLLTAMYIFIKNIAAGLDKKSVEDRNQEFMLLWQGYDTSKIIYLGGKLQFNEQEVEKATGKIQTMNIEIINKLRYTNGYLEWDLDLLKVNGTVPNKDNIDEVKKLFEYASQQVEYVPIFDQNYFDDVMRRITEISRSPINLRKYWYDFVNLVSATIPEIRGMEIWDSKKLVLNVYNLPIYIDLAASGFQRVILMLFVIWLSGNKVLLVEEPEVNMHPTLQYKIAKLLKNWTDNNTLQVFMTTHSPFIVSTDIDNYIVLKKASAYSKAISITPTENLRSLLSILKVSLSDLLFSRIVILCNEYADPNAISNWLKRLSVNPEYNGISIFSVKSDIELQAWLKLKEILRLETMFLGMCDRIDSSMAEYCLPLGREVESFYSKTGILEALKTLGIYPDDKELKDLGKEENLRWLINIFKRRGLDYSILRSSLSDIVTRIDSIEIPKEVELLANKIKSFQAV;locus_tag=LOCUS_17370;note=WP_010980324.1 ATP/GTP-binding protein (Sulfurisphaera tokodaii) [pid:56.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-184],MGA_1738
sequence1	MetaGeneAnnotator	CDS	1549795	1550019	.	-	0	ID=MGA_1739;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYRRTKIIVIISAIIIIHFSTFFELPKIIGTGPINIIPPALVLVFSFFSEFLKTSYINPINTMKNPNRTKNIPS;locus_tag=LOCUS_17380;note=MGA_1739
sequence1	MetaGeneAnnotator	CDS	1550030	1551295	.	-	0	ID=MGA_1740;product=Glu/Leu/Phe/Val dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980326.1;translation=MTSVEEVLSSNLYTQQVKKLYKIGDILGLHEDELQALSTPERVLQVKIQILSKDGKIRTFTGWRSQHNSALGPYKGGVRYHPNVTQDEVIALSMIMTWKNSLLQLPYGGGKAGIRVDPKTLSKQELEMLSRNFIDALYKYIGSEIDVPAPDVNTDSQIMAWFLDEYNKISGKIDLGAFTGKPVELGGIAVREYSTGLGLTHTAKIAAEKFLGGIEGKTVIIQGFGNLGSYAAKFFTELGAKVVGISDSKGGVLDYNGIDVDKALEIKAKTGSVIDYPDGKKVSNDELLISDCDILVPAALENVITKYNAPKIKAKLIVEGANGPLTADADEILKEKQIPVVPDILANSGGVVGSYVEWANNKMGEIIEDEEARKLILSRMERAFDEMYKKYNKLGDQDLRTSAMVVAVERVIKAMKSRGLI;locus_tag=LOCUS_17390;note=WP_010980326.1 Glu/Leu/Phe/Val dehydrogenase (Sulfurisphaera tokodaii) [pid:75.2%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:2.0e-189],MGA_1740
sequence1	MetaGeneAnnotator	CDS	1551363	1552640	.	-	0	ID=MGA_1741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYILAISLILIFIFPILSLAIPNAPTNITNYKSSITFYNNLTYKIVAYNTSSNSTTSKLNYTYIANYYVKNFNNGNVTVNVEINDTSTQSMSQNKTFNFTLIKSGTYNVSLQKDFLNLNYPFIAPEYIFNNTYTLQSSISSISLTFINYSTVKISGVNYNTTEFSFSTTSLSGKIWVLTNGNIAKLETTYKGLSVNMTLERFASLFTGDLTQIYLPKNLLNISYLYAVFEYSSFANTTQSVGDEEIVYPVVFSNGIIGESAYSLNTISGQPIVDTTDFTIHIANYTHIEITFYPNMTKTILWNSIPFKFVGYKNISIFNKQYSNTLVYTNSTNSTIQTLIFNKSGILLEESIKQNISNTFITELSIKYLGNKFYGNNITFINLNAYNNTALPFKAIAPTLSLVATIVITLVLVAVLVILHRRE;locus_tag=LOCUS_17400;note=MGA_1741
sequence1	MetaGeneAnnotator	CDS	1552691	1553116	.	+	0	ID=MGA_1742;product=NUDIX hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980328.1;translation=MDRPLVAVGGVIIERNKILLVKRAHPPNKDMWAIPGGKLEYGETLEDAVKREILEETNLQVKVLNLLSLIQMIKEGFHYVILDFLCEIVGGNLKPSSDAADAKFFSVDEIKNLNTSPTTKEMLIRYNNKEKLPIFITEISK;locus_tag=LOCUS_17410;note=WP_010980328.1 NUDIX hydrolase (Sulfurisphaera tokodaii) [pid:66.0%25%2C q_cov:99.3%25%2C s_cov:96.6%25%2C Eval:4.2e-47],MGA_1742
sequence1	MetaGeneAnnotator	CDS	1553097	1554497	.	-	0	ID=MGA_1743;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847028.1;translation=MIRLYNTFGRKIEDFNVENNTVRMYVCGPTVYDYVHIGHGRTFVAFDAISRYLKLRGFNVIRVQNITDIDDKIINKSKETGKSWEEIVDDYSRDYIDNLNALKVKIDLHPRVSNHINEIIDFIQKLIDKGNAYIAPSGSVYFDVDTYSKYGELSNTKKEEWNQGEEFIKEKRHAYDFALWKSKKPGEPFWKSPWGEGRPGWHIECSTMSTRYLGESFDIHGGGMDLIFPHHENERAQSESYTGKLWVRYWMHVAFLTIKKTKMSKSLGNIIPLKDAIRSYGPSVLRYWFLSSHYRSQVDFNEDSLEQSKASLNRLKDAMSIIRNILSEGPKSYSTDEDIKIQKNIVSEIEKFHESMSDDFDTANALSHIHNIASIIFSKLENTRDFMGASIAFDAFRQFNEVFGVMDEEFSLAYDRLSKIIDSIVEIRNELRAKKMYDLSDEIRSILENNGIKILDSKEKSTWRFQ;locus_tag=LOCUS_17420;gene=cysS;EC_number=6.1.1.16;note=WP_052847028.1 cysteine--tRNA ligase (Sulfurisphaera tokodaii) [pid:70.6%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:1.9e-204],MGA_1743
sequence1	MetaGeneAnnotator	CDS	1554518	1555420	.	-	0	ID=MGA_1744;product=bifunctional phosphoglucose/phosphomannose isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980330.1;translation=MLDIYLNWYTLFDEIKNIDVPEISTNKIVYTGMGGSYIPGKIAEILNLPLDYTVVSGIPRNLDKDTTLIAVSYSGTTKETIYAVNYGIKKESKIIVITSGGDLEKIAINKNIPLIKVKGLSQTRYSFPVLFTPLIKMLAKKANTRINIDELKEGIIESSDKMIKMSEDLEQKIENNLPVFYASRYFPLAIRFKQEINENAKYPAFYGLIPEVNHNEVESYVNGKYLIPIVIGDDDIDKVTIETLNALQISPLFKSELKNISSILLLAGLTSIRLANSLGENPEKLNIIPKARSLTANVFK;locus_tag=LOCUS_17430;note=WP_010980330.1 bifunctional phosphoglucose/phosphomannose isomerase (Sulfurisphaera tokodaii) [pid:48.5%25%2C q_cov:98.7%25%2C s_cov:95.8%25%2C Eval:3.0e-71],MGA_1744
sequence1	MetaGeneAnnotator	CDS	1555413	1555850	.	-	0	ID=MGA_1745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980331.1;translation=MIAKTRMENLYREIEGLQQINLSLAEQGILSFLKEQARKEEDLILEFEKNISEKKWDESLISFFQLGQRTNLIFSYLVQPAVISSLSSSKIAEIAQDLVDCLSTTIAEAVISLKNNMKNIGIESITSSLNSNPPSINISLVLKSA;locus_tag=LOCUS_17440;note=WP_010980331.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:34.3%25%2C q_cov:94.5%25%2C s_cov:93.8%25%2C Eval:1.5e-21],MGA_1745
sequence1	MetaGeneAnnotator	CDS	1555903	1557213	.	+	0	ID=MGA_1746;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980332.1;translation=MEKILVLGGGAAGMSASSRVRRLRPDTEITVLEQTKMVSHAPCGIPYFVEGLFNDENLFMTYTPGFFKEKRKINVITNTKVEELDLQSRTVKIARMPEKLEYDYLIVTLGAKPKKIKNVDGKRIFYVHHPASAAELRAKLWSLNTIGIIGGGILGVEMSEALVSIGKKVILFQRSNYILNKMLDEDMSKIIIETMKKDVDIKLGEEIEDIKEDGTLIITNKGKYSVDGTIISIGVEPNIDLIKDKLKLGKTGAVWTNSHMETNVKNVYAAGDIAETKNIVTGKEFWIPFAPVANKMGYVAGSNIGGKEMEFPGSIGTMITKYKDMYIAKTGLLENEAKGNGFNVISSMIHTKTRARYYPGSKDIFVKLIAEEETNRILGAQIIGGEEVLGRIDMLAAQIMKGFSVEDVFFTEMGYLPAISEVWDPVIIAARQLMKS;locus_tag=LOCUS_17450;note=WP_010980332.1 FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:64.2%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:2.0e-160],MGA_1746
sequence1	MetaGeneAnnotator	CDS	1557264	1558382	.	+	0	ID=MGA_1747;product=DNA double-strand break repair nuclease NurA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980333.1;translation=MAIQQGFFEILSDCIINYITRYLNTASIDGIYYIDDQKNDDILPLEKPQNLVREVKPLRFEKEVFSIDGSSRSFISGKGIVSIASVAVTSTSSSIYDVYPSVDGKSKLGLNEPFIAVAASNLESSKLDPYLFSNNYISSVSLSGEPFNPLNGFENIESELRSLLETKALSKLKDKGYIIVDGPLFPSYLYLNGKVKDKIISERIKIIDSNFIGIVKRIDKSQYLVKSLNGEYRKYFVQKFKLDPKSFISDESLLLNLIRFNYNIPYSPIVIGPFLDRVKENINVYINYLVVPFNPYIANFFILRVETLNNNSDIIEKILSLKPTKDGIPYNLALADLTAKKLSAGLYKLIILYLQQLGLQSSFYSRLEVIKS;locus_tag=LOCUS_17460;note=WP_010980333.1 DNA double-strand break repair nuclease NurA (Sulfurisphaera tokodaii) [pid:41.8%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:1.3e-77],MGA_1747
sequence1	MetaGeneAnnotator	CDS	1558379	1560196	.	+	0	ID=MGA_1748;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980334.1;translation=MSNNGLFDSIKDRMEKARALAITLGDIIGKVSRNMSNKVQENEYIVNIIVDPLTYYKYNFLGKVGIFLGVIDIKTLYFVLLRVIGYERSDVSSYLFDNSTISTIEDEENPGTLINNVIIKCEMLTKVDILSSSDISPGDIIIEPQSPVIIPRSEIIERALGINSGALKIGFLDLDEASVKVSLSLDELNYHTLILGTTGAGKTSFIKDLLTALYKINEEGSKVFVVDTTGDYYHMFLPPEITNKQVKVGIQKFEDLYGKVNGIDMDIIYPITHKWAKKYLKNNYEIENIVKQYYELYVNPLIQYLNKKGINTYTSISNNEITISNDFWTSKIHVNPFYFKFKSVKRILYRLNPYFSEQASHFLKIILSQKEFSSSYNLNDFIDRLDDNVFEKMKLHRSTRENIIRGLYLLRETDMFDLKIRQKSINELLESNSRITVFDIYNSELDDFTQKIFIYYILDKIFNIREKQLRSGIVKGRYIIILDEAHRFFPSTQGSEEDTYYVRRVAGKISMMMRLGRRRKIGFIFSTHNPADLSDIIVQLSNTKIIFRIRPEISENFGLTKMEAKTLSWENNGVAFIISPWLREGRIKVKVPVPPPVGHYDLSKT;locus_tag=LOCUS_17470;note=WP_010980334.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:58.5%25%2C q_cov:97.7%25%2C s_cov:99.7%25%2C Eval:2.6e-212],MGA_1748
sequence1	MetaGeneAnnotator	CDS	1560209	1560586	.	+	0	ID=MGA_1749;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980335.1;translation=MELKTALQEMLEKKDEPSVYNFIKCIVNLFPPSDDLSISVIKRGNYEYILDRKGLCLVSLAQDEYLPFFSAAEKRLTTIPYDIQDYIVNNWKMILKELEKILDQYSKRESTYEKKLEEVKSLVNN;locus_tag=LOCUS_17480;note=WP_010980335.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:44.4%25%2C q_cov:97.6%25%2C s_cov:95.4%25%2C Eval:4.0e-23],MGA_1749
sequence1	MetaGeneAnnotator	CDS	1560573	1561502	.	+	0	ID=MGA_1750;product=acyl-CoA thioesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846752.1;translation=MLITDTRVETVNLVHYEQCNFMGRLHGGDMLRMLIDTGMLSSIKAAKGTSVLASLDNVVFKKPIYLGDIIKISAQVDYIGNSSMEVEMAASRGEEILVTSTAAYVKIDQNFRPIAVGDKIIPSNEQELKIFKNGEQRRKDRLSKIKKDVAQIDLSSKLSNRISNIFYVSPDMTYDGKVISAGRLLKLMDDLGGILGLRLINYKGYTSSADTVVTVSVSNMSFYSPIKLGDIVQINAGLTYVGKTSMEVLITVMKKSPSTDFEVVTTAFFNYVRVGSDGKPKEFPQYIPQNEYEKKFWDDALNRRRKNFS;locus_tag=LOCUS_17490;note=WP_052846752.1 acyl-CoA thioesterase (Sulfurisphaera tokodaii) [pid:46.6%25%2C q_cov:98.4%25%2C s_cov:97.1%25%2C Eval:7.3e-76],MGA_1750
sequence1	MetaGeneAnnotator	CDS	1561473	1562345	.	-	0	ID=MGA_1751;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980339.1;translation=MLFSGSIILGFIGYGLLGFVYAIDAPLYSILLLENFTFEELPKANIRLSQFTLAGNISGSLLAIFKPNFEIITFVFLIAFVSNVLFIRNVTGSITRDKTEERKEVKNKLYAILSFFSFNFAAEIFFTIYIPFNYIMGNPEYFIFASYALLYIVDEIFYYFSSKIIINREIYYIYLIIFIRAVISIGISILILSKLKIGMLSIPLFLSFGSIYPIYSASFFSVMFRNLKKNRGTIIGIFNAVEDIASILGSLTAGIIGNNLDNAYMAIFYSFILSAFLFANYLRKILASSV;locus_tag=LOCUS_17500;note=WP_010980339.1 MFS transporter (Sulfurisphaera tokodaii) [pid:44.2%25%2C q_cov:94.8%25%2C s_cov:75.0%25%2C Eval:2.8e-58],MGA_1751
sequence1	MetaGeneAnnotator	CDS	1562347	1562616	.	+	0	ID=MGA_1752;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLHGINEIGSKNKNSFLLFIVSRMLPQIYEPKALAALNIIETIPRINIDFVSSYTSTGYSKESSVIPEITRACPMNSLIRIQMIHSVNL;locus_tag=LOCUS_17510;note=MGA_1752
sequence1	MetaGeneAnnotator	CDS	1562640	1563863	.	+	0	ID=MGA_1753;product=anion transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980340.1;translation=MNYIALAIAFLTYSLIAFRGITKIPPWASMFFGGVLMVVFNVISINFALKYINLDVILFLITIFIFSSALEVSGFLKYLAYYIISKFRTPKRIIMAIVIFSGLLSNFVTNDGISSSWTPIMLEASKQLKIDEKPFLYSLAFGVTIGSVMLPTGNPQNLLIALEGNLKQPFILFLEYLGIPTVLNLIISAFMIYFIFRKYLYNKEIKVSNIKMEDVYTAKIAIILLTITIILFFLLSLFNIDILLGSLFTSSLLLIIVKSRREIVRRVDWSIIIFFIGLFLFTGGLINGGIISSLTSIFPPPSSIFIIMLISILLSQVLSNVPMVAIYIPIMYANNAVSVFDWLALAAGSTIAGNLTLIGAASNIIISESSESRGGKGFEFFEFIKYSIPVLIENFLILYLFLSLKTP;locus_tag=LOCUS_17520;note=WP_010980340.1 anion transporter (Sulfurisphaera tokodaii) [pid:55.3%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:4.1e-120],MGA_1753
sequence1	MetaGeneAnnotator	CDS	1563837	1564973	.	-	0	ID=MGA_1754;product=acyl-CoA dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846754.1;translation=MFEIPKEVEDYREKVRDYVQKVVKDYAKYMDETNEGGEKIVRDFGEMGLLGMKIPSKYGGLGLGEIAFAIATEELGTESGGASHSLHTQLNALQLLVSIGGDSAKDLIEKGIKGEEIYAVALTEPAAGSDLGALQTNAKLDGNELVLNGEKIFTSAASFSTKMVVLARTSGNPGDKNGISLLLVDSKTAGVDIHKLDLMGIRGAGVSYVKFNNVRIPKDSIIGKEGDAFKGAIKALMVSRNGYAGIAVGIARGAVEDAINRASARKQFGKALIDQEWIAFNLADAYIKIEAARLLTWKAASLLDNGIEALTEASMAKYYAAITAAETTRTALHIFGGHGLNRGSKVERLYRDSKIMEIAEGTNEMQLLAVSRSFQTKK;locus_tag=LOCUS_17530;note=WP_052846754.1 acyl-CoA dehydrogenase (Sulfurisphaera tokodaii) [pid:79.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.1e-171],MGA_1754
sequence1	MetaGeneAnnotator	CDS	1565013	1566860	.	-	0	ID=MGA_1755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVERNILPFSAIVGQERLKKALLIIAINPSIGGLLIKGPKGVAKSTAVRALANLLPEIDVVADCPFSCDPYDNNKMCENCKRRLLAGEKLPTKKRKMRIVDLPVSATLDRVVGSLDIKKAIEDGIRSLQPGLLAEANRGILYIDEVNLLNDDIVNAILDSAASKVNVVEREGVSVSHPADFILIGTMNPEEGELRPQLLDRFGISVEAESPKSEDELIEIANRVEEFEKDPENFKKRFLNNEKEIEIKIITARRLLPEVDISEKLLKIIANVVLRYSLSNRAMIAAVKVSKTIAAMEGRKEVNLKDVKEALELVLPHRLKNEPLNQGLNNTPNINEIINNLDKEDNQKGNENEKTENKENGNENKENNELDKENIKINFDTKNINSEKSGKSGVSKSYGYLDNHEGTILDFHSTIVNMALNKRRKIAEDDIVLRDNLGKGSLPILILLDTSKSMNFNKRINIATRISHSLLANAYKLRSKVGLITFSGTASQYIIPFSKNFDKFNKILSNTRPFGKTPLSHALLNAFNILRKESKYATPITFIITDGKANVSISGNIKHELECLSYKLGKISKVIIIDTNYSEFLPSYNKLIAEKSNGILLNINDSIRFLNIRIT;locus_tag=LOCUS_17540;note=WP_064496660.1 ATP-binding protein (Methanocaldococcus jannaschii) [pid:52.8%25%2C q_cov:55.6%25%2C s_cov:93.9%25%2C Eval:2.8e-100%2C partial hit],MGA_1755
sequence1	MetaGeneAnnotator	CDS	1566854	1570288	.	-	0	ID=MGA_1756;product=cobaltochelatase subunit CobN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870959.1;translation=MKISVLIGWNGSVIRTFIEEAKKTGIELSIKYPRLDPIDEDFIQDLKKSDAIFIHHFSSEQLYSEIIDKIHEILEGKEIVAVIDPVLSKYNKLDPISTKKVIEYYNFGGTDNIRNLMLFLLSFKYNIKYEDPTPLPFSGIYTKDHVYLDLNKYLSNFSNPNLKKVGILFYRSEWVDNDLEIVNKIIDKLSMKNIIPIPVFVQGFGDKSKNIDSNEDAISKYFMLNGKPVVDAVISLLSFSLIKDKDNGILKKLNVPIFQGIINYFKSEKEWNESTGVDNISTIMSVTIPEMDGTTQPIIVGTIEIQQLGKYRFRKLNGIDNQIDYLIERVYRWINLKYKPNSDKKIAIILHSASAYKDLEANIGTATGLDTLQTTVEIINELRKRGYRCIPPKDGEDLINRIIGRKAIPETKYTSLEEILSKKGDAGYITFQEYEKFFSSLPELSKKLVINTWGEIKHGERNYMFDGTKFIIPGIFFGNIFVGVQPKRVTWQDDENAIRLTHNSDLPVHHFWLAFYKWINDNFDAVIHVGTHGTLEFTPGKSVGLSPSCFPQISIGTIPHLYIYAVNVPGEGITAKRRSYAILIDHLSPPTSDDIPEDARKLEDLIEEYEESERAQNKSRQKLVLEQIKELSNSVGIKIDFSDPDKATHEIEHKLNIFKDSSISKGLHILGDLPNEEDIAEYVISTTRFEEDSLVNKVGREKAKQLIIEAMHGFYKLPIKENYVITKLIESAHLEKINLINALDGGFIESGPSGSLSRGRYDILPTGRNFYSIDPWKIPTLSAWQIGVILSERLIEDYRKKYRRYPKAIGFVLWSTDIFRSDGELVAQILHTLGVKPKWHPVTKKIIGIEPIPLDQLNRPRIDTIITVSGIVRDNLMNIIELIDEAIDTVKKLDENSQNNYLKEDNFEHIFAAKPGAYGAGTDKAIESSNWKSSDDLANVYLNWMGYSYGKGKNGIRAVEDLIKASSKIDLIVHKREIDEIDILDDSCNYSYIGGFFQVCKKIGKNPELMFEDTFNPKNPRIRIFKDEIERVSILKLLNDEWIESQKKFGYRGATEILKKIEHLYGWGATTGLVNDSIFNKVAEKFIFNDNNRNWFLKENPWALEEITRRLIEAEKRGIWKPKKDTIEKIEDIYTKIEGESEEW;locus_tag=LOCUS_17550;gene=cobN;EC_number=6.6.1.2;note=WP_010870959.1 cobaltochelatase subunit CobN (Methanocaldococcus jannaschii) [pid:37.2%25%2C q_cov:99.0%25%2C s_cov:96.5%25%2C Eval:1.2e-216],MGA_1756
sequence1	MetaGeneAnnotator	CDS	1570684	1571169	.	+	0	ID=MGA_1757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGADLFVMIILGLVDSSVHPLFYSFFSIIGMEPIIIMLFASLLVFMFVIINFIRYYKYTVGLSISKRILLSISGKRMKIKDFINSKFLFPLSVIDDKGNESLRTSFSVDEDDREWRDKYTKLVLNNIINEDKVIWVAYGIPVLPFILFGYIVSLIIGIPI;locus_tag=LOCUS_17560;note=WP_198429827.1 A24 family peptidase C-terminal domain-containing protein (Sulfurisphaera tokodaii) [pid:52.5%25%2C q_cov:100.0%25%2C s_cov:72.6%25%2C Eval:3.6e-47%2C partial hit],MGA_1757
sequence1	MetaGeneAnnotator	CDS	1571209	1572132	.	+	0	ID=MGA_1758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846743.1;translation=MYVSKVKIIANKQNNIAKELSKDLEELGYFIVDKNPDAIIYFYPIGITIRKIAKNLKNKEKDPVIISITDDGGYVIPLIKEHWGGSFLGGIIADLLGSQLVLTSRTAQLGLYSVEEFAWVNGLDIVNKNRLLEMEKKLIEERKLNVFSEAVKLCKLEGYNVIDDCKDADIVVGLDCKDSGKLVMRPYSIAMAIGYTSSAPKESIYYSIKSTLKSIYISETRLDFILVPEIKKEDQKIKEIAKSLGSTIIYVPIEELRNKTQSTPSQVARKYFNIEGVCEPSLEFLGSKIILKRTKRAYGVVTCLGIK;locus_tag=LOCUS_17570;note=WP_052846743.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:34.2%25%2C q_cov:99.0%25%2C s_cov:98.2%25%2C Eval:2.3e-42],MGA_1758
sequence1	MetaGeneAnnotator	CDS	1572114	1572764	.	+	0	ID=MGA_1759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGDKMIKVVGIGAGGKTLTLEAIEAIKKAEVIIGYSRYIEMIRGYIENAEIISSNVNEIGQRIDDSLKFSNKNTIVISSGDPMIYGMGSRLFKYNVEIIPGVTAASLASSVAKVPLDDFVTISLSTYSRSLKEIENKLINAINGNFTLVIYNINPVARKESALLAENTLKKYAIDWDYYMVYNARRANQRLIHGKINSLDIKNANMDTILMVKKW;locus_tag=LOCUS_17580;note=WP_010878227.1 precorrin-3B C(17)-methyltransferase (Archaeoglobus fulgidus) [pid:31.9%25%2C q_cov:94.9%25%2C s_cov:48.0%25%2C Eval:1.7e-21%2C partial hit],MGA_1759
sequence1	MetaGeneAnnotator	CDS	1572758	1573561	.	+	0	ID=MGA_1760;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980282.1;translation=MVKIYNEILDEYLEIPRPVKKIISLDPASTETIFFLGYGEKIIGTDAFSYRPEEAKKIPKIGSYTHVKMEFLETQKPDIIFTTMGAQKDLTKLLLNNGYNVYPIGVASSVSKILNNIIIIGEVLGIYEKSRELYLNLLKIIAENISSPKINVYLEFDLGGPITAGFPTHVSDAIRIAGGKNIFDKFENAYFEPNPADIIEGNPDIVIYEPKRFSEYEKERFLRSLENRGLGNLISKKIFYTKGDFLAHQGPSFISDGIPWLKSIFSS;locus_tag=LOCUS_17590;note=WP_010980282.1 ABC transporter substrate-binding protein (Sulfurisphaera tokodaii) [pid:67.2%25%2C q_cov:97.4%25%2C s_cov:96.0%25%2C Eval:4.5e-100],MGA_1760
sequence1	MetaGeneAnnotator	CDS	1573545	1574108	.	-	0	ID=MGA_1761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYNLLNRYKSLDYNNHSMNFKTIAIGVIIFLIGLIAVIAAPIYYPNYSTINHVYANNENIVTVKPYAQYIVKTIQITPKNNSVIFFVVDSNANVSIYNSSNFKELGNAQGEIGLQLTPGKYDLVVINDENSSQEIKYTYGIFPSSYINGFYYGLSIYDEVMEIVALAGAAIAIIALLQELLSRRRK;locus_tag=LOCUS_17600;note=MGA_1761
sequence1	MetaGeneAnnotator	CDS	1574114	1575676	.	+	0	ID=MGA_1762;product=citramalate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980284.1;translation=MDKKLVKVLDTTLRDGSQTASISFTLNDKIRIALYLDKIGIDFIEGGWPSSNPKDYEFFRKIKEYSLRSKVAAFGSTRRKDTKAEKDPTLNSILESDVDTAVIFGKSWILHVTDVLRVSKEDNLNLITESIEYLKQHGLYVIFDAEHFYQGFLDSADYAMQVIKAAEEAKADVIALADTNGGTTPDKIYDITSYVVKQTNVEIGLHMHNDIGCGVANTLMGVLAGARHVQGTINGIGERTGNADLIQIIPTLVLKFGFKVLKDINSLKELKPLSRLVYELSGVSPNPFQPYVGDNAFAHKAGVHADAVIKNHRAYEHVDPESVGNSRKILISEVAGSANLVNYLERLGINIDKKDPRLKSILQKIKDLENHGYSFDIAPASAALIALKDLGLYEKVFDVEYWKVINENGLALALVKVNSYLEASEGVGPVNAIDLAIRKALQNIFPDISKIKLIDYRVVLPGEIKNTESVVRVTIEFTDGEKQWKTIGVSRSVIEASIEALVSGFDYYIQISKKLKPLVV;locus_tag=LOCUS_17610;gene=cimA;EC_number=2.3.3.21;note=WP_010980284.1 citramalate synthase (Sulfurisphaera tokodaii) [pid:70.2%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:2.7e-215],MGA_1762
sequence1	MetaGeneAnnotator	CDS	1575684	1576589	.	+	0	ID=MGA_1763;product=putative 4-hydroxybenzoate polyprenyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980285.1;translation=MTWDPGGARGGKGKLYLIMRFLRMEQTLFSLPMAYLGAFIAIRRVPSIYILVLIFSALFFLRIAGMTNDNLADRFIDSKNPRTRSRPLVTGAISVTEARILIIIGLLGFFISAYLVNIWAFILSPIVALIVMTYPYMKRFTALANYHLASIQGLAIFSGAVAAAGVYYNSLLRVLEAVPWYFVIATIFWAVGFDLYNHIPDMEFDKQMGLHSFAVVLGNSALQFAGINQLLSVTIDFVADFSYGLGFLSYISTIAHGLIMAYAYYLATRSKFGSAFYYNIYSSIVLGLGIDIDIIMGIPKL;locus_tag=LOCUS_17620;gene=ubiA;note=WP_010980285.1 putative 4-hydroxybenzoate polyprenyltransferase (Sulfurisphaera tokodaii) [pid:68.9%25%2C q_cov:94.0%25%2C s_cov:95.3%25%2C Eval:3.1e-116],MGA_1763
sequence1	MetaGeneAnnotator	CDS	1576706	1577581	.	-	0	ID=MGA_1764;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846560.1;translation=MKNIILGGGYAGLNVYYNLNRNKILLSNTNKFIFYTALLRNIIEKTNYISKVRFIKEEQIKDIDLKDRIIKTDKDEYYADNLIVTLGCKRLNLDKIINSLIKTDNIILGAEDQYDEYITLQMAFYAKRLGKDVKYSGSPLSWLGKNVEEKVNILLDKYNIKIYEKPNLILQKCEPPEFLDFLKVNENLEVKKGVYAAGDIIFGWPKLGELAMRSGRFLGKKLSKNNDSPFDPIFIFILDTGYGEALHIRSKVPWGNTWNIAKISRIRALMKKFIEKYYIIRKGNMGFLYYL;locus_tag=LOCUS_17630;note=WP_052846560.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:45.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-69],MGA_1764
sequence1	MetaGeneAnnotator	CDS	1577633	1578268	.	+	0	ID=MGA_1765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979440.1;translation=MKLSLAYSIDEEILPIMPIINGEVLKGIEIEPKKVSLDEIKFNYNNYDIFYVQLPLFLYIKNVKVISNGAYVIEKLGSEDSLTSSSSVCVESTSSTEFYLLKILLGYKGIPRKNGNCIKLVHDLDNISCLWREQCGNLPIIISLIGSTKLSDEEMSILKVVVRESASLQEKRNLIKAYSKELGLKGRDALNCFFQLCKEKNICNEISYDIL;locus_tag=LOCUS_17640;note=WP_010979440.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:42.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.9e-45],MGA_1765
sequence1	MetaGeneAnnotator	CDS	1578477	1579034	.	+	0	ID=MGA_1766;product=cobalt-precorrin-8 methylmutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000999239.1;translation=MDDVSNIEKEAEKIVRSIINIQDNETAEVIIRAIRSTGDLDLVGTLRISKNAIKNGIKYVKNGVLVDTRMAKVALGDIAIYREPQHRNSRYYSQDLIENYKDYINNRIIMIGTSPIALITLNKMIKNNIVKPSLVIAVPVGFVNALKSKIELSNLDVEYITNISVRGGVALGISIVKALVKLSES;locus_tag=LOCUS_17650;gene=cbiC;EC_number=5.4.99.60;note=WP_000999239.1 cobalt-precorrin-8 methylmutase (Leptospira) [pid:28.5%25%2C q_cov:98.9%25%2C s_cov:96.0%25%2C Eval:2.2e-15],MGA_1766
sequence1	MetaGeneAnnotator	CDS	1579024	1580109	.	+	0	ID=MGA_1767;product=RsmB/NOP family class I SAM-dependent RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980509.1;translation=MSLEKFLSSVLFYTEKGDPLPVAFEKTKKIHKLKMDYDHVYEISRLLILSYFAINSKKRSQKVKEFLAKGPKPTLPEWMRNKLSIYMNIQDLEKSLLTRTVWFRPNSLKKDPDKILTFLDMQGIKFERDRDFPFLYKLLEGNIRKTEEFRNFDVIIQDKASVAVVMSLNPERKERIIDLSSAPGLKAQLIQELTENSVKLFLADLDTKRLLKEKYLLRKYGVNMDNIEFNLQDSSYNSFLRSDKILLDAPCSSSGMISNEPVILLTLKNSEKIYKYSKIQNDILMSSEKINADELVYSVCSIFPEEGEDHFNVLYDIAEKPLNIGYSGYPSKISDRSIRFFPNVHSTEGFFITKLNLNKLK;locus_tag=LOCUS_17660;note=WP_010980509.1 RsmB/NOP family class I SAM-dependent RNA methyltransferase (Sulfurisphaera tokodaii) [pid:43.8%25%2C q_cov:98.1%25%2C s_cov:99.7%25%2C Eval:5.1e-79],MGA_1767
sequence1	MetaGeneAnnotator	CDS	1580106	1581257	.	+	0	ID=MGA_1768;product=cobalt-precorrin-5B (C(1))-methyltransferase CbiD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861964.1;translation=MSVRIPLNYNPNSPELSNSKSVKKEIMKFGYTTGTCVAAAAKACAFAIVEKKIVKSVTVSTPIGLRLEIPVNYVKIDNEWAEASVTKNGGDDPDDTNGMEIIVKMRINGDNGYLTIRAGKGIGIARNKGLPINEGEPAINPVPKRQLIDNLTEILGNNFGAEIIIEAPNGEKISQRTFNPRLGIEGGVSILGTSGIVKPMSIISWYASMVEQLDVVKKKGFESVVMVPGNIGETAARKLLNVDKDSIVQMAIFVGGMIKAATKRGFREIVLFGHIGKMVKNAIGIWNTHYKYGDGRIETIVAYSAKHGVPNDVLLKIFECKTTDDAVNILRNYNYFDIFSDIANKIVYNAENLINNKAKIYTILIDMKGEIIGYSKDSKKFLY;locus_tag=LOCUS_17670;gene=cbiD;EC_number=2.1.1.195;note=WP_011861964.1 cobalt-precorrin-5B (C(1))-methyltransferase CbiD (Clostridioides difficile) [pid:36.5%25%2C q_cov:91.1%25%2C s_cov:94.6%25%2C Eval:7.6e-68],MGA_1768
sequence1	MetaGeneAnnotator	CDS	1581220	1581855	.	+	0	ID=MGA_1769;product=cobalt-precorrin-7 (C(5))-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871046.1;translation=MDILKTAKNSYIKILGAGPGNIDYFTFKLIKEVKSADIIVGDKRILELIKFITDAQLIYLRSDKNFYNDIENIKNLSGNVVVLSTGDPMIAGLGKFFDNSEINPGISSVQLCASILHKPLNESAIISVRYGNNYDKILAAINSGFRVFILPNPYLDLKENIRKILLLGLDPNKNAAICNNLGLPNEVIVKGKIGELMQHDINGLNIIFIEP;locus_tag=LOCUS_17680;EC_number=2.1.1.289;note=WP_010871046.1 cobalt-precorrin-7 (C(5))-methyltransferase (Methanocaldococcus jannaschii) [pid:32.9%25%2C q_cov:94.3%25%2C s_cov:97.2%25%2C Eval:2.2e-18],MGA_1769
sequence1	MetaGeneAnnotator	CDS	1581883	1583883	.	+	0	ID=MGA_1770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429661.1;translation=MRPPIFDILFKLDTPPATYWLESSNGNIILKSDMIRQPFVQLFPELKIENKEWIYQRGNSLIEYKSGDTTLKKVEEFPGDVYYVYIDDKIEYIKKIKDSYIFQDNVYTNLIKYLDKLILYNNKDFLLIYRGKILNFEKPKSINVSKNNISLVYDGMTKVIDNDLNVDKYSFEGYVLGKASKGLIVKSLSNKILLNGNVIGYCQDLTAFLGEISNNIIILCGPIPKIYRENGWMQLNISSVEYRSFINSNFMILGNHDKTLIFDNQINLIYTLNPSVVIADSKKLYAFSDSHYFGVINTLEIKDIIKILRHKNTSEFPIKLAFNKFYDISYDKSFLTIDKKEKDNNVIMYLEPKKFEDGEVKIFLQNPFYHETYSTYVESEKPLVNFNGKILHANKGKVINTDFNALLEGYLDYKIPSRFKNKLRLSIGKNNIYYDISSKNGQIYVSEPIDLTNFEDNIILSIYIEREDLSILLKEFLLPIVRVEPNSDITRIAYNYDNIRKVILREENGKFVWDRVFLYPNFAKGILVAPAHSSLYINNSRYYLKKGINEICTKIDSNKRCFTVIGIDNPIEKLLYKVESNYLIITPIIKYYSPIEVYYGLHVYRGFPVKIIFPIDPAYNTVVIRAYIGNKKFVQKFTLDSLRISLNVAKILSNKLYEYMHSFGIL;locus_tag=LOCUS_17690;note=WP_198429661.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:26.8%25%2C q_cov:98.6%25%2C s_cov:99.5%25%2C Eval:1.3e-63],MGA_1770
sequence1	MetaGeneAnnotator	CDS	1583910	1585193	.	+	0	ID=MGA_1771;product=type II/IV secretion system ATPase subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979442.1;translation=MERILDQYFLYGANITIKDVNGIGLYIIKDPVLDFKDKKLAEKYIRDIHEKGIGYNYTKIIEYLSDFHLDQSKLEKIAFYVFKKLTYDDLTVPYFDTKIERIECYSLNKPVSVIHSSYKKYGRLYTNIIFNSTEEIRFLLTKFGKDTSSKKIMSIGEFYTYENNKILYYFDNNLINFEIIKSYEEQPIIINVLRNNNIDCNTLSYLWETLEYKPFYIIISNKNKAYYLFNSLLYLLPQYIKIATIERYPLFNFKDRTWLTFHISAQYKSKLISSVSKYEPDFVLLDLDLDYIESLLKYFPTQSGLLMFTNLDSISNIMNLISNYLSRNLEKIFVNKLDGIIVFNDKLRIFEKYKLGNKVRFKEIKIPENLNELGITPQIRNICRRSRNSYNDIIKNITIKSEILRKIENNNIIDNSQIQEILLQYQQ;locus_tag=LOCUS_17700;note=WP_010979442.1 type II/IV secretion system ATPase subunit (Sulfurisphaera tokodaii) [pid:25.4%25%2C q_cov:97.0%25%2C s_cov:94.9%25%2C Eval:1.4e-28],MGA_1771
sequence1	MetaGeneAnnotator	CDS	1585319	1585891	.	+	0	ID=MGA_1772;product=precorrin-6Y C5%2C15-methyltransferase (decarboxylating) subunit CbiT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979887.1;translation=MITMSYHNRKIFPFLDDEIFENLDIPGPTKQEIRVISISKMNIFPGCKTLEIGTGTGSVSAELDRLGCYVISIDKNKYIEKISHFNNVEYIQAHSAFMSYRNSIFDNVFIGGTENLEDSIKLAHQTLKYGGKIVINIFTLETLSKIQELVSSIFHNFNVLEVIIIKGKNIKNHTMFLAQNPIYIAYAVKS;locus_tag=LOCUS_17710;gene=cbiT;note=WP_010979887.1 precorrin-6Y C5%2C15-methyltransferase (decarboxylating) subunit CbiT (Sulfurisphaera tokodaii) [pid:35.4%25%2C q_cov:93.2%25%2C s_cov:97.9%25%2C Eval:9.0e-23],MGA_1772
sequence1	MetaGeneAnnotator	CDS	1585873	1586136	.	-	0	ID=MGA_1773;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846562.1;translation=MYELKIILEAIKDGALNPGEVVVKTKLPRYEILAAFHILEELGLIETIYSKGSHKVYRLTNKGEEILDGLEKGNIIDFVVKSQDLTA;locus_tag=LOCUS_17720;note=WP_052846562.1 hypothetical protein (Sulfurisphaera) [pid:71.6%25%2C q_cov:93.1%25%2C s_cov:93.1%25%2C Eval:1.0e-26],MGA_1773
sequence1	MetaGeneAnnotator	CDS	1586424	1587104	.	+	0	ID=MGA_1774;product=endonuclease III domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979446.1;translation=MKCSGDYILQKLSNEYIINPKDYVAYDVWLKYKDCFKVLIATLLSQNSTDKGTYKAFYNLESKISVDPDKLSKACIEDIEDAIKSIGIYKIKSKRIHEISLIIKEKYKGNLDTILNLSPDEARKELITLPGIGEKTADVVLLTCKSYPFFPVDTHIKRIAKRLGIEGNTYNEISCALKRIFKKEDYLKAHHLLIAHGRNTCKAIKPLCSRCSISDCCEYFQRNVRS;locus_tag=LOCUS_17730;note=WP_010979446.1 endonuclease III domain-containing protein (Sulfurisphaera tokodaii) [pid:46.4%25%2C q_cov:97.3%25%2C s_cov:97.8%25%2C Eval:5.4e-50],MGA_1774
sequence1	MetaGeneAnnotator	CDS	1587064	1587657	.	+	0	ID=MGA_1775;product=ParB N-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979447.1;translation=MTAVNISKEMLDPSLLIPHEDVSKYRLFEIISRIKDTSFMYPIIVDKSTYLILDGHHRYYASLFLKIRKIPVLLVDYMDSRIKIEKWFREVKSPELAKKISLQLPNDGDVCINIYGANFCSTSIYSLFWKLHWLENKLMYLGIKVIKNTKNGIEPPSISKEYVISVANNGLRFPPKTTRHNYEFIIHYERVRLNEFI;locus_tag=LOCUS_17740;note=WP_010979447.1 ParB N-terminal domain-containing protein (Sulfurisphaera) [pid:45.9%25%2C q_cov:98.0%25%2C s_cov:100.0%25%2C Eval:6.1e-41],MGA_1775
sequence1	MetaGeneAnnotator	CDS	1587644	1589020	.	+	0	ID=MGA_1776;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979448.1;translation=MSLFDTIVQLLVFIIPSLILLYQFIFFNIGRKRVYTEVNLKNVPFLSIIVPTKGENVGVIQGLLDNLSKVEWDKSKMEIIIVSDDSKEYFDKLVEALHFPEGLEVKLYNRLGHEKKGYKSGALAYGYEKSKGDLVITLDVDARLNKDSLLKAYSHMISYGCDAVTMNWIGYTTNQYSTLARGLIVSTLVADYSILNGREKSGLKIFPVGCGTLFKREAIESVGPWDYSMIQDDLEIGSRLINKGKRICSSDSPVLVEVPDNLFAFYVQQTRWAMGSTEVLIRRFKEILKSKSNLIQKIDMILFLSQYFPIALTFIVAVILLFYSFIGYGDPLRTPLILVWLIALSLYAIGFISIAKKLGLGLIQSLRALGKVSAYTVSISPFVLLSLFKAFAKKRTYIVTPKGKTSKSNIVYIIGALGFAFLLSSIIYLIKYDLFSGIWMLYYSSAYLFTFFTYKNEL;locus_tag=LOCUS_17750;note=WP_010979448.1 glycosyltransferase family 2 protein (Sulfurisphaera tokodaii) [pid:52.0%25%2C q_cov:98.7%25%2C s_cov:98.9%25%2C Eval:1.6e-134],MGA_1776
sequence1	MetaGeneAnnotator	CDS	1589062	1591677	.	+	0	ID=MGA_1777;product=ATP-dependent helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429806.1;translation=MISYAKGYSDEEVFSLLRPYVVSWFREKYSTFTPPQRAAIPLIKNGTNTLVSSPTGSGKTLSAFLGILDTLLGYAENGKLEDKVYAIYISPLRALNNDMYKNIVEPLEEIYKRIDFQQKIRVGIRTSDTSSYQKQKMLKIPPHILITTPESFALSLVSPKFSQKLTEVKWVIVDEIHELANSKRGAYLSGFLELYQNILAKNNFARIGLSATISPLEEVAKFLVGKDSDCKIVDARFVKDIDIKVISPVRDLVHASESQISNGIYNTMIDEIKKHSTTLVFTNTRSAAERVSYKLRKIIEQENLFDADMVGAHHSSLSRDLRLDIENKLKEGKLKVVVSSTSLELGIDIGYIDLVLLLGSPKSVSRLLQRLGRAGHHIRSISKGRIIVVDRDDLIECSVLAKLAKERKIDKIHIPKNPLDVLSQLIIAASLMGQVNDKKLYEILTKSYIFSELKYDDYIAVLNYLTGKYELESKNVYSKIRIDDAIKPKRGSRMIFYTNSGTIPEESLIPVFTEGNKYVGNLEEEFVEILTPGDIFVLGGKTYEFISSKGNKVIVKAAEGQRPTVPSWFSEMLPLAIDSAIEVSKFRGLIANMIKQQAKQSDIINYISKEYNISKYAAASIYEYVLEEYLFTDGKVPSDTQILIEIYDDEENRRNFIFHALYGRRALDALSRVLASILSDDLSTDVRISVTDNGFILTIPTLENYDIFKIFDKIDPEKMYDSLSNVILRTEMLKRRFRHTAERSFMLLKRYKGRETNLDRRQLNSEVLLNVVREIDNFPVLKETIREILEDYMDIKSAINIVKNIKENKIKIVVIGPNKIPSPFAHGIIIKEHADVVLAEDKRELIKKLHDKVIQFLRNKGFNIDLNYTEV;locus_tag=LOCUS_17760;EC_number=3.6.4.-;note=WP_198429806.1 ATP-dependent helicase (Sulfurisphaera tokodaii) [pid:70.1%25%2C q_cov:99.9%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_1777
sequence1	MetaGeneAnnotator	CDS	1591594	1591926	.	-	0	ID=MGA_1778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048100233.1;translation=MKERCGIIVDNEFIEIRNISENNYEFIMDPKQLYNYLKHYNLNAIVHTHRGMCEPSDFDIYNMKFWNIPWIIVSKKCIKAYKYSYLGIIEINIESLISKKLYNLIMQLLY;locus_tag=LOCUS_17770;note=WP_048100233.1 hypothetical protein (Acidianus) [pid:53.2%25%2C q_cov:99.1%25%2C s_cov:96.5%25%2C Eval:4.1e-28],MGA_1778
sequence1	MetaGeneAnnotator	CDS	1592169	1593038	.	-	0	ID=MGA_1779;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979450.1;translation=MLALTELYNREKKMIKSKEVADMISKDEGTVRNIILSLKVLGLVESKPGPNGGYLPTLKAYEFIKNPTVTPILDKLSLYRGNIETDIKVDNIELLDITNPSGNKVILKVSGDLRKLRAGDSVRFGPTPYSRLVIEGVVIHADDTRKEVAIDVKRMISVPKEKVKNIIGKKLVTLKPEMSLKEASMILYKEGIRGAPVISDGEKVAGIITTADIIKAFFEGNYSSKVSDYMKKDVITINDEDDVLEAVRKMVIYNVGRLLVVDSMQRVIGIVTRTDILKSIAGLEGLWGV;locus_tag=LOCUS_17780;note=WP_010979450.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:73.1%25%2C q_cov:99.0%25%2C s_cov:95.3%25%2C Eval:2.2e-119],MGA_1779
sequence1	MetaGeneAnnotator	CDS	1593113	1593811	.	-	0	ID=MGA_1780;product=DUF2192 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846962.1;translation=MVKEIYKDRIKVLTDIWGLILNEWKDLNRNDIIEILQKNYEKNNIRPLRGFKSTNLYEKELISLYVVGKEGLGLYDDYRDIFDKFFDQEEKYEEIAESINVSPDKAFDLSGQDKDLLARALRVTFTEVIFSFSDESKLINSLRILNSSQNDAIKHTAKSFSRFYTAFKLAEEIAEGIIRDKMNYIAMKKAISINIGFDYPLPKANYVALISKEVFNVRTKIIKKVLEVSTNV;locus_tag=LOCUS_17790;note=WP_052846962.1 DUF2192 domain-containing protein (Sulfurisphaera) [pid:54.4%25%2C q_cov:97.0%25%2C s_cov:99.1%25%2C Eval:1.3e-65],MGA_1780
sequence1	MetaGeneAnnotator	CDS	1593874	1594260	.	+	0	ID=MGA_1781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979453.1;translation=MSLEDNLKPSIVLVSPSDLEEEIKKIEEEIKSHEQIDVDFQKKIHEEIDNISKSLSWLKIAESQGVWKSKTCKHVSNDTCNAWNISDPEKLGIPVDVIIFNQDGSKKVSVNKFPGLCITCPLYEPKRA;locus_tag=LOCUS_17800;note=WP_010979453.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:56.8%25%2C q_cov:96.9%25%2C s_cov:96.1%25%2C Eval:8.5e-37],MGA_1781
sequence1	MetaGeneAnnotator	CDS	1594237	1594590	.	-	0	ID=MGA_1782;product=helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979454.1;translation=MKAIHNISKEAREEIITELLSHRSRKELADELGITPAAIVKFSSGKTHPSDETIMRALSIANDDEKKKILKIIVNDLVSSIVEILSNNPTIAEENLEELKKIITEVDKKSLSSFGFI;locus_tag=LOCUS_17810;note=WP_010979454.1 helix-turn-helix transcriptional regulator (Sulfurisphaera tokodaii) [pid:55.3%25%2C q_cov:88.0%25%2C s_cov:96.1%25%2C Eval:5.6e-25],MGA_1782
sequence1	MetaGeneAnnotator	CDS	1594642	1595514	.	+	0	ID=MGA_1783;product=alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979455.1;translation=MMSIIFNQGIIAKDIVEKPIDSDFVLISTQKVLLGVIENSIYLGFLWVRPWRVLGSIGIGKIDAVGLDVDTTLQGKTVLVLPYSQKYGGIGTEIDGILSEKATVPSDSIIVISPNYSDKILLYPFASIALQIKEIAEGKDILIIGSGFTSLLTYLALADSSNIGIYSDTESKMPGIQEVKKSDKKWDIIVISTMRSWARVVAEKLVKDNGKIIIPKFMNSWPTIVPHNTAFIYPKKRDDVAQFLDKYVTERIFNENIAYSDDIINSIPTPKNGVIVEIKSLKNYISSLTS;locus_tag=LOCUS_17820;note=WP_010979455.1 alcohol dehydrogenase (Sulfurisphaera tokodaii) [pid:51.6%25%2C q_cov:96.9%25%2C s_cov:98.6%25%2C Eval:2.4e-78],MGA_1783
sequence1	MetaGeneAnnotator	CDS	1595490	1596695	.	-	0	ID=MGA_1784;product=PLP-dependent aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979456.1;translation=MPKWDKFLSKESSLLKTSEIRDLLKLTEGKNVISFAGGLPDPTTFPAEDIKNITDYVLDNYSSRALQYSATSGIPELRKELVNLSSQRGISNISENNIFVTVGSQEALFMLFNIMVDPKDNIFVETPSYLAALNILRARNPSFHGIPLTEYGPDLDSLENQLKKLASEGKKVKLTYIIPTAQNPGGTTLSLEGRKRLLELASKYDFMIVEDDAYGFLVFDGDSPAPIKALDKEGRVIYTGTFSKILAPGLRLGWIVADEEIIQEVELFKQNVDLHTPSFTQFIAAEAIKRNVIQNNLPRIRELYRKKRDVMLHAMEQYFPKEASWSKPVGGMFVFAWLPQKIDTVKMLSTALNRGVAYVPGSSFYYDYSGRNTMRINFSFPTEEQINNGIKTLGQLVKDEM;locus_tag=LOCUS_17830;note=WP_010979456.1 PLP-dependent aminotransferase family protein (Sulfurisphaera tokodaii) [pid:71.8%25%2C q_cov:97.3%25%2C s_cov:97.5%25%2C Eval:4.1e-165],MGA_1784
sequence1	MetaGeneAnnotator	CDS	1596730	1597524	.	+	0	ID=MGA_1785;product=nicotinamide mononucleotide deamidase-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979458.1;translation=MKYIAEILTIGNEILSGRTINTNASHIARRLTSIGFNIRRMTVAMDELNEISAVFRESLSRNPNIIISSGGLGPTYDDKTSEGLAIALNLPLVYNELALKQIQAKYEKLNLEITEERRKMALMPKGAIPVENEQGIAPGIYIEYNGVEILSTPGVPREMEAVLEQFIAKYLKTKPNVVYKEISIFVEGIMESAIAPYVTQLVKKYDLYIKTHPKGYELSHPSLEIQIAGSSENEKEILNRIELCKNDIIQVINKLNGKIIESQQ;locus_tag=LOCUS_17840;note=WP_010979458.1 nicotinamide mononucleotide deamidase-related protein (Sulfurisphaera) [pid:66.9%25%2C q_cov:98.5%25%2C s_cov:98.9%25%2C Eval:1.5e-95],MGA_1785
sequence1	MetaGeneAnnotator	CDS	1597505	1598263	.	-	0	ID=MGA_1786;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979459.1;translation=MPFAILDEVKIYYEMFGEGKPIVFIHHLAGSYKSWSQQSYYFSKKYNVLVYDLRGHGRSSVPLSPYRIEDHVRDLNSLLEYLEIKNPIIVGHSIGTLIALDFALKYSLDKLILIGALYKSPDPEPYRRYISIADTYGMEALALYRKMNKEFSSALVENQTAWNELLNVYRDNSPIGYRYAVEGLLLANNYEKDIEKIDSPTLIVYGSDDKLIQNLKVLRKLKNYDENIISGFGHFLNFEAPDELNKAIAGFL;locus_tag=LOCUS_17850;note=WP_010979459.1 alpha/beta hydrolase (Sulfurisphaera tokodaii) [pid:52.8%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:2.7e-72],MGA_1786
sequence1	MetaGeneAnnotator	CDS	1598263	1599897	.	-	0	ID=MGA_1787;product=phenylalanine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979460.1;translation=MVTIVVKKSKLLQELKLTQNELENVLFNLKSEIEPIDEDNISIEINADRLDMLSVGGISRAIKGILGKELGESKYAAVDTDYKLVVSNVETRPYALGAVIYNIKLDDEEIKELIQFQEKLHDTIGRKRKKVAIGIHDLDKIDSKVIKYEYIPLDYKFVPLNSNVEMSVSEIIKNTEQGKEYGNISIYNKLTPAILQDNGEVLSIPPIINSNKSRLDSETKNLFIDVTGTSFDAVYQTLDILSSNLAEEGAKIGFVKIEAPYSSTIPNAKSPIMKHKTISVNPTYINNRIGVSLDKDTIVKSILKMRMNATLDDNINVIVPPYRVDIMRDVDIAEDVAMAIGYENLGVEKFQSSEIGKYLKISMVSRAFRDLSIGAGFQEIYSLVLTKSTNLIDNYVKILNPISIEYDAVRNSLIWTTLNFLSKNQHARFPIKIFEVGDVVTMSESDTGYSNETRGCFAIMDSKVSYENLQSLVHQIITNIVGTEPSYLKNDNLIFIRGRGASISIKGNIVGIIGEVNPEILSKFELSFPVVLSEIYLSKLNNLI;locus_tag=LOCUS_17860;gene=pheT;EC_number=6.1.1.20;note=WP_010979460.1 phenylalanine--tRNA ligase subunit beta (Sulfurisphaera tokodaii) [pid:51.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-160],MGA_1787
sequence1	MetaGeneAnnotator	CDS	1599897	1601300	.	-	0	ID=MGA_1788;product=phenylalanine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979461.1;translation=MLSEIEFRILNFIKEKVNTSSTEIIASLNLPKSSVFSVIYHLASEGYIKIIEEKKIQDIEISDEGKKRLNEGFPEENLINILNGKSLKIQEIKQKLGDNFEIAITWAKKRNIIKIEKGEMIPLTNSFISPERKILEKIEKGEMITDSELQLLRSRNLIREKEDKEIIVEFLRSPEVKSSLIFLTPELLKNGEWKKYEFKEYNVTALPPFVPIGKKHYFREFIEKAKDVMISLGFSEVSSDYVEMEFYNFDMLFQPQDHPAREIHDSFIISGKGRISDKELLNNVKEVHEKWWNYTWDVNNALRLVMRSQTTATTARVLSTRPKAPTRTFTIGKVFRPDAIDATHLIEFHQLDGLIIEKDFNFKKLLGVLKEIFKGLGITEVKFKPAYFPFTEPSVEVYGLIEKLGWVEMAGAGLLRPEVSEPAGVNDPAGAWGIGLDRLAMLFLNVKDIRDLYSEDIEFLRNRKVDI;locus_tag=LOCUS_17870;EC_number=6.1.1.20;note=WP_010979461.1 phenylalanine--tRNA ligase subunit alpha (Sulfurisphaera tokodaii) [pid:59.8%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:6.9e-162],MGA_1788
sequence1	MetaGeneAnnotator	CDS	1601305	1601985	.	-	0	ID=MGA_1789;product=metal-dependent hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979463.1;translation=MPLLRWLGHAATEININGKKIIIDPFIKNNPSTPVKIDYTYDSDIIIVTHDHYDHLGDTVEIMKNSNKPLLLATYDLEKYLNESYNVPWDRMIQANVGGYIDIDGIKVALTQAIHSSEHSDPTGTVISSEGITVYHAGDTGLFEGMKLIGDIFSPDYVLLPIGGRFTMDPYQASIAVEMLRPKKAAIPIHYNTWDLIRVNAEEFSKKVKERGFKAIILQAGQSIEL;locus_tag=LOCUS_17880;note=WP_010979463.1 metal-dependent hydrolase (Sulfurisphaera tokodaii) [pid:71.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.8e-97],MGA_1789
sequence1	MetaGeneAnnotator	CDS	1602037	1602930	.	+	0	ID=MGA_1790;product=type II methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979464.1;translation=MTEDELKLLLKAGKIAAEARDTGAKMIKAGVKVLDVCETVEKMIIEKGAKPAFPCNLSINSEAAHYSPVINDEKIIPEGAVVKLDIGAHIEGIITDTAVTVSLDERYSRLLEASKEALNAAIQNFKAGASLGEIGKVIERVIKMNGYKPIRNLGGHLIRKYELHAGIFVPNVYERNAGRIFDDNTYAIEPFATDGMGMVTEGKAETIFSLRSVDVRGLTDVEKKFLDSIQERFKTLPFSERWLSDLGDKSLVEATLRSLTKKKALYSYPVLVEMKKGTVSQFEHTVYVNKDETIVIT;locus_tag=LOCUS_17890;gene=map;EC_number=3.4.11.18;note=WP_010979464.1 type II methionyl aminopeptidase (Sulfurisphaera tokodaii) [pid:66.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-112],MGA_1790
sequence1	MetaGeneAnnotator	CDS	1602992	1604149	.	+	0	ID=MGA_1791;product=DUF1512 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979465.1;translation=MIETIFNIIALAQGTGSSNPFSGPYLLYTLLYIVFIGSFVLMFFPGFQQKSQVWFLSRDVEQKLTMIENYLKDSKSVSEKLLKDKGFPDPKSFIDRVIDRFVIDPVGVEPTDIINRMKLLIRSNEDTVRDMITRIQPNIDPVSRSEIEVSTEVMSALNLIYKVIRHYLLMAKKLNSIMIMYQLQMVAPIYVKMAEAYDKAQKVFLQGIPVGDGLGPLVASRFLMKTDNKWTASKDTVAGALEFEQRRLVVVKAEGPMATVGTPGEAVQNVIEKEGGKVTRIITVDAALKLEGEDTGSIAEGMGVAMGDPGPEKIAIERVAVKYNIPIDAVIVKMNMEEAITEMRKEVYQAADKVVEYVKNLILERTKPGDTVVLVGVGNTAGIAQ;locus_tag=LOCUS_17900;note=WP_010979465.1 DUF1512 domain-containing protein (Sulfurisphaera tokodaii) [pid:62.0%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:2.9e-131],MGA_1791
sequence1	MetaGeneAnnotator	CDS	1604156	1604359	.	+	0	ID=MGA_1792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMGFENTKEQLKVKTEIRCMTCDYKIVRDFQQGDFVPKIVGQCPKDGGQLYIAGIYAENIAPAQKK;locus_tag=LOCUS_17910;note=MGA_1792
sequence1	MetaGeneAnnotator	CDS	1604545	1605726	.	+	0	ID=MGA_1793;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979466.1;translation=MKKIFDEIYGYIELDEPEVEILDSPEFQRLRRIRQTSLAYIVYPGATHTRFSHSLGTFYLANKLGTRLMSANYINSDEYEYLKLAALLHDLGQFPFSHSLEGYYLPNGFGNKDLRESLITGHNIKEILNRYGYNPKKILDIFNGNSLLSSIIDSEVDVDRLDYLMRDSRHTGVHLGNIDLDRLIDTITYREDGISILDKGLISLENFYISRLHMYQAVYYHKTILGYELFLRNIYSHILEYCNPNFKDINYIKKLASDGSISYWDDEWVFSSLYDCLSNSEVPSYVLEKIKDFLDRKGPKVVYEEFSYKNESSYIGDIVDQLQRIGIPSDSIYPFEEKISIIDKNKIKIVSKNKERKLKDYSSTLLHDIPEFMVIKRVYVDYEYSRKAREILS;locus_tag=LOCUS_17920;note=WP_010979466.1 HD domain-containing protein (Sulfurisphaera tokodaii) [pid:60.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-134],MGA_1793
sequence1	MetaGeneAnnotator	CDS	1605723	1606403	.	+	0	ID=MGA_1794;product=phosphoglycolate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846565.1;translation=MIKLILADLDGTLTEDKGVYRISIEALEALRRAEDIGIKIALVSGNSYPVLRGLHNYLGITGGVVAENGCVVYYGKKIKLCKNMDLNILNEFREKFKLKDSWQNEYRECDFGFTPANLTEEMIRWAKDKNVYINTSGYAIHIALNLAGKSVGVRKLLELHGLKKEEVAAIGDSLTDIDMFKEAGLRAAVGNADEKLKKEADVILNLKSGNGVKEFINYIIDGKIWN;locus_tag=LOCUS_17930;EC_number=3.1.3.18;note=WP_052846565.1 phosphoglycolate phosphatase (Sulfurisphaera tokodaii) [pid:50.0%25%2C q_cov:99.1%25%2C s_cov:98.2%25%2C Eval:2.3e-64],MGA_1794
sequence1	MetaGeneAnnotator	CDS	1606394	1608085	.	+	0	ID=MGA_1795;product=glutamate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979468.1;translation=MELEELIYKHALANAIKHEGKAEVGPVVSKVLGERPDLKKNAKEIVEKVKEIVEKVNSMTLEDQKKEVKEKYPELLEEKKEVEKKTLSPLPNVKGKVITRFAPNPDGPLHLGNARAAILSYEYAKMYNGEFILRFDDTDPKVKKPIKDAYEWIRQDLHWLGFSWNIEFLASSRMERYYEIAKEMIAKGYAYVDLCSDEEFKKMRQLRKPCPNREKSPEENLELWEKMLNRVFNEGKAVVRIKTDLNDPDPSKIDWVMLRIIDTSKNPHPITGDKYWVWPTYNFATAVDDHDFKITHILRAKEHMANNDKQRWIFNYFNWDFPEIIEFGRLKLEGFMMSKSKIRGMLEKGTNKDDPRLPTLAGLRRRGILPETIREIIIEVGTKVSDAAISFDNIAALNRKKLDPIAKRLMYVNDYKEFVIDIPEQITAKIPLRPNSSDYREITVNPGDTILLNKIDAEEGSLIRLVELCNVKVEGEKLKFFSYSVDDTKKFNAKIVQWVKKSDAVNVTVIKADPDKDLIKEEGKGEHAVTELSENEIIQFVRYGFVRVDSKKEGSVTVIYAHE;locus_tag=LOCUS_17940;EC_number=6.1.1.17;note=WP_010979468.1 glutamate--tRNA ligase (Sulfurisphaera tokodaii) [pid:65.3%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:1.3e-213],MGA_1795
sequence1	MetaGeneAnnotator	CDS	1608146	1608526	.	+	0	ID=MGA_1796;product=50S ribosomal protein L7Ae;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979469.1;translation=MSKPSYVKFEVPQDLSDKALDALKKAKETGKIKKGTNETTKAIERGQAKLVLIAEDVQPEEIVAHLPSLCEEKKVAYIYVPSKKGIGEACGLQVGAAAAAIMDPGQAKDELDEILKRLGEIAGKTQ;locus_tag=LOCUS_17950;gene=rpl7ae;note=WP_010979469.1 50S ribosomal protein L7Ae (Sulfurisphaera) [pid:72.6%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:2.6e-46],MGA_1796
sequence1	MetaGeneAnnotator	CDS	1608801	1609013	.	+	0	ID=MGA_1797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846618.1;translation=MTEEERRRIFIRLLEERPRARKNKINDKDLKRLAELATENIQIMKELGCWKVEGDIIFYKTNCLGNYYQE;locus_tag=LOCUS_17960;note=WP_052846618.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:64.5%25%2C q_cov:88.6%25%2C s_cov:92.5%25%2C Eval:4.1e-20],MGA_1797
sequence1	MetaGeneAnnotator	CDS	1608986	1609549	.	+	0	ID=MGA_1798;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846617.1;translation=MFRELLSRVNELKGSETDRFLKFLAILNCLIEREKIGRIIIVGGFAAEIYSGRSYRTGDVDIIVEGNSEIVKEILKKISDKGLRIYIPKIREISEKGIDIVDSIYLGERIRKIEVDNYHVYIASAEDIIINYLQAWKFWESTEDKIKAILVYCAQDVDEEYLNIKAKQKSVMDYLEKIRSEYCRKTK;locus_tag=LOCUS_17970;note=WP_052846617.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:64.7%25%2C q_cov:97.9%25%2C s_cov:100.0%25%2C Eval:4.6e-64],MGA_1798
sequence1	Aragorn:1.2.38	tRNA	1609869	1609943	.	-	.	ID=Aragorn_19;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00190;note=Aragorn_19
sequence1	MetaGeneAnnotator	CDS	1610237	1610407	.	+	0	ID=MGA_1799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMTTTFKKNIISKFFIFLFYNILKRYYLIYEDKEEIVLLKKGKDYRYDIILRHRGD;locus_tag=LOCUS_17980;note=MGA_1799
sequence1	MetaGeneAnnotator	CDS	1611003	1612415	.	+	0	ID=MGA_1800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979399.1;translation=MSTTTLPSLGSLAGALGSIAGLETSLDIQQFNCVKNNLEKYFELSANSAQKYEIYPAIAASDTMVKEAANSIDKVFRQGILVKTTDTNEWYYIGGVSPYWSAGNLIVYQGGSKAKSQGKINKRLWDSIINKIGGIVAIPLQKTRSPEKWYNPTIFNNCKGTFGLFWNYLAEFQVGFLPLLSHAPDLLILAEAKRISSFAYTSSGHYYLSRGAEDLMRTASDTYPYIYGGLGPNPVIAKSYHLEVYPYFTFDSATQEVQSICKSIMPSSSCSLALDYIKFNDIDVGAPVLSSIPCDSSCSTFGLAGLVLSISPLSIKNYQAIYLRVVQPPSSFTSSGILEWVKLMDFVDIFNLLLEGSRKYKKAISSLSSVYPEFIAIAAALTVAWVELSYDDGLKQAEKKASELKGLYDKLVEELAGKAPPISDRYLYKEWRDYKDKVENCARDAILDHPEATYDELKDDTLDCAGAPDY;locus_tag=LOCUS_17990;note=WP_010979399.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:54.1%25%2C q_cov:98.9%25%2C s_cov:97.5%25%2C Eval:2.4e-146],MGA_1800
sequence1	MetaGeneAnnotator	CDS	1613136	1613375	.	+	0	ID=MGA_1801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFSSAKTEVVKAISDDADYHGGELTNIDSISIEPDNYDIDKLASTISNDIQSINKEFGATLPSKVEVDEDTLEISGKQ;locus_tag=LOCUS_18000;note=MGA_1801
sequence1	MetaGeneAnnotator	CDS	1613498	1613971	.	+	0	ID=MGA_1802;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEEQKEEFKQTKEYRRVVPKILHFMNIFVDKSRTSKNLREALTLSYDGDLDYMGEKSVEWLMQGEKIRIIFRSRKLERGNSVFKHHSCYIGIIEEPRELAGKITMIDWARIRDVKIRDFVEEYRIQKSPFKAEYEYVIGKSSPLSQIMVEVPRYAM;locus_tag=LOCUS_18010;note=MGA_1802
sequence1	MetaGeneAnnotator	CDS	1614307	1614618	.	+	0	ID=MGA_1803;product=type II toxin-antitoxin system RelE/ParE family toxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048059939.1;translation=MVCEKWELRFSTRKARDYREFMEYTADNFSDKLVMLILEKLELLRRDPLSYAREKLGKDKYGNPMFSIEVTGNIRILYSVDSKNCIVFIWEVGSHKKVYGHDP;locus_tag=LOCUS_18020;note=WP_048059939.1 type II toxin-antitoxin system RelE/ParE family toxin (Metallosphaera) [pid:81.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-46],MGA_1803
sequence1	MetaGeneAnnotator	CDS	1614569	1614724	.	-	0	ID=MGA_1804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIVEDKDGERFLVIETDEDFEKFKEDLLKIAREKAKGRVHKPSYETQPPK;locus_tag=LOCUS_18030;note=MGA_1804
sequence1	MetaGeneAnnotator	CDS	1615340	1615738	.	+	0	ID=MGA_1805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979734.1;translation=MTKSVIKQGNSIIIELYKGGIEAIKVNGEIKVGEFDGVDFVEKSVSEEKLNKARDYAKKILNAISSCPCIISIVFSDMIYTKFVYNGQEVVAFISNCVTYNKQISIDKDTENRLLECSKKFMNSLDLKQKEI;locus_tag=LOCUS_18040;note=WP_010979734.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:41.9%25%2C q_cov:96.2%25%2C s_cov:99.2%25%2C Eval:2.5e-20],MGA_1805
sequence1	MetaGeneAnnotator	CDS	1615761	1617245	.	+	0	ID=MGA_1806;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847014.1;translation=MKWDERRLKILDELREKGINPYPQKYNITHSIIQIKELVKNNNDKPHEPFIFDISTVGRIANIRRHGKASFVDIFDEGEKLQLYLRINELGDKYEEFFNYFGRGDIIGVKGDLFYTGKGELTLLVKDYTMLSKALIEPPDWSKLSPEFRYAHRYVDFLYNDNARRAMEIRFRTIAEIRKFLASKGFMEVETPILQPVYGGALAKPFKTKINYLDEDWYLRISLELYLKRFIVGGFDKVFEIGKVFRNEDIDVTHNPEFTLMELYWAYADYNDIMKLTQDIIVDVAKNILGETKVKYKVGDKEYEIDLSQFKEITMFDSLSEVLGKNVETMSDEELKGLMQKYQLIPRGNSYIRGLMIEKLFDKLVSPNLIQPTFVTDYPIETTPLCKPHRSKKGLVERFELFIAGIEFANAYTELNDPVLQDKLFREEQELMKKGDQEAHPYDKDFIRALSYGMPPTGGLGIGIDRLIMLLTNNQSIKEVIPFPIISYKLIEED;locus_tag=LOCUS_18050;gene=lysS;EC_number=6.1.1.6;note=WP_052847014.1 lysine--tRNA ligase (Sulfurisphaera tokodaii) [pid:78.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-239],MGA_1806
sequence1	MetaGeneAnnotator	CDS	1617229	1618317	.	-	0	ID=MGA_1807;product=site-2 protease family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_184650980.1;translation=MLSMISSLELFGIGFLVFWLVIFALKKKLETRGFKVYPFVLMWKKSTRSEWFPKLATSKEYRFFEKVAIALGLISMIGGIVLIYYTISGLVFHPATTAIRLEPIIPGITIGLNEVPYLLLAIGISVVLHELSHAVSSTSNKINVKGGGFILIGIFPGAFVEPDESEFQTASFKSKLKIVAAGIAVNLILAGIFFPIASFGPTLFSQGIQIVGTIPHSEAYNISMHAGQIIEKINGQPIRTFSELNQSLYSTTHYLIQVKNPNGTISYYTAIAKNHFLGVYVTYAIPASIFPFLEFAVWMFIVNFSLALFNGAPLFITDGGKIFTEIIKKISLKYGEKISYYIQAFLLLSFIFAIMLSISLPR;locus_tag=LOCUS_18060;note=WP_184650980.1 site-2 protease family protein (Sulfurisphaera ohwakuensis) [pid:50.4%25%2C q_cov:98.1%25%2C s_cov:99.2%25%2C Eval:3.3e-102],MGA_1807
sequence1	MetaGeneAnnotator	CDS	1618345	1619001	.	+	0	ID=MGA_1808;product=nucleotidyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980156.1;translation=MEIEYSEEHWNILRHKRKISLDLLYRLKNNGLIGYVYGSVARGDVRKDSDIDIIVFNPNIIELDLIDFDHKFIIQATPFSTPKAYISLDPEESEVISFPLSRLKRDEEEFYRFGGMLDYYGIEKNLRVAGINKKMEIIIPTEKGHNEILLKGNEDLASKTLKISISTILEREKLLTKRVEKGRTGVFLRYDLSKDESFESSIRILYKKNKFFRRMIDA;locus_tag=LOCUS_18070;note=WP_010980156.1 nucleotidyltransferase domain-containing protein (Sulfurisphaera) [pid:64.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-76],MGA_1808
sequence1	MetaGeneAnnotator	CDS	1618994	1619521	.	+	0	ID=MGA_1809;product=DUF1122 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980155.1;translation=MLKGKVGDYNIVIKNFRGTHIRELSYFEMYLDNKLVGRCSYFSGRDYYVPWIEIDYIPWPRQEGIEVDLFKYFYDLLTPNGRLFVTYENDIETSNLIFKGYSAVDTPLGFSMLKAGFTWFKIWYFPEGGNEGYPKIQGNKPLNEETKKKELLELLDEVKNPQVKEWLLKNVDRKP;locus_tag=LOCUS_18080;note=WP_010980155.1 DUF1122 family protein (Sulfurisphaera tokodaii) [pid:56.3%25%2C q_cov:95.4%25%2C s_cov:97.1%25%2C Eval:1.4e-53],MGA_1809
sequence1	MetaGeneAnnotator	CDS	1619502	1620533	.	+	0	ID=MGA_1810;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846717.1;translation=MLIGNPEIGVYNNLPKGCELCRLGGKLVVFISGECGDSCYYCPVSEERFDHDMIYANEKKVENFMDFVYESYKMNALGAGITGGDPILHLDRVVEVINILKDEFGDDFHIHLYTSGRYVTYDVLRELQNAGLDEIRFHPLNKEYLKAIEKALKFDFDVGIEVPSIPGKEKELEELIQWAKEKKVKFVNINELEITERNSLNLNAIGLKIDHGLAGASRSAELALNIVKKYHEGKMSVHYCSSIYKDIVETRTRFLRTFRVYSKSFEQNSGEGTIIRALVRTKANLEDYGEKYGDGYYVSPDLVNDIIKMYPVDEVKIIEELPYGLVVSEKLVYSKSQYSNNSS;locus_tag=LOCUS_18090;note=WP_052846717.1 radical SAM protein (Sulfurisphaera tokodaii) [pid:63.5%25%2C q_cov:98.3%25%2C s_cov:97.4%25%2C Eval:4.2e-123],MGA_1810
sequence1	MetaGeneAnnotator	CDS	1620492	1621523	.	-	0	ID=MGA_1811;product=mRNA surveillance protein pelota;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980153.1;translation=MKVLEFDEKKGSMKLHIEDEDDLWTLHMILNKGDNVIAKTTRDISVGAEGRRISMIIQLKVEYTEFQAFTSRLRIHGTIVDAPERFGIRGAHHTINLDIGDEIIIIKEKWPKHELDRIYSQAEKRSKVLIALVDFDECLIAIPMVQGIKILSERSLQTPNKEEENIIEENANEIAKEIGDYSKQYNPDAIILAGPGPFKEIVKEKLDTKRKIYLDSVSSASRAGLSEILRRDVIDQVMRDYEISQSVKDMEKVLELLSKNTGLVAYGIEEVKKASEYGAVDTLLITYDLISPSDEERKLEIENIMEDVEKKGGKVRIIPEDSPVYFEAKNLTGIIAILRFRIN;locus_tag=LOCUS_18100;note=WP_010980153.1 mRNA surveillance protein pelota (Sulfurisphaera tokodaii) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.4e-123],MGA_1811
sequence1	MetaGeneAnnotator	CDS	1621548	1622000	.	+	0	ID=MGA_1812;product=ribosomal protein S18-alanine N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980152.1;translation=MVIISDASEEDLEQIYEIEVESFDKPYPISLLKAYLYLSNIYIVAKEDSKILGYAIGIIQFKKRGHVVSIATRKESRKKGIGTLLLSTLEKTFINNNCTYSYLEVMITNREAIRFYRNMNYLVIYTKKNYYGRGRHAYIMMKSLINKSLE;locus_tag=LOCUS_18110;gene=rimI;EC_number=2.3.1.266;note=WP_010980152.1 ribosomal protein S18-alanine N-acetyltransferase (Sulfurisphaera tokodaii) [pid:56.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-44],MGA_1812
sequence1	MetaGeneAnnotator	CDS	1622031	1624373	.	+	0	ID=MGA_1813;product=DNA polymerase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980151.1;translation=MIGDFYILDFSYDVEEGKPVIYIWAIDKDNNRVLILEKNFRPYFYALLEDDNEKIIDEIRKLNKSESPITKVDVLEKKYYGNPVKALRIETVIPAYVRTYREAVGKISGIKEVLEADIRFYMRYSIDSGLRPFFWFQAEVEEIKDNRFRVSKVYNLTKVIKIYEDNPPELRILSFDIEVYNKYGFPDPKRDPVIIIGVWSKDGGKQFVNETGDDLKTIREFSKFILDYDPDIILGYNSNGFDWPYLIERVRNRNVKLDIGRKTGSEPSQGTYGHYSIVGRLNVDLIGFVGSIEEVKVKSLDNIADYLGVMPKNKRVNLEWYQIPEYWNDDKKRQILLQYNMDDAKSTYLLKDAFLPFGEQAAMISGLPLDQLSMASVGYRVEWLLMREAYHFNELIPNRAEREYEGYKGGLVISPKQGIHEDISVLDFSSMYPSIMIKYNIGPDTLVKGDCDDCWVAPEVGHKFRKAPEGFYKKILQELIKERRDIKDKLSKTDNEYEKRRLDERQKALKIMTNAFYGYMGWLGARWYSREGAEAVTAWGREIISSAAKIAESEGFEVIYGDTDSIFVKGDKNKVNELAKEISDKFSLDIKVEKQYKRIFFTENKKRYAGLTFDNKIDIVGFEAVRGDWCDLAKDLQRQVIERILLSSVDDAVRLARETIMKLRRKEFRIEDLIIWKSLDKSIDEYEVEAPHVSAAKKAMKAGYAIFKGGKIGYVVVKGAGKISDRAEPYFMVKDLSRIDVDYYVDKQLVPAVMRILESFGIKESTLKTGGFDIMNFFKK;locus_tag=LOCUS_18120;note=WP_010980151.1 DNA polymerase II (Sulfurisphaera tokodaii) [pid:69.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_1813
sequence1	MetaGeneAnnotator	CDS	1624363	1625577	.	-	0	ID=MGA_1814;product=DNA primase DnaG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980150.1;translation=MKYVVKLSFEVGGIVDKPDVIGAIFGQTENLFGEEFDLRELQDKGRLGRIVVDMKTKSGKSEGIIEIPSNLDRVETALIASMVESVEKVGPYEAKFELKEIQDVREEKLKKIIERAKDILGTWNRGKALDIKEVLNEISSAVKTGEITEFGIERLPAGPDVLTDPNLIIVEGRADIINLLRYGYRNTVAVEGASGKIPQDIVDLSKEKKTVIAFLDGDHGGDLILKELINANVKIDFIARAPQGREVEELTGKEIAKALSNMISISQYLKKQQEVQTAIKEEGQGQSVIVVQPEKIEEKPQIEINIPQTAMEEIKKLPGTLEGIMFDENWNPVERVQVRDIIPKLEASQDNKVSYIIFDGVITQRLLELAASKNVKMLVGVRIGGITKSLDNIKILTFSDIITS;locus_tag=LOCUS_18130;gene=dnaG;EC_number=2.7.7.-;note=WP_010980150.1 DNA primase DnaG (Sulfurisphaera tokodaii) [pid:70.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-163],MGA_1814
sequence1	MetaGeneAnnotator	CDS	1625584	1626657	.	-	0	ID=MGA_1815;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846716.1;translation=MEDRLSLITKNTEEIVTIEELKSKLESKEKIKGYIGFEPSGLFHIGWLIWAQKVKDLMDAGVEMSVLMATWHAWINDKLGGDMELIKTAGKYAVEILGAYGIDLAKLRVIDAEDLVKDKNYWELVIKVAKSTSLARMRRALTIMGRKSEDAELDTSKLIYPAMQVSDIFYLDLDIALGGTDQRKAHMLARDVSEKLGRKKVIAIHTPLLVGLQGGQRMDTTKEEDELMADIKMSKSKPETAIFINDSQEEIEEKIRKAYCPKGVVENNPILQINKYIIFSKPNQVLKIERDIKYGGDIEFRNYGDLEKTFAEGKLHPMDLKTATSKKLNEILEPLRKKVQNEEFDKMIMSISKNVTR;locus_tag=LOCUS_18140;EC_number=6.1.1.1;note=WP_052846716.1 tyrosine--tRNA ligase (Sulfurisphaera tokodaii) [pid:70.4%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:8.5e-151],MGA_1815
sequence1	MetaGeneAnnotator	CDS	1626702	1627022	.	-	0	ID=MGA_1816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKLPPGSFSLLEKLSECEDKVCVENVVDEYLYSLVKGKRQIQFKLTEDDEDLDEKTIANSYIFTEFLITRLLNSDIDINLVVKDLEEKLGKDHPVIVFLKQLKEE;locus_tag=LOCUS_18150;note=MGA_1816
sequence1	MetaGeneAnnotator	CDS	1627054	1627467	.	-	0	ID=MGA_1817;product=secondary thiamine-phosphate synthase enzyme YjbQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980147.1;translation=MFFMKIFSHEFKIETKSKFESIDITERIQETAKSIDEGVVYVFVKHTTCAIIVNEAEKGLMQDYLDWAKKLVPPEGEFKHNLIDNNGHAHIISSIIGNSRTVPVRSGNLDLGTWQRIILLEFDGPRTRTVNVKVMGE;locus_tag=LOCUS_18160;note=WP_010980147.1 secondary thiamine-phosphate synthase enzyme YjbQ (Sulfurisphaera) [pid:72.4%25%2C q_cov:97.8%25%2C s_cov:100.0%25%2C Eval:4.0e-55],MGA_1817
sequence1	MetaGeneAnnotator	CDS	1627501	1628766	.	+	0	ID=MGA_1818;product=AIR synthase-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980146.1;translation=MDLEGIARVLPESIAKQKILEWLSVYKGNNPFNEKIANIIINEVRNSEKAQHFKPTLCGVKAGNAGLGSRGIGDHLIHLKLFELSKRKLSTFDDAGISEDTIVSVDGIHSRLSYFPFLAGFHATKATLRDIMVKGARPLGLIIDIHVSDDTDISYLFDFEAGVSTIADALGIPILAGSTLRIGGDMVIGERISGGIGSVGKIGKKILLRSNIKKGMKILMTKGNGGGTVATTAIYNGMPEIINETLKIDEILTARKINAEFIDKVEAMTDVTNGGIRGDALEISEMSNLSFIIDQEKFLSLINKKVLDMFNLFQIDPLGVSIDSLLIFTDDENLEKELSKEGLEVKTIGYVDEYKGYPILTLEGKKLEPNFRESPYTPIKKVIGNYSPYTLDEIKISLEKAYNSALAKKEEVLKNLKVTST;locus_tag=LOCUS_18170;note=WP_010980146.1 AIR synthase-related protein (Sulfurisphaera tokodaii) [pid:56.0%25%2C q_cov:99.0%25%2C s_cov:99.5%25%2C Eval:1.2e-122],MGA_1818
sequence1	MetaGeneAnnotator	CDS	1628787	1629308	.	+	0	ID=MGA_1819;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980145.1;translation=MSEQQFRYIVRLFGQDVDGSMKVPYALAMVKGIGYNTARGILLKIGIDKDKRLGELSDSELKKIEESFSDKSAKLIPAWMYNRRKDFDSGLDLHLVTSDLIFYVRNDIEREKKIRSWRGVRHIYGLKVRGQRTRTTGRAGTTVGVKRGRGAQPGAAPSSTPAPSSQSTTQTKK;locus_tag=LOCUS_18180;note=WP_010980145.1 30S ribosomal protein S13 (Sulfurisphaera tokodaii) [pid:69.4%25%2C q_cov:85.0%25%2C s_cov:85.5%25%2C Eval:3.0e-56],MGA_1819
sequence1	MetaGeneAnnotator	CDS	1629319	1629873	.	+	0	ID=MGA_1820;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980144.1;translation=MGDPKKGKKKWEGPGLPWIRELLRSEQELVGKYGLRNKKEIWLARTLVRQFRHMARGLLALPPTERMVREKQLITKLYRLGLLKSQQATVDDILGLREEDLLERRLQTIVFKKGMARTIYQARQLITHGHIAIGGTKITSPGYFVLRDEEDLIDFYAVSPFKANPPTVGVQTSEEKGEENVQQA;locus_tag=LOCUS_18190;note=WP_010980144.1 30S ribosomal protein S4 (Sulfurisphaera) [pid:66.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-67],MGA_1820
sequence1	MetaGeneAnnotator	CDS	1629857	1630255	.	+	0	ID=MGA_1821;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846715.1;translation=MSSRREIKWGIAHIFASQNNTLISITDITGAEMIARASGGMVVKADREKPSPYAAMLAANKAAAEALDKGMMAIHIKVRAPGGAGPKTPGPGAQPAIRSLARSGFIIGRIEDVTPIPHDTIRRPGGRRGRRV;locus_tag=LOCUS_18200;note=WP_052846715.1 30S ribosomal protein S11 (Sulfurisphaera) [pid:77.7%25%2C q_cov:91.7%25%2C s_cov:91.7%25%2C Eval:7.3e-49],MGA_1821
sequence1	MetaGeneAnnotator	CDS	1630256	1631044	.	+	0	ID=MGA_1822;product=DNA-directed RNA polymerase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980142.1;translation=MPIKVLSNQGNFLSLELDDYPLEFVNAIRRASILYVPVMAIDEVYIIENNSPLYDEVLAHRLGLIPFTSDDAIDFYRSPDECASCTDNCERCFTKVYIDVEAKDSERMVYSRDIKSDDPNVVPINGDIPIVLLGKNQKLSLEAKLRLGYGKEHIKFSPVSMAVARYYPKVEVLGNCEKAIEVCPEKVFAIKEGKLEVVNETACTLCEECLRYCNNIKISSVDNKYILEIESIGSLKTQRILIEANKSIARKLDELKKRVESL;locus_tag=LOCUS_18210;EC_number=2.7.7.6;note=WP_010980142.1 DNA-directed RNA polymerase subunit D (Sulfurisphaera tokodaii) [pid:70.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-105],MGA_1822
sequence1	MetaGeneAnnotator	CDS	1631041	1631394	.	+	0	ID=MGA_1823;product=50S ribosomal protein L18e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980141.1;translation=MSRTGSTDIMVRKLISKLEAQEKPIWNAVAEMLDVPSRKRSYVNLYKINKYSKKDDVVLIPGKVLGIGTLDHPVTVVALDFSSNAKNKIEQSGGKILSFYKAIEEIKDFKNVRLMKK;locus_tag=LOCUS_18220;note=WP_010980141.1 50S ribosomal protein L18e (Sulfurisphaera) [pid:70.7%25%2C q_cov:99.1%25%2C s_cov:98.3%25%2C Eval:1.6e-43],MGA_1823
sequence1	MetaGeneAnnotator	CDS	1631391	1631852	.	+	0	ID=MGA_1824;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980140.1;translation=MTEENIIIINAENQILGRMCSNIVNLLKDGKKVYIINSEKAVVSGPKYRVINGYKLFFSVRTLFNPYKQGIRRPRSPINIVKRTIRGMLPKTPKGIRMLKNVKAYIGIPKEFEGKEFIRFDNADVKRLKGKYVTLEDVAKEMGWKVYVKPATK;locus_tag=LOCUS_18230;note=WP_010980140.1 50S ribosomal protein L13 (Sulfurisphaera tokodaii) [pid:57.2%25%2C q_cov:90.2%25%2C s_cov:94.5%25%2C Eval:2.8e-43],MGA_1824
sequence1	MetaGeneAnnotator	CDS	1631830	1632249	.	+	0	ID=MGA_1825;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980139.1;translation=MSNQQQNNVIITSAKRKMASARCYIYPGKGRVFVNNVPVEIIPIEVVKLKIMEPLLLAGDGIFSKIDAKIYTEGGGLMGQADAARMALARAIIKFTGSKEVEEIYKAYDRSMLAGDPRQTESEKWMRYSARRWRQKSYR;locus_tag=LOCUS_18240;note=WP_010980139.1 30S ribosomal protein S9 (Sulfurisphaera tokodaii) [pid:76.3%25%2C q_cov:97.1%25%2C s_cov:98.5%25%2C Eval:3.5e-54],MGA_1825
sequence1	MetaGeneAnnotator	CDS	1632256	1632456	.	+	0	ID=MGA_1826;product=DNA-directed RNA polymerase subunit N;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980138.1;translation=MIVPIRCFTCGSLIADKWEPFITRVSAGEDPGKVLDDLGVRRYCCRRMLISHVDIIKEVINYTRPI;locus_tag=LOCUS_18250;EC_number=2.7.7.6;note=WP_010980138.1 DNA-directed RNA polymerase subunit N (Sulfurisphaera) [pid:90.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-31],MGA_1826
sequence1	MetaGeneAnnotator	CDS	1632465	1633148	.	+	0	ID=MGA_1827;product=30S ribosomal protein S2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980137.1;translation=MSADEENKNTELSEEEKAELQKSEKGAVIELLVPLETYLSSGVHIGTHSCTRYMEKFIYRVRPEGLYVLDVRKIDERLRIAAKFLSRFQASSILAVASRPYAFTPVQKFAEVVGGKSVTGRLVPGTLTNPYLEHFMEPEVILISDPRTDLQAIKEAADMGIPVVAFADTDAKIDYVDLVIPANNKGRKSLALLYWILARQILRERKEIATDADIPVKVEEFEVKLVQ;locus_tag=LOCUS_18260;gene=rpsB;note=WP_010980137.1 30S ribosomal protein S2 (Sulfurisphaera) [pid:76.4%25%2C q_cov:96.9%25%2C s_cov:97.8%25%2C Eval:9.6e-95],MGA_1827
sequence1	MetaGeneAnnotator	CDS	1633145	1633999	.	+	0	ID=MGA_1828;product=AmmeMemoRadiSam system protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980136.1;translation=MKRMPAVAGSFYESDPQELKNRIEWSFNHPVGPGKIPEIPKDKNKRDNLFFIVPHAGYIYSGPVAAHSYYYLVSEGKPDIVIILGPNHTGYGSYVSVWPEGEWETPLGDVRVNKDIVMELVKYSQVVDIDEKAHLYEHSIEVQIPFLQYFFDSNFEIVPIVVGLQTPEIAEYLANGIYKILDNHKDKDIVILSSSDMNHYDPYDVTYKKDQMAIDKIVQLDYKGLYEVVEDKDVTMCGYAPVMVSMILARKFNKKPYILKHATSGDTSGSKDSVVGYLAARFGN;locus_tag=LOCUS_18270;gene=amrB;note=WP_010980136.1 AmmeMemoRadiSam system protein B (Sulfurisphaera tokodaii) [pid:69.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-123],MGA_1828
sequence1	MetaGeneAnnotator	CDS	1633989	1634648	.	+	0	ID=MGA_1829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980135.1;translation=MEINIPLCFSGIPTIVNNPLLIVNIKHKIRLIDRKPRIDISKIFKEATGFECKFNIDIENNLPFSSYYVIITKFLIDRAIGTCELPITLDEENEIMRMIDDALYDSELIRALRTAQFMNSSILYRDNEDPVKISFPSLKIRVLYSFPIRIRDDLDNSIIHTLGMIPVKFSEKFSPDLVNLENGLWHSLYSIFSPYTNNWKIIWDLNWATFIEFSNLVEV;locus_tag=LOCUS_18280;note=WP_010980135.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:46.3%25%2C q_cov:95.9%25%2C s_cov:95.5%25%2C Eval:5.1e-50],MGA_1829
sequence1	MetaGeneAnnotator	CDS	1634594	1635271	.	+	0	ID=MGA_1830;product=isopentenyl phosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869535.1;translation=MGSKLGYVYRVLKLGGSLITNKNVPFSFNEELVTNVVNVIKNFKVILVHGGGSFGHYEASLSKENTQTRTVIAMQELNLKILKIFNKENIPVFPLPGRYFTINQVLEILQNNLIPIIYGDILPNGNIISGDDITLTIAKHFHTEALFATDVEGIIINNTAVSLLKSLDDFREIRTSQFDVTGGIREKLRKIFQYKVNSLIFDGRNPTNIYYALSGKRIGTFVEAE;locus_tag=LOCUS_18290;EC_number=2.7.4.26;note=WP_010869535.1 isopentenyl phosphate kinase (Methanocaldococcus jannaschii) [pid:31.1%25%2C q_cov:94.7%25%2C s_cov:97.7%25%2C Eval:1.3e-24],MGA_1830
sequence1	MetaGeneAnnotator	CDS	1635268	1636368	.	+	0	ID=MGA_1831;product=type 2 isopentenyl-diphosphate Delta-isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980133.1;translation=MMISNRKIEHVEICLYEGVEGFTSTLLDNVVLVHKAMPEISFNDIITKTKFFNKDISAPLMVTGMTGGTADLGKINETIASVVEELGLAMGVGSQRIAIENSSAEESFKIVRKVAPSSPIIANIGAPQLTKGYGVKELEKAVSMIEADAIAIHLNPAQEIFQPEGEPDYSKEILEKLKDISKSLKVPIIIKETGTGISMETAILFSKYGFKNFDVSGQGGTSWIAVEMIRDKRKGNWKEQSASLFADWGIPTAASIVETRYSVPDSFIIGSGGIRNGLDVARAIALGSDIGGMASPVLKRAVEGKDSLKSFFNKTIFELKAAMMLTGSKDIEELKKTNIVIWKDLKDWMGSRGISLSIYDKLRKRE;locus_tag=LOCUS_18300;gene=fni;EC_number=5.3.3.2;note=WP_010980133.1 type 2 isopentenyl-diphosphate Delta-isomerase (Sulfurisphaera tokodaii) [pid:65.8%25%2C q_cov:99.2%25%2C s_cov:98.1%25%2C Eval:9.7e-134],MGA_1831
sequence1	MetaGeneAnnotator	CDS	1636368	1637351	.	+	0	ID=MGA_1832;product=geranylgeranyl diphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980132.1;translation=MNLEEYFKEITDNVNETIKSYVKGDTKDLYDASMYLLNAGGKRLRPLILVSSSDLLGGDRERSYKAAAAVEVLHNFTLIHDDIMDEDNLRRGIPTVHVVWGIPLAILAGDLLHAKAFEILNDSLKGLDSQRYYWAISIFTKSIIIISEGQAMDMDFEKRSNVSEEEYIEMIKKKTAQLFSCASSLGGIIAGANENTVNKLSSYGLNLGISFQIIDDILGLTADEKELGKPIYSDIREGKKTILVIKALEKATANERDVIIKGLGSKNQEDVKKAAEVIKYLALEYAYSLAEKYLDNALNDISSIESKNEIAGKALKYLGEFTVKRRK;locus_tag=LOCUS_18310;gene=gds;EC_number=2.5.1.29;note=WP_010980132.1 geranylgeranyl diphosphate synthase (Sulfurisphaera tokodaii) [pid:64.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.9e-119],MGA_1832
sequence1	MetaGeneAnnotator	CDS	1637353	1638306	.	+	0	ID=MGA_1833;product=UDP-N-acetylglucosamine--dolichyl-phosphate N-acetylglucosaminephosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980131.1;translation=MLLIPAIIAFFITFVATDWIIKISKSRGFVGKDINKKDKPSIPVLGGVGIIAGFVGGAFTLLVTDPSGNVISAVLLSSLLIAFLGLLDDVLNLRQSVRAFTPALASVPLALFSVGHSTISIPFLGPVNFGEFYYIFIIPIALTISANAFNMLEGLNGLGTGMGIIMSAALAIIGLRSIGSIYISGELALVLLSSLLAFLYYNKYPAKVFLGNIGTYFIGSVIGSIGISGFMLTALAILYIPYVIEFLLKARTKFKGISFGKISPEGYLYWDEKPNSLTHIIMKLGHFKEYQVVGIIWSIEIIFAVIAIILQTTIIRI;locus_tag=LOCUS_18320;note=WP_010980131.1 UDP-N-acetylglucosamine--dolichyl-phosphate N-acetylglucosaminephosphotransferase (Sulfurisphaera tokodaii) [pid:60.5%25%2C q_cov:95.9%25%2C s_cov:94.8%25%2C Eval:1.7e-104],MGA_1833
sequence1	MetaGeneAnnotator	CDS	1638542	1638916	.	+	0	ID=MGA_1834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKFLNSKFVVNFLMFGEIKLMFVTDLHGSETAYRKTLNAARMYNVDYLIIGGDIASKNIVYIERRGDKYYFDGNEIDIKTVYEDAKKYGYYIYVADKDEIQKVMDNKEYLESTKKVFIGKTNR;locus_tag=LOCUS_18330;note=WP_010979021.1 metallophosphoesterase (Sulfurisphaera tokodaii) [pid:39.2%25%2C q_cov:77.4%25%2C s_cov:31.5%25%2C Eval:6.3e-16%2C partial hit],frameshifted%2C insertion/deletion at around 1638898,MGA_1834
sequence1	Aragorn:1.2.38	tRNA	1639673	1639750	.	-	.	ID=Aragorn_20;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00200;note=Aragorn_20
sequence1	MetaGeneAnnotator	CDS	1640724	1642502	.	+	0	ID=MGA_1835;product=cbb3-type cytochrome c oxidase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980127.1;translation=MGLKNLIIALFQLDKDWTTRIVMAMLVMGVIWGLLGVIDSLMVRLQETTWGTSALLIETSQEYYGAITLHAERDLFGFAQQVEFALFIYFTIKLLNLQPKAKWLLNISFILINISMMFMEGPIVVYPTFNDNYFSATDWYYLSPMGIPSYSQYVVSPLFFTGWLLLDAFTYLAGIWIIYHYYIAAKTLKEKLPIGLVFFLMDTLLYTIGYSGVTAADIWDVLAYAGIVRLDPIANQIAFWIFGHAIVYMAWLPAVGAMYLLIPILANKPLYSDRMGRISALLYLIFSNNVPIHHLYMVNLPVGIKILQEVLTYAVVVPSMMTFFNLWATTKGAQVNWNIITAFISASFAGAIAAGVTGIANATIAFDSIVHNSMWVVGHFHAMILLSIVPAAMAVLYFMIPMMSGRQWYSAKLAWTHFIGYIIGAVMLIIGMEMIGFYGIVRRAEIYPRFEPGLVFAENLATVGALIAELATLGWFLNLVLTLVKGRTAKLEGLGVGELINTVAMSLSWENANMSSLIKFNNNHKISRSMLKKALGIDWVLGIIGALFIIASAIPLSLGGNMYNAAPWAWIVLLTIGIVMIAYPVLRGSKSI;locus_tag=LOCUS_18340;note=WP_010980127.1 cbb3-type cytochrome c oxidase subunit I (Sulfurisphaera tokodaii) [pid:68.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-239],MGA_1835
sequence1	MetaGeneAnnotator	CDS	1642555	1643592	.	+	0	ID=MGA_1836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980126.1;translation=MDKQERWELIWTLFVIVLFAIVIVGTLPQDFIVGGVPSTLSELPNDPSSIVNVHITSYQYLFKVNESGPVNSEELGNPFYYNLIVAHPHEWLNISMTSADVTSNFYFADYSDRVITDQIVPGLVAYDALPVPNITGAYAFVGGEFNGPWFSYQTGLLLDIPASGYITPSNMSAYISQTSKAQSIALVGDPYNPPIICQTTTSTPSFYLTGSDYGIFNSTVPGPTLVVKDGSSVTVKMYMPTPDNDHNYLYNYSVSGKPYAVTNVTVGIYAVWWNGTITPVVTEPISYNSTMTFHFTATAPAYVYGLIYPVYYNYNPMGLSTKIGPLIGIQKGYVMGYWGTMLVVS;locus_tag=LOCUS_18350;note=WP_010980126.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:49.2%25%2C q_cov:98.8%25%2C s_cov:99.2%25%2C Eval:9.4e-91],MGA_1836
sequence1	MetaGeneAnnotator	CDS	1643595	1643789	.	+	0	ID=MGA_1837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980125.1;translation=MVSFFKVLGIGYVLAIALLVWELADATLHAAAAPYTLVFTIMAFIGFISFFLFVYFAPQEEGKS;locus_tag=LOCUS_18360;note=WP_010980125.1 hypothetical protein (Sulfurisphaera) [pid:73.4%25%2C q_cov:100.0%25%2C s_cov:97.0%25%2C Eval:1.9e-20],MGA_1837
sequence1	MetaGeneAnnotator	CDS	1643786	1644445	.	-	0	ID=MGA_1838;product=TatD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980124.1;translation=MINKCEIVIVEAGVDLESDLKVLELSRKYSNILPAIGFHPEYIEKSEEVEKILKLLDQAKAISEVGLDYYWIKDQNLKKKEIEILKIFLKEGEKRKLPIIIHSRGGNKDLINLLPSYKIKFVLHAYEGSTKDAQKFIDMGGYISIPPILLRDKNRQEIVKCVPLESIVTETDSPFMGYEKNQRNEPCNVSFTIKKISEIKKIEEKEIEKKIEENFKKII;locus_tag=LOCUS_18370;note=WP_010980124.1 TatD family hydrolase (Sulfurisphaera tokodaii) [pid:60.6%25%2C q_cov:87.7%25%2C s_cov:79.8%25%2C Eval:9.6e-65],MGA_1838
sequence1	MetaGeneAnnotator	CDS	1644535	1644699	.	-	0	ID=MGA_1839;product=AbrB/MazE/SpoVT family DNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980123.1;translation=MEVEEIVKVSRNYQVTIPAKIRQKFQIKEGDLVKVIFDEKDNAVKITLMKEPWK;locus_tag=LOCUS_18380;note=WP_010980123.1 AbrB/MazE/SpoVT family DNA-binding domain-containing protein (Sulfurisphaera) [pid:81.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-20],MGA_1839
sequence1	MetaGeneAnnotator	CDS	1644872	1645327	.	+	0	ID=MGA_1840;product=HTH-type transcriptional regulator Lrs14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980122.1;translation=MKSNPYSTMKKYIYENLHSLYVVKMEQTQISGSRIKLPSGKDAGLVDILSFCYGLSETDVQVLIALMKGDARGTEELETELKLSKASINRSLNKLLEMALVMRIKEPGNKAGRPRYLYKAKDYGELKSKILQDIKDCSEKMADLVNQEFKP;locus_tag=LOCUS_18390;gene=lrs14;note=WP_010980122.1 HTH-type transcriptional regulator Lrs14 (Sulfurisphaera) [pid:86.4%25%2C q_cov:82.8%25%2C s_cov:97.7%25%2C Eval:2.3e-55],MGA_1840
sequence1	MetaGeneAnnotator	CDS	1645367	1646668	.	+	0	ID=MGA_1841;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980274.1;translation=MFFSCFELRLGIVYDQLIAPIFPGGGGVHSLEVIKRLANDFEIVYFPSSRLFLKWGDRKDEILHKADYIGKIVEIPEIFYEMLDKYSESAYNTFFFEKFSKNMSKIYAKYTKDIEFLYEPDHTTADIFFISKFSGKKFGITLHTPLFYNNNLEYLKELIRIRFNRCLIYNRRGFITSYLYNALYLKRVYTKLLDYSPPSFIASVSEGPLFYSALYKYSIPLRILSPGNAFDSDLLKYRNVLDKADYMIYFGVLAEHKGVLEIPDILYQIRKKVNISLKLLGKFSSRCIEKLFWLKAKNLGVDKNIEFLGFIDKHKEKSKFIDIVSKAKLLLYPSHIDSFSLTILESLALGLPVVSYDIVGIHSIYKNIDAVRLVNEFHKDELAREAVNILQLDRNTYSDLLNNKKIIDFLNFYSSWDNVALEVKKYILEFGKK;locus_tag=LOCUS_18400;note=WP_010980274.1 glycosyltransferase (Sulfurisphaera tokodaii) [pid:40.8%25%2C q_cov:98.4%25%2C s_cov:100.0%25%2C Eval:1.4e-84],MGA_1841
sequence1	MetaGeneAnnotator	CDS	1646685	1647341	.	+	0	ID=MGA_1842;product=PIG-L family deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978862.1;translation=MADMTTLIFSPHADDETLGCGGSIAARRSSGEEVYIVFMTDGRYGSPLPEERGSKELIETRKKEALNALEILGIKKDNIYFLDFEDGHLSKSKKLALLKVEDIIKTVKPNNIYFTSHIDAHTDHSTTGEIVRKAIGNLNINVKQYSFMIWKPRLIARDLNISIKFIKSYFYKPRIEVVDISKYLNIKLKALEEYKSQVKWFSKEFLSRFTTNYETFFI;locus_tag=LOCUS_18410;note=WP_010978862.1 PIG-L family deacetylase (Sulfurisphaera tokodaii) [pid:40.7%25%2C q_cov:98.6%25%2C s_cov:95.5%25%2C Eval:4.4e-38],MGA_1842
sequence1	MetaGeneAnnotator	CDS	1647320	1648273	.	-	0	ID=MGA_1843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISVIITAHDRKNFLLDAVNSVLNQTLPRNEYEILVVKNFSDFDQYLESNGIYTYYTDAKATGEKVALGIDKSHGEILCFLDDDDMFLSNKLETVKMEFNADIAFYNNSKIFIDEQGKEIGRENKHRIEYSDKNIRTAKKFLSNMSFNLSSECIKRDIVDTDKLRYIGYSIDVVMAYFGLNSRGRLIIDEKPLTLFRLHSGNYFVYNRKYTLSEFIEKNRKDYEFGSKISERIKTNFKNTFVGKLAFLEYIADSFYFTIYDSTSLNNRLKALLLAIKYMNSAKDITSIKLVGASLLFLINPNLLYKKLYERYMKKVS;locus_tag=LOCUS_18420;note=WP_010980036.1 glycosyltransferase family 2 protein (Sulfurisphaera tokodaii) [pid:29.4%25%2C q_cov:61.8%25%2C s_cov:63.5%25%2C Eval:1.2e-20%2C partial hit],MGA_1843
sequence1	MetaGeneAnnotator	CDS	1648312	1649223	.	+	0	ID=MGA_1844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIVLSEDILPNLYDIYKESKFKHPLLNPYQIYARQNIRKIKFLLLKEGYTYFNVRKNRYLKILTAIFPLITSRNYEDEIKDFIRNYKNYFGITKILHVYTRNELDYIKLFNNIEKENYSYVINDDSWKPNRKINYYVKLAEKENIHIINEFNFDIYKEYYENCYLQTLESKESTKLQAGYKFFEYLAKKDMLRSVFGLLDNKIISGVFILYDEESRIGYYIDAASSQEGKKLGANYLLLYNQINYFREKGYILDLGGAPLGKLKKWDDIFLFKKKWGKVVDMPLITLKNFLTVILYKFRKF;locus_tag=LOCUS_18430;note=MGA_1844
sequence1	MetaGeneAnnotator	CDS	1649210	1650091	.	-	0	ID=MGA_1845;product=glycosyltransferase family A protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846197.1;translation=MTEILIPVGPKDNIEWVKRSISSAITQGKVVVFNNSEREDLTKLIDEMNVYHVKVHRMKKVNMAALRNQMLSLTKEKYIIMLDSDVVLPQDGVKKMIEKLRQGFSLTWMHYAYDEKEMNKPLSPGEENPNLGCAGIDMDSLRKIGMFDERYERDEDIWVYSKFQKEKFRVGPTEGRCLHLNKLHSRNNFRDSISEAKRNFWRSKYDMMLVLDGLTNFTFLTGYGYFGSYYLIGIIGFFFYPILLGYIPLVGFGIKYYGGPRKFIYNLIPGLALAISLPYGLTYAILKRKSRIS;locus_tag=LOCUS_18440;note=WP_052846197.1 glycosyltransferase family A protein (Sulfurisphaera tokodaii) [pid:58.6%25%2C q_cov:97.6%25%2C s_cov:98.6%25%2C Eval:2.0e-99],MGA_1845
sequence1	MetaGeneAnnotator	CDS	1650104	1651159	.	+	0	ID=MGA_1846;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978124.1;translation=MREIKKVAVIAHGYGYRGYSGEGKVYLEGVNALKDHNLDYILVTFSKLNINDNEYVVPFKFRRFDKYQRLLVWFAARRIKPLFFLNLSGVPIPLSKISPHIIYAGAPAISSAPTKYSSSLFWKAYLFPFKIIAKKLSEEAKKSYIIANSFYSLRKIEEAYNTRVRKVIYPPVDVDFYKKAFTEKRSEIFLSIGRIEKGKMLENSIKLSAKSGIKGIIIGSLGDRKYLEYLYRLVKELEANIEIYTDLASDKILEIMKIASVYFHPTIGEHFGIPVIESMSAGLIPIVPRESGSYEIVPEYSYNNLDEASSLLKNVIYTDIKTRKELSEKADFFNSKRFKDQLYAEISNFIK;locus_tag=LOCUS_18450;note=WP_010978124.1 glycosyltransferase family 4 protein (Sulfurisphaera tokodaii) [pid:52.4%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:3.3e-99],MGA_1846
sequence1	MetaGeneAnnotator	CDS	1651142	1652380	.	-	0	ID=MGA_1847;product=amidohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980121.1;translation=MEIQNKTYTLRNCRFLVDSEKIMENSNIVINNGLIESIGKEIEGDELDCSKWIITPGFVNSHVHSAMIPLRGYYDDAELTEWLNKMWEFEKSMQRELMKLGSEISVLEMLSSGTTAFVDMYFNPDDIEKLTEKYEIKAAAGYTFLDSLFSPEEVEEKQYQLKKCKNFFPIVNVHSVYSVEEKTLIRAKELAEKTSTWIHIHVSETRKEIFDNKKKTGKFPVEYLHDLGLTRLVNAVHLGWIANWEIDYLKEAKGATHCPTSNMKLATAGAYPFYEMLTKGVNVTLGTDGAASNNSLDIIREMKTAVLLQRHSYWDTRVKALDVFKAVTENGYKLLGIKGGKIKEGYIADLAIFDSSSIYPLLKDRIISNIVYFATSEAIVGTINNGKITKKDYILDKKKKLVNKLNELLNKI;locus_tag=LOCUS_18460;note=WP_010980121.1 amidohydrolase (Sulfurisphaera tokodaii) [pid:61.0%25%2C q_cov:93.7%25%2C s_cov:93.9%25%2C Eval:6.5e-137],MGA_1847
sequence1	MetaGeneAnnotator	CDS	1652350	1653024	.	-	0	ID=MGA_1848;product=diphthine--ammonia ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980120.1;translation=MNYNLCALYSGGKDSTYALHWAVFKGFNVICLITILPKREDSWMFQYPNVEFTRYQAEVLGIPIFFQESSGLKEKELEDLFLAFSKAKELGAEGIVSGALLSDYQRLNINFIANKLNLKTFSPLWRKNQENYMRELIDEGFEYVITSASAYGFPFELVGKEVSREDIEKIILASKKFGFNPAFEGGEAETFVTYAPLFKRKLKIIGETIKLGEFEWRFKIKHIL;locus_tag=LOCUS_18470;EC_number=6.3.1.14;note=WP_010980120.1 diphthine--ammonia ligase (Sulfurisphaera tokodaii) [pid:70.3%25%2C q_cov:97.8%25%2C s_cov:98.6%25%2C Eval:1.5e-89],MGA_1848
sequence1	MetaGeneAnnotator	CDS	1653014	1653472	.	-	0	ID=MGA_1849;product=50S ribosomal protein L11 methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980119.1;translation=MLVPFVPSPPEVIREMLRCAKVKNDDILLDLGCGDGRIIKIAKEEFYVREAIGVEIDKRLCREAKNDNVEVICGDMVTLSSILIPKVSVLTLYLSTRANEILEDTILKYGKKGLRISSHDFTFEKLRPTKEIKVKAMGLLGWTEHMIYCYEL;locus_tag=LOCUS_18480;note=WP_010980119.1 50S ribosomal protein L11 methyltransferase (Sulfurisphaera tokodaii) [pid:60.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.0e-47],MGA_1849
sequence1	MetaGeneAnnotator	CDS	1653840	1654388	.	-	0	ID=MGA_1850;product=molybdenum cofactor guanylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011277031.1;translation=MAGGFSVRFGSDKCEYCISGKSMLQRVAENFDCPIIISHVRRKLNNQFKLIIDEKREGPIKAIRYAIPFLSKNKIFITGCDFPFIKKELINIICNKDYDIILPLLDYPQPLLGCYKKSFIEANYQKVNSFIELINLANDIYFVGTEEIRLVDPTLNSVKNINRIDDILKKINIFTKSKIILK;locus_tag=LOCUS_18490;note=WP_011277031.1 molybdenum cofactor guanylyltransferase (Sulfolobus acidocaldarius) [pid:44.8%25%2C q_cov:100.0%25%2C s_cov:93.3%25%2C Eval:1.7e-39],MGA_1850
sequence1	MetaGeneAnnotator	CDS	1654399	1655550	.	-	0	ID=MGA_1851;product=molybdopterin molybdotransferase MoeA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980117.1;translation=MLIPVEDARKKIDELKFPEVRTAYVDLFDAVGKISAEDVFSNVEIPLRDISAMDGFAFNIRDLGKKMKIAGKLYPASKEIPRIKEGEAYYVTTGSPIPEGANTVARIEGTKIEDEYIEVKENVFEGKDIMKKGENVRKGEIIVRKGEIIKPYHLGVLSYQKTIKLKVLDINFAVFASGDEIIPIGEEGEGIPDSISPIIISLLKTFGKVSYLGVAKDNEESVKEFVKKALQYDFIISIGGSSMGEKDYIKKIVSYFGTLLFEGVSTNIIKRCGVGVIENKPFLILPGQIVSAVTSFHEHGLHLISRLLDAEVRKFSEAELGEDIEVQHKMDSVYLLTEQSGKVFPLRWGVGLYNEINKANMFTILKRGKIYRKGEKIIVQRLL;locus_tag=LOCUS_18500;note=WP_010980117.1 molybdopterin molybdotransferase MoeA (Sulfurisphaera tokodaii) [pid:51.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-108],MGA_1851
sequence1	MetaGeneAnnotator	CDS	1655578	1656066	.	+	0	ID=MGA_1852;product=molybdopterin-guanine dinucleotide biosynthesis protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980116.1;translation=MVCVFQVFGKKDSGKTTAIEIAIKKLVSNGYYVAAIKHSHHIINSENKDTMKFEKAGAKIVIFHSNDCALFFECSNYDYINLIPADVILIEGFKNINIGKKIEIRNVNEAEYIANQIVEDAKECKKEVKMEINGKIAERSFQNLAIFNLLRSLKVKEVKIID;locus_tag=LOCUS_18510;gene=mobB;note=WP_010980116.1 molybdopterin-guanine dinucleotide biosynthesis protein B (Sulfurisphaera tokodaii) [pid:47.8%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:3.1e-38],MGA_1852
sequence1	MetaGeneAnnotator	CDS	1656059	1656748	.	+	0	ID=MGA_1853;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846714.1;translation=MIEGSDIISLDCNSSVYDAIFFMKRRNIRRVVITCERNPLGLFTVDEALKQILYSTETKLKDIKLKDIIRVNSKDIREIVNAMILNNVDAVIIDNKIITEKDVVLSVNWGNDKISKISKDAITIESYSSMVTAIEIMLKHNIRHLPVLEKEPRGMLSARDIVYYYCDNLTLDSPVSQLMTPNLVNADNNLTLRDGVNLMKKYGIGSLFIRPKKIVTFKDFIVYIFNENQ;locus_tag=LOCUS_18520;note=WP_052846714.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:42.5%25%2C q_cov:96.9%25%2C s_cov:96.2%25%2C Eval:5.6e-42],MGA_1853
sequence1	MetaGeneAnnotator	CDS	1656735	1657457	.	+	0	ID=MGA_1854;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980114.1;translation=MKTNNGKLEILECPIDRTPLNENLICEKGHKFYMIDGIYDFIGKDIETDKILETVAPLYESVWAPLGFLLTAGNTYSSILRDSSNFIQGDTLLDIGTGTGKIFDFAKCNTCIGLDTSIKFLKILKHKRNNVIAIRGDARSLPIKSESIDGVSSMFVLHMLENPALGIKEISRVLKNEGKCSIGVLVRGNTISSILSKWWKIDLKYQDYYISNLKDSGLNIIEYKTLGPWRIFKCKKLGHF;locus_tag=LOCUS_18530;note=WP_010980114.1 class I SAM-dependent methyltransferase (Sulfurisphaera tokodaii) [pid:49.1%25%2C q_cov:95.0%25%2C s_cov:98.7%25%2C Eval:1.1e-62],MGA_1854
sequence1	MetaGeneAnnotator	CDS	1657443	1657853	.	-	0	ID=MGA_1855;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANIDSLLANRGGSTLIGLLMFSSSIYLLYTIHFSISDLFGMVMNFDPYFFYPIGLILGLERLIYGISGNKKFYYMLMGQGDMTPYIIQGIFIFGIVIGVYIAAYSLSLTTTLDKLAEIGEGVSYVLFAISLLKMP;locus_tag=LOCUS_18540;note=MGA_1855
sequence1	MetaGeneAnnotator	CDS	1657829	1658266	.	-	0	ID=MGA_1856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980112.1;translation=MKLYIMYKVIFKIDSISQQNSALTLKKAGFIPIYFKKINGKEVYTALYKSNDLNELKEAITDLAFLLVREGKKGGKDFVTIYSVDDKYLGKGVGSILGAGLGLKLGGIPGMLLGFLGGIVLGELADIEMGEKLVGVWEWPTSIAY;locus_tag=LOCUS_18550;note=WP_010980112.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:55.4%25%2C q_cov:95.2%25%2C s_cov:98.6%25%2C Eval:5.7e-37],MGA_1856
sequence1	MetaGeneAnnotator	CDS	1658355	1658603	.	+	0	ID=MGA_1857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846713.1;translation=MEEDRKKFYAIARVENLELPDYISKTSLHAHVSSAVDEAMDNVKVYLKNKGINGKFNTHIDVFAREESVTRLIESIKAKIKA;locus_tag=LOCUS_18560;note=WP_052846713.1 hypothetical protein (Sulfurisphaera) [pid:48.1%25%2C q_cov:95.1%25%2C s_cov:91.6%25%2C Eval:1.3e-13],MGA_1857
sequence1	MetaGeneAnnotator	CDS	1658610	1659245	.	+	0	ID=MGA_1858;product=metal-dependent transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980111.1;translation=MAELSEPLENYLKEIYELESVKGYAKVTDLIVAFQVSPGTISKAISKLESLGLILRNNKGIKLTDDGRKVAERLVKSHRISERLLTDIIGLDWIRAHEIAHRLEHIWPDDVLDKIDEVLGYPKTCPHGHPIPGRGEVKGVQLDQVKSGKYIVVMIIKEEEWILREVEELGLKPGNIISINRENDKIFLDSSGKMIEIPKTIAEQVLVNVRA;locus_tag=LOCUS_18570;note=WP_010980111.1 metal-dependent transcriptional regulator (Sulfurisphaera tokodaii) [pid:62.7%25%2C q_cov:97.6%25%2C s_cov:99.1%25%2C Eval:7.6e-72],MGA_1858
sequence1	MetaGeneAnnotator	CDS	1659232	1659600	.	+	0	ID=MGA_1859;product=DUF2250 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980110.1;translation=MSELNDLMKKILMHIYKFGPDNPWYMARRLMGESGWAPKYSEDEIDNTCRELEKMGYLIRFQGALKRSVTSSVKPWLKVKARELDHKPKGIYYDLSKEGRRIASQLYKEYKKNESDKNIKRK;locus_tag=LOCUS_18580;note=WP_010980110.1 DUF2250 domain-containing protein (Sulfurisphaera) [pid:81.1%25%2C q_cov:91.0%25%2C s_cov:100.0%25%2C Eval:3.9e-50],MGA_1859
sequence1	MetaGeneAnnotator	CDS	1659569	1660756	.	+	0	ID=MGA_1860;product=mutanobactin A system MFS transporter MubZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011074614.1;translation=MNLIKILRENKQFRYYWLSTSFMHISGLMYNIAIAYLLLSSSLPLYVEIIGISMILSSIMPFPSGFLADKVDRKKFLILTRISQAILIFVSSFSIYTAVISFLLLTTIVSISSPFSAGLIQSILRKNEVIGATSINSLTISLFALTGGILSLLFPILGKIAFLFLVSILRFSSAFLISRINISNIHIPHKYSLKINFYKMPILFSAISFAFVGLIPIILNSYVFNIFKTEESIALISTFTTVGNSIGAFVSSQVIKNERILTWIIVGILGLSFSIIAISFIDTIFIYILILFRGLFTSFQNISWRSWLRINIPNEIMGRIWGTISTISSILSGIISVSYSFIAESIEPKYVLLSLGFLILIFSIYMIGLGRNSKQNIGLFRSISSTPEKSKTEQK;locus_tag=LOCUS_18590;gene=mubZ;note=WP_011074614.1 mutanobactin A system MFS transporter MubZ (Streptococcus mutans) [pid:20.8%25%2C q_cov:79.2%25%2C s_cov:89.6%25%2C Eval:9.2e-08],MGA_1860
sequence1	MetaGeneAnnotator	CDS	1660674	1661876	.	+	0	ID=MGA_1861;product=glycerate 2-kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980109.1;translation=MDEIVSKILDYSDPYLVLQKKVKLSKNEVIYNNFKASFKKPLVVAVGKAAYKMAKFFLERIDPVRSLTILPKGSNVKLNSEIIESSHPQVTLSSLEAARRVKEILQEEDYDIFFFLLSGGASALMEDPLIPIEEYSQLNNDIVKSGLSINEINTIRKHLSSIKGGNLALYSKAPIVSFIVSDVPGNDLSSIGSGPTAPDFTTIEDAKESLIKVGLDKYVKYLKETPKDLKNVNNFIILDNMDVLLNLSKDTKNPFILTSEIRGEARSVGELIASVYNSSSLYSIPFSKNYTFIIGGEPDVTIRESERYGKGGRNSEVALSLLKWIRKGKFKFYAIATDGIDGNSEYAGCIIDDSLTINYKDIDEALRTHSSYELLEKYGVVVKTGLTYTNVNNVYLLIVP;locus_tag=LOCUS_18600;EC_number=2.7.1.165;note=WP_010980109.1 glycerate 2-kinase (Sulfurisphaera tokodaii) [pid:53.6%25%2C q_cov:99.8%25%2C s_cov:99.7%25%2C Eval:2.0e-114],MGA_1861
sequence1	MetaGeneAnnotator	CDS	1661855	1662367	.	-	0	ID=MGA_1862;product=NADH-quinone oxidoreductase subunit NuoB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979576.1;translation=MSDETILVGDVRESAKKAAQWLVNRKPIKNLIDWGVSFSLWPPHLTTSCCGTEFGAFAAARFDSERFGVLPFSSARQANLLVIEGTMTRKMARAAKIVYEQMPEPKFVIAMGACSLEGGIFWNSYNTVLASDVGIPVDIYLPGCPTRPEAIARAILMLQKKIRNQGTISK;locus_tag=LOCUS_18610;gene=nuoB;EC_number=1.6.5.9;note=WP_010979576.1 NADH-quinone oxidoreductase subunit NuoB (Sulfurisphaera tokodaii) [pid:82.1%25%2C q_cov:98.8%25%2C s_cov:97.1%25%2C Eval:3.3e-81],MGA_1862
sequence1	MetaGeneAnnotator	CDS	1662626	1663672	.	+	0	ID=MGA_1863;product=L-threonylcarbamoyladenylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979575.1;translation=MILKVDPLNPEIDKIRIAADVIKKGGIVAFPTETVYGLGGDAYNPEAAAKVFKAKNRPMDNPLIVHIADIEQLYEVAEDIPDRVLEIAQIVWPGPLTFILKKSSKVPKVTTGGLDTVAVRMPAHPVALQLIRESGVPIGAPSANLATRPSPTRAEDVYADLDDKVDVILDGGESFFGVESTIINLTVSPPVLLRPGPFTVEELNKLFGEIIIPDQIKGKGEFGVALAPGMKYKHYAPSKKMLLVENMTIFKDVVNKLREKHKVAVLCSTEKAVLFDEPKIILGSEKNLYEIARNLFVAFRELDKLDVELGILQSFPESGIGLAIMNRSRKACGFSIINSMEDINKYAN;locus_tag=LOCUS_18620;EC_number=2.7.7.87;note=WP_010979575.1 L-threonylcarbamoyladenylate synthase (Sulfurisphaera tokodaii) [pid:71.8%25%2C q_cov:99.7%25%2C s_cov:98.9%25%2C Eval:4.8e-143],MGA_1863
sequence1	MetaGeneAnnotator	CDS	1663662	1664342	.	+	0	ID=MGA_1864;product=biotin--[acetyl-CoA-carboxylase] ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846587.1;translation=MLIKLNKVTSTQDFAEAVYSMLYSDFVVIAGEQTKARGRYRREWYSPQGGLWFTYCKRGFPIEEIPIATLKVALAIRYVLEEYVDAKIRWPNDIVVNGKKISGILIEGILQGNDSTMFIGAGINTNIKNFPSELNATSVLIEKGKELDNDELLKNIINSIEIYLNKDDESTIEEINTFLYIKNKKVNLYGNDWNKTCTAMFVDRLGRLITDCGIFEVEDVLRLETS;locus_tag=LOCUS_18630;EC_number=6.3.4.15;note=WP_052846587.1 biotin--[acetyl-CoA-carboxylase] ligase (Sulfurisphaera tokodaii) [pid:54.9%25%2C q_cov:98.7%25%2C s_cov:98.2%25%2C Eval:3.4e-68],MGA_1864
sequence1	MetaGeneAnnotator	CDS	1664322	1665545	.	-	0	ID=MGA_1865;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979933.1;translation=MNITVVGSGPAGLYAAISAARTAKVKLVEKQDRLGGTCVLYGCIPSKAMLHPSILAYELSRLGRKIDFSFDEAQKFAKEAIDRLSKGAEYMLESQGVEVIHGTATYRSGKINVGNESIESDGIVIATGTEKPKVNFTIASDDIPYLNKDFNSVAVIGGGVGGVEYSWLIKMLGKDVHIFEKQNEILPYLDSDLRREVTKYFKKIGIKLHLGHDVTISENKVRFADEEFSADLILFTFGRKPLLDGFEEIPHEKWIRVDERMYTGVGNIYAAGDITGSFTAHEAINKGVVAGLNVIGNKKVYSPIGVPKVLYIEPQIAYVGNTNGKCVKINMAEVARAIAEKETEGFVKICFENNKIVGAVAFSERAEEIISLISVLMRSTLEEAREFIAPHPSYLEAVWEALRRFEP;locus_tag=LOCUS_18640;note=WP_010979933.1 NAD(P)/FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:60.1%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:1.6e-140],MGA_1865
sequence1	MetaGeneAnnotator	CDS	1665582	1666007	.	-	0	ID=MGA_1866;product=universal stress protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429665.1;translation=MFSHIVIAYDGSSHAKRALDIAIDLASKYSSKLDIVEVVDSTVFSGAGVAPIPADVIESVYNKAKSDIEEAKKLASQKGVNAEGVVLEGDPANAILDYVSKNNADLIITGSRGLSTFKRMLLGSVSTRLVQEAKIPVIVVK;locus_tag=LOCUS_18650;note=WP_198429665.1 universal stress protein (Sulfurisphaera tokodaii) [pid:70.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-50],MGA_1866
sequence1	MetaGeneAnnotator	CDS	1666054	1667289	.	-	0	ID=MGA_1867;product=TldD/PmbA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011278452.1;translation=MLDNLISKAKSLGFAAEIFYIKRNEFSINSEKQIYSRNLKEEGYGLRIFKDKKVGFAFSTNLNDELLDNAIKSWKISEKDDANEIPQISTVNKLQLFTEFDKKDVCISLFENLNELKTLMNVISIYTEAHESEVGIVNTEGVNISENRSGVTVGIVANNKEGANVSPEIYEYRSFRDPSFNIDEIKEDIKFRINITKNRQKFDKRTDTVILTPKAISELLVPLLSYAITEENNYRGKTPLKENMDIKSGLKIIDDPTIPNSLYSRSFDSEGQQSKTNVIIDGKVKTFLNNWYWSLKAKKQETSSASRSYSTIPSISPSNIKIDFNEKLSADENYVVVDQVQGVHTSNFDTGDFSVVASVAWLSKEEKGIREMILTGNILNLLKGIEAEDHKYKQYNNVLTSNILVKGIYLT;locus_tag=LOCUS_18660;note=WP_011278452.1 TldD/PmbA family protein (Sulfolobus acidocaldarius) [pid:44.3%25%2C q_cov:99.0%25%2C s_cov:98.3%25%2C Eval:1.1e-83],MGA_1867
sequence1	MetaGeneAnnotator	CDS	1667282	1668619	.	-	0	ID=MGA_1868;product=zinc metalloprotease TldD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979571.1;translation=MHDLIAKAEDMGASFADLRYYKTKEISIVVTEDRQYVSVNGIDEGYSLRTLYEGNWGYSSFVKSKDNELENAIKSSYGNANVNIVYLPPKHDIVHIKPKKMIVKSPDEIANDLKLIKNELLKDERIKSVNIRYYQNDFYKEYHSTEDRDITLQYALSGLYISTVAREGDIVAAAFDGKSTYLGYPLEVFDVNEMISTLKKRINNQLKGVATKAGEFDTILAPDVVGVFSHEALGHLAEADIAINGILEPLRGKKIAPDYVSVVDSPNLSFDMAIGLTPYDDEGVEGREVKIIDKGVVSEFLVDRYYSAYLGEKPSGNARAEDFRSPVIIRMRNTYMLSGEWNLNEMIEDTKDGYLLSSPLGGQTSPDGTFQFGIQEGYKIENGEIKYPLRNVGISGYTLETLNRISAVSKEFDVWPGFCGKGGQSVPVGTGGPYIKVKIKVGGVA;locus_tag=LOCUS_18670;gene=tldD;EC_number=3.4.-.-;note=WP_010979571.1 zinc metalloprotease TldD (Sulfurisphaera tokodaii) [pid:61.3%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:8.2e-157],MGA_1868
sequence1	MetaGeneAnnotator	CDS	1668649	1669044	.	+	0	ID=MGA_1869;product=CopG family ribbon-helix-helix protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979570.1;translation=MNVEKISVSLPKDLVQELENFMKSNLASDRSKIFQIALRNYLDENEQDTKIVYGIINVVYDERMATEDFLTLQHENLDKIISTLHIHINERDCMEAIAVRGTKSDLVTLNSRLSQLRGIKKSRLLISYEER;locus_tag=LOCUS_18680;note=WP_010979570.1 CopG family ribbon-helix-helix protein (Sulfurisphaera tokodaii) [pid:53.5%25%2C q_cov:96.9%25%2C s_cov:97.6%25%2C Eval:1.6e-32],MGA_1869
sequence1	MetaGeneAnnotator	CDS	1669074	1669703	.	+	0	ID=MGA_1870;product=B3/4 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979569.1;translation=MGIFIAYTEVLGISNGKNNLEKEILEIEKKYSSQNPEELKDNPIVRAYRDFYWKIGVDPTKTRPSGEALRRRINRNGKLPRVNDIVDSGNIASADTLVPIGIYDMSKIRGDPSLIISSGNEIFYGIGKKDPEKVNKGIPILIDEEGKVMHIYPHRDSILTSVDLNTRNVLIVGAGVLNVDKELVIRAVNITCNLLSKLGGKIVHEVIIA;locus_tag=LOCUS_18690;note=WP_010979569.1 B3/4 domain-containing protein (Sulfurisphaera tokodaii) [pid:65.3%25%2C q_cov:94.3%25%2C s_cov:89.2%25%2C Eval:1.0e-73],MGA_1870
sequence1	MetaGeneAnnotator	CDS	1669700	1670626	.	+	0	ID=MGA_1871;product=homoserine dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846974.1;translation=MKLMLVGYGNVGKAFRSLIHERKINVEIGGIVTSKGAMFKDSEKFEVEKKIMAIDALEEIKPDIVVDMSVANYKDGEPSYSLYISALRQGIHVITTNKSPLALRFKEIMETAKMHNAKIGFQATVMSGTPSINLYKILPCMKIIKIRGILNGTTNYILTRMSEGSSYNEALKEAQEKGYAEANPELDINGFDSAAKLAILTNVYFQKNISINEVKFEGIKNINRNTIDDAKKTNSKIKLIAYADSKENYVSPIAIDQKDELFNVDYVNNALQIESDIEKITIIGPGAGPINAAYGALSDLILLIKGVL;locus_tag=LOCUS_18700;note=WP_052846974.1 homoserine dehydrogenase (Sulfurisphaera tokodaii) [pid:59.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-96],MGA_1871
sequence1	MetaGeneAnnotator	CDS	1670670	1671536	.	+	0	ID=MGA_1872;product=heme o synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846973.1;translation=MALSIPSKLIYYTKLSKPRIIWLLDLAALGGAFLASKIILVNLLAVLIGGTLASGGSMIINEGIEINKDKVMKRTSHRPTVMGYVSKKEAIVVGTFLLILGTLIGLIANPLSSMFILLGGLIYVLVYTIWLKPRSPLNIVIGGFAGSAAAWAGFAAMTGKLDLAAFLLGFLIFMWTPGHFWSLALRFKEDYDRAGIPMLPVIMPENFSARMIAISNALMIPFAISLYLFVGIPYLIVSVAMSILLMYFSIRLLKNPTGEEAWTSFKVSAPYLAIILLSIIIIRLITFI;locus_tag=LOCUS_18710;gene=cyoE;EC_number=2.5.1.141;note=WP_052846973.1 heme o synthase (Sulfurisphaera) [pid:58.1%25%2C q_cov:94.1%25%2C s_cov:95.2%25%2C Eval:9.2e-86],MGA_1872
sequence1	MetaGeneAnnotator	CDS	1671541	1672104	.	-	0	ID=MGA_1873;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979566.1;translation=MKSLERSNILIALTSVIPLVGGPITGYLLGRKIRDFEDSLVYLFMGFPLFILSSSILSFIYFRNYLYLVLIYAAISPFLVAYLISRKYENMQINVNEYYIEIKLEVPIDLEENTDPNVIFEKIFNKALKKMKNPYYYYKLKSLNSCSNLKVSLSENKMILRRRCGDIIIEIELTNKNVADMKVSISY;locus_tag=LOCUS_18720;note=WP_010979566.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:43.6%25%2C q_cov:95.7%25%2C s_cov:96.2%25%2C Eval:1.7e-39],MGA_1873
sequence1	MetaGeneAnnotator	CDS	1672170	1672943	.	+	0	ID=MGA_1874;product=enoyl-CoA hydratase-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846972.1;translation=METLDVKKENGIGWIYLNRPDKLNAINLKMINEIDSILKDFETDNEIRVVIFTGKGKAFCAGADISQFKELNTMTAWNFARKGRELMDYIERFMKPTIAMINGYALGGGLELAMACDFRIASEDSMLGLPEINLGIYPGFGGTQRLVRLVGKPKAMEIMMTGDRIRADEGERIGLINKVVTKESLEEETLKFAAKLLEKSPLILSILKNIILYGNDSPIVDGLNMESLGWGYVFSTEDEKEGVDAFLNKRKPNFKGK;locus_tag=LOCUS_18730;note=WP_052846972.1 enoyl-CoA hydratase-related protein (Sulfurisphaera tokodaii) [pid:68.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-99],MGA_1874
sequence1	MetaGeneAnnotator	CDS	1672948	1674003	.	-	0	ID=MGA_1875;product=AmmeMemoRadiSam system radical SAM enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979564.1;translation=MSKEAVLYKKEQNKIRCLACARRCLIGEGQIGFCGVRSVRNGKLYLDVYGKVAAAHVDPIEKKPLVHFYPGSRVFSFSTFGCNWMCMYCQNYDISQRRRAEGTELSPEEIVEMALSYESEGITYTYNEPAIFAEFAHDVGVIARKKGLFNTMVTNGYWTPELVEYVKEFLDAATVDFKGNGEEKFMKRYTGANGPEPIIETIKELNKKGIHVEITDLIIPQIGDSLEAAKALLRKIYDILGPDVPIHFLRFHPDYKLSYLPDTPVSTLEAHYKIAKEMGFKFPYIGNVPGHPYENTYCPNCGRMVIRRYGFSILEWHLTQDMHCEYCGYKLPIIGKLSKHAFDDRFEPVFI;locus_tag=LOCUS_18740;gene=amrS;note=WP_010979564.1 AmmeMemoRadiSam system radical SAM enzyme (Sulfurisphaera tokodaii) [pid:86.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.5e-188],MGA_1875
sequence1	MetaGeneAnnotator	CDS	1674036	1674470	.	+	0	ID=MGA_1876;product=DUF309 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979562.1;translation=MPKRYILFYPLIDVKDLNGVNVIDIRKCKFTEIDIIDSPDKVIKLLGIPLFIVDTDNIQGDFKKLFYECRFWEAHEVLEREWKKSSGELKKYLQALILICAAMIKFLKNQIDISDKLLQNALSLISELPKDLFPFFYVDIGLYS;locus_tag=LOCUS_18750;note=WP_010979562.1 DUF309 domain-containing protein (Sulfurisphaera tokodaii) [pid:52.0%25%2C q_cov:97.2%25%2C s_cov:97.9%25%2C Eval:1.2e-31],MGA_1876
sequence1	MetaGeneAnnotator	CDS	1674399	1674887	.	-	0	ID=MGA_1877;product=adenosine-specific kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979561.1;translation=MSVKIDVIRVEIPEGTNVILGQSHFIKTVEDLYETLASSSPSLKFGFAFSEASGKRLIRWDGNDTELINVAIENCKKIAAGHTFILYIKNGYPINILNRLKSVDEIVRLFAATSNPLQVLVAETDQGRGIIGVIDGYTPLGVESDIDIKERKEILRKFGYKR;locus_tag=LOCUS_18760;note=WP_010979561.1 adenosine-specific kinase (Sulfurisphaera tokodaii) [pid:81.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-74],MGA_1877
sequence1	MetaGeneAnnotator	CDS	1674922	1675308	.	-	0	ID=MGA_1878;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846586.1;translation=MNKTVLLALGVIILILTFAGVYLASSYKTSYSISTFSTQEVDGKYILKVQVIMNYGPFGGKSPLQDATVWVKNQNSFYQNFTNSQGIAEFYLPPGNYSVEVTQLNHYTLHVSMDNDKMISISYAYLRS;locus_tag=LOCUS_18770;note=WP_052846586.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:41.1%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:2.6e-25],MGA_1878
sequence1	MetaGeneAnnotator	CDS	1675364	1675912	.	+	0	ID=MGA_1879;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979559.1;translation=MLEKIIDGLKYSIKYDKSILRRYLILGAFDGILLATGVLISAAASKLSIQDTNLAVLSGIIAIAISSMWNSLVVEAKERKLEYEQLERQMMKRLKGTIYDYGMKSTIILSVISHGFSPFLGVFAVIVYDYTRDIFYGILISLIILFILGLSYEGDLKEKLQSGAIIIIAGIITVLITMLINH;locus_tag=LOCUS_18780;note=WP_010979559.1 membrane protein (Sulfurisphaera tokodaii) [pid:43.9%25%2C q_cov:98.9%25%2C s_cov:97.8%25%2C Eval:4.4e-40],MGA_1879
sequence1	MetaGeneAnnotator	CDS	1676161	1676700	.	+	0	ID=MGA_1880;product=cupin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979558.1;translation=METLERKDRQKELTENIIHLVNDIENNDLKVVTFMEYTSPPDKVKPKVVKFSKILKLLKAIAELGKVEEGVAKIMLYSPSTGRSRGLTPTMMAGFQLIEKGKVTKPHSHNMASIYLVVKGKGYSIVDNEKLFWEEGDVFVVPANAIHSHVNTGENDVILFDVTDSGLLENLGILEFKEK;locus_tag=LOCUS_18790;note=WP_010979558.1 cupin domain-containing protein (Sulfurisphaera tokodaii) [pid:62.6%25%2C q_cov:99.4%25%2C s_cov:97.3%25%2C Eval:2.9e-57],MGA_1880
sequence1	MetaGeneAnnotator	CDS	1676708	1677655	.	-	0	ID=MGA_1881;product=3-hydroxyacyl-CoA dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979557.1;translation=MIKHVAVIGAGLIGSGWATLLSTKGYEVSLYTDKKETLEKGLNKIKSYLDVMKSLNLVNKDSSEYLKNIKTTTNMDDAIKNAEFVLEAVIEDYNVKKNIFGYLDEILDKNVILASSTSGLLLTEIQKAMKNSPERSIIAHPWNPPHLLPLVEIVPGEKTSQETINATKQFMESLDRVVVTLKKEVPGFLGNRLAFALFREAVYLVDEGIATVEDIDKVMTAAIGLRWAFMGPFLTYHLGGGEGGLEYFFNRGFGYGANEWMSTLAKYDKFPYTGVVKAVQQMKEYESIKGKSFQELSKWRDEKLFKIYRIVWGKD;locus_tag=LOCUS_18800;note=WP_010979557.1 3-hydroxyacyl-CoA dehydrogenase family protein (Sulfurisphaera tokodaii) [pid:73.2%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:2.2e-131],MGA_1881
sequence1	MetaGeneAnnotator	CDS	1677736	1678329	.	+	0	ID=MGA_1882;product=haloacid dehalogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979556.1;translation=MPIEEIIDYINSIESKLTERSDNREKLLLMSRELIRLCGETISLSHRHKKEEAIKKYEEAIKKAKDIENIVSNYPELLYGDVGTSFQELAEASIILSFYFDVKLNLPEDLGIPDTYYITGIADSIGEMRRSVLELLRKDGNITEADKILGYMDNLYETLWKLEYPKSLVPGLRQKIDQLRRIIEETRHDVFLASLKI;locus_tag=LOCUS_18810;note=WP_010979556.1 haloacid dehalogenase (Sulfurisphaera tokodaii) [pid:59.7%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:1.7e-59],MGA_1882
sequence1	MetaGeneAnnotator	CDS	1678318	1678992	.	-	0	ID=MGA_1883;product=lysine biosynthesis protein LysX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979555.1;translation=MYRSLYAAAVFEGANVHTINSTEVINVAGDKILTYSKLFKEGIPIPDSIIAMSPDATLKAYEQIGYPLIDKPPIGSWGRMVSLIRDLFEGKTIIEHREMLANSALKVHIVQEYVKEKDRDIRCIVMGKELLGCYARNIPPNEWRANVALGGTPTKIEIDNKLKEVALKASAIVKGEFISIDILEHPKKGYIINELNDVPEFKGFMLATGINVPQKLIDYLKSNF;locus_tag=LOCUS_18820;gene=lysX;note=WP_010979555.1 lysine biosynthesis protein LysX (Sulfurisphaera tokodaii) [pid:76.8%25%2C q_cov:100.0%25%2C s_cov:79.4%25%2C Eval:1.0e-101],MGA_1883
sequence1	MetaGeneAnnotator	CDS	1679160	1682297	.	-	0	ID=MGA_1884;product=carbamoyl-phosphate synthase (glutamine-hydrolyzing) large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979554.1;translation=MEKILIIGSGPIKVAEAAEFDYSGSQALKAVREEGIQTILVNSNVATVQTSYKFADKIYMVPVTWWSVEKVIEEERPDGIMIGFGGQTALNVGVDLHNHGVLKKYGIKVLGTPIEGIEKALSREKFRETMIDVGLPVPPSLSAQSEEEALKKAKEIGYPVMVRVSFNLGGRGSIVAWNEDMLKKDIGRALSQSYIHEVLIEKYLYHWKELEYEVMRDKKGDSAVIACIENLDPMGTHTGESTVIAPCQTLDNYEYQNMRTESIEVAKSIDLVGECNVQFALDPNSYSRFVIETNPRMSRSSALASKATGYPLAYVSAKLALGYTLEEIINKVSGSTCACFEPSLDYVVIKIPRWDLQKFENAEESLATEMKSIGEVMSIGRSFEEALQKAVRMLDIGEPGVVGGKIYNSFITKEEIFGKLDKKYPYWFLYVAKAFTQGASIDEIYNSTGIDKFFLLKIKRIVDFYEGLKTSKIISNDILLEAKKLGFSDEQIASAISTKTNDITKKRLEANLLPYIKQIDTLAGEWPAVTNYLYLTYNGQEDDIEFSPSANKLLILGAGGFRIGVSVEFDWGVVSLLDAVSKYFDDVAILNYNPETVSTDWDIAKKLYFDEISVERIIDLVQKEKFRYVATFAAGQLGNSIAKALEDNGINLFGTSGKSVDIAEDREKFSTLLDKLNLKQPAWISARSFDDVKKFVDSVGYPVLVRPSYVLSGSSMRIAYNDEELYEFIKRAKISTKYPVVVSKFMEDAIEAEIDAASDGKGVIGTILEHVEEAGTHSGDATMSIPYRQLDENTAKFMKEAALRLAREIEIKGPFNLQFVIKDNVPYIIELNLRASRSMPFTSKAKGFNLIEKAVDGIVRGLALDEFYEPPSKYWAVKSPQFSWAQIKGAYPFLGPEMRSTGEAASFGVNFNDALLKSWLSAMPNRIPEKGKSALVYGKGNNEYLKKSAENLSKFGMNVYTLSEQKLADFPDIRNKDALNMLTQGKIDIVITNGYLKNIDYEVRRTAVDYNIPLVLNGRLGYELSKSFSCKSITFFELKKYRGEA;locus_tag=LOCUS_18830;gene=carB;EC_number=6.3.5.5;note=WP_010979554.1 carbamoyl-phosphate synthase (glutamine-hydrolyzing) large subunit (Sulfurisphaera tokodaii) [pid:73.2%25%2C q_cov:99.6%25%2C s_cov:99.2%25%2C Eval:0.0e+00],MGA_1884
sequence1	MetaGeneAnnotator	CDS	1682299	1683399	.	-	0	ID=MGA_1885;product=glutamine-hydrolyzing carbamoyl-phosphate synthase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979553.1;translation=MTLCRRGYKAYLYLEDGTLLEGCGFGARAVKAGEVVFTTAMNGYPESLTDPSYKGQILVITHPLVGNYGIPNKEIENGILKNFESERIQIEGLIVAEETEPKKWNSSKSLHDWLKEEGIPGISEVDTRMIVKRVRSKGAMMGVLASGYELDEPRKFLEKRYDEIDFTKFTSPKSPIIHPNGNNIIVVVDCGTKHGILYELYKRGFTIVRVPCNFSAENIMDYMPKGVVFGNGPGNPNLIRDVVKTFKDLTEYRVPILGVCLGHQVATLALGGGVKKMKYGHRAINKPVIDTTDGKCYITTHNHGYGVFKNDIPPSSKVWFYNPDDGIIEGLIHEKLPIITTQFHPEAKPGPNDVTWVFDKFKKMVI;locus_tag=LOCUS_18840;gene=carA;EC_number=6.3.5.5;note=WP_010979553.1 glutamine-hydrolyzing carbamoyl-phosphate synthase small subunit (Sulfurisphaera tokodaii) [pid:75.0%25%2C q_cov:99.7%25%2C s_cov:98.9%25%2C Eval:3.4e-171],MGA_1885
sequence1	MetaGeneAnnotator	CDS	1683374	1684720	.	-	0	ID=MGA_1886;product=argininosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979552.1;translation=MLYRKWGSKNDEVIKYTSSIDSDKEIFQEVKLVMKAHVIELYLDKIIDKKISKKILDAINNFNELPEGYEDIHEALEDFIIKNVGEDGGWIGLARSRNDHVATALRLKMRAEIIEILESIIELRKLLIEKSKVFKNVLFPSYTHFQPAQPTTFSHYMLYIEEELSSRWNILFSVLKNINRSPLGSGAVVGTNTAINRSREAELLGFDNIIINTISATASRADLISSVSEITNLMISMSRIAEDMILLSSSFTGYVKIPDSQVSTSSLMPQKRNAVTMEILRSKGGECIGILTSVMSIYKGIPSGYDLDLQEINKNLWNCIKIAKSSLEVLKDLFEGIEILNKEIDKSTLATDEAEKIANEGKPYRQAYFDVADKVMHGSFSPTITLNESIELKSVSGSPNPKILEEDLKLIGKRLDLDKLSLSEYKSLIVSKMGQLRVIEDDIMQEGL;locus_tag=LOCUS_18850;gene=argH;EC_number=4.3.2.1;note=WP_010979552.1 argininosuccinate lyase (Sulfurisphaera tokodaii) [pid:60.1%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:1.4e-151],MGA_1886
sequence1	MetaGeneAnnotator	CDS	1684723	1685907	.	-	0	ID=MGA_1887;product=argininosuccinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979551.1;translation=MSKMKIILAYSGGLDTTVSIRWLRESFNADVITVSVNVGQEDDFKKLEERAYAAGSAKHYTIDAREEFAKNYIAYDIKMNGLYEDVYPLSTALARPLIAEKTVEIARKENTTYIAHGSTSKGNDQVRFDLAIKATMPNATIITPARVWKMTREDEVEYAKEKKIPIKIESTKYSIDENLWGRSIEGDIISDPSKEVPEDAFEWTKKEKNGKTKISIEFDNGVPTRINGEKMNLVDLIRFLNSEIGKYGFGRLEHLENRIVGFKSREIYEAPAALLLIKAHKDLEKTIYTPLEYRFKKNIDQEWSDLVYEGLWYEPLRETLQNVGNEMNKWISGEVKMEIEGNGVTIVSRDSPYSPYSDKIASYNKGWYPSEEMAKGFIEIWGMHSLLARKMRYG;locus_tag=LOCUS_18860;EC_number=6.3.4.5;note=WP_010979551.1 argininosuccinate synthase (Sulfurisphaera tokodaii) [pid:72.5%25%2C q_cov:98.7%25%2C s_cov:99.7%25%2C Eval:1.4e-173],MGA_1887
sequence1	MetaGeneAnnotator	CDS	1685995	1686189	.	-	0	ID=MGA_1888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFKLKHFYFNNIFSTLMYMRKVISVRLKEDILREIDKQYKDMGLESRTEFIKKALEFYMKRRM;locus_tag=LOCUS_18870;note=WP_052846583.1 ribbon-helix-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:60.0%25%2C q_cov:70.3%25%2C s_cov:93.8%25%2C Eval:1.5e-09%2C partial hit],MGA_1888
sequence1	MetaGeneAnnotator	CDS	1686233	1686682	.	-	0	ID=MGA_1889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979550.1;translation=MKPVDIKSLINYVSLKILGGSDYLLDALEEYLVNGEGPAIVAHKYNISKHQLRGYAQRIIEKSGSEIRAKKIIPILKQMAVDVKPIVVRDENGVYTCTLCNTVVAKEDSEEHVRKYHKDMLTLAITNMSEKLDEIRAKKEKPVIFTSAS;locus_tag=LOCUS_18880;note=WP_010979550.1 hypothetical protein (Sulfurisphaera) [pid:66.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-53],MGA_1889
sequence1	MetaGeneAnnotator	CDS	1686739	1687704	.	-	0	ID=MGA_1890;product=phosphoribosylformylglycinamidine cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979549.1;translation=MVKYSDSGVDLNKLKDYHAYISKIVSSTYKNTIVGAGHYSGIIDINGVKIALHTDGVGTKTLLASRTGKYETIGIDCVAMNVNDLVSVGAKPMAIVDYIAMEKPMDKELDQLIRGLVKGSKEAETEIVGGETAIMPGVINGFDMACSALGVVNQPKLGNDVKPGDYILGLRSNGIHANGYSLIRKLIDDGKLSLKDWENELMAPTRIYVKEVLGVLDKIKAAAHITGGSFTKLRRITKYGLELHLPEPQEIFKEIEKAGVPHDEMYKVFNMGIGMIIFTSQEYMEDVKNFLEKYDEVFEIGKVIEGSSINIITYKNVILHL;locus_tag=LOCUS_18890;gene=purM;EC_number=6.3.3.1;note=WP_010979549.1 phosphoribosylformylglycinamidine cyclo-ligase (Sulfurisphaera) [pid:57.5%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:1.7e-107],MGA_1890
sequence1	MetaGeneAnnotator	CDS	1687698	1689131	.	-	0	ID=MGA_1891;product=phosphoribosylamine--glycine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979548.1;translation=MKVLLIGDGARENALAKAITKSSNDYTLYAISSFINPGIKENVEKSRGTYFRGDINSKDYVKTIIRKISPDFGIIGPEDPLFNGIGDVFREEGIPVVGPSSKGSTIEKSKVWMRNLMWKYKIPGRLRFKAFDSMQAAAKFVSEYGGSIAIKPSEQVGGKGVKIVADLQAYLSQDKRSAASRSVEEIGNLVKDEIKIIIEEKVDGPEYTLHVLTDGYTYLPLPLAQDYKHAYQDGIGPETGGMGSISGPGKYLPFITEEEYEKTFEIVKQSTEAINKETDENYIGFISGQMMLTDLWGPTVIEFYSRMGDPETAAIVPRISSDFGEILELTAEKRLNRAKLEVMDEPAVVRAFAPLGYPLNKDIAKGNIISININKIRENGCDVFFGAVSLENNQLITTGSRALELVAIGDYQTAVKKLDICTSFISSSSKLIYRTDIGRSIEDQIEKAEIVRYSYKNRERKGILGVSADWSPNGGLW;locus_tag=LOCUS_18900;gene=purD;EC_number=6.3.4.13;note=WP_010979548.1 phosphoribosylamine--glycine ligase (Sulfurisphaera tokodaii) [pid:67.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-196],MGA_1891
sequence1	MetaGeneAnnotator	CDS	1689132	1689422	.	-	0	ID=MGA_1892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTGLTLKNTVNSLRRMGAKEVHVLIGSPKLISYCPYGVDVPKSSDLIAANLNDEEIAKVIGADSIYWLSLKGLYDVIGIKSICVGCMTGNYPKVI;locus_tag=LOCUS_18910;note=WP_010979547.1 amidophosphoribosyltransferase (Sulfurisphaera tokodaii) [pid:81.2%25%2C q_cov:100.0%25%2C s_cov:23.6%25%2C Eval:2.6e-38%2C partial hit],frameshifted%2C insertion/deletion at around 1689442,MGA_1892
sequence1	MetaGeneAnnotator	CDS	1689440	1690345	.	-	0	ID=MGA_1893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEKMAGIIGIMAFDKIWNISKFLYYSLIGLQHRGYLRSGVVTLNNGFSKIQGEKPPEDLKFSLDGWAGIGYTGNSAYYPIIFDDVAIVVDGIIKNKELLNKVNKDPDTTLKELKGAFSLIALTKEGQIIAYRDESGLKPLSIGAFGFDMAIVSSENVGINVIGGETRREINPGEMIIIDKYYIDSVKLKESNKSYCSIEYIYQSRIDSKINEREIYSLRVKIGEQLAKEKPLKGDTIIGVPDTALPFAVGYSRVSGIPLDLGFARTGSPIRTMLADDSFMKVVGVQLKLNTIKSAVYGKR;locus_tag=LOCUS_18920;note=WP_010979547.1 amidophosphoribosyltransferase (Sulfurisphaera tokodaii) [pid:60.8%25%2C q_cov:98.7%25%2C s_cov:74.7%25%2C Eval:1.4e-100%2C partial hit],frameshifted%2C insertion/deletion at around 1689442,MGA_1893
sequence1	MetaGeneAnnotator	CDS	1690338	1691678	.	-	0	ID=MGA_1894;product=amidophosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979546.1;translation=MIKEHCGVFGFIGNNSIKYTYEGLKLLQHRGQESAGISYINANDLITQKGLGLVEEALDENITLNDSKISIGHVRYSTTGKTSLKEAQPLSNEKISIAFNGTITNYFEFGKYSTDTEFILDFIDKDIKEGKSIVSAIKHFMDIADGAYSMLIMTKEGEILAVRDPKGFRPLVMGKIGQNLVFSSEDSAIKQLGGKVIRDIKPGEIIRAKNSEIVSERIENSRVSTCAFEYIYFSRADSTIDNISVYEARIKLGEVLYDKHPANADIVVPVPDSSRPIAIGFSRKGKIPLEEALIRTIASKRSFIMPTNDKRNEVIEEKFGVVENAVRDKRIVLIDDSIVRGNTMKRIVSFIRNAGAKEVHIRIGSPPIKFPCYMGIDFPSRKELIASSKSENDIAQYMGANSIEYLTVDEMIKAIGRETLCTACFSGIYPLRNRYPIDKLESIFNG;locus_tag=LOCUS_18930;gene=purF;EC_number=2.4.2.14;note=WP_010979546.1 amidophosphoribosyltransferase (Sulfurisphaera tokodaii) [pid:64.3%25%2C q_cov:99.3%25%2C s_cov:98.6%25%2C Eval:2.0e-163],MGA_1894
sequence1	MetaGeneAnnotator	CDS	1691675	1693783	.	-	0	ID=MGA_1895;product=phosphoribosylformylglycinamidine synthase subunit PurL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979545.1;translation=MVNLTQYEIDYVKKALGRDPNEAEWKTIDALWSEHCSYKSSKIFLRSFPSEGKGVIMGIEDWQDAGAVDIGDNYAIVIKVESHNHPSAIDPFNGAATGVGGIIRDIISKGAKPLALLDMIRVGNLSDNKNKWLLKNIISGIGFYGNSIGVPVVGGELAFDNSYSDNPLVDIACVGIVNKNKIKPSIVNRKGLKIVIAGLTGIDGLGGASFASRKLSGEDEIGAVQIADPFAGKIIMDVTLEIQDKVEAIKDLGGGGLAVAVTEMSNGLGVVVSLDKVPLRVKDMRPEDILVSETQERMLYAVKDENVQDVCKAFEYYDYPCSVIGEITGDGVVRFTYNNKEIVSLSSDLLLYPPLYAWPIEEKKESNEVKPNIEIKTAIEKILLNPDLVSKEWAYSQFDYEVGTSTVLKPGMADSSVISLPNGKLLAIKGDANPDLCEEDAYECGKYIFAEAYKNLASVGSKGIVAVDHLQFGDPKRPEIYNDFVESVRGIGEAARFFSIPIVGGKVSFYNENKNNIPIKPTPLIVMAGLIEGKLLKPRIEEGNIVILGYTRNEMRGSLFSKIFGKYGNIPKSRLQEDLLASEITLNLINDDKIYFAKDVSRGGIIGSLMPILAYGYTVSIDTSKIIGTEDIYAKLFSENSGRFVFITSDPFSISDLAKKKGMIASTIGKVRKGNYLEIDSLKFNISHIIDHYYNYLRDEIE;locus_tag=LOCUS_18940;gene=purL;EC_number=6.3.5.3;note=WP_010979545.1 phosphoribosylformylglycinamidine synthase subunit PurL (Sulfurisphaera tokodaii) [pid:69.7%25%2C q_cov:99.1%25%2C s_cov:99.0%25%2C Eval:9.5e-286],MGA_1895
sequence1	MetaGeneAnnotator	CDS	1693777	1694445	.	-	0	ID=MGA_1896;product=phosphoribosylformylglycinamidine synthase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846582.1;translation=MKTAIIKFPGTTCDNDVLKALNEIKIDAEIVRYKDFDPDKYSSVIIPGGFSFGDYLRAGSIAANTETMKRVREMADDGKIVLGICNGFQILTESGLLKGALLPNLNLKFISKWVNIKVVRNNTLLTKKLQKKVLRMPIAHAEGRFFLNEEEAKDLMVFQYSDEKGNIEEKYNPNGSILNIAGIANEEGNIIGLMPHPERASFNLTSIDGSTDGLLLLRGLKW;locus_tag=LOCUS_18950;gene=purQ;EC_number=6.3.5.3;note=WP_052846582.1 phosphoribosylformylglycinamidine synthase I (Sulfurisphaera tokodaii) [pid:72.1%25%2C q_cov:99.5%25%2C s_cov:99.6%25%2C Eval:6.8e-90],MGA_1896
sequence1	MetaGeneAnnotator	CDS	1694426	1694692	.	-	0	ID=MGA_1897;product=phosphoribosylformylglycinamidine synthase subunit PurS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846581.1;translation=MFKVELMILNKEGIRDPEGETIQRYIAKKNSDKIKNIRVGKYLLFDINANDEVEARDIVYKLANENRLYNPIVHKIDIRVNKIEDCNN;locus_tag=LOCUS_18960;gene=purS;note=WP_052846581.1 phosphoribosylformylglycinamidine synthase subunit PurS (Sulfurisphaera tokodaii) [pid:61.4%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:1.0e-26],MGA_1897
sequence1	MetaGeneAnnotator	CDS	1694692	1695399	.	-	0	ID=MGA_1898;product=phosphoribosylaminoimidazolesuccinocarboxamide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979542.1;translation=METRKIGEGKTKEVYSYDASHVLLKFKDSITAGDGAKADILKDKGVINAQTSAIIFRVLERNNIKTHYVGMYDERTMIAEKLSMIPVEVVLRNIATGSIVKRLPIKEGEVFEPPIIEFFLKDDSRHDPMLNYYHMEFFKLMKKNEAEKIESIMLKVNKILLDLINRMDFVLYDFKLEFGRNNNELIIGDEITLDSMRIRDKNGRILDKDLYRKGYPLDIVASSYREFLDKLSKVV;locus_tag=LOCUS_18970;EC_number=6.3.2.6;note=WP_010979542.1 phosphoribosylaminoimidazolesuccinocarboxamide synthase (Sulfurisphaera tokodaii) [pid:73.5%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:7.7e-95],MGA_1898
sequence1	MetaGeneAnnotator	CDS	1695508	1695846	.	+	0	ID=MGA_1899;product=methionine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979541.1;translation=MEITIDDFAKIEMKVGIVKKAERIEGTKLLRLIIDVGGEDRQIISGIAEYYTPEQMINKKVIVLTNLKPKMIRGYESQGMILAAGCKEDEEKGIKPSLLTPDSEVPSGTRIC;locus_tag=LOCUS_18980;gene=metG;EC_number=6.1.1.10;note=WP_010979541.1 methionine--tRNA ligase subunit beta (Sulfurisphaera tokodaii) [pid:73.9%25%2C q_cov:99.1%25%2C s_cov:98.2%25%2C Eval:3.8e-45],MGA_1899
sequence1	MetaGeneAnnotator	CDS	1695840	1696805	.	+	0	ID=MGA_1900;product=50S ribosome-binding GTPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979540.1;translation=MLNPFEKVKCPPKINDMIKIQLDRLPKIAGENIKDREIRRLISYRDNLKKYLEFIRSLPKIDKLHPFYRESVEIIAKKSSKEIDFCVLIAMRTINLSIKILNEYISNIKRSDQSLSNRLMRQGFGRASSVLRKDRCIDWLIDLIKELKKLKAINPDLPTVIVAGPPNVGKSTLVSKISSAKPEIASYPFTTKEIHVGHIDWNYTKIQVIDTPGILDRPNEKRNEIEKKALNAIKNLNGIIVFLFDVSKYSIYSAKEQLDLYNEILQFNKKIIVAINKIDDADNSLLENIVKSLDVPFLRISAEQGSGIEDLKNKIFQILQE;locus_tag=LOCUS_18990;note=WP_010979540.1 50S ribosome-binding GTPase (Sulfurisphaera tokodaii) [pid:57.6%25%2C q_cov:99.7%25%2C s_cov:95.5%25%2C Eval:2.6e-100],MGA_1900
sequence1	MetaGeneAnnotator	CDS	1696809	1697438	.	+	0	ID=MGA_1901;product=7-carboxy-7-deazaguanine synthase QueE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979539.1;translation=MRYWIIEIFTSIQGEGDVIGYPSNFIRLAGCNLRCVWCDTKYSWIRHDGKEMSIEDILQNINLNIKYTTITGGEPLLQNIEPLAKTLKEYEHFIIVETNGTIKPSEELKKLVDVFSVSPKLSNSGFKINYNFEDDWASYYKFVIDKVEDLLEVKSFIEKHNINPKKVIVQPNGLSKDYIESLRELADAIMRMNLPFRVLPQLHRIISYR;locus_tag=LOCUS_19000;note=WP_010979539.1 7-carboxy-7-deazaguanine synthase QueE (Sulfurisphaera tokodaii) [pid:63.9%25%2C q_cov:98.6%25%2C s_cov:98.1%25%2C Eval:5.9e-77],MGA_1901
sequence1	MetaGeneAnnotator	CDS	1697361	1698005	.	-	0	ID=MGA_1902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979538.1;translation=MSSWQDFKKKALERINHDKEIGYLDPDIYDLLMAFFKREKTYTYSSCSGRITIVDSILPWVRKNSTIVFKNHLGITEEDVIDILNKGQLYRLWLITQGPIVHAYTEDEEEAWKIIKIARDAGFKHSGILTKNSKGILVELRTGIRFVHLIRENEEQKINSEDVSRLVKISNEILLSGKEKMRNLQNILELSVGNNSVKLGENSERKVHSHYSIG;locus_tag=LOCUS_19010;note=WP_010979538.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:54.7%25%2C q_cov:99.5%25%2C s_cov:98.1%25%2C Eval:7.5e-67],MGA_1902
sequence1	MetaGeneAnnotator	CDS	1698044	1698421	.	+	0	ID=MGA_1903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979537.1;translation=MKIEEILKDFLAKEEREIEVKDQIEGEFNEEIPLGTKVVINYNGRRRIVDLGFLYIISKCNKNFVKDYLDMSFSLRYIHRKYKVYTEIEYAALFCMEFINDPDIRAALEKLKTYILSRENMEHGL;locus_tag=LOCUS_19020;note=WP_010979537.1 hypothetical protein (Sulfurisphaera) [pid:42.1%25%2C q_cov:92.8%25%2C s_cov:97.6%25%2C Eval:2.5e-17],MGA_1903
sequence1	MetaGeneAnnotator	CDS	1698411	1699763	.	+	0	ID=MGA_1904;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979536.1;translation=MDFDVVVIGGGVGGLAAALRSAQLGKEVALIEKDRVGGECINRACIPSKTLIDAVKILSKTKNSPWIDTNGKINYEKLNEYKGKIINSLRENFIKNLNKFNVKIINGIGKIKSSNEIQVNNETIVSDKMVIATGSSPISLPDFPLNDRNVLDPWSAMNLPELPQSIIIVGGGVAGVELATLFRALGKDITILELMPQLLPGFDKDIANETKKRLEEKGINIFLNAKSKVIENKDKVRFSVNLPTSSETIEGDLAVITIGRKANNDNLGLNNANVDVDQRGYIKVDNRAMTSNHKIYAVGDCAGIPLSATKAWRQGIVAGDNIGGKDNFMPKYIPISIFADLEIGLIGKTLDEAKKTGIEAREIKVDMSSIPRAWTVNEIEGFLKLVIDNDGKILGAHMIGEGATEIINTIALAMENNLTMKDIYRVTFSHPTLTEVLSEASQRYYYGEIY;locus_tag=LOCUS_19030;note=WP_010979536.1 NAD(P)/FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:60.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.7e-158],MGA_1904
sequence1	MetaGeneAnnotator	CDS	1699788	1700093	.	+	0	ID=MGA_1905;product=winged helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979535.1;translation=MNDKERKQVKKMLKFLFFSSKGGKTRLNIIKLLQNSPLNANQISEKLNLDYKTVIHHLEVLIENKIIIKEGEKYGAKYKLSSEYYIFKDVFDELLKEAKQS;locus_tag=LOCUS_19040;note=WP_010979535.1 winged helix-turn-helix domain-containing protein (Sulfurisphaera) [pid:52.5%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:1.1e-25],MGA_1905
sequence1	MetaGeneAnnotator	CDS	1700119	1700610	.	+	0	ID=MGA_1906;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKDLAEVLTDVRIARNKIKLWNSRIGNKILQYQKLSTANATRYSILAEQYAKESEQLEKITSYLDKLDILLEMLEIKIETIISVGHIVNDAPKIVEALKIFKNITPSLSSEFSLMIDNISSNFYSSIEIPQDIKIKATQEAQAILDEADSILNQKNIKVKA;locus_tag=LOCUS_19050;note=MGA_1906
sequence1	MetaGeneAnnotator	CDS	1700634	1701644	.	+	0	ID=MGA_1907;product=phosphate uptake regulator PhoU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979533.1;translation=MQNRLVRKIQLTGGSTYILSLPKSWIRQLSLKAGDEIEIIQDKNLRLILTPNSTPQKQEKAIINCENLKSDLATREFIAYYMAGYITVTLSCNRMKAEDRAAIKETIRRRLLGAEVVEEDANSLTVQFLVNEKDLPISKAISRASTISQNMLKDVLIAMEDWDIDIANEVIERDDEVDRFYFYISRQLSLSVSNFEILEEEGYNIAQIVDIHSTIKSIERIADHSTRIASLVPQLHGVKDQELLNLGKTVLEMYKRATTAFLENRKDLANNIIEQDSEINEIHKKISSKILSSDSPYKIGLLISADSFRRISRYSLDIAESTINIMAKSGNNIDKV;locus_tag=LOCUS_19060;note=WP_010979533.1 phosphate uptake regulator PhoU (Sulfurisphaera tokodaii) [pid:51.1%25%2C q_cov:97.6%25%2C s_cov:97.1%25%2C Eval:7.7e-90],MGA_1907
sequence1	MetaGeneAnnotator	CDS	1701648	1702310	.	-	0	ID=MGA_1908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979532.1;translation=MSAKEQKLDKNNKSLNIAKLYRLLTISEDLHEITGVPPTTDLEYVYVKDIPEDENYEIVRVGSGKFQYQILYSQIAYEYIEFLKDVMVPYANRTMSNEIEFMNIILKSGEYLILEGDEDKVSLPIPEGIGVAHTHPGICLFSHKDIETADNTFIKGYVINSVLNPHCISSIFRKGAYTLDDRENLLSLAKSVKKAKTMDSLVSAYKKFSSENLVFEYKNI;locus_tag=LOCUS_19070;note=WP_010979532.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:42.2%25%2C q_cov:98.6%25%2C s_cov:95.8%25%2C Eval:8.5e-45],MGA_1908
sequence1	MetaGeneAnnotator	CDS	1702282	1702938	.	-	0	ID=MGA_1909;product=orotidine 5'-phosphate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979531.1;translation=MNKIILALDEPLDYKILKDISSQVAGIKIGWPLILEQGLEGIKNILKNFDNNIIFDLKLADIDSTMIKITTHLKNLGDSFIVHAFVGYNESIRELKEFLDKENKKMYLVSSMSHKGWNDNFYPYIKEVIKMTNPYGLVAPATRPKILKTVKKDFPEKIIISPGIGAQGAKIGDALCNGANYEIIGRSIYNSKDPIGTILEFQKIQEERLNECKRAETR;locus_tag=LOCUS_19080;note=WP_010979531.1 orotidine 5'-phosphate decarboxylase (Sulfurisphaera tokodaii) [pid:53.5%25%2C q_cov:97.7%25%2C s_cov:99.5%25%2C Eval:1.7e-61],MGA_1909
sequence1	MetaGeneAnnotator	CDS	1702931	1703509	.	-	0	ID=MGA_1910;product=orotate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979530.1;translation=MSIGDILLDRKLLLIGDFILTSGKTSPYYLDLRRLPNYPEFFQIVNDSIKVIEKLDYDMIIGIATGGIPLASFLACKLGKTMGYIRLEKKGYGTDKLLEADVEGKKILLIDDVATTGGSIEKASKEIINNGGKIVGAFVIVDRKEGAKERLKEIGVDLYSLYNIEYILKSVLNRVSQNEKKIIEDYLVKNIE;locus_tag=LOCUS_19090;gene=pyrE;EC_number=2.4.2.10;note=WP_010979530.1 orotate phosphoribosyltransferase (Sulfurisphaera) [pid:63.0%25%2C q_cov:96.9%25%2C s_cov:96.9%25%2C Eval:1.0e-61],MGA_1910
sequence1	MetaGeneAnnotator	CDS	1703572	1704465	.	+	0	ID=MGA_1911;product=aspartate carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979529.1;translation=MKNIISSYDFSREDFLSIFELTDDIITGKIKPKLNDKIISVAFFEPSTRTATSFITAALKLDAKVVGFTSPEGTSIAKGENLADTVRMLEGYSDCIIIRHKYDGAAKFASEISQKPVINAGDGKHEHPTQSLIDLYTVYKKFGEVDNLTYALFGDLRYARTINSILRALTRFKPKIVYLISPPQLKARKEIVQELNYEIKELENPFDIISDIDILYVTRIQKERFPDEVEYEKIKESYIVDQKLVEFMKRDSIILHPLPRINEIDRRIDSLPQAKYFYQASLGVPIRMSLLYKIIGE;locus_tag=LOCUS_19100;gene=pyrB;EC_number=2.1.3.2;note=WP_010979529.1 aspartate carbamoyltransferase (Sulfurisphaera tokodaii) [pid:65.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-111],MGA_1911
sequence1	MetaGeneAnnotator	CDS	1704468	1704935	.	+	0	ID=MGA_1912;product=aspartate carbamoyltransferase regulatory subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846971.1;translation=MENGLIVSKIKNGTVIDHIPAGRALAVLKILGIKGNEGSRVALVMNVESKKMKTKDIVKIEEREIKEKEAELITLIAPSATINIIKNYEVVGKRKIGIPDKVKGLLRCPNPSCITNNDVEAISIFTTISKNPILLRCDYCETQIGEEEVLRQILS;locus_tag=LOCUS_19110;gene=pyrI;EC_number=2.1.3.2;note=WP_052846971.1 aspartate carbamoyltransferase regulatory subunit (Sulfurisphaera tokodaii) [pid:66.7%25%2C q_cov:96.8%25%2C s_cov:92.5%25%2C Eval:1.9e-47],MGA_1912
sequence1	MetaGeneAnnotator	CDS	1704932	1705507	.	+	0	ID=MGA_1913;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846579.1;translation=MNYGKILSINKIGNISQIQIEIEFKVKPGQFISLVLPKMEIPLSIGDYKNNILELHISSANIVNILSHRREVIVKGPLGKPIELKGKVLGIAEGELYYDILFPLREAKRNGLDVAVNCTGCNSEFRKPDSNEKWDTILASVKNVKTLPRDALVYLRWIKMNCMLGVCGACEINGYLPCIEGPFLEVSKIVD;locus_tag=LOCUS_19120;note=WP_052846579.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:50.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.5e-45],MGA_1913
sequence1	MetaGeneAnnotator	CDS	1705497	1706654	.	+	0	ID=MGA_1914;product=dihydroorotase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846578.1;translation=MWIKGKAFIKDNIEDCCIEFDRKIKQIKKDCKPDISFNSSSLILPGSLDMHVHTRGMLLSYKEDIITATSEAAYGGVTTIVDMPNTKPYINTHERVLSRLREFENYSRTDYGIYSGVTDDNRVDEDPIAGYKIFPEDLEKPELKSILSSKRLKIIHPEIPISNNSFRNLREMWQELASLYFVQGKIHVTHATNYNTIELAKKFGFTVDFTPHHLLVSGEKDCLSKVNPPIRDKTEQNKLIRALFEADTIVSDHAPHTSKEKNMPYEICPPGIAAVSFTTPFVYTMFKKGIISLQRAVELVSKNPAKILGVNLGEIKEDKIANFTIISFNDWRYHTKFSKVLETPLDEFPLEANILTTIVEGKIAYDGEEVYPIRGVNIFDKSGNT;locus_tag=LOCUS_19130;gene=pyrC;EC_number=3.5.2.3;note=WP_052846578.1 dihydroorotase (Sulfurisphaera tokodaii) [pid:63.3%25%2C q_cov:99.2%25%2C s_cov:98.7%25%2C Eval:1.1e-146],MGA_1914
sequence1	MetaGeneAnnotator	CDS	1706632	1707504	.	+	0	ID=MGA_1915;product=dihydroorotate dehydrogenase PyrD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846577.1;translation=MINLGTLNFNDPIIIPSGIIPDVKKVIQDICTKYKPSAITTKTLTKNPLSPHNPPTILKFHDNCYINAIGLGNPGMTFINDLHIGCKLFISIGGKSVQEIKEVAEFAQNKADLLEINISSPNRKGYGASLANDVYKIVKDVKGSVSKPVFVKLGPWDNILEIAGKALEAGADGLTLINTLKGLLIDVESLEPILTYETGGISGKCIYPLSLRIISEVYKEYEPSIIGVGGVFSYKEVIGLMSVGAKLVGIGTAIIDKGYDIINEIRRDLDLYLNQKGLKLEDIIGKAVKR;locus_tag=LOCUS_19140;gene=pyrD;EC_number=1.3.1.14;note=WP_052846577.1 dihydroorotate dehydrogenase PyrD (Sulfurisphaera tokodaii) [pid:59.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-95],MGA_1915
sequence1	MetaGeneAnnotator	CDS	1707501	1707806	.	+	0	ID=MGA_1916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979524.1;translation=MTSRTVMKGRDLEGLVFLGKIDSVTIEFCSDDKKNAKVVAKTTDGEEVESECIPVRAAGKITTVMKHYLRMGIGKYIVTNEKVTGSIDTEGEDETQDRQTS;locus_tag=LOCUS_19150;note=WP_010979524.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:57.0%25%2C q_cov:96.0%25%2C s_cov:97.1%25%2C Eval:3.9e-26],MGA_1916
sequence1	MetaGeneAnnotator	CDS	1707778	1708080	.	+	0	ID=MGA_1917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979523.1;translation=MKLRIDKLPKSDEDLQEIQREIESQHHHNDEPNIEEVLGELYSGIQSMEGRINNIESDSKKCKEEISRIYKILGKMLIALATNDQNEKIKNLKDILNLLE;locus_tag=LOCUS_19160;note=WP_010979523.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:52.3%25%2C q_cov:85.0%25%2C s_cov:85.4%25%2C Eval:2.2e-21],MGA_1917
sequence1	MetaGeneAnnotator	CDS	1708083	1708682	.	+	0	ID=MGA_1918;product=MarC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979522.1;translation=MELSQTLVIAVKLFAIMDPFSIIPYILAMFEEFSQNDPKVTWRFLVNKVEIAVIVLLLLFSIIGKPMLDFLGIKPVSLEIGGGIILIYLGIDTMGGFQQLRFMSKSITEAVVTPIATPLIVGPGTMTALVSLSVTFNVFYLIIGSLISAFLVYVVLMMGPLLIKALGRTGTVAAGRFTAIIIAAFGVQLILEGISQINL;locus_tag=LOCUS_19170;note=WP_010979522.1 MarC family protein (Sulfurisphaera tokodaii) [pid:66.5%25%2C q_cov:98.0%25%2C s_cov:97.0%25%2C Eval:4.4e-71],MGA_1918
sequence1	MetaGeneAnnotator	CDS	1708745	1709212	.	+	0	ID=MGA_1919;product=Lrp/AsnC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846576.1;translation=MSNNKKKIDMDAIDRRLLIELLRDARTSLRRLSEEMNVSPATLHNRLTRLVQEGMIRGFTALVDYTKLGYSLSAVIMAKVDGKHLVEFEREIANTDNIVAVYDVVGEYDVVLIAKFKNVEDLDNFLKQLLKNPKVERTYTSIVLNTVKEDPRVRV;locus_tag=LOCUS_19180;note=WP_052846576.1 Lrp/AsnC family transcriptional regulator (Sulfurisphaera tokodaii) [pid:72.5%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:4.2e-63],MGA_1919
sequence1	MetaGeneAnnotator	CDS	1709344	1709619	.	+	0	ID=MGA_1920;product=DNA-directed RNA polymerase subunit M;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979520.1;translation=MIPVKKDGKEVLRCTKCGYEKEMDNKAKKAYEIKESKGKSNKVLTTSIVSDKSGRKRDEDEWEQEREEYYKEIGLELLRDELEGSEENDED;locus_tag=LOCUS_19190;note=WP_010979520.1 DNA-directed RNA polymerase subunit M (Sulfurisphaera) [pid:63.7%25%2C q_cov:100.0%25%2C s_cov:90.1%25%2C Eval:7.0e-28],MGA_1920
sequence1	MetaGeneAnnotator	CDS	1709660	1709899	.	+	0	ID=MGA_1921;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846575.1;translation=MKITEATEKYLVNFNKRKFLLEELKDEKGRKVFSISEVRKYTLPNGEEWEEKTEGIKSFDWSNAPDDIKKVIREIIIRL;locus_tag=LOCUS_19200;note=WP_052846575.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:32.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.6e-09],MGA_1921
sequence1	MetaGeneAnnotator	CDS	1709939	1711450	.	+	0	ID=MGA_1922;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979518.1;translation=MTQFDFILTTDRCLMTDHHHKEFLGFLGTGPAVGLPESVWKWLACPKMKVDELGRPLEAPYGMRKIEAKLIDEGFNAAIIDPDYIDKYLNNAKALMFSHHDYFAFGPPSSTWWGITKKEPINYKSFQALINKPEISEAKKKGMKIIVGGPSTWQWLWREDMIEKLGVDTLVDGEGEKVIVKLAQSIIDGEPLPRYVYVSGDDVPDLEDIPDIKGASVNGLVEIMRGCARSCRFCSVTLRPTRYYPLDKIERELQVNVKAGIHSGVIHSDDVLFYGAVGILPRPEPLIKLHKLVKKYYKTIAWSHASLAAIRYSQEKYGLISKLSEIIYGEGNQKYLGVEVGIETGSVKLAKEIMPAKSAPYKPESYPETVEEAFKIMHENHIIPAGTMIIGLPEETEEDVYKTIELVDNLRSYRSILVPMFFVPMGYFKNKDWFTKIKLNDAHIELYKRVFWHDVYWAEDIINKFYIEGPIYYPVRIALKMFLFAAKRKMKKVEAWLETQMKK;locus_tag=LOCUS_19210;note=WP_010979518.1 radical SAM protein (Sulfurisphaera tokodaii) [pid:79.8%25%2C q_cov:97.2%25%2C s_cov:100.0%25%2C Eval:4.2e-245],MGA_1922
sequence1	MetaGeneAnnotator	CDS	1711453	1712832	.	-	0	ID=MGA_1923;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979517.1;translation=MSIMSWSLLELIRTKPEELIANLKRRYIDPSVVNKAVELDKKWREILQQVEKLRHEHNVITQQIPRLPPEERKKKIKEAKELLAQLQQKEKELKEIEQERDEVLKNLPNIVTEDVPQGPDDTYSVPIKFWGKFRVYEKDVDEFKKQLNGASVEYETIQWKPIGHADMLENVLKLGNTIKASEVTGSRFYYLFNDIVWLDFSLLFYAIDTLTSKGYTLVLPPYMLRGEIIYSVIDMDTFKDAIYKIENEDLYLIATAEHPLAALHYKDELDKEELPIKLAGISPAFRKEAGAANKDLKGIFRVHQFHKVEQFIYCLPDDSWKYHKELLNNAEEIFQGLELPYRIINIASGDLGACAAKKYDLEVWMPAQAKFREMVSCSNCTDWQAYRMKIRYVDRKESKKGYVHTLNSTAVASTRTITAILENYQKSDGSVEIPKVLRKYLEPFKAAPKDYILPANKKP;locus_tag=LOCUS_19220;gene=serS;EC_number=6.1.1.11;note=WP_010979517.1 serine--tRNA ligase (Sulfurisphaera tokodaii) [pid:73.2%25%2C q_cov:98.3%25%2C s_cov:99.3%25%2C Eval:1.3e-194],MGA_1923
sequence1	MetaGeneAnnotator	CDS	1712962	1713369	.	-	0	ID=MGA_1924;product=phosphoribosyl-AMP cyclohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846970.1;translation=MDETLKLSNEEAEKIASMLNYRHEYFTIIAVLQDAKSNEVLMVGNMNKEAVIKSLTTGYAHFWSLSRKKIWLKGETSGNFQIIEDIRIDCDSDSIVLKVTSIGPVCHTGNRSCFYRGYKEFTQKTERNDNMLMRF;locus_tag=LOCUS_19230;gene=hisI;EC_number=3.5.4.19;note=WP_052846970.1 phosphoribosyl-AMP cyclohydrolase (Sulfurisphaera) [pid:67.2%25%2C q_cov:85.9%25%2C s_cov:98.3%25%2C Eval:6.1e-43],MGA_1924
sequence1	MetaGeneAnnotator	CDS	1713354	1713941	.	-	0	ID=MGA_1925;product=imidazole glycerol phosphate synthase subunit HisH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846574.1;translation=MKAIVVNYGVGNLYSISSALKRTGFEVKIGNIENADLIVFPGVGSFSAVSKYINENENKLNDLRSNGVKFLGVCLGLQIMYEEGTEGGKNKGLGWFKGYVDKINANVKLPHIGWEKILIKNPSELTEDLDNRYAYFVHSYVAYTNENNVLMISHYGIDYPSIVYSEFAIGTQFHPEKSSDTGRIFFRNLTRWMKR;locus_tag=LOCUS_19240;gene=hisH;EC_number=4.3.2.10;note=WP_052846574.1 imidazole glycerol phosphate synthase subunit HisH (Sulfurisphaera tokodaii) [pid:62.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-68],MGA_1925
sequence1	MetaGeneAnnotator	CDS	1713938	1714219	.	-	0	ID=MGA_1926;product=phosphoribosyl-ATP diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846573.1;translation=MSEILQDLYDIILDRINKMPKGSYTAEIVSKGKGYVARKVGEEAVETVVASLSEGKNRFLCESADLIYHLWVLMALEGIKPEDLYQELKRRMK;locus_tag=LOCUS_19250;gene=hisE;EC_number=3.6.1.31;note=WP_052846573.1 phosphoribosyl-ATP diphosphatase (Sulfurisphaera) [pid:67.4%25%2C q_cov:98.9%25%2C s_cov:97.9%25%2C Eval:9.2e-31],MGA_1926
sequence1	MetaGeneAnnotator	CDS	1714212	1715396	.	-	0	ID=MGA_1927;product=histidinol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979512.1;translation=MIEYILPKDRPISFISVLDKVRDIIAKVKEEGDKAIIDYTAKFDNYLLSDIKANQDEIKSQASLLDDNVRNAIDIIYDQLTDFHKSMMPPNSGGGKNGIEFGVVWKPIEKVGIYVPGGIKTYPSTLLMAGIPAKIAGVKEIYVATPKEKVDPAIAYISIRLNIRGIYKIGGAQAIAALAYGTESVKKVDKIVGPGNIYVQAAKYLVSENVGIDGIEGPTELVVIADDSANPENVALDLLAQGEHGKTSFLVLISTSEFLVNRIKSMLPNEGNFYIIKVNNIDEAIQIANDIAPEHLSIATSSPLQLLSKISNAGAITLGNTPPALIDYCAGPDHILPTNGWARFKGGITVFDFLKPLSYVISEKPEKNLIKAAMILANYEGFNFHSKSIGARYE;locus_tag=LOCUS_19260;gene=hisD;EC_number=1.1.1.23;note=WP_010979512.1 histidinol dehydrogenase (Sulfurisphaera tokodaii) [pid:60.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.2e-136],MGA_1927
sequence1	MetaGeneAnnotator	CDS	1715393	1716148	.	-	0	ID=MGA_1928;product=imidazole glycerol phosphate synthase subunit HisF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979511.1;translation=MTTKRIIACLDVKNGKVVKGTNFLNLKNKGDPVELASRYEDEGADEIVFLDISATIEGRTTLLKVVRDTASVLSIPLTVGGGIRSIEDISRTLSSGADKVSINTAAVENKLLITQGSNEFGAQAIVVAIDAKKINSSWLVYTKSGTYNTGINVQTWAKEIERLGAGEILLTSIDQDGTRKGYDLDLTKLIVDSVNIPVIASGGAGKLEDFYDVFNYSNADAALAAGIFHDGVIKISELKTYLKSKGVDVRI;locus_tag=LOCUS_19270;gene=hisF;EC_number=4.3.2.10;note=WP_010979511.1 imidazole glycerol phosphate synthase subunit HisF (Sulfurisphaera tokodaii) [pid:75.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.4e-105],MGA_1928
sequence1	MetaGeneAnnotator	CDS	1716145	1716726	.	-	0	ID=MGA_1929;product=imidazoleglycerol-phosphate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979510.1;translation=MSRYSRILRETKETRIELELDIDNPGNIEIKTPVPFFNHMLNTLLFFMRSSGKIIAEDKQNYDDHHVIEDTAITLGLAVKEALGNKDGIKRFSSNIIPMDEALVMIAIDISSRGSSYVDLKLKREQIGGFSTENVSHFFGSLAQNAGITLHLMQIKGENDHHIIEASFKALGISLYEATRIVYSGTNSTKGIL;locus_tag=LOCUS_19280;gene=hisBd;EC_number=4.2.1.19;note=WP_010979510.1 imidazoleglycerol-phosphate dehydratase (Sulfurisphaera) [pid:59.9%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:3.4e-65],MGA_1929
sequence1	MetaGeneAnnotator	CDS	1716719	1717405	.	-	0	ID=MGA_1930;product=1-(5-phosphoribosyl)-5-((5-phosphoribosylamino)methylideneamino)imidazole-4-carboxamide isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979509.1;translation=MIVVPSIDISEGKVVKRIRGKRGSGLILGNPLDIAYRIYSDGYNYVHIVDLDAAEGVGSNEDIIRNIVKIGFDNVEVGGGIRDLNKAKRLISYGISFLVVSTIIFTDKTLFDQIIKEVGRDKIISSLDYCNNIIYIKGWKEKSISLNEGIDTIKDTYGTIFTNICNEGTKSGIDKTLGKYILDLHNMKGYAGGIGNIKDLTDLKELGFDFAIVGMSFYSGILRGIKYV;locus_tag=LOCUS_19290;gene=hisA;note=WP_010979509.1 1-(5-phosphoribosyl)-5-((5-phosphoribosylamino)methylideneamino)imidazole-4-carboxamide isomerase (Sulfurisphaera tokodaii) [pid:55.9%25%2C q_cov:99.1%25%2C s_cov:98.3%25%2C Eval:5.5e-66],MGA_1930
sequence1	MetaGeneAnnotator	CDS	1717402	1718259	.	-	0	ID=MGA_1931;product=ATP phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846572.1;translation=MKIAIPNKGRLQQPSLQFLSSVGIKPLATDERSLIVPTSWEGVQLVLMRTEDIPNLVENGAADIGITGMDYVIESRADVEDLIRLDFGKAKISLAVPLSWNISDVSELKREIKIATKYYNIAREYITRKNINAKIVKISGAAEVMPSLGAADAIIDVVSTGTTLKLHGLKEIDTVMETYATIIGNRYWLKSEEADKINLVLTMMKGALSARGKKMIFMNVKDKDLEKVLASLPAMLAPAISKLSKSDAWEVITVVNEDCLPEIVAKAMIAGAKDIVILGIEKVIR;locus_tag=LOCUS_19300;gene=hisG;EC_number=2.4.2.17;note=WP_052846572.1 ATP phosphoribosyltransferase (Sulfurisphaera tokodaii) [pid:71.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-116],MGA_1931
sequence1	MetaGeneAnnotator	CDS	1718237	1718965	.	-	0	ID=MGA_1932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYPVYSSVRGLNVIKINLKEDGDWWKEDLDLLYNKISNARLVIIDDPNNPTGSPMLKAKEDIISNIAEKINGLLIIDEAYYEFSGYTVKDFISKYKNVAIVRTLSKAFSLASFRVGYLIADKEVIKALTKATTPFDIPLPSLVAGISALENPSYAFNIANEIKKNRDFLYESIKKLGLKVYKSLTNFLFFKYDGDLIHPLLSKGIAIRRPISSYYRVTVGTLEQCTIFTQKLGEIIENSNTK;locus_tag=LOCUS_19310;note=WP_152940674.1 histidinol-phosphate transaminase (Acidianus ambivalens) [pid:65.7%25%2C q_cov:100.0%25%2C s_cov:65.2%25%2C Eval:1.1e-91%2C partial hit],MGA_1932
sequence1	MetaGeneAnnotator	CDS	1719322	1719948	.	+	0	ID=MGA_1933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979506.1;translation=MKRWLTLKAFIIGKFVFLERLLDLKSIIISYYYSINLTIIMNVASLLSKQSKDVCIINYDKIKWDFYPYNIDFSLNCSPKSEIIVFEAENEREIPKNFRLVTTYKNLKIDGTKIKIDKVDINLYKSRIDDEEYLFRVINGKIEDYEIRDIDKEILNIITSLGNPCNLTDVINISQKKLNLPRDKIREELQFLIQIGKIKIHNKIIELI;locus_tag=LOCUS_19320;note=WP_010979506.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:45.7%25%2C q_cov:88.5%25%2C s_cov:92.4%25%2C Eval:1.2e-42],MGA_1933
sequence1	MetaGeneAnnotator	CDS	1719932	1722772	.	-	0	ID=MGA_1934;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846570.1;translation=MSQDFVVLLNKVSEKWQKKWEESKIFESNPDNRSKFYSTVAFPYPNSPFHLGHGRTYTTCDIYARYMRMKGYNVLFPMGFHYTGTPIITMADDVAKGDKELLDIFKNIYEIPSEVIPKLSDPLFMANYFKEEIKKSMKELGLSIDWRREFTTIDPEFSSFIVWQFGKLQSMGYIVKDTHPVGWCPVHNLPVGMHDTKGDMEPDIGQYVLIYFETPKGYLPVATLRPETIFGVVAIWINPKEDYSIVDINEKKLIVSKKAAFKLSFQLDLKEEDKISAEDLQKLKAINPINGKEVPILAADFVDPSLATGVVMSVPAHAPFDYFYLRKIKSDIEPIPVVKVDGYSDIPAKDFIDKEKPKNDSDLKKVTEMVYRTEYNKGKIRDDVINLIKPEFREELKNIIGASVPEARKIITNFIIQKGFGRYIYEIMNKPVYCRCGNEVVVKILKDQWFLDYGNPEWKNKTKKLLSRMRVIPPEVRKDFEYSIDWLEKRACARTRGLGTPLPWDKKWIIESLSDSTIYMAYYTISHKIRLNKLHASQLTKEFWDYVMLGKGDVDLISKETGIDRKIIEDLRSEFSYWYPLDIRHSGPDLIPNHLSFFLFNHAAIFPEELWPRGVAINGFILYEGKKMSKSLRNILPLRKAIRMYGADVIRIALSCTVDMGSDANFTDAGARSISDALRRYYDICTTTYNGNVLGKPEKWLLSKFNVLIKDVTSLMDQLILRDSLNKVLFEMISTFNEYFEMVKAEGREPNASIVKEIALKWTKLLTPFAPHLAEEVWNIMGNNSFVSIEKWPTYDETKIDTFIELEHEYHEELIEDIRSILNIYKGKPSSITIYTSDQESLDKLRKSIEIISQGGSLKNLMEIYRPKNKDDAKNLQKIFQYANNMQENMKRLLQYDFSEFDIIKDALPYLEYKIGLKINIEKFNDEIRQKYNKDALPLRPAILIQ;locus_tag=LOCUS_19330;gene=leuS;EC_number=6.1.1.4;note=WP_052846570.1 leucine--tRNA ligase (Sulfurisphaera tokodaii) [pid:62.7%25%2C q_cov:99.9%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_1934
sequence1	MetaGeneAnnotator	CDS	1722819	1723343	.	+	0	ID=MGA_1935;product=cob(I)yrinic acid a%2Cc-diamide adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979504.1;translation=MFTKTGDKGETNVINKRVGKDSPLVNFLGDLDEANSFIGLAISKIPWDDMKKDLLRVQHDLFVLGEDASTNNGKVTQDFVKWLEERTVYYRKESGPIKLFVIPGGSEEASHIHVARSVVRRIERNSVKYSKELEFNKWIIVYLNRLSSLLFSMAVVANKRKEVKEENYDIGKYW;locus_tag=LOCUS_19340;EC_number=2.5.1.17;note=WP_010979504.1 cob(I)yrinic acid a%2Cc-diamide adenosyltransferase (Sulfurisphaera tokodaii) [pid:75.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-71],MGA_1935
sequence1	MetaGeneAnnotator	CDS	1723319	1724278	.	-	0	ID=MGA_1936;product=TIGR00269 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979503.1;translation=MKCDVCKSKDAVILQPHTGRRLCKDCFIDDIRNRVKKEAEKEGLTKANKILLAVSGGKDSLTLADTLASFIDPKKLISFNIVEGIGGYNRSDQAKKLKKYLDDLGIELISTSFKKEVGFTLDDMVRSSHDKGLNISACTFCGGFRRKLINAAGREVKADLVATGHNLDDEAQTIVINLLRGDIKRLIRLGEIPVKLSDKFVLRVKPLRKIYEWETTMYAYYKGFEFQEVECPYISMKPTLRAKVRDLLYSLESKKPGSLLTIVEEFDKISEEYKRNSELKDLPKCKICGEPTSYGRDVCKNCELLIKSGLLNHQYLPMS;locus_tag=LOCUS_19350;note=WP_010979503.1 TIGR00269 family protein (Sulfurisphaera tokodaii) [pid:75.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.4e-138],MGA_1936
sequence1	MetaGeneAnnotator	CDS	1724275	1724556	.	-	0	ID=MGA_1937;product=DUF211 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846969.1;translation=MGIRRVVLDVLKPIKGSTIIDLADKLTIIKGIDGVNITVTDMDVETMGLSVVVEGDNIDFDEIRKVLEEEGCAIHSIDEVAGGNKIVEGRRVK;locus_tag=LOCUS_19360;note=WP_052846969.1 DUF211 domain-containing protein (Sulfurisphaera) [pid:73.6%25%2C q_cov:97.8%25%2C s_cov:97.8%25%2C Eval:6.1e-35],MGA_1937
sequence1	MetaGeneAnnotator	CDS	1724846	1725154	.	+	0	ID=MGA_1938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDVGLRFRAYTDEGTLRALKAQLRLSCEAYNTIRWTDAYFHERDGKGLTKTELRQLALDLRKQDEQYQQLYSQTLQQIADRFYDARQRFFEGIARYPKEST;locus_tag=LOCUS_19370;note=MGA_1938
sequence1	MetaGeneAnnotator	CDS	1725168	1725947	.	+	0	ID=MGA_1939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYPQSSWKIMKVKEIRTKSKKNKKKVITLQLSNLGIFNVIVHRDFPLEKVKRVVIKLTPSGRLYIIFVVDQEYPQLLKTNKVVAVDVGVEKLLTTSDGEYVPNQRPYEKALNKTRRLHKALSRKKFLSRNWFKAKIRLARAYEHLKNLRKDMYMKLGKYFAEHYDVLVMEDIHVKQIVGKSLRRLRMRLQDVAFHELRSIMEYQLGKYGKKLTLVNPDFTSMTCARCGHVRRDLTLADRVFVLIVVGLLIVTIMLPSTY;locus_tag=LOCUS_19380;note=WP_000942660.1 RNA-guided endonuclease TnpB family protein (Escherichia) [pid:25.3%25%2C q_cov:73.4%25%2C s_cov:49.4%25%2C Eval:6.3e-11%2C partial hit],MGA_1939
sequence1	MetaGeneAnnotator	CDS	1726366	1726737	.	+	0	ID=MGA_1940;product=adenosylmethionine decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_184650921.1;translation=MGVNLSYEPKVVGKQVYGSLYDCDEDMLKDVDKLREIAIEAAKEGKMTLLDVKAWKIGEGVSVVAIVLESHITIHTWPEYKFATVDVYSCGSHTDPRKAFEFIAIKLGAKRYTMKEADRSSDF;locus_tag=LOCUS_19390;gene=speD;EC_number=4.1.1.50;note=WP_184650921.1 adenosylmethionine decarboxylase (Sulfurisphaera) [pid:77.4%25%2C q_cov:93.5%25%2C s_cov:94.3%25%2C Eval:1.1e-47],MGA_1940
sequence1	MetaGeneAnnotator	CDS	1727007	1727624	.	+	0	ID=MGA_1941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVKRPVNASINGNIVYYNNEKFTGDIIDASGWKGKAKWIRAIEYELSPINEEKITVYIDNNNPGGFSWIVPLPEKTLVGSISYSDPLRYIPKVNSKVLGIHGGAIPRVKPKFSKNAIGDSTGLIKTFTGGGIFGISEILQVLLTDKYDEKFKKLSKEVSKQYHLTSLLEKSWRISLNMGLFYNEKTIYADKEFDFHSLLFRFSN;locus_tag=LOCUS_19400;note=WP_184650939.1 hypothetical protein (Sulfurisphaera ohwakuensis) [pid:50.2%25%2C q_cov:98.5%25%2C s_cov:70.7%25%2C Eval:6.7e-54%2C partial hit],MGA_1941
sequence1	MetaGeneAnnotator	CDS	1727598	1727792	.	-	0	ID=MGA_1942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429663.1;translation=MERDLEVAIKYFKTNVSVGEIAAVRDLKGLGIKEPEKIIAKLLEMGIIDKGEGCYNLVRESEKK;locus_tag=LOCUS_19410;note=WP_198429663.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:61.0%25%2C q_cov:92.2%25%2C s_cov:86.8%25%2C Eval:3.7e-16],MGA_1942
sequence1	MetaGeneAnnotator	CDS	1727830	1728684	.	+	0	ID=MGA_1943;product=UbiA family prenyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979498.1;translation=MNPYLKLIRIHNVIGAAIGDFTGYVVASEWRILPLKLLISILVVSLVAAGGYAINDVYDIEIDKINKPDRPLPSGRITLRNAVFLSYATMILGILLSVFLGYIQIFVAFITSLLLYLYAKSLKRTGLTGNFVVALTTGLSIFYGGLAYFKGNWLEMVLIPTIYSFFLTLTREIVKGIEDYEGDKKYSVRTLATTIGISKSWNIAKIMLIIVLISSPIPFFLGFNLIYLVLLIPFSYFTLLTIIQNKSIEGGAKARALLKGSAFVGMLAFALGTLPLNFLINHFP;locus_tag=LOCUS_19420;note=WP_010979498.1 UbiA family prenyltransferase (Sulfurisphaera tokodaii) [pid:53.5%25%2C q_cov:96.1%25%2C s_cov:98.2%25%2C Eval:1.9e-80],MGA_1943
sequence1	MetaGeneAnnotator	CDS	1728649	1729608	.	-	0	ID=MGA_1944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979497.1;translation=MPIGELATFDEGDFQGTIDYSSSLKSIKLGMDNKEISYNFFAEKEPYKSYMIIGTETPNLLTKWRLWINNFSLTKEFRPNINLEYNSKYFNIHVFDISHFVKKGKNEFVINSVTVEPITVNFINSLIFYNISNFYTKFSTKAGILMLKSSERLMLKNFHKSYIILKNPNKSVLKIYGDGTLLSEIGDNKNSEEIEINENKEIDIIHEGQVKCPAFIYLHYTAKTESPKIDISVDGKVIDKGILLNIENCGEIDLDKLLVNIMLNGVTVHFKTFENVKTKSIIRYEIPMSSLLQKKGNLNIRVVGVKAGLRKVIDKEIER;locus_tag=LOCUS_19430;note=WP_010979497.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:39.2%25%2C q_cov:98.4%25%2C s_cov:98.1%25%2C Eval:4.7e-57],MGA_1944
sequence1	MetaGeneAnnotator	CDS	1729642	1730439	.	+	0	ID=MGA_1945;product=50S ribosome-binding GTPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979496.1;translation=MLGKIYSIIKRSDLVIEVLDAREPDLTRSKSLENYARDLNKKILIVINKGDLVPKDISEKWKKYFESKGLRAIYIAATQHMGTKILRDSIRELLKGSQGTVCFIGYPKTGKSSIINALKGRHSATTSSHPMEKGFTKNPQLFKIDSKIYAWDTPGIIPPDGNYLEKVIRGSSVDELEDPVKAAIMLIKRIEQFDKSSLENVYGAYSDPNDLLRKIAMKRGWIYKKDKEPIIDEAAKVIIRDFHDGKIIYFSLPPKTNDENKSSNI;locus_tag=LOCUS_19440;note=WP_010979496.1 50S ribosome-binding GTPase (Sulfurisphaera tokodaii) [pid:62.1%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:3.4e-92],MGA_1945
sequence1	MetaGeneAnnotator	CDS	1730411	1730908	.	+	0	ID=MGA_1946;product=magnesium-dependent phosphatase-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846567.1;translation=MMKIKVVIFDADKTLWDHYNISEFEEPIKIINRDEIEDIKGRKLKVFPEVRSTLEELKRNNLILGMATWNYPEKTERMLGILNLRRYFDVIVSRDFPFKFIMISEIINELKNRGISVKPENIMFIDDRRVHFGNVWLYLGKVKCVEMWKDISCHSQILKLLELNS;locus_tag=LOCUS_19450;note=WP_052846567.1 magnesium-dependent phosphatase-1 (Sulfurisphaera tokodaii) [pid:61.0%25%2C q_cov:96.4%25%2C s_cov:98.1%25%2C Eval:1.4e-57],MGA_1946
sequence1	MetaGeneAnnotator	CDS	1731123	1732427	.	+	0	ID=MGA_1947;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNGSRILVDSLKREGVKVIFGIPGLYNMPFYDELYYDLENGEMRHVLMRHEQAAAHAADGFARASGFPGVCTATSGPGATNLVTGVLTAYWDSSPIIALTGQVNRSSIGKMAFQESDTPGIFKDVSKYVVQLKTIDEIPIWIKNSFYIATTGRPGPVVVDIPRDVQLEKIENVEWPEKPIVKGYKPFRTVIDPLKIKKAAELLLNAEKPIILSGTGVVWSGATEEVLHLAETVGSPIISTLPGKSSIPHDYPLFVGPMGYYGRAEASMAALESDVMLIVGARLSDRTFTSYDEMTETKKKFIMINIDPTDSERAFKVDVALYGDAKILLRELLNAVIKLGLKKDRTAWLNRIKELKEYYSQFYFQDEKGKMKPWKIMKTIRNAIPRDSIVTTGVGQHQMWAEVFWESLEPRTFLSSTGMGQWDLDFQQPWVLR;locus_tag=LOCUS_19460;note=WP_010979494.1 acetolactate synthase large subunit (Sulfurisphaera tokodaii) [pid:75.3%25%2C q_cov:97.0%25%2C s_cov:73.6%25%2C Eval:7.6e-192%2C partial hit],frameshifted%2C insertion/deletion at around 1732382,MGA_1947
sequence1	MetaGeneAnnotator	CDS	1732388	1732840	.	+	0	ID=MGA_1948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFGLPAAMGAKIARPDKVVVDLDGDGSFMMTGNNLATAVDEHIPIISVIFDNRTLGLVRQVQDLFQNKRIVGVDYGSSPNLVKYAESFGALAFNADSYEELEKSVKTAIKENMPTVIRVPIDKEELALPTLPPGGKLSQVIVRDPRKST;locus_tag=LOCUS_19470;note=WP_010979494.1 acetolactate synthase large subunit (Sulfurisphaera tokodaii) [pid:84.0%25%2C q_cov:100.0%25%2C s_cov:26.2%25%2C Eval:2.8e-69%2C partial hit],frameshifted%2C insertion/deletion at around 1732385,MGA_1948
sequence1	MetaGeneAnnotator	CDS	1732818	1733198	.	+	0	ID=MGA_1949;product=ACT domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979493.1;translation=MIQGKVLKITGYYRDPELLERIMANFRKLWVDIDWINARKVSDDGLYEIFMQIKDTKNTQLAILNLSKTVDIEKVEVLEDAKVVQYKFNEKGEIVDGNNYSMVIYVPIYSKVTSYSWGEIVGQNIH;locus_tag=LOCUS_19480;note=WP_010979493.1 ACT domain-containing protein (Sulfurisphaera tokodaii) [pid:51.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-34],MGA_1949
sequence1	MetaGeneAnnotator	CDS	1733179	1734177	.	+	0	ID=MGA_1950;product=ketol-acid reductoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979492.1;translation=MAKIYTEKDANFDIIKNKKIAILGYGSQGRAWALNLRDSGLNVTVGLEREGNSWNQAKKDGFNPVHTEEAVKNADIVIFLVPDMVQRYVYREKVQPYLKDGMDLVFAHGFNIHYKLIEPPNNVDVYMIAPKGPGPTVREYFVHGGGVPALVAVQQNYSGKAMEKALAIAKGIGATRPGVIETTFKEETETDLIGEQTDLVGGITELMRTAFNTLVEMGYQPEVAYFETINEMKMIVDIIHDKGFYGMLKAVSDTAKYGGITVGKYVINEDVKKRVREAAEKVRSGKFAEEWIEEYNRGSPIVKQAMEEVQNSLEEKIGNELRDMIERGKPKS;locus_tag=LOCUS_19490;gene=ilvC;EC_number=1.1.1.86;note=WP_010979492.1 ketol-acid reductoisomerase (Sulfurisphaera tokodaii) [pid:78.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.4e-154],MGA_1950
sequence1	MetaGeneAnnotator	CDS	1734196	1734627	.	+	0	ID=MGA_1951;product=Holliday junction resolvase Hjc;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846967.1;translation=MNKRKVKGSSVERLILSLLRDRGFAVIRAPASGSKRKDSIPDIIALKYGYIMLIEVKSRRSGKVYISREQAEGILEFSRKSGGELFIGVKLPKILKFVPFSKLRKTDGGNYVIDDNILEEGYTIDALTRYVESKFSKTLDSFL;locus_tag=LOCUS_19500;gene=hjc;EC_number=3.1.21.10;note=WP_052846967.1 Holliday junction resolvase Hjc (Sulfurisphaera tokodaii) [pid:68.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.6e-50],MGA_1951
sequence1	MetaGeneAnnotator	CDS	1734616	1736157	.	-	0	ID=MGA_1952;product=PINc/VapC family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979490.1;translation=MSVRNILPDKSALLHGISKYVEKNIINGNFLIHRSLLEELEKETRDGLVTGELALDEVNRLKDLSEQYLFSFEIVGKNYGGNVDEAIRQYCADQGCVIVTADEIQKKICDFIGVETIFLEKPIEELSIEKFFDENTMSVHLKEDTLPKAKKGRPGNWQFVTLSNDITDASYLKRLVSEILNSIKYVKGSFIEIERRGSTIVQLGNYRIVITRPPLSDGWEVTITKPVARKKLEEYNLDERLIQRLEDRAEGILIAGSPGMGKTTFAQALSEYYMKLGKVVKTIESPRDMHLPPEITQYSKNYAEIGELHDILLLSRPDYTVYDEMRNDEDFRLYIDLRLAGIGMIGVVHATTPIDAIHRFLSRTDLGTIPSILDTVIFINNGAVDKVYSLEMSVKVPSGMKEADLARPVVEIKDFLNDKVEYEIYVFGEQAMIVPVSKITKDNVESRIERTVLDSMPGATVKYENGEYVINIPKSQISKFNRRVNSKLRKLEKKTGAKIRIRLEDNGENGSQE;locus_tag=LOCUS_19510;note=WP_010979490.1 PINc/VapC family ATPase (Sulfurisphaera tokodaii) [pid:67.9%25%2C q_cov:98.2%25%2C s_cov:99.6%25%2C Eval:4.8e-204],MGA_1952
sequence1	MetaGeneAnnotator	CDS	1736207	1736809	.	-	0	ID=MGA_1953;product=pyridoxal 5'-phosphate synthase glutaminase subunit PdxT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979489.1;translation=MKVGILAYQGSFEEHALQTKLAIDKLHLNADVVPVKKPSELNVVDGIILPGGESTTIGIMAQKLGVLDTLKDKISSGLPVLGTCAGAIMLAKEVSDAKVGKKSQPLIGLMDTTIIRNYYGRQRESFETTLDFSTIGGSTAKVVFIRAPAITKTWGKAKELLSLGDNKVMVQEDNMLATTFHPELSSTTIVHEYFLSIIKK;locus_tag=LOCUS_19520;gene=pdxT;EC_number=3.5.1.2%3B 4.3.3.6;note=WP_010979489.1 pyridoxal 5'-phosphate synthase glutaminase subunit PdxT (Sulfurisphaera tokodaii) [pid:69.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-78],MGA_1953
sequence1	MetaGeneAnnotator	CDS	1736806	1737822	.	-	0	ID=MGA_1954;product=pyridoxal 5'-phosphate synthase lyase subunit PdxS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979488.1;translation=MRLYELTFNEIEEFFYKLSEFRDIIKDEGLLTFVPELERSVSGTKEGTARVKHAFPIFQKGGVVMDVTNVNQAQIAEDAGATAVMVLDKLPYDVRKSGGVARMADPKIIEDVMNSITIPVMAKVRIGHYYEAKILESLGVDMIDESEVLTPADEEHHINKWEFKVPFVNGARNLGEALRRINEGASMIRTKGEPGTGNVSEAIKHMKIMNSEIRNLLGMEEEDRVKKAREYQVPYQLVELVTKLQRLPIVNFAAGGIATPADAALMMWLGSDGIFVGSGIFKSQDPSERAKAVVLATANWEYPEIVLEAQKMITEEKSMMGIDIKTLKPEELLQVRGV;locus_tag=LOCUS_19530;gene=pdxS;note=WP_010979488.1 pyridoxal 5'-phosphate synthase lyase subunit PdxS (Sulfurisphaera) [pid:84.6%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:3.8e-161],MGA_1954
sequence1	MetaGeneAnnotator	CDS	1737860	1738147	.	-	0	ID=MGA_1955;product=30S ribosomal protein S26e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979487.1;translation=MPKKRENRGRRKGDKGHVGYITCDNCGARVPEDKAICVTRMYSPVDATLASELEKKGAIIPRYAMRKCYCINCAIHFGIVKIRAENERKSRPAVY;locus_tag=LOCUS_19540;note=WP_010979487.1 30S ribosomal protein S26e (Sulfurisphaera) [pid:77.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-40],MGA_1955
sequence1	MetaGeneAnnotator	CDS	1738180	1739622	.	-	0	ID=MGA_1956;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979486.1;translation=MNIKREKWSNNFSEWFDWVISEGEFYDYGRYPLKGVGIWLPYGFKLRQAIIDIIRQLLNNTGHEEVLFPMLIPEGLLKKESEHIKGFEEEVYWVTKGGSEDLDVKLSLRPTSEAAITFMESLWIKSYKQLPKKYYQIVSIFRYETKATRPMIRLREVTTFKEAHTIHSTFEDAENQVKEAIEIYKKFFDILGIPYLISQRPEWDKFPGAVKTYAFDTIMPDGKTLQIGTVHHLGQHFTKAFDFKVQKADGTLDYPHQTSYGISDRVIASLISSHGDDRGSVLFPLVAPIQVIIIPIPSKNTDDTNKILEYSENVKSQLISAGIRANIDKDTEKTPGEKFYIWEIKGVPIRVEIGLREVQNSSVTLKRRDTLESKAVKLSELITEIRKLLEDIENNLKSKAWESFNKKIFYAKTVEDANKILEKGGVVELPWCGDNSCGLKIEELTNAKVKGIPLESKKINDSCVICKKPASNVLRIAKTY;locus_tag=LOCUS_19550;gene=proS;EC_number=6.1.1.15;note=WP_010979486.1 proline--tRNA ligase (Sulfurisphaera tokodaii) [pid:65.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.8e-196],MGA_1956
sequence1	MetaGeneAnnotator	CDS	1739665	1739970	.	-	0	ID=MGA_1957;product=ATP synthase subunit K;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979485.1;translation=MERKYVLLSILPLILSSILVGAVTPASTAQGFEGINIGAGLAIGLAVVGAGVAVGMAAAAGIGVLTERRDMFGTVLIFVIIGEGLAVYGILFGLLMLFAKI;locus_tag=LOCUS_19560;EC_number=3.6.3.14;note=WP_010979485.1 ATP synthase subunit K (Sulfurisphaera tokodaii) [pid:55.0%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:6.2e-24],MGA_1957
sequence1	MetaGeneAnnotator	CDS	1739989	1740150	.	-	0	ID=MGA_1958;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAEKYIDIIKIKLDQKKAEILEQLTNEYNNIMKNKEKELEDIKRKALKDLSK;locus_tag=LOCUS_19570;note=MGA_1958
sequence1	MetaGeneAnnotator	CDS	1740140	1740781	.	-	0	ID=MGA_1959;product=V-type ATP synthase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979483.1;translation=MSSQKVLPTKINLIQLRNQLKLVRVIKRLLESKREVLLIYLRSYSTEYEKLYEEVNSTLKEVYNSFLQAVVDEGITNVQNIANSQSDKLIVKSSTKVIFGVKIPVTELDKNSIPEKPFNEIEVSPYLSKSYDEMRDALIKVIKLVELESTIRSLTSELMKTQRLINAIDSSILPFYTSSIKYIRGILSDRSRDDFVRLKITRRILQRKRENAS;locus_tag=LOCUS_19580;EC_number=7.1.2.2;note=WP_010979483.1 V-type ATP synthase subunit D (Sulfurisphaera tokodaii) [pid:62.7%25%2C q_cov:98.1%25%2C s_cov:96.8%25%2C Eval:1.1e-70],MGA_1959
sequence1	MetaGeneAnnotator	CDS	1740778	1742178	.	-	0	ID=MGA_1960;product=ATP synthase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979482.1;translation=MENMLNVREYSNISSIRGPLVIVQGVTDASYNELVEVEMENGEKRRGIVVDSLMGSAIVQIFEGTTGISPSGSTIRFLGRGLEVKISDEMLGRIFNPLGDPLDNGPPVISGEKRDINGSPINPAVREYPEEFVQTGISAIDGLNSLIRGQKLPIYSGSGLPANALAAQIAKQATVRGEESNFAVVFGAIGIRYDEALYFKQFFEETGAINRVAMIMSLANEPSMLKILTPRTALTLAEYLAFEKDMHILAILIDMTNYCEALREISASKEEIPGRGGYPGYMYTDLATIYERAGKVKGKKGSITQMPILTMPNDDMTHPIPDLTGYITEGQIVLDRTLYNKGIYPPINVLMSLSRLMKDGIGEGKTREDHKDVANQLFAAYAKAVDTRGLAAIIGEDSLSDIDKKYLLFGEAFERKFVSQGVNENRSIETTLDIGWDILSILPESELTNIKSSYIKKYLPIYRGKQ;locus_tag=LOCUS_19590;EC_number=7.1.2.2;note=WP_010979482.1 ATP synthase subunit B (Sulfurisphaera tokodaii) [pid:84.3%25%2C q_cov:99.6%25%2C s_cov:99.8%25%2C Eval:1.4e-231],MGA_1960
sequence1	MetaGeneAnnotator	CDS	1742180	1742917	.	-	0	ID=MGA_1961;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEMPAEEGFPSYLASRLAEYYERAGRVKTLGNPERIGSVTLASAVSPPGGDFTEPVTSNTLRFVRVFWPLDVNLAHARHFPAVNWIQGFSAYVDLVAKWWNSTVDPDWKIMRDFIVKTLIREDELKQIVRLVGPESLAEKDKLVLEEARIIKEAFLKQNAFDDIDAFSTPQKQDRIMKLIYTYNQYAQALVEKGISVKQISEKVTVVSDIIRAKSTIKNDDLKKFDELENILKSQFDQISKQGA;locus_tag=LOCUS_19600;note=WP_052846566.1 ATP synthase subunit A (Sulfurisphaera tokodaii) [pid:74.6%25%2C q_cov:99.2%25%2C s_cov:41.2%25%2C Eval:1.9e-102%2C partial hit],frameshifted%2C insertion/deletion at around 1743009,MGA_1961
sequence1	MetaGeneAnnotator	CDS	1742974	1743951	.	-	0	ID=MGA_1962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKGRIVRVNGPLVVADNMRASQMYEVVEVGDLRLTGEITRIEGDRAYIQVYEDTSGVKPGEPVYGTGSPLSIELGPGLIGQLYDGLQRPLGKIAEDTNSAFVARGVKIPAIDRQKKWHFVPKLNKGDKVSPGDIIGTVEETALVEHRIIIPPDRYGKIKEILPEGDYTVEETIATLDMNGDEVPLNMIQKWPVRVPRPFKEKLEPSEPLLTGVRVLDTVFPLAKGGTAAIPGPFGAGKTVTLQSLAKWSSAKIIIYVGCGERGNEMTDELRSFPTLKDPWTGRPLLERTILVANTSNMPVAAREASIYVGVTLENILETKDMMY;locus_tag=LOCUS_19610;note=WP_052846566.1 ATP synthase subunit A (Sulfurisphaera tokodaii) [pid:76.8%25%2C q_cov:96.6%25%2C s_cov:53.0%25%2C Eval:2.8e-145%2C partial hit],frameshifted%2C insertion/deletion at around 1743009,MGA_1962
sequence1	MetaGeneAnnotator	CDS	1743951	1744526	.	-	0	ID=MGA_1963;product=V-type ATP synthase subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979480.1;translation=MASLEDLLNNVIQKVLEEIKSNVDQSFNESKKIVEHAYNDTFNSYSVKVNELLSKYQEEIEGEKAKLDVENKRLISSEKNFWIQKVFDEVKNKIGLFIDSESYQKGLENIISRESKNGSIIFCNSGDVNKVKTILNKLKINAEVKEQNLLGGIRIEYPDQGLVRDYSLDLILNQVFESEKPRIAQILFGEE;locus_tag=LOCUS_19620;note=WP_010979480.1 V-type ATP synthase subunit E (Sulfurisphaera tokodaii) [pid:41.4%25%2C q_cov:99.5%25%2C s_cov:98.5%25%2C Eval:3.3e-41],MGA_1963
sequence1	MetaGeneAnnotator	CDS	1744532	1744834	.	-	0	ID=MGA_1964;product=V-type ATP synthase subunit F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979479.1;translation=MGKILLMGDRYTASLFRMMGSEAEVIEDPFNLNSEIEKARKREDIDLILITRDIYEPVREKIDSLISTQAKPLITIIPSPFSESKPMDVRKMILRALGFG;locus_tag=LOCUS_19630;note=WP_010979479.1 V-type ATP synthase subunit F (Sulfurisphaera tokodaii) [pid:66.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-33],MGA_1964
sequence1	MetaGeneAnnotator	CDS	1744901	1747033	.	+	0	ID=MGA_1965;product=V-type ATP synthase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979478.1;translation=MIFPETMSKAEIISLKENTDKIVTEILKFGMFEPRDPSIPISQGRIEGARRLIGEIQEHISKLKIIMDLAGLILEPAGKLKINEDWITTSERISKEAEDEETRYKELLEEIGKIRGEIDLYKSQMETLAPFSEITVSLENLGKLDYFDVIFSIVTITQLEELKNNKNIFVAYRLLKNGNYAAIIISLKGTQEEYLTKLGIRKFETPAGESPYDAYNEALQKVKSLEEILTTTRSQLSQKVRDNSSSFRELLGKLMTIRDALNILSKVRVSDNFIQLEGYVPEKKVKELKNKLDKIEAFIDFVYPKRYGETDEPPTYINLPKRIKAIESIIDIYGTPSYWEVSPAIFLIVTFPILFGLMFPDAGDAIVVFLFSIWFYKYGVRKGSYNIRNLSLVLIYSSVVAIVTGLLAREFFGPLLVGGLEELNPSKFPGNIGPLYYVWPVPLSISKSLAFLLPFGEYATASSIENTMIFSVFIGSLALFVSSLVGVINALRKKDMEFLIYEKLPLLLIYIAPFLIFAYGIPAGVSNGVAYFNTEKAILGYILTDITNPTSPVLYNSTAIFSYIMILWIELSIIFNWISRVILLKRYEKVSIGSAIGLGFMEGGFEAGLLLLSNTISFIRILVFALAHYYLLYAFSYMAYLVVGVPSLYAIFTSPASIALILVGNLLAIGLEGLIVFIQDMRLHFYEMFSKFYDGRGKEFEPATTYVELI;locus_tag=LOCUS_19640;EC_number=7.1.2.2;note=WP_010979478.1 V-type ATP synthase subunit I (Sulfurisphaera tokodaii) [pid:52.6%25%2C q_cov:99.9%25%2C s_cov:99.7%25%2C Eval:1.7e-213],MGA_1965
sequence1	MetaGeneAnnotator	CDS	1747026	1748759	.	-	0	ID=MGA_1966;product=methionine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979477.1;translation=MISLPFMKVFVASAWPYVETVPHLGNLIGSVLSADVFARYARLKYGKENVVFVSGSDEHGTPIEIEAIKRKINPKNLTDQAHEYVKDLFLNVWKISYDNYSRTESETHKKFVKEFILGIQKYIFVQEETMPYCETDKIFLPDRFIKGTCPYCGFEDARGDQCDKCGRLLSPELLINPRCAICGSKPVFKKTKHWFFDLSKFSDDLRKWLESSKDMPDNVKSVALSWISEGLKPRSLTRDNSWGIPAPFEGAEGKTIYVWFEALLGYISATIEFFEKNGDSKKWEEFWLNDARSYYFIGKDNIPFHAVIFPAMLMASGKGYTLPTVISSTEYLLYEGQKFSKSRRIGIWIDEAPKIMDIDYWRYVLIRLRPEEKDMNFLWKEAIRIVNTELNDDIGNYINRTLTMINRYNSAKIPNFDESIIDENDVKIIKLISETPDMVSSLFEKGKLKAGTEEIIKLAREGNSYLNLKAPWDSIKKNPRDAINTLYLSANLTKSLAILLYPVIPEHSQIIYDLLNLGNIENEMWDNSKKINLQSGHEIKKAIPIFKKLPDTFEKDLPMTLEKIRKELEKTRPSLLR;locus_tag=LOCUS_19650;gene=metG;EC_number=6.1.1.10;note=WP_010979477.1 methionine--tRNA ligase (Sulfurisphaera tokodaii) [pid:66.4%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:2.8e-240],MGA_1966
sequence1	MetaGeneAnnotator	CDS	1748797	1749732	.	+	0	ID=MGA_1967;product=DNA primase regulatory subunit PriL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979476.1;translation=MSLISTDKYPFLKSFDEAIKDYGGIKFYDIIATNGQVLNDAKERIKKILEDSPVESFKRYRYSSLVFYTELLILAIMNDRRIIEKVLKREAENFSKEISEESEDQFKELLKRLKVPIEYKKISYHNGNRKIELSYAINFISYLTLIRNLTNSSLSLSQNILNKGYVYLDKNKVLEILKNTIYNKLYQNIKPISLSEIPETLKDLIIVKNGKTPPCIDGLIRKQNKTPEEIKILIVYKLDINTDLNSIITFLKENGVQEAENYINEILRKKEKYILYSCKQMKEKNLCISECGVKNPLQLYFGKLDDTKKNL;locus_tag=LOCUS_19660;gene=priL;note=WP_010979476.1 DNA primase regulatory subunit PriL (Sulfurisphaera tokodaii) [pid:37.3%25%2C q_cov:98.1%25%2C s_cov:100.0%25%2C Eval:3.6e-46],MGA_1967
sequence1	MetaGeneAnnotator	CDS	1749693	1750271	.	-	0	ID=MGA_1968;product=archaetidylinositol phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979475.1;translation=MITRLRKESKKILRPIASALSKLGISANLMTIIGLVLALLYFIIIMLFRNPLYGLVLIIFSSLADALDGEIARITGKAGVLGSFLDSSLDRIEDTLFLSALCFLGFQSYLVAILVGLSLIIPYLRAKAESLGIKAEGKGIIERGERLIFIMIILLISMFYFQISTYIFYIFIILSAITVIQRFFLVSSSLPK;locus_tag=LOCUS_19670;gene=pgsA;EC_number=2.7.8.39;note=WP_010979475.1 archaetidylinositol phosphate synthase (Sulfurisphaera) [pid:57.1%25%2C q_cov:99.5%25%2C s_cov:98.5%25%2C Eval:1.8e-55],MGA_1968
sequence1	MetaGeneAnnotator	CDS	1750328	1750642	.	+	0	ID=MGA_1969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979474.1;translation=MKAKKLILVTSDSHPMNKSFITITEDLSKELGIDKEIKNEDYSFLSDYGEKDDFGMSWLPQLFIETDDGKITPILTQMPFGKDLKPDEEEAKREALNKIKNLIS;locus_tag=LOCUS_19680;note=WP_010979474.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:68.6%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:6.5e-37],MGA_1969
sequence1	MetaGeneAnnotator	CDS	1750653	1751147	.	+	0	ID=MGA_1970;product=protein-lysine N-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846965.1;translation=MRKLSYTPHVPYVPTPDKVVKKMLEIAKVGPEDVVYDLGCGDGRIVITAVKDFNAKKAVGIDINDERIQEATKNVKENGVEGKVFIRKGNFFEENISEATVVTMFLLTNVNEMLRPKLETELKPGTRVVSHEFEMRGWTPKEVVKVEDGNMNHIVYLYVIGENK;locus_tag=LOCUS_19690;EC_number=2.1.1.-;note=WP_052846965.1 protein-lysine N-methyltransferase (Sulfurisphaera) [pid:78.3%25%2C q_cov:98.2%25%2C s_cov:100.0%25%2C Eval:4.4e-72],MGA_1970
sequence1	MetaGeneAnnotator	CDS	1751144	1751572	.	+	0	ID=MGA_1971;product=DUF2286 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979472.1;translation=MKVLILKSETGKITSEKTIDGNIGDVVKQVASDALKEWNEMTSDFTIMKDTQEARIPLPLKPDVYEAVKSFLSGKDKTSAILRIPIYIISFDNMWKEDDYQDNKVYVVSYYLDDNLKNELLEYAKQATSAQKIEEQGEEEEE;locus_tag=LOCUS_19700;note=WP_010979472.1 DUF2286 domain-containing protein (Sulfurisphaera) [pid:55.0%25%2C q_cov:90.8%25%2C s_cov:90.2%25%2C Eval:1.1e-37],MGA_1971
sequence1	MetaGeneAnnotator	CDS	1751629	1754250	.	-	0	ID=MGA_1972;product=DNA-directed DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979471.1;translation=MAKQITLFDFSMQSAEKGNAKSVKSNEDTENVENYRQKGKVWLPEAEDGRTYYLLAVDYDGKKGKAFCKLYDPEKKDVHSFYDNTGHKSYFLVDLDPEQVRKIAKIVKDSSFDHLEVVYKIDPYTGKKVRLTKIVVKDPLAVKRMRNHVPRAYEAHIKYYNNYIYDLNLIPGMPYAINKGKLNALSPSVDVEEVKQAFADSDEMTKETALTWAPLFESDVPSIKRAAIDIEVFTPMKGRVPDPIKAEFPIISISIAGTDGTKKVLLIERPDVEQGNTSNEGISVEYFKTEEELLKRFFDIIVDFPLILTFNGDDFDIPYIYFRALKLGFFPEEIPFEIGNRETKFLAGFHIDLYRFFFNKAVRNYAFEGKYSEYSLDAVASALLGLSKVKIDSNISDLNLTKLIQYNFRDSEITLKLTTFNNEIVWKLIVLFSRISKLGIEELTRTEISAWVKNLYYWEHRRRNWLIPLKEEILERTSRLKTAAVIKGKGYKGAVVINPPVGVFFNVTVLDFASLYPSIIRNWNLSYETVDLEECKKPYEVKDETGEVLHVVCMDKPGITAVMTGLLRDFRVKIYKKKAKHSNADQEHKMLYDVVQRGMKVFINATYGVFGAETFPLYAPAVAESVTALGRYVITSTVKKAQDLGMRVLYGDTDSLFIYQPTPEKMQEVVSWVKQTFKLDLELDKSYKFVAFSGLKKNYFGIFTDSTVDIKGMLVKKRNTPEFLKESFKEVKDLMMTINSPSDLEEAKKEVKEKIKDIYDKLRNKGFNLDQLAFRVMLSKSVESYTKNTPQHVKAAAQLRAFGVQVLPRDIISFVKVKSKEGVKPVQLAKLSEVDIDKYYDAVRSTFEQLLRSLGINWDEIESTISIDSFFKN;locus_tag=LOCUS_19710;EC_number=2.7.7.7;note=WP_010979471.1 DNA-directed DNA polymerase I (Sulfurisphaera tokodaii) [pid:69.6%25%2C q_cov:99.8%25%2C s_cov:99.4%25%2C Eval:0.0e+00],MGA_1972
sequence1	Aragorn:1.2.38	tRNA	1754332	1754408	.	+	.	ID=Aragorn_21;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00210;note=Aragorn_21
sequence1	MetaGeneAnnotator	CDS	1754782	1757085	.	+	0	ID=MGA_1973;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980338.1;translation=MADTKIIGFAVVIIILLIAASIGFYEYSSVSSKYASLQSSYTSLSSSLSAAQANATYYKTLAKDNYTQYLRIMSNYTSLKSMYAALEHNYTMLQEMYKQLEANYSKLISEKVSQEYLQGAALDTAFEFWDGIAIESPSDVLPFLASNFTATITGVPFSGTYNLQSFNSTWLSNFFSNYETVYFYTTALPTITMINNTTYEITAVAQYFVAPTNDPVYLQVFNASISLYIQIISGKPEITSMNWTGNEVAPSEVIAGYPSQHLMQANQVTDEVLSEVNGLGAEFAPSTIAMYFSPNAELKIQGTLPPGLKNGTYTGISNIEGFFSNWDSYFIFAAEYAQNLLPNGTAIPPSVNVTLSPTGTSAVVVANVTPFIGFVNQGEPGFPGIYDIHVDLIAYLQYNSTTASWQITNETWNVMNIPISQDTIYYNLNQPIFKVIKEDTTLVNATQGAILQAGNIITIIQPGTYAALPNGTMLSEYNFSLIIFSLQAVYPPALDFFNLTPTYAFAFAINGHISPQYSLVTPSKLASPAITIVYGSDTWTSWTWFGGTFNGTAYIGGSYKFADNWIYGDNVLVNIQFFKPVLWIFEASQTPIKTPPMPVNVSVSQAYGLTPINAYSYEINATQGGVVTAGNTLVVIKPGTIIKTPTANLTEYNFSIVYYATSNLPSPGDNQEPFIAFAYAINGNVTFSYTATQPFITVITTPSHNAEMWTWNSKGYIFRDPIIIGNGILVNLTFIKPVPWIITLPEITTSTTSTTSTTSTTSSAYWA;locus_tag=LOCUS_19720;note=WP_010980338.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:58.7%25%2C q_cov:95.7%25%2C s_cov:95.1%25%2C Eval:2.0e-252],MGA_1973
sequence1	MetaGeneAnnotator	CDS	1757197	1758225	.	-	0	ID=MGA_1974;product=L-myo-inositol-1-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846748.1;translation=MIRVALVGVGNVASALVQSLEEVKHGKEIPGILDLPFSPQDIEISAAFDIDRRKVGKTLSEAIFAKPNVVPQYTKVFNDVTVLRGPTLDGNKGSLSNIIEESEELPVDVSSILREERIDVVVNLLPTGVNEATLFYAKSSLESSTAFINASPTEVVRQLGKDFESKKVPLFGDDLISQIGGTIFHTGIIEFLKNRGVKINRSYQIDIAGNTETLITLEDWRKDLKKDIKSSYISSKTNGAQVVAGTSDYVEFLGDRRVSYMVIEGEYALGETIRVDISLKTHDAPNAVQPLIDLIRLAKLTRNKGIGGPIQSICGYYFKNSYKYGSIEEVKKDLTDFIRKLF;locus_tag=LOCUS_19730;note=WP_052846748.1 L-myo-inositol-1-phosphate synthase (Sulfurisphaera tokodaii) [pid:61.4%25%2C q_cov:99.7%25%2C s_cov:98.0%25%2C Eval:2.4e-115],MGA_1974
sequence1	MetaGeneAnnotator	CDS	1758222	1759610	.	-	0	ID=MGA_1975;product=NADH-quinone oxidoreductase subunit NuoN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980305.1;translation=MYIDYIPIVLISVLLLFSSISVLFIDKGEKKGYSTGYFLTLSSFIVVLIVLLYFLTIGPDNYYIFSYSLYISNIGYLLSIVAVLGGLVALLGAKDHMEIWRTRSSMLSLMMLTMLGIIYMAFSNNIIVILTGWGISSAASYAITMLRKDFGSVISGMKYLVMGLISSSFMIFGFALYALGIGTLYFSFQNIQYPDLFTLGIVFVSVAFLFKIGAFPFQGWLPDVYIDADRISVSFVSSVGKMVGIVPLLKILISGDPTGVEEISVLAIFATISILSMTIGNIVAFSRKDITSIFSFSSIAQMGFVLIGFTTIFLSQTIAEAGIIIQMMAYVIAQAGLFNFANHVEKVSGTTDIRGLRGLASSDRGLAVASTILLLSLLGIPPILGFWGKLFLFESAFYIPWLIVIGVINSAISAGYYVPLIREMYREGNFTYVRSDERDSVIFASAISIAVGLIAPLLLVVI;locus_tag=LOCUS_19740;gene=nuoN;EC_number=1.6.5.9;note=WP_010980305.1 NADH-quinone oxidoreductase subunit NuoN (Sulfurisphaera tokodaii) [pid:49.4%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:4.6e-126],MGA_1975
sequence1	MetaGeneAnnotator	CDS	1759611	1763030	.	-	0	ID=MGA_1976;product=proton-conducting transporter membrane subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980304.1;translation=MITYIVFIVSFVLASLVFLTKRKTLASIISFISIGLNSYFIAKIGLFDNFYVSNSIGYFGFTVNDLNLAFIFTILAVSLSSLVYSLHYMKDRFEEVGENWGLYFGLFSLFAISMLYVVISVNLLELYIFLEIALITSFLLIMLYGYGDRRRISLLYFIWTHIGTIILLSSIIIIGISTGSMDIYSSYGVFANYSTVSYAILVFFLAIIGMMVKSAQAGFNIWLPYAHGEAPTPISVLLSPNMVGLGVFVIILYYYLFPSFSYLAVIFIGWSLITMIYGGINAIAQKDFKRFLAYSSVSQMGYMLLGASIAYLLGLGSSVYELPLGMIASILVYVSHGFGKAILFMSAGASITEFKERNIYNLGGIYLSSPLHSTLAFFGILNILGLPPSIGLISEALLLFSAGQLVNYLGAYWIIIALAIFLGIGISSGYVTYLYKKVFAGTSTRQSIDRILEYSIPMGVLAGISIILFFVPQYFVSALNNFIPQISGNDYSIFLIVIFPILGSLLAIILPKSLNQNIRGSIVVSTIALSMILSVFNLINALSLNKIFYEPVLHYQLFGYFQFSSSLLQAILAIFVSTLSFFIALYSIGYMKEDNVLRRYWGFFGFFVTSMLAVVLSDNIILFMAGWEGTSLASYGLIGYWLDDNERNVVGDFKRYVMGLQFLSRPTTSGIRAMIFTRIGDVGLFLGLGYLLYITSYSTYRANTIIYNNGIFSYLHLISTVPLALILLIFLYLGGLSKSAQFPFTQWLVTAMTGPTPVSALIHAATMVNLGAMFTFLTYPFLVTASNPTIVEFLSIITGISLFTAIYTSLNALVSNEQKVILANSTADQISLMIFASSLGALLSIVYKNPLFLYAGIGIGIIQMIAHGLYKASLFMNAGAVIHAINSRYIGEFPNLYKNLKTVFYLQLIAALNLANIPPLIGFWAHSFISSLTGGYLSYIYIILEFIGSIYIIRYVSKTFLWGKGEKEVEHHKDSSLLISPFILVLATIILGILIPNITTFFSNYILVPRNEFYFNAIDFVASLVGVFIAFTLYTSNLDFYKYSMLRPFIDFLYYGWYIYPLLDKLGLYSFKFYNEIFEKVETRIIDTTLNVRIPQGVLKYGSLLFLRIQNGVLRSYIGYYIGGIILFLIIVLIIFGVI;locus_tag=LOCUS_19750;note=WP_010980304.1 proton-conducting transporter membrane subunit (Sulfurisphaera tokodaii) [pid:59.8%25%2C q_cov:97.9%25%2C s_cov:97.9%25%2C Eval:0.0e+00],MGA_1976
sequence1	MetaGeneAnnotator	CDS	1763032	1763316	.	-	0	ID=MGA_1977;product=NADH-quinone oxidoreductase subunit K;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980303.1;translation=MLVSYLGITLSIILVGIGIYGLTNSKNIIRILLSSEIILNASILFVFAVSSIMGRTYLPIIFSIFAIGMALTEVIVAFAAIILYFRQKGSLEVE;locus_tag=LOCUS_19760;EC_number=1.6.5.9;note=WP_010980303.1 NADH-quinone oxidoreductase subunit K (Sulfurisphaera) [pid:67.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-29],MGA_1977
sequence1	MetaGeneAnnotator	CDS	1763319	1763816	.	-	0	ID=MGA_1978;product=NADH-quinone oxidoreductase subunit J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980302.1;translation=MSLTADFQIGIFIFFSIITIAFSIFIVKSKNVFYSAISLAFLGISIAVLIADISPVAYSLYSAFHLLLYVGATVVFMSISLVMFRGIGVKEIKISWAPVIAMLVSVVIFSVVLISINNIPSKLPSPINLEQLGLDILQKYWFPAVILIIGLLTTMIEAISLARRD;locus_tag=LOCUS_19770;note=WP_010980302.1 NADH-quinone oxidoreductase subunit J (Sulfurisphaera tokodaii) [pid:57.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-44],MGA_1978
sequence1	MetaGeneAnnotator	CDS	1763800	1764300	.	-	0	ID=MGA_1979;product=NADH-quinone oxidoreductase subunit NuoI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847026.1;translation=MDKVKEYKKSNPFRLFAEHLEAVGTGIKYFVEPQRVTLKYPEEALSLPVGYRGMIRLYKDVCIGCTLCAMVCPADAMKMVTQEGKKLPTINYGRCVFCAFCVDICPVDALKETSVHDAAFTNRRDLVFMPDKFNKDFDEAPPVGKVVRKVKAVIDENRGIKYVSDS;locus_tag=LOCUS_19780;gene=nuoI;EC_number=1.6.5.9;note=WP_052847026.1 NADH-quinone oxidoreductase subunit NuoI (Sulfurisphaera) [pid:75.9%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:2.6e-75],MGA_1979
sequence1	MetaGeneAnnotator	CDS	1764288	1765346	.	-	0	ID=MGA_1980;product=NADH-quinone oxidoreductase subunit NuoH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846747.1;translation=MDALGILRFYILYPSFFVTIIFPGLIFASILLLTTIWFERKSAARLQMRIGPYYASKRIGGFLQLVADAIKFVFSEMIIPSEVNQTLYTLAPVLMLAVSFIPIAVIPISSIPASGSVFSIYFKDFYDPNISQGVLTGIFVNYNILLILALESIYPIFIIFLAWVTNNRFALVGAVRETYLSVSYDVILLMSTLAMAIEFHTLDIAKIVSYGIPGFVVNPIAGFLFFVAMLLGTSRFPFDITEADTELVIGPYTEYSGFLFVLTMAGSYLGNFVYALVFSDVFLSGWYPLSGFPGAVLTVFKAVIVLFFSVFLRGVYGRYRIDQALRGSWKYLFPLALVSIFLGMVVGYLWIK;locus_tag=LOCUS_19790;gene=nuoH;EC_number=1.6.5.9;note=WP_052846747.1 NADH-quinone oxidoreductase subunit NuoH (Sulfurisphaera tokodaii) [pid:63.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-133],MGA_1980
sequence1	MetaGeneAnnotator	CDS	1765346	1766563	.	-	0	ID=MGA_1981;product=NADH-quinone oxidoreductase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980299.1;translation=MINQANEVLASSGMEVEIVPVQGELNVGPQHPGSGHMRLLVKLNGDIIEDVDLDVGYVHRAVEKLSENRNYIHLIPLVERPAILDSIHMNLGYIMAVEKILNVDVPERALYLRSFSAEINRIASHLYGLGILGIFLGHSTAFMWGFGDREVWVHILESLTGARVTNSYIIPGGVRRDLTPEIAEMTKKAIVYMRKKLIDWKRIFLNNPTIRARLENVGVMSKENAIKWGAVGPNLRASGVYYDVRKIEPYAAYSKLDFDIPVYKEGDGYARTMVRFDEVEQSLRILEQIIKEIPQGNILSDRFLKQIPPTRLKKWWEGQHRIVMPGYYASFRPPKGEAISRVEAGRGELVYYVVSDGSAKPYRLRMITPSYRLINVLKNLSIGSRFADLVSIYGSLDYFPPEADR;locus_tag=LOCUS_19800;EC_number=7.1.1.-;note=WP_010980299.1 NADH-quinone oxidoreductase subunit D (Sulfurisphaera tokodaii) [pid:82.7%25%2C q_cov:96.8%25%2C s_cov:100.0%25%2C Eval:1.5e-191],MGA_1981
sequence1	MetaGeneAnnotator	CDS	1766547	1767032	.	-	0	ID=MGA_1982;product=NADH-quinone oxidoreductase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846746.1;translation=MQRQIDNILTTIKSKFNVNVKAESDNRGYIEVDKNKLFDVANFLKEQGFDHVKSVTGIDYPDQEKIQIVYHISSYSNEELAKIILALKSFVTYKDPHITSLYPIWNSVWTGERETFEMLGVYFDGHPDLRRLFLPEDFEDVYPLRKNYKIKLEGLFVDKSS;locus_tag=LOCUS_19810;EC_number=1.6.5.9;note=WP_052846746.1 NADH-quinone oxidoreductase subunit C (Sulfurisphaera tokodaii) [pid:64.6%25%2C q_cov:100.0%25%2C s_cov:97.6%25%2C Eval:1.0e-57],MGA_1982
sequence1	MetaGeneAnnotator	CDS	1767035	1767424	.	-	0	ID=MGA_1983;product=NADH-quinone oxidoreductase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980297.1;translation=MSFTQAIVAFGLPSILVLIAGYGGYKLLSLIVPNEPSPVKTSRFEAGNIPTGEGRLWFPLQYYGYLLIYTSLEPILVLLFTVASVPFYLSSLLFRNILIIISSFIAILYPILVYSVNQINMILNWELRR;locus_tag=LOCUS_19820;gene=ndhC;EC_number=1.6.5.9;note=WP_010980297.1 NADH-quinone oxidoreductase subunit A (Sulfurisphaera) [pid:62.5%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:6.7e-42],MGA_1983
sequence1	MetaGeneAnnotator	CDS	1767523	1768284	.	-	0	ID=MGA_1984;product=FAD-dependent thymidylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980296.1;translation=MNVSLVSYTKDGEKVVAIASKMSRSRKGWKHHEETMTEDEIETWIRDAVIHGYWSPLEHSVYTFSIEGISRVASHQLVRHRIASYTQMSHRFAKPVDEYYQPVVPPSAEKRNEEVIKKAYKDAYDLYYDLLQNGVPEEDARYVLPNGVNTNIVVTMNARELYNFFGLRLCSRAQWEIRAVAWKMLEEVKKVHPRLFRYAGPNCIIHENFIRQEPITLDNLSVEFLSQRCIEGVPREGIIKCILNSKSILEKLK;locus_tag=LOCUS_19830;gene=thyX;EC_number=2.1.1.148;note=WP_010980296.1 FAD-dependent thymidylate synthase (Sulfurisphaera tokodaii) [pid:79.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-121],MGA_1984
sequence1	MetaGeneAnnotator	CDS	1768385	1768720	.	-	0	ID=MGA_1985;product=DUF2175 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980295.1;translation=MSRAQTKWNCDICKNPIYWDELFTFTSKKAVVHYTCFRDKALKTSKIDENQLKSILDSLEDELKMITVYKQRISGLSNEEAKKYMEQAEKDAEKNASLLTRLAEKLSNVLE;locus_tag=LOCUS_19840;note=WP_010980295.1 DUF2175 domain-containing protein (Sulfurisphaera) [pid:65.8%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:3.3e-36],MGA_1985
sequence1	MetaGeneAnnotator	CDS	1768765	1769916	.	+	0	ID=MGA_1986;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980294.1;translation=MLTEKVISDAKFYNKLILTFFSSEDCNICDELFNKIKELKISNRYYIFNIDSIEKSNYFIRLTRGIIPTITILSPDLKILGIIESTDIKFIEDSLRKIFESYLRDFKGNDIPSFIPELDEPSQEIFYEIINRALENEPVDYRSVEFIKIFSTVHKEYEKIINELNPANDMAKYLINNSKIDLQQNYVFNISFLVNFDKEDKTKLLDFIDKDGGVFRSIKKETKGMLIDEANVGNTLISLYNRTGDNRFLELASTIFNYIKENLSHEKGFKDCPPNDAITSVVFLEPLANSETALFLARLWAITQNEEARKLSELAMKSAYGGSKDIRVLSRIALSLIVLNERIKTSEKISYDDVRLSLQNISCKYEYDGKCYNSLEEIKPKFF;locus_tag=LOCUS_19850;note=WP_010980294.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:44.9%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:2.3e-88],MGA_1986
sequence1	MetaGeneAnnotator	CDS	1769903	1770580	.	-	0	ID=MGA_1987;product=DUF364 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980293.1;translation=MILDEIIEELSYELKQRKIINLCVGIAYTSVILDNQTIGISHTIPDGEVENAGEIIGKNAYEIAKDIDNPIKRSISLAILNSIGSKNLEQGDPITLFSGNKLCIFGYQPYINSSNFKQTIAYDFSQDTELTPFSEYNGEICDTAVIFGSALVLGVTEKILKNLKAEHIILSGVSSVEAPATLKKYGFEIVGKVLPVDNYRVFRTICEGGGARQLNKYIIKGFRRI;locus_tag=LOCUS_19860;note=WP_010980293.1 DUF364 domain-containing protein (Sulfurisphaera tokodaii) [pid:44.0%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:3.3e-55],MGA_1987
sequence1	MetaGeneAnnotator	CDS	1770577	1771653	.	-	0	ID=MGA_1988;product=NDP-sugar synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980369.1;translation=MVSAIVLAGGYATRLRPLSLTKPKALFPVLDKPMIDYILDLLEDAGVDDIYVSLRVMGDKIIDYLEGEGRKIKFVVEKDPLGDAGPLKYIVNQYKLDDTVIVIYGDIYTELNIKDLLSFHDKRDCPATMVGKEVEDPRRYGVLVTEGDTLIEIIEKPRNPISKLINAGVYVFNKKLFDLISGNSISKNFLPVILQNNCISVYRYNGIWADIGVPKDYLKLNFSLLAEKYPKGYIASDAKVCSGVTLIPPYFISSGAKISDSSIVDSNTILGKNVSIGEGVFVSESLIMDNVKIADHSYISGSIIADKSNIGKWNHIREGTIIGEEVLTKDGVLLNQNTIILPNKEVSEPIFKRGKIIL;locus_tag=LOCUS_19870;note=WP_010980369.1 NDP-sugar synthase (Sulfurisphaera tokodaii) [pid:62.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-130],MGA_1988
sequence1	MetaGeneAnnotator	CDS	1771683	1772318	.	-	0	ID=MGA_1989;product=superoxide dismutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980368.1;translation=MSSSISFKKYELPPLPYKLDALEPYISKDIIDLHYNGHHKGYVNGANSFLDRMQKVTKGELLSGQYDIQGLLRGLVFNINGHKLHSLYWENMAPNGKGGGKPGGSLADLIEKQYGSFDKFKALFTEAANSLPGTGWTVLYYETENGNLQIMTFENHFQNHIAELPIVLILDEFEHAYYLQYKNKRADYVNAWWNLVNWDYANKKLEKYLNK;locus_tag=LOCUS_19880;note=WP_010980368.1 superoxide dismutase (Sulfurisphaera) [pid:85.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-110],MGA_1989
sequence1	MetaGeneAnnotator	CDS	1772526	1774370	.	+	0	ID=MGA_1990;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNRNFRSIVLDKYSDYIERTLLSILNSVLAYGLSIFLGLNSQYLYLIIPIVALTSIVIPFIASPVITVLYIVNLIYDKIIDIDTKSINFDFSIYILIEIILAIIVPLLIELKYKSIQGFISINSLLSYSILPLFSIFLISGISEKKSSLTNALSSLPLLSMIIYSNLLDFDLKMMILESVLIISGAIILGLKKFLSPIGVILPILAFYLYFDNLSTIYIASMGIIGTLINLIPTIDMEYSKKNSTKEKFYSTKENLRKEIENTVLILQRLIENNLSFDELNSILSQSKNTLADIDGYIDKCQNIQCLNELEKKYSENKKEMENSINEIVFNNIVSYNEVIGKLKRYGINGEEIQVSNAKFSLDENGIDYISKIFFSINKNVNIILNDLNESIDDLQKLVGINLNKIFITDYRKLPDLILFIQDKNLITKLQKLVDIEKEIIANLNDPKIAEAKLDISKKLNLINLTNITFYEVKEIVQVSKELDSIVNSEMSNINRNLYNLNLEIGKDLEQQQKLIYMKLTNQKTLYDKFSNFLTSINLINDCIEISENKGEIESLYQLLNDNSKEILSSIYENKCISISDLGIDQKFSKYVSYWLNKKGVKATYIKDKICLS;locus_tag=LOCUS_19890;note=MGA_1990
sequence1	MetaGeneAnnotator	CDS	1774362	1774580	.	-	0	ID=MGA_1991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980366.1;translation=MTTLDLRGKECEEFIVELSKYLVALKPGDSIQVIADPDRIMCTHQLLRNAPRYLFKGDVVGDHAEIVIRRLR;locus_tag=LOCUS_19900;note=WP_010980366.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:75.4%25%2C q_cov:95.8%25%2C s_cov:92.0%25%2C Eval:7.5e-25],MGA_1991
sequence1	MetaGeneAnnotator	CDS	1774616	1775398	.	-	0	ID=MGA_1992;product=thioredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980365.1;translation=MKVEIFTHKNCTECNLLLEYLDQKSLLGRVQVIDTELYPFLAIERGVISTPSIFIDGKLIYAGTVDFEEFTKILNGEKVSRKIDKAELINKLMYGIVDSFAATAWIYVNRDFDSFMAQKDFIIAVTGLALSDNAEEKYTYLRNIMIKEGERYLQQWEDKMIRNISSNFIREIYWLYRTKISIENIKSKYPLEVFAHWLMIRGASVGRVGVKIYPLSDLTIMQRIMKVYKYMLDNYDNLWDKIEKEQKKLEDNNIERKLIL;locus_tag=LOCUS_19910;note=WP_010980365.1 thioredoxin family protein (Sulfurisphaera tokodaii) [pid:64.3%25%2C q_cov:98.5%25%2C s_cov:97.7%25%2C Eval:3.0e-98],MGA_1992
sequence1	MetaGeneAnnotator	CDS	1775430	1777055	.	-	0	ID=MGA_1993;product=ATP-dependent DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980364.1;translation=MDLRYWQSFLKDKVTEYLKNGFLVSLQAPTGSGKTLFSILVSFQVKPKVLYVVRTHNEFYPVYREIRKLNKTYSFIIGKSSACPFVSGDVDPEDIKCSSCEIYNSAKITVDESPFAFIKKIKKDGVEKGYCPYYSLLGSIEDSDLVLITYPYLFLPYLRESLDINIEDFAVIIDEAHNLDYLNDLQERKLNQNIIQLAKNKVKNSEVIKILDKLEVEIRKSVFSDDKYILMDNYPKLTEDELDILKDEYELEREEAVKQKKISRIYLGNILKFYTSLSEAKVFSYKGSLVSKPLTSRDMLSILNANTSFILMSGTLPPIEYMKKIMGIERRMIYIDVEKEVKSKITGNYTCMIATDVTSSYSLRTTEMWKKYASYILKIYHLAEKHILAVFPSYMIMEKIMNLIEVRKFVEKDKTNIEEIMEKTKQGKTIIAGVARGKLTEGVELTMEGKSLISDVILAGIPYPSVDDFLKLKAEQIRKITGENLIDLLISVPAYISVKQAIGRAIRSPEDKANVWLLDKRFDNIMWKTKLRCYNPRKVKL;locus_tag=LOCUS_19920;note=WP_010980364.1 ATP-dependent DNA helicase (Sulfurisphaera tokodaii) [pid:50.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-167],MGA_1993
sequence1	MetaGeneAnnotator	CDS	1777046	1777336	.	-	0	ID=MGA_1994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846761.1;translation=MSNVRELMRSKVDYRIVEISDSSPSTEIKATIVLDVPPSEDIINDVSQLVKVEKVYNFMQTIKVKGKAKDVTKLSEKSFVKYIMLDEIVVKTEEWI;locus_tag=LOCUS_19930;note=WP_052846761.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:48.4%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:1.7e-21],MGA_1994
sequence1	MetaGeneAnnotator	CDS	1777452	1778768	.	+	0	ID=MGA_1995;product=phosphomethylpyrimidine synthase ThiC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979932.1;translation=MTQITEAKSGNVTEEMKIVAKEENEDPNKIRDRIAKGKIVILKNKIRSLEKYTGVGEGLITKVNVNIGASTDHYNIEEEMEKIEIANKFGADSLMDLTDGGDIDYIRKLVLQRAKMPVGTVPIYQLYYEMVTKRKYVIDFTEDDFFNVIEKHFKDGVDFVTLHTGVTLDLAKKAAEMKRTAGIVSRGGTILAAWEIYNEKENPLYANFDYLLELAKEYDVTLSLGDALRPGGIDDAHDELHVGELIVNSRLARKAIENGIQVMIEGPGHMPLDQIEMDIKLEKQLSGGVPYYVLGILPTDIAAGYDHIAGAIGGAIAAMNGADMLCYLTPAEHLSLPNPEQVKEGLIAFKIAAHAGDIIKVGEKVKNKDTEMSKARSRLNWKRMFDLTFDQDNAIKIYLQYKNFAGGSCTMCGDLCVYLVLPRALNKKKYDKDKKTRS;locus_tag=LOCUS_19940;gene=thiC;EC_number=4.1.99.17;note=WP_010979932.1 phosphomethylpyrimidine synthase ThiC (Sulfurisphaera tokodaii) [pid:50.5%25%2C q_cov:95.0%25%2C s_cov:96.7%25%2C Eval:5.8e-123],MGA_1995
sequence1	MetaGeneAnnotator	CDS	1778740	1779042	.	+	0	ID=MGA_1996;product=Rieske (2Fe-2S) protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980363.1;translation=MIRIKRPDLKVGEKTKINQDNLEILLIYLGADRFLAFDNRCPHLGCDLSKYGVLIRDELVCQCHFSHFSIFSGKPIKGAAKKPIKIYNVKIDGDYLIIGQ;locus_tag=LOCUS_19950;note=WP_010980363.1 Rieske (2Fe-2S) protein (Sulfurisphaera) [pid:59.8%25%2C q_cov:97.0%25%2C s_cov:97.0%25%2C Eval:1.7e-29],MGA_1996
sequence1	MetaGeneAnnotator	CDS	1779025	1779645	.	-	0	ID=MGA_1997;product=type I 3-dehydroquinate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980362.1;translation=MRTSIVASLPVYNIGDLEKIKRIDADFIELRLDYMDKLEVNLDSLNEYRSKLIFTIRDKSEGGYKEIPDAEKSAFLKELYSKGFLYDIEASFLQRELVPHKGKIVSAHYFDHIPSFEELEDIIRKYREAYIIKFALVGKENYREILIKLLRYENIAVMPMNVDPLERIAFSILGSKLIYGYVDIPTASGQMHYKDIKRIFQLLANY;locus_tag=LOCUS_19960;EC_number=4.2.1.10;note=WP_010980362.1 type I 3-dehydroquinate dehydratase (Sulfurisphaera tokodaii) [pid:48.8%25%2C q_cov:98.5%25%2C s_cov:94.4%25%2C Eval:8.6e-49],MGA_1997
sequence1	MetaGeneAnnotator	CDS	1779642	1780823	.	-	0	ID=MGA_1998;product=3-phosphoshikimate 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980361.1;translation=MKLEIDIEKSIIHGRIQAPQSKSLAIRVAFLSLLTEVNTDFWNSNDIIAAINAVKAIRRGDNYIYVGGSATTLRILIPIVVALKRKVTIDGDETLRKRPISAIRKALKKASFSSDFLPVTIYGELERETKIEGWESSQYITGLIYAYHLLGEGIIDIIPPISSLSYIHMTIDLFNKLGSKIEMEGNTIYIKSSKLSCYNTKIPGDYLLSSFYAIASLITSGRIEIENLYSPPNYFGDHSIMEILGRMGAKSYYYDNKWIVESSKEYYPIEIDLNDSPDMAISISALSAVSKGTSILRNIDRLKIKESNRVQTIIETLKAFNIKSSYSDGNILIFGSKPSRGKVVCPNDHRIAMLAADLATYSGGEILNAECVNKSNPNFWEDLKLLGGKISIK;locus_tag=LOCUS_19970;gene=aroA;EC_number=2.5.1.19;note=WP_010980361.1 3-phosphoshikimate 1-carboxyvinyltransferase (Sulfurisphaera tokodaii) [pid:50.5%25%2C q_cov:99.0%25%2C s_cov:99.5%25%2C Eval:4.4e-103],MGA_1998
sequence1	MetaGeneAnnotator	CDS	1780780	1781580	.	-	0	ID=MGA_1999;product=shikimate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980360.1;translation=MQTFGGISIVNAIPSWYGSSMAIDLKVNVDVEEGHSTFQSSLVKTILDYFRETYNIPELKVNIRSEIPQMSGLKSSSAVSTALIAAISEKFGIEVDIPKLSAILSIKSGVSVTGAYDDATAAYYGGVSFTYNKEFKLIKMENFPEDISILILAIGNRPNIDLKILKKYNLLFEEIFKIALRDIITAMKLNGLAIAEILGYDKEPIISALKNGAIASGISGNGPSIFALCKEGDDGPIYESLSKYGKVIVTRAVEIGDRYRKIDNTR;locus_tag=LOCUS_19980;EC_number=2.7.1.71;note=WP_010980360.1 shikimate kinase (Sulfurisphaera tokodaii) [pid:58.7%25%2C q_cov:95.1%25%2C s_cov:97.7%25%2C Eval:1.0e-80],MGA_1999
sequence1	MetaGeneAnnotator	CDS	1781553	1782725	.	-	0	ID=MGA_2000;product=chorismate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980358.1;translation=MPGNSFGNIFRITTFGESHGPAVGAVIDGVPAGLPLDKEDIQFELSFRRPGRFLVSGRREKDEPEILSGIFNGKTTGAPIAILVRNNDVISSLYEEIKYKPRPGHADLPYIMRYGYENWDYRGGGRSSARETVGRVAASAIAKKLLMFTNTIIAGHLKSLGNIELDTEVKFDDILCSKYSPVRASNKDIENKFIELVKKATTEGDSYGGIAEIFVENPPPGLGEPVFDKIKADLAKAIMSIPAAVGFEYGLGFKLAKMRGSEANDEIIIKNGKLGWKNNTSGGILGGITNGEPIILRCAFKPTSSIRIPQETIDLRTMNESKISVLGRHDPAVAIRGVSVVEAMTSLVLVDHAIRSGVIPSVKIDNKEAEIIQERWLRYKEACKPLEESQ;locus_tag=LOCUS_19990;gene=aroC;EC_number=4.2.3.5;note=WP_010980358.1 chorismate synthase (Sulfurisphaera tokodaii) [pid:75.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.9e-172],MGA_2000
sequence1	MetaGeneAnnotator	CDS	1782703	1783488	.	-	0	ID=MGA_2001;product=shikimate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980357.1;translation=MFEINYSTKLLGIIGKNISYTLSPAIHNYSFQKLGINAVYLAFDLDETKFERLTSSLLELGKGFNVTIPYKEKIIKYLDKVDFTAEKIGAVNTIKEKEGYNTDYLALKTILNETGYYDSIIFGSGGAAKAISFAIAEEGFKVYIYDRKKEKGEKLVEYIKSKGYKAKVVENCSIEYGIIANATPDPSFIPEHCIKGNIAIDFVYTPVITTFLDKARKNGMKDVNGLKILVRQALEAQKIWFGKTVNEDEVVNFLYARKLVR;locus_tag=LOCUS_20000;note=WP_010980357.1 shikimate dehydrogenase (Sulfurisphaera tokodaii) [pid:51.9%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:3.0e-77],MGA_2001
sequence1	MetaGeneAnnotator	CDS	1783476	1784516	.	-	0	ID=MGA_2002;product=3-dehydroquinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980356.1;translation=MKNIKENICSFEINVDIGKKFEDFLSELDKKKAIIYSKNLRINPKADVVIPIDDGEQAKDLSNVLDIVKTLFDNDFDRGDYVIAVGGGTVLDIAGFAASIYLRGINLVNVPTTLLGMVDAGIGGKNGVNFAGVKNILGTFYQPSNIVIDLNFIKTLPLEELKKGLAEVIKYSLVLDKDLYDFLSLNKDRILNKEEDALEEIIYRSVNDKLGVVKEDERENKGIRVVLNFGHTIGHAIEAGSNFKISHGYAISVGMVCEAKIAEEMGYSEEGVVEDVLWLLQLYGLPLSIDKIGIPISLDLALSSIEKDKKTRGNFVMMPFPTRIGKWKKVDVPKETLKGFASQCLK;locus_tag=LOCUS_20010;gene=aroB;EC_number=4.2.3.4;note=WP_010980356.1 3-dehydroquinate synthase (Sulfurisphaera tokodaii) [pid:66.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-132],MGA_2002
sequence1	MetaGeneAnnotator	CDS	1784513	1785508	.	-	0	ID=MGA_2003;product=3-deoxy-7-phosphoheptulonate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980355.1;translation=MILFILKDKRDYSTLKEKLQLSSSSYKFLNLYGKNLLLVWPDSEAEKIVDEDIEVAVKTKKSYILASNEWKKDPTSFKVKGTEIGTNKIVVAAGPCAVESEEQVVSVAKAVKRAGASILRGGAYKPRTSPYSFQGLGEEGVKILKTAGEETGLPIVTEIMDTKDSEVFKKYVDMVQIGARNAQNFSLLKEVASIGKPVLLKRGMANTVEEWLQAAEYLLYGGDGNVILCERGIRTFEKSTRFTLDIGGMVAAKMMTHLPICADPSHPAGKRELVHSLALASVAAGADMLLIEVHPHPESALSDSEQQLTPESFEVLMNRIKALASALGRSV;locus_tag=LOCUS_20020;gene=aroF;EC_number=2.5.1.54;note=WP_010980355.1 3-deoxy-7-phosphoheptulonate synthase (Sulfurisphaera tokodaii) [pid:77.2%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:3.7e-145],MGA_2003
sequence1	MetaGeneAnnotator	CDS	1785505	1786539	.	-	0	ID=MGA_2004;product=chorismate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980354.1;translation=MSEIDDLRKQIENIDEKLVYLLSERMKLSGKIGKIKQKNNFPITDEKREESVRLRWLSLSQKYGIPESMIDPLLNLIFSYSKIFQINPSYIKKISIIGYGGMARSLISLFKISSQEVVVTGRDIKKAERLASEFGYAYMEPYKAVEWGEIIIITLPPSGIVSDFMKKLFPYFSGKKVIDILSTKHSIFGFLEKMSLENNFNYISSHPLFGPYLYPVGEKIAVIPSITFPDSKEILDFWRNCGLFPIQTSLENHEKAMAVVQVLPHFYLMALSKSIELLAKELDVDFSNFQTTNFRDIYKIIKRVNDLHSVIMEIQELNPYSQKARELGMKELNNLYNEFLGEKK;locus_tag=LOCUS_20030;EC_number=5.4.99.5;note=WP_010980354.1 chorismate mutase (Sulfurisphaera tokodaii) [pid:51.9%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:5.7e-96],MGA_2004
sequence1	MetaGeneAnnotator	CDS	1786536	1787474	.	-	0	ID=MGA_2005;product=transketolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980353.1;translation=MLQGSFSSIREAFGRTLVKLGEEDSDIIVITADVGDSTRASYFKEKFPERYFNVGISEQDMVNFAAGLSATGKKPAVVDFAMFTMRAWEQIRNSISRMNLNVKILVTHSGYSDSGDGSSHQSLEDIALMRTLPNMRVIVPADPADVIRGLPVIMKERGPIYYRMGREYSPPITNGLDYKFEIGKAYVLKDGDDLTIMGAGVVLWDALKAAEQLEKMGISTAVINLETIKPIDESTIEYYARKTGRIVTIEEHSIYGGIGSAVSEVVVKKYPVPMRFVGATTFGRSARSERELLDYYNITDKSIVNSALELIK;locus_tag=LOCUS_20040;note=WP_010980353.1 transketolase family protein (Sulfurisphaera tokodaii) [pid:76.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-134],MGA_2005
sequence1	MetaGeneAnnotator	CDS	1787443	1788264	.	-	0	ID=MGA_2006;product=transketolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980352.1;translation=MGKGGSDGIPISLEELKKLQEIAERARKNVIKMQFYDQSIHVGSSLSSIEILTTLLFRYVRESKNPTDKDWLILSKGHAAPALYAVLHEKGLIPEEELWKIQGINGLLQGHPEVYIPGIDMSTGSLGQGLSFGIGVATGIKMSNGSGRVFVIMGDGEQDEGEIWEAMTHAVARKVDNLIAFIEINGFQLDASTQDVKPKEFLHDVWKAVGWETFLCDGHDISSIVNSVEEAMKAKKPAVIFAKTLRGKGFTPIENSKKQRASPDVTRKFLFNS;locus_tag=LOCUS_20050;note=WP_010980352.1 transketolase (Sulfurisphaera) [pid:75.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.2e-120],MGA_2006
sequence1	MetaGeneAnnotator	CDS	1788329	1789195	.	+	0	ID=MGA_2007;product=HesA/MoeB/ThiF family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980351.1;translation=MERYSRQLLALGLELQEKISSLKVAVIGCGALGSALAEMLTRLGVKELVLVDADVVELSNLHRTHIFTEKDLMRPKALVCKEYLKKVNSNIKIDTILDILDSKNAEEIVKGNDIVFDALDNVNYRLVLNDACVKNNIPLIYAGVTGEYASAKIIIPGKTSCLSCFLEPIDERNACEIIGTTIATIDIITSIQIQLLINYLRGRYEDEMIYIDMEDLRLEKIKMKRNSNCEACSLHQYKYLKSKFYTCGMLRSEKSGKNIFRSSEVEIYKDSEGTIICYNEKCFKKKEA;locus_tag=LOCUS_20060;note=WP_010980351.1 HesA/MoeB/ThiF family protein (Sulfurisphaera tokodaii) [pid:52.8%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:1.4e-86],MGA_2007
sequence1	MetaGeneAnnotator	CDS	1789201	1790130	.	+	0	ID=MGA_2008;product=lysylphosphatidylglycerol synthase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980350.1;translation=MQFKYVFTALLPILVVVVYSIIFKINIIEIVRSLTPIIILAFVLSYLGQILVIALRDKKIVGVSFYTAFKARLLGNSIGLILPGWVGQELTRATVYSKEHVELIQGFSLSLLEAYYDVTVGSLMFLVLLPIRFIAIELIYIFITIGNIIGWSLGLAYVYTTAGKSIRIEKSIVKLIGLDKYYFVLNKGKQAMKDKIEGKNFITYFSLTVLGYLVQSLSFLAMVSDYFKDILINMTFFAATLFPIPGASGVSEIAFSLFLPPHFVVAAVVLELLDYFIGFIFIRDIDINELKKEFYKIKKYGEFYQGSES;locus_tag=LOCUS_20070;note=WP_010980350.1 lysylphosphatidylglycerol synthase domain-containing protein (Sulfurisphaera) [pid:41.4%25%2C q_cov:96.8%25%2C s_cov:99.3%25%2C Eval:9.9e-65],MGA_2008
sequence1	MetaGeneAnnotator	CDS	1790063	1791130	.	+	0	ID=MGA_2009;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980349.1;translation=MNLKKNSTKLKSMESFIKDPNPEEGLKLIESLYNEKSLCVKIPYTPDSIIFSSLLMKYFNGDFAISFSSLNCEVQLLQNEQGKWINSNDKQVFLGNSAFSSILPLSKDDLLPILSGISISSFLERRKTSEWENKIIEKAKAMGVTVEKNVKIPAYNELPLFLSLMLSFDPYLPQITGNRENAINFIKELGVNETTKLSELNETQLNTFLYKIMTIAIKLNPRISRDDIISDRIFYFNYDLLEVSLALIYFMDIIGSKYLIQFSLNPSIIGILIDKFRENVAKGFKIDILDNKGKYYIVDSELKSPTLISIFLQQIEKNKIIKTIVIKDNDTYLTSRYFLSSEEEGLIKIDIKDKN;locus_tag=LOCUS_20080;note=WP_010980349.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:45.9%25%2C q_cov:95.2%25%2C s_cov:99.1%25%2C Eval:4.9e-82],MGA_2009
sequence1	MetaGeneAnnotator	CDS	1791108	1791359	.	+	0	ID=MGA_2010;product=KEOPS complex subunit Pcc1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846760.1;translation=MISKIKIKYNTENSEEIYRSIKVDNIDLPDGMKINVNKGDNYIEIYIEMEIKSSKDILTLRNTADEILAHIEVIEKVISNVNS;locus_tag=LOCUS_20090;note=WP_052846760.1 KEOPS complex subunit Pcc1 (Sulfurisphaera tokodaii) [pid:48.7%25%2C q_cov:94.0%25%2C s_cov:94.0%25%2C Eval:1.6e-14],MGA_2010
sequence1	MetaGeneAnnotator	CDS	1791419	1791940	.	+	0	ID=MGA_2011;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846759.1;translation=MPLRPGRCYRHFSGPAYTRKEYIPGVPQPKITKFTMGDPNKDYDYVIKLITKQIGQIRHNSLEAARVIALKQISSAIGNETDFFIWVLKYPHHVIRENKMMAFAGADRLQDGMRLSFGKPIGTAARIEKLGEVIMLLKVKKEHLEIAKHAFKVAQSKLPLDTEIVVERIQKGA;locus_tag=LOCUS_20100;note=WP_052846759.1 50S ribosomal protein L16 (Sulfurisphaera tokodaii) [pid:74.0%25%2C q_cov:100.0%25%2C s_cov:98.3%25%2C Eval:5.6e-71],MGA_2011
sequence1	MetaGeneAnnotator	CDS	1791946	1792944	.	+	0	ID=MGA_2012;product=diphthamide biosynthesis enzyme Dph2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980347.1;translation=MSYFFDYDRVIEEIEKRGAKKVLLQFPEGLKYFSTEIVEKIQSKMPNVELIISGEPSWGACDVAEDEANIINADLIIHFGHTPYTWYYPKFPTVFINAESRIEINGEQISELKEILKQYDAKSVALTSTIQHHNVLNKIKENLREFEVIIGNPSNPFMFPGQILGCDYKAATSVNADVYVNVSGGEFHVIGLGLATMKPTIKLDPYTMKVEDMTNEVNRILKIRYSKILKAMDARNWVIIQGVKVGQNRPLMVKYFEKKLKERNNNVFIVTNKVLNIDNLRNIDRSYIDAYIVTSCPRLPTDDLFEFEKPVLTPGEAKMIIINKLEPYIFPW;locus_tag=LOCUS_20110;gene=dph2;note=WP_010980347.1 diphthamide biosynthesis enzyme Dph2 (Sulfurisphaera tokodaii) [pid:63.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-125],MGA_2012
sequence1	MetaGeneAnnotator	CDS	1792948	1793517	.	+	0	ID=MGA_2013;product=exosome complex RNA-binding protein Csl4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980346.1;translation=MRGQGDFVYPGEEIAVIEEFSAGENTYEDNGQVRASSLGKVFYDMINRRSNILSVKRPILLNLKKAKYVYGTVTLVKEDSATVSINSIEERFISPSITGYLHISQISNKYLEKITDGIKLGDIIKARPLSISIPLPLTLKGKDLGVVLAQCSICGTLMIKTDEEHLKCPNCGNIEKRKLGNYAVKKVGN;locus_tag=LOCUS_20120;note=WP_010980346.1 exosome complex RNA-binding protein Csl4 (Sulfurisphaera tokodaii) [pid:61.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-62],MGA_2013
sequence1	MetaGeneAnnotator	CDS	1793507	1793779	.	+	0	ID=MGA_2014;product=DNA-directed RNA polymerase subunit L;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_218258902.1;translation=MEIKVVKLSGDYLELEITGEDHTLGNLIAGSLRKVQGVKYASYYQPHPLIDAISIKLMTDGTIKPLDALLKAIEIAKGTSERFAEEIQKI;locus_tag=LOCUS_20130;EC_number=2.7.7.6;note=WP_218258902.1 DNA-directed RNA polymerase subunit L (Saccharolobus shibatae) [pid:62.5%25%2C q_cov:97.8%25%2C s_cov:95.7%25%2C Eval:7.8e-27],MGA_2014
sequence1	MetaGeneAnnotator	CDS	1793776	1794039	.	+	0	ID=MGA_2015;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKETRIGILSENNKLSCICIFRGSFLEHFILASNKEDALRKLEKSKVKHEINMSNFGIGEKYSGDLENTCNMILEKVSEKINKTNE;locus_tag=LOCUS_20140;note=MGA_2015
sequence1	MetaGeneAnnotator	CDS	1794068	1794400	.	+	0	ID=MGA_2016;product=transcription factor S;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980344.1;translation=MKFCPKCNSMMVPRKINGKSVYKCLKCGYEEEVKQEEVITTKIKHDVKEKTIVLEQDELPVGTQIIKGVVCPNCKNDEAYFWILQTRSADEPATRFYKCTKCGKVWREYE;locus_tag=LOCUS_20150;note=WP_010980344.1 transcription factor S (Sulfurisphaera tokodaii) [pid:69.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.7e-43],MGA_2016
sequence1	Aragorn:1.2.38	tRNA	1794443	1794533	.	+	.	ID=Aragorn_22;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00220;note=Aragorn_22
sequence1	MetaGeneAnnotator	CDS	1794539	1796479	.	-	0	ID=MGA_2017;product=glutamate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980280.1;translation=MISPSGCGVFGILRKVNSPKIEGEKVVNAIDAVSYRGSDKGAGFAVFNLNSENRYLVKAFYSGDIDEIKGMIEKYGVRVLSSSYVDGDVCDCKFEITLGNVAQIKKVTRNINEILWQKHKGRIYSVGKSLDVFKGVGYPKDIAKIYNVQDYSGDLWLAHTRQPTNSPGHYPFWSHPFSTFDIAIVHNGDVSSFGANLEFLKSRGWEGFVGTDSEVMAFLFEELISEGLSIEEAVKIMMNPSRRANVLTTEEDYRYRNARLDGPFTAIIGYDSGDDLYMIGIADRSKFRPIIIGEDENYYYIASEENQIRLLNKKAKVWTLAPGSYFIASLKKGVISYGRSREEIESFSSSHFDSSTYDIDASNIGYKDLNKEILKLNKSEITVINVLSHRYIGISFPKAGKKIRLYGYVGNALANLNENNEIYVYGNVADDCCDTMHGGKVVIYGDARDVLGQAFQGGKIFVKGNAGNRVGIQMREYEGNRPYLIIGGRVDDYLGEYMAGGVILIFNNTKAEPTGNYVGSGMVGGRIYIRGKLDPSKLGLQPNRFEVLRLLKALLIDKLISDKEYQDLRNLPYIEIMNRLQGDAKKLAKSLFEEKVGIPTYEYRELEEEEIKELEPMAKEYDRDLGTYYSEFLGQKFTVVKPRKNF;locus_tag=LOCUS_20160;note=WP_010980280.1 glutamate synthase (Sulfurisphaera tokodaii) [pid:63.9%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:2.5e-245],MGA_2017
sequence1	MetaGeneAnnotator	CDS	1796476	1798599	.	-	0	ID=MGA_2018;product=FMN-binding glutamate synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846742.1;translation=MLIINKYLPIPKQTDSEFWTVDKIDHIRHLALTGRPFKIMQKRRESLRILDRIEFKVERNTLYENDVDLSLRFSGIDMAAPLYLGDMSYGALSGNPNIVIAEAADLTQTLAGTGEGGLHPEVAKHKRIFVQWASARFGVDIDVLNAGLGVVIKIGQGAKPGIGGHLPGSKVTEAISKTRRIPIGMDAISPAPHHDIYSIEDLGQRIEALKEATGKPVFVKVAATNYVPYIVSGIARMGAAGVIIDGHGAGTGATPTIIRDNLGIPIELAVASADSVLKEEGMRDNFTIIAAGRIADATDAAKLIALGADIVSVGTGALIAMGCVMVHKCHIGSCPTALTNKIDGSRFLDMEFGTKSLINFINGFKMELGSIVENLGLNSIRELRSRRDLLYGYGLSRDVLDILKIRGESEELNPKLGELWTKRRKFNIHELANKGEPVITSMGSTSPPDVEKPARIIDWLRTDGAQVTRPPIDPYREDIDTSFLLNKGRVYISLPIIFDISEAPLEFKEAFAWAALAGGSLVFDENVLSPYEEVYLSRDKKGIANWSTKIEKDSYYLVSDCFDCFSKEVNGYILDEEIMDEDLEILLSEFDTKLRETGIRNKFDIIAKSSRIRDAGDVFKLVLLGADSVIVPYKILEVAIGEGSKGNLKEKAFNIIVGMKKEIALLAGAAGVFSVQSSLTGNRELLRAVNLNSYIAKKIRVKQAGSL;locus_tag=LOCUS_20170;note=WP_052846742.1 FMN-binding glutamate synthase family protein (Sulfurisphaera tokodaii) [pid:71.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-296],MGA_2018
sequence1	MetaGeneAnnotator	CDS	1798889	1799359	.	-	0	ID=MGA_2019;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYRYVFLFVAIALVFLSIILLIDHEPSFFLPQKYDNFKKMCIMNETPDRYEAIYLGPKGNFSVIVYNFTTNESARNFYNNLVSVFYNQSVKHYNFSYNNVKLVKNVNEEMNFEKNDSYIILILYRNYVISLASDNVGRGTIVNFLQGNVNYLDHS;locus_tag=LOCUS_20180;note=MGA_2019
sequence1	MetaGeneAnnotator	CDS	1799392	1800732	.	-	0	ID=MGA_2020;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSFRYLISILFALFVVSGVSTVFASTVGITVATSQQIYHPGQTVIVLGTTAPNVEVNAVLKAPNGTTIAVQSGNSSSTGVYEIDLFTFPTTDTAYGTYSVLVGNSKGFTNSTTIQYEPQLATVYIEIYNPENVPVSGASVTIMGITKTTNSTGVAMFMLPSGTYSVSIVPPSPYVPLTKTITVVAPQTYTFKYTVLVEELQVELTQVNLMYYNGTTYAKVSNPNEIITIGDSMLTGYVTVDFEGAPVSTATVTVTFNGMTESATYNSTIGMYEFTYNISNVPTEGYLMINASYSGYSAMKEIFTDVQLNPMPYFTQINREINSLTNLINETLTKISDLNSNISTLYNDISTINHEIKSLNSSISSLSTSVSSLSSTASSLSTEVNTLKSEESSLNSTVISLSNTETTLKSDYSSLSGIVYGALAAAIVGLILGIVAIILVLRKIS;locus_tag=LOCUS_20190;note=MGA_2020
sequence1	MetaGeneAnnotator	CDS	1800778	1804863	.	-	0	ID=MGA_2021;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLKVLKGISIGILFLLSFEIFMGIPFPTNAATSNVQIVSNIPVLPLAGVTLIAINNPTLGSVASSNVTQALVELATDTYIVANGVHYSLAGDYQDFYWVPGTNTFYLLLGFNQNTTVKINGVTYKEVVNSTGGYVLYPSGMPVYVNYALKVNTLNSSPVKVEDYAKTTTDILNVYNIPTQDPAASSATSVTVVSSGQSLTLNVLQNSASSYTISVYTTENYVPINSTWESFVYDPAFQYDPFNQTMIGKDSMTFYENVSYLPTLISNTRNTTTFAVGDSSTTTVFQNSVYTGNYTIYATSNSTYETDGVPVNYYTLITGKYFTTATVISEEFYDPFSYNSSYMVTGQIKETVPQSVTVSSTTPSELYISAFDNVTNFSVTNYLHAVYLQFISTITGAVIKTAKITVPEVSPGSPMFGTLIQLSFGPQIVVTQNSYYNVTTIVLPAQDFSTTKIVAYATNDIGAAYWYITGTFIPTNTSSLVAVQTLTPNLTLVSPTVTTLPNTTTHIVFNYYEPNLAFGKLTTLNVINEKTYSLLEYNGTQIANATVKVTFSNGTVAYYNLGQFEVPSTITSPTGNGQFNFTLFLLHIEPISPGTTMQVEIYDYVVDSPLSVLVTFQVIAPVVYLEPPTQSTFTTSGVAYIPSYVANPAVFTDTHYVDVSIIDTQEGQTLPNSVLSVTGNLVVVNSSSDLTLPLYYIPTGATVQNISLSATETKPDSGNFTTTFNYELVKGTYDGVTGYFLVIDSNYIPESDITGKPLTANQLIGMTFTVAYTSPVSKLSALASDEILAAPMKIMSSVGSANPGAPVNVTVYAPGLVQAHNIKITNLAFLYANFTAWNGTGALVKVENDQSAIISENSAGNSIFSGIVYMGNSTAPMNGLTTAGYTFTPGTTAYFYVINPVSTLSTITSSVTQYHVQTISVNDEVPQVMVVAPPVEGPYGGIEILLGSPLFTLFQHPSNNTNDNLVSPNGALDVYGQILSAQLAEASSEVAGDTFTSGTMVSAAGVGYYVNLNGTGYWSIDIPTTAWEGEPGVFTTLNGLTALNVNITDTATVIGNQWSFTQITAPGKGIVAAYGSVKTYTVGQVDFAQVQPETEIMYNGTVITNSTVNVVPFPTTSAGELVTVSVIAPDLVGLKSTFNVTVRNPVTGVLTTLPLVEQYEIIDGIPVPTDNYSGELRVVPYSAYGSYEGMPGVLPIKTGVVNPILVNTSVTEIPNQYTPSLYINGKSVLLEQSSNAYFYVGQIVIKFQLVSFQAISETTGAAVTQLTANQSYDLLFTVKNTGDVNATVWFAVEVHVGTTVVTPILIGQTVVPAGSTFTEGLVWTPSMPGTYNVTMFLARNANLTIPYIPAEFTEQVQVVS;locus_tag=LOCUS_20200;note=MGA_2021
sequence1	MetaGeneAnnotator	CDS	1805132	1805659	.	+	0	ID=MGA_2022;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSVFVIIAIIAIISLSLLSYVLLYPKTMFLSSNSIDSILGGKWKLTNDGEIKSIQGSILTYFQENSQNSFLANYSSNYASMQFYIFKYNSSKVSLQIYFTSFKLYNELHWNLYNISSRNIYAYFTQGSYYEYIISSNGEYVLTIIYLGKNVPTSSEAFLLAYNELNLINGPAGI;locus_tag=LOCUS_20210;note=MGA_2022
sequence1	Aragorn:1.2.38	tRNA	1805640	1805717	.	-	.	ID=Aragorn_23;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00230;note=Aragorn_23
sequence1	MetaGeneAnnotator	CDS	1805751	1806467	.	+	0	ID=MGA_2023;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980271.1;translation=MTNDFIIESVGKRISGDIVWSSNIGLSMRKWRETFGISQAEIARILGISQSVIADYERNKRQPGSLFIKRFVESLIQIDGRNGFKVIKELAKSFTLNFSFIIDMRDFVTPLHLQDIIVALDGVPVNSTVNNDQIYGYVITDSIKAITALNGMEFYQFLSISFNKIIVFTKVTSGRSPAIALKIAPIKPQIIVLHRPIRMDPLSIYLMDKEGITVIVSFKKNEEDIMKSLRSLGSLSES;locus_tag=LOCUS_20220;note=WP_010980271.1 helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:52.8%25%2C q_cov:96.2%25%2C s_cov:97.0%25%2C Eval:5.3e-67],MGA_2023
sequence1	MetaGeneAnnotator	CDS	1806436	1806840	.	-	0	ID=MGA_2024;product=nascent polypeptide-associated complex protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_221267078.1;translation=MLKSVTANIKFEYNYIIMMKIKPKDMKNLERMGIKTENIDATRVIIETQNGKIIIESPTVTKTVAMGQEAIIIMGGEKREEKNEESTGKEIKEEDVKFIAEQTGKSEAEAREALEKANGDIAKAIMILTGSQDS;locus_tag=LOCUS_20230;note=WP_221267078.1 nascent polypeptide-associated complex protein (Sulfurisphaera ohwakuensis) [pid:56.4%25%2C q_cov:75.4%25%2C s_cov:98.0%25%2C Eval:2.5e-25],MGA_2024
sequence1	MetaGeneAnnotator	CDS	1806842	1808107	.	+	0	ID=MGA_2025;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980269.1;translation=MNYKIKILGGGQEVGRAGIEVSNEQESIILDYGVNFSPDDSPNFPLQEMPSKVDGFVVSHAHLDHVGALPIYQISTTKPVYGTRLTKQIAELIIKDFLKISGAKVPYEWVELRKTMDNFQTFDYNKEFQIGSFAIKTSNAGHIPGSAITLVKTEKGDVAYTGDINLANTKLMRPADLEIMKSAKVIVTEATYGRFNHPERKNVIDEFYSSILEVLEGGGTVLVPAFSLSRSQEILAILAEKEIPYPVYYDGMSRTIMELMINNPEYINDIDNLRKAYNEFRYVRGWEDRNKAWKNNGVIVASAGMLKGGPAVYYYKKLAENPKNGIFLVSYQAENTPGRKLLEAGKFTDESPLLKARFEMFDFSSHAGNRQLMDIVKSSSALEKVIIVHASLDNAQHFAEMVKEELGVEVKVPENGEEIDV;locus_tag=LOCUS_20240;note=WP_010980269.1 MBL fold metallo-hydrolase (Sulfurisphaera tokodaii) [pid:66.5%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:7.8e-170],MGA_2025
sequence1	MetaGeneAnnotator	CDS	1808119	1809258	.	+	0	ID=MGA_2026;product=threonyl-tRNA synthetase editing domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846739.1;translation=MILLFIHAESFSFKVKEKAVKSAEEDFLDYLKKDNTLVVFTTVEKNDNDEIINKALDNILDIFTKVKASSVVIYPYAHLSSDLADPKNAVTILKKLEDNLKNKLEVYRAPFGWYKAFSISCYGHPLSELSRRIRNEKDIQKAQEMSLCEKFGFPYSPKASFMKNAVIKFLENSINPKGTIIGSKDVPKGYLSIVYSKPEGRILPCVNEDPIIELYYNGLKLDYPKSFNDSKNTLIIWDDNRVNIGNLIYYILLKSKEMQTPSLPLWMSPIHVRILPVSEDYIQKALDYAEILKNKGVRVEVDNNNDSLGNKIRRAGSDWIPFIAVFGEREYKTGTLTVRIRGKSEQKSLSLDELVSIIMEEDKILLKQNTPIKMKDDNS;locus_tag=LOCUS_20250;note=WP_052846739.1 threonyl-tRNA synthetase editing domain-containing protein (Sulfurisphaera tokodaii) [pid:49.3%25%2C q_cov:98.2%25%2C s_cov:96.6%25%2C Eval:4.6e-102],MGA_2026
sequence1	MetaGeneAnnotator	CDS	1809245	1810186	.	+	0	ID=MGA_2027;product=mevalonate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980266.1;translation=MIIAEVPLKLTLFGEHAVVYEQPALAMAISEKMIIKVKSNEKMIIKSNSLSIKGIKVDLNDLKLESEETGKILSYVIGALSYFKEKKNALIEIESPVDPSVGLGTSAAVIVGIVSAYSRFLGYELTNEEIAKISHNIELSIQGIGSRMDTYTTALGGLIYFPKDGGYEILDQNLELTAGYIKRVTTTKDILKYVRNMKEKNFEIFNDIINTIGKITDKAKNLIKDGNEEELGNLMYINHGLLMSLGVTYPLVDNLVSTAKNLGIRGCKISGGGGGGAIICTNDVKAEILLNTIGARIINCKKSEHGVMIKEIN;locus_tag=LOCUS_20260;gene=mvk;EC_number=2.7.1.36;note=WP_010980266.1 mevalonate kinase (Sulfurisphaera tokodaii) [pid:52.4%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:3.1e-90],MGA_2027
sequence1	MetaGeneAnnotator	CDS	1810208	1811971	.	+	0	ID=MGA_2028;product=glutamine--fructose-6-phosphate transaminase (isomerizing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847024.1;translation=MCGIIGIIAKDKSQHLASITYECLQRLEYRGYDSVGIASLGKKGIEVRKAKGSVEEVVKKFNALSMTGEIFLGHTRWATHGEPSDYNAHPHMDCSNSIAVVHNGTIRNFMELKEELESLGHKFKSETDTEVIPHLIEEFKKRGMSTFSAFKSAINTIKGTYAVLALIKDDYKIYFAKKFNPLVIGIGDKANFISSDIPSFLPYTKTIITIQNDDIGYLSSNEVYIENNDIPVNVSERIRQIDWDASAASKEGFEYYMLKEIYETPEVVMDTLYGLKNDANIDKIIDKINSSKRIIVVAAGTSYHAGLYFSLLLQRNGYTTIPVVASEYYNIKTGPDDSVIAISQSGETMDVIMAIRKFKENNSSIISLTNVIESAISRESDFKIYTRAGPEIGVAATKTFTTQIAALTFIWSKIVDKKINFESIGDVIRSSLDKSGEARRIGEELAQKENAYYLGRGISLPLAMEGSLKIKEIAYLHAEAYPAGESKHGPIALISNGFPVVFVNTGEFTEELQSNVQEMKARGALTYGISINSTLNTHKEILLKVSDENLAVFALSPIIQLIAYYAALARGNNPDRPRNLAKTVTVE;locus_tag=LOCUS_20270;gene=glmS;EC_number=2.6.1.16;note=WP_052847024.1 glutamine--fructose-6-phosphate transaminase (isomerizing) (Sulfurisphaera tokodaii) [pid:59.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-204],MGA_2028
sequence1	MetaGeneAnnotator	CDS	1811968	1813029	.	+	0	ID=MGA_2029;product=NDP-sugar synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980265.1;translation=MKAVILAGGSGEGLSPFTQKEQKESISILGRSIISYTLEGLKKAGIKEAIVIVNEKQKQIEESISTDISIEFVRQKRNGISGAALDGMEKAGDDEILLAFGDIIASSDFYISLMNVYALGAKAVFSLVPVYEGMQTYGLAKIKNDRIEIVKEGSTLALAGAYILPYGDFNNLLEYFTKLAPISKFFVWSGNWIDIGYPEDLLNAIELLLRNSRTIISNSANISKTALIGSNVVIDDNAVVEDYAIIKGPTYIGKNAYIGSYSLIRDFSSIEEKSSIGAYCEVSHSLIEPYSDIGSKSYVTYSIIGKRAKIGASVITSNYPANIIRGKVNKLGALISPEETISHGSVLPPNYRK;locus_tag=LOCUS_20280;note=WP_010980265.1 NDP-sugar synthase (Sulfurisphaera tokodaii) [pid:58.8%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:2.7e-117],MGA_2029
sequence1	Aragorn:1.2.38	tRNA	1813337	1813413	.	-	.	ID=Aragorn_24;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00240;note=Aragorn_24
sequence1	MetaGeneAnnotator	CDS	1813671	1814291	.	-	0	ID=MGA_2030;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKKVNGKKLTPIWNFDEINSTFQFVKNGNLDNGTVKSFNDFVNIILSKNSYYIKKSKKFTELYDDIDKKIYFDKYFGIYMPVSILDLLLSNTSIEDKVEYIKKIYKSLTSSYIMSNGINLNNTNSNNEIIKSILEFFLSDNVDIIINSNSDKLEVFANFKIPEHSNQRIMFYSAIIEGVMSGFQYILSNTKAKDETCIDLEFRQS;locus_tag=LOCUS_20290;note=MGA_2030
sequence1	Aragorn:1.2.38	tRNA	1814471	1814546	.	+	.	ID=Aragorn_25;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00250;note=Aragorn_25
sequence1	MetaGeneAnnotator	CDS	1814907	1815716	.	-	0	ID=MGA_2031;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGLSAPIGMIFVLMIMIAIIIPLTYYINSMPSNEAQAQENAQPYFTQAQEQLQEFGSDVGFYEGNHNIYLVIYQNPPIPIIVKHIIDNNKVINENIYVISSNANANYGGYPTIKIPLSGNISIVTQLGNIVYPQSLPLNSEDGDPKINIQPDSLTLYLSSGYIDGLSLIVPLNMNGTGFVVIFYGIYENALSYQASSIFLNLTYNGHEYIANSENNDIYPGSGLRNALQTLVSSDEYYSNPGYAYVAYIFTNKGEYIYYGYLDIILK;locus_tag=LOCUS_20300;note=MGA_2031
sequence1	MetaGeneAnnotator	CDS	1815716	1816189	.	-	0	ID=MGA_2032;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESISSFIIVIATVVVGIAVLSLFSAYAGVEFSQATILKEAQYYSEGLHVELGEGNPIPVVIEDYNYNGTLLITDFVVSPSLLNSASVVTPSMGEEVGNSYTEVTVYTTQGNIIYQGSIPIQDYKQGSVYFAKPDSIIWIMVNIQGNYYRIGYEVVK;locus_tag=LOCUS_20310;note=MGA_2032
sequence1	MetaGeneAnnotator	CDS	1816177	1816479	.	-	0	ID=MGA_2033;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTLISRIYLNGDLETSKNILRKNLQELKRSLEINGYKVNFLILRNLYNIVLAKDGNLSSLLIFLRDFKDYAIVDIFTENLKNNSDLYKIIEGDIKSWNQ;locus_tag=LOCUS_20320;note=MGA_2033
sequence1	MetaGeneAnnotator	CDS	1817412	1817930	.	+	0	ID=MGA_2034;product=cob(I)yrinic acid a%2Cc-diamide adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980260.1;translation=MKWYTGTGDSGKTNVPSKGNVWKFDEIVDALGDLDELNASLGISVSLYPEIKDVIEDIQNDIFSISSEISGFKMNFSNEKVRKIEEEIEKIDKEIDPLHNFVLPGGHIASSYLHLSRAICRRAERKVVKLMTEGISNDIHVKYLNRLSTLLFVLALWINKKTGNKNVIWKSK;locus_tag=LOCUS_20330;EC_number=2.5.1.17;note=WP_010980260.1 cob(I)yrinic acid a%2Cc-diamide adenosyltransferase (Sulfurisphaera tokodaii) [pid:67.6%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:4.2e-63],MGA_2034
sequence1	MetaGeneAnnotator	CDS	1817922	1818818	.	-	0	ID=MGA_2035;product=ornithine cyclodeaminase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847023.1;translation=MIFIDKEKLDEILTPDRAVNAVREAFVLFSQGKVNQPIRQSFIIKGNWWGVMPSYTDFSFVVKIVNVINKNKEKGLPPVQAAVILLSPDNGEPLAYIDGTYLTAIRTSAASVLSTEISYGKKVGTLGIIGAGLEAEYHAKTALRYLSVSRLLISARKRHVDLAKKVGGEAVDLDTLLKESDVIFSTTSSTTPVVYGDKLKEDFHLVSIGAFTPDAREVDDSTIRKIKTYIVDSLDAVSKESGDYIQPKESGLLKNKNILEIGNIISNKIKIERPSIFKSVGISAQDNLSAYYAYKYSL;locus_tag=LOCUS_20340;note=WP_052847023.1 ornithine cyclodeaminase family protein (Sulfurisphaera tokodaii) [pid:61.9%25%2C q_cov:100.0%25%2C s_cov:97.4%25%2C Eval:7.6e-99],MGA_2035
sequence1	MetaGeneAnnotator	CDS	1818931	1819680	.	+	0	ID=MGA_2036;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980258.1;translation=MRLVSQDLENGDSSAIINWAKNTDNLISVIPSVVEVEKNMIKMKFTRMFLFSFESKFSIQPSFIGNGLVEYKLIDEKDNTFKIIFSAEGKKGVKISLSYSGEKEWIVGKGLQKILNEISNGVNKEIPKVQIKESEQDYSENLSKISYLSKLIMKSRLVKSQETSITEGGLIDYIQELISQFSEYPVIYISGSGSSTFRILFVNGTLKGIYVLKEGKDYFGDENILNKLSGNFKIHVYVVISPEILEVIK;locus_tag=LOCUS_20350;note=WP_010980258.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:41.9%25%2C q_cov:94.8%25%2C s_cov:92.7%25%2C Eval:1.6e-45],MGA_2036
sequence1	MetaGeneAnnotator	CDS	1819677	1820432	.	+	0	ID=MGA_2037;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980257.1;translation=MKVHKPFVLYEDGDHKFVWLGLDESEHEKGILTNQYLVVDGDKGALLDAGGYFVFERVYENVKEFIKPENVVALLFSHQDPDVIGSLNLWLDVAPNATIYASVLWERFLPHLGFEAGGRITDIPDEGMEIKINKDSLNAIPAHFMHSPGNFHYYDPVSKIYFSGDLGAAVFPEGKWYLMVEDFQEHAKYMEPFHRRYLASRKAIDLWLKRVKNLDIKMIVPQHGSIFDGENVKKFIEWVNSLDKVGLDLME;locus_tag=LOCUS_20360;note=WP_010980257.1 MBL fold metallo-hydrolase (Sulfurisphaera tokodaii) [pid:71.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.1e-109],MGA_2037
sequence1	MetaGeneAnnotator	CDS	1820472	1821299	.	+	0	ID=MGA_2038;product=tyrosine-type recombinase/integrase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979438.1;translation=MRLELGSPPEDGDLYNAFINALYAAGAGKGTIKMYSVAIREFLEFVKKDPRKVTSDDINRWIIELSSKAKDNRSRSVTMRYYVIAVRRFLKWLGINVKPVMPRAKRKEIKALSEEEIQKILASARTLRDKLIIKLLTETGMRANELLNINISDIDFNRKMIRLRVTKNGEERVVFFTDDTLDLMKKYLKIHDGEKLFQMTYPALYKAIRRLGEKVGINGLRPHMLRHSFATNAIRKGIPLPAVQRILGHKDIKTTQIYTHLILDDLEKAYREAFG;locus_tag=LOCUS_20370;note=WP_010979438.1 tyrosine-type recombinase/integrase (Sulfurisphaera tokodaii) [pid:54.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-84],MGA_2038
sequence1	MetaGeneAnnotator	CDS	1821296	1822264	.	-	0	ID=MGA_2039;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846559.1;translation=MNRDLKAIRWFFRTQILKDPFNPGYATFKVTSKCNLRCTFCNPEYYNGELGVENTDTIKRIIDNLRDSSVVVLSFEGGEPTTRSDILDLLQYAHDGSFYVMLTTNGYKLNDENFLSKLSDKIDFLHYSIDEYHWNVKALENLCKFRNYGLKVNVQTVVTRYNLYKLEDKIRKVRECNYKILVLPAVDYPNAKVKLAPDNMELYKVLSELKKKYSSTLNNSWGFINALIGKVPKRLVSYAITIYPNGDLPYPDDMNGEIVGNLSQEKLDKILSSQKVKELRQKMLENQARFEYLHLQTASFNSISDLASYAAEMVKWRFTGRA;locus_tag=LOCUS_20380;note=WP_052846559.1 radical SAM protein (Sulfurisphaera) [pid:77.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-151],MGA_2039
sequence1	MetaGeneAnnotator	CDS	1822261	1822776	.	-	0	ID=MGA_2040;product=gamma carbonic anhydrase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846961.1;translation=MPIEEYLGKKPKVSNKAYIHDTAYIIGDVEIGDLSSVWHYVVIRGDNDSIYIGKESNIQENSSVHTDPGYKIEIGDRVTIGHNAIIHGAKISSHVIVGMGAILLNGSKIGEYSIVGAGSVVTQGSEIPPYSVAVGIPAKVVRRLKENEIKMIDDNAEEYLNHTRKFLSGRL;locus_tag=LOCUS_20390;note=WP_052846961.1 gamma carbonic anhydrase family protein (Sulfurisphaera tokodaii) [pid:74.3%25%2C q_cov:97.7%25%2C s_cov:98.2%25%2C Eval:2.6e-73],MGA_2040
sequence1	MetaGeneAnnotator	CDS	1822778	1823812	.	-	0	ID=MGA_2041;product=RsmB/NOP family class I SAM-dependent RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979435.1;translation=MELDYDNFVLGNLEEVYGKNLNSFLDSIKKPNSRLYLRVNTLKTTTNEILERLPCFRRDEDFEEAIYTEIKGPNKIELHNTVVVVDKKTAESVMMGADVYKPGVKSIKGKGKEVSVVSDNGILVGEGILCNSDIVVNITKSLYDSVKIGELNEIEDGLLYSQGKASMYVARIVDPQPNETIVDMTASPGGKLTHVYQLEPRARIIGLDHTHKKIEKMRNLLNKLGVNAELYVKDSRYADEIGLKNVDKVIIDPPCSALGIRPKIYDKKTKDDILNFYVYQKQFLNSAYKILKDGGYVIYSTCTVTTWENEKVIEDPRFEVEFSIRFHPNIHDMTGFFIAKLKKK;locus_tag=LOCUS_20400;note=WP_010979435.1 RsmB/NOP family class I SAM-dependent RNA methyltransferase (Sulfurisphaera tokodaii) [pid:63.7%25%2C q_cov:99.4%25%2C s_cov:98.6%25%2C Eval:2.8e-127],MGA_2041
sequence1	MetaGeneAnnotator	CDS	1823803	1824660	.	-	0	ID=MGA_2042;product=beta-ribofuranosylaminobenzene 5'-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846558.1;translation=MIKVFGLSRIHITLFDVEGKYGRFDGGMGVALKYPRIVVNDGNCNVFNYEGIPKVNFCIEEDYDSHIGLGHTTQYLLTLSKLSLEKRLIRKNSAEIAKIVKRGSTSGIGVYAFEYGGFIVDGGHSKKVKKEALPSDFSASPPPPLILRTDFPWYIYVNTPNGRRIFGKEELEIFKNAKVEGIDILSRVVLMEFIPSVSEKDLEGVLDALDRIQGLGFKKLENSLQTDEVKKLMTKMKNKGFPAGLSSFGPSIFTFCNKRECEELVSYFGGFYTEPNNTGAKVIWS;locus_tag=LOCUS_20410;note=WP_052846558.1 beta-ribofuranosylaminobenzene 5'-phosphate synthase (Sulfurisphaera tokodaii) [pid:65.5%25%2C q_cov:99.6%25%2C s_cov:99.0%25%2C Eval:3.9e-105],MGA_2042
sequence1	MetaGeneAnnotator	CDS	1824703	1826061	.	+	0	ID=MGA_2043;product=class I adenylate-forming enzyme family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979433.1;translation=MSFANLLYEWYKKKPSATFLLGDTNLNYEDATREISSIASNISQGETIVHFEFNSIKSVLHYLAAFWAGAKIVSVDPLTSAEDLKFILEDSQPDRIFADDETYSREKNILKEYRIWKDETKNEFIKPYDYMENEVGLIYYYAGIAGRTMQVLHSANRVGLNSASLYSAINLHNISTILTVPLAHVLGNSVLGIVLEDGGSLYVMKKFDAKQTIDIINKYSMNFLATVPMVYDALIKENGKLDSLELCISTAAPLFPSTINGFKEKFGKDIVQQYGFTEGLVITFQPKEFSKVISIGKPLPNAEIKVVKDDGKEAKLGETGELWVKAPWLMLGYKDIEETAKVFNEGWLKTGDLVSYDSNGLLYFRGIKKRMLKYKGYPIFPRDLEEILKSNSNVIDALVFGEDSGNLGSQPVAKVVVKNRKSNLEEELLNYVNSKVAFYKRLKKIYIVDKIE;locus_tag=LOCUS_20420;note=WP_010979433.1 class I adenylate-forming enzyme family protein (Sulfurisphaera tokodaii) [pid:69.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.2e-185],MGA_2043
sequence1	MetaGeneAnnotator	CDS	1826042	1826452	.	+	0	ID=MGA_2044;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846557.1;translation=MWIKLSELDNLIKEISEKLQRKGEDFLGSKEALTITITDQNINEIISKNKVVLIDFWAQWCSPCHLYEPIFDKVAEKYKGRAIFGRLNVDENPKTADEYQVLNIPTTLIFVDGKVVDSIVGAVDETTLESTLAKYI;locus_tag=LOCUS_20430;gene=trxA;note=WP_052846557.1 thioredoxin (Sulfurisphaera tokodaii) [pid:64.4%25%2C q_cov:97.1%25%2C s_cov:99.2%25%2C Eval:1.8e-47],MGA_2044
sequence1	MetaGeneAnnotator	CDS	1826449	1827054	.	+	0	ID=MGA_2045;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980108.1;translation=MIETKLEKHFKNFILNSELNDAGIICITGNNGSGKTTFLNLLLGIYKPDKGYVKINNKDITKLPVEKRRIAFVNQDSYIPELTVDSHILWGAKLRKIKIDDNEIKDLKEALGIKFSGKVKNLSLGQKERVAILTAILSKPYFLLVDEAFSNISDKKDFLSKLIEILKKYDIEMIFTTQDLEDVKFSEKHYIMNRGILRKSF;locus_tag=LOCUS_20440;note=WP_010980108.1 ATP-binding cassette domain-containing protein (Sulfurisphaera tokodaii) [pid:48.5%25%2C q_cov:98.5%25%2C s_cov:98.5%25%2C Eval:1.0e-54],MGA_2045
sequence1	MetaGeneAnnotator	CDS	1827176	1828591	.	+	0	ID=MGA_2046;product=type I glutamate--ammonia ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979431.1;translation=MPSNAEEALKFLKDNKIEWVDLQFTDLPGRLQHVTIPASDFDENSFKEGFGKLDGSSIRGFTMIYESDMILQPIPQTMSIIPWMNGVARVLTKVYWGGGKGRFERDPRFIAEEAERTQEEQGYTSFFGPELEFFIFDRVDLDVALPQSGTGYKIYARESPWHDNGGFMIRYKEGYYPAPPIDQLMDIRVEAVDTLTKYFGFIIEATHHEVATAGQGEIDFRFSTLADTADKVQTLKYVLKNVAAKHNMVATFMPKPMYGDNGTGMHTHFSLWTKDTKKNLMYDPNDEYAEISQTGRYAIGGILTHARALSAIVSPTVNSYRRLVPGFEAPVYTAWSKSNRSAIIRVPSYYRGMEKAKRIEYRAPDPSTNPYLAFSAILMAALDGVNKKIDPGDPVDENIYHLTPDKRKELGIRELPRSLDEALDELESDNEFLKPVFNSSMLNVYVDLKRDEAKTLQMYPHPMELYYYMDS;locus_tag=LOCUS_20450;gene=glnA;EC_number=6.3.1.2;note=WP_010979431.1 type I glutamate--ammonia ligase (Sulfurisphaera tokodaii) [pid:82.0%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:1.1e-239],MGA_2046
sequence1	MetaGeneAnnotator	CDS	1828588	1829478	.	-	0	ID=MGA_2047;product=MarR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979430.1;translation=MKGRDIIIDLLSKNGSLLQTDLVKLSGISKSRVSEILSELEKEGIISRKIIAGKSLEVSLKSRIIKIGIIKAAEYPFIMPFYKKLKDSGYSPSIIIYKNGIDVTRDLALGKLDIGFSPVVSQIIFSKAFDIKIIAGGAKGGAGIIGESCEVGSTVLSSMETWTIADFKDVKIVPFNSPEDLVSNFQEKKIKSIAIWEPYLSILKDQGNKISHVFEPVHCCTMAIRSDLDEEKIKNLYESSFSWFLESKDRWIPEYANLIGEDYSIMKKAINNYEFDSYLDLNEVYKYLKKSGIYLP;locus_tag=LOCUS_20460;note=WP_010979430.1 MarR family transcriptional regulator (Sulfurisphaera tokodaii) [pid:53.8%25%2C q_cov:97.0%25%2C s_cov:96.7%25%2C Eval:1.8e-84],MGA_2047
sequence1	MetaGeneAnnotator	CDS	1829501	1830130	.	-	0	ID=MGA_2048;product=GTP cyclohydrolase I FolE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846960.1;translation=METSLNQEKLVEEIAKRVKEIIELLGDNPNREGIKETPTRVAKALLDMTYGLRTSQPTIKVFKLNEEDDTNYEEDQLILLRDIQFSSLCEHHLLPFIGKIHVAYIVGENGKVAGFSKIIRIVNYYSARPQIQERLVSQIADALMNSDIKPKGVMVMGDALHMCVYVRGVKDKEAKLLSVATRGIFKKDKALVNKVLRMLDSSNKSLSLI;locus_tag=LOCUS_20470;note=WP_052846960.1 GTP cyclohydrolase I FolE (Sulfurisphaera) [pid:71.7%25%2C q_cov:98.1%25%2C s_cov:98.6%25%2C Eval:3.3e-80],MGA_2048
sequence1	MetaGeneAnnotator	CDS	1830182	1831231	.	-	0	ID=MGA_2049;product=aminopeptidase P family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979428.1;translation=MRINKLSNIIEKGCGAIFGSSNIFYFTGYNGAGVLLYCDGVATLLAPLLEENRALETKGVDVKIYYPTKVSEDIQYTSIIDAIEKITSRNSIFADISSLDASTYLRLSSKFELKDISSQISALRSIKDLEELDIIKKSGEITSVAMRIAIDKATEQVNEKQLSGLIDYTMKTEGAEDYAFPSIVASGENSSEPHHIPTDRVIKEGDSVVIDIGAKYQGYCFDSTRTLLVKKFSNDLKKIYEIVLEAQLEAIDAVSDGIKASEIDRIARNVIEKNGFGKYFVHSTGHGVGIDVHESPYISFNSNDVLKKNMVITVEPGIYIKGKYGVRIEDTMIVTSGKPEVLETAYKLL;locus_tag=LOCUS_20480;note=WP_010979428.1 aminopeptidase P family protein (Sulfurisphaera tokodaii) [pid:56.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.8e-104],MGA_2049
sequence1	MetaGeneAnnotator	CDS	1831209	1832075	.	-	0	ID=MGA_2050;product=GTP 3'%2C8-cyclase MoaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979427.1;translation=MEGEGQEKQNGLSLHDIVLVTKVATKFGIKYVKLTGGEPTLRRDLPEIISSIKKVGIKEVSMTTNGVLLNTLAEKLKDAGLDRVNVSLHAIDKVKFKEITGVDAFDKVISGIRKAVEVGLKPVKLNFVVNKKNEEETIEFLKLAEDLGVNEVHLIELHPVGLGKESFSCHESLSKIEEYIKSNSIKSVIRNKHFRPRYYLKSGLIVEMVKPYSNPIFCAGCNRIRLTVDGKLKTCLYKTDKTIDIFSILKADLKDDVKEEVITHAFEIAISIREPNFKYMLYENKQAL;locus_tag=LOCUS_20490;gene=moaA;EC_number=4.1.99.22;note=WP_010979427.1 GTP 3'%2C8-cyclase MoaA (Sulfurisphaera tokodaii) [pid:63.8%25%2C q_cov:96.9%25%2C s_cov:88.5%25%2C Eval:7.5e-96],MGA_2050
sequence1	MetaGeneAnnotator	CDS	1832196	1832381	.	+	0	ID=MGA_2051;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846556.1;translation=MKDVLCPRCGIRMEFMAEAEVSGSNKKVRYFYRCPACGTRISESEMTIEKKDGYVSIKVLQ;locus_tag=LOCUS_20500;note=WP_052846556.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:53.3%25%2C q_cov:96.7%25%2C s_cov:90.9%25%2C Eval:3.9e-13],MGA_2051
sequence1	MetaGeneAnnotator	CDS	1832362	1833027	.	-	0	ID=MGA_2052;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979426.1;translation=MNIENIFRTFYTQSKIVRYDGNKYVKKCYGSNVSLKWFFITPLFRSYPYVADPNERMRREIDFLTNPWKGISVPRLIDFDFSENCIVREFIEGKIPATIQDFKLLGKTLRNIHDSGFAMGDTKFENFLINDSVYVIDAEQAIKTDSKEYRAWDLAVFVLFLSYKFLYEIGEYENILREFLISYSPTKEELLYINNLKNIALLSLFPPLHLNILKKTIGELL;locus_tag=LOCUS_20510;note=WP_010979426.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:44.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-50],MGA_2052
sequence1	MetaGeneAnnotator	CDS	1833085	1833918	.	-	0	ID=MGA_2053;product=cysteine synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846959.1;translation=MWPTPLLKLKVGKDVWAKLEYYNPFSRSIKDRTAWFLFREALDNNANEIVEATSGNVGISLSAFSAIFNKKFTAFIPSVAPKTFKVAMRILGANVIQAGNTTTELLPLVRQYSSSTSALHLNQFVNPVNMLAHYETTAKEIDEQLQSIGKKAERIIATAGTGGHLAGISKYFKEKYRNIEIIGVQPAKGERIPGIKRQDGDGLISSSIIDRIIDITLAEAFQGVKTIARTSGILIGLSAGATIAAYNKICDDKVTVVVFPDDMFKYIDEMADLLDIK;locus_tag=LOCUS_20520;note=WP_052846959.1 cysteine synthase family protein (Sulfurisphaera tokodaii) [pid:62.5%25%2C q_cov:98.2%25%2C s_cov:98.2%25%2C Eval:8.6e-94],MGA_2053
sequence1	MetaGeneAnnotator	CDS	1834017	1834235	.	-	0	ID=MGA_2054;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKELEIKDACPSGFIQLMEVWKNIKGEEEIIIRTPWGGMVDDLKNWCKETGNEFLGYEKNGSETLIRLKLKR;locus_tag=LOCUS_20530;note=MGA_2054
sequence1	MetaGeneAnnotator	CDS	1834232	1834633	.	-	0	ID=MGA_2055;product=DsrE/DsrF/DrsH-like family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979423.1;translation=MPKLTILVSDNSFEKFYHALVLAIDGRALNWTVKCFVTSQAVILFTKKVRGRAKLSIGFFANLYTKYKMKKVGVRETEKLLNDAIKEGVEFYVDEAGLKIAGFSKEDLMDGVKLSGAVTFLLEAKDSDIVISI;locus_tag=LOCUS_20540;note=WP_010979423.1 DsrE/DsrF/DrsH-like family protein (Sulfurisphaera tokodaii) [pid:56.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.4e-37],MGA_2055
sequence1	MetaGeneAnnotator	CDS	1834988	1835977	.	+	0	ID=MGA_2056;product=DUF711 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979422.1;translation=MQIRALTVFVSSLEYDRISNYVEKIKKIDNIWTKRISLPETNLSISKVMELIPQDNSVLFSVCGMRDNDNRIMEILDALRSGSNIFCNILVNDIKNLDKITKILTKLEPEEATRLALLINDDFLLTPYFPASTANVVADSFGLALLYVKDFIENNISSAFQQANEFGLKVSRKIGAKFLGIDVSLSPWMNESVGEIIEKQSGKIFSLGNTWTVGEINKLIFSEAWRSKVTPIGFSETMLPIAEDNILKKRVEEGSLTLSQLVQLTFACAAGIDMVGIKEDPLLYKNLIKDLIAIQFTKKRPYAIRIIPSRGEDKINTKDFGIIPTIKVI;locus_tag=LOCUS_20550;note=WP_010979422.1 DUF711 family protein (Sulfurisphaera tokodaii) [pid:47.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-86],MGA_2056
sequence1	MetaGeneAnnotator	CDS	1836027	1837076	.	+	0	ID=MGA_2057;product=phosphate uptake regulator PhoU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846958.1;translation=MEVRRVQKFGKSTLMVSLPADWVKEVGLNPGESIYLEVDEDGSLKVYPPNLKSESTSKEMKVAIKNNTSADLIGRLIYSLYVLGFDKVSIESTDGPFNEDVLRKVKDAARSLIGLEIVSQDVTSLQIQSFLDPTKYNMTSLISRLSNTLKQMLHYLNLGIKEASRTFLQEVIELEKEIDRLYYLSLRQLLIAQVNRSLAYMIGVKRIQIVGNRILMKAVEEAADEISDAANDLLALHPEDLEIIKNSWEKIDMLIDQTTVVIDHVVKVLGKEDVKLVNEVMEELETLRRVLITEALGIEEKLSKISSPRATIAARTLNLRLYNAIRRMEPIAEIAFNRSVENLKEITID;locus_tag=LOCUS_20560;note=WP_052846958.1 phosphate uptake regulator PhoU (Sulfurisphaera tokodaii) [pid:68.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-133],MGA_2057
sequence1	MetaGeneAnnotator	CDS	1837066	1838220	.	-	0	ID=MGA_2058;product=nicotinate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979420.1;translation=MKLFIPKEEEILDGKITDIYFDRTVKTLSYLGIKDVKVRMEFHSYGLPKNYNWGVFAGLEEVLKLLEGKPVTVYAMPEGTLFKEIEPVMIIEGNYLDFGIYETALLGILRQESSIATKAARLKSLALDKSMIFFGLRALHPVSSIIADRSAYIGGMDGVSGLMSKEYLGLEPSGTMPHALMLILGDDEKAWEAFNNAIDPAVQRIALVDTFEDERFAALKAAKLLGDKLYGIRLDTPSSRRGNFKKIIQEVRWTLDINGFRNVKIIVSGGIDEEDVIELKDYVDGFGIGTSVAFPQSVDFSADIVEKYIDGKWVPFTKRGKWPGAKQVWRCNSLNDTITLLNEKIDGCTPLLKKYMDNGKIMEKLPSITEIRQYVLSQLKTISQ;locus_tag=LOCUS_20570;EC_number=6.3.4.21;note=WP_010979420.1 nicotinate phosphoribosyltransferase (Sulfurisphaera tokodaii) [pid:70.4%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:1.7e-160],MGA_2058
sequence1	MetaGeneAnnotator	CDS	1838280	1838741	.	+	0	ID=MGA_2059;product=30S ribosomal protein S19e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979419.1;translation=MITVNMVPPNIYIEKLAEYVKNNVKEVQPPEWSFFAKTASFKERVPDDVENWWYMRTASLLRKLYVYNSMGLSKSKTVYGGLKRRGSKPPRSVKAPAHSTRLIFQQLENAGLVTKTNYGRKLSPKGRSILDKLAREIFIELSNQNTSLKKYLE;locus_tag=LOCUS_20580;note=WP_010979419.1 30S ribosomal protein S19e (Sulfurisphaera tokodaii) [pid:61.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-51],MGA_2059
sequence1	MetaGeneAnnotator	CDS	1838748	1839098	.	+	0	ID=MGA_2060;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156014597.1;translation=MSDNYVDPELEEMLRRRAQQESRRNIEEQQKRAELEAKKEAILRVILTPEARLRLNNVKLVKPDIATSLEDQLIALAQTGRIKTPISDDELKEILSQIADQNKRDYKIQIRERGWK;locus_tag=LOCUS_20590;note=WP_156014597.1 DNA-binding protein (Sulfurisphaera) [pid:68.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-39],MGA_2060
sequence1	MetaGeneAnnotator	CDS	1839095	1839250	.	+	0	ID=MGA_2061;product=50S ribosomal protein L39e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979417.1;translation=MSRNKPAGKKSRLGRALKSNSAIPAWIILRTNGKVKINPLRRDWRKNDLKV;locus_tag=LOCUS_20600;note=WP_010979417.1 50S ribosomal protein L39e (Sulfurisphaera) [pid:68.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-15],MGA_2061
sequence1	MetaGeneAnnotator	CDS	1839256	1839519	.	+	0	ID=MGA_2062;product=50S ribosomal protein L31e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979416.1;translation=MKEKDNFEMIINLRKVIMSKKTNRSKKAIAMIRKIIVRHFGAEKVLLDPLLAATVSKNREKVSSRIPVVVSKIGEKTYLVKLAVKHE;locus_tag=LOCUS_20610;note=WP_010979416.1 50S ribosomal protein L31e (Sulfurisphaera) [pid:58.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.2e-24],MGA_2062
sequence1	MetaGeneAnnotator	CDS	1839516	1840187	.	+	0	ID=MGA_2063;product=translation initiation factor IF-6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979414.1;translation=MNIQRLSVFGTDNIGVYIYSNDKYTFIPKNLDKNTKDIIIDNLGTELIETSVSNSFLLGIFINGNNNTIILPKIAKDNEIKEIKEQAKDTRVEVLNLKATALGNVILANDHAALIYPEFSDAEVKEIKEALQVEEAKRGTIANIITVGSVGVITRKGGIVHIDSTDDEIRDLSYFFKVKIDVGTVNFGSAFIRSGMIANYKGVLVGSSTTGPEILRIQRALGD;locus_tag=LOCUS_20620;note=WP_010979414.1 translation initiation factor IF-6 (Sulfurisphaera) [pid:60.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-75],MGA_2063
sequence1	MetaGeneAnnotator	CDS	1840189	1840449	.	+	0	ID=MGA_2064;product=50S ribosomal protein L18Ae;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846956.1;translation=MSEIKIYQVKGTAVFNLSEFPTKQKFVKYVRATNEKQAIEYVYTQFGSKNKIKRSNIKIEEVKEVNSNEIPDRTIKDIGKLDKIIL;locus_tag=LOCUS_20630;gene=rpl18a;note=WP_052846956.1 50S ribosomal protein L18Ae (Sulfurisphaera tokodaii) [pid:55.4%25%2C q_cov:86.0%25%2C s_cov:86.0%25%2C Eval:2.0e-17],MGA_2064
sequence1	MetaGeneAnnotator	CDS	1840456	1840896	.	+	0	ID=MGA_2065;product=prefoldin subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846955.1;translation=MSDQQGKIMISLEDLLAQADLLKKQIEDLQKAQSEIADSLSAIKSAKDTIDELKTPKNDLFLSGDKKGFLMLRIPEAKADKVIVYLGLTYYAEVTPDTAVKILSDRENELNLTLQEVNKKLSESINAYSQISDILNRIQEQQQKGE;locus_tag=LOCUS_20640;gene=pfdA;note=WP_052846955.1 prefoldin subunit alpha (Sulfurisphaera tokodaii) [pid:45.4%25%2C q_cov:96.6%25%2C s_cov:92.7%25%2C Eval:1.6e-29],MGA_2065
sequence1	MetaGeneAnnotator	CDS	1841013	1841966	.	+	0	ID=MGA_2066;product=signal recognition particle-docking protein FtsY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010922948.1;translation=MQTNKTTESSIEEKVENAENKEKITEKLNIFNKLRYKEIKENDISDIIEELRMELLESDVSLEVTDKILEDLKTNLIGNKVSRSEDLEQLIKKSLKKSLNEILQYNKIDSNLVDNIKKSPKPFIIVFFGVNGVGKTTTIAKFVYLLKKNGLNVIIAAADTFRAAAQEQLAVHAKKLEVPLVKGKYGGDPASVAYDAIQSAKSRGIDVVLIDTAGRMNTDKDLTEELKRIIRIAKPNFRILVLDSLAGNDALEQARYFEDAVGYDAVILTKVDADAKGGIVLSLAYELKKPVIYLGIGQDYENLISFDPSWFLDRLFS;locus_tag=LOCUS_20650;gene=ftsY;note=WP_010922948.1 signal recognition particle-docking protein FtsY (Saccharolobus solfataricus) [pid:67.0%25%2C q_cov:99.4%25%2C s_cov:87.4%25%2C Eval:1.4e-117],MGA_2066
sequence1	MetaGeneAnnotator	CDS	1841998	1842177	.	+	0	ID=MGA_2067;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIIEEIKKLPAEWKKIVTVAKKPDKEMFNLNLKVTLIVMAFVGLLAFLIQLALTILIG;locus_tag=LOCUS_20660;note=MGA_2067
sequence1	MetaGeneAnnotator	CDS	1842185	1842643	.	+	0	ID=MGA_2068;product=transcription elongation factor Spt5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979409.1;translation=METKIRNYYAVKVTGGQEVNVALMLEERIKTNNISDVYSILVPPGLKGYVIIEAGGPHVVKLLIAGIRHVRGSVPGLVSKDDIMKMISKKVAGPLVKEGDLVEVTAGPFRGMQAQIVRFNESRGEVVLNILESAFPLQVTIPVDQVKPSKKS;locus_tag=LOCUS_20670;note=WP_010979409.1 transcription elongation factor Spt5 (Sulfurisphaera tokodaii) [pid:71.6%25%2C q_cov:97.4%25%2C s_cov:97.4%25%2C Eval:1.5e-57],MGA_2068
sequence1	MetaGeneAnnotator	CDS	1842655	1843164	.	+	0	ID=MGA_2069;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979408.1;translation=MPKKTIKIVVEGGNVKPGPPLAPTLSQYKLNIGEVVKKINDATSQFKGMSVPVNIDIDTDTKAFEISVGIPTTTSLLLKKAGAQEPSGDPAHKKIGNVSMDDVVDVALMKKPSMTSKSLKSSVKSILGTAKSIGLTVENKDPKDLVKEIDEGKYDDLLSKYEEKWNKGA;locus_tag=LOCUS_20680;note=WP_010979408.1 50S ribosomal protein L11 (Sulfurisphaera tokodaii) [pid:71.9%25%2C q_cov:98.8%25%2C s_cov:98.2%25%2C Eval:1.8e-66],MGA_2069
sequence1	MetaGeneAnnotator	CDS	1843161	1843823	.	+	0	ID=MGA_2070;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846555.1;translation=MIMIVSNDKLKEGITLALSEQNNPKRNFKQSVELIVTFKEVDMKKGELKLREIVALPKTPSKPKNVVVVPSFEQTESAKKAEPNVLLAKEDLQKLLGQKRAIKKLAINNDWFLIAQDSMALAGRILGPALGPRGKFPTPLPTSSEITEYILRFKRSTLVKTKDQPQTQTFIGSEDQKPEDLAENASAVLSAIENKIKGPSVIKAIYIKTDMGKPVEIKLK;locus_tag=LOCUS_20690;note=WP_052846555.1 50S ribosomal protein L1 (Sulfurisphaera tokodaii) [pid:72.9%25%2C q_cov:99.1%25%2C s_cov:99.5%25%2C Eval:5.8e-86],MGA_2070
sequence1	MetaGeneAnnotator	CDS	1843820	1844830	.	+	0	ID=MGA_2071;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742658.1;translation=MIEMSITIQQKKIPQWKIDEVKELEQLIKENKTIIIANLEKFPADKLHEIRKKFRGYAEIRVSKNTLFKIAAKNAGLDITKIEKYLNSSNAFIFSNENPFTISINLNKSRLKRYAIAGDKSDEEIVIPAGDTGMPAGPILSTFGKLKVPTRVQDGKVAVTKDTLIAKPGDTIPAEAIPILQKLGIMPVYVKLTMKVAYHEGLLIPAEELDVNLDDYRSEIGEAYRNTIALGVEIAYPVPDVLKISITKAQNYSLNLAGEMGYISKDTAEIVFIKALAKANALAEAINDKANLGIQVAQKPTTQEANKEDKEEKKEEEEKKGPSEEKLGGGLSSLFG;locus_tag=LOCUS_20700;note=WP_084742658.1 50S ribosomal protein L10 (Sulfurisphaera tokodaii) [pid:63.2%25%2C q_cov:89.9%25%2C s_cov:89.5%25%2C Eval:1.8e-107],MGA_2071
sequence1	MetaGeneAnnotator	CDS	1844874	1845185	.	+	0	ID=MGA_2072;product=50S ribosomal protein P1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846954.1;translation=MEYIYASLLLHSAKKDITEDSLKNVLTAAGINVDEVRVKAVVAALKEVNIDEVLKNAAAMPVAAAPAAQPAEKKEAKEEKKEEEEKKGPSEEEIAGGLSSLFG;locus_tag=LOCUS_20710;gene=rpl12p;note=WP_052846954.1 50S ribosomal protein P1 (Sulfurisphaera tokodaii) [pid:63.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-27],MGA_2072
sequence1	MetaGeneAnnotator	CDS	1845243	1847954	.	+	0	ID=MGA_2073;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979404.1;translation=MIVDEKEYKVRLFNNNYYRKTCNVCKTPFWTKDKERTNCADIPCSDYYFLDLDVSKLNLSVKEARSKFLNFFKRHDHEIIPPKPVLARWREDLYLTIASIVDFQPQVTSGLVPPPANPLVISQPCIRLEDIDNVGITFGRHLTTFEMGGHHAFNYPDKYIYWKDETVELSKEFFTEELGIPEELLTFKESWWEGGGNAGPSFEVTVGGLELATLVFMQYEIKGSDYIPLKLKIVDTGYGIERLAWFTQKTPTAFHAIYGNLVYTFFKKLNQAPVDEEMLKTAARLAGRIDTDHPESIKLHREEVAKKIGEKLEYVDSELTRAARVFQVLDHTKTIALMLADGLVPSNSGEGYLGRLLIRRTLRTMKLLGANADLVDLISEQINYWKEDFPEMLKNKDYILDAIENEEQKFNETISKIPSIVNNLSKKKNITAEDLAQVYDSNGVPPELLTEELKKKGIELQIPFNFYALVAKRHQTAPIKSEKEKSRLTKDVIDFASKFEPTKKLYYTNQYLREFDGNVIGVYKNFIITDQTVFYPEGGGQLGDKGFIITSTGEKYSVIDTQKVSDVILHILDREAKINVGEKVHGEIDWQRRYRLMKHHTATHVILAAAKKLLGDHIWQAGAEKTPEKARLDITHYKMLSKEEIRKIEDMANFVINDRRPVNAFEMNRTEAETKFGVSIYEGGVPNKASIRLLEIKDWDVESCGGTHVSNTSEIGAIKIVNVEKIQDGVIRLEYVAGDMVTNYAREIEDEIDKTSEILGVDRSQLEIRSQRFIEDKKKVDELLNEYRKWYIEYLLENSSKEIYNGVNILILKNIIDQEIVKEIMKRFTIDSSKVVVNIYNNNQKWIIEIATSSNIKVDPILDNLRKIGGKGGGKGTYCNVSFVTVKEDDIINAIKQGLKGSL;locus_tag=LOCUS_20720;gene=alaS;EC_number=6.1.1.7;note=WP_010979404.1 alanine--tRNA ligase (Sulfurisphaera tokodaii) [pid:65.6%25%2C q_cov:99.8%25%2C s_cov:99.7%25%2C Eval:0.0e+00],MGA_2073
sequence1	MetaGeneAnnotator	CDS	1847920	1848543	.	+	0	ID=MGA_2074;product=DUF434 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_152940919.1;translation=MLLNKDLKEAYKDYKYLLNRGYSRKIALELISSRYFLSELQRLILYRCTHSDNEISYIQSKISTENNIVVDGFNIAITLINILDNDNAFLCDDGFIRDLGLGKKKEDERILDILILVSEYCVWKKFSCEIILDSQISNSGKIAEKLRQKHVTAKTVNKADKEVIISNKTIASNDFVILMNSSKIVDLLGKMVKDSYIKLVKIPEDLS;locus_tag=LOCUS_20730;note=WP_152940919.1 DUF434 domain-containing protein (Acidianus ambivalens) [pid:61.7%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:2.4e-67],MGA_2074
sequence1	Aragorn:1.2.38	tRNA	1848592	1848683	.	+	.	ID=Aragorn_26;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00260;note=Aragorn_26
sequence1	MetaGeneAnnotator	CDS	1848780	1849169	.	+	0	ID=MGA_2075;product=adenosylmethionine decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979389.1;translation=MSEEAVFQTSSEDRIIGKHVFGNLYGIEPDILNDKDLLQNLVLQAVKIANMNLVEVKSWSFGGKKGGVSVIALVEESHIALHTWNEYNYATLDVYTCGENSDPAAAFKFITDNLKPKKYQVFYADRSSE;locus_tag=LOCUS_20740;gene=speD;EC_number=4.1.1.50;note=WP_010979389.1 adenosylmethionine decarboxylase (Sulfurisphaera tokodaii) [pid:83.8%25%2C q_cov:90.7%25%2C s_cov:91.4%25%2C Eval:7.6e-54],MGA_2075
sequence1	MetaGeneAnnotator	CDS	1849316	1850365	.	+	0	ID=MGA_2076;product=hydroxymethylglutaryl-CoA synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979390.1;translation=MHSGIVGWGSYIPKYRIKVDEIAETWGRERAVVKTLGLTEKSVPSPDEDSTTMAFESTVNALNRARINPEEIGAVLFGSESKVYAVKPTSSFIIDAIGASNYSVSADLEFACRAASAGLRMALSMVDTNQVKYALVIGSDTAQSNPGDILELSSAAASISFIVGKDTESVAIAEASTSYTSDTPDFWRRDGVPYPLHGEAFTGEPAYFAHILYAVNKLLQDSGLRISDFDYFIFHQPNGKFPLQISKKLGIPLEKVKPGLVSTYIGNPYNASALLGLAKVLDFAKPGQRILVAPFGSGAGSDAFSFVTTDKISERQKLAHSVDFYINNKKIVSYAHYAKYTNKYKVYEQ;locus_tag=LOCUS_20750;EC_number=2.3.3.10;note=WP_010979390.1 hydroxymethylglutaryl-CoA synthase (Sulfurisphaera tokodaii) [pid:73.6%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:3.2e-147],MGA_2076
sequence1	MetaGeneAnnotator	CDS	1850362	1851447	.	+	0	ID=MGA_2077;product=thiolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979391.1;translation=MSVNIASYSMLKVDRYYETNLTNLSVAAAKEIIENLKDSFKPDILIFANSYSEKTSNQVLLSTKLTNILGYSVPSFRIENGDASGGAAIFTAYNLIKSGEIKSALIIGSEKLSDFPSNYLNEILTENMDEEFSERLGILPQSFAALQMKTYMKKYNVDYDYFSNWPYFMHKYGSENPYAYLKFAVDKKTILDSQLISEPMRLFDTAPRADGAAAILVTNDEIARKLTDSPVKISKVTSSTADIKIGEIPSLKEAYNKLGKFNPDLIEIHDSYSIYAALILEELGFTKGKSLSELDNLPINYSGGLKSRGYPGGATGIYQIAEATMQLLGNFPGKRVPSSEKALVISMDDLGNTTYLTQLTR;locus_tag=LOCUS_20760;note=WP_010979391.1 thiolase family protein (Sulfurisphaera tokodaii) [pid:52.9%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:3.2e-97],MGA_2077
sequence1	MetaGeneAnnotator	CDS	1851495	1851854	.	+	0	ID=MGA_2078;product=Zn-ribbon domain-containing OB-fold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846952.1;translation=MYRLIAGKCEKCGNIIFPYRDVCNKCGSTKINKIKLSGRGTLLTYTTNYQQLPGLEKVTPTYIGLIRLDEGIEIVAPLTDIDEDLKDNTRVEATIRRVKSDSNNGLIEYGIKFRPVENE;locus_tag=LOCUS_20770;note=WP_052846952.1 Zn-ribbon domain-containing OB-fold protein (Sulfurisphaera) [pid:52.5%25%2C q_cov:99.2%25%2C s_cov:86.7%25%2C Eval:1.5e-33],MGA_2078
sequence1	MetaGeneAnnotator	CDS	1851847	1852146	.	+	0	ID=MGA_2079;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIEEVVDKVVSGEISLHDIDNYLEANAAMVARRLAIEKITGAKLPSIGSTILDYSEIKGRNAENVIGGIQIPVGIAGPIRINGDYAKGEFFRANGYY;locus_tag=LOCUS_20780;note=WP_010979393.1 hydroxymethylglutaryl-CoA reductase (NADPH) (Sulfurisphaera tokodaii) [pid:77.8%25%2C q_cov:90.9%25%2C s_cov:21.9%25%2C Eval:3.2e-36%2C partial hit],frameshifted%2C insertion/deletion at around 1852125,MGA_2079
sequence1	MetaGeneAnnotator	CDS	1852127	1853080	.	+	0	ID=MGA_2080;product=hydroxymethylglutaryl-CoA reductase (NADPH);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979393.1;translation=MPMATTEGALIASVNRGMKAIHESGEVITKIFFDGMARAPVFKFNSIKDAYNFVRWVKDSFNKIKDIAESTTSHGKLLDIQTFILSNNVWLRFVFETGDAMGMNMATIASEEICDFIENNFEGATCIAVSGNMCSDKKQSITNTVFGRGKSVSAEIIIPKDTVKNILHTTAEAITEVNLRKNWLGSARAGNIYQFNAHFANIIAAIFLATGQDMAQVVESSSGYTWTENRDGDLYISITLPSLEIGTVGGGTRLPTQREALSIMGVEGSGDPAGSNAKKFAEITAASVLSGELNLLSALANKELGKAHKKLGRNLKA;locus_tag=LOCUS_20790;gene=hmgA;EC_number=1.1.1.34;note=WP_010979393.1 hydroxymethylglutaryl-CoA reductase (NADPH) (Sulfurisphaera tokodaii) [pid:69.3%25%2C q_cov:99.7%25%2C s_cov:76.9%25%2C Eval:8.0e-126],frameshifted%2C insertion/deletion at around 1852125,MGA_2080
sequence1	MetaGeneAnnotator	CDS	1853104	1854399	.	+	0	ID=MGA_2081;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979394.1;translation=MMEIPKELEKVIELTKEQNKWRRTETINLIASENVMSPIAESVYMSDFMSRYAEGKPFKRFYQGTKYVDEMETLAMDLLNEITPSKLSDLRPTSGTIANAAVFRVLANPGDKALITKVQAGAHVSHTRFGTLGALGIEHIEMPYDMENMNVDVEKASKMIEEVKPKFVVLGASLFLFPHPAKELAPIVHSVNSKLIYDAAHVYGLIAGKEWDNPLDEGADIMTISTHKTFPGPQGGAILSNNEEVFKQISKTIFPWFVSNHHLHRLPATAVTAIEMKYFGNEYASQIVKNAKALASSLAERGFKVIAEHLGYTRSHQIAVDVKKFGGGAKVAKMLEDVNIIVNKNLLPYDPPEAVSNPSGLRIGVQEMTRFGMKEGDMEEIADLMKQTVEGKDTNEIKKKVIEFRSRFLEPKYTFNVDLKNYSNKNIPMLI;locus_tag=LOCUS_20800;note=WP_010979394.1 serine hydroxymethyltransferase (Sulfurisphaera tokodaii) [pid:75.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-195],MGA_2081
sequence1	MetaGeneAnnotator	CDS	1854392	1854802	.	-	0	ID=MGA_2082;product=universal stress protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979395.1;translation=MTYEPTYTVSLWFRKVLVPIDGSENSLRALDLAEDFSMRYGSKITVVYVCSQCDEVSHVKKKIEERIGQKIEYDFKVINMSKESSVANEILKTISEDTFDAIILGARGTSVNSDINIGSTALSVTANAPITVITVR;locus_tag=LOCUS_20810;note=WP_010979395.1 universal stress protein (Sulfurisphaera) [pid:64.2%25%2C q_cov:97.8%25%2C s_cov:98.5%25%2C Eval:1.0e-45],MGA_2082
sequence1	MetaGeneAnnotator	CDS	1854799	1855818	.	-	0	ID=MGA_2083;product=phosphorylating glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979396.1;translation=MIRVSVNGYGTIGKRVAEAIMLQPDMELVGVSKTSPNMEALVAQSKGIKIFSPDESSKKFEESGIKISGNIEDMIKYSDIIVDATPNGVGAQYKTLYEKYEKRAIFQGGEKPNVADVSFSALCNYDEALNKKYVRVVSCNTTALLRTICTLSKLGKIDKVRATIVRRAADPKEFKKGPINALVLDPATIPSHHAKDVNSVLKDLDIITSAIIAPTTLMHVHLLNVTFKQQIDKEDIVSIFLNTPRIVMVSSRSKISSTAEIIEVARDLGKMRNDIREVVVFEDSIYTKGSEVFLTYAVHQESIVVPENIDAIRAINGISADESIKITNTSQGISGGYII;locus_tag=LOCUS_20820;EC_number=1.2.1.59;note=WP_010979396.1 phosphorylating glyceraldehyde-3-phosphate dehydrogenase (Sulfurisphaera tokodaii) [pid:66.5%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:3.1e-131],MGA_2083
sequence1	MetaGeneAnnotator	CDS	1855819	1856928	.	-	0	ID=MGA_2084;product=phosphoglycerate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979397.1;translation=MDDSRLKAYNSTIRELVEKGNSVVLISHQGRPGDNDFISLEEHAKILSKYLDTDVEFIEDVMGPYAREKIQNLEKGRVMLLDNVRFVSEELIEASPSQHAKSYLVRRLSPLFDGYVNDAFAASHRSQASLVGFPVVLKSSAGRLMEKEVSALAKIFNPDDYPKVFILGGGKVLDSVRIIENLVKKRLADRILTGGLIAELFAVAKGLDIGKDNIRVLEKLGILSLVPRARKILLMGGPIEIPVDFRVEKEGKVIEEPLNKLTGVIKDIGTTTTGIYSSFIKDAKVIVMRGPMGIIEDERFREGSKTLLVDALESSGYLIIGGGHMISMLGNVTVDSNKVHISTGGGALLLFLAGEKLPALEVLSTSGVK;locus_tag=LOCUS_20830;note=WP_010979397.1 phosphoglycerate kinase (Sulfurisphaera) [pid:67.3%25%2C q_cov:99.7%25%2C s_cov:89.2%25%2C Eval:4.1e-140],MGA_2084
sequence1	Aragorn:1.2.38	tRNA	1857281	1857354	.	-	.	ID=Aragorn_27;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00270;note=Aragorn_27
sequence1	MetaGeneAnnotator	CDS	1857491	1858168	.	+	0	ID=MGA_2085;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_069168147.1;translation=MLVSRNPEISFIDWSVRKTIKKLGCKKFDFYILQYDKDNNIKNFISNKVMIISKQNLRESDIIQGLNKTLENFALIGETKISKLKICGDVYLFLYFDIILKKIKNYHTSVKVLLPPLGIKTSNIPYTPEDLFKDILNNAMNTSCTTEFEVQEGKYARILADCENISQYDNLKYVIPYFIDAGEMKISIKKSELTKSEIQLDIFGFKSKSLIPLVWDNFMSTYAQC;locus_tag=LOCUS_20840;note=WP_069168147.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:30.1%25%2C q_cov:100.0%25%2C s_cov:90.4%25%2C Eval:5.4e-26],MGA_2085
sequence1	MetaGeneAnnotator	CDS	1859133	1859282	.	-	0	ID=MGA_2086;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKEIEIPFINAEGYSVPLIKVRMECPKSGEDVLIYALPDSGSRFSLIN;locus_tag=LOCUS_20850;note=MGA_2086
sequence1	MetaGeneAnnotator	CDS	1859284	1859451	.	-	0	ID=MGA_2087;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSENIKLVRKYLAIDENRNIVAEGNSWEEVEEIMEKKGYKRSQYDILTVVKQEKS;locus_tag=LOCUS_20860;note=MGA_2087
sequence1	MetaGeneAnnotator	CDS	1860521	1860811	.	-	0	ID=MGA_2088;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAKDGKVGYEVIIKEKDKEYHFIVAEENRGHVVVLNILENIKREGDKKVFTAESYLLRENKVTKVVSGRYEIKGNALSNVLTTYEPEKIEIKKVK;locus_tag=LOCUS_20870;note=MGA_2088
sequence1	MetaGeneAnnotator	CDS	1861540	1862865	.	-	0	ID=MGA_2089;product=IS200/IS605 family accessory protein TnpB-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980008.1;translation=MLKTLKRTVRVESDFLNEWKYRVLREVEEYQKKIVNEMIEIILSEALPTTRKKLHERFYNHYKEKYPFLPSRVIEGAYIVAGRIVKSFRERRKKGLTRKDKPEYKRVVITIPNMVNWRFNRISVSVVTHKGWVEIPLKFTKQFTRYVYEGWRVSQELKLRLIGRKVLVWLTFEKEVEVESKEGNYISIDVNENNVTLAVFEGFKLKELRRYETGLGRIVMNYSLRREEITKGHSTKDELVKKKLRKLREKERKIDVLRKTVKRITELARDLKAKVVVGKFSSRSKEKMESNKNDKLRHRIHQWSVVKFVDMLKTQPIEVAEVSESYTSSINPFNGEKLRKGKQVVEKVIKVFNPYLMTGSAHEGGGIRVFKVNARYLESGEVLLERDSIAPLNIVKKVDGRVLVFPSTSPKDLRVTVYDPLRGVPVAELEVIKSKEKLRHG;locus_tag=LOCUS_20880;note=WP_010980008.1 IS200/IS605 family accessory protein TnpB-related protein (Sulfurisphaera tokodaii) [pid:82.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.5e-215],MGA_2089
sequence1	MetaGeneAnnotator	CDS	1862837	1863436	.	-	0	ID=MGA_2090;product=IS607 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980009.1;translation=MERYLTPSEVAEIFGMSRSGVIKWIREGKIKAVEINGRWRIPYSEIERLLSGGGRVKQVAIYARVSSNTQKDDLERQLDALREWVKKTFGEVSVIEIKDIGSGLKEDREGLKKLIELAKRRQIDAVVVAYKDRLTRFGFEVKLFKAYGANVVVAFQDDKDYMQELVEDFVEIVKSFASRIYGQEYEKVVKCVEDLKKDG;locus_tag=LOCUS_20890;note=WP_010980009.1 IS607 family transposase (Sulfurisphaera tokodaii) [pid:86.1%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:3.3e-95],MGA_2090
sequence1	MetaGeneAnnotator	CDS	1863799	1863969	.	+	0	ID=MGA_2091;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNYQKFEKDFIEAWNSHDIEYLLSFYTDELVYIHPGEHPRVIKGKEQFKKYLEVF;locus_tag=LOCUS_20900;note=MGA_2091
sequence1	MetaGeneAnnotator	CDS	1864004	1864201	.	+	0	ID=MGA_2092;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAWNDNIGFGEWIGRSTFNGKRYGLEIKNKKFEIMGVDILIIDKEKELVKGESILQSIIGFRTNM;locus_tag=LOCUS_20910;note=MGA_2092
sequence1	MetaGeneAnnotator	CDS	1864371	1864520	.	-	0	ID=MGA_2093;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSISKKELEKIMRKDDKAIIIVPNIMTIFTPTFSAKSENGMESKTSVTI;locus_tag=LOCUS_20920;note=MGA_2093
sequence1	MetaGeneAnnotator	CDS	1864615	1865436	.	+	0	ID=MGA_2094;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742610.1;translation=MIGLNHTIVSLGYVFGLPLGGIIAEINWKYLFAITSVLSFISLFLILSLNEVHAKSGLGINIIYTSLIFDGIILGLYYPLFLLLSLVGLVMTLWKIKLGKVFYLTSLSGFLHSITRNMIAAFFVFYLYSLHLPALIIGSLVLLYPLSFTFVSFYAGKLHDKYKLRVASFGFASMALSSLSLFFNVILGEFLLGASSGIATTSNTAYTMSSVRNKDRIVASGIRSVQGVVSNTIGLIIASYFRTFLTPYVEITVLLNLASLLILGIVIFSQANT;locus_tag=LOCUS_20930;note=WP_084742610.1 MFS transporter (Sulfurisphaera tokodaii) [pid:33.5%25%2C q_cov:96.0%25%2C s_cov:79.2%25%2C Eval:1.3e-30],MGA_2094
sequence1	MetaGeneAnnotator	CDS	1865751	1866143	.	+	0	ID=MGA_2095;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKWLYRLRTPYTSYTNPSTVQICGNPSAITNDWQPCGINNAVLIVLKQEHKPLCINLTIHFSCYFATGFRHTGDVKTNIGIYSGSFYGQIEFGNYFLGAYSGVWPFEGFQCILLNYLTVMFSHWLFAMLA;locus_tag=LOCUS_20940;note=MGA_2095
sequence1	MetaGeneAnnotator	CDS	1866218	1866598	.	+	0	ID=MGA_2096;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSIHINCCCQIYIELYKECNGKYIPVKLPYITPEYAKFYPCPCKPVAKFEGNYNETKWGYTRCYMCVLKSISCVVPFGEIKAAVKVVGYASCGFCPVEYPYDPLGVAVEIMWGTSVYVSGIQIAN;locus_tag=LOCUS_20950;note=MGA_2096
sequence1	MetaGeneAnnotator	CDS	1866740	1867030	.	-	0	ID=MGA_2097;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846178.1;translation=MAKCSIETLNAILVAVFDATNGSLSAHVPLEAVLRRFPGHLRGDVRRCIKELIKRGLLTLHPTRGSTTYQLTHRGLECATKLIKGEISSVEECKNL;locus_tag=LOCUS_20960;note=WP_052846178.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:91.4%25%2C q_cov:96.9%25%2C s_cov:100.0%25%2C Eval:3.2e-44],MGA_2097
sequence1	MetaGeneAnnotator	CDS	1867093	1867365	.	+	0	ID=MGA_2098;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846177.1;translation=MESKQAEKGVVFVSKVSVTKSKKNGKEYITYRITIPMEKAKELELNDGDYLLVKAKKAKWYHLLNWEEMKNVYNMLPEEIKREVDELNHK;locus_tag=LOCUS_20970;note=WP_052846177.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:85.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-40],MGA_2098
sequence1	MetaGeneAnnotator	CDS	1867356	1867598	.	-	0	ID=MGA_2099;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPTIEIYPGLSLPIDELEKLVDKYLIIGGTPPRIMAVANDDEEARNKFLDLSDKADLNRETDFPKAIIFLTRDMLKPYL;locus_tag=LOCUS_20980;note=WP_010978097.1 winged helix-turn-helix transcriptional regulator (Sulfurisphaera tokodaii) [pid:93.8%25%2C q_cov:100.0%25%2C s_cov:46.5%25%2C Eval:1.7e-37%2C partial hit],MGA_2099
sequence1	MetaGeneAnnotator	CDS	1867795	1867974	.	+	0	ID=MGA_2100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846987.1;translation=MISHTDVGYAQKGGSDCRDVSPVPLGSKESHDPPTVSGWLRAKSLHSIMNYHKMIEMKV;locus_tag=LOCUS_20990;note=WP_052846987.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:74.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-17],MGA_2100
sequence1	MetaGeneAnnotator	CDS	1868910	1869041	.	+	0	ID=MGA_2101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANKAKEYNYNPLKELVTLYVFLKVESKVQEQGKKSILSDEEK;locus_tag=LOCUS_21000;note=MGA_2101
sequence1	MetaGeneAnnotator	CDS	1869708	1869869	.	-	0	ID=MGA_2102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTAIKVVRKYYAIDYDRRIVAEAEEEIDRIMEKKGYKKGTYDILVSIKYVES;locus_tag=LOCUS_21010;note=MGA_2102
sequence1	MetaGeneAnnotator	CDS	1870578	1871123	.	-	0	ID=MGA_2103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIQLKSSKPSEDILRIVKEAIDKLNKASSSPSLRVVSFYIPFLSSYDLNKAQFFILDRKNIENINTELEVPEPLYNLLSAYYISFETVDIVKIISMRISKNLTEKIAKKPFMGIFVACKVTGLNLKGERITSSGIIFDPGWSIPINLNNVLGHEVLVTVGMHYYMVFYHKITQSLAIISF;locus_tag=LOCUS_21020;note=MGA_2103
sequence1	MetaGeneAnnotator	CDS	1871147	1871512	.	-	0	ID=MGA_2104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEEEKILERTKKVLEEIAKLDLKPLFELDRELAASPQLRAEFIKDPFSVAEKYGFKMPQNLKDEGFHMHWIDSNNNYYPAEGSAIEQLQKSGTKPWTRVEVRIGTAPGCIALCGVQRLIV;locus_tag=LOCUS_21030;note=MGA_2104
sequence1	MetaGeneAnnotator	CDS	1872044	1872775	.	+	0	ID=MGA_2105;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980701.1;translation=MLSQLEKLFLTDHVRFAFEIYDLRFDKEYTEFKMTREGYLMIYRKFYPPRIILHADKECTVRELLSILKNEESKFVLFIEPKWSRLLNFPNMKIYPEILMTCDKPNVFRKENVRRLGIEDKEEILALYGQGLGDVLLQLLRDNKTTAYGLFLNSHLVSAAYTLIELENVAVIGGVLTKEELRNRGLATSVVSTLTKYLTKRGKVASLYVREDNSPAIHVYKKIGFKEYWKRLWISVNTDEKPL;locus_tag=LOCUS_21040;note=WP_010980701.1 GNAT family N-acetyltransferase (Sulfurisphaera tokodaii) [pid:65.1%25%2C q_cov:99.2%25%2C s_cov:98.8%25%2C Eval:1.1e-88],MGA_2105
sequence1	MetaGeneAnnotator	CDS	1873342	1873689	.	+	0	ID=MGA_2106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKVTDIGKAVGYITGGSVVSVITEAFTHLSPLYISLTVIAYLLTIIVITFMLIRFEKGSEIDKIKAEILAEEDKTILEILNNNCLNAKVTQKDLCEKLKEYLEARINAFSNLEK;locus_tag=LOCUS_21050;note=MGA_2106
sequence1	MetaGeneAnnotator	CDS	1873661	1873996	.	-	0	ID=MGA_2107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSVFNREKDVHETASKIFSDGIMTLVMSTIITNNGTSEEELERKVGEKLHLDNIPEIVKEKVKSLEDLGVIERKYNMIVLTEFGVKVSKILKDMLKIYYETFTSPSLKKH;locus_tag=LOCUS_21060;note=MGA_2107
sequence1	MetaGeneAnnotator	CDS	1874193	1874507	.	+	0	ID=MGA_2108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKSSMHGIRLNKKQEEERRINAVKDVRNGMSIREVAKKYDVSIFTMYKWLRREDLSAKPRKGSTKLKDKEKLVQILEKSSRDFGLNYDFWTLKLIAYLRRNLG;locus_tag=LOCUS_21070;note=MGA_2108
sequence1	MetaGeneAnnotator	CDS	1874842	1875051	.	+	0	ID=MGA_2109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKVVKDEKIVIIMDNARIHGNEVREFLEENNVEFIYLPSYSPDKSPAEGPWAVLKKKLYSKSTRTSRP;locus_tag=LOCUS_21080;note=MGA_2109
sequence1	MetaGeneAnnotator	CDS	1875460	1876182	.	-	0	ID=MGA_2110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALTAILNIVGIGLFYLSSFENINIILSALILVLILNAIISFKIKYEEPKESLKDFYRNLKSIGKIIFPVKFFSTLRRTLITSYIPLILLSVFLTYSSQKISLYLALFQIPLFVFLYIGYKISNKLFLITSIIEFIMFLILSLFYSVSIFIFLSLILLANATAYLRAPASEEIMMRLLRFNTKLSALSQLIDVMFSSLASTFLAFLIKLDLYYVIFIVVGLASFSLNIIIYKLISYDKTK;locus_tag=LOCUS_21090;note=MGA_2110
sequence1	MetaGeneAnnotator	CDS	1876548	1877282	.	-	0	ID=MGA_2111;product=7-cyano-7-deazaguanine synthase QueC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876732.1;translation=MDNEVIIQLTGGIDSTVLAYYLKEKYQLYGVSINYDYAPQHKEMELVKDLTKNLGIELKIIDFSSYIKSFDLPPISTMNYLIKYQFLIEILATLSAYPDFDTLFVGWLKGEWNNKKDIIDKLQQLLRIKIVAPFSEITKSDVIKMGNKLGIDFSKTWSCIVSGKIHCGICVPCRSRKRAFKEAKIKDPTSYYYNMSYDQMDELAKKLSFEEFYEKYLKPFLKYTNEYTEEFVYNYVNIMKKYSG;locus_tag=LOCUS_21100;gene=queC;EC_number=6.3.4.20;note=WP_010876732.1 7-cyano-7-deazaguanine synthase QueC (Methanothermobacter) [pid:26.6%25%2C q_cov:75.0%25%2C s_cov:96.4%25%2C Eval:1.9e-19],MGA_2111
sequence1	MetaGeneAnnotator	CDS	1877275	1878114	.	-	0	ID=MGA_2112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVENKILGKTSSLLYDIKLKFKDIKVIIEENEIKDKQFKDFFERYYHKSDMTKIDTVFILDFTLNDDIYRGFSLGSYDIKTNISTLFFEWETVPKYEVQAGSGGSSSCCLYSTFSRAYHGSFNISSITGTLEGLPLDVDVTYLTLNEDGETIFQGYQKTILRNINGIRIAKTKVWGFIDEQFKLLNSPGYAVYLTQKDNTILGLYNQLQKGVDGKLYYEEAIREYRSYSNRRLPFDEIMIFKYTKSDFNVIRNNKRIDSLEHIAYYMPAKEPFGNKNG;locus_tag=LOCUS_21110;note=MGA_2112
sequence1	MetaGeneAnnotator	CDS	1878577	1878792	.	-	0	ID=MGA_2113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDISFGYPSIYICQIILNIYFFEKVILIIMRVITFKAEEDLLLKLDLYAANKRISRSEIIREALKKYLDSF;locus_tag=LOCUS_21120;note=WP_084742691.1 ribbon-helix-helix protein%2C CopG family (Sulfurisphaera tokodaii) [pid:69.2%25%2C q_cov:54.9%25%2C s_cov:81.2%25%2C Eval:1.9e-07%2C partial hit],MGA_2113
sequence1	MetaGeneAnnotator	CDS	1878782	1879915	.	-	0	ID=MGA_2114;product=SufD family Fe-S cluster assembly protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979218.1;translation=MAIVDKDSAINYIQKLGNVSDREKLFSIYEEIPYQLIHDSPTIKHYTDWDLFDNLDLKIDYGSKKNLDSPLKDYKLISIANNIVEGTEVLDSPKNSGIDPKEHKLVALNLALAKKIIIDRPGKYFIYHYTDQELYSPINIEINVNDDITDIVYYSESFGKSMPSSTIYLKVGKDATVNFSTIVKGNSSYSFVYAKAEVDGSINSSIFASGSSQAHIEYKSILGSYSNASFNVKALGVKDNNIDIVSDVTHIGEKSVSTGSMKAVAANTSLTVIRGDAKVGETAHDSSTSIIGRAIMLGKESKAIVAPMLEVKTGRVITAKHSAAVSRVDEDLVFYLQNRGFDRKTAEGLIIRGFLNDENDISIVKEMVEKIISDLGY;locus_tag=LOCUS_21130;note=WP_010979218.1 SufD family Fe-S cluster assembly protein (Sulfurisphaera tokodaii) [pid:46.2%25%2C q_cov:99.2%25%2C s_cov:98.2%25%2C Eval:1.2e-86],MGA_2114
sequence1	MetaGeneAnnotator	CDS	1879917	1881356	.	-	0	ID=MGA_2115;product=Fe-S cluster assembly protein SufB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979219.1;translation=MTEEKLSLDINEILNASIQAKHEKLSEMEFHRQIVNAGLSKSTIEEISKMKKEPNWMLQLRLKALELFEKIPTPNWLPDFLGTLDVSKLELYVKPGIQQTNSWDEIPKDVKNYYDELGIPDSEKKYLGGLVAVLESEPIYSNVKEELTKKGVIMMPPDEAVQKYPDLIKQYFMKIFPASDHKFAALHGALWSGGVFVYVPKGVKITTPVEGFFVIGTEMEGQFEHTLVVADEGSYIHFIEGCSAPQFKKFSFHDGMVELYAKKNAHIKFTTIQNWSKNVINFNNKRAWADENSMIEWVEGSLGSKYSFVYPTTILRGRNATSTSLVVTMASGEGEWKDSGSKMIHAAPNTKSKIINKNIGFNGGVNIYRGLVKVNKGATGSKAFVKCDSLMLDEKTKAYTFPHNQVFEDDADVAHEAHTFRMSEDQLFYLMNRGINEKEATSMLVLGFIDDIMRELPFEYATMLNKVIKLELDKLGAVA;locus_tag=LOCUS_21140;gene=sufB;note=WP_010979219.1 Fe-S cluster assembly protein SufB (Sulfurisphaera) [pid:83.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.5e-248],MGA_2115
sequence1	MetaGeneAnnotator	CDS	1881420	1882160	.	-	0	ID=MGA_2116;product=Fe-S cluster assembly ATPase SufC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846505.1;translation=MSTLKIEDLHVEVEGKEVLKGINLEIHSGEIHALMGPNGSGKTTLSLAIMGHPKYKITKGKILLDNEDITNIDTDEKVKKGLFLAFQNPIEIGGVKLSTLLVAEYNRVQGSGQMATEIFQKVKDFTKSVGISETLLNRGVFEGFSGGEKKRTEILQMLILKPKFAILDEPDSGVDVDGLRIISDIVDKMKNEMNTAYLIITHYRRILDYVNADKVHVLYRGKIVATGNMSLAKLIDEKGYESVIKN;locus_tag=LOCUS_21150;gene=sufC;note=WP_052846505.1 Fe-S cluster assembly ATPase SufC (Sulfurisphaera tokodaii) [pid:78.0%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:2.3e-108],MGA_2116
sequence1	MetaGeneAnnotator	CDS	1882185	1883177	.	-	0	ID=MGA_2117;product=AbrB/MazE/SpoVT family DNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846506.1;translation=MEEFDSSKDIETRKVQKLGSSSLFITLPKKWINKWSIKPGDKILIEVSDDGSLKLLAEKVKLIINKKSIKIDVDSLKQPMPSIIPCLYSLGYDEIVFESKKPLMQKDIEDIIDVTKQMVGSEVTEASDGRIKVECLLDSEKVGLESLLRRMLNVISKKVDDIVAYITNEPIKDNLNNNEDLRRIYFMLLRRVMSIKYDTSKNITKNFFIVMNSILLLNTGNLIDKLTKLIKSEELTETEKGVIKDTLQKVNDLLDEVVMTVLFPSIKRVSNGIMLIKQVKYNISTLDDKKYPLLFNYLQDLIASLESALDNSSCTLFLEDMPWIERNLTA;locus_tag=LOCUS_21160;note=WP_052846506.1 AbrB/MazE/SpoVT family DNA-binding domain-containing protein (Sulfurisphaera) [pid:55.4%25%2C q_cov:98.2%25%2C s_cov:97.6%25%2C Eval:2.4e-104],MGA_2117
sequence1	MetaGeneAnnotator	CDS	1883265	1883612	.	-	0	ID=MGA_2118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_069168191.1;translation=MPAFKDLYEMIRQLMDEEEEEIENTINEAEKEIEGMIPLYTRYEEGGSLYYIIDVPFINYSTVYVKIEKNHLDFSCQDKKQRKYTLRIKIPEKYQNYDVKVINRKGFVKIVLSKT;locus_tag=LOCUS_21170;note=WP_069168191.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:31.1%25%2C q_cov:99.1%25%2C s_cov:97.5%25%2C Eval:1.5e-09],MGA_2118
sequence1	MetaGeneAnnotator	CDS	1883618	1884370	.	-	0	ID=MGA_2119;product=proteasome assembly chaperone family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979223.1;translation=MQSEFEVKEFSLPRISKPSYMVIGLPDAGLVGAISTEFLIEKFSLKEFGELYSTKYIPPIMHVTNGIAKSPLRLYYSENPNIIVFHSWTALPSSSIYPLAKFIVQYASKYSISKIISITGLPIQNRLDIEKPTAYWISSNSDLSQELEKIGIMQKFGDGYIAGPYAPILLESSKAGIDNFVIAIESFLDLPDPEASAVALDVLSKYIGFKVDVSSLLQEAEEIREKIKGLMEQTKKELPSYSVGKPMTYT;locus_tag=LOCUS_21180;note=WP_010979223.1 proteasome assembly chaperone family protein (Sulfurisphaera tokodaii) [pid:62.3%25%2C q_cov:98.8%25%2C s_cov:99.2%25%2C Eval:2.7e-88],MGA_2119
sequence1	MetaGeneAnnotator	CDS	1884370	1884774	.	-	0	ID=MGA_2120;product=glycine cleavage system protein GcvH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846941.1;translation=MSIKVGKYEILTDRYYTETDEWVKISGDEAIIGITDYAQKKLRDIVGVDLPELGKEVKLGDSVAVIESVKAAADIYAPLSGKIIEINEDLTEHPELINKDPYGKGWIFKLKITTDEGKEKLLTSEKYSEKIRGE;locus_tag=LOCUS_21190;gene=gcvH;note=WP_052846941.1 glycine cleavage system protein GcvH (Sulfurisphaera) [pid:70.9%25%2C q_cov:94.8%25%2C s_cov:91.4%25%2C Eval:8.0e-48],MGA_2120
sequence1	MetaGeneAnnotator	CDS	1884774	1885886	.	-	0	ID=MGA_2121;product=glycine cleavage system aminomethyltransferase GcvT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979225.1;translation=MVTKDAFPYKFLNKQPVLSGIIMFRSPVQDIEEKLGANFGEFAGWEMPMEYSSYQEEHMKVRQDVAFFDLSHMGRLRINGKIEEIERLVAKSLSKKEPGYMIGPTAFLNDKGGFIDDVMTYKVSENEFLIVTNALNREKVIKWIKNNSSLDVEDLTLNYVMLAIQGRRIWERLEKVDLNNLQFRLNTHFLGEDVFLLSRSGWTGEDGIEVWAKPDSAKKIIEKLYNKGVFPAGLIARDSLRQEMGFVLYGEDINEDINPIEARYWVFSLDKDFIGKEMIINYLKHGVDKFRIGFKLSKGERALPRSGQRIKILDVDIGYVTSSTYSPYLSRSIGMGYIKSKNFVLGYSADVEIRNKKYSIKFSDFPLVKL;locus_tag=LOCUS_21200;gene=gcvT;EC_number=2.1.2.10;note=WP_010979225.1 glycine cleavage system aminomethyltransferase GcvT (Sulfurisphaera tokodaii) [pid:66.8%25%2C q_cov:93.5%25%2C s_cov:100.0%25%2C Eval:1.0e-138],MGA_2121
sequence1	MetaGeneAnnotator	CDS	1885862	1887232	.	+	0	ID=MGA_2122;product=aminomethyl-transferring glycine dehydrogenase subunit GcvPA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979226.1;translation=MEMHPWLPNLKYIDEMLTTIGAKNIDDLFNDVPKEILLNRPLNIGYQKPLSEYEISSRIEELERKNKQLIFPPFLGGGFCPHYIPQAVKMILSRSEFYTSYTPYQPEANQGLLQALFEYQSYMAELLQMEVVNSSLYDWGGALAEAILMSNRINGKRRIIIPKNMNPLHRDVAETWTRGKGIEFVDVNYNSEGKIDINDLENKISNEVSAIYFQQPNYFGIFETEIESIVELAKRKGIITIMGVNPLSLALIKPPGEYGVDIAIGDAQEIGIPLNAGGPSLGIFATRWDSKLVRQMPGRIVGLTEDSSGKRGFTLILQTREQFARREKATSNITTNEALLGIAVSVYLSLLGKYGIKKLADEVYYRSHYAAKRLQDRGLGKRRFTGDFFEEFLFDFPIDYNKINSYLLSKNIQGGLQMDAKSALFCFTELHSKQMIDFLVEQIEEVIKNVEASKLG;locus_tag=LOCUS_21210;gene=gcvPA;EC_number=1.4.4.2;note=WP_010979226.1 aminomethyl-transferring glycine dehydrogenase subunit GcvPA (Sulfurisphaera tokodaii) [pid:66.7%25%2C q_cov:97.8%25%2C s_cov:99.3%25%2C Eval:8.1e-176],MGA_2122
sequence1	MetaGeneAnnotator	CDS	1887207	1888718	.	+	0	ID=MGA_2123;product=aminomethyl-transferring glycine dehydrogenase subunit GcvPB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979227.1;translation=MWKQASWDEPIIFDFKGKQRQGIIIPEDDEIKNEIQVEIPEKIRRNSELEFPQMSELEVVRHYTRLSQMSFGVDIGMMPLGSCTMKYNPKIEEKTQELVENVHPLQDISTMQGVLELLYEMQKWIAEATGMDNCSFQVPAGASGELAGVLMTKKFHENKNQNRTEMLVADTAHGTNPASAAMAGYKVIYVKTNEKGLVDLDILKEIVNENTAGFMLTNPNTLGLFEENIMEISKIIHNDNGVLYYDGANLNGILGVARPGDMGFDIVHVNLHKTFAVPHGGGGPGAGAICAKGELAEYLPYPIIENIDGKFEFVKPKKSIGKMSTFYGNVANIARAYSYILGMGAEGISMVGKMSTLATNYLITKLKGVKGMELPFSGIYRKHEVVFSVKQLMNDTGITAFDVAKALLDRGFYAPTIYFPPIVEEALMIEATETEPKETLDEFADALKNILETAYANPKDILESPHNTSVRRLDQVKANYPSTITPTYLVKKLRNQNKINLLK;locus_tag=LOCUS_21220;gene=gcvPB;EC_number=1.4.4.2;note=WP_010979227.1 aminomethyl-transferring glycine dehydrogenase subunit GcvPB (Sulfurisphaera tokodaii) [pid:71.0%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:8.7e-211],MGA_2123
sequence1	MetaGeneAnnotator	CDS	1888711	1889043	.	-	0	ID=MGA_2124;product=signal peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979228.1;translation=MYPVFQNGSLTFYASPHNITIGNIIIYKSPAIDAYVIHRVVYVDNYNEVKHYITQGVDRISNPVPDSKIGLEPPQGIPSNYVLGKVDEFHGIIFSIPYLGYISILINSII;locus_tag=LOCUS_21230;EC_number=3.4.21.89;note=WP_010979228.1 signal peptidase I (Sulfurisphaera tokodaii) [pid:64.5%25%2C q_cov:97.3%25%2C s_cov:75.4%25%2C Eval:4.1e-36],MGA_2124
sequence1	MetaGeneAnnotator	CDS	1889129	1889452	.	-	0	ID=MGA_2125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979229.1;translation=MPKKQKESNVCPNCGTVVDKPTKTWNLISPLPDSYGRITITVMGSYTCPKCGHKWRAVVSKIKAGDSSVEVEGKKGVKKFGGEEKKEQKRDQGDIIELDLSDLDEEE;locus_tag=LOCUS_21240;note=WP_010979229.1 hypothetical protein (Sulfurisphaera) [pid:59.3%25%2C q_cov:85.0%25%2C s_cov:84.0%25%2C Eval:1.3e-24],MGA_2125
sequence1	MetaGeneAnnotator	CDS	1889468	1889755	.	-	0	ID=MGA_2126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979230.1;translation=MLYYAALIFIIYGLLSPIYFRILRGRLSNEKYFLTAWITAPYLVSYFYCNIFLIFLLAIFNILGYILLIANKTKHLYDGLLFFISAVIIVLFYKL;locus_tag=LOCUS_21250;note=WP_010979230.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:44.9%25%2C q_cov:93.7%25%2C s_cov:85.3%25%2C Eval:1.2e-14],MGA_2126
sequence1	MetaGeneAnnotator	CDS	1889796	1891040	.	+	0	ID=MGA_2127;product=phosphopyruvate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979231.1;translation=MSDIFEIKKVEGLEIIDSRGNFTVRSFVTTKGGVRDFGDAPAGASKGEREAVELRDKDGGVRSAVRSINYYINYALAKLDVRDQDKIDRLMIELDGTDNKSRLGANSMISTSIAVAKTAAKAMGIEIFNYIGGFRSHKIPIPLLNILNGGMHAGNELKIQEFLIIPVGFSTFSDAIKASTSIYRTLKNLISEKFGKIYTSLGDEGGVSPPLSKTEEALDLVYTAIKNSGYDNEILLGMDAASSDFYNSKLNVYEIDGTKKTPDEMIDFYKELCERYPILYLEDPFDENDFERFSRLQSKLSKVIITGDDLYTTNIKYLKKGIEMKSTTGVIVKLNQIGTVTETLDFFDLARENSIKTVISHRSGETEDNFIADLAVGLNSDFIKTGAPARGERTSKYNRLLEIEKEYEFKYNKI;locus_tag=LOCUS_21260;gene=eno;EC_number=4.2.1.11;note=WP_010979231.1 phosphopyruvate hydratase (Sulfurisphaera tokodaii) [pid:67.2%25%2C q_cov:99.3%25%2C s_cov:98.3%25%2C Eval:1.4e-160],MGA_2127
sequence1	MetaGeneAnnotator	CDS	1891058	1891243	.	+	0	ID=MGA_2128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPITISIPANISKNNRNCLVVILGIDENALNKPYEIPPRSIKPIIANPMIIKISETEPLFT;locus_tag=LOCUS_21270;note=MGA_2128
sequence1	MetaGeneAnnotator	CDS	1891465	1892181	.	+	0	ID=MGA_2129;product=cell division protein CdvA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979232.1;translation=MVVSSEILMKFIGQKIKDPYNRDFGYLVHVYTEIDGTVTGIEINQGSTFTTIDPSRVKLDNDSLIILPDWKAAAIRTLTLMEKIRKRQRALDELYSKQEIPKSTYDDMKRKLDSEMLKIKDEYIKIKNSLKNRLNEVEDQLTQIDKAMIAVKMSYISAELSESAYKGSAEILRLAKDSYTLEKDDIRKTLEKLDLLDKEGIDIKTPGQVIGSQDQGTKNDQNKSEIPVPIPVKVINTL;locus_tag=LOCUS_21280;gene=cdvA;note=WP_010979232.1 cell division protein CdvA (Sulfurisphaera) [pid:63.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-85],MGA_2129
sequence1	MetaGeneAnnotator	CDS	1892200	1892970	.	+	0	ID=MGA_2130;product=cell division protein CdvB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979233.1;translation=MLKKLFLSYFNSDKKKKEQLGRLLTEISIKLKDQQTRLDESIRRLKERDKDLFDKVVRAQIDGDIARATIYAQEISDIRKMIKIIYTAYLAIEKVRLKLDTVQELQGVSLVLFPIVKILGELKDQIRGISPEVAIALDSITSSVNSIAIETGMINDKGIMPASVDEQAKKIMEEAQKNAEVKMKELLPDLPHPPSEVPSKAEIKRKLNEKEILNYISTTGGFLDIDFISKTYGVEKQEVFTLLKQMANKGLISLEG;locus_tag=LOCUS_21290;gene=cdvB;note=WP_010979233.1 cell division protein CdvB (Sulfurisphaera) [pid:64.3%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:2.9e-93],MGA_2130
sequence1	MetaGeneAnnotator	CDS	1892973	1894079	.	+	0	ID=MGA_2131;product=cell division protein CdvC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979234.1;translation=MSAQVMLEEMARKYAVLAVKADKDGNSNEAVNYYKKAIEILSQIITLYPDSVAKNAYEQMIKEYKKRIEVLSELVPSSQTQDKETTAELLVKDKPKVSFNDIIGLDDVKETLKEAIIYPSKRPDLFPLGWPRGILLFGPPGCGKTMMAAAVANEIDSNFIQLDAASIMSKWLGEAEKNVAKIFNTAREMSKKENRPSIIFVDELDAILGVFNNEVGGEARVRNQFLKEMDGLLDKSENYKVYVIGATNKPWRLDEPFLRRFQKRIYIPLPDFQERIALLKYYTDKIVTENLNLEEISKATEGYTASDIRDIIQTAHMKVVKEMFEKNLSMPRAVTTNDVMDVLKYRKPSVNQDLVKAYSTWYEKFKAL;locus_tag=LOCUS_21300;gene=cdvC;note=WP_010979234.1 cell division protein CdvC (Sulfurisphaera) [pid:74.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-159],MGA_2131
sequence1	MetaGeneAnnotator	CDS	1894125	1896107	.	-	0	ID=MGA_2132;product=DNA topoisomerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979235.1;translation=MIRGYTLIIAEKPKAAKKIAEAFGSYKQINYRGVKYWQLTYNNENIIIVSAAGHLFGITGPNVFPVYTMEWKPLWEIDKKNLYTKKYINTISYFSKNAEKYINACDYDIEGSVIGFILIEKFGDLKKAKRMKISALTKEEILRSYSSLSELDINMVNAGIARHKVDWLWGINVSRALMISTRSASGKKVILSAGRVQSPSLIQIVNREIERSLYFPYPEFRIKILINLDNKDFYVFLNKKFESIYDAKELVSKLKNDKLIVTSVSSFKTKLSRPSPFNLMDLQLEAGKFFGYSPYKVERLAEELYLEGLISYPRTNSQRIPSTVNLVEIVNGIAKGPFRSILSILNNLTSGKYIVRQGEKDDPAHPAIYPTGYFRKVSKDAYKIYELIVRRFLASISKDAIIQKQNIILKFVKNNVDVSLNLQNILYKGWITIYPYNIKEDELINIKENAEVDVKKITLELSLSKPLPRYNRTSLLKWMESVKIGTEATRGKIIETLFSRKYVEPKGKFIVPTKLGITIAEVLNDYFSELTSIKMTSEMESKLNDIIYGKIKCDDVVNEIKEKIGKYMEEYNKNKEKIGNKISKGLGYLSYNKCKFCDFEEEKDGLCKYHLIALERLKSGLSEWEEKTGYNRKAIVSKLSKSKSTGKLILDLINNNYIMM;locus_tag=LOCUS_21310;EC_number=5.6.2.1;note=WP_010979235.1 DNA topoisomerase I (Sulfurisphaera tokodaii) [pid:53.0%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:1.1e-198],MGA_2132
sequence1	MetaGeneAnnotator	CDS	1896107	1896391	.	-	0	ID=MGA_2133;product=DNA-directed RNA polymerase subunit K;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846508.1;translation=MSESEYITSLNYTFIESWKVRLTLYEKARIISARALQLAMGASPLIDISTLDSKKLNSISIAEEELKRNVLPITVRRRFPNGKTELISVRSLRG;locus_tag=LOCUS_21320;EC_number=2.7.7.6;note=WP_052846508.1 DNA-directed RNA polymerase subunit K (Sulfurisphaera) [pid:70.2%25%2C q_cov:89.4%25%2C s_cov:88.2%25%2C Eval:4.1e-23],MGA_2133
sequence1	MetaGeneAnnotator	CDS	1896429	1897547	.	-	0	ID=MGA_2134;product=alanine--glyoxylate aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979237.1;translation=MLLIPGPVNVPKSVEYEATKVINHRSDTFREVVFKLENTLAKEFNSDRVALLTGSGTLAVESMVYSLLHKDEKTIVFTYGEFSNRLLDSIKRRGAIPIVYRKNFGEGFSIEEVKSAVENNKDADAVALVHNETSTGIAFRDLKTVSKIIKDSGKKLLVDSVSGFGAYELYVNKWKIDAVATGSQKALASLPGMGFVALSSEGISELRSNEIPNYLDLGLSLKFQEKHETPFTPAVGIFFATLRAAELLEMEGIEKRWNRHEACAKYLRNITSKLDFSLFGDDTNFSNTVVAGKTPLPPKIFINELRKRGIEISGGMGELKDKIVRIGILGVVDDRAISRLTIAMSDILRQEVELNIPKECSLPDFLRAEVEW;locus_tag=LOCUS_21330;note=WP_010979237.1 alanine--glyoxylate aminotransferase family protein (Sulfurisphaera tokodaii) [pid:62.8%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:4.3e-129],MGA_2134
sequence1	MetaGeneAnnotator	CDS	1897547	1898524	.	-	0	ID=MGA_2135;product=D-2-hydroxyacid dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979238.1;translation=MGYSMQSEKVNSINKENLQILITDPMNEYMLKSLKEKGFKVTYSPSIEREELLKIIENYDVIVVRSRTKVDKEIIEKGKRLKIIARAGIGLDNIDTDEAENRGIKVVYAPGASTDSAVELTIGLMVAGARNFYTSMNLAKSGIFKKISGIELAGKTLGIIGFGRIGTKVGIIAKSMGMNVLAYDVIDIRKRAEEIGATSVSLDELVRKSDIISVHVTVGKDAKPIIGKDEFEKMKDGVMIVNTSRAVAIDGKALLEYINKNKVLAYAADVFWHEPPKEEWEMELLKHERVTVTTHIGAQTKEAQYRVAVMTTQNLLDALAEIGVK;locus_tag=LOCUS_21340;note=WP_010979238.1 D-2-hydroxyacid dehydrogenase (Sulfurisphaera tokodaii) [pid:74.6%25%2C q_cov:94.5%25%2C s_cov:98.1%25%2C Eval:6.2e-129],MGA_2135
sequence1	MetaGeneAnnotator	CDS	1898707	1899321	.	-	0	ID=MGA_2136;product=N-glycosylase/DNA lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979239.1;translation=MLRNLLKDVKLRARVLERAEEFKLNNLSNENVWFRELVLCILTANSSFISAYNALQNLGDKIFYENKENISLSLKKSGYRFYNIKSYYIVKDRELIYGKLKNTIKNIAETDQLKAREYLLKLYGIGMKEASHFLRNVGYFNLAIIDRHILNFLSDYVEIRNKQLSRSEYIYLESILRSISTYFNLYPGLLDLFIWFKETKMIVK;locus_tag=LOCUS_21350;note=WP_010979239.1 N-glycosylase/DNA lyase (Sulfurisphaera tokodaii) [pid:57.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-58],MGA_2136
sequence1	MetaGeneAnnotator	CDS	1899254	1899760	.	-	0	ID=MGA_2137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEEIKVIEGVSLIAIKKEGETAIDGKEDLDNVFLDNKVVIINTKDGKIINSNLDTSFKFPYPLKVYKVGVPADITSEIVKINYIQVNSDYPIIGIKMDYNKIPFLVLETSEGFRIISKSDMEDTKPVKETKAETKTKKSRSVKKKRAKKSSKRRKVKGKSSRKSRRV;locus_tag=LOCUS_21360;note=MGA_2137
sequence1	MetaGeneAnnotator	CDS	1899907	1900125	.	+	0	ID=MGA_2138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846510.1;translation=MSLRTKGIDAYGHMGWFTVHCRICNRSLRIGIDVVYKCPKCEKKYNAYFCEADKRTLKGKCPYCGSDLVPVI;locus_tag=LOCUS_21370;note=WP_052846510.1 hypothetical protein (Sulfurisphaera) [pid:75.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-30],MGA_2138
sequence1	MetaGeneAnnotator	CDS	1900122	1900412	.	+	0	ID=MGA_2139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015385859.1;translation=MIKQYLIDNKKVFVILNNSTVLYADTDIKTKIVSKENIEYKDVNIPFEYGKIVKIVTCKTSIYTYICNAVALLDNFNDNYMTEIYHSLLKELTKLA;locus_tag=LOCUS_21380;note=WP_015385859.1 hypothetical protein (Sulfolobus acidocaldarius) [pid:33.7%25%2C q_cov:92.7%25%2C s_cov:87.3%25%2C Eval:5.7e-09],MGA_2139
sequence1	MetaGeneAnnotator	CDS	1900376	1900690	.	-	0	ID=MGA_2140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSIFSVDISVMSEPQRIRDVFLGFDNFLEDLCKPLRIGASYICSPSPESLITVFLSDDIKKFLMIIRVESTSATEIIRITEHINNKLKENGIHANLVNSFNKL;locus_tag=LOCUS_21390;note=MGA_2140
sequence1	MetaGeneAnnotator	CDS	1900687	1901064	.	-	0	ID=MGA_2141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979242.1;translation=MVQLVIDNSKSKSGKHVIRTLLYKIDNNIHEEKKFSSKVKPTYTVGEAYLTDIPSKGIYVYITLIKNIYNKVKGKIIVINEGNIVLVLNYRKLKIKKINGDSQFYEHVKRVLDQVKIPVKRANLK;locus_tag=LOCUS_21400;note=WP_010979242.1 hypothetical protein (Sulfurisphaera) [pid:52.8%25%2C q_cov:99.2%25%2C s_cov:97.7%25%2C Eval:2.4e-31],MGA_2141
sequence1	MetaGeneAnnotator	CDS	1901045	1902025	.	-	0	ID=MGA_2142;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979243.1;translation=MDKIAIRGGGVAGSYLANLLQKSNYDVTLFDLKGKYFKPCGDVVPNIYEPKINWNIKYRIKNFAFYLDGEKIYDVRYRHTKWNVIDKSEWINSMLDNIKQKVIGNEKPERERYDIIINAMGPYLMDRKVVYTTRSLVKTEEFNDEAILEFNSKFTGFYWIFPDSEGIYNIGAGFLEYKNSKELLLQYIKSKLKKYEIIDTRGAPITVDLISDKNWKIGEARGLVFPMSGEGIRPSAISAEAAFDALTKGEDFNETLNNKLYKLEKRIKIQYSLLKIYINLNESLRKSMLKVFLRNGILIDAFLEDKIDFEGISESVKAIKDGAISN;locus_tag=LOCUS_21410;note=WP_010979243.1 NAD(P)/FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:62.2%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:8.7e-115],MGA_2142
sequence1	MetaGeneAnnotator	CDS	1902104	1904551	.	+	0	ID=MGA_2143;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979244.1;translation=MSQDEILKKMEEWPKHYEPKEIEQKWQNTWLSKDFWDKVYKFDENSEKPVFYIDTPPPFTSGELHMGHAYWVTIADTIGRFKRLQGYNVLLPQGWDTQGLPTELKVQYKLKIPKENRDLFLQKCVEWTNDMIDKMKKAMIKLGYRPDWEQFEYKTFEHNYRVIIQKSLIDMYNKGIVKIKEGPVYWCPKCETALALSEVGYLEKEGYLVYIGFPLKEGGEIVIATTRPELIGATQAIAVHPNDERYKALVGKVAIIPLFNKEIKIIADEDVEKDFGTGAVMISTYGDPQDIRWKLKYNLPAVELIDNRGRIKGTGIIDGLKVEDARKKIIEILKEKGYVRKIEKIKHNVLSHTERSDCLSPIEFLNKKQIYIDVLPFKEKMLKEYEKMQFKPSRMSYYLQDWIRSLDWDWNISRQRIYGTPLPFWYCDNNHLIPAKEEDLPIDPTKAKPPYEKCPYCGLPLKPVTDVADVWIDSSITVLYLSGFYTDKKRFSKAFPASLRLQGTDIIRTWLFYTFFRTLVLANDVPFKQVLINGQVLGPDGTRMSKSKGNVISPLDRIDEFGADSIRMTLLDAAIGDDFPFKWETVRSKKLLLQKLWNACRLSYPFISNNIEKPENLNILDKWVLAEHKKFIEKCINAYNSYDFFIILQEIYSYFWEIIADEYLELIKYRLFQNDKSAIYTLSRILKDIIIILHPIAPHITEEIYNRLYHIKPSILLENLPNTDDIEIDPEAEKIGNNVKKLNSMIRSAKINSRLSMNTYINAKIYGNRNFIEDIKKAEDDIKKTLKIDNIEYIENSEEKVEIEKSDHGSSNHQS;locus_tag=LOCUS_21420;EC_number=6.1.1.9;note=WP_010979244.1 valine--tRNA ligase (Sulfurisphaera tokodaii) [pid:73.7%25%2C q_cov:98.5%25%2C s_cov:99.6%25%2C Eval:0.0e+00],MGA_2143
sequence1	MetaGeneAnnotator	CDS	1904542	1905747	.	-	0	ID=MGA_2144;product=pyridoxal phosphate-dependent aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979245.1;translation=MQNFATSLGNLSGESTLLYQEIARKIEKEKGIKTINFGIGQPDVVTFSKIREAAKQALDQGFTAYTPALGIDDLRQKIAVELSEKYGNIKKEEIAITPGAKTALFVSFLLYINPGDEVILIDPAFYSYSEVIKLLGGKPVYAELRFSESEGFSIDIEKISKLINKKTKMIVLNNPHNPTGMVFRSKEIIKLQEIIKENKIILLSDEIYDHFIYEGEMRSVLQDPDWRDYVIYINGFSKTFSMTGWRLGYIAAKKEIIDKIGILASNIYTCATSFVQKAALEAFNTYDDVKNMIELFRRRRDIMYSELKKIKEFKIYKSPGTFYMFPEVSNILKKWNFDTKSLAIKLIEEAGVITVPGEVFPLNGGKQFLRMSFAIGEDKIKEGINRIKNVIEEVDEKSTHD;locus_tag=LOCUS_21430;note=WP_010979245.1 pyridoxal phosphate-dependent aminotransferase (Sulfurisphaera tokodaii) [pid:63.5%25%2C q_cov:97.8%25%2C s_cov:98.2%25%2C Eval:1.2e-151],MGA_2144
sequence1	MetaGeneAnnotator	CDS	1905761	1906507	.	-	0	ID=MGA_2145;product=indole-3-glycerol phosphate synthase TrpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979246.1;translation=MPRYLSGWLKEVVDNALNRPYISMQRSRPIYSLYESILNAKEKKRTAIIAEYKTRSPSGFFAERDAIEYAKLMEENGAIGLSVLTEDKFFGGSYENLRNIANTVKISILMKDFVVTERQIDTAYNLGADSVLLIVRILTERELINLLDYARSYKLEPLVEVHDIDDLEIALNSGAKIIGINSRNLSTLELKLQNVKEILPLVPNDKLKVAESGISSREDIEDLKKSGADAFLIGTLLMKEPAKIKELL;locus_tag=LOCUS_21440;gene=trpC;EC_number=4.1.1.48;note=WP_010979246.1 indole-3-glycerol phosphate synthase TrpC (Sulfurisphaera tokodaii) [pid:62.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.4e-81],MGA_2145
sequence1	MetaGeneAnnotator	CDS	1906511	1907092	.	-	0	ID=MGA_2146;product=aminodeoxychorismate/anthranilate synthase component II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979247.1;translation=MDITLIIDNYDSFVYNIAQSVGELGTYPIVIRNDEITLSGVERMNPDRIIISPGPGSPDKKEDIGIVIDVIRNLGKKIPILGICLGHQAIGYAFGARIRRARKVFHGKVSNILHNSNTSLYFAIPQEFKATRYHSLVIDDVKYPLIIDAISKEDNEIMAIHHSDLRIYGVQFHPESIGTAVGQKIFYNFLNRV;locus_tag=LOCUS_21450;note=WP_010979247.1 aminodeoxychorismate/anthranilate synthase component II (Sulfurisphaera) [pid:78.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-86],MGA_2146
sequence1	MetaGeneAnnotator	CDS	1907094	1908353	.	-	0	ID=MGA_2147;product=anthranilate synthase component I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979248.1;translation=MEVYPITSFAQPYEVFKCIESSEKYAALLESVSGPQNMSRYSIIAWGAKNYINVHASENFEDKVAKNITPTNYEFNPRFLGNLIGYISYDVIRQWERVKDLKPSSEDWPYAEFFLPENVIVFDHNSGKVYVEGDLKSYNCGEMEDLKVNFYDESMKKQEFENGVNKILEYIRAGYAFQVVLSRFYRYAFKGDIMKLYYNLRKINPSPYMFYLKFDKRKLIGSSPELLFSLQNDIAETYPIAGTRPRGSSKEEDLSLEQELISSEKERSEHLMLVDLARNDLGKVSVPGTVKVPEFMYVEKYSHVQHIVSKVIGTIRKNYTVLDVLKAMFPAGTVSGAPKPMAMNIIEELEPYKRGPYAGVVGTLSQNFGEFAISIRTAFINDDIIRIQAGAGIVYDSIPEMEYLETEHKMKALLAALGK;locus_tag=LOCUS_21460;note=WP_010979248.1 anthranilate synthase component I (Sulfurisphaera tokodaii) [pid:64.3%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:6.8e-158],MGA_2147
sequence1	MetaGeneAnnotator	CDS	1908335	1908940	.	-	0	ID=MGA_2148;product=phosphoribosylanthranilate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846512.1;translation=MSTKIKICGISTLKDIIEISNMDVDMLGIVSEKNSPRFAKSQFLEIAKHFSTKPIVYVRANGKICDIIKDGEKADIIQIHRILEDNELDELTTYNRKFILYVPGDEKYEKYIDKVYKVTDLALLDSPRKGEKLNLSYARKVLNNYPDLGIAGGINPSNIKNYIELNPAWIDISSGVESFPGKKDLDKIKTIIGVLKWKYIQ;locus_tag=LOCUS_21470;note=WP_052846512.1 phosphoribosylanthranilate isomerase (Sulfurisphaera tokodaii) [pid:46.7%25%2C q_cov:98.0%25%2C s_cov:98.5%25%2C Eval:3.8e-46],MGA_2148
sequence1	MetaGeneAnnotator	CDS	1908924	1909970	.	-	0	ID=MGA_2149;product=anthranilate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979250.1;translation=MSSKELLNKVTEKLDLEETEAEEIANSIMSGSMPEILSAAFLSALKTKGESVSEISGFAKSMRSHALKVYLGDAIDTAGTGGDGYGTVNVSTISAILVSQIYPVIKHGNRAASSKSGSADLLETLGYNISITPEKAKLLFDKYKFVFLFAQLYHPAMKNVANIRKTLGIRTIFNILGPLTNPAGIKKQIIGVFSRAYLEKIIAAGLSLGYDRLLLVHGEPGIDEVSPCGNTYVYELKGNKIESYIVNYSEFLKEKISIDKIIVKDSKDSAIRILRAINNKDEYIKNFIKINSAFALYVTGVTKDLYDSYELSSQLFETVFRKIYEIIEGNGDISKLRSLMVEAGVNKD;locus_tag=LOCUS_21480;gene=trpD;EC_number=2.4.2.18;note=WP_010979250.1 anthranilate phosphoribosyltransferase (Sulfurisphaera) [pid:52.8%25%2C q_cov:97.7%25%2C s_cov:98.8%25%2C Eval:8.3e-95],MGA_2149
sequence1	MetaGeneAnnotator	CDS	1909960	1910694	.	-	0	ID=MGA_2150;product=tryptophan synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979251.1;translation=MSKWLVSYLTLGYPNNKDFLEFMQSSVKEGSDILEIGMKPKYAKYDGPVIRRSYKAVNLSEEETWKLLKETREKIDVPIVILTYLEDWLPSLDTFLEKLHNIGIDGILFPDLLIDFVDEYEKYVNKIREKGLKAVIFTAPSVPDTMIHNVSKNSDMFLYYGVRPTTGVPIPVSVDSLITRVRTLVENKLVVGFGLSDVNDMRKALRAGADGIAIGTAYIEEIEKNGINSAISLVKYFRGVLNEF;locus_tag=LOCUS_21490;gene=trpA;EC_number=4.2.1.20;note=WP_010979251.1 tryptophan synthase subunit alpha (Sulfurisphaera tokodaii) [pid:68.0%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:1.6e-93],MGA_2150
sequence1	MetaGeneAnnotator	CDS	1910691	1911968	.	-	0	ID=MGA_2151;product=TrpB-like pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979252.1;translation=MVEKEREEILPKYWYNIIPDLPKPLPPPRDPQDADFSRIDLLRKIMPKEVLRQQFTVERFIKIPEEVRDAYLNLGRPTPLLRAKRLEEMLNTPAKIYFKFEGATPTGSHKINTALPQVYFSKEEGITHVVTETGAGQWGTAVALAARMFDISATVFMVKVSYQQKPQRRTIMQLYGSDVYASPTDITDFGKKILSENKDHPGSLGIAMSEAIEYALKNEYKYLVGSVLDVAILHQSIIGQEAMRQMDEIGEEPDILIGCVGGGSNFGGFAFPFLGAKKGEKYIAVGSYEIPKFSKGDYMYDYPDSAGMLPLVKMITLGKDYVPPPIYAGGLRYHGAAPSLSLLIREKMIEWREYSEPEIFEAAKIFMQAQGIVPAPESAHAIKAVIDEALEAKKNNEKKVIVFNLSGHGLLDLPNYELMLNRSQK;locus_tag=LOCUS_21500;note=WP_010979252.1 TrpB-like pyridoxal phosphate-dependent enzyme (Sulfurisphaera tokodaii) [pid:75.7%25%2C q_cov:98.6%25%2C s_cov:99.3%25%2C Eval:3.1e-190],MGA_2151
sequence1	MetaGeneAnnotator	CDS	1912019	1912291	.	-	0	ID=MGA_2152;product=acylphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979253.1;translation=MLKRMYVRIFGIVQGVGFRRYIQINAIRLGIKGYAKNLPDGSVEVVAEGYDESLNKLLDIIRKGPPLSKVENIEYKLEEYKGEFSSFDTY;locus_tag=LOCUS_21510;note=WP_010979253.1 acylphosphatase (Sulfurisphaera tokodaii) [pid:76.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-37],MGA_2152
sequence1	MetaGeneAnnotator	CDS	1912384	1913460	.	+	0	ID=MGA_2153;product=inositol-3-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979254.1;translation=MIKVAIAGLGNCASMLIQGIYYYRQKGRNYIDGLITPFIGNYSVSDIEIVAGFDISKNKIGKDLSEAIFERPNITPKIIDMEKTGIKVKKGPLLDGVAPHMQNVFNPEDSGREEDVVQELKDSKADILINMLPVGSEKASRAYAKAALDANIAFINAIPVFIASDPTGEFPRLFKEKNLPIAGDDIKGQVGATIFHRSITSLFRMRGVKVEETYQLNVGGNTDFLNMKTEERLYSKRISKTKAVTSTLDDPEEIESEGKIRIGPSDYIPFLGNTKVAYVYVKGYGFAGMPIKVEASLEVDDKSNCAAVLVDVIRAVKLALDRKIGGPLTQVSAFYFKHPPTQAKDDEEAYRWFKDFIM;locus_tag=LOCUS_21520;note=WP_010979254.1 inositol-3-phosphate synthase (Sulfurisphaera tokodaii) [pid:82.4%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:3.0e-172],MGA_2153
sequence1	MetaGeneAnnotator	CDS	1913417	1913716	.	+	0	ID=MGA_2154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846513.1;translation=MMKKHTDGLKTSLCEICEEKEANYVCRLCKRKVCENDFNKEKGICKVCEMSICEICNENLSIGYCEICGRLICEKCTAYSNGTSRICVECISKINKGKN;locus_tag=LOCUS_21530;note=WP_052846513.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:67.8%25%2C q_cov:89.9%25%2C s_cov:95.7%25%2C Eval:2.1e-32],MGA_2154
sequence1	MetaGeneAnnotator	CDS	1913722	1915998	.	-	0	ID=MGA_2155;product=pyruvate%2C water dikinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846514.1;translation=MIELAGGKGANLGELVSFDIRVPPGFVITSKAYYYFISYNSIHEKINEILVQEKDSEVASSKIKEIILSSPIPKDLEEAILSTYDELANKIGKEILVAVRSSATAEDLANASFAGQQDTYLNVRRNELLNKIKEVWASLFNARAIEYRLAKGIDSTKVGIAVIIQKMVNSRSAGVMFTLHPATGDTNYIVIESSWGLGETVVGGKVTPDEIVIEKSTLKIVEKKTSHKNIKIFYDPNENTNKEVTLGKEADEISINDNEAIELAKLALKIEKHYERAMDIEWAIDSDLSFPDNVFIVQARPETFWSSRKPQTTQTTKEIGERKILVKGLAASPGIASGKARVILEVKDAKDFQKGDILVTRMTDPDWVPVMKIASGIVTDEGGITSHAAIVSRELGIPAIVGTKEGTKVIKDGEEITVDATRGVVYEGRIIEEKKEEKATESVQGLSRDTLLSLYPITGTKIYMNLGQPDIVEKYVDLPFDGIGLMRIEFIVSEWVKYHPLYLIKTGKPEEFVNKLADGVAKVASAIYPRPVVVRFSDFKTNEYRGLIGGEEFEPEERNPMLGWRGVSRYISSQYEPAFRLEVKAIRKVREEMGLKNVWVMFPFVRTVPELKKAIKIMEDEGLERGSDFKVWIMAEVPSVIILADEFSKIIDGFSIGSNDLAQLTLGVDRDSEILGRMGYYDERNPAVLRSMRNLIKTAHKYGKTVSICGQAPSVYPEVAEFLVKSGIDSISVNPDTVIYTRRLVASVEQKLILNKSR;locus_tag=LOCUS_21540;gene=ppsA;EC_number=2.7.9.2;note=WP_052846514.1 pyruvate%2C water dikinase (Sulfurisphaera tokodaii) [pid:74.8%25%2C q_cov:100.0%25%2C s_cov:97.2%25%2C Eval:0.0e+00],MGA_2155
sequence1	MetaGeneAnnotator	CDS	1916174	1916833	.	-	0	ID=MGA_2156;product=cell division protein CdvB1/B2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979256.1;translation=MANKVEEFVKGWNGKQEQSLAEKLKGAFKTQQPLRYKLVMAHYKLKSTISRLDVYISKMQERDRTLFERVVEAQMSKDSARASMYANEISEIRKVTKQLIATEIALEQVELRLETVTELGDVFTNLIPVIGVVKELRTSMHGMMPELSLELADVEEGLQEVVIEAGDFTGGNIEQAPSSPEARKILAEASTIAEQRMKENFPELPSFVTSAQKANAPQK;locus_tag=LOCUS_21550;gene=cdvB1/B2;note=WP_010979256.1 cell division protein CdvB1/B2 (Sulfurisphaera tokodaii) [pid:74.5%25%2C q_cov:98.2%25%2C s_cov:98.6%25%2C Eval:8.1e-88],MGA_2156
sequence1	MetaGeneAnnotator	CDS	1916909	1917193	.	+	0	ID=MGA_2157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTKFSVKLLGGRLILENISGRKLLIREIILRYKVSTITPEKEVGLKTISDEIRMEKEIENNSKVEIPLTINDVVEISIIYKDGDFTLREDISL;locus_tag=LOCUS_21560;note=MGA_2157
sequence1	MetaGeneAnnotator	CDS	1917165	1918607	.	-	0	ID=MGA_2158;product=UbiD family decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846942.1;translation=MAFKDLRDYIKFMESRNKIIHIEDEVDPILEIAEISRRCTYLGLPPLIFDNIKNFKNWKIITNVFGSINNVYDVFGTNNLESITESFLSNLNNLPINFFDKIRSLPDMMQMGKYLPKSKKPDFKDSSITFNEIPALKTWPKDAGRYLTYSIIITKDPSGVNNLSVYRVQILNDKEAIIHWQAFKRGALTAMKYKESGINKIPIAIVNGVDPVIAFTAASPVPPGLDKYLFAGILRGEGVDVHELDNGILVPSHAESVLEGYVDLNDLRLEGPFGDHLGYYTPQDYYPVFKLEKSFTRERPIFHATSVGKPPLEDAWIGKAVERLFLPFLKMIIPDLVDMNLPEYGLFTGIGIFSIKKYYPGQARRVMMALWGNGQLSLLKMIIIVDSDVNIHDVNQVIYAIASTVDPSRDVIVISNALTDSLDHTTLYPPLGSKIGIDATRKFKEELGREWPEELKSDENIVKKISPIIEKIIRKYPPSK;locus_tag=LOCUS_21570;note=WP_052846942.1 UbiD family decarboxylase (Sulfurisphaera tokodaii) [pid:73.0%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.4e-213],MGA_2158
sequence1	MetaGeneAnnotator	CDS	1918702	1919886	.	+	0	ID=MGA_2159;product=threonine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979259.1;translation=MKCLNCGYETSLDQHNITCPKCGGILEIIIELKNFTFNNLKGRGVWRYKDAIPGNYTKIVSMNEGGTPLIKTKEEGKEIYYKFEGANPTGSFKDRGMTVAVSSALNTNYKVVVAASTGNTAASAAAYAARSGLKIFLVLPKGKVALGKLAQSILYGANIIEVNGSFDVAMNSVLKMYKDLGIVYPLNSFNPWRLEGQKTIAYEIAEEIGVPDSIIVPVGNAGNIYAIWKGFKELMENGSINKIPRMIGIQAEGASPIAKAIAKGSELPVFTNNPETIATAIRIGKPVNWIKAMKAIHNSNGTALCVSDNEIIEAQKELARKEGIGAEPASAAALAGYKKALHEGIINEKEKTVLILTGHALKDPDSMLRINTKIMSLNPEEIEKNVLGEINVNN;locus_tag=LOCUS_21580;gene=thrC;EC_number=4.2.3.1;note=WP_010979259.1 threonine synthase (Sulfurisphaera tokodaii) [pid:64.7%25%2C q_cov:99.0%25%2C s_cov:98.7%25%2C Eval:1.6e-145],MGA_2159
sequence1	MetaGeneAnnotator	CDS	1919873	1921207	.	+	0	ID=MGA_2160;product=aspartate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979260.1;translation=MLIIKIGGSIQKDEKDFNLIIQKIEKYLENTDKAIIVTSALKGVTNQLLYATENREKAVEIVSDVYDKHIKLLSKIAEGPSFEFAFREISKLADELFKIAWSIRVLDEVTPRVKDYILSFGERMSTLVLNAVLNSSRINSEAYPEPPIITDENFGDAKVIEKLSLQESSKILEKKSKVIIVPGFIGKTQTNKYTTLGRGGSDYTATILGKLLDIKEVRLITEVPGIMTADPRNFPNATTIKRLSLEEAIELSQMGAKRLHPRTFEPLLNSNVNVIIEGLYDPGYTIVRGDCDNDKGIKGIAVLDNLKLVTAESTDIVGKIGSAARVMNEAKNSGVNIISISQPASETTIQLIVNSQDSEKLSERLMTLPEIESVTTEDVEAVNVVGCGLKYKEIFKEVMKEISNYEILSISRGLNNVSATFIVKKEEGDKLAKDLHEVVLKWTN;locus_tag=LOCUS_21590;note=WP_010979260.1 aspartate kinase (Sulfurisphaera tokodaii) [pid:59.4%25%2C q_cov:99.5%25%2C s_cov:99.3%25%2C Eval:3.3e-150],MGA_2160
sequence1	MetaGeneAnnotator	CDS	1921195	1922241	.	+	0	ID=MGA_2161;product=aspartate-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979261.1;translation=MDKLRVSLLGSTGMVGQKMVKLLSKHPYIELTKISASPSKIGKKYSEAVKWVEGGEIPDNVRELKLVSTLPEDHKDVDVVLSALPNELAEDIELKLVREGKIVVSNASPYRMDPEVPLINPEINWEHLELLKSQKSKRNWKGLLIKNPNCTASILSLPLKPLLRDVKMNKILITTLQAVSGAGYNGLSFMSIENNIIPYIKGEEEKIPKEINKMLGIINTDKLIEANLDANVTSIRVPTKVGHMGIINIMTDENKVDEIKKSLKYFKSLPQEKNLPTAPKSPIVVMDQEDRPQPEIDLKSGNGMETYVGRIKYSDGILRMIVLGDNLIRGAAGITILTVEVMKELGYI;locus_tag=LOCUS_21600;gene=asd;EC_number=1.2.1.11;note=WP_010979261.1 aspartate-semialdehyde dehydrogenase (Sulfurisphaera tokodaii) [pid:70.4%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:1.7e-143],MGA_2161
sequence1	MetaGeneAnnotator	CDS	1922238	1922894	.	+	0	ID=MGA_2162;product=PHP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979262.1;translation=MKIDFHTHTCYSDGKETPENLVKYAEKRGIFLAITDHDNSNGIKHVLGKVIPGQEVTTQYGHVVIICNFIPHPPKDIHELIDYSKENSCIVFPSHPFDIFRKGIGNHLFDYKFDAIEIFNSKAPKNANNKAEEVSKKLNLPGLSNSDGHVKEAIGSAYNEFDINELKIDDIFDLLIGKKFKPIKVGLTKTAKLKIIEWHIQRKLFEKNTCRTMYQMQG;locus_tag=LOCUS_21610;note=WP_010979262.1 PHP domain-containing protein (Sulfurisphaera tokodaii) [pid:57.9%25%2C q_cov:99.1%25%2C s_cov:99.5%25%2C Eval:9.2e-68],MGA_2162
sequence1	MetaGeneAnnotator	CDS	1922851	1924074	.	+	0	ID=MGA_2163;product=Nre family DNA repair protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846515.1;translation=MRRIPAELCIKCKGSKLLCGLRTCPILERFRAIVNTSLKIDLEKESIEGATPPSVVVGEKNYPKVTISFNVPPQVYGEEAKEYENPRGWWGRKSIYEIIDYRSSLVSNLLKTKADDVWKLYEKELPLTAVSYSPVGAESKLEGKIEAKLRFNGYIMPRGPSANIKDFKIVDNPKISKVMDKIIFDDVKAQDAIRELYTSGEDIYNIINAMSLGLIGKKKNRKLVPTRWAITAVDTTIGRDILNKIKTYQSISEIQVFYQKYLGNYFHIILYPSNYNIIWIEIWHPLTLWSNELIISELKENYWGEYDFLDGGYIAARTSILEYLEKVRKSAGIVIIREITSEYFAPLGNWHIRETVKNAMDNKIGKFENIESAIQFIQNRLNGKIDLFKVKSIHDLIKQKTIDSFFR;locus_tag=LOCUS_21620;note=WP_052846515.1 Nre family DNA repair protein (Sulfurisphaera tokodaii) [pid:60.6%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.7e-145],MGA_2163
sequence1	MetaGeneAnnotator	CDS	1924067	1924924	.	-	0	ID=MGA_2164;product=ornithine carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979264.1;translation=MEVSFLMKDNVYSNSIPKSLEGKRISLIFEKPSTRTRVSSETAISLLGGVPIVMNKNDIQWSRGEPVEDTARVLGRMVNGIGARVLNHETLIKLSNFSGLPTFNLLSDLSHPLQALADYMTIKEKFGEYKTIAFVGDGSDNVLVSLMAFAAKLGLEIRVGTPKLLRPREDIWKRIEEEAENSGAIIEFYDDPYEAVRGSFAVYTDVWVSMGQEEIASKKREMLKDYKVTEDLMKYTAKGGIFMHCLPAVRGEEVEGSVIDGNKSAVWDQAENRLYTAMSVFSLFI;locus_tag=LOCUS_21630;gene=argF;EC_number=2.1.3.3;note=WP_010979264.1 ornithine carbamoyltransferase (Sulfurisphaera tokodaii) [pid:74.0%25%2C q_cov:100.0%25%2C s_cov:93.1%25%2C Eval:5.2e-118],MGA_2164
sequence1	MetaGeneAnnotator	CDS	1925016	1925639	.	+	0	ID=MGA_2165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979265.1;translation=MDLMKVIEEAVKPKQGNKPKYEEPHVILALETINKEQPIGRLSLMKKLNLSEAPIKTLLKRLREIGIIKVDKVGGAELTEEGKNLVDEWNNKIFISHVNLNSIKWKSIEIILKNGRNILDKIGVIPLRDSIIKTGADSVLIAILTDKGIELPPKTDELSIGDLLNEIKNNCTFCNKNDLIVFIIPEDNYIAYKVALLLIKYESGISS;locus_tag=LOCUS_21640;note=WP_010979265.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:46.3%25%2C q_cov:96.1%25%2C s_cov:98.5%25%2C Eval:3.2e-43],MGA_2165
sequence1	MetaGeneAnnotator	CDS	1925617	1926672	.	+	0	ID=MGA_2166;product=ATP-NAD kinase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979266.1;translation=MKVGFLVNPYAGSGGRLGKKGSDNIYIENPEIPIRVKRFINNLPSTITYFTPRFKMGEIYFTNSLIRPFVINCGKERSTREDTIASVKIMQELGVDIIVFVGGDGTARDIAGSLNKQIPILGVPAGVKMHSGVFASTPEAAAKILTDFNDGRAKIVKAEVLDIDEEEYRKGIFYVKLYYVVNSVSSGNLLTPGKEEYNYSTDDISEYIIENMNNDTYYILGPGKTVKDIEEKLGYSPNFLSTDVFLGKKLLLSNVSYFDLLKITGELKLILTPIGGQGFLIGRGNQEIGPSILRKIGKNNIIVVSSIEKLRKIECLRIDTGDLEVDNMLQGVYKVVVGYNEFMAIRTCSNT;locus_tag=LOCUS_21650;note=WP_010979266.1 ATP-NAD kinase family protein (Sulfurisphaera tokodaii) [pid:57.7%25%2C q_cov:99.7%25%2C s_cov:97.0%25%2C Eval:6.4e-111],MGA_2166
sequence1	MetaGeneAnnotator	CDS	1926748	1927467	.	+	0	ID=MGA_2167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846943.1;translation=MKGDDDINEIAEEITKQYLKGSPRSKLVEAVIVLLHARPLRTSEIASNLGYETKYISSYLSYWKRKGLVYQEGGRWYLSPDGENLAKSIVDSYSNSRFREMLVIAKQVLEPVNQSINNNNSQKDTKNGKEVLSFIDSKTSNKINKRQDRDITVCISEILEKLDADERDILIFLVNRYKQWQSTYIYIDQLQEEYKADSTWLFKVLRNLQTKRIIYLYNDPRLGFRIGFSQSFKRRIENC;locus_tag=LOCUS_21660;note=WP_052846943.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:61.6%25%2C q_cov:98.7%25%2C s_cov:98.3%25%2C Eval:2.5e-80],MGA_2167
sequence1	MetaGeneAnnotator	CDS	1927857	1928186	.	+	0	ID=MGA_2168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846516.1;translation=MLSSNKSVKMSEDEIDQALAKAEKEAEKKDHKKIWIDKMIKSAKTYYKVCPYYDKKTSKCFLDLANKCTREGRYENCPVFMGFLDNKYQDLTSKKKILPLDFLDLAQTT;locus_tag=LOCUS_21670;note=WP_052846516.1 hypothetical protein (Sulfurisphaera) [pid:68.5%25%2C q_cov:98.2%25%2C s_cov:98.2%25%2C Eval:3.6e-40],MGA_2168
sequence1	MetaGeneAnnotator	CDS	1928197	1928982	.	+	0	ID=MGA_2169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979269.1;translation=MPKKKKNEDKAKSEKSKKKSSSKEKFIDPEKLLDEYLDEAIVSLNISYLGLDRDEYKELIKEPFTAAVGQVKSKPKLSTILNRLLANRDGLMEFLAIKLAKIKEISTMNDSQLEFLVYNTKKAIISLIQPLYHEVLKRNRSDLMDILRYNWDLYGIRSPIKCSKCGFNSIMPDFSCKVCGYVMSMKEVKSQIDVINILKDLSNIDPESFKEILSAGYFYYTAEGPIAPSKLKPEPGYLFFEIILNSNEKKTLSSIHSTQQT;locus_tag=LOCUS_21680;note=WP_010979269.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:57.1%25%2C q_cov:92.0%25%2C s_cov:89.8%25%2C Eval:3.3e-76],MGA_2169
sequence1	MetaGeneAnnotator	CDS	1928933	1929640	.	-	0	ID=MGA_2170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979270.1;translation=MIEVLCVKCNRNPAEVSVSGKLLCKQCARNEIIKRIRRELSETRFLNREDKVILIYPDFYENVANLIKNIILKICKDCKLDFEETKVEFKSMEINYDLWRFFTNIMKLDANKIILPFTADFFLSYMIYSISTSNYGFLSYYGLTSIFNQKIFFIPLYNTPLKELKGFNEITGELNTNDPLLNEILKWSSMEFSDNEIFHTFENSLIVFKNNRCKICGAYIKSAEYCEYCLRSFSH;locus_tag=LOCUS_21690;note=WP_010979270.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:39.4%25%2C q_cov:95.7%25%2C s_cov:94.5%25%2C Eval:7.3e-45],MGA_2170
sequence1	MetaGeneAnnotator	CDS	1929733	1931424	.	+	0	ID=MGA_2171;product=thermosome subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846517.1;translation=MSSGVPVLLFKEGTSRNSGRDALKNNILAARTLAEMLRSSLGPKGLDKMLIDSFGDVTITNDGATIVKEMEIQHPAAKLLVEAAKAQDSEVGDGTTSAVVLAGLFLEKAESLVDQNIHPTIIIEGFKKAFNKSLELLPQLATKVDVSDLNSATARDALKKIVYTTMSSKFMAEGEELNKIMDIVIDAVTTVAEPLPDGGYNVSLDLIKIDKKKGGTIEDSQLIRGIVLDKEVVHAGMPRRVEKAKIAVLDASLEVEKPEISAKISITSPDQIKAFLDEEAKYLKDMVDKLASIGANVVICQKGIDDIAQHFLAKRGILAVRRVKRSDIEKLEKALGARIISSIKDATPEDLGYAELVEERKVGNDKMVFIEGAKNPKAVNILLRGSNDMALDEAERSINDALYSLRNILMEPYIVPGGGAIELELSARLREYARSVGGKEQLAIEAYADALEEIPMILAETAGLEPISALMDLRARHAKGLTNCGVDVINGKIIDDIYSINVVEPIRVTRQVLKSATEAATSIMKIDDLIAASQLKSSGKGAGAGAGGEGAEGGGAPSMEGLS;locus_tag=LOCUS_21700;gene=thsA;note=WP_052846517.1 thermosome subunit alpha (Sulfurisphaera tokodaii) [pid:85.2%25%2C q_cov:93.8%25%2C s_cov:94.5%25%2C Eval:2.1e-253],MGA_2171
sequence1	MetaGeneAnnotator	CDS	1931443	1931796	.	-	0	ID=MGA_2172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846518.1;translation=MEQPDFLRHVASKVLTPNNLDLKRLDDVRRLLAYAESKYKFSSYGGDPKKITDYLLSPDFTELELVIGVELAKKLLQEIINSYNDENIKKAAEKVLQEIDGYKDMEDSDAVVMYKKY;locus_tag=LOCUS_21710;note=WP_052846518.1 hypothetical protein (Sulfurisphaera) [pid:54.8%25%2C q_cov:98.3%25%2C s_cov:100.0%25%2C Eval:2.8e-32],MGA_2172
sequence1	MetaGeneAnnotator	CDS	1931909	1932220	.	+	0	ID=MGA_2173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979274.1;translation=MLSMSVRKRKKRADSEETEEVENKLKVVYSDKDVVVMTAPNEEELKQILLDLLTEKPMNLKELHSKLSGIASEDKIRRALASLSEKGQVTLLEDGKYAKLGTE;locus_tag=LOCUS_21720;note=WP_010979274.1 hypothetical protein (Sulfurisphaera) [pid:70.3%25%2C q_cov:98.1%25%2C s_cov:100.0%25%2C Eval:2.3e-34],MGA_2173
sequence1	MetaGeneAnnotator	CDS	1932224	1932556	.	-	0	ID=MGA_2174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979275.1;translation=MSPMLESPTDTIVSPSRCFKTFKGCRYFVDKNEEKEGLEVFNEKIDQEIKFYPEVNILSEKIDSSCEYFQLMKIESGFIAYCKILGRIITSANANLCSKYWQKCPIRESK;locus_tag=LOCUS_21730;note=WP_010979275.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:50.9%25%2C q_cov:94.5%25%2C s_cov:97.2%25%2C Eval:4.4e-30],MGA_2174
sequence1	MetaGeneAnnotator	CDS	1932588	1932791	.	-	0	ID=MGA_2175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979276.1;translation=MKIAEVLVVEDFSGKKINEEKVKEAIMEMKKNNVENVIVSTIHIPKWDTEDNDILGIHVIVREVAET;locus_tag=LOCUS_21740;note=WP_010979276.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:48.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-10],MGA_2175
sequence1	MetaGeneAnnotator	CDS	1932845	1934707	.	+	0	ID=MGA_2176;product=arginine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979277.1;translation=MNIIREAKKEASQIISKAIGINEDIILNNIEYPPKGDLGDLALPLPSVTKNFNVNVTGKGYYIKNIERSGVFINIFLDESKIFTTIFSNFDEKYGIEKSENPKKIVVEHTSANPIHPLHIGHLRNSILGDTLVRLLRARGHDVNSRFYVNDSGRQVAILIYGLSKLNYPEPPSNIKKDEWLGLIYAMTNVIIEIKKITDELKNSGENEYKEKISKRDELVATANELRERNQEYFDILTENIMKDIDPEKEILEIIKKYETGDANTKVIVRKYVSYAIDGFLESLDRLHISFDVFDYESDILWSGEVKQILNIALDSPAKINYKGTWALDLQNFIDDKTREELNIPKDLELPPLVLMRSDGTTLYTLRDVAYTFRKFSDFKADIVINVIAEQQYMPQIQLRASLYILGYPEYARNLLHYSYGMVNLQGMRMSGRLGKYISLDDIYDKVKEVVETKIKEKKGNVENLNEIVNSAIRYAIVSVSANKPISFNISKITNLEENSGPYLQYTYARAYNILSKVNEKLDLSKADLNELSGDKRKILIMISKFPEIFGKAADDMKPEILAIYLRQFSDLFNSWYDKERVLQETDENKRTTRIYLVKGVEGVLRNGLEILGITPLSRM;locus_tag=LOCUS_21750;EC_number=6.1.1.19;note=WP_010979277.1 arginine--tRNA ligase (Sulfurisphaera tokodaii) [pid:56.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-200],MGA_2176
sequence1	Aragorn:1.2.38	tRNA	1934709	1934785	.	+	.	ID=Aragorn_28;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00280;note=Aragorn_28
sequence1	MetaGeneAnnotator	CDS	1934960	1937458	.	+	0	ID=MGA_2177;product=adenosylcobalamin-dependent ribonucleoside-diphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979278.1;translation=MVQMQASASILSLNKISVIKRDGNKEEFKLEKILSKLGFIPDKVMEGITNDVMQIAKDNIIDSRTLADIVERNLIENSLEYPELLDLAKRFVLSRIYNHVYGKGKWKDFDQKDLLLSYNALKVLEARYLLKDPNTLRYIETPQMMFRRVAKFLSNVEKIYGKSEEEIHHIEEKFYEKMSELKFLPNTPTLMNSGTRLGILSACFVLPVKDSMTTSQGDGIYDTLRAMALVHQQGGGTGFDFSELRPKGDIVASTAGVASGPVSFMKIFDVSTDVVKQGGKRRGANMGVMHVWHSDIEDFIHAKTGQLKDVQLQNFNISVGVYDYFMDKVEKGEEVPLITPRKTKIPGTDHDYYIVKARNYMNEEWVQEEILSELEEKGSVYLDESKIVTVDEALYIAEKEGAIIRWINARTIFDEIVKGAWDGGDPGLLFIDEINRRHPVWYLGKIQATNPCGEEPLLSWESCNLGSINLEKFVKGEEKVYVDWDGLADTIKYAVRLLDNVIDANRYPLKQVEDGTKRTRKVGLGVMGLARMLIKLGIPYDSVDAVYFSYQLSKFIYYHAFKASIELAREKGSFPAYDPTRYREIWDSSRPFDYLLSVTGINETPSTRIKELTKIVDSLDFSALKKDRITFGLRNSTVVSIAPTGTISIIAGTSSSIEPLFALAFIRNVAVGKFMEIDPLFLDYLRRYELDNSEVVKKVAETGTVAENPFMPSTIRKLFRTAHEVSPEFHVLHQAAWQQWNDSGTSKTINLRTEEPPETVEKVYMIAWKLGIKGITIYRDKSKSQQVIYFGIKKEREEKEKRQQLIPSGMRLEKKYVEVSENYAGGCKTCEL;locus_tag=LOCUS_21760;EC_number=1.17.4.1;note=WP_010979278.1 adenosylcobalamin-dependent ribonucleoside-diphosphate reductase (Sulfurisphaera tokodaii) [pid:77.7%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_2177
sequence1	MetaGeneAnnotator	CDS	1937514	1937885	.	+	0	ID=MGA_2178;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846519.1;translation=MSISLPCEFSVKELLPAIRSIIAVKLVKEKGMPIYRASNLMGITPAAVANYMTKKRGVAIRDLIESDERVMSLINDLVDKLAANNADNLSSYYCILCSEGKRALKKKGFDIPACMYETTTIVR;locus_tag=LOCUS_21770;note=WP_052846519.1 transcriptional regulator (Sulfurisphaera) [pid:47.9%25%2C q_cov:95.9%25%2C s_cov:91.5%25%2C Eval:2.6e-30],MGA_2178
sequence1	MetaGeneAnnotator	CDS	1937878	1938861	.	-	0	ID=MGA_2179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979280.1;translation=MIDFNKFSTYPFEVYNKVIITDEDLSIEQLPQLLNLSKPKEIEWKYNAKIIGPDESYIETIGEGNKVLVRTPLILKSIPWNYNRLDIYSIKKMIFDLIPCNEGNGYINPSPWERDQLKPGEITDHYIAKENLKNEIKINTGFYNPSFIFLNPFFIQLSSKPVNSSSFICIELDKTLCIISSRPIKLDFDKGKVIAEGMDLLVEYGRNWKEIKPHRISWNLSNPVIDIDCKPKYNISLYRIEPSSIIPLFINYNNGELILELINMSDIPVISTLYLAARILEAEILDENEKIMTEFDRVKIPFRKWGIHIIRLKIRKLIEQYLKRKII;locus_tag=LOCUS_21780;note=WP_010979280.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:41.3%25%2C q_cov:97.9%25%2C s_cov:96.6%25%2C Eval:1.5e-66],MGA_2179
sequence1	MetaGeneAnnotator	CDS	1938928	1940820	.	-	0	ID=MGA_2180;product=Glu-tRNA(Gln) amidotransferase subunit GatE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979281.1;translation=MSELNYKELGLKVGLEIHQQLNTKSKLFCNCPTLLTDEYKFTIERFLRPVMSEVGEVDVAALFEWEKGKKYIYRIPEKSTCLVEYDEEPPHNLNEEALKIGIAMTLAFGGNIVDEIYVMRKEVIDGSNTSGFQRTSIVGLGGNLNDEEGEIGIQTIAIEEDAARKIEDKGKEIIYNLDRLGIPLIEISTAPDIHSPEQAKRVAFKIGQMLRLTGKVKRGLGTIRQDLNVSITGGVKIEIKGVQELDLIPMIIKYEVLRQYNLLKIKEEIEKKITKEEIEKNFIIKDLTDLFKNTKSKVILSAIKSNGKVYGIKVAGFRGIFGKELVPKRRFGTEVSDYVKALAGLGGIFHSDELPNYGITEEEISKVKENLNTSTNDAFVLIVGPKDKLDLATNVIKERILYAFDGIPKETRGANEDGTTKFLRPQPGSARMYPETDVMPTRVSKQLIEEAKQLIPPTPEDKIKSLLSTGISEELAKQLINNPRIDLFEDLVKKYSPKVPPMIIATTIENTVKYVKTQGGNPDLITDDIIDEVINEIYKGNINKDSIPEILTEYSRGNGKIEDIINKYSMISDSELEKIVRETIEENKEEIYKRKEKAFSLVMGRVMAKVRGKAEGKKVAELIKRELQII;locus_tag=LOCUS_21790;gene=gatE;EC_number=6.3.5.-;note=WP_010979281.1 Glu-tRNA(Gln) amidotransferase subunit GatE (Sulfurisphaera tokodaii) [pid:62.6%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:3.4e-231],MGA_2180
sequence1	MetaGeneAnnotator	CDS	1940813	1942138	.	-	0	ID=MGA_2181;product=Glu-tRNA(Gln) amidotransferase subunit GatD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979283.1;translation=MSLEGYRGKALDILSKLNVNIGDIIEISRDSFKIKGILMPSYSRDDSIIVIKMENGYNVGISVDNSKISVLEKRIQKPLNVMPEKEEKSEVKIISTGGTIASKIEYETGAVRPALSTEEIIQFMPEINEIAKISAEILFSILSENMSPDKWIKIAEAIKSAFDKGNLGVVIAHGTDTLAYTAAALSFSLKKLQGPVVLVGSQRSSDRPSSDSPINLYSSVLLAKKAPFGEVVINMHGESSDLYTLAHRGVKVRKMHTSRRDAFQSINDKPLAKVLWLEKEIKILRPDYHTKDEETTVDSKFDNRVFLLKYYPGFDPSFIDYLVDTKKIRGIIIEGTGLGHTSTELLDSFKKAAKDGIFLGMTSQCIFGRVNMNVYTTGRLLQQVGVVPLEDMLPEVALVKLMWVLAHENDIEKIKNLMLTNLVGEINSRHSLDFFPRWYHE;locus_tag=LOCUS_21800;gene=gatD;note=WP_010979283.1 Glu-tRNA(Gln) amidotransferase subunit GatD (Sulfurisphaera tokodaii) [pid:71.1%25%2C q_cov:99.5%25%2C s_cov:98.7%25%2C Eval:1.7e-183],MGA_2181
sequence1	MetaGeneAnnotator	CDS	1942172	1942342	.	-	0	ID=MGA_2182;product=30S ribosomal protein S30e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979284.1;translation=MPSHGSLTKAGKVRSQTPKVQPKEKSKEPPKLRNRMEFEKRIVKSSKTPQQRGKGS;locus_tag=LOCUS_21810;note=WP_010979284.1 30S ribosomal protein S30e (Sulfurisphaera tokodaii) [pid:64.0%25%2C q_cov:89.3%25%2C s_cov:90.9%25%2C Eval:6.5e-13],MGA_2182
sequence1	MetaGeneAnnotator	CDS	1942395	1943663	.	+	0	ID=MGA_2183;product=C/D box methylation guide ribonucleoprotein complex aNOP56 subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156014546.1;translation=MFWAIMRIYLVEHVIGSFAFDEDGKLIDYVLNPRELGKVVEMLISNEEKGDPLPSTIELLQKVKPNEAIIENETEVSKLQNLGIKISATIHHLGAKEFRQSLAKYALESKYASNENDLYSFLYQVAFEYTRRKLRKAAQKRDLLAIQAIRAIDDIDKSINLFSERLREWYSLHFPELDKMIEDHAQYSRIVSELGYRDNITLESLKDIGFNDARANKLAEAAKKSIGADISEDDINSIKELSDTILNLYRIRNDLSEYVESVMKEVAPNVTALVGATLGARLLSIAGSLEELSKMPASTIQVLGAEKALFRALRSGSRPPKHGIIFQFPAIHTSPRWQRGKIARALAAKLAIAARVDAFSGRFIGDQLVDQLNKRIEEIKVKYAQPPPRKQAPQKETHERRDHEKGRGRRERKGKKGKNYRR;locus_tag=LOCUS_21820;note=WP_156014546.1 C/D box methylation guide ribonucleoprotein complex aNOP56 subunit (Sulfurisphaera ohwakuensis) [pid:69.5%25%2C q_cov:92.4%25%2C s_cov:95.1%25%2C Eval:4.2e-155],MGA_2183
sequence1	MetaGeneAnnotator	CDS	1943670	1944371	.	+	0	ID=MGA_2184;product=fibrillarin-like rRNA/tRNA 2'-O-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846944.1;translation=MSESIKTIKETKMENVFECIYVDGTTRLCTKNFAPGFSVYGERLVKYEGIEYREWNAFRSKLAGAILKGLKHNPVKKGTKVLYLGAASGTTPSHVSDIVENEGKVYGVEFSARVVRELILVAQHRSNLFPILADARFPQSYKLLIEDPDVLYVDIAQPDQTDIAIYNAKFFLKDNGYLLLAVKARSIDVTKEPEEIFKTEAEKLRNSNFEVEQIINLDPYDKDHAMILAKFKG;locus_tag=LOCUS_21830;note=WP_052846944.1 fibrillarin-like rRNA/tRNA 2'-O-methyltransferase (Sulfurisphaera tokodaii) [pid:77.7%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:9.9e-103],MGA_2184
sequence1	MetaGeneAnnotator	CDS	1944375	1944794	.	+	0	ID=MGA_2185;product=DUF61 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979287.1;translation=MLDKIIDLGFKDILSSLPSEFVTLNDAVQGKNKIKLKNGFIHEMDKNEILKLSNIIPLYLWALIKVPFIILKLETPGEYTINGSEWDKKALSIVLNKDTGKFISSLDVEKLMKDYKSLIFITLSYSIFNTSDNNIEEGM;locus_tag=LOCUS_21840;note=WP_010979287.1 DUF61 family protein (Sulfurisphaera tokodaii) [pid:49.6%25%2C q_cov:96.4%25%2C s_cov:97.8%25%2C Eval:2.1e-35],MGA_2185
sequence1	MetaGeneAnnotator	CDS	1944796	1945695	.	+	0	ID=MGA_2186;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429766.1;translation=MEHNIQHIADILENEGLDYSIINYPEKNKKSIDIIVTYDSKRLVIKVSTDKISKEELMDLEKFSYIAESFPIIITDETEEDIALQKDKVVGLSLDGLKRVIEGDKIYVYRTRGGMFVRIRSDVLRRKREEMKYSMGDLAKMLGVSRKTIYDYENGESDVSIEIAEKLVDIFGPDVIGDIFQDLPTRIENFDIDFKKDKGYLHLLDILSAEGFNVARLRLTAADIIAAKDGQKLLVTMEPKKQDFALKKINEAHKIATKFKLNLIIVSKTSSFAKELEKDGFKVYLENELDSLKDEIKGD;locus_tag=LOCUS_21850;note=WP_198429766.1 helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:40.4%25%2C q_cov:95.3%25%2C s_cov:96.9%25%2C Eval:2.0e-59],MGA_2186
sequence1	MetaGeneAnnotator	CDS	1945676	1946815	.	+	0	ID=MGA_2187;product=tRNA (guanine(26)-N(2))-dimethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979289.1;translation=MRLKEIDEGKAKLLIPDPEEFRKEGKFDPSWAPVFYNPRMIFNRDFSVVIVHFLSPKTIVDALSATGIRGIRYYLESYTADEIIFNDRNKDSVELIQKNIELNKVPNTKVFNKDANSLLYEIKSDFVDIDPFGSPSPFILSSINAVKRGGFVAYTATDLAPLEGRARRSCLRKYFTFNYKLSLSKEIGLRVLISKVIQESAIMEKSVYPLISYYSDYYYRVFFRVINGAKKADEVLEKLGFIYECQDCGYHEISHTQCIDKCSYCGSKNIKTVGPLWLGNLIDKDFVNGLSQNLEKFSYLKYYDKIRSIVDLLLNESNYVGYYNLDFLASKHKTNVPAVSKMIECLGDASRTHFDTKSIKTNKKFEDILLCIKNLSYYR;locus_tag=LOCUS_21860;EC_number=2.1.1.216;note=WP_010979289.1 tRNA (guanine(26)-N(2))-dimethyltransferase (Sulfurisphaera tokodaii) [pid:52.9%25%2C q_cov:98.4%25%2C s_cov:99.5%25%2C Eval:1.4e-111],MGA_2187
sequence1	MetaGeneAnnotator	CDS	1946798	1947169	.	-	0	ID=MGA_2188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979290.1;translation=MESKISTYEDLIHQKIIERGSQGISQQELAKSVGLSTRELSTIVKRLIEKKLIIKKSIKENGKSIVKLFAIQVFNEPKILIELRNISDIPCFSCKFLYKCNNGAHVNPNSCSKLSEWILSIIR;locus_tag=LOCUS_21870;note=WP_010979290.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:49.2%25%2C q_cov:97.6%25%2C s_cov:95.2%25%2C Eval:1.3e-26],MGA_2188
sequence1	MetaGeneAnnotator	CDS	1947243	1948121	.	-	0	ID=MGA_2189;product=transcription initiation factor IIB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846945.1;translation=MNCPNCSSENIRYDYERGQYICSNCGYVIEDNVIDSGPEWRAYNYEDRIIKERTGSPLTLKVHDQGLTTKIGYGKVKDKVKLLKMQRLQNKLRVSSKDKKLVTYLSVLNNEAAKLALPEYVKETSALILRKLIETGLARRIEMYTLIAAILYYSCQINNIPKHLQEIKTRYALSSSELWKALERVQEISKTIQNFRPKVKPVGYIPEIIEKLQLPSVIATKSAEVVDIMYKNGLTSGKGYLALSAATVYLISTLMDVKKTQKEVAESLKITEVTIRNRYKEIINNFDIEVSL;locus_tag=LOCUS_21880;note=WP_052846945.1 transcription initiation factor IIB family protein (Sulfurisphaera tokodaii) [pid:67.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-116],MGA_2189
sequence1	MetaGeneAnnotator	CDS	1948118	1948399	.	-	0	ID=MGA_2190;product=Gar1/Naf1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846946.1;translation=MTRSRLIELGTYEKKTLKNKYLIKANKNDYVHLNPIGKIIIDEQGKRVAKVIDVIGNINEPYILAYPLTEDEPKTKLYLEITNRESKKRRNRR;locus_tag=LOCUS_21890;note=WP_052846946.1 Gar1/Naf1 family protein (Sulfurisphaera) [pid:51.1%25%2C q_cov:95.7%25%2C s_cov:96.8%25%2C Eval:2.3e-21],MGA_2190
sequence1	MetaGeneAnnotator	CDS	1948574	1949533	.	+	0	ID=MGA_2191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979293.1;translation=MTDSTTDSEEEALYRKISEIREELGKLKDKKRSLFEDLSKLKQKRSEKISKLRSIREQVFTLRNEYKSKIDELNQLKEKKQSLLSYIQEMRKEFEEIRNLMKQSQGMNPDMLEKRIKSLEWRIETSSLSLEEEKKIIQKIAELEKKLSESKKFLKIKEKGSEERAEFLAKRIELSTVREQMSKLINEISEKRKVLKSLVDERNKLRKELDEITGEINKKKDEISKLNSEFSVKKDELNKYTKQLSEYKNGIYNRYYAENKNIDIKKGIDNFAEIGKNKDLLEKKKKVVEEKLKNGGRLSFEELLILYGNENKDDGTANK;locus_tag=LOCUS_21900;note=WP_010979293.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:40.1%25%2C q_cov:98.4%25%2C s_cov:97.4%25%2C Eval:4.2e-58],MGA_2191
sequence1	MetaGeneAnnotator	CDS	1949514	1950566	.	+	0	ID=MGA_2192;product=DUF373 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846947.1;translation=MEQLTNKTAIIYIDIDDDLGDIGIKTPVIGEKDAFLAIQRASEYIPDDSDFNSMVVAYNLYNKLKSNNNVEIVFIAGSKKGGLDAQLNLSKELEEVIKKINPEQSILVYDSPEDAKAIPIIESKLKIIGIQRVIVEQHRGVEETYVLLGKYLKKIISEPRYSRIFLGVPGIIFLIASVFYILGIASYLLPVVLLVIGIAMLVRGFGVDDMIEKWWENSTIMVVVGILSIISLIIGIVEGYLTSQTIKGSYIFTISSEIISVLPYLTFSVIILFAGKALENALTRNMRVWHDLLKIVAIVLSYYIISGALKNIQEGIYVFQVQLLYMLSISSMILITIYIALSILEKYKFT;locus_tag=LOCUS_21910;note=WP_052846947.1 DUF373 family protein (Sulfurisphaera tokodaii) [pid:49.5%25%2C q_cov:94.9%25%2C s_cov:96.2%25%2C Eval:1.4e-97],MGA_2192
sequence1	MetaGeneAnnotator	CDS	1950559	1950771	.	-	0	ID=MGA_2193;product=DUF5622 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846520.1;translation=MSLKQKKYVYVDTGKRKYVKVRVLKNRDENSPDRYIVLDIISNHKFRKANIVKIDDIPLEVRDKITKSTM;locus_tag=LOCUS_21920;note=WP_052846520.1 DUF5622 domain-containing protein (Sulfurisphaera) [pid:47.9%25%2C q_cov:95.7%25%2C s_cov:100.0%25%2C Eval:3.9e-10],MGA_2193
sequence1	MetaGeneAnnotator	CDS	1950803	1951306	.	-	0	ID=MGA_2194;product=TATA-box-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742650.1;translation=MERSVPNVEYDPDQFPGLIFRLETPKVTSLIFKSGKMVVTGAKSTEELIKSVKRIIKTLKKYSIKISGKPKIQIQNIVASANMHVHVNLDKAAFLLENNMYEPEQFPGLIFRMDDPRVVLLIFSSGKMVITGAKREEEVYKAVKKIFDKLEELDCVRAIEEEEELEI;locus_tag=LOCUS_21930;note=WP_084742650.1 TATA-box-binding protein (Sulfurisphaera tokodaii) [pid:89.8%25%2C q_cov:94.0%25%2C s_cov:81.8%25%2C Eval:5.3e-76],MGA_2194
sequence1	MetaGeneAnnotator	CDS	1951451	1952200	.	-	0	ID=MGA_2195;product=metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979296.1;translation=MLEISQDLFIESDIPGLYFKKMNSMILSDVHIGYEEEMAKKGIFLPKVQKKKFIDIYNKSLKIFKFDKIIIDGDLKHMFNSLGKEERSDLNDIFNILKNDNIKVIVIKGNHDNYISLVTEKFDNVELVDNLDLGNIYIYHGHKDVKLRDNTTYIIGHEHPRISIKDKLGFSRKLQCFLNIPLKNSSNVIVLPSIGTYQSGNDVSLLHNNYMSPIIRNFGILEKAKPYVIIEKEGIMEFPELGLLKNILF;locus_tag=LOCUS_21940;note=WP_010979296.1 metallophosphoesterase (Sulfurisphaera tokodaii) [pid:59.7%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:2.0e-91],MGA_2195
sequence1	MetaGeneAnnotator	CDS	1952244	1953008	.	+	0	ID=MGA_2196;product=diphthine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979297.1;translation=MSYLYLIGLGLSKKFFTNKALEALKQSDIIFLDYYTSFSCDLTKEFLEKITGKEITLASRNMLENNSNEIMNLLDSGKNVAIASIGDPIIATTHVSIAVEANRKGHIVQVIPGISVHCYIISKSMLSSYKFGKSVTLVYPYDNIMDFTPYEVIKSNRALNLHTIVYLDIKDGKFMNAIEGLKYLIEMENVKKENVISMDDIAIIGQRLGCDDEKISAVKLSDLENAKLRDPPHIIIIPSKNLHYMEVEAIQCLH;locus_tag=LOCUS_21950;gene=dph5;EC_number=2.1.1.98;note=WP_010979297.1 diphthine synthase (Sulfurisphaera tokodaii) [pid:53.8%25%2C q_cov:99.6%25%2C s_cov:99.2%25%2C Eval:3.1e-76],MGA_2196
sequence1	MetaGeneAnnotator	CDS	1952996	1953667	.	+	0	ID=MGA_2197;product=DUF357 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979298.1;translation=MSSLRNRALKYIEGMEKRLKNINMPEFQKILDLARQYTDDAKYYLEKGDEETSLVDIAYAEGLLDAILIQNNIDPDSDISKKVFVGGTFDIIHPGHIAFLKEASKLGRVYVSVARDKNSEKIKGRKPINNEDQRLEVVKNIKYVYYAFLGDENDFIKSVENVNPDIIFLGPDQKVNEEQFKEELRKRGINAEILRMKERLNKWEHNSTTSIIKEVLNRYCNHT;locus_tag=LOCUS_21960;note=WP_010979298.1 DUF357 domain-containing protein (Sulfurisphaera) [pid:69.6%25%2C q_cov:98.7%25%2C s_cov:98.2%25%2C Eval:8.4e-88],MGA_2197
sequence1	MetaGeneAnnotator	CDS	1953658	1954311	.	-	0	ID=MGA_2198;product=DUF120 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742652.1;translation=MLNDACIIAKIISLAKSSEITQETLAKELNLSQQSVSRKLKELEDKEIIKRTITTDGEIISLTTKGEDLLSQCLSLIREAIISSHALKIKGMVTSGLGEGKIFLSLPYYEDSFKKFLGFTPYPGTLNIVIYDRLSLENRIILDAEKHILIPEYKDENRVLGAVKVFPASINGIRPAAIVFPLRSTHPKSVIEVISPYYLREKLNIKDGDEVEIESYV;locus_tag=LOCUS_21970;note=WP_084742652.1 DUF120 domain-containing protein (Sulfurisphaera tokodaii) [pid:65.7%25%2C q_cov:91.2%25%2C s_cov:95.2%25%2C Eval:2.2e-69],MGA_2198
sequence1	MetaGeneAnnotator	CDS	1954314	1955390	.	-	0	ID=MGA_2199;product=4-demethylwyosine synthase TYW1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979301.1;translation=METPKLRIDTLSKIMSEMEKEKYHIIGSHSAYKKCYWTHKALTENRYCYKGKFYGIESHRCVQMTPVAAWCWFRCIHCWRLEPEDIGVEWDETKMPIMDDPEYIAEKSIEEHVKAVSGYYGRQGVKQAMIKDASKPAHVAISLTGEPTLYDKLGELISEYHKKGMTTFLVTSGVRPDILASLEEEPTQLFVSLQAPNEKKHKLINRPIVANSWNLVMETLKMLPSFSSPTVIRMTMIKGFNMGIEDAKEFANLIKLAMPTYIEVKAYMHVGPSTYRLSKDAMPRHSEIREFAETLSKFTGYKILSEHIPSRIVLLSKLEKPIQIGNAWTQKWSWSTKDSEDDINGEYKEAELGCTEEQ;locus_tag=LOCUS_21980;gene=twy1;note=WP_010979301.1 4-demethylwyosine synthase TYW1 (Sulfurisphaera tokodaii) [pid:82.6%25%2C q_cov:98.0%25%2C s_cov:98.0%25%2C Eval:1.7e-178],MGA_2199
sequence1	MetaGeneAnnotator	CDS	1955436	1956851	.	-	0	ID=MGA_2200;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846522.1;translation=MISNIVIDLKERRLSPEEYVARSFEKINRLEKNINAFITLRKEEEVLQEVKENIKKEGKLAGILIAIKDAISTKDLRTTCASKMLEDYIPPFDATVIQKLKSEGAVIIGKTNMDEFAMGSTTETSYFGPTRNPWDLERTPGGSSGGSGASLAAGYVDIALGTDTGGSIRAPAAFTATFGLKPSYGTVSRYGLIAYANSLEQIGPMAKNAEDLGLLYSIISGEDSKDATTIKNKNIGTPSEIPISGLKIGILKDILESSDKSVTTIINNVINKLSSEGAIIEDVRLGNSEYALPAYYIIAMSEASSNLARYDGVRYGFSKYSDGNWKETFSKNRGEGFGLEVKRRIMLGSFILSAGYYDQYYVKALKVRRIIKDSLDQIFNKYDILISPTMPILPPRIGEMINDPIKMYAMDLNTVIANLAAIPAISMPAGFYNNLPVGLQLMGRYLSDTMLIGISSYIEKILKLYDLTAPL;locus_tag=LOCUS_21990;gene=gatA;note=WP_052846522.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA (Sulfurisphaera tokodaii) [pid:72.2%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:7.6e-201],MGA_2200
sequence1	MetaGeneAnnotator	CDS	1956852	1957136	.	-	0	ID=MGA_2201;product=Asp-tRNA(Asn) amidotransferase subunit GatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979304.1;translation=MSEEKLIEKLQSLSLIELKENEKEIIGKDIKKILDFFNKINEIDLSNVEPMFHPISQGKLREDKPLSTLTQSDALRNVKHKENGYIKGPSTYGD;locus_tag=LOCUS_22000;gene=gatC;note=WP_010979304.1 Asp-tRNA(Asn) amidotransferase subunit GatC (Sulfurisphaera) [pid:53.3%25%2C q_cov:95.7%25%2C s_cov:92.8%25%2C Eval:3.5e-22],MGA_2201
sequence1	MetaGeneAnnotator	CDS	1957133	1957450	.	-	0	ID=MGA_2202;product=divalent-cation tolerance protein CutA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979305.1;translation=MPAILILSTIPEIKTGKHIAKTLVDEKLAACVNIIPYIRSFYIWEGKTEEDDEALMIIKTEKDLENRIIQRIKELHPYSLPEIITFNISGGLPEYLNWIFESVRK;locus_tag=LOCUS_22010;note=WP_010979305.1 divalent-cation tolerance protein CutA (Sulfurisphaera tokodaii) [pid:61.0%25%2C q_cov:100.0%25%2C s_cov:94.6%25%2C Eval:4.3e-33],MGA_2202
sequence1	MetaGeneAnnotator	CDS	1957488	1957871	.	+	0	ID=MGA_2203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979306.1;translation=MKVKDLFSLPWKNMDRALEYGVEECKYLGKTLLGITLSNGLGFIIYFNPYSEEIYRILIMSPEKKELGEFFGVFKYEGGNTFFIYTVTNLTQIVNSLGEIEVNSVEVIKDVFEDFLLEALAGQRNIY;locus_tag=LOCUS_22020;note=WP_010979306.1 hypothetical protein (Sulfurisphaera) [pid:46.0%25%2C q_cov:95.3%25%2C s_cov:100.0%25%2C Eval:6.0e-22],MGA_2203
sequence1	MetaGeneAnnotator	CDS	1957816	1959450	.	+	0	ID=MGA_2204;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979307.1;translation=MFSKTFYLKRWLDNETFTKLLTFSRFLGRDENGSQFVLDLERARRNRVRLSEIKDTLESLGITFSNDELQYLQRILPEYDIEFSIDRGNLFVIPSVYIMDIIKKYNISIEYDRQRKIFISKPYYYSNLREIFLENGLKVRELNTKMKNFDFSIKIILRDYQNEAIEKWKENNFKGVIALPTGSGKTLIGLKAIELVKKSTLIVAFTKEQMNQWRDSIIRFSDFRPDIGLYYSSEKNIKPITISTYQTAYRHINELADKFDLLIIDEAHHLPADKFREIALGLIASKRLGLSATPYREDGKHEELFKLMGGVIYYKGVNELINKGYLSPYEIIQVKVFLNKEERSKYSELLKKFKILSKDRRISELIKKAQEGDGDAIEALRIYNEMRKIVSLAQNKISKINDIIQKENGKKILIFTQYVEQAENLAKIFNALIITGKISKSERDKILAEFKSMKSGILVLTTVGDEGLDIPDASVGIIVTGTGSRRQFIQRLGRLLRPVDGKKATLYEILVQGTPEEYQAKKRKEENLDEAFLQISSEYSEEIK;locus_tag=LOCUS_22030;note=WP_010979307.1 DEAD/DEAH box helicase (Sulfurisphaera tokodaii) [pid:63.3%25%2C q_cov:96.5%25%2C s_cov:97.1%25%2C Eval:4.1e-193],MGA_2204
sequence1	MetaGeneAnnotator	CDS	1959414	1959905	.	-	0	ID=MGA_2205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979308.1;translation=MPFVTEDYGVCYPGEKINLKKGDIIAVKPFLTNTRYNLVFPPLSILSTECNRKLFSTIWVDGVKINGKEQVIMLDGNIEVSGEIEVLSPEMLAAYTAKKILGNTKLRIDDKNHGIIIIGIENKPIISVNNRQVIIHTKMRQEILVPLAYSVFYFISSEYSEEI;locus_tag=LOCUS_22040;note=WP_010979308.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:38.8%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:4.2e-22],MGA_2205
sequence1	MetaGeneAnnotator	CDS	1959998	1960276	.	+	0	ID=MGA_2206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846523.1;translation=MKWLKKRDVVIYYLLYKKFGYDEFNLGEAIDTLSPYFSKKVILTSIKYMSKRGLVTKLDNLNYRLISFEEFIFSISFEYLKRRSNLRHKIQL;locus_tag=LOCUS_22050;note=WP_052846523.1 hypothetical protein (Sulfurisphaera) [pid:58.2%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:3.1e-26],MGA_2206
sequence1	MetaGeneAnnotator	CDS	1960248	1960568	.	-	0	ID=MGA_2207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979309.1;translation=MSQPTYKIEFEGKAKIGEVMGNLASVQLKPEDLSSPIAFQMAISRIYDELMKMMSQGPQKHYVAEIKFNDSMGNPVSMGVDFGNSIPPISKKEVKVKIIVEFYDED;locus_tag=LOCUS_22060;note=WP_010979309.1 hypothetical protein (Sulfurisphaera) [pid:69.5%25%2C q_cov:99.1%25%2C s_cov:96.3%25%2C Eval:5.3e-39],MGA_2207
sequence1	MetaGeneAnnotator	CDS	1960649	1960945	.	-	0	ID=MGA_2208;product=DNA-binding protein Alba;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979310.1;translation=MSTATPTPSNVVLVGKKPVMNYVLAALTLLNQGVPEIVIKARGRAISKAVDTVEIVRNRFLPDKIEIRSIGIGSQVVTSQDGRQSRVSTIEIAIKKKA;locus_tag=LOCUS_22070;gene=albA;note=WP_010979310.1 DNA-binding protein Alba (Sulfurisphaera) [pid:92.8%25%2C q_cov:99.0%25%2C s_cov:98.0%25%2C Eval:2.7e-43],MGA_2208
sequence1	MetaGeneAnnotator	CDS	1961061	1964513	.	+	0	ID=MGA_2209;product=reverse gyrase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979311.1;translation=MITSVYTNSCPNCGGPLESTRALEGLPCNKCINGSVDAFKNIPIDEKIKAIYNILVNQGNLKGYWELYYSLELYEELSNYFKKITGYMPWSLQKFWLRRLGEGASFSMSAPTGLGKSTTIMVYSSYLKDNVLYLVPTKSLQDQICNKISKFAEISCGKIDDKKISIVTINYLNRHFSEINYYRPKFIGVDDADAIVKSGKTTDKLVSIMGIPEEIYEDAIKLVRLKRLLFIQEDREELEAKIRQIESRIASFSGNIAQLVIASATMRPKGVKQKALKYITGFDVSTAQIYARNIIDSFSDKSLESIVMELGSGGLILVSKEYGKNKMKEIKSLLENKGISVDLAISGRKFLEKFSSGKTDIIIGSASYYGVAVRGIDEPKKLRYVIFYGVPKSRIRAYDAVLNPFTLLKISKLLNYEIDENKILNLNSAEIQAIRIAFLRSQKLSGKLGEIQQYLLPKIEDIRKIMASVTSDIDGDTFVLKKINNEVYIEFPDATTYLQGSGRSSRLLNGGLTLGLSVILVDDYKLLDMLKRRINYLMYNFNITDFNSLNISKVKDEIERTRNETNASIDISTALLVVESPTKAKTISRMFGTPARRNIGGIPIYETVIVDANKAYILDVMATKGHITDLTLENKGYYGVDVDDERISPYYSPLYRCVNCKRLISQTVDKCPYCGSTTLLSSLSTINALRKIAMEVDKVFIATDPDTEGEKIAYDVAVNVAPYNNNIKRIKYHEVTRNGILSALRDQGTLDINAVNSQVTRRIEDRWIGFELSKILKVKFNSQNQGAGRVQTPVLGWIVDNTEKYKNSMGWIANIKLGNYVYRLFFKNKSDAKIMSIEVKKIGEKRDVISPYPPYTTDTLLIDAYNRFRLPAERVMKIAQELFESGLITYHRTDSIHVSSRGIEIAKEYLSKKGIQEFSPRSWGNEGAHEAIRPTNPMDLDDLKKEITENPNKYFIKFTWAHFAVYDLIFKRFIASQMNNAIGTYTKYEININGNNIQNIELLSDISGGFSMILQLRTYSLPEGKIPPEYTVIKGSKEKLMNYAEVIKLMREKNIGRPSTYAKTIQTLIRHGYIVQSKKKGYLIATKKGIEAYKYLSTRFSNLVSTDTTADLLRKMDMISNGSIEAEVIIKDILGQVKSLVSLSYSEQQI;locus_tag=LOCUS_22080;gene=rgy;EC_number=3.6.4.12%3B 5.6.2.2;note=WP_010979311.1 reverse gyrase (Sulfurisphaera tokodaii) [pid:48.8%25%2C q_cov:99.1%25%2C s_cov:98.8%25%2C Eval:0.0e+00],MGA_2209
sequence1	MetaGeneAnnotator	CDS	1964478	1964747	.	-	0	ID=MGA_2210;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979312.1;translation=MMDKTAQIVVSSTKSVEDHVLEIITMMNQGTSEIEIKGYGREINKTVDIYNQLKDKLGEGIKLSETSIGSEVKDKKRISYLLLRITKAY;locus_tag=LOCUS_22090;note=WP_010979312.1 DNA-binding protein (Sulfurisphaera) [pid:53.5%25%2C q_cov:96.6%25%2C s_cov:95.6%25%2C Eval:2.6e-22],MGA_2210
sequence1	MetaGeneAnnotator	CDS	1964899	1967688	.	-	0	ID=MGA_2211;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979313.1;translation=MESLNSKIIELIKERNWNKMTDIQKKSLKPILSGNNTLIIAPTGYGKTEAALLPVLSQMIESNAKPVSLIYITPLKALINDITFRVDWWASRLDFLVSRKHGEVPQKEKNMRLKKVPHILITTPEGLEIDLDWASRFREFYKNVKWVIVDEIHELVNSKRGIQLSILLERLKEFSNFDFQRIGLSATVANEDLISSFLFGSSSRNPSIVRISDSKNFELRIKKICGNDIWTNSAKEISSSIESPSLIFTNSRFLTERLHEELEKLNQEGIFVHHSSISRESKNNVEEHLRAGKAKAVICTKTLELGIDVGDIRKIIMYRPPPSVASFLQRLGRSGHCISGVPKGEIFCIYDFDVLEALSIYYLAKKGIVEKPGISSSLDVAAREILGITLQYEKVSPEFIYNVLINSYPFRNLKKEKFEEIINYLIRNGLLSLEGEDIKIGKFFFKLWNFNRNRNFSWTKSFSEFFSLINNDDTFILKHNDRIIGEIDAIYVYKHIRIGDIIRISGKLWKVIKIHSGRMSIEVVPTDSGEGEIPVWKGDGIPKSYLLPKEISKLIRNIDKINHNILDKNAVMEINDLLSVYLNHKIPLPSNKIIIIEKRDKETVYTTLLNERISNTISHMLLYLATSKESLNTYARSSIYGFSVSYTEKDLLKDILKLSDKKLKQLILKSVLRSPLFISVLKEIQISFGKVGKVNNKEDKILIKEALKQTVNRYFSIKGTLKFIRKIKNNEIKIINYDGITPLGDAVLSHAPIKPWLFSVYTLIYESLKGGAYTISELSETLGISEKSLENKLKQMRKPDSKFRITSFIDVDSREIRWCLLDDLEKIVESDDFYTSFSVLNENETFVAVLRQLNGNENTEIIFKPKELIDNFDEIKHRIPFEEIGELRISDPVDPLVCNLSPRFYYVNKKSIPYLLLNAVAYIQNLKYS;locus_tag=LOCUS_22100;note=WP_010979313.1 DEAD/DEAH box helicase (Sulfurisphaera tokodaii) [pid:56.7%25%2C q_cov:99.9%25%2C s_cov:99.9%25%2C Eval:0.0e+00],MGA_2211
sequence1	MetaGeneAnnotator	CDS	1967765	1968001	.	+	0	ID=MGA_2212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846524.1;translation=MEQKHVCLVCGKSFTEGQGIILTIADRKLEFHSKSCAYKFLKEVIMNSEKDCISSPLKDVYKKYSDLLDKREKIEKKI;locus_tag=LOCUS_22110;note=WP_052846524.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:1.2e-19],MGA_2212
sequence1	MetaGeneAnnotator	CDS	1968598	1969980	.	+	0	ID=MGA_2213;product=RtcB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979314.1;translation=MKVPVTIFADDVLIDKMKQDLTLKQATNVACLPGVQESVYVLPDGHQGYGFPIGGIAATAIDEDGVVSPGGIGYDINCGVRLLRTNLDFNDVKPKLKDLVEEIHKNVPSGVGSEGRVKLSLQELDEVLSRGVDWAISKGYGWSEDMEHIEQKGSWNIADPSKVSKVAKQRGAGQLGTLGAGNHFLEVQVVDKIYDENVAKTLGITHEGQVTVMIHTGSRGLGHQIASDYLQIMERAMKKYNINVPDRELAAIPFNSREGQDYFHAMVAGANFAWSNRQLITNWVRESFERVFNTSADKLDLQLVYDVAHNIAKIEEYDINGKRKKVLVHRKGATRAFPPGSPEIPVDHRSIGQVVLIPGSMGTASYVMVGIPEGRRTWYTAPHGAGRWMSREAAVRNYPANNVVENLEEKGIIVRAATRRVIAEEAPGAYKDVDRVAKVADEVKIAKLVMRLRPIGVTKG;locus_tag=LOCUS_22120;note=WP_010979314.1 RtcB family protein (Sulfurisphaera tokodaii) [pid:85.0%25%2C q_cov:100.0%25%2C s_cov:95.2%25%2C Eval:2.7e-235],MGA_2213
sequence1	MetaGeneAnnotator	CDS	1969977	1970912	.	+	0	ID=MGA_2214;product=deoxyhypusine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979315.1;translation=MKREDLLKEEVQDITLDDVKGLYKAIEIYKKIYGFSAESMYKSSDILKEMIKNADLRFLSFTANLVSTGLRGLFADFIKKDFFNIIITTGGTIDHDIARSFGGKYYKGEFEYDDSMLRELHIHRLGNILVPFESYGKVVEDTVRKIIPEITKEKKEWAGYELLWEFGKRISDNNSILKAAYDKKIPIIVPGIMDGSFGTNLFIQSQFTGLRVNLFEDMRLIKDLVFTCKKSGALIIGGGISKHHTIWWNQFKEGLDYAIYLTTAQEYDGSLSGAKPREAISWNKILPNAKQEVIYEDATVVLPILASSLLS;locus_tag=LOCUS_22130;EC_number=2.5.1.46;note=WP_010979315.1 deoxyhypusine synthase (Sulfurisphaera tokodaii) [pid:75.8%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.4e-135],MGA_2214
sequence1	MetaGeneAnnotator	CDS	1970943	1972532	.	+	0	ID=MGA_2215;product=DNA topoisomerase VI subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979316.1;translation=MSLKEKFTSISPAEFFKRNPELAGFSNPARAMYQSVRELVENALDATDVHEILPSIKVIIDIDNQEKQIYKITVEDNGIGIPPHVVPDAFGRVLYSSKYVLRQTRGMYGLGVKAAVLYSQMYQEKPIEIVTSPVGSKRIYVFKLKIDVTKNEPIIYERSSISNEKNFHGTSATLYLLGDWQRSKSRIYDYIKRTYIVAPYAEFYFKDPEGNVVFYPRLTNKIPKPPEEVKPHPYGVDIELLKNMISRMKPTYVIKDFLVNQFQSVGEITAQKVLEMAKIDPNKKISSLTDDELSRLTEAMKKFEDFRPPSADALSVIGSDLIELSLKKIFNPEFVGALTRKPKAYQGHPFIVEVGIAYGGQIQPSSEPLVLRYANKIPLIYDEKSDVIWKVVEEVDWKRYGVEGDQIPLVVMVHLCSTKVPYKSAGKESIAEVEEIEKEIKYGIMEVARNLRLFISQKKKEEETKKRMLTYLKYIPEVARSLSVFLADGKKADADKHSQELKTKLFEIVAKKLDLKDLEEYKLYKVEEL;locus_tag=LOCUS_22140;EC_number=5.6.2.2;note=WP_010979316.1 DNA topoisomerase VI subunit B (Sulfurisphaera tokodaii) [pid:72.1%25%2C q_cov:95.3%25%2C s_cov:94.9%25%2C Eval:2.2e-220],MGA_2215
sequence1	MetaGeneAnnotator	CDS	1972529	1973689	.	+	0	ID=MGA_2216;product=DNA topoisomerase IV subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979317.1;translation=MSEFTSKVDKEARQRAAEVLKKRFLSLIEQINKGEPLVMEIPKRTLTNTVYDEKRKLLLLGESKLKRSFLDLNEAKRFMQTTLMGSIIYDALVNDEYPTIRDLYYRGKHSIVLKAPNGRTYEENTWDEQKESDSVIVDIEVFTSLLREEMLILSKEKGKVVGDMRLRSGNDVIDLSKMGHGAYSIEPTPDLIDFVEVNAEFVLVVEKDAVFQQLHRAGFWKKYKCILITSAGQPDRATRRFLRRLRDELKLPVYILTDADPYGWYIYSVFRIGSISLSYESERLATPDAKFLGVSMGDIFGTNKKKPYLSEKERNSFIIKAKDFDVKRALEIRNYSWFKTKSWQDEINLFLQKKSKLEIEAMASKGLKFLAFQYIPDKIEKGDYIS;locus_tag=LOCUS_22150;EC_number=5.6.2.2;note=WP_010979317.1 DNA topoisomerase IV subunit A (Sulfurisphaera tokodaii) [pid:82.8%25%2C q_cov:99.5%25%2C s_cov:99.2%25%2C Eval:1.2e-185],MGA_2216
sequence1	MetaGeneAnnotator	CDS	1974022	1974417	.	+	0	ID=MGA_2217;product=translation initiation factor IF-5A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979318.1;translation=MGVNYTTVGELKEGNYIVIDGEPCRVVDIQKAKTGKHGAAKANVVAVSVFTGSKKTLMAPVDQQVEVPIIEKHVGQILADTGEKLQVMDLNTYETFEMEKPTEADLASKIRPGAEIEYWTIMGRNKIVRVK;locus_tag=LOCUS_22160;note=WP_010979318.1 translation initiation factor IF-5A (Sulfurisphaera) [pid:72.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-54],MGA_2217
sequence1	MetaGeneAnnotator	CDS	1974435	1975781	.	+	0	ID=MGA_2218;product=signal recognition particle protein Srp54;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979319.1;translation=MLDNIKDAVRKFLSGSSSYEQAVDEFIKDLQKALISSDVNVKLVFSLSNKIKERLKKEKPPSSLERREWFIKIVYDELSSLFGGDKQPDVVPDKIPYVIMLVGVQGSGKTTTAGKLAYFYKKKGFKVALVGADVYRPAALDQLIQLGDLIKVPVYGEQGNYDAVGIAKRGVEKFLSEKYEIIIVDTAGRHGYGEETKLLEEMKNIYDALKPDEVTLVIDASIGQKAFDLASRFNQASKVGSIIITKMDGTAKGGGALSAVAATGAIIKFIGTGEKIEELEVFNPRRFVARILGMGDIETIIEKMKALEDYDSIQKKMEEVMSGKTKLTLRDFYKQMIALRKMGPLSKILQLMPGVNMLGQIPEDQIKVGEVKMRRWMAIMNSMTYQELDNPSIIDKSRIKRIAFGSGTEIDEVKELLDHFNNVQKMLKMIKRRKRDVEKLFGQFGNTG;locus_tag=LOCUS_22170;note=WP_010979319.1 signal recognition particle protein Srp54 (Sulfurisphaera tokodaii) [pid:76.2%25%2C q_cov:98.4%25%2C s_cov:98.7%25%2C Eval:1.1e-190],MGA_2218
sequence1	MetaGeneAnnotator	CDS	1975741	1976841	.	+	0	ID=MGA_2219;product=pseudouridylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011278149.1;translation=MSKNFLDSSEILDKARTLLKKYPLCDSCLGRCFARLGYSLTNAERGKSIKISLLLQIDQEIKDHKIEDLSEVKELFFNIGSYAEPLFKNYFSEEFQKRNCYLCKSEIDNIKNDFMEKALSLLEKLGKVKYVLGVKLSENLKSIENSFSLDNGILYYESIKNEIKRDVGKILSSKGYPPEIDNPDIEIIYDMDTRQIYTISKKYKVLYVYNRLSRGVPLSTWSEEGKSLQSKLNKNIVIPFSEPSEVRILDEYPVVIEDEKRDEIELCGYVIRKIKETAGREMSLITQSLPSKRLYRVTIYTSDKIENSKQIYDNIRDIFIYAKNFDDLQQKLKNLSCEILSIDLISSEGRHKKIAEYLNNGNKDTL;locus_tag=LOCUS_22180;EC_number=4.2.1.70;note=WP_011278149.1 pseudouridylate synthase (Sulfolobus acidocaldarius) [pid:46.8%25%2C q_cov:96.4%25%2C s_cov:98.0%25%2C Eval:1.7e-90],MGA_2219
sequence1	MetaGeneAnnotator	CDS	1976838	1977704	.	+	0	ID=MGA_2220;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978600.1;translation=MKIGLIGLGVMGWRIGANLAKDSKLDFVYDRTLSKAEDFSKKYGTKYFTSIKDLVKNSDYVLTMLSDDNAVSSVYGDIIPESSGKILVDMSTISPSLSIEISKKIKENGGIMCDSPVIGTSIFVEQKRITFLVGGPKDKFTDVKNILQSTASNIFYMGSNGMGLYAKLVNNLLLGAYASALAEAFNFGIKSGLDPNDVVKLLSELSSSKSPTSEIKSPKMLNGDYSTQFATKHMRKDLEIVQKESQNLKVITPLSSLALQLFRMAEAMGYSEADYISVVEVFKRFSPK;locus_tag=LOCUS_22190;note=WP_010978600.1 NAD(P)-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:63.7%25%2C q_cov:98.6%25%2C s_cov:97.6%25%2C Eval:1.0e-100],MGA_2220
sequence1	MetaGeneAnnotator	CDS	1977682	1978674	.	-	0	ID=MGA_2221;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763197.1;translation=MKSLGYQVTLITLSEINKEKIKKWDPRFVDPDKIVIKKFPLKFGIYKALYLSLMTKKERSFSTIGDITWSDYSYIHFPWSLTDNLKYIDNYYKYESYIGNRKLRMYYLPYKYIHRMFFRKSKTKLLANSNWTRRILEISGYRAETLYPPVDISRIKIKSSNRDPKLVVYIGRISPEKNIENIIEVAKRMKDYKFVILGSEGRNKKYINYILNNSKNLNNIFIRKNPDDTEIIDYFSKAKIYFHPKINEHFGISIVEAMAAGLTPVVHKSGGAWYDIIEEGKYGIGYCDIDSAIDGIKKASSIEFDYSKKIYQFSFENFKKNLSSILEKIS;locus_tag=LOCUS_22200;EC_number=2.4.-.-;note=WP_011763197.1 glycosyltransferase (Pyrobaculum islandicum) [pid:28.4%25%2C q_cov:90.9%25%2C s_cov:88.6%25%2C Eval:1.1e-27],MGA_2221
sequence1	MetaGeneAnnotator	CDS	1978787	1979584	.	+	0	ID=MGA_2222;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979321.1;translation=MELNVYNKRVLITASTEGIGKGIAKALAKEGCKIIISSRNKDKVSKSVEELRKINPSIWGITSDITDVRSIEKLSLFTKEILGDIDVLIVNSGNPPSEPSYFEETNIEDWEYSIRLYLISAIKLVKEFLPGMVKNHWGRIIFLSSWTIKEPQSIFALADVSRSPLIQLSKILGRDYGKFGVTINTILMGSFETEGAKKTIRNLASKKGEKFEDLWQQLVISPIPAGKIGNPEKDLSPLIIFLISDLSWYINGTSILIDGGMTNAV;locus_tag=LOCUS_22210;note=WP_010979321.1 SDR family oxidoreductase (Sulfurisphaera tokodaii) [pid:58.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-87],MGA_2222
sequence1	MetaGeneAnnotator	CDS	1979697	1979876	.	+	0	ID=MGA_2223;product=chromatin protein Cren7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846948.1;translation=MSSKKAVKVKTPGGKEMELNPEKVWTLAPKGRKGVKIGLFKDPDTGKYFRHKLPDDYPI;locus_tag=LOCUS_22220;note=WP_052846948.1 chromatin protein Cren7 (Sulfurisphaera) [pid:84.2%25%2C q_cov:96.6%25%2C s_cov:98.3%25%2C Eval:1.1e-23],MGA_2223
sequence1	MetaGeneAnnotator	CDS	1979860	1980588	.	+	0	ID=MGA_2224;product=UMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979322.1;translation=MTTQFKLFYFRFYYILMNLILKISGKFFDEEDAEKLKTLKNTVNELTNEGYRVGIVTGGGRTARKYINIARQMGSNEAFLDLLGIWASRLNAYLVIFSLSDLAYMKVPESLEEFTQAWSYGKIVVSGGFQPGQSTAAVAALTAEASNSKLLIVATNVDGVYEKDPRIYSDAKLISKLTTTQLRKILETSQSVNAGTYELLDPLAIKIIERSKIKVIVTNYNKLSRLTEIIKGEEIASIVEPE;locus_tag=LOCUS_22230;gene=pyrH;note=WP_010979322.1 UMP kinase (Sulfurisphaera) [pid:68.0%25%2C q_cov:93.0%25%2C s_cov:99.6%25%2C Eval:1.4e-83],MGA_2224
sequence1	MetaGeneAnnotator	CDS	1980594	1980869	.	+	0	ID=MGA_2225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846949.1;translation=MSILDQEEFKQLRNFKGKVDSELVKRILEEVELDFEKSGNIKSSIIFIYTNYIQQIKQNRDFFNLLSIILEKYTPKLGIDNVNQLILSSIS;locus_tag=LOCUS_22240;note=WP_052846949.1 hypothetical protein (Sulfurisphaera) [pid:55.6%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:4.0e-23],MGA_2225
sequence1	MetaGeneAnnotator	CDS	1980944	1982323	.	+	0	ID=MGA_2226;product=homocitrate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979323.1;translation=MKLGILDSTLREGEQTPGVVFTTDQRVEIAKVLSDLGVNMIEAGHPAVSSDIYEGIKRIMKLKNEGEINSEIIAHSRAVKRDIEIGAELEVDRIAIFFGVSDIHLKAKHKVSREEALNIISEHISYAKSHGVNVRFTAEDATRTDLDYLIQVIKTAKEAGADRIGIADTVGILYPAKTVELFSFLTRQVSGVEYDIHAHNDLGLAVANSLAAAEGGATIIHATVNGLGERVGITPLQIIAAAIKYHFGLDVVKLDKLTKISSLVEKYSGISMPPNYPITGDYAYIHKAGIHVAGILNDPRTYEFMPPETFGRSRDYVIDKYTGKHALKDRFERLGVKLSEEELEQVLAKIKTQNTRFLRDVDLLEIAEGVTGKILKPRPPEKIEAMVSIKCDSNIYTTSVTRRISVIPGVSEVLEISGDYDIIAKVEAKDSVELNNVIENIRSVKGVSSTLTSLVLKKM;locus_tag=LOCUS_22250;gene=lysS;EC_number=2.3.3.14;note=WP_010979323.1 homocitrate synthase (Sulfurisphaera ohwakuensis) [pid:82.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-218],MGA_2226
sequence1	MetaGeneAnnotator	CDS	1982466	1982753	.	-	0	ID=MGA_2227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSYINDKIESVLSEIVSNKGFVNVKTLSPKLVSNIHKSLKFIIPKDAKEVMIVLPLGVYKEIDVENLKFDLKNVFHEVEIYESSISETIIIFYK;locus_tag=LOCUS_22260;note=MGA_2227
sequence1	MetaGeneAnnotator	CDS	1982821	1983108	.	-	0	ID=MGA_2228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEFKEALKSKKLSELLNYGEIYCSKEDFFSLMSLIWDKAISEGLKIEGPILTTERGLNKLQYNVKKNNEVIGEISYYYGNYYLRYKSFVTFSRK;locus_tag=LOCUS_22270;note=MGA_2228
sequence1	MetaGeneAnnotator	CDS	1983188	1983559	.	+	0	ID=MGA_2229;product=putative metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846924.1;translation=MQLEKADDVKRLAEEINTKASLGLDLSKVIFLRSQHSKTTAIARTLGLPPQWRYVFGEDKIYIIEVISEKFDKLTCHQKIYVVVHELLHIPSGMKGGLRNHTYREFRNIRKIIKEKGLDEICW;locus_tag=LOCUS_22280;EC_number=3.4.24.-;note=WP_052846924.1 putative metallopeptidase (Sulfurisphaera tokodaii) [pid:54.1%25%2C q_cov:99.2%25%2C s_cov:97.6%25%2C Eval:6.2e-32],MGA_2229
sequence1	MetaGeneAnnotator	CDS	1983564	1983836	.	+	0	ID=MGA_2230;product=transcription factor S;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878730.1;translation=MRFCPKCGSTMIIKNDKMVCMRCGYSDNKIEKIVYNSKINHDKDKMIVADGKTLEGRLSMSLCPKCGSARALRLKRGLFKCITCGYIYRS;locus_tag=LOCUS_22290;note=WP_010878730.1 transcription factor S (Archaeoglobus fulgidus) [pid:33.0%25%2C q_cov:98.9%25%2C s_cov:97.1%25%2C Eval:1.5e-09],MGA_2230
sequence1	MetaGeneAnnotator	CDS	1984006	1984587	.	+	0	ID=MGA_2231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979008.1;translation=MITLFKALIMLGFEKVAPRTLQRGQVTVRVNFGYDVKWHIDTPLGSATYYSQKAALHGLVLRLAISKEDLEFLASIGLDYAKTELENFEKTMKRIESNDQKAIQNFLKKEDFSKSTKNEEDYFYDIKRQFIKQTIYPRLTQILLENRGRCPICGRIFQDAPSFYNHINMTSVMQKQHKEFLKNVMSEVTGEIP;locus_tag=LOCUS_22300;note=WP_010979008.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:51.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-51],MGA_2231
sequence1	MetaGeneAnnotator	CDS	1984655	1985212	.	-	0	ID=MGA_2232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979896.1;translation=MNLGLLLDIIFLIIDIAIALWNSYNAGKISAYRKGLGRLFYTLGGFLPMGYVAVIILTFILGYFGYISISSAVFLFSFSFLVFGLEIIIWGVIATYTTLVTAVKYRDWKAGLITAYNAFATIFDAWDYISGFFSNLRNVRKAIDSSDFSIIDVILILITGLAIGFIVTYTAYKEGYKAAKTRYWY;locus_tag=LOCUS_22310;note=WP_010979896.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:56.2%25%2C q_cov:94.6%25%2C s_cov:95.1%25%2C Eval:7.8e-53],MGA_2232
sequence1	MetaGeneAnnotator	CDS	1985725	1987248	.	+	0	ID=MGA_2233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGETSEIPPEPNLEGGGLITIVGIAAEILQTLTNDTATSQMQCTKNNEKKLIISGPPSPELYTVKSGVIFANAVNANSIGNEINSVLDLIGNGLIYVTNDNGDTSAYFIGRVKSSWREVVVAQDKWTTKVYLNQNSRDFIQDFQANVNKGGGVNFELGIIYLGKPEFLNPLPEQQCNGQWYDSIFNVWESYLAGIRGGTISSYSTKVYEGFRYMKPVTQWGCRKGYCYISPTFVKPRLSTITASAGMQFLSYLQESGELLQIIPGYKGDLYSPSILAYLYHQFGIKSNGEMSKWLSTFIGSQFVSSDACPGSSSGCSESGVSALIGATVFVKYYGFTPGFFIAFPSPKLQNATTQDLVDWMNKVFYWNPKASEYINFIIGTVSALNSVIHEIKSSEGEDIAEAVRRALLSTVGYTTDKNEYREAAKSIIQKIKKAIELAKNNLQSSLPEYLKGMGAKRNMISYCMGILDSMINDCLHNIDYSEDTTEDDLADQIQQCVIQESQTQCL;locus_tag=LOCUS_22320;note=MGA_2233
sequence1	MetaGeneAnnotator	CDS	1987403	1987780	.	-	0	ID=MGA_2234;product=PIN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846392.1;translation=MENKGICLDTDALIDAFKDGIKKYSGYYTTCISVYEFLRGISYVGKDVGKFKAAIEIYLNVLCLDNNSIITASNIYSDLRKNGELIEDPDLLIGSICIANNLCLRTNNLKHFKRLERFGLRIVKE;locus_tag=LOCUS_22330;note=WP_052846392.1 PIN domain-containing protein (Sulfurisphaera tokodaii) [pid:64.2%25%2C q_cov:98.4%25%2C s_cov:100.0%25%2C Eval:2.1e-43],MGA_2234
sequence1	MetaGeneAnnotator	CDS	1987756	1987983	.	-	0	ID=MGA_2235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978677.1;translation=MTQTTTISVSEKTKELLYVKKKEIEIKLNKTLSWDEFFQEVFGEAEVPKLSDEEAEFLKRIVSEDRKKWRTREFA;locus_tag=LOCUS_22340;note=WP_010978677.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:66.2%25%2C q_cov:94.7%25%2C s_cov:97.3%25%2C Eval:6.5e-21],MGA_2235
sequence1	Barrnap:0.8	rRNA	1988582	1990070	.	+	.	ID=Barrnap_1;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00010;note=Barrnap_1
sequence1	Barrnap:0.8	rRNA	1990285	1993263	.	+	.	ID=Barrnap_2;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00020;note=Barrnap_2
sequence1	MetaGeneAnnotator	CDS	1993598	1993909	.	-	0	ID=MGA_2236;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978750.1;translation=MKKPESTICPIVETIRIIGSEPKLLVLRYLLDGGKGFNELQKLTKLSSKTLSSTLKDLETYDLVKRIIISDRPFRVKYELTEKSKELKGVFEEIQKWGNKYLK;locus_tag=LOCUS_22350;note=WP_010978750.1 helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:67.3%25%2C q_cov:95.1%25%2C s_cov:92.5%25%2C Eval:6.3e-32],MGA_2236
sequence1	MetaGeneAnnotator	CDS	1993974	1994177	.	+	0	ID=MGA_2237;product=CDGSH iron-sulfur domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_024015098.1;translation=MARLVKHDRNKPYEIKADNGQVFYVCACGLSKHKPFCDGSHKRTLDEEEGIYIYDENGRIKVENFYP;locus_tag=LOCUS_22360;note=WP_024015098.1 CDGSH iron-sulfur domain-containing protein (Aquifex aeolicus) [pid:60.3%25%2C q_cov:92.5%25%2C s_cov:96.9%25%2C Eval:2.1e-16],MGA_2237
sequence1	MetaGeneAnnotator	CDS	1994657	1995184	.	-	0	ID=MGA_2238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLISRPGNDFNEIGINDIPVIPTSFYMSTLGGYAATGAYGFGALKNGALWDNLIEVEIYTPKGFYTVTGKNILSTTLAAGTTGIITKIKMRLVNRKYKKINIVKKTFNSLSKALDDAFNILNSTEFLSIRNYGMAKEIDPEYSWDKWNIIYGVYDENGQSYATKDIITSFAGSSQ;locus_tag=LOCUS_22370;note=WP_010979025.1 FAD-binding oxidoreductase (Sulfurisphaera tokodaii) [pid:53.5%25%2C q_cov:98.3%25%2C s_cov:45.4%25%2C Eval:4.7e-49%2C partial hit],frameshifted%2C insertion/deletion at around 1994665%2C1995239,MGA_2238
sequence1	MetaGeneAnnotator	CDS	1995207	1995485	.	-	0	ID=MGA_2239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKDILSKYFEIYTDKEILEKYSMDYSYLSSTLYDLKKVPEAIVKITTEEQIKTLLELSQEYNFYIIVRGSGTNTLGETVPIKHYNCRHYKF;locus_tag=LOCUS_22380;note=WP_010979025.1 FAD-binding oxidoreductase (Sulfurisphaera tokodaii) [pid:59.3%25%2C q_cov:87.0%25%2C s_cov:21.8%25%2C Eval:1.0e-21%2C partial hit],frameshifted%2C insertion/deletion at around 1995239,MGA_2239
sequence1	MetaGeneAnnotator	CDS	1995776	1996285	.	+	0	ID=MGA_2240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFYVGSLSRLKIISVKEVLKHYMTSYEIIPFNSPSEVPRTPWNDETPTGARNRAENMRKKFLDNEGVYIGLESGLVERFNQIYEETWCVIIYKDKEFSAYSSGLRLPRQVVEKIKQGVPHSKILNQLSKQLNASPKDTWGLYTKFKLSRKVEIKEAFRNALILMLTNI;locus_tag=LOCUS_22390;note=MGA_2240
sequence1	MetaGeneAnnotator	CDS	1996287	1996991	.	-	0	ID=MGA_2241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINGIKGLIDLPGEIPWEIILAYYIIAPTLVFLIAKRRRALKNFTTLDWVYIGIGAAAGVVWEFYLGAFIDRVEPKGIEYFIDPGFWGRMIILFVIAGVVRKTGVGMVSLTVFTFLSDLFHYGFGGEPLYFFYEALTYGLFIDAIIAFTGGKPFGISSKTYPKILAAIEGAIVGILWGIPDPIIYEAFYRPFIYGAVVDWQKVYFDLYTHLAFIWIAGLIGGLIAYRIEKAIQI;locus_tag=LOCUS_22400;note=WP_010978301.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:46.9%25%2C q_cov:61.1%25%2C s_cov:98.6%25%2C Eval:8.9e-35%2C partial hit],MGA_2241
sequence1	MetaGeneAnnotator	CDS	1997647	1998684	.	+	0	ID=MGA_2242;product=encapsulin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978997.1;translation=MFSSDPSVITRKEKMDKEEAVRAIRGALMAELDAINYYLQQGKLFNQDFIKKVHDDIAKEEITHFGEFLRLLYETSKEDFEYMVKGWNEASKLIGSNPSFPITLSSTLEEKAQKENQDMNVEYFIAKALEERKIRNYGTILKYGDESISIYDLEDTGNKLIQKDNSSLYKIEHLNVEFEIRSDLSITRTMDIIYKAGLKYSKLEDLLLLSNHPLSLSERGIKEKPSDWEIPGNIAFDIIKSMETIESSGYSDIAVVISPSLYAKLFRVYDKTGSYEIELLRHCCEMIVSPYLSGLIVFSKKGFYILENSPASVEFLGKEGVYSDYLISGKISPYLIDSNAAMILK;locus_tag=LOCUS_22410;note=WP_010978997.1 encapsulin (Sulfurisphaera tokodaii) [pid:45.4%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:7.0e-86],MGA_2242
sequence1	MetaGeneAnnotator	CDS	1998676	1999332	.	-	0	ID=MGA_2243;product=HAD-IA family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980712.1;translation=MIKSVFVDFGSTLVGFRPVFYERVHEIVKDNGYNFDKKKVFRAYVKAMALNNFPDENGHNPVNLKDFLYFLGITPNEKLVKSLNESNIRDGEAFLYDDTIDFLEGIRSLGLKIVLVSNATKGIHKLIDQFDLRKYFDSLVISSEVGYVKPNPKIFYLAISKGGYPAIHIGDIFEVDYIGAKRAFLDSILLDRCNFYPDLNVKKEKDLKYVLSDIEKLL;locus_tag=LOCUS_22420;note=WP_010980712.1 HAD-IA family hydrolase (Sulfurisphaera tokodaii) [pid:60.0%25%2C q_cov:98.6%25%2C s_cov:97.3%25%2C Eval:5.0e-74],MGA_2243
sequence1	MetaGeneAnnotator	CDS	1999362	2000741	.	-	0	ID=MGA_2244;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980514.1;translation=MKLQDVFKPLDDKKFDMFHIKALFTTGMGVFTDGYLLSSISLVLLDVLGTFGITKESRLYDLWLGVLTGTVFIGAALGAIIFGILANKGRKTFYGVDVALMTIGATLQAFVSSPIELALVRFLVGIGTGADYVLSPMIMAEHSNAKDRGKLIALGFGMMWSLGAVTASLLYLGISPLVSTNVLWRIILAAGALPAASVIYLRRKVPETSRFLLRIKGDNIKFSKVVKEITGKEENIKENLRDCSSILSYFKNSGKVFLIAAILWFLFDLTGYANGLFGPTLIARSIGIYDPAIFSLIITAIFGFPGKIFGISRIDKLGRKPLQAIGALGEGIFLAIFAILLPSEAYLPAEMLLIIYGLHDFTSSFGPGIISTAGMLGVELAPTKVRGIVQAITVASGRTGAAIASFLFPILFVSISKEVAMMFFAILMFIAAILTWFSIPETKAKPLEESSKERIAIKS;locus_tag=LOCUS_22430;note=WP_010980514.1 MFS transporter (Sulfurisphaera tokodaii) [pid:56.0%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:2.3e-146],MGA_2244
sequence1	MetaGeneAnnotator	CDS	2000821	2001498	.	-	0	ID=MGA_2245;product=TatD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846925.1;translation=MYYDAHCHYSLLKKKYENFKIAAVSMDYSSSINTLSISDKNILKGVAIHPWNVDKENIDNVLHLINKADFIGEIGLDFKYSKAAKDLQIKYFENFLENSQNKTVNVHGLCAWKETLDLLLKHNIKKAIIHWYSGPIDLIKDIEGAGYFITINPSVTFQEKHKKVLENAPLNIIITESDGGYEYKGKLLEPSDIILALDFISKIKEIDLRTLNTIIENNFRKAYNI;locus_tag=LOCUS_22440;note=WP_052846925.1 TatD family hydrolase (Sulfurisphaera tokodaii) [pid:61.2%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:7.7e-81],MGA_2245
sequence1	MetaGeneAnnotator	CDS	2001507	2002037	.	-	0	ID=MGA_2246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979643.1;translation=MAYKCCDKDFNDKKSFLKHIKSNNWHFLTSSDFIRLDLNYEDSLRIIQNKDLIYNSIGIVRLKENIGFLALPISREFYGNVLKTGILGKINGPNYNLGLINYTFNSKNLIYEISFRPRKIPDKTEITSIVTMRINIGLSGKIFPSTVLKSLQKVLLPEKVLNNLDLQLSTFIKIKA;locus_tag=LOCUS_22450;note=WP_010979643.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:38.0%25%2C q_cov:93.2%25%2C s_cov:96.0%25%2C Eval:7.1e-29],MGA_2246
sequence1	MetaGeneAnnotator	CDS	2002113	2002553	.	-	0	ID=MGA_2247;product=universal stress protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429665.1;translation=MFERILVAYDGSEHAKKALAIGIDLAKVYNSRLYIVEAIDESVFYNTGVLPPLSAIKDLEKKVRKDVEEATEIAKKEGAGTLREVDIIGEVIEGDPATAILDFADKNSINLIIIGSRGLSRFKRVILGSVSSVVLNHSKVPVMVVK;locus_tag=LOCUS_22460;note=WP_198429665.1 universal stress protein (Sulfurisphaera tokodaii) [pid:51.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-34],MGA_2247
sequence1	MetaGeneAnnotator	CDS	2002598	2003131	.	-	0	ID=MGA_2248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978974.1;translation=MESRAKQLLEESIDEVEKYGSFTSMYLLLKKVYSDFEKLTKEGRIDYNIKVDDLILISLHEREMNKISLFVSSFLIYDYLSKNYIVQDGLFYFRWNKRIFVYSPRIESHIYYLIRLGYLQGIKNFKLTNRGYEEAESILLSLNCEDRKNIKNIIIDICLKTKLKELKEYVKKYLFNY;locus_tag=LOCUS_22470;note=WP_010978974.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:44.4%25%2C q_cov:96.0%25%2C s_cov:96.0%25%2C Eval:5.5e-29],MGA_2248
sequence1	MetaGeneAnnotator	CDS	2003131	2004864	.	-	0	ID=MGA_2249;product=alpha%2Calpha-trehalase TreH2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_184651037.1;translation=MIDFYALLSNGITAALENEGSIDWFPCPRYDSPSIFSKILDKNGGSFTIRPLIEYFYKKEYVGNSLILKSEFKVKDGKRLQLIDFLPLSLPAIIRIYDSEIPFYAEVNPLFEYSLIKPGVQFLESGIIFTNPRSREGVEVLLNGSYTFEENKIIFNPGKGFLYLLYSKDLRYGLFSKKGFVYSRPYEALDKALRYWDSQISKAKKIRNFEKEYYRSLTVILGLTYNPSGGVIASPTTSLPEIVGKERNWDYRYVWVRDASYSAEALIRSGLYIRGRDILSFLTSMIDPSSKSFDHPFYSIDGTAPPAEEELTWLEGYKHSKPVRIGNGAYMQVQSDIEGAYMHGLYTYYKETKDEGFIKDVWWAVDAIANWVKNSWKDKSTDIWEQRGIYEHFVHTKVMDWVAVDRASKLAEMLGIETDWKKIADEIKEDVLANGYSEKTKSFVRYYGSEEVDAALLTLPLYNFISVNDPRFISTLQRIEKELSVSNSLLLRYKDDFLGEVSNPFTLVSTWLARVYIRLGKIDYAKNIINNLIECSTDLGLIAEHYERDTCYPMGNFPHLFPHSGLILALIELEEIK;locus_tag=LOCUS_22480;gene=treH2;EC_number=3.2.1.28;note=WP_184651037.1 alpha%2Calpha-trehalase TreH2 (Sulfurisphaera ohwakuensis) [pid:58.7%25%2C q_cov:97.2%25%2C s_cov:93.4%25%2C Eval:2.6e-201],MGA_2249
sequence1	MetaGeneAnnotator	CDS	2004861	2006183	.	-	0	ID=MGA_2250;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978976.1;translation=MNSLAVNTQTPPIRFTVTFKDIIERYGVLSLPLDLSLLSSDEYYVSVGGVSKMMLGFLDRVKSTKKRWVSLGPGYPPSALLNDIEVHFVDLPPEQLAKYTRFKEGIYNESHGVSKYEINGDDYIAYATYNWVSAQKLLEFYSDTDAYFINDFQQLLVGGIIGPSAPAVLWYHIPFVPENLDDRLREFLVRSFEGFDSVIFSTKRDIEGLVRTGAKVNVKQIYPFIDPNAYQSKNKEEVGKIEEKFGIKDNDKVVLVVARMDPIKSQDIAIKAVKNLNVKLVLAGDGSFTSKTLGHNKAGNWVRKLKDMTKDLKIEDKVIFTGYVSDDELMSLYQRANVVALPSNIEGFGLTVCEGWLYKKPVVVSKGAGASEIIIEGGNGYTFNPGDYEDMAKKIELAIQNQDKLGEMGLESVKKCLVDNAISELNSVLEEAISSYRGKK;locus_tag=LOCUS_22490;note=WP_010978976.1 glycosyltransferase family 4 protein (Sulfurisphaera tokodaii) [pid:58.1%25%2C q_cov:99.1%25%2C s_cov:99.3%25%2C Eval:4.1e-153],MGA_2250
sequence1	MetaGeneAnnotator	CDS	2006255	2006524	.	-	0	ID=MGA_2251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRLINWKLNVVESSLNIEEIIDNINSDVIILPLSKNRIIEYIKSQDIDTLEKLVIRKEKKVKIRKEIKKLSEEGFSINILIKGFNKYD;locus_tag=LOCUS_22500;note=MGA_2251
sequence1	MetaGeneAnnotator	CDS	2006762	2007415	.	+	0	ID=MGA_2252;product=ParA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846794.1;translation=MFRLSIVGAKGGVGKSTLAYYLALEFSKNKKVLIVSIDGSRTLSEIFNVSGSLLDNTDFYYEKGNLSFISFSSGGKDVSIDTVENIYLQYIIGKDIVIVDNPVHLGKDIILEYSAFSKMSNTRNYILGVSSPQSFVITATKNFLKEYSSALSSNFNEIGIVINFFKGDKIDEFKVYTRIFTIPFIKELLYKGFWNIETPKEFKCLSKTILNILENEG;locus_tag=LOCUS_22510;note=WP_052846794.1 ParA family protein (Sulfurisphaera tokodaii) [pid:29.0%25%2C q_cov:87.1%25%2C s_cov:90.5%25%2C Eval:7.1e-12],MGA_2252
sequence1	MetaGeneAnnotator	CDS	2007451	2008701	.	+	0	ID=MGA_2253;product=arginine deiminase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010923212.1;translation=MFTIKAEWDRLRGVLVHEPGIEMFYGVLDPESFLYMRRFNLQRALLEHKKMQDTLKELGVTVYRLKDVILDKANSDQKIMDYLKKLALESIRFEGDGELEKQLQDFEEDINKLDPESLFNIVLLKPTVITHKALGTSESTPRIINEEPLANLYFTRDQTIVTDEGIVLGRMSKRIRRRETILLKLAIESLSENIIKEISEPAFAEGGDYMPFKNFAIFGTGDRTTIAGAIQVSDALNFNEIVIAYNPVIQANDYMLSMHLDMYLNTPMEGIIVSNKKILQSTRADVYEKKEGKYVLKERTNLLDFFIKKRFDIIDITLLEQISYSTNFLTIKNGQIVTLDSEKNSKYVLEYVNSRGYMDLSNEINLEYTKLKEDKRFFPRKKEIDDFGIDFVIADVGELTGGFGGIHCMTMSLYRN;locus_tag=LOCUS_22520;note=WP_010923212.1 arginine deiminase family protein (Sulfolobaceae) [pid:32.4%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:8.8e-49],MGA_2253
sequence1	MetaGeneAnnotator	CDS	2008797	2009159	.	+	0	ID=MGA_2254;product=DsrE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979901.1;translation=MNDKVLFVFMTGRENMAKLLANIGMAAKIKSADPGITVEMIFLTPAVESLNKKQVIFKPILETVKEAKKVGVKVIACEVAMKNVGLDKDDIEENLVDEFAPIGGIYVLNKIKEGYEVLTI;locus_tag=LOCUS_22530;note=WP_010979901.1 DsrE family protein (Sulfurisphaera tokodaii) [pid:31.9%25%2C q_cov:96.7%25%2C s_cov:97.3%25%2C Eval:2.6e-09],MGA_2254
sequence1	Aragorn:1.2.38	tRNA	2009363	2009436	.	-	.	ID=Aragorn_29;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00290;note=Aragorn_29
sequence1	MetaGeneAnnotator	CDS	2009530	2011032	.	-	0	ID=MGA_2255;product=ammonium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978643.1;translation=MGNKYIKLITISILLFPIIFSLISISASSSAIQSLNSSIQSILNRTADYPSASVPSWLSLGSNSWMLTAATFVGLQSVPGVALYYAGLSKKKYAVNSALMVFYAFAAVLIIWMIAGYNFGFGKPTLVIDHFGILGTPLPAWPGTYEASQTIYGPGYSPVDIPTSTYIFFQFVFAAITPVLLAGGVLERMNFKAWMIFVPFWSLLVYSPVAYWLFAGGWLNQLGAVDFSGGYVIHVDAGIGALAAALAVGPRLASERKLEAHSLPLILAGAGLIWLGWDGFNGGDPGGATIDAAIAVLNTNIATAASAITWMLMDMAFFKKPTLVGATSGAITGLVAITPAAGYVNGLYSIIIGIASGSIPWLALYKLEPKLKIDDTLGVFSTHGIAGILGGLLTGIFADPAVTAYIDPGLTGALYGNWYQLGIQAFAALIVVVYDFAITFGLLKLIGLFIPLQAPPDTLQIGDYAMHGEVAYSELLATIPESAKKEEVEEKTEEKDLDKK;locus_tag=LOCUS_22540;note=WP_010978643.1 ammonium transporter (Sulfurisphaera tokodaii) [pid:82.9%25%2C q_cov:89.6%25%2C s_cov:86.7%25%2C Eval:3.8e-214],MGA_2255
sequence1	Aragorn:1.2.38	tRNA	2011440	2011528	.	+	.	ID=Aragorn_30;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00300;note=Aragorn_30
sequence1	MetaGeneAnnotator	CDS	2011569	2013836	.	+	0	ID=MGA_2256;product=STT3 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978933.1;translation=MVMQSIKSVSRVLRKTTLTDMILVSSIALVSILIRAISADYPLTINGFDSWYLFYNAVMIAQAHGNWYAVPPDVHAWYPWGFFIELDDTIGLPFIVALLSLPFSSYGTNAVYTVTIFMDIALAGLGVAAAYLAVDGITKSRVGALIAAIVVAVSPALTYKNIIGGLPKDSWGGVFVLFTIYLLNYAIEKKKPLYGAIAGVPLFLAEISWGGYTYIDLSLIVAAFVLILLNRNDINTAKSFTLMGVVTAFLTSFAPNNIGFMSGLAHGFSLLLVGLLLFADLYLKEIIPKELSDARPMVLTSILVLIFVLAIVGLSFLGITPIPARYYAIVDPFYQFTVPIDRTVAEYIPQSISSMIQDFGVSLFIAIIGIYYILKSGNLSALWLMILGVVSIYGTSEQPYLFNYTAYMVAPLAGIGIFFIISKLKDVGSRLIPIMLLALVGISLVGDAASAIMASNEPNAIVTSASPYPVLNYAWVNALDWVNSNTPPHSFILSWWDYGYWDEVIGNRSVIDENNTLNGTQIKLMAEMFLNNESFAANVLENDFHIKPYNGSPNQVPAYILAYDAVTLAYSSGSSSFSLDAYIGYPVDMGGPFLGYTTSLGDIGKAMGAMTIIAGYPISEYINSTLVSQQISAINSTYGANPATASEAQTLESYIANSYVMAWTSKAYQSLIVQMFIEALQDEGFQVVAPFTTSFSTTGISGGKILPPVHLDYFQPVHIALYPLYESRAYGYIVYIMVMVYEFTQPGYVIPNSSS;locus_tag=LOCUS_22550;note=WP_010978933.1 STT3 domain-containing protein (Sulfurisphaera tokodaii) [pid:56.3%25%2C q_cov:99.2%25%2C s_cov:98.4%25%2C Eval:6.8e-245],MGA_2256
sequence1	MetaGeneAnnotator	CDS	2013826	2013996	.	-	0	ID=MGA_2257;product=RNA-protein complex protein Nop10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978934.1;translation=MKWKLRKCPIDGTYTLKDNCPICGSKTIVPHPPRFSPEDKFVKYRLEMKKGRKLNC;locus_tag=LOCUS_22560;note=WP_010978934.1 RNA-protein complex protein Nop10 (Sulfurisphaera tokodaii) [pid:75.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-21],MGA_2257
sequence1	MetaGeneAnnotator	CDS	2014362	2015144	.	-	0	ID=MGA_2258;product=translation initiation factor IF-2 subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978935.1;translation=MIYNKHPLPREGDILIATVKQIFDYGSYVTLDEYGGLQAFLPWSEISTRWVKNIRDVIKEGRKIVVKVIRIDRRKGTVDVSLKKVTDDEKRKKNAEWKKIQKTDKILEIVSKKLGKTEKEAWEQVAWKLEDKYGDVFEAMQKASKEGEKVLLEAGVPEIWIKPLIEEASKHSEERKYKESTIIILRTTDPLGVEKIKKVFSEALPKEENVTVKVYSIGAPRYRIEVLGSEPKEVAKNLSEIVENIKTLASDEGLEFGNAK;locus_tag=LOCUS_22570;note=WP_010978935.1 translation initiation factor IF-2 subunit alpha (Sulfurisphaera tokodaii) [pid:69.0%25%2C q_cov:98.5%25%2C s_cov:98.1%25%2C Eval:9.8e-105],MGA_2258
sequence1	MetaGeneAnnotator	CDS	2015147	2015344	.	-	0	ID=MGA_2259;product=30S ribosomal protein S27e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978936.1;translation=MKKLRVLIPEPKTKFVRVKCPNCGNEQVIFSHASFPVRCLSCGTQITYPTGGKAKIVGEIIRDMS;locus_tag=LOCUS_22580;note=WP_010978936.1 30S ribosomal protein S27e (Sulfurisphaera tokodaii) [pid:78.3%25%2C q_cov:92.3%25%2C s_cov:90.9%25%2C Eval:3.3e-25],MGA_2259
sequence1	MetaGeneAnnotator	CDS	2015341	2015628	.	-	0	ID=MGA_2260;product=50S ribosomal protein L44e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978937.1;translation=MKVPKLVKMYCPRCKTHTEHSVTLYKSGKRRTLSEGQRRYDRKNLGYGSKRKPEQKRFAKVTKKQVLMFKCQKCGYTIMKHGIRVKKLELAEVIK;locus_tag=LOCUS_22590;note=WP_010978937.1 50S ribosomal protein L44e (Sulfurisphaera tokodaii) [pid:80.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.9e-43],MGA_2260
sequence1	MetaGeneAnnotator	CDS	2015630	2016079	.	-	0	ID=MGA_2261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978938.1;translation=MLDEILAEELKNENLSSISLDNLSKDIEILRKLRLRYNDEIHKKEIKIYEDIAESIFEVRIGKYIENELKSSDFDSFVFDFLSKLKDIYISILTGNIVFNKDRIMCKVSKQINIKDKVLNPGDIIFLPIKVAISLWTAEYIIPYKLVNY;locus_tag=LOCUS_22600;note=WP_010978938.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:43.8%25%2C q_cov:98.0%25%2C s_cov:99.3%25%2C Eval:1.8e-28],MGA_2261
sequence1	MetaGeneAnnotator	CDS	2016069	2017052	.	-	0	ID=MGA_2262;product=DNA primase small subunit PriS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978939.1;translation=MIFTLHQGLNNLVKTLFREYYEKANLELPFDMELREFAFQPFDSPTYVRHLSFNNEIELRSFITKTLPLHLFYSSAKYQMPSAKDMEEKGWMGADIQFDLDADHFCNVRKFNFCPVCGDYVSGDKCPKDGSQTIEYMEITEECINITKDKTIDLVDILKEDFDFKPKIYFSGNRGFHVIIECSGDCALLNSDARKEISEYVMGFNVPKYQGKPCDPGWPGRLAKNKKGVEIDEQVTIDTKRLIRIPGSLHGKSGLIVKQIDDILKFSFNKDLSPFTGFSVFKPFISGEFNLLGNKIKFYKNTPIKLETSIAIYSTLKNLGEVTLYVR;locus_tag=LOCUS_22610;gene=priS;EC_number=2.7.7.-;note=WP_010978939.1 DNA primase small subunit PriS (Sulfurisphaera tokodaii) [pid:54.2%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:1.2e-95],MGA_2262
sequence1	MetaGeneAnnotator	CDS	2017021	2017692	.	-	0	ID=MGA_2263;product=DNA polymerase sliding clamp Pcn3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978940.1;translation=MDDATIISTKDGIKVSGIDPSRVVFIDIFLPSAYFEEFESEEKETYGVSLEDINGVMRRVGKNDSVIIETAQEKIKIDINDDFERIFSLPILTTQEQQNPSINLEFPFKAKLLTVTFADVIESLANLGDSITISSEGGKLYFEVTGDMGSSKIELSVDNGGLIESEGSDATGNYGIEYILNTTKMRKPSDTVQLLFGSQLPLKLHFELPQGGYGDFYIAPRVE;locus_tag=LOCUS_22620;gene=pcn3;note=WP_010978940.1 DNA polymerase sliding clamp Pcn3 (Sulfurisphaera tokodaii) [pid:55.1%25%2C q_cov:100.0%25%2C s_cov:91.5%25%2C Eval:2.5e-68],MGA_2263
sequence1	MetaGeneAnnotator	CDS	2017610	2017792	.	+	0	ID=MGA_2264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSINTTREGSMPDTFIPSFVLIIVASSMKSPNVLKMYEIADASTALNFMILYNNFKEYKV;locus_tag=LOCUS_22630;note=MGA_2264
sequence1	MetaGeneAnnotator	CDS	2017799	2018563	.	-	0	ID=MGA_2265;product=ATP/GTP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978941.1;translation=MYFIFFTGTAGAGKTTMVKEFQDYLLQLGLDTAVINLDPAVEQLPYAPDFDIRDYVDALEVMEKYNLGPNSSLIASIDLVLTKAAEIKKDIDNIEANYVLVDTPGQVELFAYRDTGRIISSLISGENKAVNVFLMDSFLAKEARSYVSLLLLSSAIKFRLNLPQIDALSKIDLLNEKESAKISSWGEGEELIDELGVVDDYSFELVRTIVENLDNPPIPVSATKNIGFDELYAIIQRILAGGEDYLTEENSPRL;locus_tag=LOCUS_22640;note=WP_010978941.1 ATP/GTP-binding protein (Sulfurisphaera) [pid:69.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-97],MGA_2265
sequence1	MetaGeneAnnotator	CDS	2018616	2019488	.	+	0	ID=MGA_2266;product=ribose-phosphate diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978942.1;translation=MIIVGGPAANGIDEKISKILKYDLVKVEHKIFPDGESYIRFPKSLENEEVAIVQSTYYPQDKHLIELFLMIETARDMGASKVSAIVPYLAYLRQDRRFKDGESLSIKTVLGILNDVGCDSLIVVEPHKIDALKYFNGEIKIIDPIPALAREIRKEVENPFVLAPDRGALNRAERLAKELNAPFTHIEKERDRTTGEVRIKELPTDNFTGKDVILIDDIISTGGTLELASITSYKLGAKKVIAAAAHTLLVNNALDRLKKAGVKDIIGTNSVKVEAEIKIADISDLIAVKL;locus_tag=LOCUS_22650;EC_number=2.7.6.1;note=WP_010978942.1 ribose-phosphate diphosphokinase (Sulfurisphaera tokodaii) [pid:58.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-95],MGA_2266
sequence1	MetaGeneAnnotator	CDS	2019485	2020411	.	+	0	ID=MGA_2267;product=DNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978943.1;translation=MKYALLSAEELFVSMAEISSLVKSKISFFTGVAIFNDYNASIAKHSSTIKYSGELVSISDNPEDIIEKIKGECFSVKPNIIMNSQKDKFNEIYNKILDSIKLSRKCKILDLIFTDGVIIAGIREDERDTKSLNMHAKKPFSQSGTMDSYTSRLLVNLASPKKQVLDPFVGVGSILLEAAWIGYTCIGSDIDKKMIDKTRYNLNYFGYNCEILESSATNLPYREVESIVTDPPYGRSSSAKGEKLDKLYEDFFFESANSLKKGGKLVFASDSTRDWRDKIKSSGLKVQAVHFIYLHKSLSRAIYVVIKP;locus_tag=LOCUS_22660;note=WP_010978943.1 DNA methyltransferase (Sulfurisphaera tokodaii) [pid:51.6%25%2C q_cov:99.0%25%2C s_cov:98.7%25%2C Eval:8.8e-90],MGA_2267
sequence1	MetaGeneAnnotator	CDS	2020408	2021280	.	+	0	ID=MGA_2268;product=ribonuclease Z;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978944.1;translation=MIEIYFLGTGGGAPSKRKLPAYLIRRNGFSALFDCGEGTQITMIDHGISIMSIKLIAITHLHADHVMGVPSIIQTMAMYSRTDKLYIMGPRKIQEFLKASFEGTYFCPSFPIEFIDQYEDNEITIRPFKTKHVIPSQGYIFQEKEKVNIDKERIQRDGIKDWRIIKDLKSGKEVKIGNRILRPEDYLIKKEGYKISYTGDTSGYDNVIKSVKDSDLLLHDSTFLDDINAEEYGHSTVSIAARIALDANVKRLGLIHISGRYENLCIFEEISRKIFEKSFVPKDLSYYLFR;locus_tag=LOCUS_22670;gene=rnz;EC_number=3.1.26.11;note=WP_010978944.1 ribonuclease Z (Sulfurisphaera tokodaii) [pid:56.2%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:4.9e-95],MGA_2268
sequence1	MetaGeneAnnotator	CDS	2021249	2021704	.	-	0	ID=MGA_2269;product=RNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978945.1;translation=MTKITVMAEIRPSEDEDKIKVAIATFFDYEKIIIEERELNKLLIEEAYSLASLKKFHKILREERILDVARKYLIKGIEDDTITFMLHKQAASVGIISFIDEEKESPLGPIIVTIEYKEPMKVIDWLAPKTSKGQPLWENPIPNEKDNMKDL;locus_tag=LOCUS_22680;note=WP_010978945.1 RNA-binding domain-containing protein (Sulfurisphaera tokodaii) [pid:61.4%25%2C q_cov:96.0%25%2C s_cov:100.0%25%2C Eval:2.3e-47],MGA_2269
sequence1	MetaGeneAnnotator	CDS	2021701	2022207	.	-	0	ID=MGA_2270;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978946.1;translation=MPGSGKTLFANLLKEKGFTVISMGDALRKRYEKDAKYGERLMDYAKRIREIYGDGVVARLSIEEITQSTTKIAFEGVRSLAEVEEFKRIGEPLIVAIHASPQLRYSRMTARMRADDSTDVNILRKRDLDEISLGIGGVIAMADYVVVNDSTVEEFKKKSTDIIERILR;locus_tag=LOCUS_22690;note=WP_010978946.1 AAA family ATPase (Sulfurisphaera tokodaii) [pid:56.3%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:5.6e-49],MGA_2270
sequence1	MetaGeneAnnotator	CDS	2022271	2022822	.	+	0	ID=MGA_2271;product=RNA 2'%2C3'-cyclic phosphodiesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_221267029.1;translation=MRLFIAVEIKQIPTILSLINSIKQTNADVKLVDPENIHLTLAFLGEVEDLKLSRIEDSMNSVKFSKFNIVLRGTGAFPSISRPRVVWIGIEKGFNNMKDIRAQLVSNLKLNGIKPEDDKEFVPHITIGRVKGPRNLSELSSFIIKNANELYGEMEVNEIKLFKSTLTPKGPIYEVLYAIRANN;locus_tag=LOCUS_22700;gene=thpR;note=WP_221267029.1 RNA 2'%2C3'-cyclic phosphodiesterase (Sulfurisphaera ohwakuensis) [pid:51.9%25%2C q_cov:100.0%25%2C s_cov:93.8%25%2C Eval:3.9e-52],MGA_2271
sequence1	MetaGeneAnnotator	CDS	2022788	2024056	.	+	0	ID=MGA_2272;product=CCA tRNA nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978948.1;translation=MKSYTQLEQIINEVLSRIKPTEEDEEKVLEKANEVIAHLKGFDVQIHGSFRKGTWLKDDADVDVFVFFPKNVGKEYLEKDALKILKDRLSDFDITIAYAEHPYLIVNNKGIEIDIVPGIKVESGDKAITAVDRTPFHTEFISTHLTESQKDDVRVLKRFMKGIGVYGAEIKIQGFSGYVNELLIVKYGSFLNVVENAKKWKVPVLIDLVKPQKNFDAPVIIPDPVDPKRNAAAAVSLNSLAKFVIACNYFSKNPSISFFYPPESPSDIIKGDILVTKIYIKERAVEDLLWGQIYKNIDKIRNELRVSGFNVMDIKAYGNSEIVTIAIQLESKNIGKYYVNHGPLFYMMNAVEKFIKDNTNVWVGEDGRLYSLKERKETNAEEIVKNSISLKYTYKLEQYWLEKEPSEPCLKEFLRKTPSWLI;locus_tag=LOCUS_22710;gene=cca;EC_number=2.7.7.72;note=WP_010978948.1 CCA tRNA nucleotidyltransferase (Sulfurisphaera tokodaii) [pid:55.1%25%2C q_cov:97.6%25%2C s_cov:99.3%25%2C Eval:1.4e-134],MGA_2272
sequence1	MetaGeneAnnotator	CDS	2024011	2024634	.	+	0	ID=MGA_2273;product=serine/threonine protein kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846443.1;translation=MSERVFEKDSKLVDIKYFIYPSYDYDIYRELLENGIKYAYSFGDLNLGKVKVIGKGKTGIVALISSNRVIKIRRSDSPKETLELEAKIQQRAFPSSPKIYHYGKNFIIMDYIEGRKLRRNDRSYLIDLLKRAKYLEDVYIEHMELSRPWSNVIVSTERTYIIDYDSASFKEKPYNVTKILSAFKLNDIAKEYKLGKLDFDKIISILS;locus_tag=LOCUS_22720;note=WP_052846443.1 serine/threonine protein kinase (Sulfurisphaera tokodaii) [pid:59.7%25%2C q_cov:94.2%25%2C s_cov:96.5%25%2C Eval:3.2e-59],MGA_2273
sequence1	MetaGeneAnnotator	CDS	2024621	2024839	.	-	0	ID=MGA_2274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIPVKYRCKNCGYELYKFEKVGQDFYGVRTPSEIKSIYGGRCPKCGHPLGIPNVGEIKISLKKKIYPMTK;locus_tag=LOCUS_22730;note=MGA_2274
sequence1	MetaGeneAnnotator	CDS	2025093	2025749	.	-	0	ID=MGA_2275;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846712.1;translation=MILTLISSATAVFVDFILFTPLSYYLSRNNDFLADSLANVPASIPHPIVGVALVFLDSPYTPIGIFLEKLGINFFDSYPGLTAALVIVSAPIYIQSLKGFFDSLPRSHENYARSLGAGELRTLFSVVMPMSYKGMITSLLIAMSRAMSEFGSIAIIAYYVLNPPFNGVTPAPILIYEYFGYYGPKVAVTASAIMITIGIVLLLSIRIIQRKIGGAAGI;locus_tag=LOCUS_22740;note=WP_052846712.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:46.8%25%2C q_cov:94.0%25%2C s_cov:76.1%25%2C Eval:1.7e-50],MGA_2275
sequence1	MetaGeneAnnotator	CDS	2025700	2025897	.	+	0	ID=MGA_2276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSTKTAVAEEINVRITPSIKDIENAWGDLNTKNPIYIKISTGTAKIRDKKIPNNFRMLITILLS;locus_tag=LOCUS_22750;note=MGA_2276
sequence1	MetaGeneAnnotator	CDS	2025875	2026888	.	-	0	ID=MGA_2277;product=extracellular solute-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980107.1;translation=MNKTALIGIIVIVIILMGIAIYELYPKTTTKTATPISVWSADAYTAEAQTLLNAFRSKYGIPVLTPKGGGSFGLAHEICIEGNKSGVTVFTPVALGAVTDLGKDNPGWAIAFVADHMAIAYTNTSINNNYAKEALNYANSGNWSAFFQVLTSGKVSVGISNPNVDPAGFRAWIILEIAGYLYHHNETYYFNRMLYNKGNVTEPNAADFVSALDTGHINFLFIYKSAAIAKHLEYISLPNKLNLGCVADSNFYYNFTYKLNTGIVHGEPIYLFITIPKVTNNYQEALQFVTFTIENSTLLSKYGLTPLHPALLFNSTAVPPQIAKLISEGYLKIAGSL;locus_tag=LOCUS_22760;note=WP_010980107.1 extracellular solute-binding protein (Sulfurisphaera tokodaii) [pid:37.7%25%2C q_cov:96.7%25%2C s_cov:93.6%25%2C Eval:3.1e-54],MGA_2277
sequence1	MetaGeneAnnotator	CDS	2026956	2027690	.	-	0	ID=MGA_2278;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846442.1;translation=MIAIITGASKGIGKCTALKLKNYGYTIVSISRSEPDFGDIKFKVDVSDKIAVKDIVDKILGEFSFVDVIVNNAGFGIYGSFKETSLDEEEYMVRTNFLGTIYFTKFLLPSMIERKKGNIVNIISEAAYVSSPKLLVYSATKAALASFTNGLWAEARKYGVKVSGIYPGPVRTNFTSHPSFNGVKNSFDKFSVEPEKVANAVIKSIKTGKREIYVPSRLKIEPYFLKLSNVMQSITYRIVSKWFS;locus_tag=LOCUS_22770;note=WP_052846442.1 SDR family oxidoreductase (Sulfurisphaera tokodaii) [pid:66.7%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:1.6e-90],MGA_2278
sequence1	MetaGeneAnnotator	CDS	2027715	2028005	.	-	0	ID=MGA_2279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERPYNLSDCDDIIRLVKESEIEAFNVCEENGGDIIPEEWEFEMVGPKFSILKIKIKKTKCKYKIFINNILYAIVIENKVRKINDLNSVLKLEKSS;locus_tag=LOCUS_22780;note=MGA_2279
sequence1	MetaGeneAnnotator	CDS	2028321	2028506	.	+	0	ID=MGA_2280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDLKLVRIIIDILQDNMPEDCAEIMEKYYEMILKDIKDRGLNYTLRKWFYKDDEEVLLIQ;locus_tag=LOCUS_22790;note=MGA_2280
sequence1	MetaGeneAnnotator	CDS	2028492	2029181	.	-	0	ID=MGA_2281;product=nucleotidyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978969.1;translation=MKAVILAGGFGKRLRPLTDDKPKPLVEIANRPIIEWQVLWLKKMGIKTFVVLEGYKKEALINWLTENESRLGVNFIHITENEPLGTGGAIYKAKEIVDEKFIVINGDIITNINVSKLSCENAVATISLVPLRSPYGVVETSDDKISKFVEKPILKDFWINAGIYLFTSRIFEYLPEKGDMEKTTFPQLASKGLLKGMKFENAYWRSIDSIKDVEEASLEINDALGSLDQ;locus_tag=LOCUS_22800;note=WP_010978969.1 nucleotidyltransferase family protein (Sulfurisphaera tokodaii) [pid:63.6%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:2.7e-84],MGA_2281
sequence1	MetaGeneAnnotator	CDS	2029207	2029668	.	-	0	ID=MGA_2282;product=methylated-DNA--[protein]-cysteine S-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978968.1;translation=MIFYGLYRSPLGPITVAKDEKGFLMLDFCECIEKESLDNSLFTDFFYKLDKYFEGEKVDLKEPLSLNVNQFRLRVFKETMKVPWGRIKTYKEIALAIDSSPRAVGVALSKNPVLLIIPCHRIVGEKNIGGYSRGVEIKRKLLEIEGIKYPENV;locus_tag=LOCUS_22810;note=WP_010978968.1 methylated-DNA--[protein]-cysteine S-methyltransferase (Sulfurisphaera tokodaii) [pid:70.9%25%2C q_cov:96.1%25%2C s_cov:94.9%25%2C Eval:4.3e-60],MGA_2282
sequence1	MetaGeneAnnotator	CDS	2029665	2031287	.	-	0	ID=MGA_2283;product=threonine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978967.1;translation=MEEYKALWLKGGIIIAINLLNDNKKAVDVGLGERDFYVDIESDNSISLEEAKKYALYKDYNFELQGNNVIYGKFKINIDSDVKPSGNPKFFEILNISVHHPTPDKQYVRIRGVAFETEEQLKDYLNWFEKASETDHRILGEKMDLFSFPDEAGPGLVLYHPKGQLIRNELIEYMREINNSMGYQEVYTTHVYRTILWKISGHYEMYKDKMLIFEHDDDELGIKPMNCPAHILIYKSKSRSYKDLPIRFSEFGNVYRWEKKGELYGLLRIRGFTQDDGHIFLREDQLKDEIKNLVKKTLEVLAKLGFKGDDVRINLSTRPDESIGTEEQWEKATKSLSDALGELKLNYILKEKEGAFYGPKIDFDIRDSLGRWWQLSTIQVDFNLPERFKLEYVDKDGNKKRPVMVHRAIYGSLERIMAILLEHYKGKLPTWISPVQVRVLPINEDVKNYAESIFNKLMSLRIRAELDTEDTLAKRIKRAYDDGVPYIIIVGKREASENKITIRARGNIEIRNVDSEKFINALSKEILNRDLNNSAVELLK;locus_tag=LOCUS_22820;gene=thrS;EC_number=6.1.1.3;note=WP_010978967.1 threonine--tRNA ligase (Sulfurisphaera tokodaii) [pid:68.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-226],MGA_2283
sequence1	MetaGeneAnnotator	CDS	2031328	2032281	.	+	0	ID=MGA_2284;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978966.1;translation=MADILIIASGGGHTGFARAVAENIERKVDFVIPKGDEISKKMLNQYASKFYEVEKGRGPFDNSFSSLLKFLRAMVESSKIRKYDIILATGSNHSIFPSFFQYIKGAKVFAIESQDRIITKGKAINIISKYSKAVFLHWKEQKSLYKKGIVVGPIVENPHYNPSDNGYILVTAGTEGFPRLFEKISTINLKNVIIQTGKIDPNLYSNKVLKAFNFDPDLEKYIANSSLIITHQGKTAMEAVVMYKKPTIIVYNKTLVRAATREDTRLYAKILGAMFLDDPLDWKSNDELLYYIENPRKPNYFTSGAHELVKVMLNEYN;locus_tag=LOCUS_22830;note=WP_010978966.1 glycosyltransferase (Sulfurisphaera tokodaii) [pid:58.2%25%2C q_cov:99.4%25%2C s_cov:98.8%25%2C Eval:5.0e-104],MGA_2284
sequence1	MetaGeneAnnotator	CDS	2032268	2032924	.	+	0	ID=MGA_2285;product=DNA endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846929.1;translation=MNIIDILENNKDIIIKMGWIVSEPYSYKWWGGLDSADKIAISAFLVQLTKWETVKKVIDDLSNRNLDKIDNIANISIEELDNIIKPVNFHKTKAIRLKKFANKAIEMGGLSNLLRIENRELLISLDGIGDETADSLLLFAGNNAVLPSTEYLKRVLERIYGKKFTKKGAKEFAEKLIEKDLYKYKLFHAGIVSVGKAYCRLTKPKCEECIFKGVCKYI;locus_tag=LOCUS_22840;note=WP_052846929.1 DNA endonuclease III (Sulfurisphaera tokodaii) [pid:52.1%25%2C q_cov:98.6%25%2C s_cov:88.3%25%2C Eval:2.3e-58],MGA_2285
sequence1	MetaGeneAnnotator	CDS	2032927	2033934	.	+	0	ID=MGA_2286;product=succinate--CoA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846447.1;translation=MKLYEFEGKYLFSEVGIKIPRGVLTSEHIDWKGKAVVKSQILEGARGKRGLVKITDDVNSAIDELKKLGIEKFLVEEYIPHTKELYVSAILDRDSGNPMIVASPSGGIDIESSKDIIKRDIPIERGIRPFDVLPLEKYLGVNGLYGVINGLYKIVVEYDAELAEINPLAITNEGPVALDSKVILDDNSLFKHEDLLKKLGRSYTPDSYVELDGDIGIIGNGAGLTMATMDLVKIFGGDPADFMDVGGGANSERVKYCVEKVGGNEKVKKIIINIYGGITRCDDVARGIVEAYKKVKKPIYVRLVGTNENEGWNILKENGINVYTNALDAVRDALR;locus_tag=LOCUS_22850;note=WP_052846447.1 succinate--CoA ligase subunit beta (Sulfurisphaera tokodaii) [pid:67.3%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:1.4e-128],MGA_2286
sequence1	MetaGeneAnnotator	CDS	2034003	2034776	.	+	0	ID=MGA_2287;product=succinate--CoA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742632.1;translation=MLKYGTKIVAGVTPGKGGTYVNNIPVYDTVEDAVKEHDIDASIIFVPARFAVDAIYEAVDNGIKLIVVITEHIPIIDVSRAIKYARAHGSRVIGPNCPGIIVPEESLVGIMPYRAFRKGKIGIVSRSGTLTYEVADILRDYGQSTVIGIGGDPIIGTPMQEAIKLFDEDPNTEKIVMIGEIGGTMEEEVANMKKKGMIKKDIIAYIAGSTAPKEKRMGHAGAVVYMGLGTYESKISAFKDAGIKIAITPYDIKNLVS;locus_tag=LOCUS_22860;gene=sucD;EC_number=6.2.1.5;note=WP_084742632.1 succinate--CoA ligase subunit alpha (Sulfurisphaera tokodaii) [pid:68.2%25%2C q_cov:100.0%25%2C s_cov:91.5%25%2C Eval:5.8e-102],MGA_2287
sequence1	MetaGeneAnnotator	CDS	2034785	2034985	.	-	0	ID=MGA_2288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846930.1;translation=MKEREVEAKRLVGKKSVRGKVYEYEYYTLPLNLYIPKSMVEKFGTKYMLEVDEDSGTITIKPRNSE;locus_tag=LOCUS_22870;note=WP_052846930.1 hypothetical protein (Sulfurisphaera) [pid:83.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-26],MGA_2288
sequence1	MetaGeneAnnotator	CDS	2035229	2035948	.	+	0	ID=MGA_2289;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978977.1;translation=MNPVHILAKKGEIAEKILFVGDPGRATLLANILQDPKLVNQNRGFLVYTGSYKGNIVSIATHGIGGPSAAIVLEELMMLGGKIFIRYGTTGALVPEINLGEYIIPTGASYNQGGLFYQYLKDQACIGATPDFELMSNIVKTFSMSNLKYHLGNVFSSDAFYAEDEEFVKRWSSRGNIAVEMECATLFTLGKIKSAKIAAVLVVSDNLAKGGQWISKEELEKSVMDGAKAILDALVSYSN;locus_tag=LOCUS_22880;note=WP_010978977.1 purine-nucleoside phosphorylase (Sulfurisphaera tokodaii) [pid:67.8%25%2C q_cov:98.7%25%2C s_cov:99.2%25%2C Eval:7.5e-93],MGA_2289
sequence1	MetaGeneAnnotator	CDS	2036048	2037283	.	+	0	ID=MGA_2290;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978978.1;translation=MKLIRDPIHGYIRISDKLLQIISSPLFQRLRYIKQTGLAYLVYPGMNHTRFEHSIGVMHLAKEFTRFINENSNIDFVNDDFIELIGLAGLLHDIGHMPFSHTFENALILAKDVYGMNVYEEGKKTHVKIGEKIIGEYLNDLIDNNFSESVSDPVKFLQKVMNETPETKEEKFATLIISNFVDADRGDYLLRDSYYAGVSYGEFDVERLKRFLVFIDGKIAILSKAVPIVEQFLLSRMYMYENVYFHSVVGLYNAIISHAIVKILEKGISIPDSEEDFKKFTDYFIISNLYDINNKFRDAILFRKGFMRVKKDIIGQCFDEFSNLKQELYKDMRESNGLFIYHEFNDVPYYEEKDDAVFVFDGNEVNKLTSISLIARSLKEIKKAIIGFHYSEKNKAEKYIKKLQSCNTIGP;locus_tag=LOCUS_22890;note=WP_010978978.1 HD domain-containing protein (Sulfurisphaera tokodaii) [pid:55.3%25%2C q_cov:98.3%25%2C s_cov:99.2%25%2C Eval:5.7e-125],MGA_2290
sequence1	MetaGeneAnnotator	CDS	2037256	2038233	.	-	0	ID=MGA_2291;product=diphosphomevalonate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846449.1;translation=MILEGEAIAPSNIAIVKYWGKRNSELNLPLNSSISISLDGIYAKTKVVFDSNFNEDKIIINGKELGIKEKQDYATKVLNIFRNIYGKKIYALVNSTTNFPESSGLASSAAGIAALVYAANSALNLNLTQKDLSIIARIGSGSACRSTVGGFAFWEKGVKDSGEDSFCYQIFPENYWEDLVDIIAIISTQKKKISSRLGMQTSVNSSTLMKCRLEFIERTIPEVINSIKEKNEKKFFELTMRHSNSMHAVILDSWPSFFYLNDKDLEIMRWIQDYGKAAYTFDAGQNAHIITLQQYADVVLDFLKSINVEKIIVSKVGHGPIVLHD;locus_tag=LOCUS_22900;gene=mvaD;EC_number=4.1.1.33;note=WP_052846449.1 diphosphomevalonate decarboxylase (Sulfurisphaera tokodaii) [pid:62.7%25%2C q_cov:99.1%25%2C s_cov:98.8%25%2C Eval:2.1e-116],MGA_2291
sequence1	MetaGeneAnnotator	CDS	2038223	2039173	.	-	0	ID=MGA_2292;product=phosphomevalonate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978980.1;translation=MISAPGKVLWIGSYAVVFGGISHVISINKRVRCEVIDSERTFFETSYGNYYENGNELISSVKKVIVEKFGFFPKVHVKLINDKDFEINNKKTGLGSSSAATVALTACIYHKITNKLDLDEIHKLAQKANFIRQKGIGSGFDIASAMYGSIIYKRFTDINKMDFYYEKLKIGKYMMILGFTGRSSNTVDLVKEFVKKEKDPRFKEVIDELNIENETAIKLLKLGKIDEACVHVDLAWNFLNFIAEDIIGIKLQSRQDKELISIAKREGAWTSIMPGAGGGDIIFAIGDNLDNVKKAWEIKGIKIIEIAEDEGLKIDS;locus_tag=LOCUS_22910;EC_number=2.7.4.2;note=WP_010978980.1 phosphomevalonate kinase (Sulfurisphaera tokodaii) [pid:56.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.3e-95],MGA_2292
sequence1	MetaGeneAnnotator	CDS	2039214	2039807	.	+	0	ID=MGA_2293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFLNKKKRLVLELIAQGGPAGLTLQEIKNSFSYIISDSSLSNILENLYFSEYINILRDGTEIRYIASNEVRNSLIALEMQKYKITKFLENVKKRSEELSKQDRKVQLEELTKLTQEGLNLISIGLFTLIKDKPEVTIPDYLELIEILNKEFFSKTLSLLNNNMSQEELEKFLLLVSKFKGEKEAEIIKMTLNNVKK;locus_tag=LOCUS_22920;note=MGA_2293
sequence1	MetaGeneAnnotator	CDS	2039839	2040123	.	+	0	ID=MGA_2294;product=winged helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978982.1;translation=MKSKRDQIDIIVDMLEVIDEGMGSKSGIMKNANLSNTITEKYINILKNKGLIDYVDGRYVVTEKGKNILQRLRKLRELEVEIAELFNSVSKELS;locus_tag=LOCUS_22930;note=WP_010978982.1 winged helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:53.8%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:2.0e-22],MGA_2294
sequence1	MetaGeneAnnotator	CDS	2040123	2040677	.	+	0	ID=MGA_2295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQIGIVQTFDALFLIEFVTIYYLLNRKVSNLKINKDTIKQLLLLNTFKSIVDFIASDEIVEQGIIGSTLDIKDKQFMRFMEDKIKKISADVRILSNSIYLLENFEEKSNKMISYCNDIKYMVLSSMLMLAITLIPFGDNFIILTLGFVIGLEIIGMYYSILALILYREIKNDYTKIISKNTNK;locus_tag=LOCUS_22940;note=MGA_2295
sequence1	MetaGeneAnnotator	CDS	2040755	2041351	.	-	0	ID=MGA_2296;product=7-cyano-7-deazaguanine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979963.1;translation=MKSLLLISGGLDSSSAAYYYKDKDYDCLYVNYGQKSASMQYKYAKLNCENLNKKLIYVNIRELGKAFYSDNWLRPHEPISHRNIILLSIALTFAKEKGYDEVIFSTVSDECIYETNKPEILKEFKNLGETLGIHVIMPFLNLSKAMVLKIGVSKGLDPVNTYSCLLGGKYHCGKCRQCELRKMAFKEAKLEDPTRYLF;locus_tag=LOCUS_22950;note=WP_010979963.1 7-cyano-7-deazaguanine synthase (Sulfurisphaera tokodaii) [pid:54.3%25%2C q_cov:99.5%25%2C s_cov:98.5%25%2C Eval:2.8e-62],MGA_2296
sequence1	MetaGeneAnnotator	CDS	2041386	2041739	.	+	0	ID=MGA_2297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979962.1;translation=MASIENEAKKIASTYARWLRDPEDALFGSTGKGVVLLIYSKLKEAKSKSQIIQILDLSQYNMKTSTFNDMTRFLNDLKNKISTMNDEDAIRFTLEVFRYFQIALATKLEDMRKGVWA;locus_tag=LOCUS_22960;note=WP_010979962.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:61.5%25%2C q_cov:98.3%25%2C s_cov:99.2%25%2C Eval:4.9e-37],MGA_2297
sequence1	MetaGeneAnnotator	CDS	2041812	2042195	.	+	0	ID=MGA_2298;product=HTH-type transcriptional regulator Lrs14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979935.1;translation=MEVEKLKARLPSGKEVGLIEALSFCYDVSDTDFVVLKTLINSGEKTEDELASVLKLSKASINRSVNKLISIGFVERVKDQNSKGGRPRYIYKPLDVNSLTEKISKDFEYCAKLFGEITPKELTSSHT;locus_tag=LOCUS_22970;gene=lrs14;note=WP_010979935.1 HTH-type transcriptional regulator Lrs14 (Sulfurisphaera tokodaii) [pid:71.3%25%2C q_cov:96.1%25%2C s_cov:96.1%25%2C Eval:5.5e-44],MGA_2298
sequence1	MetaGeneAnnotator	CDS	2042176	2042337	.	-	0	ID=MGA_2299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVVCPVCNKLFEAECTPYKTVYNEIMYYFDTEICQIAFSREPERFIAKCEKK;locus_tag=LOCUS_22980;note=MGA_2299
sequence1	MetaGeneAnnotator	CDS	2042390	2042647	.	+	0	ID=MGA_2300;product=sulfurtransferase TusA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979959.1;translation=MEELNLVGRECPEPFLKVAAKLMQMKEGTLRIIFSDPKCDEMILQAVELMDCKILEHSKNGETFVLTLEKKMGENKMKKVNLSGC;locus_tag=LOCUS_22990;note=WP_010979959.1 sulfurtransferase TusA family protein (Sulfurisphaera tokodaii) [pid:42.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-17],MGA_2300
sequence1	MetaGeneAnnotator	CDS	2042633	2042956	.	-	0	ID=MGA_2301;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978983.1;translation=MINDKEKKHSIKCCYKLGDTDVDCLFKLMELNRPVTSVELADIMKFSKTTVENSLKKLIDVGLVIRIKPEEKRIGRPKFEYAIPNNLWDKIKKDLVECGRKISSAAT;locus_tag=LOCUS_23000;note=WP_010978983.1 helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:64.9%25%2C q_cov:90.7%25%2C s_cov:90.7%25%2C Eval:6.2e-32],MGA_2301
sequence1	MetaGeneAnnotator	CDS	2043207	2044220	.	+	0	ID=MGA_2302;product=histone deacetylase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979953.1;translation=MSLAIIWDERFTNISFSHPMIRDISKERIKRFWELLKDEPGIVFVKPDLATRKDLELVHTTDYINKLEKASEDPYIGFLDSGDTTHYPGMFNDILLIVGSSITAIKYSNFFDKIYIPLGGFHHALPNQAMGFCPVNDIGIATKILLEKGERIAIVDVDAHHGNGLQYLFYNKSILKINIFAYDGKFFPGTGHYSERGLGEGKGLNYNIAMPLGSADDSFYEALRILDKVSEFNPTYIIVLAGVDGHKEDNLKSLNLTTNSFNLLGYRINRISKELHSKVISYGGGGYGNYSALCMREFVRGLKGIREKIEKDTEDIEKTKYVKRLVSLLSEGFPSSF;locus_tag=LOCUS_23010;note=WP_010979953.1 histone deacetylase family protein (Sulfurisphaera tokodaii) [pid:58.4%25%2C q_cov:98.2%25%2C s_cov:99.4%25%2C Eval:6.5e-113],MGA_2302
sequence1	MetaGeneAnnotator	CDS	2044188	2045444	.	-	0	ID=MGA_2303;product=DUF1641 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979952.1;translation=MAENEDPLETLLKPENLQKINKLVDALPTIEKLTDKLEDLDKKGELDFMLNLTDQAISIADAIQKADLMNTIISFGMDQLPKIQALWPLIEKLTSDRALNIIQQIDIDSTLSALEKLTPVMQRMTSEKALKILESIDYDALLDYTSKLTPLLSKLTSEKTLKIIQSLDIDTLLATAETMTPSLNRLASMLNEMQKKGQLDNLINLMEQGLSLIDTAQKADLVNALISFGMDQLPKIQALWPLIEKLTSDRALNIIQQIDIDSTLSALEAMTPIMKKLTSDRTVKLIQQVDVEGLLSATESAMPMIKKLTDEKTVKIISQLDFDSMITMMEKFAELQRNGTMDRMMKLIDVMSDPQLVDTMVTMMEKFSKALKIWTNDLPNVKPVGTMGLLRITSDKDSAYALGMMTSLLKATGKAFRE;locus_tag=LOCUS_23020;note=WP_010979952.1 DUF1641 domain-containing protein (Sulfurisphaera tokodaii) [pid:52.0%25%2C q_cov:98.8%25%2C s_cov:98.7%25%2C Eval:7.6e-133],MGA_2303
sequence1	MetaGeneAnnotator	CDS	2045547	2045861	.	+	0	ID=MGA_2304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979951.1;translation=MILVISPSAFNKIDEIIKKFNSDKIIITTYGVSYALSNNINIDKILDLGIKVMAYSHKPYQVSNLSITESEAILVARDLKATLIASDTKIKEEAEKLGISVILI;locus_tag=LOCUS_23030;note=WP_010979951.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:35.0%25%2C q_cov:96.2%25%2C s_cov:93.3%25%2C Eval:2.8e-11],MGA_2304
sequence1	MetaGeneAnnotator	CDS	2045835	2046395	.	-	0	ID=MGA_2305;product=thioredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979950.1;translation=MSYEQIIRQYLTAIHEITLEYCDADDFISYFLDGNIELRKIECKKPLIIVRKNDRIFFSYYGIPEINELWPFLNALVRISNNKVQLEPSERDIAVTISGNIKLFVTPDCTKCPIAAELLYQLPIINEKISLEIIDITTYAELGEKYRVLSVPKIVLNDKIELPGSFPPNILLKMLAKSSNKDNANA;locus_tag=LOCUS_23040;note=WP_010979950.1 thioredoxin family protein (Sulfurisphaera tokodaii) [pid:66.3%25%2C q_cov:97.3%25%2C s_cov:99.5%25%2C Eval:1.8e-65],MGA_2305
sequence1	MetaGeneAnnotator	CDS	2046392	2046733	.	-	0	ID=MGA_2306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979949.1;translation=MSLEDYINKKGFSIKKEEDRLRINMGDYEFYIDNLSIIFPVPLPTGNESLDDLVNMGIKYARASRLVQGLGSPVEYTINGSELDIIKKFNNREDLERKLIKSMEGIESLRYFL;locus_tag=LOCUS_23050;note=WP_010979949.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:67.0%25%2C q_cov:99.1%25%2C s_cov:98.2%25%2C Eval:3.8e-37],MGA_2306
sequence1	MetaGeneAnnotator	CDS	2046723	2048054	.	-	0	ID=MGA_2307;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979948.1;translation=MHYDVVVLGGGSAGYVAGSILARNNLKVAVIEKKAFGGVCVNSGCVPSIFLSDISFLFSRLEELGNYKGLNISISKDNFFKKRDEIINYLSDAGRKLIEDAGGDTFIGEGKINGDKEIEVNGEKIGFEKLIIATGSSSVPPQIDGIDYAISEDEAVNLHEIPSSMVVIGGGYAGTEIAQIFARLGSNVTLITRGKILKEITEDARNILLDSFDWDNIQIYENTEIKHIKDEKVITNKGEFKGEIIVYATGRKPNFPYGLELLGVKSFSNGIEVNNNMETDNPRVHAIGDVIDKEKKVAHAAMSEGMIAALDILGIKETIDYNSIPQVIYTDPQIGIVGNISDVSKINKFPITATTRATISGFREGYAKIGIDNSGKIVYGEIVSNIAEELINILSLAIREKMNIKDLIFSSFIHPSLSEAIINCARSFYNLDVDRFKGMKNES;locus_tag=LOCUS_23060;note=WP_010979948.1 NAD(P)/FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:57.9%25%2C q_cov:98.6%25%2C s_cov:100.0%25%2C Eval:3.5e-144],MGA_2307
sequence1	MetaGeneAnnotator	CDS	2048060	2048461	.	-	0	ID=MGA_2308;product=DsrE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979946.1;translation=MSQTTAESQESEQKKKILIVVTHGPEDLDRTYAPLFMASISASMEYETSVFFMIKGPLLLSKKWQEDERKKGGNPFIHFFDMAKDNGVKMYVCVQSLKDMCHMNETDVVDGIELVGGSTLIDLTLDADRTLFF;locus_tag=LOCUS_23070;note=WP_010979946.1 DsrE family protein (Sulfurisphaera) [pid:87.1%25%2C q_cov:93.2%25%2C s_cov:98.4%25%2C Eval:4.9e-61],MGA_2308
sequence1	MetaGeneAnnotator	CDS	2048613	2049032	.	+	0	ID=MGA_2309;product=DsrE/DsrF/DrsH-like family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846667.1;translation=MSSNKKLSIIVFSGTIDKLMPVGILASGAAASGYEVNLFFTFWGLNSITKKSLEQMQPIDKNYEQFGSVMMQRMQEMKFPSWVQLIQQAKEVGEVKVIACSTTMEFFGIKKEDLADFVDDVAGVATFLDRAEGGITLFI;locus_tag=LOCUS_23080;note=WP_052846667.1 DsrE/DsrF/DrsH-like family protein (Sulfurisphaera) [pid:83.8%25%2C q_cov:97.1%25%2C s_cov:96.5%25%2C Eval:7.3e-60],MGA_2309
sequence1	MetaGeneAnnotator	CDS	2049043	2049285	.	+	0	ID=MGA_2310;product=sulfurtransferase TusA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979944.1;translation=MSQETKIAKTLDLKGMYCPGPVMETAKGIKQINVGEVLEVLATDPAAKPDIEAWARRTGQQILDIQQQGGITRILIKRVK;locus_tag=LOCUS_23090;note=WP_010979944.1 sulfurtransferase TusA family protein (Sulfurisphaera) [pid:89.6%25%2C q_cov:96.2%25%2C s_cov:97.5%25%2C Eval:8.6e-34],MGA_2310
sequence1	MetaGeneAnnotator	CDS	2049371	2050207	.	+	0	ID=MGA_2311;product=4Fe-4S dicluster domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979943.1;translation=MSQSKVLQLPDDPRFLDMAYAEQGALPEEIRNLDSLKPEDKEIAEKFWKAVKSDFRFNEDLRGCLNCGVCTSGCPAAKFYDFGPREMIQYMMRDEADKIWEFTNKKVWACVQCYTCSMRCPFNNEIAGLIMLLREYAVQFALPSAKEILAPYRRVLYTVMTLGNQVTPDMIQPEAFPDWGPQAVEESKNMDVYRKAIPVDLMQRTDVGWHPSLQTSVEMMTIMIESGVMDSIKGVDPDLYDMIMDIYEDRKAQLEEIKEKWQKGELKEDELPDSWLDL;locus_tag=LOCUS_23100;note=WP_010979943.1 4Fe-4S dicluster domain-containing protein (Sulfurisphaera) [pid:82.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-137],MGA_2311
sequence1	MetaGeneAnnotator	CDS	2050324	2051640	.	+	0	ID=MGA_2312;product=CoB--CoM heterodisulfide reductase iron-sulfur subunit B family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846995.1;translation=MSEQVDKKIQEGIKDAFPMADTTDWNEVYQRIIYRYSTPHGLQHVKEELYKLEDEGEIIVHHIKPYNDPVKMQSLNGTPKVIPTNKLWHHKSCGQCGHIPGYPTSVFWMMNKMEVDYLDEPHQTSCTGWNYHASGASNPVALAGVYVRNMWRAYETGYYPLIHCGTSFGHYKEVRNMIVLHKEVRDKLRPIMRKLDMDIVVPEEVVHYSEWLFTMSKKAAQQKKYDLSGIKAAVHTPCHVYKLVPEDTIYDPEVFQGRRPAAPSGTVQNFGAKLVDYSTWWDCCGFGFRHILTEREFSRSFALFKKVIPAVEEAHADVFVTSDTGCVTTLDKSQWAGKAHGFNYNLPVLADAQFAAIAMGADPYTIAQVHWHATDVESFMRKIGVPVDDYKEKFIQYLSDLREGKAEPQYLYTPHRKIDFYIAVPERVKWYKGQQIQK;locus_tag=LOCUS_23110;note=WP_052846995.1 CoB--CoM heterodisulfide reductase iron-sulfur subunit B family protein (Sulfurisphaera tokodaii) [pid:86.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-241],MGA_2312
sequence1	MetaGeneAnnotator	CDS	2051704	2052801	.	+	0	ID=MGA_2313;product=CoB--CoM heterodisulfide reductase iron-sulfur subunit A family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979941.1;translation=MVNEKVLVIGSGPAGLSATKELTNMGVDVVLVEKESYLGGTPKKLKYSLLFPELRPASEVLDPMIKTVQESKIKTYMESIVDGVKQEDKGFTVSIKDKTGKITSEKVNAIIAASGFEHFDSRRKYEYGYGIVPNIYQISDIERMLSENKLVTTKGTPPKRVAILLCVGSRDATVGNTYCSRVCCAVSVKQAMEIKERIPDAVVHIYYMDIRTYGLMEDKLYWKSQLEYRVGYIRGRISEFMRGPNDTVIIKGEDTMNLNRALVVPYDMVILANGMELGLGSKQVAKALGLEFEEHGFIKPLDPDRLPVQSTKKGIFLAGALTGPKTISDSITEGSAAAMKAYEYVTKGIWEDSDFAKRKIEVAQH;locus_tag=LOCUS_23120;note=WP_010979941.1 CoB--CoM heterodisulfide reductase iron-sulfur subunit A family protein (Sulfurisphaera) [pid:86.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.6e-182],MGA_2313
sequence1	MetaGeneAnnotator	CDS	2052812	2053540	.	+	0	ID=MGA_2314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846994.1;translation=MNIDYVREIYNAMLEVDVNNTVSGDAKKSLETILQAMKIKSEELRKLDIKTESDVRKVFDSVFYAKKHYTDVISKTPLPQISQAFNELKDDNKSYNERVSSFLSKVNGGEREDIEDMAKEIIHFLEPEKYPLWTRWIWNKKRNSGSINYVLKDEVKINGEEDFWTSIDELKKVLDIFGLHSDNYYVTSVFLVYSYVRYLDYTTHLAVDKKAAGLIPTHLTTTALVLGLKPYLKVIKLANTRT;locus_tag=LOCUS_23130;note=WP_052846994.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:68.9%25%2C q_cov:94.2%25%2C s_cov:100.0%25%2C Eval:2.3e-89],MGA_2314
sequence1	MetaGeneAnnotator	CDS	2053521	2054213	.	+	0	ID=MGA_2315;product=4Fe-4S dicluster domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979939.1;translation=MPIPELEKPIIKGLIEKNKVVIDGVELDGTWNAFMIERTQTGYDPSVWDEIADTVEGNTISLCWQCGTCTSGCTMREYDPNYSPRRFIDLARKGDKQSLIELQDSLWRCVSCQKCTHRCPKGVLVEEVVHSIHNYMLKHGLVKTDPGTVFDELFLDAVMKNGGRISELILGGASAKAGFVTLSIKDLLTMTGPLLKSGLIKDLMKPNRVKNWDKIKPVLEEAMKEEVKPE;locus_tag=LOCUS_23140;note=WP_010979939.1 4Fe-4S dicluster domain-containing protein (Sulfurisphaera tokodaii) [pid:85.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-118],MGA_2315
sequence1	MetaGeneAnnotator	CDS	2054210	2055118	.	+	0	ID=MGA_2316;product=CoB--CoM heterodisulfide reductase iron-sulfur subunit B family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846993.1;translation=MSTYGKVAFYPGCALDGLGKGYEVSLKLVAQDLGLEYEKIEDYNCCGALEVKNVNTMAGLLLPARNLSLARNMGANAIMSACPGCHYSLSRTQYFMTRYPKLAAKVNAYLEKMGEKSYDNQLLMIHAVEFFYNTVGPEGIKSRVKRPLEGLKVAPYYGCLYTRPKAYTLTGYMKLKDDPERPIFMDELLKALGAEVVPFEAKTMCCGGPHVYSDAPTSIHLEARILKEAKRNGAEVLVTDCPLGHVAIETNMNKIAEKYGEELRMPLAYFTQLMAFAFGHSPDEALLTANLTNPMSVLKRYL;locus_tag=LOCUS_23150;note=WP_052846993.1 CoB--CoM heterodisulfide reductase iron-sulfur subunit B family protein (Sulfurisphaera tokodaii) [pid:83.3%25%2C q_cov:99.0%25%2C s_cov:98.0%25%2C Eval:8.1e-149],MGA_2316
sequence1	MetaGeneAnnotator	CDS	2055140	2055472	.	+	0	ID=MGA_2317;product=DUF202 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980551.1;translation=MTSPSDHFANERTFLAWVRTGIALIGFGFVIAKFALFLEILKGEKSIGGSVAYGEVMIILGGGVIAYGIYNYLRNEKDLFKNTYTPKTTENAMFALAVLLISIVLALLII;locus_tag=LOCUS_23160;note=WP_010980551.1 DUF202 domain-containing protein (Sulfurisphaera tokodaii) [pid:51.7%25%2C q_cov:79.1%25%2C s_cov:76.3%25%2C Eval:4.1e-20],MGA_2317
sequence1	MetaGeneAnnotator	CDS	2055465	2056391	.	-	0	ID=MGA_2318;product=sodium:calcium antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546217.1;translation=MDFYTLSVLTAIIIALGFASESLARGTEELEKGLSQGIAGGLVLGFLTSLPETIFVIVAIIDKKYSVALGSAIGGNVVLFTFGIGLIGLAYFFKWKSKLRMKGDYKVENRFLILTTISMALIIVYGKLNIITAIPLFFIYIYYIFYRLNKRENREIDKINMKKALTYLSIGAIIIVTLSGFFVNYLYVTAKDFGISPAWLALVITPIASELEEKISALRLTFANSEGGSLAIVSFIGSKIENATVLLGLIGLFSSFNLNTTLPEIIAAFIANIIGLVTLLDGKLGAKESTFLMILYFFMIYVSFIFTK;locus_tag=LOCUS_23170;note=WP_012546217.1 sodium:calcium antiporter (Thermodesulfovibrio) [pid:24.4%25%2C q_cov:95.1%25%2C s_cov:95.5%25%2C Eval:1.1e-12],MGA_2318
sequence1	MetaGeneAnnotator	CDS	2056428	2057000	.	-	0	ID=MGA_2319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978919.1;translation=MGKIYCVISRIFHPSITSAVGFSAIAMAFQLRLSVIILFLIFYGIMPYIMVYFLKIKGKVSNIFVTERKERPLMFALTYPLYLIVPFLLYLDNTRNIVTYLSICYAFNTLLLAIITLKFKISLHESSIAGIVSAVIYIFGFTYVFLLFLPLIVGISRIKLKQHTLAQVFFAFVFITFLTVTELYLYYNIL;locus_tag=LOCUS_23180;note=WP_010978919.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:34.1%25%2C q_cov:95.8%25%2C s_cov:94.2%25%2C Eval:1.3e-26],MGA_2319
sequence1	MetaGeneAnnotator	CDS	2056993	2057523	.	-	0	ID=MGA_2320;product=LOG family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979914.1;translation=MQIAIAAHSGEYNEEMKIKVKEFLEGVSNECKNPVLLLGGYWGLMKEVVDQACNLGLRVILLLPIENEDVSPPDSVIKIKTGMEYRARSIPLIRSSDAVVALGGGVGTEIEILMGYGMGKPVFVLSNTGFSTDKLIKAFPDYFDHREVVKVSYIDNPRELAKTLCSLKSSETKDFG;locus_tag=LOCUS_23190;note=WP_010979914.1 LOG family protein (Sulfurisphaera tokodaii) [pid:57.8%25%2C q_cov:94.3%25%2C s_cov:93.8%25%2C Eval:8.6e-51],MGA_2320
sequence1	MetaGeneAnnotator	CDS	2057610	2058932	.	+	0	ID=MGA_2321;product=FAD-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978631.1;translation=MEIESLGIEYSKEERQDFSGFKVNPSFIFYPKNEHDVAKIVKFANNHKIPIVVWGAGTSLTGAVSCNGCILIDMKYMNNIIEINDVDWYVRVQPGINLEFLNKKLMEKGFFLPPDPASFFLCTVGGATSNSSGGMRGVKYGTFRDWVLALKVVLPDGNIVKLGEPLRKNRAGYDLVNLFVGSEGTLGVITEIWFRITPLPREKILTVLAYMKDLESAANVIIGLRKGKIIPEISEYMDNNVIKALNKNLNAGLEESEGGLMLISIEEKYLEDLKAILRDNSTKIIIAEGEEAERLYSIRAQSAIALRAEAKNMFVEDIVVPVSKLPEAILRLREIESKYKIKLPIVSHIGDGNLHPNILFDEMSNAQEVFEEIARIAIELGGSVSGEHGIGEQKAKVMAEQIKSHNGEEVLEIMYKIKGLIDPNNIMNPGKYVELAYKLR;locus_tag=LOCUS_23200;note=WP_010978631.1 FAD-binding protein (Sulfurisphaera tokodaii) [pid:72.6%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:7.0e-185],MGA_2321
sequence1	MetaGeneAnnotator	CDS	2058965	2059825	.	+	0	ID=MGA_2322;product=lysine exporter LysO family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846803.1;translation=MNFTITFILLYAISLAVGRKVKLPSVISDITVLLLIFSISFWGGNEVSTQAIERIVWISIVSSFIIVIITYFVGSFIRLKVKEGKIKLDWKTQVKYVLPLIFGFILGFLIKVNLPFGSIIDWELYLLAIVIGLSIGRDLKLEILKRISGIAIFSIFVAIFGGLISSIPLYFLGLRPFNLALSVSLGSGWYSYSGPIVAKYYGPIDGVIAFLINFLREQLTFSLVPLLLKLRSTPLGAIAVGGATSMDTTLGFYVDVLGYEYGIGAMINGVILTLIVPIVLPLILSL;locus_tag=LOCUS_23210;note=WP_052846803.1 lysine exporter LysO family protein (Sulfurisphaera tokodaii) [pid:56.6%25%2C q_cov:94.1%25%2C s_cov:94.0%25%2C Eval:1.0e-81],MGA_2322
sequence1	MetaGeneAnnotator	CDS	2059733	2060962	.	-	0	ID=MGA_2323;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980484.1;translation=MDMGFKYLVLSRILRSIGIIFVTLSSSLYLALIGVHLVIIGVIFAGVIGFSSILSLILGMFGDRKGYKNAIIIGDSFAVIGVLILSLSQNVLLIAIALIIAGIGGTAGGMRGVYSPGLTALVMSNWEYEKDRVNKIGILTSVASVSAIGGSLMLTIHSYLPFGAVGDYRFLFFVSFLMLLASLVSVFMVKEKPRPKKTTKIMKISSLKYISKVILANSFAGFGIGMAIPLLPLWFSLYYHASSALIGIVFTISYITTSLGSFMATRLSFESLRVASITRILNGVFLAIMALSPFFFLAALFYIIRGFNAGFGAPNRTAVNIRGVSSEDYGTASSLQGIATRASQMSSGLSGYLMEIDLPIPLFIGGIFQAVSGILYMKLLKRENQGEHNRNYESENNAINHRTYSVFVS;locus_tag=LOCUS_23220;note=WP_010980484.1 MFS transporter (Sulfurisphaera tokodaii) [pid:53.5%25%2C q_cov:93.9%25%2C s_cov:98.5%25%2C Eval:3.7e-116],MGA_2323
sequence1	MetaGeneAnnotator	CDS	2061422	2061847	.	-	0	ID=MGA_2324;product=nucleotidyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846453.1;translation=MELFRKATLFLRRNEVLAIIFFGSRVIGKYDKNSDLDVLVIIKDEAKGLNFNDVRLRFVKDTNIYLDTTIMTKKEFENNLTLGTVLMGVSIAFCVTYDKINIYEELVKWSNEIRKYGAVLELPYGKFIVGKTVRKCKVNFD;locus_tag=LOCUS_23230;note=WP_052846453.1 nucleotidyltransferase domain-containing protein (Sulfurisphaera tokodaii) [pid:78.7%25%2C q_cov:100.0%25%2C s_cov:94.6%25%2C Eval:1.4e-61],MGA_2324
sequence1	MetaGeneAnnotator	CDS	2061834	2062280	.	-	0	ID=MGA_2325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYKLLVIPPKFREYAKAFYNVAIKDNNRAKRALELKDYPECFFYSQQSVEKSVKAMLELKLIYKKEHDIIADASSNLQDLGNELDIVLNALDYLSGAWNISRYPFFNGNNITTPEEFVTEEMCRQGIEYSNEVIAIAGNYLRKYGVI;locus_tag=LOCUS_23240;note=WP_052846452.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:52.2%25%2C q_cov:43.9%25%2C s_cov:100.0%25%2C Eval:5.6e-11%2C partial hit],MGA_2325
sequence1	MetaGeneAnnotator	CDS	2062670	2063638	.	-	0	ID=MGA_2326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979102.1;translation=MSEDIVERIISDEKLLDKLVDKLYPKLKDDIVLKKIDELTSSIKALSNEISELKKVTQNNSDNIVLIWESNEKIWKEIQETNKRIESINEENKKIWQEIQAIKEENKKIWQEIQAIKEENKKIWQEIQAIKEENKKIWQEIQAIKEENKKIWQEIQAIKEENKKIWESIKETQESIRAIQEENRKIWESIERLNISFSSFTTRGGHYIERTIMEVYKEALKLHGIDPSNVTHTTIIDNIGIVQKGRKYEVDFYESNDAIYVFEIKNFGDEGAIEQLEIREKIFRSMYNKPVKLFLIANSIEKSVKEEAEKLGIKVIAGIIVE;locus_tag=LOCUS_23250;note=WP_010979102.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:34.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-54],MGA_2326
sequence1	MetaGeneAnnotator	CDS	2063745	2063882	.	+	0	ID=MGA_2327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNIPKQEDKLYKSETKKTRYRRGGGEGPQVNPDQVVPSALQAIA;locus_tag=LOCUS_23260;note=MGA_2327
sequence1	MetaGeneAnnotator	CDS	2064195	2064488	.	-	0	ID=MGA_2328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELEKLIKLLKDNKTLNVSVRLGILLGLYYTRSAWFKELLEATKLNKAELYQHLRVLHREGYIDINYVPTVEGKRIKVLITKKGEGVVKQYLELLGG;locus_tag=LOCUS_23270;note=MGA_2328
sequence1	MetaGeneAnnotator	CDS	2065221	2065853	.	-	0	ID=MGA_2329;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011761941.1;translation=MVMLEIKDLSVSFDDFTVLNDINLKLDKEVYIILGPNGSGKTTLLRAISGIIPYKGSIKINGVEVRSAKGLLEYSTNLQEVYTIGNSVLETAKIISEIKKGDLKDFFKILDYLNLDRRVIHKPIFKMSTGQKALVSLALALFTRPQIVTIDEPIENIDINRLDKVISLLRERINEGIIVTHQKELIKLLEKNVRVYNMVNGELVEDNKMQ;locus_tag=LOCUS_23280;note=WP_011761941.1 ATP-binding cassette domain-containing protein (Pyrobaculum islandicum) [pid:45.3%25%2C q_cov:95.7%25%2C s_cov:77.6%25%2C Eval:2.2e-39],MGA_2329
sequence1	MetaGeneAnnotator	CDS	2065847	2066584	.	-	0	ID=MGA_2330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELEKSMIKRFAFSPTAISYLLGMMMLDSVGLYFALDSVKSIGSGIMWYSVAIILLVASLSTGFSIALVYHSSALAYYLRFSKLKMYNYVMSLFLGAIISTIIYSLVFTIFVTPLVTKVTLNQFYQVIKLSNAAQFIISVLISSFFILSLTFTITSALLIKVGAKASNYVYYIFFGLLAISELSPSASSPLNPFYEAENIISYSLIHYSISVYTIEVALLALLLLFLGNLALRKIRALRLEEVVW;locus_tag=LOCUS_23290;note=MGA_2330
sequence1	MetaGeneAnnotator	CDS	2067700	2068353	.	+	0	ID=MGA_2331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQASLKVSPFFSIYRNGNKYIAYAEASGLIELSEDEFNNLLSLDVKELKEIRMLIPEKEKKINAVVNGIRLLNQEAISFFESDKELPKGENALIISSSMNFLLTTDLSKFEKVLIAYVMDPYRFFIYVMKKNSPCIYEIYLWLKNSRLILDVKVDGAIVREGSPTLSEFTEFLLLGLAKILLNGNSYDGKLIYIDMMDGELIVNTPLKIPGCPKCKI;locus_tag=LOCUS_23300;note=MGA_2331
sequence1	MetaGeneAnnotator	CDS	2068341	2069642	.	+	0	ID=MGA_2332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDLINEFLGPILGYTIEKYDNVVVTKLLNYVNNDLLESHLATQYVKARYTIKLPIEFTPLLRYLEDVVPAGGKGETEEESLMGAIGEFLERFYGYSIFFDDNTSIFGRVGELKEQFNVLPTRYKFFSKEQIRKFFFFKDYSNDTFVTFTKAISYKDNKTIYVPSQIVYLTDLIRPGENLIAYSTTGGLSYHEDFEKAFLHSLLEYLERDAINISWISRISPLKIQISEKLKRKFKVLENKDVVCLRFINEFKGLFVIGCLGFVNGFYVGGAAADITVEDALRRAIYEVYQSISSFSKVSDEEIKLAKKLNQDLLVDFGLVPLYYTYVKREFLMDYLNNLNTVSYEELEREESLTYKALIEELLNHGYDIIYKDFNVEKYVDKGKLIRVIIPDLTPAHAPYLPFLGYERYYSIRKIMGLKEVKLLTDEPVPFP;locus_tag=LOCUS_23310;note=MGA_2332
sequence1	MetaGeneAnnotator	CDS	2069653	2070345	.	+	0	ID=MGA_2333;product=SagB/ThcOx family dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868022.1;translation=MNIFEEFYLKTQNFTFTVIPNNYPKEYNGVKVIPLPKPREIVEGFHKVITTRSSTRRFMEEKVDISAISDLLYYSVGVRKKESEVIYRMFPSAGGLAESEVYLVPLISDLEVGIYHYNPLSHSLEKLNIEIELEILKSDIVSSIPDINAIPLLLILTARYWKALAKYGNRGGRFVFIDIGIVMENFYLVATALNLGICAVGGFNDYIFNRALDLKNNEVVLGLLVVGKKN;locus_tag=LOCUS_23320;note=WP_010868022.1 SagB/ThcOx family dehydrogenase (Pyrococcus abyssi) [pid:34.3%25%2C q_cov:75.2%25%2C s_cov:85.7%25%2C Eval:9.6e-18],MGA_2333
sequence1	MetaGeneAnnotator	CDS	2072654	2073130	.	+	0	ID=MGA_2334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQYISQANTIDFIVFFAVIIYITVRRLRPRKFRPTRMYIWPVIYVLLVIFFATEINDPLMYLALLILGILGYLLGNKFLENGEIEFFYNSGRLYYKWPYSITILWSILFLTRIFLEFIGEGNILLLSIVDFLLSLNTGLLVSASFKTIKEAKRYRYI;locus_tag=LOCUS_23330;note=MGA_2334
sequence1	MetaGeneAnnotator	CDS	2073162	2074619	.	+	0	ID=MGA_2335;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979729.1;translation=MLKIDFNIKTLDNIFMNIKLILTVLTLGTLMAAVDTTIVLLALPTMTIDLHTDLYSSIWVLLAYLLILAILSTQSGRIGDILGRSRIYNLGFVIFTVASALCGLSPDVYLLIFFRVLQAIGGALLTANSYAIIADTFPPNQRGKAYGITSLGWNVGALLGIVLGGILTTFLGWRFIFYINVPIGIAAVILGLREIKDINRVNTKLDISGALILGVSLTLISLGAMFIAGSGVSLDYITEIIIGLALIPLFIYNETKVKIPIINLNVFKIRILSFSLMASLLQGIGALSLTFLLIMYLQGVRGLSPLYSSLLLTPGYVIASILAPFMGRIADRGKPGTLAGTGLILTFISLMIYYFILTPFTPYYIILAITAITGAGSSMFWPANATAVMFSAPREYYGAVSGISRTLGSIGTTFSYVLSITVATLVIPRYVAFEIFLGTNVLNGDISNTFVSGLHFAFLVSAIIILASAILSILGGNTAQKVQKR;locus_tag=LOCUS_23340;note=WP_010979729.1 MFS transporter (Sulfurisphaera tokodaii) [pid:70.7%25%2C q_cov:95.1%25%2C s_cov:98.5%25%2C Eval:3.2e-186],MGA_2335
sequence1	MetaGeneAnnotator	CDS	2074897	2075316	.	+	0	ID=MGA_2336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIFDKMKKNVSDVINTTEHRLTGRPPVKGKFITNIPKALMVEDWYWDEEGVFTLEKKPGLLSSGIKKGKIIRWQEIDDIIPLNVSQTSNYSAFGLSGETNMIGDWVIKKKDGATVTIKYVIDPINRAEAFKKIYLNKK;locus_tag=LOCUS_23350;note=MGA_2336
sequence1	MetaGeneAnnotator	CDS	2075624	2076031	.	+	0	ID=MGA_2337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAIVGFGFGALFIILGIIASRKESANSEKLTLIAGKGLFSPWYYIGKEGIYKGKKLLLGWNEIANIFVIHEYEITKSNLSVRTLQTGVPSMSGTIYKMGTFRVITKDGREIDIKNVINPKEILEYIKNVYLRTL;locus_tag=LOCUS_23360;note=MGA_2337
sequence1	MetaGeneAnnotator	CDS	2077064	2078251	.	+	0	ID=MGA_2338;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980446.1;translation=MEPTKNLRILSITSLAHFMNDGTFLVFPLLIVYYTTIYHVSVVFLGTLAIIYTLLSGLLSPFFGDFADKHDKDAVLMALGIFLEALSFLFFALSFSIPSLIYVLASLAAVILGIGQAFYHPIGGAILSRVFGKSAGRALGINGSMGSIGRSVMPSIVTFLILVFAEVTGLLLVSAYMIVASLLIFFGLRFYKRGSKEEIRKSKEKLESQFYRFLFILGSIVFIRSMFITGTTTFLGDFIYDIYLSKTLAGIFLTVGFIGSVFGQPVFGWITERKGGRYAFVLSSIISIIFFLLFLIFSNNLIVSSLFYTLFTFASFSSFPVLLGYVGQTFPKSFFTVANSYIWGVGVTVGGAAGTAVITLLLGMHFSILTSFYIMFGLAIISAILMPLIPKKISK;locus_tag=LOCUS_23370;note=WP_010980446.1 MFS transporter (Sulfurisphaera tokodaii) [pid:29.4%25%2C q_cov:97.2%25%2C s_cov:96.4%25%2C Eval:2.9e-38],MGA_2338
sequence1	MetaGeneAnnotator	CDS	2078253	2078810	.	-	0	ID=MGA_2339;product=cysteine hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980595.1;translation=MQSVKEILDPQKSLLVVWDVHLALVNSIFNKDEFLKNLKIVIDSARKASVPILFTKITPYPKGFESTASKIMYRGGFQFKPEEMKLAIEPQENDIILNKNTWSIFVGTNFDLLMKNSARTTIVFTGIATEIGVETSARDAFAYGYVPVIVKDAVSSRNKEAHDRSLENMKSFFPIVTAEELSKIW;locus_tag=LOCUS_23380;note=WP_010980595.1 cysteine hydrolase (Sulfurisphaera tokodaii) [pid:50.8%25%2C q_cov:100.0%25%2C s_cov:96.2%25%2C Eval:7.1e-46],MGA_2339
sequence1	MetaGeneAnnotator	CDS	2078931	2080037	.	+	0	ID=MGA_2340;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978775.1;translation=MDKDVIKIAFSAFFSDLGYQAVVASFPLLLVFYFHVPIYVYGIVESFSYGVGLFFSFLGGLSADRFGSKRTSIFGNALIVLLSFTGFARNAIEAILFFLSGWFMRNLRSPARRTMVAEITKDEERKKAYGILHALDVGGGMLAIVYLTILLYLKVSLYFILPFTAIPITIGTLLLVFSRSGGKKPKEKINYKVITGILIATAFFGISTYSPGFPIITVTQSTHEIYLGALTYGIYLGASALFGYIFSYVRIGDFQGLFSGYVLSALASLGFVFLFGFKAEGLYPLVFLLGIAMASAETFEPSIISKVSGQNIGRGMGLLSLARGIGYFIGNSVMGILYTINYAYAYTFASLVSFASAIIILILIKYNK;locus_tag=LOCUS_23390;note=WP_010978775.1 MFS transporter (Sulfurisphaera tokodaii) [pid:52.9%25%2C q_cov:93.2%25%2C s_cov:92.5%25%2C Eval:2.4e-100],MGA_2340
sequence1	MetaGeneAnnotator	CDS	2080240	2081772	.	-	0	ID=MGA_2341;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979663.1;translation=MVESKSYFIRESSGLIKQVSLTDAVLLNIGNLSIGEALYTSISPYLEKGGVLWLASIFALIFTIPEIIVYTIMTSKISRTGGDYIWISRNLSGGIGSIMAIMYLIQSASFFAIISFFSGASINSTLTTIGQVDKIPDLLYLANTIFVNPYNAPIINRLIFYGISASFFIIIILLNITKSRWGFSIVTALGIFSLSSLIIAMIAIGLSASDFGTKILPFLQTNNITNVIPKYSFLPPISIAATFSLLPLFALYTYPWINAGAAVSSEFKNNKIAKFNVILAVSITAILVTLGFLEMNLVAGYNLNLLAYPTFTYNFWTVAIAVASNPILQWIIGLGLIAWNFYTLSYGVVVFSRYVFALSFDRVLPEKFSEVNSQGSPIYAHLLDLTITLSLLLIPVFSLSAAASLYGTTILGASYLLTVMIAASIYGFKNKIKILKITGPLAALYLAFLTFDAGTNPIFGFMTPTGINDITATFVIVAFALGITIYLLSRYYNHKKGIDLSITFKEIPPE;locus_tag=LOCUS_23400;note=WP_010979663.1 APC family permease (Sulfurisphaera tokodaii) [pid:60.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-174],MGA_2341
sequence1	MetaGeneAnnotator	CDS	2081926	2082378	.	+	0	ID=MGA_2342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSMRKNFVTIGIILIIIGVVIFASSMYIATSSLHYNEINLAPGQQYSLHVTNTGIFMYKSNISYPVKLLQDNVTLTSSSYKSGYYSYVVEPSNAHAIINIYNNYTVPLEIVYANIPISSSVVISGLLVIIAIVLVIAGIVIAIYGAIKK;locus_tag=LOCUS_23410;note=MGA_2342
sequence1	MetaGeneAnnotator	CDS	2082380	2082865	.	-	0	ID=MGA_2343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKVIGLKGGVGKTLIANYIAQKLREMNFKVEVYPDKYAVENEEVDFEIYDLGLARPDQENSINLFVCDKFSLKTTVDYSKSWNGKKILIINKVSPIPKEIIEEIILAQEEIDNFISIILVPFNGAFFMNEYSTEPTLDNLVEILLGRKNQKIILPFIEI;locus_tag=LOCUS_23420;note=MGA_2343
sequence1	MetaGeneAnnotator	CDS	2082940	2083668	.	-	0	ID=MGA_2344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYKATEISDIDFKDRKEIEIRIDTKQYKKLFRKLIFFNVIYLYPCDDTLMETLELAGALREAGVKVSINGSPPTLEPKIAKNTKLILNIGIKKWGKELTWNVDSTVGINYSDTENKSYLIGKDFPISDPRTGIIGYFLNKNAVVIFTQLKEESAIGELIGKTENENLLIRPNRWFTDLSVLEIKEKNKDNILAESKEIFCRPLGSAYIPVTRQELFNVLIKFKMRSSGFSIDCYKTLGWLD;locus_tag=LOCUS_23430;note=MGA_2344
sequence1	MetaGeneAnnotator	CDS	2083770	2086046	.	-	0	ID=MGA_2345;product=malto-oligosyltrehalose synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978923.1;translation=MITYRLQLNKNFNFQQVIEILDYLKDLGITHLYLSPILQARKGSSHGYDVFDFTKINEELGGEEKFIELSKKAREKGIGIILDIVPNHMALENPYMMDVLKYGKNSTYAKFFDIDWSLNKILLPILGNPEDIKKLRIEKQDNSFYIRYYELKLPIKDDSIEKIKNKYSCADEECLNKHLQEILEDQNYELIFWKESSNKINYRRFFDVNGLIALREEDEDVFNEVHKKIFQLVKEGYIEGLRVDHIDGLYDPKQYIERLRANLGNIYLFVEKILGENERLRDWKIEGTTGYDFLKILNLLFIKNMEKMRKIYYNFTGIEFSKDLLVREKRKVIDQLFKGDIERLLRITGLSEDYRETLINFLVCINIYRTYVENYSWIDTEVIKNIEECSKDSKILNLLNNKEILQRIEQFSPAVMAKGIEDTFFYYYNPLISQNEVGGTPWLNGISCVDFHLFNIEREILWPNSMLTTSTHDTKLSEDVRARINVLSEIPDEWEKKLLEWSKFNEKFVTIGPTKNDEYRFYQVLLGTWNGYSNEYKERLINYMFKAIREEKENTFWIEPNIKYENAVKDFIEKALNNQLFMNSFLDFWKKIDFYGKMNSIIQTTLKLTLPGVPDIYQGNESFTYLMVDPDNRRQVNFVELKNKLNNIKKNRHLDDKLYVTWKILNLRKKDPEAFSGYKPLEVEGSNNICGFMRRGILVIFPRFVTEAYPFKDKLKNTFMKLDGDFIDILTDNQVKITNNINVSELFSDYPIVILYKK;locus_tag=LOCUS_23440;EC_number=5.4.99.15;note=WP_010978923.1 malto-oligosyltrehalose synthase (Sulfurisphaera tokodaii) [pid:43.6%25%2C q_cov:96.8%25%2C s_cov:97.3%25%2C Eval:4.1e-157],MGA_2345
sequence1	MetaGeneAnnotator	CDS	2086049	2088184	.	-	0	ID=MGA_2346;product=glycogen debranching protein GlgX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978922.1;translation=MSTVQRPTRPGEPYPIGVTITKDGANFVLFSENATSVQLLLFSHPDDKEPKEIIDVKEKTGDLWHVLVPGILSGQLYAYKVDGPFKPEEGLRFNKNKAVIDPYARALAGFIKWDDSLFAYKMGDQNQDLSFDERDSTPFIPKSVVYEDSFDWEGDRPLSLRIPWSQTIIYETHVRGMTKLRDDIDENLRGTFMGIASKQVISYLKDMGITALELMPVQQFVRDKWLLDKGLTNYWGYNPIAYFAPDCGYSSSGCLGQQVIEFKKMVKELHTAGIEVIVDVVYNHTGEGNQLGPTLSFKGIDNKSYYMLNPENPRYYMDFTGTGNTLNLRHPRVLQMVMDSLRYWVLEMHVDGFRFDLASALARELYSVNMLSTFFVTIQQDPVLSRVKLIAEPWDVGEGGYQVGNFPYQWAEWNGKYRDTIRRFWRGEPIVYSELANRLMGSPDLYMGSGRTPFASINYITSHDGFTLEDLVSYNQKHNEANLMDNKDGMDENYSWNCGFEGPSEDPNIIACRERQKRNFIITLFISQGVPMLLGGDEISRTQRGNNNAFCQDNEISWFNWNLDDRKKKFHDFVKSSIFLRKSHPIFRRRRFFQGRKLFGAPYKDITWLGPDGLEIKENNWNSPTNTIAFVLSGDVMDEINERGERVADYTFLIILNANPNTIKFKVPKIGEKWELILWSYDRDPKEEEKIVKAEQELEIEGRSAIVYRRI;locus_tag=LOCUS_23450;gene=glgX;note=WP_010978922.1 glycogen debranching protein GlgX (Sulfurisphaera tokodaii) [pid:69.8%25%2C q_cov:99.3%25%2C s_cov:98.7%25%2C Eval:1.6e-312],MGA_2346
sequence1	MetaGeneAnnotator	CDS	2088211	2089920	.	-	0	ID=MGA_2347;product=malto-oligosyltrehalose trehalohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393309.1;translation=MPWKLDLGANCEKSNVSFRIWSPYYDSLSIVLYKQNKKEIVEMNKEDKGYFSLKDKDVEYYSYLIENMEIPDPASRYQPEGVHGKSKVLCENFNWEDKEWEGIDQNNLIIYELHVGTFSERGDFQGVIEKLDYLKNLGITAIELMPVSQFGGKRNWGYDGVFLYAVQNSYGGPYELKRLVNEAHKKGLGVILDVVYNHVGPEGNYLGKFGPYFSSRYTTPWGPIFNYDEAWSDEVRHYVTQNALYWIYEYHMDGLRLDAVHSIYDISPKHILSEISDKIKIAESELKRKINLIAESDLNDPKIISPKEKCGYNIDAQWSDDFHHALHAYATGERDSYYEDFGSIEQIVKALEKVFIYDGVYSNFRKKTHGAPVGDLGGNKFIVYIQNHDQIGNRKDGKRLLNLIDKQNFLILSTLYFMSPYIPMIFMGEEYGEKNPFLFFTDFSDVQLINALREGRKKELGEYYYDPQSDDTYNKSKLSWKIDYEILNFYKNIIKIKKELDHSRNILVKIEDNSLLIERDKLLVVAAFKDSTIHLKKKWKLILSTAEFPEYIEGEIKIGRGAAIYRNAN;locus_tag=LOCUS_23460;gene=treZ;note=WP_011393309.1 malto-oligosyltrehalose trehalohydrolase (Moorella thermoacetica) [pid:46.8%25%2C q_cov:87.9%25%2C s_cov:83.2%25%2C Eval:1.4e-143],MGA_2347
sequence1	MetaGeneAnnotator	CDS	2090181	2091596	.	+	0	ID=MGA_2348;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980448.1;translation=MGSPFKNSPFKEFDDLRLSFNHIKVWYTSGMGFFTDAYDLFIISAMLDIFGTQNLPGFHLTPFTESLLASSALITAVLGQLTFGFLADKFGRKSVYGIEATLLALGALLSAFAPNIIWLIIFRSIMGFGIGGDYPVSATIMSEYANVKDRGKLVALVFANQGLGSLAAVAVGAISAYVLPLSIAWRVMAGIGAIPAASVIYLRRKVPETPRYAALVKGDYKEAQRSATFMGTKLQANNVVSKKLSFGQFLGKYGALLLGTAGTWFITDIALYGTGIYSGAIVTSILGKPPSIGYEIVEQGVPFTVGFFGYFTAVGLMDRLGRKWIQTQGFAIMAAIYAIVSAILVTSGTKVTGFIIPTTEAFAIYALSYLFIDFGPNTTTFVIPAEVYPTNYRTRGHGISAAAGKTGAAITTYLFPYLLTGIGIKGVLEMLAGVSIVGALLTVFFIKEPKLKSLEEISDEETVEKQSSQSQ;locus_tag=LOCUS_23470;note=WP_010980448.1 MFS transporter (Sulfurisphaera tokodaii) [pid:61.8%25%2C q_cov:98.7%25%2C s_cov:99.6%25%2C Eval:2.3e-165],MGA_2348
sequence1	MetaGeneAnnotator	CDS	2091720	2092346	.	+	0	ID=MGA_2349;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979662.1;translation=MDVGIFLAAFGISLLELSEAGAVAVIYRGIFNSNKPYIYAILGVLTVLIPTFLLGSFISLLPLNYVLIAAGIILFYFGYRLLRSARRSIKGLRKPHEKEKEESIAVVYTIGATEAFEAALVIIALIPQNYVSTLIGTLSASLVVIALTIILKSQIMKIRVPQLKYALSALLFSLGTLWFGEVFIGIDEIFLPLFFVVYLAVNYALIRI;locus_tag=LOCUS_23480;note=WP_010979662.1 membrane protein (Sulfurisphaera) [pid:61.4%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:6.5e-68],MGA_2349
sequence1	MetaGeneAnnotator	CDS	2092449	2093282	.	-	0	ID=MGA_2350;product=EamA family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979665.1;translation=MHLKKGFYDLLLTSFLWGTIGIATQFFYIQGANPYSLVLFRSISSAIISFFIIKIRNILNLKQIILGLFAAAFYETYIYTITIDGAALSAVLLYTAPLWVFMLSKLLVKESTNAIKIISSICIVIGLYIIYEGTLNLMETLLGLMSGFTYALLVSYSRYLQIRGSKEWEMIASQSIWSIPFVIILEIFSKINLPSIFGGIYLGIFATILPYFFFYRGMKKSDSGTATIISALEPVFTIILAYIFLKESLNFVQFIGTIIILISVIINGMTFSTSGSN;locus_tag=LOCUS_23490;note=WP_010979665.1 EamA family transporter (Sulfurisphaera tokodaii) [pid:47.4%25%2C q_cov:95.3%25%2C s_cov:98.5%25%2C Eval:5.4e-64],MGA_2350
sequence1	MetaGeneAnnotator	CDS	2093633	2093962	.	+	0	ID=MGA_2351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978740.1;translation=MVCPYYKNGACYSPSLDQPDASVTSKERCLKNFKVCRYFQNETKLDIKNFYFEMKTKLSSECNYYELKDVGSGFVAYCKVLNRIITESQAINCNKYWNDCPLRAIMDIH;locus_tag=LOCUS_23500;note=WP_010978740.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:46.3%25%2C q_cov:94.5%25%2C s_cov:99.1%25%2C Eval:2.5e-25],MGA_2351
sequence1	MetaGeneAnnotator	CDS	2093946	2094542	.	-	0	ID=MGA_2352;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011476584.1;translation=MDAKILSIDKVGDKLIMKLDTKLNFKPGNTIDVIFDNDKRTFSIASSPFEDFLMFATKIRNSAFKQRLSTLKPGDKLSFEGPFEDEFVIKDSDEYVFITKGIGITPIRSMILYLLKDKPKSKIILFYEPDDDGTILFKEDLEKVAKFEKPSADELRPYQDALFYISGMPTNTKEYAKLALDAGGKTGKIIIEPFSGYP;locus_tag=LOCUS_23510;note=WP_011476584.1 FAD-dependent oxidoreductase (Ligilactobacillus salivarius) [pid:28.8%25%2C q_cov:79.8%25%2C s_cov:75.8%25%2C Eval:1.2e-09],MGA_2352
sequence1	MetaGeneAnnotator	CDS	2094593	2095675	.	-	0	ID=MGA_2353;product=glucose 1-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979764.1;translation=MKAIIVKPPNPGAEVKDIELSQEVKPGQVRIKTLYTGICGTDRGIVSGKITFSRPQENASELILGHEAMGVVEEVGEGVERFKKGDLVVPVVRRGCGICLNCKIGRPDFCETGKFVEAGIRGLNGFMREEFVDDVMYLVRVPEPIKDIGMLTEPLSNVVKAVDEILNIQNRMIWTCGDSTYECRNALVVGSGPIGTFFSLLLRTNGFNVYLLNKRDPSPTEAYIAERMSTTFYNTTQGLEKLPSADVIVDTTGYPSAFLPLLKKFKKNAILVLFGTSSGDKVEIDADLVTFFVENNIAVVGSVNASKEHFREAVNYLTLWKEKYGSLVPRMITSMVSPENGPEVVSKKIPGEIKTVIKWS;locus_tag=LOCUS_23520;note=WP_010979764.1 glucose 1-dehydrogenase (Sulfurisphaera tokodaii) [pid:64.6%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:9.3e-137],MGA_2353
sequence1	MetaGeneAnnotator	CDS	2095818	2097785	.	+	0	ID=MGA_2354;product=protein kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978806.1;translation=MYFAFIKDNKKILYSDGIISEYDGKLKVKDNIIGYVLSPSDGKLKQTKIPVYDCSKVEFSGALRGKVSDFYIFESKDSLCLYFGTLDKEISGAIYDFVSGLSFIKGDKTEIIKNMDKYEVIQFALKSFNDDEIKRYAIINLSKLNKCNEAIDLYLKLDKKFPEEALAAAECYEKLGEDLEALKIYSFFSEEKYKELESKLMKKVDLMIDEYKSTENPKRLFDALNVLPTYDAPAVKLGWHYMKKRNYNDAVKYFEEALKRSNSYQNMLMLSYAYFKSGEYRKAYDLIENAEKIRRTANSAYLKGLALEALNAPSNAEKEFTYACKEGVVEACEKVSPNKLYLPKDFLPEQWLGYVLYGYEVKKIIGNGGMGYVLLVEKNTRKYAMKIMKKEYNFTEMLYEVAKMQEISKGSKYVVRILSSFIDENWTDYFSSPPAIIMEYMEGGDLRKILIEEEYQSLRHSVRWPEIVSLIYSKVSDGIIHMHKEGYVHCDIKPSNILFSSKLQKYGEDAETDILTERSVPKLSDLGSAVKFGVPVIHYTPYYAHPLQRFGYRADYSMDVYSFTVSLYVTLTNNFPFPEWLERELEDAVTDSSKREQALKDFYNAEPRMDYVPDEYRELIEKGLKGEITMEEISRELKNLVSSFYNIQDKILISS;locus_tag=LOCUS_23530;note=WP_010978806.1 protein kinase (Sulfurisphaera tokodaii) [pid:63.2%25%2C q_cov:98.8%25%2C s_cov:98.5%25%2C Eval:6.3e-244],MGA_2354
sequence1	MetaGeneAnnotator	CDS	2097771	2098616	.	-	0	ID=MGA_2355;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979100.1;translation=MKILKYAIPYIVLSAFSYEFVKNGLQYASPLPFMAIRYLIGGISLLPLAKKIVINRNIIFLTILTTLSSGLWAYGLLYVSPSESAVLSYSMPLFALPLSLLLIKEKPEITEILGITVGFLGVIIYSIPLGFGYTLIGLIFTLVNAFFWASFTVFFRFLKNMDPFVVNSSQLIIGSMFFFGFSFLDFKLDFTYNFIADLIYVSILGGSLTFILWNQMLRMEKVGKVTVLSFSVPLLTTAIDGIETMSLPSDFSIVGITIMFSGILLSRLKGRKKKTAISRGN;locus_tag=LOCUS_23540;note=WP_010979100.1 DMT family transporter (Sulfurisphaera tokodaii) [pid:50.2%25%2C q_cov:95.7%25%2C s_cov:99.3%25%2C Eval:1.2e-74],MGA_2355
sequence1	MetaGeneAnnotator	CDS	2098729	2098908	.	+	0	ID=MGA_2356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846419.1;translation=MEYRKIFEGAAYSIFEDDEATLVLLEGKPVAASCIEHGNHNLFDFDCPHVEKLMKKIFS;locus_tag=LOCUS_23550;note=WP_052846419.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:51.7%25%2C q_cov:98.3%25%2C s_cov:91.9%25%2C Eval:2.5e-12],MGA_2356
sequence1	MetaGeneAnnotator	CDS	2098919	2099314	.	-	0	ID=MGA_2357;product=RidA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868364.1;translation=MSLLYVMKDVIYTEKAPKPIGPYSQAIKSSNIIFVSGQIPIEPKTNEIIKGNIKEQTKKVIENIKAILESSGASLENVTMTFIYLKDMKDFSDFNDIYQEYFSTKPPARVTVEVSRLPRDVLIEIACIAVV;locus_tag=LOCUS_23560;note=WP_010868364.1 RidA family protein (Pyrococcus abyssi) [pid:68.9%25%2C q_cov:93.1%25%2C s_cov:96.1%25%2C Eval:7.1e-44],MGA_2357
sequence1	MetaGeneAnnotator	CDS	2099315	2100157	.	-	0	ID=MGA_2358;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846421.1;translation=MIIKTLEILNPPIVSIDDKLLTAFKKVNDRGIGRVIVANDKIHGLLSTRDLLSVYLSFCPTTCTQGDLYKLGNAKASDYMTPNPVTVTEDTDIIDAITLMVTRNFGSLPVLDEKGKPIGIVTERDFLLAFQDLDELFPVNKFMSKRVTTVYKHTLLEQAVRQMLNRGFRRLPVADEDGKVIGMITAADAVKSAGKSVEKMEPEAFFGRYIKDVMNKSVITIDENKSINEAAALLISKNIGSLLILDEEGKPKGIITERDMLIALHYQLHLPFVSEKKNLT;locus_tag=LOCUS_23570;note=WP_052846421.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:57.0%25%2C q_cov:96.4%25%2C s_cov:98.9%25%2C Eval:1.1e-83],MGA_2358
sequence1	MetaGeneAnnotator	CDS	2100284	2100727	.	+	0	ID=MGA_2359;product=8-oxo-dGTP diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980098.1;translation=MELPTCLSIVIKDNEVLMIEKKRGLGKGLLTFPGWKIENETSYECALRELEEEVNVKGYDPLYAGRILFKQENGYVISMYVYLIRKFSGVIKETDEAKPFWQRTDDIPYARMWQDDRFWLYKVLSGKIVDCVFTFSNDWSEIMEGYC;locus_tag=LOCUS_23580;note=WP_010980098.1 8-oxo-dGTP diphosphatase (Sulfurisphaera tokodaii) [pid:46.9%25%2C q_cov:97.3%25%2C s_cov:94.7%25%2C Eval:1.3e-31],MGA_2359
sequence1	MetaGeneAnnotator	CDS	2101528	2101767	.	-	0	ID=MGA_2360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIVVAFENGKRFVIYDNGVIRETNEEESIFIVKNLDKEKFDKITKSGKKIFICNDNEDICLSKVASKVFGRPKSCKFA;locus_tag=LOCUS_23590;note=MGA_2360
sequence1	MetaGeneAnnotator	CDS	2101771	2101962	.	-	0	ID=MGA_2361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPDIIFKIILNIIGVIAIFYGIAYITLSSFNVMKIDRKVMRFMGSMLIGVSISIFIIAYTLL;locus_tag=LOCUS_23600;note=MGA_2361
sequence1	MetaGeneAnnotator	CDS	2101998	2102957	.	-	0	ID=MGA_2362;product=alpha/beta hydrolase-fold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980100.1;translation=MNLKFLEFESDVLKDNVLKDPFIRKTAIIEPDQPEGKPLLVYLSGFLSSSLAQLNYDPLSEDLYSRVKRLKSEGKIDGSIIILPDTFTKVGGNQYLNSEAVGKYEDFILNEIIPYFSEKYSTDKIGVFGKSSGGYGSLTLGMKSKKIKALASHSGDAYFEYVYLPSFPKVIPYLRKFKTPKEWLDYYWTKQNKKKKEDINTLNIIGMSAFYSPSSSGDILLPFDLETGEIIMEIWEKWLQKDPVRMVDKISGNLQNKFVYIDVGVKDEFNIQYGSRIIHKKLKQKNIQHIYEEFEDGHLNVSYRYDVSIPILENYLKNI;locus_tag=LOCUS_23610;note=WP_010980100.1 alpha/beta hydrolase-fold protein (Sulfurisphaera tokodaii) [pid:55.1%25%2C q_cov:97.8%25%2C s_cov:97.2%25%2C Eval:1.3e-99],MGA_2362
sequence1	MetaGeneAnnotator	CDS	2103142	2103741	.	-	0	ID=MGA_2363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRFVTLTVFFRVKAADNPSKKDPYVLGISNSLLIRLNKNTAVIADNIILSFEKFNVGFIRYLEIKYPKISEDIVAIGKSTIKLPMSLEADIAANAKKDKTSSNEETERISSLSFSSSFPCDNLNAIEVLVSAAIKPRKIDSKIFNLNKNPNVNIIDIALIVSIKTITDDRINSVFNLEISRVAPISKDIKLSAKKSKN;locus_tag=LOCUS_23620;note=MGA_2363
sequence1	MetaGeneAnnotator	CDS	2103740	2104558	.	+	0	ID=MGA_2364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIRELSLIFFFIVAGSYLKIGNSLLIFLPISILLIIVKYLSFSIATWMTGSEFLRAFRLGLFMTPISEFGIIISLDAINQGFNILPVYDISTLVVAFSSTVSSIIINSEKRILKGISKIYFKSTFLQNVDRIVKSNSFSRKTQFNFEYVKPIIVTIGIVTSLYTVLVSLKTYLPFLLSFTAPIITAFSILFILFLWKDSIEKVNTEGKIKEILKILSIMISIPVSLILISMLVSFLGFSFISILALFISILVLLLLYRRIERIVREIENII;locus_tag=LOCUS_23630;note=WP_010980101.1 cation:proton antiporter (Sulfurisphaera tokodaii) [pid:38.8%25%2C q_cov:81.6%25%2C s_cov:42.8%25%2C Eval:6.0e-36%2C partial hit],MGA_2364
sequence1	MetaGeneAnnotator	CDS	2104508	2105041	.	-	0	ID=MGA_2365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429693.1;translation=MTFIYCGIDLAVKRKTAVGLLIDNKIKIYFVSTDDEILELCSKAKITAIDSPLSYSKGFREIDREMLKLGLKVLPPSFMPSLVERGIKLSKKLNSIETHPTSSMKLMKINWKDYTSIKDEFDAVLCAITAYLYDNGEAKAIKAKDGEIYLIDKKMKIVKENSDYIFYFSNNSFYSSI;locus_tag=LOCUS_23640;note=WP_198429693.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:47.3%25%2C q_cov:83.1%25%2C s_cov:84.3%25%2C Eval:1.3e-33],MGA_2365
sequence1	MetaGeneAnnotator	CDS	2105059	2105745	.	+	0	ID=MGA_2366;product=triose-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980103.1;translation=MKKPIILINFKAYENSFGEKGIQMAKIIEKVSREYSTDIIISVPATMIYKIAQEVSIPVFAQHVDSVSLGARTGHTTVEMIKDAGAKGSLLNHSEKRIRLDEIDDAIKKLNKEGLESVVCVDRYSIVAPIGMLGPNSILIEPPELIGSGISVSKAKPEVITKGVEEINKVKGVDLIAGAGISSGDDVYTAIKLGAAGIGVASAVMKSPNPEQVVEDFVKSAIKAMSEK;locus_tag=LOCUS_23650;gene=tpiA;EC_number=5.3.1.1;note=WP_010980103.1 triose-phosphate isomerase (Sulfurisphaera tokodaii) [pid:67.1%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:1.1e-82],MGA_2366
sequence1	MetaGeneAnnotator	CDS	2105745	2106188	.	+	0	ID=MGA_2367;product=alanyl-tRNA editing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048147325.1;translation=MEIRTHSALHVLKGAARKVLGTKWTASTYVNGFHGRLTVKMERKPSDEEINKVFYEANQKIKENLPFIIEKMSRKEAEEKYGDEIYDLFPVPSDVVELTIVIIPDWNINACNKQHVKSTIEIGEIIQDDWRYRNSKQLLELSFNLAH;locus_tag=LOCUS_23660;note=WP_048147325.1 alanyl-tRNA editing protein (Pyrococcus abyssi) [pid:57.8%25%2C q_cov:98.6%25%2C s_cov:95.5%25%2C Eval:1.1e-43],MGA_2367
sequence1	MetaGeneAnnotator	CDS	2106172	2106504	.	-	0	ID=MGA_2368;product=winged helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978804.1;translation=MKFNFKLWIENEDGKPILGKGGVELVKAIIETGSISGASEKLNLSYKFAWEYVRRINASVGGMELKKGGKNAGGTEIPEKLKKMLEIYNSAQEEVQKVLEKYTKMINELS;locus_tag=LOCUS_23670;note=WP_010978804.1 winged helix-turn-helix domain-containing protein (Sulfurisphaera) [pid:56.9%25%2C q_cov:99.1%25%2C s_cov:97.3%25%2C Eval:1.6e-35],MGA_2368
sequence1	MetaGeneAnnotator	CDS	2106501	2107586	.	-	0	ID=MGA_2369;product=5-(carboxyamino)imidazole ribonucleotide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978803.1;translation=MSSLQNYKIGILGGGQLGWMMILEGRKLPLKFYVLGNPEDPACQIADKCYPLENYKEMIDESDVVTFEFEHVSEEALNYAEEKNKLLPRLNSVELKRERYKEKEFLRDHNFPVPRFEVADNGEEALRILKNDFNNLGVIKQSKGGYDGKGQYFIKEDSEKYQFIKNMNCKFVVEEFIDFDFEASIIVTRSKKEFKAFTPSFNYNEKGILIYNYGPYFNEEMVKIGEKLTKDLDYIGTMGIEFFVKENKVLINETAPRVHNTGHYTLDASFVSQFEQHLRAITDMDLGDTTFLKPFGMVNILGKSDFPKEILRIGKVYWYGKNQAKKRRKMGHINIVGKDLEDVKGKIDNIMKILYTEGIEL;locus_tag=LOCUS_23680;EC_number=6.3.4.18;note=WP_010978803.1 5-(carboxyamino)imidazole ribonucleotide synthase (Sulfurisphaera tokodaii) [pid:65.9%25%2C q_cov:98.1%25%2C s_cov:97.5%25%2C Eval:1.9e-142],MGA_2369
sequence1	MetaGeneAnnotator	CDS	2107564	2108013	.	-	0	ID=MGA_2370;product=5-(carboxyamino)imidazole ribonucleotide mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978802.1;translation=MGSKSDWEYMKEATCVLEKFGVSYEAKVVSAHRTPEYMLDYAKSAHEKGIEVIIAGAGGAAHLPGMIASMTQLPVIGVPIPSKNLNGLDSLLSIVQMPYGIPVATVAIGGAKNAALLAIRILGIKYPDIFSKMKNFMEEMKNDVLSTKL;locus_tag=LOCUS_23690;gene=purE;EC_number=4.1.1.21%3B 5.4.99.18;note=WP_010978802.1 5-(carboxyamino)imidazole ribonucleotide mutase (Sulfurisphaera) [pid:77.9%25%2C q_cov:100.0%25%2C s_cov:94.9%25%2C Eval:1.4e-62],MGA_2370
sequence1	MetaGeneAnnotator	CDS	2108111	2108974	.	+	0	ID=MGA_2371;product=FAD-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978800.1;translation=MIEVANEEELFKEIRNAYIGRKKISIVGSGSHSDKKGEVISTIKMNSFDIKGDIIEAYAGASVLKIREEASSYGYLFPTLYDGTIGGLLGINYVSPLSTFYGTPRDFTLWCRAITPYGGLNWKIFIGSKGLIGAISKAVMKLFPRPYKIVTLEKSYDSVNELLDDYIKLKENKPIATLVEYEKTYKIHFTYSVDPDITGFNKDDGVPFIEESDKNSYIVETPSLSEFIKLVEKTNPIYAYTVINSGFSKVYLADEDILAGFNYYPYNGVKGIYLKLKKLLDYRNIFE;locus_tag=LOCUS_23700;note=WP_010978800.1 FAD-binding protein (Sulfurisphaera tokodaii) [pid:50.2%25%2C q_cov:99.3%25%2C s_cov:99.7%25%2C Eval:3.7e-71],MGA_2371
sequence1	MetaGeneAnnotator	CDS	2109011	2109952	.	+	0	ID=MGA_2372;product=nucleoside hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978799.1;translation=MSRHFIIDCDTAEDDIMSLFMLLKNNMVIEGITIVEGNIAFNQEINNALWALEYISDKLPYEVKVYPGSNRPLVKTFRTVENVHGKGGIGDEIPIPKKLSASSKKAVDAIIELADRYPGELEFLAISPLTNLALAYLKDNSIAEKIKKVWVMGGTIYGRGNITPVAEFNFWVDPDAAKIVFNSGLDLTMVSWDLITNYTIEKNDWDNINSMDTQMSKFYSNIYKHYREFAMTKQKMKGNPHPDLITTAIAINHEIAKKTEMQFVDIENCECLTRGMTVIDYLNVWNRNPNTEVVYEIDKSKFMNMLYDLLKWF;locus_tag=LOCUS_23710;note=WP_010978799.1 nucleoside hydrolase (Sulfurisphaera tokodaii) [pid:68.2%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:6.2e-131],MGA_2372
sequence1	MetaGeneAnnotator	CDS	2109949	2110206	.	-	0	ID=MGA_2373;product=winged helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978798.1;translation=MLTNLAEGELSVKEIMEYTGLSKKTIVKALRLLEYKGYVEKKAFIGDDVIFGITDRGLEELYRYYVFLQKLMPDMEFALCSKFDC;locus_tag=LOCUS_23720;note=WP_010978798.1 winged helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:53.5%25%2C q_cov:100.0%25%2C s_cov:92.5%25%2C Eval:5.9e-22],MGA_2373
sequence1	MetaGeneAnnotator	CDS	2110475	2112424	.	+	0	ID=MGA_2374;product=acetate--CoA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978778.1;translation=MTEEEQKLEEKVDYNMRYYKYLFDLSKNNPEKFWGDLAEQLIDWFEPWKTTMKQEDPMTKWFIGGKLNASYNAIDRHINTQRKYKAAIIWESEKGEKKVLTYQDLYYEVNRWANALKELGVKKGDRVTIYMPLTPEGVIAKLACTRLGAIHSVVFAGFGSQALASRIEDAKAKVVITADSYPRRGKVVELKKVVDDALDILGENNPVSKVLVYKRLGTEINFKEGRDVYFDEIGKYKYIEPELMDSNDPLFILYTSGTTGKPKGIVHSTGGYLVGTSAMLLWSYGLSQENDVLFNTSDIGWIVGHSYITYAPLVMGRTVIIYESAPDYPYPDKWAEIIEKYRATTFGTSATALRYFMKYGDEYVRAHDLSSLRIIVTNGEVLNYAPWKWGLETLGQGKVFMSHQWWQTETGAPNLGYLPGMIFMEMKSGPASGFPLPGNFIEVLNDQGGPSKPRERGYLIMRPPFPPYMMMGMWNDDGNERLKKTYFSKFPSLYYPGDYAMVDEDGYVWVLGRADETIKVAAHRIGAGEVESAITSHPSVAEAAVVGVPDPVKGEEVYAFVVLKQGYSPSESLAKDIQAHVRSVMGPIVTPQIRFVKSLPKTRSGKVMRRVIKAVVSGSQIGDISTIEDEASMEEIKKAAEELKNELNK;locus_tag=LOCUS_23730;gene=acs;EC_number=6.2.1.1;note=WP_010978778.1 acetate--CoA ligase (Sulfurisphaera tokodaii) [pid:77.9%25%2C q_cov:99.4%25%2C s_cov:98.0%25%2C Eval:1.4e-312],MGA_2374
sequence1	MetaGeneAnnotator	CDS	2112581	2112805	.	+	0	ID=MGA_2375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIHNANNPINIIKKMLDLSKGIVLIADWKPSYSKDLKYLLDKSMKKVVFYTTRNMGFEFFEGDCWYAVVRGSP;locus_tag=LOCUS_23740;note=MGA_2375
sequence1	MetaGeneAnnotator	CDS	2112860	2113522	.	+	0	ID=MGA_2376;product=HAD-IA family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980712.1;translation=MQLKSVFIDAGETLIGFRPRSYEIILAILRDYGYKINTTTLFRAIARSISKYNFPNEFGTNPLNVRDLLFELNIYPYKELVKSLVNRDFYGGEYFLYEDATDFLEFLKSQSLSSVIVTNATRRMDKILKEFELPKKVNGIVESFAVGVVKPNPKIFYYATRIGKTPAIHIGDIYEVDIVGANRAGFDGILLDRFRFYDDIKYNKAMTLKDVTKFLEKNWS;locus_tag=LOCUS_23750;note=WP_010980712.1 HAD-IA family hydrolase (Sulfurisphaera tokodaii) [pid:40.6%25%2C q_cov:98.6%25%2C s_cov:98.2%25%2C Eval:1.1e-44],MGA_2376
sequence1	MetaGeneAnnotator	CDS	2113854	2115722	.	+	0	ID=MGA_2377;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980561.1;translation=MASKNPVSGAKDLGTQADAQLRKSLNRFELLFLSLGGVIGSGWLFGSLYTAGYAGGAGVLSWIIAGVLIIFVGLVYSEIASAIPKSGGIVRYPHYSHGGVVGFIIAWAYFLSAASVPAIESTATVTYLSYFIPSLTYPNGVLTVEGIGLAYVLLILFFLLNYAGVNILGKVTHFAGWWKLIIPGLTVILALVFLYHPANFTMGGGFFPAASNLAEGFSGFSTVLYAIPTTGVIFSYLGFRQAIEYGGEGKNPRKDIPFAVIGALAIGIVLYTLLQVAFTGGVNWTAAAVTPGNWTGLLDSNVSHGPFLYLFEHSGVVGPILGLFGIWALILLIDAVISPAGTGWIYIGTAGRTVYGFASNGYLPSLFLKVGKTRVPVFSLIAALAIGMLFLLPFPAWVALVGFISSATVFTYIMGGIGLHTLRNVAPDLPRRYKVPSHLIIAPIATLAAGLIVYWSGFATLFYVVTAIFLGLPLFFGFYAYKAYRMNITLATILGVVDLGITIASAFFFDIATSGLSVANNIAFLLYMLLMIALVGFNLIVLWTSVNDDVKREIKASYWLVALIFAIIALSYFGGFGLDVVIPFPWDTLVAGAVILGFHFLAVKSGLRTEAIDEIINQTKEP;locus_tag=LOCUS_23760;note=WP_010980561.1 APC family permease (Sulfurisphaera tokodaii) [pid:58.7%25%2C q_cov:99.5%25%2C s_cov:99.4%25%2C Eval:1.6e-212],MGA_2377
sequence1	MetaGeneAnnotator	CDS	2115753	2116520	.	+	0	ID=MGA_2378;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979639.1;translation=MPCKGIHAISSGPVEFPELVYSFVICDDKTVMIDSGVSNSVMDISFLDKLDYLVLTHIHVDHVGGVSELVQRYKPKIILYEGFSKYLEDTTHLNASARNVLGDLLDIYGEVDPVKGGEFLEVKGGEELKLGKYTMKIYYTPGHAKHHISILIDDILYSGDSVGGRYNGIPFPTTPPPLDYDKYIESLRLQISLNPRMVGLSHGGFVSSNHMEEHLNQLIKGDYRVNIDLGGTAGELLNKLLEINYSGIAKSQNAK;locus_tag=LOCUS_23770;note=WP_010979639.1 MBL fold metallo-hydrolase (Sulfurisphaera tokodaii) [pid:51.9%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.3e-77],MGA_2378
sequence1	MetaGeneAnnotator	CDS	2116539	2117879	.	+	0	ID=MGA_2379;product=class II fumarate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847010.1;translation=MYIGIMKYTEAAPRLFMNTGTKFPRKIIWSMGLVKLACARVNTSLGYLDKEIGDAIEKASWEVMDGLHDSKVILDVFQTGSGTGLNMNINEIIAERASELSGKKIHPNDHVNLGQSSNDTVPTAIRVAAVANAVEKVVPALENMVSVLNRKSEEYNNVIKSGRTHLRDALPITLGQELSAYHDAFSHEIEEIRSILEYVKELPIGGSAVGTGLNADPRFQEMVIQEINKITAYGFKPANKFRAMRFLTDLLLLSGNIRNIAVELYRVGQDFRLMFSGPFTSIGEIDLPTQEEIAGSSIMPGKTNPVTVEASLLVSAQVVGLDHANQFASMLGEFELAMGVPLIGYNIVTEEDLISEALNKFSNLVIEGMKPNVEKMRKYAESSPSLITVISPVVGYDKASQIGKMLNKGMSIREALKELGFSDNDINKILKLDELVKPGIHAKKEG;locus_tag=LOCUS_23780;note=WP_052847010.1 class II fumarate hydratase (Sulfurisphaera tokodaii) [pid:73.3%25%2C q_cov:98.2%25%2C s_cov:100.0%25%2C Eval:1.1e-188],MGA_2379
sequence1	MetaGeneAnnotator	CDS	2117883	2118239	.	+	0	ID=MGA_2380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSWKITNSKVDAKLDVKCLIDDIANSPKIKEICERNGISTGHASEIHRLVSDVIIKIFKEKRMKPSDILLKYSKLADEKTLKELIIEIVKAANSVGEISYKVGNSSLEEEFSKLESSL;locus_tag=LOCUS_23790;note=MGA_2380
sequence1	MetaGeneAnnotator	CDS	2118229	2119011	.	-	0	ID=MGA_2381;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846388.1;translation=MKLGKIEIINGSPNTLVYDGRIVIDQGGKNASLNINSEIQLATHGHMDHIAGLFKKSEKKFIPKEDFWTLNIIGRRAMTYGFSSPDSKLFIYDLIKDNLNENFSDPEVEVIKLPGHTPGHSAFLIDNVLYCGDAFFGQRVLESFVFPFYTDFWKAMESLEKLKELIKSVDYVFVSHGPVYTDKRKVEDLLNFNLDYNNKLVEKIKNAIQGNEMTAEEVVVKISNKLEPANVFLNEIVAKSILVQISKDIKVTEKGVVFTG;locus_tag=LOCUS_23800;note=WP_052846388.1 MBL fold metallo-hydrolase (Sulfurisphaera tokodaii) [pid:62.7%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:3.6e-99],MGA_2381
sequence1	MetaGeneAnnotator	CDS	2119082	2120668	.	-	0	ID=MGA_2382;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978791.1;translation=MSNEKSSVTVPRLRRGVVGTLEAIGQEIAAMAPACDTVAFITSAAAFAFVLTPLAFLLAMATMYLEVNTLYHLSKRHASAGGYYGYVATAFGPTPAIVVGLIYVLYQVVSTSAIPIYVAGVVLPGVLNYFWGISLPGWIWIPFIITFIVVPIVLSMLGIRPQMKYIRYAALTEVAFLAITSLIIILKAPDNTIQVFNPFAWNSVYGSKFTSVGGPIAALGLGMVFGITSFIGYGGSAPLGEEAKSSKQITKALVFGVLVVGIVLTEVSYSLTVGWGVDNMVSFASNGIPGIVVYAEYMGLAGGLLLALFAFNSAFSDSVAMQSNAGRVYFAMARDGIIPKFFAYVHPKWITPTKALAFIAISSSVISILAGFIIGYFSGISPIQMLTLPATSSAIINALENAFDYLTTIALVGLVVAHVMMNTSVMTLFGRLKEKHFGFHKIIHPIEHYVLPGIATAIFAFVLYESIIPPVFPVTEAVATGALYLAGASVYAYWIKKSKPQVLKNAGRRVNIVEEELLEAKNKTNKEK;locus_tag=LOCUS_23810;note=WP_010978791.1 APC family permease (Sulfurisphaera tokodaii) [pid:53.3%25%2C q_cov:96.8%25%2C s_cov:98.3%25%2C Eval:2.5e-155],MGA_2382
sequence1	MetaGeneAnnotator	CDS	2120797	2121804	.	-	0	ID=MGA_2383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978779.1;translation=MRGLAFTVSWLLWGIGFYLYLPFLSIFLAKITSPSSIPEIYFISQLSSLPFPILGMISHKKIGSTKTIIIGMIISSLGLFLLGFSRNIYEAIASLTTYYFFYFSLPSYYVVFKSIGDGTIERIWGISVSPSIISPFLGGIIASYFGYKILFLISGLFVLFSVFPILKENNVKGGNSKIRISPIILLIIIPIAISMEFIFLEIKLLFSFSDTEIGILASIAEFIGMMFSIVSSFFFTKKLLPLSILLFSIEGLSIISPYFAIFYGFWEVIIPVTLEIFSNSRSVEDFASINFTQSLGWTIGYAITSIIRNITIAIEFSSLISIILSIILFIRINKT;locus_tag=LOCUS_23820;note=WP_010978779.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:33.1%25%2C q_cov:97.3%25%2C s_cov:97.0%25%2C Eval:2.0e-50],MGA_2383
sequence1	MetaGeneAnnotator	CDS	2121931	2122209	.	+	0	ID=MGA_2384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVNYNIGNILETSVLNVRYLRNINRLSKYKRKQLENKLILLEKIEGLIPLVVIKDEPMIFVINCKEKRSDIICMDSLTNTQTNKIFKSLNL;locus_tag=LOCUS_23830;note=MGA_2384
sequence1	MetaGeneAnnotator	CDS	2122198	2122884	.	-	0	ID=MGA_2385;product=DUF3834 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978657.1;translation=MLVTAPFAGPVSFPTLVAKENGKLDFEIKNSCETQEIGDVILDSITNLPKLNLNYKLVAGVFIDMYSLIGNKNSNKIFTIRKGTLADYNARLLAILTNKEVINTTAENALNEAEKGNLALVGIEVKIGESFEEEVGKLNARAASCMIYSNSKEIDNVLKAYKEGINIIKEDPKNSARIISQLSKYYSVNVMEKIIGIYRHRLTLNKNELNKSIQIYSKVLPEINKLEI;locus_tag=LOCUS_23840;note=WP_010978657.1 DUF3834 domain-containing protein (Sulfurisphaera tokodaii) [pid:63.0%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:9.4e-74],MGA_2385
sequence1	MetaGeneAnnotator	CDS	2122914	2123273	.	-	0	ID=MGA_2386;product=DUF123 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978984.1;translation=MKGYIVFLNCKKGKIKTKGKEFIIDDGNYAYVGSCGNYCDKRISRHMRKEKENFHWHIDYLSDICTPIAVLVLNMEEKEIASKFSNFPSIHGFGSADDKRNKSHLFKINIISAITTLKL;locus_tag=LOCUS_23850;note=WP_010978984.1 DUF123 domain-containing protein (Sulfurisphaera tokodaii) [pid:54.2%25%2C q_cov:99.2%25%2C s_cov:96.7%25%2C Eval:1.0e-34],MGA_2386
sequence1	MetaGeneAnnotator	CDS	2123406	2123849	.	+	0	ID=MGA_2387;product=glycine cleavage system protein H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979966.1;translation=MVVESNCEIPEDLLYYIEGKNTVWAKQDGDLLIVGITDVAQTMAGKIVKVRIKKKGIKVEKGKPVATMESGKWAGPVPAPVSGEIVESNTEAEKNPVLINQDPYGKGWLVKMKPSNPEDLKQLFAGAQAVQKLKDLIASEKISCKRL;locus_tag=LOCUS_23860;note=WP_010979966.1 glycine cleavage system protein H (Sulfurisphaera) [pid:71.5%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:1.9e-56],MGA_2387
sequence1	MetaGeneAnnotator	CDS	2123851	2124945	.	+	0	ID=MGA_2388;product=biotin/lipoate A/B protein ligase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846669.1;translation=MSWRFSELPPQDGYHMVTSFVSVADYVSRGGKNTLMLFYSKEPFVNVGVHQEVWLEVDLDYTKSHNIPVVRRDLGGGTVVITPGEHDYFLVINQNEVPGEPSKLYSKYLSPIVDVLKDYGINATLRDQDIVVNGKKISGNGAMTYEKAVVITGNILLSLDVDLISKCIRVPSEKFRDKMAKDMRDWLTSLENELGYTPSREELNRKIKEKYESELGIKFESSQLTPEEIELWNKLAEEKRNEEWTYYRDNRHPDLRTERCVKISSSVALCHLDYKARKLLRITIKIVNKKLQEVSISGDFFIMSPNGFLDYLEDKLTGIDPNEISKKIDEVFTEKKPVIFGFTKEDLEIAFQKIIEKPEIQEVI;locus_tag=LOCUS_23870;note=WP_052846669.1 biotin/lipoate A/B protein ligase family protein (Sulfurisphaera tokodaii) [pid:76.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.3e-166],MGA_2388
sequence1	MetaGeneAnnotator	CDS	2124938	2125654	.	-	0	ID=MGA_2389;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979968.1;translation=MKVKEIMSTNVIKADPNTKIKDAAKIMLYNNIRRLVVGDGIVTIRDLVYNWQNPDMPVEEISSKDLIFVNPEDDLKEACKVVTAKGVGSLLVGDGTNIQGIITERDLIRYCKVNINGNVGDIMDISPIIASPDSTLDEIIEVMKQKFKRHAVIIKDNLPGGILSVRDIARPLASGRNMKNLQAKDFMTIEVYRVTPDSTIETARFLMAEKNIGLLPVVDSRSLLGSVSEREILAVLSI;locus_tag=LOCUS_23880;note=WP_010979968.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:54.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-71],MGA_2389
sequence1	MetaGeneAnnotator	CDS	2125864	2126310	.	+	0	ID=MGA_2390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979969.1;translation=MKEKVGVLELEVKAVMELEGNEYKVVDVPSADEYKGFPPSWEFVKSNMLSWRPYFKGKMIEINNQLIPAVGNYLLNMDEEMYNFVLGIYNTFKVNKPSIETNISVVITDQINEIERKLGRSLNEEEKTRYYIRYAIEAAILKDVGLLN;locus_tag=LOCUS_23890;note=WP_010979969.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:58.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.8e-48],MGA_2390
sequence1	MetaGeneAnnotator	CDS	2126322	2126729	.	+	0	ID=MGA_2391;product=OsmC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979970.1;translation=MMTFTVEGKLDGDVVKSCVNGTEVTIGLFGSDYPTPEEMLLASALSCMLLTIYYVAKEKNVEIEEANGYIEGTMDPRGFQGDPTVPPGLLEVNYDITVKSKDPKINEVIELANKRCPLKDTLTRSIKINIKWNIS;locus_tag=LOCUS_23900;note=WP_010979970.1 OsmC family protein (Sulfurisphaera tokodaii) [pid:63.0%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:1.2e-46],MGA_2391
sequence1	MetaGeneAnnotator	CDS	2126770	2127096	.	+	0	ID=MGA_2392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979971.1;translation=MSEELMKPGERQLTEIRSYLFDLLDKVNSLAEENRVLLSNKGLESKLSIALELITMHRYDLDIVMKNYWNSFKEIISELSNITELKDKLNDILEDVNQIEELRKEAGF;locus_tag=LOCUS_23910;note=WP_010979971.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:41.1%25%2C q_cov:99.1%25%2C s_cov:97.3%25%2C Eval:2.4e-23],MGA_2392
sequence1	MetaGeneAnnotator	CDS	2127196	2127804	.	+	0	ID=MGA_2393;product=DsbA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978822.1;translation=MRLKNIVKDYQDLKIKHKAFMMISSLEDLKAIAPTEADAREVFKNEFNILTRYLKDYDPDKPISKGKIGYVWSLPPLMACKAAEFQKGDEGHWDYFSKAQEKFFIEGEDVTNDDVLISIAKEVNLDVEKFIQDFKSKKAKLAVIQDEEEAKAMGIRGVPALLINDKWLIRGLQSEEYLRKVIEDLEKNGEPKNVELKAYWEQ;locus_tag=LOCUS_23920;note=WP_010978822.1 DsbA family protein (Sulfurisphaera tokodaii) [pid:72.3%25%2C q_cov:99.5%25%2C s_cov:90.6%25%2C Eval:6.1e-84],MGA_2393
sequence1	MetaGeneAnnotator	CDS	2127820	2128203	.	+	0	ID=MGA_2394;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978821.1;translation=MVSVKEYMTTPVFQVESNTSLQEVCKLMMERGVGSVIVTENGEPKGIFTDRDAVKALAQGFSPSDDVKLASTWGDLEIVDLNTDVMVAIQTMTKRKIRHLPVKDSEGKIIGMFSIMDASKAVQDLNR;locus_tag=LOCUS_23930;note=WP_010978821.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:73.6%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:2.4e-47],MGA_2394
sequence1	MetaGeneAnnotator	CDS	2128255	2128842	.	+	0	ID=MGA_2395;product=methyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978820.1;translation=MKGNALSSLWNAEKIVSIDGDYEEINTGLNRSSLLKYSNFIIGNSFLYGERNLLSLTADYVIDGNKIIRSENLFENFPSIKFKGKTVTVGFCPEIGEIACISTLHQHNSLQAIYPLPFRDSSIDEILFYEVLDYDIMREANRILKIGGRVYLIIRDQVFGGIDPRDSLKFLLKFYIESAQIKDNFWIIKAKKIRN;locus_tag=LOCUS_23940;note=WP_010978820.1 methyltransferase domain-containing protein (Sulfurisphaera tokodaii) [pid:37.0%25%2C q_cov:89.2%25%2C s_cov:87.1%25%2C Eval:8.1e-22],MGA_2395
sequence1	MetaGeneAnnotator	CDS	2128926	2129675	.	+	0	ID=MGA_2396;product=CoA transferase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978819.1;translation=MILDINEAVKLLKNGDTITISGMSIHRNPMAFIYALVNSNVRNLNFVDREPGLGLEVLLKYNVVSKVRVAMATLEWFGMLPNFREKIEKGEISILEDTCGAFMAGIRAGAFGIPFMPVRGVLGSSLVSLHEKEGTWKVSEDPFSGEKIVLVKAIVPDVAIIHVNKADEEGNSEIQGPLYEDEFKAKAAKKVIITAEEIVPKSYFYGKRPTINSEYVSAVVHAPKGAEPTSMYPLYDADYEKILSILGQA;locus_tag=LOCUS_23950;note=WP_010978819.1 CoA transferase subunit A (Sulfurisphaera tokodaii) [pid:72.2%25%2C q_cov:98.4%25%2C s_cov:97.2%25%2C Eval:5.9e-104],MGA_2396
sequence1	MetaGeneAnnotator	CDS	2129656	2130372	.	-	0	ID=MGA_2397;product=CoA-transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978818.1;translation=MKIDYVIKAISLELEDGEKVYVGLNSIPAVIAAFMARDLYKRKIRILGVAEADNPKRIEISPSTGSPFFIEESPVMTTVDSFDLAQKGLLDVMFLGPVQIDEETNVNLSVIGDYFKPKVRLPGGAATAYIMPLVKKVILWNLKHSKKSLVKKVDFVTGSAKFSNNKVVIVTNLGVLKYDRDNKLWKITGLYPFSSVKEIHDNTEFTVKAENPQVIELNKDEEEFIKNMDPYELRLALE;locus_tag=LOCUS_23960;note=WP_010978818.1 CoA-transferase (Sulfurisphaera tokodaii) [pid:68.9%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:1.8e-91],MGA_2397
sequence1	MetaGeneAnnotator	CDS	2130371	2130727	.	+	0	ID=MGA_2398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978817.1;translation=MIVKSLNYKINVYSMVVYKYQDYFISGINHVVEGYFQDIVFIYKNGNNWNAVSAEKFRTNDKVLNEIKDLVKFATHVDDLKSAINELKKKGINIEEIDRYPFPRKLIEGKKKIQAEFD;locus_tag=LOCUS_23970;note=WP_010978817.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:67.3%25%2C q_cov:88.1%25%2C s_cov:100.0%25%2C Eval:1.2e-38],MGA_2398
sequence1	MetaGeneAnnotator	CDS	2130709	2131584	.	-	0	ID=MGA_2399;product=tRNA (adenine(9)-N1)-methyltransferase Trm10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978849.1;translation=MILGKILAKNLLDQGINSIYYNANKRPFLQKIAVDILLKDLGIVKGDFYGFLADEECGIKILKGKGKEKSNFSLAKNGKDILDNFPKTPLFIIDMGFWDKHSEKEKKKLILQLLLSISTIRKHLWDYNISVEHPPPNLHEKLGIQNKIRYKASPIGKTIVLNPYGDVVADESIIRNTDTFIIGGILDNTGWKNATTELSEKFHYNYPQVRIELKGSRVGVPDRINKIVNIILDVIEGKSLEDSIIENQSNADKYLRLLRDGESNLEEGARWLKANEKVIKMAKKVFQSNSA;locus_tag=LOCUS_23980;gene=trm10;EC_number=2.1.1.218;note=WP_010978849.1 tRNA (adenine(9)-N1)-methyltransferase Trm10 (Sulfurisphaera tokodaii) [pid:43.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.8e-52],MGA_2399
sequence1	MetaGeneAnnotator	CDS	2131581	2132654	.	-	0	ID=MGA_2400;product=VWA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978823.1;translation=MTISLKIRYSNSFINYKKTTEIGFIIYAVPESVAKIKNTHFIIAIDNSPSMVKNGNLDIALKSAEKLLETLPQGNTVTIIEFSNHPKIMYSGATGIKVNINKESGATTRFYELITFIMAMASQNPIPTKVILLTDGKPIDKRNIKDYEKLNIPKNMEIISIGIGSDYNETILSLLADKTSGIFYHIDDPSQLPTLFEEQTTNNVHALNLSISVPQGFSPLNYDMPIKIPIVDRLISVYGILTVPPGDKDYPVNIIANYDDPVTSQNKSLSYSVVLKRANEDVVNANLNKEVDAEIKYYKLLRDYTEALEKGKEATKIMTELKQVAEETRKEDLIEYTQKMTGDAKTDLSAATRKMRQ;locus_tag=LOCUS_23990;note=WP_010978823.1 VWA domain-containing protein (Sulfurisphaera tokodaii) [pid:44.8%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:2.4e-89],MGA_2400
sequence1	MetaGeneAnnotator	CDS	2132720	2133421	.	+	0	ID=MGA_2401;product=FHA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846422.1;translation=MTWKCPICGYENSDDALFCVQCGTKKPEVQSTNETPEVKPEQSLEQQSAIETPQNSPQASENQPSEQPIEQANQSEIAAVPQNLEQPPQESPQQSQSQTENPSVESQSSQIQVESKPVETEVQTTGKYYIQFIATSASALNKMKVPLDFEVFENISVGRSPENVIVIPDAEVSRRHAIISLERGNLFIEDLNSTNGTYVYDGKMFQPIKGKTEIQPNSIIKLGNNTIIKIVRE;locus_tag=LOCUS_24000;note=WP_052846422.1 FHA domain-containing protein (Sulfurisphaera tokodaii) [pid:46.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.7e-55],MGA_2401
sequence1	MetaGeneAnnotator	CDS	2133427	2134251	.	+	0	ID=MGA_2402;product=metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156007467.1;translation=MEYTKIENILDLVKKSIDKFDSEELLLNLPSVKKAVFVGDTHGADCITKYVFENYSDADLFVFIGDYVDRGPNGIENLEILLKKHLEDPNKVILLRGNHESPLTNMYYGFFNEVKKKLGNEEYYSYFVEMFSRMPYAALFNNYLIVHGGIARHLNKVEEIKGLPKPDKNPDNEIAFEILWNDPREELDGFVPNIRGEGTYFYGRDVTEKFLEDNSLNGIIRAHEVADGFREDIINSEKGLKVITVFSSAYHGMRAGALVWNEEKKSFNYEYIPY;locus_tag=LOCUS_24010;note=WP_156007467.1 metallophosphoesterase (Stygiolobus azoricus) [pid:50.2%25%2C q_cov:94.2%25%2C s_cov:90.2%25%2C Eval:9.4e-69],MGA_2402
sequence1	MetaGeneAnnotator	CDS	2134261	2135409	.	+	0	ID=MGA_2403;product=VWA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846423.1;translation=MTISMRVETSHKYSFNANVKMIFKILLVPEKVSVASGFHYIILLDTSGSMEGMKLDSAKTGAIELFKRIPEGNKVTFITFSSHVNVIKEFTDPQDLSEEIISLKAGGQTALYTALLTAFNLARKHEMPSYIVLLTDGNPTDETVEGTYRKIVIPEGIQIISFGLGEDYNESILKILADRTSGQLYHVDDPMQIPENLPKAAKTKIAGKNIVIDIISEAPVKILNYSDPPIKINALEGVVKILGETNVPPNYNGNFMTIKLNYEDPSSQRQQALMSIVSLTPAKDQQTFVSGVNKDLTFEYEYYNALQKYSSDVEAGNLVEATRTLDKMNELAQQTRRIELIETTKRLSSSLETTKRIGTVEQTKKLSKEVTSEVTRKLRGES;locus_tag=LOCUS_24020;note=WP_052846423.1 VWA domain-containing protein (Sulfurisphaera tokodaii) [pid:55.8%25%2C q_cov:99.2%25%2C s_cov:99.7%25%2C Eval:3.6e-126],MGA_2403
sequence1	MetaGeneAnnotator	CDS	2135393	2135926	.	-	0	ID=MGA_2404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979577.1;translation=MRLFGINVDSLITPETRFIVTKKRFLSSFGDEYPSFISLNEDKKIIRELIILSKPFFKGHEIQLGYEYSLTSNVDGKLNSLVGSNKIVLGIKAKKMSYGITTELRFLGIKNKPSKLLIMHDVPIVASNRKELLANIKDFMAEWASITINNIPCIINGFEKVKIKVNTIDVDYASFLL;locus_tag=LOCUS_24030;note=WP_010979577.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:42.5%25%2C q_cov:97.7%25%2C s_cov:96.6%25%2C Eval:7.2e-37],MGA_2404
sequence1	MetaGeneAnnotator	CDS	2136338	2136493	.	+	0	ID=MGA_2405;product=AbrB/MazE/SpoVT family DNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980123.1;translation=MTVEDIVKVSRNYQVTIPARIRQKFQIKEGDLVKVVFDDQSNSVKIVPIKQ;locus_tag=LOCUS_24040;note=WP_010980123.1 AbrB/MazE/SpoVT family DNA-binding domain-containing protein (Sulfurisphaera) [pid:74.5%25%2C q_cov:100.0%25%2C s_cov:94.4%25%2C Eval:3.1e-15],MGA_2405
sequence1	MetaGeneAnnotator	CDS	2136480	2137397	.	-	0	ID=MGA_2406;product=DUF402 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978827.1;translation=MNYEVDPCIDEGLVIKPPYEGRILLSKPKAVGKYAFVWRENGRTYFSEHVHDKNRLLKLSLPFNKKGYNIKWRSNADYAQDIDLKAEIERLIMNYDTNTFNQGEDFYLIIPSLQDKIFLDSIRSKVIKTQKFHHMLKLSFSDVDERNVIDMLNELIKDFMGIDHVKVNKKAIRLRGGKVIKKEVTEDGYKILLRREISPNGVYDGLNVLKEEGDYDIMEIDSSKWYEVHNYYSKDGKLKGKYINISTPPELLKGKIRYVDLEIDIVERDGKREVIDMEEFEKIKNNLSENLQKEVKKIIDNFTAL;locus_tag=LOCUS_24050;note=WP_010978827.1 DUF402 domain-containing protein (Sulfurisphaera tokodaii) [pid:56.9%25%2C q_cov:98.4%25%2C s_cov:75.5%25%2C Eval:2.7e-99],MGA_2406
sequence1	MetaGeneAnnotator	CDS	2137660	2140167	.	-	0	ID=MGA_2407;product=aconitate hydratase AcnA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846424.1;translation=MMNMQNKISLGDFSLYSIKNLGIDDYPYSAKILIENVLRNLGNKTSQEDLDRVIKWEVGKDLAFLPTRVIMQDYTGVPLLVDLAAMRSEFQRIGKNPSIVNPEIQSDLVIDHSVQVDYYGTEYSLELNMRKEFERNKERYQFLKWAQKSFENLRIVPPGKGIIHQVNLEYLGKVIDVKNGIAYPEIVIGTDSHTTMINGLSILGWGVGGLEAEAVMLGEPYFMTIPQVIGVNLDGEIREGVTPTDIVLFITEKLRKKGVVGKFVEFFGPAISSLSVPDRATISNMAPEYGATVGYFPIDDQTIKFLKATGRYYEIVEKYAKAQGLFYDSKNQIKYNEVIEINLSEVEPSLAGPKNPDERISLSNMKNFEIGKKRGKIVEDGSVVIAAITSCTNTSNPTVMIGAGILAKKAVSLGLRSKSYVKTSMAPGSPVVAKYLRESRLLPYLEALGFHIVGFGCTTCIGNAGPLPKDVEEDVRENGIEVYAVISGNRNFEGRINKLLKGTFLTSPILVVAYSIFGKINMDVEKPIALDPNGNPVYLKDIWPSMKEISEYMNLALNPGFFKEQYSTIFEGDANWNELSISGTETYSWENSTYIVEPPWFKEKKKFTEIRNARIIMLLGDKITTDHISPAGPISPDSDAGKYLISLGVKELNTFGSRRGNHEVMLRGGFSNPKIKNYMVNRDGGYTVHYPDGKEGSIYEVSMMYKNEGIPLVIFAGKQYGSGSSRDWAAKVTALLGIRAVIAESFERIHRSNLVAMGVIPIESVSWKEMGLKGNEKVNLYFDIKPKSEAKIEIISEEGIKTFKGLVRIDTEAEVKYINSGGILNFVFEQLKNKD;locus_tag=LOCUS_24060;gene=acnA;EC_number=4.2.1.3;note=WP_052846424.1 aconitate hydratase AcnA (Sulfurisphaera tokodaii) [pid:68.9%25%2C q_cov:97.1%25%2C s_cov:96.7%25%2C Eval:0.0e+00],MGA_2407
sequence1	MetaGeneAnnotator	CDS	2140315	2140665	.	-	0	ID=MGA_2408;product=nucleotidyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979627.1;translation=MGKAKSAIDSQREMIKRAKEFIEDVKKEIRIENVYIVGSRARGDYLDKSDIDLVIISRDFEGMKYTKRLEMLSKYIRPGLEFFAYTPEEWNNSSSLYVKEMKKEAKRLDEIITENY;locus_tag=LOCUS_24070;note=WP_010979627.1 nucleotidyltransferase domain-containing protein (Sulfurisphaera tokodaii) [pid:41.8%25%2C q_cov:92.2%25%2C s_cov:89.0%25%2C Eval:3.1e-15],MGA_2408
sequence1	MetaGeneAnnotator	CDS	2140756	2141031	.	-	0	ID=MGA_2409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREEAEKWFKQAIEDLSTAKDTINTGHYYAAVFWAQQAAEKALKSLLLNLGKTIRSHDLNELLNIIKTESSISVDEIRDDVRKLTVQLYDI;locus_tag=LOCUS_24080;note=WP_010979628.1 HEPN domain-containing protein (Sulfurisphaera tokodaii) [pid:43.2%25%2C q_cov:87.9%25%2C s_cov:62.3%25%2C Eval:3.9e-10%2C partial hit],frameshifted%2C insertion/deletion at around 2140770,MGA_2409
sequence1	MetaGeneAnnotator	CDS	2141181	2141807	.	-	0	ID=MGA_2410;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979631.1;translation=MIDVELNKVTKSFGKDRGIYDINIEVERNTKTLLLGPNGAGKTTILYLIYGILRPDSGYIKILGREPNIEMRKNDVYMLEELLIFIERATVREFIDFVKSLRYFNDQLFDLIDTFNINTNLKVYQLSSGLRRLLKISLALSSGAKVLLLDEPTSNLDIDNSKKVFSLIQQYDGTVIFASHDPEAINAAESIVHIRNGKLEYTEKRNKN;locus_tag=LOCUS_24090;note=WP_010979631.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:34.3%25%2C q_cov:94.2%25%2C s_cov:85.7%25%2C Eval:2.9e-23],MGA_2410
sequence1	MetaGeneAnnotator	CDS	2141800	2142690	.	-	0	ID=MGA_2411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILYVTSYEGDIHELSLKNTYMININNDTKYIENISKFYIEYGTACVKVNNLNTPVYVYLTNNLSELNILFNFRDYIFQGKFPQYGLYVASNMAQYIKTPIGHDLRANIQSLKNINTTIKFAGILYLNFYSGNFLVLPLNYSKYIASGLIVYSNRYINTTSGIDISGIVPNISIISDLLEWINGLTLVSILVSVWYIFSERKNMKEILWLFIINGVEVKDAFKKLVPVFLLLSFISIIPFVIEYLTVSYYYFPFMNYVNVLIKLIFIIPLSILIELYTLNSVYKDPYKNIKVRDID;locus_tag=LOCUS_24100;note=MGA_2411
sequence1	MetaGeneAnnotator	CDS	2142811	2143374	.	-	0	ID=MGA_2412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNIVKNNIRIIILSTIIVLMVLVFFIPSIPVMAVGYNPYFAWNSNTVSIGGANNGLGQEYFGCDGFGLTTIHFDVLTNYSLNGVTMPVFKITGEKGDISGNPKISEARLLGAQMYYAEVDCIKFVGVNSGDCVGWYIHQSVPDNHELVYQYDYGVAESINTPETPPWAHNILGNVYNDEAFCIYN;locus_tag=LOCUS_24110;note=MGA_2412
sequence1	MetaGeneAnnotator	CDS	2143569	2144300	.	+	0	ID=MGA_2413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978829.1;translation=MSNNSIIYMDIAELCGRVKSIGYFGSYTREDYIEGVSDINVFAITEDKSLLIELASNDFSPVVLSENDLQKICSEGEPLCYYIIFDSKVVCGSINATFIKTQKTCERLKKQIVSFLQMSIEGFFRGDQISSLSNAYKSFRSLIQWKYCLTHDMIPLSNKDLDNACKELNMQCATFDDIVNLRKVRMPITLWSLNKIYKEINSQIHIPFPSPIKINELTKGKLSKILLNDKVYLITNEGDRIEV;locus_tag=LOCUS_24120;note=WP_010978829.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:47.5%25%2C q_cov:90.9%25%2C s_cov:91.7%25%2C Eval:4.1e-54],MGA_2413
sequence1	MetaGeneAnnotator	CDS	2144380	2144847	.	+	0	ID=MGA_2414;product=DUF2258 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846425.1;translation=MSTEEVNRDMERAEEYEQLTPRTTALGGNKFEISTGLIIAARYADKLRRVSLVSLSKMVPKDIIIRDVSELNKKLYDEIINRKIDKLSVIRITVTAHYDADKKKIFFDDVKIQRYYTEDECKRQYEEIAKENEKLKSEISTIRQKLQELLAVNNF;locus_tag=LOCUS_24130;note=WP_052846425.1 DUF2258 domain-containing protein (Sulfurisphaera tokodaii) [pid:59.1%25%2C q_cov:95.5%25%2C s_cov:90.3%25%2C Eval:9.8e-44],MGA_2414
sequence1	MetaGeneAnnotator	CDS	2144860	2145789	.	+	0	ID=MGA_2415;product=zinc metalloprotease HtpX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978831.1;translation=MSVESELKLKIFVSIILTIISEIVIISLIVSILRLPLFLIGVFLGLLWLIQWLISPYLVARDAYEVTPIDPYYSWVYSIVKNVSRKSNIKTPRIFIVNEPFPNAFAYGNYVSGKRIGITKPLLSILTPEELEAVIGHEIGHIKHADVEIGMAIGLVPSIIGYLGMLLINTGLIFFLFIEDISDIIFAIILISLGSLMLAITFFIQIFVLWFNRLRESYADMYSVKILGKRAYYLATALAKIEIYMKNIRIDPFTGIIVTATPVKVTSNDPNLLLEEWLHKKISPFSDIFDTHPHPAKRVKMIFELLSLY;locus_tag=LOCUS_24140;note=WP_010978831.1 zinc metalloprotease HtpX (Sulfurisphaera tokodaii) [pid:54.8%25%2C q_cov:98.7%25%2C s_cov:98.1%25%2C Eval:3.4e-97],MGA_2415
sequence1	MetaGeneAnnotator	CDS	2145775	2146095	.	-	0	ID=MGA_2416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846426.1;translation=MNIMVSSVGLSSITTSDVVSLIVAFVLGLLVGYLVKNIVKVGIVILAIIIILVAIGAISPSSIQHGLMDLGVYATKAEDYASKYVSLLPYNSIAFIIGFVIGLVKG;locus_tag=LOCUS_24150;note=WP_052846426.1 hypothetical protein (Sulfurisphaera) [pid:52.1%25%2C q_cov:88.7%25%2C s_cov:98.9%25%2C Eval:6.9e-23],MGA_2416
sequence1	MetaGeneAnnotator	CDS	2146151	2146564	.	+	0	ID=MGA_2417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVLKYHLKAKIQIKDKEETKELTFRHLINVRKFINGMSKKYDVKCSKLNSSGDVYTTQCEGGDSTKLFFEVKKERIKKPKAEKKEEKKEAKKEKKEAENREYQVESKPEPASETKRDTEMAQEKKEKQEETKKENS;locus_tag=LOCUS_24160;note=WP_010978926.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:50.0%25%2C q_cov:38.0%25%2C s_cov:34.5%25%2C Eval:3.7e-08%2C partial hit],MGA_2417
sequence1	MetaGeneAnnotator	CDS	2146591	2146989	.	-	0	ID=MGA_2418;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978832.1;translation=MLIGLKMSERIRFPDGREVDIHEVIAFLYGLSKSDVEVLHLLMTKGKKLDTDELAGSLHVTKASISKSINNLLYKGLINRDKVVDQTKQKGRPNYVYWVNNEELYGRLIQDLNKLVDTVKKDLQSHVQTIPA;locus_tag=LOCUS_24170;note=WP_010978832.1 helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:62.0%25%2C q_cov:91.7%25%2C s_cov:98.4%25%2C Eval:5.8e-38],MGA_2418
sequence1	MetaGeneAnnotator	CDS	2147210	2147524	.	+	0	ID=MGA_2419;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978839.1;translation=MEWKTYCEESYTKVIPYLRTAIIKTLVKKGIPVKKAVKIVGISTTAYERHVNDKKVNMILQDEELGDMIEGVTSRLSTGEVVEATSFCILCSKSRKVFGLQPCT;locus_tag=LOCUS_24180;note=WP_010978839.1 transcriptional regulator (Sulfurisphaera tokodaii) [pid:46.7%25%2C q_cov:99.0%25%2C s_cov:97.2%25%2C Eval:2.4e-23],MGA_2419
sequence1	MetaGeneAnnotator	CDS	2147600	2148670	.	+	0	ID=MGA_2420;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429705.1;translation=MSYFSRLAWSILSPFSSLKPTIEDDGIIFTLFFIGYVSVQIPAGILSDKIGTRKIIFTSLLGIFISSLISGLAVNIIQEFIASFIMGLSAGWIYPVTIKMISNFFKGKELAIAMGYYSLAWPLSLVLAGDVLPFVGTSIGWRWGYFIISIISISSALYSLKIPYATSHKSSSFTIIRDKSVVMIAIGGFLFFLSYWSIALFLYKYLLETVYNPYISGVIYSLTALPGIFSTIVSGKIINLLGVRKVFILFISPYGILTISISFVYFAIFLGIIASFMGLIRFVITPANSTAVAQIGKENSGSVTGFANFFWQSSGILSSFLSAIIISSLGFRFLWIFMGLITLLSVIFYSLIRVSQ;locus_tag=LOCUS_24190;note=WP_198429705.1 MFS transporter (Sulfurisphaera tokodaii) [pid:51.8%25%2C q_cov:99.4%25%2C s_cov:95.7%25%2C Eval:1.4e-100],MGA_2420
sequence1	MetaGeneAnnotator	CDS	2149176	2149382	.	-	0	ID=MGA_2421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLHILKNDFLKKKLVIYFLSNFHSTRDRASNITSSAIEISTYGFTGSTFPTNNAGAVLVSVSNAKSIA;locus_tag=LOCUS_24200;note=MGA_2421
sequence1	MetaGeneAnnotator	CDS	2149374	2150408	.	+	0	ID=MGA_2422;product=metallopeptidase TldD-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979741.1;translation=MKHELYEDVIEAENSSQGFGIYRYNRVISVNKYLNNGKWIIGEGTDENIPFDCTSLIREEVKDWEKVEDIIRRFTIEGVKITVKRVKRRLQHKDKICEEDKIVNYVNFNGNLFAFTGSPRDIGAVLDYLKIETPRSLTRIWSIDRTAVILDPEASAKVFHEIFSLLKGDSPRVKKNEKLFSDLSIYDNPENPFSVGFYAFDDEGTKARKKEIIGDGYVLDYLGTLTTKLGTPGNGRGIIPKPDYFTLEIRRGDWGFQEMIEDTKNGILVLGAKSTEIVKNSVRLVPRESILIGNGSIILREIAIPFQEFLTIDGISRETKNVIIDEEHGGISPFIRIHARPILY;locus_tag=LOCUS_24210;note=WP_010979741.1 metallopeptidase TldD-related protein (Sulfurisphaera tokodaii) [pid:40.1%25%2C q_cov:77.0%25%2C s_cov:76.3%25%2C Eval:3.4e-48],MGA_2422
sequence1	MetaGeneAnnotator	CDS	2150405	2150812	.	-	0	ID=MGA_2423;product=tRNA (N6-threonylcarbamoyladenosine(37)-N6)-methyltransferase TrmO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980532.1;translation=MNLIPIGYVRRNEGASRHEPVNIVIDKDYSEGLRGLEEFSHLFIIYYMHLSSLKSLTRECNGKNIGIFSTRSPNRPNPIGISVVELLNIKENTLTVKGINAYNGTPVLDIKPYDDWDSINNPKIPSWYRSCQKYF;locus_tag=LOCUS_24220;gene=tsaA;note=WP_010980532.1 tRNA (N6-threonylcarbamoyladenosine(37)-N6)-methyltransferase TrmO (Sulfurisphaera tokodaii) [pid:49.2%25%2C q_cov:92.6%25%2C s_cov:94.0%25%2C Eval:8.8e-34],MGA_2423
sequence1	MetaGeneAnnotator	CDS	2150816	2151385	.	-	0	ID=MGA_2424;product=XdhC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978641.1;translation=MKIVIFASSKEAEMEEPVICDRDTVKVDESKCTGRTISVAPYVAKHLKDLGYYVIVVDPFAGDYEADEVIKGTTFQIPDEIVKDNYVLIATKHVYDTWAIIKSILGGAKEIAVVMSLKRAKTILKRVIEAGIDKDKLRKLRIPAGLDINSKNEKDIAFSIVSEILMVTKGGTGLPLRDIKGFEKLLEDL;locus_tag=LOCUS_24230;note=WP_010978641.1 XdhC family protein (Sulfurisphaera tokodaii) [pid:67.5%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:8.5e-74],MGA_2424
sequence1	MetaGeneAnnotator	CDS	2151438	2151968	.	-	0	ID=MGA_2425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSWEIPFLASFLPCTFEGIEMSMFSYMARSNDKKMGNLGTFFGVISVFLISYLIYMLLPILITDTAEYLMKIILGFFFLGLASYFLFTDYPTPKGAFITGLVGVLGEGVEVNLFEISAYFMTGSVFPAFIGGSVGFLWILLLSYLIYPKIPHEIMRKIAIGILYTVGFVILTSGLV;locus_tag=LOCUS_24240;note=MGA_2425
sequence1	MetaGeneAnnotator	CDS	2151974	2153512	.	-	0	ID=MGA_2426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGLIGLAITVLFLLSIPLHSYSDTQTPIKHVIIIIEENHSFDNLFGTYPFGYPPIVNNITLSLMDPEGLYTNYTQLKKGTLNYVSVPNVPWLPELGNSHPYYADAYSTVDPYEGWNSYHGDYWFDTDDGFVYYSGPQSMAYFSYEQEAPLWDYAEEYVLADNYFAPVMGLTEPNRIAYLTGFPPNFYTDDASGTCPLNSSIFYQLSYYNVSWGYYTYGYSGGIPWPLNAFNGISEYKNHFYGISNFYEDLKGNLPSVSWVMFIGCSNDEYDMHPPYNILKGEKELVSVINAVMQSKYWNSTAIFITFDEGGGYYDQIIPPSINHYGLGQRIPLLIISPYAKEGWVNNYTISGYSILGFIDYNFHLPYITNLSERGVHGILQSFNFDVNPRQPIILEPNNWTYPIALQYPIHYGYIATVPSYKGYAEVYPVPEMMFLLPLDTVAFVILFISFKKRTLLKPAFLLFTISLGISGYIYEVNNIYQFVSEYYFTASFIGFLIGGVMLARIYRRR;locus_tag=LOCUS_24250;note=WP_003021808.1 alkaline phosphatase family protein (Francisella tularensis) [pid:34.7%25%2C q_cov:32.4%25%2C s_cov:33.5%25%2C Eval:1.9e-19%2C partial hit],MGA_2426
sequence1	MetaGeneAnnotator	CDS	2153591	2155249	.	-	0	ID=MGA_2427;product=AMP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847018.1;translation=MDYKTAYELALENPEKYWNPFASSLNWFRKWDKVFENKWFIGGKTNIAMNSLNHSGKALIWYGENEVREISYNDLDKLSRRIAGKLKDIGVKRGDRVAIYMPNMIETIASILACARLGAIYSLIFAGLGYEAVKSRIDDFKPNAIIKANKTYRRGKEIPLYLEGSIVFDRNNEFDFDNEYDKYEEIESNEPLKVMYTSGTTGKPKGIILPHGAWMVGDYTVFDIMFSLKEGDIVFTTADVGWITFSRIMYATLLHGGTLVFMEGAPDYPKDRVAKIIDEINPKLFFTSPTLLRLLVKLGIKIPRVEFAATAGEIMDEKSWDYVSFADKYTDVYGQTELGYVVGIPFSMNVEPRKGYAGVPFPGALLDTVDENGKHTDDVGYLVMKSKFPTQFIGILNNQEKFKEYFKFGYHYTGDLAIINENYIKIVGRADDMIKIAGHRITSGEVESVISEIPGVIEVAAIGVPDEIKGEKLDVFIVGNVSEDQIREKIKESLGPIYVIDKIFKVNRLPRSRSGKIVRRALRDAIIGNKFDETMLEDPEVLKEIIENIKTK;locus_tag=LOCUS_24260;note=WP_052847018.1 AMP-binding protein (Sulfurisphaera tokodaii) [pid:64.0%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:4.4e-211],MGA_2427
sequence1	MetaGeneAnnotator	CDS	2155239	2156204	.	-	0	ID=MGA_2428;product=BadF/BadG/BcrA/BcrD ATPase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582760.1;translation=MILAVDGGATKTVAAVYKDEILGVGISSSGNYTEVGEEQAKKNIMEAINDALNNSSVSLKEINKAVFALAGVGDSKKFTEIGERIAKDIFKDSIVMNDGVSALRATNLFNDGAVFAPGTGSVAFYQKNGEIIRVGGWGWFFGDEGSASWIAKNAITYAIRSVDKIEKESKIPEEVEKFFGGEFREVVTRLSKEQNKRLIASFAVNIDKLSKNDELAFKVMKNAAEYIDLMVNRLKKDVNNVYLLGGVMRSSTIRNLMSNKVRYFYGYHSVIGGIITLEKINKEEIRDDLVKQLNKNLIKEPEEKLRKLLFIENTEELSHGL;locus_tag=LOCUS_24270;note=WP_012582760.1 BadF/BadG/BcrA/BcrD ATPase family protein (Dictyoglomus turgidum) [pid:28.3%25%2C q_cov:78.2%25%2C s_cov:81.1%25%2C Eval:1.4e-21],MGA_2428
sequence1	MetaGeneAnnotator	CDS	2156252	2157124	.	+	0	ID=MGA_2429;product=(Fe-S)-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979713.1;translation=MNNLAVIKDALTENLNKQMMPFPFDKKICSGWTTDLPKTGDTIIYTSCMYQIETIVPIFNKFLPYLSSLKSLIPLASRLKPSKQQIDRAYLILNNIVNAIKKEGIVPAYFYDEEPYSGAILLEMGFLTEFEEYGKKVYEFFKNKGVKRIITVDPHTHNALTRYNDFFNFDIEVISYLEIVKPKKIEGEFTIHDSCLYSRFLNLRDKYREMITSSGIKLIEDDMLTGKDTSYCCGGPLAPVDSKVSEEMAKERAKGLRKLSKKLLVTCPICYATLSPHFEGEIKDIAEVLL;locus_tag=LOCUS_24280;note=WP_010979713.1 (Fe-S)-binding protein (Sulfurisphaera tokodaii) [pid:56.9%25%2C q_cov:95.5%25%2C s_cov:97.2%25%2C Eval:9.2e-94],MGA_2429
sequence1	MetaGeneAnnotator	CDS	2157121	2158254	.	+	0	ID=MGA_2430;product=lactate utilization protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979714.1;translation=MSWEIAVNRAINNNVPRVYKVLREYPYIIELAKELRETKLKVLNNIDYYIDQTLKSVEKIGGKGYFVSTPEEAREIVGKIVGEGKTVVMGKSMVAYEAGIREYLIRKGNEVWETDLGEFLIQIGNQPPSHIIAPAIHLTKEETEKLLKDKIGGVNENSTHEDLVKRVREFLREKFIKADIGITGANSVAADTGTVALVENEGNIRFSTVAPQVHIAITGVDKIVPTLHDAMIEVMVQAAYAGIYPPTYINLTSGPSSTADIEMKRVNPAHGPKEFHLILLDNGRLKANKDPVLREALLCIRCGRCHFHCPVYRVMGVNWGDPPFTGPTGAMWSYIVNGDTKPALYCTHSGGCKEVCPMKINIPRILEYIKWKNNDKK;locus_tag=LOCUS_24290;note=WP_010979714.1 lactate utilization protein B (Sulfurisphaera tokodaii) [pid:70.5%25%2C q_cov:99.5%25%2C s_cov:98.2%25%2C Eval:2.7e-163],MGA_2430
sequence1	MetaGeneAnnotator	CDS	2158273	2158653	.	-	0	ID=MGA_2431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978925.1;translation=MSIITPLETILATIVIFILAWVITSIPVWISAKIFSKNGTIGRAMIATLAGIIAIIIISGIFGLLHLELIGVLVSILAVIAIYRAIFDVSWLGAIGIGIMSIIIEFIILILVGYIGLKIPTLGNIL;locus_tag=LOCUS_24300;note=WP_010978925.1 hypothetical protein (Sulfurisphaera) [pid:26.8%25%2C q_cov:95.2%25%2C s_cov:96.2%25%2C Eval:1.7e-13],MGA_2431
sequence1	MetaGeneAnnotator	CDS	2158711	2159250	.	-	0	ID=MGA_2432;product=dTDP-4-dehydrorhamnose 3%2C5-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980040.1;translation=MPFKITETEIPDIKYIESEIYTDGRGFFVEMFKKDELEFIPEIIQVNHSFSIRGVIRGLHYQINPKAQGKLVTVVSGKIYDVAVDIRKGSPWYGKFVAYELTPGKLLWIPPGFAHGFQAIEKSHVVYFITNGEYSPQHEAGILWNDPILKIPWPVEEKILSEKDKKWPKLENAKNNFEY;locus_tag=LOCUS_24310;gene=rfbC;EC_number=5.1.3.13;note=WP_010980040.1 dTDP-4-dehydrorhamnose 3%2C5-epimerase (Sulfurisphaera tokodaii) [pid:50.6%25%2C q_cov:97.2%25%2C s_cov:98.3%25%2C Eval:9.0e-43],MGA_2432
sequence1	MetaGeneAnnotator	CDS	2159240	2160079	.	-	0	ID=MGA_2433;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980041.1;translation=MVTLIFGGSGQLGQELGKRVKNAVMTFNKKQIQGIKIDLENPLEIEDAIIKLRPETIINAAAMTDVDECERSKEKSMKINAESVRHMIRAASVVKSYFIQISTDYVFDGEKGNYSENDLPNPLNYYGLTKLLGDAYTISYDYSLIVRTSGVYSNNKNNFPLLVLNSLKQGKQINAVDDMYYSPIHASQLAEAIVELIFQRRTGIINVASERVSRYNLAIKIAEESSLDPSLINRVKFKDMKWLAKRPLDSSLDSSKAKKFIDVDLSLDEGIRRLIKNAI;locus_tag=LOCUS_24320;note=WP_010980041.1 NAD(P)-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:53.7%25%2C q_cov:94.6%25%2C s_cov:96.0%25%2C Eval:3.3e-69],MGA_2433
sequence1	MetaGeneAnnotator	CDS	2160073	2161008	.	-	0	ID=MGA_2434;product=dTDP-glucose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980043.1;translation=MIMITGGAGFIGSAFVREIDNPLVFDALTYAGRLENLKDVKHLFIKGDIRNFQEIEKAVKENHVDTIVNFAAESHVDRSIVDPFIFLDTNVKGVINLLEVARKYDLKLVHISTDEVYGEQENSTEDFPLKPSSPYSASKASGDMFIHSYIRTYGVNALIIRPSNNYGPRQFPEKLIPKTIIRILKNMEIPVYGDGKQERDWIFVEDTAKIIKKIMQEGKKGEIYNVPGGQRRTNIEIIDEIGKILGKKPLIKYVKDRPGHDKLYSMKNTKLEYKTIPLEEGLKKTVEWYLNNQWWWTPLLGDEFFRSEVPW;locus_tag=LOCUS_24330;note=WP_010980043.1 dTDP-glucose 4%2C6-dehydratase (Sulfurisphaera tokodaii) [pid:58.4%25%2C q_cov:99.7%25%2C s_cov:98.1%25%2C Eval:1.4e-103],MGA_2434
sequence1	MetaGeneAnnotator	CDS	2161012	2162052	.	-	0	ID=MGA_2435;product=glucose-1-phosphate thymidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980042.1;translation=MKAVILHGGQGTRLRPLTHTGPKQLLKIAGKPVSLWGILSLRDLGIRDFAIILGNNHPEKVVEFYGDGSVFDINVTYIYQGEAFGLADAIYKAKDFVGNDRFVVYLGDNVVLDGLKNLINFNGEASILLAKVNNPNRFGVAVINEGKVIKLVEKPKEFISDLALVGVYAFTPSIFNSIEKIKPSWRGELEITDAIQELLNEGKEVNYSIVEGWWKDTGTPEDLLEANMILLDRFLEREIIGKISGKIEGRVKAENCIIENSTVRGPVYIGRNSVIKNSFIGPYTTIGDNCIIENSEISNSLIMDEAQISNVSIIDSIVGEKAKISKKDGLPSGRKIIVGENSIVEV;locus_tag=LOCUS_24340;EC_number=2.7.7.24;note=WP_010980042.1 glucose-1-phosphate thymidylyltransferase (Sulfurisphaera tokodaii) [pid:61.6%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:2.2e-119],MGA_2435
sequence1	MetaGeneAnnotator	CDS	2162457	2164649	.	+	0	ID=MGA_2436;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIAFVLILVSAVSSVYLLSSTSITEQSPQNSAHNSYAWISASQVTPGKWIKITNQDFAPANKTEVFLDGWIGCHVAAMDSWLIYYVLSHYGVNFTYEFHTSDPYRVPPNVPGLIFEGYKAPKNSPIMFDWIYMYNEYLNETTLPTPEPMNYTISPSIATYDGLMELKDFAPQWIYNIAITYNVPIVGQFKSPPHVVTMLVVTGPNGTWLLLGPSYPPSAIAKLTPEQVMEDLLTQSNPELMQAIYQFWQVLNESMGKPVTITVSQQQEEITYLHGFGFTTYYLSNTPSISTGPSSWNMYANSPNRNPVFSGNLDVNWIYQQMNAFQYGNITAWEQDTKMLGSEFGSGYEQAAGDAVGPSFANGIVYVGSDSGQLYAINAQTGNAIWILSTPAAVIMSEPVVYHGMIYVGLGPATFTYEQGKLNAYGGGHRGLYTGLTGLLAVNASDGIPKWIFLTKSQAMPTAVAYNGMVMFDDGDGNVYALNATNGNLIWNYSYDGSANMASLDLYVGNNYALLITAFSPGYPVNMSAIVALYVNNGTPAYVLKVPFAYGSSVGDAVPAVYGQYLVDSFMGYPVYHGVYLNQIYVRQVLLVANVTNGNILYVENITGYGHPGDDNNGFSPLVYNGIIYVPSHINRTVAAFNLTSGKLIWISPQMKHASLADQPVYYDGYIIVPDFDHFAVLNAANGDLVNKYYVGVDLGKDQPIIVGNTIIDSSIFDYVIALPISQVI;locus_tag=LOCUS_24350;note=WP_010980555.1 PQQ-binding-like beta-propeller repeat protein (Sulfurisphaera tokodaii) [pid:31.3%25%2C q_cov:62.7%25%2C s_cov:96.9%25%2C Eval:3.3e-55%2C partial hit],MGA_2436
sequence1	MetaGeneAnnotator	CDS	2164668	2165705	.	-	0	ID=MGA_2437;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846833.1;translation=MGLISSAGTVLPSVVQFFLGYVKARAKTLVSFGTFLTGILWLVLSIVPFSIFFTIVYLALDASMGISIFGWYLIMEKVSLTSRGKILAQYSFYSTFGGLIATLITGFIVGERFSLIRYFFIIAGVLTLLDGVISTKFDVDYEVKNTIKINISRELKDYLLISFLFNIVWSLAWPLFPMAQVYVFKMNFSEVAIISVISGSSTLLLQRKIGKLVDKNRKIMMFTGRLALATFPLAYALSTSVYEIYLANVVAGFTNSVNSTAYMSYLYDSSSDVKRSVGIYSAIGGLGDLIGSSIGSILAEYFTSIAGIDSIRLLMLGVGVLRILASIFYLKLPEPKPFKPKIVLK;locus_tag=LOCUS_24360;note=WP_052846833.1 MFS transporter (Sulfurisphaera tokodaii) [pid:46.8%25%2C q_cov:96.8%25%2C s_cov:89.7%25%2C Eval:1.9e-83],MGA_2437
sequence1	MetaGeneAnnotator	CDS	2165906	2166811	.	-	0	ID=MGA_2438;product=aldo/keto reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249796.1;translation=MEFGWTKEKIFPLILGSWEFGTKTMVTREDSKKIIKEAINLGINAIDTAETYGNGESERILGEIIKEIRREDIFIITKVSENHLRYNDVLRAAEGSLRRLNVNYIDLYLVHWPNSYVPIRETAKALEKLYEEGKVRYVGLSNFSLPLMKEFREYLSKTDVAANELHYNLLFRDVEKEIYPYMKKENIPLLAYDSLGLGYLIGRKEVRDEFRWYYLARQEYISSLEPLLGELERISKETGKTLAQIVLNWLLNKENVFPIFNTSKINHLKENIESIGWKLEENILKEIDDAISKVNIDYFIT;locus_tag=LOCUS_24370;note=WP_011249796.1 aldo/keto reductase (Thermococcus kodakarensis) [pid:40.5%25%2C q_cov:91.0%25%2C s_cov:91.0%25%2C Eval:2.3e-47],MGA_2438
sequence1	MetaGeneAnnotator	CDS	2167237	2167632	.	+	0	ID=MGA_2439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVNELKPRAGASVTVKVVSVGEPKQVMNKDGSTHNVADVLVGDETGSILFSLWDDNISKVATGDVLDITNGYVSIVRGSMRLTLGRDGKMEKSTKTIENVNTENNLSNKTVEDTRYGGYRRSGGNFRKRF;locus_tag=LOCUS_24380;note=WP_011024513.1 OB-fold nucleic acid binding domain-containing protein (Methanosarcina acetivorans) [pid:30.6%25%2C q_cov:77.9%25%2C s_cov:22.3%25%2C Eval:1.7e-08%2C partial hit],MGA_2439
sequence1	MetaGeneAnnotator	CDS	2167739	2168815	.	+	0	ID=MGA_2440;product=glucose 1-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979764.1;translation=MKAIVVKPSSKGVEVRDVNEKEVQNFGRVKVRIIENGICGTDREIVQGKMTSARAPQGRDWLVLGHEALGVVEEPFGEFKVNDVVMPVNRRGCGKCNNCLMGRADHCETGEFVEAGISDMDGFMREYYYDDPKYLVKVPKGIEDIAILAQPLSDLEKSVNEIIKVQERVYWTCNDGTFSCRRALVIGSGPIGILVSMLLRSHSFQVIVANRREPTEIEDQIFQEIGAEYFNSAKGYTELKGRFDVIFNASTAPPTVIEDIIPFLNYNGVLGLFGFPPSGEMKLSFQEIQRLSLKGVAILGLANGQKPHFEEAMRHLSQWKITWPKTTNKLITRTVHVDEAPKVLSFKEENEIKVKIRW;locus_tag=LOCUS_24390;note=WP_010979764.1 glucose 1-dehydrogenase (Sulfurisphaera tokodaii) [pid:42.8%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:8.2e-77],MGA_2440
sequence1	MetaGeneAnnotator	CDS	2168887	2169750	.	+	0	ID=MGA_2441;product=CRISPR system precrRNA processing endoribonuclease RAMP protein Cas6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980738.1;translation=MTFLLSATYDIVPEKDSILPPLTSKVPKYILEKSPSISPLIRNKTKYKGLTISPLKRDGQYLYSIPNSPVNVAKSGTKMSFHLSFSTQDIDPSIFYIDEIQDTPYGKFYITLNQIEVKEMINLSFKINDFFVIRFETPTLLSNKYMLPPPLKRKNIKAMNKLIPQPSLIFSFLTSLWNSIAEPKEKIIKGDLDWTPYMIGRISDVIFTELGYSIKPITVILGKDSHDNLREARGFIGWTKYKVTHYRNYIRIMERLLGLASIMGIGRSRGIGLGIVKILNQGQKVLT;locus_tag=LOCUS_24400;gene=cas6;note=WP_010980738.1 CRISPR system precrRNA processing endoribonuclease RAMP protein Cas6 (Sulfurisphaera tokodaii) [pid:35.7%25%2C q_cov:95.8%25%2C s_cov:96.5%25%2C Eval:4.1e-38],MGA_2441
sequence1	MetaGeneAnnotator	CDS	2169742	2170749	.	-	0	ID=MGA_2442;product=type I-A CRISPR-associated protein CsaX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846848.1;translation=MRVKLYDIFGDNYIIAVASLAKGSRRLKDEIEISDEEVKNVSNIAYQIAKAKEDSIQKRTKKRVMLLPMSGNDKKPFQSVLKCFNIPPDSNLSEILEKITPEEKKCEKVSALSFIKPELYEFGRYPGYVGNRKNDIKIEPSYVMLSVVGWTLTRLGVAPFSRGERVGIHLFPQDIDYSFTVIPDLLKGIDYIPGFQPLTAFTLWLTYKMVSTNAIIDQSRMYVISDAGGMSTASVVSGYSIGVKKILENKIFYENISYMLRDIAADALNPDSSTRSFSIQVSNLIYEVLMGSKRREELLYISNRELNSLINSNISENDKKIYKYAAIVSNKIYSS;locus_tag=LOCUS_24410;gene=csaX;note=WP_052846848.1 type I-A CRISPR-associated protein CsaX (Sulfurisphaera tokodaii) [pid:33.4%25%2C q_cov:99.7%25%2C s_cov:98.8%25%2C Eval:4.1e-43],MGA_2442
sequence1	MetaGeneAnnotator	CDS	2170739	2171446	.	-	0	ID=MGA_2443;product=CRISPR-associated endonuclease Cas3'';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980736.1;translation=MKPCAFSNQTLIDHSKGAVNKVEKIFNNQYFIVASKRLSKIYDIDWKQLKKLTIFLTAFHDIGKAAEYYQRQFDDECKPIGKTTTFIYHEIGGSVFLFKNNWNNEIIKFWSVLTIMNHLNAIRGIHTISEVNLRKEMLYLKKYGEVLINEFDRDMEGIIDGKLNVNDYEMRDFQLMVEWLKAFSMKKNIAKGYIFLLAPLIVGDNLDSNEQRSVDEGSKAKSRFIKSLEEMENES;locus_tag=LOCUS_24420;note=WP_010980736.1 CRISPR-associated endonuclease Cas3'' (Sulfurisphaera tokodaii) [pid:39.5%25%2C q_cov:98.7%25%2C s_cov:96.0%25%2C Eval:2.1e-36],MGA_2443
sequence1	MetaGeneAnnotator	CDS	2171443	2172966	.	-	0	ID=MGA_2444;product=CRISPR-associated helicase Cas3';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013776535.1;translation=MLEEKSSSLTNLMDYYNYTINALNFSRRSGIEDTIKKIEEGKSVIFTAPTGYGKTTMTEVLALAAIKGNEVFDRVIHVLPLRSIVQDLYRKLLKNSEKLGIDKREIAAQDMDFTDSPYFLKKVNITTLDTFILNLFKVPVAEIKRVIKGNGSHFEIPRAMIYSSIVIFDEFHLFSEEGRPLTSTIASLRALNDLGVPFIIMTATLSENIKGLIKKELEINGNLCEVNANDFSIERKISMDFIDDEKLTINQLVEKFPIDKNKKTLIVFNTRKDAIEAYKILKHFNPLLLHSKFNKIDRTKKIESIDDYNLVISTQVIEAGIDKSFDRLITEAAPASSIIQRAGRVARYGGYGEVIIFPFRGYVYDRDEVNETLNEIRKRGSIDQSLMSVSKGHSDLNPMLLKSLELIDDNVLFSLTSRDLIEEECNLTREVSLVMGFPPGCYSVNCAIPLTEEEALKELESNKKVIKDGKEEYLDAIPRRDCISIYFLKKGIDGIVIKGYDETGGIL;locus_tag=LOCUS_24430;gene=cas3;note=WP_013776535.1 CRISPR-associated helicase Cas3' (Acidianus hospitalis) [pid:48.9%25%2C q_cov:98.4%25%2C s_cov:99.8%25%2C Eval:1.1e-125],MGA_2444
sequence1	MetaGeneAnnotator	CDS	2172935	2173666	.	-	0	ID=MGA_2445;product=type I-A CRISPR-associated protein Cas5a;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980734.1;translation=MSEFFYSKVYIKFHWGFSVVSPLSSKSKSGLLLPPPTTLIGALSYGKFRGKDLVKIGGKTCSPAKNFDNIIAAARYEDNSAGIYIEDIVRNVVTYFQRPERRKEKAYRYNIVPTGKIYSPNGEMIVVFITDKIQPQELEKLSWSIIRIGSKEGIVSVENVEIGKAKKVSGRVTTKYYFPATVKHDASPFIKYIDFWEGGQTWGEEGEKKTYAVPISSFPLYSVEAKVEAEEAYDVGGEIVVVN;locus_tag=LOCUS_24440;gene=cas5a;note=WP_010980734.1 type I-A CRISPR-associated protein Cas5a (Sulfurisphaera tokodaii) [pid:50.2%25%2C q_cov:97.1%25%2C s_cov:98.3%25%2C Eval:7.8e-61],MGA_2445
sequence1	MetaGeneAnnotator	CDS	2173659	2174630	.	-	0	ID=MGA_2446;product=type I-A CRISPR-associated protein Cas7/Csa2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980733.1;translation=MISGSLRFLINVESLNGVESVGNLTRHRTAPVVVRTSDGGYVVRYVPAISGESIAHAYQMAVADLAKKNGLPVSLKTYQGELIKFSDDDTLKEEGINPPKSDNDARRFEVDVMLKDVVADIGGFMYAGKYPVRRSSKFMVGYMIPVLSKDEIPAQLEAQFHVRYSVVSSKEKQAIFNVEVGSALYTLSFSLDDEFIGIPSNYGEKVDKEDELVKTKDQRRKVAINALYSIMTGYFGGKRSRFLPSIELKSAVVTVSDFPFIPEPGHSEDYIKLTSERIERAKTILNGSSTSIYAINKEGIDVGKATVVNSPEDLISSLSENNE;locus_tag=LOCUS_24450;gene=cas7a;note=WP_010980733.1 type I-A CRISPR-associated protein Cas7/Csa2 (Sulfurisphaera tokodaii) [pid:64.4%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:2.8e-110],MGA_2446
sequence1	MetaGeneAnnotator	CDS	2174627	2174998	.	-	0	ID=MGA_2447;product=type I-A CRISPR-associated protein Csa5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980732.1;translation=MDEGVLKRIANLLATSSLYTDSPTLIDRIANALSKEAITKVLNDSQRIIESGISKGDIFQNKKDDHPIISIKGEKMLSIYGYLPTTSDIENFLLEVEKDIYNARKAGAIAMSIVNQAKLGGNQ;locus_tag=LOCUS_24460;gene=csa5;note=WP_010980732.1 type I-A CRISPR-associated protein Csa5 (Sulfurisphaera tokodaii) [pid:46.4%25%2C q_cov:98.4%25%2C s_cov:94.5%25%2C Eval:1.2e-27],MGA_2447
sequence1	MetaGeneAnnotator	CDS	2175065	2175694	.	-	0	ID=MGA_2448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLLVSSVGFEEKFLLRAFLRRGRSQISGVLLVKPLGDNEKVKKAIDSFNNLLKEVSVQLNILEINYLDYVSSVSSISKWIKSSKYTSFVLSLSSGMRIVNLEILSAFLILDLNAEIEVEAESLEGVISWRIDEMVRKDFEEDDVKILLAIHEGEKSVSEISRRVKIPVTTAWRKVNKLVDNYYIKKEGEQLSLTKKGEIFISIYNNFS;locus_tag=LOCUS_24470;note=MGA_2448
sequence1	MetaGeneAnnotator	CDS	2175940	2176587	.	+	0	ID=MGA_2449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALGIIFDGILILFFIFSILALITISLKRKEVFRLFLSAMLIGFIFEKIGVSTGIPFGHYYYNFPPYILGVPIFVIFAWGIISFISYLPIMQFPKYLKIILFPLMMVIIDLSVDPIMVSAHYWTWEYSSLNWFGIPLTNFLGWYIVSMIIIIFNLFKMKENKIQTNPFPIIYFLFSLKFFIFAKLKLLEPLLIATIISLLMTILIFYISKRIQPI;locus_tag=LOCUS_24480;note=WP_010886739.1 carotenoid 1%2C2-hydratase CruF (Deinococcus radiodurans) [pid:34.2%25%2C q_cov:52.1%25%2C s_cov:34.9%25%2C Eval:6.5e-10%2C partial hit],MGA_2449
sequence1	MetaGeneAnnotator	CDS	2177050	2177772	.	+	0	ID=MGA_2450;product=zinc ribbon domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429710.1;translation=MTKICPVCGKENDDNAQFCVNCNYDFSSPPPVPTPSPSNSSKFPKKIIGIAAIIIIIIAAIIFLPSFFHHPTYTEASAAEKAYGGKWIVNTTYSGTEIINSNNTVSIKFLNGTSTVLTVNSTGLAGTKALIMILTQKNSTNYIELADINFTNTTVASKYFSFFYTSIEEESSFTNMSINNATYQNYKLVYIAGGSVKTVYGIYPVPSIAMAIHGSNVITLRINGFSSNLSQIVDLLKPLI;locus_tag=LOCUS_24490;note=WP_198429710.1 zinc ribbon domain-containing protein (Sulfurisphaera tokodaii) [pid:25.1%25%2C q_cov:98.8%25%2C s_cov:99.1%25%2C Eval:1.9e-11],MGA_2450
sequence1	CRT:1.2	repeat_region	2177835	2179525	.	+	.	ID=CRT_2;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=ctttcaactctatggaagattaac;note=CRT_2
sequence1	MetaGeneAnnotator	CDS	2179995	2180852	.	+	0	ID=MGA_2451;product=type I-A CRISPR-associated protein Cas4/Csa1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980726.1;translation=MMLTRLDMIRGLKSLHEIRATDPVQEELRGWYYYSPPVKPRAYLSLSISDVAYAYCPTKRDVYLRKVTGSKGNYEKPQIINGTAIHKVFYKASKDVWSIISLGKDPIESFNSLAPELECPQNLQNYCIKLYKYLTMLWLSEVAKARSSYGGESIGLVPWLSEVRVDGSMLGLSNRLSIDAIADFSIIEIKTGKQEDFHKLGVVGYALAIESSMEIPIDYGFLIYVNGFNRDSIEISTNAIYISSDLRKEFLDRRDDVIDMILSEKDPGMPASCPDSCPFIEVCRK;locus_tag=LOCUS_24500;gene=cas4a;note=WP_010980726.1 type I-A CRISPR-associated protein Cas4/Csa1 (Sulfurisphaera tokodaii) [pid:54.9%25%2C q_cov:96.1%25%2C s_cov:97.8%25%2C Eval:4.6e-90],MGA_2451
sequence1	MetaGeneAnnotator	CDS	2180849	2181766	.	+	0	ID=MGA_2452;product=CRISPR-associated endonuclease Cas1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_069168166.1;translation=MKSVLLSNYGVKLSVKGRMFILSSKEKKETISPADVDQFVIISSGISISSKAIRLAMEYGIDMVFLDNRKNWARICFSNPIMTVENRKAQYIAILQGRKEFGEEIIRAKVENQAGHIKYWSRKIKREDFSQILNYTNNEATAARIYWSMIADLLPNKIGFEGRNHDSKDVFNISLNYAYAILYSECHKALSLVGLDPYAGFIHKDRSGNESLVYDFSEMFKPGVVDFTLMNMILEGYIPQIRDSLLSPDSRKEIIKRINTTLNSNVKDSEDGEVRTFLQTIRVYAMKMSSSLKGKENFRGFVQRW;locus_tag=LOCUS_24510;gene=cas1;note=WP_069168166.1 CRISPR-associated endonuclease Cas1 (Sulfurisphaera tokodaii) [pid:52.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.7e-90],MGA_2452
sequence1	MetaGeneAnnotator	CDS	2181760	2182008	.	+	0	ID=MGA_2453;product=CRISPR-associated endonuclease Cas2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846845.1;translation=MVRVIVIYDITDDTQRTKLSNELFKIGLSRIQKSAFSGDIDSQRFKDLTRICQDFIKSSNDVIHVVTLGIRDWERRIVLRGE;locus_tag=LOCUS_24520;gene=cas2;note=WP_052846845.1 CRISPR-associated endonuclease Cas2 (Sulfurisphaera tokodaii) [pid:58.2%25%2C q_cov:96.3%25%2C s_cov:86.8%25%2C Eval:2.4e-23],MGA_2453
sequence1	MetaGeneAnnotator	CDS	2182010	2182540	.	+	0	ID=MGA_2454;product=CRISPR-associated protein Cas4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980729.1;translation=MIPVTLLKQMDFCEAIPWIIQRMSYQEPDTFSLIKGREINLNDVAKKLNLENPKFEVFVSDSIISGKVDIIGGKNRLIVVEAKEFHRRSFLHFRTQLLAYAYLVNKEIAPVERAILFMGNKIELDIKLDKTHLEAVENKIQKLKSILDSEDPPVVNRDKKDCISCQYRRICPVTSY;locus_tag=LOCUS_24530;gene=cas4;note=WP_010980729.1 CRISPR-associated protein Cas4 (Sulfurisphaera tokodaii) [pid:49.1%25%2C q_cov:98.9%25%2C s_cov:98.3%25%2C Eval:1.2e-39],MGA_2454
sequence1	MetaGeneAnnotator	CDS	2182557	2183210	.	-	0	ID=MGA_2455;product=CRISPR-associated transcriptional regulator Csa3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980725.1;translation=MKTYLFSLGFHEDFMIRRLHNTFADKSDNILLVAPKPIAGASLRAYQGIQSYCSKLFLKEPNLLEIELTDFFDIVKNISTEILQYPEPFIVDVSGGMRLIGFAIVVSTLAVNKKAKFFITQEGDNFEIFFENLELKSLISNISKEKMAILLNIYRNQGITIDELANVMNRSRKTLINHLIELKEAGIVFQKGKNGGYYLSKLGEIICYRQSQVLNIK;locus_tag=LOCUS_24540;note=WP_010980725.1 CRISPR-associated transcriptional regulator Csa3 (Sulfurisphaera tokodaii) [pid:32.5%25%2C q_cov:94.9%25%2C s_cov:95.3%25%2C Eval:5.4e-28],MGA_2455
sequence1	CRT:1.2	repeat_region	2183565	2184738	.	+	.	ID=CRT_3;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=gttaatcttccatagagttgaaag;note=CRT_3
sequence1	MetaGeneAnnotator	CDS	2184749	2185507	.	-	0	ID=MGA_2456;product=ParA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978988.1;translation=MRIVVLGAKGGVGKSTISLLLSKEYVLEGKKVLLIDRDPLSWASNLIGIKDPGLLYKVVNGEKIEGSCKTVLERLTVLKFFGDYGRFYYDIKKAEDPSLRQKLEDAYYSILKRNFDVYIVDNPSLVTFNDEIVEIERNMFRKALSDQKRFRIYVTDPSESSIEQTKKYIEGLEKGAYGSEGLWGLVVNMIPPFPQEMKNAEYAVADIENIKIFMPFIEELFMGQYRIESVKVPEEIKALAKAIQEKVLNYKK;locus_tag=LOCUS_24550;note=WP_010978988.1 ParA family protein (Sulfurisphaera tokodaii) [pid:35.7%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:1.6e-32],MGA_2456
sequence1	MetaGeneAnnotator	CDS	2186001	2186150	.	+	0	ID=MGA_2457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKMKVQILQNQYFIRYILIGISAASLLMALHGLIGHGEIVEGGFPGSG;locus_tag=LOCUS_24560;note=MGA_2457
sequence1	MetaGeneAnnotator	CDS	2186200	2187216	.	+	0	ID=MGA_2458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFLAEDSAVSKVLYYVQRFGDLNSQVIGALSKVKSTKTIIDELRLKKKLFVSLSPRHRSLGLKYYIAYAIGNYNISLLNVYNILDEIPVVIARNIMNPKELVMGLVYTTHPSFIRGLEALVSAGVIKYYEVYEETQRLEYPIDYSSFDFKEWKYRNNFLVSEREPFDFPDLSDDFYPDTYDVTILGKKQAHPTYSLKDISQSTRIPFKDVLYHYQNHIVGKGLISVYRTYLFPIDYRISIFFKDDKDLISELSRIPTLLYISKSEEMDYAMIVGQNYMLFDILNYLNSLSEKYTDISIKVHPNNSNYSLTASIPYEHFNGKWNFNPEVMVLRAEESL;locus_tag=LOCUS_24570;note=MGA_2458
sequence1	MetaGeneAnnotator	CDS	2187225	2187665	.	-	0	ID=MGA_2459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846838.1;translation=MDLNPGEQIIWKEFPLSNYRKNYTIAIVIIGIILTLTIFLAALGIMLIILGLGMYFLLRSANQYVVTNERALHLRFGKIKNEIPLNTPNLLVSAVNPQYINTRTAGNHVVEDVVFLQNGVELLRFSKVHKGSELIAKLQSLGFSVT;locus_tag=LOCUS_24580;note=WP_052846838.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:62.9%25%2C q_cov:97.9%25%2C s_cov:97.9%25%2C Eval:6.3e-47],MGA_2459
sequence1	MetaGeneAnnotator	CDS	2187976	2188773	.	+	0	ID=MGA_2460;product=pyrroline-5-carboxylate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978628.1;translation=MQSVAVIGSGKIGYAILNAIKCNFNVIATGRREETINKVKSLGIEGTKDNDYAVRKADVVILSVKPQHFSTVLTQVNKESWKGKTVISVMAGIKSSTLSSLLPQTEVYRAMPNINALVNKATTAVAEREGENKEIVEKIFRSIGSVYWIPEELIDVWTALIGSGPAFIAEILDAFALGAVACGMPRDLAYDSILDMVNGTIEMLRSNKSHPVILRDQVTTPAGTTIRGLMTMESEGVKSAIIKTVEASYQRSITIGNEIDKKFRM;locus_tag=LOCUS_24590;gene=proC;EC_number=1.5.1.2;note=WP_010978628.1 pyrroline-5-carboxylate reductase (Sulfurisphaera tokodaii) [pid:66.7%25%2C q_cov:98.1%25%2C s_cov:99.2%25%2C Eval:1.2e-97],MGA_2460
sequence1	MetaGeneAnnotator	CDS	2189222	2189746	.	-	0	ID=MGA_2461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPLNDSAYSLLPTGVILGSPIIIPKNYTFKPGQTMWFYKKIDYLCPIPNNTAFYNAFSRLSDLNPGNYELLVYSWLTNVTIKLNFTITTPLVPYLVSHNGKLYAILPREPSKIEVDNKLYSNIINVGNHIYEIGNWPNTSSGNCMELINAEIWFGNEVYNTSIYLLSYFPNEK;locus_tag=LOCUS_24600;note=MGA_2461
sequence1	MetaGeneAnnotator	CDS	2189997	2190254	.	+	0	ID=MGA_2462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKVEVSAPQALRVVPTPSTNVNPQYPNMGLLNGAEAYHIDPRFNQGVSVTLTPSVTAINRIFEKYVFKCNHKGGSYGDFHEQHS;locus_tag=LOCUS_24610;note=MGA_2462
sequence1	MetaGeneAnnotator	CDS	2190782	2191426	.	+	0	ID=MGA_2463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTPGLPHQNNIQQIGYKLLSMLNFQGEKVDEVAKTLISACLWNDSVENKSRAYDVSPQTVRNYVEKQGMEVIEKLLERARKISLEVLKGVNEIDLSIDWTTKTWYGKPVKGLGSSEKGNSWNYATATTKYKGKVLLLAFIPQVNGMTKDEIVKVLVEQVMAMGFKIRLITLDAGFYTVDVLNFISQFKYIIAVPAGDVKVFEEFDGDYTTNSK;locus_tag=LOCUS_24620;note=WP_012953324.1 ISH3 family transposase (Sulfolobus islandicus) [pid:94.4%25%2C q_cov:100.0%25%2C s_cov:60.5%25%2C Eval:7.9e-109%2C partial hit],frameshifted%2C insertion/deletion at around 2191423,MGA_2463
sequence1	MetaGeneAnnotator	CDS	2191838	2192329	.	-	0	ID=MGA_2464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYKEWIEQALEDLDTAKVLLENGKYYASAWFELMYKISSYDIGIIYSISYLATALGSFFASNLSKWISILNIASWTRILSGALLILIPFSPYFIGSFIYILRSLIAGFGSPSRSTVNMKGISTEDFGAASSIQGIASRTSQATAGASGYLMEIYLPMPLIIR;locus_tag=LOCUS_24630;note=MGA_2464
sequence1	MetaGeneAnnotator	CDS	2192487	2193686	.	-	0	ID=MGA_2465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKTNWKNALYNIMSINLINFNITLAIFTMEWIISKLTCSSLLTGILIGLSSLAYFFSYFTGAFMDLTRKKKTILLGLIITLFTILFLSQIALLANNDIFTIILLFYTFAILTGFTSDIASIILSIWIKENVNEKDYRKVSSINRVTLRSLRILAEALAGIFLAISFKYSITPSLIILVVVGFLLLSMNITENVEEKRMHSFKKSLIDGFYYVKRSKVLTQFTILTTDNLFFEMQGLLLLFYVEDVLHQGPIYFSALLISAEIGIVVGSIFALRINKGKLGFYQIIFRLIISASLASYILINNIFLALIPTFLILFSSGVNSTLTSATLLRYIDKEYWGRTTGFIGVIANGLSTLSGPLGGILIEIIGVGWTYVLVSVVMLIFTFLKYTFKEYYNLEIK;locus_tag=LOCUS_24640;note=WP_052846396.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:56.5%25%2C q_cov:44.4%25%2C s_cov:94.1%25%2C Eval:9.9e-50%2C partial hit],MGA_2465
sequence1	MetaGeneAnnotator	CDS	2193673	2193993	.	-	0	ID=MGA_2466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNIINGLNNYRLFKVQNFLKYVNVKTNIDQCRTCDIMKICNACLGDLKFGENGKVIIDNYACNYYLGLYEGFLVELNDIMLNDIKWKSFKENLRKMKEIVEYVEN;locus_tag=LOCUS_24650;note=MGA_2466
sequence1	MetaGeneAnnotator	CDS	2194362	2194667	.	-	0	ID=MGA_2467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKVEVSAPQALRVVPTPSTNVNPQYPNMGLLNGVEAYHIDPRFNQGVSVTLTPSVTAINRIFEKEVYKFYKGGYPSPPLPVDPKSYYKYKFNIKPHIFSS;locus_tag=LOCUS_24660;note=MGA_2467
sequence1	MetaGeneAnnotator	CDS	2194655	2194834	.	-	0	ID=MGA_2468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDDPKITTKTSVITIIIPPNTILFVSTERANPPKVTLTVNYHALTGVASCFKAEACQR;locus_tag=LOCUS_24670;note=MGA_2468
sequence1	MetaGeneAnnotator	CDS	2195121	2195609	.	+	0	ID=MGA_2469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKPSPIADVLGILGKYFIAGVSIMILGIISADALNLYTNTVALTSIVKTKKRIATLIAGVLGFIIFYFVYQNFLNFLINFLSSLGYWISPWIGILIAYTMKKKDWKIAWLSFAAAIILGLPFMNLKQYGIPYEGLVSSILGGIDISQIIMLIVSIVVYMIL;locus_tag=LOCUS_24680;note=WP_038966001.1 cytosine permease (Bradyrhizobium) [pid:28.1%25%2C q_cov:95.1%25%2C s_cov:38.3%25%2C Eval:4.9e-07%2C partial hit],MGA_2469
sequence1	MetaGeneAnnotator	CDS	2195956	2196477	.	+	0	ID=MGA_2470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978927.1;translation=MAIIVRKVHKKDDGSTIWIRVGESPPVIKDGNVIDGGFFIRVGDDKSDKIIRLSDQEALDIAYRIIESYRRHVRIFTKLDELSYEQYKRSKEVVKEDDEEEEIRKIEEKKNLTPDKIEGELIDYLIAAGGETTLDKVREELGEEYVAYLKTMKNKGVRIEGIKVSLDKDFKST;locus_tag=LOCUS_24690;note=WP_010978927.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:47.6%25%2C q_cov:96.5%25%2C s_cov:98.0%25%2C Eval:1.9e-34],MGA_2470
sequence1	MetaGeneAnnotator	CDS	2196464	2197378	.	-	0	ID=MGA_2471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_148692580.1;translation=MKKAIEPWGVNIPFIILTIIYWSLGGISLAEGLPFHPYFMMIGAYSLFFGMLLRLFFPARKYFPLHILSLVLIAIPIYPLQAIASLSLIFNELWGLKDVIHYGSKFPINLLVLASPFSSLLAWSFYPYLGYSILMVGLLFYLFGINIGVFTATVGAKPKFGIKQLPIFILIILTIYHNFLFFSLLGYFVWLFYNSKIIKNGLSVVFVSLFITLASIFLGEEIHAFALGIMAMFFFNCIIYSTSRYNYSKAYPIPYLLLISYFFRFINIEISGIFFIISTLYFLYLIKDNFTLKSLKTGLSSKYF;locus_tag=LOCUS_24700;note=WP_148692580.1 hypothetical protein (Acidianus manzaensis) [pid:51.3%25%2C q_cov:99.7%25%2C s_cov:99.0%25%2C Eval:2.5e-81],MGA_2471
sequence1	MetaGeneAnnotator	CDS	2197714	2199063	.	+	0	ID=MGA_2472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDWEKLGEKFPYLENDVKEAVLSILKASEREDREFNIISFYSGLGREINNIEDTWIKRINDECNEYPSVCEGLARGISELKEIKKEKFMTLISSKLMAIYVLSKIDLSIPTLKDGIIYAIDVIKEEKNLGEVGKNFGENYRRMPIEIKEKMKELLNNSSFAYEFLRAINLNEFSDIYNFKNSEVMEVIGEKFNQLNDFQKRKILFSADRGLGRGIGKIFDSLTYSWKLNIIEEAKNNKEFALGLIECIDLEYIQDKVFFELLNIALKDCKLSFAMGTNLGQNFSYLTEDLKSKVEEITFENKEFAKGIGNGFSITFNKFFDLFMNYKELKEEDEIRILNLALKNKDVAEGILQNLSYIILSKHKNKILKLVENNEQYIEKFLKLLNRRVNEFDIDELFNLAKGKYMVELGKILCENFPQLNKEKRKKIIEKIENRDFYQGFLECGDKTS;locus_tag=LOCUS_24710;note=MGA_2472
sequence1	MetaGeneAnnotator	CDS	2199111	2199500	.	+	0	ID=MGA_2473;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978905.1;translation=MLNLGTSADIYLKEGDEFLNKNDLVQASEKYYKAAEEAIKILAIILRLKYIEKEVSKEGWNTRILNDAVFLISEKIDEKIPIYWASALSLITVNLSKEVIEDLKKDIEELVKIADREYNAILEGRGRIP;locus_tag=LOCUS_24720;note=WP_010978905.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:40.5%25%2C q_cov:89.9%25%2C s_cov:92.1%25%2C Eval:1.4e-18],MGA_2473
sequence1	MetaGeneAnnotator	CDS	2199466	2199801	.	+	0	ID=MGA_2474;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742628.1;translation=MQFLKEGDEFLNKNDLVQASEKYYKAAEEAIKILSNKNNIKVLSKVKKFDRWRSEFLFEASLELSANYSIIKDIWKSAWILHVEGFHETRLTKEKVTFYGNIVKNLYNIIK;locus_tag=LOCUS_24730;note=WP_084742628.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:52.3%25%2C q_cov:96.4%25%2C s_cov:100.0%25%2C Eval:4.9e-24],MGA_2474
sequence1	MetaGeneAnnotator	CDS	2199802	2200194	.	-	0	ID=MGA_2475;product=metal-sulfur cluster assembly factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979516.1;translation=MSSKINVDEWRKKILEGLTQVYDPEIPVDVVNLGLIYELKISDDGDVYVRLGLTAPGCPVIDDLVYTVEQVIKESVPAKSVNVDVDLDTPWSPLKMSAEGREKFKKMYGYDIVEMWVQTYGMPQESGQQQ;locus_tag=LOCUS_24740;note=WP_010979516.1 metal-sulfur cluster assembly factor (Sulfurisphaera tokodaii) [pid:80.8%25%2C q_cov:96.2%25%2C s_cov:92.6%25%2C Eval:2.1e-59],MGA_2475
sequence1	MetaGeneAnnotator	CDS	2200332	2201042	.	+	0	ID=MGA_2476;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978729.1;translation=MRITNTGALSLIFTTFLFSAFLTSKFLILTELIPLVLLNGFTIERLYSRLLSRKFCKFDYFLIALNSVPYLLFFTVYLIIPLIFIIFAFITSYLKIKIIPTLFGTYSIVSLYLPWSAILYEINIKVISIFVLWFLYTLTQSLYVEYKIPFRKISKNTVRLAWIISLFTIVYFSLYIPIILIGLIEPSIRFLNPGNKLSSAKDIKNLGWKIARRTIILMLVIIICEIFIRYYFIFRY;locus_tag=LOCUS_24750;note=WP_010978729.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:40.2%25%2C q_cov:83.1%25%2C s_cov:85.0%25%2C Eval:6.1e-39],MGA_2476
sequence1	MetaGeneAnnotator	CDS	2201155	2201439	.	+	0	ID=MGA_2477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRYTFYMSNNIRRQVYNEALRYLSPEQIRQIVGEQKKTLFWKNRAKVSDEAVEKLLEHLPNQVKLEVLTVIENDLKEALDSIEREKKELENKK;locus_tag=LOCUS_24760;note=MGA_2477
sequence1	MetaGeneAnnotator	CDS	2201548	2202483	.	+	0	ID=MGA_2478;product=PEP/pyruvate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978688.1;translation=MYTYNLDEVSANMVSYVGRKAAYLGDLYHYNINVPEGFVITKSAFQEFLNKIKGKINNELRNVDLNDLNDLNERFQRIKEIIEKEEIPEEIENEIKIKLHGLSSEFFAVRPTVTSSLSGHTFAGEMETYLYISKEDVPHFIKMAWSSYFNPRSLSYRISTGEDPLPAVIVQEMINPRSAGTAFTLHPVTKDPKMIVIESSWGLGEAVTKGVVTPDRFIIPKYQRVVTEKFISDKIVKFVFDENERLIRKIEMDEEERKSPSITDDEAVKIANTAIKIEEIFSKPVNIEWAISDNRIYVLEVRGINTVIEGV;locus_tag=LOCUS_24770;note=WP_010978688.1 PEP/pyruvate-binding domain-containing protein (Sulfurisphaera tokodaii) [pid:44.8%25%2C q_cov:98.4%25%2C s_cov:98.1%25%2C Eval:3.4e-73],MGA_2478
sequence1	MetaGeneAnnotator	CDS	2202502	2203356	.	-	0	ID=MGA_2479;product=sulfite exporter TauE/SafE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980321.1;translation=MISIEITPIEYILSIIAGLIVGFSLGLIGGGGSILAVPLLLYFVGLGYLYPQGTPQSNEIDHLVIGTTALAVGLNAYINSFMHFKKGDVKVKQGILFTVPGIVGSFIGASLGLLVHGSSLLFFFGILMIVVAVLMWRNKGKPARPVDDVMKEIESSCKIRYDRILPTGFAVGLLSGFFGIGGGFLIVPGLIFSAGLCMLRAVGTSLIAVGTFGVVSAIRYTMAGEISVLISLLYLAGGVAGGYLGTKVATSIPRGMLRKIFAIIIILVAIYLMYQNIGGLFKII;locus_tag=LOCUS_24780;note=WP_010980321.1 sulfite exporter TauE/SafE family protein (Sulfurisphaera tokodaii) [pid:54.7%25%2C q_cov:98.9%25%2C s_cov:99.6%25%2C Eval:2.5e-80],MGA_2479
sequence1	MetaGeneAnnotator	CDS	2203490	2204158	.	-	0	ID=MGA_2480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKWWAWEFGESIRKNTDHARAQRGREYAQNGAVKKIEINPGKISAEVLGTTMYKVTIYGSTIPIDEKEKIINIIHQKGYLSSIISSEIPKELKKDLEKENIHLIPQKLGFNCTCPDYKRPCKHIYAVQKVLNDMMSYDPFILFKFLGIEKEHIILGNQENELLKEYHQPKISVKDFQKKYTFSYREFSSVEPWNQFKENSETIRKIYHVIMNNAEKKLIDI;locus_tag=LOCUS_24790;note=WP_048064836.1 SWIM zinc finger family protein (Methanosarcina acetivorans) [pid:30.6%25%2C q_cov:68.0%25%2C s_cov:50.3%25%2C Eval:2.0e-17%2C partial hit],MGA_2480
sequence1	MetaGeneAnnotator	CDS	2204160	2206802	.	-	0	ID=MGA_2481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVVHAIWNGKNFGIWIEDNKFGTIKDLLEIAWDLDFYPEFNEETIIFPVDEFNRPVFYDYSGAVGLGSFNVFVAETPISAVFKIFRKKVDNLVYSPSTMFWKNILITTLQLIKSGRIIPVLNGSIKWKPLISDEDIYSLANEAPPDAFLENSNRAEIIKSFMEAVISAIATEVLGSDDFITLHKILQSNLGDKHLGYTLYLAILYNENGGKIISGLYDKDDNKIITSDIVLNSGDLRKIYYELVSSISDIYPKLNGLLIKDVELSIDELNNFLDIVPKLIEKGVKVFTKVRKLKPVISINSDTYNLFSAEELTSFDYKISLGDKEISEDEFEKLVNENKTIIDIGGNLVEIDSSSLRRIKSIIEKIKQGKLRKIDILRESLVGNLNIKNDLLDGLNKKESVQLLEPYNLKAILRPYQVKGFSWIRFMNKLGLGVCLADDMGLGKTIQTIAAFSDAKIKGELSPSLVICPLSVLKNWEEELTKFAPDLSFLVFHKNRIKFKSNLNNITKFDVVLTTYNILLRDTELRNVEWNYIVLDEAQNIKNPNAKISKAIRELKSKYRLALTGTPIENKVDDLWSIMSFLNPGLLGSYNEFKERFANPIKNGDPKVKEELRSIISPFVLRRTKYDKEIINDLPEKIETNVYCNLSTEQAAMYKAQVDKLLDKIDAVKGMKRKGIILSTILKLKEIVDHPALIKGDEPSIERSGKMIRTIDIVREALDEGDKIAIFTQFVEMGKILKNTLEREFKIETPFIYGKLSKAKRDNLISKFQNNPSVKFIVLSVKAGGFGINLTSANRVIHFDRWWNPAVEDQATDRTYRIGQTKNVIVHKLVTIGTLEEKIDQMLSLKRSLFKDIIASGDSWITELNTEDLKKVIELSSGD;locus_tag=LOCUS_24800;note=WP_011142263.1 DEAD/DEAH box helicase (Gloeobacter violaceus) [pid:44.0%25%2C q_cov:64.8%25%2C s_cov:58.6%25%2C Eval:1.2e-136%2C partial hit],MGA_2481
sequence1	MetaGeneAnnotator	CDS	2206996	2207505	.	+	0	ID=MGA_2482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980091.1;translation=MCDYKVMKIERPIKDNGKIVLLNREFFNKLSSENYLKVLSSDNREKIRLSKSYYYYILEEFKENGIIEDNAIAFKAIIPFISEGTYIKIDSSIVYVNENMIFYIDMGSTTYSCGKCPVVSLCVYGLRKIAQEMKVKVNTDSCGLPAKMWEKLVSSVFQKSLINVNSIKL;locus_tag=LOCUS_24810;note=WP_010980091.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:41.5%25%2C q_cov:97.0%25%2C s_cov:96.4%25%2C Eval:2.6e-33],MGA_2482
sequence1	MetaGeneAnnotator	CDS	2207508	2208608	.	-	0	ID=MGA_2483;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865312.1;translation=MSKLSKGEIPEDLKDILEEGFSDQEFDPEKMIFEKEYLEPTLLLTYDCNFDCVYCFQKNFRKKGGVSDYVVRGFINYIRRNSEDKKVRVTYFGGEPLLQMKRIEEISKELEGYSFSIVTNGSLLTPSVLDRLNSFGLSHVQITLDGPREIHDKRRYFVGGKGSFDIILNNLAYAQDHTKVVLRINVDYRNVEEIKSLLSTLKEKGITKVRIDPHLVHENVFRNEYWDNIFSKDEEGDILTKVWEMAREEGFKIPQEVFRLGICAAHVEKDIVVDPYGYIYPCWAFTGNPLYIKGKLKEDGSIEYNGKFTSKNARNVWKGKCDNCPYLPMCMGGCRFFSVLDNKGFEGLDCRKKSYEEVVKLIRYFI;locus_tag=LOCUS_24820;note=WP_010865312.1 radical SAM protein (Thermotoga maritima) [pid:32.5%25%2C q_cov:92.6%25%2C s_cov:79.3%25%2C Eval:6.9e-39],MGA_2483
sequence1	MetaGeneAnnotator	CDS	2208904	2209602	.	-	0	ID=MGA_2484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKMYDYECKEKIYTLKAVCYNMQISHENDFLLKFLPLDIIDYSLRNHLNNLINGNYDIISNKEFLSFKLSDSLRALDYISVLEDCTGISLALEKFKNKLRWNIRENIKYKETSQLIDSLISSISFLVVNSPLNIRRVIIKKCIKFELLPFNNFPREILDHKKKIHSFLLSNKYDEFYIKNNIISFIDEKNIEKSHKLLWITMLIENGENISDLENIYGKFEEIHKNILKKN;locus_tag=LOCUS_24830;note=MGA_2484
sequence1	MetaGeneAnnotator	CDS	2209929	2211068	.	+	0	ID=MGA_2485;product=peptidase U32 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979599.1;translation=MRLVVGTNFDDSLLEKIRVYPVRYVFGSETRSLTGHGRASFVLPEVNDEKLKNHIDVAHSYGIKFLYTMNTATLNGKEYSQKFIEMLHKEIDKLNNLGVDGFIVAMPFLVSYIKKEYPNKEISISSYSRVYNIREFEEYVNLGADTIILHEDDNRNFKLLRSLNKFRSSVDIEVITNNSCLWGCPYRRTHDIISSVTSSEDGVNNVWFEYPIMFCATDVRNDLANIIRMRWIRPEDLHHYEEIGIDRFKIAGRNKSTQWLLRAVKAYSEGKYEGNLLDIVSYPQGRAVPKVMKKVGGPEDYDILEKVYVDNTKFPPNWLGYFKYNECETRSCEECRYCDVIAESVISAEGKSPSKLNLSKIRPPIDLIPRFSKNGETEQ;locus_tag=LOCUS_24840;note=WP_010979599.1 peptidase U32 family protein (Sulfurisphaera tokodaii) [pid:64.8%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:2.3e-149],MGA_2485
sequence1	MetaGeneAnnotator	CDS	2211049	2211729	.	+	0	ID=MGA_2486;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966651.1;translation=MVKLNNEIRILELTEPNFFGTVLNHNLTVTKGPGGGLMLIDTGLPGYLDEIERYLKSWSYSLEDISDIVLTHSHPDHSGNAQEIKKISKAKIYAHKLEKFDNQKFQIQYDQVKQEFNVNEKEFAETMKRINNLEYEIPKIDFYLEGGETIGNFKVIHVPGHTPGHIALYDGKVVIAGDSVRYYKGLKPPLRFFCWNYEKAVNSFNILINLPFSFFVPYHGEVITPW;locus_tag=LOCUS_24850;note=WP_010966651.1 MBL fold metallo-hydrolase (Clostridium) [pid:31.4%25%2C q_cov:84.1%25%2C s_cov:81.9%25%2C Eval:6.1e-17],MGA_2486
sequence1	MetaGeneAnnotator	CDS	2211723	2212757	.	+	0	ID=MGA_2487;product=TIGR04053 family radical SAM/SPASM domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879900.1;translation=MVSPFVVVWESTKACDFACKHCRAKAIPNRLPGELTKEEVSNLVDDLRQSGVKLFIISGGDALKREDIFEVIQDSSKKITTAISPSGSKIDENIARKLKDSGVSIASISIDGPEEIHDNFRGVKGAFKIASKAVNSLQNAGIPVQINSTVSKYNVNQLDKLKETILSFKPVSWDIFILIPTGRATKDMMISPEEGEDVMRTVYKWREEGINVRMTCTPYYVRINNELGNRPLPPDIKYGRRSINGARGCMAGNGYAFISYDGTVYPCGFLPIPAGNIRERKFSDIYENSPIFKALRNPDDLQGKCGICEYRTVCGGCRARAYSLTGNFMAEDPFCLYTPIRVRI;locus_tag=LOCUS_24860;note=WP_010879900.1 TIGR04053 family radical SAM/SPASM domain-containing protein (Archaeoglobus fulgidus) [pid:42.3%25%2C q_cov:98.5%25%2C s_cov:98.9%25%2C Eval:1.0e-76],MGA_2487
sequence1	MetaGeneAnnotator	CDS	2212754	2213830	.	+	0	ID=MGA_2488;product=putative heme d1 biosynthesis radical SAM protein NirJ1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966081.1;translation=MISISRLMTGKREKADEIRYSGNKDYYPKVLVFNVTRNCNLRCEHCYSNSGFHHYTDLPLSTWINAVKQAADMGVKHILLSGGEPLDRRDTYLIAKEANDYGISVELSTNGTMLTKERVDEIKNYVDYIGVSIDGPEEIHDKFRGIKGTFRKAIEGIRNSKEAGIKTGLRFTITRDNYEYIDFIFELMEKEGIDRVCFYHLAYAGRADIKLDIDNKTRLNVVKKIINYSTSGKEVLTADNPVDGILVYAMTGKKEVLDLLRRNGGNKSGERIADITPEGIVYPDQFTQIPIGTIDNLKEIWEKPNPLVEKLRMRKLYVKCSACPFFDVCNGGLRGRALALGDLWGKDPSCYLENIFNK;locus_tag=LOCUS_24870;gene=nirJ1;note=WP_010966081.1 putative heme d1 biosynthesis radical SAM protein NirJ1 (Clostridium) [pid:41.4%25%2C q_cov:98.9%25%2C s_cov:97.0%25%2C Eval:9.1e-68],MGA_2488
sequence1	MetaGeneAnnotator	CDS	2213851	2215362	.	-	0	ID=MGA_2489;product=4-hydroxyphenylacetate 3-hydroxylase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979718.1;translation=MGLRTGEQYLDAIKVRNKAEVYVLGKEVKDVTTNPFLKPSILSFKATFDAAWDEDTKDLARVWSPFINDETNRFNHIHRSPDDLAAKVKLLRKISHKVGACFQRCVGFDALNTLYITVELMAQHGKTEPKEKFVEYLKTVQKRDLALAGAMTDAKGVRTLKPHQQPNKDAYVRVTEVTKDGIYVSGAKANITGVAASEEIVVLPTRAMGPEDQDYAVAFSVPTDSEGIKIIVGRQLNDARRLEGGEIDGIPYFYNHEGLVIFDHVFVPMDRVFLLRDWQYTGQLVEIFSAYHRQGYGGCKAGLGDVIIGASYNLAKQAGVEKASHIQEKITEEIFLTETMYAAGIAASLNAVQPCPGCWWVNPMHANVTKHLVTRFPSQISQLSVDIAGGILGTAPSEWDLKNPKLREYIAKYLQGIEGYTAEDRIRMVRLLENVSLGVAFQIESVHGAGSPAAQRIMFTRLYDLSYSEEVAKRLAGMKSEVHFTQKTEPWRETETEKLAKSK;locus_tag=LOCUS_24880;note=WP_010979718.1 4-hydroxyphenylacetate 3-hydroxylase family protein (Sulfurisphaera) [pid:84.1%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:1.5e-255],MGA_2489
sequence1	MetaGeneAnnotator	CDS	2215534	2216040	.	-	0	ID=MGA_2490;product=ADP-ribose-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980467.1;translation=MKLSIRKCDITQIEADAIVNAANSYLEHGGGVAWAIVKKGGYIIQEESREYVRKNGPIPTGEVAVTSAGNLRAKYVIHAVGPRYGVEGDDKLESAIRKSLDKAKELGVKRIAFPAISTGIYGYPYERCAEIMAKVILEKNPEMEIIICLYSDDAFEVFKGVFSKYFLF;locus_tag=LOCUS_24890;note=WP_010980467.1 ADP-ribose-binding protein (Sulfurisphaera tokodaii) [pid:67.9%25%2C q_cov:97.6%25%2C s_cov:92.3%25%2C Eval:3.9e-58],MGA_2490
sequence1	MetaGeneAnnotator	CDS	2216303	2217370	.	-	0	ID=MGA_2491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979830.1;translation=MSSPSYRVIIEGKIEVKNADEFYSALLIGSKVLIEKPNVELLKPILEKYDLNTKLELKEKDPLFFELYLQQRLLKDYLNDGELKGFVEEILSLIKNKKKKEEIVNSLKASFKIDPVAFNYKIRDVLTTLKKFDSVDREFVEQYYDSSLYLKIISNGLPFYEVSAFFSNEKPRLGTTLGEIILNPKEITVTAINEDKLKLEENILRKVLGKIEIKSKGHADAYTLELISYLRYAYWGLRSSNLSMSESIGLLPIIVKSVNKPKELIEDSIKTYRDFRNNIDVEKVTQELKDLGWYSIILPQKIQENEKSKIKLNKFFKLGTKIGNVGLLLFSLILSIQTVYDMNGKSVDGMLKELI;locus_tag=LOCUS_24900;note=WP_010979830.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:35.5%25%2C q_cov:96.9%25%2C s_cov:97.6%25%2C Eval:6.2e-53],MGA_2491
sequence1	MetaGeneAnnotator	CDS	2217445	2218137	.	+	0	ID=MGA_2492;product=protein-L-isoaspartate O-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979138.1;translation=MNVKESIISKIKNPQLAMAFTKVNREDFLPEQLKKYAYDDKYVESALTILPNVTTTALSLGIYMLDSLDLQKGQKILEIGTGIGYYTALMAEIASKIVSIEINDDMYEYSKKRLNYSNIELIKGDGTLGYEKESPYDRVISWAASPTLLCKPFEQLKEGGIMITPIGVERVQWLYKITKKEGNPIIEKLTEVIFMRMKGVYGFYDDYEDPIENRLEKLERQVKSIISRLK;locus_tag=LOCUS_24910;note=WP_010979138.1 protein-L-isoaspartate O-methyltransferase (Sulfurisphaera tokodaii) [pid:65.2%25%2C q_cov:99.6%25%2C s_cov:98.3%25%2C Eval:3.3e-79],MGA_2492
sequence1	MetaGeneAnnotator	CDS	2218287	2219420	.	-	0	ID=MGA_2493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFVKALLLLTLIVFIPVFHAGFNYGYEFGYVETNGIQAIVNLYNISLQLGSPDISIQENVCLNLNGSNIFVQNVIQPMMLTKNGYDTQWETSIYYNGSYYEYFYSSIVGRTFNITTIWTNTSNMLRIEFFISNTTLTLNKTCVLKGKFIGIVYSGYDTGTVIGGYGNGAVAGLAKGFNISIKEYYRYNKNWYVPPVAYSGIPSTGESATNGYAYFSNGKVWITYGNAGMQKLYNFSVVIVNNTLYTFPRGSLWLANGRFFVNSTALENVTIRPFYYFNYSFIPEKRILINFNNYTEVDCVNGKSFYLPYPEVVYFYKNGKCVGEFIGAIVIHNVTKITTSITHQSSVNLVYKAIRIGSIGILFVILIILLFRKKYP;locus_tag=LOCUS_24920;note=WP_010978971.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:35.1%25%2C q_cov:84.9%25%2C s_cov:74.8%25%2C Eval:4.1e-42%2C partial hit],MGA_2493
sequence1	MetaGeneAnnotator	CDS	2219594	2220931	.	+	0	ID=MGA_2494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980249.1;translation=MKSIYLPLVSSEDLLPLPRYKQLAVSLAKAGGKENRFTKIDIIGWPFLAYKLEKSGGYLIFDETLKLSTEIKTYIVQDYERISSILDNSKDENEILNYITSIKWGDTKGSSVLSFRGIIEQNMQDIFKLGNSDIPARIIDKSLKEIDIELSISDIEKTMEKIKDDINNIERAEEKIKTTIEIIKGRKAEDKKRVEEEFNKKILEKSQILKENVGKVKKAIEEEVGNTSKQLYSKLTDIEVLIAKAEIDMEAGYVENVNSVYTVKNKYLSEINQKINEIKEKYKKEIHRIVEDINSLKIEKQTEINRINNKIQELDNIQNQAIIQLEQIKKEQLTSLDRLAKLPKFLSFMEDRVEVIVPFMVLEGNNRILISPQIYKGGKKAFFGILKKDPSEISTQINGIEFLLNNFSWNTVDSLRKYKEEIEKGLKELSEEGWNVKKSLDEYYT;locus_tag=LOCUS_24930;note=WP_010980249.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:41.3%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:4.9e-93],MGA_2494
sequence1	MetaGeneAnnotator	CDS	2221071	2222276	.	-	0	ID=MGA_2495;product=RNA-guided endonuclease TnpB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057839.1;translation=MPDVGLRFRAYTNEQTLRALKAQLRLASEVYNTLRWTDIYFHERDGKGLTKTELRQLALDLRKQDEQYQHLYSQTLQQIADRFYDARQRFFDGLARFPKEKKAHKWYSLVYPQSGWKVLKVREIRTKSKKNKKKVITLQLSNLGIFNVIVHRDFPLDKVKRVIVKLTPSGRVYITFVVDQEYPQLPKTNKVVAVDVGVEKLLTTSDGEYVPNQRPYEKALNKMKKLHKALSRKKFLSRNWFKAKIRLARAHEHLKNLRKDMYMKLGKYFAEHYDVLVMEDIRVKQLVGKSLRRLRMRLHDVAFHELRSIMEYQLGKYGKKLTLVDPAFTSMTCARCGHVKKDLTLADRVFVCPKCGWVADRDYNASLNILRRSGSERPLVPVELRPLPLASLGFEAGSHVR;locus_tag=LOCUS_24940;note=WP_011057839.1 RNA-guided endonuclease TnpB family protein (Thermosynechococcus vestitus) [pid:29.9%25%2C q_cov:90.8%25%2C s_cov:90.0%25%2C Eval:1.1e-32],MGA_2495
sequence1	MetaGeneAnnotator	CDS	2222563	2223624	.	+	0	ID=MGA_2496;product=IS110-like element ISSto6 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979846.1;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYVFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_24950;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:72.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-150],MGA_2496
sequence1	MetaGeneAnnotator	CDS	2223932	2224135	.	-	0	ID=MGA_2497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSKIFIIGIVIILIGLFLFFVSPSILIHSELGKEFKQNILQFQHGTLAEIGPSTAFFVPYNSTAGY;locus_tag=LOCUS_24960;note=MGA_2497
sequence1	MetaGeneAnnotator	CDS	2224165	2226216	.	-	0	ID=MGA_2498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYISDFNSLLKEKLGFSMFPYQEHVSKDLINAIDLGEKFVVASMPTGSGKTVIEIFLAYFLMKKGFHNIIVMEPTRLLCDQMYTKFWKKVYQDIGMEYEGNCEAFNEGKSIIVSTPFTAAKCDAKADAIIFDEVHHAFGDSRYTEALMQLNPKIIIGLTALLPGYKRYKLDLRVSESFGEPIVLSYDFKALSKIDPSFKPPKAIADLFDADMDSLEDNVYELFFKKKAKGNKDTLKFLEVTLYSYGKSAFCESLQRLNDKVQDNSAYFMLCDSEGLSHKARALQDILSVYRVEDFKPVLIFTSRKATAYEFEKAIRETKVDMKRVKVLTGDASKEERQKLVDSAKRGDVDVIISTLVGEEGIDIPEAKLLIMTDVPQSPLRFYQRLGRLIRSEKEETQKFLVVALTPKTPEYDNLDDALRNLFAEGVDVSYIIEKKEGKGPVAKVIDIINKEKEDMIPFLKLTEEKDVTPLTYVAEFKKKNEDINSLYYEILSSNTRLNGEEGFSQYLDKAMKEGSVLYFYDVEEMGKLLSKVLLGKYCSLCYGETCRKICNEWLNKIGLIKSIKLDKKNILRLYMKVFLKENSEKAKEYLHREIQNSLENLKGKDFSVSLTESYNKSFTSITETLNFNVSIDRLTVYPKVQLTYYDTNKENKDIVKMNALAIGYKAIEIFFKELLENVITN;locus_tag=LOCUS_24970;note=WP_010890048.1 hypothetical protein (Methanocaldococcus jannaschii) [pid:27.9%25%2C q_cov:26.8%25%2C s_cov:74.3%25%2C Eval:6.9e-15%2C partial hit],MGA_2498
sequence1	MetaGeneAnnotator	CDS	2226274	2226846	.	-	0	ID=MGA_2499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGPYFIIGGIQYKGYSEKFSWNMEFYLKENEKPKLKIILDVDYKKTGLEKLLGRSSFKLAEHIVTAHFVPFFELYKDEDYDFETTLNEMYREENFANQIVSKIGEISEKIDNGIILIKGEKLKATLYVVDRNISNMKLILENRIILGDEVLKNLLLNRSKVTLIAYQVYLDEFFEKIIEKKESYYKQIS;locus_tag=LOCUS_24980;note=MGA_2499
sequence1	MetaGeneAnnotator	CDS	2227017	2228078	.	-	0	ID=MGA_2500;product=IS110-like element ISSto6 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979846.1;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAEKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQLQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_24990;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:73.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.4e-151],MGA_2500
sequence1	MetaGeneAnnotator	CDS	2228219	2229424	.	+	0	ID=MGA_2501;product=RNA-guided endonuclease TnpB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057839.1;translation=MPDVGLRFRAYTNEQTLRALKAQLRLASEVYNTLRWTDIYFHERDGKGLTKTELRQLALDLRKQDEQYQHLYSQTLQQIADRFYDARQRFFDGLARFPKEKKAHKWYSLVYPQSGWKVLKVREIRTKSKKNKKKVITLQLSNLGIFNVIVHRDFPLDKVKRVIVKLTPSGRVYITFVVDQEYPQLPKTNKVVAVDVGVEKLLTTSDGEYVPNQRPYEKALNKMKKLHKALSRKKFLSRNWFKAKIRLARAHEHLKNLRKDMYMKLGKYFAEHYDVLVMEDIRVKQLVGKSLRRLRMRLHDVAFHELRSIMEYQLGKYGKKLTLVDPAFTSMTCARCGHVKKDLTLADRVFVCPKCGWVADRDYNASLNILRRSGSERPLVPVELRPLPLASLGFEAGSHVR;locus_tag=LOCUS_25000;note=WP_011057839.1 RNA-guided endonuclease TnpB family protein (Thermosynechococcus vestitus) [pid:29.9%25%2C q_cov:90.8%25%2C s_cov:90.0%25%2C Eval:1.1e-32],MGA_2501
sequence1	MetaGeneAnnotator	CDS	2229528	2230544	.	-	0	ID=MGA_2502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNCEDVLYSEKADSEECFLDESHYFRFKAALAIKTNSFKIGDFLYIETSDPNKDFIAGIDEKIFVNTVSKDCVKFEKDIRRCFGFDYMYKENFEVRDGLKIYFPGIMMEILKVFKNDREAKDYIINNELNQYEGKDYAMEIGTSYFSNPYEEFTQNMNDKEIDELRMLSSSYLEIKNILDREVENNSQLEELFRDIESKIIEISTKNGIPLEYGSSMKLRLNESISEDEEHIEKELNEPINVSSLITRLKAKKVIERKDEFLNFLFSKKGNTSIRLGNSVIIANGILMDKFEDKNATLLVLEPQVIKVNYRGLIRNFYIGKPSLLIFKNSASDFEIAR;locus_tag=LOCUS_25010;note=MGA_2502
sequence1	MetaGeneAnnotator	CDS	2230803	2231585	.	+	0	ID=MGA_2503;product=methyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978674.1;translation=MSEKELEDLFQLIEWPEDPYKEGKKRYEKAIENFRKIVNHAFFNFGNDISIIDLAAGTGIGGIALSKVLKEKGFSVKLYLIDLRENSLLIGKKFSESEGISCEIIKSDVKNVHKLGLKADIALMYGNVHATFSPIDLNLIMAAVSETLNENGLFIIQGMNNFYYVFYERGYKEILPEKVDKNKILISIHSNYDHFNGMFKRYYLDLISGKKIGIDIRFWDFGGIIGISKIFFKEVNLIRDGILGFILAKNPRGLKVKDIE;locus_tag=LOCUS_25020;note=WP_010978674.1 methyltransferase domain-containing protein (Sulfurisphaera tokodaii) [pid:45.6%25%2C q_cov:99.2%25%2C s_cov:98.1%25%2C Eval:1.1e-55],MGA_2503
sequence1	MetaGeneAnnotator	CDS	2231951	2232133	.	+	0	ID=MGA_2504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHELPKPWYDPIAYKKIRLEEAKFEAEIAKKFVNENLTRNATGKNISSMGSFSCSISCR;locus_tag=LOCUS_25030;note=WP_052847008.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:65.9%25%2C q_cov:73.3%25%2C s_cov:27.8%25%2C Eval:2.4e-10%2C partial hit],frameshifted%2C insertion/deletion at around 2232088,MGA_2504
sequence1	MetaGeneAnnotator	CDS	2232222	2232431	.	+	0	ID=MGA_2505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTSYLKEISIIIGGEINYLTDKAILIHQYQYNGPDKEGVLSSYRSDEIAKNDILTLINEIEKILSRFS;locus_tag=LOCUS_25040;note=WP_052847008.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:43.7%25%2C Eval:6.4e-21%2C partial hit],frameshifted%2C insertion/deletion at around 2232088,MGA_2505
sequence1	MetaGeneAnnotator	CDS	2232665	2233807	.	+	0	ID=MGA_2506;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979804.1;translation=MKFIFGRPIDEPFDREEEIKALNELISRNQPTAVLGIRRIGKTSIILNVLKNQNIPKIYINVEDFIEGKSIDIIGLFSYFSSSLLSEAIKFMEPRKRIPIVLKEKGEEAIKTLREILGYIKINFNINLGKVEIFLDSTKKGGIKESLKELLDLPQEISENINKKILIVLDEFQYLKLGEQNFPGLFHSLRSKWQFQNNVEYVISGSAVGMLENIFKKNQPFYQFFFPIYIKPFCKDKSEEFLSEGFQDEGKTFLEDGIKKAVEYLDGIPAWLNYFGIKSVLECRTIDEKCANKVIEDIYKDPVIQVIIKDEYNKLGKNARKILKFIANKGGEGNLRGIELSRSSINEGIKSLFNEGYIERKDRGVYRIIDPIMSKIVTML;locus_tag=LOCUS_25050;note=WP_010979804.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:38.5%25%2C q_cov:98.2%25%2C s_cov:97.6%25%2C Eval:6.6e-72],MGA_2506
sequence1	MetaGeneAnnotator	CDS	2234449	2235066	.	-	0	ID=MGA_2507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKDEIVKILVEQVMAMGFKIRLITLDAGFYTVDVLNFISQFKYIIAVPVGDVKVFEEFDGDYTTNSKRHRRDEQVKFRLLVYSKEKVRRKKKSLVYFARATNLDLPKREVLDLYNKVRGPIETSYRNIKAFLPFTSSTKFVFRTLIFVLALVLYSLYTIFKGEVGREEFRLLLILLFPDLFNPENFTFNIIETLIYTIDLFLRR;locus_tag=LOCUS_25060;note=WP_012953324.1 ISH3 family transposase (Sulfolobus islandicus) [pid:91.7%25%2C q_cov:100.0%25%2C s_cov:59.4%25%2C Eval:1.5e-101%2C partial hit],MGA_2507
sequence1	MetaGeneAnnotator	CDS	2235305	2236117	.	+	0	ID=MGA_2508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHWIEYYNGPVPYEHLSARHKTLVKMNYMLITSEVLSRLSDLFILRALIVMIVWTCSYRDVRSYYESDVVVRWFLGEYKSKSEIHRRAKKFRGEVKTLFKEYAKELEGKMSRLADYLPSSALYGKVGKLWIVDSFLIEVPFGKRNKETLKKKFELDLRQRKYREAANTLFFYIKCKVRRRFKGEFTKKRNRSYFGFKVFNLMSPTMIVHEIQVELANFPDNKVGFSRSGYKVVDRGFVGKSSTWLIGFSSFRSGVLWDLLEEVLEALRY;locus_tag=LOCUS_25070;note=MGA_2508
sequence1	MetaGeneAnnotator	CDS	2236424	2236789	.	-	0	ID=MGA_2509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTPGLPHQNNIQQIGYKLLSMLNFQGEKVDEVAKTLISACLWNDSVENKSRAYDVSPQTVRNYVEKQGMEVIEKLLERARKISLEILKGVNEIDLSIDWTTKTWYGKPVKGLGSSEKGNS;locus_tag=LOCUS_25080;note=WP_012953324.1 ISH3 family transposase (Sulfolobus islandicus) [pid:94.2%25%2C q_cov:100.0%25%2C s_cov:33.9%25%2C Eval:3.9e-58%2C partial hit],MGA_2509
sequence1	MetaGeneAnnotator	CDS	2237097	2237666	.	+	0	ID=MGA_2510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHGYRCDKEVGILGIDISKDHLVSSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYVFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEQRSYLKKSKYYLKHYWKQARK;locus_tag=LOCUS_25090;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:68.4%25%2C q_cov:88.9%25%2C s_cov:47.9%25%2C Eval:1.8e-63%2C partial hit],frameshifted%2C insertion/deletion at around 2237600,MGA_2510
sequence1	MetaGeneAnnotator	CDS	2237681	2238073	.	+	0	ID=MGA_2511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQLQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_25100;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:79.0%25%2C q_cov:95.4%25%2C s_cov:34.7%25%2C Eval:1.8e-55%2C partial hit],frameshifted%2C insertion/deletion at around 2237600,MGA_2511
sequence1	MetaGeneAnnotator	CDS	2238138	2238458	.	-	0	ID=MGA_2512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVKPRSILTLWFSSNTAVAKYAIGLIPAVLGLSPDLTIISLLLGNLSASIVLGIATSMGPRFNKEQIRISEDVFNKGWKTFSFLNFLNTLGWFILTRAFSNKYFG;locus_tag=LOCUS_25110;note=MGA_2512
sequence1	MetaGeneAnnotator	CDS	2239083	2240258	.	+	0	ID=MGA_2513;product=winged helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_069168140.1;translation=MDIFDAISNELRRKIIKSLDKPKSFSQLSDELKVESSALAFHLKKLDGLISKDEQGNYILTEEGKRALSIINVIENQNISLTNSPKIPMIIQYVDNFVVNENMIKKLKEEGRKLIIKDVNTVEFKEIDPELLDSVLENIENVITVKCPEDLVNVISSKSKEIISVEHETEETSKNEIEIFQPESLVGKFISAFLPKIRINDKLKVIYDGPLQPTNDLHIDLDGGVIKISKGEPHLFAKCREVDDLDIDKDNIEADGCYIKISYPDLNSLDVTLDGGKIDVSGLKINKFSVDVDGGLINLNVSILDEAYLSIDGGKIDGKISFLPNQNSKLTIAVDGGLGNISISVPNDVTVISSSNINGGVVTLPKSRIGKNGILNINASVDGGVIRVKEE;locus_tag=LOCUS_25120;note=WP_069168140.1 winged helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:63.8%25%2C q_cov:99.7%25%2C s_cov:98.5%25%2C Eval:1.3e-144],MGA_2513
sequence1	MetaGeneAnnotator	CDS	2240255	2240917	.	+	0	ID=MGA_2514;product=DUF72 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978771.1;translation=MIYVGTSGWVYDWNEKGNLDWYVKNSGLNAVELNMSFYRFPFKNQVKSWKKYSIKWSVKVNRYITHVKRMKDMESWERFYELMEDLHPDFYLFQLPPNFKYSDENLKRVKEFSSILKDRMAVEFRENEWYDKLPKLDCTIVSIDSPIGTYIVNTSGKIYLRMHGREDWYNYEYRENELLEIAERIKDKNPNDVYVFFNNDHYMLDNARKMREILDKMFKV;locus_tag=LOCUS_25130;note=WP_010978771.1 DUF72 domain-containing protein (Sulfurisphaera tokodaii) [pid:67.3%25%2C q_cov:98.2%25%2C s_cov:97.7%25%2C Eval:4.3e-89],MGA_2514
sequence1	MetaGeneAnnotator	CDS	2241103	2241948	.	+	0	ID=MGA_2515;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRYALLLIIPMLFAPLLFATPSSNYQYVQYQINYSSMTQSTHYNSTTSLHLYLTLNSTKISNNQYENMIKIIGNITATNFNHHMRMKFVTSKIFNQHNFTKQINITYKFKSNFSIVAKFEKMNFTSILNFTKDVLYNFTSNMLNVTYNFTYKPIGLTVINFNGVKYIGKEFAYNLNATASSNISGIFNLGMKYSYENHMEGNVKTFIQGLIYSVNMHGTSKIITTYSLGMFNGNQTTIKTESLQIMLMSTNIPLGDPMSPMSFIPVVFSSSGTYSILRYI;locus_tag=LOCUS_25140;note=MGA_2515
sequence1	MetaGeneAnnotator	CDS	2242144	2243037	.	+	0	ID=MGA_2516;product=2-hydroxyacid dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978683.1;translation=MIISSEKLPEKAKQIIQVKDENVTEEDLKEAIALLTWPRKISEYIDKMPKLQVIQTFSAGVDDVPFSKIPPNVKIFSNAGAYALPVAEHAFGLILSLAKGINKRKRIESYQLNGKIILILGGGGIGSEIAKIARNGFNMKIIGISRSFRNPELFDERYALDKLDELIGKADVIVDTLPLNKETLGILNYQRLSKIKDKAILVNVGRGETIVEKDIIKILKERPSLRFGTDVFWRVNGVENFNSELWNIENFAGTLHIAGGYASTEVLESAMIKACENLSKFLKEGKAENEVKISDYM;locus_tag=LOCUS_25150;note=WP_010978683.1 2-hydroxyacid dehydrogenase (Sulfurisphaera tokodaii) [pid:57.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-96],MGA_2516
sequence1	MetaGeneAnnotator	CDS	2243038	2243625	.	-	0	ID=MGA_2517;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKRTTADVIRDILSCCVNGTKKTNIMYKANLSYDLLKKYMKLLEDYRLIYNDKGVYFLTPKGKEFLEALNEYKEHKEKIEKIKEKISDVIELEDKQKVSIEFKTDSPIDILENVFNTLKIPFIREKGKIEVNDIEIYDENISRPKLFAGKKSLIFGENLCIYKTPEEVKIMSKEDGIKQAIILSIKNGEKIEQK;locus_tag=LOCUS_25160;note=WP_010978640.1 winged helix-turn-helix domain-containing protein (Sulfurisphaera) [pid:42.0%25%2C q_cov:45.1%25%2C s_cov:87.1%25%2C Eval:2.4e-13%2C partial hit],MGA_2517
sequence1	MetaGeneAnnotator	CDS	2243704	2243988	.	-	0	ID=MGA_2518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_222831942.1;translation=MAQKLDDKTLDKMDKIFKAIFIIGFILEIIIAAAVTGDTATTPLTGSQVASVGVITVLLLVIATVIYSQFPYSVLGKPKEEEEKKEEVSEKNEK;locus_tag=LOCUS_25170;note=WP_222831942.1 hypothetical protein (Acidianus hospitalis) [pid:57.7%25%2C q_cov:75.5%25%2C s_cov:79.8%25%2C Eval:1.8e-15],MGA_2518
sequence1	MetaGeneAnnotator	CDS	2243995	2245221	.	-	0	ID=MGA_2519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITYTAPMWVGLIIGFIIGAAAEAWGIANPETLIRLAKWEDRLFLDCILIGFAVSTPVIYGLYAAGIGFHWSPKPLYLIGVGLGGIFFGTGLALSGYFPGSIWMALGEGRRDAVYAVFGAVLGAASWTALYQTPAGQWLVNTLNFGSLTLGGKKISPFVIQPLDGLTRLDLFGISVVYGVALFIIAYYLPRYKGGERSCLRANVEKRMTPYEIQKHIDTAKYLTDGGLPYKKGSTAQKLNEYYAVEDNVTRWFMISVAGIVGLTVVAEMFLHQIFGESTTDSWLAGQLFLPTFKYSEAVFKGIGWEPFSDIGTLMGAFFSAVFLTRRYTSFRNIIPPSWAERFGSNQAVRFLGSFGGAYLMLFGARMADGCASGHILSGGIQMALSGWEFAIAVFASMLIVGRIYYRK;locus_tag=LOCUS_25180;note=WP_010938826.1 YeeE/YedE thiosulfate transporter family protein (Desulfovibrio vulgaris) [pid:37.2%25%2C q_cov:38.2%25%2C s_cov:94.7%25%2C Eval:3.0e-17%2C partial hit],MGA_2519
sequence1	MetaGeneAnnotator	CDS	2245594	2246535	.	+	0	ID=MGA_2520;product=alpha/beta hydrolase-fold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980100.1;translation=MRKEIIKIESDALKDNYLGDPYEREVLVYAPEGTDNLPLFIELAGINWSGNTHNRFDQIMTNLLGKKKINAVVVNPNFRTKYHLNQYINSPAVGNYEDFIIKELIPQLKEKYNLDKVALFGKSSGGFGAYTLSVRHPDVINGFADHFGDSCFLYLYNDDFIYTIKALENKGIKDLLDSLMKKEELDDNDMKIFNVFGSSAFYSYNLNKDYGFDLPFDDTGEIIDDIWKKWVRNDPAKNVENYKDQLKKLDAIYLDVGKKDEYNLFIGMRTLHKKLNKMEINHFYEEFNGGHFGNSNRYCKSLPYLYEKLKTEN;locus_tag=LOCUS_25190;note=WP_010980100.1 alpha/beta hydrolase-fold protein (Sulfurisphaera tokodaii) [pid:41.3%25%2C q_cov:97.8%25%2C s_cov:97.5%25%2C Eval:4.8e-59],MGA_2520
sequence1	MetaGeneAnnotator	CDS	2246850	2247203	.	+	0	ID=MGA_2521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDETIRLYNNDDTLKFVKFFIKIAEEQRNNVIWVGKNNEIIVLARKKVNIEGAKVISLEEEIKNSFLSISGVKKVAINDKIILNIEPNPEIYEKIYVVKYYLEKEYGTKLELEIIEC;locus_tag=LOCUS_25200;note=MGA_2521
sequence1	MetaGeneAnnotator	CDS	2247200	2247664	.	-	0	ID=MGA_2522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980241.1;translation=MKPIYAKGIFEMSNSGEVFQNVIFYYKEYSRPKKIRDIKANMQKFLDNEEVFINHKKVKPKVIWINARLMTKNISFIHIFIRFNGQLISGINEYEDIYESETSEYPYEIFWRFPGKIIYVKLNGKVKYVGKLLHAKIRKGTLIEGHDIIRFSIN;locus_tag=LOCUS_25210;note=WP_010980241.1 hypothetical protein (Sulfurisphaera) [pid:44.1%25%2C q_cov:98.1%25%2C s_cov:96.4%25%2C Eval:1.3e-32],MGA_2522
sequence1	MetaGeneAnnotator	CDS	2247706	2249016	.	+	0	ID=MGA_2523;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978854.1;translation=MIVETNKKVVSKKSKKLSFTDLFFISFGGQAPFISLLTFGTVMIGLVGTAGAFAMIIATIVVLFNGMVVYFLSRRFKRGGGYYIYAFYSLTSRLGLETGWNYILYALAYGGTLLTGGAYVLYTITGFNQTYLALIVSILASALVISGVKVSAKYAMIMSLVEMIALISLSIYFLYVSGWHFYNPIRFSPKLIAAVLFGLGIPTGYGSIAPLAEESNAQKSIGKAAIAVLIFGGALASLFFYSLGAMNFTGNLVSYLLDSFGIVGLIILSFIALNDGTLGGMAYILGNSRTFKAMAEDGRFPKIFTRNIKGKPLFSEILISIIFVLVVTLAVNFLGLYDTFLTLGALAGFGNIFIHTSADFSLIRLASKKLGFRKNIRVLEVSIGIIAVLISLWVLVASLPEISPYIENIFFAWIIGGFLYAEALDMIKGSNEEDKG;locus_tag=LOCUS_25220;note=WP_010978854.1 APC family permease (Sulfurisphaera tokodaii) [pid:61.1%25%2C q_cov:97.5%25%2C s_cov:98.8%25%2C Eval:2.8e-141],MGA_2523
sequence1	MetaGeneAnnotator	CDS	2249092	2249436	.	+	0	ID=MGA_2524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064500.1;translation=MAKNIVVMINSGKDQKPKILTGLTLALVGKQKHLFDDIQVIFFGPSEQLIAEKDPDIMNMLNQMVELEKVYACQLVGDNMKITDQLKGVKGLNVVLVGPLIADLVSKGYEILNF;locus_tag=LOCUS_25230;note=WP_048064500.1 hypothetical protein (Archaeoglobus fulgidus) [pid:29.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.3e-07],MGA_2524
sequence1	MetaGeneAnnotator	CDS	2249459	2249587	.	-	0	ID=MGA_2525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKLGKKLEDATKAVAKDTEKAGEKVKEGAEKITKKGKKEK;locus_tag=LOCUS_25240;note=MGA_2525
sequence1	MetaGeneAnnotator	CDS	2249659	2250789	.	-	0	ID=MGA_2526;product=ArgE/DapE family deacylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979578.1;translation=MLKIEDLTSELVKFKTINPKGESENFYDCVKFISEYFSQNGFSAEIKEFEKGWPTIIVKNNKDGKSILLNGHYDVVPIGDITKWKYDPFSGKIVDNKVFGRGSTDMKGGLAVLINTFIKVADKIDYNLIFTAVPDEETGGQKGSKYLAQLFSPDFVIVGEPTQGLINIGEKGLLQVKIIQKGKSAHGSMPSLGENAIMKLVNDLVSLQKIQEIKINIPQEVEEGSQTLSNINPLLGNELKRISFNPGIIKGGIKVNVVPDLAESEIDMRIPPGISSEKALASVKELIKGDLEILDISEPSYSKGNYIDKFKEIVNAKTFLTTYATDGRYFRYKGIQTIAYGPGELNQLHTYNEYVKIDDLKFVEKNLEEYLTSIKF;locus_tag=LOCUS_25250;note=WP_010979578.1 ArgE/DapE family deacylase (Sulfurisphaera tokodaii) [pid:56.8%25%2C q_cov:99.2%25%2C s_cov:99.7%25%2C Eval:1.4e-122],MGA_2526
sequence1	MetaGeneAnnotator	CDS	2250940	2252007	.	-	0	ID=MGA_2527;product=amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156006472.1;translation=MYIGRSKMIDTHCHWFSAKVMGEKEFIMASAESWNEGEINADVLEMNKWRPFYFLLKNEMKKLLGENFLAERNRLVKNDPIDYIRFLFEDAGIEGLVIDEGFGKKELEIPINYKLLFRIETIINSLFSLSFDKAIEIFEETLRGKIKNGYSGFKSIIAYRTGLKIVCDKKRAIEDFLSGEEDWYGKKAKGFRDYLFCKTMDISKELDVPFQVHTGAGDRDIKLDLARPSYLTDVVRKYEGKIVFVHSGYPYHRETAWMSYIFPSVYLDLSQVTPFAPLGALNALEEIMEVAPFNKIMYGSDAFNIPEIAWLGAKIFPRFLDTVLEKMRNIGILDKTDEIKEMILTKNAQRVYKFD;locus_tag=LOCUS_25260;note=WP_156006472.1 amidohydrolase family protein (Stygiolobus azoricus) [pid:64.6%25%2C q_cov:98.0%25%2C s_cov:99.7%25%2C Eval:2.7e-133],MGA_2527
sequence1	MetaGeneAnnotator	CDS	2251988	2253277	.	-	0	ID=MGA_2528;product=glutamine synthetase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846175.1;translation=MSVERTLKDNNVDILRFTWVGLDGFIRSKGAYINHIDEMLRTGIGLTKAMFSFTPMDTLSPYGSFGPQDEDIFLIPDLSTLTIFPPSAMVISELYDKGKPWDYDARSKLRLRLEKIEEETGLKFRSSFEMEFYLIKDRKPYDDARCFDSSAFYDNPIIGEIAKLLTNSSIDILRIIKEYGPGQYEFDLMHKDALRSADEVIIFKEIAKQVATKRGLEANFMPKPFNNMAGSGLHLNISAWKEGENAFYDMKDGYGLSDLAYNFIGGLIEHAKALTALAAPTVNSYKRLVPGSWAPTKIAYGYNNKSAMIRIPTPYPSMAPNDRRIEYRVPDPTINPYLLLLGVIEAGLDGIERGLKPSGPINENAYLRKDIENIPRNLREALNELDKDTRLKERIGNTIIREFINVKLAEVEEYESLVTDWEYNVYRKI;locus_tag=LOCUS_25270;note=WP_052846175.1 glutamine synthetase family protein (Sulfurisphaera tokodaii) [pid:72.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.8e-185],MGA_2528
sequence1	MetaGeneAnnotator	CDS	2253392	2253814	.	+	0	ID=MGA_2529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846430.1;translation=METQYNIDKRGLIIMTSFSVFYALLEIGINWDPKEGWLSQLINKESSLYFYRFLYTAIFLYPSYLASRKIFSINTIWYFIYGSMAEDIIYWIFLLKVPYTWAWFYPVINGIPIPDVIEGILLLIILYHKGVLNLLRSIKI;locus_tag=LOCUS_25280;note=WP_052846430.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:58.6%25%2C q_cov:87.9%25%2C s_cov:94.1%25%2C Eval:2.5e-39],MGA_2529
sequence1	MetaGeneAnnotator	CDS	2253967	2256042	.	+	0	ID=MGA_2530;product=DUF1854 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_218266864.1;translation=METLREFESDLTIDKKFGKLKITLYENKLVLDDGKNRVEYNLKNISNVKLNEGFGINSIVADYEGKKIEILYFTNRVKEKLAELYEILASVTSGNYLKMNKIESKKNQNVVRWLLSLISPYKFRVSMGILFSLLLVILSLIPPYLLKIFINNVLLTKGNSYLFTEIILVLIAVYSSVVVITVLQNYALNYLGQKLSNELRVRIYEHVNKLSLGFIENFQSGRILSRITTDVGNTQWFLIWGIPTLLTNLVTIIGIGVIVFFMNPFLGIFAILPIPAIIIGTTIYRRKSRLKYHKVWRRSADITSLLTDTIPSSLIVRSYANEDYENSRLRRLTEELFSSQMGVIRLNVSWWPTLGFILSLTTVIIWFVGGKEVISGTLALGTLVAFITYLSMFYQPIQNLTNVIPFMQQSFTSAERILEIIDSEPEIKESDNPKKIDLKGEITFDHVWFGYDPLAPVVKDVNLKIRQGEKVGIVGQSGSGKTTMIKLLLRFYDPLAGKILVDGYDLKDLDIKNYRSQIGIVHADPTLLYGTVAYNIAYGKQNASPEEIIAAAMMSKAHDFIINLPLAYDTHLGERGNRLSSGQKQMIAIARALIKEPKLLIMDEPTANVDSITEGEIIKSLKEAMQGKTTIIISHRFSILNYVDRIIVMDNGKIVEEGKREELLQKKGKFYEIFKGDGNGTREIYKETQYS;locus_tag=LOCUS_25290;note=WP_218266864.1 DUF1854 domain-containing protein (Saccharolobus shibatae) [pid:45.3%25%2C q_cov:97.5%25%2C s_cov:77.9%25%2C Eval:4.5e-171],frameshifted%2C insertion/deletion at around 2255991,MGA_2530
sequence1	MetaGeneAnnotator	CDS	2255978	2256472	.	+	0	ID=MGA_2531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLREMEMVLEKYIKKLNIVENLKVIKFNTEDNTVDISVNNIVYNRMKIIKPFPISYPNFVMFTNGKIIFTIKNYDKELEDIISKIYFIPKIRRIVSLDTSGDEFVWKIETNYGETEIRTRGRTSIMRIENRVIIIDTSDVVYEIEDFNKIDKKSKKLIENII;locus_tag=LOCUS_25300;note=MGA_2531
sequence1	MetaGeneAnnotator	CDS	2256476	2258002	.	-	0	ID=MGA_2532;product=PQQ-like beta-propeller repeat protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979181.1;translation=MHNLAMSIITGSQETEISTTYTQYNGTYFPYKLEVTYYPGNATTSNLGLPSSWTVTNYNQGHNAVVKTISEEIASGVAWQIPLLNYVGGVAIPLSTPPSQLPWAQQMGVKGALVMETQMAGEPLGVTLADNLLFATEDSLPGSIAAINPLTGNMVWYATGLAGQAMNNPIVWNGVVYVSVGGVCFTFSQFVHYELHQYNDIVRARNGAVYAFNATNGQLIWMRFTMGEAMPAPAIYDGILAYTTGGGCFVGLNATTGQVIWMDRFPGLMGNMASVNYYVMPNGTPLFLAGFTYVAPPYGYIIAVNGFNGDEVWNATMPSPFVGANTGLGDVAPAVDQNAGLVIDNDIANFSNGMIDMVTFALNATNGKPVWAVNLGRGPIPPAYKGGMPLIYGNVIYDGNPSLGTVNAISINGTILWKTKLPDLQTPPEYPGGPRGSPTYYHGLLWVAAGHNVYVLNPHNGKIMTMYYVGGRLGIMNPVIVGGTMYLSNSYGWVIAIPLSQIYPAWKS;locus_tag=LOCUS_25310;note=WP_010979181.1 PQQ-like beta-propeller repeat protein (Sulfurisphaera tokodaii) [pid:68.1%25%2C q_cov:95.7%25%2C s_cov:91.9%25%2C Eval:1.1e-205],MGA_2532
sequence1	MetaGeneAnnotator	CDS	2258217	2259125	.	+	0	ID=MGA_2533;product=sulfurtransferase TusA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978874.1;translation=MERITLNTDYSGLLNLEKSYKVYSLESIERKNWGYEGTLKITNEIKFQCVIKTGKDYVDILETSGKFSIHINFDNRNAEIHCNGISNFLTRTITSRISRLLSEYGKYFRSSRKRSVFLKDKGDTLVDLRGVYCPYGEVSIINILNGVKIGNSIEILSDCVAASKVFPKIAEELGFRYEIYDMGDYASYIFIRYRKTDINEPDLCKIKEGIRDYKYIASLFIYFNKIEKIEQYDEFCRDILDYDKEYLAVVSPRGRSWFLISYINKNILASRLEYEGVTFFDDCAFTVLDGLKGKFSVYRLIH;locus_tag=LOCUS_25320;note=WP_010978874.1 sulfurtransferase TusA family protein (Sulfurisphaera tokodaii) [pid:31.3%25%2C q_cov:96.0%25%2C s_cov:95.0%25%2C Eval:2.4e-36],MGA_2533
sequence1	MetaGeneAnnotator	CDS	2259122	2259541	.	-	0	ID=MGA_2534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSGLIVGIIVLLIVIGSLYYLYDQGYFFSVNVVGLNIKYVGTTLSIFKNVHETAYNTSISVHGGQTFVITIEFSNNGLLPVEITYVNVSSPFTLVSTTPTLPITLSHGSSINLSFDIRAPMKSYTGPITIYINGTSEF;locus_tag=LOCUS_25330;note=MGA_2534
sequence1	MetaGeneAnnotator	CDS	2259584	2260072	.	-	0	ID=MGA_2535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSISQSKKTFIEFLKDVFSKHPEDWFSEAKFLYPQDNPEIEIKISSVNFSLTSPESVKEIVTKLKDVTGLEPKAYDIEVKMQLKYLKDSSKMVINSVQKCVVVSIKNDNDEKTWYTLFQWKNSLTSLLTDPNILVRVSQFFDDKNLVSIYVFLLNNPFQNIV;locus_tag=LOCUS_25340;note=MGA_2535
sequence1	MetaGeneAnnotator	CDS	2260220	2261140	.	-	0	ID=MGA_2536;product=2-oxoacid:ferredoxin oxidoreductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980384.1;translation=MVEHNWKPEWNDWCPGCGNFGILNAEQLAITELGLDTKNVVIVSGIGCSGKTPHFFRYPITGIHTLHGRALTFATGVKLSNPSLKVIVNAGDGDQLGIGVGHFVSIGRRNVSLTVIVHDNGVYGLTKGQASPTLRRGLKTKSLPKPNINDDINPIALAISAGYTFVARGYAYDVKHLKDLMKTAFSRQGLSFIDVLQPCPTYNDIMTKEFLDKRVYKLDTVQGWDPIVRKPEEKDAKMASGILKSMEWGEKIPIGIFYQNDLIPSFEERIAESAKSYKEIIPAKVEIEKDGKPLTIMEDILNEKQV;locus_tag=LOCUS_25350;EC_number=1.2.7.11;note=WP_010980384.1 2-oxoacid:ferredoxin oxidoreductase subunit beta (Sulfurisphaera tokodaii) [pid:71.8%25%2C q_cov:98.4%25%2C s_cov:98.7%25%2C Eval:1.6e-131],MGA_2536
sequence1	MetaGeneAnnotator	CDS	2261127	2263019	.	-	0	ID=MGA_2537;product=2-oxoacid:ferredoxin oxidoreductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980386.1;translation=MIAMKISWMIGGAQGAGVDTSANIFGNALASAGYYIYGNREYYSNIKGRHSYFNLTISDKRVRSISNKVDILASFDAETLFQHFSDVTKIIIYNKGVKGTSIDKVQSMEPEVSSRISHLLEAEGYEKNIDGVLKYAKDRNLKLIEVDYDGIMKDVSSQLKVPLSVAERVKNTAAIAVSYALLGLPKEYLLNSIKRTFKQDTFVKLNSIAVDVATKDIVPEFKLEAHPLSKKRIQVDGNTAVAMGKIYGGLEFQSYYPITPASDESTYIEAHQEVLYIDPKTGDKRKRAIVVVQSEDELAAINMASGAALTGVRAATATSGPGFSLMAEGIGWAGMNEAPVVVTFYMRGGPSTGQPTRTSQADLKFALNAGHGEFPRIVIASGDHVEAFQDAVWAFNLAERYQTPVVHLVEKALANAYSIIDVDELEMDKLRIDRGKIVPASQNYNRFSFTDDGISPRAFLGDGFMFYTGDEHNEMGHISEDPENRVKMYEKRMKKLETADKEIPEEERVKIFGEDSKIAIVTWGSPKGAVLDAIEDLKNEGIDVQMIELRMFNPFPKNLITKLFSGKEIIIDIEGNYEAQAAQVIKEKTGLEPTNYILKWNGRPMARDEVKEGILAAIKGKKEVILNGGA;locus_tag=LOCUS_25360;EC_number=1.2.7.11;note=WP_010980386.1 2-oxoacid:ferredoxin oxidoreductase subunit alpha (Sulfurisphaera tokodaii) [pid:64.7%25%2C q_cov:99.4%25%2C s_cov:99.8%25%2C Eval:1.0e-238],MGA_2537
sequence1	MetaGeneAnnotator	CDS	2263237	2263704	.	-	0	ID=MGA_2538;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978623.1;translation=MEELIKKAREKGIDVEDLLIREISKEDPQEGIRLRLEIAEKYMAEAYDYLKKGDPIRASEKTYKVAEEIVKALAEKFKTEEYKQANVEGRWYTYLLVSTTNDLSKKLGDWIVDGWNAAYVLHVWGFHEGKLNVDKIIVNIEKVKKMLENAKSVLT;locus_tag=LOCUS_25370;note=WP_010978623.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:85.1%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:7.7e-73],MGA_2538
sequence1	MetaGeneAnnotator	CDS	2264258	2265253	.	-	0	ID=MGA_2539;product=ketol-acid reductoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880791.1;translation=MGKLILEGDFSLLKGKNIAVIGYGNQGFAQASIMRDNGLNVIIGNIKDEYYKKAEKDGFKVYEIPEAFERADVALMLIPDEIAPEVYKSVEGIIMKKEGFILDFASGYNVAFGFIKPPSTTDVIMVAPRMIGEGIVLLHKEDKGYPVLLGVSNDYSGKAWDYAKSLATAVGAIGKPGGVAVMSSFEEEALLDLLSEHTWAPILVSAIKAYFDVVTEKYGASPEAAILELYASGELAEIARAMADVGIFEQMKFHSTTSQYGQFTRAEKYYDMLKKISEEEAEKIWNGEFAKEWTLEQLAGKPVLNRLWKKYTESKLSYSESSLFKVLGRKK;locus_tag=LOCUS_25380;gene=ilvC;EC_number=1.1.1.86;note=WP_010880791.1 ketol-acid reductoisomerase (Aquifex aeolicus) [pid:38.9%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:1.9e-45],MGA_2539
sequence1	MetaGeneAnnotator	CDS	2265351	2266661	.	-	0	ID=MGA_2540;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003102111.1;translation=MDNSKVLEVEKEIQKNKSVKYKIFLVITAWLGWTMVVYEWNMFSLLLGPVSNILKLTSFQVGLMLSSIQFGLAIGVFLSGYFLDIVGRKLYYQISLLITSILTGVTGIATYAGLIPLILTRVGAQALAQNEQPTAASLITEEMPARWRALIYSFVQSGWPFGVAIAGLIAATLYKPLGFTYIWLVAIIPMILIVIARRWIKESDRFEEIKKARKGNIDEKTGIITDISKVKKSPYRQAFERDVRKLTLRSILLYTLYLAGQVPLVLLAAYYMEELLHLSVVETGTIISIGSFITIPGYVTAGAISELIGRKYGGTIGTLLALIGIIWFALSPPIFIQLLLSYSFASFWINGNFANVINYINETVPTRIRGTVNVLSAAVGQLGWGITSLIYGTLIGLIGITGDIIIIGAIGFLISIIIFMTGKNIKPGTPLEAISR;locus_tag=LOCUS_25390;note=WP_003102111.1 MFS transporter (Pseudomonas) [pid:21.6%25%2C q_cov:78.2%25%2C s_cov:77.8%25%2C Eval:2.1e-16],MGA_2540
sequence1	MetaGeneAnnotator	CDS	2267489	2268700	.	+	0	ID=MGA_2541;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011268749.1;translation=MASFDFNLFTLTLPLTSKALNFTVAEAGAISGIIYLGQFISVLVFGPLMDRLGRKVMFQLTLLFSAIFTGFTAFVQNYIQFITLRFISDGSAFAELPTGLTLITEESKPKVRGILYGFVQGGWPLGVFLASAIYLILVSSIGWRGLYLVGVLPLVLILIGRRWVKETDRFNDLKKALKGEEQTTRFKTNLQKAKEFPFKQLFTDKSIRRQLIAVNSAWMLYTFSFVTTNVVITLIFTSYYHLTASQAASILLLSSAIGYFAYPIAGWYGQKIGRRNAWALSSIIMPLLAAVFLLTARPGDYLSVLIPYIPLYFFSNGTFASPGFMYVSESFPTRIRGTATGFTMALIAASYAIGGFLFYGVLTLTQSIYLTWIALAIILPIGALSILIGKNIPPSAELEEISW;locus_tag=LOCUS_25400;note=WP_011268749.1 MFS transporter (Pseudomonas) [pid:29.2%25%2C q_cov:89.8%25%2C s_cov:84.1%25%2C Eval:2.5e-32],MGA_2541
sequence1	MetaGeneAnnotator	CDS	2268694	2269413	.	+	0	ID=MGA_2542;product=cyclase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003428771.1;translation=MVKMSFREFLHNNLIKTKIFDLTHLIYHNMPVYPTSPIISINQINSVAKDKFSSREIKMITHHGTHFDAPSHMLDQGKSVDQINPSMFIQRCAILNLSFLKPKEEIISKYLLQFKDIISRNEAILLYTGWSKKRGINSEYLFQWPYLDIEGATYLVSFKNLKIIGTDGLSIAGYGNSANIIDTHKILLEKDILIVEELNFNNISTILDPVNYLEGVFIGLPMLIKEADGAPARVLFILE;locus_tag=LOCUS_25410;note=WP_003428771.1 cyclase family protein (Clostridioides difficile) [pid:33.6%25%2C q_cov:92.9%25%2C s_cov:99.5%25%2C Eval:1.1e-27],MGA_2542
sequence1	MetaGeneAnnotator	CDS	2269421	2270179	.	-	0	ID=MGA_2543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKQVYMFKVGEHGEVPGAEVFWMKEFNSWIRLSFYSFLVESEDNYTLINTGLARDLTLRNKFLREWAGSDRCKFSVKDEEKIENHLKKINLTPDDISQIIITPVQDYTIGNIDLFKKAKLIFSRRGWFEDVVNPSPSPFLNRDVYLPKYVREYLFEEAWNRIVLTDDQKIGDIFLKWTGCHHRSSMSIILDNKICITDAAFVSKNLETKTPIGIAEDIYECIRAYDYLQEECRIIIPAYDPENIVKYGEKL;locus_tag=LOCUS_25420;note=MGA_2543
sequence1	MetaGeneAnnotator	CDS	2270437	2271678	.	+	0	ID=MGA_2544;product=M20 family metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250732.1;translation=MYNNLVMEEVHKNFYKEIEKQGDFIISLYKEFIPIKALGPENGGEGEYERAKKLKEIMMKYFDDVKEIDVEDDRVPSKIRPNLIGTIKGEKENTLWIIAHMDTVPEGDRSLWKYDPFKVNVEGDYIYGRGVEDDGQAIVLGIALAKLLKEMKIKPKMNLSLLVSADEETGSKYGVSYLAKNYQLFKSEDIILIPDAGNSEGSMIEVAEKSILWLRFTVIGKQAHASTPEKGINAHFLAMLLGINLYNELHDKYNSKNELFDPPVSTFEITKVEKNVENINTIPGKHTFYMDCRILPKYNIDEVMNTINEVVKTFEEKNNCEVKVEIVNREDTTRPTDENSETVKKLKEAIKAVKGVDAKVLGIGGGTYAKYLRSLDLNPVVWMTCDETAHSPNEYVRLSYIISDLKTIAYMLL;locus_tag=LOCUS_25430;note=WP_011250732.1 M20 family metallo-hydrolase (Thermococcus kodakarensis) [pid:44.2%25%2C q_cov:98.5%25%2C s_cov:99.8%25%2C Eval:2.2e-100],MGA_2544
sequence1	MetaGeneAnnotator	CDS	2271853	2272533	.	+	0	ID=MGA_2545;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNALDLLIPIISLSVGIIPLFFVKRNFYLLILALGAYFVAIFSKQIIQLSFLGFFLTPSLPTYLAYGLQTAILETGFAYLFLHFKKNLPKDISYGFSYGVYLAFFENAILLGILYLPLYINNTFGFPSNLPLDTIALSYLLPHFLDRVSSLIFHTYIGFMSFLAISTKKITYFLLAMPFGMIDSLTAWWDLNHKPISYLEFAIIIFIINIISIFIMLYAKNAQNRV;locus_tag=LOCUS_25440;note=MGA_2545
sequence1	MetaGeneAnnotator	CDS	2272622	2273647	.	-	0	ID=MGA_2546;product=NAD(P)-dependent alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_038966229.1;translation=MESRAAILKEFGKPLEIGNIKLQEAKGEGVIIKVEGAGMCRTDLRIWKGTEPRPGLNLPFVLGHENAGTVVEVGEEVKGLKKGDKVIVYAVWGDQTCKYCREGKYMLCRNQTVPGQSFYFGGFSEFMYVPSFKFLYKINIDPVIAAPLADAGLTSYSAVKKSLRFLGADSTVILYGFGGLGIYALQELKILAPYVNVIAVARSEQKLDLIEKLGAIPSKPEELKSIIDKITNGNGASVAIDFVGNEESTLNISKNLESGGTIIEVGMEGKNLRIPTFDSVVWEYQLIGSNYGTMNELGEIVNLTERELIKPYIIKRKLDEINYALNDLEKGEVLGRQVIIP;locus_tag=LOCUS_25450;note=WP_038966229.1 NAD(P)-dependent alcohol dehydrogenase (Bradyrhizobium diazoefficiens) [pid:36.4%25%2C q_cov:99.1%25%2C s_cov:99.7%25%2C Eval:3.7e-47],MGA_2546
sequence1	MetaGeneAnnotator	CDS	2273767	2274840	.	-	0	ID=MGA_2547;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048147062.1;translation=MIFDPEPKESRKDFFDREEEIDKIKSLSSPITLVLGLRRTGKSSVIHITLNELNLPYIYIDLRKFEEIGYISYKDLILEIQKEINRLIKRFPNIIDFLKRIEGVKVMGNEIRLKWGGNERVNISFLLESLNDWTENKAILTIDEAQELLNLRGANLLPTFAYSFDNLKKIKIILSGSKMGLLYRYLGKDNPRSPLYGRAMNEIELNPFNKEKSVEFLKLGFKELNIIFNDFDVVYENLGGIPGWLTYFGYYYSQKRDLNEALTKTINSAIGLIREEFNNFLKIRAIARDRYLTIMKTLVNCASWSEIKRALEASTGIEISDSEIYNYLNQLIDSSWIVKKDSRKYCPSEHLISKAFS;locus_tag=LOCUS_25460;note=WP_048147062.1 ATP-binding protein (Pyrococcus abyssi) [pid:36.7%25%2C q_cov:95.0%25%2C s_cov:93.4%25%2C Eval:6.1e-56],MGA_2547
sequence1	MetaGeneAnnotator	CDS	2275392	2275700	.	-	0	ID=MGA_2548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKVEVSAPQALRVVPTPSTNVNPQYPNMGLSNGAEAYHIDPRFNQGVSVTLTPSVTAINRIFEKYVFKCNYKGGNPSPPLPVDPKSYYKYKFNIKPYIFSS;locus_tag=LOCUS_25470;note=MGA_2548
sequence1	MetaGeneAnnotator	CDS	2275747	2276856	.	-	0	ID=MGA_2549;product=L-rhamnonate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000174589.1;translation=MKILDIKIVKSNYRPNLEAYPYTKPTDFYPEIQKTNPLEAAGYNTTSFVKMIGENGESIIEVSDLVGDIILKLKNSIIGKDTDETEKIYDFLYRTTLPFGRKGIIMMAISSIDLMLWDLKGKEMRKPVYKILGGPTAEIIPAYASHLHPTNIKELQKEAEEYLNEGYKAMKMRFCCSPIDGPAGMQKNEDLVKAVRDVIGYDVELMADVWMAWNLKYAKRMFQRLERYELSWIEEPLPPDEYSAYKSLSKLGTPISAGEHAYGIQEFKLLADSGVEILQPDALWSGGITLMKKVQGLAEAYGIQVIPHTATAYNLHFLFSCPQYVCPMAEYLTKYRWMEDFLKNPPKPKKGVFYEKEFDGYGFGIDILV;locus_tag=LOCUS_25480;gene=rhmD;EC_number=4.2.1.90;note=WP_000174589.1 L-rhamnonate dehydratase (Enterobacteriaceae) [pid:32.1%25%2C q_cov:94.6%25%2C s_cov:86.8%25%2C Eval:2.3e-45],MGA_2549
sequence1	MetaGeneAnnotator	CDS	2277004	2277153	.	+	0	ID=MGA_2550;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIVEDKDGERFLEFESKEDLEEFRKMLIEAYYELNPDRKRPYETQSPK;locus_tag=LOCUS_25490;note=MGA_2550
sequence1	MetaGeneAnnotator	CDS	2277107	2277391	.	-	0	ID=MGA_2551;product=type II toxin-antitoxin system RelE/ParE family toxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978099.1;translation=MRDVKSEGDLLSLVVRRFSNLEILMSIVDKLEILQENPFKYAREKLKNKLDKYGNPTFSIEVTGDIRILYSVDPKNCVVFIWEIGFHKDVYGRD;locus_tag=LOCUS_25500;note=WP_010978099.1 type II toxin-antitoxin system RelE/ParE family toxin (Sulfolobaceae) [pid:64.5%25%2C q_cov:95.7%25%2C s_cov:89.2%25%2C Eval:4.0e-26],MGA_2551
sequence1	MetaGeneAnnotator	CDS	2277952	2278482	.	-	0	ID=MGA_2552;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156015649.1;translation=MESKIPTIEKHKDAYVKIRIIESLDELTLGLKLLKEGFSRNSASKVFLSWKAIISALAVINLEKMPRNEKEKEWYYKTGFLAPTTGLKGISQRLEELGFKVNHLTSTALELHRYSYNGLYKGASDYSDRSEAIRDIIQLSKEIMTIIKEFFKNYWDDEIEEHYRIAEKEIGELMHT;locus_tag=LOCUS_25510;note=WP_156015649.1 PaREP1 family protein (Sulfurisphaera ohwakuensis) [pid:78.2%25%2C q_cov:96.6%25%2C s_cov:98.8%25%2C Eval:9.2e-77],MGA_2552
sequence1	MetaGeneAnnotator	CDS	2278661	2279365	.	-	0	ID=MGA_2553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENSLTFYELTAHYVHESDWTSKFMDVDKFHLQISPFNSFLSSEGEVEVSTVRVSSKDVLKTLQKVLRSHWKIKRVLFLYPINDGYPKILKLGVIGDLRDTIRATAYTLGAIADTSLYYEGKEFWSILFTQEYGIDGMRRYMEMHGKVLDLNVRKTKMPDILSKYEFKDFSILTPREAEILKIAYKEGLFEYPKKNNIDNVARNIGITKSSFNEILRKALKKILKTVNDSLEDF;locus_tag=LOCUS_25520;note=MGA_2553
sequence1	MetaGeneAnnotator	CDS	2279543	2280568	.	-	0	ID=MGA_2554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQILQQQSEISKVLYYVQRFGDLSPKLITALSGIKEATKIIENLKEKYKMLPYPIERADKLNLKRYYVEVYFSKNIDLLKLYEAFNGITVAINRDMLNDKKYIIGIMYSKNADFIRGLEYLVDIGLIHYYELYEEEEKQVYPIDYSTFDFEKGKFSEDFIKNPRQPFELPDLSDNFKPDEIDIKILGKKQEQNDFTLKDISSSLGIPFKEVLYHYQAHVVGRGLISAYHVFLGKFDFKMSLIYDSDEEVDNALSRIPTLISISHLSDNTSKATLVAQSHMLYKILEFITRIQKDSKISFTIHPLFPPFEYSLTASIPYEHFNKKWEFNVEELLMKEEEILS;locus_tag=LOCUS_25530;note=MGA_2554
sequence1	MetaGeneAnnotator	CDS	2280625	2280768	.	-	0	ID=MGA_2555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKMKANFVLNQNIIRYIALIGMLATMLLALHGVHAEVSKAPAGSCG;locus_tag=LOCUS_25540;note=MGA_2555
sequence1	MetaGeneAnnotator	CDS	2281152	2281799	.	-	0	ID=MGA_2556;product=GntR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980647.1;translation=MNNLTENAYNEILNSIVKGKYRQGQRLTEDQLCKDLNMSRTPVREALRMLLSEGIIKKDNKSYSVVYITAEEARMLYELRIPLEGLAARLASLRADEKDIEKMESILSKVKEETAKENPDALVLADLNGAFHEAIADATKNTYLRSCLIDIRVKLKIVRTSLFTSFERRRDEYNEHYLIFTAIKEKNPEKAENLMTEHEKKVLDFLEKRVFMYMS;locus_tag=LOCUS_25550;note=WP_010980647.1 GntR family transcriptional regulator (Sulfurisphaera tokodaii) [pid:50.0%25%2C q_cov:96.7%25%2C s_cov:96.7%25%2C Eval:9.0e-52],MGA_2556
sequence1	MetaGeneAnnotator	CDS	2281812	2282933	.	-	0	ID=MGA_2557;product=mandelate racemase/muconate lactonizing enzyme family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980646.1;translation=MKVNVFSLSIPFITNPPSDWIDQWAVQLYVKVEDGEFGWGETLVAGSGIIGAYSSVISELIKPFLEENEINSPYELENLLEKIMFSAGNCGVVTGAISSVEMALWGLKSRRMKVPLAELFGGKSKSVVKVYGSFPRFSKIEDVIKAVEISKEKGFDFIKLHQSPSTILETVKKIREKYKELKIAIDLNSPFDLNKAKDFSEKISKYEIEWIEEPLWPPNDYSSLEKLTKVSPVPIAAGENEYTVYGFKKLLESGISYLQPDIAKIGGVSKFLKILELASSYNVKVAPHDRPDRSPVSLIYVLNLALAREMEIVEYPIADFPEDLFSVPVFKNGYVKPPENVEINEEALVKYPYINKIRILHFSDLEDKLIKHD;locus_tag=LOCUS_25560;note=WP_010980646.1 mandelate racemase/muconate lactonizing enzyme family protein (Sulfurisphaera tokodaii) [pid:49.2%25%2C q_cov:97.9%25%2C s_cov:99.5%25%2C Eval:2.3e-98],MGA_2557
sequence1	MetaGeneAnnotator	CDS	2282936	2284096	.	-	0	ID=MGA_2558;product=UxaA family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980645.1;translation=MNTIKGYVRENGAVGVRNHVLILPLDDLSNSAAIGVSKLIRGTTVIPHPYGRLQFGRDLDLFFHILSGTGANPNVAGAIVIGIEENWANKVADEIAKTGKPVEVFPIEGNGDLRTIEKASRKALEMVQDASEKHRTEVDISSIVMSIKCGESDTTSGLASNPSVGVVVDKMVDQGATVMFGETSELTGAEDIVAEKMANDVLREKFMKIFKDYDNTIEREGADLLGSQPTQGNIKGGLSTIEEKALGNIQKLGHRKVNCVLDYLDPLNKGKEGTLCFVNTSSAAAEAVTLFAAKGSVVHLFTTGQGNIVGNPIIPVIKITANPKTAAQMAEHIDVDVSDLLDLKISLEEAGERVYQYMLRVLNGRLTRAEVLQHDEFSPIKLYISA;locus_tag=LOCUS_25570;note=WP_010980645.1 UxaA family hydrolase (Sulfurisphaera tokodaii) [pid:79.9%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:3.8e-176],MGA_2558
sequence1	MetaGeneAnnotator	CDS	2284093	2284380	.	-	0	ID=MGA_2559;product=UxaA family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846820.1;translation=MPKGLIHSKNDDVCVATTDVRKGEEVICAYLENPSSYILVKSEEDIPLGHKIALRDIKKGDKVLKYGRAIGEATKDIIKGEHVHVHNIKSLRWGK;locus_tag=LOCUS_25580;note=WP_052846820.1 UxaA family hydrolase (Sulfurisphaera tokodaii) [pid:58.5%25%2C q_cov:98.9%25%2C s_cov:95.9%25%2C Eval:3.3e-25],MGA_2559
sequence1	MetaGeneAnnotator	CDS	2284674	2286062	.	+	0	ID=MGA_2560;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011728727.1;translation=MDWETLKEKLFSEMNSMKSKPFHYRMLLLTGGGIFVDGYNIIIISFGLAGIQEAFHPSAYLLGFIGLSVIIGNLIGALIAGYVVDKVGRKTIFILDLIFFVGFAILSGLVTNSYELLIARILVGLGIGLDYPIATSYLSEFSPVKPRGKYLVMNITFFNIAGIVATPVAYWLLGFGELVAWRYMLMSAAIPALIVLLARLGTPESPRWLLTKGRKEEARRVIEEVIGKPLDTDAVELLENTEITPEHSTYYKELLTKHTRDAIFIGVFYFLFAIAFLGTSIFGPEFESGLHLPGEISSMIFWSLFVVGDIICILSIDRIGRRSVTLIGWAGMSAMMLALILLPKSYYIGLELAFTLFAMFQGIGPGSTHMVYSPELFPTRIRATAEGWKQGVGRLGGVLTGVFFPAISLDDKLYIIFAASALGLIWSLALAKETKGKSLEEISEKAKIEEDKTSIKRTTERF;locus_tag=LOCUS_25590;note=WP_011728727.1 MFS transporter (Mycolicibacterium smegmatis) [pid:33.0%25%2C q_cov:93.5%25%2C s_cov:93.3%25%2C Eval:7.2e-63],MGA_2560
sequence1	MetaGeneAnnotator	CDS	2286172	2287617	.	-	0	ID=MGA_2561;product=sugar porter family MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429707.1;translation=MIVPYEEVVKRLDSDKVRGLHILATIIGALGGFLFGYDTGIIGSALVYVTPLFHLTSGEVAILTAGTSLLAGIGALAAGPITDKYGRKSLLVADGAMYAVFALLSAIATTSFLLILWRSLVGFAIGADTAIATAYIAEFSPKKWRGRLAITQQLMIFSGITAAFWAGYILSFSANWRLMLGLGVIPAVILVALRAFLPESPRWLLLNGMEEKAKNVLRKFGVNIAEDEQIATPSKELSFKEIFSSRPIKTAIILVGLWLIFQQITGVNVILYYGPTIYKYLGLTGSRAILNTAISESLGAVEYGISFYLIDKWGRRRLGILGYGGLAGSLAIMLIGLRAFTSGIVFAGVALVFTAMTLFLLFFHVGVGGVGWVLQGETIPTEVRGRGAGILAALDWFGNFVIIFIFPYWKATFGVYSFFGLELILSIMALIIVYLFLPETKGVSLEDMSKVFEKGLTIQRQYVKENIKPEIRSKMDYENKN;locus_tag=LOCUS_25600;note=WP_198429707.1 sugar porter family MFS transporter (Sulfurisphaera tokodaii) [pid:84.9%25%2C q_cov:95.0%25%2C s_cov:97.2%25%2C Eval:4.0e-221],MGA_2561
sequence1	MetaGeneAnnotator	CDS	2287855	2288604	.	+	0	ID=MGA_2562;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156015638.1;translation=MEISLKGKTCLITGGTHGIGLTTAKLFSELGAKVVALGRNIEESKSIHFVKVDLTSRDQLLSFIEWYKKEIGKVDCLINNASVNSRYSILNVTLEEWDKMIALELTAPMLLSKMASEIMIKNGVKGKIINVAAIQAHYPLPESLPYVTVKGGLISMTRSLAVDLGKYGIQVITVVPGPIYTKGDEVPENLDKNAATLLGRMGRPQEVANLLAFLVSDYNTFITGSEIFIDGGRIISRKPDPEEISSGAV;locus_tag=LOCUS_25610;note=WP_156015638.1 SDR family oxidoreductase (Sulfurisphaera ohwakuensis) [pid:85.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-118],MGA_2562
sequence1	MetaGeneAnnotator	CDS	2288662	2290098	.	+	0	ID=MGA_2563;product=aldehyde dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429773.1;translation=MLTIIGNERVDSNEKIAVRNPANGEIIDYVPSLSRDEVRKAIDIAFDSFSKLNSITPAKRSKALMETASIIRENANDLAVTMTKETGRPIKSSRAEIERTAQIFELASSELRRALEGEFVPLDLYDFPAGNEKRIAFIKREPIGVVGAITPFNFPAASFAHKVAPALAVGNTVVFKPSSLTPLTQIKLAEIVSKKFPVGSVNVITGSSEMIGEEFISNDKVSLITFTGSVNVGLDLASKAVKNGKRVIMELGGSDAMIVLEDADIDKAVKAALVGRFDFAGQFCNATKRVIVRQEIEKDFSDKLRSELQKYKAGDPMDESVDIPPLISEQAVMRMREFLNDAIKEGGEKIFEGKVPEKGYYFPPVVVKLQPTSRSRILREEVFGPILPIVPVKSDDEAINIANSTQYGLDASIFSSNFSRAYEIASKLRAGTIIINDTTRLRWDNLPFGGMLKSGIGRESVINTMMEMTETKLMVYSR;locus_tag=LOCUS_25620;note=WP_198429773.1 aldehyde dehydrogenase family protein (Sulfurisphaera tokodaii) [pid:49.9%25%2C q_cov:96.7%25%2C s_cov:98.5%25%2C Eval:1.1e-122],MGA_2563
sequence1	MetaGeneAnnotator	CDS	2290104	2291258	.	+	0	ID=MGA_2564;product=mandelate racemase/muconate lactonizing enzyme family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011028331.1;translation=MKIKDVKVYLVNAVWRNFVIVKIDTDEGITGYGEGTMGDFEKTVESAVYDFKPFLIGKEVNVQEIYNFLYRHFFWRGGEILMTAISAIEQALWDILGKSVNKPVYDLLGGKAKDSVRVYANGFISGDRTPEEFANAVRKVIDNGFNAVKFDPFGSAGPQITGEDLEKAKSRLKAIRDSVGYSVDIMLDAHGRFNTASAVKVANEISKYEPFWLEEPVPEEDIRALKYVKERSPVTIASGERIVNKYRYREFLEERAADIIQPDVCHVGGIWALREVGSMAETYYTSVAPHNPNGPIATAATLNLMLNMNNSLIMEFWVDADTVRRSILKEYFNVKNSYIYPSNKPGLGIEVNEEALERYPYKKLHLEYFSKDYKYYGDVKDRST;locus_tag=LOCUS_25630;note=WP_011028331.1 mandelate racemase/muconate lactonizing enzyme family protein (Streptomyces) [pid:35.3%25%2C q_cov:97.4%25%2C s_cov:97.7%25%2C Eval:1.3e-72],MGA_2564
sequence1	MetaGeneAnnotator	CDS	2291321	2292307	.	+	0	ID=MGA_2565;product=mannonate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964641.1;translation=MELNFAEIILENRPSPFWNILKQIGVNKAVGVLPRSYKDWRQELEENPWDYGSLMKYKNMLEDNGLELVAIEDNPPMDGIRYGIQKLKEEQLEYVSHMLENMGKLGIKIWSYSWMAGFGWSRTHTHIRGENGELVSGFNIKDVENAPPPKFGKISAEKLWNNLKDFLEYVVPIIEKYDIKIAMHPDDPPIEEYRGVARIMNSIENYDKYLNLVKSENVGITFCQGNFTLMTDDLPSAIRHFNKRIFFVHFRDVKGNKYDFIETLIGKGKTDLVEVMKAYIDIDFKGIMRVDHTPTLENDTEFLAGYSYLGRIYSIGYIRGLYESLKHG;locus_tag=LOCUS_25640;gene=uxuA;EC_number=4.2.1.8;note=WP_010964641.1 mannonate dehydratase (Clostridium) [pid:28.0%25%2C q_cov:84.8%25%2C s_cov:86.6%25%2C Eval:2.7e-31],MGA_2565
sequence1	MetaGeneAnnotator	CDS	2292392	2293237	.	+	0	ID=MGA_2566;product=SMP-30/gluconolactonase/LRE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846818.1;translation=MNVDTLSIYKANLAEGPIYDIELDRLFWVDIEGKKILMKDLDNYSENAFDTPDLVSSLCIVNENEVIATIRHGFYIIDFKTKNITKVGEVESNYQENRFNDGKCDPLGRYWAGTMNMKKSGPTGNLYKLDHDIVKVLDGLTVSNGLGWDPENDIMYLIDSPVRKVYAFDFDLNKGEIYNKRILIDFNGEPGNPDGMTVDEEGYLWIAHWGGGKISRWSPRGEKVFEIKLPVTYVTSVTFGTYEMDRLFITTASKEDEPLSGKVFTTHVGVKGIPSYRFKKY;locus_tag=LOCUS_25650;note=WP_052846818.1 SMP-30/gluconolactonase/LRE family protein (Sulfurisphaera tokodaii) [pid:81.9%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:3.9e-142],MGA_2566
sequence1	MetaGeneAnnotator	CDS	2293240	2294103	.	-	0	ID=MGA_2567;product=ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846482.1;translation=MIRQKVNPKYLILKLIRLAISYALLIIVAAFAVFPIYYIIITSLSPIPTLASVSLKSLIPTTVTLEAYNGILFHEPFLLWLRNSLILASGTVAISVIVAFVSGLGLSRLNISMKKVLIITIYVMTFFPFTVTVIPLYLMFSTLHLVNTYYGLIIAYSGGNSVFGAYLVKIFLDNIPRDYEEAAMIDGLSRFGAFTRILLPMSKPIIAFVSLLSFMGAYTDYALANVFISSGNMWTLTLGMYYLAITNRSTLYNVFAAFSVLMGIPIFIIFIVFQKYLTKVYSLSGTK;locus_tag=LOCUS_25660;note=WP_052846482.1 ABC transporter permease subunit (Sulfurisphaera tokodaii) [pid:49.1%25%2C q_cov:98.3%25%2C s_cov:98.6%25%2C Eval:2.5e-75],MGA_2567
sequence1	MetaGeneAnnotator	CDS	2294100	2294990	.	-	0	ID=MGA_2568;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846481.1;translation=MVKYKMNEHKLSNYFYILPIVALILFLFMYPVAYAIYISFTNFSLYHFFKYSLVGFQNYVLVLTSHTFLHILGNTALWTVGSLVPMMALGYLMALVLNQKDIRGKRLFFTLMLFPWAFPAYISLLVWLGMWNYEYGVVNKIIGLIHLAPINWLTYPDTAWIALILTNVWLSFPYYTAIFLSSLQSIPTELYEAAEVDGASMWQKFGRITLPMMKTSISFVGISGFIFTWNNFYPIYLLTGGGPGESTNILIVYAYQEAFAYNLYDIAAAYSTISTIILAIMAIIMLKITHVLEVVS;locus_tag=LOCUS_25670;note=WP_052846481.1 sugar ABC transporter permease (Sulfurisphaera tokodaii) [pid:53.6%25%2C q_cov:97.3%25%2C s_cov:99.0%25%2C Eval:2.1e-93],MGA_2568
sequence1	MetaGeneAnnotator	CDS	2294984	2296147	.	-	0	ID=MGA_2569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLGHSLETDAKAGKAPIVYRDTSNDAGSLFAAGLILNLSAYLNQSVFNQYAPISIKNFELHGSVYGLPDTVNYILMFYNKQYVPYPPNTTQQLIQIATNVNKTYHIWGIAYGMTSEYGYRFAAWFAGFGGHIFNSQGMPQMNSSAMVEALEFWYNLTYNLHINAPDVTPSIEQQLFTHNEAAIIFDGPWDLGIYVPALGANLGAAPLPIVSQTGLHAAPFVGSTGWVISSPQASGATPQQIQAALLFIQFMTSYQAEMNLWTYAHDIPANMKAYNTVITELNNDNLTPTYLNGIMKGVLEQAQYGQKFPNIPQMNFYWDGFYDYATEYYANEITATVASQKMENYMLSQMQQAGITPDLLLPINLNLLQSYELLSNLFNLGILGLW;locus_tag=LOCUS_25680;note=WP_052846480.1 extracellular solute-binding protein (Sulfurisphaera tokodaii) [pid:65.9%25%2C q_cov:90.2%25%2C s_cov:67.2%25%2C Eval:6.0e-137%2C partial hit],MGA_2569
sequence1	MetaGeneAnnotator	CDS	2296289	2297212	.	+	0	ID=MGA_2570;product=IS5-like element ISSto3 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978843.1;translation=MKPWIEYYNGPVPYEHLSARHKTLVKMNYMLITSEVLSRLSDLFILRALIVMIVWTCSYRDVRSYYESDVVVRWFLGEYKSKSEIHRRAKKFRGEVKTLFKEYAKELEGKMSRLADYLPSSALYGKVGKLWIVDSFLIEVPFGKRNKETLKKKFELDLRQRKYREAANTLFFYIKCKVRRRFKGEFTKKRNRSYFGFKVFNLMSPTMIVHEIQVELANFPDNKVGFSRSGYKVVDRGFVGKSSTWLIGFSSFRRYVEFFGIFLRRYWRPYATEKGMVEFFVYVIALIYNSYIYTSVLSRVPESQLAH;locus_tag=LOCUS_25690;note=WP_010978843.1 IS5-like element ISSto3 family transposase (Sulfurisphaera tokodaii) [pid:28.9%25%2C q_cov:96.1%25%2C s_cov:98.2%25%2C Eval:4.2e-23],MGA_2570
sequence1	MetaGeneAnnotator	CDS	2297384	2297725	.	-	0	ID=MGA_2571;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKNKHNRREKALSTTQLAIIVVVIAIVVIAAVAGIMMTTHKPTPTPVSTTSTHTPVTITVWDTYDVPENQGFNKSLVAFESAYPWIHVDVTYGVSISTSNFERVSQAQIIE;locus_tag=LOCUS_25700;note=WP_052846480.1 extracellular solute-binding protein (Sulfurisphaera tokodaii) [pid:63.0%25%2C q_cov:47.8%25%2C s_cov:10.2%25%2C Eval:8.3e-16%2C partial hit],MGA_2571
sequence1	MetaGeneAnnotator	CDS	2297835	2298893	.	+	0	ID=MGA_2572;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979120.1;translation=MSVRLNDIYKSFKVKTGVVTVLKGVNLNVSKGQFVAVLAPSGEGKTTILRIIAGLETQDKGDIYINDKLVNGIPPKDRNVAMVFQNYAIYPFMSVYDNIAFPLKIKHESKEEIKKKVVEVAQMLRIEDLLDRKPHQLSGGQRQRVAIARALVKGSNILLMDEPLANLDTQVRAIARAELKNLHNELGITVIYVTHDQSEAMVLADKVALLHEGVIQAFDDPLVLYKNPPSAWVASFMGNPSMNLIKGVINGCSFEFENYKIDLSENQCKSLPKEVVMGVRPEDIDIGGNIKGKLVTIENIGIYTILHLQVGSTLIKVVERSLTKRNIGETIDISISPDTVYFFDAKSGKRLA;locus_tag=LOCUS_25710;note=WP_010979120.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:56.2%25%2C q_cov:99.1%25%2C s_cov:96.2%25%2C Eval:1.8e-108],MGA_2572
sequence1	MetaGeneAnnotator	CDS	2298885	2300729	.	-	0	ID=MGA_2573;product=glycoside hydrolase family 15 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846483.1;translation=MKLLPFLFILLFLLSTIPIFLGENYDRNLAYSPTYLLLNNWINESILISTGIQDPFLPVSYQNLSVQDIYAGHYGIIPVKIYVESNGNSISSELTLNNTIVVKQSYGSTEFIFPPYCQQFAIFQNGKSELKFLVTTNETSYSIKDHMLIINTVPILKIYLNNAIFAVIRNGTLLDIYIKSNESYGTLNVVIGNYSIENFTTLQKINYIHISKWLNSSKIPHIKGIFLKEYFTSLLIVKDDQNPFTGEFAASPSPIYLYSWVRDGSFAAISLQDSGHINSAIKFWKWMSNSQIQNGTWYTRYNFWNGKPDKTFGIPEYDSLGLFQIGIWNLYQETHNKSMIEQFISSINRSVTWESYYILKNGLIPKDLSVWEDNYQYNFWTQAMDALGLKDTALLYSALNLNNSLELKLENILNETIQKYFYTNDGYAEYVTPTVEFANGKSQLVYTPMTLADSSSLLPIDFGLVPLNSQRAIKTVNYTITQLTRNGGLARFTGDTYHYSNTLYDSSGPMPPWIITTLFLALYYEKTGQYSKALNLMNWSIIHSQHLLLPEAVDPTYGNPLPTTSPLTWSSAMYIIVAINYKEIQKESINIPLLIIITIIVILAYYLIKRKFLR;locus_tag=LOCUS_25720;note=WP_052846483.1 glycoside hydrolase family 15 protein (Sulfurisphaera tokodaii) [pid:43.4%25%2C q_cov:95.1%25%2C s_cov:94.8%25%2C Eval:9.1e-136],MGA_2573
sequence1	MetaGeneAnnotator	CDS	2300831	2303524	.	+	0	ID=MGA_2574;product=glycoside hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979116.1;translation=MVQQGRFVMIKKLLAIIFVFVIFSEIFLVQQFYSKTEINVNFTVTSQGYTTIYISGIPSNESVTLHYGIENGPQESWIQVFNKEMIWNGNNFSATIGPFTNNTWISWVFYDNSTGTWINYEDHPFWNWNLQINPTDIGQTYAIVLPNGSILITAIGRAPDLFDVHYGLASGPQAGLPWSNITDVVMTYNPLWGNYSTLIGPFKPRQWIQWVYHDLTTNLWYNNYGKNFAIEDIYSPVKIIGINYTKFVFVTGQVLGINISIYNGYSSSQSIDLIITLNNGNYSFESYLNPGINTKYISISQSLPQGIYYPEILGIDNGTVLFANPMPPLYIVNTTNKKPISLVIVWNMHQPLYIEPNGTWEQPWVPLHTGQDFMWNGSMVGSYELQALLINKYNLSVTIDFTPVLLYQWETLLHEKQFNYSGIFPGNITYDIKAINFTLNLYKKLTQEGKIEVLTVPFYHPLMAIEYDNGWESDMLAQILMGKNFTRYVFGINSSGIWTPEMAFNMGLIHLYNESGINFTILDQQAFLPYVTLVNGSLNPDQPFKVEDSLGDSIFVLFRNTTLSNEFGFQFFSQSPYLTEEQLIHQLATIYMSNPGGIVVVALDGENPLIFNPVTGPYDLNAIYSAISQYEGSWLITQTASQAISSHNYSIITNLPENSWDLNLDYWNNGYYGKQLIWKNVSEAREYLVSLTIALGDQISPIVWTSPRTTPNSTNLVDSLWNYLYVAEGSDWTWQTGPPANGPSWFKAQAIVYSNTIINTIKSLMNNITLVSIQSSHKYTKLKIENKLPYDLNLIVVVNNGTFNASDKIILHHGINIIKIAIDDNGNNEFLVYLFAPVNYNEIGAGVIHLTQYGFMLKEFNYSEQSSQNIDSTIYIGTILGIIVLSIIIFFIYRKLR;locus_tag=LOCUS_25730;note=WP_010979116.1 glycoside hydrolase (Sulfurisphaera tokodaii) [pid:60.0%25%2C q_cov:95.8%25%2C s_cov:96.1%25%2C Eval:0.0e+00],MGA_2574
sequence1	MetaGeneAnnotator	CDS	2304025	2305371	.	+	0	ID=MGA_2575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKLRKALGKTALIAIVVILVIAVAGGIGYYMTTPHHPTVTKVTINYYDDLAPSEAKVFDDYIIPKFEALYPNITVHLTVESAPSMVDTIESLEKGNDVGPTVIAEDNMIIGELLYAGDLMNLTPYESTIAPSSMIPSMVNLMHYEQSVYHGIYFIPFRGNIPLVWYNKTVFSELHLPLPQNWTQLMQDAKIIYQKTGVKPVMFQGHGGASTSTELYQWMVQAGGNPFVFNDSGDIRAFTYLDELSAYMNPQYVHGYWGSYKGLADGEYYILDYQWPYIYTTMQSEGINVTNIGFYPGPAGPVNSDHLVGGDVLAIPKGATHLHDLLLFVRFLLSTQVQRDIITILGEPAVNAKAYQNLPSNISALFKAEEEAFQNAFFREPVPWISYWNTIADKVFDQIVVNHAPVSEIPSILSGANAEMYTYLKTTYNSTVANEYEEGMFQPLYG;locus_tag=LOCUS_25740;note=MGA_2575
sequence1	MetaGeneAnnotator	CDS	2305377	2306195	.	+	0	ID=MGA_2576;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011101355.1;translation=MNQNLRYLFFTLPAIIYVGVFAFYPSFDAIYLSFLNNAGQFTLNNYKELFYFNIYGTILNTIIVTVGALLIQLFLGLGIASLLTREFKGKKAFSTLTIIPMGVATIVAAITFSFIFQTTGGYANSFLHLLHLPTINWYSNTYISLLVVMISDSWKNTPIVTLILLSGMMSIPKDLYYAASLDGAGPIRRFVHVTLPNLKKFIAIALIIRGVSEFNIFALPLVLIGYHPALLTTLAYDLYSTTTIYLSSAAAVILLAFISVLIILNIKLGGKR;locus_tag=LOCUS_25750;note=WP_011101355.1 sugar ABC transporter permease (Lactiplantibacillus) [pid:29.8%25%2C q_cov:96.7%25%2C s_cov:85.7%25%2C Eval:7.9e-28],MGA_2576
sequence1	MetaGeneAnnotator	CDS	2306192	2306992	.	+	0	ID=MGA_2577;product=carbohydrate ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_092770593.1;translation=MKLSYIAVIIFSIYFLLPLYILVMIAFSPAKYTIESLYPPLTFKSFTLNNLVYAFTQYDFIHPFIKSLSVATLVGILGLVIGIPAGYGLSRLPGKIAYPLLVLLLVTNMVPGIVVAIPISAEFIRLHLFDSIPGLALVQELITLPLATFIMQGTFSAVPREIEYQARIDGASTLSYFKNVLIPTALPGIIAAFLISWMFSWDEFTYAIIISPIHPTLPVEIYVNITRGNELAAVAFSLVFTIPVIILTLFLQKYLKGEYLAGGVKA;locus_tag=LOCUS_25760;note=WP_092770593.1 carbohydrate ABC transporter permease (Agrobacterium) [pid:34.2%25%2C q_cov:98.9%25%2C s_cov:93.9%25%2C Eval:5.0e-35],MGA_2577
sequence1	MetaGeneAnnotator	CDS	2306989	2307960	.	+	0	ID=MGA_2578;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979120.1;translation=MIQFQDLTKRYGNKVILDGVTETIETGEFFVILGPSGAGKSTLLKVIAGIEKLDKGKIIVDGKDITNLPPEKRNVAMVFQNYALYPNMTVYDNIAFPLKMKRMKREEIEKKVERVAKLLGISDILKMNVTKISGGQQQRVAIARAIIREPSFYLLDEPLSNLDARVRFVARGELKRIQKELNGTFIYVTHDQKEAMSLADRVAVLHNGKFEQVGVPMELYEYPRTKWVGEFIGDFPMNFLPGKVVGIEGIEIGFRPGWTKLGGELKGIVESVEVLGEMIYLFCKVDDNKVIIESKEMYDVGDEVTFSVIKFRRFKDGFLIDKE;locus_tag=LOCUS_25770;note=WP_010979120.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:46.3%25%2C q_cov:95.0%25%2C s_cov:91.8%25%2C Eval:5.2e-72],MGA_2578
sequence1	MetaGeneAnnotator	CDS	2307991	2308779	.	+	0	ID=MGA_2579;product=CRISPR-associated endoribonuclease Cas6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_069168154.1;translation=MIYNFNFTLRVKNEVIIQPFSSKISRIAISNVSQYYVKNTDSPGIKPFRVTAIKDSKPLFSTGKKFLKLIPDKNYSFTLTSVSEELFNEVVNTPSLRFKTYSTEAEIELKNVEIINQQDIILEDSDSYYIQFLTPTLLQPPRPSFKRKRNRYVLFPYSPFILSSLATHWNNFSNIKISGISGLKSLYYFREVSYNLMPITVPYDKGKVRGFTGWVKFALDARRNSKLRENIRRLLAYGNYFGVGKSRAIGFGEIRAFPKNQN;locus_tag=LOCUS_25780;gene=cas6;note=WP_069168154.1 CRISPR-associated endoribonuclease Cas6 (Sulfurisphaera tokodaii) [pid:53.7%25%2C q_cov:96.9%25%2C s_cov:97.3%25%2C Eval:2.2e-72],MGA_2579
sequence1	MetaGeneAnnotator	CDS	2309258	2310067	.	+	0	ID=MGA_2580;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980243.1;translation=MIPIETFSISAALTNLENEFINAIPSIILFVITVLIGYVVAIIVSDIISRVLNNLSASYPGLKISTGLISGTVKILIILIALAIAFSLLNLGTANIYISYIVRYLPDLAGAILLLTLGVSLVNIFLDFVGRQMGQQDSFVNTILMVLRFGLYAVIITIAANLAIFYWIPTVSSYLFYDIIIGSIILLFSFTITGKAIDDISKSHPETSSVLGYARLILYAVFILIAVGVIIQPFGNVTAIIQTFAWGLAIAFAIIVIPLVYALAKKIVQ;locus_tag=LOCUS_25790;note=WP_010980243.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:57.7%25%2C q_cov:96.7%25%2C s_cov:95.9%25%2C Eval:6.1e-81],MGA_2580
sequence1	MetaGeneAnnotator	CDS	2310701	2311093	.	-	0	ID=MGA_2581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEEKYLIDTDILFSKKYVKFRGKGIITIITLYELITIVRSRYLDMLKRGYKNRAEGYLRFLNIILNDIKNSVIGITEFDILNSINIIFERELSVGDAINVTIAKRSGMTIVSNDKDYERVKDLVNVIRT;locus_tag=LOCUS_25800;note=MGA_2581
sequence1	MetaGeneAnnotator	CDS	2311086	2311355	.	-	0	ID=MGA_2582;product=VapB-type antitoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156014023.1;translation=MIGKIFVRKADEKGRVIMTEYKRKDVYIVDLGSGYFITDKKDIAEKVSENSANVFSNEFLRLVEEIGISENDINDILEKEITKKVHKIE;locus_tag=LOCUS_25810;note=WP_156014023.1 VapB-type antitoxin (Sulfurisphaera ohwakuensis) [pid:58.8%25%2C q_cov:95.5%25%2C s_cov:98.8%25%2C Eval:2.5e-25],MGA_2582
sequence1	MetaGeneAnnotator	CDS	2311715	2313025	.	-	0	ID=MGA_2583;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868644.1;translation=MSLIAQMNFQNPWWIDKNRIYDDEQIKKVLSLNPRFIISPLNDNLLIIGPRQVGKTTFIKTTIMNIIEKNTEPTKILFFSCDSLKDKDDLISLLSQYRSLINPDNGFVFLDEITFVKDWNIGLLHLFNGGYFKNSMVYVSGSTSVSLKKETLPGRPLNKVILYPLNFRMFFDIYFKKLNVNTSSILDVKKFYNDAIKLVPYLAELNRALLEYLKRGGFFATNYIKGDPLASFYETYKDAILSDLAKLRKEERIFREIIEKIIDSYGSRISENTIAKETSIGSHNTVSTYLDLAENLFILRIFRKMEGNKINNKSFKKIYFIDPFIYRVMKRYTKGLGTLEEKEIPHIIEGIVGEHLAREYERVGYTFFKGGKEIDFIVENLGVEVKWGRGDFRDLKIDKGYILTLDDIGINGEKAILPVSIFLYLLSSSKIFYTKI;locus_tag=LOCUS_25820;note=WP_010868644.1 ATP-binding protein (Pyrococcus abyssi) [pid:33.1%25%2C q_cov:95.4%25%2C s_cov:98.4%25%2C Eval:1.8e-55],MGA_2583
sequence1	MetaGeneAnnotator	CDS	2313173	2314033	.	-	0	ID=MGA_2584;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978466.1;translation=MKIGIVGAGPAGLTLAKYLDADVYEREKELAVKPCSWVVLSTDEIKLRRDEILFKIRKYRIYLDYKLIHEVNSNEPFAYIIDKKKFLERLSDGVNVMFNSYAIIHKNKIIVNGKEITYDRIIDARGYQALPPSFTVPAIQYDTDFKTEEDTLNSYFFSDFVGYGWIFPGKYGAKIGIGGDTSFNVLLDRLNYLLKGKKLNYGVARISISGLKPYTRRVGESAGAVFPITGEGIRASIIHARLIGKHRKITSSRLYKIISIQTNIINNAKRSKKPGEEISRIFLGKK;locus_tag=LOCUS_25830;note=WP_010978466.1 NAD(P)/FAD-dependent oxidoreductase (Sulfurisphaera) [pid:38.9%25%2C q_cov:98.3%25%2C s_cov:90.6%25%2C Eval:1.3e-52],MGA_2584
sequence1	MetaGeneAnnotator	CDS	2314071	2314382	.	-	0	ID=MGA_2585;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846790.1;translation=MQDKEIVLRAVEMIGKWDVMIAGIKDKELLIVKRGQCPDEIEIDGKQYSIRHYEPEKYIDIAVNNEEEFRKYKTIYFVKTYMRKLLDRLASEEVSRISNDNPS;locus_tag=LOCUS_25840;note=WP_052846790.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:53.0%25%2C q_cov:97.1%25%2C s_cov:92.6%25%2C Eval:8.8e-26],MGA_2585
sequence1	MetaGeneAnnotator	CDS	2314372	2314782	.	-	0	ID=MGA_2586;product=glycine cleavage system protein H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979965.1;translation=MNISGFEFPEDLLYDDEKHVWVKKEGEEIKVGITSLGQYMAGKIFQVSTKEEGEDVTPRSNIFSVESAKWIGKFRLPIKGKIVGINKEVIDNPGLINEKPYEAWIVKIKVEKFTENLKTLDEVIDKFKAEAEKVAR;locus_tag=LOCUS_25850;note=WP_010979965.1 glycine cleavage system protein H (Sulfurisphaera) [pid:62.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.5e-45],MGA_2586
sequence1	MetaGeneAnnotator	CDS	2314835	2315317	.	+	0	ID=MGA_2587;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979964.1;translation=MKYAVWLDGVILDINITDRLYELYKGKPIEIPYTMKINYDWNEFYNKLKGKIIILSPYNETLTKEILNIANITEPFIYNKGKTKPDKDPMVQLFSSFTLNPLDVVVIGSSPLDLLSARFYDSRVKVLCVNRQIDCSKYSPYLMNRNLEELYLSMRRLKLV;locus_tag=LOCUS_25860;note=WP_010979964.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:55.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-45],MGA_2587
sequence1	MetaGeneAnnotator	CDS	2315464	2316486	.	+	0	ID=MGA_2588;product=lipoate--protein ligase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979957.1;translation=MQSFRFMIERGPQARLLAGEEALLDSVFSGESPVLRFVIFDPTAVLVGYHQSVEQEVNLDEVKRKGWEIGRRPTGGGTIIMGPNQLGWEIYANSSLLGSVEESIKIGARGVISTLKKLGINANYRPKNDVEVNGRKISGMGAFSIGNYICATGTILLDFNVDDMVSTLKLSSEKMRDKIIKDYRDRVTWINRESNPIDMSQLINISRESFEKELNVKLVDGNYTQKEVEEIESLYLKYSSPEWIYNTRPSLTGDIKYAEAKFPGGLIKVQIKLRGKIIESVLITGDFFVEPRRAIYDLEARLKWSKVEDIEKEINDWYKEVKIIGISSQDLIKVIEEALK;locus_tag=LOCUS_25870;note=WP_010979957.1 lipoate--protein ligase family protein (Sulfurisphaera tokodaii) [pid:67.8%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:3.3e-133],MGA_2588
sequence1	MetaGeneAnnotator	CDS	2316483	2317373	.	+	0	ID=MGA_2589;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979956.1;translation=MKPVYFYAPALKRYETSYLNSKEGWRSISVTGRYCAFNCKHCEKRILEGMIDGSNREKFEKEIKEAEKLGGVIISGGSTVRGDVPIWKYTDILRSSKATIIAHTGVVKNDEIAKKFKDSGVKIALLDMVGDDETIKEVLNQPFSVEDYLNSFKHLKKQGIKIVPHVIMGLSIKGKEGDLRAIELLKEVNPDAVIIVGLMPLIGTSFSKINPPSPSHIIDALKLARNSFDVPIMLGCARPRGNKYLDVEKFAIDYDIDGIAFPEEETIDYARERREIILSNACCGNIVYDFLSRVSI;locus_tag=LOCUS_25880;note=WP_010979956.1 radical SAM protein (Sulfurisphaera tokodaii) [pid:66.0%25%2C q_cov:98.3%25%2C s_cov:99.0%25%2C Eval:4.3e-110],MGA_2589
sequence1	MetaGeneAnnotator	CDS	2317370	2318413	.	+	0	ID=MGA_2590;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979955.1;translation=MISSPDWVRLSFGADMVLGFSPGQFLKGALNTTINLLQYYPDGCKANCIYCGQAREVAKGPECKTLIRVEWPLRKLDDVLSRIKEREGNPEYGLQRICVGQLAHPRASPDAIEITRRIREHGIELQISELVTATYTFKKHMIEMRNAGADMIDVAIDAASKRVFDAVRGKTVRSMHSWDRYIQAIDEAVEVFGKMNAGIHLIIGLGETEKEAVELMQYAHNRGAKISLFAFYPEYGTPLGNKKPVPLNVYRRTQIARWLIENDIVDINSFKFDEKGRIIDIDIPADISLEELAPAFMTSGCPGCNRPYSNEKPGSRLKNIPWYPTKNQVISSIRAAEIDNLAKRFLN;locus_tag=LOCUS_25890;note=WP_010979955.1 radical SAM protein (Sulfurisphaera tokodaii) [pid:76.5%25%2C q_cov:99.4%25%2C s_cov:98.0%25%2C Eval:6.0e-162],MGA_2590
sequence1	MetaGeneAnnotator	CDS	2318424	2319239	.	+	0	ID=MGA_2591;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979954.1;translation=MLVSYFSSGFPSHVRIKALDISSCREYFYSPFDGEIFHIEKFFVGRPNKFSKVNYDYLILAKVKNKIIKILHVEPFLNEGDKINKGEIIGKFLENPYTGGDFLHAHIEGIKISFPKITNYDERGIGVIVNVYESYFDVKLKTYSSAGNLRGLGCCGGLLNASLPYSGYGGIIGKEVSHVKIGNTIFHIAKRRRNLTLFEIKKGLIRNWEYESTFKVLEGSPIFIGPLFEAILSYKGFPLIRFFFKTNLSIGDEIDVWKTISSMWTRSFTLW;locus_tag=LOCUS_25900;note=WP_010979954.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:50.8%25%2C q_cov:93.4%25%2C s_cov:94.1%25%2C Eval:7.9e-68],MGA_2591
sequence1	MetaGeneAnnotator	CDS	2319477	2320538	.	-	0	ID=MGA_2592;product=IS110-like element ISSto6 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979846.1;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVSSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQLQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_25910;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:72.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.4e-150],MGA_2592
sequence1	MetaGeneAnnotator	CDS	2321058	2321249	.	-	0	ID=MGA_2593;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNTYLNVTTKGAPTVIFTNNTPKQEDKHYKSETKKTRYRGGGGEGPQVDPNQVVPSALQAIA;locus_tag=LOCUS_25920;note=MGA_2593
sequence1	MetaGeneAnnotator	CDS	2321179	2321436	.	-	0	ID=MGA_2594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKVEVSAPQALRVVPTPSTNVNPQYPNMGLLNGAEAYHMDPRFNQGVSVTLTPSVTAINRIFEKYVFKCNYKGGSYGDFHEQHS;locus_tag=LOCUS_25930;note=MGA_2594
sequence1	MetaGeneAnnotator	CDS	2321567	2324788	.	+	0	ID=MGA_2595;product=thermopsin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980705.1;translation=MKRIVILGFLILFVINIMIPYSYYNSSSYSVSNIQNYTNKLSTNLHEYLPPAKGNISLSNKFEPEGVNVYAAYSSEPAPMGIADYGIGPNGPFVRSTTQFLGKIYLNELSDESTLNNHEVSFQLNVVLNYNYNGYNYALWVQDVAFFNSSNDFMYFENNIWNFSAYKANVTNLVGNGNIYLYNSQTYYAYVAWNYPGSPTTLTLPTTIYLLVNVSTNSLGQPVIYFWYNDGFGWVNYDVVRVTNVSNTNNVYFLIDGYQYTPSGNFYDAELDMVGPGDGSCAYIYSSNVEMSLEYWNGHNFQGIRNAYNFGSDTAETSNNVIDSSYYFVLRGYLIAGLHTGQGSLGPLWNQNSVSTLIVNTGIDNGYIVVYNSSYPYSSAYVEYEIPFYNDTVELTLVSMDYAVLVYNQNNQLVGEANVNAPYGSARTGVTQFNVFTVTSTTLDEGSSTSVTINLNAYGDVNLNVIVPEGISYNIQNPIYVDGQGTDVLTLYASNISQGVYTIIINASLFTGFYKTVYITLYVGQPLYTVSFSYSVIGQPLPESPQLTLDFPNGSIISLAISSTVLKLPSGTKYSVQNTIGLQNGIRWTTDNLTSGTIYGQESINIVYFEQFLVSFNYEVQGGQGYELPIITYNYFGHMIQTTPNTVWVDYDSPYSYQSILSGSNSQERWIAFSYSGIVASPGTINIYYYNEYYVNVNSPISIYAIINGTNSTLVSNWYIQGTSVKVENLTYYPSLGEREVITSISPSSFTVNSSTKINVNVITQFHVNVNSPIPLYALLNNTNVTLKSGWYNANSVIKVENLTYYPSIYERYVITNISPSSLIVDKPSTISVKTLKQYYITISSQVPLYAIINNYNTSLMSNWYNQGTKIAIENLTYYPSLGEREVITSISPSSFIVNSPTNVSASIIVQFLIKVNSQIPVKATINGSLTYLNSSWINKNSIINIENYTYYVNSEERYVITNITPQSVTLTKPLTFTIGAQKQYSVKINGILNWYNAGSKIYLNASVPFYDNGEFKGTYDVLPGSPITVNGPIQENLVETPNYVVVGSIFTAASAAIIVALLFIVMRKKTKK;locus_tag=LOCUS_25940;note=WP_010980705.1 thermopsin (Sulfurisphaera tokodaii) [pid:55.0%25%2C q_cov:93.6%25%2C s_cov:95.6%25%2C Eval:0.0e+00],MGA_2595
sequence1	MetaGeneAnnotator	CDS	2325319	2326506	.	+	0	ID=MGA_2596;product=PIN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978918.1;translation=MYIMELGVLGSNKLVTTTNAIFTEIFTGIFPDKISILSQDSSNVDFTPLKKALKILGINAEIQNKIVGEEFEKWIEFMEKYSPDILDITPGRKIMALSSIYSKSKEIRYVYLKEEEKGYRIFGWVPFSELKVYNIITKAQLNLKPLKTVNGGRAELDIEGLTSLYNILSLNGKVDIESESDEEIEKLCKMRSGILEFDEENVIRDKIAQGDKITFDTNAFIYLGYRLKKYGSNVIPLRKVYDELEYNSTGSRPDDKTKMFLLGLSSYRFLHNPPPSNVNKGGDEGILSEVKEKMKENGNIWFVTQDRLESEKAKTRGINTILLKNLRPNPDKIKMGSYIHCLSVFSKVRLSIKDEEVITISDGSPSEGHSMVKSVEGFNYAEVIKNIQDFVRSKP;locus_tag=LOCUS_25950;note=WP_010978918.1 PIN domain-containing protein (Sulfurisphaera tokodaii) [pid:35.6%25%2C q_cov:98.2%25%2C s_cov:99.3%25%2C Eval:7.4e-58],MGA_2596
sequence1	MetaGeneAnnotator	CDS	2326544	2327281	.	+	0	ID=MGA_2597;product=NAD-dependent protein deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846381.1;translation=MECRKVAELIASSSYAIAFTGAGISTASGIPDFRGPQGIWKKYSPDLASIEYLEKDPKGFWEFYSMRMRGLFNAEPNKAHYALAELEKMGLIKAVITQNIDGLHQKAGSKNVIEIHGTMQRSYCSSCYRSYPSSEVLSKIDKGELPPKCDCGGIIRPDVVLFGEPVKDFEYAREIAFEADLIISIGSSLTVYPANLIPEIVKHHNGKLIIVNMEETPLDNIADEIIRDPIEEFLPCVLDEIKRIL;locus_tag=LOCUS_25960;gene=cobB;EC_number=2.3.1.286;note=WP_052846381.1 NAD-dependent protein deacetylase (Sulfurisphaera tokodaii) [pid:71.9%25%2C q_cov:98.8%25%2C s_cov:96.8%25%2C Eval:7.8e-101],MGA_2597
sequence1	MetaGeneAnnotator	CDS	2327294	2328304	.	-	0	ID=MGA_2598;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978299.1;translation=MFGVIIFILGFIGRVSGSILFGYIGDKISRKTVLFLTALILVISSILIILLYNYYTIVLFRFLQGLSLGGEWGGASTIIVEAYNTSKFRGFMASIIQLAVPISVILSSFSIFLLSVFSYLGGWRFSLIFIIIISLISFYLIKDLKNVKVENRSKLPIFDALKNDWRNILKAIGIKMSESANFYIFTSYVFAKSISTNVVSMIVIVSISVQLLLMPMFGYLSDVIGRRMVILNGTMLMILGASLFPLKFILGELTLSVSDAALYAPQSSLFTELFDKKYRITASNFSYQLASIMGGSIAPTILRITNYQILIVVLPYIIITLICLALVAETKGKRIA;locus_tag=LOCUS_25970;note=WP_010978299.1 MFS transporter (Sulfurisphaera tokodaii) [pid:48.5%25%2C q_cov:98.5%25%2C s_cov:89.9%25%2C Eval:1.5e-82],MGA_2598
sequence1	MetaGeneAnnotator	CDS	2328950	2329498	.	-	0	ID=MGA_2599;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKNTRDWSKYDENVVTRYKLMFPFYVFEHWWELLQEENRYAKTKYKAPKEFNDFLAFLHLFLPYRAIEGVLSALAEMKIIPTSLDYSTIWERVRNMNINFPEASDELEVDDGTGISTTRGGQYVVAKWGKRRDSKFLKIEVVMEKDEFKIVSAEVTSNEAESAANTVKDLEERGKEVKRF;locus_tag=LOCUS_25980;note=MGA_2599
sequence1	MetaGeneAnnotator	CDS	2329570	2331183	.	-	0	ID=MGA_2600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIERENIRELVEEAKMKAGKEGEVVGLASRVSPISHGKENKEIKAEVPFDVYLSKKFLIGSYLGISLPVSKTLVLGRITEVERSDILAVSKIPALSPTEDTSGITTPLSLTIELLSEEVDGEVVPPSSPIDPQSPIFVPNILFVKRMLGLPDDGISIGKVIEGYKEMGIEVKLTGEILRHHVLVVGTTGAGKTNLLKVIMKNAHIPLVVFDIQGDYVKPAAEIGGNIIVPVPRDYSGKITNFISTFLARSNLSNYKIDKIDGNKVVLKNGEKELTIYLVAFRLSKTYKLIPDVSPFFSAQGASFFKIITESCEGTIDSWEDECVEVMKGMRLHSSTQDNIIRSVTLLKNTGILDVRISNEKGNSYLDEPDYDELINDTPAKSVVDLRWVLEKGVSTATMTAFIIAERIFELIDKKYKNQGKETPFLMIFDEAHEYFPQSKRGDDEKEALERLINKIMRLGRVRGIGTILATHRPTDLNDLILTLANTKIALRADEDALEKIGMDEYANVLQASPAGYGVIRTFSLKVHDLIFRALKF;locus_tag=LOCUS_25990;note=WP_052846467.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:41.7%25%2C q_cov:37.4%25%2C s_cov:30.8%25%2C Eval:8.5e-34%2C partial hit],MGA_2600
sequence1	MetaGeneAnnotator	CDS	2331186	2332211	.	-	0	ID=MGA_2601;product=DNA double-strand break repair nuclease NurA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979050.1;translation=MEIEDAILSLMKLLSEISIDQPYLGTSISVDSSESTPIYYEEEIGKCSPFSDFGYLDSSSRIINVKGANIYIASLYANDSGRHVLIPLDASFPFLAIKANGTVIQKVKSTMSVVRTENVNGVAYTPDYKDDNILDELRISLENYAINNSNSDVMIVDGPIFPGPYIQMVGEPYKSAFEKLTLERKTDKIVGIVKRLNFTRKLSREEEISKKYPDLVKSGVTDDVLVFEMGKGKDPYVTPIYKEEIEIGGKKFVRFMSYVKVRDSVFRVESKDKELLCRGVETALLNSSIRGIPTFIEVADKISRKLSASTFLLSFVYAKSLIGVNYDDWNRYKEATQDLGD;locus_tag=LOCUS_26000;note=WP_010979050.1 DNA double-strand break repair nuclease NurA (Sulfurisphaera tokodaii) [pid:29.8%25%2C q_cov:83.9%25%2C s_cov:79.2%25%2C Eval:1.2e-21],MGA_2601
sequence1	MetaGeneAnnotator	CDS	2332301	2333728	.	-	0	ID=MGA_2602;product=TM1812 family CRISPR-associated protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010977950.1;translation=MSNLDQKCLIYIAGDVSNYSPVKYKFADKEVTSFFSAHALSKIFEVEKIIALLPDSLIQHEKRPMDIETMKKGYKKLVLDRTNFLKNKGDINEQTVSDIESFISDLTIEVIPNVGIGQAIKVDKNGEVLKTEINGKQQLQRSAYSESRNPVFIFNVIYTIFHENKSYEILLDLTHGTNVLTSTALTTGALFKTRFFAAPIMAPIQNEVNIVELTEIVEAMKDSLMINSSIQELDERYFRDYRDKLNSPNLNPNNFNEEKTTISKIKGKDPGKVIDLLWNLRNGFTVSAVHSMSDVEHYSQQLETDVNELSNYYREWYNHKSLENIKELVISNFYSTLEVRNILIPGNDIDKLHELISLYIKAKLYDKALSLARELPVATCLDSNGGGKFDDDNWKYKCCEDLVTSYLRQKHGELIEKRNYLMHGGLSKDMKVNVKDGNINEENPIKRENIEKYIKESLESDLEDTIRYVKDSSVL;locus_tag=LOCUS_26010;note=WP_010977950.1 TM1812 family CRISPR-associated protein (Sulfurisphaera tokodaii) [pid:50.7%25%2C q_cov:95.8%25%2C s_cov:97.0%25%2C Eval:7.6e-124],MGA_2602
sequence1	CRT:1.2	repeat_region	2335305	2339156	.	+	.	ID=CRT_4;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=gtttcatccaaaaaggaattgaaag;note=CRT_4
sequence1	MetaGeneAnnotator	CDS	2339196	2340185	.	+	0	ID=MGA_2604;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429761.1;translation=MSIFKLLHISILGIILLSILGISFSVGSISVGNGPSYGVYSNGRIFIIAQQANELQEIRDNKIVNTVKLPIYPHSVPFRLASLGNYLFIAYQKGPVIELNDKSGKIITAFHIPRIGKYPAIISAHNFIIVSASYGDKLYFIFNNSVKNVSVMNGPQALAYDNFTNVVYVGGYKSNLIYRISFSSMKIVDNFSINDTTVDAMTFIPPNELAVATYEQQLEIINLSNNKIVSVTTFENGINGYSSLIYDPYDSYLFLSLPHHDNQVAIINKEGKIVSQVTVGNSPNGLVYDPLNHEIYVMNYASSSVSYFASPIPSIVSHKYHSSNFLQDL;locus_tag=LOCUS_26020;note=WP_198429761.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:49.5%25%2C q_cov:91.5%25%2C s_cov:88.0%25%2C Eval:2.6e-82],MGA_2604
sequence1	MetaGeneAnnotator	CDS	2340255	2340470	.	+	0	ID=MGA_2605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSLQPGITPLPLVLGYFVFAAIVAVFILRKSKFTPTDFALAGVGGALVSVADHIIGDAIFLPSSTVSDKP;locus_tag=LOCUS_26030;note=WP_010979153.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:63.6%25%2C q_cov:90.1%25%2C s_cov:29.2%25%2C Eval:1.2e-17%2C partial hit],MGA_2605
sequence1	MetaGeneAnnotator	CDS	2340741	2341199	.	+	0	ID=MGA_2606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLFSGLIFLTVNPSDLIRSMHKFKIPLSLIFAVAVGVISVPRIFEVADTAIKLQLMKGVGYKRNRILKIFYKLKAMFEAIIPLTIYEFKKARLISLSAETRAFMVYKDRTFLNDINFSKVDKTILIILIIAVIVDSYLVYSGYIPAIPVHG;locus_tag=LOCUS_26040;note=WP_052846488.1 energy-coupling factor transporter transmembrane component T (Sulfurisphaera tokodaii) [pid:54.3%25%2C q_cov:99.3%25%2C s_cov:46.5%25%2C Eval:1.4e-42%2C partial hit],MGA_2606
sequence1	MetaGeneAnnotator	CDS	2342371	2342559	.	-	0	ID=MGA_2607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREMVSHPTNKEQLWVSPQYARIIKKIAVDIGKRYSDVADEVLDLGLKEYAKKYNIDMEKYK;locus_tag=LOCUS_26050;note=MGA_2607
sequence1	MetaGeneAnnotator	CDS	2342642	2342872	.	-	0	ID=MGA_2608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMDKILVNGEKVVLIDRELDRLAFFLQNEKELYNNDHVFVVVVRNDEEEKVVNAFIERSKLQGTVIVIKLHANKQS;locus_tag=LOCUS_26060;note=MGA_2608
sequence1	MetaGeneAnnotator	CDS	2342906	2343070	.	-	0	ID=MGA_2609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYEEGRDYVVKIDASIIMEIPKTDDLVEAVLGVKKRIIKIRIKAYWKKRNIFQ;locus_tag=LOCUS_26070;note=MGA_2609
sequence1	MetaGeneAnnotator	CDS	2343094	2343213	.	-	0	ID=MGA_2610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNHEEFTADVDDEETATRLYEYIMYNSIELGIIKVTT;locus_tag=LOCUS_26080;note=MGA_2610
sequence1	MetaGeneAnnotator	CDS	2343406	2343726	.	+	0	ID=MGA_2611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKEELKVRVKYNVKVNSKGEKIKYPYYIVTFPIEYSNILKERKILKNVTIITDEEKIELSNVKIFSLEYYKKGEEKIPYFSISIPKEIGEKLVGKKVLVIAEIE;locus_tag=LOCUS_26090;note=MGA_2611
sequence1	MetaGeneAnnotator	CDS	2344323	2344574	.	-	0	ID=MGA_2612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLDNKTAILHELDGFDYFIILRITNPMTSEYYILNKSEIDKLIRENKITYNENIKVYRIFPKIYEKYRSTLNEFVHTIFESQ;locus_tag=LOCUS_26100;note=WP_052846541.1 phospholipase D family protein (Sulfurisphaera tokodaii) [pid:38.1%25%2C q_cov:100.0%25%2C s_cov:24.9%25%2C Eval:8.1e-11%2C partial hit],MGA_2612
sequence1	MetaGeneAnnotator	CDS	2344969	2346129	.	-	0	ID=MGA_2613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNSYIIEIRPILEKYKLKQIMRKIRSISYLKVHRVPHITLVYNFRPLVAPLKIMEVIKEVSNRYGNLEFYYDKYEIKNGKEGYTIALGIRPNNELLQFREDLYKSLKNYIKERSDAKFYNENFWFHAGISFHLSCKVVKNISNNKEMLQILSRFLYEAKVLRITLVNTGKIVYEYDILNKKILNRAEALSLVELEKTYEKYREKYLKIEVNPKSLDKIWFIADTHFGHKNIIKYSARPFVDVTTMNEHIKNKWNEMISNDDIVYIVGDFARRDFKNYVNFLNGKKIFIQGNHDPPAIGVKQLELQLNNYKFILSHYPTNLNSYNAWLIHGHVHNNRLRKYPFINSKIKTINVGVDVTKFYPVNLKWILNLIETKSDYLYLPPKII;locus_tag=LOCUS_26110;note=WP_010870965.1 metallophosphoesterase (Methanocaldococcus jannaschii) [pid:44.6%25%2C q_cov:41.2%25%2C s_cov:93.2%25%2C Eval:3.6e-33%2C partial hit],MGA_2613
sequence1	MetaGeneAnnotator	CDS	2346480	2347571	.	+	0	ID=MGA_2614;product=S-methyl-5-thioribose-1-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978916.1;translation=MKVSVKELKEIFKPKVTPIIWDDKNNVLTLLDQSALPFETTYVNLKTPEEVSSAIKSMKVRGAPAIGITAAYGMVLSIISSQNFEEALSSLSKAKTILDKARPTAVNLSWATSYMLSKAKDLVDNGEARNVGELISLMKEEAKKIFDAELEAELQMGIYGLEKINDGDTVLTQCNAGGLATGTGVGTALAPVKVANALGIKVSVIAPETRPWLQGSRLTVYELMTEGIPVTLIADTAVGLVMYKNMVNSIMVGADRILSDGHVYNKIGTFKEAVIGHELGIPFYALAPVTTFDMKSRVEDVVIEERDPDEVRTVRGVPIAPEGVKVYNPVFDVTPPKYVTAIITEKGIIYPPYDKNVRKVIER;locus_tag=LOCUS_26120;EC_number=5.3.1.23;note=WP_010978916.1 S-methyl-5-thioribose-1-phosphate isomerase (Sulfurisphaera tokodaii) [pid:72.0%25%2C q_cov:98.9%25%2C s_cov:99.2%25%2C Eval:1.5e-150],MGA_2614
sequence1	MetaGeneAnnotator	CDS	2347558	2348160	.	-	0	ID=MGA_2615;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978868.1;translation=MKVYEINLTLVKSFLIEGKEDILIDSGTPGSGKKIISRLKELGKDPNKISYVIFTHSHEDHIGGASELGEKKFFIHQNGLDYLKEGKIRKPQIHSPIKILFKIASPFLMKPFKGVNGEAIKEGEFLQGIEIIYTPGHTDDSISIYLPEINSIIVGDTLGGKLKPPSIYENYDELQKSIEKIKELKPKNIYVSHGKSFISQ;locus_tag=LOCUS_26130;note=WP_010978868.1 MBL fold metallo-hydrolase (Sulfurisphaera tokodaii) [pid:51.7%25%2C q_cov:99.5%25%2C s_cov:97.6%25%2C Eval:7.6e-47],MGA_2615
sequence1	MetaGeneAnnotator	CDS	2348531	2349388	.	+	0	ID=MGA_2616;product=DUF973 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979715.1;translation=MAQSPDMEGLNKLKDSSLWFTIVTLITAIGIFYSQAAILTIVAIVLLIIKAIPSLRDTFNFFKSTGKDVDRGIQGLNYILWGYIILFIAGIFGLLSFMSIFSLNLAIVGFFGAITALLIIVGVLIIFISYLFIGLSVYNLGVFYNNDFMKIGGILIIIPGINFIGWILTYVGSDDTIRKIQGIQPFNFPAYQPIYQVGNGILRLDGTCFFSLYSPIQGVQITSAILQELNFSATDIQPNILIQGVNNISIKFQILGSGIVGKLYTVVVTLSNGQVIPVKVALTGT;locus_tag=LOCUS_26140;note=WP_010979715.1 DUF973 family protein (Sulfurisphaera tokodaii) [pid:42.2%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:1.5e-51],MGA_2616
sequence1	MetaGeneAnnotator	CDS	2349385	2350203	.	-	0	ID=MGA_2617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSVMIGSVAFYQIVPREMQKQAIFINRIVYESSEIAGTISWYFLLSYLGVFTAILGLIISMIGGIIFYTFQMGGGHENVSLSSGFKLFKEKNVLRLTTFGTASIQGAIWMIVSYAPALIIIYHGTSLIYDISQVIFSLSFIIGSWIMKRFKSVLKIIAYTLPIYFSIFILMIIHNPWIVVYGLGAIGIADSIYEIYWLRGMQNGAGEELLGSAIGVDEFVTAISRLSFSLLAGYLYTTVMLLVPFSGLLTMSAVTLWYIKNINILKKISVD;locus_tag=LOCUS_26150;note=MGA_2617
sequence1	MetaGeneAnnotator	CDS	2350720	2351118	.	-	0	ID=MGA_2618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKYTLKDYYTWSLEGDKVFVLDEDNKIAGIVDLIDKGEYVLIDMLAKNILVKSEKVGSRLLEFSEDYSLKLGKNMIMIEALDTASNFYRKFDYIAKEKRFDKEWGILTIMIKYIDALNYANNKIAIQSSKI;locus_tag=LOCUS_26160;note=MGA_2618
sequence1	MetaGeneAnnotator	CDS	2351300	2351710	.	-	0	ID=MGA_2619;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978910.1;translation=MPIRDEKTYAKMSLEDFIVATERAKKGELKLAAFRAYKAERRMLQCLAMIHDLHRKDTPCAVPKNEMLEVSQKLQKNYPEIDKMTQKALKLFDEWKNDNANYEDIVSLLKSLKYEWIKQFLSDEDLEKIQKYMASL;locus_tag=LOCUS_26170;note=WP_010978910.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:63.2%25%2C q_cov:100.0%25%2C s_cov:97.8%25%2C Eval:1.7e-45],MGA_2619
sequence1	MetaGeneAnnotator	CDS	2352016	2353020	.	+	0	ID=MGA_2620;product=alkaline phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978530.1;translation=MRTFLFLFFSVQAMNLYDVSREIKSVLKEDKRDVDSFGIKNNKLALVLIDGLGWNISKDIKTSINPRQIDSIFPSITVTVFATLLTAKKPGEHGILGWRIINKENGTIENLMEKLKKENIEVDTYFQNTNSLFIMPEVATKSLMGKLKVIPYFTYWDGLYKFRTALDRSDNDFVFFYIPYVDAASHLYGPNHEVTLNTAKEVVQKIDCISSYFKEKYSILVTADHGHTEITRTIDLKKDKEFMTEMDFPPYGDHRSLMFKGKLPKSLLKYGINVIEGEKVEEILGGNKNKPDYVLIPKDDNIIIYWEDDRKHEFKGSHGGLTEDEMKIPLYLYQ;locus_tag=LOCUS_26180;note=WP_010978530.1 alkaline phosphatase family protein (Sulfurisphaera tokodaii) [pid:34.8%25%2C q_cov:89.2%25%2C s_cov:90.3%25%2C Eval:6.7e-46],MGA_2620
sequence1	MetaGeneAnnotator	CDS	2353150	2354439	.	+	0	ID=MGA_2621;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980514.1;translation=MKNPLKEWDDKKLSLFHIKTMLVAGAGTFVDGYDLTVGSLVLTIIEESQGINLESVSEILFLSVILGNFLGAIIFGYLAKHGRKKFYGIDAMLMTIGAVMQAFAYTPILLSVVRFLLGIGIGADYVLSPLVNAEYANKKDRGKLMAISGGLMWNLGALLSVITVLVLSTFLPSDLLWRISLALGSLPALIVIYARRKFPETPRYLLYIKGDLKSLNKFYDIKLTETPQSNVNWSILIIPLILASATWYLFDVSAYAGVFFGPNVIAKSIGVNGIIFELIVLTIFAIPGNVISAFFADRAGRKPLQTIGFLGMGVFIIAFAIIGSKLALPLYGIYSLMAQVGPGTIVGFWGVELFPTMIRSITSAITVMSGRLGVITTALLFPLIIHSYGVQSTLIVLGILSLIASALTLFLRETKDKSLDELELLREKV;locus_tag=LOCUS_26190;note=WP_010980514.1 MFS transporter (Sulfurisphaera tokodaii) [pid:42.2%25%2C q_cov:96.7%25%2C s_cov:95.9%25%2C Eval:9.4e-94],MGA_2621
sequence1	MetaGeneAnnotator	CDS	2354570	2355376	.	-	0	ID=MGA_2622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYNPLISMPNREKVERKLRSLDLLVVIDPFMTETAKIADYVLPAALWVEKEGSVANLDRLVKWRFKAIDPPGEAKPDYEILKELAEGFGYSFNSDPKEVFEEMKKVSPTYSNLSLDEIMDYSSNSRYPNHEVSLYEEKFNTEDGKARFIFREQHEVKNGMILITVRNVTRYNTDVVTGRIPGFGVYSTPIYISSDDATELKIRDSEEVSVISNCGKMNFKVKISNEVPKGVAMMYMHDPKVNYVVCDDLDESGAPKYKYTEIKIEKL;locus_tag=LOCUS_26200;note=WP_010978310.1 formate dehydrogenase subunit alpha (Sulfurisphaera tokodaii) [pid:77.0%25%2C q_cov:100.0%25%2C s_cov:41.1%25%2C Eval:5.6e-119%2C partial hit],MGA_2622
sequence1	MetaGeneAnnotator	CDS	2355746	2355883	.	-	0	ID=MGA_2623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVSAV;locus_tag=LOCUS_26210;note=MGA_2623
sequence1	MetaGeneAnnotator	CDS	2355898	2356227	.	-	0	ID=MGA_2624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGEGLERKENRFLLQKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEQRSYLKKSKYYLKHYWKQARK;locus_tag=LOCUS_26220;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:61.4%25%2C q_cov:79.8%25%2C s_cov:24.6%25%2C Eval:6.8e-23%2C partial hit],frameshifted%2C insertion/deletion at around 2355752%2C2355665%2C2355734%2C2356184%2C2355962%2C2355707,MGA_2624
sequence1	MetaGeneAnnotator	CDS	2356173	2356544	.	-	0	ID=MGA_2625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYYKN;locus_tag=LOCUS_26230;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:70.5%25%2C q_cov:97.6%25%2C s_cov:34.2%25%2C Eval:5.8e-46%2C partial hit],frameshifted%2C insertion/deletion at around 2356184%2C2355962,MGA_2625
sequence1	MetaGeneAnnotator	CDS	2356685	2357890	.	+	0	ID=MGA_2626;product=RNA-guided endonuclease TnpB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057839.1;translation=MSDVGLRFRAYTNEQTLRALKAQLRLASEVYNTLRWTDIYFHERDGKGLTKTELRQLALDLRKQDEQYQHLYSQTLQQIADRFYDARQRFFDGLARFPKEKKAHKWYSLVYPQSGWKVLKVREIRTKSKKNKKKVITLQLSNLGIFNVIVHRDFPLEKVKRVVIKLTPSGRVYITFVVDQEYPQLPKTNKVVAVDVGVEKLLTTSDGEYVPNQRPYEKALNKMKKLHKALSRKKFLSHNWFKAKIKLARAHEHLKNLRKDMYMKLGKYFAEHYDVLVMEDIRVKQIVGKSLRRLRMRLHDVAIHELRSIMEYQLGKYGKKLTLVDPAFTSMTCARCGHVKKDLTLADRVFVCPKCGWVADRDYNASLNILRRSGSERPLVPVELRPLPLASLGFEAGSHVR;locus_tag=LOCUS_26240;note=WP_011057839.1 RNA-guided endonuclease TnpB family protein (Thermosynechococcus vestitus) [pid:29.8%25%2C q_cov:90.8%25%2C s_cov:90.0%25%2C Eval:9.3e-32],MGA_2626
sequence1	MetaGeneAnnotator	CDS	2357784	2359028	.	-	0	ID=MGA_2627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIVKSICPFCGVGCGVELYVDSSIVRLSPSKEHVLSKGHLCGKGTLSFEPVYSWDRVTYPLKKIKGEHIRISWEEAINDIVNKIKEIIQYGKDSIAFYGGCQNTLEENYLMQKLARAIGTNNVDSCARVCHEPSAMALKEMVGIGASSISAEMIPKMKVVVITGESVTGSHPVLSQYLTEAKIKGTKIVVIDPRINGTSKFADVHLRPKPGTDIALFNAVGNYLIENSLIDEKFIKERTVGFNEYAKGVSKYTLDYAEKITGILKEDIENFAKLISQKGVIFAWGLGLTQSSGVDGVRSYIDLALLTGNIGKYGGLLVFRGQTNVQGAGDIVKPNVFPNGAMNEENAQKLLKIWKFKPPTNPGLSVTNALLRDSELPRPNGRGFLLQSRGLPKVEVSAPQALRVVPTPIFLGC;locus_tag=LOCUS_26250;note=WP_010978310.1 formate dehydrogenase subunit alpha (Sulfurisphaera tokodaii) [pid:79.4%25%2C q_cov:91.1%25%2C s_cov:58.0%25%2C Eval:8.1e-180%2C partial hit],MGA_2627
sequence1	MetaGeneAnnotator	CDS	2359486	2359815	.	-	0	ID=MGA_2628;product=nucleotidyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846412.1;translation=MSSWVKRKFQHLRKWMEYAEAIAKASKDLDPRSRVFVFGGVAEDRVTVLSDIDVLIVTDVKDKRSFKRAIMLRAFDIYGLPFDAPVEIHVTDSEGFKEYSKYSKVIEIA;locus_tag=LOCUS_26260;note=WP_052846412.1 nucleotidyltransferase domain-containing protein (Sulfurisphaera tokodaii) [pid:53.6%25%2C q_cov:97.2%25%2C s_cov:96.5%25%2C Eval:4.1e-28],MGA_2628
sequence1	MetaGeneAnnotator	CDS	2359799	2360218	.	-	0	ID=MGA_2629;product=HEPN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978789.1;translation=MSGNYVRILKERALNALELAKISKDINWSLFLSEQAAQLYIKAIYYELFGEKIRGHQLRGLLGQLITELDNNHFEKESKKIKDFVTQNREKLIILEESYTESRYGEEGYYEPNLAVDIIKLVSDLIQLLEELNKNVKLG;locus_tag=LOCUS_26270;note=WP_010978789.1 HEPN domain-containing protein (Sulfurisphaera tokodaii) [pid:42.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-20],MGA_2629
sequence1	MetaGeneAnnotator	CDS	2360649	2361914	.	+	0	ID=MGA_2630;product=metabolite/H+ symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003529121.1;translation=MKYTKLPSKFIKVVVFLSTIGLIIEAYDFFSIGIISTAIWPYVFFKGVSSSAIAFSIFAYATILIGRPVGGAIFGHFGDKIGRKFSMFWSLFLSGIAMLLVALIPPIGIIAILLIAILRFAQGLGLGGDGGSSIVLSFEYANKGDKTGYFMSFPMAAAILGILLGLVGVILSENLESKIFLLSYGWRILIGIGSIALMVSAYLRMKVVESLDFKELSREGNVDPSPIKSAFKTCWKKIVLLTLGMAYFPVMLNFVLYPYSIELYTKLGFVEKQVMMVFLVGSIIAFAFTLLGGYLGDKYGWKKIVLISAIGSLVTLPILLLHNLLGLIPLYVLSSLGWGAMGMYASEFIVKLRNTSAGTVFGLIGLFPAVLLLVVLPLSITIYGIVGSFMPIMTISEAITVISIVSIFTLMRGNKNEGSIS;locus_tag=LOCUS_26280;note=WP_003529121.1 metabolite/H+ symporter (Sinorhizobium meliloti) [pid:27.0%25%2C q_cov:83.6%25%2C s_cov:83.3%25%2C Eval:9.6e-35],MGA_2630
sequence1	MetaGeneAnnotator	CDS	2361895	2362293	.	+	0	ID=MGA_2631;product=DUF3211 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978808.1;translation=MKEVSLNVSHELDVVLSLFSDPEFSLPRIMPGYESHTGKDNFQVIGVVGMFPYIMEGRIFRGSSIKYVFRMIDGLKGAGNIDISGIESKLKFIIDYDGDAKSQFESSFEKGIKKISKSINEDIRLERIKRKI;locus_tag=LOCUS_26290;note=WP_010978808.1 DUF3211 domain-containing protein (Sulfurisphaera tokodaii) [pid:30.6%25%2C q_cov:98.5%25%2C s_cov:97.1%25%2C Eval:1.8e-10],MGA_2631
sequence1	MetaGeneAnnotator	CDS	2362341	2362718	.	+	0	ID=MGA_2632;product=cupin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979005.1;translation=MDYFTGNVKDTPSSEVKIGNSKNTFIQWLVTKDHGTSYALRRFIVKPKGQIQMHYHEYYESLYIIKGQCKVCVGKETRRLNPGDFIFINSKVKHAIVNEGDEDLEFLCVINYADDMKIIPLDEEC;locus_tag=LOCUS_26300;note=WP_010979005.1 cupin domain-containing protein (Sulfurisphaera tokodaii) [pid:51.2%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:1.9e-33],MGA_2632
sequence1	MetaGeneAnnotator	CDS	2362724	2363473	.	-	0	ID=MGA_2633;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978765.1;translation=MKVEELMNKVVVTVNIETPMKELLDVLSREKSGRVIVMDKDKPISVITTRSIIAALSEYGESLFNLRASDLMSEDLIAVSPEDEVGYVIRKMIANNIGGVPVIDKNVILGIFTEREAVNLASKIQIPGFVESVMSKRIITADKCVDLLSASTIMFRNNLRRLPVTEGGKLIGIVTAADIVKYVSRKGVSGKVLDAGTRNPITVSKYTSISEAAKIMRDKNIGTLPVVDEKLEGIVTERDILFSLITQLS;locus_tag=LOCUS_26310;note=WP_010978765.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:56.1%25%2C q_cov:98.4%25%2C s_cov:96.9%25%2C Eval:1.0e-71],MGA_2633
sequence1	MetaGeneAnnotator	CDS	2363499	2364038	.	-	0	ID=MGA_2634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978666.1;translation=MDYRLTQEVINKSKKDSLIIRNAGANIFEIKDILKKLNPEEVVYLPHTDCAAMKLTYSVIKNHEGVTQLINDKLISIFKDKNFSTLKELEEINAKVNEDLLKEILPKAKITTELVDVNKIKWPERKARVYVLKSNTKYDEEMIGSYIIQSPEFEVILADLEIANKLGLRIEKNEFDTKF;locus_tag=LOCUS_26320;note=WP_010978666.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:47.6%25%2C q_cov:94.4%25%2C s_cov:88.8%25%2C Eval:5.5e-40],MGA_2634
sequence1	MetaGeneAnnotator	CDS	2364482	2364724	.	+	0	ID=MGA_2635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMQISNSLNGNFANNLPSQEQVIIQQLIYPYIALDNESGIIIRFSDNWSKVEYHEGKIVIYRDEDGKISIIEAEYDDEK;locus_tag=LOCUS_26330;note=MGA_2635
sequence1	MetaGeneAnnotator	CDS	2364711	2365127	.	+	0	ID=MGA_2636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMRNKGIQYQQYEVINVEPLIIKFYVKDENITLMLYMIPQVVEIEDNKVVSVVSTSALSIFSDKPKMGELCSPQKLNSRTPVIPEYDIASEGTTEIKVNDKKVKIRAKITNINVYPDLRDSFGNPCVNVSWIQSIDVE;locus_tag=LOCUS_26340;note=MGA_2636
sequence1	MetaGeneAnnotator	CDS	2365100	2365486	.	+	0	ID=MGA_2637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSIDRCRIDCKFVKSEAKRAFLEERLKDLSQYKEEICKALNDVCNSKVNFSCLQCFDKVSNKYSSGECKKSCDEKFRFSFCFKLTQDLIFNVIAEKDGNTIIVTFYPFSFQKATTLEEKCDNVINSI;locus_tag=LOCUS_26350;note=MGA_2637
sequence1	MetaGeneAnnotator	CDS	2365606	2366073	.	+	0	ID=MGA_2638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIEKIIEEGYKKSDNELEDYFRKLYKEFNNNPRIVYEYANVLDYLGKEKEAIPLYKEALRKGLSGKYLDMCLIQLASSLRLVGNLNESYEILSNLYNKTKEPSSLLFLSLTLFSLNKIKDAYCLMFKYILEKNEGFLEDYRRALTQYINEICKS;locus_tag=LOCUS_26360;note=WP_010887910.1 tetratricopeptide repeat protein (Deinococcus radiodurans) [pid:31.9%25%2C q_cov:72.9%25%2C s_cov:68.7%25%2C Eval:4.3e-07%2C partial hit],MGA_2638
sequence1	MetaGeneAnnotator	CDS	2366135	2366980	.	+	0	ID=MGA_2639;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980531.1;translation=MIVKICYMIETRQLFKIYKDGTTALNGLDLKLSSKISCVLGRNGAGKTTLLRILSTQLLPTKGKAFVNGFDVVKEAKKVRKTICSIPQEAGTAGMPSPLEHLVMYLTARGFSISEAFNVSKKVLKDIGLGKVMNKPTDELSGGMKRKVFVAMALASNADLVFLDEPTTGLDPLSRLEVWSAIRSMDSKIVLTTHYMEEAQELCEEIAIINNGKLVDKGTPSELLSSLEGKVRVEGVGDIKIGNIRISYMTPDEAKSLLGKVTIKPISLEDVLITKGLYIED;locus_tag=LOCUS_26370;note=WP_010980531.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:60.2%25%2C q_cov:94.7%25%2C s_cov:96.4%25%2C Eval:7.0e-91],MGA_2639
sequence1	MetaGeneAnnotator	CDS	2366970	2367692	.	+	0	ID=MGA_2640;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_184651061.1;translation=MKIRFILTFSWFYGFTTLIRSPIYILSYLALPMSLLFFIFLISHGALLKFGILGGLISVIVSNALSLVGDFAFFRLQLRLQDLLVATEIGPIDYISGLAIGNLLYSIPGLIIYIIMGLYFNVFSLIQLPLLGLVLVLLLMSSTGLSITLASFLKHTRHSWGLSTFLSLLFTLLPPLYYPYTILPKVILDVLYISPSTSASMIAQSYLGLAPFQLTAVIVFTIETIFFSALPFYALRWRES;locus_tag=LOCUS_26380;note=WP_184651061.1 ABC transporter permease (Sulfurisphaera ohwakuensis) [pid:39.0%25%2C q_cov:98.8%25%2C s_cov:97.1%25%2C Eval:1.1e-48],MGA_2640
sequence1	MetaGeneAnnotator	CDS	2367759	2368289	.	-	0	ID=MGA_2641;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980703.1;translation=MESQLPKFTREPEKYSRLRLLEALEELYLSLEMLKEGYSRNSASKLFLSWKALLSSLVVSNFNKIIEKKKREGKDDEVKWYLRIGYSATTGLIGISQDLEDLGFKGIINLTTAMLGIHRYAYNGLDKDISPFHSRNDAIISIKELIKTEIEIISSMKLEDEEKELIEKIKTKLGTI;locus_tag=LOCUS_26390;note=WP_010980703.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:76.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-72],MGA_2641
sequence1	MetaGeneAnnotator	CDS	2368636	2369190	.	+	0	ID=MGA_2642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVIEEMKKKGFKKLTGPPEDWLKTFTSMDWGFREKERLKKEWDKIEPGDIFIFHSMKTENLSADFPTGIIGVGIIGEKRTGIDEEAYFEDKRLRPLRIVFKEIWWFGDYEKISKEKFPLKARRGEDFLIKEIYYLLRNCITFQEMREHDCIISTQGAIQNVSKEKQNKLIELIKPRLKEPIRK;locus_tag=LOCUS_26400;note=MGA_2642
sequence1	MetaGeneAnnotator	CDS	2369228	2369479	.	-	0	ID=MGA_2643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNAPVDIIVMKPEECNENNVNLSHMLYYGYKILSDNLELKDKIYNMIIKNKDKLKDILPYDIKSGHKKNSFLKLRIRIFRNY;locus_tag=LOCUS_26410;note=MGA_2643
sequence1	MetaGeneAnnotator	CDS	2369614	2369796	.	-	0	ID=MGA_2644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_26420;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:90.0%25%2C q_cov:100.0%25%2C s_cov:16.8%25%2C Eval:1.2e-27%2C partial hit],frameshifted%2C insertion/deletion at around 2369851%2C2369869,MGA_2644
sequence1	MetaGeneAnnotator	CDS	2369861	2370667	.	-	0	ID=MGA_2645;product=IS110-like element ISSto6 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979846.1;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVSAV;locus_tag=LOCUS_26430;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:68.1%25%2C q_cov:99.3%25%2C s_cov:75.6%25%2C Eval:4.1e-101],frameshifted%2C insertion/deletion at around 2369851%2C2369869,MGA_2645
sequence1	MetaGeneAnnotator	CDS	2370810	2372015	.	+	0	ID=MGA_2646;product=RNA-guided endonuclease TnpB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057839.1;translation=MSDVGLRFRAYTDEQTLRALKAQLRLASEVYNTLRWADIYFHERDGKGLTKTELRQLALDLRKQDGQYQHLYSQTLQQIADRFYDARQRFFDGLARYPKEKKAHKWYSLVYPQSGWKVLKVREIRTKSKKNKKKVITLQLSNLGIFNVVVHRDFPLDKVKRVVIKLTPSGRVYITFVVDQEYPQLPKTNKVVAVDVGVEKLLTTSDGEYVPNQRPYEKALNKMKKLHKALSRKKFLSRNWFKAKIRLARAHEHLKNLRKDMYMKLGKYFAEHYDVLVMEDIRVKQIVGKSLRRLRMRLHDVAFHELRSIMEYQLGKYGKKLTLVDPAFTSMTCARCGHVKKDLTLADRVFVCPKCGWVADRDYNASLNILRRSGSERPLVPVELRPLPLASLGFEAGSSVR;locus_tag=LOCUS_26440;note=WP_011057839.1 RNA-guided endonuclease TnpB family protein (Thermosynechococcus vestitus) [pid:30.6%25%2C q_cov:90.8%25%2C s_cov:90.0%25%2C Eval:6.4e-33],MGA_2646
sequence1	MetaGeneAnnotator	CDS	2371909	2372196	.	-	0	ID=MGA_2647;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKEMKLREAHEVLGKLIGLYPNTTVILFGSRASGKNRPNSDFDIIVFIECENPLRELPCPNGRSFLLQSRGLPKVEVSAPQALRVVPTPIFLGC;locus_tag=LOCUS_26450;note=MGA_2647
sequence1	MetaGeneAnnotator	CDS	2372369	2372791	.	-	0	ID=MGA_2648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979147.1;translation=MRKLTMPSISSPNTILIEVQGDVLKRMGKRAEAYVQFASFNPSVLGFVKAGSNVIYVNEIPYSRVAIDSEKSHDYLYVVILHEYLHLIGIADEREVRKITLEMVGSKFGENSNAFSFSKMLTFPEDVKIMENRKYFSHYM;locus_tag=LOCUS_26460;note=WP_010979147.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:42.6%25%2C q_cov:81.4%25%2C s_cov:85.1%25%2C Eval:1.9e-18],MGA_2648
sequence1	MetaGeneAnnotator	CDS	2373459	2373800	.	+	0	ID=MGA_2649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980054.1;translation=MISLGKWKASSYINCLRDFFSYDRVTIDSMAFLIASANDDELDVFKPDTNGIMYAEKLEDIKGNCEKWIKIFSSYKDDIIKNTSMKLWKFYSNKNVVFNEDEKRLLTDLGIKI;locus_tag=LOCUS_26470;note=WP_010980054.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:51.3%25%2C q_cov:100.0%25%2C s_cov:98.2%25%2C Eval:6.5e-29],MGA_2649
sequence1	MetaGeneAnnotator	CDS	2373790	2375031	.	-	0	ID=MGA_2650;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980053.1;translation=MVKYIRDPIYGIIEIDENYINSPYFQRLRYIIQNGMAYLVFPSMRHSRFEHSLGTRYIASKLLNKILNNITQDDKSKILELAMYHDIGHFPFSHTFEFATEILKYLNKNKYDQLIRLTGFIKGLAKLHEMMGIRVLKEMNKNDIADLMSKVYNIEPSNNSEVVKIAKLIINSELDADRLDYLQRDSYYSGAKFGIIDPERIINEMRICANGYIFPPKAIDDLEHFFLARFHMYSSVYNHVVIEIFNRIMAYFIAYAISNDDINIPTNVQEFIDFTDDKIISILRVKKNDYEPLYNAIINRRRYLRSTLEGKTAEQLIQLLDQEKVAKDFFNDIIFPYEGKIIIGKTEIETKRSDIYIERTIGSYQNNTEFEREDIVKLPDRYRIHIAVYDESLKKEVSRYFSKNFNIGLTFKS;locus_tag=LOCUS_26480;note=WP_010980053.1 HD domain-containing protein (Sulfurisphaera tokodaii) [pid:55.5%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:2.4e-131],MGA_2650
sequence1	MetaGeneAnnotator	CDS	2375243	2376367	.	-	0	ID=MGA_2651;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980493.1;translation=MKEINKLSIIGGARALSGSIVWPFIGFALYDVYHFSFTFISIFYIFQGLVSIFAYIMGGYFTDFMGRVRVMILSSILSSFSLFLAFLINYSLVVAGLILIQTFFNSAYNVANTSLVGDLNRGFGGLVRAFSRIRVGINAGWAAGPVIGGFIFSFIGFRPILLISSLISLISIPLLLHFPDFKGKIEVSFHADKNFIKFLIPTFLTFMVMGQLGFSLLTFYDVVDKINTFQVGLLFMINGILIVILQEFIGRKLTSKMISLGMIIYSASYFAVAFVSNFVLASIDMVFITLAEMIVSPLSQAIASSLSENNTRGRSMGIYGMVTALGRVSGSSFSGYLMNFFLFTPTILWGSVALLGIISAILYLFLTPFKIIKY;locus_tag=LOCUS_26490;note=WP_010980493.1 MFS transporter (Sulfurisphaera tokodaii) [pid:53.2%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:3.6e-107],MGA_2651
sequence1	MetaGeneAnnotator	CDS	2376861	2377025	.	+	0	ID=MGA_2652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVQVTFHSKISSMGHDKYGDPKYAIYVPKSIHEKIKGLLDREVIIIVILPDDEE;locus_tag=LOCUS_26500;note=MGA_2652
sequence1	MetaGeneAnnotator	CDS	2377012	2378076	.	+	0	ID=MGA_2653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009074107.1;translation=MMRSKLIGSKEAIDNFQFVTINGRVEFEDVERISRIAYYYSKAVKAGINLALKGVSLNDAVKELYNIIPYAFYAETAYKQALALVENKGSKVEIKKRWIACRGNKADNGNRGIKFHVFQDHVEVRVKDPWSKWVHGKAYFGKEYLPLLSELEELSRRKEEGYGAVVSFKHYPMIHLQIPLWLYLKHFSSPKPKGYGLIAGFDLNSDRLNVVVINKDGKVIAIKTFWYSDVTRPGFPKGKARALRLNALSQALIFLSRVGVDYVIFEDLFLVKRRKFTRSKSGNRKVSRFAKRQMLIHGVIKALRLGFNVILVNPKGTTNSENHDRIMREKGFDRHTASAYLIALKGLEVIKNNE;locus_tag=LOCUS_26510;note=WP_009074107.1 hypothetical protein (Metallosphaera yellowstonensis) [pid:71.1%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:1.4e-145],MGA_2653
sequence1	MetaGeneAnnotator	CDS	2378107	2378382	.	+	0	ID=MGA_2654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSITAATHLSEMPEAELVEVVYLNGGIAAVTERNRIAPILKNEKVKVVACGTSMEARNITKEELAPGVVYVPASLKEIIKRIQEGYIYLVL;locus_tag=LOCUS_26520;note=MGA_2654
sequence1	MetaGeneAnnotator	CDS	2378448	2379254	.	-	0	ID=MGA_2655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSITRNLLDYLNKLRKENGVPPVNYANTGTANLRVNYMLKENLFSHYDKEGKIPIYYFTSTGNYYGAEESIGFSHSDSLYFKDGVVALKQGKQLIYNMIYHDEDSDWGHRDSLLDPCFNYADISIAWNERNLFLDIIMVSAWIKWINKPNFSNGIFSIKGEVNVMIPQNILIFHDEPNPSNISRRNYDLGKLVAGVLPKNYVFQGISTIHAIKWEMNKIIDVKFPLKVNKGIYTILIRAKDPRGINWRPKVQNSRLGMCNILTYSIKV;locus_tag=LOCUS_26530;note=WP_011762166.1 CAP domain-containing protein (Pyrobaculum islandicum) [pid:33.2%25%2C q_cov:98.1%25%2C s_cov:59.3%25%2C Eval:4.1e-37%2C partial hit],MGA_2655
sequence1	CRT:1.2	repeat_region	2379295	2381483	.	+	.	ID=CRT_5;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=ctttcaattcctttttggatgaaac;note=CRT_5
sequence1	MetaGeneAnnotator	CDS	2382186	2382353	.	-	0	ID=MGA_2659;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLPFIVIETIGFVMLILGFITKGNISIILGVGGLFVIIVTAMFFTKDEIKINST;locus_tag=LOCUS_26540;note=MGA_2659
sequence1	MetaGeneAnnotator	CDS	2382497	2383051	.	+	0	ID=MGA_2660;product=CRISPR-associated ring nuclease Crn1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978915.1;translation=MAKLVSTLGTSPGGIFETYMNLREGNYEGDDVKPIDIKEVYVIRTSDKSVEFAWKLIKAIFSCCKREEVTISDIPLTMQDINSSEDFKKFRKEIFSRLNVGDYVDFTGGRKAMSVAAALAAREVKAHVITTIIPQNEYNRISEIIRGLKTMEDLVDRAGRGDCETIKESICKLVSPEAKTIMLI;locus_tag=LOCUS_26550;gene=crn1;note=WP_010978915.1 CRISPR-associated ring nuclease Crn1 (Sulfurisphaera tokodaii) [pid:52.7%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:3.1e-49],MGA_2660
sequence1	MetaGeneAnnotator	CDS	2383789	2384121	.	+	0	ID=MGA_2661;product=nucleotidyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_218259480.1;translation=MVWGLEYIKYFENNWFKIAERVKEVAENLGKVDKVIVFGSVIKGKVTGSSDLDIEVFYDERLTDKEKIRRTLEILNIVDEEIVDINLQVLTKDDEDFFLNKFVDKYVEII;locus_tag=LOCUS_26560;note=WP_218259480.1 nucleotidyltransferase domain-containing protein (Saccharolobus shibatae) [pid:78.9%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:5.0e-42],MGA_2661
sequence1	MetaGeneAnnotator	CDS	2384437	2386692	.	+	0	ID=MGA_2662;product=CRISPR-associated helicase/endonuclease Cas3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582994.1;translation=MSNLCISDLQRYCSHPDKQLKDHLREVGELAKQNAIESGRKDIADFAYIAGSLHDIGKYTKNFQIHLRGKKRVECSDHALVSSLIAYDEARTLISNRKDEFNDEISQQIYPLLTMIAVISHHGELKGLCTLKLTLQKKNEEIEIGDSCLFQQIDELKSKWDTIKSELTGTNLTLNTPSLNLLKEARKSIFNVENYLNNLVSNKNYTWKWYYEGLLLFSSLIDADKHSASNTQYLHVSSPLVDKLIDYANTLPKLGRVYQMRSQLFSFALNYSPRESILFLNSPTGSGKTISGSIIGLKHSKKRLIYSLPFINIIEQTYDVLSKVYGQDVLKYHHLTYPSNENEYTDMEKKLITAESWDSPIVVTTFEALVDTLFSPKNAYLKRLHNLANSFLILDEIQSMGIEELYIVKESLEEAVKQLNTNVLFMTATNPFWQGVRPVTATPNRYKVKVMLDDIVTPEKFVENINTQNDVMIEFNTIGSAEIGFNTLKQSLNKKIYYLSTRVIPKHRLKRVKDIAKKMGSGVVLVTTQLVEAGVDLDFTEAYRDLGPIDSIIQAAGRVNRNWLRDQGLLTVMRVKREGGLTDFAKIYGKLTEEITEETLRNFGKKEFNENDVDSLLNSYYSVLRQRFKPENSKKRNVILTNVTRLEFDKVKLKLIQEEPKYIVFIKYDDEAEKVYEELKAALKSQGFDKRAKVKKAMAKAENYIVKVWEQPSTLPIDENLEWYIVERDQVDEYYDNNTGFKNNNTNALIW;locus_tag=LOCUS_26570;note=WP_012582994.1 CRISPR-associated helicase/endonuclease Cas3 (Dictyoglomus turgidum) [pid:28.8%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:2.3e-67],MGA_2662
sequence1	CRT:1.2	repeat_region	2386769	2388612	.	+	.	ID=CRT_6;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=gtttcaagtcctctaaggatttctacaaat;note=CRT_6
sequence1	MetaGeneAnnotator	CDS	2389562	2389819	.	+	0	ID=MGA_2664;product=CRISPR-associated endonuclease Cas2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005817554.1;translation=MYVILVYDFDEKRVVKALNICRKYLTWIQRSVFEGELTEGNLYLLKNELKKIMKENDSVIIFKLEGKFMVNKEIMGKKISDNNIL;locus_tag=LOCUS_26580;gene=cas2;note=WP_005817554.1 CRISPR-associated endonuclease Cas2 (Desulfitobacterium) [pid:54.7%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:5.2e-18],MGA_2664
sequence1	CRT:1.2	repeat_region	2390525	2393966	.	+	.	ID=CRT_7;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=atttgtagaaatccttagaggacttgaaac;note=CRT_7
sequence1	MetaGeneAnnotator	CDS	2394135	2394659	.	+	0	ID=MGA_2666;product=CRISPR-associated protein Cas4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460582.1;translation=MSDKPLEPYKIADDVYVTGTLIWYLHICPREVWLMSRHIIPYQDNKRLEYGRAIHKIHSDETFLIMEGMRVDTYKKETGVVVEIKSSSKHLESAKAQLSYYLYRLREKGLNAVGVINVPEENIEETLENIDEGKVLEDIDNVKEIVKMEYPPKKVRIKFCRKCAYKDFCWPVGE;locus_tag=LOCUS_26590;gene=cas4;note=WP_011460582.1 CRISPR-associated protein Cas4 (Desulfitobacterium hafniense) [pid:40.4%25%2C q_cov:88.5%25%2C s_cov:95.3%25%2C Eval:2.4e-29],MGA_2666
sequence1	MetaGeneAnnotator	CDS	2394699	2395610	.	+	0	ID=MGA_2667;product=type I-B CRISPR-associated endonuclease Cas1b;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082344.1;translation=MKRKNNTIALITKEGTKYVPVNQVKRLYVFSEVNINKRFLHFVSKYGIPVHFFSKQRRYIGSFLPRKTNLSGHVLVKQVETYLNTQKRLYLAKTFVEGSIRNMSLILRENGVDNSNVKAGLTKLKQANSVQEVMGVEGTARLEYYKGIDSILHGSFIKRTKRPPENWANSLMSLGNMMFYAEVLGEIYQTQLDPRIGYLHSTNLRKFSLNLDIADIFKPLIVDRLIIAMINKKEITEKDFEANGLKLSDDSLRKFVKKFDEKMETKVNVGKRRVTYSTIVRMEAYKVEKFVLSDEEYRPYVGR;locus_tag=LOCUS_26600;gene=cas1b;note=WP_004082344.1 type I-B CRISPR-associated endonuclease Cas1b (Thermotoga) [pid:44.4%25%2C q_cov:98.0%25%2C s_cov:95.3%25%2C Eval:5.2e-71],MGA_2667
sequence1	MetaGeneAnnotator	CDS	2395774	2397540	.	-	0	ID=MGA_2668;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFHSLLRIGELQIGKTEGSVTLPIVAIDKKDATLGLVVFDNRSKSVYIKKEKLAEGDEEKYAHIGNAKAQKPQDRITTGNLEYILGYKKDSTKVRNNKFALKVIADKLSNSETGKLLNEVLSWYSPDVKVDNLDWDCDLYTVRIIDKNGKEIDIATLPDYRTSLVEGMTTVKGKCQFCGSDNVLPNPDYTGGSMLKIFIVDKKGFLSNFGDILESHTICPSCRHKLELGNNYVEQNLSVRIGKLNAYVIPDLPPKADVTFLQRFKTDQDGSYILEGLREIEKGERETLDIMEFEGVEVRLDLVFGQKQQNKFRLWRIIPEVGVPRLVHVMRLAGRGKAIVSATYDNKIDLKDVSFSTLYGILPVRELSKGIDPSVFLDFLEAILLGNKLDPNYVYNSFLSVIRCLRYDTCSNSLTRFSLEDLLLYQEIFIYVMRQLGIMGEDTLNMERTKVSNIDSYIGSLGIKGGLKGLFLLGVLTAYVGKEQHNKGDDKKAILNRIDYEGMDIDDIVTYANRLHESLRDYRQLNSTTESLFAEALESIKKNPNDLWDTAANVFHILLGYSYQTKQFIMHGEPQTKQPTANQEESAE;locus_tag=LOCUS_26610;note=MGA_2668
sequence1	MetaGeneAnnotator	CDS	2397838	2398743	.	+	0	ID=MGA_2669;product=type I-B CRISPR-associated protein Cas7/Csh2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082348.1;translation=MSKNDSNLTTNSEYLIIYEVKNANPNGDPDDENRPRMDPKTKINYVSDVRLKRFFRDYIIAKYGTDYIWVTKLDGKNVDATKRLEVIGKDPSSVLTKCIDARLFGATIPKKGGEGKGESYAFTGPLQLSWGYSLHKVDLMDTRSITSLFSGRETGSGNIGKDYRVYYSLIAFYGVFSWRRSKETKVTQNDLKVFDNYLWQAILEESVTRSKIGHYPLLYLRLEHKDSDTLLGDLRRFLKVEQKTENVRGLQDLKIDLKELSEKIKGLGSIYLRCADELSEECKSLNELKPVILPHKDVKFP;locus_tag=LOCUS_26620;gene=cas7b;note=WP_004082348.1 type I-B CRISPR-associated protein Cas7/Csh2 (Thermotoga) [pid:40.8%25%2C q_cov:85.0%25%2C s_cov:84.3%25%2C Eval:2.8e-40],MGA_2669
sequence1	MetaGeneAnnotator	CDS	2398879	2399448	.	+	0	ID=MGA_2670;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKDKDSYYDELDKFNYAVEALTPLKKLVFGESYLDTDSVNVQRFRGVSNRVPTTKEFISPSRGNFLGYDIYITYNKNIEEAFKRPKYPLTLGTAEMLAWIEKIEMLECQEENDFSDNEVYGVFPSSFSIETGSVITLEYSVPRRYENERMSGKLYDYFFSTNTSPVKVKTGKGNGIKCNEGKKNILFL;locus_tag=LOCUS_26630;note=MGA_2670
sequence1	MetaGeneAnnotator	CDS	2399665	2400246	.	+	0	ID=MGA_2671;product=CRISPR-associated endoribonuclease Cas6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545251.1;translation=MFTFSRLYGDFEKKEDKLFYKDYVYFAFSSALELPIKYLYESLKNDPTFVIGKAKFIVDKILVKDSLVELNDYDIFYTLSPVVATKKMENESKFYFPHQLEFNYLLQLNAKRKVLALTGKTLKSDLNIRVERWRRIVVKYKRGNIEGVIGKFKLKGPLTVLKIIYEAGLGAKNSQGFGMLEFEGTSIRNILGE;locus_tag=LOCUS_26640;gene=cas6;note=WP_012545251.1 CRISPR-associated endoribonuclease Cas6 (Thermodesulfovibrio) [pid:31.3%25%2C q_cov:95.3%25%2C s_cov:78.7%25%2C Eval:1.6e-14],MGA_2671
sequence1	MetaGeneAnnotator	CDS	2400913	2401161	.	-	0	ID=MGA_2672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKGKEVKRFYGDKAYDTNEIYNLGVDVVVPPRKNALGVVILLGVRLCASSRSWVMNVGGMRRVMVIGGWLNPCSQRLSIW;locus_tag=LOCUS_26650;note=MGA_2672
sequence1	MetaGeneAnnotator	CDS	2401491	2401658	.	-	0	ID=MGA_2673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKNTRDWSKYDENVVTRYKLMFPFYVFEHWWELLQEENRYAKTKYKAPKEFND;locus_tag=LOCUS_26660;note=MGA_2673
sequence1	MetaGeneAnnotator	CDS	2401691	2403679	.	+	0	ID=MGA_2674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNSEAIHNVHYGKKYNNKPQNFIEWIIAYADKASASSRTFLPRNKEVFENFLEFAEKLQELYDIGSKEYIEEIKNKVVENEEDSEELRTYGLISPDENKAISLAEKLINAEKDLCGGKNLLAFYHFEIPSIKSYLNRGRELSIYAGYSIMIDSLIHDASDYIKSKIGKEVIISDEGGSLLAIVPSSFNSKEMIKSLDLSPFETYKENFMEFKLAEAHLGPEENWKNWRSEDPYFRDSLRGFGTLINKFLSSPGKINKVNNNNVIPIDKLCNKCKINYAKDGKECESCKKAELFYKTFTSMSRNKSADPQISEKIKRLRIYKLVEEIQERNEEKILVKVWDTVDDLNKDFNGNEVELKKRRYPVVMVGDGDNFGQLKSSVTTLTQYLEINRFFTYMTYYSIFYALEKTAINFYKHFSSPVIEFQPILLGGDDFSLILTSQELIPFLYYMDEALVKIGGRVDKDSQKNYADAAEMISSKKPYQWFGISIGAYIYKNTAYPIFLAREDAEELEHISKNVSKGVFQGKYFGSEVIVTIMDEKSKGLLEKIKEKNGICILGNNMRNIYETILKFENSGISSKKILDYIKLEGDKIRIFYDVARNNSESLEIVMETISNAIRNGYDIEGYLVLLGTLMSSLEQKNFEGKEYYKTPWENIGVIQNESL;locus_tag=LOCUS_26670;note=MGA_2674
sequence1	MetaGeneAnnotator	CDS	2403666	2404196	.	+	0	ID=MGA_2675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAYENTLKVNNLRGHINNASIDNYDVDLRAMLIEYDDKVYVIPGSSIRGLIRKNMKILNCNTSVLGSEFGEKSEMSKVIVGWGYITEKKKKKVRYGIKVDKEIGIVEKGALFSYEIIPSNIEIRFDITPLVELSKEERECLSKAMLLMKYSTIGWGGSKGIGIVEEVSVDDALLS;locus_tag=LOCUS_26680;note=MGA_2675
sequence1	MetaGeneAnnotator	CDS	2404177	2404602	.	+	0	ID=MGA_2676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMHYLVKVKNETPLVINYSSGNYYRSLDYIPSSTIIGALKARKLAQDKIWGGEEKKEVEINLHVTDAYPSIRQEKYLNPSSLVTLYKKNESDAYFLDGVKTIIETYQGKKKWGEEIIRLKKGPRNRPSGLNKSNYTDREGE;locus_tag=LOCUS_26690;note=MGA_2676
sequence1	MetaGeneAnnotator	CDS	2404700	2404894	.	+	0	ID=MGA_2677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSIKAFNVNIEEWKSKLFPFDENDIRTEIKIAMRKVLGREFRLYDLRSFFASYMVKQGVSPSL;locus_tag=LOCUS_26700;note=WP_010980582.1 tyrosine-type recombinase/integrase (Sulfurisphaera tokodaii) [pid:86.9%25%2C q_cov:95.3%25%2C s_cov:14.6%25%2C Eval:1.1e-25%2C partial hit],frameshifted%2C insertion/deletion at around 2404882,MGA_2677
sequence1	MetaGeneAnnotator	CDS	2405067	2405504	.	+	0	ID=MGA_2678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLSWNSIINGIRNVLATSYKLTRTGFTDLYTDAAALGRETGDLIFKHKLIPFSQAIQDVENQSVKETPIFSPLSNLGIRKGSQLFNAQSSLTTNFIPIIGSFGHLADHPNEPLPQKISDIAFGILDIPGVIELADTCRAILRGG;locus_tag=LOCUS_26710;note=WP_010980583.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:63.2%25%2C q_cov:99.3%25%2C s_cov:47.5%25%2C Eval:2.3e-46%2C partial hit],frameshifted%2C insertion/deletion at around 2405492,MGA_2678
sequence1	MetaGeneAnnotator	CDS	2405677	2406216	.	+	0	ID=MGA_2679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGFWVMIYAGPQFVPVLLGTVMKLPPTVYGPLALFMNLIGIPSMVISGALSDKIGRRSMEIIGAMSSIIVSAILYLGVQAGFPLLYAILIFGFGINLPSAISPAYLSERFTTISRATGVGFSYNGVFIVAGFSSIYISLLSRVNSPYISAFIIVTAGAIISIMSLLAGPETLRILNLR;locus_tag=LOCUS_26720;note=WP_010979895.1 MFS transporter (Sulfurisphaera tokodaii) [pid:61.5%25%2C q_cov:100.0%25%2C s_cov:44.4%25%2C Eval:3.5e-55%2C partial hit],MGA_2679
sequence1	MetaGeneAnnotator	CDS	2406753	2407895	.	-	0	ID=MGA_2680;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979702.1;translation=MTHLEVKKAMGNKYTFILTSVLITALISRAINNIILTLSPVIAKFEYHIPLEDLGLTESLVLVSIIISMFSVNLIYSKKILILSFLFLSISLILLNINNLNIFFISLILAGLSFGVIIPSMTTIASSIANEQNVNTKLLKIYNIGLSLGAVVSTILEAISTRLGVISLLLIILSMINIYNIYFYYYKFYSSSNNLILSLKVLFNRKLWIANLISLPYDIPIAFINVYLALLAKYYYHLNVSLGFLYFFTYLIVSFLSRYFIYKYNTNEENMKLYSMVLTIGGSMLLMIGNPIYLLIGIILLGIPHGLLLPLSNLVIAREFKDVKEKNLVNSVNLFFHYIIFIIVPLIIGLFINISIFYGILTFIILSVSSSLLLLFIKLN;locus_tag=LOCUS_26730;note=WP_010979702.1 MFS transporter (Sulfurisphaera tokodaii) [pid:25.4%25%2C q_cov:91.6%25%2C s_cov:91.4%25%2C Eval:8.1e-22],MGA_2680
sequence1	MetaGeneAnnotator	CDS	2407899	2408198	.	-	0	ID=MGA_2681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEINICEKSFKINIFNLIKIFQRLYELDTKHIYIDSDKLVIYTKNNIYEFEIIGNNLLSYRGLKIRSCYLHKLLHLLEYNIPKGYYYQKVCLKSGNYTY;locus_tag=LOCUS_26740;note=MGA_2681
sequence1	MetaGeneAnnotator	CDS	2408334	2408570	.	+	0	ID=MGA_2682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYDENVVTRYKLMFPFYVFEHWWELLQEENRYAKTKYKAPKEFNDFLAFLHLFLPYRAIEGVLSALAEMKIIPTSLD;locus_tag=LOCUS_26750;note=MGA_2682
sequence1	MetaGeneAnnotator	CDS	2408594	2409205	.	+	0	ID=MGA_2683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINFPEASDELEVIADGTGISTTRGGQYVVAKWGKRRDSKFLKIEVVMEKDEFKIVSAEVTSNEAESASNTVKDLKEKGKEVKRFYGDKAYDTNEIYNLGVDVVVPPRKDASTRRGHPARRKAVREFKKLGYERWRDEKGYGNRWLVESLFSAVKRTFGESVRATSFAGQVVEAKLKFWAYAWMMYMANLVVGRAKGFEVKK;locus_tag=LOCUS_26760;note=MGA_2683
sequence1	MetaGeneAnnotator	CDS	2409391	2410653	.	-	0	ID=MGA_2684;product=CRISPR-associated CARF protein Csx1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871190.1;translation=MVMSKIKKILISLIGDPTNYHEANYHYNNYKKTSNFASSILIDKEELDKKILIGQYTLADTGNTFEDLQKESIKIIENKVKEINDFEKIISPGVFYSKKDSKKDKTLDFKGEIYNFYAYILYKLARIFEEIEGDVEVILDLTHGINYMGYLTFNAVNLILDIYSLVNNSKIKVVNSDPYPPGWKSPPFPDLNINVVLEKEIQPSFVYPSYSDSILRPYSDSAEEKSKLGKELHKKMKNEKSCTNPKYFINAINKGALLAAYTFSDDFDQRVNFAVDFFKNNIDIRNDSSRITVIPHFSFARGFESFVVAEMIKKVSNIDKKSQVKLDELNKKVDIYKINPMLNVIVQNEIKSVSDSIQENCKGSWNPLSNILKGNVSSDPDERTFFAHAGLPGAFVEVNCDTGELRYRNDKLDKIESFLS;locus_tag=LOCUS_26770;gene=csx1;note=WP_010871190.1 CRISPR-associated CARF protein Csx1 (Methanocaldococcus jannaschii) [pid:29.7%25%2C q_cov:93.6%25%2C s_cov:86.7%25%2C Eval:1.1e-30],MGA_2684
sequence1	MetaGeneAnnotator	CDS	2410952	2412190	.	+	0	ID=MGA_2685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGAPVGIKIKIPIEHEEENNKSECSHIQINLLQTNYGLTLIIDGHIQFAEKDEYIYHEALVHPAMALAGNLETVLIIGGGDGLALREVLKWKSVKKVYLVDIDSCVVEMGKNILQGLNCNAFSDPRVEVVIDDGRRFLENSTQKFDVIIIDSTDPTGDVNSCRLFTLSFYELVKSRLNKVLVTNAGQYGSKEFQRIYFTISKVFHYAKGYSVNVPSFGTVWGFVIASPSITYYQGNLPESLKFVNHDFIYYVNESYPIINIQEVITEEDPIEVQSFYGVPLEDEEKIIRDFNSKSYVVGVTNKRVIIGDKNSGKFTTVVPNKVRSITLNEKGIPLSTIIAFYLILLIVFEIILISIHYYLVGFLELVLVAVVGIPLSIYLAKNYTEINDTIKIPDENKEIYDTIVKVFNIK;locus_tag=LOCUS_26780;note=WP_010978308.1 polyamine aminopropyltransferase (Sulfurisphaera tokodaii) [pid:43.7%25%2C q_cov:47.3%25%2C s_cov:65.7%25%2C Eval:2.8e-39%2C partial hit],MGA_2685
sequence1	MetaGeneAnnotator	CDS	2413143	2413382	.	-	0	ID=MGA_2686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWFNTFKVRFLFLYKINMAIDLLCPSPKLSYSCKLIKYVPFPINHRPNSLQEVWSFEGDVLLLDISGEIIEQRYIQILT;locus_tag=LOCUS_26790;note=MGA_2686
sequence1	MetaGeneAnnotator	CDS	2413583	2414842	.	+	0	ID=MGA_2687;product=CRISPR-associated CARF protein Csx1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871190.1;translation=MKLLFAPIGDPKNYDEVTYTIDSKSFKTNASFMAIEQALNLDKTIVYAGLSLCDISKYKDYTSCSNDISTFVKNKLQLNNETVIVAPNIYGNKFIQIDRKNTLYFNFIYYNTLNILNREKPDEIYIDVTHGINYMPLLATDAIKLATYTYIIEKNTIDLTIFNSEPIMSRNPGPYNIDKVFTEKLNVRQALLSVLMPFLSKENKNNITNKVLKEIMNCDTDLIYSNANALFSGIFAFLILSRKEIEECVKSIEQKIGILDYNNFKVNIEISDSLVYKDKMPIELSYLHSLLTIIGKIISNLPDDSCVKINDIKKLAKKFSISETISSLVLSEIDSINKKKNINENPQLLADIEAQCKHNERSEEKLATMESKKSICQPNERNLFAHGGFEQNVTYLWKKNEQICMSYLECKQNVKDHLK;locus_tag=LOCUS_26800;gene=csx1;note=WP_010871190.1 CRISPR-associated CARF protein Csx1 (Methanocaldococcus jannaschii) [pid:26.2%25%2C q_cov:98.8%25%2C s_cov:93.3%25%2C Eval:8.1e-18],MGA_2687
sequence1	MetaGeneAnnotator	CDS	2415251	2415451	.	-	0	ID=MGA_2688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYYPFITPYKYDHQIMIYAQLINGYIVTTDKYFLKCKRAIVLHIDKYEKMYTEMLKDLHDKKHAF;locus_tag=LOCUS_26810;note=MGA_2688
sequence1	MetaGeneAnnotator	CDS	2415989	2417206	.	+	0	ID=MGA_2689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010977968.1;translation=MKCAVIPINRSDFTFESSFSSIVRTYELFKPEKILILYADFNDVHLQKLKDLLDELKGKGIDIKCVKLTMESFEDFKKLIEEETKGCEKTYLVPTSGANIVAVYLTLLHSQIHPLVNYLFSFGSWIRYYYPFVPRSLENVLILGDKKPNTVNLDLNLDSYLDDTVFTRIIEMGAEKLNKKLSIENDDLYLKLKGKEILSTDHPNYNKTLKELSIIFDHAQNILTLSGAYDIIVDDKKIEDISYGRTLIIDTNLIYYGIHSHEIRDIVIPYCVHNEVLFNVNKKESFSDALFYVYDSLREKSRMIPSESTICDVAIPKIEPDLIRGSLVVTADKWAYERWKKLAISSYTDLKLAHLGKERKDYVNVSNVIFNLAAILCLMKTSEIEVCWKSNGCVKIDCKDGVKID;locus_tag=LOCUS_26820;note=WP_010977968.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:50.8%25%2C q_cov:97.8%25%2C s_cov:97.2%25%2C Eval:4.3e-109],MGA_2689
sequence1	MetaGeneAnnotator	CDS	2417604	2417996	.	-	0	ID=MGA_2690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSIKTYKLYGLSETANNGEFREYYNKVLNQEVTAYVSVVNLAEVYYVLCRKLGRMKAEKIVKDVIKSGYYEIVGVKPRILKYTSECKCKYSISLADCSAIGTAKFLSAKALFRREKELIGVNEVVEFIN;locus_tag=LOCUS_26830;note=WP_010978777.1 type II toxin-antitoxin system VapC family toxin (Sulfurisphaera tokodaii) [pid:41.9%25%2C q_cov:63.8%25%2C s_cov:62.6%25%2C Eval:4.7e-11%2C partial hit],MGA_2690
sequence1	MetaGeneAnnotator	CDS	2418245	2418478	.	-	0	ID=MGA_2691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESIKVKPETKKKLTKIAGMLEKKLGRKVSYDEAINHLIERKLKNRKLAEELFGIAKGENLYEELLKGRKEDEKSSA;locus_tag=LOCUS_26840;note=MGA_2691
sequence1	MetaGeneAnnotator	CDS	2418657	2418839	.	-	0	ID=MGA_2692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_26850;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:90.0%25%2C q_cov:100.0%25%2C s_cov:16.8%25%2C Eval:1.2e-27%2C partial hit],frameshifted%2C insertion/deletion at around 2418865,MGA_2692
sequence1	MetaGeneAnnotator	CDS	2418806	2419045	.	-	0	ID=MGA_2693;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVREYRRRVISTCAACSTSSLR;locus_tag=LOCUS_26860;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:61.7%25%2C q_cov:74.7%25%2C s_cov:16.8%25%2C Eval:1.2e-14%2C partial hit],frameshifted%2C insertion/deletion at around 2418864%2C2419125,MGA_2693
sequence1	MetaGeneAnnotator	CDS	2419060	2419710	.	-	0	ID=MGA_2694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNSLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEQRSYLKKSKYYLKHYWKQARK;locus_tag=LOCUS_26870;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:69.7%25%2C q_cov:90.3%25%2C s_cov:55.5%25%2C Eval:1.2e-75%2C partial hit],frameshifted%2C insertion/deletion at around 2418864%2C2419125,MGA_2694
sequence1	MetaGeneAnnotator	CDS	2420249	2420698	.	+	0	ID=MGA_2695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADVGLRFRAYTNEQTLRALKAQLRLASEVYNTLRWADIYFHERDGKGLTKTELRQLALDLRKQDEQYQHLYSQTLQQIADRFYDARQRFFDGLARFPKESTQVVLPRLPSIRLESHESERNKDEEQEEQEEGNNASAVKPRDLQRRCP;locus_tag=LOCUS_26880;note=MGA_2695
sequence1	MetaGeneAnnotator	CDS	2420598	2421467	.	+	0	ID=MGA_2696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVREIRTKSKKNKKKVITLQLSNLGIFNVVVHRDFPLDKVKRVIVKLTPSGRVYITFVVDQEYPQLPKTNKVVAVDVGVEKLLTTSDGEYVPNQRPYENALNKMKKLHKALSRKKFLSHNWFKAKIKLARAHEHLKNLRKDMYMKLGKYFAEHYDVLVMEDIHVKQLVGKSLRRLRMRLHDVAIHELRSIMRYQLGKYGKKLTLVDPAFTSMTCARCGHVKKDLTLADRVFVCPKCGWVADRDYNASLNILRRSGSERPLVPVELRPLPLASLGFEAGSHVRYGRPKI;locus_tag=LOCUS_26890;note=WP_011057329.1 RNA-guided endonuclease TnpB family protein (Thermosynechococcus vestitus) [pid:34.1%25%2C q_cov:72.3%25%2C s_cov:53.6%25%2C Eval:2.7e-29%2C partial hit],MGA_2696
sequence1	MetaGeneAnnotator	CDS	2421984	2422547	.	-	0	ID=MGA_2697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979738.1;translation=MITGFNEIDEIIMKDQIVEFYSEDRDLLTLFYHRVIVLSSPVKVVIVAERGGIDPTLVERFENIFQKKGEIYIRRAFKAEDVKPTIEAMGKEMIIIDPYHHKRLYTQIVSAIRNAGKVFIFSAMDREKEGSIFGLHTSHSLIKLTRGKRGFSFRIIKSVTIGDIEIPYSFWDIYGKSEGEGLITFMK;locus_tag=LOCUS_26900;note=WP_010979738.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:64.0%25%2C q_cov:98.4%25%2C s_cov:97.9%25%2C Eval:1.5e-62],MGA_2697
sequence1	MetaGeneAnnotator	CDS	2422544	2424208	.	-	0	ID=MGA_2698;product=DNA polymerase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979739.1;translation=MTEGYLIDAKPVKGGLILYLNGFRKAFVKTTFPVYVITQNPEIVLQHPSVLKYEEEEWKDIQGKKIKLYRFEIEEISAYYYIRKRLKVVNEIPSIISQTLYRLKALPFRWVKIDKGKIVATSDYDFPKIRYATLIPLDWYGEAEEGEKVKVIENGEERIEYNPKVNVDVAECLGDACEKVDAIVKVDMKRKRSPVLIKGLIEWSYSSKVLLREIAYSTIGKALTTNEAWVALRRKIIIHKVVPRVEKLRTLEELKKVDKGGLIIFPKVGCFNNVYQIDFSSMYPSLIVKYNISAETVDSCEDLKTEIGSICFKEKGIVPEALEWLIRRKEELKKVDEERSNAIKWMLVASFGYLGFRNSKFGKIEAYELVTYFARKTLREAIDLAEKRGIEVLHGIIDSLTVKGDIEDYVKELEERTGLKLKVEKFRWMIFTNNREGLPFPTRYLGKGEKMKVKGIIRSNMPNVIKDFLRDLTREMSNANSCEEINMKKIDEIYRQYRQRIINGEPKDYVLWIKGIPYVRGVKGFYEAYNGFNGADVFYYLNYLKRVYESMWWK;locus_tag=LOCUS_26910;note=WP_010979739.1 DNA polymerase domain-containing protein (Sulfurisphaera tokodaii) [pid:58.8%25%2C q_cov:99.1%25%2C s_cov:98.7%25%2C Eval:8.7e-191],MGA_2698
sequence1	MetaGeneAnnotator	CDS	2424201	2424503	.	-	0	ID=MGA_2699;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDKNNVKITFSLLSKFIYFFYKTIFMGRTQPSYTSAIDREMEKFERILRRASPNLLPVLERAKGKIRYFQNASYDEELSPIEIVFLSLLSELEEECKND;locus_tag=LOCUS_26920;note=WP_010979740.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:47.9%25%2C q_cov:72.0%25%2C s_cov:83.0%25%2C Eval:3.2e-12%2C partial hit],MGA_2699
sequence1	MetaGeneAnnotator	CDS	2424998	2425516	.	+	0	ID=MGA_2700;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978842.1;translation=MEKDLYKVNDEYVEARVIESLSDLLISLNLWKEGYTRNSAGKAFNAVKALLSALIVVNEDKILNLAKDEKEKEWIKRKAHVVPTHSIYALAQMLKDVGIDVVDLVNYALDLRDYQYNGFEAGFSKYSRKEDVLKDLLTVVKETKKVISAYFPKFEEKGISEKVDDLVKEFVK;locus_tag=LOCUS_26930;note=WP_010978842.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:78.7%25%2C q_cov:98.3%25%2C s_cov:94.4%25%2C Eval:1.8e-74],MGA_2700
sequence1	MetaGeneAnnotator	CDS	2425544	2425996	.	-	0	ID=MGA_2701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIVINGKINNFLFSLDDYLNRKSSFIKRFDEGIFIWGTSRLYSVEGPGTKVFLYLSRDEERGFDGCIVLSGVIKETGELKEKYWPEGEWPHYMAIKVSAIPKSVLENRDTKRWKCVTREELKKFNFRPLPGIQKLDDKIGEEIEIKLKS;locus_tag=LOCUS_26940;note=MGA_2701
sequence1	MetaGeneAnnotator	CDS	2426311	2427879	.	-	0	ID=MGA_2702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRKKGVKELNSIIPYWRGPSISPGLIKRLLQSPVEVKDVLTCARNISEEIRVIDDVKIGKWKIRCPYCETSFEVDDNKIIRCPNCNNVIKKVNFEQWNSLLEKFMNFEISANELNRSPVFPTDNNFELIVEDIENIPTEPINFRVSFYGFNRVYKFFSPLQLYTMSRLISKIRETDKGIRTILSISLLDYISYNSMFTLINDKGIKSMFYTIQPKISWKWPILPGKYFVNSTIAVLKAKEGIYIPTLNYGIQNEIYNFYLSILKITLSNLSNGVLVPYLYSEYFFNCLDDKCNSYVEKGKQKLTLEDILDNKTTFLMKIIKEDDIIFLLNSRYRVLSIQYEKEGFKISLDKNRNGTITIAAIHNLLKEKRVNNMQDIKALTSALEIVLKEFTKYEKIIGIRGIDEVFNEVTNVLCNSIGCKIADDMTRYYILGKFYGRSRLFFRMLFMLTSKRKIKFSEQDDNILGLLLRVKKDPSIIRTLPPSKIFELMQTIRILSNLEIKDRDIYKDILTKIDNEIGQF;locus_tag=LOCUS_26950;note=MGA_2702
sequence1	MetaGeneAnnotator	CDS	2427926	2429206	.	-	0	ID=MGA_2703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFNYNNTKINVKQGFNEIGGNFIIIENKDNKVVFDQGIRFSRFKKFYNVNIQPSNALELRKLGIIPQSDEFNKIFISHLHLDHLGVLHLLNVGTSLYVPDKDIFNVFIEPYKESSNWTAYVSPPIGVNVMDIRDNGNEVLPLSVEHSAYPAYSLYYNNGDTRILYSGDFRLSSPLRFLDSDLHNRIHDKTLLEEYGEKGLDTDVLLVEGTNFSSATSPMQPHYFIEQINNIFDSHNNSLIMISVDPIDLEGLASLLLITKMKGKIPVFSGRRLIEMTNLWNSKFQLVDTAYQFEDKSIEFNIIDEEEILNSPQDYVIFTVKGNLINFGRRLSDASKGSVIISISTESKAESGEDENVEDNWYRALGFIIYRLRMSGHYYPYELKNILETIKPKKIIPIHTEATSVMCEYVKKLGYSCASPSYNSE;locus_tag=LOCUS_26960;note=MGA_2703
sequence1	MetaGeneAnnotator	CDS	2429196	2431889	.	-	0	ID=MGA_2704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEFILNYLNILKDSHPMFRYSLLTGGDYEPYVHQAEIFYRTLSRDPVRFLVADDVGLGKTIEGIMIIDQLVKNRGVKKILLIVPKVLVDQWLYELRRFTKEWKLSPIDYRNNRSLSFEDGIYIVSVDTLKRTNHMNKFLSASWDLIMVDEIHKIGIIGNKENQRYTALASLVSKNPNSHFIGLSATPHKGNDNDYIKRLVLIDPYMRDVDDQILRSTVRAIILKRNKDNVNKVYEKEDIFPKAYFVQYLAEPTEDEKKYYTLIRELSLSIIKEYYNNVGKQPKALQLLAFNIGRRSLSSPLAGLITFEHIIENRRTKLNEEEIIDEAEEYAEEEDVGESIEPDDIANKLAEINEPYLSRFKDFIPNLIDSAKKVMEDDTRIKALINLVNTHLSKGDKIIVFTEYKDTANYINRKLKESLNLTDNEIKIASSDTVNQEGIDNIKKWLEGKGKKILVATDVASEGLNLQTANVIIHYEIPLSIVRFEQRNGRVWRLKQTKPVYVYYISLKIDLEQALLENYYNKLLSITKGTGSNDKVVDAVIYQGVTVNRVFDLSEDKETIPVYAVYNDPKNEKEQITPIKVWEAALQGNMDELVNSLLKRIKILKETMKKFALFERMQGAVINEINSVREISGFENRKNLNRSIKSFLEQFINYYKGSFSNNQIVMPSKQFIDQYDDNRVGKNIYLLYSLISRFSKYNKKYVICDSLDYNIYILDTNVETKSKRGLIHIPIIIDSKGNIIKESEFIENILPQLLFCNKVYPSEVVVNDNSWIYKVINYVQEKLYYLEQQFVSYRQRRGRDNWIPSSREDLKVNVSIPNAVIIGVKGHSEDVNNETIKALESQGWKITLGDKIRAEGKGEVRYIKIVSPLDMLRNSKEDSWNYTYVNGVLVGVKSGI;locus_tag=LOCUS_26970;note=WP_010868003.1 helicase-related protein (Pyrococcus abyssi) [pid:31.2%25%2C q_cov:69.6%25%2C s_cov:62.8%25%2C Eval:3.7e-80%2C partial hit],MGA_2704
sequence1	MetaGeneAnnotator	CDS	2431882	2432274	.	-	0	ID=MGA_2705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYFIREGNSNTFYYILRGNVTSKVFKTSVTLSEMYDIILKNTNMEFKRTKKTLRTENERLFKILVVYGGVRQSMRKIYATRINELGKTLINMDEFSLQFWYTESLSKFSIRNNVVDTFKVSKAFRDLYE;locus_tag=LOCUS_26980;note=MGA_2705
sequence1	MetaGeneAnnotator	CDS	2432274	2435561	.	-	0	ID=MGA_2706;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868001.1;translation=MSNLIYENKVREDVFNRSLDDQVAPELSDVIVKNAPSIYLDSREFFSSTYITDSMKSLVREITNALTQGKGLSMTLYSLFGGGKTHTVLLLFHAFNNPTVAREFGLEVPENIKVIGIGGKDSRTAPSPEDPIEEDGIKIKTLWGYIAKRLGKYDIVRKYDEDLMSPTKDKLEELFKGERVLILVDEIAAYLVRLKGLSGGNYYNQCLIFFEYLASLGSNLPVVLLVTIPAKIEEKNKEDITMYFEKGYEDVIEALSKKIERGGKIFRAPIETSIDLANVLIKRIFREINEDVKKRVVEEYQKYVDQFKDYLDVTTAREVVNTYPFHPLYVNFLKNLLEGNTHLQGSREAIKITRYVIRNLWENKPTRSLILPSDISIKDSQIRTILLKDFKSYDVVADTIIQRSKGLDVIFLLANYIFISTYYYQLGLDPGQLISALPDSKEIITSLLDSEYLSSSRKLPGDIKESLDNITSNSKNVDMIIPYLITDKGKYWVTWFLDPKTICEKDASKVSEFDADTKLDSMMLSLAEIPLDVIQKKGKKAISGMLLKLYRSVIRNTDEPIDIDEPSYYLVIISRPICEDCKTSDGALKKAEEITRKLIYYTSSGKSEKPRRYANTLTLLFPLIGNNRDKMRDYVKRYISCSNIDVTPYYRDQVSKDYAQKILNDYVISLESAIYNQIFQYFDRVAYPTGNNDVRIVELKSSGKTLLQQAEDTLLDEDKIVREDNFDFETLKAYLEATNVTIVDRMSSIKDIKEMFYANPSLPFITETTFYNAIRNGVEKLEIGIMNGGKVYYKKYEGSGEIIVNDSSIILPAKDAAEKEIDNLISQEKIIESENKIIKRYYILELPGGIKIPLRELRNDVDWLEKFKSGEIKLVEDTVEAGIDLSAEPSEIEGTQGETKEVKIIVKKIGKFDSKVSLSSSLGDLNVKEEYPDFQSTLKITVNQDSIVNITAKYDDKEKRISIPIRILQNECEKFVDQISLDSHISEINIINTEDLKNTLSKINFSIIGKKLLEGEVNIEDSSKKISLIMKPMGSNINDFISFLTPQLSLVGLKPKITGSLVIRVVEFKEINKDGIKNINELINKNFIKVKVKVC;locus_tag=LOCUS_26990;note=WP_010868001.1 ATP-binding protein (Pyrococcus abyssi) [pid:28.0%25%2C q_cov:87.9%25%2C s_cov:89.4%25%2C Eval:1.3e-87],MGA_2706
sequence1	MetaGeneAnnotator	CDS	2435558	2438353	.	-	0	ID=MGA_2707;product=DUF1156 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080574.1;translation=MAINNGRRLIESDSFATLIPEIDKQAAREKGPGRPTYWEMIFWWTRKPLISARAFTAAALLPEDFPLDEFKRMIRLQNNGPKTEIPHKLQPITNGRFKGFTLLDPFAGFGSIPLEAKRLGIGKVIASELLPTAYVFLKAVLEYPKYGKKLIDDVKKYGDELLKSLENYVKELYEDNGFVGTWEVKCPHCGNYTPLINQWWLMAMKGNEGENEEGVKSGKFKRIVFMKPEINRGNLRINVVDLNKELNRQSITAKVSKNKIIVDGKDYDVPEGNVSAKSSNARCLYCNNVFPGKGDKWYIKEAIKEWNKNYERFLNGEINLEDLRNSKARPKLLIKFNGESKDITFEEITEEDEKKFWESFARLREIDISKIPTENVASYGVLRFTAWGIDKFFKLFDARQLVIFSRIIDELNEFKEKIGGDEKYKEAIITYLTIAFLNHIRHNCFLTLVEPSRKFIAHALSFRRFAFTWNWVEMSPLANIIGSLSRSLEHVEEGLEYLILTNSNSQVEILNSDVNELNLSDKIDLIVTDPPYADDVPYPEVSDFYYVWLKRVFPFSYNTQWEELVPKDIGVDEERTKTFDNSVGTYDYFRDRLAKAFNKLSESLNDDGLLITFYNHTSPDAWISLLYASWYSSKFRITTTYTVTTEDETRITARNTTISLDKSMAIVWRKRAEGQKLVQEVRKEAISTVSDWISTMLTKGKLKLSLDTYIEILGKVISVFTKYEKLVGLGDEGVNAVSDLITKYIFPTTTQSIIEGLSKGAGVSISNPNSTYYVLVKLLIPTPKRGVRKLDRNSLTYLNISGNIDVKSLQDNGIISLDKDSIALIEPDQAAKDQLSLISALEQLPDVRKAIQGDYNFSNPVEAFHYLEYISLKNPDKIKEEVDKLKERTRFVDEALAIARILTKVLDDSDVEKEPSKRLSGEKTNIEKWVQ;locus_tag=LOCUS_27000;note=WP_004080574.1 DUF1156 domain-containing protein (Thermotoga maritima) [pid:32.2%25%2C q_cov:97.1%25%2C s_cov:95.8%25%2C Eval:4.8e-139],MGA_2707
sequence1	MetaGeneAnnotator	CDS	2438887	2439012	.	-	0	ID=MGA_2708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVKKIRGMIIVFPSEDVMNKVLKDAEIKPEEIEDVKNDKQ;locus_tag=LOCUS_27010;note=MGA_2708
sequence1	MetaGeneAnnotator	CDS	2439092	2440879	.	-	0	ID=MGA_2709;product=DUF2075 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183195.1;translation=MLPVILKAATDEAYNNLVNEYVETYNEKPSIKQENAWKKLLDLLQELNVPHPIILEYPIFTERADIIFADKDKAVVVEAKGWRSVKKLGDNVVEADGELHLDPCYQLNNYVYKLNFFHSSNLKFKGLLFLYNTRDYSSEECKTLRTIEELRNELKNLPSGDLNDARKIVDSKLMLKHTFIELVKKVKEKRLKDVSKVLLSTGYGLTEEQMRVLKDVLDSLDKGERKNFIIQGESGSGKSLLAITLYLEALSRGYFAILAYKNNRLISAVRQALGSELSSLVMFYSTGRNIGIGEKGFDEWFSKHIKSKESKTDIDLIVFDEAQRMTDNVIRNSPKGKINVYFYDDSQVLIGNEAGTRENLLKYLQNVSEYKLSSPFREPKQYLEFVRKILQGEKAKSGDFDFKIFDNITDMFNELKNEKNHGMKTALICSFTESEGDNNNKTSWESIKNIRIGYPLQSGFDLYKGMKYEGNEIKVKWLMDEKTEYPRYWKGELDSLKYCSSVYGSQGFEADYVGVVWGRDLIWHNGEWIVNSGPITDYVGGSSSLKKLANNPKKRDKALLLLKNRYYIMLTRGIRGVYVFFEDKGTAKAVKGLVQ;locus_tag=LOCUS_27020;note=WP_011183195.1 DUF2075 domain-containing protein (Mesoplasma florum) [pid:25.2%25%2C q_cov:93.6%25%2C s_cov:92.2%25%2C Eval:1.1e-29],MGA_2709
sequence1	MetaGeneAnnotator	CDS	2440950	2441192	.	+	0	ID=MGA_2710;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIEILSCIVETTNFEVITYEALRGKSGEVKASEKELLKRGITKEYIEDFIDDVEHAEGAICGEIKRLNAYLEILDIIGL;locus_tag=LOCUS_27030;note=MGA_2710
sequence1	MetaGeneAnnotator	CDS	2441344	2442420	.	+	0	ID=MGA_2711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMRYWGRKPLELIDKIMNNVHGTVIDPFGGGGTIVFSALRHDNKAIYLDINPYAWLVTFVNVVSIDPKEFEEKSKEVLENVYLESVFSLHNDYLYYPNGKFFWKRRNADRITEFFSRENFMKLFSILKSIDKVESETEVKIALYAAFCSSLFTSSRMKRRNSGSWGVPSYWVPKEHEEVNAEDAFKMSVKRFSSYFRRNKGYELNVDVKLLIGNALAFNYPDQSIVFTDPPYFDEIQYMELSFFYWAWLRESNFKKVIREVLGYEPEFRISDEIIVNPNRGVTFDKYMETLKAFIIKVSKVNSKYLLFHYDNDKLREKVIKIVKENWTRIKVDDFEIVKQRKIGPRGGKKYLLVSSP;locus_tag=LOCUS_27040;note=MGA_2711
sequence1	MetaGeneAnnotator	CDS	2442417	2444531	.	-	0	ID=MGA_2712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEFSGTQRSGIQSLYTFTPFKQLFGRRKYAIILVPITYLNSTPRNLNWNNGIVDSYTPFFYGRESFKVILPSTINATLFNENNNTSIKYEDMNLKNRNKISKTDVISIFPKLMNFNYDSLIHGYYCKYGFILLNDKHQCPLMNKCEVFEGKNACKYYDGPVSYERLYTVVPHIVRFAEEEGEIGKKGKIISLITVKIDNVERIIGKIEFSDMIKLHAFADASIFYSKYADLMYKDFLWVSYKEGIGFRLRKLNGIIIKFSICTLQDYIKYLLDNNSKLRAWLCVKKKIYFGSKKRLNVNLNNSNAGFNAMKRFEKEFDDLRKGNQQKNDCDNEDLVEFGSFVLLHTLAHIIISKIIIPITPSSSILNDITYFITHPILRNLMGNNKLANLSAVYIIESVYGGLGYIRAIANMIGKRDTNLLNLISDILTLDFPNHEKRFNSSLNNMKNTIYNFNGKIDKSILDILYDVYNEWSSQYQYTHPLHLAVRNYVGKVKRKEINKDSNIRQTFKDVVSSLPLCWDGCNSCVGMDKGCMFGPYDQPFLVSRELVSEFLSTYKDWMGEANFIITKGLYNVFIDLIRLAQKNIKIVSPWIGKDIIDDLTNIKAYRDLDITIVTLDDDKNKDAIQLAENNQIKVIKLKADSQGIVHTKMLIIDDSITMHGSANFTINGLQKNVESEEVSIDENTVKKLLDQFSEIIDKSNST;locus_tag=LOCUS_27050;note=MGA_2712
sequence1	MetaGeneAnnotator	CDS	2444524	2447406	.	-	0	ID=MGA_2713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVKIPTEDEIRLYQAILKYEVDKFKKNKDFATTFLDANELNNIISNLNLNNGNQLLTGLINNKMIINLCGKYRTAHMALLAKAAHVRAYKNDSPYALEYDIELKEEPFPDFEAHSFNEILKIIQDKLDRDGVSKNDVILIMKIIKRILNEYDPKIKSISSYQLYIIEQILSTDYKYIPLVAPTASGKTLAFTLPGLVYLLESVIRGEEPINIVFVYPRKALAKDQIFRLLKYVSIINDELKKYNKMVTIALEDGDTPKAYEIRNGDAYRGLKCVKCGGDLIYNNRIIECKKCGHKYDYLIATREDIHKEYSNILVTNLWILYRRLLNRETVQSFKNIRYIVFDEIHAYDGIYTQHLKFILRLLESLKNLTKKDYIDKIIFSSATIPDYKNFLTKIACCENENCIPEILSLEDYYKNQHLGNKKERIILYEFLFPNIERGVETLTEDVTQLALTWLKEYNRKGILFADSVSGVDTLYKYFWNTILGGRQGREIRDHLCYKDPKNLCCKDEYYWPFLAAYSKICGDDDELRNFAENMKNGIDEHYSLLSPEKRSEIEESFKKDKTKLLLFSTSTLELGIDIGDVALVIQHKLPLSKESFIQRIGRAGRNENSYRIATGILTLQSTPYASLYIYNDDLRNTLTNLNSKLRFITINSMNIEITLQHIFSYILLKWAVNGISTCVGDVNKYDECKDIARQLISQSINALASEDTTKELKKQLCLDLSDEDLKRTLKDTLTQLNNDMEIIINNENNDMEISQKIDEYINNTLNSISEAANFIEEQNTDELKIFDKKEIIYILNKSFEIVKEIQDSLYSGTASNNSLKSLIQNLNIKLKNLENFNKKLDNIKISNSSNNLLDMINEKEKSDLLSNIQSSVEKALKNTGDLVKIINVALDKGYEKYLRLIGFISSFNKTLITQSNYVDVFSLLDKIFANYVFFSLLMLPPSPNINLLVDVDESDNDE;locus_tag=LOCUS_27060;note=WP_010875951.1 DEAD/DEAH box helicase (Methanothermobacter thermautotrophicus) [pid:33.6%25%2C q_cov:11.5%25%2C s_cov:15.1%25%2C Eval:3.1e-08%2C partial hit],MGA_2713
sequence1	MetaGeneAnnotator	CDS	2447412	2448665	.	-	0	ID=MGA_2714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITFDHEEHVKFLLRGCNKYEQQYNSIRDYAYGGTHVYFFNLGNLVGPSTVKRIFLWKGNVFNTGMFLPIYVLTQDRIMTYKYWGQHKDFFRKFSNKIVKYDKSLICHSCGICDYNKSHNGNVLSNDKLLDIYGTYWLFSLSLPFNENNIFRGNIYIYVGERYLTIFKIYHTYASIDTNGKYLDINLNFRNINLDNNIEKNLLTYLLVKRIIIERTGEDKCKISNNNFLIEYNNEKGGYYNKLDIKSRIILMILRSIYVTKLDNDDFLKICSFQEFKNIIEKFSKFIQKVNSSPIKMNIHIQSGNDIEEMFSFNYNDFKIRIFVADNRNNIIFVHPELTSIAFENEQLYTLLVNNILKDEIKRRKLLNLFRDNTKNIVNKKEELIKIINDYNIEYKTITEIIQKLKRIYTSRLLNRV;locus_tag=LOCUS_27070;note=MGA_2714
sequence1	MetaGeneAnnotator	CDS	2449006	2449908	.	-	0	ID=MGA_2715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKNTRDWSKYDENVVTRYKLMFPFYVFEHWWELLQEENRYAKTKYKAPKEFNDFLAFLHLFLPYRAIEGVLSALAEMKIIPTSLDYSTIWERVRNMNINFPEASDELEVIADGTGISTTRGGQYVVVKWGKRRDSKFLKIEVVMEKDEFKIVSAEVTSNEAESASNTVKDLKEKGKEVKRFYGDKAYDTNEIYNLGVDVVVPPRKDASTRRGHPARRKAVREFKKLGYERWRDEKGYGNRWLVESLFSAVKRTFGESVRATSFAGQVVEAKLKFWAYAWMMYMANLVVGRAKGFEVKK;locus_tag=LOCUS_27080;note=MGA_2715
sequence1	MetaGeneAnnotator	CDS	2450241	2451650	.	+	0	ID=MGA_2716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIISGILIIKDEEKKGLGLLSLGIIINVIMATDKNYMRISFLDPIFLTISFITWRIGNERPKLQTSQTVYYQPPIGYTTELKKTTFIFRGLPKNCAPTLEVCGIKYTPNIEYQGDYILELTFECSWRARKVKCNGKTYKPNKESGFAKLEDSIIINYYEDVTITQTTNKIKNTQNPPNSSSVPQCWINNKLSIYKIDGIIGEGGTGYVLKGNYSSKEVAIKVLKIQGNPQEYFNNLLQEASNLINLSNHPHIVKIFAINNLDKFIIDEIIKGNKSLYINNPPMIAMELMRGSLYDLLKEDAFFYSVRWRKNIFRAVHQIAEALDYMHSKGYVHMDVKPQNIFINKIPSDPSELDYVEFKLGDLGSAVRIGEKVRQLTLEYSPPEALIGKANPSFDVFALGMTLYVLLNRKNDRPDLKEMDESFNGDYSKIAISREKLNKWSENKDDVIRGALQMKYSIKYFMSRLSSS;locus_tag=LOCUS_27090;note=WP_010980066.1 protein kinase (Sulfurisphaera tokodaii) [pid:49.3%25%2C q_cov:58.0%25%2C s_cov:49.7%25%2C Eval:1.2e-70%2C partial hit],MGA_2716
sequence1	MetaGeneAnnotator	CDS	2452225	2452908	.	+	0	ID=MGA_2717;product=conjugative plasmid protein (pARN3);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846835.1;translation=MNINIILYRPPMTTMTEVRLSDIVILNPVYFDTKLGIITLLPQVTQPGTYRPIYAAGIEGIYRLRRSGKYLKEAGSAFGRIVLSIIGGFILFFLIIAGASLMYSATSALTGNTFILSTISALIELFIGLGIIIGGIFGIIKIIKFARKARMPKTVEAELVIPWKTVKRISVTDEKQVNVGTLVNPIYKTIGNWHVLTDGSDYLIPEVDDPFNKLDYIKAKFNLTILD;locus_tag=LOCUS_27100;note=WP_052846835.1 conjugative plasmid protein (pARN3) (Sulfurisphaera tokodaii) [pid:35.9%25%2C q_cov:84.1%25%2C s_cov:96.0%25%2C Eval:4.0e-24],MGA_2717
sequence1	MetaGeneAnnotator	CDS	2453702	2453959	.	-	0	ID=MGA_2718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKVEVSAPQALRVVPTPSTNVNLQYPNMGLLNGAEAYHIDPRFNQGVSVTLTPSVTAINRIFEKYVFKCNHKGGSYGDFHEQHS;locus_tag=LOCUS_27110;note=MGA_2718
sequence1	MetaGeneAnnotator	CDS	2454017	2454331	.	-	0	ID=MGA_2719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKLKIVLTISSIILLGLAVYLHSIDHPTIEIKSFPTEIIGMPDVFRVYVPPPWYATLWPSFIIIGIIVLLSSLLIDDKKIMKMINVIKEFIWFLIDHLSPFLD;locus_tag=LOCUS_27120;note=WP_010979788.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:44.4%25%2C q_cov:64.4%25%2C s_cov:61.4%25%2C Eval:7.0e-07%2C partial hit],MGA_2719
sequence1	MetaGeneAnnotator	CDS	2454405	2454746	.	-	0	ID=MGA_2720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKLKIVLTISSIILLGLAVYLHSIDHPTFLTEHGPYWMPLAHPSRMIPPPWYANLWIEVLTTSFVILFISWHMEFYHSFRILYKSFRVLYKKWYNYEFGEQKSPFEIHRPEE;locus_tag=LOCUS_27130;note=WP_010979788.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:46.3%25%2C q_cov:54.9%25%2C s_cov:58.8%25%2C Eval:4.4e-09%2C partial hit],MGA_2720
sequence1	MetaGeneAnnotator	CDS	2454785	2455921	.	-	0	ID=MGA_2721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSLISLAVLAVFVISLIPMPISIIPSVLTTAQSSSEYDWAISAYSQNLTGANSYLVDFYNFSYFPMTNTNGINYMAEMINLPIQASGTIKTSVTTSDFSGIIVQLALIDFIGYGFYIEMNIGFTLNNGNTILVVFPLKSVNYNSGSQFIIEAGSTNGQWEATFQYSGGVVQYPDTPIPSNVTVPSNGLAGICYKSSGGTQNIIVYGISFTSVDSTSQELSLFGYPVYPSISLEVNAQSQNIFIQDLPKFVALFQLWKGNQEWDQPWNGQNLVSAQSNDNDLSEDSGAMIGASVPPSGVAWGAQEYIAKTSTHVEGRIEYITNYYDVDYWMLGTQNGIDSYASVNNIVVNGYANPFISLVTSYQQEIAVPSGTTTVLL;locus_tag=LOCUS_27140;note=MGA_2721
sequence1	MetaGeneAnnotator	CDS	2455974	2456162	.	-	0	ID=MGA_2722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKSINTFICPICLMPFSSYKGLIEHVRYTAHNLKCRYCGKTFTTQDALLDHICKKHNICVS;locus_tag=LOCUS_27150;note=WP_010978959.1 C2H2-type zinc finger protein (Sulfurisphaera tokodaii) [pid:48.3%25%2C q_cov:93.5%25%2C s_cov:54.2%25%2C Eval:4.3e-12%2C partial hit],MGA_2722
sequence1	MetaGeneAnnotator	CDS	2456818	2457258	.	-	0	ID=MGA_2723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTFVFIRFIGYGVYFLFMRKVIIVIPLFLLFIAFIGIGIYLHSIYVPPIKINPNIPHEIIHIGNHELVIYYNGTPPGEITTPEITSSYMSSPPFSSYAFLWPYFLAIGIIGLLSTLIFVFRKTISKIIREVTIKRIKDFIWFLID;locus_tag=LOCUS_27160;note=MGA_2723
sequence1	MetaGeneAnnotator	CDS	2457277	2457837	.	-	0	ID=MGA_2724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYPNGSYALVPFVMTIDNGATVNYYKVIPITKTEMSELYLYMCMDYEGSNKVNVDLTAYYCNLQDIIMQYSNTFTWVFSSVPYSAYTIVEAPKNDSSGNFISMPQISGGKIYNFYFDYISSGQTYVGPGTPQPNTEFKAQVYNLDELSHYSYEYAYPYNGGQMQDGLWQFTYKFYDTTNDQTTYGL;locus_tag=LOCUS_27170;note=MGA_2724
sequence1	MetaGeneAnnotator	CDS	2457916	2458203	.	-	0	ID=MGA_2725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWKYSTLIGIAIATIFFMSILPTNAISESQLGVQDIINTINTANWVGAIYGNHWSTDGGLFSGWNEITTVAESAYLGNATFHYIPNPNGHDAVGI;locus_tag=LOCUS_27180;note=MGA_2725
sequence1	MetaGeneAnnotator	CDS	2458719	2459366	.	-	0	ID=MGA_2726;product=DNA/RNA nuclease SfsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979065.1;translation=MIVYQFPKLEEEIVKERLNRFMVLTQSGKLCHLHDPGRLKELIYPGNKILVREVDGNKRKTSCQVTAAWNGLWVIVDSSIHNDIARKFLPNAKAEVKVGNSRIDFQDGNTFIEVKGCSLVENGVAMFPDAPTERGRRHLEELIKLKEKGYNAKLLVLVMRDDAKCFYPNERTDKKFSEKFFEALHKGVEVEIKTFSLIESQVIYKRNIQICDKIN;locus_tag=LOCUS_27190;gene=sfsA;note=WP_010979065.1 DNA/RNA nuclease SfsA (Sulfurisphaera tokodaii) [pid:62.5%25%2C q_cov:99.5%25%2C s_cov:95.6%25%2C Eval:2.6e-75],MGA_2726
sequence1	MetaGeneAnnotator	CDS	2459614	2461179	.	-	0	ID=MGA_2727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNSNPRKEVHERAMKYTLSKINELINSKYSGYKISQVPEDFKPPKDDQKLLSCKPHLVLQKPNGSKVYIRVAGVKGRNPIGAIPNYVLCDFLIAVTYADTDSPKAYVLPLEFVKNNIVERNGRITSYWIEKKDSLINGKKVLGYLMYEDGRDKDEFLEKWDSLFTGSLQRDDSNRVEVSNIEIDCGKGNISDVMSLTNRFYVEVPNVEEFFKMLGASLKIYNVLLVGPPGTGKTSLTISVIDKLTGENTNCYEVTTANSLWFRRDLIGGESMEKGSIIWNSGLLIRAYNSAVKINNGNYYVIIDEINRADVDKAFGEILTLMSDVGSSSVGKKILEEIEKEIEKFSEIDNEAKEFLANLKRLGDKKDEVLKKIRFVGTMNLIDANNLFPIGEALTRRFLIFHLDYTCGTEDVKMFLNDSTIPFKEVIISEVKYLREKFGCSDKQKKSQYEYNISPASIKLALSLLKELIEPNDTPDTISEKFLLALEKSLGTTDDKILRKFREYQREIIENLRSRNNKGQ;locus_tag=LOCUS_27200;note=WP_052846493.1 AAA family ATPase (Sulfurisphaera tokodaii) [pid:42.1%25%2C q_cov:67.6%25%2C s_cov:61.2%25%2C Eval:1.0e-60%2C partial hit],MGA_2727
sequence1	MetaGeneAnnotator	CDS	2461316	2462581	.	+	0	ID=MGA_2728;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979169.1;translation=MKDYRLTVRDLQLIKKVGKYYLQYIRVIDMDTLLKKMKRNSEYENAIALRNALNGIYYYVLYILTIDVVKSAKEAYKDKLVRKEFSNEFASEIHGALDIPRSLMTYPSKIYSYYTYQRGADSSTFAVLGALLREIYRNIFKLKNELEKYYEESHVINYFQLNDFNDYVNLLYEYKDRFRKGKIRAPIEKDPSWLKRAFKIYITLEKMIGNEISLGNENSILPKDKDIIKMLLWKLYELYVFYLLIKYFEKKGYKVKVSKKDKFDVVMEKDGKKKFITLNSSLDFSSLFSIDNSQKIEDFMGRPDIALINEKKIIFECKYSTSASYISQGRFKVMAYMYEYDPNIAILIYPGIERINKLNSDNILSEKIDESIRNKEKDKKYVKPIFKSRNNKPRQMYIVTIDPLTEENKQVMESIMNEIFV;locus_tag=LOCUS_27210;note=WP_010979169.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:38.1%25%2C q_cov:96.7%25%2C s_cov:97.0%25%2C Eval:1.9e-70],MGA_2728
sequence1	MetaGeneAnnotator	CDS	2462853	2463029	.	+	0	ID=MGA_2729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPELVELENKNKELIALLKLSYTGSRYFPSSYDKDTANKLISLVKQFLEVIGLWQKE;locus_tag=LOCUS_27220;note=MGA_2729
sequence1	MetaGeneAnnotator	CDS	2463014	2463340	.	+	0	ID=MGA_2730;product=nucleotidyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978788.1;translation=MAERIEYFNNWRKYAYEICASLKKVLQDVMVVVFGSVVSGNYVPSLSDIDILIVSDKVGGILWQAKMNLYILSELKSDITPFEFHYSNWKDYEEFYKEFFNPRVEIRC;locus_tag=LOCUS_27230;note=WP_010978788.1 nucleotidyltransferase domain-containing protein (Sulfurisphaera tokodaii) [pid:40.8%25%2C q_cov:91.7%25%2C s_cov:86.0%25%2C Eval:1.8e-10],MGA_2730
sequence1	MetaGeneAnnotator	CDS	2463467	2463943	.	-	0	ID=MGA_2731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIIALCPCEKLAPNCTYVSTLNSDKDDFLDKVVEVRNKFINNEFTEIPAYKYFLDLSANMHHVFTIIRLVSIEALGKQFLVIEAKNDKEEIISAYEPIEYLNPYITYSVYVFARAARISINTKRSTSKFGGYNIRIEGVGPRDHIDYEKETRTYVIF;locus_tag=LOCUS_27240;note=MGA_2731
sequence1	MetaGeneAnnotator	CDS	2464402	2464548	.	-	0	ID=MGA_2732;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRMMENIVAIHLLRKNQNKGIYYVKGNDYEVDFLDEKARELIQVTYD;locus_tag=LOCUS_27250;note=WP_052846674.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:71.7%25%2C q_cov:95.8%25%2C s_cov:11.3%25%2C Eval:8.7e-13%2C partial hit],internal stop codon at [2464401:2464403](-)%2C[2464560:2464562](-),frameshifted%2C insertion/deletion at around 2464376%2C2464775,MGA_2732
sequence1	MetaGeneAnnotator	CDS	2464561	2464719	.	-	0	ID=MGA_2733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNVDYKTIEQWFYGLVLSYIIYPAERYSVKLSRIKENKKIYVVDPGIIQEV;locus_tag=LOCUS_27260;note=MGA_2733
sequence1	MetaGeneAnnotator	CDS	2464926	2465273	.	-	0	ID=MGA_2734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNINFDDERLRTLKVEDLRLVEQAIYELYGSVPYLIFDELQNIQGWEPFVSRLRNTKRIIITGSNSKLLSGELSTSLTGRHVDFVLFPFSFKEFLRFKKVEYNDVLTTREKAEN;locus_tag=LOCUS_27270;note=WP_010980656.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:63.6%25%2C q_cov:92.2%25%2C s_cov:26.3%25%2C Eval:1.9e-33%2C partial hit],frameshifted%2C insertion/deletion at around 2465268%2C2464765%2C2464934%2C2464852,MGA_2734
sequence1	MetaGeneAnnotator	CDS	2465367	2465576	.	-	0	ID=MGA_2735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRQFLIKLTLDYTPIFLRIDFGVYSKTYKVESVLLSVNVEDIKSIIKEQKEESEDLVELYVVMFLGTSF;locus_tag=LOCUS_27280;note=MGA_2735
sequence1	MetaGeneAnnotator	CDS	2465838	2467190	.	+	0	ID=MGA_2736;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979184.1;translation=MSNEKVKGNVIGRMERLPISRVHYKFLLLVMGGEWVETLMLLGNGVIAAVLSSVLFSSITVAVTAITTAFFLGETVGSVFFGRLADLKGRRTVFLINLLLFGFGSIIAGFMSNFYVISVLMFIAGIGVGGEFPLVDTYTSEMMPGKLRGSGVALVYTLAVTSAPVIALVTYFSSHPLNYYSWRIPLWFMGGAALIVWALRTRLDESPRWLESKGRRSEADAIVEKWENEVLREGKTLPEPEKTEVVEEHSKISELFSHSLRKRTIMMIIFQFFQSGIFYGFVVLAPEFLLDKGISLVNTLLFSILIDTGFIVGSIFNYFIIDKVDRKYGIIGSAVSAGILGTAFALTSSTALTVLLGFLVAFSLWNFSNFFHTYQAEIFPTRVRSTGAGLVYSISRFSTSILVLMITAFFLPLGLVATFGIIWVFIAIVSLDIGIFGPKTTGRKLEDISK;locus_tag=LOCUS_27290;note=WP_010979184.1 MFS transporter (Sulfurisphaera tokodaii) [pid:38.1%25%2C q_cov:98.0%25%2C s_cov:99.6%25%2C Eval:1.5e-78],MGA_2736
sequence1	MetaGeneAnnotator	CDS	2467419	2467922	.	+	0	ID=MGA_2737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980507.1;translation=MKGNVISLIASVIILIGLILLDLRGLTYALSLPFILIMWIVWILALPSLYSYHESKLDKPKIMDYFALFAIIITFFGLILASLGNFTGIEIILIGYTLEPVAGISIYLTTKKINLTYSSLFFWGAVVFTAGLPLYLVNLGIISIIGDIIKMIGIVGLLTTNFLKDKH;locus_tag=LOCUS_27300;note=WP_010980507.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:47.1%25%2C q_cov:83.8%25%2C s_cov:81.8%25%2C Eval:1.9e-33],MGA_2737
sequence1	MetaGeneAnnotator	CDS	2467922	2468164	.	+	0	ID=MGA_2738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDVSQDWRNILHKMNTEEAKRLVADQKDLIEEKLSQNYVKRDVKDIDRFLRIPNVLAILGVRRSGKSTLSLILMKELKV;locus_tag=LOCUS_27310;note=WP_052846674.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:46.9%25%2C q_cov:78.8%25%2C s_cov:15.8%25%2C Eval:1.7e-10%2C partial hit],frameshifted%2C insertion/deletion at around 2468429%2C2468158,MGA_2738
sequence1	MetaGeneAnnotator	CDS	2468559	2468810	.	+	0	ID=MGA_2739;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIKVDVIYNDILFKDVVFRCELLRPNGRGFLLQSRGLPKVEVSAPQALRVVPTPSTNVNPQYPNMGLLNGAEAYHMDPRFN;locus_tag=LOCUS_27320;note=MGA_2739
sequence1	MetaGeneAnnotator	CDS	2469285	2469467	.	+	0	ID=MGA_2740;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGRDFEADFYDEFNSRLIQVTYAIDKVEEREIKGIMKANELIKAKELIIVTYDIEGKRR;locus_tag=LOCUS_27330;note=WP_010980072.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:47.3%25%2C q_cov:86.7%25%2C s_cov:13.3%25%2C Eval:7.1e-07%2C partial hit],MGA_2740
sequence1	MetaGeneAnnotator	CDS	2469705	2470070	.	+	0	ID=MGA_2741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTKVLIKNMDESIYRMLKAKAAMLGISVSDAIQQAISLWLNVTDSISDQNYAILKTNQEAVKAFNEGNYVLVCDGRYVGSFDDEKKALEKAKEYEKCMISNKNYPRQDIGEWGWSSIALE;locus_tag=LOCUS_27340;note=MGA_2741
sequence1	MetaGeneAnnotator	CDS	2470046	2470426	.	+	0	ID=MGA_2742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIDCFRINERPEIPITVVDIVKEKSIEVNALIDTGFSGFLLLPNSLYSKVNTVELDESFWRTYATLNGIVKTKVAKAKIKIGKIELESFIESPVLGRDLTLIGRELLKKISVEIKKGKEICVDDP;locus_tag=LOCUS_27350;note=MGA_2742
sequence1	MetaGeneAnnotator	CDS	2470557	2470775	.	-	0	ID=MGA_2743;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMDEKFVGLLYKSERIVSVYSLEKKLLEKGITFRKDDVISTLNSLEKMGAIEKIGNKAFVNRLSIENQQPD;locus_tag=LOCUS_27360;note=MGA_2743
sequence1	MetaGeneAnnotator	CDS	2470779	2471474	.	-	0	ID=MGA_2744;product=CRISPR-associated endoribonuclease Cas6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_162309142.1;translation=MKLLAEIEVRPENNAIIPPFTSKVGKTILKNYKLSISPLYDGEKFIFKESDVPTYIEVEGGKTYTFRVGGEEEEMIKALSQINDVNVFNTLWKIKDVKVSSVSLECKEYVKVDILTPAIFPDPFVKDEKKRFTNASFIVFAVNAMDEMKLRRGPELDKILYDIEKNVSEEPSDYHSINVVYSNKKVKGIVGRMNFRIRGYFPELRSILENAQAKGIGSSRHNGFGVVNIRC;locus_tag=LOCUS_27370;gene=cas6;note=WP_162309142.1 CRISPR-associated endoribonuclease Cas6 (Acidianus infernus) [pid:47.8%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.6e-57],MGA_2744
sequence1	MetaGeneAnnotator	CDS	2471458	2472051	.	-	0	ID=MGA_2745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSLFQCRVYYAEQIKIIIDDYVLLSRRESKKHNNSINQVSVTQLVDRLTNSNHETRKVTYTAEDYIYDRFYKSWKKDVRRQVEIAGTTVFSVSDYENKYTVIEQKTVFEKIAQNQIIRYRDGLQTLFHAAIKSYVEGISVKPFLLYTMRKELNGGIAKLTYATMYAIIYQGSKIISPEVAKELLEKAVGAYRETFS;locus_tag=LOCUS_27380;note=MGA_2745
sequence1	MetaGeneAnnotator	CDS	2472886	2473314	.	+	0	ID=MGA_2746;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQGTQNKSQNSDLYDNLAKVVVKAKQEGFSSSQVNSFLEYSQSTTDKNELFVFIMRQAERGEYTETARLMLSYLKDKDMSEIRKFIGLLKWLMEAIGNINVPSNINNFESLIDLYIKNVNSNPGYSGHSKYQGGSHGYSRS;locus_tag=LOCUS_27390;note=MGA_2746
sequence1	MetaGeneAnnotator	CDS	2473295	2473981	.	+	0	ID=MGA_2747;product=CRISPR-associated RAMP protein Csx7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010977938.1;translation=MDIVGADFNNLSSIIDISGQLVNESPLRVGGGRGNKFDSAADSPIITMGNIPFIPGSTLKGALRSLAEAYANSMGWKVVYPYEDKENELNDCITCILFGSKKVASRVYLFDSPLKGDVRTGIRTMVAINRVFGAQQPKMLYILDYIEPNSIFDFKMRIINLDIINGENEEWKKKGVQIMNFLISQLKEGIMIGSRKSTGYGLVKLNDAKYVLKKLDNGEMKIIKEGSL;locus_tag=LOCUS_27400;gene=csx7;note=WP_010977938.1 CRISPR-associated RAMP protein Csx7 (Sulfurisphaera tokodaii) [pid:46.3%25%2C q_cov:91.2%25%2C s_cov:88.8%25%2C Eval:5.2e-48],MGA_2747
sequence1	MetaGeneAnnotator	CDS	2473978	2474823	.	+	0	ID=MGA_2748;product=CRISPR-associated RAMP protein Csx7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010977939.1;translation=MTFLIRKDIFARRVKIYGKIETLAPLRIGKGRGETNPESAATMQIIRTYDEKPLIPGSSWKGIFRSTGEKIAKEKGIFTCTGLTRQTCMDKILNQVQSLMSKDIDEAVKLVWDETCINCKIFGAPSLYSAISLFDSVAEKFNIGYRPMIAISRDTGAVTKSALATTEYVEPGSIFPFLLIGNNLPNYAIGYIIKIMRYINEGLVQIGGNKSRGFGFITFSKLSLEVSDYRDGKLKAIDDLDKEVNIELPKDSEGKDFFSKTKPLEEVFDNAKITFPHNNLH;locus_tag=LOCUS_27410;gene=csx7;note=WP_010977939.1 CRISPR-associated RAMP protein Csx7 (Sulfurisphaera tokodaii) [pid:44.9%25%2C q_cov:96.8%25%2C s_cov:97.1%25%2C Eval:2.3e-62],MGA_2748
sequence1	MetaGeneAnnotator	CDS	2474855	2475601	.	+	0	ID=MGA_2749;product=RAMP superfamily CRISPR-associated protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010977941.1;translation=MTLSVISEYLHISEDPKPLPSVKVKGDVSKVINEFISSKNPNLDAYFERDYVKFMSTEKGLVIPGNTVKGAIRSRLELLMDCACYDSLGNRPSKSKSNRYISIYHPRRKNSDRFDQYKSKYICYVCNLFGNAGLASRVNFSDLEFQEGKVDFVPIKGTLYEVVRKGSIFKGNVILDNPQPHEIGMLLYGSGYRGQGKWKTLLLGRFKYEMKEFGRIKFNIQINNADSYLNSFLTLHKGHVHDVEEDWK;locus_tag=LOCUS_27420;note=WP_010977941.1 RAMP superfamily CRISPR-associated protein (Sulfurisphaera tokodaii) [pid:35.1%25%2C q_cov:99.6%25%2C s_cov:92.0%25%2C Eval:1.8e-36],MGA_2749
sequence1	MetaGeneAnnotator	CDS	2475598	2475753	.	+	0	ID=MGA_2750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILCFKRDLSVEINGTECVTKVEVEEEKFNDKYRIKYKDLHYVEEKVMRNY;locus_tag=LOCUS_27430;note=MGA_2750
sequence1	MetaGeneAnnotator	CDS	2475890	2478151	.	+	0	ID=MGA_2751;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010977942.1;translation=MANALADTISLVYKAPMVLPPLPYTSKDNSIITNNFDYLTAYVINRYIKNIKPSEILDMKADNLTKILKYSSYTDIEEIYEALLSTPADTRPGKNFSSLAAHMNLTSLIGWLIFGEAKDIPYYRLAAILHDVGKIIKPEAHLDGASLFFNEVIQKVKEEGVKGNIIDYLGVVKDRVEKHHSLDFKPDHIAAENERFPNEKIEEVFSKNEECSPFSEMLNQKSTADSINIENKWIKELGEEEYRKRYSKCSALAYDHIMQNKGEKKIENNKVNGYIYYINFPGVQSFIEYFSNLKDISTASFMVDFIVSTLPFVHFDNLLQKTRLPLEALLAVSGGHSILVGRSDVEPEKFIDDLKNDSLLRDLDIELPITYKPFFVNENLASYDVISDLMRESQFNSLKFKGSKILSLGLHRICDNCKERPAVDKVGEEYLCSRCKTIKDFANKRGFSARVKPKYIICNKEVDIGYNGIDPMVFISGGNSDDDPRYVSIIKFDANDASMYFANTLTWSEYVDKSFYTDYWIKKSLRETAKEYYNKNQEMVKRLIAGIQFLGGDEGLLISPALISINFMIDMIKKVYRNTGVTFKVGIVTVKPDHPVQFAVSTAEKIMDEAKIEKDEVNIDRNSIGILVSPSFVSPSAIRSFQRFGDFTILSYKNTISEVEDILNDVKVDISGKDENFKDFVREMESIVQFLYMHKNINETIIYLIRERVRHKEYSQLIDKILKSYKIDEKKINILDIYFILKSIDSGFSKVRE;locus_tag=LOCUS_27440;note=WP_010977942.1 HD domain-containing protein (Sulfurisphaera tokodaii) [pid:33.2%25%2C q_cov:98.5%25%2C s_cov:93.0%25%2C Eval:9.8e-103],MGA_2751
sequence1	MetaGeneAnnotator	CDS	2478148	2478735	.	+	0	ID=MGA_2752;product=RAMP superfamily CRISPR-associated protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010977943.1;translation=MKFEVHLKNLSSLTIGNSSRIAYVDIGFNDMGIPGSSIKGAMRTAISWAIKNGLVREFTSCGEVRPEKIIEAHKKGVCDVCKLFGYPDHEGILRVSSISINKINVLTRVSIKDDTNTSKEHALFKQEVIPPNQDFTFEVELYTQDCRMLELTLLSLYFLRLWRLGRGGMIDLKIDEIKECPSLEIKKYLGDWLWQ;locus_tag=LOCUS_27450;note=WP_010977943.1 RAMP superfamily CRISPR-associated protein (Sulfurisphaera tokodaii) [pid:48.9%25%2C q_cov:90.3%25%2C s_cov:87.2%25%2C Eval:9.9e-36],MGA_2752
sequence1	MetaGeneAnnotator	CDS	2478726	2479649	.	+	0	ID=MGA_2753;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846117.1;translation=MAIILRITPKEPISFYTRAIKTYYYTTKDYIPATTLRGALLESYLRNSGDLYKKISDFYVSPAFPLNSAPSHPFLPAISRKSEDFVEEPNSLQIKNLQNDLERTLNEIKEKYSKDQYPKPKTGTIVKLENTNSIPYKYKSFGFNSIINMHVAINKFHGASESGMLFAYEYKEVGDLWAIASEDLGVNEAYIGKSRYKGAGKVEVKKVKEYEIPNPNEGDWAYCLSPCIEKFLDKSFFEYEEALGKEELYNAWFTYKDLMGRKPLLKVLSPGSIVKIKKIYNIDELKPAGLNFIIKINDLGSFLRGVQ;locus_tag=LOCUS_27460;note=WP_052846117.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:41.0%25%2C q_cov:98.7%25%2C s_cov:97.8%25%2C Eval:3.6e-51],MGA_2753
sequence1	MetaGeneAnnotator	CDS	2479651	2480439	.	+	0	ID=MGA_2754;product=RAMP superfamily CRISPR-associated protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010977945.1;translation=MKFYLFNLIFKTSGLRIGGETDKKVLYFLKYDEMYVIPFSSWKGSFKRISEYVAKSMKIGSSDKHKDDRHEGYTDNEIEDILQSIKQKGDKIRGEEIESDKYPNLSSIFSPNNEYSVRDVEDKIREYIASIKCPIDGLYGSNFFASKLTFSDSVFHENGTFLTHVTIDRMKMKAYEEDKGGHLFDEEVLRPQKIELKIILRIPNENELKVWKNTLKFINTEGLQIGGGKSRGLGMLTLDKESTFDEIENFNKISYSIKDILK;locus_tag=LOCUS_27470;note=WP_010977945.1 RAMP superfamily CRISPR-associated protein (Sulfurisphaera tokodaii) [pid:34.2%25%2C q_cov:99.6%25%2C s_cov:98.7%25%2C Eval:4.0e-29],MGA_2754
sequence1	CRT:1.2	repeat_region	2480499	2483212	.	+	.	ID=CRT_8;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=ctttcaattcctttttggatgaaac;note=CRT_8
sequence1	MetaGeneAnnotator	CDS	2484141	2484662	.	+	0	ID=MGA_2756;product=nicotinamide-nucleotide adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846904.1;translation=MRVLFPGRFQPFHLGHLSVVKWALERFDELVLIVGSAQESHTLYNPFTAGERVEMIYNALEEESLYKKVFLFPLMESISNKNWIHDVELVSPKFDAVITGNPLVITSIRDKYEVIVPKQFNREKYNSTLIRSMILKGDNWKDLVPYPVYEFIKRIHGEERMVDLSKTDKAPED;locus_tag=LOCUS_27480;EC_number=2.7.7.1;note=WP_052846904.1 nicotinamide-nucleotide adenylyltransferase (Sulfurisphaera tokodaii) [pid:52.6%25%2C q_cov:97.1%25%2C s_cov:99.4%25%2C Eval:1.2e-49],MGA_2756
sequence1	MetaGeneAnnotator	CDS	2484749	2486233	.	+	0	ID=MGA_2757;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978684.1;translation=MQFVRNSSGLVKNASLLDATMLNLANMGAGLAIFTGISPYIVKGAVLWVASIFTFLLTLPLVFLYTFFIIEIHRTGGDYVWLSRKLSGKIGSIMGIAIAFNMPPYFALSAFFSVSAITTVLSVIGSLNNQSYLVTASNTIFANDAFIYALAAVAFAIVIGINILRPKLGFTLVSALGSLAIIGTIVAMIVLAFNIPDFHTKILPFLHAFNLTPTTYHGPTFSLPATLYMIPYFASFAYIWLYAGPAVSAEIKSEKGIKYNLILGSLMTLFLITVPFFLMDVAGGYGFNFGLYPTGTYNFWSVAMALSGNEVLEWFIGISLISWEFFVMAFGVVVFARYVFAFSFDRLFPEIFSRLNRNNSPAYAHVLDLIVTLIFMTVPIISPLGTEALYSYTPLAIAYLLLVSIAGARFALQSKRKGMLVTAIISSILMIFMGYEAFTNPYFGVVENGAPFWPGIAYIVSLIGLGLAIYGVSKWYNLKKGINIDLNYKEIPPE;locus_tag=LOCUS_27490;note=WP_010978684.1 APC family permease (Sulfurisphaera tokodaii) [pid:55.2%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:3.2e-157],MGA_2757
sequence1	MetaGeneAnnotator	CDS	2486234	2486917	.	-	0	ID=MGA_2758;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980527.1;translation=MEQEFRIPLIGEKFPELEVDTTQGRIKLPDQYKGKWFVIFSHPGDFTPVCTTEFVSFAKKYEEFKSMNTELIGLSVDSNISHIEWVNWIEQNLKVEIPFPIIADPMGNVAKRLGMLHAESSTSTVRAVFIVDDKSTVRLIMYYPLELGRNINEIVRSVKALQIIDRTGSVMPANWPKNEIIGDNVLNPPPRNLKDAKLRLGQYKGFAWWMTYKEADKKDVEEAKKYI;locus_tag=LOCUS_27500;EC_number=1.11.1.24;note=WP_010980527.1 peroxiredoxin (Sulfurisphaera tokodaii) [pid:79.3%25%2C q_cov:91.6%25%2C s_cov:97.2%25%2C Eval:6.0e-97],MGA_2758
sequence1	MetaGeneAnnotator	CDS	2487083	2487241	.	+	0	ID=MGA_2759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAILKVSEDVKEELMKLADELPTKKGKKESINNIIEFLIEFYKENSKNSVIK;locus_tag=LOCUS_27510;note=MGA_2759
sequence1	MetaGeneAnnotator	CDS	2487286	2487879	.	-	0	ID=MGA_2760;product=cyclase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011248985.1;translation=MIIDLTFPIENGMPYYPGDPQPKIEKFTSIEKEGYVVHKLTIGTHTGTHVDVPSHFIPEGKTLDQIEITRFSGKAYVIAIEKEKINKEDIPNVESEILLIYTGTSKSWKNGWNINKYSIITEEASKEISKRFKLVGIDSPSIGSFETHRILLKNEIIIVENLANLDKIIGKYVDFLCFPLLIKGADGSPVRAIAIVR;locus_tag=LOCUS_27520;note=WP_011248985.1 cyclase family protein (Thermococcus kodakarensis) [pid:39.0%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:2.2e-35],MGA_2760
sequence1	MetaGeneAnnotator	CDS	2487896	2488525	.	-	0	ID=MGA_2761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978924.1;translation=MKIDVHQHLGIRDVKAKEIRELFDYVVLNPAYKYGCMCCVDGFYQQYLWNKGKDYLQLGIYNPKCRVPAEVELGRQYDKGIVGIVLNPINHDFELKEAWKVYQFAEDHSLPVFVCTGRGKGNPLELKNVVKEYKIRIVLMRLGYPQYINQAKEVIKESNIYGEISSVPIDLVKDFPKDKLIFGSCYPYIPLSIIKDKEILDNARKIINI;locus_tag=LOCUS_27530;note=WP_010978924.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:40.9%25%2C q_cov:78.0%25%2C s_cov:79.5%25%2C Eval:1.3e-31],MGA_2761
sequence1	MetaGeneAnnotator	CDS	2488675	2490255	.	+	0	ID=MGA_2762;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979823.1;translation=MADNPERGKHLRKEINFFELFIIGLSGAVATAVFFSQVEMTAYAGPGSLIAWIIGILLYFTIGLTYIELSQTYPEAGGPSRYSIYSHGVVTNLINATADLIWYLFIPPIEAYATIEGLDFFFPQLLNKEDFPTLLGAIVGVIILIAYIPFNYYGIKVFARITAGFGSVKMIFYALPAIALIFLFSKPQNFTIYHGVLPFGIAGVFAAMPFAMFAFGGARVVPDFAEETKNKRNIIYALLFTILGQATVYILYDLALILTVKWSAFSITPGNWGGMSNIVGNPFVILASSYDLKVFLIIILIAAIAGPFLTGYIYMGSGSRVLLAMGRSKFMSSAVKQLHEKYAIPYWGLIIFAVVGALITFLFAPVPSIYGLISDSVVAGYLGFSTNPIALVVMRKQGVTKFRIPLGNVISAIAFVGSSLIVFWSGWPSVPYSVVLLAIATAVFATIGKSTKDFPEAIWYIMYIAFLTFMTYIGSDGALNIIPFIDSTIITAIVSLAVFYPWGIMSGLKKENYIEHENEIKSDTAL;locus_tag=LOCUS_27540;note=WP_010979823.1 APC family permease (Sulfurisphaera tokodaii) [pid:50.1%25%2C q_cov:95.2%25%2C s_cov:99.2%25%2C Eval:1.8e-150],MGA_2762
sequence1	MetaGeneAnnotator	CDS	2490837	2492150	.	-	0	ID=MGA_2763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_069168189.1;translation=MKVLIVAPWEKILRFKESSYHPVDEKGDTIDLALNANNSTLAEFNYFKEQKNEVSLLIFLPSTLSYLLQDPPPDFPSLSEGIKSKVKEIINAEYEAYVLPGIGNYVNKTVIHEHKGGIGNYQFLFYLYLYRKMMEYSPNLVILDTSNVSDYEIPASMNATRLAIDDYVSSTGKEIEYFHVSASPSYIDKGEIRIGLISKMTVKKSNIEDYLTNEIKLVKILDPKEKGLNAVGKSDMYGIGKCLEYGFPLALLYLLKETNMKNLVKPEDVEKTIIDSIKISKSPDLYSLDQGIEAHENAPYYFIGYHFIENYKKLSEGEEFSLDAIGKISENMGRMQRVIIGREIERIKELVSIAKEGEEFSLDYLIKLGNMKVIDWIKKPEIEEDTECEFEETKMISHAGFGRKFTVVHVKNGVYLSYKKECLENVINSVKNLDKES;locus_tag=LOCUS_27550;note=WP_069168189.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:41.2%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:3.5e-88],MGA_2763
sequence1	MetaGeneAnnotator	CDS	2492490	2494553	.	+	0	ID=MGA_2764;product=xanthine dehydrogenase family protein molybdopterin-binding subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979624.1;translation=MKRTDVEDLLKGKGNYVDDVKFSGYHAVFVRSSYPHAKIKVDAQDAKNKGALVLTGEDLQFSLKSEITENEGSANLLPLAYNKVRYVGEPIAVVIAKDVYTAMDLAETVNVDYQPLEPVGSIEEALENRSLVFEEVGSNVVYNKVYEYGSMPNDREIELNLYWSRSSGNPIETFGVITYPEGDSLTIISNMQASYMQAQDLSKYLGKIRVIPARQGGSFGSKFSLKNYVLAIALASKKFNIPIKWIETRTEHLEASNSSGPERKFKIKAYFKNDGTITGLDFKVWEDVGASLFNGQAFKPLGILAGPYKVRNIRYDASLVATNKNPPGAFRGAGTPPHTWALERVVDSIADELKMDRAEIRMKNFIDEFPYESPYAFYDSGNPKKLMEIALSRKEIFNLRNQGYGVGIASSTDPSTPSGQEGVKIEVKGGKITLGIGYGPEGQGNEHTGKILLSQMLGVPLDKIEVKVLDNNESPYSFGPGGSRMSVFLSGAIKGAVEELIRNLRSQVGEAKFENGYFIKGDQKVSILELEGSASYVYSLQGKTRFNAYPFAVDIAVVKVDESGIIRPVKLIVYIDPGTPLDEDLVKEQIIGGSFIGVSVALYERYVYSNGQLLTSNLSDYNFPTALEMPEFEVNIVPTPSPYTPMGSKGIGEIPVGIAAAAMTSAVEDALKRKINSVPITPDNNLQ;locus_tag=LOCUS_27560;note=WP_010979624.1 xanthine dehydrogenase family protein molybdopterin-binding subunit (Sulfurisphaera tokodaii) [pid:61.2%25%2C q_cov:99.6%25%2C s_cov:99.9%25%2C Eval:9.7e-243],MGA_2764
sequence1	MetaGeneAnnotator	CDS	2494584	2495537	.	+	0	ID=MGA_2765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIILTLIILSIIVSVLNFHVGTQPLALTSNHYLFVANFGSNTVSVINPENFSIIKNISVGKGPSSLLYVNQFLYVASTLSSQINIIDVNSLDIVRNISVSYPYSITYDPQNGEFFVSISAFNELAIIKNYTVVNIIKIPQGVGSLAYDPKDSLIYISGIYNNSVIVFDPINDSIIRVIHIYRTPVNLVYSGGNIFVTDPHSNFMTVINTKIENVSVGEGIFSVAYNKSDGLIYATNIYNNSILIFKNGNYIDSIPVGIKPTSVILYNGKIITTDYGNNEISVITTKVKSSLNPIYILIIIAVVIVVLASIYGIKRR;locus_tag=LOCUS_27570;note=WP_226990625.1 PKD domain-containing protein (Methanosarcina acetivorans) [pid:26.4%25%2C q_cov:77.9%25%2C s_cov:37.7%25%2C Eval:1.2e-17%2C partial hit],MGA_2765
sequence1	MetaGeneAnnotator	CDS	2495574	2496413	.	+	0	ID=MGA_2766;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156015265.1;translation=MNVSKVSGYLSIIGVIIVWGLSFPLSKLALYYMSPFILTFFRFSIGGVLLLIYARGIVFGKKEAINAILNMSLFVILLNLAINLSSNPALASVLIYTQPIFVVVIIRILGERINLLQLLGVIIAFSGIFISVDSGDFNIGSLIAVLAAILWAIGTVYYRRNLIKESVTKLNAFMSLFSALFALPTIGIDFRFTFNVYGILFAIGVAIIAQAMGFIFWFSSIKNLGPLTSSTMAILVPVSAYVFSFLILGKIPSYFQILGSTLALIGVIISQIGFVRLAK;locus_tag=LOCUS_27580;note=WP_156015265.1 DMT family transporter (Sulfurisphaera ohwakuensis) [pid:45.7%25%2C q_cov:94.6%25%2C s_cov:95.7%25%2C Eval:9.0e-67],MGA_2766
sequence1	MetaGeneAnnotator	CDS	2496444	2497232	.	-	0	ID=MGA_2767;product=DUF973 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979047.1;translation=MNSINESIGNIRTGLLFLVVGSIVSILSLLGAGVLFAGAFFMKNFMLHFFILRFVIGIISLIFIFYSYINLDKGFKGLLQLSKDFNIGSIGALIILIGGIIFLITSFAEIIIVIGEIILGIGTYLVGSYFNNSNTKIGGILMAIPLIILPLIGFILSYIGLGEIVQANPIQYQPNQVSLHQVGMGILRNNDVYATIFSSSQIPIISAEIQGTTYVAKRIDPQILFPGNNNVMISFDQLIISKSFNIILKLSNGQSLILAVSQ;locus_tag=LOCUS_27590;note=WP_010979047.1 DUF973 family protein (Sulfurisphaera tokodaii) [pid:31.3%25%2C q_cov:88.9%25%2C s_cov:87.5%25%2C Eval:2.0e-20],MGA_2767
sequence1	MetaGeneAnnotator	CDS	2497423	2497962	.	+	0	ID=MGA_2768;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978865.1;translation=MSSIFDSIRSWDIKPFRRMGVTIDEEIYFAKSLLKDFEGINPKRIVEIGGGNCVISLVLKNKLQNEILSIDTWNEEIKIDDAKKYSQGKINLLNNLFPLPFRRESVDLAYSVLYFYNVPRLTRKNLAEDLFLTIKKGGYFILAEPEIVRNMRKDFFNVGFKEISYRSEQAVFFSKMIKE;locus_tag=LOCUS_27600;note=WP_010978865.1 class I SAM-dependent methyltransferase (Sulfurisphaera tokodaii) [pid:42.9%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:1.1e-35],MGA_2768
sequence1	MetaGeneAnnotator	CDS	2498134	2502036	.	+	0	ID=MGA_2769;product=protease pro-enzyme activation domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980576.1;translation=MSPKKILSVVFLIFLVISPTLVFQSFSTSNNTIINNVKPITVKGFHYVGTLPNSSNVTFTVFIPLKNENLIYYYAYQVSNPLSPLYHHFLTKKEVQELFYPIKSFNRTLNYLKNKGFKIILTASDSVIVAQGTVAQVENYLGLYYEKYSNGSVVYYTAYGKPKIDAYIFSSNYTAIYLQHPNFLLTQKTLTQMEKYSRNLTEPFVGYSPKVMQRVYNTTWLYNKGYEGTNYTIGILDFYGDPEIVQQLHYFDKIYNLPNVNLTIVPIGRYEPNLGILTGWAYEISLDVEISHVMAPKSNIVLYVGNNDLDLPAVIAYIDQQDKVDVLSQSFGFEESALIQSPQLLYDIVMLTNMYYALGSAEGITFLASSGDGGGSGYSFGPLGDIAYPSESPFVTAVGGTTTYVDFPNGSYQTAWSSYGFIPFLENEGGSTGGVSIIEPTPWYQWGLSVKGYPNGRMTPDVSANANIYPGIYIIAPGNSSMLIGGTSEASPLTAGLLTVEMQYIHHKIGLFNPLLYYVAKNDYGKAIEPVTFGYNIPWVAKYGYNLVTGWGTINAGELATYLSQIKITPSISIEVNVTNSSGLAPREFYPGQVMYVWANITNGSTITSGNFHVSLETIQGNVTSQKMFYNSTAKLWEAKVIVPQNSNGITFVNVYGDHAIGFTVTFTGFIVEFQQCFLFGPSNGKVPYTAYVYNIYGITMNVTKELNVSVYSYNITTNLYTKVGTYTFNQSSGYIYKIIEINGTFTVIRIPTVYYSGNVSLPEGVYAIEPDQFYGFTFGINGDISQGNWIILSHIVSMPGVVSPGQTIYIDGVPNNFGANITAKLVNPQGIAVSQVSIPPTVIIMDGLGFLTWEGFLKVPSNASPGLYSVLLFSTVPTHNGSRIDGYFYGQLYVSPAVSEVHANVSKYVFEGSQVKIYANITYSNGTEVKYGIFSSIVYPKIYESEATTIELDDEFNVPLYYNSTLNLWVGEFNVPSSQNLGNLTYYGTQYYGGPLEILIFGNAYNGYPTNVTYKDQYTIYALPYTEISNSFLTNVQPFNVYLNNDTLMINKLTIDNAILNNDTIYGDLTITYSNLTNIKIVDSNVTLISSNVRNITVIHGHVNLINSKVQNMILNTSSVDNQDSVISGIYPSLPNITIISPSPLSNITGKFTLTFEIKGSEIKDVQIYINNVSLSILEKIYPYLNVSLNNSDNVSKITLNSTALPDGTYEIKVVAQQADGLTTSKSIVVNFANKLNQEQNQITSLNQSINNIISKANNEINSLKSQMNSLETRNTILTILAIILAIIAIAVAIIVRKR;locus_tag=LOCUS_27610;note=WP_010980576.1 protease pro-enzyme activation domain-containing protein (Sulfurisphaera tokodaii) [pid:46.0%25%2C q_cov:97.8%25%2C s_cov:97.5%25%2C Eval:0.0e+00],MGA_2769
sequence1	MetaGeneAnnotator	CDS	2502696	2503262	.	+	0	ID=MGA_2770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980571.1;translation=MEKTFQMDNVDLKAIHDKIMSEIQSNGLEVHRDEWRDNGFKILVRRGEERGEVEVFNDWGSLRLITRDRLEWDLMNMIEPLMNQGPQSITQQSQNSVPQPPNIQPSPHPQFQQPMNYPKQDQQAYTQQPYQQPQQLPSVVQVPEHQQIVNILMQNNYQIEVNTTNGQTFFVRGRKGNYVIDIEGRPQP;locus_tag=LOCUS_27620;note=WP_010980571.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:49.0%25%2C q_cov:100.0%25%2C s_cov:95.3%25%2C Eval:8.7e-47],MGA_2770
sequence1	MetaGeneAnnotator	CDS	2503883	2504482	.	-	0	ID=MGA_2771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILFFRLASFLMFLSSLAFAIIIIYAYISAKKQAQQMKEKYLYLSIANFLDKASNFYSGKTSELIEEVILYYSLNKNNLDTKTMAEKIYERLQGVIAEVQDLLNAGKDVFRLENLSKDIDKFKFVFIIVSFPSILLSLIYLITSFTIPYSSILPYLFSVDIFSFFLSIGSLSYIGISLSKIQNEIDNYKKKFNIKDNS;locus_tag=LOCUS_27630;note=MGA_2771
sequence1	MetaGeneAnnotator	CDS	2504482	2504763	.	-	0	ID=MGA_2772;product=winged helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978982.1;translation=MERKKRSSYDIIYDILVTCKPGVKKTRLMYNANLSFEVLKKYVDVLVEKQLILKKDDKFFVTEKGMKFLDILRTFREKKKELDEISSKLKEPI;locus_tag=LOCUS_27640;note=WP_010978982.1 winged helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:40.2%25%2C q_cov:97.8%25%2C s_cov:97.9%25%2C Eval:1.9e-12],MGA_2772
sequence1	MetaGeneAnnotator	CDS	2505163	2505357	.	+	0	ID=MGA_2773;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFACNLNYVILTKYINELIAKGLIIEDQGKYTLTPKGLEFLKLLDTYIKLNEEINKLENLLYNF;locus_tag=LOCUS_27650;note=MGA_2773
sequence1	MetaGeneAnnotator	CDS	2505750	2506745	.	-	0	ID=MGA_2774;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLDFKENDFLSIQHYVRFILANKLKERVRKVDEYYYFELGDSDKGESFPVNFVMGKDSSTGKMFVMPVRRHCYVSEYYPDEAKFQIRRCMGFDYHSYETFEYKKGIGIRVQGDLVMEVREVFNTEEDISNFIASSNLQDLTNSFLRSKLYQDEDVRKVEQLTSIYTEMMDFILRTSASEDKLKYSIKVLRKIEKQLMKYFTFEVPDIYEKRRILDPRREKCIRFIDIDNAVEKFRRLKIQSNYKNFLEYVYSNEQKLYIKLGHYTTPHAIKISGILLGAEINLANILIVKPQTITLVHPEHGIEEYYVPKASLATFRIMGLEPEVGLFLF;locus_tag=LOCUS_27660;note=MGA_2774
sequence1	MetaGeneAnnotator	CDS	2507021	2507707	.	-	0	ID=MGA_2775;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFLLVSDVHKSFNFYKGYDESVAVEWLLEIIDKTEPEVLISAGDWDEGMTPEDFRKINSKVKLFTIYGNHENFPVIETYAMPNGKVFEVGGLKIAGINGLIGENSIKGIPLTTPTQFMNAIYRIKNSVPKLDVLITHQPPYIPDIYPKMRADDYNELVFEAVEDLKPRLFFNGHMTAGCYSYYQFPSGTKYLRVDSSQIYRCYGILESEENKVTVYKDNKEIFSLNF;locus_tag=LOCUS_27670;note=MGA_2775
sequence1	MetaGeneAnnotator	CDS	2507890	2509329	.	-	0	ID=MGA_2776;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQTISKNAQLSDTITVYSNSTEINVSINKVDLLNSLGSFTTPDTFLDLFLQDVFEKPQNISISQDSDKGFPPYTTVVPFLENVFDNNGIYNGTFNGEIIGNYTMPLGLGYMNLSGFNGTITFPTELNSHNQYDTNISFGNNSFYGIISICYNYNLALLKLNETDYHGHNIFINGTLNWHNGSVWKISLLSRSFNVTIDSPTNLILYNYSKGWNQITLNNVYVEYIQGEFPNISKSQLSFSRLVQYSVNSMYYNILSIYNYSVPVNISVSPTQTNIMVSGFNHGKITLLSSNDISNELQCIAPFYINGFVLNSNIYNTTEMPAISLDSINNFVMFENASIVVKGLIVPPFNASIFLIMSNRGVTQESFNYFLITMQMVYQYNTFMQSVPSTGTFTTFTVNKTLSNPIVLEPSQFKIVKENVLIPAADIITFLYYYTSQTNEVPQLSVQILLQFHIAGTHSYYSILLWYVMNNQMVQENS;locus_tag=LOCUS_27680;note=MGA_2776
sequence1	MetaGeneAnnotator	CDS	2509562	2510623	.	-	0	ID=MGA_2777;product=IS110-like element ISSto6 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979846.1;translation=MVDPLTEAKSSRGGVTNPYYRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYIFLKDLEAKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLLYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIIWSVWYNNKPYEPK;locus_tag=LOCUS_27690;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:71.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.9e-149],MGA_2777
sequence1	MetaGeneAnnotator	CDS	2511082	2511339	.	-	0	ID=MGA_2778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKVEVSAPQALRVVPTPSTNVNPQYPNMGLLNGAEAYHIDPRFNQGVSVTLTPSVTAIKRIFEKYVFKCNYKGGSYGDFHEQHS;locus_tag=LOCUS_27700;note=MGA_2778
sequence1	MetaGeneAnnotator	CDS	2511436	2512260	.	+	0	ID=MGA_2779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPESIRWAAEVGNKKKVEEAVKRLEKCGLEPEVNFDAIQEDKPTLKQNLKAFFSRTYARQVAFIFWIGAAYALTVNLVSVYSSKVLSDLGASSFESLLGTLSIDILGTFGVLITVFAADKLGRKVLGTLGFGLSAIPLAVLYVAYLMGFLSIPLVVAMFSLFFLINVGFVGTLQYVPAGEVFPTRLRGLSVGWEKLFEFGLALPALSLYAFLGVANSLLYDIIVAIIAAAIYYFLSLETKQMPLEEIQRRYTGNEGIPSFALKDIARSKDKDKL;locus_tag=LOCUS_27710;note=WP_015704224.1 sugar porter family MFS transporter (Klebsiella aerogenes) [pid:24.7%25%2C q_cov:90.5%25%2C s_cov:53.2%25%2C Eval:4.4e-10%2C partial hit],MGA_2779
sequence1	MetaGeneAnnotator	CDS	2512295	2513389	.	-	0	ID=MGA_2780;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979063.1;translation=MRFSLGLSWTATFLQLALRLSWGVVAVTFAYVLRMTSVEIGTVLFLFYVGYVSSSILWGIFIDKVGPKKSIFISALLSGIFIPFFIFIKSIYELYLLYFIEGLLTAGLFPSSVKIVSLLERPLTPYLALLESSAPIVLLILATLSGIILIYWKFFYICIFIGLILTSFLSLFLNVKSGKSESARKVILNKRVGKVSIIRAGELWGTWGTSSWLFPFLVLYDNVPEKLSEILFILYAIGQVLSIILSERLSRIMEDIKLVKTSLILFIISIIIISFTRDLYLLIPISVILGISSFMYRPPTDSIVVKIMGKENAGTSMGFANAISQIGSMIAPLFVGIVISIGSPMLAIDSLIIGPLLSLLIILI;locus_tag=LOCUS_27720;note=WP_010979063.1 MFS transporter (Sulfurisphaera tokodaii) [pid:41.7%25%2C q_cov:93.1%25%2C s_cov:91.7%25%2C Eval:9.2e-76],MGA_2780
sequence1	MetaGeneAnnotator	CDS	2513801	2514160	.	+	0	ID=MGA_2781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYMQTCPMCGANLVEGLSYCQVCGADVSIYDQIYQSIQGVSPFQSPGNQQNFQQQDFSQQGFQQQNFPQQDFQQNFQQQNPQYQQGIPCPNCGFMNPPDAKVCGNCGQELKKHHHHFF;locus_tag=LOCUS_27730;note=MGA_2781
sequence1	MetaGeneAnnotator	CDS	2514192	2514926	.	+	0	ID=MGA_2782;product=TIGR00266 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978627.1;translation=MPEYRILGYDMQHVRVYLNQGEMVYGDGGHLVAKSPSIQVNYAAQGGIIKSFERELTGSRFFIMQIIGPGVAEFSSFLPGRVVKVDLQGNGIRVEHNSFLFAEQGIQYTAALDKITVGWLGGEGLLMEHFTGQGSVFIHALGGVSSYVLNQGEEMEFEAGHVLAFDDNMQYSITRAGGIKTMLFGGLEKEGMFFVKLTGPGRVWLHNVSLEQLISKLRLVGGGGGGGPSQGTPDINIGGFNINI;locus_tag=LOCUS_27740;note=WP_010978627.1 TIGR00266 family protein (Sulfurisphaera tokodaii) [pid:42.9%25%2C q_cov:88.9%25%2C s_cov:93.0%25%2C Eval:1.5e-51],MGA_2782
sequence1	MetaGeneAnnotator	CDS	2514939	2515463	.	-	0	ID=MGA_2783;product=peptide-methionine (S)-S-oxide reductase MsrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257533.1;translation=MEKATLGGGCFWCTEAVFSRVKGVIEVKPGYSGGKVPNPTYEDVCTDKTGHAEVVQITFDPNIISFRDILEIFFSIHDPTTPNRQGNDVGSQYRSIILYHNDEQRKIAEEIIREVEKKIGKKVVTEVVPFEAFYEAEDYHHNFYDKHRNYPYCRVIIDPKITKFLKYFPDKIKT;locus_tag=LOCUS_27750;gene=msrA;EC_number=1.8.4.11;note=WP_012257533.1 peptide-methionine (S)-S-oxide reductase MsrA (Chloroflexus aurantiacus) [pid:54.6%25%2C q_cov:98.9%25%2C s_cov:96.1%25%2C Eval:5.6e-55],MGA_2783
sequence1	MetaGeneAnnotator	CDS	2515988	2517175	.	+	0	ID=MGA_2784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979102.1;translation=MSEDLIKALINNDEFNKKIASIVYEKIRNDVILNKFDDIYKILNELTKSVQKNTDHIILIWEKMDQTDKTINNIIQSIKDNTNAIKEMQNEVRTLNITTQKHTEAIESLQKNIDSHTKAIETMQKTLEKHSEIIETHTKAIETMQKTLEKHSEIIETHTKAIETMQKTLEKHSEIIETHTKAIETMQKTLEKHSEIIETHTKAIETMQKTLEKHSEIIETHTKAIETMQKTLEKHSEIIETHTKAIEEQSKAIEKLQNAIFRLSTEIGAFTNRAGKGLEKSIMNIYREALKLHGIDPSNVKHGKIKDTLGIIDKDKEFEVDFYETDDYVYVFEVKNYADEGVLEQMRNRIKLFSALYKKPIKFYIISNFIEKSVKEEAEKEAAIIITSHVVEDEA;locus_tag=LOCUS_27760;note=WP_010979102.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:35.6%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:2.5e-69],MGA_2784
sequence1	MetaGeneAnnotator	CDS	2517400	2518764	.	+	0	ID=MGA_2785;product=proton pump complex quinol oxidase subunit SoxB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980480.1;translation=MNVRSSTLYFIGAISWLVITGLGAMNLRTYLLNEGSIKFDEIYYFMLTLHGDSGMIAFVSFSSLAISIFLIEKYYSLNYKILNSLFIIANIGIIIYFLGGPIIGWYMLYPLSTQSFNFIGIYGKYFWISYLGIFIYCISIETCSVYLWKKSNNLIFITLSLMIFSIPFLGATMILYILSIVKGISVSPIITSFTFWEYGSPDTYFLTFSVFALLYYIFKPFSTKWTLWSKYPLMILPFLIFANHLQTWPINPIVREASDFFTIILTGFLAILFFNLIIPLFKTTINSTIEFLGVITLGGFLISSIFSIILPFNFFDPIFHNTYYVVGSFHSIIWNFLITGFFLGFYIFTTNLEEKKELKNENVILKTSLITWLISSTILSYLMMYSGYEGLIRREVIFPSKFLPSMDLMTAFAFIAVTAISLAFSIELSKLISVKIKKIEYKKFQAKIMNKIRH;locus_tag=LOCUS_27770;gene=soxB;EC_number=1.10.3.-;note=WP_010980480.1 proton pump complex quinol oxidase subunit SoxB (Sulfurisphaera tokodaii) [pid:30.4%25%2C q_cov:91.0%25%2C s_cov:86.8%25%2C Eval:4.7e-51],MGA_2785
sequence1	MetaGeneAnnotator	CDS	2518742	2519050	.	-	0	ID=MGA_2786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEREFIDRNINIQNLVQDIQNSLKDEDWEITLNQNQPTDFMIKGIKRGHFHKEEIILVRVRGDPNNVLVTIDEENIGAFGRAWINSKLLGEIERKINDGFYS;locus_tag=LOCUS_27780;note=WP_010978642.1 zinc ribbon domain-containing protein (Sulfurisphaera tokodaii) [pid:37.5%25%2C q_cov:99.0%25%2C s_cov:68.3%25%2C Eval:3.7e-16%2C partial hit],MGA_2786
sequence1	MetaGeneAnnotator	CDS	2519153	2519530	.	-	0	ID=MGA_2787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREKEPKVQEISSVLINRGAKYYDSYAHNEIRKKRDCYEVMFSILKNCDGKKKTKLMYAANLNYGIFTKYLSKLEKLNYITLRGDEYYLTEKGREYITKYKEYIRCMTEFENIKKELDTLFVGKI;locus_tag=LOCUS_27790;note=WP_010978640.1 winged helix-turn-helix domain-containing protein (Sulfurisphaera) [pid:36.3%25%2C q_cov:72.0%25%2C s_cov:90.1%25%2C Eval:6.0e-11%2C partial hit],MGA_2787
sequence1	MetaGeneAnnotator	CDS	2519999	2520793	.	+	0	ID=MGA_2788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKEGELIIQLFRNPLQSYRSIAKEIDVSNSLITYMLRRSYYSPITKDLVLSITPNFFNLYKSTIVFKEDPGNIPYSLKFKGDNNTFVMIYGKNSNNITEILKSQGLTTSNINMRYDPEQLKFNFLSFPKRLMELLIADPNQVLDYKKLGEKMNSPPATIRRYINYFIKNNIIQFFPKINIEKNNMYLFTLITQNFQLSMSLLRNYYTILRPLDNYGLIQGIIYDEEGTALLDKLKSLDKKVYISIQYKYETNQTPFIRFLKK;locus_tag=LOCUS_27800;note=MGA_2788
sequence1	MetaGeneAnnotator	CDS	2520795	2521109	.	-	0	ID=MGA_2789;product=DUF2173 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979911.1;translation=MGLKGAVAAGEYTIDGKLVSYKGNLPKDIAEMVAMMVAANTLMGKMQAEGFSKLSGMKWTPFHGWAVAAGDYAVCVMGNYGVFVEMQKADFNEIFKTLMEVSQS;locus_tag=LOCUS_27810;note=WP_010979911.1 DUF2173 family protein (Sulfurisphaera tokodaii) [pid:72.8%25%2C q_cov:99.0%25%2C s_cov:91.2%25%2C Eval:6.9e-39],MGA_2789
sequence1	MetaGeneAnnotator	CDS	2521358	2521780	.	+	0	ID=MGA_2790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIIFFPMNQEIIRRNLNDIKSSGILLEKILPNIYVNRYNIFSDIFIVSEKKGMYVHCMKHCIKGTGCVLYETTLSEKIPDIINKEFIEKLELKPIYISKKALISINTLREASNTLKKEELKIASEKIIQKINEGLFDNF;locus_tag=LOCUS_27820;note=MGA_2790
sequence1	MetaGeneAnnotator	CDS	2521874	2522176	.	+	0	ID=MGA_2791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDLTKIIKDRTRREILLYLHNRGKATYSDILHDMKLSTGKLNYHLKVLEPFLSKENEYYKLNDKGNQLAEIILSLGDNKNSSEKYYRNSLLLFHLFSSL;locus_tag=LOCUS_27830;note=MGA_2791
sequence1	MetaGeneAnnotator	CDS	2522494	2522685	.	+	0	ID=MGA_2792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIVWGIILIADSLSGFIDLTPLLLGLSILVNKESTYNYKLFLLITIVLIISATLFKIFILQY;locus_tag=LOCUS_27840;note=MGA_2792
sequence1	MetaGeneAnnotator	CDS	2522682	2523086	.	-	0	ID=MGA_2793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFKVLFLTKDKKFIYDGKVREVRQLEDLEGINIRFSRPMIVYDVEEVDLDYFTENFGHLLVGDKTVVDLVHLLKFSNFIAYVDHYRNKIELFIDGNKYIELSYSSLPFLRYLFAKIPRGILLENTDFYSINPD;locus_tag=LOCUS_27850;note=MGA_2793
sequence1	MetaGeneAnnotator	CDS	2523239	2523427	.	-	0	ID=MGA_2794;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSRIYLFAINSEKNPLKSYIVRIELGKYVKASCSCKGFAIRGNCKHIKICMRKIRCNKKIQ;locus_tag=LOCUS_27860;note=MGA_2794
sequence1	MetaGeneAnnotator	CDS	2523493	2524848	.	-	0	ID=MGA_2795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978909.1;translation=MNEMLCNIPKVTVTTWNSKNVILVGPTYTKYLQKTLDAIKNNDVASIIGQPGMGKTTILKKTQENVSELSFYLDLASKGEIEEEFWSKISPYNLKELTFNYLNENRKKFGYSFWKKITGTKLEDWLVKVCDKYDDKYLRIYCLSYNKDFDGMLNLLSDLNGITKVALLIDEVRESHIPKIHRLINAGLGIPVIMAIPTDSYSKVTDLAIRRRLDESRISLDSALTPEDIKEIVDAYCNPISEEIFPIVLSMWKGRELNTVSSILQFIKSQIEKFDKECGDNAECIKEKLRSSHTLKNPDDESKNLEKFIREGLSSMSKELGLSYVHLRGKRIEVKGKYIVAGIFFIKDDLAFVGIVKLMNDDKEEDEDIKLLSQLEKVEHDKKEYIVGNRFVITNSMKLKVDESKVTKIEVPTLEAIRILHGDSEILEEKIKEFTLSFVQKTGNETVNNIG;locus_tag=LOCUS_27870;note=WP_010978909.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:62.4%25%2C q_cov:97.6%25%2C s_cov:98.5%25%2C Eval:1.5e-158],MGA_2795
sequence1	MetaGeneAnnotator	CDS	2524841	2525344	.	-	0	ID=MGA_2796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978908.1;translation=MLSEDEIIATLKELYDGKPVAFSKIKRKLKCDGEELLNVLEKMEKSGKIRKIESGGGKAYEILEIDKTDIILNEIREIKDEIRKLQEYISEKKKISEDTFDAVYDKVKDNLGYAHLQAIRIELGMDKEEFYSKLKRHIEDNYDFIAGGEEGYVRKGSIYGIIKRRGE;locus_tag=LOCUS_27880;note=WP_010978908.1 hypothetical protein (Sulfurisphaera) [pid:57.8%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:7.9e-56],MGA_2796
sequence1	MetaGeneAnnotator	CDS	2525415	2525975	.	-	0	ID=MGA_2797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMAKTISKEDILNIIIQLQKEGIDKVPKTRIKDKIGRSKQVDDFLEELVKEGKLIKEKSGNSILYYVKQENNEDHEENKLEVKENKIDEPKINEMFSDIINYIQDIRKILLKENTVDSKKFDEIYGKTKDSDGYSKLSAIRIEMGLTKEAFYSTYGEYIESKYQLYPGGEEGLTRKGNLYGIIKLK;locus_tag=LOCUS_27890;note=WP_155864484.1 PepK (Acidianus infernus) [pid:43.1%25%2C q_cov:34.9%25%2C s_cov:71.4%25%2C Eval:6.4e-10%2C partial hit],MGA_2797
sequence1	MetaGeneAnnotator	CDS	2526029	2527606	.	-	0	ID=MGA_2798;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980485.1;translation=MYDVILSADRGSFTDYGGSSVLGYVACMPSRLVPRFFMDKFFTPKVKTDKEGKALYAPYALRKIESLLSESGFNVAVIPPEKIEKFAGKTRILGITVHDPFGLNPVSAKLSFLFGGGPTWTAQFFDELGQKISDLKGKFNFKVIAGGPGAWELSLRKPEWIDVVFLRDAEVDLPKVIKGMIENEDVPQVVRGKDPKVDDIPPIKNPARLGEVQITRGCPRGCKFCSITPESFRSIPIDVIKKEVEVNIKGGWRRVEFITDDVMLYGSSKLRTNHEAIVKLFSEVMAMGVDGIWFPHISAPAVRESPKTVKAISEITRYDVDRAAAPVVGLETGSQKIFEKYMSAKAFPWTPKDWKNIIIDATGIMNNYYIYPCYTMTIGYPEETEEDVRESMDLVQSIIDHKFTAWVFPLPVIPISTSYISKNPYPKPETLPEGYWDLLYMSWNYNFKVTRDLIPILTGGIRNKFVRNVVKTMINKTFSSIDDIFRNLKETKGEYSKTFSKINLNNTVGIIKAIYWLIRLSAKPQ;locus_tag=LOCUS_27900;note=WP_010980485.1 radical SAM protein (Sulfurisphaera tokodaii) [pid:73.9%25%2C q_cov:99.8%25%2C s_cov:99.2%25%2C Eval:1.8e-238],MGA_2798
sequence1	MetaGeneAnnotator	CDS	2527995	2528780	.	+	0	ID=MGA_2799;product=DUF973 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979047.1;translation=MFIVGDFIIFTVLGAIVVYIISFVFVFLAYSRLRAGFGILQSNGKNTGLGRTGATLLLVGMILDVIGAILLLVFVGIAFLAIGAIIVIIGEILVGIGLYNTGNAYNDGLLKIGGILVAIIVTAFIGYILAYVSLGGILDKLKSGSFVPSPTYSQPGTQYPGTQPTFSQPSNIYQIGTGNLKANGEAYVAIYSPTPIQIVSAEIVGTSMISSSITPNLLSPGSNNVTINFGTITGLLPNNTYTIKLTLANGQTIDTIVAYQP;locus_tag=LOCUS_27910;note=WP_010979047.1 DUF973 family protein (Sulfurisphaera tokodaii) [pid:40.1%25%2C q_cov:98.9%25%2C s_cov:84.6%25%2C Eval:1.4e-42],MGA_2799
sequence1	MetaGeneAnnotator	CDS	2529736	2531934	.	+	0	ID=MGA_2800;product=carbamoyltransferase HypF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011761966.1;translation=MKAYKIIFSGIVQGVGFRPFIYRIAVKSGVRGYVRNLGGSEVEVKIVGKEENIAEFMSLFFLKLPSPAKIEKIIVEDSEIENFKEFQILKSGSTIKEVGEIPPDLSVCDECMKEVLNEKDRHYMYPFNSCAYCGPKFSIIYKLPYDRENTSMKDFPMCSSCQKEYEDPENERRFDAQGISCPICGPKLFLEDIKGERIEGDPIALTAKLIEEGKIVAIKGIGGFHIAIDPFNDDVIIRLRERKKRPQQPFALMAISTDVIKKYAEVSEIEEEILRSPERPILLLKKRESISKYISPGLDRDGFFLYYTPLHYLLLNSLKNKISVMTSGNIHGLPMCIDEECVKDKLKDVVDYVLYHNRKIVHRVDDSVMRISSRRIIMLRRSRGFAPTWIRIKKKVEPTIALGAELQNTGAIAFDDKVILTPYVGDTDKLENLEEMENSIRFLLNTYSIKPKYVIADKNPAYQSLRLAKKFSEEFSAEFYQVQHHFAHGLSVAAEKGVDEGVIIAIDGIGYGDDGNGWGGEIIKFEGSKYSREYHLRYVNYAGGDINAKKPDRMLALFLSNFLSWEEIKKHVKLSEKEIKILEMQSKKSSLYTSSVGRFLDAVSAFLDVCHERTYEGEPAIKLEAMKGRILDFDFPIKGEEIDTIEAFKWFLNNNLRKEDIATTLQYKLGEALVNAAERLNPERILVSGGASVNEYILKGILDNAKAEVLTLSKVPPGDGGISLGQSYFKVL;locus_tag=LOCUS_27920;gene=hypF;EC_number=6.1.2.-;note=WP_011761966.1 carbamoyltransferase HypF (Pyrobaculum islandicum) [pid:45.5%25%2C q_cov:99.5%25%2C s_cov:98.9%25%2C Eval:8.7e-173],MGA_2800
sequence1	CRT:1.2	repeat_region	2531952	2535880	.	+	.	ID=CRT_9;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=ctttcaattccttcttggatgaaac;note=CRT_9
sequence1	MetaGeneAnnotator	CDS	2536477	2536986	.	+	0	ID=MGA_2802;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLPKKVYNDNYKLSKDLRYPYFKSYFLFKYIILKYLNLINISKYLKIGIKNIICYFYIRLIMDQVVTAMILVVATIALGLIAFAFSSAYSSTVNVSYYNQIEAEKISSSFNPTTVNINNSCALIIPYSYFYHGIFYVTVFEVPEYLVNYRALTGRPKIILEKIFLIG;locus_tag=LOCUS_27930;note=MGA_2802
sequence1	MetaGeneAnnotator	CDS	2537087	2537731	.	+	0	ID=MGA_2803;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITPGLPHQNNIQQIGYKLLSMLNFQGEKVDEVAKTLISACLWNDSVENKSRAYDVSPQTVRNYVEKQGMEVIEKLLERARKISLEVLKGVKEIDLSIDWTTKTWYGKPVKGLGSSEKGNSWNYATATTKYKGKVLLLAFIPQVNGMTKDEIVKILVEQVMAMGFKIRLITLDAGFYTVDVLNFISQFKYIIAVPTGDVKVFEEFDGDYKTNSK;locus_tag=LOCUS_27940;note=WP_012953324.1 ISH3 family transposase (Sulfolobus islandicus) [pid:92.5%25%2C q_cov:100.0%25%2C s_cov:60.5%25%2C Eval:3.3e-107%2C partial hit],frameshifted%2C insertion/deletion at around 2537728,MGA_2803
sequence1	MetaGeneAnnotator	CDS	2538503	2538874	.	+	0	ID=MGA_2804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYYKN;locus_tag=LOCUS_27950;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:70.5%25%2C q_cov:97.6%25%2C s_cov:34.2%25%2C Eval:5.8e-46%2C partial hit],frameshifted%2C insertion/deletion at around 2538862,MGA_2804
sequence1	MetaGeneAnnotator	CDS	2538763	2539560	.	+	0	ID=MGA_2805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILQGKRDQDTTSKPKYTMEGEGLERKENRFLLQKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQLQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIIWSVWYNNKPYEPK;locus_tag=LOCUS_27960;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:70.4%25%2C q_cov:92.5%25%2C s_cov:69.2%25%2C Eval:2.3e-96%2C partial hit],frameshifted%2C insertion/deletion at around 2538865,MGA_2805
sequence1	MetaGeneAnnotator	CDS	2539711	2539899	.	-	0	ID=MGA_2806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDVFRVYVPPPWYATLWPYFLTIGIIMLLSSLIDDKKIMKMINVIKEFIWFLIDHLGPFLD;locus_tag=LOCUS_27970;note=MGA_2806
sequence1	MetaGeneAnnotator	CDS	2540475	2540684	.	-	0	ID=MGA_2807;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAWGAIECSISSPTSSTYYYNVQTWLLGTLKGIDTKTQELPTAPLPYANEFVNIVTSPQQLIAIGSATF;locus_tag=LOCUS_27980;note=MGA_2807
sequence1	MetaGeneAnnotator	CDS	2542197	2542412	.	+	0	ID=MGA_2808;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTKLKSIDEIIKVSIYYKDINETIGLESPVCYLTGGGGGGGSGGDPEGMSCGYPTSSCWSIPYPKYPKKR;locus_tag=LOCUS_27990;note=MGA_2808
sequence1	MetaGeneAnnotator	CDS	2542419	2543408	.	+	0	ID=MGA_2809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSNNEKIFYLTIMSSSWCNFRCIYRFENNYFKKENIITSQDTIFRIKLFIKNTLEKKLFNRIHITWYGGEPLLDFKTIIDIMDYIINLSKTYNIKISSDILTNGYLLDLYKFTELIKRNVNIFQITIDGWKDTHDKLRPLLNNGTTFDRVFNNLILTKNIKENFIMIIRSNITQTNIYSIKKFLNVISIYLSNDKRYYFSFFIIKRSGSKNDDKLDFIDREKRNFVLKDLYNYAFSLGLNVLSNTLLYQMGTIPTKYGMCGAVYPYSITIRNDGKIFKCPMTVLLDNEAVGYLDKDGSLIIEEEKINRWAKYINSKIGCPRLAEFGEM;locus_tag=LOCUS_28000;note=WP_004083337.1 radical SAM protein (Thermotoga maritima) [pid:29.3%25%2C q_cov:92.1%25%2C s_cov:64.7%25%2C Eval:1.1e-24%2C partial hit],MGA_2809
sequence1	MetaGeneAnnotator	CDS	2543408	2544577	.	+	0	ID=MGA_2810;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFNIFKNRDVKIYLIQHSIQPYLALSFILPAYVFLFSKNIILVGVLLSIAYLLGHLTIISGFLTDYVVNTRLYDFILSVLSGLIFLVSSLVYSNSVSFIFLLYAVLGVVYTLKGTNHRKVFRNVVNSYKDYRNIWVLTHSIRAFTSIILLYISLFIVGLKYTLLILGLYMLFVHTPLIFLINYPRGTGNAKLIFNMSFSLLKGKKGAQFYVIDNFFSNFFSGILPVFIGAFSLSFSFLTNYIIYYVAFILYDAIYLIILNKDLKGVNGRYSVLFLRGLVPSFILFSIVILSPSLYIIPIVLFSVVLTFYNVFVTQAIQFNIPKEVYATFIGLNVTFGSLFYTLGNLILPYMEITLGLKGVMVLVSIVLAIYSLIISYRFKDLFKVIKK;locus_tag=LOCUS_28010;note=MGA_2810
sequence1	MetaGeneAnnotator	CDS	2545192	2545509	.	+	0	ID=MGA_2811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979786.1;translation=MRIRTLWLILILGNLYDYVATLVFAYLHILCMDRNVFIGYSTSFSNVITVLTGEKLLFLNGVYWFSKLFDYLKISNYKWLGLLPFTIITALIVIDDSLAIIITLF;locus_tag=LOCUS_28020;note=WP_010979786.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:63.4%25%2C q_cov:96.2%25%2C s_cov:92.7%25%2C Eval:1.0e-34],MGA_2811
sequence1	MetaGeneAnnotator	CDS	2545687	2546040	.	+	0	ID=MGA_2812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979788.1;translation=MLWVSVLILVAGIISTLLTVHFSLRKADKRGLIIILSSLVLIGVGLWLLSMDHTVYIAKPIHVAYPSNIQPLGPLAYCVKIPPPWYATLWFYFLGIGLGMLSVMVIFESIIRLLKNG;locus_tag=LOCUS_28030;note=WP_010979788.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:37.3%25%2C q_cov:90.6%25%2C s_cov:93.9%25%2C Eval:7.9e-11],MGA_2812
sequence1	MetaGeneAnnotator	CDS	2546179	2546346	.	+	0	ID=MGA_2813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQEITDIIKDIDSNDNIDFPYDLTVENGVIKSYSDEVYDVFRFMTRVMKKIKKI;locus_tag=LOCUS_28040;note=MGA_2813
sequence1	MetaGeneAnnotator	CDS	2546381	2546902	.	+	0	ID=MGA_2814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIIFSTTAYIPIWKMTEEQKEEFKQSRLYRNVIPLVFREINSKYRYMYMDDKIENSIENGFIDGVKTRVKIRLVFSSKKLERENSIVKEHFYHIGVIEEPKELAGKIILRHGAGIYDIRIRDFCHNSHFYHYFAEKIQGVFSKETFYPQKVIIGKSCPLSQITIVEYLRKKA;locus_tag=LOCUS_28050;note=MGA_2814
sequence1	MetaGeneAnnotator	CDS	2547193	2548230	.	+	0	ID=MGA_2815;product=acyl-CoA dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979871.1;translation=MLESQLILDTVRNFSKNKIEPLSEKIDREDWYPRNLVREMGSIGILNPLYQGLDLYTAMLILEEIAKVSGSVALIQDAQTELVTEPIRKFSKVDVNALSSGEKIGSFGLSEPCCGSDTSSMKTKAVKKNEWIITGEKMWITQGLYADLYLVAAKVDNKINAFLVNRDPCISVSKIEVMGNRGTGTAHVKFEECKGEHIGGWEVIKYALNIGRVAISAISIGLAEGAIEEALEWGNSRIVFGKKVLEHQGNLWKVSDSISKILMLKSFLKYVCENMNDYLISSLKLQSSRISQEIVDQSLQIMGGMGYAKGSKIERIYRDIRLTRIGEGSDEVQLHIISKNINKIF;locus_tag=LOCUS_28060;note=WP_010979871.1 acyl-CoA dehydrogenase family protein (Sulfurisphaera tokodaii) [pid:52.8%25%2C q_cov:97.4%25%2C s_cov:96.3%25%2C Eval:8.5e-100],MGA_2815
sequence1	MetaGeneAnnotator	CDS	2548422	2549492	.	+	0	ID=MGA_2816;product=thiolase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979869.1;translation=MTKLEKVGIIGAGWYGFRPQVKDLSFREMVFEAASRAYESSGIDPRKDVDTFVSCQEDFWEGISIADEFAPDPIGGAMRPTMTVPGDGIQGIIHGAMQILSGVSKVTVVESHAKPSDIEKIDKIIELGMDPLFSRLGVNVNFLAGLDATKFMKNYGIKREDLAEVVSRNLSSGFKTPRSSFASKVSVEDVLSQDFLVYPLSTMDIAKYVDASIVFILASEEIARKYDPVWIEGMSFSTAEKLGEAEYLSIASRQAYKMANVKPSQVDGIFVDDRYSYKELQHLEALGISSKEFLRDQNIEVNPYGGHLAKGVPLEASGLSLLLDAVDFIEEGHESAIVASWRGIPTYTGSVLVVRK;locus_tag=LOCUS_28070;note=WP_010979869.1 thiolase domain-containing protein (Sulfurisphaera tokodaii) [pid:59.8%25%2C q_cov:98.6%25%2C s_cov:99.7%25%2C Eval:1.8e-121],MGA_2816
sequence1	MetaGeneAnnotator	CDS	2549489	2550643	.	+	0	ID=MGA_2817;product=thiolase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979868.1;translation=MRKVGVIGAGLTLFRRRMLETPQELAYIAASRALDEAGLELKDIDCVVIGSAPDAFDGVHMKGEYLAKAGGEKKMVSRVYVGGATGVMTAISAWYHVASGLCEKVLAIAEEKMSPARPHPQSVFKYIWDPITEKPLNPNLIWIFAMEMHRYMAKYGIRKEEIALVSVKNKRNAMNNPYAQLPGNITVDDVLKSEVLVWPVQLLDVSPTSDGAAAMVVATEDVVRRYTDTPVWIEGVGWTLDNTSWPGRELAYPRYLENAARMAYKMAKIERPYKEIDVVEPYDPFDYKELHHLEGLMIAKKGEAPTLLKEGVFDIDGDIPSSPSGGLLGVGNPIAAAGLMKTISIYWQLKGIAGKMQVKKPVHTGVAQAWGDLMQASTVIVMRN;locus_tag=LOCUS_28080;note=WP_010979868.1 thiolase domain-containing protein (Sulfurisphaera tokodaii) [pid:85.2%25%2C q_cov:99.7%25%2C s_cov:98.2%25%2C Eval:2.1e-190],MGA_2817
sequence1	MetaGeneAnnotator	CDS	2550654	2551160	.	+	0	ID=MGA_2818;product=Zn-ribbon domain-containing OB-fold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979867.1;translation=MERKELENPLKEEELKDHITISYKPFAKYEYSAGQAISKYLEGLKEGKIIGRKCNKCGRVYVPPKMYCEDCFRPTDEWVEVKDEGIVETAVASFISWTREKIEEPEIVGTIRLFPSKENDYVFPGVFHRICCSYEEVKNMSIIGKRVKAVWKSQRKGDVNDIECFKVI;locus_tag=LOCUS_28090;note=WP_010979867.1 Zn-ribbon domain-containing OB-fold protein (Sulfurisphaera tokodaii) [pid:78.8%25%2C q_cov:95.2%25%2C s_cov:97.0%25%2C Eval:3.3e-73],MGA_2818
sequence1	MetaGeneAnnotator	CDS	2551161	2551577	.	+	0	ID=MGA_2819;product=Zn-ribbon domain-containing OB-fold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979866.1;translation=MAWDKSANSIQVKDNMEVFEYVYTAGKNGEEFFKALKDKKILGGRCDKCGKVSVPPKMFCDCFGLQKLEEIKGKPFIDSFTIIYYDNDGKKLETPITLGFISFEGVEGGILAYIEGVPEIGKEVEILEYNIPLRVKVK;locus_tag=LOCUS_28100;note=WP_010979866.1 Zn-ribbon domain-containing OB-fold protein (Sulfurisphaera tokodaii) [pid:51.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-37],MGA_2819
sequence1	MetaGeneAnnotator	CDS	2551574	2553385	.	+	0	ID=MGA_2820;product=AMP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979865.1;translation=MSWKPSKEWIEESNVYNFMAQKSLDFDSFLEYSTTPEFWEYFANKIFNFHRKYTKVLDLSEGKQWPKWFVGGGLNVGNQLKESSDIFVKYMNEKGEKKELTYSQILNQTKAVSSWLHKIGLKKGDRVAVYMPMIPEIVPTFLGIIRAGMIVVPLFSGFGKEPIKTRIDDSNAKLIFASDITMRKGKEIDMLQNIKDIPIEKVIVKRGDEKDYLDFNEVLKTPGDYVEDTSTEDPIMIIYTSGTTGKPKGCVHTHDGFPLKASADVFFNFDAKEGETISWISDMGWMMGPWFLFGGMLLNNKIALFEGYPDQNTLSRFVDELKVNILGLSASLVRALRAESEIYKLNLRIVGNTGEPIDVESWKWLLKVTDSPIINYSGGTEISGGILGNYVIKDIKPSSFNGFSPGIKADVFDEEGKRANPKTEGELVILSVWPGMTRGFWNNKERYIETYWSRWKDVWVHGDLAYYDEEGYYYIVGRSDDTIKVSGKRVGPAEVEAVVNSYPDVIESACVGVPDPLKGEKIICFVVSKNKDENKILEYTQKMLGKAIAPSEIKIVKELPKTRNAKIMRRLIRAIILGKNLGDVSSLDNPSSIEEIKKAIHNP;locus_tag=LOCUS_28110;note=WP_010979865.1 AMP-binding protein (Sulfurisphaera tokodaii) [pid:65.1%25%2C q_cov:99.5%25%2C s_cov:99.7%25%2C Eval:4.4e-244],MGA_2820
sequence1	MetaGeneAnnotator	CDS	2553369	2554175	.	-	0	ID=MGA_2821;product=CoA ester lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156015949.1;translation=MRRRSQLFVPAISEKMIRKSTELEADSIIFDLEDSVPYEDKDKAREILRKSLEELQWKNKELCVRINNLGTKEGLKDLVLISEIEIDTIVIPKAEGNLSFVYRSTGKNIEPLVETAKGFIDIENLVRSEGIVSISYGAADISLSTGGEVKTYENNEYVKTKIVMYAKAYGIDPIDKVFFDLKDLKGFEEECLHAKKLGYVGKQVIHPSQIPISNSVFSPTKEEIEWAKKVIEAYENAIKEGRGAIRLEDKLIDNVHYAIAKKIVKDYG;locus_tag=LOCUS_28120;note=WP_156015949.1 CoA ester lyase (Sulfurisphaera ohwakuensis) [pid:55.2%25%2C q_cov:93.3%25%2C s_cov:99.2%25%2C Eval:4.1e-77],MGA_2821
sequence1	MetaGeneAnnotator	CDS	2554172	2554417	.	-	0	ID=MGA_2822;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METSFYRQALIRNFISIILQSQDYKEEIKKQFSIDQNKERVCSSLEDLREMIEETSTYILGKEINDDEKEKIFSLIKDECI;locus_tag=LOCUS_28130;note=MGA_2822
sequence1	MetaGeneAnnotator	CDS	2554478	2555662	.	+	0	ID=MGA_2823;product=dimethyl sulfoxide reductase anchor subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979857.1;translation=MERKLGFIFDHNKCIICNACVDACNKAYGMNWRKLPIFDINGNKTALSISCNHCRDPKCMDVCPTGALRKLDNGIVYVEKERCIGCNYCTWACPYEALTMGNDSMTKCHLCMDKLGKGMPYCVEACPTGALAFGWLENSDAKVDYLPPSDITKPDLKIIQPEGVKVKANVIKEKEEKNYLGLLIFTIFSEISLTYSLLRLPYFLPVSIVLLLSSLILSITHAKFFSRALAMIYGIKNSWLSREVIFGLISVLFFILTFIYPQFFYPAVLFLCLSVLSSIMIYMLKSRPSWYNPDTPMSFIGTCFTVVMPLAFFFTSNIAYIIIGIIFGILEIFTAYRKRDLKERKFNIIPIVLLGISTIFLPVSIISSASALVIEIIYRRKFFKKVIYYGIPNI;locus_tag=LOCUS_28140;EC_number=1.8.5.3;note=WP_010979857.1 dimethyl sulfoxide reductase anchor subunit (Sulfurisphaera tokodaii) [pid:48.2%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:2.5e-106],MGA_2823
sequence1	MetaGeneAnnotator	CDS	2555659	2556276	.	+	0	ID=MGA_2824;product=2-oxoacid:acceptor oxidoreductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846654.1;translation=MNFSVKTFISLNTLIYIWVIISLEIRFHGRGGQGVVTSAELLATAAGIDGLWASAFPIYGAERRGAEIEAYCRISKSQIRETSPISRPDIVVILDPTLLKISNPLRGLKESGKVIINSKVPPSVDFETYYIDATKIAMDNNLVKSGWPLVNIIMLGALLKVIGTVSLESLKIAIEDEFEGKIAELNEKAVEIAYNSVKEVEKIAV;locus_tag=LOCUS_28150;note=WP_052846654.1 2-oxoacid:acceptor oxidoreductase family protein (Sulfurisphaera tokodaii) [pid:65.7%25%2C q_cov:88.3%25%2C s_cov:98.4%25%2C Eval:2.1e-63],MGA_2824
sequence1	MetaGeneAnnotator	CDS	2556266	2556523	.	+	0	ID=MGA_2825;product=4Fe-4S binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846653.1;translation=MQFNDYQYFPISMPDKGAGGKTGNWRVMRPVITEKCIKCKACYLWCPEATIHIEDGVTIDYEYCKGCGVCASVCPIKAIKMVSET;locus_tag=LOCUS_28160;note=WP_052846653.1 4Fe-4S binding protein (Sulfurisphaera tokodaii) [pid:68.3%25%2C q_cov:94.1%25%2C s_cov:94.3%25%2C Eval:2.0e-30],MGA_2825
sequence1	MetaGeneAnnotator	CDS	2556520	2557725	.	+	0	ID=MGA_2826;product=pyruvate ferredoxin oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846988.1;translation=MRQKIISGNEAVALAVKLARVGLVGIYPITPQTSIIEKLAEMKANGELEAEIVRVESEHAAMASTFGAAVAGVRAFTATASQGLLYMHEMTWWALGSRVPIVMVVASRAVGAPWNIWDENTDFMSERDSGWLMAFASNPQEALDLTLQAFRISEDERVFLPMMVGMDGFILSHMKTNVYIPAEEEIDAFLPPRRQPYILDTESPVGMGNIFPPIEYMKLRQSIHEALVRSEDVIREVGKEYEKINPLGSYSTLNVKYKLDTADYAVVLMGAWAGDAMEAIDHLRDKGINVGLYRIRYVRPWSEKEISEALKDKKAVLVIDRATAMGRGSPLYEEIKATVNLDQISGVISGLGGVLLNKEDFVNIISHFVEKAKLGKANGINWYYPQEGGKVELRTPKSIEE;locus_tag=LOCUS_28170;note=WP_052846988.1 pyruvate ferredoxin oxidoreductase (Sulfurisphaera tokodaii) [pid:64.3%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:9.0e-152],MGA_2826
sequence1	MetaGeneAnnotator	CDS	2557793	2558584	.	+	0	ID=MGA_2827;product=pyruvate synthase subunit PorB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846652.1;translation=MGLGSDVALIVIAGCSSVIQGMAPRNSYNFPVLNIAFAAGPPAASGMARAYRLRNKNTTVVVWAGDGGTADIGFASLSGAAERNENFIYICVDNEAYMNSGGQRSGSTPLGASTSTTPEGKKENKKEMIFIMMDHNIPYAATASIGYPHDFVTKLKKAKSINGFKYLQVLAPDPYGWMFDPAKTPEVGKLAVQTCYWPLIEYENGKLTVNSECMHCLDKSTRRPLIDFIKTQGRFKKITEEEYKKLEEYIDSMWKRIEKMMEL;locus_tag=LOCUS_28180;gene=porB;EC_number=1.2.7.1;note=WP_052846652.1 pyruvate synthase subunit PorB (Sulfurisphaera tokodaii) [pid:70.2%25%2C q_cov:99.6%25%2C s_cov:87.0%25%2C Eval:4.9e-112],MGA_2827
sequence1	MetaGeneAnnotator	CDS	2559336	2562263	.	+	0	ID=MGA_2828;product=thermopsin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980705.1;translation=MGTILIITVIISVCPDLFLSFSSNSRDFSYNYYAFPPLDGNVTLAGKYLSGGINVYRYYSIEPAPMGIGFFGIGPDGPCIVRTSQVMARVSIGSLDISSSLYSGVMTYQFNSVMVYSSSGKNYSLWVQNVARIYSDNNSIEFIDNVWNFTSPNANVTGLRGNGNIIKFSSQTFYYYVASDLPGSMGTYSYPFTFYMLSNVTINSLGQPEILLWYNDGQGWINYDNITVTNVVDASNVSFLIDGYEYADNGLFYDEELVMGGPGGGLCTYVFSANIQMSIYYWNGNNFQEPLNTFNFGSDTAEKVNNVKDILGQSVNGQPYAAITSGSTSLGYLWNSEDVSSVTINSDVSNGSALIFPESVSYKDTFGIPPLGYIGDNFTVVVYPENYSILIYKDGVLSGESFVCAIAGKTELEKAVNFSVSTSNNITVFQGFSNYLNLTVNAVGILKIYLSIPSFISYTPIYSSFDQGTEIVSILLHASKNSPPGLYNGVVYVKLQDGQEIVKNIEISIEPRIFTVNLDYIFKGNKPSQIPEISLIFPNGTKENVTEGIYKVPYGTEYEISQEILDGNIRWITNHSIEGYFTSSSSLIIIYYEQYKVDFGFKIMGEYTSYTPQIVYYYLGRQEVTNPGIVWADYNSSYTYSKLLNGSNSTERWISYNNSGFIDGFNVTAVYYNQFYVNVNSPIKLYAKVSNSNISFVSGWYNYSEAINVENISYYITNTERILIIKMVPSNFIIVNNYTQFYAYPIIQFYVNISQNIPLKALVNGTETILTSNWYNNGTRVLIENSTYTMNFVRFLVLAVYPYNFIVNRSINVHLSLLKQYYVTVNSGVPLEAYINSTKEPITSGWYNSGTTIDVINNTYYSDSYTRFVILDIINRNITVNNPSNITVMTEKEFLVNINNVSQWYPASSRITLNANVPFYEVGSFKGTYNVPIGYTITVNGPIKEELVTGINILFVLGIMVAVLAIIVLIIIKRK;locus_tag=LOCUS_28190;note=WP_010980705.1 thermopsin (Sulfurisphaera tokodaii) [pid:37.9%25%2C q_cov:88.2%25%2C s_cov:83.1%25%2C Eval:7.5e-175],MGA_2828
sequence1	MetaGeneAnnotator	CDS	2562250	2562780	.	-	0	ID=MGA_2829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIGMLIFSIGIVLLSLSMININIPVNHTVLITKPYSMSVPNVAKGYIILINNDSNVSLTVRVIHNGVNIYKIPKVLKLTSGNWEFSIFSESYTQKVRQTVNETVHLPCGNVTQEKIVTNLKEINTTRPIYPAMIKIEITQMNLVNNKNSIEIMGIAMIILGLSIYILEKKNIIFF;locus_tag=LOCUS_28200;note=MGA_2829
sequence1	MetaGeneAnnotator	CDS	2562777	2563517	.	-	0	ID=MGA_2830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846806.1;translation=MKLSKNFQIFRLIFRERYREPTIEIVFPFMIASNIFLPAFLERGFFQTYAIVLALFPIISVSETIAFALGLRNIIFVTGNHIYRGSIIPFLMLPIKRNAIFFMTYFSDVIFPYILWLSSLEFYLIISGIYVPSIIIITFTCGYFFIENIIYLISLTFKSEGISTLLSIFTSGIIFIFGGILNYELIISNSSLLLLSSFSNPFIVLLAQYEENKNMLNFLLSGLLIEILILTFALLYSYIRFVRLEI;locus_tag=LOCUS_28210;note=WP_052846806.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:37.9%25%2C q_cov:97.6%25%2C s_cov:99.6%25%2C Eval:1.9e-46],MGA_2830
sequence1	MetaGeneAnnotator	CDS	2563486	2564334	.	-	0	ID=MGA_2831;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980558.1;translation=MIEVTDLTKNYGRKEILKGLNFKVNDHSITGFIGPNGAGKTTTIRIISGLARPTSGIVKVFGKDPWDNPEVKGKIAVIFTNLTYPQENTVEEYLRGFSDIYGVDPSPFIEEFSLTPYLKKKLSKLSSGLSQKVQLVSALLKKPKLIIADEPTANLDPKARSEFYDKVRRLNKNGVTFFISSHILSELEKIITEVVFINDGKIVFSGKINEALNDSEEEEIYILVDNQKAAMSILKNARVDGGYIIVKGNVREIVDILDENNIKIISLRRSSLDEAFKKFSNI;locus_tag=LOCUS_28220;note=WP_010980558.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:52.8%25%2C q_cov:99.6%25%2C s_cov:99.0%25%2C Eval:3.6e-79],MGA_2831
sequence1	MetaGeneAnnotator	CDS	2564358	2564588	.	-	0	ID=MGA_2832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIIYVTTTTTKVPPQPFYIEYFPEIAILILVIPIAIVLGIGFYMHWLSFSEFSIRRERKPKRRHKKSSSKVDKSI;locus_tag=LOCUS_28230;note=MGA_2832
sequence1	MetaGeneAnnotator	CDS	2564612	2565208	.	-	0	ID=MGA_2833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980166.1;translation=MRPAYICLVIIVIAMYSLVFAHIFINGINVSYLALITGDVKTKKDDVNFYVILNNSKIYPGQFLKITVFLYNNGSTIIRGGESNLKIFYPLPNQSKLPFNLAIFKGYYTKYNISYGVPLNIFNFTTNDPKQFSFEILPHSSIIKANNYYENGKTTFIINGYWENGSFKKFSPGVYTIVGSDFLGQLIIKHFYVNEKTF;locus_tag=LOCUS_28240;note=WP_010980166.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:31.1%25%2C q_cov:97.5%25%2C s_cov:99.5%25%2C Eval:6.5e-11],MGA_2833
sequence1	MetaGeneAnnotator	CDS	2565330	2565962	.	-	0	ID=MGA_2834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980166.1;translation=MMRATYPILIIVIGSIFTFLFLHIELYSSTQFGNSSVQTISPNLLKLDLELNSTSIKPGQSLQITTELYYMGESPYYVNVGKHYIRLPSPYPCGQNLLVGLEIFKGYYTTSNISNATPLYLYKPGIYFCPVILAATQYKLLPLSNQMQLIYNGKIVGTVHNEISISINGYWITNYTNPLSGKFTLFTPGIYTVEGISYFNQTVLEYFTVT;locus_tag=LOCUS_28250;note=WP_010980166.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:51.0%25%2C q_cov:97.1%25%2C s_cov:96.6%25%2C Eval:6.2e-50],MGA_2834
sequence1	MetaGeneAnnotator	CDS	2566106	2566294	.	-	0	ID=MGA_2835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNQIQMTYNGKSIGRGKDDIAVFPKGYYATPAKFTLFTPGIYTVEGISYFNQTVLEYFTVT;locus_tag=LOCUS_28260;note=WP_010980166.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:50.8%25%2C q_cov:98.4%25%2C s_cov:29.3%25%2C Eval:2.6e-09%2C partial hit],internal stop codon at [2566310:2566312](-),MGA_2835
sequence1	MetaGeneAnnotator	CDS	2567090	2568478	.	+	0	ID=MGA_2836;product=SelD-related putative sulfur metabolism protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846378.1;translation=MEEVFERFKENLERYKKMGLNPLSLATGCAVKVDLIDTVYPALEKIKEKLIENNIEVLPREDADIFVSKELIETKRVIGEGSFDADRAISLIQVNQETAGNPEKFANFLLRAYTSIKTNRKLTIGKGHSIVTTVPKAEVAVIDLVKLEGKDTNSYTLANNDTIQIVDPLDDPGSQMQVDVAISNSLNDLFTKGAFQNLRMTPLYDSPDIDLKERLRKNFYNFSKKYNIEINDDVQPNTGTLMIGATVFGESDHELPIYYNKVEEGDVIIVSREIGELTPINVYMWVLAAPEILDVMESKGISFERLEKAKKKALDLMRVPNLGTAKVIYSYLPEFKKVFDRENHITMTTDVTGPGIFVIKEFAEKAGVDVKLEEIPVIDKDIAEFATESFIIPNSTAGTNGGIVIFSSKKIADDIVEDLHKAGMNPKIIGKVLRKGSGTVYVNSEIEKFIHRKNILKYFKII;locus_tag=LOCUS_28270;note=WP_052846378.1 SelD-related putative sulfur metabolism protein (Sulfurisphaera tokodaii) [pid:68.8%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:1.4e-183],MGA_2836
sequence1	MetaGeneAnnotator	CDS	2568584	2569483	.	+	0	ID=MGA_2837;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979801.1;translation=MIEVSNISKKYGNFTALQDVKFTVNNGELVGYVGLNGAGKTTTIEIIAGVSYPNSGDVIIDGHSIIKEKKEASKNVSWVPELPIFEQDAKVLDYFIYLAGYYGIGKEEAKKKAEELFSLVGLQGREKDKLKNYSQGMKKRFALAVSLLSDPNNFLFDEVLNGLDPQGIMFFRDLAVKLKRENKAVLFSSHILTEVENIADKVIFIHKGKIIRQMSIEEIKSFTKTNIFRVVLGRIDGDVIKIAEKYGNPKLQGNTIFIENFNGNIPGLSSDLLNYNVIEMGKVEGNLEEVFFKLIGEQK;locus_tag=LOCUS_28280;note=WP_010979801.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:59.0%25%2C q_cov:98.7%25%2C s_cov:99.0%25%2C Eval:1.6e-96],MGA_2837
sequence1	MetaGeneAnnotator	CDS	2569480	2570895	.	+	0	ID=MGA_2838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979730.1;translation=MKPVFYDFKRSFLRLSVILFIVIFAAIGIAVSYETYATNVSSNPYYFHNLNVLGVSIQKDNGVEVIGYVFNNHGIPINNAQINVNGASYRTNTSGYFELNLPQSYFEPIAVSYNNQKIEFIPLPVFENGSKYLSAEGIEEGFGYGIQNNVQNNTVKYAFAVINNNGKGTLILAIDTPNNQKVYVSFLNNSFSVTISITSFKYVGNVTSYINFYHLQTPNSIKLLSVGVKSSSSFTFPTTEYYPDGSAIKSLVGGINGVIGGFTFIFPAVMLYLAYILFSKPRDTGALKFILARPITRRELYINRYLGGVLTAIISSFLLTFLSYATLSILVSSSGILLPIDIPLILFVSTSGALIGFFSLVYMLPSFIKSGGAMLGISIFLFLFFQIGLSTIAGIIAFTTGHINEVTQMIYGIYYFNPLGAESYGTYYLGVQYGTTPTVSSVHLPLVILSSIVWIAIPFIIGLIKFNKINI;locus_tag=LOCUS_28290;note=WP_010979730.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:27.8%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:3.6e-41],MGA_2838
sequence1	MetaGeneAnnotator	CDS	2570960	2571553	.	+	0	ID=MGA_2839;product=NAD(P)H:quinone oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978866.1;translation=MDTKILVLFYGYGSIVELAKEIAKGAEEEGAETRIRKVRETLYPDLIEKFHVPLDSTKDIQEVNLEDLKWADGLAIGSPTRYGNMAGGMKTFLDTTAPLWRSGDLYGKPVTFFTEASTIHGGHETTILTMTTYAFHFGMIIVPLGYAIPEISSTNTGGSPYGSSHLSSKKDLDENEIKIARFQGKRIAQVARKLKGS;locus_tag=LOCUS_28300;gene=wrbA;EC_number=1.6.5.2;note=WP_010978866.1 NAD(P)H:quinone oxidoreductase (Sulfurisphaera tokodaii) [pid:70.2%25%2C q_cov:97.0%25%2C s_cov:95.0%25%2C Eval:6.5e-75],MGA_2839
sequence1	MetaGeneAnnotator	CDS	2572017	2573261	.	+	0	ID=MGA_2840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFNQNQFNIFEKNSSGTPIFFNVSDNVSYKVGPLSTDTYYIVVLNNVTNNTINVNTEYSLVPYNVYNVRSSLPAPIGIADYGVYNISNTLKGTITKYDEAIGYVTIYNISAFNSTPPEGVNRSGASLQLNSVLQINTNNGSYQFWLQNVIGFITSERTYYVEDNIWNFTSNVSYLTNSSVNGKGSVFPYKNEFYYAYGTNYYNYTFPLSMILYIKVEGISSEGVTISFGYNNGSGIQWYDNATINVANVKSTYLLIDDYNVTGSQLYYDLELVFAGQANGEYTYFKSMNASLGLQIILLNGTLITPENFYTFGSDTEESADNLITIFKENQSWVLIGNDNFYNIGNTSIPKFYLHPLSNKNISNASSSYSRSIIPSNTQQSSNATSNFSMLTYLLLFVLFILVALGIKRLRRR;locus_tag=LOCUS_28310;note=WP_010980717.1 thermopsin (Sulfurisphaera tokodaii) [pid:42.4%25%2C q_cov:79.5%25%2C s_cov:42.8%25%2C Eval:5.3e-62%2C partial hit],MGA_2840
sequence1	MetaGeneAnnotator	CDS	2573417	2574010	.	+	0	ID=MGA_2841;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980309.1;translation=MEIEINGIKIQLVNSTEKNVNDYLEFVNSLSKDEDNYTLVRYSEVNKNQIIEWSKSWGKQTMMILAYQGDKDTLKVVGNIQLNKGRYFGSERQFHVGEIAYAVDKYFRGKGLIYALFSYLLRSTDVKILTAWVDERNIKSQKILENLGFERLCKINEFMYSLKEKTFVNLIFYSGRTEVARERVEKYLEKFNLKIKY;locus_tag=LOCUS_28320;note=WP_010980309.1 GNAT family N-acetyltransferase (Sulfurisphaera tokodaii) [pid:44.9%25%2C q_cov:92.4%25%2C s_cov:93.1%25%2C Eval:2.6e-39],MGA_2841
sequence1	MetaGeneAnnotator	CDS	2574148	2575233	.	-	0	ID=MGA_2842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009074107.1;translation=MIRNRIICSREALENFQFVTVNGKVIFEDKDKIVRIARAYSQVVKSAIRPLFDGKSVDELTKEFYSILPNYIYLETALKQAKTITDGLLDREKDKILHAKVKRFWFGSRGNKSDKGNRNVKFHVFQDHVEVRVKDPWSKWVHGKAYLGKEYLPLLHELEELAERKEEGYGAVISFKHYPMIHLQVPLWLYLKHFSLPKPVGYGLIAGFDLNSDRLNVVVVNKDGKVIAIKTFWYSDVTRPGFPKGKAMALRLNALSESLNFLSRVGVDYVVFEDLFLVKRRRFTRSKSGNRKVSRFAKKQLLIHGVIKALRLGFNVILVNPKGTTNSEYHDRMMREKGFDRHTASAYLIALKGLGMLNNIK;locus_tag=LOCUS_28330;note=WP_009074107.1 hypothetical protein (Metallosphaera yellowstonensis) [pid:80.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.7e-171],MGA_2842
sequence1	MetaGeneAnnotator	CDS	2575226	2575384	.	-	0	ID=MGA_2843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVQVTFHSKIFSMGHDKYGDPKYAIYVPKSIHEKIKGLLEKEVIVIVILPDD;locus_tag=LOCUS_28340;note=MGA_2843
sequence1	MetaGeneAnnotator	CDS	2575761	2578679	.	+	0	ID=MGA_2844;product=formate dehydrogenase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978020.1;translation=MSFRVKIDGKELDVNKGDTILKLLDKNGIYVPHICYNPYLGPIRTCDTCVVEVNGKIVRACETYVEENMNIRTNTDKVKVARQKAFNTILRNHDLYCTFCDNNVDCELHDAVSRLGIYSQHFIPKPYEVDDSNPFYVYDPKQCILCGRCVEACQDIVVNEVIKIDWKLNPPRVVWSNGKSIDYSSCVSCGTCVTVCPVNALMEKSILGEAGYFTGINKEIKEKLILAAKAGEKNFAPFMLISDIDKQMRNSIIKKTKTVCTFCGTGCSFEVWTKGRKILKVEPKPESPANGIATCIKGKFGLNFVNSERLTKPLIREGDRFREATWDEAISLIASKLTEIKEKYGPDSIGIIASCTSTNEEGYLAQKFARQVIGTNNVDNCARYCQSPATTGLIRTVGYGADSGSSDDLACADLIILIGTNTAEAHPVIAGKIKRAHKLYGKKLVVIDVRKHEMAERADIFITPKVGTDIVLLNGIAKYIIDQGWEDKKFISERTVGFEEFKKSLEEFSLDYVERTTGISKDIIIKIAEMIHESKGIAIAWAMGITQHQDGSETSTAISNLLLLTGNYGKPCAGAFPLRGHANVQGVGDVGALYNFLPGYQSLNDEEVRRKFEEAWNCKLSRNPGIPSTEMVDAILEGKIHAMYIMGEDKVLADSDQAKTREALSKLDFLVVQDMFMTETAKYAHVILPAAAFLEKEGTFTNTERRIQRLYKVMEPLGESKSDGEVLQMLANAMGYNWNYSNPSEIMKEIAKLAPIFAGVTYDRLEGFKSLLWPVKEDGTDSPYLYKDRFPFPDGKARFYPTRIIKPVETDEEYDLYLVNGRMLEQFHWMHMTGKTPGIMYKVPETFLEVSPELARKLELKDGDTVMVRSKTGKLKTKVMITNRVSGDRVFLSIHDSKDMNVNLVTLDNKDPTAKTPAYKETPVKIEKIESCSVCEPPLPKWNPRNAERTPQIGVKVEEKWQRKDYIKVTDQ;locus_tag=LOCUS_28350;gene=fdhF;EC_number=1.17.1.9;note=WP_010978020.1 formate dehydrogenase subunit alpha (Sulfurisphaera tokodaii) [pid:61.1%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_2844
sequence1	MetaGeneAnnotator	CDS	2578676	2578993	.	+	0	ID=MGA_2845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQEDEEVFELVKELKDSGLLDILMSALKNREGILLEIANWLQNNENVMKNLSTFLAALSKLNPDEMKKARSLTDVLNMVKDPDVLSGLSFFLNLMKVIGEVLRE;locus_tag=LOCUS_28360;note=MGA_2845
sequence1	MetaGeneAnnotator	CDS	2578986	2579741	.	+	0	ID=MGA_2846;product=formate dehydrogenase accessory sulfurtransferase FdhD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978022.1;translation=MSEKIRILRYIEGKTFPDNDEIVIEEPLKLTISYKNISRTIYIMRTPIDDKELAIGFLFTQGIIKKLEDVEDVIQDKNSITVILRNPFSFERELLVNSSCGICGNPTLVKILSRKFDIKVNRDILMQIPKKMINLQKIFLETGGLHAAGIFDSNGNPIFIEEDVGRHNAVDKAIGKLLLSNMDSSNLILQVSGRVGYEIAEKAAIVGFPIISAISAPTTSAVELCDFVGISLVGFVRGNKLNIYTHPERII;locus_tag=LOCUS_28370;gene=fdhD;note=WP_010978022.1 formate dehydrogenase accessory sulfurtransferase FdhD (Sulfurisphaera tokodaii) [pid:44.0%25%2C q_cov:99.2%25%2C s_cov:98.8%25%2C Eval:3.5e-56],MGA_2846
sequence1	MetaGeneAnnotator	CDS	2579848	2580681	.	+	0	ID=MGA_2847;product=glyceraldehyde dehydrogenase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979850.1;translation=MYPPEFGYFKPSSVDEALDFLDKEDARPIAGGQSLIPMLKLRVISLNYVVDLNPLTSLSYIKDEGNEVRIGALTRHAEIVSNTSSKVPLLYDAARQVGDVQVRNLGTIGGSISNADPAADYPSVLLALDAKVVISSKSGERVVSAKDFFKGPFTTDLKKGEIVKEIVFPRLEGYKTAYIKVVRRAGDFALASLAMAIKVSNGNVEDVRLAYSGVSDSPYRAYEAEKILIGNRLTDETIQEAAEKAAGGANPPTDVRGSSWYRKEVMKVITVKGLRGV;locus_tag=LOCUS_28380;gene=cutB;EC_number=1.2.99.8;note=WP_010979850.1 glyceraldehyde dehydrogenase subunit beta (Sulfurisphaera tokodaii) [pid:57.7%25%2C q_cov:100.0%25%2C s_cov:98.2%25%2C Eval:4.1e-88],MGA_2847
sequence1	MetaGeneAnnotator	CDS	2580683	2581168	.	+	0	ID=MGA_2848;product=glyceraldehyde dehydrogenase subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846651.1;translation=MRVKPGDKVRIRVKVNGISYEREVSPRKLLVHFLRDDLGLTGTKIGCDTTTCGACTVLLNGKSIKSCTYLAVQADGTEITTIEGLGNGQLHPIQEAFKNNFALQCGFCTPGMIMQTYYLLKENKNPTEEEIRDWLHGNICRCTGYQNIIKAVKEASEKVRL;locus_tag=LOCUS_28390;gene=cutC;EC_number=1.2.99.8;note=WP_052846651.1 glyceraldehyde dehydrogenase subunit gamma (Sulfurisphaera tokodaii) [pid:80.1%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:2.0e-74],MGA_2848
sequence1	MetaGeneAnnotator	CDS	2581165	2583408	.	+	0	ID=MGA_2849;product=glyceraldehyde dehydrogenase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979848.1;translation=MSYVGKSIKRLNDNKFVSGKSTYVDDIQISSLYAGFVRSTYAHAKINSINVSDALKVNGIVAVFTGKDLNPMLKDGIGPWATYVNPKEWKYVPRKALAEGEVKYVGEPVAIVIGTDKYAVRDAMDKVSVDYEKLPAVINMEDALKGDVLVHKELGSNIGYNKDFNAGNVESAFKSADKVIPVEISNSRLIPSPMEPRGIISRYEGGTLTIWYSTQIPHFARDEFSKDFGIPSSKIRVIMPDVGGAFGSKAHPIPEELAVIASSIKLGRTVRWTATRSEELISSNARHNVFKGEVAVKNDGTVLGIRGQLLVELGAYLTYTEGIQPEIIPPMIPGPYRIRDLAINSVAVYTNTIPITMYRGASRPEATFIIERIMSTVADELHMDDLELREKNMVRADEMPYKNPFGLTYDSGDYISFLKEAKQKLKYEETLRWAEEERKKGRRVGVGTAFYLEISAFGPWEYGEVRVDDRGNVTVITGATPHGQGAETGIAQVVADELQIDIDRINVIWGDTQIAAAGLGTYGSRTISIGGSAAKSAASQVLEKMKKVAARMLKADVEEIEYSKGEFRHKKENKKVTWEEVANEAYNGKDPGLYSSVTLEGDVTFPYGLHLAIVEVDDTGIARVKEYRAYDDIGKVINPALAEGQIHGGAMQGVGQALYEEAKLDENGQLAVSYAEYFVPTIVESPVYTSYFTEKPHLSNYATGSKGVGEAALIVGPAAIVRAIENATGKKFNKTPVTPEEIYRSLH;locus_tag=LOCUS_28400;gene=cutA;EC_number=1.2.99.8;note=WP_010979848.1 glyceraldehyde dehydrogenase subunit alpha (Sulfurisphaera tokodaii) [pid:70.4%25%2C q_cov:99.3%25%2C s_cov:99.9%25%2C Eval:0.0e+00],MGA_2849
sequence1	MetaGeneAnnotator	CDS	2583424	2584092	.	-	0	ID=MGA_2850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAILVDIMLEVQPKYLLLNALVKIKNISIVDTNGHVSIVRDKVSSLHFNLVAKGLFASLNDIKLTYYTIDNSLYVYVSNPNSFYQTYSVDISIELPEYSYNNITINMANGEISLCNIYSNLSNLEISNGIIDLNSVSFSNGLLFISNGEIKLENVEANFLSASVNNGEIKINLANNSIHVIPSVNNGKIYINGEKMNETSISSIVNAHVNNGEIKIYNLFTK;locus_tag=LOCUS_28410;note=MGA_2850
sequence1	MetaGeneAnnotator	CDS	2584129	2584734	.	-	0	ID=MGA_2851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKYLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_28420;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:72.9%25%2C q_cov:100.0%25%2C s_cov:56.9%25%2C Eval:9.6e-82%2C partial hit],frameshifted%2C insertion/deletion at around 2584729,MGA_2851
sequence1	MetaGeneAnnotator	CDS	2584682	2585188	.	-	0	ID=MGA_2852;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKGKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYIFLKVESKVQEQGKKSTIPSQ;locus_tag=LOCUS_28430;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:67.5%25%2C q_cov:97.0%25%2C s_cov:46.5%25%2C Eval:3.2e-60%2C partial hit],frameshifted%2C insertion/deletion at around 2584729,MGA_2852
sequence1	MetaGeneAnnotator	CDS	2585329	2586534	.	+	0	ID=MGA_2853;product=RNA-guided endonuclease TnpB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057839.1;translation=MSDVGLRFRAYADEQTLRALKAQLRLASEVYNTLRWADIYFHERDGKGLTKTELRQLALDLRKQDEQYQHLYSQTLQQIADRFYDARQRFFDGLARYPKEKKAHKWYSLVYPQSGWKVLKVREIRTKSKKNKKKVITLQLSNLGIFNVIVHRDFPLDKVKRVVIKLTPSGRVYITFVVDQEYPQLPKTNKVVAVDVGVEKLLTTSDGEYVPNMRPYEKALNKMKKLHKALSRKKFLSHNWFKAKIRLARAHEHLKNLRKDMYMKLGKYFAEHYDVLVMEDIRVKQLVGKSLRRLRMRLHDVAIHELRSIMRYQLGKYGKKLTLVDPAFTSMTCARCGHVKKDLTLADRVFVCPKCGWVADRDYNASLNILRRSGSERPLVPVELRPLPLASLGFEAGSHVR;locus_tag=LOCUS_28440;note=WP_011057839.1 RNA-guided endonuclease TnpB family protein (Thermosynechococcus vestitus) [pid:29.6%25%2C q_cov:90.5%25%2C s_cov:90.3%25%2C Eval:2.1e-31],MGA_2853
sequence1	MetaGeneAnnotator	CDS	2586711	2587526	.	-	0	ID=MGA_2854;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979077.1;translation=MKGTIFELTCPLILKVSILNHMIEANNLSLEIRGKIILKNINFRLNNKALILGPNGSGKTTLLKTLSGFYRYKGSVKIDGNELKDINYISLSTNIPDAYYIAMKVKDILSILSEIKGCKKDLFESMMKEVNINPLDKNPFSLSMGEKTIVFTALALSSEPKIVMIDEPFENLDKNRKNIMMKWLNKYGKEGFIVTHDLEMLKNFQEWNMYLMIEGKLYGPITVKEFLSSKLVEGNKEGSILKIEIGERKYSLVSSKDNSSILDINNIYDYV;locus_tag=LOCUS_28450;note=WP_010979077.1 ATP-binding cassette domain-containing protein (Sulfurisphaera tokodaii) [pid:42.9%25%2C q_cov:85.6%25%2C s_cov:91.3%25%2C Eval:2.1e-52],MGA_2854
sequence1	MetaGeneAnnotator	CDS	2587553	2588365	.	+	0	ID=MGA_2855;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSMEYLKYALKSLLKDKRTLIWSLSFSLFLDILIIFYLNHIGGVIDKQTISLASGIVYALIVMMSMSFASIAIGRSFVEQSRSFGYIFKFSKMNGKSYLIQLISAVALIYFIISSVFLVITSYLFYAKYDIFVLPYNTVELLLISVIGGLTLMGFVLLTNEIVLRFQGRKNINFVQFVPVYLYFSLDWAIVESGVHGSLYYLSPFLSITYLMSYSYAGTTLFPFNDVPYHFNIELSIISIISWIITLIGLSSLLIKKIYLSPEEEERVL;locus_tag=LOCUS_28460;note=MGA_2855
sequence1	MetaGeneAnnotator	CDS	2588367	2589014	.	+	0	ID=MGA_2856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDFDPLEKFKEGEEFARKVYLRKTRKTIGIFYLLISTYIPLSIGLSVAYSYFLINTPFSYLRVVIYSPLIYIFYIIFSSILLFRLRKIPEIMKKIREINVNRSGINKAFYSKPFYFFFSIGTILLLSYGTIVLGGEVGNILGIMENFIILLLIIKYFHSVFSMLKVDKPSKEDYIALIGAIIGFSFGTLVTPYFFLVFSASWMYAGLSILKKYW;locus_tag=LOCUS_28470;note=MGA_2856
sequence1	MetaGeneAnnotator	CDS	2589021	2589335	.	+	0	ID=MGA_2857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEEFKEIIDFIKSPVFSSSARIGILLVLLGVDKITFTDLLNSVEMSKSSLYSHLKVLEENEMIVIRDVFTLTRPRTIIQITPKGKAMVERYLQLLENYVKKNK;locus_tag=LOCUS_28480;note=MGA_2857
sequence1	MetaGeneAnnotator	CDS	2589375	2590016	.	+	0	ID=MGA_2858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020790.1;translation=MLIMFIGHFGIAFILSYFFPSIPLWVFLTAVSFPDLLWPILVLIGKEKVIVNKNNPFMSDVKFESYPYSHSLMLSSLFYCISAAIFSIILENILIFPLFLVGTASHWFLDYLYHMHDMPVKGFGKDKKVGLSMWKNGPVAFFIELIFYLITAILFLPSRFVLSAIEMGLIFHLANSNSFFGYIKKNSLGGYKTNAIMVFVGYFLFIVLGGILT;locus_tag=LOCUS_28490;note=WP_011020790.1 hypothetical protein (Methanosarcina acetivorans) [pid:40.7%25%2C q_cov:98.1%25%2C s_cov:98.6%25%2C Eval:1.5e-46],MGA_2858
sequence1	MetaGeneAnnotator	CDS	2590032	2590262	.	-	0	ID=MGA_2859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVRKLYLSSLIKYVRSLIRPMMHLKSILKSLKERDNRNNNADVIPIYYYPLEYLKEEYPHEYENIIRNRRSRCFC;locus_tag=LOCUS_28500;note=MGA_2859
sequence1	MetaGeneAnnotator	CDS	2590430	2591026	.	+	0	ID=MGA_2860;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000859357.1;translation=MFIKEKGPVTLQEIADNLGITKMGAYKHVTQLERKGLISRKVIKKEVGRPSYVFNVTESGKLYFTNSDSLILLKFLDYIKREGKDELVIKFLKDRFKSLYNEYKDKLDKKDLDEKVEILGKLRTSEGYMAEVKKCGNSFELMELNCPIYRIASLFGEACSMERDLFSKVLDAEVENSHRQVDNSNVCRFIIRPKSNIH;locus_tag=LOCUS_28510;note=WP_000859357.1 transcriptional regulator (Vibrio) [pid:30.2%25%2C q_cov:95.5%25%2C s_cov:93.7%25%2C Eval:7.7e-20],MGA_2860
sequence1	MetaGeneAnnotator	CDS	2591082	2591987	.	+	0	ID=MGA_2861;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDVVKNLVNNAEFVSKVADEVEKRVTIKELKEINEKISYLITNVSQLVDSMKLVWEKFEDYDKKFNIILEQIYRNQEDIKRLNERLDKHEEEIKKLNERLDKNEEKLDKMIQNLGKHEEEIKKLNERLDKNEEKLDKMIQNLGKHEEEIKKLNERLDKNEEKLDKMIKKLDQDYKTIARVVGNTEEEALDYLTWKFKNEFGKDVELYRLDIPHVTEIDIYGEFEDYVIIGETKERGSISAYNELARHVKKLQKIKPEINNKKLILIIYALAPSKDLIDQCRKEGIYLTSGFRDYSQLKLT;locus_tag=LOCUS_28520;note=WP_010880775.1 zinc ribbon domain-containing protein (Aquifex aeolicus) [pid:35.3%25%2C q_cov:40.9%25%2C s_cov:59.1%25%2C Eval:2.7e-11%2C partial hit],MGA_2861
sequence1	MetaGeneAnnotator	CDS	2592036	2595068	.	-	0	ID=MGA_2862;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNQITERSITRRLSEKDLVLVSGLPFSGKTTTLRKLLTENDIIIELPKEINNLGEFNDFKQKLSELSKDKDRKIVVEGRNYIVELFLGKVTLKEPSLRNPHVNIEGNALTFHTQDILEEVNGEELTKILEYSLITMPNYSTYIPKLVDEAKELYKKGKLDEILPIVVKFKEVYSRFPSREIDGEDAILYPLLSLFPSPEEMKGAWLKLSNTWKELIFYRIDSALRILPGQSKKVISNFLEKIEEKEPKLEKWNYTYTPEFLEAAEYIATMLLNNKNVVLRGAIKTGKTTISNEAIKNLLSRDNSYSIVLPTENSTSDKKIIIIDYHSENYENLRHISSYLRKKGHKFIILTDDLAETLNISEPKYEVDSTNIFKYFVKNRSKNKISDPKLSYYALKNPNIVGQEADIRKEIENNYRKDLTEYIYEVIFEEDPNLIKWYSPLIAVGLKYGFPLPVGVSRKILEYSQRKIEKRDILVKWFSVTSELPPNIKEKDEGGDIKNFEEKSSEILEFLRKTIIDEAKSKNLIDDLLINYSHTILKNILVLSNTKFDNYFLAGEEVAPISYKILKNVIQDIMDYLTDGCEKLPKEMDLLKVLEEKDIISDEDINSLFVYSFLYYLSIDKDYSNVIKTIIKSNDKKCLITALRLLILYTLYGEKKAFRVLEKFIFDKIMNLKEEELVRHYVSLSLTSEYRNIQHIKKISELSPISKAYALLLLPKRKGKSPIEIFANTISLDMLAEKAFEKENVDGFIKTVKKFEKNLNLLKNIAKRIDKGEGAKVASTAFFASSLDFAIKRMEIDKDKYNSEIGIFYYTMLPPDEDLKDTLRLAEFLSLPYYNYLIRENSKRLLYPDEIELLFNTLQIRLAKSLVSGNAYEYKNILSDFIDFSEKYYTPSLSDAQVIAKIALKQNIKIPSDTHLITLAAEAFSGKNIDEFLRVVESLNINIKDIKELINIPEFAESKIIYSIIKGENVGSYISYLNKNGIGPMYKISHKLLEENDKSRYIASLILFL;locus_tag=LOCUS_28530;note=WP_156014961.1 hypothetical protein (Sulfurisphaera ohwakuensis) [pid:32.2%25%2C q_cov:62.0%25%2C s_cov:96.2%25%2C Eval:1.7e-76%2C partial hit],MGA_2862
sequence1	MetaGeneAnnotator	CDS	2595537	2595863	.	+	0	ID=MGA_2863;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDPLTEAKSSKGSVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGASIKPCQYFKEKGIKILQVSQNYGRRRT;locus_tag=LOCUS_28540;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:66.0%25%2C q_cov:94.4%25%2C s_cov:29.7%25%2C Eval:7.3e-33%2C partial hit],frameshifted%2C insertion/deletion at around 2595872%2C2596006%2C2595978%2C2596027%2C2595836%2C2596093,MGA_2863
sequence1	MetaGeneAnnotator	CDS	2595791	2595976	.	+	0	ID=MGA_2864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILQGKRDQDTTSKPKLWKEKDLRGKQIFTTKTNKHGKQGKGVQLQPIERTSNTIRLPKS;locus_tag=LOCUS_28550;note=MGA_2864
sequence1	MetaGeneAnnotator	CDS	2596171	2596308	.	+	0	ID=MGA_2865;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVSAV;locus_tag=LOCUS_28560;note=MGA_2865
sequence1	MetaGeneAnnotator	CDS	2597064	2598275	.	+	0	ID=MGA_2866;product=acetyl ornithine aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763469.1;translation=MQSFKRWYPLVIDHAKGSIIYDVDGKEYIDMNSGIGVMALGHGNEKIINAIKEQMSNFFHYSLTDFYYELAVDVAKKLTSFLPFSSKVFYTNSGTESVEAAMKIARWYTKRQYIIGFINSFHGRTLGSLGLTSSKTVQRRGFSPLLPSTLLLPYPDSRNPLLKDDPVNRLMEYIEDWIFEKVVDPNEVAAIFFEPIQGEGGVIIPPEDFVKELRRVTYKHGILLVVDEVQTGIGRTGKMFGFENFDIMPDIICLAKALGGGLPLGAVVGRSEIMTLPLGSHANTFGGNPLALAASKVVLEEVPKLLDRVNYLGKEIIDELNNSKSPYVYDVRGKGLMIGVELRKNGKAFVDGLERVLMCSFNRGVLPIGAGESVVRLLPPLVIEEELANKGTRVIREEIDKLR;locus_tag=LOCUS_28570;note=WP_011763469.1 acetyl ornithine aminotransferase family protein (Pyrobaculum islandicum) [pid:50.6%25%2C q_cov:100.0%25%2C s_cov:91.5%25%2C Eval:2.9e-110],MGA_2866
sequence1	MetaGeneAnnotator	CDS	2598282	2599475	.	+	0	ID=MGA_2867;product=acyl-CoA dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846656.1;translation=MVFPFRSLEDFKIEINQDHELFRESMKEFMEKEVRQHVEKGENSGDIPKEIKEKSKELGLYGLDMPEKYGGQGGNYIYLLIATEEMSRVWPSMATFFLINWMFSNAINKFGSEYLKEKYIPDIVSGKKVAAFANTEPGAGTDVAGIQSVAKKIDDHYVITGKKMFITNGDIADYYIVTARTSSEEKRWKGISMFVIEKDFPGFKVESRISTTGLKASHTAELSLNEVKVPKENLVGEEGLGFKYAVASFDYARTIVSAQAVGIGQAALEKLLEYSLQRTSFNQKLASFQMVQQKISESMADIYSSRLMTYWAGNLYVEGKEDDYVSVASLAKFFSTEAAERTILRAMTVHGGYGVSVSTGLERMLRDIQILKTYEGTNDIQRLSAAKYMLKKVYGFS;locus_tag=LOCUS_28580;note=WP_052846656.1 acyl-CoA dehydrogenase family protein (Sulfurisphaera tokodaii) [pid:62.7%25%2C q_cov:99.5%25%2C s_cov:99.2%25%2C Eval:3.2e-149],MGA_2867
sequence1	MetaGeneAnnotator	CDS	2599547	2600026	.	+	0	ID=MGA_2868;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDDGCGSFLAEALEGKVEADVQDFGTGGISLVDELEKYDVIIILDIADINEDIKVFEVNDINEDDIVQTVLSMSFGGSHGLGIEDILTILKSKGSKVKIILLTCKPKILNPGIGLSDECLKNAFLAIDELEKILKQFNVKVDRNEIKEALISRIRRIR;locus_tag=LOCUS_28590;note=MGA_2868
sequence1	MetaGeneAnnotator	CDS	2600216	2600488	.	-	0	ID=MGA_2869;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIRSKLRLIRYAILKELARERLGIKIGELKRTLMLKDIVNSDGAFYANLRDLIMEEKVKIMEEDEEKVVYITDKGLEEFKETDEYLKKS;locus_tag=LOCUS_28600;note=MGA_2869
sequence1	MetaGeneAnnotator	CDS	2600590	2601132	.	+	0	ID=MGA_2870;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKCFYYKNNQDEKELLVSLINYLLIKMEEKRKLGLVFASGAANRICCIAIYGGAALASGWEVKLHLVNEGVVAFKKDVLPKLNSLDMGMTIRPDFYLPYTEQYLKNVESAVKNGQLKDWYSFLKQLKTDYPNDFKIYACPVASAFYNIKKEDLVEIVDEIKGAESFLEEIYGGVVMYI;locus_tag=LOCUS_28610;note=MGA_2870
sequence1	MetaGeneAnnotator	CDS	2601129	2601359	.	-	0	ID=MGA_2871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNFDPYDMAYIGRIIEIKDGTAIVDFNGIRRDIELGLIEAKEGDYILVHAGYAIKKVKKEDIENELKNMLNKIKD;locus_tag=LOCUS_28620;note=WP_010868354.1 HypC/HybG/HupF family hydrogenase formation chaperone (Pyrococcus abyssi) [pid:46.3%25%2C q_cov:69.7%25%2C s_cov:72.0%25%2C Eval:2.6e-09%2C partial hit],MGA_2871
sequence1	MetaGeneAnnotator	CDS	2601352	2601579	.	-	0	ID=MGA_2872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCISFPAKVVSVQEFIVFVDYGNNVIEPVISNVDDLKPGDYVVVSYGMIMEKITEEEYNEMVRYSQELAQVLNHE;locus_tag=LOCUS_28630;note=MGA_2872
sequence1	MetaGeneAnnotator	CDS	2601683	2602843	.	+	0	ID=MGA_2873;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSPLDLEVIDLAIEIEDGKVVNTKSSGNRLRGYEKVFIGKNPKELYSIIPRVLSTCAQSHVFAYAKASMNLSENTSKILETMVILEIIESHIRHPYTYWFPYIGGREYDFPSGDKFKKISFISKQIRNLMERIGGKWPSVDYFNIGKKIQIEQNEINKIREMWEKETLGMGVEDFLEVEEIEELKGDLSLFKKIPYFISGLNKYLTVGFPFNGDLNYSKIQDNGIEVKYDGELVEVGPLAQALTFDKMVRKLHEKIGPSPMLRELSRMKIVAYLLNQLNEINEETDGFSIRGDGVGIVESIRGSLIHDVKIDSNIKGYKIIQPTTFNASPKGALEKAVNGIPVSDPKNPWEISLAVSSLDSCFVTEVRIFEKGSLMSKKRIGGFC;locus_tag=LOCUS_28640;note=WP_005811612.1 nickel-dependent hydrogenase large subunit (Desulfitobacterium) [pid:30.2%25%2C q_cov:37.3%25%2C s_cov:32.6%25%2C Eval:5.4e-13%2C partial hit],MGA_2873
sequence1	MetaGeneAnnotator	CDS	2602840	2603211	.	-	0	ID=MGA_2874;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSELYALEEIESAPRRRDELRMREINIEELISKGLIRDENGFLYLTENGIRRLSQLYGILDTLQEIYMNMSYNKNTEVKEVKDLEDLLKSGLVEIKDNYVYLTFEGIKIVAQRIADRMARAH;locus_tag=LOCUS_28650;note=MGA_2874
sequence1	MetaGeneAnnotator	CDS	2603178	2603519	.	-	0	ID=MGA_2875;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIGIGNEIFGDNEGKIVEEYGGIFLGPKLGELEKFLKEEDEVIIVDSARNFRFLIIGLKELYPGVLGYTELENYLLNAKINGIKARITIIAFSKEYKDRVKCFLNCMLLKK;locus_tag=LOCUS_28660;note=MGA_2875
sequence1	MetaGeneAnnotator	CDS	2603516	2605048	.	-	0	ID=MGA_2876;product=nickel-dependent hydrogenase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258626.1;translation=MNEKIISPLNRVEGDLDLKVVFRGNKVIEAYPMSRLFRGIEIILKNKYPMDSLVITPRICGICGGSHLMSAVEALDMAYKAEVPPNAVLLRNIMALAEMGQNDVRHTYLMFMIDTVNKKYEKMDFYKDMVTRWAPFYGTSYKAAVKWSKRYTEIYAIFGGQWPHGSSMVPGGVTADPYPNDILKARGIINEITSEFIEKVMLGGPLDQFLQLKSVKDLDQWSQDYPNGDISKLWIYGREMKWDKIGKGSNFLMSFGHVPSAEDYTTENPKLRFKRGILNLDTMEFSSIDQANMLEFVTKSFYSYSNGDIGLHPFEGETNPLSPFSNDKYTFTKTFRYKLNGKLIAPEVGALSMMAVDNNPLIIDLLNKLGSNVLLREIARFVRLAIISEIIIEELEKFRFGEPTYKKPLDIAESKGYGLVEASRGSLGHWIVIKDNKIFNYQVVTPTQINMGPEDSYGNISHMSKALIGTIVEDIENPIELAHIVRSHDACMVCNVHVLDGNVEKMVLRL;locus_tag=LOCUS_28670;note=WP_012258626.1 nickel-dependent hydrogenase large subunit (Chloroflexus aurantiacus) [pid:41.3%25%2C q_cov:98.8%25%2C s_cov:95.6%25%2C Eval:1.5e-101],MGA_2876
sequence1	MetaGeneAnnotator	CDS	2605041	2606006	.	-	0	ID=MGA_2877;product=hydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258627.1;translation=MRNLLWLQGGACSGNTLSLLNASDPDVFEFFSQHNIKLLWHPSLSLDSIGVKRIMEDIINGKIRLNIFVFEGSVILGPNNSGTFNMFAGKPMKDWVKYLAPLSEYIIAVGDCASFGGIPAADPNPTQSTGLQFFKKEIGGFLGKNFRTKSGLPIINISGCPAHPDWILTTISLISEGKMTEDMLDEFNRPKIFYSTTTQFGCPRQPYFTYKISSKELGHKEGCLYFDLGCRGAYTKSPCNSILWNNQSSKTRVGTPCMGCTEFDFPTFNFFHTEKNRSGIPKRLPLGMSRGTYVTFSAVAKGSAPQFLVRPLIKKKGDWIE;locus_tag=LOCUS_28680;note=WP_012258627.1 hydrogenase (Chloroflexus aurantiacus) [pid:50.5%25%2C q_cov:95.6%25%2C s_cov:97.5%25%2C Eval:6.3e-94],MGA_2877
sequence1	MetaGeneAnnotator	CDS	2606162	2606659	.	+	0	ID=MGA_2878;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVDRDEDYIEGINKIKEIVIYLNTTGVLDSILDFVKDDKKLRAFLQSKSFRAIIEMLGDLKEMIDNGQVSSEDFINGTIAIAKHMDKIGKILSTLEAHGVLDVMTSGLSKAAEAMVNNNQSNIVELLASFDDPDVKKTLAYLRFMLKELGKASTPVIRDGDQAK;locus_tag=LOCUS_28690;note=MGA_2878
sequence1	MetaGeneAnnotator	CDS	2606647	2607000	.	-	0	ID=MGA_2879;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDCPLREDKDLCMTYNPKIFELITRKYTLTILLLLDKYGALRFNEIMRKIDGITQRSLSIRLKEMEESLLIKREIVNNRPIVINYSITIQGKAVKNAILMLLQLTNLISPTEKDYFA;locus_tag=LOCUS_28700;note=WP_013225660.1 helix-turn-helix domain-containing protein (Amycolatopsis mediterranei) [pid:34.1%25%2C q_cov:72.6%25%2C s_cov:73.5%25%2C Eval:1.6e-08%2C partial hit],MGA_2879
sequence1	MetaGeneAnnotator	CDS	2607054	2607395	.	-	0	ID=MGA_2880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLKLSEHRDLAIKYFQISYSTVNPIICLSFALRSIEEIAMDILLESEGYNVYSPDTQNKMIKIIRENPELYEIYLKVLYNMSKLLMEGDFNKEFLVDLEKIISKILNYTFKI;locus_tag=LOCUS_28710;note=MGA_2880
sequence1	MetaGeneAnnotator	CDS	2607376	2607633	.	-	0	ID=MGA_2881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDLENEIVDAETGVSLFRLGLARKENKHGKLIIYYRPPSPFTPVILVIKMGLDIKFKYPEAIVILEDYYISNEINEILNGIKIE;locus_tag=LOCUS_28720;note=MGA_2881
sequence1	MetaGeneAnnotator	CDS	2607614	2608321	.	-	0	ID=MGA_2882;product=class II aldolase/adducin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460450.1;translation=MIGNTFCKLCQTDEEQLKKEIVNSVKTLYWKGMISNAGGNQSARLPGANKIWITPSGYPRVSLEPEDLIAIDMEGNVIEGDLKPSIETFMHLEVYKNRPDVNAVIHAHSPYTMGMAISGFLEITHGEAAAILGDIKIIPYSHPGTIELAKNVGYAVKGEGAKVPRIVILMNHGILSVGACIHEARAFAEIMEEWSRFNVAAKVLGGIKYKLDQKDLRKPGARYIRAVKFGGRSGK;locus_tag=LOCUS_28730;note=WP_011460450.1 class II aldolase/adducin family protein (Desulfitobacterium) [pid:34.6%25%2C q_cov:80.4%25%2C s_cov:87.7%25%2C Eval:1.2e-26],MGA_2882
sequence1	MetaGeneAnnotator	CDS	2608336	2609463	.	-	0	ID=MGA_2883;product=hydrogenase formation protein HypD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876696.1;translation=MSEYLSLLKYYRDPHLAKALRIKIHEIAKKIDEGIMIMHVCGSHEWTITHYGIRSLLPDNVEVRAGPGCPVCITPATDIDDAVKLALDGIVVTTYGDMSRARGTKMSLEEAKALGGDVRVIYGVQDAVKMARREPNKQFLFFAVGMDTTAPATAFEILKGVPENLSFLVSYRYTPAIQGSVMESNVLGIDAFISAGHSVTITGLKPYYGYFLNSKKPMVATGFEPIDVLMSIYMILKQIEEGTPKIENEYTRSVTWEGNVKAQEVMEKVFDLEDGYVRGVAVFPKAGFRLKDDFNKINAREQYGLKDRSKTSDEYVAGARCGEVVMGLIDPPECPLYMKSCKPEDPKGAPMVSQEGTCWIWAMHKLVNVSPRCRR;locus_tag=LOCUS_28740;gene=hypD;note=WP_010876696.1 hydrogenase formation protein HypD (Methanothermobacter thermautotrophicus) [pid:45.9%25%2C q_cov:91.7%25%2C s_cov:96.8%25%2C Eval:3.9e-85],MGA_2883
sequence1	MetaGeneAnnotator	CDS	2609460	2609732	.	-	0	ID=MGA_2884;product=HypC/HybG/HupF family hydrogenase formation chaperone;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868354.1;translation=MCVAFPGKVIEINDEFGKVDFGNGTIRDNILLSLVNAKVGDYVLVHAGYAIQVVDEEEARKSIELWNEMTNDLPEEKKKQDFNEVVGGES;locus_tag=LOCUS_28750;note=WP_010868354.1 HypC/HybG/HupF family hydrogenase formation chaperone (Pyrococcus abyssi) [pid:50.0%25%2C q_cov:84.4%25%2C s_cov:100.0%25%2C Eval:7.6e-14],MGA_2884
sequence1	MetaGeneAnnotator	CDS	2609735	2609986	.	-	0	ID=MGA_2885;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKLVCMICRHEEKVPIHCQKEMKYYQKGNFRKIDILRCEDCGEEIYMPMHCNVPMLYVDEDYYPVYELSENEKNEMRKIYGE;locus_tag=LOCUS_28760;note=MGA_2885
sequence1	MetaGeneAnnotator	CDS	2609997	2611052	.	-	0	ID=MGA_2886;product=hydrogenase expression/formation protein HypE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048060768.1;translation=MISMNKDVITLLHGAGGSYMYSLIKEIFYQLNDGFGEINLGMLDDGSIVNDIVLTTDSFIVRPIFFKGGDIGRLSVTGTVNDIAMMGGDPVALSLGVIIEEGFKKEDLEKIVKSIKDTSIEAGVHIITGDTKVMERGSIDKIVINTSGIGFRSRQLDHNIETLRKTREPLRWLVPLNLRPGDKIIVTGSIGDHAIAILSSREGIGFQANIVSDAAPLNKLMNDIMEIGGIADAKDPTRGGLADLLNDWSEKSKLGIYLKEENIPVRDEVRSAVEFMGMDIMELGNEGKAVIAVSPEFEKDVLNELWSNPLGKDAAVIGEVTKDVEGVVMETVIGGKRYIGRPLGDPVPRIC;locus_tag=LOCUS_28770;gene=hypE;note=WP_048060768.1 hydrogenase expression/formation protein HypE (Methanothermobacter) [pid:46.5%25%2C q_cov:97.7%25%2C s_cov:99.4%25%2C Eval:3.9e-84],MGA_2886
sequence1	MetaGeneAnnotator	CDS	2611299	2612225	.	+	0	ID=MGA_2887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVLLSIALELGIKGNNFSFIIMILTYVNTAIFLVLFSGTYALIAISISIILIIIPIVIKNLGFNMSSYIVFLISNELIMSLLYYVILRGFGNSIIALNFYGTDIPTVTVNSPIQIIYALIELSNSFMFFLMIFPEIIYFSYRTKNPYSLFLSSLALGGPNIASEMTHSILPLPYDPIKEASILATILSLFFSIYLSFKFFKRELSLDKYIIFIIVDLSLSLSSVYYSLTINEIPYGIITLISIYLSLSGLKINIRHFPNIQLSLMIPQLLWGFSIAVWYNLIQFEYILGISLALLYGLSQYVMIKLT;locus_tag=LOCUS_28780;note=MGA_2887
sequence1	MetaGeneAnnotator	CDS	2612227	2612637	.	-	0	ID=MGA_2888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYHTEINTSHTMDSLKILLSDPNFVLPRIFKSIKDLKVNGSSFYGKAKYMGIEHELNGNVYSSLNEISCIFTLRHGKDFGSGKLMFTLQSNKVSIFLEYEGWMERVSFSLINRWINDFLKNFEEDIRMERIRRKI;locus_tag=LOCUS_28790;note=MGA_2888
sequence1	MetaGeneAnnotator	CDS	2612690	2613217	.	-	0	ID=MGA_2889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRMESLFSGIILPILAIPWEFYAYSIERSLYLGALIVSLAEIISLILVKNITNNSLNISINKGILLTIILILIMIFPYYDSLYNSIIFNYPLLIFPAIIGGICEECIYRGYILEDGKYDVYIQAILWSFNHILDGLFFVAYTILIGIVLGFVSRKYGILPCIIAHTISNVLILIL;locus_tag=LOCUS_28800;note=MGA_2889
sequence1	MetaGeneAnnotator	CDS	2613465	2614892	.	+	0	ID=MGA_2890;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGIEWLKRDVLHILDLVPLSTSSVAPSFSIAAAYGSMVAIMGPQAIMAVVVSFPFFLFASIIFRKLNRKAPHCGASYHWGTKFIGKKYGSFQFWIVTLAYFLSLPPIIIPAGEYTLDLLFRLGLISRSIELSVFWDSIVGIIWAIIASVPLMLGVKPTARFTEVFLIIELIILSTFIGIGLLALPSHVVNSFNWNWFFNVKWFSSKFFFGLAATMVIVATILDGWEIDSYAAEESKKPTRWPGTSGIIGLISVFIIYMITMPIMNIETPITSLSSAVDPLARWSSYVIPQYVWLMDIAVITSTASSLWLTAFILSRAWYSGARENLMPKIFGKLHPKFKSPWISILIMTALEVSVQTLELTSPTVSSFFGIVLTGAGAFLLVEFGIDSITATYVWWKSQINDYSDIILRIISPMTAVVMLSTVFFGVIEAGPAFGISTFYYALTIGIMASFGIFFIFRSKKMNIISPKLERGIS;locus_tag=LOCUS_28810;note=WP_144080476.1 amino acid permease (Gloeobacter kilaueensis) [pid:22.3%25%2C q_cov:71.6%25%2C s_cov:75.5%25%2C Eval:1.4e-16%2C partial hit],MGA_2890
sequence1	MetaGeneAnnotator	CDS	2614973	2615728	.	+	0	ID=MGA_2891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNISPTGISEKKISFEEIISEYLKIWKNIYNELEKNNIKALIYGSVAIYYKLSNLPEAIDLIKSNRKNGPQDLNVIVPLKFREKFKEILMKMEFTPYYHLEVTMGNLASMFLYNQFTIKVYYMDKAEFNHDVDIDWNQEFSLSLTDLLLTKLQIHYPTDKDSADIAAILLKYDEIDKEKICIQTSKDWGFWKDAVDNLNNARTYVSRLQSKSEKLKNIITASLKLYGLVNNYPKPNNWKPLNDEKYWRDF;locus_tag=LOCUS_28820;note=MGA_2891
sequence1	MetaGeneAnnotator	CDS	2615729	2616829	.	+	0	ID=MGA_2892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYFLIFLVLIPFFVTYSQIGYIEYTIYLNNMSTVSGVTPNFFSSISPTYMVVDSSGYVFAAAVNEVFIINPYGKVVGKIGVQGAEYISYCNENNTLIVSSGTLPNFTISFISTINFTIIRTINVNDYPLSTLEHNGKIYVGTYGGVGILNNSKINIFVNTPGPVVSLAYSNGYLYAVGYNFTQSYGFLFIIHNNSVKSIILSTFPNFIYVYNNKIYIAGDFSVIMINQESLKIQYINISGEKFEGIVVDPKNNLTYVTADSLFGPDYILVLNGSKISGEIYGGITPIGIVFDNVSNFLFISNFFDGTISVISTNGSQYYQENTYQIPVNQNIISNKPKLEFYIQDIIFFVIIIFIIVLTLRKIRK;locus_tag=LOCUS_28830;note=MGA_2892
sequence1	MetaGeneAnnotator	CDS	2616832	2617182	.	-	0	ID=MGA_2893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLEIKKEIVTKSGKRMTISSLLRMLYGLNDTDIEIYLTLKEMKNATIKDIIDKTHKNKPTVIRSLKILETLGFVSKEKLRSGEKGRPIYRYYLNTKIEKMIISDLKEIIESLNA;locus_tag=LOCUS_28840;note=MGA_2893
sequence1	MetaGeneAnnotator	CDS	2617354	2618604	.	+	0	ID=MGA_2894;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFKKWRDVINEGTPLKLLYFYTDWCEYCEKQKEILDKIPDWDSFSYAEINADERPDLAIRYSPQIYPSISIITENNVVGGLYGYNDSQQIEETMLIALDLYNGGGKLFSEKNLKNVSKRTYNVTDAIDLIKRNCLAFFDIYYGGFEREPKYYLPNVLRFLLRDKKDPYSLEVVKYTVDAVIYNLWNEGFYAYAKKYDWSEPSKEKLLDINAEMVITLLETYERTKDDYYLGYAIETGKWILKNRDREFYPIAVGENKGGYYMPVNSEIGEMFYLLYKYSNISKFLEESTRLAKILPEKLSHNLESDSPLFLIDMAYLLRFLSSMGKGIELIPKIKDLFYGGDAFFDVPLSLAREEKIGRFKLLTDNSVLAQALLKLGVVNEATKIANFFLKSFYNYTYFSQAEYGMLLAMLNENV;locus_tag=LOCUS_28850;note=MGA_2894
sequence1	MetaGeneAnnotator	CDS	2618591	2619079	.	+	0	ID=MGA_2895;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMYNIYLSFVIIGQVFFIAELASIFLLYQLFNTEYIYFEAINYFLLFAIQIILILTFLVYLKNSRLKFTLPILLIPVIGQIMEGIYALMITKGQRKIRLTVIYYALFIISVIASRYVYVPPGFPAPLSALQTFGITLAISDVFNALLLIYLFVLFRIWDKQ;locus_tag=LOCUS_28860;note=MGA_2895
sequence1	MetaGeneAnnotator	CDS	2619044	2619508	.	-	0	ID=MGA_2896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAALGYLYQGDYSIPIILIDELKKEGIEVMDLSLGALKAASLLQILQPDKLIILTCDKKGKKELRIYSPKIEEDKMSSIMDLYNNLRGYYMDLDSFLKASNSLGVLPKDTKIIECEVENEEGIALSEWGKECKDMMKNKLKELLLVPDSEKNE;locus_tag=LOCUS_28870;note=MGA_2896
sequence1	MetaGeneAnnotator	CDS	2619512	2620207	.	-	0	ID=MGA_2897;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDLTSSSNNLEDIWGNIDANLTIFFDNSLKEFLPKLVKIFDDNYISYFIESFPSEILFKQIFNEKIKIGNLIINKSPKIVVLPTNQMKALKEWDLLLLKRSYAKLRMSMATEKEDICKPNSIAVPNPQYFTIGSIFIDIYQIRCKNENKIITTNELKEIYYLLKERKVEAGIMWEHQAKLNGFKYMDMNKTITLEIGVFKGADKNTLNAYEIMNSIEFRRALDSVEIIGD;locus_tag=LOCUS_28880;note=MGA_2897
sequence1	MetaGeneAnnotator	CDS	2620384	2621715	.	+	0	ID=MGA_2898;product=hyaluronate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011761959.1;translation=MGLTRREFLKLSGVTALGTTLALSGLSLDELRAKAQDSDQPINIIWTGNGWCGGNTIAFIDAMNPSLENVFTGVYFDDKAITLRQPSISDLGNVNLVYHPILMPQDSMAYATMEMALNGELDPYVLVVEGTLFDEFALYPRDVYNGVPYTYKKNQFWCSAGRKPDGSVLLCEEFVFNLMKKAYAVAATGACATYGGIPATTNGLGKRSPTYAMGMLDDPYRGIYGFPYYAYQVYQKDLAPDIIDEDIFSVTNSTVNTSWPGPSYHWKSVGGLPIIAIAADPPAGDWIMKTLLSIVLYARGIGPNPADDLDVFNRPKFFYGNETHQNCPRAGFFSEGVFAYEFGDPQCTYSLGCKGTEANSPAPRLGWLGGVGGCTRGGACIACTAPGFPDLYEPFYAPPNAPTIPSTTLFAAAAAAGIIVGVGSYAFSRRRRTPPALKQTEKR;locus_tag=LOCUS_28890;note=WP_011761959.1 hyaluronate lyase (Pyrobaculum islandicum) [pid:29.6%25%2C q_cov:96.8%25%2C s_cov:97.9%25%2C Eval:4.3e-41],MGA_2898
sequence1	MetaGeneAnnotator	CDS	2621721	2623958	.	+	0	ID=MGA_2899;product=nickel-dependent hydrogenase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013225646.1;translation=MATTPYYFTFDWTKPVLIEPIVRIKPELGIQVTYDFSTNRANDAYAAAGMFRGFEIFMRNKPGPDVIMLSSRECGICGEHHQYIERIAQEMAQAGNAPPPLGLEGIVLGIDAAMTYDATAHLTALGGPDWSSLFFKIAGYFPKEIYEIAQQTPLSKVAQYSEAFPMGAPTELEMAGVKIKTVSDIMDALVPIIGAYFLEGAYSWRILHEAELLYYLRIPHPITMVPGGIGVPPTVENLQRYLQRMINGTAWLMKQMAAYEYLDLFLADYNNVFGIQALYDKLNGTLGFAEEGNRPGNFVSYGQSDVSETPSVTPSTTKVAPYDATYANMGAWGRARVVKPGLVIQQSASSPPTLVTNDLIDINLGIREFVESSWYNPWYKDGSFASEVPSEVAGIEEDPIGNKVSYYHPWRKWTMPSPQPRPIPMAYPTPYSWAVSPRFVPYQGYKPISNLYYNVEADPQAVMYAQVLQPQAPTPIYSSYYSVAGLGAEYNSNEMSVKFYLPTVNTETVKLPPEFQQGKEIEFKYVAPYKLSGGKIVTNAIERMRARAFEAGLDGMGMWIAWFTAMKWLREGKTQVSSMPPSSWTYVKNTNQDVAIGVGMKEAPRGAQYHSEVFATGKGVTVPTINPQQMQPTTVNAGPRVKLTYDDGIQTIKPASPTHGAGTFEETIMGNPDYNILGTPRLTIIPTDQWDGFEFAQTLRSFDPCFVCGVHMVLPNGRVRFQTLGAPVDLSNVLKVFYRYAAQLR;locus_tag=LOCUS_28900;note=WP_013225646.1 nickel-dependent hydrogenase large subunit (Amycolatopsis mediterranei) [pid:27.2%25%2C q_cov:94.1%25%2C s_cov:93.6%25%2C Eval:1.4e-48],MGA_2899
sequence1	MetaGeneAnnotator	CDS	2623964	2624842	.	+	0	ID=MGA_2900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPIVYAIGASYGSDALYWWALNVIFPVSLLIFVFGVIYRISRYFIGRRTITYASAGFGSEVKEAVKGIPTPFAAAGKKDPFLIIETIFWHIFVLGVIIIVGIHIIAWNYIFGAIFGVSNPLWFLFKISTPEQFTSAYQMGILGSNAYSHGGILNPLGAWNSAEVATSTFDPWGFLSVLVNGTMMALIALAGLVGYLTTRIVEDIKGDKRLSSVGDYTFLILLLLIIISGIGAMYDFSIPYLGIPNQANWYGLHIALVGAFIAYIPFSKGWHMFGYYIGKGFRGYTYGRKRE;locus_tag=LOCUS_28910;note=MGA_2900
sequence1	MetaGeneAnnotator	CDS	2624823	2626097	.	+	0	ID=MGA_2901;product=(Fe-S)-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393135.1;translation=MGEKENKVCGGFKVEKGKVKIQRPLVSRIFDEMSHYDVWGIQECMRCGVCRFTCPFWLVTKKGTDVPAWRTYEINKMFSMFYTGYGTVARYLRLRRISSKEFKSWVDSAYNCTACGGCTETSPLEIPNWYTALLLRRVLHFTGFNLPEVETWAENTKKFGNAFGLENEKWVEMANNYGLPTDSKDSEVLYVPSALEIVQGYINEVGTIMMSMKGKWTVSSKLSDIGYYAYFAGDFETARGQFSKIYEEAKRLGVKKIVTSDGAGYFFLRWQAPKSLGYKLDLQVEHLTETVYNAYKESKIKIDKADFNDEITVHDSEFMSRLGGLEKPPRELLKLSLPKFKEPKPSPSSYNLFTCGHHLELIRDKQDIVKKMRAYAASQLGNWAKSVVTFDPNCKLSIDNAIRDSQGVEKSYYYTNILSKAIKS;locus_tag=LOCUS_28920;note=WP_011393135.1 (Fe-S)-binding protein (Moorella thermoacetica) [pid:25.3%25%2C q_cov:83.7%25%2C s_cov:82.8%25%2C Eval:8.8e-20],MGA_2901
sequence1	MetaGeneAnnotator	CDS	2626094	2626423	.	+	0	ID=MGA_2902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFLIRYLFKQSGIEDTIKEAMEEITSDKDFLDLIIIRPSPPSNSKEELMKLIKNLGLDIEIRDSKNTIDPIRRSTAISANVTPLDIENPIEVLWKIGEHFKGTKFGNS;locus_tag=LOCUS_28930;note=MGA_2902
sequence1	MetaGeneAnnotator	CDS	2626410	2626946	.	+	0	ID=MGA_2903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEILKNSNSIIFSKPFPFQFIREYFKNDSDYFTAGNVEVLIEKEEKSEDYTKSILFSSEGEKSQEIFDMFLRWLSLRTRVNEFVWAYQINCIIKEKVNLKFNFPSVLPMVGNVMLTGLILANVKNLDMNQRKFTIIQIDNDIKIVKRDEKYISISQVKDELKKLLYVINTSNLGYKSS;locus_tag=LOCUS_28940;note=MGA_2903
sequence1	MetaGeneAnnotator	CDS	2627115	2628425	.	+	0	ID=MGA_2904;product=pyruvate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979673.1;translation=MEVRKRKTKIIATLGPSSENFIDELLRNVDIIRINLAHTSSIEKYVNMIEGRVPILLDLPGSKFRILNDNIISVKKGQRLTFGNEIKVDDSFYSLVNDGDLLTIGDGDLKIMVNKVEDKIIGTALENGIIYPHRGISLPKEMPYGVTDNDLRLLDSIMRFDPDFIGISFVTSELDIKKVKNVTNEKSWIVSKIERKESLNNLVNIAKLSDVLMIARGDLGLEVGLENIPFIQKYIIKLGKKTKKPVILATQVLESMVNSPTPVRAEVIDIANSISQGVDAIMLSDETAIGKHPLEATQVLNKLILGIEGNIKIKVPVKIGSLEDSIYFSAIMSLKLSKAKALVIYSPSGNGAIRISKLRPNVPIIALVNKNIERKLSIAFGIYTVKIDPINSVDELIKISRIISIDSGLAKKGDSLVITAENSTKIGKFIKIEDIR;locus_tag=LOCUS_28950;gene=pyk;EC_number=2.7.1.40;note=WP_010979673.1 pyruvate kinase (Sulfurisphaera tokodaii) [pid:45.2%25%2C q_cov:98.6%25%2C s_cov:99.5%25%2C Eval:1.5e-99],MGA_2904
sequence1	MetaGeneAnnotator	CDS	2628418	2629191	.	-	0	ID=MGA_2905;product=DUF929 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846855.1;translation=MMKKTIIAIIALIVIIAGISYYELVPKTSSQSVSETVPFGKFIKVSNVDYAPPGKVEIFEQSWIGCPVGATASWVIYMIISHYGKVSYYTHYSDPYDKVAANIPGIIFTGFTPNSSLEFNVVYTYNEYLNATPTGTPVSVQNLISVGKKELEESLPQNISKLFIEYETQVPVEGYHNASAYIVSPPHLNFGLIITGPNGTYVLTTPLVNPNVLKGDSITYVMQNMYNITTLVNAASYLQEIINEAYGSSAPIVNCIT;locus_tag=LOCUS_28960;note=WP_052846855.1 DUF929 domain-containing protein (Sulfurisphaera tokodaii) [pid:47.8%25%2C q_cov:93.4%25%2C s_cov:95.7%25%2C Eval:4.8e-64],MGA_2905
sequence1	MetaGeneAnnotator	CDS	2629285	2630196	.	+	0	ID=MGA_2906;product=fumarylacetoacetate hydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240519.1;translation=MKLLSFSPTPIEEKRVGIYKNGKVIDLVKAYQIIYDAEPPNWFYDMKKLIEGGNGPLYLINKLMEENEEKLSLATLDADKIIYYPPIDNPEKIFLMAVNYKAHGQETSTSPPKEPYLFTKFNNTLIGHNQSVIIPKSSHKVDHEIELAVIIGKKGKYVNSSDAEKYIFGYTILNDISFRDKQFPSEGPYGMRWVHGKGMDTAAPLGPWIVTKDEIVNPHNLKLTLKVNGEIRQEGYTEDMIFRIDKIIEYVTDGITLKPGDIISTGTPPGVGLASGKYLRPGDVMEAEISNIGVLRNYVAEEK;locus_tag=LOCUS_28970;note=WP_053240519.1 fumarylacetoacetate hydrolase family protein (Pyrobaculum islandicum) [pid:46.4%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:3.2e-76],MGA_2906
sequence1	MetaGeneAnnotator	CDS	2630214	2630951	.	-	0	ID=MGA_2907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKCEVKFQELPPTISVDDLNIYRVIFLDNGFYARIDINGVPQYLSLLNGNLTVYSKQIYEMIKEIDFDNCESNKLVECILDEVVYSLGITRTKLFEKFDALFDSITEGKLKDLTSIKNLRKEIQTLYSDSSSLYYVSKKLSKYISKDIQDEIAFAYERTEILITRSSDLYNIYLTEVQNELNIIIKKLTSISFIFLPVTAIASIYAVSYSSLPSNFSTVDTLYFLTPLVFLAIMLTAYLHKIGWL;locus_tag=LOCUS_28980;note=MGA_2907
sequence1	MetaGeneAnnotator	CDS	2631318	2631587	.	+	0	ID=MGA_2908;product=type II toxin-antitoxin system CcdA family antitoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846657.1;translation=MYTESLYTELPYIIIMSDVISVRVSKELKKRAQELGINIREVVEKALDNAIREKEKEEIKETTMKIKELMRDVSEDDWIRDIKESRNER;locus_tag=LOCUS_28990;note=WP_052846657.1 type II toxin-antitoxin system CcdA family antitoxin (Sulfurisphaera tokodaii) [pid:68.9%25%2C q_cov:83.1%25%2C s_cov:100.0%25%2C Eval:3.8e-21],MGA_2908
sequence1	MetaGeneAnnotator	CDS	2631577	2631969	.	+	0	ID=MGA_2909;product=type II toxin-antitoxin system VapC family toxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979870.1;translation=MKDNEFLFDASALYSLLDYSDKLDFKRSHILTLTLYEVGNAIWKEYYLHKKVKDPITLSTLFYKFMTKFNVIGNLLFEGVMKIAVEEGLSYYDASYVYAAKSLGLVLVSNDKDLIRKANAISLKDFIKLI;locus_tag=LOCUS_29000;note=WP_010979870.1 type II toxin-antitoxin system VapC family toxin (Sulfurisphaera tokodaii) [pid:58.1%25%2C q_cov:95.4%25%2C s_cov:95.4%25%2C Eval:8.5e-37],MGA_2909
sequence1	MetaGeneAnnotator	CDS	2632191	2632958	.	+	0	ID=MGA_2910;product=DUF929 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846855.1;translation=MIKMRKVWIGIVGIILITIVILLVYPSISFHQNLVLGKFFKISNKDYAPKGKIVIWFVTWVGCPVGASDSWILYSFLHKNNVNVNITLHYSDPNDKIGPLPGIVFSNGIPNTCVPYNYSSGNIIFSVCYMMNEYFNETPNGIPVLPNNILNTEIKEIKDVLPQWVYSLVYYYNVKATYNINGKTISPSYYVNPHHIISTIVISGKGGTWIMVGPMYNLTVLKGLTYEYVMHNLYNFSWYRTSYQEFSETVNKAQE;locus_tag=LOCUS_29010;note=WP_052846855.1 DUF929 domain-containing protein (Sulfurisphaera tokodaii) [pid:32.5%25%2C q_cov:93.3%25%2C s_cov:92.9%25%2C Eval:1.8e-31],MGA_2910
sequence1	MetaGeneAnnotator	CDS	2633757	2635133	.	+	0	ID=MGA_2911;product=selenium-binding family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010977998.1;translation=MIPFKTDPTFYPSPKSAMKSKPEDLAYVACLYEGTKLDRPDFIAVVDVNPHSQTYSKVVGKVELPYKGDELHHFGWNACSSALCPNGIPGIERRYLIVPGLRSSRIYVIDTKENPRNPKITKIIEPEEVKEKSGYSRLHTVHCGPNGIYISAFGNTAGEGPGGILVLDHFSFNVLGRWEIDRGDQYLAYDFWWNLPNEVMVTSEWGVPNTIEDGLKIEHLKDRYGNRIHFWDLEKRRKIQSITLGDENRMALELRPFHDPTKLMGFINMVVSLKDLSSSIWLWYYEGGKWNAEKVIEIEAEKSDTQLPEILKPFNAVPPLVTDIDLSLDDKYLYVSCWGTGEVRKYDVSNPFKPSLVGKVKLGGIGSKEYHPSGVELSGGPQMLEVSRDGKRIYVTNSLYSTWDNQFYPGGIRGWMVKLNSEDGLRLDKEFLVDFGEARAHQTRLSGGDASSDSYCYP;locus_tag=LOCUS_29020;note=WP_010977998.1 selenium-binding family protein (Sulfurisphaera tokodaii) [pid:80.0%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:1.8e-228],MGA_2911
sequence1	MetaGeneAnnotator	CDS	2635102	2635635	.	+	0	ID=MGA_2912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVQILIAILSFLLGITEGLNVYKGPLFSLYLRKFNRKIESYTLPFFMIIFILWTIIFAKFSITSVLMVGIFIVLTYLMKLLIWKYHHYTGSFSPSLMTAIKWVLINSLINMEFILPLFLVLMNVLYYFIYIIANFSPKIVLSISNEDVLRGFAMLNMEIINIILGIVLGLILILMK;locus_tag=LOCUS_29030;note=MGA_2912
sequence1	MetaGeneAnnotator	CDS	2636141	2639605	.	+	0	ID=MGA_2913;product=proton-conducting transporter membrane subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980304.1;translation=MIPYIIFILSLILVLITFLMKKKLYAISLSIIAITINSYFLLKSGLFTNFFVGTRIGSFGFTVNSLNYPFLITILIVSILTLIFSSKYFEGRKINWGLFSGFFSLSSVTLIYTVLSTNLLELLIFLEVSIISVFFLILLYGKEDKERASSMFILWSQIGMSLLLASIILIGIGLNTMDIYKTYGIFNNFSSFGYAVLVFMLATIGMMIKSAQVGANTWLPKTYKESPSSVIILNSLVTGISLYIVILYFYLFNSLSYLAPIFIGWAILSMIYGGINTFSQNNMNKFLGYSSISQLGYMLLGASISFFIGLNSSVTIIPLGILASIFIYISIAFGKGILFMSVGGIEKEVEYKEDGLFKSSPIYTAFSFIGVLNVLGLPPTIGFIGEILLILSSAELIQKAGILFIPIIIGILISIAISSGYAALFFKKIYGGKKLSANLDKSLYTVTMGILSILSVILSLDPEILSSSFNNFVTFTSGNYFILPLIVFLPSLGSFLALITPSSLSQNLRGYISLATIGIASALGIYNLINILSVPHTFISTVFSFDLFSYFAFSSSLMQSIISVFVLVISFFIALYSIDYMKEDKVLRRYWGFFGFFITSMLAVVLSNNLILFLLGWEGTSLASFALISYYLDDTEKNIVGDPGKIFFGIRNVSTPSVSGIRALIFTRMADVGLIAGLGYLLFETTFSQYSGISALYPPGTSIFGSLSTFTSPFSMIILILLYIGGLCKSAQFPFTQWLITAMTGPTPVSALIHAATMVNLGAIFTFLTYPFLVGNSSLNLYTFFEFMIAISAFTAIYTSLNALVSNEQKVILANSTADQISLMILSSSIGGILTLYFHSIAYLYTGISIGILQMIAHGLYKASLFMNAGSVIHYTESRYIGEYPSLYKRLKSVFTLQLLASLNLASIPPLIGFWAHSFIAYLVSFNPYLVTLYLILEFASAIYIIRYLVRTFLWRGENMIGIDLLYKPPRYSYATFSYSNHDLHNYSKDENRLGKLMIISPGLLVAITIITGALIVGITRFMSTQMFAIKGFLSFSLSDALISLLGIVVAYLVFTRNIHIEKLNPVMDFLYSGFFIYPLLDKLGMYSMKFFNKTYETIEYNGLYTALNVKLPLMVRKFGGWAVTKVQTGILRNYVGFYIVGLIMVLIILLIII;locus_tag=LOCUS_29040;note=WP_010980304.1 proton-conducting transporter membrane subunit (Sulfurisphaera tokodaii) [pid:47.4%25%2C q_cov:98.7%25%2C s_cov:98.4%25%2C Eval:2.3e-295],MGA_2913
sequence1	MetaGeneAnnotator	CDS	2639634	2640092	.	-	0	ID=MGA_2914;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978712.1;translation=MKLKVGDKAPDFEAEDDEGKRVKLSDFLGKYVVLYFYPKDDTPGCRTEALSFKEKWDELTKMGVVVLGVSGDDINSHKKFKEKYGLPFKLLSDPDNKIRELYGAKGLLIPPRITFVIDKEGKITHIYSSQMNASNHVKEAMNAIMKLESVKT;locus_tag=LOCUS_29050;note=WP_010978712.1 peroxiredoxin (Sulfurisphaera tokodaii) [pid:61.9%25%2C q_cov:96.1%25%2C s_cov:95.5%25%2C Eval:5.2e-50],MGA_2914
sequence1	MetaGeneAnnotator	CDS	2640238	2641920	.	+	0	ID=MGA_2915;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979769.1;translation=MEYKWVALSNTTVGILMATINGTITIISLPAIFRGIDINPFTSFQYLLWILMGYNIVTATLLVSFGRLSDMYGRVRLYNLGFLIFTIGSILLSITPNTGSLGALELIFFRIIQGVGGAFLMANSTAILTDAFPYTERGKALGINQIAGLAGSLVGLILGGILSVINWRYVFLVSVPVGIFGTIWSYTKLKELSKPSRNEGLDPIGNITFGLGLILILIGVTYGLMPYGTSQTGWEDPWVITSMVVGTGLLVSFLYVEKKVKYPMFRLELFKIRMFAAGNIASMLRSFAYGGLMIMIIIFLQGIWLPLHGYSYSETPFWAGIYTIPLMLGFVTMGPISGWLSDKHGARLLSTLGMVIVGIGFLALTTLPYNFNYPEFALIIFVMGLGNGMFASPNTASIMNSVPSKYRGVASGMRATLQNSGQTASIALFFTIVIISLAATLPHALAQSVTQAGAPQLAPLVQKVPVTGALFAAFLGYDPVKSILSTLPQNILSTIPSTAISTMEQRTWFPTAIAPAFMSSLRDAFYVGAGMSFIAAITSALRGRIQIAELEEKVGRNADK;locus_tag=LOCUS_29060;note=WP_010979769.1 MFS transporter (Sulfurisphaera tokodaii) [pid:76.2%25%2C q_cov:98.9%25%2C s_cov:99.6%25%2C Eval:4.3e-246],MGA_2915
sequence1	MetaGeneAnnotator	CDS	2641907	2642341	.	+	0	ID=MGA_2916;product=MarR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979770.1;translation=MQINEEDIQIFSTIAKIHRAMQRELNRRLQKLNITYLDFLILKATNEGPTTMVGLAKRFYITQAAITSAVDRLEKYYLVERKRNSKDRRIIVISITPEGKRTFEEGVKIYKAFASEILEDMGEMTDVLIKLNRILEKMNNIEEK;locus_tag=LOCUS_29070;note=WP_010979770.1 MarR family transcriptional regulator (Sulfurisphaera tokodaii) [pid:52.4%25%2C q_cov:99.3%25%2C s_cov:97.3%25%2C Eval:8.1e-36],MGA_2916
sequence1	MetaGeneAnnotator	CDS	2642349	2642543	.	-	0	ID=MGA_2917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIPKAIELAIIVISIIVIVIGGVFLAMVPVHTSHTTAPTSYSTSTNTSTSTSSSSSSSGYVWG;locus_tag=LOCUS_29080;note=MGA_2917
sequence1	MetaGeneAnnotator	CDS	2642611	2642988	.	-	0	ID=MGA_2918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978994.1;translation=MSLVKQLYFPLRVISGALLIVWAAIHLYLSASLVKLLPIVGYFFIIDSILAIVGAIILFINLRILYLPLLVYNWINYLLVTESRVFPAPILGKPLPVINVYVIAVIIIDIILIALTTVTWIGSRR;locus_tag=LOCUS_29090;note=WP_010978994.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:37.0%25%2C q_cov:96.8%25%2C s_cov:97.7%25%2C Eval:3.6e-16],MGA_2918
sequence1	MetaGeneAnnotator	CDS	2643337	2644317	.	+	0	ID=MGA_2919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIDVHAHYFPLDIIKEFKNKLNFSFNINSNKIKVIVGKNSWEGSAYNGFLNEEKLIEDLHNSEVDIRILSLAPISYLYDVDINIALSFYKKFNDKLSEISEKSKGKFMGIAGIPLQEPSIAVEELKRAVNDLGLKGVLIGTHILNWNLDDKKFEELFQSVSSLNIPILIHPQITDIICSENLRNYYFTNLLGVPIEDTIAVASLIMSGMIEKYNLRVIVPQGGGFLPYQIGRIDHGYKVRGNSADLNKIPSDFLKNMYFDNIVFNTKVLEFLINFVGEDHVVLGSDYPFKMGYYKPYEIIEKIKISEEDKDKIAEKNARLLFHI;locus_tag=LOCUS_29100;note=WP_193487479.1 amidohydrolase family protein (Streptomyces) [pid:32.3%25%2C q_cov:79.1%25%2C s_cov:73.4%25%2C Eval:2.4e-32%2C partial hit],MGA_2919
sequence1	MetaGeneAnnotator	CDS	2644320	2644778	.	-	0	ID=MGA_2920;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKIIDILKEIYDPEIPINIYDLGLVREINIDEDKITVRLIFTANKGCTLADMIAIQAKYKISKEFPNYKVSVMSDYNVKWNLSYATNEGRTMLEEIYGKETVQSLENVTIEDIIRPKFRVENLDPKSYMAEIIDRRYKEFKNWYERHRIL;locus_tag=LOCUS_29110;note=WP_011763571.1 metal-sulfur cluster assembly factor (Pyrobaculum islandicum) [pid:38.1%25%2C q_cov:68.4%25%2C s_cov:79.4%25%2C Eval:3.7e-16%2C partial hit],MGA_2920
sequence1	MetaGeneAnnotator	CDS	2644775	2645902	.	-	0	ID=MGA_2921;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKLEDLEWYKRYKELFGAFKSGEGDKFYRDYEYKGYKRVWATWPLLEKKIGKKKPSEYQIVTYALSYWADPKSPTYIYDKGPFELGTDHLTQKWYRHFRDNSPFIKPLFERRQWHDYEDPYKLTYWNYNNMADDNETFLDKIYEEIVSSKYDLNLSEESLEFYRDVYDPIKYIWHIFQMESMYLASMSPTSSVTNVFVFMGMDHLRRVQRIAQRIKMLDFVYPSYAFGTRGRDQFERSSIFQPTRKLLEKMLVTYDSGEALTAFNLAVKYVYDELLLNGLSSLGTSRGDEILKHIHSSFYNDTLRHRHQITELFNYAFNKEPSLRDVVRPWLNDWKEETYSSIEGFKDVFKQEYDNIVKDIRNGHEEFLKGLGL;locus_tag=LOCUS_29120;note=MGA_2921
sequence1	MetaGeneAnnotator	CDS	2645908	2646252	.	-	0	ID=MGA_2922;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEELTIENILNKYELTIDKLPPDIVGPVLTKDEIAFAVIEAIAADNPSNFIGVIDRGSYIRVVGERKLILNKDTLERVAGEEIRFPGEIEVRMSAFAGKIEVRGDHIMWYLER;locus_tag=LOCUS_29130;note=MGA_2922
sequence1	MetaGeneAnnotator	CDS	2646249	2646650	.	-	0	ID=MGA_2923;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNYPGTFVKVCNIDDIFEGEAKLFEINKYDVLVLNVKGDIKAYYGRCAHALGLLEPYSFDGEDRITCPVHLWEYDAVSGKSINPEGSSLFPLDVKVEGNEIFVKVPNIPQLEFKVKWFKMYSESQKIAEVEK;locus_tag=LOCUS_29140;note=WP_011730646.1 glutamate synthase-related protein (Mycolicibacterium smegmatis) [pid:30.8%25%2C q_cov:77.4%25%2C s_cov:18.8%25%2C Eval:3.1e-07%2C partial hit],MGA_2923
sequence1	MetaGeneAnnotator	CDS	2646653	2647084	.	-	0	ID=MGA_2924;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEEALPIIFVPEEGTVWLPAILPANISVKEAVEILRSLTVNVLVWDKKKELRLVNYHSGQVLEHEAKVKDCIKPYDVFWLVWWPPKEEFWKPENQTDEIFQVIKETEAEIKNAPRSPANIFGDELEKYSIIKRLEKEGKLRA;locus_tag=LOCUS_29150;note=MGA_2924
sequence1	MetaGeneAnnotator	CDS	2647088	2648017	.	-	0	ID=MGA_2925;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQEGLGKTRNEVKNNLQTISSNLMQQYRKTVEYAAKLGEKGKGYREAGEYLVAKGFWESIRLIGALTGVSMDYLTPLDARIMSYKEFMMEWVGAQFKRLLEDYGVNLPWYWKWFELELDYWHHDFDIGLYTWRRTLNISFRGPSPDERKWLNEKYPQWEKFFGRVWDFYANKIINGENPLPLTAVHLCNICMVPIQAPTNGKYLRIYLKEYKGKIYTFDSPACLWIFEQEPERYAGRRTYTQRVLEGLIQFTEEAYQDPKRLLQEVIWDMGLTEEGEAGLDPTNGGYGLLYKEKDPDFFNRIKKYTEG;locus_tag=LOCUS_29160;note=MGA_2925
sequence1	MetaGeneAnnotator	CDS	2648218	2648664	.	-	0	ID=MGA_2926;product=heme-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388668.1;translation=MRNTLRLDLEDAKILAEGAEKSANNMGIKVCISICDENGDLILFHKMNDAFLISTEISISKAYTAVAVKMPTRTIGETTYPGKVNYGLQFTNLGRFTILPGGFPIIINGNVIGGIGISGGTSEQDEKIGLDSIAYFKSKTNLQVKTNF;locus_tag=LOCUS_29170;note=WP_011388668.1 heme-binding protein (Rhodospirillum rubrum) [pid:36.9%25%2C q_cov:87.8%25%2C s_cov:75.1%25%2C Eval:1.3e-15],MGA_2926
sequence1	MetaGeneAnnotator	CDS	2648746	2649558	.	-	0	ID=MGA_2927;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQMKPTPSEPKLPSRDEYYNLATKLEWTPKYVSEEELFPVDMSGIPNLPMDVWEELYDAPYKVTYREYVKNQKEKDQRFFAVREAGLRSELLKKLDPTYHQGTFCFHITAVPIPEYTASIAEARMARFGKSGEWRNLSTFGSMDEIRHTQLQILLSHDNIAVDPKFAFSHKMFYVDGWLPIAARSFFDDTITGTSAIEFALMTTFAFETGFTNLQFVALAAMANKTNDFVFSTTTQSIQTDESRHAQIGHPVLKIFSDITKLSDDLVKKA;locus_tag=LOCUS_29180;note=MGA_2927
sequence1	MetaGeneAnnotator	CDS	2649719	2650951	.	-	0	ID=MGA_2928;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878451.1;translation=MEKTCKYLIIGSGVAGYNALKELLSIRPDSRIILVSKDRNYPYDRPPLSKEYLRGKIDKEMLFYESPDFYKKDNLEILLNKEVLKIDIGDRVAILTDGTEIEFTKALIATGGRPRKLNIQGEEKKGVHYLRTLDDADSIKNDVISTKTPVIIGGGFIGMEVASSLTILGLRPIVIEVKPYIWNTFVDEKISKFIQQYFENKGVRFLINESVKEIYGSDKVDGVITESGKKIETNFVLISAGIIPNTEIAERSKINVNNGITVNEKLETSALGIYAAGDVASIFEPIANKRKRIEHWNNAEYTGKLVAHNMLGKEETYNFISTVWSDIFDLHIESAGDTMDYDEYLIRGSFEKPSFSVIYVKGGIVKGYLSINRKVKEIAALNKIIEKKVDVSNRKNSLVDESFDLQKLLS;locus_tag=LOCUS_29190;note=WP_010878451.1 FAD-dependent oxidoreductase (Archaeoglobus fulgidus) [pid:30.7%25%2C q_cov:96.8%25%2C s_cov:93.0%25%2C Eval:7.8e-58],MGA_2928
sequence1	MetaGeneAnnotator	CDS	2651184	2652266	.	+	0	ID=MGA_2929;product=zinc-dependent alcohol dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257000.1;translation=MRVARLVGFMSPLKIEDIPEPKIGKGDVLLKVDTCGICRSDWHLWRGDPSLVAYMEWSGGKLPIIQGHEVFGKVVEVGDNVESVKIGDNVVMPASSTGDFRTCPYCMNGNSNVCEHLVIAGFGIDGCFAEYMLVPARSVTDLVKVPKGIKPEWASITGCGFGTAWNGLVLKSKIKPGDLILVIGAGGMGLSAIAIASAIGARTIAVDINTETLKKARELGSIGAYRYSGKINELNSVLNEISKVYGVVDVIFDGSGNPDAVAALLPALRPQGTLILAGLMMKGKETIPLPADLIVAREINIKGALMLAAQHYEGIFKLMSEGKINLDPIIYKVISIDEVNDAYNEMSEYKNSGRFIIKKF;locus_tag=LOCUS_29200;note=WP_012257000.1 zinc-dependent alcohol dehydrogenase family protein (Chloroflexus aurantiacus) [pid:32.0%25%2C q_cov:96.1%25%2C s_cov:95.4%25%2C Eval:4.9e-45],MGA_2929
sequence1	MetaGeneAnnotator	CDS	2652290	2653297	.	-	0	ID=MGA_2930;product=catechol 2%2C3-dioxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257232.1;translation=MVNKILSQLTSVEILTPKVDDTLWFFKDLIGLHEVGRKGRSIYLRGWEDWYTYSLKITESDTTGVAEINWRTYSEQDLLDAVKIIESYGLGLGWDNGDSEFGIGKGYKFLLPSGQVGRITWEMKTFKSSGNLRSGFKARPMKKPTIGVQAKDLSHVFIFAYNDQALAKSVDLLKRLSFKVNEMLKEGNHTIAYWMAVNGTAHDLAISVDPSGIPGRLNHFTYNVDYADDLLRAADTFSEYGIEIVGGPLRHGITDSHSLYVKEPSGNTVELLHGGYTNVVPDWEPVVWDTKEDENRWLYYWGHVTEAFWDGSPIPPSRVSEELKELARQKLGAKV;locus_tag=LOCUS_29210;EC_number=1.13.11.2;note=WP_012257232.1 catechol 2%2C3-dioxygenase (Chloroflexus aurantiacus) [pid:39.0%25%2C q_cov:91.6%25%2C s_cov:93.9%25%2C Eval:1.8e-54],MGA_2930
sequence1	MetaGeneAnnotator	CDS	2654070	2654489	.	-	0	ID=MGA_2931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIADLSSESPSEFLLQSVREVSQHIPIDYMLADAGFLSLNMLKEMPVKTIIRGKSSLKAFKELSTLPLVEKIFKVEDRIYVAYRMVEIDGLYYYDVVYVKEKPRHFTFVSNFLGDPYELAELYRLRWLRRASRSGRLG;locus_tag=LOCUS_29220;note=MGA_2931
sequence1	MetaGeneAnnotator	CDS	2654536	2654841	.	-	0	ID=MGA_2932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESLTIQSVLEGLNVISPEIPQKLAKTAPPMTGNRGKEYLYLIRQGQKALQDKRSFRFYPLYEKVKGKPSVLAADESGITIGENEQEKVNDLNCITGRGRK;locus_tag=LOCUS_29230;note=MGA_2932
sequence1	MetaGeneAnnotator	CDS	2655201	2655878	.	+	0	ID=MGA_2933;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846139.1;translation=MTYTKNRLNEVIFAVSHEHCWTSLVGDYVVKTINLQIDTEKDYIRSIITFNKKNKDLIYEIKKSKTYIGSSLLNATDNKILFDFRKKYSNSVINTVLNLNGVILNGFKYNGREFWRVLIYEDYLHQLFNELQSRGKVDYIAQREFDIEEDNLSMHELDSLTLAYKYGYLNFPRKIKSDKISKIANLSKSTFTYHLRSAEYKVIKQLIRELDFYNLPNHIKNNKED;locus_tag=LOCUS_29240;note=WP_052846139.1 helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:31.5%25%2C q_cov:88.4%25%2C s_cov:91.3%25%2C Eval:2.1e-25],MGA_2933
sequence1	MetaGeneAnnotator	CDS	2655882	2657354	.	-	0	ID=MGA_2934;product=CoA-acylating methylmalonate-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979130.1;translation=MTILDEVQSNYGKLKLFVNGEYINSETETFSPIYNPAKDEKIAEVPFSTRREVSNAIEAAQEAYEKWKDLPVTNRIQYLFELKNKLEEYSESIARIITQNHGKTIQESRGDMRRTIENVESAIAVAYTLAKGENIDQVSQDVDEMVSREPLGVFGVITPFNFPSMVPFWFIPYAIVLGNTVVVKPSEITPVPMDFISKIFNEIKLPPGVINVVHGAKDVVDEFLENKLIQGITFVGSTRVGKYVYENSSKNGKRSIVQAGAKNFIVVMPDADPNITVPSLVSSFFGNAGQRCLAAANLLLVGDNDNIKKKFVNLSKQLKLGYGLDDTVDMGPVVTKDAKKRITGYIEKGDAEGAKLLLDGRNVIVSEYPKGYFIGPTIFDNVHLDMTIAREEIFGPVASILYAKNLDDAIEMVNKSNYGNAASIFTTSGYNARKFKREVIAGNIGINIGVAAPMAFFPFGGRKDSFFGILHGQIDSVEFFTEKKVIITRW;locus_tag=LOCUS_29250;note=WP_010979130.1 CoA-acylating methylmalonate-semialdehyde dehydrogenase (Sulfurisphaera tokodaii) [pid:73.4%25%2C q_cov:99.6%25%2C s_cov:99.8%25%2C Eval:9.4e-218],MGA_2934
sequence1	MetaGeneAnnotator	CDS	2657523	2659220	.	-	0	ID=MGA_2935;product=thiamine pyrophosphate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003807539.1;translation=MIVMNGANILLEMLERYNVKYVFGLPGETSLALYEEWEKYNEKIRHVLVRDERNSVYMADAYAKIAFQPGIVEGPSVGSTYMLPGIAEAYKSATPLIIITTDTPLGSEYKNVLTSIDQSGIFQKITKSTYTVYSISDLPLIIRKAFRISTSGRPGPVNIRIPSNVLEDNVKDPEIYSQNEFSKYPAIRIVDDEEKIKEISEMLMKAEKPVIICGQGVLYSQAWNEVTELAELLDIPVGSTITGKGCISELHPLSIGVVGGRGGSSFSNSVVNDADLIFLLGSNTDSANTNYWTIPSKNKVIVHIDISFEDLGNVYKSINVVGDIKAILRKIIANTKKIQRTAWRNEVNARREKFLNHIKELKEKDSNYINIPKLIDEMDKLIKDDILIADPGIGAISTAAFYKTKYSGRRIIFNYGMGGLGYSIPASVGAYLASRKHIIVLTGDGSFNFSVGELETIKRYNINVTIILFNNSSYGWIRAEMMLYHNSKYFDTDFSPIDYSKISEGFGLKSYIIEKNADIAPVLTESFKNTPSLVDIRSITEDRLLLPVEHWINKAKENKNNDFIY;locus_tag=LOCUS_29260;note=WP_003807539.1 thiamine pyrophosphate-binding protein (Bordetella) [pid:32.7%25%2C q_cov:97.7%25%2C s_cov:99.8%25%2C Eval:1.4e-87],MGA_2935
sequence1	MetaGeneAnnotator	CDS	2659503	2660318	.	+	0	ID=MGA_2936;product=acetoacetate decarboxylase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978705.1;translation=MLQNSNNGFTLPLTKNDKSQIVFPPPWYYGVTYISAHVKFTRESANMVLPEFLTTDGEGWVYIADFISTSENNWDYMYQDPDLVQYMEGAIGLKVNFEGKNYLYFPFMWVDKDWALVRGWLDGYPKKIAKISMTKLHPLLPKYNKAEAGLKMGGYAVRGGGVLLRLQVELKEKADSVPLRNFGPFLNIRRFASRGDNEEDLYEVVSRVRDESISGEIWKGKATVELGGYVNDEVDLLKVENVMGGYYYTLYFKVTKTQLLTKNIQNVVKVT;locus_tag=LOCUS_29270;note=WP_010978705.1 acetoacetate decarboxylase family protein (Sulfurisphaera tokodaii) [pid:79.3%25%2C q_cov:94.5%25%2C s_cov:96.2%25%2C Eval:3.8e-123],MGA_2936
sequence1	MetaGeneAnnotator	CDS	2660426	2662468	.	+	0	ID=MGA_2937;product=xanthine dehydrogenase family protein molybdopterin-binding subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978728.1;translation=MLKENYEVVSGNTTYVDDIHFDNEVYLYVIRSNYARAKIKSITPPSSSLLFLTGKDFYAEMPAITFPGTKVARMPVLARENVNFFGQPVAAVVTENRYDMEDIADEVSIDYEPETPITNVYESMKDEDIIHPSLRTNISTDNEIKGGNINLKEKAEVFVDREIAQNRIVSNPMEPKGIIAYYKDGSLTLYASVQAPFRIRNDLHEVLGISPENITVIAPKNVGGGFGNKVPGHSEYALASLASIKLGRPVKWIETRKEHLTNPTQGRGVYGKVRLYANKQGITLGIEGEIIVDLGAYNYTINATTPSFIARLLTGPYKMEFISVKARGVFTNLPPTGPYRGAGRPEATLFHETLMEDLANELKMDPVELREKNLINGEYVTPSGLKIDKGGYKEVFNRAKEIYRKIPQKGKSLVVFAEQISVPPGESARVTIGKGKIKIIVPSGPHGQAHRSTFAKLASQVLNVNEDNIEVITGTTIGVKEGVGSFGSRTAAIAGSAVVEASKKILEDLKSRGLTIEEAIKSNEEFSYEVFYKADVIFSPGAHIAVVDIDEYYRPKVVEYYAFDDVGKAIIKEEVEGQVIGGVLQGVSQVLWEEAKYDENGIPLISSIGDEGVPTAKEASYKVITNIVEFPSSLPDGARGVGEAGTTGSVAAVTIALERLLGKKITRTPISLDFALESNK;locus_tag=LOCUS_29280;note=WP_010978728.1 xanthine dehydrogenase family protein molybdopterin-binding subunit (Sulfurisphaera tokodaii) [pid:55.2%25%2C q_cov:98.4%25%2C s_cov:98.5%25%2C Eval:3.5e-213],MGA_2937
sequence1	MetaGeneAnnotator	CDS	2662546	2662812	.	-	0	ID=MGA_2938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDTSTYAKFSIGEIPESLWFRFKTLNGYLIMRTAKAILNVGDKKIETYVLTSRDFDGKNLIGLEVIKELAILLDGRETCIMKEFKSK;locus_tag=LOCUS_29290;note=MGA_2938
sequence1	MetaGeneAnnotator	CDS	2662921	2663295	.	-	0	ID=MGA_2939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLVIKKIDEKKLREFKAEAIKRGLTLSEAINQAIDLWLSNTKGEDFEVEKERELNNKVFEELKDRLPKDKYIAIAKGKFLGAYDSLEDVSKALRGLEVKQAIVVKIDKDLPREGEWLTGSMLQ;locus_tag=LOCUS_29300;note=MGA_2939
sequence1	MetaGeneAnnotator	CDS	2663597	2663971	.	+	0	ID=MGA_2940;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGYLDYKKDSKAYIYAKLYDSLVEGKLTLEMLERGLLQNASAKAFLSVKSAISALVVKNLNEIIKSKNEKEKYWYESVGYSAPITGLIGISKDLKKLGIDAENAVRIALSLHNVVKIFIAIEE;locus_tag=LOCUS_29310;note=WP_010977946.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:71.7%25%2C q_cov:91.1%25%2C s_cov:66.9%25%2C Eval:3.3e-41%2C partial hit],MGA_2940
sequence1	MetaGeneAnnotator	CDS	2664271	2664468	.	-	0	ID=MGA_2941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLELVSTRIIINIRVTTCAEIIVMSYLFKFFTKLFIVEEKGSRKEGIPLIDVAVIIPMSTKFLE;locus_tag=LOCUS_29320;note=MGA_2941
sequence1	MetaGeneAnnotator	CDS	2664611	2665366	.	+	0	ID=MGA_2942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQTVIVITIIMLENIYGLIIFDVGFAIVLLFMLIIILLKLSLHYPKAEKSLTFLFIDQIKSLQKINTTVKLFLMSDYVLYPIITAVSPIIFYLLGVTNMYNISYSIYLVLLSISMILATYISNVLSFDTFGNYVLFYRVTIAMVIVLLSLTVSLFPVFMLGVFAILVLENSSFIYLNSFLVTSIEKEKIRTIIPIMEFIFSLVYSVAVIVISEIGAEIGGLSVLKYVGIIGVIVYVTLFFKTKNIRVTLK;locus_tag=LOCUS_29330;note=WP_010978754.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:67.0%25%2C q_cov:71.3%25%2C s_cov:98.9%25%2C Eval:8.1e-61%2C partial hit],MGA_2942
sequence1	MetaGeneAnnotator	CDS	2665773	2666207	.	-	0	ID=MGA_2943;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARYPQILSVHLFLLRDDEILLQLRKNTGYRDGCWSVIAGHVEAKESATNAMMREAKEESGILLDSKDLVLVHVMHRFENQERVDFFFKANKWKGEPVIMEPNKAGALEWVRLSELPYNVVPYVKQAIELGLKKGQIYSEYGWT;locus_tag=LOCUS_29340;note=MGA_2943
sequence1	MetaGeneAnnotator	CDS	2666659	2667414	.	-	0	ID=MGA_2944;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978009.1;translation=MILDLSGKVAIVTGSGRGIGRSVAIRLAKEGVKVMVNAKKGVEEAKETLELIEKTGGEGEISIADVSTREGCRKLKEDTIKKFGKIDILINNAGLGLYSYFIEADDKMIEKQLDVTLKSVIFCSQEIGKELDKEGSIINISSIAGLIPARGLSIYGAAKAGIISLTRSMAVELSPVRVNAIAPGVVKTKMGDSLLNIYKRSEEDFSKEKTLLGRIVEPDEIAEIIATILKIPTITGQVIVIDSGESLLGIL;locus_tag=LOCUS_29350;note=WP_010978009.1 SDR family oxidoreductase (Sulfurisphaera tokodaii) [pid:52.4%25%2C q_cov:97.6%25%2C s_cov:97.2%25%2C Eval:6.6e-71],MGA_2944
sequence1	MetaGeneAnnotator	CDS	2667535	2668371	.	+	0	ID=MGA_2945;product=aldo/keto reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_157868130.1;translation=MEFRDFGKTGVKVSVIGMGTYYDPQWIVLSRIGITPSKERRIQALRTGLEGGINFIDTAELYNTEDLVAEAIKDYDREKLFIATKVWPSHLKYNSLIKASKNSLKRLKTKYIDLYQIHFPSRTVPIEESMRAMEKLVDDGIIRFIGVSNFNLEQLKKAQNSLKKYEISSIQMPYSLVDRRIENDIIPYAKENKIAVICYYPLGHGRLAKQFPSDAVDLIRKNHGERTFAQIALNWIISKHDNTFPIPRASNPVHVKENLDAVGWRLSPEEIENLEKYF;locus_tag=LOCUS_29360;note=WP_157868130.1 aldo/keto reductase (Pyrococcus abyssi) [pid:47.3%25%2C q_cov:96.4%25%2C s_cov:96.0%25%2C Eval:6.7e-54],MGA_2945
sequence1	MetaGeneAnnotator	CDS	2668368	2668910	.	-	0	ID=MGA_2946;product=MaoC family dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978007.1;translation=MSLECFLAWTELLENIEKTNPEKKNDPPPSGPFFDDFKVGMKFKSKIGRTITDVDNIWFTLLTNNNNQIHFNKDYVEKFYSEKPFEGKLVVNGFLTLAIAAGLLIEYTSSMGFMLGIDNVKFVHPVFPGDTLYSEAEVIEVRESKSMPQYGIIKIRTEGYNQKGEKVIEFDRAFMVPKKT;locus_tag=LOCUS_29370;note=WP_010978007.1 MaoC family dehydratase (Sulfurisphaera tokodaii) [pid:76.5%25%2C q_cov:82.8%25%2C s_cov:90.3%25%2C Eval:5.0e-65],MGA_2946
sequence1	MetaGeneAnnotator	CDS	2668907	2669683	.	-	0	ID=MGA_2947;product=dienelactone hydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846813.1;translation=MSQITSSEVAIRGDREIKEYVASPENPKAGIIVIHEIWGLNDNIKDIVNRFAKEGYYVVAPHLYSQDFMNEENIKSTMTKFWSIPAEKRGDEIYIQKVYESSTDVQKKIIDVLVMNRENTMKQMIKDLVSVYSNLKNTLNKKIGAIGFCMGGGLAFELATEVELDAVTVFYGANPNPLEKISKIKGPILGIYAGEDRNIDSGLPDLLKAIIEYKKDLELKIYPGTQHAFFNDRGPVYNKDAAEDAWNRTIRFFSRWLS;locus_tag=LOCUS_29380;note=WP_052846813.1 dienelactone hydrolase family protein (Sulfurisphaera tokodaii) [pid:59.8%25%2C q_cov:93.8%25%2C s_cov:94.2%25%2C Eval:1.5e-81],MGA_2947
sequence1	MetaGeneAnnotator	CDS	2669818	2670366	.	+	0	ID=MGA_2948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVMQVDDRHIPPFILSMPIRKLFENPYRTLSPFVKKGMTVLDHGCGPGFYTIPLAYLVGEKGMVYAVDSDRKSIQALEDKLKKKGIKNVETFLSRDLSFIPSSSIDFLLSKDVLCCTVLHKELAKEIERVLKPGGRALVTIRRGRGKDPRGISAEEFFSLFEYIEKRGVSRFSAWVVLNKR;locus_tag=LOCUS_29390;note=WP_011022735.1 class I SAM-dependent methyltransferase (Methanosarcina acetivorans) [pid:37.4%25%2C q_cov:66.5%25%2C s_cov:61.9%25%2C Eval:9.8e-16%2C partial hit],MGA_2948
sequence1	MetaGeneAnnotator	CDS	2670363	2671781	.	-	0	ID=MGA_2949;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846386.1;translation=MDKRSLVLTVVVLGVLMGAVDSTIVILALPTIVQSLHSNLFTMIWIILIYLLEIAVLTTQLGRLGDSYGRAKIYNLGFIVFTIGSALCGASPTAYFLIGSRGIQAVGASMMQANSGAIVSDYFPPNVRGRAFGFTSIGWNVGAILGIVLGGIITTFIGWRYIFYINVPIGIIAAIVGLRVVKDVNKIKSKVDIPGLVLFGTSLSLITYGSADIAGEGVVLKNELMIIIGILLLVPFVLIERKTKFPLIDLKVFRNRVLTSSLLASFFQSTGYLATAFLLIMYLQGIRGLTPFNASLLLIPGYILASMVGPFAGRLSDKIGARIPATLGIGLMAIVAAYYATQLTLVTPYIDIILISVVGGLGSSLFFPANNSAVMANTPKKLYGGISGILRTLGNTGILLSYVITITVASLAVPRYVAFEVFLGTSNLIGGVASKFLIGLHAAFLVSIGILAVAAILSAIRGKEVRANTIEI;locus_tag=LOCUS_29400;note=WP_052846386.1 MFS transporter (Sulfurisphaera tokodaii) [pid:61.0%25%2C q_cov:99.2%25%2C s_cov:98.7%25%2C Eval:1.7e-168],MGA_2949
sequence1	MetaGeneAnnotator	CDS	2671705	2672262	.	+	0	ID=MGA_2950;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIVESTAPINTPRTTTVRTKDLLSISFYFINSNLNVFNQKNIDSFIFLTIEIDIMMSYQKGRLKFLVLWLLSQSPKRGIDIIDDISKMTWGWWKPSPGSIYPLLSTLEKDGEITRKENGIYEITQKGIEEISDFLPPRYKGSVETGVEELESLMDFFEDMGKDNLLPYKNRLIKAKDRLERLIE;locus_tag=LOCUS_29410;note=WP_010979839.1 PadR family transcriptional regulator (Sulfurisphaera tokodaii) [pid:53.8%25%2C q_cov:70.3%25%2C s_cov:96.3%25%2C Eval:7.1e-38%2C partial hit],MGA_2950
sequence1	MetaGeneAnnotator	CDS	2672259	2673251	.	+	0	ID=MGA_2951;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979838.1;translation=MSEIKAINLTKKFGNFTAVDHINFDVEKGEIFGFLGPNGAGKSTTIKMLTTVLKPTEGTAIVNGYDIIKNPSLVRQSIGVVPQEYTADEDLTGWDNMMFMAGVYGIPNSVAKEKAEELLKMVELTQAAKRKVSSYSGGMRRRLEIAMSLISRPAVLFLDEPTLGLDAQTRNAIWTYVMKLKKEFDMTIFVTTHYLEEADMYCDRIAIIDRGKIIKIGSPKELKESIGGDMVTVEVNDIEKAIKTLSEIDGILEIKNRDSQIRMKVKNGEEIAPKIMETLVKNNIKVIRLSISQPTMDEVYMEYTGKSLRDEQSSSEEAFGLMRTMRRARS;locus_tag=LOCUS_29420;note=WP_010979838.1 ATP-binding cassette domain-containing protein (Sulfurisphaera tokodaii) [pid:76.2%25%2C q_cov:98.8%25%2C s_cov:98.2%25%2C Eval:2.7e-140],MGA_2951
sequence1	MetaGeneAnnotator	CDS	2673248	2674132	.	+	0	ID=MGA_2952;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979837.1;translation=MMEEKIEEEKRNKSIFHGFWTLTNRELKKWYKAPVILLLSLIQPIFWIVLFGKSMNLGKIFTGTAISIPGLVVPKEVLDQIGQEVLKATFGTTDYFSFLAAGMLSFITLFTSMQSGMSVVWDRRLGFLDRLLTTPIPRGSIIMSKVMSSVIRSLVQATIVLVAATLLGMTFAPGINVMDFLGAYSALFLMSLGLSALFIMLAIRATSWESQMAIMNLLNLPLLFTSNAFYPISAMPSWLKPIAEINPLTYSNEAIRNMLLGIPSSLTIDFIYLGMFAIILSAIGIILSWKYLSE;locus_tag=LOCUS_29430;note=WP_010979837.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:77.8%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.3e-132],MGA_2952
sequence1	MetaGeneAnnotator	CDS	2674133	2674609	.	-	0	ID=MGA_2953;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLSKEIFSSDVIDKIKDQPNLITQLVELLSSNDKDVKHKAWEILQKLIENNVIKDKNLIIDLLCYKDEGSRYRVWNFVPKMIEMKIINENDIKSSKQCLFQMLTTDNIDVRALTWYSTLPQVLPYLNKDEIYQYLKYCKDLLNSSWKDIIEETCQEF;locus_tag=LOCUS_29440;note=MGA_2953
sequence1	MetaGeneAnnotator	CDS	2674735	2675472	.	-	0	ID=MGA_2954;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYNNPNLPNNQNNYQKDREALSKIRLYALLQIVTIIIGIVGSIALIATIIPTLLLSSAVPSNLVVLLTPIIGILIGLTILLLIISIVSILQLRKGYGILKTLSSDFSPPFTGTTLILIAIPLIILGLIVLALTIVPIIPLIVKHPHTVPSNILPSIALGLIIIVIAGIMALIGDILYSIVGSFNLSKRYGEEGFKTAGYLFIIALVLSLFNSLSQIFVFISSILYFIGIILIYTSAGNVLKRLQ;locus_tag=LOCUS_29450;note=WP_010979661.1 DUF973 family protein (Sulfurisphaera tokodaii) [pid:34.2%25%2C q_cov:64.5%25%2C s_cov:45.6%25%2C Eval:3.0e-12%2C partial hit],MGA_2954
sequence1	MetaGeneAnnotator	CDS	2675657	2676196	.	+	0	ID=MGA_2955;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSLVKLGLILLIIGVIIGSFDYLNFYEYARSITAFPSDLHQAYLDHNSSITLKYTANGSAVCIYYTNASYLKIVGIPSNALNSTMFIKPFSNSSIRIVSRSYTFVPSYSGNITIINTYSKPIIVNYKLEYLPSNDANFFHLLIGSAVKIFIMGVLFLLSILLIIAGIVLAIVGHFRRK;locus_tag=LOCUS_29460;note=MGA_2955
sequence1	MetaGeneAnnotator	CDS	2676300	2676524	.	+	0	ID=MGA_2956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYLTLILDNALHKVEDELREMKKFLSVEYEIILLILTELITANNEKIIKLETKLLSSLTMIGHYPEDHNTLQE;locus_tag=LOCUS_29470;note=MGA_2956
sequence1	MetaGeneAnnotator	CDS	2677543	2677875	.	-	0	ID=MGA_2957;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKAEVIKLGSELNVDFSKTWSCIISGKIHCGFCVPCRSRKRAFNSIKIEDPTNYYYNIDPNQIDELVKKLSFEELYEKYLKPFLQYTAEYPKEFVDNYVNIMKKCGAKH;locus_tag=LOCUS_29480;note=MGA_2957
sequence1	MetaGeneAnnotator	CDS	2677960	2678283	.	-	0	ID=MGA_2958;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNDVIIQLTGGVDSTVLAYYLKDKYQLHAVFIYYDYPPQRKEIEIVKDLVKNIDIELTVIDFSSYIKSFDLPPISSINYRLRYQYLIEILAAFSAYPNFNTVAVGW;locus_tag=LOCUS_29490;note=MGA_2958
sequence1	MetaGeneAnnotator	CDS	2678273	2678401	.	-	0	ID=MGA_2959;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFKYLDINFNEISNDKRIDSFESISYYMPAKDPSSEDKNGK;locus_tag=LOCUS_29500;note=MGA_2959
sequence1	MetaGeneAnnotator	CDS	2679017	2679889	.	-	0	ID=MGA_2960;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763004.1;translation=MRIGFIGLGIMGYSMASNLLKAGYELTVYNRTIEKAEKLGKSGAKVAYSPKEVAENSEVVISMVTDAPDVEDVLFSEKGVVKSGKKGLIFIDMSTNSPEFAKKTAKKLSEYGIEFLDAPVTGGDKGAREGTLTIMVGGKENIFRQVEPIFQAMGKNIIYVGEIGSGQALKLCNQVVVSLDMVAVIESLMLARSLGIDDEKLFSVLSTGAGNSFTVQYYLPKIMKGDLEPGFKAAHLKKDLKYALDTGTSASLPLPGTSLALQLYNSMVSLGMGEKGTQGLIKVYEKLIKT;locus_tag=LOCUS_29510;note=WP_011763004.1 NAD(P)-dependent oxidoreductase (Pyrobaculum islandicum) [pid:54.2%25%2C q_cov:97.9%25%2C s_cov:100.0%25%2C Eval:1.9e-86],MGA_2960
sequence1	MetaGeneAnnotator	CDS	2680364	2680843	.	+	0	ID=MGA_2961;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_110271939.1;translation=MRNTFTASVTTPRVNAYGVNSTSFNLSFSIKVRIPDYSGRVLLATGVIPLGANPCTYLPPSFSPNITPQAVYSGFSSKTFVVMLLNSTVYTENKTFIVSLDAVSTPNDNWVFLSQGFNLKETPVVWIMVFEDHHVYRIGVIEFERVGEGLLYMPKIERC;locus_tag=LOCUS_29520;note=WP_110271939.1 hypothetical protein (Acidianus brierleyi) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.2e-89],MGA_2961
sequence1	MetaGeneAnnotator	CDS	2681364	2682290	.	+	0	ID=MGA_2962;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867726.1;translation=MKEEKGIWLYLDLRKFESSAYISYKDIIQELEKSINTSLPERLKKVFAGVKGVNFVGVNVIFNWGKERIKLAQILDKLSEIAEKEGERIIIIFDESQELRKLKGVNLLYPIAYAFDNLKVRFIFTGSEIGMVYDFLKLDKPDSPLYGRAYTEVNVPPFSKETSLEFLRKGFEEFKIKVEERELEDAVNTLGGIPGWLTYYGFNYIQEKDHEKALNKTVETAISLIKKEFNNFLKGREGAKERYKTIMTVYKNGCKWKEAKIALEAKEGVRIDDKRFTQLLNNLVKASFLIKEGEIYKPTDVLIEKAFS;locus_tag=LOCUS_29530;note=WP_010867726.1 ATP-binding protein (Pyrococcus abyssi) [pid:40.3%25%2C q_cov:96.4%25%2C s_cov:82.2%25%2C Eval:2.4e-47],MGA_2962
sequence1	MetaGeneAnnotator	CDS	2682785	2683150	.	+	0	ID=MGA_2963;product=pyrimidine dimer DNA glycosylase/endonuclease V;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582775.1;translation=MLGQTVGYKNHPQLIRFKNTKDPILYIGTYLYYVYVEGESRGYNFDKNKIIKYDLTVRMPVTKGQIQYEFQHLLEKLRVRDSSKYEEVKDEIIIETNPIFYVTDGDVEKWEKIKSNLRIKV;locus_tag=LOCUS_29540;note=WP_012582775.1 pyrimidine dimer DNA glycosylase/endonuclease V (Dictyoglomus turgidum) [pid:56.8%25%2C q_cov:91.7%25%2C s_cov:78.2%25%2C Eval:4.7e-35],MGA_2963
sequence1	MetaGeneAnnotator	CDS	2683384	2684493	.	-	0	ID=MGA_2964;product=monooxygenase YjiB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003232789.1;translation=MPFNLDPLNPFPFYSIMRKRSPVYFDEKSEIWNVFSYTDVRKVLWDYKNFSWEFEMDGILKGTIINLDPPAHDKLRALVSDPFSPNNVGQLSNRIKDIVNEILNNVKGNEIDIISELAIPVPVRVIANLLGLREEDLWKFKDWTDSLVGVNDYSTDKITELIEYLSEIIAERKTEPKKDLISLLLCSTVDGEKLTEKQLLGFIVLLLIAGNETTTNLIGNGVLTLLENKNSLYELKKDKQKMTTTIEEILRYRSPVQGMFRVAKNDVELSGKKIKKGSAVLAWIGSANRDENQFPNADKFIIDRSPNPHLAFGSGVHTCLGAPLARLEGKIVLSTLLERFSNMELVDQRLEPITNGLFYGVKSLKIYIS;locus_tag=LOCUS_29550;gene=yjiB;note=WP_003232789.1 monooxygenase YjiB (Bacillus) [pid:41.1%25%2C q_cov:97.8%25%2C s_cov:94.2%25%2C Eval:4.1e-79],MGA_2964
sequence1	MetaGeneAnnotator	CDS	2684587	2686308	.	+	0	ID=MGA_2965;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979769.1;translation=MVQYKWVALSNTTIGVLMSSINGTIILISLPAIFRGININPVEPSSFQYLLWILMGYNVITAAFLVTFGRLSDIFGRVRLYNLGFAIFTIGSILLYITPNTGDLGALELIIFRLVQGIGAAFLFANSAAIITDAFPVTERGKALGINQIAALAGSLVGLILGGILATINWRFIFLVSVPVGILGTIWSYFKLKETGGTAKGEGIDWIGNLIFAGGLIFLLLGVTYGLMPYGTSQMGWTNPYVIASLIAGAGLLVAFPFVEKRMKYPMFRLELFKIKAFLMGGISQLLFAFAFGGIMIVLIILLQGIWLPLHGYSYSSTPFWAGVYMIPMMAGFVLMGPISGALSDRYGARTLATIGLSIVGVAFIALSTLPYNFNYPEFATIIFIMGLGSGMFGAPNTTAIMNSVPRMHRGAASGMRTTLQNSAQTASLALFFTIIIGVLAATLPTALSDAVTNAGAPQLAPIMSKIPVTSALFSAFLGYNPVGAILSALPHQLTASLSPSTVATLTSKQWFPETIAPPFMHALKISFYIGSAMAFLGAIFSALRGGRTIAEEEITRVNSPIQRGVKDERDRI;locus_tag=LOCUS_29560;note=WP_010979769.1 MFS transporter (Sulfurisphaera tokodaii) [pid:65.3%25%2C q_cov:95.1%25%2C s_cov:98.4%25%2C Eval:7.9e-211],MGA_2965
sequence1	MetaGeneAnnotator	CDS	2686289	2686708	.	+	0	ID=MGA_2966;product=MarR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002366740.1;translation=MKEIESKELEVLRIMSIIYKEINREALKRIGEDLSPLDVGIIKALSISPYTPAKIASILGVSKSAMTYAVDRLEKLGLVVRTRSEKDRRVIQLELTEKGKEILLKAEKIYSEVTREKLNVLSEEEISTLIQILQKLVSH;locus_tag=LOCUS_29570;note=WP_002366740.1 MarR family transcriptional regulator (Enterococcus) [pid:34.6%25%2C q_cov:76.3%25%2C s_cov:75.4%25%2C Eval:1.1e-10],MGA_2966
sequence1	MetaGeneAnnotator	CDS	2686945	2687202	.	+	0	ID=MGA_2967;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKVEVSAPQALRVVPTPSTNVNPQYPNMGLLNGAEAYHMDPRFNQGVSVTLTPSVTAINRIFEKYVFKCNHKGGSYGDFHEQHS;locus_tag=LOCUS_29580;note=MGA_2967
sequence1	MetaGeneAnnotator	CDS	2687662	2688168	.	+	0	ID=MGA_2968;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYIFLKVESKVQEQGKKSTIPSQ;locus_tag=LOCUS_29590;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:68.1%25%2C q_cov:97.0%25%2C s_cov:46.5%25%2C Eval:4.9e-61%2C partial hit],frameshifted%2C insertion/deletion at around 2688120,MGA_2968
sequence1	MetaGeneAnnotator	CDS	2688116	2688721	.	+	0	ID=MGA_2969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVAYCGLDPIVERSGKATVSKGISKKGNKSLRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_29600;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:72.4%25%2C q_cov:100.0%25%2C s_cov:56.9%25%2C Eval:1.1e-80%2C partial hit],frameshifted%2C insertion/deletion at around 2688120,MGA_2969
sequence1	MetaGeneAnnotator	CDS	2688837	2690018	.	-	0	ID=MGA_2970;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048147062.1;translation=MAEILFDTRPKTEKKDFFDREKEIEELKDIIAHRDFAAVLGIRRIGKTSLVRVTLNELSNYMALSINLGKLGNKKSYPMEIFSRIFIEGSVEVLRKNTFAGKVSKIIANRLGIDPTDILELNWVKISIRLREFNTHDVNEVVRALDSISKDNGKYLVIFIDEVQNIKKIRGFDLGSFLHDIYEWCNNTIIVVSGSFVGVTEEILNQVEEEKPFFGRKFFRIKLDRFNEEKSKEFLKAGFTEEGIEVNEKVLEEAIRLFDGIPGWLALFGRSYSYAMKHSHQVDIKIILKEAAKEVSRDFTRFLKSSNSPMRYAETILAISRLGNKGSLSEIRESVNSLFKEEIEDSRLHELLGTLINYGFIIKIGRGKYSLPSDLPTKLGLKHSAKNWIKKMS;locus_tag=LOCUS_29610;note=WP_048147062.1 ATP-binding protein (Pyrococcus abyssi) [pid:32.3%25%2C q_cov:92.4%25%2C s_cov:94.2%25%2C Eval:5.5e-37],MGA_2970
sequence1	MetaGeneAnnotator	CDS	2690538	2691008	.	+	0	ID=MGA_2971;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009990105.1;translation=MEELIKKAKEYDIDINDLIIDAISRKDPKEAINLRIELAKKYIMEAEDYLKRGDTVQASGKAYKVAEEIVKALAEKFNIPEYQQALKEGRWYTYWLASAVNRLAKDLGDWILNGWNSAYTLHVWGFHEAKLSTVDITEHLRKVKEMLDNAVKVVGE;locus_tag=LOCUS_29620;note=WP_009990105.1 PaREP1 family protein (Saccharolobus solfataricus) [pid:87.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.6e-76],MGA_2971
sequence1	MetaGeneAnnotator	CDS	2691131	2692576	.	-	0	ID=MGA_2972;product=aldehyde dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429773.1;translation=MKSLIIGGEEVDTGEYSSIVNPANGEPFEKVSVIKDKDLIKRSIDLAEDSFREFSKLPLKDRSKILMKASEIMEMRKEDLAKTLSLESGKPIKDSRVEILRAISVFKIAAEEARFVLEGKVHRVDAYEYPPGNQNRIVMEVREPLGIVAAILPFNFPANSFAHKVAPNIVAGNTVIVKPSVSTPLSALELGKIMYEAGLPRGVLSVLIGDSAVIGDELITSKKIQGITFTGSTKVGLSIASKAVLTSKRLMMEMGGSDPIIVLNDADIEKAVNVSVKARFEYAGQNCNAGKRIIVHEDVYDKFSKMYIDAVNKLKVGDPLDENTDVGPIISNTAVNTMNDFIEDAKNKGAKIYSGLRIQKGYYYPLTVLINASPDMKVMKEEVFGPLAPIVKFSSIDEAIDIANSTDYGLQSAIFTKDLNKALRISKELKFGAVIINNSTRLRWDALPFGGVRMSGLGNREGVRNTIMTMTEPKILSIELE;locus_tag=LOCUS_29630;note=WP_198429773.1 aldehyde dehydrogenase family protein (Sulfurisphaera tokodaii) [pid:57.6%25%2C q_cov:96.9%25%2C s_cov:99.1%25%2C Eval:5.7e-151],MGA_2972
sequence1	MetaGeneAnnotator	CDS	2692755	2693063	.	-	0	ID=MGA_2973;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTEETLKLVEEIKKKVYDTKEKIMKDTNKLYYSVNSTLNSELAKAKKEGKKVDDIEKEFNELLNKMDNIREKQKKLSVKDLRNALNKYAEKAEELIKKVKK;locus_tag=LOCUS_29640;note=MGA_2973
sequence1	MetaGeneAnnotator	CDS	2693290	2694051	.	+	0	ID=MGA_2974;product=class III extradiol ring-cleavage dioxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_184651040.1;translation=MIKGFYISHGSPTILTENNKWKDTLRSIGKRIKDELNPQTVVVVSPHFFSWSGTFLVETQEKLECIQDYYGFPDELYKFCYSAENDVSLAYKIIENAKRKGIDIAEDNKWGLDHGAWIPLMYMFPEGIRAVTLSITDKSPEVHYKLGEAIAQSIDENVLILGTGSPTHILELFYFNIKPKQSNFDRKLIDLLNKGDFDSIMNLEETKEWKQAQPEGFLRPMYVVMGAIKPKKAEVIDYAVPWPGVSMLACEFK;locus_tag=LOCUS_29650;note=WP_184651040.1 class III extradiol ring-cleavage dioxygenase (Sulfurisphaera ohwakuensis) [pid:65.6%25%2C q_cov:99.6%25%2C s_cov:96.2%25%2C Eval:2.9e-98],MGA_2974
sequence1	MetaGeneAnnotator	CDS	2694250	2695431	.	-	0	ID=MGA_2975;product=mandelate racemase/muconate lactonizing enzyme family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980451.1;translation=MKIQEIEPIVLTSKEKGGATWASTMILVKMTTSNGEVGYGEAVPTLRVISVYNEIKQVAKAFIGKEVEEIEKNYHEWYRQDFYLARSFESATAVSSIDIASWDILGKELGSPIYKFLGGKFRDKVLVYANGWYSDCVTPDDFATKAKEVVKNGYKGLKFDPFGQYYDWIDEKGLREAEERVKAVREAVGDDVCIMIEHHGRFNANSAIKIAHVLEKYNPLFMEEPVHHEDIEGYKKYRSSTKSTVALGERLVSLKEAMFYIDNRLADVLQPDITNIGGVTIARKVVTLAEANDVEIAFHNAFGSIQNAVSVQLSAVIPNLLILENFYDWFPQWKRDLVYNGTPVEDGYVKVPEKPGIGVDVNEKLISELKAEPIPLDVEEEPVWVVKNTWKGY;locus_tag=LOCUS_29660;note=WP_010980451.1 mandelate racemase/muconate lactonizing enzyme family protein (Sulfurisphaera tokodaii) [pid:72.7%25%2C q_cov:99.7%25%2C s_cov:99.0%25%2C Eval:5.9e-172],MGA_2975
sequence1	MetaGeneAnnotator	CDS	2695475	2695975	.	+	0	ID=MGA_2976;product=NTPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846731.1;translation=MYLMKIFITGNPGVGKTTTLMYIINEVKKRGISVSGFYCPEVRENGKRIGFKIIDISTGKEKWLAKVGEGRIRVGKYAVQQVDDIANEIYSSLSNSKIIAIDEIGPMELSIPSIKRIIDYALKTDKPLIAVVHRNIKEEGKIYTLTLSNRNVLKEEILNEILNNIS;locus_tag=LOCUS_29670;note=WP_052846731.1 NTPase (Sulfurisphaera tokodaii) [pid:50.0%25%2C q_cov:97.6%25%2C s_cov:97.0%25%2C Eval:1.4e-41],MGA_2976
sequence1	MetaGeneAnnotator	CDS	2696050	2696997	.	-	0	ID=MGA_2977;product=alcohol dehydrogenase catalytic domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978014.1;translation=MKAAVLEEFGKPLLIKDVNMSGNDNDVLVNIKSSGMCGRDIVIWKGGFRNLKLPLILGHEIFGELNGNPVGVFGTIVCGNCRYCREGKENLCENSVFFGEGRPGGYAESVYAPKDSIFSLPDKDYEKYAASVCPIATSIHASRLANVRQNTEVLVTGAGGGVGIHMIQYLKSLGAYVISITSESKKEEVGKFSDEVITEKEFSRLVKGVDVVMELVGSETINESLRSLSRDGTLVLIGNVSGKEISLKRPALTIMKQQRIIGSASYTRKEVLEAVDLIHDQKIIPIYKRYELINVNNAIKDLIEGRILGRAILTP;locus_tag=LOCUS_29680;note=WP_010978014.1 alcohol dehydrogenase catalytic domain-containing protein (Sulfurisphaera tokodaii) [pid:54.4%25%2C q_cov:99.4%25%2C s_cov:99.0%25%2C Eval:1.7e-91],MGA_2977
sequence1	MetaGeneAnnotator	CDS	2696998	2698962	.	-	0	ID=MGA_2978;product=3-hydroxyacyl-CoA dehydrogenase/enoyl-CoA hydratase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978008.1;translation=MMSMIRKFTVIGAGTMGHGIAEVAAISGLEVWLNDVTEDILKNAKEKISWSLSKLEEKGQIKSKDEVLSRIHLTTDQEEALKDTDFMVEAVIEDINIKSKVFSKADALSSDNAILASNTSSIPISEIAKYVKKGERVVGMHFFNPPVIMPLVEIIKGEKTSEETVKEVYNLAKRLGKDPVVVNKDVPGFLVNRILFRVNEVACWLVESGKASIEDVDYTSITDLGFPMGIFLLQDYTGLDVGYLVGKAMEERGFKTYECKMFEEKFKSKELGVKSGKGFYTYPAPGKFVRPEFKGAKKVNAILLLSSAINEASYLLREGISSKEDIEKGCKLGLGWPKGIFEYADSFGIDEVINALEELKNETKLENFTPDPLLISMRNEGRLGKKTGNGFYEYGKRNFTTIKYEIDGKIGIITLNRPEKLNAINEDMVKELNELLDEIEEDDKIRVIIIQGSGRAFSAGADTSEFLKMTPIKAMIASRRLQELYNKIQFLTKPVISLINGYAIGGGLELAMSTDIRIASSNAQLGQPEINLGIIPGGGGTQRLPKLSKRKSLQLILTGENISAKEAEELGIVDEVVDPSELENEGKKIANKIAEKSPLAVALAKYAVNLGNQTNIWTGEALESSFFGILFSTKDFEEGIKAFIERRKPQFKGE;locus_tag=LOCUS_29690;note=WP_010978008.1 3-hydroxyacyl-CoA dehydrogenase/enoyl-CoA hydratase family protein (Sulfurisphaera tokodaii) [pid:55.3%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:2.7e-202],MGA_2978
sequence1	MetaGeneAnnotator	CDS	2698964	2700172	.	-	0	ID=MGA_2979;product=acyl-CoA dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978015.1;translation=MFPFESAQDFEIKISEDHELFRRSVREFSEEILAKNVMQIEKTNSIPNDSEAIIKAKELGLLGIGIPQEYGGQGGDSLMLAITNEEVARVCPAFAALIGANYLFTTPLLIFGTEEQKKKYVPPVAKGEVFAAHANTEPGAGSDVAGIKTTARKEGSRYIINGRKYFITGADRAKYLVVSARTSPPSKERWRGITFFIVDTEMPGVKIGSKINVIGLRGEQPNEVILDNVEVPEENILGKVDEGFKVAVTTYDKGRVGVAAQAVGIAQGAFEKAFNYSLSRKTFDRPLISYEGIAFKLADMLVELEAARLLTYWAANMNDKNRKEAVMVSSLAKLMATEVAEKVSSLSIKIHGGAGVDQQNGVERYLRDAIITTIYEGANDIQRLTIVRDLVRKILGTNIEIM;locus_tag=LOCUS_29700;note=WP_010978015.1 acyl-CoA dehydrogenase family protein (Sulfurisphaera tokodaii) [pid:51.6%25%2C q_cov:99.3%25%2C s_cov:99.8%25%2C Eval:2.0e-114],MGA_2979
sequence1	MetaGeneAnnotator	CDS	2700419	2702014	.	+	0	ID=MGA_2980;product=long-chain fatty acid--CoA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978016.1;translation=MSENYNYQLTVDKVLEYGERVYPDREIVYRDKRRYTFESFGRKVRNLAGGLQRLGVKPGDKVGVIDWDTDVYLMSYYAIPMMGAMLHTVNVRYPPELIVKTILHAEDKWLIVRDEFLPLIEKAGNYLNNVKIIAYSDENKVKYPDVMELINNDDNQFQQQEISENTPATIFYTSGTTGEPKGVWFTHRDLILHAMSCSIAAAKPPISATPEDVYLILVPLFHVHQWGYPYLFMLGGNKYVLPGRYDPTIELNLMKNEGVTFSAMVPTILYMILSHPDAPKYSEVFKNWRVLIGGAALPKGLADTARKFGITVMAGYGLSETAPVLTISYYNSKVEKLPDEKKFEQQIKTGVPIPLVELRVVDPEFKDVPHDGNTIGEIVVRAPWLTREYYKDPEKTKRLWSGGWLHTGDLAVVDEYGYIRIVDRDKDAIKSGGEFIPSLLLEDVISSHPKIGQVAVVGMPDEKWGERPVAFIVLKDKMTEEELKNYLMQKAEEGKIRKWWIPDKFVFLSDLPKTSTNKIDKKSLRDIIKAK;locus_tag=LOCUS_29710;note=WP_010978016.1 long-chain fatty acid--CoA ligase (Sulfurisphaera tokodaii) [pid:66.0%25%2C q_cov:99.2%25%2C s_cov:99.1%25%2C Eval:2.1e-210],MGA_2980
sequence1	MetaGeneAnnotator	CDS	2702080	2703270	.	+	0	ID=MGA_2981;product=thiolase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846852.1;translation=MRNVAIIGTGHSKFGARTDVNLQELAWEAVKQALEEANIDQKEIQYFSVGNAGMWSSENLPAIVVGEYCGLTTKGTMRVEAACASGSAALREAYLAVKSGEVDVAMAIGVEQMHQSPNPNVVEMIGRAGSYFWEFENFGLTFPGYYALYATAYMAKYGLKEEDLGKIAIKAHHYGSLNPYAHFQKEISMEEYMKSKPVAWPLKIYDSSPITDGAAAIILASEDFARKVTDSPVWIVSQGVSSGFANLSRKSDFTTIEAAREAADMAYKKAGINREDSWKVFDVAEVHDCFTIAEIIAYEDLGFARRGEGVNLARENQTYIGGRIPVNVDGGLKAKGHPIGATGVSMAVSLARQLLYRAPNKGMQVEVKNGMALAHNVGGTGHYGYVTIFSTRRPSQ;locus_tag=LOCUS_29720;note=WP_052846852.1 thiolase domain-containing protein (Sulfurisphaera tokodaii) [pid:80.3%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.1e-189],MGA_2981
sequence1	MetaGeneAnnotator	CDS	2703267	2703797	.	+	0	ID=MGA_2982;product=Zn-ribbon domain-containing OB-fold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978019.1;translation=MMSIRDNLQKQINDSIKQLDFLVKQTKMPIIQDKSGNPLWVDVRELDLRYQIPVKKVQKFFNGLKDGKILATKCQKCGTVYFPPQDDCPYCKTSGLEWIELPKEGKLITYTKISVKPPSFSHYQDYIVGIAKLSNGVNVTAWVIGNLEKLTVGVDVKLEVKEREPEGYITYYLELE;locus_tag=LOCUS_29730;note=WP_010978019.1 Zn-ribbon domain-containing OB-fold protein (Sulfurisphaera tokodaii) [pid:68.2%25%2C q_cov:96.6%25%2C s_cov:95.5%25%2C Eval:4.6e-68],MGA_2982
sequence1	MetaGeneAnnotator	CDS	2704249	2705079	.	-	0	ID=MGA_2983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429711.1;translation=MLKISRNMLIAGILILIISIMNFMIGYIVVWLTKFFGDNAHGFFLSIIYTDLTISVIYIILFSMLLLVTLIGGIIGIIGNFTYLILSLYYYSVYSSSILTNGIDFHLSFMESTLNLIAFIIIFIKILTINKLASIIGFVGVMLRIISDFMAYFFLVNVIHVSSSMMSFINTLLCVLIFGDILYGVGLILGINIANNVIFLSTGEAKLKFYSQVQGSVKNIMLNGIYQAVTFPSYIMLGINSMELKFPKVNVNENFVTVALDNGSSINIQLKSISNK;locus_tag=LOCUS_29740;note=WP_198429711.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:37.4%25%2C q_cov:81.9%25%2C s_cov:85.8%25%2C Eval:9.0e-35],MGA_2983
sequence1	MetaGeneAnnotator	CDS	2705301	2705786	.	-	0	ID=MGA_2984;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980172.1;translation=MSEYIAGVTLRRAKEEDWNKIYELYSTLSDDDLYLRYFHLYRPTVEDVKKLTNENDHITILAEYNGKIIGEGTIYNDGEFSLVVHPEFRRYGIGSMIVKSLINEGKRMGLKKIKFYTLSENMPMIKLGRKLGFKLINDEDEIYGELIVNSIQSESTYEIYA;locus_tag=LOCUS_29750;note=WP_010980172.1 GNAT family N-acetyltransferase (Sulfurisphaera tokodaii) [pid:53.7%25%2C q_cov:84.5%25%2C s_cov:86.6%25%2C Eval:1.5e-40],MGA_2984
sequence1	MetaGeneAnnotator	CDS	2706176	2706490	.	+	0	ID=MGA_2985;product=zinc-containing ferredoxin Zfx1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978102.1;translation=MGIDPNFRTSKQVVGEHEGHKVYGPVEPPKVLGIHGTIVGVDFDLCTADGSCLTACPVNVFQWYDTPGHPASEKKADPINEQACIFCMACVNVCPVAAIDVKPP;locus_tag=LOCUS_29760;gene=zfx1;note=WP_010978102.1 zinc-containing ferredoxin Zfx1 (Sulfurisphaera tokodaii) [pid:92.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.7e-57],MGA_2985
sequence1	MetaGeneAnnotator	CDS	2707092	2707817	.	+	0	ID=MGA_2986;product=electron transfer flavoprotein subunit beta/FixA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979861.1;translation=MNIVVGFKIVPDDTLVRASGEKLLLDVPLKISTYDKNAIEEGIELKEKFGGKVVGITVGNNDKKSIREALSMGIDEVISVSSRNLDVYGTAMAIVENIKNLNPDIIIFGEQTVDSGTSGVPGYVSELLNLPYISNVKSLKIEGKKVIADRGMVSYVETVESELPLIISVGGEINTPRIPTVRQIMESSKKPVKEVTFELEPKVKVIETKPLVVNRKKIIIEANMNEAVDKLLEKLKEDGVL;locus_tag=LOCUS_29770;note=WP_010979861.1 electron transfer flavoprotein subunit beta/FixA family protein (Sulfurisphaera tokodaii) [pid:58.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-76],MGA_2986
sequence1	MetaGeneAnnotator	CDS	2707814	2708671	.	+	0	ID=MGA_2987;product=electron transfer flavoprotein subunit alpha/FixB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846989.1;translation=MKVVVFSESPPHYKMASAIAQSLNPDELIGISPQPFKFTTQLYVYEKPDEDGLVDFISNLHPDLLLTGSVRRDRVIASRVAGRLKAGYIPDAVNLKFDNKLTVNRTSYSGIGISQLESSLPAVVTIAGTQLQPKEIESKMEKIQLNQGRIKIVNVKPTTSGANLATAQIVIGVGRGIGSKENVKYAEELANAIGGVVGGSRPVAAELNWVSEDRQIGLSGLRIRPKLYIALGISGQPQHIAGIRDSKIIVAVNKDKNAPIIDNADYMIVGDAVEFCKVMTGKLKK;locus_tag=LOCUS_29780;note=WP_052846989.1 electron transfer flavoprotein subunit alpha/FixB family protein (Sulfurisphaera tokodaii) [pid:51.4%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:2.0e-77],MGA_2987
sequence1	MetaGeneAnnotator	CDS	2709052	2710581	.	-	0	ID=MGA_2988;product=acyl-CoA synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979209.1;translation=MKYQELKKEFSWNEALSYFKDNLLSFPKNSDTALVRFDMNYDKISYSFYELYNKSSRLAGFMQGLGVKKGDVISVLASKKAEQPIILLATWMIGAIYQPLFTAFGPLAIEIRTRDVKPKIIFAQEDQIQKLERFNLTIITFPGKTSNSLSFDDAISSEPIKNPNRPSLDDTAILIYTSGTTGKPKGALVSFRLLLNTYVYMKYGIGLKEDDVFWNPADPGWAYGLYYGLIGPLLFGKTIFFLDKPFDPEDTLKFLEDNKITNLAFAPTAYRIIAGKIRDPKKYNLKIRRASSAGEPLNPEIIKWFNTNYGITIKDHYGQSEVGMVVYNGWGYEAETKPGSMGLPAPGYEITTIDEVIAVNSKSEGFCFKGYLADEERTKNVFKGDWYLTGDMAKIDDEGYFWFIGRQDDVVKVSGYRVGPFEIESALITHPSVLETAVVPVDDPVRGHVFKAFVVLKQGYSPSDELAKELLDLVRENYSKHVHLHEIKFVDSLPKTESGKIQRFKLKTM;locus_tag=LOCUS_29790;note=WP_010979209.1 acyl-CoA synthetase (Sulfurisphaera tokodaii) [pid:58.9%25%2C q_cov:99.6%25%2C s_cov:99.0%25%2C Eval:4.8e-172],MGA_2988
sequence1	MetaGeneAnnotator	CDS	2710767	2711381	.	+	0	ID=MGA_2989;product=carbonic anhydrase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002262519.1;translation=MVSEYIDSELKRLEDYALRRVKGIPNNRRLWVLTCMDERVHIEQALGIQPDDAHIYRNAGGIVTDDAIRSASLTTNFFGTKEIIVVTHTDCGMLRFTGEEVAKYFESKGIKPTQIQLDPLLPAFRISSEEDFIKWFKFYEDLGVKSPDEMALKGVEILRNHPLIPKDIRITGYVYEVETHRLRKPNQFIYNETSKFEHGTVVKE;locus_tag=LOCUS_29800;note=WP_002262519.1 carbonic anhydrase (Streptococcus mutans) [pid:36.8%25%2C q_cov:89.2%25%2C s_cov:98.8%25%2C Eval:9.4e-24],MGA_2989
sequence1	MetaGeneAnnotator	CDS	2711387	2712145	.	-	0	ID=MGA_2990;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTVSTWLNPSTFKLLEDFAESVNSSPSKLIKQMIEDKIKHYYSEEYARKVEELYRWLYYEGDYLPFDIYAKRILKNKNSEAILSIISTNDELRVLLKTLGMLMLVVSCKSYSDISSEDILMIKNIKYAIIDEIKGIKVYYKPLFYAKILWLKCIDKIRNASLNNQRDWEKYAFTCGLQAITFLSEDTLSEIYNKLGLHNIEDRWKELIKYAINITNSPEKIVEKCANCRSEIINGKCSCKITIKYLSDINL;locus_tag=LOCUS_29810;note=MGA_2990
sequence1	MetaGeneAnnotator	CDS	2712323	2713111	.	+	0	ID=MGA_2991;product=XdhC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978059.1;translation=MSVCEIFPIIADYTSQGKRVILVTEYSNIPVRSVFVDGKLIIGNKKYEDLALEAEKRGNKIEVEKNGIKIVAEVIEPRPSLVLVGSGTIAKEIFKLATTMGFLVEVVAEDAKEEDFPDAKFFSNTLQVIEQLSSNSFVIVANEGGKPYDIPAAFLALKSKAKYVGFLSSQKRAAYTIAQLIKMGIPQEELRERFYGPMGLDLNAKTAEEIALSALSELVLIMRKGSGKHLRDVKDPYLLLKDAMDGKITDVCNFTPIKISEK;locus_tag=LOCUS_29820;note=WP_010978059.1 XdhC family protein (Sulfurisphaera tokodaii) [pid:62.1%25%2C q_cov:98.9%25%2C s_cov:98.8%25%2C Eval:2.1e-83],MGA_2991
sequence1	MetaGeneAnnotator	CDS	2713113	2713526	.	-	0	ID=MGA_2992;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVEKDVRISHEWNAIIEILSDPYFTLPRLFPPIKKVNRNGESFECEGKFVGMRFTMRGNIYRSTDLITFIFSLRAGGGLGNGKLMINSESEVLKLIFSYEGWMNRFSKTFFMSKWFDNFAKNLNEEIRLERIRRKI;locus_tag=LOCUS_29830;note=MGA_2992
sequence1	MetaGeneAnnotator	CDS	2713707	2714180	.	-	0	ID=MGA_2993;product=DUF3211 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978036.1;translation=MQAKVTISSPFEKDIILKLFSDQKFFFANFTPFTIINEESENVFYVYGEFYSLFSAFDVEARVRKYISSYVITYILIVQPGLIQGSYDNLIDRSFKGVSPKGNGKIVISMSQGSIEITIDYEGDKEKAIVNFIVKRMNKQIKNFDKIIQLERIKRHI;locus_tag=LOCUS_29840;note=WP_010978036.1 DUF3211 domain-containing protein (Sulfurisphaera tokodaii) [pid:44.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-33],MGA_2993
sequence1	MetaGeneAnnotator	CDS	2714352	2714591	.	+	0	ID=MGA_2994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSQLLYIKEKYDELLKAYNACKTCIDCEMCDKAEIISDELITLINKCNISDLSPEERKEIKSIIFSISSLSKDLKKTL;locus_tag=LOCUS_29850;note=MGA_2994
sequence1	MetaGeneAnnotator	CDS	2714600	2715712	.	-	0	ID=MGA_2995;product=DUF1641 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978598.1;translation=MESIDKLLSKLDEKKMEEISQLIDLTPTLNDLLKKINELESSGTLDTVINSTYIIRTLRDMLNDDAIENFGLILSSLLNIGKEISKEDIFNNIQVIIDNSSAIAELSKKLKEMEKDGSFDAIVNASYSIKTIKDMLNDDAIETIGGTLSNSLELLKELNKNSSQVKQIIDKAPVLSDVLSRLDTMKNDGTLDTLINSAYAVKTFRDMLTDDALQNIATYTSNLLEIMRELDYGTLQSIKLSMKKLGTINNVLDKIEELNNTGALDAAMNMAYAAKTLKDMLNDDALTHISSYMSQFLEAYPKAMKFLNVALSDVPSRIIKAVTSEEVKKEVEYPPQVSLGNLIKLMADPTIQRGLGVLFVLVRAIGNEFK;locus_tag=LOCUS_29860;note=WP_010978598.1 DUF1641 domain-containing protein (Sulfurisphaera tokodaii) [pid:34.0%25%2C q_cov:99.5%25%2C s_cov:97.9%25%2C Eval:1.8e-66],MGA_2995
sequence1	MetaGeneAnnotator	CDS	2715719	2716873	.	-	0	ID=MGA_2996;product=FAD/NAD(P)-binding oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978596.1;translation=MKRIIIAGGNIAGTIVANRLIQKLEDEVNKGEVEIVVLNRSDDHTYLPGQLLAAFGLEIPGELVKKEKELLDPRIKFLHGDKGTITKIDVANNSVQTADGVSHNYDYLVITTGVEYSWDEVPGYRAASLTPYEMESALKLREALGSFSGGTVVVNTARLPHRCPVAPIETTLILDDYLRKRGIRDKTKIIYTYPVPGVFGRPITNKFIMNIFEQRGIEVHSPFTIKSVDPTEKIAESQEGDKLKFDMLISIPPNMGAKVIEDSGIGDRRRWVPTDKFTLRMKDHPNVYVMGDTTDLAVSKAGSTADFESYVVAHNIANDIKGNLGVKHYGGDVLCYIATGTDQATYIRFSYTMNESPPPPSYIHWWGKIMYNKMYWTVTAKAVV;locus_tag=LOCUS_29870;note=WP_010978596.1 FAD/NAD(P)-binding oxidoreductase (Sulfurisphaera) [pid:81.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.0e-190],MGA_2996
sequence1	MetaGeneAnnotator	CDS	2716880	2717107	.	-	0	ID=MGA_2997;product=sulfurtransferase TusA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846902.1;translation=MSYIIKEIDLSESSCSGPIGELSGIVSELKSGEAIKVIISMEDTKRIIESWVKKKGLKLVTEVKDNSKYVLVISR;locus_tag=LOCUS_29880;note=WP_052846902.1 sulfurtransferase TusA family protein (Sulfurisphaera tokodaii) [pid:56.9%25%2C q_cov:96.0%25%2C s_cov:93.5%25%2C Eval:6.7e-18],MGA_2997
sequence1	MetaGeneAnnotator	CDS	2717461	2719098	.	+	0	ID=MGA_2998;product=NAD(P)-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978028.1;translation=MKLLEPFSIKDIKLKNRIVMSPMITNLATPEGYPTEEHIRYFIRRSSAGLLITEYTYVNNLDSRGSPNEMGLYSDELIPKFARLTEAVHNNDSRIFVQLVHAGRKTRKLLIWGNSPIAPSNVPLIDPVREMNEDDINRVIDDFVKASERAEKSGFDGIELHGAHGYLIAQFLSPATNKREDKYKDGVLFLEEILKEVRRVVSIPVGMRISVTEFDPNGLNPELVAKIVKRVEPLLDYVHLSAGRDGPLGGSSSFYYKKPSYIDEARIVRKEVRIPLFLVGSVTSVEDAEKVLEVADVVVLARQILADPDWPIKIGNNRPIRPCIRCNQLCRLLSVREVRCDVNPELGWEILPPMEKGEGEVKVVGGGLMGMEIARVLSLRGFEVTLYEKNDRLGGQINEIKDPYKKNEFSKLVEYYEKELMRLGVKIMLNSESKDGIIAIPKERQPIFRNYEKKKILVNSNLYAYQDYVFEWIKNNEVYVTQNVFKGLDRNRGYLLEEKYRELGVKIVKEPIKADIVIDDIRVSQPSIGASIARGYWIARNFSNV;locus_tag=LOCUS_29890;note=WP_010978028.1 NAD(P)-binding protein (Sulfurisphaera tokodaii) [pid:78.5%25%2C q_cov:99.4%25%2C s_cov:99.3%25%2C Eval:1.3e-255],MGA_2998
sequence1	MetaGeneAnnotator	CDS	2719743	2719895	.	-	0	ID=MGA_2999;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_29900;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:90.0%25%2C q_cov:100.0%25%2C s_cov:14.0%25%2C Eval:3.5e-22%2C partial hit],frameshifted%2C insertion/deletion at around 2719976%2C2719994%2C2719904,MGA_2999
sequence1	MetaGeneAnnotator	CDS	2719986	2720123	.	-	0	ID=MGA_3000;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQSQSENHVLLTIPGIGKLSSGIIIGIVGDIKRFPNPESFVSAV;locus_tag=LOCUS_29910;note=MGA_3000
sequence1	MetaGeneAnnotator	CDS	2720138	2720332	.	-	0	ID=MGA_3001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEQRSYLKKSKYYLKHYWKQARK;locus_tag=LOCUS_29920;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:61.4%25%2C q_cov:67.2%25%2C s_cov:12.3%25%2C Eval:1.4e-07%2C partial hit],frameshifted%2C insertion/deletion at around 2719975%2C2720327%2C2720203%2C2719993%2C2719903,MGA_3001
sequence1	MetaGeneAnnotator	CDS	2720280	2720786	.	-	0	ID=MGA_3002;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNSLKELVTLYVFLKVESKVQEQGKKSTIPSQ;locus_tag=LOCUS_29930;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:67.5%25%2C q_cov:97.0%25%2C s_cov:46.5%25%2C Eval:5.4e-60%2C partial hit],frameshifted%2C insertion/deletion at around 2719993%2C2720203%2C2720327,MGA_3002
sequence1	MetaGeneAnnotator	CDS	2720838	2721155	.	-	0	ID=MGA_3003;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METFNNINPWWFYSNWEDKDKHSLLDKIPSSISFNSIASDLGISHNTVSEYIEFLTDIFLIDVAYLKSGNEIVNSFGSSSYRLAMLEAKHVEPIHLLTDGVFRPL;locus_tag=LOCUS_29940;note=WP_010979159.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:64.0%25%2C q_cov:47.6%25%2C s_cov:12.6%25%2C Eval:8.5e-13%2C partial hit],MGA_3003
sequence1	MetaGeneAnnotator	CDS	2721563	2722450	.	+	0	ID=MGA_3004;product=bifunctional 2-dehydro-3-deoxy-phosphogluconate/2-dehydro-3-deoxy-6-phosphogalactonate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846807.1;translation=MRSLFMEIITPILTPFKNNGDIDKEALKTHVNNLITKGIDLIFLNGSTGLGPALSKDEKLSTLKTIYDITGKIIFQVGGLNINDVIELLKASKEFDIVGVASYSPFYFPRIPEKMLIKYFKTIEEYSPHPIYIYNYPLATGYDISAKTLEKFMDSKFVGIKDTNQDLSHSLEYKSLKNFKVYNGSDSLIYYSLLSLDGSVTAASNYLPEIVVKMKNLIQNGKLNEALELQKLIISILEISRKYGQLSSNYILVREFQGYNVGIPRGPIFPLEDEDVKALIQEINPLKDKIRKFSS;locus_tag=LOCUS_29950;EC_number=4.1.2.55;note=WP_052846807.1 bifunctional 2-dehydro-3-deoxy-phosphogluconate/2-dehydro-3-deoxy-6-phosphogalactonate aldolase (Sulfurisphaera tokodaii) [pid:68.1%25%2C q_cov:97.3%25%2C s_cov:99.0%25%2C Eval:3.3e-110],MGA_3004
sequence1	MetaGeneAnnotator	CDS	2722463	2723395	.	+	0	ID=MGA_3005;product=bifunctional 2-dehydro-3-deoxygluconokinase/2-dehydro-3-deoxygalactonokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980563.1;translation=MAKMITLCEILIEFNALTSGPLRHVTYFEKHIAGSEANYCVAFTKQGNECGIIARLGEDEFGYNAMEWLRGKGVDVSHIKFDPAPTGIFFIQRHYPVPHKSNFIYYRKGSAGSKLSPEDVDENYIRSADLVHSSGITLAISDSAKNAVIKAFNNAKVRSLDTNIRLKLWSAEQAREIIMGVLKEYPLKFLITDIEDSRILVRESDPDAAVSKLSNYAEIVIMKLGPKGSTVYYEGKKYHSPGYQVPVEDVTGAGDALGGTFLSLYYKGFSIEKALDYAVVASTLSVMVRGDHENIPSTSDIESFLEEMKR;locus_tag=LOCUS_29960;gene=kdgK;EC_number=2.7.1.178;note=WP_010980563.1 bifunctional 2-dehydro-3-deoxygluconokinase/2-dehydro-3-deoxygalactonokinase (Sulfurisphaera tokodaii) [pid:76.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-138],MGA_3005
sequence1	MetaGeneAnnotator	CDS	2723402	2724946	.	+	0	ID=MGA_3006;product=NADP-dependent glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980562.1;translation=MKVLVFNMVSLNELSEEFKSIYVIDNDGIPLFKTYLLGEWVDAKDVQYLKSPIDLSVYAKVPKLNHEMIDSTLSVMYKVGKWEIRDIPGEKRLKIYHKIADLLDKYRDDFINVLMIGNGKTKAQANGEINASIERLIRADLDVRKLYGEYVPGDWSTESLESEAIVRREPLGIVLGITPFNYPLFDVINKFVYSTVAGNAFILKPASSTPLPAIMLAKLAEIAEFPKRALSIITIQGNEMDKIISDKRINVITFTGSSESGEQVIKSGGLKQYIMELGGGDPAIVLGDADPKIAAQRIASGITSYSGQRCDSIKFIFAEASIYEQLKNYLIEELKKIKVGDPRESNTAMGPIIDPNTVQEFEYAVKDAVNKGATILYGGNILGPTYIEPTLLEVDKKVLKELYLFRKEVFLSIATLTKVDNIDEAIELNTERRYGLDAAIFGNDIFKIRKALRRLEVGAIYINDYPKHGIGYFPFGGRKDSGTGREGIGYTIEYVTSYKTLVYNYKGKGIWEYI;locus_tag=LOCUS_29970;gene=gapN;EC_number=1.2.1.90;note=WP_010980562.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Sulfurisphaera tokodaii) [pid:75.7%25%2C q_cov:98.6%25%2C s_cov:100.0%25%2C Eval:1.2e-234],MGA_3006
sequence1	MetaGeneAnnotator	CDS	2724983	2725393	.	+	0	ID=MGA_3007;product=PaaI family thioesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978000.1;translation=MDIQRLLEDNDKVYKYIGIKLLEQKEGYVKLQIPYKEELCRRGGVLNGGIIMTAMDFAGGLATLTVNDGIDQVTQELKTNFLEPMYKGPFTVEANIIRKGRTAVVVEIKFKDNEGKIGAIGLGTWYIIRDRLITTK;locus_tag=LOCUS_29980;note=WP_010978000.1 PaaI family thioesterase (Sulfurisphaera tokodaii) [pid:74.4%25%2C q_cov:97.8%25%2C s_cov:96.4%25%2C Eval:2.5e-57],MGA_3007
sequence1	MetaGeneAnnotator	CDS	2725573	2727099	.	+	0	ID=MGA_3008;product=acyl-CoA synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389348.1;translation=MYRDKRYTYEKFKENVLMQANAFKAEGLSNEDKVAFISRNRPQFLESFFSVPLAGGILVPINFRLSPKEISYIVNHSESNFLIVDELFLDQLVSVKDEIKAKIILLEDELSPSTENARKIVWKTFSEFIKSGTTQPIQIQVKDEYSMITLYYTSGTTGLPKGVMHHHRGAYLNALTEALEHQMGINSTYLWTLPMFHAAGWGFPWATVAVGATNVCLDKVDPEVMYRLIKEEKVTHMCGAPTVYITLIDYMKRNKLRFDNMVHMIVAGAAPAPATLRAVQELGGYMAHVYGLTETYGPHSICEWLEEWNNLSIEEQAKLKARQGIPYVGFEMNVFDENGNPVPWDGKTIGEVVMRGNNVALGYYKNEEKTAESFRDGWFHSGDAAIVDPDGYIQIVDRFKDLINTGGEKVSSILVEKTLMEIPGVKAVAVYGTPDPKWGEAVTARIELKEGVSLTADEVIKFCKERLAHFECPKIVEFGSIPMTATGKVQKYVLRNSALKKMKEENNL;locus_tag=LOCUS_29990;note=WP_011389348.1 acyl-CoA synthetase (Rhodospirillum rubrum) [pid:44.3%25%2C q_cov:96.7%25%2C s_cov:91.0%25%2C Eval:3.6e-119],MGA_3008
sequence1	MetaGeneAnnotator	CDS	2727094	2727792	.	-	0	ID=MGA_3009;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979689.1;translation=MSSELRSNLEDIGLSLYESKVYLSLLQLCSATMRELSEKSEVPYQKIYEVTRSLENKGLIKIIEGKPKRVKIIDPSIALKTYKDKIMSRFDNSISKIISFWSKERKGDTERSLHVAGKRTIIKIIKEFMEKSRKVKIVYDKPPEWLVRMIKQYKGDLTFITSQNIDINAKIKLVKDIQSRFIIFDDSLLVTFNKNEEGDEIIIDSCRGCIIQASEHFDLLINSIIPKKEIQL;locus_tag=LOCUS_30000;note=WP_010979689.1 helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:59.7%25%2C q_cov:94.8%25%2C s_cov:97.7%25%2C Eval:8.1e-73],MGA_3009
sequence1	MetaGeneAnnotator	CDS	2727852	2728952	.	+	0	ID=MGA_3010;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979690.1;translation=MFTILVFFTGLYLGTLRIVIPVIERHLDIAVTLSIFLPLVIFGFTKGGFNYLAGKLSDDLGRKLVLIIGWIAALSSIILFFYVNIYSIIIITVFLAINQALTWTTTVTSQIDISGKSRAGLASGINEMSGYFGVAVGNLFATYIFRLSYVFIFTVAIVALISSILAIDTKKLLKDTIIGKTKINYSSITKTSIAGLLEKFVDSSFFILIPTYLLLLHYSLFLIGVIVASYTLTWAVLQPLFGYIADISNQRRLIITIGFFLMFLGFFHYTVYPLVFSIMEGIGMSMIYPNLIALVNDEIHESVRGKALGYYRLYRDSGYGVAGLILPLLYSFFGFNYALLIVGTFQLISIFLIIDVNVFKHVTKNM;locus_tag=LOCUS_30010;note=WP_010979690.1 MFS transporter (Sulfurisphaera tokodaii) [pid:62.7%25%2C q_cov:96.7%25%2C s_cov:98.3%25%2C Eval:7.7e-123],MGA_3010
sequence1	MetaGeneAnnotator	CDS	2729012	2729416	.	+	0	ID=MGA_3011;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEHPKKEHSEHPTREHPGKGVSLDNIAKTVEDFVKTDSQLKGGHFSIYDPVSNKPLALDLEKVHKDRLSKITENEYFVCADFKSTEGKMYDLDFFVKEDKGNLKVTEISIHKEEGKPRYNWVEEGGIWKKIPT;locus_tag=LOCUS_30020;note=MGA_3011
sequence1	MetaGeneAnnotator	CDS	2729421	2730158	.	-	0	ID=MGA_3012;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979688.1;translation=MIFRYVLSKSGGCLTYIFGCTQAGELFVVDPKYDVLNEIIKLSEDLGMKISYIIDTHTHADHISGVRKLQSLTNANIYYSEYSQIKFPSERIKDGEEIKSGNVKIKAVYTPGHTPDSMSLLIYDKRRDDSWTEPWSMLTGDTLFVGSVGRIDINKDNSEENLYYSLQKIKKFPDYVEIYPSHTSGSVCGLGISGKPSSTIGFEKRFNKLFKIDNKEEFIKQINQMNLEKSTEFERNIKINLEGMI;locus_tag=LOCUS_30030;note=WP_010979688.1 MBL fold metallo-hydrolase (Sulfurisphaera tokodaii) [pid:71.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-105],MGA_3012
sequence1	MetaGeneAnnotator	CDS	2730275	2730607	.	-	0	ID=MGA_3013;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846147.1;translation=MTKVLFLIMSDDTKFDLGIRISYNSFKNRRYDEMKVLFFGPSQKRLTQLDGDIKSMFHELLQNKIVDSACIGIAENMKIKPNLESLGISLMPTSERVAHFVREGYEIISF;locus_tag=LOCUS_30040;note=WP_052846147.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:64.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-39],MGA_3013
sequence1	MetaGeneAnnotator	CDS	2730714	2732261	.	-	0	ID=MGA_3014;product=PQQ-like beta-propeller repeat protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979181.1;translation=MSFFIVNSFQNQVQTQTPLQPITTVYTQYNGTYFPYEVKVTYYPGNMSNSNLGFPSDWIVTNYNQEFESVVPTSCTYLQQGVSWELPADSFGGGTPIPLSTPASMLPGASALGEKAALVFLTQDVGQPLGVTLADNLLFVEEDSGPGTILAVNPISGNVVWYATGLASMAMQDPIVWNGIVYVPVGDIGFTFTALEHALRNESSGVYRGSVYGGIYAFNASDGQLLWMRFTFGENMPDPVVYNGILAYATGSGCFVGLNATTGSTLWITKLPGYIDSMSSLNYYVGSNGTVLFIAGFTLLKYPYGILVAVNSENGKVVWQSQLPSTYVPFNTGMGDSPATVIQSSGIILKDTIANFRNGTVDTVMFAVNATNGNVLWAINLGRGYVPPAFKASMILANGNYAYVGIPSLGSVAKVSIATGKIIWETRLPDLGIPPTLPGGPRGAPVYYHGLLWVAAGSHIYVLNPDSGKVITMYYVGGRFGIVDPVISGGTIFLTNSYGWVIAIPLSQIYPDWNS;locus_tag=LOCUS_30050;note=WP_010979181.1 PQQ-like beta-propeller repeat protein (Sulfurisphaera tokodaii) [pid:64.9%25%2C q_cov:95.0%25%2C s_cov:92.1%25%2C Eval:1.2e-194],MGA_3014
sequence1	MetaGeneAnnotator	CDS	2732545	2733648	.	+	0	ID=MGA_3015;product=cytochrome P450 Cyp119;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979165.1;translation=MYEWFAEMRKKDPVYYDGKVWHVFKYKHAKEVLNNFSKFSSDLTEYNEKVNDLRNGKIKLDVPTRYTMLTSDPPLHDELRSMTADIFSPPKLQVLESFIRDTAKSLLNAVDKEDDIVRKFAVPLPIIVISKLLGLPIEDKEKFKEWSDLIALRLGKPEEIFIVGKKYLELITYVRNHLNPDNELVSRILKSNLSNIEKLGYIILLLIAGNETTTNLISNAIVDFTRFNIWEKIRIENLYLKSIEEVLRYSPPVMRTVRIAKEKVTLENLTINEGEFVRVWIASANRDEEVFHNSEEFIPDRSPNPHLSFGSGIHLCLGAPLARLEARIAIEEFSRKFRNVEILETEKVPNEILNGYRKLIVRAKPIT;locus_tag=LOCUS_30060;gene=cyp119;EC_number=1.14.-.-;note=WP_010979165.1 cytochrome P450 Cyp119 (Sulfurisphaera tokodaii) [pid:61.5%25%2C q_cov:99.2%25%2C s_cov:99.5%25%2C Eval:1.3e-130],MGA_3015
sequence1	MetaGeneAnnotator	CDS	2733693	2734859	.	+	0	ID=MGA_3016;product=aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846353.1;translation=MRGFNTRAVHEGEIIDKRFGNVVTPIFQTSTFIHPNDDPNAYLDSNTGKPFLYTRHGNPTVNSLEMKYASLEEAKFSISFSSGMAAISTTLTSLIKKGDKILTINQLYGQTYRLFLDLIERYEIEVDFASINEINSLDINKDYNIIYVESITNPTLQIVDLMELGKYCNERNIKLVVDATFASPFNQRPLKFGADISLHSGTKYISGHSDVVIGLVSTNNKEIHSKIFDGRKTYGGSADPLSAYLSLRGLKTLGLRMERHNSNAMELAKFLSDNEKVSKVFYPGIPEFEYYDIAKKVLKGYGGMVSFEPKGGYECSKKIIKSLTLATPAPSLGGVETLVTLPRETSHASLSSEELKKMGIPEGLIRVSVGIEDIEDLIEDFKEALSVC;locus_tag=LOCUS_30070;note=WP_052846353.1 aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme (Sulfurisphaera tokodaii) [pid:43.3%25%2C q_cov:98.2%25%2C s_cov:98.1%25%2C Eval:4.4e-87],MGA_3016
sequence1	MetaGeneAnnotator	CDS	2735004	2735999	.	-	0	ID=MGA_3017;product=alpha-ketoacid dehydrogenase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002942393.1;translation=MKGIAAAISNAISQEMERNDKIVVLGEDVTYWGAVFGFTAGLFEKFGRDRIVDTPITEQTFMGMAVGMASVGMHPVVSLMFVDFLGAGFDQMYNHMAKNFYMSGEQFEMPITIVTAIGGGYGDSSQHSQVLYSLFAHLPGFKVVVPSNAYDAKGLTHTALRDRNPVVIFGHKLLTGMPFLPFEGEEENVPDYPYTIEFGKADIKREGSDITIISTALMLQRSLKAAELLQKEGISAEVIDPRTLVPLDRETLVKSAKKTGRVLIVDEDYMSYGMTGEIGFIIYQDAFKDLKEPIRRIAVPDVPIPFSQPLESTVIPSVRKIYEEAKSMVKL;locus_tag=LOCUS_30080;note=WP_002942393.1 alpha-ketoacid dehydrogenase subunit beta (Streptococcus) [pid:45.9%25%2C q_cov:95.2%25%2C s_cov:93.4%25%2C Eval:1.9e-72],MGA_3017
sequence1	MetaGeneAnnotator	CDS	2735996	2737030	.	-	0	ID=MGA_3018;product=thiamine pyrophosphate-dependent dehydrogenase E1 component subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002897599.1;translation=MWRPEYTIKDLNYILRKNELDKDRLLSFYRKMYTIRYFEESIAKKYYEGKVPQFNMASGVIRGEMHLAVGQEAIAVGVEDNLKDDDVVVSTHRPHHHAIAKGVDLKKLAAEIFGKSTGLCKGKGGHMHLFDKSKRFSCSGIVGASFPQALGAAFAFNYTGTNNVAVAFAGEGAANHGTFAETLNIASAWNLPLIIVIEDNLYADSTPKSFVMSTTHHYQKALANNIQSFLINGNDVIEVYTVANYAIKKARSGFGPTVIEAVTYRLRGHFEGDSEEYRTKEEVELWRKIDPISFLEDRMMKLGYSNEELNKIRKDAENEVNEAIKFAENSPYPSEEDALRGVFA;locus_tag=LOCUS_30090;note=WP_002897599.1 thiamine pyrophosphate-dependent dehydrogenase E1 component subunit alpha (Streptococcus sanguinis) [pid:45.0%25%2C q_cov:94.8%25%2C s_cov:89.4%25%2C Eval:2.6e-72],MGA_3018
sequence1	MetaGeneAnnotator	CDS	2737518	2738144	.	+	0	ID=MGA_3019;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846708.1;translation=MIIERFVSGPLSTNTYVLIYGNESLIIDSEGDMTEVINFLKSRNIIPNLFIATHGHFDHILGINRLKYEFPSLRFLINKKDLELVANAESLAKYFGIRISPIILPDCYVKEGDKIKIGEEELVIIETPGHTMGSICILTNNAIFTGDTLFSGTVGRTDLGGSLELLKNSLERLKTLPDELTVYPGHGNSTQLGYEKINNLFLTGEVDL;locus_tag=LOCUS_30100;note=WP_052846708.1 MBL fold metallo-hydrolase (Sulfurisphaera tokodaii) [pid:48.3%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:1.4e-49],MGA_3019
sequence1	MetaGeneAnnotator	CDS	2738353	2739345	.	+	0	ID=MGA_3020;product=alcohol dehydrogenase catalytic domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980693.1;translation=MYALVFNKNGMENLKYTEYKDPSVNDNEVLIKVRIAGVNLVDYFTVVSMNVNPIPHIPGVEFAGEVIKTGKNVKSVKEGDKVTIYGRIFDGNCDMCMMGYETLCRNGGRIGVNTTGGFAEYVSIEEKYVFKLPENYSWELGSSMTVAALTAYHALKEAQLRLSDTLVVFGASGNTGMFLVQLGKKFGAKVIAVSRKQWLTDFGADMIVGYEDVYEKVKDFTNGKMADVIINSLGKEFWDKSFSVVGVKGKIVTFGTLTGAEIKLNLNQLYNKHISILGTNRGNRKDFLELLDVCRDCKVRTWKKYSLENGIEALNSLSANDRDGRIFIVV;locus_tag=LOCUS_30110;note=WP_010980693.1 alcohol dehydrogenase catalytic domain-containing protein (Sulfurisphaera tokodaii) [pid:73.5%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:3.4e-143],MGA_3020
sequence1	MetaGeneAnnotator	CDS	2739936	2740592	.	+	0	ID=MGA_3021;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979676.1;translation=MYHVSMDSNWFSISQEKRTAIKYISENFYPAKYMNRWRDFKEISYKLSEIVKLYSSTQITEEIEHFEFFKQYFNEDTLDLPLPESYIKWFDSMLLAFRHGNIDEIASRFHMITEGILATVGLKILNETSMELPEFNFNIKKIIEDEARHINFGFQIIMNPNYAVNRIEELYPYAEDIIKDGMKYLEPIGYSWYDLRKLMLELKEARINKLKKKIMSAN;locus_tag=LOCUS_30120;note=WP_010979676.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:55.5%25%2C q_cov:94.0%25%2C s_cov:98.6%25%2C Eval:3.0e-58],MGA_3021
sequence1	MetaGeneAnnotator	CDS	2741008	2742072	.	-	0	ID=MGA_3022;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFFNINIFIIGTIYSITNFVYVILNLPLGIIVDKIGSRNALVISALIAVPLFLIMGTRIAVFFIISFIIFESIVRMINSLGIHKFILDYRDAGKAFGVFSLITSILASIGILTGGFLLQYFGVSLLLFVFISILFGISSLIRFLKLPKGENKNYKVGKIMQLSFKHIRDKTLLLYILTSILSSGLNLEVFYVTIYFVKYLSIPLTLIGVIYSTYAIIMAFLPLLFSIILSNYSSFKNLSLILFSESFIFFLIPLVYNIYITFILFYFWTLLVAMQNIMGVNISKSVTRSEIRGSQIALISTFTNIFQIFYNIVIGILFEIKPSYAFYFSGTLGIIAVSIIILFILLFHTQNDM;locus_tag=LOCUS_30130;note=MGA_3022
sequence1	MetaGeneAnnotator	CDS	2742152	2743255	.	-	0	ID=MGA_3023;product=pyrroloquinoline quinone biosynthesis protein PqqE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014206724.1;translation=MINSKPFFIELELTYRCSQQCFYCHNPPKEGNFYIANEKPKFRSTIEIKELDVNEWLLIIDQIKNMDKSYEGAMDIVITGGEALLRTDLEEILSYISRQKLRYLLLTSGEPVSDNRIKKLVESGLDRVRINLTSHKHLSDLSVLDMNIKNEILNKTNIAKKFKYFGVKLVGGNIVLTKYYLDHLEEVVDLAYKANLDWIEINPVIKVGHGYINQKYVVPDSNDEKKIHDKLNRLRSIYGEDFIQNYVDTDILYSRIPIPTNWGEIGLIVSPNGDVYPGSEATSIPLAKLGNLKTHSLIEIWSNNRLLNAIRTLSFLKEPCKSCTVKNICKGGFRFNAYILGHDLLAPDPLCPIVKNYAKGDLLSYKG;locus_tag=LOCUS_30140;gene=pqqE;note=WP_014206724.1 pyrroloquinoline quinone biosynthesis protein PqqE (Acinetobacter pittii) [pid:28.2%25%2C q_cov:94.3%25%2C s_cov:85.2%25%2C Eval:3.1e-31],MGA_3023
sequence1	MetaGeneAnnotator	CDS	2743951	2744298	.	+	0	ID=MGA_3024;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNTLSEYDIPSNRFYIIPLPDISMNSIWAYHVKSYVPRFHKVIGRNPLVIRLFKEAGVETENPPEFDRINYNSTYIRKLIIENDSRWKKLVPKSVIEVIEEIKGDKRLREIVG;locus_tag=LOCUS_30150;note=WP_052846254.1 nicotinamide-nucleotide adenylyltransferase (Sulfurisphaera tokodaii) [pid:56.5%25%2C q_cov:100.0%25%2C s_cov:66.9%25%2C Eval:1.1e-31%2C partial hit],MGA_3024
sequence1	MetaGeneAnnotator	CDS	2744322	2744717	.	-	0	ID=MGA_3025;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINNYMSNLKYEKYLKNSNLKEFIIVITYLPLRRRYTIQFLLLTGKIINKLMNSPVVSFGLYANFTRSYYVTVSVWESRDSMHDFISTLPHSTAMKNFDKWKSNEGKFIEYQSISSAIDWKKVKQELKIDI;locus_tag=LOCUS_30160;note=MGA_3025
sequence1	MetaGeneAnnotator	CDS	2745092	2745538	.	-	0	ID=MGA_3026;product=CoA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846164.1;translation=MDNEENEILNVLKGYKNIATIGFSKDPSKPSHQVPKFLISKGYNVIPVNPTVNEILGRKSYKSILDVPEKIEVVEVFRPSSEVPKIVDEVLERVKQKGDVKVIWLQEGIRNDEAAEKARKAGLIVIQDRCMYKEYMKKIEGVSSPSPI;locus_tag=LOCUS_30170;note=WP_052846164.1 CoA-binding protein (Sulfurisphaera tokodaii) [pid:82.4%25%2C q_cov:100.0%25%2C s_cov:97.4%25%2C Eval:1.6e-66],MGA_3026
sequence1	MetaGeneAnnotator	CDS	2745677	2746210	.	-	0	ID=MGA_3027;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979847.1;translation=MAVKHFSKCSKVNDVLKGEIDAYLIKIKDKYSAYYWLYVAVPLDYTLEDLDKFIRDIWVDCCGHASEFRINEITYPSDFVVDYDGKKSMKTKLSEILNKGLYFEYTYDYGNSTELKLEVISSVKIKDKYIYILGRNDNPLTRYSTSDKYIPNSPRVGICGYTGNKKLEESKIWPLKI;locus_tag=LOCUS_30180;note=WP_010979847.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:45.9%25%2C q_cov:98.9%25%2C s_cov:89.4%25%2C Eval:7.2e-53],MGA_3027
sequence1	MetaGeneAnnotator	CDS	2746478	2746780	.	+	0	ID=MGA_3028;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAPEKYYKAEEAVKLMVKLLNLNDILQKVKKEDYWGLGILHDAVIQISQKLGNEKVIELWKSAIAIFTANLSKDILSVEAEKVKELVELSDKIANLKLD;locus_tag=LOCUS_30190;note=WP_198429703.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:42.6%25%2C q_cov:93.0%25%2C s_cov:70.8%25%2C Eval:4.2e-12%2C partial hit],frameshifted%2C insertion/deletion at around 2746472,MGA_3028
sequence1	MetaGeneAnnotator	CDS	2746904	2747530	.	-	0	ID=MGA_3029;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVGVEKLLTTSDGEYVPNQRPYEKALNKMKRLHKALSRKKFLSRNWFKAKIRLARAHEHLKNLRKDMYMKLGKYFAEHYDVLVMEDIRVKQLVGKSLRRLRMRLHDVAIHELRSVMRYQLGKYGKKLTLVDPAFTSMTCARCGHVKKDLTLADRVFVCPKCGWVADRDYNASLNILRRSGSERPLVPVELRPLPLASLGFEAGSHVR;locus_tag=LOCUS_30200;note=WP_011057329.1 RNA-guided endonuclease TnpB family protein (Thermosynechococcus vestitus) [pid:34.3%25%2C q_cov:85.1%25%2C s_cov:45.1%25%2C Eval:8.0e-26%2C partial hit],frameshifted%2C insertion/deletion at around 2746999,MGA_3029
sequence1	MetaGeneAnnotator	CDS	2747994	2748188	.	+	0	ID=MGA_3030;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVQRRVLYTSDANLNWAFNALNVCSSVYALKRNPTSDINRVFEKEVYKLYKGGSYGDFHEQHS;locus_tag=LOCUS_30210;note=MGA_3030
sequence1	MetaGeneAnnotator	CDS	2748748	2749740	.	-	0	ID=MGA_3031;product=(Fe-S)-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980380.1;translation=MGMGLEKCVHCGFCLEACPTYVITRSEIHSPRGRILAVKLGIPSEGIETCVFCRRCEAACPSGVEYGESISSVRKADFLKKTIHRILENSNLLYTSLKIAKHSNKGIMYRISKFIPESFPPLISNDKNAQIILFPGCITSVVFRKTVEKAFNYLKKYFTVSIYNGCCGLPHYAEGEKDRALQIAQKLKEEFKGKIVVSLSSNCTAHMKEMGINVYDFSEFLVKYNMPLPKINSEVTVHDPCHANLIGITKYNREVLNRMGIKIKEMEDPSFECGAGGSYFVFQGELSDKIMKVKEEKVKESGANTVISTNPSCSLAMMRYSKVVHIADLL;locus_tag=LOCUS_30220;note=WP_010980380.1 (Fe-S)-binding protein (Sulfurisphaera tokodaii) [pid:56.5%25%2C q_cov:98.8%25%2C s_cov:98.2%25%2C Eval:2.1e-108],MGA_3031
sequence1	MetaGeneAnnotator	CDS	2749725	2751101	.	-	0	ID=MGA_3032;product=FAD-linked oxidase C-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980381.1;translation=MEDELRKIVGDRWVITDNEKILYSFDGFTAVSGNPSMVVLPGNEEEAIEVFRLLISKERKFIVRGSGTSLSGATIPLNGEVVISMSRLNKVYGIQGLEIEVGPGIANIMVTRNSPQDLFYAPDPSSYIVSSIGGNISHDSGGIHVIKYGPTFNSVVSVKVILPNGKVEYFNSSPFFNPTSIFIGAEGTLGAVLRARLKLFPKPKARKTIIGIFSTVEDASEAVINIFKSGVIPSALEMMDKYSVEVVEKSKYKAGLPISNVLLIELDGNEDDVKEEYEKIISVIKNLEGEYMTPEDDGKYWNARKGAFPAMGVISPAYLTLDCNVPRKDLPEIMNKVGKISKEKGVMIANVFHAGDGNLHPLIPYDPEDKDSLRRAIQAGSEITELAILMGGVPSGEHGIGTEKVKFLEKYYSETDMEVMDRLRKTFDPKGLLNPCKSIIKNKCAPENQVVKWLWEWD;locus_tag=LOCUS_30230;note=WP_010980381.1 FAD-linked oxidase C-terminal domain-containing protein (Sulfurisphaera tokodaii) [pid:59.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.4e-165],MGA_3032
sequence1	MetaGeneAnnotator	CDS	2751669	2751839	.	-	0	ID=MGA_3033;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIITDEDKLELNNVKLFSMEYYKKGEEKVPYYSAVIPKEIGEKLAGKKVLVIAEIE;locus_tag=LOCUS_30240;note=MGA_3033
sequence1	MetaGeneAnnotator	CDS	2751930	2752793	.	-	0	ID=MGA_3034;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEDMFSSEDPSIVEKIYSLDRNSIIEWMRKRDTAQMKVWQTGNDDIAVVIPTADVESERAKESMRIFSGAKIVMVESKGSFFNYARSVNKGLSVALESSPRWVVISNDDVHGIDNLKKLKDELSTSSKGMVLAKPSRYHSYKVSLIKVKPYFLKGMNFIGKFMKIPPAEVYSYLQTKYGAKLGVTTLTIIDSMIGLMRNFAGEVKDSFVNGGSFMVLNRRAINGKVFDETFINGYEDVYLSMKMRNDMEIVNFRINEERGASLGFGKLRFYRSFVNEVYLNYLLWG;locus_tag=LOCUS_30250;note=MGA_3034
sequence1	MetaGeneAnnotator	CDS	2752790	2753488	.	-	0	ID=MGA_3035;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFNIFLPHLAYVEIDSMIFFPTLLISILFKVRRYYKSLAFSIGIVAPLYVIWDFLATLKDSWSFNPKWILGIRIVDLPIEEVFFFIVTPFATLLIYDFVRTKVSDREVNWITRELMILIALFLLAIDVFLTEYSYTFIVLIYLSSSILLVEFLDPEMFRSRNYWIFLGLTYIPFFVFDYFLTSLPVVVYGPHSILGVRMFTIPIEDAIYSFSMMNFYTVFYRKGVKFWNSA;locus_tag=LOCUS_30260;note=MGA_3035
sequence1	MetaGeneAnnotator	CDS	2753458	2754207	.	-	0	ID=MGA_3036;product=phytoene/squalene synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_143485796.1;translation=MTKLYAFVRVFDDLVDSVPQKVKEFYSLRELYYKELDNGSSGDVVLSNFVEMMRRRGFKEEWVEAFLNSMESDLKKKVYYTIDETLGYMWGSAEVVGLMMMKILNLRDEATYYARMLGRAMQYLNFIRDVREDMEMGRQYLPVNEMKEFKVSSLLECNEAFKEFMRFNLKRYFFFQKEAERGYHMIPSRYLIAVKTAGDMYKWTARRIMADPCVVNRMKVKPKRRSVLARGLYNFLGVPIWNLISFYRI;locus_tag=LOCUS_30270;note=WP_143485796.1 phytoene/squalene synthase family protein (Methanothermobacter thermautotrophicus) [pid:44.9%25%2C q_cov:92.8%25%2C s_cov:83.1%25%2C Eval:2.8e-53],MGA_3036
sequence1	MetaGeneAnnotator	CDS	2754421	2754888	.	+	0	ID=MGA_3037;product=sterol desaturase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963569.1;translation=MLETLELTAIGILYFFGMEFLARFLHKYVMHGALWFLHEDHHRKKQAELEKNDAFGIIFAGIAILLIVEWLRTGNPLPFAVAVGMTAYGAAYVFVHDMIIHDRHLHLRSWGLRHQPFRELILVHDVHHRDGRGNWGFLLVIRGIDKIPEEARQKA;locus_tag=LOCUS_30280;note=WP_011963569.1 sterol desaturase family protein (Flavobacterium psychrophilum) [pid:34.3%25%2C q_cov:83.2%25%2C s_cov:90.4%25%2C Eval:2.3e-16],MGA_3037
sequence1	MetaGeneAnnotator	CDS	2754885	2756294	.	+	0	ID=MGA_3038;product=phytoene desaturase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061143.1;translation=MKVVIVGAGIGGLSTALYLRKKGEEVTIIEKLDQPGGRARSFSHEEFSFDMGPSWYLMAEVFEKFFHEVGEEPPQIMKVNPLFSLYTGKLNVLERSEEFNHDLSQFKDFESYLEDTQFMYSLAMEKFLFKEMKFSDFLDPAIISNLKRFPIFTSLDSFNRRYFSDDFLLKALGFSSVFLGGSPFNTPAVYAIVNYAIYGKGVYYPKGGFAGYVTKLFEACKKSGVQFKFNHEVDKIDVDNDKVISVRSGEDVERGDVFIFNMDYHYADTLLPMEYTMRGESYWERRKLSPSAVLAYVGVEGEVNAPHHGIFINGNWKLHFDSISKGNEPDPENMSYYVSYRKATDSSLKGKDLVFLIPVSPGLLLPNYQDYVRKVIDDFKAKTRSSFHIKYEKVYRAVNFEEDYNAYKGSAFGLSHTLDQTGPFRLPMKNRKLSNLFYVGQYTQPGIGVPMVTISAMIVGDKILNWSKK;locus_tag=LOCUS_30290;gene=crtI;EC_number=1.-.-.-;note=WP_048061143.1 phytoene desaturase family protein (Methanothermobacter thermautotrophicus) [pid:35.5%25%2C q_cov:99.1%25%2C s_cov:98.4%25%2C Eval:3.0e-80],MGA_3038
sequence1	MetaGeneAnnotator	CDS	2756971	2759433	.	-	0	ID=MGA_3039;product=malate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763081.1;translation=MSSIIRIPEEIYEKYKDLFGEKIINDRTINVEKLIEELSLEFSEEIKSVISKRRKWLESKESVELKGSFPSWDEIFIDADGNKRTFREIVQGMIDNALEVESKLRWRLNDNVPIPNDAHPLKNPGLEITGPWYPLSRAYHQINTDVISAMEDEEDASPAWYVPYASGKTVADVWEGRKNVKLFLSGKAPNPYYEKGKTYSINKSRDKWPTVFHRLPGLHILDFDITLDGKPIPAIISSAVIYTLNNYNSLKSAGSGVYFYLPKTQTPEEALLVEKILRRIEGKLGLKIGTLKLALLYEEVNAGRYLPVILWIFRERLVKSNNGRWDYLGSLIEMWLQDKVLPDPQNITMTSPNMMAYQKYNALMMLLSGMKDGEADAAPVGGMAAVMLYPQTDPFERHKYNVKALRGIKLDKLRERLIGLIFITDKASKVTLDDIIQGKVKGKLYDMFRQSWVATKEEAYVEAGNKPLRASLEELQKLIDAPVQYVTIEGTKLPTVDSGLTPEERILFQKLGLIDEHGKITPWVISKDMIDTPEKLLYNKDLWGGKELWHALYDVPEGDITPEHVQHAFYMAANYGFQLLNGNLAAAIDDYEVKQRFMNDLATYRIFTAWLWSLMNRDATVTKDGYIKGPKLTRDGVIPANDVLKMTRGTKVRDIFEDLWKLHFEWTYEFYKEQDMRVAKRILESFGKNDKLEEIYNIISKAYSSGPFREISAKEAAQKIGKLLDATPSEIEEELINLAPRFDRSMAPVIMEILMKQFLYPKYIMNSGKILFVLSPLDPERRLKVMDSIFSFKEIIEDKVKRGELDKSVLDLYDYIYDNY;locus_tag=LOCUS_30300;note=WP_011763081.1 malate synthase (Pyrobaculum islandicum) [pid:60.9%25%2C q_cov:99.4%25%2C s_cov:99.6%25%2C Eval:4.7e-300],MGA_3039
sequence1	MetaGeneAnnotator	CDS	2759664	2760641	.	+	0	ID=MGA_3040;product=FAD-binding oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_221267101.1;translation=MDWVDEVGKISETREGSSSNVITRINVFPSSYEEVSEIIKFAIKNNLKIYPFGKNSNHIGPNVNADIGLSTEKLNRIIDISEEDLYVTAQAGVDFQYLSNVLKSHGLQIPFLYSGTTGGFASTNLPSILTWYGYPKDWLLGAKIATGLGEIIKSGSKTTKFSSGYKIWKALSGALGWLGIYLEINIRLIPYQNFHFEEIKNYEEYFKRRPLGIISVKEGNNIKIYAVIRGEGKIFEIPKKYDASIVTVRGKEIDVLKEIEGDYCVAYYGNGLIRCNGIDVEGLRSQFVVIKERNCASNCFGYNYEAISMLKNSLDPNGIFFNIFQ;locus_tag=LOCUS_30310;note=WP_221267101.1 FAD-binding oxidoreductase (Sulfurisphaera ohwakuensis) [pid:44.8%25%2C q_cov:89.8%25%2C s_cov:94.6%25%2C Eval:1.2e-63],MGA_3040
sequence1	MetaGeneAnnotator	CDS	2760714	2761355	.	+	0	ID=MGA_3041;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDKRGLEKNAVGFWSLLGQSVALIAPLGAVAATLTGSAAFALASLPLAYLVAIFGVLTWINVPYQFSKKIANAGGFYTFALRGMGPRYGLVTGLLYLFSYFNVITNAIIFTGGVFIPSILSEFLGISLPSWFWIIFLIIFLSSFTILAYLGIKPSLKYSFITSLIEISLLIWLAITIIIKVGPHNTLAPFTPIAPGGWIAVFEGMILGFGLH;locus_tag=LOCUS_30320;note=WP_010980445.1 APC family permease (Sulfurisphaera tokodaii) [pid:25.0%25%2C q_cov:83.6%25%2C s_cov:37.8%25%2C Eval:1.9e-09%2C partial hit],MGA_3041
sequence1	MetaGeneAnnotator	CDS	2761349	2762650	.	-	0	ID=MGA_3042;product=RNA-guided endonuclease TnpB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979067.1;translation=MSKSLRLKSFQPEEEYVYLTYSLKNDKKEETKILLENYRVLLQKALDWLWERVKIERKEVKKGKKVLTKIKITLPKKKEVYKTLRDELEKVNKLASHYVDKAISDAYSILNSWRRRAEKGQASLRKPTLRKVYVRVKSTLRKVKGEEVRITVIPYEYITFSWSHTWFSRRVEGLELGEPIIKEDKVYLPFRYKLPWNSPIDFLSIDSNLYTLDAYDGDKFVTFSIKELYSLKFGMELKRSKIQSFASKHGRKGKLLMRKYSHRERNRVLDYVHKFVNKLLGMYPLTMFAVEKLNKKEMFQDASDRLSKKISRTVWRSIHRVLKYKASLYGSFVKEVSPYLTSKSCPRCGWVSRKVGRTFRCERCGFTLDRQLNASLNIYLRMCGFPHLFFTPTGSRWVGVIPLKGRRGMNGAMPRDSGEAQGLRIGYKFMKIQ;locus_tag=LOCUS_30330;note=WP_010979067.1 RNA-guided endonuclease TnpB family protein (Sulfurisphaera tokodaii) [pid:80.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-202],MGA_3042
sequence1	MetaGeneAnnotator	CDS	2762628	2763212	.	-	0	ID=MGA_3043;product=IS607-like element ISSto11 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742643.1;translation=MLKPKEVCQKLGISYRTLQSYVKKGYIKPVILQSGKWRFKEEDVERLMGIVRKRKVVLYARVSSNTQKDDLINQVKYLEENVKDYDQVITDVGSGLNMKRKGFLKLLRMILNNEVSKVVIAYPDRLVRFGFEIIEEVCKAHNSELVVLNKEDKTPEQELIEDLISILVSFSGKLYGMRSHKYEKVKKCVEELKA;locus_tag=LOCUS_30340;note=WP_084742643.1 IS607-like element ISSto11 family transposase (Sulfurisphaera tokodaii) [pid:87.9%25%2C q_cov:93.8%25%2C s_cov:100.0%25%2C Eval:2.9e-88],MGA_3043
sequence1	MetaGeneAnnotator	CDS	2763287	2764051	.	+	0	ID=MGA_3044;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGSSGAVYIAEEAQQPRRNIRLAVLISFLITGIVFVLVSYAFTVGWGISNMSNFASSGIPGLILADKYIGLPAVVLIFIFIVNSLFAGSLAPLNSSARLLYALGRDQVLPSFFSRVHPKYRTPANSILFLSMLSAIVSITAGLVMGPYYGFLYLVLASSIATFIGHILGDVALPFFYNKIKNFNIILHGIVPAISFVILALGIYYSFYPPTYPINIAAITTSVFAIIVIIYALVNKSARKLSNLNVEESEDKV;locus_tag=LOCUS_30350;note=WP_011948273.1 amino acid permease (Clostridium botulinum) [pid:25.4%25%2C q_cov:80.3%25%2C s_cov:45.4%25%2C Eval:4.2e-12%2C partial hit],MGA_3044
sequence1	MetaGeneAnnotator	CDS	2764266	2766260	.	-	0	ID=MGA_3045;product=acetate--CoA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978720.1;translation=MSVTWALPFDKKIKPKIGENNVIDEKTYSEIHEKTVKNYKEFWEEVASQLEWFRHWDKVLDESSPPFYKWFVGGEINASYLTLDRHYNSWRRNKVAIIWEGEPVDEKGNPKEVKQLTYSDLYREVNRVSYMLKEKLGLRKGDTITIYLPMIPELPIFMLAAARLGIVFTVVFSGFSSDALATRMNDAEAKVLITADGGWRRGKVIDLKGIADKALEKTPSIKKVIVVRRIGNGVRMNEGRDIYYDEIMSDIPHNAYVEPERLKSEDPLYILYTSGTTGKPKGIVHDIGGYMTLLHGTMKWVFDVRDEDVYWCTADIGWVTGHSYIVFGPLMEGVTGIIYEGAVDYPQPDRWASIIERYKVSILYTSPTAIRSFMKYGEEWVKKHDMTSVRLMHSVGEPINPEAFEWFYNQVGRNEIPFGSTWWMTETGGIMISNLPGYLMIPMKPGSNGMPIPGLEADVLDDNGNPAKLEERGYLVLKNPWPGMPLTIYKDPERYVKVYWSKFPGIFYAGDYAVKDRDGYFWILGRADEVIKVSGHRLGTYELESALIEHPSVAEAAVVGVSDPIKGEVPVAFVILKQGYNADDNLVKEIINTVREKVGPIATIDKLYFVSKLPKTRSGKIMRRVVRAVTMNSEVGDITTLEDEASVDEIRKAIQEFKAELSKQ;locus_tag=LOCUS_30360;gene=acs;EC_number=6.2.1.1;note=WP_010978720.1 acetate--CoA ligase (Sulfurisphaera tokodaii) [pid:75.3%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_3045
sequence1	MetaGeneAnnotator	CDS	2766353	2766688	.	+	0	ID=MGA_3046;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEEKRANAAPLGLSGFALTTLVLSVFNAGLLSSQGVGAVLGLAAFYGGLAQLLAGILEWRAGNTFGYVAFFTYGAFWEWYFLTALGIFGDVTAAGIGLVLVGFGIFTLVM;locus_tag=LOCUS_30370;note=WP_000528533.1 acetate uptake transporter (Enterobacteriaceae) [pid:43.5%25%2C q_cov:100.0%25%2C s_cov:60.1%25%2C Eval:9.5e-20%2C partial hit],internal stop codon at [2766686:2766688](+),MGA_3046
sequence1	MetaGeneAnnotator	CDS	2766773	2766916	.	+	0	ID=MGA_3047;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISSTPLIHAGGYVGILTAIAAWYTGLATVVAENLGIKAPLGKAPMA;locus_tag=LOCUS_30380;note=MGA_3047
sequence1	MetaGeneAnnotator	CDS	2767350	2767607	.	+	0	ID=MGA_3048;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLRIEVGKKGYIIIPKNIRDLIGIKEGDTIILNVENGRIILEPERKVNINDIIRKLNEHEDKISYAKKIKLGDLAQTSLEEEFE;locus_tag=LOCUS_30390;note=MGA_3048
sequence1	MetaGeneAnnotator	CDS	2767715	2767969	.	+	0	ID=MGA_3049;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDEVIYVSRKKYNVKFKDTIEFLDEIVLQNSILFSITSNEYKRAKDFMINYSLKPSDSLHVAVMLNNSIKKILTEDKDFDKIK;locus_tag=LOCUS_30400;note=WP_010868416.1 type II toxin-antitoxin system VapC family toxin (Pyrococcus abyssi) [pid:50.6%25%2C q_cov:98.8%25%2C s_cov:62.4%25%2C Eval:3.0e-18%2C partial hit],internal stop codon at [2767967:2767969](+),MGA_3049
sequence1	MetaGeneAnnotator	CDS	2768438	2769079	.	-	0	ID=MGA_3050;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLATDEKLTDEEIKEYSKLLGRKLTRIEAFILKQLLDLLNIIEEQIKEVENEIMKFLPEEAVELTKIPGIGPISAATIYAELGDVSRFESSKQAASYAGVSPRTKQSGKTEFHNGLIKGNKHLSRVLFLVARSAKNTAQFNGFYQALLKRTSNSKKATLALANKICRIVYHVLKDGEYKGETKKTRYRGGGGEGPQVDPNQVVPSALQAIA;locus_tag=LOCUS_30410;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:52.8%25%2C q_cov:91.5%25%2C s_cov:50.5%25%2C Eval:8.2e-50%2C partial hit],frameshifted%2C insertion/deletion at around 2769224%2C2769101,MGA_3050
sequence1	MetaGeneAnnotator	CDS	2769079	2769213	.	-	0	ID=MGA_3051;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQELREMTRHREGLVERKTQVKNEIRKVLETAGYKLPSKRRQRK;locus_tag=LOCUS_30420;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:72.2%25%2C q_cov:81.8%25%2C s_cov:9.3%25%2C Eval:3.7e-08%2C partial hit],frameshifted%2C insertion/deletion at around 2769224%2C2769101,MGA_3051
sequence1	MetaGeneAnnotator	CDS	2769201	2769581	.	-	0	ID=MGA_3052;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERKIKPKVFAIDVGESRLVATKMEINNNTVKEADTREFKYNEEGLKELIKFLEGYEEGIMEATGVYFYHVYNVLRDKGLKVNVINPVQTVEVLGKKTDKNDSIRLAIAYAAGTVKGSYQREKCKN;locus_tag=LOCUS_30430;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:52.0%25%2C q_cov:94.4%25%2C s_cov:31.9%25%2C Eval:5.2e-31%2C partial hit],frameshifted%2C insertion/deletion at around 2769224%2C2769101,MGA_3052
sequence1	MetaGeneAnnotator	CDS	2770248	2771024	.	+	0	ID=MGA_3053;product=enoyl-CoA hydratase/isomerase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010977985.1;translation=METKYSDGKILLKKDGKIAEVILNRPEKLNTITLQMRRDLGKIFEDLDKDPETSVIIVRGEGDKAFSSGGDISEFLNTSPEDLLDWGKTIETIENVSKPTIAVLKGYILGAGTELALACDIRVASPETEIGLPEIRLGMIPASGGLTKMVKSLGPLKAKYYLLLGKRIKAQEAQQLGLIHEIAENPYDRALEISKDLISLSPLAIKAMKSAINLIMDSPIQVGYDIERKTFGLLRFSEDFKEGIDAFLQKRKPQFNGK;locus_tag=LOCUS_30440;note=WP_010977985.1 enoyl-CoA hydratase/isomerase family protein (Sulfurisphaera tokodaii) [pid:57.9%25%2C q_cov:96.9%25%2C s_cov:99.2%25%2C Eval:7.9e-83],MGA_3053
sequence1	MetaGeneAnnotator	CDS	2771027	2772712	.	-	0	ID=MGA_3054;product=AMP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010977987.1;translation=MNIEIREKNNKISPILNDYDKVRKEFNWDSVERELTFSDGTINPAYFSIYQNIEKNENKVGLIWVGKKDEVRKISYHDLALNGSKIANSLKDLGFKNGDRIILFSRKVPELYFTMIGATLAGGILVPVFQSFGTEALKYRIENSGAHFILTHEELLGRVRDATSGLNVKIIVIDGNSNNNEYSFEDLKSTQKLYVERKRTKDPWFIIYTSGSTGRPKGIVQAQNTIALYYISGMYHFDLQDDVFWPTGDPAWVAGYASVWTGWLRRVPVVTLESKFNAEKWLSIIEEFKVSVWSTAPTALRLLKKELRYIKNDVSSLRFIHAGGEYVGPDLVTWTKDTFGVPLHEAYGQSETATYVICNIISLPIKVGSIGKPLPGIEALIVDEKGNPLPPNSQGILAFKPGFPGLFIGIWGNEDRYKEYFKGGYYLTGDLAYMDKDGYFWYLGRADDVIKVSGYRVGPAEIESVIAENPNVAEVAVIGIPDEERGNAIKAFIVLKKGISPSEQIKNEIQDWVRKNLAAHDVPKYIEFVDSLPHTMSGKILRRYLRAKELGQDVGDLSTLE;locus_tag=LOCUS_30450;note=WP_010977987.1 AMP-binding protein (Sulfurisphaera tokodaii) [pid:55.4%25%2C q_cov:99.3%25%2C s_cov:97.3%25%2C Eval:7.0e-180],MGA_3054
sequence1	MetaGeneAnnotator	CDS	2772778	2773131	.	-	0	ID=MGA_3055;product=zinc ribbon domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979125.1;translation=MFDEIKKEYINLMNNEKLPYIKCKSCGNVFFYPRDYCPKCNSKNLEVKVSKGDGKVFSITKFQGKKGDTYYGIVEMDEGFRIYSNIKNSLEIGDKVTVEFIEENGRKIPIFKGLSGT;locus_tag=LOCUS_30460;note=WP_010979125.1 zinc ribbon domain-containing protein (Sulfurisphaera tokodaii) [pid:49.5%25%2C q_cov:84.6%25%2C s_cov:86.2%25%2C Eval:2.6e-22],MGA_3055
sequence1	MetaGeneAnnotator	CDS	2773133	2774281	.	-	0	ID=MGA_3056;product=thiolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979124.1;translation=MITGFAGLTYKKFEGSTFQLLSDVVYNAMEMASVNSNDIDGLFFTMLSGTFDGKANIHFPSFQIPAFLGIKPRYIDIVDYGGPSALTMVYRAEKLVNSGEIDTALCIVGGKGSFLRENKVTADSVDKFYNISLTPFDEFFRVYEDMNPVTDYALVAKRHQKLFGTTDEQRAMIAVNQRKNAINNEKSLYKSPLSVKDVISSRLVSDPLRLLEIVYPVDGFHAFIVSKHQRNSNLRPLKIHFYGEAHWAEMPPELPDIVYTPTIESSKGVSLEKIDAFELYDSFTITVLLEIEDIGLTEKGKGGKFVEEKDTTFKGEIPINTGGGSLNVGQPAFMSGGVILEEALSQLNGMAKGHQVEGANRVLVNGIGGWNRGHAVTMVLGE;locus_tag=LOCUS_30470;note=WP_010979124.1 thiolase family protein (Sulfurisphaera tokodaii) [pid:62.5%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:6.7e-141],MGA_3056
sequence1	MetaGeneAnnotator	CDS	2774278	2775390	.	-	0	ID=MGA_3057;product=arabinonate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979122.1;translation=MKIRDLEVIKLSSKEFYEKDALAVKEGAEHYMDVLVIKIVTENGEIGYGESIAYGALDAVSTTIEKVLKSIILDEEVAPISLWDKMYKATFRLGRRGIMISAISGVDIALWDILGKEFGSPIYSILGATNKRIKGYITGGYYRQDKDIEKLLEEVKSYVDKGFDTVKIKIGGLKIEDDLKRLKAIREEFENVSIAVDANNVYDFNTALRVGRELEKLGIMFFEEPIPTDFPSLSAELAKELDLSIAGYETAFTLYEFRDIILNHAVDIVQADAAWNGGITEMLRIGNFARAFGLPLIPHYSAGGIGFIASLHTALATNSPMIEYHLRYNPLREGLVGEIRYEGGEFIPPQKPGLGISLKEEYLEKYKVEK;locus_tag=LOCUS_30480;gene=araD;EC_number=4.2.1.5;note=WP_010979122.1 arabinonate dehydratase (Sulfurisphaera tokodaii) [pid:56.3%25%2C q_cov:95.4%25%2C s_cov:95.7%25%2C Eval:2.5e-108],MGA_3057
sequence1	MetaGeneAnnotator	CDS	2775377	2776897	.	-	0	ID=MGA_3058;product=AMP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156014205.1;translation=MIYEKGEEFDELKNPKAMTEIISSNTSDTIALDYFGEKISFRKLNSMINSVSSQLNIQNGDIVIISMQNIPQFVISEFAVWKKGGIVLPINPSYSERELNFIIENSGAKLMIRSCEAISSKKIENITTNPESFHEIPNELKTKWKLIDCEEQLDFKSSSSEERLVYPDDLALLIYTSGTTGKPKGVPITHSNIFASSMIYKKWFNFSEKDKVLGIAPFFHVTGQIFHITTAILSGSEIDISYRFDPSLALRDVEEKKTTVTMSVATAYRAMLNVYDNEDLSSMRLWSSGGMPMPRALELEWKERIGQWIYMAWGLTETTSPATLWPYPYNGKLPVDKETGIVSSGIPVYNTEIKVAEDGEVLVRGPQVVSGYWKMDKFKDGWLPTGDVGKIVDGWIYIIDRKKDIIDASGFKIMPREVEEVIYMHPAVSEVAVVGLPDEYRGETVAAFIKLKNGYKASEELKEDIITFCKNNLAPYKVPKVLNFVDEIPKTPSGKIMRRVFRNENT;locus_tag=LOCUS_30490;note=WP_156014205.1 AMP-binding protein (Sulfurisphaera ohwakuensis) [pid:79.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-242],MGA_3058
sequence1	MetaGeneAnnotator	CDS	2776894	2777625	.	-	0	ID=MGA_3059;product=3-oxoacyl-ACP reductase FabG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979123.1;translation=MKVAIVTGAGSGIGYATSIKLASKGYTVVMGDISKDVVDKAEKVASLTKSRTLGLTVDVSDWNSCKEFYENILKGLNIDHVDILVNNAGIIRDALFVKMTPEQWDQVIKVHLYGTFNCTKQVIDGMIKQKWGRIINMSSASWQGNIGQANYSAAKAGIIGFTKTLARELGKYGITVNAIVPGFIDTPMTASVPDKVKKIIIDRIPLGKMGTPEDVANVISFLCSDEASYLTGDIIDVTGGLVL;locus_tag=LOCUS_30500;gene=fabG;EC_number=1.1.1.100;note=WP_010979123.1 3-oxoacyl-ACP reductase FabG (Sulfurisphaera tokodaii) [pid:67.1%25%2C q_cov:99.6%25%2C s_cov:97.2%25%2C Eval:8.0e-90],MGA_3059
sequence1	MetaGeneAnnotator	CDS	2778127	2779548	.	+	0	ID=MGA_3060;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002489776.1;translation=MSSSPGKDQIQNGIKEIYNTVLSTKNITARYIAILALASLWLDAYDFASMSFATASLENTFPNVSSLLISFSIGVIDLGALFGAIIGGWLNDRIGRRDMFILNMILFIFMAVLGGFSTNIYELTVFRGLLGFALGADTATGFTYIFEYLEREQRLFWSNLWQLQWYIMYLVTIGFILLPFYFIEHSLTTPILWRVIMIVGGVIAAVILGFRSKIPESVLWLAYQGKLATAKKIIKKTYGIDLPNVPDVDVFIRPVGKGVKSAFSIFKASKWRELVYSFNGNFEQGFIFYTFGFYIPYILLALKLVGPLASLEALSILYAGGIIGGYLTAWLTPRIGTKSQYVIGAVGEGTSVGLIALTYILHLPLQYFVFFSFLFFFFHVIGPASQGMTSINTFFGTAERGTAAGWGYSWVKLAAIIGLLIGLAGVKVNPIGMTLGLAAYGIATGILGLFIGYDTRKYKLEDVAELTEKPQKV;locus_tag=LOCUS_30510;note=WP_002489776.1 MFS transporter (Staphylococcus epidermidis) [pid:27.6%25%2C q_cov:89.6%25%2C s_cov:91.9%25%2C Eval:8.0e-33],MGA_3060
sequence1	MetaGeneAnnotator	CDS	2779552	2780283	.	-	0	ID=MGA_3061;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILINFLFIKTYKAYTLVKHMDKLKYYFSIKLKHLDCWSTHTPFSYSDFLLSEQNGLGILKAKRLAIITDNEPKKVIKNVLSKDDSIIDYEIDNLSDSNRMKIFSIEMVQKEERTVLSKLMNLDINLLSSKILDGIETYEFISSKETANNIRSSFASDNVKIISLSYMKINNEIIMKLLSRGVTDVMLTEKQKAIIKRAKDLGYFNVPRNIDLEDLAEEFGISKMGASLLLRNTIKKLLDIL;locus_tag=LOCUS_30520;note=MGA_3061
sequence1	MetaGeneAnnotator	CDS	2780349	2781113	.	-	0	ID=MGA_3062;product=glucose 1-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582696.1;translation=MMDLGLKGTVAIVTGGSQGIGKGIIKILLKEGVRVVDFDVKNPDYEIDYFKVDVSKKEEVIKGIEYVVSKYGRIDSIINNAGIESYGAVDETSEEDWDNIMNVNVKGAFLMAKYSIPYMKKQGKGVIINIASIQSMAVQKRVAAYATSKHALLGLTRSIAVDYAPQIRCVAICSGSIRTPLLEWAAEKEVGKEHIEDKIREWGEVYPMGRVGNSEDIGYLTAFLLSDLASFIDGTCIVIDGGLISLIPISSPAR;locus_tag=LOCUS_30530;EC_number=1.1.1.47;note=WP_012582696.1 glucose 1-dehydrogenase (Dictyoglomus turgidum) [pid:37.7%25%2C q_cov:92.9%25%2C s_cov:96.8%25%2C Eval:6.4e-37],MGA_3062
sequence1	MetaGeneAnnotator	CDS	2781970	2782149	.	+	0	ID=MGA_3063;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADLIIVPEYIYERSIVKPIYVPNGDLEDPAIFCRYERYKEGGIIIQEIPIELIKINII;locus_tag=LOCUS_30540;note=MGA_3063
sequence1	MetaGeneAnnotator	CDS	2782156	2782416	.	+	0	ID=MGA_3064;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTSNPKIIETITVMGIEIKRNARTYSLYIFLDFIPSAIKNSRRPFCLSSMNKDTVREENIIPKKEGLINSDININGSIIFIVTIS;locus_tag=LOCUS_30550;note=MGA_3064
sequence1	MetaGeneAnnotator	CDS	2782519	2783319	.	-	0	ID=MGA_3065;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979043.1;translation=MLGLYEVSAGYGKTEVLHDVSFEIKENGIYILLGRNGAGKTTTLRVIAGVLPPFKGKIKKEGNIGYLSHSFALPQEMSVKESLEFFSQIIGGDPNNVIGRFHLEDILDKRISSLSQGQKKKLSLAKVFLKDYNIYLLDEPTENLDPILASEIRKLIVSLSKSKIIIYTSHNLYEAREIGNYVIVIDKGSISLFKPINEIKLREYTIGIRASEDLSKILKGKYQGDYFVINLNDPAEVNSIIQELMRRNINIFEIKEMRNPLEDLLR;locus_tag=LOCUS_30560;note=WP_010979043.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:71.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-107],MGA_3065
sequence1	MetaGeneAnnotator	CDS	2783418	2783537	.	+	0	ID=MGA_3066;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNIAIANREKPITKLDLIFTIYTNNIIKTKRTNGKIT;locus_tag=LOCUS_30570;note=MGA_3066
sequence1	MetaGeneAnnotator	CDS	2783724	2784254	.	-	0	ID=MGA_3067;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979044.1;translation=MSTIYRESHLDKMLLKKVILTSYLSSYWGYPLLFDPTKDNVFEKNQENFPKPPREIKILEHGNTTIDEFQIGYMKTNNIEGYEITIDAGNGVHYVVLSINTQKDFITVIEKFSNSLKKPDHIETDMKVILVSSHGKIINKVLDGRYKVPRQKLTVESLAEKIKNEGLSFLKIEKVS;locus_tag=LOCUS_30580;note=WP_010979044.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:52.4%25%2C q_cov:81.2%25%2C s_cov:97.2%25%2C Eval:9.3e-37],MGA_3067
sequence1	MetaGeneAnnotator	CDS	2784270	2785514	.	-	0	ID=MGA_3068;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980072.1;translation=MEEGIKSFIAEWLTSALPNIIERDLSLPLDKDYVITVTGGRRSGKTFLLYQTIKKIIEGGLASHDEILYVDFDDYRLKNMTVNDLDKIILSFEELIGKTPKYIFFDEIQDVKDYGSWFRKRLNARIFLSGSSSQLTPLNIANELRGRSVNYEVYPLSFKEFLRFKGFIYNPLMDYTLQRGKILSFLKEYLQFGSYPAVVIEKDKVQLLRSYFDSVIVRDLSIVKPNITEVFASFLIANYSNPITVNRVYNYMKGLGIKIGKDTILELFSKAKETYFSFLVEEFEKSESKRRANPKKLYIIDTGYPTALGYEFSISRAMENVVYLELLRRGCKEVFYWKGKRREVDFVVSKNFEPKILIQVTYAMDKIEEREMEGLKEASSSLKADEGIIITWDYEGEVDGFKAIPLWKWLLNSK;locus_tag=LOCUS_30590;note=WP_010980072.1 ATP-binding protein (Sulfurisphaera tokodaii) [pid:76.8%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:5.1e-190],MGA_3068
sequence1	MetaGeneAnnotator	CDS	2786996	2787430	.	+	0	ID=MGA_3069;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240498.1;translation=MKVDEMRVNELLDIKFSDMLKKQTLMIDTNSSIADAASEMIRNNINSLLVAEKGKLVGIVTDKDIVKAVANKLDPSSNIQKIMTRTVITINGDEDVLEVLDTMLNNEIRHLVIRKNGNIVGTITRRDIISYILLFSKEWPSSWR;locus_tag=LOCUS_30600;note=WP_053240498.1 CBS domain-containing protein (Pyrobaculum islandicum) [pid:35.0%25%2C q_cov:81.2%25%2C s_cov:84.5%25%2C Eval:3.5e-15],MGA_3069
sequence1	MetaGeneAnnotator	CDS	2787759	2788103	.	+	0	ID=MGA_3070;product=heavy metal-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979093.1;translation=MSFAENQILVTNAEELPGYKIVEVRGLVIGITVRSRGLGGNIVASLRSLVGGEIKEYIELAEQARLQALQRMIDNARTLGANAVINVRFDSNELAQNMDEIIAYGTAVIVTKNS;locus_tag=LOCUS_30610;note=WP_010979093.1 heavy metal-binding domain-containing protein (Sulfurisphaera tokodaii) [pid:80.5%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:5.3e-47],MGA_3070
sequence1	MetaGeneAnnotator	CDS	2789050	2789985	.	+	0	ID=MGA_3071;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868285.1;translation=MVKVLMKEEDAIWIYLDLRKYETKTFITYKDVIIELEKALNRFPQRIKKLLEGIKGINVAGLEIKLNWGKQKVEISEIFDKLSEISEKEDKKVIIVFDESQELRKLKGYNLLNPLAYAYDNLKIRFLFTGSEIGMVYRFLKIKDPNSPLFGRAMTEITIHPFTKEKAIEFLKKGFEEVKINLDEKLLEDVYNNIGGIPGWLTYYGFNYIQEKDHEEALNKTIELAVSLIKKEFRNFLKGREEAKERYYTIMGVCKKGCRWSESKRAIEAKEGVRIDDKKLTELLQNLIDASFLIKENEIYRPADILIEKAF;locus_tag=LOCUS_30620;note=WP_010868285.1 ATP-binding protein (Pyrococcus abyssi) [pid:34.9%25%2C q_cov:99.4%25%2C s_cov:85.3%25%2C Eval:9.4e-47],MGA_3071
sequence1	MetaGeneAnnotator	CDS	2790320	2790550	.	+	0	ID=MGA_3072;product=AbrB/MazE/SpoVT family DNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980069.1;translation=MERIIRVGKRNAIYIPKDIAESINLKEGDKIELIVKEGDKIELIPLRKPTKYWAEIDVNEVEEIGEEISKSLGINS;locus_tag=LOCUS_30630;note=WP_010980069.1 AbrB/MazE/SpoVT family DNA-binding domain-containing protein (Sulfurisphaera tokodaii) [pid:76.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-28],MGA_3072
sequence1	MetaGeneAnnotator	CDS	2790510	2790944	.	+	0	ID=MGA_3073;product=PIN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846698.1;translation=MEKKLVNLSELIVDTSFLLPLAGIKVKGIENDLLDGKTIYYPSLMLTELIAVIIKEAKKLKLSQIPEDAMKGLSYIISNVRLISLGQQDLGIIYEIINNGWNDIFDATLYSAYKSTGVPLITMDKSFYEFLNRKGLDTNKIILI;locus_tag=LOCUS_30640;note=WP_052846698.1 PIN domain-containing protein (Sulfurisphaera tokodaii) [pid:70.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-54],MGA_3073
sequence1	MetaGeneAnnotator	CDS	2791494	2791727	.	+	0	ID=MGA_3074;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHEEEQEWLQAAKLGLGYMGWPGHPFGNYYPPWVKSTDPSKSVSSENSTAVTPLVLLLLPVLLVPEVFQSKIYLIKS;locus_tag=LOCUS_30650;note=MGA_3074
sequence1	MetaGeneAnnotator	CDS	2791819	2793180	.	+	0	ID=MGA_3075;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980708.1;translation=MAKKEEIGKNLEKDGPASFGKDTAKAVGSQFLGFLLDAYDLTMILTIAPVLAVVLLPPSSPLLAAFSVILAYSLTIIFRPVGSAIFGHFGDKLGRRTDLIITVLGLGVTSALTAALPTYAQVGILSFILFVIIRIGVGIFAGGEYAAGHPFAMEWTPYKWRGLMSGLVQGGFSFGAALAAAVLALFISIFGQKALEIYAWRYLFLTALIPAVIALAVRLFMRDTPIFSNLKANNKIRKSPFTDLFRKPYRRDFFQVMLYMTGMFFFAYALFAFVPTILEHKPSVFPLGTADDIYTISTIAAFFGALSFGALSQIVGRRKLTLIWAIATAIIAIPIYYMLMYGATIDSVAIAMIAGIIIGVITQGPWGIIPIYLSERFKASMRSSGVGFGYSSGIFLGGWFSIYVPLMHEYLFKSIDTPTNIWFSTAVLLLIGAIIVGIGQYLGPETLGEGLSE;locus_tag=LOCUS_30660;note=WP_010980708.1 MFS transporter (Sulfurisphaera tokodaii) [pid:69.4%25%2C q_cov:96.7%25%2C s_cov:98.4%25%2C Eval:6.1e-176],MGA_3075
sequence1	MetaGeneAnnotator	CDS	2793241	2794509	.	+	0	ID=MGA_3076;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011089309.1;translation=MSSTLWKKRVIHIIVFVLVLYLINFLDRVNISYAIDAGMFNDLGLSSATATVAASLASSLFFVGYFIPQIFSNLQINRIGVRKVFALAFLFWGIITVLTGLSTSVTEVYVLRFLLGIAEAPFYAGVIFYLSLWFTKKERATANSLFNAAIPISGIIGGLIAGTIFSVYGNDPGWRYLFFYEGGLAIASVIFIYTLMSDFPKDAKWLSTEEKNLLVSEIETSPTVHTRWTRALADPDVIKLAIVYFLGVTSLYGYTIWLPSIISSFSGISASLSSFLSVIPYVIASISLIFIARYSDKKQTHKWVTFYVFLIAGVGLAASAAVLGISAAISFIFFVVAAIGIFSFLSPFWAIPTKFLKGESSAASIGMINAVGNLGGISGPIIVGVLKAYTNSFLPGIYAMAAFAFIAGIVVLLIKKDVKQII;locus_tag=LOCUS_30670;note=WP_011089309.1 MFS transporter (Bradyrhizobium diazoefficiens) [pid:33.5%25%2C q_cov:97.2%25%2C s_cov:94.7%25%2C Eval:9.9e-64],MGA_3076
sequence1	MetaGeneAnnotator	CDS	2794876	2796348	.	+	0	ID=MGA_3077;product=sugar porter family MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978906.1;translation=MSSQSALQQILDQIDTRKVTRFYWIITILAAIGGFLFGYDTEVIGIASVFVPYHFTGFVYGYEIASASLGAAIGAIIAYFYTDRYGRKSLLIADAAIYTAAAILSALTINGAMLLIMRTIIGIAIGADSAVATAYITEYAPKDRRGSLAIMQQWMITIGILGSYFVGSAVLLIAPSLAYAVGWRLILGLAAIPALIGLIFRFMMPESPRWLLLSGQIDRLKRDLKKFGLEVSDSLIQKATQEVKAEALAKFDTPTKRALLVVGLWIVFQQITGINVPFYYGPTIILGLHLFASSTNPVYTEIDSVLAASILAVINVAATYIAFKYIDRIGRRNLGISAYAGMLVFDLIGGILVMEGILIGALIAFAGFIIFFAYGVGGTGWLIQAEYFKTAIRGRMAAIIALIDWLANFAIIEVFPVMLSSIGLAGSMFVFTALDAIALGVIYFLLPETKGLSLEQVVKMFGETPTSQLRKGREIVMKEEKKEKLVPESK;locus_tag=LOCUS_30680;note=WP_010978906.1 sugar porter family MFS transporter (Sulfurisphaera tokodaii) [pid:69.1%25%2C q_cov:96.9%25%2C s_cov:99.8%25%2C Eval:2.8e-190],MGA_3077
sequence1	MetaGeneAnnotator	CDS	2796341	2796892	.	-	0	ID=MGA_3078;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIDFGTYHHSTKQESENFRKRISELFKKAFSSVIQDPSKVLDAGCGLGFLSSVVMDYFKNTIVYGVDNFQDTSLKDNSIEKLRKNISILGFDKRFYIISSDLTGIPFRDNSFDVIVSNLVYHNIKDRDVALQELVRILKPYGFILLGDLFFYKLQLKNVDIVSEIYDENLDKYKIVILKKVI;locus_tag=LOCUS_30690;note=WP_011727373.1 class I SAM-dependent methyltransferase (Mycolicibacterium smegmatis) [pid:34.8%25%2C q_cov:60.1%25%2C s_cov:31.6%25%2C Eval:4.0e-09%2C partial hit],MGA_3078
sequence1	MetaGeneAnnotator	CDS	2797212	2797592	.	+	0	ID=MGA_3079;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978905.1;translation=MQILRTSADIYLEEADELLSKNDIIQASEKYYRAAEEAIKILSSVILEKNIISEVISKNWNTEIINKAVFQLSSVLGNWIIESWGSAVVLITVNLDLLQVKKYRENIVKLIQIADERFNRKIIERG;locus_tag=LOCUS_30700;note=WP_010978905.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:80.8%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:7.5e-54],MGA_3079
sequence1	MetaGeneAnnotator	CDS	2797579	2797902	.	+	0	ID=MGA_3080;product=PaREP1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742628.1;translation=MKEADELLSKNDIIQASEKYYKAAEEAIKILSFNNSIKIISKVNQIGHWNSKLYFNAIDELDNIYPNIRSLWISAWILHVEGFHEARLTQENVKLLKNDIEKIIKLI;locus_tag=LOCUS_30710;note=WP_084742628.1 PaREP1 family protein (Sulfurisphaera tokodaii) [pid:72.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-41],MGA_3080
sequence1	MetaGeneAnnotator	CDS	2798566	2798982	.	-	0	ID=MGA_3081;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSREKDFGKTDFYDAEKLENMADRAKEYEYNALRELVTLYLFLKDMEVKHKNRLKRALFLVSDNDKQGEVGKTSKRRTQEVLYQLEYTPIVLEEVKILAKALFETQEKLKEVKEMIESQVSEDHILQYRELGSLQSV;locus_tag=LOCUS_30720;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:70.3%25%2C q_cov:92.0%25%2C s_cov:37.0%25%2C Eval:6.4e-45%2C partial hit],internal stop codon at [2799052:2799054](-),frameshifted%2C insertion/deletion at around 2798600%2C2798747%2C2798781%2C2798366,MGA_3081
sequence1	MetaGeneAnnotator	CDS	2799350	2800411	.	+	0	ID=MGA_3082;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011761910.1;translation=MKDIFDREKEINVLRNSLDSPLTVILGLRRTGKTSLVKSVLNNIRATYVFLDMRRFENKEYIVYKDFLSVLEREVNSITRKYKGLVDYFKTVKGVNFAGLSLSFSWGKERTELSDVLSSLNEWAEDNGNNVILVLDEAQELIKLKGYDILPSIAYTFDNLRNLSFIVTGSEIRVKSKFLRFDNENSPLYGRAYVEINVNPFDKDTSIKFLEKGFEEQGIKFSRAEEVYEELGGNPGWLTYYGYVYIKKRDTDVMEGTKKYAKKLLSTEFCNFLIEGNRLQSKERYLKVLETCKFGCSWKDIKNALEALEGREINDDTLYTILHNLLEYSFLIKENRKYFLADPILKEISNVKC;locus_tag=LOCUS_30730;note=WP_011761910.1 ATP-binding protein (Pyrobaculum islandicum) [pid:36.1%25%2C q_cov:97.5%25%2C s_cov:93.9%25%2C Eval:7.8e-56],MGA_3082
sequence1	MetaGeneAnnotator	CDS	2800382	2800552	.	-	0	ID=MGA_3083;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKGFNRHMASAYLIELKGLGMLNNIKTVKLHGFSETADNGILLKDLTLYITYLL;locus_tag=LOCUS_30740;note=MGA_3083
sequence1	MetaGeneAnnotator	CDS	2800899	2801141	.	+	0	ID=MGA_3084;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980709.1;translation=MIPEYLGGLIFILIIIGMLSLVVYAVLNIFYPKSPRKLKIEASVILGFIILALFSSFTSFILLIVILALGLGLIYGFKKI;locus_tag=LOCUS_30750;note=WP_010980709.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:52.3%25%2C q_cov:81.2%25%2C s_cov:76.5%25%2C Eval:3.8e-13],MGA_3084
sequence1	MetaGeneAnnotator	CDS	2801351	2801605	.	+	0	ID=MGA_3085;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMRKADSKGRIYFGNEYAGKNFYVVKIFDGILLLDNEIKAKEIEEKKEEFLKGNIEKLLEFLGEPTEEEIKEVVERSRKRRLS;locus_tag=LOCUS_30760;note=MGA_3085
sequence1	MetaGeneAnnotator	CDS	2801668	2801973	.	+	0	ID=MGA_3086;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVQELAEFIFQKYLDYMNSSQQERANGYIKLFKYLIEYLSKYPLLSHSFKDYIQAIDLSTSRNIDVTDALLVITALKLNTVIMTKDKDFERVKDLVKIKYL;locus_tag=LOCUS_30770;note=WP_010978091.1 PIN domain-containing protein (Sulfurisphaera tokodaii) [pid:33.3%25%2C q_cov:94.1%25%2C s_cov:74.4%25%2C Eval:6.2e-08%2C partial hit],MGA_3086
sequence1	MetaGeneAnnotator	CDS	2802289	2803362	.	+	0	ID=MGA_3087;product=amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259023.1;translation=MIIVESNGKREEIPVIDYHVHVWKANEDNWLRPELAKGWIDCFYDYHKSLTPEEYLMNYETFKYYGADKMIEDVMVNGYVDVAITQPQYLQYFYREPFGNTDEFGKLVLSNPYRFVIGTRWDPRDGEEGKKRLEEDVRKYRVKPWQMKHVKLYTAEWKDINGNLSRGWRLDSKEAFDFIEFSKSLGIDILVAHKGPTVWPLDKDAFDIKDVDSAASSFPEMKFVVTHIGLPRLEDFVWTAVQDKNIYAGLAVASAFVHKRPKYFAQIMAELLFWLGPDRILMGTDYAIWNPKWILEDFIKFELPEDVKREYGVELTLDVKKKILYENASKLWGINVNDVKRREDEISKKAKVLKVNL;locus_tag=LOCUS_30780;note=WP_012259023.1 amidohydrolase family protein (Chloroflexus aurantiacus) [pid:46.8%25%2C q_cov:92.2%25%2C s_cov:92.5%25%2C Eval:1.9e-86],MGA_3087
sequence1	MetaGeneAnnotator	CDS	2803359	2803766	.	+	0	ID=MGA_3088;product=iron-sulfur cluster assembly protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010977977.1;translation=MSVENVLKSIIDPETNYSITELGFIKKIEKEHIVLSPPTYWCPPMFLYMIMEEIKVKLPNITIEVSDHHDAKRLTECINSRKSFSECYSSEVSGNEYNEIKEKFITKRMKKDRLTNLSFNINGEMCKLLSEARRK;locus_tag=LOCUS_30790;note=WP_010977977.1 iron-sulfur cluster assembly protein (Sulfurisphaera tokodaii) [pid:45.9%25%2C q_cov:98.5%25%2C s_cov:97.4%25%2C Eval:2.0e-33],MGA_3088
sequence1	MetaGeneAnnotator	CDS	2803763	2804791	.	+	0	ID=MGA_3089;product=NAD(P)-dependent alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013226175.1;translation=MKAFRIHDYNKPLVMDNVPEPKISEPYDIIVRIKGAGVCRTDLHIQEGVWKDVFNPKLPFTIGHENVGIVEEVGSAVDWIERGDSVILHPYITCRHCRACRAGNDMHCPYGKFPGLDGTDGGYAEYLKTSAFSAIKIPKGIDIAPMAPLADAGITAYHAVKKLSSYFYPGSTAVVIGVGGLGHIGIQVLKAITPAKVIAIDVNEEKIKLAKELGADETIIADKDGGVSDVLKITDGGADVVIDFVGEYSTPSNSLKMIRKGGIYSIVGYGGEVSDKTLDFISREISIVGNLVGTYNELSELVNLYSQGKVKLKVKTFSLEEANEALEELKHGKILGRGVLVT;locus_tag=LOCUS_30800;note=WP_013226175.1 NAD(P)-dependent alcohol dehydrogenase (Amycolatopsis mediterranei) [pid:49.9%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:3.0e-89],MGA_3089
sequence1	MetaGeneAnnotator	CDS	2805151	2805825	.	+	0	ID=MGA_3090;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITKLSLELEHYGDWTVFSENFDKLTADSVYFFTNPSSRLNYEIFHVMSSKQDNIVDFIRMIRRSKDIRVIKYIFISKNLAEIHLTGSYDSSIRKIFMERMSIVKNLSVKDGFENYIIYIVNGDRDLIRELYEDLKHVAKIKSFIIEEYAKDSNYVFSSPLLSKREKTILLEAYKEGYFNYPRNITLEKLSNRLGISKAVTNYYLRNGIRKIIRNYLIQDQEYC;locus_tag=LOCUS_30810;note=MGA_3090
sequence1	MetaGeneAnnotator	CDS	2805832	2806749	.	-	0	ID=MGA_3091;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFEIKEIDKDILLLATYLQDVDLNLLYIDKRIPILLDTSYTSEIEELVQGIRLPKIALVSHSHYDHAGGSGKLANLGVEIRSHPITKSLLSSTYTSIYSFFPHKYAKFLSTKYTKEYYRYIRTELGYPKIHSTNFDDIHDIVEVVEGEGHVAGTLLFRIRNILFTSDGIQGEGIIGSSKTNAIPQISDIKKYLVTLQKVIKMNPEIIIPGHNYLPSNKRIIEGSEVDRFLNASIETVVKLISSAYDLLSSDFLSLGEFTERLLKAFNVKQIYPQAFITSEALIKYFGNNVKIKKEGEISLYKLD;locus_tag=LOCUS_30820;note=MGA_3091
sequence1	MetaGeneAnnotator	CDS	2806758	2808059	.	-	0	ID=MGA_3092;product=niacin permease NiaP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003246397.1;translation=MSYNDKFYSIILLIAVFGGWAAVGLDVTLTGFLAPQLYSTFRVSSLSEPSLLFGIGDGIGAFIFGLINDRLWGRKLTFMMTILGTMIMTGLSATSINWAMYSSIRFLAGIFTGGEMTAGWVILAESIPNNIRSTFLSISQGGISLGYALAAVFSGTFASATALGWRWAYIGSALFALIIFGIRVGIRESPYWQKVASTIKNEFQKELAEKASNRQAISEMFKRQYLFPTVLILVTFAFMMFATSPKDFYYPSWYYQGGITGVSISASAITFAFIGFAIGQFVANLVEGFIMDKIGARKAVLIPLGLIPAVLLMWFIPINISVYLDFTILFIVAFFFQTAWGFMPAYLPAVYPTRIRHTAVGLVWAITYGVFYSLSAYIFGGLVSVHNWAPIFISQMIGYAVFAIGLALLGLEIKGKSLDFLESQKEVQKSRTE;locus_tag=LOCUS_30830;gene=niaP;note=WP_003246397.1 niacin permease NiaP (Bacillus) [pid:26.3%25%2C q_cov:91.5%25%2C s_cov:92.8%25%2C Eval:7.9e-24],MGA_3092
sequence1	MetaGeneAnnotator	CDS	2808271	2809521	.	+	0	ID=MGA_3093;product=mandelate racemase/muconate lactonizing enzyme family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010902283.1;translation=MELKISDIKVITVQANFQWTFVRIYSKDIYGTGEAGPAPGLKGMESDFKKLLLGEDAFKIKRIEDKMRYATLYSGTTTHHLIAGIINAIYDLIGKYLNIPVYKLLGGDRDVIRLYVDAHGGKGLEAMNSVLLPENPEFLKNANVEKNRLQSTNNPIHGRLSQEKWNEDYTPESYSQRAKQLIVEGYTAIKFDLDIPTPFSNEYNIRSGDLNNKDIDYIASIMKSVRETVGDDIDLMVDLHWRYNINTAIRLCKALEPLRLRWIEDPTPAQTSISNLEEFRLITSYCSTPIETGENMYSVYQFKDLIKEGIRVWAPDIAKTGIKEGIKIAELAEMYDIEFSPHNIGSPIATLANAHVCSASGTFGVLEFHGHDLPIWQQLIKGNLKMEKGFIILSDKPGLGIDLDENVIKKYWNIEL;locus_tag=LOCUS_30840;note=WP_010902283.1 mandelate racemase/muconate lactonizing enzyme family protein (Halobacterium) [pid:30.9%25%2C q_cov:98.6%25%2C s_cov:88.8%25%2C Eval:6.7e-49],MGA_3093
sequence1	MetaGeneAnnotator	CDS	2809524	2809706	.	-	0	ID=MGA_3094;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSIFVNSIKYVIRSNILATTDVRISRIILKEMLLIHEKYSYINFHNRKFTNKRHNLIEI;locus_tag=LOCUS_30850;note=MGA_3094
sequence1	MetaGeneAnnotator	CDS	2809974	2810591	.	+	0	ID=MGA_3095;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHWIEHYNGPVPYEHLSARHKTLVKMNYMLITSEVLSRLSDLFILRALIVMIVWTCSYRDVRSYYESDVVVRWFLGEYKSKSEIHRRAKKFRGEVKTLFKEYAKELEGKMSRLADYLPSSALYGKVGKLWIVDSFLIEVPFGKRNKETLKKKFELDLRQRKYREAANTLFFYIKCKVRRRFKGEFTKKRNRSSASRSSTSCRLQ;locus_tag=LOCUS_30860;note=MGA_3095
sequence1	MetaGeneAnnotator	CDS	2811508	2811660	.	-	0	ID=MGA_3096;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKVIDAHVHYHIFVKKIPEKCKNFLSNVENTRMSLKNVLCGLVQYISIG;locus_tag=LOCUS_30870;note=WP_052846468.1 amidohydrolase family protein (Sulfurisphaera tokodaii) [pid:55.1%25%2C q_cov:98.0%25%2C s_cov:18.3%25%2C Eval:2.9e-08%2C partial hit],MGA_3096
sequence1	MetaGeneAnnotator	CDS	2812431	2812889	.	+	0	ID=MGA_3097;product=Lrp/AsnC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979129.1;translation=MLSIDELDLKILKRIQKDGRYNLQDLSNEFRIPKSTILYRIRRMEKDGIITGYYTGINVRKLGYDYLVITLIKSKYGKEHYDNVAKELSKLPGVWGVYFVLGNIDFIVMARFKNREDFMTNYLNKITTIKGIQSSNTHIILDIAKDNFYEIF;locus_tag=LOCUS_30880;note=WP_010979129.1 Lrp/AsnC family transcriptional regulator (Sulfurisphaera tokodaii) [pid:52.8%25%2C q_cov:94.7%25%2C s_cov:95.4%25%2C Eval:8.0e-43],MGA_3097
sequence1	MetaGeneAnnotator	CDS	2812895	2814223	.	-	0	ID=MGA_3098;product=aspartate aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011319592.1;translation=MEEILDNSILDAPKIVVTPPGPRSAEILKQQEELETSALNYPKYFSIAVKEAKGSTIVDVDNNVYIDWFAGIAVVNLGHNNPIIRQAVDSQLDKIWHYMEIPTEIRIEFMKTLRRTLNFDAKFLFTTTGADAVEAAVKIARWNSGKRYIIAFNEAYHGVSAATIGLSNMLNHRKFQPYYDNNVIRLPYPYEYRCPFKDCLNEVLSLVDYEMKNNDVAGIIVEPVAGEGGYIVPPKGFLKGLREITTEYNVPLIIDEIQTGVGRTGKIWAYEWEGIKPDIVTISKGIGEGIPISLVAFNKDLDKLPQAFHLGTYRGNPIGMAVGNATLNYIMNSNLLERVITLGDFTKKRFDEIMEDNYKQGKYDVRGLGFMIGIEFSNERKDPISVKPFIDILLKKGIIMYKSGIYDNVLRYMAPLTIPKLLIDRGLEKFEETIKLSNQIKI;locus_tag=LOCUS_30890;note=WP_011319592.1 aspartate aminotransferase family protein (Nostocaceae) [pid:36.0%25%2C q_cov:95.0%25%2C s_cov:90.1%25%2C Eval:4.3e-73],MGA_3098
sequence1	MetaGeneAnnotator	CDS	2814413	2815870	.	+	0	ID=MGA_3099;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEENKKMEEHTLKKGEVGLWHGVFQSFSFVAPAGDVAILLVGTVAFAGEYTAISVLLAWLIYGLFMITPYEFSKIKANAGSYYAYSAEGAKWLAPIALFSWMGENLTGPAFSLLGLSGFIFLLSSTLSSIPFLWIVFLIIVGIYMGLLPYLGIKPSLNYVMYTGFAEALFLMLSSIIIIIKLGSSNTIIPFTISIPYIPAIFFGAIFSILDFTGLGTVTTISEEIKESKKVVKKALIYAYVLSGISLILPAYALTVGWGLSKISSYAISPDPGLIVFKQFLGIVGFALLAAFTINSYLSYSVAKTNADSRIWFSAARDGIILPKWIAYVHPKYKTPSHAIIFWLGLSVIVSLIFGILFGPVNGGLVLLDMAGVAILSVHIVTNSALSIYKRRSSHHYSIIEIAKYFLAPSMASILGITIIYFSLQSTIAQVISQPTPLNFAYFGATLGGVLWCLVGFIISFYYIRKKPDILAKAGNYDAEGELK;locus_tag=LOCUS_30900;note=WP_011073788.1 APC family permease (Shewanella oneidensis) [pid:22.6%25%2C q_cov:61.0%25%2C s_cov:65.5%25%2C Eval:8.3e-09%2C partial hit],MGA_3099
sequence1	MetaGeneAnnotator	CDS	2815867	2816913	.	+	0	ID=MGA_3100;product=NAD(P)-dependent glycerol-1-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867808.1;translation=MSELIKISSNLVAGIGSLHKIAQYLDDLKYPRSILILTGENTYKIAGKIVYDNLNSNGYDVNIKILDMKGYLSQVKQLALDLRNFSKSVLVAVGGGSIADIAKYVSNEINSLLVIIPTTLSSDAFSTSYSIFWNNNEKQAIKTKSPNLIVGDYDILKNQPKRFLGAGIGDMLSKLTAIPDWRLAFWFAEEQYNDFAAKIAMAETKLLIRRIDDIAKANYIGIKTLFHAEVLDGYLMEISGTTRVAAGAEHLISFVLENMSDNGLHGEYCGIGTILISYLQRGYNYSKKITKLLEKVNAPTTANQLDLTKSQLIKALTTAHKMRNWYTILGNGLSENSAERLLRYTHII;locus_tag=LOCUS_30910;EC_number=1.1.1.261;note=WP_010867808.1 NAD(P)-dependent glycerol-1-phosphate dehydrogenase (Pyrococcus abyssi) [pid:33.4%25%2C q_cov:99.1%25%2C s_cov:99.4%25%2C Eval:3.7e-50],MGA_3100
sequence1	MetaGeneAnnotator	CDS	2816920	2817927	.	-	0	ID=MGA_3101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEEIIIKFVNILRRLGKNVGINETIDAINSIKIIKERDFNTIKAILETTLIKDFSYDNSLHRTISKNENKYSVTGKITQNQYISSNLLIYSPEESRIKMDNLKISMRDQIRWKKIANRIKLIALSAAGHRSKPKNNGNLDIKRIIKNEPRYACESPYLIKSIKKINKSNIVLLCDVSGSMKDFFKDSLLLSFFTKRIIPKTEIFYFSTDLRRVTNLFQVTSINSINLRKLVSITSYGSGTKIGETLYTFRRKHGDFINRKVNLIVFSDGWDLGDLRLLEREMKIIRRKSNLLIWIDPLLDNLLYSPLQSSIKIIQNNADLLISPSLLYKTKIDF;locus_tag=LOCUS_30920;note=WP_012256669.1 VWA domain-containing protein (Chloroflexus aurantiacus) [pid:27.9%25%2C q_cov:65.7%25%2C s_cov:56.1%25%2C Eval:7.8e-18%2C partial hit],MGA_3101
sequence1	MetaGeneAnnotator	CDS	2817905	2818765	.	-	0	ID=MGA_3102;product=MoxR family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532114.1;translation=MIDNIDTLIKLLAEKDYIIDKKSAIAVFLSLKLEKPLLIEGPPGCGKTELAKAVANALNLDLIRLQCYEGLDYSHAVYEWDYPRQLLEIRILQQTNEKEIRERIYSDEFLIERPLLKAIKSDTKAVLLIDEIDRADPEFEGFLLEFLGEFQVTIPELGTIRAKNRPFVFITSNKTRDLSDAIKRRCLYLNLSYPNEEKELEIVKRKVKDVNDEVAKKAIKIVNELRQDEEIVHKPGTAETIDFISALNVLNVNSLDDLESLIITLLKDEEDIKHFLGNKNGRRDNN;locus_tag=LOCUS_30930;note=WP_013532114.1 MoxR family ATPase (Mesorhizobium) [pid:46.2%25%2C q_cov:97.6%25%2C s_cov:91.9%25%2C Eval:5.7e-64],MGA_3102
sequence1	MetaGeneAnnotator	CDS	2818792	2821155	.	-	0	ID=MGA_3103;product=aerobic carbon-monoxide dehydrogenase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011727162.1;translation=MAIEETLIPEGIHGMGHKIRRKEDTRFLQGKGMYVDDIKLPGMAYLVFVRSPYAHAKIKKINLEKAKSIPGVIDIITGEELDKAGLSWIPTLMGDKMMVLPIDKVVFQGQEVVAVIAEDKYIATDAANQVEIEYEPLEPVVDPRKALEANSPLVRPDKNSNLVFKWEAGDRDLTDKIFKEAEVTVSQDFYYQRLHVAYMEPVGSVAQYEPVSGKLTLWMTTQAPHVVRTVFSLVTKIPENKIRIVSPDIGGGFGGKVYVYPGYVVSTYAAIKLGRPIKWINTRSEDMKSTAFARDFHIHGELAAKKDGTILGLRINVISDHGAFYGDANPSKFPAGLFSICTGAYDIKAAYVEVTGAYTNKPAGGIAYRCSFRVTEAVYTIERLVDILAHELHMDPAELRLKNFIPPEKFPYKSVLGWTYDSGNYAAALKKAMEKIGYYELRKEQEEKRKKGELMGIGISTFVEIVGAGPADLFDIVGIKMFDSAEIRIHPTGKVIARFGTRAQGQGHETTYAQIISEILGIPVEDIIVEEGDTDTCPYGLGTYASRSTPTAGAAAAVSSRKILDKAKKIAAHLLEAREEDIEFDKGRFYVRGYPDKFKSIQEVAFAAYTNPPPNMEAGLEAITYYNPPNMTFPFGAYICVVDIDKGTGQVKVRRFVAVDDCGNIINPVIVDGQIMGALTMGFGTSFMEEIRYDENGNIYGGSFAEYLIPTAVETPRWELDKTVTPSPHHPLGAKGVGESATVGSPAAFVNATVDALSHLGVKHVEMPILPWKVWEILKDKGVSSNE;locus_tag=LOCUS_30940;EC_number=1.2.5.3;note=WP_011727162.1 aerobic carbon-monoxide dehydrogenase large subunit (Mycolicibacterium smegmatis) [pid:55.3%25%2C q_cov:97.3%25%2C s_cov:96.6%25%2C Eval:2.2e-254],MGA_3103
sequence1	MetaGeneAnnotator	CDS	2821156	2821635	.	-	0	ID=MGA_3104;product=glyceraldehyde dehydrogenase subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846892.1;translation=MQKVHVKININEKPYEAEIEPRLLLVHFIRDIAGLTGTHIGCDTTNCGACTVILNGKAVKSCTMFAVQANGKDVITIEGLAKDGKLHPIQEGFWVKHGLQCGYCTPGMIMAAYQLLKKNPNPSEEEIRIGISGNLCRCTGYQNIVEAIKYASEKMKGEI;locus_tag=LOCUS_30950;gene=cutC;EC_number=1.2.99.8;note=WP_052846892.1 glyceraldehyde dehydrogenase subunit gamma (Sulfurisphaera tokodaii) [pid:70.8%25%2C q_cov:96.9%25%2C s_cov:91.1%25%2C Eval:1.6e-63],MGA_3104
sequence1	MetaGeneAnnotator	CDS	2821641	2822525	.	-	0	ID=MGA_3105;product=glyceraldehyde dehydrogenase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979850.1;translation=MTIMYPASFEYFSPLNMDEVLELLSKYYKDGAKILAGGQSLIIAMKLRIISPKYVIDINNIPSLSFINESDGYLKIGALTRYVDLEDSDLIKTKYPLLYEAVKNIADPIVRNWGTIGGNICYNFPGNNLPAVMLAYNARFIVRNLSGSRTISAKDFFLGPLQTSLKEDEILTEIQIPIPQPKNSGYFIKLAKRTGDFAIVSTAVNLSLNYDGTVKEAGIAIGGATNNPVKIVKAEEALVGSKINDELIREVGKIVSDVIEPVEEPFGPPVDYKKAMAGVLTIRAIKQSLKNIIG;locus_tag=LOCUS_30960;gene=cutB;EC_number=1.2.99.8;note=WP_010979850.1 glyceraldehyde dehydrogenase subunit beta (Sulfurisphaera tokodaii) [pid:36.7%25%2C q_cov:97.3%25%2C s_cov:98.6%25%2C Eval:2.4e-44],MGA_3105
sequence1	MetaGeneAnnotator	CDS	2822582	2823457	.	-	0	ID=MGA_3106;product=XdhC/CoxI family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940877.1;translation=MTDSKVRYTYFVHVSDFIDRVKELLENEEDFAIVEVIKTEGPTALKTGNKLIVKKDGSFEGWIGGFCTKDEIINNSLEVIRDGVPRFLYLKTCHGGLLYLYIDPMLPRKKLILIGDNPIIYYLENLGQNIGFNIIVINKIIDIDKIKINRNTFAVVATMGEQDHEYIEALLNTNIRYIGVIAGKKRGEDLISFLHNKGYKDDILDRIKVPAGLDINAKSPEEIALSILSEITKISKENKIEKVEEGEIDVVCGMTVSKSVPYYSTVGEKTYYFCSKFCKDKFEANPQIYIK;locus_tag=LOCUS_30970;note=WP_010940877.1 XdhC/CoxI family protein (Geobacter sulfurreducens) [pid:23.6%25%2C q_cov:76.3%25%2C s_cov:98.0%25%2C Eval:4.1e-17],MGA_3106
sequence1	MetaGeneAnnotator	CDS	2824386	2824748	.	+	0	ID=MGA_3107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978050.1;translation=MSKFLFVILNDPTNLAESIKAAHALHYAVELKEKGHEVYVYFDGLGTKIPITDSPYKGLKLTYEKATNKGLILGACGYCASPPHLNIKDKLPKSIKLIGDEEHHYAFTDLVDMGFQIIMS;locus_tag=LOCUS_30980;note=WP_010978050.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:52.5%25%2C q_cov:97.5%25%2C s_cov:98.3%25%2C Eval:3.5e-30],MGA_3107
sequence1	MetaGeneAnnotator	CDS	2825836	2826732	.	+	0	ID=MGA_3108;product=iron-containing redox enzyme family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980694.1;translation=MPICPSCEYRASEWKNIASHMYLMARNSDPSHVMWMNRNLTMKEVDVDNLSIMLENFFSIKDNLSFWIREKFIQKFYGESPHPFILAMQNPTRGVLLGYVIEHQHFLKNWVKVLSEIIFKTDVEEVIKYELENINVEYFGYNGRPSHYELLIRMGESLGMPREKILSYKPLPSTQSAINTWRKIAFESNWVEIMAAMHSLELVADKTLRKYGAKMHYFNETILSSNDFPKEVKDFLREGYEADQTHAGEALKLVDKYAEDPEKIQVTVLRSFDAFAKYLTARLERGMEFDKNLIKVVL;locus_tag=LOCUS_30990;note=WP_010980694.1 iron-containing redox enzyme family protein (Sulfurisphaera tokodaii) [pid:67.3%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:2.5e-118],MGA_3108
sequence1	MetaGeneAnnotator	CDS	2826729	2827049	.	+	0	ID=MGA_3109;product=TA0938 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980695.1;translation=MKIQVNGSKAGDKENGCALCGATWGDYYEEIDGEKLFFCCDVCATEFKNMIEEIKRRTGWKKIDELSIEGNYYKGRNCVAKTEGREYKFYVKFGDDAEIETFKEIE;locus_tag=LOCUS_31000;note=WP_010980695.1 TA0938 family protein (Sulfurisphaera tokodaii) [pid:70.5%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:7.9e-43],MGA_3109
sequence1	MetaGeneAnnotator	CDS	2827328	2829013	.	+	0	ID=MGA_3110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDLRIITVPLKEVKDKGTVVVNKNGINVLIIYDKGNVYACDIRCPHMGYPLSKGTIRDGILICHWHHARFNLEDGGTFDLWADDLTTYETKIVNDKVIVNFKERDVKAHAVKRLRKGIDHDIDLVIAKSIIDLLNNGISLNDLAKEVSIHVLRDHEWNSGLNIFTIILNLLNYDLELEWKILGLLHGIKNVSSQIFERPKVIYPEPLENADNLKNWFRDFIEGREVNPARRAIISMRSEDGLDAMVASVTDHFFLDEGHILDHLNKETELLDKIGWDNSRLIFASLISQLANAMRHEEDPKWRIPDDLVSIINSEISKAQDMKIGKERLDQKEMDNLVNCLLQDDPKKPFECVTQAIASNVSPKYLSLALGLASAYREARFHTQNDFSDWETVHHQFVYSNALYRLFERKESFYLIRGIYHGVGNLYLTRFLNIPPARLPKERTSRNEEEIIKSLSEAIGSKRIEEASLDVYDYLVREFPEDTLIKTIIRSLFIEDVSFHTAQTVDAGISLFNALKGYDENYVPLIATVRYLSAHSPTNRRSKITVDVAIKLSKGEALYT;locus_tag=LOCUS_31010;note=MGA_3110
sequence1	MetaGeneAnnotator	CDS	2829018	2829812	.	-	0	ID=MGA_3111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLVGTSKGLYKIDKEADLLCDKEDVYDFTLKNNDFYICSTESGVILNGKTILNESCWKFYELDGQLIASVEGPKLYLINKERIKELIDLRDEGKKRGWSFPHSEYAHITDFAQYNGKIIASVEEGNLLFGDITSLKPLDFFNDSHNLLVKDHLYIATAYGLYLTDDLINYTLIEKGYFHGIEDLGNAIIAQEMSEFPLMMYEDGKLTRMGIKLPRPTFGTNAIAKVDDENIVYSTTSFYEINIKNLNFRKIVDIPMTRRVKVL;locus_tag=LOCUS_31020;note=MGA_3111
sequence1	MetaGeneAnnotator	CDS	2829875	2830165	.	-	0	ID=MGA_3112;product=GYD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048094744.1;translation=MSLFIVLSRLTDEGAKTVWEKPERILEVNKELENYGAKVLYQYAMFGEYDFVNVVEVNDPEKFLKGLINLNSRGTVRTNTFLAMSVEDFIKTMKSK;locus_tag=LOCUS_31030;note=WP_048094744.1 GYD domain-containing protein (Archaeoglobus fulgidus) [pid:57.6%25%2C q_cov:95.8%25%2C s_cov:97.9%25%2C Eval:3.0e-26],MGA_3112
sequence1	MetaGeneAnnotator	CDS	2830271	2830711	.	+	0	ID=MGA_3113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978727.1;translation=MISIFMWNHLKGWNRCDDCWLAYERGIQHPNSLSCYKVGIPISSLNVPVSTFIEEIKKRDYVAKYGFFPFPVNLVSKGVIILYFTNREDMLKSIEDLKKFVKEPNNREKFFFNNFVNVEWIEGFNYRRGCPEYDKKFGDWRRWSSE;locus_tag=LOCUS_31040;note=WP_010978727.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:51.8%25%2C q_cov:95.2%25%2C s_cov:96.5%25%2C Eval:5.1e-41],MGA_3113
sequence1	MetaGeneAnnotator	CDS	2830763	2831341	.	-	0	ID=MGA_3114;product=indolepyruvate oxidoreductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978724.1;translation=MAKLNILIAGVGGQGIITMGKMIANACEKEGIKVLVAETHGLAQRGGAVNIHVRIGDVYSPTIAKHGADCLIGLEANEILRNLDYANRNSIIVFNEYTLKPVLPKVRENSVEEIIKRLSNFRIFKINANNIASLVGDKRVVNSAILGFAYGLGIFKMIKEESFLTTLRGENNVKAFKLGLSEGLKVSDKVII;locus_tag=LOCUS_31050;note=WP_010978724.1 indolepyruvate oxidoreductase subunit beta (Sulfurisphaera tokodaii) [pid:50.3%25%2C q_cov:93.2%25%2C s_cov:94.6%25%2C Eval:2.9e-40],MGA_3114
sequence1	MetaGeneAnnotator	CDS	2831329	2833134	.	-	0	ID=MGA_3115;product=indolepyruvate ferredoxin oxidoreductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978723.1;translation=MSKRIVLGNEAIAFGALSSGVAVAAGYPGTPSSEIIETIMKYGDKVYAEWSSNEKVAFETAYGAAMMGARALATMKHVGVNVAADALMSSSYTGVEGSLVLVSADDPSMWSSQNEQDNRYYGMMALIPVIEPYDPQSAYDLIMSAFEFSSEVKHPVIFRSNTRINHVRSQVDMKDIKPPVMGRLSKNPSRYALVPENARRNRKEQLRRWEIIQKKVEELNSIEGDGKKLVIASGIAYAFVKEVVENSKVKILKLSTPFPIPKELTLKALEDSEEVLVVEELEPIVEMQVKDLMMSEGIMLKIHGKDLVDRTGELTLEKVNYAVGKFLGKEVDKIDDIAFDVVPRPPALCPGCPHRSSFIDLKKGLALAGIKDTFFSGDIGCYSLGVLPPFNEQDSLIEMGGSLGIANGVYRSTGVIPIAIIGDSTFFHTGLPGLANAVYNKTPMILLVLDNRSTAMTGQQPSPSKYIDIANVAKGMGIEYVKAFDPFDYNTSTRIIKETAEWVKKNLKPAVLISKRACALDALDKIEDRLPVAEVDMNKCTGCTICYDYFTCPAIIPLPNKKASIDLSQCIGCGACVPICPFKAISMKGDKPKGWDDAWLS;locus_tag=LOCUS_31060;note=WP_010978723.1 indolepyruvate ferredoxin oxidoreductase subunit alpha (Sulfurisphaera tokodaii) [pid:65.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-239],MGA_3115
sequence1	MetaGeneAnnotator	CDS	2833903	2834379	.	-	0	ID=MGA_3116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLASVGGLIEPLIFNKINAGWFSISFILANIVGSLVPIYFPKNKILLSLALGTFLAVITEFLFPLTPFLYLLIIYGILSQVGNSLVWPVLIGKIVSKSKFPVVESGILITLTDLSSLIADGYVSLFFPLISILSLSLFSMIDLLVWLPLLSRKVDIQ;locus_tag=LOCUS_31070;note=MGA_3116
sequence1	MetaGeneAnnotator	CDS	2834288	2834593	.	+	0	ID=MGA_3117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKIKDILNQPALILLKIKGSISPPTEAKDILSMNDIRRSGETKKRDSLTFLKPDFFTSVFSMLREKTNGIEDNQNIEAIINKSAMLKRKSTIADIILPIV;locus_tag=LOCUS_31080;note=MGA_3117
sequence1	MetaGeneAnnotator	CDS	2835045	2835941	.	-	0	ID=MGA_3118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWVELDLNPVLDKDPDLKRYVKEEVQKEKISTSITINLIHSLNKDILAINALSLADRDYNLYIWSLIDSYFVTGNNESYEVVNELLSKRATIHSSLFQLKLYDITKDKLILTRVSDKIFKLDEYWGEDLLALAKLSYITQNPEIVKKSTEIMLNKLENIERQNGIKSETDVEIGMGSLKGLSLININYREDPGLIEKIKYYDDKYFVPLFEFIGNKPNIPEYMDSLQIIPMLASSKEFTVFAATKNIKYLNGTIKLYKYYQEYLNTIGINKLTLRQKLWGLISLSRIIYFIEKGKILD;locus_tag=LOCUS_31090;note=MGA_3118
sequence1	MetaGeneAnnotator	CDS	2836382	2837218	.	+	0	ID=MGA_3119;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978637.1;translation=MKKISNLKIKILSDNFVSTVVPPLLGEWGFSALIEADDVKILYDVGNSGYPVLYNSEKMGIDLTKVDYVVLSHGHIDHTGGLGNSELVKKLEGKIVVAHPSIFEKKLMKWSNKLEYIGIPMSMDEMEKHFHLILTSKPLQITEGIVFSGEIKRYGFNEYTKGLYTARDFSLVDDHMIDDTALFLSTENGLVVLTGCGHSGILNILNYAKESLGENVYAALGGFHLLFSPRNEVENVSKELLKLEKIGPAHCSGNTIKSIIAEGKDKFLDAGVGQIITF;locus_tag=LOCUS_31100;note=WP_010978637.1 MBL fold metallo-hydrolase (Sulfurisphaera tokodaii) [pid:59.4%25%2C q_cov:98.6%25%2C s_cov:97.9%25%2C Eval:7.0e-96],MGA_3119
sequence1	MetaGeneAnnotator	CDS	2837235	2837630	.	-	0	ID=MGA_3120;product=PaaI family thioesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978000.1;translation=MEINQVENILKDNEYLFSFLDIKILKIENGYCEIMIPFKKEFTRLGNILHGGIIMTLLDYAGAMAVLSINKRRNQVTQELKINFLEPMKDGPFYSKGEVIKSNDDVAIVSIEFYDSKGKLGAKALGTWYMK;locus_tag=LOCUS_31110;note=WP_010978000.1 PaaI family thioesterase (Sulfurisphaera tokodaii) [pid:56.8%25%2C q_cov:95.4%25%2C s_cov:90.6%25%2C Eval:2.2e-37],MGA_3120
sequence1	MetaGeneAnnotator	CDS	2837815	2839089	.	+	0	ID=MGA_3121;product=NADP-dependent malic enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978053.1;translation=MSIELVKKYEGKIEIYPKIPVRSYTDFSLIYTPGVAEVSREIAKNKDKSFELTSRWNSVAIVTDGTRVLGLGNIGPEAAMPVMEGKAVLFKYLGGVDAFPLPINVRSADDFVKVVKSMEPSFGGINLEDIESPKCFYILETLQQSLDIPVWHDDQQGTAAAILAGLINSMILTNRTPEESKVVLFGAGAANIATARILSSYGFKLGNMIIIDSKGPIYSEREDVDHFMYHHRWKYDLAVKTNKFNAKEIEEAFKDADIVIAASSPGPDVIKKKWISLMKSNPIVFALANPVPEILPQDAIEAGAGIVATGRSDFPNQVNNSLVFPGVFRGVLDSRARKVTDEMTIAASETLAEYARSKGLRKDYIIPRMDEWEVYYKVASSVATKAVELGLARIKMSKEEFENIAKKRILRSRKIMSLIDSDNE;locus_tag=LOCUS_31120;note=WP_010978053.1 NADP-dependent malic enzyme (Sulfurisphaera tokodaii) [pid:68.0%25%2C q_cov:97.9%25%2C s_cov:99.5%25%2C Eval:1.6e-162],MGA_3121
sequence1	MetaGeneAnnotator	CDS	2839144	2839719	.	+	0	ID=MGA_3122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKEINKENQERKVKWITLRGLLALVIPISGFITAYLLNNLVLLDYVHVMSGLLWTGIDIFMGFVLTFVLRSLDFKERADVARGLTPTMLFLMPSIASVAVTSGYFLSSELGLFSLTSPLIISSGIIIVILTIQGFGIFLPNNVRVLIELNKDKPNYGKISKLMMINFRLSGIQGILQLILVFIMAHLAIL;locus_tag=LOCUS_31130;note=MGA_3122
sequence1	MetaGeneAnnotator	CDS	2839799	2841595	.	+	0	ID=MGA_3123;product=protease pro-enzyme activation domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980700.1;translation=MKREIVYISIIVLILSMYAQYSTLAGSGYYYVQTNSPQYSILPDSIFVQSLPSNYTLPFAVLLNFTNYGSLMKYTYSIVGKSSQYISPSSFREKYYPSNSYINSLVKYLKTYGIKFTGNYGLILTFNGTVGEIEQAFHTYINIYYYPLRNIYWFGLVGITNVGPFYYFTNNVTPSLPYNVGKHVLGIVGIDSIDPHVYPAIQQTWKVKMNSTSDSSLVSKVLVTPTVIANYFNFTKLYNLGYLGHGETIGIEGVPESFVNSSDIYSFWNKFAIVPRTGGLQVIAFGTDTSSGQSGENELDAEWSGVFAPASQVDIVFSDGYVGGTALVNNLLNYYYELYYMINYINPNVISISVTIPESYLAAYYPAMLYMIHNIMIQAADEGISVLAASGDWGFESNHPPPNFIIGTYNTIWYPESDPFVTAVGGIFIRVNQNDTVISISGWDYSTGGLSVVFPGQEYELTSLIPLTPPTPRTYPDIAFISAGGYNIPEFGFGLPLIFQAQLFVWYGTSGASPMTAAMVALTGVRLGALNYELYHISYNGNILTSKGIIQGLPAWIPITTGANPTPAHYGWNFVTGPGSYNAYNMVYDLRIYYQNLL;locus_tag=LOCUS_31140;note=WP_010980700.1 protease pro-enzyme activation domain-containing protein (Sulfurisphaera tokodaii) [pid:64.9%25%2C q_cov:98.0%25%2C s_cov:98.5%25%2C Eval:1.2e-228],MGA_3123
sequence1	MetaGeneAnnotator	CDS	2841894	2842709	.	+	0	ID=MGA_3124;product=PD-(D/E)XK nuclease family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979658.1;translation=MAEEEIKKVLMQNPSILIDVLTAKPEIIYEALARLTPWQNLPTKDDIRRIEDKMVTKDEAKNFATKDDLKVLEAKMVTKDEAKNFATKDDLKVLEAKMVTKDEAKNFATKDDLKVLEAKMVTKDEAKNFATKDDLNKAIRKIETTITALGARWGLLNENTFRIGINDILKDLGWKVSEEVLYDKTGYIYGEPSDVEIDVTVRDGQTIIIEITSAIKRGDLPIILRKREFYEKEKKIKVDRVIVITPFIHDKYPDRVKAMAKDMGIEILYPE;locus_tag=LOCUS_31150;note=WP_010979658.1 PD-(D/E)XK nuclease family protein (Sulfurisphaera tokodaii) [pid:56.6%25%2C q_cov:98.9%25%2C s_cov:98.8%25%2C Eval:3.0e-83],MGA_3124
sequence1	MetaGeneAnnotator	CDS	2843550	2843744	.	-	0	ID=MGA_3125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEFHVNKGTVLESWKLNVTPEGLEESYYINLVKVENGKILCKSKEHLTEGSSTIIEDNVCRSL;locus_tag=LOCUS_31160;note=WP_052846153.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:66.7%25%2C q_cov:60.9%25%2C s_cov:45.9%25%2C Eval:5.7e-09%2C partial hit],MGA_3125
sequence1	MetaGeneAnnotator	CDS	2843813	2844934	.	-	0	ID=MGA_3126;product=thiolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978035.1;translation=MVAIVDVGITRFGKRVESIFELVGEATRNLLKYPIDFIVLSNSYSGEFNEISGLNNLISTYLSLDNVPSIRVDNTSGSGGSAILVAKSLLESKEANAVLVLGAEKMSEKKTRQVTKIISSLLPESERVSSLPSLASLATIEYMKKYDATRESIAQVAVKNHYNGSLNPYAHIQKRVTLDEVLNSPIISEPLRLFEFTPISDGAAALLMVRNEDALSYTNKPVFIKGVGFSSYTSFIADRENFTELPSVRKAGEIAIKKSHVERIDFAELHDMATILEIIQSEELGFFKKGEGWKAVINGTTEINGDIPLNTSGGLNSKGHPIGVSGIAQAIEAFYQIRNEAGNRQVKNAKTGLSLSMAGFGNSSTVIIYGDEY;locus_tag=LOCUS_31170;note=WP_010978035.1 thiolase family protein (Sulfurisphaera tokodaii) [pid:76.9%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:2.9e-165],MGA_3126
sequence1	MetaGeneAnnotator	CDS	2845167	2845322	.	+	0	ID=MGA_3127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKFVNYFGDLGYIINSTLYVLRNMKLDLKEIMEKDFVVNKSSKVYYKLH;locus_tag=LOCUS_31180;note=MGA_3127
sequence1	MetaGeneAnnotator	CDS	2845575	2845745	.	-	0	ID=MGA_3128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYITQIKSYLLKTHEDISQIPLDKYPETFLKIEYPNEYMNLNRRKIHNNPYFLLK;locus_tag=LOCUS_31190;note=MGA_3128
sequence1	MetaGeneAnnotator	CDS	2846222	2846446	.	-	0	ID=MGA_3129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSEEEVQGRVYKEEEQEFGFKVFNLMSPTMIVHEIQVELANFPDNKVGFSRSGYKVVDRGFVGEVLDLVDRFL;locus_tag=LOCUS_31200;note=MGA_3129
sequence1	MetaGeneAnnotator	CDS	2846353	2846970	.	-	0	ID=MGA_3130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHWIEYYNGPVPYEHLSARHKTLVKMNYMLITSEVLSRLSDLFILRALIVMIVWTCSYRDVRSYYESDVVVRWFLGEYKSKSEIHRRAKKFRGEVKTLFKEYAKELEGKMSRLADYLPSSALYGKVGKLWIVDSFLIEVPFGKRNKETLKKKFELELRQRKYREAANTLFFYIKCKVRRRFKGEFTKKRNRSSASRSSTSCRLQ;locus_tag=LOCUS_31210;note=MGA_3130
sequence1	MetaGeneAnnotator	CDS	2847617	2848468	.	+	0	ID=MGA_3131;product=amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979652.1;translation=MGYVDSHTHVWFREAITEEMRKRSEIVGYRIPEFSLDYIIKEMDNAQLDYITIIAYPSRELWGIKEDFPLKIIDVCKKYPDRFAVIGGVEVNKLSVQETKIWLEKQYEAGISGFKLHPPHMWIKPNDYREEEKGMKQLEILYEFSQDNKLPVVIHTGTSFFLTARNKYADPIFVDDVAVDFPRLRIIMAHAGRPNWVNTAFQLIRIRKNIYTDLSSIPPKRVLEYLPRLEEINEKALYGSDFGGPGTKGLGDNLREFLNIPLSLLAMENITKNNPRKLIKTLG;locus_tag=LOCUS_31220;note=WP_010979652.1 amidohydrolase family protein (Sulfurisphaera tokodaii) [pid:63.8%25%2C q_cov:99.6%25%2C s_cov:98.6%25%2C Eval:1.2e-106],MGA_3131
sequence1	MetaGeneAnnotator	CDS	2848452	2850020	.	-	0	ID=MGA_3132;product=long-chain fatty acid--CoA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978001.1;translation=MKSTIMDFDLNVNNIFWRIERLYKEKTIVSRNKNDIEKITYGDFAKRVRKLSRFLLEQGVTRESVVGSIAWNTRRHLELYFAVPLIGSVLHTINVRFMPNEIEYVINFANDKIVFIDEDLKGITEELKNGVNSRFFIMSNDLDTLIDSFDPIYSFDNVDEKSGAVMCFTSGTTGHPKGVVYSHRSIFIHSVELLAKDVIGISSDDVVMPVVPMFHISAWDLPYAVLMTGAKLVLPGPKPGPEDLAELISKEKVTVASAAPTVWISFLDYIKREKIDISSLKIAITGGAEPPKGLIKSFKEMGIRTYHAWGMTETEAITTVNIKDDVEKLSKQGIPMPGIEIGLISPDLTELPWDGKSIGELIIRGAWVTQEYFNSPEKTFESIVNVNGKKWFKTGDIAVIYPDGNIKIVDRAKDLIKSGGEWISSVDLENAIMSFEPVLEAVVVGIPDEKWGERPVALVVPKSGYKVKEEDIRNYLMSLNKFPRWWLPDKIIFVNSIPKTSTGKLDKKTVRKNIKEKFNLKS;locus_tag=LOCUS_31230;note=WP_010978001.1 long-chain fatty acid--CoA ligase (Sulfurisphaera tokodaii) [pid:60.2%25%2C q_cov:97.5%25%2C s_cov:99.2%25%2C Eval:6.0e-178],MGA_3132
sequence1	MetaGeneAnnotator	CDS	2850153	2851115	.	+	0	ID=MGA_3133;product=iron-containing alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979697.1;translation=MWEIQFYNEKVLFGNKSIEKLKELEIKHPIIVTTKSLINSELILKINEYIKADKIIQGPSQHTPENELEELETLITSKSVISIGGGSVIDAVKLANPYLHIAIPTTLSGAEHTAIAGFTKEGIKVSSKVKPPDIIILDPEVIKYTPEWLLNSTAFRALDHAIEAIYSTRASPFTDALSIEGYKYMINCLEKKDLLQCQIGVWLSSLAFMYAGRGLSHVFGYIFGPAFNIPHGITSCISLPKAIEFNIEQAKGKLSLLDNDVKERIIGLMKKVNLMEKLSKYASLENALKFSTLLANLTNNSENPRKISVKDAEMFIKSLF;locus_tag=LOCUS_31240;EC_number=1.1.1.1;note=WP_010979697.1 iron-containing alcohol dehydrogenase (Sulfurisphaera tokodaii) [pid:46.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.4e-79],MGA_3133
sequence1	MetaGeneAnnotator	CDS	2851146	2851325	.	+	0	ID=MGA_3134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFLLWFKVKQPESLSQKRLMEIWEKEAEATMSAVKSGKINSRSSINNYSSKFIVYIII;locus_tag=LOCUS_31250;note=WP_052846487.1 muconolactone Delta-isomerase family protein (Sulfurisphaera tokodaii) [pid:78.9%25%2C q_cov:64.4%25%2C s_cov:37.3%25%2C Eval:9.6e-12%2C partial hit],MGA_3134
sequence1	MetaGeneAnnotator	CDS	2851496	2852395	.	-	0	ID=MGA_3135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLFYLSAIVFGFTANITDTIFSIWTKQNVDEKEYKKIISIGRIILRGLGFLANALVGIILTFIFRFSIIPTLVILAMAIFLSLPVNIKDRFNEGEKGITFKESLIDGFNYVRKNKVLTQISILTLENLFFGILELLMIFYVQDFLHLGPIYYSILIITAQVGLLVGSIFALRINKGKLGFYQFTLIAIMSICIASYDLIHYVFIAIIPTFLISFLSGITSTLGSVTQLRYINKEYWGRASGFIQVISKGIFALSGPVGGILIEILGIGGTYLLIGSIIFMFNFVRLKFKEYYNIEIK;locus_tag=LOCUS_31260;note=WP_052846396.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:50.3%25%2C q_cov:61.2%25%2C s_cov:96.8%25%2C Eval:1.1e-44%2C partial hit],MGA_3135
sequence1	MetaGeneAnnotator	CDS	2852409	2852603	.	-	0	ID=MGA_3136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGHIKAYRLQLTHGNITKPSFDTVLLQLLHWNGHRFIEKEEVNTFNVITNSFHDLTLISNRIIS;locus_tag=LOCUS_31270;note=MGA_3136
sequence1	MetaGeneAnnotator	CDS	2852661	2853983	.	-	0	ID=MGA_3137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKFRTKEATKLFYYLTKDIKLDFLNTSIVYITEITLNVSSDCNLACRYCFASAGHYSYSKLENMNFEDTKKAIDEIINKYNYNDSRLLVKFFGGEPILNFKLIEKVVNYFKELKENNKIKYLPKYIIITNLTLVNDKIIKFLNKNKFDIVVSLDGPENINDKARIFRNNLGTFKIIDKNLQKLIKDIDIDHITIEAVYSPIHLEQNISMLFIYKFFYNKYGIYNVAISPLTKVGQGNEFLKMFSDDLLRLYEEKIYDMAFELGRYMAYLFAEGAKIMEIYNFIKKIIINKRSLNSHCTAGFNNVTIMPNGDIYPCYMLSYDNRFYMGNIKEGLINTKTIGVRNFLKDINIKTKIDQCKMCDIMKICNACLGHIDFAKNGKITVDNYTCNYNLGLYEGILAALNDIIADDILWEKFKHQLRKMKDIEDMKDEENHLVGDI;locus_tag=LOCUS_31280;note=WP_010965577.1 thioether cross-link-forming SCIFF peptide maturase (Clostridium) [pid:30.7%25%2C q_cov:80.5%25%2C s_cov:74.2%25%2C Eval:7.3e-33%2C partial hit],MGA_3137
sequence1	MetaGeneAnnotator	CDS	2854475	2855029	.	-	0	ID=MGA_3138;product=DUF998 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979589.1;translation=MNINFLKYSGIIAAILAWLVIFLSIFINPWFVFTRNAFSDLGGPIAKDPWLYNYGLIIVAIFTFLYGIYLVIVNEGKVEIVGSSFVMVAAIFLSLIGIYHEGTYPHVFVSTWFFIQFDIAILTYGIGLLMKIKKLGISMILLFIIATLVAIVVPWPSAATIEAWGISAIDVWVILSYLSIINKN;locus_tag=LOCUS_31290;note=WP_010979589.1 DUF998 domain-containing protein (Sulfurisphaera tokodaii) [pid:74.4%25%2C q_cov:95.7%25%2C s_cov:96.7%25%2C Eval:8.7e-76],MGA_3138
sequence1	MetaGeneAnnotator	CDS	2855060	2855803	.	-	0	ID=MGA_3139;product=enoyl-CoA hydratase-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980502.1;translation=MIVENHQGYSIIKLNRPEKLNALNLEARVDFISTLKKINSDPKVRAVIITGEGKGFCVGADVNEIPQDITKDLRETFYPIITEIRFSDKIYIAAINGVTAGACIGITLASDFRFAKKEVRFVTAFQRIGLTSDTGVAYFLSKFLGPKAVPLLILGGEFTAVDAENWGLLKVVDDPIQDSIKLAENIVNGPYQSYVAGKKLVNKVLFSDLNEFLEYESLIQGYLGKTKDHKEGISSFKEKREPKFSGE;locus_tag=LOCUS_31300;note=WP_010980502.1 enoyl-CoA hydratase-related protein (Sulfurisphaera tokodaii) [pid:49.0%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:2.2e-66],MGA_3139
sequence1	MetaGeneAnnotator	CDS	2855793	2856563	.	-	0	ID=MGA_3140;product=enoyl-CoA hydratase-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847037.1;translation=MYETIQFEDKGKIGILRLNRPDKLNAINFKMVNELVDAFNKIEDSKNKVVIITGNGRAFSAGADVKEMYETPLNDIIMKGHMPLWDRMRSFKKPIIAALNGITAGGGLELAMACDIIIASESAKLGQPEINLGIIPGAGGTQRLTRTIGKYKAMEMVLTGKLISAWEAEKMGLVAKVVPDASLMDEAFRIAEDIASKPLLSIVLAKDAVTRALETTLQQGLDVERRDFYVSLSSESAKEGMKAFIERRKPKWENDS;locus_tag=LOCUS_31310;note=WP_052847037.1 enoyl-CoA hydratase-related protein (Sulfurisphaera tokodaii) [pid:70.2%25%2C q_cov:94.1%25%2C s_cov:98.4%25%2C Eval:3.6e-96],MGA_3140
sequence1	MetaGeneAnnotator	CDS	2856631	2857785	.	+	0	ID=MGA_3141;product=thiolase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980503.1;translation=MKVAIIGVGNSKFGKRDDVSVQELAWESIREAFNDAGITQKDIDYTVVGSTAYRGVELYPAPLVAEYSGITNVPMRVEAMCATGLAAALSAYTAVASGLADIAMAVGVDKMTEVDTATSLAIGGRGGNYQWEYNFYGTTFPTYYALYATRHMAVYGTTEEQMAMVAVKAHENASLNPKAHFQKKVSIEEVLKSRVISWPIKLLDSSPITDGSATAIFASESKVKELKIETPIWVTGIGYANDYAYVAKRGEWTGFKATVDASRQAYKMAKISPKDVEVATVHDAFTIAEIMGYEDLGFVEKGQGGKFVEEGQSKKGGKIGVNLYGGLKAKGHPLGATGLSMIYEITKELRDESGNLQHPLKNYIGLVHNVGGTGHYAYVMVMRR;locus_tag=LOCUS_31320;note=WP_010980503.1 thiolase domain-containing protein (Sulfurisphaera tokodaii) [pid:70.6%25%2C q_cov:99.7%25%2C s_cov:99.2%25%2C Eval:1.1e-162],MGA_3141
sequence1	MetaGeneAnnotator	CDS	2857782	2858174	.	+	0	ID=MGA_3142;product=Zn-ribbon domain-containing OB-fold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980504.1;translation=MRKMKIDAIPLNLNYKINYPDEFLNKLKEGEIVASKCNNCGAIYFPPQKDCYNCGKSEMSSIILPKEGEIMTFSKVVQKPQGFEKYPDYVIGIIKVGDVNLMAWIVGEPKVGKKVKITTDGIRVIGKVIE;locus_tag=LOCUS_31330;note=WP_010980504.1 Zn-ribbon domain-containing OB-fold protein (Sulfurisphaera tokodaii) [pid:50.8%25%2C q_cov:96.2%25%2C s_cov:100.0%25%2C Eval:1.5e-30],MGA_3142
sequence1	MetaGeneAnnotator	CDS	2858171	2859466	.	+	0	ID=MGA_3143;product=phenylacetate--CoA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980505.1;translation=MIAYDETDPKSLNLDEIKEVQVYRLRQVVKRAYENSRYYRKIFKEKGITPEDIRSPQDLTRLPFTTKDSLRENAYPHGGDFLAVPFDEIVGWHMTSGTTGIPTVNAYTRKDIETWSQLVARCLRAAGVNKNDIVMNIYGYGLFTGGIGLHQGIQRLGAKVIPWSVGRTEALVKALKDFEATVITGTPSYELLIAETMKKLNVDPDSLKLRLAIPGAEAMNNETLERIEEEFMLKNKGGGAREIYGLTEALGPGVAQECPYDNHYWMHIWTDHYLVEIIDPDTGEVLDNGEEGEMVITTLTKEGMPLIRYRTRDITSMIESDDEIPYPKIKIIKGRVDDVIFYKGVKLYPNAISSVIMGHPEIYEFQIVIDRRERNHRLLLRIEVDQPSDTIKKKLIEEIRTVSFVTPEIEFVKIGTLPRFEGKSKRVIKLE;locus_tag=LOCUS_31340;note=WP_010980505.1 phenylacetate--CoA ligase (Sulfurisphaera tokodaii) [pid:68.0%25%2C q_cov:99.1%25%2C s_cov:99.3%25%2C Eval:7.3e-171],MGA_3143
sequence1	MetaGeneAnnotator	CDS	2860025	2860498	.	+	0	ID=MGA_3144;product=universal stress protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763606.1;translation=MKIIEIFKFPKSKGLLVIKIFKKILVGFDGSEHSKKALETAILLAKIHDAKIKVIEAIDHPPPAVEVYVKDDIRDRERIIKHKEMIGILSQERGVDIEYQAMRGDPATVISKLAETENFDLIVVGNRGIKGFKKLFIESVSSKVVQNSNRSILVVKN;locus_tag=LOCUS_31350;note=WP_011763606.1 universal stress protein (Pyrobaculum islandicum) [pid:35.0%25%2C q_cov:86.0%25%2C s_cov:98.5%25%2C Eval:4.9e-14],MGA_3144
sequence1	MetaGeneAnnotator	CDS	2860501	2861529	.	-	0	ID=MGA_3145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980499.1;translation=MMTMDKYSNLNFNESPQFPEVNVYPPKWNFDNDKAWQIYRRAKREQWDEDQISWDKVKEWASGLDRKERMAIAYWFSLLSCFDNATPVFAYAVIKSFEFHLDTAVRGILTTITYDENRHNMVCGLSIQNTLPGFPLDLKPQDDLERKAMLNAQWVWWNGSRYWNAYLEAYKKYTFDVLFTSFMMGEAAATTVFTTMSKGAKNEEFSKVFKNTAVDETRHYAFTHLIMIDSAKNMNEEKRKLVTKQIRAGFVFLSLITYKPPKDFWKLPPWFTEVHEKMEDIARNAGFYIPNEKEKEEAWRQAVLRVGASLKRYGISMPAMPELGITGEEIKDINEDDFVPIF;locus_tag=LOCUS_31360;note=WP_010980499.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:78.6%25%2C q_cov:98.5%25%2C s_cov:99.1%25%2C Eval:1.4e-163],MGA_3145
sequence1	MetaGeneAnnotator	CDS	2861618	2862469	.	-	0	ID=MGA_3146;product=fumarylacetoacetate hydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846399.1;translation=MKIIHFEVNGKRKIGEVIGDYVTEMENYFSEPKGESYQINEIKQVPFLPSAIICTLTNSYIMTGAESKEEAREMLGSPKFFLKLPSIVIGNKDTIYAPKSGIRPEVEIGVVIKENTKNIDKNQVKDYILGYVVFNDVTAPGEFKKDWYYAKRRDPNDGEIKKMLIRGNHFRNKNRDTFAPLGSIIVTPEDVKIEGLKMRSYYAGNVIQEGTTDEFVFSIEEIISELSKIVTIPKFSIVSTGTVGYREASEASEYKIDAINGLMEVEVEKIGKLSNPVEIEKNL;locus_tag=LOCUS_31370;note=WP_052846399.1 fumarylacetoacetate hydrolase family protein (Sulfurisphaera tokodaii) [pid:52.6%25%2C q_cov:99.3%25%2C s_cov:98.6%25%2C Eval:1.9e-80],MGA_3146
sequence1	MetaGeneAnnotator	CDS	2862450	2863232	.	-	0	ID=MGA_3147;product=acetoacetate decarboxylase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978705.1;translation=MYSHPFSKSGNSQIVPPPPYYYGVEYLGAHVYFDNEKLKGILPSFLNTDGEGWIYLADFVTVSNDKWNLMYEDPSFTQYKEAAIALKVNFEGQNFLYFPFMWVDKDWALVRGWINGYPKKLATIYLTKLNKLLPEYNTRKENLTLGGYLLRDSKLIELRVTLKKKVSSIPLSNFGKTLTIRYFPKTGEKEGEINELVTIEKVDSRIDDIWEGDAEVNIREGINDELEFFIPKKVVAGYSYDYYFKTIGTKLVKKIENYSF;locus_tag=LOCUS_31380;note=WP_010978705.1 acetoacetate decarboxylase family protein (Sulfurisphaera tokodaii) [pid:51.8%25%2C q_cov:97.7%25%2C s_cov:95.9%25%2C Eval:5.6e-76],MGA_3147
sequence1	MetaGeneAnnotator	CDS	2863238	2864707	.	-	0	ID=MGA_3148;product=4-hydroxyphenylacetate 3-hydroxylase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846398.1;translation=MIRKGSDYIKSLKEGNHGEVYYNGEKVEDLVDHPAFKVPIRTVANYYDLHWKEDTLRVYNTDVGQETSISFFRPKSKEDLRKLREGLVKIYDYYHGYFGRSPDYLNLWTTVFYAHSEDYFGKAFGNKIMENVINIYKESTSKDHFYTHAIVAPMYDRSRPPSQWEDPYIQVGVVKETPEGVIVKGAAMICTAGPYAEMLWYMPNIRRDTDPRYAIYFSIPTNTKGVKFIARRGFYPKEYSEFEYPISSKFEESDSILIFDDVLIPWDRIIFYKKPEEIEDFMWHKVQLRTWFNWHFVIQHYCRMKFYAGLAMAMAEAVGINNFINVQEKLGEILLYLSMNEGALIGAEEAGESLPNIYRPNPFISIAASNFNMHALPRIHELLRLIPGGSSIPIPAGIKDFENPEERKMLDKYMASKGLSALDRVKLFNLLWDVIGSESGIRYEQYDRFSRGDPTLRWAQMYSEVFKEKKEQYIKLVKDILDQMPDPRK;locus_tag=LOCUS_31390;note=WP_052846398.1 4-hydroxyphenylacetate 3-hydroxylase family protein (Sulfurisphaera tokodaii) [pid:73.5%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:2.1e-225],MGA_3148
sequence1	MetaGeneAnnotator	CDS	2864708	2865637	.	-	0	ID=MGA_3149;product=3%2C4-dihydroxyphenylacetate 2%2C3-dioxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978715.1;translation=MDVLRLSHVCVRVTDIEKASYFYEDLLGFKESDKKGDYLYLRGNEELQHHSLILKKAGSPGLAYIAYRVKDLDKAKEELESLGIHALKFKEEGVEDAVIFNDPEGIPTLYYTNMEYVDDIRMKFYMHKGVSPVRLAHVNLMVKNLENEIEFYKRLGFYETEQFLDKDGKLSVIWMTRIGQSHDIAIARSSSKVPGFHHETYYVHDVRDIIRAADILASAELWDSIERGPGRHGVTQGLYIYLRDLDKNRIEFFTADYIVLDQDKWNVKTWTYDQLRFRSDFWGRPIPESWLKEWVPVEDVATGKLRGWS;locus_tag=LOCUS_31400;gene=hpaD;EC_number=1.13.11.15;note=WP_010978715.1 3%2C4-dihydroxyphenylacetate 2%2C3-dioxygenase (Sulfurisphaera tokodaii) [pid:67.5%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:1.7e-128],MGA_3149
sequence1	MetaGeneAnnotator	CDS	2866510	2866800	.	+	0	ID=MGA_3150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRQLSLDLRKQDEQYQQIYSQTLQQIADRFYDARQRFFDGLARYPKESTQVVLPSVSPVRLENHESEGDQDEKQEEQEEGNDVKTVKPRDLQRYCS;locus_tag=LOCUS_31410;note=MGA_3150
sequence1	MetaGeneAnnotator	CDS	2866751	2867419	.	+	0	ID=MGA_3151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLKLSNLGIFNVIVHRDFPLEKVKRVVIKLTPSGRVYITFVVDQEYPQLPKTNKVVAVDVGVEKLLTTSDGEYVPNQRPYEKALNKTRRLHKALSRKKFLSHNWFKAKIKLARAYEHLKNLRMDMYMKLGKYFAEHYDVLVMEDIRVKQIVGKSLRRLRMRLHDVAFHELRSVMEYQLGKYGKEIRFVNPAFTSMTCARCGHVKKDLTLADRVFVLIVVGL;locus_tag=LOCUS_31420;note=WP_000942660.1 RNA-guided endonuclease TnpB family protein (Escherichia) [pid:25.5%25%2C q_cov:86.5%25%2C s_cov:49.9%25%2C Eval:1.5e-12%2C partial hit],MGA_3151
sequence1	MetaGeneAnnotator	CDS	2867566	2867910	.	-	0	ID=MGA_3152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYAIKDPLIRVILILLSILISVFIAIIILGLYFSIIEGKLVFEGVMNITDIYGEIIGGILVLGWGLIIPVYFATRRRSSKYLPDDIINAIEMYYNGSITKDELIQIIDRENYR;locus_tag=LOCUS_31430;note=MGA_3152
sequence1	MetaGeneAnnotator	CDS	2867998	2868387	.	-	0	ID=MGA_3153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLGLILLSIGILILVLGEITFPFTTTITVKSNFTSPPWFTLGKIYVNKGNFSVYSNISDLFVDLQNLTKGQSISLNNFTLVGKGNATVTFTGLKIFYNKTYINFSIIIIFIGIILEILRFIKIRLSKS;locus_tag=LOCUS_31440;note=MGA_3153
sequence1	MetaGeneAnnotator	CDS	2868995	2869870	.	-	0	ID=MGA_3154;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980558.1;translation=MIVIEARNLTKRFGDFEALHGLSFSIEEGSITAIVGPNGAGKSTLLRIISGLINRTSGKILVMGEDPWKSEYLPRKLSVILDKPFLPPFLTIEDIIKETVLEFNSSFSDAISLMDELNLSYFIKNKVKDLSTGTRQKVQIIFSLIKNPEIIVADEPTANLDIVSRFEVYNIFLKLRKKMNTTILISSHIAPELIAISTHLLGINNGILRYNGEVSKMIRKDLLEEFYIVVDNVERAVSVLRSFTIEVSGNQLKVRGNLMEIVSELIKEGIRIFYIRNSLLDKSVQGEIGWG;locus_tag=LOCUS_31450;note=WP_010980558.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:41.1%25%2C q_cov:96.6%25%2C s_cov:96.9%25%2C Eval:4.2e-54],MGA_3154
sequence1	MetaGeneAnnotator	CDS	2870087	2871187	.	-	0	ID=MGA_3155;product=CaiB/BaiF CoA-transferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980659.1;translation=MYRAIEIGHIISAPYAGEILAHLGLDVIKIEPIQGDPTRIDDIMGDSMFLFNNRGKKSIAIDLKKNKGKEILLRLIRESNVLIENLSPNTMDKLGFSDNVIFSVNPSLVYCSIKGYPKGKYENSPAFGTIIEAVSGIMEANGKARLPASITDMNASTYCVITILWALLTKKPGHYRINIVQADLAWLGYYLIAYQKYGKIFEGGKDELPFWSPYELFVSSEGKEFYLAVNDNNKWIRLCKAIGMENLLNDNMFKNNADRVGNRDILHKILQDKFSKMKINDIVKLLRENDIPVSEVNSIPNLINSELVEWEKLNNILIPKLPLIGSLEGKREPKVGENTREILSNLGYSDEEIENMSKEYVIYFPS;locus_tag=LOCUS_31460;note=WP_010980659.1 CaiB/BaiF CoA-transferase family protein (Sulfurisphaera tokodaii) [pid:71.5%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:1.1e-153],MGA_3155
sequence1	MetaGeneAnnotator	CDS	2871280	2872902	.	+	0	ID=MGA_3156;product=AMP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980660.1;translation=MEIDLRELQFSTYEELINKFNWNIPQNFNIGEAILDRNNEDSTAIYYEDEEGNKASYTFKELKSFSDSLIKLLTEKIGIKKGDVLGVFLQPRVETILTILSIYRLGGITLSISPLMGTEAVEYRIKHSEAKAIVMEGSKKDIREKLNNIKIILVNDEAKRDNEIEFDEIKREAGNYSAVKTKSDDPAQLFYTSGSTGAPKGVLHAHRFLLGHIPAYQLYFEMAPKDNDVFYTPADWGWIGAIGDVILPSLYFKKPIVAYRREGKFDPSSNLSIMQKYRVTCSFIPPTALRIIRREIEHPAKEYNLSLRAISAAGEAVGEDLINWAMKELSPNVNEFYGCTEANLVTVNNSLWRKIGSLGKPSAGHKVAVIDEDGKIIIGKIGEIAVKIKDPVVFLGYWKNPEATERKFRGEWFLMGDLGIMDENGYIWFKGRADDVIKVSGYRLGPEEIEKIILQHPSVQDVAVIGKPDKVRGNIIKAFIVLKPGYHPSNELKNQIQQLVKNKLASYAYPREIEFVNELPRTETGKLKRFELRKKEEIRS;locus_tag=LOCUS_31470;note=WP_010980660.1 AMP-binding protein (Sulfurisphaera tokodaii) [pid:75.7%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:7.3e-243],MGA_3156
sequence1	MetaGeneAnnotator	CDS	2872899	2874188	.	-	0	ID=MGA_3157;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980661.1;translation=MANNGGKDKNTALKVALSANLGWGFELFDLVVYLYVANTIAPLFFPSSSRIASLLLFLLTIVIGYFARPIGGLFFGHFGDKIGRKRLWFISLLGMGIGTIMMGFLPTYYQIGVLATALLVLLRMLQGFFLAGEWGGGMTLVSEFSPDGLRGLFGGIQQGGAALGLIFAVIANEVALSLAPGNAFGTLGWRIMFWFGAIPLIIALTVRWKVGESVEWLSKVANKPEKVPIITVFKKYWKLVIIATIVLFASGSIYYGIIAYMPTFLELHTDLTAYEIDDVVLATNLIWLFLSPLTGYLSDVTKARKKLIAITGFIIGILVYPMVYLLYSGSYVFAIFAGLLLGFLFAFQYSLFPAWLSENISTNVRYSYIAFSINLGVAFSSFAPYIVTALGILFNNPVIGISAFDVLAAIIGGIIVLLSPPDKVGIKLD;locus_tag=LOCUS_31480;note=WP_010980661.1 MFS transporter (Sulfurisphaera tokodaii) [pid:76.4%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:8.8e-193],MGA_3157
sequence1	MetaGeneAnnotator	CDS	2874630	2876090	.	+	0	ID=MGA_3158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980648.1;translation=MTIIYYPEINIIVQQNVTLPNFIKIFLYSNGKLITNGSITVFVFYPTEQGTVFKRIFNSSRQEYYQFPVKDLLNWAKNWLAYDTQHRTLIYPSIIVFASYSIKNETTIETLTQSFSTSLNISQIIRGIGGRDIQVIFNHPIIKYIKTKDLQQKIDVDTTTITTTITSTIRPGYETITLNPHILGWYPSNSSVGPISIGTIIGPTNITEYRASLFEEIINKVTSSENVGFYISQPLLKQLPVRVTLPGPSLTLYDTNDLVKSYNTTPIGSSTPYDVGQLYIIGQVAWVNWTEICYYPKFGIEHVNHFIQVIMTSVVAEENGDAFAPKIDSHCVYSICNSYNDLPRNSYSYSKSSVRIKGGGGGLGLIAPVYFNNLTNIGSSSNFQPFRYDTLNIIGVNNDYQIGVNVGALLSIAMPEASPELLATLGMVNIGVTWENSQLSLTQATVCADNSLITPLNVYYSNYSALYYINGQYYIIPDNVYYLNYS;locus_tag=LOCUS_31490;note=WP_010980648.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:54.6%25%2C q_cov:99.4%25%2C s_cov:96.0%25%2C Eval:1.6e-145],MGA_3158
sequence1	MetaGeneAnnotator	CDS	2876191	2876970	.	+	0	ID=MGA_3159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQAISVSKRYHKDYVLKNINLTLNSGDKVGIVGLHNSGKTVLMKLLAGDEKPSSGKILIDGNKLDKRKIAYIPQIPLFDPILKAKDIIRYVGDEEYLEKVNIDKEKKIKNMSLGEKKRLSLALSLSFSPEYLLIDDITMDEESKEFFLDFIRKFHGGVAVSYHNLKDVWEVIDKIIILSKGSISFIGKKDDIKFKIIKIRNSADVLRFFTKYYMKEGEYVEIWEEFSDNSVEEKLKALGINYDTIEASPDEIFLRFFA;locus_tag=LOCUS_31500;note=WP_012583005.1 ABC transporter ATP-binding protein (Dictyoglomus turgidum) [pid:28.0%25%2C q_cov:74.9%25%2C s_cov:92.5%25%2C Eval:6.9e-18%2C partial hit],MGA_3159
sequence1	MetaGeneAnnotator	CDS	2876942	2877982	.	+	0	ID=MGA_3160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFFSVFSLEIKRLFSLFFLIAISILVAVSLAQLHSPSFNIVGVIACSSDGVEIVGYGFNFDGQGVPLTVNISIDGIQKTVVSNNGTFLTFIPIFFPNGSNITIHIHSNNETYVISKILSNNFTTFAETSIDYSKLEYNNISMVYVKGITVIAASPSIKYVYVNGEKMNVNSNIFTVGSDNVKPPFGKMDNLKDSQIIGKNIYYILSIIGTNMGLVSIIAYFYLSVFPRRQLDLIFRVAGVSKIYLSKLFSMLILTLLISLPSIAIFAEIKGIFLSSITPYLFIMIMYSLAVYGISPLMKSKELVYTTVIIAAYLLNLVFYNAEILSTVALILPLIGFIKLWWGHK;locus_tag=LOCUS_31510;note=MGA_3160
sequence1	MetaGeneAnnotator	CDS	2877964	2879889	.	+	0	ID=MGA_3161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGAQVNKLSLLIMVIFILSITTYVQGQSTEIQSSGAEDTTTIHYSIITQITYVPLNNTYAVIVEKYLNNGTIITIYENGNSISLYCENISIGNITHITFPQFKYVSNASSMVINIHTKLFEYNLPPIGIFVYKDYIIVEFSPYSSYFKFYVFNSKLIEINQFTLFTKNNIKNEGILGISGKYLLYYKGKITYKNITIEGNNTGSFLNSLLLPQIIFFTTKNTTSLIATIPEISNITVYMYNLLNGNIENNIYLRNVTIYEYPSLVLVHNISAITANGVFLYTSQELIPAIVQGVMSVNGETLNCTLTTSLSDFIYKEKILDLETLCYNNFSIVNKRFYVVNLYNGKVNLSPKYNILEQIIYCNDLIVVKKNIIYFFPFSIYKNTYLYTPNFTFLGKTSFIPAQPINTIFINMPPSYMVPYIVPRISQIFSSYNPETNYIYYHGYIYLSNYLDTLIIHNNRSIQLNNTMLYFFGKPILIEKELGGYKVMELNGDKILKYVYVKANNFSTWNTITINKGEIINQNENSTTNVTYFTDTVFLGVGDFIIFHDNNTNILLELSNLTAINLFNTNLIGVYKTNLILVNEKNLQLANNYSLTNNLIYNNININIKTFSDLTNYSLFLIPLSVAIIIIGLLRLRKIL;locus_tag=LOCUS_31520;note=MGA_3161
sequence1	MetaGeneAnnotator	CDS	2879884	2881560	.	-	0	ID=MGA_3162;product=AMP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878782.1;translation=MINQFYIMIHLFDEFRKAMNERDIGKIYSILSEANNFNPKYFNWVSEVFEKTEEKTALIWVDMDKNEEKKLTYRDLSLQTNKLLNFLRKEGLKKGDPVYIMTPIIPEQWISLLAVIKGGFIGVPTAINLTEYELNYRFKDLRPKAIIADEVSATKINVDTLKIVIGKKGGWISYDSILDESDSAYPELTYPDDEILNYFTSGTTGLPKRVIHTAVSYPVGSLSTASFIGIKSNDIHANLSAPGWAKFAWSSFFSPFIMGATVLGINYSGKLDPKKYLDTIESFGVNTFCAPPTAWRQFITLKLDYKFDKLREVVSAGEPLNPEVIKIWKDKFGKTIRDFYGQTETTAMIGNFPWDTSEPGSMGKPSPMYDVRLLDDEGKEVKEGLVGHIAVKLDRRPIGLFKGYSDNEKNKASFRNGYYYTGDKAFYTEKGWYFVGRADDIIKTSDYRVGPFEVESALLEHPAVAEAAVVGSPDPNRWQIVKAFVVLKEGYKPSYELALELSNHVKKLLMVYKAPRIIEFVPELPKTISGKIRRNELRKMEEERRKKGEKSENEYFIS;locus_tag=LOCUS_31530;note=WP_010878782.1 AMP-binding protein (Archaeoglobus fulgidus) [pid:58.3%25%2C q_cov:92.8%25%2C s_cov:91.8%25%2C Eval:1.8e-167],MGA_3162
sequence1	MetaGeneAnnotator	CDS	2881592	2882422	.	-	0	ID=MGA_3163;product=amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846468.1;translation=MITMYHVIDSHVHLGMGNMPSHCYDFLKSIGLENEPKVIIADEEIELDYIVLIPSFPCGNKSCTDGFYSQLKLRKTSSVYLQMGTINPNCNIDVKKELENQYSKGIIGIKLHPVHHYFKPNAYRQEEGNLKNLEIIYSFAEDMKLPIVFHTGTSNTSMSRNKYGDPIYIDDVIKDFPRLKIVLAHSGRPLWTSNAYFMARNYANVYLEISSIPPLKILSYLPGIKEIRDRVIYGSDFPNYKGQTLLGHAKMVISSLGYDSGIMRDNFMKIFKVNFN;locus_tag=LOCUS_31540;note=WP_052846468.1 amidohydrolase family protein (Sulfurisphaera tokodaii) [pid:56.2%25%2C q_cov:97.8%25%2C s_cov:100.0%25%2C Eval:3.8e-78],MGA_3163
sequence1	MetaGeneAnnotator	CDS	2882514	2883065	.	+	0	ID=MGA_3164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYRLRTYIIGNGFGSFGMPLMDMTLLWLLYEILKNPILYIPIASARPIAIILFSSISGYISDKLDRRIILLVFGLLNRIFVIATLISIIFNQPILSIVFFLIRTIGQVNTQLAGSAAFLQILPKDYVQRGMFFNRLVKESLTIIGILIWPFVFYNIGGLVAVIGVVVSLIRSINSNKNRSRR;locus_tag=LOCUS_31550;note=MGA_3164
sequence1	MetaGeneAnnotator	CDS	2883169	2883645	.	+	0	ID=MGA_3165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYLYPAALIQIMHGTTFQYTIVQIGFYGSWLVGSWIMMKYKSPVKIIITSMFLNFLVFILLIPFNPWLIALSVASVGLGDSIHELLWIKIFRTASEKLLGSVYGVDEFVTNLFRLGYDSIAGYFYTVDFTIVPIIGLLTITAVSISYAFSKSWRIKI;locus_tag=LOCUS_31560;note=MGA_3165
sequence1	MetaGeneAnnotator	CDS	2883748	2884383	.	-	0	ID=MGA_3166;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198429736.1;translation=MNLLNRVKVTIIHEGCWTNLPSLRDIYTINYNVYPEKGYLRSRIIVPKGLRKEVLKMKNYDSIKKINHIHSVDSTILVDFLNTYKDSIAGYLYDNEVLFLGNMIGNGKETWDFITTKNKVNEIINGLSSMGKIVDVKIKDCPRLIPQLSSSQLKVLRYALSNGYLDYPRIMDAEELAKKLNISKITFLYHLRAAERKLIEFYLDYLDDELQ;locus_tag=LOCUS_31570;note=WP_198429736.1 helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:49.3%25%2C q_cov:95.3%25%2C s_cov:98.0%25%2C Eval:2.6e-48],MGA_3166
sequence1	MetaGeneAnnotator	CDS	2884467	2885897	.	-	0	ID=MGA_3167;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978704.1;translation=MTESELKAGEIIARMDRIPTWALNYIFLGIIGIGELFTFFDIFNINVSFVQTAVTLFHVTPSQAAPLLGPVVLGNLIGYVIGSLSLSPLSDKIGRRDMLVITMLITAIGSAFNAVAFNYLSFLAARVITGIGIGADLAIVNTYIGEVAPTKYRARYVSLVFIFSTIGAFLGIWVGLLLTTPPAPFPNGLPIALGASGIFASAGWRIMYAIGALLAFIGIILRINLPESPRWLISKGRLSDAENIVKKMEEKVTSKGLKLPPLPNVLPQITKSVSVPYSEILTNKLYLKRLAVLLPMWFLAYTTVYSIASGLTSLLTAEGYGVSEAGIISAMGVIGFILVGPIASIFGDHFSRKIWLGIGALLTVFGGMIVALTPNMFIDIIGAIILFFGFNVWIPIAYTWTMESFPTRARTSGFALNDGLGHLGGGLGVVGVTILATILPVLDLFVVIASFLVIAAIIALALGFMTTGKRLDEISP;locus_tag=LOCUS_31580;note=WP_010978704.1 MFS transporter (Sulfurisphaera tokodaii) [pid:67.4%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:2.1e-182],MGA_3167
sequence1	MetaGeneAnnotator	CDS	2886006	2886473	.	-	0	ID=MGA_3168;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979852.1;translation=MVEIGEKIPDLELVDTDLKKVKISDFKGKVVVLAFYPAAFTSVCTKEMCTFRDSLAKFNDINAVVLGVSVDPPFSNKAFKDYNKINFPILSDYNREAVRKLGIDWEFPNLKGYILAKRSVFIIDKDGKVAYKWVSDDPGKEPPYSEIEEKIKELS;locus_tag=LOCUS_31590;note=WP_010979852.1 peroxiredoxin (Sulfurisphaera tokodaii) [pid:76.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-67],MGA_3168
sequence1	MetaGeneAnnotator	CDS	2886569	2886931	.	-	0	ID=MGA_3169;product=DsrE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978880.1;translation=MSDQYSFFMISGDLEKLYMGFITAIGYVSAGSKVYMFFTMDALKGVTKESEKLVLQNAKPLKYYIDNLLELGESEVELAACEFGMKVKGIYESDLLPNVKISGVSEFAFKSSDSKAVLVF;locus_tag=LOCUS_31600;note=WP_010978880.1 DsrE family protein (Sulfurisphaera tokodaii) [pid:68.1%25%2C q_cov:96.7%25%2C s_cov:97.5%25%2C Eval:3.3e-41],MGA_3169
sequence1	MetaGeneAnnotator	CDS	2886924	2887388	.	-	0	ID=MGA_3170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMQSVYIRKLLAPIILSLFAIGWYEFSKIYLVNSDSIALSHGNYAVYVVPQQLEGYLTATLWICYFLVFAGLSVFWYNLVKIVQQLENVKPTYGIVDVVSPIVIAVEIIVLFLLGNTIIGGNIPIRLAGYASVCSCLMWFWYSLVKYVRVKNVV;locus_tag=LOCUS_31610;note=WP_052846433.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:62.1%25%2C q_cov:56.5%25%2C s_cov:96.7%25%2C Eval:1.3e-27%2C partial hit],MGA_3170
sequence1	MetaGeneAnnotator	CDS	2887388	2888632	.	-	0	ID=MGA_3171;product=YeeE/YedE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978879.1;translation=MPAMVLQPVFSYSWPIVFSVFGLSGFILGWSAQRGNYCFVNAMTSIFTVRSFERFGALLILFGLSALGAGLLVGLGIIPASDQYYFNYFGGWYILVGSFIFGFGAALAGGCNLSMLYRAASGYVQNWIELFGMMIGTYIFAIGIWPFQLYTMEKGILSTTSGGYIEYIPYLLFHNVSDSSVLVTTLIYSLPLIGIGLYLQHYTKKKWNKASGSFFSLAPKISAVKSFGGGNLPSPTSVPNKIKLSQEAKDLILLKKPYGTNLTTVILALDMLLVFIVGAGYTFNYLVITSSDGGRFFEYIMMMAGQNLFITTPWFNDSLPIVDTSTLMVVMLCVGAFFSSYLSGDFKIRIPKERKRLLIGFIGGILVGIGVRMALGCNVGLMWTNFAQIGYDGIIFLFGMLGGVYLAVKVQERL;locus_tag=LOCUS_31620;note=WP_010978879.1 YeeE/YedE family protein (Sulfurisphaera tokodaii) [pid:72.2%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:4.0e-171],MGA_3171
sequence1	MetaGeneAnnotator	CDS	2888632	2888883	.	-	0	ID=MGA_3172;product=sulfurtransferase TusA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978877.1;translation=MSEELKTRNPDETLDVRGESCPVPEMMASKKLKKMKTGQILEVLTDHQPAVDVTLPSLCKSHGYPFEILKDGEVYKFRIMKVS;locus_tag=LOCUS_31630;note=WP_010978877.1 sulfurtransferase TusA family protein (Sulfurisphaera tokodaii) [pid:80.5%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:5.7e-33],MGA_3172
sequence1	MetaGeneAnnotator	CDS	2889006	2889233	.	-	0	ID=MGA_3173;product=sulfurtransferase TusA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978875.1;translation=MKNMQTKLDLTGLCCSVPQMLVYSKLKKMNRGDILEIIVEKGSSQEADVVRVLNYFGCSSERTERGEVSIYIIRR;locus_tag=LOCUS_31640;note=WP_010978875.1 sulfurtransferase TusA family protein (Sulfurisphaera tokodaii) [pid:38.8%25%2C q_cov:88.0%25%2C s_cov:95.7%25%2C Eval:6.3e-08],MGA_3173
sequence1	MetaGeneAnnotator	CDS	2889310	2890254	.	+	0	ID=MGA_3174;product=sulfurtransferase TusA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978874.1;translation=MLAKLKIESFEPLLNLEKFGRIYLLKDVKKLDYGYLAKLRWVKNDFEVLIRVKSNTMEIIDENGKFSILICFENRNAEVTLKCSSIHKMLFTPLAWKIVKNLESYSEYISKISLKTSTYSNSSILELFRTKPTVTLDLRGVTCPIPEIESKKAILQAKPFDAIEVLVDHPAAILYTLPEVAKSFNCRYEIINRGDYASFVFIIGRKEHEENLNLNEINNIIRDEREIAKLYIYFDKIIKELKIEKFSPDMLYGEGLTLIVASPEGRGWLLTALVENEKLISARLDLGNTKLYDYDAVNVITDFNGLMNVYYLKH;locus_tag=LOCUS_31650;note=WP_010978874.1 sulfurtransferase TusA family protein (Sulfurisphaera tokodaii) [pid:38.2%25%2C q_cov:99.7%25%2C s_cov:98.4%25%2C Eval:3.6e-54],MGA_3174
sequence1	MetaGeneAnnotator	CDS	2890288	2890659	.	+	0	ID=MGA_3175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846921.1;translation=MQDQCGCVIERKYASDFLTRRIFNINKIPKGFSKIGETVVDGRKIELFYNKNDNFPLRYKSTECPISIITLEVLCEEFYNSRELTTESALSALKKVKGLTINNISKNIAEEVVKIIEKSGIYS;locus_tag=LOCUS_31660;note=WP_052846921.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:41.9%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:7.2e-20],MGA_3175
sequence1	MetaGeneAnnotator	CDS	2890634	2890966	.	+	0	ID=MGA_3176;product=DsrE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978872.1;translation=MKRVAYIVESSLGNYILGQMIVPQIEEDRHSVEVKGMFFIDNNVYLLMKGNPLAERLAKLNKEKGIYLQACDQCVYMRNLEGALIDEAKIGCFPDFYKAIINEVDFIITI;locus_tag=LOCUS_31670;note=WP_010978872.1 DsrE family protein (Sulfurisphaera tokodaii) [pid:77.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-45],MGA_3176
sequence1	MetaGeneAnnotator	CDS	2891043	2892239	.	+	0	ID=MGA_3177;product=YncE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978871.1;translation=MNYKLILLAGFVVILAIGFGASYLMLRTPSTTTSTTTPISVPPSTSSKINNDFYFLVFTQKGISMVINPFSTSASFLGFQHVANISLSVPSQVFYWEQLPYNSMVKLGQNMFMPLNNGTVYAVNSSTMKIVKTFEVGNSTGFIGVAYSPNMQYVAIADGPSGIVEVINTQTLQVVWKDTFVSPTGRTYYPCDVRWDPNGQFLLVPMRFNNSIDEISSSNGQVIKVLASSPGSEPYMLSPNIQGNMLAVEFSGNNSVGFYSLPNLVLQGIVKMPSNLVPQRGVFTPNGQYYLEAPGNANDVVIISTSNFSVVKTIALPSTAAPGLSEIQLTPGGSYAYTVIHGNVKTGGMIVLISLSSMSIAYEVPLTTAPAVVVPLQTNAGTYLVDNVLLPPVTGLHC;locus_tag=LOCUS_31680;note=WP_010978871.1 YncE family protein (Sulfurisphaera tokodaii) [pid:62.4%25%2C q_cov:100.0%25%2C s_cov:97.6%25%2C Eval:2.4e-149],MGA_3177
sequence1	MetaGeneAnnotator	CDS	2892248	2893159	.	+	0	ID=MGA_3178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846920.1;translation=MKVINPLFYFFIFLYATVIVPIVVNGFRIVSLWYSPLSDTGQISFISPFLTFIVFIFLFSISVGYILYKRKNNRFILVRGPMRIRSVIKAIIKDRIGRLLVIIYSVLYIISYMITSGILLVPGINIDSYFVKLTIITYEGSGIQVLRLGSLYFITNYFMLLFGILIDALLTISLILSYYIVSLIYVSYNIYSFSVPKSFRLYGMSTVGGFLTASVPSLGTIAGICCLTPTALNSLLYLASGSLPLTKGIAWKYGTFILGAWTGGVLQILSLASPIILGSIITGISIYYIYLVSKRINKVMISE;locus_tag=LOCUS_31690;note=WP_052846920.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:48.5%25%2C q_cov:96.7%25%2C s_cov:97.3%25%2C Eval:1.8e-79],MGA_3178
sequence1	MetaGeneAnnotator	CDS	2893152	2893694	.	+	0	ID=MGA_3179;product=DoxD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978869.1;translation=MSRINQNNFWTVVLRLITASIWINAGVFGKLLNSGFLNPNSNAYVGFTILYFSQGSPIRGFLYAVAFPHPILTGILVMIGEISFGILLFLGLGVRLASTAAFYTNLIYFLSAAWTGAEEYGINLLMMTIDLYFIIYGSNYFSIDSIIRKKTSIMDNKKIWITVATLIYLGVIFFLYIKGL;locus_tag=LOCUS_31700;note=WP_010978869.1 DoxD domain-containing protein (Sulfurisphaera tokodaii) [pid:51.5%25%2C q_cov:92.8%25%2C s_cov:94.4%25%2C Eval:2.5e-40],MGA_3179
sequence1	MetaGeneAnnotator	CDS	2893989	2894255	.	+	0	ID=MGA_3180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWEIIWVNMKRELIITMDERGRVTIPKEIREKIKTKKLRLKIEGDKIILEPVNPDIEKYYGIFKNNVGNVDIDEVLEKSLTEVLKNDC;locus_tag=LOCUS_31710;note=MGA_3180
sequence1	MetaGeneAnnotator	CDS	2894245	2894631	.	+	0	ID=MGA_3181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTARYFDVNVLVYYLTGDKTYGPIAKQWLRETDEKYTSCITPFLIAVILGRLNNKHLRDYNFVKDILNVLEYIGIEYLNLPPWDRIIEVMNKYKIDLEDAIHVAIATENKLEIVSNDEELKKKVNAIF;locus_tag=LOCUS_31720;note=MGA_3181
sequence1	MetaGeneAnnotator	CDS	2894866	2895357	.	+	0	ID=MGA_3182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKHEIRSNFNINENTEFSEVANYKDGILMSILDTLTFNTDNSRIGISVSRDENNNLKLTVFNIIKDIKQEGKITEREAISFIIDTQGRRITYTEATFKNPKNQSVPKSIEEKLENVDKIIEKSMSERENYMKSLFNEIKINTKVFNIDTGSEENIGINKEA;locus_tag=LOCUS_31730;note=MGA_3182
sequence1	MetaGeneAnnotator	CDS	2895335	2895694	.	+	0	ID=MGA_3183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELTKKPKSFSELKKDTGLTDGGLYKALQSLEKNGYITKTDLGYLITTKGIKIIEEKKMFTQGGITIIYEGISEEKVKEIYKILSNENNFYIHAFRESDHELDKILSLSILIPELFDNK;locus_tag=LOCUS_31740;note=MGA_3183
sequence1	MetaGeneAnnotator	CDS	2896364	2897056	.	+	0	ID=MGA_3184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYITFVVDQEYPQLPKTNKVVAVDVGVEKLLTTSDGEYVPNQRPYEKALNKMKRLHKALSRKKFLSHNWFKAKIRLARAHEHLKNLRMDMYMKLGKYFAEHYDVLVMEDIHVKQIVGKSLRRLRMRLHDVAFHELRSIMEYQLGKYGKKLTLVDPAFTSMTCARCGHVKKDLTLADRVFVCPKCGWVADRDYNASLNILRRSGSERPLVPVELRPLPLASLGFEAGSSVR;locus_tag=LOCUS_31750;note=WP_011057329.1 RNA-guided endonuclease TnpB family protein (Thermosynechococcus vestitus) [pid:33.5%25%2C q_cov:81.3%25%2C s_cov:47.7%25%2C Eval:1.1e-26%2C partial hit],MGA_3184
sequence1	MetaGeneAnnotator	CDS	2897268	2897612	.	+	0	ID=MGA_3185;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978983.1;translation=MEEQISKEQINNDKWHNIKCCYRLSETEISCFIKLLELNRPVTSIELAGLMKFSKTTVETALRKLTDVGLVTRQKLEGARIGRPKYVYSLPEYIWGKIEKDLNKCGEAMKNTKL;locus_tag=LOCUS_31760;note=WP_010978983.1 helix-turn-helix domain-containing protein (Sulfurisphaera tokodaii) [pid:58.1%25%2C q_cov:81.6%25%2C s_cov:86.9%25%2C Eval:4.4e-25],MGA_3185
sequence1	MetaGeneAnnotator	CDS	2897652	2898398	.	+	0	ID=MGA_3186;product=enoyl-CoA hydratase/isomerase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978033.1;translation=MNNKILYEKENNISWIIFNREDKLNALDFDTWSQLRDSLIKADNDDTNVIVLTGKGRAFSAGDDIYSMYNLSNPQESELFFENLFAAIDAILNLSKPLISAVNGLAYGGGCEILLLSDIVIAVNDAKFSISEGKLGLIPPMASAIGYKALGRRIMRLLLTAEEIDAKEAKEIGIVDYIVPKEELNSKILEIVKLINNLDKNSIKSIKNWTRIDRKMIEKAVRELSFMCLTSPAKERMRKFIEKRNKLT;locus_tag=LOCUS_31770;note=WP_010978033.1 enoyl-CoA hydratase/isomerase family protein (Sulfurisphaera tokodaii) [pid:55.8%25%2C q_cov:97.6%25%2C s_cov:99.6%25%2C Eval:1.6e-72],MGA_3186
sequence1	MetaGeneAnnotator	CDS	2898390	2898965	.	-	0	ID=MGA_3187;product=TenA family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979052.1;translation=MLEEIRNEIKDINEKILNHKFISLSEEGKIPVEKIELLYSQQWYIVNHDVRSISIMFSRAINQDELDFFMQAMEGDYEGLKILREVANKNVEPIPYAVAYTHYLAWLANYANPGEQVLALVVNLPIWSKNCKKLSEVFKGRIDTRFLELFAESKVDETSAEKIISRYKGRYLEIAKTIQAYELSFWNSLLS;locus_tag=LOCUS_31780;note=WP_010979052.1 TenA family transcriptional regulator (Sulfurisphaera tokodaii) [pid:65.1%25%2C q_cov:99.0%25%2C s_cov:95.3%25%2C Eval:2.1e-67],MGA_3187
sequence1	MetaGeneAnnotator	CDS	2899035	2899424	.	-	0	ID=MGA_3188;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979840.1;translation=MNIKQIMPKSLVTISKDSSIRDAALKMKENNVSSVLIMDGDKIIGIITERDITRAVADGKSCSEPAIDLATKNIIRIDSSKDIYEALDLMSLNKVRHLVVRECNKDIGVVSMRDVMNTITLLMAEESSY;locus_tag=LOCUS_31790;note=WP_010979840.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:45.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-28],MGA_3188
sequence1	MetaGeneAnnotator	CDS	2899472	2899759	.	-	0	ID=MGA_3189;product=4Fe-4S dicluster domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979841.1;translation=MKVEEKLYTLRYKRDDVSHLEIKDQNKCKECELKYGVPQPCITVCPANVYSWVEGKIVISYENCVECGACKIACPFNNIIWKYPRYGLGIALRYG;locus_tag=LOCUS_31800;note=WP_010979841.1 4Fe-4S dicluster domain-containing protein (Sulfurisphaera tokodaii) [pid:74.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-40],MGA_3189
sequence1	MetaGeneAnnotator	CDS	2899756	2900949	.	-	0	ID=MGA_3190;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979842.1;translation=MKFDVIVVGAGPSGSAASLTAAKAGMKVLTLERGPEPGSKNVSGAMVRLSEVAKVFDVNGVPFEREVKRVRLLLSSEKGDIRIDTYPKTKLLNVSRLKFDKYLSQQAENAGTLLITKTTALGIKKEGEYYRVITDRGEIEGDKVVLAEGANALVSMNIGIRPEFSPTNTVQAVKEVYTLGKDEVNKRFQLQGDTEGESWRVIASDPVPYAGFLYVYKDSVSIGVGVPMQTLIDKKMRPYEVLDSFEKKFGINELVKGGSLREYSAKIIPEQGFPEWKSCMDGIYSSGDAIGLINPLVFNGIGPAIISGSLAGKASVENWDCRKFALELMNVKEIREISKLRPLVKELLGKGYLSVYDEFLTNIAESWASGDLSELTQYKEIIPTLLKHVLLLWGGIA;locus_tag=LOCUS_31810;note=WP_010979842.1 NAD(P)/FAD-dependent oxidoreductase (Sulfurisphaera tokodaii) [pid:55.8%25%2C q_cov:98.5%25%2C s_cov:98.4%25%2C Eval:6.0e-116],MGA_3190
sequence1	MetaGeneAnnotator	CDS	2900946	2902742	.	-	0	ID=MGA_3191;product=FAD-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979843.1;translation=MVRIIVSIKQVPDADDLRVDPVTNTLVREGVPAVINPPDLHAIEEAVRLKERYGGEVIVITMGPPQAEISLREAIAMGADETYLITDRAMAGADTWATSYTVFKAIKKIGDADLYIFGRRAVDGETEQVGPQTAKWLGIPIVGYVSKVERVDKENNTLSVIRSTEFDEETVEVPLPATITVNEDINTPRQPDILSIIKSRSAKIHKLTKDDIGAEPNKIGLAGSPTKVIKVHPPPKTRNPELYKEKDPKGAAEWLTEKIKISLSQTQEKIEYKKPEPVAKVNGELWVYVDHINEEPNETSWEIMSEARRIADLLSTTLSAVIIGADNLVEDAFEYGADKVYLVKSNVKRYDNDIYTRALSIVAKKYKPEAIFFPGTKSSRELASTSAIEINTGLIADCTSFDVDSKGILYATRPDFGGKEMSTIICPNHRPVMMTVRSGVFKPIHNHKKGEIVEEKLDDEFSRYKILDYRRKEKRNVLTESDIVIGVGRGIKSPENIKIAEELADVLGGVVGVSKPLADMGWYPKDRQVGQTGNTIRPKLYIALGISGAVQHLVGISGARKIIAINIDPEAPIFNNCDYGVIGDLFEVVPELIKRLGK;locus_tag=LOCUS_31820;note=WP_010979843.1 FAD-binding protein (Sulfurisphaera tokodaii) [pid:73.6%25%2C q_cov:99.2%25%2C s_cov:98.5%25%2C Eval:6.5e-256],MGA_3191
sequence1	MetaGeneAnnotator	CDS	2902920	2904785	.	+	0	ID=MGA_3192;product=AMP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979872.1;translation=MNTEIFSLDKIKRLSEEARNNPERFWAHKTKYIDWFKKPRTILEGKPPNDRWFVDGLLNISYNAVDRHYKTNPENVAFYWINEKGETRTISYRDLYCEVNRAAYVLKELGIKRGDSVSLLMPSIPEALYFSLAVHRLGAVLVIHYLGLSEDTLAYRLKDSKSRIMILASSSLRNGKEINIKKMFDNVLEKFNVPIEKVLVIKRGEVETTNRDLIYNDVRPKGRVYIEPEAVESNEPATIYYTSGTTGRPKGLYHSNGGYIIALNWAFDSLLGPKKGDVWWTISELGWPVWPMANLYTIPIMGLTGVLFEGYIGYQPDLFSRIVERFGVNLVWSSTTTLYTLKSLGEESINSGDVSSLRIILNTGEPLNTGARKWLREQLKDVYIADAYWMTEHLLPIAATPAGLGEIPYKEGSAGIVFPGSSFNIVDDDGNPLPPRKKGYIVLNSVNPAMAKMVNDTNNEKMTKTYWSRFPGYFYTGDYGYVDEDGYLYVVGRADDIITKEGERVGTMEIESIVANHPSVAEASAIGYTDNDGTTKILVLAVPRAGFERSERLEQDIKTFLRNSGIFVDNVILVSRLPKTKSGKIMRRLIRSIIKNEEIGDISTLDNPDILYELRNSLSKK;locus_tag=LOCUS_31830;note=WP_010979872.1 AMP-binding protein (Sulfurisphaera tokodaii) [pid:70.0%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.8e-261],MGA_3192
sequence1	MetaGeneAnnotator	CDS	2904977	2905159	.	-	0	ID=MGA_3193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIVWSVWYNNKPYEPK;locus_tag=LOCUS_31840;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:90.0%25%2C q_cov:100.0%25%2C s_cov:16.8%25%2C Eval:1.2e-27%2C partial hit],frameshifted%2C insertion/deletion at around 2905214%2C2905295,MGA_3193
sequence1	MetaGeneAnnotator	CDS	2905293	2906030	.	-	0	ID=MGA_3194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHLVSSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKKTDFYDAQKLINMANKAKEYNYNPLKELVTLYIFLKDLEVKYKNRVKRALFLVSDEEKISKEMLEEFSKGNFKIQLYNLEYTKIVLEEIEVLSKALLETSEKIKEVEKMIQSQSENHVLLTIPGIGKLSG;locus_tag=LOCUS_31850;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:70.2%25%2C q_cov:99.6%25%2C s_cov:69.5%25%2C Eval:7.5e-96%2C partial hit],frameshifted%2C insertion/deletion at around 2905214%2C2905295,MGA_3194
sequence1	MetaGeneAnnotator	CDS	2906339	2906779	.	-	0	ID=MGA_3195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLNEEKLTDEEIKEYSKLLGRKLTRIEAFILKQLLDLLNIIEEQIKEVENEIMKFLPEEAVVTKIPGIGPISAATIYAELGDVSRFESSKQAASYAGVSGLSRAGRPNFTTVSSRGISTYPAFYSLLQGPLRTRSNLMASIKPC;locus_tag=LOCUS_31860;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:51.1%25%2C q_cov:63.7%25%2C s_cov:24.4%25%2C Eval:1.2e-18%2C partial hit],frameshifted%2C insertion/deletion at around 2906801%2C2906924%2C2906471,MGA_3195
sequence1	MetaGeneAnnotator	CDS	2906901	2907281	.	-	0	ID=MGA_3196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERKIKPKVFAIDVGESRLVATKMEINNNTVKEADTREFKYNEEGLKELIKFLEGYEEGIMEATGVYFYHVYNVLRDKGLKVNVINPVQTVEVLGKKTDKNDSIRLAIAYAAGTVKGSYQREKCKN;locus_tag=LOCUS_31870;note=WP_010978850.1 IS110-like element ISSto4 family transposase (Sulfurisphaera tokodaii) [pid:52.0%25%2C q_cov:94.4%25%2C s_cov:31.9%25%2C Eval:5.2e-31%2C partial hit],frameshifted%2C insertion/deletion at around 2906801%2C2906924,MGA_3196
sequence1	MetaGeneAnnotator	CDS	2907888	2908439	.	+	0	ID=MGA_3197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKKISILKYATIISIFIIIPLIVLSFLVYFLALYFTKSSTISSEVTTVTTIPILLGGISAMRWYMEKNELISPFHKNIVVYNLDSNDNVEIPEELIRTYETRMLYFLENNLYNEYLKTLSFVVSFYLKNAIVNNDVRSFLKAKDLIKKGDCIVKEKKIKNNVIELFQLVRKKVEDYSKKFE;locus_tag=LOCUS_31880;note=MGA_3197
sequence1	MetaGeneAnnotator	CDS	2908443	2909780	.	-	0	ID=MGA_3198;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979148.1;translation=MDDSIKDVDFSKWSKAHWSLFSSLLIGFFMWGVIASIAPIFYPSVNAVWFLIIPILAQLAGDLGISALSDMKLGRRGTFFITMGLYGTGSLIIFITSSLASASLISSSSITFLAIIVLGIILADFGIEGEVPTSLSYAAETMPLKLRESMLVLLPNFDNVGAMVAALISYFTYSLSDSYLIELRTLGLLAIVLVGIALVMRYMTPESVRWLVKAGKEKDAEKEAKKFFVPKNVSGIWHVPKKTSFLTRFLFLVIISVSQYLTYGLMAYIIADYYFKGATVDLIIFVANLGASVAGFIAAMIAGRLGSRKFALAAFSGGTLTMIPILFLVTSIIPFSIGIFYALLTANMFFSEFGWAVRTIFEPTLMPIKARAFYIGLVRVAPMLSYAASIQLTSSFSEIQFVIFNLILWLLGAGGSFMWFVKGYDTNMVPLEETSQEPLKENLKH;locus_tag=LOCUS_31890;note=WP_010979148.1 MFS transporter (Sulfurisphaera tokodaii) [pid:48.6%25%2C q_cov:97.3%25%2C s_cov:99.5%25%2C Eval:3.6e-112],MGA_3198
sequence1	MetaGeneAnnotator	CDS	2910068	2910988	.	+	0	ID=MGA_3199;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064724.1;translation=MPLDPQIKEMLNKISLPKIDLSKISIEDFRKSSNQLFNDPIQEPIGKTQDMEINGSNGKIRIRIYFPTEYKKKYPIIMYYHGGGFVFGNIETHDNICRLLSNMSGFAVISVDYRLAPEYKFPTAVIDSYDAVRWVADNGDKLDLDTSKIAVAGDSAGGNISASISLMDRDKGENIIKYQALIYPATNMVDNSPSINEFGEGYFLTYELMRFFGLSYFKEAKDALNPYASPIFGNLDKLPPSIVITAEYDPLRDQGELYSYLLRKNGNISTCTRYKGMIHGFLSFYRYVDAGKDAMAQIAGVLRYKL;locus_tag=LOCUS_31900;note=WP_048064724.1 alpha/beta hydrolase (Archaeoglobus fulgidus) [pid:46.3%25%2C q_cov:98.7%25%2C s_cov:99.0%25%2C Eval:1.5e-78],MGA_3199
sequence1	MetaGeneAnnotator	CDS	2911005	2911466	.	-	0	ID=MGA_3200;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978052.1;translation=MNVRRAKEEEIDYLVDMFSRMYRLNSEFDPLLQVPDNLEEKIQKILKEDFKKDNVILAVAEENGKVIGSARVVIANRDFYIPEKVGIIQEIYVYPAYRRRNVGEKLLDYLYSELKKNDISVILALFPSKNIISTSFYTKKGFRELHNEFIRQI;locus_tag=LOCUS_31910;note=WP_010978052.1 GNAT family N-acetyltransferase (Sulfurisphaera tokodaii) [pid:62.3%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:2.1e-54],MGA_3200
sequence1	MetaGeneAnnotator	CDS	2911554	2911898	.	-	0	ID=MGA_3201;product=metalloregulator ArsR/SmtB family transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846473.1;translation=MKNMESLLNELEFLFQALSDKTRLQIVFLLLNGEKSVQEISQELGKSQSSISHHLACLKNCGIVKTRRDGKFSYYSINGKEIRDLIMLATNHVSNYSKSILSCSIVKEEKKSVP;locus_tag=LOCUS_31920;note=WP_052846473.1 metalloregulator ArsR/SmtB family transcription factor (Sulfurisphaera tokodaii) [pid:58.6%25%2C q_cov:96.5%25%2C s_cov:98.2%25%2C Eval:6.5e-29],MGA_3201
sequence1	MetaGeneAnnotator	CDS	2912004	2912159	.	+	0	ID=MGA_3202;product=TRASH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846472.1;translation=MKMRIGIKDEGLKCEHCGAPITEEDMYIREINGTKHYFCCSHCADAYEREK;locus_tag=LOCUS_31930;note=WP_052846472.1 TRASH domain-containing protein (Sulfurisphaera tokodaii) [pid:59.2%25%2C q_cov:96.1%25%2C s_cov:92.2%25%2C Eval:1.1e-12],MGA_3202
sequence1	MetaGeneAnnotator	CDS	2912159	2913496	.	+	0	ID=MGA_3203;product=mercury(II) reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846936.1;translation=MEELTIIGYGAAGFAATIRANELGITPTLIGYGPLGGTCVNVGCVPSKKVLRIGEEYYLGKKRCKCNEDFLEAFKEEKKLVEEMRKAKYEDVLSSYDVKLIEGKAHFLSPNSIKIGDKIIESKKFIISTGSSPFIPEIKGLKELGYWTNVEALNPDRKIDSLVIIGGRAQALEFSQMYKRLGVDVAILQRSKTLIPDWEPEIALEMKKILEEEGIIVVTDVKIKEVKKGNNKVIITDKGEIEADEILIATGRKPNTDLNLEVAGVKIGNNGGILVNEELMTSNPNIYAAGDVVGGPMLEALAGKEGSVAAENAILGSHKKIDMLSVPQAIFTQPNAAKVGLTSFEAKNFDSRIVKMKDVAKANIIDSKGLIKMIIDKNNKKILGVHILSDNAAEVINEAALSIKMRATVDDIIDTVHVFPTMSESLKLTALSFNRDITKMSCCVD;locus_tag=LOCUS_31940;gene=merA;EC_number=1.16.1.1;note=WP_052846936.1 mercury(II) reductase (Sulfurisphaera tokodaii) [pid:66.5%25%2C q_cov:99.3%25%2C s_cov:99.6%25%2C Eval:3.3e-166],MGA_3203
sequence1	MetaGeneAnnotator	CDS	2913493	2914551	.	-	0	ID=MGA_3204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSSSFVIKSRAILLGFAINSAAPLILAMTHENPLTSILSLLPMIALTMMVYYYLQIEWTKGGFYSYSKKISTLLGKMQLYTWILSYFLYIIYTIDYIDFYILNLPNTIADTLTIVLPIAASILVFSGLVYFALIGTAVIQVLLSLPIMWRFSVNLKPEPFNSLFINILSSSILLACITLIAYIDGDKKYANVVIYGFSISAALLIIGDFFIPPRIILELSSIGDFSLILAEYTALRNLFDFIGITRSISSYILPSSIVLLSVLSLLNYNIFYLSTIAPSDTALFISLFIPSILFSFYKKGIGYLLSIINGGLMIYGIYSSITTFHGIYFYDSIIPPIIAVIIPLIEKKIRS;locus_tag=LOCUS_31950;note=MGA_3204
sequence1	MetaGeneAnnotator	CDS	2914610	2915605	.	-	0	ID=MGA_3205;product=alcohol dehydrogenase catalytic domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846753.1;translation=MKALLFEKSGIDNLKVADVPKPEVGAHDVRIKVKMAGVNPIDYFVVNALPVKPMPHIAGAEVYGEVDMIGEHVKNVRSGDRVIVYNRIFDGTCDMCLSSMEMLCRNGGIMSVITNGGYAEYLTVPDKNVFKVPDYMSDELATSIPVSALTAYHALKTAEVKATDTVVIFGASGNTGQFAVQFAKKMGAIVIAVSKKEWLKDFGANYIIGYDNVREEISRITKGRMADVVVNSVGSSVWDSSLQSLGVTGRIVFFGGITGSDVKLNLSQIYSNHVTIIGTTGGRRLDLIEILNICEDCKVKIWKTYSLDQGQDALKALFDPSRNGRILIKIS;locus_tag=LOCUS_31960;note=WP_052846753.1 alcohol dehydrogenase catalytic domain-containing protein (Sulfurisphaera tokodaii) [pid:62.4%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.1e-122],MGA_3205
sequence1	MetaGeneAnnotator	CDS	2915672	2915944	.	-	0	ID=MGA_3206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846795.1;translation=MGLKETEKEIIIEMPNLSPPIRIMKDQIVKMEEASPPDEICRAFMNFSQKGVILAGTTIDGKTSYYNIHPGEKCLKIVLKDGRTFFVGKK;locus_tag=LOCUS_31970;note=WP_052846795.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:67.1%25%2C q_cov:94.4%25%2C s_cov:97.7%25%2C Eval:5.4e-28],MGA_3206
sequence1	MetaGeneAnnotator	CDS	2916088	2916732	.	-	0	ID=MGA_3207;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978562.1;translation=MKLYQKFPDTQVLTTLGPIDFYKDVFGKGKWLFLFAHPADFTPVCTTEFVAFSKAYEEFKKLNVELIGMSVDSIYSHIAWLSDIENRFGIKVPFPLIADPDKKLARLLDIVDEASGVTIRAVFLVNPEGTIRFMAYYPIEYGRKIDELLRITKAAIVNYKAKVSLPVDWQPGDDVIVPTATTLNEAELRMKLPNAKSWYLVYKKYEELPPDQRV;locus_tag=LOCUS_31980;EC_number=1.11.1.24;note=WP_010978562.1 peroxiredoxin (Sulfurisphaera) [pid:78.0%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:1.7e-98],MGA_3207
sequence1	MetaGeneAnnotator	CDS	2916948	2917184	.	+	0	ID=MGA_3208;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010902171.1;translation=MYNHKFLRLPCSAKLVYKILEIKQSATFQEIKSETGLPDRTIREAIKKLKEEGLIKTGICLDDTRSRVYIISECLKIE;locus_tag=LOCUS_31990;note=WP_010902171.1 helix-turn-helix domain-containing protein (Halobacterium) [pid:38.0%25%2C q_cov:91.0%25%2C s_cov:79.8%25%2C Eval:1.1e-07],MGA_3208
sequence1	MetaGeneAnnotator	CDS	2917279	2918439	.	+	0	ID=MGA_3209;product=acyl-CoA dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763576.1;translation=MDFEFSEEETLFREEIREYLTKNLRPMVPKIDESGIPRSFVKDASKLGIWAMPVSKDVGGQEASFIMSSIAAEEIARADFSMATVVMFLLESGWGYVLDKYGSKSIREEVLPRVTSGDWFLGIASTEPSGGSDIGNIKTRAIRENDKYVINGEKSYISGVLEAKDWGGGHLTLVRTSPNGNKGISMIYVPINEEGIEIAKINNMGRMGISSAIIRYNNVKIPAKNIVGEENKGFYQAMDGFNHARVLVSAACIGASEAIFDIGIEYLKNREAFGKKLKDFQSIAFEAADLKTRIEMARLLTYKAAWALDHEEKYKSEIPSLVAMTKMVGPQVAFDVVKSVMMWMGAYGYSKDALIEIAFRGIVSYIVGAEGALNIMRIIISKGIFG;locus_tag=LOCUS_32000;note=WP_011763576.1 acyl-CoA dehydrogenase family protein (Pyrobaculum islandicum) [pid:36.5%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:4.2e-66],MGA_3209
sequence1	MetaGeneAnnotator	CDS	2918395	2919810	.	-	0	ID=MGA_3210;product=FAD binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978032.1;translation=MVFALGIPKSFKYERPLSITDAIDLLQENTRAKPIAGGQSLIPMLKLRVVDIDEVIDLNELQELRYIKLGDSIRIGALLTHNEIALNKTLQEKFPSLTKAAWTIGDLQVRNRGTIGGSISYADPSGNYFPVLLTLDAEVSIVGKCRKQIKLEDFVKGPYSTELNEGEILESIIIPNDERVTNFGVIKRGGSAYPEALVAVSFKIDNEEKIVSSRIAIGGVFSKPVLFKDELIGNKISDIRKIDLDNFTKKLIDSVSLDVLNDIHASKDYRIRLVRNLLMETLRGNNEIRVPQRDIAITWKTGESIKAQDIYSIKLKVNNEEITGNVEGRTLLLDFLRNNGFTEVKRGCDEGKCGACTVIVNGKAIKSCNILAIQVLNKDIRTIKGLNDPGYIQKSFLENYAMQCGYCTHGFMMTVYDYLNNIDQSADNEIMKNSIKNICRCTGYINIIKAIKDASKELSKNSLRDNNSHNV;locus_tag=LOCUS_32010;note=WP_010978032.1 FAD binding domain-containing protein (Sulfurisphaera tokodaii) [pid:48.2%25%2C q_cov:96.6%25%2C s_cov:99.3%25%2C Eval:1.5e-111],MGA_3210
sequence1	MetaGeneAnnotator	CDS	2919810	2922128	.	-	0	ID=MGA_3211;product=xanthine dehydrogenase family protein molybdopterin-binding subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978031.1;translation=MSTHYIEGLRAVNGSGEYISDIPNPPGTMYMAIYRSYLPHGIIKKVDVSEVFNHGGIAFTNTDLLRIIKNPFPLALNSPINYYPVANKKVRFVGEPLAIVLSRDYYKAIDLLEYVNADLEPIIPVINIQDALEKKALIHEELGSNIAMSRKMTFGDVEETFSNNIIIRNDFKIARHSSAPLETYGILAYKSDLLNIIANFQGPMLQVHFISRALGIPENQIRLLTPRDIGGSFGIKYSLYPYMTIAAAASILSGHPIRWIESRTENFISSSASGDREGYVELASDRTGKIKGIKYKFYEDVGAYPRPPEPGALFRVQGNLNGAYDIRNIQAEYVVVLTNKSPTGLNRGYGAPQFYFALETAVDKLADELKMDPLEIRKRNLIKVFDKKIGNDYFYETSTGGLYPKQDYERVINTLEEEYRKFKKEPYVGIGISVFVEPSGTNLGYVDLSVEGSKRRHTHSASGDYVIMSVNYDGTISVFVNGTNEGLGHETVIAETVAREFCIDPEKIKVEVRIDTSIPWTLSSGSYSSRFAPIVMSAVIKASEELKNRLKDIAKKYLEAKDVSFSEGKFSDIQNPSKVVDLKTLASAFHWDPYSAQGNLSVVMYYSSPFLRPPDNDRINSSLAYGIQAQMAIVKIDPLTYDVKIEKFIIIHDVGKILKKELLEGQVLGSLFHGIDMALYEKIAYDDNGNPIVTTFDSYETPTFSEALGIDVEIKHFETITDYLPSKAFGAGEGPIMGVPSTILNAISNAIGKRITQIPISPEKIMKIIKGD;locus_tag=LOCUS_32020;note=WP_010978031.1 xanthine dehydrogenase family protein molybdopterin-binding subunit (Sulfurisphaera tokodaii) [pid:61.3%25%2C q_cov:97.9%25%2C s_cov:99.3%25%2C Eval:4.5e-276],MGA_3211
sequence1	MetaGeneAnnotator	CDS	2922199	2922660	.	-	0	ID=MGA_3212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846628.1;translation=MKIKGYLGHVKVDNQGNVKESDIENAKDVAEILRNNIQKGNEEAKELGFSKINGFAMFGSQKSLAFMKNEAVLVDTKKADWEELFVKYTFIKSWLVGGIVLTVLSIIMYYLAIFTNYLDYFAPEPRLYAPTIILLIGIFMLALSKSKYSYRLE;locus_tag=LOCUS_32030;note=WP_052846628.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:55.3%25%2C q_cov:98.7%25%2C s_cov:96.8%25%2C Eval:6.2e-43],MGA_3212
sequence1	MetaGeneAnnotator	CDS	2922657	2922962	.	-	0	ID=MGA_3213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979758.1;translation=MSYEDIPGLIGVYKISGSTITKVYGQDLKLNSEKLLNILMENMRIGEEESRKIGLGSFMGFAMILDNLGIAYLNNTIILVDAVKTNWSKVVKELEKGVISV;locus_tag=LOCUS_32040;note=WP_010979758.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:47.5%25%2C q_cov:97.0%25%2C s_cov:91.7%25%2C Eval:8.9e-23],MGA_3213
sequence1	MetaGeneAnnotator	CDS	2923256	2924263	.	-	0	ID=MGA_3214;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980688.1;translation=MIIKCNDNYVPNVIIDVDRCVGCYMCQRACALAKCIQINNFTNIAEVIDPNDCTGCMACERSCPYNCISVINYMDPLLRAKIVISRVKRFMRSPVITVEEDHTIREGAKIMVSHNIASLIVNNSIVTESDILSSDDLNKELKYIAKEAICIDGLCEIYKALETMTYYQISHLPVVSNDRIVGMISFRDILRANARSSIIKDDRYTYIQANNKIKLLNIAESVDVLDYTLTLREAIDIMMKNRMRALILKKSNKLGIFTYRDAIKMIAQDKNFDDFIEGRFDVKIFRADDELNSLIPWIIEKNNRHAIVVSNDNVLLLSVKDIVGRSIWIQRLNIK;locus_tag=LOCUS_32050;note=WP_010980688.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:40.3%25%2C q_cov:95.2%25%2C s_cov:97.9%25%2C Eval:2.3e-54],MGA_3214
sequence1	MetaGeneAnnotator	CDS	2924272	2926092	.	-	0	ID=MGA_3215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEYNTQIKNTYRIKINEKRFNFLTAILFVISGITTFISILSRNILFVESNILIFTTLGTILFINFFIDFIHKGNTNSWIYVNYKLNYAKYQENICSHKPSILEGFLSKIFKKNWIHSAIIMPSFIVFYIVMVIGIIGYQKLNSVGLSLVNFAPDISWLFWFPLLWLLTWLANGRMWCQTCPFSGQAEWIQRMHLWRKSSKKLGLNLRWPIKYSTILYSAIGFSVLTWVEEFYNIGGPGIPELTSVVLIYIALLELAIALIFQDRTFCRTLCPLSAPLAVNTMISPLGTFRAKDKEVCKSCSTKDCMKGNDKHFGCPWFASPGSVETSPFCGLASDCYRACPHDNIDWKVKRFPWIDDVIGNNRKRLDIALSVLILTGVVFFQFFNALPLYTMIDKWLSYATGWNDIARILTPGISKYGFTTYGYPMPLDYIILTSVPLIIVYIVSNIRKNDDVPSKAILTSVSYSMIPIFASSILARNLPKLLGGALLIFNEVPYLDVKSYHGIWYTFLERLGSHPSSATAEWWVLIVMEAVLIFGSWLSFRISKELSKKDGIPLSYYLVCDAIISLLFILITYWMSSPDSSIYPFYNKYLGNLIYNPLNADPPF;locus_tag=LOCUS_32060;note=WP_011140924.1 sigma 54-interacting transcriptional regulator (Gloeobacter violaceus) [pid:23.9%25%2C q_cov:61.6%25%2C s_cov:40.7%25%2C Eval:9.5e-13%2C partial hit],MGA_3215
sequence1	MetaGeneAnnotator	CDS	2926295	2926489	.	-	0	ID=MGA_3216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTEGFRSLVYSVEIVFIFVFIYLFDILYIKNGILFYLILFIAVGVSLYLGYLLVRSISKYFNY;locus_tag=LOCUS_32070;note=MGA_3216
sequence1	MetaGeneAnnotator	CDS	2926489	2926773	.	-	0	ID=MGA_3217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846828.1;translation=MLEIYAIFGLMAFSLVLAGVMTLVLLGIAENDIVESLNLYSISKIELRLIFIITLYSIFTGVLESFVLNPYGIILSFESIPYLVVIFSGKMRRD;locus_tag=LOCUS_32080;note=WP_052846828.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:52.6%25%2C q_cov:98.9%25%2C s_cov:99.0%25%2C Eval:2.5e-20],MGA_3217
sequence1	MetaGeneAnnotator	CDS	2926766	2928865	.	-	0	ID=MGA_3218;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980670.1;translation=MSGDLHIATISGNRKIKQRYLAFLDNGLMTECKILPGDIIIIYGDKIAPFTVQENRENERGIVVSEDDLRWLGVRNGEKITFKKANYIQLNSITLAPSVQKQYDERKISLELRGKPVMKRLPIFTKEGEFVVVSLSPQAEVGIIGGETSINIAYSSVKIAQKDIPYVTLEDVGGLLEQIQTLMEIAEISLLKPEIPRLFGLRAPKGVLLYGPPGTGKTLLAKALANSVMANFFYISGPEIASKYYGESEKKLREIFEQATKDSPSIVFIDEIDAIAPSRDSAASEADRRIVAQLLTLMDGVTSRSGILIIGATNRPNAIDPALRRPGRFDREIEIPVPGKKERLEILKIHTRRLKLSSDVDLEKIAEITHGFVGADLEALVREAALDALKRTSNYEDILVTMSDFTDAMKRIQPSALREFRIEIPNTTWEDVIGLDDVKLELKEVVEWPLKKPELYEYMKAEIPSGILLYGPPGTGKTLLARAVAHESGANFIAVNGPELLNMWVGESERAVREVFKKARQASPTIVFFDEIDSLAVARGTDPNRVTERIVSQLLTEMDGISKRNERVTVISATNRPDILDPALLRPGRLEKLIYVPPPDLNGRKALFLHLISKHIHDDKIDYDYLAKATNFYTPADINGIVNRAVLLAIRRGMITAEKPKLTQEDLENAIKSIRPTLTQSMLTYYQSFREKMRQSGYA;locus_tag=LOCUS_32090;note=WP_010980670.1 AAA family ATPase (Sulfurisphaera tokodaii) [pid:68.3%25%2C q_cov:98.0%25%2C s_cov:98.0%25%2C Eval:3.5e-272],MGA_3218
sequence1	MetaGeneAnnotator	CDS	2928943	2930724	.	-	0	ID=MGA_3219;product=cbb3-type cytochrome c oxidase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980682.1;translation=MASREEIRRRDLEKLSEWAQEYEEVKDRESKRSAIVKVFYTEEYKMLALKNILFAVVWLFVGGAFALFLRSQAGLTSTGVPVVVSPQYYFQAMTNHVMDMIFGAVFSTVFAVSFYMIPALNGSRLIKWPKIANAGLWIATIGLFMMNLGGVENQYLFTFLNPLRASPTWYIGYAAMVVGEWMEMVSVLGTSFLGRVQGKLVPTAIGFIVMDMIMMALANISVFIDTIWSLLSPIGGLGVYIFGVPNAEIWKGLFWFADHPLVYFAPYTLTGAIIAIIPLYAKRPVYSVRFARWLIPVLFVLGASVYVHHLVDDPWPLVLRDIFAQTSTALIAIPFAALWLLFFITLGDPRKLKWDVGLAFIFAAAVWNIIGGIQAEPTQPTPSVDPTVHNTLWLPSHFHIMLALYSVGGLLGALYVVGPDLWGRKWYSERLGWLHFWGWEAGMGMLVTAFAIGGFYGAIRREVAWPAFYEVYYQLAMIGGWLAGFATIIFAYNLILTLLYGQKIKQTDLPMWAVQTIALERLGMRREGYKEEEMPIALPADGMIRLVTENGRTASSEGSASGVSMSNIKAANNDEKINLSSETKINNDLGKVK;locus_tag=LOCUS_32100;note=WP_010980682.1 cbb3-type cytochrome c oxidase subunit I (Sulfurisphaera tokodaii) [pid:72.5%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:4.9e-264],MGA_3219
sequence1	MetaGeneAnnotator	CDS	2930830	2932191	.	-	0	ID=MGA_3220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRLSETLVLLAIFLLSFSTYVLYNEINNRKPLSINLDSYRKIFMGAILIFISIILPTSVSFSLLKIILDILAGGIIGTLLSSKSKVLFYVSITLTVLIISFYDIFYSSFLLIPVSLLTGFFGSLGLKDMKKWVKLGIMHVIAWTMIMPGPISLILGYPLPFFNFSPGELYQLWIFTWIAGTPIAWFAGIYYLQYLRDSMSEINFSRIRFSPTTEFSGIKWILIGSFAIILQILFFITHEGYFVDYNGFDYNFLVTMTITSTLVMLFGSVAVGYGIYESIKSKFTLPKINRKDYAIFSTIYGLLISVLGGIIHFNVSGFPYPHVYLFMFGMPMMDPSVLLYFPPYIGIYIDPLEFMQMIAVSLIGGYLISLIRASSNYRKNAYALSLGALGICPACFLSTYVLGLISASLGASLLFSLSNQLIISFSADVALFLTLIFTLRRNRSYCEIDFKK;locus_tag=LOCUS_32110;note=WP_069168216.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:42.4%25%2C q_cov:96.9%25%2C s_cov:72.1%25%2C Eval:1.7e-96%2C partial hit],MGA_3220
sequence1	MetaGeneAnnotator	CDS	2932190	2932339	.	+	0	ID=MGA_3221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDIENKNGNDEVAEPINAVKSSHEHESDVAIKPNEPTIPFLAPVFKNL;locus_tag=LOCUS_32120;note=MGA_3221
sequence1	MetaGeneAnnotator	CDS	2932649	2932804	.	-	0	ID=MGA_3222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIFESEADLWLFGFLLMALIYPIWFILLIIKADKDPQVDPLQVAKQESGE;locus_tag=LOCUS_32130;note=MGA_3222
sequence1	MetaGeneAnnotator	CDS	2932869	2933465	.	-	0	ID=MGA_3223;product=DUF1404 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156015659.1;translation=MKDKKPYLFIGFAMIIASINPFSLYLANILEIIRVSFDMMLVWGAGLIGIWLADYMFLKGIAKSLLSFNFTTRGLVLAWGIAGSLTCYWYFPGPFDMSVISSSIRFLQILSFIIAGIIGGIGWYGMTNVWKSISMFTIFSMMASMAEIYLEMGTYYETNLYPAYSTTQFVDTAYFLFAMAFAPSTFYMVKWLKDLNLF;locus_tag=LOCUS_32140;note=WP_156015659.1 DUF1404 family protein (Sulfurisphaera ohwakuensis) [pid:56.1%25%2C q_cov:99.0%25%2C s_cov:97.5%25%2C Eval:2.5e-58],MGA_3223
sequence1	MetaGeneAnnotator	CDS	2933462	2933659	.	-	0	ID=MGA_3224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGVKFARRVLGSVIAAIGVSMWIADLMLVFTLPYSLYEDDTLVALVPISGLILVVGGLLLGLWN;locus_tag=LOCUS_32150;note=WP_010980676.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:60.0%25%2C q_cov:69.2%25%2C s_cov:69.2%25%2C Eval:2.3e-10%2C partial hit],MGA_3224
sequence1	MetaGeneAnnotator	CDS	2933780	2934457	.	-	0	ID=MGA_3225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156015051.1;translation=MMALMLVGAIIYLYSPSNVTLGIAVAINMISMIIILAFFFSVAENLSKQVILSSKILYSLASLLVLNEALMGTTFSLAEFGKSYFSSITEDMTTSLNSIWFFYPMMVEMLFTLVIGIVNSNQIGDYVYYVIPLIGIAAFPPTVLNFNVWIYSTLAIDIFLTIYGIMKSKLIWKILYAILIITLIPILFNINIFFGLGIAISMVYFYRVLFMEARIRKEKENSMNR;locus_tag=LOCUS_32160;note=WP_156015051.1 hypothetical protein (Sulfurisphaera ohwakuensis) [pid:41.4%25%2C q_cov:95.6%25%2C s_cov:87.1%25%2C Eval:5.1e-40],MGA_3225
sequence1	MetaGeneAnnotator	CDS	2934619	2935071	.	-	0	ID=MGA_3226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980684.1;translation=MNKIVFFLLTIIVIIGIIMVSYPVISSIFSPTSQIPIYKESYGNYSVMIYNQSNLSLFKRNVTGVMLVINNIDQEKLGITYVQNSTNTYEVRYIFIKESVVLNNGDVTTAYVNSSEIYIGEDTLLIPIHLSPGTYTILFTNGNFFSVTIS;locus_tag=LOCUS_32170;note=WP_010980684.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:42.0%25%2C q_cov:91.3%25%2C s_cov:92.2%25%2C Eval:2.2e-18],MGA_3226
sequence1	MetaGeneAnnotator	CDS	2935068	2935271	.	-	0	ID=MGA_3227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_235185610.1;translation=MNVKMWGLILAGAVIDAVSIIVMVIYGYGFMVNPAAFAFSYSSTDYLGIMLSIVGLALIMIGGALKK;locus_tag=LOCUS_32180;note=WP_235185610.1 hypothetical protein (Candidatus Acidianus copahuensis) [pid:52.2%25%2C q_cov:100.0%25%2C s_cov:94.4%25%2C Eval:3.2e-12],MGA_3227
sequence1	MetaGeneAnnotator	CDS	2936206	2936799	.	+	0	ID=MGA_3228;product=heme/copper-type cytochrome/quinol oxidase subunit 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980681.1;translation=MKRGTVIALFFILVIVAALSLEIQYSSYDYIGYNPHNNAGEGVVHAAYSNALGSYKGPYVIIYVTGQQWHWDFGPHDKVWTNLTVVPVDEPVLFIIHSVDVFHEFFIQSAASNFSLGFNFGAEAVPGYYSYIVLVFPKPGYYHVACAEYCGTAGVGLGHSWLVGTILATPNATLAKEITGGVLPQGTWDPYVVNGTV;locus_tag=LOCUS_32190;note=WP_010980681.1 heme/copper-type cytochrome/quinol oxidase subunit 2 (Sulfurisphaera tokodaii) [pid:81.5%25%2C q_cov:99.0%25%2C s_cov:97.0%25%2C Eval:6.2e-94],MGA_3228
sequence1	MetaGeneAnnotator	CDS	2936803	2937069	.	+	0	ID=MGA_3229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKTLIYITGILIIIGILLMAFGTTKYVYPREQFSINGMYEITGNTTPNYFINFFGLAIFLFGIGGLLSYFEINKKGVKSNNKGDING;locus_tag=LOCUS_32200;note=MGA_3229
sequence1	MetaGeneAnnotator	CDS	2937062	2938705	.	+	0	ID=MGA_3230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANGYMKIFVLGLIIVLAILAATYGADYALNSASQATSTVTAYYVPNAEPNLGDPGSELFWSTIPWTTVPLVPTIPVPGGASGHTQFVYVKAAWTYINGTPYIFILMKARNHGFISWNACPERTPDGQLWQPFSPVHTGWWVVNVSYSSTNQSLASVYYIPQSEQIQYPPGYNLGNPIQIIVLNESGHLVGEILNAINPQGVPLNKGQPIIIKSLYLNYSGHIITALSQFLAMGLNDTTWSQSAYNEFYPEDTAEYVSLFYNSTYTYPERFAILWSLGGVPSDWYQVAYTPHMMPGTSGAISAGQDELWILNNNPRANNTQDFGYPGNTLFSRNSTPPYYHYPQYKDPLNLGYLENQGLIADAYVNGSSIYYIGGMPFIGFPSINNPHYNAWDLMNGLYNSSQLWDPSIVATGLKYVHTQTGVYWYAEFVRTFTTMGVSGGQGMSHYQVQLYPGHSYHVAFAVFQGGAGESVDFKSISFWYTIYIQPAPGSSSMLVPAIFIINSIAAPIIFITFFNKFNIIKELDAMSIKLSQNIIKILKVNRSENR;locus_tag=LOCUS_32210;note=WP_010980680.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:66.3%25%2C q_cov:73.9%25%2C s_cov:97.8%25%2C Eval:4.3e-158%2C partial hit],MGA_3230
sequence1	MetaGeneAnnotator	CDS	2938692	2939657	.	+	0	ID=MGA_3231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980678.1;translation=MKIDRDIKLIHFLYLYIFAQFFELFFNREFLVSVLPFGLAGISVTKIEPYLKAFYIIGGTAYTLMLILQPILLILVIIKVKNNLSRGLLSAILYLTLLADAIHIAYGVNNTTLQIPAIFSIIYAILLAITPLYLMIRQNKKILLAIFIPDVLAYCFLISTWLTNALGNSSIGIVSGYSGFLMAYAVLFSGIAFITYSILKKINLIKILPFMTVGLFVAIASAFNLIPGWDFAIGVTFPYIFGILGIRDWMPPIFFLIAAITFGCAIEMRKIDKPLALSVLSILASTLIFDSVPITTYLIAPLVGTTFLYLIQTNKVETLKK;locus_tag=LOCUS_32220;note=WP_010980678.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:40.6%25%2C q_cov:96.6%25%2C s_cov:97.2%25%2C Eval:3.0e-59],MGA_3231
sequence1	MetaGeneAnnotator	CDS	2940767	2941900	.	-	0	ID=MGA_3232;product=citrate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979874.1;translation=MSEISRGLENVFIKATSLTYIDGEKGILRYGGYNIEDLVRNCSFEEVIHLMLYGDLPNSEQLKKVKERINESYNVPPPVIRIMEELPHDADAIAMMETAFSALASYYNYPWKKGENKERALEIIAKASTIVANVYRLKEGQKPEIPEPSESYAKSFLRATFSREPSEEEVDAMNAALILYTDHEVPASTTAALVTSSTLSDMYSCIVSALAALKGPLHGGAAEAAFSQFLEIKDPSNVEEWFNENVIKEKKRLMGFGHRVYKTYDPRAKLFKRYAEELARTPESKKILDIAERLEDIGIKNFGEKKIYPNTDFYSGIVFYSIGFPVYMFTSLFALSRVLGWLAHIIEYVEDQHRLIRPRALYVGPIKRDFIPLSSRN;locus_tag=LOCUS_32230;gene=gltA;EC_number=2.3.3.16;note=WP_010979874.1 citrate synthase (Sulfurisphaera tokodaii) [pid:68.3%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:1.6e-147],MGA_3232
sequence1	MetaGeneAnnotator	CDS	2941903	2942328	.	-	0	ID=MGA_3233;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762010.1;translation=MTSKVKDLISRSPVTIEKGTSTLDAVKTMASLNMGSVIITDHGNVVGIITERDIIRALAKGLSINEPVEKLGTVGNLITVTEEDSIYVAAEKMSKHNIRHLIVLDTEGKFKGVISMRDMIRESHVLKALSSISEEEFVGSD;locus_tag=LOCUS_32240;note=WP_011762010.1 CBS domain-containing protein (Pyrobaculum islandicum) [pid:46.2%25%2C q_cov:91.5%25%2C s_cov:92.1%25%2C Eval:1.3e-27],MGA_3233
sequence1	MetaGeneAnnotator	CDS	2942353	2943165	.	-	0	ID=MGA_3234;product=methylisocitrate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846659.1;translation=MIVPGVFNPFTALLAEKVGFKAVYLSGGALTSSFGIPDIGLISLDELSYMVRKIREVSSIPMIVDADTGFGEAINVYRTVKILESSGADAIQIEDQKMPKKCGHLDGKEVVDKDTMLSKIKAALKARKNALIIARVDSRDVISIEDAIERAKEYVEAGADIIFPEALHSKEEFERFSKEVKAPLLANMTEFGKTPLISAEEFKSMGYRYVIFPVTIFRVAAKAMKDALEILKNEGSQRSLMEKMMTRKEQYDIINYSFYEKLDKELEKLL;locus_tag=LOCUS_32250;gene=prpB;EC_number=4.1.3.30;note=WP_052846659.1 methylisocitrate lyase (Sulfurisphaera tokodaii) [pid:78.4%25%2C q_cov:95.9%25%2C s_cov:92.5%25%2C Eval:4.2e-114],MGA_3234
sequence1	MetaGeneAnnotator	CDS	2943176	2944450	.	-	0	ID=MGA_3235;product=MmgE/PrpD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979878.1;translation=MELAEILAEYVSSVNYDDLKEKEIHEAKRRIIDSLAVAKASINSEPAKIVRTLLPSYPGDFLLLWGGNASPDIASFYNTLLIRYLDFNDTYLSLEPLHPSDMIGGLLALGKGKLGKDIILSIVVGYEIGTRLCDSTSLRKRGFDHVNFLEVAATAAASKLLNLKKEAIYNAISIALIPHIALRQTRSGKLSMWKAGAAAEAVRNAVFSTLLASKGFTGPVNPFSGNMGFKLIADIDISNFERMSTSKILETSLKKYPVEYHGEAAVEAALSIEYQGEIRKIYIQTYEAGVSILADKEKWNPDNKETADHSLPFIVASTLLTKKMWLENYSMIGDNQIRELMDKIEVMEKEEYTKVYPRELPIKLIIITDKGRFEKEIRSPRGYYNNPMTDKEVEEKAIKLGMNEKQISKLWEIDNMKVEEIVNP;locus_tag=LOCUS_32260;note=WP_010979878.1 MmgE/PrpD family protein (Sulfurisphaera tokodaii) [pid:61.4%25%2C q_cov:99.5%25%2C s_cov:98.6%25%2C Eval:1.9e-147],MGA_3235
sequence1	MetaGeneAnnotator	CDS	2944533	2945456	.	+	0	ID=MGA_3236;product=lactate/malate dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846990.1;translation=MTKIAFVGLGKIGQTITYSSVIDGIFEEVMLYDIIPELPEKFEHELRHAFATKSIKTEIISSNNIDDIAGADIVVITAGKPRKPGMSRRDLFKDNAKIMIDLASKLPSKNPGAIYVMVTNPVDMMASVFAKYSKEMTISTGDQVETMRMRSFIAKKLHVPVNEVNGYVGGEHGEDAVVLWSTVSVKGKPIDQFNIDKEEVSNYVKQIAGEIIRVMGGTTWGPGTIIGDVIRAIALNENKLMSIATPRVFEGEIIHISVPVIVGRTIGPSIESLLDEKDKWHLTTATKDFYDVYKEMLSSLGEVTLSK;locus_tag=LOCUS_32270;note=WP_052846990.1 lactate/malate dehydrogenase family protein (Sulfurisphaera tokodaii) [pid:71.1%25%2C q_cov:97.7%25%2C s_cov:97.7%25%2C Eval:7.1e-124],MGA_3236
sequence1	MetaGeneAnnotator	CDS	2945541	2945867	.	+	0	ID=MGA_3237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTDIISELLRPNGRGFLLQSRGLPKVEVSAPQALRVVPTPSTNVNPQYPNMGLLNGAEAYHIDPRFNQGVSVTLTPSVTAIKRIFEKYVFKCNYKGGSYGDFHEQHS;locus_tag=LOCUS_32280;note=MGA_3237
sequence1	MetaGeneAnnotator	CDS	2945797	2945988	.	+	0	ID=MGA_3238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNTYLNVTTKGAPTVIFTNNTPKQEDKLYKSETKKTRYRRGGGEGPQVNPNQVVPSALQAIA;locus_tag=LOCUS_32290;note=MGA_3238
sequence1	MetaGeneAnnotator	CDS	2946113	2946559	.	+	0	ID=MGA_3239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDPLTEAKSSNGGVTNPYHRTEHCDNMHGYRCDKEVGILGIDISKDHVTSEGRVYENNKKGYEEILKVKLNTIVVEPTGAYSIKPCQYFKEKGIKILQVSPNILWKEKDLRGKQIFTTKTSKHGKQGKGVQLQPIERTSNTIRLPKS;locus_tag=LOCUS_32300;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:67.8%25%2C q_cov:77.7%25%2C s_cov:33.1%25%2C Eval:8.9e-41%2C partial hit],frameshifted%2C insertion/deletion at around 2946560%2C2946825%2C2946612%2C2946454%2C2946678,MGA_3239
sequence1	MetaGeneAnnotator	CDS	2946960	2947142	.	+	0	ID=MGA_3240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSLFYFLAEMNYSRNPTLLEFYENHKEKLKGKKLYTALARKLARIIWSVWYNNKPYEPK;locus_tag=LOCUS_32310;note=WP_010979846.1 IS110-like element ISSto6 family transposase (Sulfurisphaera tokodaii) [pid:88.3%25%2C q_cov:100.0%25%2C s_cov:16.8%25%2C Eval:1.6e-27%2C partial hit],frameshifted%2C insertion/deletion at around 2946904%2C2946823,MGA_3240
##FASTA
>sequence1
TCAGATAAAATTGTAATATATCACTAGTGGTTCCTATATAGAACGCCAGTAAGTTTTTGTCTTATTATCCATCATTTGAACTCTTTAAATGGTTAAGAACTTTCTAGGAGTACTAACGCTACTGAGGTAAAGGTAAAAAGGAGACTCCCAAAATCATAAGAATTACTGTTATAGTTAAAAGTAAAGCTCCAAATGTGGAATAGTATTTTAGCTTACCTTGAACTAATTTTATTTCGTCTATAGATTCTGGATCTATAGACCTGAACAGCTTAAATAATTTCTCAAAATAATGTCCTATTAAAAGCCCTATAGAAAATCCTATAATTCCTAGAATAGCTCCTGAAAATATACATATACCCCATCCCGTAGAGAACAACACATGATATACTTCACTAATGCCTCCAGACCTATAGTAGCCTATAAGGTAGTGTATGAATTCTCCTGCTCCAAATACTATAGTTATCATCCCAGTAGCTTCTATGAAGCTTACTAAAGTAGGAAAGAGATTATACATTAAATCATTAACCGTCTCATTAGAGAGTTTCGAAAGTCTAGGAGCTACAATAACTCCGAATATCATAACAGAGCCGTAGTATATTAGCGAAAAAAATCCATGCATTACATTAAGTATAAACGATATAGGAACCAAATTTGACACCAAAAAAAATCAAAGTGAATATACTAAACATCCAGTAGACGTAATTATAGCTATTATAAACGATAGAGCCATAAGGTACGAAAATGCATAATTATACGTAGCGTAAAATGCTAATCCGCCGGCTGCAGCTAATCCTACAAAAACTACAGTAAGGAGACCTAAGTAGAATAGATCTTTCCTATCGCTAAGATATGACAATGTAAAAAGCAAAACTGCACCTAAACCGCTTAAAAGCGCTAGGCTTAAATGGGCAGAAAGTAGTGCGGCCATCCACGTGGCTGTTAACGGAAATTGATCGTTAAGCATTGCTGTAGTGCCTGCGAGAAATGCGCCCATTAATAAAATTGTTTCTACAGACGATGCAATTAAAACTGGAGTATTCCTACCCAAACGTTCTTCTGTCATGTTCATCAATATAATCTATAAAAGTGTGCTAAATAAATATTTCATTATAATTTCTCATTTTAAAAAATTAAGTTAAATTTAATTTGTTTATCTTCTTAAAGCATAGAATAGTATGGCTGATGTAAATACTATAGTGAAAATAAATCCAGTACCCATTCCTAGTGCATACATTGGTATCGAAAATCCTCCGAAATAGAATAGTCCCATGAAGGCAGCACCTAATACTGATAAGATGTCTAATACCGAAAGAACTCTTAGGGGTAGGTTTCCTGCTCTAGTACTAGAACCATATAGGGAAATCGCAAATATTACATCAAAAGCTGCCGCATATATATGTGCAGTTATTGGAACTCCTAGAAGTGGTAATTTGTATATTGCTATACCCATTCCTGCTACATAGGTTATTATTAAGCAAGCTAACTCTGCTGCCGCTAATGCAGGAGTATATTGATTTCTAGAAAATTTTGATGCCATAGTGTTATATACATCTAAAAGAGATCTAGAGCTCATTAATATCATTTATAAAAAAATGCTATAAAAAGTTTAGTTTTGAAAACTCTAAAAAGTTCAATAAAAATCCTTAAAAAACACAAGGAAGAACGCTGCAGAGGCTAATATAATGTAGAGAGCAGCTGATATTATTGTGGTATTTTCTACTCCTATAGCGGAAGATACAAAAATATCTATTGGAATTGAAAGTATAATAAAGAATAAAACTACTAATATGGTTAATAAAAGCCTACCAGTTAGTTTCATATTTTCACTAAATATATGATAAAAAATCTAACTTATAAATTTTGTGTTATAATAGATGAGAAAACAGTTCCGGTAAAATAACATTTACAGGAGACGAATCCCATAGGATTGTATAGATTATAAAGGCTGCAAATGCCGCAGTAACGCCAAATATTAGACCTACTATAGCAATACCTAATCTGGTCATGATGAACCACCGAAAGTATTTCCGTCACTTTGAACTTTAGTATAACAATTTGTGGGAGTTTGATTCTTTTGAACAATCAACTTAGGACAGCCAGTAGTTTCATCATAGGAATCTAGATAAGCAGCACCGACTAAGTCTGATGGATGATCCATTATAGGCGGAGCATGTAAATTCATAGACACTGCGTATAGATAGTCAGTATTTGAATCCCAGTATAGTTCAACATATGGTAAAGGTCTTACTGTTGGCCCAGTTAAAACTGCAGCGCCGTGCCAAGGATCATATGTAGAACCATGACAATCGCAGTGAATTACACTCTTTGCATTAGCAGATACTGCTGCGTTATAAGCTACTGATGGTAAGAAATTAGGCACTACTCCTCCAGGCTTAAAATATTGCGGAGGATAGAAATGTATTTCTGGTGGGGTACAACCTAGATGTTGACATATTGCACTATATGCTACTATTGATTTATATGGACCTACGCCGCCTGGAAAAGTATAAGTGTGACCATTTTCTGGTATAACCACTGTCGTAGGCTTTATTTCAACGGGCTTGTTATTTTCGTCACCCATATTTATCAGAAAAGTTATGTCTCCCAATAATGGGTACTGGAATAGCATTATTGTAGGATCATTAACTGGAAATTTAGAAGCCTCTATAGGTTTACCGTCAGAATCTACAATTATCATCCATGGGAACTTCTTCAGTGAAACTAATGCAGGATTTAGTGATGATACTAAGGGTACTGCAGAAGCTACCGCCAGTACTCCTATACCTATAAGGAGACCTTTAAGAAATGCTCTTCTACCAGGATCTAATGGACCAGCATTTTTTTCAGCATAGTTAAATAAGTAATCTCTGCCCCTTGCCATGAATTCTCTTTCATCAAATTTTGTATTTCCATTTCTCATCTTCCACAATAGTCGCTTAGCGAAAATGAAATCACTTCTTTTGATAATAATTTTATCATTCATGGCACTATCATGATTTTTAATATCTTTGAGATTTATAAAAACTTTTTCCCGTAATGAAATTAATGAATATAAAAGGAATTAATATATTTTATTTAAAGTTATAAAAAGAAAAATATATTTTATAATTCTAATATTTTCTAAGTTTCCATTCGATTTATTTAAATAATCTAATTAAATTATTTAGATTGTGAAATGTAATATAGTTTAAATATTGTTGATACTATCAAAAACATCATAGTTATTAAAAATAACATTTATAAAGCTAATCCGTACATATTTATCATGATTAAAATGGCTTTCGTTGAAAAAATTAAGGAACATGCAGAATTGAGTTGGTTTATAGTAATGTTAATATTAGTTGCTATTTTTGTAGGGTGGAATATAGTGGGTGTAACTAGTGGGTCAAGCACTAGCTATAGATACGGACTTCCATTATTTAGCGGTATGCCTAAAATAGCTCAAGCCGCAGTAAAATATTTTGAATCACATCCACCAGCTAATGGAGATTCCGAAGTAGTTAACGGAGTACTTGTAGTAAACATGACAGTGACTCAGTTAGGATACAATCCGAATATAATTATTGCTAATGCTAATGAACCAATCGCAATAATATTGCACTCTCCTCAAGTGATAACTGGATTCTTCATGAGATTGCCAGATGGCGTCGTAAATATAAATGCTCCACCCAACTATACAAATTACGTTTATTTTGTAGCACCTAGTACTCCAGGTAATTATACTTGGAGAGATCCAGAATATGCAGGATATAATTTCTCATACTGGACTGGAATTTTAGAGGTGAAGTAATAATGAATTATAAAAACATTATAAAAAACATAATTAATTATATAAAAGATTTTATTAATAAAGCATCAAAAGTTGCAAATCCAAAAGATACTATAGGAATTGTATGGCTTTACTTAATTGGAGCAGTAGCTTGGTTAATTGTTTTAGGTACAGCGGCCATGAATATGAGAACATATCTAGTATACGATCAAAACTCTCCAGCCGTAGGGCCAATCTATTATATGATGCTTACTATACATGGCTGGTCGGCAATGTTAGGCTTAGTTCCAGATGCTGCTCTTGGCATAATTGCTTTTTCGATGTATAAATCTGGACTCTCTGTCGTTCACAGAAAATTAGTAACTTCTATGTTCTGGATTTCCAATCTAGGATTAGTATTTGCATTATTTGGAGGACCGGATATGGGCTGGTACATGTATCCTCCTTTAGCTATTGAGGATAACTCTCTCTTCCAAGCTTTTAGGATTTATCATGGAGCTATGATGGGAGCAGGGTACTTAGCTTTAGCATTTAATAGTGCATGCGGAGCAATAGCAGCATTAACTTTTGTGATAGACGCTTATCTAACTAAGCCTAAGGATAAGAAGATAAACATATTTGCTGCATACGGCGTAGCGTTCTCCCTAATAATAGCTTTAACCCTACCCGCATTAACTGCGTCAGAATTATGGTATGTTCTTGCGATATGGTTACCCACATTAGTTAAAGTGAATCCTCTTCTATGGGTAATATTGTTCTGGTTCTATGGTCATCCAGTAGTTTATTATGTTCCGTTTCCATTATTTGGTGCATTATATTACTATATTCCAATATACGCAAAAAGATCATTATTTAGTGAAAAATGGGCTAGATGGAATATATTTCTATTAGCTATAGGTTCAATGCTTATATGGGTTCATCACTTACAAACTTTCCCTCTACCAGTAGATCTTAGGGCTTGGATTACAGTATCTACCCTAGTCTTGGCTTCTGGCTCTGGATTAACGGTGCTTAATCTTGGCCTAACTATCCTTACATCAAAAGGATATGACTATAAGGATCCGTTAGGTATGACGTTTTTAATAGCTCTAATAGGATTTATAATAGGCGGAGTCCAAGCTTTACCATTACCTATCAATATAATAAACGGCGTAGTACATAATACGTATTATGTTGTGGGGCACTTCCACTTAGTAATATGGACATTAATTTTGGTTGGTTTCACAGGAGTTTTTGTAGATTTGTTAAAATCTACTAATCCCAATCTTAATTTTAGTGCAAAGGCAAAGAAAATTATGCTAATGGGAGTACTATGGTGGACAGTACCATTTGTAGGTGTTGGATATACAATGACTATAGCCGGATATTTGGGTCTATTAAGAAGGGAAATAGCTTACCCTCCCATGTTCTCTTCATATATGCAATTAATGTCGTTCTTAGCAGAAGTAGGTATACCAGGATTAGTGCTAACCATATCTACTGCAATTGCTGAGTATGTAAGGACTAGCAGACCTACTGGTATTTCTATTACAGTACCTTCTATGCCTGGCTCTATGGCATATGTAAATTCTAATGAAAAATTAGTTAAACAGGTGACTTACGCAAATCAAATTAAGAGTAATATTAATAATTTTATATTAAATAAGACTAATTACAAATCTAATGATTTAATAAACTTAAAAGATAATATGAGGAGAACAAATATAGGAGGTGGATAGAATGGGTGAGAATGAGAAGAAAAAAGGATTTTTTGATTTAATTCTAGATAGAGTAGGCATTGAAGAGGCACCTCTATTTAGAACTCCGGATTACATGTATAATGTATCTTATTGGCTAGGAGGATTAGTTGCTGCAAGTTTCATTTATACAGTAATAACTGGTTTAATTCTTCTTTTGCTTTACGAACCAGCAAATGCTTACGGGCAAACTCAAATCATTATACATTCTATTCCATATGGTGCAGTTCTACTTTTCAGCCATTTATACGGAGCATACATAATGATAATTTTAGTCTATATTCACATGTTTAGAAACTTCTTTAAGGGATCATATAAGAAACCTAGAGAGTTACAATGGGTTACTGGAGTATTATTGCTTGCCTTAACTCTAGGTGCATCGTTCTTTGGATATAGTTTAGTAGGAGACGTGCTAGGAATTGATGCAGTAGATATAGGATCTTCGTTATTGATTGGAACAGGATTTCCAGGAGCAACAACTGTAGTTGGTTGGCTGTTCGGTCCAGGGATTGATGCTGTAGAATCTACTAATCCAATAGTTAGAAGCGAATTCTTCGATAGGATTCTAGGATGGCATATAATTCTTGTAGCGTTAATAGGTCTTCTATTCATTTTCCATTTGATGTTATCAGAAAGATATGGAATGACTCCGTCAAAGAAAGAAAAACCTTTTGTTCCAGCTTACTATACAAAGGAAGAGCAACAAAGATTTAACCCGTGGTGGCCAAGAAATTTTGTTTATATGCTATCATTAGTTCTAATGACATGGGGTATAATTTTAATAGTTCCAGATGTTTTAGCCAATTTAAACGGAGCTACAGTATTTGGCCATACTATTGAACTTCCTCTAGTAATTAATCCATTCCCAGCTCCTCAAGCATTTACTGCTGCAGCTATACATACTGCTCCTTATCCTCCATGGTTCTTCTTATTCTTATATAAGTTCGTAGATTTCCTCTTACCTAACGGTTTACCATTACTTCCATCAATGGTAATTGCGATTCTCATAGTTGGTTTAGTAATAATAATGTTGATTCCGTTTTTCGAAAATAGTAATGTTATGTTCCTAAGTAGTAGAAAGTTCTGGACATGGGTTATGTGCGTACTAATTTACTCATTAATCGCGCTATCTTTCTGGGGATATTTTTACCCTGGAGTACCAGCACCCTTTACTGCACAAATGGAAATCCTAGGAATTCCTGCTTTAATAATGGCAGCAATAATTTACTTATTTGGAAGTAGGTCGAAACAAAAGTCTATAAATATATCATCAACTAATTTACCTAGTGTAAGACCTACGACAATATTAGGAACTTCTGTTGTGACATTACTGTTCGCTGGAACTTTCGGAGACTTCCTCCTTAAGCCGTCTTTATTAGGCATATTATTATTATTACCTCTAGGAACATTAGTTTACCATTATATGAGCAAACTAGTAAAAGTTTTTAACTCAACTAGAGTTTCTACTGAACCAGGATTTCCGATAACTAAAAAAATGGCGTTTTTCGCAATTCCTACAATATTCGTTATAACAATATTCCTACTAATATTGATGATAAAGTTACCAAGTGTAGGAGTAGCTAGCACGTATGCAGGCATAGATTTAGGGGTAATATTGTTTCTATGGGGTTACGCAATTAATTTATATCACTATTTGGTATATGTAAAAGATTAGAATAAAAATATTATTTTTTATTTAAATTATAATAGAAAGACTTTTTAATTTATAAACGTATATTATATTATGAAACTTGACAAAGAAAAGGTAAAGTTTTCACATTTCATACCTCCCATTATTCTTCTTGCTTTAGTTTTAAATCCCCTAACTGAGAGTCAAGAGTTTTTACATGAATGGTTATTCATGGTAAGTCACTACGTACTGTTTATAGGAGGACTCCTATTGTCATATAAGGTAATTAAAGGTTCAACATATTGGATAATACCATCTGCATTTTTAGTATCGTTTTGGCACGTTCCTTATTTTTTTGCTCTTGCAGGAGCGTTTACATTTTTTAGGGCACTTAACGATTTTTCATTGATACTGGCTGGAATATTGGCAGGAATCTCAGCATCTAGACTTTCATTGTTCTCTTGGCTTTCATTAATAATAATATGGATGTTGGCAGATACAATACTTTCCATAGTATTTCTATTGGAATTTCCAGCTTATTCTAACGCAGTTTATAAATTTTCTCCCTATAGTGAATCTCAAGAATTTAATACTGCTATATCAATGTGGATAGTAATGTCTGCAATTATAGTATATGTATTCGGTAAATTCTTAAAAGAGTTATTATTTTAAAATGAATAAAATACTGGAAAAATCGATGGTATTTACCTTCTCTAATATTCAGTTATATTTTTAAATAGTTATTTAATAGGTAATTATTATTTTTATGATTGGATAATTTCTTATAACTAATAAATAAAACTTTTAATTCTTCGTATTAAGGCTATTATTTAGGAAGTTTATTTTATTTATCTTATATAAAACATTTGCTAATGCTAAAGATTTTAATAGTCTAGCGAAACTACCTTTTATTGGCATTCCCATAAATACACCAAGAAAGCTATTATTTATTTCTACTACGTCTGCTAGAGATTTCGGATTAAATTTTTCTTCGGAGTCATTTAATGCATTATAGATAGCGTGAACTCCAGATTGCATAGAAACTTCAGCATTAGATGGATACTTTAAAGATGCACATGCACCTGCACCATATACATCCTTATAATCTACTGAGCTTAGATCGTCATTAACTTCCATCTTATAGTTTTTAGTTGTAAAACCTAAGGAATTAAGAATATTAGGACCTCTGATTCCTCCTGCATAAAATATATGATCTGCCGAAAAAGTACCTTGAGTAGTATTTACTTCTTTACCTTTTATTTCATTAACTGCCGTATCTAAAAACAATTCTATTCCTAGTTCAGTTAATATTTTTTCTGCATATAACGATATCTCTTCTGGCATATGAGGTAAAACTCTTTTACCTCTATTTATCAAGATAATTCTTTCTTTACCTTTTATCTTTCCTAAGAGCTCTATTGTACTGCCTATAACTTCTACCCCTAAATCTCCTCCTCCTATTACTATTAGACTTTTAGCCTTATTTATCTCTTCTCTTATTTTAAGAGCATCTTCAAAATTTTCAAGTTTCATTACATGGTCTTGCGCTCCTTTTATCCTAGTCAGATCTTGTTGATAACCTAAAGCAACAATTAGCTTATCATAATTTATCTCTCCCTTAGTAGTAGTAATTTTCTTATCCTTAAAGTTAATTTTAAGGACTTCAGCTTTTATATCAGGTCTCCTGTAAAATAATGCAGACTCACCTTTGGCTATAGTATCAACTAATTTTGGCGTAAGTAAAAATTTATCTTCTTTATCAATCAATATTGAGTTCTCATAAGCACATTTAGCAGCAATCCCTGCAAATCCACCACCTAATATTACTATTCTCATTTTTTCACTCTGAAGATTCGAGCTTTTCTCTAAATATAGATAATACGTAGTTCTTTGCTTGAGTAAATGTCAATTTAGGTGGCATGGGTCTCTCATTCGGATCTACAACGACATCCATTACAAATGGACCTTTGCTTTCCTTAAGCTTCTTAAGTCCTTCATCCAGATCTTTCGGATCTTCTATTCTAATGCCTTCAATCCCAATGGATTCAGCTAATTTTGAAAAATCTGGATTATATAAATCTACGCCCCATTCTGGGTATCCCATGACTTCTTGCTCAAATTTTATCATTCCTAATTTAGAATTATTAAAAATTACTACTTTTATTGGTCTAGAATATTTCTTAGCAGTTATTAATTCCATCATTGTCATGGCAAATCCTCCATCACCTACTAGAGCTAAAACATTATCAGATACAAATGAAGCACCTACTGCACCAGGAACTCCAACCCCCATAGAGCCTAACCATGTAGAAAATACGAATCGTTGCTTGCCAGAAGCCTTAAAGTTTCTAGCTCCCCACATAGTAACGTTACCAGTATCTACTACCACTGTACCTTCTGTAAATACTTCTGAAAGTTTTGAGGCAACCTTTTGAGGCTTTATAGGAATAGAGTTCTCATCTTCCACTTTCTTTAATTCATCAAACCATTTTTCCTTTTGATTTTTCATTTTTATATAAAATTTTTCATCCTTTTCCTTTATTTTATTTAAAACTGATTTTAGAAAATCTTCTACTGTGCATACTAGTGAAACGTTAGCTTTAATTCTTTTTGAAATATTTTCTGGATTTATGTCTACTTGAATTACTTTAACGTCTTTAGGTAAGAAATTAACATATGGGAACGAAGTACCTAAAAGTATAAGTAAATCAGTTCTATTTAATGCGTCAACGGATGGTTTAGTTCCTAAAAGCCCTATTCCACCCATAACTTTTTCATCGTAATCCGAAAGTATTCCCTTACCATTTAGTGCATAGATTATTGGTGAACCTATTTTTTCCGCAAATTTGTTAAGTAATTCAGATGAACCCCTAGCTCCTCCTCCTATCATTACAACTGGGTTCTTACTTTCATTAATTAAATCTACTGCAGAATCAACATTTACAGAATAGCTGACCTTAACTTCTAAATTTCCTTCAAATTCTTCTCCATCCATTCTAAGAATATCTACTGGAAGATTTAAGTGAGATACTCCTTTCTTAGTTTTAGCTTCATGAATAGCTCTCCATACTAGGTATCCAGCATTTTTAGGATTTACTATCATTTGATTAAAAACAGATACGTCATCAAATAGTTTAACCATATTTACTTCTTGAAAATAATCATGTCCTAACATATCGCTCTCTACTTGACCGGTTAATGCTATAACAGACGCATGATCCATTTTTGCATCGTATAACCCATTAAGTAAATGTATTGATCCTGGACCAGAAGTTCCCATACATGCTGTTAAATTCCCTGTTAGTTTAGATTCTACAGAAGCTGCAAAAGCAGCGCCTTCTTCATGCCTAACTTGTATATATTGTATCTCTTTATTTTTTCTAATAGCGTCCATTAATGGATCTATAGAATCGCCAGGTATACCATAAATTCTCTTTACTCCTGCTTTAACTAATGTATCAACTATTATTTCAGCAACATTTTTTGCCATATCATTCTTACTATATAATGATTAAAAAACGTTTTTATTGAAAAATTTCATTATAAAGAGAAGAGATCTTAGAAAAGATATTTATTTTAATAAAAAAGTCAAAAAGCGATCTAGTTAAATTAAATTTATTCCTAAATAAGAGTTCTTTCCATATAATAGCAGATTAATATTAGAAACTTTTATATATTAATTTGATAATAAGATAAAAGAGAACATGAAAAGTCTAAAAGGAACTAAAACAGAGGAAAACTTCAAAAACGGCTTCATAGGAGAATCTATGGCAAATAGAAGATATCTATATTTTGCTAAAAGAGCTGATGAAGAGGGATATCCAGAAATAGCTGCATTATTAAGGAGCATATCTGAAGGAGAAACTGCTCATGCGTTTGGACATCTAGATTTCATAAGACAAGGAGACTCTGTAGATCCAGCTACAGGTAAACCAATAAAGACAATTGAGGAAATGCTAGAATCAGCAGTAGCAGGCGAAACATACGAATTCACACAAATGTACCCAGGATTTGCTAAAGTAGCAAGGGAAGAAGGTTTTGATGAAGCTGCAGAATGGTTTGAAACATTAGCAAGAGCAGAAAAGAGTCACGCAGAAAAGTTTACTAACGCGTTGAAGGCACTTAAAGGGGAAAAATGAATGTATTCTTTAAATAAAGATAATCCTGATTTTTTTAATCAAACTAAACTTCAATCAGAATTTATAAGACAAGCTTCAGTCTGTCACGGTTGCAGAAGATGTTTTAATTACTGTCCCGTTTTTCCCAAATTATTTAAGTTCACAGATCAAAAAGGCCCTAAGGCCCTAACTCTAGATGATCTCTTTGATATATCACCGGATTGTTTTCATTGTAATATGTGTTATGTTAATTGTCCTTTTACACCACCGAACGATCTTAATATGGACTTTGCTCATTTAATGAGCTGGGGCTGGTTATTTTACAGAAGTAAGACAGGAATACCTTTAAAAGACAGAATATTTGAGATGTTAGATTTTGCAGGTTTTGTAAGGCCCTTATCAAGAAATATGGTAAAAGGATTAATTAGTGAGGGAGCGCCAGAACTTAGAGTTGCCGAGAAAGGATTTCTTTCTAATTTTAAAAGGAAAGATATTCAGAATCCTAAAGCCAGAGTTGTCCTTTTCCATACTTGTTTAGTGGAAAATTTCTATCCAGAAATTGGAGAAGACCTAGTAGAAGTATATAATAAATTAGGAATAGAAGTAATAACTGCAAACTTCATTTGTTGTGGAGCACCCATGCTAGATGTAGGAGATTCAGAGGCATTAAAAAGGAATGCTGAATATAACTATAATATTATAAAGGAATATATTAAGAAAGGATATGATGTAGTGTCTCCTATCCCTACATGCACATTAATGCTTACTAAGGAATATCAGTATATCTTAGATAAGGACGCTATAAAGGTATATGATGCTATGGAGTACCTTCTTAAATTAAAGAGGGAAGGGAAAATAGAGTTAAAAGGAGAAATGCCTAAAAGTATATTTTATCATACGCCATGTCACTTAAGATACTTAGGTGTAGGATACCCTGGTGTTCAATTAATGAGAAGTCTTAAATCTAAAGTGGAAATAGCAGATAAAGGATGTTCTGGCATAGATGGAGGTTGGGGATTAAGAAACTACTCAAAGGCTAAAGTTATTGGTTCTAAAATGATGGAGGCTTTTTCTCAAAGTAATGCTGAAATCTTTGCGACTGAATGTCCACTAGCTGGATTACAAATATTTAAGGCTTCAGGGAGAAAACCTTTACATCCTATTCAAGTTTTAAAAGAGGCGATGAAGAACGATAAAAGTTGAAGAAGTTTTACCGTGGTTTGAGTACGAAAAAGTTAGAGAGGAAAGAAGGAAAAAAATTGTAGAAATTAAAAAGGAAAGAAGATTGGAGTTAGGCGACAGATTAGGAATACTATTTGAAAATAGAGATACAGTACTTCAACAAATTCAGGAAATGGTTTACCTCGATAAATTATCAAACAAAAAAGATATTGAAGAGGAAATAAATATTTATTCCTCTTGGTTGCCTTGTGGAGGAAAAGCTAAGGCTAGCCTTTATATTTATGCACAAGATGAAAAAGACTTAGAGAGAGTATTTAATGAGTTACCAGAGATTTATAATTCAATATTTTTACGCGTAGGGAAAAAACTTATTCAAGGAGAACCGGAAAGCGGAAGAAATCAAGGCCATGCATTTAGTACAGTACAATTTCTTACGTTTGATTTAGAAGGAGAAAAATCTACTGATATGGAAGTAAACGTAGTACATCAAAATTACAAAGTTAAAGTTAAGGTTCCTGAAAATCTTGCAAAAAAAGTAATAGAAGAAGCTTACGAAGAATGCTAGTACTAAACATTAAAAATCACTTTATCCTAGGCTCGACGTATTTAGTAAGAAGATAATTAATTCCTTCAACTATTATTACACCAGTTATAATAGGGTGTATAATATACACTACATTTACTCTTTCTAATACACCTAATAGCGTTGCTAATATTGCTGGAGTATGTTCTATGTTTATTAAAACACAAATACTAAATGCAATAAATGATGCTATAGTAGCCATAATTATTCCATATAAATGAAATAAAGAGAATATTAAGCCTACTAAACCACAAATTGTATATGAAAATAATATTATAATACTTCTATGCATTCTCCAATCTGGATCAGGATATTTAGTAGCAGCCGTAGCTAAAAATGGTGGAAGTATAAATTCAGTATTTGTTATGATAGTTATGGCTACTAAGATTGAAATTGAAATTATTAAGTTCAAAATAGCAACAAGTTTTTTCTTTCTAGAAGGAAAGTGCATGAAATGATATAATGGAGTTATAATAAAAAGATTTTCTCTTAATCATAAAAATAACAAAATTATTACAAATACAATAAGTTTACTGATAATGTGCAATGAAATAGCTACTTAATTTTATATTTCTGATATATAAGTATAATATAGTTTTAAATATAACTAAATTGACTTATATAAGTATACTAAAATTTATATTTAACTTTTACTCTGTTATAAAAAATATTAATTAACCTACAAAAAGAGTAAATTTTAATGATAAAAACAAAATTCTATCTTGCGTTATTTATAACTCTAATAGTAGATATTATTTTATATTCTGTTTTTCCATTTTTTAATAGAATTTATCCAGAATTATTTGGATTACCACTTTTTTACTGGTATCAAACAATTTTACTCGTAGTAAGTAGTTTAATGTTTCTAGGTATTACGCTAATATTCAAGGAGGTGGAGTAAATTGATATCAATACCTAAGTCTAATATAGATGGAATTACTTTAGGAGTTTTTCTTATTTTATTTGTAATATTTATATTTTTGGGATTTTATGGAGCTAGATGGAGAAAAGGAGACATGAATAAATTACATGAATGGGGATTAGCTGGAAGAAGACTTGGAGTATTCTTCGTATGGTTCCTAATGGGAGCAGATCTTTATACTGCATATACTTTTATTGCGGTTCCAGCAGCCCTATTTGGTATAGGTTCACTTTATTTCTTTGCAGTTCCTTATGTAGCATGGACATTTGCCATTGCTTTACTTACTATGCCAAGATTATGGACTGTTTCAAGAAATAAAGGATATGTAACTGCAGCAGATTTTGTAAAAGACAGATTTAATAGTAGAACGCTAGCTATACTAGTAGCTATAGTTGGTATAGTAGCAGAATTACCATATATAGCTCTTCAAATAGTAGGGATGAAGGCAGCACTCTCTATGTTACTTTTAGGATTAGGAATAGGAACTAGTAGTGTATCATCATTAACGTTTATTAATGAAATATCTCTTTTACTAGCTTTTGCTATCTTAGCAGCATTTACTTATACTAGCGGATTAAGAGGAGCAACATTAACAGGTGTATTCAAAGATGCGCTTATATGGTTTACTGTTATAGTTTCAATAATAGCCATTCCAATATTTATAGGCGGCTTCCACACTGCGTTTTCCGATATTAAAGCTCCGGCCAAATTCTTAACCTTACCAAGTTCATTTATTACTGCGTATTTCTCATTAGCTTTAGGAAGTGCAATAGCACTATATCTTTATCCTCATGCTATAAATGGTTCCTTGTCATCCAATAGTAAGAATCAGCTAAAATTAAGTACGTCCATGTTACCAATTTATGGTATAGGTTTAGCTTTCTTAGCATTATTCGGAATCTTAGTATACGCAGTTTCTCCGGCCTTATCTGCTATAAGTACATTAAAACCCATAATAGGAGCTTCTTCTGCAGCAGATCTAGTAGTTCCTGCTACTATTGCTTATGAGATGCCTAATTGGTTTGTAGGGATAGCTCTTGTAGGAGTATTCATAGGTGGATTAGTTCCTGCTGCAATAATGGCAATAGCCATAGCTAATTTATTTACGAGAAATATTGTAAAGGAGTTTAAGCCATTATCTGAGAAAGCGGAATCAAGCATGGCAAAATGGGTATCTGTAGTATTCAAATTCCTTGCTTTAGGTTTCGTATTTGCAGTGCCAGGATATGCTATAACGTTACAATTACTTGGAGGTATAATAGTAGCTCAAGCTCTACCTCCAGTCTTTTTAGGGTTATATACTAATAAACTGGAAAAACGATCTTTAATAGCGGGACTTATTGCTGGCGTAGTATCTGGAATAGGCCTATACTATTACTCTCATGGAGTATTTATGAAAACACCTATAGGGTTAATATATATTGCACTAATAGCACTAATTATAAACTTAGCAATATCTGGGATAGGAAGTCTAATAGCTTATTCCATGGGATGGAGACCCAAAATAATTGTAAAAGACGAGGAAATTATGAAATCATTATAACTATTTAAATGTATGTTAAAGTTTTTTTAATTTATGATTATATTCGTCTTTAACGGAGTTTACATTCATGAATATAAAAATTATATCTAATGAAGGCGGTGTTGGAAAATCTACATTAGCTTTAATAATAGCGAAGTCATTAGCGTTAAAATCTAAAAAAGTAGCATTGCTCGACATGGATCTGCTCGGATATCCTTCTTGGGTTATAGGAGTAGAAGGGAATGGGATTATAACTACGCTATTAAAAAATAAAGATTATAAACACGCTATAAAAGAAATTGAAATTGGAAAAGGATCTATAACTACACTAAAACTCTTTGATGGAAAGGAAATAACAGATTTAGACCGCAATATCCTAATAGAAGCCATGAATATAATTAACGATACTCTAAGAAATTTTAAGTATGTAATTACAGATACTCCTACAATGTCATTTAGAGAGAGAATAAAACAATTGGAACCAGAAGGGAAGTCTTTGATGATAACCAGATATAGCTCCGAAATACCCAGTGTAACTGATAGTGATACACTAGGAATAATAGTTAACATGGTACCCGATAATTTCAAAACATTCTCTAAGCATATTAAAAACGAAATAGTTATTCCTTTCTACGAGCAGTTATTTAATTTCTCTGGAAATATTAATGAAATACCAATTTTTGATGAGATAAGTAAGATAGAAACTATGTTTGAATCTTCTTAATCAAATCTATATATTGTTTTATTGTCTGAATACCTTTTTCTGTTATCTCTATAATAGTTCTTGGACCTGATAATGTAGGAACTTTTTTAACTGTTATAAGTCCACTCTCTTCCAGAACTTGAAGATGCATAAATAAAGAGCTCTTAGAGATTCCTGAGGATCTTTGAAGATCTGAAAAAGTGGATTTACCTAGAATATAAAGTGATAAAAGTATTCCCAGTCTGGCTGAATTCGATAAAGTAGGATCGTTTAAAAGTTCCATTATTTTCTTAAGTTCATCAGTCACTCTCTATTACCTCCATTAATGATTTATATCCAGCAAATATCCATGAAATACCAAAAATCATCGAGAAAAACTCTATAAATCTTGTTTCACTTAATGTCATTAGCATGGTAAATGTGATTAATGCCAAGATATCATAGTATTTTATTCCGTTAGCTGTTTTATATAAGAAATAAAGAGATATATCTACAGAAATTGCATATAAAGTTGAACCAAAGATTAGGAATATAATGTTAAAAAAGAAAGCTCCAACACCTAAGAATACAAAAGAAATAATAAGAAGAAATGGATAAATGTAATATTCGAAGATATGTATTTTTCTTGAATTTTCGCCAAAAATTGAAATAAAATTATTCAATATTTTCCTAGCTTTCCTAAAAAAACGTATTGATAGTAATATGTAAAAAATAAGTATGCCAGTAATAGATATACTAAATGATATATAGCTGTATAAATTTAGAAAATTTAAGATAAAGTATGCTAATCCAAAAGAAAGTGGAAATGTTCCCCAAGAAATGTAGTACTTTCCCAATGCTTTTCTGAATTCAGTCATAACAGTATTTTTTGCTAATTCTTTTGATTTTATTATTAGATCTTTTTCTGTCATCTATTCACCTAAATTATAGATTCTATCTAATGTTACAAGGTTTTCTACCTTATATCCCTTTTCACCTTTCACAAACGAATATTTCTTCTTATTAACCTCTATTTCTAGAATTGCAGACTGATCTTCACCTTCTATTATCGAAGATTCTAGAATATCTTTAGCAGTAATTGGACCAAATACCTTCCCCTCAAATATAAGATTTGCCTTATAATCCTTAAATATTTTCACCATGTCGAGCTCATGCGTAACAATTATACCTTCTTTACCATATTCTTTTATCCAGTTAGCAATAATTTTTCTTTTACCAATATCTACATTTTCAAAAGGTTCATCAAGTAAAATAATTTTGGAATTCGATGCTAAGGCTATGATTGTTCTGAAAATAACTCCTTGTCCTGCAGATAATGAGTATATATTTTTATTTAAATCCTTTAAACCTAATTGACTAAGCATTCCAATAGCAAGTTTGGAATTAATACCTTTTATTTCTTCATAAATATAAATCACATCTTTTAGTTTCACGCCAAGAGAGAACGCTTCATTAATATTTGTTGAAAGTTCAGTATAATTCCTTAACTTAGAAACCTCTTTACCATCTATAAATATATGTCCTTGATACGGTATTATTCCAGCTATTGCTTTTAGAAGAGTTGATTTTCCTGAACCATTAGGGCCCAATAAAATAACTTTCTCATTAATAGTAGCATTTACGTCCTTAACTACCTTGTCCTTGCCATAAAATATTGACACATTGTTGAGTTCTATCATGCTAACTTCTCCTCCTCTAGGGGTTTATAATATAATTTTCTTATTCCTATAATATCAATAATTGTTAATACTACTGTCCAGAGTATCGATGAAATAATTGCTAATGGAATTGAAATAAAAGATCCAGATTGCCCACTTAATATAATTGAAGCGTAATTTAACGGTGAAGGTTTGCCTAAATATCCGCTCATAGTTAACGAGTCTACCATTGTAAATGGACTGGCATACGTAAAATAATTTAATTTTAAATATAAATATCCGAATCCAAAAAGAAATGAAAATAATAAAGGAACCATATTAATAAATTCTCTTATTTTTCTAGTTGTCTTTAGTGTTATTATACTAAGGAACATGGAAAAAGATGTCAAAAATATTGCAGTTAATATAATAGATATTATTAATAGCAATATGTCTTTTGGATAAACAATAAATCCGAATCTATTTGAAAAGGCTACAGTAGTAAAAGCTATCATTGTACTTCCAATTATGAGAGATGCAATGATAGACCCAATATATATTGAAGAAATATAATATAGTGGAGTTAATTTGGAGTATCTAAATAGGTGACTTAATCCTCCTGTTTGATAATTTAGCATAGCGGTTATTCCAACAGACAATGAACCTAAAGAAAAAAGTATTATAGTGCCTGCCCATCCAGACGTATAATAATAGACCTCTTGATTATAATATTCCCCATGAGCTATTCCAGGAGAAAAGATATATGCTCCCATAAGGATCCAAAAAATCATAAATCCTACTGCCCATATTAAATCGTAAGGATTGGTAAGTAACCTTTTTGCTATATAATATATTAGCCTCATGAGTATTAATAGGAAATGAATATTTTAAGCTAAGTAAACAGTTCAATTTCTGAACATACGTGAAAATTTTTATTTCAATTCTAAAAAATTATTTAAAAGCACTTTTAATTACAGAGTCTGCTAATTCATACTTTCCTCTATCAGTTTTAATAACATATCCTCTTTTCTCATGTTTTGTGGGTTCGTTCAATATATTTCAATAGGATGATACAGTAAAAATATGTTTTCTATAGAAAATAATATCTCTCCTAAATAATTTACTATACTACTTCTTGACCTCAAAGCCCTTAGCTCGACCAACAACAAGGTTGGCCATGTACATCATCCAAGCATAAGCCAAACTAGCTTAGCATCAACAACTTGACCAGCAAAACTCGTAGCCCTAACAGACTCACCAAATGCTTAACAGCAGAGAACAAGGACTCAACCAACCACCTTAACTAACCCTTCTCATCCCGCCAACGCTCATAACCCAACTTCTTGAACTCGCGCACAGCCTTACGCCTAGCAGGATGACCACGCCTAAAGCGTTCTTCCTAGGAGGAACAACAACATCAACACCAAGATTATAAATCTCGTTAGTATCATAAGCCTTATCGCCATAGGACCTCTTAACTTCCTTACCCTTTTCCTTCAAGTCCTTTACTTTGAAGCAGATTCGGCCTCATTACTCGTCACCTCAGCGCTTACTATCTTGAACTCGCCCTTCTCCATAACTACTTCAATCTTAAGGAATTTTGAATCCCTCCTTTTGCCCCACTTTGCTACTATTGTCCTCCTCTTGTTGTGCTTATTCCAGTACCATCAGCTATTACTTCAAGTTCGTCACTCGCTTCAGGGAAATTAATATTCATGTTTCTTACCCTTTCCCATATTGTTAATCTAGGCTTGTCGGTATTATCTTCATTTCTGCTAGTGCGCTTAGTACTCCTTCTATTGCTCTGTAGGGTAAGAATAAGTGTAGGAAGGCTAGGAAGTCGTTGAACTCCTTTGAATTGTACTTGGTCTTAGCATACCTGTTCTCTTCCTGGAGTAATTCCCACCAGTGTTCGAAGACGTAGAAGGGGAACATTAGCTTATATCTTGTTACCACGTTCTCATCGTACTTGTTCCAATCCCTAGTGTTCTTCTTTTCCATGGGTAATACTCTGCATAATTACTTAAAAATTTTTGTATAATTCTGAAGCGATCCACAACGTACTCTCTCCTAATATTTTTATATACTTGATATGGTTGTAAGATGTATCATAGAAATAAAATCCATAAGGAGAGAATAGTTGCCACTAGAACTATAGGCGTAGTTATCAGACCTAAGTAAACATAAATCCTTAGAGGTATCTTTACGCCGTGTTTTCTTTCTAAGGAATATATCCAGAGTAGAGTAGCCAAGGACCCTATAGGAGTGAACTTAGGTCCTATGTCATTGCTTATTACGTTTACTAAAGCTAAAAGGAAATGGTTAGTAGAATGGGTAGAGTTTATAGCTAGAGAATTTATCATAACTGAAGGAAGATTGTTCATAAAGGCTGCGGTAAAGGCAAAAAGTAATCCTTCCATTATCACGTTAAATGGGGACGGAAGGCTAAACAAGGTAGAGTCAGTACTAGCTAAGAAATTAGTAACGCCTTGCTTCCCCATGCCGAAAACTACTATGTACATGCCCAAAGAGAAAAGCACAATCTGCCAAGGTGCCTCTCTTACAACCTTATATATATCTATTTTTTTCCTACGCTTGGCTATAATACCTAACAGGGTAGCCGCAGGAATGGCAACCATTGCAACTGGGATCTTGGCAAATGAAGTAAGAAAGTAAGCTACAACTAATATTGCTATGAAAGGAAAGCCTAGCTTAACCAAAAGTTGATCATTGATTGTAGGTTGAAAACTAGGCAATTCTTGATTCTTATCGGTCTTTCTAACTAGAAGAAAATAATAAAGTATTACTGAGATTATTACAGATATTATAAAAGGAAATATCATATATTCTGCATAAAGGAGAAATGAAACATCAAAATATGTAGCATCTATTATATTTACTAAGTTACTTATTATGAACGGGAGGCTTGCAGTATCTGCGACGAAACCTATTCCCGTCATAAACACAATCTTAGAACGCTCATCAATGCTGCTCCTAGATATTATTGAAGTGGCTATTGGAGTCATGACTAACGCTGCTCCATCGTTTGCAAAGAGCGCGGAAACTACAGCGTCAAGCAAAAGCAAAAGAACGAAGGCTTTGCCTAACCTATTTCCTAATCCCAATATTTTGTACGCTATATAGTCGAAGAAACCTGCTTCATCCAATATTAAAGTCATAATTATTATAGCAACGAAAGTAAACGTAGCGTCCCACACTATATCGAAAACTAACACAACGTCGTGAATATTAGAAATACCCAGAATTAGAGTAAGGGCTCCACCAATTAGTGCTGAATACCCTATTGGAATTCGCTTGGGTTTAAAATTAACCAACAAAAGCGTAGCTACGAATATTAGAATTGCAATCAGTAACTTCAGCATCCATTTTCAACCTAAGATAAACACTTTTAACAATATTGAAGCTCTTTCTTTAGGATCCCAAGACAAAGATATATTTACACCTAAGATTGAAATTCCACTAAAGTGTTGTAAGATGGATTTTATTGATTTTTTTCTATTTATCTGAGAAAGTATGTCAGAAAATATTGTATAAAGAGCTCTATAAGAAGAAAGTGAAATTCTTGCGTCAATTAGAGCATAAGGTAAATTTATGTTATTTAAGAAAACTTTCAGAATAGAGGTTTTACCTATTCTTCTTATTCCAGTAAGGGGAACTATTGGCTCAGAAATTGCAGATTGTAATAAACTTAGCTCCTCATCTCTATCGTATAAATTTTCCCTAGTTTCCTTAGGCCTTTCATCGAAGAAAATTAATAACACCCTATTAGATTTAAGCTTTTTTATACATTATCATGTAAATCCTTAAAATTTTATGTAGTGCTAGAAATATGTTAAAAGCTATTTTATTTACTAAAGATAACTTAAAAATGAAATAATAGAATAAAAATTTTTTATTCTATAAAAATAAATATGATAATTACTTAAAATAAGACAAAATACCTAAACGGTCATTTTTATTTTAGAATCTTCTATCCTTAGTAAAATTCATTAAATAACCTTAATTAATATATCGTTATAATCTCGATTCGCATTGTAAGTTCAAGAAGAATTTATAATATATCATATTCATGTAACTATACTACTCATTTCTAGCAAAATCCTAGAAAAATAATATCGCTTTTTAAAAAGAATAAAAATCTAAAAACGTTTATATGATTATATTGTCTTATTATCTATGATCAAATCGTTAATTTCAGGACTCTTAGCAGGTGTGTTAGATATCTCGTTTTATACAAACGATATGAATGTATTTGCGGTCATTTCATATCATATTTTAAAAATATACTCTATACCACTAGGTATTATTCTTCATTTAATAGCCTCAACTATAATTTTTGCTGTTGCGGTATTAATTATTGAAAAAAGTAAAATAAACGCTACTAGTTTTATTTCCTACTTTATTCTAGGAATAATGGTCGGTTCGTCTGTCCTAGCGCTATTTAGTTTACCTGTTCATCTGTTAATCTTCCCTATTAAAGTAACTCTAACTTACGTTATGGGGCACATATTTTATGGTATAGTAGGATATTTGATCTTATGGATATTAAAAAACAAAATTTAAATATTTACGAATACAATTTTTGTACTATTTTATAAATGAAAATATTTCTCTAACTTAAATTTATATTATATACATTATCTCTCCAAACTATCTTGTTTTCCCTCCAACTTATAACTAGAACTATCCAGGCAAAGAAAATCCCAATAACAGACATTAATGCTGGTAATATGGAATCTTTCTTCCTCATCCTTATAATGTTTTTAATAATCCATAGTATAAATGGAGTGATAAACACTATATTCAAAGTAAAAATAAATGACAGCAAAATAATAAACATTAAGGGTCCAAATAATAAATAAGCCTTTGCGCCTTTCGGTGAGTAAACTCTTACTGTTATTACTTGTCTTTTAGCCCATTTTATTAAGTTCCTTTCATCGTACACATTCAGAGGTTCAGCTCTACCTACAAATGCTATTTTTCCTCCTCTTCTTTTAACAATCCTTGTTAATGTGCAATCATCGCACCATTCATTTGATAGCTCGTCTATAACATATGATGTAAAAAAATCTTTTTTAAATGCCATAGACCCTCCCCAGAGAAAAGTTCCTCCTACAGCTTGAGACTCGAAGGCTAAGGTCCAGAATCCTGCTCTTATAAGATTTCTTAGAGTAATTTTAAATGGCTTAGCGAACGAAAAAGTAGTAGATGCCATATATTCTCCTAATGGAGAGACTAGTTCTTTCAACCAGTATCTAGGATAATAAGTATCTGAATCTCCAAAGACTATAACGTCGCCTTTTGCATACTTCAGTCCAGTTATTTGCGCTTTAATCTTTCCACTACATTTCTCACAATAATAATCCGTAATTACTATCTTTACATTATATTTAGTTAAAATATTTTTTACACTATCTCCTTTATCAACAACATAAATTACTTCATATTCATCTGGATAATCTTGAGAAAGAAGAGATTTCACATTGTTTTCTATATTAACGTCTATACCTCTTACTGGGATAATAATTGAAGCCTTTGCATGAAAGTTACCGTATTCTTTAAAGAACTGTGTTTCCTTCCACATTTGGCCTAGAATAGCTAAATCTACTAAAAGTGTAAAAGCAATTAAAATTAAGATCGTAAACTATCACCAATAAGCAAATTTTCAAGTAAGTTTTTATAATTGTCCATAATACTTAAACATATCTTAACTCCATTTACTAAATATAATAAAACTGTATGTATTGAGATATTTTTTAATATTAAATTAAAAAGGGATAGCAAGCCTCTTTACCTCTATCGCTATTACCTGAGATACTTAATTATATATCTTATTCAAAATATAGTATAATAATACCTTATATTATCAGTTTTTGTAATTAAAAATCAAAATAGATTATTTAGTTAATAGATTTCTTCTATATCATATTTGGATGGTTAAGTTGCGTGATTAAAAGATTATATCTAGTAAAGTTAATTATTAGATTATATTCGTATATTTATCGTAAACACATATATAGATAAGATAAGATATAAGCATATTTTAAATAAATCTTTTAACGTATCTATACAAAGTTTATGACTTTTAATTTAAAGATTTATATATGAATAAATTTATTGAATCTTCCTAGACACTTTTTTATAATATATATTCCATATCTATCATTCTATGGGAGAAGAAGAATTATTGAAGAAAATGGATTTAAACTCTACAACAAAGATTTATTGGTCACTAACAATATTAGCTACTATAGGAGGATTCCTGTTTGGATATGATACTGCAGACATAGGTACTGCGTTAGATCTAATTCCATACCATTTGTCAGCGTTTGCCTTAGGTTATCTAGTAGCTGGAGCGTCATTAGGTGCTGCAATAGGGGCTATAATTGCTGGACCGCTCACAGACAAGTACGGAAGAAAATCAATTTTACTTGTGGACGCTTTGATTTATGCAATTGGAGCAATAGTTTCAGCAATTACTATTAATGCAAATATGTTACTCATAGCTAGGACATTTATAGGACTAGCTGTAGGTGCAGACTCGGCTATTGCTACGGCATACATTGCCGAGTACGCTCCTAAAGATAAGCGAGGTAGCCTTGAAATGTTACAAGAATGGATGATAACTGCAGCTCAAACTATATCCTATATTATAGGATTTTTCATACTATTTGAGTTCCCTTTAATCGCATATAATATTGACTGGAGAATAATACTTGGAATAGCTGCTATACCTGCCATAATAGGCTTAATTTATAGGATGAAAATGCCAGAATCCCCTAGATGGTTACTTATTAAGGGGAAATTCGATAAACTCAAGGAGACATTAAATACTTTAGGAATAAAAAATGTAAGTAATGATGAATTATATACAATAGCTAACGAAATAAAAAACGATAAACCAAAACTAACTCCAGGAGTTAAAAGAGCATTACTAGTTGCAGGATTATGGATGATGTTTCAGCAGATAACAGGAGTGAACTCCTACGGCGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCTTTACAAGAGTAAAACTTTTATAAAGAGAACAAGAAAATAACACAAGCCGAAAGTGAACATGGGGATAAAACCCCATGTGGCAGGCTGGCTATACGTCCCCCGCGATCTAACATGTGGGACAACATCCCGAGTAGGAGTGTGCAAAAATTTAAGGGGACGTTCTCATACTTACTCTACACTATCTCCTAACAAAATTAACAATACAACGCGTATTATTATAGAAAAATTCAAGAATCAGGAAAAAGAGTATTACACATGGAAAGGAAGATAAAGCCTAAAGTATTTGCAATAGATGTGGGGGAATCAAGACTTGTTGCAACCAAGATGGAAATAAACAACAACACAGTAAAAGAAGCTGATACGAGAGAATTCAAATACAACGAGGAAGGACTCAAAGAACTTATAAAATTCCTAGAAGGATACGAAGAAGGAATAATGGAAGCAACAGGAGTATACTTCTACCACGTATACAACGTACTGAGAGACAACGGACTAAAAGTAAACGTGATAAACCCTGTCCAAACAGTTGAAGTCCTAGGCAAGAAGACAGACAAGAACGACTCCATAAGACTCGCAATAGCCTACGCTGCAGGCACAGTAAAAGGATCGTACATACCAACGGGAGAAATGCAAGAACTAAGAGAAATGACAAGACACAGAGAAGGACTAGTAGAGAGAAAGACACAAGTAAAGAACGAGATAAGGAAAGTTCTAGAAACAGCAGGATACAAGCTACCTCCCTTCGAAAAGAAGACAAAGGAAATAGTGAGAAAACTAGCCACTGATGAGAAGCTAACTGACGAAGAGATCAAGGAGTACTCCAAATTATTGGGAAGAAAATTAACTAGAATAGAAGCGTTCATCCTAAAACAACTCCTGGACCTACTGAACATTATAGAAGAACAAATTAAGGAAGTGGAGAACGAGATAATGAAGTTCCTACCCGAGGAAGCAGTAGAGTTGACTAAGATACCCGGAATAGGCCCAATCTCTGCAGCCACAATTTACGCTGAGCTTGGAGACGTGAGCAGGTTTGAGTCTTCGAAACAAGCTGCTTCTTATGCTGGAGTTTCTCCAAGGACTAAGCAGAGCGGGAAGACCGAATTTCACAACGGTCTCATCAAGGGGAATAAGCACTTATCCCGCGTTCTATTCCTTGTTGCAAGGTCCGCTAAGAACACGGCCCAATTTAATGGCTTCTATCAAGCCTTGTTGAAGAGGACAAGCAATTCCAAAAAGGCTACATTAGCCTTGGCCAACAAGATATGTAGGATAGTTTATCACGTACTCAAGGATGGGGAATACAAGGGTGAGACTAAGAAGACTAGGTATAGGGGAGGAGGTGGTGAAGGCCCTCAAGTTGACCCCAATCAAGTAGTTCCTTCGGCTCTTCAAGCTATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTCCTACGGTGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCCTTACAAGAGTGAGACTAAGAAGACTAGGTATAGGGGAGGGGGTGGTGAAGGCCCTCAAGTTGACCCCAATCAAGTAGTTCCTTCGGCTCTTCAAGCCATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTGCCACGCCCTAACGGACGGGGCTTCCTGCTTCAAAGCCGAGGCTTGCCCAAAGGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCAATATGGGACTGTTGAATGGAGCAGAGGCGTACCACATAGACCCTCGCTTTAACCAAGGCGTCTCAGTGACGCTTACTCCGTCAGTGACTGCCATTAATAGAATATTTGAAAAAGAAGTATATAAGTTTTACAAAGGAGGCTATCCATCTCCACCCTTACCGGTAGACCCAAAATCTAATTAGTAAAAATAATTTTTATTTATTATTAGTAGTTCGTAAAGATTTAATGTAATTAGTTAGATAATTATATGATAATTTTTATAAATTTCCAAGTACCATATTGGATTTTTTATATTTCCACACAATTAACTGAGAGATATTATTATAATATTAGAAAATGATGGGATGTATATGATAAAATACGTTTTATTTACATTGATTATTTAATACATTATTCTTAATGCTCTTGATTATGAGTATAATAAAATATATTCTTTTATTTATTAAGAAAAAATATGAGGTTTAATGTTGAATTTATATTTGTAATATGATTTTGGGTCTACCGTTACGGATGGAGTCTTCCGCCCCCTTTGAACCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGGTCGACCCTTTGACTGAAGCAAAGTCTTCGAGAGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATCTAGTAACGAGTGAGGGGAGGGTCTACGAGAACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATACTCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCCAAATATACTATGGAAGGAGAAGGACTTGAGAGGAAAGAAAACAGATTTTTACTACAAAAACTAATAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATATATCTTCCTAAAAGACCTTGAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAGTCAGTGACGAGGAAAAAATAAGCAAGGAAATGCTTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTGGAACAAAGATAGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATCACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGAAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGTGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGCTCTACTTCCTCGCTGAGATGAATTATTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTACACTGCTTTAGCCAGGAAATTGGCTAGAATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGATCCTCCCCAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCCTTGTTAAGATAAATATTCCGTTCTATTACGGTCCATACATATTTGCACCATTTTTTGGATCAAGTGATGGATTATCAGCAATAAGAGCAGGAATAATAGCTACGCTAATAATCTCTGCAACACAGACTGCAATTGTCCTTGTTGCTCTAAAATATATAGATAAGATAGGCAGAAAAGGTTTAGGTAAATTGGGATATTTAGGAATGGCTATTTTCTTAGCTTTTGGTGGTGTTTCAGTAATGTTATTTTCTGGAATAGGAAAAGTAATAGGTCTAATAATAAGCTTTATAGGGTTTATGATATTCTTCGGTCTCGGAGTAGGAGGAATAGGTTGGACCATTCAGGGAGAGTATTTCCCTACAAACATAAGAGGAACAATGGCGTCCCTATTAGCATTCATAAACTGGACCTCTAACTTTGTACTTATAGAAGTTTTTCCTGCATGGAAGGCAGCTATAGGATTGGCTCCAGTAATGTTCAGTTTTGCAGGGCTTTCTATAATAGCTGAAATACTCTTCTTGTTCATTTTACCTGAAACAAAAGGTATGAGCGTTGAAGAAATAGCAGAAATGTTTGAGAACATGAAAGTAAAATAATATTATTTTTTAATATTAATAATTAAATTTTGGCCATTTCCTAAATATAGATCTAAATATGGCAATGTTATATTATGATTTACTAGAATAGTTATATTATTTAATCCTGGAGGAATAGATTCACCATAATATTTACCATTAACAAATACATAGATACAATTAAAGGATATAGTATTATCGTTATTTTTAGCATAACATATTGCTTCGGATTTTCCAGGATTATTCACCGTAACATTTATGTAATACATAGAAATATTTTCTCCAATTCCTTTTTCTAAAGAGAGATAACCATATCCTAAAATACCTTCACCTTCTACTTCTACTTGAGAAATTGTGTGATGAGAAATAAAGATTAATGGAATGAGAGCTATGATCAGTATAATCAGCGGAATAAGAAAATAGATCTTTTTCATAGATTATTTTATTCTTTAATAGTTTAAGAAATTAGCTATAAGCTAGCATATAATAACCCTTTTTCTCTAAAACATTCCTTCAAAGATTTACAAATTTTATCTGCTTTAAAACCATAGCAGTCTACACTTATTATCTTTTCTTTTCTACTATCAAACAGTATCTTGCAATTTACCTTATAATTACTAGATTTTAATGAAATTTCTGTTATGGGACCTAAAGTAAAATCTAATGTGAATGTTATTTTAACATTATCCACTTCTACACAAAATTCTCCTGACTTCATACATTTTACAGAATTACAATTAAAGAATTCATGAATACTCATTTTACCACCACAGTAATATCGTCCTTACAATTAAGATTTTTATTTTTATATAAAGGGTTCAACTTATTTTCTATTTCTTTTGCTATACATTTTATATAGGATGAATATTCTTCAGGAATTTTTACTACTTCATAAAAATATATTTTCCCAGATAGGAAAACAGGAGGATTATACGCTCCAATATTGCTATCATTACCTATATAATCAACATAAAGCGCCCTAGCTTGAGTTTTTACTATTAGCACAACATTTTTCTGCAATGCAATCTTACCTTTGATCTGAGAAGGAAAAAATTGCTCACCTTTAATTTCAAATTTTAGAAGCGTTAAGATCACCCAAACATTTCCTTCTGTATTTTAGCGAAAAGACTCAGGTCTACTATTTGGATTATACATAACCCTATTATAGTGAACATTAAAATCAGAATATCAATAGGAGGTCTGAAATATAACCAGTATGAAAGATAAATTACAATAGCTATTAACGACTTAGATATACCATAATATTCAGCATATTTTAAACTCATAGAAATCATGCCAAGAATTAGCATATTAAAAACAGCCGAAATTAACGGTACTGAAGTTAGGATAGCTCTAAGATCAATATTACTTATGGGTAAAGGATTAAACGTTAGAAGAGTAAATAAAGACACAGAAAATATGATATTTATGGAATAGAGAAATGACGAGAGTAAAAGGACTAATTTATTCAATGATTTTAGATCCATTTGTATCACCAACGTTTATATAGAAAATATAGATTACAAAAATTTAAAGCTTATTATATTTCATGATTATCTAATCATGAAAAAACAATGTATAAATAATAGGTTGCTTAAATAACTTAAAATAAAAAAGTTTATAAGAAAAGGATACAATAGGAATTTGTGAAACTATGAAAATAACACAGATTTGCAGTTGTTCCATACTAACTATATTGGGAATATTTTTACTTTTATCAGGAATAATTGGCGGTATTAGTTATTTCAGATACTCTCCAGACGTTCCAATATATTTAGGAATACTTTTATTGAGTTTAGCTACGATCTCAATAAGTATAAGCATAGCAAATAGACAAAATGAATGGTAAAAATTTAAAATAAAAAATTACGTACGAAAATCTATTGGTGCAAATACTAATTGTTCTTTTTCAATCTCTGGAAGAGATCCTATTTTCTTTATATTAGCCCATGTCATCTTAAAAGTCCAATTTCCTGTTGCTGGATCTACGTTAGGTAAAGTTATTAAGTTAGCAGCCTGCTGGTGTGGATTAGCCATTGCTATAAACAATACTCCAGGCGAAGCAGTATTTGATATCCATATAACGCCAGTTAGCGTTCCATAATCATTATACACTTCCACTATATCTCCGTTCTTAAGTCCTTCATTATCGGCATCTTCCTTACTTATCATTATAAATACGTATGGTACTCTAGATCTTATCTCTGGTACTTCAAAATCTGGCCAACACGATTGCCATAATATTTCCCATCTGCCATTGTTTGCATTATATTTATACTTCTGCCTTGCCTCCTTCATATAGCCATAATATCCAGGGAAATAGGCAGGCCATGGATAGAAAGTATTTATTACCCAAGGTAAAAGATCATAGCCGAATTTTTCCCTAACTTCGTCCAACGTCATATATCCAAGTTCTCTGATTATTAATGGTAAAGTTATAGTGCCTACTGTAACTGATTGCGAAGGATCGACTATTATTTTCTCTACCCTAAATTTGCCATGTATGCCAGGCTCTGCAAGATTCACAACCCCATATACTGTAAAACCACCGTTTGGATTATCCTCTGCGCCAACTATAGGTAAAACTTCTCCTACAGTCCTTAGCAATTTAAACTTCTTTAAGTTCATATATTTCCATCCAGGAGACCAATGAATTATAGTCCAACCATAAGGCCAATTTATCCCACTTTTACCAAAGAAGGTATCTGCGTTAGCTACATATGTTACCCAGAAATCATTAGCTATATTAAACCAATCATAATCTTCATATCTATGGGAGAATGGAATCTTTTCCATCAAAGGAGCATTAGGTTTCATATACTTCTTAAGATAAGTCCATAGAGGATTGAATGCCTTGTAAATCCTTTGAGCTTGTGCAGAAGACTGTCTACCTTCTTCTTCGTAAAGTTGATATATTCTATATGATATCATACCATATATCCATGGGTCCGGCATTGCCTCTCCAGGCGGATCGTGGAAAGCCTCACTTAGCCTAAATCTTCTCTCATGAGCATTATATCTCATTTCGTACATTTCTCCATTATTCACTGCAGAAGGTAATACTACATGAGCTGAATACTGTCCTAAAAAGTTCTGATCTAGATAAGAATCCTGAAGAATTACAAATAAAGCACCAGACACTTTATTAAGACCATCAATGATTAAATTAGCGTATTCCTCTGAGGTAGGAAATTCTGGATTAGTCTTTTTAACTGCGTCAACATTAAACGTATCTCCTACTTTCTCACTAACGTCACCCAAACCTGAGACTCCGTTAATATAATTAGAAAGTGCTTGCGCTCTTCTATTTACCACTTGTTGTAGTTTTGGTATATTATATGATAATTTAAATGGATTTGCATCAAAGGTATAGAATATCTTTCCTTGTCCACTAATTAGCCTAGAATCTATTATTGGAAGATATTTATCTACTGCTGGATACAGCGTCTTTGTATATTCTTCATAAATAGTTTTAGAAGGACGAGATATCCAATCTCTTATCCCATCGGACCATGGAGTTGGAGGCGGATTAGGTCCAGCGTATCCTCTTTGATGGCCTCCTGTTATTTGACATCCGCATCCTGGCCTACCAGAGAGAGCTCCGCTTATCATGCACATATTAGCTAAAGCATATTGAGGTAAATAATTTATAGTCCAAATTAATCCCTTCTCATATTCTATTACAGTTCTCCTATAGTATACCTTACCATCTGTACCTATTTTAGGCTTCGCAATAATGTCTCCCAATCTCTTAATTGTATCAACCGGAACTCCAGTAGTCTTTGAAGCGTCGTTTAATATTTCTTCTAATGGCTTTGACGTCAATATTTCCTTTACATAATCCTGATAACTACTAGACATCCACTTAAATCCGTATACCTTGGCATTTTCGTATAAGGATACAAAATGTTTAACTACGTCCGGATATGTAGAATAAATATATGCTGCAACAGCATTAATCAAAACAGTGTCTGTACCAGGATTCACTTGAACGTAAAGCACTTGTTCTTTTGGATTTGGAGCTGCAGCTTCCGCAGCCTTTACAGTTTCAGTATTTCGTACCTCCACTATGGCCATTTGCGTTGGAGGTATAGGTTCTCCTGGCTCGAAATATTTCTTCTTCCGAGTTTGAGTAATTCCCTTAAGGTTATCAAACATATGTTGAATAAAATTAACTGTAGATGTAGAATATTCGTTAGCACCCCAAATAACTATAGAATCTGCTATTGAAATATCTAACATACTTGAATTATCAGGGTCTTGTGCTGCATCTATAAATCCTGCTGTAGTCATTGTTAAAGTAGGCTGATAATGAGACCTTATCATTGGCGATGCCATAGCTAAATGGAAAAACAAACTAGCCACCATTGTTGTAATATTTCCTCCTCCTTGTCCGCCTCCGTGCGTTACTCTATCAACAAATAATTGAAGAGCACCAGGGCCTATTGGATATTCGTATGTTTCATGATCTAAATAGTATTTAAGAACTCTAGCTACTACGTCTATAGCATATTCCCAAGAAACAGCTTGAAGCGAACCGTTAAATCTTACCATGGGATTTTTAGCTCTAGCCCAATATTGAGCAAATCCAGATCCATCATCACTTATAAAAGTACTCCAAATCCTTTTTGCATTCCTACCTCCTCTGGGCGAATAGTTTCCTTCATTAGCAGGACATTCCGGGCTTGGAACCATCTCTATGTAAACTTCTTCCCAAACTCCTGTATTTGGATTCCTCTTAATAGTCTTAGATACCATTCCTTCTCCTATCCATGGTTCTCCAACCAGTGCTCCTAAAGGTGGAGCTGGAGCTGTATAGTCAGCCTTATAATCCTTAAGATTTCTATCATAGATCTTATCTACAACGTTCCAAACTAAGGCATTTTTTCCAGCTTGAGGCTCTCCTGCTTTATCTGCTGGGAATACATAAACTTGATATCCACAGCCTGTATTGCAGAATCTACATACTGTAGTATAATACTCCGCATTTACTGGAGGTAAGGGAACTTTACTATTTCTAGGATATGAAGGTCGCTTGTCTGACATATTAATCATGAACATTGTTATCCTAATGCTTTAAAAATCTTAGTATATATTCCAACTTAAACTAAAATAAAGAATTTTTAAAAAATAATCGATTTAGTCCATTTAATAAGTTTAATCTTTTTTTATTTTTTATTTATATATCTCTAGCTAAACATAGCGTTTAATAGTACATAAGAAAAAAACTATTATATGAAATTTATCACCAGTCATAATCTTGCAGTAAAAATTTGCTCGAATTTACTAGTTTGAGATAAATGGAACATTCCTTTCTTTTTAATTATACAAAATTTTTAGTTAACTTACGAAATATTATTAATAGAGAAAGGTATCCTTATAATAGTTTAATGAGAATAACATATAATGAGTCTAGCTAGTCAAAAATAGCTATGTCAGTATAGTCTACCATTTTATAGTGTTATTTCATTAGATAATTCAAATGAAATAAAACTCACAAAATCTCCAGGATTTCTGATATATTAAGTTAAGTTTTAGAGAACCTAAGTTGACTGGAAAGTTTATAAGAAAATCATAATAAAAAATAAAAGTGGATTTCGTTGTACTGAAAAATTTATTTTTAAAAAATGATTCACTTTATGATCCAGAACTAGATGGAATCTGGAATTCTATAGGTGCGAATGTCATTTGCTGTATTTGGTCTTGTGTTAATCTGCCTACTTTCTTTATATTAACCCAGCTCCATTTTACCATTTGATTATCCGTCACTGGATCTACAGTTTCAGTAGTAACTTGATTTGCACCAGGCTTTACTTCAAACGCCATAGCTATGAATAACTGTCCAGGAGGAACCGTATTAGAAATCCATACAATTCCGTCTACTGAACCATAGTCGTTGTATGCTTGAATTATATCACCGTTTTGTAGTCCTTCATTAGAAGCATCTTGTTCACTCATCATTATTATTGGATATGGCAATCTCTGTAAAATCTCAGGTATTTGATAATCCACCCATCCAGACTGGAATATTATATTCCATCTTCCGTTATTTGCCCAATACTTATATTTCTGAGATAGTTGAGCAGCATATCCGAATATTCCTACATAAGGCGTTGGGAATGGGTTAAATCCATTTATTACATAAGGTAATAAATCATTCCATGAATATCCGAACATTGATTGTAAGTCATCAATACTTAGATACACAACCTCTCTTGTTATCAATGGTAATGTAGTATTGCCTATTGTTACAGATTGATTAGGATTAATAGTTACTTTTTCAGCTCTAAATTTACCTGCAATAGCTGGTTCAGCGTAATTAACAAGACCCCATAGAGTAAAACTACCGTCTGCATTAGTAGTCTTGCCCAATATAGGTAATTGAACACCTATAGTTCTTGCAGCTTGAAGATCTGTTAAATCTATTTGTGACCAACCAGGAGCCCAGTGCGGAACAACATATCCATAAGGCCATGATTTAAAGTTAATAGGTCCATTTGCTACATAATAATTCCATAATCCGTTATATATATTGAACCAATTATAGTCATAATAATTCTCGGAATATTCAGGAATTACGGATAAAGGTTGAGAATTTTGCGCCATATTAGAAGTTAATAAGCTCCAAACTTGATTAAACGCATTATATATTCTTTGAGCTTGAAGTGAACTTCCATTACCTTCTGCTTGATAGAGTTGATATATTCTATAGGCTATCATACCGTAAATCCATACATCTGGCATTGCCATCCCTACGGGTGAATGATAAACTTCGTCTAATCTCAATCTCCTATCATGACCGTCCCATCTTATTTCATAAGTTTCACCGTGATTTGACGCTGATGGTAAAATTAGATGACATGCTCTTTCCAATAAACCGTTTTGTTGCAGAATTATATCATTACCAACTACAAACATTGCTCCTGAAACTGCACTACTTCCACTTAGGCATGAAATAACTGCGCTCGCATATTGGTCAGAAGTTGGGAACTGTGGTATAGTGGAGCTTACTGCACTTACGTTATAACTTGAAGATGGAGTAGTAGATGAGGAAGATGGAATACCCAAGGACTGAGTATTTTCCACACATTCTTGAAGTAAATGTGATCTATTATCAATAACTTGAGCTAACTTTCCACCTCCCATAGTTAATTTATATGGATTAGCTGTAAATGTCCATAACACTTTACCATATCCACTATATATTAGATAATCTATAACTGGATTGTGTTGGTATATTTGCGGTACGAGAGTTGACGTATATTCGTTATAGAATTTCTTTATGTAATCCGCGATCGAGGTCCCTGATGGAGTAATACCTTGTGCAGTTAGTTGCTTTGGAACATATTCGTGCATTTGAATAAAGAATTGTCTAGATTGACTTAAGTTGCTAGACCAAGGTGGTGGTGGTGGTAATGGAAATGCTGCACCTCTTTGATGACCAAAACCAGTAGAAACTCCGCATCCGGGTCTACCAGATAACGCTCCTACTATTATTCCTAAATTAGCTACAGAATAAATTGGAGTATAATTAGCAGACCATATAATTCCCTTTTCAAACTCAAATAAATCTCTCTTGTAAAACGTTTGTCCACTACTGTTTGTTTTTGGCTTAGCTAACATATCTCCCATTTTCATTATAATATTTTGAGGTACTCCAGTTATTTGCTCAGCTTCAGATAGCCAATCGCTTAAGCTCTTAGATTGTAAGTACTGAATATAATATTCGTACGTTTGATCATTAAACATAAACCCGTAACTACTCGCAGACTTATATGTACTAATAAAATTATTAACTACGTCAGGATAGGTATAATAAATGTACGCTGCTACCGCATTAGCTAATTCGGAGTCAGTTCCAGGATTTACTTGAACGAATAGCATTTGATCGCTTTGCCCACTTTGTGCTTGCTCTACAGTTATTCCTAATTTTGCGGCCGCAGCTTTTACTGTCTCTGATGGCCTTGCTTCTACTATTATTATTTTACCGGCTTCTGCAGGTTCTCCAGATTCGAACCACTGCTGTTTTCTAGTTACAGTGACGCCAGTAATATTATCGAAAATATGTTGGATAAAATTAACAGTTGATGTAGAGTACTCATCTATACCCCATAAAACTAATACATCTGCAATACTAATATCTAACATACTAGCAGTGTCTGTACCATTTCCATTAGTAGCCTCTTCTAGCGCATCTTGAGTAAACGAAAAAGCTACTTGATAATGGAATCTTACAAACGGTGTAGCTAATCCCATATGGATCAATAACCCTGGCATTAAATTACTAAATACTCCACCTCCTTGTCCACCTCCATGATCTGCTCTTATTGCAAGAACTTGAGTTGCCGCAGGACCTACTGGATCTGGATAAGTAAAGTTCTCATTATCAAGATAATACTTTAATATTCTAGCAGCTACATCTATAGCGTAACTCCAACCTACTGGTTGTAAACTTCCATTCCATCTGATTAAAGGAGATTTGATCCTAGTAGTATATACTCTAAACCCTGCAGCATTATCTGAAAACGGGCTCCAATTCCTTTGAGCATTTCTACCACCTCTAGTTGAATAATTACCTTCATTAACTGGGCATTCAGAACTGGGAACTTCTAAAATATAGACAGATTCCCATGTGCCTGTATTTTTATTGTATCTTATAGTTCTAGATACCATTCCTTCTCCTATCCAGGGAGTACCTATTTGAGCGCCTAAGGGAGGTACTGGTTGAGTATAATCAGCCATATAATTCTGTAAATTCCTATTGAATACTTTATCAACCATGTTATATACTACAGCGTTTTGTCCAGCTTTTGGATTACCGGCTTGATTATCTGGGAATACGAAAATGTCGTATCCACAACCTACGTTACAAAATCTGCATGTCGCAAAATATCTTTCTGCAGTTACAGGAGGTAAAGGTATTTTACTATTCCTAGGATATGCTACGTTAGACTGAGAGCTAGAACTCATACTTTCATCTAATCCATCATATTGTTTAGAACTTTAAAAATTTTAGTATATATTCTTACTTTTGTTAATTAAAATCGTTTAAAAGATAGGACAAAAAGTATAAAAAATAGTTTAAACCTTTTAAGTTATCTAAAAAATAATTATGAGAAAAATTAAAAGATCATAGCGCTCTTCATTATCTTTATTATTGAATATACCAGAATTAAATTCATAACTATAAGCATAGCTATTCCTACCGCAGGTAATGCTCCAGGAGACCATGATAAAAATCTGTACGTAGCATTAGAATACTGCGGATAAGCTAAAATGAAAAATATACTTAATAAAGTATCTCCAAGCATGTAAACAGCCAATGAAATTATTCTCAAAGTTAATGACATTTTATAGATAAAAGACCCTGCTAACAATCCACCTAAAAATAGCGTTATTTCACAAAGCGCTCTAAAATCAATATATGCTGCTGCCAATGCAAAAAAATACGGTACATGCCAGAAAACGGCTGGAATTATTCCTAAAATAAATGAGTAGATAGAACCCTTAAACATTTTATATCCTATTAATACTCCAGCAGCGTAAAGTGCATAGTGGTCTAACATAAAAATTACAGGATTATTAAATTGAAGTATCTCAACGTAAGGATTTACGAATGCTACTACAAATACTATTGGTAGAATAATACTTTTCCATGAAAAAGAGCTAGGAATATATCTTATCATAATTAAACTTAATTTTTTTCGGTTAAAAACTTAGCTTCTATTATCTACTATGTTTAAAATAACTAGAAAAATAGTTTAAAAAAAGTATCTTAGGAATTTTTACTTGTAGTATGTATATTGTCTGTTAAGTTTGCTTTAGTATTTTCGCTACTGTCTACAGCATTAGCCCCTCCTGTAGGAGCTACTGGACCCATAGTTCCACTTATACCTGCCGGTAAACCAGATATTGGAATAGTTTCCCAGAATAACGAGGTCTTTATCCCTAATAAAGTAAATAGTATAGGTAACGCATACATAACGAAACTAGCTCCCAGCATTATTGCCAGATATGTCATAGTATCCATAAATGGAACAAATTTAATAGGATATGCTACCCATCTCCTTATTAAGCCAATGTATCCAGCATAACTCATAGTGTAACCTAAAGCTAATGAACCAATAGTCCACATTATTAGCCCACCGCTTACCATTCCTTTACCTAAGCTTGAAAACGTTACATTTCCCATTTTGGTCTTTAACATGTCAAGTAATATTGCTATATATCCTACAATTATTATTGTCCATATCATTAAATGAAAGTGCCCTACTATATAGTAAGTATTATGAACTATAACGTTCAAAGGATTAATTGGTAACATTAAAGCTTGCAATCCAGCCAATATGAAACCTATTAAAGCAATTAAAGAAGCAAGACCAACAGGATCCTTCCAATTATAACCCTTGCCAGTAGCAATAGTTAGTCCTAAGTTTAGCACTGTTAATCCTGATCCTGCTGCCAAAATCAATGTAGTAGGAGTAATGAAAGCCCTCAAAACTACAGGTAAAGGCCAAGTTTGAAGATGATGAACCCATACTAACATGCCGAAAGTAAATAATAGTATCATATTCCATCTAGCCCACTTTTCGCTGAATAACGACCTACCAGAGAATCTAGGTATTAAATAATATAATCCACCAAATATTGCAAAAGGTGCGTAGTATACTACTGGATGTCCCCAGAACCAGAATAACACTACCCAAGTTAATGGATTTACAGGAACGGAAGCCCAGAAATATAAAGCGTACCATAAAGTAGCTGCTGAGAGAGCGAATTCAGTTATAAAAGTGAAAGGACCACCAAATGTCATTCCGTAAGCGGCAAATATCGGCATTTTACCTTCTTTTGGTCTTGTTTTATACCCGTCAATGAACATTGTTATTGAAGCTATTATAACGCCAATAGTATTGAGGAACATCATGAAATACGCCAAACCTATCATATCTCCCCTATAGAATATCCACGTCCCTTGTTGTAATGCTAATGGTGGATACATGTACCAACCAGTTGTTGGACCTCCAGCAAATTCAACAATCATTGGAATATTAACTAACCAGAATGCTAACGTTATGAGCTTATTATGAAGTAAAGACATTCCGCTCTTATACAAGGCATATGCAAATACAGAAAATGTTACGTCTTCTACTATTATCATCATGGCAGCTTGCCCATGAAAAGTTACTAGGAAGTAATAAAGTGGTGCTATTGCATATCCAGCCTTTATGTTAATATGTGGACTTAACAGTATAGTCCTAAACCACATTGCTGCTAATCCCATTGCAGCCAACCAAGATAATCCACCAGCTGTAAAAAGAAGTGATATTCCCAGAGTTGTTTTAGGATAGAGTTTAGCCATTTTACATCACCCACAGATATCCGTACATATACGAATGACCTATTCCACAATATTCGGCACAGTGAAAAGTGTAATTACCAGGAGATGGAGGAGCATAGAAGAAAGCGTAGCTATTTATTCCAGGTACAATATTCCAATTCTGTGGCCCATGAGGAAGTCTTAGATAGAATGCATGAACTACATTATTGCTATATAATACCATCTCTACTGGTTGATTTGGATAAACCTTTATGTATGGAAATCCATTAACATAAGTAATTATGTTATTTACTGAAATATTTTCCATAGTTCCATTTGGTGTATAAATTATCTCAGTAGCATTCTGTGGTATCCATGACCATTGAACAGCTAACATGTATATAATTACAGTTCCATTAGGTAGTTTTGTAGGTAGACCACTAGCTAATGGAAGCCCAGTTCTATATGTCGCTGCGCTTCCTGACATTATTGTAGTATATGACCAACCTACAAAGAAAGCTACTATGATTAACATTACTACAAACCATATTTTTTCCCAATCATGACCTTGATGAGAAGACACTTTTGGTCAAAAAATTTAATACATTAATTAGTTTAAAAGCTTTTCTTATTATGAGTTATTTAAATTTTAAAAAATTTTTCCAATATATCTTTTAAAAAATTAGATTGCCTTTTTCCTAATAAGTAGATAATATAATATTCCGCCTAATATTCCTACTCCAGCTAATCCAAATCCAAATATATCTTCAAAGCTTATACTAGATGGTGGCGCGTACGTCGCGGCTAAGAATTCTAACATTTTTATCCAGTAAACATTAGCACGTTAACTCTTAATAAATTTTATTATTATATAAAGAAACCAATTATAAATTATATTATCTTATTTCCTATATTGGTAACGAAATCTTTAGAAGTATTTCTTCGAATAAAAATCTAAATACGATTTATTAAAAAATTAACAAATATAACTTCCTAAACTAATGTTTAGTTAAAAATATATACTCCGCTTTTTTTAAATTTAATTGATGTTACATGAGTAGAATAGGTGTTGCTATACTTGTACTCATATTTGCAGGTACAGCTTTTATGGCTGGATTCTTAGTATATAATTTTTCAATAGTACTATATCCTGTCCATCCTACACATGCTGCACCACTACTTGCACCTATAACTACAACTACTGTTCCTCCGACAACAACAACTACAACGTCTACAACAAGTACTAGTGTTCTTCCTAGTGGTGCTAAGGTTCTTCCTTATGATGCTAGTAATCATACTGTATTCCTCTATATTACTTCTTTGAGTACTGGCACTCCTTTCAATTTTAATGGTACGAGTAATGGTGAGCTTCATGTGTATATTCCTGCTGGTTGGACGGTAATAGTGTATTATACTAATGAGGAGGCTATTGCTCATAATTTTAATATTGTTCAGAACGATACTCCTACTCCTAATAATGTGAATATTGAGGCTGATGGTAAGGTCTTGTTGTTTGTTGGGACTACTTCTTCTACCTATGAGAGTAATGGTATTGCTAGTGGTGAGAGTGCTTCTGGTTCTATAGCGTTACCTGCTGGTATTTATTGGTTTGCTTGTGGTATTGCTGGGCATGCGGAATCCGGTATGTGGGGAGTAATAGTGTCTTCTACGTCCGTAACAGAACCGTACTATGTAGTAAGTTAAAAAATATTTTTTATACAATTTTTATTTAGTTAAGAGTTTTTTAAATTCATATATATCAATATTATGAATTTTTAGTATTTTACAATTAATATATTCTTAGTTAAATTATTGGATATACTAGAGCTTCTCCCCAAATTAGGTATAATTAAAGCTAAATTCTAATCTGACATAACTTTCAACTAGACATTTGGGTTTCATATTTTTCAACTACATTAAATTAAATCAACTTGGCCAATGTCTTAGAGTAAGGGTGTGCTTTATATAATAACTTCAAATCCTATTAAAGCTACTTTAAAACTTAATTTTAACCTAATCTAAGACTATTTTCTTATAATAAGGCAGTGGTTAACGACAAGAAATAACTAATCTGAATAGGAAATAGGACAATATTTTAGATTTAGTTAATTGATCTAATTTGATACCAAACTGGTGGTATCTTAACTCTTAAGAAAATTGAAAAAATTCAATAAGTTGTTTGATTATTAGGGAGTGTTCTTATGCAGTCATCCTATTCGAGAGCTAAATGCGAAATTATTAGAATGACGTAAAAATTACTTCTAGAACATTTATGTGCAAGGATTACGAGATTTTTGTAGAGCTACAATGAACCTCGTAACCCTTGCACAATCACTTCTGATTCTAAGAAATTTAAATCTTAAGCCTAGAAAGTACAAGTTAGAAGACCTTACACTCGCTATAGCAGCATACCTTCTAGGAGTACAAGTTACCAAACTCGGAATACCACCATCAACACTATACTACTACAAAAAACTGGGAATAAGAAGAAAAGAAGAAAGACCTACATGCCCATCGTGCAACTCAAATAAAATAATAACGGATCGTCTAGAGGAAAAACAAAGTACAAGTGTAAAACGCGCGGAAAAACGTTTTACCACGCTAATCACAAGCTGGACAAGAAACAAAAAGAAAGAATCTTGAAGGAGTATCTGAACAGGATGAGCATGAGGGGAATATCCAAGGTTGAAGGAAGACTATTAACTACAGCAGTTTGATAAAGAGAGCAGGGATAAAGGCATACGTTGGTATATCAGTCCTTTACAACTAAAGAATTTTACTTCAAAATTTACGATACTTAATGAGAGTTGGACTTACGCGTTAGGCACGGTCCTAAGGGAATCTTTGGATTTGGAATGCTTTGGTTGATGGTTCGCCTTTCTTCATGGCGATAGGTATTATAGGACTTTTCGTTTTCTATGGCGTTTCCTAAGAATGAGGTTAATTATACTGATGATTATTGTGTTTATCAAGTTCTTGATCATGTTGCTGGCAAGAAGTACACTTACACTATAGAGAGTTATAATTCTTATTGTAGGTCTCACTTGGCTAGGTTGGCTAGGGATACTAAGTCAATAGGAGTGAATGGTTGATTATAGTCTTGCCTTGTTGAACGTCATGTATCCTGTAATTCAAGGGAGAAGACTCCCTTGAATGAGGCTTACTTGAAGGGAGTACAGAATATTAGAGAAAATCTGATATAATTTTTCTAAACAATATCGAATAAGATGACTGCATGAGAACACTCCCGATTATTACTGAAATATAAATAAAAATCAGAAATCAATCCTGTTAAATTCGTAAAGAAGTGATATGACCGAAATACTGTCTAGACAAGTTCTTAGTAGTTAAAATATTCAATAGTATTCAATAAATTCCAATTTTTTAAGTAATTAATCTTATTTTTTATCCGTAAGAGCTGATTGAGTTATTCATATAAGTCAAATAAGATAACTATATGATTAGACATGAGTTTTACAATATTATAAATTCAATTTATTCCTATCAATTAAAATAATTCTATAAGGAATAGTGATGAGTGAAACTTATCGAAACGCTTACGTTCCACCAAAGAACTAAAAGACTCAATCAAATTGTTAGGTCTTTATCTGTTAACTTATGACGTAAGAAAATAAGAAAAATTTGAGAGATCTACTTTCTATAGTTAGTCAAGTACTACGGTAAGACGCAAATATTTCTAAATCATGCATTTAGTTAAAAGTAGGCTATGCGTTACTACCAATAAAAATTGAAGAAATCGATAAAGCAAGTTAGCTAAGTGAAATTAATTACTAGGTAGGATTATCAGAAGAGGTTGGACTGATATCCAATGATATAAAAATTGTATAAAAAATATTTTTTAACTTACTACATAGTACGGTTCTGTTACGGACGTAGAAGACACTATTACTCCCCACATACCGGATTCCGCATGCCCAGCAATACCACAAGCAAACCAATAAATACCAGCAGGTAACGCTATAGAACCAGAAGCACTCTCACCACTAGCAATACCATTACTCTCATAGGTAGAAGAAGTAGTCCCAACAAACAACAAGACCTTACCATCAGCCTCAATATTCACATTATTAGGAGTAGGAGTATCGTTCTGAACAATATTAAAATTATGAGCAATAGCCTCCTCATTAGTATAATACACTATTACCGTCCAACCAGCAGGAATATACACATGAAGCTCACCATTACTCGTACCATTAAAATTGAAAGGAGTGCCAGTACTCAAAGAAGTAATATAGAGGAATACAGTATGATTACTAGCATCATAAGGAAGAACCTTAGCACCACTAGGAAGAACACTAGTACTTGTTGTAGACGTTGTAGTTGTTGTTGTCGGAGGAACAGTAGTTACAGGAACTGTAGATGTAATCGTAGAAACTACCTTTGGTGGAAGTGTTGTTGTCGTATTCACAATACTAATCGGAGCTCTCGTTGCGACATAGTATCCTGCTACTGCTACTAATATTATAGCTACAACTACAGCTACTATTACAGGTGTATCTAGTTTAGCCATTAATTATGTTGATTTAAATTATAGCTAATAAGATTTTTCATTATAAAAGATATAAAGACTTTCTAAGTTAGTTTTTTATATAAAGAATAATATATTTTAATTTATATTAAATTTAATTATAATTTAATGAGAAAACGTTCGTAGAACATTCTATGAAAAGGTCTCCATGAAATTAAAGCTAAAAATTTTGAGCCATAATTCTTCAGTTTCTATTATTATATAATTATATTCAAAAGAGTATTACACATGGAAAGGAAGATAAAGCCTAAAGTATTTGCAATAGATGTGGGGGAATCAAGACTTGTTGCAACCAAGATGGAGATAAACAACAACACAGTAAAAGAAGCTGATACGAGAGAATTCAAATACAACGAGGAAGGACTCAAAGAACTTATAAAATTCCTAGAAGGATACGAAGAAGGAATAATGGAAGCAACAGGAGTATACTTCTACCACGTATACAACGTACTGAGAGACAACGGACTAAAAGTAAACGTGATAAACCCTGTCCAAACAGTTGAAGTCCTAGGCAAGAAGACAGACAAGAACGACTCCATAAGACTCGCAATAGCCTACGCTGCAGGCACAGTAAAAGGATCGTACCAACGGGAGAAATGCAAGAACTAAGAGAAATGACAAGACACAGAGAAGGACTAGTAGAGAGAAAGACACAAGTAAAGAACGAGATAAGGAAAGTTCTAGAAACAGCAGGATACAAGCTACCTTCGAAAAGAAGACAAAGGAAATAGTGAGAAAACTAGCCACTGATGAGAAGCTAACTGACGAAGAGATCAAGGAGTACTCCAAATTATTGGGAAGAAAATTAACTAGAATAGAAGCGTTCATCCTAAAACAACTCCTGGACCTACTGAACATTATAGAAGAACAAATCAAGGAAGTGGAGAACGAGATAATGAAGTTCCTACCCGAGGAAGCAGTAGTGACTAAGATACCCGGAATAGGCCCAATCTCTGCAGCCACAATTTACGCTGAGCTTGGAGACGTGAGCAGGTTTGAGTCTTCGAAACAAGCTGCTTCTTATGCTGGAGTTTCTGGACTAAGCAGAGCGGGAAGACCGAATTTCACAACGGTCTCATCAAGGGGAATAAGCACTTATCCCGCGTTCTATTCCTTGTTGCAAGGTCCGCTAAGAACACGGCCCAATTTAATGGCTTCTATCAAGCCTTGTTGAAGAGGACAAGCAATTCCAAAAAGGCTACATTAGCCTTGGCCAACAAGATGTGTAGGATAGTTTATCACGTACTCAAGGATGGGGAATACAAGGGTGAGACTAAGAAGACTAGGTATAGGGGAGGAGGTGGTGAAGGCCCTCAAGTTGACCCCAATCAAGTAGTTCCTTCGGCTCTTCAAGCTATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTATCCATCTCCATGGAGTCTTCCGCCCCCTTTGAACCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGGTCGACCCTTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATGTGACGAGTGAGGGGAGGGTCTACACAACAACAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATCAATAAAACCATGTCAATACTTCAAGGGAAAAGGGATCAAGATACTACAAGTAAGCCAAAACTATGGAAGGAGAAGGACTTGAGAGGAAAACAGATTTTTACTACAAAAACTAGTAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATACGTCTTCCTAAAAGTTGAAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAAGTGACGAGGAAAAATAAGCAAGGAAATTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTAGAACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATTACAGTCTGAAAATCACGTTCTGCTAACTATACCGGGAATAGGAAAACTTTCTGGATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTATCTGCGGTTTAGACCCAATGAGAGGAGCGGTAAAGCTACTGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTCTGCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTCTGCTTTAGCCAGGAAATTGAGGATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGACCATAAATCACCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCCTGATCATGATAAAAATATGGATAATCTTTTTTTAAAAGGATTTTGAATATACTTTATGGATTTGATAAGAAAGGGTCTAATTATCTCTCTACTACTTATTCTATCTATACTTGGCTATCTTCTATCATTTAGCAAAAGTTACTTGTTAATTGGTTCTACTTTATCTGCATTTAGTTTCTGGATAGCAATTGCAATACTAATACCTAGAAAATTTTATGATATTACGTTCTTCAATGTTAAAAAAACTAAAGGGTATTGGATATCTTCTATCCTATATTTGACTTTTCATATTTTGTTATATGGTATCTTCTACGTCATGATTTTGGGTTATGTAGGATTTTACCCATATATAGGCTATGGAATTGGAGCTACTGTTACTCCTCCATGGCCCTATTTTATATACTGGGAAGCTACTAGCCCAGGCTTTTGGATAAATATAGGCCCATATGAAAGTGACACAGTCCCTTTTACTGCATTTATAGGAGTATTACTAGCAATGCTTATTGGAGCAAATATAGAAAAGATATTTGAATTATATAAGACTATAAAAAATTCTAGAAGAATTTCTACTGCCATAGTAGCTATACCATCTATAGGAATAATTTCAGGAACTTCATGTTGTCTTTCTTTGCCTTCAATTTTAATATATCTTACGGCATTATCAATAGGTGCTGTAAGCTCAGTATTAGGTATTTTAGCTTCCCCATTATATTTTGGTTTGGCTTATTACGGACTACCTATAGGATCAGTATTCTTATTACTAGTAAATTTAAGAGATATGAATAGAATTATATCGAAATGTAAGATATATAATATAAAAAGATAAATTATCGATATTTTCTTTAACTTAGTTTACCAACTAATTCGATATTTTAATAAATAAAAATTTTTAAATTAAATAGAATATTCTTTTTTGATCTAATATGGCTAATTACAAGAATATTGTAAAGAATTTTAAAATAGGTGATATAAAATGAAACTATATCCTAAGTCTGAAATAAATGTTTCATTAATGTTTACATTAGGTGCTATAGCATGGCTGACTGCAATGGGATTAGCAGCAATGTGGTTTAGGACTATACTGTTAAGTCCACATATTAACATAAAGGCTGGATATGCAATAGCACCACTTTATTACTTCCTAGTAACTTTTCATGGACAGGTAGGAATTTTCATAGTAGTACCAGATCTTGCTCTAGCAATTTTAGCATATAGTATTTATAAAAGTGGAATGTCACTATCTCATTATAAATTAATAAGTATAGGATTTTACTTAATAAATATTCCATTAATAGTAGAATTTGCCGGAGGACCATTAACTGGTTGGTACATGTATCCACCATTAGCATTACAAGCCTCATCTTGGCTAGTGTATAGGGGAGATATGATAGGTTTGGCGTATTTCATGATGTTCCTCAATACTATTGGCGTTATAATAGCTTCAATAACAATGTTCATTGACGGGTATAAAACAAGACCAAAAGAAGGTAAAATGCCGATATTTGCCGCTTACGGAATGAGTTTTTCAGGTATGTTTATGCCAATTACAATATCCGCTCTCTCAGCAGCTACTTTATGGTACGCTTTATATTTCTGGGCTTCCGTTCCTGTAAATCCATTAACTTGGGTAGTGTTATTCTGGTTTTATGGCCACCCGGTAGTATATTATGTTCCTTTCCCTGTATTTGGTGGATTATATTATTTAATACCAAAATATGCAAAAACTACATTATTCAGCGAAAAGTGGGCTAGATGGAATATAATACTATTATTTACTTTTGGTATGATAGCGTGGGTTCATCATCTTCAAACTTGGCCTTTACCTGTAGTTTTGAGGGCTTTCATTACTCCTACTACATTGATTTTGGCAGCAGGATCAGGATTAACAGTGCTAAACTTAGGACTAACAATCCTAAAAGGTAAAGGTTATAATTGGAAGGATCCTGTTGGTCTTGCTTCTTTAATTGCTTTAATAGGTTTCATATTGGCTGGATTGCAAGCTTTAATGTTACCAATTAATACTTTGGACGTTATAGTTCATAATACTTACTATATTGTAGGACACTTCCATTTAATGATATGGACAATAATAATTGTTGGATATATAGCAATATTACTTGATATGTTGAAGACGAAAATGGGGAATGCAGAATTTTCAAGCCTGGGTAAAGGAATGCTCATAGGCGGATTAATAATGTGGACTGCTTCTGGTCTAGCTTTAGGATATACTATGAGTTATGCTGGATACATTGGCTTAATAAGGAGATGGGTAGCATATCCTATAAGATTCTTACCATTTATGGATACTATGACTTACTTAGCTATAGCTATGGGTAGCTCGTTTGTAATGTTCGCAATACCTATTTTATTTACTATAATTCCTTTAAAAACGTCTTCCTTCTGGACACAAATTGAAGTTACTTCTGGAAATATACCTGGTACTATGATAAATGATAAAAAGTAATTCTTTTTTCTTTATTTATATTATAAAACAGTATCAATAGACAAATTCTAAACTGGATTAAATAGTGATAAAACACAATTAAAAAGAGGCTAAAGTATTCTCTAAATTAATACCAAATAGTGCAGTTATAAAAAGTTAAAACTGAAGAATCCGCAAAAATATACTCTATACAATATATGCTAAAACATATTTTTACGACAAATCGTATTCTATTTTAGTCTTAAAGAGTTATATAAGAGAATATTTTTATCTTTTATAAAAACTTGTTAATTTATATAAAAATATTTTTTCTTAGTTTTAAATATGTATACCCAAACATATATATAAATATTTTTATATACATCTATCGCTATTTATGGTGATAAAAGTGATAAAATATGGCTGAGGGTAAAGGATCAGGGAAAGGTAATGATAAGGTTGACACAAATAGAAGGGCTATAGTAATTGGAGGCGCAGCTGCGGTAGCTGGCTTAGCTGCAGGCATAGTAATTGGAGGGGACGCATTTCCTAGACTTCTACAGAAGACAGTAACAGAAGTTAAGCCAGAAGTAACTGAAAAGGAAGTAACAAAGACTGTAACTGTGACTAAAACAGTAACCGTACCAGAAGTTGAACAATACCAGAAACAAAAAATCGCAAATTATAGCCAGCTTTCCGTAGGACAGCCTATGTCAGCAACATATATGGGGTATCCAGTATTTATTGTAAGAACCGGAGTAAAGTCCATTAATGGTGTAGGTCCAAATGGAGACGTAGTTGCTTTTAGTGCATTATGTGCCCACATGGGAGGACCTGTACAGTACAATCCTAATACGAACTGTGGAGTTTGTCCATATCATTATTCTGAATATGATTTAACAAGAGGTGGAATGCCAGTAATAGGACACCCGAATCAGTATCTAGCACAGCTTTATCTTGAGTATGATGAAAGTACTGGGGATATATACGCAGTAGGATTTAATAGATTAGTCTATGGGGCTCACAATAACGTACTTCAATCTACGACGTCGACCAGTTAATTGATAATAGAAGTGAAAGTAAAGACAGTCTTGTTATAAGTAGTTTATATTATCTAATAAAAAAAAATAAATAATTTAAAAGCTTTAACAAGACTAATAAATTAATAATAAATCATAAAGAAAACTTTTTAAGTCATAAAACAATTTTTTAATTATGAAAGGCTATTACTATTTCGCTGGATTAGCGTTTGGATTACTATTACTGTACATCGCTCCTAACTCTCCAAATTATTCTATGTATTCAGTAGTAGGAAACTTGATGTTTTGGATATCGTTAGTTATTATTCTTTATAAAAGTGTTTTACATAATGCGTTTGCGTATGTACGTAAAAATCTATCTAGAGTAACTATTGCTATATTTGGGACTTATTTATCTATACATTATTTCGTATATAGTATAGCTCTGGAGAAAATTTTGACTGGAATTTATGGACAACTGTTTTTTGTGAATTCTCCTTTTGTTACATTCACAATAACTCCGTTTTATCCTAGTAGTTTATATGCTACTTTTGTTAACTTAATTTTTAATCCTTCTATAGTTGCTGGAATTCCACCTGATTACTATATTGAATTATCTTTCTACGCTATTTTTATGGGATTTATAATAGCAACTTTAGTTACCGCGAACATTGTTAGGGTAATAAGAATTGCAGGATTCCTTAAAAAAGCAAAAATCATACTTCTAGCTCCATTACTAGGAGTAATAGGAGGAGGAAGTTGTTGTATTTCGATACCTATCTTATTAGCCACAGCGATTCCTGCAGCTAATGTGCTATTCTTTACATCATTAGGAAATAGTGCTTTATTCCTAGCTTACGTAATTTTACCACCTCTTACAGCTATTGGCTTGAAACTTAATTATGACGCATTAACCCCAAAACCTCCTAAAGAAATAAGAATAAAGGAATTAAATATAAGAAAATAGGTTATCTTACCTTTAATATTTCCTTTCTAGGCATTGCTATAACCAACAATAATGTGCCCGTTATCCCGCACATTAGTGTATAAAGTCTAGAAACTTCTGGCATAGTAAGAAATAGATAACTAAAGATTACGCTTCCCATTATACCTGAAATAGCTTTTCCCGTATAGAGGAATGCGTTATTTGAAGTAGAGAATTTGGAACCGAATATATCCCCAACTAATGAAAAATAAAGAGTTATCATTGATCCACCGAAAAATCCTATTACGAGTACTGAGGGACCTATCAAGTTAATAGTTAAAAGTAGTGCTCCAAATGTTATGAGAATATCTACTAGAAGAACTGTTTTTGCTCTACCAATTTTATCTGAAACGTGACCCAAGATTGGCCTACTTATTCCACTCATGAAAGGAAATAAACTAATTAGTATAACTAAATCCTGTAATGGAAGAGCTCTTCCTATGACGGACAACGAAGAAGACATTACTGTTAATGGTACTGCAGCAGTTACAAAAGAAAAATATATGAGCCACCATTTAGGTGAAACTAAAATTTCCTTAGGGGTATTTCCAGTTAAACCCTTAGCAGGATACTTAGAGAATGATAGAAGAGTTGGTAAAATTATAAGCTCTATTAAACCTATAATTAGTGTAATTTCCCTAAAATTAGTAAATGAAGCTATAATTGGATTGGTGAGCGACGCTCCAACACCAAATCCTAAGGAAACTAAGCCTGTAGCAAACCCTCTTCTATCTTGATACCATTTTATAGCCAGATTAGTGGCAATTCCATAAAGTATACCTTCTCCTATGCTACCCAAAGACCAGAAAATATAAAAAAAGTATACAGTAGGCGAAAAAGAAGTCCCTAGAAAACCTAATGCTGATAAAATGGATGAAAATATGCCAACTATTTTGGGTCCTTTAGTGTCAGCAAAATATCCACCTACAGTTTGGAAAGTAGTGGAAAATATAGTAAAAAGAGTAAAAGCTACCTCGATTTCTACTATGCTTACAGCAAATCCTTTCTTAAATAAAGGTTCTAATGCATTCCAGGAATACTGATATAGCGAGTTAAATAGCATGGCAGTGAGGCCTATTACTATATATTTTTCCCTATTCATAATAGTCTAAGATTTAAATTAATATTTAATTCTTACTTTTTAAAAAATAGGTTATGAAAATTTCATCTAGATACCTCTAAGTTTAAACTTTATCATTATTTTTTGCTTTCTAATTGAAGATAATCGAACTTAATACTAGACTTATGAGGATAGTAAGTGCTAATAATTAGTTTGTCCTAATATTAATATATGTGATAAACGTACCATACATTACGATACAGAAACCTATTTTCTTAGAATATTAATAGTTATATTTTAGGATAAAGATGTACTAACTAAGAACTATTTTTATAGAACTTAATGGATCATAGTCCTTTATTAAGTAAGATTGCTCATAATATTCTTTTATAGAAGATGATTTTTATAATGATATTTCTTCAACGATAATCAGACTAATTAGTATAACATAAAATACTTAAATATATGTTTAATTAATAAAGTATATATGGAAGATTATACGGAAGAATTCTTGTTACCAGCTGATAAATCTTCTATAGTATCTATATTAGCAGATCCTAGTAGATTTTCTGGAATTACTGGACATATAGCATTCTTCAAAATCTTTGATTCGGAAAAACAAAATTATGTAGCACAAGGATCTGCAGTCAGGCCAATAAATAAATATAGAGCTGTATTCATATATGAAGATAATAATGGAAATTTAAATCATGTTCTAGGCACAATGGAAGGACCAGAAATCATGCCAAACCAAATATCTTATAAAGGAGAAAGTGATGACGGAAAAATGAGCGCATCATTTGTTTTCTCTTTTATACCTAAAGGTTCTGATACGAGACTTAATATAAAATCTGAGATAAGTTTAAGGCAAGGCTTCTTTTCTAGATTATTTAATAAGTTTTATGGAAACATGGCAGAACATATAGTAAAATGTCATATCATACCATACTTAAGTAAGATTGGACCTCAAGTTAGCTATAATTTAACAGAAATATCAAAAACGCTTGGAAATATGAATGAATTAATTTTAACTCTTAGAAACTTACCAAAAATTGATCTAGGATGTGTTATAATAAAAGGAGACACGTTCAAGTTTGTAGCGTCTATAAAAGAAGGTGAATTAAGAAATATGAGACTTAAAAGTAATGGAGATGAAATTAACGGAGGAGAAGCTTTAGCCAAGTTGTTTACACTAAATGGTAGAGCTGAAATGTCAATTTATAAGTTACCTGCAGAAGAAGTTTTATTAGAAAAAATAAATAAACTTTAGTCATTTTTAAATGTAATTAGAAAATTCTATTCTAAAGTTTATAACAAAGATTTAAATGTGATTAATCAAAGAAGTAGTTATGTCATCAAATCTAGATCCTGTTCAAATAGCAAAGATGCCATTTACTGAAAGAAACGATGCTATTATGCATGCATTTAATTTATTATTAAACTTAGATGATAAAAGCAAACTGGAAGCATTTAAAGGTCTTTTAACTGCCTTGGGCACTAAAGCAAAAGATGAAGAATATATAAATTGGTGTGATTCTACACTGAGAGTACTTTCAATGTATCCAGACGATGTTATAAAGGCAGTTCTTTCACTAAGAATGAAAGCAGTTTCTGAGCTTCCAAAAGAACTTCAAGAAAAAGATCAGAAAATGGTCACTCAAGTTTTAAACGGATTAGATCCATCTATAAAAGAAAAGATATTAAAAGAAATGAAAAGTTAATTTTTTCTATTTTCAAATTATTCTAAATAATTCACTTATTGACGTTATTACAAATACACTACCCAGAAATATATATATTGTTGAAGGTCTCATTTTATTAGCTAATCTTGCGAAGAAATAGCCCGAGATTAAAGCTGTTATTCCTATAGTTAATGAAGCTATCATGTCCACTTTTCCTGCAAATGAATATGCAGTAGCCCCACTTATTGCTGATAATAACATAGCTAAGGTTGCTGTTCCTATCATTCTTTTTACGTCTATAGAAAATAAGAGCATCATTACAGCAATGAACATTATGCCACCGCTTGCTCCTAAGGTTCCCGTAACTATACCTATAAGTAAGCTTAAAATCGGAGCAACTACGTAAGAAGCAGTTTTTAAGTTCATACGCTTAATATTTAACTTTGGATTTCTAGACCTTTTGAAAGATACATATGCCATATATGCAGTAAATATAGTAAATACTGACTCTAATCCTTCTTCAGGGGTTATAAATGCTATTGCTGAACCTATTTGAGCGCCAACTATTGCGCCTATTCCTAATATCATTGAGATTTTCAGATCAACATTCTCATGCTTAAAATAAACAAAAACAACTGACAACGTAGTTATTACATCAACTAATAAACTTGAACCTATGGATTGCTCGAAGCTTAAACCTAGATAAGAGAGTGCTGGTACTACTATAAGGACTCCGCTGGATCCGGTTATTCCAGTCAAAGCGCCTACAGCTATACCTATAATAATTAGAATGTAAATTGGGATCATATCTAAAAAACCAAAAAATGGATTTAAAGACTTTCCAAGATTGCTTGAGCTATAGTCTTTTCCTTATTGCTAATCTCTTCCTGAGATAATGACTCTCCTGTTATTCCATTCCTATAAATTAGATGTATCGAAACAGTTTTAAAGTTCATTAGATTTCCTAGGAAATAAAGACCTGCACCTTCTAATTCTACTGCTAAATGATTTCTTGATGATAGTTTTTCCAAGTAATCTTTAGTATGAGTAAATAATGCATCGCTAGTAAATACATTTCCTACTCTAACCTCTAATGATTTTTGCTTTAGGTTTCCCACTACTTTATTTAATAGATCATAGTCTGGAGTTAGTGCATAGCTTGTAAATTCTCCGTTTAAATATTGATAGAAAGTTCCTCCTAAATTATAGGAATATCCTATTGGTACCACTACCTGACCCGGTTTTACGTCCTTTAATCCTGTTGCGGAACCAAATCTTACTATTTCTTTTACTCCTAAGTTATACAAATCATGGGTTACTAGGGTTAATGATGGTATTCCTATTCCGTGAAATACTACACTAACTTTTTCTCCCTTATAGTTACCAACATACGTGTAGTAGCCCGCGAATTCACTAACTTGTTTTGGATTATCTAATAAACTAGTTACAGTTTTCATTCTTTGTAAATTACCTACTATAATTGACTTTTCTCCCAGATCTCCTACATTTGCAGTTATTAGAGCCATAAAAACGTGTAGGTAACAATGTTATATATATATCTAACTAAAAACTTTAGCAATGTTAATCTTTTAATATTGTAGGAGTATAGTAACTTATAAATAAAGTTTGAAAAGTTTTATGCATTTTACTGATTTTTTCAATATTCGCCTAAAGTTCCTTTTATTCTAGCTTTTTTAAATGCCAACTTGAATGCTAAAATGCCAAGTGGAAGAAGTATTGCATCAAATATTGCAAGAATTAGGAGTTGAAAAGCCACTTGAGGTAATGAAGCCCCTTCTAACATGGTTTCTCTTAAAGTTTCTAAAGCCCATGTCAAAGGAAGAACGTAGCTTACTCCTCGTATAAATGATGGAATCACAGCTACTGGGAAAACTACTCCAGTCATTAGCGTAGTGAAAGTTGAAAAGAAGAATGATATTGGATTTCCTTGTTTTATTATCATAGTAAATGCTCCAGATAAGAAAGCTAAACCTAAGGTAGATAGAATTAGCAATATTATTACTAATAATGATGCTAAAATATCTATATGATAATTTACGCCCAAACCTAAACCTACACTTAAAATAACTAGAGCATTAATTGTATTTATTGTAAATCCCCACATTGAGGAATATAATAAAAAAGACGTAACTCCAGATTTTGACAAAACATAATACTCAATTGTTCCATAAAGTTGTTCGTTCCTTATCCTTTGACTCACAGTAGTTATAACTGATGAAACGTAGCCTTGAAATGCTAAACCGATTACAAAGAAACTCGTATAATTTGAAACTCCAATTTTTGATACAATACTATTCCCTAATGATGTACCTACAAAATAGTATGTAAATACTGGTAATGTCCAAGATAAAATAGTTAAAATTACTTGTGTTTTATAAGAAGTCCATATCTTGAATCCTCTTATATATATAAAAGCATAAAGTTTTGCGTAAATATTAGCTACTCTTTTGCTTTCCACGATCTTCTCACCCTTTCCATTCTAATAGAATCTTCTTCATCGCCTATCATATATGCATAAACATCGTCTAAAGTAGGTTCTACTTCTCTTATATCTTCAAAATACTTTAATTTTTCAGTTTCTTTTTCTGGTAACCTTAGTACAGGTTCTCCTACAAGACTTATTGCATATCGTTCTAATCCTCTAGGTATTTCCCTAACTTTTACTTCTACAACTTTTCCTAGTTTAGATTTTAGTTCCTCTGCATTTCCTTCACATATAATTTTTCCTCTCTTTATCAAGATTATTTTATCGGCCAATTCTTCTACTTCCTTCAAATAATGTGAAGAGAAAAGAATAGTTTTATCCTTAAAATTTTTTATTACATTTCTAAATTCTCTAGCAGATAAGGGATCTAATCCTAACGTAGGTTCATCCAACAATATTACTGGGGGATCAGTAATTAAAGCACGAGCTAATGCTAATTTTCTTTGCATTCCAGTACTAAATTTCATATATTGAACATTCTCCCATTCAGAAAGATTTAACATTTCTAAAACTTCTTTAGCTCTTTTCTTTGCTTCTGTTATCGATAATCCTTGTAGAGAAGAGAAAAATAATAAATTTTCCATTGCTGTTAGTCTATAATAAAATTGTCTTTCGCTAACGCTTACTAAACCTACGAGTTCTCTTACCTTTTTCTCTTCCCTAGTGACACTGTGGCCTTCAATGAATGCATCTCCAGAAGTAGGAATAACTAAAGTAGAAAGTATTTTTATCAAAGTTGTTTTGCCTGCTCCATTATGTCCTACTAATGAGCCTATTCCACTTTTTAATGTGAACGAAACATCAGATAATGCACTGACTTGCTTATTCTTAAGCTTATAAATCTTAGTTAACTTAATAACGTCTATCAAAATAATTCACCAAAAACATTATTTTTATCAGTAATTAAGTATTTAAACTTTTGTATTAGTCTTTTTTAAAGGTGGAATAACTCCCTTCTGTTTAGCAATTTCTTCCAAAATTTTTATCTGATCTCGATGAAATCCAAGAAATATTCCTTTCCCTTTACCTCCAACATAAAGATTCCCCTTAAATTCCAGTTTTATCTCTGGTATTTCAAGAATCAGAATATGATCATAAATAGGAATCTCTACTTTATCCTTCCATTCAACTTCTGGATAAACACTATGTCTAGGTCTTATTAACCCTCTTATTTTCTCTCCTTCTATATCAATATGGGTAACCCTAGCTCTATTATAACCCCTCACATGTAAGAATAATTTAGATTCGACTTCTTTGCCATCAAGCCAAACTTTACCTTCTATCGGTATTTTCCCAGAAGGCTTTGCTTCCATATCATAAAAAGACGTTTCGATAATAATATTCTTATAAGTTTGCTTGTATTGTTACTTCCCTTTCTAAAAATATAATGATAAATACAAAGAAAATCTTAAAAAGTGGTTCAGTTCCGAATTAATTTATGGAAAGCAAATGGATAGCATTAACAAACACTACGATTGCAATATTCATGGCTTTTGCAAATTATAATATGATAATAATAGCCTTACCAGCTATATTTCAGGGTATAGATTTTAATCCTACTAATCCGAGTGCTATAGCTTACTTACTATGGTTAATCTTAGGGTACATGATAATAACTTCCTCCTTTGTAGTAACGTTGGGAAGAATTTCTGATTCTCTAGGTAGAGCTAAACTCTACACAATAGGATTAGTGATTTTTACTATAGCTTCAGCTCTACTCTCAGCAGTAACAACTAAAGGAACAACTGCAATTTTAGAATTAATAGTTTTTAGACTACTTCAAGGAGTAGGTGGAGGTTTCTTAATGGTTAATAGTGCAGCAATTCTAACAGATTATTTTCCTAGAAATGAACTAGGAAAAGCTTTAGGTCTTAATCAAGTAGCAGGATTAGTAGGAGGAATAGCAGGATTAATTCTAGGAGGAGTCCTTTCTGCTATAAATTGGAGATTCATATTCCTTGTTAATGTTCCAATAGGAGCTTTTGCTGCTATATGGTCATATAGAACTTTAAAAGATATAGGACAAAAAAGAAAAGGTAAGATAGACATCAAAGGAAACATTCTATTTACAGGTTTTATAACTCTCTTTCTAGTAGCTATATCTTACATGCTTATTCCTTATGGTGGATCTCAATTAGGTTTTGGAAATCCTATTGTATGGATAGGTTTGCCAATATCTTTAGCCATGCTTATGGCATTTATATTTGTAGAAACTAAGGTTAAGGATCCAATGTTTAATTTATCCTTATTTAAGATTAAAGATTTCTCAATAGCTAACTTAACAAACTTAACAGCTTCATTAGTTAGACAGGGTATAACAATATTGTTTATATTATTATTAGAAGCTATATGGCTTCCATTACACGGATATTCGTTTTCTTCAGTACCTTTTTGGGCAGGAATTTATCTAATACCTAATTTAGTAGGATTTGCAATATTTGGCAGTTTAGGCGGATATTTATCTGACAGATATGGATCTAAATATTTTACTTCTGGTGGATTATTTATATCAGCAGTTGGATTTGCAATATTGTATTTCCTACCCTATGATTTTAATTATACAATATTTGCTATTACAATATTCATAATAGGAGGAGGAATGGGATTATTCAATTCTCCGAATATGGCAGACATAATGAGTTCAGTACCTATAAATCAGAGAGGCGTAGCTTCAGGTATGAGAGCTGCTTTAGGCAATACAGGCTCCACTGCCAGTGTAGCTATATATTTTGTCATAATTATAAGTGGAATGGCTTTAGCTTTGCCTTCTGCCTTATCTTCTGCATTACATTCTGCAGGAATTTCTAGTGTACCTTATATACCAGCAGCTGTTGCGCTATTTTCTGCACTATTAGGGTATGATCCACTTTCCTCCCTAGCCGCTAAATTACCTCCTTCAGTAGCAGCACAAGTTTCTCAGCCTTCGTTCTTTTCTGACGCTATTGCTCCAGCGTTTATGGCAGGATTTAAAGAGATAGTTCTGATTTCCATAATAATTCTTATAGTGTCTGGAGTACTTTCTCTTATAAGGTCGGGAAATAGAATTGGAAGCGTTGGAGAAATGGGAGGAAATCCTCAAAGGGTTCAGGAATCTCAGGAGATTACTTCAAAGAGAAGCTGAAAAATACGGTTATAGTTCGACAGAGATACAAATATTATATCAATTACATATAAAACCTAGAAATATTACTGAATTATCAGAATTAATAGGTATAGGAAAATCAAGTGTAACGGAAATAATAGAAAAAATGGAAAAAAGAAATTTAGTAAAAAAGATAAAAAATGAAAATGATAAGAGATACACTATTATAAAAATAACTGAAGAAGGAGAAAAGGCGCTAGAACAAACCAGAGAAGAATATAAAAAGATATTATCATCAATTTTGGAGAGAGTAAACGCAGAAGAAGTTATAAAATTTTTTGAAGAAATAGAAAAAGAATTAAATAGGTAGTTGAAAACCACCCTGCTGGCCAGATGGTAAGAAAGGTATTAATGCAGATGCTAATTGTTCAGCAGTTAAGCTATGTATCCATACTCTACCGGGTCCTTGTAAAGTTACAAAGAATAGCCCCTCATGAGCAAATAATAACGATCTTAAACCTCCAACCCTAGATACAGAATATTGCATGCCTTCTTGAAATGCCATCAAATGCGATGCCTCAACTTGTATGATTTCTCCTGGAGCTAGATCTTTTATATATAATCCACCATAAGAATGAATAAATAGATTACCATTACCGTGGAATCTAGCTAGGAATAATCCTTCTCCTCCTAATATTCCTACTGATAGTCTTGCCATTTGGCTATCGTAATTTACTCCATCTTCTGCAAAAAGAAAAGTATGAGATTCTGCAATTATACCTTGTCCATTTAAAGGTATTTGAACTATTTTTCCTGGAAATATACCTGCAAATACTGCTTCACCTGGACCATTAAGTTCTGTAACAAAAAATGTTCCTCCTGTAAGTTCTCTTTTTAATGCTCCGAATAAACCTCCTCTCATTTTAGTTTGCATATTTACAGAAGCAGTTTTCATAAGAAGATGTCCCGCATCTCCAAAAATTTTTTCGCCGGAATTTAAATAAACCTTAACGTACTGTATATCCTGGCCTACAATTTGATACTGTGGCATGCTGTAAACTTAAATGAATAAGATATAAACTTTTTTATTATGATATCTACCTAACATTAAAAAGTAAGTTCTAAACAATTTATAAGCTTTAGTTACATAACTAACCAAGTTTTAGGTCGTAAAAATAGCTTCTTATTTTATAAAAAAGTTTAATCACTTTGAGGATAAACTATTGGTGGACTTTGGACCGGTAATACGAAAGTACCAGACGTTAAATACCCTATATTACTGTAGAATTCTAAGTTAATAGTTTCATATGTTGGAGTAATAACAAACATATTCTGTTGAGTTTTTAGTATATTACTAAGAGACACTGAAGAGAATAGTTGTTGCGGAATAGAGACTATAAGCGTACGATTAACTGATTCTCCAGGTGAAATATTAATGCTTAGTGGAACCTTAACTAGTCCTATAAATTCACCAGACTGAGGACCGCTAGAACCGCTTAAAGAAAATACAAAATATTCATCAAAACTTACATACGCATAATATATCTCTATCGTTTTATTTGATGGATTTGATATAGCGAAATTAAATTTAACAGTTATTGGAGTTTCAACGAAGAAGGATGAAATTTGAGGCTTGACTATGATATTTTCTTCTTTATAAACAGACAATTCCATAGAATTGGAGCTATATATCCCTGAATTGAAAGTACCATTTATTATCCCAGCAAATTCACTAAACCCAGCATTATTAAGATTAAGATTAAAAGGACCTATATTACTAACAATATTACTAACACTAATATTACCTTCCATATTTCCGTCAAACTCTGCATGATAATTAAATACATTAGATTCAGGGTTTTCTATAATAATTTTACCAACAGCAGATCCATTTATATAAGTAGTGAAGTAGCTAATTAGACCAAGAAATCCATAATAATATGATGGAGTAATAGAAATTATACCTTTGCCTTTAATAATAGTAGCACTAGTGGCATTAATAGTCAAAGACTTAATTGCAGTACCGTTTATTGTTCCATCAAAATTCGACAGAGATATCATACTACCTAAAACAGTCATAGAAACACTGCCATTAACTACTAATGTTGGTTGTTGCGAACTTAACAAACTTGGTACTAAAGTTATATTTCCATCAAACATTCCATTTAATGTCAATTGAGAGTTACTACTTAAATCAAAAATACCGGAGATACTTCCGTTAATCTCTAAAGGATTGCTTTCAGGATACATGGATCCGCTGTAATAAGAATTAATATAGAAGAAAGAACTTTCACTAGAAGGACATAATTCTCCACTATATAACGTTAAGGTGTTTCCATATTCTGCCATAAGTGCTTGAAGGGGAGCCGTAGAGTTTATCGTAAATTGAGGATTTTGTAAAACCTTAAAACTATTAGGATTTAGCGAAACAATTCCTGCTGGCTCTGTTTCATACGTTGTTAATATTACTGTATATGGAGGTACTGCTATAATATTACCAAGATTAGTGACTACTGCTATCGCATTATAGTTACCTGATACGGGTATTTTAACTGAGTCATAGCCATTAAACTTACTATTTATATTTGTTTCATTTATTACTATATTTACATTTTTATTTATTACAGTCCATTCATTTTTAGAGTTTAGTCCTAATATAGTTTTAATTACTAACGGAACAGATGGATTATTTTGGAGAATAAGTACATAAAGTTCGGAATTATCGTATACTAAACCAAAATATTTAGGAGTTATTGAGCCCATAGCATTATTAGAAGATAATTGCAGATTATTTCTAATTACTGTTATTTCACTTAGTTGTTGTTGTGAAGAAGTTTCATATATTTGCGCGTTGGCTTGAGCCATATCACTTGATGTGGGTATAGAAAAAATCATATACGATAATGGTATTAATATAACGATAACTATCAATAAAACAAATAGCATTGCTATAACAGGAGAAATGGCTTTTCTATTCATATTCTCACCCAGAAATCCATACGTAGCCTATTCTATAGTACTGCCCATTAAGATTTACAATAAACCATAATATCGCGTTCTCCCCATTTTTTAAATATATAAACTGTACAGAATTGGAATGAGTAGAGTAAATATAGGCATTACCATTATATAATACCGAACCAGAATCAGAATATACTACAATAGGTCTGTAAGAACCAATAGTATAATTAACATTAACCCAACCTTCCGATTGTAAAGGTGTAACATAAGTTTGAGAATTTTGAAGCGAGCTACTTACTTGAAACGCAACTATATACAAGGCTATATTGTAACTAGGAATAAACGGATATATAACGAAATTTATACCACTAGAATTTGAAATCTGTAATTCTCTTATTTGAAGTGACATGCTAATTTCTTGAGCTTGTTTAATATTATTAATATTTGAGGCTTGAATTCCGAAGTATCCACCAAATAAACCTAAAGCTATAAGTCCAATTATAATAGTCGCTATTACAAGTATGAAAGTAGATATTATATTATCCATTTACTTTCACCGTAGTCTATGTATTTTATAGGCGAACATTCTATTTAAATCTATTAGATAAAATAGTTACCATATAAAACCGCCAAAATGAATTATTATCTTAAAATAAAAGGAAAGGTAATTTATTAACAAGACAAAATATAAAATTATTTGGTACGATATTTTCTACATATAAATTATTATCCCTATATTCATAAATTGAATTTTATATAGAAATTAGAATTCTACCTTTTCTCTCTTTAGAAAATAAAGACAACAGAGCTTCTTTTCCATTGCTTAATGGAAATTCCTTCCAAACGAAGGATTTGCATTTATTACAGATTTCTGTTAATTCTCTAAATTCTTCGAAAGTTCCTCTAACAGTACCTATAAATGATATATGTCTAAGATATGCTTGCGTTAAGTCTATTGTAACTTTATTTCCACTTAATGTGCCGAAGAAAACCATTTTACCTCCTTGTTTCAATAATCTAAGTCCTAAATCCCAATATTTACTTCCCAGAGGATTTACGACAATATCTGCCATCTCACCATCAGTTATATTCTTTACTGCTTCCTCTACCTCAGTATACGTTACTACATTACTAGAAACTTTCAATTCATTATTAGTAACAGATACTACAATCCCTCCCATAATTTCAGCTAATTGTGATGCGAAAAGTCCAGCATTTCCTGAAGATCCAAAAACTACTACTACGTCTCCTTTTTTTATCCTTGAATATTTTAGTGCATGATAAGAAGCTAATGCAGATATTGATAATGCTGGCATGATCTCCCAGTCTAGATTTGCTTTAATTACGTTCCTTGCAGGTACTTTAACATATTCAGCATATCCTCCATTTTCATCTATTCCTATTCTTCTTCCCGCTTTGCATAACATTTCTAACCCTCTTTTACAATAGTTGCAATTTCCATCGAAAGTTCTTGTATATACAGCGACTTTGTCTCCTTCTTTTACATTATTAACGTTATTTCCTACTTCCTCAACTATTCCAGAAAACTCTGAACCCGCTATATGTGGAATAGGATTTACCTTCATAGAGGAAATAGTCATATAATCAAGCTGAGTAACTCCAGATTTTACTATTTTTACGAGAACTTCGTCATCTTTTATCATAGGCATATCGACGTCAGAATATTTCAAATTCTCTATTCCATTCTTATCGAAAACAAGGGCTTTCAAGTTCCTCACGATCCTCTAAAGTGCATTCTATGATAAGGTCTGCTTTTTTTCTTTTTGAATTTACCGTTCACTAGTTTCTTTAATATTGAGATTTTAAAAGATTTTTTCTTTTTAATAGATCTTTAAATGTGTAAATTAAGTAGAAGCTTTTTAACTTTGTTATTCATTATATATTATTATGAGACTACTTAGATGGTATTTAATATATAAAATATTGGCTTTCTTCATGAGAAGAGGTGGTAGAAAGTGAGTTTTTCAGGAATAGTAAAGAAAGAAATAACAAAAAGAGTTGAAGATTTAACTAGAAGTTTTTATGAATCTGCGTTGCCTCCTGTTGATATTTATGAAGAAGGGGGTTATTTAATAGTAGTAGCTGATTTAGCAGGCTTCAATAAGACAAACATACATGCAAGGATTACTCCTCAAAATGAGTTAGTAATTGAAGCAGATAGAGAGATAAGCGAGACAGGAACTAAATATCTAACGCAAAGACCTAAAAGTATAAGGAGAGTAATATCCTTACCAGTAGCTGTTAAAAAAGACGGAGAAATAACAGGAAAATACGAAAATGGCGTATTAACATTAAGATTCCCTGTAGAGGGATCAGCTACTGTAAAAATAGAATGATTTTTTAGCCTCTTTTTAATACTACTCCTAAAATAGCTAAGAGAATAGATAGGATAGGTTGCTTAAAAGCAATATATAATATAATTGACAGTACTATAATTGCAATAGGCAATGTTTCATATTTTTCCTTTTTTGGTTTTTCGGGTTTCTCTAGTAACGAGAGTCTGAATTTCCTTATAGCATTAGATAATGTATCCTTAACCTCGTCTATCATTGCTGGAAATACTAGTCCTTCATCTTCAATTAAATCTACTAATCTCTCAAAAAAATTAAAATCAGGATCTATTTGTGTACATGTTCCTCCTAAAGTAGACGTCATTCTAACATAGAGAACCATCTTTTCTGGCAATCTAAGCGGAAATCTATAGAATACCTCGTTTGCTGCCTGTATAAATTCCTCTACTTCCAACGTTTCTGGAGTAACTCCTTGAAACCCTTTTAAAAAGAGTTCTATTCCTTTAGCTAAAAGCTCTCTATCTGCTTCTGGTTGCACAGCATTAAGTTCCTCTAATACTCTTACTAAACCTACACCATCAAGTCTTATTAATGCAGTATATGCTCTTATTAGCTTATTTCTGGTATCCTTATCCATTCTTCCTATCATTCCAAAATCGTAAATTACTATGTTTCCCTCGTCATCAACTGCAATGTTCCCTGGGTGCGGATCTGCATGAAAATACTCTTTTTCTAAAAGGAGAACCATGAAAATTTTAAAGACCCTATAGGCCAAATAGGAGGGTTGAATAATTTTTTTAGCTTCTTCAGACGTTACTTTATGTGCCTTTATATATTCCATAATTAATACTCTTTTTGTAGCGAAATAAGGTTCCGGTACTCTAACATCTGGAAATTCGCTAAGCTCTTCCTTAATTTTTTTCATGTAAAACTCTTCTTTAGTGAAATCCATTTCCTCAAAAATTCTTGAAGAAAAGTCATTAACTATTGCCTTAAAACTCTCGTAGAATGATTCATCAAATAAAAATCTTAAAAATGGCAATAGCCTTTTTATTACTTCAACATCCTCTTTTACAACTTCCCTTATTTTAGGTCTATTCACCTTAAAGACTACTTCATTACCTTCTTTAGTCTTAGCTAAATATACTTGTCCTATACTTGCTGAGGATATAGGCTCATTATTAATTTCAAATTCATTAATTTTTTCTCCTAGATCCTCCTCAATTTCTTTTTTAACTTCTTCCCAAGGAGACGGAGGTACTTGATCTTGTAATCTAGAAAGAACCTTTAAGTAAGGTTCAGGTAAAACATCGGAATGAACAGAAATCATTTGACCCATTTTTATGAAAGCAGGACCTAAGGAAATTAACGCATTAAGAAGCTTTTCCGCTTCTTTTTCCATTTCCTTATCATCTAAACTTTTTCCCTCAAGCATCAATTTTCTATAATGTCTAATCATCAAAACACGTGGAAATAATTTCGTAGCTACCTCAATAGTTCTCTTAAGCATAAAATATGTATAACAAAGAAAGTAAAAGAGATTTGCATTAATCCAAGGTTTCTTCAAGCTTTTCATAATAAGAATAAATACTGCTAGGTACATTTCCGCTGTTTATGTCTTTTAGAAGGCTAGTAGAATTAGTAGAAATCGATAATATTTGCCCTGGAGTAAGAGATGAAGGATATCCTATCAACATCCATGTTCCTTTAGGATCAGTTATAATAAGTACTGTAGCTATATGCGGAGGATTTCCAGAATTAACTACTGATAGCATAAATCCTGCTAAGGGCTCATTAACTTCGTATTTCTCCACTAAAGAATATACCCATTCTGGCGTTTTATTCTTTATAATCTCTAGACCGTATTGAACTAAATTCGTAATCTTAGTACCATTAGGAGTTGCATTAAGGTACTGATTATAAAGATAAATATAATGAAATTGTATAGAAGAATTTGATGAGAAATTTGTAAATATTAAGCCTGGCACGGGTTCACCAATATCCGATTCAAAAATAGAATAATGCGGTTGTACACTAACATTTCCATAATGTCTTAGCATAACATATAGGGGCCAAGATAATGTAGCTCCATAAGGACATCCATACCAAGATATGAAATATATTTCAGTCGAATTACCTGCAAAATCTCTATTCGCTACCTTAACCAAATGGTTTAGTGGATCAGGCATAAATAAAGAAATAACATTCCCCCAATAACTAAAAAGAATTATAAATATAATTGCAATAGCAAAAACTATAGCAGTAATACTTCTTCTCATAATAGCACCATATTGATAAAAAAGAAATATAAAAAGAAAAAAAATTAGCTTATAGTTATTGTTGCAGTAGCCCATCTACTTGGACTTATGGCTGGAGTTACTAAAGTTATTTTATAAGTCCCTGGAGATAAGTGAACTGGAATTATTAGTTGGAACTGTGCCTCGCTTCCTAATATTATTACAAATCCAGAGTAACTATTTACTGAATCTTTCTTATTCTCGTTCCATGGTGCTTGTATTATCTTTACTGTATCATGATATATCTCTGATGAGTTTAGGGTTAATGAATATGTAGAGTTACTTATTATCATCATTGTTCCAGATGCCGGATAAGCGTCTGGTCCATCTATATCTGTTATGTTCAATATTATCTCAGTTCCATTAGATACTGGATATGCATTAGCATATGTAATATCGAGTTTAGGTAATTTCGAATTATTAAATAATGGTCCTACTACGTTACCATACGACCACTGACCTGTTCCTAATATCCAACCAGCAATTAATATTGCGAAAATTATTCCAATTATTACTGTTCTTTCCATTTATATCACCATAATTTGATCCATTTAAGTATTGGAACGTTTTTAGCTAATGGCCTATCTCCAAATTTCTTATATAGGAAATAATCTAAACCAAAAACTCTACCTGGTGCGGTAAGCATTAGAGTTACAGCGCCTGCAGTTAATAATGCTCCTATTTGCCATTCATCTTCACATGTTGATCCTAGCCAGTATGCTGGAGCAAATCCTACAGCCATACCTAATGCTCCTAATGACGCTAACCTAGTCAATAAACCAATTACTATGAATAATCCTACTATTATTTCTACGTAACTGAATATAGTTAAGAAAGTTACATCAAACGCTTTGTTTTCTAGTGTGAATAATAATAATCCTTTGAATGGGCCTGCATGTGGTAAAAAGTTTACTAGCTTTCCACCTACGAAAGACGCTGAATTAGGATCTAGTTTTGCTGGTTTTAATACTGCCTTTCTTAATCCGCCGTCTAGATACATCCAGCCTACTGCAAATCTTACTGGCCATAAGTATTCCATTCTTGTACTATTGCCAGCGTGAAGCATTTCTTTTCCTGCCATCTAATCACCAAATTGAAAGTATCTATCAGAAAGTTTATAAAATTTTCTTTAATTGACTACATTAGTTAATATCTAAGTACTTTTTATAACAAAGATATATATAAGTATTCATTAAAACTTTTACTTATTAAGAAAAATGTTTTATTTTATTAAACTTATTTAACTATAAATTATTCGTTTGATTGCTTACTTTACCTGATTATAATTTCTAATATTATGATCTTGCTAGAATTTAAATCTTACTCAAGTTAAATCTTTTTAAACGTATTATAGAATAGAGAATAAAAATTTTATTTTATCTTAAAAATTAATATAATAAAGTATACGACTTTATTCAAGAACTAAGGACCAAATTAAAACAATTACTTAATATAGTTGAAAAGCACTTTATTCTACTTTTAACTCGCTAGTTTTCAAGGTTTCTGGACCCATCGATAAACCAAATATTGAAATTATTGCTCCTATACTAAGAACTGTAAATGCAGCAATATATGGATTAGATATCTTAGAGAATAGTGAAATATAAATTGAAGAGAATCCTGCTACAATAAATGCTCCATTATAGGAAAAACCAACTCCAGTAGCTCTACTAAACGTCTTAAATCTCTCAGCAAGATAAGCAGGAGATATTGCTGAAGGTAGATTTATCCCAAAACCGAATATTAATGTAGGAAGTAAAAGTGCATGCTCAATTCCAAAATAGAATATTCCTGCAGCTAAAACTGATATTATAGAGCCTATAATAGCCATTGTTCTTCTCCCTATATAATCAGAAATTAATCCTGAAATTATCATTGCAGGTATTCCTATTAAGTTCATGAATAAGGCTAAAGGCCCATAAACTGCAGGAGATAAATGCATTACGGTTCCGAAAAGAACTGGTACGAATTGAGGTCCTGCGTAAATCATTATCCAAAAGCCTATCATTACTAAGATAGTTTGAATAATTGGTTTAAGACCAATTAAAGGAGACTCTTTTTTAGCTTCTAGAAATACCTTTGATTCTGTTAGTTTAGCTCTTATTATTACTGCTAAAGCAGCTGGGATTATACCTAGAATAAATATATATCTCCAACCAATAGATATAAAATCTTTAGTTGGAGCTAAAAATGTAAATAATAGATCAACTATAACGAAACCAACTAATGTACCTGACTGCATTATCCCTGAAGTTAAACCTCTTCTTCTACTTACGCTCTCCATTGCTAATGTAAAACTTGATGATACATCACCTCCTATAAAGACCCCTTGCATAAGCCTTAATAGAGACAGAATAACTGGAGCTAAAATACCTATTTGATAATATGTAGGTAAAAGCCCAGTTAAGCCTATAGTTAAGGAATATCCTAATACTGTGAAAATTAACGCCTTTTTCCTTCCTCTTAAATCTGCCAAATAACCAAAAACAAATCCTCCTAAAGGTCTTGATATTATAGTGAAAACTATTGGTAAAACAGCACCTAAGAGACCTAATGTAGGATAATATAATTTTTCTAATATACTAGCTGTAATAACAACTGCACCTAAATCATAAGAATCCATAACCCATGAAATATATGACCCAAGATAATTTGTCGAATTTGACATGATTTTTTGCACTGACTAGGTAATTAAAAAGTTTTCTAATGTTTGAGGCTAAATATTAACCTTTTTAATATATTGAAAATAAATATTATTTTAATTTATTATTTATAATCTAATATCGTACAAATTATACATTAAACCGATATTTTTTGATAATTATGATTCGTTAGTTTTCAAAGCTTACTTATACATATCGTATGTAAGATTTAAATTTATTTCCTAAAGAATAAACTATCGACCATGAATGATTAGCAGAAATACAGCATTTGTGGCTGTAACATCAGTAATTGCTTATGCTTTACCTACATACGTTATCGTTGCACCAGCATATACTGTAAACCAATTTAATGTAGCACAATGGTTAGCTTTTCTCATAGTTTCTATTCCATTTGGAGGAAGAGTTATAGGAGCTCTTTCATATCAAAAAATAATTGTCTCACTAGGTTCTAGATTAACATTCCTAACTTCATTGTTCTCTTTAGGTATAATTTCAATAGCTAGTGGAATAGTTAGTAACATTGGAATTCTCATAGTATTAAGGCTTTTAGTTGGAGTAATGTTTGGTCTAGCTACTTCATTTGCAGTCGAACAAGCTATAAAAACAGGAAATAGATTCATTACCGCATTAACCATGAGTGGTTGGGCAATAGGATGGATAGGCGGTGCATTTGCATATCTAGATTTGAAGACATGGTACCTAATAGCTCTCTCCGGAGGTATTACAATACCCTTATCTTTACTATATCAAAAAACAGATTCCTTTAAAGGTGAAAAAATAAAACTAGGATTACCATCACTATTGTCAGTCCTAGCTTTCTTTTTCGCCTTCGAACCAGCATTTATATTACAACTTGCTCCTACTATTCTTGAAAAAGAAGGAGGACTAAGTTGGCTTATATTAGGATATTCAATTTCAGTGCCTATGTATTTCATAATTCCTGCATTAGCTAGAATTTTAGGAGAAACTAAAGCAATAATTATTTCCACCTCTATTTCAGCACTATCAGGAACTTTATTCTTTGTTACTGGAATTCCTTATTTAGTAGTAATATTTAATGCGTTTGGTTTAGGTATAAACTCTTTAGCTCCTAGGATATCTCAGTTTTATGGTGCTGGAGCTAGGAACATGGGAGTGGCTTTAAATGCAGCAGCATTAGGTGGCGTAATAGTTCCAGTAGTGGGATCTATTAATATCAAGATTGTTGCATCATTAATAACTGCTATATCAATGATTGCATTACTCATAATGGGAATTAAGGTAAGAGAAGGAATAGCAGTAGGAAATTATAGAAGTACTTCAAATTATAGTTCCATATCAAATAGCGTGGAAAGGTATAATTTAAAATATATAAAAATAATAAATAAATTACAAAATTATATTACAAGAAGTTTTAAAAGAATTAATTTATCTAATAAAAGAGTCTTGGCTATACTAAGTACTATTGACTTTCATTTTTATCATAGATTTGGGTAAAAGTATATTTAATTATTGATTTAGTTTTTCTAGAACATAAATGAAAAATACTATTTTAGCCATAATAGTTATAACTATGTTCGTATCTAGTATGCTAGGATTTTTTATAGGAACTAAAGTAAGCTATGATAAAATAAACAATTATACAATAATAAACGTAAATAGTAAAAATTCTGATCCAATACCTCCTGCAAATATTGGAAACAATCAAGATTATTTAATAAACCCAGTATTTCCAGCCCATACAATAGCTAGCCAGTACGCGTATGTTACACAAGGACAAGGAAAAGTGTTTATAGGAGCTTTATATAATTCTGGAAATGGCTATCTAGCTGGAGCAAAAGGTGCAGCAGTTGTAGCATCAATGCTAGCTTATCAACCATTGACTGAATATAATTACTATCTTTACATAACGGCTCCTTCTCCAATAAATGTAGGAGGAGCAGTAAAAACAGATTCTGCTACAGTAATGTACTTAGCATCAATGCTAGGAGATGTTTCTAATCTTAATAAGTCAATGTACTTCTTAGGAGATGTAGGTTTAGAGGGATATATGTATTCTACAGGAGTAGTTTATCTGAACAAGGGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATAGGCTCCACATGCTTTGCCTCTAACATGGCTAGGCGATGGCTTGAAGAGCCGAAGGAACTACTTGATTAGGGTCAACTTGAGGGCCTTCACTACCTCCTCCCCTATACCTAGTCTTCTTAGTCTCACCCTTGTAAGGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGCCCCCTTTGTAGTTACATTTAAATACGTATTTTTCAAATATTCTATTAATGGCAGTCACTGACGGAGTAAGCGTCACTGAGACGCCTTGGTTAAAGCGAGGGTCTATGTGGTACGCCTCTACTCCATTCAACAGTCCCATATTGGGATACTGTGGGTTCACATTAGTGCTCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGCCCGTTAGGGCGGAGTAGTTCACCAAAGGATAGTACAGCTATATCAAGGAGGAGTTTATTATCTTGTGGTCCCTCAGATGATGGCATTAGCTGAAGGAAAAAATTTCAAAATGGCACAGGAATTTGCACTTCAACATGGTGATGTATTGTTAACTGCAACTTCATTACCCCAAATGTATCAAATAGAGACTCAAAATCCATTACCAGAACCTATAGGGTACTTAGATTTACAATATAACATAACAGCAGGTTTCAAATATTTATCACAAATTTACAGTACTTTATATAACTCATCTACAAATCAAACAATCAAAAATATGGCACAGTCCTATTGGTTAAAAGCCGAGGGATTAGCAGAAGAGGGAGATTATATAGCTTTCTATTTCTTACCTAATCCTGCAGTAAATGCAATTTGCTATCTTCTTAAGACTTCAAATTACAATATATCTAACGGAGTAAATAATGCGATAAAGAACGCAAGTTCTCTTAATAATCTATGGAAAATAGAAACTGCTGCAGAAGCTGCATATCTTTATGATGGTAACATGTCTGATAAAATATTAGCTACCTCGTGGGCAGCATTAAGTTTATCTATTAATGTCGGTCCTTCAATAACTCCTTATGGCTTTTATGAAGGATTATACAATGCGTTTTTAATTGATATCTATGCTGCAGAATATTATGACTCAGTTACTGGTTCAAATTATGGAAATGTGACACTATTGACCAACATTTACAATAATCCAAATGTATTGTATGATTATGGATTCTTTAACAACTATTATGCAGAGTTAGCTATAAACTTTAGTAACTATTTCCTTAAACAACTTAACTCCACATCGCTTTTAGAAGTAAAGAGTTCTATTTATAATTATATGAAGAGCGAAGATAATGTTCTTGAAAATGCCGCTGCATATTATGATGGTCCTTCAATAGTAGGATATCTTATGATGACATACGGTATTCAATCTCATAATATTCGGGATTTATATTATGCAATGCCATTTATAAGAAATACAATGAATACAGAACAACTAACATGGTACAATTCTGATTAAGTTTTATTTAAATTAAGGTAAATTAGTTTTTTAGATTAAATGTTTCACATATTTATATGGAAGAAGTTAGAAAGTTAAAGGAAACTGGTGAAGCTTACGAGAAACTATTAAACGAGGTTTTAAATAAACTTTTTATAATAATTCCTAATTGTGTTGCTTTAAATATGGAAGATAGTTTAATTCCAATTTACGCTCCAAGTGTAACTAAGAATAAGGGTATAATAGCTTTTCCATATAAATGTGAAGGAAGAATAGGTTATATTGTTATTACTGAAAAAGGAGAAGTAGTTTTTGAGGATACTGAAGGAGAATCGAAAATTATTGGAGAGCTCAAATAGATAATTATGCAGATATTATATTATTGATTTTTCCATATAATTTAGTATTTTTATTTTTTATTAGTTCTAATATTTCCTTTATTCCATTGATTATATTTTGCGGATTATTAACTTCGTTTTCTCCAAAAAGAGAAGATAAAAATACTTTTCCGTCTTTTATAACAATTTGAATTTTAGAAAATATTTCACCTATAGCTACTTCATAAGTTACTTCTTCATAAATTCTGAGTTCGTCATTTATTACAGATAGCCTTATCGAAGAACCTTCATAGCAGAATTCTACTGAATCTCCTCTAATATTTAACGATTTAATTTTCATAAATTAATTAACCAAGCTAAATATTAAAATCTTAGCAGATAACAAGCACAAAAGTATTGTAAAAAACATTAAATTAACTTTAAATCTTTTACTAATAAGCCTAATTATTGTTTTTTCTGCTCAGATCCTTGAGCTGGTTTCTTCTCTTTCTTTCCTTTTGCCATATTAGCTCTAATTTAATAAGAATCTTCTAAAGTATTTAAGAATTCCTATCTTATAATTTACTAAATATTAATTATGTAAGTTAACGATTAACTAAGATAAATTTTTAGTTAATCTATGGTAATACATATAAAGTTTATATTAATTTATCAGAATTTATGGATAGAGTTTATTTTTCTTTATTTAGAGTATAGTAACATTTAGCGTTAACTTATAATCAAAATATTACTGCTAATATTAATACCATATTAATTATTAAAATTGATAATTATGGATAATGAGAGGAAATATATACTTTAAGAAAGATCTAAATATATGGAAGAAGCCTTGAGAATGGCAAAGCAAGGGAAGCCTTTAATGGCTATGACAATGATAAAAAGTTACGTTCAAGATAATGTAGAGGGAAAAGATATTAGAAAAATGAATAAAGAATGCAGAGATTTAATTTATGCTATATTATCGACACCTTCTCTAAATGATGAAAGTTGGGGAGTTTTTGTTCCAGCTCCCACAGAAAAGGAAATAGAAATAGTTATAGAAAAAATTAGAGATTGCCTTTCACTCTTTTAATTGAGTTTGTGTCTCTAATTCTTCTAATTCATTAACTTCTTCTAATCTTCTTCCTAAAGTTCTAGGTATAGTAAATATTGTTAATATGCCTGCAATTATCATTTCAAATTCTATTACCATCCATCCTCCAAAGCTTCCTAATAATGGTATTAATGAAGATAGAAGTATTAACTGAGCTATAGCAGCACCCAAATGAGCCAAACCATCAGTCATAGCGTAAGCAGTAGCTCTAGCGTACGTTGGGTAGTTTTCAGTAGCCAATAGATAGTTTAATTGATTTGACCAGCCCACTCCAATAAAGTTACCTATGACCATACCCGTAAAGAATAACGGCATTGATCTATAGAGCCCACCTAATACTGCTATTGCCATACCTAATACAAAGCCAGTATTAGCTAATGTCACTAGAATTCTTCTATCCATTCTTTCAAGAAGTGGCCTAATACCTATAGATCCTAAGAAACTTGCTACACCAGCTAATCCAAATAAGAATATTGCTGAAGCTTCTAGGGAGGAAGTATATCCTAAGACGTCTTTAGTCCATGTAGTAAATAATGTTAAGTATGGGTATTCCCCAAAATACCAGAAAAATATTAGCGCTAAAAGTACAATGTATCTTTTTAAATACTTTGGATTCTTAAATATGCTGAAAGGATTTTTATGGTGAATAGTGTAATTCAATATTTGAGGTTCAGGTAACATATTTACGTTAGCCCTTCTCATTGAAGTTTCTTCCATTCTACTTACTAATCTTCCTGCTTCATCAAACTTATGTGCTTTAGCTAAGAATCTAACAGTTTCTGGTGCGGTAGCCCTTATGGCTAAAGCCATTAATGCAAGAGCTCCGCCAACAGCAAAAACTAATCTCCAACCTATAGTAGGATACGTATCTACCAGTACTGCTCCTAAAAATGGTCCCAAGCCTATTCCTGCCCATCCGCCTATGTAAGCCAGGTTTACGTAAAGACCTCTTTTGGAATTAGGAGCCATTTCTGCTAAGTATGTCATTACTAAAACTAGATCAGCACCTATTCCCATTCCAGTAAGGAATCTAAAAACTGCAAGCATTGGATAATTTGTAGCTAATGCGTCACCAAAGCTTCCTATAGTTGTTAAAAAGGCAGATATTATTAAAGTAGGCCTTCTCCCTATTATATCAGCTAAATAAGAAAGTCCTATTGCGCCAGGGATATATCCGAATAGACCTAAAGCTGCTATCATTGAAGCTTCAGAAGAATTAGTTATAAATGGAATTACTGGTAAAGCCACACCTACGTTTATTACATCGTATAATGTAATAAAGAAGCTAAACCCTAACGCCCATATTAGTGCATATGATAAGCCTCATGCTGGTAGCCTATCAACTCTAGCTATATACCAGTCTGGATTAGTTTTTAAATCGTTTTTATCAGGTCCAGAGCTCGTAGCCATATTTTTTAAAACAGTATAAGTAGTTTTTAAGCTTATCTTTTGTTTAATTATAGTTTGAAAAATTTAAAAATTGTAATTAAAGTATAGGTCTTTTTGGCGAATGTTTTCCTAAATGGCCTTTAAATCTTTCTTCTTCCCAAACGTTACCTCTTTCATGATACCCTCTTTCCTCCCAATAGCCATCTACATATTTATCAATAAATTCAATTTCTGTTAACCATTTAGCGCTCTTCCATCCATATAGATGTGGCATAAAAGGTCTAGCTGGAAAACCTTGCTCTATTGTTAAAGGTTTTCCATTAATTCTTAAAGCTATTATTGAATCTTCGCTTAATGCGTCCTCTATTGGTATAGTAGATGTGTAGCCATCTAATGAATAAAATATAACCCATTTTGCTTCTTCTTTTACTTTAGATTTTTCTACTATATTTCTAATTTTAATTCCTTCCCAATAAACGTCTTTAATACTCCAACCTGTTACACAGTGAAAATCTTTTGTGTATTTCGTATCTATCATTTTTAATAAATCTTCATAGCTAAACTCTAGTTTATTTTCTACTAATCCATTTATCTTTAACTTATAGGTAGAAATGTCCACTTCAGGGACTCCTAAAGCTGCATAATAAATGAATTTTTTAATATATCTTTGTCCATGAGGTAACTGAACTTCCATATCATAAATTGGTCATCTAGAATTAAAAAGAAGTTTTTAAAAAATTTGAATAAGTAAGTTTCTTATTTTAGAGAATCATAGAGTATCATATTTTCTGTTTTAAGAAAATTCTTATAACAAACAAGATAAATGCTAAAGCCACTGGAATTAGAAGAGCAAAGGAATCTCTTATTCCGAAGAAATTAACTATTGAAGAAATTATTATGGGTATAAAAGATGAAAATCCCATCATAATTGCAGAAAAATAACTATTAGCAATATTTCGTTCTTCTACGGAAAAACTTCTAGATATAGAAATTAGGGAAATTGGATATGTAAGACCATGAGGAATTCCAAGAATTACTAGAGCAAGTATGTAAAACATTAGACTAGGAGATATAAATACTAGTAAAAGTCCTATAACAGTTAACGATGCGGCTACCCATATTGGCGTCCAAAGATTTCTTGGTGGTATTACTGTTAATATTAACCTTCCTAGAAAAGAAGTTGCAAAAAATATTCCAAAGAGAGCTGTAGCTAACGAATAAGACGCCTTAAAGCTTTCTACAGCAAATATTCCTCCAAAAGTAGTTAACATACCGAACGGTATACCATACATTAAATTTAATGCTATAGATAATTCGAATCCAGGGTTTTTCCATACAGGAGTGGTTTTAATCCCATTTTCTGGAGCATCGTTAGGGAATTTAATAAAAAAAGAGAAAATAGCTACTAATATAGCAAATAGGGAAAAGAAAAGAAAAGCTTGAAATAGTGTAAATTTTAAGAGAACAACAGATTCAATTAAAGGTCCAAGGATTAATGAAGTACTCAGTGCTAACGTATAAAGAGAAAGCATTCTTTCTCTAGTTCTTTGATCTGGAAATAATCCCGCATATGTCATGATATTGGGCATTATAAGACCCATAGAAAAACCTAAGAATGAAGCAAAAAACCATATATTAAACGGATTAGAGAAATAAAATAATGGAAATATTATAGCATAGAAAATTGAAAATAAAACAAAAAATCTTCTTCGTAATTTAGACTTTAATTTAGAATTAACTAGTCCGCTTGAAATAAAAGCAAAAATAGCAGCTAAAGATGAAACTACTCCTATCAATATACTAGAAAAGTGAAAATCATACCTTGCTATTAATGGTAAAGTTGTTATAATCATATTGTTCGAAGCACGTAATGAAAATGTAATCCCTATAATTATTATTGCGGAAATTATAGGAAAACTCTTGTTCATACAAATGATAGGTGTATAAAAAGATATATCTTTTTCTTAACTTACACGCTTAGGAATGTCTCTATTAATAAAACTAAGGAAAGCTATAACCAAAGAAATGCCAGAGTAAAGTATAACATAAGCTATAGCATCTATTTGTGTTCCTGGTATTGCTGGAAATATTTCTAAGGCTTGCACTATTAATGATGCTCCAGGAATTGTTTGAGCGTAAAGAAAAGGAAGTTCTGTTGCTCCCCAAGAGGGTAATGATATTGCTATAGCTTTGAAAAGAAAAATCCCAGTTAGTTTAGCTACAAATACTAATACTGCACCTATAAGAATTGAACCTATAAGAATTGAACTGGCTATAAGGAAGGCTAAACTGCTTCTTCTTAGTAATTCACCTATCATAAAAGCTATTGAATAGAAAGTTAAAGCAGAGAAAAGAACTGTAGATATTAATTCTGGCAGATATCCAAGAAATTTTTGAGCACCAAAGAAAGAAAAGGAGAACACAAGCGCTAAAGTAACCATAAATAAGTAAATAAGTGACACAAGGATATATCCTCCTAGAAGTTTTCCAAGTGTAAATTGAAATCTTGTTATAGGTTTAGTTAGAAAGAAATCAACAGTACCTTGCTCATATTCTTCTGATAATGAACCTGAAGATATGGATATAGTTATAAAATGTAGAAGTAAACTCTGAGGTAAAAGGACACCTGCTAGCCATAAAAGTGGAGAAATAGGTGCCAATAAATGTTCTATTTTAGGAGTTTTTACTTCAGATAATGCCAAATATGTTCCTACCTCAAAAACTAATGTTATGCCTATTAAACTAATTACTTTTTTTCTAGCTATAGCTCTCTTAATTTCATAGAAAATTATTTTCTCAATCACTTTTACTTGCCTCCTTTATTGCCATTAAATAGGCTTCCTCTAATTCGTCATCTAAATAGAACGACCTTATTTTTATTCCAGATGTTACTAGATAATGAATTAAGTCCTCTCTTCTATCCTCTTTTAATTTCAATATTATCCTCTTATTATCGAATTTGATATTAGTTATATAATCTAAATCTTTTATTACAGATTTTATACTCTCTTTATCGTCACTCTCAACTATTACTATAACTCCTAAAAATTTTTTAATTAAATCTTCTGGAGACCCATGAAAGAATACTTTTCCATTAAAAATAAGATAAACATCGTCTGAAACTTTCTTTACATCATCAAGAACATGAGAAGTCATTAGTATACTTTTGCCATCCTTCCTCATTTCCTTAAGCATTTCCCTCATATTATAATTCAAAGATGGATCTGTCCCTATATTTGGTTCATCCATTATCAATAACTCAGGATTTCCAAGAATTGCTTCTGCTATTGCAATTCTTTGAGTCATACCTTTACTATATTTAGCTATCTTTTTATTTGCGCTATCTTCCATACCTACGATTTCTAAAACTCTTTTAATCTCACTTTTATCAATTCCTTTAATTCTACAACTCATTTCGAGTAATTCTTTTCCAGTCATAAATGGAGGAAGATTTGGTAGTTCTTGAACATAGCCTATTTCTTTAAATATTTTCTTATTTTTAAATGGATCTTTATTAAGAACTTCAACTTTTCCTCTACTGGGGAAAATTAATCCCATTATAATTCTAATTAAGGTAGTTTTTCCAGCACCATTAGGGCCTAATATTGATGTAATTCTACCATTTTCAGCTTCGAGAGATACTCCTCTCAAAGCATGCTTATTACCATAAAATTTCTCTACCTCTTCAGCTCTTACTGACACAAGTATTATTTTAAACTACAAGTTAAAACGGTTTGTTAAATGTGAGATATTGTATTAGTCAATATGCTTAGTGTGTATGATAATATTTATGAAAATATCATGAAAAATATTAGCTAACTGAGACTCAGAAAGTGATTAGTAAAAGACTAAAGTCTTTTTAGAAATATTATTGTTTAAAATAAATTTATAGACAAAAAATACAGCTATTCAGAATAACTATTCTAACTTAAAAATCTTCTAATGGAAAGTAAAGATTAAATACGTTTAGACCAAAGATATATCTTGAGAGGTATCTCTATGAAAATCCTGTTGGACCCCTCGGGGTATACCGAGGAGGATGAAAACAGGTGTATCTTGGACCCCTCGGGGTATACCGAGGAGGATGAAGAGATACTTAATTAATTTTCCTCGTCCTTATTTCTGAAATGAAAAAGTACTATGTTTATGTGGACGAATCCTATAAGGAGAATATATTCGCTCTATCAGTAATTTGGGTTAAAAATCCTGCAGAAGCAGACAGAATAAAGGCCGATGCAGTTAGGAAGATTAACAAGAAATATCATTTTCATTTTAAAAATGATAAATATAATATAAGGAGGATATTTCTTCTAGCTATCTTGAATTCTAAGATAAATTTTGGTATAATTTTGTTCAATAAGATACCAAGATGTTGTAAAGATTATGCAAGATATTATATAGCAGAAGTTATAAATAATTCTCCGTTTGATGAAAACTCACAATTGATAATAACTATAAAAGGAATAGAAGACTGGATAAACAGGAAAAAATGTAATATTTATGACGAATCCATTAATTTCGTTCAAAAAAGAATATTTTATAGAATAAAATATAATGATAGATCAGGATTGGAAATAGCAGATTATATTGCCTCAGTATATGTTTATTGTATATTTAATAATTTTGATTTATGCAAATCCATAAAGGAAAAGATAAGATTTAAAGTAAATGAGAATATTTAATTATATAGTTATTAATACTAAAATATAATAAAAGAGGTGATTCAGTTATCCGAGCGATTAAGGGGATTCATTGCTAATTGTAATAATACGTACTTACTGATATAATATTCAATTCGATTATCGCTGTTACTTTACATCATCTACGTTAATGATTGGAATATTTTAACTTAGCTTGTTTAAATAAAGTGAATTCACAAAGGAAACCTGAATCGACTCTTTTATAAAGGACATAAAAGTGTATATTTTAGTTATATTAATATTTTGGTTATGTTTAAAAAATCTGCTATTTATAGGCATATCACAAGAGCTCTAGAATTATTTAATTCACATAAGTACGATCTAGCATTAAAGGAGATAGATAAAGCACTAGAAATTGATGATAAAGACTATGACTTACATGTCTTAAAATCTATAATATTTTTAAATCTAGCGCAATATAATGAAGCTTTAAATGAAATTAATATAGCGCTCTTAATTGATAATTCTCCATTTGCATACGCTACTAAATCATTTATACTTACTGAACAAGGAAATCTAAGAGATGCTCTTAGCATACTAGATAACATAGAAGATTTAGAGGAATATGAAGAAATAATTTTACAAAAAGCATCTCTTTTAATTTTAATGGATAGAATAAAGGAAGCTTTAGCATTAATTAAAAACATGAATTCAACATCCGCGCATTACATTAGATCATATGTGTATTATAAATTGAAAGATTATGAAAAATCTTTAAATGAGATAGACGTTATTGAAGAAAATACAGTAATTAAGAATCTTTATAAATATATCATAAATATTAAGCAGGAAAAACTGTATAACATAGATTATAGTTCTATTGAAAACAATAATTCTCTTATTATGTTTCTATTTGAATATCTTAATGGGATATATTCATTAAAATATAACAAATATAATGAAGCTATAACGTATTTTAATAGAGCCCTTAAATATAATGAAGATATTATACTAAGATCTATTATAGAAAACATAAATTCAATAAATTTTGACTTAGATCACAAAATAAAATTCTATACGTTTAAGCACGGAAGCATAGTATCAGAATATATAATTTATGAACCTTATACATTAATAAAAATAAATGAACAAATTCATAACAAAAAATATAGACTAGTGCATACAATTAGGTCAACTTTTATTCCTTCTATTTATTAAAATTGATAATTATTATAGCAATGCTTATTTATTACGAAAAGCTCTTTTATCTATAATGCTAAGGTTAACTAAACGTACTGTGACATTACCTATTATAGGATATTCTTTGGCTACATTTTATCTAGTAGGATTTATTTTTTACTTAAAATATCTACATTTTCCAATATTTCTTGATACTGTACTAATAGGAATACCTTTTATAGGAAGAATGCTAACTCCTATATTATATCCTCTATCTGTAATAAAATATGGTATGGAAAAGATTCTATATTTATCTTTAGCAATAATGGGAATAATAAGTATTTTAGAAGAATTTTCAGATAGTTTGATAATACTAATTATATTTAGGTTTATTACTGGAGTACTGTATGGTCTTTCTACATCATCTGCTATAGAAATGGCAAGTATGACTAAAATCAGATTACTTATAGGTCTAACAATGGGTGGTTGGTCGATTGGATGGATATTTTCAGCATTATCTGCGTTTTTTCTATCAAACTTAATGCTATTTACTGGACTTATATCTATACCATTTATATTGTATCCTACACGAAGGCATGGAATTAATTTAATTAGTACTCCAGTAAATAGTATATCCACGCATATTTCAAAAAAGATTAATATAGATTTTTCAGTAAAAGCATTTATAATTTTTTTCTAGGATTTGAACCAGCATTTATCTTAACAAGGGGCGTTCAGTAATAAATATTTCGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGTGATTTGGGGAGGATCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAATTATTCTAGCCAATTTCCTGGCTAAAGCAGACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAAAACAAGCTGCGCAAGTACTTATTACCCTTCTTCGATATTCCCTTACTTACAGTAGCTTTACCGCTCCTCTCAACTATTGGGTCTAAACCGCAGATACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCTCCAACAATGCCTATTATTATTCCCGAAGAAAGTTTCCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTAATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTGTACTCTAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAAGCATTTCCTTGCTTATTTTTTCCTCGTCACTTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTCAAGGTCTTTTAGGAAGATATATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTGTAGTAAAAATCTGTTTTCCTCTCAAGTCCTTCTCCTTCCATAGTTTTGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTGTAGACCCTCCCCTCACTCGTCACATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATAGCCTCCTTTGTGGTTACATTTAAATACGTATTTTTCAAATATTCTCTTAATGGCAGTCACTGACGGAGTAAGCGTCACTGAGACGCCTTGGTTAAAGCGAGGGTCTATGTGGTACGCCTCTGCTCCATTCAACAGTCCCATATTGGGATACTGTGGGTTCACATTAGTGCTCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTTGGCTTTGAAGCAGGAAGCCACGCCCGTTAGGGCGTGATAGTTCACAGAGACAATACTCTCGTATAGTGTAGCTTTAATAGGATATGCATTACTTCCCATAATTGGAAAACCTAGAAGATCATTTATAATTTCTGGAATAATAGTATCAATAACTGGATTTTTAAGCTTTTTAACATTAAATGTTCCTTTATTCATAATATTTACAACATTTGGTCTAGGGATAAACTCACTCTTACCGATATTATCTAGAATAATAAGGATAAGATTAAGAGAAATAGGGCCCAGTATGAATCTAGCCGCAGCAGCAGGCTTCATAATACCTAACGTTGTTGAAATAGGTAATGTAAGGCTAAATTCTTCGGTAATAACCTTACTTTCCTCTTTAATACTTCTAGTATTTATATTATTTGAATTAAACAAAAATAAAATTACTAAATAAGCTTTATTTCAAAATTAGCATCTCCTTCTACTCTTATTTTATCTCCTTTCTTAACAACAAAAGGTCCTATGAAAACACCAGAAGATACATAACCATTTATCTCACCGATCTTTGTTAGCCATTTCAACATTTCCAAAGGTCCACCATAAACAAAATCTGGTTTTCCTTTTCCCATTAATTTATCATTTATATATAATGATACTCCCTTTACTGGAAGATCAATTCTTTCTCCAATGTATAATCTTCCAGCAGCTGAATCGTCTGCCTTTAATTGAAGAGCATTTAAATTCCAAGTATTAAATCTAGTACCTGGAATTTCTATTCCTAATCTAATATCTCTAATACATTCTGGAATATTATTGGAGGAACAATGATTGGCTAAAAATACTACTTCAACTTCAGCAAAATGATTTTGAAACCATAGTTCAACTTCTTTTTCTTGCGTTATCATTGGTTTAGTTAGTATACCATACATTGGTTCCTTTCCTTTAAAACGAATTAAATGTTCCTTTGTAACTAATGATATCTTATATCCGCCCAGACCTTCATCCTTAATTAATTTCGAAGAAAAGTCATTAAATATCCTATTGGACTCTTCCTCAGTAACTTCAAAAGGGTCAATAGATTTTCTAGTTTTATATGCTTCATAGAGAAGATTTGATTTATCCATAATTGTTTAACATTAGGAAAAAATTTAAATCTTAATCCATTCAGTCTCTTTTTTACATTCAAATACAAGATTTATTATAAGATTTCAGCTGAAACACGGTTCGTCATCTTTCAGCTTATTATTTTTCCACATTTACTACTTCTAACTTTCTGTAGTTTATTTGCATTTCTTTATAAATTCTACTGTATTTCTTATAGAGTCAACATAATTTTCTATCTTAGCAAATCCATGACCTTCATTCTCATATATCTTATATTCTATTTCTACTCCCTTTTCTTTCAATTTCTTTACTACTTGTTCAGTTTCCTCGGCAGGACATCTAGGATCATATTCTCCCGCAAGTATCATTAGAGGAGTTTTTATATTATCGATAAAGAAAATTGGAGATCTATCAACCAATAGGTTATGGTCATTCCCCATTTTTATTTCGTCGTACTGTTGAAGAAATTCTCTTTCAAATTGCCTTTCAGTAAACCAATTGACGAAAGGAACTACGGCTACGGCGCTGCACCATATATCCGGATATTTTGTAACAGCCATCATTGTTAAATATCCACCATAGCTAGCACCAGTAACTGCTATTTTATTTAAATTCAAAAATTTTGCAGCATGTATAACGTCTTTTAAGTCTCCTCCTCCTAAGTCTTTATCATTTAAATGATTGAATTTTCTTCCATATCCCGTAGAACCTCTATAATTAGGGCATATCACTTTAAATCCAGCATCTACTAAAAACTGAATCGTAGGACTAAAAGTATTTACACATTCCCAATCTGGTCCTCCATGAATGTAAACTACACCTTTAGTTTCATTACCTTTAGAATAAAGCAATGATGGTATATTTACTCCATCAAAAGATTTGTACTCAACTTTTTTAGGCCTTACGAAATTTCCGCTTATTCCTTCCATAGAATTTGTTAATCTTTCTATATTTCCGTCTTTATCTACTCTATATAAGTCAGAAAATCTATCATAATTTGAACCTAAATAATATAAATAGTTTCCGTCGACATATAAGTTTCTATTGTAACCTTCACTTACTATTATTTTATCATCCTTAATAATATTGAAATCTCCAAAATTATCTTCTATATACACTAATTTATCATTAAAGTATAAAGCTTCGTATTTCTCATGATTAGAAGTTTTTAACCATTTTATATCTCCATTATTAAATATCCCTATATCAAAATAATTATTCTTATTACTTATAAATAGAATTCCATCGCGTGTGAAACATTGGGAAGATGCAGGAAATTCCTCAGACTGCGATAAAGATACTATTTCTTCTCTCCATTTATCTACCTCGAGTATATGAAGATCTTGATCGTATATACCTTGAGAATATGCTACCTTTTTTCCGTCTTCAGAAACACAAAATGAATCTACAGGTATATTTCCTTCACTAAGTCTATTAATCTCTCCACCTTCGTATAAGAAAAGATGTATAGTATTACTTTCTCTATTAGATAAAAAATAAAATTTATCATCAGTTATAAACCAAGGATTTACGTTATCGTACTCATCCTTAAGTATAGGAGAAAGAGATCCTTCAAAGATATAAATCTCTCTCTTCTCACTCCCTTTAGGATCGCCTACAACAGCTAACTTCTTTTCATTTATCCAAGAGACCTCCTCAGCGTAAAAATTAGAGTCTATCCTTCCTTCTCCTAATATGTAAGCTCTAGGAATATCTTCTTCTCTAATGAAAGCTACTCTACCGTCTTTTACATCATAATTAGTTATTGGCTTTATCTTAAACAAGTCTTGGTATTGCATAAGAGGAATATTCACAGTGTTTAAATAACTTTATCATAGATATGTTTTAGAGATTAACGAATTTTCTTGTGCAAGTTAACTCTGAGTATCTATTTTAATACGTAATATTTTAATTTACTAAAAATATAGAAGATCTTTAAACTGCAAAGCAAAATTTGATAAAACCGTCTTTTATAGGATTAAGATTTTCTTATCTAAATATTAGCAATCCAGCAAAAGCGAACTTTATCTCTAAACCTTAATTTAAGATAAATTGTAAATATTTAGATAAATTATCTCAAAATAATTTCCTTAACCACTTTATTTTTTATTTTACTGTAATATCTATCGTTTTTCTTTTCGTAGTATAATCTTATTGAACTGGAAACATAATCGGCAACTCTAATCCCTGGAAGATCTCCCTTAATTTTAAATCTTACATTATTTGTTATTTTTGATAGATCTCTATCAAAACTAAAAATTTCTCTCTTAGGTATAGAAATTCTATCATAAAATATTTCTTTTATATCATGACTCTTCTTTTTAAACTCCATATAGTAGTTTACGGGAATTTATCTTGCTTAAATATTTTCATTCTATTATGTAACGAAATAAATTTTAACTGTTTTATGGCGATAATGTTTTAGGCTTTACGACGAGACATTTAACTTATCTTCTCTTATATTAAATTATTTTTAAGGTAACGTAATACTGCAGGGATTTTCGAAGAAAAGCTATCCATACTTTCAATTAGTTCTTCTACAAATATCTTCCATTTTTCTGCAAAATTTTTGTCATGAATTGCTAAATAATTTCTCACATCTTTATCTATAATAAGACAATAAATATCAATATCCATTTTAGATATATATTTTGTAAATATCTCTCTAACCTCGTCTTTATCATTCTTAAAATGAAATTTATTAATCTAGCTTCATTAATAGACTCATAATAGTGTTTTTCGATATTTCTAGGTTTATAACTTACTACTGCAGAAATTATATAATATTCTGAATCACTGCCTAAAGTTCCAGATTCGTCCATATAAATAAACATTGTAAAATAATAAAAATACTATATCTTAAATTTTAACTTTTCCATAGTCTATAGGATGCATCTTAGGATATAATATGAATATCTTAACAATTGATTAAATTCGATTAGTTTAACTTACAAGAAATAAAAGTACAAAAAAGTTTTTTATAGTAGTGTTTTAATAAAATAATAATATGTGAGAGGATCTGTAGGGGGATACCCACAGGATGAATCTTGAAATTGATAATTTTCTCAGTAAAGATCTATAAAATAAAAGTAATATTGATTTAAACATACATGGAACTAACAGCGTGGACTATATCTTAAGGAAAAAGTAAATTATTGATAGCTTCTAAACTTATAGCCAGTACCTATCGTATAAGTTTTCCTCTATAAGAATAACAAGATATGGTAAAATCTAAATATCATAATTAGAACTACGCTGATATCTAGTTTTCTAATGAGGTGTAAATAACTCTATTTGCAATAAGACCTATTATACCTACTAAAGAGAGTAGAGTAAAGCTTATCTCATAATCATGAATAGAAAACAGATAAGCTGTAATTGAAGTAGAAAATGCTCTTCCAAGTCCTTCTGCCATCCTAGTAGATCCCATTGCCATACCTATTCCTTTACTATGATATTTATATGATACTATATAAGAAATTGATAAAATTATTGGATTTAAAATAATTTCGCCTAACGATATAAATATTATAAACATTGTTAATCCAACTATATTTCCAAGATAGAAAATACTTAAATACGACATAGAAAAGACAAACGAACCTAAAATATACATGTACTTCAAATTTAATTTTGTCATATATCTTCCTATTGGTTCTTGAAATACAGCACCTAGTAAACTGCTTAAGGAAATAAAATAACCTATTAATAAACTAGAAATTTTAAGAATATTGGTAGAATAAACTGTAAAACCAAATAGTACTTGTGAACTTACGAACGCAAATATAAATTGAACTAGAATAATCTCCATTAAATATTTAGATGGTCTAATAAAATATTTTCTATTAACACCATTATTACCGTTTTTTGTATTATTTAATTTATAAGCTATAGGTATAGAAATTAAATTTCCTAAGCTACCTAAAAGAAGAATAAAGTTCCATCCAATATAATAATATAATAAACTACCTATTATAGGTCCAACGACCCAACCTAAATTTATCCCTGCTCTAAATCTAGAAAAAGATAACAAAAGATCTTTTACAGAGGGAGAACTTAAAGTACCAGTAGCTGTAGAAGATGAAGTAACATATAGAGAATTAAGAAATGCCTGAATACTTAGTATTATTATTCCACATATACCATTAGTTAAAAAGAAACCTAAAAATAATACTATCGACGTTAAAAATAATGAGACTACAATAGTATTTTTTGTCCCTATACTGTCAGTTAGATGACCAGCTAAAATATAGGATATTAGTAATATAGGATAACCAAGAGAATAGAATATAATGACTAATAGTGGTGGTAGATGATAAAAATCGTAAAGAGCTATACCAGTATAAGTCCATATTGCGGTTAATGATGAAAATCTTATAATATTTACAGAAAAAATAATTATATCTTTCAGAAAAGTTCACCCAATGGATGATGTATGAATTTTCCAAAAAATATTTCACAAAATTGTTTATATAATATAGAGTGAAGAATAAACAGATGGAAATACATGTCTACTACACCGCTTGGCGCTACATAACTCAATTCTTTTCCGCCATATGCTATATTTAGAGCCATCCATTTTTTAAACTCTAACTCTATTCTCTTTATTATCTCATAATCTATTTTACCAAAATGTGCTATTAACGGGAATCTTTGTTCCGGCACAAATTTAAACTCATCAATGCTATGAAGTAAATTTTCTGATATAGGTGAAAGGTCTAATCGTTCAAGCATAAGTATTCGATATAAACTACTATTATCTAATGATTCCAAAACTTTCTTAGGTAATATAGTTATTTCGTTTACATTATCAGGTTTTAAATTAAATCTTAATCCGAAACTATTGTCGTCATTATTTAATAATTTCTTTAATGAAACATTGTCATGTTTAGGTATTCCCCAAACACTTTTGCTAAATTTTTCGTATTCCTTAGTATGAAGAATAAGAAAGTGCCAATATAGATCCACAGCACCACCTGCAGTAAATAACCTTTTTGGGAAAATAACTGTTAATGCTACAAATCGCCTAAATTCTTTTTCAATCTTTTCTGCTAATTCCCTATCAGCTTTTCCATAATAAATTTTTATAGGCCAAACTTGTTCTGGAGAAAATCTGCGTCCTTTCCATATAAAATTTGATGTAATATATGATAGATCATACGAATCTAAAATCTCTAGCCTTTCTTTTACTTTATCTAATCTTTCTTCTGGAACATATTTACGCAATTCCTCATAATTAATAATACTCATAAAATCACCTTTAAAAACAAAAATAATATCATTTCTTAAAAAATTATTCAAATGGATCTTTATACTCTTCTACCGGATACTTCTTCTCGTCATAATCCACAAATGCACCGCTATACGAATCTCCACAAGGCATTGGAGTTTCTGGCCATATGCTAGTATCAATATTCCCAAAAATCTTTATATATAGCTCTCTAGTCTCTTTATATGCATCCCTAGCTACTGGTCTTGTTCTACTATTTGCTGGTATATGTTCTATTATTTTATATTCTTCGACTTTATCCATTTTTCCTCTAAATTTAGCTTTGCTAGACAGTTTTTTTAACTATAATAATACATTGAAACTTTTTAGAGTGCAATTAAGATCATACGTTATAATTCTCCTTAATATTAAAAAGTATAATAATTATCTATATTAGTAATATATACTTTTTAACATATCCTTAATATTAGAAAATACATTCTTGGTTATGCTACTAAAAGGATTATTAGCACTTTAAGAAGATTTTACAATTATTCTTAGCTTATACTATCTTAATCGCTGAGAATTTTATGAGATTAGTAACGAAGAACTCCAAATATGTATCTGAATTAGAAAATTATTGATTTCCGCTTATTTACTAAATATAAGATATCTCAAACTAAATCAGATCAAATAGACTAAGTTAAAATACCTTAATTTAAGACATAATTAACGTGGAAAAGCTTTTATTAGATATATCTAAATTGCTTTTGACCTTTAGTGTTTAACGGCTTAGCTAAATTCATATCAAAAAAATGGTATGTATTATTAGTAGTATGGGTAATTGTTTTAATAGTAGCAGCACCTTTATCTTCATTATTTTTTAAATCAGTAAGTTATAGTGTTACGATTTCTATCCCTGGAAGCACAGCCTCTAAAGCTGAAAATATAGTTTCTAATTATTTTAAGCTTCAGGGAGCTTCCTCAGCAAACGGTGTTCTGTTACTAAAGGGTAATGCAAGTAAATATTCACTTTTCCTCTCTAATCTAACTTCTTACGGTAACATATCGTTAGAAAGTTTCTACACAATTGAAAAGTCTACGTTGAACGCATCATTATCAAAAATATATCCATCAGCACTAAATTTAACTAAGAATTTTATTAAAATAGCAAATAATGAGACAGAACTCTATTACAATTTATCTAAAAATGCGGAAAAACTTAACTCTACAATACCTAAACTTGAGAATATTACAAATTCAACAAGATTGATTGAGTCAAAATTCTCAGAAGTTAAAGATAACATAAATACTACAACAAACGAAATAGAGTTTCTACATAACGGAATGTATAAGAATTTAACTTCTTTTGAGATACTCAAAGAAGGAGAAGTAAAGGTAAATTCCACAGCATTTAATCTAACTAAATTACTATTTTATCCACAAGTAGCGTTCCTAAAGGTATGGATATCAGTATATGACAATGAAAGTTTACCTTCATATCATAACGTTGCCATATCTAATGAAATCGCTTATAATTATGTTTCTAAAGAACTTGAGGAGCCAGAAGTTAAAGATTTCTTTAATATATTTTTTAAATATTGGAATTCTAGCTACAATTATCAGAAATTAAGTCAATTTCCAGAGAATTCTAGTGTACCATACATTGTTGCAGATAATAGTATATATGATGCTTCTCAGATATTTTTTGCGCAGAATTCTACCACGTTAAATTTTGTAGATTTCATGTTAAAATATTTTAATATAACCAATTTTAATCAGGAAAATACGTTTGAAGATTTTACAGTCAATTATGTTCATACGATCTATAATGTTCCAATATCTCTAGCATATACTTTATATACAACGTCTCCACTAGACGTAGTTCTCAATATATATCACGAAAAAACTAATATTTCCATTTCTCTCCTTAAGGACATTTTAGAAAGTAATACTACACAACAATTTAGTAATATCTCTCTAACTATAATATTGAGTAAAGTTAATTCTACTGAAAGACAATTTATATATCAAGTATTTTATAATATGAGTAAAACTCCTTATGAGTTTGCAGTAAACTACATAAGCTATAAGGCAAATATCTCACCAGAAATAGTAGGAGAATTAGCTAACTTTACACAACCTATACAATATATAAATTATATATCAGAAAAAGAAGCTAATCAAACTGGACTTCCTGTTTGGTTCTTTACTGAACTTATAGAAGACCATAATTATAGTAATTTAACTGCTTATCTAGTAGCACCTAAACTAGCAAAACTCAACTATATTTTAGAAAGATCAAATATTACCGCATTTAATCTAGCACTGTATCTAGAAAATGCTACATGGGAAAAGACAGCAAATATTTCGTCGTTGCTTATTGCCAACTTTGTAAATTCAACAACCTTAATCCATATTAATAACACGAAACTCTATCATACTCTGTATTCAATGATATATTCCAATATATCTCTATCAACTGAAATAAATAAATTAATTTCACAGAATACATTCCCTGTTGAATTAATACAAAATATAACAAATGGATTATTTACAAATAATTATTATATTATAGCAATGAAAGGAAACTTCACATATAAGGAAGCTGAAAATTTTGAAAGCTATGTAGAAAATCAAACACATTTGCAACCATATTTAACGGGACCTAAGCCAGTTACACACTCCTTAGAAGGTATAGCTAACTCGGCGTTTTCAATTGCTATCCCAGTAGGTATAGCTCTGGCAATAATTCTTGCAGGAATATATTTTAGATCAATAGTCGCTGCGTTTGCACCATTAGGAACATATTTAGCTGCATACCTAGCTTCTTCTGTCCTAATTTGGGCAATAGTTGTAAAAATTCTAGGAATAACGATAGATTTTCTGACACCTAGCCAGGTTCTACTGTTAGCCTTAGGATTAGGTACAGATTATGTAGTGTTTATTTCAAGTAGATACATAGAGGAAAGAAAGAAAGGAGTTAGTAAAGACAACGCAGTAGAAGAAGCAGTAAAGTGGGGAGGAAGAGCAGTAACAATTACTGCTTTCGTAGTTATGTTGTCATTCTTGTTCCTATATGTATATAACGTTCCATTCTTCTCTGATACTGCAATAGCCGAAATGTTAGCCGTAGCTGTAGTATGGATAGCTTCTGTTACTTTATTTACATCGATATTAGCAGCATTGGGTGACAAATTATTTTTCCCTAGAAAGCTCAGTAAAAGAGAAGAAAAAGAAGGAAAGGGAATAAGAAGAGCAGGGTTAATAGTAGGAGTTATAACAGCAATAGTAATAATTTCTGCAGTATATGCAGTAACTACTCCATTAACTTTTAACATTTTAGATCTATTACCTCCTAACCAGGCTACTGAAGGAGTTAATTTATTAAGTAGCCAATTTACTTCTGATAACGTATTTCCAATTTATGTTGTAATACCAATTAATAGTACATTTAATGAAAGTACATATCAGTATGCGTTATCCATATATCATCAATTGTCAAGTATCCAAGGAGTTACAGCAGTTGATTCTCCAGTCTCACCCTTAGGCGGAGTAGTATCTTATAATAATTTAAGTGAATACAATTATACACAGTACATCTCTCATGGTTATATGCTATTTTTGGTAAACCAAAAATATCAACCATTTTCTGATAAAGCATTTAACGTCGTAAAGAACATACTTTCAGTCATAGGAAATAAAGGATATGTAGGAGGAGGACCAGTTGATGCTTTTAATATATTGAACTTTGTAAACACAGATTTCGCGGAAATTTTCTTACTGATTACAGTAACTATGTACATTATTTTAGTAATAATGACTAGATCATTTTCAGTAGCTGGCGTAATAATTTTCACTATAATGTCAGCAGTAGCAATAACCCTAGGATTAGAAAGATTAGTATTTTCAAGTATGGGATACTCGCTATTTGCAATAGTACCATTATTCCTTGTAGCTATCATTATAGGCATAGGCATGGATTATAATATATTCCTTGTGGCAAGAATTCATGAGGAATTAGAAAAAGGAAATAATATGGAAAAAGCAGTCGAAATAACAAGAAGTAGAATAGGCAAGACTATAGTATTCTTAGGTCTAATATTTGCAGGCACAATGGGATCTCTTATGCTTGTTAATGCTGCAATACTTCAGGAGATAGGCTTTGCATTAGCTGTTGCAGCTATTTTAGAGACTTCCTTACTTTGGTATTATCTAGCTCCTTCTTTGCTAATACTATTGTATAGAAAACTTAAAGTCAAACCAAAAATGCTAATATAATCTCTATTTTTATATCTAATTTATGTATAAATTGATAATATAGCTAAGAATACATGCTCTATAGTAATAAAGAAAATTTATAATTATCTTTTAACTTATCAACTATAATGAAAAACCAAAAATTTTTGCTTTTTATCTCGTTAATAATTTTGTCTTTAACACTTTTCTCTTTTTTATCTCTATCTTACGTGCATGATTTAACTCTTATTATACATTTTTACAGTCCTCAAAAACCAAAAACTAATACCTTTCAGTTTGAAGGAAATCCTACTCATGTATACTACGTTAATACAACAACTGGATATTTTTCGTTAAATGTGAATAGTGCTATTGTAGTTCCACCTTCTATTTATGGCCAATATCTTATAATTACAACATCTGGACCAATGAATATGCAAACAAGAAGTTTAAACGAAATGCTAGGATGCGTAATAGCAGTTAACATAAATAATGGAAAAATTATATGGAAAGATGTATTTCCGAATCAAATAATGACACAGCCAATAATAGTTAATGGAACAGTAGTTGTAGGCCTTGGAAATGCTTATTTTATTAATTCCACGATCAGAGGAAATGGAACTAATGCTATAGTAGCAATAAACATAGAAAATGGAAAAGAGATCTGGAATTTTTCTACTCTAGGAGAAGATATGCCTACTCCTGTGTATTATAATGGAAATATAATAGAGCCTAATGGAAATGGTTGCATATATGCAATAAATCTGTTAACAGGAACTTTATCATGGAAGACTAAGATATACTCCTATGTTAGTATGTCATCTCCAGTTCTCGTAAATGGGAGTATGTACTTTGGTAGCGCATATCCATATGTATTTTTTGCAATTAATGCGTCTAATGGAAAAATACTTTGGGACGATAACTTTACTGCTTTATATAACAACTATTGTGTTCACGGACTAGACGATTCATCACCAGCATACTCTAATGGAATAGTAACAACATCATTTACTTTATTAAATAATTCTAATTCTTCGATGGTTAGTGATATGCTGACTGCAATAAATGCTACGAGCGGAAGAATTTTATGGGTTCTAAATGAAGGTGTAGGATCTATTCCACCTAACTTAGAATCTCCACCAGAAGTAATCTATAATGGAACTGTATTTCAAGATACACCGTCCGTAGGTATATTATATGCAGTGAATTTAACTACAGGTAAAGTAATATGGGAAATTGATACTGGACCCACTACAAGTAATATTGATATTTATAATAATTATGTAATGATTCAAAATTCTACTGGAACCCTGTTTATAATCAATAACGGAAAAATAACAGAAGAAACGCAATTAGGCGTAATGCCCGGACCTGGTAATTTGTTAATAACTAGAAATTCAATTATACTCGTTGGAATTAATGGAGAGATAGAATCAATCCCCCTTAAGGTATTTCAATTGCCTAGCTAATAATTTAATTTCTTCTGGAATCTCTAGATCCTCTATTTTACCGTTAAATTGAAATAAATTCTCAATAAAAGGTAAAACAAATCCAGAATTTAATTTCGTTTCCTCTAATGCCTCCTTCAAATCTCTTTTACTTTTATCCAATTCTTCTGGATAAGGAGGAACTAAATTTATTATTAGACCATATCCATTACCTAAATTATTTTGACTTTCTATTTTTTTAATGTAGTCTATAGTAGCTTTTATACTAGGCTCTGAAGGGTCAGTAACATAAATTCTTAATATTTTGACTTTTGGGAAATTTTTTAGAAAAATAGAAAGTTCATGTTTAACAATTTCATCATTAAAGTCAACTAAAGAAGGATTATCTACAATATAAAAATCAAATTTCTTCTTCAAAATTTGACTATATAATTCTTCAACCTTGTTTAAGAGGACGGTATTCTTATGAATAATACTAACATCAGTGAAAAATCTTGGGCCTTCTCCGTAAAACTTTATTACAGATATTTTACCATTATTATATTTTTTCTCCGCATAGAATTCTCCATGCTCTTTTCCCTCTATTATTGATTTTACTAATCCATCTCCTTCTAAACCTAATATTCTAGATGTCCAGCCTAATGGATCTCTATCAATTAATAATACTTTTTCACCCATTTCAGATAAAGCTTTAGATAGCAATAAAGAAATAGTAGATTTTCCAGAACCCCCCTTAACGCCAATAATAGATATTCTCATTTTCCCGTTTTATGATGTTTATATATTTTAAAAAAATTATGTTCCTTTTATTATTGAATCTAGATACTTCATTAAGCCAGATTCTACATGTTCAGTCCAAAGAATTTCTGGAACATCCACTGCTAGAAATAGTGGGCTTACTATTAATGCCTCTACTGCAGTAACCCCAAGATTTTGAATCCATTTGCCTATTCCTACATTCACTTTCAAATTCTCAGGTGTATTTTCAAAAGTAAATGTTAATGCTCTGTCTGCAGCTATTAAATCCCTTAATATTCCAGCTTTTTGAGCCTGAACTATTGCTTTATTTCCTTCAACTTTTTGCTGTACTTTATATCCTTCATTTTGAAGATATTGAACAAATTGATTTATTATTTGATTAACATCTTGTTGGGAAGGATATTCTCTTTCTTTCTTAAATATAGCCATGTAGTGAATATTTCCTTATTCAATTTAAAGTTAGTGATTACGAAGAATATAATGCAATTGAAGGATTTAAATATTAAATTAGATAACTTAAAAAAGTTTATATAGTACTTTATCTAAAGCTATTTATGCAAAAATATTTTACTATTTTAAAAACAAACCATTGTAAGACAAACTATGGTCTTTTTGAATGTAAAATTGAAGATGGAAAAGAAAATTGTAAACTTATAGCTTGTGTAGTTCCAAGAGAAAACGAAGAACTATCTCTATACACTAATATTTAAGTTGAAAATTGTTAAGACTATGTTTTTCAAGTTTATATTTTGAATCTTAATTGCAAAGTCGTTTTGAATTTGAAAATAATAATATATTATTGTACTTCTGTAAAATACTAAATATTTTAATATAATATTTACATTTTCAATATATAAAGATTTTAGTAATTAGGTTGAGCTTCATAGAATTTATCATATGTTAATATCAATCCTTAGTTCTTGAGTTCAGTGAGTTGTAGGTAGTTATTCAACTCACCAAAGATATAGTCCTAACGTATACGTTCAGAATATCAAGAATGTGAGAAACTTGCATACCTATCGTTCTCTCATATCTCATAGGATAACAGAAACTCCAAACATTGTTCTATTAATTTCCTTATTACACTCTAATCTCCTTCCCGTCCATAACGGTAGATCCAAAATCATATTACAAATATAAATTCAACACTAAACCTCATATTTTTTCTTCATAAGGAACATATTTCATTATACTCATAACCATGAGTAATAAGAATAAATATATTAAATAATCAATGTAAATAAAACGGATTCTATCATATACATCCCATCATTTTCTAATATTATAATAATATTCCTCAGTTAATCGTATAGAAATATAAAAGATCTAATACAATACTTAAAAATTTCTAAAAAATATTGCAGAGTTAATTATCTAATTTCATTAAATTCACATAAATAACTAATAACAAATAAAAATTATTTTTATTAATCAGATTTTGAGTCTACCGCATGGTGGAGTCTTCCGCCCCTTTGAACCTCCATAAAGATAAATTGTCAAGAAAACTATTATGTTATTTTAATGTATCTAAATAAAAATAGAAAATTTTAAAGCAAGATACATCTAGAATGTTAATTTTTATATGTATAAAAAATTATAATGAGCCGAAGAGCTTATAAACTGTTTAAACATATATAAAAAATATGGTTAAACAAGATAAACTAGGGATTTATTTTGAGGAATGTGACAGTCTTAAAGGATTAGAAATTTGTAGAAGCTACAGTATAGGTAGTGACGTTAGGAGAAGACTATAGTTTGCAAAATATATATTTCTGCAATTTAACTCAAATTTTATGACTGACCGTAAATAGTTATGGCATAGGAAAATATTTCTGATTTACGATTAATATAATCATAAAGATCATGGTTGGAAAATATTTTCTATATGCTAGTTATTTTATAATTATATATTAACTTAGTTCCCAATTAAACTACATATTTGGAATTTTTAGTAGTTTAAGGATTTTCATGAAAAGAGTATTCCAGGATTATGAAAAGATAAATAATCAAGAATATTGAAGCAGTTCATAAAAATACATAGCAAATTAATAATTCCTTAGCTTAATTGAGAAGTAAAGATAATGAGAAACTTTAACAACTATAGACGTTAGAAAGCGACATTTGCTTATATATTTAATATCTGAACTCCATTATTTCAAATAATAGATTAAAAATTATATGATTTATTAGAACTAGATTAGCGGAAAATTCTCCTAACATTTTATCATACAGATATATAAACATAAACTAAATCAAATAAATATAAAAAATTATGGAATTAGTGGTAATGTATTAGTCTTTTAGTCAAGTTGGAGGTAATGGAACAGCAACTGTAGAAGTTACTACATTATCGCCAAAATATACCGTAAAAGTAGCTATAGATGAACTACTTGGAGATGGTAATGGAGTATTTGGTTGAATAAGTATTCCAATATAGTATGTACCACTGGTTAAGGTAATAACAGAAGATGGTGAGGAGACTGCAGATCCTGACGAAATAACTTTAAACTCACCGTTATACCCCCCAGTTGAGCTTTCTATAATTATCCATGCATTAGTTATCGGATTCGTAGTTGAAGTATATGAATATGAAACGTTAGTTATATACAAATTCAATGTTGACGAGGCTGTTAAGGTAACCGCTTCATAGAAGTAGTCATAGGAGGAGTCTGTTATATTTATATCTGCAGTAAAAGAGTTAGCAGGAGTTGTAGTTACGTCAATATAGTATCCTTTCCCGGAAGGTAAAGACACTACTCCATTTGGTCCTACACTTATGGTTAAAGGCGATGAAGTAGAGTATATATTTACTACTCCAGAATAATAATAAATTACGTCTGCCGCTACAACTGGTACTATAGCTACGAGCACTAATATTGGAATTAAGATTCTTCTACTAATATTTAATTTCCTCATAATCATCTATATAAACCTTCTACATGATATTTAATAAGATTAGCTAGAAGATATAGCTTCTTATTTCTACTTTTCATACGAAAGAACTTTTTAATTAACATTTTTATAAACAATTTTGTGGAGATTAATCTAAAGATATTCGTGGTCATTGTTATAATACTCTTAGTTATTGCAATGTTTTCAACCATATACGCAACTAAATTTACAATAAAAAGCGGAAAATTTTATCCTCCTTACGCTAAAGTTATAGGCGCATTTACGTCTAACGGTAAAATTAATGTTGAAATAAAGATAGAGAACGAATCTTTTCCTATAAAAATAGAAGGAGGATATGTAAGTATACTTAATACTCACCAGAAGGAGAATATATCTCCAACTAATTTAACAATATTTAATGTTTCATTTCCCATAACTCGCGATTTAGCTTCTTTTTCAACTGTAAGTGTTAATGGAGTTATTCAAGGCATAATGAAAGGAAATAAGGTTTTTATTACATTTTCTTCGGTAGCTATTCTCCATATATCAATTTCGGTTACTATAATTAATTTTACATACAATAATTATACTGAGGATATTTATTTAAAGATTTTTAACCCTATAAATATAACAATTTTTGGTATAAAATACCCTAGTATATCGAATGCAAATTTATCACAAAGTGTTGTTGGAGGATATTATTTTCCGTTAAATATAACTTTGCCTATAGGAGTTCATTACCTTAATATATCTCTCAATTTTAAAAAATATCCGAACAGCTTAATATATGATAGAAATCTATCTATAGGATACTATTATTACTTTTCCGGTTATCTTCTAACTAGATTATATTTCATACCTCCTCAAAATGATACATTTTATTTATATCATATAGAAGAGTTTAGTCCAATTAGATGATAGATTTAATAATTTATGTTTTTAAAGAAGACGTATATGGGAAAAGAATTAAAAATAAGACCAGAAATAGCGATATATTTATCTATAGTCTTGTTGATACTTTTTACTTGGGTATTTTATCCGATATGGAATTTGAAAAGCATCAATTATGCTCAATTCATAACTCCACTAGGCTTTAAGGTTTATTTCTTTAAGAATAGTTTTCTATTAATATCCCCATTAACAATAACAGCAATTGTCTTCATGATAATTTCAGCTATTATACCAATAATATGGAGATCAAGTAGGTATTCTCTATACGCTTCCTCATTTTCCTTATTTCTTAGCTTTATAATGATAATAAATTCCCTAATTTTCCAGCAAAGATATCTATTTTTTCATGGATATTCTGCTATACCTACAGTAACTGGAACTTTTTACATACTTTTCCCATATAAAACTTACTTTTCTATACCTTTTTACCTTATTTTCGTAGCTATAGCAATTTCTACATTAAATTCAGTAAAGAGAGCTAGATGGATTCCATATAACAGGCTTACATTATTAGAAAAAATAAATTCTGACATTAATAATAAGGGTATAATAACTACTTTTTCTGAATGGTTTGAGAAATTTGGTATATCTTATGCAAGTGAAAGCAATCTATTAAAAACTAAAGATTTGGTTCTCTCTACTGAAGATAAGAAGAGAAATTTATCTGTATTTTTCCCAAGTGGAGAGACAATAGTCTTCGGTAAGAAATACGTTCTTTATATTACAAAGGAAGGCGAAACAAAATATTTGAACATTAATGATGGAATTAAATTGGCTATAGCTAAAGCAATAGAAAGAGCAGATGTAGAAAAAACCCAGATAAAAGAGGAAAAAACATATTTATGAAACAACTAATTTTGAAAGGTGCAAATAATAAAAGTGTCGAGCATTAAGGGAGGAGTAGGAAAATCTACAATCTCAGCTTATCTATCAAAATATCTTAGTAAAAGACATAAGGTATTATTAATTGATGCAGATCTCATAAAGTATTCAGGCTATATAGTAAAGGTCTTTGAAGGATTCTGGAGATTGAAAAGAAATTTAACAGTTTATGAGATCGAGGAGAATGATAACATTGAAAAAATTCTGAAAAATAATTATGAATATGCGGTAGTAGATTGTCCACCTTTTCCAGAAATTATTTGCAATAAAATAGATAGTAATATAGACATCTATGTAAGTGATATAACTTCATTAGATTTACTATTACAATATGTAACAAATAAAAAAATAAAAATTCTTGTCATTAATATGGTACCTCCTTTTCCAGAAGATCTTGAACAAATATCAGAAAAAATAAAAAATCTGGACTTCAATCTTAAAGTTGTTATTCCTTTTATACCTAAGATCTTTATGAGCAAATTTAGAGATATAGAAAATAGCGAAATAGAAATAATAGAAAAAATGTCTAATAGAATAGAAAAAAACAGTTTTAATGGAGAAGTAATTTCACCATTAAGCTAGGTATTTGTCTTTTAGATATTCCACAAAATAAGAAGGATTATAATCCTCATTGAATGCTCTATTAAGTAAAACCTTAGGTGAATATATTGAACCATAGTAACATATCTTATTTTTTAGAAAATCTCTAACACTATCAAAATCTCTTTCTTTTATCTTCTCCTTTAAAGTAGGGAAATTATGATATAACATTCCTGCAACAACGTTTCCTAAAGTATATGTAGGGAAATAACCAAAAGACGCTTGTGACCAATGTATATCTTGTAATGAACCTTCTGCGTCGTTCTTTGGCTGAATTCCTAAATATTTCTCCATAAACTCGTTCCATATTGAAGGTATATCCTTAACATCAATTTCTCCAGCTATCAGCCTTTTTTCTATTTCATACCTTAAAGCAATATGAAAATTATATGTAACTTCATCAGCGTCTACTCTGATCAAACTAGGTCTTACTACATTGAAATATTTATAAATATCTTCCGAATCATATTTTTCCAAAAACTGAAGATTACTCTTCAAAATCGGATATATTACTGATACAAATTCTCTACTTCTACCTATTATATTTTCCCAAAATCTTGATTGCGATTCATGTATTCCAGAAGAAACCCCGCCCCCTACTGGAGTCATATCCAACGACTTATCTATTAATAGTTCATACATGGCATGTCCGCTTTCATGAATCACAGAAAACATAGTCTCCTTGAAATCTTTACCTTCATATCTTGTAGTTATCCTAACATCATCAGCAGAAATTTTAACTGTAAATGGATGAGGAGAGATATCAAGTCTAAATCTAGTTAACGGCATTCCTAGCAGTTTGATGATTTCTTCGTTTACTTTTTTCATTTCGTCTACATTATATTCTACATCTTCTAATTCATGTTTCTTAGGAAATTTATCATCATTCATAATTTTATCTAAGATCTGTTTTAGCTCTGGAAGAAGATATGAAAAAATCTTATCAGCGTCACTAACTGTAAAGCCCTCTTCATATAGATCCAATAACGCATTATATGGATGACCTTCATATCCCAGTTTTTCTGCTATTTTTCTTTCTAATTCCACTATTTTCGTTAAGTATGGCTCAAATTTGAGAAAATTGTTTTCTTTTCTAGCTTGTCTCCACACAATTTCGGCTTCTGAAGTTAGTCTGTTTAGCTCTTCATCTATTTCTTTAGGAACAGCTAAAAAATATTTTATTTCTCTACTTAAAACTCTTTTAACTCCTTTACCAAAATCGTCAAGATCTTCGTCTCTTAGCTTTTCTACGTTTTCCTTAAGCTGCATTATCTTTTCTCTACGTAGTGTAGAAAGTTGAGCAAAGACCTCTCCTCTTGCTTTTGCTCCTTCTTGCGGCATGTATGTTTCTAAATCCCATCCTAAAAGACTTATGGCATAAGAAATACTCCAGGCTTTTCTATATTCGTTTAGAATCTCTTGCATAAACATACTTAAAATGAATGGTTATAATATTAGCTTCTAAAATTCTCATTATGAAGATTAAGTGAAAATGTAATTCATTAGATGGATATGCCATCAAATATGCGCTTAGTGTTCTCATCTGGAATTCCGTTCCACTTGTCTAGAAATATTACTGATGAAAGAGGCAATCGCTTATTCCAGCCTTTTTCTTCTAGCTCAGGCTTCTCTGGAAAATCTGTAACATAACCTAAATCTAAATAGGCTATAAGTTCTACATTAGATGGTATACCTAGAAGTGTTTTTATTACATTCTTGTCCATAAAGCTTACCCAGCCGACACCAATATTTTCAGCTCTAGCAGCTAGCCATAGATTTTCTATTGCTAATACAGTACTGTAAATACAAGTTTCTGGTTGAGTTATTCTGCCTAAAACGTTTGGGCCACACTTATTAAGATCACATGTAACAGCAATGTTTATCGGAGTATCTAAAATTCCTTCTATTTTTATGTTATCAAATAAGTTTCTTTTTTCATTATCAAGTATTTTCCTATATCTTTCTCTTTGTCTTACAACTTCTTCTTTCACCTTTTTTCGCAACTCATAATCTTTTATTATAATAAAATTCCAAGGTTGAGAAAAACCAACCGATGGTGCCAAATGAGCCGCAAATAAAATTCTACCTAATACGTCTAATGGAATTGGGTCTTTTTTAAAATAACTTCTTATATCTCTTCTACTTTTTATAGCGGTATATAATTCCATGGATAAGATATCCATATAAAAAGAAATTAATTTTTCTATAGTATCAATGATTAATTTTTTCAATTTTACTAATAGTAAGTAAATTAATTCCAATAAAAATGATTTATAGTTCATTTAATATCCAAAAATACTAAAAGCGTATTAATAATTATTTTATATAACAATTAGTTAAGGACTAGATCCAATATACTCTTCAATTACTTATAGAGCGATTGAAGTTATAACATGACCAATGAAAACAAAAAGTAAATTAATCCATTATTTTCACTTTCTCTATGGAAACTGCAGTTGTGGTGGTTATTGGAATAGATAAACCTGGTATAGTGGCCGGAATTTCGAGTAAATTGGCCGAAAATAACATTAATATTATAGATATTTCTCAAACAGTTCTAAGAGGAGTTTTTTCAATGATTATGATAGTAGATATTTCTAAAAGTAAAGTAAATATAGGAAAGTTAAGGGAAGAATTAGAAGCTAAGGGAAAGGAACTAGGAGTCGACGTTCTTGTTTACCATGGAGAAGTTTTCCAATATATGGAGAGGATATAAATGAGGTATGATGCTGAAGAAATTGTTGAAGTTATAAGAATGCTTAATGAGCAGGACTTAGATATAAGATCAGTTACTCTTAGTATTAATACTCTATTTGCTATCTCAGATTCTGAAAATAAGGTATTCGATAAAATTAGAAATATAGAAAATATAATAAAAAGATTTGTTTCTGCAGTAAATAAAACTGAAGAAAAGTACGGCATACGAATAGTAACTAAGAGAGTTGCAATATCGCCCTTGCAATACTTTTTAGAAGTCGTTCCTAAAGAAGATTTTGCAATAGAGTTAGCAAAAATACTAGATAGTATTGCTGAAAAAAACTCTGTTGATTATATTAGTGGATTTTCTGCTCATGCTGAAAGAGGACTTAGTTTAGGAAGTAGAGTATTAATGGAGTCCTTATCTTCTGCTTTAAACTCTACAAAAAGAATAACAGGTATGATAAATGCCGCATCAACGTCTGCTGGATTAAATACTGATGCTGTAAAATTATTTACAGATAAAATTTTTGAAATGAGTCCAGAGGCTTCGTCAAGAGTATCGATAATGGCTAATTCTCCTCCAGATTCTCCATTTGTGCCTTCTGCACATCATGGAGAAGGAATGCCAGACGTTATGATAAACATAGCGATAAGTGGACCAGGAGTAATAGAGAATGCTATCAAAACATCTAATCCAAAAAATTTTGTTGAGCTCTATGAGATAATTAAAAAGTCATCCTTTAAAATAACTAGACTTGGAGAGTTAATAGGTAAAAGTGTATCAAAGGAAATTAATGCGCAATTTGGTTCTGTGGATCTTTCAATAGCACCTTCTCCTAAGATTGGAGACAGTGTAGCTGGAATAATAGAATCTATGGGAATAGGAAAAATAGGTGGACATGGTTCAGTGGCAGCTATGGCTTTGCTAATGGATGCAGTAAAAAAAGGAGGAGCTATGGGTACTTCTTCAGTAGGTGGCTTAAGTAGTGCTTTTATTCCAGTAAGTGAGGACTCAATAATGGCTGAAAGAGCATTAGACGGTTCAATAGATTTCTTTACGCTATTATCAATGTCTGCAGTATGTAATTCTGGTATAGATATGGTTGGAATAAGTAAATCACAAGGGAAAGATAAAGTAATAGGATTAATTCTTGATGTGTTATCAATGGGAATAGTTTTGAATAAAATCTTAGGAGTAAGAATTATTCCAGTAGATCAAAAACCTGGAGAGTATATAGATCTTGGTGGGCTCTTAGGCAAGGTTGTTGTCATGAAACTTAAGGATATTAATGTAGAAAGATTCTCAAATATGAAAGGATTTATTCCTAATACGATCAAGAGATTGGAAATGGGCTAGTTTAAGTATAAATAATACACACTTAACATGTCACCATAATAGACTTGAAGTTCCACTTGAGTATAATTAGGAATATCAAATATAGGGAAAGGCGACTTCAGCTCTATTATTTCCCACTTTCCTTCATAAAGTGGTTTTGCCGTATAATTCCATATATAGCCATTAGCAGTTATCATGACCTTATTAATAAATAGCCTAAATTGAGGATAGACAAAAGTTGGTAAATTGCCATTTGATGGATCATAACTTACATTCAAAATTATTTCTGAGTTACTAAATTTAATGACATTAACATGGAAATCATCAGTGTATCCTACGTAATTATAATGATATAACATACCAAGGGAAAATAGTATAATTAATGTTGCTACAATAATAGTTTTGCTATTGATAATATGATTTCTTATAGAATTGAATTTTATTTCTTTTATATCACTTTCTTGCGCAAAACCTAACCAAGACCAATACATTATATAATTCCATAATACCCTATATTCTAAGAGGAAAATAAAATAAGGAAAAGAGCTCCATCTATTCCTAAATTTAGGATAAGTTACAATAAATAAAATTATTTCTGAAATAGCTATTATTATCATAGATATGGTAAAGAAATTTCTCTCTATATAAAACATGCCGTTAAATGAAAATATAGATGGCCCAAAACCAATTCCTATTAACGGCGACGTTATTGGGGATAATACTGCAGAAAAATATAGGCTAGGGGATAATAGTATAAAATAACCATTAGTTATCATAAAAGATAAAATTCCATATAATATAAAATTTTTAATATTTCTTTTTTCCTTATATAAATAAATTAAATAAAATGGCAGTAACGCTAAGGGAGTCTGCTTATATGAGACTGCTAGCCCATAAAATATACCTTTTAGTCTCTCGCTATTCACAAATAGAGATAAAGAAACAAAAAATACCCAAACTATATCGTCAATTCCACCTGCAGGATAGTTAAGATTGTTAATATTTACCATTATGCCTGGAATTAATGCATTAAAAATAGGTAGCATTTTTTTTCTTTTTAAAAAAACATAATATACAAATACTGTCATAAAATAGAAAAATACTAAAGTATATGTAGGAGAAAATCTAAAAAATCTTGCTGGTATTTCAAAAAGAAAGGAAAGAGATGGATACCCTAGCCATGTTACATATCCGCCAGTAGTTAATGGAGTACCAAAAAAATAAGGGCTAAAATCTCGTATAACTTGATAGAGATTAGAAGTCGTAATAGGATTATACGGATTATGTCCACTTAAAAAAACTCCAGCCGATAAATAATCTATAGCTAACTCGTCTGTACCAAATCTAGCAGGTCTTAAAAATAACATATTGAAAACGAAAAACACTAGAAGAATTGCCTCTGATAAGTAATTAAGTAAATATCCTAATAATAATAACCCATAATAGATAATAAACAAAATCACTTCCAAAGATAAACTTAATCCAAGATTAAGTCCACCATATTCTACATAAACAAAAGGAATAACTATGTATTCCGCTATTATTATCCAATAGAAATATTTACTTATATTATATAAATTACTTATAAATAGAAATGTTCCAGATAATAGTAGTAAAAATATATTAATAGAGATATATACTAAATTAAGATAATTAGGATTAGAAAAGAATAGCATATCTAGTGCTAAAAGTACTTGCGAGATATTAAGAGACAGTAATCTTCCCTTATCCACATTAATAGGGACATTACGTAATAGTTATAAGATTATTCATAATCAATTTTTCTTATCTAATATGCTAAATTATGGAAATTAATCTTCTACTTCTTTAAGCCCTAAGGACGAAGATTCCTTCAACACTACGATAAACGTATAATCTAGAAATAGGATTGTATTTAGGAAATACTAGTACGATAATAATGGCTAATATTAAATAGTATGATTCTCGAACCAGATTACATAATAGTAGGTAAATTTTTTTCTTTAGTTCTATACATTTTATCTTAGGTTGAGTATTAACTGTAGATCTGATAGTTGCAAGAAAGTCTTTAAATATCTCTCTAGAAAAGAGGGTACTTTAGAAATAATAGATCAGGCTCCAAAAGCATATCCAGGATTTAAGTCTTATATAAGAAAAATAATTAAAAAAGAGGAGCTCTTATTTAAGGATATAGTTCTAGGCGAGGATATAGTATCCGCAATGGAAAGCGGATATAAAAATGCACTAATGGGATTTTTAAGATCTGCTGAAGAAAGTAATAGATTTATAATAGAACGTGCTTGTCTTACAGTATTCGTTTCTGCTACTACACCAAAGTATATAGATCTTCTTAGAAAAAAGAAATGGCATACTCTTGTTGATCTAGGTTATATTATTAGAGCAGAAAGTGAAGGAACAGGTAGAATGAAAAAGTTTGCAAACAGAAAAGTAAAGCTAGATCAATGGTCTGTATATTTAATGGGGAAACCTTTTTGTAAAAAACACGTCAAAATCCTTGAATATTCCATTCCAGTTGAAGATTTAGAGGAAAAACTTAAAATGAGAATTGATGCTAGATGTAGCTTATGCCATAAACCTGCTGATTATTTCACATTAGCTATGCCTAAGGCTAGTGCCCTTATAGGTCTTGCTGGATACATTAAAGGAAAAGATGTTACAACATTAATGAAAACATACGCAAATATCTCTAGAATATTGCATCCTTATGGATTTAACGATATAAATAAGGATAAAGTATTTACTATCTGGGCTAGAGATTTTTTAACTGTTATTACGGAGATTAATGATCTCCTTAACCTTGTCGACGGAAGCAGAAGCAGCAGTGACGACGGGAATCCTACCATTAAGTCTATCAAGAATAGGAAGGGTAGATAATATAGTACATGCTATATATATTGCATCAGCAGATGATTCTTGGGCAACCTTAGTAGCATCAATAACTAGTTGATGAGGAGTAGATGCTATAGCTGGACCGCCTGTCCTACCTAACGCGATTGATCCTACTACTTTGAATCCTAAGCCATAAAGCCATTTAATTTCGTAATCATGGCGTCTTTGATTATAAGGAGTTATAACGTATAAATTATTAGCCTTTAAGTCTTTCAATTTCTGAACTATAGCCTCTGTTGATATTATTACCGGTTTAGAGAAGAAATTCTTAAGCCTTTTCATTCCATCACTATAGAACACACCATATGAACGAGCGTAGATTATTGCATCTCCTTTTTCTGCTTCCTTCTTTATTTTAGATAATTCATTATACATTCTCTGCATTTCGTCCCTGGAGTTCCCATGTCCTGGGTAATATTTCATATAAAATACATTAACTTGATCAAATACTAGTTTTATGTCTTTGGGTAATACAGGATTCTCCTCTGATACTATTAAGGATATCATACAAAACGATCTAGCTTTGCCGAAAATAATTTTTTCTATAATATTTCTTTAACTATATTAAAACATAGATATCTATCTTATAAGAGAAAAATTGATCTATATTGTAAATATTTTTATGCATCTCCTTGAATTACCCTTACTTTTACTCTATATCCTTTTCCTTCTTTAGTCATTTCGTACTCTAACGTGAAACCACTACATTTTCTTTTAACTATTATTTTATTTTCTGAAAAAGAATACACTGGAGAGCTACAATTCTCATAGAATGGTCTTAATCTATCTTCTATTTCGTCCTGATCTTTGGCATAAAATTCCATATTTAATGAATTTTCGTTATAATACGAATATACCATATGTCTAGAAACTAAAAACGCTACAAACGCGCTTATACCTATCCCAACTATAGAAAGAATTATGGACAAAAATTGTAAAAGATCGCCTAATAGAGGTACAAACAGAAATTTTACTGCAAGAAAAATATATACAGTGGACGCTATTGCAGAGGAAATTATCGATGATATTATTGATGAATATAGTTTTCTTTCAAGAAAAGAATTAGCTAAGCCAACTATTATGGGACCGAGTATAGGTAGCCACCATATAGCCAACGCTAATGGTATGGAATATTTTAGAGATCTCACTAGAAAAAACTCTATCTTAAAAATAAAAAGTATTTCGTTTTCATTATTTTCCTAGCTTGTCTAGTAATTCTTTTGGCGCGTCTTTTTCGCTTACTGCTCCTCTACCAGTTTTTCCGTTATCGTCGTATGTGAATGATACCATTTTCCCTACTTTCCATACTTTCTTTACTTTTGATATGTCTACTTCCTTCTCTTCTCCCTTATACTTGAATTTTACAGTAGTCATATGAGTATGCTTTGCGTCATTAGTTAAAAACATTTCGGCGATAAAGGAAATATTACCATAAGGTTACCTTATGTTTTTCCCTAAATACCGTTAATTTAATCTTATATTATACATAAAATATTCAAAATATTTGTTAATTGGTATTTTTTTCTTAAATATATATACATAAAAGTTTATATACTTTTTATAAAATCTTTTTATACTTCTTAGTATGCTTTAAATTTATGAAATTAGGTTATGAGATTTACAATGTGATTAGAGATTTTACAGATAGAATTTATGGAAATCCTGGCACAACTGAACTATCGTTTTTAAAATACCTTCCAGATGATTTTAACTATTATCTAGCATTAGCTGATGGTATTGCAGTTGGAATGGCGGAAGGATATTATCTTAAGACTGATAATCTAGCCATAGTAAATTTGCATGCCGCTCCTGGTCTTTCTAATGCTGCTGGATTTATACATACTGCTTTCATGGATAGGGTACCAATGCTAATAATAGACGGCGAACAAAGTTCTAAGTATATAGTAGATGAGCCAAGACTCTATGGAGACTTAAAGAACTTACCTTCAGTTAAAGGTTTCTTTGAAATTAAAAATTCTCACGAAGGTCTCAAAATAATTAATAAAGCTATAAGACTTTCCCTTACTCCACCGTATGGACCTACTGTGGTCTCTATACCACAAGATCTAGTAGACGAGGAGGTTAAGTCTATTAAGTTAAATAAATTCAGTGTTAATCAAAACTGTAGTGAATGTACACTAAATTATGTAACAGAAAAGATCAATTCATCAGAAAAAGTTGCCATAGTAGCAGGTTATGAGATAGATGTATTTAATGCCCATGAAGAATTACAAAAATTCGCGGAAAAAATAGGAGCGCCTATATATGCTGAGCCGTTTGCCTCAAGAGCTCCGGCCCTTCATATTGATGGAACTCTACCCAGATATGCTAGTCAAATTAATAAGATTCTTGAGAATTACGATCTGGTTTTAGTTATAGGAGGAAGTCTAAATAATGTTTTATTTCCAGATGAAGAAATTATAGGAAATATAATTGAAATAACGTATGATAGTCTTGAGGCATCAAAGAGAATATGGGATTGTTTTGTATGTAACCCGAAAAGCTTTCTAATAAATATTTTTAATGGAGTCAAACAAAAAAATAAAAAATCACCATTAATATCCATACCAAATGGTAAAAATAAAGAGATTGAAGAAGCTATCAAAACACTATCACTAAATCTTAAAGGATACACAATATTTGAGGAGGCTCCTTCATATAGAGAAACTATTAGGGAAATAATGGGATACAATAAAAGATCATTTTTTGCTAATAGAGCAGGGTTCATAGGCTGGGCTATACCAGCCTCTTTTGGATATTCATCGGCTAAAGGAAAAGCATTCGCCATAGTAGGAGATGGGAGTTTTAACTATAGTTTTCAAGGACTATGGAGTGCAACTAAATATGGAGGAAAAATGAAAGTTCTGGTAATAAATAATGGTGGATATAGATCACTAAAAGGATGGGCAAATTACAATAAGGACTTCCTCTCTCCTGCCACGGATCCTTGGAAATTGGCAAGTTCGTATAATTTTGAATCGAAAGAATTTGATAATCAAACAGAAGCCATTAAATGGCTTATGGAAGACGATTCCCAGAAATTAGCAGAAATAAGAATATGAAAATATCTTACTAAATATAATAATTGAAGTAAAAGAAACGTTTTTATTTAACCCATCATTATCATTTAGTTGTGAATACATTAGAACAACTTATGGAAGAATTCGGATTTACAGATGACGAGATATCTTATGCCCTTGATAAGGCTAAAGGAATAATTTTAGGCTTTGCAATGGAGTATAGAGCTAGGCAGGTTTTGGAGAGTATGAATTTTATTAATGTGAAATCTGTAGATCTCCCTACGCACGATATTGAGGCAGAAAAAGACGGAAGAAGATATTTCATAGAAGTTAAAGCTACAAAAAAATCTCCTACCAAAGAATATAGCGCGTATAAAATTGCTATGATAGCGAAGTTAGGCGGAACTCATTTGACACTTTTAATGACACCAAAACCAACTTTGTATCTAACTGAAGATATATTAAGTGAACCAAAAAGAATTCTCCTTAAATTCTTCAGATTAATATTTGCAGAAGATCTAGTAGATCTAAAAGATTTCTTAGATAATGATAAAAATAGAAAGATAGTTACATCATATGAGAAAGTAATATCGTCATATTTAGATAAAATACCTAATGAAAATTTACTTGATATTGTTAAGTCTGTTTTTTGAGAAATATCTCACTAACTCTTCTTCTGCTTTATCTAGATATTTGTAAACAGTATTATGTTCCCTCCCTTCTATAAGCATATCTATTGCTTTACGCGCTATAGACAATTGATCATATGTACCTATCATCGCAACATAATGATCATAAATAGAAATTATAACTGAAGTGTATTCTTGAATAATTCTCTTGGCCTTACCAGCTTCTCCTATAATTCTTCCTTTTACTCGTCTTATTAAGTCTGGATTACTCCCTAAACTTATTTTTAAATCTATTACGTCTAACTGATATTCGTCACTCATTAATCTTAATGCGTCGTCTATAGAAAAACCTAAACCTAAAGCTTTTATTACTGAAACTACCTTTAGTGCTTCATAAGAATTTTGAGTTTTCGGATCTATTTCGAAAAATTTATTTTTATCATCATAATGTATTTCAACTCCAGATATTTCTTGAAGCCTAGGAATAAGTGATTTTACTTCATTTAACTTCTCGTCAGAGACAGTTACGAACATTATTCTTCACGATTAGGTATCTCAAGCGTCTTTAAAATTTCTTCAGTATCAATAATAGATAAACCTTTCGACTCAAAAAATCTGTTTACATTATTTATATCTCTAATTAGAAAATCCATAGCATTTTCATGGTCTATAGGAACTGATTGACTAACGTCTATAATATATACTCCATCGTAAACCATTATATTATATTCGCTTAAATCACCGTGAACTAATTTTGCTTTATTTACCATGAGTTGCAATTGTGAAATAATGTCACTATATAGGTTATTATCTATTTCTTCGTCTGGAAGCTCTTTAAGTAAAGGAGCTCTAACACCATTTTCGCCAATAAACTGCATAACCAATATATTCTCATAGACATAAATTGGTTCTGGAACTCTTACTCCGGCTTCATGCATTCTTTTTAGATTCTTGAATTCCTTCCTTGCCCACGTATATATTAATTGTCTAGTATTGGATATCTTAATTTTCTCGAAACGCTGATCACCTAGGGTATATCTCTCCACGGCTCTCTTATGAGATGCCGTCGAAACATAATAGATTTTTACTGCATAATATTTTCCATCATATGTACGAGCTGGATAAATTTTAGCCTCTTTACCAGAAGAAATAGATCCCAAATATGTTTCTATATCTAGTCTGCTTGCAATATTTTCTAAATTAACGTAAGTCTTGGGATCTAAAGTAGAATCAACTACTTTAAAAAGATCCTCATCTTTTCTTCTTTTCTCAATTTTTCTTTTTTCCAAAATATTAGCCTCTTAATTGATCTATAATATCTCTTGAAACAATGTTTTCTTCTGTAAGCTTTCTTATTTCATCATGCATATATTTATGTATAATATCACACTTATCCGATTGAAAATCCCAAGGTGCAGTAAGTACTACATCTCCTTCTTTTATCCACACTTTTTTCCTCATTCGCCCAGGTATTCTAGCTACTCTTTGCTTGCCATCAACACATGCAACTATAATATGCTCAGCCCCAAGCATTTTCTTTACAACGCATATAACCTCTCCTTCTTCTGGTTTCATAACCTCTCTTGTAGGAGCTTCCGATCTATCTTTTTTTGGCAATTAATTGACCACCATTTGTATTAGAGATTTCTATGCATAAAAACTTAAGCTTACTTTAGTGGTTTTAATAATTCTATAGCAATAGCAGTTGAGCCTCCTACACCGTGACAAATACTTGCTATACCTCTTCTACCATCCATTTTAGATAAGACATTTATTAATGTTGTTATTATTCTCGCTCCACTAGCTCCTATTGGATGACCTAATGCTATTGCACCTCCAAATACGTTAAGCTTATCATAAGGAATACCTAGATATTTATTAGCTAAGACACTGTTAACTGCAAACGCTTCATTATTTTCAAAGTAATCAAAGTTCGTAATTTCCATATTTATTTTTTTCAATAATTTTTTCACAGCAAAGATTGGAGCTTCAGTAAAACGCCAGCTTTCAATACCTACCCAAGAATAGCCCAAGATTTTAGCTATAGGCTCAACGCCTAATTCCTTTACTGCTTTCTCACTCATTAAAACTAAGGAAGAAGCACCATCAGATAGCTGAGAAGAATTACCTGCAGTATGAAATCCATCATCGCTAAATGCTGGTTTTAATTGAGATAATTTTTCAATAGAAGTATCAGCTCTTATTCCTTCATCTCTATTAATTTTTTTGCCTTTAACCTCTATTGGTACTATTTCTGAATTAAACAAACCTTTTTCTGTAGCTTCAGCTGCACGTCTATTACTTTCATACGCTACTTCGTCTAGCTCTTTTCTTGTAAAATCATGTGCCTTAGCTACCATATCTGCCTCCTTACCCATAAGCATCGTATTGAAAGGATCCGTTAAGCCGTCTACTAACATAGTATCTACAAATTCTAATGATTTACCTAGAAGATATTTCACTCCCCATCTAGATTCGGATTTGAGTGCTAACGCTGCTTGGCTCATACTTTCCATCCCGCCTGCAACAATGACATTAGCATCTCCGCTCTTTATCATTTGAGACGCGTTTATTACACTCATCATGCCAGAAGAACAAACCATATCTAAAGAATATCCATCAACATCGTATGGAATTCCAGCTTTTATTGCAGCTTGCCTAGCTAAATCTTGACCATGACCTGCCCTTAAAATATTACCCATTATACTGATATCGACTAACTTTGGATCCAAATTTACTTTTTCCATAGCTGATTTCATTGCAGTAGCTCCAAGATCTACTGGGCTTACGTCTTTAAACTGTCCTCCAAATTTTCCTATCGGCGTTCTAACTGCCGAAACTATGTAAACATCTTCCATAGATAATAGTAATACATCATACTTTTTAAATTTTTTAAACAATATCTCCTCTCAAATCATAAAATGAAAAGTTATTTATCCTAACATTGTACCACTTGCCTATCTCTGCATTCTGCACTATAACAGGAATATAATTTATCGTTCTGCCTATTTTCGAATTATCTTTACCATTCTCGGTAATAATAACTTTAGAGACTTTACCTAAATATTCTGAATGATTTTCCCGAGCTATTTCCTCATATAGGGAATTAATGATTTTCATCCTTTCAGTTTTAACACTATCCGGAATTTGCTGCATTAATGAGCTCTTTGTATTAGGACGTAATGAGTAAATAGCAATATGTAATTTCTCGAACCTTATTTCCTTAATTAGATCTAATGTATTTTTAAACGCATTTTCGTCTTCTCCAGGATGACCAACTATTATATCAGTAGTTATATTAGCATTCGGTATTTTTTTCCTAATTTCCTTAACTAAGTTCCTATACTCATCAACAGTATACTTTCTATTCATTATTTTCAATACATTATCATCTCCGCTTTGTACTGGTAAATGGAAAAATTTGTATACTTTAGGATCTTTGAATGTATCTATCAAATCATCTATGTTTCTCATAGCTTGTTCCGGCGTCATCATACCTATTCTTAACATGAAATTTCCATCTACCTTAGAGGCCTCTCTAATAACATCCGATAGCTTTACTTTTCCGCCATAATCTAGACCATATGCAGCAGCGTCTTGTCCAGTGAGCTCTATTTCCACTGCACCTTTACTAACAAGATCTTTTATAGTATCAATTATAGCTCTTAATGGATAACTTCTTAATTTTTTCCTAGCAAGCTTCGTTATGCAAAAATTACAATCTCCTGCACATCCGTCTGCAATAGGGATTATCCCAATTTTATTCATAAAAATTCTAGGAGTATGATTTGGTGCATCAGATTCAAGAAATATAACTCTATTTTTAGCTTCAGTAGCATCTATAATTTTGCCTAAAGCTTGCGGACCTATTATAGATGCGTTAGGAGCTATTTTGCTAACTACTCCTGGTTCTGCTCCAGCAAAACAACCGGCTACAATTAATTTTTTACCTAGTTTATTTAATTGGGTTATTCTTTTTTTCATTCTTTCTCCAGTCTCTAGTCTTACATCGCAAGTGTTTAGAACTAGCACGTCAGCATCTTTTGGTGAACTAACTATTTCATGATTTTTATCTTTTAATAACGTCATCATTATATATGTATCTCCTTTATTTAATGCACAACCGTAAGTTTCTATGTATACCTTCATTTTCACCACATATTTTAACCCCGATCTTAATAGATTTAATGTAGAAAAATGTCTTCAGACAAAGAGTATACATATTTGCTTGATAGAGTTTACACAAAGATACCTAAGAAAACTTCAGAGTCTACACAAAATTTACCGTCTTTAATAATATTGAATATAGGAAACACTACTATAATAAGAAACTTTAGTGAATACTGTGATAGATTACGTAGAGAAGATAAATTATGCATGAGGTACTTACTTAAAGAGTTAGCTGCCGCAGGCTCTATAAGCGATAATGGCCAATTAGTTATACAAGGTAAGTTCTCATCTTCAATAATAAACACACTGATGGAAAGATTCATAAGAACCTATGTGCAGTGCAGTACATGTAAGAGCTTAGATACTGTACTAGTAAAAGAGAATAAAGTATGGTTCATACAATGTTTGGCTTGTGGAGCTAAAACTTCTGTTAAACCTTTGTGAGAAAAATGAAAGTAATACTAAATATAATTAGAGGAGAAGGCAACGTTTTTGTTAATATATGTGAAAAAGATTTGCTAGGAAAAGAATTTAGAGAGAATGAAGTAATACTAAATATAAATAAGGAATTTTATGAAGGTGATGAAGTAGATATGGAATATGCTTTTTCACTAGTGGATGAAGCTACTGTAGTTAGCATAGTAGGGAATATACTAGTTGATGAAGCTATAAAGAGAGGATTTGTCCATAAAGATTCAGTATTAGAAGTTTCAGGAGTTAAGTTTGCACAAGTATATAATTTGTGACTACCATGCCGTCTAAATTTTGTGTCCGATGCGGAAAAGAAAACGTAAAGCTCATTGATAGATTATGTATTGATTGCTATATTAAAACAAAAAAGCTTATCCTTCTGCCGAAGGAAATTAACGGCAAAGTTTGTAAGATATGTTATGCAGAATTTCTAGATGGAAAATGGGAAAATATTCATGACAATTTACAAGATTCCGTGAAAGATTTGGCACTAAGAGAAATTTCAAAGAAAATTAGTATTGATAAAAATGTATTAGATTACTCAATAGATTTAGGAGATATATGGAAGGATAGTAATGGAAAAGAACATGTAAAAATAATAGCTAATGGAAAAATAGATAATGAAAAGTTTACAATAAGTGAAGATATTAATATTAACATAGACTATACTATATGCGATGCTTGTAAAAAAAGAAAATCCAAATATTACGAGGCTATAATACAACTTAGAGGAAAGAATGGAAAGTTTTTACTCGAAAAGAGACGCTTATTCGAATCGTTCTTTTCTGAAGAAGAAATATCGAATTTATCTGATATAATAGAAGGAAAAGAGGGAGTAGATTATTATTTTATTAAAAAATCAGTTGCTAAAAAATTAGTATCGTCAGTAGCGTCTATGACAGATGCACAAATAAATGAAAGTTTTCAAGATGAGACAACAAAAAAAGGTAAAAGACTGGCTAAACTAGTAATCTCACTAAGATTATGAGATTAGGAATAGATGAGGCTGGAAGAGGTCCAGTTATTGGACCTATGATAGTAGCAGGTGTATTGATAGACGAAAATGAGGCTAAAATATTGAAAAATTACGGAGTTAAAGATAGTAAGAAATTAAGTAGAAAACAGAGAGAAAATCTAATAAATATCATTACAGAATTTAGCGAATCTTTTGTTGTAACTAAAGTATGGCCTGAGGAAATAGATATTAGAAATTTAAATTGTATAACATATGAAAAAGTTATACAGATAATAGATGCTATGTCAGTGTTTAAACCAGAAATAATTACAGTCGATAAAGTAGGAAAGGAAGAAATAGTGATAGAACAAATAAAACAGCTAGGATCAATACCAAACGTAGTTTTTAAGGCTGACGAAAATTATATAGAGTGTAGTGCTGCTAGCATAGTGGCAAAAGTCTTTAGAGATAGGATAATAGACGAGTTAAAAATAACTTATGGCGACTTTGGAAGTGGATATCCATCTGATCCAAAAACTATAGAGTGGATAAAAAAGATCTATTCTGAGAAAAAAGAACCTCCAAATATATTAAGGCGTTCTTGGAAAATCTTACAAAGAGTAGCTCCTGATTTTTACATAGAAAAGAGGTTGAAATAATGGTTACCAATTTACCCGCAGAGGCTAAAGTTAAATGGCTTAGAGTAATGGATGCAAAAACTACTGACGAGAAGATTAAAGCTATACAAGATTTCCTTAGCAGCGTACCTAAACATAAAGGGACCGAAAACTTGGTATATTGGGCACGTAGACGTTTAGCCGAATTAAGAGAAGAGACTGAGAAACAAAAAAGGAAAAAATCAGCTTCAACTTCCTTCTTTATAGAAAAAGAAGGAGCAGGACAAGTCCTAGTCTTAGGTCGAGAAGAGTTAAAAAATAAAATAGTCAGATTATTAACAAATGTGAAGCAAGATCCCAAAGATTTTCCTATCCCTGCAATGACATATTATGAAGATGTTGGAATCCAACTTATAAATCCCCCTCCTTTGATATTAAATTCTAGATTAATAGTTAGTAAAATACTAGGTCTAGTGAGAAATGCCGACGCATTATTAATAATTGTATATGATGAGAATGAATTTATTAGAATAAAAGAATTTCTTGAGTCAAATAATATTATTCTAGGTAAGCCTAAAGGAAAAGTTATAATAGAACGATCAAGAAATAGTAAAGACGGATTAAGAATAATAAATATGGGTAAAATAGTAGGTTCTTCTGAAAATGATATACGAAAATATTTAGAAGATTTTGGAATTAAATCTGCAATAGTTAAGATATTTGGAGAAATAACTCTAGACGATGTAGAAAAATCTCTTTTTGAAGCTATAGCTTACAAACCTACTGTTATCGTAGCTCTTCATAAATTTAACTCTAATTTACCTGTAATAGAATTTTCTGAGCTTAATAAACTCAGTAAAGCACTTTTTGAAAGTTTAGATGTAATTAGAGTCTATACTAAAGAACCAGGAGAAAAACCTACTAGTGATCCATTAATTCTAAAAAAAGGTACAACAGTACTAGAAGTTGCAAGAAAATTACATAGCGCGCTCTCAGAGAATTTCAAATTTGCCAGGGTATGGGGACCATCTGCTAAGTTCCCTGGACAAAAAGTAGGAGGAGAGCATATATTAGAAGATAAAGATATATTAGAAATTAAAGCTAAGTAAGATATCACTTATACCCTTACTATTCATTTAGTCATTATCTAGTAGTTATACTTAAGAAATTAATTCCATTTCACATATATTATTAGTTATCAAATACATATGGACAATCATAAAATATAATAGAATCTTATAACTCATACAAAGTTTTCATAAGCAGATTAGTTGTATCTGAGAGATCTCTGAAAATATTCAATTAATAGCGTTAAGCAAATAATTTAAACCACAATATGAAAGAGATTTATATGGCAATAAAATTAAAAAGAACATCGAAGTCTAATGTTCAGCATAATTCTAATATCTCCATTCCTTCTATTTTCATGAGTTTTTATAATTGGAACATAGTAGCTAAAATGTCCAAGAACTATGAGAAAAAACTTTTATTAGCAGGCTCAACGGAAGATCCTAGAATATTTGCAGCGAAAATACTTTTCTATACGCTTATTAGCATAGCTCTATCTTTAGTACTTATAATTTTTGGAATAATAATCTTTGTAAAATTTTATCTTCTTTTTAGATTAGCTAAGTATATAGTATTATCATTTATGATGATACTATTTGGGATAATTATTCCGCCAATTACCTACCTCTTACTTAGTATTAATGTCTCACAAGCTATAGATTCTAGGAAAAATGGCATTAATAGTGAAACTTTTGCATTTTCTTCTGTTTTTATCATATTCTTAAGATCTGGACTAAGTCCTAGATTACTTTTTGAAAAGTTACCGAAGACTCAAGCTTTCCAATATATTAATCAAATTATGCTCTATACTAATAAAAGAATAAAATACTTAGGTGAAAGTGTAGAAGAAGCTCTAAGAAATACAACTAGGATATCTCCTTCGAAAATATTTAATGATTTCATTCTAACTTATGTTACAGCAATTCGAACAGGAGCTCCAGTAATAGAAACTATGGAATCAAAAGTAAAAGACCTATTGAAAGAATTCGAATTAATTGGATCATTGGCATCAGATAAGCTTCAGGGAGTAGCCGAAGGTTATGTCATTTGGTTATCTTCTGGTTATATAATGTTCTTTCTTGTATTGATCCTGCAAGCTATATTTCCACAATTAGCAGGAAGTATTCCATTACCACTTATAGGAGCTATTGCAATATTCCTTATTCCAGCAGTAAATCTTGTTTTTATTCTAATGGCTGATCAGATTCAATTAAAGTTTCCTGAGAGAAAAATGAATGCGTATAAAACATTCTATATAACTTTTCCAATTGGTATTATCACTATGTTACTAATTCTAGCAGCAGAACATCAACTAACATATCTAATATTTCTCGACGGATCAACATCAAATATACTGCCAGTATCTTTTGCGATAGCTATAGGTCTTATAATTGCTGCAATTCCACCATATGTTATCTCAGAAAAGGAACTACGAGCTGGTTCTGGCTATGATGAATATGTGGCTGGATTCTTAAGATCTATATCGGAAGGGCTACGAGCTGGCTTACCCCCTGAAACCATAATTTATAATATAAAAGATGCTAAGGAAATGGGGAAATTAAAGGAGATACTTAATTCTGTATATGCTTATATAAAGCTAGGATACCCCCTCAAAGATGCTTTTCAAAAAGCATCAGAAAAAATTAATGATTTCACCTCTAAGATAGCATTAGTCTCAATTTCAGACATGATAGATATAGGGAGCATGACGCCGGAAACTATAGAATCCTTGGCAGATGAAATAGATAGCCAAGTAAGAATAAAAAGAGAATATGAAAGTAAGGTTAAAGTACTAATGTTTACTCCTTATATTGGAGTAGTAATAGCACTAATAGCGGCTATATTTCTTGGAATTGCTTTAGTTAAACTAATAGTCTCACAAAATTTCATGTTAGTAGGACCTTTAGCCGATGCATCAATTCTATTACCTAGAGCCGTTTTCATAGCGTCTATATCTTCAATATTTAATTCATTCCTTGCTGGCTTATTAGTAGGTAAGATAGGGTCAGGCAAAGCAGCTACTGGATTTAAACATTCTGTAATTCTAGTAGTATTAACAATTTTAGTTATATTAATATTACTACACGTAAATCTCTCATTTAAACCGCCGTCTTCTAGTGGATTAATATAATTTTTATACGAATTTGGTTTTTATTATGACATAGCTTCTATCTTACTTAGATTTAAAATTTATATAATTTCATATTATTTTTTGAGAGAATTGTAGAATTATCCAATAATATAAACCACAAGCTAATAGCCTACGTACTCAATAGAACTACAATAAGCTTGAATTATCCAAAATAATATAAACCAAACTATTTATAAGGAAGTTTAACGTAACTTTTTCTATGGCAAGTATTCTATCGAAATTTAAGTTTAATGGTAACAAAGCATCCCAGGGCACTATAGAAACTGAGAAAATTCCTGTAAATCTTTTTCCTGTTTCAGCACCAGTAGAAGAAATAACTGAAATAATATCCGATTATGAAATTGCTATCTTAGATTATGTTCCTCCATCAGTCAAAAATAGTTTCAATAAGGTAAATGTAGAACTAAATATAGCTAATCCACATGTTTTCATAACCTATGACCAAGATAAGGGAATATATAAATATGTGCTTATAGAGCCCCCAATAGATCCTTCTGTATTTAACATTTATAAATTTTTTATATCTGAAATAGAGAGAGAATTGTTAGATAAAAAGGAACAAATAGATTTAGGAAAAATAATTGCGGAATCTGCAATAAAGAGAAAGGATCTTGAAATTATACAAGGAACAAGAGGAGATTTACAGTTATTAAGTACTAGAGGAAAAGTTGCTCTATACTACTTATTGAGAAATATGTTTGGATATAATATACTTACTCCATTGTTAGCAGATTTCAAGATTGAAGATATCTCGTGTAGCGGTCTAGATTTACCAGTATACGTTTACCATAGAGATTTTGAATATATACCTACTAATATCACATTTAGAGAGAAAATGAAAGTAATAGATCAAGATATTGATGGAACAGAATTATTAGATGAGATAGTTATGAGATATGTTTCCTTGTCTGGAAAGACTATTTCAATTGCTAATCCTATAGCTGACGGAATTCTGCCTAAAGGAGATAGAATAGCTGCTACTTTTAGGAAAGAAGTTAGCGCTAGAGGATCCTCATTCGTAATTAGAAGGTTCAATGATAGACCAATTACAATCTTAGATCTAATAAACAGCGGAGTATTATCTCCTCAAGCTGCAGCTTACTTATGGTATGCAATAGATCTTAGAATGTCTTTCATGGTCATAGGTGTTACAGGTGCTGGAAAAACTACAATGCTTAATGCAATTCTGAATTTATCTAAAGAATCGATGAAAATAGTTTCTATAGAAGATATTCCAGAGCTAAGGCTAGCTCAAGATAATTGGGTTCAACTATATTCTAGAGAAGTATATGGAACTACTGGTAAAGAAATCTCACTAATGGATTTATTGAAATTATCTTTAAGATATAGACCAGACATGATAGTTGTAGGAGAAATAAGAGGTCAAGAAGCATATGTATTGTTTCAGGCTCTGTCTACTGGCCATGGTGGTGCTACAACATTTCATGCCTATGATACTGATAGTGCATTAAAAAGGTTAATGAATGAACCATTAAATATACCTAAAGAATGGGTTCCTATGATGAATATTGTTGTTAACGTTAGAAGACTTCCTGTTTTTGTAGGAGAAAAGTTAGTATTAAGGAGAAGAGTGGTTGGCATAGATGAAGTAGCTGACTATAATGATTTTAGAAGAGTTGTAAATTGGGACGCTAGATCTGATTTTCATAATTTGGATTTGGACAGTGCAAAAGTTATGAGACTAAGAATTGAGGAAATAGGTAAAGGCCTGGATGAAGTAAAACAAGAAATAGACAAACGTGCACTTTACTTAAAGTTATTAGCGGCATCTAAGGATGTTATTCAAAATCCTGAGAGTTATAGAGAAGTAAAGAAGTACATTATTAAATACTCATTAAGGCCAGACGAAGCATTAAAAGAAGCGATGAGAATAACATCTATAAAAATTACTAATGTATAGTAAAATCGATATTTTAGTTTTTACAATTCAAACATGGTTATCGATAACAAGAACATTATCAAGAAAAATGAATATTTATTCAATAAAATATCAAATATAGAAATGATAAAGAAAATATATCTCAAAATCTCAACAGAATTTGGTGTAAGATTATCACTATGTATCTTAGGGGTAACACGCCAAGAGAACTTAACTCTAAAAAACCCTTGGATAAAACCAATCATCGCCGCAAATACTACTATTATCCCACTTAAATCAGCTTCCTTCGGATTTTTGGATGAATAAATTAATAGCGAAAATCCATAAATAATGATTGAAATAATGAATATATATACATTTATAGAATATGGTAATAAGGATAAAAGTATAATAATGGATAGAAAAAGTGAATATACGCCCCATTGTATTACATAGAGGAATCCTTCTAGTCCCTTAATTCCTTTTTTAATTAATTTTAATCCATCTAAAAATAACTCTCCTGAACCATATGCCCAACGTTTTATCTGCATATATAAATCATAATAATTCAATGGCGAAAGGATAGATATCGATGGCTCATCAAAATAATATATTCGTATATTATTAAGAGCTAATCTTATTCCTAGCTCAAGATCTTCTGTAACAACATTTTCCTTCCATCCGCCTATATTAACTAAAATAGATTTTTTTATAGCAAACGCCGAGCCATTAGGAAATATATATAACCCTCTCATGAACCTACCTCTGAATAATGAAGACATTGAAAAATCAGTGAAATATGAATATATTCTGCCTATACCTTGAGCATTTCTAACTTTCAACCTTAATGAAATTACGTTATATTTTAGTAAATACGATACATGTTTCAAAAAATCTTTATCTACTCTTGCTTCTGCATCAAGAAATACTAAAAAATCTCCACTGCTCAAATTTACTCCAAAATTTAATGCACCTGCTTTTCTCCCTGTTGGCACTTCTCTCCTTACTATCTTAAAATTCTTTGGATATGGAATAGATAAATATTTTTCAAATATTTCCTGTTTGTCATCTGAAACTATTATAACCTCATAATTATCATAATCAAGTTCAGAAAGGTTCCTTATTAAATCTCTAATAGTATCTACTTCCTCGTCTTTTATTGCTATTATTATGGATATTTTTTTATTTCTATCATATCCTATCTCAACAATCTTCTTACTGGAAAAATATAATGCCTGTAAAACAAACCATATAGAAGAAATAATTGATGATAATAGCAAAAGTATACTTAAGAAAAAACTCATTCCTTCATTTTCCTCTCTATTGCCTCTTTTATTTTTTCCTTAGCTACTGATACTGTGCCCCAACCAGAAGTTTTCACCCATTTGCCTGGCTCTAGTTCTTTATAATGGTCAAAGAAATGATTTATTTTATCTTTAATAGATTGAGGAAGATCTTCTATATCTCTGATAGTAGAGAAACTTGGATCTATTTTATCCTTAGGAACGGCTATTATTTTTTCGTCCTCTCCTTCTTCATCTCTCATATATAGCATTCCAATTGGACGAGCTTCTACTACTGTTCCAGGATAAAATGGATAATTACTTATTACTAGTACATCAATTGGGTCTCCATCTTCGCCTAAAGTGCCTGGCACAAATCCATAATTAAATGGATAAAACATCGAAGTATAAAGTATTCTATCTACTTTTACAATTTCTTCTTCATCATCATATTCATATTTAATATTTGATCCCATAGGGATCTCTATAAATACGTTCACACTATCTGGTGCGTTTTTGCCTGGACCAACTTTCATTTAAGATCAATAGTAACTTTGAGTATAAAGATTTATATTTATTCATAGTTTTTTTCTATAATATTATTTACAAAATCCTTAATCTTGATTAATGGCTCAGTAGAAACTAGATAGTTTATTTCATCTAAATAACTATTAGCTATTTCTTGAGCATCGTATCCTAGTTTTATATATCGCTTAGCCTGAAGTACAGTAGATAGTCTATCCGATAATTTAGCTATATTAGATTCTAACGTTTTTTTCTCCTTGAATTCTATAAATAGATCTACTCCTACTCCTAATTCCTTAAAAGCTTCTAGTTCGACATCTCTTTTATTTATTTTTTCAGAAGTCCATTTTGGAAAATCTCCTAGAATACTCTCTCCAACGTCGTGAAAAAGGGCTATTACAGCGGCATGATCAGGGTTAACATTAACTCCTTTGTCTTTTAGTTTAGAAGCTATGGTAAAAGCTAGTATTGCCGCTTCAAAGCTATGCGAAGCTACTGTTTCTCCAATGGAAGGCGGAATACCCTTTTGCATCCAACCTGTTCTTACAAGATTTTTACACGATATAAGAAGTTTTTCTAATTGCATTGTCATAATGATTTGCATATATATCCTAAAGAATTTTCCATCTCTTCTAAGCTATTTGTCCAAAATCTTATCATAGCTTCTTTGCCTTTTGTCCCTTTATCGAATATTACCTTAGGAATATTACCGTAATTCGCAGCTATGTATTCTATTATCCATTGCATTGTCTTATTTTCTCCGTGAGCTGGTTCTAAATCCCTGTTAATTTCTATTACTTCGTATCCTATTTCTTTGAATAAAGAAATTATTTTCTCGTCGTATTTTATATTAATTAATGAGTTAGCATTATATCCTTTAGAAATTATAGAAAAAAGTAATCTAGCAGTGTGTGTAGGATTCCCGAAAACAGCAGGAAATCCTACTTTAACATTATTATTCCATGTCTTAACTATTCTTCCTCTGAAAGTAGCAATATCATCAATGCTATTAACATAATTAGAATCTATAGAATGTGCAAAATTAGACTGAACTTCTGGAATTAACTTCCAAAAGTTTTGCGTATTCACTATAAAATCGCCAAATTTTACCATATCTTCTAGAACCTCATATTTCATTATTTCTTTAAGTAAGAAGAAAGGATCTACTGGTCCTATTCCCTTTCCTATCTCAAGACCATAAGCTATAGATCCTTGTAGTAAATCTCTTGCGATTCTTATGGCATCTACAATATTATTTCCTTTAGCGATCTCTGCAGCTATGGCAGATGCAAAAACAGAACCAGTACCATGTGTATTTTTTTCGCTAATTCTTCTATATCCTATTTCATAAAAATCCTTTCCGTCATATAAAACATCAAAGCTGTAGTCTCCTTTTATATGACCGCCTTTTATTATTACGTATGGTACTCCATATATCTCGTATATTTTTTTAGCTGCAATTTCTTGATCATTTTTACTCTCTATTTTAACTCCCGATAGTATAGAAGCTTCTACTGCATTTGGAGTTAAAACTGTAGTATTTTTAATAATGTATTTTTTATAATCTTCTATATCATTAATTAGCTGAGTACCGTCTTTTGCATAAATAACAGGATCTGTAACTATTTTATATTGACGTAACTTGTCATTAATCACTTTAAATTGAGCCGAATTATATAGCATGCCTAATTTAACTGAATCTACTTTAAAGTCCGACAATAACCAAGAAATTTGAGAATCCAAAAGTTCTGAAGAAATTGGAAAAATTTCCTTAATACCTAGAGTGTTTTGAACTGTTATTGCACTTACTGCTAAGATTCCGTGAACGCCTAATATCTCAAATACCTTAATATCAGTTTCTACACCAGCTCCATTTCCAGTATCTATACCTGCAACACTAAGAGCTACTTGCTTTTTCATTCTTCTTCACTCTAGTATTTCCTGCAACTACCCAATATTCTCCGTCATCTCTTATTTCAAGTTTCCATATTCCAGTAGTATGTTTGACTAATTCTATAGCTTCGCCTATAGCATTAATAGCATCTTTTCTACCTTTCCCAATACACATTATCAATATCACATTATCTCCAGGCTTCATGTTATCAATTGCATGAATAATCTTTATATTTATTACATCTTTATATTTATCTATAATATATTTTTCTATTTCATTAATTCTTCTTTGTGTATATGTTTCATATGCTTCGTAATCTAGTTCATAAACTTTATGTGAATCTACTAATCCCTTTACGAAGCCCAAGTAAACAACTAATGAACCTGCTTCTGGTGGTGCAGTTTCTCTAAATTTTCTTATTTCTTCTAAAAAATCGAATTTTCCTCTTATTACATCTCCGCCTGCTGGCGGAGGAAGAAACGCTATTTCGTCGCCATTGCTTATATTTCTTATATTTGTCTCACCGTTAATTAAAATGGCTACCTTAATTCCGTTTACACCATTTTTGACATATTCAGAAAATTTCCTACCGTACTTTTTTTCTAAGTCGTTTATTAGACAATCTATATCACTACATTCAGTAGATAATTCTTCCTCTGAAACTCCAGTAATATCTTTCATAAAGGCAAAGTATTTTATAATTACTTTCAACATTCCCACTCTCTACCAGAATTTATGTTAGTTTATATGGAAGAAGATGATAAACTCTTCGATTTATTAGATCCAAATCTTCAAAGTAACAAAAATACTGAAATAATAAAGAAATTGAACGAAATAGAATTCATGGTTAGATCTTTATTACAACAAAGGAGCAAAGAAGCTAGAAGCAATAGTTTATGTGAAAATATATTGGAAAAAACCTATATAATAGTTAATCGAAGAATTAATGAGAATACAAATCCTAACCTATTTATATTAAGAATAGATAACAATAATTATTTGATAACATTTAAAGATACAATTGAACTTTTATACTTTTATATGAAACTAGGAGACAAAATAGAAGATGAAATTCCTAAAAGATTATATCCATTATTTAGTTTTCTAAAAAGAAACGGATTAATTTATCTTGATAGAGAGACAAAGGAGTATAAACTAACTTGAAAATGCTATATCCCCTATTAAATCCCTTATAACTTTCTCTTCTATAACTTTTTTTAGAATTTCTAATAGAGCATCAGAAAATTCCTTTTTAGATACGAGATCTCTTGCCTCAAATTCCAGTTTTGAAGATTCTAAAATCTTTTTTAATAATTCTTCTACTAATGTTAGTATATTTTCTGCTTGTATTGCCTCAATATATCTACCAATTTTTTCTTCCAATAAAACATTATCATTAATTAAACTTTTAAAGAAATTTTTGATATTATCATTCTTTAGTACGTTAGATCTAAAATCTGTTGTAAATCTTTTCCTTACTATAGGTATTGTTAACAATATAAAATAATTTCTACCACCTACTATCCATGTCTCAACTTTTTCAGCTATATCATCAACAGATTCTAATGCTGACTCCCTTAGTGATGTTAACATCACCTCTACAATTTCAGTATCAGAAACTTGTACATTATTATCTCTTTTTTCAGTATTTTCTTTTAAAAATGTAGAATAAACAGATCTGGTACCAAATTTCCATGTAGAGAAAGGACATATAGTTAGCATATCTTTCCTCTTTAATGGAATAGATTGCCCTTTATAAGCAGTAAAAAATAATCCCGCACACTCTTTATCCGAACCTTTAATGCCAAGTTTCTGAGCCCAACATCCTGCATGGAAATCAATATTAATGAAAGGCCTTATAACATCGAAAGCTAAGATCCCTCTATCTCCACTAAGCGTATTATAAACATACAATCCTTCAGGACACATAAAGTATACTCCCTTAGCTCCATATTTTTTCTTCATCTCAATAATCTTTGATACGTCTAATTTTGCCCCTTCAATATTTCCTGAAATATATTTATCAAAACCGCAACAGAGATTATCTATAATTCTAACTCTAGCTGAAGTAGATATTTTACTGCCGTTTTCTAAGAGAAAATCTAAGAGTCCTTCTACTCCCATTGGATCATATTTGTATGAACAACCTATAAACAATAAATAAGGAGGTTGACTTTTATATTTTTCATCTATTTTTGCCTCTAAATCCTTTATTCTAAAACTAACCGGCTCTAGCGATATAGAAACGTTTTCTTTTACGGTGCTTAAAGAAGGTAATATTTCAGTTATTTGCGATATATTTATACCTTCTGGACATGAATCTTCGCATTCCTTACAGCCAAAACATATTTCAAAATTATTTTCTCCAGTTATCATTCTATTGAATTTTCCTAATGGAGAGTAAATTAGATTATTAGTAATCCTAAAAGAAGTACAACTTTCTAAACATAAACCACAATTAACACATCTTGACGCATCAATATATTTATCTTTTATTTTCTCAAAGTTTTTAGGTATTCTAACAGATTTCTTATATTTTTCAATAATAATTTTATGAATAGTATCATATTCTCTTAAAGATGGGAAAGGCAAAACATTAGGATGTTTCTTCAAAAATTCAAACGTTTTATCTAATTCGTCCTCTTTTATATTTCCACACATGACAAAAAATTTTGATGGACTATTGAAACGTATTTCATATCCAAGATATAGCATCCCAGGAAATTCTTTAAGCGATTCTAAAGTAGTAGATCTTAAACATATAGGAATATATCCTTTTTTTATAATTTTTAAAGATTTATCAAAAATAGATTTAATTAAATCTTTAGTATATACTGTATTATTTTTTTCTTTAACAAATGACTTATAAAGAATAGGAATATAGTATCTTTTTTCTCCATCTATGATTAAACTAGACCATGCAAATTGATTTTCGGTGGATGATTCTATTAACTCACTATAATTAACTACAGTAAGTCTAGAGTCTTTTTCAGTATTTTCATAGATATTTTTCTTAAATTTTGGAAATCCAAACTTATAACTACCGAATCCAGAGCCATTAGTTGCAATAAAACCGCCAACACTCCCCCTAGGATATAATGGGAATACTGCTGGATAATAATCCTCCTTTTCTAAGACATTTATTAATTCTTCAAAAGTAGCGCCAGACGCTGCAGTAATTATGGAAAAATTTTCAGATCTGCTTTCAAATTTTAATATAGAACCGTCATCCAATCTTTTTTTAGAAGTAACTATTTTTGGCCTCAAAAACTTCAAAACACTACCGTCCATAGAAGTTGCTCTACCTAATACAATTTCATGCTCTTTTTCATCCATATACTTTTTCAATGATGAAACATCCATAGATACTAGAGCTCTACTAAATATTGATGCGTCTAAGATCAAATATAATCACCATATCTTCAATCAAACATAAATTAAACTTTTATATTGTACCATAATTAATGATTGAGACACACATACCAATAAGTATTTCCGGTATATGGTATCCAGAAGTGTATAAAGAAGCTAAATTTTCTGGTTCAATAGGTCTTTCCCTCGTATTAGAACCTTATACTATTTTTGAAATAAGAAAATCTGAGTCACCAGAAGTATATATTAATGGATTAAAGATAAATTTCCCTAATTTATTAATATTAAAAAAACTTGGCAATCTGCAAATACAAGGTATAGCAAAAGTTCCATTAGGTTATGGCTACGGTTTAAGTGCGTCTATAAGTCTTGCATATGCTTTAGGAGCATACGAGATTTTTAATATAAAAAAGAATATAGCACTAGAAACTGCTCATGAAAGTGAAGTAATAACTAACAATGGCTTAGGTGATATTATATCTCAATATTATGGCGGAGGATTAATATATAGGAAAAAACCTGGTGCTCCAAATATTGGAGAGATTGAGATTATTAATGTTGATTGGCATAAAATATTTTCTAAACCTATAGAAAGGCTTTCAACTAGTTCTATAATAAAACCAATAAAAGAAGCAAAAATGCTTATTGATGAATTCCTAAGAGAAAGAACGCTTGAAAAATTTTTTGAAGTTTCCAGAAAATTTACAGAACTTTTAGGATATAGTTCGCCCTATCCTCTTTCTTTTAGGAAAAAAGGATTAATAGTAAAAATGGATAAACCAGAAGAGGGAGAATGGATAGAACACAACCCAGCAAAACATGGAGCTTACGTGATATGATACCAAAGAATCATCCAAGGAGAGAGTCTTTACTACTTAGAGAAAAGTTAGTAGAAGCATTAGAAAACAATATATTAGTTCCACAAGGCTTAATAGCGCATGGAAGAGGAGAATGTTTTGATTACCTATTGGGAGAGAAGACTCAATATTTTGCTGACGATGCTGAGAAAGTAGCCGCAGCGATGTTATTAATAGCTAAAAATCCAGTAATATCTGTAAACGGAAATATGGCGGCTCTGGTGCCAGAAAGCATAGTTAAACTTTCTGAAGTAACAAATTCAAAAATAGAAGTAAATCTTTTCTATAGGGATGAGAAAAGAATAGACGCCATTTCAGACGTTCTGATTAAGAATGGAGCTAAAAATGTTTTAACTGAAGGTAATGCAGTTATTCCAGAATTGTTCAGTGAGAGAAGAAGAGTAAACAAAGAAGGAATATTTTCCGCAGATGTAGTACTTTTAGCTATGGAAGATGGAGATAGAACCGAGGCATTAATCAAAATGAACAAAAAAGTCATTGCAATTGATCTTAATCCTCTATCTAGGACATCTCTCACAGCTACTATTACAATAATTGACAACGTGATAAGAGCCATCCCTAATATAATAAATTATGCTATGGTATTGAAAAAAGAGAATCCAGATGAGCTAAACTATATTATATCTCAATATAATAATAAGAAAATTATATCAGAATCAATGAAATTTCTAAGTGATAGACTAGCTCAATTATCTAAAGATCTATAATATTCCTTACTAGGGAACTTGCTATTTCTGACATCATCAATAAAGCTATTTACTGCACTTAGTATTTCGTTATTTAAATCGAGATATTTCTTAGCAAAATATGGAGTAAATTCTCCAAGGCCTAGTAAATCATTTATAACGAGTATTTGTCCATCGCAAAATGGACCTGCACCTATACAAATTGTTGGTACATTAACTTCTCTTGTTATTTTTTGTGCAATTTCAGAATACACGTTCTCGATTACTATAGAAAATACACCAGCACTTTCTAAAGCCTTAGCGTCTTCTAAAAGTTTAGCCTCATCTTTAACAATTTTATATCCACCAATCTCAAGAAATCGTTGTGGAGTAAGACCTATATGCCCCATAACAGGTATACCAGCTTTAACTATTTTACTTATTTTTCCTGAAATTTCTTTTCCACCTTCCAATTTTATTGCATCAGCACCATGTTTAACTAAGATACCCGCGTTTTTAATTGCTGCTTTACTTGAGTATTCATATGATAAGAAAGGCATATCCGCAACAATCAATTGATTGATCTTGGCATTTACTACAGCTTTTAAATGATGTATTATATCTTTCATATTTACTGGAAGAGTGGAATTATAACCTAAAACTGCCATACCTAAGGAGTCTCCTACAAGTATTCCATCAAGCTGTGTCCTCCCTAAGATTTTCGTTATCGAATAATCGTAAGCCGTTAACATTACTATTTTGTCTTTCCCCTTCTTTTTCAGAAAGTTCTTTATTGTTACCTTTTCCATTTATCTTCACTGAAACTTTTGAGGCAAGAATTAAAATTCTCTTTATTCTATCAACAATATATTGTGTCTCTTCATAGGATTCTGCCTTCTTATACACATCTATCAAATAGTTCAGGTCGTCAAATGCAATTTTCTTAAATAATGCCTTATCTACGTCAGACAATTTAGTCTTACGAAGCATAAACTCTAATCTTTTTTGAATGTTATCGAGGTCTAAGCTATTAGCCTGAATCTTTATTAACGTTATTTCAGGATCGTCGTTGTTATCGTCTATAACACTTTTTACTTCATTAACGTCAATAAATTTCCACCAATGCTGGTTAGCAGATTTATATGAAGTTTCAATTATTCCAAAATCTCTCTCTAATGCCCTTAATATCATTTTAGGGTCTCCGCTATAGCCCTCTCGCTGTAATTCTGCGATCAATGTCTTATAGTCAAAGTCGCCTAACTCTTGATTTCCTCTTTCATCATATATAGTTATAGCAGATCTCAAGATAATCCTAGCTTTATCACCATATTTCAATATTGCTTCCAGTGTTCTATCTCTAACTCCTCCTATCACTCTTAACTATTTCGCTAAACATTATATTATAGTAATTACAAGATAATCCTAGTATGACTAATAATGACATTGCAGTAAGTGTTACTAATTTGAAGAAAAACTTTAAGACTAAACTTATACTTGATGGCATATCGTTCAAGGTTAAAATAGGAGAAGTTTATGGAATTATAGGGCCTAATGGTGCTGGGAAAACTACTACGTTAAGGATTTTAGCTGGAATAATTAAGCATTATTCTGGAAACGTGGAAATTTTTGGGTTAACACCAGAAATTGCTAGGAAGAATGGTTTAATCTCATATATGCCAGAAGACGCATTTCCTTATGATCGACTAACTGGATATGAAAACCTGATGTTTTACGCCCAGATATATTCTAGAGGAAATAAAAAAGAGACAAAGGAACTGATTGAAAGAGGTATCAAAATAGCAGATTTAGGAGATAGAATATACGATAGAACATCAGAATATAGTAGAGGAATGAAACGAAGGTTGCTTATAGCGAGAACGTTGATGGTAAGGCCAAAAGTAGCTATTTTAGACGAACCAACGTCAGCGTTGGATGTCGAATCTGCAATAAAAGTTAGAAAAACAATAAGAGAACTAAAAGGAGACACTACTATTATACTCTCTTCTCATAACATGTTAGAGGTAGAATATCTCTGTGATGAGATTTCTTTAATAAATAATGGAAAAATTGTGGCTAATGGAAAACCTCAGGAAATTGTAAAATTAACCGGTACAACTAACTTAGAAGAGGCATTTATAAAGGTTACAGATGGTGAAAAATGTTAAGATACCTATTATCCAAAGAATGGCTAGACGTAAAAAGAGATAGAAAGCTAATTTTAGGCTCTATAATATTACCTCTACTATTATTACCACTAATCGGGATAATAATATTTGCTGCTGCTGTTTCTCAACCACCAGTAGTAGAAATTGTAAATGAAAACTATTCAAATCTCCCCTATGTAAGAAATCTAGAATCTTATATACAAAGTAATGGGGTATAGCATATATTAATTCATCAGTTCATATTCCAGATGTTCAAGTTGTATTTCCTAAAGAATTTGCAGAGAATGTAACAAATATAAATAGAACTGCAATAATTAAAATAACCTATGTTATCTCGTCTAATAGTAGAGCTTTTGATCTAGTTGAAAATGGACTTTACAATATTTTATATAATGTTTCTATTTACAGAATTCATGAGATAGAAAATATATCTCATGTTAACGTACCTCCACAAAAAATTCGAGAACCAGTAGAAATGTATCTACAATATATACAACCTACTGGAAAACATGTTACAAGTGCACAAGATCAGTTTGCACAGTTAGCTAGAATAGTGGCAATAATTCTTTTTCCAGCATCTACGCCAGTAATATATTTTGTAACTGACGGAATACTTGGAGAGAAAGAAAGAAAAACATTAGAATCACTTCTGGCATCGCCAGTATCTGCAAGAGCCTTCATATTTTCTAAGATAATAATATCTATGATATTAGGCACAATATCCTCTATAGGTGATATAGCAGGCTTAGTTATATTCTCTATTTTTGCTCCATTTATTGTTGGTGCATCAGTAAGTTTTTCGTTAAGTTTTGCAGTAGTAGTTCTCATATTATATTTAACAATGATCTTCCTAACCGCAGCATTAAGCACTTTCGTTCTAGTTCTAGTAGGGGGATCTAGCAGAAATATACAAATAATCAACTTCCTAATAACTAGTTTCGGTCTTTTAGCTTCTTTTTCAGCGTTATTTGTTAACTTTGGAAACTTAACTTTTCCTATGTCTATGATTTTAGTAATACCTTATGTACAGATTGTAGCGTCACTTCTTTTATATGTCTTCGGTTTAATACTAGAATCTATATTCTATATATCAGGAACAATATTAGCTAGTATATTATTAATACTGATATCGTCAAAACTCCTTGATAACGAAAGACTTCTACTCAAATAAGATTTTTAATTTTTGAAAGACGAAGATAAGATATGAGTATTGTAAAAGGATATGTACTTTTAATAACTTCAATAGGTAAAGAAACGGATATAGTAAACGATTTAAAAAGAATTCAAGGAGTTAAAGAAGCAACACCTGTATATGGAGAATATGATATAGTAGTAGAAATAGAAGCCCCGACACTCGAAGAGTTGAATAAAGTTATATCTCAAATTAGAAGAAATTCAAATATAATAAGAACAGTAACACTTATCTCAATGTAACTCAGTTATTTTAAGTCAACTCCTCATTTTTTCAGTACGTCCCTGCGACATCATTTTTTAAATAATTGGGACCCACCTATGCTCATATGCTCTCGGAACACGAGAACATTTCACATAGGTCCACAATATAATTACTTATAAAAGTATTTTAAGCGTTTTCTCTTTTAATCTCAACTTCTTCAGTATCTTCATCTTCTCCTTCTTCTAAAAGCTTAATTTTCTTTACTAGCTCAGAAACCATAGCGTCAAGCTGAGCTACCTTAGCTTCCAGAAAAGCTACACTTTCTTCATATTGCTCTCCATTTTCTTCTCCTGTATCTTCTTTACCTTCTATACCTTGTTTTATAAAAAACTTAACTAAGTCAGTTATCTGAACTCCCATATCGTCAGCTTTTCTCCTTAATTCTTCATATAAAGACTCTGGTAGTGATAAATGAATTGTCGGCAACTGTATTCTCCTCTCAATAATAATCTATGAAATACAAATATATTAATCTTGCATATTTAGTCTTCCTCTTTTAGTTAAAAGACTGTAATATCGCTCTAGAAAATACTTAAACCTTACAAGAGGAAGATATAATATAGATCTAGAATGAGAGTTGTTACATTTAAAGCAGAAGAAGACCTATTAGAACTATTAGATAGATATGCAATAAGATATGGATTAAATAGAAGCGAAGCTATACGAAAAGCAATAGAAAAAATGGTAGGGGACGAAGTTAAAAAAGAAACTGTACCAGTAGCAAAAGTGGAGAAAATTAGGCTTTAAAATAGATTATTTCTCCCTTTTCTATATCTTCAAAGTAATTTTTGTTTAATTCTCTTATTTTCCATCCCATTTTTCTTAAGAATTCATCTGGTGGATCTAACGGCATTAAATGTCCATTAACCCAATAATGCATTGGTATTACCGTACTTGGTTTTAAATCATTTATTAAATCTATAGCCTCCTTATAATCAATTGTTATTAGCCCTCCTATTGGTATCATCAAGATATCTGGTGAAGAAATTTCTTTAATGATTTTTTCACTTAGTTTATCACATACATCACCTAAATGAACTATGATACTTTTTCCAGTATCAATTCTATATATAGCAGTTTCTCCTCTTCTTTTTCCATTCTCCTTATCATGGAATGCTCTTAAACCCAATATTTTATATCCTTCAAAAGTATAATTTCCATAAAAGGACTGTTTTATTTCCTTAAATTTTAGTAATTGATAGGCGTTATGATCATAATGATCGTGAGTTATTAAGACTAGATCTGTATATTCTACATTAGGTTTAGTTAATCCTATACTGCCTCCATCATGCGGATCTATTAAAATCTTATCATCTATGGAAAACATAGAATGTCCAAAATATTTTATCATAAAAAATATAAGGAAATTACGAGTTCAAAAGCTTGATTGCTATGTTTTTAGCTTCTTCTGAAGTTATCTTATTACCTTCATCAGCAAGTTTCTTAACTTCTTGTAGAACTATTTTCAGCTGATCGTCGTTCAGATAAATACCTTGATCTTCTAAGACTTTCTTTAATCCATGAATTCCACTATGTTTGCCTAATGCTATTCTCCTAAAATTACCTACTTCTTCAGGGCTTATAGGCTCATAAGTTAATGGATTTTCAACTACACCATGAACATGTATTCCGGCCTCATGTCCGAAAGCGTTTTCACCTACTATTGCTTTAAAGTATGGTATAGGAATTCCAGTAATTTCGGAAACTAACTTACTTGTATCGTAAAGCATCCAAGTTTTAATATTTACATCAAATCCCATAAGTTTCTTTAAAGCCATGACTACTTCCTCTAGTGATGCATTACCTGCTCTTTCACCTATTCCATTTACTGTAACATGAACTTGTCTAGCTCCCGCCGCAACGCCTGCTATAGAATTGGCAGTAGCTAGGCCAAAATCGTTATGACAATGCACGCTTACTATCTTATCATTTGTAGCGCTAACTATTTCTTTTATTAAGTTATAAAATCTGAAAGGATCCATTGTACCTACAGTATCTGGTATATTTATCCTATCAGCCCCTGCTTCTAGTGCAGTTTTTATAGCTCTAATCAAAAATTCATTTTCAGTCCTCGTAGCATCTTCTGGACTATATTCAACAACTAATCCATGATCCTTGGCATATCTAACATTATCATATATTTTTTCAAGAACCTCGTCTCTAGTCATTTTCAGTTTATATTTCAAATGTATATCTGATGTAGCTATAAATATATGAATACTAGAAAGACCCGTACTAATTACCTTATCTATATCATACTTATTTGCTCTAGCTAATCCAATGACTTCAGTGTTATCACCAACTTCCTCTAGAATTTTCTTAGTAGCTATAAACTCTCCTTCTGAAGATGCAGGAAAACCTGCTTCAATTACATCGACTCCTAATTTTGATAATTGCTTAGCTATTCTAACTTTTTGCTCCACAGTTAGATCAATACCAGGAGCCTGTTCACCGTCTCTTAAGGTAGTATCTAAGACTCTAACTTTAGGCTTGGAGAATACTCATACCCCAACACACTCAGATTGATAACTATTTTAACTTTTATAAATTTTGCTCTAAAGTCAACTTGACAATTTCTTTAGCAATTTTTAGTTTGTTTCTCTTTATCCATGAAATTGGTACATCAGACAACAAATACGGTTTAGAAAATTTTCCTATCAAATTTGAATCAAAATCCATTCCATATAGAATTATTTTTGAAGCTCCAAATTTTTTTGCTATAACAACTGCTCTGTCTCCATCAGTAAATCCTCCAAATAAATTTATTCTCCCAAACGGTGAGACTTGAGCTGTGCCTATAACCTTAGTCATATTATATACTTTATGGAGTAAATTGATGTTATTTCCGTGAGCATGAACTACGTAAACCGAATTGGGAAATGTTTCTATTCCATCTAAATCTGTTACAATAATATCTGGAATTATTCCCTTAGATACTAGATAATTGGTAGCTCCATCAGCAGAAATAATGACTTCTTCCCTAATTTTGTCTATTTTTTCTAAACTTGGGCCTGCTCCTATTACTGCAACCTCTTTGTGATTTAATATATTAAGTAAATCCACCGGGTTATCACTTAATATTTCGTTCAAAATTGATGCTGATTTATAATCATCTATTTCCTTAAATCCAAAAATTGACCTTATTCTTGAATAAAAATTTAGCCACCAGAAAGTACTGTAAAGAATATTTTATCACCATCTTTCTTTAATATTTCTATATGAAAGATTTTTATAATATCTTCATAATAAGGATTACTAGTAGAAATTATAAATACTATGTCTTTTCCTTTCAAGAAATATATTGCATCAATTGGATTGAATCCGCATTCCTCAGAATCTAAATTAACATAATCTAAAACCATTATTATGTTTATCAGTATAGTAGGGAAAAATCTTTCTATACTATCTCTCAATCACGAAAGATAGTTGTTCTAGAGAAATACGCTATCAAATAAGAAGGTTTAAGTTTGTTTTTAATGAGAAGAAATGAAATAAATAGTACTTTTACATTATATAAAATAATTACAAATTTACTACATAAGTTAGCTTTAAGTTTATTATTATCACTTATAAAATAGACCTTATGGAAAAGGAATACTTAGAAGATAAACCTTCAATGGATATTAATATTATCGAAATTAATGTGCCTTGTGGTATTCATTGTCTAGAAAATTCCAAATATAGAGATCTTCTAAAAAATGAGAACTTTAGGGCTCAGCTTGAAGTCGTAGATAGCCTAACTGATTTAATTAACACAAATGTAGATACTTTAAAACGTGAATTAGAAGATATTTTTAGTAATTACAATGTAAATATATATAATTTAATTTATACTATATTTAGGCTTATAGAGTATGGAGGAGACGTTATAATAGGAAATGGAATTAAATATAATGATAAGATTATAGCAGAAGGAAATTTTGAGACTTTAATGCAAATATATAAAAAAATAGAAGATATCAGAAAAAATTCAAATATTATTTCTATATGCGATGAAATAAGATATCTTGAAGAAGCTTTATGGGAGCATTTTAATAAGAATCTAAGGAGGTCATTATATGAAAGTTAAAGTTGGAATAGAGGGTTTCACGATAGATTCCGCACACTATACATTATCTTCTCCTCAAGATTCGCAACTTCATGGACATACTTATATATTAAATGTAGAGATAGAAGGTGAGGTAAATCCTTCCAACGGTTTTGTAATTGATTTTAATATAGCAAAAAAAACTATTCAAGACATAATATCTAAGTGGGATCATAAATTTATAGTACCAACAGATGATTATAATAAGATAAATATAGAAGCACCCTTCAAAGTTGAAGTAAAAAATATAGATGCGCCTTTTCCTACTGCAGAATATATAGCAATAGAAGTGGCTAGAGACATATATGAGAAGCTTGATAGAAAATTCAAAATAGCTGTAAAAATCTATGAAGGAAAGGATTCTTATGCTATTGTAGAATATCCATAATTTTCAAAGTCAAAATCATACAAATAGACTTAACATAAAAAAGAATTTTAAGTAAAATAACACACATTCTTGTGGAAATATTTTAGATAATATAAATTAAATAATAAATCTTAATCCTACATTATCTATAGGAATACAATTATTACATTTTGATTTTGTAAAACATAATGTTTCTTTTTCAAAGGTATAGCATTTCTCCCTGACAAAATCATTAATATTAAATTCGTCATATTTTTGCTGATCTATTCTTACGTACCCCTCGAACTCATATCTAGTTAAAACTTTATCGTCTAAGAATACGAATATTCCGCCAAATAATAAAGGATAACATTCGATATAATCACAAACAGTTACGCTCATGCTGTTTCTTAGCTTCTCTATAATTTCTCCCTTAGTAATAGTAGGTAGGACTGCCACGACAACAGTATAGTTCTTATATTTTTCATAAATAGTATTAGGTATTGCTATAATTCGTGGGCCATACTCATTCATTTCTTCTCTCCACATATAACTTTTTAAATAGAGGGCTATCTTGAATATAATTCTTGTCTAGATTCATAGCTATTTCAGCCTTAGCTAATTCATATCCTATATATAATGCATGCTGTGGAGTTAGATCTATTTCTTTAACTAATTTTCTTCCTATAGCTAAACCGTCATTGCCTATAATACTAATTTTTTTCTTACCATAAAATTCTACTCCTATCTTATCTTCAAGTTTAAATATCTTAGCAAATCCTGCTGAATCCATATCTGGAGGAGAATACTCGGCAACTTCTGCCTTTTCTATATTAACTCTTTCTTCTATTTTCTTTTTATCCTTAAGTATTAGTAAGTCTATTCCAATATCTTTTGGTGGCTTTCTTTGTAACATAGAAATTCCTACCAGTTTTGATGCAGTCTTAGTTTCCCAAGAGCTCCATTTTGTCTTGCCTTTTTCCATAACAAGGAGATTAGATATACCTATTTCTCCAGCTATAGATGTCATCAAAGCATTTACACCGTGGCTATCTGCGTCTATTAACTCGGAAACATTCAATATTCCCATAAGCAAAGGTATGTCTGGTAACAATTTTCTTACTTTCCTATATTCAAAAAGACTATCTACTAGTCCTTCTAGTGGCGGAGATAAAACAGGATCAGCTATAAGCATATCGTAACCTAGATTTTTAGCTTTCTTTACTAAATTAATGGTAATATCTCCTCTATTTTCTACATTAAAAGGTGCTACAATAAAAGCAGCTTCCTTTTTTGCCTCTGTCAATTTATCAATATTAATTTCGTTTAAATTAAAGACAAACTTAGCGCCGTTTTTTATTCCATATATTAATTCACTTGGTGACTCGGCATCAATACCTACAATAACTCCCTCATCAATAGCAATGTTTAGTTTTCTTCTTACTTCTTCGTTATCATTATGTCCAACTGGAAATCCTATAACAAATACATCTACGAAATTTCTAGTTCTCTGTATTTCTTCTCTTATTTTATCACAACCCCACTTGGGATCCATCTCCAAGAATATTCTAAAAGGCGGAGGATATAATGGAATCCTTACACCAAGGTCGAATGCTATTTGGGCATTATTTATGATTTTTTCTTCATAACTATCAATATTTTTCTCTTTTATTCTACTTATTATTTCATCAGCTGGATCTATTGTAGAAAGCGGTATTCCCTTATCTAACGCATCAAAGACTAGTGGAATATCCCACGCATTTTCTGTTCCTTTAAATGTTTTTATACCCAAAGTATCTTCTATTATTTTGACGTCTCCATTTACAAGCCCTGGCAATATTATAACGTCGTACTTTTTATCAATATTTTTTAGATTTTCTAGTATATATCTGATACTCATTAGAGCTGCTACAGGGTAATTTAATACTTTCACATCGACATTATCATACTTTTTTGTAACCTCCCTAACAATAGGGTAAGCTAATTTGCCAGTCACTACTAACGCTTTCACATCCTATATTTTGAATTACACCTAAATATTGCCTTCGTTTAATCTATGATCTAAAAGTGTTTCGATATTAATAACGAATTATAAAGGACTAAAATTTCAATATTCTATATAATATATTTGGTAAAAATTTAAATTAAGTATAACGCTATGACTACTAGTCCTAGCGATTAAATGTTTGAAAAAAATAAGCTTTAAAAAAACTGTATTTAAAATAATAGTATGAGTCTTTTACCCAAATCCTCAAATGTTGACTTAAACCAAGTTTTTGATACTGTAATTATAGGTCTTGGACCTGCAGCGTATAGTGCAGCATTATACTGCGGTAGATATATGCTTAAGACTCTAGTTATAGGAGAAACTCCTGGTGGGCAATTAACAGAGGCAGGAGAGGTAGATGACTACTTAGGATTAATTGGAATTCAAGCACAAGAAATGATAAGAGTATTTAACTCACATATAGAGAAATATAATGTACCAGTGATTCTTGATTCTGTAGAATCTTTCAAAAAAGAAGGAGACCTATATATCGTAAAAACTAAAAGAAAAGGAGAAGTAAAAACTAGGACTATAATTGTTGCAGTAGGAGTAAAAAGAAGGAAACTAAATGTACCTGGCGAAGATCAATTTGCTGGTAGAGGAGTATCCTATTGTTCAGTATGTGATGCACCACTGTTTAAAAATAGAATTGTTGCAGTAGTTGGTGGAGGAGATTCTGCATTAGAAGGTACAGAATTAATTTCTAGGTACGCTACTAAAGTCTATTTAATTCATAGAAGAGATCAGTTTAAAGCTCAACCATTCTATGTAGAAAACGTTAAGGCTAAGCCTAATGTAGAATTTATCTTTAATTCTTCTGTTACAGAAATCAAAGGAGACAAAATTGTAAAACAAATTACTGTAAAGAATTTAAAATCTGGAGAAACTAGACAACTAGATGTTAATGGAATATTTATAGAAATTGGATTTGAGCCTCCTGTTGATTTTGCAAAAGCTAACTCCCTTGAAACAGACAAAAACGGATATATAAAGGTAGATGAATGGACGAGAACTAATTTACCCGGTGTATTTGCTGCCGGCGACTGTACTGCTACATGGATAGGATTTAGACAAATTACCACGGCCACTGCTCAAGGAGCTGTAGCTGCACATAGTGCATATACATATCTAAATGAACATAAGGTAAGATAAAATTGGAAAAAATACTTAGAGATATAGGCAAAGAAGCAATTGATTTCCTAAATGAATTAAAAGGTAAAGAAGGAATAGACAAGATAATTGGACGGCATGGAGATGACACAACAAGAGTAGTTGACAAGAAATCAGAAGATTATATTTTTGAATTATTAAGAAATACTGGATATAAATTTTTATTTGTTTCGGAAGAATCCGGGACTATTAATGAGAATAATTATGACTACATAGCTGTAATAGATCCATTGGATGGAAGTACTAACTTTATAAATGGTATTCCATGGTCCTCAGTTTCAATAGCACTTTACAAGAACAATGAAAAAAACTTTATAAGATCATATGCAGGTGTTGTAGCAAATATATTTTCAAAAGAAATATATACATACTATAATGGAAAATCGTATATTAATGGAAATATAGTAGAAAATGTTAGACCTAAAAGTAATATAGTACTAGCATACTTCGGTAAAAAAGAAATTGATAAAGCTTATCAAATTTTAAAAAAACTAGAAGGATTCAAAATACGAACTCTAGGATCTTCATCATTAGACATGATATTAATATGCACTGGCAAAGCATACTTCTACTTTGATATAAGAGATAAAATAAGAAACGTAGATGTAGCGGCCTCAACTGGTTTTTGTTCATCATTAAAGATATATCCATTCAACTCTAGAAACGAAATTATAACTTCATCCTTAGAATCTGTAGACGTGATAGGAGAAATAATGCTCACTTATGATGAAGAACTGAAGAAGAGACTTTTTTTATAGTAGAGGGCTTTATTTTCTTATATGCTTCTAATAGATCTTCCTCTGAAATAACTCTATTTGTGTTACCCTTTATTACGTCCTTTAAGACTCTTATTTTAGCTTCTCTAGCTAATGCAGCTAAATCTGCACCACTATAATTGTCTGTCAACTCAGCTATTTTTGCGCAGTTAACTTTTTCGCATGTATCTTTACCAAGGTATTTTTGCAATATATCTAACCTTTCTTCCTTGTTAGGTAACCCCATTTTTACTATAATATCAAATCTGCCAGGTCTTAATAAAGCAGGATCAATAGTTCTTATTCTATTTGTAGTACCTATTACTACTACCTCTTTAAGATTTCTTATACCGTCCATTTCAGTTAGGAGCTGATTTACTATTTTAGAAGATTCACCTCCATTTTTCTGAGATCTCTTCGAGGCTATTGCGTCTAGTTCGTCCAACAGCACTATTGATGGTCTATTTTCCCTAGCTCTGTTAAATACTTCTTTTATGGTAGAAACTGCTCCCTCATATCCTTTATACATAATTTCTGCAACGCTAACAGATATTAACTTAACATCAAGAGTTTTAGATAGTGCTTTTGCCATCATTGTTTTTCCAACTCCAGGAGGTCCATAAAGCAAAATTCCTCTTATTGGAGGAACCTTCATTTGTTCCATCAAAGCAGAATATTTCAATTGGAGTTCCAATAACTCTTTTAACTCAATTTTAACCTTAGTGTATCCACCTATATCATCAAGTGTTATTTTGTCGCCTATTTCTGTTTCTATATCATCGCCTTTTCTTGATCTTCTTTCATAATCTAATCTAAATTTCTCAAAATCTTCTAACATCTGCAAAGTTATGCTAGGCTTATATCTTTGAATTATATCTAAGAAATCTTGCATTGTTATTTTCCTGTCTTTGTTAGTCTCAAGCGCCTCAACTGCCACTTTCCTAGCTGCTTCTTGACAAATATTAGCTAAATCTGCACCACTATATCTTTCTGTCATATCAGCTATCTTTTCAAGACTAACGTCATCAGCTAATGGTTTCCCACCACAATGTATTTTAAGAATCTCTAGTCTTGCATCCTTATTGGGAGGACCTACGTAAATTAATTTGTCAAACCTGCCTGCTCTTAAGAGCGCTTTATCCAATGTTTGAGGAACATTAGTAGAACCTACAATTATCACACCGTCATCACTATGTAAACCATCTATTTCCGACAACATCAATGATAACAATCTAGGTGTAACTGAGTCTCCTGTATGACTCTCTCTTTTTACTCCTATAGTGTCTATCTCATCAAAGAATAATATACAAGGAGCATTTTTCCTAGCGTTTGCAAAAAGTTCTCTAAGTCTAGCCTCGCTCTCGCCATACCATTTACTCATTATATCACTTACATTAACATAAATGAAGTTTATTTTGGCGTCAGAAGCTAACGCTCTCATCATTAACGTTTTACCACATCCGGGGGGACCAAATAAGAGAATACCTTTAGGAGGCCTTAAACCATATCTTCTAGCAACGTCCTTGTTTTTGAGAGGAAATTCAACGTAATCTTTTATTTCCTTCTTGACATCTGGATACCCGCCAATTTCTGTCCAGCTAACTTTTTTCTCCTCTTCATCTTTTTTCTTATTTTTTACTTGTAGTTGCGTCGCTTTATCGCTTGACATGAAATTTGTAGTAAACTTCTTAAATATCCCCATAAGTAAGAATACAATAATAGAAAGTGATATAAAAAGTATAATTAAGGTCTCTGTATAGCTCATTTAAATCAAGATATATTATTGGCATGGCAATATTTAAGCGTGTTATAATGAGTATTTTATAAAAAACTTATAAAAAATAATTTAACTAGGTAAAAGAAAAACATCATAACCAAATCATTTATAATAACCAGACCTAATATCTTCCAAAATTTTTGTTGCTGCATTATAACCTGGTGCTCCAGTAACTCCACCTCCTGGGTGTGTTCCAGATCCGCATAAGTAAAGCCCCTTAATTGGAGTAGTATAATCACTAAAGCTAGGTATAGGACGAAATACATATAATTGATCAGGAGTCATGTCAACGTGAAATATATTGCCTTCCCATATTCCGAATCTTCTTTCAATATCTAGAGGAGTTAAGACTTCATATTTTATAGGATTGAAGTTTGGTGCAAATTCCCTTATTTTATTAATAGTTATCTCCGCTATTTTATCTTTAATACTATCTAATTTCTTAGAATAAGGCAAATATTGTCCAAAAATTGAGAAAACAAACTTTCCTGGAGGAGCTACTGTAGGATCCACGCTAGATTGTATATTAATAGATAGCCAAGGTTCTTTTGAGTATCCAAAAAATTTTGCATCGTAAAAGGATTTCTCTATATACTCTACACTAGGCATAATTAACTCGGAAGCAATATGCTCTGGAGCTAGTGAAGTTCCGTTCCCAAAATTAGGTAATTCTTCAAGATATCCAACTATTTTGAAAGAAACACCCGTAGTCTTAAGATTCCTTATCTTTTTAATAAAATCATTATCCATATCGGATTTTACTAATCTCAAGAAAGTTGTTTTAGGATCGGCATTAGACACAACTATTTTACTTTCTATTACTTTTCCAGAATTTAACATGACTCCATTAACTTGATTATTTTTAATTTTTATTTCAGAAATTTCCGATTGAGTAAAAATATCTACACCAAATTTTTCTGCACTTCTTTTTAATGCTTGCGTTATGCCTCCCATTCCACCCTCTACATAACCCCACGCACCTTTTATGCCATTGACTTCTCCTATTACATGGTGAGCAAGGACATATGCTGTCCCAGAAGTTGAAGGAGAAGCGTAAGTGCCGACTACCGCATCTTCAATTAATGCTGATTTTACTTCATCACTTTCGAAAAATTCGTCTAATAAAGACTTTCCATCTTGTACGAAAGTTCGCATAAAATTAAGTGCTTTTTCTTCATCTATATTTAAATTTTTTATTAAACTTACTATATTTTCAATCTCAGAAATTTTTATAGGTCTATTTAGCATCAATAAATCCGCCAACTCATAAAAAGGATCCCAGAATTTTACCCACTTTTCATAATTCTTAGAATCTTGCTTGGAAAATTTTTCTATTTCTTTTTGTGTCTTCTTTAGACTAGACCATATGTAAAGATTCTTACCATTTGGGAAAGGAACAAATAATCCAGGATCTTTGGTATATACTTTTAACCCATTACTATAAAGGTTCAAGTCATCAATAATTTTTTGCCTAAAAAGACTTAAGACATAAGCTCCTGTAGAAACTTTTATACCAGGCCACAGCTCTTCTGTTACTGATGCTCCACCTACTATGTTTCTTCGCTCAAAAACGGCTACCTTAAGGCCATTTTTAGCTAAATAAGAAGCTGTTACTAATCCATTATGTCCAGCACCAATTATGATTACATCATACATAATTACTTCCTCTCTATCATCCACGCTAAAAGAGCTAAAGCTATAGAAATTGATACTAAACCAATTGCTATATATGAAAATATTATTATTAAATCTTGAGTAGCCATTGTAAGTTATTTTATAAGGGGGATTTTAACATTATTTGCTATGATATTACCTAACTATAACGAAAATCTGTACTCTTTAGCATGTGGAATATCTGACTTTCTAGGTGTAAATAGAGAGTGCTTAAGCAAAATAGATATTTCTGGAAGAAGATTAGTTGTAATACTTATGGATGGTTTTGGATGGAATATAATGCAAAAAGCCAACATTAATAAACCAGAAGCAAGAAAAATTCAAACAGTATTTCCATCTACTACATCTACAGTTTTAACAACATTATTTACAGCCATGACTCCAGGCGAACATGGAATCCTCGGATACAACACTTTTGTAAAGAACATGGGAGGAATAATAAATACATTAAAATATACTCACCCTGCAATAGATGAGAGAGATTCTTTGAAGGGCGCAGTGCCTTTTGATAAAGCTTTCCCTAATGTAAGAGGATATTTACAAGAAATAAAAGATAAGAAAACTTTAGATATAGTTCCGAAAGGAATAGAAGATACAGAATTTTCTAAAGCTACACATGCACGAACTACTGAGCATAAACCATATGTAGATTTTTGGGACGCTATGTATCTTTTCTCTCAAAGCCTTAATAATAATTATGATTTTATTTACTTTTATTTACCATACGTGGATACGTTAGCACATAAACATGGACCTTATGCCGAACCAACAATTTCAGCGGCTAGAGAAATTTTCGAGTCAATCTATTCTATAGCAAATAAATTTAATCAATACACATTTATCATTACAGCAGATCATGGCCACGTAATGGTATCTGATAATATAAACATAAAAGAAGACAAGGAATTTATGGGAATGCTTGACGTACCTCCATATGGTGACTCTAGAGCTTTATTTCTAAGAAGTAGGTATGATATGAAGACCTATTTATCTCATAAATTTAATCTAAAAATATTTACAAAAATAGAAATGGAAAAACTATTTGGAAAAATAGGTAATATAGATTTACCAGATTTTATAGCAGTACCAGAAGATAATAAGGCATATATCTTTGATTATAAGGAAAATGGAGATTATGGAAAGCTTAAAGGACACCATGGCGGTCTACTTGAAGAGGAATTTGAAATTCCGTTGGTGACTATAAATGGTTGAATATTATATTCCTACATGGGACGAAATAGAAGAAGACGTATTTCAAATAGCAGAAAAAATAGCCAATGAAAAATTTGTTCCTGACGTTATAATAGCTATCTTAACAGGAGGAGTAATTCCAGCTAAACTTTTTTCTGATATTTTTGGAATAAAAACGTTAAGATACATAGAAATAAAATTTTATAGAGGAGTTAATAAAACAGATGCTAAGCCTGTAGTAAAAGCAGTTTATGTTAATGACGTCGAAAATAAGAAAATTCTAATAGTTGACGATGTTGCAGATAGTGGAGAAACACTAGAGGCTGTAACAAACGTCATAGCAATGTTCAATCCGTCATTAATAAGAACAGCTACTATATATGTGAAACCATGGTCCAGAAAATATCCAGATTATTATAGTAAAATAATAGATAAGTGGATAATATTCCCTTGGGATAAATGGGATGTAGTAAGAGAAAATAAAGACGCACCAGTAAAAAATAAGGAAAGATTTCTAGAGTTACATAATTCTATTAAAAAATAATAGGTTCCCTATATTCTCCCCATACTTCTCTTAGTGTATTACTTATTTCTCCTACAGTAGCTCCTGATTTTACTGCATTAAGTATATGAGGAAACATATTTTCTTTTCTACTTTCTGCAACTTTTCTTAAACTATTTAATGAATCTCTAGTCTTCATTTCATCTCTTTCTGATCTATATTTTTTCAATCTTTGTAGAACTCTTTCTCTAACCTCTGGATTAACTCTAAATACTTCCGTAGTTCCTAACCAGTCTTGTTCAAAAGCAAAATTTACTCCTATTTTAATCATATCACCGTCTTCAATTTTCTTTTGAAGCCTATATGCACTCTCGGCAATCTCGGCCTGCGGATATCCTTTTTCAATTGCACTCATCATACCTCCCATGTCTTCAATTTTATGAATTATTTTCCATGCTTTATCTTCTATTTCGTCTGTTAACCATTCTATATAATAAGAACCTGCTAATGGATCAACAGTTTCTGTGCTTCCACTCTCGTAGGCTATTATTTGCTGTACCCTTATTGCTATTTTTGCTGCTTTTTCTCCTGGCAATGCCAGGGCCTCATCATACGCGTTAACATGTAGGCTTTGAGTTCCACCTAATACTGCTGCCAATGCTTGTAATGTTGTACGAATTATATTAATTTCTGGCTGCTGTGCTGTTAACTCAGCACCTCCAGTCTGAGTATGAAACTTTAGGGTCATAGAATCTGGTTTTTTAGCGTTAAACCATTCCTTCATTATTTTAGCCCATATCCTTCTTGCAGCTCTAAACTTGGCTACTTCCTCAAATATGTTTGTATATCCTGCAAAAAAGAACGATAGTGTTGAAGCAAAATCATCAACAGGAATTCCTCTCTCAATAGTTTTTCTAACGTACTCTATTCCATCTGATAATGTAAAAGCTACCTCAAGTACGGCATCAGCTCCCGCTTCCCTAATGTGATATCCACTTATACTTATTGGATGCCATTTAGGGAAGTTCTTATAGGAATATTCTATAAGGTCTACTGCGTACCTCATTGAAGGTTCAGGAGGATAAATGAAATTTTTTCTGGCTATATATTCTTTTAAGATATCATTTTGTACTGTACCGTCAACTAATCTAGTGTCGATTCCTCTATTTTCTGCCGTAGTAACATACATAGATAACAATTCCATTGCTGTAGCATTGATAGTCATAGATGTAGATACTTTATCTATAGGTATAGAACTCATTACATTATCCATTTCTTTCCAGTGGAACATTGACACTCCTACAACGCCTACTTCTGTATATGCTAAATCATTGTCTGGATCTAAACCTAATTGTGTTGGTAAATCAAAAGCCATGCTTAAGCCCGTTTGTCCTGCTTCTAAAAGTTTTCTAAAACGCAAATTAGTATCTTCAGAGGATCCAAACCCAGCATATTGTCTTATTGTCCATATCCTTCCTCTATACATATTAGGATATATACCTCGTGTGTAAGGATATTCTCCTGGAAATCCAATATTCTCATTATAATCTCCTTTTAAATCCAAAGGGGTATACAATGGTTTTATTTGAATTCCAGAAGGAGTTGTAAATACAGCTTTACGTTCTTTTCTCTTAGCAATCCACTTCTTATATACGTTATCTTCCCATTCTCGTAATCTATCTTCTACATCCAATAGAAATACCCAATATACAATTGCTTAAACAGTATAAAACCTTTGCTTTTTAATCAAATTTATAAGTGAAAATGAATCAATTAGCATATGGAATCAGAAAATGTAGATCATATAGGTATAGTTGTGGAAAACCTAGAAAACGCGATTAATTTTTATCAAGAAAAATTCGGTATGAAAGTTATCGATAAGGAAATCCTTGAGGACAGAGGTCTAAAAGTAGCATTTATGATAGGTAAAAATGGAGAGACAGCTTTAGAGTTATTAGAACCAGTAAACCATGAAGATCTCAATAATACAATAGCAAAATTCTTAAAAAATAGGGGGCCGGGCTTACATCATATAGCGATAAGAGTTTCAAATATTGAAATGTCTTTAAAAGATTTACAGAATGAAGGACTAACACTAATCGATAAGGAACCAAGAAAAGGGGCAAGAGGACATTTAGTGGCGTTTATACATCCTAAGAGCTCTATGGGAACGCTCATTGAACTTGTTCAAGAAAGATAGTATTTTTAGTAAATTTTAAATTCCTACATTGAGATAACATACACGACCAAAGATGGCCGGAAGAAAAGAAAGAAAAGATCCATTCAGTTACTTTGATGACATGATTAGAGATCTAGAAAAAGAATTTGAAGATATGGAAAGAGAGTTTTTTGAGGCAGCCAAAAAAGGCGAAGTTAAGACATACGGACCTTATGTTTATGGATTTAGCGTAACTGTAGGACCAGATGGAAAACCAGTAGTAGAAGAATTTGGCAATATTAAAAGACTAGGAAATAAACCAGTAATAAGTGAAGAAAGGGAGCCAGTGGTGGATGTTATAGAAAAGAAAGACGAAATAAGTGTAGTAGCAGAAGTACCTGGAGTCGATAAAAATAGCATAAAAGTGACAGTTGATGGAAATAAATTAACTATAAGTGCAAATTCTCCCGATAAGAAATATTATAAGGAAGTTGAATTACCAGCTAAGGTCGATGAGAATTCGGCAAAAGCCACATATAAAAATGGAGTATTAGAAGTAACTTTCAAGAAAATAGAGACTAGCTCTGGGAAAGAGATAAAAGTTGAGTAATTTTTGCTTTTTCACTTTTAATAAAACTTAAACCAGAAGGATCTTCTATTATTAATGTGAAAGTTAACTCACCATTTTTTGCTTTATATAGCTTTTTACAATTATTTTCGTCGCATAAACTTCCTAAATTATCCATTATAGCTTCTATTAAACCTTCGACTGTAGATATTATACCTTGAGACCCTGCCATTGGTGTAATCTCAACATCTAATTCTGGTATAAACATTGAAGCAAAAGCTGATCTATAAACTAGAATATTTAAATCTTCATCTCTCTCTATTTTCAACTCAATTTTTTTAGGCGTATAAGTCTCATAAGGTTTAACGTCTCTGTATCTATAGTTACAATTACTACAAACCCAATTTGATAAAATAAGTTTTCCAGTATTTTCAGACTCATAAAGGTAATCCCTAGCTACAAGAGTATTTTTACCGCATACTGGGCATTTTAATGTTTCTTCAAATATTAATTTAGGCTCCATTATCTCAACCAAAGCTTATTTGGTAGTTCTGCATTAATTTTAATTTGAGATAAGTGGTGAAATGAAATATCCACGAGAGAATGATATAGGTAAAATAGAATATAAGCTTATCCTATCTGACGTTCCAGACGAAAGATTACAAGAACTAGCAAGTCAGATGAAGTTTAGAATAGAAGAAGGCGGTGGAGAAGCTATTTATATTGTAGGCGTAAGCGACGATGGAGACGTAATAGGATTAGATCAAAACGAATTATCAAACACAATTTCCGTCTTAGAAAAAATAGCTAAAATGATAAATGCCAAAATTGTTCACCAAAGACTAGTCGAAGTTAAAAATGATAGATATGTGGCTGAACTCCTTATTAGACTCCATAAAGATAACATGCCAATCCAAGTAAATGTTGCAGTAATGGGCCACGTTAATGCTGGAAAAAGCACAGTTACCGGAACTCTAATATCAGGGAAATTAGATGATGGTAATGGCAGTTTAAGAATAATGATAGCAAGGTATTTGCATGAGATAATCAGTGGAAGAACATCATCAATAACCATGAGAATACTAGGATTTAACGATAGCGGTAATATAGTAAACCACTTTCTTAGAGATCCTTTAGATGAGGCAGACGTTACTATTAATAGTTCTAAAATAATAAGATTAATAGACCTTGGAGGACATGAAAGATATTTGAGAACTACTCTAAAAGGGTTAATGGGTTATGATGTTAATTACGTTATGCTAGTTGTAGGTGCAGACGATGGATTAAGTATAATGGGACGAGAACATCTAGCAGTAGCTTCAGTACTTAAATTCCCTATTTTCGTCGTTATAACTAAGGTTGATAAATTTCCTAAGGAACGCGTAGAGAAAATTGTTTACGACATAAAAAACGTTCTTAAAATACCTGGCATAAATAGGTTTACAATGGAAGTAGAGGATGAAAATGATGTCTTAAATGCAATTGTCGGATTAAAAACCGGGAGAATAGTTCCAATTTTCCAAGTATCAAATGTTACAGGCCAGGGTATTAATCTGTTAACTAGATTTCTTTATATGTTACCGCCAAGAAAACTAGAGACAGTAAGCCGCAATCCATTAATATACATTGATGAAATATATAATGTGACAGGTGTTGGAATTGTTGTACTGGGATCAGTAATTAGAGGTAACGTTAACTCCAACGAGCAAATATTTATAGGTCCAACAAAATTTGGAGATTTTATACAAGCAAAGATAAAAAGTATTCAAGTTAATAGAGTTTTCGTGGATGAAGTAAAACCTGGCACTATAGCAACTTTTGCAGTACAAGGAATAGAAAGAGATCTATTAAGAAAAGGAATGGTAATAACTAAAAATAAACCGAAAGCCGTAATGAGTTTTAAGGCAAAAATAATTGTATTACATCACCCTACTACTATAAAAGAAGGTTATGTTGCTACAATGCATTTATATACTATAAGACAAGCAGTTAGATTTTCAAAGATAAATAAAGGGCTATTAAGAACTGGAGATTCTTCTGACGTGGAATTAACCTTTCTATATAGACCAGAATATATAGAAAAAGGTCAGATATTTATATTTAGAGAAGGAAGAACAAGAGGTCTAGGAATTATTACTGACGTTGATTAATGATAGTGTGCATGCTATTATTTCCTTTGTCACTTCTTTAGCCTTAGAATCAATAGTTTTACGTATAGCATTAGAAAGAGGTCCTCTAACATCATAACTTGCATGCCACTCAACATATTTATCTTCTACTTTAACATTAGTATTTATGGTAATAATTATTCCTGGACCAGAAACTTCTATTACATTCTTAACTTCATTATTTAATACTTGAAAGTCTCTTATTTCACCTTCTAATTCAATTTGTAATGGACCCATTTTCATTTCTGCAGTAAACTTGTTTCCTTCGACTTTTGTCACATTTGGAGTACATTTAAGAAGATTATCTTTATTTCCAAGAATTTTTATAGCAACTTCTTTATCTCTTATTTCTTCTTTTCCACTAATTTCGTTCATTTCTTGTCAACCCTTTGCTTTAAGCAGTCGAAAAGTTCTCCAATTATTTTGTTCATAGCAGGTTCCATTAGTCTACCTCCAACCGATGCAAGAATTCCAGATACTTTAACGTCAGCTTCATAAGCTATTTTATTGTCTTCAACTATAACATTAGCTAAAATATCTACATTACTATTTAGTCCAGTGCCCTTTGCGGTTAACGAGAAACCGTTATCTCGCATTTCAGTAAACTTTACGGTAGCCTTATAATCACCTTTTATAAAACCTATACCTGTACTCCCAGTTACTTTATATTCATCTCCTTCCTTTTTTATCTCCTTAATTCCAGGGAAACACTTGGCTACATCCTCAAGATTTTGTAATATATTCATTATTTCAGATTTATTTGCTTTTACTTCAACACTACCTTGATACTTCATAGAGTTCTTTAATCACTTCACAAAAATATCTTTTAATGACAATAGCTTCGATAATTCTAGCAGGAGGAGAAGCGAGAAGATTTGGTAAAAATAAGTTAATTGAAAAAATTAATGGAAAAGAAATAATTTTGAGAGTATTAGACGCAGTACCTACAGAAGAAAGAGCAATAATAGTAGGGAAATATTGGGAGGATATTCTAAAACTAATACAAAACGAGATAATAATATATAATCCGTTCTGGAAAAGCGGGCTTAGTTCCTCATTAAAACTAGGCATAAAGTTCTTCTATAATTATGAAGCTGTAATGGTATTTCTAGGAGATATGCCATTAATAACTAAGGATATCTCTAACAGAATAATTAAATCATTCAAAGACATGTGTGTAGCTATTGTGCCTACATATTCTGGCATATGGGGAAATCCAGTTATTTTACGCAAAAATCTTTTTGACGATATCATGCAACTAACTGGGGATAAAGGAGCCAAGGATATTCTAAAAACAAAGAAAAATATATGTACTGTAGAAATAGGAAAAGAAGTGCTTACTGATGTTGATACGGAGTCTGATTTATCCTTAATTTCTGAGAAGCAGACTTTATAGCCTCAACTATATTTTGATATCCAGTACACCTACAAAGATTACCAGATATTCCTTCTCTTATTTCTGTTTCTGTGGGATTTGGATTTTCATTCAATAACCAATAAGCTTCCATTATCATACCTGGAGTGCAATATCCGCATTGGAGAGCGTGCTTCTCCCAGAAAGCCTCTTGAATAGGATGTAATTTTCCATCTTTTGCAAGTCCTTCTACAGTGAGTATTTCTGAGCCATCTGCTTCTACTGCTAATACAGTACAAGATTTAACTGATTTCCCATTCATTATTACAGTGCAAGCTCCACAATTCGAAGTATCGCAACCTACATGCACTCCAGTAAAACCTAATTCCCTTAGAACATGCACTAGCAATCTTCTTGGTTCGGTTTCATATTCATAAACATTACCATTTATTTTTAAGTGAATTTTTGTTTTTTCATTATTTTCTATAACTTTCATTTAATTCACCTTCTTATTGCTTCTATAATTGCCCTCTTAGTCATTATTTTAGTTACCTTCTTTTTATATTCTGCTGAACCTCGTATATCTGAGGAAGGATTAGCATATTTCAGAACAAGATTAGAAGCCTCCTCTATTGTCTTTTCATTTATTTTATCTTTTAATATATTTTCTGCGTCATAAGCTCTCACTGCCTTAGTATTAACTGCAGTAAGACCTATTCTTACGTCTTTAGCTTCTTCACCTTCCATCTTAAGCAAAACTGCTACACCTACTATAGCAAAATCTCCAGCTCTTTTCTCTAATTTCTGATATGAAAACTTATATGACGAAAAGTCATTAACTCTTATTTCCTTAAGTAATTCTCCTTGATTTAAGTCTGGACTAAACATATCTTTATCATATGCCGAAAAATCTTCTGTTCTTTCGCCATTTTTTCCAACAATTTTTACTTTAGCGTCCATAGCTATTAATGCTGCAGGATAGTCTGCTGATGGATCTAAATGAGATGCGCTTCCTCCTATAGTTCCCATATTTCTTACTTGTGGATCTCCTATTTTGGATGCAGTTTCACTTAGTAATGGAATATTTGCTTTCGATATTTCGTAATGAGTAGAAAGAGCTCCAATTGCATATTCATCTCCTTCTTTTTTTAAATAATGTAATTCATTTAGCTTTCTGATATCTACTAAATAAGAAGGTCTTATGATTCTTAGTTTTAGCATCGGTATCAAACTATGACCTCCAGCTAAGGCTTTTGAATCATCATGTTTCTCTAAGAACTCTAATGCCTCATTTAAATTATCTGGAAAGACGTAACCAAATTTTGGAGGATACATTGTGGTTATATTTTACTTTTCTTTAATATTCTTTACGTATTTATCTGGATTTTTCTTAAATTCGGCCATGCACATGGGGCTACAAAAATAGTACGTAACTGATTTATAAGTATATTTGTAGGTAGTATTATTAACTTCTTCTCCACATACGGGATCCTTCATTGTCTATCATGAATATTTATGATAATTGCCACAATTTATTTCTTAGTTTAATTACTTCCCCTACTACTATTATTGCTGGAGATTTTACATTATTTTCTCTAACTATTTTTTCCAGGTTAGATATTGTGGAAATATACACTTTTTGAGTATCTAAAGTTCCATCTTGAATAATTGCTACTGGTGAGTCAGGGTCTCTAACTTCTAAAAGTACTTGCTTTAGTCTATCAACTTTATTTATACCCATTAAAATTACTAAAGTGCCTTTTTTTGGAATATAGCCTTTGTCTATTACTTCACCTCCAGCTTTAGTCCCAGTTATTACGCAAAATCCAGAAGAAAACCATCTGCTAGTTACTGGAATTCCAGCATATTCTGGAACTGCTATCGCACTAGTTATACCTGGTATAACCTCACAGTCTATACCAGAATTAATTACAAACGAACATTCTTCTTCTCCTCTCCCAAAGACATATGGATCACCACCCTTTAGCCTAACTACTATTTTTCCTTCCATAGCCTTTTTGACTAATATTTCATTAATTTCGTCTTGATACCTAGAATCACCTATATTTTTTCCAACATATATTAGTTCAACATCTTTTTTACAATTATCTAATAGCTCCTTAGATATGAGTCTATCATATACTACAACATCTGCGTTTTTAAGAATTCTTAATCCTTTTACAGTTATTAACTCTGGATCTCCAGGTCCTGCACCTATAAGGTAAACTCTTCCATACACTACGTGATATACTATAATAAGAATAAAAATTTAGACTCTTATATGGCGTTTATTTTCTTTATAACATAAACTGCAAATATAACGCCTTCTGAAAATTTTATACCATATACATATCCTAATACATTATCAACTAAAACAGTTTCAGGTAGTCCATAGATTTGCGAGAATATATAAAGTACTATCACGTAAAATAAATCTCCTGCGAATGCTAGACTATATAATACTACTTTTTCCATAAATTTTAATGATGAAATAAAATATCCTGCTATAAATCCACCAGAGAGCTCAGAAGCATATGCAAGTATTGATATAGCCGCATTAGTTTCTACTGCCCTAAAAGCTAATGGAGTTAACCAAGGTATAACAAGAAAAGAAAATATTACAAAACCTATCCAACTTCTTTTTCTTAATAAAAGTGAGGCTATAGGCATTTGAGTGCCATCTAGATCCACAAACTTATCTTTTGGAGTAGAAGAATTCATAACATACCAGCCTAATATAGCTCCTCCGATAATAGGACCTTGGTAAGATATTAATTTTTGTAGAGGATCACCAATAACATAAACTACGCCAGAAATAATCAAAATAAAAAAAGATAAATATTTTCCGAGATTAAGAAAATTCATGATTTTCACGGCAGATATATGTTATATATCACTTTACCATCTAATATTTCCTTTTTTAATATTTTAACTCCTTTTTCTTGCATTGCCATTGCCCACATTTCTACCTCGTCCGCCTGTACTCCTTGTTGAGCTATTATTCTTACTTCTTGGTTACCTCCAGTCTCTAACCAGAACTTCATTAGTGATACGGATGTTGTACTGGCACCACAGCCTCCGGGCTGTTTGCTAAGATCCAATTCATTCATTATATATCATTTTCGAACTTACGTCTAATATTTTTTTATCCTCTAAAAAGTATATTTTATTCCAATTCTTTTTCTGCATCTCATTCAGTACGGACCTAATTATAGTTCTAGTATTACAGAACGCTCCTTCGCATTTAGTAGCATAAACATTAGTAAAATCTATTAATGAATATAACTTTCTTTCTCTTTTGTCATTAGATGATAAAATTATCACGTTACCGTTTTTGGATGAAAAAATAGGAGAATGACAAAACTGTTCTAATCTTTCATAGTTTGATTTTTGACCGAATATTTCCGCAATCTTTAGATAAGCATAGAAGGCTATACCGAAATTTTCTCCTTTTCCAATAAAAAATGGATTACATAGAGGAAAAGGATCGTCCGTACCTTTATCTTCCTCAATATTAGCTATAGAATAAAGAGCACTTAAACTCATTAGAAAGGACAATGTTCCCGGTAATTGATATTTAGAAGAATATGGAATTTTTATTATTAGGTCAGATAATTTTGCCAGTTCAGTATTTTCATTAGCTGTTATTGTAATAATTTTTACTTTTTTACTAAATTTTTTTGCTAATTTAATATTTGATATAGGCTTTCCAGATACTGAAACTATTATAAGTGGCTTATCTAGTTCATTGTAAGTAAGTGCGTCATATGGATCTATTGCCCTAAATCTACCATTTGTTTTTCCTTCAATTACTAAAGAGGCTGCAAAAGAATCTCCTGCACCAGTAACATATGCACTATCTAAATTTATATCAGCTTTAATTTTATATTGTGTATTAAGCTCTTCATTAATAATCTTTATATAATCTATTTTGTCACTCATTCCAATGTCAGATTTTTAATACATCTAATACCTAATTAATTTGTGAGTTTTTAGCTCGGGTGCGACTAAGATGAAGGTTCTAATAAAAGCTGGTCTTGCATTAACAAAAGATTCTCCATTACGTGATATTTATATTGGCATAAACAATGAAAAGATAGAAGTAATTTCTAAGGATGAACCAGAAGATTATGACGATGCAGAATTATCTATAGGTGGATTAGATAGATTAGTCTCTCCAGGATTTATTTCCATACAAACATTTCTGTCTTTATATCCTTTTAGATATAGAATATTTTCTGGCAAACTAAATGTAAACGATATAGTATCGGTAATGGACGAGAAAGACGTTTATTATTTCTCCTTACTTGCTGGTTATCATTTACTAAAAACAGGAATAACTAAAATTATCACTGCAGATCCTAAGCCAGAACATGCAGCAAGAGCTTTAATGACTATTGGACTAAAACCGATAATTGCAGTAAGTGTTGGTTGCAGCTGGAGTTCATCAGACTGGAAAAGAGAATTTAAGGCTTTATACTCAAGATGGTCTACAAAAGAAGAAAATAGAGTAATAATAAAACTTTGTGATGAAGATGAAGCTGAGGAAGTTTTTGGAATATCAAACGAATATAAAATTCCAGTTCTGGTAGATAGATCAATAAATTTATCCAGATTTAAAGAAATACCACGAAATATAATAGCTCTAGGTGGAGGTTCTAGAAAAGATTTAGAGATAATAAGAAAAGAGAATTTAGGACTATCTTTTACACCGTCTTACGAAATATGTAAGTTTACGCTAGGAAGTTATATGCCATCAATATCTTTAGACAGCACGCCTAGGTATGATATTAGAACGGAAATGGGAATTGCAGCATCAAGATTACTATTGACCTCAGAAGAAGCATACAAAGCTGCTACTATATGGGGATACAAGCAGGTAGGTATAACAGAAGGTATAGAAAGGGGATCTTTAACTGATCTAATTATATTTGAGGTAAACGAACCACCTTCTTTTCCTCTAGATAAAGAAAGCCCATTCGAAAGCATAATTTATTCATCGTACAATTTAGAAACAGCTATAGTTGGAGGAGAAGCAATACTTGATGGAGGAGTGCCATTAAATATAGGAATTAAGGATATAGAGGAGGCTAACAAGAGAATTGAAGAGATCGATGAAAAATATAGAAATATGGAAAAGGATTGAAATAGTAGGAGATATAGCAATAATAGGTATTCCATTTAATGAGGAACCTTCAGATTTAATAGATTATGCAAAACTTCTTTTACAAGAGTATAAATACATAAAATCAGTATGGGGAAGATTCAGGAATACTTCTGGAGAATATAGGCTTCCTGAATATCATTATTTGGCTGGAGAAAAAAGAAGTTATACATTGTATAAAGAAAATGGCTGTACATATTTCTTAGATTTTACAAAAGTTTTCTTCTCTCAAACTCTTTCTTATGAGCATCTAAGGATTGCAAAACAGGTTAGGAAAAACGAGATAATAATAAATATGTTTGCAGGCTTCGGGCCTTTCTCTATTCTTGCCGACAAGATAGGATATCCACAAAAAGTCTACTCTATTGATATTAATCCATATGCATACTACTTTATGAATTGTAATATAAATATAAATAAAACATATGATGTAATACCAATATATGGAGACGCATTCAAAAAAATATATTCACTAGAAGATGCCAACAGAATAATTTCCCCTCTTCCTGAGAAACATAAAGAGGCATATGAAGTCGCATTACAGAAAGTAAAAAAAGACGGTATAATTAATCTATTTGTAGAGGTAGAAGTAAAAAAAGGAGAAAATCCTATAAAAGTCGCTATGAAAGAGTATCCTAAGTCTATTTTTGGTAGAATAGTTAGAAGTGTTAATCCTAGAAAATATCATGTTATTCTAGACATAAAGCCATAATGTTTATAAATTCAAAATAAGAGTTATTTATCTAATGAACATAGATAAAATGATATTAGGTTATAATTTATCACAAAAGAAAAAAGTTACAATAGGCAATTATATGATAAAATTTCATAGAAGAAAAGTTTCTAAAAAACAATATGATTACTTATATGTTATAGAAATATTTTTTATGAATAGCCTTATCAAAAGAGGCATATTTTCTGAATATGGTAATGCTGTAGATTTTGCTGGAGAATTTTTGTATTCATTATTATAAATTTATTAAATAACGAATAGTCAATAAATATGCTTATAGACGAAATATATTTTATGAAATGCTTATATTTTAAACCACTATTGTGCTTTAAGGGATAAATTGTCAAGAGATGACGTGATTGAGACATTAAAATCAGGAAGAATAGATTACGTTAGAGTAGAATTTATAGATATATTAGGTAATGTAAGAGGACGTTCTTTAAGAAGGGCAGAATTTGAAAACCTAATATTAAAAGAAGAAGGAGTTCCATATCCAGAGTCTTTGGTATTACTAGATTATAAAGACGCTCCTATAAAAACAAGATATGAAGACATTATAGCTCAACCAGATCCGTCTACCTTTGTAGTCCTACCGTATCTTGAAAGAACTGCAAGAGTTTTATCATACTTGACATATCCAGATCTGACACCGTCTCAGTATTGTAGTAGAGGATTATTAAGAAAAGCTACTCAAAAATTAGAGGAAGTTGGTTATAAATTGAATGTAGCATTTGAACCTACATTTTATTTATTGAAAAGCGATGATGGAAACATTATACCTGCGGACTATGGGAAAGCTTTTTCTCCTGAGGGATTGATGGAAGAACAAGGTTTTCTAAGGGATATGATAAAATCTCTTGAACAAGTAGGAGTACAGGTCGAGATGGTTAATAAACACTATGGGCCTGGTCAATACGAAATTACGTTCTCCAATAAAGAAGCTCTACAAGCTTCGGACTCATTAGTTACAGCTAGAGAAGTAATTAGAGACGTTGCAAGAATATATAACACGTTTGCTACATATATGCCCAAACCTTTTTCTGATAAACCAGGAAGTAGTATGGATATATATTTTAGCTTAGAGGGTATAGATGGTAAAAAGGCAATAGATACTAATGATACAAAAGGTCTTGGATTAAGTAAGTCTGCCTATAGTTTTATAGCGGGTATTATGGAGCATTTAAGCGGTATACTAGCGTTTGCTGCACCTACTATAAATTCTTATAAGAGATTTAAGGAGATAATAACACCAACGTTGCCTGGAATTGGAACTGAAAGACATTATATAATCAGAATTCCTAGTAATTTTAGGGATACAAATCTTTTAGAGTTTAGACTAGCCGATCCTTTATCAAACTCATATTTGTTATTGTCATCAATAATATTCTCTGGAATTGACGGTATAGAAAAGAACCTAGATATAGAACCTAATGCAATAATGGGAAATATTCCTACAAATATTAATGAAGCTTTAGAAAAACTAGATAAAGATAACTATCTTAAATATACTTTAGGCTCAGATCTAATTTCTTCGTTTATAGAACTTAAAAAGAGAGAAGTAGAGAATTATGAAAGTTATATAACTGATTGGGAGCTAGATGCTTATCTAAAGGCAGGCTGGTAATGAAGGCTGCAGTATTTGAAACTCAAGGAAAACCATTAGTAATAAAGGACGTTAAAGCGCCTATACAGACAAACGACGGCATAGTTCTTAAGGTATTGGCTACTGGACTTTGCCATGGAGACGTACATATAATAATGGGTGATTGGCAAGGCGATCTGGATATAAAAACACCTATAATTCTAGGCCATGAAATAGTAGGTGAAGTAGTTACTGACGGGAAAAAAGTTAAAAAAGGAGATATGGTTTTAGTTTATAATGCTTTTGGATGTAATTCTTGCAAATATTGCAAACTTGGGTATTACCAATACTGTGAAAAAGTTAAAGTACTTGGAGTTCATGAAAATGGAGGATTTGCAGAATATGTTAAAGTTCCAGACGAAAATAATTTAATTAAAGTAGAGGGAAATCCTTTTAGTTTAGCACCATTAGCTGATGCGGGCATAACGGCATATAATGCATCGGAAGGAATACAGAATGGAGATAAAGTAGCAGTATTAGGAACTGGTGCAGTAAGCATGCTTGCTGTTCAAATATTAAAATTTTTTGGAGCAGAAATAACTGTAGTGGGCAGAAATCCATTAAAACTATCTAAAATGCAAGAAATTGGTATAAACGAAATAATTTTTTCGCGCGGGGAATACGCAAAAGATTTGTCTGAAAAATCTACTACAAGAAAATTTGATTATATCTTAGATTTTATAGGCAATGAACTTACTTTAGACGACGTCTCATGGATGTTATCTAGAATGGGAGAATTAAGAATAATAGGGGAATTCGGAGGGACGTTAAGAATACCAGAACAGTTAATAGTTTTAAGAGGCCTACGAGTGAAAGGTATACTTTATGGTAAAATGGAACATTTGACTAATGTAATAAAGCTTTTTCAAGAAGGTAAAATAAGAACTTTCCCTATTCTCTATAGGCTAGACGAAATCAATTCTGCAATAAACGATCTAATGTCTGGAAGAGTAATCGGAAGAGCAGTTATAGTGCCTTAAATATAAATGGTGAATTTCCTTCAATTTCTATAGATCTATTCTTAATAAATTTTTTTATTATTTCGTAGTTAGTAATAGCATGTTTGGTTAGTTTTGCCCCAGAGAATATACCTCCGTATAATGCAGCATAAATCATAAGCATATCAGACATGTGACTATCAACTGCAGCACCACTATTTAATTCAGTTATTAACGTTCTTGCAGCTTCTTCTCCTACCTTTTCCGCTCTTTTACCCTTTTCTCCCAACGAATCGGCTCCAATAATACTTTTTCCGTATGCGGCCAATGTGATTCCTGTCCCTTCACTTTCATTATCTCTAATATCTAACTCAATATCTATATTATTTGAAATATTGGACAATATCTTGATAGCCGAGTCTTTCTCTCTTTCAGCAATATTTAAAGGTAATGAAGAAACATGAGCAATGCCTAATATTTTTTCCAATTTTCCAAATTCTGTTATATTAAATTTATTAGGGTATCCCCTAAAATTTTCTATACTTATAATACCTCCACCTCTTGGATAATGACCTCTTTTAATAACTTTTACCTCGCCATGTATTCCAATTAATTCCAAGATTTTCATATAAACTAATCTAATATAATCTATGGTTGGAGCCTTAGGAACGTCTGTACCTCCTATTAATGTTATCCTGATTTTTTTATTTATTATTACTGGTATGACAGACACAGAAATTAGAGTCACACTGCCAGCAGAGCCCACATCATAAGTTATTTCTCCCTCGTCTAATGTATCTTTAGGTGTAAACTCCAATTCTTGAGATCCAAGGAAGTCTCCTCTAGTCTCAGCGTTACAAAGTTGTTTCATAATTTTAACTGCTGCTAAATGCTGCCTTTGTAAACCTGGCTTAGACCTTTTTGATCTTATGTTAAAAATTCTAAAAGGAGTTTTAGTTACTACAGCTAATGAAAGAGATGTTCTTAATATTTCTCCTCCTCCTTCACCGAAAGACCCATCTATCTCAAGCATAAAGTAGTTTATTATGAGAGTAAAAATAAAACCGCTATTAAATATCATAGGTCATGAAGAGCTTTATGTAATACCTATTAAGAGAAATGGAGATTACTTACTATGTCTTAATTTTTATGAAGATATAATAGGAGGCACATTAGCTAGATTAGTTATAGTTTTGGATAAGTATAATGAAATAAATTCTATAAAAGTTATTGAAGGAGACAAAGGTATAGTAGAGGTTTTTGGAATTAAGGAAGATTTTGATTTATTAAAGAAACAAATAAGATTACCTAAAATACTTGTGTCTACAAGAATTCCATTTTTCATAAATATTAAAATAAAAAATCAGCCTGAAACATTAGATAGAGGAATTACAGGTTACTTGAATTATGTAAAAAAATATGGGGAAATTAAACCACTTAATTTGAATTTAGATTTAGAAATACTTGTCTAATGTAGATGACTTATATATCTTGCCTAGTCTTACACCCACTCTTCTTACTTGTCTATTATCATCTTCCAAGATTTTCTTAAGTAGAAGAAGAGATTCCTGAAGAGCTTTTTCCCTATCTATACCGTATGGAAAACTTTTTTCTCTACTTATAATATCAAGGTCATTCATGATAGTTACAACAGCTATAGATTTTGGAAGACCGTCTATCTTATTATATGCTTCATCTATAGCTTTCTTTAGAAACGGCAATATAATTTCTATATTACGAGTATTTTTTGAAAGTGTAACGTATCTACCTTTATGTTTACTTATTCTAGGTCTAACTGGTTCATCGTATGAGTTATTAGCAAGTGACAGTAAATAGTTAGCCTTAGCTTTACCTATTTTGTTCTTTATAGTCAGGAAATCTACTTTAAGTACATCTCCTAAGTAGTTTATTCCTATTTCCCTTAATCTGTCTTCAAGAACTTTACCTATACCTGGTACTTTGCCAATATCTAGAGAATTTATAAAATTATTAACATCATTATCCCTCAATATTCCTAAACCGTCCGGTTTACTCATGTCTGCCATTATTTTTGCGAAAACCTTGTTAGGTGCTATACCAACAGTTATAGTAAGACCTTCCCTCATTTTTACTTCTTCTTTTATTTTTTTACCTAATTCCATAATATCTGAATAGCTTTTTACTTTTTTGGTTATATCTAAATAAGCCTCATCTATACTAGCTACCTCTATTCTATCACTAAAATTTTCTAAAATTTTCATAACTCTTGAAGATACTTGCTTATATAGGTCTTTTCTCATAGGCAAAAATATCGTATCTGGGGCTATTTTCTTAGCCATTATTATAGGCATACCAGATTTTATTCCTAGTTTTCTTGCCTCATAATTAGAGGTAGCTATTGCACCACTATCCTTAGTTCTGCCAGAAAAAACACACACAGCTAATGGTTTACCTTTTAACGAAGGATTCATTATCTCTTCTACTTGAGCGAAGAAATAATCGAGATCTGCTAATGCTACTATCATCTACATTTAGCATTAATCTTCACTTTTTTTAATGTTTGCACTACTTCTTCAAGCGTTGGAGAACTAGTACCTCCAATTCTTGATACTTTTAATCCAGCAGAGACATTAGCGTATCTAAGAACATCTTCTAAATTGTTTCCATTCAAATAAAACACATTAAACGCTGCGTCGAATACATCTCCTGCGCCAGTAGTATCTATTACATCAGTCTTTAACGCTTCTGAGTAACACTCTTCATCATCTCCATAAATCATAGCTCCCTCACTTCCCTTTTTGATTACAGTTAATTTAGCGTTTATTTTATTTTTAACATCAGCATATTCTTTTTTGTTAACGAACAATATATCTACCTTTTCTCCTTCGTATGCTTTAGAATATGCACCTGGATCATATGTAATAAGTTTAGAGACTTTTGATATTACATTAGCTGGAATAGATGCAAAATGAGTAACGTCAAATATTCTGTTATATTTTGCTACATCTTCTGCTGTAGGTAAAAGAGAATTAGAAGTCCTTCTTATCATAGAAATATTACCGTTTTCCCTGAGTAATATTAATGCATAATTAGGTGGTGAATTTATTTCTTCTACTAGATCTAAACCTACACCTTCCTCCGCTAAATGCGCCATTAAGGGCTTTACAATTTCGGTCTTACTTACCTTTGATAATAACTTAGAAGTATGACCTAATCTAGTAACAGCCACACAGTAATTAGTAGCAGATCCTCCTGGCAAAATTTCAAAGACGTCCGTATTTAGTGAAAAATCAATTTCTGGAATTTTATTTACCTTAACTATTACATCTACATTAAACTTTCCTACGGCAAGATGTATCGGTTTCATCAGTTAGCCGCCACCTCTTCATTGTTCTGTCTCAAAGGTCTTCATCACTATTAACATCTTCGGTTTCGAATATTTAACATTAGGGTCTAAAAGTTAATTTCATAAACTTATAGTTAAATCGTTTTTACGATCTTAATGGTAGAAATAAAGGAAATAAGGAAAGTTGAAACTGAGAAAGCTAGTATTCATAGTCATATTACTGGTTTAGGTTTAGACGAAAAAGGTAAAGCTCTACCTAAAGGAGATGGATTAGTAGGCCAATTAGAAGCCAGAGAGGCTTCAGGTATAGTAGTACAACTTATTAGACAAGGAAAAATGGCAGGAAAAGGAGTACTTTTTGTTGGTCCCTCTGGAACAGGGAAAACGGCCCTTGCTGTGGCTATCGCTAAAGAATTGGGCGAGGGAACGCCATTCAATATGTTAAATGCTTCAGAAATATATTCAACAGAACTTAAGAAAACTGAAATTTTGACTCAAGCAATACGTAAGTCTATAGGAGTAAGAATAAGGGAAAAAAGAACAGTATATGAAGGAGAAGTAAAAGAATTGAGACTTAAGGTAGCTAAAAGTAGATTAAATCCTTACTCTGAAGTACCTAGAGAAGTAGAAATAACATTAGTCACAAAAGATGATCAAACTAAACTTACTGCAGGAGAAACTGTAGCAGAACAAATAGTTAGGTTAGGTATAAGAAAAGGTGACGTAATATGGATAGATGCTGAAACTGGAAACGTTGTTAAGGAAGGAAAGGCTAAGGGATCAGTTCAGTATGATATAGGAAAAACCATTGATATACCGTCTGGAGCTGTTAAAAAAGAAAAAGAACTTGTAACCACAGTATCGCTGCACGATCTAGATTTAAACGTTGCGGCACAAAGCGTTTCAATAACCGCCATATTCTCTTTATGGACAGAAAGAGAAATTACACAAGATGTAAGAAAACAAGTTGATACATTAGTTAAGGATCTAATAAATAAAGGAATGGGAGAATTATTGCCTGGTGTATTATTTATAGATGATGCTCATATGTTAGATATAGAAACATATTCTTTCTTAACTAAAGCTCTTGAAGCAGATTTAGCTCCTATATTAATACTTGCAACAAATAGGGGAATAACAAAAATTAGAGGAACTGACATCGAATCTCCACATGGTATTCCGTTAGACCTACTAGACAGATTACTTATAATACCTACAAAACCTTATACTCCCGAGGAAATAAAAGAAATTATTAAAATAAGATCTGATGAACTAGAAATAGAAATAGAACCTACAGCTTTAGAAGAACTAACAAAGATAGGTTCAGAAGAAAGTCTAAGATATGCTGTACAATTATTAGAACCTGCAAGAATAATTGCACAAAGAAATTCTAGAAACATAGTAAAAGTAGAAGATATTAAGGAGGTATATTCATTGTTTGCAGATGTAAAGAGAAGTGTTAAATATGCGAAAGAGTATGAAAATCTATTATTAAAATGATGAATGGTGACGGATGTGAAAGGTGAAAGGATCGTTGCCGGGCTGAATAATTATTTGCGATATACTATAGTAAATGGATATTATTGAAATTTTTGAAATAGTCTCGAAGTATTCTGAAAGTCATGCCCCATATTCTATAATTATTATACAGATACGCACCATCTTGCTCTACTAAGTCCTCACGAGATATCCAAAAATATTTAGAAATTTCATTATTATCTATTTTTATTTTTTCATTCTCATATTTGCCCAGAAAAACTGCAACCTTAATTTTAACATTATTAGGAAAATAATATCCTAAAAAACCTACTATTTTAGGTTCAAAACCTATTTCTTCTTTGCATTCTCTTAATGCCGCATCAACACAACTTTCGCCGCTTTTTACATGACCTCCAGGTAATCCCATATCTCCACTCCAAGGGTCACCTTTTCGTTCGGCTCTTTTTATAATCAGAAATTTATTCTCGGAGACAATAAGGACAACCGCGGCTTGACAATCCATATATTTCTATTGAATCTTGAAATATATTCTTTTCTTCCACTTATTATCCTTACTAGGATAATCTTCTCTGTAATGATTACCTCGACTTTCTTTTCTAATTTCGGCAGCTTTTGCAGTAAGAAGCGAAACTAAAGCAGCATTAGAATTCTCATTAGTAGAAAAAGTATCAGCTTGAGTATAAATGGAAATAGCCTTATTAAGTTTCTCCTCATTTCTCACTATTCCAATATTTTCCCAATTAATAGTTCTTATTTCATTTATATCAATTAAATTACCATTGGTCAACTGTAATGAATAAATTTCACCATCATTAAAATATAATCCTTCCCATTTATCAATATAATTTGATATGTTTATACCAAATACAAGACCTTCTGCTAAAGAGTTGCTAGCTAGCCTATTAGCTCCGTGAAGACCAGTATCACTAACTTCGCCTATAGCATATAATCCTTCTATATTAGTTTCACCTCGAGTATTTACTCTAATCCCTCCGTCTACAAAATGAGCTCCAGGGAAAATGGGGATCTTGTCTATAACAGATAAATTATGTCTTTTTAAATAATTATTAACTACAGGAAATTTTTCCTCAAAATTTTCAATATTACTTAAATCCATAAATACTTTATTGCCCTTTAAATATTCTGAATAAATTGCTCTAGATAAAACGTCTCTAGGAGCTAGCTCACCTTTTTCATGATATTTAAACGTAAATCTCTCTCCCTTATCATTGATAATTTTTGCTCCTTCTCCCCTTAATGTTTCAGTGAGTAAAAATGTTTCATCATCTAGTGCTGTAACTGTAGGATGAAATTGAACAAACTCCATATCAGCTAAAAAAGCACCAGCCCTAAATGCTATTGCCATTCCATCTCCAATATTAGTTGATTGGTTGGAACTATATTTATATAAATATCCATATCCTCCAGTTGCCAAAATTATCTTATCAGCACTTATTTCTCCTCTCCTTTCAGTTATAAATCCCTTTATTTCATTATTTTCAACTTTTAATGATTTAACTCTATCTTCTACTAACTGTATCCCTAATTGTTTAGCTTTATACATCAAAAAATCATAAATATCTCTTCCAGTCTCATCAGTCTTATGTAAAACTCGCCTTCTAGAATGACCTCCTTCTAATCTTAAGTCAGATGCAAATCTAAATCCCCATTTTTCTAAAATTTCTACTGCTAATGGAGCCTCTTTTGTTACATAACTTACTGCTTTTTCATCACATAGCCCATCTCCTACAATTATAGTATCTTTTGCATGAATTTCTGGCGAATCGTTTTCTCCAACAGCTGCTGCCAAGCCGCCTTTAGCTATATAAGTAGATCCACCCGTAATATTCTTTGTTATTACTGTCACCTTATAGCCAGAATTAAAAAGTGATATTGCTGCAGAAAGACCAGCTATTCCATTACCTATAACATATATCATTTTATCGAACATATGTTCGAACACTTAAAATCTTTTCTATAATAAAGATAATTATATCGTTTTTATATAATAAAACTTCGAAATAAGCATTAATATGTGTTTAATTAGATAAGCATATGGATCTAACTTTACCTTTGTTTGATACTTTAGAGGATCTCTGGGGAGATATAAATGGCATAAAAATGTCATTTGCAGGAAATCAATGGTTTGTAAGCAAAGCTCTAATTTCACTATTAAATTCTAAAGGATACAAGGTGTATTTAGAGACTATTCCTCCAGGAGTAGTTAGGAAAAGGGCTGAAGGAGAATCGCTTAAGATAGGTAATTTAGAAATTACTTTTAATCCAGAAATTATATCTTTGCCACCCTCCATGATGGATGGACTAAAAATAAGGGAAAAATTTGATTACGTAGAAAATGAGATTGTAATAGTATATACAAAAAATGAAATAAATGACTGGTGCGAAGTACTAGGAAAAAGAATAGCTATACCAAATCCTAAAACTGAAGGCATAGGGAAAAACTTCATGGAATTATATCAGGAAAATTGTGGAAATTATGAAGAATTAGCAAACTCTGGAGTTTATATTACAATGGTGCATCATAGAGAGATACCTCATATGTTAAAGCTAGGAGATATAGAAGCTGGAATAATGTGGAAAACTGAAGCAATGTATTGGGGATTTAAATATTCAATACCATCAAAGAATAGAATTTCTAAGCTAAGTTTTGCGTTACTAGAAAATTCTAGTGAAAAAGCAAGACAAGTTTATGATATCCTAAAAAGCAATGAAGTTAAAGCCATATATGAAAAATTTGGGTTTAGGTGGATTAAAGGAAGTCCTTGATTAGATTTGCAAATCTAGTATCATCATGTAATCTATTAATTTCTAATACTGAGTTTTTCATAGATCCTATAATAAAATCTTTTGGAACAGACATAGGTAAAGTTGAAGCTATGAACTCACTACTTCCTTCTGGATCTTCTTTAATTAATTCTATACCTTCTGTATATAGCCTTATAAATTCGTCCTCGTTTTTGTAAACTTTAGCTCCACAGCTCCCAGGAATATTAAGCAATTCTTCAAAACTTTTACCTTTAGCTACTGCAGAAGATAAAACAGCACTGTCAATATTTTTTTCTTTAAGCATTTTAACTAGCTCTTGCATCTCGTTAGCGTAAATTAACTCTGCATTAATTTTTTTCTCCCTGAGTAATACTCTTGTAAGAACATCTGCAGCACTTCCTTTTCTCCAAACTCCTATTTTCTTTCCTATATCTGGCGAAATTACCATTAGGCCTTTTATTGTTATATAATCTATTTTTAGATTTCTTCTTACTAAAGATACAGTAGAATCTAATATAACATCCACATCGTTATTTCCATCTTTTCCAAAAACTATTTGTATATCTTTATTCTTCATTTTTGAGGCTATTATAGGGTATGAAACAGGACCGGGCGCAGCTAATACTTTCATAGGTAACATTGTTACTCTATATATATTAAATATATGTTAGATAAAGTTATTAATGAAAAATTTAAATAGGTAACATTGTTACCTATTTTTACCTAGTCATTAAAGATATTATACCATCAATTATCCTTTCCTTAACCATGGATGGATTAGACCATGAGAATAATGACGGCTCTAAATAACAAGATAATCCGCATTTATTGCAACTATAATACTTATCCCACTCATACTTTTCCCATAAGTCTTCTATGTCAGTATCCCATACATATACAGAACCGTTATACTCATTCAAGACATAACAAGGTAAAACTACTCTACCTTGAGGATCAATATTTATGGTAAGCCAAGGCTTACATTCCCAAGGTATTTTTCTATACCAAGAATTTATTATTGATTCAAAATACTCTCTTGAATTCGTAATAGGCGCTCCTGATTTTTTTAATTCTAATAATTGCTCTAGTATAGATCTTAACTCTATAAAATCCGGAGATAATTTATCTGCTGTAGAATAATTATATGCTACTTGAAAATTAACTGAAACATTTAAATCTTCGGCCAATTTCACAATTTTAACTGCTTCATTCATATTCTCGCTAGTTATAGTAAAACTTATATCAGTAGGAACATACTGCGACGCTACTTTTATCCCTTCTAATGATTTCTCAAATGCCCCTTCTACGCCTCTTATTGAATCATGAACTTCCCCTATTCCATCTATAGATACAAACAGAAAATCTAAATTCTTCTTGATAGAATCTATTTTATTTTTTAATAGAATGCCATTAGTAACAAGAGATGTATGAAACCTATCATGTGATTCTTTCAATATTTCCGGTAAATCTCGCCTTAATAACGGCTCTCCTCCTTCAAATCCCATAAATATAACACCTGCATCTGCAAGCTTTTTCATCATTTTTATTTCGTCATTTAAATCAAGTAGCTTTTCATCTTTTCTTCTCCAAAAAGGGCACATTTTACATCTCAAATTGCATGAATATAGCAACTTATGGCCAGCTATCAATGGTAATTTTTTATTACTTTTCAAAAGCCTATATGTCCCTTGAATTATAAAAGGCTTTATATTAAAAACCTTAGAAAGTGTCATTATCGTAGTTATAGTATATTATAGCATTTAAACCTTATTTTCATAATAAATCGATGAACTTTAGTAAAAAAGATTATGAAGAATATTTAATCTATATTTTAAGATTCTTAAGCTTAAATCAATATGTTCATTTGCTACACTCTGCGTATACATAGAACAGAAATTTAGATCTAATATTTCCTTAGAAGTTTCCTTAAGGATTTTTTCAATAGTCTTAAAATCTATAGATTTTATGTTTCTTACACCAGAGTAAAAAGATTCATAATCACTCCACAAATTAAACCTCGATACCTTAGAATTAATTATCTGTTGTATGTAATATAATGGTTTCCATGCAGTTAAAGTATGTCCATGGTCTATTATGTATGCATTATTATCCTTCATTAATACATGATCTTCCTTCAAATCTATGTTTAGAGTCCATTCTTCGAATGCCAAAGCTTCTTTCAACTTTTCTATATTTAAAACAGTAGGAATTGCCCTATCAGGCAAATACTCCATAATGAAGCCTTTTTCTCCATCTTTTTCTATTATTTCAAGATCTAGAATCGGATATCCCAGATATCTTCCTAATTTTGAAGAAGATAATTCAGAAAAGACTTCTATTGCTATATTAACATCTTTCTCTTTCTTAAATTTCTTGAAAAACTTCACGCTATTTGCTCATGCTGCTAGATTTTAAATTCTTCCTAAAGTGACACAAATACTATCTATAGCTTACGTTTTCTAATATGTAATTATTAAGTATATAGATTAGGAAAACTGTTTTAACATTAAATTAATAAACAGTTACTACTAAAAAGTTCCATGGCATATAGAAATCAATCTATAAAAATACTTTTAACATTAATAATATTGGCAATAATAGCATTCTCATTACATTTAATATCACATTATTTAATAACATATGTTAAACCATTAGCTCCATATGTTAATTACGTCGATTTAGCTATAGACGCTGCAATTGTAGGAATTGGAGGATATATACTTATAAGAATACTTCAAAAAATAATTTCCATTTATCTACTATCTAAAGTCGAAACGTCTACTGCTCATACTTTAAGCTTAGTCCTTAATATAATGCTATATTCTATCCTTGTTTTAGCAATATTAGCCGCATTGGGAGTAAATTTAACAGGAGCAGCTATTGGAGGAGCTATTGGAGGTATAGCTATTGGTTTAGCAGCTCAAACATTCCTATCAAATATATTATCAGGACTTATGGTTACCTCTAGTAAAACTTTAAGGCCAGGCGATGCAGTATCCTTGTCTTCATGGATATGGGGATCTCCCATTATAGGAGAAACCCAGAAAGTAAGTATTTTATTCACAGAAGTAAAAACAATCTACGGCAATGTAGTTAAGATACCAAATTCTGCTTTCTTAGGTAATACGGTATTTACAAAATTAGAGGGAGGTAATTCACTTATTTACTCATTTCAAGTTACACTAAATGCAGACGTAGCAGCTGATCAAGTACTAGTTAAGGCACAGAATTATATAAAAGACGATTTCACTAAATTACGATTAACATTTCCAGAAATATATTTCTCTGGCAAAAATGGAGGAACAAATACATTTACAGTGATACTACATTTTCAAAATTTAATAGATTTGAATAAATTGCTTGACCTAATAAATAAAGCATTCGATAAAGCCTATTGGGATTCTAAAAAACAATGATAATTAAAAAAATTTCTTAGATATATCGATATAACTTAGAAGAACTTAAATATTTAGATATATCTTTTTTCATTATGCGATACAAAGCCTTATGGAAAACACTTTTAGTATTATTCTTAATAATTATTAATTCTGAAGGAATATATTTAGGTTTCAATCAAAGTTCAACGTTCATAGGTTATGCTAAGCCTCAAACGCTAATTGCCCCAGGAGAAACCGAAGTTCCAATAACATTTAGCATAACCAATTTAGGAAATACTTTATATAACGTATCTATAACTCCTCTTCAGATTTTTCCATTTTACCTTTATAAATACTACAACACTACAGATATAGTCAATATACCAATATGGGAACATGGACAAGAAATCAATATTACTTTCCTTTATAACATAAATTCCACAGCATTAGATGGAGTTTATAAAATATCATTGGATATAAATGCTACAAACGTAACTAAAATAGTATCTTTCTCTGTACCAATCTTAGGTTATGTAAAGATAACAGCGCAAGGTGTCTGGGGATCTTTAAACTCACCGCTAGTAGTAGCACCAGGAGAGACTAATTTGCCATTGAGTATTATACTAGTTAATGAAGGAAACGTAGAAGGATATAATGTATCTATAACTCTTAACTCAACATATCCAATTAAATTCGAGCAAAAGAAAGTTGATATAGGATATTTACCAATAGGTCAACCAATAACAGCTACTATATACGCATCTATTTATAATAATGCATCAGAAGGAGTATATAATATACCGATAACCATTAACTATTTTAAGAATTCTAATGAAAAAACATTAATTTCAGTGCCTATAAATGGATATGAGAATTTCTCAATTTCTGCTTTATGGGGAACTCAATCTAGTCCCATGACTGCGTCACCAGGAAGTGAAAATTTGCCATTGACATTTATAGTCAAAAATTTAGGTAATGTATTAGCATCAAATGTTAGTATATTTCTAAAACAAGCATATCCGCTTAAAATATCTCAGAAATATGTTTCTATTGGAATAATACCAGCGGGAGAATATAATTTAGCTACTATAACTGCTAGTGTATATTCTAACGTTACACCTGGTATATATTATATACCAGTAATATTACATTATTTTGAAACCAATGTAACACAATATGTTCCACTCCTTATTTCCTCACCTAAAATTGCAATAAATATTCTTACGCTTCCGCCCCAAATATTTCCAGGATTCTATGACGTTAGAGTCAGTGCTATAGTATTAAATTATGGAAACGGAATAGCTGAAAATTCCACAGTTTCATTGTCATCTCCATTTCCGATTGTTTCATCAAATAATGTATCTTTAGGTGCTATACCTATAGGTGTTCCAGAAAATGTGACATTCTTAATAAATGTTCCAAATTCTACACCTGCTGGAAATTATATATTAAAATTCCATATAAAATATGACGGAGGAAGTTTAGTTAAATATTATAATCTTACAATCTATCCAAAAGCCAATATTATAATAGTCTCCACTTATTATCCTACACTTAATCCAGGCTCTTCCAAAGTACCTATAACATTAACTTTCAAAAATATAGGAAACGCGGAAGCTAAAAATATTATAGTAAGATTAGGAACGTCAAACGTAATATATCCTCATGTAAGTTCTTCAAATCCGTTAGCAGCATTAACTGCTTCTGAAATATTTATAGGAAATTTAAAGCCAGGTCAAGAGACCAATGTTACATACATAGTTGATATAAGTAGTGGAGCTACAGCTGGAAAATATCCATTAGCATTTGCCTTAATTTGGAATCAGACAGGATCCATAATACCTCTTTACGAAACAGATCAAGTTAACATTACTATATCTCCTACTCTTCTCTCTCAAATAAGCAGTGTAAACGTTGTTAGTATTCCAGTTTTATATTTAATAATAGTTATCATTGTACTTATAGTTATAATAGCTATAATAAGTGTAAGAGCTAGAAGAAAGAGATAAAGCTTTTTTATACAAATATCTTCCTACTAATTAATGAGTAGTGTAATAAAATCATTAACAATACTAGGTATTTATCTAAGGCCAATTTATTCTGCATTAGCCATGATACTAGTTTTCATATTATACTTTATTCTCTCCTTGATATCGCTTTTAACTTTATTTTTTACTCGTGGACTATAATGAAGGCTATATTATTACTTATTCTACCTATTATATTTTCTTTAGCATCTAGTGCATATAATACAGTAAATATTAACTATAATGGTCATGTAATTATTTATGATACACAATCTAAAGAGCTCTATATACCCCCAAATGCCAGAAATCTTTCAATAAACGTAAAATACGTGATCGAAAACAATACTATTATATTATCTTCAATTCCAGCTACAATAAGCTATTATGAGAATTTTTCTGGTGTAATTTCGTTTTCTGAGAATTTTACATCTAAAATTATAATAATTTTACCATCATATATTAAACTATCATACATTTCTATGTCACCAATTTCCTTCAAATATTATAATGATTATTTTAATTTAACATTTATCTCTAAAAACATAACTATATTATATTACGTTAGTGGCTATACATATACTACGGAGGTTTCACATAATAAAATATCTATCTTTTTTATTGGATTTTTAGTTTCTTTATTTTCTACTACATTTCTCTTATTTTTGCTGATAAAAAGAAATAGAGTTAATATTAATTTTGAGGAAAATACCAATACATTAGATGATCGAGATAAAAAAATTATTGAAGCTATAAAAAATGGAGCAGATAATTTAACTAGAATATCGGAGATGACGCAATTACCTAGGACTACTGTTTATAGAAGAGTAAAGAGGCTAAAAAGTCTTGGCTATTTAGCAGAAATTAGAGAAAAAGGAAAGGTAAAATACCTAGTGAAGGGAGATAAAAATGAACAATAAACTATTACTAGCCTTATTTATAATCTCGTTATTAGTTCTTGTATATTCTACAACTGAACTTACTAGTAATATCGTAATTCATAAAATTTCTAGAACGCAGTATTATACTTTCTCGTATAATTATAGCCAAGTTATATTAATACACTTTAAGAACTTTGGAGACTATACTTTCCATTTAAATGTTACTAACAATAACATAAACCAAGTATATGCTATTGTTATAGTAAAACCAATAATGTCACCGATAATTTTAAAGAGAAATGTCATTACTTTGTCGTCATTGAATAATACCTTTGTAATATTTCTTCATCCTGGAAAATATGTTCTTGAAATATATATATCTGGTATAGCAACAAAGAATCTTACAGTAACACAATTACGTAATTATATCAGCATAACGTTGTATAAATCCTAGACTTTTTAACTTATTGCTATTTCACAATTTTCTATAAATCTTTCAACTTTAACAAAATAGAATTGTAAATCTGATTCCTCAAAGTTCTCGGATATATAACCCTCATAATGTAACTTTAATCCTAATTCCCATGCTTCGTCTATCCAATCTCCCAGGATATCCGAAATCTTAGGGATTGCGTTCCTCAAATCTTCTGAAATACCCAAATAGCTCTTGAGAGATTTCATCCCTTCAAGTATTGCCTTATATAAGTCTTCTGAAGCTGCAGCAGGTAGACTCATGTTAAGTTCAGCCTGCTCTAAATAGAATTTAGCAGATTCTAGTCTTATCTTAGCTACCTCTTTTTCATCTACTTTCCCTTCTAATGCTTCTGCTAAATCTTGTGGACTACTTTTACCTACTTCTAAAATTACTTCTGCCAGATTCACAAGATATAAATTAATGAAGAAGATGTTTTAAAGTGAACTATTAGATATTACATAAAAATTTCAATTTTTATATCATTTATATATCAGTATTTAGATTTACTAATATACCTATAGATAATCACGATTGCAGCTACAAAAAGAATAACACCTATTGAAATTATTGAAGTAAGTTGAATAGGAATTAGGTTAGAATAAATTCCATACATCATTATTCCTGAACTAGAAATTGCTAATAAAATATCTATAAAGGAAATTTTAGATATCTTTCTGATAAAAAACGGATATACGGCAGAAACTATAGAATGAGAGGCAAATAAGGTAATAAGAGATATTTCAGTGGTAAAATAATATATTAATTGTAATTGTCCTGTTATACTACCTAACACATTAAAAATAAGAAAAAATATAAACACTGTAAGAATAGATTTTAGCATATTTTTAGATACTAATGTATATGTTAGCCTAGATAATGCTACGTATGCAGAAATAGCCGAACCTAACAAACTATTTACTGTAAAAATAAAAATAATAAATGCAAAAGTAAACCCCATAAATTTCTCTGATATATAGAATCCTGGAAATTCAGTTATATTAAGCAAATTAGTTACTCCTAGATTACTGTATCCAGCAGCAGCTATCTCATAATATGAGGCAAAAATAACCGCTATAGATGCTATCACAAAGGCTATAAGATAAGAAGAACCAATTGTCTTTCCTTTACCCTTAGCCTCATAGCCTAAAAAGAAAGACGCGCCGCCTCCAGCTAATGTGAATGCTACAGCTAAAGCCCCACTCCAGAAATCATATTGCGGTACCGTAATGAAAAATGGCTCTAATGAAAAACCTTTAATTATCAAAACTTTGAAACCTAGAATTATTATCAGAATTACCTCTATAGTTGAAGATATTAATGAATAAAATAATGGTGGCTTTATTCCAGATATCATTAATAATGTCAATATTATTGGAATAGTTACTTCAATAATAGATAAATATATGCTTTGGAAGTTAATGACAGTAGGTAATACAATACCTACTAGATAAGTTGTGACAGACGGTAAATATATGGCATAACTTATCCAATAAAGCCATCCTGCTATTGAGCCTATTGTTTCTCCAGATGCTTGTCTAGCAAATTCATATGTTCCTCCAGTAGATGCTATTACTTTTGAATATCTATAGCCTATTATAACCCAAAGTAAATAGACGAACACTCCTACTATAGAAGCCAATCCTGTTGAAGCTAATGAGGACGCTAAAGCAAACGTTAGATATGCAGAAACTGAACCTAATGGAGCTATTGAACTCAAAGATTGAGAAATTACTAGATATTTTGGTATAGAATTTTCTTTTGGCTCGAGCTTCTTGGATAGACTAACCATATTGTAACTTTAATGAATTTACTTTTATATATAAAGCTTCTTCAAGAATTTCCAGACAATTATAGGCATTATTATGAGGAATGCTGTTATTATGGCAAGTACTATCATGTGGAAATAATAAAGTATAAGCCCCATATAATAACCAGCATATATACTATAGAATATTAACGTATCTCCTAGTTTAGGCTTTTTTATGATAAAGAACGTTATAAAAGCAGTGGTTATAAAGAAACCACCTATTATTGCTGGTATTAAAATATTCATAAAGCAATAATACACTTTAAAAAATAAAAGCTTTGTTTTTGATTTTTATTGAAAGAAATGTTTATCACTAACCTTTTTTAATAGGTAATAAATGATTAGATATTCATACTATCTACTAGGATCTTCAATATCTCTGTTTATTGGAGGTATAATGTTAATTGGAAAAGTTCCCTTAATTTTGACAATTTCTACATTAATTATAGTAATTTTTCTTATATATCTAGCATATTCTATAAATTCTAAAAAGAAAAAGGCACTAATAAACCTAGGTTTAGTTTTAGGAATATTAAGCATAATAATTTCAGCTACTTCTCCTGCACATTTTAATGCACTTAAACAGTTTGGTAATGGATATTACATTACAATTTTAGATATATTGATGATCTTAGGTTTTTATGGATTTCCACTTGCATATATAATTGAATGGCTAACACAAATGAAAAAATCGAAAGTTTAATATACTAATATCCTTAAAAATGTTCATGTGAAAATCGTAGACCCTGGAGCTAGAGTAGCAGATCTTTTAGGATTATTAAGTATATTACAAAATACATTCAATGGTAAAACGGACCTTTATCAACTTGAAAAAGAAATGGAAGTAGATTTAGATGATCTAATGCCTATAGTCTATACAGCAAGTTATTTAGGGTTCATTACCGTAGGAGAAGGTGATATAATAATATCTGATAAAGGAATAGATTTCCTTAATTCTAACATAAAGAAGAGAAAAGAAATCCTAAAGGAAAGTTTACTAGATGTAGAACCATTTGCTACAGCTAAAGATCTAAAATCATTTACGCTAGAAGAATTAAAAGATTCGTTAGAGAAAAAGGGTATTAACATATATAATAGTCCTGAAGGCCTCTATGATTTGCAAATAACCTTATCAGAATGGGGAATTTATTCTGGCTTTATCTCTAGACATAACGACATATATAAGATAAATTAATATCTCTATATTTTGCAAGCATTGGGTAACATAATTTATGGCTAAAATTTCTTATTTTAGAAATTTTTAGATGATGCTTATAAAAAAATTCATCTAAATACTAATTTATCTTATTATTACGAAAAGTCGTAATTGAAGAAATCTTTTTACGAAATGTCGTAATCCAAGAATAATTTTTAAGATTATACTATATAATGAATTTATGCAAGAGTCGCAAAAAGAACCTGTTATACATTATACCGAGGAAGCCGATACTTTTAGGACAAAGGTCTTCGGAATTCAGGACGGACTTATTGGAGTAGGTAGCATAACTATAGGTGCAGCAGGTTTTTCACATGATCCTTTGATAGTTGTAGTTATGGGATTAATAGCAACAATAGGTCAAGGATTCTCTATGGGAATTGGTGAATATATCTCTACAAGAGTTAGAATGCAAGTTATAGCAAACGAGATAAAGAAAGAAAACTATGAAATTAACAATTTCCCAGAAAAAGAAAGAGACGAGCTAATAGGATTCTATATGAGGAAAGGCTTGGGCAAAGAAGAATCAGAAAAAATAGCCGACATAGTAATGAAGGATAAAAAAGTAACTCTTAATGAAATGATGATGCATGAACTAAGAATATTTCCAGAAGAATTTGAGAATCCTATTAAACTTGGTTTTTTGATGAGCCTTTATTTAATTATAGGTGGTATAGTTCCGCTTGTGCCTTTTATTTTATCAATTTTTATTAAATTTGACTTCTATTACGCATTATTAAGTTCTGTCGCAATAATTATAGCAACACTAGGAATATTTGGAAGTCTAGCTACAAAGTATACTGGATTGCATAAAAGTAGAGGAGCACTAGAGCAAATAAGTGTAGGAATAATAGCATTAATAGGAAGTTATTTGGGGGGTTTAATATTAGCACACTTTATACCTATTAGCTATCTACCTTAAGAATCTCAGCTAGGTTCCTTGGTATACGAGCCGGTTTATTTTCCTCCTTAAATAACTCTTTTCTTCTGGCCTCCAATATTTCTGGTTCTTTATTAAGATATTCTGCAGCTGTTATAACTCTAGCATTAACACTTTTAGCTACTTCATAAACTCTAGATAGTACTGATTTATAATTAATATCCCTCAAAACATGATGATCAACTATCATAGTTTCTAATCCTTCTTTTACGATATGTTCTAAATTATCTATTGATTTATCTAAATCTTCTTGCTTTAATGCGTAGCCCAAAAGATAACTTAACGGACCGTCAATAATTATTGTATTAGGTTTGAGTTCTTCTGTGAACTTTATATGCATGTCTCTTGGTGCACCTTCAATGTCCGAAGTTATCAAAAGAGTTTGATCACCGTCTCTTATACCCACTTGAACCACATATCCTAATCTCTCATCTGCTCCATGAGGTACTGCATTAGAGAAAAATATTTTTGTAGAACCTATCTCTATTTTTTTACCTTCGGCAACCTCTATAGAAGATGGCAAACTTTTAATGGAGTTTAGAAACTTAGGAGCTCTTATTCTCCTTTGACTGTTATTTATCATATTTTTAGGATCTTTTATGAAAACTTTTTTATTTTTATAGATATCTCTTGGGATAATATACCCAGGATCATGATGATCATAATGGTAATGTGTAACTATAATGACATCTGCTAATCTTGCTTTTTCAGTTACGATTTTGGCTAATTCAGATAACTTATCGACTTCTTTTTGATGCGGAGGTAGACCATATCGTCTCGGAGCTAAGGAAACCGCCGGGTCTATTAGAATTCTAATGTCTTTAGTCTCAATAAAAGTAGCCTGAGATCTCACGCCTAAACTTTCAAACGCTAAAGGTTCGATTATCATAGTTTAATTATATTTGTCACTACCCTTATAACTCAATAGTAAACTTAACTAAATATTATATAAATCAAACTCCGATAATAGTTAACTTAACATCTTAAGTTTTATATTACCCATAAAGAAGGTTTTTAGTAAATAATACTAACGCTATAAGACACTAATATTATACTGAAAATAATATAATAAAAGTCTTTAAATATTTTTATATACTACATATTGTTTAAGATAGATTTGAGTACTAGTGAGGTCTACAGAATTACAATACTAGGAATAAAAGGAGGAGTAGGCAAATCTACAACTGCACTTAGCCTAGGAAAAGCGCTGGCTATGAATTCAAAGAATGTTTTATTAGTAGATAGAGATCTTATAGGATATTCTTCTTATATTATGGGAATAAGAGATAAAGGTATCTTAGCTAAAGTTGTAGATGATGAGGATAATTTTGGCAATAGTTACAAGGAAATAGCCATAAATGAGGGAACTTTAGGAGTTATAAAATTATTTGGGGATGGAGATAGATTTCAGGATGATATAGATAAAATACATAAAAACAAGTATTTAATGGAACAGTTTTCGTTATTATATAAAAGATTCTTAGTTTATAGAAAATATGATTATTATATAATAGATAATCCTCCATTGGTTACGAGTAATAGTGAAGTAGCAAAACATGAATTACAAGTATTTTATTCTTTATTCGAAAATGCCAAAAATCTTAGGATCTATATAACTAATTACTCAGAAAACTCTATCCAAAATACGATAGATTACATCAAAAATATTGAAGGTAATACAACATATCCTGGGATACCGCTATCATTTATTATAAATTTGGTTCCAAATACATATGACGAACTTCAGCATGCTAAAGATAAAATGAAAAAAATAATTTCTAATCTTAATATAGCTTTTGGACTAGTTATCCCATTAAATGAGAAATTAATTAATTTTTCTGGAAATATAGTTGAAATTCCAATTCCAGAAGAAATAAATGAGCTTGCCATAAATATTATTGATAAAAAATTTGCTGATCATAAAATATTGTCTGTTGCTCCAAAATCTTTGGAAAATATATTAAATTCTAATTCAGTCATATTAATAGAGGGTGTACCAAATTCTAAGAAAACAAATCTGATATTAAATATTTCTAAAACATTAAATAATAGGAAAAAAGTAATAATATTAGTTTCTACTAATGATAGAATATATGATATATTTAAAAGAAATGATATTAATTTTATAAATATTTCTATATTGCCAAAATATAGAGAAGAAAGATTTGTGATAAAGAACATAAGTGATGTAATAAAACTTTCAAAAAGACTAAGCAACGAAATTCTTGACGAGATTAAAGATATTGACAATCCAGCTATAATACTCCATAGAACTAACGATATAACACCGGCATCTAACTGTTGCGATTTGCATGCAGAAAAAAATGAATTTTGGAATTCATTTATAAATTATTTAAAATATAAGAAAAACTCACAAATATTTTTAATTTGTGATAAAATTGCAGACGATTGCGATGAAATAAAATCATTTGTTGAGTATGATATTTACACTTTTGAAAATGGAGAATATGAAATAAGGGATATTTTGTGAAAGTAGCTAACTTGATATTCTCTCTATCCCCTTTTTTCGTATCTACCATTTTTACATATATTACTTTTGTCAGTTTTGCAACTGCAATTATTGCTTTTGGAATTTGGATTTCAATGGTAGTTGGATTTTATATATTTCTAGATTTCTTTATTTTAAGTATAAGATCTAAAAAATATTCTGTAAAACTTGTAGGAAAGGAAACTAGATATAAAGTAGCGGCATTTGTCACCTCATTTAACGAGGATCCAAAAATAGTTGAAGGAACTCTTATGTCTATAAAGACTGCTATAGGTAATTTGGGAAATGTCTTCTTACTTGATGATTCCACTAATAATAAAATCTCTACCGAATTAAAAAATTTTTGCAATAAAAATGATATAATTTATTTACATAGAGAAAAAAGAAGAGGATATAAAGCAGGAGCAATAAACGATGCGTTAAAGAATATTAGCGAAAAATATGATTTTGTAGCAATATTTGATGCGGATCAGAGACCTGTTGAAGACTTCTTTAAGCAAGTATTACCATACTTTTCAGATCCTGCAGTAGCCCTAGTTCAAGTTCCTCAAAACTACTCAGAAATAAATTCTGGGATAGCATCAGGTGCTAAATATCAACAAGAACCATTTTTAAGAATAATTATGAGAGGGAGATCCATGTCCTCAGCTTTCTCACTAGGTTCTGGTAGCGTTTTTAGAATAAGCGCTCTAAAAGATGTTGGATATATGTCTGAAAATAGCGTTACAGAAGACGCTGCTACTTCGATAAAGATTCATGAAAAAGGATATAAATCAATATATATAGACGCTCCATTAATATGGTATGGCGAACCTCCACAAGATCTTAATGCTTACATGATACAACAATCAAGATGGGCATTTGGATATTTTCAATTAACAAAAGAAATTATATTTAGTAACTTAGATTTTTCAAAATTTTTTGATTATTTTTCTGGAACATTGTATTGGATAAAAGAAGGACCTATTACCCTGATAGAATTTTTAGCTCCAATATTTTTCTTAATGTTTAAAATTCCTATTATGAAAATAAATCCTGTGTGCTACCTTTTGGCATACATACCATACTTGATTTTCACTATAGCATTATTTATTTTTGCTACAAGAGATAAAACAGAATATGGAATAAAAGGATTCTATTTTCATCAAAGTGTAGAGTATCTAGAATTTCCTAGTATAACATTAGCGTTCGTTTCATGGATAATGAGAAAAAGAACTCCTTTTAAGGTTACTCCAAAAGAAACAAGAAAATTCAACTTAAATTTAATATTGCCTCATTTATTTATACTTTTCTTACTAATATTTAGCGATATTTTAGGATTTATATGGCTATTTTCCGTAAGATCATATACCTTAGCATACGCAATAAGTATCAATATATTTTGGGCAAGCTATCAAATTCCATTTCTTATTGGTGGTGTAATTCTCTCAAAAGAATTTTATAAGGAGAAAAAATACGTTAGTATGAGTAAAGTTAATAATTAGCATAACATTTTTTTATCAAATTGGTAGTCCTTAGATATTACAAAGGATTAATAATTTCTGATTCTTATGCACCAGGCTTAGAATGGAATGATGAATTAAAGAACTATGTTGGGTTTGGATATAAATATAGAGATGTTTTGAAATATTTCAAAAAATCTGGAATTGAAATCAAAGACTACGTAATGCAATCATTGCCATTCCCGTTGATTAAAGATAGTTTAAAATTGAGAGAATATCAAGAGAAGGCTTTAGACTCATGGTTAAAGTTAAAGCGGGGCATAATAGTCTTACCTACAGGTTCTGGAAAAACTGCGGTAGCATTGAAAGCTATTTCGGTTCTTAAAGTTTCAACTATTATTATAGTTCCTACAATAGATCTAGTAAACCAATGGTATGATAATATTCTCAAATTTTTGAGAGTAAGTTCAGGAAGAATAGGAGGAGGATATGATGAAATTAAAGGAATTACAGTAATAACCTATGATTCCGCATATACTAGAATAGAAGAGATAGGCAATAGATTTTATTTTGCCATATTCGATGAAGTTCATCATTTACCTTCTGAAGGATATTCTAATATAGCTGAAATGTTGGTCTCTCCATATAGACTAGGTTTAACCGCTACGCCAGAAAGAGAAGATGGAAGACATGTTATATTGCCTAATATTGTTGGACCAGAAGTTTTCAGAATAAAACCATCTCAATTAGCTGGAAAATACCTATCTCAATACGAAATTGAAAAAATATACGTAAATTTAACAGATAAAGAAAAAGAGAAATATGATGAATTAAGAGAGAAGCTTAATAATTTTCTTAAAAAGAAGAAATTTAAATTAGATAGTTTAAGAGCTTTTCATAGACTTTTAGCTATGGCAGGACGGGATCCAGAAGCTAGAGAGGCATTAATGGCCTGGCATGAATCATTAAAATTATCAGTAAATTCTGAAGCTAAAATAGATAAACTTAGAGAAATCCTAAAGGATAGTGAACAAGACAAAATTATAATATTTACTAGAGATATTGATATGTGCTATAGAGTGTCGAGAGAATTCCTAATACCTGCAGTTACATATAAAACACCAAAAGATGAAAGAAATGAAATACTAAGGAAATTTAAGGAAAATAAATACAGAGTTATAGTAGTTTCTAATGTGTTCGACGAAGGAGTTGATATTCCTGATGCTAATTTAGCAATAGTATTAGGTGGTTATGGTAGTTCAAGACAATTTTTACAGAGACTAGGACGTATCTTAAGAATGAAAGAAAATAAAAAGGCAAAATTAATAGAAATTATAACTAAAGGAACATCCGATTATAGATTAAGTAAGAGGAGGTCTCGTGCTACCATCTGAATTATCAAGATATAGAATAATTGGAAATAATATAGTTCCATTATTAGCGTCAGAAGAAGACATATCTATAGCATCTGAAATAATTAAACTCTTTAAAGTAGGAGATAAATTAGGTAACATTCAAGATGGAGAGAAAGTTCTAGAACAAATATATCAGTATGATTCGAATCTTCTAAAATTTATTCGTGGGCTATACAGAATTATGTTAAGAAAATGTACGCTTACTGGAGAATCTCCTATAGAGCCAATACTGATAAGAAGAGAATTATTTTCTAAAGGACCGGCAATTAATGATAAAGATAGACAAAAAATACTAAATCATGTGTCAAATTCACTAAAAATCGATGCAGAAAGGTTTATGTATTCCGATTTAGATAGCGAGAAGGTAGTCTCGTCAATAGAAGATATATCTCCAGAGAAATTATTAAAGGAATATAATTTATCTTTATTACAAACTTTGTTATTCAAATGTTATAAAATTAGAGTTCAAGTTCAGGATAATTGGAAAGAAATAGCAAGAAGAATTAAGTGGCTAGGTTTGATGTACTTTGCTTACGAGAATCCAATAAGTATAGAAATCATGGGACCCGCAACTCTCTTAAAACTTACAGAAAAATATGGAAGAAATATAGCTATTTTATTACCATATATTTTATCATCTAAAAACTGGAAAATAGAAGCTGAAATAGTAATCGGAAAGAATAAAAGAAGAATTTATAAACTTGAATTATCTAATATTGATTTTATAGAATATAATAAGGAAAAATATGAAAAGGAATTTGATAGTTCAATAGAAGAGAAATTCTATAATGATTTCAAAAATAGTATTAAAGATTGGAATATCGTAAGAGAACCAGAAGCATTAGTAGTAAATAAACATCTATTTATCCCAGACTTTAAAGTTATGAAAGGGAATTTGTCCATTTACATAGAAATAGTAGGCTTTTGGACTAAAAATTACATTAGAGAAAAAATTTCAAAACTAAAAGATACTAAAGCTCCCATATTAGTGCTTTTAAATTCTGAACTCAGTAAGGAAGATTTTGAGGATTTTCAAGTAATAAAATTTAAGGGAAAAGTTAACATAGCAGAAGTTTACAAATGGTTAAAAGATTATGAAAGGAAAAATGCCAAATACGAAATAAATTATTCTTTAGATAAGGATATAGTATCAATAAAAGAAATATCTAAAAAGACTAATATACCCGAAGATATCTTAAGAAAGAATCTAAAGAAGTTTTCAAATTATACTTTTATAAGAAATTATTATATTAAAAACAATATACTAGACGAGCTAAAACAAATAGATTTCTCAAATAAAAAATTAAGTGAATTAATTAATAAATATGGAGATTATATAGTTGAGGTATTAGACTTTTTAGGATATAAACTTAAATGGATTAACATAACAGATGCTATTGTAACAAAATGATTAAAGCAGCAATATTTGATTTAGATGGAACCCTTGTATCTACTGCAAATGTTCATAAAACTGCATGGGAACTAGCTCTTAAAGATCTTAACATATCAGTAAATGTTAAACTAGATAATTTAATGGGTATGAGAACTATAGAAATTGCAAAAATATTAGGTGGAGATAGATACTTAGAACTATTTAATAAAAAGAACGAATATTATAAAGATCTTGTAATAAAAATGGCAAAGCCAACACCATGTGCAGTAGAAATTCTTAAGAATTTAAGAGAAAATAACATCAAAATAGCTATTGTAACATCTTCGCTTAAGGCCTCTGCTGAATTATCATTAAGTATTCTAAATTTTTCTCCAGATCTACTTATAGCAGGCGATGAAGTTAAAAATGGAAAGCCAAACCCCGAACCGGTTATCTCAGCATTAAATAAATTAATGGTAAAAGCAGACGAAACTTTTGCTGTAGGCGATACTATGCAAGATATTATAGCATATAATAGGTCAAATATTCAAAAAATATATTTAGTAATAAACGATATAAACATAAATAGAGAAGAAGCTAAAAACTACGGGGCAAGAATAATTAATACCTTATGCGATTTATTTAAGGAGATTTAATACATTTTTACCACCCGCCTAATTTTTACCTAATAGTTTAGTTTGATCTAAAGCAATTATTGGCCCGTGTTTAAACACTTTTACAAAACTTCTTCTCAAAGCATATTTGTTTACCTTGTAAACTATTTTTTTTAACATTTTTCTCATTCATCTCTATGTCGATTGAACATATTTTATCTTATTTTCATAATACTATAAAGTTTTTATGCCCTACGATGTAGAACTTAAACAAAATAAAAATATAATGTGGACAAATTATATAAATCTGAATATTTTTCAACGTAAACTAAAGTTAAGTATACTACAATAAGATATAGAAAAATTTATATTATAGTAATTAGGAATATAATGTTCTAGTCTTCCAGCTAGAAGCTAATAGAAAATTATTATCATAATTATTCTAGTATATTACAAAATTATTCTGCATTTTACTATGTAAAACTCTATATTTTGTCAGTATTTATTAGTATATACTTTAATTCATTCCATAATTTAATTATTATATTAAAAATTGCAGCTCTTATCTCATGAAGTTAAATTTAGATTAAAAAATCTCAATATAATTTAAATAATTTATAAAAAGATAATAAATCAGCTTCAATAAAATTTTCTCTTGTTTAGTTTTGACTCTTTCAAGATAAAATTGTCAAAATAAAAGTATACGTTTCCCTAAAGGAAATATCATAAGTAGTACTCAACTTGTTAACGTAATCTTTTTTAACCTCGCTGAGAAGAGAAGAACTTGATGGCAACAAAAATAAAATTCAAGTATAAGGGAGAAGAGAAGGAAGTAGACATATCAAAAGTAAAGAAAGTATGGAAAGTAGGAAAAATGGTATCATTCACATATGACGACAACGGAAAAACTGGTAGAGGAGCAGTAAGCGAAAAAGACGCGCCAAAAGAATTACTAGACAAGCTAGGAAAATAAATTAATTATTTTTTATTTTTTATTTTATAAAAACGTAATCTTTAACACTGTCCACATTATTTATGAATTTTCCACAATCGCAATGTTTTTAAACTTTGGTTCGTATGTGTTATTTAAGGATTGATAGAATGATTGGTGGTAATTTAAGCCCAACAGATTTAGGTATTATAATCCTCGTAGCGGTTTTATTATTCTTTGGAACAAGCAAGATTCCAGAATTATTTAGAAATATGGGCAAGGCAGTAGGGGAATTCAAGAAGGGTAGATTAGAGTCCGAAATGGAGATTAATCAAATGCAACAAACTGTTCCTCAAACTCAAGTAAGTCAACAACCCACTCAACAAACTACTCCTGCTAGTTCACAAGCTAATCCACAAGATTTAGAGAAGCAAATAAGAGACCTACAAAACCAGTTAGAACAATTAAAAAAGCAACAAAACCAAACAACAAGTTAAATAATTTTTTCCAAAAAATATTAAGATATTTAAAAGTTTTATTTAGGTGAGTGATAGTAATGCTTAGTAATATCTCTGACATGATAATTATTATTATAGTCGGTATACTGCTTCTAGGTGGAGAAAAAGACATTTCAGGAACTGTCAGAAATTTAGGTAGAACGTTTCAGGAATTTAAAAAGAGACAAGAGGAATTTAGGAATGAACTCACTAGAGAAATTAATAATGTTGGAGATATCCCTAGACAAGCCGGACAAAGTTTAGTTAATGATGTATCTTCCTCTTATAGTAGAAGATATAATTCATATAATCAGGAGAAGATTAATCAACTAGAAGAAGAAATAAGAAAAATGCAAGCAGAATTAGAGAGGTTAAAGAAAAATGGTGGCAAGAACTGAAGAAATAGCTGATCAAGAACGCCCTTTATTATCTCATTTGAGGGAATTAGCACTTAGACTTAGACGTGCATTTATAACTCTGGCTATAGTATTTGTAATTTTATTTGCGTTTGATTTTAGGTTTATCACGATTTATGGTTATTCTATACCTATAATATATCCTAATTTGTTTCATAGCATATCAACAAGACTTATAGTATTTTTTATACATGCAGAATTACCTCCACAATTACATTTATTGAATTTAAATCCCTTTGATACTATATATTCATCCGCATATATCTCTTTTTACTTCGCCTTTTTTGTTGCTTTACCTATAATTTTTAAAGAAATATGGGGATTTATTTCGCCAGGTTTGTATGAGAATGAGAGAAAATTATTTAGAAACATTATATTACCTGGTATTACGCTGTTTGTTGCCGGTTCGAGTTTTGCTTATTTCATTATTGTTCCATTTATGATGAAATTCGTGCTTATATTTACGCAATCTTTAGGTGTAGAACCTACGTTAAGTTTAAGAGCATTTATTAGTACGCTTATTACTTTAATGTTAGCAGTAGGTTTAGCATTTGAATTTCCATTAGTAATGACCATCTTATCTTATATAGGATTAGTAAAGGCTGAAACTTGGAAGAAGAACTGGAGATGGGGAGTACTAGGTTCTTTTATAATAGCATGGGCTATATCACCTGGTACTACTGGAGGAATTATTGAAACTACTATAGGATTAATTCTTTCTGCATTATTTTTTGTAGGTGTAGCGGCATCATCCTTTGCCCAAAAGAGACGTTCGGCTTCCTTAGAACTAAAACAAAGTTTAAATTCTATAAAGAGAAATAGTTAAGTATGAAGATAATAAAAAGAGATGGAAGTGAAGAAGATATAATTTATGAGAAAATCGTAGTAAGTGTACTGAAAACTGGAGCATCCATTGAGGTTGCAAGAAAAATAGCATTTATGGTAATAGGTAAATTATATATGGAAAATAAGGAAAAAATTTCGGCTAAAGAATTGACATCGTTAATATTATCCTTTTTAAGAAAAGAAAATGAAGAATGGTATAGAAATTGGATAATATTTGATAAAGTAGTTAAAAAGAGAGAAACTGAAAAAGAGATCTCATAGACTCTTCGAGAGTTGAGCATAATTTAGTGTTATCTTAAGTTAAAATAGAAAAAAATAAAGTTATGATAAACGTATGGTTTACCCTAGAGAATGATGATCTTCCAGACTTAGTGATAGATGAACTAAGGGTGCAAACACTGATTTTATAACAAATTAATAAAACGTTTTAACCTTTAAAACTTAAATAAATTCGCAAAACGTCTATTGGAAAACAAAGTTACCAATCAAAAGGACATGAACTTCCGTCTTTTAATATTTTCTTTCGTGCAATGCTGCATAACGTACAAAGATTTATAACGTCGGTGTCATTTATAATTTTCTCTACAGTAGAACTTACAGTATCCATAAACTCTACGTCAGACTGTAACTTATTTATAATCTCATTATTTCCTCTCTTACCTTTTATATAATAGTTTACTTCTGCAGTCGTTATTCCTAAAAATGAAGCTATTTGAGTCTGAGATGTGCCTTTCTTATAAAGTCCTATAACTATAATTGCTCTAATAGCAGGAATTATATCTCTACTTGCAATTTCACATGGTGCAATAACTTTCTTCAAGGCTGAAATTCCTTCTGTTTAACAGTATTAAAGCTTTTTTTAAAAAGTAATATGCTAATGTATATATTTTATACCAAATACTTCATCTTCATCAAATTTTAAAGAAAACCCTAATTTCTTTCCAATCTTTATCATTGGAATATTATCAGGAAGTGTATAAAATTTAATCTTATCTAACTTATGTTCCATTGCCTGATTTACAAGTTCCTCAACTAGCTTAGTTCCTATACCCATTTTTCTATAATTTGGAGACACTACTAATGAGAATTCCCCATCTTCATACAATGAGGCTTCTCCTACAATATTATTATCTATTTCTGCTATTAAAGTAACCAAAGCTTTTCTTGAAATTAAATTTTTTATTTCTTCTTCTGTTATTTTCTTAAAACTAAAAAATCTCATATAAAGATCATCAGGACTTAAGGAACTATACAAGTTATATATATGTTCAACATCATTTATAGAAGCTGTCCTTATTTGTAAGTTTAGGTTCACTGACATTTCATTTATACTTTCGTATTCATGTATATAATCTTGTGTCTTTACATATTATAGACAAACGTCTATAATATTTTTTAATCAGAAGAAATTTTTGATTGTAAACTACTAATTTTTAAGATATAAATATTATATATGATTAATAGTGCAAAGAATTAGAGAACGTAATAGTATAATAATTAGATATAAAATCTTATAGAGTTTTATATTTAAAATTAAAGATAAAGTAAAAATGTATCAAGCCCTATGTAGCTTTATGAAATTAGTTCTACCTTCTTCTAATTTAGGATCTCCTCCAGCTATAACTATACTCTCTCCTTCTTTAACGTAATCCTTTGAATATTCTTCCACCAATTGAGTTATCTCGTCTAAAGACCTTACTTCTCTAACATAAAACGGATAAACTCCCCAACATAATTTTAATTTTTTGACAATATTCTCATTTGGACATAAAGCTATTATAGGAACTTTTGGTCGAAGTCTAGAAATTCTTATTGCTGAAATACCACTTCTGCTATGTACGGCTATTATTTTTGACTTAGAAACCTCTGCTACATTTACAGCGGCAATAGCTATAGCATCATCAGAACTGCTCTTTGGGGGAGGTCTCACAGTTTTAACTCTCTTCTCTACTGCAGTTATTATATTATCAAGATACTTAACAGCTTCTATAGGAAAATTTCCTGCGGCGGTTTCATCGCTTAACATTATTGCATCCACGCCTTGAGAAATGGAGTTTGAAATGTCTATAACTTCAGCTCTAGTAGGCATTGGGCTATTTACCATAGATTCTAAAACTTGCGTAGCTAAAATGACAGGTTTTCCGTTTAATTTTGACAGCTTAATTATCTTCTTCTGTACAAATGGCAAATTTTCTAGACCTATCTCTACTCCTAAATCTCCTCTAGCTACCATAATTCCATCGCTTTCTCGTATTATATTATGAAGATCATTAACGGCACTCTTTTTTTCGATCTTTGATATTATCCAAACCTTGTCTTTAACCATGTTCTTTATTTTTATTACATCTTTATAGCTTATAACAAAAGATAGGCCTATAAAATCAGCACCCAATCTCAAAGCTTCATTTAGTAATTTTAGGTCATTATCCGTTATTCCAGAATCTAATTTTATATCTGGTATATTTATTCCCTTTCTTGATGTTAATATACCGCCTTCTATAACAGTAGCTTCTACTTTATCTGAATCTACTTTATCGATTTTTACCTTAATATTTCCATCAGCTAATAAAATATAAATACCTTCCTTTACGGCCTTATAAAAGAGAGGATCTTCTACCGGAATTCCTTCTTTTTCTGAAAAAACTATTTTATCTCCACTTTTTAAGTCTAGTTTACCATTTATATCTCCAATTCTTATTTTTGGTCCTGGTAAATCAACTAAAATTGATGCGTCTTTAGCATAATCTTTTATTAAATCAAAATATTTCTTATGACTATTTTCATCGCCATGAGCAAAATTCAATCTAAAAATATTAACATATTTTGATAGTTCTTTTACTTTATTTTCACTAGAAGGGCCTAAAGTTGCAACTATTTTTGTCTTTCTCATTATGAAAAACTAGTTGAAATCTGGTTAATATTCTCACAACCTTCCTTTTCTCCGTTTTCACATGCCTTTCTTAAAAGTTCATTAGCTTTTTTCTGATCTTTAAGTTTTGAATATGCTTGAGCTAATTTTAGTAATATCTTACCATTATTACCTACATCTGGTAATATTTTATCTAATTGATCTTTTCTTCCTTTAGATACTAACGTATCTATTGCTATATCTACAAATTCGCCATATTTACCTACACTAGCGTAACATTTTATGACTCTCTTAATGTTTCCACATGCTGTTATATCAAACATTTTGCCTATACTATCTAGCACTGAAACTACTGCATTACAATTTCCAGCGTCGATAATATTACATATAACCCAATTTGATTCCTTTATATTATTTGGCGTAACTGTTTTTTCAATTATATCTAACCCTTCTTTTATGTGACCATTGAAAATTAACTCTTTGGCATTAGTAAGAGTTTTAATTAATTGTCTATATTCTGCTCCCATTATAATCATTATACTCTCTCTAGCTTAAATATGTTATACCAAAAATAAGGGCCGTAAAATTAAATATTATCAATAAAACGCGACATGTAACCTAAAGATTTTATTTTATCAAGAGCTAAATCCGCGGCATATTTACCCATTGCAGGTGCATAACTCCATCCTAACCTACAAGCTCCAGTAGCTATAGTAACTTTTCCTTTTTTCCCTAATATTGGAAACCCGTCTGGAGAACACGGTCTAAATCCCATATCCATTTCATAAATGTAATTAATGTCTACAATTTTTGAAGCTTTCTTTAAAAATAGTTCTGCTCTACTGGAATCGAAAGAGAAATCTGCATCGAAACCACCCGTAATTTTAATATGATCAGATAAGGGAGATATTGCGACGCCATCATCTACTATTACTATAGCGTTTTTAAACTTAGAATTTCCATTAACTCTATAGCCATATCCTTTAAATGCAGTTAAAGGAATATTAATAAATTTAGTAGTCCATATTCCTGAAGCTAAGACAATGGAATCGAAATCGTTTAACTCGTCTAAAGACGCTATTTCCTTATTTATTACTTTTACTTTACTTATCTCGCTTGATATTCTTTTAATAAACTTCTCCGTAGAAATTCTAGATAATTCGGGGAAATAAATAGCTCCTGCAAATCCTTGTAACTCTTTTACTTCAAACCTAACAGAAAATGGGCTTTTCTTCTCCTCTTCTATTCCTTTTTCTAAACTTTTTTCATCATTATAGGCTTCATATAGACCATCATTAAAATAATCGAAATCGTTTTTTTCTTCGCTCATCTCTTTATATTGCGATAATGAAAACTCAGCCATTTCCTTCAGTGTATTCCAGGCTTCTTTTGGTGGATTTTTATTTAATTCTTTGATTAATTCGGTTAACCATAGTTTATTTGCAGATTTTATATATGTATCTCCTCTTATTGTATATTTTAACATTTTTACTATCATTTCAGTTGAATTTATTTTATCAAATCTGTATGGCTCTATTAGCCCTGCTGCATGAATTGAATAACTTCCTAGTTCGGCTTTTTCATATAAAGTTACATCAGTACCTTCTTTCTGAAGAAAATATGCTGTAAAAAGTCCTATTATTCCTCCTCCTACTATGGCTACTTTCAAACGTTTAAACCTCTGAGAATATTTTGAGCTATTTTCTTAATATTACTTTCCTTTGTTAAAAGTTCATTTAAATACTTTATATTATTTTTTATATCTTCTTTACTTAAAAAACCCATATTTAGGAGTAAAATGGATTTCTGCCAAGCTTTAATTCTAATACTAGGCTTTGGATTTTTCAGAAATTCAAGAAATCTATTTTTATCTTTTTCTAGAAAAAATCCTTCCTTAACCAGAATAGGGAAAAGATTCCATGCTTTTTTCCGTATTGTAGGATAATAACTTTTCAGAAGTTTCCAAAAATGGTCTCTCATCGCTATTACATCCCCTTTATCTAGAATACCCAAATTTATCATATCAGCCACGTGCAGCCATGCTGTGATTTTTAATTTATCTGAAGATAAACTAAGGCTTCTTTCAATACCGTCTACTGATAATATCTTATATATACTTAAATGACTCCACGCATCCTCTCTAACTCCTTGTAATTTATTCCATAACAAAGATCTTAAATAACCTCTATACCTATAAAGATAAGATGGCTCAAACTCGCTTATTTTTTCAATTTCCTTCCATGACTTTTCTCTTGTAGCTTTATTGATACTTCTCAAACCATAAAGTACTCGACTTAAATTTTTCTTTCTTGTTTCCATATTTAACCGCCCGAAGCTGTTAAGAAAATAGTAAAACTATCACCATCATGAATCTTTTCGTCCTCGATTATAGGTATTCCATCTTTCAAAACAACTACTCCTTGAACATTATATCCTAACAGTCTTAATAAGTCCTTTACAGAAGATTTATCATTTAATTCTACATTCTTCTCTGTATTTTCCCTCACTAATTTAACTTTTACTTTCACAAAGTATTTTGTTTAACACTTCTTTATTTTAATTTACCGCTTATTTCTTTAATCTTATTTATATCGCTTATAACTTCGTTTAGCGTATTTGTATTATCGGAATAAAATGATATGCCATCTCCAAAAGCACAAGGTTTTTCCTTAGGAAGACGTATTTTACCACATATTCTTGTGTTTCCTATGTTGGTAATGTTGATTTCAGTGAATGGCTTATAAATATATCCTTCACCGTCTTTTATCTCAAAATTTCCAATATATTTACCATTAATTATGTTAAAAAGTGTAATAAATGCCGCTAAATCAACAAATTCTGCCTCCTTCTGAATATCAAATTTTAAATTACCTATTTCTATCTTATCTGAGATCTTTGCATTAATTTCATGACAGTTTTCCAATTTATCTACTTTATAACTGAATAAATCCCAATTAATATTTTCTGATAGTAAACTAAATTCATCTATAGCGACTATTGTAAATCCTTTAAGACCTTTTTCATTTTTTAATTTTGTCATGCATTTTTCATATTCTTCTTGTGAAATTTTACCATTAAGAAGTTGTATGGTCTTTTCAGATAATATATCATCTATATAGTTTATTTTTAGAATTCTATACAATCCGTATCCATAACCTATATTATAAATTAATAAATATCCTTTATAGTAAATATTATAGAATCCATTCTTTAATGCTGAAAGTAAAATATTTACAGCATTCTTGTCTAAATCCTTACATAACCTTACATTTATTCCCTGTTTTTTTATCAAAATATCAGTTTTTCTTATTAAAATAGCATTTTCATTATCAATATAGAATGTAAAGTCGTTTATAATACCGTTCTTACAAATAAACATATCTTACATAAATGCTAAACCTCTATATTTAGCCATTAGTATAGATTTCTCATAACAATTCAATGCCTCTTTAGCTACAACATTCCACCTGAAGTTAGCATCAACCCTATTTATGCAATTTTGCCTAACTTTAGACCAGAATTTAACATCGCTTACTTTAACTAGATCTGCCTTATTTAAGTAATTTGAGTCTCCGTATTCTTCAGCTAGTGATAAATAAATTGCATTTTTAAGTAATTTGGCTAATGAGTCTATGCTATTTGGCTCTGAAAGAAATCCAGTTCCTTCTGGACTCCATCTTACATCTATTATGCTCTCTGATAGACCTCCTAAAGAAGATGCTACAACTGGAGTTCCTACAGCCATTGACTCTATGGCATTTATGCCAAAAGGTTCCCATCTAGAGGGGACAGCAAATACTGAAGAAGCATAATGCCATAGTTTATATATATTAAAATCTAATTTTCCTATAATTAATCTTACATTGTCTTTTATTTCAGCTGATCTATCAATTACGTCTTGAAGCAAACCATAGTCACCTGCTGGTATACCTAAGACTACTAATTTAGCATTCCATATTTCATTTACTACTTGTCTAAAAGCTCTCAGAAGTAAATCTATTCCTTTTTGGTATACTATTCTACCAGTGAAAATTACTAATGGACCGTCTTGCAATGCTTCATATGTCCAATCATCCCTTATTCCTATTCTCCATCTATTATTCCACAACATATTTCCTGAGCTATAATCATCAGGAATTACTTTCATATTAGGCAAAGACGAAAATAACCTTGATCTTATTTCCTTTCTATTAGTTGTTCCAAGATTTTTTCTTGCGTAATCTTCAATCTCTTGTATTGTCCAATCTGTACCATTATATGTAACGCAGCTTTTATTTTCCATCATATTACCAACGAATTGAAAAACATCGTAAGTAAGATAATTTTTACTAACACTAGCTATTGAATCTGCCTCATAGCAACCAAATTTCTCAATCTTTCCATCACACATATCCCATAAGGTTCTAGTTTTGTAAAGCACGTGCCGTGAAACCATCCATATATAATGATCATAATTTTCTAATCCTGCCCAATCTTCGGAGGCAAAGTGCCAAGGAGCTCCTACTTTATTAAGCAAGTGTATAGTATACATTAAAGGAACTATTATTCTCCTTTCCTCAAATGCAAATTTTGCTTTTACTCCGGCTAAAACAGAATGCCAATCGTTGACATGAATTATTGATGGAATATCATTGAACTGAATACTTGAAACATAACTCTCTAAAGCTCTAGCTAATAGAGCAGATTTTTCCATAGTATAATCATAAATTTCCCAACTGTCCATGATCTTTCCTGAAGTGTAATCTAGACCTTTAACTAATACTATTTTAATACCATCTAATTCTCCTTTTTCAAATCCTAATTTGTAAGGATAAGAATTTCCATCACTACCTTTTCTGTTTCCTATAGCCGCTATTGGCATTTCCGTAAGTCTAAGTTTATTTCTGTAATAATCATTCAAATGTCTTCCATGGCTAGGCATAATTACAGTTACATTAATTCCGTTATTGACTAAGGCTTTACTTAAATTATATACTGCATTTCCTAAACCGCCCATTGAGGCTATATTTAAAAGTTCGAACGTTATCATCCATACTTTGTCTACTTTGTCTGGTATCCAAAAAGACTCAATTCTTTTCATTTTTTAACCACTCTTTAAGATGCTTTTCGTTTTCTTTAAGGCTATTATCTCGCTTAATTATATCATTAAATTCTTTTATATTCCAAGCAACATCAACTCTTTTACCGTTTTTAGTAAAAAAGAAAGGTTCATTATTAATCTTAAGTTCCTTTAATTCATCATTTAAAAATGAATTTATGGCATAAAATTCATTAAGAAACGCATCAACAGGTGACGAATATGAACTAAAATATGAATGCACTTCTCCTGGTCCTCCTCCACCTGTAAAAAGATAATAATAATTATCACTTGTAGTAAAGTATTTCCAAGCTTTTAGAAACTCATTTCCAAGCTCTCTAGATGGCATTTCAGACCTTTTTACAGCTTCATCATAAGCCCATTGCATTAAATTGCCTAGCCAAGAAGTTTCGTCCTTATTCACGTCTGCCCAAGACGACGTAGTATCTATGTCGGTTTCATAATATGCTTCATTTATTAATTCGCTTGGTAAGACCATTTTGACGCCTCTTTTATTCAATTCCCTAGGTAGCCATCTAAGAAAATCAAGTATTCCAGATTCTGGCCAATGATGCTCCCCAAAAGTTTCGTAATCTACAAATATCAATATTGATTGCCCTGGAGAATCTTTTATCCAATTAGAAAATTTATCTGCAGTCAATGGATACTGGTTCCAGTCTCTTTTAGAAAACCTAAACGCTATATCATCACTCAATTTGTAATTTCTAAAAAATAATGATATTTTGCTATCTTTTAATTTATAAACATAGTTTGGACTTTTTCCTTTTAAATTTGATTCCTTCCCTTCCAATATATAACCTTTAAAACCAAGTTTTTCTGCTTCCTGGATAAGATCCTTTCTGGTTAGGAGTTCGGTATTCTCAAAAATCTTAGGATCTTGACCAAAATATTCCTTTATTAGTTCTTTATGTGACTTTATTTGATCTATCCATTCATATTTATCTTCCCACAAAGAGGTTACAGAATGATAATATGTTTGTGAAAGGAACTCTACTTTTTTAGTTGACGCTAATATTCTAAAAATATCTAAAACATCTTTTCCCCATTTCTCAGCTTGTTCTATAAAGGTCCCAGATAATGAAAAAAAGAATTTAACATCTCTTCCTTCATTCTCTGCGTTTTCTATTTCTTCTAGAATTATATTGGTTGCAGGCAAATAACACTTCTTTTTAACTCTTTCAAAAATTTCTTTGTTTAATTGCATATCAAAGTACTTTTCAAATACGCTTCCAGTATATCTTGGGTTCCAAAATGCGTCTTTTCTTACTCTAAAAGGTTGGTGTACTTCAAAGCCTACTATTATTCTCTCTACCATAAATTCTTATATGATTATACATAAATAAAATTGTATGAAATGGGATCCAGCTGACATAAAAGTTATAATACCTATAGGTGGAGAAGCCACAAGATTAAGACCATTGACTATAGAGACCTCTAAGGCAACAGTAAGGCTTTTAAATAGACCGATGATTGAATTCTCTATTTTAGAATTAGCTAAACAAGGAGTTAAAGAATTCATTTTTGGTGTAAGAGGATATATAAACTATAAATCACTTTTTGATACGTTTAAAGAAGGAATAGGTTTCTCTGCTAGATATAGGATAAAACCTAGAGTACATTTTAAATATCAACCAAGAGTAGATAGTTTAGGGAACGCTGATTCAGTAAAAATAAACATGGAATATTATAGAATAGAGGATATAACATTAGTAATCCAAGGCGACAATATTTTTAGAATAAATCTAAAGAACCTTATTGATTATCATTTAAATAAGAACTCTATAATGACTATTGTACTTAAGAAGTGGAATAACGTAGAAGACTTTGGCGTAGCAGATCTTGATAATGATATGCGTATAAAAAGATTCGTAGAAAAACCAAAAAAGGAGGAGGCTCCCTCAAATTTAATAAATACAGGAATATATGTGCTCTCTCCAAAAATAATGGAAATTTTCAATAACGAAGACGTGCAAAAAATGAGAGAAGAAGGTAAAATGGATTTCGGAAAGGACATAATACCTTACTTAATTGAAAATGGTTACCCTGTATATGGATATGAGATGAACGATGTATGGTTTGACGTTGGAACACCTGATAGATATTTGGACGCGATGGAGACTCTTTTGGCTACATTATCTGACCAAGAAATTGGTGGAAAGAGAATTGACGAAAATAAGAGAATATTTGTGCAAGGTTCTAGTTCAGACTCTATACGAAGAAGAAATATTATAATTAGTAAATATAAAAGAGGAAGGTTGGAAATAGAAGGAAATGCGTTAATAGGGAGACATTGCCAAATTGGAAGTAATATTTTCATACAAAATTCAACCGTAGATAATTTTTCCATTATAGAAAATGATGTTAAAATTATAAAAAGTTCAATAATGGATAGAACATATATAGGAAAAAACGTTAGAATAGAAAATTCAATAATAGGAAGACATTCCGAAATTAAAGACGGAACTAAAATAATAGATAGTGTAATAGGCGACGATGTAACTATAGGAGAAGAAAGTGAAATAGTTAGATCACGAATTTATCCTCATAGAGCAATAAACTCTGGTAGCAAAATACATGATACTATACTTACATGACTGTCTACATTAACGTAAGCATGAAGCCTATAGCAAAGATAAGAATATTATTTTATAGTTGTATTTCAATAGAATAAGGATTTTTTGTTGAAAGTATAAAAAGTTTATCAAGAGAATAATCTTCTCAAGAATAATGTTATATTCACTATATGCACTAACATAAATATAGAAAAAATGAGATACGCTAGTTTAGGAAATGGAAAGCTATTAATTAATCTTGACGAAAATGGAAGAATAGTCGATATTTACTATCCATATATAGGTTTAGAAAATCAAATTTCTGGCATTCCTATTAGGAAGGCCTTATGGGATGGTGAAAATTTAAAATTTGATTTAGATTGGAAAACAGAGGTAAGCTACTTAGATAACAATAATGTTGTAGAAATAAAAAGTGATCTGGAAAAGCCAAAAATTTCTATAACATCTTATGATTTTGTTGATATTGATCAACCTATATATTATTCAATTATAAAAATTCTTAATCATGACAATATAAAAAGAAATATTAAATTATTTTATTATCACGATTTCAATATATATTCAAATCCCTTTGGAGATACGGCATTATTTGATCCATACACTTTTTCTGTAATACATTACAAATCTAAACGATATTTCGCTACTAAGCTTCTTTCAACTTCAAATATAGATATGGACTTCACAACGTCCAAAGATGATATAACAAGAGACATGGAAGATGGAAAGCTAAGTAAGAACCCTATAGCTCACGGTAATGTACAATCTGCCATAGGTATAGATATTGAGATTGAACCACTGTCCTTTGGGAAAGTATATTATGTAATAGCAGCAGAAAAGACATTGGAAGGAATAAGAAATTTAATCAATAGAATTTCTCCAGCAGAAATAGAATCTAAATTTGTTTCTAATTATATGTTTTGGAAAAGTTGGTTAAGCAAAGGAAACAAGTTAAGCAATGAACTATCTAGACTTTACAATATAAGTCTTTTAATAATAAAAAATCATATGGATATTAATGGCTCTTTTATAGCATCTTCAGACTATTCTTTTGTAAATTTATATGGAGATTCTTATCAATATTGCTGGCCTAGAGACTGTGCATACGCTGCTTATGCATTAGACGTAGCAGGTTATGGAGAATTAGTAGTAAAACATTTCAATTTCATAAAAGATATAATTAACGACGAAGGTTTCTTATATCACAAATATAATCCAAATAAGACATTAGCAAGTTCTTGGCACCCTTGGTATTATGAAGGAAAACGAATTTACCCTATTCAAGAAGACGAAACTGCACTTGAGGTATGGAGCATAGGAAGTCACTATGAAAAATATAAAGATTTAGATGAGTTAATAGCAATTTATAAAAGAGTAGTCAAGCCATCTATGTATTTCATGATGAGATTTGTAGAAGATGGATTGCCTAAACCTTCGTTTGATCTTTGGGAAGAAAGATATGGCATACATTTATTTACTGTAGCTACAGTTTATGGAGGTTTAATCAAAGGATCTTTACTAGCTAGAGATATGGGAGATGAAACATTAGGTAATGACGCAGAGGATGTAGCAAAAGTTATGATAGAAGAAACAAAAAAGAAAATGGTATATAATGGTAGATTTATAAGAAGAATAGATGAATATGGCAATATTGACTATACAGTAGATGCTAGTATGTATGCACCATATTTCTTTGGAATGTTTAACATTAATGATCCTTTAGTTGTTAATACCATGAAAATGATTGAAAATAAACTCATTGTAAATGGGGGCGTAATAAGATACGAAAATGATTATTACCAAAGAAGGAAAAATCTTCCAAACCCTTGGATAATAACCACATTATGGTTAACAGAGTATTATGCAGATGCTGGGAATACTAGCAAAGCTAAAAGTTTAATTGAATGGGTTAACTTAAGAGCAACCAAATCTGGTTTATTACCAGAACAAGTAGATCCAGAAAATTTCACATCTACGTCAGTAATACCTCTAGTTTGGTCTCATGCTGAGTATATAATTGCTTTAAATAAATACCTTGCAAAAAGTAATATACAATGATTGATCCAGAGGAATGCGAGCAACGTGAATGGCTGATACCAACAGGAACTGGAGGATATTCTTCTTCTACTATCTGTGGTATAAATTCCAGAACATATCATGGATATTTGATAGTCCCGCAAGATCCTCCGCATAAAAGATACATGATATTATCAAAATTTGAAGATTTTCTTATTTACAATGGGAAAGAATATCCATTATCTACAAATAGATATAATTATAATGTTTATTATCCTAATGGATATAGATATTTAAATAAAGCAATTCTTGGTGAAAATTTCATAAGCTGGAATTATAATTTCGGTGATTTAAATACTACTAAAACGCTTATAGTAAATAAAGGATCAGATTCCATTTCAATATCTTATTCTTCTGAGAATGGAATGTTTAGGATTTGCCCACTTATAACATTCAGAAGCCACCATGTTGCGCTAAAAACTAGACCAGGATTTTTTGATTTCAGTATAAATAATAATATAATAGAAATTAAATTAAATGAAAAACCTATACTTTATTTTAGAATAAACGGAGACTTCTCACTAGAGAACACTCAGTACTGGTATTATAACTTTTTCTATAATTTAGACTATGAAAGAGGGTCAAATTATTTAGAAGATCTTTATAATCCATTCTGCATTGTAAGTAAATCTAACGAAATTGAAATAGACGCGTATGTTTTATATCCAAAAAAATGCAGTATTATGCACCTAAATAAAGATATAGTAAGGCTCTTATCAGCATCTAGTAGAGATTTTGTAGTAAAAGGAAAAGATTGGGCAATAATAGCTGGATACCATTGGTTTGATGAATGGGGTAGAGATACCTTTGTCTCTATGGAAGGATTACTTTTGCTCAACGGAGAATATGAAATAGCAAAGAGTATAATAAAAAGATACTTAGACTTTGAGGAAAAAGGACTTTTACCTAATGGATTTCTTCATAATGGTGAACCAATATACAAGGGAGTTGATGTATCATTATGGGCCATAAACTCAATATACTCATTTTATCAATATACTAAAGATAAATCATTTATAATGAAAATTTTTCCAAAAATTTTGGATATAATAGATTGGTATTGGAAAGGAAATGGGATAATAAATAATACTAATGGAATGTTATTCCATATAGGCTCGCCACGAACCTGGATGGATGCTCAATTTGATGGCACAGTAGTTACTCCAAGAGAAGGCGCTGCAGTAGAAGTTAATGCATTATGGTATAACGCTTTAATGATTACGAGTATACTATCTAAGGAGTTGGGTTTAGATTATACAGAATTTATTGAAAAAGCTAGAGTAGTTAAATCAGCTTTCAAGGAAAACTTTGTAGGGCAAAATGGACTATATGATTATATAGATCTTAACATGAAACCTAATGAAGAAATAAGACCTAATCAGATTTTTGCTATATCTTTGCCTTTTCCCATTATAGATAATGAAGAAATAGCTAACAAAATTCTTTTGACAGTAGAAAATGAATTATTACGACCATATGGATTAAGTACATTATCTAGAAAAGACCCCTCATATATACCATACTATAGAGGAGATAGAATTAGTAGGGATAAGGCATATCATAATGGACCTATATGGCCTTGGCTTATAGGAGCATATACTGATGCTAAAATTAGACTAGAAAAAAATATAATAAAGGTTAAGAATTTATTAAATGAGATCAAGCCTTTATTGGATATTGCAGGAAAAAATAATGGCTATATTCAAGAATTGTTTGAAGATATTCCTCCATACAAAAGCGGAGGATGTATCGCACAAGCATGGAGTGTTGCAGAAGTTTATCGTTCTTTAAACAAGATCATTACTTTTTCCTAACATCGGCTATTTTTGAAACTAAATCTTCTGCTCTATCAAAGTTATATTCACGTAACATAGCAATTTTACTGGCAGCTACTGAACCTTCTGCGTGAATCATCCATCCAAGCATATAACCGGCGAAGGGTCCACCAACTAATTCTCTTACAAATCTTAGGAGCTTAAATCTTTCTTCGCCAGTAAACTGGGGATTGCCCCTTAAATATTTCTCTATGTACACTTTTTCTTGAGGATTATTAATATCTGCAGTAGATGGAAGAGTAGATACTATACCTCCTGCTATATCAATAACGTCCTTAAGTATTTCAGGAAAATACGCATTAGAATACAATTTGCCTATGTTGGTATAAAGAGAATTAGGTACTGCTATACCACTATTTGAATCTATATTAGGTTCTAAGGCAGAAATCCTTGCTGCCATGTACATGATTTCTCTATACATTATAGAATCAATAATTTCATCTTTTACATGAGGCGCACTCTCTATATTATTATATCTAGCAGATAATTTTGCAGCACCCAAATATAGATCTGCCTCCACGGTTCTATATGATATTGCAGTAAATCTATGAAATAAGGCAAAAAGATTAGCTAATTCCCCTGCATATTTCCAATCCTTAAACATAAATACTCTTTCCCAAGGTACGAAAACATCGTCTAGTATGGTCATTGTTTCGGCTTCTGCGTGCTTAGATGCTAAAGGAGCATCTTCTTTAGATGGCAAACCTTCTATTTCTATCATAGGTCTTACTATCATTTTAAGTCCCTTAGTATTAGAAGGTATAGCGAAAGCTATTGCATGATCCTTATCTCCTTCTATCATTGCCCTATATGGTAAAAATATTATCTCGTTAGAAGCTATACTTTGAGTAGTATGAACTTTAGCACCTCTAACTACTATTCCATCATCTCTAACATCTACGACTCTTACATAGAGATCTGGATCTGACTGTTCAGAAGGCCTTTTTTGCCTATCACCCTTTACGTCAGTTTGTGCAGTAGCTACGGCAAGATCTTTAGTTGCAAGGTATTCATAATATTTTATTACATTAGAATAAAATTTCTGATCATTTAATTTTTTAGTTACTATCATCAAAGCATATAATGCGTCCGTACCTATAGCTTGAATTATATTAAATAGCCCACTGCTAAGTCTTGTTGTTTCTTGAATTAATCTAGACCTATACCATAAATCGTCAGAATTTTTAGGTATCTTATAAAAACCACTTATTTCACCTAATTTGGAATCATTAAAAGTAAGGAATTTTCTTAGTTCCTTATCTTCTCTAAAATCAAAAAAGGATTTAGCATGAGATATTGGTACTGAAAGTATTGGATGTGTTGTTACATCATCTACTTTAGTACCTCTATAATAGATACTTCTACCATCTCTTAAACTCTTAATGTATTCACTACTATTTCTTATCATAAAGATTCATTTATTTTTCTTCCTCTGATCTATAAAAACTTGCAATTTATATCCAGTCCATATTGTCTTACCAGGCTCTACCCATTCGATATCTATATCATCTGAATTTAAGCCTATTCTATTAGCTAAGAGTTCTCTTGCTTTTTTATCATACAGCGCGTCAACATTACCTTTAACAGTTTCTATTCTAATTTTTAATTTATCCATGTCATTATCATAGACGAAAACATTAAACATACCAGTAGTATCAGGAATTTCATCTACAGCATCCTCAATATATATAGGAAGTAAGAGCTTACCTTTCACCTTAAACATCCATTCTACTCTACCCGGTATCGGTTCGGAAAACCTCATATGAGTTATTCCATATGTTGGATCAGGATCTGTGAGAAACTCGTTTTTAACGTAGTCCCCCAAACTGTAACGTATTAAAGGCATAGTAAAGTGATTAAGCAAAGTAGCTATTAATTCACCTCTTTCGCCTTCATTACTTGGCTCATCAGTTTTAGGATCAACAATGTCAAATATCTCCATATCCTCCCAGACTACCAACTGCCCATCTAAACCAGGAACTTCTATTGCCATGTGTCCATCAGTAGTTCCCCATACACTTATTGCAAGCTTTGCATTAGGATGAACCTGGAAAAGTTTTTCCTTGGTATTTTTTGCTGCTGCTCCGCCATGAAGTAAAAGTACTTTAAAAGGAGTTTCCCATCCTTCTTTCTTAGCTTCTTCCCCAATAAGTCTATGCAACCATGGAGTAGTAGCTAGTACATCAACTTTCCACAGTCTGAAAATCAAATTATGCCTATTTTTCCAACTAAAGTAAGTTTCACCTCCGCCGGCTATTGCAGTGGCACCACATCTCCACATAGCTGTTTCTACTAAAGGAGGACCCCAACTGTAAAATCCACTCATATTCAAATAATTTGCGTAAACTACCGTAGGCTTTACACCAGCAAAACTCCACAGATATCTTGCCTGGGCCTCTTCAAAATAGTCCAATTCTAATGCGCCCCATCCTTGGAAAGTAGGCATTCCCGTTGAACCAGACGTTGCGCCTACAAATCTTATTCTCCTAGCTAGTTCTGGAACCATTATAGATCCAAAAGGAGGATTAGCAGAAAGATCGTTTCTTAGATCGTCTTTTCTTAAAATTGGAATTTTAGTTACGTCTCTCCAGTCTTTAATAACTTCAGGATCAAAGCCTCTAGACTTCCAGAATTTTCTATAAAATTCAGAATTTTCCCATGCCCATTTAACTATACGCTTTAATCTAAAGGATTTTAATTTATCTAAATCTTCCCTTTTCATTGTCATTATTTTCCTATTCCATAATCTTTCACTAGGATTAATATTACCTGAATTAATGTACCCTTCTTCCTTTAATTCCCTGTGAATCGACTCATAATAGCTTAAAGATGAAGACATAAAATATTGTTGCTTATACTGTTTAAAAACTTTAAGAATATTCGTAGAACCCTTTTCCAGACTTTCTTCCAATATATCCGTTATTGACCATATTTTTTAGTAAAGCGTTAGGCATATACGCACTGTATCCTTTAGAATATATATCTTCTAATTCGTATAAAATACTATCTAATCCTAAATTATCTGCAATTTCAAGTAATCCTTGTGGGAAATTAAATCCATACTTCATTACTGTATCAATTTCATTAGCATTAACTATTTTATTCTCTATAAGCCAAGATGCTTCATTTACAGCTAGTGAGATAAGTCTAGATCCCTTTACGTCAGACTCTTTAGGAAGTTCTGGTTTAGAGTATTTACCTGCAGGATAATTATAAAATCCCTTCCCAGACTTTACGCCAAGTTCCTTCAATTTTACTTTCTCACTAAATAGAGAACATTTAACATCAGTAGCCCCCCTACTTACAATAACGTTCCACAAATCTAATGAAACATCTAATCCAACGTAGTCAGCTAATTCAAAAATTCCCATTGGTAATCTAAGTTTATATCTTGCAGCACTATCTATGCCTTCTATAGTAGCTTCTTTTGCTTCAACTTCTCTACAAGCCTCTTGTAATAGTCTAAAATATATTCTATTAGAAACAAAACCTGGAACTTCTACCTTTAGTCTAACTGGAATTTTATTCATTTTTTTAGATAATTCTATTATTTCATTTATAGTATCACTAGAAGTATATTTACTTGGAATTATTTCAACAAGCTTCATTATAGGCGGTGGATTAAAGAAATGCATTCCAATGACCTTTTCTTTTCTACTAGTTATTTCCGCAATGTCTGATATAGGAATTGAGCTAGTATTAGTAGCAAGAATAGCGTGCTGGGGGGCTACTCTATCAAGTTCACTAAAGACTTTTCTTTTTAAATCTATTATTTCAGGAACTGCCTCAATTGCAATATCTATATCCTTCGCAACGTCATATGTAACAGCCATCTCAATCTTACTCATTATTGATTCAGGAGAATCTTTTATAGTACCTTTTTCGTAAAGTTTTTTAAGAGATTCAAGCATTTTTTCTTTAGCTCTATTAAGAATTTCCCAAGAGATATCTACTAATTTAACATCAAATCCTGATATAGCAGCAACTTCTGCTATTCCATGTCCCATTGTACCGGAACCTACGACCAAAATTTTCATATTAAAACACCAGACGTGTTTAATAGAGATTAAACTTGATTAAATAATTTATACTTCATTATTAATATAAGAGTATGTGAAAGCTGCAGTTTTATATAAATATAATGAAAAATTAAAAATAGTTGACAATGTAAAAATTGACGAGCCTAAAGCTGGAGAAGTAAAATTAAAGGTAGTAACAACAGGAATGTGCCACTCCGATGTAAATGTATTTGAAGGAAAAACTCCTGTTCCAACTCCAGTCGTAGCTGGCCACGAGATTGCAGGAATAGTGGAGGAGATAGGAGAAGGAGTTACTAGAGTTAAACCAGGAGATAGAGTAGTTTCGGCATTCATACATCCATGTGGAAAATGTAGAAATTGCGTATCAGGTCATGAGAACCTTTGTGAAGTTTTTTCGCAAGTAAGATTAAAGGGAACAATGATGGACGGAACCACTAGACTAAGGATAGACGGACAGCCAGTAAGAGCATTTCTAGGAGGAGGATTCGCAGAATATTCTATTGTTGGCGAAAATGCTCTTACAGTAGTTCCACCAGACATGGATCTAGAGAAAATAGCAGTACTTGGTTGCGCAGGCTTAACAGGATATGGTGCAGTAGATTTAGCAAAAATAGAACCTGGAGAGACGGTAGCAGTTATAGGAGTCGGAGGTGTAGGTCTTTCAGTTATACAACTCTTGAAAGCCTCGGGTGCAGGAAAGATCATAGCTTTAGGAACTAAAAAATGGAAGCTAGAAAGAGCAATTGAATTAGGAGCTACTGATACTATAAATACGGAAGAAACGGATCCGATAAACGCTATAAAGGAAATAAGTAATGGAGGAGCTGATGTTGTTATTGAAGCAGGAGGAAACGAGAAGACTATCCAAATGGCACTAGACTCTGTAAGAATAGGAGGTAGAGTAATCCTTGTAGGATTACCTCCAGCTAATGCATTAATACCAATTAAAGAAGCTTCCATAGTCAGAAATGGGATTACGATAATTGGAAATTATGGAGGAAGACCAAGAGTAGATATGCCAAGATTACTTGACATGGTAAAATTAGGCAGATATGATCCAACCAAACTAGTTACTGGAAAATATACATTAGATGAAATAAACGAGGCTGTAAAACTTTTACAGGAAGGTGAAGCAATTAGAAGTTTAATAGTACAAAAATAATTACCAAATAGACAAATCTGCTGTTACTAATCCTAACGCTCTAGCTACATCTCTTAAAGAGACTACACCTATTATTTTCCCAGATTCTATAACAATTAAATGTCTAATTTTTTTAGTCGTCATTAAAAGTGCAGCATCGCTAACATCCGTGGAAGAATCTGCAGAAACTAAGTTAGTACTCATAATATCTTTTATAGGAGCACTTAAGGATATGTCGTCTGCAATAGCATAAACTATATCTCTCTCAGTAACTATACCTTTAGGTTGTTCACCCTCAGTTATAAGAAGAGAACCTACTCCTTCCTTTTTCATAATCTTACATGCAAAAGATATAGTAGTATCTTCTTCAGCCGTTACGGGAGGCCTAGAAACCAACTCTTTTAATATCATCGCTTATACTTAACTATAAAGAGATATTTATTACTTACTAGCTAAGGCTCTGTTTCGTTATCATTCTTTCAACTCTATGGAAGATTAACACATACCTACTGTTTCTTGTCTGATAGAACGCATATGTACTTTCAACTCTATGGAAGATTAACATACAGAAGAATCTTAGAGCAATTTCTTCACCTATAAGAACCTTTCAACTCTATGGAAGATTAACGGAAACTTTTGGCGGAGTTTTGCTCCACTGGATTAGATATCTTTCAACTCTATGGAAGATTAACTGCTAGCGTCTTGGCCTTACATTTTAGGAGCGATAGCAATCTTTCAACTCTATGGAAGATTAACCATTGGGTTTGTTGCTTTAGTGGGAGGAATCGTCGAGTACCTTTCAACTCTATGGAAGATTAACAAATGTACTTAGTAACAATAGTATACCAATCATGCCCAGACTTTCAACTCTATGGAAGATTAACCGATATTATCAAGGTAACATATACAGTATGGGGAAATGGCTTTCAACTCTATGGAAGATTAACAGACGTTTGTACGTCTTCAGCATACGTTAGCCATAATGTCCTTTCAACTCTATGGAAGATTAACAATAATCCAGATAGCTCAACTTGCGGGATTTGGGAAGTTACTTTCAACTCTATGGAAGATTAACAAAAACCTTGAGGAGTAAAGGCATAGTAATAAGTGATAGAACTTTCAACTCTATGGAAGATTAACTAGAGGTGAACCTGTGGATTTTAGTAAGAATATTATTGTCTTTCAACTCTATGGAAGATTAACCAATTTAAAGGGTTTGACCACGCGTACTTAGACTCACAACTTTCAACTCTATGGAAGATTAACCAAAAGAGGTTGGTTGGAAATATTTTTCAACAATAATACTTTCAACTCTATGGAAGATTAACAAAGAAATATTTAAAAACCCCCCAATATTTCTCAGAGAAACTTTCAACTCTATGGAAGATTAACATTTCAGATGGTGAACTTGCAGTTAATTTTAAACAATTTTTCTTTCAACTCTATGGAAGATTAACAGAACACATAAGGATATTCTTAGACTCAAATGCAGACAGGCTTTCAACTCTATGGAAGATTAACTAACGTTTTCAATGCATAGCTATTAATTATTTTGTAAATTCTTTCAACTCTATGGAAGATTAACCAACTTCACCTGGGATACGTGAAAGAGACGAGACGATCTTTCAACTCTATGGAAGATTAACACGTACCAGCGGATGGTCGGAACTCCTGAACTCGTAAAGTACTTTCAACTCTATGGAAGATTAACGCGTCGACCATGTCAACGCCCACGCCCCAGCTCATTTCTTTCAACTCTATGGAAGATTAACATTATTATTTAAAATCAGGGTTGAAATTGCAAAACTCAAACTTTCAACTCTATGGAAGATTAACTCATAGATAATATTGACACTTATAAAAAGAAAACTGCGGAACTTTCAACTCTATGGAAGATTAACTGTACTGCTCCAGTCACAACGTTGACTATTGCGTTTAATACTTTCAACTCTATGGAAGATTAACGGTTCTCTTTAACAGAACCTAACGGTGTCTTCTTAGGTGCTTTAAACTCTATGGAAGATTAACAGGTTTTGAGTTTTTAGAGTCTGGCGATAAGCCAGAAATTCTTTCAACTCTATGGAAGATTAACTCGAAAAGTTAATTGAGAAGGTAAATTCGAGTAAGAAACTTTCAACTCTATGGAAGATTAACATGGTGGAGCAGAATACGACTTTAGACTAGAATATAGCTTTCAACTCTATGGAAGATTAACTTCCATGTTAGCCTATAGGTATTCTGTTGATGGTACTTTTATCTTTCAACTCTATGGAAGATTAACCTTATACTCAAACCGACAGAAACAGCATTAATTACTACCTCTTTCAACTCTATGGAAGATTAACAAATGGCTCAAAAAAACTCCCCAGTTTAGTGTAGGAACTTTCAACTCTATAGAAGATTAACAGCTGTAAAGTAAAAGCTGCAAAAGTGAAGAGTTAGACTTTCAACTCTATGGAAGATTAACACATTTTCTACTGCGTCAGCACCGACACCTAACGGTTTTACTTTCAACTCTATGGAAGATTAACTAGGTTTCAGCACTTTAGGGTATTCTTTTCTCAGCGACGACTTTCAACTCTATGGAAGATTAACTTAAAAATCGGGGTTTCTTATATGGATAAAGTGAAAGCTTTCAACTCTATGGAAGATTAACAAATCATCAGTCGGCGGTTCTAGATAAGCGTTAGTAAACCATGCTTTCAACTCTATGGAAGATTAACACGGAGTGGATTATACGTTTATGCTTTATGACGTTGATGATACTTTCAACTCTATGGAAGATTAACGATTTGTAATTGATGTAGCTTATTTACAGTAGTAAGGGCTTTCAACTCTATGGAAGATTAACGTTTTTTTGGCTATTGATGGAGACGATGATATAAATTGAACCTTTCAACTCTATGGAAGATTAACAGACTTTATGAATGATAAGCTCAAGATCCTGGACAAACTTACTTTCAACTCTATGGAAGATTAACACAATATACAGCACAGTTTACAATGTTAAGTCTTATTTCTTTCAACTCTATGGAAGATTAACCCAGCATTTCTTCTACCTGAACGCTGCTACTGGCGTATCTTTCAACTCTATGGAAGATTAACAGCGGGAAAAGCAAAGCAGCTTAGAAAGGAGCAAAGAAAGCTTTCAACTCTATGGAAGATTAACCCGTACTAATCGTGGTTTATATAATATCATTCTTTCTATCGTTCTTTCAACTCTATGGAAGATTAACACTTGCCTAACTTCATTCTAATTCTTCTAATTCTATCTTTCAACTCTATGGAAGATTAACTATTCTATGGATGGAGAAATATAATGAAATGGATGGCTTTCAACTCTATGGAAGATTAACCCATTAAGTATAAGCTTATTATCATTATTACTAACTCCTTTCAACTCTATGGAAGATTAACAAAAGGCTAATAAAATGGGGATTTGTAGAAGCTGAAGGTATCTTTCAACTCTATGGAAGATTAACGGTTGAGGCTAGTGAGGTTCTTCGTAGGTGCACCAACTGCTTTCAACTCTATGGAAGATTAACGTAATTTTCCAACTGTTTTACCAGGAAATCCAATCCACATCTTTCAACTCTATGGAAGATTAACATGTTCTCATTATCGTTGGGTGGAATGTAATGAAGCCGTTCTTTCAACTCTATGGAAGATTAACGAATATAAATCAAAATGACAAAATAATTCAAAGGTATAAACTTTCAACTCTATGGAAGATTAACAGTCATGTATCTCAAAAATGTCGAGTCCTCTCTGGTAACACCTTTCAACTCTATGGAAGATTAACTGTAGATTATAGTAATAGCATGTGGTGCATGAGACTTCACTTTCAACTCTATGGAAGATTAACTCCACTGTTGAACCACATCCCCAGAACACTTCGATACCTTTCAACTCTATGGAAGATTAACTAATTCTAACTATGAGGCTAGAGGAAGGGCGTGTACTAACTTTCAACTCTATGGAAGATTAACCGAATGTTTTTATACTTCTATTATTTTTCTTTTTCCTTCTTATTTAAGGTTTTCTTTTTGTTGGTTTTTTAGTTGTTTTCTTTTTTTCTTTTTTAGAATTTTTATTCATTTTTTATCTATCCCGTGTGATTTCGGGATTCTCATGAAGAGAAATTTTTTGTCTTCATAAACAGAGCGTTAAAAAATTTTATCGTGAAGTGAAAGATTATCCCGATTTTAGAAAAAAATATAGGGATGAAAAGAAAAAATGGAAAATGCTAACAATCTCTTAATAATGAAATTTTCATTCTCACTTCATTAAGCAATTACCTTAAGTACTCATAATACCGAAGGAAATTTTAGGATAAGCAGACTAAATCAGTAATGTTTTAGTATTTTTAATTAATATTACTAAATTTCGTGAAGTAGGGGTCTTTTTATATTGCCTATTATTTTCTCACCCTTTTTCTCTATCAAATAGGTCTTCTTTTCTGTCTTTTGGTCTTTCGTCAAATAACAGGTTCTGCCCCAGAAGTAAATAAGCTTGTACCATTTTCTCTCTTTTTAAATTTCTGAATAATAATATGATTAATACGAATCCAGCAGAAAGAAATGCCTCCTTCGATAAAGCGAAAGCTGCTAAGAATATTTCTCCTAACGAACTTGTAATGGTTTTCTTCCTACTTTGTCTATTAATGGAATTCCACTGAACGAGAAGCTGAAAACCGCTGATACTATGATGGAGAACATTGCAGGGTTGTGAACTATCACGCCCTTTCTCGGTAGACCCAAAATCTTATTACTAAAAATAATTTTTATTTGTTATTAGTAATTCATGAGGATTTAATGAAATTAGATAATTAATTTTACAGTATTTTTTAGAAATTTTTAAGGATTATATTAGATCTTTTATATTTCTACAAGTAAACTGAGGAATATTATAATATTAGAAAATGATAAAGACATGAATAATGAAATCTGCTTTATTTGTATCAATTATTTAATACATTATTCTTATTACTTATGTTTATGAGTATAATAAAATATATTCTTTTACTTATGAAGAAAAAATATGAGGTTTAGTGTTGAATTCATATTTTTAAAATAATTTTGGATCTACCGTCAGGAGGGGTCTTCCACCCCCTTTGAACACCTGATCATGATAAATTCCTATTGACAACGTTAGTCAGAATAGTCAGTTTGCGTATCCAGTTAGTCATAGAGGAACTATACTCAGGAGAATGAGGGCTAGTATGAAATACAATGAAACCCTATGGAGGTCTTACATATAACTATAAAATACTTAATTTAATTGAAACTCGTTATCACTAGTATTTTCGAAAAGTTCTTAGACTAGGATTTAAATGTAAATCCTTAAGACTAAGGCTATAAACTTTCTGAAAGCGCTAACATTACAATAAATGTATAGTGCACCCATACTGCATTATCTCGCCACTCACTTGCATATTATTAACTAAATGAAAGAATTTTTGCTGAGTTAACTGGAGTTTTTACATTTTTTAATTGAATAAAGCTGGAATCCTAGGATAGGCTTATGCTACTTACTTAATATTTTTCAAAATTAAAAGGAACTTGATTAGCACATTGTTTTAATAACCTCTTTGAGAAGTTCATACATATGAAGAGCGGAAAAGAGGGCGAATATTATTTCGTAACAATTGAAAATGATGAGGAGTTGGAGAAGTTAAAGGAATTAACGCTCAAGAAAGTTAGTGCTAGAAACGGTAAGCTTTCTTATGCCTCCCAATCCTCCAAGTGAACTACCACGTCCTAACGGACGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCCTTATGGGACTGTCGAATGGAGCAGAGGCGTACCACATAGACCCTCGCTTTAACCAAGGCGTCTCAGCGACGCTTACTCCGTCAGTGACTGCCATTAATAGAATATTTGAAAAAGAAGTATATAAGTTTTACAAAGGGGGCAATCCATCTCCACCCTTGCGGATGGAGTCTTACGCCCCCTTTGAACCCCTTGTTAAGATAAAGATCGTACAATTTTTTGGTTCAAAACTATAAATTATCCTTATATCTCCGGTTACTTCTATAGAGAATAAAGGCCTTCCGTCCTTATCCGTTTGGTTCTTCAATTTCTCTCTAGTATACTTTTTAGGGTCTTCTCTGAGCAAATATAATCTATCAAAGATTAACATTACAACTTCCTCATGAGGAAATTTCTTAGCCAAAAATTCAGATAATTCTTCAAGATTAGTTATTCTCTTCCTAAACATGAACTTCAATTCTCACTTCTCACAAGCCACGATAAAAGAATAGGAAAAATGTATTTAAAAATTTTTCTACTCATTTATTATCTCATTAGGGATAATAGTTGTAATAATGATAATAGTGGTAATCATAGTAGTGAATGAAATGTATTGCTACAAACAGCATTACTCCTAAGAGGATTGCCAAACCATTGACAAATGGATTATAATAAGAAAAGTGGGCGAAAGCAATTCTCCTCCATTTTCCATTCACTTTATGGTATCCCTCTCTCGGTGAAGACATCAAGAAGCATATGAGAAGAACCAACAAATCATTAGGTGACTACAGAAAGAGGGAAAGGGTTTAAAAAGGAACTAAGCCTCATGGGGTACTTCTATCATAGAGACGGGTTTACTTTTACCTATAGCGTCATATTGATGATGCTCCTCTCTAACCCCAAATGGAGTTTTCAGTATTGTATAACCATAACCATCATTACTAAAATCTCTTATCCTTATATCACGAACTAACAAACCGTCTATCATTGCTATTTCGCCGGCAAACTCCTTAGGTTCTTCTATTAAACCTATACCGTAAATATGACTTTTCAAGACACTATTTTCCCTCTCTAATTTATCTGAAGAAAATATTACTCGTATTTCCATGCCGAATAACTTTGCTATGTCTCTCTTTTCACTAGTATTCCCTATATAGGAAAATACTAGTCTACTGTTTAAAACCGTAAAGTGTATCTGATAGTTCTTCCAAACTAAGCATTTCCGCAACTTCATCTACCACGTCGTCTGGAACTTTCTTTACCTTACTTGAAATATACCTATATAAAGTACTCCGATCCACGCCCAGCTTTTGTGCGACATAGCTTAGCCCATATTTCTCTGTCGCTTTTTTTCAAAATTCGGATTTTTGCTCACTATCGAGTTTATTTATGTCAATCTTTGTAGTAATCTCACATTCTATTATTAAATGGTGAGGGTGTTGCAAAAATATCCTTCACTGTTGCAGATCCATTATATTTATAGAGGACTTAACTCTCTTTCAATTCAAGGGAAAATTAGTGCTCCGGCCGGGATTTGAACCCGGGCCACGGGCTTGAGAGGCCCGCATACTTGACCGGGCTATACTACCGGAGCAATTAATACTAGAATATAAGGTAATATAAAATTTTCCAGCTTAGCCTATAATTTTTATTATTTCTTTTATTGCAGCTTCTATATTATCACATAATAATTCAGCATAAATTATTTGATTATAAGCTATGACAAATCCATTACAAGAATTTATAAAAGAAAAAGTATATCCTTTTCTATCGAATTCTATTCCCCTTAATATTTTCTTAAATCCATTGGAGTTTATTGAGTATATTAATTTGCCTTCAGTATATATTATCCTTTCATAATCAGAACGTGAAATACGTTTAGAAAATTCGTACAAAGTCAGTCTTAATATGTCCTCTTCTGATATTCCTTCTTTACGTAATATGCTGGGGACTTCAAATAATCTACTAGATTTTTCTATTGCATTATTAATGTCCTTTTTTATTCTCTTAGCGTCTTTTAAATCCCTTATACACTTTTCTACAATTTTATTTGAATTTTTAACGTCCCCTATCCAGGAAAGTAAAAATGCTCTATTTAAGTCATCAATACAGCTCATGGCTTAATCACCAACATAAGGGAACTAAGTCCATTATAGTTCATTACATATGATAAAAGTGAATAATTATCTGGATATCGTAGGTTCTCAAGATTTAGTATATCTTTTTTAATATTCTCTGCAGTTATATATCTATTGTAATTTATTGATGATCTAGAGTTTACTAGTAATATGGCAGATTTAGTAATTCCTAAAAATTCTACTAATTTTTTATTATTGTCTGAACTAATAATAGTATCTGGAGAAACACCTAAATATTTAACTATTCTTAATGGAATAATTCTTGAGATATCTATATCGAATTTAGTGTAAAGAATAGCATATGTTAAACTTTCACCTAATGTGGCCGAAATATCGCCAGAAAATAATTTGCCTGACCATCTGCCGTCATAGTAATCTATTAGATTATCTGCTATTCCTTCCACTATTCTACCACTGAATATTCCTAAAATAGTAATTAATTTTGGATCTATTTCTAATTCTTCAAAATAATCTCTACTTTCAAATTCGTCTAAAATACAATTTACAACTTCATTTAAGTCTGAATTTGAGTCTTTGTCAGTATGAGGTAAAATGTCTGAGTCTATGCTAATCCAATATAGTTTAATCTTCACGAATATTAATTAAAGGACTACAAAATAAAAATTTAGGGTTTTAGAAGTACTTTGCCTACTTTATGTTTATCCTTCAATATTTCATATCCTTTATCAATTTCTTCCAAATTTACACTTCCAGCAATTACTGGAGATATCTTACCTTCTGCAGTAAGCTTTAATGCGCCTTCTACATCTTTCTTTGTAGCACTAGCATGACCAATTATTTCTATATCTTTTAGTATAACGTAACCTAATTTTAGCTCATAAATTTTTGAAGGATCGACATTACCTATTTGAACTATCCTACCACCCATCCAAAGACTTTTAAGACTTTCATCGAACGTAGGAGTTCCTACAGTATCTATAACTACGTTAACGTCGTCTATTTTTCTTGCTTCTTTAGAAAAATTTGTACCAACTATAACATAGTCTGCATATTTCTTTATAATATCTGCTTTTTCTTCTGAAGTTGTTACTCCTATCACTTTAGCACCCATAGCTTTTGCCACTTGTAAAGCATGTATTCCGACTCCTCCACTAGCTCCAGTAACCAATACTGTTTCTCCTTGTTTAAGTTTAGCTCTTGTCAAACCTCTATAAACCATACCAGTAACACAAGGCACTAATACAGAACCTTCATCTTGAGTTCCTTGAGGGACTTTTACTAAACTTGTCACTTTAATTTTTGCATATTCTGCAAAAAATCCGTCTAATTCCTCAGAATAACCTAATCTGGAATGGCAATATGCCTCTTCTCCTTGCTTACAATACTTACAAGTGCCATCTGGAGCGTAAAGAAGAGAAACCACTTTGTCGCCTTTTTTAAAGTTAGAAACGTTATTTCCAATTTCTTCTATAGTACCTACAACCTCATGTCCTAATATTACAGGGTATTTCATTCTTGGATAATAGCCTTGCAACTGTAATAGATCTCTATAACATAATGCTGCTCTATCTACCTTTATTACTACCTCATCTGAGGAAGGTTTAGGATCAGCTACTTCTTGGATCCTATAACCTTGTTTATATCCAGTTACTACAACTGCCTTCATAAATTTAAACATGTTTATATTGCTTAAAAATATATCTGAGACATTATAAGAACATTTTTGATATTACTATTAGCTATGGTTTTGTAGTAAAAGTAATTTTCAAAATTCTACATCCCCGTTTTAATTCCTTCATTATAAAGACATTTGTAGATATAAGGATTTTATCTTTTTATAATCTAGATAATAATATGAAACTTAAAGTCCCCCCAAGGATAAAAGTGTTAGAGGCGTTAGGGGCTATAGCCGATGGCAGAATCAAAAAAGTCGAAGATCATTATGAGGTTATTTCCTCCGAAGGAGATCGCATTTACAATGTAAAGATAAATGGAGAAAAAGCATATAGTAACGACAATGGAACGGTTTATAGAAATTATATAGGATATCCCATAATAGCAGTACTAATGTTAGAAGGTAAATTAAAATATGATGAGAAAATATCAAAATCCCTAAAAGGAATAGATTGGAAAAGACTTAATGAAACATATAAAAATTATGCTAAAGTAGAGGAAATAGTAGATAAAATAGCTGAAGAGAAAGGAGTTAATAAGGAGGAAATAAACAATATAGTAGAGGAAGTTTTAAATGAGCTCAGAAGACTATCTCTTGAAAAAGCTTCCTGAACCATTATTTTCAGTGAATAAAGATGTCATTAGAAGAATTAAATACCAAATACAATGCGTTTATAACAATTAAGGAGGTAGCTCCTAATTCTAACGGCCCATTATCTGGGCTAACATTTGGAGTTAAGGACATTATACTTACAAAAGGAATTAAAACCACTGCTGGCTCTAAAATTTTAAAAGATTATATTCCACAAAACAATGCATGGATAGTTAATAAAATACTTAATAACGGTGGGAAAATAATAGGGAAGACAAATACTCATGAATTTGCTATAGGTGCTACAAATACTTCTTCTATAGCTGGACCAGCCAAAAATCCTATAGATCCTGAAAGAATAAGTGGAGGATCAAGTGGAGGATCTGCTGTAGCTGTAGCACTAAATATGGTAGATGTTGGTATAGGAACCGATACTGGAGGTTCTATAAGGATTCCTGCATCATTATGTGGAGTTATTGGATTTAAACCTACTACTGGAATAATACCTACTACTGGAATAATACCATTTAGTTGGACTTTTGATACAGTAGGCTTTCTAACTAAAAACATGAATACTTTAAGGAAAGTTGTTGAAACTGTAATTCCAGTTGAAAATAAAGATGTTCTAATTTCTAAAACACGATTAAAACCGAGATTAGGCATCTTTCTATTTTCTGACGATCCTGCATCAAGAGCGTTAAAACCATTGTTGAATAAGTTAACAAACTATTTTGATTTAGTTGATATTAATCTGAACTTTCTCCAATTTTTCGGTGGGAACATAAGAGGAACAATAGCATTAGCCGAGGGTGCAAGTTATCATCGTGATTGGATAGAATCAATTCCTGGTGAGTATTTTCCTGATGTCAAAGCTTTATTAATGGAGGGAGTAAAAATTAAGGCTATAGACTATTTAGAATCTCTAAGAGCTAGGAGAGTCGTCCTGGAAGAGTATATAAAAGCATTTGAAAATATTGACGCAATAATCTCTCCTACAACTAAAATTCCTGCACCTAAAATAAGCGAAGTAATAGGAAAAGAAAAGGATTTTAGAAGCTTGCTTGTAGCTAATACTGAGCTTTTTAGTGTAGTAGGTGCACCGTCAATCAGCATACCTGCAACAAAAATTAATGGTTTACCTATAGGTCTAATGATAAGTGGAGAACCTTATAATGATGGAGTTGTATTAGACATAGCTGAAAAAATTTTATCTATTATCCAATAGATTTTCTTATAAGAGCCATTTCTTTAGCATATTGCCTTATTTCTTCTTCTCTTTTTTCTCTGCAAGCTAAAAGTAATAAAGAGGACAACAGAACATGTTTTTTGGAATTGAAATCTTTATTATCTATCTTTATTCCTAGGTTGTTTTCGAGAAATGTTATATCGTTTTCTATCATCTTTATTATATTCTCATCTATATTCCATATTTTTCGTATTAAATCCAGTGAATCTGGATTTATATATTTCGCACTTTCCTCTAAGTCCTTTTTCATCATGATGTAACTCTTGTTTAATAGATCCGTTTCTTCATTAGATAGAGAAAGTAACGAAGAAATTCCAAATATTTCTGGTGGCAGACCTATAGAGTACAATGTTCCAACAAATGTTATTGCCCTAGGTAGGGTTACTTTTCCAGTACTTCTAGCATATCCAAATAAGCTTATATGAAGTTTTCTAGCTCTCCTCTTAGGTAAGAAAAATGCTATGTAATTTATAGCAGGAGCTAGACTTTCAATAATTGGTTGATAACTTACTACATATCTCTCTATTATCCTCTTAAGGATCTTCTCTTCTTCTTCCGAAAATACTAATGGCTCCGTTATTCCTGTGTTGTTTATATTATTTATAGATTCTTTAATTTTATTCTCTTCATAATCATATTTATATGCAGATTGTATAGTAAATGTATATACGCCTTTATACTCTTTAAGATGATTCTCGTAATTATCAGGGCTTAAGTGGCCTCTAAAAGGTAAAGAACCTACTCCTATTATTGGAAATATATCAATGTTCAATTTAGACTTTAACGTATATAATTTGCTTAGTGCATACTTTGCGAGAAGTACTGCTGAAAGCATTCCATAATTCATAGCTGGATCAGACCTTGCTATAAATATCCTCATATAATTGGGTTTTATCGCTTTATAATACCCAGTGACTATATCCTCAACTTTTAGGAGTGAGTCTTTATCTTCTATTAAAGGTATAACTTCAACCTTTTTTGGATTTATTTCTCCTACAAAATCTTTAACATATATACCATCATTAAGTTCTATATTTTCCTTACCAGATACTGCCTTTTCATAGTACTTTGCTACGGCAACTATTTCAGTATAGTCTGTTGTAAAAGGAAGAATTACTTCGAAAACTGGTATAACTTTTTTGTTATAGAATTTTTCTGCTACATCATAGGCTATAGGTATGCTTTCCATGGTTTCTGCAAAAACTTTTCTTTCTGCACCTTCTATTTTAGGGTTAGGTAACCTATAAGTTAGAAATATATCCTGACCCAATAGGTTTTCTTTAAAATATTCTGAATAATTTGATAAAAGTTTTCTAACTACGTGAGTATCTACATCTTTACCTTCAGCGTCCCACATTACTTCGTGAGTCCCTAATGTCATATAAGAATAATATGCTTCAACTACTTCATCGTCTCCTTCTATAACTTCACTTCTAGCCCATTCTGGCACTCTTGCGTTATCTGGGTGTTGTGTAGACATAGTTCTAGGTATTTTTCTCATTTGTACCTTTTTCAAAACTAACATTTTTAAGATTTAATTATACACTCAAGATATGGTTTTAGAAAAAGGTCAAGAAGCTCCAGATTTTGAAGCTGAAAGTAGTAAAGGAAGAATAAAACTCTCTTCACTTAGAGGAAAAAAGGTTGTATTATATTTTTATCCTAAAGCATTTACGCCTGGCTGTACTAGAGAACTTCAAAGATTTACTGAGCTTTATGAAGAATTTAAGAAGAATAATAGTGAAGTTATAGGAGTAAGTGTTGATAGCTTAAATACACAAAAGAAATTTTCAGAGAAATATAATTCTACTTTTCCACTAATTTCAGATAAAGAAAAACAGATTGTAAACACTTATGGTGTTATTAATGAAAAAGGAACCAGTGCTCAAAGAATTACGTTCATAATAGACGAGAATGGCAAAATAATAGAAGTTTTGAAAAATCTAAAGAAGGCTGAAGAGCATGCAGATAAAGCCTTAGAGATAGTAAAATCTAATTAAGAACTCTAGTATATGGTTTTTTCTTAAATGATTCTATAGGGTCTTGCAAAACATTTGGAATCTCATTAATAATTTCTGTAGAAAGTATATGATTACCTTCTTTAGCATATACTAAAGAACCGGCTAAACTATTGATAAAAACTCCTATAGACGCAGCATTAAAAGTAGAAAGACCTTGAGCTAGTAAAGTTGCCACTATTCCCGTTAAGGTATCTCCAGTTCCACCTACAGTCATTCCAGGATTTCCTGTCTTATTCAATTTGAATTTTTTACCATCGCTTATTACATCAAAATACCCTTTAAGTAGCACAGTACAGTTACACTCCTTAGCCTTTTCAATAACTTGATTTATTCTTTGTATTGGATCTTCTAAGACATCTATTCCAAAAAATATTTTAAACTCTCCAGCATGTGGTGTTATTATAAAGTTTTGATATAATTTCTCTCCCCTTATTGCTTTTAAAGCATCAGCATCAATTACGGCAAACTTACCCTTTTCCTTCATATAATTTACTATTATCTTTGATGCTTCTATAGTCTCGTCAGAGAGCCCCATACCTGGACCTATTACTATAGAATTTACCTTATCTATCCATGGCTTTAATTCGTCTAAATTATTAGGATTTATATTTTTCCCTTTTAGTTTTATTGTTATTAAATCCGGTGAATATGAGGCTATTATAGAGGCAGTATCTTCTGGTGAAGCAACATAGACTAAATCGGCTCCGGTTTTTAAGGCAGCAAGTCCAGAGAGACTAGGCGCTCCACTATATGTCTTGCTTCCGCCTATAATTAATACTCTCCCTCCAGCACCTTTCTTACTTTTCATTTCTCTTTTCCTTATATTGGTAAGAAGATCACCAGGTCCTACAAAAATCTCAGCTTCTGGCGGAATCCCTATCTTATCTACTACTACTGTAAAATTATGTTTTAATAAACCAGTTTTTATATCATGAAAAGTTACTACTAAGTCTGGCTTAACGTAATCGCCCGGAGCATCTCCTGTATCGCTGTCTATTCCTGACGGTACATCGATAGATACCTTGAAACCCATACTCTCATTAAATACCTTAATAGCGGTTCTAAATGGCTCCCTAGGTTTTCCCCTAAATCCAGTACCCAACATTGCATCTACTAATATATCAGCTTCAACTGGTTTCAGATAATCAATATCTTTTATTTCTAAAAGTTTTATAGTATAATCCATTTCTTGAATAGCTGACTGATTAAATAGTGCGTCTTTATGTTTGTTTTCACCTAACAGAATTACATTTACGTTAGCCCCTTCTCCTGCCAAATGTCTAGCACATACTAAACCATCACCACCCTTTCCTCCGTGGCCTACAAAAACATATACTGACTTACCTTTTACGTCGCCTATTTTCTTTATTATTTCATCCTTTACTGATCTGCCTGCATTTTCCATAAGTAGAAGAGTAGGCACGCCTAACGCTTCACTATTTATTTCAATAGCCCTCATTTCTAAACTAGTTATCATATTATACTTCATTGATAAATTGATTAATAATTTCAGCTTCGAGTTACTTCCTCACTTTTCAGGATTGGAGTCACTCATCACTACGAGTACCTTAGTAAATAATATTTAAAAATACTTCTTTTCATACTGAAAATGTCGTATTTAGATTTTGTACTCATGAAGAAAAAAGGTTAAATGCTTTAATAATAACTATTCATACATACAACTGTTTTCATTAGTACTTTTCAAAGAATATTAAATGATATGTGTATTATTGTCTGTAGTATTATTATGTCATATTAATAAAAGTTTATAAACTATCATGGATAACTATTTTTGGAGATCAAAAATGGCTCTAGGTAAAGAAACCGAAATGGGATTAAAGGAATTATTTAAAGCAAATGCAGAAGATTATCTAATGTTAACATTCTTAGCAAATAAGTTAGAAAAGATGGGAAGAACAGAAGAAGCTAAAATGCTAAGGGAAAAAGCTACAGTAGAATATGGACACGCTACAGGTATATTTGAAAAGTTACTAGCTAATTACGACGCTAGCAAGTTATTAGGAGATTTTGCTAAAGAAGAAGACGAAGAACACGTAAGCGAATACAATAATGTAGCTATGAAAGCAAAAGAAGAAGGACACAATGACATAGAAGCTATGTTATGCGCTTACGCAGATCAAGAAAAGGGAATAGCTGAAGCATCTAAAAAAGTTTTAGCGATGATAGGAGATTTTGCTAAAGAAGAAGACGAAGAACACGTAAGCGAATACAATAATGTAGCTATGAAAGCAAAAGAAGAAGGACACAATGACATAGAAGCTATGTTATGCGCTTACGCAGAACAGGAGAAAGATATAGCAGAAACTGCAAAGAAAGTTGCTAAGGCACTCTAAAGCTATTTTTACCTTTTTGTATTACCTACGTTGTGGATCGCTTCAGAATTATACAAAAATTTTTAAGTAATTATGCAGAGTATTACCCATGGAAAAGAAGAACACTAGGGATTGGAGCAAGTACGATGAGAACGTGGTAACAAGATATAAGCTAATGTTCCCCTTCTACGTCTTCGAACACTGGTGGGAATTACTCCAGGAAGAGAACAGGTATGCTAAGACCAAGTACAAGGCACCAAAGGAGTTCAACGACTTCCTAGCATTCCTACACTTATTCTTACCTTACAGAGCAATAGAAGGAGTACTAAGCGCACTAGCAGAAATGAAGATAATCCCGACAAGCCTAGATTATTCAACAATATGGGAAAGGGTAAGAAACATGAATATTAATTTCCCTGAAGCGAGTGACGAACTTGAAGTAATAGCTGATGGTACTGGAATAAGCACAACAAGAGGAGGACAATACGTAGTAGCAAAGTGGGGCAAAAGGAGGGATTCAAAATTCCTTAAGATTGAAGTAGTTATGGAGAAGGACGAGTTCAAGATAGTAAGCGCTGAGGTGACGAGTAATGAGGCCGAATCTGCTTCAAATACTGTAAAGGACTTGAAGGAAAAGGGTAAGGAAGTTAAGAGGTTCTATGGCGATAAGGCTTATGATACTAACGAGATTTATAATCTTGGTGTTGATGTTGTTGTTCCTCCTAGGAAAGACGCTTCTACTAGGCGTGGTCATCCTGCTAGGCGTAAGGCTGTGCGCGAGTTCAAGAAGTTGGGTTATGAACGTTGGCGGGATGAGAAGGGTTATGGTAATAGGTGGTTGGTTGAATCCTTGTTCTCAGCGGTTAAGCGTACTTTTGGTGAGTCTGTTAGGGCTACGAGTTTTGCTGGTCAAGTTGTTGAGGCTAAGCTCAAGTTTTGGGCTTATGCTTGGATGATGTACATGGCCAACCTTGTTGTTGGTCGAGCTAAGGGCTTTGAGGTCAAGAAGTAGTATAGTAAATTATTTAGGAGAGATATTATTTTCTATAGAAAACATATTTTTACTGTATCATCCTATTGAAATATATTGAACGAACCCACAAAGCATGTATTACCGTTTTCTTTCTAATATGGTTTATATTTTTATAAGATTATTTATTAGTGATGATTGTCGGTTACATTATTGGTACAGCAACAACACAAGAAGCCACTATGCTGGCTAAAGAACCTGTTAGACTTGGAAGATATGTAATTTTAGAATATGATAATCTTAAAGTATTAGGACTAATAACCGCCGTAACTAGAGGTAGTCCATTAATAAATGATTCTATGGACGACGTAGAAATTTTAGATGATATGACATTTGTTAATCAAATCCCTAGATACATAAAATCAGAAATAAAATTAGTATTTGATTTTAATTCAGGTTCACAGCCAGATATTCCCCCAATAGCAGGAACGCCAGTAAGATTTGCAGAAGACGATGAATTGAAAAAACTATTCTCTGACGGAGATATTAGTATAGGCAAATTAATTGGGACAAAGGTTCCAGTAAAAATAAAGATAAACTCTTTGGCTAGACATTTAGCAATCTTGGCTGCTACTGGTAGTGGAAAATCTAATACTGTAGCTGTAATTTCCCAAAGAATATCTAATATTGGCGGATCTGTATTAATATTTGATTATCACGGAGAGTATTACAACAGCGATATACAGTTTTTAAATCCTATAGATCCAAAGCTGAATCCTAGATACTTAGCTGCGAGAGAATTCTCAACACTTTTAGAAATACCAAGGAATGCTCCTATACAGTATAGGATTTTAAGGAGGGCATTTACAGAATATCAAAAAGAAATTGAGGAAAAAATAAATTCTGGGGAAATTGATATGTCGCAGTTAAATGATTCTTTTATTGACGATATTGAGAGAATAATAAATGACATACTTAAAGATGACCAGCAGAAAAAAGCTAAAGATTCTGCAGATGAGGTCAAAAATAAACTTGAAGAATTTGCAGAAAGGTATGCAGGCATAATAGACTTAACTGCCCCTGATATAACTCTTCAGATAAAAACACGAAGGGTGAATGTAGTAGATATTAGCCATTTAGATGAAGACGCTATGGACGCAATAGTTTCTCATTATCTAAGAAAAATTTTGGAATGTAGAAAGAATTATAAAAGGAAAGGCAAAGGACTTAGTTTTCCAGTAATTTCAGTTATCGAAGAAGCACATGTTTTCCTTTCTAAAATAGACAATACACTAACAAAAATTTGGGCGGGGAAAATAGCTAGAGAAGGAAGAAAATTTGGTGTAGGTCTTATAATAGTTAGTCAAAGACCGAAGGGACTAGATGAAAATATATTAAGTCAAATGACGAATAAGATTATTTTAAAAATAGTCGAACCCAATGATAAAAAATACATATTAGACGCAAGTGACAATTTAAGTGAAGATTTAGTAAATCAATTGTCGGCATTAGATACTGGAGAAGCAATAATAATTGGCAACCTAGTTAAGATTCCTGCATTTGTTAAAATAGATAGATTTGAAGGAAGATTAGGAGGAGCAGATCCAGATATGATAGGCGAATGGCAAAAAGCTGAAGAAGAAGATAAACTAAATTCAACAGCGGCGGATTTTGGGTGAATAAAGGATGCAATTTCTTCATATTTCAGATACACATTTAGGTAACAGAAGATATAATTTAGAATCAAGAGAAAATGATATATATAATACTTTTAATGAACTCATAGATACTGCTGTAAGGGAGCATGTAACTGCAGTAGTTCACACTGGAGATCTCTTCGACGAATACAAACCTTCTAATACTGCAATAATGCAGTGCATTAGAGGCTTAAAAAAGCTTAAAGAAAAAAATATTCCTTTTATAGCAATACCAGGAGATCATGATACTCCAAAGAAGAAAGGAGAAATTTATACCCATAGAATACTTAGCGAAAGTCTAGAATTAATGCACTTAATAACGGGAGATGAGATAAAATTTTATGAAATGAATTACAATGGTGATACAATAAAATTTTTCGGCATCAAACATATACCTACAGTTGCGAAGCAGAAATTGCTAGATACTTTAAGTACGTTGAAACCAGATGGAAAGAAAAATGTACTGATGCTTCATCAAGGTCTTAGAGATAAGTTACCGTATGACGGAGCATGGCAAATCGAAGAAGGCAATCTTCCTAAAGGTTTTGATTATTACGCATTAGGCCATTTTCATACTCGATTCATAGAGCACATCTCAAGCGGAGTTCTAGCCATAGCAGGCTCTCCAGATATAATTAGAGAAGAGGAAATAGAAGGATATAAAAACCTTGGTAAAGGAGCGTATTTAGTAGATTTATCTGGAGATCAACCTAATGTAGGAAAAATAAATTTAGAGATAAGACCGCAAGAAGTTATAAGTATTAATACATCAAGAATAGATTCTGATATAGACAATATTCTTAAAAAATACGAAAATTATAAATTAAAACCAATTTTACATGTAATACTAGAAGGAGAGAAAATTGAAAGAAATAAATTATTTCAGAAAATAAGTAATTTAAATAAAATAGCAGAATATTATAGAATATTTAAAGATAATACAGAAGAAGGAGAGAAAACGAAAATAAAAGTTCCTACTGGCTCAACAATAAATCAAATTATTAAAAATTATTTACAGGCTAGAGGTTATTCCGATAATGAGATTAATTCAATAATAGAAATTATAAATAATTATAACTCTGATGAGATAGAGAATATGATTAAAAAATTTGGTGGTATGGATGAGAATTGATAATATATATTTAAAAAATTTTTTAAGTCATACAGAAAATTCTGTAAGTTTTAAAGGAAAAGTGAATGTAATAATAGGACATAATGGTGCTGGAAAGACTTCTATTATCGATGGAATAGTATATGCTCTATATAGGGAGAGTAATAGAGCTAAAGCTAATAATCTAATAAAATTAGGTACGTCTAGTGCAACAATAAATCTTACAATTTCAAATGATAACAGTAAAATAATAGTAAAACGAAACATACCAAGTGGCACTAGCGACATTTTATATATTAATAATTCTGCAACGGCTCGAGGAGCTGAAAAAGTTACTGAAGAGCTAGAGAAAATTATGCAAATGGATAGAGATGTTATGTTATCTACTATAATAGTTAGACAAGGAGAAATAGAAGACATCTTTAGAAATTTAACCAACGTTATGAAAAATATTATGAAAATAGAAAATATGGAAAAACTTACGGAAAGTACAGGACCCATTTTCTCTGTATTAAAAGATATAAACTCTAAATTAGAATATATTGAAAAAAGTGAGAAAGAATATAATGATGTAAAAATTAGTTTAACAGATCTCAAAAATAAGTATGTAGCTCTAAATGAAGAATTAAAAGATCTTAATGAAAAAGAGAAGGAAATTAATGAAAAAGAGAAGGAAATTAATGAAAAATATGATAAACTCACAATGATACAAACTAAATACAATTCACTAAAAAATATGTTAATTGATAAGGAGAATAATTTAAAGAAAATTCTACAAGAACTCGAAAAAATGGGTGATCTTGAGAAAAATAAGCAAGATGTGGAAAATAAAATAAATAAGTTAGCTGGAATAGAGCAAGCTAGAAATCTATTTGATGAGTTAAAAAGAATTACTAAGGAATTGGATATGGAGAATAGTGATAAAAATAAGTTAGAAATAGAAATTAGTAGTATAGAAAAATCCTTACAGAGAAAAGAGCAAATATCTAATGAATATCTAAGATATGTAGAAATAGAACAACTACTAGAGGATTTAGAAAATGAAGAAAAAGACTATAATAATAAACTCTCTGAAAAGAAAATTAGAGAAAAAAGAATTAATGACCTAAGAGAGAAACTTAACAGAATAAAAATAGAGAATTTAGATGAAATACAAAAAAATATAGACGAACTAGATAAAAGGATCTCTGATTTACGTACGCAGAAGGGGCAGTCACAAGCCGAATTAAACGAAGCTGAAAAAATACTTACCGGATTTAAAGATATAAAAGATAATAAATGTCCATTATGTAAAAGACCTTTAGATGAAGAACATAGAACAAAGTTAATGCAAGAAGCTAATGAAAAATACGCTGAAAAGAAAAAGGAAATTAAAGATTTAGATAAAAAAATAAGTGAGGCTCAGTCCGAAAAGGATAATTTGACTAGAAAATTAGATAACTATAGAAAGAATCAAACAATATATAACCAAATATCGCATGATTTAAATGACGAAGAAGAAAAACTTAAGGAATTAGAAGAAAAACTTAAGGAATTAGAAGAAAAACACAATTATTATCAAAATTTAAAATTAGAAGAGAAAAGATTAAAACAATTCTATGAGGAGTACATGACGTTACGGAATATCACTGAAGATTATCTAAATTCCAAAAAACAACAGCTTAATAACATAAGCAAAATAATCATTGAAAAGAAAAATCGTATTGACGAAATTAAAACTAAATTAGGGAATTTAACTGAACAAGATATTTCAGATAAACTAAAGGAATTAAACGAAGCTAAGAATGAGTTACAAAAAATAAATATCCAGATAGGTAAAAAGAAAACTTATATGGAAAATTTACAGAATTTACAAGAAAGTATAGATCAAATTAAAAGCGATATATCCAAGATAAATTTTTCAGAAGAAGAATACCAGGAAGTCAAACAGGAACGAGAAAATATTCTCAAAGAACAAAAAGATATTATATCCAAAATCTCAGAGATAAAAGGAAAATTAGAGCAGATATCTATTAGCATAAAAGAGAAAGAGAATAAGCTTACTGAAATAGAAAATACTATAAAAGATAAGACTAAGTTGGAAAACGCTAAGAAAAAACTTCAAAAATTAAGAGAAGATTTAGGAGAAAAAGGATTGCAAAACTATATAATATCTGCAGTAAAAACAAAAATAGAAAATAATCTTAATGAGATAGCTCCAATGTTTAATCTTGCTTTTACTAGAATTTCTTTAAATTTCGATGCCTCCACAAGAGGACAGAAAATAAAAGCTAATATTTCGGCATACGATAATTACGGCAGAGAATTTTCTATAGATATGTTAAGTGGTGGAGAAAAAATCTCTATAGCACTAGCATTAAGATTAGCCATAGCAAAATCGCTAATGGATACTGTTGGTTTCATGATATTAGATGAACCTACTATACACCTTGATGATGAAAGAAGAAAGGAATTAATGAATGTTATAAGAAGCTCTTTAGATATGGTGCCACAAATTATTATAGTTACTCATGATGATGAAATCTTGGAAATAGGAGATTATGTAATAAGATTGGAAAAAAGAGGATCGGAAAGTAAAGTATTCGAAGAGGTTCCAGGGAATGATTGATAAAGCTTACAAAGAATTAGCAGAAAATTACGATAATCTAAAAAATCAATTAAAAACTTTTTATAAAAATATTGGGAAAGAAGTTTCGAATAAAGTGAAAGAAATATGGATTCCTTACACACCGAAATCATCAATAAAAAAATATCTAGCTATTGATGGAGGAGAATTCGTAAAAGAAATGAGAGTTGGAACAATATTTATAGTAAACGCTGAAGCTATATTAAGTAATGGTATAAATTCTGAACCGATAGATACATATACAAAAGTAGGTGTTTTTAGGCCAGGTAATCTAGCAAAAGAAAGAGTTTCAGAATTAATGGCAACAGTTGAAACTAAATTGGCATTAAAAAATAGTGATAAGTCAGATTTTATTTTAATGGACGGAAGTTTTAATAAGAAACTAAATAAAGGTAAAGGAATAGAATCAAACCTTGAATATTCCTTAGATGACATAAATTCTCTTAAGTTTTATGATGAAAACGAAATGTACAAATCATTAATAGTAGAAAAACAGATAACCATTTCTAAACTTATTAATGAGCTAGATAAGAGAGTATTATGGATATCAAAAACTAGTAGAAGTAGAGACATATTTCTCCAACAACTATCTGATTTAGTAATTCTAGAAACTTTCACATATGAGACAGGCTATACATTACCTGTATGTAAGAGGATTAATCAGGATGATTTAGTAACTCATCCACTTGTTAATTTATCGGATTTTAATGTATGTACTTCTTTTATTCGTCTAAAAAATGGCAAAAAGATTCTTAGACTAGATATAGTATCTAAAGATAAAATAGAAGAGAAATATATACAGCAAATTATAGATAATTTAAGCCCAGTAAGTATTAAGGGATATCCGTATCCTTTATTAAAAGTTCATTATGACGTAAAGGTAAACATAAAGGATAGAGAAAGAATTACACGAATGTTAGGATTATCTAGATCTGGAGTCGATTGGTGGCCAAATCAATTTTTCTGATCTTCTCTTTTGGATTCAAACTGTATAGTTACATGATTTATATTAAATTTTTGCGAAAGAATTTTTTCTATTTTTTCTCTTTTTATATCGAGTTCCCTCAGTGTAACGTCCGGATTCTCTTCTACATGTAAAGTAGCAATTCTCATATGATCACAAAGTGCCCACACATGAATATGATGAGCACCAGGAAATATTTCCCTTATATTTTTTTCTATCATTGTAATATCTACAGGAGATTTTTCCATTAGAACGTCTAATGATATTTTTATAGTATTAACGTTCAAAAGTAACATAACTAATACCACTAATAGTGCTGTAATTAGATCTATTATATTCTTAAAATTATAGAATATTGATATGAAAGCTCCAAAACCTCCTATTAAGTATCCAATTATATCAGATATAGTATGAAGCCTAATCCCTCTCTCCTTATGATTTATTGTTAGTAATAATATTAAAGAAACTAAAATTGAACTAATAACTACTAGAGATGAATTTTCTATTATTTTAAATTCAACATAAACTATGGAAAGAATGACCGACAATATTGTGCCTATAAATACAATACTAGTATTGACTAATGCTGATAAAACCTCGAGTCTATGAAGCCCGTATGTATAGTTAGAATTTTTCATAAAATAAACAGCTAATATGGAAAAACTCACTGTAATAGCATCAAATAATGCATGCAAGGACTCAGCTAAAGCTATAACGTTTTTGGATAAAATAAATATCATCAAAAGTATTGAAAATACTAGCCAAAAACTAAATACTGATTTTTCCATTAATATTTTTTAGCTATTGATAGCTTTTATACCTTTAACACATACATAAGACCCGCTAGAATCTAGTCTTGGCTCTTCTTCTTTTTCTTGATCAAAAGGAGAATACGTGAGTGTAGATATTATTTTAATTATTCTGTAATATTTACTAATGTATTTAATAAGTTCATCTTTTGATATAAAATGAGCTTTAGAATAGTATTTATGCCCTTTCTTACCTAATTCTTCATAAAACTCTCCCCACGGTGAATCCTTAGCTACTATACATGTATTAATCTCATTAGCTACTCTCCAAATTTCTCTTATAAATGCCTCTACATCACTTATAAAACATATTGTTACTGATATGAAAGCGCATTTTACTGCATTATCTCTAATAGGAAGATACAAAGCATCTGCTACTATTTTATCATTCTCAACGTCTTTAAGCATGAATTCTGAAATATCTATAGAAATTGTTCTACCTTTCATTACTTCATGAAACACTGCTGGTCCAGAGCCTATATCTAGGCAGTCATTTAAGTTTAGTAATTCCACTGCTTTCTTTTCAGTATTATAGATTTTTATGTGTTTTATATACCAACCCTTATATTCGTTAGGATTATTAAATATTTCCATTATTATCTTGTTTTATAGAAAGTTTAATAAGTATTAGTGTTACATTTAGCTTATCTTCTATTTCATTAAGAAAATACATTAATTCTTCTTTCCTTCTCTTTAGCGAAGAAGAATTATACATGAATTCATTTAATCGAGATTCTATATATTCTATTTCTTTTACTATATTATTTTTTATTTTCTCATAATACGAATATATCTCTAGCAAATCTGTTATTGAATATAAATTTTCATTCCTTATGGAGAAAAAAGGACATATAAAACAGAGTACTGGATGAGGATTTATCTTATTCTCAGACCTCCAAATAGTAACTATATTTTCTTTTATATTTATTCTACTACAGAAACCATTGGTAAAGTATGCACAAGAATCTTTCCTACTTTTTCCCTCATATTCAATTTGTTCATAATTCTTTATTTTAGAAGAAAGAAAGACATCTAATATTTTCAGCCTAAACTCCTCCATACATAATATTATAACTTACTAGAATTAATATCTTGCAAATTACTATAGAGCTATTGAAACGTATTACTTCAATAGTCTTACGATTTCAAGTGAAATTCTTAGTTGATAGAAATGATTTAATAATATTATCTAAACTTCTATGTTTACAGCAAAGTTGAAGAAGTATCATTTGAAGTTATTAACGAATTTTACTATAGCATCAAATGATTGTAAAAAGGTGTATTTGAATAGTAAAGAAGTTGCTAAATAATTAACTAAAAAACTGGAATGATTTTTTAAGCTTTGATATCTATAAACAAAATATGGGAATAATTAGAGAATCAGTAATTTTACGTCCTTATGATTCGATACTTTACGCAATAAAAGTAATGATAATGGAATCTGTACCAAAAGCTGTAGTAACTGACGAGAAACAATACCCGCTTGGTTTTTTAACACAGAAGGACATCATAAGATTTCTTTTTGAAAAATCAGAGAAAAGAAACCTAAAAGATATATTTATTTCAGAAGCTATGAGAAAGGATTTCATTTGTGTCAATCAATCAATAGATCCACTAGAAGCTGCACAAGTAATAATAGATAAAAAACAGCCTCTTCTTATAGTATGTTCTGATGAAGATAAGTATATTGGAATGATAATAAAAAGCGACCTTAATAGTTTCTATTCCAGTCAAATAAAAGGTCTTCAGAAAGTATCAGAATATATGACAGCACCTGCAATTACTGTAAGTCCTAAGGAAGATTTATTCAACGCAATAAAAATCATTTTAGAAAAAAATCTGAGTAGACTTATTGTTTTTGATGATAAAATAGAAGGAACTATAACTACTACGGATCTATTGTATATGGCTCCCATAATAAAATATAAAGATGTAAAAATAGAGGTTGCAGATGTAATGAGCCCAAATCTTATAGTAATAGACGAAGAAGAGGACTTGTCTAATGCTGCTAAACTTATGGCATCAAGAAAAATTAAAGGTATACCGGTTGTTAAAAAAGACGGTACACTTTCTGGAGTAATTACAACTACAGATATCGTAAAAGCATTATTAGATGATAAAGTTAGAAGATATCTATATGAAATAAAAATGTATACTTCTACCTTTTAGGTTTTTATAACTTCTAGTTTATGCTCTATTGAGTTTTCTTTATCTCTTCTATCATCTATCTTCATAAAACTAACTATTCTTTTAATACCCTCAGAAGCTAAAGCATCATCAATATCTTTTAAAATATACCCTAATTGAGTAATATCATCTAATTCTAAGCTTGTCATAGAAGGAGCTGGATAGAATTTTATTCCCTTTGATTTTAGCACATCGTAGACTATTTTTACATATTTAGATATACTTGTAGTTCCAGTTCCTATAGGTTCTACACTTATATCAACTATGTATTTCATAATAATATCTAACCTAAAGACTGTTAAAATAACTTTCGTAACGCTAATGGCAAATTTTAAATTACTATAAGATAATAGTAGCTATAGAATGGAAACTGATAATGTTGAATTATTGAGAAAGAAGGGATTGAAAGTAACTCCACAAAGAATTGCTATCTTAAAACTCCTAAATAGAGGTGGGCATTTCAACGGAGAGCAAATTTTTGAGGAACTGAAAAAAACTGAACCTAGCATAAGTTTATCTACTGTATATAATACGCTCGACGTTCTAGAAAAATCTGGAATAATAAATTCTTTTGAAGCTAACGGAATAACATGGTACGAGATGAGAAGAATACCACATATAAATGTATTTTGCATAGATACTAACGAAATAATTGATATGGATGTAAATTTGGAAAGTATAAGTGAACAATTAAATGAGAAAGGAATAAAAGTGATTAACTTAAGCCTTGTAGCTTATGCAGAATGCTCTAGTTTGAAAGAACATTAAAGAGCGTTTTTATAAAATTTTCTCTATTTGCCTCTAGAACAATTTCTGCATTACACTTTCTTTTAGAGTTTTTATAAAAATCTATCAGCATTGCTCCCCTTGATATTGAACAAGTTTCTACATCAACAAAATATTTCTTAGACTTTAATATAGAAGAATTATCATATGCTAAATAAACTGTTAAAGAATCTGTTTGAACACTTCCTGGAGCACCATGAGCTTTAGAATATTCCCTTAAAGTGCTATTTACTGAAACAAAGAAATTAGAGGATCTAGTGTTTAATTTTTCAATTTTATTCCATAAGTTATCATCTATAAAGGCAGCATCTTCAGTTACTTCCCAGGGTACTATAGTAATATCAAAGCCAGCGTGCAACACTATCTTTGCTGCTTCTGGATCTACCCAAAAATTAAACTCTGCTATGCACGTTGTATTACCTCTACTAAATGCTCCACCCATTATCCAGACCTTTCTTATTCGTTGAACAATTGATGGATCTTTCAAATAGGCCAATGCTAAGTTGGTTAGGGGAGATACCGCCAGAATTTCTAGGTTATCGTACTCCTTTGACAATCTTATTATAGCATCTACTGCGTGCTCTTTCTCTGCCTTCCTATTAGATTCTAAATGCTCTATTTTTCCCATACCTTTTTTGCCATGAACTTCCTCCACTGTTTTCCAAATACCTAATATTGGTCTAGAGCTTCCCATAAATACTGGAACGTCCATATTAAAATATTCTAAAGTAAAAAGTGCATTTTTTACTTCTTGTTCAAAGTTTACATTTCCTGAAACTATTGTAACTCCTACTAAATTGAAAAGTTTAGAAGCTAATAGAATTGCTATAGTGTCATCGCTAGCCGTATCTGAATCTAATATTACATTTCTAGCCATAAATTGAGTAAAGATAGATCAATATTTATGATTTTGGCCTATCTAGAAGGATAGTTCTACCATTAATATATATTTATGTTTAAAAATATCATTTAATATATTTTGAATTATCATATGGAAAGTTATTTCCTATTGCGCTGTTTAGTTTATATTCAATAATTTAAAGGCAAGACAGCAGAGTGAAGAATCAAAACCATTCACAGTTGTAACTTGCCATTATATTGCTAACCAGGTAAATATTGAGGTATACATGGTGTAAGTTCATGGAAAAGATTTTTTAATTATATTTCAATACACTATCTAGATGAAGTTCAAAGTATATAATATCGGTGGTATAGTTAATCCGTTAGAGGTAGAAATTTCAAAAGGTGTCAGCGTATATAAAGCACCAAATGCATACGGTAAAACATCAATAGCTAGAGCATTACTATCGCTATTAACATCTAGCATAAAACCTGATGAGTTACTTAATGTATTTGCAGATAATGGATATATTGAGTTAGAATATGAAGGGAAATCATATTACAGAAGAATTAAAAGAATAAGAAATAAATTGTTGGAAAGCTCCAAACTTTACATGGATGATGATAGAGCCCTGCTATTATCATATTTCTCACCAGAGAATAAGCTATTAAATCAAGTCTTAGGCGGGCAAGAAAACGTAGAGTGGTTTATATCATCAACATCAAAAATAGATGAGATAAAGAAGAAGAAGGAAGAGGTTGAAACTAAACTTTCGAGTTTACAGAAGGAAAGAGAAGAATTAAATGACAAATATAAGCAGGCATTGGATCTTAAGGCAAAAATGAGAAATATAGACGACGAGATAGCTAGATTAGAAAAAGAAAAGGAAAGTGATAAAATCCTTAACAAGACTACGCATGCTATTACTACAACAAGACAGAACAAACTAAATGAAATCATAGATAAGATAAACGCAAAAAGAAACGAACTTAACGAAATTCAAACAAGACTCACTAAATTAGAATTAGAGATCCAACAAAAAGAAAGTATGATAAAACCTGAAATTATAAAATCATTCCAAGATCAAATAGCCCAGATCGATGAAGAATTACAAAGAAAATCCTCCTTGAGAAATGATACTGAAATAGAAATAAGACTATTAGAAAGAGTCCTTGATGAAATAAAAGAATCAGAAAAGAAAAAATTGTCCACTTGTTACGTATGTGGAAGTCATGTAGATCCTGATGCATGGAAAGTAAGAAGCGATATTATATCAAAAGAGTTAAGAGAAAAAATGGCCAGTTTTGATAGTATTAAGAAAGAGTCAGAAGAATTATCAAAGAAGAAGGATGAATTGAGCAGGAGAATCAAGGAAATAGAGGCATTACAAAATGATGTAGCTAAATTAAGAACTTCCAGACAAGATCTTATAGATAAAATAGAAGCAATAAAAACTCAGATAGAAAATTATGAAAGACAAAAAAGAGAGATGGAAGATAGATTTAGTAGAAGCTCTGATATGCTCAGAGTAGTTGAAGTCGAGGATGAACCTACTAGAAGGATTCATGAATTACAGAAAAAGAGAGGAGAGCTCGAATATGAACTTTCATTGCTTGGAGTACCTAATGCACTCCTAGAAAAACTTTCTGAAAAGGAAAAAGAGATTGAAGATTTACAAAAACTATCCGAAGATCTAAAGAAAGAATATATAAGAAGATTAACAATAGCTAGAGAAGAATTTATGAAAATTTCAAATCAGTTACTAAGTCAATTAGAATTTGATTTGGAAGCTGAAATTAATGATAATTATCAGCTAGTGGTAAAGAGAAATGGCGCTACACTAGATTTAAAGAAACTATCATCTTCAGAAAGGACTACTTTAGCGCTAATATTAGTAATAACTGGTCTGAAATCATATTTCAAGACGCCATTCTTCATAGTAGACGAATCATTTATGACATTCGATCAAAAAAGATTTGATAGATTAGTCAATTACCTAGCCGATGTAACTGACTATATAATAATAACAAAAAGCGATGAAAATGTTGAGTTTGTTAAGGAGACCATGGAACCTCAAGTCTCTTCATAAGTATTTTATTTAAATCTGTATTTACTGCATCTTGAACTTGTTGCGGAATACTAGTAATTGGCGTGAACCATCCTACTGCTGTTGTCATTCCTAACTCTTCTGCCTTAGACTTTAACCATAATGCCACTGCTAAACCTGCTAATGTAGGTTTAAAAATAACTATAGACGGACCTATAGACGAACTAGATATCTTTATAGAATGTTTTGATATGGTCTTCCATCTTGTTTTTGTTATTATTCTAACTAATTCTTTTGCCCTATCTTTTTCCCCTATAGCATAAAATATTATCATAAGTAGAAAACAGTTATAACCTATTAAAAAAGTTTAGCCAGACCCTGTTCCGCATCCACAATATCCATATTCATCTATTTCCATACCACATACTGGGCATATAACGCCGCTTCCCTTAACTTCTGTCCATTCCTTGCCAAACTGTAAAAAATGTGGATCTAGAACAGCTTTAGCTAAATCGCGTATAGAAACTATTCCATATACTTTTCCATCTTTCTCTATTATAGGCAAATGTCTAAATCCATTTTCAAGCATTATATTTAACGCTTCTGCTACAGTTGTATCTTCAGTAACTCCTTTAACATCTTTAGTCATGTATTCTGATACTTTAGCATCAATGTTTCTATCAGCTACTACTTTAACTAAGTCTCTTTCAGTTATTATACCTACAACCACTTGTTCCGAATTTAGAACTAAAAGAGAACCAAGATTAAATTTTTTCATCTCTTGAGCTGCAAAGCTAACTGTATCAGTATCTTTAACAAAATGGATTTTTGTTGTTGCAACTTGTGAAACTTTAGTTGACATAAATCAAATTCTTTCTAATAAGATAAAAACTTTACCCTATGATAAACTGATGTGCTTTTACCTTGTTGCCTTCTAAGACTATATATACAGCGTGTAGAATACCTTCTCCATACTCACTTCCTGGATTTAATACAAGAGTTCTTCCAACCTTGTCAAAAGCTCTAGATTCATGAATATGTCCATGTAAACCTAATAATGGTTGGTATTCTTCCTCTATTTTCCTTACTGAAGTAGAACCTACATGTGTCATAACTATTTCTCCACCTTTAACTACTGGCTTCAAATTTTTATCAAGCAATGGAGCATTATCTAAATTACTACCGTAAGGAGGTGCATGAAAGTTAAATATTGCCTTCTCTGGATTAGATACTTTTTCAGCTTCTTCCTTCAATTTCACATACAAGTCTTCCTCTTTCATTTCTCTAGGAGTATTCCAAGGAGTTGGATTAACGTAGCCATAAGATACCATCTCATAATCTCCTAATTGAATCAATTTTCCTTCAGTCTTTATCATTCTGTCACTTTCAGATAGAACATCAAACATGTATTCAGGGTCATCGTTACCTAGATTATAATATAAGGGCATATTTGTATCTGATAGTTTTTCATCTGCTATCTTTATCCAATTTCTTAATACTTCTGAGATAGCCGTCTTAAAAGCTTCATTAACTTTTTTCTTATCATCTTGCATAACTTCCACATCTTTTTTATCAGTTATTATATAATAATTTCCAGCATTTCTGATCTCGGTTATAATTTGTTGTAAACCTTCTTTACCCACAGTTTTTCCATCAGCTTCATATTTTCCTTCACCTAATTCTATTATGGGAATTAATGCCTTTCCTGCCAAATCTCCGCCTATAATTAATGCGTCTACTTTATACATTTTACCAGCATTTAGAAACTTTTTGAAAACTATATCTGAACCATGTATATCAGACGTGTATAAAATCTTGAAAGGCTTTGAGTCTACATTATTATTGTTTTGCTTTCTATGAAATAAGCCCACGATATTTACTTTTAATCACATCATATTTAAGTTTTATTAACGTTTACTTAAAAAGAAGTTCAGTGATAATATAAAAATGGTCCTACTACTCTTTATACGGCATGGACAAAGTGAATCTAATGTTAACAAAATTTTATCACATGATATTAATGGCTATCCTTTAACTAATGAAGGTAAATTACAAGCTAAGAAGACTGCTGATGAACTGAAAAAAATAAGAATTTCGAAGATTTTTACAAGCCCAGTGCTTAGAGCATATCAGACTGCATCAATTATAGGAAATGAACTTGGAATAATACCCATAATAGATGATAGACTTAGAGAAAGGGGATTAGGTGAATTAAATAATAAGAAATTTGATCCAAATGATCATTGGAAATTGAAGTTAACAAAAGGGCAAATAGAAGTTAAAGGTTTAGAAAGCTGGGATTCAATGAAAAAAAGACTATCAGAATTTGTATATTCGCTCGCTGACAATGATTGCGCAATAGTAGTAGTAAGTCATTATGATCCTATAAGAGCACTAATAGGATATATTTTAGATTTAGACGATCTATCAGCGTATGGAATTTCATTACCAAACGCTAGTATAACTACTGTAGAATTCGAAAAAGATAAGAATATGTTTAAAATACACTCTATAGGTTCACCGATTATATCCCAGAGCCTATTATCTAAACTCAATAGATATATTATTACTATTAATACTTGACATTATTTTTTGACGTAAATTACGGTTTACACTATCGAATATTATGGTATCAATTCTATCAATACTATTTTGTATTACCTGATTAATTATGTTCGAATCTAATTCTGTTAAATAGTGTTTTGATATAATATGAGATATACAATATTTTTTGGCTAGTTCGCTAAAATATGTAGCATAATGAGGGCCACCAAAACCAACTGCTATTTTTTCGCATGATATAGATTGATATTTATCTATACCGTTAACTACTGAATTTACCAGCTCTTTTACTAATTTTTCATTTTCCCAATATTCTTCACTGCTTCCTATCTCAGCAAATACCACTGGCTTATTTAATGTAGGGCCATGATGTGTGGCCTCTATCACTTTGTCTATATTCACATTAATTTTAAGCATTTCTCTATATATAGACGTTAAAAGTCTAGGAAACGCTATTCCTAAAGTTTTAGGCCGACCTCCCATAGCTTTTTCAGAAGGATTACCAGGGTAATGTACAGTGAATGCTGGTATATGTGATGAGCTTTCGTGCCTACTAAGTATAACTATAGCATCTGCATCATTATAAGTAAAATCTGTTACATCATCCTTTACTTCTTTAAAATCAAACAATTTCTTAGCCGTTCTCCCTACTGGGTCTTTTTCTGAAACTATTATCTCTATGTTCAATTAAAATCGTCTCCCAACTATAATAGATCTTTTACTTGGCTTATTAGAATTGGAGCTAATGCAAAACCAAATTTATAGCCTGTTACCAGAACTGTATTATCAAATATTTTTTTAATAATAGGATCGCCATTATCAGAAATAGTCCTAAAACCTACTTTTATTGAAAATTTATGTGTATCTATTGGTAAAACTTCTCCAATTTTTTGTACACTCTTATTAACTTCATCATAGTTTATGTTTTTGGTAGTATCATTATTTGAATCCCCATTAATGTAAAGATTATTTCCTTCTACGGCTATTCTGTCTTTATAAATTAATATTCCATTTAATCCAACTTTATTTAGAATTAAAAGATGACCCTTGTATAAATTTATATTTATGTTAGACAATAAAGACTTAGTTTTATATCCAGTAGTTAATATAATATTTTTGGCCGAAATTTCACCATTTGTAGTAAGTATACTTTTAACGTTATTGTTACTAATTCTAAGTTCTTTTACTCTAGTTATATACAGCTTAACTTTTTCTGAGAGTTTATCTATAAGCTCGTTTCCTTCAACAAAAAATCCATTATCATAATATTCTGCATTATCTAAATTTAGATTAGGCTCAATTCTACTTAGTTCAGTCTTATCTATCTCCTTTCCACCTATTTTATTATCTGAATATCTTATTATGTGAGTCCTTTTACAATAAACATGAAAATTATCACATAATTCACTATAATATTTCTCAGCATCAATACACTGATTATAGAATTTTCCACATAGTGGTGGAATTATACTCCAAAGACTAGCTCTCGAATTACCAGAATTATCATCTATCACAATAGTATTCCCGCCTATATAATAGGCTGCTAGTAATCCAGTGATTCCCCCACCAATAATTGCAAAGTCATACATATAGCTATCTTTAATTTTTCCAATATAAACTTTTTAAACATCAAATCATAGTATAAATTATGAGCAGCGATTACGATCCTGAACTTGATAAGCTCTTAAAGGAAAAACTTAAACAGATGGTTAGCGAGAATAATAATATGCAAGAAAATAAACCAGAAAAAACAGAAGAAGAGCCAGTAGCTCATTTAAATTCAAACAACTTTGACTCATTCGTAAAATCTCACAAGGTAGCTGTTGTAGATTTTTGGGCTGAATGGTGTGCTCCATGTTTAATGCTAGCACCAATAATTGAGGAATTAGCTAAAGATTATCCGCAAGTAGGATTTGGCAAGCTTAACTCTGATGAGAGTCAAGATATAGCAGCCAGATATGGTGTAATGAGTTTACCAACAGTGTTATTTTTCAAAAATGGAGAACCTGTAGATGAGGTAATAGGCGCTGTTCCAAGGGAAGAAATAGAAATTAGGTTAAAACAACTCATTGAGTGAGAAAAATGAAACCACTTTTATTGGGAATAGATGGACTTAGCTATTCTAGCTTTATGAAATGTAACCCTAGATATCTTTTAGCATTATTTAGTAGTACATTTAGAGGAGTTGTAGTTAATAGAAGTCCTCAGCATCCTGCCTCATCTTGGATGTCTATCTTGCAAATGCAAGATGTAAGAGGAAATGAATTCTATAAAAGTTTGGAAGAAACACCATTATTGATAAAAGAAACTAATGCAGTAGCTATCAATTTACCTATAACTAACCCAACTTATGGAGAAGTAAACTTACCATATGGAGATGGACTTTCAGCTAAAGATGAGATAAATAAAGTAGTAGAAGCAGTATTAGAAGAACTAGAAGACAGACCAGTAATAGCTAGTATTACAGCTCTAGATAGATTACTGCATGTTAATAAGGAAAATAAGTGCGAAATATATAAAGAACTAGATGATGCAGTAAAGAAACTTATAAATAAGGCTGATGATTTTATAGTATTCTCTCCATATGGGGAGCCAAAATCGAGTAGTTTTTGTGACCACGAAGATTACGGTGTCTATTTATCTACAGTACCTAGACCCAATGAACATGATGTTGTAAAACTACCAGAAATCGGCATGCTATTTAAAAGAATAGTTAAATGATAAAGCTGCGTGATATGATACATCAAAAGCTCTATTTACTAAAAATCTAGAGTATAATTTTTTAGCATTCAGATAAATTTTGCCAAAATCTAATATAATTTTAGTTGTATTATTGTTTTTATCAAATCTTAAGATACCTCCATCGTCTCCACCAATCATCATACAAAGGATACCTTGTGAGTAATAAGGTAAGTCTATTCCTTTTACTTCGTGTAATAAAGTTGATACTGCATTTTCAGCAGAAATCATAGCACCTCTAGCTGTTTTAGAAGGTACCATACTCTTAGCTGAGTCTCCTAGTCCAAATATATTCTTAAAATTGATGTGTTTAAAAGTCGGTATAGAAACATTAATAAAATTAGAACTATCAGTTAAATTAGCAGATTTTACTATATCGGGAGCGCTTAAAGTAGGCAAAACAGACTTTATATCAGCGTATATTTCTGTATTATCGGAAAAGATTACTTTATCTTTTCTAATTTCCTTAACGCTTTTGCCTTTTAGAATCTTTATACCCCTTTTTTCGAAATATTTATTTGCAGCCTCTGATATCCAAGTTTCTGGTATAGGACCGAAAACTCCTTTTGGACTTTGAGTAGATAAATAAACTTCTCCCTTTATTCCTTTTTTCCTCATTAAATACTCTGCTATTAACGCTACTTGATACGATGGACCTTCTATAGGACTATTTTGTGAGTTACCCACAAAGACCCTAACTCCATCTTCCATTTTATCTAAAGCGTTTTTAAGACCTAGAAAACCTTCTAATGTATGATGCATAAAAGCAAATTCATGACCAGGAATTTTACTAAAGTTTTCTTCATATGCACCTCCTAACGCTATAAATAAAATATCATAGTCGAATTTGCCTACTGATGTTTTAATTTCATTTGATTCAGGAAAAATTCCGTTAATATCAGCTTCTACAAAATTTATTTTCCTTTTTGATGCCTCCTTATATGCATCAAATTCTGTATCCTCTATCTTAACATCATCAGTTAGTAAAGCTGGAAATATTGTATTCTCCTTTACAATTCTCGACTTTGATATTATGGATATATCAAAGTCTGTAAATTTTCTTAGTTTATAGGCAGCAGTTAAACCAGCGTATCCAGCTCCAAGTATTAAGATTTTCATATGCTCTGTAGATACTTATAAATTAATCAATACTGTTATAAAACGGGTATAAAGCCATTATAACAGGATCTACATAAAGTCTAGTTCTATCTATATATTTTGTAAGAATGCCTACTGCACCTGATTTATGTTTAGAATCATGGGTAGAAAAAGCTAAATCTGTTGCACTGCCCAGTTCAATTCCTCTATATATTAACTCGGCAATTTTAGCTGGTAATGTAAAAGAAGCAGATTTAGCAAAGTTCTCTTTACCATTCTTATTAACAGCGTAAACTACAGCAAAAGCGACTAGCCTATTCTTTTCAACACATATTCCTCCTTCTATTCCGATCCCTAAATCTGCATGAGCCTCTAAAAGTGATCGTATAGCTCTGTTTCTGGCTCCTACAAAAGTTTCATCGCAAAATGGTTGATTAGATACTCCTGAACTTACAGAAACTGCTACTAAATCATATTCTAATCCTATAATTTGAAGAGCACTCTTAACTGCGTTAATTTTAGTAGGATTAGTACTGCCTATCGAAACTAACATTTTTAATCCTGCTTAATTTCTTTTAATCATGGTAACAATAAAAGTTGGTGCATTAGCAGATTCAGGCGATTTATATCCGTTTATACCCCTAATAGAAGACATAATAAAGCCAAGTGGATTTAATTTAGAAATAGAAGTAATTCCTACAGTACAAGAAGTTAATGAGAAAGTATTAAAACATGAGGTTGATGTATCAGTACCTTCTGCTGCAATGTACCCATATATTCAAGAAGATTATTACATCTTGGGTAATGCAGTAGCTTCTGCTGTAGATGGTATAACCGGTATGCCTATTTTAGCTGTAAATGAAATGAGCATAAACGATCTAAAGAAAGCTAGGCTAATTGTACACGGACAAAATACTAGCGCATTTACACTTTACAGACTGTTAATTGGGAAATACGGTAAATTAGTTATAATAAAGAGAGTTTTAGACGAAATTAAAGGTTTGGGAAAAGAAGGTGATGTCTTAGTAGCAGTTCATGAAATAAAAATGATGTACACTATGAAGAAACTAGGTATAAAGCCGTTTGTAATAAGTAGTATGTGGGATTTATGGAAGAATATTTCTAATAATTCTCCAATGCCTATGGGAATGGTAGTAATAAATAAGGACCTCGGAAAAGATCTGGCTATGAAGTTTAAAGAAACGTATGAGCAAAGCAAGAAATATGCTGAGAAACATTTAAATGAAATAATACCAAAGGATATAGAAATAATGAAGAATGCACAAGGTGCGAACTTAGACAGTGAAATTGTGGAAAAAACTATTTGGGCAGATATTCAAGAATATAATGTACCTACAGATAAAGTAATAGACGGTATGCGGAAGTTTTATGAGTTAACTGCAGAAAAAGGTATATTACCAAAAGTAATTAAACTAGACGTAATTTAAATAACGCCATTAAAATAGTAAGGTTTTCTAAGAGTAAATAGAATATCAATATATTGTCTCATTTCTTTCAAAAGTTCTAAAATAAATAACAAATCTTTATCTGAAATTAAAAGCTCTATTATGAAGAGGTTATTAGATTCTAAATCTAGAGAAATAGAATATCTTATAAATGGTATATACTCTAATCTTTCTCTGACCTCTTTTTCAGTAGTAAAAACATCAATAACATAGTCTCTTTTTCCATAATCTATTATAAATCCACTTATAAGGCCATAATTTAATGACGTTTTAAGAATATCGTTAAAAGAGTAAAAAGATCTTAACGAAGAATATAGAAGTGGTTCTGCATTATCTTCATATTGTATAAATGGCTTTATTCCTTCGGCTTTAATGTCCATATGTAAATCCCATTCATCTGTAATAAAGTCATAAGCTTCTGGTATTCCTGAGTAGTTTATGAATTCATTTACTTTTAATCCTTCTCTAGATATAGACAGACAAAAATCTTCCCTAAGATTTTTCCTTATTAATGACTTATCATTTAGATTTAATTTAAATATTCCAAAACTTGGTATAGGCGTAAAATATAGATTATTAATTTTTAATAATTCGTTTTCTATATTTTTCTTACTATCTCTAATTACATTTGAAATAATATCAAGATTTGGACCTAACGACCGCATTAGCTTTATTATCGTTACTAGTTTTGGATACATTTGACTTTATATCTATTTTTAAAGTATTTTTAACTTTTTGAGGAACTATCTTCACGTCTACTAATGCTACAGAATCAAAAGAATACACAATTCTACTAATCTTTTTCCTTATTCTATAAACTTTTCTTAGTTCAGTTCTAGAAGGCATAGTGACTACTACATAAACCATGAAAAACGAGCCCAATCGTCTTACATACACGTTAGAGACATTTATGCCAAATCCCTTCAAAATAGTGTATATTCTATCTTTAATTGGACAATCGCAACTAGCTCCTATTAAAGATAAAATAGCTTCTTTCACTTGCCTTATTGTATCTGCTAATATAAATCCAATTATACTCAAGATAACGGCCATATTGAAATAAAAGTTTTGAGATAGTATAGCAATACCACCTATTATTTCCATAAGCATGTCAAGCTTGCTATGAACCAAATCTGTTCTTACTATTTCTATCCATCGGTATTTTCGTTCCATGTAATATATAATTAACGTTATTATCGATGAACCCCAGATAATTGACGCTAGCCAATCTGGAACATCATAACTAGCATGTAATCCTTGGAATAAATAAGTCATAGAAAGAAATACTATAATTGCAGACGACATTAATATTGCTAGGCTTTCCAGATTATATAATCCCCATGGAAATCTTTTACTTTTTCTATATATTATCTTTAGTAATACTGAAAATAATATTGCACTTGTTGCGTCAATGAAACCGTGATACGAATCGACTACTAATAACGAAGAAGAATATTTTTCACCAAAATATATTTCCAAAACGGATATAGGAAAAATTAATATACCAGAAACTAAAAATATTCTAGATGCGGAATTTAACTTGGATAAAGGAAGCAATTCTCATCACTCTCCACTATATATATGAGCAAAATCTATTTAAAAATCTCGCTATCTATATAGATTAAAATATTTTTTAGGAATTTTTATAGATATATCAAACTGAACTTTGCTTCTATATTCAATAATTGATTAATAGTTTTGTAGTATTTTGAACCACTTAATAGTTTTAAAATAAGTCTATTCTCTAATATCAATAAACAATAAATTAGCATCTTATGGTTTTTGTAAACATAGCCTTTAGTTCCTTATTTCCACAAAGACAAAAGCGGAAATAAAGAAAGTTAAATTTATAATTAATTTATAATTAATGATGTATATGGCAGAAGACAAAAAGCAAGAAATAAATAGTTTCAGTGATTTAATAAAGTCATTATTTAAAGATTGCAATTGGTATTTAGGAGGATTTATTATTGCTTTAATATTATTTATAATATTTGATCTAGCAGTATATCATCCATAAACTAAAATAAGAAGATTTTTTTATATACTAATGTATTCACATTTGTGGGATTTAGTTGGCAAGAGTTAACATAGCTGCAGATGCCGAATTAATAAAGGAACTTGAAAAAGAAGTAAAAAGTAGAGGATATACTATATTTGCGGTAACGAATATAGCATTAAAGGCTATATTAGAATTACTTAAAAGTGGGGAAGACTCTACTACATTACAAAACTTGGTAGAGATGTATAAAATTACTAAAGATCTAGATATAATTCCCATTCCGTCATGGTATATAGAAAATTTAGTAAAGTTAGCTTATGAAAAGGATAGTAAATCTTTTCAAGATATATGCGATGGTACTGGAGAGCAACTATCTTCATATCTAAAGTCTAGAGCATCAAGTTTTGAAGATTTACTCAATTTATATTCCGAAATAAGAGGTGTATTACCTATAAAGGACATAAACGTTAAGAAAGGATCAGGAGATTCTATAGATATAAGATTAACTGGAACAGGATTCAATATAGAATCTACTTTATGCGCAGGAAGAGTATTCAAAAAAATTTTAGAAGCATATTCATTTGAGGTTATTGAAATGACTACATCACCAGGAGGAATAATATTCGTTAAAGCAAAATATTCAAGGCCAACCTAATATTTCATTGCATGCCGAAATTAGTCTACAAATTGTTTGTTGAGTTTCTAAAACATATGAGCTAATCGAATAGATAAAACTAGCATAATCCAGAACCTCTTTAGAAAATTCTCCGTGAGGGAACGCACCTATACCTACAATTTTATCTTCAGTAATATCGTTACATATTTTTTCTGGTTTAATTTTTTTACCATTTTCGCTTAATAATATAATATTATATTTTTTTGCTATATCCTTTAATTGTAAACTAGTAACTTCCATTAAAGGATTATCTGAATTAGGTGGAACTTTACCCATTGTTAATAATTGTTCCATTAGACTGACAAATCGATCATAATTTTTTGGCGGTCTCATATTGTTATTAACCTTTATAATTTTTGAATCGATAGTATGAATATAAAAATCTCCCTTGATATTAGACTCACTTAAGAACATGATCATAGCTAAATGTACTATGTCAGGCCGACCTCTTTTTTCTGAATTAGGAAGATTTTTCATGGCAAAATAATGTAATGAAACGTCCAATAATACTTCGCAAGGTTTTTTATTTCTTTTCTTTGCGTTGTTTATAACGCTAGGATGATTCCTAATTACCTTTGGTACAAGTTCTAATGAAGAATCAAGCAAAATAAGATTAAGCTTCACTTTAGGTTAACCAAGCTTAAGAGTTAAAAGTTAAAAATAAATCTTATTATTAATGAAAAAATTGGTCGAATCTAGATCACTAGATCTTATAGACATGGCAGTAGATTTAGTATATGAAGGAGAAATTGATTTAGCTAGAGAATATATCAAATTAGCTAGAGAATATTCGGCTAAGGGAAAAATTAAGTTACCTATAGAGTATAAAAGAAAATTTTGTAGACGTTGTAATGTTCCCCTAGTCCCCGGTATTACAGAAAGAAGAAGAATAAGAAGAAAGGTTTTAATTAGAACGTGCTTAATATGTGGTTGGATAAGAAGATATGAACTCAGAGAAAATAAAACAAATAAGAGCTCAGAATGCAGAAGTGAGAATAGGGAAAAACGGAATCACTGAAGGAATAATAAACGAGATTAAGAGAAGATTAAAAGATCATGAAGTAATAAAGATAAAAATAGGAAGCAAGGATAAAAATAGGAAAGAGATTGCACTAAAAATAGCCGAATTAGCAAACGCAAAACTTATTGAAGTTAGGGGATACACATTTATATTGAGCAAGATTGATAGCGATTGATTTCCTAAAGATAAGGGGACATAAGAACGTAAAAGGTACTCATAAAACTACTCTAGAATTTACAAAAGATACTTATCTAACCCCAAGAGGGGATTGTATAATAGGAATATATGCAGACAAAGGCGTGAATGATTTAAAAGACGATATAAAGAGAATGATTAAGAATGAAGGTTTTATCTATATTGTAATTAATGTCTGTGGAATATTCGATATTATTTCAGCTAGAGGTTCATCAAAACTCACGTTAAGTAATAAAAACAAGATGATAATAAGAAAATCTAGTTTCATTTCAGATGCAACTTTAGCTATAAACTCCAATAAATCCGCGTTTGATATAAAAAGGGAAATAATAAAAGGTCTTCAAAATGAACATAATGGTTTAGTTTATATTGTTACATCTGATATACCCCTTAAAAATGAAGAGATTCTTGGAATAGTCATTAATTTTAATCCATTTGAAAGCATTAAGACGTGCTAGCTCATTTTCATCACTCAGAATATAAATTTCCAAGATTTCTTTAGTTACTCTACATAGCTCTTGAATAAAATCTTTTATCATAGTAGGGTTATCACCATAAACCCTATTGAATACTTTATCTCTAAATGGTAAAAATCTTGCATCATAATTTATTATATCTATATTATATATTTTATTTATTTGCAAAGATTCTTTAAGTAATAACAACCCATCAATGTTAAGATCTCCTGCTATTATATATACATCTTTCTTAGCCAAATTCAGCGATATAGCACCATAGCCAGCAAATGCGTCAAGTATTTTCTCGTTATCATTGACCTCTTTTCTTATGTTTAATCTCTCATTAGCTAATGATGGATTAACATAAACTTTTGAAATATCTACGACGAACTTTACTCCATTCTCCTTGTATATAGTCTTTGTCTTATATTCTCCTCCTATAAATTCTATGTCATTGATCCTTAATTCACCCTTTACTTTTTTTCTCAAAAAAACTGATTTAACGTTCTTATTTATGGACAATATAGCTGTTAAAAGTTGATTAAAGTCAATTTTTTGATTTTTTACATTTACCAATGCTATGTCACCTATGATATAATAGCTAGAAGCATTGTCAATTATATCATGTAGTCTAGGTGTTTTTCTCTTAGGCGAAGGATTACATTCGACTATTTCAATTGATTTATCTGCAGACATTATTGGAATCAATATATACTCATCATCAAAAATAAATGAAAAATTATTATCAACATTTAGCTTAGATTTTATCTTATCAAATTCCCGTCTTTTTATTTTAGCGCACATCATGGTTTCTTAAACTTATCCATTTCTGAACTATGACCTGCAAATACTGATGCATTAGGATCTATATATTTTTTAGCTACGCTTGTGGCTATAGCAACTTGACCGAATCCGACAGCTATTAATGCTAACTTTGGTGCACCTTCTACTTGTGCAATATCTCCAGAAGCATATATACCAGGTAAATTAGTTTCCATTTTCGTATTAGTTAATATATCTCTCCCTTTCATATTTATCCCCCATTTAGGAATATTTCCAAGATCTCCTTTATGTCCTATACTAATTATTACGGCATCTACATCAATAGTTTTCTCGTCTTTTGTTCTATTGTCAAATATTGTAGCTTGAGTAACTCTTTGGCCATCTCCCTTAACTTCCTTTAATTCATGCCATGTATAGACTTTAGCTACTTGGTAAAGTTCTTTTACACTTCTCTCATGAGCTCTAAATTGATCTCTTCTATGTATTAGGGTAACAGACTTAGCTACCGGAGCCAAAGTCAATGCCCAATCTACTGCTGAATCTCCTCCACCTACAATTAGGATATTTTTACCTTCGAAATCTTTTTTCCTTCTTACGGTATAATATACTCCTTTGTTTTCATATTCTAATTCACCTTTAGCTCCTAATCTACTAGGAGATAATCTACCTAGACCTATAGCTAGTAAAACTGTTTTAGTTTTAAATTGATTTCCCTTATCAGTCTTTATTACATACATTCCGTCACTAGTTTTATCTAGAATATCAGCCCACTCTTTTGTTCTTATATCTGGAGAAAACATTTTTGCTTGTTCAACTAACTTTATTGCTAAATCGTAAGCGAGAATTCCTGGATATCCGCCTACATCGTAAACTATTTTTTCTGGATACAAAGTAACTAATTGTCCTCCTAACTCGTCTTGAGAATCTATTAATAAAACTTTCATGTCTCTTAAAGTAGCATAAAATGCTCCAAAGAGTCCTACTGGACCTCCACCGACTATTATCATATCGTATTCTGACATAGCTATCACTTAGACTCATTTATTTAAAATATTTAAACTTTGCTAAAAGAGTAATGAGAATTCTGAGAAAATTATTTAGTTTTTATGATAAAAACCACATAAATTATTGAAAATAATAACATAAAATTTTATAGCTAGATATCCGATAAGATGTTGAACTATTGTGATTTCAGAAATAACACTACTTTTATTGCCATTTATTTTTTTATGGGGTCTATGGCTAAGGTTCTATAGAAAAATAATAAGTGAAGGCCTAGCATTTCCTGGCAGTGATTATAAAGAAGAAAAGATCAAAATAAAGCCTAATAGTTCAGTAATTCTTCAAGTTAAAGGAAAATGTACCATTCTTGTCAACAGTATGACTGGATGGGCTACAATAAGAATTAATAATGGAGCAAAGCAAAAAATATATAAAATTAGATTAATAAATATTGATGGCAAATTAGAAATAATAAACGAAAGTAAAATATTTCCTTTAGATATTATAGTTAGATGCTCATACTTAACTTACGAATAAGAAATAACGGAATTATAGATATTAAGACTAAAATAATCCAAGAATAAAATCCTGTAAAAGTAGCTAATGGATCGAGCCACGTTCCTAATACTATATTTAGAGAATTAACTTCTGCTAAGCCTATTCCTGTATTAGCTCCTTTAGCTTCAACAGCTACCATAGAATACATTATAGATATTGCAAGTTCGTTAAATATTCCAAGAATTATAATTCCTATTATGAAAAACTTAGTATATAATAATAAACTTGGAAATATTCCTGCAAGAGAAGCTAATATTAATCCCCTTAATTTGCCAATCTTATCTCCTATAAATCCTAATAATCCTCCAATAAATGATGAAAACAATAGTAAGGATGTTATTTCGCCACTTTCTATAGCACTTAAGTGCAGAAAATTAAACGCAAAATTGGGAAAAAGTTCGCCTATAGCATAATATATTCCCCAAACTCCTGAAGTAGATAGCCCTAAATATAATATGTTCCTATTTCTTATTGTTTTCCAGGTTGGTTTTACATTTGGTAATTTTACATTAATAAAAAGGGAAATCAAAGTTAATAATGAAAGCAATAAACTAGCATATGTAAAACTTAAAACCTTATCAAAGAATATCCAATTTAATCCAACTATTCCGCCTATACTAAAAGCTGCATTATATAGGCCCATTATTCTACTTAAATTGTTTTTATTGAGCTCAGCTAAAATAGCTCCTCCACTGGAAAAAAACATAGAAGCACCTATTCCACCAACAAAATAAAAGATAAGTAATTGAAGAAATGTAATCGACAATCCAATAAACAAAGAAGAAATAGACATTATTAAAAGACCTAAACATAAAGTATTTCTTAAGCCTATTCTAGTTGATAGGTAAGCTGAAGGTACTTGCATTGTTCCAGATCCAATAAAAAACGCAAATGGAACGAAACCAGCTAAACTAGCTTGAATATTGAATTTATAAATTATATATGGTATATATGGAGCTAAGTAGAACCAGCTTATAGAATATATAACTCTCGCGATATATATTGACTTACCTTTCATAGAAGAGTTCTAACAAATAGAAGATTATTATAACTTGTGAATGAACTAAATTTTAAAAATGAAGATAAAAATAGTTAGAAAACCGTCAGTGCAGATAGAAGATATAGAGAATAAAATAAGAGATTTAGCAAAGAGTTTCGGTTATGAAATAACTGAGGAAGATCCAGATATAGTATTTGCGGTTGGAGGAGATGGAACGCTTTTAAGAGCTATAAAGTATGATAAGCCTATTATCACAGTTAAAGCTGGAAGAAGAGGTTTTTTAATGGACGTTAATCCAGAAAAATTAGAAGAAGTTTTCAAAAGATTATCAAACAATGACTATACTAAAGAAGAGTATATTCTTTTAGAGACTAATATTAATGGTATAAATGCAATAGCCTTTAACGAAATAGGAATACTCTACGATAAACCAGAGGCATTAAAAATAAATGTAAAGTTTCTAGACGAAAATATAATCTTTGAAGGAGACGGCGTATTAATTTCTACTCCACAAGGAACGAGTGCTTGGAGTTTTTCAATAAGTGGAAATTATGTTTACAACTTAAATGCACTAGAAATATGTCTTGTAAACCCCATATTAACATCATTAAAATCTATAATAATACCTCCGTTGAATGTTAAATTAAAACTAGAGAATAAAGGATATCCACAATTAGCTAGAGTTGTTGCTGATGGAGAAATAATAGCTAGAATAGAAGTAGGGAACGAGATAAATATATGGAAAAGCAATAAAAAAGCTAATATATATAGATTCTATGAAATAGACCCGATAAAGGGAATATTAAATGGAAAACGTGATATTTGACACAGCAGGTTTTTTAGCTGGTTTAGAAAATTATTTTGATAGAGTTTATACAACACCATTAGTTATGAATGAAGTGAAAGATTATGTATCTAGAAGCCTTTTAAGTCTTGCATCAAGTTCTGGAAAGATAATAATATTAGAACCAGAAAAAAGAAATATAGATATTACCAATAACACGTTAAGGAAAATAGGTGAGTATTCCTTATCTAAAACTGATATTTCCATTATAGCCTTAGCTTTACAATTACAGCCTTCAATAGTATTTACTGATGATTTCTCTGTACAGAACATACTATTAAAATTAGGAATTAAGTTCAACTCTGTAAAGCTAAATAGATCAATAAAATACGAGAGAGAATATTACTATGTTTGTGAAAATTGTGGAAAAGTGTATCAAAGGAAAAAGGAATCTTGCGATATCTGTGGTGGAAAAATAATAAAGAAATCTAAACTTGATAGTAAAAAATAGTTTACTTCGAGATTTTTATTATTCTACTAGATAAGCTTAACTTATAGAATAATTATTAATTAATCGTGCATCAAGCTAATATACTATTGCAAAAAGCCTTAAAGGTTGGTGGGAATCCTTATGCATTATCTAAACTTACTACTTTTACTGTTACTCAGATTAAAAATACTTTTAACTATTTAATTGTTAAATACGATTTCGCACTTTTTCCTCTAGTAATATCAGAAAATTTAGGATTAAGAAAGGCAGTTCTTATATGTAAAGATACAAAGATAAACATGGAAAATAGAAAGAACTTGTTTTTTCCTTTAGTAAATGTCTTCAGACACGATATCGAAAAAAACGAGTTTATTCTTACATTATACGTGAATAAAACTAGTTTAAATGAAGTAAGTAGTGCAATAGAGAAGTTAAATGCTAAAGGTTATGTAAATTGTAAACTTATCCTAGTGAAAAATGTTTTCAGATTCACAAGAGATCCTTTATGTTTCGACTTTGAAAAAGGTAAATGGATTTGTGAAGATAAAATTGTCATAATAAACAAGTATTTTAAAGTAAATCCTGATGCTGATGATATTAATTTAATAACGTCTATACAAAGAAATCCATATTTAAATTATATTAGAAATATTCACTGGAGACATATAAAATCTGTAATAAATGCTTTCATTTATACACTTGGAAGGTCAAATTTCATTTTAGATGTTTTCTCTAAAGAAGATATCTCTGATAAATTTCCTAATACGATTTGGACATTAAAAACTGATGAAATGTTCATATCTGAAATATATTGCTATGATGAGTTAGAAAAAATTATAGAAAAAGTAAAGAAATACTCGTCAGATTTTCTGATAGTACCTAAGACGCCCGGATATGCTGAAGGATACTCTATACCTTATGAAATTTTCAAGAAAAAGACATGGGAATTTCCAAAAATAGTTATAGAATAATTTAAAGGTTGTATCACACAACCTTTTTTATGATAGACAATTTTAGAGATCTAGTTCCTATAACAAAAAATTACATTTATTTAAATCATGCAGCAATTTCTCCTACGCCTTTACCTGTTCTTTTTGAAACATTTAATTACCTATATAATGTATCGCAAAACGGTACTTATACAGTAAATGAAGAAGAAAAAGATGAATTTTTACATATAAGAGAAAAAATTGCTAATTTAATTAATTCGTCTCCAAATGAGATCTCATTTATACCTAATACAAGTTATGGAGTTAATATAATAGCTAATGCATTAGATCTTAAACCTGGAGATAAAGTAATTACAGACAGCCTAGAGTTTCCTGCCACAGTATATCCTTTTCTTAAATTGAGAAAAAAAGGAATCAATGTTGATATAGTAAAAACTAATCCAGAAAATATTGAACAGGACATATTAACAAAAATAGATAATAATACTAAACTAATAAGTGTAAGTCATGTAAGTTTTAACACTGGTACAAAATTGGATATTAAAAAAATAGTATCTAAAGCGAAAAGCGTTAGCGCTTACGTTTTACTTGACATAATACAAAGTGCTGGTGCAATTAATGTTGACGTAAAAGACTTAGGTATAGATTTTGCTGTAGCTGGAGGATATAAATGGCTAATGGCACCTCAAGGTTCAGGATTTATTTATGTTAAAAACGGTTTAATAGACGATCCACCTTTTTACGGCTGGAAATCATCCAAAAATTACTTAGATTTTAATGCTACAGAATTCGAGCTAGAAAAAGGACCTAGGAGATTTGAAATAGGCACAATAGACGTTGCAGCTAACATTGGCTTAGGAAAATCTGCAGAGATTATATCACCTTATAAGAAGGACATAGAGAAAAAAGTATTAGAATTAAGTAAACTAGCTATAGACCTAGCAGAAGATAAGGATCTTGAAATAATAACTCCTAAAGAGAAAATATCTGGAATAGTAGTAATAAAATTACATAATCCTAAAAAAATAGCTGAAGAGTTAGCTCAAAAAAAGATTATAGTATCCCCACGGGGAGAAGGAATAAGAATATCGTCTCATTTTTACAATACGGACGATGAGATAAGGACTACTATTAATGAGATAGCAACTTCATTGTATTCTCAAAAGCACGTTTAGCCTTTTCGGCAACATCGTTAGGAACTTTTACTTCATATTTCTCGTTAACTAAAGAAGATTTTATCTTTTCTAAAGTTACCATTGCCATGTATGGACATCTGGCACATGCGCAAGTCTCCATAGACATAAAGGGATAAAATCTCTTATTTGGAACTTGTATTTGGAGTGCATTTAACATACCAATTTCTGTAGCAACTACAAATTCTTTGGATTCACTGTCCTTTGCATATTTTATCATTTGATTAGTAGAGCCAACAAAATCTGCAGCTTCTAAAATTTCTAAAGGAGATTCTGGATGTGCCATTAATTTTGCATTTGGATATTTTTTCCTAGCCAATGATACTAATTGCTTAGTATATGAAGCATGAACTAGACACCTACCATTAGGAGGAACTCTAATTAACTTCTTACCAGTTTTCTTTTCAACGTAGTTAGCTAAATTAGCGTCAGGACCAAATAAAACAACATCAGCATCTAATGATTTAACTACATTAATTGCCGTTGATGATGTAACTATATAGTCAGCTAAAGCTTTTGTATATATGCTTGTATTTATATATAATACAACAGGAGAATTGGGATACATTTTCTTATATTTTTTAAGAGTTTCTACATCTAGTGCGTCTGATAAACTACACCCAGCCATAGGGTCTGGAGATAATACTTTCTTGTCAGGATTTAATGCAGAAGCTTGTTCTGCCATAAAATATACACCGGCGAACACTATAATGTCAGCATTAGTTCTCATAGCTTTTACAGCCAGATCGTAGGAGTCTCCAGTAAAATCAGAAACTAAGTGAACTCCATATTCCATGTAATTATGTCCTAAAATTATTGCGTTTTTATCTTTTTTAAGTCTATTTATTTCAGTTATTAGATTTTCAATATTTGGCATTCTCGAACACATGTTCGATTATGCATTACTGCTTAAATACTTTTGTATTGAAAAATATAATTCTTCTAAATCTTCCATTATTCTTACTAACATACTATAAATTACTGCATCATCTATACTGAAAATATTAGCAATTATTTTTGAAATGTCTATTAATTCTTGTGCTAGAGATACCGAAATAATATTTCTCCTTAGTAATTCCCATATTATTTTAGAATCCTCGCTTTCATTAACTATCCTTGAAGCTTCTGTTATAACATCCCTATATAACGATAAAGAAGAATTCCTAACTTCATAATTTAATTCTTTATTTTCTGAAAATTCATCAAGAGACACTTTAGTACCCTTTTCAATATTTTTATATAGTAACCAAAATCTAGTGCTCACTTCGCCTTCCCTCTTATCCTAGCAATTAACCACAATTCAGTTAAATACTAATCTACCTAGCTAATAAAGTGTCAATTATGGTAGATGTTATAGGTAATTTCTCTGAAAAAATATCGGGTAAACGTTCCCTATTCTTACTAGTCATAGCAACCACAGACGTTAGCCTAATACCTGGAATAACGATAGCAGGAGCAACTGAAGAACTGACGTTATTTACGCCAGCTGCAGACGCAGAATTCCTTGTTCTAGGAAAATGTAAAGTAATAAATTCTGTTCCTGTAACTCCTACAGGAATTCCTACACCAGCCATTATAACTAAGGCATCTTTATCACTCTTAAACATTCCTAAATTAGTAGTAGACGCTGGTTCTAAAATTAAACCAAATATTCCTTATATCTCTCTAAATGGAGAGCCTGGTAAGGATATTAGAAAAAGGTCATTAGACCCTATTACAGCAGAGAGAATAATAGAGAATGGAATCACATTAGGTAATGAGCTATCTAAAAATTTTGAATTACTAGTAATAGGAGAATCGATAGCAGCAGGAACAACTACCGCTATGGCTACTCTATTAGGTTTAGGATACGATGCTATTGATAAAGTTAGCTCTGCATCGCCCGAAAATCCTAAAGAAATAAAAAGGAAAGTTGTTCTAGAAGCGATAAAAGATCTTCCATCGAATTTCATTGATAAGATATCTAAGCTTGCAGATCCCATGCTCTTAGGAGTAGCAGGAATAACTGTAGGATTTAAAGGAAATGTGCTTTTAGCAGGAGGTACTCAAATGACTGCTGCCTCGGCTATAATAAAGGAAATCAATAAGAAAAAAATGAATGATATAGGAATAGGAACTACTAGATGGATTATAAACGACAAAAGTTCTGATATAATATCTTTATCTAAAGAAGTTGGAGTTAATCTAAGTTACGTAAATCTTGACTTTTCTGCTTCTAAGTTTGATGGCCTAAAAGCATATGAAAGAGGATATGTGAAAGAAGGTGTAGGTGCAGGCGGTTCTTCACTTTTAGCTACATTAAACGGAATTACTGAAGCTAATATTTTAAAAAGAATAGAGGAAATTTATGAGGAAATAAGGGTTTAATATGAAAATAGCGTTTACTGACGAAGGAGAGTTAGCTAGAGTATTAGCTAGATCTTTAAAAAACAACGAGATAATTATTGTGGATAATCCTCAAAGAGTTATAAATGAGAAACCAGACGTAGTCATTCACACACTAGATATTCCATACTTTGAAAATAAGTCATATGTATGGAATTTTAATACATGGTATGCCATTAATATAGCTAGAGCAGCACATAAGGTAAACGCTACAAATATATATTTATCGACATTTATGATTTTTAATGGGAAAAAAGGATATTATCACGAAAATTCTACTCCAGATCCTCTAAATTATTATGGCATATCAAAACTAGTCGGAGAGACTGGAACAGCGTCGTTAGGCAATTTTCTTATAATTAGATGTGGGGTTTTATACTCACTAAATTATAAAGGACTTTTAGCATCTTTCTTTAAGGCAGCTCTAAACGGAAAAAACTTAAAGTGTAACAAAAATTTTTATATATCTCCAATAAGTATTTATTCATTATCAAATATAATTGCAAAGTTTGTAAATGATGAAATAAAAGGTGTAATAAATGTTGGAGGACCTAGAATCTCTATTGTAGAAATGTGCAATCTAATAGCAGACCTATTTGGAGTTAACGTTATTGAACTGAATGGTAAAAAGTATGATTTTTCCTTAGATACATGGTTGTTAAATACTTTTAATATAAAATTATCCTTAAAAGAAGATTTAGTGAATGCTATTGAATACAGAGTTCTTAACAACGAGAGAAAAGGTATTTCTATTACTTAAGTATAGTGAAGATCCACTTACTGCAAAAGATATAATGAAAGCGTTAGATATAAAGAAAGAGAAAGAAGTTTATGATCATATATATCATTTAGCTAAGTCAGCTAAAAGAAAAAATTATGTAGTAATATTGTTTCCTCCTAAATGTGAGAATTGTGGATATATATTTAGTATTGATATGCCCAAAAAACCTAGTAAATGCCCAATCTGCAAATCTGAAAGAATTATTCCACCAAAGTTTTTAATTAGGGAAAAGTAATTGTTAAAAAATGGTTGCTATCTTCGTAGACATGGGAGAGACCTTAGTTAGATTTAAACCAAGATTTCACGAATCAATAGCTAACGCAATACGTGAAGAAGGAATTGAAGTTTCGGATATAGAAGTATTCAAAGCTCTAATGAGACATTTAGGTAGGAGTTGCTTCCCTCATCCTCAGTTCGATGGATTATCGCAAATAGATTTTAAAGATTTATTTTATGAATTAAATCTTCATATTCCTAATGACATAATAAAGAAACTAGAAAATAAAAATTATTTGGCAGACGAATATGAGCTTTATGATGATGCAATACCTTTTTTGGAAAATGTTAGAGAATTAGGGTTTAAAACCATATTAGTTACTAATACTACTAAAAAAGTGAATAAGATAATAAAAGATCTAAATCTAGATAATTATTTGGATGGTATTATAGCCTCCTGTGATTATAATATACTAAAACCACATCCTAAGATATTTTATTATGCAAAAAAATTAGCTGGAAGCGAAGGTATACATATTGGCGACGTGTATGAAATAGATGTTATAGGTGCTAGGAGAGCTTATATGAACGCTATCCTTCTGGATAGGCTAAATTTATATCCTGAAATAAAAAATAATAAGGTAACAAATCTACATGAGGCATTAAATATTATACAAAAATTGGAATTAACTCAAACCTAGTTTATAAATTTCTCCAGACTCTATATAATCTAGAAGTTCTATTATTCCTTGTCCGTCATCTTTGTTTAGTACCAAATCTGCCATTTCCTTAATTTCTTTTAAAGCATTATTTACCGCAACCTTGAAATCTGCAGCCTTAAATAACGATACATCATTTTGTGAATCTCCGACTGCTATAATTCTTCCCTTAAATCCTAATATCTCAGCAAATTTTTTAATTCCGTTTCCTTTATTAACTCCCTTTGGCATGATCATAACATCGCTTCTATTCCATTCAACCGAGACCTCATATAAATCAGAAAATAAATCACATATATTATTTGATACGTTATTTAGATATATTATTACCTCTCCATAAGTAAAATTCAATCTTTCTGCTGATAATCTTTTGCCTATTTCAAACCTCAATTTAGGCCATGATTTTGGAATATTATAGTAAACTTTATCATTTATCATTATTAATGCACCATTTTCTAATACCCAGCCTGTTGGCTCTAAACCGTACGCTAATCTATCTATAAATCTTCTCTCCCTACCTGTTACTACAACAAAATAATTATTCTTTGAGAATTTGTTGATTTTTTCCCTTACTGCGTTATTTATTACAAAGCTGTCTTTTTCGTCTGATATTGTCCTATCATAATCAGAGGCAACAAGTATGTCAGTCAAATTTATACCCTAATTTTTCAATAACATTTTTCATTATAAGAGCATCCTTTTCTAATTCTGGACTCTCACAAATGAGCGTTATTGAGATATCACGTTTAAGAATTTCTTTAGCTAACGGCTCAAATGGCGGTGTGTTATAAATTATAGATCTATGCACGTCTACATATTTACCGTTTCTAATCTCTAACGATTCAAAATGAGAATTTATATGAGAAATATTTAGTTCTTTAATAAGCCTATCGATGATATCACCATAATCTATTTTTCCACCCTGTCTGCCAAAAGTGTGAGCCCAGTCTATATATGGGACTACATTTTTAATTTCTTTAGAGATTGATATAACTTCGTCTATTGTTCCAAAGGCTGTCTCTTTTGCCATAGTTTCTATACCAAATTTAACTTTTATTTCGTTATCTTTTGCAATATCTACAACCTCACCTAATTCACTCTTTACCCTACTGTAACACTCTTCTGGACTCATTTTACCATAGAAGGCTATATGAATCGCTATAGCATCAGCATTCATAGCATTTGCTCTATCTGCTGAATCTAAGATTCGTTTTTTAGACGAATTAACTTTCTCTTTGTCTTCTGAACATAAATTAATAAAATAAGGAGCGTGAACAGATAATCTTACGTTAAGGTTTTTAGCAATATTTCCTGCTCCCCTTGCTTTTTCAATTTTCATTCTTACTCCTTGAACAAACTCAACTTCCATTGCGTTTAGGCCTAATTCTCTTATCCTTTTTATGCCTTCTATAGTATCTTTCGCTTTTGTTGAAAGAGGAATACCTGCAGTTCCCAGGTATATTTTTGCCATAAAAATATATAGAATTACGTTTAACTTAAAAAGAAAGACTAACTAAAGAACTCCTTATTTTATTCTCATTATCCCTTATTAGGTCTAACAATACAGAAGAGAGTGTTTTTTCATCGAATTTCTCATTAGTTATCGTTTTTATTACATTTATAAGCTCTTGTATAACATTTTCTAAACTAATAGATAACAAAATACTAGATATCTCTTTAACATAGGTAGACGTTATTATTGATTTTTTAGATAAATCTTCATTACCGTATTCATTGGATAACATTGTTTTAATTCCTTGAACAAAAGACTGTGATACTTCGTCCATAGCCTCTACTATTATAGGCTCTATAATTTTCTTATATTCATCAGGTCCTGAAGAAATAAATGACAACGTATCGGCAATAACTTGAGTTCTTTTGTTTAGAGAAGCTAATATAGATGACAATAGAGTATCGTTTATTTTCTTCTTGTCTTCATCTGGAACTTTAAATGAAGAAACTTGTGTAGATATTATTATACCTGCTTTTTCGGCTATAAATTCTATTAATGATTTAGCATTAACTCCAACTGATCTAAATTTCATTTCTGCTAAAGGACAAAGTGTTATCAAGTTAGGATATGTCTCTCCTAATGCTTTAGCCATTCTATCCGATCTTTTGCCTAGGTTACGTTCTAAGATAGCACCAGAGCATCCTTCAATTTTTTTCACTTTAAAGCCTTTTTCTCTTAATCTTTTTATTATCTCGTCTGCATAAGATGAAGAGAAGCATGCAACATGTAAATTAATTTCATCGTTACCTTCAAATTGTATAGACTTTAATAACCTAACTTCAATAGGTACGACCTCGAAGACATTAGAATAACCAGCTAATTTGGAATATTCTCTATAAGCTTCTGAAAATGTCTTGTAATCTTCTGGAGAAATTGTAATTAGCTCTAAAAGATTTATATTGGAATTTTCTTTTATTTTTTCGATTAATGAATTACCATTACCACTAATATAGTCCATGAACCCACTATCTTTTGATGTTCCAAAAACCTTCACTTTAAGTCCTAATCTTTTCAGTAAGTCAAGAGTTACATAAACTATTGAAGGATTATCACTCAAATATCTACCTAACCATAGTCCTATTTCACTATCATCTGAAATTACATCCTTATAATAGTCTGGAATTCGTATATCAATAGTAGGTTCTTCTGGAATTTTTCTAGCTACCAGGCTATTTAACTTGATTAAAAGAGTAGATATTGGAATCCTAGCTGGACAAACACCATCACACAATCCACATTTATGGCAACCAGATATTTCTGCTATTGTGCTATCAGGGATATCTACAGTATCATGAAGTTCAAAATATGAAATAATACCTCTAGTGAAATCAAACATTCCTTTAGGTGCATAAGGCCATTGAGGAATTAGCCTATATTGCGGACAAACAGTAACGCACATAGCGCAGTCTATGCATGTTAACGCATAATCTGCGAAGATATCTAGATATTTCTTTGCAACCTTATAGCCTTCTACTTCTCCACCGGGGGATAATGACTTTGCAATACCTATTCCAAACCTGAACTTTAAAGCCTCATTTTGTTTATCGACTATTTCTAGTACAGTCTTAGCTCTTTTCTTAGGTTCAAATACTTTTCCAGGATTAAATATTTCCTCGCTATCCATTTCCTCCTTATATTTTTTCATAACCTCATAACGATCTACTCCTAAATCTTGAAATGTCTTTCCCATGGTGCTAAGTCTATTCCTAGCATATTTATGTACAAACATACCAACTGAAAGCATTGATCCTCCAAGTTTAACAAAATCTTCCATCATCAACGTATTTTTTGCTAGATCATAAATAATTTTCCTATCAACTGGATTTAGTGAAACTTGTGTAAAGGCATTTACTAATAGTACTTCTCTTCTTTCTAGGTCTATATCTAGGTCAAATCCTTTATTTGGTTCTAAGACTCCAATATTGCCTAAGTCTCTTTGTATGCTATCAATCAGATCCTTTATCTTAGTATAATGAAGTAGTCCATGTTGATGAATTAACAATCCCTTAGATCTTAATGCTGCATTAACGCCGTGATTAAATGACCACCATCCTGTCCATTCTCCTTCAAAAACCTTCCCGTTGTATGTTTGAGCTATTTTGTAAAGTTTAGGTTCAACTATACTAGACCTTGTAGAAGGATAAAGGACTACCATATTCCATTTTCCTGGATCTAATGTAGCTCTAAATTTATCATGAATATAGGAGGATATTGCAGGACCTCTTACTTGTATATGCCATGCTGGAATTACTTCTCTATAAAACTCCCCTATAGCACCATACACTTTCTCAAAATCTTCGAATGAAATTACTAGAGATTCAGTTGAAGAAAATGGCCTTAGTTTTATACCAACTTTCGTTATTATTCCAGTTGTACCTTCAGCTCCACAAACTATTGCTAAATCTTTTCCTTCTAATCTTACTATTTCACCTTTAGGATTTACCATTTCTACAAAGGCTATATTATCACAAATGAAACCATACTCATAAGAACCTACACCTAACGCATCTCCTGCTGTTCCACCACCTACTGTAGAATCATATGAAGAAGGAAATGTTCTTAATTGAAGACCTTTTTGTTGTGCAGCTATGTCAACTAGTTTCCACGTAGCTCCAGCTTCTGCTACAGCTATTCTATTAGCTTCATCTATTTCTATTTTATTCATTTTCGAGAAATCTAATACTATTCCTCCATCTGCAGGAATAGCATTACCATATCTGTTAGTTCCTCTTCCATAAGGAGTTAAAGGAACATTATTAGATATTCCAATTTTTACTAAGTCTATTATATCTTCTGTATTTTGAGGATATACAACATAATCTGGAATTACATTAATTTTTATTCCAGACCATACTAATTCTGGGACAAATCCCATATCCACTGAATGAGAAAGCCTTTCAACTAACGCATCCGAAAAATTCTCTCTAAATCTTGATTCTAACTCGTCTCTCAAAGTCAAATAAATCACCAAATTATTTTCTATTTAAGATTCTCTGTATGTTGTAGCTTATAACCTTTTTTAAGGTTTCATAATATTCTAATGGTTGCTCTTTTCTAGGCTCAAATTCCTTATATTCTGAAGGAGGATCAGACCATGATGGAATTATATGAACATGAAGATGAAATATAACTTGTCCTGCACTTTTACCAATATTAGTGAGAATTCTAGCTCCATCGGCATTTACAGAACTTATAACAGCTTTTGCAACTATACTACTCATTTTTGCTATTTCACACGAAATTTTTTCCGGACATTCCAAGAAATTATCATAATGTTCATTAGATAAAATTAACGTATGTCCAGGAGCTAATGGAAATTTATCTAAAATTACTGTAATATAGTCATTCCTATAAATTACATTTGATTGAAGTCTATCATTAACTATATCACAAAATATACACATAATTCCTCTAACACTTACTATAAGATTTAAATTTATTTTTAAAATTATAATATACGTATTTAAGAGTCAGTATCCATCCCAGAGTAACTTAAATGAACCATGAAAAAAGATAGTTAATTCTTTATTCTATGGTTAAATGATGTGAGTTTGCAATGATAAGAATTGGTTCAAAACTAGTATATAATACTTTACCCGAAATAGTAAATCCAGCCCATACTGCATTAATAGTTTGGGACGTGCAAACAATACTGGTTCAAAGCATATTCAATAGAGAAGAGTTCATGAAATCTATTTATAATGTATTAAACTCAGCTAGAAGAGCTCGTGTAAGGATATTTTTCACTAGAATAGAGCCTTTACCTATAGATTTTGAGTCTCCTGCTAAACTATATTTATACTCAAAATGGAAGATTAATAGACTAGATTCAAGAGGATTAACATTAGCATTAAGACCTCTTCCGAACGAACGAGTAATATCAAAACATTCTGCTAGCATATTCTTTGGCACAGATTTTGAAAATATGGCAAAAAATGCTGGAATACAGACCATTGTTATTACAGGGATTGCGACAGAACTTGGAGTAGAATCTACTGTGAGAGACGCATATAATAGAGGATTCTATAGTGTAGTCGTAAAAGATGCAGTCTCATCTTCAGATAAAGAAGCCCATGAAAGATCATTAGAAAATATGAAAAAATTTGCTGATATAGTAACTTCTTCCGATTTAGCTAGAATATGGTCTACACGTTCAAGGTAAATTTTGCATAATTCCCTTTTTCCGTTATTATCTCCAAAATATGATTTCCTTTTAATAAATTCTGTCTTATATCCAATACTATCTGAGTAATACCTTGCGGTATAAAGTCGGGAGAAAAATCTGGAGAAAAGCTTCTGTCTATTCTTATTTCTACTATTTTGCCTGAAATATCTTTAGTTGGTAAGATTATCTTCATAGAATATTACTTTTTGGAAAACAAAAATAAAGCATAACACTCTATAGTCTATTAACAATGAGCATAGATTATCTAATAATAATATTTGCTATATCATTTGCTACTAATTCTACACCTTTCTTTGGAACCCCTTATACTTTGGTTGCGACTAGCTTCTTAGTAAAATCGGGTATAACGCCACTAAATATGATAGAAGTAATCTTGATAACTGCAATTGGGGCAGCATTGGCTAAAAGCGTAATGTACTCTCTAGGATATGGCGTTAGAAATACATTTAAAAATAATAAAAATGTGAAATTTTTTAGCAAATTCATAAATAAGAGATCGTTCTTTATTGCACTATTTTTTGCGGCATTGTTTCCTTTCTTACCATTGGACGATTTTATTTTCCTTATTGGCGGTGCTGGTAAAGCCTCACTACTAAAGATGTTAGAAATAACCTTTGTTTCCAAAATTATAAAAAGTTCTATAGAAATAACTGTAGAAGCCTTTGGTCTTATTGCGATAAGCGATTTAATAGGCATATCACCGTTTTTGCTAGGCATAATATCCTCAATAGTTTTTACAATCCTTGGAATTGTACTATTCAAGATAGACTGGGAAAGCATATATACTAAACTAAAAGATAAATTTGACTTATTTTATACTGATTAACATGAAAGTTTTCTCTTGTAAAAAGTTCGAAGTAAACGTTGATAAAATAACATTACCTAATGGTAAAGAAAAGGAATTACAATATATAAAGCATAGAGGCTCTGCAGTTATGATACCAGTTATAGATCGAGAAAACATAGTATTAATTAAACAATATAGACCAGTAATAGGCAAATGGATCTATGAGTTTCCTGCTGGCACTATAGAGGAAAACGAAGAACCAGAAGTTACTGCAAGAAGAGAACTTATAGAGGAAGTAGGATACGAAGCTGGAGAATTAATTCATCTCTTTGATTTCTATCCATCACCAGGTATAACTACTGAACTAATGCATATGTATCTAGCGAAAAACCTGAAATTTGTAGGAAGTAAACCAGAAGAATACGAAATTATAGAATCAGAGAAAATGTCATTAGACAATGCAATAAATATGTTTTTACAAGGACAAATAGAAGACGGAAAAACAATAATAGGGATTTTATACTTAGCTAGAAATAGAGATTTAATACAATAAGTACCCCTGATCCTTTAGTTCACCTACTAATAGAGGTTCTTCTTTTATCACCCATTTTCTAGCTTTAGCCTCTCTTAATTTTTCCACTACTTCAACCCAATCTGGTAAGCTAGGTATTTCATAAATTACTACAAACTCGTAATCTCCTAGCCCAAAAGAATAAGTGGTATAAGATCGTATACCATTATTTTTTGGATGATTTTTAGCCATATTTATATGCTCCATCATTATGTTTTCTCTTTCATCAAATGGAATCAAATACCAATCCACAGATTTTTTCATAGGATACGCTACAAAATATTTTAGAGGTTCCACCTTTAAGACTGATAATGGATCAAAATCTGACTTCATATAAGGAGAAGGAGTAAAAATCGAAAATAATGAAACGTCTTCTACAGCATTACCAGAAAATGACGATAATATAGATGACTTAAAATCTATAATTGAGGAGGTATTTAATGCAGACGCCCAATATATTAGTTGGGAACCTTGAGATAATGAAGCATATTTTTTAAGGGAAATAAATTCATTGTTAAACCTCTTCTCTGTCTCTTCTACTTTACTTAGTATACTTTTCCTTTCTATTACTGGTAATCCCCACCAATTTCTGTCTAATCTTAAAGCCAATACTATCATATATGCCTCATTTGTCATCTTTGCTCAACTCGTTAAATATGTCTGAATAAATTATTAAGGCTTCCTCAACACTCATAAGATAGCCTATAAAGTAACTTGATATATATTTTTTGACGGCCTCATCTAGAATTTCATATCCGTCAGAAGTTGGTCCATTAAGAATTCTTTCAACATAATTATCAAAATCTTGTTTATTTTCAGTAATAATAACAAAGGCAACTGGAATAACTCTCATTCCAAGATATACATCACCTTCACCAAATTGTGGCTTATAGTTTACTAATTCTTTTATGAGAGTATCATTTATTCCAAAATAATTCACATCTGTTATCTTATATTTACCTAATATTTTATCTACTTTTCCTTTTATTTTATCAACTTCTTTTGGAATATCATTAAGAGGAACTGCAGAACTTGATAACAGAACCTCTACTCCACCATCGTCAGATAATTTATCTAAATATAATAATGCCCTTAACAATTTAACAAATTTACTCTTATTTCTAACATAAATTCTCTTAGAACTAACTTCCTTTATAGAAGAAGAGGGAAAGAATCCCATAAAATATTTAAAAACTACACCAACGTAATATCTTCCATTATCTGTCGTAATTTCTTTTGGAGAAGGAATTTCATCTAATGACTCCTTATAAACTACTGCAACGTCTGAAGAATTAACTAAAGACTTAACGTACTCCTCAAAATCTTGAACTTTTTCTCTTCTTTCCTCCACTAATTGACCAATTTCATTATATATTTTAATTTCGTTATTAGAGGAATCCATAAAGATTTGCAAAAGAGGAAAAGTATCTTCTTTTCTTAATACAGTAGCCGCATAAATAAAATTAGAGAATTTAACTATGCCAATTATAACCTTAGATTCTACATCATTAGCTAATGCAGCATGTTTAGACGCCGCTAATGCAAGCTTTTCTATATCATACCATGCATCACTCAGTATTAGATCATCAGTCTCCTCTAGGTCGCTATTTTCGCCGTACCTGAAAACTACTGTTTGGACATTGAGTTCTTCGGCTATTTGTTCAATAACTTCTCTTATTAGCATATCTATTTGAGGTATTGGAGGTATTATGTAATGATCGTCCTTTTCTATGTTTTTATGAACATGAATACCGTTATCCTCCAAAGTTATTGTTAAAATTTCTTTCTCGTTTCCGTTTTCATCAACTAGTGAACATGATATTACTGCTTTAGCAGGATTAGAGTAAACTTGTAATACGCTCACTTTCCCAACCTTCTACAACTTACATTTTACGAAGTTATAGTACAAAAGCATTATCATACTAAAAATGTTTATTAACTATTCATAAGAAATCCACTAGCTATACCATATCTAAGCTCAAAGTTTTTAAATAGTTATCTTTTTACTATTAGGGTAAAAATATTTCTATCTAAACAATAAAGGTAACTAGTAATGGATCAAATGGATGTAAAATATCTAAATAGTGCCATAATACGATGTAGAAAGTGTGACAGATTGATTAATTACATAGAAAAAATTAGAGTAGAGAAGAAAATTCAGTTTAAAAACTGGGATTACTGGAGTAGACCAGTACCTGGTTTTGGAGATAAAAACGCATGTATTCTTATAGTAGGACTTGCGCCAGCAGCTCATGGAGGAAATAGAACTGGTAGAACATTTACTGGAGACGAATCAGGCAAATGGGTTATAAAAGCCTTATATGAAATAAAGTATAGTAATTACCCTGAAAGCATAAGTAGGACTGATGGACTAAAATTAACTAATGTGTATTTAACTAATGTAGTTCATTGCGCACCACCACTTAATAGGCCTACTAGAGAAGAAATATTAAACTGCGAACCGTATTTGAAGACTTTAATTCGCTCACTGTCTAATCTTAAAGTAATAATTACTTTAGGTAAATTGGCATTTGACTCTATATGTGAAATTTTTTCTGTTAAATTAAAGTTTTCTCATAATAATATATTTAAGTTAGATAATTACTATTTGATTTCTAGTTATCATCCTAGCCCAAGAAATACTAGAACTGGTAGACTCACATGGAATTCATGGTTATCTGTTTTTAATAACGCCAAACATATCTGCGAAAATTCTTAAAGTCTGTTATACTTTTATTTAGTTAATGAATGAGGTAAGGCGATACGTTGTTTATGCTATTATAGGGGCAGTTATTTTGTCTACTCTGTTTCTAATTGCGTACAGGGATAATATTTTAAATAACCCTGTTCAAGCTTCAATTTTGGCTATAGCTTTTTTCTCTGCCATAGCTATTCTAATTATAAGTCTAAATCCACAACTTATAAATCCGAATAGAAATATATCCAAAATAGATGATCTTATTTTTACAATTTCTATACTTACATATTCAATTGTAGCTATAGCACTAATTAATGGTTTTGGAACCGATGATATGGAATATATAACTCAAGCTATTACTAACCTCCTTAATGGTAAGGATCCATATACACAATTTTACCATCCTGTAAACGTTCAGCCTACTTATCTGATATCAGGAAAAATATCATCTAACTTTATCTATCCTCCTCTTTCGTTTCTATTATATATTCCTTTTTATTTATTTTTAAAAATAGCTAATTTAAACCTTTACTATATAAATATAGTTAACATTATTTTCCAAGATATTCTTATATTTTTAATATATAATGAAGGAAAGAAAAGAGGTGACCCAATAGCTACACTACCAGTAATTTTCTTGTTTGTAACTGCTGGTATTCTAGCACCGTCTTTTGCAGGAGTGAATGGAGCTATATGGGCGACATTTATAGCTCTTAGCTATATTTATGATGGTAAAAAATCTGGTATTTTCTTAGCTATGGCAGTTTCTTTCAGTCAGTTAGCCTGGTTAATTACACCTTTTCTATTTCTGTATAAACGACAAAATCTTTATGACATATTAAAGAGCTTTTTAACTTCTATAATCATTTTTAATTTGCCTTTCTTTATGTGGAATCCTCATGCTTTTCTCGATATTATAACATTAGATCAGGGTACAATACCCGTAGCTGTAACTGGATTTACAATTTTTAATTTAACTACATTATTGAATGTAGAGCCATGGTTCTTTACTTTAGCCATTGCAGTAATTGGAGGATTATCATTATATATTTATTTCAGATTATTTCCAGCAATAAAAGAGTCATTATGGATATTTCCAATGTTAATTCTATGGTTCTCATGGAGAACTTTAACAGAATATTTTTTGTTTTGGCCAGAATTAATGTTTATATCTATATTTAGACTAGACTATACTAACAAAATAAATATAGATATTACTAAGATTAAAAGAGAGTTAGTAGGTGTTTTAGTATCAGTACTATTTTTATTAGCTGCGGTAGGAGGCTACTCGCATGCGGAATATATTGCACAAAATCCCATAAAAATATCTGAAGTGATAGTTCCACAAGGGAAAACTCCCATAAATCAGGTTTATATTGTTGTTAAAAACAACGCTAATTATTCCGTAAATATTACATTGGTCAGAGTTTCTGTACCAAACAGCCTAAATATGGTTTGGAATTTTACTCAAGAGAAAATTCCTCCTAATTCTACAAAAGAATTAGTTGCTTTTACAAATAATCCAAAACTTACTATCAATACAACTGAATTTACAGTTGAGGTATACTATAAATATTTCATAAGTTCATATAAAGTATATATTAATGAATCTAATACTACATTAGTCTATGAGAATACAACAAACGTTAATTAAAATTCTTAATATTGATTATAAAACTATTTCTGATTATATAGTAGAAAGACTAAGGGAATACTTAGAAGAAAGTGGAAAATCTGGTATGATACTAGGATTAAGTGGAGGGATAGACTCATCAGTAGTAGCATATCTTGTAAGTAGAGCAACAGAAAATTTTTATATACTATTAATGCCATCGAATTCTACTCCAAAAGAAGACGTGGAAGATTCTTATGATGTAATATCTAATATTAAAGCCGAATCTAAGTTTAAAGTCATAAACATAGACGGTATAACTAAAAATTTTTCAGATAATATAGATACAAGCGATAAATTAATAATTGGTAATATTAAAGCTAGAATCAGAATGATATTATTATATGCTTATGCACAAAAATTCAATTATCTTGTTGTAGGAACTGGAGATAAAAGTGAACTTCTCTTAGGCTATTTTACAAAGTACGGAGACGGAGGGGTCGATATATTACCAATAGGAGATCTATATAAAACTCAAGTTAAGGAGTTAGGAAAAATGCTTGGAGTACCGGAGAGAATAGTTAAAAAACCAAGTTCACCAGCATTGTGGGAAGGCCAAACAGCTGAAGGCGAACTTGGAATATCTTACGATATAGCTGACGCTATACTTTATTTAAGATATGAGGAATTGAAAAGTATTGATGACGTGGCAAAAGAGTTAGATATTAGTAAAGATGTTATAATTAAAATAGATAAAATGGTAAAAACATCACAGCATAAGAGATTGCCACCAGAGATTTTTAGATTAAGTGGAAGAGCAATAAATTCCGATTGGAGGTATCCAAGAGAATGGGCTTAAAGATAGAACTAGCACAGATTAAACCAAAACTTGGAAACATAGAATATAATCTCAATAGACATTTGGAAATAATAGAGACGTCTTCTGCAGATTGCGTAATATTCCCTGAACTTTCTCTAACAGGTTATGTTCTTAGAGATTTGGTATATGATATATATAAAGAAAGCGAAAAAGCCGCAATTAAAATTCAAGAAAAATCGAAATGTGCTATATTTGGTATGATAAAGGAATATAATCCAGGAATATTACGAAACACCGCTGCCGTGACTATAAATGGTAAGATAGATTACGTGTATAAGTTTTATCTACCTACATATGGATTATTTGAAGAAAGAAGATATTTTCAGCCCGGAAACCCTTTAAAAGATATAAAGATATTTAATATAAACGATTTTAAATTTGGGGTTGCAATATGTGAAGACGCATGGCATACAGAGCCGTTACAAGCATTATCTCTACTAGGAGCTGAAGTCGTTTTTATTCCTTCAGAATCACCTATGAGAAGATTATCCTCCAGACTATTGATAGAGGATCAGTGGGAAACATTAATTAAAGCTCATTCTATAATGAATGGTATTTGGACAGCATTTGTGAATTCCGTAGGAAGTCAAGAAGAAGAATATTTCTGGGGCGGATCTATGGTATCTAATCCTTCAGGAGTTATAGTAGCTAAAGCAGAAAAATTTAAGGAAGAAAGATTACAAACTTCCATAAATAAAGAAGAAATAAGAAAATCTAGATTTTTTAGTAGTTTCAGAGATTATAACAGAGATTTTCATAAATTCCTGTATAATGTTTAATACTTTCAAACATTAAGACATAATGTATATGCTGAAACAAAGATTTAATCCAGAAATTGTGATGCTTATATTGATGTTAATATTACTGATATTATCAATTATAATCCCAATACTTATTTTAGGAGCAATAGGTCTAAGTTTAATCAGTAGTTATACTGATAGGATATTTATTCCAATATCAGTTTTATTACTGCTACTTTTAGAACTGCATGGAAATTTTTACATAATAAGTATTCTATTGTTATTAGTTCTTATCATATTTAATCTGTATAAAAATATAGTAAAGTATTTATTTAAATAATAATCGGAGTAAATTTGGCGAATAAAAATATTAGAACATTAAATAAATTGATTTTAGCTTGGATAAAATAAGTTTTATTATACTTTCTAAAGCCTAGAGTTAATATACATTATGTTAAGCCATTATTTATGATAACAAAAATTGACGAAATAATAGAAGGAAAAGGTTGGGAAACCCGTAAGAAAATATTAGAAGAACTATCTAAGAGACCTTCTACTGCATATGATTTGTCTAAGAGATTAGATCTAAACTACTCAACAGTTAAATACCATTTAGAATTACTAGAGAAAGCTGGAATGATAACGTGCAATAAAGATAAAAGAAACAGATATTTCTACGAAGTTTCCAAAAATGTAAATCTATTGAAAATATTATAAAGGATAGCAATACTATCTAATGAATAGATTTTTTATTACTGAAAAATAGTTTAGACTTATGTTAACGTTACTCTTATTGCTATTAACGTTGGCACAACCATCTCATTCATTGCTTTATCAGGTAACAATCAATGTTAATAACACTTTATATACATATGATTACAATTTTAGTATATTATATCAAAATACAACTAATATAGTATTTAATTTAACTATTACAGGAAATAACTTTTATCAATTAAAAACATACACTGTAAATACAACTAATCCTTATCCCTTGCCTATTAATTATAATGCATTTAATACATCAAAAATATCATTTATTAAAAACACAATAATAAACGGGAAATCTGCAGAAATATATAGCGGTTATTTTGATGCTCTAGGCAAATATACTATTCCTGTTACAATATATTTTATTAATGGTACTTTATATTCACTTAATGGAACCAAAAACAATATCAATGTAGTAATAACTCAAGAACAACAGCCTATTACAACTATACCTCCAATTTCACAAGATCTGGAAACATACTTTCCTCTAATATTGTTTGGAATAATATTGGTAGTAGGTGTTATTATACTTATTAAAGTAGGTAAAATATAAATATTCATTATAAAATAAGTATTAATGAATGATTAAATTGGTCTTTACTGAACGATGATTGGAGCACGTCAGGATGAAATAATATGGAAAAGATTTTAAATATATTATGTAATAAGTTTTCGATGAACTACAAAGAATCGCCAAAATTCATGGTTCTAAAAGGATTATTGCAAATTATAGTGGCTTACATTCTTTATAGATATGGAGATATGTACGGCTATCAAATAAAAAAGAAATTAGAGGAAATAAATCAAAAAAAGGTTCCTCAGGGGTTAATATACGTTACACTTAAAAGAATGGTAAATAACGGTATTTTAGAAACTTATGATAAAGAGGATAAAAAATACTATAGACTTACTGAAGGAGGTAAAATGTTCCTTATAAATCACATCGATATTCTCAAAAGAGTAGATAATATAATCCATGATATACTTCAATTCATGAGTCGGTGAAATCTTTCAAAAATTGCAACAAAACTAGAATAAATAACTTCTTTCATATTCAGTCCCCACGGATCAATTTCGTTTAGTCTTTTACCGTTATTATCTACAACTACTTTGAGATGGGCTGTTTTAAAAATCCTGTAAGAGGGAAAGCATGTAGAACCATGAGGAGCTAAGACTATATCTGGTTTTGCCCTAACACATTCTCTGGCTACTGCCGGTCTTTTAATTTTAGCCCACATTGCTGGATTAGGTTTCTTTTCAATTATCTCTTTTTTATCAAGATCATAAAGGATAATATATTCTGCTCTTGAAAATTCCATTAACCTTAAGTTCTTATCTACTGTAGTGCAAATTATCATAAAATAAGAAATATGAATGCTTATATAAATCTGCACATTAGGATATTTTACCATGATAAAAAAGTCTCGTTCCCAAAAAGTTTATGGAGGTTTTGAAAAAGCTCCCAATAGAGCATTTCTGAAAGCTATGGGACTGACAGACGACGATATAAATTCTAAACCACTGGTAGGAATAGCAACTGCATGGAATGAAGCAGGACCATGCAATATACACACTTTAGGCTTAGCCAATGTAGTAAGAGAAGGAGTAAGAGAAGCAGGAGGTACACCAAGAGTATTTACTACTCCTGTAGTCATAGACGGAATAGCTATGGGTAGCGAAGGAATGAAATATTCGCTAGTAAGTAGAGAAGTAGTAGCTGATACTGTCGAACTTACTGTAAACGCACATGGATACGATGGTTTCGTTGCAGTGGGTGGATGCGATAAAACTCAACCAGGCTTAATGATGGCTATGGCACGCTTAAACATTCCTTCAATAATAATGTATGGTGGAACAACATTACCAGGATATTATAAAGGGAAAAATATAGCTATAGGAGATGTTTATGAGGCAGTTGGTTCTTATTCTAGCGGAAAAATTTCTGCAGAAGATCTAAGAATAATGGAAGATAATGCTATACCTGGCCCAGGAACTTGCGGAGGACTTTATACTGCAAATACCATGGCCCTTATGACTGAGGCATTAGGATTATCCTTACCTGGTAGTGCGTCTCCTCCGGCAGTAGATTCTGCAAGAGTTAGATACGCTAAAGAGACTGGAAAAGCATTACTAAAACTAATGGAGCTAGATTTAAAGCCTAGAGACATACTTTCATTTGAAGCTTTTGAAAACGCAATTGCAGTTTTAATGGCCTCTGGAGGATCCACAAACGCTGTATTACACTTATTAGCTATAGCATACGAAGCCGGAGTTAACTTAACATTAGATGATTTTGATAGAATAAGCAAAAAAGTTCCAGAAATTGTTAACATGAAGCCTGGCGGAGAATACGTAATGGCAGATTTAGATAAAGTTGGAGGAGCTCCTTTAATAATGAGAAAATTTTTGGATGCAGGATTAATTCACGGTGATATTATTACAGTTACTGGGAAAACAGTTAAGCAGAATTTAGATGAGTTTAAATTGCCAAATATAAAATATGATAGTATTGTTAAAGAAATTGCTAATCCATATAATCCTACTGGAGGAATTAGGATCTTAAAGGGAAATTTAGCTACAGAAGGAGCTGTAATTAAAGTATCTGCAAGCAAAGTTAAATACCATAAGGGATCTGCAAGAGTGTTTAATTCAGAAGAAGAGGCATTTAATGCAGTAATAAAAGAAAAAATAGAAGAAGGAGACGTAGTAGTAATAAGATATGAAGGACCAAAAGGCGGACCTGGTATGAGGGAAATGCTTGCGGTAACTAGCGCAATAGTAGGACAAGGTTTAGGAGAGAAAGTAGCTTTAATCACAGATGGTAGATTCTCAGGTGCTACTAGAGGCATAATGGTAGGGCATGTAGCTCCAGAAGCTATAGTAGGAGGTACTATAGCACTTCTTGAAGATGGAGATACAATAGTTATAGATGCAAACAACGGAAGACTTGACGTAGATTTATCAGAAGAAGAAATAAAGTCTAGAGCTAAAGACTGGGTTCCACCAGAGCCTAAATATAAGACTGGATTACTAGCTAAATACGCTAAACTAGTATCATCGTCTTCAAAAGGCGCAGTTCTTACTGTGTAATTTTTTCTATATTGTTTATTTTTAAGTTATTTTTATTATCGTTTTATTGTATTTTGAATTTTAAATATATTTAACATTAACATTAGATAAATTGTAGAACTTATATTTTTAAAGTAAGTTTATATTCCAGAAATCTATAAAGTATTAGATTAACCATGAAAAGAATCCTAAAAGCCGCAATATTAGGTGCTACTGGCTTAGTAGGAATTGAATACGCTAGAATGCTTTCTGAACATCCTTATATAAAACCCGCGTACTTAGCAGGGAAAAATTCGGTAGGTAGACCTTATGGAGAGATAGTAAGGTGGCAAACAGTAGGTCAAGTTCCTAAAGAAGTAAGAGATATGGAAGTAAAGCCTACTGATCCTAAGCTTATGGACGATGTAGATATTATTTTTTCTCCATTACCTCAAGGAGCTGCAGGCCCTGTAGAGGAACAGTTTGCAAAATTAGGTTTTCCAGTAATAAGTAATTCGCCTGATCATAGATTTGATCCTGATGTACCATTATTAATTCCTGAAGTAAATCCTCACACAGTGTCATTAATAGACGAACAGAAGAAAAGAAGAGACTGGAAAGGTTTTATAGTAACTACTCCATTATGCACTGCCCAAGGTGCGGCGATACCATTATCGCCAATATACATGAATTTTAAGATGAACGGTGCTTATATAACTACAATTCAATCTTTATCTGGTGCCGGTTATCCAGGTATCCCTTCTTTAGATATTGTGGATAATATACTTCCTCTAGGCGATGCATATGATGCTAAAACCATTAAAGAAGTTACCAGGATATTAGGCGAGGTAAAACGAAATATTGGAGAACCTTCAATGCAAGAAGTTTCATTAGCAGCAACTACACACAGAATAGCTACTATCCATGGGCACTATGAGGTATCTTATGTAACTTTTAAAGAGGATACAGAAGTAAGCAAAGTAAGAGAAGTATTAGATAACTTTAGAGGAGAACCTCAAGATCTTAAATTACCTACAGCTCCAGAAAAACCAATTATAACCATGAATGAAGATAATAGACCGCAGGTCTATTTTGATAGATGGGCAGGAAATCCTCCCGGTATGAGCATAGTAGTAGGAAGATTAAAGCAAATAAACAATAGAACAATAAGAATGGTTTCATTGATACATAATACAATAAGAGGTGCAGCTGGAGGAGGGATTTTATCTGCAGAACTATTAAAGGAAAAAGGCTACATAGAATAAATTAACTTTTTTAGTTGTAACTTCTTATTTCTTTAATGATGATCTCATCCTTAGCAGAAGGGTGAAGAATAAAATACACTGAGGTTTAAAAATGGATTATATAGCATTATCAGAAGCTCTAGGAATAGAGAAGGATAAAGCAACTTACGTATATAAAAGACTTAATGGCGGATATTACATTTCTTTATATTATTCAAAACCGCCTATTTTAATTTCGCTTAGAAACTGGCCTTTATTGTACTTAAAGAAAAAATATTTCCCAAAATTTTCACAGCCTGGATATAATGAGGAGTTTCAATTATTAGTTACTTTAGACATCTATACTATTTTAGGAAGTTCATATTTTCTTATAAATAATGAATATAACGTTCCACATAAGTTAGTTAATAAAGAATTAGAAGGGGTATATTATGCTATAGAGCAGGTAGCAAAACAAGAATCTATATATCCATACCCTACTATGAGCATTGATAACATTGATACAGATTTAACACCTTTTATTAAAGATATAGTAGAAAGACGAGTAAGAGATAATAAAGAAGACATAGCTAGGTTATTTCAAAGTATTGCATTCAATAGTACTGTTATGGAAGAGTTAAGGAAAAATTATCCATGGGCTAAAACAATAAATGAAAACAACAGCCTTAAGGCTATTGCTTTATCTAATAAATTCGAAGATTTTATTAAAGAATATTCCAATTATATTTTCTATTTAGCTGCAGAAAAAACTTTCTTATTCGATAAAATAGTTATAGATCAAGGTATAAGAGACGCTATAAATTACGTCGAGAAATCTGAAATAAAGGAAAATCCTTCAACAGATTACGAAAAAGAAATTACCAACATTTATAATATAATAAAAGCAGAAGCAAATTATATTGATTAAAATACTTTATTAATTTTTTTCTTAATAAACATCAATGTATAAGTCTTTCTATCTGTATATGCTATTAAAGAATCGTAGTATATAATGAACTTAAATATTTAAGCTAATATAGCTTTAATATTTTGTAAGAGTAAGATAATCCATATCAAATTTATTAATAATTAATTTTTAATGATTGAATAATATCATATTTTTATGAAGTAGGTTGTTTCATTAGTAGATAAGTACTTATATGATTCTATACAAGACTTCTTTTGTGAAAACTAGAACAGAGAGTAGACGAAAAAAGCTTTCAAAGGGAGAGAGTATTACTGCATTCAAAGAAGAATTAAGAAGTTTAACGTTTGAGCCTATATATGGTGAGACAATAAAGAGCATAATAACTAGTATAACTACTAAAATTCAAACTCTAGCGGAAGAGTACGGTTACGAGATAGAGTTCCCCAAAAGAGCTGAAATAGAGACTGATGGAAACATATACTATTTTATATACACACTAAAAGTTAGAACAAAGATTACAACAAAAAAAATTCGCTTACATGTTCAGTATATTATGTACGAGGAAGAAAACTGGATTGGCATAATAACGGAGGTCAAGTAGGTTTCGATTTTTTGATTAAATATATAGTTATTATAGTCGATATTATTACCACAACTAGTGATAAAATCGTTGATAAACTAATTGAAACTGAGACATGTTTCAATTCTGTATTACTTGAACTATTAGGTATTGATGCAAAATTTTGAGGATATACTATATTGCTATGATAGGGCTTTATTGTTCCATTAAATATTATAGTTCCATTACTAACTGAATAATTATATAGTTGAGTATTTATCAGTGTTACGCTACCGTTAACTATGGTAATATTTTTTACAATTGAGTTTATAATGGTTGCATTATGATTAACTATTCTAGCATAATCAATATAATCATCATACGCGTAACTTCCATTGAAGTATTTTATATATGTATATGGCAATAAAATAAATGTAGATTGCGGTATTTCTGGAATTATATTTAGTGTATTAAAATTAACGGTAGATGGTAAATATGTTGGATAGCCAGAAGCAGATACTCCAAAAACGTAGATGTACCAGTTAGAAGATACAGCTTCTTGAGAAAGACCTAATGAGTTAGATATAGAACCATTAATTACGCTAATATTGGCTAACCATATTCCATTATGATACGATAATGGATATGCATAGTTATCACTTAATGAGTCAAAATTTTGCGATAAAAACGATGGTAATAGCACAGCAGTAAATGCTCCGTATTTCACTAGAGTACCATTAGGATAAGTAATCTTTGCTTCTAAAATAATATTTGTTCCCTGTAGAACAACCTTCGGATGCTCGTAAATTAATGATGATAGAGAATTTGACGATATATATATTTGAGTAAATCCTATTCCAGAATCCGTATAGCCGTTATTTGAGTAATTAGCCCTTGCTATTATGGTATAATAACCTTTAGTTAGATTATTCGGTATTTTTATATTACTGAGATAATATTGATTATTATCTATACATATAGAGTTAATTTGAGTTTCATACATTAACTCACCATGTCTATAGAAATATACTGACACGTTTGGAGAACCTACAGTTTCTGCCAGTACTCCTATGGTAATATTGGAACCAGGCGAAGCAGTTGTTGGTTCAGTAAAGACTGAAGGAATAATATAAGGAACTACATATATCCCTTCTACAAATTCATCAAAACCAAAGGTATTATTAATACTAACCAAATAGTTACCTCCAATATTCTTACTAATATTATATATTCCATAAATATATTTTGGACTTGTAATATTTATTCCAAATAATGATATATCTATTATTCTAACTTTTGAAAGACTTACTAAAGTAACATTAGTAAATGTATTATTTAGTGGATTATATGAAAGTATTTTTGCAGTATAATTTGCATCAGGTTCTGCTACAGATCCATTAGGATAAAGTAACTGAACTAAGATAGGGATTCCTCCAGGCTGATAATAGATTCCGACTTCTGGCAAAAGGAATTCTGCTTGAAGACCGACAACTATATATGTTCCACTAGTCTCATTATCACCAGATATTATAACTTCTTGAACTCCACTACCTTCTGCAGTAAAGTTTCCAACCCAATACGTTCCATTAAAATACAACGGAAACTCCTTAATTATAGATTTTCCATTATATACGTAACCCTTTAGATGGAAATAGTAGGGAGCCTTAGCAATTACACTTACAGTCTGACCATCTAAGTATGACTCATTTTGAACGGCTACAGATATTTGCGGCTTATAACTTATCATATTTACGAAGTATCCAGCATTAATATATCCTAAACCTGTTACTGGGTTATACTGACTGCTAACAGCGTATGGTGTGTTATAACCAAAAGTAATTGGAGTAATTGCCTTAGTATTATTCAATTTATATATTAAAGGATTTATAAAACCTAGTTTGCCATGAATCTGTGTTGCTAAATCTATTATTCCAGAAATAGTTGGACTTGCTACTGAAGTACCTCCTATCAAGTAAGTTTCGTTATAATAATATAATACTGGAACACCAGTATATGGATTTCCGTCTGCTACTAAATCTGGTACTTCTCTAAATCCTTGTGCTCCTTGATACCAAGGTGATGGAAATATTGAGCTATAACCACCAGTAGTTGCACCGTAAACACTCTCTCCACTCCATGCTGTCTGTACTGAAGAATTACCAGAAATATAGAGTGAAGAACCACCCGCAGCTAAAACATATGGATCTGAAGCTGGGAAAAGTAAGCTTCCCTTGGGAAATAGATAATAATTATAACCATCTCCTCCATAATCTCCACTAGCAGCCACAAAAGTTATACCTTCTACTTCGCCTAACCAATACTCATAGTTTAGACTCTGAATGCAAGATATTGAAAGTATTCCTAAGTCAAAATATATTTCTGGTATTCCAAAGCTCTCAGAAACTACATTAACTTTATCTTGTTGATCTATATAAGCTATTGCGGCAGGCAAAGATATACTTGGATTAGCAACGTACAAATATATTCCTGCATCGGGAGCTATCTCATGTGAATATTCAACATCTAAGGAAATTTCTAAAGCCCATCCATTTAATATTCCATCATTAGGATTATACGGACCTATAGGCACTACTTTAAAAACTGGTGGATTTGAAATATTATATAATTTATCAAATTGTACTAATTGCTGAGAAATATAAGGATCCCCGTAAAAGTCTAATATACCTATATTCGTACCATTTCCATCTATTCCTTCTCTTAATAACGGAGTTACATTATAGGCTAATCTTATATCTTTTGGAGTAACTACTGAGAAAGCTACTGCTTGAGTAACATTATATAACGTATCAGGTCTCTTAAATATGGCCTGAGTAACATTTGATCCTATTATTATAGCATTTCCTAGCAAACTAGGTAAATTGCCTTCAAATTTATAATACGTAATATTATTAAATTTTAAAGAATAGAACTTGCCGTTAAAAGCTTTTTCTAATTCTTTCATTTGTCCAGACGCTACTATAACATTTAGATAACTTTTCGCATTTATATTGAATGATTTAAGATATTGAAGAATATTATTTATAGAACTTTGAGGTACGAATAATTTCTCAACTTGAGAAGAGTTTAATACTGTATGATTTTCTAAATAAAGTTGTAATAATTCCAAATTTTTTGGTTGTTCTATGACCGTAACTGTTATATAGCTATTTGAATTAAGAGACGAATTTAGTGAAGTATTTATATGATTAGTTGAGATTAATGGTATTACTTGAGCGAGAATAATAACTGCAATTAACAGACTTTTTAGCATATTACTTTACTATTGATTATATTAGATAAAACTTTTCGATAGATCGTTTTTGGATAAGTCTACCACGTAAAATCTGTAATATAATAATTATGTGTATATTACATTTTTTTATAGATATTGAAAAACCATAAGAAAATATAAGACTATATTGCAATGCAAATAATGATGTATACATTTCCAGAAGAAGGCGAAAAGATATCTTTTAAAGATGGTAAATGGATAACACCGAATAAACCAATAGTTCTATATATAGAAGGAGACGGAATAGGTCCAGAAATAACACAAGCTTCTATAAAAGTAATAAACAAGGCAGTAGAAAAAAGTTATGGAAGCTCTAAAGAAATAAAGTGGGTTGAAGTATACGCTGGAGACAAAGCTCAAAATCTGATTGGAGATAGATTTCCTAAGGAAACTAGAGACGCATTAATGAAATACAGAGTAGTTCTTAAAGGACCACTACAAACTCCTATAGGAAAAGGATGGAAATCAGTAAATGTTGAAATGAGGTTAATGCTTGATTTATATGCCAATATACGCCCAGTGAAATACATAAAAGGAATAGAAAGTCCTCTTAAGAATCCAGAAAAAGTAGATCTTATAATTTTTAGAGAAAATACAGATGATTTATATAGAGGTATTGAATATCCGTTTGATTCGAATGAAGCCAAAAAAATAAGGGAATTCTTAAGAAATGAGCTAAATGTAAATATAGAAGATGATACTGGAATAGGAATAAAAGTAATAAGTAAATATAAAACTGAAAGAATAGCTAGAATGGCCTTTAAATATGCTATAGAAAACAAAAGAAGAAAAGTCACAATAATGCATAAGGGAAACGTAATGAAGTATACAGAAGGTAGTTTTATGAATTGGGCCTATGAGGTTGCCCAAAATGAATTTAGAGAAAAAACTATAACCGAAAACGAAATAAATCAAGGAAAAGATCCATCAGACAAGATAATAATAAACGATAGAATAGCTGATAACATGTTTCAACAGATAATAACAAGACCTGAGGATTACGACATAATATTAGCTCCAAATGTAGATGGAGACTACATTTCTGACGCTGCAGGCGCACTAATAGGAAATATAGGACTTTTAGGAGGAGCTAATGTTGGAGACGACGCCGGAATGTTTGAAGCAATACATGGTACTGCACCTAAATATGCTGGAAAAAATGTAGCTAATCCTACAGGGATAATCAAAGGAGGAGAACTAATGTTACGATTTATGGGATGGACTGAAGCAGCAGATCTTATAGAAAAAGCAATAAATACTGCAATAGAAGAGAAAAAAGTTACGCAAGATATAGCAAGATTTCTTGGAGTAAAAGCACTTGGTACAAAAGAATTTGCAAGTGAACTGGTCAACATAATTGACACGCTAAAATAAATATATTAACCCCCCAGTTTTACAGTAAAACAGCAAAGTTTCTTTAGTCATATACCCTAATATTTTTTGAATAACAGTCTTTTATTACATTTTAATATTGGAAAACTATATTCAAAACATATTATTTATGTATGATGCGTTATTATAATGATAATCAGTAATTCCTCATTCCAGATATTACCAAATATATATAACGGAGAGAGTAAAGAAGCATTGTTTTTAGATACCAAAAAATTAGTAAGAAGATATAAGTTTGTATATTTTAAAATTATGAAATTAAAGTCGTGATAAGTGGAGCTGTAAACTTCAAGAAACAGTTGAAATTCACAGAGAGAGTATTAGGGAATTTATATAAAGAAACTCTGTAGATGTACTGTAAAACTGGGGGGTTTCTCTGATGATGTATTACTATTACAGGCTATTACCTAGGTTATACTCTAGATAATATTGGAAACATGATTTAACTGAGGAAACAATTGAAACTGCTGTGATCAGAGAAGCATTAAAAGGTGGCAAAGGAGAGGTAATTAAAAATCCGAAGGTCTTTATTGACCCTTTGTCTGTATTTACTGACATACCTTATAGGGAGGATATAATCAGGGAAACTGCAGTAGCAATTAGATACTTTGTCAAAAACGACGTTAGATTTTCTAATTTGTTTCTTGGGCTTACAGGTACTGGGAAAACCTTTGTAGCTAAATACATGTTTAATGAAATCGAAGAGGTTAGAAAAGAGGACGATGATTATCTAGAAGTTAAACAAGCTTATATTAATTGCAGGGAGGTAGGAGGTACTCCTCAAGCTGTATTGTCTGTTTTGGCTGAAAAATTGAGTAGTGGTATCGTTCCTAGACATGGTGTAAACCTGGGAGAATATATAGATAAAATAAAAAATTCTGTAAAAGGAAAAAAAGCCATAGTATACTTAGACGAGGTAGATACGTTAGTGAAACGAAGAGGTGGGGATATAGTATTATATCAATTATTACGTTCCGATGCAGAAATATCAGTAATAATGATAAGTAATGATATAAATGTTAGGGATTATATGGAACCTAGAGTATTATCTTCACTAGGTCCGTCTGTAATATTTAAGCCATATGACGCAGATCAGTTAAAGGAAATATTAGCAAAATATGCTGAGTATGGTATCTTTAATGGAACTTATACTGATAATGTCTTAGCTTATATTGCCGCAGTTTCTGCTAAGGAACACGGCGATGCTAGGAAAGCTGTAAATCTTCTATTTAGATCTGCGCAATTAGCCTCTGGCGAAGGGTCTATAAAGAAGGAGCATGTTGATAAAGCTATAGTAGAATACGAACAGGAAAGGTTAGTTGAGGCTATAAAATCTCTTCCATTCCATTATAAACTAGCTTTAAGATCTGTTTTAGATACTGATGATGTAGTTACTGCACACAAGATTTACACAGATTATTGTAATAAGCTAAAGCAACGCCCTTTATCATATAGAAGATTTTCCGATATTATTTCTGAGTTAGATATGTTTGGAATAGTAAAGATTAAACTACTTAATAGAGGTAGAGCCGGCGGAATAAAGAAGTATGTAGAAGTACAAGATAAGGATAAGATATTGAAGGCTTTAGATGAGAACATTCTAGATGAAATGGGGTATGAATATTGAAGAAACTCTGAAGTTATACAGTAAGGTGAAATAAGATGCTATGGGAAAAAGTAAAAGATATAGAGGAAAGATTGAATGAAATAAAGCAAGAGAGAGAAAAAATAGAAAAAGAAATAAAAGAATTGCCAGATGGACATATAGACATTAAAAAAATAGGAAACAGAAGTTATTATTACCTAAGATATTGGGAAGAAGGAAAATTGAAAAGCAAATATTTAGGAAAAGATGCTAGTGAAATTGCTGCTAAAGTTAATTTGTGCAATGAGTTAAAGAGAAAATTAGTTTTAGTTAAAGACGAAGAGAAAAGGCTTGAAAAAGCTATAGAAAAGATAAAAAACGCTGTAGAAAACTCTTAAGTTTTAACGTGTGCACTTAATTCGTCCATCTTCTCCGCTAATTGAAAGTCCAGATCGGAGAGACCACCTACGTCATGTGTTGTTAGCTCTACTACAACTCTATTATAATATATACAGACGTCTGGGTGATGGTCTATACTATCAGCTACCGGTTCTACTAAATCTAAGAAGTTAATAGATTGCTTAAAATTGGAGAATTTGAATTCTTTCTTCAGTTTATTATTATCTAATGTCCATCCTTTTAGATTTTTTATTAAAGAATTTATTTCGGCTTCCGAAAGTTTCTTCATATAATAGTACTATCAACAATTAGTTTTAAGTGCGTTTTTTAAATAAGTCTAAATACTTACGAAATCAGACTGGTTCTTTATCTCGTCACCTATCAATTCAGGGCTCACTCATCATGTTAAACCTGAACTTTTACAGGATTCTCCCCATTTTCTTCTTAATCCCTCTTTTATTGCGTTTAAATACTCTTCTCTCGGGGTACCTTGGCCTTCCTTATAATCAGAGACATAAGCTGATGCGAAATATTCTTTACCGTTTTCATCTAAAACCTTCACTGTTTCTCTAAAATACTTTATAAGATGCTCTTCAGCTTTGTCTAGAGAGTTTAAGTCGTCTTCAATCATTAAGTAAATATATCCGCATACTTTACCCTCTGGATCTTCTTTTAAATTTGCGCAATATCCATACTTACACTTTACGTTAAATATTATACTATATCCTGGTAGGACCGCATTTATTTCTTTCAAGATTTTTCTTACACCTCTCTCCTTTAATATCTTAATATTGGTATTTTCGGCATAAGCAAAGTAATTTATTACTCTAGGCATTCCAACATATGCAGAGTAATCTCCACTTTCTATTTTGTCTCTGTATGAGATATCTTGATTATATACATAAAGATATACTCCATCCAAGTAATATTTTCTTTTCTGATCAAAAAATACTCTTGTTTTGTATCTTATGTACAGATCGTCTTCCTTACCCTTATAGTCCTCTACTTCATCCAGTGTTTTCAGTAAACTGTCATTAATTTCATAAACTTCTCCCCATATAATACCGTCTCCCTTTATTACACCTGGATAGCTTCCCAAATCATACATTTCAAATCCTTCTGTAAAACCGTATCCTACAAATCTGCTTTCTTTTAAGAAATGATTTAATTCAAATCCGTATCTTAAACTTCCATAAGCAAATAAATACATTTATTCTCCCTCTATGAATTCTATCCAAAAGCCTAATTCACTATCGTCCATCTTTCTTACTTCCTTTCCATTTTCTATTATTTTTGCATCTATAATCTCGATATAATTATTCTCTTTTTTTCCAGTTATTTCTATTGTTCTATTTACATCTTCTTCTATCCCAGAAGCTTCTGAATATGATGGTGGATAATAAAAGATCTTTATTATAGAATTTTCTTCTTCTATACTATAATTACTAGACGAATATAATTTTTGTAAAGCGTTATACGACAACTTCATTACTATTTGATTTCTTAACAACTAGTTTTAATCCTTGCATGCCAATAACTACTACTGTATCTCCCGCTTCTATGTTTTCATTTGATACTGCTTCCCAATATTCACCATTTACCATTATATATCCTCCTTGATTTGGAGATATATTATCAACAGCTTTTCCAATTTTCCCAACATATGTAAATAAATTTCTTTTTCTAGTCTTAATTATTATATAAAATATTCTATATGATATAAATCCAATAATTATGAACGATGGTATATCAACTAAAGGATCCGAAATGTATCCAGTAACTATGAGAGCTATAAGTACTACTATGATAATTATTATTGGAATAACTATGTGTGCAGCCACAAATTTTTATTTGGTAATTACATATAAATAGCTATATGAAAGCTATCTTTTTGATACTTATTATATTATTGCCGTTAGTATATACTCCTTTCTTTCATTCTCAGTCTACATTAGCTTATCCTACTGGAATGACGTTCTTTCCATTTACATCCAGTATATTGACTAATTTTGTGGAAGGCGTGATAAACGTGTATAACTTGTCTATAGGTAGTTCTTATTTGCCTAATGGTGCATATTTAACTTCTGGTAATGCATCATTACAATTAAATTCAATATTAAATGGAAAATTTTGGGCTCAGAACGTGGCATTATTTCATGAGATTAACTCTAAAGAATTTCTAGTGACTATGGTAGTAAACTTCTGGAATCTTTCTGGTCCGTTTGAAAATTATCCTAACACTACAACTTACGAAGGTTTAGGAGTATATTGTTATCAAGGGCCTTCCTTTATTCTTAAAACTCCATTTTCTCTAATTCTTTACATGAATTCTAGTAACGGTCTTGAATTCGGTTATATAGTAAATAATACACTTCATACATATCTGAAATTACCTTTTCCAGGGGAATTTACTTTAGGCGGATTTACAGCCGGTCTTCCTAACGATTTAGAACTTGTTTGGGGAGGTCCTGGAGGAGGAAGTACAGTATATATAAACGAAGTCGCATCAGAAGAACTATTTTATGAGAGTTCCAATAAACTTTCTATAGTTCCCTCAGCAATTAGTGTTGGATTAGATACTGCTGAGAGCGCATATGGAATTTCTGTAACATCAAATCTGGATAATATATTTCATCCTTTTGCTACTATTTCCAAAGGTTATAATACTCCTTCTATACTTTGGCCTATACCTCCATCAATAACTGTTACTCAAGTTAATAAAACAGTGAATGTAAAAGTCAGTATAAATGGTAAACCATTAGTAAACCAGGAAGTAGAGGTTCTTTATCCTACTTTAACAGGTTTTAAAGTAGGCTATGAAAATATAACAAATTCTTCTGGACTTGTAACATTCCCTAACGCTTCTACTGCTCTCTATATAATTTATTATCCAGGTAATTTTAGTTTGGCTACAGCTTATTCTTTATCATCATCTTCTGCGCCTATACTTCAAAGTATAGCATCAAAATTCATTTCTACTTTTCAAAGCTTAACTAATTTCCTTAAAACTTACAATTTTAAGAAGGCATTAAGTTCAGATTTTAATCACATAAAATATAAAGGATATTCAACATATAACATTAATTTAGTTCTTATAGAATATATATCTGCGTTTGCAATAGGAGTTTTAATATCGGCAATCTTAATTAAATATAAGTTTTAAATCTAGTAAGTTGAATATATATTAATGAGCGATTTAGGTTTAATAATAGGTTTAGTTTTCCTGTTAATAATAGTTCTTGTATTTGTAGGTCTGTCTTTTAGGATAGTTAAAGAATGGCAAAGAGCAGTAGTTTTAAGGTTAGGAAGAGTTTTGGGAGTTAAAGGGCCAGGAATAATTTTTCTTATTCCTTTTGTTGATAGACCCGTAGTAGTAGATTTAAGAATAAATAACGTTGATATTCCACCGCAAACTATGATTACTAAGGATAACGTTACTCTATCTATAGACGCTGTAGTATACTATAAGGTTGTGGATACAATAAAGGCTGTAGCGAATATATCCAATTATAATTCAGCCGTTGTAAATATTGCGCAAACTTCGCTAAGAGACATTATAGGGCAAATGAGTCTAGATGAGGTTTTAAGTGAAAGAGAATCAATAAATAAGAAGCTTCAAGAGATATTAGATAGTTATACTGAAGGCTGGGGAGTTAAAGTAACAGCGGTAACGGTTAGAGATGTTAAGTTACCTGCTGATTTAAGTACTGCTATGGCTCAATATGCAGCAGCCGATAGATTAAGAAAAGCTAAAGTTATCCTAAGTGAAGGAGAGAGACAAGCATCGACAATCTTAGCTGACGCATCAAAATCTTATAAGGAAAATCCAATAGCACTTCAATTGAGGTTCTTAGAAACTCTTTCAGATATTTCTCAAAAAGGAGGTTTAATTATAGTAGTACCAGCAGGACAAGAAATATATCCTACTTTATCAACAGCTGTTTCAGCAGGTCTTGTTAACTATAAGAAAGGCGAATGAGCTTTTGAAGGTCTTTCTAATTGGTGTTGGTCCTGGAGATCCCGAGTTATTGACGTTAAAGGCCTATAGGATAATTAAAGAATCTGATGTCATTTTCTATACAGGATCATTAATAAGTCCTGAAATTAAGGAGTTTTTTGTAAATAAGGAATCTTTTGATACCTCTAAAATGACTATAGATGAAATCACAGATAAAGTTTATAATAGACTCCTAGAAAACAAAAAAGTCTCAATTTTGCATGATGGAGATCCATCAATTTATGGTGCAATTAGTGAGCAAATATATTCACTCGAAAATAAGGGTATAAATGTGGAAATAATTCCAGGGATAAGTTCATTCCAACTTTCATCTTCTTTATTGGGACTCGAATTAACTTGCCCTCAAGGACCTCAAAGTATTATAATAACTAGATTACCATATAGAACAAATTATGAAAAGAAACTGTTATTATCGAAAAATGCGTCTATAATAATTTTTCTTTCTATTCATTTAATAGATAAAGTGAAGCAGCAACTCTTAGAAGTTTTTCCAGAAGATTTTCCATTTGCGGTTGTATATCATGCTGGATGGAAAGATCAGAAGATAGTAACTGGTGTAATAAAAGATATAGATAAAGTAGTTAAGTCAAATAAAATTTATAAAACGGCATTAATACTAATAAGTGAATGCTTAAAAAGAATTGAAAGGCACAGTAATCTTTATTCTGAGAACTTTACCCACTCATATAGGAGATCAACAAAATGAAACTATTTGGTATAGGCGTTGGTCCTGGAGATCCCGAGTTATTGACGTTAAAGGCCTATAGGATAATTAAAGAATCTGATGTAGTAATAGTTCCATTTAGTTCCAAAAAGATAACTTATAACATAGTGAAAGATCTTATAGCAAATAAGGATATTATAAAATTTGATCTTCCTATAAGAAAAGGTGAGGAAGCTTATAAAAAACTAATAGAAAATATTAGAGGCTATAATAAAGTTGCATACTTAACTTTAGGAGATCCGGCATTTTATAGTTCTTTCTATAGGCTAGCAAAATTTTTAGAACCTTATGAGGTTATCCCTGGAATTACGTCTTTTTCGTGGTGTTCTGCTATAAATAAAATACCTATAGCATTAGGCAAAGAAAATGTTCTAATAACTACACAATATCAAGAAAATGATAAAATAGATAATATAATCTTAATGAAAAATCAAGACAAATTTGGAGTATCGTGTGGTAACGGATATTTTACAGTTTCCCTTATCAAAAAACATCCTTATTATTGAATAGCTGATAAAACTAGATATTCTTCTAAATCTATATATTCTTCATATCTGCACATTTTTCATCAATATTACTTCTTAGCATCATTGTTTAAAAATACTAGCCTAAGGGATCTATAGACAAATGTCTATTGATTTATCTCCTTATCTAACCATTCTTGCCATTTTATACCATTTTCGTCTATTCCACTTTCTATTTCATATCCCATTGAAATCCAGCTCATCATACCTCCTAGCATATTAATAGTTTTCTTCTTGTATAAGTGAGGCATACCATATGTAGCATACCTGGACCTATTGCCATGTTCGCATACTACTGCGATCTCCTTATCCTGAATATATTTAGATAAAATCTCTAGATAATCCAAAGGTATTAACAAAGCGCCGGGTATATGATGATCTTCATACTCTTCTGGAGTTCTTACATCAACTAATGTTATTTGATTTTTTTTCCATAATTTCCTCACTATAGACGCAGGTAAGTCTATAATATGTCTAAAATATGGAGAAGAGTAGTTCTCTATAACTTGCATAAATTGATTTTCTTTAACGAGGTTAAAAAATCTTCTATATAAATTACATAAAATTTATTTTTATAAAAAATTTTTATAAAGATTTAAAAGATTTAGATTATATTAGTTTAATTAAAAATATAAGTCAGTTATAACAGGTAATTCTGTGACCTTTTTCCCTATAGCTTTTTCTATAGCTCTTGCTATAGCAGGCAATGTTCCTATTGCGGCTCCTTCTCCGATTCCCTTACTAGGTAGTGGAGCTTCAGACATACCTTTCTCTATATATTCCCAACTAATGTTAAATGACTCTACTGCTGTAGGTATCATATAGTCGCCAAATGATCCAGTAAGTAGATTTCCTTCGTTATCATAAGTTATTTTCTCTAATGTGGACTCACCAAAACCTTGAATTACCCCGCCCATGACCTGTCCCTCAGCTAACATTGGATTTACTACAAGTCCTATATCATCTATTGCATGATATTCTAAGACTTTTACGTTCCCAGTATCCTCTATCTCTACCATTGCAATATGGCTGCCGTAAGGAAAAGTCAAGTTATCTAAACCAAAGTATGCAGTGGCTTCTAAACCTGGTTCTTCTTTATATTGCCAAACTCCTCCTAAGGTTGCCATTCCCTTCTCTGAGATTTCCTTAAGTGTCATGAACTCCCCGGTTTTAGGATTTATAACCTTCCCATTATCATATTTTAGTTCCTGTATATCACTTTTCATAAATTGCGAAGCTAAACGAATTGCCTTATCCTTTACTTTTCTGGCAGCTAATAGTGCAGCATTTCCAGCTAATGTTAGACTTCTACTGCCATATGTTCCAAAGCCTTCTCCAATAGCATTAGTATCTCCCCATATTATTTCTACATTGTCTAGGTCTATTCCCAATTCTTCTGCTACTATCTGTGCAATGCCAGTAGCAGTTCCTTGGCCATGAGGTGCTGCGCCTATTATAACTGTAACTTTTCCATCGCCTCTGACTCTTACTGATGCACTTTCCCATGGTCCGAAGTTATTTTCTTCGAGATAAAATGAAAATCCAACTCCTACTCTTCTTCCTTTTTTCTTCTCTTCTTCAGCTTTGTTTTCCAGTTCTCTATAAATTTTTTCTGCTTTATTTAATAAATAAGTATAATCTCCATTATCATATTTTATCCCAAATGGATTAACATATGGTGTAGTTTTAATAATATTCTTTCTTCTAATTTCTATTTCATCTATTTTTAACTCGTCTGCAAGAATATCCATTATCCTTTCTATGACAAATGTAGCTTCTGGTCTTCCTGCACCTCTATACTGATCTAATGGTGTCTTATTAGTGTATACTCCATAAACTTCAGCTTTTATGTTAGGTATTACATAAGGTCCAGGTAACATTGTTGATGAAATATCAGCTAAATAGTAACCATGAGATGCTGCTCCTAAATCAATTATAACATTATCTATTATTCCTTGTAGTGTTCCATCTTTTTTAGCTCCTACTTTTATTTTATGAATTTGTCCTCTTCCATGATACGTCTGTCTTATATCTTCACTTCTTGTTGCTATCCATTTTATTGGTTTTTCAAAAATTATACTAGCGTATGCAGTTATATAATCCTCTGGATAAGGGAAAAGTTTTGAACCAAAGGCTCCACCTACATCAGCTTGTATTACTCTAATATCCTTTATCATATTTCCTAATGATTCGAGTAAATATCTTCTCATATAATGTGGAGACTGAGTAGAAGCATAAATTGTAAGAAATCCTTGTTGATAAATTGAAAGTAGACCTCTAGGTTCCATTGCGGCTGGGTATACTCTATTTAAAACGAATTTTTCTTCTATCTTAATATCTGATTCTTCTAATGCTTTTTCAGGATTTCCAGCTGAATATGTTTTTCTATACGCTATATTACTTCTGCCTTCAACTGCTTTCACATCATCTTTCAAAGCAATTTCTGGATCTATTACAGAGCTCAAAGGTTCATAATCTATCTGAACTAATTCTACAGCATCTTGAACTACATATCTATCAGTACCTACTATTGCTACTATTGGTTGTCCTACATATAACAACTCGTTTGTTGCCATAGGGAAATTCGTTGGTCTGTTCTCTACTTTTAAATTTAATCCGCTTATTACACCGACTATTCCATTTAACTTAGTAGCATCAGAATAGTCTACACGTTTTAAGATTCCATGGGCAATAGGACTTCTTACTATTGCTAAATATAGTGTTCCAGGATATTCTATGTCGTCTATATATCTTCCTTCTCCTGTTATTAGCTTTGGATCTTCTTTCCTCTTTATCCTTTGCCCAATATATCTATACTGAGACATCAAAGTAGATTAAAGAATAATGGATTTTAAATTATCTTATTGAAAATGATTTTAAGAGAACCAAAATTTAGATTGGTTAAATAGATAACCTCAGTACTAGTTGAAAATTCTTAATGTTATAGTCCTTAATTATCCATAGATTAGCGTATTAGTTTAAATGAATGTAAGAAATCGCTCTGAATATTATGTCTACCCTCTTGTAAGATTAGCGTTGATATTCTTTATAGGTTCTATATCGGAATTAATACTTGAGAATTTATCTAATATTATTTCTAAGTTAACAATAAGAAGCTATTTGACACTTATGTTAGAGAAGAATTAATAAGACTGTAATAAAATGTTAATTAAAATTGTTATTTATTCTTGTGAAAAATACTCAGTTTATAATTTTAGTAAACTCTTTTTCTATGCTTTATAACGAAACAAAGTGATTGAAGCGAGAGTGTAGAAACAAATTGTCAGAAAGTTTAAACTTTAAGTAACATAAGATATTTTAAAGTAGTTCTCATCTTTAAGTCTAAAGAAAACTTAATATATTTTCTTTTCCTGTTATTGGCTTCCTTCCTATGTACCCTTCTTCTGCATAATGCCAAAATTTTATGTCTTCTTCATCAATTTTCCAGCAAAGATATGCCGGCCTATCATTTATTATAGCAGGAAAATCAACTAATCCTAGATCAGGATCCCTAATAATTATTCCTTTTTTAGTAATTTCCTTAATTATTTTATCAACATTTAATATGTACTTTTCTATTTCCTTTTTATTTCCATTAACCAGTACTTCTTCAGTATTGTATTTTATTTCTTTAAGTTTTAGTAATCTCTCTTTTAGCCAAGGTAATATCTCTCTAGCAGTACTTAAATCAAAGTAAATGTAATCCATATATATTATCTTTGATATTCTTATATTATAAAATGTTTTATCTGTATTGGGGTTAATGGGGGTCGGACTTTCATAGAGGTTTCATGAATTTGTATTCGACCTCTCGTCCTCATGCCCCTTATTTCTCTCCCCATGCCGTCTACGGGAGCGGTAGTTAAACCACTCCCTTCAAGGACATAGGGAGCCTCATCGAACCCATCCTCCCCCTCACATTGCTCATCGAGTTCATTGTAGGGCTCTCTTCTACATGATAGTATGTAACTACAAAATTTATAAACTCTCATGAGAAGAGCTAGGAATGTTAAATGATATCAAATGACATAAAATTCACGGTTTATCTGAAACTGTTGACGACGGCGGAAGATCCCATCCGTGAGGTGGAGGATGGATAACCCACTTTGTAAAGCTTAAATAATTCTTTTTCAAATATTCTCTTAATGACACTCACTGACGGAGTAAGCGTTACCGCCTTGGTTAAAGCGAGGGTCCATATGGTACGCCTCTGCTCCAATCAATAGTTCCATATTGAGACACCGTAGGTTCACTGCTCGGGGTCGGAACGATAGTGCCTGTGGAGCTCCGCCCTCTGGCAAGGTGGGGCTTTGAAGCAGGAAGCCACGTCCGTTAGGGCCTGGTAGTTCACAAACAAGGATTTAAGATAAGATAAAAGTGGTATTATAAAATGATGTACCTTACAAGGGCTGACTGATGAAGAGCCGGTCCTTTCTGATCATTTCTTTTTAAATAACCTTGTAATATCATATATTTCTAAGTTATTTTTTGGACATGCTTCTACACAATCTCCACATCCAACGCAACTAATTCTATTGCTAAATCCTTTTGATAGTATATCTTTTCTTATTTCAATTTTAATAGGGCAAGCCTTTTCACATTGTATGTTATTACATACTCTACAATCCTCTACATTTTTTGCTTTTATCTTAAATATTATTTTATTAAATAATCCTACAAAAGTTCCGAATCCACACCATCCTTGTCTAGAGCAAGAATATGTACCAAATATAGGCGTTAAAAAGAAGAAGAACCACCATATATAATTTAATGTGAACATTCCAAATATATCCAAAGGATTTATAGCTGTCATTCCAATATGAGGTACTTTGGTTATTCCTAATTCCATACTGGACCAATATCCAAAAGTAATCAGCATTAGTGTGAACGGAATCCATCTAAAGTAATCCCAAAATCTGTAATTTTTCTTCGGCTTAAATTTATCATAGAATATATTTGTCCACATATGAGCAGACATGCACGCTAAATTGCAATAAGCTCTTTTGCCAAATAAGATAGACGCTATAATTATAGCAATTATTGATATTGAGAATCCTATTAATGTTACAGGGAATATCATACCACTCATCCCAAATATATAAAAGTCTGTATAGTATGGGATTAACCAAACAAATATTGGCATTCCTATCATTATTGCTATAGCCCAATACTTAATTTGTGAATTTTTACTTATTTTAAATCTCTCATAAACAAGGTATATCATTTCCGCTCCCATCATTATTACATAGAATGGCATCATAGTGGTCATCATAATAAGAATATAGGAACCCCAGAAAGTAGCGAAAATAATATTGTGACTATTCATTAATACATCTTTAAAAGACATTATTGTCATTGATAATGGATTCATTGGGAAGATCCACCAATATGGATTAGTGAAAGGACTTCTCATTGGCATTTTCATAGATTCCATGTGATGCGTCATAAAGATAGAGTTGGTAATGTTGAATCCTAGAACGCTTTCTCCAAATCCCATAGTAAGTTCTGCTAGATTTATTAAAATTAGAAAAATGAACGGATATTTTATTCCTATATTAATCTTTCTATCAGAAAATCTATAGAATATAAGAATGAAATACCATATCATAGAAAGTATCATAGAAATTGAAATTATGTAAAGATCTTTATAAGCAGCATAAGCTGAGAGACCTAACATCATAAAGAAATCAAATCCAGCTAGAGAAATTGATAAGAGTTGCATGTTGAAGGATATTCTTCTTATTTCAATTAAGTATAACATTATAATATTTATAATCATAATGATAGATGATACTGTAGAACCTACTAAACTCAAGTAAGTTCTAAATGTCAAAAAGATATTTGGCATAAAGGCCATTGACGCAGCAAAAGAAAATAGAGCAAATTCTCTTATGTTCTTTATAGAGGAAATTGCAAGGAAGAATATAGCATCACTAAGCATCATTATCCCGAAGGCTATATTACTTACTGAAGAAATTAAGGGATTTAATCTAGGGCCAAAAGCAGAGGAAAAGGCGTATCCCATTGCTAATTCGTCCAATACTATTGTAAATGCCAATGTTATAGATGCTACCTTATCTGCTCTCCACTGGATTGATGAATCTTTGAGCTTAACTGAAAGCACTGCTGGAATTGAAGCTAAAAGTAGGCTAATTGGTTCTGAAAATATAGAACCTTTATAGAATATTATATATCCTATATCTGCAGCCTCTACTGCCATATAGAGGAGTATCGAGGAGATGAAGAATATTACTCTTCTTGTTACTAAGCTTCTACGTAGTACATAGAACAATATTATGAAATCAGCTATCATCATTCCAACAATATATACGAGGATTGCTATTTGTAAAGGATTCATAGTATCAAATGAAATAGATCTACATTATAAACTTTTATTTATAAAATGTTAATTTTGCTAAATGTTTCTGTAAATTTATCAGCTAAATAAAATCAAATAATATGGGAATAAATATATCTTTTAACACTATAAGTATTGTTTGAATGAAAAAGATAATAAGAGAGGTAATTTCGTCTATACAAAAAAATACTTCTGGAGTAATTGTACTTCCTGGATTAAATGTTGATATATTAAGTAAAATTTTTGAAAGTATTTCTGGCAAATACTTACTTATAAGCAAGAGAAATGGTATAGATGTTTTACGTAACTATGTAGATGTTTCAAGTAAACCGTTAAAAGGTTATACTAAATACATAATTGATACCGCACATTTTTTTCCAGAATATGCAAATAAAGATGGATATATTTTAATTACGGAGTCACCTACAAGAGATATTATCAATAGTAATATCTTGCGTATATACCACTCAGAAAATTTAATAAAGAAAAAATATCTAGAACCTTTCAGAATAATTAGATACACTCCAAATAAATTACTGTCTCAACATAAAGGGTATAATAATCGAGTAGAAGTTTTGAAAGACATTTCTATAAAATATCCAAATGCAACAATTCTAGCATCCAATTCGATTGAGAATGGAGAATTACAAAAAGAAGGAATAAGTTCTGTTTTAGATATGAATGATATAAATACTAATAACGTAATTTTATCTAGAGAGCTAGAATCAATTCCTGGGTATTTATTTTTGCGTAATAAATTATGGGGAGGGACATTAATAGATTTGACAGATACTACTGAAAAATTTGAAAATTGGGAAAAAATAAGATTAGGTGAATTAGGCTTTTATAATGCCAATAAATATGATTTCGAAGGATATGAGTCATTTAATTTGGAACAAGTTAAAAACTTTACCTTAAAGTATGATGGGGAGAGTATAATTAAACCTAGATCTAATATTCCTAGTTTAATAATTAAAGACAGAAAACTTTTCCTTAAAGAAAAAAATCTAGGCGAGTTTGATACAAAGTCCAGGAAAGTAATTATTAAGATAAATTGTAGATCTATCCAAACATTTGCTTTATCTAAGCTTTCTTTAAGTCCATTTATTTCTCCCTTATCTACTGGAAGATGTAGTCTGCTAATGGCTTGTGTTGAGGTTTTTCAAGATAAGGATTTATGTACAAGAGTAGCTTTTGAAGGATTTCTCAAAATTAGAGATTATATTAGTAACTTATATAGCTCAAATATAGGTAAAATATTGTCATCTATTGTTACAAGAAAACTAATAGTTGATATAACCAAATCTAAAAGAATATTAAGTATAAATATTTCTGGAAAAAATATAGTTCTTGAACTTAATAGGAATGGAAATTATATAACTATAAGTTGTGATAGTTGTTCTAAAAAAACAAAAATAAGAATAAGAGGCGATATTAACTCAACTAGATACATTCTTATAAATTCCTTATATGATATCATCAAAAATGAGATATAGTTATAATATTTCCTAACATGAAATCTTTATCGTTTGTAGAAATTATTAGTTTAGATTTGTTATTTTTTATTAAATTAATCAGTTTTACTTTGAATTCGTTACTTAAATTTGCTTCTGGATCTTCAATGATAAAGTATCCATTTGAAGTTTCTAAGAGAAATTTCAATGGAAATAAACTTAAAGTATCTGGGCTTGCATTATAACCTGAAACATTATTTATCATAATTCCATCGCTTGCAGAAGTTAATTCATTCCCGAAAATATCATAGTTTACTCCTTCAGGAATTACTATAGAATTAATAAATTCTGAAACTATTCCTAAAGTTTTAGGTATGCCTGGAGTGCCCTCATTATGTAATATTAAAAATTTATGAAAAGCAGCTATAAGTCCAGATCTGTTACCAAGGATTATATATGGTTTTAGCTTCGGTATAGAGTTAAAATAGTATGAGTCTAATTTTACTAATCCTGATAACGAATTTTCTACATCGGGTATATCAAGTAATTTTACCTTTACAAAAATATTTTGTGTATCTAAATTTCCCTCTATAGAAATTTTGTCTGTGTTTATTTCGAATCTCATGTTATTGAATTTAATTCTTTCTAATTCCATATCAGATTTTAATATATCAAGAAATTTTATTTCGAATTCTTTTTTCCAAGCTTCTAAAATATTATCCTTAATTGAAATCCCATATAAACGTGGCATTGAATATAGAGTTTTCAGAATATAATATACTGCCCTATCTATTTGATACCTATCTGAAGAGCCAGTCAATGTGACTATTTGATCTTTTATGCTGACATGCTCTTTGCCGTAGTAAATATTGATCTCCATAATATCATAATGGATATATAGAAAGTAAATTTTTAACTTAAATTTAAGCTAGGACTTCATGGAAGTTAAATATTACCAGGTATTTTTAGATTTCGATTTTAATGAATTATACTATAGAGGAAACGAAAAAATAATAATAAATACTGAAGATAAGGTAACGCTAGATCTTGACGGAATCAAGATTTTATCAGTTAAAGTTGATGGAAAAACTGTAAAATATACATTAGATGACCAAAGTCTCATAATAGATTCTGGCAAATTTTCTGGGACTTTAGATATAGATTTTGAAGGAAAAGTTAGGGATGATCTTGTTGGAATATATAAAGCTCCATACAATGGCTCATATATTATAACTACTCAGTTTGAATCCACGCATGCTAGGAAATTTATACCATGTGTAGATAATCCTTCATATAAGGCAGAATTTAAGTTAATTGTTAAGGTAGATAAAGATCTAGATGTAATATCTAATATGCCTATAGAGAGAATTACAAATGAAGGAAGTAAGAAGACTGTAGAGTTCTACAAAACACCTAAGATGTCTACGTATTTACTGTATTTAGGTATTGGGAAATTTGAGGAATATCAACTCGGAGAGACTCCCAAAATAATTGTGGCTACAGTACCAGGTAAAATTTCGAAGAGTAAAATCCCTGCTGATTATGCGCTTAGATTTATTCGTTTTTATGAAAATTACTTTGGGATAAAGTATGTAATGCCCAAAGTTCATCTTATAGCAGTTCCAGAATTTGCTTTTGGAGCTATGGAAAATTGGGGAGCTATAACATTTAGAGAAACTGCTCTATTAGCAGATGAAAATTCTGCATTTAAGCAAATTAGAAGAGTAGCAGAGGTTGTAGCTCATGAATTAGCTCATCAGTGGTTTGGCGACTTAGTAACGATGAAATGGTGGAACGATTTATGGTTGAACGAAAGTTTTGCTACATTTATGAGTTATAAGGCGGTTGATTCTAATTTCTCTGATTGGGATTTTTGGGGAGAATTTATATCGGAAGAAACATCTGGCGCTATGTTAAAGGATTCTTTACATATAACTCATCCTATTGAAGTTGAGGTTAAATCTCCATCAGAGATAGAACAAATTTTCGATGATATAAGCTATGGTAAAGGGGCCAGCATTCTAAGAATGATAGAAGCCTATTTAGGTAAGGAAGATTTTCAGAAAGGTATAAGAGACTATTTAGAAGCTCATAAGTTTGGTAACGCAGAAGGAAAAGATCTATGGCAAAGTTTAGAAGTAGCTTCTGGAAAACCTGTCTCTAGAATAATGCCGGAATGGGTTACTAAAGAAGGATATCCTATAGTATTTGTTAAAACAAATGGAAATAGCATAGAACTTAGTCAAAAGAGATTTATGCTTTCTGGTTTGGAGGATAAGGTATATCCTATTCCATTAACTATAGAGATAAATGGTAAAAAAGAGTCTATTCTACTAGATAAGGATAAGGATATAATTAATTTTGGTGAGGATATAAAGTCATTAAAATTAAACCTCGATAGAACTGGAATGTACAGAGTTTACTATGATAATCTAGATTTATTCTGGAACTCTAATCCAAACCATTTTGAAAGATTTGGATTAGTTAACGATTATTTTAATCTATTACTTTCAGGTAATATACAAGTTAACGATTATTTTAAAATTATAAATCATGAGATGAATGAGCAAAACTATTTACCTGCAATGGAAATTTCTGATCAACTATTTACATTATATCAGATAAATTCTGATAAATATAGAAAAATTGCTTATGACTTTCACTCTTCTATGGTACAAAAATTCGAAAACGCAAAAAGTTCATTAGATAAGTTAGCCTTTGGAACTATTGCAGAGAGATTCATTAAAATAAGTGATGAATATGCGAGAAAGATATCTGAAGAGTTTTATAATTATGATAAATTAGACCCTGACATAAAGGACGCAGTGGTCGAGGCTTATGCTATAGTAAAAGAAGATGAGTCATTAGATACATTGCTAGAGAAATATAGAAAAGAAAAATTTGATGAGGACAGAATGAGATATTTAAAGGCTCTCTTATCATATAAGAAATCTTATCTAGTTGTTAATAATTTGAGTTTAGCTTTAACAGGAGAGATTAAAAAACAGGATGTAATAACAGTAATTTCTAACAGTATTGTATATCCTGAAGTAAGATACGCAGTATGGACATGGCTTAAAACAAATATTCAGTTTATAGCTAGAATATATCAGGGAACTGGAATACTTGGAAGGGTTATGTCTAATGTTATACCTATTTTAGGATTAGGAAGAGAAACTCAAGTAGAGGACTTCTTTAGTAAAAACAAAGTTTCAGGAGCAGAAAAAGGAATATTACAAGGATTAGAAATTTTAAAAGCGTATTCTAAGCTTGCATAGATGTTATTTTTTCTATAAATGTTAATGCCTTTTCTTTGCTTACTTCTTCTATAAAATCTATTTCTTTATTATTTTTAATATCTACTGAAGTAGACGTTATTATAGCCTTATCGTCTGCTACAAGTATAGAAAAACCTGGAGGATTCTGTAATTCTACTACCTCAAGATACTTAGACAAGTGTTGTCTAATATCATTATATTGGCCTTTAATTTTTTCTAATTCTTGTTCCTTTAAGGAATATTCATACTTATAGGACTTTACTTTATTTCTCGAAATGACTACTGAAATTACGATTACTATTATACCTGTAATAATTTCCGTAATAAGGTAAAGGGATACAGTGTAAGTCTTCAAGAAAGTAATAATGCTAATTGCAACAAATATAGTCATGACAATATATGGAAATCTTTCAAAGAATAAAATTCTATTTAATAATGCAGATAACTCTTTATTAAATCTTCTTTCCTCGTCGTAACCATAAGAATTTTTCCTATTTTCTAGCCATCTAGACCAATTCCTATCTGAAGTAATTACCTTCGATCTAACTCCACTACCTGCTTTTCTTTCAATATCTTCAACTATTGCGTCATTTAATTTATCAGAAAGTAAAACTATTGATATAGTGGCTCCATTTATAAACGACCTAATTTCATCATATATATCTTGGGCTACTTTTAGTTCCATTTTGGATCTTTCTCCTAGATTATTACAATAGAAGGCATTAATGGAAGTGCTATACCTTTCTTTCCCTTAATATCTGGTGCTTCTGGATCATCAGAATAATAGACTCTTATCTCATCCACATTGAGTTTATTTAATAAAAAGTTTACATTGCCAACTATAGTGTTAAATTCATCTAGATCGTATTCCAATATTAAATCCTTAATTAGATCTGGTATTTGTTGTAAATTATTTCTTATTCTTATTAGATAGTCAGACTCTGGCAACTCCTTATGTGCTCTTACTGCGTTTATAACATCACGTATATAGCCAATTTTTTCTGGACGTGTTACATAAAATATTATTTTTTCTGATTTTTTATTTAATATACTTTCCATTTTATTTATATAGTCTATAAGATATCTTATATATTCCATTGACATTAATATTTTCTTGTCTAATTGAAAATCGCTTGCGTTTGGAAATGATTCTTTAGATACAAATGTAGAATATCTTGAATGCCAAAGTTCTTCTGAAATAAAAGGAGCTCCTGGTGATAATAGTTTTATCCATGAATCTATAAATTTATTTAAAATATCTTTATTTGGATTTTTTCTAAACTCTAGATATTCTTTTAATAATTCATAAAATTCATATAATATAATATTATACGCTTTTCTAAACTCAAGATTGTCCATAAGAGAAGATATCTCTTTTATTTTATAATGTAATATTGATGAAAACCATATATCTTCGTCTTTAATATCATTGCTAACTTCCATTTTTGAAAAGAACATTATGGTATCATAAATCCTTTTTAATTGATTAGAAATAGAATTTGTAATATACGAGCTAAAATCTGTATCCTCAGATATTTCTGAGGATACTGTTAAAGCCAATCGAATAGGATCTGCACCAAATTCGTTTATAGCCTTGAATAATGGATAGACGTTTCCAAAACTTTTACTCATTTTTTTGCCTCCAACTCTAACAAATCCGTTTATTATAATTGACCTTGGAAGATATTTTTCACCAAAAATAGCAAGATGGTTATATAAGTAAAAGGGCAAATGATTTCTTATTAAATCTCTTCCACTATGTCTAGAATCTACTGGGTACCAATATTCGAATTCACTCTTGATATCTTCTAATATTTTTTTATCTAGTTGAAGTTCTTCAGAAATTTTATTTACATCTCCTTCGCCTAATAAGACGTAATTCCAAAAAACATCTTGGAGCTTTTCGGGATCCTGAGGTAATTTATGGGCTATTGTATAGAAAACTGTATATATAGTTGAGTCACTTAAACTGTCAACTATTTGTGAATTATCCCAAGGTAGTCTAGCGCCTAATCCTCTACTTCGTGAACATGCTCTCTTATTAAGGGAAAATATTACTTTTTCTAGATCTTTCCTTTCATCTTCTGGTATAATCTTTATCTTATCTAAAGATTTTAGGGTTAGTGATTTCCAATTTGGATCATCATAGTTAATAAACAATTGATTCTGCATCATTTTAACTACTATTTCAGTACCGCATCTACAATAAATAGGACCGTTAGATATTTCATAGATATTATCATAGTGTCCCAATTTCTTTAATAACTCTATTATTTTTTCCCTAGCATCCTTAACTGGTTTTCCATTAATTTCATCTTTTATATACTGTTTCATAAAATCGGGTACTAGATTTTCAAGATCATTAGCCATATAGCCCTTGTAATATTCGATTTTATATAATGATTCTATGTAATCTTTCAACTCTGCTGGAGTTTTTGTCCCAGCTATAGAGACTACCTCAACTGATGGTATATCTTCATATTCTGATGTATAGATTATTCTTTTTAACTCAGGCTTAATTCCTGATTCAATTAATGCTAAATAATGTAATGGCTCATGAGAAGGTACAGCCATAACTATTCCTGTTCCTACATCTGGCTCAACTATTTTGTTAGGTATAATATCTAACTTTTCACCAGTTAAAGGATTAATAACCTTTATTTTTAGTAAGTCTTCTAGTTTAATTTCTCCTATTTTTTCTAAATTCATTTGATATGATAATTTACTAAACGCTTTATCTGTTAATATCCACTTTTTAGAGTCCTTTTTAACAATTATGTACGTAGCTTTTGGATTTATCATTAATGCAGTAGCACCAAAAATCGTTTCTGGTCTAGGCGTTACAACAGGAAATAAATAATCATTATTTTCAAAAAGTATTACATTTTGCTTTACTATTTCTGGTTCTATATCTCCTTTAGTATCATGCATTCCTACTGGAAAATTATCATTAGGACAAAATCCTACTGCCTCAGTAGACTGCGAGACATAACCCTTATCCTTAAGTTTTCTAAATTGCCATTGTATAAATTTCTCAAACCTTTTATCTACAGTTGTAAATTCTCTTCTCCAATCTATACTGAGGCCTAATTTTTTTGCAGTATTTTCCATCTCATTCTTAAAATACTCTGCTAACTTTAATGGATCAGTGAATTCTTCCAATTTTTCTCTAGGAATGCCATAGATATCTATAAATTCAGATATTATATCTTTATCTCCTCTTTTTATAGCTTCTGACATAGAAAGTATAGGTGTACCTGTAAATTGGAAAGCTAGCGGGAAAAGTACATTATGTCCTTTCATTCTCATATATCTTGCGTAAATATCTGCAGTTACATATGTTCTTCCGTGTCCTATATGAAATGGACTGTTTGTATAAGGAAATGCTACAGTAATAAAGAATTTAGGCTTCTCATTAGGATCTACATTAAACAAGTTACAAAAATCTTTACTCCATTTTTCGGCGAGTTTGTTGAAGAATTGTTCATTAGACATTACTATTTAATAGATTGAGAAACTTAAATTATATCATTAAATCATGGAATTACTTCTGTAGAATCTAAAGTGGGATCATACTTAAGGTCGCTAAGTTTTATTGATCCTTTTCTTATAGCATTATCAATTTCAGGAATTATAGACAGTACTATTTTTAAATACTCTTTTGTAATATTATCTACAATATTAAATCCTTCTTCTCCCCAATATTTTTCTTTAGATGCATAAAGACATCTTCCGCCACAGTACCTATTATATTCGCAATTTTTACATATTTCTGGCAAGGGATCTTCCATTAGTTTGAAACCATCCACTGAACCTAATTCAGCCCACTTTTCTCTCACAGCTATAGGGCAAGATAATACTCTTCCATCAGATGTTACAGTTACTGACTTATATCCAGCTCCACAAGGAGATCCTTTATAACCTTCAAAATAATGAGCGGAAATTACACCTAATATAGGTATTATCTTAATTATTTTTCCTTCCCAAATTTTTTCTACAAAATAGTCTACCAATTTCTTTATTCCTGGTATATAATTTTCTCTTGCCCACCTTTCCACGTTCCATTTCTCTGTCCATATTACGTTTAGTTGCCAATGTATTTTGTCATATAAGCCTAAATTTATCAAATGCATCACCTCCTCATAAATATCTGAATCTTCAGTTACGGTCATTCTTGCTATAGTCTCTATTCCTAAAGATTTAAGTAATTTTGAATTTTCTGTGACTACTCTATAAATTTTTTTTCCTCTATGCTTGTCTGTAATCTCTTCTCTTCCATCTATAGATAATAACGCTACGTTAATTTTTTTCCAATACTTTAGAGGTAAAATTCTTATTAAAGTTCCATTAGTTTGTATACCTATTCTTTTAGCTCTCACGTTGTCAATAAAGTCCATTATAAATTTTGGATTATTAAGTGGTTCTCCACCATAAAAAATTACTGTAGGGTTACTATCATTTTCTATTAGTTTTTTAAGCTTATTTATATTATATGTAGTCTTCCATGGTACTACGTCTTTTGGGAAAGATCCACCACAATAATCACATATTAGATTACATTTCCCAGTAGTCACGAGTAGCCATAACATAAGGGTTAAAGGTTTATTAGACTAATAAATTCTTATTTAATCTTCAACTTTTCTTAGCAAAAACATTGGAGTAAAATATATTATCTACATTATTACTAATAAAAATATTAAATGAATATTGAGCTAGTTCGGAAAGGTTTACTTTATGTAGGGATAGGTTTGGTATTACTTAGTGTAATAGTTGGAGATATGTTTCTAAATGGAAATATGACAGCATCGAATCTAGTTCTAAATCGTAATCAGTTTAGTACGACTTTTACATTTTCTGAACCAGTAGCAGTAGAAGTTCATTCTGAAGCAAACGTAAATATAAAAGGAGGAAACGTATATACTGTTGGAAATAATTACATTGCAATACCTACATCTACTGAATTATTATTAAGTATAAAAAATTCTACATCTAGTTTTATATCAATAAATATATTTAAGCTACCGTCATATATCTATATGATATTTTCACTTATATTAACTGGAGTAATGTTAATAATCATTTCTATAATTATTATTATTTATATTAAGTTTAAGAATTTCTGATAGAATCTAGAATCTCTTTAGTTAATTTCAATGCTATGTCTTCCTGTGCTTCTTTAATTCTATAATATAATGATAATGAAACTAGAAGTTTATTTAGGGCCCTACTTAATGTGTCTGAATTTATAGGTCTCTCAAGGTGTGTTGCAATTCTTAGTTCATCATCAAGAGTTATAAATTCTATACCTTCAGAATTCAATAGATCGTTTACTATATCTTCTCCGTTAAAAGGAAATAAATTTAGATCGTTTCCTGTAAAAATCTTGTTTCCGTTCAAATGTAATGTTATATATTCTCTCCAATATTTTGGTTTATATAATATTTCTCTAAATTTGTCGATTTTACTAATTTTGTTTGAAAATGCATTCAGTAAATCGTCTGGAGCGTTAGTAGGATATATTAGAATCGCATACGTATCGAATTCCTTGCTAATATAGCTTCCCTCTTTTCCTTTTAATATGCTCCAGTCATTTTCATATGTTATTTGATAGTTTGATATTGATTCTCTAAATGCATAAAGATTGAAATATATCTCAATTATAGCTTCAGCGGTGGTCCTCTCATCATAATTCATGTAGTGCTCGACCTCATCATTTACTCTAGAATAATATATTCAGTCAGTTTAAATATTATATCATCCAATCCAAGGGGTGGAACATCATCACTAAATTGCATAGACTATATTAGGGGTTTGGGCTTCATAGGATTTCATAATATTTCATATCAATCCTCAGCCCTTGGGCTTCACCAGAGTCACGGGGAAACCCGTTACCCCTCCGCCCCTTTAGCGGGATAACCCCAACCCACACCCGCGGAATATCACGGATGCGGGGAAACCCGCACATCTTGAGGTATATGTTGAGAGATGCGTTCAATTGCCTATCCAGAGTGAACCCACACCTCTCACACCTAAAAGTCCTGCCGACCTTTCGGGAAACCCATCCACATCTGGGGCAGGACTTGGAAGTGAGGTGCGGGTCAACCTCCTTAACGAAAGAACCATATAAGGGAGCCTTGTATTTAAGCACACGGTGAATTGTCCTCCACACAGTCCTTGAAACCTTCTTAGACAGCTTGTCATCAGCGTCTTGGAACATTGACTGCTTATCCAACTTTTCAACAGCAATCAGAGTGAGAGGATACATTTCCAACAGTTTGTTCACGAACTTGTGAACATAATCCAGCACACGATTCCTCTCCCTATGAGAATACTTATTCATTAACACCTTCCCCTTCCTACCGTGTTTAGAAGCAAAAGATTGTATTTTACTCCTCTTCAACTCCATACCGTACTTCAAACTATACAACTCCTTCAAGGAGAAAGTGACGAACTTCTCCCCATCGTAAGCGTCTAATGTGTAAAGGTTACTATCAATTGAGAGAAAATCTATGGGAGTAAACCAAGGTAACCTGTAACGGAACGGTAGGTGAACTCTATCCTCCTTAATTATGGGCTCACACAACTCAAGCCCTTCAACCCTTCGTGAAAACCACTTGTGAGACCATGAGAAGGTGACGTATTCGTGAGGTCTTACAGTAATCCTAACGTCTTCGCCATCAACCTTCCTCAGAGTAGACTTTACCCTAACGTAAACCTTCCTCAGTGTTGGTTTCCTTAATGACGCTTGCCCCTTCTCAGCCCTCCTCTTCCAACTCTTCAACACTGAGTAAGCGTCATTTATTGCTTTGTCCACGTAATGTGAAGCTAGATTGTTAACCTTCTCAAGCTCATCCCTCAACTTCTTGTAAACCTCCTTTTTTTTAGGGAGAGTTATTTTAACCTTAGCGAAAATTTTCTTACCCTTCTTGACCTCCTTCCTCTCTATCCTAGTCTTTTCCCACAGATAGTCTAATGCCTTTTGCAGTAGGGCTCTGTAATTCTCCAGTAGTATTTTCGTCTCCTCCTTCTTATCGTTCTTCAGGGAGTAAGTTAGGTAGACGTATTCCTCCTGTGGTTGGAATGATTTAAGCCTTAAGTTCTTCGACACACTTCTTCACCTTCTCTTTCCTCATTCCTTGCAATTTCTCGCTGAATGATACTAGGATTGAGATTAAGTCTTCGATTAACTCTTGTTCTGGGGTTTTGTCCTCCTTGTTTAGCACCACGAGCTCGCAGTTGTGTGCTTTGCACACCTCTTCAATTATTTCAAAGCCGAACATTACTAGTCTGTCTGGGTAGGCTATGACTATTTTTGATACTTCGTTATTCAATATCATTCTCAGTAATTTGAGGAAACCTTTTCTCTTCATGTTTAATGAAGATCCCACGTCTGTTATTACTTGGTCGTAGTCCTTAACGTTCTCCTCTAGGTATTTAACTTGGTTTATCAAGTCGTCTTTTTGTGTGTTTGATGATACTCTAGCATAAAGTATCACTTTCCTCTTCCTAACAATCCCCATCAGTCTTTCTACGTCCTCTTCTCTGAACCTCCACTTCTCGCTCTGTAATACTACTGGTTGAATGTAGCCTTTCTTTACGTATTCTCTGAGTGTTGCGTATGAAATTCCTAAGCGTTGGCACACTTCTTTAGGTCTTAGCATTGTATAAAAGTTTATGATGAAATAATATAAACTTTACGGTTTATCTGAAACTGCTAACAACGGCTTTATTATATATAACTAAGTATTTATCATTTTTAGCTATTTGAAGTATATTCTATGGAATTTTGGCCAAAATATTTAAGATGACTAAAAGACATTCTCTATAAACCTTTTTATTTCTATAGAGTATTTGTTAATAGGCCTAAATTCACTTGAAAACCTTTTTTTATCTGAATAAACGAAGCTATTACAATCTGATGCCCATAAAATTTCCTTTTTATTAGAATTTAGCCAATAAATTAAATTAAAGCAGGAACCATTTTTATTTTTGATGTATATTTTTAATTTCCTTTCAGTGTTGAATCCTGGTTTATCTTGAAGGAACTCTTTATTTAATTCTATTTTTAACTCTTCTAATCCAAAATCTATATATTTCTTTGGTTCAAATCTAAATTCGCTCATGTCAATAAGAAAATCTTCAATTATAGATAATGGTATTTCGTGAATAATATGAGTTTTATTTACGTCTTCTTGAGTATTGTTTATCATATTATTAACTAATAATTTTATTTCTTGTATGGCTTCACTATCCTTTTTTACTGAAAGGTTATTGAAATCATACAATCTTCCATTACTATAATTAACTCTATGATTAGGATTAAAGATATTAAGAATTAATACATTATTATTCCAAGTTAGTTCAATTATATTTGATCTACTATTACATTGGAAGTTTATAGAAGTTTCACTACAATGGAAAGAGAAACTAAGTTCACTTATCCAGGTCATTCTATACCACTAATTTTTGTCTCATCGTTTCTCAGCGCGGATTCCCAGAACATTATTTCAAAGTTAATACTATCGCGAAATATAGTATTGAGTTCTTCTTTATAATCTATAGAATTTAGCGAGTCTAATATTATATCTATTCTGCTCTTATATTCATCAGACGCATAAAATTCTGCCCATTTTTTATATATATTATTTGAAGTATCTATTACATATTTTCCAATTTCGTAATATCCCCACATACATGGAGCCCATGCCGCTAAAAATTCTGCCCAACCTATTGTTGAATAATAATATAAATGTCTAGTATATGCATAGTTAACTAGAGAATATCCAGTTTTCTCTATTTCTTTTTCAGTAATTCCTAGTTTATCTAGTAAGAAAGAATGAACTTCTACTCCTTTATCTCTAGTTTGAAAAATCTTTGTAAGTATTTTAGAGGTTTGCTCGATAGGACCTAAAGAAGAAGCCTTTATCAAACTCTTTAACATTATTTTAACATATTTTGAATCCTGAATCAAGTAATATCTGAAATTCTCCAAATTGAGTGTGCCATTTCTCATTTTTACTACAAAGTCATGTTTTACATATCTTTCCCACAATTCTTTATTATTTTCTTTTAATTTATCGCTTATCATATTAATCTCACCCCACCATCTACTGGTATGACTACACCATTTACCCATTCTGCTTCTTCAGTCATTAACCATACTATTACTCTAGCAAAATCTTCTGGAGGTGCTTTTACATCTCCAAGTTTTCTTAGACTTTTCCAGTTTCTGCCAATTTCAAACTCCCCATAAATCCAACTAGGTGCTATGCCCACAACTCTTATTTCCTTTTTTATTAACTCTGAAGCTAAAATCTCTACTGCTTTTGCAGTACCTGCTTTAGATATAGAATAAGATAGCTGATTAGGTAGTGCCTTGTCTATACCTCTTAGAGCCGATACTAGAACTATAGCAGAATTTCTATTTAGATAATTCTCTGCAGCAGATACTATATATAAAGGCAATTTAATATTATTTGTTATCATCTCATCTAATCCTGATAAATTTTCTATAGTATCTTCAATATATCCTCCTATAAGTATGGCTAATCCATCTAGCTTTCCTAGTTTATTAAATGCTTTTTCTATGATCTCTTTTGCGTTTTCTTTAGATGATATTCTTCCTTGCAAATAATCTATAGTTCCATACTGCTTTAGTTTTTCTGAAATTTCTCTCAATTTAATCTCATTACCTGAATTTATTATCACATTTGCACCTTCTTGTAACAAAAAGTATGCTAAAGCGTAACCTAATCCTTTGCTTACACCTATTATTAATATATTCTTGTTCTTGAGTCTCATTAAAATCACTTTATAATTTAGTTATAAGAAGTCTCTTTACATCTTTCTCTTCAAAAATAGGTAAACTACAAGTATTTCCTATGCATATAAATGCTCGACTTTTTCCTTCAGACTCTCTCATCATAGATCTTATCAGACTGTTAACGTAATCTTTGTCATCAATACTTACCTTTTCTACAGCCTTAAATGGATAATACGTTAATATAGCTTCTTTATGCAATTTATTGGCATTTCCATCTTTCTCATCTATTATAATAATATGAGCTCCACCTTTTATATAGGAGCCTAAAGTTAATAACATTCCTGCTGTGAACGATGGATCGTCAGAGTCTGAAATGGAGCTTTTAAGAGTATTGCTAACGTTAGTATATCCCATTAGTTCTAGCTTGTACATTCCTTTTAATAAAAGAGATATTGCTGATTCGTTGGGTATATCGTTTTTTGGTATATCGCCTTGAGAATCTATAAAAATATCATTGGCCCTAAATTTTTGTAAAGAATTAAAAATATCAATGGCCATATCCAAATATTTATGTTGGGATGTTACTTCATAAGCTACTATACTTGCATTTAACGCAGATGCATAGTCTTCTATTAATCCGTCTTGACCGCCTTCTAGTCTTCGCGAGATTTTTTGTAATTTATTTACTATATTTAATCCTTCATTTAATCCTTTTCCAGAAACCATAGAAGATAGAACTAAAGATTCGGCTATTCTACAATTAGAATACGTATATTTATTGTCATCTATATTAGGCATTTTTCTAGAATTTAATCTATATTTTAATAATTCATCTCTAATATTACGTAAAAACGATATAGTTTCATTTATACTCAAATTCAAAAATTTTGATATATCTCTCATATCGTAAGCTAATCTAAGTACTTTTCTTCCCTCAACTTCTCCTCCTAACTGATAAAATCCGAATATTTTCTTAGCCTCTTTAGATTTTTGTCCAAGAGCTTCATCAAATTCATTCTCTGTCCACGTATAGTATCCTCCTTCTATTCCATCGCTATCAGCGTCTATGCTATTAGCAAAACCTTCACCTAGATATAAATCTCTCAAAACAAAATCTACGGAAAGATCCAGCGCGTCTAATATTTCTGGATCATTTAATGCTATATATTCATTAAAATAATCTAAGATAAGTTCAGCATTATCTATAAGTAATTTTTCAAAATGTGGAACTAACCATTCACGATCAACAGTATATCTATGAAAACCTCCGCCCACTTGATCAAAGATTCCGCCATAATACATTTTTTTCAAAGTATATAGCGATAATTTTTTACCTAAATCGTCACCTGTCCATGCGGAGTAAGCTAATAGGAATTCATCAATTTTAGGATGTGGAAATTTCATTGAATTACCTATACCTCCATATTCTATATCATAAGCTCCTACAATAGCAGAGTAAGACGATGAGATTAAATCGAAGTCTAATTTAGTATTTCCTTCTTCTATATTGAAATGTCTAATTATAGAAATGGAAGACGAATTTATTTTGTCTCTTTCATTTTTCCATATATTTAGTATTTCCCTTAAAAGTTTTTTAAATCCAATCCTACCGTAAAAGTCGTCTGGAGGAAAATACGTTCCACCGTAGAAAACTTTCTTATCTGGTGTCATAAAAACGGTTAAAGGCCAACCTGATTCACCAGAAATTGCAAAAACAGCATTTTGTAATGATTTATCAAGATCTGGTTTTTCATCTCTATCTACTTTTATTGCTATAAAATTTTCATTTATTATTTTAACAACATCTGGATCCTCATAACTTTTATCCATCACGTGGCACCAATGACACCAGGAAGCTCCAACGTCTACTATTATAGGCTTATTTTCGTTTTTTGCTATTTCAAAGGCTTCTTCAGTCCATTCATACCAGTTTATTGGGCTATTAATGGATTCTCTTAAGAAGGCACTTTTACTATTAGCTAATTTGTTCATTAATTAGACTTTTATCTTGAGAATTTAAACATAAAAATAAATCTCATTTATTTCTTTTATTAATAAGGTATATTGCGCCTAGTATTCCAAAGAAAGCCAAGCCTGCAAATTCATATTTAGGTATTGTAATAGGAGTTCCTTTATATTTAGAGAAGATAGCTGTTACAGACGTATTACCGTACGCTATTATCCAGTATCTTGGATAATTAGATAAGTTAGACCACGAATCAAAAGTATAGCCTTTAGATGCTTTTGGCTGCAATGTTAAAGTTGTTCCTTCAATTAATTTTAATTCTGTGGATTTATTTATAACAATTATTGATCCATTATATAATTTTGCAATTATTTCTCCTGGTCCATCTATACTCAAATTAAGATAAACGTAATTTGGAACTAACGATACATTTAACCATGAGACATTGTTTGGATTTATTTGAACTACGGATGATTCATTATTATTTATTTCAATATTATAACCAATGTCATTGGTATAAGCAAGAATTGTTACGCTAGAATTTGGAACTTGTACTGTGGAGTTTTTATTTAAACTTAAGATTGTACTGCCGTATTCTACTATTACTGTAATACCTTTGTTAAGTATTCTTACATGGATTGTACTTGAACAAGCAAGTGTTGAGAGTAGCGTAACTATAAGTATAATAAATAGCAAGTATCTCATGCTTTAAAAAAATGGTTAAAAATGATGCAGTCTTTTCCGAAAATTAAATCTTAAATACATTATTGCTAATAGTTTATCCTGAGTGTTGATCTCGACCTTATCTGAAAAATGATGATAGGTTGTTCGTCTGAACTATAAGTATTATGAATGATTAAGATATAACCTGTACTACCACATCATTTTCTGTGAAGGTAATACTAGGAGTTCCAGATACGCGAATACCAGTTTGGGAATTAAATTCTGCAATAATGATAAATCAACGTTCTTGGTCTAAAATTCCATGGGATAATGAAACATGGGTGGATAGTGGCGGATATCAAATAATGAAAGGAGAAAAAATTAGTCTAGAAGAAGTTGTAAAAAAATATCAAATTTTAGACGGAGATCAGTTCATGAGTCTTGATATTCCATCGTTTTGTGGTCAAGTTAATGAAATTAATTTTAAAAATTTTGAATATTTGTATGAGAAGATAAATGTAATACCAGTTATTCATGCTTACGATATTGATAATATAGACAAAGCTTTAGACTTTTACAAGAGATATTCAGATAAAATAGCATATGGGGGAATTGTTCCTCCTTCTTTAAAGGGAGGTAGAAAAATAGTTACTCTAATTTATCATTACTTAAGGCGAAAAGTTAAATACGTTCATGTTTTAGGGGCAGGTTCTCCTTTTATGAGAAGGATATTTTTTAACGCTGATAGTGTAGATACAGCCACTTATAGAATTAAAGCTATGAACGGTTTAGTGTTAATTCCAGGTAAAGGAGAAAGATACGTGGGTGAAAGGAAAATTTCTTGGAAAGCTAAAAGAGCTACAGAAGAAGAAATTGATAGATTGTATGATTTTTTAGATAAAACACGTTTTCCGTATTCTATAGATTTGCAAAATTGGAAAAATAGAGCAATAATAAATGCATGGACTTTATTGTATTCAGAATATGAGGATGAGAATTATAATATATCCTATTCGGTAGAGGTAAGTAAAATGGGCGAGGATTATTTAAGAAGTAGTATTGAAGATATATGTAAAAAGGCGCAAAAAATTGAATTGTCCTCCGCTTAAGGGAGAGAGAGTAATAAAAGAAAAAGGTAAAGATCCTTTCAAACATCCAGTAGTAATGGAATGGCATCAGTTTTTTATTAAGAATTGGAAATCTGATAAGGAAATAGCGTTCTTATTGCCATGTACATCAGTAAAACCATATAATAGGTCTCCAACACATAAATTAGCATATTCTATAGCTAAGAAGTTTAATTTGAATTTGCAGTTCTATTCTGTTTCTGAACCAATGCTATTAGTTCCACGTGAATATGAAAATTGCTATCCTTTTAATTCCTATGACTATCCTCCTAATATGATGACAGAAGAGGAAAAACAAGAGTTTATTAATTTATTATCAGTAGCTCTTCAGAAAATTGCGGAATTTCATAATAGAATAATAGCAGTTTTACCTAAACATCATTATACTATAGTGGAAAAAGCTGAACAGAAAGCTAATATAAAAATAGAACTTCATCCATATGGCAAATTAGCGTTTAAAACAATTAGCGACACACTTAAGTCTATTAAATAATTTTTCTTATTCATTCTAGATAAAAATATAATATGCTATCTAATTATGTTTGGTTAAAATTTTATCAATATTTATATTATTTTCATTAATTTTTATATTAAGTAGACTTTAAAGAAACTTAAACTATACAAGTTAGAGAATTTTAGGAAACTATTATATATAGAAGCCTATTCCCTTTAAAATAAACAAAAATAATACACTAAGTATGTTAGAAGATGGAAAAACTGTAGGAATAATACTGCAAAAAGGTGAAGCTAACTCATTACAAGCTGTAATTAATCCTTTTGAAGATATAACTTCAGGGCAATTATTTATCTTAAAAGATAACGATAAACTATCACTAGGTAGATTAGATAGTTATGAGTATATAAACGAATTTTATGATGAAAAAATTCCAATGTTGAAATCTTTAATTGGAGATAATAATTCATTTGAATTATTAAATATGAATACTATAATAAAAGGATCTATTAGTATAATAAAAAGATATAACCATAATTCTACTCCTAAGCCTGGATCATTAGTTAAATTATTACCCGAAATAAATAGTGAAATATCTTTAATGGAGTTCTACGGTATTTCGGATATTTCTGGGAATATAAAATATGGAAAATTTGTCGGTTCAGATATTCCATTGTTATTGGATTTAAACTCTATAACAATGCATGTAGGAATATTTGGAGAAACTGGTAGTGGTAAAAGCTATAACATGCGATATCTAATTTATTTGTTGTCTAATATCGAAATCAAAGGCGTTAAAACCGCTCTTCCATTGGTAATAATTGATGCTAACGGAGACTATTCTGACTTTGCGTCAATTAATTATTCGGTAGTTAAAGGAGGTAGAAAGTGGATAAAAAGATTCGTAATAAGAGATCCTATAAACGATAGTGAATCTAGACTTACTATAGATCTTTCTTTATTTACGCCAAAGGATTTAGCAGATTTTATAATTTCTTTAAAATTTAGTGGAGAATCCTTAAACTCTCTTCAAAGTAACTTACTAGATTTCATTTTATCTAGGCATGATATAAAGGAATATAACTTTTTGCTTGGAACTGACGAAGGCATTGAGAAGCTAAAAAGTGAATTTCAGGATCCTTCTCTAAAAGAAATAGGGTTTAGTTATGGAACTTTAAGGGCTGTATTAAGTGCATTAGAAATTTTCAGATCTAAAATGATTACAAAATATAAGCTCGTTAGTAATACTTCTAGTATTAATGAATCAGTCTTAGAGTTATTATGGAAAAATAAAGGGATGCTTATAATTGATTTTTCTGCTGATGGTTCTCCTGGAGTAGATATAGCAACAAAACAACTAATAGTAAGTTATATTTCGAGGCTCATACTTAATTATTTGACTAAAACTAAATATTCCGGATCTCAAAAACTTATAGGTTTTGTAATAGAGGAGGCTCAAAATTATATTCCTTCTAACGATTATCCAGTAAATGCCAGTATTACCAAAGATACGTTAGTCACTCTAGCGACTCAAGGTAGAAAATTTGGTGTTTCATTATTCCTGGTTAGCCAAAGGCCAGCATTCGTTGATAAATATGTATTATCTATGTTAAATACGTTCTTTTTCCATAGAATATACCATGAGGACCTTAGATACGTTATGTCAGCATCAGGGGGTTTACCAGAATCCTTAGCTAAATCGTTACCTTCATTAGATGTGGGTTACGTTATTGTAAACGGATTAATGTCAGAGCTTAAAGTTCCTGCACTTGTGAGAATACCTTGGGATCCTAGGTTAGGATCATACGCAGGTTCTGTAGAAAGAATTGATAGGCTACTTATTGGAGAATAGATCTAAAATGACTTGTAGTTACAGACTAAGTGAAACTTCTGCTGACAGTGAAAGTATTTATAAAATTTACAAGTGTGTTATGTCTAAGACCAAATTTACAGATAAATTAAGATTTTTTAGGCAAATAGGAGAAGAAATTATAAGAATAAAAAGTTCACGTGAATCTCCAGAGATTATTGTATTATTGGCAGACTGGGGTCAAGGTAAGACTACATTTCTGAATATAATTGAAGAGGCGTTACTTGAGGAAAAAAGAAGTATAAGCAAAATAAATTTCCTAGATATATTAAGAGATTTACAAAAATTAAATGAAATAGAATTGTCTGATATCTCTTTAATAGATGAAGTAGAATCTGGAATAGATTTTGCAGTTTATAAAGAATATTCAAGCTCTATTAGAGAGTTTTGGATTTTCATTAAAAATCTTGCAAATTCTAAAGGGAATAAAATAATATATCTTTCTATGACTCCAAGTGCGTTTTATAAGATATTCTCAAGCGGCGGACAATTAGGTATTATGTTTCCTGAAACATATTATTCTTTTTTACAGAGAATAAAAGTTATAAATATTAATACACCTAGTAAATTGGAATTTTATGCTATGTTAAGCTGTTTATTGGAATTTAATAATAAAGACGATAGTCTATTAAGATTTATGGACCTACCTTTTTGGACTATATCTCAAGAGAGAAGAAAGTATGCTAGATTTTTCAATGATATAATATGTAATTCATTTAATTTTGATAATATAATGGAATACTTATTCAAGTCTATTAAAGATTCTAAGTGGCTCAATGAAGAAGGAGAAACAATTAGAGAAAGTAATTTGTTGAATTTTGAAAAAAACATGGATATAGACGAAATAGAAAAATTCCATAGAGCGTTACTTAGCAGAATCTTATACAGAGATGAAATAATAGCTAAGTTAAGTCCATACGTGGTTAAAGGATTTACAATAGATTATGATTCTTGGGTTGAAATAGCCGGTCCTACTAATATTGATGATTTCGTTTTAACTTTTTTACCGAGTAAAACTTTTGATGATAGTCTTAAGGTTTTTGTATCTGAAGAATTAGATAAAATTGTTTATGAAGGATTTAACAAAGATGACTTAAGAAAAATATTAGATAGATTAAAAATTAGAAAAATTGATGAAGCATATAGTTTGAGTTGGAATTTCTTTGAAAGTTTAGTAAATACAAACGTAGGCGGTTTAGTAATAGATTTTAAATCTAGAGAAATAAAGGAAAAAGCTATAAAGTTTGTAAACGAAAATCTTATAAATCCAGAAAGGGAAATTGATGCTTTATATTCATTTATAAAGTTATTAAATAATAATTCTGAAGAGAAAAATATTTCAGAAAAAATAAGACTGATATCTCTACAATTAGATAGAAAGTATTCTGTAATTGTTGCTAACATAGCAAATGAGAGTGATTATACTAGATTGATGAATATATTAAATTCTAGGGAAAGAATAATTAATGGGTTAATATTGCTTTTAAATGATTTTATTAAAAACAATGATGACATAAGTAAATCAATAGCTAAAGAGACAGATAGACTTTCTATAGCATTTTTAGCGCTTGATCTTTCTACTCCAATAAAGAGGCAACTACTCTATTTGAATTTCATGGACATGCATCCGCAGTTAGTAAAACTGAGAGAAGACATAGTAAATCTAAGATTAGGGGATTTGAGAGATAATATTTCAAGACTTTTAAACGAAATGAAATCCAAAATAGAAGTTTATCAATTACCAGTAGCTAAAGGAAATAAAAGACCGTTACAATCAGTTAATTGGATACTTTTTAATGATGATATATATCCTGATAAAGTACGTAATGTATTTTCTAAAGTAGATGAGCTAGTTAACGAGAAGTTTAGGATTTTTGGTTCCAAACAATTTAGCCTGGAAGATATAGAGTCTGACGAAACTCTGAAAAACGATATAGTACAATATATGGCTGAAAATGAAATAATAAATGTATCAAATGAATTAATATATTACGATGACTTACCTGGAAGAATTGTTAAAAATTTCACAAAAAATCTATCTGGTTATCTTTATCAAAGGTTTGGTAATGAAACAGAAAATATGATCTTGGAGTATCTATTTTATCTTTCAAAGCTCAGAGACAAACAACAATTGACAAACATAAGTAAAATATTTGATACGAAAAAACAGACATCATTAGATTTCTTAATATATATGTCAGTAGTAAGCGGGGAAATAATTAATTATATAGATAGAAATAAAGTTATAAATAAAATAGAGGAACAATCTAAAGAAATATTAAATAATATACAAAACATTGATTTACAGCACGGCTATTTTATTACTGCTAAAAAAAGAGGCGCGGGGATAAGAAGCTTAAAAGATATGAGGGATTCATTAGTTAAGTTTAGGCAGAGCGCTATTAGATCTTTGGAGCGTGAGGATTTTCGTAATTATATTAGATTATCTTTTGTATTTTTTACATTATATTCACTATATAAAGATTTTATTGATGAAACAGAATACTCAGAAAATATAGTAACTAGTATTAAAAATGATATGAACACTAAAATCAATCTAATAAATTCCGCTAGGAAACTTATTGGAATAAAAGATAACATAGATGAAGAAAAAATTCTAGTAGAGATATTTAATTCTTTAGAATCTAATTTTGAAAATTATATTTCAGATATCTTTATCTCTATTGATATATTAACTAAGAATAAAGAAATGGATGATTTAAGGAATTTTATTCAAATAATACAGAAAAACTTTAATAATGAATATAACAATTTATACTTAATAATATGGGAAGCTATTAAATTGAGTCTAGACGGAATAATTTTACCATTCCCGCAATCGTTTAGAAATACCAAATTACATAACGATGCTTTAAGGTTAGTTGATATAGGAGGCAGTTTAAGAAGGCTTAGTAACATAATTTCAGAGATAAGAAAGATAGATCCTGAAATATCTAAATTAAGGGAAGAAGTGATAAGAAAGAAGGAAGAAGTAAACAAGTTAGTTAATACATTAGAGGCGAAGATTAGTGAATTTAACTGAATTAGTAATGGAATTAGAAAATTTTAAAAATAATTCAAGCTGGGATAAATTGAGAGATGAAAAAGAGAAGTTAGATAGTATATTAGTAAAATTGCAAGATGCCAATAATATAATTGATAAATTAAAAATTAATATTGAGAAATGTAAAAAAAGTGATTTAGAAGAAATAAATTTAGAAATAAACTACATCTTAAATATACTTAAAAGTAATAATGGTGATGCAATAAGTATCTACAGTGCAATCGAAAACGCTTATGAAAGATCTGATAAATGCATCAAAAAAATGAACGAAATTAGGTCCAAATTAATTATGGAATATACTAATAAATTAAAAGAATACAATAACAAGATCTTTATATATTTTAGACTATTCAATAATATTTTAAAAATTAATATAGATATATCTACTTTTGAAATATCTGATAATCTTAAAGAACTAGAAAACGAGATTAAAGAGGCAGAGAACGAACTTAATATTCTAAATGATAGATTAAAAGAGGAACTAATTAAGTCCAATTTAACACAAGAATATGCTAATCTATTGTTAGAGTTTTTGAATGAGGGAGAAATAGTAATCTCGAAAAAGAATTCTGATAAAATGCTTAAGTTACTAGAATTTTTGCTCTCAAAAAATATACCAATAAAAGTGAGAATTTGAAGCCAGAAGAAACGTTCAAGAGATTAGAAGATTTAGCAAAGGATGAGACTGAAAAATTAAGGAAAATAAGTATTATAACAGATTATATTGTAGACGAGATTACTTTAGGAAATATTGATCTAGATATGGAGATTGCTGAGCCTGAGGTTAAGCAACATGTTGCTACTAGCGTAGACGGAAGTATGTATCAAGTAGATATAGGGGATATATATTTAATAATAGCAAGAGCAGTCAAGATAACTGGTATATATTCTCAAAAGCGGGAAATTCCACCAGAAATATCAGAGGATTTCAAGATAGTTAGCGATTATTACGGTATAGATACTGCGAAAAAAGACGCTATACTTCTAATGCTAACTCTTGAAACCAACTTACTAGAATCATGCAATAGTGATATAATTTTTATTGATGGACCTTTAGTAGACCCTCCAGTTTTTAGTGACCAGATATATGGTAAAAATATACTTGAGAACTTAGCTTATCGTAGGAGTGAAATATTTAATAAAAATTATGATAAGGTAGTAGGAATAGTTAAGCGTTTTAGTCAGAGATTTATGATTAATTATTTATTATCAAGTGGATATTCTCAAATTGTAAATTCTATGGAAAGATTTTTCATTAGTAATTTAATATCTAAATTAAGGAATAAGAAAGGAATTAAAAATAACGTGCCAATTATATTAGGCTGGATTAACTGGGATAAAGCATTTGAGGGATCAGTTATCGACGATTTAGAGAGTACAAAGATAGCATATTTAAAATATAGAGAGAAATTAAACTATAGTATTTTCTCTGCATATTACCAATATGATGTAATCTCGCCAATAAGTAGAGTTGATGTTTTAGGCTTAAATTATCCATATAATTTACAAAATTTTATTACTGCATGGGGAGCAAGCGGGTACTCTGAAGTTACAATATTAAATAAATTAGCAGACGATTTTTCTGAGATTTCTAAAAACGAGGCAAACGCATACGCTAAGCTTTTGTTTTCAAAGATTAAAAGAGATATTAATCCTTCAGATATTGTGATGATGAGGAGATCACCAAATGATCTGTGAGTAGTCCTAGTCCAACTGAATTTTTAAACTGAAGGAACTTTACTTTTAGTTTAGTAATGGAAGATAAAATAAGTCTGTTTACTGAGGCAATTAAAGTAATATTATTTCAAAAAATACAACCAGAAAGAGCCTTTGATATAGCGTTCAAGAAATTGAATTTTCAAGGAGATAGAAGATCGTTATATTTAAGTTTCTTAGACATAATAAAAGGTTTTCAATATGTATCTTATATTAATCCTGAATTATCTATAAGAGAAAAAGTAATAAGAGCTATAGATTGTGATTATGACCCTTTATATTCATTTCCTAATTGGATTCTTGAAAGGCTTCTTCCTATACTAGGTAAAGACGGCTTAAGAAAAATCTATAATAAGTTTTACTGGATACGTGTTAACACATTAAAGGCCGATGTTGATAAAGTAGTGAGAAGCTTAGAAGCACAAGGATTCACCTTAGTTCAAGACGATTTTCCTTTCTTATTCAAAGTTGACAAATGGTATAAGATATCTAAGACAGAAGAATATAAACTGGGTCACATAATACCTCAAGATAAGGCTGCGGTACTTGCGGTTAAAGTTTTAGATCCTAAACCTTACGAAACAATTATAGAAATAGGTGCTGCTCCAGGGATAAAGACTTCATTAATTCAACAATTTACTGATAACAAATCAAGAGTAATATCTATAGATATTTCCAGTAAGAGGTTAAAAATTCAGCAAGAACTTATGAAAAAATGGAACGTGAAAAATGTAGAATTAATTCAAGCTGATGGGACTAGATTTCCTGCAATAAAAGGAGATAAGATATTTATAGATGCGCCTTGTAGTAACAGTGGAACAATTAATGCTGATCCATCAGTATATATGAGATTGACGAAATCGGAATTAATGAGACTCATACAACTTCAAAGTAGAATTTTAAGAGAGTCTTCAAAACTTAAGAAAGAAGTTGTGTATGTAACATGCTCATTATTTCCTGAGGAAGGAGAAAAAATAGTTGAAAAATACCAAAAATATTTGCGTAAGATAAATAATAAAGAAGATATGTATGGATATTTAAAAAGTAAAGTATGGTTACGAGTTATGAGAACTTATCCTCATATTCATGGGTCAGAAGGATTTTTTATTGCTAAGCTTTGTTTTGAGGAAGATTCTGAAAGTCTTCTGGGGAATTCTTACCTGTTACATAAGCCATAACCATAAGGTACTCTCTCATATGTCTTGTTATAACGAAGTTATTTCTAACGTGCTCCTTTGCGTTTTCTCCCAATCTTTTTGCTATATCTGGATTTCTAATAGAATGTATAATATAATGTGCAGCACCTTCTACGTTATCTACTAGGTATCCAGTAATATTATGTATAATCTGCAAAGGTATTCCGCCTGTTCTTCCTCCTATTACGAGTTTTTTCTTCCACATTGCTTCACTTACTGTTAGGCCAAATCCTTCTTTTATAGACTTTTGAAGAACTATTGTAGCTCCAGTTTGGAATGCGTTTATTTCAAGGTCACTATAAGGCGGCAACATTAGAAGACGAATATCTTTTTCTCCAGAAGCTTCTGCAGCAGTTTTCTTATATACTTCTTCTCCTTCTGGATCATCAGTAGCTGGACTACCAACATACGCCATTTGCAAGTCTATATGCTTTTTAGCCATTTTAAAAGCTCTAATTGCACCTATTGGATCTTTTGCATAATCAAATCTGGAAATTTGAACTAATAACGGCTTATCTAAATCTAACTCGTACTTATACAAAATTCTCCTTACAGTGCTGTCAGGTATTTTCTTATTCTTTATGCTTAATGGATCAATTGATGGCGGTATTATAAATTGAGGTATATCAACATCGTTTCTAGCAAATACTGGAGTAGATATTATCATTGAGTTAAATTTTGATAATCTTTTATTAAGGAATTCCCATACTGGCATATAAGGGTTAGAAATATCTATATGGCATCTCCATATCCATTTTCCTTTCTTTTTGTAATCTATTAATCCTAAGGGTTGCGGATCATGAATCATTATTATATCATAGTCTAAAGGTACCTCAGCAGAGTTGATCTCTTGCCATTTATTATAAGTTTCGAAAGCGCCTTCTGGTAAATTTCCTTGACCTGTCTGTAATGCATTATGGAATGATTTTGTTACCTTAAAAAAGTCATTATCTCCTCTTATTACTTTCCAGTCCACATTTAATCCTAATTCTCTCATTAATGGTACCATTCTATTTAATATTTCAGCTACTCCACCTCCAGCTCTAGTAGAGTTAACATGAAGTATAGAAAAATCCTTTAATTTTGCCGCTATTTTAAATAATGCGTCTATTTCATCTTCTCCTACTATTTCAGAATATTTTTCTATCATTTTAACAATTCACCTTCTATAATTTTTAATATATCATCTCTGAATTTCTCCTCATCTGTATATGTTTGAGGGTCTACTTTAGATAATTTTTCAGATAATTCAAATAAACCAAAGTTTTTTTCTAGCCAATCGCTTAAATCATTTTTGGTTTTCTCTCCTACTATACGTTTATAAACAAAATGATAAAAAAGAGATCTTGCGGGAACACTAGCTACTGAATCCAGAAAATCCGATAAGGTCTTTATTTCTATACCAAGGTAATATACTACTGGTACACAGCTTATAAAAATAAACGGATAATCTGCAGATTTATTATTTATGCCATAACTCTTAATCAATTCTAAGATTTCATTCCTTATATCTTCTACAGTTAGCGGCTCTAATCCAGAAATATCAGCTACAAGTTCAGCTAGATTCTCATCGTGCAATGAGTCCCTAATCCAAAATGCAAAATCATTAGGTAAATCTTCTGGAACTACATGACTAGAAAGCATTGGATGAAAAACATGATAAAAAATCGAATGCTTATCAACTTTGCTTATACCATCGTAAAGTTCTTGTAGTGAATTAGCCTTAATTTTAGTGTACGTAGGAGGATAATATGCAGAATAAAATCTGAATGGTATACCTTTACCACTGGAATCTAAGTCCATTTACAGTCTAGATTATATACTATAGGTCCATTAAATATATTTTATAAAAATAAGTATTACGTCATATGAAAGGTATGCTTATATTGAATAAAACTATAATTACAAGATTTATTATTATAATGATAATTGCTGCCAAAATCGCTATTCCAAAAGCCCCTCCCCAACCTACATTAAAAATATTCTTAAAAACCCATAATATACCAAGAAACCCAATTATCTGAGGTATTGGAAATGGCAATATGAGACCAAAAATTGCACTTAATATATAAAAAACTATTAACCCCGCTATTGTAGCTATCATAGCTTTGCCTAAACTAGCCGAACTATTAAAGAATTTGGCCGATATCCATATTGGAAAGGATATTATTATCCATGCGATTATTAAACTAACTAATAATATAATAAAATGTTGTAAACTATGTATCATGTAACTTATTTAAGATCTTGAATAAAAAAATTATTCTTCTGGAAAAGCTTCAGCATACATTTCTTCATCCAATTCTTCCTTTATTCCTTTTTCTAATGTCTCTAAATTATCCAATACTTCTTTCAACGTTTTATAATCAGTTGGAATATATTTTATTCTACCCTGTGACATCATATAAGAACCTGGGCATAGGAATTGCTTTTTAACTACTATAGCATCTACACCTAAGTCTAATATTACTCCCATCGCAGCCTCCTTACTTACGTTATGAGCAGGATTCTCATATTGTTCTACTTCTTTCTTTTCCTCATCTATTACTGCTATTATATCTGCCTCATCTAGAGGCTTTAGATTCTGACTTTGATCATATGTTATGGCTATTCTCATGTTCCCATTAACATAATGAATACTAGCTTAAATATAATTCGATTAAAGACGATTTATGATCTTTATAACGATAACTTTAAAATCTTAGTTTATTTATCAATTTAACATGAAAAGCATTAGAATAATTTATTGCAGGCCATGCGGTTATTTGGAAAGAGCTCTTGATCTTGCTAGAGATATACTTTCTTATTTTGATGATGCAAAAGTTGAATTAGAACAAGGTAAGAATGGAATATTCGATATATATTTGGATGGAAACAAAATTTTTTCTAGGTATGAGGAAAAAAGATTTCCAGAAAATGAGGAGATATTAAAAAAGTTAGCATAAATCTTATCTTTTATTTATTATTTTTATTATATTTAGTTTGGTATTTATTCTATCTAATCCAGAAGTTATTTCTTTTGGAACTTCTAATTGCATGGCTATTGTATTTATTGCTTCTCCAATAGATGCATTAGCCAAATTAGCAGATCTACCTTTTAACAATGTCAATACTAGGTTGCCTAACCATCCTAATGTAGCTACGTCAGCAATTACTGCACCAGCACTTGCTACTACTTCTGGTATAATATATGTAGGTATTAATGGAAATATCTCAGCTCTTCTTATTAGTCCAGTTAAGCCTAGATCATCAAAACCTACTACTATCATTGCTGTTCCTATCATATATCCGACCATGTGAATCCAGCCTATTTTATTAGAATACCACATTTTACCAGTTAACATTGGTATCATGTAATACAATGTTGCAAATCCTGCTGGAACTATTGACCAGAATATCATAGCATGGAAGTGACCAGGCACCCACATACTATTATGAATTATAGAATCAAAACTTAGATCAGCGTTAGCTATTCCAGTTACACCTGCAGCTATTGCTCCTGCAAAGCTAATTGATATCCAAACACTAATTAGATTAAGATTTATATTAGCCCCTTTTACTGTAGCCCATAAATTCAAGAACGTCATCATTGATGGTACTACTACTGCATACGTTAATACTTCTTGAAGTAGTTTTATTGCGACTGGTAAATCAACCATATATAAATGATGTATAGGCACATTATTTGAAAATATCAAATATAGTAATGCTGCAATCCTAGCACTTTTTTCACTGTAAATTGGCTTATTAGCTAACATTGGTATCAAATAATACATAGAAGCTACTGCAGGCATCCAAACTATATAAACTATTGAATGTCCTAGGATCCAAAATGCTATCTGATTTGCTATAGGATCCAAACCTGTTATTCCGAAATATGCTAAAATATCCCATGTGTTTGCAGCAGTTTCTCCACTCCATCCAATAGCTATCATTAATGATGTCATTAATGCGAAAACTGCAAATATAGGCAATTTTTCCTTTGTAGTCTTTGATACTAAATAATAATGGTATATTAGCCATATTACAAATATATAAGTACCTATATCCATTAATTCATAACCTATGAACCATAAAGGACTAAGTACATAATTAGAGTAAGTTGGAATGCCTAATGGGCTTAAATAATACCATCCACTGGCTCCGAAGAAATTGTCGTTGAAAGTTGGATATGCGACTATTGGGCCTTCAATTAACATAAAAGCTATATTAAATAATACGAATCCTATGTTTAAGAACCATTTAGCTCTAGGTTGGAAATTTAATAATTTATATGAGAGAAAAATAAAAATAGCTATTTCTAATTGTACTGCAAATCCGAATAAATCTCTAACTCCATGTAGTGTTATTCCTCCATAGTATTCTTGTGACGTCATAACTAGAGAGGCTGATGTAGCCCAGGCTGCCTCTTGGATTCTTGCCATTAATGCGTCTATTATTCCTAGCATCCCCCATATTAGGCTCATTACTATCATTGCCATAGTTATTCTCGATACCCAATCCTTATCAAGTTGAAATATAGAGTTCAGAAGTGTAACGAGTGAATTAGGCCTAGTGCTCATAAAGCACAATTTTTCTTTATCAGATTTATATCTTTCTTTTATAAATGTTATAAAAACTAGAATAAGTTAATTAAGAGCATTAACTAAAAAATCTTCTAATATTAAAGATTATTATTTATATTTAATTTTTCTTCTAAATAAGTTTCTAATTACATGTCTCACATCATGAAACATTATATTATTATACGGACAAGCTTCTACGCAATCTCCAACTCCTACACATTTCATAGATTTGAATTCGCCTTTCTTTATGAAGTTTCCAGCCATATCCGTTAGACCCACTGGGCAAGCTCTTGCGCAATCCTTAGTTTTACATTTTAAACAGATAGTGGGATCCTTAACTTGTAGCTTGAAGAATCCAAAACTGCCTATAAATTGATTAAATGTTCCCCATGAGCACCATCCTTGTGTTAAACAAGCATATGATCCCATAAATGGTATAGATATAAACACTATATACCATAATACGTTAAAATAAAAGGAATATAGAAATACTGTAGTATCAACTCCAAATATAGTGAAATTTAGAATACCTATTTCATTGAGATAAGATATTATTGCAGCAACTAATAAAGCGCTCCACACACTTATTACTATTAATTTAAACCAAGGTTTTAATTTACTTCCGAGCGTTTTTCTTCCTAATTTGGAAGATCTATTAAAAGTTTTAAGAGAATCATAGAAAGTTCCTTGATACATTAGAGGAGCAGTACAAGTTACTGAACATATTTGTCTTGCTCCGAAGAGAAATGAAAGTACTGCAGATACAGCATATGTGCCTATTATTCCAGTTAATAGTACACTTGGAGAGACTGGTCCTAAAGTTCCTAACCCCATTGACCACATATAAGGTATATATTGTACTTTAGAAGCTATTGGCGAGAAAGTAGGTAAAAATATAGTGTAAATTGCATAAGCTGAAATCATTAGAATAAATCTTATTTTATTTTCAGTATTCTTAAGGTTCTTAATCCTAAATACAGCTAGCATTCCCATCTCAGTTCCCATCATAATAAGGAACCATACAGAACCAGTTACTGATCCTATTATCGATATTAAATCAAATAATAGGCCTAAACCATAATAACTTAAAGGGTTTACGTATCCTAGGGATAGTGAAGAAATAAATCCTGGTATACTGGGAGCGAAAATTCCAGTAGCAAAATCTAAAACCCCTCCCATAAACCATTCCATTATAAATGTTAATGTTATGAATGAAAAAGTCCATTTAGCATTCTGCGTATAGTTTCCCTTTATTTTGCTAGGTCCAGAAATTGCTCTAAAAATAAACCATGTCATTCCTGCTATCATAGAAAAATCAAACAAGTACCAGCTTCCAATCAGAAAATATACGAATTCACCAGCCATCATTAACGTAAATATTATCATCATTTCTAGGGACGTCATAGTTTCTTGTGTAGCCTTTAATCTTTCCCTATATAATGTCTCGTAGATTATTATCGTAGCTACTATCATTAGACTGGCTGTAACCCAGATGGTATCATAAACAAATTTTATATTATTAGGAAATATGACAGGAGAAAATATCATTATGGGAAATAGTATAGCCAAATATTCTCTTAATGGGAAATTGATTGTTTTCAAGAAATATACTAATGTAAATAACATTTCAGTAGCCATCACGCCAAAGTAATAGTAGTTTTCAACTCCTAATAGTGGATTGCCTAGACTCTTTGTTAAAATGGAGTAAAACGTTTCACCCATTAAAGCTTCAGAAACTGCCATCAATAGAGCAAAAACAAATATGGTAAGATTATTTCTTATGTTACCAATTTTCTTCTTAACTAGTCCTAAAATAGCTAGTAAACCTATTATCATATAAAAAGAGTTTGACATTAAAACCAATGCTTCAGTTATTTTATTCTGTGTAGAAAAAAAGAAAGGCAAACTAGCGAACATTACGACCATGCTACCAGATAAATAAAGAACTACAAGAAAACCCAGTCCATTAATACCTTTTTTTATTAAGTAAATTAAATATATTGAAAATAATGCCATCAGTGATGCAACTACGATGAAAACTAGATCAAACTCCATAATTAAAAATCAGATTATTAGTTTAAAAATATTAACATATATGTTTTTTGTTTATACAACTTTTTAAAATATAATATTAAAATTTAATAGAGTATACTATCCGTTTTCATCTAAAAAAATAATAAACTCTTTTCTCTATAAGAAGTATAATGTATGTAAACTTAGAAGATCATAATAATTACTGCGTTATATCGTTTAATACGGGCGGTAAATATAATTTAGTTAATATAAAATTTATGATAGAATTCCTAGATACTTTGGCTGAGATAGAAAAAAATAGATCTTATAGATTTATAATGATTCATGGGGAAAACGGTAATTTCGGAGCTGGAGCAGATATTAGAGAATTACTTAAAGCTTCTGAAGATAAGGAATTTGCAATATCTTTTTTTAACTATATGAAAGCCATGTATCAAAAATTACTAAATATAAATAAGATTACAATAGCTCAAGTTAATGGCGTAGCGTATGGTGCCTCATTAGAGATGTTATTACTCATGGACTTTGTTATTGCTGAAGAAAGCTCTAAATTCGCGGCCCCTGGTGGTAAAATAGGAGTCTTTCCACCAGTATTAGTATCACTAGGTCCTTATATAATAGGTTTAAGGAACGTTAAAAGATTGGCAATGTTAGGCGAAGAGATAGATTCTAAAGAGGCCAAGAATATTGGTCTTATAGATTCGTATGGAGATATTAAGGAGGAGACGAATAGTTTAGTTTCAAAACTCGTGAGTTTTTCTCCAACTGCATTATTATCAATGAAAAGATTAGTTTTGAGTAATATGAGTCATAATCTAGATGATGCTTTTGAAAGCATTATTTCTCAAGTTACTAGCGATAATGCAAAAGAAGGAATATCATCATTCTTAGCTAAAATAAAACCGTCTTGGACTAATTTTCAGTTTTAACATTACTCAAATTCTCTTAGTTTCATTAATCTACTACCTAATGCTAGGAATATTAGTGTTCCTAATATTACGTAAATGATATAGAAGGGATTCGGAGGTACGTTATATACAATAATGTCTCTTATTATGCTATCTATAACGGAAACTGGTTGATATTGCACTACAACCCTTAGACTAGAAGGAAATGCATAAATAGAGAAAAAGGCTGTGCTAAGAAATATTAACGGGATAGTTACTACGTTAGCAGCTACATTAGAAACAAATAATTTATCTTTTGGTGTTAATCCAAATATTATTGCACCAAGACCAGAAAACATAAGCGTTGAAATTATCAGGAATCCAATGAAAGAAAGTCCAATTAAAGGTAGAAATCCGAATAATAATGATAATGCTAGAATGGGTGTAATAGAGATGAGCGTAATAATTATCTCATAGATTACTAATGAGGTTACCCATTCATAACTCTTCAATGGAGAGGCTGCTAATCTATCTACCAATCTATCCCTATAATATCCAGATGCTACTCCAGTTACTCCGAAAATACCATTTGATAATGCTACTACTCCAATCATTCCAGATATTATATATTCATAATATGAGTTTCCATACTTAAGAACTGAGGAATAGTGAATTTGTGAGTTATTAGTATAGTATTGATTAATTAAAGCTTGTAAGGACGGTACTAAATATTTATCGTCTTGAGGATAATAAATTGATACATTATCCTTGATAATCTGTACATAAATATAGTTGTGAAGAAGGGCTTCTTTTTCATTATTCCCATACAATGCAGTAAATAGTTGGCTACCATTTATAAATTTACCAACTTGGCTATTATTTATAATAACAAATTCATGGACTTGCGTACCTGCTCCAAAACCTAGTGCGAAAATTAGTGTTAAAAATATTGGGAAAAATATGATAAAGAACCAGGTCTCCTTACTATTAAGATTATCTTTAATGATGGCTTTTGTTGTTAAAAAAATATTTTTCATCATTGCTCACCTAAACTTTCCATTAGTGCTAAATATGCTTCTTCTAGGTTAGATTTATTAAATTCACTCATAAGTTCTTTTGGAGTTCCTATTCTCACAATTCTTCCATCATATATCACTGCTACCTTATCAGAAAGAATTTCAGCTTCGTCTAAATAATGCGTTGTTAAAAGTACTGTTATTCCACTTCTCTTTAAATCTCTTACAATATCCCACAAATTTCTTCTCGATTTTGGATCTAATCCTACAGTAGGCTCATCTAAGTACACTATTTTAGGATCTCCTGCTAATGCACAAGCTATAGCAACTCTTCTCTTGTACCCTCCAGATAATTGTTTAAATTTAGTTTTAACGTATTTTTTAAGATCTAGAATATCGATAAGCTCGTCTATATCTGATTTTTTATCGTATAAACTTGAGAAATATTTTATATTATCTTCCACTGTGAGATCAGAAAAACCTTGGAATTCTTGAGGGACTATGCCAACAATTTTTCTAACCTCATTACACATTTCTGGAATATTAAAGCCTAGAACACTCACTTTACCTTTAGTAGGCTTTAGAACACAGGAAAGAATCTTAACGGTAGTTGTTTTACCTGCACCATTAGGTCCTAATAACGAAAATACTTCTCCAGAATTTACTGAGAAGGAAATTCCTCTAAGAGCTTCAACCCTATTTTTATATATTTTCCATAAATCTTCAACTTCAATGCTCATCATGATTTATTTTATTTTTTCACAAGTAAATAATGTGTCTTTTGGTAAAATTTCCCCTGAGCAGTTTTTAAGTAGAATAAAATCTGGTAATTGCATTATATGTCCAGCATTAGGTGAAGACGATGCGGTATTAAAACTTAATAAAAAATATTTAGTTATTCATTCTGATCCTATTACAGAGTCTGGTCTAGACTCTGGATTTCTCTCAGTGGTTGTAGCATGTAACGACGTTAATATGAAGGGCACAGCATGTAAATGGGTACTTACTACTGTATTATTATCAAGAGAAGACAATCTTAATAATATAATAGACGGAATAAATGAGGCTTGTAGTTTAATAGGATGTAATGTTGTAGGAGGGCATACTGAAGTGGTTGATATAAATCGTGACATAGTAGTTACTACTGCATTAGGAGAAACAGATAAGATAATGGAAATCAATTCTGTTAAGGATGGCGATTATGTAGTTTTAATAGGCGACATAGGAATAGAAGGATCTTGGATTTTAGCTACTCAGTTTCAATCTTTACTTAGATCTAAAGGCGTTAGTGATGAAGTAATAGAAGCTGCTAAAGCCTTTAAGAAGGAATTAATAGTACAGTCTAAGGCTTTAGCTATTTCTAGATTAGTGAAATTTATGCATGATACAACTGATGGTGGGCTTTTACAAGCACTTTTTGAACTAGCTAAAAGATCAAATATGACAGTATCAATTAGAGAAGACTCTATACCATTAAGAAGAGAAGTTCACGAAGTAACGGCAGCATTAAATATTGATCCATTAAAATTTATCTCTTCTGGGGCTTTTATAGCTATAACTGATAATCCAAAAGAAATACTTAGTAAAGTAAATGGCTATATCATAGGCAAATTAGTAAAAGGGGAACCTATAGTTAAAACCGAAAAAAGAATAATAAATGATAATGTAAAGGAGGAATTAGCTAGGATTGAAAATAGTTATAATGGCTGGTGGAAAAGGTAGTAGATTATCTCCTAGAAAGCCATTATTAGAAGTCTGTAGTATTCCAATGATAGCTAGAGTTTATAATGTGGCTGAAAAAATATCAACTGATATTTATATTGCTACAATAAAAAATCATGTTATAGAAAAAGAGCTAATTTTACGTTTTCCTAATATAATTTACACATCAGGGAAAGGATATGAGAATGACGTATTAGAAGCTGTAACAACAATAGGATTTCCAGTTTTAGTTCTTCCTTCAGATATACCGTTTTTAAAAATAGATTATGTTAAGCCTCTTTTCACTTGTAAATCTTCTATCTGTACTCTTCTCTCTAGAGGAAAGTTTGTTGGTATAAGTTTATGGAATTCAGATAATCTTAATGACTTTTCATCAATTGAGAGTAATGTAGATATTATAAATGTTAATACTAAAGAAGATCTTTCCATAGCAAATAAATTATGCTATGAGAATATTTAGTGAGAATCTTGAAGAGGATAGTTATATTTTCTCCATTTAGAGGAATGTTATTGCCAGTTTATATTTTGCTTGGATTACTTTTAATGGTAGTAGCACTAGGTTATTTTAAGGATTTATTAGTATTCGTGGGTATTAGTAAAAAACTGAGCTATTTTTTTGCATTTGAGTTATCTTTTTTAAGTCTAGCGTTAAGTCCAGTAAATGTGGTGCTCAAAGAAGTTAGAAAGAAAGATCTTTCTCAGTCTTATGATGTTGTGTATGTTTTTGGTATACCATTTTATGTACCTAAACTTTCTCTTTCATATACTACTACGCTGATAGCTTTTAATATTGGTGGGGCTATAATTCCCGTATTATTATCTTTAACTTTATTGTTTTATCTTGTTTCTAAAATTTTTCTTATTTTAATAAATATAATTCTAATAACGATAATATCTAAATATTTTTCAAAAGTTATTCCAGGTGTAGGGGTAGTGATGCATCCTCTTATACCTCCAATATTTTCCACTATAATCAGTTACATTCTATTTTTGCATCAGCCTATTCTAGTTCCAGTCTCTGCATATATAGGTAGTGTATTCGGAACACTAATAGGTGCAGATTTACTTAATCTAAGGAAAATTATTGAAGCTAGTCCACAGATAGTTAGTATTGGAGGAATGGGTAGTTTTGACGGAATATTTTTATCTGGATTATTTAGTGTTGTATTCGGAGAATTACTAATATCTATATGATATTCTACCCTTCTTATATATCTTAATGAGAGCTACCGCTTCTCCTTGTTCTTTAAATTTTACCATAACTTTTCCTCCAGTAAATTGCCCAATTAAGTATTGTATATTACCTTCGGAATAACTATCGTAATCAAGTAGCTCTCCTAAGTTGAATTTATTTCCTATTCTGTCTAGAATGAAGAGTTCATAGTCTTCAGAGCTTATAGACCTAGGAGGGGTAGTAAAAACATATATCTTTCTCATAATTAATGATTAATACCATTATAGCTTAAATCGTTTACGTAAAAATAGATAGTATGGTTGAACAAACGGAAAGAGATCAAGTTTTGTTAAAGTTAAAAGAAGCCGCAGATTATTTTGTATCCAATCCTAAATCTTACTTGCTAATTCCAGAAATAAGAGTGAATATAGTATATGCATTACCTGACGCTAAAGATGAAAAAGACGTTGCAGCTATTCCTGGCAGAATAACTTCGGCTTTTAGTAGAGCAATATATTGTATGCCACCAGCTTTTGGCGCTTCAGATCATGTAGCTAGGGTTGTGCTAACTGCAATGAAGTATAATAAAGATAGAAGGAGTGCTATAGATATAAGATATTATGATAATATAGTAAAAAAATTAGATGATGTGTATATATTCGATAGAAGACAGGAGCCTCTAGAGTCTAGAGAAAAGGAAGGACATACTATGAACTTTATGGTAGATACAGCTTTTCGTAAAAAAGGCCAGATCCCCACTTATATAGTAGATCTAGGAGATATCGGTAAAGAACCTACAATATTTATACTAGGTAATGATCCATTGAGTGTAGTAAAGAAGTCTCTAGAACTACTTTCGTTCATTTAGCCTATTTTCTATTTCCTTCTTACAATTGTTTAATATTTCTGAGATTTCCTTATATTTTTCTTCATCTAGAATATCTTTATAATTATAAAGGAAAAATCCTAAATTTATTAGTTCTGAAACTAATCTTCTATATTCGCTATGAGTAGCGAAGAAAGTATTTACTTTTTCTTTTATCCTCAAATATTCTTTTTTGCCATCTTCAGTTATATAGTAAATTTTTTTGGAGTCTTTTTCTTCAACTCCTATAAGATTTTGAGACATAAGACCTTTTAATACTGGATACAAGGAACCTGGACTTGGTTTATAGATGCCACCGAATTTTTTCTCGATAGTCTTCATTATTTCATATGCATGCATTGGTTTTTCATTTAAACATTCCAGGATTAGTAGTTTTAATTTGCCTTTCTTTAGCCTCTCTAAGTTCATTCTCACATTATAAAATACTTCTGAAGTGTATAATATGTTTAGTTAGTCAGTGTGTAATTCTTATTTCCTACTAAATTTTCTATAACAGTGTTTATTTTATATTATAATCTAGTCCTCAAAGTATGTTAACTTGATTATTTAGATTATATTTTTCTATAAATTAAAATAAAAATCATTTAGTGTAACCCTTAAATAGTGAAAAACCAAAAATTGCATATGGCAAAAGTTGTAGTGATAGGAGGAGGAAATGCTGGTAGTATAGTTGCCAATAGACTTCAGAATAAGGGAATTGATGTAACTGTAATAGAACCATCGGATTTACATCTTTATCAGCCTGGAATAATAGATGTAGCTTTTGGTGAAGAAAGAGAAGAAGAAATAATTAGGCCAGTAAATCAAATTATTAAATCTAATATAATAAAAGATAAAGCCACTAAAGTCGATATAGAAAATCATAGCGTATATACTAGTAGAGGTCTAAAAATAGAATATGATTATTTAGTTATAGCCGCTGGAGCAGAAAATAAAAAAATAGAGGGATTTCCTCAATGGCACTCAATAGATGGTATAGGAGGGTTAAAAGAACAAATAAATAAATTTGATGGTAAAAAAATTGTAGTAGGTTACTCTGGAGTGATAAAATGTCCAGCTGCACCTTTTGAGTTTGCATTTTTTTTAAAACAAAAATTCCCAAAAGCAGAAGTAACGTTAGTTAATCCAGTTTCTCAGCCACCAGATATTCAGAAACCTATGGCAGAACTATTAGGGAAAAGAAGTAAGGAATTAGGAATTAATGTAATAAGAGGCTTTAAAATAAAAGATATAGATAAAGACTCTAAGATAATTTACTCTGAAGATGGCCAAAATGTTTCATACGATATGGCACTCTTGGACACTCCAATAAGGGCAGGACAAGAATTTGAGAACCTAACGGATAAAACTGGATTTATTCCTGTAGATAAATACACGTTAAAATATAAGGACTATGATAATGTGTTTGCAGTAGGGGATATTACAAATATAATGACCCCACCAAAAACTGGTGCTATAGCACACTTTGGAGCAAAAATTATTGCAGATAACATTTATGCTGATGTAAATGGCTATGAAAAGAAAAAATTCGATGGATCTATATTTTGTGCTGTATATGGAGGTTTTGGAAAAGGCTTACTAATACGTACGAATTATGAAAAGAGTTATGCTGCTGGTCCATTTTCAATTTTCTATATAGTAAAGAAGAGTTTTATAAGGCTATATTGGAATACGTTGACTGGAAACTTTATAATATAGACTATACAAAACTTTTTTACATAATACCTTGAAGGGAGATATTACCTATTTTTCTTTTCTTCTGAAACTTTTTCAGCTATTTTAAAAAGTTCTGGATATATCTGTTTTAGCCCTAATTCTAGAGCTTCTTTAGCTACCTTGCTCATTCTAAATCCAGGTTTAGTATTGTATAAGTATTGCAATACGAGGAAAGCAGGATAACTCCATACACCTATCTTTGGATCTTTATCTAGAAACTTCTCCATAGAGTCTTCTATTGGATCCCTAGATTCTTTAGTATTGTTTCTAGTGTCTTCTTTTACTATTATTCTTTCTTCTCTCTTCTCTTCATTTTCTTGACTATTTTTTGCATATTCTAGAGTATTCTCTTTCTTCTCTGTATTGTTCTTCTCTATACTATTCTGTGCATCTTCTTTCTTCTCTCTCTTCTCTTCATTATTCTCTATAGATTTTTTCCTATTCAGTAAAAAGTCTAGTTCGCTCACTCTAGAGTCACCTTTGCTAACTCTTCAAAGTACTTTGATATTTTCAGTCTCTTCGTTCTAATCTCTTCATACCTAGACGCTGGAACTCCTAGTCTAGATGCATCAATAAATAGTCTAGACTGAGGAACTGCTATGTTAACAAATTTAACGTTCTTAAGATCTAGGTTGGTTGCCTTCTTTGAGAAATTAGTGTAAGCTATAGCTATTTTTCCTATACTTTGTAGTCTAGAATCTAGATTTTTTATTGCCTCGAGTGCTAATGGTTGTGGAGCTACTGGTGAAATAATCTTATCTGCTGCTAACATGGAAGATACTGCTAACGTGCCTAAATTAGGCGGTGTATCTATAACTAAGATATCAAAATTTTTAGATATCTCTTTTATTATATTCACTATTTCATTTATATCTCCATTGAGTTCTAACTTAAGTAATCCTAAATGTGCTGGAAACACTTCTACATTAAAGATATTAACGCTCTTACTTCCTAAAGGTAACTCTTTTCTTTCTCTCTTCATACCGAAAGATGTCGTTGTTCCCCCTTCAGGATCTATATCTAATAACCCAACATTTTTAGTCTTAGAAACTACGTAAGCTAAATTGACAGAAGTAGTTGTCTTTCCTACACCTCCCTTTTGGTTAATAACCGTTATTATCATGTCTAGAGTATTCGTGCTAGACAAATTAAAGGATAAAACCTTGTAATACGATAAAAAAGTAGAGTGTATCAAATTATAAGTGTAAATAAGAGCTTATTACTTAATCTAGCTTACATTATTTTATGTAGAAATTTTAGACAGTAATCCAGAGTATACACTGTATACTCTGTATTAGAAACTTAATACATCTTATTTAAGGAGAATTAGGAGGCACAATGCTAAAAAAGCTTCAGTAATGTATGATTTTACTCTTATGTCTTTTTATAATTCTGCTCTAATTTTAGATAAATGTAATTAAACACTATTTTAATATGAGTTTTTAAAGATATTATTTTTATTGAAATAAAATTTTAAGCGAACCTTTAAGCTAAGCATAAAAATTTATTTTAAGAAACTTTATCTATATTATGTCTGTAGAGGAATATTTTCTTAAATATAACAATGAAAAAGTGTTTGTTATTTTGCTAGGCAGTAATTCTTCTAGGTCATATTTTTACTATCCCAAGGGCGATGCGTTATTTATAGTTAATGATCATATTGAATTGAAGGAGATAGATCAAATAATAGGTTCTTCATTAGCAGGAATGAAGCTTTCGAATCCTACAGATAGTTGGGATAAGATAAAATCTAGAGAAGTCAAATGGTATATTTTAGGGAAGGAAATTATTTCTGATAATATATATATAGTTCTTGAATCAGAAGATCAATTTAAATTAATTGAAAATGCGTCTCCAAATAGGTTAAAATATTATGTTTTACATGATCAAAATCCTTTTGATTATAAGGATTGGTGTTGTGTTTTAATTGCGTCTACTAAGGATATAGAAGTACCAAGCACATTCAAAAAAATAAGTATAAGGGAAATTTTAAGTAACTCTTAAATAGTAGTTACTATAAATTAGTAGTGATAACATGGATAAGTTAGTAGAAGAGAATTATTTAGACGAAGTTTTTGGCTATCAATTGTATAGTAACTTAGCCATCAAAGAGAATAATCCGAAAGTAAGGGAGATTTTGGAAGAACTTGCAGAAGGAGAAAAGAGGCATTCAGAATTCTGGAGAATGATAGCTTCTAAGAAAAATGTTTCATTAAAGTCGCTTACTTTTTGGCTAAAGTTTAAATTATTACTATTATTATTTTTGAGGAAAATTATTGGAATAGCTTTAACTTTAAAAATAGCCGAATATGGAGAAATTTCTGATGCTGAAAAATATGACAAGTTATCTAGAATGGACATTTTCTCCGATACCGAGAAAGAGGAAATAAATAAAATTAAAATGGAAGAACTTTATCATGAGGATTTACTAGTACAAACACAAATTAATATAGATAAGATTAGAGATGCAATATATGCTATAAGTGATGGGCTTATAGAAGTTTTAGCTGGAGTTTCTGGACTTTCAGGAGTTTTTAATACTCCTATTCTCGTAGCTCTAGGAGGTTTAATTATAGGCATTTCAGGAACAATTTCTATGTCTATAGGGGCTTACCTATCTTCTCAATCTGAAACAGATATAGAGAAAAGTTCTCTAAGGAAACTAGGTAAAACATCTCAAGATTCCCAAAAACCTAAGGAAAGTGTTACTACTACAGCAGTATCTTATATTATAGGTGCTCTTATTCCAGTTTTGCCATTCTTGATCGGATTATCTGGTATAGTAGGTATTATAGTAGCATATGCTGCAACAGGATTGGCAACTTTTGTTGTGGGAAATATTATAGGCTTATTGAGTAATGTAAACCCGACAAAGAAAGGTTTGCAAATGACTGTTTTAGCAATAGCTGCAGCTCTAGTGACGCATGCTATAGGAAGTTTATTCCACATTATAGAATAAAAGATAATATTTTTACTTCTTAAATATAAGTCTAATTAATGAAAAATGTTAAAATACCTGAAGTTATTTATTCTATCTTGCTTCAGAAAGCAAATGATGAGAGGAAAAATCTTGAGGACGTAATAGTCGATCTACTAATATCTTCTTTAAATGGTGACAAATCTAGACTATATACTCAGCTTTCTAGAGAGTACCTTCAATTGGCTACGAAATTAGAAAAAGAAGGTAAACTAAGTGAATCTGGAGAAGCATATTGGAAGTCTTTATCTTATATCTTAAGGAAAATAGGTAGTGAACTTAAAATGGATATAGAGAATTATCATGACTATTTTTCATTAATTGAATATTTATCATATAGAACGGACAATAAGGAGCTAATAGTAGATTTCTTAAATAGCGAGAAACTCCATGGTGAATTTCATCCAAGATCACAGAATGTAGAAGAATTTAAAATTAGAGTAAATCATCTTAAAAATCTTTTAAATATATTAGAAAATATTAATATTTAAATTGGCATTTTGTTCAATATTCCGTCTATAATATTTTCTTGAATAATAGTTTTTTTCTTAAAATCGTAATATATTGACGCTTTAGTAGTAGAGTCTAGAGTATTTCCTTTTATAACCTCGTTAGAGTCAACCTTTCCTGAAAGTATTTCATAGCTTAGACTTTCGTTATTCTTTTTAATTATAACCTTATTTTCTAGAAGCTTCACATTCATGGCTATTATAGAAGGAATAAGGAAAGTATCTAATGTAGGAGTTAGGTTTATTATAACCTTATCGGCCTCAACAACTTTATCTACAGATTTGGATTCCATAAATATACTTCTTTTCTTCTCTATATTTACTATTTTACCATTCTCAAATGTAACTAATACATCATCTTCACCTTGTTTTGATATTGCCTCATTTAATGAAGAATAAGAAGGATATGGCATAAATATGAATCTAAAGGTTCCTTTATTTACTATAGCTTTAGCAGGTACTAGATTGTTTTCTACAAATGTTATTTCGCTCTCTTCACTTATTGGAATAGCATAGTATGGAAATTCTATTATATCTTCTCTTTTAGCGTTATCTAATACTTCTTCGGCTTTTTTTATAAAAATGGATCTATCATATCCATACTGTTTAAAAATATTTTTTAGAATTGGCTCAAGATCTTTGACTAGGGAAGTTAATAAGTTATCTTCTAGGTAGAAGGATAATATAGGTACTAAGTGATTTTCTTCGCAATATTTTTTAGCTATATCTATTATTTTTGTAATAGCCGTATTCTTAGCTAACTTTGAAAGAGAACTTGCTTCCATTCATAAAATACTTTGTAAAAGAGTTAATAAAACGAGCTTGTAAAACGCTATACTATATTAATTAAATTTCTTCTACCGATGTATCAGATATTTCTTTCAATCTTTCTAATCTTAAGTGAAAATATGATAATGGATCTATATCTGCGATTGCATATCCATCTTCTTCACCTAATTCCGCAACAGTCAAAGTATCTACTAATTCCCCCTTTTTAATAGGTGTTAGAGCAAAGCTATTTCCTACATAATTAGGAGGATCTAATGCATTTGCGTTTACTATAGCTATTCTATTCTCTAGAGAGCGTATTTTTATATAATCTTTCCATATTTTTAATCCTTCTGTCGTTATTTTTGATGGAACTAGTAATATTTCTACGCCTTTTCTAAACATATTTCTAATCGTTTCAGGAAAATCTATATCATAACAAATTGATATGCCAAATTTTATTCCAGAATAAGTAAAAATAATTGATTTATCTCCTGGTAATAATCTTTCTTTTTCTTTCCCAAAAAGATGTAATTTTTTTGCTATACCTCTTACTTTTCCTGAATTATCAATTATAGGAGCGATTACAGAGACTCCGTCTTCTATAGCACCAGGGATAATATATGCAGTGTACTTTAGTGCTAGTCTCTGAAAATCGGATAATGGTATCTCATCCAGTGTTTTTACCCATTTTTCTGGTAATAATACAAGTTGAGCCCCTTTACTAAGTACAGTTTCTGTAAGTTCTATAGCGCTTTTAACGTTGCTAGGTTGTACTATACCTATTTTCAATCTTCCTCTCTCTTGAATCCTTTCTTATTCTCTATGCGTTTTAATTTTCTTATCAGCCTTTCCTCTACTTTTTCTACAGCTTTTTTAACAGCTACAATTGGATCCCAATCTGTTTCATTAGCTATGAAGTTACCTATTTTGGTTGAGGCATTAACGGTAACTTTGTATATCGTTTTATCCTGACTATTAGCTTCTTCCTTAAAAGATACTCTAAAGTTAATAATATCAGTTAATTTGTCAAGTTTGCTTAGATATCTTTCTAGAACTCCGTCAATCTCAGCCTTTATTTCCTCTTTTTTCAAATCTGAAGTTAGTTTTGCTTCTAAAGGTAGGGTAAGCTGATATTTAGATTGCAATGAGCTAATTATATCTATTCCGCTTAAGACTCCAGCTATATAATCTCCTTCTAATATTGGTAGGCCAGAAATCTTATTTTTCAATATTTTTTCAGTAACCTTGATTAGAGATTCATTTCCGTTTGCAGTGATTACAGGCGAAACCATAATCTCTTTTACGGGCATAGCCATTATTCTTTCTTCTTCAGTTAAAATTGATTCCTTTTTCTTTTCACCAACAGAGTATAATATGTTTACAATATCTCTAGATGTAACTATTCCTTCTAGCTTCTTTTCTGCTAATAATGGTAACCTAGTAACATTATTTTTTACCATTTCCCATCTAGCTCTAGCTACAGATTCTGATATATCTAGCGTAATAGGTGGAGAAGACATAAATTCTCTAGCCTTATTTTCTGGAATTTGTTTAGAATCTAGTAAATATTTTAATACCGTTTCTCTTGTTATTAGTCCAGTCAGTTCTCTTGATGAATTAACTAACGGAATAGCTCTAGCTTTACTTGTATAGAATTTAGCTACAACTTTTCCAAAATCATCGTTTTCAGCCAAGGATACCGTAGGAGAGGCTAGACTTAAAACTCTAGTCTCTAGACTTACTCTTCTTTTTAAAAGGTCTTTATCAGTAAGCATTGCTATAAGTTTCTTATCTTTTATAACTGGGACTACCCATTGATTTTCTTCCTTCATTTTATTAAGGATTTCACCTAGCTTGCTATTTATTGTAGCCACAACTTTAGGTTCTATGGCCAGGTCAGTTAGAGTCAAGTTCTCACGTGTAATATTTTATAATGAGAATTATTAAAAATATCTAATAGGAATAAGCTTTGCACAAGACAGCATTTGTTTGGGATGATAAATATCTATTATACTCATTTCCAGGTGAGCATCCATTTAAACCTCTTAGGGAGAGTATGGCAAAAAAATTAATGGAAGAAAGAGGTTTCTTTCACGAGATAGATTTAGTAAAACCATCAAGGATAGACGAAAATATACTACTTAAAGTTCATGATAAAAATTATGTAGATTTTGTAAAAGCTATGAGTGAAAAAGGTTCGGGTTATTTAGATTCTGGAGACACACCTGTATTTAAGGGAATTTTCGAAGCTGCTTTAATAAGAGTAGCAGGTACATTAAAAGCTTTGGAATTGTTAAATAGTTATGATCATGCGATTAATATAGGTGGAGGATTTCATCACGCTAAGAGAAACTCTGCAGAAGGATTTTGTGTTTTTAATGATGTAGCATTAGCAGCTAAAATAGCTGAAGAAAAATATGATAAAATAGCAATAGTAGATATAGATGGACATCATGGTGATGGAACACAAGAAATTTTATATGCAGATCCTAAAACCCTTAAAATCTCATTACATATGTATCATAGAAACTTTTTCCCTGGTAGTGGAAATATGGAAGAAATTGGAGAAGGTGATGGAAAAGGCTTGACGGTGAATATTCCATTACCTCCAGGTACTGCAGATGACGCGTATATTGAAGCATTTAACGAGATTGCTGTTAAAAAAATTCAGAAATTCTCGCCAAATCTCATTATCTTGGTAGAAGGAGGAGATTCTCATTTTGATGATCCTTTAGTTGAATTAAAATTGACAACTTTAGGTTATTTACAGATAGTAAAAGAAGTGCATAGACTAGCTCATGAATATTCTAATGGTAAATTATTACTTTTAGGAGTAGGAGGATATAACTATGACGCTACTGCGAGAATATGGACAGTTTCTACGGCAGAGATAGCTAACATAAAATCTCCAGACGTAGACGTTCTTAATGATTGCTGCTATACATCAAGTACTCCTTTTGTAATAAATAAAGTACATGATATAATAAATAAGTTAAAAGAAATTCATGGGTTAGTCAATTAAAATCATTGAAGACGCTTTTCTAGCTTTTTCTTTAGCTTCGTCTACGTTATTGCCTGTAGCTAACACTACTCCCATTCTTCTCTTTTCGTAGCTAGACGGTTTTCCAAAAAGTCTTATTTGAACTCCTGGAATTTTTAGAGCCTTATCTATATTGAGATATTTAGGAGCCCACTCTTCTTTTTGAGCCAAGATTACATGAGATGCTGCTGGACTCACTAATTTAACTTCTGGAGTAGGTAAGCCTAAAGCGCTTCGTATATGAACCTGAAATTCATTTATATCTTGACTAACTAGTGTTACTAACCCTGTATCATGAGGTCTTGGTGCTACTTCACTAAAAAGAACTCTATTCCCTGAAACTATAATTTCTACTCCATATATTCCTATTCCTCCTAAAGCGTCAACAACTCTTAATGCATAATCTTTTGACCTATTTAATATATCTTCATTTACATTAGCTGGTTGCCATGATTCTACATAGTAGTAACTAGGCCTTTTATGTTCTATAGCTGGGAAAGTATTCATAACAATTCCGCTATCATCTATATATCTATAAGTTAGGATAGTAAGTTCAGTATCTATTTTAACGTATTCCTCTACTATTACTCTTCTACTTTTTCCTCTAGCGTGAGAAATAGACTCTTTGAAAGCTCCTTCTACTTCTTCTTCATTGTTTATGAGAGCATGTCCATGTCCGCTTGAACTCATTTCTGGCTTTATTAAACATGGATATCCTATATCTTTACAAATTCTTTTTATTTCATCTGGACTTTCTGCAAATGCATAGTTAGTAGTTGGTACTTTTACTTTTTCTGCAGCTAATTGTCTTAAATCCATTCTATTCATACATATTTTAACCGCATTAGCATTGGGTATTATTCTAAATCCAGAATCTTCCAAATCAATTAACGCATCAGTATTTATAGCCTCTATTTCAGCTATTACTGCATCAGGATTTTCTCTTCTTACGACTGATTTTATTGCATCTTTATTCATCATGTCTATAACATATTTCTTATTAGCTACATGCATAGCTGGAGCCAAATCATATCTATCTACCGCAGTTACTTCTATTCCCATTCTTTGGGCTTCTACTGCCATTTCTTTACCTAGTTCCCCACTTCCTAACAATAGAACTTTATTACCACCTTCTAGAAGTGGTGTTCCTATCTGCATGAATGAAATAACTTGAATAAGTTAAAAAATATATATGCTTTCGAGTTTTTCTTTATTTGTTCAAGTAAAAATCTATACGTTTGGTTAGTCTTTCTATATCTAGAACGCAATTATTTACACATTGCCAAAATTTCGGCACTCTACAATTTCCAGAGAAAGGGATAGCTACAATACCATATTTAAAATAGCGCGAGTATGTTTCTATTTGATGATAATTATATTCCCCAACCTTTGCCTCTATAATCACCTTATTATTTACTAGAAAATCTGGTATATTGAAATTCCTAGAATTGGTTAATTTGCTCAAAGATTTAAAAATATTTGGATGTTTTACTATGTTATATTTGCCTTTTAGTCTTTCATAAATAAAATCCTCAAACGACGTGCCTAGTATCTGCAATAAACGTAGTCTACGCTCTTCCTCGGGATAAACAAGAGCAGGTAGAATATTTATTTTTTCTATTTTATTTATTTTTTCTATTAATTTGGCATCATCATTTGATAATAAAAATGAAACTTTATTTGTATCAATTTCTTCGCCATTTTTATACATAATTTTAACTAACTCTCCATCTACAAACGCTACTATATTACCTTTAGGATCATGGATAAGTTTCCCATCTTTTAGTGAAAAACTGAAAAGCCTCACCAGTTTTATAAGGTATGTCTATATTTAAAAAGTGTGATACTGACACTTACTGATGTTTTATGGGGCTCTCTATTAATAGTTTGGGTAGCAGTTGTTACACTTTATATTTCAAAAATATTTGCAAAAAAGTTCAACATATATGTTGCAAGGAAAGTTATTCATATGATGGGAGGTGGCGTTGTAGCAATTTTAAGCCCTTTTCTACTTTCTTCTCCTCTAATACCCATATTATCTGCATATCTACTAACAGTTTATTTATTAATTCATAGAAAAGAAGGAAAAATGTTATCGTGGTTTCAAGACAAACAGGATATTGGAGAGATTTATTTTACTTTTTCATTTGGAACAGTTTTGCTTTTGTCATGGATACTTCAGCCAACTTTTTGGTCTATAAATAGTAAATTCTTATATGTGGCTCTATTGCCTCTATTTTATATGTCATTTGGAGACGGTGTTACAGGAATAATAAGGAATTATGTATACAAAAAGCGTGTTAAGGGATTTTGGGGCTCATTAGGAATGCTTATCATTTCTTCTTCTTTAGGCTTTGTCTTTCTTTCTATTCCAGGTTTAATTTCAGGTATATTAGCTACATTTCTAGAAAGAATAAAGAAAATAGACGATAATCTAACTGTATCTTTAGTATCATTTCTATTTCTCTATATCGTTATAAAGTTTTTTTAATTTAAGAAATTCTTCCTGATTAAATATTTTTATTCTTAAGTCTGTGGTGTTTATAACTATTATACCATCTATCTTTGCTTCTTTTAATGAACTCAAATTGACATCCAAACTCTTGTGGTACTTTCTTATTAGAGACATTATTTCTCTTATTTCTTCTTCACTTCTTTCAAACGACGATTTTAAAAACATGTTAGGTACGGGAGGAATGTAGAAAGAAGGCACTGCTATAAAAAACTCTTTTGCTATATTGCTATACCTTGCTATTTTAAGTGCAGTTCTACTCCTTAGAAATTCTTCTTGGCTATTAGCAAAGTTTGGTGGGACAAATCCAGTTTCTACTTCTATCCCAATATCTATTCCTTTAATCCCGTAAACATCCATTATTTTTCCAGAATTTTCATATTCAACTGTAGTCCTAAATCCATTTTTTATCAAGAATGCTGCTGTTATTAACTCTAATGTTGAGTGCCCGGTATTTATGAAACCTAGCTTATGAAACTCGATAAGCTTATTGAAGATGTCCTCTATGTCTATTATACCGTAACGAGTTAATATCTTATTTTTTACATTTTGTAAATCTTTTATAAAGTTCCTATTTTTCATAATCCCACTCTCAGTGTGGGGAAACGCTCTTCACTGCTCAGAAAACCGTCACGTCATCACTGCTACATAATTTTAACATCTCTGGATTAAAACTATTTTTATGATAAGTTGGCTTCTTGGGTCTCAAGCTCCTCCTTGGTATTATTTAAGGGATATATTTTCAGATTATCGTAATGCAGGAATATATATAAATAATAAAAATGAAATAGAGATAATTAAAGTAAGTGATTTGGATGATTTTTTCATTCCTACATCTGTCCTATTACATGCAAAATACTTAAAAGAATTAAAACCTTATTATATAAAATTAGAAAAATATGTAGCCTTTCCTATTTTTGATATTAACGCTATAAAAATATTGATTCAAGGAAAAGGTTGGAGATCTATAGAATATTATTATTGTGACAATTTTATAGGTGGTTGGGTATTATATGATTGCACTAATTGTGAAGAGAAGCAAATGCTTCATCTTCAAGTTTCAAGAGACTTAGGTACTGAAGATCTTGTAAAAGCTCATCTAAAAATTTATAATTCATGAGCTTCTCTTCCTAATTCAAAGTTTTTTATCCCTCTAAATCTATCTAAGAGGTATTCCTTGTTTTCATAACCATTTTCTATCATATCTACAAGTAAAGACGCTATTCCAGGTCCTATTTCAGCTCCATATCCATTAAACCCACCTATATAAAACAGATTATCCAACAGTCGTCCATAAGCAGGTCTCATATCAGGGGTTCCTTCACAAAATTCACCAGAAGTATAAATATGTCTTAGATTACCTAGTCTTTCTTGAGCTTTTGTAATAACTTCCAATGGATTCACATTGATCTTAGTACCAGGTTTTGCTTCTATTGTTTTACCATCACCTACTATAGCAGTTTTTAATCCTATGCCAAGAAATGGTCTAGAATAGAACTCTTTCTCGTAATCATAAATAAAAATGTTATCCAGAATTTTATTCCTTGTAATTACTAATGATGCCCAGCAATAGTAACTTTTAGAAATTACGTTAAACAATAAATTATTCCATGGACCACTGGCTAAAATAAATATATCAGCATCTATTTTCTTATTATTTACAAGAACTTCCACGTTGTTACCCTTTTGTGATATAAAAGCCTTTTCTTTAACTATGGGTATAGAATCTATCATTCGTTTTACATAGACTAGTCTATCTCCATGTTCTGCTACTATTCCTTCAGTATTTAACCAGTCTATTTTATCTTTCTCAATTTTAACGCCAACTTGAGACCATAAATCTATTAGTTTTGCATCTATCTTCCCTATTGTGATTGATTTGAACTCCTTTAAAGGAATTTTATTTTCTATGTAAAAATCTAGACTTTTCTTAGCTATTATTACATCGCTGTCTTTTAAAAGCAATGAATGGATTAATGTCATAAATATTTTTCTAATTCTGGGATCTATCACAAATACTTCGTGATGTTTTTTCTTTAATTGAATATATAAGGAACTTCCTGCTATTCCTCCACCTATTATTACTATTTTCAACAAAACTCTTAGAATTGCTATATGTCTTATAAAATTATAGTTAATGGAAAGTTCAGATGATGATTCACTTGTATACACAAATATCCATAGAAATATTATAATTCAACTAATAAAATGTTTTAATAGAAGAATATTAATTTTCAAGATATTCTGCTAAAAATATCTAATAATTTTTACAATAATCATGAACACGAATATACTCGAAAACAAATTTCTTAATTATATTTAGAGAGATCAAGATATAGATGAATTATTAAACAAAACTTTGTCTGGGTGAAAGATAACGGTAACCGAAGGTTATTTTATAAAATATAAAGACGTTATATGGTCTGTAAAAGGATGCTTCCATCCTGACGGTTATGCGATAGCTGTTCCTAGATATTATAAGAACAAAAAAATTAAGAGAATGAAGGAATCTATGGATATTGTACAGCAGAAATTCCCATATTTATTAAAATATTATGACGAAATAGGATTTCGAGTTCCTGCAGTTCCATTAGATGAGAGTATTATATTAGATCCTTTTTCTTTTAATCCTTATGGAGTTCTTAGAGACTTTTCCTTATTTTTTAGGAACGTAGGAATAACAGGGAGTTATTTATATGAAGGAGATGGGAATGATATTGATTTATTGAGTTTTGATGAGAATAATTATAAAATATTAAGGCTATTAAGACAACAAGGAATTACTTCGCCTCTAGAGTCTATAAATTCAGAGGAAGTAGAAGGTTTAGACTCTAGAGACTTCCTAAATCTAAAGAAATTCAGAGTATTAGAAGGATTCTTTAAAGGGATTCCTTATACTTTTAAAATAGTGAGATGTGAAGATTTTGGAAAAGTAATGAAAATGGAAGAATTTAGTGGGACTCTAGAAATAAAAAATGCTATAAAACCCTATTCTATTCCAGTTAAATATTATACAGATAATTTCGTATTAACTAGTTTTAGAACAAGATATACAGAATTAGAAGAAGGGAAAAAAATTTTTGTAAAGGGAAAAGTACTGAGGAGAGATATATTTAATGATTTAGATTTAGACATAGCAGAGGAAGTTAAGATACTATCCTAGCGTATTAATAACTATTATTAAGCATTATTAGAATCTATTATTATGAATTCACACGAACTACATAGGGAATTAGCACCAAAGATATTGAATTTTTTTGTAATTACCATAAGCACATCTAGATACGAAAAAATGATAAAAAAGGAGCCAGTAGTAGACGAGTCTGGTGATGCAATAAAGCAAGAAATAATTACTGCAGGACACAAGATACTAGGATATGATTTAGTTCCAGATAACAAAATAAAAATACTTAAAGCTTTCTTAAATGCAGTAGATAATGAAAATGTAGATGTAATAGTTTCAACAGGCGGAACTGGGTACTCTCCATCTGATACTACAGTAGAGACTTTACGAAAGATTTTTGATAGAGAAGTAGAAGGTTTTAGTGACGTTTTTAGAATGCTCAGCTATAATGATCCAAAAGTAAAGTCAGCTGCATATTTAACTAAAGCATCTGCTGGAATAATTAATAGTAAAGTAATATATCTCTTACCTGGTTCCCCAAGTGCAGTAACTTTGGCAATGAAAGAATTAATTATACCAGAAGTTTCGCATCTGGTATATATAGTACGCTCTAAGTAGCAAATAGCTTTTCTATTCCTTTAACTATGTGATCTCTAATATTTTTATCTAGATCTATATATTTATCATTATTTAAATAAAATAGAAGTAGCTCGTCTTTAGATCTACTACTAAGAAAGTTTTCAATTAGATCTGTAAAGGCCTCATTTTTAACATTATCGTCAATATCAGTATACCATTCTAAATCTTTAAATAGTTCATTAAGGCTTCCTAGATAAGATATAAAATCTTTATAAAATTTATCTGAAATAGAATAGTCTATTTGAACATTGAATAAATCTAAAATATTTTTTATCCCTAACCTTCTTGCAGCTAGTGGACATAGACTTATATCGGCATTAGGATTTTTCTTACCATAACCCTCGTTATTGACTTCATTAAGAAATTCATAGCTGCATGTTTTATCTGCATTTTTAAAATTAGCATCATAAAAACACGGTACATGAACCTTCATTTTTTCTAGTTTATTCTTGATCTCTTTTTCAAGTAATTGGTATATGAACGTAACGTCAATTATTTTCACATTTTGGAGAGAACTTAAAAAGTGAAATTCTTCTGGAGTAAGCGTAATTATTTCGTCTATATATTTTATTCTTTCCTTAATATCATTATTAAATTCGGATTTTATTAATTCTGCATACGAAAGATCTAATGTAATTATGCCTACTTTTATTCCCATTGAATCAAGTATTTTGAATGCCTTAATTGCAAATTCTTTTAGATCTTTAGAAATAACTGTTAAAACTATTACTCTTCTAGAAAAAAGATTTATGTTAATACCAAGTTTAGTTTCTGGAAATTTGGCACTTTTAATAAGATCTAAAACTATACTAAGATCTACTGGACATACGTTTGTGCATTTACCACACATATGACAATTAGACACTTCTTTTTCCTTGCTAAAGGAAGACAATACGTAAAATCCTAATGGTGAAAATACACTAGAATCTCTCTGATCTTTATGCGGGCAAACTTCAGTGCATTTTCCGCATAATATACAGCCATTAAAAAGTATCTTATCATTAACATCCGAATATACAGTAGTATTTGGTAAGACTAACGGATTTTGTGAAAAAGCATAATAGTATACTTCATTTTTCCTGAAATGGAAATAAACTAAATCTGATCTCGAGAAAACTGAAGGTTCAAAAGAGACTAAAGTTATGTAGCCAGCATATCTGAATTTATGTTTTCTTATATCTTCATAAGGTGGTTTACTATCCTGGAAATTATCGATGAATTTTTTTACTAATACTTCTCTCGTTTTTGTATATGATACAAATACCTTGGCTTTATTGTTTTCTTTAATCAGTGTTACATCTCTAAAAACAGGGAAATCAGAAATAAACCATTTTTTAACTAGATTTGCTAGATATAGGAAGTCTCCTTCAAGATACTTGTAACACATTTCCTTATTTTCCTTATTTATTAGTACTGCAGATATTATTCCACCTTTGTATTTTCCCTCATATTTTTGGCCATCTATATAAGCCTCAACTTCTACTCTATCCTTAATGTATCCAAACTCATTAAATCCAAAACATGCGTCATTAAAAGATACTGAACCACCCACAGTAAAATCTCTTATACAAAAAATTTCTGGATTATAATTAATTATTTCTTTCCATTTAGTTCCAGGCATCACTTTAATTTTGTCTCCTAGATCTTCTACTCCTTTAAACTCGGTCAAATCAGCTATTTTGTTTCCCTGAAGTCCTCTTATAAATTCATATCTAGGAGTAAAATCTCTTAAGTTTTGTAAATCGTCTTCCTTACGTACTTTAATAATAACCTCTGGAGGATTTACCTTAACAGTAGGGGATAATGCTGAAAATAGAAATTTTTCCATCGTAACATCACATGATTTTTGAAGATTTTAATTCTATTTAATACTTATCTTATACTCTCTCCCCAAAATTCTTCGTCTTTGCTCCTTGTACCTTTCATTACTTCAGATATCAGTCTTAAGGATTTTCTTCTAGAAAGAACCTTATTATTATTCCCACAATAAGGATCATAAATGCATTTTGGGCAACCATCTTCACAATCACATTTTCCTACAATATCTAGGGCTACCTCATATGCGTCCTCTAATCTATCATAAAGTAATTTAGAGACACCGCTTCCACCAACTATTGAATCATAAATTACTACGTGCCCACTAGGATAACTTATACCAGATAAATCAGTGAGCGAAGCTCCAGCTACAACTCTTCCTGCTGAAATAAGTACATGTTCAGTAGCATGATACGCTTCCATTCCATCCATTAATGTGAATTCATCTAATATGGGATGTTTTATTATAAGACCTTTTGTTCTATATGAATAAGATATTGGATTTTCAAATTTAAATTCAGCAGAACTCTTATCTTTTTTTGAATAAAAATCATGTACTGTATATCCTTCTACTGACACTTTTACCATTACTTCTCCATATTTAACTGGGAGTCCAAATACGTTTCTATTTTCTATTTCATTAAATTCTTTTAAGTCTACTGAGTATAATGGCTTGGTATAATAAGGTAGATTATCACTAGTTTTCTTAACAGTAGCAATCATTTTTTTGAGATCAAGATTATCTACTATATAATTTCTCTTAGATGCAATATAAACTGCGTTAGGATATAAATCGTATAATGCTATAGGTAATTCTCTCTCACCTATTTTTTTATCATCATTATAAATCTTTACTATAGGACCTGAGCTTCTTAGTGAAGATTCTAAAACAAATTTTCTTGTTTCTTTAGTAGCGTAAGCTATCCCATTTACAATCCTTATGACGTTATTCTTTTCAAGTTCTTTACAAGCTTTTTGCCATAGATTAGGTAATTCTTTAATTTTTACCATATATTTCTCAAGAATGTATGCTGCTGTATGAACTTTAACTACCTCAATGTTTGATGTATCAAACGGTATAGGAGTTAGTTTTCTTGCAAAGAACTCTTTCGGTTTTCTTAAGAAATATGAATCTATGGGATCATCACTTAATATTGTAAACACGTACCCTGCTACATTTCTTCTTCCTGCTCTTCCTGCCCTTTGTAAATACTTTGGATAACTTGGTGGATTTTCTGCCATTATTACAGCGTCTATATTGCCTATGTCAATACCTAATTCGAGAGTAGGCGTAGCAACTACTCCATTTATTTTACCTTGTCTAAGGCCTTGCTCAACTTTTAATCTCTCTTCTGGTAAAATACCAGCTCTATGAACTTCTAGATCTGCGCCAAATCTTTGAGCTATTTTAGCAGTAACCTCAGCCATCTGTTGAGAGTCAGTAAAAATAAGTATCTTTAAGCCTAGTTTAATGAGGATAGCAGCTAAATAAGCTGAGAGAGTCCACCTACTTACACCATTAGAGTTTATTAAGACGTGAAATGCCATTCCTTTTCTTCTACTACTACCATATATTATTTCTCCTTGTTCTCCAAACATAGCCTCAAACATATAAGGCGAGGCGCCTATAGTAGCGCTAGAAGATATAATATGAATTTTATTATTGATATCTCTTAGTCTATCTATTATCATTCTTAAATGTGAGCCTAATACACCTTCATAAACATGAATTTCATCAAATACAAAATGATCAGCTTGTCGTATAGTTTCACTAAATCTTCTGCTCATAGCTAAACCAAAATGCAACATGTCTGGATTAGTTATCAGAATCTCTGGGGGATCTTCATATATTCTATTTCTTTCTATTCTAGGCGTGTCTCCATCGATAACCCCTACCCTTATTGGCAAATTTTTTATAAGTTTACAAATTCTATTTAGTTGATCTCTAGCTAATGCCTTTGTAGGATAAATTAATATACTTTTTTCGCCATTTATTGCAAAGTTTAATATTGGTATTAGAAATGCTTCTGTTTTTCCAGTTCCAGTACCAGAAATTATTAATATATTTCTTCTGTCTAGAATTTTATTTATAGCTTCTTCTTGGTATTTATATACTTTTTCAATTCCTATATTTTTTAACGATTTTTTAATTTTCTCATTTATATTTAGATTATCTACAGTAGATCCCAGATCTGGTTCAAAGGCTGTTTCAGTATAAATATGAGTGATTTCAGCGTTAAACAAATTTAATCTTTCCTTGACGTTCTCCAAAATATCCATATATTTATTAAGATGGTATTAGAAGAAAATAACTATGTCTGAGATATTGGATAATGAAGGTGATTTAAGTACATTCCTTGAAGCTCAAGAAAAATTGAGAACGCAAAAACTTGAGATAGTAATACCAGAAAGATTATTGGAAGAATCTCCTTATATTAGCAAAAAATACGGTTATTCAATAATAGATGGAGAAGATTTACCTAATGGATACATTAAATTAACTTTAGTATATAGAAGATAACGTTAAAACCTCACTTTTTACGCTTTAAAAGATAAAATTGTGTAGCGTAAGTGGAGTAATTATTTTTGATAATTCTAATTTTGATAAAATAGAGAAGAAATTTGCTCAAATAATGAAAAAGGCTGAGGATAGAGGTAGAGATAGTTTTGGAATAGTAGCTATAGAAAAAGATGGAAATGTGAGATCAATTAGATCCTTAGGAAAGCCTTCAGATTATGAAGAGAAACTATATGGAATATTTAATGAGAACACTAACGTTGTAATAGCTAATAATAGAGCCGAACCTACTACTGAATACATTAATAAGAAATCTGAAAAAGATATCCAGCCTTTTGAAGGAGGGAGATATGTTGTTTCTCATAACGGGATAATAGCTAATGATAATGAAATAGAAAGGAAATATGGTATACATAGACAAACTAAAATTGACTCTGCTATTATTCCTCCATTTTTAGATAAATTATGGGATGGTAGTCTTGAAAGTTTAAGAAAATCTCTTTCCGAAATTAAGGGAAGTTTTGCTTTTATATTAGGAGACAAAAAAAGACCCGATAGAATATTTGCAGTACAGAATTTTAAGCCAATCTATATGGCTTATGATTTTTCATTAAAAGCAGCATTTTTCTCGTCATTAGATGATTATTTTGACGTAAAGCCTTTTGATCCAGTTAATGTAAAAAAGTTAGATCCATACAGTATAGTAGAGATAACAAAAGATATGAAGATTAATCAAATACCTTTAATTTCAAAGTTAAGTAAAAGAGCGTTAGTAATAGCTAGTGGAGGTCTAGATTCAACTGTAGCTGCTACAAAATTGATAAGAGATGGATATGATGTAACTCTTATACATTTTAACTATAATCACAAAGCTGAGGAAAAGGAAAGAGAAGCAGTAAGAAAAATTTCCGAATACCTTAATGTAAAATTGATTGAAATGGATACTAATATATTTAAGATTATAGGTCATACGTCCCTTTTAAAAAATGGTGGCGAAATAATTAAGGATAGAATGGGAGAAGAAGGAGCAGAATTTGCTCATGAGTGGGTTCCTGCTAGGAATTCAATCTTCATGACAATAGCTCTTGGCATAGCTGAAGCTGAAGGTTATGATGCAGTAGCTACTGGTATAAATTTAGAGGAATCTGGAGCTTATCCTGATAATGAAATGGAATTTATAAGGTTATTTGATAAATTATCTCCTTATGTAACTGGTCCAAATAAGAAAATTGACATACTTATGCCAGTAGGTAATCTAGTAAAACATGAGATTGTTAAGCTTGGTGTCGAAATCGGTGCCCCTCTTCATTTAACGTGGAGTTGCTATGAAGGTGGAAATAAACATTGTGGAAGATGCGGTCCATGTTATATGAGAAAAACAGCGTTTAAAATAAATGGCTTAAAGGATCCTGTAGAATATGAAAGTTAGATTAGTTTAACATTTATAGTTTTTTTACCTTCAACCTTTATTTTATCTCCTTTACTGATCTTTAACGGACCTATAAAGGCTCCTAAAGAAATATATCCATTCATATCAGATTTTATTAGATCTTTTATAGAATATGAAGGACCTCCTTCTGCAGTGAATTTATCGTTTATAGATAATTTAAATATACCAAACGGTGGTTCAATCTCTTTTCCTACATAGAGTCTACCTGCAAAAGCATCGTCTGCTATTATATACTCTTGTGACAGATCCCATGTATTAAATCTCGTAGCAGGTAGCTCTAGTCCTAAGAAAGTTTTTTCCAATCTTCCATTTTTTACAAGTGCTATTATTTCCACTTCTAGTTTATGGGTTGGGAACCATAATTCAACATTATCAAAAGTTATCATTTTCTTGGTCAATATGCCTATGACTCCACCTTTAGCTATTTTATATCCTCCAAATCCTTCGTAAGAAACTAACATATTACTAAACTCTTTCCCTATATCTTTAGCTTCTTCTTGAGTTAAAGGAAAAGGCTCAATAGTTTTTCTTTCTTTATAAGCTTCGAACAGAAGTTCGGCTTTATTCATACCACTCATACTCAAACTTAATAATTTAGTTAAATAAAATAATTGCATGATAGCGTGTACGAGAGACTGTTATGATACATGTATTTTCGACAATAAGTATAAACCTTTGAATATTTTTCCCATAAATGGTTTTACTTGCTCAAGAGGAATTATGGATATAAAAAGAAATTCTATTAATAGGATAGAGTACCCTATTATTGATGGCAAAGAAGTTTCTTTACATACAGCAATTGAGCAAATAGCGAGAGTGATTAAAGGAGTAGAAGATAAAAGCAAAATTTTGCACATAGATTATGATGGTAACCAAGGTCTTTTAACTTGGTATTATCCTTCAAGATTATGGAATGTTATAGGAGCTTCTACTACAGACTATTCAATATGTAGTCTAGAGGGACATGAGGCAATAAAACAAATATATGGAACAAGTTTTGGTGCATTGCCTGAGGATTTTCTCAAATTTAATACGGTAGTATTTTGGGGAAGCGAGTCTGCAATAAGTTTTATTCATGGTTGGAAAATTTTGAAGAATAAATTTAAAGTCACAATAGATGTTAGACTAAGTGAAACAGCAAGAAGAAGTGACAAATATTATATTATAAAACCTGGATCAGATGTCTTTTTAGCAATAGGTATTCTTAAATTCTTATTAAAAAATAAGAAAATTGAAAATATTAAGAACTTGGATTTATATAATGTTAGTGATATAAGTCAAATAACAGGTATTTCAGAAGATAAAATTGAGGAATTAGCCAATTTTTATTCAGAAACTAAACCTTTAACAATTATAGGTTTTGCGTTAGGAAGGTCATTAAATGGAGGAAATGCTATAAGTACAATCTCTCTTATACCATATTTGCTAGGAATTCAACATGGATTTTTTTATTCTAATAGTCAAGGCTGGGGAATAGATTTTGATTATCTTAGGGGTCTTCACTTAGCTAGGCCAAGTAAAATAGTAAGCATGGCTGAAATAGGTGATAAAATAGATGAATTCCAAGTAATATTTGTATGGAATTCTAATCCTATAGTCTCTCTGCCTGGAGGAAATAAGATAGTCGAAAAAGTGAGAGAAGGTAAAGTTATTTTAATAGTTCATGATCCTTTTTGGTCAGAAACTGCAAAAATAGCTAACATAGTCATACCAGCATCTACTTTTTTGGAAAAAGAAGACGTAGTGTATAGTTATTGGCATCAATATCTAGTTTATAATGAACCTATTTTACCTAAAAAAGGAATCACAGAAATAGAATTTATTAATTTATTATCAAAAGAACTTAATATTCAACATAGTTTGCTTGAAGAGTCTCCTTGGAATGCTGTAGATTATTCTTTAAGAAAAACTGGTATTACTGTAGATTTATTAAAAAAGGAGAAAATAACGAAAATAACTCCTAAGATTACTTATAATGTTAAAGTAACCATTCCTCATCCTAATGAGTTGATAAAGCCAAGTGGAGATTTCATAGTATATTCTGCCCATCCTAATTATACTAATAGCCAATTTAAGGAAGTATATGGGGCAAAAACTGCGGTTATATATAATTCTAGTTTTGAAGGATATGGTTATATAACTTCTACATCAGGAAAATTAAAGGTACGATTTAAAAAAGATAATAAAATACCGTCTGGAGTATATTTTGTGTTTAAAAATTCATTATTAACTGATGAAGGGATATCAATAAACTCTATTATTCCGTCAAACAAAGGAAAATACGGAGGACCGTTACTTAACGTTAATTTAAAAATAGATTTTCTTAAAAATTAATAGAATAGTTTATTAGCTTTGTTTTTTGGCTTAAACCGAATATAGTTTGATAAATAGAGATACTAGATGGATGTTCTCAGCTTTATTTTTTGGTATAGTTAATGGTCCATTATCAACATTAGTTAGTTTAGAGATACTTAATTTAGGAGGAAACGCAATAGATGTAGCTTACGCTATAACATCAGCAAATGTAGTTCTTATACCAGCATCCATGTTTTGGGGAATTATTGCAGATAGATATCACTTAAGGAACATAATAATTCTAGGATTTTCGTTATCAACCTTATTTTTATCATTAATGTACTTTACGTATTCTATACCTCTTTTGACTCTATCTTATTCAATATTTACTTTCTTTAGTGTTGCTTATAGTACTCCAATGAATCTACTAGTTATGGAAACTAGTGAGAAAAGTAAATGGGCATATAATTTTTCAAGACTCTCAATGTTATCTTCTATAGGTTCTTTAATAGGTCTTATTTTATCCACATTATTAGTTGCAATAATAAGGATATTTCAAGTCTATCTTTTTTTAACAATATTTGGAATAATGGCTTTAGGTTCTTCAGTTCTTTATACACCTAAGACTATTATAGGAATAGAAAGGACTAGTATGCTACACCATAAGGAGTCATTTTTAACTAGATTAAAAATGATACCGCTTATTTTTCTTCATTTTCCTTCAGTTCATAGTTTCAAGATGTTTAAATTATCAAGATTATTACGAAAACCTATAAATTATCTTCCTTTGCTTTATCTAGCTATATTTATATTTTATATATCTAGTGGTTTATTTAATACAGTATATCCAGTTAGCCTTTATCAAGGAAATTTGTCTAAATCTGAAGTATTAGGTATAATAACTGAAGGTATGTTAGCGCAAATAGTTACTTTCCACTTTACCGGTAAATTATTAGAAAAAATCGACGAAAGAGAAGCTGCCTCTAAAGCTTTACTTTTAAGGGGAGGAAGTTACATAATTTTGGGTATAGTTACTTTATTCCCTAGTCTTCTCCTTGGTGCAGGAGCAATTTTTTATCCATTAGCAGCAGGTTTGGCATTTTCTACGTATTACTCGGCATCGAATACATTAATTTTTAAGGCAGTTGGAGGTAGAAGACAAGGTACTACATTAGGAGTATATAGTACATTAGTTGGAATAGCAATGTTTATAGGTTCTTTATTGTCCGGATATATTTCGCATTATTATGGATTTATAACAGATTTTATTATTGCTGGTACATTATTATTTATATCTAGTTATATATTTAGATATATAGAGGAAGGTTAATTACGTTTTCTTCCTACCTCTAATAAAACCTATAACTCCTACTGCTATGCCTACAAATATTGTCACTAGGCCTAAAATACTAGCCAATTCGATCAGAGTAATATCGAGGGCGCTAATATATCCATAAGAATAATACAAGTTTTGAGAGGTAGTTTGATTATTAGTTATTTGCATTGTTCCTTCTAACGGTCTTATATAATAAATATAAGTATGATTCTCTATATTAGACTCAGACACATTGGAAGGTAATCCGCTAACTCTAAGAGGTAGATAAGAAGAGGTATTGTATATTAATACGAACATGCTATTATTATTTTTTCCGTTAAAATATATATTTGTAGACTCTCCAGGATTTAATGCTACTTCATGTGAATTTTTGATTATTTGCGACGAAATATAATTAGCTTGTTGATATGCTAAAAGAGGTGATAATACAAATACTAAAACGAGTCCTACTATGGCTATTATTATACCTATCTTAAGTAAAGTATGCATTAATATATTACATCTCGTGATTGTCTAAAATATTTTATCCTAGTTTTATGTATACTTCTGATTTATCTAATAATATTGATGCAGATAAATATATTGAAAAATATTTGGAAAAATAATAACAATTACTCATTTAATCTTTCAATTTAGTTAGCTTCTTTTTAAGACCATTTAAACACGCATTACAACATGCATAGTATATTTTTTTACCTCTTTTGTAAATAATAGGTTCAGATTCAATTTTTCCTCCACAATAATCACAATATAACGAAGTTCTAACAAATCTCTTTCCTAAGGAACGGGCTAATATTACATTTTTTGGTTTTATCTTTTCAAGTTCATTCTCTATTTCGTTTAGAGTATTGCTTCTAATTAGAGAAATGAAGTCTCCGGAAATAGTTTTATAGCATTCTGTAGATTTACACGAATCAGTTACAACAAATGCTACTAATTCTTTATCTTTAGCCTCTATAGTAAACTTAACTCCTTTTTTCCTTAAGGAATTTATTATTCTAGAAACTGTTACTCTGCTTAAACCTAGCTGTTTTGCTATTTTAGCTGCAGGCATTCTAGCGTCTTCCTTTAGTATCTGAAGAACTCTAAATTCTATGTCAGATAGTTTTATTTCGTTTGTTTCTTCAGACATTGATTATAAGTTACATAACGATATTAAAAGTCTAGAGTAAATTGACGAATAGATAATAATCAATAATATTTTATCTCGAATATATAACATTAAATTATGATAGATCCTGTATGTGGAATGGAAGTCGACGAAACTTCAATTTATAAGACTATGTATAAAGGTAAACTATACTATTTTTGTAGCAATGGATGTAAAAAGGCATTTGAAAAGGATCCTGAAAAATATTTAAGGGAAGGACCTAAAGGAATGCCGTAGTCTACTAAATCATGGGCAACAAATACTTTTGAATGTAATCAAAACTTTAGAATATCAAGGAATAATCTGTTTTCCAAGCTCTTTTTTTATTTTTTCGAAATTTTCCTTTTCAGTAATTATTACGCTTATAAAAAACTCATCTCCATAATTATATACTTTGTCTAATACTTTATCAATAATTTTAGATTTATCTTTGCATGATGCTTTTTCTATTCCTACAAGAAAGTATTGGTCTTCATTTACAAACAAGTAAGCTTCCCCGGTAATCTGCTTTAGTACTTTATAACCCTCATATATACCTTTTGAAACATTCATATTTAATTTATTTTGAGTTACATACTAAAAATTTTTATCGTTATAGTTCTGGTTACAGATATTTAGTGCTGGTTTGCCCTTGCGGTATATTCCCAAAAGTATCAGTAAATTTAAAAATTACTAGCATACCTGCATTTCTTACGAAATAAAACGAATTCATGAATTCGTTTGCAGTTAGATTCTCTGCTATTACAACTCGTGTTATTTGAATAATTTGGGGCACTTCCTGACCCATAGGCAAAAATATTACATCTAATCCCATTTTTAATATATCGTATTTAATTTCATTAATGAATTTTTTTCTATCAGAATCTTTTAATTCTTTCAATGCGTTTTGATGAGTGGGATGTACTCCTACTCCCATAGCTATAATATAGAAATTACTATTCTCTAGCGGTCTTACAATATCTACCACTGGTCCTCCTTGTGGTGGAGTCACACTTATGTGGAAAAATTCTTTAGCTTGAGGAGGAGTAAATATTGATAATCCTAATGACTGAATCCAGTTTTTTATTTCATTATCTAGATCCATAAATATTAACAGTTAGGTAAATTATTATATCTTATGGTCAATTTTCCTTCCTATACATAGAGAATTATTTGGAAATAATGATTTAACTCTATAAACTCTATACAATTCTATACCAAATCCATATTTTTTACATAAATAAAGTAATTCCCAAGGGTAAAATAGTCTATAAAACCTATAATATGGACTTCCATTAATTACTGTTTTTTTATAAATATGCCTTTTAAATAAATATCTAAACTGGGCTAGCCATACGGTAATAATTATTATACCATTATTTTTAAGAACTCTTTTTCCTTCAATTATGGCATTTTCTGGAGAACGTAAATGATGAATAGACGCTATATAAATTAACGTTCTGAAAGATTCGTTTCTGAATGGTAAAAACTCCATATCTCCTTGAACTAAATTTTCGCACCCTTTTTTTCTTGATTCTAAAAGTTGTTTTTCCGCTATATCAAGACAGATTACATAACCTTTTATGGCTGAACAGTTTTGTCCTGATCCACATCCTATATCTCCTGCTGGAAACTCGGTTACATGAATGTTTATAGGTTTTCTTCTATGTACTATATGTTCATAAGCTTCCTTTGTAAGCTCTTTTTCTTCCACAAGATTATATATCACTTGAGCATTTTTGATTTTAATGAGAATTCTAGTTTTACATGGAAAAGGATCATCTCCAGACAAGATTAAGTGGCTTTCCAAACCATTAGAAGAATTTGGAGAAATTATAGTACCAGATTTTGATTATGAGGTAAAAGAAGGTGTAGAAAAAGCATTAAAGTATGACTTTGACTGTATAGCAGGTCATTCTAGAGGTGGTACAATAGCGCTAATGTCTAGTGCATTAACAGGCAAATGTTGCATTGCAGTTTCTGCGCCTTCTGATAGAGTAGAACAAATGAAATATCTATCATCTTTTCCTCAAGATAGCATACAATATAGAAATTACCTTGATTTATCCAAAATATCTATAGAAGATTTAAAAAAATATTCTCCAATCAACTATGCCGATAAGTTACATAATGTCCTTTTAATTCATGGAAAAAATGATAATATTGTATCTCCTACACATAGCATAAACTTATGCAATAAAATAAAGGAAAACGGCGGTAAATGTGAACTTTATCTAATTGAAATGAAACATTCTCCTCCAATGGATAAATACTCAGAACTTGCAGGTATTATAAAAAAATGGGTTAAAACTCAGATTTATTAACTCTGAGTTGTTACTAATTTTAATGCGAGACTCCTTCGGTTGGAAGAACGTAATAATATCAGGAATGGGAGTTTTTACAGATGGATATAATTTATATTCGATTTCACTAAGCTCATATTTTATTATACTAAGCATACATTTAACGAATTTAACTCTTGGATTACTTGTAGCTGGAAGTTACTATGGAGCAGCAATTTCTGCACTCTTCTTTGGAGTAGTTGCAGATAGGATAGGAAGAAAAAGAATGTATGGAATAGATGTAACTCTCATGGGTATTGGAGCTTTAATGCAGGCTTTTTCAGGGAACTTTGCTGAGCTATTTATTTCAAGGTTAATTTTAGGTATGGGTATTGGAGCAGATTATGTTCTTTCCCCAATTATAGTAGCAGAAAATTCATCTGCAAGAAATAGAGGTAAAATGATGGTTATTACGTTCGCTGTAATGTGGGGATTAGGTGCTGTTTTAGCTGCTTTTGTAGAGCAAGTAACGTTAATGCTAGCTCTTCCGGCTAGTCTTATCTGGAGAATTGTCTTAGGTTTCGGAGCTATTCCTGCTCTTTCAGTTATTTTACTTAGAAGGAGAATGTATGAGACAATTCTCTTCTTATCTAGAATAAAGCCAGATTATAAGGAAATTAATAGAATAGAGAAGGAAATAAAAAATAAGATATCTATCAATAAGGATACTTCGTCCTTTATATCAAGGCTAAGATCTTCTGTTTTACTTATTGCCATGTCCTCAATATTATGGTTATTATACGATGTTTATTCCTCAACTTTTGCTATATACGGTCCTATAACAATAGCCGAAAATTTAGGGCTAACTCCCATAATGTTTACATATGTAGCTCAGTTTATAGCCGGAATACCTGGACAATTAATTTGCATTTCTCTAATAGATAAAATTGGAAGAAAACCATTAATAGTAGTAGGTTATAGTGGAGTTGCATTTTGGTTATTTATGTACTCTTTGCTTTTATTAGATCCAACTTTATTTGGGGTCTCGCTAGTTAAAGGAGAATTAATAGGTTTTGCTGCAGAGTTAGGGTTTTCTTTCTATTTATTAAACTATTTATTTTCAGCTATGGGACCTGCATCAATTATAGGATCTGCAATGGTTGCGCCTGAATTAATACCAACAAAAATAAGAGGTACAGGACAAGCAATTAATGTGAGTATAGATAGGCTTGCGGCTGCATTAAATATAACTGCTTTTCCTACATTACTATTAAGCTTTGGCTTAGGTGCGGTCGTAGGAATATATGCATCTATAGCGTTAATATCTAGTCTAATTACATTAATCTTTATACCAGAAACTAAAGGAAAAAGCATAGAAATTATAGAGAAAAAGGAAATTGTAGATAAAAAAGAAACTGTTTCTTAAAAAAATATAAAGCCCAGATGCTTAAAAATATTTTTTGTCGAAGTTTAAACTTATGGAGCCGTTCTACTTCAAATCATATGATAGGATAGTTGGAGTCGCCCACGACGTTAATGAGTTGGAGAAGGAAATGGATAGGTTATCTAAAGAGGATATTGATTGTTTGGAGTATCATTTGAAGGAGGGTCATATAGTATCATGGTTGAATTACATAGGTGAGAGGGGTTTGGCTGAGATGTTGAAGGGCGTTAGCGATCCTAAGGAGGCTTTAGCTAGACTTAGAGAATATAAAGCACTAAAGGTAATACCTAGCTACCCAGACTATAAAGTAGGCCATGAGTATAAGGCTAGTTTTGGCAAAAGAAAATCCAAGAAAAGGTTCTGATTTTTTCTAAAAAGTCTTTTTTCTTAGATTCAGCATAGTTTTAGTTATAATGTTAATAAGAAAACCGGTAAGAATGCTGTCTGGAGTTAGTATAGTTTCTATAATGGTTCATCCTCATAGGTGTCCTCATGGTAAGTGTATTTTCTGCCCTGGAGGAGTTGAATATGATACTCCTCAGAGCTATTATGGTAGAGAGCCTACTCTAATGAGAGCGATAGAGAATAATTACGATCCTTATTATCAAGTTCAGTCTAGGTTAAGTCAATATATATCAAATGGGCATGTTCCTAGTAAGATTGAACTTATAATAATGGGAGGAACTTTTCTTTCTACTTCCATAGATTATCAAGATTGGTTTGTTACTAATGCGTTAGAAGCTATGAACAGATTTCCTGGAAGAAAAAAAGAAGGTTTTGTATACTTAGAGGATGCTCAAAATAGAAACGAGAAGTCTAATATAAGATGCGTTGGTATGACTATAGAAACTAAACCAGATTGGGGAAAAGAATGGCACGCTAATCAAATGTTAAGGCTAGGAGCTACTAAAGTTGAGCTAGGGATACAAACAATTTATGATGATGTACTTAAGATCAATAATAGGGGACATACGGTTAAGGATTCTATAGAATCAACTAGAATATTGAAAGATTCTGGTTTTAAAGTAGTATATCATATTATGTTAGGACTGCCAGGCTCTTCTCCAGATAAAGACTTAAATACTTTAAAAGAAATTTTTTCTAACCCAGACTTTAGGCCAGATATGTTAAAAATATATCCTACATTAGTTGTAGAAAGCGCTCCTTTAGTTGAATTATGGAAAAGGGGTAAATATACTCCATATGATACTGAAACATTAGTAGACATAATATCAGAAGCATATAGATATCTGCCTAGATGGGTAAGAGTAATGAGAATTCAAAGAGATATTCCAGCTAATATTATTCTAGCAGGCAATAAGAAAGGAAATTTGAGAGAATTAGTAGAAAAGGAAGTTGAAAGGAAAGGTATAAAGAATAATGATATACGGTATAGAGAAGTAGGATTAGCATGGCTTCATAGGGGAGTTATACCTTCTACGCCAAGGTTAATAAAAGAAAAATATGAAGCAAGTGGAGGAGTTGAGATTTTCATATCATTTGAAGACGATAAAGGAATTTTAATAGGATATCTTAGGCTAAGATACCCTAATAACCCTCATAGAGAGGAAATTAAGGGTTCTACTATAGTTAGAGAACTTCATGTTTATGGAATAGAGGTTCCAGTAGGAATGTGGGATGAAATAGGTTTCCAACATAAAGGTTATGGTTCAGCATTACTTGAGGAGGCTGAGAAAATATCTGCAGAAGAATTTGATGTTAAAAAGATTTCAGTACTTTCTGGAATAGGGGTTAGAGAATATTATAGAAACAAGGGATATGTTAAGGAAGGTCCTTATATGGTAAAATATCTTAATTAATTATATACGCTTTTATTCCCATTTTTCGTAGGGAAGAAACTAGATCTATATTAAATTTATCTCCATTTGTACAGAATATATAATTTTTATCTATTCCAGTTTTAAAAATGAATTCTATTACGTTTTTAGGACTTAACTGTATACCTTTTGCACATTCTGCACTATTAGTTAAGTTAATAATTATGGAATTTTCTGGTATTTTGTCAATAATCAGATCGTTTATATTAATAGATTTATTAGTATTTAAATCGACTTTTTCAACAGAATTTACAACACTCTGTATTGCATTGTCTAATTTCTTATCTATTTCTATAATCTCATTATAGCTTATCTTAATCTTAGGATGAAAAGAGAATATTGAGCAATACTCTGGTACTTTTTCTGAATACTCATATGTACCTATTTTTCTTGCTATTTTAGTTATTTCGTCCTTGTCGAAGCCAACTAATGGTCTTAACATTGGAAGAGAAATTTGATAATTTAGTGTTTTTATTGCAGGTAAGGTTTGAGTTGATACTTGTCCTAATGACTCTCCAGTCACTATAGCTTCATATCCCATCTTTTCGCTAATCTTTTCGGCTATTTTATATAAAGCTCTTTTGAATACTAGTGGCCATATTTTCTTATCCGTTTGAGTCATTATAGTTTTTGTTATTGCACTACAATCTGCAACGAATATTTTTGGAGTATATCCTTGACTCCATTCAACAAGTTTGTAAATTACATTTAAAACAGCATTTTTAGTTATTTCGCTTCCTAAATTGCAGTATAAGAAATCTACAGCTACACCTCTTTTCATTATCATCCACGAGGATACTGGAGAATCAATTCCTCCAGAAATTAGTGAAATTGCTATTCCTTCTGATCCTAATGGTAAACCTCCTGGTCCTTCAATAATATTATCGTAAAAATATGCTATATAATCTCTAATTTCAATATATAATTTTATTTCAGGATTATCTAAATCTACTTTTCCATCATGTTTTAATAGTACTTCTCCTACAAGCCTGGCCACGTCATATGAGGAAAAATTATGTTTTCCTACTCTTCTCACTATAACTGCAAATTTTTTCCTAATGACCTTATCTGCCCAAATTTCTACCGCTTTTTGAGCTATATCATTAATATTCTCAAAATGTAATTCTTCAGCAATACTTACGCTTTTTACACCAAAGACTTTTATTGAAGAGTTACTTAGGCACTCTACATTTCCATAAAGAAAGATTCTTCCTTGCTGTTTTTTTACTTCTGTTTTACCGCAATTATAAAATTTAGCTGAGGCTAATAAATTACTTATTAATGTATTTTCCATTTTATTTCTTGTTCCAGGTTTTTTAATTCCTATTTCATCGTATCTTACTATAAGTACTTTCATTAATTCTTTAATATGATTAGAAGATTAAACGATTATGCAGAACAACATAAGTAATTTAAATAAACGATAGCATAATTTACTTATGGAAATTATAGTTCCTAATGTAACTCCTTTCACTAAAGATAATAGAATTGATAAGGATAGACTAAAAGAGCATCTTGAAAATCTTATAGAAAAAGGTATAGACATAATCTTCATAAATGGAACTACAGGAATGGGTCCATCATTATCTGCAGAAGAAAAGAAGGAAATTTTAAATATATCATACGATGTAACTGGAAAAATAATTTTTCAATTAGGAGGTCTTAATTTAGACGATACATTAAATCTTTTACAATACTCTAGAGATTTTGATATAATAGGTGTAGCATCTTATTCTCCGTATTACTACCCTCAATTGCCTTCTAAGTGGGTTATTAGGTACTTTAAGACATTAGTAGAAAAATCTCCTCATCCAGTTTACGTATATAATTTTCCTGCAGCTACTGGTTTTGACATGAATTATGAGCTTATGAAACAAATAGACGGATTGGCAGGATTGAAAGATACTAATGATAATTTTGTTCATTCATTGCAATATAAAAGATTTCTTAATATAAAAGTCTATAACGGTAGTGATTATCTTACTGTACAATCATTAACTTATCTAGACGGGACAGTAACAGCTGGAGGAAATTATATGCCTGAACTTCTGTCGTTGCAGAAGAAACTTGTTTCCGAAGGTAAAATTAACGATGCTTTTGAAGTTCAAAAAACATACTATAAATTCCTTGATATAGCAAGAAAATATGGCCAAATGTCTGCTCATTATATACTAGTGAAGGAACTACAAGGATATGACGTAGGATATCCTAGAGAGCCTCTATATCCTTTAACTGAAGATGAGATAAAACAATTAGAAGCAGATGTTAAGGAAATAAAAAATGAATATACTTTCATTCTGGATAAATATGGTATCACTTCATAGCATTCATAATCTTATTTTTAATATCATCACTAAATGTATTTAATGCATTCATCATCAATTTTTGATCTCTATCCTGATAATTTTTAGGTAACTCTGATACTGCTTGCATTCTTAGCTTTAAAAATGCTGATAATGTATCTTCTGGTAGGCTTGATGCTACTTTTATATTAGTTTTGCACAGATTAATATATTCCTCATCAGATGCTCTATCTCCCATTTCTTTCAATAAGTTTTTTAATATCTCGAGTTTTTGTTTATCCGGCATTTTTAGGAGTTCTGAAAATAGACTAGACATTGTTTTTTCTCTTTCTTTTTCGTTTAACTTGCTTATTTGAACTATATCTGGTAAATTAATGCTCATACTTTAAAGATAGTAAAAACTGATTAAAAAATCTTTAATTAACAGTGTTTTATTCCTATAAAATATTTAATTAATATTATATAATCATATTATATTTTTTGCCACAAAATTAGAGGGAGATTAATATAAAAATTTACTAGTATTGTTTATTATTATATTATATATTCTTTTTAATAATAAAAACGTAATAATCTTGTTTATAAATAAAGCTTATAAGCCAGAAGATTCTCATATAGAATGCTGAGCTTATGAGGCGGGGGATGGCGTCCCCCTGGGTTATCCCAAACCGCCCGATATAGTATGAGGGCTGATGACGCCTATCTCTAATAGGTGAGATAGGTGAAGCCCATAGATTTAGAAACAATAAGCTTGGTCTTAATTCCTATAATAGCTAATGTATTCTTTTTTAGAGGTATAAAATATTCGAGTATAATAGCAGGAATACTTGAAATAATATTATCTTTAACTTTATTTATTAATTTACCAATAATAAGTTCTTATTTCTATATAACTAGAATTACATGGTACTTTATAATAATGGTATCATCAATTTATCTTCTTTCTGTTGTATTCTCTCATAATTACCTTAAGGGCGAGAAGACTAAAATAAGTGAAAGAGAATATTTTGCCTTACTGAATTTTTTTGCGTCGTCAATGTTCTTTACACTCATAATAAATAACTTAGGTCTAATGTGGGTAGGAATAGAGGCCACTACAGCATCTACTGTAATCTTGGTAATAACTGAAGGTACAGAAACTGCAATAGAGGCAGGATGGAGATATATAATTATAGTATCTGCAGGCGTTACATTTGCATTTATTTCCGTAATATTAGTATATTATGGATTACATAGCCTTCAAGTATCTTCAATCCTAGGAACACACTATTCACTTGTTCTGCAGTTAGCATCAGCAATAGCCCTTTTAGGCTTTGGAACCAAAGTTGGAGTATTTCCTGTAAATACGTGGCTTCCTGACGCTCATAGTGAATCGCCAGCACCAGTTAGCGCGCTTTTTTCAGGAGTTCTATTGCCTGTAGCGTTATATGTCTTGTATATAGTTTATCAAATATCTCCATTGCCTATGCTTTATTCTGCTTTCTCTATTGTATCAATAATAATAGCGTCAATAAGTATGGCCAGTCAAACTAATTTCAAGAGATTATTTGCATACTCTACAATTGAGAATATGAACCTAGCTTTGTTAGGTTTTGTTACGGGATCAATTATAGGCGCTATTATTCTCCTTGTAGCTCATGCTTTTGGAAAAGCGGGCGCATTCTATTCTTCTGGATCAATATTTAGAATGGTAGGAAGTAAAAAAATAGATGAGTATGGTTTATGGAAACTGAAATTTATTCCTTATTCATTGCTTTTATCATCTTTAGCAGTCACTGGTACTCCTCCATTTGGTACATTCGTAGGTGAGTTTCTGATATTATCTGCGTTATTGAAATTTTCTATTGCAGAATTTGCGTTATTAATTCCTTTTATAGCAATAGCGTTTATTTCGATAAACTCGCACATAAGTAGAATGATATTTAAGGGTGACAAAAACCTCAAGGAAGATAATTTAATGGGTATTATTTCGTTAATTTCGTCATTGATTTCCTTGGCTATAGGATTATTTCTAATATGGTGGTTATAATGAGGAGACTAATAGGGCAATTAGGAAAGTTTTGCCTTTATTCTGATACATATTTTGAAGGTACATGTCCACATATAGAAAACGAAGAAATAGCAAATTCACCATACGGTGCGTTTAATTTTACTTACGGTCCTTCAGCAGGTGGCTTATTTGAGTCAGTAGGCATTGATATAAACACCTTTGGCGAATATATACGGAATATTAAGGTTAATCCAAATTATAAGAAAAGAGAAATAAGAATACTGGATAAAAGCATAGAAGATGCTATTTTATACATAGAGAGAATAAATGCTGCATTTTCTGCTTCTCATGTTATATCATTTCTATCTGCAATAGATAAGATATCAGAATCTGACATAGATTCTGATGTGTTAAATTTAAGAATATTACAAATAGAAATGGAAAGAATTAGAAATAATCTATTTGTAATAGAAAGGTTAGTAGAATCTGCAGGTTTCCAGGTTCCTCTATATCAATTGCAGTATCTTATTGAAAATGTTAATAGGAAAATAGGAAAATTATTTGGGCATAGATATTTCTTTGGTGTTAATTCTCTACGTAAAATAAATATTAATGATCCAAAAGTAGATTTTACTGGAATTGAAAGAGAATTTAAGACGATTTACGAAGACATTATAGAAAACAGGATATTTATAGACAGACTACAGGGTAACGGGATAATCAAAGATGAAAGAAGCATTGGTCCAGCAGCTAGAGCAGCAGGATTTTATTATGACGCAAGAATAGAGGATGAATTTTTACCTTATAAAGACTTCGATTTTAAGATATCGACTTATAATTCAGCAGACGCTTTTGGCAGGTTAATTGTTAGAAGTGAGGAAATATTTGAATCATTAAGAATAATCTCTCAAATAAAAGTAAAATCTAAAGAATATAAAATTAAAGTAAATGATGGAGAAGGAATTGGAAGAGTCGAAAGTCCGTCTGGTGATTTAGCATATTTTGTTAAGGTAAACAATGGTAAAGTTGTAAATATAGATTTGCTATCTCCTTCTTCAATAAATATAGAGCTTTTTTCTAAATCTATGGTTAAGAATATTTTTACAGATTTTCCATTTAATTGGGAAAGTTTTGGTATATGGATATCGGAAGTTGGGGTGAGATTTATATGAATTGGTTTTTGAAAGGTCTTAAAAAAGGTATAAAAACTGAGAAATTTCCAAAAACAAACCCTATTGATATAGCTCCATGGTCAACAGAATTAAATGGTAGCGGTAATGTTAATTGTCCTACTAAAGCTATAGATAATGGAAGTTGGAATTCTGAAAGATGTATATATTGTAGAAGATGCTATCCTTTGTATTCTCCAACAGGAAATATAGATATTTTTAAAGTTAATAAGAAAAACAATATTTTCAGAAGGTCTTTTTACGTTTATCCTATAGATATTGGAACTTGTGGAGGATGCAACCTAGAATTAAAGCTGATATCCTCTCCGCAATATGATATGACGCGTTTTGGAATATTTTTTACTAACACACCTAGACATGCTGATGCTTTAATCATTATGGGTGTAATGACAGAAGGAATGAAAGAGCCTTTATTAAATGCTTATGAGGCTATGCCAGAACCTAAGCTCATTATAGCTTTAGGAGTTTGCGCTATATCTGGAGGGATACTGGGTACTGGTTCGCAAATAGAACCAGACGTTATAATTCCTGGCTGTCCTCCAAATCCATATACTATACTTAAGGCGTTAATTGAGGCTAAAGGTGATAAAGAATGATTTATTTTATTTACTTGTTGTTTATTTTGTCCATATTTCTATCCATATTTAAAAAGAAAATAGGATATGCTCTTTCTGCTATTACTTCTATAATATTTGTATATTATGGAATAACTATTGGAAATATATATGGCTATTTCTTTATAATATCCGGATTAGTATGGCTATTTTCTTCAATTTTTTCCATATTTTATGATACTTATGGTAGATGGCTTTCTCCGCTTTTTATAACTTCAATACTAGGCATGACAATAGCTCTAACAGCTAGGACTTACATAGAATTTTTAGCCGGTTGGGAAATAATGACTATTCCAGCATATGCAATAATAGGTTTAAATAGAAAGCTTGATTCTCCGGCGTTCATTTTTATGGGATTTGGTGAATTAAGTACAATTTTAATTTTCGCAGGATTTATTTATGCATATACTACAAGTAATTCCTTTTATTTTACAGCATTAGATACTTATATTCCGTTAATTGTGGTAACATTTGGTTTTATGATAAAGATGGGTATATTTCCATTTCTAGTTACAGAATGGCTACCGATAGCGCACGGTAATTCTCCTGCAAACGCATCTGCTATATTAAGTGCCACCATGACATTAGTTGCTGCATACGGAATAGTTAAAATGATGCTTCTTTCTCCTGATATTCCTATCCTAGGTTACATTCTTATGGGAATAGGTGGTTTTTCTGTATTTTTTGGTGCATTATATGCATATATTTCGGAACATGTAAAAGGTCTATTAGCATTTAGTACAATAGAAAACAACGGAGCTATACTATCTGCTATAGGAGTCTATATGACATATCCTACAAAAACTATTGCAGAATTTGCATTAGATGTAATTGTGACTTTTGCATTTGCTCATTCTATAGCTAAAACGGGTCTTTTTATGATATCTGGAACCGTAGAAGGTGAAGCATTAAGTAAATTGAAAATTATAAGGAATAAACTAGGAGAGATAGGAGGAATTTTACTTGCTTCTTCAATGTCAGGTTTGTTGCCAAATATAGGTGGTGTAGCTACATGGAGCTTATTGGAAAGTTTATTTATGGAGGCGTATATTTTACATTCTACTTTATCTTCAATTTCTATAATTACTGGGTCAGTAATAGCTATGGGTGAAGGTTTTGCATCGGCCGCTATGATAAAATTTATATCTTATACTCAAGTATTTAAGGGAATTACTGGAAAATCTGCTAAAATTACTATATTCTCTATAATAGGTTTTGTTATATTGATTCTAGGTTCACTTAGTTATCTGCTTTTCAGAAATTTCATATACGGTGTTCCATCGCTTGGTATTCCAAATGGGTTTATAATAATCTCTGAATACTCTTCAGGAAAAATATTCGGTGATATATCACCTTTCTATGTATTAATACTAATAGTAGTTTTTAGTTTGCTAACTCTAGGCATATTTGGAAAACCAAAAGTAAGAAAAACTAACACATGGAATAACGGAATAAAGCCAAGAGAAGAATATACAGCCTTTGCGTTTGCTAATAATATTAGACTTATGCTTTCTAAACTTTTAAGAACAGAAATAAAGAGAGATTCACTAGAAACTTCAACAGATATTTTTTGGAAAGTTATGTATTATATTGCAAAGAAATATGTAATTTTTTCTAGACTTTTAGCTAGAAGTTATATGAACAGTTCAATAAGCTGGTATATTATTTACATGATATTGGCTTTTATTCTAATTACAATTTTAGTGGTGATATTATGATAAGTGTATTTCTAGAAACTATAATTCAAGTAATTGGTGTAATTTTAGTTTCACCATTATATTCAGGAATACTTGATAAATGGAAAGCTAATGTAGCCTCTAGAAAAGGTCAAAGTATATTTCAGCCTTATTTTGATATATTTAAATTATTGAAGAAAGAGACAACAGTTTCTTCTAATGCGTCTTCCATATTTATTTATACCCCTTATGTTGTATTCTCTACCTATATAGTGATATCTTTAGTTATCCCAGTTGTATATCCAGAGCCTATACTATTAACTCCTACAGTAGATTTCCTTGGTGGTGCATTACTATTTTCACTTGCCGGATTTCTTAAAATAATAGAAGCCATGGAGTCTGGTAGCAATTTTGTGGCATTAGGCTCTGCTAGGGCTACTTCGTTTAGTTTCCTTGGAGAATCGACTCTTATAACAGTATTTTTTGCTGTAGCGCTAATTACTGGTACTAATAATCCTTATATTGAGCATGAATTTGCGCAGATACCTCAATATTATTTAGCTTTAGATCATATACTGGCAACTGTAGCTTTCTTTATGTTATGGTTATTCGAGACAGGAAAGCTACCAGTCGAAAGCTCAGGATTAGCAGAGTTAGGAATGATAGATGACGCTCTTATTTACGAATATAGCGGAAAGCCACTTGCTTTATTAAAATGGGGAGGATATATGAAGCAATACTTACTAGGATCTGTTCTTTTGAACGTCTTTCTTTTACCATGGGGAATGCAATTAGGTGTTCTAGGAGCTATGGAAGATATAGGGATTATGTTTATTAAATGGTTATTTTTACTATTCATAGCTTTAGTAATAGATACTAGCTTAGCGAAATTAAGGTTGTTTAAAGTTCAAGATTTTTTGGCTGTCGCATTTGTTCTTTCAATCATGTCGCTTTTGCTTTCGGTGATACAAAATGCTTAATATAAATACTGAAATAATAGATCTAGTATCTGTTTCAATCATAGCATTAGCATTTTACATGCAAGGCCAAGCTTACTATAAACCATTAATAGAAGCTAGCGGAATACAATCAGTTATATTAGCTGTTTTATCTACTTTCTTAGGATTTATCACAGGTATATATGATTATTTCGTTTTAGCAATAATTTTAATTTTATTACGAGGTATAGTAACTCCTTACGTGCTATTAAAGGCATTAGGAAAAAAATATGGTGAAAGAGAAAAAATAAAGGGAGTTACGTCATTATTAGTAGTAGATCTAGCATTTTTCTTTACTGCTGTCCTAATAATTTATGAATTTGTAATATCTAAAATACTTATTTCTACTACATACGGAGTATATGAGTTAATATTCCCACTCTCTTTATTTTTCCAAGGTTTATATCTAATAGCATCAAGGAATTCCACTCCTGCTCAAATATTAGGTTATATAGAAGAGGAAAATGCTTTAGTAATGTTTGGAATATTCTTAATTCCAATACCTTTGCTTATAGAAGCTAGTGTATTTCTTGATGTTTTAGCGTTGGTTGTTATATCTTCAGTCATCATTTTTGAGAAGAGAGAACATACGCCTATTGATGAACTAAAGGGATAGAAATGCCATGTTCAAGAGAAGAAGAAATACTAAAGAAGATAAAAGAAGAGAAGAAAACAATAGAAGATTTGAGGAAGAGAGTAGAGGAAGTGAAGAAAGATATAGAGAAGATAGAGATACTACAAAAGGAATCGAAAGCATGTACGAAGATGAATGCATAGATCTATTACGAGAGTTGTCTAAACTAACTTCGGAAAGTTCTTCTCTAAAATTTGAATTATACCAGCTAAATGAGACAGCACGTATAGAAACAATGAGACTAGCTGCTCTAATTTCAGAATGTGAGTTTTATGATAAAGAGAAAGCCCTGTTTTTAAGAAAAGAAATGGAGCCATATTTTAAAAAATATGTTCCTTTTTAATGAGAAATATACTGGAAAATTATAGTTTATAGCTTACTGCGTACTGTGCTACATAAAATTCTAATGTTATTTCAGAAATATTGTCATCATGAAAGCTTACAAATAAATCACAATCTTTAAAGATCTCACCTATTGCGGTTGCGGTAATATTACTAGTATTTATATTTCCATTTAACAAGAAAGTGCTACCTCCTTTAACTATAATGTCTAATGTTGTAATATTCGCTTTTATTCATCTTTATCACATTATATTTGAAAACTCTAACTAGATAATACGAGAGTTAGATTTTGAGTTGACGAAGAAGCACTATAGCCTTTGAAAGTGTTTTGAGACCATATAATAAATGAAAAACTTATAAGTATTATTAGAGCTAATAGTCTTTTGCTCATTACTAATATAATGTTTATGCTAGTTTTTTAGCTATCGTTTTTAATTAGATTCGACCTAGTATAATTGTATAGAATTTAGCAATGAACATTTCGACTTTTATAAAATAAAACTTTATATTGTAGTACAATTAAAAGTTTTAATCAATAGGTTTATAAATAATATTATAGTATACTTCAAATAATATTACAGTCAATAGAATATAACCGATGAATAAAACTAGGCGGAAATATTAACGAATTCTTAAAATAATGTTATTAACTAGTTTTGCCTATATTATATATGGTAACATGGAACTAGCACAGCTAACTATAAGAGATTTACAGAAACTTGTAAGGAGTTTGATTTATAGTATAAGTATTGTCGCTATGGGAGAGAAGGGCTCAACAAAGAAGGATTTGTTATCGATAAGGAACGAACTTAGGAGTTTTCTTAAAGAATTAAAAAAAGGTAAAGTAGGCTATGAAGACGTAGCAGGCGAATTTGGTTTTATTCTACTTTCTTTATCTATAATAAAGGGCGAGACTCATAATGATAGAACTATAGAAATGATATCTAAAATAGAGAGTATGCTTTATAGTTAAAAACTAATTAACTTACACTTATTATTTTTTATATTATAACTTAAGCTATGGATAAATATTATTTTGCACTTTTAGGTGAAGCTGGAGCGGCAGGAATAGCCAAAGCCTTCTATGTACGATTTAAATCTGAAAAACTTAAAGAATCATACATACAAGAAGAATCCCATTGGAAATATTTTAAAAAATATAGACGTTCAATACTAGAAATGCCAACGTACTACACTTTATTCTTGGTTGGAATAATAATTTCACTTTTTGGTTTTAAAATAACAAGAAAGGTTATAATAAGATTAGAGACTGCAGCAATAAATTTTTACATTAAAAATTTTTCAATTCAAGGAGATATTGAAAAGATTTTAGAAGATGAAAAACATCATATGGAGATTTAAGTATTTTTGAGAAGAATTAATATTATGAATATTGAAATTCTAAGCGTTAAAAAAGACGGTAACAAAACAGTGGTAGACGGCCTTGTTCCAGCTAAATGTGCTATAGGTTCTTATAAAGTTAGGATAATATTAGACAACAATAAGTTAGTCTCTTCTCAATGTCAATGTAAGGAAGAACTTTGTTCTCATGCAATAAAATTATATCTACATTATAGAGCATATAATTATATGAGAAATAGAAGTTAGATTTTTTTATCATTAAGAAAAAATGGAAAATTATGGACTACAGGCAACTTCTTATAGCTTCTAATCCTTTTGATAGGTTAGACGCATGGTTTAAGACTAAATGGATCTTAGACAATAATGTTCTAACGAAGGAAGACTTGATAGGTCTAAAGGAAAAGTTCTTAGAATTATTAAACGATTCTGATGAGACAGTTAGATTACATGCGTGGCAACAAACTCCTTTTCTTTTAGAAAATGGTATAATAGATTATTCTGATATAGATAAATACAAGACTAATCTTATTCTGTCTTTAAAGGACGGTTCTCTAGAAGCATGGCTCTTGGTTAACGATTTGTATCTAGGGAAGATTATAACTAAGGAAGACGTAGATAACGTAATTAATACATTTATTTCCATGCTTAAGGGTAATGAACTAGATAGAATAGCTGTATGGTCTTTAGTGCCAAATATGTTAAAAAACTCGTTGATCAGTGCGGAAATAATTATGGATTTAAAGAAATATGTTTTAGATTTGTTGGACTTTGACGATTATAATATACAGTTTAACGTTCTTTTCCTAATTGTTGATTTATACAGATCTAAAGTTATTACAAGAGACGAAATACAATCTAGAGTAGACAAAATAAAGGAGATAATGTCTGATGAAAGATTTAACGAATTTCTAAGACTATATGAGAAAAATTCTAGAGATTTAGATGAATTAATAATTATGTAGAAAACTACTGTGAATATTCCATATTCATTTTTAAAATATAATTCAAGATAATTAGTATGCAAGGATTTTCTACTGAAGAAATTGAAAACACACTAAAATTCTCAGGATTATTAGTTACAAAAATAGATAAAATATCTAATGGAGTTAGATTTTTTATAAATGGTAAGTCATATATTGACTTAATATATGATGGACATTTCATTATATATTATTTTAGGAAAATAGCTTGTAGTGAAATAGACAAGATAAGGCAATTAATCAAACATGAACCTAATGATATTATGAAGGGATTCTATATAACTGAAAAAGAATGTTTTTTACTTATTTCAAAAAGTAGTTTTAAGGAAGAAGAATTAGCAAAAAAGTATATAGAATTAATTAAAATAGCTGATTCCATTATTGATAAGTTATAGGCTTTGTTAATGAATGGAAATCTTCATAAAAAATTTAGAAATTTTCCAAAAATGGCATTTAAAAGTTTAATAGTTGTTTAATAATAGTTTACATTTATGGAAGATCCAAGTAAGATTGTTAGAGAGCATACTTTTGGAACATGGAGAAAACAGAAAGGTTGGGAACCAATAAATATCGTGAAGGCAGACGGGGTATATTTTTACGATTCTGCTGGCAAAAAATATTTGGATTTTTCTTCTCAATTAGTCAATGTCAATTTGGGTTACGGAAATAATCACGTTATAAAAGAAATAGAACATCAATTGGAAAATTTACAATACATATCTCCAGCTTTTGCTACAGAAACTAGGGCTAAAGCTGCTTCTTCTTTATTACAAGTGATGCCAAGAAATCTTACTAAATTCTTTTTTTCTACTTCTGGGACTGAGGCTAATGAAGGAGCAATAAAAATTTCAAGACTTGTGAAAAAACCTTCATATAAAGTAGTAGCTAGATACAGGGCTTATCATGGTTCTACCTTAGCTTCAATGAGCTTAACTGGAGATTATAGAAGATGGTTTACTGAGCCTAACACAATGCAAGGAGTAGTAAGAATACCTGAACCGTATTGTTATAGATGTCCGTTAAATCTTAAATACCCAGATTGTGGAATAGCTTGTGCTACATATTTGGACTATGTTATAAAAAATGAAGGTAACGTAGCTTCTGTTATAATTGAACCTATTACTGGAACAAATGGTGTTGTAGTTCCACCTAAAGAATATCTACCAATAATAAGAAAAATAACAAGTGAGAATAATGTGATTTTAATAACTGACGAAGTTATGACAGGTTGGGGAAGAACAGGAGAATGGTTTGCTGTAAATAATTGGAACGTAGAGCCTGACATTCTAACTACTGCTAAAGGTGCATCTGCTTCTTATCTTCCCATAGGAATTACTGCAGTAAATAAGGAGATAGCAGAATTCTTTGAAGATAATATTTTTGCGCATGGACACACGTTTGAAGCACATCCTGTTACTTTGGCTGCAATTCCAGCAGTTATAGAGGAATATAAAAGACTGGATTTACTGTCGCACGTAAAAGCTATGGGACAATACTTAGGTGATCGACTAAAGGAATTAAAGGAGAGACATAAAAGTATAGGTGATGTTAGAGGCATGGGACTATTTTGGGCTATAGAATTAATTAAAGACTCTAAGAAAACTCCTTTTGGCACTTATGAAGATAAATATGAAGGTAAGAGCACTCCAGTAGACGTTTTAACAAAGCGTTTGATGAATGATGGTATATATGTCTTTGGAGGACCGTCTTGGTTAGTTATATCACCTCCATTGATAATATCCAAAGAAGATATAGATATTGGAATAGAAAAGATTGATGAAACATTAAATTCTCTTGATAAGCAGTTCACATAAATTTTTTAATAATAATTTTATAATTGAATTATGGATGTAGATGTTTTAATAGCAGGAGCAGGAGGTGCTGGATATCCTGCAGCGTTTAGACTTTCTAAAGCAGGTTTTTCAGTAATAATGGCCGATCCTAAAGGCGAACTAGGTGGAAATTGTTTATATCAAGGCTGTGTTCCTTCCAAAACAGTCAGAGAATTAACACAAATGATAAAAAGAGCTAAATTATTAAATACAAATATCGATGTTAACTTTCAATTAATCCAAAATCATAAAGATAAAGTTCAGGAAACCAGATTTAAGCAACATAAATCAGAACTTTCAGAAACTCATGTTGAGTTTATAAAAGGAGAAGTCGAAATAGTGGATAATCATAACGCTATAATTAAAGGAGATAAAGATCTAAATGTAAGGGCAAAATATATTATTTTAGCTACTGGAAGCGAGCCTTTTAGACCTAAATTTCCAGGTGAAAATCTTTGTATAACTAGTGACGATTTATATAAATATAAATCTCCTATAAGAGAATTGCCTAAAGAAATGGTTATAATTGGTGGCGGTTATATAGCATTTGAAGCAGCTACAATGTTTAATATTTTGGGGACAAAAGTTCATGTTCTTGTAAGATCAGATAAGATATTAAGGGGAATTGATAGTAAATTGTCTTCCACTTTATTATCATTAATGGATAAAAATATAGATATAAGATTTAACTCCCCAGTTTTAGAAGTAAAGAAAAATAGTAAATCTTTAGATGTAATATTTTCACATAATGGCAATAAGGAGTTATTAACTGCAGACCAAGTTTTATTAGCTACTGGTAGATCGCCAGTTTATCCTAAAGGTATAGAGAAAACTGAAGTAAAAACTGATAGAAAAGGAATAATTGTAGATAATTCCATCATCACGTCTGTTAATAATATTTTTGCTCCAGGCGATATTAATGGTATATCAATGTTTTTCCACTCTGCAGTAAGGCAATCTTTAGTTGCTGCTCATAATATAATGTCTGGTGGTACCCCAATAGACTATATGGATTTCAATAGCGTGCCTAAGACAATCTTTACTTTTCCTCCTATAGCGTATATAGGCATAACACCAGACATTGCTAAGAAGAATGGAATTGAAATAGTGGAAGCTTCATATCCCTTTGCAAAGGATTCTAGAGCTCAAATGTATGAGGAAACGGAGGGCGAAATAAGACTCTTCTTTGAAAAGACTAGTCTGAGGCTTATAGGAGGATGGATAATAGGAATTGATGCACCTTCTCTAATCAATGAAATAGGAATAGCAATGGCTAATGGACTTACAGCTAGGCAGATAGCCGATTATGCTGATCAGCATCCAATGACTAATGAAGGCGTAAGTTACGCTGCAAGATCCATATTCTAAGTTTCAAAAGCTTTTTTAAATTTTTCATAAATTTTTCTTATATTTTCTTTCTCATCTATAGAAAGATTATCCCAATTATCAAGAATATAATCCACAAGCGAGTCTAACTCTCTTATACTATTAGATATCTTATTTTCTATGCTTGTTTCACCTATTATTTCTCTTCCTTTATCTGTTATTCCATAATATTTTTTCGTACCTTCAGTTTTAACTACCTTTATTAAACCTTCGTCTTCAAGAGCTTTTATCATAGGATAAACAGATCCCGGAGATGGTTTCCACATACCCATAGTATTTGCCTCAATTTTTTCCATTATTTCTGCTCCAGTTAAGTTTCCTTCATTAGCAAGCATATAAAGAATAAGATATCTTAATCCTCGTCTATGAAAATGGTGGTGCATCATAATATTACATGCTAATTATCAAAAAACTGTTAAAATGTTTTCTGTCACATCAATTTATTTCCGCAATTTAAGCAGAATTTAGCTCCTGGAGGATTTTGATATCCGCATTGAGAACATCTGAGACCTTGTGCTGTCGTCTGTGGCATTTGGGGCTGCATTGAAGGCATTTGTGGCGTTGGAGTCATTTGTGGTGACGGTGTAGGAGTGTAAGGCATATCAAATAACCCATCGTTAATTTCCTTATCTATCTGTTTGAATAATCTATGATCTATTAATTCTCTACCTAAGGCTCCTATATGTTCCTCTTCTATTATTATTCTAAAATCATTAGGTGCTCCAGTTATTCTTATAATCAATTCCTCAGCATGGTGCATATGCCCTTTTTTTAAACCTCTTACTATATAGTCCTGCATACTTCCCATAGGTGGGCTCATCATTTGTGTACTGCTTTCCCATCCTTCACCCGCTAATATACTATTTATCTCTTGTGCTAATGCTTGTAAATTTATATATCGACCTGTATATGTTTTCTCCATAAACTACTAACGTAATATTAAATTAATAAATTTTCGTCATTCTTTTTACTCATTCAATTGTAAATCTTTTGTTTCTTTCATTCTAATTGTTGAATAGATGGCTATTAGAATAAATGCTATTGAATATAGTGGATATAGAGCATAACTGATTGACCCTAAGAAATCTGATATATAGCTAGCAGGTCCAGCTATAAACGAATTTCCAAATTGATAAGCAGATGAACTACCAGAGTATCTGACTATTGTGGGGAACATTTCTGATAATGAAGCTGCTAATGGAGAATATCCTAATCCATGAAAAATTCCAAATAATGTCACGAAAAATATAAACGATGCAGGATTTCTAAATTCAAATGCTGGAATGATAATTGCTAAAGAGCCTAAATTTGATAACAGAAGTAGCAGTCTTCTTCCTATTATATCTGAGATTTTTCCAGATATAAATACAGTTGTTAAATCAGCTATAGCTAATAAACTTACTGCTATAAGTGAGATATTTTCACTTATGATTCCTAGTCCGCTAAAAACAACAGGTAATAATACAGCTCCAACATAAAATATTGTGCCTAAAGATCCTGCTAGTAACGTTCCTAGTAATAATTCTTTCCAATATCTGACTACCATCTCCTTACCAGGAAATCTAACAATTAATCCGGAATTTTTAACCTCTGTAAATAGCCGTGTTTCATCTATTTTTAGTCTTATTGTAATTCCTACAGCCACCATAATGAATGAAAGTAAAAATGGAATTCTCCATCCAAATGAGAACATTTCAGATGAAGGTAAATACGATGTTAAAATTAAAAATACTCCAGTTCCAAGAAGTAGACCTATTCCTACTGTAGACTGAACAAATGCACTAAAAAACGCCCTTTTTCTTTCGTTAGTTTCGTTAACTAACAATATAGCTCCTCCCCATTCTCCACCTAGTCCTAATCCTAGGACTAGCCTTAAAATAACAAGAAGTATTATTGTAATTAATCCTAGTTGTGCATAAGTAGGTAAAACTCCTACTAAACCACTAGAAATTCCAGAGATTAATAACGTAATAAGTAATGAATACTTTCTTCCATTTCTGTCTCCATAGTGTCCAAATAAGAATGCTCCTATAGGTCTGGTTAGAAATCCTAGAGCAAAAACCAATAATACGTCAAGTACAGCTACTGCTTTATTACTAGATGGGAAAAGTTCTTCTCCTATATATACGCTTCCAGAACTAAAAATGAAAATGTCGTACCATTCTATAATAGTCCCTATCATAGAACCTGCTATTGTTATTTTCTTCATAAATATGTGGGAAACTTTATTTGATATATAAATTTCTATATTTACAAGTTAAAATTGTTTATATTAGCTCTAACTAAGTTGCTTGAATAATATTACTTGATGTATTTTCAGACGTTATCTATTATTTTATTTTTAATACAATTTGATAAAACGCTTTAAAATAAAAACTCTTATATCATACTTATGCCTGTAGCAGTTGATGTCGGAGGAACTTTTACTGACATAATTTTTATGGATGAAAAGGGAAATTTGCAGTATTACAAGTTATCTACAACACCAAAAAATCCTGAAATTGGAGTGTATCAAGGTATTAAAAAAATTGGTATAAATACGTCTGAAATTATTCATGCTACTACTATAGCTACAAATTCACTACTAGGGCAGGTCAATTTAGATTTGCCTAAAATAGCACTTCTAACAACTAAAGGTTTTAGAGATATAATAGAAATAGGAAGGCAAAATAGGCCAGAACTTTATAATCCTTACTTTGAAAAACCGCGTGTTATAGTTCCTAGAGAATATAGATATGAAATTAATGAAAGAGTTGACGCTAACGGAAATATAATAATACCTTTAGATAAAGAGGAAGCAGAAAGTAAAATAAAAGAGATTGACAATAATGCTACTTCAATAGCGGTATCTTTTCTTCATTCTTATCTGAACCCTTCTCACGAAAAAATTGTAAAGGACATTGCGAGTAAATATTTTAAGTATATTTCAATATCTAGTGAGATTGCTTCAGAGCCGAGAGAGTATGAAAGAACTTCCACGACTGTTATAAATGCGTTGTTAATGCCTATAGTATCTAGATATTTGGAATCTTTAGAAAACTTGCTTCAGGAATTCGGAAGACCCAGATTATATATAATGTCCAGTTCTGGAGGTTTGATAGATTCTAAAGAAGCCTCGTATAGGCCTGTCCAAATAATTGAATCGGGTCCTACGGCAGGCGTAGTTGGAATACTAACAATGTCTAAATTTCTTGGTATTAAAAACGCTATAAGCTTCGATATGGGAGGTACTACAGCTAAAGCTGGATCAATTATAAATGGAGAAATAGAAATAACTTCAGAGTATGAGGTTGGAGGCAAAACTCATTATGGAAGAGTAGTTAAAGGTTCAGGCTATCCTGTTAGATTTCCTTTTGTTGATTTAGTAGAAGTATCTGCTGGTGGAGGTACAATAATATGGAAAGATGATGCAGGAGCATTAAGAATAGGTCCACTAAGTGCAGGAGCAGATCCTGGTCCTATGAGTTATAATAAAGGAGGAGACAAACCTACACTTACTGACGCTAGCCTGGTACTAGGTAAAATAAATGATAGACTACTTTCTGGAGATATGGTATTAAGGAAGGACTTAGCTATAAAAGGACTTAAGGAGTTAGGTGATGAAGAAGTCATCTCGACTAATGCACTAAAGCTAGCAAATCTCGAAATGAGTAGAGCTATAAGGTTAGTAACAGTTGAAAGAGGATTAGATCCTTCAGAATTTACTCTTTTTGCGTTTGGCGGGGCAGGTCCTCAGTTTGCGTTAGACATTGCTGAAGAATTGAGCATAAGAGAAGTTGTGGTACCGCCTGCACCTGGCCTATTTAGTGCTATGGGAATGCTTTTTGCAGATAAAAAGTTTGAAGCAAGAAAATCTTATCCTACTGATTTATTCAGAGATTATGAGACTCTAGAAAAAGAACTAATAACTAAACTAGGTAAAGTCGATTATTTCATAAGATATGCCGATGTTAGATATGAGGGACAAGGATGGGAATTAACTATTCAAGTATCTGATCCTTCTAGAATAAAACAAGACTTCGAGAATAAACATTTATCAGTATATGGATTTAAGTTGGATAAACCTATTGAAGTAGTTACAATTAGAGTCTTTGCAATAATATTATCAGCTAAACCTAAAATTCCAGATCCTCCTTCGACGCTAAATCCAAAAAATAGTTATAGGAAAGTAAAATTTGAAGACTGGATTAACGTTCCTGTATATATTAGAGAATCACTTCCATTAGGCTTTCATATAGAAGGACCAGCTATAATAGAAGAATATAGCTCTACTACTGTTGTAAAGCCAGGGTGGACTGCGGATATAGGGAAAATGGGTTCTATATTTTTGAGGTGTGCAAAATGTGGGAAATAGTTCATAAATCTTCAATATATATAGCCGAAGAAATGGGGGTAGCGCTAAAAAAATCTGCACTTTCTCCGAACATTAGAGAGAGAATGGATCACAGTTGTGCTATTGTTAACGATGAAGGTAAAATTATTGCTCAAGCCGAACATATACCAGTTCACCTAGGATCTTTTAAAATAGGAGTTACTAATATTCTAAATTATATTGAGAAAGAAGGTATAGAATTAAATGAAAATGATATGTTAGTATTTAATGATCCTTATATTTCTGGAACTCATTTAAACGATGTAGGAATTATAGCTCCTATATATATAGATGGAAAAATATCCGGTTATGTAATAAATAAGGCCCATCATGTTGACGTAGGAGGCCCAATTCCTGGAAGTCTTAATCCTTTTGCGAAAACTATCTATGAAGAAGGAACAGTAATTCCTCCTTTAAAGATAATGGAAAAAGGCAATATCAATAGAAGTGTGTTATCTATCATAAGAGAGAATTTCAAGGTTCCAGATTATTCTATAGGAGATATTAATGCACAAATTGCAGCTAATAGATTAGGTATAATTAGAGTAAAGGAGCTTTTTGGGAAATATGATAATGTTAAAGAAAATTGGAGAATATCTATAGATTATGTGAGAGAATTAGTTTTATCTCAATTAAGGAAATGGCCTAAAGGAATTTTTGATGCGGAAGATTACTTAGAATGGAATAATAACTTAGTTCCTATTAAACTAGAATTAAGTATTACTGGGGATAAAATATCTGCTGATTTTTCTGGAACTTCAGCTCAAATGGAAAATCCATTAAATGCAGTATTTGGTGTTACGTATTCTGCAGTATCCTTTGCAGTTAGATCGCTATTACCGGAAATTCCTACTAATGACGGATTTTATTCTATTATTGAAATTAAAGTACCAGAAGGTAGTTTACTAAATCCTAAAAAGCCGGCTGCAGTAGGGGGCGGCAATGTGGAAACTTCACAAAGAGTAGCTGATGTAACTTTCCTAGCCTTATCAAAAGCTCTGCCTAATAAAGTTCCAGCTGCAAGTTCTGGTACAATGATGAATATTATGCTTGGAGGTCTTTTTAATGGGAAATATTGGTCATATTATGAGACAATTGGTGGAGGAAGTGGAGGTAGACCTTGCAAGCCTGGAGTTTCTGCAGTTCAAAACAATATGACTAATACTCTTAATACACCAATAGAAATAGCCGAAAAACAATTTCCTATACTCTTTACTAAATATTATATTAGAGAAAATAGCGGAGGAAAAGGAAAATATCCTGGAGGAGATGGTATTATTAGAGGATTTAGGATACTTTCTAGGACAAGAATATCAGTTATAGCAGATAGATTTATGATAGGTCCATGGGGTATTGATGGAGGAGAAAGAGGAAAGCCTGGCAAGATCACTATTTCTGGTAAAAATATGCCTAGCAAGTTCTCAATGGAGATAGAACCTAATGACGAAGTTATAGTAGAGACTCCAGGAGGAGGAGGATACGGTAAGTTTAATTCCAATTTAAAATAATGCATTTTTAACTTAGATTGTGTATTTTACGAAGATATATTTTCAATGTACGCAATTATATATTAGGATATTTTTTTTATCTAATTAGTTTCTATAGAAAAATAAGAAAAAATTAAATGAATATTATATTGCTAAATTTATTTTTTGACAATTCACTGTTCCGTTCCACTGGAAAATCAAGAGATATCTCTTTTCTTGAAACTATAATTTAAATAGTTGAAACTAATACGAAGACTTATGAGTCTAAAACATAAAATTGTCGTCATATTATTTCTTTTTATATTTTCTCTTTCATTTATGAGTGAATATAATACATTAGAATTACAAGCATATTCTCCAGCTTCTACAAACTACACAGTATATTATTCAAAGTATGATTCTGTGTTATTCATTCCCACTCAAATGCCTCTACATGGTACTTACATGCATATGTTATCCCTTAATTCTACAATATATATGGTATCTAGCGAAAGATTTTACTCATCAAGTTTTCAAGGAAGTAATGTTCATCTAAGAGATAATTATGCAATATATTATATTACTGAAGGAACCCTAAAAAATGAGGAAATAAACTATACTATATCAATAAGAGACGGGATGTTTATCACTGTTCATTCCTCTCCACAGTTAATAAGAGTTTTAGTTAATAGTCAAGGAATGTTAAAAGTAGTATGGGCAGGTTATTTAGTAACTACAGGAAGTGTGACTGGATATACATATATTAATAATTCTGCAGAAGTTATTTTACAATATCTTAATGGTACATCAGTATTAAATATCACTGTGACTGTTAATCCAAATTCAAATGTTTCTGGACATTTGAATACATTTCTTATGAATTCGCAAATTACTAAAATTATATCTTATCTTAGAACTTCAATAGTTACAATTAATATGCCTAAAAGATATAGCAATATATATTCATTGGTGACATTGCACAATAATTCTATAGGATTGATTGAAAGATATAATGTTACTGTATCTCAACTTAACGGAACACTAGTTCCAGCAATATATTGGAACGGAAGTTCGTCTGTAAATTTTAACAATACAATACCTATAGTCAAACAGCCCATATCAAATAGAGGAGAAATTTATAGTCATTATATAGGATTTTATGGAATAAATGGAAGTCTAATAGGGTTCATTAGTACTAAAACATTTTCTTCCTATAGTCAGAAAAGCTTCATAATAGGTGGCAAGATTACTAGTAGCATGATATATACCTCGCAAATGATAGTATTTATAAACGGACATAAGGCTATAAGAACAGTATCTATTAATATCATGCACTTAAACAATGTTTACTTAGCTATAGCAATAACTGTTAATGGAAGTCTAGAGTCAACAGCTAATATTAATTTTACTCATACAGTATATATATCAACACCAGGAATTTTAGCTAAAGTATCTGTGAATTCCACAACCTATTATATAGTAGCGTTTAAAAATAATTATACCGCTCAAGTTCACACAATAAAACCATTATCTACACTAAATACTACAATAAATTATAATAACAGTAAATATTTTGCTGAAGAAGTTAATATAAACTCTAGCGGATATGTTTTATTTAATGTAACGTTGGTTCATAATTTAGCAAGAGTCATAGTGCTCGAGAAAACTAGCAGTGGATTGATGCAGTTAAACTCATCAGATTATTTTATTGTAAATAATACTGTAAACATATTTACAGATCCATACTCGACATATTATGTTATATATCCTACTATATCTACTTCAGTTCCTACTACAACTTCCGCAACTTCATCTTCTACAACTAACACCTCTGTTCCATTATCTTCTACATCCACGACCATCAGTTCTAAACTAAGTTATTATATAATAATTGGAATAGTTATAGCTATAATCATAGTAATTTCCATAATACTATTAAGAAGAAAGTAATTTAATTTCTTTTCATAAAATCTTCATAGAGCTTTATTTGATCTTGCGTAACAGAAGGCTTTACGATCTGTAAAACTTTTTTAAAATCATTTATGTTTATTTTTGTCCTTAGTATTTTAGTCTGTGTAGCTTCCTTAAGCAAATTTCTTTTTATCTCTTCAATTACTAGTTTAAGATCTGCTGGAGTAAAATTTTCAGTTAGTTTAGCTACTTCTTGAATAGTAAAATCGTCTATTTCCAGACCTCTTGTAATTACCTTTAGTACTTTTATCCTTCCTACATAATCTGGTGGTGGAACGAATATTATCTTATCGAATCTACCAGGTCTCAATAATGCAGGATCTATGTCCCAAGGTCTATTTGTTGCTCCTATTACTATTACATCTCCTATATCACGTATTCCGTCCATTTCAGCTAATAGCTGTGTTAAAGCGTTTCTCCACTCATTAAAAGCTCTTGCTCTAGCTAACATATCGACTTCATCTATGAATATTATAGATGGCGAATTATCTTTTGCTACAGCAAATTTTTCAGAAATAAGTTCTGGTGCTTTCAGCGGTCCTGCAGACGCTATTTCGTCTCCTGAAAGGATTATGAAACTAGCATTTATTTCATTTGATAAAGCTTTAGCTATACTGGTTTTACCAGTTCCTGGAGGTCCATAAAGTAGAATTCCTTTAACTGGTTTTATACCTAATTTTTCAGCGAAATCCTTATTCTTTAAGGGAAGCTCTATAGAATCCCTTATTATACTCTTTACATTTTCTAGATCTCCTAGGTCGTTCCACGTTACGTCTGGAATACCATAATTTTCTATTTCTACTTTAGTTCTAGAATATTTTTTAGCTATGTTCTCAAACTTAATTATAGTAGATATAGATACTGATGGTTTATAGTTTTCTATATATTTTAAAAAATCTTCTGTAGAGGGATATTTTCCTTTTTCATTACATTCTGAAATTACTTTTTCAGAAAGCAGTTTAATATCTGCTGGAGAAAATCTATTACTCTTTTTAGCAAGTAAGGAATAATCTATTCCTTCTATACCTACATATCCCTTCCATATTCTTTCACGTTCTTTTTCGTCTGGTAAATCGACGTAGATAACCTCATCAAATCTTCCTGGTCTTAGGAAAGCTTCGTCTATTTCTTGAGGTATATTAGTAGCACCTATAATTAGTATTTTATCGTTTTTATCATGCATTTCCTGAATTTTAGTTAATAGAATGTTAACAAGTCTATGAGTAACTTCGTGGATATCATCACTTCTACTCATAGCAAAACCATCAATTTCATCTATAAATAATATGGAGGGCGAATTATTTTCTACATCGTTTAAAAACGAATACAGTAAATATTCACTTTCTCCATACCATTTACTAAGTATATCGTTGGCCTTTAACTCAAAGAAATTCCATTGCATCTTATTAGCTATAGCCTTTGCAATCATGGTCTTTCCTGTTCCTGGTGGGCCGAATAAAATAACACCGTATGTCTTTCCCTCTTTTACTTCGTTTGCTATCTTTTCAAGCCTATTTTTTACGTAGTCTCTATCGTATATTCTATCCCAAGATACGTTTGGAATATAGCTTATTTTTTTAAGTCTCTTTTTTGCAAAGGTATTAGCTCTCATCATCATTAGAAAGAACATTATTGGTACTATGAAGAAAAGCACTTGAAGAATAAGTATTGCAATGTTAAGAGCTTCACTAGTGTTCATAAAAAAATCTTGAAATGCAAAAATAAAAATTATTACGTGTAAGGAGGAATAACTTCTCCTTTGGTTGGATCTTTGCTATAATCTATGTAAATATTCTTGACCTTGACATACTCTTCTATTCCATACTTAGAATTCTCTCCTGCTTGTCCAGACATTCTGAATCCAGTATGATATCCTTGGCTAGCCTCAGGTCCTGGCATATTAATATAGAGTTCTCCAAATTTAATCTCTCTAGCAGCTTTCATAGCTAAAGAGACGTCTTTTGTAAACAAATATGACGCTAAACCGTAATCTGAATCATTAGCTAAACTTATTACTTCATCGAAATCATCAGAAACCTTCATAGCGCCTATTACTGGCCCAAATACTTCTTCCCTAAATATTTCCATGTTCTGCTTTACGTCAGTAATAATAGTAGGCATGTAAAAGAATCCATTAGAATATCTAGAAGGCAATTCCGGCTTATTTCCTCCATAAATAATCTTAGCTCCATCTGATACAGCTTTTTCTACAAACCCAGAAACTTTAGAGAGAGCAGCTTTATTTATTAATGGGCCCATATCACTGCTTCTTGGTTCTCCTATTTTTAGTGATTTTGTCTTTTCTATGAAGAGATTTAGGAATTTATCATAAACGTCTTCGTGCACATAAAGCCTTTCGGCTGCTATACATGATTGTCCAGCGTTCCAATATTTAGCCCACATAAGAACTTTTGCTGCTAATTCTAGATCAGCGTCTTTCCATACAATGAATGGGGCTTTACCACCTAATTCTAAGATAAGCTTAGCCATTATTGATGACGAAGATTTCATTACCTCTACTCCAGTTTTAGACTCGCCTGTTAACGTAATAACTGATATTTTCTTATGGGAAGTCATATAATCTCCTATTACGCTTCCTTTACCTGTAATTAGATTAACTGTTCCTGCTGGGAACCCAGCTTGTCTAGCTTTTTCTACAAGCCAACCAGCTACAAACGGTGTATCAGAACTTGGTTTAACTATTACTGTGTTACCAGTAATTAAAGCCGGTCCCATTTTTCTTGCAACCATTGCAGCAGGGAAATTCCATGGTGTTATAGCTAAAACCACACCATAGGGTATTTTGTATTGATATATTACTCTATCTGGTTTTGTACCTTCTATTACATCTCCAGTTATTTTTCTTGCAAATTCAGCATAGTATTGTAATTGATCTAATACTCCATCAACTTCTTGGCTAGCTTCTTTCCTAGGTTTTCCTACTTCGTCCATTAATAACTCTTCAAGAGCTTCCCTATCTTGATTTATTAGCTCAATTAATTTGTATAGATATTTACTTCTTTCTACTGATGTTAACTTTTCCCATTTTTTCTGAGCATCATAAGCAGCATCAACTGCTCTATCCACATCTTCTTTTGACGCTGAAGCAAATTTACCATATAATTCTCCAGTACTGGGATTATATTTGTTAAGATATTCTTCAGAAGAAGGTTTTACCCATTCTCCATTAATGAAAAGATCTTGTGTTTTTTCCATATATAAATTAGAGATAATGTCTTTAATAAACTTCGATACAATATCTTCTAGATTTTGTTCATTAACACAGTTACAGATGCTATATATTGTACTTTATAATACTATCAAATATTATTAGTAAAATTATATATTATAAATTTATTTTCAAGCCAAATTATAATCGAACTTTATATATATAATTTAGACTTAAATATGATAAGGAGATATAGAATATATGGCTTTTGTAAGATGCTACATGTGCAAAAATATGTGTGGAATTATAGCCACTGTAGAAGGTAAAACAGTAAGAGTTGCTGCTAATAGAAATCATCCACAACCTGGAATATGCGGTAGAGGTGCTGCAGGTCCTTATCTTTTAACTCATCCAGATAGATTAAAGGGACCTATGATAAGACAAGGAGAATCTCTTGTAAAGACTGATTGGGATAGAGCTTTAGATGAAGTAACAAAGTACTTTAAAGAACTCATTGATGAAGGGCATCCAGAATATCTTGCTATTACTTTCCATGATTATGGGAAAGAAATCTTAGAAAGGTTTGCAGCACTTTATGGGACTCCTAATCTTATAGGTCATGAATCAGTATGCCATGGATCTAGAACAGTAGCTGCAGAGCTAGTTCTTGGAGCCGAAGGTCCTAGAAGTATAGATCCAGATTATCCGAATTCCAAATTCGTTGTATTTATTAGCAGAAATCCACTAGAAGGGATAGTTCCAGATATAGTAAGGAGAATAGATGAAGGAAGAAAGAAAGGAATGAAAATAGCAGTCATAGATCCTAGAAAATCAGCAATTGCTGAAAGGTATGCAGATCGATGGATTCCAATAAGGCCAGGGACGGATAGCGCATTCTTGTTGTCAGTAATTTATTATATGATAAAAAATAAAATGTACGATGAAGATTTTTTAATGAAATATAGCAACGCGTCATTACTGATATATGATGACCTTTCATCTGCTAACACTTACGCTAACTCTTTACTTTATGAAGGTCAAATAAATGGTAGGAAAGTTAGTACTGCATTTTCTCTACTTATGAAAGAAGGAGAAAAAGTTTATCCGAGACTAAAAGATATTACTGGTGTTACTTACGACGATGTCAAGTATATAGCAGAAAATCTGTGGGATAATAGACCGTCGGCAGTAATTGATGATGCATGGCATACATCTTTTTCAACAGATTCCACGTATGCTTGGATGGCAGCTTTAATTTTGAATACTATGATCGGAAATATAGATAAAAAAGGCGGTTTAATATTTTCTAAAAAAGGTAAGGTAAAATTATATGACGAATCTAGAGTAAAAGCTAAACGAATAGATAAAATAAGATATCCATTATCATATGCTGCTTTCCAAGAAGTTTATAGAAGTATCCTAACTGGAAATCCTTATCCTATTAAAGCCCTTATGGTTGTAGGTACTAATCTTGACGGTAGAGATCCCAATTCTGATTTTGTAAGAAGAGCATTGAATTCAGTTGATTTCCTTGTAGTAATAGATGTTATGCCATCTGACGTTACTGAATATGCAGATGTAGTACTTGCAGAATCTACATATTTGGAAAGAGACGAACTTCCTTTGCCTGTTGGATGGACTTTAGAGTCATGGATAGACGTGCATCAAAAAGCAATAGAACCATTTTATGATACTAAGCCTTTATGGTGGATAATCCTAGAGCTAGAACATAGGCTAGGTCTTTCTAAAGATACATATGCCGATTTAGAAAAAAAGATTTTAGATCAGTTTAAGATAAATAGGGAAGAACTTTACTCTAAAGGCTGTATTGAAATACCACAAGAGATTTATGAAATCTACCCTTACAAGAGGCCACTTTCTACTCCATCAGGAAAAGTAGAAATATATTCTGAAACTCTCCATAAATATGGATATTATCCTATTCCTACTTATATTGAGAAAAATGTAATGCCAAGAGCACAAGATGAATTTTTCCTAACAACTGGGCATACTCTTTATCATACTCAGGATAGCATAACTTTTGATATTCCAACGTTAATTAGACTTGCTCCAGATAATCCAGTTATGATAAGCAAAAATAAGGCGCAATTACTTGGCATTAAGGACAATGATGATATAGAGGTTATTTCACTTACTACTGGACAGAAGGTTAAATGTAAAGTTAAGGTAACCGATGGTATAAGAGATGATACTGTTTTCACATATTTTGGATTTGGCAGACATTCAAAAGGTGAAAGATATGCATATGGACACGGTTTCGATGTAAATAGCTTAATAAGCGATCAGATAACAGATCCAATTTCTGGAAGTGTTGCCCAATCTTTAAATATTGTTAAAATAAGATTATCTAAATGATTTATTTTATAAATATATTTTTCACTCAAATGGAACAGTAAAAATGCTATGAACGGAAATATAATCTTAAGGTGGAATGCTTATCATAACTTGACTGAAAATGAAGAATGGTATATTAATCGGGATCGTATTAGCAATTTTAGTTGTTATTGGTGCTGATTATTATATAATTAGTTTTCAGAGTTTAACACACACTAATGCATCTAATTCAACTACTTTTTCTTCTACTCAATCTACTTCATATCAAAATTCTCAAACTACAACTTCTCAAAATTCTACAAATAAGGAAACAAATAATATTCAACTAATACCTAATAAGGCGTTCTATTATAATGGATATGTAAAGTCTAGACTATTTATAAATGGTTTATACTTTTACGTATTACATGGCAATGATACTATAATAGATAGTACATCAAAAGGAATGAATATAACTACTATTAATAGTGTTATAGCTATAGGCTATATTATCCCAGGATATTATTACGAAACTACTGTTGATTTTTCGTTTAACCAACAAGGACCTTTTGGAGTATTTTTAAAAATAATCAATACATCACAATTAAATAATGAACAAAGATTGGATTCTATAGTGATAGCATTTTATAAACCACCTACTGCTCAACCGCCTGATGCAATATACTTATATAATATAACAATTCCAATAATTATCAATGGAACAGAAGAAAACGTAATATTTATGATATATAAAAGTCCAATACATATATTCTTTATCCCTCAAAAAACATTGTTAGGAAATATAACTCTTATACTGAAATATTTCACAGAAGCTTCTAATTATACTCTACCATATCAAGTAGGAATATTCGATCATTCTACCTTAAAGTCTAATACTACGTCAATAGCTACAGATTTTGTGTATAATTGGAGTTTAGATTACATTAAGTTATTTCAAAATCCTAATGAAATAGAAAGTCATATTCCAAATAAATTTGAAAGTATTATGAAGGAAATTTCTATCCATAATTATACTGACTTTGTAATTATAAAAAACGGATCAATTGAACTAGGAGGAGAAAAATATTATGCATTAAATTCCGGTATGCTTATTGTTGAACATTCACAGCCTAATAATGTAAGCTATAAGCAAGTAATGTTTGGAATATCTCAATATTCTAATGCAGAAACGTACAGTCAAATCCAAGCTTTAACAATAGGCTTAGCATATCACATACTTAATGGTACAGATAATTTTGGTATTAAAATAGCTTCAAATCAAGAAGTTTATTTGTTACTATATTCATCCAATATTTTAACATCTTCTAAAGTAGTAAGAATACCTATGGAAATTAATGGACATCCAGTATTTATGAATTTTTATGAAATTAAAAATGATAATGTAATATATTTATATCCTGAAAATGATATAAAAAGTGCTCAAGTAGTGATAAATGCGGAGATAGTGCTAAAAGTTCTAAAAATACCTGGCGAGGTATATTATGTAGATTTAGGAAACATATTACCTAGCAGTAATTATATGTACAGTATATTTTCTTAAAAAATTAAATTTTCTTTTCCTTTAATATATCGTCTACGGAAGTTATCAATTTTCCGTCCTTTTCTATTTTTGCTTTTGCAGGATAATTATCTTTATAGCTAGGAGCTTGTTGAAGTATTCTTTCTTCATAAATTGGAACTAACTCATTTTGATAGAATATACCTATAGGTATCCTAGTTCCCCACTCTAACGATTTCTGCAATGCTTTACTCATTTTTTCTCCTTCTTCTTCAGGAGATTTTACTATAGGATCCCAATCTTTTTCTGAACTCAAATTATATATTCTCTTATCATAGAATTCCTTAGTATAAACGTCATTATATGTTGGGCATGGTTGTAAAACGTCAATTACTGCTAAACCCTTATGTTTTATTGCTGCTTTTATGAGCTCTTTTAATCCATTAACGTCGTAGGCGTATCCTCTAGCTACGAATGTATATCCTGACGCTAGAGCTAAAGCTATAGGATTTGCATTATCGCTTATGTTAGGTACTGGAAGAGATTTAGGCTTATCTCCTCTTCTTAATGTAGGCGATGCTTGACCTTTTGTTAATGCATAAACTCCATTATCATGAATTATAACTGTTATATCTGGGTTTCTCCTTCCAGCATTTACAAAATGAGCTGCTCCTATACCTAATCCGTCTCCATCTCCAACATTGACTATTACTTCAAGTTCAGGGTTAGCTAATTTAATGCCTTGCGCATAAGCTAAAGATCTACCGTGTAATGTATGAACTCCAGATACTGGAATTCGCATAAAATGAGGAATTTTTCCTGAGCAGCCTATACCAGATACCATAATAATCTTTTTAGGATCTTCCCCCAACTCTTGGATTGCTCTTTGCTCAGCGTTAAGAAGACCAAAGTTTCCACAGCCTGGGCACCAATCTGCCCATTCTAATTTCCAGTTAGGCCCCGCCATGTAACACCACCTTTTTCTCGTCGTTATTTATAACTGCCTTTAAACCTTCTTTTACTTCATCTCTTCCCATTGGTCTACCATTCCATTTAAGTATATAGTGTGTAGCTTCTATTCCAGTATATAACTTAACAACCATAGCTGCTTGCCCCATGTAATTTCCTTCTATATCTATAATTTTTTCCTTATCTAAAAGTAGTTTTCTAACTAGATTTTTAGGAAATGGACTAAACATTCTTAGTTGAAGAACAGAGAATTTTATTCCTTCACTTTTTAATTCTTCCATAGCATCTAGAACAGGTCCCTTAGGAGATCCCCATGTTATTACTATATTTTTAGAATCAATATCTCCAAATGTCTTTATTCTATTCTCTTCTGGTATTTCTTTGTCGGCAGTTTCCAATTTTTGCATTCTTTTTGCGTACATTTTCTCTCTATTCGTAGAGGCTTCTCTAATGTGGCCCATTTCGTTATGTTCGTCTCCAGTGTAAAACATATATGTACTACCTAGAAACGCTCTAGGTGAAATTCCATCTTCTGTAAATTTAAATCTCTCATATTCATCTCCAGGGTTCTCAACTATTTTACCTCTTTCTGCATTTAGTTTTTCCATTTCTAGATCATCTATATCGAAGACTGAATATGCATTGGCGATAGCTTTTTCAACAAAATGAATTACTGGAGTTTGATATTTTTCTGCTAAACTCAAAGCCCAAACAGCGTCTTGAAATGCTTCTATATGATCTCCTGAGGCTAAAACTATTCTAGGAAATTCACCATGACTTACATTCATTACAAATAATAGGTCGGCTTGAGATGTCCTTGTCGGTTGACCAGTAGCAGGACCGCCTCTTATGTAGTAAGTTATAACTACGGGAGCCTCATCCATTCCAGCCCAACTTATTCCTTCTGTCATCAACGAAAATCCTGGACCTGATGTAGCGGTTGCAGCTCTAGTTCCAGTTAAAGATGCACCAATTGCCATATTTATTGCCGCTAATTCATCTTCTGCTTGCAAAACAACTATTGTTCTTTTCTTTTTATCTCCTGTTTCTGGATCTATATACCAAACTTCTTGATGAGCTTGTATATATGTGCTTTCATCACTTGCTGGAGATATTGGATAAAAACTTTGAAAACCTAATCCTCCATAAATTTTTCCTATTGCTATAGCAGTATTTCCATCAAGCTGAACTCTTTCTTTCGTCAATGGAATTTCTTTTAGTTGAAACATTGGAGACACTTGGGAAATACCCATTTCTGCAGCCATTGTATTGAATTTAACAAAGGTTTCATTTTTAAAAACATCTTTTATTGCTTTTAGTAAATACTGTTTATTTAAACCGAAAAGACCATAAGAAGCACCTATTGCTGCAGTGTTTTTTGTTCTCTCTACTACTGAAAGAGGAACTTTAACTTCCTCTGCAATTTTTCTTATTATTTCATCGTAATCTATTCCTATTACTGTTATTCCTTTACTTTTTACATAATTAACTACATCTCCTATAGTTGTATCATAACCATTTTGTTTAAGTACATTTATAGCTTCATCTGTAATTTCCGGTTCCATACTTTGAACATATTCTGCCTTAGTATTTAGAAGCCCTTTATTGTATATCAGTACTTTTTTCACTTCTGTAAAGTGTTGAAATACCGTTTCTGCATCAAAAGTCGCCAAAATATCGGTTGTAAATGAAAAGCTTCTTACTCTCTCATCGCTTACAGTTAGTGCAAAATAGCTATGCCTTCCTTTTATATCTGAATAATATTCTCTATTTCCATATATATAGTATCCGGCTCCTGCAATGGCATTACCAAAGACTAAAGCTGCAGTATCTACTCCTGCACCTTGTGCTCCTCCAATTAGCCAGTTTATCTTCATTTCACTTTATCTATCAACTCCTTACTATTTAAAGGATAATCATTATTAAGTGTTTAAAAAAGGTTTAACAATGTTAATATGTTTTTTCTAACTCCTTATTCTAATTAAAATTATGTATTTATATACCCCTAAAATCGAATAGGGAATTTTAAAATATTCTATATTGACATTACCGTCATGAACGAACTTCACTCTCTATGGGGAATAGTATTGTTAGATAAGAAAGTTAGGGTCTCCTTAGAGAAAATTATAGGTCTGCTTATAGAATTACATGAAAAGGAAGAAATGACGCTAGAGGAATCCAGGAAGATTATAGGGGATAAGGCATCTCATCCAATTATTATAAGAACGTTGGAAAAGCTTAATGTTTTAGAAAGATATAGATGTGAAAATAGATATTGTATAAAACTTACAGATATAGGAGAGAAAATCGTAACTGCGTATAATGAGTTAGACAAATCCATTATAGAGTGACTATTTTCTCTTACACTAATAAGGAATTTATATAATACCACTTTTATTAACAATTATGCAATTGAATATATTTATTCCAGATCCGTTATTTGAGGAAATAAAAGCAATATCAAGGAAGAGAAATACTGATATAGGGGATTTAATAATAGAGGCTTTAGAATATTATGTTGAGATTTCTAAATATGATTAATAAATATTATAAATTAAGAAAATTAATAAGCTTAAGTTAACTCTTTTTACCTTAATTTTCTTCCCGAATATTTTTGGGGTAATATTCTTTTCATATATTTTCAATATATAGCAAGGTGATTAGATGGGTATTGATCCAAACTTCCGAACGTCTAAACAAGTAGTTGGGGAACATGAAGGGCATAAGGTTTATGGTCCAGTAGAACCACCTAAAGTTTTAGGAATTCACGGAACTATAGTAGGAGTAGATTTTGATCTATGTATAGCAGATGGTTCTTGTATAACGGCTTGCCCGGTTAACGTATTTCAATGGTATGACACACCTGGACATCCAGCTTCAGAGAAAAAGGCAGATCCAATAAATGAACAAGCTTGTATATTCTGTATGGCATGCGTTAACGTATGTCCAGTAGCAGCAATAGATGTTAAACCACCCTAAACGAATAGAAGTTTATGTTATCCCTTAATTTTTTCTAATGATAAACCTTTAGTTTTTAGTCCGAATATTCCTAGAATGCTTCCAGATATTATAGCTGTTAAACCTACAATTGTAAAAGCTAATATTACATCTTGTTGATAATACAAAGATAAAATTATTGGGCCTATAACTCCACCCAAGTGTCCTATTCCATCTGCTATTCCGAAACCTAAAGTTCTTATTTTTGTAGTTATATTTTCTGCAGTGTATGTATACATTACTGGGAATTTGAATCCTTGTAGGAACATTATTGTAAATCCTATTCCTAAGAATGAAATTCCAGATAAGAATGGCCAACTAATAATTAGCACACCACTTAAGAAATTTGTTAGAAATGACGTTAGTTTCCTTTCTATCTTATCGTTTACTATAGAAGCAATTAATACTCCTAATGGATCACCATATAATATATATGTAAAATAAACTGCAGTGTTGTTAAAGCCTTTATTTCCAATTAGTGAAAAAATAGGATCTGAAAAAAGTGCATATCCTGCAAAATAACTAAAAAACCATGCTATTAGAAAGAGCAAGATGGTATTATCCCACTTGAATTTTTCGTTAGATTTCTTTATCCAAAGTTTTGACTCTGGTAAATAAAATCTAAAAAATAAAGACGGAATGGCTATTGTTACTCCTGCTAAAAATAATAATTTCCAATATTCTTGACCAGCTAATACTGCAATTGGACCAACTACAAGACTCATTAGAAAACCAAAAGACTCAACAATACCTATAGTTTTTCCTCTGTTTTCCACCATTTCTGAAATATAAGAAGGTACTGTAGCAACTTCACCTTCTATTCCCATTCCTATTATAAATTCTGATATAATTATCATAATAAATGATAATGATAAAAGTCCTATTACTGATCCTAAAGAAATTAATCCCATTGATAATATTAGTCCTTTCTTTCTTCCCCACTTAGATGCTATGTATCCATTAAAGCTACCTCCTATAAAATAGCCTAACATTTCTGCGCTTAAAGGCAAACTAGAAAGATCTGTGTTTACATTGAATATTTTTGATGCATAATCAACTATATATGGAACATTGAAAATATCCCAAAAAGACAAGGATGTACCTAACGCTAATAAGACTAAATATCTTCTTTCTAGCATATTTGTTTATACTTTTTAAACATCTTTAAATTTATCGTATATTTTCTTTTAATTAAACGCTTAGCATAATCTCTATAAAAGACTATTAATCTTAATTATGGGATTTTAAGACGAAAATTTTGTTAGAGTTACCAGTGAATAATTTATTGTTATATTTGATAATTTAATTTTACTTAAAATTTTCATTATAGTATTTATAAATATAAGTTCTTATCTTACTTAAAATTGCTATTATTAATAAAAAGATAAGAATAAAAATGCCTTTAATGCTAATTATAATTATGTTAAGAATAGTTAAATCTATAAAGACTAAGCATGATAGGAATTCATTGATTATTATTCTCTCTGATCCTTCTTTTATTTTACCTAGGATATTTCCTCCTATAAAAAGCGTCGAAAATAATAATAGTTCATTTATAGCTAAGGGTAAATTCTTATTTACAGATTTTTGTCTTAGAGGAAATGTATATTCTTCAATTGATAATATACGGTATATTTTTACATTGAAATCTGGGAATAAAACAGGTAACGGTAAGTTAGAATTTCAATTTACAGAAAATATTAACATAAGCTTTGAATATGATGGATGGAGAGATCTAATGGCTAGAAATTTTATGTCTAAATGGGTAAATGATTTTCTAGATAAATTAGACGAAGATATAAGAATGGAAAGAATAAGGAGAAAGATATAATTTTTTGTTAATTTAATAGTTAGTTTTTAACATGCCAAATAGTAAGGTATTTAACTTAGAGTAAGGAGAATGAATTAATGAATGAAGAGAATTATATAATTTTTCTTACCATCTCTTTGCTTATCGGATTCATATATTTTATGATAAATTCATATTTTGCTGTATCATCGCCTAAATTATTACCTAAAAAAAGTTATGATCTAAAAAAAGTTACCGCTATAATACCAGTATATAATGAAGATCCGGATCTTTTTGAAAAGGTTATGCAAAGCGTATCAGGAATAAAAACTATAGTAGTAGGAGACGGTTGCTTAGAACCATATTATTCCATAACTAAGAAATATGAAGGAGAGTTTATTTACATCAAAAATAGATCGGGTAAAAGGAATGCATTAGCTCAAGGATTAAAGAAAGTAAAAACTGAATTTGTATTGTTTTTAGATAGTGATACTATACTATCTGAAGGATCATTAACTCATATGTTAAGTCTCATGGACGAGAAAACTGGAGGAATTAGTCCAAGAGTTCTTATGATTAATAATAACAAGTACTCTTACTATTATTCAGAATTTTTTGAAAGAATGTCTGAAGTACTTCAAAGAGCCTTAAGTAGAAGAGGTAAAGTAGCAGTATTATATGGCCATTGTGCATTATATAGAGTTGATTTAATTAAAAAAATAGTTCTATCTAAAAATTTTACCAACCCTCAAGTGCTAGGTAAAAGGCTAACTATAGGTGATGATAGACAATTAACAAATTTTATTTTAAATAGTGGTTATAGAGCAATAATCGATTATGAGTCTACAGCTTTTACTATGCCTCCTGAAGATATCAAAGGTTTCGTAAATCAAGTTATAAGATGGACAAAATCTAACTATTTCTATTTTATAAGTGACGTTATTCATGGTACTATTTTCAAAAAAGGCACTTTATATATATTTAATTCATTTTACACTAATGTACTTCCGCTATTATTCATAGTATTTTTATTGCTTGATTTCTCGCATGATCCTAAAAGTTACATGTATGAATTATTTGAGTATCCTAAAATTCTGCTATACGTGATTTTCAGAATTATGGATTTTCTGGCATCAATGCCTATACTTATAAACATATTATATATTCATACTTCTCATTCATTCCATGGTACTCCTATACATTTATTCTATAATGGGCATAAGTTGCACGTAAAATTTCTCACGACCACTATTCATATTCTCAGTTCTTTATCATCATTACCTTTTGCTTTTGCTATGTTTAAATTAGTAGAAAGAGACAGATTGAAAATAATTATATTAGGTTCAGTAGCACTAGTCGTTCAATTTTTTGCTGCATTTTATGCTTTATTAACCTTATGGAAGCAGGATAGCTGGAGGACTAGATAGTTATATTTTACAATAATTTGTTTCAGTCCCTCTATAATTTGTTTTTTCATAGTACAAATATCCTGCATTTTTATCTGGTTCTTTTAAATGAATCTTAGCTGTAGTTATATAAAGTATATTCAAGTTATCTCCTCCAAAAGTTACAGAAGTTACATTTGGTGTAGGTAGTTCAACTTCATCTAGTATGTCACCATTATTTGGATCGCATCTTAAAACTTTCTTTCCTCCAAAAAGAGCTACCCATAGTTTTCCTTCAGAGTCTATAGTCATTCCATCAGGATTTCCATTATATTTAGAAAGATCTATGGCTACTACCATATTTGATAGATAACCTTCATTTATGTTAAAATCAAACGAAAATACCTTTTTTGTGGGAGAATCTATAAAATAAAATTTTTTATTATCAGAACTCCACGCTAATCCGTTAGATATTGTAGTTCCATCAAGTACCTTTTTATAGTTTTTGTTTAGATCCAAAACAAATAATCCTCCAGTAGGATATTTTTCCTCTAAATTCATTGTGCCTATCCAATATCTTCCTAAAGCATCACATTTACCGTCATTGAATCTGTTTCTAGAATCCCAATCCTTAACTTCAAAAATTTTATGAATATCGTTTTTCTCGAAGTTTATAGAATAAAGTCCGTGTCCTGATGTGGCTATTATATTTCCATTTACATGAGGCTGTATTGAACTAACATAGTTCTCTAAAACAATTTTTTTATATTCTTTTCCCTTTAATCTATGTATTTCTCCCTTTAGAATGTCTACCCAATATAATGAGTCCTTCACCCATATTGGTCCTTCATAAAGCTCTCCACTATAAGGAGATATTTTATCCATAGATTTACTATGCTAATATATTAAAAATATTTTATCTTAGAGTGCTAAGAGAGCGAAATTTCCCTTACACTAGGAGTATACTAGAAGTTTCATAAAATCCTTGTTAACGAAGCGAGTACGAAATAGCGAAAAATAATATAAAAAACCTTCCCAAAGTATTGTCGTCAACTAAGTGTTACTTTATCTCAAGGATTATCTTCTTATTTCTAATGCAGTTCTCTTTGTCGTGAACTGCCACGCCCTAACGGGCGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCAATATGGGACTGTTGAATGGAGTAGAGGCGTACCACATAGACCCTCGCTTTAACCAAGGCGTCTCGGTGACGCTTACTCCGTCAGTGACTGCCATTAATAGAATATTTGAAAAATACGTATTTAAATGTAACTACAAAGGGGGCTCCTACGGCGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCCTTACAAGAGTAAAACTTTTATAAAGAGAACAAGAAAATAACACAAGCCGAAAGTGAACATGGGGATAAAACCCCGTTGGATAGGCTGGCTATACGTCCCCGCGATCTAACATGTGGGACAACATCCCGAGTAGGAGCGTGCAAAAATTTAAGGGGACGTTCTCATAGTTAGTTCGCACTATCTCCTAACAAAATTAACAATACAACGCGTATTATAGAAAAATTCAAGAATTAGAAAAAGAGTATTACACATACAAAGTGAAGATCCTAAAGTTAACCTCTATCGAGTGGTTTCCTCGGCTCTTCAAGCTATCGCCTAGCCATGTTAGAGGCGAAGCATGTGGAGCCTATCCATCTCCACCCTTACAGATGGAGTCTTCCGCCCCCTTTGAACCCCTTGTTCAGATAAATTTTAACTAAGTTTTCCATAATCAGTTTAATAATACTATAGTATACAGTTTTCTAAAATACTGACATGGATCTTAGTTTTCTTTAAAATATAAATATATAGCTATAAATAGTTTACATAAATGAGCCTCCAAGTAACTGTTAAAGAAACAGAGAAGAGATTAAGTAAGATTTACTCTTTAAAAATAAGGAAATATTTATCAATAATATATTTATCAATTGGTCTATATTTTCCTATAGTTTACACTCTCACCGTATTTCATTTTAATTCTTTCATCCTAAATATAGTGGAAACTAGTATTTTCCTATTTATAGTAGGGTTTTGTATTTATCTAGACGTGAAGCTAAGCAAAGCTTTCACCATCCTACGAAAGCTACGTAATGTAACTCATACAAAAAATAAGGATAAATATTCCTTCTCCTTTTCTTCAATAGCATTTTTAGTAATTACCATCATAACAGCGTTATTTATAAGATCTTACTTACAGTACGTGATTCCCTTCGCTTTCCTAGAATATTATCTCTTTAACTTGTTTTTTTACCAAAGAGTTCACGCAAATGTAGAAGACTGGATAGTAATTGTCTCTACAATAAGTCTAATTTTTATTCCTCTAGATCAGCTATTCTTATCAATATTATTCAGTGTGAGTTGGATTACCGCAGGAATAATATCACTGGCGAGACTTTATGAGTGACGAGAAATCAAAAGAAATAGGTGAAATTCTCAAGTTCGTAGCTTCAAGTCCCATCTTTTCATCACCTATAAGGCTAACCATTCTTTTGGCGCTTGCTGGATTTAAAGAAATTAACTTCACAGATTTACAGAAAGCTCTAGAGGTAAATAAATCAACGTTATCAATAAACTTGAAGGTTCTGGAGTCAGAGGGAGTAATACAAATAAAGTATAAAATAGACAGGAATAGACCTAAGCAGATTATAATAATAACCGAAAAAGGCAAAGAGATAACTGAAAAATATCTATCAATGCTAGAGAAATATAAAAATTTCTTGACTAATTTATAAATGGACTGAAGATTCGTCCTTAATTATTAAATTACGTCTATATAGTCTTTGTGATCTCTTGTTTATAATAGTTAGTAAAAATGATATCATAACTGCTCCCAGACTCCATAATAATGAGTACGCGTTACCCTCTAGAGAATAATAAATTGATTGAGATACATAAGTGCTGGGTTCAAGAAAGACCAAATACCTATATGGTAGAGGAATAAAAGATAAAGGATAATAAACAGGAGCGAAGAAAGTTAATGCAAAACCCAAAACGTTAGAGTACTGACTCACCTCGTATGGATTTTTAATTACTGAGGCCAGTGTCATTCCAAATATAGAAGATAATGCTATAGAAGAAGATAAGGCAATTATAATTAAAGGAATAGATTTTAACTGTATATTGTATATAAGTACTCCTATAGTCAAAATAGTTAATATAGGCATGATATCTAAAATTATCTGTGACAATGCTATACTAATACTGTATAATTCCTTCCTTACTCCTGCATCTAGTATTAATGAAAACCTGCCAGATTCAATTTCATTAGCAAGATTATTCGCTACGGCAGTAAAAGTACTTATGAATAGATAAGCTGTAAGAGTGCCAGATATAATATAGAGTCTGTAAGAGTTAGACACGAAAGACGCAAATACTAACATAAATCCTAATGGAAATAGTAGGGAAAAGAACACGTAACCTAATGCATAACTCTTAGCTCCCTTTATCTGCATTACTACTATATAAAGTATTTCCCTTAACATCTCACTCACTTTGGAATATTTGTAGATATATATCCTCTAGACTTGGCGTTTTAACCTCGAATTTACCTTTAATTGACATTACTATATCCTTGACCTTGTCCCCTCCTACCTTGTATACTTTATTATTAGTATAATCTATGACCTCATACCATTCCGTGAACTTAGCCTTTATCTCCAACGGAGTACCTGAAAATATAACTTTCTTGTTCAGAAAGTAAATCCTATTAGACAACTTCTCTGCTTCATCTAAATAATGAGTAGTGAGAAGTATACTTTTACCATTCCTTTTCATATCGAGTAAAAGATCCCATATTTTCCTTCTTCCCTCAGGATCTAATCCGGTAGTCGGCTCATCTAAAACTAGAAGTTGAGGGTTGTTAACTAGCGCCATTGCAAGCAGTAACTTTCTTTTCATTCCACCAGATAGATCCCTAGCTATTTTCATCTTCACATGCTCTAGGTCAAGCTTTCTGAGTAACTCTTCTATCCTTTCCTCTAAAGTTTTCTTATTAACCCCCTTTATTCTCCCTATGTAAAACAAATTATCATAAACTGTTAACTGAGTAAAAGGTCTGACTTCTTGGGGAAGTGTGCCTATTTTCTTCTTCACTTTTACGTCAGTAGGTCTCTTATCTAAAATCCTTATTTCACCTTTATCAGGTTCAAGTTCTCCATAGATTTGTTTCAATAAGGTAGTTTTCCCTGCACCGTTAGGTCCAAGTATAGATACTATTTCATTCTCTCTAACTGTCATGGATACTTCTTCATTAGCCACAATTTTACCATAGCTTTTCCAAACGTTGTTTATCTCAATTAAATCCGTAGCTTTACACCTAGATTTAAAGTATGATTTTCAATTAGTTTAAACTATAGCTATAGTTTACTGTTTTAAACTTCAAACCATATATAATGTTAAAAATCTTAAAAATGGCATATCAATTAGAGGACGCAAAAAGATGATAGGTTTTAGTTTATATTCTATTAGAAAATTTGAAAGATATGAATTTCCTACAAATAGAAGATATTCAGATTTTACAGACTTTTATATAAATGGCAATTGTGGTTGCTCTACTGAACCTATGAGTGCCGCTACTTTTCCAGTGATGGTAGCTAGACATGCAAATATTTGTACATAGAGGAGGATACTGAGATGTCTTATAATGATTTTTTCCATTTAATCATTTACATCTATATACCAATACAACTACGTTAATTATAGATCTATTATCAATATTAAGCAATTATATATCATCTTTGCAAAATATTTACAAATTAACTCTTGAACACCTATTATCTGGTATCCCCAATTTAATTTTAACAAGTATAAAAAATGATGAAGACAATTTATCTTAACAAGGGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATAGGCTCCACATGCTTTGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGAGGAAACCACTCGATAGAGGTTAACTTTAGGATCTTCACTTTGTATGTGTAATACTCTTTTTCTAATTCTTGAATTTTTCTATAATACGCGTTGTATTGTTAATTTTGTTAGGAGATAGTGCGAACTAACTATGAGAACGTCCCCTTAAATTTTTGCACGCTCCTACTCGGGATGTTGTCCCACATGTTAGATCGCGGGGACGTATAGCCAGCCTATCCAACGGGGTTTTATCCCCATGCCCACTTTCGGCTTATGTTATTTTCTTGTTCTCTTTATAAAAGTTTTACTCTTGTAAGGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGCCCCCTTTGTAGTTACATTTAAATGCGTATTTTTCAAATATTCTATTAATGTCTGACGTAGGGTTACGCTTCAGAGCGTACACTAACGAACAAACATTGAGGGCGTTAAAAGCCCAGTTGAGGTTAGCGTCAGAAGTATACAACACCCTACGTTGGGCAGACATCTATTTTCATGAAAGAGATGGAAAAGGACTCACTAAGACGGAGTTGAGGCAACTAGCTCTCGATCTGAGAAAACAGGATGAACAGTATCAACAAATCTATTCCCAAACACTGCAGCAGATTGCAGACAGATTCTACGACGCTAGACAGAGGTTCTTCGATGGGTTAGCACGTTTCCCAAAGGAAAAGAAAGCACACAAGTGGTACTCCCTCGTCTACCCTCAATCAGGTTGGAAAGTCCTGAAGGTGAGAGAAATAAGGACGAAGAGCAAGAAGAACAAGAAGAAGGTAATAACGCTTCAGCTGTCAAACCTAGGGATCTTCAACGTCGTTGTCCATAGGGACTTCCCGCTAGACAAGGTAAAGAGGGTCATAGTGAAGTTAACACCGTCAGGGAGAGTGTACATTACTTTCGTTGTGGATCAAGAGTATCCTCAACTCCCAAAGACAAACAAAGTTGTTGCTGTGGATGTTGGCGTAGAGAAACTTCTCACTACCTCTGACGGGGAATATGTCCCCAACCAGAGACCTTACGAGAAGGCACTCAATAAGATGAAGAGGCTTCATAAAGCTCTCTCACGGAAGAAGTTCTTGTCACGCAACTGGTTTAAGGCAAAGATTCGTCTAGCGAGGGCTCACGAACACTTGAAGAACCTTAGGAAGGACATGTACATGAAACTTGGTAAGTATTTTGCTGAGCATTATGATGTTCTCGTAATGGAGGATATTCATGTTAAGCAACTTGTTGGTAAGTCTCTCAGAAGGCTGAGGATGAGGTTACACGATGTTGCTATTCATGAGCTTAGGAGTATCATGGAGTATCAACTTGGGAAGTATGGTAAGAAACTCACTCTAGTGGATCCTGCTTTTACTTCAATGACTTGTGCTAGGTGCGGGCATGTTAAGAAAGATTTGACGTTGGCTGATCGTGTGTTTGTCTGTCCCAAGTGCGGTTGGGTCGCTGATCGTGATTATAATGCTTCTCTTAATATTCTGAGGAGATCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCCCGTCCGTTAGGGCGGGGTAGTTCACTGCATAGTGAGATATATGATGATACATACCTAGATAAGGCTGCTATTGATAAATGGAATATTCTAATAATAATTTACAATTTATTTGAGACAATAAGGTATTTCTTACTTATTAATATAATTAATTCTTTACTCTCTGTTAATCATAAAGATCTACCAAAAATAATGTTGTTCGGTTATGGTGAATATTTACTTAACTATATAGTGAGAGACGTTTTCGCACAAAAAATTAAAACTTCTGAAATAAGTAATAGATATATATCGATCTACGCAAGTAGCCTAGGTCCAATACTTGACTATATTAAGGTCAATTCTAATGGACTTATGGATCTAACAAAAATAAGAATATACGCTGACAACAAACTATAATTTCTTCTTCCTTTTACAGAATGGTTATTATCTTGTTTCCTGTCATTTCTAAGACTTTCCTTCTTTGCTCTTTTTAATATATTTTCCACTTGTAATACTTTTCTATTCGTTACATTATAATACATTAATTCTTAGTGAAAGAGACTATAACTTACCTGCTTAAAACTAAGCCTTGATGATATGGCCCTACATAAAATTCCTTTTCTATTTTAAAATTTTTAAAAATATTAAGGTAATCTTCTTTGCTCATTCTAATACTCAAAGGAGGGCCGAAAGAAGTATTTTCCTTTTTCCAGTCTATTATAATAACTTTTCCTGTTGGTTTGAGTATTCTTAATACTTCTTCATAAACTTTCTCCTTATTTTTCATATCATGGAAAGAATTGGCAAAAATTACCTTATCTATAGAACTAGAAGGTATTGACGTGTGTGAAGAGTCCTCTATAAGAAATATAACATTATCTGAATTTACAATTCTTTTTGCTTCATTTATAAATTCTTCATTTTTATCTACACAATATATCTTATTTCTAGTAAGTTTAACTAGAAATTGGCAATAATATCCAGGTCCACAGCCTAAATCCGCTATAGTATCGTTTATATTAATTAAGTTAGGGAGAAACTTTTCAGGATCTTCAAACTTCTTTCTTAAAGGGCTAAGAAGAAAACTGTGATTATGCATAAATATATTTAGTATAGAAGTTTAAATGTTTATTGTAAGTTTAGAAAACAACTCATTATAATATTATTTTATGTTAATTTATCTTCATTAGAATTAATTACTGTAAAGTTTCTATATATTATTCTAGACATAACTTAGTGATATCTTATTCTTATTTTTATAACTTATAGTTTTATTAATTACTAATGCTAATTAATTTATTTTGATTCACTCTGATTTCTAGGTTATTGTGTAACCTGTTAGAAATCCTTTTATTATATTATCAGATAATTTATCAATTTGATTTGGAATATCTAACTCATTTAACGTTCCAGAAAATCCAAATAATTTCTCTATAAATGGTATGATTATACCTATTCCAAGTTTTTTTCTTTGTAATATTTTCTCTACTTCTATTCTAATATCTTCTAGATCTTTTGGATATGGTGGTACCATGTTTACAGTTAATCCTAGGGGTTTTCCAATATTAGTCGATTTCTCTATTTTTTCTATATAATTTTCTGTATTTTTCAATGTAGTAGCAGAATGATCAGAAACATATATTCTATAGGACTCTATATTAGGTAAGATTCTATAGAATACTTCTCTCTCATGGAATACTATATCGTTATTATAATTTACCATAGCGAAATTATCTACGATATAGAAATCGTATTTATTAGTATGCAGAATATTCGAGTATATCTCTTCAAATTTTTTCTTTGCTTCCCTATTTCTAGTAAGTATATATGAGTCGTTAAAAACTCTTGACGGATCTCCGTAAAATTTTATAACATCCAAATATCCATTTTCTATTTTTACACTTTTAAAAAAATTTGCCGAAATATTATCTATTATTGAATTTATCAAACCTTTATCTTTTATTCCTATAACATTAGAACTCCAACCTAATGGATCCCTATCGATTATTAGGACTTTCTTCCCTTTTCTTGCTAGTGTCTTTCCTAAGGTTAAGCATATAGTAGATTTCCCTATTCCTCCCTTCACTCCGTATACGGTAATTCTCATAAGTTCAATATAAATATCTATAAAGATAAAAGTTTTTTTGTTAAAGCTTTCTTACACCGCTAGTATCTATAAAAATGTTAGTTTTAAACTACATTTATTTTTCAAAAGTTTCCAAAGGAAAATCTTAAAACTCATTGAATAATCTATTTTCATGCTTTTTAATGTTATACCAAGAAGCAGATACCTAGATATATTAGCTGAAGGGCAAGAAGGTATAGTAACATTTCCAACTTATATACCTGGCTCTTATGTAATAAGAGAGTTAGAACGAAATATAATAGAAATTGAAGGAGTTAGAATGTCTAAAAATAAATTTTATGTTAAAAGTAAATTTAAATATAGAATATACACTTTAAGTAAAGATCAGAGAGAAGCTATATCTACAAGAGATTATTTATTTATTAATCCAGCTTCAGTATTTCCTTTTCAAGATATTAATGAGAAATATTGCGTTCAAATAGAAACTTCATGGAATATAATAACTCCGCTAAAAAAAGAGGGTAATTTTTATTGTGGTGAAAATTATCATGAGTTTGCAGATTCACCTATAGAAGCTTCTCCTTTTCTGAAAGAAATAAAAATAGACGATCTTCATTCAATATCTACAATTGATGAGATAGATATTTCGGCCATTAGAAAAATAGTTGAAGAAGCCGACAAGATAATTAAACCCAAAGAAAAATACATTTTCTTCTTTAGAAGATCTGATAAAAACTACGGAGGTATTGAGCACAAAAATTCGTCTGCAATTGTGGTTTCTTGGGAAAGAAAAGATTTATCAGAACTATTTGCTCATGAGTATTTTCACAGACTTAATGTAAAAACATTAATACCTAAAGATCTTGTTCACAATTACGAGAGAGAGATTTACACTGATTTATTATGGTTTGCAGAAGGATTTACTGACTATATGGCTCTTCTCATTTCATTAAGGGCCGGTTTAGATACTCCAGAAGAGGCACTGAGGGGTATTCTTTCTTCTTTATATAAATTAACATTTCCAGGTGCAAAAATAATGAGCTTAGCCGAATCTTCATATACTACCTGGATAAAATACTATAGGCAAGATGAAAATTTTCTTAATTCATCAATATCTTATTATAACGGAGGATTATCATTAGCATTTTATGTTGACATAAAGTTGACAAAAAATGGAAAAAGAATAGATGAAATATTTAAAAGACTACCAAACAGATATTCATTTTCCGATATACAAGGCGTATTAGATAAATTAGGATTTTATGAATCAGATCTAGTATATTCTCCTGCACGTAAGATATTAGACTCAATAAAGGAAGAAATATCCTTAGAATTTATGGACAAGGATAAACCTTACTATGGAATAATGCTCGATAATAATAAAATCCGTTTTGTAGAAGATAATTCTCCCGCAGACAACGCAGGATTACTTCCAGACGATCAAATAGTTGCCGTAAACGGAATAAATAAGCCTTTAGAAGTTAAAGACGAAGTAAATCTAACTGTTTTGAGAGAAGGAAGACTTAAAGACGTTAAGATTTCCTCTGGGAGAAATCCTGGACACGCTTTAAGAGCTAAAATAGATGGTAAGATTGCAGAAACTATTTTTGGTAAAAATGAAGTAAAAGCAGAATATACTTCAAGTATTCTTTAGGTCTTTCTATAACGCATTAAGGATATTATTTTATATACTACTTTTTATATATATGTTTACGATGAGGCGTAATTGGTTTACGATGCATCGTAATAATATTTATTTCCTAAAGCTCTTTGGTCCGGCATGGTTAGTAATGATGGCAGATATGGATGCTAGCAGTACCATAGGTGCAGCCGAAACTGGAGCTATTTTTAAATACGGATTAATTTGGTTCCTGCTTCTTCTTGTCATTCCCCTTTATTTTATACAAGAGGTTTCAGGAAGAATTGGTGCAGTTACAAGAAAAGGACTTGGAGAAGTAATAAGAGAAAACTATAGTAGAAAAACCGCTATCCTTTTATCTTTTCCAATGGCTCTAACTGATGTTATAACATATATAATAGAATATCTAGGTGTGGCAATAGGTTTAGAAATGATGGGAGTTCCAGTATATATTACTGTGCCTATAGTTTACATAATTCATATTTTAATAGTAACTAAAAGAAAATATATTAAAGCTGAAAAAATATTACTTCTAATATCATCATTACTTATAATTGGCTTTGGTGCTACTCTGGCAGTTAGAGGAATAAAGGACTATTCTCCAATTTACTTTGTGCCATCTCCAGATTTTATTTACATACTTGCAGTTAATGTAGGTGCAGTTATAATGCCATTCATGTTGTTTTTTCAAGCATCAGCAACTGCAGAAAAAATGAGATGGATTCCTAAAACTAGTGAGAATTTCTTAAATAGAGCAATAAAGCATGTAAAAGCTGAGACTCTTATAGGTGCAATAGTAACTGAGCTCTTAATGGCCATAGTAGAAATGGCTACTGCTGGAATAGATCCTTCTGCAAATTTTGCTTCCGCTAGCGATCTCTCAAGCGCTTTACAGTATATAGCAGGAAGTTATTCCCCATATCTCTTTGGAATCGGACTTATAGGAGCCGGATTTTTAGCTTTAGTTATAATATCGTTAGGAAGTGCTTGGGGTATCGTAGAAGCTCTAGGCATACCTAGGGAAAAATCTTATATCGTTTACATTCTAGAAAGCTTACCTGCAGTTATAGTAACATTAATCATTCCTTCTTATTTATTAATAAATGTAGTACTTAATCTTCTTGTAGCATTTATATTTGTATTAATAGGACCTGCAATAGTAATGGGAATGATAGCCAGAAATAAGAAAATAATGGGAGAATTTAGAAGTTCTTGTTTACAGAATGTAGAGTATTGGGGTAGCCTAATATTTATAGTTATATTCGGAATACTTGCTATTCTGTGAACTATCACGTCCTAACGGACGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGGGGGTAGAGCTCCACAGGCACTATCGTTCCAACCCCGATCTCTTCAGTATGTTGAGAGAAGCATTATAGTCACGATCAACAGTCCAACCACAATTAGGACAGACAAACACACGATCAGCCAAAGTCAAATCCCTCTTAACATGTCCGCATTTAGCACAAGTCATTGAAGTAAAAGCAGGATTAACAAAACGAATCTCCTTACCATACTTCCCAAGTTGATACTCCATGACACTCCTAAGCTCATGAAAAGCAACATCGTGTAACCTCATCCTAAGCCTTCTGAGAGACTTACCAACAATTTGCTTAACTTGAATGTCCTCCATGACCAAGACGTCGTAATGCTCAGCAAAATACTTACCGAGTTTCATTTACATATCCATCCTAAGGTTCTTCAAGTGCTCATAAGCCCTTGCTAGACGAATCTTTGCCTTAAACCAGTTGTGTGACAAGAACTTCTTCCGTGAGAGAGCTTTATGAAGTTTTCTTGTCTTGTTGAGTGCCTTCTCGTAAGGTCTCTGGTTGGGGACATATTCCCCGTCAGAGGTAGTGAGAAGTTTCTCTACACCAACGTCCACAGCAACTACTTTGTTTGTCTTTGGGAGTTGAGGGTACTCTTGATCCACGACGAAAGTAATGTAAACTCTCCCTGATGGTGTTAACTTGATTACTACCCTCTTTACTTTTTCCAGCGGGAAGTCCCTATGGACAACGACGTTGAAGATCCCTAGGTTTGACAGCTGAAGCGTTATTACCTTCTTCTTGTTCTTCTTGCTCTTCGTCCTTATTTCTCTCACCTTCAGGACTTTCCAACCTGACTGAGGGGTAACCCTACGTCGGACATTAATAGGGTATTTGAAATAGAATTATTTAAGCTTTACAAAGGGGGCTATCTATCTCCTTACGGATGGAGTCTTCCGCCCCCTTTGAACCCATGAATCTGATAAATCTAATATATTAAAAATGATTTTAAGAGTTTATATTTTATAAAAAATAAATAAAAAAGTAAAAAATATTTTTAATTTTATATTTTATCTTCTTCTTAATAATACTACTACAGCAGCCACTACAATTATTACTATAACTATTGCTATTCCAGCGTATACTATTGGAGATATTGATGGAGGATGAGTAGTAGTTGTAGTAGTTACTGGTGGGTGAGTTGTAGTTACTACTGGTACAGAGCTTACATTCAACGAACCATAAGAGTATTCTTCTAATCCACCAGGACTGATAATCTTAGCAACTATTTCATATATTCCTGCAGGTAATCCAGTAGTATTTATCATCGCTGAATATTCGCCTGGTGCTATCATTGACATTGTTACTGGTTTAGTGTAGTTACCATAAGGTACTCCCGGTACGTCTAAAGCTTTCAGCCATACATACGCAGTTCCGTTTGCGGGTGTTGGAACTAAGGAATCGGTAGAATTATCCCAATTATAATACGTAAATGTAGTAGTATAATTATATGGTGTTCCTGCTTTTACATTTGCCAAGAATATCAATGGATCTATCTTAAAGTAATGTGGATTATATGTTAACGTGAATTCTTCATCACTAAATGCACTACTTGTACTGTTCCACATATATGGCCCGTTACTTATTAATGGAGCATACTTATCTGTCCATATAGTCGCAGGTTGAATATGAGAGTATACGCTTGCTGGGAAGTATATGTCTATTTCAGTTAAAGTTTCATCTATTACTAAATCACTAGTTGAATTTAGATAGAATACTATTTGATATGGATTAGTTACTTGACTATCTACAAGTTGTGGGATAGATCCAAAAACATCAGTATTGATAAATGAGTTATCTATCAAATATGTGTAATTGAGAGTTATTCCATCAAATGTGTTAGTTCCACTTATTCCAGCTAAATCATAATACCAATATGTAAAGTTAACGTCATAAGCTGTTACCGGATATCCATTTATCCATGTTGCATTATGTACTAAGTTTACTGTAAGTATTGTTCCATTGACTATTTTTTCTCCGTTTGGAGCAGTAGTAGTTACTCCAGTGTCGAGTGTCCAATTCTTGGCTAGCATTGGTACTAATTGAGATGGTGGCAATACTGATGTTACATCTGTAAGGGGCGTTGTAGCCAACGGTTCATACATGCAATCTAATACGTTAAATGCATATAGTGATTCTGAAGCATATGGTTGCATATGTCTAGGTAGATCGCTAGCTACGGAAGAGAATAGAAAGTCTCCTGTTAGTGTGGAGTTTACTGGATGTATGTTCAATACATTTATAGCATATACTGCTGTTCCATCTTTCATATAGATATAGTTAGCCCAACCAGGTAAATAAACTCCTTGTATTGCATTACTCCATACTACTATAATATAAGGTAATTGCTGCTGTAAATCTAGTTCTACTTGCTTCATTATTGATATTGACTGAGAGAGAGACGGTGCAGTTTGTGCTTCATTTATTAAATTATCTATAGTAGCATTACTAAAACCTCCTACATTTTCTGGGGAAGTATATATAGTCATCCATTGAGGAACTAGTGGGCCTAGGTCAATCCATCCAAAAGTAGTCATATTGAAATCATATGGTGGTGTAACAGCGGTTTGAATTAAGGTGCCAAAAGGTTCTGCAAGTATAGTTACTGATATATTGATTAGTGCAAACTGGTCTTTTAGATAGTCTGCTAATCTTAATTGGGGTTGCTCATCTTCAGCATAAATAAAACTTAATGTCAATGGCTTACCTTTGTAATACCACTTACCATCTACGTGAGTTACATTAGGAATACTTTCTAAGTACATGACTGCTCTTGTTATATTATATGATTCATATTTCTGATAATATTGTTCAGCAGCTGTACTAAACCATTCTGAATAAACTTTAGGGCTAACGAAATATGGATAATCGATTCCTAATATCCCATTTTCCCAGACTATGTTAGTTATGTTTATAGGATTTATTAAACTACTTACTGCATATCTGAAGTATAGGTTAGAAGTTAGAGAGGAAATTGTACTATTAAATGAGAATACGAGTTGACCAAAACTCTCTACAGGAGCTATTCCTACAAATATTGTAGAATTATATTTTTCTAAAGCCTCTTTTACTTCACTAGCATGGTCTATTGTAGCAAAATCTATTTTGCCTGCAGTTAGGGCCTCAAACTCATCTGTATGTGAGGTATAAGAATAGAGGAAAGTTATTTTTCCTACCCAAGGTTGTGTATATCTTGCTTGGTCTGGGTTTAGTATCGGTGTATTAAAGTTGCCTATTGCGTACCCAGTAGTAAGTACTGGCATAGTTACTTCTAAGGCTATTACCATTATTAGAAATAATACCAAAAATATTCCTATATTTGGAAGATTTATGTTACTCATTTAGATCAGTTAAAATTTATGTTTAATATTTTTAAACCTTTCCATAGCAGTGCGTGATAATTTGAAAGTAATTTATAGTTTTAGTTATTAAAATGAAATTCTACTAAAATAAAAATGGATATTCTTTAATAGGTTTCATAAAATGTGTCATTAAAATCTAAATATTCAATATAGTTTGTAAGTTTATTAAATAGCTATTAAAATTAGTGTCTTTACTCTTCTGAAAGTATTTAAATATTAACCAAGTAGGACAATTACATAGGATGAATTCTAAAAATATGAAGATTATATCTATAGCGCTAGTTGTCTTCTTTATTATACTTTTAGTATCTGCAATATATTCTACATACTTTAGTGAAAACTATTCTATAATATATTTACCAAAATTTTCTAAAATAGTTTCATTTATACCTATTTCTTCTAACAGTATATTAATAGCAGGAAATGAAATTCTAGGAAATACAACTGAGGGATTAGCTGGAATATATTATATAAATAATAATTCGTTTATCGATTTAAATCTAAATGGATCTTTCGATAATGGTAGTATATATTCTGTAGCGTCTAATGGTTCTTCGTATCTTTTTGTTGGAGCTAAATATATAGGAACGGAACTGGTTCCGACAGCTTTCCTATATGATAATGGAAAAATATATAATTATAGTAAATATTTTTCTAGCTTTGCTCCTGGCCAGGCTTTTGCAGCAGATTGGTTTAATAGGACATGGTTAGTTGGTGGAGATTTTGTTATATATCAAAGCGGTGGACAGCATAGCATTATGTTTATGTTCTTGGTAGGGATAAAAGGTAATGAAGCAATAGACTATACTAAGAATATATCAATGGAATTAGGAGAATTACCAGAGGGTGAGATATTTACAATAAACAATAGTTCCAATGAAGTACTGATAGGTGGCTCTTTTTCAATTTATACATCTGTTTTTCTATTAAGTAATGAGAATCTGAACGTAGATCCTTCAACGATTCTGTATAAGACTCCTGGTTCTATACTTACAGCTTCACCTTATGGAAAATTATGGTTAGCAGGTGGGATGGAATTTACTCCTCAAAGTGTAGAAGCTCCTCAGCCTTATCCAGTTCCTTATCTAATTACAGTTGGTAATAATATTAGCCAAATAAATATTCCATATAAGATAGGAGTTATAACTTCAATTGCCACTGAAAGTGACAAGATTGCTGTAGCAATAAGAGTTCCCTTTAGTCAGTACCAGAATATTACTGGCGGTAGTGTTATTCTATATGGCAAATTATCTTCTCTATCCAAGGTATATCAAAGTGAGGATATATCTATTAACCAACTAAGTTTTATACATGGCTATCTTTTAGGTGTAGGATACAAAATAGCTGGAAACAATTCAGTTGGAGTTCTATTATTATATAAAGTATAAATTCTTTTCATCATAAATTATGGAAAATATTTTTAAGTGACTATTACTGAAATTCTTTTAATGGAATCTGCTCAGCAAGAGCTACGTAAAAACCTTCTTTCAGCGAGGAAGAATGCTCTAAGGGCAAATTTACGTTATATAGGTAGACGGCTGGTTTCTAGGCTTATTTTGCTTTTTGCTATAATAAACTTTAATTTCTTTTTATTTGATATCATTCCTGTAATATTTAATATTAATATAGCATCTTTTTATGTTCCACCAGGTTTTACTCATTCAGGTTTGAGTAGATCTACAATTGTTGAAGGAGTCGAGAGACAATTCGGTCTTAATAAGCCATTAGATATTAGATATATTGATTATCTTAAGGATATAGTTACATTTAATTTTAGCACCTCATTTCATTATGAAGAACCCGTTACGCAATTAATATTACAAAGGCTTCCCATAACGGCTATGATAGTCATACCTGCCTTGATACTAACTACTATAATGGCAATATTTTTTGGAGTTTACTCTGCAACAAGAGAAGGAAAGGCAGTAGATCATGTGATTTCAAATTCAGCAATTATAACTTATTTTATACCAGTGTTTTGGTTAGGTTTTATAATATGGTATTTTCTAACTATACAGACTAATTTATTTCCGTCTAGCTATACTTTAGCATTACTTGAGAAAGGAAACAGAGAACTTAATTTGATTTATTTACTTATACCACCAATTCTAACTTTATCAATAACATCTTTTGGAGTTAGAACAATACTTATGAGAAATAATTCTATAGATACTTTAGATCAAGATTTTGTTACAGTACTTAAGGCAAAAGGTTTACCAAGATCTAAAATCTTATATAAACATGTCTTCAGAAATGCTTTCCTACCAGTATTTACTAGAGTTGGAATAGATTTAGCGTTTCTATTAAGCGGTATTGTGTTCATAGAGGACGTATTTAATATTCCTGGATTGGGTAGATTGTTATTAACTGCGGCTACTCACTTTGATATACCTTTACTCTTGGGAGATTTCTTTACAATTAGTTTATTCGCAATTATAGTACTAACTTTGATGGACTTTCTATATGTATTAATAGATCCCAGGGTGAAATATTAAAATGAATAGTACATTCAAAAGATTAATATCCCAAAAATCATTTATAGTATCAATAGTAATAATAGGTTTTGTAGTAGGTTTAGCGCTATTCTCATTAGTGTATGGTAGTTATAATCCATACTATACCTCTTCATATTATGTTTCTGCGCCTTATTCCGTTCCTACATGGGCTACTATCTTTCCACAATATAAAGGTCTTCCCCCTAATTTGCATGAAAACTTTACCTATAATGGCCAACTTGAAAAATATAATTCTACAACATACGAAATAATAGTTAATCCTGGTCAAGTTAAAAATATATTTTTCGAAATTAATTGGAAATATAAAGCTCCATATTCAAGCGTTTTTAGCTTAGATGTATATCCAAATGTTTCAAGTAATCAAGCTTTCTTTATTAATATGTCATGGATTACTCCTTCTAATGTAAGTGAAGAATTAATTTCTGCTGCGCCAGTATCTCAAGAACCATTTATATTTGCTTCGTATATGACATTCATTTCTTCGGATAAATGGATTCCTATAGTATTTAATACTCAATATTCTACCACCATTCCCTCCCCTTTCGTATCTAGCTTACCTTCAAGAGATCAAATAATAGCTCCAGAAATCTTGCCGGATCTAATGTTTCCTAAACCTGGAGAATATCATCTTGAGCTTACATTTTCCAATAATTCTACAAAACCAGAAGAGTTTCTTTTTACTCTGCCAAGTTTTTCTGAAAAAGGATATGTATACGGTTTGTTAGGTACTGATGAGAATGGAGCACCGGTTTTTCCTGAATTTGCAATAGGAGCTAGATTTGATTTAGAGATTGCATTAATAGCTAGTATTTTAATTGTTTTCATAGGTGCAGCTTTTGGAATAATAAGTGGTTATTTTGGAGGAAAAACTGATACTGCAGTAGTAGGAGTAACCGATTTCTTCTTGCTTTTACCGGGCTTACCATTACTTATTACTCTAGAAATAATTCTAGTAAAGGCAGGAATTAATATCCCAAGAATTGATTTAATAGTTCTTTTAATTTCAATATTATCGTGGCCTGCGACTACTAGAGTAGTCAGATCCCAGGCTCTATCAATAAGAAGTAGAACTTTTATAGAGGCAGCAAAGAGTTTAGGTTTAAACAATAGACAAATAATGTTAAGGCATGTATTACCAAATTTAATTCCTATAATTGCTGCCCAAGTTGCGTACGATGTTCCTACAGTTATTTTAATAGAATCTGGATTAGATTTCTTGGGATTGGGGATAACTGGATTTCCTACATGGGGAAATATGTTAGGATTCGCTAGTACTCATATTTCAAGTGCAAATAGTTTTGCATGGTGGTGGGTTCTTCCGCCAGGACTAGGGATAGTATTATTAAGCGCAGCTTTCTATTATTTAGGAAATGCCTTCATAGATACTTTCAGCTCACGTAGAATAGGTGAATAATTATGTTCGATGAACTTGTACAAAATCCTATACTAGAAGTTAAAGATTTATCAGTTCATTTTTATTCTAAGACTAGAGAAGTTAAGGCTTTGGACAATATTTTTATCTCACTAGAGAAGGGTAAAGTCCTTGGAATAGCAGGTGAATCTGGATCTGGTAAATCTACTTTAGCTAAGGCTATATTTAGGATTCTTCCTTATAATGCTAGAATTTTAAAGGGACAAATTATTTATAAAGGTACTAATTTAATAAACGTAAATGAAAATGATTTACAGAAGAAAATAAGATGGAAAAGTATTGCTTATGTGCCTCAAGTTTCTATGAACAGCCTTGATCCAGTTTATAGGGTTAAATCGCAAATGTTAGAAACTATTTTTGCACATGAGGATGTAAGCAAAGCTGAAGCTTTAGAGAGAATAGAAAATGTTATAAAAGACGTTGGTTTACCTTCAGAAATTTTAGATAAGTTTCCTCATGAACTTTCTGGTGGGCAAAAGCAAAGAGTTATGATAGCGATGTCTATGTTGCTTAATCCAGAAATGCTAATAGCCGATGAGCCCACTACAGCACTAGATGTTGTAATTCAAGCACAAATAATAGCAATGATTAAGAAAATTCAGAAGGAAAAAAACTTATCAATGATATTTATAACTCATGACCTTTCTCTATTGGCTCAGATAAGCGATATCATGGCTATAATGTACGCAGGTAAAATAGTAGAAGTTGGTAAAGTAGAGGATATTTATTATTCACCTTTGCATCCGTATACGCAGCTTTTAATAAAATCTATACCTTCCATAAAAAATAGAAAGAAAAAATTAATAAGTATTCCAGGCGAAGTTCCTGACCTATCTGATCCTCCACAAGGCTGTAGATTTAATCCTAGATGTCCTCTTGCTCAAGAAATATGTAGGAAAGAATCTCCAGAATTAACTAGAGTAAATGGATCTCATTATGTAGCTTGTTTTATGGTAGGTGGGCAATAATGATAGAGGGAAAAGCTCTTAAAATATTTTTTAAATCTAGAGAGAAGTTAATAAAGGCGGTAGATGATATAACTATAAAATTACAAAAAGGTAGAATATTGGGGATTGTTGGCGAATCAGGTAGTGGGAAGACCACTTTGATTAGAGCTTTGATGGGATTACAGAAAATAGATGATGGAATAATTTTATATAATGATAAAGATATTTCTAAGTTGAAGTCTAAAGAATGGAAGGAATTTAGGAAAAATAATCAAATGATATTTCAGGATCCTTTTGATGCTATGGATCCAAGATTCAAGGTATATGATACTGTAGCAGAAGGTATAAGGGCTCAAGGTATTGCTTCTAGTAAACAAGAAGAGAAAGAGCTTGTATACAATACCTTGAGTAAAGTCGGATTAACTCCACCAGAAAAATTTTCCGATGTTTTTGTTACTCAATTATCTGGAGGTCAGTTACAGAGAGTCTCTATAGCAAGGAGTCTTGTATTGAAACCAGAAATTATAGCTGCAGATGAGCCTGTATCTATGCTTGACGTATCAATTAGAGCAGGAATTCTAAATATATTTTTGGATCTGAAAGAAACTGAGAATGTGGGTTTCGCAGTTGTCTCGCATGATCTATCTACTTTGTCATACATTGCCGACGAACTGTATATAATGTATATGGGTCGCTTTATGGAATCTGGAACTGTTGATGATATAATAGAGAAACCACTAAATCCATATACACAAGCCTTATTATCGGCAATTCCAGAACCTGATCCTAAACATAGAGGAAATGAAATAACGTTGAAGGGGGAAATCTCTTATGATCATTTTAAATATGGTTGTAGACTTTATCCAAGATGCCCATTCGCCATGGATATATGTGCCAAAGAAGCTCCTCAGCCGATTGAGGTTTCTCCTGGACATGTAGTGGCATGCCATCTTTATTTAAGGAGATAAGATGCAAGAAGAGTTAGAGAATCCATTAAGTAAATCGGAAAAGATATTTGCAATTTTTTTAGTGATTTTATCAATTATTATATCTTATCTGGAAGGGAATATTCCTTTATATCTATCTATATGTAGTTTATCAGTATTTGTTCTACTCTATAGATTCTATAGTATAGTTAAAATGCTAACTCAAAATAAGTATGAAGTAAATATAATACCAAAAGTTAGATACGAAAAAACAAGGTTTATTAATCTAACTATAATAGTAATGCTATTCTTATTCGTTCCCTTTGCTCTATTATATTTATTACCATTACGCTTATGGATAACAGCAACTTTAGGTATTATATCATTATGGCCTATTAGTTCACTATTAGCGTCTTTAATTATATATAAGATTGAAAGGAAGTTTAACGGAAGATTATTCAGATATTATATTATAGAAGAAAAATTAGGAGAAGTTGTAATAAAGGAATATGGATATAAGATAATCAAGTCATAGATTTTTCGTATATTTTAAATTTGTCTATAAGTTCTTGAGGAATTTCAGTAGCTTTCCACTTTTCTGGATCCACGCATACCATTACCAGATAGCCTGTTGTCAATAATTCGCCTTTTCTCTTTATTTCAAATGAATATTTTATAGCCTTTTTAGAGAGAAGTTCTGCAGTAACTTCCACGTCAAGTTCATCCCCTAATTTAGCTGATTTCATGTATTTAGCAGAAGATTCTACTACAACAAACCATACTCCTCTGTATGCTAAAGTTTCTGTGGAATCTCCAAAAACTTCTTTAGAAAAATTAGTTACAGCATCAGTAAAAAACCTATAATATGCAGCATAATGCGCTACTTGCTGAAAATCTGTATCATAAACCTTAACTACTTCTTTATTTACATACCTTATAGCCATAAGTATTTAGTGTTACTTAAAGTAAAAAATCTATACGACGTTCTCTTCTATTGATTTTTTAATAGTCAAAGAGAGGAAATTTTCAAGGAACTCAGAATTATCTTTTGTGACAACAATTTCTTCAATTTTTTGAATTTCAAAAATTTTCCATTTATGTATATTTTTAAATTTTACAGCTATTACTGCCTTTCCATCCATAGTAAACATTGAAAGAAATTCAAATAACTTTCTAATTTGAATTTCTCTTACTTTAACCTTATCTTCCCAAGTACTTTTACATTCTATAGCTAATAATAAGTTTCTCTTAGTAGCAAATATGTCTGGCAAAGGATTTGAGGAAGAGTTTGAAGTTGGTATTCTTACAGCGTAAAAACCTTCAGATTTAAGTATAGAGACTAATTCTCTTTCGGCGTTCTTTCCTATATCCCTGTTCACTCTTAAATAATAGGAATTGAAAGTCTTATAAGTTAGTTGCTTTTTGTGAAATAGATCCTCTAGGCCATGTTAGTAACGTCGCCATAACCACTGTTAATGAAGCATAACCCATAATGTTACCCCATACAGACGCTGAAGATAAGCCGTAAATTTGAACTAATGATCCCATTATTATTGAGCCTATACCCCCTATTACGCTTCCTAAATTGTAAGACAATCCAGTAAGTGCAGATCTAACTTCTGGAGGTACAGATTCTACTATTAATAATGGAGCTAATGGCCAAAATCCAGTTGATACTGAATATAACATTAATCCAGAAAGTATAGTTGGTGGGGAACGTAAATAGAACGAAATAGGTAACATAAAAGGTAAACCTATCATTTCTCCTATTACTCCTCCTATTATTAGTTTTCTTTTACTTATTCTATCTGCTAGTCTCCCAAAAATTATAAATGATATTCCCAATGCTATATTCGAAACTAGCATTATTGAACCCACAAAATTTTTAGATAATCCAATGCTTTCAGAAAATTCTGGATAAACTGCGAATATGGAATAATAAGAGAAGAACATTCCAGAAATTATTACTGAAGATCTAATTAGAACTGAGTAGTACTCCTTTATGTCTACTTTAATTTTACTTATTTTAATACTTACATTTTTAACTTTTAACTGAATATATGGCAATAATATTAAAGGAAGTGCTCCAGTTAATAGAAATATTCTCCAACCTATACCTTCCATATAAGGCGAGAATAAAATAAAAGCCATACCAGTAAATGCATAGCCCATTCCATAACCGGCTTGAACTATACCATTTATTAATCCTCTAAGGTTAATAGGAGCATTTTCGTAAGCTATTACTGTTCCTGCTGTCCATTCTGCACCCATAAAAAGTCCTTGTAGACTTCTCGCTAACAAAAGTATAATTATGTCTGGAGAAAAAGCCATTATACCTTGAAATAAAGCGTAACCTGCTGTACCTAGAATCAATATTATTTTTCTTCCTCTAATATCTGCTATTTTTCCAAATACATATCCACCTATTACTCTAAATATTAATCCTAAGGCAAATAGTAAAGTTCCATCGACTGTATTTAAACCTAAGTATTTTTCTAGATATTCATATACGTAAGTAATAATTAATAGATCATAAATATTTCCAGCCCATGCAAAGAAGGACGCTATTGTAGCGTGAATATAACATTTCATAAAATGGAGAATAATTTATAAAATAAAATAATTAATTTAAAGGTTATCTAGATGCTATTTATATTTTATTCATATAGCTTATATATTACGGTTTATGTAAAAGTAGTTAAATCAAAAAATATTTTTAAATTTCCATATTGAATGCTACTTATGAGCGAAGAAAAAGTATTATCTTCTCCTATAAAGAGAAAGATAGTATATTTATTAAAAACTGATGGTCCAATGATTTTTAAGACAATAAAAGATGAAATTTCTATATCTTCTGATTCTTTAAAAATCGCATTAAACGATCTTGAAGCTGACGGGATAATTAAGAAAAAGAAAGGTAAGATAGAACTTACAGAATTAGGGAAAGAAATTTCTCAAAAAATTTCTTCTATGGAGTAGTACTTTTTGCTAAAACGCTCATTCCCTCATATAGGATATTTGCGGCTAGCATTGATGTTATTTCGCTAACATCGTAAGGGGGAGAAACTTCAACAACGTCAAAGCCTATTATATCAAACTTAAAACTTCTCACTATTTCTAAAATGTCGAAACTCGTTAATCCCCCAACCTCGGGCGTTCCAGTGCCTGGAGCAAAAGCAGGATCTACAACGTCAATATCTATAGAAACGTAAGTTTTGCCCGAAGGGAGTTGCTTTTTAACTTCTTCCAATTTATATTTTAAATCTCTTATTGTGAAGCTCTTTATTTTTAGTCTTTTTGAATCCTCTATATCGTCTTTAGAATATAGTGAACCTCTAATTCCCATTTGAACAACTTCTTTTAATAGTCCTTCTTCTAAAGCTCTTCTGAGCCAAGTACCGTGAGTATATTTTTTACCCCAATAAGAGTCCCAAAAATCATAATGGGAGTCTAAATGAACAAGATTCACTTTACCGTAAGTTTTATACATAGCTCTAAGTACAGGTAATGTTATAGAATGATCTCCTCCTGCTATGAAAGGTATAGCATTTATTTTACTAACTTCTTCTTCTATTATTCTCATACTATCCTCTATATAACCAGGAATTGCATTAACATCACCTGCATCGCACATGTTTAGCGTATCGAAAGGATGAATATCAACGAATTGATTATAAGGTCTTAAAAGCCTAGATCCTTGCCTTATTGCTGAAGGACCAAACCTAGCTCCAGGCCTATAGGTAGTAGCATCATCGAAAGGTATTCCCAAGAATACTGCCTTTACGTTAACTAGTTCTTCACATATAGGTAATCTTCCATATGTTGAAATTTGTGTGAATCGAGGAGATTTTAATGCATCTAATTGTCGCATATTAACTCTTTTATATTAATCTAAAATTTAAGTCTTAAGATATTCAAACTAAAAATTTTTAATGTTATGTATACTACCTTAAAAACCTAAAAGTAGTAATTCGCTATATTATATCAAATAATAATCTTGGAAATCTCCATAAAATACGCATTATAGATCTAATTTAGAAATAAATGAAATAATTAACATTATGAAGATCTGTAATCAGTCTTTATAAAGTCTGCTATTTCATAGTTTATGTTTATATATAATTATTTTTATAATTAAAAAATGTTCATCTGATTACCTTAAATGTTTTTATATTATTTTTAACATAGACTTACTAGTGATAAAACCAAGAAAAATTACGGAAAGTAAGTTTTTCTTTGAATATGACGAGCCTTATTATTCAAATTTACTTGAAATTATTGATAAAATTCCTGATTTCTTCAAATACGTAGAGTTAATAAATGAAGTAGCTTATAGAGAAGGATTTACGTTCTATACGCAAGACTATTATAGATCAATAAAAGTTGATCCTATTCCACGAATATTACAAGCTCAAGAATTTAGAGAAATATCTAGGGGATTAAAAAATAGGGCTCTTGCAATAAATAAATTTCTATACGCAGTCTATCATGGTGAAAACACTCCAGTAGCTGAAGATTTCATAACATCTTCTCCTTATTTTAGGCCTGAAATGATGAATTTTGATCCTCCAAAAGGAATATATGTATATATTTTCGGCGAGGATTTAGTAAAAGTTAATGGATTTCCATTAATATTGGAAGATAATGTAAGAATACCTTCTGGAATGACTTACGCAGTTAAGGCTTCTGAACTTTTTGAAAGATTTTTGGGTGAGATGATGCAAATAAATAGGCAAAGACAGGATGGATTAGAATTATTAAAGAAGACTCTCCACTATGCTTCAGACACGAGAGATCCAGTAATTGCTATACTAAGTGATGGAACTTTAAATTCAGCTTATTTTGAGCATAGATTTTATTCTGATAAGTTAGATTTTCTCCTTATAGAACCTTCTGATCTTATAATAAAAGACGGAGAAGTTTTAGCTAAAACTTTAGACGGGGAAATACATATAGATGTAATATATAGAAGAATAGAAGATCTTGATATTTTAACGCCTGGATTAATGAAGGCCTATCTGAGAGGATGGGTAAATTTAGTAAATGCGCCAGGTACAGGGATAGCAGACGATAAGATAACTTTCTGTTACATGCCCCAAATAATGGATTATTTTGGAATAAAAGAAGGAGTAAAGCAACCTTTTTCCGTTCCTTTGGGAGCGTCTAAAGAAGAAATAATAAATAAGCTTGAAAATATGGTATTAAAAAGAAGAGAAGGTTATGGTGGATCAGGAACATATGTAATGAAAGATATGAGAGATGAAGAAAAGAGAAAAGTTTTGAAAGAAGTTTTAAGTTATCCAGAAGAATTTATGGCTCAGGAATTACTAAATTTTGATACAGTTTTATCGGCTATAAATGATAATTTTTATGAAACCTATGCAGATCTAAGATTTTTTGTATTCATAGATTCTACATCAAATACTATTTTAAGTAGAGTAGCTCCTCTAGGTAGTAGGATAACTAATAATTCGTCAGGAGGCATGGTGAAGCCTGTATGGGTGGTGTAACTTATGGAGTATTTTACCAGGCAAAATACGAATACGAGGATGTTGTAATGCTTAATGATAATACACTAAAGATAGTTCCATATGATGGAGATAATCAGCATGTAATCGAAGAAAAATTGGATACAGAACCTAAAGGGTATAGTGTAAAATTTAAGGATAATTTTGGAAATACTGTATATAGAGTAAAGATTTTGGATCCTCATAACGCAATGGTCATTACAAGTAAAAGTGTAGTGGAAGTCTACCCTAAAAAATTTGAAGATTGTGAAATTCCATGTTCTGAAGATTATGTTTTTACAAGGTCTTCAAGCTTAATAGATATAGACTACTTTAAGAATATAGCTACTGAACTACTAAAGAGCCATAAAACTTTAGATGATTTTGTTAGATCAACAATAGATCTGGTTAGAGGTAAAATAAAATATAAGGAGGGAGTAACTAATGTCTATACTAAGGCTCATGAAAGTTTTTCTTTAGGTTATGGCGTTTGTCAAGATTTTACACAAATAACTATAGGTATATTAAGAGCAGCAGGAATACCAGCAAGATATGTAATGGGTTTAGTAGATGATAATCCTAATACTACGCACGCATGGGTAGAATTTAAATCTAGGGATGGATGGATTCCAGTAGATCCTACAAGGAATAAATTTTATGATTTGTCCTACGTTAAATTCGCAATAGGAAGAGACTATAATGATGCTTCACCTATTGTCGGCTCATTCGTAAGTAGGGGAAGGGGATGGTTAAAACAATCTATTGTAGAGGTGAAAAAAATTGATTAAAAGTACTGCGTATAAAGTTTATTGGACAGGAAGATATTTAGAAAGAATAGAAAATATTGCTAGGTTTGGCGTGTATTTAGCTAATAATGGTATTTCTATTCAAGAGATGAATAATATTCTAGGAGTCAAAGATGCGTTCTTATATATTTCTAATGAATTTCAATTATTACGAGAAGATATTAGAGGATTTGGAGACGAAGCTGTTATGAATGCTTTATCTTCATTAGAAACTACTATTTATGCTAAGAGAGATAATTTAAGCAAATATTTTGCTGATATTTTAAATACTATCATATATCTGGAAAATATGGTAGAAGAAAATCTAAAACCTCAGTTCGTTTCTATTATGCCTAAAAAACAAGAAGAAATAGGTTCTCAAGAGAAAATAAAAAAGAGCTAACTTTTACCTTCCTTTTCTAACTAGACTAACTACTCCTATTATTATTCCTATTATTGCAATGATTATTGCAACATATATTAGATCTTTTATCGAATTTAATGATGAGTTTACTGAAGATATGTCAGAACTAATTTGAGAGCTTAAAGTAGAATTCTGCTCTTTTAGTTCTGTAGATAAATTACTTACTTTTTGATTAACTTGAGTCAAATTATTATTAACATTCGTTAATTCATTTTCGAAATTTACATAAATAGTTGCAGACGACTCTAAATTATCGTTCTGCAACGACGTTATTGTTAAATTGTATGTTCCATCGGGATATTTTTCGGTATTTAAGGTATATGTAAATGTTCCATTTCCTGAAAATGAAGTTAGCATTTTTCCATTTAAGTATAGTATATCTTGAGAGATGTTCTTCCCAGTTACAGTGAAATTTATCGTAATACTGCCAGTAACGTTCTGGTTATTTAATGGATAGGTAATACTTATAGTTGGTAATGATGGTGATATGTTAGTTATTACAGACTCCATAGTCAATATCTTAGAATTTTCTAAGGATATAGTATTTACTTTCGAATTTATTAAGATTAACATAGAATTTATAGCATGAATATTATCGCTTTGCGAATATAGTAGAGTCACATTTGAGTTATCAAATGTCACGTTTGTTATATTTGAATCGAGAATTCTCACGTTACCTATTACAGTGTCGTTAATTAGGATATCGTTAGTAAGTGAACCGTTAGTTATTATAGTGTCGTTAACTAATACTGCATCATAAGTTTGAAAACCATCTACTTTCTGGTTTTTAATCAAATTATATGGTAGAACATAGAATGTCTTTTCTGCAGACGGAGAATTTAATGTGGGATAAGCTTCTGAAGAGAGTCCAGTTACTAGGATCTCAAACGGTGCACCGTAGTAAAGTTCTCCTTCATAATATGTTAAATTACCAGAATTAAATGTAGAAGGTAATGTAACATTACCTATCCATTCTCCAAGATCAGAATTATACCATAGAGGTAATTCAACTATTTGACTTACTAATGAATATTCATTTGTTATAGCCATTGGATATACAGTTGCTGAGTACATCCCATAATTTACTTCACTACCGTTAGGATACGTTATATTAGCATATATCGTTAACGTCTGCCCTTGATAAGCATAACTTTCAGTTTTAATATTTATATGTGAGTAGTTATTTACATATATTGCTCCATAGAAGAAGCCTGTAATATTCTCACCAAGTGTAATTGAGCTGTAGTTAGACTCTAAGTAAATATAATAAATTCCTGGTTCTGTATTAGGAACTGGAAGATATCCTAAATATATTCCCTTCTCAAGATTAAATGGAATAACGGCCTTACTTACTACTTTCCCAGAACTGCTCACTAATTCAGCTGTTATGTTTGTCCCTTGAAGAATATTGTTAAATATTGGTTCTCCAGTTTGAATTGAGGTTATTGTTACTAAATTATATGGTGGAGTAGGCAATCCTTGTATTATTATATTTTGTCCAGGAGCTACAGAGCCAGGTTCTGCTACGTTTGGGGGTAATATAAATAAACTTTGTAGCATAGTCCCACTAGTGAATGCGTCAAAACCTTCGGCGTTTTCAGAAGTTATATAAAGATCTCCAGAAGGTAAATAAGGTATTTTCCCTACCCATATTAAACCAGGATATCCTATAACAGAAGCGCTAATTGGAATAAGATTTAATGTAGTTACTGGAGTATATTCATTAATACTGATATTGTAATAGTAAATGTTTACAGCAATTGGGAAAGTAGGCTGATTTCCGTATATGTCTGTTACGTTAGCTATAATTGCACTAGATACTCCAGTAAATATAGGCGCAAAAGTTACTGGAGATAAAAATTGTACATAATATCCGCTGAATGTCTCGTAAAATCCTCTTCCTGAAATTCCATCGGAACTTCCATATACATTTACGTAAAGTATTCCATTCGCAGTAGATGGTAACTTTAGTGTTCCTATCCACAATTTCAAAGACGGATTAAACGTTAATTGGACACTACTAATATTTCCTTGAGTAGTCTCTACTGTAGCATAGAAGTTACCAGAGGTTATAGATATTCCTTTGTAGGTTATATTTGCAATAATTTCCATTGTTTCGTTGGGGAAGAACTCTATAGGTGTTTCTCCAGTTGAATTTAATACATTAACTTCTATATTCAAACTTGGTTTTGTAATAATTTTACTATAGTAATATGCAAACTCCCCAACATTTAACGTACCCCATCCTGTTACTAGATTGTAACCATAACTAGCTACCCATGGAATATTATAACCAAAAGTTATAGGATTAAACACTTTATTATATAGAGAGGAATTAAATCCTATTTCGTATAAAATCGGATTTATTAAACCTAAACTACTGTTAACGTAATTCATTACTAAAGTCAATAAACCTGCATTTAATGGAGATGCCTCACTAGTACCTCCAGTTATGCATGTTATGTTGCCCGGACAGATTATATAAATACCAGGGTATACGTTAGCATTTCCTGAAATATCTGGAACTTCTCTACCGTTTGGATAACTTAAAGGAGTCTGCAAACCCCACTGATAGTAAGGTATTGGTTCTATTTCGCTTATACCTCCTGTAGAACCCCCATAATTTACATCATTTGGAACAAATCCGTAGTTAGACCAGGCTGATTGATAATATGAACCAGGGAACTGTATATATGTTGTAGTGCCCCCTACTGCAGTTACGAAAGGAGAAGTTGATGGATATCCTACTGTTCCTAAAGGTCCATTACTATATCCTGCCCCACCAGCATCCCCACTACTAGCTAGGAAAGTTATACCTTCTGCAGAACCCATCGCATAGTACATGTCAGATTCTACTACACAAGCATAAAATTCCTGAGCGTTAAATTGTGAAAAAGCCTCCTCTGGAATTGAAAAACTCTGGGATAAATCATTGACATTATCTAGTTGGTCTATATATGATATTATTGCAGCTAATGGAAGTGCACCATTAGCTATAAATAATGTTATATTAGCCTTAGGTGCCATAGTATGAGATATCTGTACATCCAAGCTTATTTCTCCTGCCCAACCAGTCTCTATTCCAAGGTTCGGATTATATGGCCCTATAGGGATTATCTTAAAACTTGGGGGATTAGGTAATCCAGTAACTTTATCGTAATATGCTAGTTGTTGTTGAATATAAGGATCACCGAAGAAATCTAAAATTCCAATTGATCTATTTTGTCCTTCATCTCCTAATGCATAAAGTGATGTTGCATTGTATACTTTTTGTAGCGCTGTAGGCCAGTAAGCTTCAATTGGGAAAGTCATATTAGATATTTCCACAGATTTTTTCAGATTTTGAATAGTCTTTCCTGTAACTAGAGTATTAGGATGAGAGAAAAATATTGTAGAAATATTACTAGAGTATACAAAAGCATTTATTGTAGGAGTTCCATATGCAGAATAATAGTAATCTGTCCCATTACTATACATCACGTAGGATAATCCTAGATATTGATGAATTTGAGAAACTGTACCTTCTGCGACTATAACTGAATCGGAAGATGTTAATAATATATTAAAGTTATCATTTTTTAAATAATTTAATACTTGATTGTATTGCTTTACAGGATAAAACATTTTTTCGATTTCTTGTTTGCTTAGAAAATGGTGATATAATGATGAAGAGGGATTGGAAGTTTCCTCAGCATAGTAATATAGATATCCTACGTTCTTAAGTGGTAAAAATATTGTAAACAATACTGGAGTATTAGGATTTAACGTTCCTATTTCTTTGAATCCATGAAGTTGGTAAGGTTGTATTGTAATACCTTGAGGATTAGATATTCCCAAACCAGTTATTCCTATTATACTTATTAAAAATACAGTTACTAATAATAGAGGTTTTAATGACATATAATTTAATGTTTTTAAATGATTTTAAATCTTCATGATATCATTATATAAAATTAAAACGTATTAACATAGTAAGTATGGATAATCTACTTTATTTTAAATAAGTATATATTCTTGTGATCAATAATAATGGATATCATTTTTTGCATATAAGATAAAAATTATTTAATCACTCGGAATATTTAGATAATATAAAATTGTACTTTCTAGAAGTTTAAGGGCAGACATTATTGTAAAGCTCATGATAAATTATGCATTATAAACTGACAGCAATAAGAATCTTGGTCTTTAGATTCTAAGAAAATATAGCCGGTTTATGATAAATTTCAGATTTTATGACAAAAATTTAAGATAGATATTAGAAATATTCATACTAATACAATATACTATATAATTTAGTTAAAAATTAAGTAATAATAACTAACAAATAAATATATTAATCGAATTCTTTCGCTCTGCTTATATAATGCTTTATAGTTAGATTTTATTTCTTTATATAAAAAATGTTCATATTTTTAATATTTTTGGAAATTTAAACGCTAGGAAAATTCTAATGCAAGTAAAGTTAATGCTGTAGTACCTAATTTAAGAACGCTCTCATCTACCATAAACTTTGAACTGTGATTCGGATAGATGTATCCTTTTTCTTCATTTCTAGTTCCTAGGAAAAAATATGTTCCTGGCGCTTTTTGTAGAAATCTTGAGAAATCTTCTGCTCCTAATATAGGCTCAGTTTCTATAGTTTTGGTTCCTTCAATTTTTTCTAATATTCGTATAACCTTTTCAGTGATATTAGGGTCATTTACTGTTATAGGATATACGTCTTCCATGAATTTTACTTCACAGTTAGCATTAAACGCAGAACAAATAGATTGAACTATTTTTTTAGTATATTCTATCGCTTTTCCTCTAGTACTTTCATCTAAACTTCTTATTGTTCCTTCCATTATTGCATCGTCTGGTATAATGTTATCTTTAGTTCCAGAATGAACGCTAGTTACTGAAAGAACGAATGGTTGTCGGGGATCTATAATTCTACTTCTAATTCCTTGTAATGCAAGGATTATTTGAGCTGAAATAAATACAGGATCTATAGTTTCATGCGGTGCAGATCCATGTCCACCTTTTCCATGAATAATAATTTTAAAGGAATCCGGTGTAGCCATTATAGGGCCTTTCCTCAATGCAAATGTCCCTACAGGATAGGCAGATGAGATATGAAGTCCAAATACGTAATCTACATCGTCCATTACTCCTGCATCTATCATTGGTTTGGCCCCTCCTAGACCTCCATCCTCCTCAGCTGGTTGAAATAACAATTTTATTCTTCCTTTTGTTAAATATTTTTTTATTAGAATAGACGCTCCTAGAAGCATAGCCACGTGACTATCGTGACCGCAAGCATGCATTATTCCCTTATTTTTGGATTTGAAAGGTAAGTCCGTTGCCTCTTCTACAGGAAGAGCATCCATATCTGCTCTTAACGCTACTGTATTTCCTGGTTTGCCTGAATCTATTATACCTACTACTGCAGTTGGCAATCCTACACCTTTAATTACTTGAATTCCTAGATTTTTTAAGAAACTTTCCACTAAAGCAGATGTATTAAATTCCTTATAGGAAAGCTCTGGATTTTCGTGAATTTTTCTCCTTATTTCAATTATTTTTGGTTCTATTTGTTTAGCTTCATTTAAAATTGATGTATAATTCATGGACTAAGAAAGTAAATAATAGTTAAATATTTTAATGTTTCAAGAATGCGTTTTGAGCCTTAGTCAACAATAAGAATAATTCTTAATAAAATTAAGTTATAGAAGCTAAAAACTTAAATTATCAACTACATAAGATTATTTAATGTTAGAGATTTCAGATGGAGATCTGATAGCTCAAATAATGGAAGAGGGAGCATACTTATATTCATTAACAAAGTCTGGAAAAGATGTTATTTTGAAAGGAAAAGAAAGGAAAACTCATGGGGGAATGGCACTTTTAATTCCTTATGCCAATAGAGTGAAGGATGGAGAATATATTTGGGAAGATAAAAAATATGAATTGCCAAAAAACTCTGAAGGTAATGCCATACACGGTCTTATAATGGATAAACTGTTTGACGTTAAATTCAAGGGTAAAAGTAGAGTAACTTTAGAATACCTATTAAGCCATCCTGGATATCCTTCTACCTTAAGAATAACTATAACGTATTCTGTTGTATTTGATCTCCTTGATGTATTCATAACTGTTAAAAACGAAGGCGAAGTTAGCGCTCCTTTAGTTGTAGGTGCACATCCTTATTTTCTAGTTAGAGGCAAATGGTCGATAACTCCAGATAGAGTTAGAAGGTGTCTAATGGAAAACAAAATACCTACTGGAAATGTTGAAGATTTTAGAATAGTTCAGAAAGATTACGATGACTGTTTTATAATAGAGAATAGGGAAATTACTCTGAAATCCGATTATTCTACAGTTGCAATAGAGAAAAGTAATATGGATTATATTCAGTTATACACTGGTGAACCAGGCGCTGTTGCAGTAGAACCCATGTCTGGAGCTCCAGATGCATATCATAATGGACTAGGGTTGATAATTTTGGAACCATCAAAAAGTCGTGATTTTAATTTTACTATTTCAGCAGTTATTCATTAAGGGGAATATTATTGCCTAAAAAATTTAGATTGAACCCAAAACCTTACGAGATACTTAAAATGTCTTCTTTATTACTCTTAGTTTACTCTTTTTCTTTTTCAATAACATACGAACTTGATCATAGTCTATTTTCCTATTTATCAATAATAGCATCTACTTTTTTTATTTTTGGATTCGGATATTATGTTAGGAAAGCATTTAATAATATGAGTGAAGAATACGGTCTAATAATAAAAGTATCTCCTGTCCTCTTTATTGGCCAACTAATTTATTTAGTTTCGTTCTTCCTTTATGATATTTCTTTTATGTCTATTGTAGAATATATAGGAGTAATCCTTGTTTTAGCTTATCTTTTAGAATTTTCTTTAGAAATATTGAGGTTAGCAGGCGAATTTAACTTAAGAGAATTGAAAATTTCAGCATATGTTATACTAGCTTCTCTTTTAGCGTTTGTAATTGTAGGTCCTATTCCTTTTTCTTTTATCCTTACAATAGGCTCAGTTATTCTCTATCTAGGTATAAACAAGATTTTGTATTTAAAATAGGAATTCTAGAAGTAAGGAATTTTGTAAGAACATTCAGAGAAAGCTAAGAATGATATTATATTAAAAGTTGAAAGTAGTTGATGTTAAAAGCTTCTTAATTTAGGAATAAGTGTGCAAGGCTCAAAGAAGTTAACATTGTTTCAAGCATTGTCAATAGGGTTAGGCAATATCATAGGTGCAGGAATATTCATAATGGCAGGTGCAAGTATAACTGCTGCAGGACCAGCTGCAATTTTAGCTTTTCTAATAACTGCTTTTTACGCTACTACAGTAGGAATTAGCAACGCCGAATTATCTTCAGACTTTCCTTCAGTAGAAGGAGGAGTCTATAGTTTTACTCTGCTTACTATGGGGGAAACACTTGGATTTTTGGTAGGATGGTTTAGATTAATAGCATATTCTATTAGTGGAGCAGCAACGGCTTTAGGATTTTCTGGGTATTTAATTTCTATAGGTTTACCTAAAATATTATATTTCCCTATAGCGGCTTTTCTTATATTAATTTTAGTGATAATAGACTATTTAGGTTTAAGATTAGCAGCAGTAATTGAAAGCTCTTTAGTAGTTCTTAATATTCTAGGTCTATTATTATTTTCATTTTCTTCACTATTTATTTCTGGAATTAAAGTAGGAAATTTTACTCCTTTTTTACCTCATGGTATTTTAGGCGTACTTGTAGCATCTAACATAGCGTTTTTTGCATATTCTGGATTCAATACTATAGCTACTTTAACTCCTAATGTAGAGAATGGAGAAAAAACAGTTCCAAAGGCTATTATTTTTTCTTTAATCATAAGTGCTTCACTTTATATGCTAGTTACATTCTCTATGGTGGACTCATTGTATTGGAATAAATTTGGTACAGCTTCAGATCCTTTATCTCTAGTATTGTCCAGCATAAGGGCTCCGTCTTATCTTATCTATTTTATAGATCTTACTGCTATTATTGCTACAATTACTGTTACTCTTTCGATAATAATAGCAGGAGAAAGAACTCTATCTCAAATGGTAAAAGATTCCATGTTGCCAAAAATTTTAGGAGGAAAAAAGACTACACTTTTAATCATAAGTGCAATAATGATAGCTTCATTATCTCTAGGAAACGTAGAAAGTATAGCTTTAGCTTCTAATTTTGGAATAGTATTTTCATACATGCTCTCTGGAATACAAGTGGCTATTGCAAGAAAAAGAAAAATCAAAGGAAAATTTAGATCTCCACTTTATCCATTTCTTCAGATATTTTCAGTAATTCTCTCAGCACTATTTATGGCATCATTAGGAGAAAATGCTTTAGTGATAGGAGTAGTAACTCTAATAGTAGGCCTAGTAGTATTTTCACTTCATAAAGAATTCATAAAGGAATTTGAAAGTAGAAGAGCAATTAGATAATTTAGTTCTGAAGAAAGTTAATATTTGAGTCTACGTTGTAATTTACGTAACGGAAAAATCTTGAATGGCAGAGTTTCATTTTAATATACTATTTATATAGATAGTAAATGTTCTCATTTTACTACTAACTAAAGTTAATATCTTCCAGTAATCTTGAGATAATACCTTAAGTATGGAGTATCCTCGATTTTTTCCTTAGTTAGAAATTCTAAATATAAACCAGTTGGTTTTTTCCTTTCAGAATGAGTTCTTATTAGTTCTTGTTCTGTCGCAATTATATCTACTGGTACATCAAAAATCTGATATGGAATTTCCTCAACAATTTGAACGCTATGAACTGTGGTAGCTACAGGAGTTTTTTCATCAATTTTACTAAGTTCTCTCAGTATAGCATATTCAAGCTCGCTATAACCTTCACCTTTTCCTACTCTATCTCCTTTTCGTGTAACTGCTACTGAACCTACTATAATAAGATCAATAGGAGGTATTTTATCAAAGTTTATCTTTTCTCCAAACGACGTAAATCCAGAGATGCTGGACGCTTTTTTAGGATCACTAATTTTCTTTCCATCTAAAAGGAAGAACTCTCCTTTAAGTCTTGGTGTAGGTGAGAGTACTTTCTTACCCTGTGTAAGTGCAATTTCTCTAATTTTACGTTGTGGAGAATCAGGATTTACCTTAATCACTTCAGCTTTTTTAAATTCTGGTGTTTTTGACAATATTTGGGCAGCTATATTAGAACCCTTAAAGTTAGGTATTCTTCCATATACTGGCCTGGGAAATGACGCTATGTTCTTTTCCTCTAATATTTTCCAAATTTCTTCTCTTATTTCCTGTTTATCCATAAAATATCATCTATTTCAAAAAATAACTATTTTAGCATTAAATAAGTTTTAAGATACTCAGCGTGAGACCATAATAGGGGCATTACTGAAAGAGGGCCTCCATTAAAGGGACTAATTTGCTCTGGTAACAATCCTGAAATTGAATGCTTTTCTGCCCATGCTAATAACTCCTTAGCCTTATTCATATCTTTTTTCTTTGCATAATATTGCGCTAACCACATTGTGGTTATTATCCAAGGATTACCAGGTATTCCATTATAATCTCCCTCAATTCTTTGATAAGAATCATTTTCATATCTAGCTAATCCTCCAATATTTTTAACCCATAATTTGTTTATAATTTCATTAATACTACTAGTTACTATTGGATCGTTAATATCAAAGACGTCAAATGTGACTATGCCTAGAATACTAGATTCCACTGTTTTATCTACAGAAGTTATTTTACCATCGTCTATGTTAATAAATTTGTAAAATATTCCTCTTTCTTTATCAAACATATAATTTTTCAATGAATTCTTTATTTCTTCTGCTACATCGTTCCATTTCTTCATGTTTTCCTCATCACCTACTACATTTGCAAAATTGCTTGCAGCTTTCAATCCTGCATATACTGATGCCACAGTATATGTATGCACACCTAGTTTTTCTTCCCAAAGATCAAAAGTCTCTAGGGGTAATTTCAATTTTTCATCTCTAAATTTAACCATAAAATCTGCAGCGTCTCTTATTGTATGATATATATTCTTTAACATGTCATAATCTCTGCTTTTTGTGAAGTAATTCCAGAAAGCCCATATAACTGTCGATGTTTCATCTTCTTGAATATTAAAGGATTTTTTTGTCCTAGCAGTCCACGAGTGCCATGTACTTCCCCACGTTCCGTCTGGATTATATTTTTGGAATAAATAGCCATTTTCAAATAATTTGTGGAATACTAAATCATAAAATTTCCTAGTAAACGATGAATATCCAGCCATGTCTAAAACATAGGCAGTTAAAGCTGCATCTCTTGGCCATACGTATGCATATGTATCTAGGTTAAATTTCAGTATATCAGTATCTAAAGAAGCTGGTACTGCACCATTATCGCCTATATGTCCTAACATTATGGCTAGACTTATTTTAGCTAGATTATCTGTAAACTCCGAGGTTATTGAATTCCAATAAAATTTATTTTTTGCGTAATGAAACTCTGGGTTTTCCTTAATCTCCTTATAAATACTAACTACATGATCAAAGGTTTCGCCAGCTATAATGAAGTAATAGAATGAAGGATATGCAATAGAAATTGCAGAAGCTACAGAACCTTGAGCAATAGAGTTTTTATTTAATGTTCCATCCTCACAGTCATTTAAAACTTCCTTTTTATCTCTCCTTCCAGTAGTATATTCATATAACTTATGAGAAGACCCTATCAAGAACCACGTGTTATCCTTATAGTGCAGTATGCTATCTAACTCTGGATCATAGAATGCTGTGTCACCAATTTCGTTTCCATTCAATTTGAAATCATGATAAAATATTATTCTAATATATCCTTCTCCTTTAACATCTACTTTCCTGATTATAACACTATGAGAAAATATAGCTACATCGGAGAATTTTACTTTTATATTATACCACTCTATTTCTGCATTTACTATTAAATTATCCATGTATATTTTCTTATCCTTATCATTAATCTGATCTAACCATGTAAATTTTCCGTCGTGCCAAATTCCTATTTTAAAGTATCCTCCTACTGAATGATTATATTGGCCAAGATATGGATAATAAAGCTCTCTTATATAGAAATTGTTATCATATAGTGCGGAGATTTTTCCATTAGATGTGAAACCTGATCTCATATTATTAATAGCGTAAAACAATATTTAACTATTTATTAATAATCTACATTAGTAATTCTTTATAATAGCCTAAAACTTTTATCTAGTTATTCAATCTATTAAGTTTCATATCAAATACATACATATTTCTTCTTTATATATAGATATAATTACTGAAAATTATTATTTCTTTTTAGTAGCCAATGCGTATATAGTTATAAATATTCCAGATCCTGTGATAATTAACCCTGCTATAAATCCATATTCTACAAATACGTCTTTCATTGTAGCTTCCTCTAAAATATACTGGAAAACTGATGTAGAATTATAAGGATTATATAGAGATAAATTTCCTTCTTTACTCGAGAAAAAACAAATTGTATATAATACGCTATTATTTAATAATGTGGCAGAAGAAGGATATCCACTGACATTTACTGGTAAAGTAGAGTTGTACGTAAATATAATTTCAGAGTCACTTAGATATGGTACAGAATATCTACTATATGGACCAAGAATTATGGAATTATTGGTTTTGTAAGTTTCTTCATGTGAGAAAATAAGTGAAAAAGACGCTACAATAACGCCAATAATGATAATTACTATACCTAAAACGGAAAGTAGCTTCATAAGTTTAAAGAAAAATCTATTGTTAAAAAGATTTTCTATAAGAAATTTTATATTTAATTAAATAAATAAAACATGATATATTAGCTAATATGAATATATAACATAACTAGTTTTGACTTGCTACACTTATGTAGATAAGAATGGAAATCTTTTAAAATGGGTAATACCATATTTTCATTCTAGGAAATGAGAACAGTTATAATAAATTCACTTTATGATAAATCCATGAGTAAACATAAGCTGTTAGCAAAAGACGTAATTGACGAGATTTTGCCTAAATTGATTACTAATGCGCATTATTTTAAGAGTAAGGGATCTATTTTTTCTTTAGCTTCTAGTAGTGAACTACCCTGCCCTAACGGGCGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGTGGGTAGAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCAATATGGGACTGTTGAATGGAGCAGAGGCGTACCACATAGACCCTCGCTTTAACCAAGGCGTCTCAGTGACGCTTACTCCGTCAGTGACTGCCATTAAGAGAATATTTGAAAAATACGTATTTAAATGTAACCACAAAGGGGGCAATCCATCTCCACCCTTATGGAGTCTTCCGCCCCCTTTGAACCCCTTGTTAAGATAAACATGTGTGGACCATGAAAGTTACTTTAGATCCCTTTAATGTAATACTATGTAAGTATGATTACAGTTATTGGTTACTTCCAGATCTAGAAATGAAGCTTGATATGTGCTTTAAATTAGAAGGTGAAATAGAAGAATACTTTAAAGAAAGATTTTTGAGATATTTACCAGTAAAAATGGAAGAATAATTAACAAGAAGTTTAATGTTTATTTTTTATTTTGTATAACAAAGTTTCTTTTGAGAGTCTAATATTTTTAAATTTCTAAGTAAAGTATGAATATAGCCAATTTCGTTAAGAAATACTTTTATCCTATTCATAATGCTCCTTCATATTCTATTTATGCCTTGGTTTATTACAACGAAATATTTTATGTAGATATTTCTAAAGATAATAAAAAAATATTAATATATAAGAAAAAAATAAATTCTAAATTAGATAAGATTTTAGAAAGTAAGGGAGGTATAGAAGATTTTAACAATATAAAGTTGGAAATAGATGTAGATAAAGATATTTTAGGAATTTTAAGAAAAGCTATATATTTTACTGAGGAATCTCATTACTCTAATAATATTAGAAAAGAATACAAAACCTATATTACTAATACAAAGTTCATTATAGGTAGGATGAACGTTAAAAAAGCTAAGAAATTGCTGACTAGAGCCAAATTACTAGCTAAAGATTTTTCCAAAAAATATAATTCCTGTGATTTACTTACAATGATTGATGTAGCTTCTTTAATAATAAAAGCTTTAGAAAAGAAAGAAGGCAATCCAATTGAGTTATACTTTAAGTATGCCGATTTTAGGAATCCTATTACTAACGAGGTCTATGGAGGAAAAGTATGGAATATATGTAAAAATAAAAAAGAAGAAGAATGTTTTGAAGAACTTTATAAATACTTGGATGAAAAGAGAAAAAATGGAACTTTAGAACCTATGTACTTTTATCAAAGTACTTATGATCACACTAACGAGATTTACTCTGGGAATTATGATTTCCATATACATTATGATGGTATATGGTGGGTCGGTTTCCACGACTTTACCTATAATTCGGATTATGCAATGAAATTTCAAGAAGAATTAATTAATGCTAATCTAGGTATAATAGTAAGCGATTTGGATTTTCTTTATAATCAATATATAAATCCAGAGCCTAAGGAACTTTCTTGGGAAGGGCTCCATTTTTATGTGCCAAAGTACGCTATTCCTATAATGCCAAATATTTCTGTACTTACTGATGACGGATTAAAAGAGTATGAAAAGATGAGGAAAAAAAGATACGCAATTCATTTAAAACATGACCTATAAGAAGTACTAAAATAATCATAGTGCTTATTAATAAAATTTATTGTTTTTATCAAATAAAAATATTAATAAGAAATTAAACTAGACCGTTTTAATTAAGGCATTACCAAGTTAAAGTTTAACCAGCAACAATGGAGAACGAATTAACAAAAAGTTTAATGCTTATTTTTGTATACTAATTATCAGTAATGAGTATTAATATAAGTGCAGAGATATATTATAACGAGGCTGAGGAGCTCTTATCTAAGGGTGATCTTGTTCAAGCTAGTGAGAAGTATTATAAGGCTGCTGAGGAGTCAGTAAAGCTTCTGGTTTTTGAAAACAATCTTAAAGACATAATAAAGGAATCTGAAGAATATGGATGGGATTCTAAGACCTTAAATGATGCAGTAACTGAATTATCTTACAAGCTAGGAGATAATCTAATAGACTTGTGGGCATCTGCAGTAACATTATTTACAAGTAGAAAATACTTAGATAAAGATTTAATAGAAAATTATAAGAAGGATGTTAAGACGTTGGTTGAGAAAGCCAAACAAAGCTTTCATCTTAAGGTTGTTGAATGAGGCTGAGGAGCTCTTATCTAAGGGTGATCTTGTTCAAGCTAGTGAGAAGTATTATAAGGCTGCTGAGGAGTCAGTAAAGCTTCTGGTTTTTGAAAACAATCTTAAAGACATAATAAAAACCATTGAAAATAGAGGAAGGTGGGAAAGTGAAGACTTATTTAAATCTTGTAAACTATTAAGATTTAAAAATAGTGAAATATTGAGATTTTGGACTAGCGCCTGGACTCTTCATGTAGAAGGATTTCATGAGCTGAGCTTAAGCGAGAAAGAAATTAGAAAACTAAAGGAGGACGTAAAAAGGCTAGTTTCTTTCACCATTAGTTAGATTTTTTGCCAAATTTTTTAGAAAGTAAAGTTTGTATTCGTTCTAAACTTAAACCTATCAATACTGAGCTAACAACAAATCCTTCTTGAGCGGTGTTTAATGAGATTGTATTTTGATGAAAAGAATAGCACCAGAAATCACTCCAGTATCGTATCCAAATAACAAACTACCTATTGCTGTAATTACTGTAGCTATTATAATGAATTTATCTTCCTTACTCTCAGAGGCATACTACAGATATAATATTCTAGTTAATAACTATTTCCTAGAAATAATGTAATATCTAAACCTTTAAAATTAATACTTAGCATATAAATTTAATTAATATTATAATTTTTATATTAATTGGAAAACTCAGAATTGAAACTATTCACAAACGAATTTCTGGACTTTCAGTAAAACTGAGACTATTTTTAGTTTTTAACTTACTTTCCTAATATCAAGTTATGAATTACTTAGTTCTAGGTTTAGGGTTTGTAGCTACTCATGTAGCAGAATTTTTATCAAATTATGGAAATGTTACCGTTACTTATAGGAATTTAAATCCAGTAAAAGAGATTTATATGGATTTATTAAAGGAAAAGCACGTGAACATAATAAAGTTAGATCCACTAATAGACGATATTGGAAAATATATCGCACAATCTGATACCATCATTAATTTAATAGGAGAAATCTCTGGTTCTGAAGAAGCATTAAGAAGGGCTAATGTAGAAGTTCCAAGATTATTATCTAAGACAATATCTGAGATTAATCCCAATGCTACTTTAATTCATTTAAGTGGTCTCCCTGGAGTTACTGGTAATAATGTTAAGCCAGAAACATCTCATTGTGAAGGGATAAATCCTATTACTCTATTCGAGAAAACAAAATGTGAAGGAGAAAGAGTTCTTAAAAATAATGCGAAATTTAATCTTGCAATATTAAGACCTAGTTTAATTTACGGTAAATATGGTGCTCATATTCAATTTATTACGATGTATAGATTTGCTAAAATGGGTTTTGTTCCATCATTAGGATTTAGGTTTTCGGTAATAAGCGCTAACGCCTTATCAAGAATAATCAAAAACTTGAGTGAAGCTAAGCCTAAATTTACATATTTTTATGTAACAGAATGCGAGCCAATTAGGATTGACGTCTTTTTTGAAATTATGGCGAAGACGCTCGGCAAAGGATATATCAAAGTACCTATACCTAAATTTTTAGCTAAGGCTTATCTTCCATCAGATATAAGGAATCTTCTAAAATATGACGGAACAACTTTCGATTGCAGTAAGGCTAAGGAATTTGCTGGTGATCTTAAATTTGATGAGAAAGAAGTAGAAGAGAACGCTAAGTTTTTACAATATCTAGATAAAAATAGAATTTTAATACCTACTTAAAAATTTTTAATCCATCATAAAGTACTTTTTTATATTCCAACATTTTCCTTATAATTGGATCTTCTAACTTATCTGTAGTTAATACCAAAATATCCGCTGAAAAACCTCTTTTCATAGCATATAATTTACTTGCTTCTTCTGCACTATCTTTAACTTTATCTAGGAAAATCATAATGTCGTAATCGCTTGATTCCCAAAAGTCTCCCCTAGCTCTAGATCCGAAAAGCGCAATGGAGACTTTTCCGTTATAATATTTTATAATCTCATTTATAAAATCCTCAAACCTCATTATGTTTAAATTATAGTATTTTTATTAAAAAACTATGGTTGAAAAGTTTTGGTTTGAAAAGAGTAAAGAATTTCTTGAAATAGCAAAAAAACTTCTGAATGATGGATATTTTTGGTATGCTTGTTTTAGTAGCCAACAAAGTGTAGAGTTCGCGCTTAAGGGAATTCTAGTTAAATATAAGGGAAGTTTTCCTTTTACTCATGATTTAGGAGAAATAATGGAAAAGATTGAAAATGAACTATCTATAAATGTTCCAGAAAATATTATGCATAATTGCGATTTTTTAACTCCTCATTATACAATGTCAAGATATTCTCAATTTACTGAATATAATAAAAGAAAGGCAGAAGAGTGCATAAGTTCAGCCATGGAAATTTTAGAGTGGCTAAAGAAAAATTTTAGTATATAAATACGCTTTTTTAATTCTTTATACTCTCTTTTTTTGTGGAAGAAGTAAGTTTTGCGCAAGCTATAGCTGTAGGACTAGGTGCTATAATAGGTGCAGGAATTTTTGTATTGAGCGGAACAGCAATATCATTAGCAGGTTCCTTATCTTTGATTGCATTTCTCTTCATAGGATTAATGAGTGTATTGATAGCAACACAATTAGGTGAGTTGAGTACTATTTTTCCTCATGCTAAAGGTTCAACGTATTCTTATGCATTTGAAGCTTTCGGGTATGAATTAGGATTTTTAACTGGAATAATGGTTTACTTTAGTTTTTCAACTTCTATAGCAGCCGTCGCTGACGGTTTTGGTGCTTACATTGTTTCTATTCTTGGTTTAGGTAAGTCAATAGCGGTAATTTTCTCAATAATATTAATAATTATTTTAACAATTTTGAATATAGTAGGAATTCAAAAAGCTGCAGAAGCAGATTTTTTCCTTGTATTGATAAAATTATCAATATTATCTATATTCATATTAGCAGCTTTCATAATAGCGTTTGGTCATTTCTCAATATCTCATTTTTATTCGTCACCAAATCAGATTGGGATTTTGCCATTCTTTTCTTCAAGTATAGCAATATTTTTTGCATACACTGGTTTTCAAGTTATAACGTCTTTTAGCGATAGGGTAAAAGGAGGACCTAATAATGCTGCCAAGGCAGTAGTGGTATCAGTTTTAATAAGCATGATATTTTATATTTTAGTAGCCTTCTCTTTAATTCTTCTTGTTCCTGCTAGTAGATTCAAAATAAATGCTGATCCTTTATCTTTTGCTTTAGATTATGCACATGCTCCTTCATGGCTTCATATAATAGTTGACATAGGAGGAATGATTGCCACAACGTCTGCAAGTTTAGCAATGATTCTACTATCTGGAAGGACTCTTTACCAAATAGGTAAGGATATGAATTTTCCTTCTTTCATAATAAAATATAATCAATCCAAAGACGTAGCGCCTATTGCAACCATAATATCTTCATTTATAGCAATCGTATCTCTTTTTGCCGGAAACGTTTATATTGTAGCGTCAATAAGCAATTTTGGCCTTATTTTTTCTTTTCTAATTAGTTCTCTAGCTGTTTTTCATTTTAGAAGGAAAAAAATTATTGGTACATATAAAGTGCCATTTTATCCATATTCTGTCATATTGACTATAATAATGCTAATGTTATTGTTAGTAGGATTTCCACGTGAATCTTTAGTAATAAATTCAAGTATAATGATTATTATAATCATTCTATCATATATACTTAAAGATTTAAGAGAAGAGAAGTTAAAAAATAACAAAATAAAGTATAATTAATAAATATTAAAATTAAGAGTTTAAACAGAAAAATTCATTAACATTCTAAATAGTAATAAAATATTCCTTAAACAAGATATATTATAAATATTTTTTAAAAACATTATATAAAGAAAAATTACTTTTTAATCAGACCTTTAATTTGTTCCCACATTTCATCTACATAATCTTGAAGTTTCTTTATATCTTCTGCAGATAATTTGGCAAATCTTCCTTGATACTTAATGTAGGATTCTACAGGTTTTCTTTTATCTTTATCTATTAGCACTTTACTTATACTAGTTAATCTGAATTCTCCATTTTCTATTTCGTACAATGGCCATATTCCAGTTTCAACTGCTAATTTAGCTATTTCTATCGTTAAGCTAGAATCATATCTCCAACCTGGAGGACAAGGAGATAGTAAGTGAATATATCTAAATCCTTTAATTTCCTTAGCTTTCTTGACTTTATTCTGATAATCAAAAATATATGCTACAGATGCAGTAGCTACATAAGGTACATTATGTTCTGCAACTATCATTGGTAAAGGTTTTTTAAATTCTCTTTTACCAGAAGGTGTTGTAGTAGTCCATGCCCCATAAGGGGTTAGTCCAGATCTTTGTATTCCAGTATTCATATAAGCTTCATTATCATAGCATACGTAAATTATATCCTCATTTCTTTCTGCGGCACCACTTAGTGATGCGAAACCTATATCTCCAGTACCCCCATCTCCAGCCCAAACAACTACTGAATAGTCTTTTTCACCTTTACTTCTTAACGATGCAGAAATTCCTGAGGCTATAGCCGGAGATGCTGCAAAAGCACTATGTACTACTGGAACAGTTGAAGGCATACCAGTAGTATCTCCCATTATTACCGTGGTGCATGAAGCAGGAACAACTAAGACTGTCTTTTTACCTGTAACCTCTAATAAGGCATCTAATTCTTTAGGAATAGGACAACCTGGACACGCTGCGTTTCCTCTTAAGAATTTCATAATAACCACCTCTCATTTTCAAGTTTTCCTTCAATCATATCTTCAGTTATTTTTTGAATTTCCATCGGTCTTACATCTTTTCCTCCTAATCCTGCTATTACATTATATATGGGAGTATCTAATCCGTATGCATTTGCCCTCGTTTCTATCCCTAAAACTCCGCCCGATCCAAAAGAATACGCTCTATCAAAAACTAAAGCTCCTTTTCTTCCCTTTAATATATCGTTCACTTCCTCCTTAGGGAATGGTCTGAAAACTCTTATTTTGAGTAACCCTACTTTTTTACCTTCATTTCTCATTCTATTTACTGCTACTCTGATATCACCTACCCATGCTCCCATTGCAATTAAAAGAAACTCAGCATCGTCGCACATATAACATTCGGTTAGGCCATATTGGTTCCTTCCAGAAATGTCTTCATATTCTTTAGCCACTTCCTTTATTACATTCTTTGATCTTTCCATTGCTTGCATAGCCTTATATCTAAATTCAATATACTTATCTGGAGTAGCTATAGGTCCAACACCTAATGGATTATCAAAGTCAATAAGATTAAACTGTCTAGGTGGAATAAATGAATCAACTACATTATCTGGTAACGTTTCTACTCTTTCCATTGTATGCGTTAAAATAAATCCATCAAACCCCATCATTACTGGTAAAACAACTCTTTTATCTTCTGATATTTTGAAAGCTTGTAATGTCATGTCATAAGCATCTTGGACATTCTCAGCCATCATTTGTATCCATATCGCGTCCCTCTTACTTACAAAATCTTGATGGTCATCCCAAATAGACCAAGGAGATGCAATAGCTCTAGTAGCTATTGCTGCAACTATTGGAGCCCTTTGTCCGCCTACCCAGTATATCATCTCAGTCATGTAAAGTAAGCCTTGAGAGGAAGTAGCAGTGAAAACTCTTGATCCACTTACTGCGGCACCATATATAGATGCCATTGCAGAATGCTCACTTTCAACTTTAATCATTTCGGCTTTTAATTCTCCTTTATCTACATACTCTGATAATTTTTCTAACATTGTAGTTTGAGGCGTTATAGGATATACTGCCAGAACTTGAGGTTTAGCTTGCTTTACAGCATAAGCCACTGCATGATTTCCTACTAAAGCCAATACTTTTCCTCTTACTACTTGCACTTCATTTCACCTCTGGTATCATATTTATGGCTTTTGTTGGACATACTTGTGCACATACTCCACATCCCTTACAATAATCATAGTCAATTCTTGGGTAGAGATTATTTTCTTGATCTATAGTATTTTCAACACAATACAAAATGCATAATCTACATCTAGTACATTTACTAAAGTCTATTACTGGTCTAATTACTCTCCAATAACCTGTAAGTCCTGCAGATCCTTTTTTAGGAGAAGCTAAAGGAAACTCATCACTCAAGTTTTTTCACCTCATTGAAACCTAATTTCACTGCTTCCGCATTAAGTTCACTTAGTTTTCCTTCAAATTCTTCCTCTGCAGCTTCTTCTACTTCATCTCTATTTAGAATGTCCGTTATTTTAGCTATAGCTCCTACCATGGCAGTATTTACAACTGCCCAACCTGCTATTACTAGACCTAATTGCGTAGCTATCTTTGTAGCATCTAATACGTAGGTGTTTTTCCAAATCTTCTTGGGATTGCTTGAGTTAATAACTACTATCCCAGTATTTTTTATACCTTCTAGCATATTTTCCAAGTTAATTAGCGAAGGATCGAAAATTGCTATTATATCTGGATTATATACTCTCCTATGCATAAAGATAGGTTCTTTGGACACTCTTACTTCTGAAGTAACAGGAGCTCCTCTCCTTTCTCCACCATAGAAAGGAATAGATTGACCGTAAATTCCTTCTTTAATTGCAGCAGAAACAAGTAATTCACCAGCAGTGACTACTCCTTGTCCTCCTCTTCCTTTAAGAGAAATTTCCAACATTAATATATATTTGTCTTCATAAGGAAAAAGTATTGCTTATAATTAAAAAACGTAAAAATGTTTAACCATGTTAATTTGCTGTAAGAATAAAATATAGATAAATAAATCTTTTAAAAAGATATATTCCGTTTATTGATTATATATTAAGTACAAAATATAGGATATAAAAGATCTATAATATACAGTGTATAGCAATGTGTATGTTTTATTATAATATGATGTTTTGTTCATATATTTTAGTTTATAAGACCTTAAGTATCATAATTTTTTAATTATCTTGATGAAGTGAATGTAAACTTTTAACGTTAAATCTAACATAAGCCATCGTAATAAACTTTAAAAGAGTTAAGGATTAAAAAAGAATTGACTTAACTTATTACCAAAAATTGAGCAGAACTATTTTATTGTTTTTTCTGCTCAGATCCTTGAGCTTGTTTCTTCTGTTTCTTTGCCATTTTAGCTCTAATTAAAGAGAGGTACGATATTAATATTTAAAAATTCCTCTTATGATTGATGTTAAATAGTTATGTAAATAGTGTATGGGACCATTAAATTTAGTTAGAATAATAATCTTGATCTATTAAAAAGTAATAGAATCTATCACTAACATATCTTAAATAGAGTTTAATTTTCTTAAGAGGGAGAATATATTTTTTTAAGGGTACTTAATCTAGTCTCACCTAAAAATACTATGTAGAGAACAATATAATATATATAATTATAGATTATATGAATAATCTATTAAAAAGAAATATTTTTGGATAATATTTTCTAGCGATCACTTCAATAGAGAGTTGAAAATGTATATAGATTATAGAAAGAATATACTAAAAACTTATTATTTTACTTTCTAATACATCGTTATGATAAGTTTAATTATAGTAAGGCATGGTGAAGCGGAGCCCAAAGTAGACAGTATTGAAGATAAAGAGAGAAAATTAATAAAGAAGGGAATAAAACAAATGAGGAGAGTAGCAGGATTTATTGATGAAATGGATTATAATTTTGATAGAATACTTACTAGTACTTACATTAGAGCTTATCAATCTGCCGAAGCTATATTAGATGAGCTTGGAGAAGATGAGAAAAAAATAGAAACTATCAATGAGTTAGACCCTGATAAGGATCCTTCAGAATTTATAAATAAAATAAAAGAATCAGATAATACTTCAATGCTTGTGGTTGGGCATGAGCCATTTCTTTCCCAGTTAATTAGGAATCTTACTGGAGGTAACATTGAGATAAAAAAGGGAGGTTTAGCGGTAGTTGATTACAATCCCGTCGACGGAAAGGGTGTTTTAAAAATGCTAATAACGCAAAAGATAATGAAGCTGATTTAAATGCTTTCGGCTGTTATAGATACTGGCTATAATTCTACAAGGCTATGTATCTATGACGTTTTTCCAAATAAGACCTTTAGATTATTAGGTTCATCAAAGTTTTTTCTGAGAATAGGCGAAGGTATAGAAGAAGGAAGTTCCATATCTGAAAATAAAATAAAAGATCTAGAAAATACATTTAGACTGTTTAGGAATTTATTAGATAAGAAAAATGTCAATAATATTAAAGTCGTAGGTACTAGCGCATTTAGGTACGCAACAAACGGCTTAGATGTAGCTAAAAAAATCACTGATATAATCGGAAGTCAAATGATAATTCTTTCAGGTGAGGAAGAAGGTAAAATGGCCGCCTTAGGAGTTATAGATACCTTACCTATTGACTCTGGAGTAATTTTCGATTTGGGAGGAGGATCGCTGGAAGTAATTTATTTCGAGTCAAGAGAAATAAAGGAGGTATACCATTTTAGACTAGGTGCACTAAAACTTTCAAGAGAGTATAAGTCTGAAGGAGAATTAAGAAAGAAAATTAGAAATGAGCTTTCGATTTTAAAGCCAATAAAAGGTACATTAATAGGTTCTGGAGGAAATATAAGAGCTTTAGGAAAGATGGATCAAAAGCTTTCAGCATATCCGTTAAAATCTGTTCATGGATATATAATAAAAACTAGCGAAATATCTAAGTATTCCAAGGTATTAATGAATTTAGATCCTGAAGAAAGATCGAGTTTACCAGGAATAAGTAAAGATAGGGCATATACTATTCACACAGCCTCTGTTGTTATAGAGGAGTTAGCTAATATTTTAGGTGCGTCATCCATTACTATTTCTGCATATGGCATGAGAGAAGGAGTTTTAATTCAAGATAAAATAGACGACATACAAAAGAATTGGCTAGACACTATATCTAGAGAATTTTTAATTGACCCACCGTGGGAGATATATAATTCATTTGATAATCCTTTTATGAAATTATCATCCTTTATAGCCACGATTATGAAAGAGGCTGGATTTTTGGATCCGTATGAGGCATGTTTTAGATTTTTAAAATATTCCACAATACCAGGATTTGAAGACAATGATGTTCTTATTTCATCCTTGTTATGTAAAGGAGCCTCTGGTAAGTTGAAAAAGAAATATTTTAAATTGATTAAGAATAATTACAATAAGAAGGACTTCCTTAAAATGGCTAAGGAAGTTAAAGAAGTAGTAAATGCGTCTGTAGCGGGAGTTAAAATATGAAAGGAAGTTTAATAGCCTTTGAAGGAATTGACGGTTCTGGAAAATCCAGTCAGACAGTTCTTTTGAGAGACTGGTTACTAGAAAAGAGAGACACATTTCTAACTGAATGGAATTCGTCAGAATGGATTCATGGAATAATTAAGGAAGCCAAGAAAAAGAATATACTTACACCAATTACATTTAGTTTAATTCATGCAACAGATTTTGCTGATAGATATGAGAAATACATTTTACCTATGCTTAAAACTGGATTTGCGGTTATTGCAGACAGATATGTTTATACTGCTTATGCGAGAGATAGCGTTAGAGGCGTAAATATAGATTGGGTTAAGAAATTATATTCCTTTGCAAGAAAACCAGATATAACTTTTTACATTAGGGTGACTCCAGAAGTTGCATTAGATAGAATAAAGAAGTCTAGAAGGCAAATAAAACCTACAGAAGCAGGTTCTGATGTTTTCCCAGGTTTAAAACCTGAAGATGGCTTCCTTAAATATCAGTCTGCAGTGCTTGAAGTTTATGATAAAATAGCAGATGAAAACAACTTCTTCATTATAGATGGTACATTGTCACCAAGGGAAATTCAGAAGATTATAAGGGAAAAGGTGATGGAAATTTGGAAAGAGGAAAAATAATAGCAATAGAAGGAATAGAGAGTTCTGGAAAATCGACTCATGCACAGACACTTAAATCGTACTTAGAAGATCAAGGATATGGTGTAATAATATTTGGACTGCAAATGTCCAAGCTAATGGCAGAAGCAATAGCTAGAGTAAAGAAAGAAATAGTTTTCCAGCGTAGAACTCTATTTCTAGCATATTTGACTGACTTAGCTGATCAAGTTGAGAATGTCGTTAAACCTGCTATAGACTCAGGTTTTATTACTATAGCGGATGGTTACGCTTTAACTTTGGAAGCATGGGGTCTAACTAGAGGTTTAGAAAAAGATTGGATGGAAGACGTTTTATCTGTGCTACCAAAGCCTTCAGTTTCAGTCTCTTTACTATCGCCTTCAGTTGAGATAATGAGGAGAATAATAAGGAAAAGAGGATTTTTGGATCCTTTAAGTGAGAATGTAGATCTTTGTGTAAACAGTGAAATATTTTCTTCATATAAATCATATATAAATAAATTTCAGTCATATCTGAAAGATATATCTATAGGTAAAAATATTATAACTAAGAAAAAAATAGAAGAGGTTAACGAAGAAATTGCCAAATATGTAATGGAGGTAATAAATCTTGAGACCTGAAGAATATGCAAACTTTCATCTTAAAAATTTTCTCAAGAATACCGGAATATTAGAAAAAAATATACATGATTCAAGAGTAGATTTAAGAAAATATCTCGCTGTAGCTAGATCAACTTATGTTCTTCATGGTAAAGCTGAATGCATACTTAAAGGTAAGAAAATAATGAAAAAATTGGGAAAAATAAGAGATATGGACGTAATTACTTGTTTAAAGACTGAAGATAGAGATAGTTTGGCAGTTGAAGTGGTTAAATCTTTCAATACGTTGGAAAATTGTTTTCTACCAAAACTTTACGGAAGTAGAATAGTAATTATTAAAAGCTTATATAATAATTATATAAAGCTTCTAGAAGAAAATGACTTTCATAAGATTAGAAAATTAATAAGAGAATCAAGATTTCTAATAGATAGTTTAGGATACAGTTCGCTAGATCTCAAAGATATATCTCAGGAGCTTGGCAATATGAGAGATACATATTTATTTCAAACTGAATGTCAGAATTTGCAACAAAAAATAGACTATGAAAGACTAAGAGAACTTAAAGAAAAAGCGTTAGTTGAAATTAGGTCTCAAATTATGATAACTAATTTTATTCACATAAAGGAATTACTTACTCATCATTTGAAATAAGGAACCTTATTATTTAGTTCTTGAATGATAGAATATAGTTTATCGTCGATTTCTATTCCTCTTTTCATTTTTATTTCTCTCATTTTAAGTCCGTGTTCTCCTGGAAGCTCTGATTTTATTATATTTCTCATAAATTCCAGTGAATCCTCTTTAGATTCCAAATATCTTGGATTTATTATTATCATTATTTCTCCTTTGTTAGGCGGATTTTCAGTGTTTAAGACACCCTTAACTTGTGGGCCTACTGCTGATCCAGATAAGTATGATACTAAAAGCTCTAATGCTAGCATTAGATAAAATCCTTTTTCTCCTCCTAACGGCATTATTCCACCGTTTAATGCGCTTTCTGGTTCGTCTGTTATCTCTCCGTTTTTATCTACTGCAACTCCATAAGGTATCTTGTATCCTTTTCTTGAAGCTTCAATAATTTTTCCTCTAGAAGTAGATGCTAGTGCCATGTCAAGAATTAATGGGATTTTACTTGGAATAGCAATACTTATAGGAGTTGTTGAAAGAATTTTATCTGAACTTCCAGGTTTTACAACTGCAGGCTCGGCATTTCCTATCATTATCCCTACTTTGCCTTTCTTAGCTACTTTTTCTGTATAATATCCTAAGAATCCTACATGGGAAGCATTTCTTACAGCTATTATACTTATTGTATCTCCAAATTCTTTTTCTGCTAACATGTTCCAAAGGGATATTCCTATACTATGCATTCCATCGACTAATATAGAATCGTTAGTTTCTCTAATAACTTCGAAGCAGAGTTCTTTCCTTATTGTACCAAGTTCTACTCCTTTAACTAATGGTATTAATCTTTGAACGCCGTGTGAGGAGTGTCCCCTTAGTTCTGCTTCTACAAAGTGATCTGCTATTACTTTACTTTCTTCTATTCCCCTTTTATTTAGAACTTCTGTAACTAATTCCTTTAATTTATTATAATCTGTTAGCATTAAACTAGAGACAAGAAAATGTATTAAAAAGATTTCCGTAACTGTCTTCTAATACTTCTTTAAATATCTAAGAATTAATTTGTTTAAAAAAATATAAAAAATCATGACTTCTTTATGTTTGATTTTATTGCATTTAAAACTTCATCTGGGATCGAATTCATCTTATGTTCAATTCGTGCATGAATGGAAAGTTCCTGCAGAAGTTCTTCTTCACTTTGGGCTCCATATATCTCTAACCCGCACTTTTGTCCTATATCCGAACATTTAAAAGAGTATTTCATAAATTAAGACTATATCTTAGGGATTTAAGATATAGTTAGAAGATTTCTAACAATTCTATATATATGTCTTGGACTAGCTTATATTTATGCTATTCAAAAAGAAAAAGTATTATTTTAATTGTGAAGATATAGGAATGAATTGCGGATATTCTATAAAAGGAGCGTCAAGCGAAGAAGAGGTTTTAAATATTCTCAAAATTCATGCAAAATATTCTCACAATATAAACGAGATATCTAATGATTTATTAGGAAAAATAAAATCTAATATAAAGAAAATGTAATTTTTCTAAAAATCTGAATTAGTTTTTATTTTTATTGTAATTTAATCCATATATATAGAAAAGTTTATAAATCTTTTTATAACACTGTTAATCATGGATGAGATTGACAAGAAGATATTATACTATCTTCTAAAAGATGGTAGAGTATCACAACGAAGTATATCTGAAAGTTTAGGATTAACTCCTCCTACTTTAGTTTATAGATTTAAAAAAATGAGAGAAGATGGAATTTTATATGGGTTTTCTGTTCTTGTAAATCCTAATTTTTACGGTAAATATTATGGTTTTGGAGCTTTTAAGAACATAAAGGACTTTTCAGCAGATTGGATATTTTTTAAATTAAAATGTTTTGAATGGTTAAACGTCTATGGAATAGAAGGTAACAGTATTGAAGATATTAAGGATAAGATATCTTACATGAGTAAAGATCTAGGAGAAATTCAGATGACATATGTACCTGAACAGGAAATAATTACACCTAATCAATTTGACGTAAGGATATTATCTAAACTTCTAGAAGATCCTAGAGCTCAGCCTTCTGATATAGCAGAAAGCCTTAATCTATCTTCTAAATTAGTTTCCAAAAGATTAAAAATAATGGAAAGTAGAGGTTACATTAAAGTTCTTCCAATTATAAACATTCCTAAATCTGGAAGCGTAATATTCTCCATGTTTTCAATGAGAATTAAGGATATAAGAAATATTCTAAATGAGTGCAGATTTATGGAAATTACGGACATGAAAGCTGGGATTCAAATATGTTTTGCAGAAAGTATGGAAGAAGCAAAAAAATACATAAATGCTGTTAGGGCTGTAGATAAGCAAGCTGATGTTATGCTAATATATGATTATTTTATAAAAAGAGTAGACGTAAAATAAGTTGTTTAAAATACAAATTTATGACACTATTTTAAGTAAAAGGATAGATTTGAACAGTATTTAGTTGTAATAATAACAATGTTTAAAAGGACTACATTGATGTTTGCAATATGGAACTAGATGACACTGACCTAAGGATATTGAAAATGATACAAGGAGACGCCAAGTTTCCATTAGAAAAAATGGCCGATATCTTAAGAATACCTAAATCAACTATTGCTTATAGAATAAAGAAAATGGAAAAATCTGGGATAATAAGAGGATACTTTACTTCTATAGATCCATCAAGTATAAAATTAGATTATGTTATAATATCACTAGTAAAGGCTAAATATGGGAAAGATTATCATGATATATTAGGCAAAAAACTATCAGAATTACCAGGCGTATGGGGAGTTTATTTTGTTTTAGGAGATAATGATTTTATTGTAATGGGAAGATATAAGACTAGAGAAGATTTCATGAAGAATTATTTAGAAAGACTTATGGATATGCCCGAAATAGAGAGAACAAATACTCAAGTCGTAGCAAAAACTATCAAAGAGACACCTTATGTAGTTATAGAAAATATTCTGAATCCAGATAATAAATAAGGTAATTTTATAAGATCTTATCAAATTCTCTCAAGTGGATTCAAAAGGAATATTTTATTCCGCTATCACTATTTTCCTTATAACGTTTGCTATTAGGGCATCAAATAATATGCTAATAACTACAATACCTTTAATTGCAGATTATTATTTTCATTTTACACCGACATTTATAGGCTTAGTGTCCTCTATGGCATCTATTTTTTCGTTTATTTCTAGTATTTTCATAAATTCTAAATTATATCCTAGTTTAAGAAGGAAAGTCTTCATAGCTTCCTCTTTTCTATACGCGTTTACTTTTCCTCTTTTCTATCTCGTAAATCCTATACTAGTGTGGATTTTCGCATCAATAGCAGGATTTTCTATGGGAATAATATTCCCTAATATTATAACATTCGCAGGTTCAATAGGAGATCAAAAAAGCAGGGAAAGAATGCTAAGTCTATATACTACCTCTTTGAGTGTTTCATTAATCTTAAGTCCATCAATAGAATCTTTAATCTTATCTAAGTTTACTTTGATTCAAGCTTTCCTGTTCTTTTCTTTATTAAGTGCTATAGTACCAATAATAGCACTTAAAATAAAATTTTTCGAAACTAATAAAAAGATGGGTAAAGTAGCTTTTGCCAATTACAGAGTAATAAAATCACCAGGATTTTTAGTTTCACTCTTTAATAACATAATGTACGATATACCTTTCGGTATGATCGAAACTTTTGGAGGTATTTATGCAATAACTCTTTTTCACGTAAGCTATTCTACAGCAACGCTGTTATTTACTTTCTATTTTCTTACATCCTTCATCAGTAGAAGTATACTTACTATAAGGCCTCCATTTCATGTTATAAAATTAGTAATTCTAAATTCTGTAATAAGCATTATAGGATTAGCTTTAGCTTCGATGTCATATAATCTATCTATGTATATATTCTCTTTACTTTTACTAGGAATTCCACATGGATTAACGTATCCTTCTTCTCTTATATTATTGTCAAGAAGTTTTACTGATGAGGAGACAAGAAGCGTGGCAAATAGTTATTTTAGTGGAATACTTATAGGTTTAGCCGCTATCATTCCAATAGTTATGGCAGTGTCAGTAGAAATTATAGGGTTAAGATATTCTTTTGGTTTATTAACTGCAGTAGTATTATTTTTCTTTTTACTAGTAATGAAAGAATATAATAAGCTTAAACAAAATATTTAATCTCAATTTTATTCTTCCAAATTTTATAAAATAATATAAACATTTTTCATATTTATAAATTTTACTCTTATTAATCTAACATTATCTTTAACAAGTTTTCTATAATTGGCTTATAAAAATAAAAGATTTTAAAGAGAATATGAAAAATATTTTTATATAATTTTTAGATTCCTTATCTCGATATATATGTTATTCACTCCTAAAGAGCAGGAAAAATTACTATTATCATGGGCAGCTGAAGTAGCCAGACGAAGAAAGGCTAAGGGCATAAAATTAAACTATGAAGAAGCTTTGGCTATAATTTCAGATTTTATAATAGAGAGTGCTAGAGAAGGTAAAAAAATGTCCGAAATAATTAAAGAATCGCAAATGCTTCTAAGCGAAAATGATGTTATGGAAGGTGTGCCAGAACTTTTAGATCTGATTCAAGTAGAAGCTACTTTTCCTGATGGCACGAAACTTGTTACAGTAAGAAATCCAATAAAATCTGACAAAAGTTTTCTAAATACATACGATATCAAAGATGGAGAAATAGAACTTTTAGATGAAGGAGAAATTTCAATAACTAATTCTGGAGATAGGCCTATTCAGGTAAGTTCTCATTATCATTTATTTGAAGTCAACAGTAAGCTTAAGTTTGATAGAGAGAAAGCTTTTGGTTTTAGATTAGCTATACCTGCAGGCACTGCAATTAGATTTGAGCCTGGACAGACTAAGTTAGTCAAAATAAGGAAAATTGGCGGGAACAGAAGAGTAACAGGCTTAAATAGATTAACTGAAGGTTCTCTTGATCATAATAAAGAAGAAGCTATGAAAAGAGCTAAAGAGAAGGGATTTATATGAAATTAAGTAGGCAAAGATATTCTGAACTTTATGGACCTACAGAAGGAGACAAAATAAGGTTAGCGGATACTAACTTGTATATTAAAATTGAAAAAGACTTAATTACAAAGGGCGATGAACTAGTTTTTGGCGCAGGAAAATCAGCTAGAGACGGATTGGGATTACTTCCTACATCTAGAGAAGAAGACTCTATGGATCTAGTAATAACTAACGCCATAATAATAGATCCAAGTATAGGAATAGTAAAAGCAGATATAGGAATTAAAAATGGAATAATTATCGGTATAGGGCACGCTGGAAATCCTTTTATAATGAACGGTGTAGATTTTGTTGTAGGATCTTCTACTGAAATAATTTCTGGAGAAGGTTTAATAGCTACCCCAGGATTTATAGATTCTCACGTCCATTGGGTAGCTCCTCAACAAATCTTTGATGCATTATCTGCTGGTTTCACGACCATAATAGGAGGTGGTACTGGACCAGCAGAAGGTACAAAAGCTACTACTGCCGTTCCAGGCAGTTGGAATTTAAAAATGATGATGGAAGCATTAGATCCCTTTCCACTCAATTTTGCCCTAACAGCTAAAGGATCCTCAGGAAGGATTAGTATGGAACAAGTAATACATTCTGGAGCTTCTGGTTTTAAGATTCATGAAGATTGGGGAGCAATGCCTAGTGTAATAGACGAAACTTTAACTGTTGCTGATGAATATGATGTCCAAGTTACAATACATACTGATACCTCTAATGAAAGCGGATATTTGGAAGATACATTAAATGCCATAGGCGGAAGAACTATTCATGCCTATCACGTTGAAGGTGCTGGCGGTGGTCACGCTCCAGATATAATAAGAATATCTGGGGAACCAAATGTTTTACCGTCTTCTACTAATCCAACTAAACCTTTTACAATTCATACTTATGATGAACACTTAGAAATGCTAATGGCTGTTCATCACCTAAATCCTAAAGTTCCAGAAGATATAGCTTATGCAGAATCTAGAATAAGAGCAGAAACTATGGCAGCAGAAGATTATCTTCATGATATAGGTGCAATAAGTATGATGTCCTCAGATTCTCAAGCTATGGGAAGAGTAGGTGAAACTGGAATAAGAACTTTTCAGCTAGCACATAAGATGAAAGAACTGAATTTAATAAATATAGATGATAATTTCAGAGTATTAAGATATATATCTAAAATAACTATTAATCCTGCTATAACTCACGGTATTTCTGATTATGTGGGTAGCTTATTACCTGGAAGGGTGGCTGATATTGTATTATGGGATCCAAGATTTTTCCCTGTAAAACCTTATATGATAATAAAAGGCGGTGCAATAGCATGGGCAATTATGGGTGAAACTAATGCATCAGTAGCCTACGCTCAACCACTACTTTATAAGCCTATGTTTGGTTATTATTCTGCTCCTATGGTTTCATTCTTTTTTACTAGCCAGGAAGGAGTTAAAGAAGCCTCAAAAGTTGTAAAAAGATCGGTCTTACCTGTTAAAAATACAAGGAAACTGGGTAAAAAAGACATGAAATATAATTCTACTCTACCAAAAATCGAAGTGGATCCAGATAGTTACGAAGTAAAAATCGATGGAATAATACCTAAAGTTCCTCCAGCTGTAAAACTTCCACTAACTCAATTATATTTTATGTTTTAAGGTGATAGTTATGAATGTCATTAAAAGGCTTGGAAATGAAAACCAATTTAGAAATTTAATTGAAAAAGCAAGAAGATCCAATTTATTAATAGAGGCCTATGTAGATCGACAATGTTTTGAGAGGCATAGATGTAAGATAAAGGTAGATAATAAAGAGATTTCTGTAAATATGTTAGGCATCCCGCTAAAGGACGGCGATGTTTTAGTGACAGATGAGGGATATATTGTAATACTGAGACTTAAAGAAGAAAGCGTGCTCTCATTCAAACTTAATGAATTAGAGAAAAGCTTCAAACTTGGTTATGAAATAGGAAATCTTCATTTAAGAATAATGTTAAAGGATAATGAGGTTATAATACCTACTGAAATAGGTATTGATTATTTATTACAAAAATTTAAGGATTATAATCCAAAATTAAAAAAAGAAAAGTTCCTTCCAAATATAGAACCTACAGCAGTAGTGATAAGCTTTGCTGATACCTAGAATTTTCCAGATCTTTGATAGTGCCTTACCTATAGGTTCTTTCAATTACTCTTCTGGAATAGAGGAGGCATATTATAGAGGATATAATATAGAGAATTTTATATATACGGTTTTTAATAATGTTATTTTAAAAGGAGACACAGTAGCTGTCATAAAATCCTTTAAAGATCCTTATTATATGGATGAGTTAGTGTATGCTTCTAAACTAACTAATGAATTAAGAGAAATGACAACAAATATGGGAAGATCTCTAGCTTCTTTAGATTTATGTCAAGATGATTTCATTAGAAACGTTAAAGAAGGTAAGACTTACGGTACTTATCCAGTTGTAGTAGCTAGAATATGTAAATGCTTAGGTATAAGTGAAGATGACTGCGCAATAGGACTAACCTATAGTGAAGCTTCTCTTTTAGTATTTTCTGCTGTAAGATTAGGCGCTATAAGTTACTATAGGGGGCAAGAGATTCTTTCTACACTTTTAAATAGAATAGAAATTCATGAAGAGTTTGAGCCTTTTGATCCTATTTTAGATATTTTATCAAAATCTCATGAGAAAAGGGAACCAAAGGTGTTTATGTCTTGATTAAAATTGGTGTTCTAGGTCCAGTAGGTTCTGGAAAAACTACATTAATAGAATTTTTAGCAAAAGAATTTATAAAGATGAAATTTAAAGTAGGAATAGTTACTAATGACGTAGTTTCAAATTTTGACGCAGTAAGGATATATTCAGATTTAGTCTTAAAAGATAAAGTATTGCCTAAGGAAAATATTGTGGGATTAGTTACTGGGGGATGTCCACATACTGCAATTAGAGAAGATCCTTCTTTAAATATGAGAGCTATAGAAACGTTATCAAGGAAATCTAAATTAGATATAATATTTATAGAAAGTGGTGGAGATAATGTAATGAGCACTTTTAGCCCATTATTATCAGATTATAGTATATTCGTATTAGACACATCTGCTGGAGATAAATATCCTAGAAAAGGAGGATTGGGTATTACACAAAGCGATTTGCTTGTTATCAACAAAATAGACTTAGCTCCATACGTAGGAGCAGATCTTAGCAAAATGAGAGAAGATGCAGAATCTGTTAGGGAAGGCAAACCTACGGCATTTATAAGTTTAAGAACTATGGAAGGAACAGAAGAGCTCATGAGAATATTGCTGGAGGATTTGAATATTGAAGGCTTACTTGGAAATAAATAATTATAATAATAAATTTTACATATTTAAAGAAGGTCCTCTAGGAGCATTTAAAGTAAATAAAACAATATATATTGTAAATCCTTCAGAAGTTCTAGCTAACAACGACAATATAGAAATTAAAATAGCTACTGATGAGGGGAAAATTACTGACCAAGCTTATACAAAAATTATATCTAAATCCATTGTAAATCTTAGAATTAGTATTTCTGGAAGTTTTTCATATATACCACACCCAATACTTTTTTACAATAAAGCTAATGCAGAAATAAATAACGAATTTTATGTTTCAGATAAAGCTATAATAATTGAATCATATATTTTAGGAAGGAAAGGACATGGAGAAATTTTTAGAGAAGGTAAAATCAAGTCTATTACAAAGATTTTTTCCAGAAATAGATTAAAGATATTTGATATTTTTAAGGTAAAAAATGAAGATTATAGAAATCCAAATTTAATGGGTAAAGAATGTATAATAAATATATATAAGATTGAAAACGATGAAGTCGATATAGATAAAAGAATAGTTTCTACAGAAGACATAGAAGAAGAATTATCTTTACTATATATGCTTACTAAATAATCGCATAATATTTATTTTTTATATATATAATTCTTCTAAATATTTGAAAGAATGAATGTATAAATTAAAAAATTCTTTAAAAATGCATAGGGAGTTGTCTCTAAACTATAAAAATTTTTCACAAAAACAATTATATAGTATAATAACATATTAATTAGCGGGTGGTAGAATTGATGTCTTTAAAATGTACGAATAAACATATATTTAGGAGTAGTTTATTTGAATATTTGATTCTTTTCAAACCTAAACAATAATTTTGGTGTATTTTTATGTTCGAGAATTATTATGCTGATACTATCAATTCTAAGGTTCTCTATGAAGAGGCAACAACAATTATCCCATACGGCGTAAGTAGTAATTATAGATTTTTCGATCCTTATCCTCTTTACCTAAAGCGAGGGAAAGGAAGCAAAGTATGGGATGTGGATGGAAACGAATACATAGACTTCAATTTAGGTTTTGGTGTACTAGAAGTAGGTCATTCAAATGAAATTGTTGCAGAAGAAGTTTATAACGCATTTAAGGAGAGTTCTATTCTTGGTTTTGAGTATTGTAAGGCTATTGAATTAGCTAAGATAATTAAGAAAAGGTATAATGTTGACATGGTAAGATTCTCTTCAACAGGCACAGAAGCAACAATGCACTCAATAAGAATAGCAAGAGCATACTCAAGAAAAAAGAAAATAATAAAATTCGAAGGACACTACCACGGATCACACGACCAATTACTAGTAAACGTTAATCCTACAAAAGAAGGTATAGTTCCATCTTCCTTAGGTATTCCTGAGGAGGTAATTAAAAATACTTTAATAGCAGAATGGAATAATCTAGAATCATTCGAAAAAATAATAAGAGAAAACAAAGACATAGGAGCAGTAATAATGGAACCAATAGCAATGAACATGGGACTAATACCCACAAAACTAGACTTTCTAAAGGGTGTAGTGGAGTTATCCAGAGAAAATAACATAGTAGTAATTTTTGACGAAACTAAAACGGGAGGGAAATATAACTCAGGTGCAGCTGGATATTTTAATCTTGAACCAGATATTAAAGTAATAGGTAAATCTATAGCTGGAGGTCTTCCTTTATCAGTAATAGCAGGAAAGAAAGAAATTATGTCTGTTATAGGTCCAGGTAAGGTAGCTCATGGAGGTACTTTTAATGCTAATCCTCTTTCAGTAAGAGCTGCAATTGTTACCTTAGAGAAAATTCTAACAGAAAACGCATTCTATCATATGCATAGATTAAGTGAAATTCTAGAGTCAGGATACAAGGACATAGCAGAAGATTCTAAGATAGAGCTAAGTGTAACTAGATGGGGACCTAGTGGTTCTATTTACTTTCTAGATAAGGTTCCAATGAGTTATAAAGAATTCATAAAAGCCGATTTTGGAAAATGGGGAACTTATTTCTTTGCAATGCTATCTCAAGGAGTGATACCTATGGCTGGATTTAATGAACAATGGACTATATCAATAAAACATTCTGAAGAAGATATACGTAAGCATTTAGAGTGTGCAGATAACGCGATAAAGTTAGCTAAAAATAAAAGAACAGAAGTAAATTTAGACGAGTCGTTCTAATGAACATTTTAAAGTTAATCATCTACTTTGCCTCAATCATAACTTTCTTAATATCCATTTTTAGGTTTCATAATATTTAATACTTTTCAGTGAATAGTCTTATATATAGGGTGTGAGGTTTACAATGTATATTTATTAAAACCAATTTTTTTACACTGTATTTATCCAAGGGATTTTAAACTTTTATTCTAGATGGTCTTCACGAATTTGGAGATGCAAAGTAAAAAGGTCTTCATAAGAGAAAGTTCCGGGTTAGTAAGAGAAGTAAGTCCTTGGTCATCCTTATTAGCATCATGGGCTTTAGTAACTGGAGGAATACCTATTCTGATTATAGAATGGTTATATCTAGCACCCGGAATAAATTGGACATTATCGTTTTTAATTACATTAGTGCCAGCAATGGGTTTGGCTTTTCTTTTTTATGTTGCAGGAATTTCTATGCCTCGTTCTGGCGGAGATTATGTTTTTAATAGTAGAGCATCTAACCCCGCTCTAGGTTTTATAAATTATTTTGGACTGTTTGTGGCGTTTGCTCTTTCATTGGGATTATATAGCTATTATGCCGCAAGTTGGTTTGCTTATTTGTTTTCTGGGCTCGGTCTTTATTATAATAGTTCATTTCTTTTATCTTTAGGTAATTTCTTTAATACAACAATGGGAAATGTTGTAATAGGAACTATAGTTGTTATAATAAGTGCAGTTCTCGCTGTTTCTGGTAGATATGCGTGGAAATTTATTCTCATATCTGGTATAATAAGCGTAATATCTACAATAATAATGTTTATAGCATTAATTAGTATAACTCCCACTGAGTTTTATTCTGCATTATCATCTTTTACTGGAAAACTCAAATGTTTACTCTAGTGTAATACACTCGGCAACGTCTAACGGTCTATCCTTCGTTACAAGCCCAATATTAGGATCCTTAATAGGTATACCTATAATTTGGTACTATTATTCGTGGTATAATTTACCTGCATCTTGGTCAGGAGAAATGAAAAGCGTTAGAAAAAACGTTATGTATTCTATTATAGTTTCCATGGTATTAATTGCAGTCTATTATATTCTATTTACTCAATTGACTCTTGACGCTTTTGGTTCTAGATTCCTCACTGCGTGGTCTTATATAAGTGGAAACAGTATTAATAATCCAGTTTATAATTCATTGTCTAGCATAGGTCCATTTACTCCGTTCTTTATGCTATTGGTAGACCATAGTATACCTCTTTATTTCATATCGTTCATAGCCTTATGGTTACCGAATTTTTATAGCAATCCGCCATTAGTAATAGCGTTAACAAGATATCTTTTTGCTTGGTCTTTTGATAGGATAGCTCCAGAGTCCTTAGCTGACGTTAATGACAGATTTCATGTTCCAATAAAGGCAACACTATTAATAACTATAATAGGTATATTAGGGGTATTGCTCTATGCTTTTCTACCAGTTATGGAAACAGTAGATGTTACTGTTGTTTTCGAGATAGGTTATGCGGTATTTGCAATATCTATAGCATTATTGCCATTTTTTAGGAAAGAAATATATTCTAATATTCCATTTAAGAGAAAGATACTAAATATTCCTATTGTGAGCTGGATTGGATTTTCGTCCTTTGCCTTCCTAATGTATGCGTTATTCATTACGTGGAATAATCCGGTATTATTGCCAATAAATGTTCCAACAATAGGCTCATTAGTGATAATATATGGCCTTGGAGCAGCAATATATTATGCCTCTAAGGAATTAAATAAGAAGAAAGGAATAGATATAAGTTTGGTATTTAAAGAAATTCCGCCAGAGTAGGCTATTCTATCCCTTTAGACAAAATATTTTTTATATCATTTAATGTATCATTTATCTCTTTTACTTTTAGTATAATTAGATTCATTAATATGTTGTAATCTAAATTAGAATATTTTTCTAATTCTTCCTTTAACTCTTTATTTTCAATTTCGTTTATTAGCTTGTCCGTATTTGATTTTTTCCTTACTACTATAATTTTCATTTTTACACCTCGGATGCCTTCTTAAGTATATCTCTTATTTCCTTCATGGATTTAGATTCTTCTTCTAGAGTAGAAAGAAGTTGAAGTAACATTTTCATGTCATCCTTAGAATAATCTTCTGTAGACTCTTCTAAAATGAATGCCCATAGAAAGTTAAATCCTGAAATAACCAGCGCAGCTATAGAAATTATAGTAGCAACTATAATTTCTACTTTAATTTCAAATAGTTCAAATGGTACCAGTATACCAATAATTAAACCACTAATAATTAATACTATTGAACTACCTTTCATCCTTTAGCCCCATTATAACTTGATTATTTATAATAATTTCGAAATCCTTTGCATAATACATTTTTCTTTTATGAGGCTTAGGTTCTTTTATCTCTATATATTCTGCTTTTAAGATTCCAGCTTCTTCTAACGCTCTAAGATGAAGATGAGCTAGTGCGTAAGGCATCTTCATGTCTTCCGCTATTTCTTGAACATACATAGGTCTTTGCAAAATCATTTTCAAAATTCTCACCCTTTGGGGTACTGACAAAGCTTTAGCTACTCTTACTAAATCGGAAATTCTCTCCAAATTCATGGTTTTCTCCTTACATACATGTATATAATTAGAAATATAATAGCATAGATAGATATTCCAATATACCATAAAATGTTCAGTTGGCCATCTAGGTTATATCTTAGTTCTTGTGCTACATACGTTGTTGGTTCAAGTAACGTTGGAATCTTAAAATATAATGGCAATACATAAAATGGTATAAATGTTGCTGCAAAAAAAGATAAGCCAAAAGAAAGCACTTGAGACAATTGATTTACTTTTCTTTGATCTAGTGACAGACCGAGATCTAGACCCATGAAAGAAGAAACTAAAAGTGAGATAAATGCGGTAATAGCTAATCCTAGCCAATTAACGTCTATTTTCACTATATTTTCTGCTAATATTACCAATATTATAATTAAAGGAATAGATGTAATAGTTGTCAGAAAAGCTAAAGCCAAACCTACCATCCATTTAGGAGCTCCTGAGGTATATAAAAGAGTTATATGGCCATCATGTTTCATGAAGGATATTTGTTGTGAAATAGATAGAAAGCCATCTATGAATATATATAATGTTAAAGTTCCTGCGACAACACTTGTTGAAAAATATGACTTTGAAAAGTCCAGTAGAAATGCTATAGGGAGTAGAATTAAGAAAAATATGGTTGTGAGAAGATAAAATCTTGTTTGTCTAAGAAATATTTCTATTAGAGTCAAAAATTTCATTGTGATATCACCTTCATATAAATATCTTCTAAAGAAGGTAATTTCACCTCAAATCTGAAATTTACAGAATTTAAAAATTTCTTTATTTCGTCTTCTTTTACATAATACCTTTCCCCATTTTCAATGTTTACAACCTCGTAGTAATTTGAAAATCTCTCTCTAATTTCTCCTATTTTTCCAGAAATTAATATCCTTTTGTTCATAAAATAAACTCTATCAGATAATTCCTCAGCTTCATCTAAGTAGTGTGTAGTCATTATTATAGTAGTTCCATCTTTTTTTAATTCCTTTAAATAATCCCATACTTCTCTCCTTATTTCTGGATCTAGTCCTACAGTAGGTTCATCCAAAATTAATAATTTTGGATTACTAATTACTGCAGATGCAATAAGTACTTTTCTCTTATTTCCGCCCGATAAGTCATCTACTCTTTTTTTAGGTTCTAGCTTCAATTTTTGTATTAGTTCATTACTCTTTATTTTAGCTTCTCTTCTAGATAATCCCTTTAAGATTCCTAATAGTTTTATATGCTCTTCCACAGTTAAATCTGTTAACGGCCTAGATTCTTGAGGAACTACTCCTATATACTTAATAGCTTTTTGTGGGCTCATTCCCATTATTTTTATCTCTCCTTTATCAGGATAAAGCTCTCCATAAATTTGTCTCATTAATGTTGTTTTCCCTCCTCCATTAGGTCCTAAGAAAGTAACAAACTCTCCTTCATCTATTTCAAATGATATATCCTCGTTTGCAATTATTTTGCCATAACTTTTCCATACATTTTTAGCTACTATCATTATTTAATTAGTAAAAATTCTAGTATATAAATCTCTATCAAGTGTTACTGATAGTGAATAAAAATACTTTTAATTATATTTCCATGATAATAAATAAGTATAATCATAAATACTAATTTTCATTATATCCTTATATTAGCTATTATCAAAACTCTTAATATGACACCAGAAGAAGCGTACTCAATTAAACTAGTTTCATATGTAAAAATTTCAGATAAAGGTTTATTACATGTAGAAACGGAAATTGATAAAGATAAATATAAGAACTATATTTATTTAAATAAAGTAAAGATAGGAGAAGGTCTTATTCCTCAATTTTACTTGAATAATTTCTATTATATAAGGGGAGATAAGACGAAATCCCTTATAGTTCAGACTGAATATGGAGAACCAAAGAAACTTTTTACGTTGGCTAAAATTTCTAAATATGTATTTCATAAAAAAGGAATATTAATATTAGGAGAAGAAAAAGCAAGCAAAAAGGAACCTTTTTACGCTAATAAGTTAAAATATAGATTTGATGGTAGAGGTCTACTTAGAAGTAGACAGTCTCTTTACATCTTTGACGGTAATTTAAGGAAAATATTGAGTGGGGATTTCGACGTAACAGACGTGGCTACTAATGGAGATAGAGTAATAGTTTCAACTACTCAGAGTGGAGATGATTATGGGTTAGACGATGTTTATGAAGTGAATATAGACAACGGTGATGTAAGAAAAATAACTAAAGGTGAAGGAAGAGTTTCTGCTATAGCCATGAATGAAAAAGGGGATATAGCTTACTTAGGCCATAGAAAAGGACTTTCTCCTTGGGCCACACAAGAAATTATCATGCCAGAAGAAGGTAAAAGCTTTATGTGTGGAAACAATTGTGGTAGTTCTGTCTTAACTGATCTTTTTGATGGATCTTCTAATCAAATAATTTTTAACAAAGACGAAATTTTATCTTTAGGTCAAGAAAAGGGCTCAGTAGATATTTACAGAATATCAGATAATAAGGTTGCTAAGCTAACCAACGGAAATAAAGTAGTTAAAGGATTTGACTATAATGGAAAGTTAGCTTATTTCTATACTACTCCAGAAAAACCATCTATATTATATTATGATGGAGAATACGATCCTAATCCTAATATTAAGGGAGTCTCGCCAATTCATATAGAAGGAGAAATAGAAGGTTGGGCTATAATAAGAGGAAAAGAGAATCCTACAATTGTATTTATTCACGGTGGACCTCATACTGCTTATGGTTACGGTTATTTTATAGAATTTCAATTCTTTGCAAGCAACGGATATAACATAATATATTGCAATCCAAGAGGTAGTCAGGGATATGGAGAGGAATTCGCTAAAGCATGTGTAGGAGATTGGGGCGGAAAAGATATGGAGGATATATTGAATTTTACTAAAAAAGTTATTTCACAATTTGACCTAAAAGGAAAAATTGGCGTAACTGGAGGATCATATGGAGGTTTTATGACTAATTGGATAGTAACTCAAACTGACTTTTTCTCAGCTGCCATAAGTGAAAGGAGTATTTCTAATCTTGTTAGCATGTGTGGAACAAGCGATATAGGTTTCTGGTTTAATACAATAGAAGCTGGAATTACAGATCCTTGGAGTAAAGACGGAATTCAAAAACTCATGAGTATATCTCCAATATATTATGTTAAGAACGTTAAAACCCCAACAATGTTAATTCAAGGTGAACAAGATTATAGATGTCCGATAGAACAAGCTGAGCAATTCTTTATTGCGTTAAAAATGAATAACATACCTACAATGCTGGTTAGATATCAAGGAGACGGACATGAACATGCTAGAAAGGGTAATCCAAAAAACATGAAAGATCGACTTAAAATAAAAATGGAATGGTTCGATAAATATCTTAAATAAAAATTTTATGACATATATATTAAATGTATATTTCTAAATTCATTATAGTTTTTAACATAAGTGTTATTAGTTCAATAAAGTAGAGTAGAGAAAAATTTTTAGATATTAGGGTAATAAAAAAGTATATGGACTGTATAACTTTGACTAATGTAGTGAAGCGATACGGAAGTTTCGAGGCTCTTAGGAATCTTTCATTTTCAGTACCTTGTGGCGGTAGATATGCTCTTTTAGGTCCAAATGGAGCTGGTAAATCTACCACTATGAAGATCTTAGCTGGATTGTTAAAACCCGATTTAGGTACTGTCAGTATAGCTGGTTATCCTCCAGATTCTAAAGAGGCAAAGGCAATTATGGGGTATTTGCCAGAAGATCCATTACCGTATAGAAATCTTACAGTAAGGGAGAATCTAGAGTATATAGCGGCTTTAAGGGGAATAAAAAATACTAAAGAAAAAGCCGACGAATTAATGTACGCATTCGATCTTACTCAATATGAGAAAATAGCCGCAGGAAAGCTTTCTAGAGGGAATCAGCAAAAATTGTCTATTGCATTAGCGATAATGCATAATCCTCAAGTAGTATTACTTGACGAGCCTTTAAATTATCTTGATATCCCTACTCAAGAGAAAGTTATTTCAATATTAAAGAACATGAATTCAACCTTTTTAGTTTCAACTCACATAATGTCAATAGCAATGAGATTAACTGATCATGTAATAATGATAGTTAACGGTTCTGTTTTATGGGCTGGAAGTATACAGGATTTAAAAGCAATGGGAAAAGAAGATGAGCCTATAGAGAGTGTAGTAGCAAGGATGATGACTAATGCTAGGTAAACTTATAAAACTTCTAATTTTAAGTAGATTTACAAAACCTCTATTAGCTTTGAACATATTAATTCTCCTTTTGGATTATACCTCAATGGAAGGACTTCATGATACCCCTCACGTTCCTAGGGTATTTACAGAAGAGGCTATTTTCATGTTAACTTTTCCTGTTATAATCTCCGCCTTAGCCTCTAGAGTAGTAGTAACTAAATCCGATATGGATTTTCTTTTTACTTTACCATTGGATAGAAGAGAAATTTTTACTGGCATTTACATAGCTTCAATATTTGCTACAGGGATTTTTTCTTTATATTTTGGTATATTTGCTGTAGTAATTTTAGGTACCATCGGCATAGTTATTCCAATACTTCTTGCTATAATGAGTACATCAATGTCTATAACGTTTTCTTCAATGAAGGGATTATATAGAGGAATGATAGGCGCAATACTTACAATATGGTTTGTTTCTCCTTACTTTGGTTTCCCATTTTCACCATTATCAATGATTATAGGATATTATTATGGGTACCCTATACTAATAGCACTAACTTTAATCTTTGTATATTCGTCAATAAGAAATTTCGATAATATAAAGTTCAAGACTTTTCAAGGTAGTAGTAAACCTATTAAAGACCTAATATCGTTTGAAGGCTCTACTCCTTTTACTGCTATATTAAAAAGAAATCTTTCATTTGTGGAATTAGGTGGAAGATTTAATTTTGCTGGGACACCAATGTATAAAACTGCCAGAGTAAAACTCTACTATATTATTCTTGCATCTACTATTATATCTATTATCTATTATTTTATAGTAAGAATGATAGGATTTTTCTCAATTTCCTTTTATTTAGTTATAGCAGAATATATATTAATTCTACAATTAGCACAAACAGCTTTCATGTACGAACCCTTATGGTTAGGATTGGGCATCATAAACCCTATACAGTACGTACGATATTATTTAGGTAGTAAGTCAATAGCAGCATTCTTCATGCTCCTACCATTTGGTATAGTCAATATCATTTTAGGAGTATATAGTTTAGGATTAGTCACAGTCATAGGTATACCTTTAAGCATGATATATTTGGCATCAATAATAGCAAGGCTAAACCCTATTCAAATAAAGGATGAGAATATTCCAAACGTTAGATTCACGGCTATGCAATGGTTAATAGGCCTTTTTACTTTCCCGATTTTAGTTATTGTTATGGTATCAGTATTTTTCCCTGGGATTATCTATGGCATTATAGCGGACGTTATATTAGCAATAATTTCTTTGCCATTTCTATTTTATCAGGGATTTTGGGAAAAGGTGAAAGATAAGATGATTGAAATGGGATTTGTATGATAAAACATTTGCCATTTTTTCTATCTAATGATTTTAAATTCGTAATAACAATATATTCTGTTTCAAAACTTCTTGTTTTTATTACAGGCTTTTTTATTCTTGGTAGTGATTTCTTCCAAATTATGGGAACAAAATGGGATAGTTATATTTATGAAAGTATAGCAAGCCATGGATACGCTGGATATTATATTGTCTTTTCTCCAGTTTACCCAGCGTTAATTTATATTCTTCATATTATACTGCCTACTGTATTTTCTGCATATATAATAGTAAATATATTTGGATATATTTTTGTATATATTATTTATAGATACTTAGGATTAAAGACCGCCTTATTAATTAGTATTTTTCCAGTCTATGTAGTATTCTCCACTATACCGTACTCAGACGATATATTACTTACATTTATATCTTTAGCATTATTTATTAATTCCAGCACTATATCTTCCATTTTTCTTTCATTGTCTGTATTAACATTTTATAATATCATAATCACAATTCCAGCATTTATCATGAAAAATTGGAAGATTATTATAATGCCAATTCTAACAGGCATAGGTATATTTATAGCCTATTTTATATTTTTTGGAAACCCTTTCATATATTTTAATATAGAAAAAGAATATTGGAACGCCGGTTTTACTTTACCGAATGTGCAAGCAATGTTCTTGTTAAATGGTTGGTTCACTAGTGAGCCCTGGAAGTTTTTAAACTTTGAAATTCCAAGACCTCTTTGGCTTATTAGAAATTACTTGTTTTTTATTTTCTATTTCCTTGGAGATTACTTTTTATTAAAATCCAATCTAAAAAACAGAAAGTTCCTTTTTCTATATTCTTTATTAGTCGAAATGCCTTTATTGTTCATTAATGGAGTTCCAGCAATATCTATTCCAAGACTACTTCTTCCAGCATTTCCTATATTCTATGGATACGCAAGCTTGCGTAAAAATATTATATATTTATATGCAATCATTTCGATATTTTTGATCCCAATAATTACAATATGGCAAATGACAGCATTTTTCTCGTAAGAAGCAATATATGCAATTAGTAGTTCACATTGATTCAATAGCTTCTAGATAGCTATTTGTAATTAGATATTTTCTCTAAGTTCTTTTATTTCATTTTTAATATTTTCATTTTCAATAATATCTAAAGGAAAGTATGCAGTAACTATCCAATTAGGAACATCAACTAGTTCGCTAACTTTAAGATCTAAGGCGGCACTAGATAACATGTAAGCTTCTATGGGCTCCATAAAATTAGATAATATTGATATAATTCCTTTTACGGCGGTTTTTGTTGCAATCCACAAATCTTGAGATATGCCCGGATAAGCTATATATTCTTTATAATCCATTTCTTTAACCTTAGATGTGTAAAATATGGGCTGTGAAATATTCATATTTTTGATAATTTTGACTTTTATCTTAACTTTTAAAGGTGCTTCTATCGCACTTCCACACACTTCTCCATCTCCTTGAGCTAAATGTGTATCCCCTATAGAAAGTAAACCGCCTTTTTTGAATACTGGCAAATATATTTTAGATCCAGTAGTCAAATGCTTTATATCAAGATTTCCTCCATTTTCTCTAGGGGGAATAGTACTCCACTTACCTGGATAAGGTAAAGCAGTCCCTATAACGCCGGGGAATGGAAATGTCCTTATTCTCACGTTAACTTTTCCGAACTTGGCTTTAGCGTAGCCTTCTTCAGTATTCCATATTGTTAATTCAGGTCCGGCTAGATCTATAGGAGTTGTATATAGATCTTGAGAAAGAAATCCAAAGCCAGGAATAACTGCAGTCCATCCCCAGCCAAAATCACTAAAATTTAAAAATTCTATTTCTAGTGCATCGCCTGGTTCTGCATCTTCGATTTCAATAGGTCCAGTTAATGGATGAATAAGATTAAAATCTAATTTCTTTAAGTCTTCCTTTGTTGAAGATTTGGTAATTTGACCATCGGATGCCTCTTTAGTCTCTATTTCTATTTCATCTTCATTTTTTATACTTATTATAGGCTTTAGGGAATTATCCCATTTATTATGGGTCTTAGCATGTATAGTGTACATTAAATAATTGTATAATATGAAGCTTATTTGTATTGCGAAATTGCTCTTATCAATCCTATCATTCTCTAATGATTATAAATCAAGAAAACTAACTTTAAATTAGTTTTAGGAATTAAAACTATTTTTAATAAAAATATTGTATACAAAGCAAAACTTAAATAAGCCTTAACATCACTTATATATGAATTATTAGGTTAATAACTATGATTAAATTTTTACGCAAGTTTTTAGTTACGAACGGTTATATAATATATAGTCTATAGTTTATTATGCTCATTTATAAACAATTTTTATCGTATTATAGTTATAAAAGAAACGCGTATATACTTCTTAACCTAAGAGAGATTATAGAGGTGAAAATAATGATAAGCAAAGTAACTTCGATAGTTGGCGGAATAGTAACATTAATAGCAGGATTGGTAGATATAATAACCAGACATCCATTAGATCACTATATTTATGGATTGAACATCATTAGCGGGTCTATAATGATATATCTCGGTATATTAGGAATAGTGTCTGGATTAATGACATTATACGGTACATACAAGGATAATAAGGACTTTGTTATAGCTGGAGGAGCAATAGGATTAGCTACTCCTACAGAATTCTCGCTCTTAAGTATAATTGGAGGACTTAGTATGAAAACTGAAAAACAAGCTACTAAGTCATGATTTTTTATTTTATAGCTATTTCATGATTTTTTGTTTCTATCTTTTTAGGCCATGTGTACATTGATACAAAAACTACACTTAAAGATGCTAAATTTATGACATTTATAAAATAAGGTAAAGATGTCATTCCAAAATATGCTATAAAAACTCCTAGTAAGGCTGAAATTACTCCTCCAGCTACTGCACCAATATTGTATGAAGTTCCGGTAATAAAGGCTCTAACTTCGGATGGAACTGAACTTGCTACTATTCCAGAAATTAATGGCCAAAAACCTACAGCAAAAGCATATAGAATAACTCCAGAAGACATTATTGAAATACTTTTGAATATTGATAACACGGGCATTGAAAGGAATGCTGCAATTAAAAGTGTTATTATACCAATATATATTAATTTGAAAGTTCCAAAGATATATGATAATTTACCGAATATTACATATGCGGCAGCCTGGATTCCATTGGCTAAAGCCATCAAAAATCCTACATTGTAAGTAGAAAATCCAGAGAATTTTGCAAAATCAGGGTAAATACTAAATATTGATAAGTATGCTATAAACATTCCAGACATTGCAAAAGAAGCCTTTATAAAATAATCCATATAATCTTTTACGTTTATTTTAAAAGTAGTAGAAACTGGATGAAACTTTTCTGAAACCTTAAACGCTATGTAAGGTACTATTGCAAGAGGAATTCCTCCAGTGAGCATAAATATTCTATAACCAGTAAGAGAATCTAGAGAACTACCTATAAACAAATATGTTATTCCAGTTAACGCATATCCTAAAGCATAACCTGCTTGAACTATGCTATTTATAAGTTGTATTTTTCTTGGAGGAACTTGTTCTATTGCTAGTACTGTTCCAGAAGTCCACTGAGCTCCCATAAATGCTCCTTCAATAGTTCTAAACAATGCCATTATAGGAAAGATTGTAGAAAAAGCAAAAGCTATTTGAAATATTGAATATCCTCCTGTTCCTACTATCGATATTATTTTACGGCCTTTCTTGTCTGCAAGTTTTCCAAATATACTTGCTCCAGCAACTCTACCTACTAATCCTAACGAAAATAATAAAGTAAGTTCTGGATAACTTAAATGTAAATATTGATGTAGAAATTCATAAGTATAAGTAATTAATACAAGATCGTAAATATTTCCAGCCCAAGCCAAGGTTGATGAAGTTACTGCGTGAATATAACTTTTCATACCATAAAATGCGAAATAACTTTTTAAAAATTTTATTTAGATAAAATTGTCATTTCCTCAATAGGAAAAGCTTGTATTTTTAACTAGAATTCTTACATTCTTCAACAAGTTTTTTGTAAGCTTCTTTATTACTAGGTCCTCCCGTAATTCCATTCTCTTTAAAATCTTTTTCTCCTATTATTAAACCATCAGCCTCCTTACAGAAATCTTTGAAATTTTCAAGAGATATTCCACTTCCTATGACTATAGGTAATTTTATTGAGGATTTAACTTTCTTAACTGTGTCTATACTTGGTGGAATATTGCTTCTATAGCCGGAAACTATAACAGCGTCAGCTCCTCCTCTTTCTGCTAAATCTTGTGCAGCAATCTCTATAGGTAGATTATATAAAGGATATGCATGTTTAACGTGAATATCTGCTGCTATCATAACTTTAGAATTAAGATACCTTTTTAATCGTAAAAGTTCTGCTGCCTTTCCCTCTATTATTCCTTGATCTGTAACATACGCTCCAATAAGAATATTACATCTTATAAACTGCGAGTTGGTTATATGTGAAATAGAAAAAGCGTCTATGCAACCATTTCTTAGTACATTTACTCCTACTGCATCAAAATTAAAATTTTTCCTAATTTCTCTGGTTATTATTGTCATAGAAGTTATAGTTATTGATGGTATTTGATCCTTAAAAAATGGATAATCTCCTAGATTTTCTATTATTATACCGTCTACTTTAGCTTCTTCTAATTTTTTACCTTCAGAATATGCAAATTTTAATATTTCATCAATATTATATACGTTGTTTGGAGATCCTGGTAAAGGAGGTAAATGAATCATTCCTATTATATACGGTTTTTTATGAAATAGGTCATCTAGCATTTTCTTAATACCTATAATTTCAATCTCTTTAAAATCTCTTTACTATAATTATAGTAATCTAATTTTCATTTATATAAATAAATTTATATTGCTATATAGTCTTCATTCTCTTTATCTTAACAAGGGGTTCAAAGGGGGCGTAAGACCCCTTCCGTTAGGTAGGAGATGGATAGGCTCCACATGCTTTGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGAAGGAACTACTTGATTGGGGTCAACTTGAGGGCCTTCACCACCTCCTCCCCTATACCTAGTCTTCTTAGTCTCACCCTTGTATTCCCCATCCTTGAGTACGTGATAAACTATCCTACACATCTTGTTGGCCAAGGCTAATGTAGCCTTTTTGGAATTGCTTGTCCTCTTCAACAAGGCTTGATAGAAGCCATTAAATTGGGCCGTGTTCTTAGCGGACCTTGCAACAAGGAATAGAACGCGGGATAAGTGCTTATTCCCCTTGATGAGACCGTTGTGAAATTCGGTCTTCCCGCTCTGCTTAGTCCAGAAACTCCAGCATAAGAAGCAGCTTGTTTCGAAGACTCAAACCTGCTCACGTCTCCAAGCTCAGCGTAAATTGTGGCTGCAGAGATTGGGCCTATTCCGGGTATCTTAGTCACTACTGCTTCCTCGGGTAGGAACTTCATTATCTCGTTCTCCACTTCCTTGATTTGTTCTTCTATAATGTTCATTAGGTCCAGGAGTTGTTTTAGGATGAACGCTTCTATTCTAGTTAATTTTCTTCCCAATAATTTGGAGTACTCCTTGATCTCTTCGTCAGTTAGCTTCTCATCAGTGGCTAGTTTTCTCACTATTTCCTTTGTCTTCTTTTCGAAGGTAGCTTGTATCCTGCTGTTTCTAGAACTTTCCTTATCTCGTTCTTTACTTGTGTCTTTCTCTCTACTAGTCCTTCTCTGTGTCTTGTCATTTCTCTTAGTTCTTGCATTTCTCCCGTTGGTACGATCCTTTTACTGTGCCTGCAGCGTAGGCTATTGCGAGTCTTATGGAGTCGTTCTTGTCTGTCTTCTTGCCTAGGACTTCAACTGTTTGGACAGGGTTTATCACGTTTACTTTTAGTCCGTTGTCTCTCAGTACGTTGTATACGTGGTAGAAGTATACTCCTGTTGCTTCCATTATTCCTTCTTCGTATCCTTCTAGGAATTTTATAAGTTCTTTGAGTCCTTCCTCGTTGTATTTGAATTCTCTCGTATCAGCTTCTTTTACTGTGTTGTTGTTTATTTCCATCTTGGTTGCAACAAGTCTTGATTCCCCCACATCTATTGCAAATACTTTAGGCTTTATCTTCCTTTCCATGTGTAATACTCTTTTTCTAATTCTTGAATTTTTCTATAATACGCGTTGTATCGTTAATTTTGTTAGGAGATAGTGCGAACTAACTATGAGAACGTCCCCTTAAATTTTTGCACACTCCTACTCGGGATATTGTCCCACATGTTAGATCGCGGGGGACGTATAGCCAGCCTCCCACATGGGGTTTTATCCCCATGTTCACTTTCGGCTTGTGTTATTTTCTTGTTCTCTTTATAAAAGTTTTACTCTTGTAAGGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGCCCCCTTTGTAAAGCTTAAATAATTCTTTTCAAATATTCTATTATGTCCGACGTAGGGTTACGCTTCAGAGCGTACACTAACGAACAAACATTGAGGGCGTTAAAAGCCCAGTTGAGGTTAGCGTCAGAAGTGTACAACACCCTACGTTGGGCAGACATCTATTTTCATGAAAGAGATGGAAAAGGACTCACTAAGACGGAGTTGAGGCAACTAGCTCTCGATCTGAGAAAACAGGATGAACAATATCAACATCTATATTCCCAAACACTGCAGCAGATTGCAGACAGATTCTACGACGCTAGACAGAGGTTCTTCGATGGGTTAGCACGTTACCCAAAGGAAAAGAAAGCACACAAGTGGTACTCCCTCGTCTACCCTCAATCAGGTTGGAAAGTCATGAAAGTGAGAGAAATAAGGACGAAGAGCAAGAAGAACAAGAAGAAGGTAATAACGCTTCAGCTGTCAAACCTAGGGATCTTCAACGTCGTTGTCCATAGGGACTTCCCGCTAGACAAGGTAAAGAGGGTAGTAATCAAGTTAACACCATCAGGGAGAGTTTACATTACTTTCGTTGTGGATCAAGAGTATCCTCAACTCCCCAAGACAAACAAAGTAGTTGCTGTGGACGTTGGTGTAGAGAAACTTCTCACTACCTCTGATGGGGAATATGTCCCCAACCAGAGACCTTATGAGAAGGCACTCAACAAGATGAAGAAGCTTCATAAAGCTCTCTCACGGAAGAAGTTCTTGTCACACAACTGGTTTAAGGCAAAGATTCGTCTAGCGAGGGCTCACGAACACTTGAAGAACCTTAGGAAGGACATGTACATGAAACTTGGTAAGTATTTTGCTGAGCATTATGATGTTCTCGTAATGGAGGATATTCGCGTTAAGCAACTTGTTGGTAAGTCTCTCAGAAGGCTGAGGATGAGGTTACACGATGTTGCTATTCATGAGCTTAGGAGTATCATGGAGTATCAACTTGGGAAGTACGGTAAGAAACTCACTCTAGTGGATCCTGCTTTTACTTCAATGACTTGTGCTAGGTGCGGGCATGTTAAGAAAGATTTGACGTTGGCTGATCGTGTGTTTGTCTGTCCCAAGTGCGGTTGGGTCGCTGATCGTGATTATAATGCTTCCCTCAACATACTGAGAAGATCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGTCCGTTAGGGCGCGGTAGTTCACTTTGCTAAGGAATTGCAAATTGCTTCTATACTTTCAATTTTACAAAATTATGATACAGAATGGAAAGAAAATTATTCAAAAATAATAGAAATTTTAGATAAAATGGACGACTATATAGTAAATGGTAAAGAGTTACCTGACTATACTCTACTCAAAGATCTTGATAAGGGTGACATTACGTACTCCTATTCACAGCTCCAATCAATTCAGTTTTCTGAGAAAAAGACTAAAATATCTTTATTGTATTATGTAGCAGGTTTAATACAAGAAAATCTATATTGGTATTCTATACTCGCTAAAAAGGATAAATACGCCAAAAATTTTAATCCAGACGCGTTTGATATATTATATACATTGTTAAGCGTTGTAAGAAAAAGAGCCTATAGCATATTTCAAGAGAATTAAATATTTCTTAAAATCTTACTACTTTTTCCATAATAGCTTAATGAGTTGTTATGCTACAAAGTAAAAGCTAAGTAAAGATTTTGTCTTGTACCAATTTCTCTTCCACTTTTCTAATAACTAAGTGTTGCTCATAGAGTTTAACTAAAGCTTAAGTTAAACTTATATTTACGTTAAACAATACTATTAATATGGACGTTAAAGTGCATAAAAAGGGAATTATTGTAATTCCTGCAGAAGTTAGGAAAGAGTTTAATATAAAAGAAGGTGCAGTTATCGACTTAGAAATTGAAGAAGATAAAATAGTTTTAAGACCAAAACAAACTTTACTTGACGCTTATGGAATAGACGGAAAAGAGGCTGGAAAGAAACTACTGGAAGAGTTAGAAAAAATGAGGAAAGAAGAAGTTGAAAAAGAAAATTCTTCTTGATACTGGTTTCTTTCATGTTTATTTTTCAGGTTCTAACTATATTAGTAAGAAGGTAGTCGAGGAAATTTATGCAAATAAAATTATTGCGTATACTTTGGATTTAAACCTAGCCGAATTATTCTATACATATGCCAAAGTTAATGGAATTCAGTCTGCTAAAACTAAAATTTCATTAATACTCAGTTCACCTATAAAAATAGTAAGTACTACAAAGGATCTTGCAATAAAAGCTGGTGAGTTAAAGATAAAGAATAATAACTTGTCCATAGTGGACTGCTATCTGATTGCACTTGGCGAGACGGAAAATGCAGAAATATACACTACCGATTCTGAGATAGCCAAAATATATAATAATACTAATTTTTTGGAAAGAAATTAGTCTTCAAAATATTACTTAATGCAAATTTTGACTATAAATATAAAATTTGTATAATAAAATAATTATATATAAAGAATATATGACAAATATTAATACTTATATTTAAAATATATACTAGAATATCTAAAAAGCTAATTTCATTTTATTATTTATATCCTTTGCTACTGTGTAAAAGCTGTCGTCTTTATTAAATCATAAATTAATATTAAAGTATTTTTAATATATGGTAAAAAAGGCAGTAAAAGATTTTGTAGAAAAATAATGGGATATAGTGGTAAACTTAAGGCTGTAGTATTTTAAAGAATATATATTAAACTATTATCTACATAAATCATAAATATTTTGAAAACTATGAGAATAATGGTATTTAATATATGAAAATATATAAATGTCCTAAAATTTCATTAAAATACTACTATGTAAAGTTTAGTTCAGTCTGTAGGTTTTCTCTATCTGCAATGTATTACTGTAAAACAATAAGATAATATCAGAATGATATTGTAGTTGACAAATACTAATGTAAGAACGTTTTTAAATTATCTATAACATTAAATATATCATTTTATGTTTATAACGTAATTATATTAAAAGACTATTTGACTATAGTGCATAATATTTAAAAATTAAATAATATAATTTACACTATGGTTCGTGGGGCATTAATTAAATTTGCTATAAAGAGATTGATAGATGGTATAATAACGCTTTTCTTGCTGGTATTATTTGTTTTCATTTTAATTCATGCAGCTGCTCCAAATCCTGCAGCTCTTGCAAGAATATATGCAGGTAATCCTCATGCTCCTCCTTCTGAAATCCAACAAATAATAAACGAATATGGATTAAATAAACCTATATATGATCAATTTATAAGTTATATGTCAGATATATTTAGAGGAAATTGGGGTTTAGATCCTATATATAAGGTTCCTGAAATTAGTCTTCTTCCAGGTTTTCTTGCTATTAGTTTACAAATAGTAATTCCTGGAGATATTTTAGCTGCAATATTAGGTATAATTACTGGTGCAATAGCCGCTGCGAATAGGGGAAAGGTTAAAGATAAGGGCATAAAGGCGACATATGTTTTAACTTGGGCTTCACCACCATTTCTTGTTGCGTTTTTACTTCAATTGATAATAGCCTATTATTTAGGTTTACTTCCAGCTACTGGTACAGTAAATATACTTCTTCCTACTCCTCACAATTATACGCCATTCCCTATACTAAATGCTTTAATATCAGGCGATTGGGCATATTTTATTTCAGCGGTAAGACATGCGGTTTTGCCTTCCTTATCGATAGCCTTGATAACATTTGGCCTCTTTACAAGAGTAACTAGGGCCTCAATGCTTGATGCAATGGAGTCAGATTATACTAAATTAGCTTTTGCTAAAGGATTATCTAGGAATTACGTAGTTTATAGAATAGCATTAAGAAATAGTTTAATACCAGTTATGACTCTAATAGCCTTATTTTTTGGTTATTCGGTTGCAGGTGCTGTAGTAGTTGAAGACATATTTGACTATCACGGAATAGGTTGGTTCGTAACTCAAGCTATAGAAAGTTTAGATTATATTGCAGTTCTGGATTTTACGATAATAATAGGTATTGCAGTAATTATAGCGAATTTTATTGCAGACGTACTTTACGCATTATTAGATCCTAGGGTGAAAATAGGATGAAAAAATCTTTCCTAATTCCTATTATATACTTGATCTTAAGTATAATATTGTTCGCAATATTTTCATCTAGAGCCATATTAAAAATAACTGGAATATCTATACAAGATATTGTCCCTTTTATAATTTTCCTTTCAATAAGCATTATGATAAGTGTAGACGCGATATTATTTAATTTTTTCAAAAATAATAACTTCGTTAGATCAATAATTAGAAGTAAAGTAGCTTTAGTCACATTAACAATAATATCAATATATTATAGTTGGTCAATACTAGAAGGATTACTTCAATATACAGCATTTTCATTAGATTACATTAGAATCTCATATATGCTTTTGCCATATAATCCATTTGCATTTAATTTTCCATTTCAATCTCTTAAACCTCCTTCTTTATCTCACCTATTTGGTACCAATTATAATGGTGAAGATATCCTAACAAGAATACTTTACGCTACGCCGTCTGCTGCTGAAATATCTACAGTCGTCGTTATTTTTGCAATAATCGTTGGTGCAATAGTGGGAATAATTGCAGGATACTTTGGAGGAATTCTTGATGAAGTACTTATGAGAATAACAGACGTATTTCTAGCAGTTCCTGGTTTAATTCTTGTAATAGCTATAAGTGTAATTCTCCATCCCAGTTATACTAGTGCAATGATAGGATTAATGGTACCTTGGTGGTCAACATATGCTAGGTTATTTAGAAGTCAAACTCTTGTAGTTAAAAACATGAATTACATAGACGCAGCAAAGTTAAGTGGATTAGGAAACTTTAGAATATTGATAAAACATGTTTTTCATAACGTAATGGATCCTGTAATAGCTTATTCCGCATTAGATTTTGGCAATGTCATATTAACTTATTCTGTACTAACGTTTCTTGGAATAGGTATTCAAGCACCAGGATATCCTGAATGGGGTTCTATGGTATCAAATGGAATGGATTATTTACCAGCAGCGTGGTGGTATCCTTTATTTCCCTCAATAACTATATTGATTATAGTTATATCATTCGTATTGTTAGGTGACAGACTTCAAGATGTAATGGCTGGAAGAATAAACTATTAGGGTGATAGTGCTTGTTACTTCAAATAAAAAATCTTTCAGTAAGTTATAAAGTCCCAATAGGGAAAGTCAAAATTTTAGACAATATAAACCTTGATATCGATAAGGGCGAAATAGTAGGAATTGTAGGCGAATCTGGGTCTGGAAAATCAACTCTTGGCCATTCTATAATTAAACTTAATCCACCAAATGCCATTTATGATACTGGAGAGATTATTTTCGACGGAAAAGATATATTAAAATTAAGAGAAGAAGAGTTTAGGAAAATTAGAGGTGCAGGCATTTTTATGGTATTTCAGAACCCACTAAATAGCCTTAATCCAGTTAAGACAATAAGACTTCAACTTCTTGAGGCTCTTAAAGTTAAACAAGAAAGAGATGAGAAGAGAATTGACGATAAAGAAGCTGAAGAAATAATAATTAATACAGTAAGAGATGTTAGACTACCCGATCCTAAAGAAATAATTAAGAAGTATCCTCATCAACTTTCTGGAGGTCAAATACAGAGGGTCGTTATAGCGATGGCATTGCTTTTACGACCAAAATTATTAATAGCAGACGAACCTACTTCTGCCCTAGATGTAACAATTCAAGCTCAAGTAGTTAAGTTATTCAAACAATTAAGGGATGAAGAAGGAACATCAATAATATTTATATCACATGATATTTCCTTGGTGTATGCTATAGCAGATAGATTAGTTGTACTATATGCAGGAAGATTAATGGAAGATGGAAAAATAGAGAATGTAATAAAAACACCTTTACATCCTTACACTCAAGGATTAATTTCAAGCGTTCCAACTATAACAAAAAAAGAAGGGGAACTCAAAGCTATAGAAGGAAATCCACCTTCATTCTTAATCTTACCTAGCGGGTGTAAGTTCAATCCACGATGTCCTAAAGTTATGGGAATATGCAAGGAAAAAGAACCTCAAGTTATCGAAAAAGACGGCAGAAAAGTAAGGTGTTGGTTATATGAATGAACTTTATATAGCTAAAAATATTAAAAAATACTTTCTTACAGAAAATTATGGAATAATAGAAAAAATATTTAGAATTAAGCCGATAGTAGTTAGAGCACTAGACGATGTTACATTAAATGTATATAAAAATGAGACATTAGGAATAGTAGGAGAAAGCGGATCAGGAAAAACAACTTTAGGTAGAATTTTAGCTACCTTAGATCCTCCAACAAGCGGTGAACTTTATTTTGAAGGAGAAAAAATAACTAAAAATAATATTAATAAGGTAAGAAGAAAGGTGCAAATAGTTTTTCAAAATCCTGCTAGTAGTCTAGATCCTAGATTAAAAGTATTTGATGTAGTTTCGGAGCCTATAATGCATATGAGCTTCCAAGAAAGAAGTAAGATGGTTAAAGAGGTTTTAGACGAAGTTGGTTTAGATTTTGATTATGTTTACAATAAATATCCAAGAGAACTTTCTGGAGGCCAGCAACAAAGAGTAGCTATTGCAAGAGCAATAGTCGGTAATCCAGAATTTGTAGTATTGGACGAACCTACTTCTGCCTTAGATGTATCTATTCAAGCTCAAATATTAAACTTACTAGTAAGACTTCAAAGAGAGAGAAACTTAACGTACTTGTTCATTACTCATAACATAAACGTAGCTAAATATATTTCTGATAGAATCTCTGTAATGTATGCAGGAAAAATAGTAGAAATAGGAAATAATGAGGATATAGTTTCTTCACCAAAGCATCCTTATACTCAGAGCCTAATAGCGTCTGTTCCTTCTTTGAATAGGAAGGAGTTATCTCCACCAAAAGGTGAAGTTCCGTCGTTAATAAATCCTCCACCAGGATGTAGATTTAATCCTAGATGCCCATTTGTAATGGAGATATGCAAGGATAAAGAACCGCCAATGATCGAATTAAATGGGAGAAGCGTAGCATGCTGGTTAGCAGATCAAAAGTATCAAAAACAATAATAAAAGGCACCATAATAATTGCGATATTTTCAATTTTTTTAAAGATAAATTTGCATACAATTTTTAATTACTTGATTTTTCTAGGTATAGCATATTTTTCCCTTTTTCTATATATACTTTGGAAAAGATCTTACACATACGAAATTATGGACGATAAAATAGTTATTAAGTCCCCTTTAAAGCAGAAAATCATAAAATATGCAGAAATTTCTGATGAATTTATCTCGAGTGGCTTTTTAGCAAAAAGATTTAACTGTGGATCAATATATCTTATTTTAAATAAAAATACAGTGAATATAATTAAAGATGTAGAAAATCCTGAAAAGATAGAGGACGAGATAAGAACACATATGAGTAGTGAAGAATAAAGAAAGATATAAAGATTTTACATTTCTATATAGACTAGTTATTTTTTAAAAACAGATAAGAGTTCTACATATAGTAATGGAAAATTTTTTATACCGTTACACCCTTTTTAAAAATGATGAGAATGAAGAATAAAAAACTTTTAGGATTAGGTAAAACATTGGCTATAGTAATAGCAGTAGTCATAATAATAGCCGCAATAGGCGGAGTAGCATATTATGTTACTACTTCACATCATCCTCCTACTCCTACTGTTAAAACAATCTCCTTAGCAGCATCAAATCCTGATGTACTAACAGACGTAGCACAAACAGCACCACCAGACGCACTAGACCCAGCAACAGGATTCTATACGCAGGACGGTCCATTGTTTACTGCTGTTTTTCAAGAGCTTGTAGAGTTTAACGGTACTAATTATCACGAGGTAGTCCCAGTATTAGCTGAGAATTATTCTACTCCAAATTACCAGAATTATTACTTTAACTTGAGGGACTACGTTCACTTCGCCGACGGAGTACAATTCAATTCGTCAACAGTATGGTTCTCACTATACAGAACAATACTAATGGGTCAAGGACCCGGAGTAGCAAACTACATCGGATTATTATTCAACTCAACAGTTTACGGAATGACAGGATACGCAATACCTTGGGGAGTGAACTACGCAATACAGAACGCAACAGGATTACCAACAGCAAATAATTACACGCTAACAGCACAAGTACTAGCATCAATACTCTCGCACTTCAACGCGAACAACGCAACAATACAAAAGATAATGGAATACCCTAACCAAGCAGTAGTAGTAAAAGGACCGTATGAAGTAGAGGTTAGTACACTAGAACCTTACAAGTTCTTCTTGTACGATATTGCTGCTTGGTGGGGTGCTATTGTTAATCCTGTAATTGTTGATGAGCATGGTGGAGTTTCTCCCAATTCCGTTAATTCTTACCTTGATGAGTACGGTATGAATGGTACTGGTCCTTACGTTATAGTTAAGGTTTCTCCTGGGTTTTCTACCATAGAGTTGGAGGCTAATCCTAATTATTGGGCTGTAGGTCATGACGTTCCTCTAGTTGCTCAGCCTGCTCACATTAAGTACGTTGTTATTAATTATGGTTTGAGTCATAATGATAGGGTTGAGGATTTCTTGAAGAACGATGCTCAAATATCTTACATTTCAATACCCTACTTGTCCCAAATACTTGGTGCCTACCCATATAATACTATACCGATGAATTCTTCCTTCATTAACTTCGGTTCTGAACCTGGAGTATTCTACGTATCAATGAATATGGAGCAGTATCCTACTAATATTACTGATTTTAGGTTGGCTATGGAGTATGCTGTTAATTATTCTGCTTTGTTATCAATATTTTCTTATAATGGTAAGCCTTTGGCTTCTGAGTTTTTGGGTCCAATATCTCCTCAGTTTCCTGGTTATTATGATCCTAGTGGTCTTCCTGACTATAATTATAGTCCTTCTTTAGCTATGCATTATCTTAATGAGGCTGGTTACATTGGTCATTTTTACGTCGTTCTTCCTAATGGTAGTACTTTGGGTGATTCTTCTGGTACTCAATTGCCTCCCTTGTCATTGTATGCCTTGTCTCCTGTTAATGAGCTTGAGGAGGACGAGCTTGAAATAATATCTCACGATCTTAGCGCAATAGGAATATCTACTACAGTCTACTACGTACTACCATCAGTAACTGACGGATGGACGACACCAAAGGGAACACCAGTACTAGTAGACCTAGGCTGGTTCCCTGACTGGCCTGATCCTGTCTTCCAGCAATTGATGCCTTTGACTGATGTTGAGTTTGGTGGTATTTCCGGTAACTTAGCATGGGTTAACATTTCTACTCTGCAAACAATGTATAATACACTACCATTCATTACTAATACAAGCGAGCAAGAAAGTATGGTTGGTCAAGCCTATTCTATAATTTATCATGAGGCTCCTTACATGTGGTTGCCAGTTCCTGATACTTACTACTTTGTACAGCCCTATGTCCATGGATTCGAATATAACCCGTACGTAGGATATTTCTATAATCTAATGTATTATAACGGAACATATACATATACAACCTAAGGTAAACTTTTTTTATATACAATAATTATTTTTTCTCTTTCTTGCATACTTCTTTATGAATCTAATAGATTTGCACGAGGATTTTGCATATTCGTCAATGTATTCAGACGTAATAGAAGATACTGAGCAATCTAATATTAAGATATTAAAAAATTTTGATAATGTAATTATTTTTTCGGCTATATTTCCTCACATTAATGTATGGAATAATAGATCAGAAAAACTTACTTTGCTTTATGGAAATAAGACTAAAGCTACTGCTCCCTTATTTGATGTACTTAAGGAGCAAGTTAAGTTTTATCTCTATTTGGAGAGTAAAGGTTTAGTTAATATTGTTAGGGATAAAATAAATAGTGGAATAAACTTTCTACTGTCTTTGGAAGGAACTGACGTTTTGACTGATCCATACGATCTTTATTTGCTTAAAGAGTTAAATGTGCTATCTGTTGGAATTACATGGAATTATGATACTAAATTCGGATCTTCTTGTATGTCAAAAAAGGACTATGGGTTAACAGAAGATGGAGAAGAGTTAATTAGAATAGCTAATAAAATAGGGATAATCATAGATTTAGCTCATTCTAGCAAAAGAACACTTATGGACGCCGCTACAGTTTCTAATAAACCGTTAATAGTTTCTCACGCTAATGCTATGAGGTTGAAGAAGCATCCAAGGAATCTTGATGATGAAGAAATTGAAGCAATAGTAAAAACTGATGGAGTTATAGGCATAACTGCAATAGTTGAAACTCTACCTGAAGACAGCATTAAAGGGATTATAGATAACATTAACTATATTGGGGAGAGCTATGGATGGAGATATGTTGCGCTAGGTACTGATTTTTTAGGTATAGAAAAGGTACCTAAGGGTTTCGAAAATATAATTAAAGTAGGAGATTTGAATATGGATCATAAGGAAATATTCTGGGAAAATGCTATGAGAGTGATCAAGACTAATCTTAACGTTTAACGTTATATTAATAGTATAACGGCTATACGTAATCTTATTCAGATTTAAAAATAAGATAAGGCTATTCATAAAAATTAATAATAACTTTTCTATATGTTGAGAATTATCTCTGAATGATTCAGATATTTGTATTATTTATCATATTTAATTGTTAGATGAATTTTAAACCTAATTATATAAATTTTTAAGTAGTCCATTTCATTATGTTTGACATAAGCTAAAATTGTTTTTAAGTCCTTTCATGTATAGTAAGATAATTTTCAAAATAGACGGATTTCACTTCATCATAAATTTTAAAACTATAATATTGGAGCTTAGTTCATGTTAACATATTTTTATAATCTATAAATATTATTTTATCAAATAAGCTATAATATATGAATAATAATTATTATAATTAAGTAATCTTATATTATTTTATGCTTATTAATAACGTTTCTAAATCATTTAATGCTCTATCTATGAATATTTTTCCTTTATTTTCGTTTACTTCTATTTTTCCTCCTATATTTATTACACCGTAAGGATTAGCCTCATAGGATGTTATTGTTTTAAAAACTCCTTCTTTTACGCTATAATCGTTTATTTCTTTAATTTTTTCTTCATTTACTAAATAAGGATTTATAGCCTTAATTATAGACGTTTCTAGGGAACCAGAGTGCATATCTATTATATTGAACAGATCGTAATTTCTTCCTATTATGCTAAATAAATAGACCTTGAAGTGTTTATTAGTGAAGTTAATCTGTCTTCTGATTATATCGAGCACGCTTTCATTTCCCCCATGAGCATTTATTATTATAGCCGATTTTAGTCCAGCTTTTTTTGTAGTCTTAAGAATTTCAACCATATAATTTATCATTGTAATATACGATATTCCTATGTACGGATATCCGGAATGTTCTAGCGAGCATCCATAAAAAATTGTAGGAAATAAAATTACGTCTTCCTTATATTTTTCCTCTATTTTTGTTGCTATAGTTTCTGCTATTATTGAATCAGTACCCATAGGTAAATGAGGTCCATGTTGTTCTATACTTCCAATTGGTAGTAATCCTATTTTTCCTTTTATTTCGTCTCGAGTTATTTCAAGTAGTTTCATATTGATAATCTAAAATAAACTGAGCTAAAAGTCTGAGCTAAGATATTATATTTTTAAAAGAAAATAATATATAAATATAATATTCTGTTCTATACAATTTATACTAGATTATACTTATATTTTAATTTTAATTTCATATAATTGTGTTTCATCTTTCTTGGAATGAATTATTTCTATATTATCTTCTGAAGTTTATATAGATGAAACAGATCATACAAGTTCGACAAAAATGAAAATAGCTCTATTAATTTTAGGATTTATATTATTCATTGTGATATTAGCATCAATTCAACCTACGGCAATAATAAACAATTCTAATAGATCTCCTTCACATTCTACTTTTGGAGAAAAATATATACAGTTAGTTCCAACTACACAATATTATTCATATAATGGATATACAAGTAAAGCAAGATTACTATTAAATGACCTATGGTATTATAATATAAGAGGTGTAAGTGTTGAGGTTAATTCTACCCAATACATGAAAATAATATCTAATCAAAGTATTTTGGCTATTGGATATATCATGCCAGAATACTATAATGAAATCTCAGTAAATTATTCTTATAACCTAAAGGGAGCTTTTGGAGTATTCTTAAAGGAATTTAATTACTCAAGTAATGATAATCTTAAAGAAATGATGCTTAATTCTATAGTTATAGCATTTTATAAGCCTTCGTCAGCTCAACCTCCAGACGCAGTTTATTTATATAATATTTCCATACCAGTTATAATAAATGGAACTGAAAATGATATAACTTTTGATGTTTATAAGAGTCCTGTTCATTTGTTCTATATCCCAACAAAATACTTATTTGGAAACATAACCTTATTCGTCAACTACTTTACCGAGAATGCCAATTACACTAGGCCATATTTTATAGGTATATTTAATCATGCAGCAGTATCTACAGAGAAAAATGCTATAGCTATTGCTAACGTATATAGTTGGTTTATTATACAGGCTCACTCTATGCCTATTCCTCCAATGCCAAACTTCTTAAGATATGGAAATCTAGAAATCAATGGAATTAAATATGTTGCATATAATTCTACTATAACGTTTTCCAATACGTTTACAGAATTAGGAGCTAAATCTAAATCCGGTTCAGAGGCTTATGCAGTAACGCATTATGATATTATAGGAGTATCTTATAATCTTATAAGTGGTGAAAACTATTTCGGATTTAAGATTATTTCTACCACAAATATAATTTACATGTTCCTCAATTCACCAATAGAAAAATCCAACGAAACTATTTCTCTTCAAATAATAATTAATAAAATTCCTAGGATAATTAACTTTTACGAAATAGAAAATGGGTCTACTATATATTTATATCCTGAAGAAGAAATTAATAATGCTACAGTAGAAATGGATGCTCCGTATGTTTTATACAGTCTAGGTATTCATGGAGTAATACAGAATGTTTCAGTAGGTGATGTATATTATAGTGATAATATATCATTTACAATGAATTTCTATCCAGCTATATTTTATCCTACAGGGAAAATTTATGTTTCGTCTCAATCTCCAATATTTTATATAAACGGATCTGAATATGAAAGCAATATGACATATCAAATTTCTTTACCTGCAACTATAGAAATTCCTGAAGAATATTTAACTTATGGTACAAGATATTTGCTAATATCAGTAACATTAAATGGACAATCCATAGATAACGAATTTATGATATTTTATCCTGGAAATTATAATATATCTACAAATTATTTAGTTCAGTACTATGTAAGTTTACCTTTTAATGTAAGTGCTTACGTTAACGGAATTAAGGAAAACATATCTTCTGGTTGGTATAACGCATCTACAGTTATTATCATACCGTCTCAGATAATTAACATAAGTAAAGGCGAAATATATAATATAAGTGAAACTAAAATAATAGTGAATTCTTCAATAAATGAGACAATACCATTTAAATTGGAATACTACGTAAATGTAAGTCATCCAATAAGAGCTCTAATTAATAATGTGAATACGACTTTAATAAGTGGATATTATACTAATGGCACAAAGATCATAATACCAAAATACGAATACGTTAGTAATAATACTAGATACTATATAGAGTCAGCAGAATATGTTATAGTAATCAACTCATCTACCAATATCAATATAAATTTTGAGTTACAATTTCTCATAACTCTTCATTATCCTAACGGTACAATAACGGAGTGGGTAAATAACGGATCCATAATTAAATTGCCTTATATTATTCAAGTATCAAATAACGAAAGATTATTACTCAATTCAACTCAATATTATACTGTAAATTATCCTATTACAATATCTCCATATTATATACTTCAATATTATGCTACAATAGTCTATCCTAATGGTACTACGTCAAACTGGTATAATAAAAACTATATACTTACATTACCTTCAGAAATTTATATTAATAATAGTGTAAGATATGTTACTAATATAACAAAACTAGAAATATCTTCTCCAGGTAAATACATAACTTCGTACGAAGAACAGTTCTATGTAACAATAGTCTATCCTAATGGTACTTTATCTAATTGGTATAATAAAGGTCAAACTATAACTTTACCAGAAGAAATAGAATATAATGGAATAACATATAAACTAGTAGGTTCGAATGAAATAACTATATTATCCCCTGGTACTGTTAAGCCAGCATATTCTACTACTGTACCAGTATCAACGACTTCAGTAACTACAACTTCAGTAACCACTAGTACTGTAACTAATGTATCTGTTACATTACCTCACTCATCAATTTCGGTATCTCCACCAGTTTCGACAAGCGAAGTAATAGCTATTGCCGTTATAGCTGCAGCTATCGGTATAGGCGTAGTAGTGCTTGTTATAAAGAAATGAAAGATATTTTAGTTTTAATATTTAATTATATATAATGTTTATTTCACAAGTAATAGCCACTTTAGTTGTTGTATTTTTTGCTTTTATAATTTCCTTTTTTATAGCTTTTTTGTCTAAAAGAAAGAAAAAGAGATCCTAATCTGGAGGAATCTCCTTAAATACTAAACTTAAGTCAATTCCCTCTCTTTTTCTTACCTCTTTTGAAATTATATATGTTAAAAACCCTGAGATTGGCGGAATAAATATTGTAGATATATCAAAATATTCGTTTCCAGAAAATATTATAGATCCAAAAGAAAAATTACCAAATGTCACTATTCCATACAATATTGTAACTATAACTACAGTAATCAGGGATATTATTGAAAGTACAGCAGTTATAAGAATTTTTCTATCTAAATTTGAAAATTTTATAGAAGCTATAGATACTAATAAATAATTCCATATTATAAACCATAGTCCGTCTACTGCAAAACTTACAGAATATCCAAGATATACTTCAATAAATTCAAAAATAATTGATATAAAGAGAGATAATAGCATGGCATTTACTGGAATTCCTCTTTTTACGTCACCTAAGAACGATGGAAGAACTCTATCGAAAGCTAAAGAAAATATCATTCTAGAGGAGGCTGTAACGTTAATCATAGCATAGAGCAAATACCATGTTAACGCGCTCATTACAACTATAACCAGAATTTCTGGAATGTTTAAAAAAGGCAATACTCCAAAAGCTAATAAAGAAGATGTAGATATAGGTAAATTCCATCCATTTATTGTGGCGTAAATATAACCTTCCTTACCTATACTAAATTCTATTGCAAGAATTAAGAACACAGTGAATATTACAGCAGCAGAATATGAAAGTATATATCCTGCAAAGAATCCAGTTTTAGGTTTCTTAATTTCTCCACCAAAATATGCTGGAGCATTAGAAAAAGCATACATAGAAAGTACGAATATTGATGATAAAGCTAAGGTTTGAATATAATTTGTTGGTTCACTATAAGGTTTAGCATATTGCGAATAAGAACTCCTAAACACTATCATGCCAAAGATCATCATTACTATGCCTATTATTTGTAAAATAGTTAGATATCTAAAACTTTTTGTATAAATCTTGTAAGAAATAGATAAAAGAAAAGATACTAGAATAATAAAAGTAGTAGTTATTAATAGATAAAGATTGTTACTTAAAATGGAATTAGCAATAGTTATGAGTAATGAATTATGGAAAGATACTCCAATGGACTGGAGTCCAGGAATGATAACCATTATTACTTCTAGTTCAGCAAGTACTGGAAATCCCATAGAAAAGCTCATAATTAGCGACATTGCAAGTATTGTCCCAGCTAATTCTCCCATGGATCTAGATACATAAATATAATCTCCAGCAGATCTTGGTATATGATAAGATAATAAATAATAATTTAGTAGTAGAGGCAATACAAGGATAGCTCCCAAGATAGCTGAAAGAATCCAGCTAGCTCCAGCTATAGTCGATGCAACAAAAAGAGGATATGAAAGGCCTGCTGCTGGTCCAATAAAAGAGAAGTTCAGCGAAAACGCATCAAATGCTCCCAATTCTTTTACTAAACCCGTTGACTGTCTTAGAAATTTCATTTAGTTTTTCTTGCTTATATTAACCTTTAAAGCTAATTCTAGATCGTAAATATGACTAGTTAGACTTTCATTGTTATCAACATAAAGATGAAAAATAAACACATATAAACATCGCAATTAATATATTGATGATAGTTAGAGTTTGATATATTAATTTAGTTTTTATGACGAAAAATAATGTAGCATATTCTAGTTAATATAATTATTAAAATATGATATCTCAGATATTTTCTATCTAATTTTCTAATATCTTGAAGACTTTCCAATTCTTATCCTTTCTTTACTAATTTATATTTTGATATAAATAGATCGTATCCATAGCTTGTTTAGATATTAATTTATATTATTACAAGATTTTTATAACTTTTAATAATACTTGTTAGGAGAGCACATATACTTTCTTAGAATCTAAATGCAAAGATCTTATTCCTTTTAAGGCATAAGAAGAGCATAAGCGTTATTATAATAAAGTTTTTAAGTAAAACTCTTGATAATTTATATTGAGAAAAACCTCTGAGCCCTAGTGTAAGACTGGGGCAGATGAAGGGGAAAGCCCTAGAGCCCTAGTGTAAGACTGGGGCAGATGAAGGGGAAGTTACTCATGTTTTCTAAAAATTTTTATCGAATTATCGTTAGATAGGAACTATGCGTATTATATTTATAGATGAATCGATTAACGCTAATACTTTTATAGGCGGAATTTATTTAAATTTAGAAGATATTAATTTAATAATAGATTGTATTGACAGTAGTTGGAAAGAAATAGGTAAGGAATGGAAATTTCATTATATTATTGATAAAAAATATAATGTTAACGGTAAACCTATTTCTGAAATTTTTCTAAAAAATATAATCAAATATATTCCAACTAGAAATACTATAGTAGTTATGCATAAGGGTAATGTGCTTATTAAATGCAATGATCTTTACCCTATAGTAGTTTTTAATCTCTACTCTTTTCCAATATTTTTAAGTAGATCAGACTTTGCTTTAATAGATCCTAATCCTCAAGTAAAATTAACAGATCCAATTATTAAAAGAATAAACTATCCTAAAATATTTCATAATGAAGACGAACTAATTAATAAATTAGATAAAAATACAAAAAGTAGTATAATTAAAATTATTAGGGAGAATATAAGAAAAGCTCAGAGTAAAAGAGTATCAACTATTTTAAATAGAGAATTACAATTAAAACCTGATATTGCAATAAAAACTATTTTAAAATGGAGTCTAATGATTGCTGATTATGTAGTTTCTTCTTCAGATTCTAAAGATTCTACTTGGAATATAGTGGATCCTTATGGCTGTCAATTAAAATAAAGTATTATGCAATCTATACTCATAAAAAACTATTCTGGCGGTATTTCCTTAAATATAAGGTTTAAATCTATACCTTCATTTTGTCTATATTTCTTCGAAATAAGGAATGTTAATACTCCTAATAATGGTATTATGACTATTAATACTATATTGAGAGGTAAATTACCAGCAAATACCATTGAGCTATAAACTGGATTTATTATGGCATATCCAATTGCAAGAATAACGGATATAGATAATATAATAGATCCAAGTATACCATAAATCTTTAGCATATTCTTTTCTTTTTGGCTCAGATAAACGCCTATTATTCCCTTAAATCCAGCTACTGCAGCAGATATTGTAGCTTGTAAAAATTGATATATAAATAGAATAGCTATTAATGCTATTGTAGATACTGCAAATCCTAAATATAGTGTGGCTACTTCAAAAAATATTCCAAGAATCAATGCTATAACAGAAGCTATTAGTGGTGTTTGTAATTTTGGACTTACGTATGCTAGTTTTTCAGGAAGAATTCTATCAAAAGACATGGCTAGCATCACTCTGCTCGGTATAGCTAAAGATAAGGGACCTGCTACGAACTGTATACCTATATTTAATATACCTACGAGTACTGCCAATATTGGTACTGAAATGGCCATTATTCCTCCCCATGCTATATATCCTTCTCCAGCAGATACTGGATTTGAAGACCCCCAACCGTTTAAAGCTACATAATTAAAGAATGGTATTCCCATAGTTGTAGCTGTAAGTATTGTTAATGCTATTATTATTAAAGTAGCAATAATATAACCAGAAAGCATTCCAAGTTTTAAGGACTTAGCGGCTTGTTTATATTCTCCAGCAAAATACGAAGGTCCAAAAAACCATATAAAAAGCCACATTAGCATTAGAACTGCAAATATCATAGTCTGTAATGGGTCTGAAACTGGAGAATATAGCGACATACCATTAGAATATAAAGTAGAATATGTAGGACCAGAAAACATTGAAGAGAATTTGTTAAAATCTGCAGCAAAAGCCGAATTTCCTTCAGCAAATAAACCTACTATTATTAGTGCTCCAATTACTTGCATAGTTGCTATAGTAAACAAAAAGTTACCCATTATTCTTTGTGGCAATATACTTACAATCCACATTAGTATTAGTGAAGCTAAACTAGCTATAAAGTAATATGTAGGATTAATTAATATATTTACGCCTATATTGAATAAAGTTGTATTCCCTAAAGCTAAACCTATTATTTGAAGTGCAGGAGCTATTCCTGCCGCAACTTCTATCTGGGAAAGTATGGCAGCAAGTAAAGGTGTTGAGATTATATTAGCTATACCTTGAATGGTAGCTGGCAATGGTCCAAGTATTCTAGAGATATAGATATATTCTCCAGATGATCTGGGAATATATTCTGCTAATTTTAGATAAGTAAGAAATATTGGCAAAGCCATTATTGGAGCAATTATTATTCCTACAAACCAATTAGCTGCAGGTATTGAGGGGGAATAAATTAATGTATAGTATAACGATATAGGCACAATAAGAGCTAAGACTTTTGCAAATGCATGCTTAGCTCCCATTTGCCTAATTAGACCTGAAGATTCTCTAATGAATATTCTTTTATCAGACATAAGATAATCTACAAATAAACTATTTTTATATTTTATACGTAATTATCATGAATACTTTTTATTTTTATTTAGTATTAACTCCAAAATCTTTTCATAATTTTTTAGTCATAATCATCATTAAATAAAAAATATAAATAGTAGTCTACTATAAATGATATTTATAACTTTTCGTTTACCGCATAATATAAATCTATTTTTCTCTTTTTTAATTCTTCAATAAATTTCTCACTACTTATAACCTTTTCTGGTGGTAAAACGCCTTTTCCTTTAATACCGACAGAGATTGCTATTGCTGGTGATATACCAGTAACATACTGTGTTCCATCAAATAAACCCATTGGCTTAGCTACGAATTCAACAGACACTATCTTTTTTTCGTACTCAAATATCACTTTTGCAGCTTCTACTTCGTCCGGTATTGAAGAATATCCTAAAAGTCCCTTTTTCTTCAAAAGTTCCCTTAAGTACTTTCTTGATTTTATTCCTAAAATTTCATCATTATCTCCAAATAATTTCCCTATAAATATAATATTCTCAAATCCAGTTCCTCCTTCCATCCAATCCACATATTTAACTCCAGGAAAAGAAGAAGGAAAAGTAGCTAATTCACTATGAATAGTTAAATACGTTTTAATTTTACCTATTGAGAAATCAACTTCGTCAGATTTAGATAAAGGTTTGTAGTATTTTAGTTCACCATCGAATATTGGGGCATCCATAGTCATCTCATCAAGTTGTGTATCTATACTCCAATTGATATTATCGGTAGTCGATATCCAACCGTCCCTTAATTTTATTCTTTCAGGAATTCCATGTTTTTCATAAATCCACTCAGCTATAACATTTGTAATACCAGGTTCGGCTCCCATACCAATAACTGCCAATAATCCTTCTTTTTCGAAATCTTTATGCAATTCTAATTGTTTTTTAGTCATCCAAAAAAGTCCTCCTAAATCAACATAATTCACTCCAGATTTTAGACATGCTTTCATCACATTTAAATTAAAATAATATTGTGCGGCATTAATTACATAATCATAGTTTTTTACTTTAGACGAGGTCATTTCTATATCATTTAGATCCAAAAATTCATATTCAGCATTATATTCGGGCTTTACAATATCCATTACTGCGAAATCTATTCCTAAAGCTTGAAGTTCTCTAGCTGTTACTCTTCCTATTAAGCCAGAACCGCCTAATAATGCTATTTTCATATATTTATTTTATAACAAAAGTATTTAATTATAACTCAAATTATTCTCGTTTAAAAATATCGTGATGAAGTTAATGTTGTAGTTGATGATGAGGGAATTTATAAACCTCTCCTTAGGAGATGCGTTTTTGTTAGCATCTGCTAAAAGCACAAATTCAACTGCCGTGACCAGCGATCACGAGCTTAGTAAAGTTAAGGATGTTAAAGTAATACTGATTCCTAATGCATAATGCGAGGAGTTACTACTATCCTAGGGATTCACAACAAAGTGCCGATCTCAACAAGCTCTATATGCTTCGCCTCTAACAATCCTAGGATGTTCTCCAAGGTGAACATAAACTAAATCGTTTCAATAAAAACTCAATAGATCAATACCATGAGAATTTCATGCTTATACAAAATTTCTCTCAAATTTTGTATAATTGATCATCTATTATTACTATAAAATACTATGCAATAGATATATTAAAAACATTCTAAAATATGAAATATAGGCATTATTAGAATCATTAGATTGTAAATTTATAAGATAGCATATTCAGATTTTTAATATTTAATTCTATTGTATTTCCTTTGATATTATTTCTATTCCTTTTTCTATTTCTTCAGGAGAAGAATAAGAAAAGCTTAATCTAAGATATTCCTTACCATAGCCATCGAAGAAGAATTTACTGCCTGGAGAGAATATTACCTTATCCTTAACCTTAGTTAAAAGCTGTTCCGAATTTATACCTTTAATTTTTATAAAATAAAATAATCCTCCTTCTGGATAATTCCATTCTGCTTGTGGTAAATATCTGTTTAATGCTTCACACATTATTGACTTCTTTTCATTATATATTCTTTTGGCCCTCGTTAGTCCTTCCCAGAAGCTTCCATCCTTTAGAGATTCAAAAAGTAATGACAGGGAAAGAGTACTATTCCCTCCGTCTATATTTTCTTTTACCTTTCTAAATGTTTCATTAATTTCTTTATCTGCTACCATTATTCCTAGTCTAATCCCTGAAGAGAAAACTTTACTTAGTGTAGTTATGTAAACCACTCTTCCGTTTTTATCCATAGATTTTAAAGTAGGTTGCTCTGGTGTTAGAAGTCCATAGGCATCATCTTCAAGAATAATGAAATCTTTTTCTTCTGCTAATTCAAGAAGTCTTTTTTTATCTTCTAATTTCATATTAATTCCTGTAGGATTTTGCCCAGTAGGTATAACGTACATTGCCTTTATCTTTTCTTTTACTTCTATATTATAATAAGGTATAACTGGTAATTTAACAAGATCAGGATTTCTAGCTTTGAAAACCTTTATTGCACCAGCGAACGTTGGATACTCTATTGCTATTTTATCTCCAGGATCTATAAAAGAATAAGAGAAGATATATATACCTTGAATACTGCCTGTAGTTAAAAGTAGCTCTTCATTTTTTGCATTAATTCCTCTATAATTTAATATTTTTAGTAATTCCTTATCTAATTCCTGAAAACTAATCTCTGGTTCAAAGTGAATATCAGAAATTTTTTTAGGAAAAATACTAGGATCAGGTAAACCTCCGCCTAGATTATACGTCAACTTCACCATCCCCTCTAGCAGTTTTAGTAGCTAAATAAAAGAATGCAGCTGATGTAATTATAACAATTGGTAAAGACAAAAGAGTAGGAAGAGAAATTAAAGTTATTAATGTAACTACTCCGCTAAAACCTAGATACCACAATGCAGGAATATAATTCTTTGAAAAAGGTAACATTGCTATAATAGATAAAAGGATCACCATAGTACCAAAAAGAGTTTTTGGAAATCCAACAAAGCTAAATATTAATCCAGTTATTAGGAAGGAACCGAAAGATAATAATTTATTTTTATTATCATTGGAAATTACAAATAGACTAACAGGACCAGTTGAGTATGCTAATATTCTTGTAGCTACTAAATATCCTATAGATTGCTCAAAAGTAGATGAAAGAAAGAGAGTGAGTAAAGAAAACACTCCAAATAACATAACAGGCAATACTGGTATTCCTCTTTTAGGATCTACCTTACCTAAAGCTTTAGGAAAGCTCCCAGACTTAGTTAAGGCATAAGAATATCTTATCATATCTCCAGCACCTATTAGAGAGGCTCCAGAAGGAGATATTACTCCGTCTAAAATAAACAGAGCGCCCAGGGCAGGTATCCCAGCTATTATAGCACTTTCAGCTAGTGGTGCGCTCATTTTTCCTAAACTACTCCATCCAGCTGAAAGCACAGACGAAGATAGAGAAGCTATAAAAATTAACGGAACTAAAGTATAGATAATCATCGAAATTATGAACGCTATCATTATAGCTTTTCCAGTATTGCTTTTGGATTCTCCAGCATAAACCATGGCACTTCTAAATCCGCCATAAGCAAACATAGTTAAGGCTATAGCATAAAAGAAGTTAGAAAAAGATGGAGAAAAATTCATCGTAAGGTTAGATACGTGAAAGTCTAGAAATCCTACTGCCAATATGTATAATGCCAAAATTCCAAGCTTAGCATAAGTTATTGTATTTACTGAGATTGATAATCCCTTTATTCCAAGATAAACTAATGAATATATTAAAATAACTATAACTCCTTCAATTAAATACCCTAAGGGAGTAGGATATCCTTTATACATTATTGAAGGGAAAACATACGAAAGGTAATTTGCAGTAGCTTCTGCTTCTATAGGTATAGTTAAAAGTGTACCTATTAAATAAAGCCAACCTACACTGGAAGCCATGACTTTACCATGAGTAACGTTAATAAACCTTATTTTACTTCCTACAAACGGGAAAATATTGGCTAATTTAGAATAAACTATTACTACTGGCAATAATAATACACCGCCTACTAACCATACTATAGGACTTAATGGTCCAGTTAAAGACGCAGTTACTGCAGGTAAAAGAAGAATTCCAGAACCTATTATATTTCCTAATGAAAAAGCTATTAATGAGAAAATTCCCGCTTCTTTTCTAAAATTTGGATTATCCTTAATTCCTATGTTTAACTTATCAGCCATAGAATAGCAACTCAATAAATTGTATATAAGTATTTTCCATTTTTATACAAAAAATTTTTTATAGTTTAAGGTTAAAAAGTTAATATAGTTTATCAAATATATGATCAAATAATGTTGAATTTTAAAATAATTAAGTTATACATTCTAATGCTTTATGGGACAAGATGAAATATGTAAAACTCATTATAAATTAGGTATCGTAAACTTACTAATAATTATTTTGTCCTTTATATTCTAAGGAAGTATAATAGTATCTTCAGCCAGTTAATAATATGTTTATAAAAAAACATAATCTAAGTAAATGATATATCACGTTATATAAAATTATATATATTGGCAATTTTATTTAGATATTATTTTATGCCGTGCTCTTTTATATTTAATATGTCTTTATAATCTATTCATAGATGAACTAATAAGTGCAATAGAAACTATTTGAATTATGTCAAGATAAGTAAAGAAACATATCTCATATCGAAAATTCTAACTTCTAATAGATTAATGTATTATAATTTTTAGGAGAGAGTTTATTATAGGAATGGGCTTAATAAAAAATCTTGTATATCTTCAATATACTTTACTTATCATCTTATTTATTGTCACTTTCCGAATATATGAGCAATTCACGACTCTATTACTGAATGGAATAATAGAGAATTATAAGAGAGATATTCAATCAAATTATTACATCAACAAAACGTATTTGAAGGCTAAAGTCGTAATATTTTCTCTCAGATTATAAAAACAAAGTGAACTTACAAAGAAAACCTAAATGACCCTAATATATAAAGTTTTACTTTAAACTATTTAGTTTTGATGCTAAATAATGTTAAATTTTAATGTCATAAAATGTTACATTACACTAATACGTTTAAATTGTATAATATCATATTAAAAAATTATTAATAGTTAAAAAAAAGAAACCATTTACATACCATACAATTAGGTAATAAAGAAATGCAGAGTATTTCAGAAAAATGGGTTCATCAAAGCTGGTTGGATCTTGTAAAACTAAGTAAGAATAAGTTTAGTCGGCAAACTGCAGTTTGTTTGGATAATTGTGACTGTGTATAATTGTGACTGTGTATTAAAGCGTCAACAAGAGGTAATACACTATGATAATACAAGATAATAAGTTAGATAATAATTTTTTTCATATTATTTTTATGTTATCGGAACAATGTAATTTTAGGTGTATTTATTGTTATGAAAAATTTTCCAATAACAAAGTGAATGATTTGGATCAACGAATAATAAAATCTATTCATAAATTAGTATATTATTACAATATAGATAGGCTTAATATGTCCTTTTTTGGTGGGGAACCCATGTTATACTATGATAAAATTATAAAAATTATGGAATATAGTAATTCCATAATAAATACACATGGCGATATGACTACAAATGGATATTTGCTTAATAAGGAAAAATTTGAAAAATTAGTAAAACTTAACGTAAGAGAATATCAAATAACTTTTGACGGTTATAAGGATTATCATGATAAAGTTAGAATAACAATAGGCAAGACTCCTACTTTTGATATGATCTTCAAAAATATCGTATCGTATAAGGATCTAAAGGAAGATTTTAGAATTACAATAAGAATACATATGCATAAAAATAATTTTTCGTCAGTAAAAAAACTAATTGATTTATTAGCAGATTATTTAGCTGATGATAAAAGGTACGTGTTATTTTTAAGATCTATATCGCGACTTGGAGGACCTAATGATAATGCGATAATGTTACCGAGTAGAGAAGAGGTGGAAGACGCAATAACTTACGCTAAGTCAAGAGGGCTTAATATTGTCCTAAACAGAAATATGAGTAATTTCTGTTATGCTTCTCTACCAAATTCTATAGTTATTAGAGCAGACGGAAAAATATCCAAATGTACTGTAGATTTGTATTCAGATAGAAATATTGTAGGGTATTTAGATAGCAATGAAAATTTGGTGTTAGATCAAGATAAAATAAGATTTTGGGCTAGAGGATTTTTTACAGGTAATTTAGGAGAACTAAGATGTCCTCTTACTGGTGAGGATATTTATGATTGATATTTACATAGACTTTGGAGGAAATTTGGAAATAGGAATGCATAATGTAGATAAAAAGGAAATATATGTGACTACAATTCCCTTAATTCCTTATTTTTTTAATTTATTGGATAATAATTATAGAGACGATCCTAAAATAGATCTTTATTATAATCATAATTCTACAAAAAATTCTACATTAGAGTTAATAAGAAAATATATAAGTCAAAATTTCAACATAGACGATCAAATAGATAATATAATCGTTTCTGGTTCAGCTACTAATTTTTTGCAGAATCCCTTAGATAAAAGCCTTGATATAATAAGGAAAATATTCGGAAATAACTATAATAAGATTTATTACTTTACACTATTAAATACATTTATTGATATTACCAATAATAATTTCAAAAAGATAGATAACACTATATATTTACTTTCACATAAAACAGGAATTCTACCTCTTATTGAGCTATTAGGCTTGGGAGGGAAAAGTCTAATTTTTGAAATGGGTACTCAGTCTACTGGAATTTTCTTCTCTAATAATTTAACTAGTGATTTCTCATTATCTGATTTAGATTTTATGAGCTTAGGTCTATTTACAGATATCTCGTATTTCTATAACAATTATCATATTCCAATAGGACTTTCAAAAATTTTTCAAAGCGAATTATTGTTAATTATAATATATTTATTCTTATCTATAAAATCTAAAAAATTTGAGAAAGTCTCAGTTAAAACCATGGAGTTTTTAAAAATCTTTTCCAAGTTTTATTATACATATTTTACTGATTATTTAGTAAATAAAAATAATATTAATAATGAAAAAATTTTGCAAGATATAAAAAATATATTACAGACTGATTCCTATCAATTTAATACTTTAAATGAGAATAATGTATATACGATAGTATATAATTTCTATTATAATATTAAGGAGAAATTCATGACTAGAATTATTGATTTTCTTAATAAGCATGAACTTACTTTTTCTCTTAAGATGATTATAGGCGGAGTAGGCGAATATATACTTAGAGATCTATTAGGAGATCTTTCGGAAATTGATCAAATGGAATTAATTCAACTTTCTAATATTACTAATAAAGAAGTCTCGGTGCATTCACCTATTATAGGGCCTCTATTAAAAATAAGAAATATGAAACTTGAGCATACAGTGACAGTGATTTGAATATACCCAATGAGATAAAAATTATAATAGCTCTACTTACTCTTTTTGATTTCATAACTATGTTTGTAGGATACTATTTCGTAATAGACACCTATTTGATTTATAAGAATTTAATAATCTCAGCGTTAATTTGGATGTTATCAAATGCACGTAATATTTTTTCACTACCTTTGCCATACATTTTTATGAAAATAAAAAGCGTGAAAATCAATGTAATAATTTTTTCCATATTAATATCTTTTGTAATCCTTGCTTTAGCTCAGGAATTGGCTCCTTTAGAGGAAATCCTACTTGTCTCCATATTTAACTTCTTAATTGCAATACCCAGCAGAGCATTAGGATATTATGCTAGAACTCTATTAAACAAATATAATGAATTTATAAACTATAATTCTACTCTAAATATTTTCTTATTAAGTGCGACTATTCTAGCATTAATAACCGCAGGTGTCTTGAATAATTATTCATCTCACCTTTATTTACTCTTAATAATATTACCTTTACAAATAGTAATTCTCTTATTAATTACAAGATTAAACAACATTAAAATAACCCTTTCTTCTGCTAATTCCTTTAAGGTATGGATTAAATATATAAAAACTAATTATATATTTAGGTTTTTAGAAACTCGTTTCTATTCCATCACGGCATTATCTAGTGCATTAACTATATTATTTATTAAAATTATATATGTTAATAATACAACATTTTCAGAATATTATACTATAGTTTTCACTATAAGTCTAATAGCCCAGGCCGTTGGTGCCTCTATAGCCCTTAAGAAGAAGACCGAAATTCTGAGGAATCTCTTGTTATTAGTCTTTCCTGTTACATTATTTGACTTAATTTTTCCATTTATTTCTGGTAAGATAATACCTATTACTATTCTAACTTTCTTGCAATCTATGGTGGCAGCGTACGTTTACATACATCTTAATTCTATTTATCAGTATATTACGAGCAAAGATATTTATGTGAATATTTCTATTACACAAAGAGTTTTACAGCAGATCTTCGGATCTATAATGGTTATTTTAGTCTCAATAATGGCAACTGTCATAGGAGTTACATTTACTTATATAGGAATAGCATTGTTAATATCATCAATAGTATTACTTACACTATTTACTGATACTATTAAAAAGATAAAAATAGTAGATCAGAAGTAGTTACGTTCTTCTTCAAATAATAGGAGCGCATTAATTTTTCTCTTTAATGTAGTACTGGATTCTTTTTCCGTCACTATCAGACTATGTAAGTTATGAGTTGATTTTAAAAATTGAATAACACTGTTTATCTAAGAACTATTTCTAATCTAAAGAAATTTTTATATATTCTATCTCCTTGGTTTTTTCAATATCTTCATCCGTAGTAATAACTTTTCCTCCAATTTTTTTCGCCGTAGCTATAAGATAAGCGTCAGCCAATGAAAGGTAAGAATATTTACTCTTTAATATGGCAGCAGTCTCTGTTATATTTTCGTTTGGCGAAATTATCCTTATTGGCGAGTTTCTAATATACCTATGTCTTGCTATTGCAATATCTTTTCCTACTTTTGAAATATAATTATAAATAAATTCTGCAAGATTAACCTCATTCATGTAGATTATTACGTTATTATTATACATCTCCTCGAAGAATTTTTTTACGTCCTTTTTTCCTGCGAAAAATAGAGATAAAGGTCCTGCGTCAATGACGTACTTCTCTTTCAACTTCCTTCCTCCTTTCCTCAACTATAGCCTTCGCAACTTCTACGGCTCTATTTCCATCTACTCCAAATAGGTCTAGGAGAGTTTCGGGTTTCTCTATGCTTACCTTACCTTCATTAACTATAAGTTCTACTATATCTCCTTCCTTTATCCCAATCGTTTCTCTTATCTCTTTAGGAATAACTATAATTCCTTTCTTATAGACCTTTACTCTATATCGTTCCATGAATATATTTTCTCTTTAATGTATAAAAGTTTAACTTACGTAAAGTTAAACGTTTAACTTAGAAGATTTCAGAGCATTCTAAAATAAAAGTTCCATTAGAGATTCAATAAAGATTTTAAATTTTATTTTATTTTTAGATAGAAAAATTCATGTAGTAACTTTCTTTACCTTAGCAGGAAACTTTTATTACCGTATAATAACCTACTACATATTTTTCTCATATCGAGCGTAGATTCTCATTTGTTAGTAGTAAAGGTTAAATATCGATTATAAAATAAAAAATTATGGAAAATGAGATAGAGATAAATTACGATAATGTTTGGAATTTTTTACTAAATAATAAGGAAGTATACGTTATTAGAGCTAGTAATATACAGCCTGGAAAATACCTATGTAAACATAATAATAATACTGTCGAATGCTTTATTGATAAAGTTATTGATGCTAATCCAATGATAATGAGGCAATATGTAGATAAGAGTGGGTTTTCTTCTTTACAAGAGTGGATGAGAAGTGCCGCAAAAGTTCATATGAGCCATGTTAAAGGAGGTCCTTTTAGAAAAATGATGTCTCTAATGGATAAAAAATATATATTACACGTAATTCTAGTTAGTTCTGACTAAATTTCTTAATTATTAAAAACTCAAACATATTACTAACTAACTTATACTATCATTAATTTTTATTAATTGATCCCAGAGAGAATCTGGTAAATCTATGTTTTCTTTTTCAACTTTTCTTGAACCAGGAAAATGATAGAAAGGAGTAGTTGGTATTCTTTCTTTAATTTTTTCAATTTTTTTCTCATTTCCAATAAGATCTTCTCTTATCACAATGCCAAAGAACGGATTTATGTCTACGTCTTCAGAGAATAATGATGTAAGAATTTCTATAGCTAATGCTAGATTAAATCCTTTATATCCTCCTATAGGTAAAAGTGAGCCACCGTTTATTAAGTCTTCAGGTTTTGATGTTCCTTTACCTTCAGCATTTAGAATCATACCTTCTTCTATTTTTTCTCCTCTATATAATGAACTTACTACTTTCCCAAAAGAAGTTTTACTTAATGCCATATCTATTGTAATAGGCGGATCTCCAGGGAAAGATATGCTTATTGGGTTATTTCCTAATATTCTTCCTTTCATTCCTTCAAGAGAAATAAGTGGTGGAGTTCTTGCTACTAAAAGTGTTATAAATCCTTTTTTTGCAAAGTTTTCAGTAAAAGAGGATAATCTTCCTATATGCGATACGTTTCTGCCTAAAAATATCTTGAAGTTTTCCACTTTTTCCTCACTAGCTTTTCGCAGTATAACTTGTCCAAAAGTCATTTTACCATCTATTTTTATGAGAAAATCATTACGTTGAATATCTATTCTAGCTTTAGGGTTAATTGGAGGAATTATTGTACCTCCTAGATTTACTTTTTCTCCTTTAGCCAGTTTTACGTAATAAGGAACTAATTGTACTCCATGATCTTCATGACCAGCTAAATTAGCATTAACTAGTTCTTCTGCCAATATTTTAGCATATTCATCGAAAGTTATTTTCTGAAATATAGAAAAAACAAGACTATAGAGGTCTTCCTTATTTACTATCATAAATTATAATGAAAAGATGTTAGATATAAGCTATTAATATGCTTATATAACTTCTAATATTTTATCTAAAATCCTAAATTAGAAGAAAATATTTTAAAAATATCCTTAAATTAACTAGAAACTTTTTATTACTCTTAATATTATTCTGGAAGATTTTCACATTTTACCTAATGTCATGAACCTTTTTTATAAGAAGTTTTTACTGCCATAATCTAAAATGATAAAATAAAAATTCTCTTTAATCTGGAGGAATCTCCTTTCCTATAAGTTCGACATCTATTCCTTCTTTTGATAATTTTGAATTAAAGTAGCTATATAGAAGAAATATAGCGCCCATAATTAGTGCAATGATGAACATTACTTCAAATCCTACTTTAGAACTTATAACGCCATAGAAAGAGTCAGATAAGAGAAAGATCCATCCTATTAATGATATAGTACCTAGAACGGAAATTAAAGGTATTCCAAGGATTTCTTTATTTACTGGTGAAGGAGCATTAACATATAATTCATGCTTAGTAATAGGAAATTCTATTGCTGATATTGCAGTAAATATTTGTAAGAAACCTAGTGCTATACTAAAAAGATCGGTAGCAACATAGAGCCCTAAAGGAAATAATGGACTTACCATTATAATTGAAATAGCTATTACAGTAGCAGTTACAGCATAACTAACTATTGGAATACCACTTTTTGAAATATGAGTTAATTTTTCTGGTAATAATCTATCAAAGGAAGCTGCGAATATTTGTCGTGATTGAGCAACTACTGAAGGTAGTATGTCCTTTATCGGGAATAGGAACATTATAAAACCTACAGCTATTGCTAAGATAGAGAAATTACTTAATGCTACTGCTCCTAAAAGAGGTATTGAAGGAGTTATGCTTAAGGAAGATGATACATATCCTAGCCTAGAAATAAAAGCGGATCCAAAAAGATGTTGATAAGAATATATCGTTAATGCCATTAAGAATAATGCTACTAATCCTGCACCTATTGTAGCAAAAAATAAACTTTTTCTGGGAGACTTAGCATCTCCTGCTAACCACCCTCCAAAATGGCTAAATCCACTCCAAGAAGATGTTAGTGGTATTACAGCAAGTAACGTTGAAGCTAAGCTAAAAGATATTAATGATGAAGACCAGCCTTTTTGATTACTAAGTAAGATTATATTCTGATAAGAAGAAGGACCGAAAACCTTATTCCATAATGCTGGTGCAGATGATGGATTCTCAAAAAGCATTGCAAAATCAAGTATTAACAGAAGTGCTAATGGAATATAAAATGCTACAAAAATAGATAATTTAGATAATCGTATGCTGAAAGAGTCTAATAATGTAAATAATATAGTTATAATTATTGCAACAATTACTATATGAATAGGTGAATCGAAATATTTACCTATGTTAACAATACTCGGAGAATGCGTTACTAGTCCTGCAATAGTTAGAGAATCTGAGAGAAACGATGCTCCGATGTAAGCTACAACTCCGATTATAATACAGTATCCTAACCAAGTAAATATATTTATAAAATAGCCTAATCCTGGAGAAAGTATTCTGCTTATCCAAACATATTGTCCACCGATTTTTGGCATTACAAGACCTAAAAAATATATTACAGACGCCGCAGCAAAAAGAGGAATAGCATCAATAAGTAACGACAATAATGGAAAACTCCCTGGATATTCATAGGTAATGCCTACAGTAAAAAATAATATTCCAGAACCTATAGAAAATGAGAGAACTAGCGTTAGCATATCTAGACTGCTAAATTGTTTAATTAATCCGCTAGATTCTCGTATAAATATTTTTTCTTTATTCTTATCTTCATGGCTCATTTATATCAATATAGTCACAATAGTTAATATTATATAAGCATTTTTTACATAAAAATATGTATACTAACTATAAATCTTTAAATTATAATATACAGAACTCTATAATATTAATATTTTAGAGAATTCCTTAGAAAGCACAATAATTTCCTTTCGTAAAGTAGTGAGAAATGAGATCCCTCTTCAATTACTGAAAACATAGGTAATTGTAGCTTTATGGGATACATTAATTAATACTATTTAGTAGATAGGGCATTATTAATATTGTTTCCATGGTTAATGCTTACTATTTAAAAGGGGTTATAGGAGAAATAAATTGGGTATATTGCAAAATGATTATAAAAGATGTTAAGATAATTACAAACGATGGAATAATAGAAGCAGATATTAAAATTGAAGATAACAAAATTACTAAAGTTAGTAAAATTATTCACGAAAAAGGAGAAGATATAATTAGAGGTAACGGTAAATTACTCTTGCCTGGAGGAATCGATAATCATGTTCACATTTTTAAAAAGTATTTAAAGGTTCCTACGTCTGACACTGTTAGAAGAAGTACTATAGCTTCAGCCTTTGGTGGTACAACAACAGTGATAGATTTCGCTTTTTCAGATAGATCTCCAAAAGTTGAGGAAAGAATTGAACAGTTTAAAGATTCTTTCGTTAATTATTCTTTTCATATATTTGCGTCTGATATTACTGATAATTTAATTAATACATTAAAATCTGGATTTAAGTCAGTAAAATTTATGATGATAGAATATGCAGGAATTAAAAGTTCCTTAAGTGGATTGAGAAGAATAAATGACTTGTTGAAAAAGTTTAATGGATATATAATGGTTCACGCAGAAGACGAAGAGTTAATAAAATCGTTATCCGAAGGTAAAAAGGGAGATCCTAAACTTCACTTATTGACAAGACCAGAAGAGACAGAACTCTCAGCAGTCTTAAGAGCTAGAGCTATAGTAGATAATGGTATAATAGCCCACGTAAGTTGTGGTAGAACTTTAGATTTAATTGAAGGAAAACTTTTGGGAGAGGTAGTTCTTCATCACCTTTTATTAAGTAAGAAAGTTTATGAGAGAAGTGATTCGCATCTATTTGTTACATCACCTCCAGTTAGGGATCCAGAAGAATTGTGGAAAAGGATAAATAAAATATATATGATAGCTACTGATCATAACTGGTTTGATAGGGCTATAAAAGAAGAGCATAAGGAGTTTCCAGATCTCGTACCAGGTTTGCCAGGAGTAGAGTTAAGAGTTCCTATGATAATAACAGAATTTATGAAGAGAAAATTACCTTTAAGTCTTGCAGTGAAGTTATTAAGTGAAAACCCTGCAAAGCTTAATGGTCTAAATAAAGGTAAAATAGCTGAAGGTTATGATGCAGACTTGGTAATTTATAACCAAGAGAAGAAATGGAAAATATCTGTTGATAATACTCATATGGCTGATTGGACTCCATACGAAGGTTACGAAGTTATAGGAAAACCAGAAACTGTTATAATTAATGGTAAGATTGCAATAGAGAATGAGGAAATTAAAGATGAGTTCTTCACAGGTAAGCTAGTTAAGTAAAGCTTATAAAAAGTTGCAATAATAAATTTATGTATGGTAAAAGTAGAGAAAATTTTATCTCAATATTTTGAAGTATACTCTGATGAAGAGAATCTAGAAAAATATTCTATAGATTATGGTTACTTATCTCCAGTATTATCGTCAATTAGAAAGTTACCTTCTGCTATAATAAAAATAAAGAACGAGAATGAGATAAAAATACTAATGGATATAATTAACGAGTATCATTTTCCAATAATCGTAAGAGGAGCAGGTAGTAACACGTTAGGTGAAACAATTCCTATAAAGGAAAATACTATTGTAGTAGATATTACTAAGTTTAAGGGGTTTGAAAGGAGAGGGGGCTATTTAATAACTAAAGCTGGTAGTGAGTTTAACGATGTTGGTATAGAGGACTTACCTACTGTTCCCACAAGTTATTACATGGCTACAATCGGTGGTTACGTAGCAGGCGGATCTTTAGGCTTTGGATCTTTAAGAAATGGCGCAGTTTGGGATAATGTTGAAGAAGTCGAAGTTTATACTCCTAAGGGTTTTTTCTCTCTTGAAGGTGAGGAAGTATATTCAATAGTACAATCTGCTGGAACTACTGGAATTATAAGTAAAATAAAAATGAGAATCGTAAAAAGGCCAGGAAAAGTTAGAGTAATAAGGAAATCGTTCAACTATTTGACCGATGCATTAAGTTTTTCATTAAAAATACTTGACGATGCAGAATTTATTAGTATAAGGAATAAGCCTATGGCTGAGTTAATTGAGCCTGGGAAAAATTGGGAGAAGTGGAACGTTATAGCGGGAATTTACGGTGAAGGCGAGGAAGTTTCGCTAAAGGACGTTGTAACTACCTTTGCTGGAACATATTTTACTGCAGTAAACAAAACTAAGGTTAATTATAATTCTCTAGACATACCTTTAGAAAAACTAAATTACGTTGATAATATAAGGGCTATGATATCTTGTGAATTATCTAGATCTAGGAAAAAATTATTTTCACATACTTACTTTTTGGACTATGATAAGTTACCAGAGATTGAAGGTTATAATTTTAATCTTCATTCTTACAAGGTTAACGATAGAGTTGAGGTTGATAGGCTAAAGAAGATGATAGAGTTTAAGGAGAAAGTAGACGAAGAGGATTTACTTAATCCAGGAAAGTTGGTGTTCAAATGATATTAAAAAATGCTAGAAATTTAGAAGGAAAGAAAATTGATATTGAAATAAATGATAATAAGATCGTAAAAATAGCTGATACGCTGGATGGAGAAGGAATAGACTTAGAAGGAAGACTAATATCTCCAGCTCTTATAGATTCTCACGCGCATATTGATAGTAATTTTCTCCTTGATTTATGTAAAGAAGCTCCAACTCCAAAGTTTGAAGAAGCATTGAAAGTACTAATGGAGTGTAAAGAGAATTTGTCTGAAAATGAAATTTATTCTTTAATGAAAAAATCTGTATTATATTATATAAAATCTGCCTCACTTTACGTCAGAACTCACTTGATGATAGACGGTCAAAAATGGAGAGAAAGGCTTGATAGTATAATGAAATTAAAAGAAGAATTCAAAGACAAAATATTCATTCAAGTTATAGGTTTTATTCAAAGTTATGATTATTTTGACGATGAGACAGAAGAACGAATTTGGAAGGCAATAGACTTTGGAGTAGATGGTATAGGTGGACAGCCACATTTACAACCGTCTTTAGAAGACGGAATAAAAATGATAAAAAAGATATTCGACATTGCCACGCAAAAGGGAATTTTAATGGATTTTCATGCTGATTATTCCGATGATCCTAACTCTAGGTTTAGCGAAGTAATAGCTTCAGAGACTATGAAGAGAAAATATTTCAATAAGGTTTCGTTAAGTCACCTTCTTGCTATGCATTCTTATAATTCTGATTACGCTTTAAGGCTAATGAGATGGCTAAGGGAATCAGGCATTAGCGTTATTGTTTCTCCCATTACAGAACTTGAAGGGTCTGGGGCCTTTGAAGATTATCCTAAAAGAAGGGGAATTCCAAGAGTTAGGGAGATGATTTATAACGGAGTCAATGTAGCCTTAGGTCACGATGACATTCAAAACCAGCTAAATCCTATAGGCGATGGAGATTTATTGAAGGCTAGCTTTGCTCTAATGATAGGAGATTATATGTACTTTTCTCAGTTTTTTGGAGATATTTTTAACCTTATGACTTATAATGGAGCTAAAGCACTTAATATAAAAGAATACGGTTTGAAAGAATGTATGAAAGCTAATCTTGTAGTATTCGAAGGAAAGAATGTTAAGGACGTTTTAGTTGGAATAAAACCTCGACGAATGGTTATTAGCAACGGTAAAATAGTCTATGAGAACTCTTATTTAGAGTCCATAAGAATTTAATCTCTTTTTTAAGAACGGCCTCTTTATTCTAGCTTTAATTACTTCATCTTCATTAACGTCAGCGTAGATTACTTCCTCCTTTTTCCCTGATTTACTTATTATTTCTCCCATTGGAGAAACTATCATAGATTCGCCAAAGTATTCATCGTTTTGTTCAGGATATTCCTTGCCTATTCTGTTTATACCTACAATGTAGGAGGTGTTAAATACTGCATGAGATTTTAATTCTAATTCCCAGATCTCCTTAAATGCTGCAACTGAAGGGATAAAAACTATCCATGCTCCTTTAACTACCTCTGCCCTTACAGTCTCTGGAAAGTGTCTATCGTGACATATTACTGTTCCTATAGTAGCACTATCTAAATTAACAACTGGAAATCCTAAGTCGCCTACTTTAAAGTAGTAGTATTCATTAAACTTGTCTTCCTGAGGTAAATGTGTTTTCCTATATTTACCTATAATTTCTCCTTGATCATTTATTATAAAAGCTGTATTATAGAACTGGAGATTATGCAAATCTTTCTCAAATATTGGAACAATTATATTTATTTTCCTCTCTTTTGCTACTTCTCTAAATTTTTGTATAGTGTAACCTCTTTCATCTTCAGCAAGCTCAAAGTATTTAGGATTTTGTTCAAATGGAAAATAAACTGTATTTGAAAGTTCGTCTAAAGATACTATTTTAGCTTGATTATCTGCAGCCTTATTAACCATTTCTACTTGCCTTTCTATATTGTCCTTTTTATCCCACGTCATATAAGTTTGAACAAGAGCTATACGCATAAGATAAGAGAACTTATCATTAAAATAAAGATTTCTATTTTACTTAGTCATGTAAATACATAAGAATAAATTTGTTTTAAATTCTTACTTGTGTATGTAAATATACTATAAGCAAAGTATATATATGATGATTTAAAATAAAAATATTCTAATATGGTTTGGACAATAAATTATGTGGATGATATAACTGTAAGTGATAACTACGAATATGTAGCGTTTATAAGATCCCAACTAGATCACGCAAAGTTCTCTATATCAGGTAAAGCATTTACTTATGAAGATCTTAAGGAATTTAAGATACCTACAGTTTACGATAAGAGTTCCTTAAGGATTCCAGAAGTTCCACTACTGCCTAAATATAAGGCAGTTTACAAATTCCAACCCCTTGCTATTGTTATAGGCAAGGATAGATATGATACTTTCGACAAAGCTGAGGAAGTTGAAGCTAAATACGAGCCATACGATGGTCCATTATATGAGGAAGTTCCAGATAACGTAATTTATAGAGATTATAAAAAAGGTGAAGTAAGTTCTGAAAAAGAATTCAGCTTAAGGGTAGATTTTAATAGGAGTTCTCAATATAGCATGGAACCACGGGTTATAGCTGTAAAAAACCAAGGAGATCAATTAATTATTCATTTATCTACTCAAATCCCTACAGTAGTGAAAATGTTAGTATCTGAAATGCTAGAAATTCCTCAAAACAGAATATCGATAGTGGTGCCTAATGTAGGCGGAGGCTTTGGGCTAAAGCAGGATATTAATTACGAGGAACTTTCAGTAATAGCTTTAGCTTTTAAGTTAAATAAAAACCTAAAATGGGTAGAAACAAGAACTGAGAGCATTCTGACTTCTCAAGCTAGGGATCAAGTTCATGAATTAAAAGTAGGTTACACAGATTCAGGAAAACTAAATTATGTTCTAGATAAAATAACATATAACGCCGGAGCACATCCTTTGCCTTTTACAGGAATTTCGCCATTATTTGTAACATTAAATACAATGAAAAGTCTTTACAACTTTGAATTTTATTACGACGCAGAAGCTAAGGTTAGTAATAAACCGCCACAAGGAGCTTATAGGGGCTTTGGGAGACCAGAGGCCATACTAATTATGGAAAGGATAATGGACGAAATAGCTAAAAGGACTAAAATTTCTCCAATAGAAGTTAGGAAGGTTAACATCAAAGAAAAATTGGAAGGTGACGTAGGTAACTTAAACGGTGTAATAGATAAGTTATATAAAAAATATGAGGAAATGAGAAGAGTCTATGGAAAAGGAATAGGGATAAGCCTTTATGTACAATATGCTGCACCAAATTCTGAAATAATGGTAAAGCATGAAGGATCTTTAATTCCAGGCTATGAATGCGTAAGAGCAAGGTTAGATTTAGATGGTTGGATAGTAATAGAGACTACTTTAACTAATCAAGGACAGAGAATGGATAGTTCCATAAGGAAATTGGTATCCAAAGAATTAGGTTATGATAAAGTCAAAGTAGAACTAGCTAAGACTAATATTAATGGTTACGGAGTTTGGGCTAGTAGATCTATGCTAACTGCAGGAAATGCTTCAATATTAGCAGTTAGAAAACTAAAGGAAATTGCAAAGAAGATAGATGAAAGCGTTGACTGGGAAAAAATTTCAAGAATAATGAGACAGGAACCTTGGAAATTAAAGGAACTTTCAGTGGAAGAATGCTACGAAACTCCAGAATTTGTAGGCACAGTTAGCGGTCAAATAATAGCAGTTATGAAAGACGATTTAGGAAATGTTAAACCCTTGTATAATTACATAGTTGCAGACGTCGGAGTTACAGGAGACGACGAAGTAGTTAAAGGGCAATTAATTGGTGGAGCTCTACAAGCAATAAGCGGATCGTTCTTAGAAAATACTGAGGACGAGATTGAGTATTCTATAGCTACTGCAGTAGAAGCGCCTAAGTTCGAGGTAGAATTATTACATACCCCTTCAAATACTCCAGCTGGAGTTAGGGGAGTAGGAGAGAATAGTATTTCTGGAGGTTATGCCTCTTTTATAAATGCAATAAATGATTTAGGCTTAGAATGTAATAGTGTTCCATGTAGGTTAGTAAAATGATATTTAAGAACGCCAGAATAATTACCTCTAATGGAATTATTGATGCAGATTTTAGAGTAGAAGAAGGTAAGATTAAGGAAATAAAAAAGAATATTATACCTAAAGATAATGTAATTGATTTGTCAGGATACTATGTTCTTCCAAGTGTTATTGACGGTCATACTCATTTTAATTCCCGTTTTTTAGGAGCTAGAGAAGTTATACCAACTGCAGACGACTATAAAAGTGGTAGTGAAGTAGCTTTAGCAGGAGGAGTAACTTCGTTTATAAATTTTATAGATCCTGCTAAGGAAGATCCAATAAAAAGTGTGAAGACTGAGATCGAAAACGCTACTCAATCTATGACAGATTATTCCTTCCATTTAATAGTAAGAAATGGAGATCATATAAAATATCTGGACGAGATATTTAACCTTGGTATCAAGAGCGTTAAAGTTTTCATGGCATATAAGGGAAGTATGCAATTAGACGATGAAAATATAATGCGGGCTATGAGAAAAGTTAAGGAGTTAGGAGGGGTAATGGCAATTCATGCAGAGAACGGTGACGTAATAGATGAATTACAAAAGGAATATGGTGATAAAGATGAAGCAATTTATCATGCATTGACAAGGCCCTCAGAAGTGGAAGAGGAGGCTGTAAATAGGGTATCTATGATGGCTTATTTAACTAAAGCTAAAGCTTACATAGTACACGTTTCTTCTCCTAATTCATTAAAAATAATTCAGTCATGGAGAGCAAAGGGTACAGAAGTTTACGCAGAGACTTGCCCTCATTACCTAATGTTTGATGAAAGTTACTATAATAGACCAGACGGTAAGAGGTTCATAATGTCCCCACCTTTAAGAAGTAAGGAAATGAGGAAAGAGTTAGTAGATAGTTTAAAAAACATGTTTACTTTAGGCAGTGATTACTCTGGATACATGTCAGTATATAAGGATAAGGCATTAAGTTATATAGAAGTACCAAACGGTGTCGCGTCAACTGAATTCCTAGTCCCTACTATAATGAGTTTAATGTTTGACGGTTTTATTTCGCCAGAACATGTAGCTGAGATAACTTCTGAAGACCAAATAAAGCTTTATGGGATTAAGAACAAGGGATTCAGTGTAGGCTCTGATGCAGACTTTGCTTTAATAAAGAAAGAAGAATGGATAGTTAAAGATTGGCATGGTAAAATGGATCATTCAATTTATGAAGGTGTAAAATTTAAGGCTAAGGTTATAAGAACTTACCTTAAAGGAGAATTAGCGTTTGAAGAGGATGTAAAAGGATCTAAAGGCGAGATGCTGAAGAGATAGAGAAGGTAGAATAATGACTATAATAAAAAATGTGAATATGATGGGCTTAAAGCGAACTAACATAACCTTAGATGATAAAGCTAATACGATAATTGACGCTAATGGTAGAATAGCGTTTCCATCTTTTTTTGATATGCATGTACATCTAGAGAATTCTTTAAGTTTAAAAGATACTGGCGAAAATGAAAGTGGAACTTTAGAAGAAGCTGTAGAAAGATGGGCTAAAATTAGAGATTCTCTATCTTTAGAAGATATAAAAAATAAAATTAAAAAATCTCTAATCTTAGAGATATTTAATGGTATCACACATATTAGGAATCACGCTGATACATGCTCAAAGAATATTAATTCTGTTAAGGCTTCTTTAGAGGTTAAAGAGGAAATGAAGGACTTTATTGACATTCAAGTAGTAGCTTTTCCTGAGCAAGGAATATTTAACTGCAATGAAGAGGAGTTTAAGAAGGCTGTAGAGATTTCTGATATAATAGGAGGTAAGCCAGATGGTGAGGATAATGAGGATCTTGGAAAAAGACATTTAGAGTTAATTTCCTCATTATCCTTAAAATTAAATAAAAGTATAGACTCTCATATAGATCAAGGAGATGAACCCACAAGGTTTTCTGAATATCTTTTAGGATTAAGAAATAATCACGTAGCCCTTTCTCATCTTACTTCAATTCATTCTGATAATGACGAGTATGTTTCAAAACTAATTAAATTAATAAAAAAGAGGAATGCCTCAGTAATTAGTTCTCCCTTAACTACAGTATTCCTTAATGGTAGATTTGATGGATATCCTAAGAGAAGAGGATTAACAAGAATTAAACAACTAGTGGATGAAGGAGTTAATGTAGCATTAGGTCATGACGACTTTCAAAACCCTTTCTTTCCCTTTGGATTTGGAGATATAATTCAAGCTCTATGGATGGCTATTCTAATGGAGCAGGCAAACTTAAAGGATACTGAAGATTGGATAGGCTTAATTACAAAGAATGCTGAAAAGGAATGGATATTATCTAGTTATCTTAAACCTTCAGAGGACATTGTTATTTTAGATGCAAAAAGTTTAAGGGAGCAGTTTTCTACTCTTTCTCCAAGATTTATGGTGATTAGAAAGGGTAAAATAATAGCTTATTCAAACAAGAGCGGAGAAGTAATCTTAAACGGTAATAAGATAAATCCTTATGAACTTATCGTTTAACTAGTTGCTATATATCTTATACTTCTGATCGTTTAGTACTTACTAGTGTTAGTGAAAATAATTCCAAATAATGACTAAGATATTGCAGAATCTATACAAGATTTAAAATTAGGAATAAAAAAAGGAATTATGTTTCTTTTGATTGTGGTCTTATTTCCATTGCTATATCATATTCTCCAGCTTTAGCCAATTTCTCTGGATGTTTTTTCAAGTAATATATCCCTAGAGGGAAGCCTACGGCTAGAGGCCATACAATTCCAAATATCCCTGCGCCTAAGAATGCATAGTTAAGTAAAGAAGGAGAAGATATAGCAGTGCTTAATAATCCCTGCATACTGTAATATAATACAATTACACCTAGGATACTAGATATTATAGGAACTACTCCGTGTTTGAATATATCAAATTGTCTCTGTTTATTAGCATAAATCGTAAGTCCTATATTAGCAAACATGTGTTCAAATATTACTCCAATACCTGCAATGGTCAATAGTAATAAGGCTCCATTAAAAGGTCCTAGTAGTAAACCTGCCGCAAGGCTTGATCCGAAACCTACTCCTAACCATAGCATTAACGTTCTGACTGGTGTTTTCCTTTTTGGATGTGTATAGTAGAACCATCTTGGAATTATTACTCCGTCTCTAGCTGCGGAAAAGGATATTCTACTAACTACATTAGAATTTGCTATTATAAATGATAAATAACTATTTGCCACAAATATTGTTAATAATGCGAATCCGGCTATTCCTAAATATTTACCAAATACTATTAGACCAGGATCTGGAGATGATGCAAAAGCAGATATATTTCCCAATCCCCAACCTACCGTTAATGCATATGCTGGCGGTATTAAAGCGAATCCTGTTAAAAGGAAAGCGTATAGTATAGATTTTCCTACATTCTTTTTAGGTTCCTTTATCTCTTCTGATACCGTTATTACTGTGCCTAATCCTGTAAAATCAAGAATTGAAAAGACCATTCCTAGAAATACTAAAGGTAATGCGTATGTTGGTGGAGAAAATACGGAAAATGTATTTAATGATCCAAGTTTGAATATTATTGCTATTGAGGCTAAACCTAAGAAAAGAACTTCAGCTAATCCAGTATAAAATGCGTAAGATAAGGATTCCTTTATACCTAGATAAGATATTATAAAACCGTAAGCAGCTACTACACTTGCTAGACCTACCCATACATACGGTAAGGAACTAATAGAAGGAGAAATTAAATAAAAGAAGCTAGCGAATCCTAATATTCCAAAGGCAGGTCCTCCTAACATTTCGTTTTCAGTGTAAGATAGAAATGTAGGTATGGAGAGTATTTTAGATCCTAATGATGCATAAGCATAATATCCTCCAGCATTTGTCCTTAACTTGGAAAATTGATAAGGAGTATTCATCCACATTCCATAAATTAACCACGCTATTAATACAGCTATTACAGTATATGCTCCTGCATAAGCTACTGTACCGGTTAAAAGTATTGCCACATCGCCAGCTGGAGAAACGTGTGATATTGATTGAAATACTCCATGCATTAAACCTACTGCATTATGTTTTAATTTATACTCATTTTTTTGAATTTGTGAATTTGGAAAATCCTTTTCTTCCATACTTTTCGTAATTGATCTTGTTTATTATATTTTTATTTTGTAATCTGTAGTAACACTTTGTATTACTTCTTAAACTTTTAAATTCTATCAGAACACTACCAGTGTATGAATAGATTAAGTTATGAGAACGCCCCTAGAATATTAGTTAAGCCACCAGGTCCAAAATCATTAGAACTATTAGATATCCAAGACAAGTACGAAACTAAATCAAGGATTTACACTCAGATATTTAGAATGGCTGTTGATGATGCTAAAGGTTCTACTGTTAAAGACGTTGATGGAAATATTTACATTGATTGGTTTTCTGGAATTAGCGTTTTAAATCTAGGTCATTCAAATCCTATAGTTATAGACGCTATTCAAAATCAGCTTAATAAAATAGATCATATAAATGAAGTACCTACAGAGGCTAGAGTTCAATTTTTAAAGACTCTTGAATCTACATTACCTGGAAAGCTAAGGAACAATGCTAAGATAATGTTTACAGTAACTGGAGGAGATGCATGTGAGGCCGCAGTAAGCCTAGCGCGATATATAACAAAGAAGAAAATCATAATCGCTTTTAGTGGATCATATCATGGAATAGCAGGAGAAATAGCAAGTGCTACTGCTAATTATCATTATAGAGAATATGAGAATCTAGATTATCATAATTTTTATCATCTGCCATATCCTTATAAATACAGATTTCCAATAAAAGTAAATGATGAGGATATAAGCAAGGTTGTAATCGATATGCTAGAAAATATTTTAAAGGATAATTATTCAGGAATAGGACCTGTAGGCGGAGTTTTAGTAGAGCCTATACAAGGAGAAGGAGGATATATAGTACCTCCTGATGATTTCTTGCCTATGCTGAGAGAAGTAACAGAGAAATACTCTATTCCACTTATAGCAGACGAAGTCCAAAGCGGAGTAGGGAGAACAGGAAAGATTTGGGCTAGTGAACATTGGTCTATTACTCCAGATATAATGTGTATTTCTAAAAGTATTGGTGGCGGAATACCAGCATCTATGATAGCGTATAAAAAAGAGTATGATGAATTTTTACCTCAAGGATTTCATTTAGGGACATATAGAGGAAATCCTCTAGCTTTGGCCGCTGGTAATGCAATATTAAATTACTTACAAAATTCAGAAATACTTAATAGAGTTCAAGAAAAAGGTAAATATATAGTAGAAAGATTTAATGAAATGAGTTATATTTCGAATTATATAGGAGACGTAAGAGGTAAAGGATTTATGATTGGTGTAGAATTAGTTAAAGATAGAAAAAGTAAAGAACCTGCTACTGATGTAGCGATTCAACTAAAGAAGAAGCTATTTGAAAAAGGATTGCTAATGCATACTTGTGGACATTATGGTAATGTGATGAGATTTATGGCACCATTAACAATTGAAGACGACCTTATAGATAAGGGTTTAGAAGTTTTCGAGAATAGTATTAAGGAAATTGGAAATACGTGAATTCTTATGCTTAAACTAATAAATTTTTCATCAAACGTTGTTTTTGGTAATAATGTTATATGCTCAATTCCTAGTGAAATGGAATCTAAGAACTTTCCTAAGGATATCATTTTTATCTCAGGAGAAAATACTTTTAAATTATTTGGAAACAAAGTATTAGATAAAATTCAGAAAAGTGATTTTCGTGTTATTAAAGATATTATAGGCGTAGGAAAAGATAAGGATACTATAGATGATCAAATCTCTAAGTTTCCTAAAGATAAAAAATATACAATAATAGCTGTAGGTAGCGGTTCAGTATTGGATGCAGGAAAATATATTGCGTCAGAAACTAATTCTCCCTTAATTTCTATTCCTACTTCTCTTTCAACTGATGCAATAGCTACTAGTTTTTCAGTACTATGGAGAAAAGGCTCTAGTATAGCTATAAAGACGGTAGCACCATCGCTAGTCATTGGTGACTACCAATTACTGAAAAAGGAGGATAAAAGGTTTATAAAAGCAGGTATAGGTGATATGCTTTCCAAACTTTCTGCACTTTATGATTGGAGATTAAGTTTTTGGCTTGCAAAAGAAAAATATAATGACTTTGCATATAGTTTAGCTTCATATACTACTAAGTTGATTATAAAAAGGTTAAATCATATTTTGAATAGTGATTATATAGGTATAGAAACTTTATTTCTTGCTGAAGTTACTGATGGTTACCTTATGGAGATTTCGAATACTACTAGAGTAGCTGCTGGTAGTGAACATCTTTTTTCTTTTGCAATGGAGACGCTTGGGGTAAATCTATTACATGGAGAATTATGTGGAATCGGGACGGTAATTATGCACTTCCTACAAACTGGATCTCACAAGGCTAGAAAAATATTTGAAAAATCACATTTCCCCATTACTGTTAAAGAGCTAGGTATTAATAAGGAGACAATAATAAAAGCGTTATCAATATCTCATAAAATGAGAAATTGGTATACGATACTAGGTAAAGAAGGCTTAACTGAGGGCCAAGCAGAAAGACTGGCTAAATATGCAGGTGTAATCTAATAGGAACTTTATTTATGAATATTCATTATTACGCTATTCTCTTTTATTTCGAAATTTACCTTTAGGTTTAAAGATTCTAAAATTCCACTATAGTAATGAGCTAGAATTAAAGAGTACATTCTATTTAATGTATGATGCAACAGTACTGTGTAATTCTCCTTTTCTTGAGCATTAAGAATTGTAATGCTATATAATCCAGAATACTTGGCGATATATTTAAGTAAAAATATAAATATATCTATTTTTTCACAATTTTTACATATTTCAGACCAAAGCATTATATATTCTCTTCCCCAATCTTTTCCTGCAGAATTTGCAATACTAATAATATCGTTCTCTGATTTTCCTATACTATCTATGAGTAGTCTAAAAAATCTGTATGAGATCGTCACTATATTATCTTGACTAACTTTTTCAATTCTATATGTATAATATACATACTTCTCTAGTTCTTCAGCCACTATCGAATTAAATTTCATATTTTTCTCATATGCTATTTCTTCTAACTTATTAGCTATATATCTTGGTATTCTTATAGTTTTTAAAACTGTAATTTTAGAATTATTTCTACTTTCAACTTGTTTTAAATCTAATGTTCCCATTAATATGCCATGTTTTTTACCCTATTTAAGCGTTCTTTAGTATACAAGATTTAGTTAATAAAAATAGTAATGAACTGATATAGAAGAGATTATAAAGTAATAATTAGATATATTTGTTAATAGCTAAAAATTACAAGTTTTTGTATACATTGAACTCCCAATCTGTAATTACACTATTGTATTCTTCTAATTCTTGCTTTTTAACAGCTATAAATTCGTTTATTATCTTATCTCCTATTAAATTGACTAGTCTAGTATCCTTCTTAAGTTCAGTTAATGCTTCATTAAGATCTCTGGGAATTTCCTCTAGTTCTTTATTTTCGTAAGCATTATCGCTTACAGGTTTTGGAGCTTTTAGACCTCTTTCTATACCGTCAAGTCCTGCAGATATAAATGCTATAAATAAGAGGTAAGGATTTGTAGCTGGATCAGGAACTCTATATTCTAATCTTAGATCTCTCGACATGGAGCTAAATCTTGGAGTTGGAATTCTTAATATTGTAGATCTATTATTCGATCCGTAACCTATTTTTACTGGAGCCCACATATCTGGAATTCTTACTAGCCTTTTATATGAATTCACTGTAGGTGCCGCAATGGCAGTTAGTGATTTAGCATGCTCAATTATGCCTGCTATAAAAGAATATCCAATTTCGCTTATTTTTAGGTCATCTTTATCAGAATAGAATATATTGTTTCCATTACTCCATGCGCTTAAATTTAGATGTAATCCAGAACCTGGATATTCCTTAAATGGCTTAGGCATAAAATTTATATCGTAATTATATTTTGCAGAGATCATTTTGGATATTTCCTTAAAAAATATTAAAGAATCTGATGTTTTAATTGGATCGGAATGCCTTATATTGAATTCATATTGTGATGGTCCACATTCCTTTAATGTTTTCATTACTCCTATACCTATGCCTTTTAAGGTATTTTTTAATTCAATAAGAAATTTATCTATAGAAGAACCATAATATCCTCCTACTTCATAACAAGATACGTCATTAAGTGGCTTATTTTCCTTTGTTACATAGAATTCATATTCAAAAGCAGAAATAAAATCTATATTAAACTCATTTTTAATTTTAGTTAGAGTGTTTGTGAGTTGCCATCTTAAGTCATGTTCCCATGGTCTACCAGACTTATCATACATTTTTCCAATAGTTATTGCATATGGCTGTACTATTGACAAAGTAGAAATATCAGGAATTATTATAAAATCATCTGAGTTAACGCCTAAATTTCCATTTCTAGCTAAACTTCCAGCTGGTGTATAATTCATAATAGCCATTGCAGTACTAGTTCCATTTTCTAGGATATCGTCTAATTCGTCTATATCTTCGGCTTTACTTCTTATAAACCCTCCATAATCAACGAAGTCTATCTTTAGAGTATCTACTCCATTTGATTTTAATTTTTTTAAAATATCTGTATATTCCATTAACAAATAAAGAGATTTGGTTCCTAATAAAAAATATGTATTTCAATGTATTACAAGAAATAAGTAAGATCTTGCAAATTGATTGAATGAACGTCTGGTAATACAATTCTTTTAACTAGTTTCATATTCTTAGAAATAATATCGACTCTTTTGTAGGATAAGTACATTAAATCAGTAGATCTATATTTTATAAAGAGAACATTAGATCTAGCTAGATAATAATCCAGAAAATTATAAGCTAATGTATTAGTAATTAGATATTTTGATACGGACGGAGGATTATCACTCCAAGCATCATTAGAGTTAAGTCTATCAATCTTAATCTTTATTGTATTTATTTTATCATAGATAACTAATCCATTTGACATAGATTTGTCCTTTTTGTCTTTTAATTCTCTAACAAGGACGATATACTCCATATCTGGATGTAAAAGATCTAGCCAATCTATGTAATTATGATATTCTAAGAGCTCTGCTTCCCTATTTAAAAATCTAACAATTTTTATATATTCATTCTCACTAACTTCGTTTTTATCATAATTCAGATACATTTCGATATTTTCTAAGCTTTGCATTTCATTCACCTATCAAGTAGTCAAGAATTCTTCTCCACATATATCTAGCAGATTTCTCTGTAAGTCCTGTGGGAATTATATCTAGTTCTTCTCCATGCGGTCCCATAAAGTCTTTTAAGGAAGTTAAATGATCTCCAACCTTATAAGGTACTTTAATTTTTCTCATTAAATTCGTCGAGTACTTAGAAGCCTTTGTTATCATTGTCCAATGTTCTATATCATCAGTTTCAACTACCCCACCTGCACCAAACCCATTCATAAATGTTCTATAGGATAGATCCTTAAATTCCTCATCCACATCCTTTTCTACTACAAACCAATTATAATACTCTGTGGTATCAGTATTTATAGGCCTTAATAGCCTAAAGCTAATATGTGGTATTCCAACGGATTTAGGATAATCTAGATCTACGTCAGGTAATTTTCTTATACCATTAAAAAATCCTAGATTGGGAAATACTAGTCCACTCATATGGTAAGAAAGGCTAAATAATTCAAACTGCTTTGGTTCCAATAGCTTTTTAGCTTCTTCTACTACAGCAGGTTCCCAAATTGGATATAAGATCGGGAAAAATTCTGCAGGAAATCCTCGTCCTTTCCCATCTTTACCTAAAAATCTAATGTTATGCCCTTTCTTTGAGGCTATTTGATATCCAGATATTATATTTTTAATATATTCAAAAGAATAAAGAGATGATGCAGATTTATGTGTAATAACAAAATGATATACATCATGTACAAAGCTATCAGCACCCATTTTCCAGTTAAATTTTATTATTCTTCTTTCAGGAGGTAAAAACTGATATCCAGAAGAATTTCTTCTAAATAATATATCCATATACCATTTTATTTCTCCCAAATAATTCTCAAGAGGTTCAGGATTCTCATTGAGAGTAGAAAAAATAAAACCCGCGTAGCTTTCGCTCTTAAGCTCTAATAGGCCATATCTTTCTTTATCTAATTCTCCGTAAGCTATAGATTCAAGCGGTACTCCTATAAGTTTTCCATTACCATTAAATGTCCATCCATGGTACGGACAAGTAATAAACTTTGAATTTCCTTTTTCAGCTTTAACTATTTGAAGCCCTCTATGAGGACATATGTTAAGGAAAATTCTAATCTTATTATCTTGCCCTCTTATAGCAAGAACTTCATCTGTGGGGCCTATAGCTCTTACTGCAAAATCTCCAGGCTTAGGAATCTCAGATTCATGTACTACAAAATGCCATATATTTGGCCATAGTCTTTCTTTTTCTAGTTCGAACACTCTCTCATCAGCAATCCACCATAATTGTAATTCATGATTTTCCTCTAGGTCTTCTCTTACCTTTACTAACTCATCAATGAGTCTTTCTTTTTCGTAATCAGATTTATTCTTGTTTATATCGTTTTTTTCTATCATAAAATATTACCTTAATTAGAAATTTTATAGCTTGCAATATATTGATAATGTGTATTTCAGAGTATTACAATGTAATCTAAGAGAAGTTAAAATAAATGTTTTCGAAAATGGGAAAACTATGAAAGGAATATATGTAGTCCGGGTTGACGTCTTAGATAGTAGTATAGAAAGTAGTTTCAATAAATGGTACAGCTACGTTCATTTACCAGACCTAATGAAGATAAAATATTTAGAATTCTCCAGAAGATTCTTTAGTAATACGAGTATTCCTAAATATCTCTCCCTATACGAATTTCCAGATAAAGAAAAACTAATAGAAGGTAAAAAGAGTGAAGAAATGCAATACGTAAGATCAGATACTATAAAACGATGGAGCGGTAAATTATCTAAAGGTGAAAGATACTATACAACAGTAGAGGAAATTATAGTAGGCGATGAAAAAATTTCAGACAACAATAAGATATTTATAACTTTTGATGATAATAAAATTTTAAATAATATCTTAAATATTATACTTATTGAAAAAGAAAAAATGGAAAGATGCCTTAAGCTGGATGTCTTTGATAAAGAGCCAGAAGATCTTCCAAGATATATATTACTTTGTGATACTAATGATAAAAATAATAGTAAAATGTTTGAGGCGCTAAAGGATATAGACGGAATAAAAGGTTTAGGATTTTATGAACCAATAATTTCCTATAGTAAAGTAACTTACAACGATACTCTATAAACAGTGTACTACAATCTAATACTTTTTACATATAATACTACCTTTTTTATAACAACATTATATGGGTAGTCTAAAAACTATTGTTTTAAGTTCAATGATAGGTAATATAATGGAATGGTACGACGTATTCATATTCTCAACTGGTGCACTATATATAGCTAAGGCTTTTTTACCTTCAAAAGTAACACCTACCATTGCTCTATTAGACGTTTTCCTTATTCTAGCTCTAGGATTTATTACTAGGCCTTTAGGCGCTTTTGTATTTGGGAATTTTGGTGACAAATTAGGTAGAAAAAGAATGCTAATAGTAACATTATCATTAACCGGAATATCAAGTGGATTAGTAGGATTACTACCTACTTATATAGATATCGGATTCATATCTTTAATTCTTTTATCGATATTAAGAATATCATTAGGTATAGGCTTAGGAGGAGAATGGGGCGGAGGATTATTATTAATAGTAGAAAACACATATCATAGGAATCCATTTTATGTTTCTTTCTTTCAATCATCAGTTAGTATTGGATTAATAGTGGGGTCATTAGTATTTCTTACGTTGGAAACTTTACTACCATCCTCTGAAATGTATTCCTTTGGATGGAGAATAGCCTTCTTAATATCGTTCTTACTTCTAGTAATAGGTTTAATAATAAGATTAAAAATAGGAGAAACTGAAATGTTCAAGAAAGCATTAGAAAATGGAGAAATATTAAGAAAGCCAGGACTTAGCTTATTCAAGAATCATTTTGAAAAAGTAGTCTTGGGAATCTTAATTGTAGGAGGTTTAGCTATATATTTTATAGGTTCGGTAAGTATTCCAAATCTATATGAGTTTAATAAAATAGTATCTCCTACTCAATATTTTTATGGTATAATGTTATTTGGAATAATCGATATATTATTCGTTTTTATTGGCGGTATTCTTTCTTCAAATTGGAAAAAGATAATTATTTTTACTGTAATAGGTAACTTATTGGGCATATTTGTTCTTTATCCAGCGTTTTTATTAAAAACTCCTACAAATTATTTGCTATTTCAAACATTATTAGGAATTTCCCATGGTATAATGTACTCTCCAGTAGCCGTAATTTTAGTTAAACTATTTCCAACAAATGTAAGATACAGTGGGATTTCTGCGTCATATCAATTTGCTGGTGCTTTCTTAGGAGGAATAGAACCTTATGTAATTACTTGGTTAAGTACATTTAATTACTTATTTTATCCTATATATCAAATTTTATTATGTGTAATTTCCATAGTAATTTCTATTATAGTATACAAATATAACCTAGCAAAATACCTTGAAACAGAGGTGGAGAAAAGATGAGAATATCAACTGTTCAGTTAATAACGAGTAGAAATAAAGAAGAAAATTTGAGAAAAATACAGCAATATATAGAAAAAGCTAAGGATACTAACTCGGAACTTGTAGTATTTCCAGAAGCAAGTATGTTTTTCTCTCCCCCAGACGAGTCACCAGAAATATTATATGAGAAAGCAGAAGATTTGGAAGGACCGTGGATAACTGAAGTTAAAAAATCTGCTAAAGAAAATGGAATTAATGTAATTTTGGGAATATATGAAAGAAGTAATAACAAAAAGGTATATTTAACTGCAGTATTTATTGATAAAACTGGTGATTTGAAATATGCATATAGAAAAACTCACTTATATGATGCTTTTAGCTTTATGGAATCAGAGAGAATAGAGCCTGGAAAAGAGTATTATTCTCCAATAAATATTGATGGACTAAAAGCAGGAATACTTCTTTGTTACGAATTAAGATTCCCAGAGATATCTCGGACATATGCATTAAAAGGCGTAGATTTACTAATTGTTCCAGCTGCATGGGTAAAAGGATATTTAAAAGAGGACCATTTGTTGACGCTAGCTAAAGCAAGGGCATTGGAAAATACTAGTTATTTAGTATTATCAGCTCAGATAGGAAATATATTTACTGGATATAGTATGGTAATAGATCCATTAGGTGTACCTATTTCAAGAGCTACAGAAAAAGAAGGTATAATAACATCAGAAATTGATAAAGAAAGAATAAAAGAAGTTAGGGACACTCTTCCAGTTCTATATCAAAGACGAGAAGATTTATACTTTAGGTGACACTTTTGTACAACATGTTTTCAAAATACGCAGATAATTTAAGATTATCAGAATTATTACGTTATTTTAAAATTATCTCAAAAAAGCCTAATATAATAAACTTTGTAAATGGGTTACCAGATCCTAGAACTGTTCCAGTAAACGAAATAGAAGAGATTCTAAATCAAGTCATAAAAGAATACTCTGTTACAGCGTTCCAATATAGCATAACTTGCGGTATAAAAGAATTAAAAGATCAAATTATAGAACTTGTGAAGAATAGAGGAATATACGGAGTTAATGAAAACAATATTTGCATAACAGTCGGAAGTCAAGAGGCACTTTACATGCTTTTCTCTATTTTTATAAATCCAGGAGATAGTGTAGCAGTAGAGAATCCAACGTATATATCAGCCTTAGAAACTCTTAGAACCCTAAATCCTAATTTTAAAGGGATAAATATTACAAATAATGGTTACGAAATGGATAGCTTAAGAGAAAGTAATGCTAAGCTACTTTATACTGTACCATCAGCTCAAAATCCTTCAGGCTACACACTAAGCCTAAAAGAACGTAAGAAGATAATAGAACTAGCACACGAAAATAATACAACAATCATTGAAGACGATACATATGGTTTTCTTCTCTTTGATAATTATGTTCCATCAATGAAATCTCTAGATGACGAAGATAGAGTAATTTACGTTGGAAGTATGAGTAAGATATTCTCTTCTGGCCTTAGAATTGGATGGATTATAGCTAATGAAAAGGTTATAGAAAAAATAGAGGCATTAAAGCAAAATATTAACGCTCATTCTCCAACAATAAATCAACTATTAACAGCTGAAGCTATAAGGTCAGGAGTTATAGATAGAAATATAATAAATGCTAGAAATATATACAGATTAAAAAGCGAAATTATGAAAAATGAAATTATGAAAAATCTGGGAGATAAAATAGAGTTTATTTCTCCTACCGGTGGAATGTTTTTCTTCTTATGGCTAAAAGACATTGATACCGAGAAGTTATTAGAAAAAGCAATAAATAATAATGTTGCGTATCTACCTGGAAAATACTTTTATCACGACATGTCTGGATATAATACCATAAGGCTGAGCTATAGTTATCCTAATGAAAAAGAAATAGTTGAAGGAATAAAAAGACTGAGTGAGATAATATATTAGAAATGTATTTTTTGTAAAGCATAGTATATGCCTGAATCTATTAGGCTTCCAAGAACCTGGTATGGAAAGTATTCACTTAAAATTCCATAAAAGTTATAGTAATTTAGCATAAAACCTATAATAAGAGCTATAATAGCTTTTAGTTTAATTCCATTATTATAATAGAAGGAACTAACACTATTATTTCTTAGATTTACGTACCAATCAACTATCAATATAAAAGTAAAAGGCAATATTAGGTCTCCAACTAGCAAAAGGAAGTTTTCAATATAGTTTAATATCCCAAGTATTGCAAGGATTATTGATACTGTTCCTAATAATATTGAAGCTAATGGTTGAGAAATCATATATGATTTAGCTTTTTTCATAAACGTTTCCATTGAGACTAATAGATCAGCCACTGCAGGATATAAGTTCATTGAATTAGTATGAATTATTGCTATAGACGCTCCTATAGCTGCTACTAGAACCCATATTGGATCTCCATTTCTATAAACTGCTGCTAAGTTCCAATTTCCAGTCGCGCCTTGAGAAATATATCCTAATAATCCCATCAAGAAAACTGGAAGCATTATCCCTATTCCAGGAGAAACGAAATAAGATAAGGAAAATTTATTGTATGGTTTAGCAAATCTGGTTATGGTAGTTATCTTATAAGCCCATGATAGAATAGAGAAAGTTAGAATAAGATTAATTGATAATCCCCAATTTACTGTAGTAGACGGTGACATCATAGCTGAAATATTCGGATGATAGTATGAGAATAAATAGTAAGCTAAGATAGCGTAACTTATTACTAGAATCGGTGAAGTAAATCTATAGAAATAGTTTAACCATTTAGCACCAAATATTACTAGAACTATTTGTAAAATTCCAAGAACTATTGACCAAAAAGCTAATGATAATCCGCTAACAGAAGAAAGTATTTCCGCTCCTACAGCAAGATTTAAACCGAACCAACCCATGTTGACAAAAGTGTAGAGGAGAGATAACATATTTGCTGGATAATAACCGAAAGTGCCTCTAGCTTGTGTAAGGGAAACTATTGGTTTTTGTCTTCCTATTTCAGAGAAGAGACCTGCAGGAATTATTCCAATTAAAGTAGCTAGAGAAACTATTATAAGAAAATTAGGTATTCCAACTCCAAATAATAAATATCCCGCTAAAGGCGTTGCAGCAGAAGCACTAGCCATTGCCCAAAAAATAAAAATATCTATAGAAGATATTTTTCTCATTCTTTCTGGAACAGGTAAAACGCCAATAGTTTCTATTTCTTTACCTATTTTGCCAAGCTCTGGAATTCCTGAAGAGATTTCTTCACTTTTCCTTTCATCGTCTTCCATAATAAATCACTTTTTACAAGCTACGTTGTGGATCGCTTCAGAATTATACAAAAATTTTTAAGTAATTATGCAGAGTATTACCCATGGAAAAGAAGAACACTAGGGATTGGAGCAAGTACGATGAGAACGTGTTAACAAGATATAAGCTAATGTTCCCCTTCTACGTCTTCGAACACTGGTGGGAATTACTCCAGGAAGAGAACAGGTACGCTAAGACCAAGTACAAGGCACCAAAGGAGTTCAACGACTTCCTAGCATTCCTACACTTATTCTTACCCTACAGAGCAATAGAAGGAGTATTAAGCGCACTAGCAGAAATGAAGATAATCCCAACAAGCCTAGATTATTCAACAATATGGGAAAGGGTAAGAAACATGAACATTAATTTCCCTGAAGCGAGTGACGAACTTGAAGTAATAGCTGATGGTACTGGAATAAGCACAACAAGAGGAGGACAATAGTAGCAAAGTGGGGCAAAAGGAGGGATTCAAAATTCCTTAAGATTGAAGTAGTTATGGAGAAGGGCGAGTTCAAGATAGTAAGCGCTGAGGTGACGAGTAATGAGGCCGAATCTGCTTCAAATACTGTAAAGGACTTGAAGGAAAAGGGTAAGGAAGTTAAGAGGTTCTATGGCGATAAGGCTTATGATACTAACGAGATTTATAATCTTGGTGTTGATGTTGTTGTTCCTCCTAGGAAAGACGCTTTAGGCGTGGTCATCCTGCTAGGCGTAAGGCTGTGCGCGAGTTCAAGAAGTTGGGTTATGTACGTTGGCGGGATGAGAAGGGTTAGTTAAGGTGGTTGGTTGAATCCTTGTTCTCAGCGGTTAAGCATTTGGTGAGTCTGTTAGGGCTACGAGTTTTGCTGGTCAAGTTGTTGAGGCTAAGCTAGTTTGGCTTATGCTTGGATGATGTACATGGCCAACCTTGTTGTTGGTCGAGCTAAGGGCTTTGAGGTCAAGAAGTAGTATAGTAAATTATTTAGGAGAGATATTATTTTCTATAGAAAACATATTTTTACTGTATCATCCTATTGAAATATATTGAACGAACCCACAAAGCATTTACAAGCTTTCAATATATATCGATGATATTTCTTCGTAATTTTCAGGTTTTCTATCCCTTAAGAAGGGAGCTTTTTTCCTTCTTTCTCTTATATAATTCAAATCTATATCAACTATTTCATAGCCTTCTATACTATCCATTTCTTTAACTATTTTACCTACAGGGTCTGCAACTAAACTTTTTCCAAAATACTCAATTTCTTTTCCTTGAAATACTTCTGGTGTTCTATTTACTCCAACTACATATATGGTATTAAACGCTGCATGTGCCCTCAATTCTAATTCCCATGTTTCTGGGTAAAAATTAGTTGTTGTAGGAATAGTTACTATATCCGCACCTTTTAATGTCAGAATTCTTACGCCTTCAGGGAAATGTCTATCATAACATATTATTCCTCCAACTTTGTAGTCTCCAAAATTGAAAACAGGATAATCTTTCCCTGCTTTAAAATAGAATTTCTCATAGTATCCAGGAACTTGAGGTAAATGTGTTTTTCTATATTTTCCCAAAATATTTCCATCTTTTATAAATACTGATGTATCGTAATAAATTCCCCTTATTTTTTTGTCCTCTTCAAAGAACGTAATAACCATACCTACCTTATATTGCTTAGAAAATTCATAAAAGGTTCTTACTGTAGGTCCATCGTCTGGTTCTGCTAAATCAAAAAATTTTGGGTCTTCTGTTGCAGCAAAATATTGAGTGGTAAATAACTCGTTATATACTATCAATTCTGCGCCGTCTTTGACAGCACTTTTTGCATAATCTAAGGCTTTCTTTATATTAGCTTCTTTTGATTCTATACTGCCCATTTGTATCATAGCTACTTTAACCATATATCTCACCTCTGACTACGTTTATTTCTTCATCTATATTAGTTCTCCTCTTAGTTACTTTTTCCAAAAATTCATATTCACGCATTTTTTTAGAAGCTATACCTATCATATCTTCTAGGTTAGAATAACCTTTTCTTTCCATGAAAGAGTAAAGTTCTTTTTTCCATTCTTCTATAAACTCGAAACCTCTAATCATAGTGTATGTTACTGACTGTACGGTTTTAGCTCCCATCATCATATATTCTACAGCATCTTTCCAGTCAAATATACCGCCAACTCCACTTATTTCTACAGATGTGGATGAGAAGATCTTGGACACCGCAGCTAGTCCTATAGGCTTTATAGCAGGTCCAGATATTCCTCCATATCCAGAATATCCATTAATATCTGGTAATGGTTGTCCTCTTTCTATGTCAACACCTATAACTCCACTAACAGTATTTATTGCAGTTACCGCTTTAGCACCTGCATTTTCTGCCTCTTTTGCTATATCTTTAATTTCAGTAACATTAGGCGTTAATTTTACTACAATTGGTATTCCAACCGAAGATACTACCTCTTTTGTATACTTATAAACCAAATCGGGATGTTGACCTATGAATGCTCCAGTTTTCCTTTCTGGTTCTCCGTGCGGACATCCAAAATTAAGCTCTAGCATAGAAGCCCCTCTATCTTCAGCCCATCTAGCTAGTTTTACCCATTCAGAAAAATCTGAGCCACCCATTATACTAGCTATTATAGGAATTTTTACTTCTGACTTAATTATTTTCATATATTTATCCCATGTATCTAATTGATCTTCAGTTATTAACTCTAAATTTTCAAATGCTATAAGTTCCTTATTTCTTCTCATTGTTCCATACATAGGCCTTACAGACTTCCTTACTATCGAATCTCCAATTGTTTTTAGGACTATTCCTCCCCATCCTGCTCTATACGCTGATATGATTTTTATTGGATTTCCTGATGTCGGTCCAGAACCTACAAAAAATGGATTAGGGAAAGAGACATCACCAAAATTTACGGATATATCTTTCATAGAAAAGCTTGTAATTGAACTATATTTAAGTATAGATCCATTTTACATTAAATATTTTCCAAAATATTCAATACAGAAACTGTTTCACTCTTGATAACTTTTAGATATAAACTTTGGAAATTTTATAAAAAGAATTTCTTTAGGCGTTAAAAAGTTTTTAATATTAAAATGGAAATTTCTTATAAATATATTAGGACTAAAGAACTTATGAGCCTAGACATAGTATTAAAAAACGCTAAGATATTCACTTCTTCAGGTCCTATAGAAGGAGATATTGGAATAAAAGATGGAAAAATAGTTAAGATTGGAGATATACAAGAACAATATATAAAGACCATTGATTTAAGTGGAAAATATGTTATCCCAGGTTTAATAGATGGACATACTCACATGGAATTCCCGTTTATGAGCGAGATAACTGCAGACGATTTCTATTATGGGACTAAAGCTTCTATTGCTGGCGGTGTAACTACTATAGTTGATTTCGTTACTCCTTCACATGGTCAAGATTTAATTTCTGCTTACGAAAAATGGAGGGGAAATGCTGACCCTAAAGTTGTATCCGACTATGGGCTCCATATGATAATTCGAGAGATAAACTCAAACGTCTTGGAACAAATACCTAGTGTAATAAATAAAGGAGTAGTAAGTTTTAAGCTATTTATGGCATATAAGAATGAATTAATGCTTCCAGATGGAGATTTATACAAATTGATAAAAAAGATAAGTGATTTCGGAGGAGTAACTGGAATACATGCAGAAAATGGCGAAATAATAAATGAACTAATTCAGGAATTTCTTAAAGAAGGTAAAGTCGAGCCTATATATCATTATTATTCTAGACCAGACATATTAGAAATTGAGGCAACTAATAGAATAGCTTCTATTGCGAGTTTAGTAGGTAAAGATGTTAAAATGTATATTGTTCATACATCTACGGGAGAGGCTGTTGATATAATATCTAACTATAGAAAGATGGGATATAAATTCTTTAACGAAACTACGCCACATTATTTGACATTAAATACTGAGATGTTGAAAAGACCCGATGCGTTTAGGTATGTTATGAGCCCACCATTAAGAAGCGATGAGCAGAGAACAAAGCTATGGTATAGATTAGCATCAGGTGACATCTTTACAATTGGTAGCGATCATTGCGTATACTCAGACTTACAAAAGAAACGTCATATGGAAAAGGTTCCACCATTTAATGAAATACCTAATGGCGTTCCAGGTACTGAGACAATACTGCCTTTACTTTACTATTTTGGAGTTAAAAAGGGAATTATATCTATGGAGAGATTCATAGAAGTAACGTCTTTAAATCCTGCTAAGTTATTTGGATTATATCCGCAGAAAGGTACAATTATGCCTGGCTCTGATGCAGATTTTGCAATCATAGATCCAGAAAAGAAAGTGAGAATTTCCCCTGATGTCCTTCACAGTAATATTGACTATACAATATATGACGGTGTAGAGGTAGAAGGATGGAACGTAATGACTATGAGAAGAGGAGAAATAGTTTACGAAGAAGGTCAAGTAATAGGTAAAAAAGGAAGCGGTAAATATATACCAGGCAAAACTCCCATAATGATGTGACTCTAAATGGCAGAAAAAACAATAGATAGGTCGTCCATAACAAAATTTTATCCAGAAAAAGGACAAGTAGAACTTACAGAAACTTTTCCTAACGAGAAATTTTTATGGAACGCAGATGTACACCCAATTCCTGTTAAAAATAGAAACTGGGGTTCACTTACATATTTTATGATATGGGTCTCAATGGTTTTTATAATTCCTAGTTGGACACTAGCTAGCGTAGGTTTAGTATTCGGATTAAATATTATTCAATCGATATCAATGGTATTCTTAGGGAATTTGATAGTTCTTATTCCCATGATTATTCAATCTCACGGTGGAGCAAGATATGGTTTAGCAGAGCCTCAATTAACCAGATCTAGGTGGGGAACTTACGGTGCAATATTTCCTAGTTGGATAAGGGCTATAATAGGAGCAGGTTGGTGGGGAATTGAAAGTTACATTATTACTGAAGCAGCTACTGCAATATACGCTATATTATCCGGAAAAGTAAGCGTAGTAGCCTATACTGTAAGTCATTATGCAGATTATCCTTTTATTTTAAGTAAAGATTTTCCTCAAGTATTTTGGGGAACTTTCGCTATAGTCATTTTATTACAGATATTAGTTTTCTACTATTCTCCTATAATGAAATCTCAACCACTATTAAAATGGCTTGCAAGAATTGGAGGCCCAATAATATTAGTATCCTTTTTTGCAGTATGGTTATATTTCATGAGTAAAGTTGGTTGGTCAGTTGATATATTTACTTTATCTTCTACGTCATCTGCTTCAATGCTCTCAATATTAGCTTTCCTTAATGCAAATATAGCTTATTGGGCAACAATGGCGTTAACTATGCCAGATTATACTAGATTAGCAAAAAATCAATTCTCGCAAACTATAGGACAAATTCCTATGCCAATATTAATGCTAATAGTAGCTATAATGGGTACTATGACCACTGCAGCTGCACTAAAACTTTATGGAGCGCCAATATGGGATCCAATTGTCCTAGTGACATTACATATGTCCTCTTCTGCTAGTATTCTAATATTATTTGCGTTTATATTGGCAACATTTCTAGTAAATGTCTTTGCTAACGCTGTAGGTCCTGCTTATGACATAGCAAATACTTTTCCTAAACATTTAAGTTGGTTTAAAGGTTCATTAATATTAATATTAATAGGATTAGCATTAGGAGCGTGGAGCTATTATGGCAATGCATATAGCTATATAGAGAATTGGTTACTAACTTATGGTGGACTTTTAGGTAGTGTTGAGGGAGTAATAATATTTGACTATGCTATAATTAGAAGATTTAAATTTGATTTAGTTGACATATTTTTAAGTAATGGAAGATTTAAATATTGGAAAGGAATAAATCCAGCTGCAGCAATAACTTTCTTAATAGTTTCAGCAATAATTTATTTACCATATCCAGGGGAAAGTATAGCATTAGGCAATGCGTGGGTACTATCCTTCTTACTCTCTGGTGCAATATATTTACCATTAATGAAATATTGGGTTATACCAAAGTATCAACCAGAATTAAAGGGATCCTTAACTCATGGGTACTTCTCTGAGGACACGTTGAAAATTTTTAAGGTGAAGTGAGAATGAAAGACTTTAGATCTAAAAAGGTAGCTATAATATCTAATTGTATTTTAAATCAAAACTCTAAGGTTATAGGATTTGCAAAATATAGGGGAATTATTAAAGAAATAGTTGATTTACTATATGAATACGACTATGGGATTCTTCAATTGCCTTGTCCTGAGACCCTTTTTGCAGGCGCTAGAAGATGGTGGCAAGTAAGAGATCAGTACGATACTGAAGGTTATAGGGAACATTGTAGAATGTTAACAAAACCTATAATAACTATGCTAAAGGAGTATGAAAAGGAAGGTTATGACGTTTTGCTAATAGGCGTTGATGGAAGCCCTTCTTGTGGAGTTAATTTATCTCCAACTAGTAAGAAATGAGGAGGTCCTCCTACTTTAAGGGATGAAGATGCGTGGAATGCTGAAATGATAAATAAACCTGGAATTTTCATGGAAGTATTAATGGAAGAGATAGAAAAATCTGGTCTTAAAATACCTAAGACAATTGGTATAGGATTAGATATTACCGATGCTGAACACTGGGATAAGAATAAGATTTTAGATTTAATAAAATAATTTAAGGATGAACTAAGGAGAGATCAAAATGTCAAAAACGGATAATAGATTATGGAACCAAGATATTGCTCCAGTAGATCCTAAAGTAAAAAATTGGGCTGAATCTTTTTCATAATAATAGAGATCTTTTTATGTTCATTTATCATCAACTAATTTCGTGGAGAGGTTACTGAGGCCTAAGGAGGCTTGCCAACTGCTCGGTATTTCATACTCAACCTTGTTAAGGTGGATTAGGGAGGATAAAATAAGGGTAGTAACAACTGAAGGAGGAAAGTATAGGATTCCTTACAGTGAGATTAAAAAGTACTTAGAGAGGAGGGAAGAAATAAGAGCAGTAATTTACGCAAGAGTTTCATCAGCAGACCAGAAAGAGGACTTGGAGATACAAATAAACTACTTGACGAACTATGCAACAGCAAAGGGTTACAAAGTAGTTGAAGTGTTAAAAGATATTGCAAGCGGGTTGAACACTCAAAGGAAAGGGTTACTCACGCTATTCAAACTAGTTGAGGGAAGAAGTATTGACGTCGTTCTTATAACCTACAAGGATAGGATAACGCGTTTCGGGTTTGAATACCTTGAGGAATTCTTTTCAACAATGGGAGTTAGAATTGAGGTTGTTTTCGGAGAAGAATCTAAGGATGCTACACGAGAACTAATTGAAGATCTGATTTCCATTATTACGTCATTCGCTGGGAAAATTTACGGAATGAGGAGTCACAAGAAGACAGTCCTAGTTCAGGGTGTAAAAAAGTTGATAGGTGAGCTAAATGGAGAGGACAGTGAAGTTAAGGGTTAAGGTTGACTACACTACCTACTCAGCACTTAAGGAAGTTGAGGAGGAGTACAGAGAGGTTCTAGAGGATGCATTAAATTATGGGCTGTTAAACAAAACTACTTCCTTCACTAGGATTAAAGCTGGAATTTATAAGACCGAAAGGGAGAAGCATAAGGACTTACCTTCACACTACATTTACACCGCTTGTGAGGACGCTAGCGAGAGGCTAGATAGCTTCGAGAAGTTGAGGAAGAGAGGTAGGACTTATACTGAGAAACCGTCTGTGAGGAGAGTCACTGTCCACCTAGATGATCACCTGTTGAAGTTCAACCTTGACAGGATTTCAATTTCTACCAAGAAGGGTAGGGTTTTCATTTCTCCAATCTTCCCTAAGATTTTCTGGGAGTATTATAACAAGGGCTGGTTAATTGCGAGTGAGGCTAGGTTTAAATTGTTGAAGGGGAACGTGGTAGAATTCTTCATAGTTTTTAAGAAGGACGAGCCTAAACCTTACGAGCCTAAAGGTTTTATCCCAGTTGATCTCAACGAGAATTCAGTCTCTGTACTTATCAATAGTAAACCCGTATTGCTTGAAACAAACACTAAGAGGATTACTCTGGGCTATGAGTATAAAAGGAAGTCAATAACTACTGGTAGGTCAACTAAGGATAGAGAAGTTAAGAGGAAGTTGAGGAACTTGAGAGAGAGGGATAAAAAGGCTGATGTTAGGAGGAAGTTAGCAAAGCTAATCGTTAAAGAAGCTTACGAAAGTAGGAGTGCCATAATCTTGGAGGACTTGCCAAAGAGAGTTCCAGAGCATATGGTTAAGAATATGAAAGACTCTCAGCTTAGGTTGAGGATTTATAGATCAGCATTTTCCTCAATGAAGAATACTATCATTGAGAAGGCTAGGGAGTTTGGAGTTCCAGTGATTTTGGTTAACCCGTCTCACACTTCTACTATATGCCCAGTTCACGAGACAAAGATTGTTTACCAACCCGATGGGGGCACTGCCCCAAGGGTTGGTGTTTGTGAGAAAGGGAGAGAGTTGTGGCATAGGGATGTTGTCTCACTGTATAATCTAAGGAGGAGGGCTGGAGATGTGAGCCCCGTGCAGTTGGGCTCGAAGGAGTCCCATGACCCACCTATCATTAAGCCTGGTAGGTGGTTGAGGGCTAAGTCCCTACGCTTGATCATGAATGAACATAAAATGAATGAAATGAAAGTGTAGGGACAAACGGAACTTACATACCTTCATGGATTAGATTCTTTGTAGCTATAGGCTTTTTTGGCGTACAGACGTTTTTGATTAATGAGGCTATAGTTGGCTTATTCTTAGAGATAGAAGGGAAAGCCGCAATATTGAGTTCGTATAAAGCATTAACTCCATTTATACTAGTTAGCAAATTCCCTATACTGTTCTGGACCTCTTTTGCAATAGTTATAATATTACAGATCTTAATCCTGGTATTCGCTAAACCTATCTTGGGTTCTCCTTCTCTAAAAATTCTAGGATATATAATGCCATTTGTTTCATTAATAGCATTGACTATGGTTTTTATTTATTTTGTAAGCCTATATCCTTCAGCGTTATATAAGGTTATTTACTCTTCACCTGCTCCTATAAACATATCAGAATTTCTTTTACTTCTTCTATTTTTAAATTCCAATATCCACGCTACTCAAGTTATAAGTTGGCCAGATCTAATGAGATTTGGGAAATCCTTTAAGCATTATGATTGTAGGTCAAATTGGTTTACCTATATTTTATACTACAGTGGTAGGTTATGGAGCAATAATGGCAGGGATTTCAAAAGAAATAACTGGAAGCGTTACTTATGATCCAACTCTCCTCGTAGTAAAATTTACTACTTATCTCTTTGCTATCCCTATACTTATAGCCTATGCTTTTACAATGCTTAATACCAATATTTTTAGCAATGTAGTTCCTCCAGTATACGATTTAATTAATACTTTTCCTTCAAAACTTTCATGGATAAGAGGAGTTATAATAGTATCTATACTTGGTATAGCAGTAGGCGCTTGGTCCTTGTATCTTAAGGGAGCATATACATACTTTGACACTTGGATAGCGTTCATATCTGGTCTATTAGGTCCTATAGCTGGAATTATAGTAGCAGATTACGCAATTTTGCGGAAATTCAAAATAAACTTACACGATGTATTCGTTAGAAAGGGAGAATATACATTTTATAAAGGGTTTAATATTAGTGCTATACTCACATTGATTATAATATTTCCGATTATATTCTCAACACAGTTACATATACCTATACCTTTTTCAATATACATTTACAAAATGTCGTGGATGAGCGGATTTCTTATGTCAATACCATTATATTTATTATTAACAAAATTATTTGATAAATATAAAAGATAATATATTTTTTAATATTTGAATTTCAGAAGGATTTTTATTTATTATTGACTAAATATGGCGCTGAAATTCTTTTCTTATATTCTGTTAAGATATCAAATGACAAAGTGTCCATTTCTTGTTCTCCTATAAAAGGAAGTATTATTTCATCCATTGTTAAATATATAACATATTTTATTCTTTCATCCTGCTTTGTGGGTTCGTTCAATATATTTCAATAGGATGATACAGTAAAAATATGTTTTCTATAGAAAATAATATCTCTCCTAAATAATTTACTATACTACTTCTTGACCTCAAAGCCCTTAGCTCGACCAACAACAAGGTTGGCCATGTACATCATCCAAGCATAAGCCAAACTAGCTTAGCCTCAACAACTTGACCAGCAAAACTCGTAGCCCTAACAGACTCACCAAATGCTTAACCGCTGAGAACAAGGATTCAACCAACCACCTTAACTAACCCTTCTCATCCCGCCAACGTTCATAACCCAACTTCTTGAACTCGCGCACAGCCTTACGCCTAGCAGGATGACCACGCCTAAAGCGTCTTTCCTAGGAGGAACAACAACATCAACACCAAGATTATAAATCTCGTTAGTATCATAAGCCTTATCGCCATAGAACCTCTTAACTTCCTTACCCTTTTCCTTCAAGTCCTTTACAGTATTTGAAGCAGATTCGGCCTCATTACTCGTCACCTCAGCGCTTACTATCTTGAACTCGCCCTTCTCCATAACTACTTCAATCTTAAGGAATTTTGAATCCCTCCTTTTGCCCCACTTTGCTACTATTGTCCTCCCCTTGTTGTGCTTATTCCAGTACCGTCATCTACTTCAAGTTCGTCACTCGCTTCAGGGAAATTAATATTCATGTTTCTTACCCTTTCCCATATTGTTAATCTAGGCTTGTTGGGATTATCTTCATTTCTGCTAGTGCGCTTAGTACTCCTTCTACTCTGTAGGGTAAGAATAAGTGTAGGAATGCTAGTCGTTGAACTCCTTTGGTGCCTTGTACTTGGTCTTAGCGTACCTGTTCTCTTCCTGGAGTAATTCCCACCAGTGTTCGAAGACGTAGAAGGGGAACATTAGCTTATATCTTGTTACTACGTTCTCATCGTACTTGCTCCAATCCCTAGTGTTCTTCTTTTCCATGAGTAATACTCTGCATAATTACTTAAAAATTTTTGTATAATTCTGAAGCGATCCACAACGTAGGCTTTCTCCACATGCACTAAAAGGTAAGTCTCACAATCTTTTAAGCATGGTTTTCAGTTTTTATAATTATGAGATACCCATGAATGGTTTTTAACGTGAGTCTAAATTATCTAATAGAGGAGCGTAAAGAGGGAAAAAGAAAGATCTTTTTAATTATAATTATAATGAAGATTAATCATTTTTTATTTTTATGAGCAAAATTCTTAAATCTAACTAATAAAACATTAAAGCTAAATGAAAACAATTTGCCCTTATTGTGGAATTGGTTGCGGAGTAGAGTTTGAAAAAGATAGGATAACTCCTACTAAATATATAACTAATAAAGGAATGATGTGTATTAAGGCTGCTTTGCTTCCTGACACTCTGAAATCTAAAAGGCTTATTAACCCTACATTGGACGGTAAGGAAATTGATTTGGACAATGCTTTAAGTGTACTCTCCACATATATTAGGAGAAATATAAAGAAATATAGTAAAAATTCTATAGCTTTTTACATGGGCGCTCAAATACCTACTGAGGATCAATATCTTTTTGTGAAGCTTGGGAAGGGATTTATAGGTACTGGAGTATTTGACTCTAGAGAGTGTCCCAAGCGCAAATAATTGAATAAATATAGTATGATAGAAAAACAATTTTATAATTAATCAAGAATAAAATATAATTATATCTTTCAGTATAACGAGAGATTAAGCTTATATTGTAATGGAAAATAATCAAGTATAGAGAAAAACAGAATTTCCAACATAGTCCACACTACCTTGATCAACTCTCGCGGTACAAGTTAGTGGGCGAGTTGACTCTCCAGAACACGCGATAACACAGAAGTGTAGATGTAGGAGTTGTAAATCAACGCGATAACGTAGACAAAGAACTCGACCATACCCTTTTCAGTAGCGTAAGGCCCCCAATACCTCCTCAAGAAGATCCCAAAGAACTCCACTCCTGAAACTAGAGAAACCTATCAACCAGCTCGAGGACTTCCCCACGAAGCCCCTATCCACTACCTTATAACCGCTGCGAGAGAAGCCAACCTTATTGTCCGGAAAATTGGCCAGTTCCACTTGAATCTCGTGAACTATCATTGTAGGCGACATGAGGTTGAAGACCTTGAAGCCGAACTCCTGTTCCTCTTCTTTGTAAACTCTCCCTTGAACCTCCTCACTTTGCACTTAATGTAAAGGAAGAGCGTGTTAGCCGCCTCCCTGTACTTCCTCTGCCTTAGGTCTAGCTCAAACTTCTTCTTCAATGTTTCCTTGTTCCTCTTCCCGAAGGGTACCTCGATTAGGAAGGAATCCACGATCCACAGCTTTCCAACCTTTCCGTATAACGCACTGCTAGGTAAGTAGTCAGCAAGTCTACTCATCTTCCCCTCCAACTCCTTGGCGTACTCCTTGAACAGAGTCTTTACCTCTCCCCTAAATTTCTTTGCCCTCCTATGGATCTCCGACTTAGACTTGTACTCGCCTAGGAACCACCTTACCACCACGTCTGACTCGTAGTAGCTCCGCACGTCCCTGTAGGAGCACGTCCACACAATCATAACTATTAACGCTCTCAATATGAAGAGGTCAGAGAGACGCGACAGCACTTCAGACGTGATCAGCATGTAGTTCATTTTCACAAGTGTTTTATGCCTTGCTGATAAATGTTCATAGGGGACCGGGCCGTTGTAGTATTCTATCCAATGTTTCATGTGAATCGGTACTACATCGTCCCGGTTCCCTTTAAGTATTACGCGACTTTTTGCTTCAAGCGAAAATTCAAAATTTCTCAGTAATTCACGATATCTTTTGAATTATTATCTATAAACCTTTACATAGATTTATTCAATTATTTGCACTTGGGACACTCTCTCGAATATTTCCAAAAAGAATTTGACATTCATATTAGTAGAGCTTAATACCCAGCCTGGATAAAAGCTGTTTTTCCTCAGCGGTGAATTCCACTGGTTTATTTACGTAATAATACCACAGCTTTCTACTTGCACTCTTTATAACAGTCGCGTCATAATTGGAAAACAAATTAACGTAACTATCACACTCTCCTTTAACGTCCTCTAACTTGTCTGTATATACTATACCGTCAACATCTGGGAGAACACCTCCAAATTATCCCCTTTTGATGACGCAATTAAGAAAGCCATAGACGATATCAGCTTATCGTCATTAAAGTGTTCTTTCAAGCGGTTTATATATGAAGAGGCCTTCCATCTATCTAGTGAATGTGTCGATAGTGTCGTCACTTGCTTATTTATATTTCTATAATTTTTAGACTTTATATAATATTCGAATTTATTGTTAATTCTTTATATATAGAATCAACGTTTAATAAATTTATACCCTAATGACGACACTATCGCACTCATAAAACTCGGCGTAAGCTCTTATACCAATTTCTTAGCTTCTATTATTTCCTTATCAAGGGGTTTGGGCTTCATAGGATTTCATAATATTTAATATCAATCCTCAGCCCTTGGACTTCACCAGAGTCACGGGGCATTGCCCCGTTCATACCCCTCCGCCCCTTTAGCGGGATAACCCCAACCCACCTACTCCCAGTGGGAGTAAAAAAGAGGTGGGGAAACCCGCACATCTTGAGGTAAATATTCAATGATGCGTTCAATTGCCTATCCAGAGTGAACCCACACCTTACGCAATGAAAAGTCCTGCCGACCTTTCGGGAAACCCATCCACATCTGGGGCAGGACTTAGATGTAAGGTGTGGGTTCACCTCCTTAACGAAAGAACCGTAAAGTGGTGCCTTATACTTTAAGACACTGTGAATTGTCCTCCACACAGTCCTTGAAATCCTCTTAGACAGCTTGTCATCAGCGTCTTGGAACATTGACTGCTTATTCAATTTTTCAACAGCAAACATTGTCACAGGATACATCTCCAGCAACTTGTTCACAAACTTGTGAACATAATCCAGCACGCGATTCCTCTCCCTATGAGAATACTTCCTCAACAACACCTTCCCCTTCTTACCGTGCTTTGAAGCAAAAGACTGTATTTTACTCCTCTTCAACTCCATACCGAATTTTAGACTATACAACTCCTTCAAGGAAAATGTAACAAACTTCTCCCCATCATAAGCGTCCAATGTGTAAAGATTACTATCAATTGCTAGGAAATCTAGGGGAGTAAACCAAGGTAATTTATAACGGAATGGTAGGTATACTTTGTCCTCCTTAATTATGGGCTCACCTAACTCAAGTCCTTCAACCCTCCTTGAAAACCATTTGTGAGACCAAGAGAAGGTAATATACTCATACGGCCTTACAGTAATCCTAACTTCTTCGCCCTCAACTTTCCTAAGAGTAGACTTAACCCTAACGTAAACCTTCTTCAATCTAGGTTTCCTTAGCGATGCTTTTCCCTTCTCAACCCTCCTCTTCCAACCCCTCAATATTGAGTAAGCGTCATTTATTGCCTTGTCAACGTAATGGGAAGCTAGATTGTTAATCTTCTCAAGTTCGTCTCTTAATACCTTGTACACTTCCTTTTTCTTAGGCAGGGTTATTTTGACTTTCTTGCCTTTCTTCGTTTCTTTTTTCTCTATCTTAGTCCTCTCCCATAACCAGTCTAGAGCTTTCTGCATTAGGACTCTGTAGTTCTCTAGTAATATCTTGCTTTCCTCCTTCTTATCGTTCTTTAGGGAGTAAGTTAGGTAAACGTATTCCTCCTCTGGTTGGAATGATTTAAGCCTTAAGCTCTTCGACACATTTCTTCACCTTCTCATGACTCCTCATACCATACAACTTTCCGCTAAATGATACCAGTATAGAGATCAAATCTTCTATTAGTTCTTGTTCTGGTGTTTTGTCCTCCTTATTTAATACCACGAGTTCACAGTTGTGTGCTTTGCATACTTCTTCAATTATCTCGAAGCCAAACCTTACAAGCCTGTCTGGGTAGGCTATGACAACTTTCGATACTTCGTTGTTTAGTATCATTCTTAGTAATTTGAGGAATCCTTTTCTCTTCATGTTTAATCCAGATCCAATGTCTGTTATTACTTGGTCGTAGTCCTTAACGTTCTCCTCTAGGTATTTTACTTGGTTTATCAAGTCGTCTTTCTGTGTGTTTGATGATACTCTTGCGTAAAGTATCACTTTCCTCTTTCTAACAATCCCCACCAGTCTTTCGACGTCTTCTTCCTTGAACCTCCACTTTCCAGTTTCTAGTATCACGGGTTTTATGTACCCTTTCTTAACATATTCTCTGAGTGTTGCATAGGATATTCCTAGGCGTTGGCACACTTCCTTGGGTCTTAGCATTATATAAAAATTTATGATGAAATAATATAAACTTTACGGTTTATCGGAAACTGCTGTCAACGGCTTAATATTTCACATCCCATGCTGATACTCGCTGAAAGGTGAAGGAGGTCTAATGTCTTTAATTTCACTCTGTTACTCATCCTCAAGGCAAGGTCGAATACTCTATTGAATTCTACATCCTCTACTTTACAACCGCATTTCTCTAGAGCATAATCTACGAGGGCATTAAGCTCTTCTTCTGAGAGTTTAAGAGTTCGTGAAAAGACAGAATAAAGTTCAGTAACTACAAGCTTGCTTATTACCTTTTCTCCGTCTTTGGGAGATTTTGCAATAGCTTTTTCGTGGTTCGGATCTTTCTCGTTAATTAGAGCTATTATAATACTGCTATCGATATAATATTTCATTCCCTTTCCCTTAATAAGTCTTCAGAAGTCGGTAGCTCGAAAGGTATCCCTTCTTTTAACCATTTTTCAGTTAGTTCAAGGTTAAAGATTAATGAGCTCCCTGCTCGTGTTATAGTCTGACAGGCCAAGATATCTACGTATATCCTTTGTTTTGTTGTGATTCTCTTCTTTTATTCTTTAGCTGATGTAGAAACTAAAATATCTACAGTCTTATATATTAAAAAAGTCATATATTTCCCTGTTGAACAAATTTGTTCCTAGTTTTTTAATGATCGATTTTCTTCAACTTAAATATTGATGACACTAATAATATATCTAGAACAACAAAGATAATTACGGCTATTAATACGGACCAGAAATATGATATCAGAGAAATTATTAATGAACTTATGATGGTAAAGACAGCGTCAAATACCGAGGAAATTGAGCCCATTATAGAGGAAGATGTCGCGAAAGTTTCCTCTGGGATCGAACTATACATTAAGTAAGAAAAATAATAATTTGCGAAAGAACCGGCTATACTTGATAGAAATAGAATAACATAAATTATCGGTAATAATTGCTCGTTAGTGAAAAATACTAAAGAAATATCTGAGACGTCTGAAAGCACAAATAAGAACGTCATCCAGGCTTTGCTATTTATGCTAAATTTGTAGCCTAATTTGTTACCAACTAAGCTACCGATAATGAAAATAATGCTCCATAAGCCTATAAATACGGGCGGTAGATGTAAAGCGTAGTAAACTAGATATACGATAAACAAGTTTATTAAGGATCCCGGTAAGGAATAAATTATATTGAATATTAAAATTGTTTTTAATACATTATTTTTTATTATATTTAAAAACCCTACCTTAAAAGTGCTTATATATGACTGTTGAGCCACCTCATTATCTACTCTCCTAACGCTTAACAAAAACGCTAGGCCGATTAATGTAATGATCACGATTAACGTTAGGTTTTTGAATAAGCTTAGAGCGAGTAATAAAGTTCCTAAAATTTGACCTGTAGCCAAGGCTACGATTTCATATTTTCTAACTAAATAAATTCCCCTCTGGTAATCAGTCATAAGAATTTTAAATAGTTTATCAAGTGCAGTTGACTCAAGAGCTTTTATGATACTGCTAAATGGAATACCTATGAGCAACACGGTGAAGAAAAGTAACTTTAATTTGACTAAGTATAAAAATATAGGGTAAAGCGAGATAATAGTAATTATGTCTAGTACGTAACCTATTTTCAGTAATTTGACAATATCTTTATATTTATCAATTAAAGGGGATTCAAACAGTTGTATGTGTGGAAATATGTAATTAGTTATACTGAATAACGTATATGTTAGTACCAGACCTATTATCCCAAGAAGATGCCACAAAAAGAAATAACCTAGAGAATTCTCAGCAACTATTAATAAAAATTTAAATATTATTAACTTTCTTACCTCGTCCATTATCATCACCATAATTCTTTAGAAAATGTGTTAATAGTACCTTTTTACCAAGGTCTGTATTAACATAAGTTAGTATTTCGTCTTTGGGGCAATGTTTCATTGCCCTACAACCACCATAGCATAATGCCCCTACTTGACAATTAAGGTAGCATTTCCTTATTTCTCCAAAAGCCTCTATTAAATACTGAGAGTTAGTTATTTTAATGCCTCCATCATCAGTTATAATTCCAAAATACTTCGGAGTATAAAGATACCCGGGACATTTGTAAACCCTTAAGAATTCATCAATTGCATAACCATGTTTAGCTACGTAAGTACAAGGGCCATGAAGATATGCTGGACTGGTCTTAAAGCCCAATTCTTGAGCAAACAACTCAAGTTTTATTAATTCCATAGCCTCAGTCTGTGAAACTTCTGGTAAATAATATTCATTCTTCATATAAACTTCTTGAGTCTCATATATCCAATGAGGGGAAAAGACTACTTTATCGACTAAATCACCCAAATCCTCTTTAATCTTCAATAATAATTTTCTTACTGATTCAATATTATCATAATTTATATTAGATCTTAAGGATATATCAAATGGATATTTCTCTACTAATTTAATAAAATTATTATAAACTAAATCAAAACTGCTACCTCCCCCTGCTAAGGGTCTTCTCTTATCCATAACTTCTTTCATACCATCTATCGTAATTTGAATTCCTATAGGACTAGAATCTGATAATTCCACTAGCTTCTCTATTTTATCCTCAGTGAGAAGGCTACCATTGGTTATGATTACTTCTTCCAAAGAGATATTTTTATTAAGTTTTATATTAACTAATTCATTATGAATTTTTATTATTTCATTAAAGGCCAATAATGGTTCACCTCCATAATAAACCAAATGTATTTTACGTATATTATTTTGATCAACGTATTTCTTAACAAAATTTATAAATTTATCAGCTCTTTTATCATTTATTACCTCTCCGTCCTTTCTATATGTTTGATAACAATAAGGGCAAACAAAATTACATTTACCAGAAATTGCAAACCAAATTTCCATTCCGTTATAATTGGTTAATGTATTAAATCTGAATTCTATGATATTATGCTTATACCTATTTATATCATAATCAAATAATATATTTAATCTCTGCAGATCATTTATTAGTTCAATTAGTTCTTGATCAGCCAGTCTTACGTTAGCATTATTAATATATTCTAACAATTTATTCCATAAATCTTTATTAACTTCTATTATAGCATGATTTATCTGATTAAATAAAATAATACTGTCGTTGTTATTAAAATAAATTAAAAAAGGAGATAAATAATATCTTTTCATAGAAAACCACATCCTTTTAAATCATTGCTATTTTCTTGGGCAGATCTACTAATATTATCTTTTCATCAGCTAAAAACTGCATTTCTTGGGCAGATCTACTAATATTATCTTTTCATCATTCTCGCCTAACGCATAAAATAATGTTCCTTCTACTTTTAAATCCCATGTATGTTCATATATGCTTGTTTCTACACCTACATCTTTTGCTAAAGCTAAACTTTGCAGATTACCATTAGACAGCACTATGGGCTGTGTAGGCGATAATTTTAAACCCTTATATATGTATATCCTTTGTACACCTTCATAATAAATCTCCTCTATTGGCTTATATCCATCTGGCGTCAGTATTAAGTCTCCTACTTTCAATTCCCTAAATTTCCTAGGCCCGTTAGGCGTTATTAAAACTAAATCATCAGTAAAACATCCTCCTCCTCCTCCAAAACAAATTGGATTACAAAAATTTCCACAGCCGAAACAGAAATTAGGCTCCAAAAAATTAAACATATCATCTCCTTCGTATAAGATTCTATACTTTGGTTCTATTAATGTATTATCTATACTTTCCATTTTTGATCCCCTGACTAGTTTTTACACTTAAACTTCTTTTTTTTCTTAACTCTCCTAATACCTTAAAAATTATTAAATATTGGCGTACTAATTATATCTAAGAATATTGAAGATTTTTAGTCTTCTATTCCACTTAAATAAACATTTATAAATAATTTGTAATGATAAATACTAGGATTACGTTTCTACAATATTTATTATTTTTTCTTCAGATCTTAAAAGTTAGTATGGAATCTTTTTTTCACATAAGAAAATACATAAGAAGTCTAAAGAATGGGATTTTTGGTAGAAACGTTTGTATAAGGGAAGCAGTACCTAATTATATGAGACGGACTAAAGCCACGGGATGAATAAAGTCAAGAGGTTTAGGTAATTCCCCCATTAATTTTATCTTTAGCTCAAATATTTTCCTTGACGAACTCAAACAACTGCTAAGGATCCTATTCAAAGGAGGAAATTACTTGACAAAACTGTGTAAGGAGGGAGAAGAGCCTTAAATTACACCAAAACTGAGGAAGCAAGAAAGGTGATCAAGAGTCTAGAAAGAATGTGTTATGGAAACAAGGGTACTCATAGTCTTTTATGTGAAAAAAAGATTCCATACTAACTTTTAAGATCTGAAGAAAAAATAATAAATATTGTAGAAACGTAATCCTAGTATTTATCATTACAAATTATTTATAAATGTTTATTTAAGTGGAATAGAAGACTAAAAATCTTCAATATTCTTAGATATAATTAGTACGCCAATATTTAATAATTTTTAAGGTATTAGGAGAGTTAAGAAAAAAAAGAAGTTTAAGTGTAAAAACTAGTCAGGGGATCAAAAATGGAAAGTATAGATAATACATTAATAGAACCAAAGTATAGAATCTTATACGAAGGAGATGATATGTTTAATTTTTTGGAGCCTAATTTCATTGCTTGTCATCCGTTTTGTGCTCCAGTCGTATGGGACCCTTTCACCAAGAAGGGAAAAAGCTGCTGATGACTTCGAGAAGATAATGCAAGTCCTTAAGGACGAGTTGGACAACGAGAGACTAAGACTGGACATGGTCTTCGCTGATAGGGATTCTGGCGGTGTAGCCAAATCAACAGCCCCTTGAACACTCATGCCCCTCCTCTGACCAAGAATGTTGTCTCCCCTCTCGAGTATAACTAGATAAGCACTAGAATTATGCTCAAGACATAAGAGACTAACGTACCTATTTCCCCCATAACTAACATCAAATTGCTCCAAACCTCTTTACACACACTCAGAGCCTTTGCAACCATGACAAACTCCAATCTCCAAGAAAAACTATTCATAAGTATGAAAAGGTGGGGTATTAGGGATGTTTTGGCGGAGTTTCAGATTTAGGACTTGTGATATCGCTGACTCCTCCTCATCTTGGAAGGGTGAGGGTTCCCATCTCATCGTTCCCACCATCGATTCGGGACCACATTTCTCATTTGAGGGCAGTAGGGGGTATCAGAGCTCCCCCCACATACGGTAGACCCAAAATCACCTCCTTAAAAATAAATCTATAGTGTAAATAAGTGTTTCAATTACATTAAATGTAAAATTCTCTGGATTGAATAAATCAGGAAATAAAAGAATTAATAATAATCTAAATTCCTCTCTCCCCACCTCCCCCTTGAATATGGTATATAAGGAGTAGAGCACAAGGGCCAGCACGAAGATCAACGTGCGGAAAACAAACTTAGTAGAACTAGTAAATGGAAGAAAAGCCTTAATGTTCCTATAAGAGGTCTCTATGGGACCTCTTACCTTATTGTACAAATCCAACACTTCCCTCTTGGGCAGATCTAGATTAGTAGCCCTAGCAAAATAAACAAGACTCTTCTTCTTTCTCCTCACTTTTTCCTTGCTATACACGAGAAGCCTGAACTTGACCTGCTCATCCCTCCTATGCCTCTTACTATTAGTTGTGTAATCCCCGTCAAACTCCTCAAACACCTTCACGTCCCCAACAGGCACAGCAATTATATACTTAAACTGTGAAATGAAATTGAGCACATCAACTGTGTAGAAACCAGCGTCAAGAGTTATCAACCTTATCTTGAATCCCATTGCCATTACTTGCTCCACGAGGATCTTCACTATCTCGTCCTTAGTCATACCGTTCACTTGCGGAATAAAGGCAAGTAAAAGTACTTTCCCCTTATACTTGGTTGTTGCAGTTGCGTAGTTCCACGAGTTTCCTTTTTCAGAGCTCCCGAGCCCTTTCACTGGTTTCCCATACCACGTCTTGGTTGTCCAGTCTATTGAAAGATCTATCTCATTCACTCCCTTTAATATCTCCAAGGATATTTTCCTAGCTCTTTCCAATAGCTTTTCAATCACTTCCATCCCTTGTTTCTCTACGTAATTCCTCACGGTCTGTGGGGATACGTCATACGCTCTGGACTTGTTCTCTACTGAATCGTTCCACAAACACGCGGAGATGAGAGTTTTTGCTACCTCATCTACCTTTTCCCCTTTGAAGTTCAACATGGAAAGTAATTTATATCCTATTTGTTGAATGTTATTTTGGTGAGGGAGACCGGGTGTTACCATCTTCCTATCTCACGTAGTAATACTCCATCTCCCTCACCTTAAACCCTTTCTTCAATTCTTTATACTCTTATAAATTTCTTTATCTTTTATAAATTCGATATTATCCTATCAGAAATATTTTTTCTAATATGATTTTGGGTCTACCGACATGAAAAGAGGGGACTTTCATCCGTTACGTCTAGTCCCTTCAATGAAGGAAGGAGATACTAATTACCCCCTCCATCAGTCCCATTAAACTGGGGAGGAGCTTCATTAGCATCACTAAGAGAAACTTTGGCAAAGAAGTATTTAAACACGGTCTATCCATCCCCTTGGCTAGGCTTTCCACTCCTTAACCCCCATTTTTTTGTAAGTTATAGTGTGAACTTCGAGTGAATGACCGTTAGGATTGTTGATGTTGATGAGCTTTGAATCCTATGGTTAAATGAGTACTTGATCATTTCCAGGCTTCTATTCAAAGCCTTTGGCTCTTGAACCTAAAGTGAGGAGCGAAGATACTCGTTTGGGTTTACCGGAGAATCACTGTGTGAGATCCTCTAAACCAGTAGTATAGGTTGTAATCGCCACTAATCCACCTTCTTCAGGCACATATCTTTTAACCTCGTTAAAAGCCCTCCCATGCCCTACCTAAAAGCTTACCCGCTTAGCAAGATTATGAGACCCACGTTACTGTGATAATTATGTTAGTAGTGGAAAGTATGCGCTTAGCAAGATTATGAGACCCAAATGAAGGACGAGAGATACCCTCTCTAATTATCATGTATCTCCTTTAAGTAATACTCATAGCTAAGCGACGACAAGGCATGTCCATGATGTTATCCTTAAGCTACATATTTATCATATGTCGAGAGAGTGTCCCAAGCGCAAATAATTGAATAAATCTATGTAAAGGTTTATAGATAATAATTCAAAAGATATTGTGAATTACTGAGAAATTTTGAATTTTCGCTTGAAGCAAAAAGTCGCGTAATACTTAAAGGGAACCGGGACGATGTAGTACCGATTCACATGAAACATTGGATAGAATACTACAACGGCCCGGTCCCCTATGAACATTTATCAGCAAGGCATAAAACACTTGTGAAAATGAACTACATGCTGATCACGTCTGAAGTGCTGTCGCGTCTCTCTGACCTCTTCATATTGAGAGCGTTAATAGTGATGATTGTGTGGACGTGCTCCTACAGGGACGTGCGGAGCTACTACGAGTCAGACGTGGTGGTAAGGTGGTTCCTAGGCGAGTACAAGTCTAAGTCGGAGATCCATAGGAGGGCAAAGAAATTTAGGGGAGAGGTAAAGACTCTGTTCAAGGAGTACGCCAAGGAGTTGGAGGGGAAGATGAGTAGACTTGCTGACTACTTACCTAGCAGTGCGTTATACGGAAAGGTTGGAAAGCTGTGGATCGTGGATTCCTTCCTAATCGAGGTACCCTTCGGGAAGAGGAACAAGGAAACATTGAAGAAGAAGTTTGAGCTAGACCTAAGGCAGAGGAAGTACAGGGAGGCGGCTAACACGCTCTTCCTTTACATTAAGTGCAAAGTGAGGAGGTTCAAGGGAGAGTTTACAAAGAAGAGGAACAGGAGTTCGGCTTCAAGGTCTTCAACCTCATGTCGCCTACAATGATAGTTCACGAGATTCAAGTGGAACTGGCCAATTTTCCGGACAATAAGGTTGGCTTCTCTCGCAGCGGTTATAAGGTAGTGGATAGGGGCTTCGTGGGGAAGTCCTCGAGCTGGTTGATAGGTTTCTCTAGTTTCAGGAGTGGAGTTCTTTGGGATCTTCTTGAGGAGGTATTGGAGGCCTTACGCTACTGAAAAGGGTATGGTCGAGTTCTTTGTCTACGTTATCGCGTTGATTTACAACTTCTATATCTACACTTCTGTGTTATCGCGTGTTCTGGAGAGTCAACTCGCCCACTAACTTGTACCGCGAGAGTTGATCAAGGTAGTGTGGACTATGTTGGAAATTCTGTTTTTCTCTATACTTGATTATTTTCCATTACAATATAAGCTTAATCTCTCGTTATACTGAAAGATATAATTATATTTTATTCTTAATTAATTATAAAATTGTTTTTCTATCATACTATATTTATTCAATTATTTGCGCTTGGGACACTCTCTCGAAGACGTAGAAGGGGAACATTAGCTTGTATCTTGTTACCACGTTCTCATCGTACTTGCTCCAGTCCCTAGTGTTCTTCTTTTCCATGGGTAATACTCTTCATAATTACTTTAAAATTTTTGTATAATTCTGAAGCGATCCACAACGTATATATAAACTTCTTTATAGAATTCTTGAGTTTCCCTAATCTTAATCTTATTGACTGTTAAAATTCAAATTAAACGTTAGATTAAAGGCAAATTTAAAGTATGTTTAATAAAATTTGAAATAACTGGCAGCATAATTTCAAACAAAATAAATATATAGAGCCTAATCTTCCATTATAATAAATGGCTTTCGATATAGCGTTAAAAAATGGTAACATATTTAATGGAAAAGAATTTATAGGAAAAAGCAATATTTACATTAATAACGGTAAAATAGTAAAAGTATCCAAAGAGGAACTAGATGCCAAACAAGAAATAGACGCAATGGATATGTTTGTAATGCCAGGTTTAATTGATGCTCATATGCACATATCAGGAATTAAGGGTGGAAGTTTATTAAAACTAATGTTTGAAAGACCAGAATATAGAACTATAAGAGCTACTAAATGGTTAGAGAAACTACTGCTAGCTGGTTTTACAACAGTTAGAGATTGTGGAGATCCTATTTCTATATCATTAGCTAAAGCTGTAAAAGAAGGTATAATTAAAGGACCTAACGTAATTGCTGCAGGCAGACCTATAACTCAAACTTTTGGTCATGGAGAGTTGAGCCATGATATACCATTAGAAGTATCTGAGACTACTGGATTTTCAGAAATTTGCGATGGTACGGAATCATGTATTCATGCTGCAAGAAAAGTTTTGAGAGAAGGCTCAGACTTCATTAAGATATTCGCTACTGGAGGAGTTTTATCTCAGAGAGATAAACCAGAAAATCCTCAATTAACTTATGACGAAATAAAGGTTATCGTAAATGAAGCAGAAAAAGTAGGAACTTATGTTGCAGCTCATGCTCATGGAGATAAAGGAGCAAGGATTGCAATAGAGGCTGGAATAAAAACGTTAGAACATGGGACCTTGCTTCAGGACGAAACGTTAAAGTTGATGATAGAGAAAAAGGTTACTTTAACTCCTACATTATCTATTCAGGAAGTAATTTATAGACATGGTAAAGAGATAGGAGTTGATGAATGGGGATTAGAAAAGATTGCAATGGTAAGAGACAGTATCTCTTCAGTAGTAAAAAAGGCTAAAGACTATGGAATAACAATAATCACTGGAACTGATTTAGGTTTTGAGACTGGTCTTGAAGATATAGATATAGGAAAGAATTGGATGGAAATTGTTCTACTAATAGAAATAGGTGGTTTAACTCCAGTAGAGGCATTACGTGCTGCAACATATAATTCTTCAATAGCAATAAACATTAACTCTGGATTAATAGATTCTGGTAAAGAAGCTGACTTGATCATAATAAACGGAAATCCTTTAGAAGATATTAAAGATATATCGAAGGTCTCTTATGTTATTAAAGACGGAAAAATTGAAGTGGAAGAAAGAAAAATTAAAAACTAATTATTTTTACTTCTGTACAATTTTTTTAGATCTAACAATAATTGATAGTAGAAGTGCTAAAAAGTTAGGTAGTGCTATTGCTAGCAAGCCTGCTTTTTCGAATCCATAGGATGAAATAAGTCCACCCATTATAGGTGCGCCAAATATAGCGCCTATGTTGAAAGTAAGAAACATGAAACCAGTAACTGAGCCTACTACTTCGTCTGGAACTACGTCTTGCGAGAAAGATATTATACTCACTATTAGGCCACCATATCCAGCTCCCCATGCGATAGTAAGTAAAATCATTGGTAAATACCCTAAGTATCCTATAAAAAGGCCTATAGAAGATAAAGTTAATATTGTACTACTTAGTAGCAAACTTATTTTTCTACTTATCTTATCACTTAATAGTGCTATTGGGAGTAGAAATACTAGTTCTCCGAGACCATTCATAGATGCTATTATTGTAGCATTAGACTTGCTTAAGTTCAGACCATACAAGAGATAGTCTGAATAATATCCTAAGAACGCAAATAATGCTATCCCAAATGATAATATTGCAATACTTAATATTATGGTATTTACATTTAGAATTTTTTTCAAGTCTATTTTTTCTCTTATTTCCTCTCTATAATTTATTGGAACAAAATAAAAGAATAATGCTAAACTTATTATGGATAAAATTCCTGATATCAAGAATGGTAAACTAAATTTAGGTAAAAAAGGTGAGATAACATACGGTGCTATAAAAAGCCCGACTCCAAAAGCTACACTATTAGCTCCTATTCTTAATGCTCTTGTTGTATTTAATAAATCTCCAGCAAAAGCAGCAGTAGCTGGTTGGAATATTCCTACACCCACACCAACCAAAAATCTGTATATCAATAATTCTAATCCGTTAGATACGTATCCTGTTAATATAGTAAATATTGTAAAGAGTCCTACAGCCGATACTATGGTATATTTTGGCGATATTTTATCAAATAAATAACCACCTACCATACTAAAAACAGCTATACCTATTGCATATATAGACGCTGTTAGGCCTATATATGCTGAACTTATCTTTAGTGTGCTTATTATATAAGGAGAAGCGAAAAAATATAGCTCAGAATCGTAAGCCTCAAGAAACCAAGGTATTAAGACTAGAACTATCATTAATACATAAAATTTTTTATTTTTCTTAGCTAGATTTTTAACGGATTCTCCACTTCTCATTACTATCAACTTTCTGAGTTATAATAATAGTTTTATATATACTTTTCTATATACATTTTATAATATTTACTGACGTAAATATGAAAATAGAACAGTATTAACAATTGTGCTTTATCTATAACTATTAAAAATTTAAAAATTTATCAATCATTATCCTTATTAACTGTTAATTTTTGTTTTAATGAGATGTCTAAATGAATGGAAAAAATATTGGTATAAGCAGGACTATTATAATCTTAATTGTCCTAGTAATTATTATAATAGCCGCAGTGGGAGCAGAATTCGTAATAACCAAACACCCAACTCCCACCGTTAAAGCAATCTCACTAGCACCATCAAACACAAACGTACTAACAGACGTAGCACAAACAGCACCACCAGACGCACTAGACCCAGCAACAGGCTTTTTCGTACAGGACGGTCCATTGTTTACTGCTGTTTTTCAAGAGCTTGTAGAGTTTAACGGTACTAATTATCACGAGGTAGTCCCAGTATTAGCTGAGAATTATTCTACTCCAAATTACCAGAATTATTACTTTAACTTGAGGGACTACGTTCACTTCGCCGACGGAGTACAATTCAATTCGTCAACAGTATGGTTCTCACTATACAGAACAATACTAATGGGTCAAGGACCCGGAGTAGCAAACTACATCGGATTATTATTCAACTCAACAGTTTACGGAATGACAGGATACGCAATACCTTGGGGAGTTAACTACGCAATACAGAACGCAACAGGATTACCAACAGCAAATAATTACACACTAACAGCACAAGTACTAGCATCAATACTCTCACACTTCAACGCGAACAACGCAACAATACAAAAGATAATGGAATACCCAAACCAAGCAGTAGTAGTAAAAGGACCGTATGAAGTAGAGGTTAGTACGCTAGAGCCTTACAGATATTTGCCATTTGATCTAGCTGGCTGGTGGGGTGCTATTGTTAATCCTGTAATTGTTGATGAGCATGGTGGAGTTTCTCCCAATTCCGTTAATTCTTACCTTGATGAGTATGGTATGAATGGTACTGGTCCTTACGTTATAGTTAAGGTTTCTCCTGGGTTTTCTACCATAGAGTTGGAGGCTAATCCTAATTATTGGGCTGTAGGTCATGACGTTCCTCTAGTTGCTCAGCCTGCTCACATTAAGTACGTTGTTATTAATTATGGTTTGAGTCATAATGATAGGGTTGAGGATTTCTTGAAGAACGATGCTCAAATATCTTACATTTCAATACCCTACTTGTCCCAAATACTTGGTGCCTACCCATATAATACTATACCGATGAATTCTTCCTTCATTAACTTCGGTTCTGAACCTGGTGTTAACTTTATTGCATTAAATACTCAAAAGTATCCTACTAATATTACTGATTTTAGGTTGGCTGTGGAGTATGCTGTTAATTATTCTGCTTTATTGTCAATATTTTCTTATAATGGTAAGCCTTTGGCTTCTGAGTTTTTGGGTCCTATATCTCCTCAGTTTCCTGGTTATTATGATCCTAGTGGTCTTCCTGACTATAATTATAGTCCTTCTTTAGCTATGCATTATCTTAATGAGGCTGGTTACATTGGTCATTTTTACGTCGTTCTTCCTAATGGTAGTACTTTGGGTGATTCTTCTGGTACTCAATTGCCTCCCTTGTCATTGTATGCCTTGTCTCCTGTTAATGAGCTTGAGGAGGACGAGCTTGAAATAATATCTCACGATCTTAGCGCAATAGGAATATCTACTACAGTCTACTACGTACTACCATCGATAGTTCCATCATTTAATACGCCAAGTAATAGTCCGCAGTTGCTTGATCTAGGCTGGTTCCCAGATTGGCCTGATCCTGTCTTCCAGCAATTGATGCCTATAACCGACATACAATTTGGAGCCCTGGATCATGCTTGGCTAAATTCTTCTAAGCTTCAGTCAATATATAGTAATTTACCATTTATTACAAATTCTACTCTTCAGAAAAAGTTAACTGCAGAAGCATACTCTATAATTTATCATGAGGCTCCTTACATGTGGTTACCAGTTACCGATTATTATTACTTTGTTCAGCCTTATGTCCATGGATTCGAATATAATGAATTTGTAGGATATTATTATAATATGATGTATTATAGTAACTATACTTACACTACATAATTTTTTAAAATATTATAATAAAAAGTTATATATTTCTATTCGTTATATTTTTAAATGCTTTATGAGTTACTTCGATTTTTCTCAAAAATAAAATTAAACTTACTTCTAATTAAAGTTGAATTTAGAATTTATCTTGATCTAATGAGTTCAAGATCTAAGAAAATTCAACTAGTCCATAAATCAATCTTTGTATAGACTTTCTACGAAAATCCTTGCAGTATTACGTAGCGTTAAAAATAATTTTATATAATGGAAGAGAAGTTAAATTATTTACTGTAAAGCCTAAAATACTATCATCTAAAATAAATAAGATTTATTTTATTGTATAAAAGAATGGAAATATTTAAGTAAGAGAAATTTCCGTAAACTACTATTTGTAATATCGAAAATCTAATGAATCATATATCAAACGGAAAGATTATAAGTCCATTAATATATTTTCCTTATGCTAAGTGAAGAAGAAAAGGAATATTCTCTTAATAAATATATAGAGTTTTTGAGACATCCTTCAATCTCTTCAACGGGAGAAGGAATAAGGGAAACTGCAGGCTGGTTAAAGGATTTTATGAATGATCTTGGTATTAGTGCTAGAATTGAGGAGACTGGAGGAAATCCAGTAGTCTATGGTGAAGTTAATAATGGGGGAAATAAAACCCTCTTGGTATACAATCATTATGATGTTCAGCCCGTCGATCCATTAGATGAGTGGAGATTTCCTCCTTTTTCTGCAACGATAAAAGATGGTTATATTTTTGCTAGAGGAGCTTCTGACAATAAAGGCACATTAACGGCAAGATTAATTGCTTTTTCCAAGTATAATGGAAAATTAAATTTTAAATTCCTATTTGAAGGTGAAGAGGAAGAGGAAGTATTAATTTATCGAAATATGTAGAAAAGAACTCAGAAAAACTAAAATCTAATGCAGTAATAATGGAGGGTTCTGGTTTAGATATTAAAGGTAGGCCTATGATAGTATTAGGTGTTAAAGGACTTGTATACATTCAAATAAACTTGAGAACTGGGGAAAGAGACGTTCATTCTTCTAACGCTCCTATAGTTTATAATCCAGTATGGGAATTGATAAAGCTCTTGAATTCTATTTTTGATGGTGAAAAGGTAAAGTTGAAAGGATTTTATGATGATATAACACCTTTAAGTAAGGAAGTGACTGAGCTTTTAGATAAATATGATCAAGACCCAGAGGAATTAAGAAAATCTTTAGGTATATATAAATTAAAAAATAATGATTTAAGATCTCTGTTTACTGAACCTACTTGTAACATAGACGGTATTATTTCTGGTTACGTAGGAAAAGGAAGTAAGACTATAGTTCCATCATCTGTTAGTGTTAAACTTGATTTTAGATTAGTTCCTAATCAGGATCCTAAAAAGATTTTTTCGTCCCTTTTAGAACACGTAAAAAATCAAGGATTTAACGTGGAAATTATAGAGATGGGACTAGAGAAACCAGTAAGGACTGAGCCTAATACTGCAGTCACTAAAGCTATGGTATCCTCAGCAAAGAAAGTTTACTCTACGGAGCCATTAATTATTCCTAATGCAGCAGGGACTCAGCCTATGGGTTTATTCTTTGATCTTGGAATAAAGGAAATAGTCAGCGCTATAGGTGTAGGTACTCCCTCATCTAATGCTCACGCTCCTAATGAAAACGTAAAGATAGAGAATTTCTATAAAGCCATAGAACACGCATACGAATTTTATAACGAATATGAAAAAATTTAAATTTTTTCTTAAAAATTTTTTATTGTAATGAAGGGACTATATCTTGTAGTGGTATAGCTATAGCCCATCCAAATGAATTAGCTAGAAACATTGTACTGCCAGCTATTACTGGATTAGTTATTCCGAATCCTCCGCCAATATCATAGGAGTCCTCTATTTGTCCATTAGAAGGATTTAATGCTAATACATATGGTCCTGCTGTTAACCATAAATATCCGTTATAGATTACTGGTGCTCCTCTAGGTGCTCCAGGAGTATCTGGAGAAGCCGGTTTTACATATGGAGTCAAGCTAGTATTCCATATTACATTACCGTTAGTTATATTTAGCGCAGTTACACTGGCAGTAGATGGACTGGTTATGTATACTATTCCATTATCTATGTATGGTACTGCTGATTTAAAGGCTACCGGCAAATATCCATATCCTATAGGAGTTGTCCATAATTCCTCTCCATTAGACGCATTGTATGCTGTTACTATTGTATATACGTAATTGTTACTTTCGTTTGCTACGTTCTCTTGAACTACAATTCCAGATTGTTGATCTACAGCTACTGGTCCATCACCTCCGCTTGTATCATATATACTCCAATCTGTAGGAGTGCTTATCCATAATATGTCTCCATTTTCTCCATTTACTGCTACTACTACTCCGTAAGGTTGTTGCAATAAAGTGAATCCAGCAATGAATACTGGTATACCATTAGGTAATATATAATAATCAAGGCTTGACATGCTATCTATATATCCTTGTAAATTATCTTGCCATAATTCTTCCCCGTCATACGGATTCACTGCCTCTATAGTTCCGTTTCCTGTGGCAAATACTAATTCGTTTCCATACACTGCAGGGCTTGGCATTAATTCTCCTTTAGTATACATCATCCATATGAGTTGCCCATTTTGTGCATTAAAAGCATAAATTGCTCCGTAACCCATTCCTCTAAAAACTTTTTGAGGCTCATTTGCTAATAGATTAGCAATTGCTGAGAAAGTAAATCCTACATCACCTACTGTCACGAAAACCATATACCGTGATATACTATTGGATTACCCATAGCATAGCTTGCTAGTCCAGACGCATACCATACTGGTTTTCCAGTTAATGGATTAACAGCAAATATACTTCCTAATCCTCCGCTATCAAATTCAACATATAACATGTTATCTGCTAATGTTACTCCTAGAGGTTGTCCATCGAATTGAGTTAGTTTAGCCGGTGCACCTCTATCTCCGTCAACTTGATATGCAGGTAATTCGCTATATGGTGCATTTAATGGTATAGCGTCACCTCCTACATATTCTACTAATGGTTGTTCCCAAGTTATTTTTCCGTTTATCAATAATGAATTAGACGTTCCTACTACGCCGTCATGTGCTTGAGTATATGCTAATACGCACCAATCTACAGGGAATCCTAATTGTGGTGGTGTGTTTATTGGTTCGTATGTTACTGTTAAAAGATATGGAAAATACTCACAAGGTATATACTGATTTCCAAATTTGTCGTATACTGGAAACCCTAGGAATCATTGCTTTAACTTGTGTTTCATTTGCCATATTTATGAATGATATAGTAGCTAATATCATTATAGATAATATTACCATTATTTTTAAATATCCTTTAAATTTAGATTTCATTATAGTTCCAAGCCAAACGATGAAGTGATTATTTAAAAATATTTTGAACGAATTTCTTGTTCACTATATATAGATAGTTAGACGTTTGATAGAAAATTTTTATTTCATATCAATCATATTCATGGTCTAAATTAAAAACTGTTAGAATCATTTTTCTAGATTTTCTATGTTTTTGCTATGAATACACCTTTATAGAAGAATAAAAGTTAAAAAATTCTAAATAATTTACTTAACTAAATGAGTATATATTATAATACCAAGAATAGTTAGTTATAATGATTTTAACTATTTAATTGGTTTTTGTTAAAAATTTTTAACATGCGTAGTATATACTATTCTAATTAAAAATCTAGAAAATAATAGAAGTTTTTTCTACATTATTGATAAGAGTGTTTTCGTATAGTTATCATATTATAAAGTTTTACATAATATTTTTTTAGGAAAATGTAAAATTACTTTTTAAAGAATTGCCCAATTTATATTACCATTTAAAAAGGTAGGTATGCCATGATTACTAGATTTATTAAGTTCTCTATTATTTTGAAAGTGAGAATTATATCATCTAAGTTTTAACTCATTGCGTATGGTTAGTGAGATATATTAAGGTTGTTAATAAGGAGGTAGTATTTATTATCTTTAAATATTAATTTATAAAAATTACCTTATTAAACCCTCATATGTTATATTAAATGATGTGCCATTATATAATAAGTTACCTGGAACTGCTATAGGCTCTCCAATGTCATTTGTCATGGTAATAGATTCATATGGAAATGCTCCTATTGGTCCAATAGTTCCGTCTATTGTAACATAGTTTGTTAGTGCTATATTAGTATATCCTTCTCCATAATACGCTATTCCAAAATCAGCTAATGTACTTAAATGTCCGAATACTTCTGGTCTTTCTTCTATCCATTCTCCAGATAATAATGAAGACGAGTAATTTAGTGTTATACTAAAGTACTCATGTTCTGTAACATCATCTAATGTTATTTTCCATTCTTGGGTTGTAGAATTTATAACTTTTAGCAGTATTATAGAACTATAAATTGTGTCTCCAGGTTTAACTGTAAAATTTTGTATTGGTGTTGCAGCAGCTGGAAGAATTTCGTACCATGCACAGTAGTAAGTCTGTCCAAATTCAGAATAAGATAATGTTCCTGTCTGAATTAATGACTTGTCACCGCTAAAGAATCCGCCTATTCCTATCCACTGGGCAGAATAAGTAGGAAACATTGTAGGTTTAACGCTTTGGACTATCCATGAACCGTCTATATCTGTTACCTCCGGTTCTGGGTTACTAAAATTTGACGATACAACATATCCTGCCCAATTTAATGACTCTTCTCCAAAATAAAAGGTATACTTTGACATTACTGGAACATGTGTGGCTGTATATGATATAGGTAAAGTAGAAAAAATAACAATGTGGCTAAGATTAGTATTACACCTCTTATATGCATTTCAATCACTTTTTTAGTTAGTACATATAATATAAGTTTTTCTGTAATATAATTATATAGATTTTAATATATAATTAATTAATCTTTAAACTTGGTAAATCACTATGATTAAATGAAAGATAGTATATAGTCGATTTTCATTATTTACTCAACTAATAATATTCAATTATATCTAATTTAGTAACAATTTTTCTGTTTATATTTCTAGTAGAATAGGAAGTTCATTTAAGTGACATTTAATTTTTATAATATTTTAAACATTTTAAGCATTATATAAGAATATTAAACTATCTCTACATGGAAATTAGAAATTTACATATAAATATCATTTCTTCGCTAGTCATTTATGGAAAGATCTAAGGCACAGGCTGAAGATTTAGGAATAAAATCGGATAAAATGATGAGAAAAACATTATCTAGATTAGAACTTCTTTTTCTTTCATTACAAGGTATAATAGGTTCTGGATGGTTATTTGCTTCTTTATACACTGCAGCATATGTAGGTGGAGCAGGAATAATATCATGGATAATAGGAGGAATTCTCTTAATATTTATAGCTTTGACTTATTCAGAAATATCTTCCTCAATACCAAAGTCTGGTGGAGTAGTAAGATATCCTCATTATACGCATGGTGGTATAGTTGGTTATATTATTGCATGGTCGTATTTCGCTGCAGGAGCTACTGTACCAGCAATAGAATCTACTGCTATTGTAACCTATTTAACTAGTCTTTTTCCATCATTAACTATTAATGGTTATTTAACTACTACTGGACTTGGTCTAGCCTATGGGCTTTTATTTTCCTTCTTTATTATAAATTATCTCGGAGTTGGGTTAGTTGGAAAAGTTGCACATGGCGTAGGATGGTGGAAGTTAATAATACCTAGTTTAACAGTAATTATGCTATTAGTATTTTATTTTCATCCTTCAAATTTTTATGCTAATGGATTCTTTCCTCCTTCTAAATACTTAGCATCTGGATTCTCAGGCTGGTCTTCTGTTCTTTATGCCATTCCAACTACTGGAATACTTTTTTCTTATACAGGTTTTAGGCAAGCTATAGAATATGGAGGAGAAGCTAAGAATCCGTCGAAAGATATCCCTTTTGCAGTAGTAGGCGCGTTACTTATATCTATAGTTCTTTATACATTACTTCAAGTTGCGTTTACAGGGGCTATAAATTGGTCATCTATTGGTGTGAAAATCGGAAATTGGACAGGATTGCAATATTCTTCCTTATCTTCAGGTCCATTTTATGAGATATTTAAAAGTTCAAGCGTTGCTGGCTCAATTCTTTTACTTTTTGATGCCTTTGCAATACTATTATTGATAGATTCAGCAGTAAGTCCAGCAGGCACTACAGTAACTGGCATGGGTACTGGAACTAGGGTACTTTATGGTCTAGCTTCAAATGGATATTTGCCAGAAATCTTCCTTAAAATAGGGAAAACTAGGGTTCCTGTAATTTCTTTAATAACAGTTACAGTATTAGGCGGGATATTTCTTCTTCCCTTCCCTGCATGGATAGCATTAGTTGGAATAGTATCTTCAGCAGCAGTGTTTACATATATTATGGGTGGAATAAGCTTAGAGGTTTTAAGAAAGAAAGCTCCAGAACTACATAGACCTTATAGATTACCTTTAGCTAGAGTTCTTTCTCCTATTTCAACTCTCGTAGCTCTACTCATAGTATACTGGGCTGGCTTCGTTACTTTGTTTGAAGTAGTCACCATAATATTTGCAGGATTTCCAATATTGTTCGGATATTATGCTAGAAGAAACTGGAATATATCAGTTAGATTAGCTACTCTGCTTGGTGTAGCGAACGCACTTATAATTGGCATTCTAGATCTTTATTTCTTTATGATAACTAACGGATTAAGCATGAGTAATACTTTTGCTTTTATGATTTATTTAATAATAATGAGTATTTTGGTATTTTCAGATATGGCTATAATATATTTAAAGAGTGTTACTTCACGACAAGAAATAAAGTCAGGAGCGTGGATGCCAGCGCTGATATTTAGTGTTCTTGCTCTATCTTATTTCGGTAGTTTTGGGCTTGACGTATTAATACCTTTTCCTCAGGATCTAATGGTACTAATAGTTATAGGTCTATTTTTCCATTATATTGCAGTAAAAAGCGGAATTAAAACAAAAGCTATTGAGGAAATAATAGACAATATGAAGGGTTTAATATAATTTTTATATTTTTTACTTTTAAAAAGAACTAAAAATTATAGAATAATGACTCTATAATAAACCTTAAATTATTTTTATCATCATATAATATATGAAGTACTTAATAGTAAAGAATTATCCTATTGAAGGACCTGGAGTACTTAAGGAGATACTTAGAGGTGAAATAAAAGAGATTATGGCAGAAGATCTTCATGATGAAGATTTTGATGCATTAATTATTATGGGCGGTCCAATGGGAGTATACGAGAAGGATAAGTTTCCTTTCTTACAGAAAGAAATTGAAATTATAAGGTCCTCTTTTGAAAAAGGAAAAAGGATTTTAGGTATTTGTTTAGGTTCTCAGTTATTGTCTGCATCATTAGGTGGCGAGGTGATTAAGGGACAATTCGGTTCAGAAATAGGTATAAAAAAAGTAAAATTTATTGGAGATCTCTCTTATCTTGGGGACGCTAATGTATTTCAATGGCATGGCGATACTTTTTCTTTGCCAGAAAATGCCGAACTTTTAGCATATAGTGAGAAATATTTTCAAGCATTTAGACTAGGGAAAGCATTAGGTCTGCAGTTTCATTTAGAGGTTAATTCAAGTATAGTTAAAGATTGGTTAAAGGAATACGGAGGAGACGAAAATTTGATTACCGATGTTTCAAAAAATGAGATTAAGCTAAGAGAATTATTGGAAAAAATTATTAATTATTGGTTAAAACTTTAAGTAGTTGCAGCAGTTTTATTTGCTTTAAATGTGTAATTCTTTGTCCATAAAGAAACTATTAATGTTACAATCATTATGAATATTCCTAAAATTGCGATATAGTCAAAAGCTGTAGCTGACGGTAGATAACCTAAAACTAATGGTTGATTATTATACATCATTATAACTGGATCTTGATAGCTATCCATTAAGACAGTTGCTGCTACTGGTCCTGCAGATCCTCCTAATGTTCTTAACATTGTGTTCATACCCATACCAGTAGTTCTATATTCGTCTGGTAAGGATAGAGCAACCATATTTACAAGAGGTAAAATTACAGCTACTAAACCTATTGAACTTACAAATCCTGCTTCCAATAAGTCTACTGGAGTAGCCCTATTTACTAATAGCATGAAATACGATAATGCTGATATTATACTTCCGGATATTAATACTGGTTTTGGTCCAATTTTTGGCATTAGCCTACCAAATAACGGTCCAAATATAACCATTCCGAAAGCTACTGGCGACATTAATAATCCTGATTCTATAATAGATAATCCTAAACCATATGGACGTGGTAATTGAGAATAATACACCATGAATATAAATACCATGAACATTCCTATTCCTGAAACTAAACCAACTATGTTCGCTACTGCGAAGTTTCTTATCTTGAAAAGATCTAGACGGAGTAGAGGTTCTTTAACTCTTTGTTCATAGGCTATAAACACTCCATATAGTACTAACCCGGAAATCAAAAGTGCCAAATTGTTAATGGCTAACCAGCCTAATGTAGGCCCCTCAGTTATATATACTAATACCATGACTGTGGCTAATCCTATCAAGGTCGCTCCACCGTAATCTACTTTTTCTTTTACTCTGTGTCCAGTATGAGGTAAATATGCTACTGAAGCTGCAAATACTATTATTGATAATATTGCGGCGGTATGGAAAGCATAAGGCCATCCTAAGTCTTCTACTACATACGAACCTACTAAAAGTCCTAGAGCTGGTCCAATTCCTAGAATTGCACTTAAGATAGCTTGTGCAAATGCTACTTTTTCTCTTGGGAAAAGATCAGTTATTATAGCTATTGCTATAGGAAAAATTGAAAATCCTACACCTTGTATGGCTCTAGCTCCTAGCAAAAACCATATATTCGGAGAAAAACCTGCTAAAGAAACTGCTACTATATAGAAACCTATAGCAATTACATACATTTTTTTCTTACCGTAAGTGTCTGCTAATTTACCCATTAGTGGTGACGTTGCTGCGGCTACTATCATATAAGCAGAAGTTACCCATCCAGCTAATGTAGCTGAAATTGAAAAATCGCTTTCTATTGTAGGTAATGCTGGTATAACCATAGTTTCTACGTAATTTACGATTAAGAGCATTGACGAAAGTAAAAGTAAAGTTCTTGTTTTAATGTCCATGGTGTAATGTTTCATTCTAGCTTTAATAAAAAGTTTTCGATATATCTTTTTAATTTTACGGCATATAAGTAATTTCCTTGAAGATGTACGCAGAAGGTCTTGGATTCATATTAATATCATATAAGCCAAATTTCATATTATATCCAAAATTCCACTCATAATTATCTAATAAAGACCAATGAAAATATCCTTCTACTTTTACTCTAGACGATTTTATTGCGTTCAAATGATCTAAAATAAATCTAGGTCTAAGATAATCTCTTTCATCAGCAACTCCATTCTCTGTTACATAAATTGGTTTTTCTATTCTTTTTACTGATTCTAAAACTTGCGTAATTCCTTCTGGATAAACTTCCCATCCATAGTCTGAAGTAGGATTTCCATCTAGAGAGGAAGAGTCCTTTTCGCAGAAGAAACCGTATCCGTGCAATGGTATGCCTTTCTTATCTAATTTTATTCTAGAATAATAATTAACTCCTATCCAGTCGATCTTTATTTTATCTAAAAAATCCCAAACCAATCTTTTTTCAGCTTCCTTTTTTACATTATCTTCTCCTTGAATGGCTGGTATCATATAAACTATACCTACTTTAGCTCCCTTTCTAGACAATTCCTCGTAAACCTTATTATGAGCTTCAATAACGTTATTCCTTACTTTTTCTGCAACGTAATTACTAGTTATCCCTGGCGGAAAATATCCTGTTAAATATCCGAAATCTATCATGTTATTTGGTTCATTAAAAGTACATATATAATCAATATATTCTGAAAAGTTATCATATATTAAAAGAGAAAATTTCAAGAACTCGTCTATAATAGATTTATCAAACCAGCCTAAAGGACCTTGTGTCATAAGGGATTCTCTAGCTTTTATAGGATCATGTAACCATAACGGTAGGACAAAATGATTCAAACATGCAAATATTTTAAATCCCTTATCTTTAAGATCCTTCAGAATCTTCCTATACAAGTTTAAGTATTCAGTAGAGATTTTATCTTTTTTAGGTACTAATTTTTCCCAACTAAAGCTTAGTCTCCAAGCATTTGCATTTACCTTTAATGCTAAATCATGTATTTGTGAATATTTAGAAATATAATAATTTCTTGTAGGTAACTCACCAGATACTTTATTTAGGAAAAGGTTAGTAGGATCTGTTATCCATGCGTACCAATCACTATTATTATTCATTTCTTCGTATTGAAACGAGGCAATAGAGAATCCGTAGAGCATAAAGTCAAGTTATTATTTTAGAAAATAAAGATTGACTATCTTCTTTTCATTATTAAGTAATGCTTATTTGTTGTAGAAAATACTCCACTTATGCTTGTAATTAATCAACCCTTACCTACAAAAGGAATAATAGTGGAAGAACCAGAGGTTGTAGATATTATATCCTCGTTTTTGACTGATGTAAAATCAATAAATGTTAGAGGATTTCTAATTAAGATAGGGAAATACAATAACGAGAATTTTGTTATTTCAAGTCATGGAGTAGGAGGCCCTTCGACGGCATTTATTTTAGAGGAATTGATAAATAATGGAGTTAAAGTTATTTTAAGATACGGTACTGCGGGAACGCTAAATGGTAAAAACTTAGGTGATTATTTCATACCTTTAGGCGTATCTCATCATTATAGTAGTTCATTATATCAAAGATCTAGAGGAGACATTGTACTTTCTCTATTTCCAGATCTTGAGCTAGCCTATGGATTATACAAAACAATGAAAGAAAATGGAAGAAATATCTTTTATGGATCTATTTTTCAGAGTGACGATTTTTATTCGGAATCTCATGTTTCCTCTGATGATGCGGTAGATATGGAGAGTGGAACTTTATTTTTAATATCTAGATTGAAAGAAATAAAAAGCGCCTCTATCTTGATTATAGCTAATAATCGAGGTAAATGGATAAATTATGAAGAAATATATAAAAAAGACGCTCCAATTATCCTTAAATTCCTATCTGGTATTTAATTTGTTTTTTATTATATTTATTGTGTTTATAGTAGCATATATATACAATAAAACTATCGCTACAGACATGACTGAGACGCTCCATAGGAATACTGGTAATTTAGTCTCTTCGTAAAGTAAGAAATCTGAAAAATCAGATATGCCTACAGGGAATACATAAGCCCATACTGTTAAAGGCATTTTTTCCTTTACGTGTCTTAATGCAAGCAGTAATGCAACTGTTAAATTCCATATTTCAAATCCCCATAATATTATAGCAATAGTTAATGCGAAATTAGATGGAAAATAAAATAGGTTAAGGTAGTTATATGACGGAAATATTAGAATATTTATTGCTATTATACTTGATGCTCCTACAGGTATCATTATTGCTGGAGTAGACTGTGCAGACTTAAAGTTTACATGGGATAAGAAAGCAGTAGTTCCTATAAAAATAAATTGAAAGAAAGTTATTCCAACAGCAACAAGCATCATAAAATATGCTATCTCAGTTTCTTCTTTACCTATGTATGGGAACGAAGGTGGTAATATAGGCGCACTTAATATAATATTTGCAGAGAGAGCTATGGATGGAACTAAAATTGAATAGTTTAGTTCTTCAGGTTTAATTTGCTGTGAAAATAATTTATATCCTAATAAAATATTTACTACAAGTACAATCGCGTATCCTATAAAATACATATATAAAAGTAAGTGTATTACTTCACTTGATGCGTTAACGTATACTGTAAAGAAAAAACCAATTACGAAAATCAATACTCCTAGAAAGGAAGTAAAACTAAGTCTATTTAATTTATTAAAATCTTCCTTTATTAATCTTGGATTAGAAATATATCTATAGCTCCATAGTGAAAAAATTAAAATAAATAAGATTATTCCTATGAAATATATTATTTTTCCTATACCCAGGAAGACGTTGTAATTAAAAACTATGGAGTCTATCCATGAGACTAAGGAAAGTACCATTGTTCCTAGAACTATTGGAAACCATTCTGAAGCAGGTTTTGGAGCCATAATATAGGTAACATAATTGTCTATTTAAATAATTGTCTATCTTGGCAAAAAATTAGTATTATAAAATATTATAACTATAATTTTATAATTATTTTAAAATCAAGCATTTAACAGTTATACTTTATAGGAATTTCTCATTATTTTGTACTATAGTAGTTTTATTATATTATTTAATATAAAAATTCATAGCAAATAGCTTATGTTTAAGTAATTTTTATAATAAATGCTATAAAACAGATATTTAAGAGAATCATTTTGAAGTATGACTAAAAAGAAAATAAGATTAAAAATTCTTAACCTATTTAATAAGAAGTTTAAATATTAGAATTTCGCTCAACACTTGTGAAAAGGAATTTATATAGGATTTTGGAAAATGCAAAATGGTCTTCTGTTCATAATTGGTCATTTATAGCATTTTCTCTAGGTATGACATTAGAAGCGTATATTTTTGGTATGGCTTCAATAGCTACAAACTGGGTTCCTATGCCTAAATTTCTTGAGAGTATATTATTAGCCTGGGCACCTTTATGGTTAATAATAGGTATTATATTTACTGGGCCTATGTCCGATAAATTAGGTAGAAAGAGAATGTTTTATCTGAACAAGGGGGCGTTCAGTAATAAATATTTCGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGCGATTTGGGGAGGATCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAACTATTCTAGCCAATTTCCTGGCTAAAGCAGTGTACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAAGTAGAACAAGCTGCGCAAGTACTTATTACCCTTCTTCGATATTCCCTTACTTACAGTAGCTTTACCGCTCCTCTCAACTATTGGGTCTAAACCGCAGTAGGCTACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCTCCAACAATGCCTATTATTATTCCCGAAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTAATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTGTACTCTAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAAGCATTTCCTTGCTTATTTTTTCCTCGTCACTGACTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTCAAGGTCTTTTAGGAAGATATATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTCTGCGTCGTAAAAATCTGTTTTCCTCTCAAGTCCTTCTCCTTCCATAGTATATTTGGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGAGTATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGTTACTAGATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATAGGCTCCACATGCTTCGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGAGGAAACCACTCGATAGAGGTTAACTTTAGGATCTTCACTTTGTATGTGTAATACTCTTTTTCTGATTCTTGAATTTTTCTATAATACGCGTTGTATTGTTAATTTTGTTAGGAGATAGTGCGAACTAACTATGAGAACGTCCCCTTAAATTTTTGCACGCTCCTACTCGGGATGTTGTCCCACATGTTAGATCGCGGGGACGTATAGCCAGCCTATCCAACGGGGTTTTATCCCCATGCCCACTTTTGGCTTGTGTTATTTTCTTGTTCTCTTTATAAAAGTTTTACTCTTGTAAGGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGCTCCCTTTGTAGTTACATTTAAATACGTATTTTTCAAATATTCTATTAATGGCAGTCACTGACGGAGTAAGCGTCACTGAGACGCCTTGGTTAAAGCGAGGGTCTATGTGGTACGCCTCTGCTCCATTCAACAGTCCCATATTGGGATACTGTGGGTTCACATTAGTGCTCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCCCGTCCGTTAGGGCGTGGCAGGCTCCACATGCTTTGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGTAGGAGTTCACTTGACAATGTTACTGTATGCAATAGGCGCTGTTGGTATAACTTTTGCTTATGAATATTATCTAATATTGTTCTTTCTAGCTATGTTACTTTTCGCTGCAGGAGGTGAAATGAACACTATAATGGTTATGAACCATGAGATAATGCCAAATAGGCACAGAAGTAAGACTATGTTTTTTGAGATAAATTTCATAAATTTTGGGGGTTTATTGTTAGCAGCAGTAGCGCTTAGTAGCGCTTATGCAAGTATTACATTTCAAAGACTAATGATAGGTATTACAGCTATTTTCATACTTATAATATTGGCATATGCCAGACTTAAGATTCCTGAGTCAATTAGATGGCTAGAAGAAAAGGGTGACTTAGATGGAGCAGAAAAAGAGGTTAAGAAGTATTTTACGTCTATAGAAGATCATTCTACTGTAGATAAGAAAACTATTAAGTTACCTTCTATTCCATTAAGGCTTGCTGTATCAATAGTTATGGCCGCAGCAAATACTATTGGATTTGGGCTAATGACCTATGTTGCAGGTCCGTATTTCTTTCCAGAACTTACTGCAACGATAATTCTTGTAGCAAGTATAGCAGAGTTTTTAGCTGGATTAGGAATATCTCCATTTGCAGATATAATATCTAGAAAACTCACTTTACTAGTATCGTTTATAGGCACAGTATCTTCTACAGCAATAATTTACTTTACAATACCGTACTGGACATCTAATTTGATTTTATTCTGGATTTTATTAGTTATTCTTAATATATTCACTAGTATAGGTTATTTAACTGAAGATACCTTAAAAGGAGAATTATGGCCTACTCCAAAAAGAGGAACATATACTGCTATAGTTAGATTTGTATCTATAGGATCTTATATTCCTGTTATATTCCTGGCAGCAGATTTATCAATATACCAATATATGTTATTTAATTTAATTATATGGACATTAGGGCTTATAGCATCGATAATATGGTTCACTAAAGGTATAGAGACTGGAAAGGGTAGGAGTTTAAGCGAAATTTCATAACATATGATCTTAAATATTTATTTTAAAACGATAAAATTTATTTAATAATTAGTTTTCTTTAAAAACAGACAATAATCTTTCGATAAGTCTATACAGTATATAGAAATTATTGATATTATATAGTTATGAGATTTTACGAAATATTTTTATTAAATAATTATTTATGATTTTTTCGTATAAAGTTTATTATTAGTTTTGACCTATATTCTATTATGTTTAAATACGTTTTTGGCCCTGTACCTTCTAGAAGATTTGGGAAATCTTTAGGAGTTAATGTTGTTCCCTTAAAATATTGTAATTGGAATTGTGTTTATTGCCAGCTAGGAAGAACAAACCATTTTATAAACTCTACAGTAGATTTCTTCAATTATGAAGAAATAGAAGAGGAAATTAAAATAGCAACTAAAATGTACGACTATGACTATTTAACATTTATAGGAGATGGAGAACCTACATTGTACAAAGATCTAGGAATATTAATAAAGTGGAGTAAGGAAAATCAGCCGAAAAAAGTTGCAGTTTTTACTAATGGCGCTAGGTTAAAAATGGAAGAAATTAGAAGTTACATGAGTTATGCAGACGTAGTAAAAGTTAGCAATGATGCTGGAGACGAGAAAACTTTTAGAATTGTAGATAGACCATATAGAGACATTCATTTTGATGATTTTATGGAAGGATTAAAGCAATTTAGGAAAGAATTTAACGGAGAAATATGGTCAGAAGTTATGCTAGTAAAAGGTGTTAATGATAAAGAAGAGGAATTAGAAAATATAGGCAGATCTCTAAAGGCTTATTCTCCGGACAAAGTCCACATAATGGTCCCTACAAGACCTCCTGCAGAACCTTGGGCAACTGCTCCAGATTCTCAAAAAATTTTAGAAGCAGGTAAAATATTATCTAAGTATGTAAATAATGTCTATATTATAGATTATATTGAAAGAGGAGAATTTTATGTAGATAAAGATAACCCTGTTAATGGAATTTTAAATATTCTTAAAATACAGCCCATGACAGAAGAAGAGATTAAAGACATATCATTTAAGTATAACGTTAATATTGATAATATAAAAGAAAAAGCAAGGGAGGTAGTTTTTAACGGAATCAAATACTACGTATATTGATTTAACTAGAGGATATCCAGATCCTAAGATTTTCCCTTCTACAGAAATAAAGGAAATATTGAAGGAAATAGATTATTCAGTACTTAATGTTGAAGGAAAAGTAGAAGGAATAGATGATGCGATTTATTATCTCCTAAAAATAAGAGGAGTAAATTTTGATTTTAACTTAGCAACTTCTGCAATGGAAGTAATAGATAATGCTATAAATATGTGTAAAACTGTAGGTTCTGAAGAACCTACACATGACGGTATAATTAAATATCCTCAAGTTTTTCCGTACGAAGGTTTAGTTGCTGAAGGGAAGTGGAATTTATCTAATCCATGTTTTTATTTTGCTATAGTAAATAATCCTACAGGAATTGTAGCTAAAGGAAAAGAGTTGGAGAGATTTCTTGAGGAAGCTAAGAACAAAAGCGTTAAAATAATAGAGGATGACATATATGGATATTTCTCAGATTCTAAAGCATTTTATTCAGATAATGTCATTTATGTTAGTAGTCTAAGTAGAATTTTGGGTTCTGGCATAAGATTAGCTTTTACTAATATTAAGGTAAAGTCAAAGCCTTCTTCCATATCTCAATATATAGTAAAAAGACTTTATGAAATGGGAACATTACAAAGGGTTATTCAAGAAGAAAAGTATGCTTATATTAAAAGACTACAAAAAGCTTCAGAATTTTTTGCAAATTATCTTTTTAGAAAACCTGAAGGAGGAGTTTCTCTATTAGTAAATTTAGCTAAGGAAAAGTTTAAGGCTAAGGTTACTGATGGATCCAGGTACTTTAGGAAAAAAGTAAAAATGACAAGAATAACTATAAGTAGATACGAAATTGAGGACATAATAAGATCCATTAAAGCATAAAATTTTATTAGAAATACTAATATGAACATTTTAAAAAATATGATAAGGAGTTATTAAAATATCTTCAATATAATATAGAAAGTTAGAACAAAATTATCCATAATCAAACATACCTATTAATTAATATATCTTATATTTTAGCTCAACTTTATCTTTTAGACTTAAATAAATTGGACAACTATTTTTTACGATCTCTAAAAGATCTTCCATATAATCTTCTTTACAATCTTTACCACAAATTTCAATAATAATTTTTTCAAAAACATAATTCCCAGTAAATATTGCTAAATTATCTAGTTGATATCTTGCAATTACCTTAAATTCTAATTCTTTCCCTTTTCTTTCATTAATTTCATTAGTTATAAGATATATACAATGCGGAATAGAAACTAAGAACGCCATTAAAGGACTTTTAACATATATGTCATTTGCTTTACTTACATTTTTTCCTATTTCTACTTGCGGGTTATTAGGATTTCCATATAATGTAATTGTTAATTCCATAAAAAATGATAATTAATATAAATATTTAAGATTAACTAGTTAGAGTTTAAATGTTCTAAATTAGAGAAATTTCTGACAATATTTCTAAAAATTTTCTAAATTTGTTAAAATCGGTTTATTATCTATTACTTGCTTAGAGTATCTTATGCTAAAAATAACAACATCTGAAAAGACTTATACTCTTAACGACTGTAATGTATTTTATGGATATGACAATTTGAGTGATCTGATAAATTCATTATCAATATTAGATCCTACAGGATACCTTAAGGAAAGAAGAAAGATTGCATGGACTGCATATTTCCATATATCTAGAGAATATTCTGACGAAATTAGAAAAATGTACTTTACTATATTCGAAATAGCCTCAATAGTTAGAGAAATGAATTTTAGATATATTAACATGGCATATGCTTTACCTTCTATCATAAGTAATGTAAATACCTCAATACAACTTTCATGGAGAGATAATAAGATTTCTTTAAAAACTCCTATACATATAGAATTGGAATCTAACTTAGTAGAAGAAATTAAAAAGGATATTAACGTAAAAATAAATGATAAGGAAATAACTGTTACCGAAAATGATAGGGAAATAAAAAATTCCTTTGATCTATACCAGATAACTGGCGTAAGAGATTTTTACATAATTTCCAGGTTCAGATATAATAGTGGAAAGATAGTGATAGATATTGATTTGGAATTTTATCCGTCAAATAAAGGGATAAACAGAGAAATAAGCATAGAAGAGTTAAACAGAGTTCTAAGAGTTACGGCTAAAGAAGTTAACGAAAAATCAATAGGCAGTCATTCAGAATTTGAGGAATTCATGATCAGTATAGTAGAAAGTCTAATAGAGCCATTAATTATTGGGGTTAGAGAAAATGTTAGTGAACTTTTAGGCTTAAAGGAAATGGTGTACATACCTCCTTCAAAGCCTTTTATGTTAAATGCGGAAGAATCTGCATTAAATGCTCAGGAAGTAGCTCAAATATTTCTAGATAAGTGCGAAATGGCTATAAATAGAATAAGAAGTGGTAAATTGAATTTTAGCGAAAATGAGTATACGTCCTATCTTCCTGGACTTAAAATAGAAGGAGGATTAATAGAATATAATGGAAAATCAATAGCTATTTCCCCTTATAATATTAAGGCATTGGCTACCATAATTTTAGAGTTGAGTTCCATAAAAGAGAACGCTATAGTTTTTCTCGAGGCGCCGGAGGAGTACATAATAGATGAAGATAGGAGAATGATACTAAATATTCTGGATACCGTCTTAAAGAATGGTAATAAAATTATAGTGCATACATGGAGTAGGTCCATGAAGGAAATGCTTGAATCTCTATGTAAAGAAAATAGATACCTATAGCAAATATGAGATATTTATGAAATTTTTAATTAAAGGAAATAAAAAGTTTAAATGAATATATCGGTATTTATCGAATACTTGAAGTTAAACCCGTGCTTTTGTTTACTTTCATTATTTGAGACTATGAGATTTACTACGTATTAATTTATATATTAATTCTTAAAATATTATATTCAATGTATGTTGTACTAGGAGAGAATGATGAAGTTATTGGGGAGTTTGATGATATTAATTCTTTATATGAATTTGTAAAAGAGAAGACTAAAGAAGGTAAAAAAATACGTATTAGATCTTTTCCTTCAGAATATTTCTTAATAGTCAATAATAGGATTATTTCCAAATTTTCTACTCCTAATGAAGCCTTTAAAGAAGCAAAAAAATATCTTAATAAAGGAGAAGATATTAAGATTACGAATATAAAGAAATTTATAGTATTTAATGATAGTGGGAAAGTTATTGGGGAGTTTGATGATATTAATTCTTTATATGAATTTGTAAAAGAGAAGACTAAAGAAGGTAAAAAAATAACTATAAAATCACCACAGGAAGTCTATTTTTTAATATGATGTTAAAGGCTACGTTAAATGATAGTGAAGAATGGTTTTATGTAGATACCGGTTTTAGCGGTGACGTTATAGTTAACTACGAGATATTTGATGCAATTTCTTCTCCAATAATGGATGTAGGAGATATTTGTATAAGTACTGAAGAGTGCTACAAAGGATTCGGAAAAATATCAAGTATTAATGTTAACGGTAGAGAAGCTAGTGTTATTGTAATATGGATTCCTAACTTTAACGAAAATTTAATAGGTGAAAGAGCATTAATAAGATTGGGATTAGTCATTAATTATAAAGATTTAGAAATAACTGATCCTTAATATTTCAATATCGTTCTATATCACTGTAAAGAAATTAATAGTATGTTATGGCAAAAATCGCTTAATGTGAATTATTTAGTATTATTGTTGTAATTATTAGGCTGTTTTATATTAAGGATTTTTATTCTTGAAAATATCTACTTGTGTTATGTGTAGAATGTTTGCGTATTATGGTTCGTCTTCGTCAAAAATAGAGGAATTATTTAATTGCCTAAAAAAATCTGCAGAAAAAGATGTTTATTTTGGAAATGCCACTCATCCAGACGGATGGGGATTTGTTATATTAACTAAGGATCAAATATTTCATTATAGAAGCGCAAATCCAATTTTTACTGAAAATTTACCTATAAAGCTTGACGACGAGGAAACAATGGCAATATTTCATGCTAGACAAGCTACTGACAAAAACCTAGTAGGTTCCCAGTTCTCTCATCCCTATAGTGAAGCTAACGAAAATGGACTATTCTTTTTTGCTCACAACGGTAGTGTTGATAAGGAAAAATTATCTCAGGATCTTTTAATAAATTCGGATATGGTAGTAGATTCTGAATTAGCGTTGAAATTTTTATTAAGATATAGTAATATATATAATGGTATAAATGATTTAAAAAATTATACTAGATCTTCACTTAATTCTTTTATAATAAGGATATCTAGAGAAAAGGAAGCAGAACTGTTTTACTTGAACTACGTTAGGAATCGTAGTGAAAAAGCTTCCTCAAACTATTATGATTTATACATTGACACAAAGGACGGAATATCAGTATTTTCGTCTACTTTATCATATTATTGTAACGATTTAGGTCAAAATAAAGTTAAATATGGAGAACTAACTCCTATTGGAAAAATGAAATTAATATAGACTTTTATCGAGAGTATATAAGCTCTTAAAGTTTAAAAAGTTCTAAGAAAGCTATTTTTATGGAAAAATACTGGTATCCAGTAGATTTTTCAGGTTTTAAAATAAAGGAGATAAACCTATTTGGAAATGAGATTCTTGTATTAAATAATGGAAAATACTTTGCGTTTCAAAATAGATGTCCGCATAGAAATGCTAAATTATCGCTAGGAAAAATTATGTCTGATAGAATAAAGTGTTCATATCACGGTTGGGAATTTGATATGAATGGGAAGTGTGTATATGTTCCTTCTTCAGATTCTGAAGGTCATGTTAATCTTAAAAAATATAATATTAAAGAAAAAAATGGAATAGTATGGATTTCATTGGATATTCCAGATCATGATGTTCCCGAATTTCCAGAATTTAATGACATGACATTTAGGAAAATAAAATGTGGGCCGTACGTTTTTAATTCAAATCCCTTTAGAGTAATGGAAAATATTTTAGATGTGTCTCATTTTGCGTTTGTCCATGAAGGTTATCTTGGAGACTCTAAATATCCTCAGATACCAAAATATGAAGTAGAAGTAAATAATAATGAAATCATAGCTAAAGACATTAAAGTTTGGCAACCTAATCCAGATGGTACAGGAGAGACTAAGCTTGTTTCTTACACTTACAAAGTATTAGATCCATTAATATTATATTTTAGAAAAAATTCTGATGAGAAAATTTTTTCTATGTACTTTGCTATATTTCCAGAAAGTAAGCAAAAAAGCATAGTTTATGCATGGATAGCTATGAATTATGCATTTGAATATTCTGAAGAAAAAATTAGATCATTCGAAGATGAAGTAATGTCTCAAGATAAAATGGTTGTAGAAAGTCAACCTTATGAATATTATTTAGACGTAAGTAAAGAATCCCATGTAGAAGCAGATAAAGCTACAATATTATATAGATACTGGATAAATAAAAAAATAGGTAAGAGGTCTGATATAGGACTTATATAGACATTATATTTTGAAGATCTCTATTAAATGTAATTTAAAATATTAATTCAATACCATATAGTCAAAAGATATTTTTGGAATTAATCTTGAATATAAACTATATAGGAAATACTAGTGTTTGTTAAGAGTAAGATATCTAGGGAGGACTTTCGCTTATTCTTAATCATAATATTTTTATTTGATAATATTAGTTCCTTCTGTGAATAGTCATTTAATAGATTAAAATCACTTTTTAATACATTAGACTTATTTTAAAAGTGACGATTTTAGGGTCTACTAATAAAAGCTATAAGTGATATTATCAAACTGAAAATATTTTTGTAGAACAATTTTGAGTTTATTGGAAGAAAGAATAGAAATAATTTACTCTTATGAAGTTAAATAAATTAAAACTTGTGAATTTCTACAGCGTTTGTTTAAAACAAATTACCTTGGCTAACTAAATTATTTCTATATTTACTCCTAAATTCCTAATATCATGAAAATCTTTATCTTTTGTTAATAATACTTAGTTATTAGCCTTAACAATTGAGGCTATCAAGATGTCTGAATCACTCTTAATTTTACCACTACTCTTTAAAGTTTTATAGATATCTGACGCAACTTTCACTGCGTCTATTGTTAGTGGATAAATTATAATTTGATTCAAAAAATCTTCTAATGTAGTACTGTTGTATTTACCCCTCATAATTTCATAAACGTTTATTACAGTGGTTGAAATACTATTGAAATTGTTTTTTATAAAATTAAGTATATTCTTATCTCCTTTCATTATTGTAATTATTATATTGGAATCAAGTACTACCATATTCTCTCACTTTAAAATTCTTCCTAAATTCTTCTACTTCCTTCTCCAATTCTTTAGCCTCTTCTTCATTTAGTATTCCGAATATCATATCTAAAGCCTCTACTCTCCCCTTTCTGTTCTTATTATAATATTCAATTAATTCATTTATAACTTGACTAAATGACTTATTACCTTTAAGTTTAGATAATTTCTCATAAACTCCGTCAGAAATAGTTATAACTTTGGGCATATATATACATATATGCATATATTGTATAAAAACATTCCCAGTGTTTTATGCTTTCTTAGACCTTAAAGTACAAGGTTATATAAATCGGATAATAATCTACAATCAACTACATTAAATCGTTTCCTTGGCTTTTAGAGTCTAAGGAAGTATAATACTCTGTATAGCTGAAAGATTTTTTGGAATTAATCTTGAATATAAACTATATAAATTTCTCTTAATAAGATAACCATAGTTAAGTTGAATTAGACTTTTATTAGAATTTGTATATATTATACTTATGATAAGGAAAGTTTCTGGAATAATTCAAGGTAAATACACAGTTGACGGAGCAGGCGTGAAGCTTTATAGAGTATTTGGAGGAGTTCCTACAGCTTATATTACAGATCCGTTTCTTTTGTTAGATTTTTTTGGATCAAGCAATCCTTCAGATTATATTTCAGGATTTCCATGGCATCCTCATAGAGGAATAGAAACAGTTACTTACTTATTGGAAGGTAAGGTAGAACATGAAGACAGCGAGGGAAATAAAGGCGTAATATATCCTGGAGATGTGCAATGGATGACTGCAGGAAGTGGAATATTTCACCAAGAAATGCCTAAGCCATTAAGTTTAGAAGATAAGGGAATTTTACAGTCCAAAATTTTGGATAATAGTAATAAGGGATTACAGTTATGGATAAATTTGCCTTCGAACAAGAAAATGTCAACACCAGTTTATAGGGGAGTTAAATCTAGTCATGTGCCTAAGGTTAAGATAGATAGTGGTGAGGTTAAGATAATAGCTGGAGAGTTTCAAGGAGTAAATGGACCAGTTAAAGCAGGCCTATACGTAGATCCTACTTATTTTGATGTCATCTTAAGACCTGAAGGAGAATTTATTCAGAAAGTAAAGGAAAACTATACTGTATTAGTCTATGTTATTCAAGGTGGAGCAGATTTTGACGACAGAACTAAAGTAGATGAAGGTAATTTGGTCATATATGGAGAAGGTGACGAAGTTCGCATAAGAAGCCAGGAAGGTTCTAGATTCATATTTCTTTCTGGAAAGCCCATTAAAGAAAATATAGCATGGTATGGCCCAATAGTTATGAATACAGATGACCAAATAAGAGAAGCTTTACTTGATCTTAGAAGAGGAACGTTTGTAAGAGATAAAAATCCAGTATTTGAATAATCATATTTTTATTCTATCTTTAATCATTTTTCTTATATCGTATATGTAAATATTATTTTCTGGACATGATTCTATGCAATCTCCCGCACCTATACATTTGAAAGATTTTAACTCACCTTTCTTAATAAATGAACCTCTCATGTCCGTTATACCCACTGGGCACGCTTTAGCGCAGTCTACTGTTTTGCAATTTAAGCATGCATTACTATCTTTAACCTTTAATTTGAAAGGTCCTAAATAGGAAAATACTTGATTTGCTATTCCCCATTGACATATCCCAGAAGTTACACATGAATAATTACCTATAAATGGTATAATTAGGAATTGAATATACCATAATAGGTCGAAATAAAGTAAACAAATATAGACTGTTGGGTCTATGCCAAGTATTGATATATTAGTTACTCCCTCCTGATTTAGAAAAGAGATTATGGCTAGAAAAATTAGCGATCCCATAATTATTGTAGAATTAATCTTATACCACCAACTAACTTTAGATCCTAAAGTCTTCCTTCCTAGTTTTGAGGTCCTATTATAGTCCTTTAGTGAATACATAAAAGATCCTTGTAACATGTAAGGTGCAGTACAAGTTACTGAACATATCTGTCTTGAACCAAACATGTAGGAAAGTATTGCTGTTACAATATATGTTCCGACTATTCCAGATAATAGATAAGAAGAACTTACTGGACCATAAGTTCCTAATCCATTGAACCACATATAGGGCAGATATTGTACTTTATCAGAAATTGGAGAAAAAGAAGGTATATAAGTGCTGTAAATCCAATAGGCCAATATCATTAATGTATATCTTATTTTATTTTCCAATTTTTTAGCAGAAATTATTCTATGAATTGTAAGGGGTAAAAAGAAAATACCAAACATAATTGAGAACCATACTGTACTTATTATTCCTACTAAAACTGAAAACGAATTATATAAGAAGGAAATTATTGGAATGTCTAGAATTCCCAGGCCTGCTGCTTCAGTAATAAAATTATTAACACCAAAATTTAACATTCCACTACCGAAGCTAATGTCTGTAGCTAGGACCCAAGTTGTTGTAAAGACTAGCAAAAGTAAAGAGAATGATATTTTAGCTGATTTTATATAATTTCCTTTTATCTTATAAAAATTTTGTATTAGTATAAATACTGTACTTAAAAGTATTATAGAAATAGATAAATATTCGTTTAGAAATAAATAAAAACTCAATATTCCAGAAAAGGCTATTAACATTGAAATATTTAAGAAATATACTTCACCTAGATTCTGTTTTTCTAAATTTCTGGTTTTATATAAATAATTAAATAATAAACCATTTGATATTTCCGATATTATACCTAGTGCCAGTAGAATGTAAAAACCATTAAATTTAGAAATTACTGTAATGATTGAAAGTGATAGTACATAAACATACAATGTAATTGAAAGTAAATACTTATTCATTTTTATCCTTATATCATTGAATAGTAGATATTTAGGAATTTTTTAGAATCTTTATACTAAAGCTTTAAATATAAGTGATAGTGAGGAGTCTCCTTTAAATTTCTTTCAATATATAGAAATTGTTATTCTGAAAACATATTGTTAACCTTTATGGAAGATAGAACGCATATTTTGATTTAAAATTAGCTTTTATCATCTATTTCTAAATCTTCAAATTGAATAGAAAGCATTTTTTCTATTTGTAATATAGTAGGATTTTTACATACATTGGAAGGTTGATTACCATTAACTTTACATATTTCTGCAGTCAACATATTAGCTTCAGTATAAACTTGCTTTGCAAATTCAGTATTTGAACCTAGTTGATCTATTACGTAATTCCAAGATTTTCCATTAATTAATCCAGGGTTTATTATTGTTCCTGTTTGATAGTAATATCCTCCTATATACACAAATGGAATACTATTATTTGCAAGTCCTTTCCATAAATATTGAATGTAGTAAGGTGGAGTATTAAGAGGTTCTCCTTCTCTATTTTCAAACTCGTATGGAATGAAAGATACATATTTACTATTATATGTAGAATTTGAGAAAGTAAACGTAGGTGTATTAGGGTATATATCATTTGTAGAAGATAACATATAATCTAATCCACTAAAATTCCCAAATCTTAATAATGTAATTATTATTGCCCATCTATCGGCACCACAGTACGGGCACCATTCAGCTCCTATATAAATAATATCTGGTTTTCCTTCATATTTAGCTATATAGCTTGAATTATATACTTTTATTGTTGACATATCTATAGAAGACGGTACAAAAGAATAACTAAAATTTGAATTTGAATATGCTTCTAGTTTATAGTATATATTGTTTGATATAGGATCTCCTATTGCTGAAGTAGCTGTAAAATAACTTTCATATACGCCAAAAACTACTAAAATGGCTATAAATCCAATAAACGCAAATCCAACATTTCTTAAAGATCGCATAATACCTTCTTGAAGAATTACTATATATTAGCTAGTTAGAAAAATTCTAACTAATTCTTAATAACCTTTAATTCAATAAAGCTGACGATGAGTAATAAAATGGGAAGAAAAAATAAACGGAATTTAGCTATATCTAATGTTATTTTTGCTGCTGCTGTTATAATACTAATAATAGCTGCAGCAGTGGGATTCGGACTATATCTAACTAAACCTCCAACTACCGTAACCAAAACAATAACCTCGATTTCAACAATTACTACACCCCCTACTACAGTTACATCAACAGTTACTACAACTCAAACTCAGACAGTTACTAAAACAGTTCCAGTAATAGTTAATTCATCAGGAGCTTTTCTAAATGGAAATGTAATAACTTTCATGTATACGGCACAATTCTCCTGCCCTCCAGTAAATTCATCATTCTATCCAAATTCTACTGTTGAAAGCGAAGTAATGGGATGCGAAGTAGGATTACCTCTAAACTCTTCTGCAATGCCAGCAAACGCTGCTCCAGTATACGTAGTAGTTCCAGCATTCGCGGGTTTATCAATATTTGGACCAACAGCTTTAGGCGCAACTCCACAAGGATTTCCGGTATTTCACTATAATGGATATAATTATACAATATTAACTCAATGCGGAGCCGCAGACACTCCAACAGCATGTCCAGATCATATGTCATTAATATATTCTCCAGCATTTACTACAGTAGAACAATACTTAGGAATAAAGAACGGTGTATTCGGATTACCAGAAGGAGTATTACCCACTCCAGCTCATGAACACATAGTAACATTCTCTACAAATACATCCATTCCTTGGTATATAGTAGTAGTATTAGACTTTAATCCTAACATATATCCTAACCCAATTACAGGACAATGCAGTGATATAGTACAATCTAATTCTTCAGATCCTACTGGATTATGCTTAAACTCATACGCTAATTTAGAAGCAGCCTTATCAACTCATGATACTGCAGTAATGGCAGCTAATTCAAACAATCCAATATGGATAGCATTAGGTAAACCTTCAGTAGATGCTATTGCCGTACCTTCTAATATGATATTATACTTCAGTGATCCAGATATCTATCCATATCCAATCTAAGCTATTTTTATTTTTTTAAAAACATTTTTATTGTGAATTTAGAGAATTATATATTCTTAATGCGTTTGCTCTAATTCTACCGTCTTCGTCTTCATTATCTATAACTTTTTGTAATAAATATGATCCAGAATTTCCAACATCTCCTAAAGCTGTTACTGCACTTCCTCTAACTTGACTACTTTCATCTTTTATTAAAGCAGATAAGATGTCTAAAGCCTTTTCCTTGAACTTACCTAAATTTTTAGCAGCTGCGGCTCTTATGAGTTCGTTCTCATTTTTGACTCCTTTCTCTACTATAAAATTGAAAGAGTCCTCGTCTCCATAATATGATAAGGCTTCTAAGACTGAAGTTGATATTACCTCAATATGGCTCTTTTCTTCGAAATGCTTCTTTATTTCTTCTTTATATTCTGGCAACCCTATTTTACCAAGACTTGAAAGAGCGTCTGCTTTAACATAGTAACTTTTTTCATTTTCTATAATAGATACTAGATAATCTGCTGCTTTTTTCTTAAACTTAAACTCTCCTAAGGCCTTAGCTACGCCTCTCCTAGCCTTAGATGGCTCTACATTGCTAGAGACTAATGCCTCCAAAGCTTCATCATTACCTATTTTGCCTAACGCAATAGCGGCTTCGTATTTTACCCCCCAAAAACTGTCAGTTAAAAGTTCTTTAAGGGTTGAAATAGACTTAGAATCCGAAAATCTTGTTAGTGAATTTATAGCATTTATTCTGCACATTATTTCAGGATCTCTAGATTCTTTAATTAACTTCTCCTCATCCTGCATATCATTTACTACCTTTAGTGTTTTAAATTTAGGATCTACACATACATATTCCCCTTCAGCTTCAATCTCTAAAGATTTACCTAAGTCTACATTTATTATTTTTGTATTATTTCCACTTACTACTTTTATTTCCAAGTTAATATTATAAATTGGCGCGTCTTGAGCTTGTTCCAATCTTATTCTCTTTTTATCATAATATACATTAATTACAGGATGACCTGCAGAATATATAAATTGATCAAAGAAACGCGTTAGATCTTCTCCAGTAGCTTTTTCCATTGATTTTCTGAAATCTTCTGTATCTACTGGACTGTATGGATGCTCTTCTAAATAACGTTTTATTCCTTCCCTAAATTTATCATCTCCTAAGTAGTTTCTTAGTGTATGTAAGACTAAAGCACCTTTAGGATATGTATGTTTATCGAAGAGTTCCTCAGCCCACTTATAATACCTTATCACTATAGGTCTAGAATATTTTTTATATTCGTTTAAGTAATCCTGTAATTTTCTATACATTTCGTATATAAATTCGTCTTCTCCTTTAGAATGCTCAAAGTATAAAGCTTGGAAATAAGTTGCAAAACCTTCATTAAGCCATATATTTGGCCAATCCTTTGTAGTAACGTAATCACCAAACCACTGATGAGCCATTTCATGTGACAATAAACTATCGCTTGAATAATCCATTTCAGCTATGTCATCATGGAGTGTCATCCACGTTAAATGCGTAGATGATATATATTCCATTCCTCCTCTCATTGCAAATAGAACCACTTGTGCATATTTAGGATATGGATATTTTACTCCAGTGTAGTTAGAGAAAAATTCCATTATATCCTTTGTTGATGAAAAATTTTTAATGAATTGATCATAACCCTTAGGTAAGTAATACTGTAAAATCACATCGTTCCATTTCTCTTCTTTAGTAAAGAACTGACCTACAGCTAAACTATTCAAATATGCAGAATGAGGTATATCCATTACCCAATGAAAAATGTTAAAATCCTTTTCTTCCTTTTTCTCTTTCAAATAACCATTAGATACAGCTATGTAGGGTTTTTTTACTCTTATGATCATTTCTGATGTGGATTTCATTCCAGGATAATCGACTACCGGAATCCAAGCAGGCGCACTCATAACTTCCCCAATGTTAGCTGCTTCATAATGATCGTTTATTTTAAGGAACCTAAAATTATCTGATCCTTTTACTTTATATGATACTGAAAGTTCATGTTCTCCGTTTATGTTCATTTTAATCTTTTTACCGTCATAATCCCACGATATTGGTTTATTGTCAAGTTTTATTTCATTTATGAAGAAATGTAAAGCATCTAAATACATTTCGCCTTGTGAATTCAAAAATATTTTAGCGTTTCCTTCTATTTCCTTTTCTTCCAAATTAACATAAATATCAAATATATAATGTTTTATTTTAAATTTTAAATTTTCAGGATAAATTAGTTCGTGTTGTTTCATTACGTAACTTTTTCCTATTCTTACAGAAGGTTGATCATTAATAGGAACAAAACTCATAGAAAATAAAAAGACGTGAAATATAAAAGTTTCACTCATACATAGTACAAATATGTAGAATATGGGACTAAAATTACTCTGAAAATTATATTTAGAGTTAAAAAGTAAGAGTTAAATCTTTAATTTCATGATTGTATGGTTTCGAGTCTCACTATTATCTCCTTAGCTTCCTTATCTTTACCTAAAGTCATTATAATTTCCGATATTTTTTTTATTAAAACTTTTAGATCCTCTATGGCATCTTTCCTATCGGCATAATCACTTGCCCCTCTATATATTCCATTATATGCATATCTATGAAGTTTTAACGCAAGCGAATTTATTCCAATAAGATCATTATACCCTATTTCCTCTAATCTTCTGGCTATTCCGTTAAGGCCAGTCGTGGGAGCTAAAAATCCTATCTTATTATACCATTTCTTTTCTTTTTCATCTTTAGGCATCTTATCTAAATTTATTGAGACTAAAACGCTAACTACTGCCTTCCATGCCATAAACGCCTTTTGAGAAGCGTTTCTACTATATCCTCTCTGAAGTAGTTCTGTTGCTAAGTTAAGTTCTACAATAGCCTCTTCAAGTTTGAAATTTATGTAATTATGTAAATCCTTTATTTGCGGTACTGTTCCTTCTCCCACAGAATAACTTCTCTAGTTAGCTATATTTAACCTTATGGAACTCAGTCTCTTTCTAGTAATAAAGAAGGATTTACTCATACAAAAATAAATTATATTAAAATGGTAACAGTTATTTATAGCTTATATTACTTAAAATTGATAGAATTACATAATATTTAATAGAATCTGGAATATAGTATATATTAAGAGATAAAATATTTATTCTCATATTTAGATAAGGACGCAATTCAAATCATAATTATTGGGTATTCTTATCTTATTAAGTAAAAGGCTGAGTTTTTCCTAAGGAATAGATAATTAGCGCAAAAATAATTATATTTATTATTAAATAAAAATGAGCTAATTTTTCCAATTATAATGAATTTTATTATTTTATCAACTTATTTCATAACTTTCTTTAAACCCATTTATTTTAAGTAATTTGCTCAATTATTCTATATATTATATTTGTATAAGGTAAATAAATCTTGAAAAAATTTAATTAAATTAGTCGGGTGGTATTTCTTTATATACTAAATCTATATTAATTCCCTTTCTTTTATTTATATATCTAGATATTCCATATATAACTCCTCCTATAACAAACGACCCTATTACGAATCCTAGAGTTACTGGATTTGGTACTCCATTAGATTGAACGAAACTAAATGTTGGATTTGACACTGCCTCATATGTTAAGAATATGAAATAACCTGCTGAGAATATTGATACTGGGACAAGTATTTTATGTTCCTTTATTCCGTACATGATTCCAGCAATACTTACTATGAAGAAATATACCATACCTATAACTATAGCTCCATATAACGCTGTAGCTCCAGATATTGATATTACAGGTAAGACTAATAATCCTAAAGTTAACGCTAAATCAAATAAGTGAGTAAATACTGGAGAACCTTGTTTATTTAGCCTTGTAAATATCTCTGGAAACACTCTATCGAATGCCATTGCAAATATATATCTAGCGAATACTACAACACCATAGGCTAGAATAGAGAATTCCCATATCATAAGACCTATACCTATTATCCATTGTAAAATATAATTAGTAGTCAGACCCATTGCGACTGTCCAGAAAGTGTATACAAATCCGTTTTTTATGAATTCGTAAGTAGTAAAAGAATAACCTCCAGCCATATATAACAATAGGAATCCTATGGTTACTAAGAATCCTGTTATCAATAGAGGGCCAAAAATTCCATAAGCTACGTATTTAGTTTTCTTTAACTCTGAAGCTACTGCAGGAACTGCCTGCATCCATGGATAGGTGAATATTGCAAGCAATGGAAGGATGGCAAAAGTAGCACCTAAATTAAACGGAGCTATAGAATAATGAGGTGGTGGAGTTATTCCTTGAGACGTTAAAAACGGCTTTATGGCAGTACTAAAATCTCCTAAGTTTAATGCAATTACTGACATAGCTATTAATGTAGTCAATAGCGCTATGATTCCAGAAATAGATACCAATGCATACCCCCATTTTGCCTTGAATATATTAAATGCAATAATTACTCCGAATAAAACTGCACCCAGTAAATAAGAATATATTGGAGCGCTTAGAGTACTTGAAAGAGAGACTAGGCTTGATATTCCATCTAAACTTCCTATGGTGCTTATAACAGTACCTACTGCGGAAGAAAAGAAATAAGCTACTAAAGCAAAAAACGCAGTTGACTCTAACATTAATGCGAAAGCCATGACTACTCCTAATGGGCCATTCAGTATTCTAGAGATCCAAATATAATCTCCTCCAGTTCTTGGAATTTTGGATGCTAACGCTGTGTACATGTATGCCTGGGGTAAGGTAAGAAGTAGACCTATTATAGAAGCTATCCATATTACGCCTCCTTGAGAAATATATGGACTTATTCCAGTAAATAATGCTACTCCTGCTGACATATTTCCTAGGTTTAACATTATAGCATCTAACGAAGATACTTCTTTCCTAAGACCAGAAGATTCTCTAACAAATAAAGATCTTCCACTCATTTTAAATCTTATTGTGATTTTAGAAATAGTTTAAAAATATATTCCATAATGATATAGAAAATAATTTATTTTTTAAGCTAAATCTATGAATATTTTTTATGAAGAATATTAACATGCATGGTAAAATAAAGAAAAGTTTTCATTAAAAACAAGGCATATATATGATAAAAATACTATAAAGATTTAATCTCTTTTAATGTATTTTCTGCTATAGTGAGATGATTCTCTATATCTTTCTCGTCATGAGCTATAGATAAAGTCCATTGTTCATCGTAATCTGCCATAGGTATTATTCCTCTTCCCATCATTTTTGAGAAGTAATTCCTCCATTTTTCTACGTCAACATTAAGAAATTCAGAATAGTTTTTAGGAACTTTATTATGGAAATATATTGTTCCACTTATAGCTAGTGATGAAATTGATGCTTCTAAGCTCAGATCTTCAATTATATCATTATAGCCTCTAGTTAACATTCTATTTAGTCTTTTCATTTTATAGAATGCGTTTTCTGTTAGAATTTTCTCTAAGGTGACAATTGCAGCTCTTACTGAAAGAGGATTAGCATTAAAAGTACCACCATGAGCTACCCTACCTGAATTTAATATACTCATTACTTCTCTCTTTCCTGCTATTACTGATAAAGGAAGACCTCCAGCTATAGATTTACCTATTACTTTAATATCTGGTTCAACTTCGACGTAGTCTGAAGCTCCAGAAAAAGATTTTCCTCCAGTCTTTATTTCGTCGAAAATTACTGTGATATTATTTTCTCTGGATAACTCCACTACACCCTTTAGAAAGTCCTTATCTGGAGGTATTAGTCCCATGTTCATTGCTATTGGTTCCATTATTACTGCTCCTATGTCTTTGTTTTCTCTTATTATTTTTTCGAATGATTCTAGATTATTCCATTCTGCTATTAAAGTATTTTTAATTACCTCCTCAGGAATACCTTCTGAAGAAGGTAGTTTTACCATAGATTTTTCTGGATCTACGTTTACTAGTAATTGGTCGTGTGATCCGTGGTAGTGTCCTTCGAATTTTATTATTTTCTTTTTTCTTGAGTATGCTCTTGCTATTCTTATTGAGTGCATTGTTGCTTCTGTGCCTGTTGAAGAGAATCTTACCATGTCAACATTATACCTTTTCTTAATTATCTTAGCTAATTCAATAGCCTTACAATACTCAAAACCAAGAATAGAACCTTCTTCAACAGTTTTAACGACTTCGTTAACTATTAATGGATTTCCATAACCTACTTCCATAGCGCCGTATGCCATGTTGAAGTCTATGTATTCGTTTCCATCCACGTCCCATACTTTGCTTCCTTTCCCTCGCTTTAGGTAAAGAGGATAGTTCAATACTAATCTATAGTTACTATTTACGCCCATAGGTACATGGTCAATAGCTTCTTCATAAAAAGATCTAGACTTCTCTGTGTTTAGCATCTCCATTCTTTCACCGTTAAAATACGAGTTAGGAAAAAACTCCGTTTAGACCGATGCATTAACCCACTTGCATAACATTCTTATTTTTCTGTTTAATATACTTTTCATATTTCATCTAAACGTTAAAATAGGCTTTTAAAAATTTATAATGAAAAATATATTTAAACTTCAAATCGTTGTACAATAAAAAATTTACATAAAAATATTAGCGATTTAAATCTAAAATGCTATAATTTTTAAACAATATAACAGAATACATTTTTAAATTGTTTAACGTAGATCTCATGAAATGGCTTCTAAAAAAGTCTCGGGGGGCGTATTTCTAAGGGAGACTTCTGGCTTAGTAAGAGATGTGAGCCCATGGCCGTCACTCCTCGCTACGTGGGCATTAGTGACGGGAGGAGTTCCTATTCTTATCTTAGAATGGCTATGGCTAGGGCCAGGGGCAAATTGGCCATTAGCGTTTACTATAACTTTAATCCCTACATTAGGTATGGCATTTCTTTTTTATTTGGCTGGGGCTTCAATGCCTCGTTCTGGCGGAGATTATGTTTTTAATAGCAGAGCAACTCATCCAGCTTTAGGTTTCGCAAATTATTGGGCACTGTTTATAGCGTTTGTTTTGTCTCAGGGGTATTATTCATACTTAGGAGCAAGTTGGTTAGGATACTTATTCACTGGATTAGGAATGTATTATCATGATAACTTTCTTTTGAGTATAGGAGGGTTTTTCGGATTAAAAATAGGAAGAATATTATGGGGAATAATAGTAGGCACAGTAATTACTTCATTAATAGCACTATCAGTAAGGTTTCATTGGAAATTCATAGCTATAGCTGGTGCAATAAGCCTTATAACTACTGCAGTAATGTTTGGAACTCTATTGACAATAAATCCAACATCTTTTTCTTCTGCTTTGTCATCATTTACAGGAATTAAAGATGCTTACAGTGAAGTAATAGCTGATGCATCCTCTAATGGTCTTTCTTTTGTTACTCCATTTTATGGTGCTATATTGGCAATCCCAGCAATATGGTATTATTATACGTGGTATAATTTACCTGCATCTTGGGCAGGAGAGATGAAAAAAGTTAGATTTAATGTATTTCTTTCAATAATTGTAGGAGTTTTAATGATTGCTGTCTATTATATATTATTTACTCAAATTAATATATCAGCATTTGGAGAAAAATTCTTAACTTCCTATTCTTATATTTACTGCAACGGATATAACGATACTGTTGTTAATACGTTATCTTCTATTGGGACATTTACTCCCTTCTTTGCGTTGCTTGTTCTTGGTAATCCAATAATTTACATATTAATGTTTATAGCTATATGGTTACCTAATTATTATAGTGGTCCTCCATTGGTTTTAGGTCTTTCACGATACTTGTTCTCATGGTCTTTTGACAGGATAATGCCATCGTGGATGGCAGATGTAAACAGTAGGTTAAATGCACCCATTAAGGCAGTACTACTTATAATGGCTCTCTCTGGGTTTGGCGTTGTGCTTTATGCATATTTACCAGTTCTTTCTTTAGTAGATGTAACAGTAGCTTTTGAAATAAGTTATGCTATATTTGCAGTATCATCTGCCTTAATGCCATACATTAGGAAAGATGTGTACGAAAGTACTATGATAATTAAGAAGAAGATCCTAGGAATTCCAATAATAACTCTTGTAGGCGTTCCAACTTTTATATTTCTTGTATTCGCAACAGTGATAACGTGGGGAAATCCAATAATATTGCCAGTTAATTTACCAACAATATTGTCAGTAGTGTTAATGTACGCCAGTGGTTTTGCAATATATTATGGAGCAAAGATTTGGAATCAGAGAAAAGGCATAAAAATAGATCTAGCGTTTAAGGAAATACCACCAGATTAATTTTTCTTTAAATATGATTTTATTAATATTGCAAATATATTATATAAATGAATGCCTCTTATATTAATCTTTTTCAAATACTCTCCCTTTGTTTCTTTATTTTTATATAAAATGAACTCTATGGTCTTATTTAGTTTAGACTTGAATATACAACTGTTATGAATCCAGGTTTCATATAAGATGTCATAATATTTTTCAGTAGATGGAAGAGGAATAATTATGCATTTATACTTCATTAAATCCTTTACCTTTTCTTCGTTAATATAAATTAAAGGATAAATATAGTTTTTATTTAATTCATTAATAATTTCATTTTCAAACTCTAGTGTACAAATACCAGGTTTTCCACTTAAAACTGGAGATCGCCAATTATTCTCATTTAGATTAAGTATAGATTTGATTTTTTCAAAATTAAAGTTGTAAGCTGAGATTGCACTTATCTGAGAGAAAATAACTTTGCCGAATGTCGAACTTATCTTCAGAAGCTCTAATATTTCTTCTTCAGAACCATAAGATAATAAATCGTCAGAGATCAAGTTTACATAGTCATGGTATTTAGATTGAACTTTTAACTCAGACTTTATTACATCTAATGGTATTTTCCTATCTTTTCTCATTATTTCTACTTCTGAAAATGCAGAAGGTCCTTTTATTGGAAAGAATTTTTCAGTTTCCTCTCCATATATAATTTTAGGGAAGAAGTTATTTTGCATTATTTTTGGTAAAGTAATTTCGGCTTCTCCTAATAATATAGTATCTACCCAATTAGGTTTCTCAATAGATATTTCCCATGCTCCAGGTCCTCCTATTATTACCTTAAACTTGTATTTTTCCTTTAATAGTCTAATGCGGTTTGAGAATGATTTGAATGCCTTATAGTGATAAGGTTGTTCTCCAAATATCTTACTTAACCCTTTTGACACTTCTGTTTGAGCTAAAGGATCATTAACATATATTCCCAAGATTTTATCACTATGTAGAAATTTTTGTATAGCAGTAGGAGATACTATTTTAGAATTAACTATACTCTCTATTTTTCTTAAGCCATAAGGAGGAAATTTGTTCTTCCTAATAAAATTAGGAATTAGCCTTAAAGGCAACGAAGGTAAAGAATAAAACGTGGCATAATCAGATGTTAAGATCATATTTTCTAATAGAAACTCAAAATCTTAATTCCTTTTCTCTTCTATGCTATTATCAATCCTCAAAGTTCAATAGATTATCTCATTTAGTAAAAAATTAGTTCTAATAAGAAATCTCAGCACATAATATTGAAGATTAAATATTAAATTTTAATAATTATATGTTTATGTTCAATAGTTTATATGTAAATTACTAAGTAACTTACTATATACTAAGAATAATTTTAGATAAAGAGTAAAACTAATACCAGTTCGGTACTGTCCAATTATATATTTCGTATTTACTTAAGTATTGTAATCTTTCAGGAATTGACGGATGAGTTCTAAATATAGCATTTCCATCCTTACTATTAGTTAAAGAATATTTCATAAGTAAGACTTGAAATCTGGGCATATTTCTTAAGTTCTCTCCTTTTATATATCCGAGTTTAATTAGTGACGTTTCTAATGGTATTGTAAGTGAATTATCAGTCTTCACTGCAGTTATATCTGCTCTTTTTTCCACTCTTCTATGAATAGCAAAAAATAATGGAAATAGTACAAGGAAATAAAAGATAATTATTGCACCAGTTAATGACGGTAAAACGTAGAGTAACCCTACATATATTGAATTTATACCCATTATAGATAAAATAAGGATTTCTGGATCTTTGTTTTTCAAATGAGATAATTCGTGACCTATTACCGCAGAGATTTCCTGATCGTCAAGAATATTAAAAATAGGTTTAGTTATTGCTATTCCTCTCCAAAATATATTTCCGAATGCAAAAGCATTAGGGAAATCTACATCTGCAATGTATACTTTTGGAGTTTTAACTTTAAAGATAGAAGCTAAATTCTTTACAAGAAGATATGAATGCTCATCGGCTGGTTTCATTTTAAATACTAATTTCATTATAAAAGGAGAAATCAAGTACCAAAGTCCAAATATTAAAACTATTTGGAAAATAAAAAATAATGGAAAGTTTATAGGAAGACTCGAAATTATTATGTCTATTATCAGTATACTTAGGAAAGAAACAACGTAATATTTTATCCAATATCTAAAAACTGCTACCATGCAAGAATCTATCTCATCTCAAGAATAAAAACGTTGATTAACCTTATAGATTAATTTAGTAACTCCTTTATAAATCTCCTAAAGTTAAAATTGGTTTTGTTCATTTAATCCTATCTTAAATATCTTAAACACTGTAAAATATAAAATGGAATATATCAATTAAAAAATTATTGTTAAATATAATGAGCGGAAAGCCTTTTTATTTGACATTAAAATGTTAGCCCATGAAAGGCGCTTCGTTAGCATTAATAGCCGGAGTTGTAATAGTTGTTATATTAATAGGCGCAGTAGCAGCATATTTCCTTTTGGTTCATCATCCAACAACGACTCCTCCAGTAACTAGTACAACACCAGTAACGCCAGTAACTTTAACCGTAGTAACATTTTCAGGACAATCTGCAAACTTTATTCAATATGCCGGTAACTTATTTTCGCAGGAACATCCTGGAGTTACAGTTAAAGTAATTTCTTATCCATTTAGTGATTATATAGCTAATGAATTAACTGTTCTAAGAGCCCATTCATCGGAATACGATATAATAGGTTTTACATCAACTTCAGCTCAAGACGTTTCTCCATATTTGCTCCAACTTAATACTTCAATGTTTAATATGTCTGATCTTATAGGCCCGCAAGAAGACTTTGGAGGAATAATATATAATGTTACTACAGGTAAGAATGAAACTATAGGTATAGCTTACGAAACTGCAGTATATTTAATGGCATATAAAACCTCAATATTTGATAATTCTACTTTAGCACAAGAGTTTTATAACGAATACCACGTAAACTTCTCTCCATCAACATGGCAAAACTGGACTGACGTGATAGACGCTGATCAGTTTATAACATCAAAGGGCTTAACAGCATATGGATTTCTTATAGATGATCACTTAAAGCACGGTATAATAGATGCTTTCCCAGCAGTTTATGGATATTATTACGCAAGGAATTACTCCTTAAATCATGGCGTAATAGGAGGAATCCCCGGATTTAATATTATGTTTGAAGGATATACTTTACCTGGATACAGCTATCCTTTGCCATCGTTTAACTCAACAGCAGGACTAGAAGCCTTAGAAACTTACGGACAATTAGTAAGTTATGAACCATCTCCGTCTACAATTGAAATGTGCTACGGAAACATACCAGAGTTTTATTCTAACTCATCTGGAGCTTTTCTATTTACTACTCAATTATCTTCTATAAATAGTTCAGAACTACAAGAAACCTATTTAGCTCCATTACCTGGAGGGTATGCAGAAACTGGTACAGACTTCTTAGGTATAAGTAAATATTCTACTCACGTACAATTAGCTGAAGAATTCTTACAATTCTTAGTGTCCCCTAAGATTCAAGAGCTAGGATTCATAAAATTCGATAAATTCCCTATATCAAAAGAAGCATTTACACAGTTATTGCAGAACACATCTATACCCTCATATGAACTGGAATGGCTAAACGCTACATATCATGCAGCATTAAATGCGTGGGCTAATCCTCCAAATATACCTCCTACATACAATTATCTTATACCTGACTTTAATAACCAAATAATGCAATACTTGGAAGGTAAAATAACGGCTCAAGAGGCGTTAAATACTGCAGCATTAGATTGGGCTGAAGCCACAGCGTCATACTATGGGTAAATAAAATGAGTGTAGTGTTAAAGGATGTTACGAAAAGATATAAGAAACTAATTGCAGTCAATAATGTAAATTTAAAGGTAGAAAAGGGAGAATTTTTTATAATTTTAGGACCTTCTGGTTCTGGAAAAACTACTTTATTAAGATCTGTTGCAGGATTAGAAAGAATAGAAGGAAAAGTACTTATTGATAATGTTGACGTTACTAACTTACCTCCAGGTAAAAGAGAGGTTTCAATGGTTTTTCAGAATTATGCACTTTATCCAAATAAAACTGTTTTTGAAAATCTGTTAATGCCAATAGAAACTATACGAAGAAAAGACGCAGAGGAAAGAATAACCGAGGTATCAAAAAATCTAGGTATTTACGATCTTCTGGATAGATATCCTCAAGAATTATCTGGAGGTCAACAGCAAAGGGTTGCATTAGCAAGAGCGTTAGTAAAAAAACCTAAAGTATTCCTAATGGATGAACCTTTATCTAATCTTGATGCGCCACAAAGAATATCTGCTAGAAAATTGATAAAAGAACTTCAACGAGATAATAATATAACTACCTTATATGTTACCCATGATCAGACTGAGGCAATGGCTTTAGCGGATAGAGTAGCTATAATGGATAACGGGAAGGTTATACAGATAGGTTCTCCAGAAGAAATTTATGAGAATCCAGCTAACATATTTGTAGCCAATTTCTTTGGAAATCCACCAATGAGTATAGTGGATGGTAAAATCTTTGGAGAAGAGGAAAAAGTTGGCATAAGAGCGGAGAACGTTATTCTAGGAGAAGGTAAATTATTAGGTAAAATATCCGATATAGAATTTTGGGGAGAAAAATATTTAGTTTATATTAATTTTGAAGGATATGAGATTAGAGCATTCTCTAGATCTAAACTTAAGGTAGGAGAAGAAATTAATTTTTCTATTTCGGAATATAAGTCACTTAAAAGTGTGATAACTAAATGAGGTATTCAATACCTTATTTAACCTACATAATAGCTTTTGGAATTATTCCCTTTTCATATACGTTTTATATAGTAGGATCAAACGCAAGTTCGTTGTCTAAAGCCTTTATTTTAATACCTATAGATACTGTTATTTATAATACGTTTATCTTCGCATTTCTATCAGCATTATTTTCAACTATAATAGGGTTATTTTTAGCAATAGGTATAGATATTCTGCCTAAAGGAAAAAGGCCTATATCATTATTATCAATGTTACCTTATACTATACCTTTTACTTCTTCTGCGCTAATTTGGACCATAAGTCTTTATGGAAAATACGGATGGTTCTCCTATTTGTTTGGATTAAAATACGATCCTTTATATTTTTCCTCTACTGCTCTATGGACACTAATAGGAATAAATATTTGGACCTCTATACCAATGTCATTCTTAATTTTACTTTCCGCCATAAGATCAGTACCTTACGACGTAAAGGAAGCTGCTTTAGTAGATAATGTTCCTCTATCGGAATATTATTTCAGAATAGTTTTACCTTCTATAGGAAAGGCTTTCTGGTTAGCATTCATTTTACAGTTTGTATTATCACTTGGAAATTTTGATCTTCCTTACGTTCTAACACAGGGTGGTCCAGGCTATGCTACAACTACTCTTCCATTATTAGTTTATGATGAGATGTTCCAACTTGGAAATTTTTCTGGAGGCGCATTAGCCTCAGCAATATTGAGCATATTTGCAACATTTCCAGCAATATTACTCCTATTCCTTATTAAAACTAGAAGAAATAAACTATTGCCGTCTTTTAAATTAAGACTCCCAGATAATATTTTCAAAATAATAATGTTCTCAATAGTCACAATATTATTATTCTTTTTAGATTTTCCAGTATATTGGATGTTTCTAGTAGCTTTCAGAAATGCATCTCTAGATTTTAGATATCCTCCAATTTTCTCTCCAATAGACCTAACTTCTAAGTATTTCTCCTCAGCTCTCTCATCTTCTATACCTTATATGATTACAAGTTTAATAGTAGCCATTACGGCTTCTTTGCTTACTATAGGGTTGTCTTTACCATCTGCTTATGAAGTATCAAAAGGTAAGGGATCGTGGATACTTCCTCTCTCAATATATTTATATTCATTACCTTCGGCTTCTTTCATATTACCTCTTTTTATATTCTTCTCTAGCGAAGGACTTCTAAATACTTGGTGGGCATTAATACTTTCCACTCCTATATTTACAGCAACCTTTGCAGTGTGGATAATGTATAATTTCTTTTTAGATTTTCCAAAAGCTTATGATGATGCTGCAGATGTATTTTCGATAAAAGGTAAAATGAGAAGAATAATATTTCCTTTATCAAGACCTGCTCTCTTCTCAGTATTTTTATTATCTTTTATATTTAATTGGCACCTATTGTTCTATCCTTTAATATTTGCTACTTCTCCTTATAATTTTTCATTCCCACCACAAGGAGCTCAAACTATAACAATATTTGCACTAATGGCTTTAGGGGATCAAAGCGTAAATTGGGGACTCTTAGCGTCATCTGCACTAGTTGCTGCCTTACCAGTAATGATAATAACAATATTTGCAATAGATAGAGTAATAAAGGGAACATATAAGGGTGGAATAAAATTTATATGATTTTTTAAATTATTAAATTTGTTTTATAATATGATTTTTACAATAAGTTCATGATAACTATGCAAAAAGCTTAAAATAGTCTTAGTTTTTAACGGTAAAACTACTTAAATGGCATTTATAAGGATTACCATTCAAAAATTCGTGTAAACGTAAGAATAAGACCTTTTTTCTATAGATAAGAATTAAAAGCTCAGCACTATTTTTATGATAATGAAGTTACTGGCTTTACTGGTAATTCCTCTCCTACTGCTTATTGTTAATTCTGATGTTTTGTATTTCTATTCTGCTAATAACTTCTTTTATGTTACAAATGTAATGCAACCACAAGAATATAATAATTTCAATTTCATTAATAATAATTATATACTTTCATCTTCATCATATACAAGCTCTAATAATGGCTCCATAATCATACTTGGCTATATGGCAACGTTACCTCCTAAGCCTAATACATACTATACAATTAACTCAACAAGTTTCGAAATAAACGTTCCAACCTATTCAAAACTATATATAATACCTATAATTTATAATATATCCAATTCTAGTCCTAAATTGGCATTCTCTAATATTTCTTTAACATTTATTGGTAGATCTTCTCATATTTTTTCATTAGTTAATAATGGAAACGCACTTAATAAAACATTTTGTTTACAATTACTGAATAATTTTTATAGTGTTAACATTATATGGTGTCTATCTGCTCCTCAGCCTCCTCCAGGAACATATTATGCAAATATTTTCATGATGATTGTAGTCTCTATTTCTGGCGCAAACTATGTATACTTTTGGAATTTGAGTATTACGCAAATAATAGGTCTACCTCCACCACCCCCACAGCCTTATACTTATATAAAAGAATATCAATTGAATCAAATAGAAATAGTAAAAATAATAGATTCTCTATATTCTTAAGTATTTATTTTAAAATTCCCTTTATACTATTAAAGGCAATATTCTTTAAAGTATCAAAATATATTGTAAACATTAACTTTAATAAAGTCATAATAAAAATTTTATTTCTATAAAAACCGATTACTCTTTTTTAGATAAAAGTATGAGGTCTACCTTCTGTTGGACTTCTTATCATTTGAAGTAGAATTTCATTTCCTTTACTCATCTTATCTATCAAATAAAGGGAAAGTACTCTTATTTTTTCTTTCTTCCATTTTATATTTTCTCTTATTACATCAATTAATTGATCCCTAAATTTAGAGTCTAGATCTAAAAGAGTTTTTTCATCTTCTATTTCTCTCAATTCCTTCTCTGTTTCAGCTACTACTTTTAATATATCTTCGTCATCTTGATTTTTAGCTAACTCAATAAGATACTTTCCTGCACTTATTACATTACCATCATTTATGTAATCTATTGCTTTTATTAGTTCTTCGAACATAAAATAAAATTAGATTATAGGAATAAAAGATTATATGCTCTACATGTCTCGATTCTTTAGTGCAAAAAATATTGTCTCTTACTGATGAAATTCCTAAGCAAATCGAAAATAAAGATTTTTATTCATTCAAAAGGGATTGAAAGAAAAAATGTTAAGCAATTAATGAATGGTCTACTTATCTCTATAAAATATAAGGAGTTTTTACATTATTAATAAAGCTTAGAATATAAATTAACCTAATTTTTTCATATCAGACAGTGTGATGTCGTATACCTTATCTAAATCGCTGTCCCATTCGTTCTTAAACCATTCCTTTATATGTTCTAAAACGAAATTGCTCACTATGAATATATCATGCAAAACTTCCTCCTTCTTCTTATATTTAGAAAAGTCTAGATCAAAACCATTATATTGATAATCATGTAGGAGGAAAGCTAAATTAGTTATATTCTCAACTTCTTTATAGCCTAGCTTAGATAGATCAATAGAAATTCCTTTCAATGAGTGAGTAGGTGCATTATATCCTCTCTTTAAATACCAATCGTTATTTGACAGTTTGTCCAGGTTTTTAGTTACTAATGCAGATAATAATGCTTTAACTGCACTAAACACTTTACCTGCAGAATTTCTACTTCTTCCTGCTATCCACATGTTTATTGCGACATCTATATCATCTAAGGTTTCAATAATTCTAGCCCTAATGTAAGCTTTTCTATCAATCTTAGGTGAAATTAGTTTTTCTTCCATATTTTTAGTTTATTCTCTATACTCTTAAAAATCTAGATAGTTCTTCTAGAAAATATTTTGCATTATTTAACTTTAGAGTCTGAAAGAGAAGGAAAAAGTATAAAGTATATCTCTCCTGTTATTGACTGCATAAGGGAAGAACTTATGTCGTTATCATTAATATCGGATTGAAAAAGAGCTGATGTGAACTACCCTGCCCTAACGGGCAGGGCTTCCTGCTAAAAAGCTCCACCTTGCCAGAGGGCGGAGCTCCATGAAGGTCGTTCCGACCCTAATATCCTCAGAATATTAATAGAATCATTATGAGATTAGTATTGTATTGTATTTAAAAAGAATTTTATAGATCTAGTAATAAAAATGATATTAATAGCGAGAAAATATTGATAAAAATTAGAATATAATTTAAAAGTAAAAGTATATTAATTTAGCTAAACAATACTGGCAAAAATGTTTATATAAAACAATTTCATATAACTATTTATGTATGGGAGGATTAAGAAAATACTAGAGAAAAATTCTTTGAAAATACTAACAATATTCACAATCATAATCGTTACATTAACATCAATATTATCAATACTTTACTTATTCACACCAATACTAATAGGATACCAAAAAACATCAAACGGAATAATAGACTACTTCAAAAACATTATTGATCCCTCATTCATAATTAAAGCGTACTCAAATAATACTCCAGTGAACGCAATAATATCAGTTTACATTAACCAACCCCACAAAGTAAAATTCTATAAAGAGTTTTACGGAGAATCATTAAAAATACCATTCACATCAATAGAAAATTACGTAAAACCATGGGAAAAATACGAGAACGAGAATACCTCACTCCTCGTAATAGCAACGTACATAAAAGGGAACGAAACATTCACAAGCACAGAAGAAATACAGTATAACCCAAACTGGGTATTAAAAAACCAACCAATACAGATTGTAGCAAATGTTAATATAATACCTCAATTAATAAAATTGAATAACACAATGATTCAACAAGAAAATAATAAAATACAAACATTAAAAACGAGCTATTATAAATATTGTTACTGCGGAGGAGAAAAATACCCATACATAGTAAACATGAGCAAAGAAGAGTATGAAGAACCACCAACGTATCCAGTAGTAGTGGATGGAGCTCCAGTTGTTTACGAGCCAGTTACAAGCGTACTATATTTCTACAACTTCTCAGTACCATTAAATTGGATAACATTAAGCAATAACGTGAAGAACAACGATAATTACACTTATATAAGTCTTGATACTTCTCTTTTCGGTAAGGTTAGTTGGTATGCGGTAAGTAATTCTACTAATTACGGTGGTCCGTATATAGGAGTTTCCTACTCGGCCAACGTAAACTGGCAAGCTTCTACGTATTATAATAAGCCTTTTCTTTCTAACTTGTATAATCCTACGATTTATAATTATTATAATGCTACAATTGCAGTAGTCATTTATACAATATATAAAGTAGGTGTACATGGTATACGAATACCAATAGATAATGTTACTGTTTTTGAGATTTTGTGGGCTAGTCCAAACGTTAGTGGTGCTGTTGAGAGTAGTAATGGTTTAACTTGTGTTATTTATACTAATTCTAGTGGTGAGTATACTCATTATTTGTCAATAGGTAATGGTAGTGTGACGCTGTTTTATAATTATTTTAAGGAATTTATTGGGAATCAGAAAAGTGGTCAATATGGTTATGCTCAGTGGGGAGACGGTAAAATTACGTCTACAGGGAATATTAAAACAGCTGGAAATAGTTTTTATTTTTTCGTGAGTTACATAAATGAATACATAAAGAATAATAATCAAACAGAAAATTACTTTACAAATACTATTGTAAGTGTATATATTCCGGTTAATACTATGAATCAGATTTGCGGTAGTGGTCATGTTTATGTTAGTTATTTGAATTATTCTACTGCTTTACAGGCGCCTTTATTGGGTTTTATAATGAATTATTCTTCTTATTATGGTGGTTAGTATGAGTAGGTTGATTTATTTTTATATTGTTTATTTGTTATTCTTTTTCTTATTTCTCTTATTTTATGATTTGAGTGTTTTTTTGACTGTTAGTTCTTTTCCTGTTCCTTTCTTCTTGTTTTATACTCCTTTTGCGCGTGAAATATTTCTTGTTGTTCAATTTCTGGGTATTCCTTTCCTCTTCTTGCTTTTCTTTTTTCTTTCTGGTAAGGATTACGTTATCGCTTTATTAGTTGGATATTTTATAATGCTCGTGATCTTCTATTTCTTTCCTAATATTTTTGATTTTTCTATTCTTGCTTCAATAGGTCTTGGATTGTTTGTTTCTGTAATACCTAGTTGTACTTCAAGGTTGAGTAAGGTATTGTGGGGTATATCTTCACTTTACTTTATAATGATGATGGTTAATGCTTATTTTTCATTACAATTTTATCCACTATTTATTATACCGAGTATAATAGCTTCTGGAATAGAAATAATGAATTTGAGATAATTTATCATTTAATATGTTTTTTATCATTTTTAAGCATGAGGTTATTTATTTGTGTAGATATTTTACGAATCATCTGAGCTAACATACAGACCTATATTATTTATTATTTGTTCCTCAGTTAGATTTTCATAACTTTCTCCTGATATGAAAGCCACTACTTCCTTATCTTTATGTGTTAAGTGAACTCCTACGGCGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCTTTACAAGAGTAAAACTTTTATAAAGAGAACAAGAAAATAACACAAGCCGAAAGTGGGCATGGGGATAAAACCCCGTTGGATAGGCTGGCTATACGTCCCCCGCGATCTAACATGTGGGACAATATCCCGAGTAGGAGTGTGCAAAAATTTAAGGGGACGTTCTCATACTTACTCTACACTATCTCCTAACAAAATTAACAATATAACGCGTATTATTATAGAAAAATTCAAGAATTAGAAAAAGAGTATTACACATGGAAAGGAAGATAAAGCCTAAAGTATTTGCAATAGATGTGGGGGAATCAAGACTTGTTGCAACCAAGATGGAGATAAACAACAACACAGTAAAAGAAGCTGATACGAGAGAATTCAAATACAACGAGGAAGGACTCAAAGAACTTATAAAATTCCTAGAAGGATACGAAGAAGGAATAATGGAAGCAACAGGAGTATACTTCTACCACGTATACAACGTACTGAGAGACAAGGGACTAAAAGTAAACGTGATAAACCCTGTCCAAACAGTTGAAGTCCTAGGCAAGAAGACAGACAAGAACGACTCCATAAGACTCGCAATAGCCTACGCTGCAGGCACAGTAAAAGGATCGTACATACCAACGGGAGAAATGCAAGAACTAAGAGAAATGACAAGACACAGAGAAGGACTAGTAGAGAGAAAGACACAAGTAAAGAACGAGATAAGGAAAGTTCTAGAAACAGCAGGATACAAGCTACCTCCCTTCGAAAAGAAGACAAAGGAAATAGTGAGAAAACTAGCCACTGATGAGAAGCTAACTGACGAAGAGATCAAGGAGTACTCCAAATTATTGGGAAGAAAATTAACTAGAATAGAAGCGTTCATCCTAAAACAACTCCTGGACCTACTGAACATTATAGAAGAACAAATCAAGGAAGTGGAGAACGAGATAATGAAGTTCCTACCCGAGGAAGCAGTAGAGTTGACTAAGATACCCGGAATAGGCCCAATCTCTGCAGCCACAATTTACGCTGAGCTTGGAGACGTGAGCAGGTTTGAGTCTTCGAAACAAGCTGCTTCTTATGCTGGAGTTTCTCCAAGGACTAAGCAGAGCGGGAAGACCGAATTTCACAACGGTCTCATCAAGGGGAATAAGCACTTATCCCGCGTTCTATTCCTTGTTGCAAGGTCCGCTAAGAACACGACCCAATTTAATGGCTTCTATCAAGCCTTGTTGAAGAGGACAAGCAATTCCAAAAAGGCTACATTAGCCTTGGCCAACAAGATATGTAGGATAGTTTATCACGTACTCAAGGATGGGGAATACAAGGGTGAGACTAAGAAGACTAGGTATAGGGGAGGAGGTGGTGAAGGCCCTCAAGTTGACCCCAATCAAGTAGTTCCTTCGGCTCTTCAAGCTATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTATCCATCTCCTACCTAACGGATGGAGTCTTCCGCCCCCTTTGAACCCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGGTCGACCCTTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATCTAGTAACGAGTGAGGGGAGGGTCTACGAGAACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATACTCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCCAAATATACTATGGAAGGAGAAGGACTTGAGAGGAAAGAAAACAGATTTTTACGACGCACAAAAACTAATAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATACGTCTTCCTAAAAGACCTTGAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAGTCAGTGACGAGGAAAAAATAAGCAAGGAAATGCTTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTGGAACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATCACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGAAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGGGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGTGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTCTGCTTTAGCCAGGAAATTGGCTAGAATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGACCATAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCTTGTTAAATAAATCTGTACTTGAGTATTATTTAGTGTAAGTTCTACTGTTTTTCCATCCTTGAATTGCAGTATAATGTAAAGTTGCTTGAATCCAGTTGGTTTTATCCCTATTGTATATTCTCCATTATTATGAATTTTTAAATTAAATTTTATTTTAAATGAGAACGAGTAAGATGAGTTGGTTTTAGATATTATAGAGACATTAGATCCGTTCAATTGAGTTATAACTTGACCATGGGTACCAGGGTGTAAAACTGTATATAATTCTATACCTAGGATTACGTTAGTGATAAGAGTAATTACAACTAATGCTACTATCAAATTTTGCTTCATGTATAATACTTTCTATTTCAGATGGATTAAAAAGGAATTCTAGTGGAACACTACTTGAAACGCTAGTATTTCGGGTAAGTTTTAGTCTTATATAAGTTGTTAAGACTTATTTATAGCAGTTTTTCATAGATATAACGCATTAAAAACTATCTGTTCTAAGAATCAAATCATGAATCAAAATTAGGGAATTCTGACTCATAAGTCTCATAAGAATAGAGAAAAGATACTCAAGGCTCTTATCGATTGGAATTTTCAAATTTAAACTTCCTAAGAAAGATTTTAAATAAGTCTAACTCTTCCATTTTCTAATGGATGATAAATTTTGGAGACTATTGTTAGCTAGGGGATTTATTAGATTATCCTCTATGATGTTCGCTATATTCTTTATGTGGAGATTAATTACGCAATATAATTCAATTTTCATTGTTAGTTTAATTCCTGCACTCTCAATAGTAGGTTATGTTATTGTTTCTATTCCTGAAGGCTATATTTTAGATAAATTTGATAGACCTAAGATTTTGTTTTTATCGTCAGTAATTCTGCTGATAATTTATATTCCTCTACTCTTTTACTCATCACTTCTATTAATTTATGTAATTGATCTTTTATCGTCAGTTTTTTTCTTTATATCTGGAGATATTTTTTATACTTTAATAAAAGACATTGTAGAAAAGGAGAAGCTTTCAGAAGCAATGTCCTTTAATGTTATAAGCAGATCTATTTTTGAAATAGTTGGAATATCATTAGGAGGAATTTCTGCTGCCTTTTTTCCTTACCTATTTCCTTACCTATTAGTCTTCATTTCTTTATTAACTTTGATAATAAGCTACTCTATTTCATCTAATATAAAGACAGTTGCAATAGAGAAAAAGAAAGAGGAAAAAACTGAGGAATTAAATTACTCACATGTAATTAAGTTAATAAAATATATGCTGCCTGCGTTATTGATAAGTCTTGTTATTAATGGAATATTTGTAGCTTTGGACGTTTTTGCTTCAGGAATATTTTATGATATTCTTCACTCTGGCGCATTAGGATATACGGCTTTTATTTTAGCTTTTTCTTTAGGCACGCTTCTAGGAGGAACTATAGGGAATAGATTCTCAGAGAAGTTGTTAAACGCAAGATCATTTGCTCTGATTATAGCAAGTTTCTCGTTAGTTTTTTACTTAATAGTTCTAGTAGATTTTTCTCCATATATTGAACCTCTGTACACTCTAATTTTGGGAATAGGTGTCTCGTTGATAGATATTCCTTTAGAAGCCCTTATAACTAAGATAATTCCTAGTAAGATATTTGGAAGGACGAATTCTTTAATAATGATTTTTATAAATGGCTCTTCTCCAATTTTAGCAGTAGTTTATGGCTTTATATCCAATTTTTTTAGTATTAAAATTATATTTATAACGCTAGGTAGTTTGATGCTAATAATATCAATTCCAGCGTTTTTTATTTATAGGAAATTGGTTAGGACTAGAGAGGAAGACATAAAAAAGGTATTACAACTTTAGATATAATGAACTTAATATAAACAATTATTTTTCTAAAATTATATAATTTATAATATTTTTCATGTTGTCAAAATATTATCAGATTGGGCTAAATGAGATTTTCCATATACAAGTTAGTCACGTAATAACATGTGTCTAATCACGGAAGGAATTATATGGAAATTTTATATCGCCTATTCTATAATAGAAGATTAATGAAGTATGTGTTGGTTGCCTTGCTTTTGCTATCTTTCTTTTCACTAGGTTTAGTTCATGGTTCTAGTTTAGTTCTATATTATAATGGGACTATTATTGCTCATATAGAGGGGGAGAAATATTTTAATTTTGTTGGAGAAAATGTTTCTAATTTAATTGTATATGGAACAAAATATAATTTGACGTCTGACAGCATATATTTCTATAATGATAGTAATGTAACTCTTAAGTATAACGCTTTGTTAAAGAAGGGAGTAATATATGTTAATGAACCATATAATTTGCAAATTAATATATTTCTGCCTAATAATTTTAGTGTAAATTACATAAATCCTACCCCTACTTCTTTTCAAATTATAGGAAAATACTATGATATAACATTTAATTCTTCAAATGTAACTATACTATATAGTACAAATCTTGTAGTATCTAGAAATAATAACATAAATTTCTCATATATTATAATAAGCATTATGATAGCTACTAATACAATTTTTGGCTTTCTAATCTATAAGGTAAGAAGATCGGAAAGCAATCAGAAAACGCCGTTGTTATATTTTTCTTATTTGACTGCAACAGAAAACTTGGGTAGAAATGGGAAAAGGAATAGCTATAGCAACACTAGTAGTAAGCATAGTAGCCGCAATAATAATATTCTCTATATTCCCGCCGAATCCAATTAACATCCTGCTGGGGATCACTTTAGGTTTAATGATATCTATAGCGATCTATGCTAAAGAGAACTATGATGAGTTTTAAGGCATTCTACTTTTTCATTTTATTTACTATCGTGAGTGGAAAAGAAAGAAGTTGGAAGAAAAAGCAATCCAGGTGCTTTTCTGCTTTTATTGTGTAAAAAAGCCCTTCTTTCTCTTCATAAAAAGTTATACATAGTCAAACATTTACCCGAGGTACTCTGGACTCTCGAAGCTAAATAATAAATTTTAGAAGATGACATATTTTCTCCATGACTAAAACTAATTAAGAGTTATACAACCAGGTGATAGGTAATATAGCTCTTTATTCTACGGCATACATTCTTTCTCGTCATGGATGGAATGTGCTGCCTACTTCTAGAAATACAAGAGGCGTTGATATTGTAATATATAGTCAGGATGGAACGAAAATGCATACTATTCAAGTTAAGGGACTATTTAAACGAAATCCGGTTCCCTTCGGGTCGAATTTGAATAATCTAATTGCAGAATTTTATGTTATAGTTTTGTTGAATGAACTTAAGAGTGAACCGTGGGCTTTTGTACTTAAGAAAGAGAATATAATTGAGAAATTAGTAAAGAGGGATAAGAATAGAAAAGTAAGCTATTGGCTTAACGATATGAAGTTTTTATCAGAATTTAAGGATAAATGGGATATTATAGGTTACGGATATTAAATAAATTTTTATAGTAATCTTTATTTTTAGAATATTTCTTGATTAGATTCGAGCAGACTTTATCATTTGTACAGTTCACAAATTGCATAGGTAATGTATTCTTAAATAGCCATAGAGGGCATGAATAATCCTTTTTAGCTCTTCGTACATTATTAAAATCATGGCAAAGAATAAACAAGAAGAAAACGGCAGAATTACCGTACCGGGTATAATTGCTGAAGAGGAAAAGGGAAATAGTGAAGTTCATGAAGTGCCTCCTGTAATAGGAAGCGAAATGCAACCGGAGAGGGCTAAAAGTGATTTGATAGCAACTCGTCAAGCTACCTTACCTCAAACTCCTTACGTAAGGATTGAAAGGATAAAAAAGAAATATGTAATGCTATTGAAATAATATCCAATGATTATAATTTTTTAATTAATTTAAGTAGTAAAATAAGCTCGTCGATTAAGAAAATTTTACTACCCGAACTATACGAAATATCGTATAATACGTATGTTTTAAAATATCCTGTGAATTCAGATAAAGAGTTTGCTGATATTCTAAAACTCGTATTAGAAGTGGCTAAAAACGAGAATATAAGAATTGAGGGAAAGAACCGTTGGAAGGAATTTTTAGAGAACTATGAAGAAGCGCAAAAAAGTAAAAGAAAGAAAAATTACGAAGAGTTAGCTGTATGATATCTCGTTAATTTGAATTTGCTGCTAAATTAACTATACTGATGGTTTTTATGGAGTAGTTGGCTGCATTGATTTACTAAGAATTCTTCAACCTCATTTTCTTTTAGGAGTGTTATTTTATACTTGCTCTTGTTGTAATCTACATAAATAACATCTGGTTTGCTGTCAATCCCGAAATATTGAAGAAATCTTTCCCAGACCTCTTTAGGTGGTTCCTCTACAAGATAGAGTTTCCAATCGCATGCTATAATAGACTTACTATAAGGACCAAGCAAGCTACTTGGACTATAAGTGAAAACTATCTTAACTTTATACTCTTTAAGTATCTTCTGTAATTTATCTATATTCTCCTTTATTCTCTTCTTCTTATTGTTAAAGAGATTGAATAAATCTATACGCCTCCTCCAAACTCACGGGCTTTATAATTATGGTATCTAGCGTGTCTGGGTCAAATAATCTCGTTTCGGGGTTGTAATGCTTCTTTATTCCGTATATTGCAAATTTTTCTATGTTATATGTCTTCTTAAGTTCTTCAGAAAGAGGTGGTAAAAATTGAGAAAAACCTCCAATTCTTATATCTTATCTCTTCAATATTCAAAACACCTATTCTCGAAATAAACTGTGTAAATGGTATGTCATGTAAGACTTTTGATAACCTATGCGGTATCCTATTATAATCGCTTAACAATGCTAATTTTAATATTACTAAATCCTTTTTCAACAATTCGTTCCACAAAACAGTCCCATATTTAAATTCTAAGATTCTAAATGGCCTTAAGTATTCTACAAATACTTTTTTATATTCCACAAATATAGTTGAATGCATTACGATTTAAATATTCCTTAAACTTGTATTGACCTCAAATAAATACTAATAACCCCTACTGGGAGTTTGATCTGCAAAAATAGCTAGAGTTTGGGTCCATAGTACTTTGTTTATTTTAATGTGTAAAAGCTTCTTTACCTCTTCATACTAGAACCGTATAGCTTTACTGAAGAACTAAATTATCTAAGGAGCTTCTTACAGCTCTGGTCGGCTATGAGCCTATATTTATCATCGAACTGACAGAGGACGAATTTCGGTATTAACTCTAAGCCTTTATCAGTAGTAAAGTTGAATCCTACTTCTCTAGCTATTTCCACAGCGGATTTGAAACGACGTTGATAGCTGCTCAGTTTCGCTCTTGGGCCGCATTTAACCTCAACAAAATAGTAATACATTCCAGAAGGGTAATACGCTTCTACGTCGTAACCGTGTTGATCCCTAGCTATTATTTTAAAACCTTTGCTTCTCAAAACGCACTCAACATAACTCTCACAGTCATGCATCTTCATCAAGTAACTCTCACATGGGTCATGCATCTTCAGAATTACCTCATGTTATTATACTTACTAATTTTAAATTATTATTTTATTACTCTTCTAGTTATCTAACTTCTTAAACTCCCCAGTTTACTGAGAAAAAGTTTGTTTATTTGCGTGCATTCTAACAAGTATTGCAGTACCCTGGAGTTTAGTCTTTTCTAAAAACGCTCTTGCAATCTTCTCGTGCTCATCACTCCTTACAATTATGATAAATACGTGTTTCTTGTCCATAATCTCATTCTCATTTTGGAGAAACATGCTTAATTTAAGGACTTCCTTATCTTCTAAAATGGTTAATTTATCTCCAGGTTTTAAATCAACAAAGATCTTTTCCATAACTATTAAATGAAAAGGAGAAAAATAAAGCAGAGTGAATGCCGAAATTATTTTTCCTTAATCCTCCAGTAGGACTTAATCTTAATCTTTAAAACTCTAATTCTCATGTTAAGCATTGCCTCAACTATGTCACCGCTAGGGATTTCAACCTTTTTAGTAATGTCGATTCTAACGAAATAATCCCTAAACTCGTTTTCAGTTTCCTCAAAATACATCATGTAATTACTTATTTCCCTATCTTGTTCATCTAACTCTGTTACTCCAGTTTCATAATAATTTTGAGTAATATATTCGTATTATCTTGTTGCAGTTTCCTCATCGTCAATCTCAGCAGTAAATTCTTCATGATTCTTTATCGTCAAAATGATCTCAAAGTAGTAAGTCCTTTTCAGGAATTTTTTGTCCTCTGTATTCCATATTTCTGTTATCCATTCTAATCTATGTTTATCAAGTATTTAAATATTTCTGTTTACGTATTTTATGTAAAATTACACCGTATATTTTAGATAGAAAACATTAACAAAAATATTTATAAGGAGAGAACGAGAATATAACGTATGAAGGTTAAAATAACATCAGAAAAAGAGTTCAGAGAATATGTAAAAAGGAAGGGGTACATAATTAGGGGTGCTTACGGGGAAAAGGCGGATATAAGCGAGGCTTTGAAAGTATTGATAAGGTCACTTACTGAAGACCAGCTCAAGGTAATTAAAGGGTTGAAGGTAGAGGGTAATAAGGAAGTTGAGGTAAGCAGTGAAGTTATTGAGGAGATGAAGAAGAAAGGGATAAATGAGGAGGATATTCCGAAAATAGTTAGGGTAGCTATCGATAGTGACCTTCTTCTAGAGAGGCCTCCAGAGTTGGTAGACCTTCTAAAGAAGAAGATGACCAGGGAGGAAGTTATTGATTTTTATAAGAAATACGGATATACGGAGAAGGCAGTAAATAAGATGGTTGATAAGGCTATAGAGAAGGGTGATGTTGAAGAGGTTATTGAGTTTGTAAAGGATAAAGACGTTGGAGGAAAGGCTGGTGAAATACTTAGGGTAATTAAGGATCACGGAAAAATAGGTAGGAAGGAATTAAGGGGAATAGTAGGAAGAGAAGGTTTAAGCGGTTTGTTAAATTACCTAAAGAAAGAGGGAGCAATTAAGATTTACTTGGAAAGTGAGTTACTGGATAAGCTGTAAAAGTATAAGGAAAACGATCCTAAAAATTGAGTATATTCCAATTTAGCTATTTATATCTAATAAAAAGTATATACGATAATATACTTGCTTATCTATATAGATTTTATGTGCTATATTAATATAGTTTAATATATAGTGATATATAGAATTTTAATAAAATAGAGATAATCTTTATAAACAACTATTAAAAATACAAGACAATGAAACCTTTCTACTTTTTAGACAATTTAAAATGGAATACTTTCATGACTAAAAATACAATAATTACTGGAATGGGAGTTTTTACCGTAGGCTATGAAGGAACAGCAATATCTTTAACCCTCTTAATTACGTTATCTTCACTTCACGTTAGTAGTAGTGAAAAACCTCTATTTGAAGGCCTTTTAGTTTCGACTGGATATATTGGTATGGTAATAGGAGGCTTAATATTTGGCATATTATCTAACAAAGGTCGGAAGAAATATTATGGAATAGATGTTCTCCTTATGGGAATAGGATCTATTCTTCAATTTTTTGTTAATAATTCCTATGAACTTTTCTTATTAAGAACAATAATAGGAATAGGCGTAGGTGCAGATTTTGTACTTTCACCAGTAATTATAGCAGAAAATTTTAATGCATTAGATAGAGGAAAGGCAATTGCAATAGGAAGAGTGATAATGATAACTCTTGGCGATATTGCTGCATCTTTAGTTTTTCTTTCTCTACTTTTGTCACACGTCTCTACATCCTTGTTATGGAGAATAACCTTATCCTTAGGAGTTATACCTGCGTTAAGCGTATTTTATTTTAGAAGAAGATTGCCGGATACCGTAAGGTATATAGGTAGAATAAAAGGGGATATAAACGAGCTTAAGAATGCTGTAATTAAGATAACTGGAAGAAATGAAGTAAACGTAAACGTAACAATAGATAGGACTCCTGCATTCGTATATTTTAGAAGAAACTGGAAGTTCTTCTTAACTTCTGCACTTCTTTGGGCACTACTAGATCTTAATATAGGCATAAAGGAATTCGGTCCAACTTTAATAGCTAGGCAAATAGGAATTACAGACCCCGCAGTATATAAGATAATTACAGATTTAGCGTTTGCCTTGCCTGGAGCATTTTTAGGTATAATATTAATTGACAGAAGCAGGAAAATCACTCAGTCAATTTCTTTAATTTCACTAATTATAGTATTAACATCTTTTGTGGCATTAAGAGGAATTTTACCAGACGTGTTTCTATTTCTTATAATCTCTAGTTACTATTTTGTTTATAATATTGGTGCTCATCCTATTATAGGTACTGGATTGCCTGCTATAGAACTATCACCTACCAAGGTTAGGAGTTTCGTTCAGGGAATAGTTGTAGCAACTGCAAAATCTGGAGGAGCAATAGGTACTTTATTATTTCCAATATTGTTCCACAAATACGGGCTTATAGGTGCTTTATTGCCATCAATAGCCATATATCTTATTATGCTAGCCCTATTCACATTAGTGCTACCAGAAACAGGCAGAAAGTCTCTTGAAGAGACGTCAAGAGAAATAGAAAGTGAAGAGAAAATAAAGTAAAGGAAGAAACAAGAAAAGATTACATATCATATATTGATAATGTAAAACACATTAACCCTAATATTGAGGAAACACTTCAACCTACAAAGATAAAGCTAAAGAATTAGAAGAATAAGCTATTAATAATTAACTATTTATTTCTCTAATATAATTTATCTTTTGAATAAAAACTAAATTTCTTATTTAAGAATATTTAATAAATTAGTGATTCCTACAACTATTATAGTTGTTTAAGAAATTTAACATAGTATTTATATTATACTGTGTATGTGAGATTTTGGCATATTTAGTATTAGTAAATTAAAATATATCTTACCCTTTAAAGTCTAAGGAATCATATTATCTTAATTTAAATAAATTTAATCGTACTCTGCTTGTTGCTAGCCTTCTGCAGAGCTGTTATTGCTTTCTTAAGTCCCTCCTCTACTTTCTTAAGTCCCTCCTCTACATCATTTAAGGAATTCAATGCTGCTTGTAAGGCTGTATAAGCAGAAACAAGCTCCGGTGGCGCTAAAGTCTCAAAATATCCTTCTAATTGCTTCCTAATCTCTATACAAGCAGTATCTAAGTCTTCATCTGTCACTTTCCTATTGAGCTCAACTAGAAGGAATCCCTCGCTCTTAGCGGTCTCCCTAGCTTGATCGTTTAGAGATGAGACTACCAGAACTTTCAAATGCGGAAGCTTCTTTAGGCTGTTCACTCTGCCTACTTCCTGATCAACTGTTGGCCTATCTACAGGTCTATCTAAGTTCTTACAAGAGGCGTAGATCTCAAGACCTCCTTTAATGGCCTTTACGTCTACCTCCACGTCTTGTCCTGCCCTATTTTTTCATATACGTTAGTCCTGACGTCGAAGCCTAGAAGCTTAAAAGCGTAAGCAGTAGCCGCCTCTAAGGGATCTCTAACGCCCATAAAGGTATTCCTAATGTCTTCCGAGGAGCATACAACTGGAAGTAGGGGTTGTGGGACTGAAGTAATAGTCTCATTGACTCCAGTGGAACTATATCTATAACCACTTACATCTTGGAGCGGGGTCTCATCGTTTTCTTTCAGTGGTGGAGTTGTAGTATCGGTTTTGTATTTTAGGAATTCCTGTAGTAAGTTTACGAAGTCATCAGTAAACATGGGAGCAGGAAAAGCATACATAAAGTCTTGCTTTCCATTAATATTGCACTCGAATATGATATCTAGACCTTTTATTGCATATCTCCAACTGTCAGGCTTTGGTACGTCTGGCTTTAGATCTTCATCTAAAACAAATATAGTTCCAACATGAGTTGTAAATCTCACAACATTAAAAGCGTGCTGCTTCGTTTTAACAAAGGTTAAGAGCTGACTTAATGCTTGCTTAATGTCCATTATTTCGCTCGTAGAACTAGTACTTAGTATTTTGTAGATCATGGATCTAACAAACTCTATGTAAGCTTTTTTCAACTTCTCGTAGTTTTCTAGTTCATATTTCACTAAGTTATTTGCAATATTTGTATTATACACAAATGATTGACATGTTTGCCTTATAATCTGTTCTGGGGCACTATTAAAGAAATAATTGATCTTTTGAGGATTTGCACCACTAAGGTAAGTAATTTCATCACTAGTTAGAAGTACAAAGATACTATTTTTTATGTCTTGCCAGATACGTATTCTACTATCTGCATCACAATAAAAAATATTCTTATATTCACAAGCTGTACTAAAGATTATGACCTGAATAATAGCTATATATTCCATATAGTTAACGTAATCTATAAGATAATCGTATTTCTCTTGACTCATGAGTAACAAATATTTTTAGCAAATTTTAAATTTTTCTATCTTAAATTCATTATATTGAAATCTATTTTTGTTGCACTGCAGGGGCTTAGTACACTCCAATCGATATTTAAGTATTGTATAACTTACCGTTTAACACAGGTACTTTCATTAAGTTTTTGTCTCATTATTTCCCATTTATACTGTCAAAATGAATAAGAACTTTATGAGACTATTAATATGCACTATTTCTAAAAAGCTCCTAAGCCATAACTCATTTTAGTTTATGCGTCTCATGATGGCTTTTCTTTTTTTCTTAAATAATTTTAGGTGGTAAATATAAATAGTCACTCTTAGTTTCTATTAGATTTAGTATCCATTTCAGGTTTACAGGGTAAAATTTTGTTACGTCAACGCCTAATGTAAATAGGTTAGATAATGAAACGAGTGTGAAACTTCCAAAGGATTATCGGCTTAATGATAGAGATTTGTTAGTATTAAAAGCAATAAAAGATGGTAAAATAATTTTATCTGAAATTATGAAATATACTAATTTACCTAAAACTACTGCATATAGGAGAGTAAAGAAATTGGTTAGTCTTGGTTATGTAAAAGAAGTTAAAAAAGAAGGGAAAATATTCTATATCGCCAATGAGGAAAACCAATAACTCTAGACGTTCCACATTGTTCCGCTACTTGTTCCTTTAATATAGGAATAGACAATTAGTTTTTTGGTGAAAATATGAATAAACTAATCTTAGCCGCAGTATTAATACCTTTAGTAGGATTAGGAGTAGTAATAGGAGATTCCTTCTTAGGTACTTTAGCTAATATAAGCTACTCAATCCATACAACTAATAATAACTATGAAATATTATCGGCAAATATTAATTTAGGTAATTTAACCGCCGGTGAACAAGGAAATTATTCGTCTACTGCAACAATGAAAATAAATTCAGGATATTACACGTTTAAGCTAAATAATGGAGCATTAGAGGGAGAATTCTCTAATTTTACAGTAATATTAAAATTTGCTAACCATACTATAATTCTTAGTAAAGAACATCATGAAAGTAAAAAGATATTCCTACAGTCTGGAGAGTATAATGTTACAATTTTAATTTACTACGTAGTTTCTATGAAGGCTCATAATGCAACTGTATCTAATACTCAGCTAATAACTGTAAAAGAAGAGAATTCATAATTCTTTATAGAAATATTTTTTATAACAATTATAATCTGGATATGATGGTTAAGTTAAAATATCTTTTTTGTATTAAAATTATTATATGATAAAAAATTCATCAAATCTAAACATGATAAAATTTTTCAAAAATAACTAACATAAATTGTATTCATACTCGTAGTTACAGCCTTAGTTTTCCCTAAACCAGTTCTACACAACAGAGAAACTATAGAGTGCGAGATTATAAAGATGAGGACTAACTACTTTGAATTTTTAATCAGTAAACTGTAGAGTTTATTCTAGATTATATCTTTAATAAACTTTATTATAAGTTTATATATATGAAGACTGTGAAGAAAGAAGAAGACATTTTTATTGAATTCAGTGACTTTAATGAAGTAAAGGAAGTATTTGAGGAGGCTATTAAAGAAATGAAAGACGAAGAAAAGGCTAAGGCTAGTAAGCCTTCTTATGAGACCCGATCTCTCAAATGAAACTATACAATTTTTTGAATTTACACTGTAAAGAATTCTTATATCACCATGTAACTTCTATGGAGAACGTAGGATTACCGTATTTATCTTTTCCAAGCTTCTCTCTAGCGTACTTAAATGGATCTTCATTTATCAATCCCAATTTTTCAAGAATCAGTCTTAGAAGTTTTGACTGAGGGAAATTTCTTTTTAACCATTCTATGAACTCTCTTCTATCCATCTCACCCTTAACCAAAAATCTAAAAACCCACTTCTCACAAACCACAATAGAAAGAGAAAGAAAATAAATTTAAAAATCTTTCTACTCATTTATTATCTCATTAGTGATAATAGTTGTAATAATACAATAATAATCATAGTAAAATAAAGTGAATTCGCAAAGGAAACCTGAATCGCCCTAGAGATGAGTAAACTTTGATTTTTTAGTAAACTGGAAAGTTCACTTAGACTACATCTTTAATAACCTCTGTGAGAAATTTATATTATATGAGAATTGAAGATAAGGATGAAAAAGGAGAAGGTTACCTAGTAATTGAGAGTAAAGAGGATTTGGAAGAATTTAGGAAAATGTTAATTGAGGCTTATTATGAGCTTAATCCCGACCGTAAGCCTTCTTGTGAGACCCAATCTCCCAAATAAAGATTATGCAGTTTTTTGAATCTACACTGTAAAGAATTCTTATATCTCCAGTTACTTCAATAGAGAACATCTGATTTCCATATGTATCCTTACCCAGTTTCTCTCTAGAGTACTTAAATGGATCTCCTTTCAACAATTCTAGTTTATCAACAACTAACATTAAATATTCCAAATTAGAAAACTCTCTAGCAACAAATCTAGCTAAATCTCTAGCTTCCTTGACTTTCTTCATCATGAACTTTATTTCCCACTTTTCACAAACCACATAAAGAGAAAAAGAAAATAAATTTAAAAATCTTTTTACTTATTTATTATCTCATTAGTGATAATAGTTGTAATAATACAATAATAATAACAATAGTAGAATTAACGTAAAAATAACGTCGTAAATTTAACCATTAGATATTAATATTCTATCAAGATATTTTATAATGTGAATATTGATCCTAAACTTTGCATTCTTTGTCGAGGTACCAAATATCTTTGTGGTCTTTCCTATTGTCCTGTATTCATTAAGAGTAGGATGAGGATAGATATTCCAAAAGATTTAGATGGCTCTTCTCCTCCCTCGGTTTTCGTGGGAAGAATAGGCTATCCTAAAATAAGTGTATTTGCTTCTTCTCCACCAATTAAAGGAAATACCTCAGTCTATGAAAATCCTAAAGAATGGATTAAAATGAATTTAGATGATTTCCTCTCTTTAAGGTTAAGTATGGCAAGAGGAGGAGATAGATTTCATGTTAATGAAGCTAAAAATCCTTCAAAGTTACTTGAAGATATTAAAGTTCTTTCCTTGTCTCCAAATCCTGCAGAAATAGAAATGAAATTTAAGTATGAACCAAAAAATGTAATTTTTGATGAAGATCATCCTCCTCTTGGTCCTTCAGCTCCTGTAGAGAAAATAAGATTAGGTACTTTACCACCTCCTGAAAAAACTGTAGAGAAAGTGTTTGAGGACAAGGACTTAAAGTCCTCTGAAGGTATAATGTATTTATATAAGTCAGGCATAGACGTTGAAAGAATTTCTAGAATACTTAGTGTAGGTAATATAGGGATAAAAAGGAAATTGGTTCCAACACGATGGAGCATAACTGCCGTAGATAAAATAATCTCAGATAATTTAGTAAATGAAATAAAGAAATATGAAACAATAGACAAGGTCGAGGTTTATGTTAGAGAATTTAATAAAAATCTTTTTGTAGCTATACTTATTCCAAATAAATGGTCATTTGAATGGGGAGAGGCATGGTTTCCTGGAAGTACATGGAACAAGTTTGGAAATAAAGTTGGAATAGAAGTGGATAACGAAGGATATTTTGGAAGGAAAGACTATCCAGAAATAGGAGGTTGTTATTATGCGTCAAGAATTGGAGTTTCGGAATTTCTTCTTTCAAGAAAAAAGCAAGCTACTGCAATTTTATGGAGGGAAATATATTCTGGATTTAATCTTCCTATAGGCGTATGGTTTGTTAGGGAAAACGTAAGAGAGTTATTTAAAACTAAACCTATGGTTTTTGATAGCGTAGATGATGCCTTATTATCTCTTAAATTAAGATCAGGATTAGGTTCATGGATTAAAAGAAGTTTCATAAAGAGAGAAAGTATTGAGAGATGGTTACGATGATAAAACATATTAGAGTTAAATCTGCGCTCTCAAAATCAGGGTTAAAGGAACTTGATTATAGCTTAAATCCTTACATGGGATGTAAGTTTAAGTGCCAGTATTGTTATGCACCCAATTTTACTAGGGATGTAGACGCATCAAAAAATTGGGGAGAAGTAATAGTAATTAAGGATAATATCCTGGATATTCTGAAAGAAGAGGTTCTTGCAAAGAAGAAAGGTACTGTAGGGATTTCAACAATCACTGACCCTTATCAACCTGTTGAAGCTGAATATAAATTAACTAGGGGAAGTCTAGATATATTACTTTCTCATGGTTTTAGGGTATCTATTCAAACTAAATCTCCTTTAGTTTTGAGAGATATCGATATTCTTAAGAAGTTTAAGGAAAAAGTAGACGTTGGTTTCACAATAACTTCTATGGAAGGAAAATTAGAGAATGCACCTTTACCTAGATCTAGAATAACTGCTTTAGAAAAACTTAGTGAAGAAGGAATAGAAACTTGGGTATTTCTAGGGCCTATTATTCCTAATTTTACTGATAATGTTGAAGAAGTTATTAGGGAAGTATCTAAAATAAAAACTAGGATAGTTTTTGATAAATTTCGATACTATAAGGGTTTGAATTTTTCAGAAGGTAACTCAGTTTGGTGGGAAAATATAAGGGATAGAATACTGTCTTTATGTAAAAAATATAACGTGGAATGTCATGAGGAAAGTGAAGATTGGATATTTGAAAAAAGAAGAAAATACAAGATTTTATGGTGAATCTACGCATATTTTTATTTTAGCTCCCTTAGCAAAGGGTGCTCTAAATATATTTATTATCCAATCTTCTGTATCTCCATGTGCATTAGGTATTAATTCCCTATGATGAAGAATGTACTCTTCTATCTTTTTGAAATCTTTAGGATCTATTTCATATTTTACAGTAAACTTAATTTTATCATATGCATAAGTTATTTCTTCTTCGTTCTCTTTGATGTAAAAATTTCCTAGCTTACCTGGAATTTGAGTTCCCTCAAGTTCTATGTCATTAACTATATAATCCTTTAATACATCTTTCAGTCCTTTAGCGTAATCCTTTATAGATTCTGCTTCTGCATAATGATAAATTGAATAGTATATCTTTTTGCCATCGTCTCCATGCATTTTAATAAAATAATCTTTTAGTTCTTCCAAAATTAATTCTGTCTTTGATTTTATGATAGATAATTTTATTCCAGATGGAGGATAATTAAGTATTTTAGATATCATTAGCCATTCTTGATATCCATCATTATCAGATTTTATCTCGTCTATTTCTGAAGAATCGGAATAATTATTTTCTATTGCTAAATCTTTATAAAGATAAACTAATCTTTTATTAATTCTGTCAATGAAAAAACTTCCGTATTTACCTGCTATTTTCTCTCTAGGAATTTTAATTTTAGAGAAAAGTGAGCTTAGACTTTTCTCAAAAGAAACGCCTGACTTAGAATACGATTCATACTCCAGTGAATGGTAAGTGTAGTAAAAACTAAGTCTTCCTTTTTCTTTTCCCAACATATCTTCATGAAATTCTTTAACTCTTTTGATCGCCCTTTTAGAATTCATGTTGATTTACTTATATTTCATTAATATATAGAACTATTCTTTTTAGCTTTACGAAGTTAAGTACATTTAGGAGTATATAATTCCTATAATAATTCATTCAATATAAATAATATTAGATTTATGGAATTATTTATAAAAGATATATAATAATTAAGATAGCTTACATAGCTCAGAATGAGAATAGGATTTTACTATTTATGATTCTAATAATAGATAGAGAGTTAAAGGTATTAATGGACTATATTTTCAAAGATTTCTATAAAAATAATATATTTAACTATGAAGTTATTTTGAAACTTCTCATTTTCATAATAACTGTTTAACGTATTTTATATAAGAAATTTAAAACTCTGTTAATAATGCTTATAATTTGTTCATATAGTTAGCTAATTATGAAATATTTTATTTCTGGTGATAAAGTTGAGGGGTAGGCTTCCTGAGATCGTATATATGGAAGTGGAACATTCCAATTGTTGGACTCATTTAACTGATAAAACTAATTTAGAAATAAGACTGATCAATCAAAATTTTAGTAATGAAGCCCCTCTATTTAATTCATATATTATAGGGAAAAGTAATTATTTATCAGATATTAAAGAATTTGTGAAAGGTATAAAACATCATGAGAGTGTTAATGATGTACTTAAATTGGAAGCAGACGAGAATGCTTTCGCTACTAACCTTTCATTAATAAAAAAAGGTAGTATCTCCAATATAATTCATAAAGACGATGGCATAATAATGGAGCATGAAATAAGAGATGGTATAGAAGCATGGAGTATTATAATTGACAAAGAAAATATACCATTATTAAAAGAGGATATTGAAAATAATGAATCTTCCGTTTTGTTAAAATTTAGAATATTAGAAAGGGAGAAATTATTTAACATTCTAAGTTCATTAACTCCCAATGAGGCTCTTTCCCTTTATCTGGCTGTTGATAAAGGTTTCTTAGATTTCCCCCATAAGGTATCTACAAAAGATTTAGCAGAAATTATGGGAGTTAGTTCAGCAACGTTTGTTACTCATCTTAGAAAAGCTATTAAAAAGATAGCGTTAAAAAATTATCATGAAATAATATCTTATAAGGAATAATCTCCGAACTTCTTTATTTTCTCTGGGTTTCTCCTCTTTTCTATAAGGTAAATTATAGAACCTAATATGAACCATGAAAGCGCAAATAGTCCTGCATAATCTAAAGGAGGCGGTGCCATTGCTGATAACACAATTGCAGCTCCTAATGCTATTACTACTATTCCTCCTACAATTATATGAGTTAATCTAAGAGTTCCCTGTTTTTTATTGTATCTTATTAGGCCTATAGCTCCTAATAAATGATTTAGAAAACTATAGAATGCATTAGCAGTTATAAGAAATATACTAGCGTTTAAAGGTCCCATTATTAGACCTGCGGTAATAGCTAATACTGCGTTTATTACAGCCATTATTATGATATTTTTACCAGGTACACCGTACTTATTTATTTCAGAGAAGTGCTTTGGGAAAACTACTCCGTCCCTAGCCATCCCATAAACCGTCCTTACTTGGCCGTTTCCAAATCCTATCGTTGATGAATTAAAGCTATTCACTATAAATATTGCAAATATTATTCCAAATACAGAACCTAGAACTGCATCGTATATTATAATTCCTGGATCTGGGAGATTAGCATAGTTAAACATATTTGATACTCCATAAGTTACTTCTTGAGCATACGAATTTAGAATTATAGGTATACCTAAAATTAAGGCTAACATTACTAATGATTTAGGTATATTCTTCTTTGGATCTGCAGTTTCTTCTGCAACTGGAATAGAAGAGTTCATTCCTCCAAAGGTAGTTATTCCAAATATCATAGATGTAAATATGACTGCCCAACCAGCTCCTAGCGGTAGAGGAGTAAAAGGTATTACTGTATTATGAGGACCCGCCTTAATTATAAGAATTATTGATGTTATTAATAGAAAAGCTATTTCTCCTAAACCGGCGTACAAATTGTATTTACTATTAGTTTTAATTCCTAAGTACATTAATGTTGATGTCTCGGCTATTATTCCCAATGATATAGGTATCCATATCCAAGGATATGTGGAATAAAGTGTAGGGAATAGTAAAGGTAAAAATGTAGATAATCCCAAAACTCCAAAACCGGCAGAAGCTAACATATAATAAAACCAGTATCCCCAACCTCCTGCAACGAAAGAGATGTAACTACTATTAAATCCCTTCTTCTGTATTGCTGCCCAACCATAAGAGGCTGCAATGTGCTTACTCCAATTGTAAACCACATAAGTCATTGAAAGGTATATTAACCATGCCAATACAACTACTAATGGTAAAGATCCTCCTACTAAACCTGCTAATCCTACGAAATATAATGCGGTAACTGCTGAAGGTGCATTACTTGCTAAACCGTTAGCCATAGCTAACCATGGAGATAGAACACCTTTTGATAATCCTTCTTCCTTTTTAAAACTTTCATTTTCGGACTTCATTTGTCATTAACACTATTTTTTTATATAAAAGCAAAACATCTAACTGATTATATGAAGAAGTTAAAAATATAAAAAATAGTTATCTTTATGTCACAGCTTTTGAGCTTTGAGAAGGAATTTGGTAAAAATTTTATAACAGATGAAAAAGAGTTGGAAAAAGCTAGTGAAGATCAATATTTAGTTTCTCCCATTATTAAAAATCTTTCAAAAAAAGCTATAGGCCTTTTAAAAATAGACAATGAAAACGATATAAGGACTGCGATTGATATATCTTACAAGCATAATATACCATTAGTTGCTAGGGGAGCTGGTACTTCTACCATAGGTCAAGTAATTCTTTTAAAACCGTCAGTAGTTTTGGATTTTAACAATATGAAAGGTATTGAATATGATAAATATGTTAGTGTAAAGCCTGGAACTAAAGTCCTAGAAACTCTGAATTATTTAAGGAAAAGAGGTAAAGATCTAATGGTCTATCCAAGTAGTTTCTATATCTCTAGTGTTGGAGGTTATGTAGCTGGAGGAGATGTTGGAATAGGTTCTTTTCAATATGGATATTACTTTGATGAGAGTTTAGTTCAATTAAAAGTAATAGGATTTAACAAAGAAGAAGAAGTTAAAGGAAAATATGTTTGGGGTTTTGCTCAAGCTGCAGGTACTACTGGGTTTATAGTAGATTCAAGTTTTAAGCTTACAGATTTTCAGGATTGGAAAGATTATATTATTGAAGGAGACGATTTATTATCTCTTCTTGTAAATATTAAAAAATTAGACAGGAAAAGAGTGAGAAGAGTTGTAATAGAAGATCACGATGCATTTTCAGTTGTGGCTAAAGGTAGAGCAACGTCCAATAAACAATGGATAACTATAGTTTCTTCTACAGAACCTTTAGGTAGCGAGATTAACCTTAATTTTATGGACGAATTGGCTTTTGCAGCAGTTTATGTTACGATGAGTAAAATATCTCCTTTTAAAAACTATTTTTACGAAGTTAGACTCTTCCCAATAGAGAGATTCTTAAGTATAGTAACAAAAGTCAAAAGCGTTTTAGGAAATAAAGTTCTTATTCATGGAGACGTCATGACGTTAAAAGGAGAGATTATAATATATACTGTTTTCATATCAGATAGGGAAAATTTTGAATTAATAGACGAAATAATGAGAAGTGAAGGAATACCTTTCGAAATACATTCGGTGGAAGTAAATGATAGAGTAGATGATCCAGAAAGGTTATCTTTAATGAAAAGGTATAAAGCATTGATGGATCCTAAAGATCTTATAAATCCTGGAAAGTTGAGAATATGATACTAAAAACTCTAATGGAAGTAATAGAAATTCTAGAGAGTAAAAATCCTTTTTCTTATTTAGAAGAGGAGTGTAAAAAGTATGGTATAGAGTTACAAGAAAAAAAGATAGGCGACGTAACGTTTGTTAAAGCTAAAATTGGCAAGGGAAAAAGAAAAGCCGAAATATTAGGAAGATTGGGTGCAATAAGAGTCTCAAACCATTATGGTATAGTTTCTGATGCTGATGGAGCTATAATATCACTAACTTCAATGATAGAGTGGGCAAAAAACTATTCTGAAATAGAGGGTGAAGCAATATTTTCTACAAACATTTCTCTAGACGCCAAGTTAATTCCTCATAAACCTTTCAATTTTATGGTTCCTCTTGTAGGATTAGACGATGCGCTAAGATTGGAAGTGGATAAAGAAGCCCAATTCTTAATTTCCGTTGATTCTACTAAAGGTAATAGAATAGCAAAGTATAATGATTTTGCTATTTCTCACATAATAAAAGACGGCTATATATTGAAAATTCCAGACGAAATAATAGATATTTATGAAAAAGTAACTGAACATGAACCATACTTTGTAGCGTTAACTTCGGGGGATCTAACACCAATGGAAATAAATGCTTACCATATAAGCACTTTCCTTTCTCCATGGCTCTATACAGAATCTCCAATATTAGGTTTAGCTACTGTATCAAAGTATCCCATTCCAGGTTATGAAACTGGAGTACAGAACGTTACAATGCTAGAAAGAGCTAGTAGATTTAGTATTGAAGTTTTAAAATACTATTTCTCTGGAGGCGATATATATTCTGAAGAAGAATTAAGTTCACTTAAAAATGTTTTAGGGGAATCCCAATTTATGAAGTTAAAGAAAAATTAATTTTGAAATGATATATTAGATATTATGAAACTATATATCACTCTGAAAAATTAAACGATTTATAATAAAAATCTATATGAAAATAAAGGTTAAACGTTTAAATTGTTCAGATATATTCTAAATTATGAACATAGTTTCTTTATTTAAGATAGTTCCCAACGATACTTTAATTAAGATTCTAGAAAAACCTTTGAGTCTTAATGTTCTGCTTAACATAAGCAGTTATAAGAACGCTATTGAAGAATCAATAATGTTAAAAGAAAAATTATTATCTAGAAGAGACTCAAAGAAAATAGTTATGATAGGTAGTGATAATGATTATAATTTAAGAAATCTTTTGTATTATTCTTCGTTGTTTTACATTCTCCTAATTTATAAGAATTTTATGAAATTACTAGAACAAATAATCGGTAGCATCAATTATGTTACATTAAGAGGCAAAATAGAATTCTATAAGGTGAATAGAAAATGAGTTTTGATGCAGACGTTATAATAGTAGGTGGAGGATTGTCTGGACTTTCAGCCGGAATTACTGCAGTAAGAGAAGGACTTAATGTAATCCTTTTAGAGAGGGGAGAGTATAGTGGAGCTAAGAACTTGTCTGGAGGTAGAATGTACGTCCATTCCTTACTTAAACTTATTCCAGACGCGTTAGATAAGGCGCCTTTTGAAAGACCCATAACCAAAGAGACTTTTGAATTCTTTTGCGAGAATAAGAAACTTTCATTTTCCTTAGAAGAAAAGGATAAAAAGAATAGCTTTTCTGTCTTAAGATCTAAATTTGATAGATGGTTAGCTGGAGAAGCCGAAAACCTAGGTTTACTAATATCTTACTCTACTCTAGTTACAGACGCTCATAGAGAAGGTAACGGTATTACTCTGGAGACTAATAGAGGAGCATTGAAAGCCCCCTTAGTTATCGATGCTTCAGGAGTTACTTCTGTAGTATTTAGATATTTAGGACTTAGGAATTTTTCTCCGAGCAAGTGGATGTTAGGTGTTAAAGAAATAGTAAAGACCGATATCAAGATGAATGATAATGAGGGAGAAGTAAGAACTATAGTAGGTACAATAAAGGGCGTTAAAGGAGGAGGTTTCGTTTACACGAATAAGGACTCTTTATCGGTAGGTATGGCAGTTACGTTTGATTCATTACCTAAATCCGAATATCCTGCAAAGGATCTGGTAGAAGGTTTTAGGGAAAAATTAGGAATAGATGGAGAAATTCTTGAATATTCAGCTCACGCAATTCCTTATTACGGTTATAAAAATCTCCCATCTATATATACTGACAACTTAATAGCTGTTGGAGATTCTGCAGGATTTCTGATTAATGATGGGTTTACAATAAGGGGAATGGATCTAGCTATAGCTTCTGGGATGATAGCTGGATTATCAGCAAAGAAGATTAAGGATAATGGATATAAGACTGAAATATATTATGATATGCTAAAGGAAAGCTTTATTCTGAAGCACCTAGAATTGGCATATAATAGATTCGAACTCATGAACAAGGCTTACACATTAAATTCATATCCTGAGATTTTATGCAATGTACTTTCTGATATGTTTACTGTTAGTGAGAATAGAAATACTCTGATTGATGACGCTATATTAAGATTAAAAGAGAAAGGTATATCATTAACTCAAGCCATAAATGATATGTGGAGAATGTTAAAATGATCCCTCTCTTAAAAAGATTAGGATTAAATAAATACAACGTAGATAAAACATCTCATATTGAAGTAAATACTGATATTTGTCTAACGTGTAGAGATAAGCCTTGCACATTATCCTGTCCTGCGGGAACTTATGAAGCACTTCCTAATGGAAGGATAGAGGTACATTATGAAAGATGCTTAGAATGTGGTGGAGCATTAGTTATATGTCCTTATAATGCTATAAAATTTAGATTTCCAGAAGGAGGAGTCTCGTTTAGATACGGCTAAAAATTATTTTATTTTAAGTGCAATTTTAAGTAAAGCTGGATATATAAATACCCTTATTATAAATGTATCGAGGAGAGCTGCTATTGCTATTCCTGCTCCTAATTCTGCAATTGGTTTTATAGGGTCTATAGCTAAAACTCCGAAGGAAGCAGCTAAGATAACGCCTAAAGCAGTAACAGCTCCTGCTGATATTGAGACTGCTCTTATTATACTTTCAATATCCCTTTCCTTATCAACTTCTTCCTTAACTCTTATTAATATAAACGTACTGTAATCATTACCTAAACCCATCATTAAAACGAAGATCGTTATAGGGATGAAGAAAAGTATGCCCTCTGGTGACCTAAATATGGCATATATAATTGATAAGGAGAATATTATGCTTAATACTATAGTTCCTACAGCACCTAAAGATATCCTTACTGATTTAAGCAAGAAACTAAGAGTTATTATTAAAACTGCTGGTAAAAGAATTGTTAATATCTCATAAAATGGTAATAAATAGTCTAATGCGTCCATAGCAGTAGCAGTTGTACCTCCTACATACCCATTAGGTTTTACTATATTCTGAATTTTACTTACAAGAGCCTCAGCTTGTGAGCTGTAAGGATTATAAGAAGTTATAACGGTAATTAATAATGTTTTATTATTAGTACCTATATTTTCTTTTAGGCTAGTAATAACTTGAGGCGTATAAGTTCCATTAAAATTAGTAGGTACTGGACCTATAACTTGAGTTACACCATTAAAGGTAGATATATTTCTCTCTATTTGTGCCAAATGAATTAATACTGACGTATTAATTTGAGACTCATTGAATACAATTAAAATAGGATTTACGAAAGAATTGCCGAAAGCATTTTCTAGAATTTTTAATCCTTCTACTGCAGGAAGATTAGGTAAACCAGATGTAAAATCTAAAGATAGTGGGACGCTTACGACGAAAATTAGAGACATTACTCCTATAATTGTAGCTATAATTAGTGTAGTTTTAGGCTTCCTTATGCTTAGCCTAGCTATATTCCCTAGTGTATTGCTCATTTTGAATTTAGGTTTTGATGGCCAAAATATTTTATCTCCAATTTTACCGTAAATTATAGGAAGTAAAGTAAAAGATAAGGCTACAGTAATTGGGACTGAAAAACCTATAGTTAGACCCCATGTATGTAAATAAGGTATAAAGGAAAGAGATAAAAATACTAATGAAACTGCAGTTCCACTTATCAATATAGCTTTGCCAGAAGTTTTAATTGAAATTAATGCAGATTCTTCCTTATTTTTTCCTTTAGCTAATTCTTCTTTAAATCTGCTTAAGAGAAAAACGCTATAATCCGCACCTATACCTAATAATATTGATATCATCGGTTCAATAACTTGGAAATCTACTGGATGATAGAATTTTCCCACTAGTGTTACTATTGCCATTCCAAAAATTACTGAAAGCCCTATGATACCCATTGTTACAAGAGGTGCTACAATACTTCTAAAATATATTCCAGTTACCAATATTAATGCGATAAAAACTAATATAAATGTAATGTCCTGTCTCTGAGCCTCAGAACTACTTAATTCTTGAACTAGAGGAGCCGGTCCAGTTAAATAATATTTTAATGGTAAAGTTTTAAGAGAGTTTTGTATATTATTTGAAATGATACCGGCAGGATATGTTCCATTCTTTAGATTATAATTCGGTCCATACTTAGTATAAACGAACAAGACAGAGACGTTTTTAGATACGTATAATGATGTTAAACTAGAAGGAGGTTTAATTAAAAAGAAGAGGCTCTCGTTATTTTCTAAAATTTTTTCTGGAGTGGTATTAAATAGCTGTGTATAGTAAAATGGAATATGAAGAGTTTTAGATATATCCAGTCTAACTTGAAATAAAGAGATATTTTCTCCCTTTTCCTTTGTATAGTTAATTATTTGATTTCCAGTAGAATTTATTACCTTACCTAGCTCATTTTGATATTCTAAATAAGCTGTTACTATACTATCTATTTTTGTGACGCCTGAAATGTTCTGAATAATTTTCTGTACTTCATAATTTTCTTGTGGTGTAGCATTTATCAAAACTACATCGATTGTATTATTTTCATTCGCTCCATGAAAGTATTTATCTAAAAACATTTGCGCTTTAGCTGAAGGATAATTAGGCGGTATTGATGTATTTTCATTATAGTTTAGATATTTTGAAGACTGTGAAGATAACCCTAAAGCAATTATTATGGCTATAACCCATAAGATTATGAGTAACCTTTTATTCATAAAGGCATTTAGCTCTTTGATTTTAAAACACTTTCTATTCACATTATCACTTTATCATTTTAAATATAAAGTTAATAATTTAAGAATAATACTTATACATATTTAATTTACAAATTGACTTATAAGATCAGAATTTAATAATGATTATATTAGTATTAAAGAAAATTTGTTAACATTATAAATTATGTTTAAATATACAGTAGTAGTTTGGAGCTCTTCTTTACATTCTTTAACTTGTTAGACGCCACCTTTATTTAAAGCCTAAAGATATTTATATTCATGAACACAGCAGAATTAATACTTGAGGCAATTTCAAAATACACAGATAAAGTATTCATAGTTTCTGGAACTGATTATCCTGCATTTATAAAAGCCGAATTGAAAATCAAAAATCCAGAATTTGTTGTAATACCTCATGAAATCACTGCAGCAAGTGCTGCAATAGGATATTCTTTAGGAAATAAACTAGGAGTTTTAATGGTTCATACGGTTCCTGGAACTCTGAATGCTCTAGGAATAATCGCTAATGCTTATACTTCAAGAATACCTTTGCTTGTTATTGCAGGTAAAAGTCCTTATACTGATAAGGGAAATCTCGCAAGCAGAGATCTAAGAATTCATTGGACTCAAGACGCAGATCAAGAGGAAATAGTTAGGAAATACGTCAAATGGGAATTCGAAATTAGAGATCCGTCTCAAGTTTCATCATCAATTTCACGTGCTATACAGATAGCATTAAGTGAACCTCAAGGTCCAGTATATATTGCAATACCCAGAGAAGTAAGTATAGCCGATGTAAATAACAAAAAAGTAAATATGGATCCTTTCTATCCTGGAATTCCAGACTACTATCTGGAAAAAGCAAAAGAAATGATATTACGAGCATCTAATCCAGTAATATTAACATGGAGAGCTGGAAGAAAAGAGCCTTGGTTTAATTCATTAAGAAACTTTGCGGATAATGCTGAAATTCCAGTAGTAAATTACGTAGGAGAAAGGGTTAACTATCCATCTTCAGGCAAAATGGCTATAGATCATTATAATCTTAAAGATTCTGATTTAATAATAGAAGTAGAAACTGAAGTTCCTTGGATTCCAAAATATACTGACGTTGATGCAAAGATAATAAAGGTAGATGTAGATCCTTCATATTCTTATATTCCATATTATGAGTTTCCATGTGACTTATGTATTCAGTCATCTGTAGACGAATTTTTCAATAAACTTAAAATACAAAGAAAAGCTGAGAAGGATCTTTTAGAGGAGATTGAGAAGCAAAAAGAAGAAAAAATTGAAAGAATAAAGAAATTATCAGATTTAAAAGAAATACATCCTGATTATCTATCTTATGAAATCGGTAAAATAAAATGGAGCGTCTTTAATGAATATGACTTAAATCAGAAATACGGAGGATTTGATGAATTTAACTCGTATTTTGGCGATCCTGCTATGGGACATCTAGGATGGGCTTTAGGAGCTAGTGTAGGCTACAAAATGTCTACAGGAAAGGATGTTATAGCTACGGTAGGTGATGGATCATTTATTTTTGGTGTTCCTACAGCGTTTTATTATATAAGTAAAAAATATCCAATATTGACAGTAATTTTCGATAATAAGAGTTGGAATGCAGTAGAAAAGGCTGTAAAAGAAGTCTATCCAGAGGAAAAATTTAGCAGTTATCCTGGATCTGATATAGATATAGACAATTTACCTAAAACCATAGAAAGCATAGGTGGATTTTACGAGTATATTGAAAGACCTAGTGAAGTAGAAGATGCTCTAAGGAAAGGTAAAGAAAAAGTAAAATCTGGTATTCCATCTATTATTCATGCTAAAGTTATAAAAGAATAAAAACTTTTTACTGAAAACAATTATATGGCAAAATGGTTTGAGAAAAGCAATAGGGATAGAGAAGTTGCTAAAAGGCTGCTGCAAGAAGGTTTTTTTCCTGAGGCATGTTTTCATTCCCATATGGCTGTAGAACTTAAGCTTAAAGGAATTCTTATAGAGAGCACTGGAGCTATAATCTATACGCATTCTTTAAAAAGGCTTTTGAAAGAATTAGAGAAAATAAAGCGTATTACTATTGACGAAAAACTAATAGAGTGTGCAGACTATTTGTCTTCACTATACACTGGTTCAAGATATCCTGAAGAATCATTAATAGATTTGGAGAAAGAAGAAGGTGAAAGATGTGTCAAATGCATGGAAGAATTACTCTCTATTCTCTGATTTATTGGAAATATATAAAGAGGAGGAAAAAGATTTCAATAATTACGTATCTAAACTATGTACTAAATATTCTGTAATTCTTTTTGGTTCTCGAGCGAGGAAAGATAATAAAATATATAGTGATTACGATATATTAGTAATAGGTAATGAAAGGCCTCCTTTACCGCCAACTGATGCTATAGATGTACACTTTATTAAAGTATCGTTAATAGATAGTGAAATAAAAGACTTCAATACTATAGTAATAGATGCGTTCTATGAGGGAATTATATTATGTGATACACTAAATATCTATGAGAAAGCTAAAAATATGGTAATAGAAAGAATACGCGGTTTAAAAAGAATTAAAGACGGTTGGGAAAAAATATGAATTAAATAGAAGGACTTTAGTTACTGTTAAATTTATCTATATCTAAATATTTTAACATATTTTTGCGATAATTTATTTGAAATGTCCTACAAGTCTTTCCTTTAAATTAATTCTCCTTAAGCTCACGGACTATTGAAAATAATAAATTAAGATTTGTGATAAACTTCAATAAATTTAATAACTTCTAGTTTTTCCATTATAAACATGTAAGATTTCTATGTGAATTCTATATATTAAGAAATCACGAATTAATTATTAAAAATAAGCAAAAATATGTGTTTAAGTTACTATAAAGAAATTTAGTGAAAGGGTTCTAATATTTAACAAAAGGATTAAAACGGAATTAATTCATTCTAAAATATGGACTTAGAAAATGTAATAAAAAGATTCGATACATATAACTACTTAGAAGCTAGGTTTCATAAAAATGACTCATTATCTATATTTCTAATGGATGGGCAACTATTAGGAGTAACTAAAGAAACTTATTCAGGATATTCAGTAAGAGCATACGATAAGGGCATTCTTTATTTTGCGTCCTCTACTACACCAGAAAATCTTGAATTGAAAAAAGTAGAAAGTAACGGGTGGGAAGAATTAGGAGAAGAAGAAACTACGTCAGGCAAGTATACTGTTAATCAAAGGAAGACCTTCGACTCATTACCTATAGATGAGAAAATAAAATATCTTAAAGATATTTACACTAGGATGAAACAACTTGATATCAAATCTAAATTATTAAATTTCAATATGTATTACGTAGAATCAACAGAAGATAAAAGAATAATGTTTAAAGACGGTTCTATAGTAGAAGGTAACGTACCTAGAATAGGAATATATTATTCTCTTGTTATGAAATACATGGATAAGACAGTAACAGTTTGGTCTGACGAATATGGTGGTAGTGGAGGATTAGAGTGGCTAGATCGTTGGAATATTGGAGAAGAACTAGAAAATAAAATAAGAGAAGTAGATAATGTATTAACTAAAGGGAAAAGTCCTAAGGAAGGAAAAACAGACATAGTGCTGAGTTCAATGTTAGCTGGTATAATGGCTCATGAGTCTGTAGGTCATCCATTTGAGGCTGATAGAGTTTTAGGAAGAGAAGCTGCACAAGCAGGAATGAGTTACTTAAGAGATTTAAATACAAAGAAAATAGGCAGTGAAGCTGTAAGTGTAATAGACGATCCTACATTGCCTAATAGTAATGGATTTTTCCAAATAGACGATGAAGGTATTAAGGCAAGACCTAAATATTTAATAAAGAACGGTGAAGTTACGGAATTATTGCAGGATAGATTTTCATCACCTAAATATAATACAAAAAGTAATGGTTCAGCCAGGGCAATGAGCTACAATAGAGAGCCTATAATAAGAATGTCTAACACTTTCTTCCAGCCTGGGAACATGACTTTTGATGAACTTTTAGAGGATATTAAAGAAGGAATATATTTCAAAAGTTACATGGAATGGAATATAGACGATATGAGATTAGGTGAACGATACGTGGGTCTAGAAGCATATGAAATAAAGAACGGTGAAATAGGCGATCCGTTACTTTTCCCTGTGTTAGAAGGGAAAACTACAGAATTCCTTCCATCAATAGATGCTGCAGATAATGAAATTCATTTTTACGCTGGGCTTTGCGGTAAAGGAGATCCTGATCAGGCAGTTCCAGTATGGTTAGGAGGACCAGATCTAAGATTAAGAAATGTTAGAGTGAAGGTGATGTAAATGAATGATGATCTATTAGCGTTAAAAGAAAAAATTAGAGGATTTGAGGAATTTGCAATTTTTAAAACTAAGAATGAGAACACTGTCGTAAAATTTGTAACTGGAAAAGTTTCTACTGTCCAAAGATTAAATGATGAGGTTTATTACGTCCTTTTAAAGAGCAATAAAAAATATATTATAACTACATTAAGAGGAAATGTGGAAATAGATAATTTCAATAATTTAATAAAAATAATGGACGAACCAAAGCTTTCACCAAAGATTTCTGATAATGATAGGGAATACAGGTTTATAAAATTAGATGATGAAATAGAAAAAATAAGAGAAGATCCTAGCAATGTGATCTCTCTGGTTCTAAGTTCAGAATACCCAATTTCTGGAATAATAAATATCAGAAAAGTATCAATTTCCTTATTAACATCAAAAGGATTTAACGGTAATGATACAAGAAATTCTATAGATGGATATTTTAGAGCGTTCAACGGAGATTTTTCAGGCCAATGGGCATTCGCTTCTTCCAAATATTCGGATTCTATAATAAAGGACAGCGTAAATACTGCATGTGAATTTGCTTCCATAAATAAGAAAATAGACATAGATGATGGAAAATACGACGTTGTGCTTTCTCCCTTAGTTTTTGGTAACCTCATGAATTATCTAGCAGGTATGTCTTCTGGATTATCCATAATGATGGGAGAATCCATATTTGCCAAATATAAGCCTGGAAATAAGATAGCAAACGAAAAATTTACTTTCTCAGACGTTCCTAAAGAAGATAGACCGTCTGCATTAGAATTTGATCAAGAGGCTACTTTTACTAGGAATAAAAAGATTATAGATCATGGAGTTTACAATACACCGTTACTTAATAACGAAATAGCTGAAATAATGAATCTTGAAACTACTGGAAATGCAGGTTGGATATCTCCAACTCCTTGGACATTAGATGTTGAACAAGGAACAATAAGTAAGGATTCATTACTATCTGGAAACGTTATAATGTTTAATAATAATTGGTATACTAGGTTCCAAAATTACGTCGAAGGAAACTTTTCTACTGTGGGTAGAGACGCAGTAGTCGTCTATAAGAACGGAAATATAGAAGGAGTAGCAGGAAGGTTAAGAATTGCAGACAGTCTTAATAATATAATAGGAAATATCGAAGAACTATCTAAGGAAAGGTACTTAGTAAAATGGTGGGACGCTCCTCTTCCTGTTCTTTCTCCATATGTACTAATAAAAGACGTAAAAATAACTAAAGCATAATTTTTTTTAAAAAAAAATTAAATTACTTGAACGGTTACTTGGAATTTTATTCCATAGGATTCGTAATCTCCGTCTACATCATACGCTCTTACTATATATTTACCCGGTTGTATATGGAAAGGTGCTTGTAGTATTACAGTGGCATTTTGTCCTAACGGTACAACTAACGCAAACTTATTAGAATGTACTGGATGAAGTGGAAACTCGTTTATTATATCGGAACTTGGTATATGGGATAACTGTGAAGGTCCCCATTCATATAATACTGATCCATTAGGATAAAGTATTTGCACTAAAACTACGAAACCGCCATATGTATCAGAACCTGCAGTATTTGCTATTTGTAAGAATAGAGTTCCATTTGAATATAGTTTTGTACCAGTTAGAACATATGCAGGGATTTTAGAATAGTTAGTTAAATGAGTAAATCCTTGGTAATTAATTTGATAAAGTCCGAAAGTTACTCCTGTAACTAAAATCATTAATAATATTGCAATTAGACCTATTCTATCCATGATTATCACCATAATGGAATTTTATATTTCCATATCTTTATCCCATCAGGATATTTCTTATATAGGTACTGATCAATAGATAACCATCTACTCCCTGTAAATACGAACATGAAAGCAGCAGCTCCTTCGGTAGCAGCTATTTGCCATTCATCAACACAAGTTGACCCTAACCATCCTCCAGCTGCACCTATACCCCATGCTAATCCAGCTATTACTAGTCCAGATAATCTAGTTAAAAGTCCTAGCATTAGAAATAAACCGAAAATCGCCTCTAAACTTGTGAACAAAATTAAAAAGTAGTAAAGAAACGCTGGATGCATTAAGCTGTATATTAAAACGCCCTTAACAGGAGGCCATGCATGCGGTAAGAACGTAATTAATTTCCCTCCTACATATGCTGGCGAATTAGGATCAAGCTTAGTTGGAACGTTGACAGTTCTTCTTAGAAATGCAGAGAAATACATCCAACCCAACGTTATTCTCAAAATGGGCAAAAACTTCTGAGTATTATCTACAACTTTACTTTGTGCCATTTTTTCTCAAAATAATATATTGCAGTTTAAACGTTTTAATTTATTTTATGAAAATCTATTCTAAGTCATTTTAACTCAGTTTAACTTAATTATTATAAAATCTATTATAGACTTAATTAATTTTACCAGTTTTTACTGAATATTTTTAATCGTTTCAATATCACATAAACTTAGTCAGAATATGGACTATAGAAAATATTAGAAAAAATGTTTTTAGATAAAATCTCTTACTTTTATTTTCCTAGAAAGATATACAAAGACTATAGAGAATGATATGAGTCCCAAAAAAATATAGATAAATGATTGTCCTATAGTCTGTGGGCTGAAATATAACCCTAAAATTATTATTAATCCTAAACCTACTGATGCTAAAATAGATATTATTCTATATATCCAGTGAATATGTTCCTTAGAATTTTCTTTACCCATAGGTCTATGTTTTAACCAGAAAAATACTATTCCTGATATACTATCAAGAAAGAACTCCATAGCTAAAAATATTCCTGCAGCACTAAGTACCATTGTGAAGAAAGACTGAACTGATGGTGAAAGTAACATTAAAACATTAAGAAGAATGTTTAACCCTGAAATGATGAATATATTCATCCAAGGGCTACCAAATCCTTCATGTACCCAGCCAAAGAATGAAGGTAAAAGATTATCTCTAGCCATAGCATACCATGCTCTACTTAATATAAAAGCAGTTAACCAAAGGGAGCTTGCGGTTGAAAGCAGAACTGCTAGATCTATTAACCAGGAGTATGACGGAATTATACCTTGAGCCCACGTAAATAGTGGATCTACACTTTGCGACAATAAGTTCAATGGAGTTTCTATCGTCATTAAAGGCATAGTTATTCCATATATCATAAGAACACTAAGCAACCCTATTATTCCACTTAAACCTGGCCATTGTTTAGGCTTTTTAGATTCTTCAGAAGAGTAACTATCTATTTCCCATCCATCTACTATGGTTGAAGCTACTATCATTGCTAGTATTACTCCACTCCAGTTTACCTTAGTGTCAAAAAACCAGTTAAAACTGAAAGGATTTACAACCTTAAAGTGTGTAAGTCCAAAACCGAGGAAAAGGGATAAAATAACTATCTCTATCACGAGGAAAGCCTCAGTAAATCTGGCTGTAGGTTTTGCACCTAGTATAAGAGGAATCGTTGCTATAATTACCCATATTATTCCCATTATAGCCACATATAATTGGCTTGAATATACGTTATATGATATTAATCCTAGAGAATAAAGTAAAGCAAGTGTGTATTCTCCTGCAGGAACTACTATGGGTGGAATAGAGAAGAAGTAGGCTAGAGTTATTATCCATGCTTGAAAAGATCCGAATTTTCTTCCTATAATTTTAGTTCCCCAATGATACGATGCTCCTGCATTAGGGTAATGAATATTGAATTGTCTGAAAATGAATGCTGTCAATAAAAAAGGTAAAGCAGTTAAAAAGGTAGCCATTATAGCTTGAGAACCTGCCAATGATACCATTACACCGTATGCTGCTGCAATACTGAATGTTGGAGCTACGGAAGAAGTTGAAAGAGGTATTAAATCTAGAATATGTAACACGTCTCTTTTAAGATCTGATATCTCGGTATGAATACCATGGCTGGATTTTCCTACCATAAATATAAGAGCTCTTAAATATTTTAAAAGTTTTCTGAAGTTTCTACGTTGTGGATCGCCTCAGAATTATACAAAAATTTTTAAGTAATTATGCAGAGCATTACCCATGGAAAAGAAGAACACTAGGGATTGGAGCAAGTACGATGAGAACGTGGTAACAAGATATAAGCTAATGTTCCCCTTCTACGTCTTCGAACACTGGTGGGAATTACTCCAGGAAGAGAACAGGTATGCTAAGACCAAGTACAAGGCACCAAAGGAGTTCAACGACTTCCTAGCATTCCTACACTTATTCTTACCTTACAGAGCAATAGAAGGAGTACTAAGCGCACTAGCAGAAATGAAGATAATACCGACAAGCCTAGATTATTCAACAATATGGGAAAGGGTAAGAAACATGAATATTAATTTCCCTGAAGCGAGTGACGAACTTGAAGTAATAGCTGATGGTACTGGAATAAGCACAACAAGAGGAGGACAATAGTAGCAAAGTGGGGCAAAAGGAGGGATTCAAAATTCCTTAAGATTGAAGTAGTTATGGAGAAGGACGAGTTCAAGATAGTAAGCGCTGAGGTGACGAGTAATGAGGCCGAATCTGCTTCAAAGTAAAGGACTTGAAGGAAAAGGGTAAGGAAGTTAAGAGGTTCTATGGCGATAAGGCTTATGATACTAACGAGATTTATAATCTTGGTGTTGATGTTGTTGTTCCTCCTAGGAAAGACGCTTTAGGCGTGGTCATCCTGCTAGGCGTAAGGCTGTGCGCGAGTTCAAGAAGTTGGGTTATGAACGTTGGCGGGATGAGAAGGGTTATGGTAATAGGTGGTTGGTTGAATCCTTGTTCTCAGCGGTTAAGCGTACTTTTGGTGAGTCTGTTAGGGCTACGAGTTTTGCTGGTCAAGTTGTTGAGGCTAAGCTCAAGTTTTGGGCTTATGCTTGGATGATGTACATGGCCAACCTTGTTGTTGGTCGAGCTAAGGGCTTTGAGGTCAAGAAGTAGTATAGTAAATTATTTAGGAGAGATATTATTTTCTATAGAAAACATATTTTTACTGTATCATCCTATTGAAATATATTGAACGAATCCACAAAGCATGAAGTTTCAATATTATTCTCTATACCTAAAGGACATTCTTGATGTTATAGAGATGATACAATTTCATTTAAATATTCTCTAGCTTAATAATGATTTTATTTTCATTTAATCGACTTTTAAGTAATAGAGGATTTAGATCATTAGAAGAAATTAAATATATATGTTAATTTTTACTAAAAATTAGGAGCTAAAAACTTTAAATAAATGAAAATATCTGCCTTTGTTAAAAGAATGATGGATCTTCTAACCTTATCCGTTTAATTCCGAGATTATCATATACATGGTCTGAACTTATTATTTCGCCCTCTGAAAAAGAATCATGATATGCGTCAAATCCTCCAATACCTTTTCTTATTAGCCATGCTGCTCTTAAAATCTTCTCGTCAAAGGTTCTTGTAATCTCCATTACCGATAAAGAGACTTTTATAGGATCTAATCCAAATTTCTTACATAATAGCATTAATTCAATATATGTTGTTTAGAGACGTTGTTATGTTACGTGTATTCTCCTTTAATAGTAGCATAGCTTTTTCTTTCAGCCAATATTTAGATTTTAGTAGAGCAAGAAAAAATCCGTATCAGCGTAAATTAACTTCTTTTTCAGCCTCTTTTCTTATACTCTTCTTTAAATCTGTAATACTGAGATCTGGTAATTTTTTCCCTTCCTCCTCTAAGATCTTAACAGGATCTTCGATTTTGGGAATCAGTGAACTACCCCGCCCTAACGGACGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCAATATGGGACTGTTGAATGGAGCAGAGGCGTACCACATAGACCCTCGCTTTAACCAAGGCGTCTCGGTGACGCTTACTCCGTCAGTGACTGCCATTAATAGAATATTTGAAAAAGAAGTATTTAAATGTAACTACAAAGGGGGCTATTCATCTCCACCCTTACGGATGGAGTCTTCCGCCCCTTTGAACCCTATATAGATTAATTAGTTGGGGAGAGTAATAGTCTCCAACTGGGAAACATGGTCGACCCTTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATCTAGTATCGAGTGAGGGGAGGGTCTACACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCCAAATATACTATGGAAGGAGAAGGACTTGAGAGGAAAGAAAACAGATTTTTACGACGCACAAAAACTAATAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATATATCTTCCTAAAAGACCTTGAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAAGTGACGAGGAAAAAATAAGCAAGGAAATGCTTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTGGAACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGTGAGAAAATAAAAGAAGTAGAGAAAATGATACAATCACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGAAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGGGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGTGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTACACTGCTTTAGCCAGGAAATTGGCTAGAATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGACCATAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCTTGTTAAGATAAAATACCGTCCGGAACTTCTGTTATGTAAAAATCTTTAGATTTAATCTTTTCTCTTATTTCTTTTGGTAAATAAATTATTCCCTTATCGTCCAACTTTACTATCATAAAGGTATATTTGTGGAAAAAATATATATTTTTCACATCATAGTTACTATATGTTACTATAATAGCTTTTGTAGGAGAAATTGACCAATCCATAGATGTAGCAAAACTTTTAAAATACCTTATATGTTTTAAAGGGTAAGACATAGTTGTAAAACTTGTCTAATTCGGTACTATAGACTGACAATGATGAATAACGATCTTCTTTAGAGTCTAAGAAAGTATTATCTATTTGAAATTAATTATTGGAGAAAATTCTCTTTTTTTCTTCATTGACGAAAGCTAATAAAGCCTTGCCTAGTTCCCTCGTATATTCTCCGTACGCATTATTAATTATGTCTTGAGCTAGTTGTGGAACCCAATTTAGTATATGAGTTTTTATGAAATCGTTAGCGTCATTTTCCTCGTTTATAAAAAATAGAAATGATACAAATTCAAACTCAGTTGAAATGTGATCTGGAACTTGTTTCTGTGGAATAATCTTGTATTTTGTATAGTATTCTAAAACTTCTTGAGTAGATTTTCCATAGAGCGTTTTTTCTCTATACCATGACTCATAAGGAGGGCACTTTAAATGTTTATAGTCGTTAACTAGGCACGAAGTATATTCTGTCTTCAAAATATTATCATCTCTTGTATTAAGAATATTTACTATTTCTGCTACTTTTTCATAGTATGGTTTTCCTTCTAACGCATTATATAGGGATTTTACTTCGTAAATATACCTAGGACCTAGCATTAAGTATGAAAATATTTTGTAGTCAACCCATAACATTTTTACTCACCGAGAGTTCTTCTTGGTTTAAATTTTGCATTCATCCCAAATTTCTTTTGAAATGAATATTCGGCTCTATGTTTCGGACATCTTTCTAGCCATTCGTCATCGCACTCAGCTCCTTTATCTTTCATAATTTTCTTAATAAGATTTAAACTTTTTCTAGATCCAATAGGAGTACCGCAAACTTTACATCTTACTAACTCATCTTCAAAGATTACCTTTTGTTTTAGATTTGTTTCTTTCATACTATGAATATTTATGGCTTTTTTTCCTGGAACATTAGGAATAGAACCGCAAGTGCTACCCTCTGGACATACATTTATACAAATATTACAACCCATACACTTTAAAGGATCAAATATCAAATTTTCCTTGTTCTCTCCACGTTGAATAGATATAGCAGATGTAGGACACCATTTAGCACAACTTTCGCATAAAGTGCACATATCACTATTAATATCAATATCAAAGATTATATCAGGTAAATTTTCACTACTAGCTATGTTTTTCCTGGCTTCGCTTCTTTTGAAGAAAGTATCATTTTTTATTTTTATTTCCTTCAGAGCTTTAGATTCAATTTTTATGTCTGGTGAAATAAATTCTATACCACCTATTTTGTTATTTAAATCGGTTAAGGTCATTATGAAATTACTCAAATTCCTGCTGAGTTCACATTCCGGACACTCAAATGTAATAGAACCATTACTTCTTAGAAGTGCAATATCTACAGCTGAGAGCATTGCTAAACAAGGTATTTTAATTGAATTGTCATGATTCTTATAGCACGAAATTTTTTTATCTCCGTTAAGTTTTGCTATTTCGAAAATAGCTTGTTGAGAAACTGATGGAAATTGTATTGCACTCACTGGACAAGCACTCACGCATATTCCGCACGCTGTACATTTCTCATAATTAATGCTAACACCTGATTTTTTGTCAACCTTAATTGCATCGTATGGGCATGTAGCTTCGCATAAATTACATGCTCTATATAGGTATCCACACATTGATTGAATATACACAGGTTTGTCTACTCTGTCTTTAACTGTTTTTATATTTCCGGAGATTAGATCTCTTCTGGATATATTAACACCTTTTTCCTCTATTTTGGCCAAATCTGCTGTCCATCCATTTTCCAATATAACCATGTTCTGTTTTATTGCGGCCTCTCCCCATCTATAGTCTACTATTCTTACCAATAACGGATTTAATCCTGATTTTAATATTGCTTCTCTATATAATTTTAAATGTTCATCATCATAAATTCCTACTATTATTATTGCCTTAGTTTGAAACTCTCTTAGTTTTTTTGCTATTTCATCAGGATCACATGACTGAAAACTTTCTGAAGGATTATGCTGACAATGATGATAAAAAATACTTACCTTAAATTTAATAAGAGGATTTGATTCTGTTAAGAAATTAGACATTATCTTTCACTTGAATATCCACACATGTTTAGGTTTTTCATCACTTTCAAGAGGGAGTAGTAATACACCTAACGTATAAACCCCAAGTAGTAGTAACGCTGAACCAGTAAACCAAACCATATCGTATTTGCTTATTTCGAATGGCAATAACGTCCATAATGGCCCATTATTGAATATACTCCTTAGTTCGTAAACCCAGTTAGAACCAGAAGCTGTTATAGGACTTACGCTATAGTACCATGTTATTGACTGCGGTATTATTGTTACTAAAGTAATAATGACAAACATGCCAATTAGTGTTATGATAGCTGATGTAAAGAGAAGCTTTTTGCTTTCTGTCTTATACGCTATGGAATATAGAGTAATAGGTAAAAGTATGCCTATCAGAACTAACCCTATCCAGAATTGTGGAGCATATGTGCCAGTAATTAGTAGTGAAGCCCATGGGCTACTTTCTTGATTTGTAGCTGTTAACCATATCCACCATAACATTAAGAAACCTATAGATATTACAGAAAGAAGTCCATCCCTAGCTAAAACTTTATATATAGAATCTTTATCATCGCTTGGATCTATATAATTTTTGCCGTAAGCCTTTGTTGATTGAGGTACTGGCGTAGGCATAACAATAGAGGTCGGTCTTTTTATCCAATCATAAAGTATGGTCATGAATGATATCATAGCAATTCCTCCATAAAACGATAGAACTACAAACAGAATTGGTGTAAATGCTCCAAATTCTTCTACCCATGTAGATAAATAGCCAAATACAGAACCTAAATTAGCATCTAAAATTAATTCAGCTAAGATAGCATATCCAACTATTAATGCATCTATATCTACCACTATTTTTAACATTCCAGGTATTTCAAACTGTGTTTTACCAGACAACCATTCTAGAAACCGATTTATCGGACCTCCCTTGTTTTCTTCTTTAATCTTTTCTCCAATGAGTGCTAATATCTCAGCTATAATTCCTATACCTACTAACGCATATAATACACCGTTCCATGCTATTCTTGATGTATCTCTAAAGCTTAGATATATGAACATAGCAGCTGCAGGCTTGTATGTTGATGAAAATACCATTATCCAGCCAGGAATTAGTACCGCCAACGCTAGCCATTCAGTTCTTAATTTAATTTTATTGAAAGGGTTTCTTTCCTGGTGATTCTTATTAAATAATTCGTAAAGCGAGTTATATGTACTAACTCCTGTTCCAATTACTCCAAAGAACATATATCCTATTACTAGTAATCCCCACGGTATCGGAGCGTTATTTGGTTCTGTAAACGTTACATTACCGTTAAACCATGCCATTGGGTTCATACTAGTTCCATATAATAGTATTCCTCCACCTATTAGTATAAATATTATAGTCCATGTAATTAAAATCTTATTCATGAATTATCACCACCATTTTGAGACACATATCTTTGAGTCTGCTTATTAAATACATAAAATACCTTTGGTTGTACATTAAGTTGTGGATTAAGTACAACCGCTTGTCCTGTATTTACAAGGATACTAACCTCACTATTAGGATCATCAAGGCATCCAAATACTCTAGCTCCTCCTGGGCAAGTTCTTACACAAGCTGGCGTATGTGTGTTATCTGGAGCAGTACCATAACAAAATGTACATTTATCGACATGAGGAACTACATGAATTTCATTGTCTCCATATACTTCCTTTGCTTTTTGAATATCCTCATATGTATAGAAATATCTAGCTCCATATGGACAAGCTTCAACACAATATAGGCAGCCCATACATTTGTACTCGTCTACAACAACTATTCCTCCATCTACTATTTGTGTAGCTCCAGTAGGACATACATAATAACAAGGAGGATTTTCACATTGCATACATAATCTTGGTACAAACATTCTTTGTGAGTTTGGATACTCTCCTATTTCTAAATCCTCTACATGAGTTCTCCATAGATCTTCCCAAAACGGTGTTTCGTTTTCTATAGTGCATGCTGCCACACAAGCATCACATCCTAGACATTGATCTACTCTAACTACGAATCCCCAATGTTCACACGATCTTGTATTTCCGAATTTAGAATATGGATTTATTAATTGATTTTTTTCAAGTATATTTGAATTGGACATTTTTATCACCATGTATTAAAAATTGAATAAAAACAATTAACTTTGTTCATATTTATCCCAATCTGTAGAATTAATTTTCGTATTTGGTGTAACTACAACTTCTGAAGGTAAAGTATTAGGAGTTTGCGCGGTGGCTATTGTAGTAGCTTCTTGTATTTCATCAGGAGTTGCTTTCCTAACATATACTGTATATTGTTCTGCTTGTCTAAATCCTCCTAACGGATTATAACTTTCTGGCCACAGCTCGCTTACCGGTTTATTTCCTGTATTTTCTATTGCATTTATTGCAGTAGTTAATGCTGGATTTCTTTGACCATAAGGTTCTGGTACTCCTATAGTATCTGGCCTTATCCATTGCGTAATATGTGCCCTTATAGTTAACTGTGGATATTTCCCATCGGAATCAGGTAATTTCCATCTAACTATAGTTATCCAATCCCCTTCATTTATACCTAATTGAGACGCTGTAATAGGATTAATCCATGCCATCTGTGAAATATTTTTATGGTAGCTACTACTTGATATTGCCATTAGGAGCGGATTATCTGTACTTGATGTATATGCAAATTGAGGTACTTTATATTCTATAAAGAACATCTCTGGAGGTGTCGGTTTAAATGCAGGATCATTATATGGTGGTGTAGGTTCTACAAATATTCCAGGCGTTACCGCATAACCACCATTCCAATATGGCGGAATATATGCTATTAATGGATCCCATATAGGATTATAACCAAATGTTTTGATAACGTAATAATACAGTGTTGTAGAATAAATTTCTATTCTTCCAGTAGGAGAGGCTACAGGTAAATTCCAAGGTATTCTTTCGTTATTATTAAAATATTCGTCTACAGTAGTTACAATGAATACTCCATTATTTCTTAAAGTTTCAGTAATCTGTTCTGATGGAATATTTAATTTCTTTGACAAATAGTTTACTTTAGCTTCTCTCCAAGCCTTAGCTGTAAAGCTACCCCATGGTGGATAACCATTATTTTTAATTAGATAATTCTGATATTCTGGCATTTCGGATGCTATAATTTGCTTGAAAACTTCTTTATCGATGGATTTTGAGTTGGCCATCCATTCCACATAGCCATCCCCAGCTTCTTTCCCTAGCATGTATGCAAACATAACAAATAAATCTAATCCGTTAGCGGTATTTGGATAGACCACTGGTATAGCTTGCCATCTTCCTCTCAAAGCGTAATCCATAGCTGGACCGTCTGCTCTGAAATCTTCATCTCTTTCTAGATATGTCACATCAGGTAATATTACATCAGCATAAAGTGTATCTTCGGTTGGCAAAATATTAATATCTATATAGAATGTATTTTCAAGAATGTTCCTGTATTGTTTCCAGAGAAAATTGAAAGGTGTACCTCCCCATGACATTACAGCCTTTGGCGTATAAGGCTTGCCGTTCCACATTACTTGTCCTTTCAATGCCTCATAAGCACCAGTATCTAAATACATCCCAAAAGTAGCTACCGGTGTTTTTCCTTGTTGCATAAGTGTTTGAGCATATGCGTATGATAATGCAGGATAACCAGTCTTCCAGAACTGCGGATTATTATAAGCATAAATTATTGCAAATATTGTAAGTAATTCTCCTGGCAAATCCACTAATGGTACGGATCCCAAGATTTCAGGTCTCTGCAAAAGTATTCCAGGTTTAGATGTTCCAGATTGTATGGCAGAGTTATATGCATTTATAACCTCTTTTACTCCTTCTCGGTATTGCCCAGAATATACCCATCCTCCTCTTATATCTATGTTTCCTGTTAGTGCCATTATTATGGCTGTAGCTCTTCTAAACTGTGGAGATAAATCAGACCAGAATCCTTTTAGACCACTAACTATATCCATGGGTTTAATTGTTGCTATTCTATATGCTACTTCTTTGATTAAATCCAAGGGGACGTCAGTTATTTGAGACGCATATTCTAGTGTATAATTGCTAACTCGATTAGCTAAGTGTTGAAACACTGTAGTAACTTGTTTATCATTATATTTGATTTGAGATAATTTTAGTGCAGGTCTTATCTGATTTCCGTTTACATCAAATTGATTTGTGTTAGAAAATGGAGGAATCTCTCTTACCTGGCCACTTATTTCATCGTATACATAAAAACCTCTTACTGTTCCGTCGGGCCAATCATCTTCAAGAAGTTTGAGAACTCCGTTTTCTTCATATGCTAAGAACGATGCATTAGTATAGTATCTTACAAAGTTATCATCATAATATCCATTCTGAATTATATAATTAATTATTGCCATAGCTAATGTAAGATCTGAACCGGGCTTGACTGGAACCCATAAATCAGATTTAGAAGCAGATTCACTCATTCTAGGATCAATAGTTATCATATATGCGCCATTAGCCAATCCTTCGCCTAATCTTACAGCTCTATTGACGAAAATCCCAGTAGGGAATCCGTTATTTCCCCAGACTGTTATAAGTGAAGAATGACTCATATCATCCATAAGATCTGAGGCGTGAAGATCAAATCCTCCAATTACAGTTCCGATAGGTTGTTGTTCAGAAAACATGCAAGATTGCATAGGCGTTCCATTAATATTGGGAATTTGAGTTCCTAGAGTAAATGGTATAAAATACCTTTTATAGTTAGCACATGGTAATGCTCCACCAACTAATAAAAATTCCCAAGGCTGTACGTTAAGCTCTTGAAGCTTTTGCATAATATAGTTAAATGCCTCTTCCCATGTGGCTTCCTTAAAAGCCCATGTTCCTTTAGGTCCTGTTCTTATTAACGGTGTCTTTATTCTATCTACGTTATATGTCCTAAATATTCCAGATCTTCCTCTTGGGCATATTTTTCCTTTATTCAGTGGAGAGAGAGGATTTCCATCTATTTCCATCGCTCTGATGTACCCATTTTTACTCTCTGTTGTGACTAGAACATCGCATGTTGATGAGCAAAATGCGCATACATTAGGAACATAAGAATACTGCCATCCCGGTTGAAGTATTTCGTCATCGATTGAATCTTGTGAAAATATATTAAATACAAAATTCTTTGACGCTGCGTACGCAGCACCTGCCGCTACAGCAACAGCTGCTGATATCTTTATAAAATCTCTTCTTGAAATTCTCACTCCATGGCTATTCTTACTCTGCATGTAGTTATCTACCTTTTTCGCATATAAGTTCTTTTTTATGTAAAATTTTTCGTTATTCACTTTAACCGAGTTAATTTTTTTATAAAAACAAAAAGAAGAATAATAAAGAAAACTGCTATAGTTACCTACTCAGAAAATTAAGGTATATAAAAATAAGTATTGTTAACAGTTAGAATATATAAATAAAATTAAGGAGATAAGAACTTTTGTTATTTATGTACACTCTTAAGTATGTGTTCTTTTCGACTGAATTATCCTTCATGGAAATGGAAACTTTTGAGATTTTAGTAGATTAACTATACCCAATCATCCTAATTTTGTTTTGCAAGAAATTTGATAATCTTTACCTAAGAAGGTTTTCATAAAGTAAGTAATTTTTTATATATTTCTAATAATTATACATCTAGGTATAGCATAGTCGTATAAGAACATACTTTCAATATCTTATGAGTAAGTTGTTTTTATCACTATGTTTATAATTTTTTAAACATGAATTTCTAGCACTTAAACATAATCTCTAAGAAAACTGAAGTAATTCATAAGACGACTCTTTGCTCAAGACTATATATGAATAGAAAAAAATATTTCTTATCTATATCTCTTTTACTTATGAGAAAAATATACGCAGTTGGAATATCCCCTTCCATTGAATTAATCACACTTAAAGCACTAGAGCTAATAAAGAAAGCACCAGTAGTACTAACTTATGATAGTGACTTTCCATTTTCCATGGAGGAAATATTAAAGGATAAAAAGATAGTTAAACTCAAGCCTAGCTTCAATGAACCTGACGTTATAGAGGAAAATATAAGAGTTTTGAAATCATTAGAGGAAGAATGGGGCGTATTTTTGGAGATAGGAGATCCAAGTATAAGGAATCCATTGTTTTACCACATTTTAGGCGGATATAAGGATTTTGAAATAGAAACCGTACCAGGCGTAAGTTCAATTACGGCAGTATTTAGTAAATTGGGAACTCATGTAAGACACTTCTGCATGTTGGGGAGTGAAGAAGAAGAACTATTAGAAAGCTTGATAGATAAATGCGATCTATTCGTGATAGTTAATATACATAAAGATCACTTAAAAATATTTGATAAGCTAAAGGAACATTCATATGACATAACTTTCGTTAAAAATTGTTGCAATAAAGATGAAGAAATATCCAATGAATATAAAGGAGATACGTATTGGATAATAGCCGTAGCAAGAAAGGAAATAAGTAGGTAAGTTTCTGACTAAAGACTTAGATCCTCTAAAAGAATTGCTCTAGAAATCAATCTAGGATTTTTTGATACTTCTTCTACCCATTCTTTTACCTTTGGATGTCTCCATCCTTTCTTGTACCTCTCCCATATTTCCTCCATTGAATGCTTCCTAACGTCAGCAACAACATAAGGAACAGAATTTAATAATCTGATTTTTCCATTAGCCATCATAAGTATTGACGAAGGTGGATCTTCTAATCTCATTCTCAATTCTTCAATTAAATCTGAAGGATAAAATACTATTTTAATATCGTTATATTTAATACTTTTACTTTTTATGACTCCTTTAATATACTCATAGTCTTCATCATTAAGCGATAAAATATTCCAATAAGTTACCGCATTTCCTAGATACATTATTTTTCCAGTGTATATTGCTTTTGCACCAAATTTGACTATATTATCTATAGCATCTCCTAATTCTTTGTAATTAATTCTTGTTGGTACAAATTCAACTTCAACATATATTCCTCTCTCGTTAAGGTATTTTATTGCGTTTAGTGCTTTTTCTAGTACTCCTCTTGGTCTCATTGTTGAGTAAGTTTTTTGTGTAGCACCGTCAATACTTATTTGTACCGATCTAGGTTCTAATCTTGCAATCCTATCTGCTACACTCTCTGAAATTAAATTACCATTAGTTTCAATCTTAACCTCAATATCATTATTCCTAAAACAAGTAAAAAGATCCCAAAAACCAGGATAAAGAAGAGGCTCCCCACCAGATAATGCTGCATAAGGTATTCCGAAATCGGCTATCTTTTTGCATAAATTCATTGACTCTTTAGGAGACAATTCATAAGGATAAGCAGCATTAGGACCTGACATCTCTAGACAATGTATGCACTCAAGGTTACACCTATTTGTTAACTGCCAAGACCAATACGTGGGAGCCGTTAAAAAGTCTAAAGTGAAACTCATGCTATACTATATTCTCTTAAACGATTAAAAGTTATATTCTTCTTTTTAAGAACATGCTTCAAAGTTCGTTAAACGTATCTTGTAATTAATACAAATTAATTGAAATATATACTCTCTTATCCCCTCTGGCTAACGCCAAGTTAATATGCTGTAAGTCGAGCTGAACGTTTATTATATCATATTTCTTTAGTAATTTGGAAAGTATCTTACTTAAATCGAGTAAATCTATTGACCTCAAAGTAACGTTGGCCTCAATACCGTAAAGTGTCACATCAAACTTAGATTTAGAGAGCACGACATTTAAAATTCTAAAATCAACACCTATAAATGAAATAGGTAGAACTGATTAAAAAGGAATAATATATATGAATTTAAATATAATTTATTAACAGTGTTAAAGCTTCTATATAAACTTTAGGTTAAATTCTTCATTGACCACCGCGATCAGTGTGAAAAACGAGGGCGAAGAAGCTCCCTTAGTCGTAGGAGCTCATCCTTACTTCATAGTTAAGGGCAATTGGAGGATCTTTCCTGAGAAAGCTAAAAGGCTCATAATGAAGGATAAAATACCTACCGGAGAAATGGAAGATTTTACAATAACTCAAGGAGAATACGACGATTGTTTTCTACTTAAAGGAAATGTAACTTTAATTTCTGATTATTCAAAAGTAACGATAGAAAAGGAAAATATGGATTTTATTCAAATATACACCGGGCAACCTTCTGCAGTAGCCGTAGAGCCTATGAGCGGTGCTCCAGATGCATTTCATAACGGCATAGGGCTAATAACTCTGAAGGAAGGAGAAACTGCAACTTTTACTTTCAAGATTTCTGTAAGGCTTTAGACCTTATTCTTTAAAACAAGGATAGTATTCCTTAAAGAGTAAGCATAAAGTAAGACGATAGCCAAGGAGAAGGCGACTGCTATAGCTTCAAACACCGGAAGCGACGTTTCTTGGTAAAGCATAAGGTCTAAGAAGGAAGATATTCCTAAAGGAAATACGTAGGCCCAGCTAGTTAGCGAAGGTTTATCTTTATCTTTTATGTGCTTCACTGCAATTATGAGTGCAACTAGTGAATTCCATATTTCGAAGCCCCAGAGCATTATTGCTAGTGTTAAGGCAGACTTTGGAGGGAAATAAAAGAGGTGAAGGTAATTATAACTCGGAAATACTAACACGTTGATAGCTAATACGCTTGCTGCACCAACGGGAAGCATTATAATGGCTGAACTTTCCTTATTTATTATGTGAGATAGGAAGGCTATACTACCTATAAATATCAGTTGAAAGAAAGATATCCCAACTGAGAATAACATAATGAAGTACACGATTTTAGCAAAGTAAGTTGATATGAAAGGGAGGGAAGGAGGTAATAGCGCAGAACTTAAAAAAACGTTAGCAGAAAGTGCTAATCCTGGAACTAATAGTGCGTAAGATATTTCGTTCTGTCTAACGCCCTTTGTAAATAATTTGTATCCTAAAAACACGTTAACTAAAAACACAATGGAATAACCCAAGAAGTAAAGAACTAGTAATGCGTAAGCTATTTCATAATTTATTTCGACATAGGTCATGAAAAAGAAGCCTGCAACGAATAATATTACTCCTAAGAAGGCAGTAAAGCTTATCCTATTCAAGTTCTCCATGTCTTCTCTCCAGTTAGTCATTATCCTAGATATCCAGCCAAAAAATATTATGGCAAAAATTACCAGATCTAGAAAGTATATTACTTTTCCTACATCAAATAGAACTTGTGACTTAAAGAATATAGAATTCATCCAACTTACCATAGTTAATGCGAAGGTTCCTATAACCACGGAGAACCATTCTGAGCCTAACTTCTTATGGGTAACTTTGTTACATAATATATAAATCTTTTTATGAATACTCCTTAGCTGAGATATCTTTACTGGGCCGTTCTTTAGGGCTTCAAGCACTTGGTATCCACCGAATTTTTTTAATCCGCCAAACATTTTTTCACCGATATCTAATTCGATATCGAAATTAATAAATCTTTCCAGTAATAGGCCAATCTACTGCATTTAAACATTTTACAGTCTTAATTAAGGACAGTCATATCTTTCGTAAATTTTAGTATTTTAGTGTATTGTGGGCTACTTCAGTATTATACAAAAATTTATAAATAATTATACCGAGTATTACCCATGGGAAAGAGTGAGTACAAGAGGGATTGGAGCAAGTACGACGAGAACGTTATAACGAGATACAAGCTAATGTTCCCCTTCTACGTCTTCGAACACTGGTGGGATATACTAGCAGAGGAGAATAGCAAAGAAAACCTACAAGGCACCGAAGGAGTTCAACGAGTTCCTAGCATTCCTCCACTTGTTCTTACCCTACAGGGCAATGGAAGGAGTATTGAGAGCACTGGAGGGACTGAAGATCGTCCCGACAAGCCTAGACTACTCGACAATATGGGAAAGGGTGAGGAACATGGACATAACGTTCCCTGAAGCGGGTGACCAACTTGAAGTAATAGCAGACGCGACGGGGATAAGCACAACAAGGGGAGGACAATACATCATTGCAAAGTGGGGCAAAAGGAGGGACTCAAAATTCCTCAAGATAGTAATTGACAAGGACGAGCTCAACGTGATAAACGCTGAAGTAACCAGCAACGAGGTCGAGACTGCAGTCAAGACTGTTAAGGATTTACAAGATAGGGGAAAGAAGGTCAAGAGGTTTTACGGAGATAAAGCTTATGACGCCAACGAGGTTTACAATACTGGGGTTGAGGTCGTCGTCCCACCTAGGGAGAACGCCTCCACTAGATGCGGTCATCCCGCTAGGCTGTGAGGGAGTTCAAGGAGTTACGATCGTTGGAGGGAGGAGAGGGGTTACGGTGTTAGGTGGAGGGTTGAGTCCCTGTTCTCTGCCGTGAAGCGCACCTTTGGTGAATCTGTTAGGGCTACAAGTTTTCTAGGACAAGTGGTTGAGGCTAAGCTCAAGTTCTGGGCTTATGCTTGGATGGCTTACTTGGCTAATTCTTTAGTCGGTAGGGCTCCGGGTATTAAGGTTTGAGCCTGAGAATAACGTTGAAATAAATATTAATTACTGAAAAACCCTCAGTGTATCATATTATGTTTATGAAATAAACTGAAGAGATCCACAAAGCAGAAAGAAGTGAAGATTTTTTAAAGAAATCTTCTTAGATGTGTCACAAAATATTTTCTAGATATTCAAATAAAGCCAGTAAATCTTACACAATTATTTTTTATTCAAAAAAATTGACTTCACGTCAAGAAAGTACATCTTGAGCATTATTTAAATCGTAATAGCTACATATTTGAAGTGTAAGTTATGATCTTGGAAATACTATAGTTTCTTATATTGATATTTAAAAAGCTAGAGATAAGAATAAGTTAAGAGCTAAAATGTCCTTCTTGTAATTTCAGCAATAATAATGTCAAGAGAAAAGGGAAATATAACTGGATAATGAAGAATACTTTACTGTTCATCTAACGAGAGAATGAGCAAATAAGAAGAGATTAATGAAGTACATAAAAATAGATATATTATCTTCCTATTCTAATATCTAAAAAATTATATACTTTATTAAAAATGATATTAAACAAACTTAACATAGAGTAAATTCCAAAAGGCTTATATTATACTAAATGCGGATATTTATCTAAGTGAATGTAAATGCAAGAAATCTCTAAATCAAAGAAAACATGGGAAAAACCAGAAATGATAGACGTGTCACAAAAAGTTATGGCACAACCCTTTATTAGATTCACGTAAAGGGATAAAGCTATGTTATTTTTTAATATTAAAAACAAAGTTAAATTAAGAAAAGAAAAAAATGGAACTGTAATGTTCGACATCGAGAACGAAAAGGTTTATACATTAAATCCAACTGCAGAAAAAATAATAAATAAGATTAAAGAAGGTAAATCCGCAGAAGAGATAATAAAGGATTTGAAAGAAGAATACCAAGATCCAGAAAATAAAATTGAAGAAGATGTAATGAATTTTATAAATAATTTAAGAGAGGCAGGAATTCTAATAGATGACAAAAAATGAAGTCAATTTCTAATTTTTCTATAGATGACCTAAATGTTCCTACTTATTGGATTTGGCAGTTAACTAATAGATGTAACTTAGAATGCATCCATTGTTTATGGGAATCAGGACCTAATGCCGCCTATCCTGATGAACTATCTCCTAAAGAATCCTTAGAACTATGCAAAAAAATCGTTAATATACAAATACCTTATACTACCCTTTCTGGTGGCGAACCTCTTCTTTATCCTGGTTTTTGGGATCTTTTTACTTGTTTTAGGAATAATGATATTGAGGTTAAGATTGAAACTAATGGTAATTTAATTTCAGAGAGTGTAGCAGATAGGATTGCAAGATTAGAACCTAGATCGGTACAAATAAGTATTGACGGTGCTACACAAAAAACTTACTCAACAATGAGACCAAGAGGAGTACTAGAAAAAGCACTAAACGCAATAAAATACCTTAACGAGAGAGGAATATATATGGAGGCGGTATTTGTACCAACAAGATTTAATTATAAGGAGTTCGAAGAGGTTGTCGAGATCTTACATTCTTTAGGAGTTAAGACTCTTTATACTGGAATTACTATGTATTTGGGTAGAGCCGTTAAGAACTGGAATATTGTGAATCCTACTAGCGAAGAGTACAAGTATGTGATAGATATTGCAAGAAGTAAAGCAAAGGAATATAAAGACATGAATATCGTATTTTATCCTTTTGGACTTATAGAAGAGTTAAAATTCAGACTTGAAAATCCTCCAGCCAGTCCGCTACTTCTATCCAACGGTAAAGTGAAACTACTTGGACCAATTCCGTATGTTGTTGCTGACGTTAGGAAGCATTCAATGGAGGAAATATGGGAGAGGTACAAGAAAGGATGGAGACATCCAAAGGTAAAAGAATGGGTAGAAGAAGTATCAAAAAACCCAGAAAAAGTGAAAATAACTACTCAACGCAGTAAATTCATAGATTTGTGGTGTGAATAAAATGTTTAGGAAAGTCATACAATTATTAAGATATAGATTTTTTCTCACTTCCGGACTTCTTCCGTATTTGCTAGGCTCTGCAATAGGATATCATGTAATGCGCAGTTTTAATGCAAGTAATTTTATTCTAGGTATTCTAGGTATTTTCATGTTACTGGGTACCGTAGAATCATTCAATGAATATTTTGATCCTGCAGATAGAGTATTCATGCTTGATAATGAAAAAAGTAAGCCACCTTTAAAATGGCTACTCTTTGGTATAGTCAGTCTAGTTATCGCAAGCTTAATTGCTCTTTACTTTACATTAACAATAGGTTATATTGTACTTTTGATCTCACTTTTGGGGGTCATATTAGCCGTGTTCTATGTAGGACCACCTCTAAGGTTAGCGTTTAGAGGATTTGGTGAATTAGCTATATTTTTAGCTTACGGACCTTTTATGACTCTTGGTGCTTTTCTATTACAAACGTACTCAATAAGCTTCACTCCAATAATTCCTTCAATTATAACTGGTATAGTTATAGTTTCTCTAGATCTAGCCAATGAAATTCCAGACTACTATCAGGATAAACTTTCTGGTAAAAATACAATTACTGTAAGAATAGGAGTAAATAATAGCAGAAAACTCATTTTCTACCTTATTTTGCTTTCCTTCATATTTTTAGTGCTGGGAGTAATACTATTCTCTATGCCGGAATTCAGTTTACTATACTTAGCATTACTCCCTATTATTATTAAATCAGTCCCGAAGAGAAATTATGAAGAGACAATGCAATACATTCCGCTAATAAAAACGTTAGCCGTAACGTACACCCTTGTCAACGTAATATTCATTGTATCATATATCCTATAACTATGCTCATATTGATATAACAAAGCATATTTATTTTACACCTAAGATAACTTATATTCATGAATATATTCGAATTAGATTCTCCGTTAATGTGGGCATGGCATCTAACAAATGAGTGTAATATGCTATGTATACACTGTCTCTGGCCATCCGGGCCAAGGATGAAGTTCCAAGAAGAATTATCAACTGCAGAGTCCCTAGATTTATGCAAGAAGATAGCGGATTTTGGAATTCCTTATGTGGCACTATCAGGAGGAGAACCTCTTCTTTATCCTAGTTTTTGGGAGGTAAGCAGGTGTATTTCAGATAATGCTATGCAACTAAAAATAGAAAGCAATGGACAATTCATAGATAAAAAAAATGCAGTCAGATTGTCTAAATTAAATCTTAAATCTGTACAAATAAGCATAGACGGTGCCTCGTCAAGGACGTTTTCATTAGTTAGACAAGGTGGTAGTTTTGAAAAGGCAGTTAGCGCTGTCAAATACTTGGTAGAAGAAGGAGTTGATGTTGAAATAGTATTTGTCCCCACACAATTAAATATAAACGAAATTGAAAAAACTATAGATTTAGCCTACTCTTTAGGAGCTAAAGCGTTTTTGACACAAAAAACTATGTACTTAGGCAGAGCAATTAGTAATTGGAAAAATATAGGACTAAATAATGAAGATTATGCATATATTTCCACTGTCATTAATAAAAAAATAAAGGAATATAAAAACATGAAGATCCTTTTTTATCCGTATGATTCAATTGAGGAATTACAGCACTATATTCAATATCCTCCAGCAAGCCCTCTTATGATGTCTAATGGCAAAGTAATTCTAACAACGTCAATTCCGTATGTTGTTGCTGACGTTAGGAAGCATTCAATGGAGGAAATATGGGAGAGGTACAAGAAAGGATGGAGACATCCAAAGGTAAAAGAATGGGTAGAAGAAGTATCAAAAAACCCAGAAAAACTATCCTTAGCACATAATTTCATAGATTTACTTAACTAATTAACAATGTTTAACGTTAGATAAGTAGCTATTATTATGAACATTTTTAAATATATCTATCTATTCATATTTTCTATGAAAAGACGGGATTTTATTATAGCTATAACTTCGTTAGCCTTAGCATCTATTGCAGGTGGGGTTATATATTTTGATAATGAAGGCAACAAGTACTGTGGAGAGGTTAAAATAATCGACTCTATGGGAAGGACTGTATACGTTCCTAAAGAAATCAATAAAGTAGTAGCATTAGGACCAGGTACGTTAGGGATGATAATTTATGCAGGAGGCTTAGATAAAATTTCTGGAATAGAACAAATAGAGCTTAGGAACATGTGGGGGCAAGATTGCTGGTTAGCATACCATGATAAGTTTAAAGGATTACCTATAGTAGGACAAGGAGGACCAAACGCAACTCCTGATCCTTCTGCAATACTGACAGCTAAACCACAAGTGATAATAGAAGATCAACTTTATGCCCAAGTTATGGATCCTAATCAACTACAAGAAGAAACAAAAATTCCAGTTATAGTCGTATACACTTTTTCTCCTAAACGTATTGGAGAACTTGGCCCTAACACGTTTAAATCTTCAATGTCATTGCTCGGAGAATTACTAGGAACAACAGATAGGACAAACGAATTGAACGAATACGTTAATAGCTTAGTGAATGACCTTAATAGCAGAACAAGTAATATTTCCTATAGGCCTTCGGTCTATGTAGGAGGATTGCCTTATAAAACTGGATCCGAAGGATTCCTAGGCACTGACGTCGATTTTGAAGTACTAAACTTAATTAATACGAAGAGCGTAGTCGATAACTTAGGATGGTCTCCAGGCTTTTATAATATAGATTTTAGTTACTTATTACGAACACAACCTGAATTTGTATTTATAGACGAAGGAAATCTTGAGACAGTCATTTCAGAATTTTCTCAAAATAAACAACAGTTTTGCTCGTTAAATGCTTTTAAAAACGGGAACGTATATGGGCTTTTACCGTATAGATGGTACCAGGTTAATGTAACTAACCAATTCCTATCCGCATATTACATTGGCAAAAATCTGTACCCAGATAATTTCACCGATGTAGATATTTTTTCATTAGCTAATGAAATTTATATAAAGTTCCTAGGAATTAACATTTACTCTAATTATTTAAAATATGCTCCTGGATATGTTAATATTTCAGGGAATTTCCAATGTTAAAAACTGAAATTATATTAAAACATAGAAAGAAGTTAATTTTTGTTCTAGTTTTCTTGCTTATTATCACATTTTTTGCTTACCTTAATTTAGGTTATTATCCTACAACACTTTCTGAAGTATCAGACTACTTAACTAACAAGATCCCATATGGTAGCCCTTTATCTGCTGTTCTAAGTTTAAGGCTCAGAAGATCACTTCTAGCAATATTTGCTGGTGCGCTCATGGGAGTTGGAGGAGCAGTATTACAAGGGACAATGAGAAATCCTTTAGCTTCACCATTCACTTTAGGTATACCTCAAGCTTCTGCATTAGGTGTTGCATTAGTACTTATAATTTCATCCAATCTCTCTTTCTTCTTATTGCAATCCCCATTTATCTTGCCTTTATTTGCGTTTTTAATGGCATTGCTTCAAGTTTTCTTTATAATATTACTATCTAGAGCTCTTGGAATGTCTTCTGGAGCATTAATATTATCTGCCATAGCTTTGAGCTTTGTTTATCAAGCTATCCTATCTCTGAGTGAGTATTTATTCCTTAACGATCTACAAGTAGATATAATTGTTTTCTGGACTTTCGGAGATCTTAGTAGGGCAGGATGGCAACAAGCTTATATAATAGGCATTTCTGCACTAATCCTATTACCTTTATTCTATTATTTTTCAATAGATCTAGATCTTATCATTTTAGGCGACGAGATAGCTGAATCCTCTGGGTTAAACGCCAAGAAATTCAGGCTAATTAGCACTTTGCTGGTTGCGTTAGCAGAGGCAGTGCCAACGTCTTTCATAGGCGTAATACCATTTCTAGGATTAGTGGCTCCGCATTTAGGAAGATTAATAGTAGGTGGAAGTCATAAATATCTGATACCTACATCCGCTCTAGTTGGTTCGGAATTGCTCCTCGTAGCAGATTTGCTAGGAAGGATTATAATAATGCCAATTACCATACCTGTTGGTATAATTTTATCATTCATAGGAACACCTATTCTTATAATCTTAGCGGTGGTGAGGATGGGTGGTAACGCTAAAAGTCTCCAACGTTAGCTTAAGTTACTCGAGTGTAAAAGTTCTCAACAATATAACTTTTTCTCTTGAAGAGAACTCTGTAGTATCTTTATTAGGTCCTAACGGGTCCGGGAAAACTACACTGCTAAAGACTATTGATGGGCTCTTAAGACCTAATAACGGGTCTGTATATGTCAATTGTAAGTTAGTACATAAGCTTAGTAGAAAAGATGTTGCGAAGGTCTTGGGTTATGTGCCACAAAAGTTGGAAGTTTCAGAACTTGCAGCGTTTGAGTTTGTGCTTACTGCTAGAAGGCCTTATGTGGATTTTGATTATTCTAAAGAGGATAAGAGAATTGCTCTCGATGCATTAAAAGAGGTTGGGATGTTACAATTTAAGGACAGATTGCTGACCGAGCTTAGCGGGGGACAGTTGCAAAAAATATACATTGCGAGAGCTTTAGCTTCTGGGGCAAATGTTCTGCTTTTCGATGAACCTACCTCAAATTTAGATCCAAAGGCTTCATCTGAAGCAATGAGATTATTAAAGAGAATAAGTCTGCTCTCAAATAAAACAATTATTATTTCTATACATGATCTAAGTTTGGCTTATAGATACTCTGATATTTCAATTTTTCTTAAGGATGGAAAAATTGTAGCGATAGGCAGGACGGACGAAGTGTTCAATGCAGATATAATAAAACTTGTATACGAAATTGATACAGAAGTAGATAAAAATAAGAAAATAGTTATCTTCTACTATTAATGTCCTAGAACTGTTGTCTTTTAATTTTATATTTATATAGAATCCCAGATATAATCCAAGTAATGGCAAAAGTTCCTATTATATAATATCCTATGGTTTCCCAATATACGTTATTTAAGGCAATAATTTGGTCCCAGAAGAATCCACTGAAGCCGAATTCACAAGCTATCAATCCCAGCAGTTCTATAGTGCCTATACCATAAGCTATGATTATAGAAATTAAGGTCATGGTTAAGTTATACCATATCTTTCCTAACGTGTTCCTAAACACCCAACCGTAGGCCATCCTCATGAATATCCCATCCGCTGTATCTACTAGCGTCATACCAAGCGTGAACAATATTGGCAAAACCAAAATAGTAGTTAGCGGTATGCTGGCAAAAGCTCCTGCCAAGGTAGCGGAAATCGCCAAGATAGCGACCTCGGTAGCAGTATCGAAGCCTAAGCCAAATAGAAACCCTATTATGTACATTTGCCACTGTTTAGTGACTATTTTAAAAAGTTTGCCAAAAAAATCTGTTCATAAAGCCTCTCTTTAATAATATCTCATTAAGCTTCTGATCGTCAATTGTTCTTTCCTTTTTTACAGTCTTATATATATTATAAAGTTCTAATACAACTAATAAATTCAAGAATCCTATTATATAGAGAAAACCTCCACTTATCAACGTACCGATTATGCTGCCTATATTTTCTATATTACTCAAATTGCTTACCACATATCTTGTGGCAACCATTAGCATAACACTTAAAAGGATTACGACTGTCGAGTGCCCAAGAGAGAAGAAAGTACCTATGAAAAATGGATTTTTACCTTCTTGCAATAGCTTTCTAGTAGTATTATCTATTGCCGCAAGATGGTCTGCATCTACGGCATGTCTTAGCCCAAATGTGTAGGCCAAAACTCCTAACGTTATAAACGTACCTACAATTTCTCCGTTATCAGTTTGTACTTTTATGCTCGTCTTAGGTAAGTTAAATAGAAAATAAAATAAACTGAAAGAGCTATATTTATTATGTAGAATAAAGCTATGAAGAACAGATTTTTATTACCTATAGATTTTAAAGGATTATTATTGCTTTTCATACCTTTCACCTTACTAATTCATACCAACGTAAATTTTTAAGCATTTCTAATAAGGAAACGCAATGCCAATACGTTAAATATTGTTAAATTTAACGTAATTTTACAGGGATATTAGAGCTAAGAGAGAAGAAAATAATTTAGATAAAGATTAACGTTAAGATTTCGAATGAAAGAAAATAAATGGAAGAAGATAATTGAGGCTTACGACATAATAGCCCCGGTATATGAGAGAGGAAATAAATTCGTTACATTGGGTAACATAGAAAAATGGAGAAAAGTAACGATAAAAATGCTACTACAAGATTGTAAGAATATGCATAAGGTTCTAGATGCAGGATCTGGACCAGGTAACATGACTAAGACGTTATTAAAATATAAGAATGCAAAAGTAGTGCTTCTAGATCAATCAGAAATTATGATAAAAGAGGCTAAATTACCAGTAGATAAAGTAATAGGAACATTTGAATATATGCCTTTTAGGGATAACTCTTTTGATACAGTAATAATGGGTTTTTCCTTTCATGCGTCTACAAATATGAGAATGACCGTAGAGGAATTGAAAAGAATTTCGAGATGCGTCGGGATAGTAAGTATAGGTAAACCTAAGAATATTATTAAAAGGAGTTTATTATACATTTATATGAAGTATTTTGTTCCATTTTTATCATTCTTATCTACAGGAGCTAAATATTATAAAGGGTATTCTAGAATATTTGATATATATACGAGTGTACCGAATAATAATGATGTAGAAAAAATTATATCAAGTGAATTCAAAGTAAAGAGATTTAAGGAAGTAGGATTAGGCTCTGTATATATCATCATTGGTACTAAGTAGATTTAACTAGAACTTTTAAGGTATTTCCCAGGGCATCTAAGTTACCTTCTTTTTCAACTAGATCACCATTTGAGAAATGAAACCTTACGATCCCATTACCGTTCTCTATTATTACCACAACGTCCTTATCTATACTATCTATAAGAGCTTGGTCTAAGATTTTATCCAATTCAGATTTTTGGATTTCTTTCTTTAATACAGTTTTCATTTCATAAATTTTTAATCCTTTAATAGATACGTTATTAAATACTTTCTCATTATGATCCTTCTCTTTACTGTAACACTTATTGTCTTCACAGTACTTTTTTATATCAGCATTTAAATTAATAGCAATAGTTTTATACGCCTCCTCCATTTCCTTTTTAGAAGTGCCTTCTAATGGACCATCATAAATGAATTCGGTCCTAACCTTAGTCATGTTTCCCGATGGTAAAACATAAGTCTTTAAAGCCATTTTAAATTTTGGCCAACCTAATGAGGTTATTATGAACTCACTCTCATTATTACTTATCACTCTAGTTAGCTTAGATTTTACAGTTTTAAACCAATGAAGGTAAAGTATCCACTCATCTGGTCCTATTTTTTCCATCTTTTTTGCAGGTTTAAAATACTTCACCCAGTTTTCAGGATTGCTTAAATATTCCATTAGCACACTTGGGCTCTCGTTGTATTCGAATTCGTAGCTTACATCTATCATTATAGATCACTATAAATGTGTATCCTTTTCTATTTAAACTTTTTAATTATCTATGATTCTTAGTTTAATATTGGATAATATTATTTTTTGCGAATTCTAATCTCATTAGTTCAATATTAATGCTATGAGATTTCTATTTTTAGAACAAATATAAAATAAGGTTTAATTAATTAAGTAATCTTATCGTAAGGAATATATAATCTTAAATACAATCTAATATTGTATGAAGAAGTTAGACTGTAGAATAGACGATTGCAGGGATATCTCAAATATAGTTTTTATATACGCAAACGAATTAGATTTTGGAGAATATTTAATAATAGATATACCTAGAGAATATATGGATATAATATTAAACATTTGTGAAGCAATGTGCCTAAAACCATTGTCGGTGAGACTTTGTAAAGATTATTGCTCAATATTAGTAATAAAAGAACCGTCTGTTGGTACAAAGTATTGTACTGAATAATTAGAGTCATAAAATATTCCCCTAGTGTAACCTATTTTTAACAGTCGTATAGCCTCCTCTTTATTATTTACAATTGCAGTGCTTCCTAAGTAGTTTATTTTTAAACCTTTAACAAACATAGGATGGAGCTGAGCTGAAGGACCTATTATCAAGTTTAATCTAGAGTTACTCGAATATTTAAGGATCTCATCAATACTTTCGTTTATTATAACTGCTCCGCTCATTATAACAGCATCAATTTGAGGAAGAATTCTTTTCTCAAGTGATTCAGACATGACTTTTCCGCATAATTTCTTATCAAATGTGTAAGCTAAAAAGTATTTATCTAACTCGTTTACAATAGGAGGCATATTTCCTATTATTGCTACCTTGCTAGCACTTATATCGTATAATTTCCTAATAATCCATTCAGTAGTATTATTTACTTGTTGAAAACGCAAAAGTTTTTGACTTAAAGAATTTATAGTTGCCAAAGCAAGTGATCTCTCTATCCAACTCTCAGACGTCACTAGTTCAATTTCTTCTTGAAGAGAAGGATAGAACTTCGGATTATTTCTTCTTTCAGCGATATCCGAAATTTCAAAAGAAGGCGTTATATTAAGCCCTATATATTTCTCTCCGTTCTCGTCTTCTGTAACTACTATAGTATAAAAATACCCTACCACTGCATCTACTATTTTTAGTGCTAACTCATTCTTTTGTAAATATTCAGTTACATTCCTTTTTATTATGTCGAGTATCACTTTAATAACCTCTCCTTAAGTCTTGATAAGGATTCTAATACTTTGGGCTTGAGCGCAACAACGTTAGCAAAAACTAACGTATATGTGTGCTCAAAATAAATGTGAAATAGTAACGCTCCAGTAAAATATAGTCCTGGAGGTCCTGCTGGGCCCATTAACTGTGCCAACGAATTTAGCTTAGGAAGTGAAAAAGCTAACATTAGTATTAACAAAAATATCATAATATAAACTATGTTTTTGTTTATTTTATTATAATAAAAAACAATTAGTGGAAGTAAAATCGCGAACGAAACAGAAGAGATGACTCCGCTTAATTCACCAGCGAAATTTCTTGGAGCAAAGAATATTTCTACTGTGCTGATCATATATATGACAAAAAGGATTATTGCACCTCTAATTATCTTACCGTATTTCTCTTTAGTAAATAAAGCATATAATTTATCGGGTGTCAAAGCACTTGTTAATGCAATTGTACCACCTAAAAATAAACCTCCTGGACCTGCAAATCTAACAAACAAAGGAGCAGGAAAGGGAACCAGAAAAGTGTGAATAAAACTGTATATTGTTATTAAACCTATTGCTCCATTAAATATCCTAAACAAGTATTTATAGTCCATGAGAAATATTTCTAATTATATATATTTAAAAGTACCGTCTTAGCAGTACCGAGATTCTTAGAATAAATTTCAACTTAATATGAATTTCTCCACTTCTTTCGCAGTATTCTTAGGATCTTCTGCCGGAACGTAATGCCCAACGCCCTTAAATTCAAGGCTTTTACACTTATTTATATATTTGCAAGTATCTTCAATCATCTTTTTTGAAACCAAAGGATCGTACTCACCTCTTATAATTAACACGTTTATTTCTCTTTCCAGTTTTTTAGTGTAATCAAAATTATTCCAGGCATAAAGATCCCATCTTAGCATCTCAAGACTATTTGTGCTCCTAATCCATGTTAGTTCTTCAACAAGCTTTCTATCAACATTAGGTCCTGCAAAACGCATTATCCTTTGAGGATCAGAATTACTCGCGTTTTCTATATCCTTTTCTGTAAAAGTACTACGTGTATTGATAGAACTGCTGATCATTATTATGTTTTCAGCATTTCCTCTCATTCCGACATCTAATGCTATATCTCCTCCCAATGACGTACCTAGCACGGAAAATTTAGTTAATCCAAGGTTTTTTATAAATTGAATTATGTAATCACCATAAAATTCCACTTTCGCACTTCCTTTTCCACTTAATTGAATCGGATCTACATCTGATTTCCCATGACCAGGTAAATCGACTATTATAGTAGTTATATCTCTTGTTATAAAATTCAATAATTTATGGTAAAATCTGTCATCAAAGCCAGAAGGATGAATCATAACTAATGGCTTTCCGTTACCAATTTTTTCATAATATATTTTTATGCCTTTCACCTCTGCGTATTTGCCCATTAATTCTTCTAGCATAGAATTAATGATAGAAACATGAATTTATGCTTTACATCGTTAGAATTATATATTATTACACATATTTCTATATATGGAACTTAGACCAATAGGAGTAGTTATAGGACCATCAGAAGGCGAAGTTAATAAGAACATGTGGAAGGGTGGAGTAAAAGGAATAATAAAGATTCATGAAGAATTTAAAGAAGGTCTATTAGGTATAGAAAATTTCTCTCATATAATAGTAGTCTCTTGGCTACATAAAATTACCGAAGATCAAAGGAAAATCCTTATTGTAAAACCTTTAAGAATGACGGATCTAGGTTTTAAGCTTAACGAATTACCTAGTCTAGGAGTTTTTGCGTTACATTCGCCCATAAGGCCAAATCCAATAGGGATAACAATAGTGAAGTTAATAGAAAGGAAAGATTGCTTACTTTATGTTGAAGGTCTGGATTTATACGATGGTACACCAATCTTAGATATCAAAGGCTATTATCCATATGTTTAAAAGACATAAAAATTCCGAAATGGAGCGAGAAATTACATAGAATTTTTTAATTTCAAAATTGATTATTAAACTATTATTAGTATCATCAGTCATCATGTTATGTGGATTCTGTGTATAGAACAACTCTGAATCATATATGGACTATAACTTCAATAATACCGATAGATTTTAACCAATTATCGTAATAATAATCCAATAATTTAATTAAATGATAAAAATTAACAGGAATATAGATGTATTAATTGAATAAACTAAAGTTTCTATGGAACTTAAAATCATTTTTTGAAGTTACTAAAAAACTCAGCAAAGAACAGCCAAGAATAATTATCGAGTACTCAAAAACGTTTTACAAATGTTCAAGTAAAAAGGACTTTAAGGTATTTCAGAATTATTGTAAAACATGCTTCGCTCTTTATATTAACGGGGATAAATAAGTTTAATGAAAAATATTTATATCAAAACATAAATTAGCCTTACTGTAAAATTTGTTATGCAAAATAAAGTTATAGATTCTCTAATCTCTTATGCTAAAGAAAACGATAATGAAGTAAAAAACGTAACAATGGGCAAAACATGGACGTGTGTCCTTTCAAGCTATTGTGGAGTTTCAATGACTTATAGCATCAATAATGAGGATCTAGATGTTAGAGATTTCGGTCATTTGGAGGAGAAAAATGTAGGTGAACTTTCGGAATATCTTAGATCGTGGAACCTTTTAGAGGCAAGTATAGGTTTAGCTTCAATAAATTCGATTATAGAGCCTAAAGGTAATGCTGAGGCTAATGGTCTTGATGTAGCTTTAGACTACGGAAAAGGAAAGAAAATAGTAATGATAGGTAAGTTTCCAGGAATACAGAAATTTAAATATGTTGCAAAGAAATTTATAGTTTTGGAACTTAATCCTTTTTTGATAAATCCTTCAGAAGGAATCTTGCCATCTACAGCTGCAGAGACAGTAATAGAGGATAGCCAAGTAGTGATAATAACCGCAACTGCGATCATTAATAAGTCGATAGACAGAATTTTAGAGCTGTCAAGAAAAGCGAAAGCTTACGTAATTCTTATTGGTCCAAGTACTCCTATGTTGGATTTAATGTTTGATTTTGGAGTTGACGTATTAGCTGGAATGAAAGTAAATAGACCTTATTCCTTTATAAATAAAATACGTCAAGGATGTGGAATGGTTAATCCAAGTAAGTTAGAGGGTGATATCTCATTTATTATAAGAACTCGATAAGACTTTATTAGTAACTTTTTTAGTAGTAAGAAATCTATCCGTATTGTTAAACACTAGATTCCTCATTAAAATTTTGTTTAAATTTATGTAAAGAAATTAAATTAGAATAGTTATAATAAATTTATGGAATATAAGGATTATAAGGTAATCTAACAAATATATTTTAATATTATTGAATAAATCATAAATAAAGAAATAATTAGAAAAAAATAAATAGCATTTTTCCAGAAAGATATTACGGTGTTTATATGAAAAATGAAAATAAGGGAGCTTATTCCCTGATAAAATTTTTAAGATTTTCATTAGCTTTTGCTGCGTTGCTGAACATAGCTGCACATCTTTATGCAGTTCCTGCAGCAACACCCATAGCGACTATGTATCTTGATAGCGAGGTAGCACTTTACATTTTTGTAGCAATGATATATACTTTCGGATTAAGAATGTGGTATTGGCCAGCATTATTATATTCAGTATTAAATATTTCGCTGTTTTTTATTTCGGGCATAACAGCAGTTCCAGGGGTAACTCCGCAGCCATTAGTTGGGCATATAGAATTTTTACAATATTCTTTTGGGAGAGCTGGATCAGTAATAGCCTGGTTATATTTAATAATAGTCGGGTACATAGCCATAAAATACGATAAAGGATCTAAAATAAACGACCTGCTAAAAGAAAGTTAAGTTGTAGTGATTATCTTATTTTCCTCTTTTTTTACACCTATAAATATATATACCGATCCAAGTGCTTTTACTTTGAATATCTTTAAATCCATATTTCTCCTTAGTATTTCTTTTAGTTGGGAATTTGTAGGTATTTTCCTATATATATAATAAATATATTTGTAGTCAAGTGGTTTTGCTCCAACTAGCGCGGCTAGATAAGGCTGAACGAATCTCAAATAGAATGCTACATAATTTCTTAAAAGGAAGTTATCAGACTTTCCCATTGCAATAACTCCAACAGCTTTTCTTGAGACTCTTACCATTTCTTTTACTACTTCTTCTATGTTATCTGCTGCATGTAAAGCAAAGCTGCTTACTACAGCATCAAATGCTCTATCTCTAAACGGAAGATTATAAAAAGATCCTAATACCTTATCTCCGTTGACCATACAAGTTTTTAGCATGTTTTCTGCGTAATCAAGCATTACAATATTTGCGTTCATTAATTTTGACACTACGTAAGATAATTCACCTTTACCGCTGGCAACGTCTAATATTCTCTTAGGTTTAGGACAGTATTCCTCAACTGTATCTATTAACTCAGCCCTCCATTTTACGTCTTGGAAAAAAGATATCATTGCATTTGCTCTATCGTAAAATTCTGGGATATCGTTATAAATTTCTCTGAGTTCCTCGTTTGTAGCTTTCCTCATAATAGGTTAAGACTTATTAATTTAATTTAAAAAAGTTCTTATTATATATTAATCTAATTCTATATTAACGGCGTTTAATTTATATTTTCACGATAATATTACTGATAACTATTTTTTATCATAAATTTTATAAAATATGATAATCCGATTATCTTTATTGAATCGCCAATGATAGCTATTTCAGGAATATTAATCAAGTAAAATGGAAGTCCTATAGTATATATTACTGCTCCATAGAAGAATAAGTATGCGGAAAATTTTTGTATATCCTTTATACTCAAGTAAATGGAAATTCCTGAAATTGGTTCTAAAATATAACCTAGAACTATTGTCTCTAATCCTAAGAATTTTCCTTCCATAAGTAGAACTAATCCTATAAATGTTATTAAGATAGCTATGGGCGGAAGATAGTTTATAAGGTAAGACGCTTTTAGAGAAGACTTTCTATATTCCACATATGCTGGAAATGCGAAAATCCACACTATCCACATTAATATTTTAGTTATATTATTGAATGCGAAATCCAATCCATATATCCCTAAGAGAAATAAGATTGAAAGTATGAAGAAAGCAGCTATCAAACTTATTATGTTACCTAAAATTAATGGTTTCATACTTATCTTATATATTCTTTTGAAATACTAATCTTTACGTTTTTCTTCTAATTTTATCCTTATATATTTTTAAAGAAAAAGTAAAAGAAGGTATAAAATCTATATTATAGTGACAATTTATTGTTAATGGATGAAAAATAATCAGTTTTATGAAAAATCTATAGGAAATCTTTTAAAAATAATCAATTCAAATAATTGTGATGTCTGAAAAAGTAAAAGTACGCTTTAAGGTAAGGAGATTTTTAAATGGTAAAAGTTGGTTGCAGGAATATGAAGCAGAGGTAGACAGATTTACTACAGTGGTTCAAGTATTAAGGCAAATAAAGGAAACACAAGATCCTACTTTATCTTTTAGAGCTTCTTGCCATATGGGAGTATGCGGAAGCTGTGGGATGAAAATAAATGGAAAACCTAAATTAGCGTGCAAGACAATAGTTTTGAAAGAAGCCAAAAACGGAGAAATAAAATTGGAACCATTAGATATGAAAGTAGTTAAAGATCTTATAGTGGATATGGATGAGTTTTACGTAAAGATGGAAAAAATAGATCCTAGATTAAGACCTGAGGAAAACGTCTTAAGCGGAGATAAAGAACACAGATTAAAACCAGAGGATCAAAGAGAGCTGTGGAGTTTTGAACAGTGCATATGGTGTGGCCTTTGTTACTCCGCATGTCCAGTTACTAAATATGATAAGAATTTTTTAGGTCCTGCAGCTTTAGCTAAAGCCTATAGATTTATCTCAGATCCAAGAGATACTGAAACAGAAAAAAGAATAGAGTGCGTAAATTCTCTAGACGGAATTTGGGCATGTAGAGTTGTTGGGTCATGCTCTGTAGTATGCCCTAGAGGAGTTGATCCTTCCTTGGCTATTCAAAAAACAAAAATGTTGGTGTTAAGAAATGAAAGAGTGGTTTGAATTCGGTTGGAATTTTGAAAGATATCTTTCTCTATTGCAAATAATAACAGGTTGGATAATTTTAGCGTATCTTATTTTCCATGTTATATATGCTAATAGATTAGCTCATGGAGTTACTATTAATGACACCTTCCTAATGCCTATTCTAGTCATCTTTGGTATAGTTTTGACTTTTCATATTTCTAATGGTATAAGAATACTATTGATTGAATATGGATATTTGACTCCAAGAGGCCACATTAATGAGAATTGGCTTAGATATAAGAAACATAGAAATTATGAAATGATAATGATGATAGTATTGGCTGTGTCCTTATTTATTTCCTTTTGGGCGATCTACAAATGAATGAGGCTAAATTAAGATTCTGGTTCTATGTTGCTGGAATTCTCACTGCTATATTCTTGGCAGTTCATCTTAGTATGCTTTTCATTACACCTCTAAATTTTGTAGAGAGAACCTCAACTACTACTGTAGATTATTATCTAAGAAATTATTTCTATGATACCGCTCTTAGTCTCTTGCTAATATTCGCCTTTATCCACGCAACTTTAGGAGTCAGGAGAACATTACACGATTACGGTATAAAAAACACTAAAGGAGTAGTAATAACAATGTTTGCCATACTCTTTATTCTTCTATATTTTCTATTTACTTCATTTGTGTAAAACTTATTCCTACTAAAATCCATGCTATTAGTGAAAGAACTAGTCCTGCAGATCCTATTACTACAGTGAACAGCATCAAACCAGATATTCCTATAAGATAAGCAGATATGGAAAATGTTCTTATTTCGCTTAGAGCTGTTATAGAATTGAATGTTTTTATAAAATATACTGCGGATGATATGTAGAATATTCCAGATAGAATATACGTGTAAACTAGTAACGCTAATGAATAAAGAGAAAAAGATGGAATTAATACGAAGAAAACTTTTAGACCAAAAGCCATGAACATGCCTATCGAAAGAACTAACATTGAGGCATAAAATAAGCCATCTGCTAGAACAAAATATTTCATTAATTTTTTCTCCTTATACTCTTTATATACAATGTTTATAGAAAGATAAAGTAAGATCGCTCCTAAAGTAGATGTTATTATTCCAAAAATATTTAAAAATGGAGTTATAGCAAAAAATAAAGAACCTAAAATTCCAAAGGATTTATGATCCATATATTAAATGAAAGTTCTATAGAATAAAAATATTCCTTTTCAATATAAGTAAACATTTATAAGGTATTATTTAGAAAACATTTTTATGATTTGAATATAGATGAGTTTATGGATTATTGCCAAGCACTAAAAGAAGTTCTTAAACATAATATTATTTGGTTAGAGGCTCAATCATGTTCTGGAGAAACAATAATGATGTTAAAAGAAGGATGTGAAGGTGTTGATGATCTATTTTTCCATTCTTCACCTGTGAAATTGATATCAATGATTTCAGAGGAGAAATCTGGTCCAGATATGATGAAAGATATTTTGAATTCAGATAATTATCTTCTTGTTGTAGAGGGAGCAATACCTAAAGACGATAAACTGTGTAATTTTGGTGGAATGACCTGTAGCGAAATCCTAAAGAAACTTTCTGAAAAAGCTATAGGTATTGTTGCAGTAGGCTCTTGTGCGGTAAATGGTGGAATAATTAGGGAAGTTGGAGGACTTGGAGTAGGTGAAGTTTTAAAAAAGAAAGTTTATGAAGTACCTGGTTGTCCTGCATCTGACAAGACAATGGTAGCAATGCTTTATTCTGTACTACAAGGTGGAAAATAAATTGGTAGATCTTTCCTTAGATCCTATAAGTAGAATAGAAGGTCATTTAGGGATTCACGTTAAAGTAGAGAATGGAGAATATACAGATTCTAAAGTAGAAGTCTCAATGTTTAGAGGTTTTGAAAACTTACTTAAAGGAAAAGAATTGCATTTAGCACCTAATATAACGGCTAAAATTTGTGGAGTTTGCGGAGCAACTCATACTTTAGTTTCTACTGAGGCATTGGAAATGGCTTCAGGGTTATATCCTTCAGAAAGAGCTATAGCTTTTAGAAACGTGGCTTATTCTTTAGCGGACATTATGTATAATAATGTGACTGTCACATATTTATTCCAGTCTATTGATTACTCTACTGAAATAGTTGGAAAACAAACTCCAAAAGAATATGAAAGGGCTAAGAATACACCTTGTAAATTTAAAGACGTTCATGGTTTTTCTAAAATTTCTGATATATTAGATAACTTATATTTCGGTAAGAGTATATACAGGGAAGCTTTCAAACTTCAAACAAACCTAAGAGATTTAGCTACTGCAATCTGGTTAAGATATCCGCAACCTCTTAGTATGAAAGCTGGTTCAATAACAGTAAGAGATCCTTCAATTATAGATAAAGTAAAAAAATTCATGAAAGAGGATAAAACTATAGACAAATTGTTTTACATAATGGCTGACCTTAGAGATTTTATAGATTATTATAATAATATTGATGAGGATTTCGTAACATATGGCTTACTAGAAGGGGGAGAATATAACGCCGATTATGAGGAAATGGATAGTTGGGCAGAAGAAAGACTTTTTCCACCAGCCTTAATAAGAAAAGGTGAAGTTATAGAAACTAATTTGAGCAAGATCCTTCTTGGAGTACGCGTATATATAGGAGGGACACCGTACGAAAAATGGGATAGAGAATATGATAAAGACGAACTAGGTAATGAAATAGATGAGAAACATCCATGGAATAAAGAAACTAAAATAAAATCATTGATAAATACCAACTTTGTGCCTACTGTAAAACAATTTCATGGAGAAGAATTTATGCCTACAACTGGAGATATAGCTAGGCTGTACTCTATGAGGCTTAGAAGAGGAAAAATATCCGCATTAAATTATGAGTGGGAACCTAGAGGTAATAATGTTATTGAAAGAACTTTTGCAAGAATTTTTACTGTAGCGTTTTTAAAGGAATTTCTAGAAAATGTAGAAGTTCCACAAGGTTCTTTAGATCCAATTAGTGGAAAGAAAGCATATGTAATGGCTGTTGGGGCTCATGATGCTCCAAGAGGCGCTAATGCACATTGGTTGATAAGGGACGAAAATAAAATAAAGAGATATCAAATAATAACTCCGAGTGATAGGAATTTTAGTCCATTAGGCGGACCAGTAGAAAGGTCAATAATTCATCAAAAAGTAACTGAAGAAACAATAACAGGGTTGGACGCATTAAGGATAGTTAGAAGTTTTGATCCATGCTCTGCATGTGCTGTTCATCTAGAATATAAGGATTCAAAATTAATGATTCCAGTCTGAGATTACGCTTTTTCCTAACCACGTCCATTTTTGAACATAACGTGTAAGAGCCTTAAAACCAAATCCTGCCTTAATTAACTTGGAGACTTTTTCTATATCCACTATTTTTGATCCTCCTAGAACATTTATGTTAAGCTCGTCTGCTATACAAGGGAAAAAGCTACTTGTAGGTCCTATCATAACTTTATATGAATTATTTTTTAATATAGGTAAAATCTCAGGATAGACTAATGACGCTCCTGTTATTACAAATGCGTCGTATTTATTGACATCTATAGGTAATTGATATCCATATTTAACCTTAATACCTTCTTTCATAGCATCACGTAAATGATCTCTATCAAATTCATAAACCGTTACCTCAGATCCCTTGTCTATCAGTTTTTTAACTTCTTTCTCTAAGTATCCAATAACAGCAATATTCCCAGAAGGTATTAGCTTAGTTATATCCGCGTTCCATAGAACTTTATCCTTATTATCTTCAAGCCATAAAGAAGAAGCCGCATTGATTGCAGCTAATGCTATACTGCTTAAAGTAGGGTGAGACCAAACTAAACATACTAGGTCTTCAATAGTCTTATCTTCTAGAATTAAGGAAGAATCTGGAGGTTCAAGTAATGGATTAAAAGCTATTCCTAAACTTTCTTCTGTCATTACGTAAGTAAATTTTCTTCCTAAGACGATCTCTTTGACTTTTAAATTATATTTTTTATTTTTTCTTATGGCACGTAGAAAGATTCTCGATAATAAGTTATCTTCTCCCTTCTTAGCTTCACAATACATAAATATAAAATACTAAAACTAAATTTAAGAATTTCTGAAAAGAACTACTTTTTATAACGATACTGTTTCTTGAACTTTTTCATTACCAACCTTGTAGATTACTGTAACCTCAGATACGTCAGGAAAATGTATAGGCATTTCATAAAATCCTATAATTTCTTGATTTATTGGAATTTTCTGTGTTACATATTTTACTGCACTGCCATCTTCTATCGTTGATACATGCACTCTATACTTAATGATAACATCCAATAATTTTAACGGTGTATCCGAAAGATTACTTATTTCTAACCTACTATCCTTTACTCTTACCTTTACTTTCATAATTATAAATTCTCTTGGAAGATTATAAAGATTCTCTTTAATTAAATGAAACTTTAACATATGATACTGAGGGGCTAAATGGCCTTCCATTGCATAAACAGAATTTTCCTCCTAATTCGTATAGATTTAACCTAAGTGATTGAATAAATGCCATAGATCCCTCTAAACCTATTGCAAGTAAATTACCAACAATGATAATTGTTAATGATGAAGGATTTACAAGAATTGCATTGGTATTTAATGTATTTGCGGACATAAGCGCAAAATATGAAAAGGCATATAATAAGAAATAATGTGCCATACCTAATACTAGCAACCTTATAAATGATATTGTGTTAGACATTAAGAGTAATAAAGGTTCAAAGACTCCTTCCATAAATGCTTCAGATGCAGAACTTCGTTTTCTCTTAGTTCTTGTTAATATATGGAAATGCGCATACCCCGAATATAACAGTCCGAAAATTACTAAAAGTACTGATATAAACGAAATAAAATTTTGAGGAGATTGAAACGGATTATTTGGGAAATGAAGAATTACATAAAGAAGAGAAGATAAGATTGATATCGTTTCACCAAAGTAATTTCTTGGATCTGTAAAACCGTATAAAAATAAAATCACAATTGAAGAATATATAATAAAAATTGGTATATTTTCCAATAATACGGCTCTTATTCCGCTTTTATGTAGAGTATTATATATGCCTAAGCTGTTGCCTGTTAACATAAAAAGTATTCCTATTAAAATTGCTATTATCATAGTGTCAATTAAGCCAAACACTGGTTCAGAATAATTTCCAAACGGTATAATGAAAGATAATTTACTAGCTATGCTAGGAGAAATAGGCCATACATAATACAGAGGACCTACTGTAGTCTGAGGGACTGATGGTAAAAGTTCTCTTGTACCTTCAATTAGTAACGGGCCAAAGAATTCTCTTATGAACATACCTATAATAATTGAAAGAAAGCTCGATATACCAAGAACTTCTGAAATCTGAGCTAATTGATCATTATTTTTCCTTTTAGAATATCTGTATAAAAATATAGAGAATATGAGAACAATAATGCCGTCTCCAGAATCGGGAAACATTAATGCGAAAAATATTGGAAAAGTAAAAGCAAAAAGGACAGTAGGATTTATTTCCCAATAAGACGGTGTACCATAAATTCCTGCTATTATTTCAAAGGGCTTTAGTACTCTTGGAAGTGAGAAAGCCGTAGGTGGTTCTTCCTTCATTTCATATTTACTAGGCTTTTCTCTTTCGATTAACACCTTATGTGGATATTTTTTGTTAAATATTTCAATTAATTTAGGTATAGATTTACTTCGTATATATCCTTCTAGAAAGAAGAAATATTCACTACGTCTAGCTTTACTCATTATTTTAAAATAGTTTTCCATTGTAAGCAATTTATTATAAAGACTTATTATGCTAATCTCTACATCTTTTCTTATATTTTTTAGATAATTACTAATTTCCTTTTCTTCTGATAAAATTTTATCTAAATAAACTAGTTTTTCTTCTACTCTGTTTTCTTCCAATTCTTCGTAGGTTTTTATAATTTCCTCCTTAAGTTCTCTTTCTTGTGAGATTTTTTCATAAACATTTTTTACATATTTTTCACTCTCATCAAAAATTTCCTTTAACACATTCTCTAAGCTAGAGAAGATTATTTCACCGCATTTCTTATACGGAATTCCGTAGAAATCTATTATTTCTTTAATTTTAAATGTGTAATCATGAACTATACCTAGGTATTCGTCAGTATGCTCAATTCTAGGAAAAGTAGAAGAGTAGACTGGATCTTCTGGTTGAAAATCACCAAATACTAAAATATCCATTATCATTTTTTCTGAAGAATCAATATTGCTCAATATAAATACTCTTTCCATATCGTCAGGAAATATTAGTCCCATTCAGAATATCTTTATTTTTAGAGAATATAAGTATTATGTTAAACTAATTTCATTTTAATAATCATTAATAATTTACTATCTATATTTTCGATCATTATACTTATTTTAATGTCTATAATATTCCACATTATATAATGAAGAAACATATTTGAACATAAATCATGATAATTTATTTGGAAGAATCTTACAGTTACTTTTCACTTTTATAGCAAGATATATAAATATATTTTTCTGTAAAATGCTTATTTTACTAAGGAAGTTAGCATCATTTTTATATATGTATATATTAACATATTTCCTATGAAGTATGTTGCAACTAAAGACGCAATAGGCAAAAAACTAGGTTACGATACAACATACGTAGGCCTTAACGGAGCTACAACTCTATTTGAAAGAGGGCATATAATTCAAGAAGACGATGTAAATAAATTAATGGATTCTGGAGTTTATTATGTATGGATAGATGATGGGACACATGAAGAGAATATAATGTATGAATGGGAAATAACTCCTTATTTAGCTTCTAAAATAGTTGATGAAAATATTGACATAGTTTCCGGAAAACAAGGAATAACTTTACTTTACTCAAAAATTCCAGGTTTACTTAAAGTAGATGTTGAAGGATTAATTAACTTCAATCAAAACCAACGTGTTTTACTTATCACAAAAAGGAATAATGAAGCATTAGGTAAAGGAGATTTTTTAGGCAGTGTTGAAGTAATCCCATTCTCAATGAGAAAAGACGAAGTAGAAAGTATAATTCCAGGAAAGAAGTTAGTTAGTGTAATTCCTTTTAAATACAAAAAAGTAGGAGTAGTAATAACTGGAACTGAAATTTTTGAAGGTAGGAAAAAAGATCTATATCTTCCAATTATAGAGGAAAAAACTAAAAAATATGGATGGGACATAGTCCAGACAGAATTTGCACCAGACAATGAGGATATGATCTCAAAAGCAATATTGAAGGTAAGAGATAATGGTGCAGAAGCTATCATAGTAACTGGCGGAACTTCTGTAGATCCTACAGATAGAACGCTTTTTGCAATTAGAAAACTTAACGCAAATGTTATTTCATACGGGATACCGATGAAGCCTACCACAATGTCAATAATAGCCATTTTAGAGAATATTCCAATTTTTGCAGTATCTGCTGGTGGGATTTATTATAAAGACTATAATTCCATAGATGTTATGTTCACTAGGTTAATGACTGGAAGAATTCCAACTATAAGGGAAATAGCTGAACTTGGAAATGGTGGAATAATGTGGAATTTCGAACCAAAAATGAAATTAAAAACCTTATAAATGAGATATTTTTCTTATAACTTTCCCTAGGTTAGAGAATATTTTTGGATATACACCTAACGAGAATCCTAAAATTCCTCCAAGCCAATGTTCAAAAAATACATGGATAAAAAGCCCTCCAGGGAAGTAAAGTCCCGGTGCAGTAGCAATAGCTAAGAAATCAACTTTCCCTTGTAAAATAAAGCTTATTTCTATTAACATAGGATTTATCATTACTATTGATGAGAATATTGCCAGGAGTCTTATAATTATGGGTAATATTTCCTTTTTCGAAAGGTATAACGTAAAAAGAGGTCTTAGGCCTACTATAAGGATAATTAATCCATTAAATAAGAAAGCAAATTCCATTAACCAAAAAGGTAAAGGTATTAGAGGTTTAACTTTGGCAAGCATCATTATATCCTTAATTTCAAGTTTACTCGATAATATTAATATTATTCCAGAGTAAATTAAAAGAATACCTACTATAACGAGAATACTTCTTAAAGCTATCTTTAGTTTGTCATTCATATTTCATATTAGAAATATTTCTATATTTAAACATATCCGAGTCTAATGCTTTGTGGATCTGTTCAATTTTTCTAAGAGACTACATTAAACTTACTTTTAATTCTACTGCAGATTTAGAATTTATACTGAAGAAGTGAGTTTAGAGCCTAAGAAAATTCAACTAGCCCACAAAGCATGAGTCTAAGAAAAAAATTTAGATTATACTTTTATGCTGATAGAGAACTTCTTCTGCTATAGGCTTAACTTTCCATGTTACATTAAATTGTTTTGCAGCCTGCATTAACATATCCATATTTTCTACATCCCATTCACATACAGCAGTATTAGCATCTTGAGATACGCTCACTTTTTCTAATTTCATACCTTTAGGTAATTTCTTTTCCTTTGCCATACTAACTATTTGTTTCAGAAAATTATTTACTGTATCTTTTTGATCATTTTCCCATTCGTGGATTACGAGTACTTTCATATTTATATTTTACAGTTGTAAATAATAAAATCTTTCTTTCTTCTCTCTTTTATTTTCTATAAAAGATTTACTATAATTAAACTTGATTCATCTTTTTAAATAAATACATGTTCTTAGATAGAGATTGCGAAGAGTTCCTTATACTAATAAGTGTGAAAAAGGTTTTATTCGATAATATATTTAATTAAACTATGTCACTTAAATCAAAAATGGACTATAAGGACGTTATTACTTTAAATGAGAATTTGACATTAAATGATGCTCTAAATGAAATGAATAACTCTGGAATCAATGTTTTAATAGTTACGAATAAACATGGAAAACCTATTGGTTTAGTTACTAAGGAAGATATAATAAAAGCAAGAAGTAACGGAATTTCCATGAGTGAACATATAGATTCAATAATGAGAAAAACAATAATAACAATAACTGGAAAAGAAGATCCATTAGAATTACTAAATCTAATGATAAGGAACAATCTAGATTATTTAGTTGTTGTAAATGATAAAGGCATAGTAAACGGAATAATAAGTATAAATGATATTTTTAAAACAGTTAAAAAAATGGCAAAAGTGAACGATTAATTTTTATCTGAAGCATGTCCTATAAAAACAGTAAAGATATCCTATTAGCATTGAAGATACTCCAAAAGCTATTTCAAAAGAATAAAGCATTACCATAGTAAATGTGTCATTATCTGTTAGTAAGTACGAAATTCCGGCTATACCTGCCGTCGATATTACAGCTAGATTTATACTTGCAAGAATCTTTGGAAATATAAGCCCAGTATTTTTAGCTAAATAAAATAAAAATAATGAAAGAGCTCCGGTTGATAATGCGAATGCTATATGAAGATAAAGGAAGTCTATTGGCATATGTAATTTTATTTTTCCAGAATCTATCATAGCTCTCACTAATCCTAATGTGAACGTTCCAAATAAAAGGAAGAAAGTTAGCAGAGATGCCTTAAATGTTTTATTTAATCCATTCATTGTTTCTCACCTTGATTCTTTCTTTTATGTCTATTTTCCCTATTTCTGCTTTAGCTCTAACGTATCTTATATTGGAAAGAAATTCGGATTTTATTCCATCTATAACCGATAACCATGCATCATCCAGATATTCATTTCTTACTTTTATATCAACCTCTTTTACGACAGATTTTAATCCTTTTAAACACTCTGAATTTACTGGACAACCTCCGCAAGTATAAGTATCATTATCTGAGTTATAGTAAATGAGTTTCTTATCATCAGTTATAAACATTATGCTATCTGATATGGAGATATGTTGAGAAGAAATCGTAAAAGGAAATACTGCTTTAAAACTTATTGCATTATCTAGTAATAATCCTATAGCTCTAAGCTTATTTACTATAAAATAGTAGTAACTTTTACTTATATCCTTTCCTCTTTTGTCAGAAGCTAATATTCTTAGATAAGTATCTTCACCTAGATGCGCAAAATCATCGTGCTTAACCATAACAACGTCATTGGAAATTATAGGTCTTTCAACGTCAACAGTCTTAAGTAGACACATAATTTATATGTCATATCAATAATTTTTATTTTTTTGGTAAGTAAGTATAAGGGTTTAACTATATAATCTAAAAATTTTAAAAATTATTCTTTTTGAACTGTTTTATTTGTATAGCCCAGTTTTATTGCAGTTTTTATTCCGTCTTTATATCCATAGATTCCGAATATTATGACGCTAATTATAACTAGGAAAAATCCTATACCTAACGAATGAAGGTTATGAACTTTTATAGGCGTTATTATATTATAAGTCAATAACGGTGGATAAAGTAATATAGCAATTCCACCAATTATAAACGCTAATCCTCCATATTCTAATACAGTCTTAGTTATGGTTTTTCCTACTACTGCTATTCCTTGGTATGTTAAATTCTTCATCCTAGTTAACCAAGTTGCAAATATTGTACCAAACATTACCTGTGCAGTCATAGTTCCAAGTCCAAATAGAGCTCCAGGTAACCATCCGATGTACATATTAGGCATCGTAGGTGCTAATACAGTATAGACTATTAGAGCGAATGCTCCAAATCCAAATCCGGCAATGAATCCATGCAAAAACGCAAGTTTTACTGGAACTGGCTTAGTGAGATCTTGTTCATTAACATAAGCAGGGTTTATTTTATGCTCAAGCTCTTCCTGTTGTAGTTGACTTCCTTTCTTATGGATCCCTGTAGCTTCTCCTATTTTTTTCTCTAAATAATGCCAATGTAAATATCCGCCTTTTCTAGAAATGTATATACCAGCACCAAACATTGCTATGCCTACAAAAATGTACGTTATTCCGAACGCTGCAGTAGTCATGAAAATTCCTGCTAGTGCTAAATAAGCTAATTCTGACAAAATTGATCTTTGAATTGTAAAACCTGATGAAAATATTAATCCTGTTTTAGCTCCACCTTTACTGCTAAAAGTTCCTACAGAATAGGAAAAAGTTATTGGCCATGTATGCTCGTCTGGAGTTACACCGTGAACTATTCCAAGGAGATAAGCTATTACTAAAGCGCTAATAACGTCAACGTTTTGCGGATTCCATAAATTTATAACTAACCAGTCAATCATTTAATTCACCATATCTATTATTTAGGGTATACCTAAAGTATAAATATTTTTCCATAATCATTTATGAGTAATATGTATAAAAAGGAAACTAAATAAACATAACTATTAATAACGTAGTCTTCCATTATTATCTTATAGATTCTAAAAACGGAATCATACGAGTTCTCATATAGAACTCATAAATATTAATAACGTTATTAGTACAATTTTAACAGTCTATAACTAATTTAATGGAATATTTAGAATCCTCAAATTTTTAAATGTTAAAGTAAAAGTGTTGTCCTATGATAGATCCCACATTTTTACTTGAACTACTTATTGCAAGTATAATAGCAGGTTTTATAGGAGCTTTGACCGGTCTAGGAGGAGCGACTGTACTTGTTCCTATATATACATTATTTCTAGCAATTCCTATAGCTTACGCTACAGGAGCCAGCTTAATCTCTACAATAGCTACTTCAAGTGGCGCAGCTAGCGCTTACATAAAAGATCGTATAACTAACGTTAGAATTGGTATGTCTTTAGAAATAGCTACAACTGCAGGTGCAATAATAGGATCTTTAATAGCACATATAGTATATGAAGATCATTTAGAATTTATTCTTTTCATAATATTTGGAATAGTCATTTTATCGTCTTTATATCCTCAAATAGAAAAAGCTTCTCTTGAATTACCGCGTAATATGAAACCAGATTGGAGTACAAGATTATTTCAATTGTATGGTAAATATTATGATGCTACTTTACGTCAAATTGTAGAATATCAAGGAGTTAGATGGTGGTTAGGGGAAATAGTAATGTTTTTTGCGGGAATGGTATCTGGACTTTTAGGTATAGGTTCTGGCGCTTTGAAAGTTGTAGGAATGGATTGGGCAATGAATCTCCCGCTGAAAGTTAGTACTACGACAAGTAACTTTATGATAGGAGTTACGGCGGCAACTAGTAGTTCTTTATACTGGATATTTGGATATATAGAACCCGTTTTAGCAGGGGTTACCGCAATAGGAGTTCTAATTGGTTCATATTTAGGAAGTAAAGCGTTAGTCAGAATAAGAAATGTTAGACTTAGACTCATATTTATTGCAATTTTGTTATTCCTTGGAATAGATATGATAATAAGAGGTGTTACTTTATGGATTTAAACGATGTTATAGGATATGCCTTAAGGATAGGGGTAATAATTAGTGTTATTCTCATAATAATAGGATTTATCTTATTAATCCCTAATCCTAAATTTTCGGAATTAGAATCTCCCCATTCTCGCTTTAACACTTCAGTAATTAAACCTGAACAAGTCCTTTATGGATCATTTAAAGGTAACGGATTAGATTTGATACTTCTCGGCTTAATGGTATTAATAGCAACTCCAGTTTTACGAGTTATCTTAGGAGTAATTCAATTCACTCTAGAAAAAAATAAAATATATACAGTCATCACAATAATAGTACTTTTTAATTTATTGTTGGCTATATTTATAATCCCACTAATAGTTAAGTAGCAAATAACATCGCCTTCTTCCTTAATTCGTCCATAAACAATGCGTTTTCCTTAACTTCGTTTTCATCAAAATCTAAATCTTTTATTAGTTCTTTTCCTTTAGAACAATCATACGTTGTTCCAGCATATTTTAATGCGCATTTAAGGCTTGAAGGAATCAATTCCGTCCCTTTTATTGGAATTTTTATAGACTTTCTACCTAAAGCTTCAGCCATTAATTCAAAGAATTTATCTAATTTCACAAGTTTACATTCACTTGCGTACATATAGAATTCCTTAGGTTTAGACTCTGACAGCACTTTCACAAACATTGCAATATGTTTTGCACTTATTGTAGACATAGATAGGTCAAAAGAAGGTATTATTCCAAATTTTGCTAACCAGTACATTAAAACGAAGTGTATGTGTGCGGAATATTTGCCATATATGAAAGTTGGTCTTATTATTGCTAAAGGGAAATTATTTTCTCTAGCTTTAGAGAAAACTATTTTTTCTCCCTCACATTTTGTAATTTCATAAGGCAATTTTGGAGATACTCCTTCACAATGCTTATCTTCTTCCTTTACGTTACCCGTTAATCCGGTAGCGGATGCAGCGCTTATATGAATTAATGCAGGTTTTGAAGTTTCTGAAACAATTTCTGAAATTTTTCTTGGAATTTCTACATGAGCTATCTTTAGTTCACTTTCATTATTTCCTATAACTCCTACAGTATTTATGACAACGTCAGAAGAAGATATGAGTTGTCTTAAATTATCTATGTCACTTAAAGGATTAAGTTTTACTAACTTTACTTTATTCTGAAGTATTTCTGAGTAAGTTTTCTTTACTCTTTCTAGATTCCTGTATGTAACTACTACTTCTCCATAATTTGATAAGTATTCGGCTATATGCGTAGAAAGGAATCCCAAACCTATAATTGTATATTTCATGTTAAATAATATCTTCTAAACATTTATAAATACCATTTAATATTATCAGGAAATAAAAACTAAATATCGTATAGAACTTATTTTTAAATATTAAAATTTATTAATATAACTTTCAAAAATTTTAACATAAGATTAAGCCAGGTGAATTTTCAATAGGAGCCATTGTCATTGTTTATTGCAGATAAAAATTGCTGTATGATTACTGTCTTAGCATTCTTAAGTATACCCATCCACTTATTGCTTGTAATAATCCTCCAATAATGAGGGGCATAGGTAAATAGATTTCCATTAAATATCCACTAGCACCTGCAGTAGCTTGAGAAGTTCTTGAAGCTATACCTTGAATACTTGAGGCAGCACCGAAATCTTCAGTAGATATCTCTTTCATGTTTACTGTAGATCTACTCGGAGAACCAAAACCAGCTATGAGACTTCTGAGTATGTAAATAAAACTTCCTATAAAATACGGAGAAAACGGAATTAAAATTAATAAAGCACCGCTTAATATTCTAGTCCAAGAAGCTATATTCAATATGCTTATCCATTTAGATAAATTAGATGCAAAGAATGAGCCCAATGCAGTAGCTAAATATGATATGCTATAAATTATTCCTATGTCATAAGATGATATTTTATACATTAATTCAAACCATGCTGAAGCGTAATATTTTCCATTTTCTAGAAGTACTTTAGCGGTATCCAGGTCTTCTAAAGCTTGCTCAATCCATTCCTTATAATCCATTATGAAGATTATTTGGAAAAAGAAGTCATATAGCTTTCTATAGTGTTTCATAAGGTCTTAGATTCTGATTTCGGCAAACGATTTGAAAGTTAGAATAAAACCATTTTATGTCTTACTTTATCAAATTATAAATATATAGATAATAAATATGAATCAGTTATTTTATTTCTAGGTTATAATATTCCTTGAAAGTATATTTAAGGAAAGTAAATATAAGCATAACTACACTAACTAATACGTAAGTCCATCCAACTCCAATAATTTCTATTAAAATGCCCCCCAAAGGGCCGGAAAGTGTAGATAATCCGTTGGCTATTACTCCAATAAATCCAGTAGTCCTTCCCCAATATTCTTTATCTATATATCTTAGTAATGTGGCCGACGTTAATGTTGAATTGACTCCAGAAGAGAATAATATGAGGAAAGTAGGAATTAATGCAAGAAATATATTATTAATAAGGATGTATGATGCCAATGACGCTGATATTATTAGTCTAAATATTATTTGATAAAAGCCTAATTTTCCTTTATTTATTCTTAATGCAAATATCGATCCTACTACTATTCCTATTTCAGCTGATATAAGTAGTGCACTAAAATAAATTGGCCCTTGATGTAAGACGTCTTCAACGTAAAATAATAGTAGTAATCCCTGCATTTCGAAGAATAAATTATCCGTTGTAAGTATTGTAAACTGAGTTAACACTTTACTTCTCCTCACATAGTAAAACCCGTCAATAAGACTTTTCTTAAAACTATGCATCCTTTTTTCTTCAACATTCTCTGTAATATTCATAGGTAATAAAAGAAATCCTACTACTACTAAAATAATTAATGATGGAGTTATTGAATATTTAAAGCTAATAGCAAGAAATATTCCTGCCAAAGCCTCCGCTAAAATCCTTAATGACCTAAGAGTAACTCTATTAATAGATGAGACCTTCCTATAATCCTTTTCATTCACATTTTCCTTAATCCATATACTTAAAATGATGCTTGCTATATCAGAGGTAAAACCGGTTAATATAGCAAAAGTGTAAAATAGTAAAATAATAGTGAAAATATCGTTGTTAGCAAGTAAGGCAATTTGAGATAGGAATAAGATGGTAAAAAGCGGTATTATTAATCCCAAAAGTATTGTCTTCTTTTTCCTAGTTAAATCCATAAATGCTCCGGTAAAATAACTGAAAAAGTAAGCTAATGAAGAGAGACCTATTAGAATTCCAGTGAGTAAACTTGAACAAGTTAGCTTTGATATTATCCATTCCATCGTAAATATTGCAAGCGTTATATTGAAATTAATTAAATTAATTGACATTATATTATACAGAGCATTTTTCCAATTAGTTTTCGACATATTCTACTATCTCTTTCATTTTTCTAAGATTTTCCTTAAAGCTTTTCCATTTAATATCATTAAGCATTATATCATTTAATTCAACTAAAAATCCTTCGTATAAACCTAAGTAATAATTACAAGCATAATTATCTATGATAACTTTTCCATTTTCGCCAAACTTTAAATCGCCAAGGCACGCATTGCAAATTTTCATTATATCACATGTTCTACATTGGTCTATATTAGTTTTTACATTCACGTACTTAAGAAAATTTTGAACTTTAAACAATCTATAATTATTTAATCCATTAATAATATTACCCATATAAAATCTGTTATCGTATGAGAGCATATAACATGGGTATATATCACCATTTGGCATAATAGTTATATTACTAAATCCTGCACTGCAGTGGGAATTTAGAAGTCTCTTTTGAGTAACCTTTTTCATAAAATTATATATTTCAGTAATTTTTGCGCCATTAATAAATGAACGCATCATATACCTTCCTAGCTCAAAGGACATTTCGTATATTTTCTCTTCATATGAACGTAGTAATTCATCTAAAAAATTTTTAAGAAATTCGTTACCTTGTCCAATTTTAGTAAGTGGATGAATGGATATATTAAATATATTATAATTATTATTAAAAAATTTATATATATCAAGTATACTTATATTATATTGAATATGTACAGGAGAATATACTGTTTCTATACTGATATAATCTGTATCTAAATTATTTATTAATTTACGTAAATTTTTGTCTACTATTTTAAAAGAACCTAAATTATTTCTAAACGTTCTGACCTTATCGTTTATAGTCTCAGGTCCATCAAGACTTACGACTATTCTAAATTCATTTTTCTTTAAAAAATCTATTATTTTATCATTAAGAATAGTTAAATTAGTTATTACAAGAAACTTAGGTAAATATTTCATTTTACCATTTTCCTTTAATTCCATAAAATAATTTACAACTTGCTCTATTAACTTAAAATTGAGTAAAGGCTCTCCTCCAAAAAATTTTATTAATAGCTTAGTATCGTTATATTTACTTAAAATTTCGTCTATTACTCTCTTAGCAGTCTCAAAGGTCATATTTCCTAGTTTATCATAACCATAAAGACCAGTAGATGCAAAACAATATTTACATGCTAAATTACAATTGCCAGATACATTAAGAGTTATTTCTGTAATATATGAAGTACTTAAGAAATCTAATTTAATATCTTTTGTTAAATAATTAAAAAAATTAACAATTCCTTTAGTTCTAAATTTAGGCATTTCTACACCACCACTATTTCTTGAATATTATACGAGACTACTTATCTCTATTTAGAAGCCAGTTTTGTCTCCATCTCCGCATCCAACACCACAGCTGCTTACTGGCTGTATGTTTTCTGGCACTTCTGGTAGTATTTTCTTTAGTTCATTGAATCTATTCTCTATTTTGAGTTCTAATGTCTTTTCACTCATTTCTTTTCCTAAATCTTAGTCTGTTTACTATTATTTTTTTTTTAACTCTACACAATCATGAACATTTTTTAGTTAAAAATTCCTCTATATGAACATGGATTAAATATTTTTGAAATTAACGCCTTTTTAACTAAAAATTATTAAACTAGATTACGACTAAATAGGAGTAGAATTACGAATAACCCTTATTTAAAATGGAAAGCGAAAAGATAATTAAAATTATATTATATAAGATAGAAAATATTTTATTTATTCCATATTTTTCTAACTTTTTCTACTAACTCTTCAAACCATAGTGGCAATAATGGCACTGCTAATCCTACTCCCATTCCGGAGAGAGAATTAGACAGCATTACTTTTCCACTATATTTTAAGCTAGATAATTTCATTATTTTTGAATTCTTTTTAGGTCTAGCTACTTCGTTCACTGCAGACAGGCTTAATATAGATAATGCAAGAAGTATTGCCGATATTAAGAAGAGGAATCTAAATTTCAGTTCTGGAGAGAAAGGTAAAAATGATTTTATTGATAACATTGAACTTCCTCCTATACTGGAAAATGCTGCTGCAGAAGTTAAAATTCCAAGTCTTCTTACTCTTTCAAGATCATTCTTCCAGTTACTTGCTACTAGTGCAGTTAAACCTGGAGAAAATACTCCTCTCATTCCTCCTGCAGTACCTCCTATACCTCCTATGAGGAGAGAAATAATGATAACTATTTTTAATGAACTAGAAAAAAGTAAAAACGCTGCTAGAAAAGGAAATAAATCCCCTATTATAAGTGTCTTTTTGTAGCCTACTCTATCTCCTAAAAGTCCTAATGCAAAGACTAAGATAGTATTAAAGAGAATTATAAAGAGGAATATAATACCTATCGATACTAAGGAAAATCCTATGAATTTAAGATATAGGGGAGCTACTAATGTAATATAAATTATTCCTATGCTTCTAAAAATTCTTGAAAAAACTAAATATTTAAATCCCATATCAGATTTCATAATTATTCACTATAAATTAAAACTTAAAAAAATAAGAAAATTAACTTTTTACCACCAGTTTCCGTGATGTCCATGATGATGTGGTCCGCATCCGTAATAAGGTCCGAAACCTTGATATGGTCCGTATCCCCACTGATATGGGAAGTTTCTTCCTAGTTCTGTGATTTCTACGTATTCTTCTCCATCTTTCTCAAATTTTCTTACTAATCCTGTTACCATTAATTGACTTAGTACGAAATCGAATGCACTTCCATATAATGGTACACTATTCCTTAATTGAGATATTTTTACTGGACCGTTTTTTAGACTTTCGAGTATTTGGTATCCGCCTATTCCCATTAGTCTTCCATACATTTTATCACCGATATCTATTTCGATATCGGAATTAATAAATCTTTCGATATTATAGTAACAGATATAATCCAAAGAAATAATAAAAGTTTAAACGATATTAAGGAATAGTTAGTAAATTAAATTAATTTTTATGCAGACTAACTATAAAAATTCTTAAATACTTCTTTAACAGAGTTAAAGATATGGAAGAGAGCAAAAACATAACACAACTAATCTCAAGAGAAGATGACGACATTAGTTTAGAATTTGATAAGGAAATTAAATCCGAACTCACTAGAAGTACAATAGAAGAAATTTCTAAATCTAAAAAAGAGCCGGATTGGATGCTAAAATTAAGAATAAAATATTTTGAAAAAGCTATGAAACTTCCAAAATCTAATTGGATACCTAACAATATAGATCTTGATCTTTCAAATTTTGACATATACAGTAAACCCAAATTAGATCATATAAGTAGTTGGGAGGAATTGCCAGCTTCACTTAAGAAATATTATGAATATTTAGGAATTCCAGAATCAGAAAGAAATATTCTTGCAGGAGCAGTATCAATACTTGACTCAGAATCAATTTACTCCAAGGTTGGAGAAGAATTAAAGAAACGTGGAATAATAATGATGCCTATGGATGAGGCTGTAAAAAAGTATGACATACTTAAAGACTATTTCATGAATGTATTAGATTCAGAATATCAAATAGCTGCGCTACACGGTGCTATATGGAGTGGTGGAGTATTTGTCTATGTTCCTAAGGGAGTAAGATTTCAGACACCAATAGAAGGAATATTTATCATAGGGAGCGATAAAGTAATTCAAGCAGAACATACAATTATTATAGCAGATGAAGGATCTTCAATTAATTATATTGAAGGATGTTTTGCACCTAGATTAAATGCTACAGCTATGCATAATGGAGGAGTAGAAGTTTATGTTAAAAATCATGCCAGTGTAAAATACGTTACTATACAGAATTGGAGTAAAAACGTAATTAATTTGAGCAATAAAAGAGGAATTACCGGAGAAAATGCTAATTTAGAATGGGTCGAAGGTTCTGTAGGGTCTAAACATACATTTAGTTATCCATCAACCATACTCGACGGTGAAAATTCATCATCAACTAGTTTATTACTAACTATAGCAGGCGAAGAAGGTGATTGGAAAGAAGGAGGATCTAAAATGATTCATAAAGCACCATATACCAAGAGTAAGATAGTAAGCAAGAGTGTAAGTTTTAATGGAGGCAACGTATCGTATAGAGGATTAGTGAAAGTAAACAAAGGAGCTCTTAATTCAAAAGCTTATGTAAAATGCGATTCTCTCATACTTGACGATAAGAGCAAAGCATATACATTTCCTCAAAACCAAGTTTTAGAAGAAAGTGCAGAAGTTGCACACGAAGCTTTTACTACGAAAATGAGTCTAGACCAGCTTTTCTATTTAGAAAATAGAGGTTTCAAGGAAAAAGAAGGTATATCATTACTGGTATTAGGTTTTATGGACGAAATAACTAAAGAACTACCTTTCCAGTACGCTACAATGCTAAATAATCTTATGACCTTAGAATTAGATAAAATAGGTGCATTAGCTTAATTGTTTTTTAGATTTTTTATTTTTTGTTTTTCTAAACTTAGAACTATTTTAACTATAAATATTTCCCTTAAGACATATATATCACTGTATATATCTAGGTATTTATGTCAACAATTGAGTTAAAACCTATAGGATATATTGAACATAATATTTCCGACGAGTTAATTGCAAAAACTTTCAAAAAATTTATGGCTAAAGTAGTCATTTATAGGGAATACAAGGATGGGTTAAAAGGGATTAGATGAATTCAGCCATATAGTTTTAATATCTTATTTACCTAGAGCTAAAAGCGAATCATTACAAATTAAACCGCTTGAACCTAAAATAAAAGCTAATAATTTGAAAATTGAAACCAATATTCCAATAGTAGGTATTTTTAGTACGTGTGCTCCTTATAGACCTAACCCTATAGGCTTATCCGTAGTTAAACTTCTTAAAATTCAAGACAATACAATAATTATTGACGATTGCGATTTATACAATAAGACACTAATTTTAGACATTAAACCTTATATTTACACTGTATCTGAAGAAGTTAGAATAGCTGAGTGGAGAAAAAGGATGTTAGAGTATATTAGAACTCTTAACTTGGAATGATCTAACTTTTTTCGTTCTATTATATTGATCTTTTATATACAAGTTTCTTAGAAAAGTTGGAAGTAATGAAAGCAGATAATAGTTGATAAGATGTATGTTAAATTTAGTTTTTATTAAAATATTATTTCCTGAAAATATCTTATAAAGTAATTTATATCTTAATAATTCTTCATTTACTGTTTCATTAATATTTTTATTTATTTTATCATTTAACATTTCCATAATAATATAAAAATCTTCTACGGCCTTCTTAAAAAGATTAGAAAATGAATCTTTGTATTCTCTTATATTTTTAGTATTTCCTGAGCTTGTTTGAAGAGTATGAATTCTATAGGAAGTTAATCTTGCAGGATCAAGCAAAATATTTCCTTCTGATAATAAGGAAGAATAAAAGATGAAAGAATCGATAACTGCCTTTATTTTTTTAAGATATTGAGCATTATTTTCAAGAATTTCCCTCTTTACGCATATTGAACTTGAATTAAAATTGACATTTAATTTAAGAAGGTTTCTAATGTCAGTTTTACGATTGTCTTCTATAGTTAATGTAAACTCCGGCAAATTAAACGATGCATATGGAGGAATCTTAAGATAATCTTCAATGATTTTTATTTCATTACCCTTATCATCAATAGTAACAAAGTTGTTATGATAATAAATTGGATGAAATACTTTGAAAAAGGAAGTTACTCTTTCTAACTTATCTTCTCTATAGATATCATCATCGTCTAACAGACAAATAATATCTCCCTTACTTTCATGCAAGCCTTTGTAGATTTTTTCACCTAAATATTCTTGATTATCATAAATATCTATTATATTTCTATTATTTATCTCACCTAATTCAAAATTTTTAATTACAACTATTTCAAATTTATCCTTATCTAATGTCTGATTTAGAACTGAATTTAATGCGTTGTCTAAATATTTTTGCCTATTATAGGCTGTTATTATTACTGAAACGAAATCCTTCATTATTAATATATCTATGTATAACGAACTTTAAATCTTTTAATAGAAAGATTTAAATAATTGACTGACTAGTCAATTTATTGTGACTTAAAATGGAACAGAAAAGAATCCACGAAATACCTGAATGGGCATTTGAATTTCATGGGCATAGATGTCCTGCAATGCCATTAGGTTATTTAGCAGGCAAATATGCTCTGAAACTACTAGGAATAGAAAAGGAAAAAGATACTAATACTTACGTTTTTTCGGAAACTGGTGATGAGCATCATCAAGGATGTTTTGACGACGGAGTTCAGGCAGCAACTGGATGTACTTATGGTAAAGGAAATTACAAAAGACTTCAATACGGCAAGATGGCTATAATTGTTTATAAACCAGGTAAAGGAGCAGTTAGAATAAGACCAAAGCCAGAAATACTTGATGGATGTAGCAAATTTGAATTTTTCAAATATAGAAAATCTGGAATACCTGCATCTCAAGTTCCTAGAGAAGTTTCGGACGAGGTTATAAATTACGTACTTTCAAAAGATTTCGAAGAATTATTCTATTATGAATTTCTCAAAGACTTTACATACAGTTCTCCAAAGAAGACAATGGCAAGAATAGTATGCGACGACTGCGGAGAGCCTACATATGAGAACTACATAAAAATCTTCAACGGTAAAAGGCTCTGTCCACGTTGCTATGAAATTGAAAGAAATAAAAGGTGATAATCTATGAATTCAATTTTTTTATCTATCATATTCATTTTAACCTGGATACTTTCTGCGTTATTTGCAATAGCGGGTGTAGGTGCAGCTAACACATTAATTCCTATATATTACTCCTTGGGTATACCATTTTCAATAGCAGCAGCCGCTGGGCTTTTATTAAACGTATTTTCATTGTCGTCTGCCACGGTAAACAATGGAAAAAGGGGTAGAGTATTATGGAAATTAGGAACGATCTTCCTTATACCTGCAGTTATAATGGCTCCAATAGGGGCATTCATAGGAATTCACACTCCAAGGAAAATATTGCTCTGGATATTCGTGGCATTCTTAGGCTACACATTGTATAATTTGATAAGAGGAAGAGCAAAAGAGGAAACAAACAAATTTTCTGGAAATATTAAAGGGTACATACTTGGTATAACAGTAGGAGCTATTGCTGGATTTCTTGGCGGTTTATTAGGCGTAGGAGGCGGAATGATAATTTTACCTGTTTTAGCTCTAATAGAAAAAGATTATAAGAAAGTTTCAGCTACTGCAGGCTATGTAGCTTTATTTAGTTCTGCAAGTGGTTTTACTAGCTATCTGTTCTTATTACGAGGAATAAGTTATGATCTATGGTTAGTAATATTAATAGGCGGAATTTTAGGAGGATTCAGTGGATCATATTTAATGAACAAGATGAAGACTCTTTACGTAAAATATACTATAGTATCCATAATAACGTTCGTGCTAATAAAAATACTTATAGGAGTAATTTAAACATTTAAACTATGAGAGGCATAATTAAATTATGAGACAGAGAAATGAAGAAGTGACGAAGGAAAAGATATTGCAAGCTGCTACCGAAGTTTTTGCTGAGGAAGACTTTTTTAAAGCTTCAGTAGACCAAGTGTGTAAAAAAGCAGGAGTTTCTAAGGGAATAATATTTTGGCACTTTAAGACTAAAGATCAGTTAATCTTAGAGGTAGCTAAGAAAAGTCTACCTTTAGATATTGTAGAGAGCTGTTTAAAAGAAAAAGAAAATACTCTTGAATGTATTGGGAATAAATATCTAGAAAAATACGATGATCCTATTATGAGGAAACTTTTCTTGCATACTATATCTGCAATGAATATATATAAGGAACTGGGAGATGACATTAGAGAATTATGTGATTCACTAGTGAAAAAAATAAGTAAATGTGCTTTAAATAGCGAAAGTAATGAGGATATTATAAGAATAAGGTCGTTCATGGGAGGACTTCTTTGTTACGTAGTAAATCCTCCTAATATAGACAAGAAAACATACGTTAATACTCTTATTAAGATAGCTTTAGCGAAAGAAACTTAATAACAATATTAAAATAGATTCACCTAATTTATAAATATTTGATTTTTTGCCAATATATAATTTTTTCTAAATAAATTCGTAAATAATTTTTAAATACCTATATCCTTCATTATATTTATGGAAACTAAGAAAGTCCTAATTTTAGGAATAGACGGATACATAGGCTGGGCTCTAGCGTTAAGGCTAGGAAAGAAAGGGCACGAAGTATATGGTATAGATAATCTAATAACTAGAGTACAAGCAATGGAAGTTGGTGGAGATTCTGCGTTTCCCTTGCCATCAGTAGAAGAAAGAAGGAATATATTTAAGGAATATATTGGCCCAATAGATTTCATTGTCAATGATATAACTAAACCTTATGTTTTAAGAGATTACATTAGTAAAATAAAACCAGACGCTATAATACATTTTGCAGAACAAAGAACAGCTCCTTATTCTATGATAGACGAGGAACACGCTATATATACAATGCATAATAATATAGAAGGAACAATAAGGCTAATTTACGCAGTTAAGGATAATCCCGAAATTCATGTACTAAAAATGGGAACCATGGGTGAGTATGGTACTCCAAATTACGATATACCAGAGTCTCCTTATGTGAAATTTGAGTATAAAGGAAAGAGCGACATGGTTCCTGTTCCAAAATTCGCCGGATCATGGTATCATTGGACTAAAGTTCATGATTCGCATAATTTACTATTTGCAAATAAAGTATGGGGTATAACGATCACTGATATAAATCAAGGACCAGTATACGGTACTAGAACTACAGATATGTTAGACGGAGATAGTATAATAGAGGGTCTAAGAACTAGAATAGACGTTGATGAGGCTTGGGGAACAGTTGTAAATAGAAATGCCGTTAGAGCAGTTTTAGGATTACCTTTATTAGTATATGGAAAAGGAGGTCAAACTAGAGGTTTTATTTCTCTTGAAGATAGCGTAAACGCTCTAGAGATTTTAATTAATAATCCACCTAAAGAAGGAGAATTCAGAGTCGTTAATCAGTTTATGGAGCTATATAGTGTGGAAAAGATAGCAACGTTAATTGCTGATGCGACAGAAGAATTATTTGGATATAGGCCAAAGATCCATTATGTTAGAAATCCAAGAATAGAAAAAGAGGAACATTATTACAATCCGGAAAGAAAGATTCTTCCAGATCTCGGTTATAAACAAAAAAGATTTCTAAAAGATGAGATATATTCTATACTTACTGATCTATACCAATATAAGGATAGATTAAAGAATTTTAGTGAATGGACTAACGTTAAAACAGACTGGAAAAACGGAAGGAACGATAAAAATAGATTCGATTTAATAAAAGAGTTATGATTTTTTATAATATTGTTCCTTTTTAATCTTTTAATCATAGATTTACTTTATTTTGTATTTTTCTTCATATTTCTTATTTTTACTTTATAGATAGTTATAGATAATATCCATACTGACGCAAAAGTAGTTATAATTATCATTCCTATATTTCCCCACCATACATCTCCATTTATTAGCGATATTATATTCCAAAATCCTCCATTTAGGCTAAACTCTGATTGTATTAACCCCAGAAGTTCTAGGCTACCCACTACATATGCAACTAAAATTGATATTGTAGTCATTGTTAAGTTATACCAAATTTTCCTCATAGGATTGCCGTTGTCAGCAGTTTCCGATAAGCCGTAAAATTTAGATTATTTACCATCATTTAAAATTCCTAAACCTTTTAATGCTATTAAGTAAGCTGAGGCTGTGTGTCTGTCAAATCCCTTCTCCCTCATCACCTTTTCATGTTCTTCCGAGTTTGTAGTACCCTTAGGATTAACTAAAATAACGTTAAAACCCAACCTTAACGCTTTAATAACACCGTGAATTAACAACTGCTTCTTAGCGAAACGTGAAACCTTCCTATTACCGCTTTTGCTCCTAGTGAACCTCCTCCTCTTAACTAGGAATAAGTCCTCAAAAACTACGTAATCAACACCAATCCTTGATAGGAAAATGAGAGCTTGTGATAGAGCATTCAAACGTAAAGCCCTAGCTTCCCCTTTAGGAAAACCGTGGGAAACAACCTCAGAACACCACCACGTTTTGGTAGTAACAATACTACTCTCCTTATTAATTACAACATTCAACCTATCAGTGTTCAAATCGAAACCAGCAATTAAACCGTAACCGTTAGGTTTTGGTGAAGAGCATAGACAATCTAAAAATAACGATTTTAAGTGATAATTTTGTTTCAACACTAATTCCTCCTCTAATCGGAGAATGGGGATTTTCTGCCCTTGTAGAAGCTGATGATGTAAAGATACTTTACGATGTAGGAAATTCAGGTTATCCGTTAATTTATAATTCTGAAAAATTAGGTATAAAATTGGAAGATATAGATTTCATAGTATTGAGTCATGGACACAGTGACCATACTGGCGGATTTTCAAACAACGATGTTGTAACGAAACTAAAGGGTAAAATGTTAATCGCACATCCCTCAGTCTTTGAAAAGAAAGTTCTTAATTGGTCTGGAAAATTGGAATATATTGGAATGCCGTTAACTAGAGATGAAACTGAGAAGAAATTTAACCTAATACTATCGTCAGAACCCTTGGAAATTTCTAATGGGGTAATGTTTAGCGGAGAGGTAAAAAGATATGGATACAACGAATATACTTCAGGCTTATACACATCCTCAAATTCCTCTCTACTAAAAGACAGTATGAAAGACGATGTCGCACTTTATATTAATACCAAAAAAGGCCTAGTTATTTTGACAGGCTGTGGACATTCTGGAATTCTTAATATAATTACGCATGCTAAAGAAGTTACAAATCAGAACGTTTATGCAGCATTAGGAGGATTTCATCTTCTTTCTTCCCCAAAGGAGCATGTAGAAAAAGTAGCAGATGAGTTAACGAAGAATTTACAGAAAATAGGTCCAGCTCATTGCAGTGGAAATATGATAAAATCAATAATTTCAGAAAATAAAGAAAAATGGTTAGATGTAAGCGTAGGGAAATCTATATCATTCTGATTTTTTATGAAATTTTGAAAGTTCATTATTCCAATGTGGTACTTTTACATCTTTAGGACAAAATGCTAGAGAGAATGCCTTTATATCTAATATAGGAGTTCCAACGAATAAGTCCAAATTATCTACATAGAGAAGATTCTCTTTTCTTTCTATTAATTTAACAATAGATAAAGCTATTGGATTAGGTCTATGCGGAGAATGAGTACAAAACACTCCAACTGTTGGTAGATTATCTAATCTCATAGGTTTAACTTTCAAAATTTTTCTTTGGTCATTAGATACTTTATTTAACCATGCCAAGAGAATTATATGAGAGAATTCTTCTATTCCATCAAGTCCTTCTTTATATTCATTAAATATTTCTATAATTCCTCTATTTTCTTCTTTAGATTTTACGACTCCTATTTCCTTTAGGTACATTAAATAGAAAATACATAATCATAAATATATATTTAAATGCCTCAAAGACGAAAAATGGATTTTAAAAAAATTAAATTTGCTCTGCTTCTATTAATGTTAAAGTATCCTTTACTCCTGGCAACGAAGCTATAGAATTTACTATAAAAGTCCCTAACTGTTCTATGTCTTCCACGTCTATACTCACTAACAGATCATAAGGTCCATAGGTTATTGCTACATTAGATACCCTGGGTATTGCAAAAAGCGTTGTTAACAAAGTTCTTATTTTAGAAGGATCTGCCTTAATAAGAACATGAGCTCTTTCCATATTAGCGTAAGTCCTTACTAGATCCCACTCCGTAACTATTCCTCTCAATGACGAGGCTTTTAATTCATTTTCCTCAAGTAATAAAACAGAGCCTACATTTTTTGTAGCTATTAAATCAGCTACATCTCCTACTGTAGCATCTAAATCTTCAGATACTATATTCTTTGAGGCTATATCTGATAACTTAGAGGAAGAATTGCCTTCATAGTAAGCCTTAAGCACATCTCGTAATGAAACTATACCTATTATATCAGCTCCAGAAACTATTGGAATATGAGACATTCCAAGTGATACCATTGCATTTGCTGCATCCCAAACTGTTTGATCACTATTGAGTGTAATAACGCCTTGTGTGCCTACAGCTATTGCAGGAATTGTCACTCTTGGTATTACTTTCGCAAGATCTCTTTCAGTTACTATTCCTTGTCCTTTTATTAATAAGGAACCAACTCCGTACTTTAACATTAACTTAGCTGCAGTTCTATTCGAAGTATCAGCATCTACTGAGATCGCAGGTCTTGTTACATCTCCTATTTTCTTTGATGCCCAGTTCTGATTATTTAATGCTTCCCTTACTACTGTCCTAGCAGATACTACTCCTATTATATTCCCTGCAGCGCTTACTGCCACACGTCTTATACCAGATTTTACCATTAATTCAGCTGCATCTTTAAGGGTCGAGTCTATATCTAGCGTTTTAATATTTTGAGACATTATAGTTTTTAACATAAAGTAAAATTAGATCCTAAGATTATAACCCTTCTATTTATAGAGTTATTATATACAAACTAACTACTGTTAAAGAGAATTACTAGAACATTTATAATCATAGACTATAGTAATTTGCATAATAATGCTCTATCTACTTCATTACTTAATAATTTTTAACGTATAATCTATTAATTACGGAATTAAAATATTCTAATTTTAATTAGAAACACATAACCTAAAAATATATAAAAATACTAAAAAGATTAACTTTTCTTTAACAGGGTTTAAGCGAAACAAACTGTCTCTATTCTAAATTTATTTTACAGAAGCTTTCCTAGCTTCGGCTTTCTCTACAGCAGTCTTATAAAGTACTTTATAGGATACAGCAGTTACTCCTCCTAATACCAATACTCCTGCTAGACCTACTAATACTGAGCCTGCGGCAAGTGTAGCTGGATTAGTTAATAATAATGTTGCAGGTATTCCACTTGGTGGTACAGCATCTACTAGGATGTTTCCTTGAGTAAATACACCAAACATCATTCCGCCTAAGAACGTAAAGAAGAATACCCAGGCTTGTCTCCATGGTAAATTCTTATGAGTTGACAGATATAGTATTCCGTATAATATTGCAAGATATACCCAGAAGCCTGCATTTCCTACTGCACTATTAAATACTGTAGGTAACCATAAGTCCGTACTAACTAATAGTAAGATGTTAGCTAACGTTAATGCTAATACACCTACTAAGAATCTTTCTTTTATTCCATAGAATGCCACAGTAAAGAATACTACATACATTACTATACCTATGAAGAATACCCAGTTAAACGCATTGAATATCATGCTCATGTATTCCGGATAGAATACTTGTAAATTAGGTATTTCATGCATAGCTACAGATAATTCATGTTTTTCTAATACTGTAGCAACTGTAGATAATGGAAGTTTTAATCCTATTCCATATCCACTAAATACTGACGTGAATATTGTAGTTCCTATAAAGGCAACTATTAACGCGAAAGGTGCTGCAAGTATGAGGAATGTCTTAGAACTCATATGTCTACCTAAAGAATCTGCACCTTCTGCTGATCCTATGAAATAATGGTGAAATGCTAAGATTACAATCAACGTCATTAATAGTCCGAATAGTGCTTCTCCAGTAGCGAACATTATCGGAGCGAAGATCCCATCTAATGAAACTACTAAGTATACTAAAGACGTGGCTATTATAGCCCATAGAGATCCTAAAACTAACATCATTTTCTCCTTATAATTCTCGTACTTGCATATAGGCAACATTACTAGTGATCCTGCTTCTATCATAAACATTGTTACGAACCAAGATAATGGGATAAAGAATAATAGGATGTAGGGATTCATTTACATCACCTTTTTCTTACCCTGATCGTTAGAATTTACAGATTTTAATGAGGGAATGTTAGGAGACTGAGCAGAAGTGCTTCCGAAAGTAGTAGTTAATGATGCTACGTCTTGAGCCACTTCTTTTCCACTGAATAATCTTCTTAATATGTATAATGTGCCTACAACTGCTATTACTATTGCAGTCATTATAGCAATTCCTATAGGTAAAACGTCTGGATTATTGTTAAATCCTTGACTTGTAAGCATTCCTGCTTCTATTGTATATAGTCCGCTAGATGTTGCTACCATAGGTCCCCATATAACGAATGGTTGTCTTCCTGTTTCAGCAGCTACCCAACCGGATTCCCACGCTATTAATTGTAACCATCCTATTAATAATGTAACGTATAATGGAACTTTCTTATCTAATGGAGCATCTAAACCTAAGAATTTGAAAGCATTTTTCAATGATGGTAATTTAAAAAATGTAAATGCTGCCAATATCCAGAATACTAAGGCACCTAATATACCTAGCGTAGCATGAAGATCGTATGCATTGTGAGCTACCCACCATATTGGATCTTGTACACTCTGTACAAAACTAGAATATCCTAATACTAACGCATTAGGATTAGGAGGCCATGTAGATAGTAGTGCTAAACCGCCGGGAATTGATATTGGACCAACAGACATTGGTGCTCCTTTAGCAGTTTGCATTACGCCTTCTAATGTTGCAAGCTTTAATGGTTGTATTGCATAAAGGGTCTTTCCTGCATTATCTCCTGCCCAACCTAAGAATATTGCGTCTATTGCTGCAAGGAATATCGCTAATTTTAATCCTCTATTATAGTATTCTACTTCGTCGTGTGTTAAATTCTTCTTAAATAATTTCCTGAATGAGAAGTATCCGGCCAAACTTCCGAAACCTACAAACCATGCTCCTGCAACTCCCATAGGTACTTCAGCATTTGCTGCTGGAGGCCATAATGATCCTAATGGATCAACATTAGTTATTGCACCAGTTTGTGCAAATTGAACTATATTAAATCCTACAGGCGTATTCATCCAAGAGTTTACTAGGATTATAAGAAGAGCAGACGCTGTAGATCCTACACCTACTAATAGCCCTAACATCATGTGTGCATTTCTGCTTACTCTATCCCAGCCGTATAGATATAAACTAAGGAATATCACTTCCGAGAAGAACGCTAATACTTCTATTTCAAAAGGTAGTATATCTACCTCGTTTACTACATACATCCATTTATACCAAACTGTTATGAATTCTACTGCTATTGCTGCACCTAATGCTGAACCTACTGCAAAAAGTACTGCCATAACTATTGAAAATCTTTTTGCTATTGCTAAATAGTAGGGATCGTTCCTTTTGTATCCTAAGTATTCTGCAGTTACTATAAAAAATGGAAGAGATATTGCCCAATATGTAAAGAGCATATGTCCGCCCATAGTAAACGCTGCAAGTACTCTATCGAAAACGAATAGACTCATATTTTTCACCTAATCTAAATTTATTTAAAATGGATTGATCATTATAAACTTTAATAAGTAGTATATATTGGACTAAAACGTGTTTTTTACGTTATAAGTTCTACAAAAATTTTAGGAATTACCAATTGAAATCTATAAAAATGTCAGTTCTGTTAAATCAGGGAAAAATAATTAATAAAATAAACTTTATCATAAGTTCAATAATACTTATACCCTTATTCAATATTAATAAGATAGAAAGTAATAAAAAATCAGAATGAGAGTTATGTAATAATGGGAAATAGCTTATGCTTTGAAGTTAAGAGAGAAATAACTGAAAAACCTACTTTAATTATGCTAAATAGAGATCTTTTTAGAAAAATTACGGAAAACGAAATTTATCTTAAAGTATTATCTTATCCAGACTTTAAAGTAGCAGGAGTTAGCAAAAGTTATTATTATTATGCGTTAGAAAAATTAAAGGAAATTAATTTAATTAGAGATAGGAAAATTAATTTTAAACTTGTTGTTTCATATTTTTATGATAATAAAAATCAATTAATCAAAATAGACCCTGCATTTATCTTTATAGGGAAGAACCTTATGTACGTCTTCGATTCAAGAAGGAGATGTAATATGGATTATGAATTATTAGTAGATTTAGGAATAGAAGATGGTAGAAATACAAATTTATGCAAAAAAGTTAAAAAGGCGCTTTCTAATATGATAAATGAATATCTAACAACAGGTGTAATTAATGTTATCTAAAAATTCTTTATTATGGTTTTTGGGAGGTTTATTAGCAGGAATTGGTTATATATTTGGAGTGTTTTATTTAATGATTACTAAGAAAGATCCTAGTAGATGGCTTGGATTAATGCTATTTTTAGGTCCTTTTGGTTCAATAATGCTATACTTCCTTTGCAGAAACGAACATAAAGATATAGCTACGTTGTCCATGTATTTATTCTATGGATTTTTAGTATGGATACCAATAGCATTGTTACTAGGAATAAATCCACTATATCAGATCTTCGGTTACATACACGGATGGTTAGGAAGCTAAAATATTAAAAAAAGTACATTTTTAGTATAACAATATAGAATTATGTGTTGATTAAGCTAAATACTAGTTTTTTAAGAAAAACTCTTGAATTTAAATAGGAACGTCTCTGAAAGTAGGTATTTTAATACTCTTGAGATTTTTTAGATATTTATGTAAAATTTCATCTACTATTGTATTCCATAGTTTAGCAGGAAGCTTAGAATATCTTCCTTCATCCCCTATTTCCCCTACTTTTGCTCCTATACTATTCGCTATTCTTCGTAATCCGAAAACACACTCCGTATAAACTGGACATTCTGGACAGCCATACTTTGATGATCTCATATCTATAAAGATAAGCATCTTATTGTTTTTATCAATATATGCTATGCTATTATCAAATTCTATTCCCTTTTCATTGATTACTATTGGAATTATAGCTTTAAACGATATTGCATTATCTTCTATCAGTTCTAATTTTTTTAATTGAGATAATATATAATAATAGTAACTTTTACTTAAATGTAAACTTTCTCTATTATCGTTAACCAAAACTTTTGAATAAATATCCTCAGAAAGTTTATTAAAATACTCTCTAGGCAAAAGTACAAGATTTTCCGTCTCACCTATAACTCTATTAATCTTAACTAGTCTGTAATCGCACATAGGAATCTATGTAAATATTTATGATTTATAATTATATATAAATCTAAATCTAGAGTTTATATAGTACTTTTAGACTGAGATACCCTAAAATAAACGTAAAAAGAAGAACATTCTAACGTAAAATTACGTGAGTATTATATTATCTTATGTAACATTTAAAATAATTCGCTATCATTTTTTAAATTTTTGTCGAAAAGAGCAGAAAAAGGTAAAAATAATTTTTTAATGAATTGGACTTTTTCTATAGGATATTATCCTATTTTCCTAGATAAATATATTAAACACTTAGGAAAAGATTACTTTATGATAAACGTAGGTTTGTATTATAGGGTAAAAAAAGGTCATGAGGAAGATTTTGAGAAGGCATTTCAAGGGGTAATAAATTTCCTAAAAACTTTTCCTGGTTTTATTGACGCTAAGCTATATAAGAGAGTCGATGATCCACAAGAATACTTGATTTATAGTGAATGGGATTCACTTGATACTTTTAGAAGATTTATTTCTAGTAGAGAATACAAAGATACTACAGGATACGGAAAGAGTATATTAGAAGGCATGCCAAAACATAAGGTCTTACAAGAGATAAACACATAGTTAACTAAGTTAAAGTATTTATTGATTATTTTTACATAATACAATTTAAATTTTTGTCTAAGAAGATAGTACTAATGAAGAATATTTATCAAATGATATTAATAACTAGACCTTGGGGTTTTATTTTACCGATAGTCTGTGTAAGTTTTTCTTTCTCTCTTGGATATTATATTTATAGAATATTTAATATTCAATTTTTCATTTTAACAATTTTGGGTACTGTTCTTTTTAATGCGTCAGTTGACGTTTTAAACGATTATTTTGATTATAAGAAAGGTTTAGATTCGGAAAATTCAGGCACAGTTAAATATAGACTTCATCCAATAGTCCAAGGAGTATTAACTTCTACTAATACACTATTATACGGACTTATTTTAGGGATGATAGGTATGGCAATAGCGATATATTTAACTTTATTTAGATTTTATGCAATAATATTTGCCTTAATAGGCTTCTTTATGGTCTACGCTTATAATGGACCACCTTTTTCTTGTAAATATAAGGCTTTAGGAGAAATAGAAGTTTTTATAACATATTCATTTCTTATTATAGCAAGTTATTATATTACAACAAGTCATATTTCAATAATATCTTTCTTCGATTCCTTACCTCTAGCATCAATAATAACTGCAATTCTTGTAGCCAATAATATGAGAGATGCCAATACTGATAAATTAAACAAAATAAAGACTTTAGCAACAATTTTTCCAGATAAAATAAAGAAGATTTATTTATTCCTTTTGATAATTCTTCCTTATTCACTTATACCATTACTAATATTATTTGGATACTTACCTTATCTAGATATATTGATATTGCTTACGTTACCACTCTCTACCAAGATAGGAAAATATGTATACATAAATTTACCTATAGATTCTGATCCGCAAACAGCTAAAGTTCTAATAATATTTGGATTAACTTACGTATTCTTGACGCTTCTAAGTTCATTTTGATTAATTTTAACTATTTTTTCTCTGAGCATTATTAAATCTTTGAAATTTTTAGCTTTTAATATATTATCTATTTCATTTAAAGCTTCAGTAACTAATCCGAGTTCCACCATATCCAATAACTTTGATTCAATAATCCAGACATTGTTAGGATCTTTTTCTATAGCCTTTTCATACTCTTTTATAGCCTCGTCATATTTTCCTTTTTCATCAAGAAAATTTCCCTTAAGATAGTGATACATTGAAAAATTTTTATAATCAATGATTGATGCTTTTTCAAGACACTCTAATGCTTCGTCTATTTTTCCTAAATTAAAAAGTAGTAAGGCTTTCTTATAATGGAAATCTATTACATGAGGATCCAATTTAATAGCCTCATTATATTCTTTCAATGCCTCTTCAGGATTTAATGTACTATATATTTCTCCAAGCATAAAGTGAGGCCACGGATCTAAGGGATTTATTTGTGAAAGCTTTCTTAATTCCTCAACTTTTAGTCTAGTGCCTTGTGGTGATTCAACCATTATTAAAGTATAATAGAACTTAACATATAAAAGTTCATTATTTTAATTAAGTTATGACAATACTAACAGTGTTAATAAGAAAAAGGCCTTCTTTTCATAAAATTTACTTATTTTCTTGTTTTCGAGAAATAGTAGTATGTCATTCAAAATTTCTAGACGGGATTTTCTAAAGTTAGCGCTAACGGCTACTATGCTTGCAGCACCAGAATGGGATAAGGCAATAGGAAAAGCAGTAGACATGATAAAAAATGGTGACGTAAATATAGTATGGTTTGAAGCACAGGCATGTGAAGGAAATACAACAGCTATAATACAAGCTACAGATCCTACAGTAGTTCAAGTTCTTTTTGGAGCAAGTCCACTAATAGGACCTGGCAGCGTAAAAATATCTTTTTGGCCAAGTCTAATGCCACAACAAGGAGAACAAGCAATAGATATATTAAATGACGTAATTGCTGGGAAATATAATCCTTATGTACTAGTATTAGAAGGAAGTTTCCCTGATGAGAAAACTGCACAGCAATATAATTCTGGAGGATTTTGGGGAATGTTAGGTCCAAAGACTCTAAATGAATGGGTAGCAGAACTATTACCTAATGCAGTTGCAGTTCTATCAGTAGGAAATTGTGCATCCTATGGAGGGTTAATAGGCGATAAAGTATATCAACCACCGCCTAAATTCATAACGCCAACATGGTCTCCATCACCCACTGGTGCAGTTGGATTTTTCGACGATCCGTTAAGAGGATATAAAGGACTGTTAAGCAGATTATATGAGGATAATTACTTAAATGGACAAGCCGGCGCAGCACCATTCTATACTTTCGTTAAGAATCCTAATTCTTACCTTGATATAACTCCATCTCCTTCTGCTTCTGTGAAACCGGCAATAGCAGTGCCTGGTTGTCCAGCCAATGGAAACGGTATAATGAGGACATTAGCTAATTTAGTGCTATGGGCAGGAGGTTTAGCTCCATTACCAGAAGTTGATCAATACTGGAGACCGATGTACTTTTTCCAATATACAGTTCATGAACAATGTCCCAGAGCTGCATGGTATGCTGCAGGAGAATTTAGGACTCAGCCAGGTCAGCCTAACGCTGCATGCTTATTTGAGGTTGGATGTAAAGGTCCAGTATCTAATTGTCCGTGGAATAAATACGGTTGGGTTGGAGGTATAGGAGGGCCGACGAGAACTGGCGCAGTATGTATTGGATGTACTATGCCTGGTTTTTCTGATCTATACGAACCGTTCTATAAGCCTTTACAGGTTCCAACCCCGTCTTCTACTCTAACAACTGCAGGATTAATAGGCGCAGGTATAGCGATCGGTGCTGCGGTAGGATTAGCTGAAAAGAAAATGGTACAAAAAGGAGGGTTGAGGTCGAAATAGCATGCAGTTACCTTTTGGGGATTATTTAGTAGGCAATTCATTATATCCTTTAGCATTAGATTTGTTCATTCCTACAATAGTATTTTTCTTCTTTGGTGCATCATATAGAGTATTTAGATACTTTGCAGTTTATAAGAAACCGTTTATACCTTACGCTACGTCTGTTATGAGAGAAACGTCTTCAACAGAAAAAGTTAAGAAATTAGTTGATACTTTTGCTAACTCCAGTAAAGTGGGAATGAAAAGAAAACCAGTAACTACTGCCGCAGGTCTTCTTATGCACTTATCATTAATTGTTATAATATTTCTTCTAGCTCAGCATATGGTATTTTGGGCTTATTATATTCCTCCTTATAAAATTCTATTTCCTTTTGCTATTCCTGAAAGTTCTGCAGATGGTGCATTAGCCTTTACATTAGCTACTTCGCCTTATACTTCCACATCATATCCTTTTGTTCATGATATATGGGGACCTTTAACTATAATTCTGAACGGTCAATATATAACATATATCCTAATGATACTTTTAGGAATATATTTGGGTCATAAGTTTCATGCTTTAGCTGAAGGATTAACGTTAAGATCTGGGGATTGGTGGTTCTTCTTACTACTTTATATTGATATAATATTAGGATTCTTAGCAACTTCCCATATACCTAATAGTGTAGTATATTACGATGATTTACTAGGAGCCCATATAATAGTCGCAGAGGTTTTAATAGCCACATTACCCTTCACTAGAGGTTTTCATATGTTTGAATTCTATCTTGGTAAAGTTAGGGAATGGTATTTTATGACATATAGAAGAGGTGAAAAATAATGGCAATAGCAGAAACTAAAGTAGATATGGAAGCATTAAATAAGGCAATAGACGAAGTATTTTATGGCCAGCTAGACTCTACTATGCTTTATTATTTCCAATCATGTGTTAATTGTAAGGCCTGCGAAGCAGCTTGTCCATTTACTCCAACATCATTACATTATTCTCCCGTAAATAAAGCAGAAGTATCTAGAGAACTTTATAGATATAGATTTAGTGTATGGGGAAAGACTATAGGCAGATTCATAGGTGGAAGTAAAAAGTATCTTTCTCTAGAAGAAGCAGAAACTATGGTAGATTACGTGTGGCATTGTACTAATTGTGGAGCATGTATGTTTGTCTGCCCAATGGCAATTGATAGCGGAGCTATGATAGATCTACTTAAGCAGGTTGCGTTTAAAGCCGGAATGGTACCTAAAATTTATAGGGATATAGCAGATTTAGAGATTTCTGGAAAATACTGGGAAATAGATTTCTTTAAGAATTCATGGAATTCTTTAATTTCAAAAATTAAAGACGCTATAGGGAAAGAAGTACCTTTAGATAAGAAAGGAAGCGAAGTGTTATTTTATACCAGCATTTATGAAGCATTAGCTTATCCTGATGTTTTAGTAAAAGTGGCAAAAATTCTCGATATGCTTAATAAAGACTGGACATTTATGTCAAAACCGCTTGGAATAAGACCTCCAATTGGATTAGTAATAGGAGATAAGGAAGGAGCTGCAGAAGTTATGCAAAGAGTTTATTCGTACTTTACTGATATTTCTCCAAAATATGTTATGTTAACTGCAGGAGGTTTTGAATATCCTTCCCTAAGGTATACTATGCACGAAACATTTAAAGTGAAACCTAAATACGAAGTTGTTCATGTAACAGAACTTTTAGCAAAATGGTACGAAAATAAGGAGTTTGAGATAGAACCATTAGATGAGACTATAACGTGGCACGATCCATGTCAGTTAGGCAGAAGGGGAGGAGTTTTTGAAGCACCTAGAGTTCTCATGAAAGCTTTATCTAAAAAATTCAAGGAGTTACCTAGTCATGGCGTAAATAGTTTTTGCTGTAGTAGAGGAGGTGGTGGATGCGGAGTTCCTTCTATGGTTGAAAATATGGCAAAAACATTAGGTATTCCTGTAAGTGATGACGATAAGAAGTTCCTAGATAGCACATTAGAACCACTAATAAAAGCTGGTAAGATTAAAGTAAATGAAATCAATAAGATAAAGGCTAAAGAAGTTCTTACTGGATGTCCAGTCTGCATAGAAAGTATAGGTTTCTCAATAGATTACTATCATGCTAGTTCGAAAGTTAATCATATAGTAGATATATTAGCTGATAGAATAAAGGTGAATAAAAAATGAAAGTTAATTATGTTTTTTATTTTATCTTAATTAATAATATAAAAGGTGAAAATATATGTCTTCAATAAAATTAACCGTAGATCCTGTAACTAGAGTTGCGGGACATTTAGGTATGACCGCAACTGTAGATACAAATACAAGGCAAGTAATAAACAATCAAGGGTATACATATGTAACTATGTTTAGAGGCTTTGAAGTATTCCTCAGAGGTAGGCAACCGCCAGACGCTGTTCACATAACCTCTAGATCATGCGGAGTCTGCGGTGCTGCACACGCTAACGCTTCAGTAAGAGCTAACGATATGGCTTTAGGAGCAGTACCGTATCCTCTAGGGCAAACTTTGAGAAATTTAGCATATGCTATGACAGACATGATTTATGACCATTTAATAATACTTAACGTCTTGGAAGGTCCAGATTTTTCAGCTCAAGTTATGCAAACGTATTATCCATCATGTTGGCAAACAGCTCAGCAAACTCAAGCAGAATATAGCGACATACATGGATTTTCTACTATAGCAGACATAATGACAGCATTAAATCCTTTTGCAGGATGGCTATGGGTTCATGCAGTAAAGGCTCAAATACTAGCTAGAGAAGCGGGAGTTCTAATATATGGTAGGCATTCTCATCCACCAATGCTAATACCTGGAGGAATAGGTACAGATCTATCTGTAGGCGAATCATTATTTACACAGTACATGTATAGACTAACAACTCTAACTGCAATGGCTAAAGTAGTAATAGCAGCATGGATGGACTTAGCTAATTTCCTTATAAATAACTGTAATTATCAATATCAAGGATTAACATATAGTGCTCCTACCTATATATCAAGCTATGGCTATGAGAGTCCAGAACTATATAGTAACCTAGGCGATACATATGAGGATATTTATAAGAATTATGATACTTTAGCCCAACAAGCTTCCGAAGGACCTCAGACAGTATTTAGAGCTACTATTGTGAGAAATGGTGAATTATTAAGTAAAAGTTTCATAGATCTTAATGTAGGCCAACTTGAATTTGTCAATTCTTCTTACTATCATAATTGGGCTCATATAACTTCGCCTTTTACTGAGACTGATCCTATAGGGAATAAATTAGCGTGGGGATTAACAGAAAGTGATGGAACACCTCTATATATGTATCATCCATGGAATAAGACTACAATACCTAATCCTCAAGCCATGAACTTTATGGATAAATACAGTTGGGATGCAGAACCTAGATTAAGCTGGAATGACGGAACTATATGGCCATACGAAACGGGTCCGTGGGCAAGACTTCACGCTGTTGCTCATTATCATCCAAATAGTCCTATAGTCAAAAACGGTAAAATAACGATAACTTTACCTACAATAAGTGAAATTCCTGCGTGGTTACCGTCAGGTTCTTCTGCAGAATGGACAGTAGAATGGGAACCTCCGAATCATTCTACTACATTAAGTAGAATAGTAGGAAGAGCTGTGGATATAGCAGCTGCAATATTTACTGCATGGGATAACTTACAATATGGATTAGAAACATTTATGAAAAATCAAACTAGTCCAAAGACCTCTAGACCTTGGAAGCAACCATCATTCTCAGTAGGTGTTGGACAATATGAAGTTCCTAGAGGAACAAGTAGACATTGGTTAGTTAATAGTAATTATAGCATAGCTAATTACCAATATCAAGCTCCGACTACAGCAAATGTAAGTCCAAGAGATAATAGATGTAATGGACCTTGGTGTATAAACGGACAAGCTATAGGCGCCTTCGAGATGTCAGTTATAAATACTAAAGTTATGGAAGAAGTACCACCAGATCAATGGGTAGGATATGATTTCCTTAGAGCTATAAGGAGTTTTGATCCGTGTTTAGTCTGTGCAGCTCATTTCGAAATTAAGGGAAAAACAAATAGGAGTATAGATCATTTAATAACACCAGTGTGTAATACATGACATGCCTTAAGGTGAAATCTAAAGAAATCCCTAAAAACTCCATGGTAGAGTTTTATTTTCCTGCGGAAAGACCTTGGGAAAGGAAACCCGTTCTTTTAATAAATTTTGATGAAGAAATTTATGCACTAGAAGCATTCTGCACTCATAATGGATTATCATTAGAAGATGGATTTCTGACTGAGGATGGAAGAATTGTTTGCCCATGGCACGGTTCAGTATTTGATGTTAAAACTGGGAAAGTACTTGATGGACCTGCAAAAAGAGATCTTAAGAAGTATAATGTTAAAATTGAAGGAGAAGAGGTGATAGTAAGTGAGTGAAATCTCGGCTTCGGGTTTTACTGGAGTATTTACAGTTAGATCTTTTTCAGATCCTGATTTGTATGCTTTTGCGGGTAGATTAGCCGGTTTAGGTTATTCAGTAGCTCAAATAAAGTTGAGTGGATCTACTGGATACATATATATTCCTTTAGATGAAAGCGGAGCCTTTGCTAAGAAGAATCTGGGAGAAATATTTTACCAACCAAGAACGTTTACTGTAGTGTCAGACGATTTAGGTAATTTTCAATTAGCTTCAGGAGAAATGATGAGAGCTTTAAAAGAGAGCGGTTCCAGTAGTATAGATTATGCAGAATTGTCTATAAGCTATGAAAGAGTTCTAACTTTACATAGGACTTCTTTTGAAGGTTGGGACTTGAGAGGTTTTACAATATCGAGAAACCTATTAAACTCAAAGGATTATGAACAGATTTCTATATCCAAAGTTAATGATGATCTATCGAGATACCTAATTACTATATATAACAGGGGAGATTACGAGACTATAGCTAAGATAGTATCAATGCTTAGACCTAAAATGGACGAAACTATAGATTTTTTGGATAAATATATAAAAAATCTTTTTAAAGTAGAAGGAGAAATTAAAGGTGAAAGTTATGGATCTACCTAAACAGATTGAATTAATTTTCAGAGAGAATTCTCCTTTAGCTACAAAATTATCTGAAGAAATCACTAAATTAGCTCCCAAAGTTACAGAAAAAACCGGATTAGAAAAAATAAAGGTTATGAATTTCTGCGGCTCTCACGAATGGACTACTACACATTACGGATTAAGATCTTTGATGCCAAGAGAGGTAGAATTAATTCCTGGTCCAGGTTGTCCAGTCTGTGTTACTCCATCAAGTGATATTGAAAATGTAATAAAATTAGCAATGGATGGCTATAGAGTTTACACTTTTGGCGACGTATTTAAATTACCTACAGTAAATCATTATAAGAAAGATCAAATAGGTAGCCTAGCTATGGCTAAAGCTGCTGGTGCAGACGTTAGAATTGCGTATAGTTTTGTTGATGCTATAGAAGATGCTAAAAAAGACAATAAACCGTCAGTATTCTTTGGAGTAGGTTTTGAAACTACTATTCCTAGCTACGCAGTTCTATTTGCTAAAGAAAAAATACCTAAGAACGTAATGTTTTACTCTGCTACAAAATTAACAGCTCCTGCAGCTGAATATGCAGTAAAAATACATAAGGCAAGCAAGAGAAGTCCTGTCTCTGGAGTTATAGGTCCTGGTCACGTTTCGACAATTATAGGAGCAATAGGTTGGGATTTCTTTCCAAAAGAATATAAGATACCTGCAGTAGTAACAGGATTTGAACCAATAGATGTATTAACTGGAATTTTAACAATTCTAAAAGATCTTTATACTGGTGACATAAAATATACTAACCTAGAATATAAAAGAGTTGTGAAACCAGAAGGAAATCTTTATGCTCAAGAAGAAATTAGGGAAGTATTTGACGTTGTTGACGCAATATGGAGAGGAATAGGTGCGATTCCTAAGAGTGGATTGGATTTGAATGAGAAATATTCAGAGTACAATGCTAGACTTCAATTAGGATTGAAAGAAAAACCATGGGATTACGATCTTCCTCCTGGATGCAAATGTAATGAAGTCACATTAGGCACTGCATATCCAGACGAATGTCCATTATTTATGAAGGCATGTACTCCTGCTAGACCTTGGGGACCTTGTATGGTATCAATGGAAGGAGCATGTGCGGTATGGGCAAGATTTGGATCTTCCCAGAAAGTTTTGGATGCATTAAAAGAGGTGAAATAGCATGTGTTGGGCAGTTCCAGCTAAAGTTATTTCAATAGATTCTGACGTTATGGCAACTGTAGATTTAGGAGGAAATACATTAAAGAAGGTTGCTATAGGAGTAGACAATCTAAACAAAGGAGATTACGTAATGGTTCACGCTGGTGTGATAATAGCTAAGTTAAGTAAAGAAGAGGTCATAGAAAATATAAAATTTATAGCAGAACAAATTAAAGAAACTGCAGAAATAGAAGGAGATAATCCGGATGAGGCAGTAAAATCTTTCATGGATTCTGTTTCGGGTATTCTAAAAGACGTTGGAAGTGAGAGTTAATGGACAGAATTTTAATATCTCATGGTAATGGCGGTAAAGATACACAGAACATTTTACAAAAATACATATTTTCAAAATTACCTGAAGATTTGAAAAAAACTAACAATGGTTTAGGTTTGGATTACCCAGATGACGGTGCAGTAATTAGTTCTGGAGATAAAATTATAGTTTCCACTGATTCCCATACAATAGATCCTTATTTCTTTCCTGGAGGAAGCATAGGAAAACTAGCAGTTTCTGGGACTATAAACGACGTTATAATGATGGGAGGAAAACCTATAGCAATATTAGATTCTATAATAGTAGCAGAAGGTTTTCCTTTAGACGATTTAGATAAAATAACTACTGATATGATATCCATACTGAAAGAGTTTAACATTTCATTAATAGGTGGAGATTTCAAAGTTATCCCTTCAGATTCTATGAAAGGAATTGCTATAAATACTGTAGGAATTGGAGTAAGTAAAAATCCTATAATAGACAGAGTAAGTGAGGGGGATTCCATAATAGTTACTGGGCCTATAGGAGTTCATGGTTCAGTAATAGCTGCATTACAATATGGTATTGAAACTCAGCTTAAAAGCGACGTTAAGCCATTAATGAAACTTCTGGAAATATTTGATAAATTTCAAGGAGATATTCACGCCGCTAGAGATCCTACTAGAGGAGGATTAGCAGCTACTTTGAACGAATGGGTTCAATTATCTGGCAAAATGATAAGTATAGATGAGAAAGATATACCAATTCCTGATGAGGTTAAATCTATAACAGAAGTAACGGGATTAGATCCTTTAGTTCTAGCTAACGAGGGCGTTGCAGTACTTTCAGTATCTTCAGATAAAGCAGAAAATATTGTTGAAGAGTTAAAAAAATTGGGCTTCGAGCCTAGCATCATAGGTAAGGTTATTGAGCCTAAAAATAAGGATAATAAAGGTTTAGTAATTATAAGGACAGAGGTAGGAGGAGCTAAAATTCTTGAAATGCCTTCTGGTGACATAGTACCAAGAATATGTTAGAGGCGATAAATATGAGTTCAATTTTAGATATAATTCAAGAAATACTAGCTCTTAAGGATACAATAAAAAACGAAATCCAGAAACCATTAAAACAAGAATTGCTAAGCCCATTATATGAAATAAAAACTACTAAAGAAGATATTAACTTAGACGAATTATTGAAAAAATATGACGCAAAAGACGTTGTTGACTTAGTAAATAAGATAAGAAAAAGTATGGTGAAATGATGAATATCGTAGTAGGCTTTATTCCTTTTTTCTCTACTCCAGATGGTCAAGTAGTCGAAGAAGTTTTTAACTTATGGAAAAATAAGAAGAACGTTATAGACCTTGAAACAGACCCAGTAGACGCTGCAGATCAAGTTAAACGATTGTCTGCAGATAAAGTTCTCCTAGTAGGAAGCAGTCGTTATGCGCCAGAAGGTATATCAGAAAAGGAATTCACTTTAGAGACTAACGATCCTTGGGAAATGATGGAGCTTATAAGACCCGGCCTAGATGGAAGATATTACGTTGAAGACATAGCTTACGGCGTTTTAATTTTCGGAGGATACAAGAAAGTTTACGCAATATACTACAAGGGAGAATACTCAGAAGAAAAAGTCAAAGAACTAAATAAGAAAGTAGAGGAAAAACTAGAATGGCTGTCAAAGTTATAGGCATGGGAAATAGGCTTTACGGAGACGATGCTATAGGATCTTTGACTGCAGAATGTATGAACGCTTTTGATGCAGAAGCTAATGGTTTCCAAGCTTTAACTTTCATAGAAAAAGGAGATATAGTGTTTTTTATTGACGCGGTTATAATGGAAGAGGAATTTAACTTATTCAAAGTAGATATAGAAAAGGATAACTTTGTAGAAATCTCAGATCCTCATAGACTTTCCCCAGTTCAAGTTATTTCACTCTCAAAAAAATCAGGTAATGTACCTAAAGAAGCTTACATTTTAGCTATTAAGCCTGAAAAATTGGATTGGCCTGGTGTATCAGATAAGGCTATTGAAAGAATCAAAGAATTGTTAACTAAATATCAAGATTTTTTGAAAAAATTTGGTATAGACGTAAATGTAGAGAATGTTGTTAATTGTCTAAAGGAGAGAAGTAATACTCCATGGTAAATATTTAATTAAATAAATTTTGTTTCCTAATATTAACTTAGAATCTAGCAATAGAGAATTAAAGAAAAATTTTTTATTTAAATTCATTAATTTTCATCTATGAACATTGAGGAAGAAGCATTAATTTGGGCATCAATAACTCTTGTATTAAGTATTTTACTAACATTTTTTGCAGGAAGACATTATTTTAAATCAAAGAATATAATGTGGCTCTTCTGGTTTTTAGGATTCGTTTTGTTTGTTGTAGCTGCAATTTGCCAAGAATTCTTTGCTTTCGGAATAGGGGGATATTTATTAAGTGCAATTTATGTTTTTTCAGTAGCTGAGTTAGTAGTAATTCTTTCATTAGGTTCAATACAACAAGCACCAAAGAATTGGATTAAGGTTTATTATTGGTACTCATTTTTCGTTACAATAGCTATAATTGGCTCTATCCTTCTTCAAAGATTTAACGTTCTTGAAAATTACCTTCCTATGAATTTTCCTCCAGTAGTCATGGGAACCTCGTCTATGGGAACAATTGTTGGCTCAGGCGTAATTCTATTTTTTGCTGCAAAAGCGTTACTTTTTAAAGGTAATAAAATAAAGATGTCTTCAGTAATTTTAGGTATAGTTATATTAGGGTTCGGAGGAACTTTAGTTTCAGGCGGATTTATAGAGGCACTATACATTTCAGAATTTATTGGGATGTCATTATTTTTATATGGAATCTCTTAATTACATACTATATTCAGGATTTTAATATTATTCTAAGTTCTTCTTCTAGCATTTTCCTTAAATCCTCAGTACACTGTTTTTTCCTTAGAGCGTTTTTAACTATCCTACTCGGAATAGTAATAGTTTTACCGGGAAAATCTCTTGTCTCACCATTAGAAATTATAAAAACTCCTCCAACTGGATATTTTAATCCTTCTAATTCCTGCTCTTTTGTAGACACTACGTCCACTATATTTTCTATAGATGAATTTTTCAAAATTTCTCCATTAGTCAATTTCACATCCCCAAGAAATACCTTACCGTGAGATATTAGCACAATATCAATATTTCTGAATTTTCCTAAGCCTTTTACTCTTTTTGCTGTATCATAAATTTTATCAACTTCCAAATTTTCCTTGGATTTCCTTATACATTCCCTAATGATATCTTCTAATTCTTTAGATTTTTCTTGAATATCTTTTATTTCTCCTAAATTTTTAGCGTTATTTTTAACGCATTCCAAATCATGTTTGCATTCATATTCTAATTCTTGATATAGAGTTTTAGCTTGAATTATAAGTTGAGCTATTGTCATACCATGATCGTAAACTTCTTGAGCAATATTTTCTCCTATATCTTTACACATCTGAGAGAGAATTTCTTTAGCGTCGTCAAGTGTGAGTTGTTCTAATATGATAGAATTTTCCCTTATTCTTCTTATTGTCGCTTCATCTTTAATTGAGGAAAGAACTCCTGAAGGTGAGGCAACAGCCAAAAAAGATGAACCAGAATTTATTATTTTATGAATATAAGGATAATAATGTTCTGCTCTGGCTTCATCCAGTAGGAGAACAGATTTTAATCCTATTTTCTTCATATCATCAAGAAATGTTATTAATCCGTCCAAACCCTCATATGTCTTACAATCGGGAAAATTTAATGAATATATCCTAACGAAAGGATTATCAACTCTTTTCTTGCATTGAGATTTAATCCATGTATAGAAATCCTTTTTTAGCCAAGTTAACTTTCCGTATCCAATTTCCTTTCTTCTATTAAAAATCTCATTAGATAAATTATTTATAATTCTTGAATTTTTGGCAAAAGACCAAAATTCATCAACGAAGGGTGTGTCTGAAGATAAATCCATATAAATTGGAAGATATCCAGAAGAACTTAGATCTTTACTTAAGTTAAGAAGAATGGTAGTTTTACCCATTCCTGGATCTCCGAAGATGAAAACTTTTCCATTTTGCAAGAGTCTATTTTTTATATCAGTGTAATATTTTTTATATTTAGATCCAAATATTTCTCTATTGTTGCTAGACCAAGTAGTTACGGTATCTGAGGGAAAATTACAAGACATAAAAGTCACCTTTTTATTATTCCAAAAATTGTTCCGTTCTTGACTATTCCTTCATCTCCACCTCTAAACATTTGATAGTGCAATTCAATGTAAGAAGAATATTTAGAGTAAAATTCTTCCTTTGATAAACCCATTCTCTCCCTTATGTCTTTCAAAACTGCAATACCCATAGGATTCTTAACTTCCTCAAATATCTTATCAAAATCTATGTTTGAAAATCCCAATTTCTGAAGAATTATATCTAATTTTTTATTTATTTCGTTTAATATTGTTATAATATCTCCATTTTCTTTAGTTTCTTTTTTCACTTCTTTATTTAATGACGATTCTTCCGTTCTAGCTTCATTATCTAATAGTTCTATAGTATAACCATTTCCCTTTTTTGTAATTTTTATCTTACCTTCATTTTCTAGGTCATCTAATACATCAGAGGCCCATTTTACTTTTGATTTAGCTATGCTACCGCCATGATTTCGTAGATATTCAATGAGTTTACTCTTCTTGTTTTCCATAATAATAAGTATTACATCAGAGTTTTTTTATTTTAATGGTGGTAAATCACTAGTCTTTTTGAAAAATTTATAGGTAGTATTATCAAATTGAATTATACGAGATTTAGTTAAAGCTTACAAGAATGGGAATAACGTATTAAAGAGAGAATTATTGCAGTTAAGCAGCACATAGCTAACGGGAGAGATAGAAGTTGCATGAGTCCTGAACAAAAGTATATTCAGCACTAATGCCTTTACGTTCTGGAAGGGCGAAAGTTACCTCCCAGAGGGCTCATCATTCCCCTCATCGATTCGTTAGTATTTTGGAAAAGTTCTTGGACTATGATTTAGTGGTATATCCTTAGATTAGGGCTATAAACTTTTGAAAGTACTAACAAAGCACTCAGTCCGTCTTTAATTCTACTCACAAGTTAGGAGTATTTTTAATCATACAATCCTATAAGAGAATATGATTAGACTGGTAGCTATCTACGGTAGTCTTGAAAGGGATATTGACGTTTTAATAGTTGTAGATAAGTTAGACGAGTTGTTTAACGTATTTGAATCTATTTTACCTTTAAAACCATTAGATCTTCACATCCTAACTACAGAAACATTTAATTACTTAATTCACGAAGATCCATTTTACGTAAATGTCGTAGTCAACGGAAAGATACTTGTAAAAAATATGAAAATAAACGTAAACGAGCTTAAACAAGAGGCTATTAAGAAAGCAAAAGAATTAGTCGAAAAATTTTGCGAGGAGGACACTTATAAATCCTTTATGTCCTTAGTTTACTATTACCTTATATCGTTGGGCATCTTTCCTAAGGATGTCTACGAAGCATCTAAAATTTTAGGGTATAAAAATATTAAATATGCACAAATATCTAAAGAGGCATTATGTAGTAAGTTCTCTGCAGGAAAAAATTTCAGCTCCACATCCACAAAGATAAATTGATGAATATTTTCCTTTTCTCTTTCTTAATTGAATTAATAGATTCTTAGCTCCTAGAATAGCCGATGTTATTTCCTTCGGTATTACTAAGTAAAAACTTCTTTCTTTCTCATTATTATTCTCATTAAATCTTAATAATTCAATCAATTTCTTATGTTTATCATTCTTAGGATCAGCAATTAGCGGAATATAACCGTCTATTTTACCAATAATTTCTTCACATATCGAGTTATTATCCTTAATTTCGTTTATATTTTTTAATTCTACAACTCCTATTTTATTATCATTTATAAATATAAAATCTCCATGTTTTAACCTCGATTTTACTTTCAACTCTCCTTTTTCGATATCAATTATCGCGTTAGCATTATCTATTTTTAAGCAACATTTATTTTCACATATTTCTACGAATCTGCTGCTCATCTAATAATCTCCCAATAATTGATATAATTTTATAACCGACTTCGCTTATGGTAGGAATATTTTCAAGTAAATCCACTCCTTTCTTTTCAGTAACCTTTCCGTCTTTAACCAGGTAAATTCTTATATTCACGCTCTTCTCGTGAGGTACTTTAGCCTCTTCCTCGAAAACGTTACTCCAGCCAAAATATTGAAGCGCTGAAAGAATGAGAAGTATAACATCACTATGAGTGGTTATTACAACTTGATGCTTTTGGGCAAGACCGTAAAGATAAAGTGCAACTTTTATCTGTTGTTCTATATTAAGTTGAGATTCTGGCTCTTCAATTAAAATTAAACTCTTCTTTCCGTCAGCTACCATTAATTTAATTACTGCTAGGTCATTAAGACTAGATGAGGATTTTTCTGGAGTGTACTCATCTATTAAGATTTTATCTTTTTCACTTTTTTTAATATTTACGTCTATAAAGGATAGAAACGAATCCTCTGCCTTACTCTCTAACCCTTTCATTAACCAATAGTATAAACTTCTGATACTGGGATTGAATGAAGTAACATCATTTAAAGTAAGCAAAGCTAATGCCCTTCCGTAGGCTGCATACTTTACTAGAGGTATATTTAAAGTCTTTGCTGATAAGTTTAGGATTTTTGTAAACAATTTAATAGAGTAATTAGTCAGAGATGAAATAAGTTCTGAAGCCAATATAGTTTGGCAAGTTCTATCTTCTTTTTTTGCGGAAACCCTAATATTTATCTTACCAGTCTGAAAAGATATTTTTATTACATTAACGCAACTAGTGGAATACGGATAATAAGTTTCTTCATTCAAAGTTTGGTCTCTTAAAATCTCTTTTACGATATCTTCCATTTTGAGAGGAATATCTACTTCAGCGTTACTAGTTAAGTAACTTAAATAATATTGTGATAGAGTTTTAATAGAAATCAAAAACTCTTTCTCAACGTCTAGAGTAAGAGTTTCTCCCTTTTCTTCACTTGCAAAGGATATCAACTTATCTTGAAGTTGACGTACAAAGATTTTTGACAATTCTAGATTATTGGCCTCGTCAAAAAAGGCCAACTTAGAATAAATAGCCTTAAGGATGTAAGACTTGCCTGCCTTTGGAGGTCCAAATAACACCGTTAGATCAGAAATCGCAACCTTAGAATCAGTTATAGGACCTAAACTTTTTATTAACAGTTCCATTACAAGAATTATTAAAAATCTAAGTAATATTTTTAATGACTTATTCATGGACAATTAAGGCTCCATTATGAATTGGAATAATTAGCATTTATCGGGGAAATATTCAATTAAATTATCGCGTAAACAAAACTGTATTATGTGTAGCAGTTTACGTATTTCCCTCATCGTTTAAATAACTTTTTGATTCCTCCACCTCTTTGATAAATTCTTTTTATCAACCTAGAGAGCCTCTTAGCTCCTAGGTTCAAACCTAAGGAATACTTGAAGAAAAAGATGAAAAAGAAAGAAAAGGTCTTCAAGGTCACAAATTAGAATTTATTGAAAAAATTAAGTAAGTGTATTTCCTCAACACTTAACGGTAATTAATCCGAACGTTTCAAATGAAATTATTGACCTACTCATTTCATGAACTAAGAAAATTCTTAAATCCTAAAATATCTTTTCTAAACATACATGAGCTTTGTTAAAATTGACGTTAATTCACTTAACTCTTATCAACCATTAATGGTCATTTCTCCTACAGGATCCGGAAAGACATCTTCCATTATAAAGTATGCATTAAAGCAGAACGTTTATAGCAGAGTAGTCTTTGCTTTACCTACTAAAGCTGCAATTAGAGAGATCTTTAATAAAATTAAAATGTACACTGAAGATGTAGGAAGAGACGATAGTGATGCTAGGTTAGAAGAGAATTTTAATTCTTCAGAAGTTTGGAAGAGGAGAATTGTAGTAACTAGTTATGAAAGACTCTTATCAGAATTAATTTCAGATCAGGATAATTTTATGAATAATCTCATAGTTATTGATGAAGCACATTTACTTTTGAGTGAAGGGAGAAATTGTACTCTCCAAGAGATCCTAGCTTATTATACCTATTTAAAGGAAAAAATGAGAATTAATGTAGTTCTTTTGAGTGCTACAATGCCTGAAGTTGATGAACTCTCACAATATTTAGGAGCTAAAGTTATATGCATGAAGGAAAGACCAGTAGATCTTGAAATAAGAAGAATTAGACTTAAGAAACAAGGTAGGGAGAATTACTATTTAAGCAAGGCACATGCGTTCATTGATTACGTTAAAGAAGGAAATTTAGATTTAAATAAATATAAACAAATTCTAGTTTATACAAATACTAGGAAATCTGCAGAAGAAATAAGTCTTCTTCTTGAGAAATATTTAGGTTTTCCTTCTACTTATCATCATGCAGGTTTGCCTTTGGAAAGGAGAAAAGAAATAGAAAACGATATGAGAAGTGAAAATAATAAGTATAAAATAATAGTTTCAACAGATACTCTAGCAGTAAGTATAAACACTAATGTTGACGTAGTAGTAATGTTAGCTTTAAAGAGATTTGCAGGAACAAAAACTTTTGTTGAACCTTCTACAATAAGTCAAGTAATTGGAAGGGCGGGAAGACCAGGATATTCTGAAAAAGGTTTAGCTATAATATTTGAAGAGAACGACGAAGCAAAAGTTGTGGATAAGGCATTAAAGAAAGATTACGGTAGAGTAGATGAACCAATAGATTACGCTCAAACAGTATTGAGATGGATATATACTAGGAAAGATCCTTATTTACTTTCAAAATACGGATTTAGGTATAGTCAAGGAAAAGTTAAAGATGCTATGGTTTTTCTTGAAAATATAGGAGCTATAGAAAATCATGAAGTTACATTGATTGGTAAGATATTTGCTACGGAAATGGTATCTAAAATAGGAATGAATTTACTTAAGATTATCATGAAATTTGATAAAAAAATGGAAAAGGAAAATCCTCTTTCAAGATCAATACTTTACTCTTTTTCTTATTCTTTCATTGTTGATGGATATTATAATAAAAGAGTAAACTTAGAAATTTTAAGGGAAAGATCTCCAATAATTTTAAGTTATCTAGGCAGAATAAAAGGAAAATTAAACGATTATTCCTTCCAAAGAATAGGAATAAAAGTAGAACCAGAAGAATGGTTTTATTACGCATTAACTACGCCTCAAAAAATTTTTACTGACGATATAGCCGAGAGTTTAAGGAAATCGTCTGAAATAATTTCTAGATTAGCCGAAAATTCTCTAATAGATAGAAAACTAGTAGAACCCTCGAATTTTATAATGAGGCTAATGCGGTCTTATAGGCGTTTAATAAGAAATAAAGGAGACGTAAACGAATTTTTGTATTTTGCTCTTTCTAATTATAAAAAACTATCAAACGATGAATTCTTAGATAGAATATGGATAAGTAGTAAAGGAATATGATTCAGTTTATTAATTTTTGAGAATCTATTTCCCATAAATATAAAGTATACCCTAGATTTGCCGTTCCATTTATATCGTTAAATTCCATTCCTACTTGGATTCCATCAAGATAGTATTCACAGCTAGTAATATTGTTAAAGATTTTTCTTATCCACGAAAATTCATTCTTAATAATAAAAGATAATGGAATACTTACATTCCCTTCTAATTCTTTTTGAGAAACATAGTAAACTCCTATCCATCCATCTGCAGATCCAGTATGAGGTAAAATATAGACGTTAAAGTTATCAATAATCTTCGTTCCGTTAACTATTAATGTTAATGGAATATTCCCAACTCTAATGAAGGGAGACGTTAAATTCTCCTCGTGGTAAAGCCATATCATTAGTTCTATGTCAGGATATTCTAGGTATGTGGTATTTGGATTTTGAGATAACCATATGTCGTAAGAGAAGTCATCAATAATTCCTATATTATTATATAGATGAAAACTCAGTGTTGATGAGAAATTAGATAATGAACTCACTCCTATAGGTAAATAAATGCTATTTTCAATTGTTTTTCCAGCAAAAGGAAACCAGCACTCCTGACCATACATTAATCCAGGATATCCATCAACTCCTATTTTAGGATTTATTTTCTCAAAACTATTTAATGCAACATTAACGTAAAGAAACTTGTTATAAGTCATATTTACTAAACCTTTAGCGTATTTCATATTCCATAAGAAAGGAGAAATGAAAACAGAAGAATTTGAATAATAAATTTCACCGATGGAATACGCTGAATCACTTTGATATTTACCTATAATGCTCATAGAATATATCTTAGAAAAATTATCTTGAGCAATGGATTGAGCAGTCCTAGAAATTTCATAAAAAATAGGAAAACTAAGAATTATTAATATAATAATTAATGTGCCGAATATTTTCCTCATAATATAATGTCCGTAATAATGTCTATTTAAAGTTTTCTTTAAATAATACGTTGTGGATCGCTTCAGAATTATACAAAAATTTTTAAGTAATTATGCAGAGTATTACCCATGGAAAAGAAGAACACTAGGGATTGGAGCAAGTACGATGAGAACGTGGTAACTAGATACAAGCTAATGTTCCCCTTCTACGTCTTCGAACACCTGTGGGAATTACTCCAGGAAGAGAACAGGTATGCTAAGACCAAGTACAAGGCACCAAAGGAGTTCAACGACTAGCATTCCTACACTTGTTCTTACCTTACAGAGTAGAAGGAGTATTAAGTGCTAGTTGAAATGAAGATAATACCGACAAGCCTAGATTAACAATATGGGAAAGGGTAAGAAACATGAATATTAATTTCCCTGAAGCGAGTGACGAACTTGAAGTAGCTGATGGTACTGGAATAAGCACAACAAGGGGAGGACAATAGTAGCAAAGTGGGGCAAAAGGAGGGATTCAAAATTCATTAAGATTGAAGTAGTTATGGAGAAGGACGAGTTCAAGATAGTAAGCGCTGAGGTGACGAGTAATGAGGCCGAATCTGCTTCAAAGTAAAGGACTTGAAGGAAAAGGGTAAGGAAGTTAAGAGGTTCTAGGTAAGGCTTATGATACTAACGAGATTTATAATCTTGGTGTTGTTGTTCCTCCTAGGAAGAACGCTTTAGGCGTGGTCATCCTGCTAGGCGTAAGGCTGTGCGCGAGTTCAAGAAGTTGGGTTATGAACGTTGGCGGGATGAGAAGGGTTAGTTAAGGTGGTTGGTTGAGTCCTTGTTCTCAGCGGTTAAGCATTTGGTGAGTCTGTTAGGGCTACGAGTTTTGCTGGTCAAGTTGTTGAGGCTAAGCTAGTTTGGCTTATGCTTGGATGATGTACATGGCCAACCTTGTTGTTGGTCGAGCTAAGGGCTTTGAGGTCAAGAAGTAGTATAGTAAATTATTTAGGAGAGATATTATTTTCTATAGAAAACATATTTTTACTGTATCATCCTATTGAAATATATTGAACGAACCCACAAAGCAATGTATATAAAAGTATTTTTAAGCACTATTCTCATTCTAGTGCAGATTAATGTATCATTTACCTTCCTTTTCCTTATTTTTCCTTGTTCTTTGATAGGTATTATTATAATATCAATCTCATAATACTAACAATATTAAAGATAATATCTTTTTAAATTTATATAATTTTAATGAAAGTGGTAAATAGGATAAAATCTCCAAAATACTTTTAACTTACAATTATAAGGAAATTATCATGGTAAGAATAAAGAAAAGCGATGGAACTTACGAAGATTTCAACGAAAATAAGTTATATAATTCTATTATAGCCTCTGGAGCTTCTCCAGAGATAGCACATGACATAGTAGAAGAAGTGAAGAAAAAATTGAAGGAAGGAATGTCAACAGACGAAATTAGAAGAGTTGTTCTAACTAAATTGAAAGATCTTGATCCTAATGCTACAGAAGCGTGGAAATTCTATGATAGAGTAGCTAAGGGAAGAATAACTTTTGAAGATGGTAAAGCAATAGTAGTAGATAAGGGGCACTTATACTTAGGTAAGAAGGTTAAGGAAGTAAATGGAAAAGGACTTTCCTCTTCCGAAGAGGTTAAAGATATTATAGAAGAGCTAAAGGACGATTTAGACTATGGTATAAGCAGAGCTACGATAAACGCTAGATTATATGCTCTATTTATGGCGGTTTTAAAAACTACTCATATGCAAAAGGACGAAAAAGAAAAATCTATACAATTAATAAATAATTTTAGAGAAGAATTAGGATGGAAACCTTATGAACTTAAGTATCCATTAACATAAATACCTTAAACCAAAGATTTCTATGCTAACCTAATTTTATCCCTTAAAAAAATTGTTAATGAATATCTTATTTTCTTATGTTTATAATTACGTTTATTTAAAAATTAAACTTACTTGAAATATATATTACTGAAATATTAAGCTATTCAAGTTCTATTGTTAATTGCGATATCCTAGATTTTAATTAAGTTAATTTGATAGAATAACTTCCAGTGTATAGAAAGTCTAAAATTAGTAAATATAATTTAATTAGAAAATATTTAATATTAAATTCATAAACCAACATATTTATGCTATTAAAATACTATATGAGACGTTTATTATCTAAGAATATAATAGAGAAAGAAGATTTTAATTACTAAATACGGTTATTTAAATGTGCAAGAACTTCCTAAACCGTGGTTCAATCTAGAAGCTTATAAGAAAACCAGACTTGAAGAGGCTAAATTTGAGGCTAATTTAGCTGAAGAATTTGTTAAAGAAGGACTCTTGAGAAATGCTGCAGGTAAGGCTTTTCAAGCGTGGAAAGCGTTATTGGGAGCCTTATTAACTGACAAAAGAGAAGATTTAATCAAAAAATATTCTGGTAAAAAGAGACTAAAAGGAAGAAAAGAAGTAGCATACGCTGATTGGTTAATAGCTATAGTTCCTACTTCTTATATGGAGGAATTATCATTAATGCTAGGTCGCGATATAAATTTGGTAAACAAGTTAGCTTTAGCAATTCATGAATATCAATATAATGGTACCGATAAGGATGCAATACTTAGCCCATTTAGAAATGATGATATAGCGAAAGAAAACATACTTAACCTAATAGGTGAAATTAAGTCAATACTCGGAAAAATAGAGGAGAAGATTTAGTTTTATTAAACACGTTATAATTAGTGCGAATTTATTTTAAATATAAATTTTAAAGTTAATTCTAAAAAACTTTTTGTTAATACTAATATTCCGGCAATCAGAAGTAAAATGAACGATATACCGAAAAATCCAAATAGATTGTCCACGAAAATCCTTGCAATTCTACGCTACCTTAAAAAGTTTAAAAATTATCTTAACAAGAACGAAGATATTATGACAATAAAGAATATCTCTTAGATACAGATAATATTCAATCATGGAAAAATAACTAACAAAGCTTTCACAATAGACATATCACAAAGCAAATTAACACAATAAGGAGAACTAACAAAACAAGGAAAATCTATATCAATAAAAGAAGTGAAAGAATTCTTCAACAACGAATAGAATAACTAGTAAAATTCCTTGGAGATTACAAGGGATAATGGAGGCAACTAGTTCATACTTCTACTATATGAAAAACGCAAAAAGGATATACAACCACCGAGTCTAATGAATTTGAACTTTAGGATAGTAATTTATAATCTTTATACTTTCTCTATATAAGGATTTTTAAAAAATATTTAAAAATATGTTTAAAAAAATATTTATATTAGGAATTTCAATATGAAAAACGAAGTTTCAATAGAACAAATTTCAATAATAGTAAGAGAAATTTTAGGTAAAGAGGAATTAATAAAGCTGTTACCAAGAATAGATCCTACTACTCTCACTATAAATACAAACTCACCAGAAGCCGATGGTGGCTAAAATTATGATTTATATAGTTGATGCCGATAGTCTAAGAAGTAATTCTATTCCTAATGATTTCAAATTGATAGCTATAAATATAGAAAATTTCATAAACTATAGTAATGAAATGGAAGAATTACTAAAAAATAATAGAATATTTAAGTTATATATATTGTTTGATGATAATAATATTATTAATTTTAATACTTATGATAATTTATCAAAATTAAAAGATACATTAATTAAAATTTCAAAAATAAAAACTTTAAGTGGATTTAAAAATGAATTTGTTTTTATAATTTCGCAGAAATATGATATTGAAGTCATTAGAAGAATATTGTTCTTATCGGAATTTAGATTATATAATTTCGCTATTTTTGTAATTAATCTGAAATCAATAAAACAATATGATCTAGAAATGCTCCTAACTTCAGATATAATAAACAATAATCTATCCGAAGTTGTACTAGTAGACGACAAGACATTTTGGCCAGGCAGATATTTCAGGTTTATGAAACAAATATCTAACGAGGAATATCTTTTCTATAAGAATCCATTTTATGCTGAATTTAAGGGTAGACTCTCAGATATAATTTCATTAGAAACTCTTAAAAAAGTTTATCAATATTATGATTCAGTAGGACTTATTGATAGTTTTAGATATTGGAACTTTAAGGGAATAGTAATAGAACTTACCTACAAATGTAATTTCTCTTGTGATCATTGCTATGTAAGTTCGTCTCCGCAAAGAAGTGAGATATTAGAACTTAATAAAATTTATAAAATTCTAGAAGAAGCCTTAAACTTACCATTTATAGATAAGAAAGTTCATATAGCTGGAGGAGAAGTAACATTATTTTGGAATAAATTAGTAGAGTTAATTAAGTTTTCAAAGTCTTTGGGATATATTGTAACATTGGTAACCAATGGAAGCTGGGCTCTAAATGAAAGTAGAGTTAGGGAATTAAAAGAATTGAAAGTCGATGAGATCGAGTTAAGCCTTACACCATATCATTTAAAATTCTGGAATAGCAAAGATAATATTTTAAAAATATTATATAACTTAAAGAAATATAATCTAAATTTTTTCATTAGATATCTTACGAGTAAATCAAATAATATAAATGATTTATATAAACTTCTAGGGAATGAGCTTTTAGGAATATCTGTAATTTCTTCTCCAGTATTAAGATTAGGAAACGCCTTATCAAAACTTCCAGCCAATGAGTTTTACGGCAATGATAAACTGCCTATTGGAGCTTGTTTTGACTCCTTAAATTTAAGTATAACTCCTAATGGAGTATATCCTTGTTGTAATGGCTCTGAGATCACCAAATATGGCAGACTAGGTTCTCTAGACGAATCCTTAAAAAACATTCTGAATAGAAACTATTTCTTGAGACTGCTTACATTAATAGGGCCTTCGAGGTTATTAAAAGAATTGAAACTGGATTATAAATATAGAAACAAAGAATATACTAGCATTTGTGAATTATGTAATGAAATATTAAATAATGACGAAGTTTATAATAAATCATTAGAGTTAATTAAAGGAAGATTGAGGTGATTTAAAATAATTGAAGTTAACCACGTTTTTAAGTCCTTTGATGGTAACGTAGTTAACGAAGATATGAATTTCAGATTTAATCGAGGAATCTTAGTTATTCTAGGGCCTAACGGTGCAGGTAAAACTACATTATTAAGGCAAATTTATGATGACCTGAAGCCAGATAGAGGAGAAATCCTTATAGATGGCTTTAAACCTAGCGATAAAAGGGCTAAGAGGCTTTTAGGGATAATGCCTCAAAACGCGGAGCCGATTTTTAACCTCACGGTATATGACCACATTAAGTTCTTTGCAAAAATAAGAGGAATTAAAGATGTTGATAGAACGACTAAGGAGATAGTCAAACTTTTCGATCTCGATCCTAGGAAGAGGGTTAACGGTTTATCTGGAGGACAGAAGAGGAGAGTAATGTTAGCATCCGTTCTAGCCCTAAACCCAAAATACTTGATCCTGGACGAGCCCACTGTAGGGCTAGATCTAGAATCAAGACACATAACTCACGATATATTTAGGGAGTTGGCTAGTGAAGGGAAAGGCATAATCTTCACCACGCATTATCTGGAGGAGGCTGAAAAACTGGCGGAGAGAGTGATTCTTTTCAGCAGAAAGGTTCTCTTTGACGGTTCAAAGGAAGAGCTTATGAGGAAAGTATTTAGTGAAGATATTTACGTAGTTAAAGTAGGGGATAAAGAGCTCTTCATAAAGAAGGAGGAGATAAGCAAGTATATTTGCTTTAATGATATAGAGATAAGGAGGCCTACGTTAGAGGAGTTATATCATGAGTTTCTCAGAAAGAGCAACTGAATTTAAAACACTAATAGAACTCTTCCTTAAAAGGAACGGAAGGGTTAGGAATGTAATTAACATGCTCTTTAGTGACGTGATATACCCCTTAGGCCTTTACTTCAGTATTTCAAAGCTCATTTCACCTAATGAGCTAAGCTACTTTTTATCGGGTCTTTTAGTTCTCTTCACTACGACATATATTATGAATTTCGTTTCCGCTTGGCTTGGAATGGATAAGGCATATCAATACTATCCTATAATACGTTCTTTAGGGCCTTCAATACTGGAATATAGCTTGGCTTTGATAGTCGTGATATTAATCACTTCAATGCCCGGTGTAATAGTAGTAGCTTTGATCATATTTAAGACTATATCCTTACTTTTACCAGCTCTTCTCGTAGTTTTGACCTCTGCACTTGTGTCTGGATTTATTTCAGCCTTTCTTGTTATAACAATTAACGAGTACACAGTAACTACTGTGTTTACCGGTATATTCTCCTACGTAATTTCTGTCTTCCCGCCAATATTTTATCCATCATCACTACTTCCCTCACCTTGGAATTTAGTTCTTAACTACATTTATACTGCTAAGGCTGCAGATTCTTTAAGAGCATTATTACAAGGTGACTTAGTAGCGTTCTTCTCTTCTTACTATGTTCTGTTAATATATCTATTAGTGTTAATTTTAGCCTTCGTTACATATCTAAATAACAGAAATTATAGATTATAAAATTAGTTTTTAATAAAAAATTATCTTTTTGTTAATGCCAATATTCCAGCAATCAAGAGTAAAATAAACGATATACCGAAAAATCCGAACATAATCGGTAATGAAAATAGGGCTGCCAAAATTAATAATATTCCAGCAATTAGTCTACTGCAATTATTAACAATAATGAACCGATTATACCTAAAACTTGATAAGTTTCCATTTTTTATCCCTCTACTATTATTTTACCATACATTCCCATCTGTGCATGACCTGGGTAAGTGCATATGTACCAATATGTTCCTTCTTGATTTAGAGTAAAAGAATATCCGTATTCATAAGCATAACCAGCTGAATAATTTGCATAATGTAACAACGGCATCATAGTAATGAATCTTCCAGACGTGCCGGACCCCATCATTCCAGGTCCCATATTTGACATCATGACATTATAAGGGTACGGAGGAGGAACGTTAGTTACTACAAAATTATGAAGCATATTATCGTCCAAGTTTATAACAGTTACGTGAATTGAAGCTCCTGCAGGTATTACTAAAGTAGGATTAATTAAACCGAAAATTACGAAAACATCATGATGAGCATACGAAGGAGGAAATTTTCCAGTAAGATTCTCTGCTCTTATATGTCCCATAGTATATACTACCAAATTAATATTGCTAGAAGTAAAAACTATGGTGTTATTAGAAATACGAGCATAAGACGGAATATCATGAATCTCATTATCTGCATTATTTATGCTAATTTGAGCGTAACCATTAACCACGTTCCTATTATAGATCAAGGATCCTGCAAAATAATATGCTACAAGAAAACCTACAATAATTAAAATAACAATAATATACGCTTTTTTCATATTTTCCTACTATATTTTCAGCATCTTCTTTTATAAACTTTTCTTGTTTTTAATAAAATCTATATATAATATCTTAGAAATTCAATACAATCATTTTTACTAAATCATGTAAATTATCCATATTTTTTAAGTTAAACATAGAGATAGTATTTTTCATAAATTACGACCTTAAATAATTTGAAAAAGTTATATACTTGTTCTTACATAATATAAATAATGGAACCAAAACCACAACTACCAGCTTCAAATCTGAGTGCTCCTGAAGGTTCTGTAGTAGTTGTTGTAGATGTCATGTTAAGATGTAAATTAGATAATGAGGTTATGCCTGCATCTGTCGCTCTTGAACATCAACAAATGCATATTAAGAAAGGAGAAGAACCATGCTTTATTGTAGAAAGCTCGCCAATACAGCCTAAAAAACCAGAAGGTTCAGGATTCATATAGAGAAGTTAATTCTTTTATTTTTTCCATTAATATTCCTCTATAGTTTTGTATATTTCCTATATAATTTTCAATATTGGGATCTATTGGCATTTCTACGAATTTTATATTATATTTCTCAGATAAAGACTTTACATTCTCTATTTCACCAAAAGGATGGACTATTTTTCCGCAGTCAAAATAAGACATGTTTACAGCAAGTAATGGTTTATTATTTCTTTCACTAAGATATTTAACTAAATATTCTACTACCTTTACAGAAACTTTTGAAGGTGTAGTTACTACTATTGGATAATATTTAGTTAACCTTTCTAATACTAATACTTCGTCTCCTAAGCCAGGCGGTAAATCGAAAATTATTCTCTTAGTGTTTTTCATGTTTGTATAGGCAATCAGAGATTCCATTACTTCTTCGTTATTTCCTCCAGGTAAAAGAACGTAATTATCCTTAACTATTCCACCCAAGCTAACTATACCTAAAGAATTTGCTTTAAATGGTTCTATTCCGTCTTTCCCTACATCGTGCAGTTTTCCTTCAAATCCAAACAATTTGGTGGTAGCCATTGTATGAATATCCATGTCTATAAGGATAGTATTTTCCACATTAGAAAACGATAAAGCCAAAAGTGACGATATTATACTTTTTCCTACACCACCTTTAGCGCTCATTACAGCAATTACTTTTTTCCCATCTAATTTTTCTTTAGCTAACTGCCTCAGTGGTTCCACTTTCTTTCACCTCTATTCCATCTATTGTGATATCTTGAGTTTGTGTAATTATATCATGAGAACCGCATTTTGGACACTTAAGAAATGATGGGGCTAATGCAGGCATGAGATGTAATGGATATTCCTCTCCAAATTCCGATCTTACAGAATCAAGCTGGTCTTTAACGTCAGAGGAAGTGAAAGTAAATCCACAGTTTCTGCACTTAAAAGTAGGTTCCTTAAACTCTACGTCTAATTCTGCATTATCTAAAACTGAATCCTTCTTCATTGTATCAAAAGCTTCCTTTAATATCTCTAAATCTAAAAAAGAATAAGAAGGAATTCCAACCTTCACTTTAACAATTTCCTTTACGTGGTTCTCACTAGCCCAATTTATGACAGTCCTAATAATTGCGTCTGCTACGGACCATTCATGCATAATACTAATATAAAATTTATAATTAAAAATCTTGTTAGGGGAATCATGAAGTGATAATAGTTTTTAAAGATTTTACAGTATCACTGGTTAGTCAGAAATTTTTAATAGTTTCGTAATTATGGTCTATAAAATCCTTCAACTCCACGTGGTCTTCTTCTATATTTTTCAACATTTCCTCAAAGGATATATTTCCATTTTTAGAGTATTCTGTAATTAATTCTGATATAACTGAAGACAATTTTGTCTTGTCCACTTTTATCTTTTTTGTTTTAATCTCTTCTATTAACTGATTAACAAAAGGCTTATATTTAAACGCTAACATATTGAAATTTCTAGCCTTTCTAAAGGGAAGTTCCCCATTATCGTAAATTTTTACCATTATTCCCTCCTTACTTTTCAGCCAAGATAATATCCTCTTCGAATCTATATCTTCTAGCCTTCTAATCTCCGTAAAATCTACAGGATGAGGAACGTTAAAACAGCTAATAAGGTACGGTTACGTTGAAAGGGAGGATAGAGGTATCTACAAGATAATAGATCCAATGGTTACATATTACTTAAGTGCTAGAGGAAAGTGAACTTGTATGTCTAATTATTTCTTATAATTTAGATTATTTTCAAATATCTTATATTCTCAAATAATTTTACAAAAAATAATATTTATATGACATTCCTATCTTTTACTATTATAAATAATAAGACTTTTCGTCCTTAATATTAAAATTTTGTAAATATAGATCATTATATCTAAACACGAAAGAAGTAATAGAAATTTAGCTGAATATTGCCTTAAGATTCTGCGGATCGTAGAGCTTTCCTTTTCTTACAACATAAACAACATTTTCTGGATTTAGATCATCCGCATTCCTAATTTTTCTGAACATAACTAAATTTGCCTCATATCCTTCTGCTATTCTTCCCATTTTCAGACCTAAACAGTCAGCAGCTATAGACGTTGCTGATGCTAATGCTTTATCTAAACTCATAAATCTGGATAAGAGCACTATTTCCTTATAATTATCTCCATGTCTTCTCTCGGGAGATCCTACGTAATCAGTACCGGCAACTATTTTTAATCCTTTCTCTACTGCAATCTTAACATCTTCATTAAGGTGCTTATCTATCAATTCTTTTCTTTTAACTGCAACTTCTTCGTCCAATTCCCTAATTTTTATTTCCTTAGAATATGTAGCTAAAGTAGGAACGTAAAAAATTCCTTTCCTCTTTATTTCCTCAGCTAGTTCTTCAGTTAAACCCAGACCATGTTCTATTGAATCTACTCCTCCTTCTATGGAGTTTGCTATGGCTTCTTCACCATATGCATGAGATGCTACCTTTAATCCAGATCTATGTGCCTCATCAACTATAGCCTTAATGTCCTCAACTGTTAAGGCAGGTTTCGGATATCCTCTTTGTGAGAAAGCTCCAGATGAGTAAATTTTAATTACTTCAGCTCCTTGTCTCATTGCCAATCTAACTGCCTTTCTACATTCCCACGGAGAATCGCAGTAAAAGGAATATGAAAGCCTCTGGGCCATATCAAGGGGCAAATCCGTAGGATCATCGTTTCCTCCTGTCTCTGCTATAGAATATCCAGAAGCTATTATTCTAGGTCCAGGAATATAACCTTCTTTTTCTGCTTTGCTTAAGAAAATAGCTGATTTACTTCCTAGATCCCTGACCGCCGTGAATCCTGAGGCTAGAAGATTTATCATATCTTTAAAACTTCTTGCTACAGAAAGACCTTCTGGAGTAAGATTCCAAGAAATTAAATTATCTTCTTTTACTCCAAAAAAATGAATATGTGCATCTATTAGGCCAGGAAGGATTATTCCTTTACTTTCTTCTTCTTGATCTCTTATTTCTTTTATCTTATTTTCTTCTATTACTATACTTTTTGTACCTATAAATTTCTCCCCATCAAATACTTCTCCCGTAAGGATCATAAGGAGAAGAAAGAGAACTAGATAAAATTTCTAACTTCAAACTCATTTATCTTAACGGAAGTTAAAGAGGCGGAAGACCCCATCCGTGAGGATGGAGATGAAGAGCTCCATTATATACTTCTTTTTCAAATTTTCCAATTTCACTTTCTGGTCAATTAGCACTTGTTTTATTTATATATTAATTCCTTAACTTTTTATAAACTTATGCGGTATAGTTAATAAGTTTATTATTAATCTTACGCTATAAATGTATAAAATGACATAATAAAAAAACTGAATAATGTATATAATTAAAAGCAATTTATATCTAAATAAGGTTAAAAACGAATAATGAAGCGTGGATTATAGAAATTCCTTTATATCTACAAATCCCTTATTCTTCTTCCAAAATAATTTCTTCTCTTTTATTCTATTCTTTTCGTCTTCGTCTAATACTATATAATCTACATTTCCTTTTATGTATTTACTTACCATATACATCCTATCAAATACGTTCATTTCCTTTATGCCCTTGAAAACGAAGATAACATCTATATCACTAGTATCTAAATAATTTCCTTTAGCTCTAGAGCCAAAGATATAAACTTCGTCTAACTGCTGGAAGTCCTTAGCCATTTCTTCCACTATCTCCTTTACTAGATTTATTATCTTTATTTGGCTCTCTATTGCAGATTTTCCTTTACCCATTCAACCACCTCTTTTGCTCTATTATAAAGGTCCTCAGAAATTGATTTACTATATTGCTTAAAAGGAACTCCATTTGCAGCCTCTGGATATCTTGAAATTATAAAATGAGGAGAAAGAACCATTAGATTCTCTTTAATATTTGTTGGTACAGTAACTCCTTCCTTCTCTATCATTTCAATAAGCTCAATAAGTGAATGCGTCTTGCCAGGATCTTTTCCAAGATAAATTATAATGGACTTTAATGATTTCTCTACCGCTTGCTGAGAATAGAAGGCAGAAGCGTAATATTTCCCATTAGTTAAAAGAACTTTTGCAGTATCGAGATCTTCCAAAGCTTGCTCTATCCATTCCTTATAGTTCATTAAACTGAATATTTGAAATATAACTCATATATCTTTTGTCCTTTTTAGTTACTCTTCAAGTATTTGTTTATTATTTATGGGGTAGTATTTTACGTTAGTTGTTTCATAAAGTTCTTAGTCATTTAAATAGCGTAAAATAGGGTGAAAACTTATTGGAAATACACGGTTTTTCTTCCATTTAAACTTTTTAATATTTTCTACCTCTTGGTAAATTCTTTTCATCAATCTAGATAGTATCTTTAGTTCCAAAGAAGTTAAAGTTTTAGAGATTAATAATAAATTATGTTTGACGAAATGATTAAGGCTGAAAAAGAGGCTAGGGAAATTAGGAGGAGTACTGCTAATTGGAGTTTTATCTTAACAAGGGCGTTCAGTAATAAATATTTCGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGCGATTTGGGGAGGATCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAACTATTCTAGCCAATTTCCTGGCTAAAGCAGTGTACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAAGTAGAACAAGCTGCGCAAGTACTTATTACCCTTCTTCGATATTCCCTTACTTACAGTAGCTTTACCGCTCCTCTCAACTATTGGGTCTAAACCACAGTAGGCTACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCTCCAACAATGCCTATTATTATTCCCGAAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTAATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTGTACTCTAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAATTTCCTTGCTTATTTTTTCCTCGTCACTTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTCAAGGTCTTTTAGGAAGACGTATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTGTAGTAAAAATCTGTTTTCTTTCCTCTCAAGTCCTTCTCCTTCCATAGTTTTGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGAGTATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGTTACTAGATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATAGGCTCCATATGCTTTGCCTCTAACATGGCTAGGCGATGGCTTGAAGAGCCGAAGGAACTACTTGATTGGGGTCAACTTGGGGGCCTTCACCACCTCCTCCCCTATACCTAGTCTTCTTAGTCTCACCCTTGTATTCCCCATCCTTGAGTACGTGATAAACTATCCTACATATCTTGTTGGCCAAGGCTAATGTAGCCTTTTTGGAATTGCTTGTCCTCTTCAACAAGGCTTGATAGAAGCCATTAAATTGGGCCGTGTTCTTAGCGGACCTTGCAACAAGGAATAGAACGCGGGATAAGTGCTTATTCCCCTTGATGAGACCGTTGTGAAATTCGGTCTTCCCGCTCTGCTTAGTCCAGAAACTCCAGCATAAGCAGCTTGTTTCGAAGACTCAAACCTGCTCACGTCTCCAAGCTCAGCGTAAATTGTGGCTGCAGAGATTGGGCCTATTCCAAGTATCTTAGTCACTACTGCTTCCTCGGGTAGGAACTTCATTATCTCGTTCTCCACTTCCTTGATTTGTTCTTCTATAATGTTCAGTAGGTCCAGGAGTTGTTTTAGGATGAACGCTTCTATTCTAGTTAATTTTCTTCCCAATAATTTGGAGTACTCCTTGATCTCTTCGTCAGTTAGCTTCTCCTCATTTAGTTTTCTCACTATTTCCTTTGTCTTCTTTTCGAAGGTAGCTTGTATCCTGCTGTTTCTAGAACTTTCCTTATCTCGTTCTTTACTTGTGTCTTTCTCTCTACTAGTCCTTCTCTGTGTCTTGTCATTTCTCTTAGTTCTTGCATTTCTCCCGTTGGTACGATCCTTTTACTGTGCCTGCAGCGTAGGCTATTGCGAGTCTTATGGAGTCGTTCTTGTCTGTCTTCTTGCCTAGGACTTCAACTGTTTCAGGGTTTATCACGTTTACTTTTAGTCCCTTGTCTCTCAGTACGTTGTATACGTGGTAGAAGTATACTCCTGTTGCTTCCATTATTCCTTCTTCGTATCCTTCTAGGAATTTTATAAGTTCTTTGAGTCCTTCTTCGTTGTATTTGAATTCTCTCGTATCAGCTTCTTTTACTGTGTTGTTGTTTATTTCCATCTTGGTTGCAACAAGTCTTGATTCCCCCACATCTATTGCAAATACTTTAGGCTTTATCTTCCTTTCCATGTGTAATACTCTTTTTCTAATTCTTGAATTTTTCTATAATAATACGCGTTATATTGTTAATTTTGTTAGGAGATAGTGTAGAGTAAGTATGAGAACGTCCCCTTAAATTTTTGCACACTCCTACTCGGGATGTTGTCCCACATGTTAGATCGCGGGGGACGTATAGCCAGCCTATCCAACGGGGTTTTATCCCCATGTTCACTTTCGGCTTGTGTTATTTTCTTGTTCTCTTTATAAAAGTTTTACTCTTGTAAAGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGTTCACGGTTACTAATGGATATCTATTGGATTTTAAAAAGGCTGAAAAGCTTGCGGAGCTTAATGTTAATGAATTTCAAATTACATTAGACGGTAATGAAGATATTCATGACATAAGAAGGATCAATATAGGTAAAAGAGGTACTTTTAAAATAATATGGAATAACGTTAAATCTTTAATTAACTCCAATATTCCATTAAAAATATATTTACGCATTCACTTATCTTTGGATAACATAAATTCTGTAAAGTCGTTGTTAAACAGAATAAAAAACGAAATTGGCTTTTCTAATAAATTAATAATATCATTTGCACGATTAGGGAAATATGGAAGCGATTATGATAAATACTTAAATACAGTTAATGATAGCTCATATTTTAAAGAAATAATTAATTATGCTAAAGCGCTTAATTTAAATATTGGTTATTGGTGATTTGGAAAATGAAGTTTCTCGATCCTCTCAGAAATTCTAAGGCTAGAAAAGTTGTTATAGCAGAAGTCCTTTATCAAGAGACTCCTCTCATTGAAGCAGTTACAATGCTAATATATTATGTTTCTAAAGATTTACTTTTAGTTGGTGTATTAATCTCTTTACTGTCAACAGTTACTTTAACAATGCCTATTAAAGGTATTTTATTTGATAAGTATAATCCAAATTTTATAAGTAAGACGTCTAAATTATTTGCTAATACTTTTTATTTACTCGTGGCGTTGTTATCCTTTTTATATGTGGTCTTATTCCTTGTTTCTAATTATAATATTTCTAATTTTAGGGTTAAATATTGAATCTTTAGCTGGTTTTATATTAGGAGAATGGATGAAAGAAAATATTAATGAAGAAGATATTAATGCAGTATTTTCATTAACTTTCACATTACTAACCTTAGTTGCAACAGCTATTATGTTTCTTATAGGTTTTCTAGCAGAAATTTATGGTTTAGTCGTTATTCAAATATATCTTGTAATTTATACTATTTTACAATACAATAGATTCGCTATAATATCTACTGTGAAAATAAACAATCGTAAAGTAGAGATTAATAAGATATACTTTAGGAACGCAGTAAAAGATAATAAATTACTTCTATTAACGCTTTCTGCAGTAATATTTTATTTTATATTTTCAGGGATGTCTACGGTTATTATAGACATTATAGGGAAAATAGGGAATTTCTTTGAAATATATGCTACTTATAGTTCAGTATCTTACTTAATAGCTTCGTTCGGAGGATACATATCTTCTCTAACATTTACCAAAAGAATTTCTAATTTATTTATTTTTCCATTAATTTACTCTGGAATAAGCTTTTTATTAGTTTACTCACCTTCTATTCTCTCTATAGGAGTTTTTACATTAGTCTCGGCATTTTCAGGAGCTGTGTTTAGTTTAAACTATTACTCTTTACTAAATATTACAGTTAAACAAGAACAGTACGGAATACAGACTGGTTTTAGCAATGCTATGACAAGTATTGGAGAATTAATTGCGCCACTATTGTTTTCCTTTACTCTAGAGTTCTCACTATTTAGCTTAGAAACTATGATCGTATTATTTGCTATATTCTCAATAGCAATACTTGTAGCCTTGTATAAATATTGATAATAAACTTAGTAAAATTTCCTAATTATTAGAATAGCAAATGCTAAGTCATTATGAATGTGTCTTCCTGGTTCAAAGTCTAATATTACTAACGGTAGGAGGTGGAAATTCAGAGGCCTAAGAATTTTCCTTATCATTGCCTCCACAGAATATTTAAGAGAAAAATTATAGACTATATCTACTATCAAATTAGATTTAGGACAAAAGGGTAGTGTCAAATACTCTTTCAGTAACACTTCTATAAAGTTTTTTATTAATAGAGAAAACAAAACTGATAATATGAAATTTTACTGGAAGTTATAGTCATCAAGGACTTTCGAATAGTTTGCTTAGTTAAGTCTCCTTTACTTAAAACTAGTGTAGAGACGCTCAAATAGTCAGTAAAAATTTCCATATAGGTATAAATTTTATTTCTCCCAGCTTGTCTTCATAATCCCAAGTTATTACAATCTTTTCCTTAGTCTTTATTTTATTTAATCCTTCAATTTCTCTCTTAGGTATTTCGTCCTTTCCTGAGGCGTAAGTAACTTGTATTGCCTTATCTCTAGTTAAAAAGTCTATTTCGTAATTATTACCCTTTAAATAAAACAACTTTTCTCCCATTCTAGAAAGTTGTAACGCAACTAAATTTTCCATTATCCTACCTTTTGAGCTATCTAAAGCAATTGAAGTTATAAAACTAGGATCTATTACATATACTTTCTTTGGTGAAGTCATCCCTTCTCTCGGTCTATTGGTAAATCTTTCTGAGGTTATTACTACATAAGCGTTTATGAGCCCATTAAACCATTCTTCAACAGTGTTATTACTGAGCTTTAACGTTTTAGATAGTTTAGATAAAGAAACCTCATTGGAATAGTATTTTATAATATTTACAGTAAATACTTTAAATAATTCAATTCGTTTAATTTTTAACCTTTGTACGACATCCTTATAAACTATGTCTGAAAATATTGAGAATATTAAATCGTCAGAAATTTTTAATACTTCTGGAAAACCTCCTTCTCTCATGTAATTTCCTAGTTCTCTCTTAATCACTCCCTCTGAGGAAGTAGTAAACGTATCCTTTACTTTTTCTATTTTAACTCCTTTAAATCTCAGATATTCAGAGAATGAGAATGGAAATAAAGTAAAGTTTACATGTCTTCCAGTTAGCGCAGTTGCTAGTTCTCCAGAGAGCATTTTTGAATTACTTCCGGTGATTATTATCTTTTCTCCTTCTTCCCTCAATCTCGAAACGAACAGCTCCCAGCCTTTTACGTTATGAATTTCATCAAAAAGGAAATACTCTACTTCTCCGAATAATTCATAAATGATCTTTTCTAATTTATATAAATCATCAACTTTGATTCCAGCTAACCTATCGTCGTCAAAGTTTACGTAACCAAAATTTTCTCCTCTTAATAACATTTCAGCCAAAGTTGATTTACCGCTTCTCCTAACCCCAAGTATGGCTAACACATTAGGATGCGAAAGATATTTCTTCAAATCCGGAATATCTCTCTCTATAATCTTTTCTTTTTCAAATTTCCTTTCTAATCTTGCCTTTTGGTCAACTAACACTTGTTTTATTTCATTCACAATATATTATTCCCTTAACTTTTTATAAACTTATGCAGTAGAGTGAATAAGTTAATCTGGAATCTTATGCAGTGAAGTGAATAAGATAAATTGAATAAAAAAATGAAAATATATAATGAGTAGAAAAAATAATTAATGATTATTCAAACATGGAAAAAATCCATAAAAACTATAGCCTATTTTTAGAGAGATGATTTTAAGATTATCATTGAGAGTGAAATAACTCATGGTACATCTTGAAATTTTCCATCAATATCATAAATAACTAACAAAAAAGTATAAAAGAATATTTTAAATATAAAAAAGATATCAAGAGTAAACTTAATAATTGATTATCCCATCATTGGTGGATATCCTCCTCCGTATCCACCGCCATATCCTGGATATCCTCCTTGTTGTTGAGGTGGTTGTCTAGAAGGTGCAGCAGCTATTAAATCATCGATCTTAAGTATTGCACTAGCAGCCTCAGTAGCTCCTTTTAGTACTTGTTCCTTAACTCTTAACGGATCTATAACATTAAGTTTCGTAATATCCTCCACAACTTTTCCTTCCATTACATCTATTCCGCTGTTAATTAATCCTTTGGCGTGTAAAGATCTTAAGTTAACCATAGAGTTTGTAGGATCTAATCCAGCGGTTTCTGCTAAAGTAGTAGGTATTTCCTCTAATGCGTTTGCAAAAGCTTCTAAAGCTAATTGTTCCTTTCCTGATACGCTTTTTTCTCTTAATTTCATTGCTAATTCTTCCTCAAAGGCTCCTCCTCCAGGCACAATGTAAGGATCAATTATTACATTTCTTATTGCACTTAAAACGTCAGTAAGGCTTCTTTCCATCTCATCCATAGAAACGTCCGTTGAACCTCTTATTAATATAGTTACAACTTTACTGTTCTTTACTCCTTCTATGAATATTGCCTTTTCCTTCCCTACATCCTTCTGTTCGACAGTCTTTGCGTAACCTAAGGAGGTTGAATCTATATCCCTAAATGTACTTATAATTGTTGCTCCAGTAGTTTTTGCAATTTTTTCTATATCGCTTCTGGCAACGTTCTTTATTCCCATTATTCCTTTCTTAGCCAAGAAGTATTGTCCTATGTCATCCATTCCTTTTTGAGATATAACTACTTTGGCTCCAGCGGCAGCCAGTTTATCTACCATTTCCTTTATATGTTTAGCTTGTTCATCCAAAGCCGCCTTTATTTGATCAGGAGAATTTATACTAAGTTTAGCTGATATTTCTCCTTTTTCAGTTTCTAATGGAAAATCTATAACAGCTATTTTGGCATCTTCAATGTATTTTGGCATACCACTATGAGCTACCTCCTTATCTAAAACGTATCCCTTTATTAATTGTATATCATCTATTGATTCTCCTCTTTTCTTAACAAATTTTATGTTTCCTAGGTCAATCCTATATTCTCCGTTCTTCTCCATTACTGAAAGAATCGCATCTATTGCAATATCAATAATCTTATCCAGCTCTTTCCCCGATGAGAAGAATTTACTGGATAATGTTGTGTAAGCTACCTTCTTTAGGTAATCTCTGTCTTCTGGATTTATTTTTGTAGCAATGTTTTTAGATATTTGTAAAGAAAACTCCAAGGCCTCTTTAAAGCCGTCAATTATTACTGTAGGATGAACGTTTTGCTCCAATAATTTTTCTGCTTGTTCCAATAAAAATCCGGCAAAAACTACTGCTGTTGTAGTTCCGTCTCCCACTTCAGTGTCCTGAGTTTTTGCCGCTTCTACTACTATTTTAGCGGCAGGATGTTGAACGTCTATCTCTTTTACTATCGTAGCTCCATCGTTGGTAACAACTATGTCACTAGTCCCTGAAATAAGCATTTTGTCTAAGCCTCTAGGACCTAAGCTACTTTTTAGCATTTCTGATAAAGTTCTCACTGCAGTTATGTTAGAAATTATAACGTCTTTCCCTGTTCGCCTACTCGTATTCTCTCTAAACAATATATTTTCCATTATTTCACTCTATAACACTATGAGTCATGGTATAAATTAGTATCCATAGATCTATTTTCCTTTTATATCTATTAAAAAGAATAGAAAAAATGGAATTTTAAAAGCTTTTTCGATAACGAGATAAATCTCAAGATAAAGAAAAATATTTAGTATGAGACTAGCCAAATTAATTTTAGCTACTTAATAATTTTTTAATAAAAATGTCTTAACCTATAAAAAATACTATAAAGTAATCTTGGGAAAAAAATTTAAGTAAGAGTAATAAAGAGCGTTTATGATAGGGAAATGCAAGTTAGATTTTGAGAAATGTATAGAAGAAATAAAATCAAGAATTTTAAAAAATGGAGGGATTATATTTGCTGAAGTAGATCATTCTAAAAATGCAAAAGATGTTGGACTTCCTCTTGATGACGATAAGGTAATATTTTTTGGAAATCCAAAAGCCGGAACAGTATTGATGCAAATAAATAAGAAAATTAGTTATGAACTGCCTTTAAGAATAGCAATATGGAAAGAAAATAATGAGGTATATATAGAATTTAAAATGCCTAGTGAAATAGCTAAAGAATACGGAATTACTCACGATATAGTAAAAAAGATGGATGAATTCATGAACAACGTTATAAAGGGATTAATTTAGAGCGAGTTATTTTTCAATTTTTAAAAACTTTTGATCGTATGTCATCACTATCTTAATAAAAACTCGCTTAATTTTCTGACTGATTTAAAACTAAATTTACTGACTTAAATCCATTTGAGTTCGAGAATATAGAAGAGATAATTAATAAATAAAGTACAGAATATTGTAAAATACTAAAAAATGATTAATTATGTAAGACATTGAAGTTAACATTAATATACTAGGGAAAAGAATACTTGATATGAAAATAGCTTTAGTAGGTTGTAGAGGTTTCGGAAGAATTCACCTTGATGCATACAAGGAAATAAGGAAGGAAATAGATCTAGAACTCTACGTATTCAGTAGGACAGAAGAATACGCTAAACAGTGTATGAAAGAGTTTGAAGCTAACGGATACTTTACGTCTTATAACGACGTAATAAATTCGAAAATAGATGTAATAGACCTGGTTGTAAGTCATGATGCTCATGAGCCTATGGGAATAGCGGCCATGAAGTCTGGAAAACATCTAATGCTTGAGAAACCTATTGGAAGAACTGAAGAAGAAGGAGAAAGGCTGATTTCTATATCAAAATCCACAAGAAAGAAGTTCATGGTCTTGGAAAATCATTATTTTGATCCTTCGGTTTGGAAAGCTAAAGAACTCATGGAAAAACTTGGAGAGATTTCCCTAATAATATTAAGGAATACAAGATTTAATTCACCTCCAGGATGGAGAAGAAATAAGGAACTTATGGGAGGAGGAGCACTAATAGATGGAGGAATACATTATGTCGATACTCTCCTAAATTTAGGAGGAGAATATAAGGAAGTAAGAGGTATGTGTAAATCTACTTTTTCTGGATTAGAAGGAGAAGATACGAGTGAAGGAATATTCACGTTTAACGGACCCCTAGGAGTTTTAATATATTCCTGGGCAACAAAAGGAGATAATTTCCCTCATTTTGAAATTTATGGAGAAAAAGGTTCAATTATAGAGGATTATCATTCTAGAGTTCCTGGCAAACCTTACGGTGATTTAATAGTTGAAATAGAAGGCAAAAAGGAAATTGTAAAGACTGAAAAAATTAATGCAGTAAAAGAAGAAATAAAGGGATTTCTTAATTCAATAATTCAAGATAAAGAAGTTCCCATGGATCCTCAAATTGCATTAAGGGATTTAAGAGCTGTTAGGGACATTTATAGAAGTTGTGGAGAATTTTAATGTTGAATTCATAAACATTTGAGTTTTATTAAAATCTTTTCACTATTAATGAGAAAGAAGTTATAAATAAGAAGTACCATGCATAAAAGAAGTTATTTCGCTATAAACAGTTTAAACGTATTATATTAGTCAAAAAAAATACTGAATATTTTAAGATTTTATCTTAACAAGGGCGTTCAGTAATAAATATTTTGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGCGATTTATGGTCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAATTATTCTAGCCAATTTCCTGGCTAAAGCAGACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAAGTAGAACAAGCTGCGCAAGTACTTATTACCCTTCTTCGATATTCCCTTACTTACAGTAGCTTTACCGCTCCTCTCAACTATTGGGTCTAAACCGCAGATACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCTCCAACAATGCCTATTATTATTCCCGAAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTAATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTGTACTCTAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAATTTCCTTGCTTATTTTTTCCTCGTCACTTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTTCAACTTTTAGGAAGACGTATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTGTGCGTCGTAAAAATCTGTTTTCCTCTCAAGTCCTTCTCCTTCCATAGTATATTTGGGCTTACCTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGTCACATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGAGGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATAGCCCCCTTTGTAGTTACATTTAAATGCGTATTTTTCAAATATTCTATTAATGTCTGACGTAGGGTTACGCTTCAGAGCTTACGCTGACGAACAAACATTGAGGGCGTTAAAAGCCCAGTTGAGGTTAGCGTCAGAAGTATACAACACCCTACGTTGGGCAGATGCGTATTTTCATGAAAGAGATGGAAAAGGACTCACTAAGACGGAGTTGAGGCAACTAGCTCTTGACCTGAGAAAACAGGATGGGCAATACAAACAACTTTACTCACAAACTGTCCAACAAATTGCAGACCGCTTCTACGACGCTAGACAGAGGTTCTTCGATGGGTTAGCACGTTACCCAAAGGAAAAGAAAGCACACAAGTGGTACTCCCTCGTCTACCCTCAATCAGGTTGGAAAGTCCTGAAGGTGAGAGAAATAAGGACGAAGAGCAAGAAGAACAAGAAGAAGGTAATAACGCTTCAGCTGTCAAACCTAGGGATCTTCAACGTTATTGTTCATAGGGACTTCCCACTGGAAAAAGTAAAGAGGGTAGTAATCAAGTTAACACCATCAGGGAGAGTTTACGTCACGTTCGTTGTGGATCAAGAGTATCCTCAACTCCCCAAGACAAACAAAGTTGTTGCTGTGGATGTTGGTGTAGAGAAACTTCTCACTACCTCTGACGGGGAATATGTCCCCAACCAGAGGCCTTATGAGAAGGCACTCAACAAGATGAAGAAGCTTCATAAAGCTCTCTCACGGAAGAAGTTCTTGTCACACAACTGGTTTAAGGCAAAGATTCGTCTAGCGAGGGCTCACGAACACTTGAAGAACCTTAGGAAGGACATGTACATGAAACTTGGTAAGTATTTTGCTGAGCATTATGATGTTCTCGTAATGGAGGACATTCGCGTTAAGCAACTTGTTGGTAAGTCTCTCAGAAGGCTGAGGATGAGGTTACACGATGTTGCTATTCATGAGCTTAGGAGTATCATGGAGTATCAACTTGGGAAGTACGGTAAGAAACTTACTCTAGTGGATCCTGCTTTTACTTCAATGACTTGTGCTAGGTGCGGGCATGTTAAGAAAGATTTGACGTTGGCTGATCGTGTGTTTGTCTGTCCCAAGTGCGGTTGGGTCGTTGATCGTGATTATAATGCTTCCCTCAACATACTGAGAAGATCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGTCCGTTAGGGCGCGGTAGTTCACAGCGTCAATAATTATCTCTCTCCTATCATATGTCCCATTAATTCATCAATCTATAGCGTTCATTATAGATCATATACGTAACGTTCGAGGTGCATGAATTTTATTTATGATTGCTTTTTTCTTAATTTCCGTCTTTGAGACTTTCCTCTTCTATAAGATAACAATTTTATCATTATTATTAATTTTATTTCTTACAATTACATTATATATAATTTCCTCACTTGATGGAATATTCCTTTACCTTACTTATAAAGATAAGTTAAACGAAGACGGTTACGTTTCACTTTCTCAATTTAGAGAAATAAGAGATCTTGTTTCTCTAGGTCTAGTATCTCTTTTATCTTTCTTGGTTGAAGAGTACGGTATAAGAGTCCTTTCATTTTTATTTTTCTTAGGCGGAATATATTATCTAATTTCTCATACAGTATTATTGAGATTAAATGTACAGAAAAATCAAAAATTCTCCAGTATGAAACTTACGAGAGAGGCCTTTAGGAAATACATGGAGATCATTAAAACTAACGCACGATATTTTTATGTAGTATTTATATCTATATTTATTTTAATTTTTACTTACGGAACGGATTTATTTTTCTTTGCAATATTCAAAAATTCTCAATATCTATACGAATTTTATGCTATATTAAATATTATGCTTATACTTGTAAGCGTTACAAATTCATTGTTTTTAAATAAAATTATTAATATTATTAAAAATAAAATTTCTAATTACTTTTTATTTTTACTAATTTCTCTTAGTCTATATTTGATCGTTCTGCCTATTATTCTGTTTAAATTTCCTGCATATCTTTTCTTTATAGGATATTTTATAACTAGCATAGTTCAAGGTGCTTCTTCAGCATATATTGGCTCCATATTCAATACTTCAATTCCGTCAGAATATGCAGGATACCTTATATCTATAGAGAGTTTAAGAGAATTAGTAAGCAAATTAATCGTAATAATATTTCTCGTAGGTTACGTCACGCAATATATAGGAATTATACAATCATCTGTTATTATAATATTTGTAGTTTCTCTTTCATCTATTTTCTTCTACTTCAAAACCAGAAAAATTAAATAATCATATCTAGTTCAACGCCAACGCGTCATAAAAGGTCACTTCATATTAAGTATACAATTTTTAGTATTTTTTAGAAAATTCTATAATTGAATTCGCTCCCATACTTTTCCTTTTCTCTTAAATCTTTTCCTAACTTCATTATATTTTTCAAGAACTCCTTTCATAAATACCTCGTCACCGCATAATATTTTTCCGTCCTCAATAATTTCTAAAATGAACGTAGAACCTTCTTCTAATTTCTTTAGAAAAACCTGAGTATTCATAGCCACAGGCATAACTTTAGGATATTCTATGTTATAAGCCATAGCAAAACCTTCTCTAGGATCACGTGGGAAAACATCAGAAACTATCAGCACATCAATATCGCTTTGATCGGTATAATCTCCCCTAGCATAAGAGCCAAAGAGAACAACTATTTTTGGATTAAACTTAGAATATGCGCTACACAGTTGCTCCAACAATACCCTTCACCCATGTTAAGATTTTCTTACCACAATTCAAACAAGACATTGCATCGTCTTTACTATAATAATCTACTGGAGCACCTTGATCGTATGCGTCAGGGTAGCGAGATGGAATATAATTCTTATCGAGTTCTTGTGCACATTTTAATACCTCTTCTGGAACAGAAATAGATAAAGATTGTAAAAGAAAAGTAATAGAATGTCCTCTCATTTCTTTATGAAAATAATTTAACAAAGATTTAACAGATTTTTCTGCAACTTGCTGCGCTTCATAGCAAGTTTCTTCATAAAGTCCATTCTCAAAGTTAATTTCTGCAGACTTAAGGTTTCTCTCTGCTTGTCTTAGCCAATCATAATATCTGCTTACCACTAGATAATATCATAACTTGAGAGATTATTAAGTTAATACAGAGAAGCTCTTAACACTTCTGTGCAGAACTCGATTATATAGTGTTCTTATTTCCTTAGTCTAAACTTCTCTGCTCTAAATGTAAAGAAGTCATTTTATGATGTAGTTCGTAAGCTCTTGAAAGAAGTTTTACCTGACTTTGAGACTTGAAGAGAGTCTTTTGATTATTTCTAAATCTAATATGAATACTCTTAAATTAAAAACACAAAACGAATTATTAATTTTTAAATATACCTATATTCATTTTTTTATTCATTTTTTCCTTATTCAGTATACTGCTAAGTTTTACGTAAGAATTCTTCAGTATACTAAAAAAGTTTATTTGACTGAAGGAGAATATTCTCTAGTGGATGAAATAAAACAAGTCCTTTTAGATCGGAGAACTAGGTTAGAGAGAAAATTTGAAAAAGAAAAACTTATAGAAAGAGATACACTAAATCTAAAGAAATACCTAAATTAACCTAACGTATTAGCAATACTTTTAGAAGATCAAGAAAATTAAAATAAAACACTTAGGCTATTGGAAAGCTTTTAGTTAAACTAGCTAAAATACACATTAATTATATCCCTTTCCTATTCTCTATACTTATTGAATTGATTTTTTAACTAAAATAAAAGATTTATTAAACTATTTTAAGAAAAGTTTTTATACCTTAAAGTAATATTTAGGGTGACCCTAAATGAAAAAATTTGATGATTGTTGTAATCCAAAAAGAGAATCAGCCTCAGATTTCCTAATGAGTCAAAAATATGTAGGAAGAAACCTAGAAGGATACAAATACGAAGTAATAAAAACACAAAAAGGTAATGTCCAAATATTTTGGAAAAAAGAAGGAGAAAAAATTGATTTAAGATACTATTCTCCCTCCTGCTTTACTACAAAAATAGCTTTAGAAGCACTTTGCGAATGGATAAACAATGGTGAAGTGAAAAACGCTAAAGAAGCTATAGAAAAATTATCCAAAATTAAAGGATACAAAATAACAGAAGATGTAAAAAATTTGGTTTATGAAATTTTTACGAGGGTTATTTAATGAAGAAAGTAGCGTATATTGCGTTAACCAATTTAGCACAATATATCCTAGTGAATATGGTAATTCCTCAATTAGAGGAAGGGAGACATAACGTAGAAGTTAAAGGAATATTCTTTGTTCATGATAACGTATACATGCTAACAAAGAATACTGACACTGCTGAAAGATTGAGAAAACTTCATGAGAAAGGAATATATTTGCAAGCTTGCGACCAGTGTACTTATATGAGGAACTTAGCTAACTCCCTAATTGATGAAGCGAAGATAGGCTGTTTTCCAGATTTCTATTCCGCAGTAGGTGATGCAGACTTAATAATAACTATTTAGTATCTAATAACTTTTTAGAATAATAGTTATATTATGATTAAATTAATATTTAGAAAATAATTAAAATCAAATTAGAAAGTAATATGAACATATTTGTATATAGATAAATTGTTAAAAAGACAAATTAGAAAAATTATGTTAAAAATATTTACATTAATTATGGTTAAATTACTATGAAACGGCAGTTTCACAAGTTTCATTATAGAAAATTTTTAAAAGAGTTTTTATTGGGAAAAAGTGTTCTTTATAAGAAACTTCATTTTAACTTAATATCAATGAATAAAAATATTTTAGTACCCCTCATAGTAGGGGTTCTAGTAGCTACAACTGCACTAGCAGCAGAAGAGCTAACTGGATATCTAGCAAACCTACAGTTCAATGTAGAAAATAATCCATCTGAAGTATATACTGCTAATATAGATCTTGGCACTATATATCCTAATGAGTTTAATAATTATACTGAATCCACTTCAATGACTATAAGACAGGCAGGCGTATATTCTATAACTGTTCTAAATAATTCTGTAATTCAAAACGTATTTACTTGGTTCAATATAACTATTAGTATACTAAATGGTACAGCACAAATGAAATATCATATAATAGACGGTAACGGTATAAATTATCCTAATAACGTTACTATATACTTAAACCCTGGAACATATAATGTTGAAGTTAGTATTAGATACCAAGTATTACCATATCCAGAAACAATAAGCTATGATAATCCAATACTGGCAGTATACTATCAATACTAATTTTTTATCTACTTGAAGAATAATCTGGTAAATAATTCATAGTAAGAATTTTTTTATTAAAAATAAAATTCGATATTTCATCAAGTTACTTGATACTAAAAAATAAATATTGAGAAATTTTAAAGTAGTGTATGTTAGCACTGCTAATAGCCTTCGACGTCACATTAGGAGGAATAGCTTTCCTAATTACTAAAGATTTAATGGAGAAGAGATCTAAAAAAGAAACAAAAGCTAATGACATAATAATAACAGAAGGACTTAATGAAAGAGATAATAAAGTACTGGAAGCTATAAAAGAAGGAGCAAGAAATCTTTCAGAAGTAATAAAATATACAGGACTACCTAAATCTACAGCATATAGAGCAGTTCAAAAACTAGTCAAAGAAGGATATATTACAATAAAAAGAGAAAATGGAGAAAACGTATATTTATTAAAAGAAAAATCATGAAGCTATCTTTTCAGCCCTCATAATCATAACTTCTGGATTAAATTCCCACTTTCCATTTTCATAATGCTCATAAGGAATTGAGGCAGTATAAATATGGTCCTTATCTGCAGGATGAATATTCACAGTTATATCATCGTCAAATTTCCTTCTAGCTTCAGATATGAACTCTAAATATTTTATTAGCGTGGAGTTTCTTCCACGTATATGACCAATATAACTATCGTCATCCAACTTAAATGCCGAATAAAATTCTGGAATTCTGGTAAGGTAATTTAAAACATCTTCATCCCTAAATTTCACTATTAACCTATAATCTGGAATTGTTAACATTACGATATAGGCTGATATAAGACCTTTACCTATAACGTGACTTTGATAATGTTTTAATGCCTCTTTAAATGGTATCTTAAGAAATGAAGATATGTCCTTTAATGAAAAATCAGTTCTTGCTTGTTTCTTTCCTAAAATTACTATATCGTAATAGTCAGGTTTAAAATCATCTGACAAATCAACTAGCTCAAAGGGAACTATCTCATTTTCTCCAATTCCTTCGAATTCTTTTAAATCATAGTTAAACTGAGAATAGTCAAAGGGATAAATTGAAATATCTTCTACTTTATTTAACTCGTAATAATATATTAAACCTTGATCTATCAAATTCTCTAATACCCGGATAAAATTGACATTGGAATTATAGTATATTGATAAGTTCAAAACATTAGGTTTCAGTAAATCTCTCATTGCGTAATTCAAAGTACCGTCAAAGATATAATTAATATCTTTCAACGAAATATATTTTTTAAAATATAATGTTGCAACATATTTTTTCAAACCAAGTATACTTTCTCTAATGACGGGATAAGCTCTAAAGGTATACTTAGACTTTAATTCTGAAATGAGTTTTTGAGAATTTTTAATTCCAGATATTGCTCCTATTATGGAAGGATTAAGATCACCAAATCGCTGAATGTAATAAAGAAGCTTTGAAAATTCATTTCTATATTGAAGCAATTGCACAGCCAAAATTTGTTGAACATATTAAAAAACACTGTTATCCGATAATTGATAACTTTTCATACACCTTCGTACGCGTTACTTTCTTCTCCTGCATGAACTAAGACGTGTGACATTCCTAATGCTGCTAGAGCTAGTCCTGCTCCTATTATGCTTAACTTTATAAAGAGGTTTAATTTGATTGGTTCTAACATCATTTTTCTTCAAATATATGACATGCTAAAGCAAAGAAAAGTTTTTTATAAGTATCATGAAAAAAATCTAAAATTCATAATTTTAAACTTTAAAACTTTTTAAATATCCCCCTTTTTCATGTGTAGTACTCTTAAAAATTTTTACTATACTTTTCAATTTTATGGACGGTATTATGATATTCCAATTATTATAAGACTTTCATTCCTCACTTTAATTCCTTATTATCTTTATCAACGACATAAATATAAATAAATGCATGCAAGTTTAAAGTATGAAACTATGTGGTAAGGAAGCAAGTCCAGTAGGTTTGGGGACATGGAAAATGGGTGGAGGATATTGGACTCCAGATTATTCTAAAGACGACTTATATGTTTCTATAATAAAATACGCTATCGAGAAGGGAATTAACGTTATAGATACTGCTGAAATGTACGGTGGAGGACACACTGAAGAATTAGTTGGGAGGGCAATAAAGGATTTTGATAGAGAGAAAATTATAATAATAACTAAGGTTTGGCCTTCACACTTAAAATTTCACGACGTTATAGAATCTGTAAAGGCGAGTTTAAAAAGGCTAAACAGTGAATATATTGATCTCTATTTAATTCATTGGCCTAATCCTGAAGTTGAAATTGAAGAGACAATGAGAGCTATGGAAAAACTTGTTAACGAAGGGATAGTAAGATGCGTTGGAGTTAGTAATTTTTCAGTTGAATTAATGAAGGAGGCTCAGAGTTTTTACAAAATTGAGGCTAATGAAATAGAATATAATCTTCATCATTTAGAGCCTGAAAAGGACGTTATTCCGTATTGTGAAAGTAATGGAATTAAGGTTATAGCTTACTCTCCATTAGCTCAGGGAAGAGTACTCTCCGATAAAAGGGTAATAGATCTAGCTAAAAAATATGGAAGAACCCCTGCACAGATAGCGTTAAATTACCTCATAAGGAGATCTATACCTATACCAAAAGCTTCTAAGCCTGAACATGTAGATGAAATAGTTTCTTCTTGGAATTTTCAATTAGATAAAAAGGACATTGAAGCTCTTAAATGAATGTTAATATTTTACTGTTGACATTTTTCCGATTTTGATTTAATAATTTATCTTTTAAAATTGTTTGTAATATTTGGTTGTTATAAGTCATTACTACTTGGTCTATAGTAAAAAATCTGTAATTCAATTATATTTTGAGTACTAGTTATAGGAGAATTTGGTAGAATTATGTTAGTCCAAAATTTTATATTTTTATGTCAAAAATAAAGTGTTCTATATTTAACGAAATATTAGAAAAGTATTTTCTACGCGCAGAATCATTAATGTATTTAAGGTAAAAATATCCTTAAAATACTGTAGATTTCTAATTTTAATTCCCTTTAATTATTTCCGGATTCATTAGAAAGGCTATAACGAATAATGATGTCGTTTCAGTATTAACGTTTCCTTGTGGCATTATAGTATTATTAATTACAGTGTAACCCGTGAAATATCCTCCTATTGGTGACTGTAAATGAGATGCTACATTATACATTTCTTCTATATCTTTAAGGTATTTTAATGCAAAGGTTTCATTATGGGCGTAGATATATTTCCAAGCTATTATAGCTAAAGCTATTTTGTACGATGAGTATACTCCATTAAACGATTCGTCTACGAAACCGTATCCGTTCCAGAAATCTTTCATAGTAATTGAAAAGACTTTCATTGCAGTATAGTTACCATTTTCCATAAGATAAATTGAATATAGGAATGATAAATCGGCGAATTCATACCATGAGAGGTATGACATAGATTTGTTAGTGAAGTTAGTTATGTAGATGTTTTTCCAAATTTTATCATTTACTGGATCTCTAAAATTCCAAGAAAAATTATGAACACCAATAAGGACTAGATAAGGACTCAGTGTTAGATTTCCTTTAATGTTACTAAAGACAGGATAGGATAGATTAAGATATTTCAATGCTATTGAAGCTAATAAATTGTCGCTTTCTACAAAATAAGTATTGGCGTAAGGACACTCCATGAATAGTTTCAGTGAAGAATTATACGTTACATAATAATAATTTTTAGCTAAATCTATTGAAATTGGAGGAGATATTTCATTATCTTGAGAATATTGTAAAGTTGATGATTTATTAGAAGGCAGTGTTTCATTAACTTGTAAAGGATGTAAAGTTAATTCTACGTATACAACTGAAAGGATTAAAATGGAAATTATTGCTATAACTATTTTCCTATCCATAGAGATAAAAAGAGGATTAGAAATAAAAATTTTTCCAAGACTAATGGCTTAAATAAATGTTTATCTTAACAAGGGGTTCAAGGTGGAGGAAGACTCCATCCGTAACGGTAGACCCAAAATCATTTTAAAAATACAAATTCAACATTAAACCTCATATTTTTTCTTCATAAGTAAAGGAACATACTTCATTATACTCATAATCAAGAGCATTAAGAATAATGTATTAAATAATCAATGTAAATAAAACAGATTCTATCATACGCATCTCATCATTTTCTAATATTATAATAATATTTCTCAGTTAATTGTGTGGAAATATAAAAAATCTAATATGGTACTTAGAAATTTATAAAAATTATCATATAATTATCTAACTAATTACATTAAATCGTTACGAACCACTAATAACAAATAAAAATTATTTTTACTAATTAGATTTTGGGTCTACCGTACTAGGCGTGGTCATCCTGCTAGGCGTAAGGCTGTGCGCGAGTTCAAGAAGTTGGGTTATGAACGTTGGCGTGATAGGAAGGGTTAGTTAAGGTGGTTGGTTGAGTCCTTGTTCTCTGCTGTTAAGCATTTGGTGAGTCTGTTAGGGCTACGAGTTTTGCTGGTCAAGTTGTTGAGGCTAAGCTAGTTTGGCTTATGCTTGGATGACATGGCCAACCTTGTTGTTGGTCGAGCTAAGGGAGTTGAGGTCAAGAAGTAGTATAGTAAAATCTTGGAAAGATCTATTATTTTCTACAGAAAGCATATTTTTGCTGTATCATTCTAATGAAATATATTGAACGAACCCACAAAGCAAGCTGAACGTTAATATTTATTAAGGAGACTATTCATATCCTCTCTTATTAGTAGTCCTAGTAAGTTTCTATCGTATAATTTCATTTTCGTCAATAGGAATTTTGATGAAAAATACTAATTAAACTGTATCACTTATACTATTTTCTTTGATTCCATAAGCATTTCTTCTATCTTCTTTAAAGAAACCTTAATGTCTTCTATGGAATACTTCCTCTCGTGAAATCCCCATACGTGCAAATCGTAACCTGCATTCCAGCCATCTAAAATCCAATAACCAAGCTTTTTAGAAAGCGATTTACTTGCCTTACCTAGTAAGTAAGTATACCATCTTCCTTCTTTCAGGAATTCTTCATATTCCTCAGTCCTAAATTTTTCAGCTAAAGCTTTTACGATCTCTTCAGCAACCTTGTAAGCCTTTTCCGATGCTTGAACTGCATCACCTTTTTCTATGTAATCTTCACTCTCTTTCATGTATTTTTCAGCTAAATTTATCCTTTCTTTACTGCTCTCCTCTGGATCTTCCTTACTCAAAATGTCGAGCAAGGCTTCTGTGACATTAATACCTTTTTTCTCCAATTTCTTAATTACCTCGTCTAGCGACATACTATTGTTTTCCATTTTTTGCTTCTTCATTATTAGCTTTTTCCATTAGTATTTAATGATTAGCTCAAAATTATACAAAAATTTTAGACTATCATAAAAAACTATGTAGTTTTTAGAATTCTCCGCAACTTCTATAAATGTCCCTAACAGCTCTTAAATCCCTTAATGCAATTTGAGGATCCATTGGAACTTCTTTATCTTGAATTATTGAATTAAGAAATCCCTTTATTTCTTCTTTTACTGCATTAATTTTTTCAGTCTTTACAATTTCCTTTTTGCCTTCTATTTCAACTATTAAATCACCGTAAGGTTTCGGTAGACCCAAAATCTTATTAGTAAAAATAATTTTTATTTGTTATTAGTTATTTATGTGAATTTAATGTAATTAGATAATTGATTTTGCAATATTTTTTAGGGAATTTTTAAGTGTTATATTAGATCTTTTATTTTCTGAAAGTAAACTAAGAAATATTATTATAATATTAGAAAATGATGAGATGCGTATGATAGAATCCGTTTTATTTACATTGATTATTTAATACATTGTTCTTAATGCTCCTGATTATAAGTATAATGAAATATGTTCCTTATGAAGAAAAAAATATGAGATTTAGTATTGAATTCATATTTGTAAAATGATTTTGGGTCTACTGGTTAGGGCGTGGTAGGCTCCACATGCTTCGCCTCTAACATGGCTAGGCGATGGCTTGAAGAGCCGAAGGAGTTCACATGATGGGAAGTAGCTCTTAAGACCTTTTTAGGAAATTTTTATCCAAACTAAATATTAGCGCTTTCAGAAAGTTTATAGCTTATAAGGATTTACATTTAAACCCTAGTCTAAGAATTTTTCGAAAATACTAATGAACGAAATAAATGCTAACAATATTTTTCTATAAACTCCATTGCTTCCCATATTTGAGGAAAAAAATTTTTATTCAATTTTTTAATCAGATATTCTAAAGTATCTTCAAAGTTACTAAAATATCTTCTTACTTCATTATTTTTCTTTATGATACCTTTTATTTCATTGCAATTTTTAATCTCGTTCAGCTTATCTAGGTCTTTTATTTCGTTAGTATTTCTTAAGTAAAGTAGTATTTGTTCCTCTAGACATAACTTTTCTCCTAAGAAAACTAAAATTATTAATTTGTGATTACTATTTTTAAGTATAACCGTTCCATTATCCAACTTGAGAAAATTTTCAAATCCAAATTCTTTTATTGCATTTTCCATTTCTTCCTTGTGTTCTATATCTGCTATTATTAAGTACGCTTTAATTATTTTGCCTTCTTTCTCGTCTATATATTTTATCGCTCTAAACGTAGCTTTAAGACTACCAGTAGGTGAAATTTGTTCTTTAATAGCTGAATATTTAGGTTGTATAAAAACAGTTTGATACAATAAGAACTTACTAATTCCATTTACTTTCTCGGCTATCTTTTTTAAAAGTATTATGTCTCTACTTTTTGACGTATTACCGTTAGTTACAATTAGTCTAATAATCACCTTACTCATCGGATTTTCAAGCTTATTGCTTACCTTCACTTAGAATCTCCTCTAAGCTCTGTGAAATTAGCCTAGGATCCTCATTAGACTCTATTCTTACCTTAGCTTCGTCATTATTCATTTCATATATTTTCCCAGAGCCCATAATGAAAACCTTGGCTCCAGCTTTCACAAGACTGTATAATACGTCGAAAGATTGCGTAGTAACTAATATTTTAACTCCGTCTTGTTCAATTATTTTTAAAAGAAAATTCATAAGTATTTCCAATTTATTGACATATAATCCCATGGCCTCCATATCATCTATTAATAGTATTTTAGGTGAATAAATAGAATAAAGTAAAATTAAAACTATGAGATTCTTTATTCCTTCTCCTAAATCATCTAGCCTTATTACACTGCTGTCTTCTTTTTCTATCATCAACTGTTGAACTCCGTTAAAAGGTTCATTTAAAACATTTCTAAACGATTTATCTATAGTCTTTAGGAGAAGACTCAGTTCTTTTCTTTTGTTAAAGATATTTTCCCAATTACTTATCACGTATTTCTCATATTCTGTGAGTCTTCTAGAATTAATGAAAATGATATCTGAGCTTACACGATAAAGTCTACTTTTCGCTATAAAATATTTCATATCGTTAATGTATTCTACAGTAAAGGTTCTTCCATAATTCTTACTTATAATCATTGCAAGAGCGTCATCGAAATTTGTTTGTAATAAATTTCTTGAGTATGTTATTCCATCTATTGAAATATTATTATTGCTAAACAAAGAGATTGCTTCCAATATTGTTGTTTTTCCAGCAGCATTATCACCTATTATTACATTCATTTTGTCAAATTTCAGCACTAAATCTTCCAAGTTTCTAACATTAAGTTTTATTGCAAAGGTCTTCTTTAGTTCTTCAAATTTCTCTGGAAAAGAAAAGAGATAGTCCTCGTTTACTTCACCTATATCAAAAAGTCTTATAAAGTATCCGTTTCCCTTTTTTAGTATCCAGGCTGTAGGTTTTCCTTCAGAAGTCACTGAAATAGGAATAATATCAGAAATATTGTTTATAGGTCTAAGACCTTTATTCCTAGGATATTCTAAAAGATTACCTACTAAAGTATTTTTTGTATCGACTTCAGAAGGCAAAATTTCAGTATTAAAGATATCAATTCCAGTAACTTGTTTAGAACCTTTGTATAAGAAAGGAACATCTCCGGCCCAAATTATAGTACCACCTCTATTTATATAATCAAAGATGAGTAACGGTGAATTGGATTTAGAGTCCCATAAACATGAAGGAATTATGTCAGTACCAAATATTAGGTAACTTGAACTACCATGAGAGTATAACCATTCAACTAACTCCTTGTCACTTATAATTAACTTTCCTCTACTCTTAGTAGCTTTAAACCACGACCATTGTTCACCTTTGAATGTTGCTATCTCCATTGAGATACTTTGTGTTCTAAAAATTAAATGCTTACCTTAATTTGGATCTAAATCTTTATCGTAAATTTGACTAACATTAAAGACGCTTTGATATTTAAAGTCAGAAGAAGGATTATTCTTATAAGTAAAAAATCCACCATATATAAAAAGTTTTAAGCGTTAGACGAAGTATCAAGTGATGCAGAACATATCTTTAGATAAAGTAATTTTCAAGGAAAATAATTGTAAACCTTCATTATTACATAAATCTGAAAATTATTTTGAATATGATGCTTGTGGAAGCAATTTTCTTGTTCTTAACTTTAAGGAAAGAATAGGAATACAATCTTTTTCTTCTTTTAATTTTGCGGAGTTGACTATAGATATTCCTAAGGGAGATTTCTTAGCTTTAACTATCTCGCCTTTAGTTAATTATAGTTCTGGATATAAATATTATAACGAAATTTATACTTATGGTAAAACTGAAGCTAAAGAGCCTGAGAGAATAGAATATCCAGTAATTAGAGAGTATGAAAATTATAAGGAAATTAACAAGATCACTCCGTGTTGGAGTTATTCTTACGTATCAAAGGACGTTAAAGATATAATTTATCCTACAATTGCTCTACTTATAAAAGGAGAAAAATATACTACTTATTTAGTAAATAGTAGTAATGGAATATTTTCCTCTTTAAAGGGAAATAAAATACTGTTGGAAGGATCATATAATTCAGGTAAAGTTTCATGGAACTTATTTATAGGAGAAGGAGAAAATCCTTATGAATCTATCTCAAGGGCATTTCATGAAATGAGTAAATGGAGTAATGTCAAGTTTAGAGATGATAAGAAAAAACCTTTGATTTTAGGTAAATTGGGTTGGTGTTCATGGAACGCTTTTCTTACTAACTTAAATGAGGAAAAAATGGTTAGTGTGATAGAAGGCATAATTAAAAGAGGAGTAAAATTAGGTTATGTTATTATTGACGATGGATGGCAGGAACTTAACGATAAAAGAGCGTTAGATTCTCTTGACCCTGACAAGAAGAAATTCCCTAAAGGGTTTGATGTAAAGCGTATAAAGGATTTAGGAATAGAAGACGTAGGATTATGGCACACTATCAACCTTTATTGGAACGGTTTTAGTGAAAACGTTAAAAACGATTTAAGCGAAGGAGAAAAAGTAGATAATTCATATCAGTTGCCGCAAGACGTTAATAAGGCATTAAAAGCTTACATTAAATTTCATCAGAAACTAAAGGCCGATGGATTTTCTTTCATAAAAGTGGATAATCAGTGGGTATTGAGAAAGCTTTATACTTTAACAGAAAATATTCAGACAGCACTTCAATTTTCTGGGTATGTTAATGATCTTGATATATTAAATTGTATGTCCATGGTTCCTGAATGCTATACAAACTATTCCATAAGTAACGTTATGAGAACTTCTAACGATTATATACCTAACTGGAAAGATGCTGGAAAGCTTCATCTTCTTTTCAATGCATACAATTCTCTATTCTTTAGCAACATAGTTTATCCAGATTACGATATGTTTGTAAGTTATGATCCTTATGCCTTATCTCATCTGATAATGAGAATTTTTAGTGGAGGTCCGGTTTATATTACAGATAAAGATCCAGAGAAAACAAATGTTGAACTTCTCAATAAGGCTATGATATCTGGAAAATTGCTTACTGTTGATTATCCAGGTTTAATTACCAAGGATATAATTTTTTCAAATCCCTTTGTAGAAGATAAACTACTTAAGATTGCATCAAAGGCAAATGGAATTCCAGTAATTGCTGCAGTAAATGTTAATAAAGATGGAAAAAGAATAGTGGACACATTAAGGGCTGAGGATCTTCCTTATACCGTTGATAAATCTATGATGTATTATAAGGTCATCAAGGAGGAACATGGATACTTGGAAGACCTTAAGATAGATTTAGGGGAAATGGAATCTGAGATTATAGTTCTAGGTAAGAAAGGTACGCCAATTGGGTTGAAGGAATATTTGTTACCTCCTTCCACGATGAAAGATGGGCAAACGCTAGCTTCTGGTACTCTAATTATTCTTAACGACGAAGTTAAGGAGGTTAAAGTTAGAGAGGGTACTAAAATAGACTTTGTCATATAAGACAAACTTTTTATGAATTTACTTGTCACTTGTGACAAGCTTTTATAATTCTAGCGTATAATATATACTAGATGGATGACAACGAATTAATGTCCATAATATCGGATTGGAATTTCTGGGGTAATCTAAGTAGAAAAAATTGGATAAAAAGAAATGAATATGTTAATTATATAGTCAATTTATTGAAAGGTATAAATATCATAGCAATATCAGGAATAAGAAGGAGCGGTAAATCAATAATTTCGTTACAAGTTATAGAAGAATTAATAAATCGAGGAATTGATCCAAAGGATACACTTATTATAAAACTTGACGATGAAAGGCTAATTAATCCAGATTATGAGTTACTTTTACGAATTTTTGATCTATATTTAAATAACATTAAAGCTAACTCTAATTCTCCTATTAGTTATAGACGAAGCACAGGAAGTAGTAGGATGGGAAAGATTTACTAGAGGATTATCAGAAAAAGGAAATAAGATAATTGTAACAGGTTCCTCAGCTAAACTATTAAGTTCAGAATTTACTACACTATTGTCGGGAAGACACGTAGAAGTTAGAGTATTTCCATTGGATCTTAAAGAATATTTAAAATTCAATAGTATAAATTTTGATGATAACCTTGACATTATCAAGAATATGAAAGAAATTAATAAGGGAATTGAAAATTTAATGAGTAATGGAGGATTTCCAGACATAGTACTTCATACTGATATTTCAAACGAACTAATTTCAAGTCATTTTGATACTATAATTCTAAAGGACGTTATAGGTAGATATAAGATTAGAGATGAGGGAAAAATTAGAGCTTTAGCAAAATTTTACATCTCATCTACTTCAACAAGGATAACTTACAATAGCATTTCAAAATTTCTAAAAATTCCAGTAAAAACAGTAGAAAGGTATTCATCATATTTAGAGAAGGTATATTTAATTTTCTTTTTAAATAATTATTCATTATCTATAAAAACTATCGAGAATTCTCCTAGAAAGGTTCACGTTATTGACAATGGATTTACTAAGATATTTAATCCTAAAATTTCCAGAGGAAGACTATTTGAATCTTTAGTTGCACAGTTCTTATATAAATACTCTTTGACAAAGAGAATGGAGACATATTACTGGTATGATAACGTGGAAGTTGACCTTGTCGTAGTTAATAATGATAGGATATTACCTATTCAAGTAGTTTACGATCTAAGTGAAGAAGATACTTTTCAAAGAGAATTTAAAGCGTTAAAGAAATTCATGGAAAAAATGGGCGTAAATAATGGAATAATAGTAATATATAGAGGAGAAGAGAGGGAAGTAGAAGGAATTAAAATTATTCATGCCTATAAATTTTTCTTGAGTGAAATATTAAAAACGTATCTAGAATAAAAATTACAAAATAATACTTTGAATAAGCCTATCTTCTTAACTGATTAATTGGAGGAACTCTATTAAGGTGTTCTATTCTATCAGTTATTCCATTATTTTCAGCGATTTCCTTATAAATAAACGCTGAAGGTCTCCAATAGAGCTTTTTAGTATCATAATCTACTTGAAGTAATCCGAATTTTTTACTAAATCCTAATGCCCACTCGTAATTATCAGCCAATGACCAGTGTAAGTATCCTCTAACGTCTATTCCTGCTTGAATAGCTCTGTAAACTTGGTAAATGTGAGTTACAAGATAATAAGGTCTCAAATAGTCTCCTTCATCAGCAATGCCGTTTTCGGTAACATAAATAGGTAATTTGTACCTATTCCAATAATGTTCTATTACATCGCGAAGCCCTTCTGGATAAAATTCCCATCCCACGTCACTACAAGGCCTGCCATCTAAGCTTATAGAATCTTTTTCACATAGACCGCCATAGCCTGGCATATATTTATAACCATCACCCGTGGATCTGACAACAACTCTGCTATAGTAATTTACTCCTATCCAATCTAATTTATTTTTTAGATCTTCTCTAACTTCATTACCTATTTTCCCAGAAGTTATTGCATCAAAAAATATCCATCTAGCATTATATTCTGCCTTTTCTGCAGCTTCCTTATCCTTTTCACTAAAAGGAACAAATGCAGTATTGCCGTAAATCATTCCTATAATCCCATTATATCTCTTTATTAAATCGTAAGCTCTTGCATGAGCTTGAATTAAGTTGTATCTTACTATTTCGGAATATTCAGAATTTAGATAAGCTGGAGGGAATCCGCTTTTAACTCCGACATAGCCGTTATTATGGTAAACATTTGGTTCGTTCATAGTAGAATATATATCTACTAAATCAGAAAATTTCCAAGCTACATATGCAGAAAACTTAGCAAATTCTATTACAGTTCTCTTATTTAGCCAACCGCTTTTCTCTGTTTTTTCGCCTTTTCTTATTGCTATGGGATCATGAAGCCATAAAGGTAAGGGCCAGTGATAAAGATTGAGAATTAATTTTATTCCTCTATTTTTAATATCTTTGAATATTTCTCTATAATGCTCTACTGCTTCCTTATTGGCAATCTTATCAAGCTCCTCTAGATTCCTCTCTTTAATATCGACATAAGTTATTTTATTACCATTAATTTCTGTATCTACATTAACTTCAAATGTTGATTTAGGAAATATTCTAGACCATTCTATTCCAGCTCTGTAGATTTTAAGTCCCATTCTTTCAGCATTATCATGAAATACTTTGTAATTATGCCAGTAAGCAGGCCCATTCTCTGGAAGATCACCGCTTACCAATCCTGAAGAAATATTCTCTTTATCATGTACCCATACAAACCAGTCACTATTTGGATCTTCGCTTCCCTTTAGTCCCATTTCAGTTTGAAAACCACTTTGAGACCAACCAAAAACAAAATCTTTAGGAAATCGAATCATAACTATACCGTAAAATTTAGGTATATAAGAATTTCTATTATAAAAGAAGATATTTACTTTAAAAAAATTAAAAATGTATCTCTAAGAAATCGTTTTCCTGTAATATTATTTCTTTACTCAACTTTATCTCGGTATCGGAAGTATAATTTATCTCCTCATTATTTACTATTATTTTTCTTGGTATCTTTGGTAATTTCAATTTAGATAAGGAGAGCATACCGTGATAAAGTCTTATGTTAATTTTATCCTTGTTTATTTCCATTTTTCCCCAACCAGTAGGCAGGAATATTATCCATATTAATTCGTCTACTGCAGGATCTATAGTTAAAGTAGATGTAAATCCATCGTATCTTAATCCTTGATAAGCAGGGATAATAGTCATTGAAGATAAAGGTCTCAAATAATGGGAACCCCACTCTAAATGATTCCAGAAATTTCCAGCTAATTTGTACCTATCATAGATATTTTTAAGTACTTCTTCAGCCTCCTTTAACATCTTCTCATAGATTAAATGAGACACTACGTAAAATTCAACTCCAGACCAAGGAGTATCAACTTGAGTAGTAGCAGGCAAATTAAGAGGATTTTGATATTTTCCTTTTAAAGGTCTATATCCATCCGGGTATGCACCATTAATAAGACCCTCTTCGTCTTTTAAATTATATTTTATTATTGCTTTTAATGAACTCTTAACTACACTGTCATCCAAAAATCTTGAACCTAATAGAGTAGAATACCAGTGTCCCAAAAGCTGGGACGCATTGCATGCCTTATCCCTAAAGTTTGAGATTGGATCGTACCAAAGATCAAAGTATTCTCCATTCCATAAGTACTCTAACAATTTCTTTACTGATTGCTCATAATCATATTTATCGTTAACATTAAGGATCTTAGATGCTTCATTAAAAGCTTGAAGAGAAGCTATCCATTGTATTGACGTTAAAGAGGTTATACCTATCATACTCCAATCATCGTACGTTTGAATAGATAATGGTATAGTATCTTTGCCTAAAATATGTGAAATGTTTGTATCTCCTCTAGGTAAATTAAACATTGAATTTACGTATCTTAGCCATTCTAATCCTGCTGGAAGTGTATGGTAAATTAATCCGTCTAAACTTTGTGTTCTCATTGTAGATTCTAATGCTTCTTTAGCTTCTGGGAAAATGTTATTAAGAAAATCTTTATCTCCAGTCATTTTCGCTATTAAGTACCACATTAGAGTAAATTCCGGATTTAAGTCAGCTCTATGATATTCGTCAACCTTTAACGTATCAGTAAAAAAGTGGGGTACTCTTCCTTTTGGATCTTTTCCTGTCTCCTTAACTATTTCATTTATAGTAGAAGACAGTTTTTCATAGTCAGTAGGAATAGATGGATCCTTCGATATCTTTTCTAAGAATTTTTGTCTATTTTCGTTAAAGGCTAGCGAATAAATCACATGTTCTGGACTTCCTTCCTTAATTGTTTTATCTTTAAATTGTAAAATTAATTTTTTAGCTAGGTCAGGGAATAGATTAAGGATAGTATAAATGGAATAAGTAAGGACATCAATTGTATTTAATGCTGTATGCATAGGTCCATCACTATATGGGAAATTAGGTGGTAGAGCATATTCGTCATGTTTTCTTTTATCTGCCGTATTAAAATATCCTTCCCAGATTCCGAAGAATCCTTCCCTGCTTAACCAAGTAGATTTTATTAACGTAGTAAGTTGTGAACCTATTAAATCGGCTATCCAGCTTTCTATTCCCTTTACATTATAAAGCAAATCATGGAAAAGAGTAGTCTTGGATTCTAAATAGTCCATTTTAGACTGGACATAATCTGCTACTTCCTCACAATTTTTAAAATAATTTTCATAGAAATGACCAATTTTCTCTCCATTACTTAATACATGATTAGGGAAATACCAAGATAAGATAAAAATTACGTTCTTACCTTTTCCTCCTATCAGACCGTAATTACCTTTCCCTGATTTAGTTTCTAATCTTCCTTCTTCTCTGAACTTATTCCACAATTCATATTCAATTATTGGAGTTTTTTCAAGATATCTACCAAAAGTATTCTCTCCAATAACTCTTACGCATAAATTACCATTATATCTTGGATCATTAGAATCTATTTTACCACTAAAGATAAGCGTACTATTTTTAAATTCTACATCACCATTAGGGAATGGATTTTTAATACCCAACATAAAATCGGTAACTTCGTCTGAATTAAGTTTCAAAATAGCTACTGGAAGAGATGAATTCTTTAAATCTAAAGGAATAAATGGTGAAAAAGCTTTCATTGACAACTTAAAGTCGTCGATGAAATTTAGATAAGCTATTGGTGGTTCTCCATTAAATTCTACTTGTTTAACTGGTCTAAGCCAAGGTAATGTATATGGACTTCCACCAAAATAGTAATCATAAGCTTGAAGTACTCTTACTTTTACCTTATCTTTCTTTTGCCTAGCTACAATAAAGCTATCCATTTCATCTATGTAATACACATATCTTATGTCTTGTCTCTCTGCGTATCCTCCATTATTGAAAATTGTCCAATCATAAAACCTTCCATCCGCTCTTATTTCTATAGATCCGGAGCCTATTCCTCCTAACGTAATTCCAGAATCAAGGTTATAAGAATACGAATATTTCATGTAGTTTAGTAAAGAACTTAACATAAAAGATTTACGCTTCAATAACTTCCTCTTTAGAATTACTCCTAGCAAATATTAATGACGCAATAACAACTACTGGAAGTAGTGGGATTATTTCTTCTCCAGTAGATAGGTTAGCTAGAAATATTTCAGTCACTGAGGATAGAATTCTTCCTAAATTTAGAAATATTTGCCTATTTACCAAGTAACTTGTCAAAAATCTTCTATCCATATTATTCCAATTAAATACATCAATTACAGGGTAGATTAATGGTGAAGCTATATTGAAGCTTGCAAGATAAATTAAAGGAACTCCAGATATTATGAATAAACTGGAAATTCCTATGATTATTGATCCTGTAAGAACTAGCTTATATGGTTTAATTCTATTTACTAACCTATCTCTTAGTATATATATTGAAAAAATAGATAATGCAGTCATTAAATAGTTTATTATCATGAAATTAAAATAAGTCTTAGCTATACTGTAAATAAGTATAGTATTCAAATTTCCTAGAATGTAATTTACTCCGCTTATTATAGCTAACGATGTCATGGAGTTTTTATATATTTTATTCTCATTAAATACAGAAATTGATTTCCTAATATCAAATTTAAAAGAATCTACTTCTATATTTTCAACAAGCAATACACTTAATAGTAAAAAGAAAGAAGTTATAGTAAATAGAATTTCATAACCGTTTCCATGAAATATAGATAAAAGAGAGCCGTAAACACCTGGTGCTACTACGCTTGTTATAAATCCTAAATATGCCGATTTATTGAAGAAGTTTAGTTTTTTCGGAGTATTATAAAATAATATATCCCATCCTGACCAATAAAACCCTTGTGCGATACCGTATAATGCTCCTATGAAATCAATAACCTTAGGAGCATTAACGTTGATTATAAACAAAGTTATATAAAAAACAATATACAAAAATATACCTAGCCTATAATATATTATAGATTTCTTCCATATCGTAGTCAAATATCCTACAGCCATGTAGCCAATTAATATGAACAAGGAATTAATCATAAGGAAATCAAGCGTATAAAAAATAGAAGAATTAATGTAAATGTAAAGGCCAATTAGGGGAGCGGAAAAACTATTTCCCAAACCAAAAAGCCACGAAGCTATCAAAAAGTTTTTCTTCATTGTTCATTAGCTATTTTGAGAATAAAATAAGCTTTTCTCCTTATATATAATAGAAAAAAATTAAAAAAATGTTTATCTTCTCCTCAAGAAGAATATTGCGGCTGCCACTATTATAATAACAACTATAACTATTCCAGCTATTGCCGCTGCACTGATTGATGGCGGATGGGTTGTTGTCGTAGTTGTAGTTACTGGTGGATGCGTAGTAATTATCGATATAGGTTGCATATAATCTGCCGTAATTCCTAGTTGGTTAATTGCAGTTCCACCTATTCCATAGAAGTATTCTTCCCAGAACCAAGAGTTGGATGGAGGAGCTACTAAATCTTTAGTATTAACTATTATTTGCTGAGATTGTAAAACTAAAGGCAACGCAGGTAGATAGTAGTTTAATGCATATGCCATCTCATCGTTTGCAGAGGTCAACTGAGAAGTTGAGTTAGGAGCTACCGTTTCACCATATAATTTTGATATATTGTATATTGTGCCATTAGGCGCCTTTACTATGCCATCCCATTGCGTCACATTATACGGTACTCCGTTGAAATACATTGCCTCGAGATACCAGTCTACAGTAACAGGATAATATCCTCCCCACGCGTTGAAGGCAATATCATAATTATCACCAGTAGCCCAATCTTGTAGTTGAACTTTTCCTACAGTTTCTATATAATATGTAGTAGGTATGCCAAATGATGATAACTCGTCCTTTATCGTATTTAGAATATTGGTTTCGCCAGGCCCAGGAGTGTTTGTAACTATTATGTTTAATGTGAATGGACTTCCATTAGGAGCGTACCATTGCCCGTTCTTCAGCGTAAATCCGGCACTCTCAAGTAATTTTGTAGCCTCTTGTAAATTAGTTAAATATGGATTGAGATTAGCTACTGCAGGAGTAATGTATTGTCTATAGTATGTAAAGTTAGGAATTCCATTAGGGATGGCAACTGGAGAATATTTAGATCCTCCTGCTAGAGCAATTGATGTTCTATTAAGTACATAAGCTATAGCCTGCCTTACTGGTAACATAGCTAACCATGGATCTTTAAAGTTAAAGTATAACGCCCATCCTCCAGGATTAGGTATATTGACAACTCTATAATATGACGGTAGGCTAGATATTAATGTAGATGGAAGTGACATGAATGCGCTATATTCTATTGAAACTTGTCCAGATAAAATACCAGATTCTGCTGTGGAAGATGAAGAATATTGATATATAACTACTTGGTTGAATTTCACATTATTTGCTGCGAAATAATACGGATTCTTGTCAAGTATTATTTCGCTAGGAGTTATTTGAGCTACATAGTAAGGTCCATTATAGTTTGCTGACAATGGTCCTGATGGTGTATAGCTGTGTAATTCTTTTCTAAACTGATTTATTAGTGTTTTATTATCATGTTGTAATGCAATCCAATTATTCTCTATTTGTTGAACTAATGGCTTGTATTCTTGGTAGCTTGTTATTAGCGCAACTTCTCCCAAACCTATGGCACAAATTTCAGTGAATGGTAATAAATATGGAGACATTGTCCCAGGAGGATGAGAGATTACTATAGTATGATTATTTACTACTGTATAGTTGGGGAAAGGAGGTGCTCCTAAGATATCTAATATTAAACAAGTAGCTAATATATCGTTAGCAGTTACTGGAGCACCGTTAGCCCATCCAGAATTTCTTAGAGTTATAGTAACATTTACAGTCTCATTTTGCCAAACTTGTTCCCAGTTAGCAGGAGATATACTCCAGTTTGATATTAAACAAGGAATTATTCCGTTATCAGAAACGTTCAGCAATGCCGTATAGCTATAAATAAGTCCATAAAATGAACCTCCCATACCACCGTCAAATAGATTCGGATTGAATGTAGATAGGCTAGTGTATGGATGAGATGTTACCCAGCCAATGTAGAGAGTGTTGGAGGAACTTGAAGAAGCAAATACGGTAGCGGAATTTATCATTGGTATCAATAATATTAAAATAATACCTAACGTTGCATATTTTAACAATATATGCGTATTCATATTTATTCTAATCAAACTTCAACCACAATTATATTTAAACTTTTAACGCCATTAGATTCTTTCAATAATATATTTTAACATATTATGTGAAGTTCGAAATTCCAGAAATAATTTAATCTAACATGATTCTCTATATTCATGAGATCTGTAGGTATTCTTTCTCAAGCGTGGAGAAAGGACAAAATAAACGAGTTAAAAGAAATTGCTGAAAAAGCTGGTAAGTTAGGCTTTAACGAAATCTGGTCTGGAGTAGATCCAAATTATATAGATGGAATAAAAGAAATAGCCGAAATAGCGGAAAAATACGGAATGTATTTCTTTATTGATATAAACCCAGAAATATTAAGAGGTTTCGGAGTTACTCCAAGTAATCTAGAGATTTTTAAAAAATTGAAAATAGGTGGATTAAGGGCAGATTATGGATTCTCAATAGAAGATATAATTAAAATGGCAAACAACGATTTAGGATTAAAAATAGAGCTTAACGCTAGTATTTTTCCATTGGATAAACTCGATTATGTAGTTAAGAAAGTTAAAGACATAGAATCACTGAAGGCTAGTCATGATTTTTATCCTATAAAATATACTGCTTTGTCTCTTGAAGACGCGATAAGAAAATCAAAGGAATTTAAAGAAAGAGGAATACCAGTAGCTGCGTTCATTCCTACACCTAGGGAAATTGAAGGAAGAACTACTGTCGAAATGTTAAGGGGTAAAAATCCAGGTAAATCTGCATCAATATTATTTAATTCTGGGTATATTGATAGAGTAATTATTGGAGATCCCTTCCCTACTGAAGAAGAATTAAAAGAAGTAAAAGAGTCAAAAGATTATACAAAAATTAGGGTCCTAGTATACCCTGGGCTAACTGAAGAGGAAAATAAAATGTTCAATATAAGATTCTCTGATGTCAGAGTTAAAGAGTATGCTTTGGCATTAAATCAAATTATTGAGAACGGTATAAAGCAAAGAAATATAGTAAAGAGATTTAGGGGAGCTGTCACTGTAATGAATGGAAGAAAAGATGTAGTAGAAGTATGGATATTTAAGAAGGAAGTAGAAGCAGATCCTAGATTTAACGTTATTGGCGAAGTATTACCCGAAGATATGGATATGCTAGATTACATAGGAGAAAGAATTGATGTAAAATTAATACCAATAGGAATGAAATAAAAAAATTAATGTCTTTTTCTTAATAAAAATATTACTCCAGCAATTATAATTATAGCTATAATTACTCCAGCAATGTATATTACGCTAGTACTTGAAGTTGTTGTTGTAGTAGTAGGCGGTACTGTAGTGTGAATAATTGGTTCGAAATATCCATAATAAAATCCTTCTTGTAAGAAAGCATTGCCTCCTACTCCATATAATGCCTCACTCCATATCCACGAATTGTTAGTTGGAATATTAGAAACCTGATTAGTGTTTATTACAATTACATAATCTTCTTTAACTAATGGTAAGACAGGCAAATAATAGTTCATAGTATAAGCTATTTCATTATTTACGTCTATTAATTGAGACGTAGAATTTGGTGCAGTAGATAGGAATCCTAGTTCATGTAAATTCACTGTGGTTCCATTTGGAAGAGTTACAATTTGGTTCCAATGAGTTACATTAAATGGATATCCTCCAAAATAAAACAATGGAAGATACCAGTCTATAGTACCAGGGAAATATCCTCCCCAATTTCCAAAGTCCATAGTATATGCGCCAGATTTGTAGGTATTATGCAGTTGTGTTAACGACGTTATATCTATGTAATGTGTTGGTATACCGAAACTCGATAGTTCACTATCTATTACATCCAACATGTTAGAAATTCCAGGTGTTATAGGTCCTCCATAAAGTATAGTAAAAGATAAAGGAGTTCCGTTAGGAGCGTACCATTGCCCGTTCTTTATCGTAAATCCTGCAGATTCCATTAATCTTTGAGCTTTTGTAAGATTTACTGAATATGTATTTAAATTACTTACTGCAGGCGTAATAAATTCTTTGTACGCAGGGAACGATGGTATCCCGTTTGGTACACTAACTGGAGAGTACTTTATTCCACCTGCAAGGCTTATTGCAGTTCTATTGAGTACGTAAGCTATAGCTTGTCTAACTTTTAAGTTAGAAACCCAGGGATTTTGCAAATTGAAATAAAGTCCCCAACCGAAAGGCTGATTCACGTCAATTACTTTATAATACGAAGGTAAGGAAGAGAGTACTTGAGAGGATAGTGAAAGTTCACCAGAATACACTAATGAAACTTCACCAGATTTTATAGCCGCTAACGCTGGAGACTCCGAAGTATATTGATATATTATAACTTTATTCCATTTGATTTCGTTACTAGCGTAATAGTAAGGATTCTTATTCAGAATTAATTCGTTTGGCGTAATCTGACTCAAATAGAATGGGCCGTTATAGTTTCCAGATAATGGACCAGATGGTAAATAAGAATGTATTATTTTCCTAAAATGATCTATTACAGTAGTATTTTGACTTCTTATAGCTGATAAATTACCTAAAATCTCGTTTATTACTGGCTTCCATTCTTGATAAGGAATTATTGTAGCAACTTGAGTTAATCCAGCAGTATAACGTAAAGTGTATGGCATAAGATAAGGAGATAAACAATCAGGAGCAAAAGTTAAAGTTAATGTGTAATTATTTATTATAGTATATTTAACAGGATTGGGATTTAGATAAGATGCTTGAAGAATGAGATCGGTAGCCATAATATCGTAAGCTGTTACTGGTGTTCCATCTCCCCATCCAGTGTTATGTCTCACGTAAAGCGTGACGTTAATAGGCTCCTTTTGCCATACTTGTTCCCAATTAGATGGCGAGAAGGACCAATTCTCTATTAAGCCTGGTAACATTACGTTATTTGAGACATTTAGAATTGTACTGTAAGCGTAAGCTATGCCGTAAAAAGATCCTCCTAGTCCACCAGCGAAAATGTTAGGATTATAGGTACTTAAACTTTCATAAGGCGTGGGATTTATCCATGCTATGTATAAGGTTGATGAACTTGACTGTGCTGTAACTACAAAACTCCCAATGCTTCCTAAAGGTGTAACCAGTATTAATAACGATATCAATAAAGAGATATATTTTAAAAGGCTAGATTTTTTAATGTATACTTTCATACATATCATTTTGTGTATATAAAATTTAAACTTTATGTATAGCTTACAAGTTGTGAGAGATAATTGTTTAATACGTTAATTTTCATTTTTTAACTATTTCTCAATTGTATAGAAATTAATTAAATATAGATTATCCTTCTAATATATATGTTCCTTCTCAAAAGACTTAAAAAGTTATATTACATAAAAGCTATTATGAACAAAATCTGGTTAATCAGAAGGTTTGCTATGGCATTTATAACAATTATTGTAACCATTATTATTAGCTGGGCTCTAATTGAGTATTCTCCAGATAGTCCGGCAAACGCTCTTCTCAGCAATGTGAGATTAAACGAAGCTAGCAACCCAAAATTTGCTCAAATTTATGCGTCTGAATTGCAATTTTATAATAGTTTAGTACCCCATGGTAATCCAATAGTAGGAGCTTTAAGTTATCTTATGAATGTGCTCCATGGCAATATGGGTTTAGATGTTATATCTGAGGTACCTGTTACAACTATAATAGCTACTGCATTACCATGGACTATTTTTATTGTATCCACGTCTTTGATAATAAGCTTCTTCATAGGGATAAGAATAGGACAAAAGATGGGATACAAAAGAGGAACTAAAACGGACTCCTCTTTGACAACGTTCTTTACTGTATTAAGATCTATTCCGCTATATATAAGCGGAGCTCTTTTACTCTTTCTCTTGGGATTTGAGTTTCATTTATTCCCTAGCGGTGGAGCATATTCCGCTAATGTAACAATAGGTCCCAATCTCGGTTTCATAATAAGCGTATTATATCATTCTACCCTTCCCATATTGACCCTAACATTGGCTAATCTAGCAGGTTGGGCATTGCACATGAGAGCAAATACTATTTATACATTAGGGGAAGATTACGTAAGCTTTGCAGAGGTAAGAGGCATAAAAGATAAGCTAATAGAGACTAAGTATGTAGGGAGAAACGCTTTACTTCCCTTATATACTAGTTTAATTATAGGAATAGGATTCTCTTTTGGAGGATCGGTATTTGTAGAGGAAATATTTAGTTATCCTGGAGTAGGAAATTTGCTCTATTATGCCATAACTAATAATGACTATACTTTGGAAATGGGAATCTTTATCATAATAATTACTGCAGTAGTTGTTGGAGTTCTCTTAGCTGATTTGACTTACTCCCTTATTGATCCCAGAGTAAGACACGAGTGAGAAACAATGAGCTTCTCTACTTTTTTGGAAACAAGGAATTTATCTGTTTCCTATTATATGGAGAGAACAAAAATTCCTGCAGTTAAGGATGTAAGCTTTAGTATGGAAAAAGGAGAGATTTTAGGAATTATAGGAGAAAGCGGATCAGGAAAGTCAACCTTAGCTAAGGCAATTTTAAGAGCAATAAAGCCTCCTGGAAAAATAGAGCCTAGTTCCAAAATATTTTTTAAGGGAAGAGAATTACTTTCAATGAAGGAAACAGACTTCAAAAAGGAAATTCTTTGGAAATCTATATCCTATGTTCCTCAAGCTTCTCAGAATTCTTTAAATAATACTATGAGGGTTATTGATCATTTTTATGACACAGCGTATTCTCACGGCTTAAGCAAAGAAAAGGTTACTGAAAAAGCGTTAGAACTTCTTAAAATGGTAAAACTCGATCCAGAAAGAGTAGCTAGGGCTTATCCTTTTCAATTAAGTGGAGGAATGAAACAAAGGGTTCTCATAGCTTTAAGCCTCTTACTTGATCCAGATCTAGTAATAATGGATGAAGCAGTAAGTTCTTTAGACGTGGCAACTCAAAGGTATATCCTTGAAATAATTAAGGACATTAATAAGAACATAGGAACGTCAATAATTTTTATTACGCACGATATTTCAATTTCTGCGTATCTCTCAACTGATATTCTAGTTTTATATGCAGGAGAATTAATGGAAGAAGGTAAGGCTGAAGCTGTAATAAAAACTCCTTTACATCCTTATACTGCTGATCTCATAAGTTCAGTTCCTTCGATAGGGGGATCTATGCAAAATATTAGACCAATAAAGGAAGGTCAACCTTCACTAGTCGGATGTCCTTTTAATGCTAGATGTAATAAATTAATGGATTATTGTAAGTTAAACCATCCGGAAGTATATGACGTAAATGGAAGAAAGGTAAGGTGTTTCCTTTATGGAAATAATAAGGATAAATAATTTAAGCGTAAAATTTACCCAAGGTAGTTTTACTAGAAGAGTTATTTACGCCTTAAGAGACGTTAACCTTGGAATAGACGATAGAGAAACAGTAACTATTATAGGTGAGAGCGGTGCAGGGAAAACAACTTTAGCCAGAGTTTTGATAGCCCTTGAGAAACCAACTTCTGGAGTATATCTTTATAAAGGAAAAAATGTATGGAAAGATAGAAAAACTAAAAAAATTCTAAGGGAAGAAATCCAGTATATTTATCAAGATCCTATAAGTTCTTTGAATCCTTCTAAAACAATAGGAGAATCTCTTTCATATCCTATAAAGAAACATCTTAAATTGAAGGGAGAAAAATTACATGCTAAGATTTCTGAATTGCTCAATTCAGTAGGTTTAGATAATTCGGTTATTAATAGATATCCTAATCAATTATCTGGAGGTCAGTTACAAAGAATAAATATAGCTAGAGCCATCTCAGTTAATCCGAAAGTTTTGATAGCCGACGAACCCGTGACAATGCTTGACGCTTCATATAGAATAGGAATTATAGATTTATTAGTTAATTTAAAGAACGAAAGAAATATGACATTAATAATGATAACTCACGATCTAGCTATAGCAAAATATTTAGATTATAAAGCAGGGGGGGTTAAGAGTTTCGTATTTTATGGTGGTAGGCTGATAGAAGAAGGATACATTAATGAAATAATAAAGAATCCTTTACATCCTTATTCAAAGTTTCTTGTAAGCTCTTACATAGATATAAACAACGAAGGAGAAAATATGGAGTTCCTAAAATATAAGGAAGAAGGAATAGCTAAAGAAGGGTGTCCATTCAGTTTAAGATGTCCATATGTAATGGAAAAGTGCAAAAAAGATTTTCCTAGATATACTCTAGATGGCGATAGAAAAGTAGCTTGTTATCTTTACGGTGGATAATTTGAAGTTGCTCCTTATCTCAGTTTTATTTCTCTTGGTAGGAATTATAATGATTCCTTTCACAATATATTATTCTAATACAACCGTCTATTCAAATCATTTCCATCTTTCATTATCAGATCTCGGAGGAAGTACGGTATCATATAAAGGTTCTACTGGAGATAAAGTTATAATTTGTGGATATTCTACATCTTCCATAAAGATAATTGTATTAAATCCACCTTTAGGTGGAATATATTTAGGACAATTTAATGGGAATTTTACTACAAGTTTTGACGCTACACCTTTTAAACAAATTGTAATAGAAGGAGGAAATTATCCTGCCAATGTTACTGCTAGTATTGAGACATATAATACTAATTTTTCCGGGATAGGATATACAATAGCTGGGATCTTCTTAGTTTTAGGTCTAATACTCTTATGGTATAGTTATGCACTTTCATTAAATAAATCCAAAATTCATAAATCAAAATTATAATTCTCTACTTTCTTTTCTAATTTTATATATAGAAAATACTATTGCAAATATAGAAATGGCTAAAGTGAATGATAGTACAATGTCTAATGAGATTATTCTATAATCAAAAACAAGGGAAAATATCGATAAGAAAAGGAAAATGTAACCAAAAGCCAAAAGACCTCTATACTCGCTCATAATATAAATATGAAAGTAGTTTCAAATAAACTTTATGTTATAAATTTCGAAATTATTTAATCTATAATTGAGTCAAGATTTCCATATATAAGTTTTTTAACTTTTGAGACAAATCAATCCATATGAGGCTTCTTGATTACCTAAAGCTTGTATGGAGAAATAAGAAGGGCAGAGTAGGTCTATTAATCACAATATTCTACGTTCTTTTAGGAACAATAGGTCCATTAGTTGTTCCTAAGCCTGTCATAGTTAATATAAATCCTAGCATGATATTTAGACCTCCCATGTTGAACCCTTACTATATCCTAGGTACTGGGCCAATTGGTGACAGTATTCTAGGAGATATAGTTTGGGGAGCTCCATTCATTCTAGAGGTAAGCTTTCTAGCTGGATTATTCACAACTTTGATAGGAATAGCTGTAGGAATGATAGCTGGATACAAAGGTGGTATACTCGATAATTTACTCATGTCAGTTAACGATATAGTAATGACAATGCCAAGTCTAATATTAATATTAATTATTGCAACTTCTTTAAGGACGTCAAATCCATTTATATTAGCTGCCATATTGAGTATTAGCGGATGGACAGGATTAGCTAGAGCTATTAGATCTCAAATACTTTTAATGAAAAACCTTCCTTACGTCGAAGTAGCTAGAACTCTAGGATTAGGAAGTCTACATATAATCTTTAGGGAAATAATGCCTACAGTAGCTTCCTATATAGCAATACATTTTATTTTTAATGTGGAAAACGCACTTTATGCAGCAATAGGATTATATTTCTTAGGAGTACTACCGGTTAGCCAATATAACTGGGGAGTTATGATTAACGAAGCGTTACAAGATGGAGCAATTTACGGCAATTCTGCAATTTGGTTCCTATTATGGCCTTCTCTGTTTGTTGTCATGTTTATGACAGGATTAATAATGTTAAGTTATGGTATAGACGAAATATCAAATCCGAGATTAAGGAGGGTCTAAATGCAGATCCCTTTTTACGTAATAAATAACATAATGATAGACGGATATTTCATGAATAAATTGTCACAAAAGGAAGATAGGATTCTTCTTGTTAGAAATAAGAGGCTAGGATATCCTTCAGGAAAAATAGAACCTTTACCTTATACATTAGTAATTTCTTTGCTGGAAGAAGGATATTCAGAAACCTTGAAAACTACTTCTAAAGAATTAAGAGCTTCAGAAGTTTTAGAGAGTATATTTTACAATCCGTCAATATACATGAAAAATAGGGAAAAAGAAGTCATAGAGAAGACTCTTAGTAAGATGTATGGAGAGCTTTATTCAAGACTCTTGAAGCTTATAAAAGATGCTAGTTATGAGATTACATGGCATAATATTGAACTCATAGAAGACCAGATTATCTTTAACAGTGTTCCCGATAAGATATATACTAAGTTATACTTGAATGATGAGAAGTTTAAGAACGAATTCCTTAAATTATCGTATTGAATATTTATTAACGTAAAATACACTGCAATGTTATGAGAAAAGAAAACGAGATTTTCTCGAGAATCTCATATATTTTGGCGAATTCTTTTTATGATATAAAATATCTAAACTGGGTAAATAATAACGGATATGTTATAGATCTAGAAACTAATGAACCAAGACATTTAATTGTTATTGACTATCAAGGATCTGCATTGGTGAAAATAAATTCCAAACCGTATTATGCTTTGGACGGTTACCATAATACTTTTCCTTTACCATTAGGTAAAATAAAAATAGAGGCTATATTTTCTCCATACAAGGCGTTTGGTGATAAGGTTCAGATAGATCCAGGAAAACCTGCTATCTTTAAAAGAAACTCTTCAGCATATTTATTATGGAGTTACGCTAACGCTACTCTTCAATTAGCTAAAAATTCTCAAGGATATTTAAGGGAAAAATTATTAACAATTCTTACAGAGGCACTGTCTTTATCTCCTTTTGTTTCAGTATCTAGAGACCAATTATTTCTAGCGTCCAAATACTGGAAAGAATTTCCTAATTATTTATTAGAATTTTCACAAGAAATGAAATACGAAGAATACACAGGAAATTACGATAACGCATTAAGATATTTAAGGGAAAAATTATCGGAACTGAGAGAAACCTTTGGAAAGGCTGGAATAGTTCAAGGTATTGCTCATGCTCATACTGATACTGCTTGGCTATGGAATTTCGATGAAACTAGGAGGAAAATAGCTAGAACATTTTCTACTGTAATTAGCTTAATGTCGAAGTACGATTTTCATTTTATGCAAAGCATGGCAATATATTATGAATGGATAAAGGAGGACTATCCAGAACTCTTCGAAAAAATAAAGGAAAAGGTAAATGAGGGTAAGTGGATTTTAGGTGCAGGTTGGGTGGAGTTTGACGCAAATTTACCTTCTGGAGAATCATTGTCAAGGCAATTGCTCTACTCTCAGGAATTTTACCTACAGAATTTTGGTAAAATGTCTGAAATATTATGGTTACCTGACACTTTCGGATTTTCTGGTCAGCTTCCTCAAATAATGAAATTATCAGGAATAAAGATGTTTGCGACCCATAAAGTTTTTTGGAACGACACTAACAAGTTCCCTTATTCCTTGTTTAATTGGATAGGAATTGACGGAACGTCAATAAATGCCGTAGCTTTTGGTAATGGAAAAGGAGGATATAACTCAGATTTTAGCGTGGATAGTGTAATAGATCAATGGAATAACTGGAAAGATAAGGATCAACCTATGCTTTATTCTTACGGCTATGGAGACGGAGGTGGAGGACCAACTGAAGATATGTTAAACGAAGCAAAAGCTATAGACGAATTACCTTCAGTACCTAGAATTAAACTAGACGGTATTCCACAATATGAATCTGAAAATTCATGGAATGGAGAACTTTACCTTGAAACGCATAGAGGAGTTTACACTTCGCATTCTAAGATGAAATATCTTCATAGAAAGGCAGAAGTTGCTTTAAGAGATGCAGAAATATGGTCTACAATTTCTGGGAAATATGATCAGAAAATCAAATCGTTATGGAAAATACTATTAAAGGATGAGTTTCATGATGTTTTACCTGGCTCTGCTATAAATGAAGTCTACAAGACTGTTTACCCAGAATTGGAGAATATTATTCAAGAAAGTGATAAAATTTCCTTAGATTCTCTTAAGAAAATTGCAGGAGAAGGAGAAAAAACAATGATATTTAATTCCTTGTCGTGGGAAAGAGAAGATTATGCAATAATAAATGAAGAAGTTAACGGGTCCCAAAAGATTGATGAAGGATATTTGATAATGGTAAAGGTACCTTCATTAGGATTTACTGAATATAAAGAATCTCCAGTATCTCCAGTGTCTATTAATGGTCTAACAATGGAAAACGAGTATTTAAGAATACAACTTACTCCAGAAGGTTCAGTAGTTTCAATTTATGATAAGGAAACAGGAAGAGAAGTTTTACGATCTCCTTCAAAATTAATATTCTATGAAAACATACCAGGCTGGGCCGATGCGTGGGATATAGAGTCATCATATAAGGATACTTACTTTGAAATTAATGCTGAAAAATATGAAATAAGGGAAAAAGGTCCCTTGAGGGCTTGCATTAGATTTTACTATAAATTCAGAAACTCCGAAATAATTCAAGATGTATATTTATATGCAAAAAGTAGAAGAATAGATTTCAAGACGACTACGAAAATGATAGATAGAGAACTACTGTTGAAATCTTGGTTCTTCTTCGATCTAAATTCAAACGAAGCAGTCTTTGAAATACCTTATGGAATTATAAAAAGACAAACTAACAAGAACACCAGTTGGGAAAAAGCTAAATTTGAGGTACCAATGGAAAAGTGGCTAGATATTTCTGAAGATAATTACGGTGTGGCTTTACTTAACGATGGGAAATACGGTGTATCTGTAGAAGGAAGTAATGTAGGTCTTTCAATAGCTAGATCGCCTATGTATCCAGATTATGCTACAGATTTAGAGACTAATACATTCACTTATTCAATATATCCGCATAAAGGAAACTGGAAGGAAGCAGAAGTTTTCAAAAGAGCTTATGAGCTTAACTATCCATTAAGATCTATTAAAGGGAAAGGAGGGGAAAAGAGTTTTCTGAAGCTATCTCCTCAGAATCTAATTCTAGAAGCAATTAAGGAGGCAGAGGACGGAAGAGGCATCATAATAAGGCTTTATAACGTAGAAAATAGCAGGGGAAGAGGAGAAATAGAATTATGGTATTCGCCTAAGAAAGTATCTTTAACCAATATCTTAGAAAACGAAAACAATAAGGAACTAGAGACTAACAATAATAAAATCCAGTTAAATTATAAGAACTATGAGATAATTTCTTTAAGATTAGAATAACTTTTTTCCACATAAAATCTCTCATATTTAGATTTGAAGAATTTTTCCATATACTGATCGTCAAAATATTTTATTTGTGATTCATGTTTCTTTGTTGCTTCAAACTTCACATCCATAAATTCCTCAATATTCACATAAATTGCCTTTTTCATGGAGATTTTCCATTCTAAGTACCTTAATGTTATTTTAAGATTTCTAGAAATCTTAGGTTCCCAATTTAAATATGATAACTGATCTGCTTGAATTCTTGCTTCATGTATAGCTTCCTTCATTATCTTTCCTGCAGCCCAATGATCTGGATGTGCTTCAAAAGTTGAAGGATAAAAAACAACGTTTGGTGAGATGTTCTGGAGGATTGGAATAGTCTTCTTAACTGCATCAGAAATAAACTTACTTAGTTCTCCATCAGGATATTCTAAAAAATATGCCTTATTAGGATCTATACCAAGAACTTTCAATCCTTCCATAGCTTCTTTCTTTCTTATTAATGCTAATTTATCTCCTCTTTCTTCAGGATATGGCGAACCTAATCTTCCATCAGTAAAATAAATTATGTAAATATCATTATGTTTAGATAATTTAGCTAATGTTCCACCAGCATTATCACATTCGTCATCAGGATGGGCAGATACGTAAAGAATCTTCATTTTTTATCACTTAAATGTTCTAATGTATATTTATATGTGAAACTCCACAATGCTGCGCTTCCTGCATAATGATCCAAGAAAGGTTTATCTGGTTTACCGTCTTCTCCATGAATTATGGAAGGATGATTCCACGTTAAGCCTTGATTAACTAAATTATCCCATTCCTTTTTTGCTAGACTTAACCACTCTTTCTTACCTAAAGAGTAAGCTAAGGCTGATAGGCTGAAAACAAGTCTGGGCCAAGATGAAGTTAATTGACTATCTATATCAACTGGACCGCCATCTTCTCTTGCCATATTGGGTGTACAATATTTTGAAGAATTCCCATTAACTCTATATATAGTATCTAAGGAAGAAATTATCTTATCTTTATCTGTTATATCTTCTATCCCAAGAATGAGGGACCACCACTCTCCGAATATCTGAGCTGCAAATGACGCATTATTGTGCTGAGGCTTTCCGGTCCATGCTATGAATTTTTTCCCATCAAATAGTCTATTAAAGGAATCCTTAGCTTTTTGAAGCAATAATCTCATTCTCTCGCTATTTTTTGAGTCTCCTAAAATTTGGGAAATTTCGATCATAGAGATTAAAGATGCTATATATAATGAAGAAGTATAACTCGAAGTACCTTCCATTGGCACACAATCATAGCCTGTATCACAAGATCCGTCTAGGTCTGGCAATCCATCATTGTCCTTATCCTGCTTTATTATCCACTCCATAGCTTTCAAGACTGTAGGATACATTTCCATAAGGAAATCCTTATCCTTAGTCCTTATGTAATATCTATAAACAAGAAGAATAAACGTCGTATTAGTATCCTTCCATTTAGGAGGAGCAGTAGTCCCATCTGAGGGAGAATCCAAAGAGTAAGTACCTAAATCATGTGGTACATATCCGTCTTCTCTTATGCTTAGAGAAATCATTTTAAGGAAAGACTTCTCTAGCTCTGGAAACATTAAAATTATAGGCAAAGATCCAGTCTCATAAACTACTCCACCTATTGTACCTAACATAGGACCTATCTCTGGAGCCTCATATATTGAGAATCTTCCTTTTTCGTCTAACCACGTGCTAGACGATAATATGTAAGTACTGTTTATCACGGCATCTTTTAGCCATTCTGGTAAACTTGGGTCAATAAGATTTTCCTGCCATTCAAAGGTTTTCTTCCTGAGAATATCGAAATTATCTAAGAAATAATTAGCGACCTCTAGAGAACTTGAGAAATAATTAGCATAATAATGTCTATAAGGATAGTAAACCCAAGGTTTATTAAAATACCAAGATAATACGAATTTTAATTCTTCTCCTTTATCATATCTGTTTGAGATTAATCCTGCTGGTAAATAATAAGACCCTTGAGATTCTCCATCATCTGAAGGATAATCCTTATCATTAAGTAAAGCGTCCCACGGTGCCTCATTTTCTATTAACCTATGAAGATTTAGAGTCTTTTCCAATCCTCTATTTACATGAAAATTATATTGCGTTATTATTTTACTAGGCGAAAGAGAAATTAAGGACATTTCTCCATTATATGGGTCGTATTCATTACTTCTCGAATTTTTTGTTCTTATCCCTCCCTTAACTCTCTCATTATATCTCCCTATTTTATTTAGACCACAAATGTTAGAAATTGAAACTGCTATTGTTCCACTACTACTTCCTTTAACTTTAATCGAGATTCCTATAGAAGGTAATGAAGAGTCTAAAACATCCGAAGGAATTATTGGCGAAAATGCTTCCATAACCGCATTAACTTTTCCACCACTTATTCTTACAAAAGGGTATTTTCCTTCATACGTTAAGTTAGTAGCTAATTTATTTAAACTAAGAAATCTTAATTCTTTTTGAAGAAAAAAAGGTTCAGAATCGTCAGGCTTTATGAATATATGAAATCCCAACATTTCCTTTATCGGAAATGTCCAATTATTTGCTATTGTTAAATTTACCATTTTGCCTTTATTATCAATCTCTATTTTACCCGCTCCTATTCCTCCTAGAGGAACTCCGGAGCCTATTCCCTGATCTGAAGTATAGGTTACCATTTTATAGAAAATTATGTAAGAGAATTAAAAAGATGAACTATAACGCTGAACCAAATTAACTATATTAGTTATGTGTTTTTACGTTTAATTACCTAATAGAATTATATTTATTTTCACTAAGTTCGACCTTTTGCTATAGTTTTAGTTTTTTTCTATGATGTTACATTAACCATATAGGAAATATTTAGTATTTATATAATAATTACATAATACTGCTTCGATTAACGTATTTTAGGGATTTAGATTAGCTTTAAATTATCATATCAAAACAACTTTCAATGCAGATAAGCATAGAAGAAAAAGACGGTATTTATAAGGTAAAAGTTAATGAACCTTTTCCTCCAGTAGATTACGGATTTAAGGGAAGAGAGTCAAGTAAAAGAATCTCAGATTTTTCCTTAGAAATAAAGGAGGAAGACTACATAGTCATAGAAAAACCTTTGGAATTGAAAGAACACATATTAGGATTAGGTGAAAAGGCAGTAGAACTTGATAGGAAGAGAAAGAGGTATATCATGTATAATGTTGATCCTGGAGCGTATCAGAAGTTCCAAGATCCACTTTATATTAATATTCCTTTTATGATATCGGTTTATGAAGGAAAAGCTATTGGCTATTTCGTAAATTCTGCTTCTAAGCTTATTTTTGATATAGGTTTTGAGGATTACGGTAAAGTAAGGATAAAAGTTCCCGAAAAATCCTTCGAATTTTACGTAATTGAAGGACCTACTTTGGAAAAAGTCTTAGAAAGATATTCTGAACTTACCGGTAAACCTTATCTTCCACCTTACTGGGCTTTTGGATACATGATTTCAAGATATACTTACTATCCTCAGGAAAAAATAATAGAGCTTTTAGATCTAATGAAAAAAGAAGGTTTTAAGGTAACAGGAGTTTTCCTCGATATAGATTTCATGGATTCCTTTAAATTATTTACATGGCATAAAGAGAGATTTCATGACCCTAAGAAATTTTTGGAAGAAGCGCATGCTAGAGACGTTAAGGTGATTACAATAGTTGATCATAGCGTTAGAGCAGATCAGAGCTACAACGTATTTACTTCCGGTATAGGAAAATTCTGTGAAACTTCTAAGGGAGAGTTATTTGTAGGAAAGTTATGGCCAGGGAATTCAGTTTATCCAGATTTCTTTAGGGAAGAAACTAGAGAATGGTGGAGCAATTTAATAAATGAATGGGTATCGCAAGGTATTGATGGTATTTGGTTAGATATGAATGAACCAACAGACTTCTCTAAAGTATTTGAAATAAATGATATCTTTAAAGATACTCCAATAAAAGTTAAGGACGACAGATTTTATACAACTTTCCCTGATGACGTAATACACTATTTAAACGGCAAGAAAGTTAAACATTCTATGGTTAGAAATGCTTATCCTTACTATCAGGCTATGGCAACTTCTACAGGTTTACAAAAGGCTGGAAAATCTTTTGTATTAAGCAGATCTGGTTATGCTGGAATTCAAAAATACGCCGGAGTATGGACTGGAGATAGTACTTCTTCGTGGGATCAATTGAAGTTACAGATACAGATGGTTCTTGGTATTTCTATCTCAGGAATCCCATATGTAGGAATAGACATAGGAGGATTTCAAGGTAGAGGGTTAAAGGAAATAGATAATTCTCCCGAAATGCTTATGAGACAATTCCAGCTGGCTCTATTCTTCCCATTTTATAGAACACATAAGGCTACAGATGGAATAGATACTGAACCAATATTCTTACCGTCCTACTATAAGGAAAAAGTCAAGGAAGCCATTGATACAAGATATAGGTTCCTTCCTTACCTTTATTATTTAGCTAAAGAAGCTCACGAAACTGGACACCCAATAGTGAGACCACTATTTTACGAATTTACTGAAGACGAAGATACATTTAGAATAGACGACGAATACATGGTAGGCAAATCCATTCTTTTTGCGCCAATAGTTTCACAAACTGAAAAAAGAAAAGTATACTTACCTAAAGGTAAGTGGTTAGACTACTGGACAGGAGAAATTGTTGAAGGCTGGATAGATTCTTCAACAGATCTTCCTATATATATTAGAGAAGGGTCAATAATACCACTTTCAGAGGGAGATATGATAGTTTACGGAAATGGAAAAATAGATTATGATGATACAGCCATTCAGAGTAACGGAGATATAACTTTCTCTAAGCCTTTCTTTATTAGAAACCTCACAGTAGTATCTTCAGCATCTAAGGTTATAGTAGACGGTAAGGAATTCTCATTCTCTAAAAAAGGAAAAAGTATAATAATCAATGTAAATAAGGAAGTAAAAGAAATAAAGATGATGTAATTGAAGTTTCCGAATAATTGCGGAATACCAATAGGCTCTATGGGTACTGGAAAGATAGATTTCTTCAGCGATCTGACTATAGGGAATTTAACTATAATGAATAATTGGAGCACTCCTCTAAAGATAGTTAGAGGATTTCACATTGTAGATCTTGCAACAGGGACTTTCCTACAAGGAAATCCATCAAAAAATTCAGAAATTAAATTTCAAACTAAGACAGCCAAGATAGAGGCAGACGCTTTCTTCCCTCAAGTGGAGTATAAAACAGAAGACCCAAATTTTACAATAAAGGTTTATTCTCCTTTTATTCCAGGTAATCTAAAAGATTCTTCATTACCCTCAATAATTTTTAACATTAAAGGAAACGGGATAATAGCTATCTCCTTCCCTAACTTAACTGGTAGTAGAAGATGGGGAAGAGCTAACTATAAGGTAAAAGGAAAAGTTAACGGCGTTCTAATGACGAATTTAAGGGCATTACAATCTGATCCAGCTTACGGAGAAATATTTCTAGGATGTGAAGGTTGCAAAGTTCATGTAGGTCATCCATATTGGGTTCCAGCATTAAAGGAAGGGATGACTGAAGATGTCAGTATCTTTGATTTAAATAAACTAAATGAGTCAGAAGATAAATATTACATAAAACCCTTTGCTAGAGAAGAAATATCTGGTATAGTATGGAAGGAAGTTAAGGGAGAAGAGAATTTCTACATTACTTGGTATTTTAATGGAAGACCTCATCATTATCCTTATGGCCATTATTACGAAAATTGGTTCCAAAACGCTATAGATATAGCTGAGTACATAAATGAGAGAAAACCTGGAATAGAGCTTGACGAAAGTAGGGACTGGTTAAACGAAGGTTTTAGGAATAGTTTATACGTAATAACTCATAGTTGGTTAACAAAAGACGGAAGATTTGCAATATATGAAGATTCCAAGATATCTCTTTTAATGAATACTATAGGAGGAATGACATGGGACGTAGCGTCTTTTGCACTCTTAGAATATTTCCCTGATCTAATCAAAAGAATGGACGAATATTTTGCCAATTATATTATTGATGGAGAAGTTCCTCATGATATAGGAGAAGAATCAATAGAAAATCCGATTTACGGAGCTTCTTTTCCTTATTCATGGAACGATTTAGGTCCTACATGGATTTTAATGATTTATAGAGACTATAAATTGACTGAGGATAAAGATTTTCTCAAAAGAAATTATCCTTATATGAAAAAAGTTATGGATTGGTTAATAAAGAGGGACGAAGATGGAGACGGAATACCTGATTCAAAGGGCGGTTTTGATAATTCTTATGATGGAACATATATGTACGGAACTTCGTCTTATGTAGCATCGTTATTTTTATGCTCTCTTAAGGCGTTCATCTCAGCATCTGAGATTTTAGGTTATGAATACTCTGAGTATTTAAGAATCTTAGATAAAGCTAGGGCATCAATGAATTCCCTGTGGAATGGAAAATATTTCGTAAATTGGAAATATAAAGACAATGAAAAGGATTCTTGCTTGAATACTCAAATATTAGGAGAATTCTGGTGTGACATCTTAGGTTTAGGTAACGTCTTAGATGAGGACAAAGTAATTTCTGCTTTAAAATCCATATATGAACTTAATGGAAAAGCTTCCAAATTCTGTCTAGTAAATTCAGTAAATCCTGATGGAAGTATAGACGAAACTACTGACCAGATGAAATCATGCTGGCCAAGAATTTCGTTCGCTATTGCGTCTCACATGATATTAAAGGGAATGAAAAAAGAAGGAATAGAAATAGCACAAAAAGAATGGAACACAATATCTAGTAGATATCCTTGGAATCAACCATCGAAAATTAACGCGTTTAATGGAGATCATTTCGGTCTTCCGTATTATATAGGTAGCCTATCGATATACTTGGTGAAATATGCCCTCAAAAATAGTTCTCACCATTAAGATATACTTTTTCAACTTTCAGATCTTCATCTAGGATAACTATGTCTGCTTTTTTCCCTGGTTCCAATGAACCTCTATCCTTAAGATCTACTGCCATAGCAGGATTTTGAGATGTCATTACTACAGCTTCGCTCAAGCTCCTAAGAGAACTTAAATTCCTAAAAGCTTTATCCATTGTTAGCGTACTTCCAGCTAATCTCCCTTCCCTTGTTAACGCTTTACCGTCTTTTACAGTTATTGTAGTCTTACCCAAAGTGTAATTACCATCCTTCAAATCTGTAGCTATTATTGAATCAGTAACAGCTACTATCCTATTTATTCCTACGGAGTTTAACAGAAATTTTATAACCTCTCTGTCAACATGTATAAAATCGGAAATTATCTCAATATATCTAGAAAAATTTATACTAGCTAAGATAACTCCAGGATCTCTATGATGAAAAGGCCTCATAGCGTTAAACATGTGAGTAGTTCTATCTGCTCCAGAGAAAAAGGCCTTTACTGCAGTATCGTAATCTGCATCGGTATGCCCAACAGAAGGATGAATTCCAAGTTTTGAAAGAACACTTATAAAATCTAGGTCTTTTTCCGGAGCAACAGTAATAGTCTTTATTTTACCCTTACTTAATTCTAAACATTCCTTTATTTCTTTAACGTCAGGATTTCTTATATATCTAGTATCCTGTGCGCCTGCATGTTTCTCGCTTATGTAAGGACCTTCCAAATGTATTCCGGGAATAGATTCGTCTTCAATTTCTCCAATAGCCTTACAGGCTTCCATTAAATTTTCTTTAGGTATTGTAACAGTTGTAGGAAGAAAAGTTGTTACACCGTGCTTTAAATATATTTTTTTCATTTCTAACATATTTTTTATAAAATCTTCTTTATTGTCCCATGACGTAAAATCGTATCCACCAATACCGTGAGTATGAATGTCCACAAAGCCTGGAATAGCTATCATTCCTTCTAAATTTTCTCCTTCTTCTTTACCTTCCTTAATTCTCTTAATTTTACCTTCTTCAATTTCTATGGTACCTATAAATTCTCTATATGGAGCGATTATTCTAACGTTTGTAAGCTTCACAATATTTAAGAACTACTAACAAGCAAAAAAATGTATGGGAGGAATTTTCGGTTTTGTATGCAAAAATCCGAACGACGTTTCGATTGTAGTCAACGGATTAAAAAGATTAGTATATAGAGGATACGATAGTGCAGGCATAGCATTTTTAGATGGAGAAATTTCTGTCAAAAAAATTGTAGGAAACATATCAAAGAATTCCATTACGTTAAAGGAAAAATCTAAAGTAGCGTTAGGCCATACAAGATACGCAAGTAGAGGATGGCCAACGTTAGAGAACGCACATCCGTTAATGGATTGTAATAGAAAGATAGCTGTAGTAATGGACGGAGTAATAGACGATTATGAGGAAATAAGAGATAAGTTGACAAAAGAAGGGCACAAGTTCGTCTCAACTACAGATACTGAAATAATACCTCATCTACTGGAGAACAGTAAAGACTACATAGATTCTGCTATAGATATTATCAAAAATGTTAGAGGAATATATTCCTTTGCGTTCATAGTAGAAGGAATAAATAAAATATTTGCTGCATCGTCTGGACAGCCAATTGTAATAGGAGTATCAGACTGTAAATATGTTTCAAGTGATTTGCCTTCATTAACTGGTTTTGCAGAAAATGCATTAATATTGCCAGAAAATTCTGTAGCAGAAATATCTTCAGACGATGTTAAAGTTTACGATCTACAAAGAAATCAAATAAACGCAGTAAGTAAGAGAATAAAGTATCAGGAAGAAATAATTGAAAAAGGGGGATTTCCCCATTTTATGTTGAAGGAAATATATGATATCCCATCTTCCCTTATAAGTTCATACACGTCACTAATGGAAAAATACCTAAGCTTAGCTGCTATGATTGTTTACGGTGCTAAAAATGTTTATGTTATAGGTAATGGAACCAGTTTACATGCAGGACTGATTTCCTCGTATTATTTCTCAGAAGTAGGAATAAACGTTAACGTAGTTAGCGCAGCAGAATTTCCTTATTATGCATTACAAAACATAGGTACTGGATCAGTAATAATAGCTATAAGTCAAAGCGGAGAAACTTCGGACGTAATAAGAAGCGTTAAAATGGCAAAGCAAAGGGGATCAGTTATTGTGGGAATTACTAATTCAGTAGGCTCTAGGTTAGCCCTAGAATCTAACATATACTTGCCCATAACTGCAGGACCAGAATTAGCAGTACCTGCAACTAAGACTTTCACATCAACCTTGGTAGTGCTAAGAACATTATCGCTTTATACTGGATTAAATTCAGGTAAAAAAGAAAGATATGATCTAGATCAGTTCAAGACAGATTTAGAGAAACTTTCTTCATCATTATCTTCATCATTACCTCAAATAGAAAGACAAGCAGAAGATGCAGTATCAAAAATAACTAAGGAGAGTATCTACGTAACAAGTAGCGGAATAAATTTCCCAGTAGCTATGGAAGGAGCTTTAAAATTCAAAGAAGCTTCAATGATTCATGCTGAAGGTATACAATTGGGAGAATTACTTCACGGTCCTATTGCACTAACTAATAAAGGATATCCTATAGTTATAGTAAAACCTGCAGAGGAACAAGCATACGACTTGTATAATAAGGTTATAAAATCGATTTCAGATAGAGGAAGTCCAATAATTTCAGTCTCAGTTGACGGGATGGTAAAAAGCGTAGAAACAACTAGGGAACTGAGTCCAATTGCTAACGTAGTTCCCTTACAGCTTATGGCATACAAACTAGGAGTAAAGAGATCTTTACCAATAGATACACCTCCAGGATTAGTAAAAGCAGTAGTAAGCTAAACCTTATTTTCTTAGTTCCTATCATTATAGTATGAAGTCCATAGGATTTGCCATTTTTCCAGGTTGGAAGGAAATTTTCGAAAGACAAAAAGAGATGATTATAAAAGGAGAAGATTTAGGTTTTTCAGAAATATTCTTCGGAATAGGAAGAGGAGTTCATACAAAATCTACTCTTGAAGCTATTAAAAATGCAAAAGAATTGTTAAAAATAGCGAACAAATTAGGATATTACTCATTCGTAGACATAAACCCTGAAATACTTGCTGAACTTAACGCAAGTCCAGATAATTTAGGCATATTCAAGGCTGTAGGCTTTTCTGCAGTTAGGATAGATTACGGGTTTAGCATAGAAAAGATATTAAGAATGAAGGATATAGGAATAGAGTTAAACGCATTTGATTTTCCCCAGGATAAAATAGAGTACTTGCTAGATCACATAGATCCAGAGAGAGTTAAGGCTACGCATAATTATTATCCTGTTAAAGGTAGCGGAATAACAATTTCACAATTAGTTGAAAAAAGTAAACCGTTCGTCAATGCAGAAATTCCTGTAGGAGCTTTCGTTTCAGTACCTTCAGTCAAAAGCGATACTACTGTAGAAGAATTGAGAGAAAAAATGCCAGGCGAGGCTGCAAAAGTTCTCTTTTCCACAAAAGTCATCAGCAGAGTATTAATAGGGGATGCTAATCCTACAGATGAAGAAATGAAAGATCTTTCCATGGCATTACGAACGTATTAATTGATAAGTTAAAGACGAAACTTATTGATATTTTGAAAATCTTTATCTTAACAAGGGGCGTTCAGTAATAAATATTTCGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGCGATTTATGGTCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAACTATCCTCAATTTCCTGGCTAAAGCAGACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTTTAGTTTAGGATTACGAGAGTAATTCATCTCAGCTAGGAAAACAAGCTGCGCAAGTACTTATTACCCTTCTTTGGTATTCCCTTACAGTAGCTTTACCGCTCCTCTCATTGGGTCTAAACCGCAGATACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCTCCAACAATGCCTATTATTATCCAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAAAGTGATTTTCAGACTGTAATTTTATCACTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTTCCAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAATTTCCTTGCTTATTTTTTCCTCGTCACTTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTTCAACTTTTAGGAAGATATATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTACTAGTTTTTGTAGTAAAAATCTGTTTTCCTCTCAAGTCCTTCTCCTTCCATAGTATATTTGGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTGTTGTTGTGTAGACCCTCCCCTCACTCGTCACATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGTTCAAGGGAGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATTGCCCCCTTTGTGGTTACATTTAAATACGTATTTTTCAAATATTCTATTAATGGCAGTCACTGACGGAGTAAGCGTCACTGAGACGCCTTGGTTAAAGCGAGGGTCTATGTGGTACGCCTCTGCTCCATTCAACAGTCCCATATTGGGATACTGTGGGTTCACATTAGTGCTCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCCCGTCCGTTAGGGCGGAGTAGTTCACAAATGCGAAAACCTTATCTTTAAACATTATAAAAAGATTCTTAAATTTATTATAACTTTCTTAGACATTAAAGTATAAGGTTACAGAATAAGATAATAATCCATAATCAACCATATTAAATCGTTTCCTTGGCCTTTGGAGTCTAATGAAGTATAACATAACGTATACATTAAATAATACGCCTATATTTTATCTTAACAAGGAGTTAAAAGGGGACAGAAGACTCCGTAAGAGTGGAGATGGATACCCTCCTTTGTAGTAAAAATTAAATATGGAAAAAATCCACACCTATACTAATGATAGTCACTGACGGAGTAAGCACCTCTGAGACGCCTTGATGCGAGGGTCTATGTGGTACGCTTCTGCTCCAAAGTCCCATTTGGGACATCGATGGCATTCATGATCGGAGTCGGAACGACCCTCACTGTGGAACCCCACCCTCTGCATTGCAAGGTGGAGGCTTTGAAGCAGGAAGCCTTGTCCGTTAAGGCGTGGTGGTTCGCACTATATATTTTGCTATTAATACGCAAGAAATGGCTAGATTCTTTCTGCTCAAACAAAGCTTATTAGCTAACTATTAGATTATATATTTATGGCTGAGTATATTGCTAAATACATTGTGTCTAAGGGTTACAGAAAAATTGGAGAGATAAATACTAGGTATACTGCTAATGACGATGATGAGAGCATTAAAATTGCTAAATCTGCTTGCGAGAAGTTAGGTGAGGAGGACGTTGAGGAGATAGTTATAGGGAAGATAATAGGTGCAGTAAGTGGTGCGGTAATTGGTAATTCACTAGATAAGTCCGACGATGATAAATTGCTTGGGACTATAGCTGGTGCAATAATAGGCACGTTGACTGGTCACATTATAGATTCTATAATAACTAAAGTGATATATTCCAAGAAATATCCTTGTATTAGAGCAAGATCATTAGACGATTTAGATAAATATATTGATACTAAGAGATTAGAAGAGATAGTTAATGAACGTTGACGAGTTTATCAACTTATGCGATAGTTCATACGTAATTTTGGATACAAGTATAATTTTGGATTATACTAGGCTTTTAAAATCTCGTAAATCATATGAACAAAAAATGGAAATTCTATCTAGAATAATGAACTGTAATAAAAAGACTATAAGCAGTTTAATATACGAAGAAATATTAGCAGGAGCTTCTCAAAACGAAGATGAATTAAAGAGAAAAATATTATATTCATTCGAAATATTTAATATATCTGTAAACGAAGCGGAAGTAGCATCACATTTGGAAAGAGAACTAAAAGATAGAGGATGTAAGCCTAAAGGAGAAAATTGGAGAATAGATTTGTTTACTGCAGCCTTTGTATATACTCAACAATGTTATATCTTGGCTAAGGATAGAGATTTTACCAAGATATTAAATTGTGAGAAATTGGATGAAGTAGAATATTATGTTTGCAAAAGAAGTGAATTTTAAACATAGTCATCGCGATACTTTACTTATCGATAATATATTTAATCTTGAAAATTATCCATCTTGATATAGTTGCGTATTGATACTGATTTATTTTTGTTGAGATGATTTTAGGTCTACTGTATAGTTAACAATCTTATGAATTTAATTATCTATACACATAAAATTGGAGACTGGACATAAAGTTAGATTTGTAAAGAATCTTTATTTTATGTTGAAAACTTTTTAAAAATTTACGTTATATTTTAGGATATCAAAATAATACTTCCTTATATTCTTCAATAAATTAAAAATAATTTATTTTATCCCATGATATATAATACAACTATTTAAGGTGATAGAAAATCCATAAAATATCTAGAAATTCCAAATTAAATTCTAGAACTTTCATATAAAGTAGAGCCAAGTTATCAAGTATATTGAAGTCCTAACCTATTTAATAAAATCCTTAAATACGATGATTTTTATGATCGATTATGGGAGACCTCTCAAAAGATTCCGTTTCTTTTTGGAAAACAACAGCATGGGCAATAGCAGGAATATTGCCAATAGGAGCACTACTAGGTTCTATTTCAGCCACAGGAGGATATGCAAGTCCATTTGTAGTATTGTTAGCTTTCCTCTTGGTAATTTTCCTTACAATACCTATTTTAGAATATACTAGATTAGCTAAATTTGCTGGAGGATATTACGGCGCAGCAGAATTAGGATTCGGAAAAGCTGTAGGTAAATTTGTAGCATTAACAAATTATTTTTACTATATTGGATGGCAAGTGGCTAATGCGACTTACGTAGGTTCTCTTCTAGCTGTAGGATATTACGCTATTTACGGAACCTATCCACCAGAATATTCATATTTTTTAATTGGCGCGGCAGCTTTAGTAGTACCTTTCCTCTCTTCAATTCTTCATGTTAAGCAAGTTTCATCAATAATATGGTATTTAACTATTGCCGGTTTCATAATGAATATAATAGCATTTTCAATACTCCTTTATCGTTCTCATTATCTAAGTTTAAACGAATTCAATCCTTCATATTCTCCAGGAGGAATACATGGAGCTTTTCTAAGTTTGATAGCCTACGGTTTCTTTACGTTCGCAGGTTACGGATTTCTTCTTTTTTACACAGAGGAAGGAAAACAACCCTTTAAAAATACATGGAGAGCAGCAATAATAGCCTTAGCAGTTTCTACTATATTCTGGATGCTAGGAGCTATTTCAGTTAACAGCGTTTTCGGTCCTCAAGGAATACAGAAAGCGATTTCTTTCCCACAACCAGGACTTTTACTTTATGTAAAATACTTGGGTTCAGTAGGAGAATTAACAATCGTTGGAATACTTCTTATCTTAGTTGTGTTCTCTTTTGCCTCTGGAGTAGGAGGACAAGGAAGAATCTTATATTCTTTAGCTAGAGACGATTTTCTAAAATGGAAATGGATAGAAAAACTGAACAAGAATAATGTCCCAATGAATGCTATGCTATTCAACTTTATTGTTTCTCTCTCACTTTTCATTATATTAGGTGTAATTTTTATTCCAATCTATGGATACTTTAATGCGATATTCTACATGTCATACGTTCCTACGACTATAGCAACAATTCTATGGTATTTTCATCATTTAATTCCAGACCTTAGTTTATCAATGTTCTATAGAAGAAATAGAATAAGTCTAACAAAAATGAGAACATTTATTATTGCTGTACTAGTTCCGACAATATCAACAGGAGTTTTCGTTTACTCACTGTACGAAAGCGTTATTTCAGACCTCGTAGAGCCTTATTTTGCAGGATTTGTAATTTCAGTGATAACCTTAATATTCTCAGCAATTTACGTTGTAATAAAAAGAAACTCCTTAGGAACATCAATAGTTCTTCAAAATTTAAATGAGGAAGCATTAAAGGAACTAAGAAATCCAATAGAAACCCGCAATATAGAAAATTCACCGAGATTGTTATATAGAATATATAAATATTTTACAAATAAAAATTTATAGAGAGTTATCAGTCTATTCCAAATGGAAGTAACTGTTGCATTACCAACATACAAAAATAACGGAACTACAATTAGAGATCTCTTAGAGTCATTGTCTCATCAAACATACGCAAATTTTAGGCTTCTTGTTGTTTATAAGCCTTCTGATGGTGATGTTACTGAGGATGTTATTTCTAAGTATAAGAATTTGGATATTGAAGTTATTTATCAGAAGGAGGGTTACATTGAGGAGGCTATGAATTTAATTTTCTCCAATGCTAATGCTGATATTCTCATAACTACTGACGATGACGCAATACCATCAAAAGACTGGATAAGGAATCACGTAAATTTGCACGAAAAATTTCCTGAAGTCGGAATGGTAGGACCTTATTTCGGTAACGGTCATAAGATAAACGTCTTTAAAAAAATATACTCCTTTTTAATGGAAAGACCATTAGACGAAAGAATGAAAGATTATTTAACTTATTTTTCAAAAACAGGAATATTTGTAGGAAATCCCTTTTTCAATAACTATAATTTACCTTATATAAAGTCATTTAGTTTCATGGGAGTAAACATGAGTGTAAAGAAAGAAGTGTATAAAGATTTTAGATTATTACAAATGACATTAAGAGGAATAGGATATGAACCATATTTATGTTTTCATTCTTTTATAAAAGGATTGTATCCTGCAACGTTTAAGGACTGTTGTAAATTATTTCATAATGAGAGAGATTCTTTAAGTAGACCGAAGTCTTTATCTGGAATAAAAGAAAGATATGCGGAACTTATGCTTTCAGTTTATTATCTAAACAAATTCTATAAATTAGATCTAACTAAATTAAAAATTGATATGCTAATAAAGACTTTATCTTGGAAGCTTCATAAAAAGACAAAAGAAGATGAGGCTATGTTGGATGGAATAAGATTAGGTTTAAAAATATCTTTGGAAGCTATACAAAATAATTACGATTCTATGTGGATAAGAAGTAAACTAAAAGAAATTCAATAATTATTGTTTTATTATATTCTATATAATTAAAAGTTTTTAAGATCGTTTTCATTTTAGTCAACTAGAAATTTATTCTGATAATAAAAGCGAAGATTTATATAAAAAATATATCCTTAAAAATTTTTCATTTTTAATTATCTAAATCTTTAAATATAGTCGAAAAGGTTTAATATATAAAGAGAGGTATAGAAAATTATGGGGAAATTAAATAGAAGACAATTCCTAGATCTTCTATTAAAAAGTGGTGTAATAGCTGGAGCTGGAGCACTGTCAACAGGAGTACTAGTAAAAAAAGATACACCTACAAAGGGCTCAACTCAAGGATATCCTCTATTAGGTCAATTTTTAGCCACAGTAGTTCAATCTTCTAATGAATACACTGCGTATGATGCAGGAGGAAATGTATTGTTTAATGGATCATGTGCAGACGGTTCTGGAACATGCGGAATATATGAAGCTGTAAATTTTGTTCAACAAAACTATAGATACGGTAAAGTAGGATTAATAGGATCCTTTTATCCGGTGAATTCGCCGGATGGCCAGTTTAATGTAGAATTAGACGGTAGTGCAATAGTATACTTAAATTCTGCTAGTAGCAATTTCATGATATCAATTCCAAAATCAAAAAGCGTAACATACTTATGGTATCAAAGTGCTGGCATGGTAAATAGTATACTAACAAGAAAACAATCTTTTTCTCTGCAACCATACGTACTATTCCCTGGTACAGTAACAAGCATGTTCTTAGGTAATAATGACCAGTATCTAGGCACTCCATCAGCATTCACAATTTCTGCATGGGTAAACGGTTTCGGAGTAAATACTTACGGGACTGGTTATGTAATATCTTATGGATCCACAGAAAAGGGAATAATCTGGGCTATACAAAACACTAACGGAAGGTTATGCTTTAGAGTCTCATCAAGAGGAGTATGCGTTGCTGGTCCATCATCTTCACCTTGGCATGTAGCAGCAGTATATAATGGCGGTAATCTACAATTATATCTTAATGGTAACCTAGCTGGTAATTGGTCTGGAGTAAACGTAGAATATTACCCAAGTAAATACCCTGCTTACCTATGGATAGGTAACATTCCTATTGCAACACAGCAGGGAGGACTTATTCCAGCTAACGGTCCATTCGCGTGGCTTGAAAACATTCAGTTTTACAATACTGCACTTTCATCTTCTCAAGTCTCTCAATTAGCGTCGTCTCCTGCTCAAGATCCCGTAGATTACTCTGCATTAGTATCTTGGTCTCTCTACCGTTACATATTCTTCGTTGGAGATCTAATTACTGGTGTAGGATATCAGAGAATGTATGGATTCTCTGAAAGTGGGGTGTTCTAAAATGGCTTTCGTAATTTCTGATCATATGGATCCAGACGTAGATTTTTACGTTCCACCAGGCAGTGACGCTACTCAAGCCATACAACAAGCTTTAGAATTATCAAAAATCTACGGCGTTGCACACATAATTATTAGAGGAAGGCTTTACGTATATGCAACAACTAACGTTCCATTCCCGCTCGAACAATCATTAAACTACGTTTTCGAAGGCGACGGTCTAGGAGAAATAATTTACTTACAGACAGACAAATCAATTTCCCCACCTTCAATGATAACTACTGCAGGAACAGCTAATGCTGAAATGCAACAAGGAATATCCACACATAATTCTGTAATTTCATTGCCAATGTTAGAATATAGCATGGCTGGATGGTACATAGCCTTCAAAAACTTAAAGTTAGATAATTACACTAATCAAAGATGGGCTATAGCAAACGGTTATTCTAATTACCATTCAATAGTAATGTATTTCGACGGAGTAGAGTTCAATATTAACATATGGATAAACGAGACTACTGAAGTATTGGTAATAAATTGCTATGCTACTGGGGAACTGCTTTTCGATTCCAGATCTAGGGATGTAATGGTTATAGGTTCCAGATTCGAAAATGAGGGAGGGTTTGCAGTGTCTTCAAGAGGTTGGACTGTTGTAGGCTGCGTATTCGTAGGTCCTCATGCTTTCCTTAATCCTGGTAACGATGGTAACGACGGAATGGTAGTAGGCTGCGTATTCGACTCTGGTACCATAGTAACTCAAGGTGCTTCTGGATTAAGAGTAGTAGCTTGCACTCTTCATAATGTCACATTCCCTGGAGGATATTACGGTTCAATGAACTACACGTATGGGCAAAACTTCGCTTTAATAGGTTGCGTAATTTCGAATTATACAATAGCTCTAAATCAATTAACTGGTAGAGGATCGTACCTCATTGCATTTAATACATTTAATCCATCATCTGACTTAATAATAGCTGTAGCAGACAATGCAGTAGTACAATCAATACTTATAATAGGGAATACATTCAGCAGTATAGAGACCCATAACAGTTTCATATTCATAGGAGGTACAAACGCCCCTGGGTCTAGTGAGACGCAATTAACTGGAAAGGTTCTAATGCTTTACATAGCATTCAATACTTTCAATAATCCAAATCAAACACCAGGAGCAACATACGGTGCACATTTTGGTTCATACTATATACATGGAATAGCTTACGTTAATATAGGAATAACAGTAACTTACGCATACATAGTTTTCAACTACTTCGAAAACACTTACGGACTATATGATAACAGCACAAGAAAACCAGTAGGATACTTCCAATTCGTCCAACTAAACAGCAACGTTCAATTAATACAGTATCTGAACTTCTACTTTAACGTGGTAGAAAACAATATACCTATTTACATACCATCAAACCAGACATACAATGCACAATTTAACGTAGGAATAGCAAATAGCACAGCGTGAAACAAATGAAACTACAAATAATTTATGATGACGGAACAATAGAAGAAGTAACACCAAAAAAAGTAGAAGTAATACAATCACAAAAACAAAACCTAGCACATTATAAATACGTAGATGAGGAAAAACACATAATATTCCACGCATATCTCCCCACAGACGAAGAACCGACAGTAAGACCAGCAGAAATAACAAAAAGAATAGCACACGAAATGGAAAGCAAAAAAGTTGTAGCAAAATCCTACACAATGCAGGCAGACGAACTAATGACAAAAGCAAAAATGATGACAATGATGGGAGGAACAATGATGACAAAATGCTATTATTGTGGAGACCCAGCAACAAACGAATACCAAGGAAAAAAAGTATGCTCCTCATGCTTCAGAATGTTGTCACAGTACAAAGAAAACTCACAAGAATTCCAAAAATACCTCAAAAGCAAAGTAATAGATAGATGGAAATAGTTTATTTTATTTCAAGTAATCTTTTCCTTATTTGTTCCCCTGAATAACCTTTTTTTATTGCGTCTAAAGTTATTTTTAATCCCAATCTAAGACCTTCAATAGCAGCTAAAGATAATAGAGATCTGTCTTTTAAATACCACTTCCATGTTTTTATTAATATATCAGTTTTTAATTTTTCAAGATTTATCTTATATATTCTAGAAAAATAATATGCGGATAGAACGCTTTCAGCGTAAAGTTCTTTTATGACGCTAGGATTTTTAGATCTACTTATTGATTCTCTATTTAGATGTTCAGTTTTACAGCAATTTTGAACAAAAACGCTATGAAATCCTTTCCTTATAGCGTTAACACCAACATAATTTTCGTAATAAGCACCTCTTAGCGTCATTTGCTCTAACTTGAAATTTTTGTAGACTTCCTTTTTTAAACTCATATTATAACCAGAAAGCCCTAACGTCTTTATTATCCTACCATTTTTTCTAAAAGATTTATTATAAGTCCATAATCCTGTTTCGGCAATGTAAATAGCATAGTCAGACATTGCTTTATCTATAGGTTTTTCAAATAATTTAGCGTAAGATCTTTCCAATAAACTAAAATTAATCAGCCTAACAGTGCTATTATTTCCTACTACTCCAAATTCTGGATTGGAATGCATTTCTATATGGTCTTTTACCCAGTCTTTTGATGGTATTGCGTCATCGTCAGTAGTTATGAGAATATCAGCATTAGCATTGGAGAAAATTAAATTCATAGCCTCCTCAATGTAACCCTCCTTCTGATAAATAACTTCAATATCCAAATTCTTATACTTAGAAATAACATCCTCAGTAACATCACCATCAGAAGGCTTATAAACAACAAGAAGCCTAAAATTTTTATAAGATTGATTCTGAAGAGCCTCTAACAGTTTTCCAATAGTTGAACCATTATTCTTGTATGTAGGAATAGCAACAGTTATTTCCATATAAACTTACTTTACATAAAGCATTTAAATCTATATGAAAAAACTGAAATCGTATTATAGTAAATTATATTTTTCTAGATTATAATTTAAATTATCCCAAGTATATTTAGCATAACTATTTTAATCCAATTGCCTCTTTAAATCTTCTCATAAAATCCTTAAACTGAAATTGTTTTGCTGTCTCCAGGCCATTTATAGATATTTTATCTGCAATAGGAGGATTATCTAATAAAAACTCTATATTTTTAGCTATGGCTTTGTAATCATTTATTGGAACTATAATGGCATTTACACCGTCCACAGCATACTCTTTGGATCCCTCAGTATTAGTCATTATAACTGGCGTTCCACATGCCATAGCTTCTAATCCTACTAAACCGAAACTTTCACGTGTTGATGGATATATAATAATATATGAACTAGCGTAAAAATTCTTTAATTCGTCTACTCTTAACCTTTTTACTTCTTTATACGGAAAATTAAGATTTAATTTAATGTCATCTTTATTTAAGATTTTTACTGAGAAATCATTTCTTCTGCTATATACTTCTTCTATAGCTTTTACAAATACATCAAATCCTTTATGAGCCTCATGTCTAGCTATTGTCGATATCACTCTTGGCCTTGATGATGGAGGCAAATATTCACAATTAAAAAAGTCATCAGCGATGAAATTTCCTATGTTAATAATTTTATTTGTATTAGAAAATTTTCTTAAATATGAAGTAGTGTAATTAGATATGCTTAACATAGTCATAGGTAATGAAAATGACTTAGAAATTGCGTTTTTTACACCTTTCCATTGATCTTCTTCATACCAAGATTCTATAACATCTTGACAAAAACAATATTTCCCACCTGCTTTATATACTGCAGGTATAGTATACCATACAGTAGCTATGATTATATCACCTTTATTTTTCTTAATAAGATATTCTAAAATTTTTAAATTTATCTTATATGGTATTTTTGTTAGAAAACTGAATTTATGAAATTTTTTATTAAATTCTAATAGATATTGTATGGAAAATATTGGACGTAATATTTTAGGTTGTGTAATAATCTTAGCATTTTTAACGGGATTATATCCAGAATAACCCCAGCCTACAAGCGTCACTATGTTTACTTCGTGTCCGTCTTCACTTAATCTATTTGCAATCCTATATATTTCTTGATCACCACCAGTACCTCCTAGCCCATACATTACAAATGTTATATTAACCATATCTAGTTCAATTAAGTATTTCATAAATAAATATATAAATTTTTATTTGCACAACTAATTTTTATAATATTTATGGTAAAATATTTAAGTAAGAACTACCTTATATATTTATATATTTCTTTTTTTCAATTTTATTTATGCCTTTCATTTCTGTTATTGTTACTGCTCATAATAGGAGGGAATATTTGAGGGATGCTGTTGATTCCGTTTTGAATCAAACAATTGATGATTATGAGATTATTGTTGTTAAGAATTTTAAGGACGAGATTGACGATTACTTGAAGGAGAACGGTGTTAAGAGCGTTCTAGTTGGTGACCAAACTCAAGGAATGGACGTTATATCAGGATTAAAGGAAGCTAGGGGTGAAGTAATATCCTTCCTTGACGACGATGACTTATTCTTGCCCAGGAAGCTGGAGAAGGTTAAGGAAGTATTCCAAGACGAAGAAGTAGGATACTATCATAACGCTTTTGAGAATTTTCTTGAAAGGACTCCCAATAATCTTGAGAAAATACATATTAAGAAAGATTACGATTATACTATAATAGACAACCAAGAAAAAGTAAAAAAATTCGGATTCATGTTCAATACCGAGACTGAAATAAATAGTAGTTCTATTAGTATTAGGAGAAGTCTTTTTAATAATAGTTTCTCTTATTTGGAGAAAATAAATCATGCAGTCGATGTTTTCATGTTTTATTTAGCTCTTATGAGTGAGAAGAAGATTGTTGTTGATCCTGAAGTTCTTACTCTTTATAGAATTCATTCTAATAATACCTGGTTTTACATGAACGATGATTTTGAGAATTGGCTTGAACATAAGAAATCTTACATGGAGAAGGAAATTGAGGATTATATAACCATGCTGAATATGATAAAATCATCTTCTTTTGAAATATTTATAAAAGAATATATTTTAGATTTAAAATTAAGATTGGCTAGGTTACCATCACCATATAATAATTCAAAATATAAAGCAACAATCAAAGACTATATAAAATTCTCTAAAAAAGATAAAAATATACGTTCTTTATTATCTAATTTAACTGCTTTTACTCCTAGTTTCATAAGACGAAAATTAGTTAAAAAATGGTATCAGGATGAAATTTCTAGAGCAAAGAATGTTAGTTCTATAAATAACTAATGTTTCCTGATGATTAGAATAGCTACTATAATGGCAATACCTATTAGAATAGCTAGTGCTATTATGAAATAATGATGAGGCTGTGAAGAGTGACTGTAAGTACAAGTAATACAGCTAGTAGTGGTTTGAGTTTGTGAAGTACTAGTTTGTGTAATTTGAGTAGTAGAAGTACTACTTTGAGTAATTTGACTAGTAGAAGAAATCTGTGTAGACGTTGTTACAGAACTTGTTGTTAAATTTTGAAATTGCATAACATAATTCAGTGTATTCTCATTTATATAGCCTTTCTCATAAAGTAGATAATAAGCAGTATAGTTTCCTTTAACATTAGCAACATAACCGTAATGAATAGGATATTGTAATGGAATAGGATAGCTCCAATTATTTGGATAAAGTATTATTGGTTCCCTTTGAACTGAGAAGTTAAATGACTGCAATAATCCGTATACGTTAGAATTAGCAACTATTTTAGTTAGATATGGTAGATGCCAATTATAGTCTATAAATCCCAAAAGTGTGTATCCAGATATTGAATAATTATTTATCCAACCTTCTTTAGCATATGGAGAAATTATTAAGAGAGGAGTTCTTTGCCCAAGAATAGAATAATTATATATTCCCAATCCTTCTAAGTAATGATCGCATCCTTCACCGTAAGTATAGATTATTGGGGGAGGAACTTGGTCGTAAAAACCTCCTCCTTCGTCAAAAGTTATGAAGATTACAGTAGAATTCCAATATTTACTTTCCATTATAGCATTTATGTACTTTACCAGATTAACTTGACCTTCGGTTAAATTGAAAGGTGGATGTAAATCTAAAGCTGAATGAGTATCGTGACCATCTCCGCCAGTAAACATTAGCCATGAAACATCTGGTAGGCGGCCGTTTTTAAGATCTTGCAGAAAGACACTAGTATTAAAATAATGTGAAGAATAGTTTTGTGCTCCTGAAAATACTACTAGAGGAAAAGGTGGAAGAGATTGCCCTTGATAATAGCCATAGTCAAAATATGCCCATGATACTCCGTATTCACTTAATTGATACATTATAGTATTCTGAAAAGGAATTACTGAGGATGCATACCCGTCTCCTAAAATTTTTGTAGGATAACCAGTTAAGTATGCTACCCTATTTGGTTGAGTAGAAACTAAAACTGGAGAGAAATAATTATCTGAAAGAACGTATTCTTCAGCATAGTCCCACAGTAGTGGAACTTGTTCATAGGATACATAAGCTAGGGATTGCTTTCCTGAGCCCACTATGAAACCGTTCATTGCTCCCCTATTCCAATCTGTATGATAAGCAGTATATCCCTCTGTAGGATCAGCTAAAATAACTGAATTTGCATAATATGGTTTCATTCCTCCCTTACTAATATTGTCAGGATTATATGGTATTATTACACTTAAATTAAGTCCAAGAGGTCTCATTACGGATTCAGTTACATTATTATATATTGGTGGATTACCGAAAGGATAGGTTCCAAAAAGATTATCGAAAGCATGATTCTCGAGAATTATAATAACTACGTGCTTTATTGGTGTTGCAGTCTGCCCTTGAGATGGAATTAAAGGTAAAAACGCAAATATAAACGAAAAAAGTAGCACAAAGATAAGTATTTTCTTTATCATGGGATATAATATAATAAAGCATTATTTAAACTGGAATGTAAATTCCAATGAAGTTTTTACATTAAAATTTTTCTCAATGACGTAATATAATTTTCCACGTTGCCTAAATCGTATACATCGTTAACTTTTATAGCACGAAATTCTCTTCCTTTCCTCATTAAATACTTAATACCATCAGTTAATTGTAATTCTCCTTCCCATTTTATTTCTCTTAATGCTGGAAAAATTTCTTCATTAAAATGATAGTATGGAACAATAATTAAATTAGATTTTGGATAAGCTGGCTTTTCTTCTACGTCCAATACCTTTTCTCCTTCAACAACAACTACACCGTAAGGTCTTGGATCCTCTACTTCAGTAGTTAAAAAAGAATTTATTTTCATTTTTTCTAGTGGTATTTTTCCTAAAATAGTGTCTGCTGCAACTAGTATGAAATCTTCTTCAACGAAAGGTTCTGCTCTAAGAACAGCATCTCCAAAGCCTCTTGGTTCTGATTGATTTACAAATGCTATGTTACTTCCCTCAATTTTTTGGTAAAAACTTCTTAGGTCTTCTGCTTGTTTAGTCTTTCCTTTATCCTCTAAATAAGAAATGAAATCGTAATCTGGAGTGAAATGATCTTCTATTACTCTTTTTCCTTTTCCTACTACTATTACGAAATCTCTAATTCCTGAATCAAATAATTGCTCAAAAATTATTTGAATAACAGGCTTAAAATTGCCTTGAAAAGGAATGGGAAACATTTCTTTAGGAATTTCTTTAGAAGCTGGAAGCATTCTAGTACCTAATCCAGCTGCAGTAATTACAGCATGCATTCTATTCACCCAGGCCTATAGCTCTAAAACGCGTCCTATCCATTTTCGATGGATCTAGAATTCTTCTCCCATCTACTACATATTTACCTTTTAATAAGTCCTCAATACCATAAAACTCTTTCCACTCTGTTGCTATTATTATACCATCAGAATCTCTTATACACTCTTCTTTGCTTACCATTTCTGCCTTATTAGTCCTAGCTTTTGGATCATAAGCTAAAACAATAGCACCTCTAGATTTAAGTATATCAATAATTTTTAACGCAATACTCTCTCTAGTGTCGTCAGTATCAGGCTTAAATGCTACACCCAAAACACATACCCTCTTATCCTTAATAGATCCTAGTAGTCCCTCAAGAAGGTTAACTACTCTCTTAGGTCTCTCCTCATTTACTTCAATGGCAGCTTCTATTATTCTCAACCTTTCGCCTACTTCTCTAGCAAAGGAAGTTATTGCTAAAGTATCCTTAGGGAAACAAGAACCTCCCCAACCTATTCCAGCCTTTAGGAAATAAGGAGAAATCCTCTTATCCATTCCGATAGCGTTAGCAATTACATTAACGTCGCATCCTATCCTTTCGCAAAGATTGGCAATTTCGTTAATAAAAGATATCTTAACTGCAAGAAAAGAATTAGCTGCATATTTTATCATTTCTGCTTCCTCCAAAGAAGTTCTCAAAATTGTAGACCCCGTGAATCTCCATAATCCTTCTACAATATCTCCAGCCTTTTCGTTTTCACTTCCTATAACTATCCTATCCGGAGATTTTGTATCTAGGATAGCAGAACCTTCCTTTAAAAACTCTGGGTTAACAACTACGTTTTCTCCTACTATATCCTTAACTTTCCTTGCTGTACCTGGAACCACTGTACTCTTTATTACTACTATGGAATCTGATAAGTACTCCTTCATCTTCTTAGCTGCATCAAAAACGTATCCTAAGTAAATCTTACCGTTAACAGTAGGTGTAGAGACAGTTATGAATACTACATCAACATCAGATAGGGAAGAATAGTCAGTCGTGAATTTAAGATTATTAAAGTTCTTCTCTATCATCTCTTGAAGTCCTGGATCATAAATGGGTGACCTCTTACAATTTAATCCTTGAACTCTGTTCTCATCTATGTCAATTCCAACAACCTTATGACCTTGTTCTGCTAAAACGACTCCAGTAGATAATCCTACGATGCCTAGTCCTACTATGCCTATTTTCACGATAAAACACCTTTAAACCATTCTATTGTTTTCATTAATCCATCGTCTAGCGAAATTTTAGGTTCCCAACCTAATTTTTCCTTAATTTTAGTAATGTCTGCTGCCCTCCTAGGTGGGTCATCTTGTCTTGGTGGGAGGAATTTTATTCTTGAAGATGATCCAGTAAGTGAGATTATCTTTTTTGCTAAATCAATTATCTTTACTTCCTTGTTTGATCCTATGTTGAATATTTCTCCTTTTAACCCTTTTCCTAACATTTTTAATGTTCCTTCTACCCAATCGTCAACGTATAGGAATGCTCTAGTTTGGTTACCGTCTCCGAAGATTGTTATGTCTTCTCCTTTTAGTGCTTGGTAAATAAAACGGGAAACTACTCTACCGTAAGTCCCGTCTTCTCTTAGTCTTGGTCCGTAAACGTTAAAAGGCCTTTGTATTCTCACGTCTAGTCCGTATTCCCTATAGTATGACATTATTAGTGCTTCTGAGAATCTCTTGCTCTCGTCGTAACAGCTTCTTATTCCTGTTGGGTTTACTTTTCCCCAGTAGTCTTCCGGTGTTGGTACTATTTCCGCGTGTCCGTAAATTTCAGAAGAAGACGTGTACAAGAAGGTTGCGTCGCTTTTTCTCGCTATTTCTAGTGCGTTGCGTGTTCCTAATGAGTTTGATAATGCTGTTTCTACAGGGTGTTGAATGTAGTCTTCTGGTGATGGTCTTGCTGCTAGGTGAATTACGTAGTCGAATTTTTCTTGAGTATCAAAGTTTTCTATTCTTTCTTTAATTATTTTGATTCCTTTTGGTACGAATTTTGTTGTTGATAAGTCATCAACTACTGTAATTTCACCGTTCAAGGATTCGATAAGGTGTGATCCAAGAAATCCAGCTCCACCACTAATTAAATATTTCATGAAAACTAATATAGAGAGATATAAATTAAGCTTTATTAATAATCTATGGAATATTTTCTATATTTTGCCTTTTGAATACTATAGAAAATAAAGAAGATTTAATTAAATGAATGTAAAGATTACTCACATAAATATAGCTAAAGCCTTTCAAATCTATGTAGAATTTTTAATCTTGGATACTTGTACAATTTTTTCTTGACTCGATCTTTCGTCTTGGTACCATTTTTTAACTAATTTGCGTCTTATGAAACTAGGAGTAAAAGCAGTTAAATTAGATAATAAAGAACGCAAACTTTTGTATCGATTATAATAGGCTATATAGTCTTTGATTGTTGCTTTATATTTTGAATTATTATATGGTGATGGTAACCTAGCCAATCTTAATTTTAAATCTAAAATATATTCTTTTATAAATATTTCAAAAGAAGATGATTTTATCATATTCAGCATGGTTATATAATCCTCAATTTCCTTCTCCATGTAAGATTTCTTATGTTCAAGCCAATTCTCAAAATCATCGTTCATGTAAAACCAGGTATTATTAGAATGAATTCTATAAAGAGTAAGAACTTCAGGATCAACAACAATCTTCTTCTCACTCATAAGAGCTAAATAAAACATGAAAACATCGACTGCATGATTTATTTTCTCCAAATAAGAGAAACTATTATTAAAAAGACTTCTCCTAATACTAATAGAACTACTATTTATTTCAGTCTCGGTATTCATCATGAATTTGAATTTTTTTACTTTTTCTTGGTTGTCTATTATAGTATAATCGTAATCCTTCTTAATATGTATTTTATCAAGATTATTGGGAGTTTTATCCAGAAAATTCTCGTAAGCGTTATGGTAGTGGCCAACATTATCGTCTTGGAATACTTCCTTAACCTTCTCCAGCTTCCTGGGCAAGAATAAGTCATCGTCGTCAAGGAAGGATATTACTTCACCCCTAGCTTCCTTTAATCCTGATATAACGTCCATTCCTTGAGTTTGGTCACCAACTAGAACGCTCTTAACACCGTTCTCCTTCAAGTAATCGTCAATCTCGTCCTTAAAATTCTTAACAACAATAATCTCATAATCATCAATTGTTTGATTCAAAACGGAATCAACAGCATCCCTCAAATATTCCCTCCTATTATGAGCAGTAACAATAACAGAAATGAAAGGCATAAATAAAATTGAAAAAAAGAAATATATAAAATAAAATGAAACAACACTCTAGTTTCTAAATTATGGCATAAACTTTGAAACTTTGTAGAAGATAATACATACGACTTATATAAAATATTGTTTAAATATAAAGGAAAGCTTATTATAAAAAGACGTATTTACAATTTTTATATGGTTAGCCTTAGTGTTAATATGATTTTTAGGAATGAGGAGCCTGTTGTTAAGAAAGTATTAGATAATATTTTCCAACAAATAGACGATGATACTGAAGTGATTCTTATTGATAATATGAGTAGGGATAGGACTTTTGATATTCTTAAGAGTTATGAGAGGGATAACGTTATAGTTGATCGTTATAATGGACCTAAAGGAGGAGCTAGGAATAAAGCATTAACTCTCTCACATGGTAAGTACATATTATGTTTAGACGGAGACCAAATATATTATAACCTACAAAAATTAATTGATGAATACCTAAATAATTATAGTAACTATGGGCTAAAGGTTGGCAAAAGTTCTTTTCCTATTTTGGCTCCTAGGGAACTCCTGCTTAAAGTAGGAGGATGGAGAAACTTAGTACATATTGAAGACTGGGATCTATGGTTCAGACTAACGGATAGCTGCAAGTTTTTGTATCTTGCCAATAAGGATTACATTTTCGGCAAACATATGAGGGATCATAAGAAACATCATACTAAATGGCAAACAGCAAAAGGATTAATAGAAAGATATCGAGATTGGACTCTTACTGGTCTACCAGGCTATCCAGTTAGGAATGATCCAAAAGTTATTCCGTTTTATATAATCGGAAAATTGTTGGTTATTCCAAAATATAAAATGCTTGCTCACTATAAATGCACTAAAATCCTTAAGGACGATCTACCTAAAGAATTTCAAGGAATTGATTGGGATCTGAAGAGGTTTTACAACTTGCTAAAGTATGAAAAGATATATTGTAATGATCCTATCTTTGATAAAGCTATGAAAATCTTCGAGGAAAAATACGCTAAAAAGCCTGAAGCTTCTTTCCGATGAGCAAATATGACTAGTCTACTTTACGTAAGTCTTGGAGAAAGGCCTACTTCTGGAGCCACAACCACAATAATTGAGTTACTTACTAGATTGCCAAAATTTCAAGTTAATGTAGATTTAGTAGAATTACTGTTTAAGGATGAAGAAAGTCTAGTAAGCAAATGCCCTAAAATTAAAGAAAGTATATCAAACTATAAAGTAATAAGACTACCTTACTCCAAGTCATTCTTAGGAAAAGTTATTCGTTTTATATTAGTAAATTCCATATTAAAACTGAATATTTCTAAAATATCAAATAACTATGATTTTGTTATAGGGTTTAATACTAAAAATTCAATTTATATCTATTATTTAACTCCGTATATAACTTTCCCTCTGTATAAGCATTATATTAAATTAGTAAAAAGAACCAACTTGATAGAGGGAACAGTATGGTTTATCAAATCTATAAATACTCTAAATAGAAATAGGAAAAGAGCTTGGAATATTTGTGCTGGTGTTGTTCTTCAAGAAAAACTAAAAGAATACGGTATTTCTTGTTTTGCTTTGGAGCCTCCTGCTGGAGTAGATCTTGAACTTATTGATTCTTCTCCCACATTAAATGGTTTTGACGTTATTCACGTTGCTAGGCAAGGTTTTATGAAGGGTACTCTGGACGCTGTTAAAGTTATTAGTGAACTTAATTTATCTCACGCTTTTATTGGTCCTGTTGATCAAGGTTTCTCGATGCCTCAAGTTAACTACCTTGGTGAGATTCTCGATAAGAGGAGATTGTACGGTATTATGAAGGGTTCAAGGGTCTTCCTCTACCCTTCACGCGTTGATTCCTTTGGAATAGTAGTAGCTGAGGCTTTAGCCTCAGGATTACCAGTAGTAGCTTACAATATTCCAGCAATAAAATATTATTTTGGGGATTGCGAAGCAGTAAAATTGGTTGAAGTTTGTGACATTCAAGGGCTAGTGAAGGGAGTAAAAGAAATGATTAACGGAGATTATAAGAATGTAGCAAGAGAATGCGCAAAAAAATACTCATGGGAAGAAGTAACAAAATCATTCACAAACATACTACAAAAACTCAAGAAAGAAAAAACTTAAGGAACTTTGATAGGAATCTTAGATTAGATTCGTTTAATGCAGAAATCAAAATTTCGACTTCTTTTTCCCTTATTATCTTCATTTTTACATAGATTTTAAATAATATAAGGACAAGTATTACACCTAATATAAGTGAAAATTCTGATTTTATAAAAACTAATGGAAATAGTAATAGAAATGATATTAAGTACACTTTCCCTACCATATAAAGTGGTAATTTATAGTCTTTATACATACTTTTTACTACAGAATATGACATAATATAACTTGGAATCCAACTAATCCATCCAGTAAGGAAATATCCAAAGTAACCTAAAGTTGGCAAGAATATTGTCAGTAAAACTGAATTTATAACAACGCCTATAAGGTTTATTTTTGCCGTAATCTTTGTATATCCTTTAAATAATATGAGAGAGCCTAAAATGCCACTTCCAGAAGCGGTAGAAATTAACGGTCCTATTAATGAGAGTCTTAATAGTAATGGAGCTAGAGTATATTCCTTGCCGGCTAACAAGTATATTATTTGGTTTGATAAGAAAATAACTGCAAAGAGTATTGGAACTTGAATTATCATACCTATTTTATATAATTCGTTTACTACATTTATAACATTTTGTTTATTATTATAATCTAATTTAGAAAATATAGGTTGAAGAGCAAAACCTAAAGGATTAAATATAGTATCAAAAAGAAAGCCTATTTTTGAAGATGCAGTAAGATTTGATATTTCAAAAATAGTTAAAATTCTATTTACTATCGAACTGTTGTAGAATCCAGCTACTGTGCCTCCTACACCGGGTAAGACTAATGGAAATCCAAAACTTACTAATTCTTTTATTGTAGATATTGATGGGAAAGAACGTAACATTGAATATTTGCTTAAAACATATACACCGTATACTATAGCACCTGCATAAGCTAGGGAGTAACCTATTATGACACCATATACTTTAAGGAAAGTTATTCCTAAACCCACGCTAAGAATTGTTTGAAGAGAATAATGCACTATCCATATTCCGCTATTATGCTTAGTCATTTCAAATCCTAAAAGACCAGAAAATATTGAGCTTAAACCCCAGTAAGGTATAGTATATAAACTGGCCAATTGACCATATGGAATTATTTCAGGTTTATTATAAATATACGTAAAAATAAATGGAGCAGCAAAGTATCCTATAATAGCTAACAGTGTACCATAAGAAAAATCGAATAGCATACCAGAAGTTATGACATTATATGCCTTGTTAATATCAACTTCCTTATATTTTGCGCTAAAACGTGTTACTGCAGTATTAACTCCTAAATTGCCAAATAATCCAACCATGTAAGGTACTGTCATTGCTATGCTCAAGATTCCATAGTCTATAGGCTGTAGAATTCTAATAATTAGAATTGAACCTATAAATCCTATAACATGAGAAAGAAATCTACCTTGAAGCAGATTTATATAATTTAACATGAGACTTTTTCCTAATTTTTCAAAATCAGACATTTTATACCTCTCTATATACTTTTAATAATTTTTCTGAGATAGTGATATAATTGAACTCTTTTGCTTTTTCTAAACCTTTTATTCTTAACTCGCTTTGTAATGATGGAGTAGATATAACTTTGCATGTTTTTTCAGCTATATCTTCTGGGTCCTCCGGATTAACTAGAATACCATTTCCTTCAGCTAATTCTTTCATAGACCATCTATCTGAGGTTATTACGGGTGCTCCCGATGCCATGGCCTCTATTATTGGCATACCAAAACCTTCGTAAAGTGAAGGGAACAGGAAAGCCTGACTAGCATTATATAATTTTACAAGTTCTTCATTATTTAGCCATTCTAGAATTATTACGTTTTTTGAATATTCTCCCAATTCCTTTTTAATCATGTCTATTCCATGTTTCCAATAAGCTCCGACTATGACGAGTTTTATGTTATCTGTGCACTTAGAAATAAGTCTAAATGACTTAATGAGATTTTTAGGATTCTTTAGCTCATCATATCTTGAAACGTTAAGTATGAAATTACCGTATTTCTCTTTAATACCAGAAATTTCTTCGTTGTTTAATCTTCGAAATATAGGATCTACGGGGTTGTAAACTACAAATACTTTATTTTCATCAATATCTAACATACTAATTATTTGGTCTCTTGTACTTTCGGATATAGCTATAGTTCCGTCTATTCTCTTCAATGTGTATTTTAATATTGAAATATTTAATTTCTCACTTCTATTCATGAATTGTCTTAATATTAATGGTTTTAGGTCATGTACAGTCATTATTTTTTTGTATCTGGAAGGAAGAGTAAGCATTAGACTGGCGCTAACATGAGGATAGATGAAATGATAAATATCTGGATTGAGTCTCCTTACTGTAAAATAATTTGAAAATAGATCAGTAATTATATCTTTTCCAAAAATTTTTCTATATTCTTTAAGTTTCACATATTTAAACTGTGGATCTAAGTTTTTTTTGGAAATTATGTATACATCTTGATTCAGAGATGTTAGTCCATTATAGAAAAGATAAGTTAGTCTTCCAAGACTCCATTCTCTACTAGTGCCAGCAAAACCCATTAGAGCAATCTTCATTAGACATAAGTATAATTAAAAGATTATAAATGGTTTTTCATAGATTTTTGATAATAGATTTTCCATTAATAATTTTAAGCTCAAAATGTTTCATAACAGTGTGCAAGAACCATTAGTATCTATAGTCATACCAACGCTAAATTCTGGAAAAACCGTTAGAGGTACTTTAGAATCATTAAGTATCCTTGATTATGAGAATTTCGAGATTATTGTGGTTGATGGAAAGTCAACAGATAACACACTAGAGATTGTAAAGGAATATCAATCCAGGTATAATATAAGGATAGTAATAGAGGAAAAGAGAGGCAGGGGAGTCGCATACAATAGAGGAATCTTAGAAGGAAAAGGAAAGTATATAGCTTTTCTAGATAGTGATGCTAAATTAGGTAGCAAAGGATGGGTAAAAAATGCAGTAAAAATGATGGAAGAAAACGAAAAAATAGGCGTAGTTTTTACTAAAGTCTTTGCTCCTCCTGATTCTAAGTACATTCAAAAATCAATAGATACTTTTCTATGCAAGGGATATACTACTGCCAATGGCGCTATTTATAGAAGAGACGCAGTGATCAAAGTAGGTGGATTTAACGAAAAAATGAATTATATGCAAGAAGATGAGCTCTTATATAAGTTAACTAAAGCTGGCTATGAATTTAGAGTTAATTATGAAGATAAAATATATCATTATCACAGACAATCAGTAAGGTCTTATATAAAGCAGAACTCTGAGGCGGCTGTAGGTGCTAGGCTTTACTATTCATTTACTGGTCAAAGTTGGATAGTTAAGGATTCGCTAATTAGAATTTTCATTCTTATATTTTCTGTACTAATTGTCGCATTTCTTGCAGTTAATTTCCCTTTATTGTTAATTCCTATAATAATTCTCTTTTATACTGGGCTTTTTGTAAAAGTAAATATGGAAACATGTTCGCAATATAAATGGTCTAAATATACTCTATTTGCTCCTGTACTTATCTATCTTTCCATGATAGGTTATTCATTAGGTTTTTTAACCAATGCAATAAAACAAAAATAGATGACTCAGGATATTCAATCTTTAATGTCACAGTATAAGGTTATTTATTCACAGTATCTTCACTCACTCTTTATTAGTCAGTTAGTTCTTTATATAATGTTAACCATACCAATTATTCTATTTTTAATAATTTATTTAAATAGAGGAAAATTGTCGACGTTCTATTATAGATTATGGTATAGACTTAATAAAAACGGGTTTATTTCATCCTCCAAAAGGAATCATGATGAATTATTTAACGGAATCGTAATAGGAATGATACTCCTTGTTTTAATATTCTCCTTTGGTGTTTATGTTCTTAATACTACAGCTAAAGAAGGTTTTTCTGAAATGTTATTACTTAATGTAGAGGGATCTATAGGAAATTATCCTACACATGTATTGGTAGGTCAGAACTCTTCAGTTTATGTTTTAGTAGAGAACCACGAGGGAAAGCCAGAGCTTTATGAAATTAAGGCCATTCTTATAAATAATGTAACTAATTCTACTGTTGAAGAGAATTTTGCTATAATAAAAAATAATGGGCAATGGAAAGTTCCTGTAAGTTTTATTGTAAATAATCCTGGTGAATATAAACTAAAAATAATGCTCTATTATTACAGTATGGGAACAAACTCATTTATATATTCAAATATATTTACTCAACTTCTTGTGAACGCTACTTAAAATATTAATATTTGTTCCACACTATTTATATAGATGACTGTAGAGATCTTTGTAGGTAAGAGAATAATAGATGCAGTTGAGGAACTGAAAAAAGAAGGTTATAGCGAAATAGATGCTATCAAGATGATACATGATAGTTATGAAGTAGATTCTATGGATGGTATAAGCATTGTAACTCATTTTGCGTCAATAGTTCTTATAGCATCACTGTTTATCAATTCTCCTGTTTTAGATGCATTTAAAATTCCTCTTGGAACACTATATTCTATCTTTTTGGTAGGATATGTAGTTCTTCACACATTTTATAGAAATGGCCTTAAGGATATTTCTAATTTTTCCATGATTGGTTTAAGCCTCGGTGTTAGTTTTGCTACAATAGTGCTTATAGGTTTTCTACTTAATTTCACTCTTGGAATAACGCCTTTCACTGTAATTCTTTCGGTAGTTTCAATTACTGAAATTTTTAATATAATAAATAATATTATGTGGTGGAAGAGGAATGAATTATAAGAATTATCCCATTTCTTTAGTATTATCATATACAATAGTTACTTTTATTTTATCAGTAGTAGGAGTTAAAGATTTTAGAATATACGTCCTACTATTTGCTGTAGCAAGTATACTTAATGAGATTGCGTTTTATCCTTTCCCTAGACCTTCTAATTACGTTATAAGCGGAATAACCTTAATATGGATTATAGCTAGTGTTTACTATATTCTAGGAATACTAGGAGTGGTGTGATACAATGAGGAAGCTAGAATTAGTAACAATATCAATGCTTTTAGCATCAATAGAACTAACGCTAGTAAGCATATTAAATATTTCAATCTCAAATTATGATCTCTTAAAATATCCCTTCGGTCTTACTGAAGAGTTACCACCTCTATACTGGATAACTGAATTTTTAACAGCGTTATCCTTCGTAATTCCTCTTCTACTTTATAAGAACTTTAATAAAAGGATATATAGCCTTCTAATGCCGATATCTTTTCTTCTTTTACTCTTCAACACTTTCTTTATTTTCTATTTTATTAATCCAGTATTTGTTCTTTCAAGAGATGAGATGGGGCATTCGACAGAGGTCATGTATCTTTTACTTAGACATACGACGTTATTAAATCCTGGAACTTATCAGGCTCATTATCCTTTGGGATTTATATACGGAGCTATTTCCTACATATTCTCTGGAATAACTCCTACTTACTTTTTCATATATTTTGGACCAATGTTCTTCCCAATAATTCAGACTTTAGCAGTTTACGGTTTAATAAGACTATTTTTTAAATCGCCTTATTCAGAACTTGGAATTCTTATCTACATATTCAGTTCAATGCCATTTTATGTTGCAGAATGGTCTCCACAACTCATGTCCTATAATCTACTCTTCCCAATTTTCCTTATTGTAGGGTTAATAGTTAAGAAAGGAGGATTAAGATTCACTCCCCTTCTAGTAGTTTTATCTGGATTGACTGGATTGACTGATATAGGAACTTTTGGAAGTGCAGTAACTATAGCTATAGGCGCTTTAGTGTTCGCTAAAAAAATAGGGAAATTAAATATAAAGTTCATAGCATATTCTGGTATTCTTACAGCTTCAATCTACATGTATTGGGTATATTTTGATCCTATAGCTTCCGGCGCACTAGGTGGGGATTACGTTCTTTTAGGAGATTTTATAGACGTAATAAAATCAATATTTATTCCACAATCTACTAAAAACTTAGTTCTACCTACAAGTACTTTAATATATACTTTCCTACCGCCTTCCCCTTATCACTTTATTTCAGTGGCAAGTAAATTACTTGATGGAGGAATATTTCTACTATTTTCTTTAATTTCATTTTTAATACTCGTAATAAGAAGGAAAAGCGACAAATATGTATGGCTTACTTTTGCTCTAGGTAGTGCACTACTTGTAATGCAAACAGGGATAGGCCTGGCAGACAACGTTAGTAACGTTTTGACGAGAATGATACCTCAAGCCATGGCTTTTTATACAATTCTCATAGTCTATTTCCTTTATAATAAGAACTTGTTAACTAAAGCATTTTCAATATTTCTTGTTATTCTGATTCCGCTTTCTATTCTAGGCTACGCAATGATCGCTACGTCTGAGCATTCTCCAGAAGCGGCGTTTTTTGGCGGAAAACTACTAGGAGAGTACGGTCTCTCCTCCGATCCGACTTATGGATTTTATCAAGGAGTTTATCAATATGAGGGAAAAATGGTACCAACAATAGGTATAACATATGGCGATATAAACTTTGCAGGACCATATATAGAGACATTAGCTTTGTATTTTGGAGGTCCTTCTGCAGCGAAAGGTTTTGAAGAATATAATAATTATGTGATGCAGAATGAGTCTGTAATTTTTAATTCTGGGGAAATGATAGTAGGATTAAAGTAAAGTTTTGTATTTTTGTATTATTTCATCTGCAATTATATCCCAATCAAATTTTTTTGCTATCTCCAATGAATTCTTTCCAAAAACTTCTTTATTTTCTATTGAAGTTAAGATTGCTGATGCTACCTCGTCGTATTTTTGTGGATCCACGGTAAAACCGTTATATCCATCCTTAACTACTACTATGTTAGAGCTATTTTTAGATACTATAATCGGTAGTCCAGTTCCAAGCGCGTCCATTACTGCGGAACTTATTCCTCCATCTCCAAATGAGTCTCCGAGCATTACAAATACATCAGCTATATTGTAAACATATTTTCTCATTTCATACTCAACCGGGTTCATGAAAAATATCTTATTTTCTATCTTTAACTGTCTAGCTAATTCTTTTAATTGATCTTTTAAATATCCCCATGCTACAAATAATAGCTTTATGTTATCTGATTTTTCTGAAGCTACCTTGAACGATCTTATTAATTCAAAAAGTCTCTTACCGTTGACTAATTGACCTAAATAAAGAACTATTTTATCTGTCTCGTTAAAACCATATTTAGCCTTTATATCATCTTTTTTTTCATTTATTTTTAATCCATTAATATCTATCCCTATTGGAATAACAACTGGATTTATTCTATAATATTTTTTTACTTCATTCTTTATTATTTCATTTGGAACTATATATAAGGAAGCAAACCTATAGATAAGCGAACCATAAATTCTTCTAAGACTCTTCCTTAAGATTGACTTTTCCCTCAAGCTACTTGCGCCTATTATTGTAGCGACTTTTTTGCTTGAAGGAAAGAACTCTATTGATGCATAATATCCTCCTATAGCGTGAATAATATCTGAATCTATAAGAATTCTTGATTTTTTGATTACCATTTCTAAAGTTCTAATATGGTATCCCAATCCTCCTTGTAGTTCTGATGTCTTAACGTAGTCGACTTCAAAGTTCTTATTGTATTGAAAAACGTCATCTTTGGAACTTATTCGAAGACCTATAACATAAATTCCTTTATTGCTTAACCTTTTGGCAAGTTCGAATGAGTAGACTTCAATCCCATCCCAAGGTTTAGCATTACCTGGTAATAGAGTTACTTGCATTAAACTTCATCTCTTATTTTAATATTTAAGGCTTTAGGATCTATTTTGTTAAAAACTTATATATTTTTATAATTTCGAAATTTGCTGATAAATAATCCTTTAAAATTTGTTAATAATGTCTAATAAATTCTTTTCATAATTCTCTAATGAAAATCTTTCAGAAATTTTTTTCATTTCTTCCATTTCTTTCGCATTCCAATCTTCCATAGCTCTTTTCACTTTTTCGATCGCTTTAGAGAACTCCTTAAATCTATATTTTTCAGGAACAAAATCTATTACTCCTCCCCTATTACTGGTAACAGGAATTAGGCCTGCACTCATTCCCTCAACTACTGAGGTACCAAATCCTTCAATATAAGGAGTAGGATTAAAATAAACCTTAGAAGAAGATAACAGTTTCATTTTAGTCTCTTCATCAATATTAGGATATAGCTGTATATTTTTGGTTTTTTTATCTTTTATCTCATTAAAATATTCTTGATCTTGTAAATAACCTGCAATAATAAAATTATAATCTGTTTCTTTAGCTATTTTTATTATATTATCTAATCCTCTATCTCTAGAGAATCTAGATATAGTAATTACTGTATTATTTCTATTTAAGTTATTTATATTTCTAAACCTCTCAAGATGGACTGGAGGATATAAGATCTCTGCATTTATGTTCCAAAAATATTTAGCCTCTGCCTTAGTCCATCTACTATTTACTAGAACTAATTTTTCTTTCCTTATTTTTTCCATAAAACCTTTCCTTATTATATACTGTGGAATCAAAATTAGCTTTTCCTTGAAGGGTGATCTTATTCTATAGTCTATGTTAAATTGATGAAAATATACAATATCTGAAGCTATAGGTTGTATATCTCCATGCATATTAATGCTGAAATCTTTTTCCCTATAAAATAGTCTGGAATATAACATCTGTAATGTTATATTCGAAATTTTTGGTAACATTTTTATTTTAACATTTTTAAGATCATATTTTTTTAAATAATTATATATTCTATCGGATATTTTCATTGTAACAAAATTTACGTTATACCCATTTTTTGATAGGATACCAATAGTATCTACTGTCATAAGTTGTATTCCGCCTAAAACTGTAGCATCAAATAAAATTACTGAAATATTCTTCATTTTACTCGCTTATTTCTTTATATAAGTCTATTAATTGATTCATAATTATTTCATTATCAAATTTTTGGAACGCATTATCTCTTGCAATTTCTCCCATTTTTCTTACTTCTTCCCTAGATATAAGTGAAATTTTATATAATGCCTCACCAAACTCTTTTATATCATATGTATTTACATGAAAGCCATCTACTCTGTCAGATACTTGCTCTATAAGTCCACCATTACCTTTAGTAACTATGGTAGGCCTTCCGGCTAACATAGATTCTATAACCACTCTTCCCCATGTATCTATATATAAACTTGGCACTACAACAAAATCAACGTCATAAAGTATATCTCTAAGAGATTTGAGATACTGATCATAAGGAACTCTCTTAGTCAGAATAACATGATCTTCTATTCCTAGTTTTTTTACGGTTTCGATAACTTGATGAGATTCTAGACCACCCGGAACTTTTAATCTTATTTTTTTATTCTTTTTAAGAGCTAGAGAGAAAGCGTAAAGTAATTGAAATATTCCCTTTTCTCTATCTGGATAACTTAAATATGCAAAAGTAAAATATTCTCCAGGATTATACGGTACATAGTCTATGTTAAAAGTCAAAGCGTTTATATTAATTACCTTTATTTTTTCCTCAGGATAGCCTCTGCTAATTAAGACGTCTTTAACTACCTTACTTACAGCTATTATGGCCGAAGCACTTGAAACGTTTTTCTTGATTTTATCCAATTTCCTTATAGCGTATAAAGCTTCTGCTGGAGATGTAAGTTTCCTTATTCCATTTTTCTTATATCGTATACACTTACTAACCTTCGAAATACTTTTACAATCACAGCCATCCTTTTCCATTGAATTAAAATAACATGTAGGCCACCAGTATTGCACATTAATAACGGTTCTAATTCCTCTTTTTTCTGCGATGGGTATTATTCCATGCCACGCGTTAGCTAGGTGTATAATAGAATTCTTCTCTGGAGAAATTATGTCGAGAATTCTTTTTGAATATTCCTCAGAATTGAGCATACTTTCTTCTCCAAAAATTTTGCTCTTTGGAGGTGGAGGTAAAACATTATATGGAGATTTAAAAGTTGTATAAAATTCAGTGTCAATTCCTTTTTCCTTCAATTTCTCATATGCAATCAAAATAGTTGCATAGGTTCCCCTCTGTTGAGTCTCAGTGAGTATCCTAACTTTCATTATTCTCTTATTCTTTATAAGTTAACACGCAATTAAAAACTTTATAATAGCCTTTTCCTATTTCTTCAGTTATTTTTCGAGATATATGTTTAAATATTTCATAATATTTTCCCTAAATGAATTAAAAGAGAATTGTGTTGCTCTTTGTTTTGCTTTTTCACTGTATTCTTTGTATGTTTTTTCGTCTTCTATTATTTTTATTATTTCTTCTTTTGCTTCTTCTATTGTTTTATAACCTATTCCGTATTTTCCTTCTTGTATTGTGTCTTCCCAAGTTCCTGATGACTTGTAAACTATAGGTACTGCTCCAGCATACATTGCCTCAGCAACACCAAGACCAAAATTATCATAACGCATACAGTGTAAGACTAATTTAGATTCCGCAAATATTCTCCATTTTTCTTCTTCGTTAACGTCAGTAAGCAATTCAACATCATTACCTGCTATATCCTTTAATCCTTTATAGTACTTTAAAGATGCTGGCGCATTGTTTAGTCCTCCTATTATTTTGAATTTTATTGTTGGGTTTTTTTGTCTTACTTTTTTTGCTATTTCTATGAATTCTTCCCAGTGTTTTGATGGTATGAATTTTCCTATTCCTACTACAATGTTTTGTTTTTCTCTTGTTTCGTAGTTTTCTGGTGGTATTACTGGAGGATAAACAACATCACAATCAAAGCCAATATTATTCTTCATAATATTTTTAACATAAATTGAACTGCATAAATTAACTTTAGATTTAGCTAATTTTTTTATAAATGGATAAATAGATTTGAAATATATTTTTTTAATTCCATAATATGGAGGAATTCTATCATTCCTAAAAATGCCTGGAGGGTATATAATGTAATCAAGGTCTAAGCCTAAATGAAGATGCGAGTAAAATAAGTTTGCAGAGAAATCTATCCTTCTTAAAAAGGAGTTAAACCTAATTAAAGGCAAATCCACTAATGGAGATATTATTGGACCTAAGAGTATTTTCATAGAAATTTTATTAACGTTTAAGTTGAGCTTACCTAATCCTTTTGGAAAAACTGCATAAACTTCGTTATTTTCTGTCAATATTTTTAAGAAAGAAGTAGCAAATAGTGACTCGCTAGTTAAAGATACCGGCGGCATTATCACCAAAGTTTTCATTACATGGTTTTTCGTATTCGTAGTATAAAAAGATAAATAGAAAATAGTAATGAGTAGCCCTGAATTTATTTCCAAAAAAAATTATAGTATAAAAAGATAATGAAATGGTTAATAAAGACGTAACAAACGCTTATGGAATAGATATATATTTTTAAAATCAAATAACTAATAATGAAAAGCCTAGTACTAATGCCACCCTTAAGGTATACTAGTGAGTCAGCAGCTGCTTTAGGAGTCCTTTACTCCTTATATGAGTACGGATCAGAAATTCATTACGTTATGACTGAAAAGGTTTATGATAACTATTTTACTACTTTTCCTGAAAAAATAGTGAAACCTTTTCTGAAATCCAAAGAGGAAAAAATTAAATTAATTAGAGGTCCTTTATATTCACCGTTTTTAGATTTAATCAGAATAAAAAATTATACTAAGAAAAATCATATAGACAGAGTTTTCAATATGTATTATGTTGAATATCCAATAGGAATGGATGTAAGTTATGTTGTCTATCCTCATTCAATAATTGGATATTTTAAGGACTTTAAGTTAACATACTCCAGAGTCAAATACCCTTATCTTTATACTAGTAGATTACTTACCAAAAGAATAGCTAGAAGTAAAAATTTACTTTGTAGTTCAAATTATATAAAAAATCTGATGAAAAATATTGGCTTTGATTGTGATGTTGTTTATCCTCCAGTAATACCACCAGAAAACTACGAAACAAGAGAAAAACAAAACATTGTAGTAGGAATAGGAAAATTCATACCATCAAAACACTGGGAAGAATTCATAGAAATAGCAAAAAAAGTAAGACAAAAAAACCCAACAATAAAATTCAAAATAATAGGAGGACTAAACATGATAATGTACCCTTCTAATGAGTATTACGAAAAACTAGTAAAACTAGCAGGTAATGATGTTGAATTGCTTACTGACGTTAACGAAGAAGAAAAATGGAGAGCATTATCTTCGGCCAAGATTATTCTGCATTGTATGAGAGAAGATAATTTTGGTCTTGGTGTTGCTGAGGCAATGTATGCTGGAGCAGTACCTATAGTTTACAAGTCATCAGGAACTTGGGAAGACACAATACAAGAAGGAAAATACGGAATAGGTTATAAAACAATAGAAGAAGCAAAAGAAGAAATAATAAAAATAATAGAAGACGAAAAAACATACAAAGAATACAGTGAAAAAGCAAAACAAAGAGCAACAAAATTTGTAATAGACGAGTTTAAATCAAAAATTATTGGCATTATGGATAGATTCAATTAGTGTACTATTATTATAATAAATTTAGATAATTATGAATTTTAAAGCTCAAAAACAATAATTATGAATATATATATTATAATTTTATTAAATGATTATGAACGATAAGTAAAAACTTATATTTGTGTTCTAATTTTCATCCTTAGTCTTTGATATAACGAGATCTTTTTTCTAGGTGTTGGTAATTTATCTGGAATCTGTCTTGTCCTTTCATTAGTAATCATTGAGTATAATGCTATATATGATAAGTCTATTAGTTTGAAATTAAGAGGTTTTCTAGCTTTAAGGAAGACTCCTGGCTTTAATGGATCTTTTGTCAATTTTATTATTTCAAAATCACTGAAAATCTTTTCCATATCCTCAATTTCATAGCGCCAAAAATCATAAGGATATCCGTGATAAGGAAAACCAAAAGACCTAGTGGTTATGTATATGTATCCCATTGGTTTGACAATTAGCTTCATATTGTTTATAATAGTTCTCCAATCTTTAACATGTTCTAATGTCTCTGTAGAGACTAATACATCGAAGGAATTCTCACCGAACTTTTCGACAAGCTTATCTGCTGGAAGAACAACATCAACAAATTTTCCTTCTTCAATATCTACACCTGTATATTCCTTAGGTTTACAAAACTTCTCTATAAAAGGCCTAACGCTCCCATTTACGTACTTACTTCCCACCTCTATAACCCTCTTACCTTGAAATTCTTCGCATTGAATCTCATTTACAACAAATTCGATAACACTCATATGGCACATTTAGAAAATATTAAAGTAAGAATATCCTTAAATACTTTATGATTTGACTTAGTTTTTCTTCTATCTTTAACTTTCAAATAAACTTTATAATTTTTAAATGTTAACACTCATTTGTTTGTAAGAAAATTAAAAAAATTCGTAAGCAACAAAATCTAGTTACCATATTATAGTCATAGAAAGAATTACCTTCCCATTAAATCATACAGATCCGTATTACAGATGAAGCAGAATGTTCAATTATTATTTTGATTTCAAAATAAGTTATATGAATATCCATCTTCTTACTAAGATTTCCAATCAAACTATAATCAGCGTAGACTATAAGGAATCGATAGCATCTTTTTTGACTAAGTTATCAAGATTCTTGTATGCCATATAGATAAAATTGCTAAAACTTCTTATAGTCCTAGAAACTCCTTTATTATTTAATCCTAAACCTAAACTTCTGCCCTTGTACGAACCTTTCCTATAGTTTATTATATTGACAGGTATTTTTTTCCATAATAATTGCAGAGAAAGATCATAGTTTTCTACTCCGTTTATGAAAGTTTCGTCAAATATATTAGTGCCAAACTTGTTTAAATAACCTCTGCTAAAACCTCCGAAATCTCCAAATTTTTTAATATAAAAGTTATTTATGTACTCTCCTAATGCTCTTTCCATTAAATATCTTGCTTTATATGATATAGTATCAGTTGATGCTACTCTTAAATCCAGGAAAGGTAAATTGAATTTTCTTAGTAAACTATTATAATATATCTGTGCTCTAGCTAAAAACCAAATTAGTGAAATATCAAAATTTTTAGGATACCTACCAGAGAACTTTCCTTTCAATAAGGATAATCCTCCTAATAGGCAGTTCCTATATCCTTTTATTATAGTAGGTTTTAAAACTCTAATTTCACTCTTTACGAATTTGTAATTTTTTCCTACAGGAAGAATTGTATTTGGGTCTTTATAATCAAATTTTCCTAATTCTTTTTTCAAAACACTAGGCTCGTCTATTTTATAAACGTCATCATTAGAAAATATGATCCATTCGGGATTATATTTCATTGCTTCTTTTACACAAGTATTTACACTTGTTGCGTAATTAAAATATTTTCCAGAACTTTCGCAAAATATTATATGAAGTCCATTATACATCTCCAGATCTCCTTTGGCGTACTTGTTGTTTACATCTGCTGTCGGTATAACTACGATAACGTCAGTATCTCCTTCTATTTCATGGAAAGAGATTGGAGCTCTTGGTCGGGTTTTCATCCATTTTACAAGTTCCTCTGCAGAGTTGAATTTAGTGTAAAATTTTAACACATCGTAAGGATTATCTGAATAATAAAAATCTTCAATATCGACGAGTTTACTCTGCATTATCTTTATATAGCCATATCTATAATATAAACATTTCCTAAAAAACATAATTAAAATATCATATTTCAAATGATGTAAAAATTCTTCATTTTATAGTTATCTATATGATAATATTAAAAATGTTTAATTAACTTCTTATTATCATTTTTAAGATCACCTAATATGCCGTGAAATAGTGCTAAACTTACTAGTTTAAGCGTTATAATCAAATTAGTTTGCTCATATAGAGAAAGTACCCATGAAGGTAAAGTTTTTAGGTAAAATAAATCTATCTTCCCTCTAGAGCATAAATATACAGTATTTCTAATTATAGTATAATACCTATAATAATTGTTATATACCACATAAAAAGCTCTATAATGCATCACTTTCTTAAATTCTCGAATTCCATGCCTAATACTCAGAATTTTTAATAAAAATATTATAATCTTAGAAATCTGTTTATTATATAATCTTGAATAATCTCCTATACTATGATAAATAAGCTGATAACGATATACTAATATGTAAAAACCATTCTTACGTAACCTACTGCAGTAGTCGTTATCTATTCTATCTATAAAAAGATCTTCATTATATCTAAACCTAGAACATATCTTAACATTAAGAATGCTTCCACTATTTACCACACTTTTACATAGCTTAAAATTACCTATTTCGTTCTTTGTAGTATGCGCGTATATTCTGTTTAGAGAAATTATAGCTACCTTACCCATTATAGGCAATTTATTGTATTCATCAAAGATTTTCTGTATATCTAAATTTTCATAAATCTCAGTATCTTGATCTAACAATAATATCCAGTCTTCATTTAAGTATGAAGCTATTTTTATAGCATAATTGTAAGCTTTAGCAAGACCTTCATTGGTATTGTTTTGCACGAAATAATCACATAGCTTACGGATCTTTGATAAATCAATACTTGATGCATTATCTATTATTAATATTTTAGAATTTGTTATATTCTTTATCGCTATTATATTCTTATATAAAATGTTAGTATTTGGATTTCTAGTTACTATTACTGTCAGCATTATCTCACTGAATAACTGTGTTACATATAATAATAGTATATTTAGTAATAAAAATTTCTATCTTTCAATTTTACATGAAATATACTTAATAGCTTTAAAAAATTATATATGGGAAAAGTACTTTTATTTTCAAAAGTACAGTTTATAGGAATTATTAAATAAAATTAAAAATATGAGATCTATTATAGTAGAATTAAGTATAATTCACAAATAATAATATATATTACTATAAATTTATTTAGCTATTAATTCAATAGATTTTTCTAAAGCTAATATTTGTAAAGCAAACTGACACTAGATTGTTAAACTTTTGGTGAGTCTGTTAAGGCTACAGATTTTGCTGGTCAAGTTGTTGAGGCTAAGCTTAAGTTTTAAGCTAACTATTTATGATTCATATGATCAATCGTTAGCCGAGCTAAGACTGTTAAAGTCAAAAGTTAGCGTTGGAATAAATTAGAAATACTGTTTATTTCAAGAAATTATCATAACACATTTCACTTATTTGATAAAAAATTAAACTACTCTATACATAAACAATAGATATTAGAAAATTTTTGAGCAATAAAATAACTCTGCTCTACCAACTTTTATTCTCTCCTCACATTTGTATTTAAGTTCTCTTAATTTTGATATTAGTCTTTTATGCGAAACTTTAGTTATGTAAGGATGAGATTCTACAAAAATCTTCTCAAATGGTAAGCTATTACAGTTTAGGATTATATCAGCCTCACATCCTTCACAATCCATTTTAAGCAAATAAGGATCTTTAGCCATTTCTATAACTTTTTGAAAAGAGATTAAAGGAACTTCCACGTCCCCTTTACTTGAGATCGCAGAATAAACTCCAGAATCTTTAACCCTTATTGATGACGGAACTTTAATTTTTCCATCCTTTGAAGAAACACCAGCATTTATTAGAGTTATTTTATCTTCTAAGTTGTTTAATTTTACGTTTCTTAAGGCTACCTCATAAATTGATGGTAAAGGTTCGAAAGCATAAACGTGCGAAGCGCCTTTCACTGCAAAATAGATCGCCGAATCCCCAATATTAGCCCCAATATCTATAACCTCACCTTGAACGTCAGTATCATATTGATTTTGTATAAAAACTTCAAATAATGGATAACCTATTCTTTCATCAAACTTTAAGTTATATTTTGGAAGATACCATTCATTCCCTTTTTTGATAAAAAATGATAAAAACGATACATTATATTGAACTATTAAGTTACCGTCATAAAATATTTTTCCATCTTCGAAATAGAATTTAGTTATATCAAAATTGAATTCAGTAATTAGGGCAATAAGTAGTCTAACACAAGATAATGTACATACGCCTTTATTATTCTTATCTGTTCTTAAAATAACTGGAATTTGTTGTTCTCCTTTTCTAACTTTAGATATCACATCAATCCAATTCTTGTAAACTTTCCTATAGCTGTTAGCTCTCTTTAGTGCATGAAACATTTTCATTAATTATTAATTATAGAGTATAAATCTTTTTTAGGTTAAATATAATGCTCTAAGTACTTCATCTCTGATAGTCCTAAAGCTTATTACTGTAGGAGAAGTAATAGTAAAAAGATTTCCTTAAGTCAAAGGAAGTATAAAAATACCCTAAAATTTTTAAATGTGAACGAGTTACAGAATAGAAATGGATGAAATTCCTATAGTTATACTCAATTATAATGGATTGAATTTATTAAAATTATATCTGGATAGTGTTCTTAATACAGAATATCCTAACGAAGTTATAGTTGTTGATAACGGTTCTAAAGACGGAAGCTTAGATTACTTAAAAAGTAAAGGAGTAAAAACAATAGCGTTAGAAAAGAATTATGGCCCTGCATATGCTAGAAATGTTGCTATAAAGAGGTATAATACGAAATATATGGCTTTTTTAGATAATGATGTCTTAGTTCCAAGAGATTGGCTAAATCCATTGGTTGATACTATAAAAAATAAGGAAAATATAGCTGCAGTACAGAGTGTTTATACTGAATGGAAATGGGGAGATCAACCTTCTGAGATTCCTTGGTTTTCTACAGCGGCAGCATTAACCAAGAGAGATATTTTAGAAAAAATTGGCGGATTTGACGAACATTATTTCTTCTATTGGGAAGATATAGAGCTATCCTGGAGACTATATAGAGCAGGGTATAAGATTTTAATGGTTCCTAAATCTAAGGTAATTCATGAAGCTCATGGTACAGCTAAGAAATTACCATCGGCTTTTACATCATATCTTATGATGAGAAATCAGTTAATACTTTTGTTATCGTTTTATAATAAAAAACAAATATTTACAAATTTCGTTCCTTTAGTTCTAATTAGATTTTTCCAGGCTTTCAGACCTCCTAATAGGAAAGCTAAACTAAAAGCAATATTTTCATTAGTTGGTGAAATAAACTATGTAAGGAAGAAGAGGGCACAACTTAAAGAAATATCAAGAACATACGACGACGTATTTATGGAATATTTAGGTAGAGATCCCTTCGGCTATATAGAATTTAGATCAGTGTTTGAAGGAATAAGAACAAAAATTCATAGAAATGAACAAATATCAGTATCATCTTGAATATTTCTCTTCAAAGATTTTTATTGCTTCATCAAAGATGAGATCATTACAATGTGTCTTCTCATATTTCAAAAGATTATAATGTCTTTTTAAATCCCAATCTATTCCTTCTAGCTTTGGCGGTAACTTTTCTCTTAAATGTTTGGTGCATTTATAGTGAGCAAGCATCTTATATTTTGGAATAACCAACAATTTTCCAATCACATAAAAAGGAAGAAGTTCAGGATTGTCCTTAAGATAAGGAGAAGGTAAACCAGTAAGTGTCCTATCCCTATATCTTTCTATTAAGCCTTTTGCTGTTTGCCATTTAGTATGATGCATCTTATGATCGTGAAGATGATCTCCAAAAATATAATCCTTATTAGCCAAATAGAGATATTTGCAGCTGTCCGTTAGTCTGAACCATAAATCCCAGTCTTCAATGTGTACTAAGTTTCTCCATCCTCCTACTTTAATCAGGAGTTCCCTAGGAGCTAAAATAGGAAAAGAACTTCTTCCTACTTTTAATCCATATCCGTCATAATTATTTAGGTATTCATCAATTAATTTTTGTAGGTTATAGTATATTTGGTCTCCGTCTAAACATAATATGTACTTACCATGTGAGAGAATTAATGCCTTATTCCTAGCTCCTCCTTTAGGTCCATTATAACGATCAACTATAACGTTATCCCTCTCATAACTCTTAAGAATATCAAAAGTCCTATCCCTACTCATATTATCAATAAGTACAAATTCACCGTCTATTTGTTGGAAAATATTATCTAGCACTTTCTTAACAACAGGCTCCTCATTCCTAAAAATCATATTAACACTAAGGCTAACCATCTAATTTATTCTTATATAGATAATAATAAAAGTCTTTCCTAACAGAAAATTTTCTAGTAATTATTAACATTTATATAAATTTTTTAAATATTTTGAAATAGTAGAACTAGAATTATTTGTAAAATAGCTTATTTCCTCTCTCTATTTTCTCCTTTAACCTCCTTTGTTCTAAATCATACAATTTCCTTATAAGTTTCCATTTAACGAAATCTGGAGCGTAAATGCTAATTCCAGATAATATTGCCCTTAAACTCTTTTTATTAAGCTTAAAATAATAGTATAAATCCTCTAATGTAGGTCTATATTTTTTATCTATAGGAATAGAAGGAAGTCTAGCTAAAGTAATTTTATCGTTAGCTAATTCAGTTCTTATATTTCTCTCGTAAGCCGTATTTCGTGCCATATTATGAAGTATTATGAAGTCATTTATATGATGTTCTTTAAAATTCTTTTTCCCTTTTATCCACTCAATAATATTTGTATTATTTAATACACTTGAGTTAGTATAATGTATCCTTCTAAGAGATAATACACATGGATCAACTATCATCTTCTTGTTACTGATTAATCCTAAATAAAACATGAACATATCAATAGAATAATCTATTTTCTCCAGATATGATATAGAATTAGTAATCAAAGTTTTTCTTATGCTTATTGAACTGTTGTTAATTCTTGCATCCTTACTTAACATAAATCCGAATTTTTTTACTTTTTCCTGGTTGTCTATTATAGTATAATCGTAATCCTTCTTAATATGTATTTTATCAAGATTATTGGGAGTCCTTTCAAGAAAATTCTCAAAAGCGTTATGATAGTATCCTACTTCTTCGTCTTGGAATACTTCCTTAACCTTCTCCAACTTCCTGGGCAAGAATAAGTCATCGTCGTCAAGGAAGGATATTACTTCACCCCTAGCTTCCCTCAAACCATTCACAATATCCATACCGCACATCTCCTCACCAACAAGAACGCTCTTAACACTGTTCTCCTTCAAGTAATCGTCAATCTCGTCCTTAAAATTCTTAACAACAATAATCTCATAATCATCAATTGTTTGATTCAAAACGGAATCAACAGCATCCCTCAAATATTCCCTCCTATTATGAGCAGTAACAATAACAGAAATGAAAGGCATAAATAAAATTGAAAAAAGAATATTTAAGAATTGCTTTATGCATTAGTTGAAATTTTTAGGTCTTAAGCTAGAAGCGAAATAAATTCTAAATCTTGAGTCTAGTTAAAAATTAGCTATACGTTTCTATTGAGAAAAACTGAAGAATTTCACAAAGCATTCAAGAATTTGTAGTATTCAATGTATTATTCTATCACCTTTTTCTTGATTTAAATAATAAGTGGTATAGAACTCTTCCATAATTTTATCTATACATTTTAGCCGAATTATTAAGAAACCTTTTAATTATTAAACATTTAGGAAGGCAATTGTGAAATTGCTAAGTATAATAATAGTTAATGTAAAGGGTAAGGAAAATCTTTCTAGACTTTTACAGTCATTATCTTTATCTACTTTTAAGGACTTTGAAATTATTGTAATAGACAATGTAAAAAACGAGTCTTTAAATAATGTAAAAACAGTTTATATTAATGAAGATAAGGGTCCTGCTTATTGCCGTAATATTGGAGCTAGAAACTCAGAAGGTAAATTTTTACTATTTTTAGACAATGATACTAAAGTCCCAGAAGATTCCTTGGGACATTTAATTAATTTTTTATCATCCAATCAATATAAAATAGTTCAACTAAAATTAATAAGAGAGGATGGAACAATAGATAGTGCTGGAGGTTTTATAGACGATCTAGGCTATCCTTATGAGAAATACAGAGGAGAAAGATCAAAGAACGTCAACTCTATTTATCCAATTCTCTATGCTAAAGGCGCTGCATTAATAATTTCACGTGATGTTTTTGAAAAATTAGGAGGATTTGATGAGGATTATTTTTTTCGGATATGAGGAAACTGATCTTTGTTTTAGAGCATGGAAACTAGGATATGAGGTAGTATTTCTTCCCGTAAATATAATCCACTATGAGCACGGTTCTTATTCCAATAACGATGTTAAAAAGGAAAGGAGACTAGTATACTTTTTAGAAAGTAGGAGATTATATTTTATTCATAAGAATTATAATGCAAAATTTCTCTTAAAGAAGTTACCTTTCGTTTATTATTATTTTTTAGGATCTATGGTCATGGATATAGTCAAAAGGAAAAATACTAATCTTTGTCTAGGAAGACTCAAAGCATTATTATGGTTTTTTACTAAAATTCCAGAAATAATAAGAAAAAGAATGATAAAAAAGAATTATATACGGAGTGAAAATGATTTGGAAAATTTAGGACTTATAATTTCACATAAAAATAGATAATCCAAGTTACAAGATACAGAACTTTCCTAAGTTTCTATAAAAAGCTTTTTATTTATCTTCTAGAACAACAATGCATAATGTTAGAATTTCTAATAGCAGGATTATTATTGTTAATTATCCATTTCGGAGAGCCTGTATATTACTTTATGTACGTAAAAGGAAATAAATTGAATATTTCTCCCGTTTATTCAGAACCTCCAAAAGTGAGTATAATAATACCAACATATAACGAGGGGGACAAAATAAGGGAGAAAATAAAAAATGTGCTTGATAGCTATCCTAATGATTATATGGAAATCTTAGTAGTAGATTCAAGTAATGATGGAACGGACGAAATAGTAAAAACTATGGGAATTCCACAAATAAGGATAATAAAGGAAGAAAAAAGAAAAGGGAAAATATTTGCAGTAAAAGAAGGAATAAGAAATGCTAAAAATAACCTTGTAATAATAACAGATGCTGACGCTATATGGGAAAATCCCTTAATTAATGCTGTGAAATTCTTGGGGGGAGAAATAGGAGCAGTTAGCTGTATAAAGTCAGCTAATAGTGAAACAGAAAATGCTTACAGGAATTTTTATAATGTAATAAGACTTGGGGAATCAGCTATTTTTGCTACACCAATATTTCATGGGGAAATGACAGCATTTAGAAAAGATATTATAAATGATAAAGATTTACCCAACGTTGGTGCAGACGATAGTACAATAGCCACTCTAACAGCTATAAAAGGGTTTAGGGCTATATGTGTTAAAGACTTTCTTGCTAAGGAAATAGCTCCTAAAGGATTGGATTACGTAAGCTGGAAAATGAGGAGAGGTTCTCATCTAGTAAGACACTTTTTTAGGAATCTTTCGAAAGTTTTAAAATCTAACAACCAATACTTTAAAAAAATTTTTGTTGAAGAATTCTATCTCCATATTATTAATCCCTGGCTTCTAGTGCTAGGTATATTATTTTTAGCTATAGGTAATATAGAGGTATTCTCAATACTTTTAATTCTACTTTTAATATCGTTAGTATCCAGCAAAACTAGGGAAGCAATAAGAGCATGGATTCCAAATCAATTCTTTCTAATTTTGGCTCAATTGTTTGCTACAAAAGGTGAGGTTTTGGCATGGAAAAAGGAGAAAAAATAATCCATGTTGTACACTCTTTTTATCCAGTAGTAGGCGGAATAGAGAAAGCCGTTTATGAGGTTGCTAAGAGACAATCTAAGAAATATGACGTTACAATTATAACATCCTCACAAGTGCCTAACGGAAAGGATGATCTTCATGTGGTAAGAATAAGAAGTGTAAGGCCTTTCGGAATGCCAGATTTAACTATACCTTTGATAATCCCAGATTTATCTGAAGCAAAGGTAGTTCATTATCATTCTCAAAATTCATTTTTCTCATATAGAATATTGTCAAAACATGATAATAACGTATTTACTATAATGGCGCTAAATTCTCTAAAAAGTCATCCTAATCCAGTAATTAAGATTCTATCACCAATATATTCGCAAATTTTAATAAAAAGGGTTTTAAAATACTCGAAAAGACTTATAGTTAAGAATGAGAGAGATAAAGTAATGCTTGAAGAAATATACGGTAAGGAATCTTATATTATACCTGACGGTGTTGATGATATGTTCTTTACTGTACCTAAAACCTCTTCCTTTAAAGAAAAAATAGGAGGAGATTATGTATTATATATTGGAAGACTTCATCCTTTGAAGGGAGTTAATGTTCTTATTAAAGCATCTAAGAAAATTAACTCAAAGGTAGTCTTTATTGGCCCAGGAGATGTGAATAAATATGAAAAAATTGCTCAAAAAGAAGGTGTTAAGGATAAGTGTATATTCATGAATTATGTTGATGATTTAACAAAAATAGCGGCAATTGATTCTTCAAAAGCTGTAATAATACCCAGTATTTCGGACTATGTAGAAGCGTTTTCAATAGTTTTGAGCGAGGCTTGGAGTAGAGAAAAAACAGTAATAGCAAGTAGTGTTGGAAGCTTGCCTTACAGAATAAGCAATGGAATCGATGGTATATTAGTACGACCTAACGATCCAGAAATACTAGCTGAAACTGTAAATCAAGTAGTTGAGAATGATATAAATCTTGGTAAAGAAGGAAGAAGAAAGGTACTAAATTGGGATAATGTAACCGAAATGTTGGAAAAAGTATATGAGGAATGAGCCATGAATGTTGTTTGGGCATATATTATAATAATTGGAATTGCACTACTTATACCCAGTCTTTTTATAATAGGCTATCCTCCATTCATTATACTCTCTATAGGACTAATTATTTCCGGCTCAACAGCTTATGCTATAGATATTAGCAATAATATAGATGATACTATTAACGTTACTTTAGATTCTCTATATGAGAATTTAGAACTCATTTTCAGATATTATAATAAACAGCATTATCATAGATTATTTGTTCCTTCTTCATACGGATGTAACGGAGTTTTACTTATAGATAAATACCCTATAAAAATAGATAAAATAAATAAAGAATTAGTAAACAAATTCGACGATTCTCTAGGTATCTTCTTGGAAACTCCAGGCTCAATAATAATTAATGAAATGAAAGGTAAAGGTATAAATTTTACAGAAAACCTCGATTACTTAATGAAAAAAGCCTTATCAGAATTGTATAAATTTTCGGACAATGTAAATATAAATTATATTAGAAACGACCTAATTAGAGTTTCCCTAATAAACCCTAAACCTGGAAAGAATTACGGAATATTAGGATACGTACAATCGCTAATAGCTGCAGCAGTTCTAGCTGAAAAAGAATCAAAATTAGTTTATGTTGATAAACAAGAAAAACATAGAAATACACTAAATATAGATCTCGTTTTACTATAAGCAATTAAGTTTTAAATTATTTATTAATTATCCTTTATAATGGTATTTTATACTTGGAAAGACGACATAAAGGCAGGAGTTCCTCTAGGAGGAATAGGAACAGGGAAAATAGAAATTAATAATAAAGGGAAACTCGTAAATCTCACTATCTTTGGAAATATGGGAAGTCCAATTGAAGAAACTAGAGGCTTCCACATATTTATTTTACCGAAGGATGCAAAACCTTTCTTCCTAGAAAAGAATTTAACAATTTATGGAATGGAAAAGTATGAAAGTGAATTAACCTATGAGGGAAGATATCCTTTTATGTATTTAAAAGGAAAAAAAGATAAGGTAACTGCTGAACTACAAGGATTCTCTCCAATTATACCTAAAAATCTTAGAGATTCTAATCTTCCTGCAGCAGGATTTAAAATTAAGATTAATGGAAGCAAAGAAGGCATAGTAGCAATATCTTTTCCTAATATTGTAGGAAGTAATCAAATAGGGAGAATAAATGAAAAGGTAAAAGGAGGAATAACTTTTAAGAATAATCATTTGCTTGATTTCGATCCGAAAAAGGGGGAAATATCCCTCTTATCTGATATAAAAGGTACCAAAGTTATACCTCAATATAATATAAATGTTAAACCAGAAATTGCATTAAGTAGTTTTGTCTGGAAAAATAGATATGAAACGAATGAGCCTTGGAATTATATAATAAATGGAAAAGATTTTCAAGAGGAGGAGCATGAAGTCACTGGTTTCTGGGACGATCCTGCTGGAATATTAATACTGCCATATGAGGAAAACGAGGTGAAATTTGTAATAAGCTGGTATGCTACCGGTAAATGGATACAATATCCATATGGATACAATTACCATAAAAATTTCTCTAATTCCCTTGAAGTGGGAGAGTATTTTTTAAAAGAATTTGATAGGTTAATGAAAGAAACGTTTTCTATAGAAAAAAGTATTCCAGACTGGCTCAAGGACGCAATTATCAATAGTTCATATATTCTTAGCAGTAGTACTATACTTGATGATAAGGGTAGATTCGGCATTTATGAGGCACCAGAAGTTTGTCCTTGCGTGAGTACAATAGCAGCGTTATGTTATGAAGGTGGATCATTACCAGTTGTTATGTTTTTCCCAGAAATAGAGAAAGAATATCTAAATTATCTTGGAAGTAAAATGAGAAATGATGGATATGTACCTCATGATTTAGGGCTCTATTCTCTAGATCTTCCAATTGATGGAACAACTTCACCACCTAAATGGAAGGATACTAATCCAACGTTTATTCTTCTTATATATAGATATTATAAATTTACTGGAGATATTAATTTTCTTAAAGAAATGTACTCAAAACTTTTGAAAGCTTTCAATTGGGAGTTAGAACAAGATAAGGATGGTGATGGAGTTCCTGAAACTGAAGGTGCTGGTGATACCGGGTTTGATACTACTCCGATAAAAGGAATTGATAGTTATACTACTTCGCTTTATATAGCTTCAATATTGGCAATGAAGGAAATCGCCTCAATTTTAAACGATAAAGATACTCAAGAAAAAATGAAAGATCTCCTCGAGAAATCCAGGAAAGTTTACTCCTCATTATTTAATGGAAAATATTTTATAGCATGGAGGAATGAGAAGGAAGAAAAAGATTTCCTTTTCATGGGTCAGTTATTCGGAGAATGGTGGGCAGAAATCTTAGGTCTAGAGAAAATAATAGAAGAAGAAAAGATTTCTTCAGCTTTGAAATATCTTTTAAATATAAACGGTCAAGCATCTGAGTACTGTACTCCTAATATGGTGAAGGAAAATGGTGAGATCGTAAACATGGGACCTCAAAGTTACTCTTCGTGGCCTAGATTAGTTTTTGCTATAGGTTGGTTAGGATATAAAAGAGATAAAAAATGGCTAGACGTGGTTAAAAAGGAATGGGATAATCTGGTAAAAAACGGCTTAGTATGGAATCAACCATCTAGGATAAATAGTAAAAATGGAAAACCGGAACCAGATAGATATTTGGATCATTATATAGGAAACGCATCTATCTGGTCTTTTCTTTTTTAAACCTTATGAACATGTACTTTATATGCTTCCTCATATTTCTTTATAATATCCTCAAGATCTTGAATTATCTTGTTATAAATCTCGACTTTGTCAGTATAGTATACATATTTCGGTTTTCTTACTTTTCCTTCACATTGTTTTTCTCTTTTCACTAGATTTTTCGATAAAAGGGCATTTATAGGTTTGTTTATTGAAGTTCTAGCTAAGTTTAATCTTAGTGCTATATCTTCTTCAGACAATTTTTCTCCTGAAGTAAGAAGAAGATGAAGAATATTTGTTTCACTCTCACAAAGACCATAAATAAAACCAATTAACTTATGTATTTCAACTTGTCTCCCATCTGGGAACTCTACTTTACTCATGATTTATTTTCTAACAAACGAAAATAAAAATTCACATTATAATTTGAATTGTTACCTTTCTTTCACGGAGTTGAATTTCTGTAAAATAGTTTAATTAGGATTTTTACTAAAAACATTAAAATATCTTATTTAACATTCTCGATTATATATAATACTTTAAAACTTTTATTTACAATAAAAAATATAAGAATTAAAGAGTTAAGATTTAGTTTCTATTTTTTTAACGAACTTACATTTTTCTAGAAGAGATATTTTATTTAATGTAGACGGTATTATTAAATCATCAACTCCTATGATTGAATCTATGTAGTTTAATGTATTCTGATCTATATCTAATGTAAGTTTCTTTATATTTCTGAAAGAAAGTGTCTTTCCACTTTGCATTATTTCTTCCTTAGTCACCGTGAGTTCCTCTAAATCGGAAATTATAGTAACATTTTTCTTAGCGTCCTCATATCCCATCATAAAAGACTTTCCCGTATCTTTTGCACCCTGTATTATTTGATCTATTGTCCTACTTGCTTTATTAGTTATACCTAAAAACGATGTCAATGCTTGATTTATTACTTCCCCTACAGTCCTACCAGTTTCTCTTGCAGTTAAAACTGCCTTTTCGTAGAGATCTTTATCTACTCCTCTAACTGTTACTGTTTTCTTCTTTTCATCATCATTTTGGTTATTATTTTCGTTAGACATATATAACTTGTCAGCATTGTCAAATATAAGTTTTACTGTTATACATGTAAAACATCATTTCTTTATAACTTCCAAAAATTTTTGAACTGCAGATTTAGGACTGTGATTATTCATTACTATTTCTTTATTTTCTTCAAAATTAATATTAGTCTTATCCTCTAATATATTTATTATAGCAGTTGCAAAATCTTCTTCAGTTTCAGCATTTACGTAATTAATTTTTTCAATTCCTTCTACAGCTTTTTTAGTAGCTATAATAGGTTTTCCAGAACCCATATATTCAAGAACTTTTAATTTTACACCTCCTCCTCTCTTAAGAGGAGCCACACAAATATCTGCACCCAAAATATATGGGATTGTGGATCTAACGTAGCCTGTAGCGTAAATAGGAGGACTAACTTGAGGAGGAGATGGGCCAACCAGGTAAAAATTAACGTTCCTGCCCATTTCTTGAACTCTTTTGGACACTCTTATTAAAAATTCTGCAGCTTCCCTATTAGGTGGATAACCCATTCCTCCGACAAAAACTACCGCTGGCTTTTTTAGATCTTGAGGTTTTTCATTAAAGGCGTCTGTATCTATAATATTTGGAAAAATTATTGCTTTCTTTTTAAGAAGCTTAGCGTCATTTTCTGAAGGTACTAATATTGTATTACAATAATCTGAGAAACTTTCTAAAAATCTAATTATATTTCTTCCAAACATTCCTAATCCAACATCTTGCTTCGATTCTATTGAATGTAGATGAAGAATGCAATCTGCTTTAGATAACTTACTCGAAATTAATGTAGGTAAAATTGCCCATGCTGTTTCAGAAACTAATACATCATATTTTCCTTTTATAATTCTATCTATAAAAAAGGGAGACATCTCCCTTAACCACAATAACGATTTTCCTTTTTCTTCCACGTTTCTTTTAGAATATGCAATTATTTCTGCATCTTCGTACTTTTTAAGTTCTCTCAATAACAAATAAACTTGCTCGTGAATTCCTCCTCTTTGAGGATAAATTGTTTCCATCATAACAAATCCTATTTTCACAAACTAAACTACAATCAAAGCCCTAAAAACATTTTGAAAAAGATATCTAAGATGTTATATATTAAAATATGTATATAGTATAGGAAAGAAGAAAATAATATAAAAAATCTTTTACAACGATATAGAAAAATCATAGAACATTTTCTATATTTACGTGCGTAATAGTTCGATAAAATATTTAAAATCGTTCCCAAAATTAACAGTGATGGAAAAAGTGGACATAAGACACAGACAGTTAACTAAAACTTTTCCAATATATGTATTTATAGAAGTCTTTTACTTTTATGAAATGTTTGAGAATGACGGAATAAGTTTTATTACAAAGATAATTATACTATTAGCAATAATATTTGGAATTAATTTGCTCGTGCTAGTAGACTATAATAATTACACCAGTAAAAAGATAAAGGGATATTGAACAATATTAGAAATATTAAAACTAAAATTCTTGATTTAGAGTGTAATTTATTTTTAAAAAAATAGAATAATATTTTGGAAATAAACAAATTCAGGGTTAATTTCTTAAAAATCAATCCATTTAGTCTTAATTTTACGCCGTATAAAACACAATTATTATACAGAAAAAGTATTTTATTTATCTCGAATAAACTTTTAAAGGAATTGCACGATAATATGAAAGATCTCGATGACATTTATCCCAGAAATTGATACAATATTTGTTGTAATCTTAAGTGTCTATTTAAGCTTTTTTGCATCAATTAATCTTCTCATGTTAAGTCTAGGGAAAAGAAAAGATGAGGAAAAAATTAAGGATTATAATGATAAGGTAGCTATAATTATTCCAGTAAAAGACGATGAATCCATACTAAATTCCTTACCATATTATAAGAATATTGATTATAAGAACTATTTCGTTGTAATAGTGGACGATTCGGATTCTGTAGAAATTTCAAGAAAAATATCTTCAGAATGTGAAAACTGGGAATGTATTCATATTATTAGACCTAAAGAAGAAAGAAAAGGGAGAAAAGGGGCTGCAATAAACTACGCTCTAGATAAAATAAGCAATCTTAATCCAAAGTATGTTGTCATAATGGATGCAGATCATAGACCACCTAGAGATTTCCTAAAGCTAGGTGTAACATTAATCAAAGAAAAGAAAGTTGATGCAGTAATAGGATATCAAAAACATGATCTAGGAGATTACGGAATTTTCGGGCACTATTATAGAATTTCTCAAGCTTCATCAATATATACGTTAATAGCTAGGCATAAGCTTAATTTGACTCCAATATTTACTGGTTCTGTAGCTATCTTTGATTATAAGTGGTTAAAGGAAAGAAGATTTGATGAAACTTCAATAACTGAGGATTGGGAATTATCATTAAGAGGATATATAAAAGGAAAATTCACTACTTATGTCACTGATAAATTATATGCCCATTGCGCAATTCCTAAAGATATAAAGTGGTTCATAAATCAACAAATGAGATGGGCAGAAGGAACGATTTCAGATTTAAAGAAACATCTTATCTCAATATTAAAAGATAGGAAAATAAGTATAAAATATAAAATAGGTTTATTGTATCAAGGTTTATTGTATTCTCAGGCCCTGGTCATTCTTTTATCATTTATCTTATATTTCGTATTTCCATTTCCTCAAGGACTAATTTCTGTAATACTAACAGTTCTAGTAGCTATTGATACAATATCATGGATAGGACTAATTATTAGAGGTGCACAAGTAGAAAAAATGAAAATAAACCTACAACTTATAATATTCTCATTTATGATGATTTATACAATGTCCATCTTCTATGCGTATAGTACATTAAGAGGGTTAATTTTCCATAAGGGTAGATGGATAGTTACTAAGAGGAGATCATAATGGATCTAAATAAACTAAAATATTCTATAGGAAGTGCAATGTTCTTTTTTGGTTCTCTAGTATTCCTTATAATATTTACAGAAATATTTATAATGAATTACTCTTTTAATTTCGATAATTTTCATTTGATGTCTTTTGGATATCCGTGGGCAAGCGAAAGAGTAATGAAATATACTGGATTTATAAAAATGCCTGATTTTTCTAACAGTAATCCTGACGTTTATTTCCTAAATTATGGAGAGGCAATGTTTATTTCTCTGATATTTGGAGTATACGGAGTATTTCTTTCAGAAAAGTACATGACTGAAATAAAGAATAAAGAAAATAAGATATTATCTAGAACGTTCTTTACTCTTTTCTTAATATCTTTTATAGTTACGCTCATAGCTTTTATTAGAATTCAAGTTTTAAGTTCTTTCTATTTTATCGGAAATACTCTTCTAGTTCCAGATGATAGATATTCAATATTAAACAGAATTATAGTAAATTATAACATAGATCCCTCTAATATTATTAGGTACAATGGAGGAGTTTTTGGTACTCAAAAAATATGGATAATAGATTGGGATATACTCCTTTTACTGTCTTCCGGTATATCTTTTGTATCTTATATCTTATGGAAATACTTTAGTCAAATTATAGTTAATAAGCATGAAATTCAATAATTACGAGCATAAGTAGGTACTTTATATCTATATTTTTATTTCTACAAAAGCATATTACCTAGTGAGAATTAAAGAAGCAATTAATATGGTATTCTGGAAGTATAAGGACCTTTCTCAATTTAAACTAGTTATTTATGATAGATTTACTATAACTTCCGAAATTCCTTTTGAGGAAATAGAAAGAGTAGATAATAATTATATTTATTTAAAAGACGGCGAAACTGTAATTCCAATACATAGAGTTTTAGAGATAAAGAAAGGAAATTATTCAATTTGGAAAAGAAAAAATGGTTAGCTTATAATCTTAAATAGATATATCCTTCTTTTTGCCACTTTGCTATTTCGTAGAAACTTATTGGTGCTACTTTAACTCCTTTAGCAAGGTCATTCTCAGTCAAATTATTCATTTTCATAGCTACTCCACAAGCATATACTTGGATTTTAGGATCTGATGAAACGTCTTCTACGTTCTTTTCTTCATTCTTCAAAACTCCAAAAATTCCAGTTTCAGAATATACTGCTATAACGCTTTCAACGTCTTTTTGATTAGCCATATTTTTACTGCAACAAACGATAAAGGGATCTTTTCGCTTTCAGATATCTGAAATAATATTTTCATATCATGCTATATACATTGAAAAAATATGAAGTTATCTATAAGAATAAGGAAAAATATAGATAGAAAGTTAAATAAATAAAAACTTATTAAAATGAATATAATGTTGTAAAATCAGTACTTTCAAGTAATACTCCGGAAGAAATTTTAGCTAAAAGATATCTTAAAAGATCAAGATATCCATACGGTAAACTTATTTCGGTTCCACCATTCAAGTAGATATCTATCCTTTTCTTAGAATGATCTACAAATAATAGATAATTATATTGAACTATAAAATTTATAATGTTAGCTAAATTGTATTCTCCTACTTGAAGATTACCGTAATTAACTATAAAATAATCTAAGTTTACGTTATCAACATCGTAAACTATCATCGGCATGGAAAACTTAATTTCAACATTAGTAAGATCAGTTATAGATTCTACCTTATGAACATCTCCGTCGTAATAAAACTTACCTTCTTTAGTTATAAATAAAACCTTAGAGACCATAAAATGAAACTCGTTTTTTACTGTTTTAAACTTTTCTTAAAAAGATTTTATATAGTTTAAGAATCTATATAGAGAAGATTATGATACTTGAAATAGTAATAAAAATAAAACATAAATTTATCTTTAATCAAATAAAATTTTATTTTAAAATTTAGACTGCGTTAGCGTTTATAATCTCCTCTAATTCTGAAGTTCTTATTGAAGATTTAACAGCAGCGTAATGAATTCCTATTAATATTAAAGAGACAATAATAAGGTCATACGGAAAAGGTATAAGATCTACTAGACCAAATGGACTAAAATATGATAACGGCATAATACCCAACATAAATATTAATAACCATAAACTAGCTTTAATTTCTTTTATTGGAATATTAATGAAAAGTGATTGAAGAATTATTGTAGATGTAATCATTAGAAGAAATAATAGAAGACCTATATTATTGGAATAATTAAGTCCATTAGTGGCCATATAGAAAAGATAAGATGAAAATAATATGATAATTCCTGATGTTATATTAATAATCTTCATTTTAGAGTTTAATGCAAAAAATACGGTCAATCCAAGAAGTCCCATTACTATAATATAGAAAAGCGTAGAAAATCCTGACCAATATACAAGTAATCCAGCAGTTATTGTTGATATTGGGGCTATTATTTTCCATAGCTTTAATTCATAAGGTCTCCTTAAATCAGAAGCTACATGTCTTAAAGAGTGCAATCCTATTCCACCCATTATATAAGTCAATACTGTAGCTGAAGACGAAATACTCACTATGGCATACCATGACGGTAGTGGTAAAAGGAAAATTGCTGCAGCTATTATTGATACTATTAACGAAAATTCAGGGATTCCAGTTTTTTTAATTTCAGAAAATATTCTTGGTAAGTATCCATTGGTTGCTGAACCGTAAAAAGTCCTTGCTGTAGTTCCAGTATATATTATCCCAGTTCCAGCTGGAGATATGATAGCGTCAAATATTAAGATTGAAAGCCATATATCTAGAAAAAGAGATACACCATTAATCTCAAATACAGAATATATTGGCGCATTACTTAATGGAGATGAGAGAAGTGATCCCCAATCTCCCGGACTTAAACCTATTTTAGACCAATTAATTGAACCTATAAAGCCTATCTGGAGTATTGTAAAGATTAACATAGCTATTAGTAACGATGAGATTATTGCAAAAGGTATGTCTTTCTGAGGATTTTTTCCTTCACCTCCATATTCTATGGCTTGCCTAAATCCTAGATAGGAAAATATTATCCCTGAAGAAGGTATAGCATAAAGTATGCCATTTATTCCGCCATATCCTTCTACATTATTAGAAATAAAATTTGAAAAATTCTGAGGATTAAAATAAATGAAGAGTAATATTGCAGTTACTGTGGGAATTATTAATTTCCACCAGCCTATACCATGACTTATTCTTCCTAGAATTTTAACTCCAAAATAATTAGCAAAAAAGAATATTAGTAACAAGACGTAAGTTACTAAAATACCTTGTAGCGTTAAACTATCTTCTTGAACATTATATAATGAAGGAACAAAATGAGAGAGATAAGTTGTAGTAGCTATTGCCTCAATTGAAACCGTAGATACGGCAGAAATCAAATAAACCCATGCCATAGTAAATCCTACTATTCTACCATGAGTATAATGAGGATACCTTATTATTCCTCCTGATTTTGGAATAGCTGAAGAAATTTCTGCATAAGAAAGCGCAATAAATATCATTAATATTCCTCCTAAAATCCATGAGATAATGGAAGCTCCTCCAGCATATGCTGCAGCAGCTAAAGGAGCAAATAACCATCCAGAACCTATTATACCTCCTAAAGAGAGATAGGTTAATTCCCATCTAGTAAGGGTTTTTCTTAACCTATTATCGGACTGCACAAAAAGATAAGGGAAAGTACTCTGCTTAAAAGTTTAAAATTAAATAATAGTTTCAAATATTGCTTCTTTATTGTAGAAATAGTTCTAGCTTAGTACTTATTCTTAGTGTTAGATTTAAAAGATATAACTAAGAATTAAACGAAAGATATATTTGAATATTGATGTTTAACTATATTAAATAGTATTCTTAAATTAAAAATTTTATATCTATATATTAAAAATTATTAATGAAATATCTACTTATTCATATTCTTAAGAGCTACAAGTATCTTTTAATTTCATATAATATTTTTAATAGCTCAACTGTTAATTTATATATAGTGAAACCTAAGTTTCTTATACTTTTAGTATTTATTGCGTTTCATAAATGATTACCTGATATATTTAAAGTAATTATATTAAAAACATCTACCATACTTCTTGGTTAAGTTAGAAAACTATGGTTAATTTTTATTATTTATTTCATAATTATAAAACATAAATATTATAATAATTCTAATGGATTTTTTGTTTTAGGCTTATATTCACTATCTAATTTTAAACATTTTAGCTTATTCAGTATACCTTTATTGCATTCATCTTTCCTAATAATTGAACCCTCATAATTTAGCATAATGTATTCAAATTTATTTCCATTATCGGTTTTTATCGTTATACCGTCTTCTTTATACCCTATGAAAATAATGTTATTCATTTTTATGGAAGCAATGTCTGGAACTTTCTTTAATGATAAGATTTTCCCACTATCAGAAATTTTAGTTAGATAGTGCATATTGTTACACATTAAATCCACATTTACACTTTCTTTTTCTCTCATTAAATTTTCCTTACAGTTACCTTGCATATTGAATGCCGAATACGCTATTTTTATAGCGTAAGAATCATTTACTTTAGATTTTTGATAAATTAATTCTCCGCTAGTTTTCCATGCAAATTCATAGTTAAAATTAGAATCATATGCAAACGCAAAAATTTTTTTATCTTGATTTTTTATAGATTGTAAATTATAACCGTGGTTAGCTATAAATATTTTTACATAGTTCTCATTTATATCTTTATTTAAACTTTTTATAGTCCCATCTAAAGATATTTCGTATTTTACAGATCCAGTTACTCCAGATTCTAATATTATCCATGAATCTCTAAGTTCATATTCAGTTTTCATGGGTTTTGAAAACATGCTATTTATAAAATTTTCAAGAGCAATTTTTTGAGCTGAGATCAAAGATATTCCAATCTTATTACATGAAACGTTTTTAGAACTAGAGTCAACATGACATTTATAGAGATAATCTCCAGATAAAAATACGTCATAATTGCCCTCTACTTTAACTATATTTCCATTTATTTTACTTTGTGCTAGTTTTATTGCATAATCTTTAGTTATTCTGACATTCTTTCGTATTATTTTACCTACTTCATTAAGTTCAATCTGTATTTCGACTTTATCATCTTGATAATCAATGATATAGCCATCCTTATTTCTTGATATCTTAGGAGAATTTTTTAATTCTGTTTCCCTTTTAATTTCCATCAAAGCTAATTTTTCTAGCTTGTCATTATCTATAGGCTTAAAGCTAACATTCAACTTATTCCTATTGATACTAACTATAGCTTCAGTCAATTCAACTTGAAATATGATATTATAGGTATCTAGAAACCATGCCTTTTTCTTTAGTTCTTTAGAAATATCTATTATTTGACTATAATTAGGTAATCTTCTTTTTAATAATTCTACTGCTAAATTAGCTATTTTAGGATATTCAATGTTAAGTTTCTCATACTTAACTTCAGAGGCCATTATTGTTCTCTGCATTGGAGTTTCCAGAAGTTCAGAAACATCTTCTCCTGCTCCATCTAATGCTATTTGCGATGAAAGAACTTTTCTTCTTCTATCATTTTGTAAATTATAGCCTATTTTTACTTGGAATACATATAATCTCTTTAATATAGCTTCTGTCCTTTTAATCTTGTAATTTCCATATTTTCCAACTAAGTTTTCCGCTTTATTTATTACATTTTCTATATCTATATCTAAATATACTCCTTCATTAACTTTGATTTCCTTAATATCCTCCTTTTCATTTTCGATTATTTGTGAATCTTCTGAAATTTTAGTAGGTGAAACCATGGGAACTCTTACTTGATTTTGTTGAATTAATTTAGCTAATTGAAAACCATTAATTAGAAGAATATTAAGTTTGCTTGCTACTTCAGTAGCATCTACAGTAAAATCAGACGTTGTTATTATTATTCCCTTATCGCAGTCTTGTAATTTCATGGACGTATAAAGATCTCTTACTGTTTTCTCTCCTATTTTAGTACTAGTATATCTTTTTATTTGAATTGCGTATTTATGTATACCATCCAGTTCTTCTTTCCATGCTAAAATATCTACACCTCTATCTCCGGAACCTCCTACCCATTTTATGTTCTTAAAACCTAATTTTGGTAAAAATTCGTCTGCTATGAACTTTTCAAACGATGTAGGGTCAAGACTAGCTATATATTCAGTAATACCCATGGAAATTATTATATCATAGTGAAATATAAAGATTAATATTCTTTATAAGTCTATTTAGAAACAATGTTTTGTAGACTAGTTCAATTTTCTTGGATGTTAAGCTCATTAAATTTTCTTAAATTCAAAATCAAGCGTTGATTTAAAAGTAAGTTTAACGTTAGCTTTAATAAAAATTGAAGCAATCTACAAAGCATCGAAACAGTACTATTTATCCTTTTGATCATTTATAATTTGTGTAAAACTTAAAAGAGCTATAGTAATCATCCTATTTTTACGAAAAATTAATATCGGCTAGAAGATTTTAAGTATTGCTTGTTAATTGGTGTAAATACCAAAAATAAATATTTTATACATAAAAACATTTTTATAGGAAAAATCTTTTTATTGTAGATTCTTTGTTAGTAGGAAATAATATTATGACTTTTCTAGAGACTGTCCCAAGCGCAAATAATTGAATAAATCTATGTACAAGTTTATAGATAATTGTTCAAAAGTAAATATAATTAACTGAGAAATTTTGAATTTTCCCTTGAAGCTAAAAGTCGCGTAATACTTAAAGGGAACCGGGACGATGTAGTACCGATTCACATGGAACATTGGATAGAATACTACAACGGTCCGGTTCTCTATAAAGAATTATCATCAAAGCATAAAACACTTGTAAAAATGAACTACGTACTAATCACGTCAGAAGTATTATCGCGTCTAGATGACCTCTTCATATTGAGGGCTTTAATAGTGATGGTCGTGTGGACGTGTTCTTACAGGAATGTGTGGAGCTACTACCGAACCGACGTGGTAGTAAGATGGTTCCTAGGAGAATGCAAGTCTAAGTCAGAGATCCACAGAAGGGCCAAGAAGTTTAGGTTAGAGATCAAGACGGTTTTCAAGGAGTTCTCCAAGGAGCTGGAGGGGAAGTTGAGTGGGCGGACTACTTACCTAGCAGCACGTTATACGGCAAGGTTGGGAAGTTGTGGATCGTGGATTCCTTCCTAATCGAGGTACCCTTCGGGAAGAGGAACAAGGAAACATTGGAGAAGAAGTTTGAGCTAGACCTAAGGCAGAGGAAGTACAGGGAGGCGGCTAACACGCTCTTCTTTTACATTAAGTGCAAAGTGAGGAGGAGGTTCAAGGGAGAGTTTACAAAGAAGAGGAACAGGAGTTCGGCTTCAAGGTCTTCAACCTCATGTCGCCTACAATGATAGTTCACGAGATTCAAGTGGAACTGGCCAATTTTCCGGACAATAAGGTTGGCTTCTCCCGCAGCGGTTATAAGGTAGTGGATAGGGGCTTCGTGGGGAAGTCCTCGACCTGGTTGATAGGTTTCTCTAGTTTCAGGAGTGGAGTTCTTTGGGATCTTCTTGAGGAGGTATTGGAGGCCTTACGCTACTGAAAAGGGTATGGTCGAGTTCTTTGTCTACGTTATCGCGTTGATTTACAACTCCTACATCTACACTTCTGTGTTATCGCGTGTTCCGGAGAGTCAACTCGCCCACTAACTTGTACCGCGAGAGTTGATCAAGGTAGTGTGGACTATGTTGGAAATTCTGTTTTTCTCTATACTTGATTATTTTCCATTACAATATAAGCTTAATCTCTCGTTATACTGAAAGATATAATTATATTTTATTCTTAATTAATTATAAAATTGTTTTTCTATCATACTATATTTATTCAATTATTTGCGCTTGGGACACTCTCTAGACTATATTCACTCAGTTCCATACATACTATTTATTCTTCCCCATTTATATTATTTCATGTATATATTGAATCTAGAGTAGAACCGTAAAGCTGAAAAATAATTAACTAGAGAAAAACGCATCTAAACCACTTTTTCTATTTATGACTTTTTCTATAAATTTATCTCTAATAGGTAAATATACTTTTTCAAAGAATTCTCTTTGATTTTCGAGAACTTCTTTAGGAAAAGACGAAACGTATTTTATAGTAGCATCCCATGCTTTATCGTAAGAGATTATAGGTTCTATTTTGTCTTTTATTTCCCTATCATAGTCTTCTGGAGTTTGCATTTTATCTCCTATTATATAATATCCTTTTTCAGTATCTTGATATACTTGTTCTCCTGCAACATTAGCTAACACTCTATCTTTTCTAAACTCAGAAGGTACCGTAGTTTTAGAATATTTAGGCGCATATCCTTTACCATAATACTTTGCCCAGGCATAGAAAATTGCTCTATTTAATCCAAAAGACTTAGCCTTATCCATATTGCCATAAAGTACGTAATATCTTGCAGCCTGTACTATTCCCATAACTTGGAATCTCCCTATTTTAGCTTCATTCATACTCTCTCCCGTATTTTCTCTTGTCTTAGTAACTTTCCTTTTACGAGGTTTAACTCCTTCATGTGAAGGTTTGTATGATTGAATAGCCTTAGTCAATAAATCTTCAGTCTCGTTTTCTTCATATCTTTCATAAATTCCTTCTTCATGAATAAAATTTTGAGGATTCGCCCAGTCTAAACTAAATTTACTCAGTTTATCAGGAGAAAAGCAAACAGCGACGTAATTAAGTTCCCTATGAAATGAGAGAGGAGCAGTAAATATTCTTTTTGAATCTATTAATTCGTCTACCTTCAGTACTCCTCCAGAACTTTCTGAAAGCTTTTGTAAATCATTCCTACTTTTTTCAATTATATACTGTACTATTGCGTGGGCAGCAGTTAATGGGTAATAATCTTTAGGTATAGAATTCTCATTTATCCTTACATGTATTCCTTCACCACTCCACAAAAGATAAATGGATTTTTCTACTCCTTCTTTTTCAAGTTGTGAAACTATTACTTCAGCAGCTTTTACAGCATATTCCCATTTGTCTATCTTTGTGTCTATGTCAAAAAAAGGAGTATAGTAAAGAAGATTATCCTTTTCTATATTATCCTTTGTAACCTCTTCATATTTTCCTGCAGTAGCGTAAACTGTTCTAGCCTTAAATTCAGAAATTTTCTTTGCAACTGAATCTTCATTTTCAAAAACCAAAGGATTACCTTGTTTATCATACCTAAACATTGTACTTCCATAAAGGGCTATCCATCTCTGTTTAGAAAAATTGTAAATTTCTCTCTTAACTATTTCCTTATTATAATGAGAAAATAGTAAACTCATAATATGAATATTTTATGTTTTTAATATTAAGGATTTGCCATTTTAGATTATAGAAGTTAGTAGAGCATTAAAAACTGAATCCATATCTTTTTCAAGGCTTTCAGCGAGTATCTTTTAATCCTTTAAACTATTTCCTAGCAGACTTAAGGATCTAATTATGAGTATCTGAGTTTGGCTTAACTGTTTTAATTTTTCTTTTTTATAATTTTGTAAATATATTCTTAAACTATTATAAAACTAAAGCTTGCTTTTTACAAGATAGCATATATAGTAATACCTTATAAATACTTTGGCTAATAATCTAATATATGGAAAGATTAAAGGATGTTTATAGTATCGACAAATTTGGGAAGAACGTTCCGGAGTGGACTGAGGAGGTAAAGTATGAGTTTGTAGACTATATTATGGGAGAAAAAATTAAAGGAAGTGAAGAATGGATCAAGAACTTTCAAAATATAATGAATATAGCTAAAGAAAAACTAGGATTGAAAGATTTTATTTTAAGTAAAGAAATGAGAAGTTTTCTGGAAGATCCGAGAAGACATCTTGTGAAAAAGCTTTTCCTTTATTTTCACGATCTAATTAGAGGAAGGATAACTCCAGAAGAATTTTCTACTAAGGGTAGACAAGCTATAAACAGTTCTTTTGGTTCTAATTTAAGAGGTATATATCAATCTTGGGGACTTCTTTCCATTATGATTCTTCTTTCTGATAAAGGATTTAGAATAGCTTATCCAGAACATAAGGTGATAAATTTAGATAGAACCGGAATGCAAAAAGCTGGAAGCATTCCTCCAAATGCAATAATGGAGGACGTTATTGGTAGGTCCTTTAGCTTTTTTGTTGAAGCCCCAAGACCTATAGGATGGGAAGATGGTGGAGATTTGGAAAAAGTTTGGAAATTATACTCTACATTAAGGCCTGACATGTTAATTTATAAAGGATTTTATACAGATATAGTGGATCTTTCTGGCAATATACCAATAAAGAGACCTAATTACATTGTAGAATTTAAGGAGCTGGACGATTGGTGGAAGAGATGGAGATATTTAAAAGGATATAAGCCTTTTACTGTAAATGAATGGAGGGCTAGGTGGATTAATGGACTTTATGAAGGACTTGCTGATGTCTTGGGGAAGAAACCTGAAGATTTACCTAAATTTGAAAAAGAAGAAGGTAAAAAAATAAGAGAATATAAAATAATTGAATTATACATGGGAGTTTATAATCCAGATCAAGGTGTTTTGATAAGTAGGAAAAGCGTAGGTAATGAGGTAAAGGAAGAATTAAAGAACGTAATGGTGATAGACGACGTAGAATTTAACTACAATAAACTTGAGGAACTTACCAATTCCATGATAAAAGGTATTGGAATTAATCTAAACATAAAGGACCTAGCTTATAAATATGCTATGGAAAATCTTGATGATTTTAGAAAATGGCTAAGAGAAAAAATAGGTATAGAAATTAGTAAGGAAATGCTAAATTTTTAGATTATTTGAAGAAAATTACTAAAGTCTTTTTACATCTTGAAATCAGATCTTAATTAGTTCTACATTATTGTCTATCTTGATGTATCCCTTGTCCATATAAATATTGTGATTATCTGAAAGAGTTCCAGCATTAGCACATTTAATATTATCAAATTTTACTAAAGCATGTGAATGTCCTAAAATTAGGTAATCTGTTGTTCTTAATAATATTTTAAAAGATAGGCAGAAAAGTAATGGAGGAAGATTTCTGTTAATCTTCTTCAATATCTTTGCAAATCTATATTCTGCTCTTTCGTTAAAGTATTGATTTCCATGTAGAAGTATATAATTTCTATTTTTAACATTAAGAAAAAGAATATCTGTATCACCGTTAATTACATCTTCGTCCCCTCTAATGTAAATTATTTTTCTCTTATAATTTAATTCTTTTAAAAATTTTTTATAATCGTTCTCTTTTTCTACTATTATATCCCCCAATAAGACGACTAGATCTGGGTTCTCTTTGTTTAATATTTCAACAATTTTTTCTACATCGCAATGCGGATAATGGATATCTGAAAGAATAAGAGAATTTTTAGCCTTTGCTGAAAGTTTCCTCACACATGTTGTTAAAGCTTTTAATATAATTAATATTATTTCTCTTAATAAACAATAGATTTGGATACTGTTTATTCTCTTTTCATACATAATTTTAATTAACTCAATGAATATAGTCTATTTAGTTTTTCTTTAAAATTATTTCTCCCTTTATATTATAGATTTTTCCTATATTCTCTATTTGTAACTCATAAAATGCCTTTTTAGCTATCAATTCTGTTAAATTATATTCTCGTACTACTGATGATAATGTAACAGCGTCTGATAACATGAGTTTTCTTTTAATTATATCTTTAGCTTTAAATATTTTTTCAGTATCTAGCTCTTGATCAAAAATATCGATATAACTATTTATTCTGTTATCTAGCTTATTATAGATTAATTCGCCAGATAATAGATCTATCAAACATACTGATAAATAATAGTCCGTAAAGTTCTTCTTAAAATCGTCAGAGAATATATATTCCTTTACTTTTTTATCGAAACCTGTTGGTGAAGCTATTCCTATAACATGTAATACCTTTCCTTGCTCAGCAGCATCAATTGATTTATCTAGATATTCTAGAATATCTGCTAATGAAATAGTCTTATCGTCTGCTAGTTTCTTTACGTAATTTTCAATATGAGAAAGGAATTTAGCTTTAATTATTATACTCAAATCGTCTTTTAACAATCTCCGTTTCCTTATTATATATGTAACTTCAGTATTATGTGGATATAAATGTAGTTCTTTTGGATTAATATTTAACGAATTTATTTCATCGCTTCTTTCTATTATATAGTTATTGGATTTATCTATATTTATTTCCCCTTTTCTTATAGGGTCTAAAAACTTTCTAGGAAATGTATTCATTTTCATTTCTAATCTTCCAATAAAATTGACTTCCATTATTCTAGCTTCGGTATTACTTATAACAATGCTTGATTCTGAAATATTTTTATATTCGTTTATTTTTTCTTGAAGTTCCAAATTATCGATCTGAAGCTTAGAAACCGTATTCTGATAGTTTTGGATTTTCTCGGTTAATTCTCTTATAGTATCTTCATATCTTCTTATTTCTGATTCTATAATAGTTTTACTCTCATTTTTTATTTTAATTGCAAAATTTTCGAGTTCAGCCTTTTGTGATTCAAGAATTTTTTTCTGCTCAATAAGTTCCCTAACTTTTCCTTGTAAAAAGGTTATCATATTTTTTATTTTATCTTCTAAGGTTACACCTTTTACTCCATAATTATTTAGATATTTATCTATTTTTTCCTTTTCTTCTCTTAACATTTCTATTTCCTTTTCAAGTTCGTCAATTTTCTCTTCTGCTATTTTCCTCATATTTTCCTCAATTTTTCTCCTTTCAATTTCAGCATCGTATTGTTTTCTTATAACATATTCATATTCATTAAATAACTGTCTAGGAGCCCCTGGGTCTTTAGAGAAGTAAGCTATTATACCAGATTTTATTTTATCGAACCTATTGATATATTCATGCCTTAAAGCTATTCCTAATGTTTGTCTAATTTTATATTCTCCTGGTTCTAGAAGTTTTTCATACTCGTACATTTCCTCATCGTACCATTTCTTTATAATATCATAAATCTTCCCTGTTTTGTTAAATAAGGCTGAAGCTATTTCAGTATCTTTTATGTAATCTAAAAGGAGAAAATTATCTAATTTTAAAAAAGCTGTATACTCATCGTCTGTAAAGTCTTTGGATATGAGGGCTACTATAGAGTCCTTGCAATCTTTCAAACTTGAAGCTATTCTAATCATGGCTAAATCAAAAAATCCTAATTTCAAGTTTTTCTCATCAAACGAAAGGTCTTTAATACAATTATTTTCATAATATAATCTGTTCTTTTTTAGCTCATTGTAAACTTGAATTCTAGATTCAAGGGGCTCATTTTTTAAACTAATTAAATCCTTTCTAGCATAATTCATAACGTAATCAAATATGTCTTGGCAATTCATTTCGAATCACCAAATATTTTTATCTCTTCTGTTAATTCTTCGAGAAGTTTTCTTACTGCTTCTTGGCCTCCTGTTAAAGATATGAATACCGAGGTTGAAGAATCTCCTTTAATGTTCATATACAATCGTACTATTCCTTTTCTAGTATAAATATCGTATATTTCCATTTCTCCAGAATTTCCTAGGAAAATACCCTTCCTTTTTGATATTAAATATGACATGAAAGACTTAACTTCCTTTAGTTCTCTTTGTAACTTAAATGTTCTGCTTTCGCTATATTTTTCCTCATTTAAGTCTATTTTTGATATTTTATAGATAGAAATTACATCTATTGGAAATTTATTAACTATCTCGGAAATTACATCGGAATATATATCATCATTAACTTGAAGTAAATATCCCTCTGGTTTACTTATCTTATTAGGCCATTTACTTACAATGTAATCTAATCTTTTTCTTTCATTGTCGTTCCTGTACTTCACTTCAATTAAATACATCATATAATTCTTCTTCTGAGATTATTTTAATTTTTCCATAAAGGAGTTTGTTATCAGTTGGTTATATGGAAAAAAAAATCTTTCTCCAGTATGGAGAAAAATATATATAATAGTTATGCGAATTAATACTAGATAAATATGGGATTATTTGACAAGTTAATTAAGAACAAAGGAGTTAAGGACGTTTTAAAGAACGTTGACATTAAAGAAATAAAGGAGGAAATAGGTTATTTGGAATTACAGGAAAAGAAGCTTGAAACACAGAGACAAGAACTAGAAAAGGAAGCAGAAAAACTTTTCCAAGATTCAATAGGAAAAAGTGAGGCTACTAAAAGACTAAATGCTACAAAAATAAAGAACTTGAAAGATAGAATAGCAGACATAGATAAGGACCTAAGGGAAATTAATTTAAGATTAGGAGTTCTGTACAAAGTTCAAAGGTTAAAGGAAAAGGCACAGAAAACATATAATTCGAAAGTGTGGGAAGAACTGGTAAATAACGTTGATAGCGAAACCTTAGAGAAATGGTTAGTTGATCAAAAAATTGGTGACGATGAAATAATGAATAAGTTAAGACAACTATATAATGCTCAAGGTCCAGAGGAAGAGGCTGAGGAGATTTCGCCAGACGAAAGAGAAATACTTGAGGCCATGGAAGCAGTAGAAAAGGGTGAGAAAAAGCCTGAAGAGGCTACAAAGGAAGTTACTAAGGAAAAGGAAACACAATAGGGAATTTTAATGTCAATTGATTTTTTAATATTGAATCAAATAAAAAAGCTTGAAACTGAAGCAGAATATTATGAAAAAAATGGAGAGAAAGATAAGGCATATAAGGTTTATGAAAAAATAGCTTATCTTTATGAAGAAGCCGCTTCCAAGGCATTATTGCAGAGTACTAGGGAACTTTATCTAATGAAAGCAGGAGAATATAGAAGTAGAATAAACGCAACTAAAGAGAAAATTAATGGAGACGAACCCGACTATACGCAAATAGCTAAAAGCATGATAGAAAAAACTAATTTAACTTGGGATAATATTAGCGGATTGGAAAAAATAAAGTCTTTATTAAGACAGGCTGTAGGCATAGCAATTTCAAAACCAGAAAAACCAGTAAAAATAGATCCTCCTAGATCTATTCTTCTTTTCGGTCCTCCCGGAACGGGGAAAACATTGCTTGCTTCTGCAGCTTCAAACTCTATTAATGCAACTTTTTTTAACGCAGATATTTCAAGGATCCTCTCAAGGTATGTAGGTGATTCCCCGAAAACCATAGATTCATTATTCCTGTTAGCGAGAAAGATGTCTCCTTCAATTATATTCTTTGACGAGTTCGATTCTGTCTCTTTAAATAGAGAAGAAAAAGAGAATATAGGCGCTGGATTAATTCAAAAAATTTTAACGGAAATGGATGGTTTTAGAAAATCAAGAGATTTCGTTATGGTTATAGGCAGTACTAATAGACCATGGGCCTTGGATGAGGCAATATTAAACAGATTTGATTACAGAATATATGTCCCTCTTCCAGATTTTGAGGCAAGAAGGGGAATATTTGAAATTGAATTAGGAAAAAATAACTTTGAAATAGAAGCCGATTATGATGATTTAGCAAAGAAAACAGAAGGATATAGCGGAAGAGAAATTTCACATATATGTAAAAAAGCAATAATGTCAATGATAAAGAGAATGAATCCAGATATAGAAAACGCTAAACCTGGATATAAACTAAGGATAGGTAAAATCACTAAAGAAGAACTCTATAAATCTATAGATGACACAAAACCGTCTGTAAGTAAAGAAATAATCAAAAAATATGAAGAATGGAATAAAGAATACGGTTCAGAGTGAAGAAAATGGAAGACATTATTCAATATTTAAATGAGAAAATGGGAATACCTAGTAATGTAATCTCAGTAGTAAGTTCAATAACTAAGGTACCACTAGTTTCGACTACAGTAACTGCACTTACATTCTTTTCAATATTTGCGATATTATGGGGATATTATTACAGGAAAAAATCTATAGACTCTTTAAAAGAAGATGAACTAGAGAAAAACGAAGTTGAATTAATAGTCAATAATGATAAAATCGAGAGAGATCTTAAATACCAATACGATAGAAAGAAAATTCTAGAGGAAGAAATAAGAAAAACAGAAGGAATATTCAAAGACAAATATTCTAAGGAGCTGGAATACGTTAATAATAAGATAAAAGTTCTTGAGTCAGAGTATGAGGATAATTTAGATAGATTATCCTTCGTAAGAAACTTGAAAATGATAATATCCCATAAGAAATTTCTAAAAGAGAAAGGAATATGGAAACAATTTGAAGAATTATCTAGAAAGATCGAAAAGGAAAATATAAACATAGACAAATCAATTTTGAAACGCAAAGAAATGAGAGAATTTCTTTCCTCGTTAAATAATGAATACGAATTAATGAGGATCTTTGAATAAGGGGAAATAAATGGATTTTAATGAGAAGTTCTTAAAATTAGGATTTTTAATAATATTTATTCTACTTTTGGCTTTCCTACTTTTACCTTTTGTTAAAATTTTGATTCTACTATTCTTTGTATTTCTTATATTTATTTTCGGAATGGCCAGAATATTCCCTGAATTACATGGTCATAAAAAGATGAAATATAAAAAACACTATAGCTCGATGATCAAATGTCCTTATTGCGGGACGTTAAATCAAAAAGGAGCTAAGTATTGCAGTAGATGCGGTGCAAGGTTAACAAAACCTACTATAGATGATCTGATCAACGAACTATTTTCTAGAAATATTAATGAAGTCATGACTGCAATAAACGAATTAAAACAGATCGCTAATACTAATATAAATGATTTAGAGAGATATGTAAAAAAATTAAGAAAAGCAGAAAGAAAGATAAAAAATCCTCAAGTTCAACAAACTATTACTCAGATATTAACTACTATTGAAAGAAATGAAGTAATAAAATATAATAAAAATGAAAAATTACCTATAGAAAAACAATCAGTAATAAAAAACCATGACGTAATGCAAATCCCCAACTACGAGATCTTGGAAACTATAGGTGAAGGTGGTTACGCTAAAGTTTACAAAGCAAAGAGGAAAAAAGATTCATTACTAGTCGCAATAAAAGTTCCTAAAGTTCCTAATAAGGATTTTGTTAAAGAGATAGCAGTATGGCTAAACTTAAATCATCCAAATATAGTAAAACTCTTAGATTATGATATAAATCCTAGACCTTACATAGTAATGGAACTAATGAATGGAACACTTCATGGAAAGACTTTTGATAAGGATACAGCTACTAGGATAATTTTAGATGTTCTTTCTGGATTAAAATATGCTCATGAAAAGGGAATAATTCATAGGGACATAAAACCGTCTAACATACTTTTAGATACTAACGGTAGGGCAAAGATTAGTGATTGGGGAATAGCAAAATTTTCAGATATAACCACATCTACAAACGTAGCATTTACCTTTGCTTATGCGGCTCCGGAACAATTAGATACACACTTAGGTTCAATTGACGAAAAAACGGATGTATATCAAGTATGTGAAGTATTTTATGAGATTCTTACTGGTAGGCCGGCTTTCCAAGGTAGTATAACAGAAGTAGATCATAAAAAACTCAATATGCAAATGACTCTACCGTCTGGCATTAATCCAGACCTAAAGGATTATGACGAAATATTTTTGAAGTGTTTATCTCCCAAGAAAGAAAACAGATATTCTACTAAAGAACTTATATCCATTTTATCTAATAAGCAATATACTAGACTTACAACTGAAAATAATGCGTATGCCTTTGTAGAGTTAGCATATCTAAATGTTCAATTAGATAATTACGAGCAAGCGCTACTTTGGGTAAAGAAAATTAACACTGTATATACAAAGGATGTTATACTCAGTTTAGAGAACAAAATTAAATATAATATAGGCACAAAAGAAGATATTTTGAAGAGAATAGAACTTTTAAAAAATCAAATTAGTTCATCAAAAAATAGATATTGAAATAATTTTAATATATATATAACTAATATGCTAGAAATTTTTGGTAGATTAGGCAATTCTTACATACCCCTATATTTTAATCTGCTACTGATAAATATCCAAATATATTACCAATAACATGATCTATTTAGTCTCTCTTTAAAACTATTTCTCCCTTTACATTATAGATTTTTCCTATATTCTCTATTTGTAACTCATAAAATGCCTTTTTAGCTATCAATTCTGTTAAATTATATTCTCGTACTACTGATGATAATGTAACATGGCCTGATTTCATGAGTTCTCTTTTAATTATATCTTTAGCTTTAAATATTTTTTCAGTTTCCAGCTCTTGTTCAAAAATATCGATATAACTATTTATTCTGTTATCTAGCTTATTATAGATTTAGACTTTCTTAGATTTCGCACAAAATTATGTTTTGTTTATTTTTAAGGCTTCACTTTTCTTTTGGTGAAAGATTAAATACTAATCTTTCTTAGCTAATATAGGATGAGCATAACTATAAGTGCTGAAGTATACTACGAGGAAGCAGAAGAATTACTTTCAAAGGGTGACCTTGTTCAAGCTTGTGAGAAGTATTATAAGGCTGCCGAGGAAGCAATAAAGCTTCTGGTTATAGAAAATAACCTAAAAGAAATAATTAAAGAGGTCGAAAATAAGGGAAGATGGGAAAGTGAAAGTTTATTTAAAGCCTCTAAGTTATTACGAAATAAATATCCCGAAATTGCCATTCAATGGAGAAATGCATGGACTCTTCATGTTGAGGGATTTCATGAAATTAGCCTAAATGAGAAAGAAGTTACAAAATTGAAAGAAGATGTTAGAAAACTGGTTGTAATAGCCGTTGTCAGCAGTTTCCGATAAACTGTGAAGTTTATATTACTTTGATGGAAAATATAAAGCAGTCACACCAGATGGGTGGATATATCACGATGAGGTGTGACGGTGAATAAAAGATATGCGGGTTTCCCCACATCCGTGATGAGTGTAGGCTGGGGTTATCCCGCTAAAGCGGTAGACCCAAAATCATATTAGAAAAAATATTTCTGGTAGGATAATATCGAATTTATAAAAGATAAAGAAATTTATAAGAGTGTAAAGAATTGAAGAAAAGGTTTAAGGTGAGGGAGATGGAGTATTACTACGTGAGATAGGAAGATGGTAACACCCGGTCTCCCTCACCAAAATAACATTCAACAAATAGGATATAAATTACTTTCCATGTTGAACTTCCAAGGAGAAAAGGTAGATGAGGTAGCAAAAACTCTCATCTCCGCGTGTTTGTGGAACGATTCAGTAGAGAACAAGTCCAGAGCGTATGACGTATCCCCACAGACCGTGAGGAATTACGTAGAGAAACAAGGGATGGAAGTGATTGAAAAGCTATTGGAAAGAGCTAGGAAAATATCCTTGGAGACATTAAAGGGAGTGAATGAGATAGATCTTTCAATAGACTGGACAACCAAGACGTGGTATGGGAAACCAGTGAAAGGGCTCGGGAGCTCTGAAAAAGGAAACTCGTGGAACTACGCAACTGCAACAACCAAGTATAAGGGGAAAGTACTTTTACTTGCCTTTATTCCGCAAGTGAACGGTATGACTAAGGACGAGATAGTGAAGGTTCTTGTGGAGCAAGTTGTTGCGATGGGATTCAAGATAAGGTTGATAACTCTTGACGCTGGTTTCTACACAGTTGATGTGCTCAATTTCATTTCACAGTTTAAGTATATAATTGCTGTCCCAGCTGGGGACGTGAAGGTGTTTGAGGAGTTTGACGGGGATTACAAGACTAATAGTAAGAGGCATAGGAGGGATGAGCAGGTCAAGTTCAGGCTTCTCGTGTATAGCAAGGAAAAAGTGAGGAGAAAGAAGAAGAGTCTTGTTTATTTTGCTAGGGCTACTAATCTAGATCTGCCCAAGAGGGAAGTGTTGGATTTGTACAATAAGGTAAGAGGTCCTATAGAGACCTCTTATAGGAACATTAAGGCTTTTCTTCCATTTACTAGTTCTACTAAGTTTGTTTTCCGCACGTTGATCTTCGTGCTGGCCCTTGTACTCTACTCCTTATATACCATATTCAAGGGGGAGGTGGGGAGAGAGGAATTTAGATTATTATTAATTCTTTTATTTCCTGATTTATTCAATCCAGAGAATTTTACATTTAATGTAATTGAAACACTTATTTACACTATAGATTTATTTTTAAGGAGGTGATTTTGGGTCTACCGAAAGGGGCGGAGGGGTAACGGAAGTGACTCTGTTGAAGCCCAAGGGCTGAGGATTGGATACAATTTCATGAAAATTCAATGAAGTCCAAACCCTCAAAAATCTTGCTTATGTTATTTCTTATCTCCTCTATAAGGTAATTTCACCTTTAATGGATATTCTAACGATAGGTTAAATTCTGACAGCAAATCCCTAATTCTTTTTACTCAGTTTTAAAAGCCCAGAGTAGAGTTCCTCGTAAAGCTTTTCAGCAGGAACTTTTTTAGATACGTCGTCGTAGATTTTCCTTACGTCTATGAAAATGCAATTCACGTTTAAAGAGTTAAGAGTTGAGAGTACTAAACTGGATTTTCCAGTCCTCTTTAAGCCGAGAACTACTATCATTCTCTCGTTTAAACTCCTTTTAACTTATCTATTTCAGTTTCGCGATCGAATAAGTGTCTTTAATGGAATCTTTAGGTTCTGTTGAAAATAGCAAGTATCACCCCTGATACTTAGTATCACCGTTTGTCCCTACACTTTCATTTCACTCATTTTATGTTCATTCATGATCGAGTGTAGGGACTTAGCCCTCGACCACAGGTGGGTCATGGGACTCCAACGGCACGGGACTCACATCTCTGCAATCACTCCCACTCTTTTGGGCATAGCCCACATCGGTGTGAGAGATCATTATTTATCAACAAAAATTTGTTATAAACAGACAAAAAGATTTCTATTAACGTGAAAAAGGATTCAGCCCCTCAACTTCCTTAAGTGCTGAGTATGTAGCATAGTCAACCCTAACCCTTAACTTCACTGTCCTCTCCACTCAACTCACCTATCAACTTTTTTACACCTTGAACTAGGAGTGTTTTCTTATGACTCCTAATACCGTAAATTTTCCCTGCGAATGAGGTAATGATTGAGATTAAGTCCTCAACTAGCTCTTGTGCGTCATCTTTGGGCTCCTCACCGAAAACCACTTCAATCTTAACTCCCATGGTTGAGAAGAACTCTTCAATGTACTCAAACCCAAAACGCGTTAGTCTATCTTTGTATGTTATTAATACGACGTCTACACTCCTTCCCTCAACAAGTTTGAATAGTTTGAGCAATCCTTTTCTTTGTGTGTTTAACCCGCTGGCAATATCTTTCAGTACTTCAACTACCTTGTAACCTTTTGCTGTTGCGTAATTCGTGAGGTAGTTTATTTGCCTTTCCAAGTCTTCTCTCTGATCGGTAGACCCAAAATCACCTCCTTAAAAATAAATCTATAGTGTAAATAAGTGTTTCAATTATATTAAATGTAAAATTCTCTGGATTGAATAAATCAGGAAATAAAAGAATTAATAATAATCTAAATTCCTCCCTCCCCACCTCCCCCTTGAATATGGTATATAAGGAGTAGAGCACAAGGGCCAGCACGAAGATCAACGTGCGGAAAACAAACTTAGTAGAACTAGTAAATGGAAGAAAAGCCTTAATGTTCCTATAAGAGGTCTCTATGGGACCTCTTACCTTATTGTACAAATCCAACACCTCTTGGGCAGATCTAGATTAGTAGCCCTAGCAAAATAAACAAGACTCTTCTTCTTTCTCCTCACTTTTTCCTTGCCATACACGAGAAGCCTGAACTTGACCTGCTCATCCCTCCTATGCCTCTTACTATTAGTCTTGTAATCCCCGTCAAACTCCTCAAACACCTTCACGTCCCCAACTGGGACAGCAATTATATACTTAAACTGTGAAATGAAATTGAGCACATCAACTGTGTAGAAACCAGCGTCAAGAGTTATCAACCTTATCTTGAATCCCATCGCAACAACTTGCTCCACAAGAACCTTCACTATCTCGTCCTTAGTCATACCGTTCACTTGCGGAATAAAGGCAAGTAAAAGTACTTTCCCCTTATACTTGGTTGTTGCAGTTGCGTAGTTCCACGAGTTTCCTTTTTCAGAGCTCCCGAGCCCTTTCACTGGTTTCCCATACCACGTCTTGGTTGTCCAGTCTATTGAAAGATCTATCTCATTCACTCCCTTTAATGTCTCCAAGGATATTTTCCTAGCTCTTTCCAATAGCTTTTCAATCACTTCCATCCCTTGTTTCTCTACGTAATTCCTCACGGTCTGTGGGGATACGTCATACGCTCTGGACTTGTTCTCTACTGAATCGTTCCACAAACACGCGGAGATGAGAGTTTTTGCTACCTCATCTACCTTTTCTCCTTGGAAGTTCAACATGGAAAGTAATTTATATCCTATTTGTTGAATGTTATTTTGGTGAGGGAGACCGGGTGTTACCATCTTCCTATCTCACGTAGTAATACTCCATCTCCCTCACCTTAAACCTTTTCTTCAATTCTTTACACTCTTATAAATTTCTTTATCTTTTATAAATTCGATATTATCCTACCAGAAATATTTTTTCTAATATGATTTTGGGTCTACCGTGATCGGTAGAGGAGACCATAGCGTAAATTACAGCCCTCGTCTCTTCCCTCCTTTCTAAGTACTTCTTAATCTCGCTGTAAGGTATCCTATACTTCCCTCCTTCAGTCGTTACCACCCTTATTTTTCCTTCTCTAATCCACCGTAGGAGTGTTGAGTATGAAATGCTGAGTAGTTGGCAAGCCTCCTTAGGTCTCAGTAGTCTCTCCACAAAATTGGTTGATAATAAATGAATATAAAAAGATTTCTATTAACGTGAGAAAGGATTCAGCCCCGATTAAAATGCTGGAAAAGTGGAAATAGTACTTTGCAATGAGCGGTAAAGTCGTAATTATCATATTATTTGAAGCCCTTAATGAGAAAGTTATAATAACTATTATAACTGCATAGATAAGCGTTCTTCTGTTCATAAAGATATATCATAGAATAAAAGATATATCGTTTTCCCAGTCTATTTATGGTTATTGCCTAATGTGTGAATGCGGGGAATATCAAGACCTGATCACGTAATGCTCCTTTGAATGTTAGTATCGACTTTCTTCATTAATGAGAAGAATATTCCTTGGTCTACATGATATTCGACTTCAGAAACCCTGCATTAAAGAAATCTTTCCTCATGTTTCTAACAATCTCCGGTTCAATAAGTATAAAATATCCGTTATCCTTTATTACTTTGCTTACCTCATTGGCTAAGTCGCTTCTTTCCTTTCTTATTTTATTATAAAAATAAAGGACAGAATAAGCTAAATCGAAGCTTTTCTCTTTAAAAGGTAAAGGAAACATGTTCTCCACTAAATTATAATCCTCATCTCTTAAATAATCCTTAACTTCCTTGTCTGTAATTTCCTCGTTCCATACTTCTATTGAAATTAGAGAAGGAAGTCTAGTTTCCTTCTCGACGCTTAACGTAACTAAACAGTTACCGCAACCTATTTCCAAGACTTTTTTAGGATTGATCCTCTTTATTATTGATGAAACGAGTTTACCTATCCTCAGCTCTTCGCAAATTGTGACTCCCATTCTCCTGAAAGGTTTATAATTCCAGGAATTTATACTGTCAAAAATAGATTACATAGTTAATTATGATATCTTAAATTTATAAATTATGATAAATACTACGTCACTTTCTGACTACTCATAATCTTTAATGTTTACCTCCTTTATTTTGAAATTTTTGATTACAACATTAAAATATTCTTCCACTTTTTGTCTATATTCTTCTTTAAGTTCATCCTTCCTTACATGCTCTCTTACTATACTTGAGATATAATCTGCCGAATGAATTAATTCGCATTTATCATGTCCGGTAAAATCGACTCCAAGGACTTTAGCTAAAGTCCATTTAGGAAAATTAATGATAATGTATTGTTTATCGCTTTCTCTCAATATCGGAGTTCTATCATAATGAACAACGACGCTCTTGCTTGCTACGTATTTCCTTAAATGTAAGCCCAATATCTCTCCGTAAATTTTCGCCGAGCAATTACTTAATTTTGTTTCATTTACCTTCCTTATAATTAATGAGATTCCCGTCAGGTTCTTTAATACCTTGTTTACAAAAATTCCTTTAACGTCCTTTCCTAACTTGAATTGTTTAGGTGAATCTTCCGACCATTTAAAATATTTTATATTCTTGCCCGTGAGCCTTTGTGCATCCTTTATTGCTTCCTCGTATAAATTTAGGTAACAGTTTATATCGTTAATTAAAACTGCTGAAATTATAAACGGTTTTTCATCATTTGGATTTCCTGCCTCATCAATTGCTATGTGAATCTCATTTTTAGTCATTATTTAAAGAATTCAACTACGAGTAAAAAAGAAATCGATCACGTGTAAGCTTAAATATTTCTCCACACAAGTTATTAATTGGGAGTGCACGGGGATACGTGCACGATGATCAAAATTCACGAGTGCACGGGGATACGTGCACGATGAGTTAACCTCAAAAATCCTTCTTCAAAAATTATCATATGCTTGAGTCAATTAAACCTATGAGTAAGGGCCAGGAGGAATTACTTAACGCACTTACTAACTCCAATTATAATATTATAGGTATATTTGGTCCCACAGGAACTGGGAAAAGCTTATTTTCATTAGCTTACAGTATCGATTCAGTATCCACTGGAAAATTTAGGAAATTAATTGTAGCAAAGCCTATAGTTGACGTAGTAACTCAGGAAGAATTAACAAGAAAAGAATATGACAAGTATGAAGATATGGTAAAGGATTATATAAAGGACGTTCTTGGCGATTTTGCTGAAGAGAAAACTATAGATGATCTGTTCTCTTCTGGGAAAATAGAAGTGTTAGATTAAAGGTACTTAAGAGGGAGGTCTTTCAATGATTCGATAATATTTTTAGATGATGTTCAGCTAATGAAGCCCGAAAGCGTACTAGAGCTGTTCATAAGGGCAGGTAAGAACTCAAGGTTAATTATAGCCGGAAATCCCGTTTTCCAGACTTTAAGTAATGAGGCAGATCCTTCTGAAATTATAAGGGAAGTGTTACTAAATGAGAAAGATGCAAAGGTTGTGGACCTAGGAATAAAAGATATCGTTAGGGCAGGGACCAAGAGAGGAATTAGGCTTTTGTTAGAGTATAAATTAAGGTCCAGAAAGCTCAGCGAAGCCGAAAAGAAGGTAATGGATTCTGCAAAAATTCGCGCTCCAGATGCAGATATAATAACTGTCGTTGAATTCTCAGAAGAAAAGAAAAAGCTTAATATAACCTCAGAGCACGTCCCAGACGCATTGATAGTAGTAAAGGAAGGCAACGCGGGTAGACTAATAGGTAAAAGCGGAGAAAGGATTAACGGAATAGAGAGCGATACTAAGATGAAGGTTAGAGTAGTGGAGTTAAAACTAGACTTTAAGGATATAATAAGGGCGGTGCATCTTTTACCTTAGGTAGTTAAGCACGTTGATAATGTAGATTTTCAAGGTAACGAGCTCGTAGTGAGATTAAAGAAAGAGTCCGGAGACTTCATAGGCCAGAAAGGTGTAAATATCAGGCTAGTTGAATACGTAATTAAACAAATGTTTAATGTAGGGGTTAGAGTAATCCAGCCTAGCGAAGAAAATCAATCATAAAGGCTTTGCGATATCATGAATTGTCCATCTTAACGGTAACTCTTATTTTTGCAATCCTAGATTGTCGATCTCCATTATTTATTTTAAGGTAAGTAGGCAAATATACTACTTGATGTTAATTAGAACTTCAGCAGAAATATATTTGGAGGAGGCTGATGAGTTTTTGAATAAGGGAGATTTAGTTGATGCTTGTGAAAAATATTACAAAGCTACAGAGGATTTTCTAAAGTATATAGCTATTGTAGATAATATGAGTGAAATATTAAATCAGGTAAACGCAAAAAACTATTGGGAATCTGAACTTTTGTTTAAAGTCGTTAAAAAGAAAGTTGAGCTAATAGATATCTGGAAACCCTAAAAAGCTTAGGATTTGAGCCTGCAAGCATTGGATATGTAGTTGAACCTAAAAGCGAGAAAGGAATAGTTGTTGCAAAGACTGCAGTAGGGGGAGCAAAAATATTAGAAATGCCCACAGGGGATATCGTACCTAGAATATGCTAGTGATGTAAAATGAGCGAAATAATAAAACTTGTCCAAGAATTGTTAGCTTTTAAGGACGCAATTAAAGAAGAAATAACAAGGCCCATAAAACAAGAATTACTCTCAACAATTTACGACATAAAGACAACCCCTGAGGAGGTTAATTTGGATAAAATGCTTAAGGAATATGAGGCAAAAGACCTCTTAGATTTGATAAGAAAAATACGGGCTGGTAATAAATGAAGTTAGTTGTGGGTTTTATTCCTTTTTCTGCTACACCCGATGGGTTAGTTGTAGAGAAAGTTTACGAGATGTGGAAAGGCAAGGATTTTGTCCTAGACCTCGGTACGGATCCTATAGCCGCAGCAGAGGAGGTAAGGAAGTTATCTCCAGAAAAAGTATTATTGGTAGGAAGTAGTAGATATGCCCCAGAAGGTATAAGTGAGAAGGAAATAATTCTTGAGACTACAGATAGGTGGGAAATGTTAGAATTATTAAGACCTGGATTAGATGGCAGGTATTATAGTGTTAGTTGGAAAAAATAACATACATATAGAGTTGAAAATTGATTGTTGATTTTTTATGATATAAAAAGTTATTTTTTACCTTATTTAATATATATATTATCGGGATGATGTATTGTAACAATCCTCCTGCTAAACCAGAGTAGACGAGATATTGATGCACCGGCAACCTCAATATTAATATTATAGTCCCTAATATTATATCTATTAGTATTGTTATTAGTATTGTCACGATTATTAATATAGTTTTACTATCAATTTGTCTTATACTCATGGTTATTCTATTAAATAGGATTTTTATTATACTTATGCTCTTTATTAAAGGCATAACCCTTGTTCTCAAATCTTGCTGAACATTTTCTGATTTTCCTTTCTCGTTTATGTGCTTTTTAATAAGATGATAAATGAGATCTGCAAAGGATGTAGAGAAGGCTAAATAAGCTATCAATCCATTTATCCCTACTAATAGTTTGCCTATTTTAGGATTTATGTTTAGTACAAGATTAAAATGACCAATTAAAATACATAATATAATAATTACAGTTATCACTAAAAAACCCATTATCACACCATATATGAATTCCTTCCTTTCATCTGGGGAATTCAAGTATTTTTTCTCCCTTAATTTATTAAATATAGGTGTAAAGCCTACCATCGCAAATAACGTTAAACCTATCCAGTCTATTTCAGTTATCTGTATTTTATCACCTGTACCTAAGAGTGGGATGAGTAGGATTAGTGATGATGTATAATAGTATTAATATTATCTCGCAAAATATAGTAGATAGATTATTCTAATTCAAGAATATCTTATATATGATGATATCATTAATTTACAAACGAAAATGCGTATAAAAATAAGGAAAATATTTGGAATTGCTATTATGATTATTACTGCTCCTTTAATCTATATCTATTTAAAAATATTTTTAAATATGTCTAATAATCCTTCAATATCGCTTTCCACCGTAATTATAAATTCAATATTATTAGGACTTTTCATTGGAACTTTTATAGACGGTGGAATATTATTATCAAATTACGGCATACCAAAAAATATTTCTCAAGCTATAACTAAAACCGTGAATACTCTCAGAACTAATTTTACAAAAAGTTATACACAGACTGTTACACAAAACAGTATAAAAACTCAAAACAATGCTACAAATCCAAATAAATTATTAGGAAAATATGAAATAATTGAATTAATTGGAGAAGGAGGATATGCTAAAGTATATAAGGCAAGAAACGTTAATGATTCATCACTAGTCGCAATAAAAGTTCCTAATATAGCGGATAAGGATTTCGTTAAGGAAATAGCAGTATGGCTAAACTTAAATCATCCAAATATAGTAAAACTCTTAGATTATGATATAAATCCTAGACCTTACATAGTAATGGAACTAATGAATGGAACACTAGAAGGGAAAGTATTAGAACCAATAACTGCTACTAGGATAATTTTAGATGTTCTTTCTGGATTAAAATATGCTCATGAAAAGGGAATAATTCATAGGGACATAAAACCGTCTAACATACTTTTAGATACTAACGGTAGGGCAAAGATTAGTGATTGGGGAATAGCTAAATTAGGGAATACAAAAACAACTACTAAAGATCTAACTTTCACTTTATTATATGCCTCTCCTGAGCAATTGGATCCAAGATTAGGAAACGTAGATGAAAAAAGCGATATTTATCAAACATGTGAAGTACTTTATGAAATCCTTACTGGTGTTCAGGCTTTTCAAGGTAGTATAACAGAAATTACCTTTAAGAAAATAAATGAACAGTTTAAATTACCTTCAACAATAAATCCTAACTTAAAATATTATGACCATTTGTTTCAAAAATGTTTTTCAGTTAAAAAAGAAAATAGATATACTACAACAGATTTAATGAAAGAACTTAGTCAAAAACAGACTCAAGATTTAACTAATTCAAGAACTGGAGCATATGCTATCGTAGAGTTAGCATATATGTACGCACAAAACGATGATTTTGAAGAAGCTTTATTCTGGATTAATAGATTAAGGAATAAGAATAATGTTAAGGAATTGGACGATGCTGTAGCAATTCTAGAGGAAAAAATAAAAAACAATGTAGGAACTAAAGAACAAATAATCGAAGAACTAGAAAAACTAAGAAAATTAGTTGCGCTAGGAAAAATTTGAGATATTTAACTAATTTAATAGTTTTAAGATTATGTATGGAATTATATGCGGATCATGTAATATTTACAATTAATACAAATAATTTTTATCGGAAAATTCATCTGCAGTATTACGTAATGTTAAAAATAATTTAATATAATAAAACATAAGTTAAATAATTTATCATAAAACCTAGAATTCTATTGCCTTAAAACAAATAAGATTTATTTTATTGCATGAGGAAATGAAAATATTTAAGTGACTAAAAATCTCTCTACTACTAATCAAAATAGAGTTTAGTCTTGTTAACTAATTCCATAGTTAAGTAAAATGGTTTTACTAAATTGCTATTAGCGTAAAAGTTCTACGTATTTTTTCCTGTTTAAGGGAAAATTAAAATATTCTAATTCGTATTTTATTAATAGGTTATATGCACTTTTCGAAATGGCAGGAGCTACTATTCCTCCTCTAACGTTAGGATAAGTTTCTCTAATGAAATCTACATATCTCTTAACTTGCGAAACTGCGTCTAATCCAGCTTGTGCTCTTTTGAATTCTAAAACTAACAAGCCTCTAGAAGTTTTACCCAACAAATCAATTTTTCCATATGGCGTATTATATTCTCTAGCTATGGGTGAAAAATCTTCTTCTATTAATGATGGATTTTCTATAACGTCTTTTACCATTTCAGCCTCGCTTCCATAGAGACGAAATTCTCCTTCTTCTAAAGAGGAAAGAGTTATATAATACGCTATAGGAATTACTATCTTTAATACTTCCTTAGGTCTTCTTCTTATTACGCTAATTATTAATTCTTCATTAATATCAACTTTTATCCTGGATCCGGACGGTTGCCAATTAACTGGTTTCATTTTTTTATTATTATGAATAAAGACCGTTCCATCAGGTTTTATACTTATCAACCTTTTACTATAGGTTGCTATAGAAGAAGCTCTACCGTCATAAAAAACTGAGCATAAACCAAAAATATTGATAACCATGTTTTTCTCGTTTTCTAGAATATTTTTAACAGTATCGAAGTCTGGCATTTCAATGATCTTGTAAGGTAATACCATAAATTTAGTAATACTTCGATAATATAAATAGTTACCCGAAACTTTCGTTCTAGAATCTAAAAAGCATAACACTTTTTATATTAATAAAAAGTTTTAAACATTAATATGATACTATATACGTAGGATAAAGATAATATCTTTTATAGGATAAAGTATCTATTTTATAAGAAATGGAGATTTGGGAACTAGCTGCCTACGACATAGAAAATAAAAAAGCTAAACCGATTATCTTTACATTGTTTAGCAATAAATTGTCTAAATGGTCTGAACGTAAATTACATAATAAGCTAGTTTCCATATTCTATAAACCTTCAGATTATTTAAGAATGCTAGATTATTTAACTTATTATAAGTTAGCTCACAATATTGAACTAGATCACTATCCTTATTATCGCAATCAGGTAGACGAATCAATATGTGTTTATTCTCTTACTTTATTATCACTTTATTTTCCTAAAATTCTTAGTATAAAGACTGATATATGCCCAATTTTAAAGGATGCAGAAATAATTAGCAGAGAAGAGAAATGGATACTGGACTTCATGAATGACGAAATAGAAGATATAGGTTATGATAATGCTCACTTAGAACTTTTAATTTTATTAGATATAATAAAAAGAATAAAAAATGTAAGACCAGATTATTTTCTCGGATTATGGCTAAACAGTAATGTAAACTCGCAAGATAGGGCTAACCTTGAGAACGAAATAATTAGGAAGTATAATTATTTAGCTAATAGAAACACAAAAAAATATGTAAAAAGAGTTATAAATCTTATAATATCCTTTGACAATATAATAAATTACATAAAAGGTAAATGAAATATCAATAGATTCATTTTTACGCAATACACAGCGTATTGTTAATTATTAATATCTTAAAAATGGTAAATAATCTCCTAATATTATACTATGTTAAAGTGCAAATAATCATTAAATGGAACAAAAAGTTCCTCATATAGGGCTATATTAAATAGATTTAGAATACTTCAGTATTGTATAATCCAATAAAGATTTTATTTATAAACATTTAGATTTATTATATAGAGTATTAGTATATAGAAAATTTATGTCGATTTTTAAATGTTTATTAAAATATCTTTATGGTTTAATCCTAATTGATGCTTCCTTATATATAGGATCTAAAAATTTGTAGTCCTTTATTAAGCTCATTTTTTCTAAATTTCCTAAAATATTGCTTAGTATACTTGATGAAATTGTTGATTTTTCTTCTAATTCTAAGCACTCTTTCACTTTGCTCCAGCTCTCATTACCTTTAGCTATGCATTTCATAACAGTTTTATATCTTCTACTTGCAGGACTTTTCCCAGTAAGTTTCTCTATCTCGTTTAAAGCAATGCTAATAGCAGTTTCTTTTATTTCATTAAAATCTCTCTTATTAAAATATTGCAATCCAGCAAATACTAGCCAACCAGGTATTCCATCGAATTCATTAACTATGGAATTTATTATATCGTCCTTAATCGAAAAGGAAAGTTCTTCAAATCCCTTCTTTAGCATTTCTATACTTTTCTCTTTATCGAATCTTTCAAGTTCTATCTCATTATAATATCTACCATAAAGAGGAGATTCTACATCGTTTACACCTAAAAAATCGTAAAGCAAACCAACTTCAGATCCAGTAAGGATAAAAGTAATATTTTTATCATAATCATAAGCGTGAGCAATTGCATCCTTTACTTCCTTTGATAAGGGCCCTCTAAGCTTTTGCGCTTCGTCTATAGCTATTATTATTCTTCTTTCATTCAAATGATCTAGTAAATCTGCTATACTTATATAATCTTTTCCAGACCATTTTAATTCGACGTAATTTCCAAAAATACTTACTCCGTTGATCTTTCTTAATATATCCTTTAGTTTATCTAATCTTGAGGTCAGAGATTGAGAAAATAATGAGTATAAATCTCTTCTTCCATAATTCTCCTTTAGTTTTCTGCAATCTATTATTAATGAAGTTTCATTTATCTCATTTAACGCGGTTTGAAGAACTGAAGTTTTTCCAATTCTTCTTACACCTACTAGTAATAATAACGGTTTCTTTGCTATTATGTTATTTTCAATTTTTTCCAATTCTTTTTCTCTATCGAATAAATCTCTTCTATTATCTTTTGGCCTTTCATCAAATATCAACTTCTGCCCCAGAAGTAATATTCTGCCCCAGAAGTAATAAATTTATCTTAACAAGGGCGTTCAGTAATAAATATTTCGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGCGATTTGGGGAGGATCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAACTATTCTAGCCAATTTCCTGGCTAAAGCAGACAACTTCTTTCCCTTCAACTTTTCCTTATGATTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAAGTAGAACAAGCTGCGCAAGTACTTATTACCCTTCTTCGATATTCCCTTACTTACAGTAGCTTTACCGCTCCTCTCAACTATTGGGTCTAAACCGCAGATACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCTCCAACAATGCCTATTATTATTCCCGAAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTAATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTTCCAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAAGCATTTCCTTGCTTATTTTTTCCTCGTCACTTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTCAAGGTCTTTTAGGAAGATATATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTGTGCGTCGTAAAAATCTGTTTTCTTTCCTCTCAAGTCCTTCTCCTTCCATAGTTTTGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGAGTATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGTTACTAGATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGATCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGGTTCAAAGGGGGCGTAAGACCCCTTCCGTTCGGTAGACCCAAAATCGTTTTACAAATATAAATTTGGCATTAAGCCTCATATTTTTTCTTAATAAATAAAAGAATATATTTTATTATACTCATAATCAAGAGCATTAAGAATAATGTATTAAATAATCGATGTAAATAAAACAGATTTTATCATAAATATCTTTATCATTTCCTAATTTACAATAATATTCCTCACTCTATCTTTGTAGAAATATAAAAAATCTAATATGGTACTTGGAAATTTATAAAAATTATCATATAATTATCTAACTAATTACATTAAATCTTTACGAACTACTAATAATGAATAAAAATTATTTTTACTAATTAGATTTTGGGTCTACCGGTTAGGTAGGGGATGGATAGGCTCCACATGCTTTGCCTCTAACATGGCTAGGCGATGGCTTGAAGAGCCGAAGGAACTACTTGATTGGGGTCAACTTGAGGGCCTTCACCACCCCCTCTCCTATACCTAGTCTTCTTAGTCTCACCCTTGTAAGGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCACCGTAGGAGTTCACCAATTAAAAATCAAATGGAAATTCTATGTCGTTTCTTAACAAGTTTTTAGCATAGTTAACTACTTTAAGATAGTTCAAGTATTTTACAAATAATATTTATTAAAAATTTCTATTTAATATACCATTTTATTAAAGAATATTTTAAAACATACATACTCTTAATCATATCTACGTATATTGAACTAAATATTTTTAGTCTGAAGAAGTGCTTTGTTGATTACTTCAATTTTCTCAGAAATAACATTAAACTTACTTAAATAACATTAAACTTACTTTTAATCAAATGTTAAATTTATAACTTACCTTGATTTAGTTCAATACCTAATAAAATTCAACCATTCCGCAAAGCATAACGCATTCTTTCTAATTAGTGACAATGAAATATATAGACTTATAGACGTATTAATTGAAAAGATATTTTAATAATCCATGATATTTGAATTTTGTATTGTATCCTTTATAACTGCTTTAAAATAAATAATTTTCTACTTAAGGCAATAGACTTTTAAAGTATTATATAACTTTTTAATTTATCAACTAAAGTATTTTAAACACTATATAGAGTAGCAAGGATTTTAATAGAAAGTATATACATGATTTTAAATTATTAGTAATATAATTCTGCTTATATTATCTTAATAATTCTAAAGAAAAATTATTTAGTAAAAAGATTTCTAGAAATATAGACAATAAAATACAGTATATATAAAAGTCTTTGTGATGTAAGTTATATTAAATTAACTATATAGAGTAAAGAAAAGGCTAGACTAATTTCATATATTAATCCAATAAAGTATACTTTTCTTCCTATCAAATATCCAGAGCTTACTGCTAATAAGGAAAGTAATACTCCTGTTAAATCTGGAGAGAAAATTATTGTTATAGGAGGAATATAGGAGAATATTTTAGGTATTCTAAAGTTTTGCATTAAATAAGCTACTGATGCAGATAATGCAACTAATGAGTAAACTAAGTTAATATGAAATATTGCTATCATTAAAGTTAATATTATTACAGCAATATTTACTTCATCTTTTAGCTTGTATCCACTCAATGGTGTGAACTGCCACGCCCTAACGGGCGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCAATATGGGACTGTTGAATGGAGCAGAGGCGTACCACATAGACCCTCGCTTTAACCAAGGCGTCTCAGTGACGCTTACTCCGTCAGTGACTGCCATTAATAGAATATTTGAAAAATACGTATTTAAATGTAACCACAAAGGGGGCAATCCATCTCCACCCTTACGGATGGAGTCTTCCGCCCCCTTTGAACCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGGTCGACCCTTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATCTAGTATCGAGTGAGGGGAGGGTCTACGAGAACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATACTCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCCAAATATACTATGGAAGGAGAAGGACTTGAGAGGAAAGAAAACAGATTTTTACGACGCACAAAAACTAATAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATATATCTTCCTAAAAGACCTTGAAGCAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAGTCAGTGACGAGGAAAAAATAAGCAAGGAAATGCTTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTAGAGTACACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATTACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGAAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGTGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTACACTGCTTTAGCCAGGAAATTGGCTAGAATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGACCATAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCTTGTTAAGATAAAAGGATATTTTGATATAAAGGATAACGCAATTAAGAGAAAGAATTGTAAAAATTTCCTTTCATAAGATACATAAGAGAAGTAGATAGATGAAGTTAACAACGCTATATATGCAAATGTATAATTATAAAACTCAATACTTAGTATTGAAGATATTGCAACTATTCCTATAATACCAAATAGTATTAAGTTCCGAATACTTATTTTAGTATGAAAACTATTTATGAATCTTGAAGATATTAGGACTGTTGAGGGTATTATTGATGAAATTATTGAATATAGTAATATATTATAAATTCCAGAAAATATAAAATATAATGACAAAAATAGCAATGAAACTTAAGAAATTATCAGACTTCTCTTTTCTATTCTATAAATAGGGAAAAGAAATAACAATAAAGGAGGAAAAATCGCTGAGAACCAACTTATTCCTGCAGATATTAACGAAAAGGTAATAAGATTCTTCCATTTTTTAAGAACATAAGGAAGAATAATTATTGGTATTAAAAATAATCCATATTTTACTCCTTCTGTGAAAAACATAATTGCAGAAAAGACTATAGAAAAAGGAAAGAACATTCCAAATCCCAATGAAAGAAGAATTGAAGGTATGATGTAATGATACAGTAATGGAAAGAGTACCGCACCCAATGATAAATAATATTCCTTCTTTATGGTAATCTTATCTTGAAGTACTGCAGATATTACTCCAAATATTAAATAAAAATATGCAAAATTAGAATAAGGATATCCAAATGCCGAAATAACAAGAAGGAAAATTCCAGAAATTATTGTTCCTCTGTAGTTTACACCTATCAAAAGGATAGAAGTTAAGAAGAGGATAATATAATCTTCAGTCCCAAAAGGTAAAAAGGCTATACTTAATGAAAAGAATATTGATGAAATCAATTTATCATACCTAACAGAAATTAAGATTAAAGGTAGACTCAAAGTCAAAAGAACTGCATTTCCCCTTGTATAATCAAAGAAAAACGAAATAGTGAAAGTAAGAATTGATACAACTGGAAGAATTTTCCATTCCTTCTCTAACGAAATAAATCCTAGCAATATTAATGCCAGAGGAATGAAATCGTTAAACGGAAGTAAAGATGTTAAGAAAAGCGCTATTGCAAGTATTTCTCTCTTCATCTGATTCCATTCTAAATATAAATAATGTATATTTAACCTTATCTAAGGTAAAATTAAGCAAGAGTTATAACGACAGTACTCTTTTTAAAATATATGAAAAAACTCACATTAAAGGAATACTTTAATTACTTACCGAAATTAAATACAGAAGAATTATATTTATTCTATTTGATTTCTAGAGATAGAGAAGCTAAACAAATGGGTTTATCTATAGATAAGATTCTTTTTAGGATAAAGGAAGAAGATCCTGAAAAGGCCACAAGAATATTGGAAGCAATAAGACAAAACGTTGAATTCCAAGTTAAAGGAATTAAATTAAAGAAAGAATGGATAAAAATAATGCATGTCCTAAATCCAGTCAATTTTGTTAAGGCATCCCATAAGGCTGCCATAAGATATGTTGAACAATGCAAAGAAAATCTAAACATTGAAAAGCTCTACAATTCAGAATTGCCAAGAAATGTTGACTTTAGAATATTTATGATAGATATAGATACAAAAGACAAGAAAATTCTTGAAAAATTAATAGATATAAGACCTAGACTTGTTATAACTACTAAAAGAGGATATCATTTTCATGTTTGGAAAGAAGACTTAGAAAATCCACAGACTTTATTTAAGATTGCTGATAAAGAGATAGAAATTAAGACTAGAAATTCAATAGAATATGTACCATTTATACTTCAAGGAAATTTTACACCAGAAGCATATGAGATTAATAACGTAGAAGAAGTTAAAGATCTATAATATTTGGATATTAATTGGGTTTTTAACAACTATTTAATTGAATTTTAAGAGACATTAAGATAAACAGCTCTTTTCCAAAAAATAAGATATTTTATTATAAATAATATTCCATGACTATAACATCAAAGTATTTTTCTCCTCTTTTTATTTCGTTTTTAAGTACTCCTACTTCTTTAAATCCAATCTTTTTATATAATTTTATTGCAATATAATTTCCCTTAAAAACATATAATCTTCTCAAATATTCCTTTACTATTTTCTATACTACTACGTAGTAACGCTGTTCCAAACCCTTTACCTCTATATTCTTTCTTTATAAGAATTCCAAGAATGCCTACATGTGCAGATTCAGAATCAGGCCTAGCAGATAAAATTCCACAATATCCTGCTATTTTATTATTATCCTCTGCAACCATTAATATTCCTTCCTTTTTTAACACTCGTATATATGTATCGGTAAACCATTTTATTTCGCTTTTTATATCCGGTTTGTTTTTTAAGAAAACTATTCCTAAAGTTTCTGTATCTCTATTTTCTTCATATGTAGAAGTATAAATTTCTTGAATTTGCATAAAGTCTTTCCATTGAACGTTTCTTATTAACATATGAAAATATTACTACCTAAGACCTCCTTAATAATATTAACTTATATAAATATAGAGATAGAAATATAATTTATATTTAACTTTCTGAGGGTTTAAGGGGGCGGAAGTCCCCTCCGTAAGCGGTAGACCCAAAATCACCTCCTTAAAAATAAATCTATAGTGTAAATAAGTGTTTCAATTACATTAAATGTAAAATTCTCTGGATTGAATAAATCAGGAAATAAAAGAATTAATAATAATCTAAATTCCTCTCTCCCCACCTCCCCCTTGAATATGGTATATAAGGAGTAGAGCACAAGGGCCAGCACGAAGATCAACGTGCGGAAAACAAACTTAGTAGAACTAGTAAATGGAAGAAAAGCCTTAATGTTCCTATAAGAGGTCTCTATGGGACCTCTTACCTTATTGTACAAATCCAACACCTCTTGGGCAGATCTAGATTAGTAGCCCTAGCAAAATAAACAAGACTCTTCTTCTTTCTCCTCACTTTTTCCTTGCCATACACGAGAAGCCTGAACTTGACCTGCTCATCCCTCCTATGCCTCTTACTATTAGTTGTGTAATCCCCGTCAAACTCCTCAAACACCTTCACGTCCCCAGCTGGGACAGCAATTATATACTTAAACTGTGAAATGAAATTGAGCACATCAACTGTGTAGAAACCAGCGTCAAGAGTTATCAACCTTATCTTGAATCCCATTGCCATTACTTGCTCCACGAGGATCTTCACTATCTCGTCCTTAGTCATACCGTTCACTTGCGGAATAAAGGCAAGTAAAAGTACTTTCCCCTTATACTTGGTTGTTGCAGTTGCGTAGTTCCACGAGTTTCCTTTTTCAGAGCTCCCGAGCCCTTTCACTGGTTTCCCATACCACGTCTTGGTTGTCCAGTCTATTGAAAGATCTATCTCATTCACTCCCTTCAGTACTTCTAAGGATATTTTCCTAGCTCTTTCCAATAGCTTTTCAATCACTTCCATCCCTTGTTTCTCTACGTAATTCCTCACGGTCTGTGGGGATACGTCATACGCTCTGGACTTGTTCTCTACAGAGTCGTTCCACAAACACGCGGAGATGAGAGTTTTCGCTACCTCATCTACCTTTTCCCCTTGGAAGTTCAACATGGAAAGTAATTTATATCCTATTTGTTGAATGTTATTTTGGTGAGGGAGACCGGGTATTATCATCTCACTTACTCACGTGGTAATACTCCATCTCCCTCACCTTAAACCCTTTCTTCAATTCTTTACACTCTTATAAATTTCTTTATCTTTTATAAATTCGATATTATCCTACCAGAAATATTTTTTCTAATATGATTTTGGGTCTACCGTAAGAGATAGACCCAAAATCTAATTAGTAAAAATAATTTTTATTTGTTATTAGTGGTTCGTAAAGATTTAATGTAATTAGTTAGATAATTATATGATAATTTTTATAAATTTCCAAGTACCATATTAGATTTTTTATATTTCTACAAAGATAGAGTGAGGAATATTATTGTAAATTAGGAAATGATAAAGATGTATATGATAAAATCTGCTTTATTTACATCGATTATTTAATACATTATTCTTAATGCTCTTGATTATGAGTATAATAAAATATATTCTTTTATTTATTAAGAAAAAATATGAGGCTTAATGCCAAATTTATATTTGTAAAACGATTTTGGGTCTACCGTAAAAAAGCGAGGTTTGTCGTCCTTTTTATCATGGAAAGCTGCATGGTTTCTTCATGTTTACGGATTTCATGAAATGAGCTTAAACAAAGAGACTATAGTTAACGAATCTAAGATTGTTAGAGAAAAATTATTTGAAATATTTAAAACTAAATAATAACTAACTCCAACGTGGATAAGATTTGTCGCTGTGGGTACTGCTTTAACCTCAGTCCTTAGTAATTTAGCTGAAAATTTATAACGAAACAAATTAGATCTTAATTTATCCATACTGATAATTAAATTTAGGAATATTTAGTGAGAAATTATATTTTGGCCTGTTAGTAACTAATAGGGCTATATTTTATCGTGAAATAACGCAGAAGATTATCGCTTATAAAATAGTCTAACGTAAAATTCATCCTTATATATTAGTTAAGTATTTAAATTAATAGGCCTATTAGTTACTAATATGCCTATATGTAAGATATTTGATCCTTATCCTAAGTCTGATAGGAAAGATTTCTTTGACGATGAAGAAGTTATAGAGGAAGTAGAGAAGCTTATTGAAGGAAAAATTTGGCCTTTAATATTAGGTCCAAAAAGAACTGGTAAGACTTCAATATTAAAAATAGTTAGCAAGGAAATTAACGGAATTTACTTGGATGCTTCTGGAGTTAATACTTTAAAAGAATTAGGCAATTTATTAATCAATTCAATATCTCAACTAAAGTTAGAAATTGACCTTAAAATTATAAGGTTACAAATTGAAAAGAAACCAGTTAACGGTTTACAAAATCTTCTAAATAAACTAGATAACACAGTAATCTTAATAGATGAGGTTCAGAACATTATAACTCCTTGGTTTATAACTTTACTTTCAAATTCATATAATAATTCTCAAGTTAGATTCGCTTTCACGGGCTCAATGATAGGCTTATCTAAGACTCTTACAGGAGAAGGTAAAGGAAAGCTTGGTAGTTCTTTCAAAGGCAGGCCAATAATTGAGATTGAAGTTAATCCTTTTACTGAGGAAAAAGGCAAGGAGTTTTTACAATACGGTTCAGAGTTATGCGGATTTCAAATTAAGTCTTCTGAAATAGAAGATGCTGTAAGAACTTATAGGGGAATTCAAGGTTGGTTAACATATTACGGAAATTTCAGAAGTTTAGGATATTCTCACGAAAAGGCTAAGGAATTTGTTCTTAACATAGCTAAAAACATAATAAGAGATGAATTGAAACAATTAAGTGTAACTCAAAGATATATAATCAATGCATTAAGTCTGATAGACGAAATTGAGTGGAAGGATTTAAAGAGATTAACTGAGAGTCTAAACAAAATAGAATTGAAAGATAGTATTTTTAATAACGCATTAAAACATCTGGTTGACTCTAGACTTGTAAAGAAAAATAATAATAAATATGGTTTAATAGATCCAATCTATAAAATATTGAATAAAAAATCCTAATTTTATATATCCGCGACGTTCAGCAATAGGGGAATATAAGTCTAACTCCTAGAACAGTATTATTCTCTTCTTAGGTATGCCTATTGGGCCTTTTTTGGTCCATCTATTTACCCTCTGTTTGGATTGAAACTAACATTATAAATACTCATTACAGTAAAAACGAACTAATAATTTTTAAAGTGAAATACATATTTTGTTCATTCTATAGAAGCATATATTTAGTTTCTTCAATATTTCTCTCCCTAATAGGTTCATTTCTACGTAAGGAGAGGATTCAGTGAACTACCCTAACGGACGGAGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGATCGTTCCGACCCCGATCTTCTTAGGATGTTGAGGGAAGCATTATAATCACGATCAGCGACCCAACCGCACTTGGGACAGACAAACACACGATCAGCCAACGTCAAATCTTTCTTAACATGCCCGCACCTAGCACAAGTCATTGAAGTAAAAGCAGGATCCACTAGAGTGAGTTTCTTACCATACTTCCCAAGTTGATACTCCATGATACTCCTAAGCTCATGAATAGCAACATCGTGTAACCTCATCCTCAGCCTTCTGAGAGACTTACCAACAAGTTGCTTAACATGAATATCCTCCATTACGAGAACATCATAATGCTCAGCAAAATACTTACCAAGTTTCATGTACATGTCCTTCCTAAGGTTCTTCAAGTGTTCGTGAGCCCTCGCTAGACGAATCTTTGCCTTAAACCAGTTGTGTGACAAGAACTTCTTCCTTGAAAGAGCTTTATGAAGCCTCTTCATCTTATTGAGTGCCTTCTCATAAGGCCTCTGGTTGGGGACATATTCCCCGTCAGAGGTAGTGAGAAGTTTCTCTACACCAACATCCACAGCAACAACTTTGTTTGTCTTGGGGAGTTGAGGATACTCTTGATCCACAACGAAAGTAATGTAAACTCTCCCTGATGGTGTTAACTTGATTACTACCCTCTTTACTTTTTCCAGCGGGAAGTCCCTATGGACAACGACGTTGAAGATCCCTAGGTTTGACAGCTGAAGCGTTATTACCTTCTTCTTGCTCTTCGTCCTTATTCCTCTTACCCTCAGTATTTTCCAACCTGATTGAGGGTAGACGAGGGAGTACCACTTGTGTGCTTTCTTTTCCTTTGGGAAACGTGCTAACCCATAGAAGAACCTCTGTCTAGCGTCGTAGAAGCGGTCTGCAATTTGTTGGACAGTTTGTGAGTAAAGTTGTTTGTATTGCCCATCCTGTTTTCTCAGATCGAGAGCTAGTTGCCTCAACTCCGTCTTAGTGAGTCCTTTTCCATCTCTTTCATGAAAATAGATGTCTGCCCAACGTAGGGTGTTGTATACTTCTGACGCTAACCTCAACTGGGCTTTTAACGCCCTCAATGTTTGTTCGTTGGTGTACGCTCTGAAGCGTAACCCTACGTCGGGCATTAATAGGGTATTTGAAAAGAATTATTTAAGCTTTACAAAAGGGTGCTATCCATCCCCACCCTTACGGGGTCTTTCGCCCCTTTGAACCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGGTCGACCCTTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATCTAGTATCGAGTGAGGGGAGGGTCTACGAGAACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATACTCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCCAAATATACTATGGAAGGAGAAGGACTTGAGAGGAAAGAAAACAGATTTTTACGACGCACAAAAACTAATAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATACGTCTTCCTAAAAGTTGAAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAAGTGACGAGGAAAAAATAAGCAAGGAAATTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTGGAACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATCACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGAAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGTGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTCTGCTTTAGCCAGGAAATTGGCTAGAATAATTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGACCCTCCCCAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCTTGTTAAGATAAATTTCATAGTTGAGGAGTAACCAACCAGAAAATCCAGTGTCAACTAGTACATCTACTTCAGCAGAATTTTCCTTCTTAAGATCAGATAATTTTACGTGCAATATAGGCTTTTCGTTTATATCAAAACACTCCAGGGAGTTCACCCTCTCCAATTAGCCACTTTTTGCTTAAAGCGTAACACTTATTGTATTTCCTAGCTTCTTTTATCATTTCATCTTCGTTTTTAAAACCGCCTATGAAATTACTATCACAGAATAACGCATACTTCCCCTCATTTACAGCGTCCCAAAAGTCCTTGCTCTTTATTACCATAATTCTGTCTAAATCTTTATTTATCAACCAAAGTTTTATTGCCTCATTTATTGCCTCACTTACGGAAATGCCTTCAATTGACGCTTTAGCCTTTAACATTCTGTAAAGCTTTTCATCAACATCTTTGATAAGTACTTTTATAGAGTTTAACTAGTTAAAATATTTAATGTCAATGTATATACTTATGAGTATAAACTCCAAGGTTAAGTAAATTGCCTTAACATTTTATATGTCTCGTTTTCCTTAAACTCTATAAATGATTTGCAACATTACTACTGAAGTCACAAGGATCAATTCTTTCTGTAAAGTCCTTATCTGCTGATATTATTTTAGCATTGAAATTATGTAATGTAACGAGTCATATAGTGAAAGTGATAAATCTCTTACAGCTTCCACTATATCTTCTTGCTTACTATTTATAATACGCATGGGCAACGATAATATAGCAAGATCTCATCTTCAATATCTTTAATTCCTAATTTCTTCAGCGCATTAGCTACTTCCAGTAAAATTACATTATCTATAATTGCTGAGATTTTTCTATCATAAATTCCCTTTATTATGTCTCTTGACAACACTCACCATTTTTTTATCATTTATTTTAGCATAAACAAAAACGTTGCTATCTATAAAATAAGTCATTCTTCACCTAACTCGTCTATTTTCTCTGAAGGAATTTCTTCCTCCATTTCTTCATTACTGATGAGGACTTTTAAGGGATTTTTAACTTTTTTAACCTTTCTTTTCAATAGGATCTCATTATCATTTAGTGCAATAACCTCGAATTCCTCATTGGGCTTTAAACTAATCTTCTCTCTGACCTCTTTCGATATAATTATCTGGAATTTCTCAGTGACCTTAACCATAATAAAGTATACGTATACGAAATATTTAGAACTTTTACTGCGTAGTTTAACGGTTAAAATTATTCTAATTATATTTATATACTAATTGACATTTAATCTAACTAATATTCTATAATTTTTAATTATTAACTCAATTAGTTAGAATTTCAGTATACTACAAGCGATCTGAATCAAAAAATGCATACCTGCTATTACATAAGCCAATAAGATTATCAACGTTCATTAGCTATCTCTTCCAATTTATCAAGATCAACATAATTAATAATTTCTTCAAAAGGTCTAGTTTGGATTCAGGTTTCCTTTGTGAATCCACTTTGTTTTTATAATCTGAGATAAAATATTATGACTTTAGTCGTCAAATATGTTTTGTTCATATAATAATTTAGTCGAATATTTTCTCACAATAGTCAATTATTCCAATTCGCGATAGAGCCGTGAGTTGCTCTCTAGTTTAATATAAGAATATTTCTTAGACTGTAGATCTAAAATCACTTTCTTGAAAATAAAAATAAACAACAATCTGAAAACTTCTCTCTTAACTACATTCAAGTGCAACGTTAGTATCTTCAAAAAGTTTCTAGATCTTTATTTAAGGATTTTATTGAATTATAGTATAAGAATTTTATGAAATACTAACGAAGAGGGCTCATATTAAACATAGCCAATAAGAAGATTAATAGACTAGAGATGAACTTAATGTGGGAAATATTTATATTTAGTGGGATATAACATAGTAATATGGGATATGTAGTAAAGGTTGATAATAAAGGTAGAATTAAGTTACCAAAAGGATTAGATGAGGCTAGCTCAGTTATAATTATTGATGCTGGAACGTTTTTCGTTGGGATTCCAGTTCCTAAAGATCCTTTAGCTAAAACCTCTGGAATCATAAAGACTGACTTAAGTGTGAGAGAACTAAAGGAGTTGGCAGAAAAGGAAGCAGAAAAAGATGCGTTAGAAAGATATCAGAGGAGACAGCATGCTGATCGAAAGTGACGTTCTAATAGCTCATCTTAAAACTGAAGATAGGTTAAAGGAAGAATCAGAAAAACTCCTTTTAAAGATTGCTAAAGGAGAACTAAGCGTAATAGTTAGTAGGGAAGCAATACACGAGATATATTACGTTTTACGCAATATGAACCTTTCAGTTCAAGAAATATTAGATAAGATAGGTGCATTAAAGAGCATACCGAATATTGAATGGATTCCTACCACTATCGATATTGATCTTTTAGCCTTAGCATTAATGAGCCAATATAATATAACATCGATCTTTGATGCCTATCATGCTGCAACTTGTTTAATCTACGATAAGGAGAAAGCAATTATATCAACAGATCACATTTATGATAAGATTCCAGGTATTAAGAGAATCGACCCTAAAGATATCGTATGAAATGGAAATCTCGTCTTCAATAGTATGCTAAGATCTCACAGTTATTAAGGGAATACTAAGATGCTGATTAGGAAGCTTAAGGTTTTTTATCTTAACAAGGGGTTCAAAGAGGGCGGAAGACTCCATCCGTAACGGTAGACCCAAAATCACCTCCTTAAAAATAAATCTATAGTGTAAATAAGTGTTTCAATTACATTAAATGTAAAATTCTCTGGATTGAATAAATCAGGAAATAAAAGAATTAATAATAATCTAAATTCCTCTCTCCCCACCTCCCCCTTGAATATGGCATATAAGGAGTAGAGCACAAGGGCCAGCACGAAGATCAACGTGCGGAAAACAAACTTAGTAGAACTAGTAAATGGAAGAAAAGCCTTAATGTTCCTATAAGAGGTCTCTATGGGACCTCTTACCTTATTGTACAAATCCAACACCTCTTGGGCAGATCTAGATTAGTAGCCCTAGCAAAATAAACAAGACTCTTCTTCTTTCTCCTCACTTTTTCCTTGCCATACACGAGAAGCCTGAACTTGACCTGCTCATCCCTCCTATGCCTCTTACTATTAGTTGTGTAATCCCCGTCAAACTCCTCAAACACCTTCACGTCCCCAGCTGGGACAGCAATTATATACTTAAACTGTGAAATGAAATTGAGCACATCAACTGTGTAGAAACCAGCGTCAAGAGTTATCAACCTTATCTTGAATCCCATCGCAACAACTTGCTCCACGAGGATCTTCACTATCTCGTCCTTAGTCATACCGTTCACTTGCGGAATAAAGGCAAGTAAAAGTACTTTCCCCTTATACTTGGTTGTTGCAGTTGCGTAGTTCCACGAGTTTCCTTTTTCAGAGCTCCCGAGCCCTTTCACTGGTTTCCCATACCACGTCTTGGTTGTCCAGTCTATTGAAAGATCTATCTCATTCACTCCCTTTAATATCTCCAAGGATATTTTCCTAGCTCTTTCCAATAGCTTTTCAATCACTTCCATCCCTTGCTTCTCTACGTAATTCCTCACGGTCTGTGGGGATACGTCATACGCTCTGGACTTGTTCTCTACTGAATCGTTCCACAAACACGCGGAGATGAGAGTTTTTGCTACCTCATCTACCTTTTCCCCTTGGAAGTTCAACATGGAAAGTAATTTATATCCTATTTGTTGAATGTTATTTTGGTGAGGGAGACCGGGTATTATCATCTCACTTACTCACGTGGTAATACTCCATCTCCCTCACCTTAAACCCTTTCTTCAATTCTTTACACTCTTATAAATTTCTTTATCTTTTATAAATTCGATATTATCCTACCAGAAATATTTTTTCTAATATGATTTTGGGTCTACCGGTTAGGGCGGAGTAGTTCACTTGAAAATCCGTGCAAACGCTAACCTTAAAAACTTTTAAAAAAATTATCTTAACAAGATTACGTATGAGTAAAAATCTAATCAATGAGTACTATGAAGCCTTAACGCAATTCACATAGATACAACATCACTAAACTAAGAAAAGACACAGCAACACATAGGAGAAATAAGTAAAGCATTAGAACAAACATGAACTACGAGACAGTACTAAAAAACCTATACTAGGCTTGTTAGAGACATAGCATGTGGAACCTCCACACCTATATTTATAGGTAAGAAAATCTCATACTACAAAATATTTATTACCTTATAATTCAAGAATGTAATTATGGGCGAATGGGTTACTACATCAACGAAGGTTAGGAGAGAAATTTTAGAAAAAGCAAAAGAGTATAACATTAATGTAAGTGAGGTTTTAAGAAAAGCTTTGGAAGAAGAGGTTAAAAAGAAGGAAGAAGAGCATGCAAGAAGATTATTAGACTTAGCATCCAAGGAGGTAGCAAAAATCAATACTGACGAAGTAGTTGAGGAGTTGAAGAAATGGAGGAAAGAAAGATAAAATACCTTTTTGACTCTAGCGCAATCTTCGATCTGACAAAATTGGGAGGAAAAGCGCTAGATTTCCTAAAGAATAATTATACAATAACATTAGCGTATTATGAACTAGGAAACATACTATGGAAATACAAAGACAAATTAGGTATAGAAGCTGTTTTTAATGCGCTTTCCGCTGCATTATCTTTCGTCAATATAATTGAAGTTAAACTCGATAAAGAAATAGTAGAAGAGGCTATAAAAAATAATCTAACTTACTATGATTCAGCTTACCTAGTCACAGCTAAAAGAATAGGAGCTAAATTGGTAAGCTTAGATAAGGATTTAATAAATAACGGTGCTATAACTATGAAGGATTTATTAAAAATGAACTGAAATTAAACGAAATACTACCTCTTTAGTTTAGGATTTCGAGCTAATACTTAATGAAAAGAGTATTCATAAATTTGCAACACTTGTATATTTTTGAGCTATCTAAGTTAGTTTTGTCTCAAAAATTAGGTACGATTAGACTTTATCGGTAGACTTCAAAATTACTCCTTTTAAAATAAGTCTAATATATTAAAAAATGATTAAGATCTATTAAACAAATATTCATAGAAACAACTAATATTATCGAATAAAAATATAATAATTAAGAATAAACGAAAGTTCTCCCTAGATATTCTACTAGGTACTCCCCTTGGGGGAACTAGCCAACAGGCACGTGTCTGCCACCCGCGACAACACGCGCGTTGGCCTTGAGTTCCCTCACAGTATCCTCTAACAGCGTTTTAGAGTTAACATACCAAGAGTCGAAGACCTTGCCCACAACATTGAACTCTTCCTCAAGAATAGGTAGTATTTCCAAGTATGCTTGTATTTTTGTCTTGAATTCTACTTTTTCTCCCCTTTCCTTTAATATTTCTACTACCTTTTGTAGTATGTATGGTATTATTGAGACTATGTATGTTTCGTTTGTTTTCAAGTCCTTTACTGCAATTAGTAGTATTTGCTGGCTCGTATCTCTTGTGTACTTTGCAGTAGTATACTTATGTTGCGTTTCTTGATACTGGTATTGCTCTTGCGTATTGTTTGTGATCGTGTGTGTCGTCTATTATGAGTATGACTGGGTGGTCTTTTACTATGTTTTTTACTGCTTTCATTAGGTTTGCTATCTTGTCTAAGTTTTTGAGTAGTGTCATGTAGTCCATGTTCATCTCTTGTGATATTTCGTATGTTCCCTTGCCTATTATTCCTCCTAGTAGTAGTCTTATTGCACTGTCTTTTCTTATGTCCTCTAGTGGGGCAAGTGCAGCATATATTGCATCATTTAAAGCTTGGTGATACGCGTCGTTGCTGGGGTTTTTATTCACACGATATTTTCTAGGGATGTTTTTAAAAAGTTTTCAAGCTTCCCTCAGACTACAAGGATTTTCCAATAAATGCTACTTTAGATAAAAATTTTGTCGAATTTGTTGTTACTCATCTTAAAATTCCACTTGATGATTTGCTTAAATACGTTTATGTAAAATATCCAGAGTATACTGTAAATTCAGTAATAAAAGACAGGATTTTTTAAGGCGAAATTTTCGTGTCCAAGTCTCCTCAATTTTTTCTGGAAACACTAGTGTCAGTTAATGGAAAGATATCTAGGTATTCCCGTAAAGTTACTCGTTGTTGATGATTATAAGGGTTATGGTAGGAGGTATTTCTTCTCTACAAACGTTAATGATACTGCTGAGGATATTATAACTACTTGGGAGAATAGGTGGGATATGGAGGTTTTGATTAGGGAGCTTAAGGTCTTGGGTTTGGAGAAGGGTTCCTTCCTAACTTGGCTTAGGAATAAGGGTTTTATAGTGTTGAAGGCTTTTTCCTTGTTTGTTGTTCTTTTGTTCAAGTATTTTACGGGTTTGAACCTTGGAGCTAAGAGAATAACAAGGTTGATAAAAAGTATTTATCAAGCATCTGGAGGGATAAAGAAATTGTTTAAACGTAAGAGAAAAACGTAAACTGCTATTAGAATATTCCTTACAAAGTTCCTCCCACAACGTCCTTCACCCATGATAAAATTTTTCTACCGCAATCTAAGCATCTAGTTGCGTCGTCTTTATTGTAATAATCTGCAGGAGCACCTTGATCGTAAGCGTCAGGGTAACGTGAAGGTATGTAATGTTTATCAAGTTCTTGTGCACATCTTAATATTTCACCTGGAATTTGAATATTAGAAATAATTAAAAATAACTAGTAGTTACGTAGAAGCGTTACAGTCTCGGAAATTTAATAATTTTGTACACAACGGTTATACATTAAATCTAAATCCGGATAACGACTATCTCTCTATAATATTTTCTTTAGATTTAGTATTTTATCGCTAGATAGTGCATAAATTCCGTATTCAATTTTCTCCAATATACCATCAAAACCGGAGTCAAAGCTAGCTAGATAAAAAATATCATTTTGAATCATCGCAAATAATATAGCACAGTCAGTAAAACTCAATTTCTTTTTTCTATTTGGATCTTCATTTATTTTCTTAAATAATCTAATAATATCATGAAGGGAATTTTCTCGATCAGTTAAAATAATTATCTGAAAGATATTCTTTTCAACGTCTTGTAAGATTAAATCAATAACTTTCTCTATATAGCTAAAAGGTTGCTTATTAATCATTAAAGTAAATAATTCATCAATTACATATTCGAAGATTATTGGCTTTCCAAATTTCCTAGAAATAATTTTATTCATTAGCTCTACAGCTTTGTTATGGTTTGCGTCGTTCTTATTAAGAAATGAGTAAAGAAATGATGTATCTAGGATTATCATTATTGCTCTTTCCATTCAGTTATTGCTTGAAATATGCTAGGCTCCTTCCTTTCACAAGGGTTTTTTATATCTATTACTTTTTCCTCTCTTGAGATAGAGGAATCTATTAAATGGCCTGCAACTAATCCTATTTTAGTACCTAGTAGCGTCTTTATTATAAAATTTAAATTATCGTCGTCAGAAAACTTTATGTCAGATGAATGTAAAGTTACATTTGTAGCTATTGGCATTATAATCTTGCCCAAGGGAAGTTCTTCCACAATTTTACTTGCGCTATACTCCTCCACCTCACCATTGAATTTTTCACAGATTTCTTTTAGTACATTATCTAATTCCTCGTAAACTTTGAGCTTCTCTGCATTAATAACAAGTCTATAACTAGTTCCTTTCACTATATAATTAATTGCTAGCTTCATAAGATAAAATCGTAAGGATAGTATTTAAAGTGTATAGCTAAGCGTTACTATTGATGAATATGTTCAACAATTTTTGAGTGAACTCCTATGGTGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCTTTACAAGGGTGAGACTAAGAAGACTAGGTATAGGGGAGGAGGTGGTGAAGGTCCTCAAGTTAACCCCAATCAAGTAGTTCCTTCGGCTCTTCAAGCCATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTCCTATGCCTCTTACTATTAGTCTTGTAATCCCCGTCAAACTCCTCAAACACCTTCACGTCCCCAACAGGCACAGCAATTATATACTTAAACTGTGAAATGAAATTGAGCACATCAACTGTGTAGAAACCAGCGTCAAGAGTTATCAACCTTATCTTGAATCCCATTGCCATTACTTGCTCCACGAGGATCTTCACTATCTCGTCCTTAGTCGTTCACTTGCGGAATAAAGGCAAGTAAAAGTACTTTCCCCTTATACTTGGTTGTTGCAGTTGCGTAGTTCCACGAGTTTCCTTTTTCAGAGCTCCCGAGCCCTTTCACTGGTTTCCCATACCACGTCTTGGTTGTCCAGTCTATTGAAAGATCTATCTCACTCCCTTCAGTACTTCTAAGGATATTTTCCTAGCTCTTTCCAATAGCTTTTCAATCACTTCCATCCCTTGTTTCTCTACGTAATTCCTCACGGTCTGTGGGGATACGTCATACGCTCTGGACTTGTTCTCTACTGAATCGTTCCACAAACACGCGGAGATGAGAGTTTTTGCTACCTCATCTACCTTTTCCCCTTGGAAGTTCAACATGGAAAGTAATTTATATCCTATTTGTTGAATGTTATTTTGGTGAGGGAGACCGGGTGTTACCATCTTCCTGTGTCACGTGGTAATACTCCATCTCCCTCACCTTAAACCCTTTCTTCAATTCTTTACACTCTTATAAATTTCTTTATCTTTTATAAATTCGATATTATCCTACCAGAAATATTTTTTCTAATATGATTTTGGGTCTACCGCTGGCGGAAGGAAATCAGCTATTTCCGATAATCTAGGGATTTTGCAGTATTTTTCCAAATACTTCGTATAATTTACTCATATTTTCCACAAATTCGTCATTTTTTACAAGATTCTTAACAATTTGTACCTTCGTTTCTAGAATTATCATTGTTACTCATTCCATTCACTTATTGCTTGAAATATGCTAGGCTTCTTTCACAAGGATTATTCACTTCTATTACCTTCTCCTCTTTTGAGGCTACAGAATTTATTAAATGACTTGTAATTAATCCTATAGAAGTACCTAGTAAAATATTTAAAAACTCTCTTGTTCATATAATTTTTGTGCTAATTGCTTTTATTGATGAAAACGGTAAGGGAACTTTCAAAGAACTTAACAAAAAAACGAACAAGCCTTATCCATTTATTGTTACTTCTACTATAACTACTGACAGAGAGCTTGATAATATAAGGAATAATATCAGTGAACTAAAGGCTAATTACGGATTACCTACCAATATGGAAATTCATGCAAGTGATCTTTTCCATCCAAGAAAAAATTTTCCTCTTTCTGAAGCTCAAATACGCGATTTTGCAAACGAATTTGCCAAAATAATCAGAAGCTTAAATTTAAGAATAATATCTAGTGTTGTATTTAAAGATTATATAATAAAGAAAAGAATTGGAGAAAGATTTACGGTTACTCCTAGATTGATAAAAGATGATAAGGATTTAAGCGTCGATGTAATGGGAATAGCTTATAAACATCTATTTGAGAGACTACTAAAACTAGCTGATAGAGAATATTCAAAGGACTGGATACTTATTGTACATGATCAGATAAATGTAGATAAGGATTATCAAATGGCAAAAGATCAAATGAACATAGTTAAAATTGTAGAGGGCGAATTGGTGAATAATGCGTTTATAACAAGGACGTCTGCAATAGGTAGAATCTTTAAACCTATTTTATTCGCAAATTCTGCTAATTATGAGGCTTTACAAATATCGGATTTTGTAGGATACATTATAAGAAAACATATACTTAACGAGAATAGCGAAAAATTTCCTTACGAAAAATTATTTGAGATAATTAGTGACAAGCTGGATAAAGATCCAAAATCAGGAAAGATAGAAGGATGGGGAATTAAGATCTGGACGTATTTTGCAGAAGTTAAATGATCGGGAACACGTGGCCGCTACGCCAGGTGCTCCCTCATCTATAGCGCTACGCTACTCAATTAGCTTCTATTTAATAGTGCCTATTTAAAGTTTTCTTTAAATAATTCTTAGTTGACTTTAATGGCTAACCTTTTTGTTGACATATCACAGAGCAAATTAACACAAAGGGAGAACTACTAGTAGAACAAGGGAAATCCACAGTATCAATTAAGGAAGTGAAAGAATTCAAGTACAACAATAAGGGGATAGAAGAACTCGTAAAATTCCTAGGAAAGACGCTTTAGGCGTGGTCATCCTGCTAGGCGTAAGGCTGTGCGCGAGTTCAAGAAGTTGGGTTATGAACGTTGGCGGGATGAGAAGGGTTATGATAATAGGTGGTTGGTTGAATCCTTGTTCTCAGCGGTTAAGCATTTGGTGAGTCTGTTAGGGCTACGAGTTTTGCTGGTCAAGTTGTTGAGGCTAAGCTAGTTTGGCTTATGCTTGAATGATGTACATGGCCAACCTTGTTGTTGGTCGAGCTAAGGGCTTTGAGGTCAAGAAGTAGTATAGTAAATTATTTAGGAGAGATATTATTTTCTATAGGAAACATATTTTTACTGTATCATCCTATTGAAATATATTGAACGAACCCACAAAGCAAATGTAATACGACTTAATAAAAGCTTATTTTATTTCTTGTTAGAATATAATGAAATGATTGAAGAGAACATTAGGTATATTATAGAAGGTTACAGTACCAACAGTCTTGAAAATGTAAAGTCTTCCTTAAAGAATTCTTTCAAACTTGATGCTGACGTCATAATTAAGAAAAGGAGTAAGTACAAGGTCTCAATATCCTTTAGGACTTCTCCAGAAGAGAAGATAAGGGATTGTAGCGATTTAGATGAGTTCTTCTCAAGACTTGGAATTATGATAACTAGAATAATAATAGCCAGAGTAGTAACTTATGCACTCGAAAGTACGTTAGATAGTGCAGCTACAGGAGGAGTAACAGGAGGTGCAGCATTTAAGAGGCTTGACGTAGGATCATTAATTGCCGCTCTTTCAGGTTTAGCTGGATATACTGTAGGAAATATAGTAGAGAAAACGGAAGAGATAATTCTTTTCTGTGAGAAAAGGAACGGAAAATGTATAAAAATTGGAAAAACAATATAGTAGTGAATATTACAAGTCATCTTAATCCTTTATTCTCAAGTTCTTGAATATCTCTTTTTATTTCTTCAGTGATGTTATCTAGATCTTTAATTTAGTTTAATTTATAAGTAATTAGCACGGAATAGGAGTTAGCCATTGCCATGTAAGAGTTAATTCTAACGTTCTTCCTCTCTGACGATACCTCCATACCTACAACTTCTCCTCCTAGCATGTTTATATTTAAATTTAATTTTCCATTTAATATTATTTCTAATGATAATTCTATGTAATCTATCTTGCCCAAGTTTAAATTACCAACAATCCTACGTAAGTCTTCCTCAACTAAGTCTATTTTATCTAGGGATTGAATAAAGAAACTTATAGTACCAATAATGTTATTGAATTCTACTATTAAATCATCTTTTAATGCAGTTACACTTCCTAATATCATAGACCCTGGAGGAGTTAATGGTAAATTATCAGAAATAACGTAGCTTAAGTCCTTGAGTAGCTTTTGTCGGAAAATCCCTGCAGTGTAACGCGATCTTTAATTAGAACTACGCAATGTAGAAGCTGAAGCGACTTCTAGAAAGATTAATTAGAAAGTATATGATAAAAATAGATGTGAACAGCAAGTACTTTTACGTAATGGGCATATTAAAGATCGCTAAGGACTTAGGAGTTTCAGTTAGTGCAACAAAGTTGCAGAAGTTAGTATTTCTTATCGAGAAAGAATTAAATTTTAATTTAGGTTACGAGTTTATTCCCTATTATTTTGGCCCTTTTTCTAAAGAATTGCAAGACGATGTGTACAGGCTTAAAAATTTAGGTTATGTAGAGGTTAAAGAAGAAGCTGTGGAAGATTTTGTTTCTGGTGCAATTATAGGATTTAAGAAGGCCTACAAAATTTCGGATAAAGTTACCTTTGACTTTAGTTCTTTAGATAAAAATTTTGTCGAATTTGTTGTTACTCATCTTAAAATTCCACTTGATGATTTGCTTAAATACGTTTATGTAAAGTATCCAGAGTATACTGTAAATTCAGTAATAAAAGACAGGGTTTTTTAAGGCGAAATTTTCGTGTCCAAGTCTCCTCAATTTTTTCTGGAATATATAGAAGATGGAATAGTAGATTGGGATTATGCATTAGATGCTAGAGAAAATATAAGGAATAAATATGAGAAATTACTTAAGGAAGGTTCAATTACTAAGGAAGAATTTGAAAAATACGAAAATAGAAAGATAAATTATTTGCAACAAGCCGTTGAGAAGTTATCAAAGGGATTACTTTTGATATATGCAGGGATTATATTATTGCCCTTTATGATTGTTGCAGAAATGAGCAATTTTGGAATAAAGCATCCAAGGGAAATGCAAGAGATTATTAATAATGCGAGAAATCACATAAAAAAGAGCGTGAGCCTTAATGAGATTGAGAAATTAGGACACGAGCCGATAAAGGAATCTAATCTTAAAGAGCTACTTGAATTGACTCAACGAAACTATAGAAGATATCTAGGAAATGAAGGAATAGCAAAGTGCTTAAAATCAGTTGAGAATTTCATTACAAGTTCCATTAAGAACAGGAAATGGGAAACTCTTTGGGAAATTGTTAAAAAATGTGAAAAATTATTTAATTTAAGTCAGTTAATGAAAGAGAATTTACAATTATTTGTAAAATGTATTAATAACGATAAAGAATCGTGTAGAAAACTTAATTTAAGCGATGCTGTTCTTGATCAATTGGCGAAAAATCCTTATATTATTAATTTCTCATTTGCCATGACAGAGATGTCGATAAAGGAATTTATTGATATGAGTATATTAGCCTCTTATTTAGAGCCTTTATCGACTATTACAAGATATAGTATATCATCCAATCCTGCATATATTACAAGGAAGGAATTATTAGAAGACGTTAGGGAACATCAAGACGATATAATTTCTTTTCTAGAAATGAAGGTACAAATTGTTAAGAATCTTGTAAAAAATGACGAATTTGTGGAAAATATGAGTAAATTATACGAAGTATTTGGAAAAATACTGCAAAATCCCTAGATTATCGGAAATAGCTGATTTCCTTCCGCCAGCGGGGAGTTCCCACCATCAACTCAGCAGCCAGAGAGCCCTCCAAGAGGGGACTATCATCCAGGTCTAGTCCCTTGAAAGAAGGGATAGTGATTGCCCCTCCCATAGTCCGGTAGACCCAAAATCGTACTACAAATATAAATTCAACACTAAACCTCATATTTTTCTTCATAAGGAACATATTTTATTATACTTATAATAGAGAGCATTAAGAATAATGTATTAAATAAATGATACAAATAAAGCAGATTTTATCATAAATATCTTTATCATTTCCTAATTTACAATAATATTCCTCACTCTATCTTTGTAGAAATATAAAAAATCTAATATGGTACTTGGAAATTTATAAAAATTATCATATAATTATCTAACTAATTACATTAAATCTTTATGAACCACTAATAACAAATAAAAATTATTTTTACTAATTAGATTTTGGGTCTACCGTTCTAGGGGCGGGAGAAGTCAGTTGCTAGCACTTCTTACCTAACAGTCCTACAGGTTAAGCATACTCCTTAAAATCGAATAACATGTACACCTCTTGAAATGATCGTATTTAGAAATATTACTTCTCTAATAGGAATGAAAATCCTACCCTCGATTCTAAAACTGCGTGCACTGCTTACCGTACGCCATGTCATTATAACTTAAAAGAAAGAGTATTAATTAAATGGTATTACTCTCAGATTTAGTTTTGGAGTATACTCCATAAGTTAATCGGAAGAGTTTTGGAGTATACTCCAAAAGTTTAAAAATGCAAAAAACTCCTATTATGCGTGAACGTTGAGGAAATAAAAAGCGTTCTGAAGGAACAAAGAGAAGACGCAGAAAACTTAATGAGTAGGGCAATACCCAGAGATGTGCCTAAGGAGGAGTTGCTAACAAATCTATCAATCCCAAATGTTTTAGCAATATTAGGAGTTAGGAGGAGCGGGAAATCTACTCTATCACTCCTATTATTAAAAGACAAAAACTTAGCTTATGTTGACTTTGATGATGAGAGATTGAGAAATTTAAAATCTGAGGATCTGCATATGGTTGAACAAGCAATTTACGAACTTTACGGTAACGTGGATTACATCCTGTTTGACGAAATACAGAACATTCAAGGTTGGGAGCCCTTCGTGAGCAGGCTGAGGAAGACTAAAAGGATAATATTAACCGGGAGTAATTCTAAGTTACTTTCCGGCGAGCTGGCCACAAGCCTAACCGGAAGGCATGTGGACTTCACGCTCTTTCCCTTTTCCTTCAAGGAGTTTCTAAGGTTTAAGGGAGTTAATTACTCCGAACCGCTTACGACAAGGGAGAGGGCTGAGATCAAGAATTACTTAAGGGAGCACATGAGCATAGGAGGTTTTCCTGAAGCGTTGCTGCTAAACAGTAGGCAAATAGTCAACAGCATTTATAATGATATACTGTTTAAAGACGTAGTACAGAGGCTTAAGATAAAGAGGATATCTAAGTTTAAGGACTTTTCCTCAGCAGTAATTTCCCTTTACTCTTCTGAAGTTTCTCTAAATAGAATTGCTAGAATGCTCAGAATTGATTATAAAACTGTTGACGAGTGGTTTTACGGCCTGACCACAAGTTACTTAATTTATTCCGTGGAAAGGTATACCGGAAAGTTGAGCAGAATTGCAGAAAACAAGAAGGTTTACGTAGTTGACATGGGTATTATTCAAGAAGTCTCTATAAAAAAGGATATGGGGAGATTAATGGAGAATTTAGTCGCAATACATTTGCTTAGGAAAAATCAGAACAAGGGAGTTTATTTCGTTAAAGGAGAGGAGTACGAGGTAAACTTTTTAGATGAGAAAAACGGGGAGTTAATACAGGTAACTTATGATGAGGAGGGGATAAAGGAGAGGGAGTTAAGTGCTTTAACTAAAGCCTCCTCATTATTGGGTTTCAAACCCAAAATCGTAACGTGGGACATGGAGGAAATAATGGATTATAACGGTAAGAAAATAGAGTTAGAGCCCTTGTGGAAGTTTTTATTGAGATGACACGGCCTCTTCAGTTTTCGCTTAATTGCGTCAAAGGTACTAGTACTGACTACTTATATCACAAATTTTTGTGACATCTTTTTGACTTCTTTCATATTAGGTCTATCCTTTGGGTTAGGAGATGTCATTTTTACCTAACATATTCTTACTCTCAAGAACTGTGTTGTTTACATAAGATAAACACTATATTTAAAGTATATAAAGTAAACTTTATATACACACTTTTCCTATTCTTACGTTATGAGTGAAATTATTAGAGTTAGTAAAGATGTGAAGGAGAAGTTAGTTAAGATTGCTGCTGAACTGCAGTTGAATAAGGGTAAGAGAGTTAGCTTAAATGATGCGGTAGAATATTTAATAACTTTTTATGAGGAGAATAAAAAATCTCAAAAGAATGTTCAATTACTGTTTTCCCTTTTAGGTTCTGCAAAAGGGATTAGAGAGGAATTAGAGAGGTCGAGAAGAGAAGATGAGGGTAGTAGTTGATACTGGAGTACTAGTTGAGGTTTTAGAAGGATCGGATTTAGGAGAAAAATTCCTTAAGCTTGTTAATAGTAGTAAACTAGAGCCAATAATTACTAATCTGACATTAATTGAGTTAACTTATATAATATGTAGGAAATATGGAATAAATAAGGCTAGAGAATTAGTTAAGAAGTTGCTAGACTCAGGTTATTTTGAAGTAGTTAATGCGTTAGAGTTTGCTGACCATATAATAGAGACGAAGTGCAATAATTCCATTTCTATAATTGATGCTTCTGTTATCGCAACAGCTAAAGGACTAGGAATTCAAGCATTGTTTAAATTAGAGAAAGAATTGAAAGATAAAAAGTTAGAAAATGTCATATTTATAGAGAATATCTAGCTTAAGAGCTCTTAGTTGAAGTGTAACTACAACAAAACGGCCTACATCCCAGTCAGATCTGACTAAAATGTTTTATATAAGGAGGCCAGTTATTAAGTTCCAGTTAGTAACAGCACGCGTACAATATAGAATTAAGCACTAAACCCTTTTCCTTAAGTTAATTTCTACTCCACATAGAAATAGCTGATACGACAGAATATAATAATAAAGTGTACAGTATTGTGTCATAGTTGACATAAGGTAATCTTACTCCTGAAATTTCATTATACGCAATCCTTGCCTGGGGGTCGGACTTTCATTGAGGTTTCATGAATTTGTATTCAACCTCTCGTCCTCATGCCCCTTATTTCCCTTCCCATGCCGTCTACGGGAGCTAAACCACTCCCTTCAAGGACATGGGGAGTTTCATTGGGTGCCTTCCTCCCCCTCACATTGCTCATCGAGTTCATTGTGGCATCCTCCAATTAAATATTAGCACAAAAATTTATAAATTTTATTGCTTCTAACACTCTTATGGAGCAAATAGTTTTCAGATCAACGGTCTCAAGTTATGGCACAGATAAGTATGGGAATAAGAGATATGGTATAACTATACCTTCAAAACTAAGGGATAAGGGTGAGAAATTATACGGTAAGGAGGTGATCGTAATTGTTATCTTACCAGATGATGAGGAATAAATTGATAGGGTCTAGGGAAGCACTAGATAACTTCCAATTCGTTACGATAAATAGTAGAGTCTTATTTAACGAGAAAGAGAGGGTTGTTAGGATTGCTAGGGCTTACTCACAAGTAGTTAAGAGTGCTATTAAACAATTGTTTGACGGGAAGAGTATTGACGAGTTAACCAAGGAGTTTTACAACGTTTTACCAAACTACATTTACCTCGAAACTGCTTTAAAGCAAGCTAAGACAATCACTGACGGTTTATTGGATAGGGAGGATGAAAAGGGTGAGATAATACACGCAAGGATAAGGAGGTTCTGGTTCGGTAGTAGGGGGAATAAAAGCGATAAAGGGAACAGAAATATTAAGTTCCACGTTTTGGAAGACCACGTTTTAATTAAGGTTAAGGATCCTTGGGGTAAGTGGGTTTTTGGTAAAGCTTATTTCGGCAAGGAGTACTTACCATTGCTTAAAGAGTTAGAGGATTTAGCGAGTAAAAAGGTGGAGGGTTACGGTGCTGTAGTAAGTTTCAAGGATTACCCTATGATCCACCTCCAAGTACCGCTCTGGCTTTATCTGAAGCACTTCTCTTCACTAAAACCTAACGGTTACGGTTTAATTGCCGGTTTTGATTTGAACAGTGATAGGTTGAACGTTGTTGTGATTAGCAAGGATGGTGAAATTATTGCTAATAAGACGTGGTGGTATTCAGATGTTACTAGACCAGGTTTTACTAAAGGGAAAGCTATGGCTTTGCGTTTGAATGCTCTATCAGAGTCCCTCAATTTCCTATCAAGGGTTGGCGTTGATTATGTTGTTTTTGAAGACTTGTTTCTAGTGAAAAGGAGGAGGTTCACTAGGAGTAAGAGCGGTAATAGGAAGGTTTCGCGTTTTGCTAAGAGGCAAATGTTAGCTCACGGTGTTATTAAATCACTTAGGTTATGTTTCAACGTTGTGTTAGTTAATCCTAAGGGTACTACAAACTCGGAAGAGCATGAAAAGGTGATGAGGGAGAAGGGTTTTGATAGGCATACAGCCTCAGCTTATTTAATAGCCTTAAAAGGATTAGGAATGTTAAATGATATCAAATGAGATAAAATTCACGGTTTATCGAAAACTGTTGTCAACGGCGTATATTTCATCCCAGTTGTATAATGTCGTAAGTAAACATATCGATAACGTAAATAAGACGTAAGGTGTGATGTTTGTAGCGTATTTTACTAGATAATAGCCGGCCATAAATATGTTAATGAAAAAGTATAATGCTATGGAGAAAAGTAAGCTGACTTTTGATCAGAAATGAAGCTAGTAAATACAGTCGTTGATGTTATTGGTATTGTATATAATAAAAGGAGCAATATTAATAGTCTTTCATAATCGTTCACAGTAAAATACTCCTCTACTGATGACGAAATTATAGTAAATGAGAGCAGCGATAAAATTGTGGCTAAAATTGTTCTCTATCACTTATGACGTCGTTAGATGTAGGTAACTCGAAAGGTAAACCTCCTTTTAACCATTTTTCGGTCAATTCTTTAACTTTCTTTTTCCTTTCTATTTCTTCTACAGTCCTATTTATGCTGTATAGTATAATTAAGTTAAATGCCTCGTTTTTAGCCAAACCCATTTCAACCATCTGCTCGGCTATTTCATAGTACTCATCTTTTACTTTTAATGTACTATCTTCATACTTTTATCTTACTAACAAAGTAATATGAAGCTTACTTCAGTAAAATGCAATATAAGCTAATTACAGGAAAAAGGAGGATTAGGGGTGGAAAGCCTCTTCAAGGGATGGATAGCCACCTTATACTTCTTTTTCTAATTTCTTTTAATGGCTAGGAGGGTTAAAGCGATCAGAGCTACTGTTTCAATGAAGATAGCAACTATCAATAGAGAGATAAAGGATTAATCCCTGAGTAGCTCAATTATCATGCTATGGACATAATATCTATTTTCTCTTTAGCTGAACAAACTTTAGGCTAGGCCGATAAACTTCCTAATTTAGTTGGACAGTTTTTCCACATGGTATCACTTCCGGTACTAACGTGTTGGTAAAATAATATAACCAGCGATAGGTGTTAGTTATGATATCCCTATTTCTCTCGATAAATTCCTTGACCTTGTCAACGTCATTAGGGTTAACCACAAATACAGTTACGTATCTCACATTATTAGCACTTAAATACAAAGACCTCCTCACTAGAGTGTTTATAAATGCTATGCAAAAATTCATCTTGTTTAGTAACGTGTGAAGATCCCTGCCCTGCATTGATGTTAATTCAATGATTTTAATTATCAGTTCGCCTTTTGCATCTCTCACTATTTCGATAGCATCGCAGTGCTCACGTGAATTAATGCCAATCTCCTCTAAGTTACCAGTGTAAAATTTTCTTAAATCCTCATCTTCTACTTTATTTAGTCCCCTAAAAACCTCTTCCATGTCTATAAAAAGTAACACATTATCGTCTTTTATGAAAAACTTGCAGCAATTTTCCTCAAGTACTCCCTTCTCGACCTTTAAACTTACCATAATCTCTCACCTTTGTTCGAACGCCTCTAATAGGATTTCTTAACTCAAGTAAACTACGTCACTTTTGCCCGAACAGTCTCTTCGAATGAAGTGATGAAAACCACCTAAACTCCTTTTCCAATACGTCCTTAGTACCAGGCAAACCCCTCACGACATAGTCGATACTCACATCCTTAACCTCTCCCTCGGTAAAGTGATATACTTTAACCTTAACTTTTTCATTAGCCTTTTCTACAGCTTCTGCTAACGCCTCGTAATCCTTCACTTCCAAGTCCTCAAACAAGTCCTTTAACTCCTCCTTAGTGGGCTTTAACATACTCAGGTGGGCGATAGTGGAAACTATAGTCTGGCTGTGAGTAGAAATCACGATACGGTTAATTGAGGATAAAGCGTAAAGAACCATACCCATTAGTAGTTGTAATTCCTCGTGTAGTTGTGTTTCAGGTTCTTCAAACAATATCAGACTCCCCACCTTTACCGAGAGCAAAAAACTTACGATCTCTAGTATTGAAGCTGAAACGTACTCCCACGGTATTTTCTTATTTTCCTCAGTGTAAACTAAGTTCCCGCCATCATTTGCTATCTGTCCTTTCAATAGCGGTTTTATTAAGTTGAATACTTTCTCGTTGTATGTAGTTAAGCCCTTGAAGTATTCCGTCAGATAATTAGGTCTTGTAATTTTAAACGGGGGGTTTATTGCCATTACCAATCCTCTAATTATATTAGATATAACTTCTCCCAACAACGAAAAGGGGGAAGGCAATGCCGACGTGGGAGAGTTCAAAATTTCTTGTAATATAAACTTCTGAAGCACTAGGAAAGACCTACCGTAAGGAATGTAAACAACGCCGTTGATTCCATTTTTGCTTAGAGACTCGTTAAACCCTATGCAGTACTGGGAGTTTACTGGCTGTTCTGCAATATTCAACATAATGGTGGAAATAGATGAAAGAGTTTCGTTATCCTTTAAGCAGGTTTCACTTACATCAGAGACATCAACCTTAACTTCTCCTTTATCACCGTTGACGCTGATTTTGTAAATTGTGTTACTAAGGGAAAACCTTAAACGTTCTATATCCTTGTCACTACACGTTTTCGAAAAATACATTGGAGGTAACGTTGATGGTCTGTACTCCTCTTCATAACTCAGTTTTTGAGTAAGTATGAAATCCAAAACGTTTATAGGTTCTAGTTTAAACTCTCCTTCTGGTAATGAATCACTTATGAAACTCTTGTAGTTTTCCTTCGTTCCCTCTCTGTCGATAGTGAAGCGTAGGAGAAACAAATTATCCTTTACCTCAAAGCTGTCCTGCTTTAGCTTAATGAGATTACCTGGACAGTAAAGGGAATAAAATAACGCTTTCATAGCAGTGCTTTTGCCGGTGTTAGGCTTTCCAACGAAAAGCGTGATGTCACCTAACTCGATTTCACCGTGCTTTATGGGACCTAGATTAGATAAGTGTAACTTCATAATAATACAAGCTCCGTGAAGGATTATAAACCTTGGCTATTACTGACTCATAAATTTTTGTTAATGTAGCCGTGATGGGGCATTAAGGAGATAACTGGTGTCAAGAGAGTGTCCCAAGTGCAAATAATTGAATAAATCTATGTAAAGGTTTATAGATAATAATTCAAAAGATATTGTGAATTACTGAGAAATTTTGAATTTTCGCTTGAAGCAAAAAGTCGCGTAATACTTAAAGGGAACCGGGACGATGTAGTACCGATTCACATGAAGCATTGGATAGAATACTACAACGGCCCGGTCCCCTATGAACATTTATCAGCAAGGCATAAAACACTTGTGAAAATGAACTACATGCTGATCACGTCTGAAGTGCTGTCGCGTCTCTCTGACCTCTTCATATCGAGAGCGTTAATAGTTATGATTGTGTGGACGTGCTCCTACAGGGACGTGCGGAGCTACTACGAGTCAGACGTGGTGGTAAGGTGGTTCCTAGGCGAGTACAAGTCTAAGTCGGAGATCCATAGGAGGGCAAAGAAATTTAGGGGAGAGATAAAGACTCTGTTCAAGGAGTACGCCAAGGAGTTGGAGGGGAAGATGAGTAGACTTGCTGACTACTTACCTAGCAGTGCGTTATACGGAAAGGTTGGAAAGCTGTGGATCGTGGATTCCTTCCTAATCGAGGTACCCTTCGGGAAGAGGAACAAGGAAACATTGAAGAAGAAGTTTGAGCTAGAGCTAAGGCAGAGGAAGTACAGGGAGGCGGCTAACACGCTCTTCTTTTACATTAAGTGCAAAGTGAGGAGGAGGTTCAAGGGAGAGTTTACAAAGAAGAGGAACAGGAGTTCGGCTTCAAGGTCTTCAACCTCATGTCGCCTACAATGATAGTTCACGAGATTCAAGTGGAACTGGCCAATTTTCCGGACAATAAGGTTGGCTTCTCTCGCAGCGGTTATAAGGTAGTGGATAGGGGCTTCGTGGGGAAGTCCTCGACCTGGTTGATAGGTTTCTCTAGTTTCAGGAGTGGAGTTCTTTGGGATCTTCTTGAGGAGGTATTGGAGGCCTTACGCTACTGAAAAGGGTATGGTCGAGTTCTTTGTCTACGTTATCGCGTTGATTTACAACTCCTACATCTACACTTCTGTGTTATCGCGTGTTCCGGAGAGTCAACTCGCCCACTAACTTGTACCGCGAGAGTTGATCAAGGTAGTGTGGACTATGTTGGAAATTCTGTTTTTCTCTATACTTGATTATTTTCCATTACAATATAAGCTTAATCTCTCGTTATACTGAAAGATATAATTATATTTTATTCTTAATTAATTATAAAATTGTTTTTCTATCATACTATATTTATTCAATTATTTGCGCTTGGGACACTCTCTAGAGACTATATTTATATCGAAGATGTAATAAATGTAATGCTTAAGGTTATTGAAAAAGGTATAACTGGGACTTATAACGTAGGCACGGGAGTCGGCATTACTAATCTTAAATTGCTTGAGATCATTGAGAAGGTATTGGGCAAAAAAGCCAAGGTGATTTATGAAAAAGAAAGACCCGGTGATTCAAAGTATAGAGTAGCTAATGTAAAGAAGTTAAAGGAGATAATAGGATATACTCCTAGAATCGGTCTAGAAGAAGGAATAAGAAAGCTAAAACAATACTTCGGATATTAATCGCCACTATAAAGAACATAAATGACGATAATTGGTGTATTTAAGTTTAAGACAAAATTTTTATTAAATACTAGCACTAAAATTAATCACTTAGATATAATATTATGATTCATGACTATAAATTAAGCAGATGTCTCTCATGACTTAATTAATTTATGAAAACACTTTTTGGTTCATCTCCAAGAATATATAATCTATTTTAAACTTATGACTAGTTGAATAATAATAATCAGGCTTTGAACACTTAGATTTATTGAAACACTTGGGCTTATTTAATGTTGTAGTCAGTTATTTAACTGCGTGTATTGTTCCATGTTCAGAAAGATCGTATATCAACTCATTATGTTTATAAACTCTAATTTTATTAAAGCCATATTCTCTCAACTTATTTATTATATTATCCACATTACCTAGTTTTTGCCTTCTATCTCAGTTGTGTATTCTATTCTTATTATCTTAAATTTCTCTAAACTTTTATCATATATAACTTTAAACTCCTCACCTTTAATATCTATATCAAGTATATCTGGATTATTTATCTTGAATTCTTTTAAAATCGTAGAAATACTTACGCTTCTAACTTTAACTTTATCCTTAACATTACTGTAAACGCTGGCAGCTCCACTGCATTTTATCTTCGGAAATTCTACGTAATCATCCTCACCTATAGCATAATTCTTAAGAGCTATATTTTTAGCTAATTCATGGTTAAGTTTGAGGTTTAAGTCCGCTACCTTGTAACAATCTGGATTTGGTTCAAAAGCGTAAACTATAGCTCCTTTCTTAGCATAATATAGTGCAGTTTCTCTGACATAAGCACCGGCGTGGATTACAGTCCTTCCGGTAAGATCAAAGTCCACGAAGTGAGAATCGTACAAAAAGGTTTCAGCAAATATTAGTGCTAGTATTTTCGAAAAGTTCTTAGACTAGGATTTAAATGAAAATCCTTAAGACTAAGGCTATAAACTTTCTGAAAGTACTAACGTAAACTGCTATTCGTAGAAAATCTATTCTGTCAAGCTAAAGTAATCTCTTGAAGCTCATTGCTCTCGTTTCTTTTAACAAGTTTAACTCAATAAAAATTGATAAAACTTTCTAATACTATTACATTCCTTAAGTATTTTTTATTCGGTAAATAGCTCCAAAGCCTAACTGGCTTAAAATTCCTAAAGCTTTAGCTTCCTTACACTCTTCCTTCACTTTAATAAGAGTACCTGGTGGTAAAGCTTGAAGCATAGGTCTCCTTTCATTGCCATAACCCAAAGCATAATATGTCGTCTTAACCTTAAAGTCCACTCTATTACCTTTTTCTACCAAAATGCCATAAATTTCATCAATGCATTTAAATCCCTTAACTTTATCAAACTTAACGAAATAATCATCTCCTGCTTCAAATAATAAAGGTTGCAATAATACTGCGTAATTACCTTCACTATAGTTGTATTTACTAGATATGATATCTATTTTTGAATATCTATTTTCACCCCCTAATTTCACTACTTTATCATCGTTAACATTGACATTTACGCAGTACTCTAATATATATTCATTTGAAAAGAATTTCTGATAAAACAAATGAATAGTATCCTTACTATCTCTATTTATTTGATTCATCCTTCTACGTTGTATATGTAAATCCTTCACTATCTCCATATAATTTATGTCTGATGGATTTAACGCTAGGTTTAGATATTTCTCCACGTTAAGGATTACTTTATTAAAGAGTAAGGGATAGTATACTGAGAGGTTAGTAGTATCATCTTTCTTAATTATCGGTCCCCAAATTAATGGATCCTCTGCATTATACTTATTCTTGTCTAATTCATTAGAAGTTAACGACTTGTAAGCCTCCTTTAAGTCCTGTATTTCATGTTTATCGGAAGGCTTACTATTACCTAACTTTCCTATAATTCCCAATATCGTAGTGGGGGAAGGAAAAGCCGATACTACATCTACGTTTTCTATTACGATTCCGCTACTTTGTCTTAATCCTATTCTGTATTCTTCTAAAGGTTTTAAAATAAGCTTATAATTCAAAGTATACCCCTCATTAACCTAAAAGTTTTGAATATTTCATCAAAAATATTACTTTTTTTATAATCTCTAGCAGTCACATGCATGATATTTATTTTGAAATCTCTTTTCAAATCTTTCCCGTTATTTCTTATCAACACATAATTAATTAACCTATTAATTAGCTGTGCATTTTCTTTATCAGATAATGGGTCTACTAATTTCTTGAATCCCATTTCATAGTCTTCAAATACTGAAGAGCTTAATATACCACTTAAATTAAGTAACCACATTTTCTTTAATAACTCTAAATTCTTGAAATCTCCCATGGGTAATATACTCACATAGTTAGACCTTGAGGAAGATATAATAACTGAGAACTTTTTCTTATAATCTCCATTACTACACCACTCTACAGTTTTTACCTCATTAAGTAATTCAGTCGCAGTTTGTATTTCATTAGTCATAAAATCTGCTATGTTTGAAATTCTAACAGAGAACGATCTTCCATGAGGAGACATTGAAGGAATATACCAATTCCTAACCTTAAAGAAACCATCTTCACTTACAAAATTCTTCTCTAAACCTATCAACGTATCAATTAATCTGTCTATAGGAACTAAGGCTACAACGTCATCACCGCCTGCATAAATTATTTGACCGTAATTATCAACTTCTACAGTCTTTATATCCCTAAGTAACGTTATCATCATTGCTGTGGATAACGCTACTCTATACGTTGGAGACATTAAGATATATCCATTATTAATAATTTCAGCTAAACTACAAGCGTAATCGTAAGATTTTTCTATATTATTAGTTTTAATATTATTAGTTATTTTGATATATTTTACTGCATTTATTTCAGCCCTTGCTAATTCCGTCATATCGTCAGCGTCTGCCTTAATTATTGCATAAGAGTCTCTATAACCTTTTATAGTATTTACGAAAGATTTAGTTGCCCTATCTATGTCATACTCCTTGGTTAGACAGCTTAAGCTCTTTTCTGTTATTGAAGAGCATTTATTAATTACCTTCCTAGCAGTTATGGGATTTCCGAATGTGGCATAAACGTTTGTTTCCTCACTATTCAAGAATTCCTCAAATTTCTCACAACCTTCTATGTTCTCAACTTCTGGATTGATGGCTTCCTTATAATAACTGTAAGCAATATCATCCGTGCTCATGAATACTTTAAGCCCAGCGTAATGTAGTGAATAATATAAGCCTCTCTTTAATATGCATAGAGGACCTAATTTTTCTCCAGGCTTAAACCAAACCTTTAGTCTACTCAATCCTTCATCATTCTCTTCTAGCCGATTAGAATCATAATTAACGAGATTTTTTAATTCACATTTGGTTTCCTTAGAATAATCATCTTCTCTTTCTTTTTTCCTAAAATTAAATATTGCAGGCTCATTACCACATACCGTACAGTATTCCCAATCCTTCCCTCCGTTTTTATAATCGAATTTGCGTTCCAAGTTGTTAAACCATTCCGGCTTAGGCAGTACCTCGCGTTTATATATCTCCTTAATCTTTTCTCTGTATAATTTAGTTGATATGTAATGAAATAGATAATATGAGCTAAAATACGGACTAAGTTCACAAGGATCATTTTCCATTTTATGATTCCACTTATATTTACTAGGCTGCTTGTATATACTAGGCTGAATTTTATGCAAATCCTCATGATTATTAATATCTTTCTCTATTTCACTTTTTACTTCATCAATATCTATAATATATATAGCAGGTCTAATTAGTAGCATATCAGTATATCTCTCAGCCTCCTTAACTAGTGCTCTAACAAAAGGTTCTTCATTTTTACCTGAATTAAGTTTTTCAATTCCAAAAGCCGTAATAAACTCTTTACACAGCCCGCTTTCAATTTTACCTCTAGGAATTTCTTTCGCAATACAATTATATGCATCTCTATAATACTTGAGAATTTTAGTCTTAATTTCGCAACTCCTCTCTTCTTTAGCTAATATTAAGCTTATCGTAGCAGGAATTATAGGTTCTCTCAAAAAATTCTTATAATCATATATTCCGCTAAGATCTCCTAACACAGAATTCAAAATCTCATCAATTTCTTTTCTAGTAGAGTCGTCAATAACGCCCTTTGTTTTAAGGTAATTCATTACCATAGCATAATAAAGTGGATTAAATCTAGCAGTAGGGGCTAGCAAAACGTCTGGCCCATATTCCTTAATTAATTGCCACGCTGTTAACCAAATTATCATCGATAACATCCAGCTTCCAGCCCAATAATCGCTAGCCTTCCTCGCAGAATTTATAATTCCTTGTACTCCAGGAATATCTATTACAACATAAAATCCGCTTGGTTTTACAGGCTTAGTCTTTTTGGGTTTTCCATTAAAATATGTCCAGTTTACCATTGCTGCAGAAGCATACAGATGGTCGAATATAGTAAAATATGGAGCCCTAGAATCTTCAACCTCCACTGGCAGATTATAATATATCCACAAAGGTTCATATATTGTATAAATAAGGAAATATAAATCCCCGATTGAAGATATATTATTAGTATTAATTATACTTTTAAATTTATTACTAAATTTTTCTAAATTATTCTTATTTATATCATAATTTGATTCTGAAAATTTTTCTGGATTAAATATATTATGAAAATTAAAATATTTAACCATACCTCCCGATACATGGCTTAAATAAAGGTAGTTAAGCACCCACCTATTAAACTCTGACGCGTAGATATCCGCACTATGAACTATTTGCTTAGCCTTTTTTGCTTCATTATTTTTTAACATAGGTAGAGCTAATGATCCAACAGTCTGTTTCATAGAATTAAAAAAATTGGTATCCCAAACAAGGTATGATAGAAATAATAAAGCCTCTATTTCATGTGCTTTTATATATCTATTTTTTACTTTTTTGTGTCTTGAATTTTCCTCTTTATGTTTTGAATTATTTAATTCTTCATTCTTGTCAGCCTCACATATATTATATATCCGATCTCTATTGTTTAGTCCCAACTCTGAGTATATTTTTACCGTAAGGCATTCACATAATTTCTGCTCTTTAACGAGATCTCTGAAAAACTCGTACCCTGTCTGTCTAAGATTAACAGTCATTTTATGTGGAGGATCGTGAAATAATGCATAAATTTTATACAAAAAGAAGTTATCGTCTACCATTAACTCTCACCCTCGCTTTCCCTAACTTTTTAGGTCTAGTGAAATTGAAACTGACGAGAGAAAAGTCTTCAAAGTCAAATTCACCATAACCCCTTGTAGTTTTAGCACCAATACCTTGTTTAAACGCGTAAAGTATTGGAACAAAAAATGATAAACCGCCTCCATTATAACCTATGCTATTTGTCCATTCTTGAAACAGAGGAATTACATCTCGATGAATTCCTATAGCAAATCTAAAAGTTATGCCCTCATTTATAGCAACCCTCGGTATAGGAGTTGGATTAGCTTGATATTCATTCTTTACCACCTTACCCTCTTTAAAATAGTGCGGAGTAATTATATCTCCGGCAAGCAATTTATCTCCACTTATAGGATAAGAGTCTAAAGCTACCAACAAAGAGGATGAAGAGTCTAAACCGGTTACGTAAATCTCTACATTTTCGCTCCTATGTCTCTCATTCTCTGGGATACCGAAAATCTGATAAACGTAACTTATACACTCCTCATTTTCTCTACATAGATCTATCATATAACTCCTTAGAGTTCCCTTAATTATAGACCCGGGAATGTAAGGCAAGTCTAATGCTAAATTCCACGTTAATCCGGTCTCGAAAAAGAGATAGAAAGGAGAAATCTCAGAAATACCAACGTAAAGTTTCTTTGTAGTCCTCGCTTTAATATCTATTGCACAATAGCCTAAACTTCTTAAGGCGTTCACTCCTTCCTCTAACGATTTATTAGCTATATCCATCTTTTCAGAAAAAGAGCACGAAACTAAGTTCTTTAATAACTCTCTTTTTATTTCCTCTTTCTTGTAAGGATTATTAAGCATGTTACTAACATAATATTGAATAGCATTGAATATGCAGTTATTAGCTTGCATTATCACCACCGCTTAAAATATATCTTAACCAACTTAAGGCTATATAAACGTGATCTCTTACAGCGTTTACCGGATATTCTTTTTTATCTGGTGTAATTGCTTTATTGTAAATGCTTTTGGGTTGTCTATCATGACCTCCTTTATATCTTAATTTTTTGAATTCTTCTTTTTCTTCGTATATAAACGGTATAAGGTAGATTTTATCGCAAGTATTCCCATCACAAATAGGCGATATCGTGATATATGATATTCTTCTACCTTCTTCCTCATCAATCAAGTACCCTGTTTTATGTTGACTTCTTGGTAATCCTAAAGTCCAAGTATGATATGCAGCACCTTTATCTTTATAGTTTTTTTTAATAGCTATCTTCCATGCTACCTTAAGCGTAGCGTTACCTATTGCAATCAGATAAGTTATAGGATCTTTGCCGGTTATTTTCTCAAATCTTTTTACTTTAAAGAAAAATATCTGTGGGTTATCTATTCTAATTATTGGAATATCAAAATTTGGCTTACACGCTTCTTTACAGACTAATTGTGTTCCTATTTTTAATAAGCTGTTAAACTCTGTTTGAAAGTCACTTGTTTGCTGATCCGTAAGGATAAACCTACCAAAGCCCCTAGTAGCAGCTTTCCCTATTCCCATATATTTCATCGTAAAGATTAATGAAGTAACAAAAAAATTAAAGAAGTCTTCGTCTGCACCATTATTTATTACCTCTACCTTAATCTTAACGCTTTTGGGCTTTGCTGGTTGCATGTAATAATATTCTTCTGGACTGTCAACTCTAATGTGAGCTAAGATGAATCTAGGTATGAGAAAATATCTAAAATATTCCTTTGCTGATTCAGATAAATAACATAGCGCTACCTCTAGAGAACTTTTATGTTCCTGAAATATGCTATTATAATTATTAAATATACCTTCTTTAGAATATTTGTTTTTTATTTTTTCATTATCGTCTTGTGTAAAATTCATAATATTTTTAATAATATCTATTTTATTTCCAATCGATTCTCTAATTAGATTTTTACTAGAAATAGCACGTTGTTTATTTTTTATAGTGGGCCAATTTTCTAATAATTTAGCAGTTTTAAATATATAACTAGCCTCATTTTTAGAGAAGTAGTATGAAGGATTAGCATTACCTTCACATCTTGTAACCCTCACGGCAATTTTAGACCTGCTGTTTAACGTTCCCAAATCCTTCAGAAACCTTTCATCTATTCCATCAAAACTATTAAGTCCTAAAATTTGGACAATGATATTCCTCATCAACCATCTGGTCTTTCCCACGATCGTATTAGCAGAGGGAACAGTAACATTTCCCTCATCACCAAAAGTATATCCGAACTCATTACCACCCCACCACGGTGTAGAATTAATAAATATAAACTCAACTTTGTTTTTATTAATTAGTTGATCTACTATATCAAAGATCTCCATTAATCTTCACCGCTATAAATACCGTCTACTATTTTCTTTATCTCTATGGAAAGATTAAGTACAGAATCTTCAACTTCCGACAAGAGTTCTACGTTATCCTTCAGAGTTTTTAATACTGAAATTAAATCGTTCTTTATATAACTATTTAATAAATCGGAAGCTATCTCTTCAATTGATTTAGAAGACTTAATGCATTTATCGATAAATTGGATATCTTGAAGCTTAAACTTTATCCACTCAAAGTTTACTATTAAATATGAAGTATAACCTTCTTCTTTAAATTCATTACACAATTTCTCTGTAACGTTTTCCTCAGCTTGACTAAAATACATTATTGAAGGAATTAAAATTGAATCATCGATTTTTGATAATAGGAAAGTCATTGAAGGAATTAAGTCCATTTGCTGCATCATTTGAGGAAATTCTCTAGCCCTACTCCTAAAACCTCTTATTGAATCCTTACCTCTACATTTTTTACTTAAATTAAGAACTTTTTCCCCGATCTCTAGTGCATAATCTACTTCATCCACTTCAAACACCTAAGAAAACTTTTACTAATCCTTTACCAATACTCTCCTTACCTCCTATGTTAAGATAAAAGGAATAAATGTCATCAGAAATTTTACTCGCATGAAATACTTTAGAAAGATAAGATAAAAAGCGTAAGTTATCACAAGTTAGCTTACCCATTTCGCCTCCACAAAAGTTATTCTGGACATTCTCATCAATAATTAACCCTCCTATGAAAAATGAACCCATAGGAATGTACTCCTCGCTCCATAATCCTCCTTCCGTAACTACCTTAGTCAAAAGATTTAATCTATTCCTAGTATAAATTATTAAAGACTTATCAATAACCTTCTTATCTTTAGAAACAGCGAGTTTACCATTAAACAAAGGTAAAGAACTTAAGATCCTAAATCCTTTTATGTTGAACAATTTAGCCTTGCTATTATAAACTTCTCTTTCCTCACCACTCTCATGCTCATGTAAAAGTAAGGAAATTTCATTTCCTAAACTTCCTACATACTCATTTATTTCACTTATTATATTAAAAATGTTATTAGTTCTAGAAATTAAATAATCTACACTTAATTGTGTAAAACCGTCATGTATAGGTGCTGGGACCGAAAACAATGGTAAGTCCAATACGTTAAGTATACCTTTACTGCTCTCTTCATCATCAGGTTCACTTCCAAACAAACAGCAACATTCCGGTTTTCTCTTGCAATTTATTCTTCCAGAATCATTAATTGCGTCACTTGCACACAAAGCCTTCAAAGGACCTTTAAAAGCCGAAGAATAAATTATAGGATAGCCCAGCTGATCTTTCTGTACTGACAAATCTACTATTCCGTAACCTCTTCCTGCACCAGGATGTAAGTTAGTGACCGCATAAGCTAAAATGAAAAGACCTTTCATTAGTAAAGAATAGCCATTTACCATTTAATAAATCTTCATACTCTTAACAATAACGCTTATAATTAGGAAATTAGTAAATAAAATAGGTGTAACATTGAGTGGTACAAAAACTCCTTCGAAATGGATTTTTATACCAATAATTGATGGTATAACTTACGAATTTAATACAAATAATAATGATATAAATTCTATTAAGATTAATTCTCAGGAACTACAACTAGTAGATAGTAAGAAAGAAGAACTGTATTATGATAATAGAAATAATGAAATTAAAAAAATTAATAATGTATTTGTATTGTTTGGTACAATAGCAACTAGTTATAGCAATAAAATTAAAATAGAACTCACTTTAAATCCTTGCGATTATATAAGAGGATTTATTTTTAGTGTTAATGAAAACGGCTTAAATAACCTAGCAGATATATTTGAAAATTATATAGAACTTAACGTAAGCAATAAATCATTTGCAATACTTAATAGAGAAAATAAATTAAATATACCTAGCACTATCACAATTTACGTAGCTAAGTGCGATGCTACAGTTTGTATAAATAGAAATGAAACTGAGATAAAAAACGTAAATAGTGGCGTGATAAAAATTAATGGTAATGATGTTTCACAAGATTTATTAAGAATATTTAGATATTCTACTCAAAAAGTATAAAGATTGCTCAACAACGCAAATATGAATATATGTATTTTATCATATACTTCTACCTAAAAAGTGGAGTAGCTTGATTTTTTAAAAATCTATACGCTAACTAAACTTACCAACTAAGAATGGGACGCCTCTAGCTAAATAAAGAGAATATAAAGTCAAACGACCATAAAATCTACTCATACAGACATTCCTCTTCTTTCTACTTATAGATAACATGAAAGAATAAGACTACTATCTAGAACTTTTAAGCTCTTCCTGTGGACTTTCTACGAATAGCAGTTTACGTAAATTTCTCTTACTTAAATATTTTCATTCTTTTATGCAATGAAATAATTCAATGAAATAAGTTTTATCTATTCTAGATGATAGTATTTTAGGCTTTACAGTAAATAATTTTACTCCTCTTATGTTGTATTAAATTATTTTTAACGCTATGTAATACTGCAAAAGGATTTTCGTAGAAAGTCTACTCGTTATTTTATGTGAGTCAGAGAAGATTAATCAAACAAAATAGTCAAAAAATTATGAAAATACAAGTTGGTATTTTCAATAAATTGTTTAATGTTACTAAGTTCGTCTTAACTAATAATCTTCAATATCAAAGCTACGAATTTTAACTTAGAAGGTAAAAATGACTGTATTAATTTCATATCATCAACAGTAATTATTTTAAAAAACTTAAAAAGGAAGAGAATGGATAATAGTAAAAGAAGGTCTAAATAAGGAGGATCAATGAAAACCTCATATATCCCTATTAAAGGCATCACAGTTAACAATGTAGTTTCCTTTCTACCTAAAATGAATGTTGAAGTCCTTAAAGCATAAATTAAGACGAAAGAAGAGGAGATTGTCGATACGATAATCTGAGAAATCGCTCCACCCATTATTCCTATTCTAGGAATTAAGAGGAAAGAAGTTAATAAAACCAGACCTCCGTTAAGTAGTGAAAGCATGAGGAAAGGCCTCAACGACTTCCTAGCTGCTATAATGAAATTCGTTAAAGAGATTATGGGGAAAGGCAAAGTCGTAGCTAAAAGGAGGAGGATCAGAACTTTAATTCCGGAAGTATAAGCCGAGAAGAATTTCTCAACGACCAAAACGGCTGTAGGTATTGAAATAATGACGGCAAGAAAAGTAATTAAAGACAGCACGCGGAAGGAGATAGAAGACATCTTCTTTTCATCCTTTCCCAAAGCCTTGTAAAATGATGCTGTAGGTAAGAGAACTCCTCCTAAAGCTCCTAAAACCATTGAAGGTACTCCAGCTACTAAAGCAGAAAATTGATACAAACCCAGGTAGTATGAGCCTAATAAATAAGCAGTAGTTACTCTGTCACCTTGTGAAGAGAGGAAAGTTGCTGAAGAAGATAGATAAAGAGGTAAACCTTCCTCGAAGTGCTTAAAGAGAAAAGCAAAGTCAAAAGATGACAAAATTAATCCTACTCTATGGTTCCTAAACTTAATATGAATAAATTTTCAATTAATACAATAAAGGGGATTCCGATACATAAAGGGAATGATCTTAACTTATATGGAAAAATTTAAAAAAGAGGGATTTATAATAACTTATGAGAGCATGAAAATAAGTAAATTCGTGCAAAGAAAACTAGAGGCGTTGTTAGCTTTAGATATTATTGAAGCTAGAGATATTGATCTAGATTTAGAACAAATCATATTAAGGTATGTAACTAATAGCGATGTTACCGCTTATAGAATTATTTATCGCTTATTGAACGAAAAACTCATCGAAACTGAAGATAAGGAACTTTATAGTGAAGTTATAAACAAAGTTAAAGAAGCACTGAATAGAGCTAAGGTCAAGAAAGGTCCTTATGTAGGCTTCACTATTGGTAACACGACGAAGTTAGTATTTAAGTCTTACAAAGAGCAAAGAGGTAAGAATTACATACGCTGGAAATTAACGGAAAAAGGTAAAAAGACACTTATTGATGGACTTAGGAAACTTGGTTTTAGTAAAGATGAGATAAAGTCACTTTTAAATAGTAACCCTCTAGCGGCAGTAAGGGACATTAGATTACGTATAGTACAGTATTTAGACGAAACATCTGAAATCGAAAGTCTTCAGCGTTATTCGCATCTATTAGGAGATACTACTAAATTAACCACCGATGTTTCTGCTGGAAAGATATTTGTAAAAACGGCCTTAAAAGTGTTAAGACCCGATGAAACATACGAACCTAAGGCTGGTTTCGCTATTTCTTTTGCAAGAGATGAAGATCTTCTAGCTAACGAACTTATTAAGATAAATCTTTGGAAGGACTTGAATGTCAATTATCTCAATCCTTTGATAACGAATTTCAGAGACTATTTAGTGAAATTTAGTATCGCAATGCTAAATCCAGTGAGCTATAACGAAATAACTGAACATTTGAAGAGAATTGTTAATTGGCCATCTTTAGCTGAAAGGGGAAATGCGCAAAAAGTAGATGCATATTTAGATAGTGCAATAAAGAGCGGATATATTATAAGAAAAGGTAACTTGCTTGAATTTGTTGATCCGTTTATAGCGAATGCTCATAGCCCACGTAGCATTTTAGAGTATTTGAATGAAGCATATTTCGCAGGAACCATTTTATACAGTGGAATGTTGAGCATTCCTATTAATGAAAAACAACTTAAAATAAGAGGTTTTGAAATAAATTTCTATAGATCTATTTACACGATTACCGCAACACTACTATGGCAAACAACATATTCCTATCCGTTACCCATAATAGCTGAGAAACGTGATAATGGTTTAGAAATTAAAACCGATGAATGGTATAAGGAACTTGAAAATATTCCAGGCGACTTAGTTAATAAGTCAGCATTTGTTAAAACGATATTAGATATGGATAAGTCCATAGCTAAAAGGGTAATTAGCTCCTATGTAACTGAGTTTATTAAAAAACTAGAAAATGGACATTTACTAAGGTTGATAGGATCTAAGCCTCCTTACTATTTAGTACCATATGGGATCTATACTAAACTTACAAATGTATTTAGAGACGAAACCAGTAATACCGTAGTAGAAACAGTTAAAGCAATAGCTAAGGTTATTGCTCAATACAGTAGAAAAACTGGTAATCCCTATATGATAACTAAAGAGGAGCTCATAAAGGTATTTAAGGAATACTCAATATATGAACCTTTAATTCAGAAATTACAGCAAGAAGGAATACTACTTAATGTGGGCGGAAGTTATATAATAACACCATATAGCTTACCTGGAATTTATTTGGATTTACTAAAAGGACCCTCAAATATAATTCATGCGCAAAAATTCTCTATTCCATTATTAGAGTTATTATACAAAGTACCTAACGAGGATAGACAAGTTTTCCAACAATTCTTAGAGGAGCTAATTAAACATGAAAAAATAGGCGTGAGTGACTTTTCGAAAGATATTGTATCTAAGTCCTCGAATCCTATAAAATTAATAGAAGCGTATAAATTTATACAAGGTTGGGGCTTAATAGAAGATAAAAATAATGAAATATATGTCTCACCTAATTTTGATAATGGGAATTTTGGTGCTAAAACAATCTTAGTAATTCTTAAAGAACTATTAGGTTGGAAAGAAGAATTAGAAGGATTAAGCAATAACGAAATAAAGCTTATAAAAGATTTCTCTAGTGCAGAAACAAATAATGAAATAGAGCAAATTATTCATGATTATCAGAAGAAAAGTCAGTATACAGAAGAAGTATACGATAAAAAGAACTATGACTCGAAAGAGTAATTCCTTAATGGGGGTGAGATTAATTGAAGATAGATAATATTCATAAAACAAATTCTTCTTCAGAAGGTAATACATCTAACTCGGAAGAGTCCCAACAAGTAACCCAACAGACAACTACGACTCCCACTAATAAGTATATAGGTAAGGTTATAATATCTGATCGTGCTAAGCATAACAAATTTTACGTTTGTGTAACAAAAGATGAAAACATAGAAGTTGGATCTACAATACTAGTTGCAGAAGATGTGCTTTGTGGAATTCTTCAGTTTTTCTCAATAGGAACGTATAGCTAACTTTTAACTCAACGCAAGATTTAGAATTTATTTTTACCTCTCTAGTTTAAGACCTAAGAAAATTCAACTAATCCACAAAGCACAGAAGATGATAAAAATAAAATAGTGGGACTGGTAGTGGACTCGTATTCTAGGCCCAGCTGCTTTCCTGCTTTTAATATGTAAAAAGCCTTCCTTTTCTCCTTATAAAAAATTTCTAAAAATGAAACAAAATATTAGATATTTAACGGGTATTATGAGAGGCTTATTGCTAGGGGGAAGAGCGCTACTAAGGCTACTTGTGCTCTTGCTGGCAAGCTTTCCGGCATTTGTTATCACGTTAGCATTTTATGGAAAATTCTAGAGTTAAATAATTTTCAAAATTATGTGGAGATAAATTTTGAAGTTCCATTATATACACATTAGATTTTTATGATATATCATAAAAAATTAAATATAAATATTAATGGAGTCCTTTATAAGAATATTATAATGCAAGGATTTTCCAATAAATGCTATCACGTTATAAAGGATGGTGTTTACAAGGTTAGGAAGAGTTTTAGAGTACCTAGGGGTAAGGAAGTTAACGTCAAGGACTTCGATGTGGGAGACACGCTAGACTCTTTATCCCCGTAGGTTTGTTAGAGGCGTTAGCATATGGTGCCTATATAGGTAATATTAAGTATTAAGGTACTACACAATTCATGTATTGATAATTATATAAAGCTTGAATCGAATATCTTTTTATGATTAAAATTTACTTAGATTTAGAAACTTATAGGCCTAATGATGCATTTTTGGACGAGAAGATAATAGCATTAGGAATGTTAATAGACTTTGGGTCCAGCAATTCTATAGATCCTAAAGATGAAGTTAAAGAATATAATTGGGGTGACCCTATCCCGTCATCTGGAATTTGGAAATACATAGAAACCGACGAGAATACCACCGAGGAAGAGATTATCTCAAGGTTCTATCAATTACTTGAAAAACTTAATGATATTAAGATGATAATAGGTTTTAATATACTTAGGTTTGACATTCCATTGCTAGTACAGAGGGGTAAGGAATTAGGCGTAAAGGACGTTAAAGATGCTAACTTCTTATTTTATAATACCTTCACTGTAGACTATTTCCAAGTTTGCTTAGCATTGAACAACATGAGATTTAAAGGAAATAAACTAGAGGACTGCGCTTCTAAATTGGAACAGATATCCGGTCAACAGATACCGAAAAGAGTAGGTAAGGGTTCGGATATAGCACAACTTTATAAACAGAAAAAATACGATGAAATTAAGGATCATTTATACTCAGATCTGTTAGTCATAAGGGCAATAGACTTAATATTTGTTGATAAATGCCGGAAAGCTTGCCAGCAAGAGCACAAGTAGCCTTAGTAGCGCTCTTCCCCCTAGCAATAAGCCTCTCATAATACCCGTTAAAAGGCTCAAGACTCCTATCAACCTAATTTTTGTAAAGGAAAATGTAAGGTATTGCTAACTTAACGTAATTTGAGAAGAGGAGGACTAAGAAAAATTGTAAGGCGAGGAAAGAGAATGAGAGGAATTTCCCTATGACCTCCTTATTAATCTTATAACAGAGTGTATAAACTGTAAAATATCAAAGGAGTTTTGTCTACTCTTATTTGTCGTATAATGTTCTCTTTTGATTTTAATATTTAACAAAGCTCACTATATAGCAGCTGTTGGCTAGTAGAAACTTAATTATCAAACTCTTTCACTATCTCGCGATTAAATAAAGAATCCTAGTTATCCTCTTTAAACTATAGGGAGTAAAGCCTTCAATTACCTTAACTTCTTCATTACTTATTATTCCTAACAATTTGAAACTCAAAAGAACTACTATTAATACTACTTCCCAATTTATGAAAGCTAAAAAAGATAAACCTATTAACGCAAGGCCTGCAATTTCCCTCCTTTCCAGTTTGAATACACCTTGGAAATGAGAAAAGAGTAAGTAGAGAAGTGAAGTAATAATCGCGTTAAAAGCTTGAGCAATCGCCGCTCCGTAGATACCTATCCTAGGAATAAGATAATAAGACACTCCTACAACCTCTGCTGCGCTAATTATGCCTATAATTATGAAAGGTCTATAATCCTTTTTTACGGTAATCATAAAAGTGGATAAGAGCTGTAACGGCATCGTTGAAGTTAAGGACAGAATTAACAACTGCATTGAAGGAATTCCTAAAACGTACTGTGGGAAAAACTTCGAAATGAAAAGAGGGGAAATAGCGTAACCTAAAATAGCTAAAGGTAGAGAAATTAGAGTAACAATTCTAAAACTCACGGAAGAAATCTCTTTCATGTCCTTCCCTTTAGCGTAATAATACGTCGAGGAAGGGAGAAGAGAAGAAGAGAAAGATGAGATAAGCATTGATGGAACAACCGCAGCTAAGGCTACTAACTGGTATATACCCAAGTAATAGGAGCCTAAAAGGAAAGCAGTAACTACCCTGTCCCCTTGACCAGAAATGAAATAAACGATACCGGTTAAGTATATAGGAAAACCTACCTTTGCAATTTCCTTAAACGTAGTCTTGTCAAGAGAGAACTTGAATGGGAGGTAAATTTGATAGTACACAACTTTCATTACAGCCCCCAGAGTCCAAATCAATATTAGGAGCTCTACACTATGGTAGAAAATTGCTATGATTGAAAAACCCCACCTGGAAATAGTGAAAACTGCATTACCTACATTAACTTCAGTAAACTTACCTAAACCTGTTAACAATTGGCCTTGATAGTTTGTGAAAAGATAGATCACGAAATAGGGGATAGACATCCATAAATATGACGGAAAGAACAAGAGGAAAAGGAGGAGGGGAGATACTAGGAGAGAATAAGAAAGGGATGTGTAGACGAGCTTATCATAACCTTGAGAGGAAGCGTAAGAATGTGAAACTTCTCTGGTAACCAGTGAAAATGGAAGGATAGAGAAAAATGCTCCAGTAATGGTCTCCATAAGTTGAATTATTGCCACTTTTCCTACAAAGGATGGAGTAGCTAAGTGTCCCGCTACAAGGAAGAATGCTAATGCAAGAACTGAGTTAAATAACGTTGTGGAAAGGAATTTGAGTGCCCCACTTAATGGATTCACATAGTGTAAATACTGTGGAAATTTTTAAAGGTTTAGGTATAAAAAGTAGTTAAGCTTTGTGTTTAAAGATAGATTTTATATGGCTATTTACTCAATTAAAAACTATATTGAGGTGTTAAATAAAATAATTTTTATCATTTATAATTATATACATTTTACTATTAGTACCAAAAATTAGCTAAATTGAATAATAAGTTTATCATTTTTGTATGCCTTTAAAATCCCTATAGGTTTATCCTCATAGTCTACATTAAACCCTGATTTTCTCAAAATGTCTGGAAGATCCTTAGGGTAATCATGAAACTCTAAGATTATATTTTCTATCCTATTTAATATGTCTGCGGGAAGATCTCTTAACACGGTGTATTCGCATCCTTCGCAGTCCATCTTAAATAAGAATATAGTATCAATATTATATTTTTTAATTATAGATATAAGAGATATTGTAGGCACTTTAATCTTTTGCTCAAATTTCATTCCAGATCCAATAATGTAAGGAGAAGGGTTGGCAGTATTTACATTAGGTTTGTCTGAAGAAATAATAAATTCTGTATATCCCTCATAATTAGCTAATGCATAAGGTAATAAAAATACCTTATTTTCTAGATTATTAATTTTTATATTGTATTTTCCAAGTTCATAAGACTCGGGAAAAGGTTCTAGTGCAATAACTTTTTCTGCCCCGTTAATTGCGAAAAAAATAGAAGAGTCTGCATTAGAAGCACCTACATCTATAATAACTCCTCTAAATGATTTGCCGTAGATCTTCCGTTCATATATTTCGTCTAAATGTATAATATCCGCTCCTTTCGTAGTTCTGATATTTAAACATATTTCTTTACATAAAATAATGTTATTCTCATATGCTTCCTTAACTTTCCATCCTCTTTCTAAAAAGTTAAGAAGAACATATAGATCGTAAACACTCCTTAAAAATATCTTATGATTGTCTTTCAGCTCGACTTCTAGAGTATTAACTCTTTTATTGGTCACTGTAAGATACAAAATATCAAACCAATTGTTAACAAATCGTAATAATAATCGCGTAAACCTCATAGAATTGCCTAGTTTGCTAATTAATCCCATTGATCTTTTCATATAATTTTCTTTATTTAAGCCTTTTGTTAGTATTTTTACTTTTAGTGTTGGGCTTTATCTATGTGTCTACAGTATTCTCATTAATCTATTAAATAATGGGTATCACACGTTTCGCCTCTAACAGAGGTGGGAAATTGGAATCTATGAGTGTCAACTTTGTGCCTCTACATATTTCTTTGTGATCATAATACCCTGTTTTTCTTTGTATACTGTTAACTAAGTTTAGAACCTAGAGTAATTTGGTTAAAATCATCCACACGGGATTTTTAGCTCCTCTCTTATTAGATCGTTCTAGGGGCTTCATAGCGAGCTTACATTAGGGTTTTATCCCATTGAAAGCCTTGGGCTTATCTTGTTTCTTCCATTACTTGTTTATTTCTTTTACTTTATTCTCGTAATACTTAGTTTTGTTAGTTCTCTAGTTTTGCATTGATTCCTCGTTGGAGAAGGCTACTAAGGCTGTTAATAGAAGTTTGGAGATAATCGAGTATTCTCTAGTAATAGTCTTATGATGAGGAAGCAAATTCCAGGATTTGTAGCTTAATGACAATACTTTCCATGCGTCAAATAATTCATTCTTTAAAAACTTGGTTCAAATTTCCCTAAATCCTCTTTCATTAAATATATAAATATTTAATAAAAATTAAATAAAATTATAATATTATATTATTCTTATTAATTTTTATAATATTCTTTTCAATTTTATAGTTTAAATATATAATATTAATATAATTTCTAAGATATCTTTTATCATTATTTCCTAACGTTCTCCCATGCAAGTGTTCTATATTAAAATATATAGGTTTATATGAACTCGTATTTAATATATTTAAAAATACATCCATATCTTCTACTCCATTAATATAGGTCTCATCAAACAACATCCCATTATTTCTTAAAATGTAATATGGACTTATGATTAGAAATTCTCCGAAGAAAGCAATATTTTTTACGCATATTAATGGTCTACAAATTAGATCGAAAAAATTTCTATATTGATAAAAATAAAATTTTGAATTAAATTTTTTTAGAATAGCAAATTTTTGTTTATATTTTGATAAAAATAATAAATTTGATAAGAAAGTAAATTTACATAATTTGAATACATGTGACCCTCCAGCGCCTACAACTGAATTAACCTTCTTATTGTCAATATTTAGGAGCTTTAAATATAATTTTATTATATCATCTCTAATAATTATATCATTATTAGAAATAATTATCCATCTTGGATTGTATTTTAATGCTATCGCCATACCCTTATTAACACTTCTTGCATAATTAAAATATTTACCCTTACTCTCAACTAATATTGCGTGAAAATTTTTAATAGACTCCAGTAGATTTATTGTTAGTTTGTCTTTAATATCTGGCGTAGGAACTATAAATACTATTTCTGAGTCTCCTTCTTTTTCAACTATGTTTATTTCAGCTGAAGGTCTAGATCTAGACCATTTAATTAAATCGCCAGCGTCGTTAAAACAATAATAGAATTTTATTATATCAATAATATTATCACTGAAATAGAGTCTATCTGGATCTTCTTTGCAAGTCATTTGCATCAAAAAATCTAGTAATAAAACAATACTTAAAAACGTTGTTCTTCATTAGAATTAATATGAATGCTATAATTATTAACAAGTAAAAGTAAATTAGATACATATATTGTGAAACATTTTTCCCGTTATAACTGATTATGATAGTAGACGAGTTACTCATTATGATAAATGACTCATTCGAATAAGCTGGTATTACTTTATTATAACTACTTATATACTCATTTATTCCAGATTGATAATTTTCTCGTATCAGAACAGGTATAAGTGAATTATAATCATCTTTAGCTATTTTTATAATGATCACGCTGGGATTTTCATTCTCTACTTCTAGTCTGGGAACGTTATTTAGCTTTATAACTGTAATATCGCTAGAACTATATAATATTGTATAATTCTGTAAGGACTCAGTGATTTCTTTTTCATAGCTAGAGCTTACCAAAGCAGCTGAGGAGTAATTAACAAAACTTAAGTTTAAGGCAGAAAGTAATATATGAAATTCCGAAACATTAATCCATAAAGGTTTAGAAATATTTACAAAAATAATATATTTAGGGATAACTGCTATAGTTTCGGATGAGAAATTATATACCAATATTTGTGAATTATTATAAATAATTGAGGAGGAAGGAAGTGTGCTAGTTAGCTTTTTTATCTCCACTTTATTTATGTAATTAGTAGTGAAGTAGTATTTTGGAATAAAATTTTTGGTAATAACGATATAGTTTATTCCTAATAATCTTGCGGCATTTAAAAATGGTTGATAAGAAGATAAATTAAACGATGGATAAATAGTAATAAACCATTCTAATGAATAACAGTTATATGGGAAATATGACGCATATACATTCCCATTAAATAATGTTTGCCAAAATCCTGCTCCTACGTACGTATTATTAGAAGAAAAATTATATGCAACATAAACTCCACTTGTGGGAAAAACTAAGATTCGTGGATTCTTATATGGACCATCATTTATGATGTTTGAGACTTCCCATAAGTAATTGGGCGGATCCCATGCATAACTTGTATGGGTGGCGGAATTTGTTAACACTTGACCATTATAATAAGGATAAGTTTGTGCAAAAAGAATTAGCAATAATAAAACTACTGATATTATTCTGAGTAGCTTGTTTTTGATAGAGATTAGTCCGTTTCCCAATGCTATAGATAGAGAAACAAATATCAAATATGTAAAGGAAAGCCACGGAATATCTAAACTCCATAAATAGGGTATACTCGAATATAATTTAATATAAGATGGGAAGAGATAAGGGGCAGCTAACCAAGCTGACAGTAAAAGAAAAGTCATTAAACTAATATAATAGATCTTAGGTATATTTCTATCTTGACTGATAGCTGGTAATACTAGTAACGTTACAAATAAACCACTAATGAAAATATAGTAATAGGGAATTAGGGAAATAGTATTAGAAGGTAAATATGTTAAAGTTAGTACATTAAAAATTGAGCCATTAAATGACTGCATGTAGAATTTTAATGCGTTCACATAGTATGCTTCTCCTACGTGGGAAGAAAAATAACTCACTGCACCGTAATAAGAAGGAAGTAATGATATGATATTCAGTGAAACTAGAATTATCACACTAACTACTAAAAGAATCAGCTTTCTCTTTACCCTGAGATTTGATGAGAATAATAACCCTATAAAAAATATCCCAATAATCACATAAGTTGTAACTACTAAAGTTAATACAGATCCTATAAAAATTATAAGTAGTAATGAGGCTGCAAGTATTTCCAGAAATTTTACTATTAGGTTGTCATTATCCATTATTATTGAATCTATAAAATAAATTATCCATGGGAATATTGCATGAATGGGTATAAATGTACTAGGTAGTAGGAGAAGTTCATAATAGAGATTCAGTCCAGAATTTAGAAATATCTCCGCTCCTATTGTCGCAATAAATGAAAATATGCTAATATTAATATTATATCTTTGAATATTTTTATATATCAATAGAGATAGCGCAGAGTTACCTATGAATGTGGTTACTAAAAAACTTACCATTTCTCCATATTTATTAAAAAAAGGAAAATAAAAGAAACCATATATTATTAATATAATATTATTTCCAATCGATCCGCCATTAACATTAGTAAAGAAGGGCTGATAATTGTAAAAAAAGGACATGCTAAGCGGAAATGCGTTATCTCCTACACTGTAAAACACATATTTATGGAATAAAATAAGTTCAGTTATTAATGCGGAAAATGTACTTGACAGAAGAACGAAATAATACTTATTGTGAATCAGCCTATACATACTGTTGATGTTCATTTTTCTACCCTTAACTTTTTAAGTAGTTCTAATAAGTTTTGTTGTTAGATACGTTGTCTATCTCTGTATGCATAGTTACATATAATCCTGATACTGAAATAGTATTCAAGATTATTCATATCCTAAAAAACGCTCGTCTCCCCATAATTCTAATTGATAATAACTCCTCTGATAAAAACTTTTTAAGCTTATTACAAAGCGTGAACACTATAATACCTTTAGAAAACAATGTTGGTTTAGGTAAAGCATATAATATCTGCTGTAAAGTTTCTAAAGAATTAGGGGCAGAATGGGTATTGTTTCTTGATCAAGATTCATTACCCTTAGAACCTTTTAGTGTTAATGAGGTTATAGAAAAGTTAAAAAATGATGCTCAACTTTATTATAATACAGCAATAGTTTCAATTAATAGCGATACTGCGACTAAAACCATTAGTATCAATGAGGATTTCTATTTAGCTAAGTATATAGTAGGAAGTGGTATGATTGTTAAAAATAGTGTTTGTGAGAAATATAAGTTTCTTGAAAATTTATTTCTATATAGTATAGACATAGAATATGCCACTAGATTACGACGAGCTGGATATTACATACTTGCCTACAAAAAACAAATGCTTAAGTACAGGATTGGAGAGACCTATAAAAAATATAGGAGAAGAATTCCTAGATATCTTAGTTATTTGTTGTCTAAGCTAACTGGAAAAGACTTGATAAATTATCCCTTTTATTCTAATCCAATGAGATATTATATAATTCTGAGGAATAATATATATCTACTAACTCGCCGCAAGGTCGAGATAACTTATTCCAAGTACTTACCCTTCTTTGTATTATATTTGTACGAGAGTTTAGGGTTAAAAGAGACGTTAAAATATGTTTTAAGAGCAATAAAGTATGGAATTTTTGGCGACTTAGATAACGACAACAAAAGAATATTTAATTTGAAGTAGAGGTAATTGGCATGGCAGTAGAGGTAGTATTCTTTAATATTCCTCATTTAAGTGTGGGAAGAGGAGGAGAGGTATGGGAATCTCAAGTTATTGAATACTTAAATAGAAGTAGTGAATTTAAGGCAAAACTTATAACCACAAATTGTTGTCACATAAAAGACGTAGTAACAAGTTTCGAATATAAAGTTATACCCTTAAAAAAATATTTTGGTTTACATTTATTTAACTATATCGATATAAAAAATGATCTTGAAGAAGCTGAGATAGTTTACTATTTTAATTCATTTATTGGTAGTCAATTGCCTATTCTTAAGAATATCAAGAATATTAACAAAATCATATTTGGTTATCATGCGAAAAACGATTGGAACTATATTCAACGCGTTTATTATAGACTTCTAAGCTATAAAATAAGAAATATTGGTTATCACCACGTACTTACAAGATTTTATTACGAAATACTCATAAAGAGAGGATTCAATAACGTGTTCATAATACCTAATTTCGTAGATTTAAGTGAGTTCAAAAGAGTTGAAAAAGACAAAAATTTAATTGTAGCGCTTGGTGCAGTAACCAGGGAAAAAGGTATAAACACATTATTAAATATTGCCAAAGTAAAAAAGGATTTAACGATATATATTACTGGAAATAAACCATCTATGAAGTTACCTAAAAATTTGAAATATCTAGGCAAGTTAAATAGAGAAGAATATACTAAACTCTTGGCAAAATCTTCAATTTGCATCTTACCTACGTACGGGGAAACGTTTTCGATAACATTTCTGGAATGTCTTGCGTCAGGTAATTTGGTACTAGCAAGAGATTTACCAGTTCTAAGAGAGATTTCTGGAGGTATAGAAAGCGTTGATTTTGCCTCTAGTGATAATGAATTTATTATAAAACTTGAGAATCTTATGAACATATTAGATAATATGTATAAGTTCGACATTCTTTCAAATAAATCTATAGAGAGAGCTAAATTATTTGATAAAAATATAATTTTAGAAAAGTTTAAAAATAAATTGCTCGAAATCGCTAAGGAATAACATAATGTCGTCACTGGACTAGAAATTATGTTACTAAAGTTAATTCGAATAAAAACTGTAAACTAACTAACATTTTTAGTATAATTAATCGCTTATAGCTTAATGTTGATACTGTGAAGAATAATAACTATAGAGCAGATTTTGTAATCGCTTTAAAAATAGGCTAAAGTGTGTAATTTTTATCGAATTCATAAGCAGTCTAACTCAGTCTGCTTGCAGAGAATCTTATCAACTCAACTAGGTATTAACGCAATAGTTAATATGGAAGAGAATATAAAGTTTAAAGTACTCTAGCTAGTAGTTAAAATGGATGTTAATAAAATTTCCGTAATAATTACAGCACATAATAGGAAAAAATATATTCTAGAAGCTTTAAGCTCAGTTATAAATAATAATTTATCGAAAGATAAATTAGAAATAATAATAGTAAAAAATTATAAAGATAGCGTTATAGATTCTGAAATTGAGAGGCTTTCTAAACAATACAATATAATTTCAATAATAGAGAATGATTTTAGATTAGGGGCGAAAATATCTAAAGGAGTTAAAAGCAGTTCGGGTGACGTTATAACTTTTCTTGAGGATGACGACATATATTTGCCCGCTAGGCTTTCTAATATTTTTCAGATATTTGAAAAAGATAGCAATATAATTTTTTATCATAATATGTTTGAAATTGTTGGTGATAAAAAAATAAATGAGATTGTTTCTGACTATAGGCATAATATAATATTAGCTTGTAATGATAAGCGAAAGATATGGAAGCAAATAGCTAAGACAGAAGCTAAGTTTAATCTTTCATCAATGGCGATAAGAGCTAGTGTATTAAGATCATGGATGGATTTAATTTCTAGAATTAATCTTGCAGTAGATAATACGTTATTTTACATTTCATTAACCGAAAAGGGATACCTAGTGATAGATCCTAGAATATTTACTAAGTTTAGAGTATCTGACAAAAAAGATTGTACTAAAAACGAGAAAGAGCTCTATCCTTTTGTGCAATCTATGACCAAGAAATTCTACTAAGACTTCATTTTATTACATTCTGTATTCAGAGATAGCTATTTCGATTACAGCCTAAGAGAAGGTTTATTATTTTGGTATTTAAAACATAGAATTCTCTGTGAAAAGAATAGTACAAACTATGATATACATATTACAAAATTTTTAGATTTAATCCTTAGAAATAGGTTGCTTATAATATTATATTTTGTATCTTAATTACCTTATAGTATAAGAAAATATTTTATAAATAGATATTTTATTCGATGATATATACATTTAATTATTTGATAAGCACTTAAAGTTGAAATTTAAACATTATCAACTAACATTATTATTTATATATTAGCTTCAAATAAACCTTTGAAGGTAGAAAGTAATGTCGAGAGAATTATTTTATAAATTGTCTTATTTTTTTCTTATTTTGAGCAATAAATATGGATTTACAAATAATTTACATTTCTTGATTAAGAAGGGTAAGATAAGGTTTCCAAGCGGTCATAGTATTAGAGTAGATAGAGAGAACTTTAGGGATATACTATCTCTTTATCTTTTCTCAATTAAATACGGTGTGGATATAGGAAATGACTGGAAAATAGATGAAAATAATTATACACTAACTACACCAGATGGAATAAAATTTTCGCTTAAGGGATTTGATAATATAATATTTGCGGAAACATTTCTGTAGGATATCCATTTTATATGATACTCATTTTATAGATTATAATTTAGAAGGTAAAAACGTAATACATGCTGGAGCATATGTGGGCGAGACTGCATTATATTATGCTAAAAAAGGTGCTTACGTATACGCTTTTGAACCTCAGCTAGACTGTTATAATATGGCTATGCAAAATCTTAGATTAAACCATGAATTATCTAGTCGAATAGTATTAAAAAATTGGGCTATAGGAGAAGATGGTGAAATAGAATTTCCACAAACAAAATGTAATGGAGGTATATCTGCTTATGATAATTACAAGGAGAAGGTAAAGGTAAGAAGTGTAAGCATTTCTACGATTTTAGATGAGTTTAACATTGCCAATCCAGATATATTAGATTTAGATATAAAAGGGGCAGAATTCCAAGTTATTAACGATAAAGCTATACAAAAATTTCAGACTGTTAGAATAGAATATCTTACAGTAATCAACGGTAAGAGGATTGGGGATTTAAATTATTTGATTGAGAAACTTGAGGCTTATGGATTTACCAAAATTAGAATTTATAAGCATAATGAGTTGCCGTTAAATATTTCAGTTAATGGTACAATTCTTGCATCAAAATAAAATTAATTATTGTTTATATTTATTGAGAAAACCCTAAATCACTAAATTTCGTATATTAGAATTATATTTAATAATATAAAGTAAATTCTATTATTCTATTAATTGAAAGTCGATAATCTAAAAGATATATTGTCTACATACTTATCTCCAATGAATACCTAAAATTCTAAGATATCAGGTAGATTAAGGAGTTATTATAAAAACATAATTTAACAGGAATGATAAACAGAAATGCTTTTAGATTATTTTTTTTAATGATAAGTAATGGACGAATCATTTAGGGATTTTTACTCAAGGGAGCGTAGAGTTTATGAGGGTACATTAGAAGAAGAACTAGGAATACGTAAATTCGAAATAGAAAATAAGAGGATGCTATATTATATAATGAGAGAATTAAAATTGTTGTTTCCAAGCGGTATTAATAATGTCCTAGACGTAGGAGGGGGAATTGGAGCGACCTTGTATTCTATAAGCCAATATGTGAAGATAAGTAACGCTTATAGTGTGGATTTATATATACCCCCTGAGTATATACAAAAAGTTTTACATAATATAAAATTTGTAAATGCTACTGTATATGATTTAAGCAAAATATTCAATGAGAATTTTTTTGATGTTGTATTACTAATAGACGTAATAGAACATTTATTTGATACGGATAAAGCAATAGCCGAAATAAGGAAGGTTTTAAGGAAGGATGGCTTCTTAGTAATATCTACTCCTAATCTTTCCTCGTTAGCAAATAGACTATTATTACTTTTTGGGTATCAACCTCTTGGTACAGAAGTATCTACCAATAAACACTATGGGAGACCAAAGAAATACAATTTAAGAGAAGGTGTTGCTGGTCATATAAGGGTGTTTAGTTATAAAGCGTTACTTGAGTTCTTGAAAGATAATGGATTTGAAGTCATAAAAGCATATACTGTAATAAATAATTGGCCTAAAGAGTATAGCCTTTTAAACCACATAGAAAAATTCCTTATAACCATTGATAAATCATTAGGATCAAGAATATTGGTTATAGGAAAGAAAGTATAAACAAGTTTGAAAATCAGTAACATGTTTGGCAGTAAGTAATAATTTAAGGAAAATTGACGGACCGAAATAAGCCTTATATTATTAGAAGCTAAAATAGGCTTAGATATACCTATTTTTCTCGACGTTAAAGAGCCCATCAACCATACCCTGCACTACTGCCTTAACTCCTCTTATTCCTCTTCCTGCTTTGTTTGCGACGTATATCCAATACGTTAAATAGATTGGAAGAGACATGAAGAAAGTCGCCTTTTTGGGTAAAGGATCAAGATCTCTGTGAAAAACTATTTTTGATTTAATTGCATAATACAATCTCATCTCATTATACCTTCTAACCCCCTCCTTTATATCCACGTCATGATAAACCCTTGCAGATCCTAAAGTCGCGTTCTTGTATCCTAGTTTCTTTATCTTATATTGTAAATACCCATCCTCCCCATTCCAAGGTATTCTCCTCCACGGAATTAAACCGGCTTTCTTTATTGCTTCCTTTCTAAACATGTAACTGTTAGCAAATATATCTACTTCTATCACTTTCCCCTCTAAGCTCTTGCAAGGGAAGCCAGAATATAAGGAAATTGTCCTTCTCATAAACTTAGAGAAGACTGCGCCAGCATACATAACCTTATCTGGAGACGAGTAATAGCAAGTGACTGGGGCTATCGTTCCAACTTCCTCATGCTTTTCAATATAATTTAAAAACTTTTCAATTGTATCTCTTTCTACTACATTATCATCGTCTATAAAGAATATGTAATCCCCTTCAGAAGCTTCTATAGCGTCATTTCTGGACTTAGCTACTAACGTAGGTTTCTCATGTCTAATGTATTTTACGTAATGGAATTCATTTTTTATCATTTCCTCAGTACCGTCAGTAGAAGCGTCGTCCACAACTATAACTTCAAAATCCTTAAAGGTAGATTCTTTAAGTGAGTTTAATAGCCTTCTGAGTTTTTCCTTCCTATTGTACGTAGGAATTGCAACACTTACTTTTACCATCAACTTTACATGGAATTCTAGTTTAATATAGTTTATCACGTATGTTAAAGATATTATTTTATCACATATATAAATCCTAAGTTCTTTAACGTATGTTCAACCTTAACTTTATACCATTTCTGTGTAAGTTATTAACCAAATCTGTATATTCTTTATCCCATTCTATAAATGCCTCTGGAATTTCCTTTTATTATAAGGAGCTATAACTCTTTCATGGCCGTCACAATTAATTTTTGCCGTATCAAAGGAACCGTAAGTTTTAGTTAAACTTTCCCAACTAATTGTATTTTCGTCATCCTTTGCTCCAACACCTTTATCTACAATAATTACATTATTAACGCCGTTTATCTTTAAATCCTCGCATAATTTCAACTTTCCTTTTATTTATTTCTACTGCTACAATTTCTTTAGCTCCTGCCAGTGAGAAGTAAATTAGGGAATCACCAATACCAGCTCTTATATCTAACACTTTTTTCTTAACATTTATCCTCCAATAATCTGGGAAAGAATCTCCTGGGTAACTTAATTTCTAACCCCTCAAATAAATTTCCCTTCCTTTAAATTGAAATTTCACACTATCTTCATTGAGCTCAGTGATCCTTAGTCCGGCTAACAAAACTACTTCATTAGGTTTTAAATATAAGACTTGTCCATTTCTTAATTTACATTTTATTTTCTCTCTATGAAAATAAATGTCGAGCATTACTGAATATCAGTTTGCGAAAGTTATACTATACTGTCTTATTAATTCAAGTAGTCGTTTAGGCGGGATATACTCCATATTCTCTAATATAAGTTTTTAATTATTAAACTTCTGGTAAAAGACACAATATAGGAGTTTTACGAGTAGCATTTTAGGGAAAATTCTAGAGTTAAATAATTTTCAAAATTATGTGGAGATAAATTTTGAAGTTCCATTATATACATATTAGATTTTTATGGTATATCATAAAATTAAATATAAATATTAATGGAGCCCTTTATAAGAATATTATAATAAGGATTTTCCAATAAATGCTATACGAGTAGCATTATATTAGGTTAAAGTAGCTTAACATATACTAAAAAGTTTTAAGACTAAAACAGCGGTTATTAGATTTTGCCTTGACTTCAAGGCTACACTTAACGAGAAATCTCATAACTGCTGACTAAAAGAAGAAGTTTAGGATCGTAAAACAAGGAGACAATCTTAGATATACGTTGCAGTGATTATCCAATTACATTAGCAAGCCCTACATAGCTAACAAAAATGGATATGTCTTTTCTAGACGGGAATTGAAAAAGAGTTTAAAGTTTAGTTTGTCGTCTGATTTTATTTTTATCTTATAGCTTTAAATCTCACTTTTCCTATTTCATACTGTGAGTTTATTCCGTTACGGAGGTTTAAGGATAGAGATACCTATAGGATACGAGTACGTTTATTACTCAACGTTCATAGTAGGTGAGTACGATTTCTTAAGGTTCAAGAAAGAAGACACTGTACTAGATGCCGGAGCTTTTATAGGCGATTTTACAGTGAAAATTGCTAGGAAAGTTAAGGAAGTAGTAGCTGTAGAGCCGTTACCTTGAGCTTTCGAAATTCTGAAGAGGAACGTTGAGGTTAACGAGTTAAAAAACGTTATCCTGGTCAATAAGGCACTTTACGATGAAGATGGGATAAAAATTAGGATATCCGATGAGAGGGTAGGGAGTAAGGTATCAAATGAGGGGGTAGAGGTTATTACGACTACCATAGAGTCACTAGGTAAGTTTTCTGTGGTTAAGATGGATATTGAAGGTACAGAAGGTAGGTTAATTAAAGGTAATTGGTTGAATTCTGTTAGGGAAACTGCCATGGAATTACACGGTAATGAAAACGTTATTAGTATACCGGCAACGTTAAGGGATAAAGGGTTTAATGTAAGGTTTATGAAATGGAGTGATGTAGTAAAAAATTCGGTAAAGAAATCTCTTTACACTTTCTGGACTTTCTTAAAGCAGAAATGAAAACATAGATTATGAGCAACGCAATTAAGGAGTTCTAATAATATTTTCAATATAACATTAAAAAGGCAAATTCTTATAGCCACAGCTTTATATAACCCATGAGAGGTAGTGAAGGACAATAATTTCAGATAAGTTCTTTAAAGAAGATTATCCGGAAGTAGTATTTATATTTTTAATATGTCAGTAAATTAATAAGCTTTAGAAAAGATATAAAGTTATAAGAGTTTTACAATAGATTGAACTGTAAAGTAAATTTAAAGATTATTTGTAAAGTGTCAGGACGTTAACTTAACAAAAATTATGTACTGTTAAATTCAGTTTTTAAGTAGGTTTTTCTATACTCATCTATCTTTCAAAATTTTGAAATTTATTATATAGTAAGGTTTAATTATTAAGGAAGTTATGCATATTGTTGAGAGTCTAGTTTATAGTAATACTATTTTTTAAGTCTCTCTACAGTAATACCTTATTATTAAGAAGAGAAGTCATATATATTATACAAACAAAGGATAACGTATGTCAGTAATAAATAATCTTTTGAATTACTTCGAAAAACATCGGGAAATAATACAAAAAATAAAAGTGGAAGAAATAACAGAAAATTTTCGGTATACTGACAATCAATCAAATAACTCAAAATTTTCCTTGGAAGGGCCTAGTTTAGTATTTGTCGGAAATCAAGCACCTGGGGAACCTAATGATCTTAGACAAGCGTTAATGACTTCATGGGCTTTCATGGAAACTTATAATCAAGATTTCAATATAGAAATCTTAATTACAATATGGGGACCTATGTGGAATGTAGGAAAAGATGCTGAAGAAACTTATAATTTTGAATTTAGTGTAGTTGGAGATAACCCTATGAAGATAATATATGATAACCAAGAATTAGGAGTCATTTCAAAGAAGTATTGTGGTTTTAAAGCTAAAATAACCGATATAAATGATATCAAGAGTCATTTTAAAGAAGTTTGTGAAAAGAAGGCTACATAAGTATTTTCAAATAATTTCTAAGATCTAAAATTCATGGGATAAAAATGACCAACGCTTACGTTTCTTGTGCTGACTTGCTTTTAGAGGAGGCTAAAAGAGATCTGGAAGCTTCAAGATTACTTTATGCTGGGAAATATATAGAACAATCCTTATTTTACTTACAGCAAGCTACTGAGAAAGCTCATAAAACTTTCAGATGTGCTATGCAATATTTATTTCAAAGCGTTCCTGAAAAGATAGGAGAGTGCATGGAAAGTAAGCTAACTCAATCATCTCCCTACTATCCCTTAGTATATACCGTAACTTATTACATTAAGCAGCTGAAGATTGACGATATTGAAAAGTTTTTAAAAGAAAAATATTCTCATGACACAATAAGTGGATTTTTTGAAGAATTTGAAGAGTTTGATAAGGAGTTTAAGTTTTTAAAAAAATATTAATATATACATTAAATACTATATCACAGAATTTAGGTACTTTAATAGACGATATGACCAATATTGTCATAAAAAATATAATATATGTTAAAATGAAAGAATTAAAAAATTACTTGGGTCAAAAACATGCTGAAGAAGAACATATAAAACGGATCATTGAGTATTATAATCTTAAAAATCCTATCGTATCTAATATATTATCTATATATTTATATGATTCTCTTAAGAATATTTTGCAAAACTCTTTAAATAATATAATGACAATTTTTGATGAGAAAACTAAAGAAGAATACGATAAATATTTACGTAGTATGGTTAATAGTGTTTCCTCTGCGATTATTTCTTATGAAATATTAGTATTATTAAATTTGGTGCTAAGTAATTATGCAGAAGCTTCAAGATACCCCGATCTTAAGAATTTTAAACCTATAAAAGATAGGATACCACAGTATATATTACAGAATTTAGAACAACTCATGAATTCTGCTATGCTTTCATTAGACTTTATAGAAAAATTAGTGGTATTTATAAAAAATATAGATAATAATTTTAGTTATATATGTGATAAAATTGAGAAAAATAGCATCGTTGAAGTAATAAACATAATAGATAAAACATTATCTATTTATGGAAAAGATCTTTCATCAATGTTAAAGGATATTAATAAATTAATTCATGAAAAGAAGAACAATAAATAATTAACATTAAATATATGTTATAATGTCTAGAGAGTCTTACAGAAGTACTAACTTTGAATAACGAGTCGAGCGTAAGTTTAGTTTATATTATATTTCTAGTTTGAGCTATTTAAATCTCAGATGTTCTTATGAGAATTTTAGGGCATATTAGCTAAGATTAGGCTTTTATTTTTTAATTACCGTTTTAATTTACATGGAGTCAATATTTTCCAATTTGAATATTTTAAATTTTCTAGAAGGTCTTTTTAACAAATTATAGCTGGAATTATACTTGGTGTTATATCGGGAATCATAGCCTCATTACTTTTCACTAAATTAACCAAGCCTAATTTGAAAATTGACATAGATGAGACTGAATTAGATATAAAGGATGGTCAAACTCTACACGTAAGGGTAAGAAATGATAAAAGGTGCCATATAATTGATACTAATACTGCTTACGAATGTTATGGGCGCATGTGGATATTTTGGAGAGATTCAAATAAAAACGAAATAAATTATTATTGCCGTGAAAAGGACAGAGTAGATGTATGTAAGCTAGAAGAAAAGAAATCCCCTTTAGGTCCTTATACCCTTAAATGGTCCAATCTACCTTCATCTAAATATAAGAGATTTGAGACTATTATAAACATTCCATGCGGTGTTAAGGAAAATTGCAAGCTTGGTAGACAGTTAGATTTATTTGGAGTAAAAGTAATAAATAATGAGCCTTATATTATAATTCAAGATACTCAACAGCAAGCTAGTAGGGATGATATTTGGAAAGATATTTCTAGTAAATATAAGCAGCAACTTCCACCTAATATATCTAATCTACCTCCTTACGAGGCAGTAGATATATGTCTCTTTAAGGTTAATGAATGTCAAGAAGATATTAAGAAAGAAATTCTCCAAGGAGGGAATATTTTAAGAATACTTTTCAATTTTCCTTCTCAAAGGATTTACTACATGGCAGTTAAAGTAATATGTGCAAACGCGAAATCAAAGATTGAAGTGTTTAAAATTGCTATAAATAATAATAAAATAAGAATTGAAAAATGCAATGATAGAAATATTTTAAAAAAGATCAAAATTGTTGTGAAGAGACACAATGAACCTCGTAATCCTTGCACAATCACTTCTAACTCTAAGAATAAATCTTAAGCCTAGAAAGTACAAGTTAGAAGACCTTACACTCGCAGTATATCTTCCAGGAGTGCAAATAACGAAATAGGAATGCCACAATCAACACTATACTACAAAAAACTGGGAAATTGTAAAAATCTATTTATCTCTGATTCCTTATTCTTCTCATGTGTTCTCAATTCAGATTCCTTCACTTCACGGTAAGTACTTAAGGGAAGTCTTTGAGTCTATTAGGCTCCAAACCTTTCAAGATTATGAAGTAGTTGTAGTTAACTCTGGAGGGGATGAGATAAGTGATTTGATTAGAGAATACGGTTTCAAAGAAGTGAGGAAAGATGTTAAACTTTTGGAAGCCCGTTATTTAGCAAATAAGGAAAGTAAAGGAGATTATGCCCTTTTACTTGATGAGACAAGGCCTTTGAGGAAGGATGCACTAGAACTACTCTCTAAAAACCTCCACGACATGGTTATAATTGGTGAGAGGGAGTTAGGGGAGTCGGTATGGGTTAGGGCAGCTCAGCTCGATAAGGATAACATAATGTACTGTAACTCACCGGAGGCAATTAAGGGATTTGCTTTACCCAGGGTCTTTAAAAGGGAGCTATTAACGCTAGCGTTGGAAACATTGAGGGTAAACTTGGGTGATGTATTTAGTCAAGTAGTGTTCCCAGACCATGAATTGATTTACTATGAGGCTTCGAAGCTTTCTAACGACGTAACGATTGTTAGGGACGAGTTAATTTACCATTACGGTGACGTTAAGCTGAGTGATATTATGAGGAAGTATTATCGTTATGGTAAGAGTTTAAAAGTGCTGAAGGGCACTCCTTATTCTTTCATGACTTCGGTTAGTAGAAAAAGGAGGAACATTTGTAAGGGTGGAATTTACGATAGGATTGTCTTATATACCCTTTACTCTGCGAGAGGGATTCCTTTCTTATTGGGAGAAATTCTATAAACAAAGGGAAGTGAAAAGAGTTAGAGACATCAGTTTAGTACTCTTTATAGTGGCAACAATACCTACATCCCTATTTTTCTGATAAAATTAAATAAAAATTCAGAGGATATTGCGGGTATTTATGTAAAGTTTGGAAGCCCGGTAAGTTTCTGTTAGCGTACTAAACATTTAAAAGTCTTATGAATGTAGATTTATAAACTCGCAAGGAACGGAAACGCTCATAAACTCAAGGCTTAATGGAATGACGACTTCAGAATCGAGGAGGGTGTAATTCATTATGATGGTGAAGTTGTATAAGAAGCGTGAAAGCTAGTGTTTACCCGCGGTTTAATTAAAAGTGATTAGTTACGCCACTGGTAAACACATACTACAAGAAGATAATATGCTTTTTATTAATTAATGTTTTTCTATATGATAGAATATAAAAATAACTTCTTCTTTAGTTTTACTAAAATCTTTTACTCTTTTCCTGCTCACTCAAAGCTACGATAAGGTGTATTGTACTAATTGTGATATGAAGAATTGCCAATATTACTAAAATATCTTTTTTTGTCATAAATAAAAAATCTGTTTTTTGATTTATAAATTTTTCTCAACAAAATTTTATATTATCTAGGCTGAGAATACTACATGGAGGCCAAGGTACTAGGTTAAGCCTAACTCATTTTTGACCTAAACAATTAACCTGGAACTAACCTTCTCTTCCAAAAGACTAAGGCTATCGAATACTTAATCATCTCTAAACTCCTGTTGACAGCCTTAGTAGCCCTCTTAACGAGCCTACAATGAGGAGTGTAGAGACTGTAACGCTTCTACGTAACTACTCGTTATTTTTAATCACTTCTAAATATCGTTTTGACAAGTTGTGTTTATATAGTATTACAAATGGTTTTTATTGATGATCTCCCTAACTGATGACGGGCACTGCTCACGAGGGTGGGAGTGATAAAAGTGTGGATGGGAGGGTATTGGCGTTTCCCTCGACCAGCCCCAAGGACTTAAGGGTGAATGCGTATGATCCCTTGAGAGGGGTGCCCGTGGTGGAATTAGAGGATAAGTTACGCCACGGGTAAACACAGTTTTTGCATAGTATCTAATAAATGACGAAATAAGAAATTGTGCTGAGAACAACGATAAATTATTTCCTAGTCATCGAAAATATTATAGCTCATGTCACACTCGATTTGCTCACATAGATCTTTCATGTCTTTATCAAGAATATAACAAATATCTGAACTAGAATTTTTATTTTGTAACCTCTCTAAGACTCTATTTAACATCTCGTCGTTCGAGTTAAACTCTGTTAAGAGTTGTAAAAAATTGTTAAGCAACCGCGTAGTGCATTCGTTTTTGCAGTTGCCTAAAAGCTTTAGATATATTGAAGCCCAAAACGCATACCCCTTAGAATATCCTAATCGCTGTTTGATGCTGCATGGAGTATTACTTTTACGTAACATACATGTAAATGCTTTATTGGCATATTCGTTTTCACTCTTCTTAGTATACAATATTAATGCGGAAATAAACTCAATGAGCCCTTCCTTTATCACTAAATTCACATGATCCCATTTCTCATTTTGTATGGAGTGAAGAAACTCGTGAAGAGCAATTTGTATACAAACATCGTCTGAAAAATATATAGTACCTCCAATATAACAAGCCTTTACGTTTTCAAGCTCTTCCTTAGCTATTTTGTAATTACTTATAAGATAAGCAGCCACACGTTCACGCTTACTTATTTCAAATTTAAGGTTTGATAACCTATTCAATAGGTTTTTATCACTGGTAACGTTTCTGAGAATAGCTTCTATTATTTTTCTAACTTCATTTATGCGTTGCCTATTAGATTTAGAGTTGAGATCAGCATGAAAATCACATTCCTTCAAAAAATTTCACCAAAGTACTAATCCTCTTTCTTGTATTCTCGATGCAGATGTTATGGTCTTTACAATTCGCAATATAATTGACATAAACCGCGTTTCTTAAACTCGCATAAGGTTCCACTACTAAATTCTCATTTAAATAACTGTCGCTTTTATATAACCTAATGGAAAAAGGTGACATATCGTCAAATAATTGCTTTATATCTACGTGCTTCTTAATAATTTCATAAATATTCCCGTCTATACTATAAACGCCCACATATGACGTCTCCGTGACCTCGTTACGCTTTTCAAATTTTTCAGATATGATATTCTCCACAATATCTACTACCTTATATACATCGTCATCATACTGGTTGAAATTCAAAATCACGGCCGGGTAAGAAGTTATTGTTATGTTAACATTTATATTATTATTAATTGCATTAATCTGCACTTCGTTATCCTCACTTATATCCTTTATAACTATTTCTTTATCTGAAGAATCTTTAATGATGAGCGATAAATAGTCGCGTAAAGCTGAAGAAAATACGCTTAACCCTTTTTGCCATGCTAATACAACGGCGAAACTTTGACTTAATATCTTCAACCCGGTTACCTCATCTATAAGCTGTTATTAATTCGGGCTTAAGAGTCTGTACTTCAGTACTTAACAGATAGCTTAATTTATTGGACGGAATTGTATAGAAGAATAGTTTTATATCGGAGGCATACTTGTGCTCCTCTATACTCCGATATTGTTCAATATTAGGTATTTTCTCTATGCCTATATCGTTGTAATTTTTCAAAATCTCTTCTTTAGTCTCATCTTTTGCAACCTCAAGTATATCCCTAATAACCCTACCATAAATTGCTCTAATATCGTAAAATATTTCGAGTAGGACTTCCTCAGGGTCTAGCACCTCAAACGCCTTTTCCAATATTTTCCTCTTAGCATCTTCACCTAGTGGTTTGTAAATAGTCCCAGTACTCATACCCATTTCCTTCATTACTTCCCTTAAGCTCTTACCCTCTTTTTCAGCAATACGGTGAACTAATTCCTTCATAAGCCCTCCGGAAAAGTATTGTGCATATACTAAGACGTATTCGTAAATACGTGCGTTATTTAACATATTGCGCCACTACTATATCTTCTTTTATGGAAGACATATATAAGCTTTGCTATCATCGGTGCTGAATTAGTTGAATTTTCTTAGATCTTAAGTTAGAGAGATAAAAATAAAATCTAAATCTTATGTTGGGTTAAAAGTTAGTTATACGTTCCTTTTAAGAAAAACTCAAGAACTCCACAAAGCACCTCCCACCATAACCCTTATAATCATCCACAACCAGTAACTTTATGGAAATACCTAGAAAATATCGTGTGAATAAAAATCTCAGCAACGACGCGTATTACCAAGCTTCAAATGATGCTGCACTTGCCCCACTAGAGGACATAAGAAAAGACAGTGCAATAAGACTACTACTAGGAGGAATAATAGGCAAGGGAACATACGAAATATCACAAGAGATAAACATGGACTACATGACACTACTCAAAAACTTAGACAAGATAGCAAACCTAATGAAAGCAGTAAAAAACATAGTAAAAGACCACCCAATCATACTCATAATAGACGACACACACGATCACAAACAATACGCAATACCAGTATCAAGAAACGCAACACAAGTATACTACCGCAAAGTACACAACGAGCCAGCAGATACTAATAATTGCAGTAAAGGACTTGAAAACAAACGAAACATACATACTCTCAATAATACCATACATACCACAAAAGGTAGTAGAAATATTAAAGGAAAGGGGAGAAAAAGTAGAATTCAAGACAAAAATACAAGCATACTTGAAAATACTACCAAAACTTGAGGAAGAGTTCAATGTCGTGGGCAAGGTCTTTAACTCCTGGTATGTTAACTCTAAAACGCTGTTAGAGGATACTGTGGGGGAACTCAAGGCCAACGCGCGTGTTGTCGAGGGTGGCAGACACGTGCCTGTTGGCGAGTTCCCCCAAGGGGAATACCTAGTGGAATATCTAGGGATGTTTTTAAAAAGTTTTCAAGCTTCCCTCAGACTACAAGGCCCTAGACCCCAAATTCATCACCACGAAAATAATTCAAGGGAGTTAAAAAGTGGATAAAATAATTTAACTAAATATTCTTGCAAAATAGTAATATTATCTTGCAAGAGCAAGATAGTTAGGAGTAAGCGGAAGTCTTCCTTGCTCGTTGTCCCCTTGAGGAGCAAGTATAGTGTATAGATTAACATTGCTAGTACGAAGATGAACAAGCGGAATAGCCAACTCCTTGATGAGGTAAAGATTAAGAAAGACTTAATCAACTTGTACGATGTTTCTATTGGCGTCCTAACCTTGTCATACCATTTCACAACAATACTCCTATTTACATCTAGATTTGTCCCCTTTGCCAAGTACTCCTTTTCCCTACCTTGATGCACTATTAGCCTAAATGTCGCTTTCTTACCATTTAACTTTACAGTATAATCTCCATCAAAATTCCTATGTATCCCTACCCACGGGTACTCCAATGATGAAGTTGACAAGTAGTTGATCACATCTACCGAATAGAAACCGGCATCTAGTGTTACTAATTCTATTTCTAGGCCCAATGCTAGTATTTGTTGTATTAGGCTTTCAACTATCTTTAGTCTAGTCATTCCTTTTTCTACGCGTGTGAATGCTAGTATTAGTGTTTTTCCCTTTACTCTTGTGGTTGCTGTTGCGTAATTCCACGCGTAGCCTTTTTCTGACCCTCCTAGTCCTTCTACGGGTTTTCCCTTGTATTCTATTGATGTCCAGTCTATTGATATTTTTACACGTTTTCTTCCACCTAGTTCCTTAACGGAAATTGTTTTGATCACGTTTAGCATTTGGTCTATTACTTGTGGTTGTTCTTCCACGTAGTTTCTAACTGTTTTTGGTAATATGCCAAGCTCTTTTGCCTTGTTTTCTACTGAATCTTTTGTTAGTGCTGCTGTTACAAGTGTTTTCTTGACTTCTTCTGCCCCTGCCTACCCAAAGGCCTACCACACTTAACAACATGATGAGAACCACAAGAGGGACAAGAAACGTCTTGCCTAAATACAGGCTTCCTACCCATAAGTAATACTCATAATACAAATATAAATAGCTTAATGCCGACACTATCAGATAATTTTCCAATTTTGCTCATGTTGGATAACGTCATAATCTTTCAAAACATTTTAAAACTCCTAGAAAAGATATAAAGTATGAATATAAGTGAGGTAGTTGTAGAGGGTTTTAGGGGACTTAAAATTGCTACTAGGCTTAAGAGGGTTAATATTGTCGTTGGGGAGAACGGTAGCGGTAAGACTTCTTTTCTTGAATCAATTTTTATGTCAACTCTTTTCCAATCAGATATAAATGATAATGATATACACACTTCTCTCATTTATATGCTAAACAGTAGGGGAGATATTCTTTCAGCATTTTCCACTCTGTCTGACTCTAAAGTTGGACTTGATGATGTAACAACGCAATTTAAGAAGATTGACCCTAACAGTATTGATGTTAAAATAAATAATGAAAAAGTAGCTGAAATTAGAATAAAATCTGGAATCTTAACAACTAAGAATTTATCTGGACCGTTCTTTTTGCCAACTGTAAGGAATATAAAAAGGGTCAATACTAAATATTCTCCTCTTTACATTTCTACATTCTTTGATTCCTCAGGTAATCCGGAAAGAATTTATAGTATTGCGAAAAGAAAAAATAAAAAAATAGAATCCAATTTTGAAATATTACAGGATGAATATGGTCAGTTTAAGCTATATTATGATAGATTACCCGCCTATGTTATGGGCAGAGGGCTCTTAAAGAGGGAATTAATAGAACTAGCCCTAATGTCATCTGACATCCTCTTAATCGATGAAATTGAAAATTCCCTTCATCCCGATCTTGTAATGGAAGTATTGAATGATATAAAGCGGGAAGAGGGAGTTCAAGTAATTTTCACTACTCACGTAAATGAAGTTGTAAAAATGGCGGGAAAAGTACTTAACGATTCTGAGGCTCAAGTAATTTATCTATCAAAAGCAGGTTATAAAACGTACAAGCTTTCAGAAATTTCTGAATTTGAGAAACCCCTTAGTTGGTTAGGATACGTGTGAAACCTATGGCTATAAGTTGTGATAGAATATTTGTAGAAGGTGCTACTGAAAAGATCATTCTTAGTAAGCTAGGTTTTAATGAAGGCAATGTAGAAGTAGTAAAATTTGGAAAGGAAGAGGTGATTAAGGAATTTAAAAAGTACTTGTCTTCCTCTATGTCTATCTTGAAAAAGGGAAATGTATGTTTTGTAATAGATGGAGACGAGGAAGGATATAAAGGTGTTTATGATAGACTCAAGAAGGATATAGAAGTACTAGATTATTCTCCACCGTATATAAAAATGTGTAAGGATAACTTATGTTATGTTTTAGTAGTCATAGGCGATAAAAATAATGATTTTAAAGGTTGTATTGAAACAATATTGTTGGAAAAACTAAGGATAGACGAGAAAATTAATGATGTAATACTCAGAGTATTAGAATATGAACAACAGAAAGTAGGTCATCTTTCAATGTGTGATAGAGGCAAAATACGTTTTTATTTATCGATATTTTTACTTTCTGGAGAACCTACATTGCTTTATCTATCTAAAAGGTTTACAGAAGAATTATTTAGAATAGTTGAAGAGGATGTCATAAGAAATATTATCGCCGATTTCATAGAAATCAAATAGAATTACCAAAAAGCTTTTATCGCTTACGTGAAAAAAGAGAGGTTCACATACCGGGGTTTGGACTTCATTGAATTTTCATGAAATTATATCTAATCCTCAGCCCTTGGGCTTCACCAGAGTCACTTCCGTTACCCCTCCGCCCCTTTAGCGGGATAACCCCAACCCACACCCGTGAATGTGGGGAAACCCGCAAATCTTTTAGCCACACCTTTCGGGAAAACCATGTCTGGTGTGACTTTACTCATATTAACCATTAAAGTAATATAAACTTCACGGTTTATCGAAAACTGTTGACTACGGCGAGGCTTTACACCCCTTAACCCTCAAATTTGTAATATAATTAATACCCAATGATGGAGGAACTTTACCTTGAATTTTTACACTTTGAAATTCACAAAAATTGCGAGAATTAAAAGGTAAGAGTTATTAATATTATATAAACCATACTAGTATAGATAACCTTATTAATTTTTATATAGATTTTTGTGACTAAAGAGATAAAAGAGTTATTATTTTCAAATAAAGTAGTTATTGACAGTTATCTTGCCCTACATATATTATTAAACGTTTACGCGCTTCGCGTAATCCTTTAGCCTATCCCAATCCTTATCGTTAGATAGAACATTAACTCCTTGCCTTTTAGCAATTACAGCAAGGATCGCATCAACTGCATCAACGTCTTTATCTTTCATTACTTCAAATGCCTCAACAAAATCCTTTATGTTCGGATATTCCAATTGAACGTTTTGCTGATATAATATCTTCAAAAATTCTCGACCAAACGCAAAATATTTATTTGCAACTTCCCGTTTATTTTTCTTCAGAAATTCAAGTGCATTTTTCCTTATTACCTCCATAACTTCTGCAAGAACAAGATCCGAATATATTGGATCATAGCTCCCAAGTAAGTTAAATAGCTTATTTCTCTTTTCTATAATTATATTAGTATCAACGAGTACTTTCAATTTCACCACTACTTAGAAAGCCAATACAGTTGTTGTGAGAGGTGCTCCTTGTATTTATCCATTGTGAACTCTCCGCATACTGGAATAATTTCTTCACCTAAGCCGTTAATCAGAGTCAATGAAAGAACAACGTACTCTACTCTCTTTACCAATCTACAGTCGCTTAAATAAAGGATCTTTGTCTCTCGGTCTACAGGAGTCAGGTTATGCTTTATTTCTATTTTATATTCCCAACCAAGGTCTTTCATCACTTCTTCCAGGTCTAATGACTTAATGTCAGGTAAAACTATCTCCTCTAAGTCGGAGTCCCTCACGTATTTCAACCAGTCGTCGAATGTGGTAAAATATATTGGATTCCCTTCATTATCATAATCTATACGCAACACTCTGAAAGGTGGAGCATATACACTACTAATAGGATATGAAGATTGTAAATATGTAGTAGCCGTTAATAATATATTATTTAGTATTTCAGTTGTAGATCTTAAAGACTCTATCTCGCGCAACTTTTCTCTAGTCAAGCTTAAGCTAATTTTTCATCACCTCTTACTATCTTCTCTATCTCATGTATTAGACTTTTAATTACATCTACGCTTACTTGCCTATTCCTATAAATTATTTCGACTAAGGATTTCCTCGAGTCGAGAACATAAGGCAAAACATTTATTGACGATAAGTATTCTGACTCTCTTAAGTCGCCTTCGTTACTATAGTCCAATAACACGTAGCCTGCCTTTTTATATTTAGATAATCCGCGTAATTCTACGTCCAAGACGTAAATTAACATAACCTCAATTAAATAGTCTATATTTAACAATTTTCCTAGCTCAGATAACTTCAAAATAGCGTCCTCAACTTTCTCATCAGTAGTTTTACCTAATGCTGCCTGCAAAATAATTTTCTTCTTTTCTGTAAAGGAAACCTCATATATCAGTAATTGCAAGTCATCATAAGTTATGGTAGTAAGAAGGGAAGAAGGAACAGGGACATTAGGATACAACGACTCACTTACAGAAATTAAAGGCAATTTTAGGTTTACTTTATCATTAGACAGTACCTTCAAAATCGCATCCTTACTAGAATTAGTAATAAGCGAGGCGGAAGCGTAACGAAACTCAGTCATAATTAAAGTTTAGAGTCAATTCTAATAAAGGTTAATTAATAATTAGATCCTAGTGTCGCCATTTTAAATGAATTTGCCTTTACAAAAGATTGAAAGCCTCGAGAATGGGCTGGGATGATGAAAGTTTAAATATCTCTTTATGAAACTTTCTCTTAGTGACGCTAACGACGCTCCTCCCCAGCTAGACTCGGTAGACCCAAAATCACCTCCTTAAAAATAAATCTATAGTGTAAATAAGTGTTTCAATTACATTAAATGTAAAATTCTCTGGATTGAATAAATCAGGAAATAAAAGAATTAATAATAATCTAAACTCCTCTCTCCCCACCTCCCCCTTGAATATGGTATATAAGGAGTAGAGTACAAGGGCCAGCACGAAGATCAACGTGCGGAAAACAAACTTAGTAGAACTAGTAAATGGAAGAAAAGCCTTAATGTTCCTATAAGAGGTCTCTATAGGACCTCTTACCTTATTGTACAAATCCAACACTTCCCTCTTGGGCAGATCTAGATTAGTAGCCCTAGCAAAATAAACAAGACTCTTCTTCTTTCTCCTCACTTTTTCCTTGCCATACACGAGAAGCCTGAACTTGACCTGCTCATCCCTCCTATGCCTCTTACTATTAGTTGTGTAATCCCCGTCAAACTCCTCAAACACCTTCACGTCCCCAGATGGAACAGCAATTATATACTTAAACTGTGAAATGAAATTGAGCACATCAACTGTGTAGAAACCAGCGTCAAGAGTTATCAACCTTATCTTGAATCCCATTGCCATTACTTGCTCCACGAGGATCTTCACTATCTCGTCCTTAGTCATACCGTTCACTTGCGGAATAAAGGCAAGTAAAAGTACTTTCCCCTTATACTTGGTTGTTGCAGTTGCGTAGTTCCACGAGTTTCCTTTTTCAGAGCTCCCGAGCCCTTTCACTGGTTTCCCATACCACGTCTTGGTTGTCCAGTCTATTGAAAGATCTATCTCATTCACTCCCTTCAGTACTTCTAAGGATATTTTCCTAGCTCTTTCCAATAGCTTTTCAATCACTTCCATCCCTTGTTTCTCTACGTAATTCCTCACGGTCTGTGGGGATACGTCATACGCTCTGGACTTGTTCTCTACAGAGTCGTTCCACAAACACGCGGAGATGAGAGTTCTCGCTACCTCATCTACCTTTTCCCCTTGGAAGTTCAACATGGAAAGTAATTTATATCCTATTTGTTGAATGTTTGGTGAGGGAGACCGGGTGTTACCATCTTCCTATCTCACGTGGTAATACTCCATCTCCCTCACCTTAAACCCTTTCTTCAATTCTTTACACTATTATAAATTTCTTTATCTTTTATAAATTCGATATTATCCTACCAGAAATATTTTTTCTAATATGATTTTGGGTCTACCGTACAGTGCAGCTAAGGCTTCTGCAGACCTTTTCGTTAAGACTTACGTTAGGACTTATAACGTTAATGCTATAATTGTGAGGCCTTCTAATAATTACGGACCTAGGCAGTTTCCTGAGAAGTTTATTCCAAAGGCAATTATTAGGACTTTGCTAGGTTTGCACGTTCCCGTTTACGGCGACGGGAAGGCAGAGAGAGATTAGATATTCGTAGAAGATACTGCGAGGATAATAGCTGACTTACTAGATAGGGCTGAGTGGAAGGGGGAAGTTTATAATATTCCTGGGAAACAGCGGGTTACCAATCTTGATTTACTTAAATTGTTAGGGGAAGTCATAGGAAGGGAGGTTAGGATTAGGTTTGTTTCCGATAGGTCGGGGCATGATAGGAGGTATTGTATGAATACTTCCCTTTCTTACGAAACGACTCCTCTGAAGGATGGTTTGAGGAAGACCTATGAGTGGTATGTTAGTAATGAGTGGTGGTGGAGGCCACTGATAGACGATAAGTTCTTTAAGGAAGATGAGCCGTGGAAGTAAAGAGGTACTTGATAGGCAGATTTCTTCCAATAAGTGTAGAAATTGCAAAGGTTAAAATTGTGAGTTTTCTTATGAGGTACCTTATATTATGATACTTACATTTAACATGTTCTTCAACTATATGTAAAATTTTCTGTCTTAATAACCTTTAATGGAGACTTAGCGAAAGAAGACTGCTATTTGTTGTCTTGTTATAATTGGACGAACAATCCGAGTAGGCTGGAGTAGAGTTTGGGATAACTACTTCTCCTCCTGATACTTTATCGTCTTTTATTATTACTTCCAGTTTTCTCTTTTCTTCTTCGTTTAGTCCCTCTCTCATTAGTTCTAGTAGGATTTGGATGTAGGAGTACCTTTTTACCCCAGCTATCGTCATTAGTCCTTCTTTATCGTATTTGTTTAGAATGAAGTAGATTAGCTTTTCTTTAGTTTCTCTGCTAATTTCTCCTACTTTTCCTTTCTTCCAATTATATAGTGTTTTTCTACTTATTCCGCATTCTCTTTCCAATTCGCTGTCATTTTCTTTAAGTTTTCCTAAGAGGTTAAGTATCTCTGAGTCGCTTAAAGAGGCTGAAAGAACTTTTGCTAACACTTGTTTTTCTATCATGTGTAACATATTACACATACAAGGTAATAGATGATAAAAATTTGAGCATAGATGTGATGAGAATAGCTTATAGACATTTATTTGAGAGAGTACTTAAACTAGCAGACAGAGAATATTCAAATGGATACTTATTGTACACGATCAGATAAATGTAGATAAGGATTATCAAATGGCAAAGGATCAAATGAACGTAGTTAAAATTATGGAGGATGAGCTACTCAATAATGCGTTCATAACAAGGACGTCAGCTATAGGGAGAATCTTTAAACCTATTTTATTTGCAAATTCTGCTAATTATGATGCTTTACAAATATCAGATTTTGCTGGCTACATTATAAGGAAACATGTACTTAACGAAAATAGTGAAAAATTTCCTTACTAAAAAATATTTGAGATAATTAGCAGTAAACTAGATAAAAATCCAAAGACAGGAAAGATAGAAGGATGGGGAATTAAGACCTGGACATATTTTGCGGAAGTTGAATAATCGGGAACACGTGGCCGCTACGCCAGGTGTCCCCTCATCTATAGCGCTACGCTACTCAATTAACTTCTAATTAAAAGTACCTATTTAAAATTTTCTAGAATTAATACGCCATAGTTCAGCTTAATTTTATTAAATTAACACGAGAAGGACGAACTCCAAGTTCAACGTTTAATTTAAAAAGTTTATAATGCTATCGTTAACAAATTAAACACAAGCTCAATTGCCTACTCAACTAGCAGTTTGCATAAATTTCTAATAATTCCTTTCAATAGAGTAAACTCATTTATTTTACACAAAATATTTAGTGAATAGTTAAATAATTGAATCAACAGGCGAGAGTTTCAAACTTTTAGACGGCTCTGAAGGCTTCTCTTTATTTGTACTAATTATGTAAGCAATTATTAGAATAAAATAATTTATTAATTATCCATCACAATTCTCACATATGGAGGAGCTAATAAAGAAGGCCGAAGATATAGGAATTAACGTTGAAGACGTGTTGATAAGCTTGATAAGCAAGAACGACCCTAAAGAGGAGATAAAGCTTAGGCTTGATCTTGCTAAGAAGTATATGAAAGAATGTGAGGAGTACTTAAAGAAGGGTGATGCTATTCAGGCTTCTGAGAAGGCTTATAAAGTTGCGGAAGAGCTAATTAAGGCTTTGTCTGAGAAGTTCAATCTTGAAGAATATCAAAAAACCTTGAAGGAAGGCAGATGGTATACTTACCTCCTAGTGTCAGCTTCTAGTAAGCTCTCTCAGAAATTGGGGGACTGGGTATTGTCAGGCTGGGACGCTGGGTACTCACTTCACGTATGGGGTTTTCATGAGGCAAAGCTTTCAGTAAGTGACATTATACCGAGAGTAGAAAAGGTAAGAAAAATGCTTGAAGAAAGTGAAAAAATACTTACCAATTAATCATTGGTTCTCTATAAAAGAAATTTCCTAAGTTTATAATCTTATGATTTTGAAACAAGATATTTAAATATTTTGTCCCCATTTGCTTTGTGGATCTGTTCAATTTTTCTAAGAGACTACATTAAACTTACTTTTAATTCTACTGCGGATTTAGAATTTATACTGAAGAAGTGAGTTTAGAGCCTAAGAAAATTCAACTAGCCCACAAATCAGTCCCCATTACCTTGTTATGCAGAGAGAGAATAACGTTCAGACTATTATTAATGCAAAAATATTATTTCTAATAGAGTTCAAGACGAAATTGCTAGAATATGTATAAGTAGCCTATTCTGGGAATTGGCAATATTTATTACTTATAATTCAAGTAATCCTAGGAATTTCCTGAGTATTAACCGTCCTGGAAAATCCTTAACGCTAAAAGTTGAGGAATACTCCTTACTGCTTTGTTGAATTCTTCAGTTTTCTCAACTCGTTAATTTTCCTTAAATTCAAAATCAAGCGCAGATTTAAAAGTAAGTTTAACGTAAACGTGATAAAAATTGAAGTAACCCACAAAGATCTAGTAATGTTGTTAAGGCAGCACAGTCATAAGGTAGTTTTTTGATCAGTCATTTTTTGTTAATTTCTGCAAACGCATTCGACAATGCTTGATCAAAAGTCACTAGCCTCTTAATTTTTAGCCTCTTCGAGAGAGTGTCCCAAGCGCAAATAATTGAATAAATATATTATGATAGAAAAACAATTTTATAATTAATTAAGAATAAAATATAATTATATCTTTCAGTATAACGAGAGATTAAGCTTATATTGTAATGGAAAATAATCAAGTATAGAGAAAAACAGAATTTCCAACATAGTCCACACTACCTTGATCAACTCTCGCGGTACAAGTTAGTGGGCGAGTTGACTCTCCGGAACACGCGATAACACAGAAGTGTAGATGTAGGAGTTGTAAATCAACGCGATAACGTAGACAAAGAACTCGACCATACCCTTTTCAGTAGCGTAAGGCCTCCAATACCTCCTCAAGAAGATCCCAAAGAACTCCACTGCTGAAACTAGAGAAACCTATCAACCAAGTTGAGGACTTCCCCACGAAGCCCCTATCCACTACCTTATAACCGCTGCGAGAGAAGCCAACCTTATTGTCCGGAAAATTGGCCAGTTCCACTTGAATCTCGTGAACTATCATTGTAGGCGACATGAGGTTGAAGACCTTGAAGCCGAACTCCTGTTCCTCTTCTTTGTAAACTCTCCCTTGAACCTCCTCCTCGCTTTGCACTTAATGTAAAAGAAGAGCGTGTTAGCCGCCTCCCTGTACTTCCTCTGCCTTAGGTCTAGCTCAAACTTCTTCTCCAATGTTTCCTTGTTCCTCTTCCCGAAGGGTACCTCGATTAGGAAGGAATCCACGATCCACAGCTTTCCAACCTTTCCGTATAACGCACTGCTAGGTAAGTAGTCAGCAAGTCTACTCATCTTCCCCTCCAACTCCTTGGCGTACTCCTTGAACAGAGTCTTTACCTCTCCCCTAAATTTCTTTGCCCTCCTATGGATCTCCGACTTAGACTTGTACTCGCCTAGGAACCACCTTACCACCACGTCTGACTCGTAGTAGCTCCGCACGTCCCTGTAGGAGCACGTCCACACAATCATAACTATTAACGCTCTCGATATGAAGAGGTCAGAGAGACGCGACAGCACTTCAGACGTGATCAGCATGTAGTTCATTTTCACAAGTGTTTTATGCCTTGCTGATAAATGTTCATAGGGGACCGGGCCGTTGTAGTATTCTATCCAATGCTTCATGTGAATCGGTACTACATCGTCCCGGTTCCCTTTAAGTATTACGCGACTTTTTGCTTCAAGCGAAAATTCAAAATTTCTCAGTAATTCACAATATCTTTTGAATTATTATCTATAAACCTTTACATAGATTTATTCAATTATTTGCACTTGGGACACTCTCTCTACTAATCTCTATTCAGTTCCTAAAGAACATATCTGAAATGCTTGTAACAGATTTTACAAATAATAATGTAATTATTTTACTTAGATAATTATTGCCTACTTCCTTTTTACCATAATTATTTTTTGGTACATGTTTTCTTCTGCTAATAAGTCCCATCACTGTTAGAAGACGTAGAAGGGGAACATTAGCTTGTATCTAGTTTAGACTTTCATGAAAATCTTAGCAGCATTACATAACATAAAAAAATAATTTAATATGACATAAGAAAAGTTGAATAATTTATCATAAAAATCTAAAATATTATTATCTTAAAACTAATAAAATTTATCTCGTTATATATTAAAATGAAATGTTTAAGTAATAGAAATTTACGTAAAACTGCTAATTTAAGGCAAATAGAAATTATTAAAGATTAAGTAAAAATTAAGTATATGCATAATTCAGAATCTTAGAATATGCATTATAAATATATAATGAAAAATTAAATATGAGAATTTAATGTATATCTGTAGTTATGGATTTTTGGAAAATCGCCATAGATCTAAGCTTTAGCAATAGTATTACAGTTATTAGTATTGTTGGTCTAAAAGAATCTTGTAATCCCGCATATTGTATTCCTATTACTTATCATTTCTCTTCATCGGGTCATCTTAAAAGATATAATGATATAAGTTACAAAAATAGTAAAAAATTATATTTAAGAAAAATATTTAAATATTATGAATATAGAGAATACAACTATACACAAATATTAAATGGTGGAATATTCAGCGAATTTTTAGGACGGGGAGGCTTTGCTGCATCTCTGATTTTTTACGGTAATTCTATTAATCTGAGTGAAATAGACGGAGTTAAAAAAGATTACTATAACCTTATAATAAAACATAAGAAGGTAAAATATAAAGATGAAAGAAAATCTTCACTCGTTTATAAGCCAATTTATAACTTAATAAATAAAAAATTTTACTCCAGTGAAAAAGAATTATATGAAATTAAGGAACTAATTATAGACGACATGTTACACGCTAAGATTTACTTTCCAGTATTATCTAGAATGTTTAAAAAGGAAAATAAACGCAATAGGCATAATATCTTAGGAAATAGAAAAACATTACTAGAAAATAATGCTAAAAGCATGGATAAAAAGGATGTAGAATACATTTTGATAACATTAGCAGATAATTTAGCAAATTATATACGAATAAAATCACTGCCGCCAACTACACATCCCCTTCCCGCGTAGAAGGGGATTCGGTCTGCGGCTCTTATTTAATAATTTCTATCTTATAGTTTTTAAAGTTTCTCTATCTATTAAAGATAGGCACATCTACACAGAATACTATATATAGACGTAAACTAATAGGTAGGAAACTAATTTCATTTACCTTTAAGCCCTAAAGAAGTATAAAGTTGAGAATATTTATCCTAATAAGATCCAATGAAAAAAGGATTTAGAGAGTATATAGAAAGGAAATATTAGTAATATTTCAGTATTTTTACTGAAAATGACTAAATTCCTTTGAAAGAGATAAATTGCTATTGTGAGAGTAAAAATAGTTTATTTTATAGAATATCTAGAAAAACTATGAATAAACACTTGAAGAACAGAAAAGAGAGTTTGTCTATACAAGATACTTTACGTTTAGTATTGCCAGGTCAAGAAGAAAGGTAAAAACGAGACGAACAAGAAATAATTATTAATTAAAAATATATTGCCCATATGACAAGCATCCTCTACAATCAAACTAAGTTAAGGGCCCATCGCAAAATAACCACACAAGAACTTAAAATTATTTCTCCACAAGACTCCTAGAAGCAGCAAAATAACAATACAAAACAGAAAATGCAGTTTGCTAAGAAAACTTTATATAAAAAATCACTAAGTAAAGATCGATGAAGTTTCAATGTATATTTCTACTATCAATTATTCTATTTTCTATAATACCTCAATTTTCTTTAACTCTACAAAGTGCAGTTCATGACACATTTATACCCGAATTTAATGAAAATACCATTCCTCCTTCACCGTCTCCATTATATTATTATTCAAATATAACGCTTAAAGCAGACTATATGATCGTAGTTGATTCTGATCTCTCACAACCTTGTACATTGATAGTTTTTACTCCCAGCCAATATAATGCTTGGCATAATGGAGAACAAACATATGCAGTTTATGTTAAAAATATAACTAGCGGAAAATATTATATTCCATTACCTCCAGGTAATTACATAGTTGTTCTTAATGGACCAATAGCCGTAGGTGTTAGTATTTATACTTTAGCAGAAAACGCTATACCGTTCTTGGAAAATGAGATGAATTCTTCTTATAACCCAACAGGCATAGCTTCTTATGGAATTTACAATAATAGTGGTGAGCTAAGTGAGTATACAGTGAAAACTCACGAGATTTTAGGATTCTATAATATAACTTCTATAAAAGCATATAATTCTACATTTTCTGACCCTTATGGTGCGTCGTTACAACTTAATGTTGTTTTACAGTTAATAACTAAAAATGGAAATCAGAGCTTATGGTTGCAAAATGTTATATCTTTCATAACAAATGAAAGTACAGCATTTTATGTAGATAATATTTGGAATGACTCTGCAGTGAATGCGTCAATTAATCCGTCATTAATTAGTGGTAATGGATCCATCAATATTTATAATGGACGATCTTACTATGCTTACGCTACTCCATATTTTTCCTACAATTATCCTTTTGCAGGATATTTGATAATTAATACTACTAACGTTAAAGGTGGAGTTGAAGTAACGTTTGGCTACGTTAGTGTGCAAAATGGATTTTTAATTCCTCCTAACGTAATATATTACGATAGAGTTTTTATTTCAGTACCTAATCTAGTAAATTCCTATATTCTGGTTGACCCTAATCTATTGACAGGTAGTGAGAATTTATATGATGCTGAACTAGTATTCGGAGGACAATATAATGGGGAAATAACTAATTATACTTCACTTAACGCTAACCTTGCGTTAATGTATAATAATTCTGGAGTTAAAACTTTTCCATCAGTTTACACGTTTGGTTCTGATACTGCAGAGGCAGCAGGCAATCTTCATGTTTCATTACAAAATAATAATGCTATAGTTACTGTAGGAGAGAGAGATTATGGATTATTAACAAATAATTTTACTCCTTCAATTCCCGGATTTACATATCTTCAGTTTGAAAATGTTGTGAATAATTTAGGAATAGTGAAAGTATATGGATTTTATATAAATAGTCGTTTCCCTATAAATGTGCCTTTATATATTATTCCTAATGATACAGTAAACTACACACTTTATAAAATAACGTTAACAATCAACGGAGTGAATGAAACTATTCCTGTTAATTATGATTTACCAAGTTTCCAATATTTTGATAACATTACAATAATATGCGAATACAATGAAAACATATTAGTTACAATAAATTATCCTAATGGGACAGTTAGTCAATGGTATCTAAGAGGCGAATATACTAATTTTCCTAGAATTATTCAAATAAACCAGACTGTAAGATATTTATTAACGCAGAATCAATTCCTTGTAAATTCTCCAATGAATATTCATCCCTCTTATGTTGAGCAGTATCTCATTTCTGTCCAATATCCTAATGGTACAATTACTGGATGGTACAACGCTAGTTCATCAATTATTTTACCAAACACAATATACATAAATAATTCAACGAGGTATGTTGCAGACGAAAATTCAATAACTATAACTCACTCTGGAGATTATTCCCCTGCATATACAGAGGAATTCTTAGTTACAATAAAATATACTAATGGATCAGTTAGCCAATGGTATACTAAAGGGTCTGAAATCTACCTTAAAGCTAATGTAAACTTCTTCCAAACAGCTAAATGGGTAGGAACTTACAATGAGACTAATGGGGGTTCAATATTAGTGAATGAACCAATTAGTGAAGATGAAGTATTAGGTATAAACTATATTCCTATTATAGGGATAATATCTATAATAATAGTAGTAGGAATTATTGTTTTCTTAAGGAAAAAATAAATTTTTTTAGTAAAAACAGAAAGTATTATATCCATATTTTTTAAATATATGTTATTTCTCTTAAGATAGTATGCCGTCTCCTTTTGATTACATGGAATTCAGAAGGCTTTTGATTCAATATGGCATTTCTGACTTTGGTTTTCCGCTTATAGAAATGAGTTTATTATGGACGTTTTACCTTTATCTTCATAATCCTTTACTTTTTTCTGTAATAGCTGTAGGAAGGCCTTTGGTAAGAACTTTTTCAGCACCAATAGGCGGAATGATAAGTGACAAGTATGAAAAATGGAAAGGGTTAATGATATTCAAAAATTTGACAGTAATTGCAGTGTTAGGTGTTATATTTTTCTTAATAACTAATAATATAATTCTTGCTATTATAATCTTTTATCTTAGAATAATAGTTGCAGAAATTTCCAATACTATTGGACATGTTTCGTTCAGTAGTCTTTTACCTAGAAATATGCTTAAAGATGCATACTTTTATGCTAAGGTTGTGGGACATACTTCAAGTATTATTTCGCAATTGTCTTGGTTTATACTTTATCAGATTCAGGTGTTCAAAGGGGACGGAAGACTCCATCCGTGGAGATGGATAGGCTCCACATGCTTCGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGAGGAAACCACTTGATAGAGGTTAACTTTAGGATCTTCACTTTGTATGTGTAATACTCTTTTTCTAGTTCTTGAATTTTTCTATAATACGCGTTGTATTGTTAATTTTGTTAGGAGATAGTACGAACTAACTATGAGAACGTCTCCTTAAATTTTTGCACACTCCTACTCGGGATATTGTCCCACATGTTAGATCGCGGGGACGTATAGCCAGCCTACCCCATGGGGTTTTATCCCCATGTTCACTTTTGGCTTGTGTTATTTTCTTGTTCTCTTTATAAAAGTTTTACTCTTGTAAGGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGTTCTAAGCGTTTCCGTTTGCCCCTACACTTTCATTTCACTCATTTTATGTTCAATCATGATCGAGTGTAGGGACTTAGCCCTCAACCACCTACCAAACTTAACGGTAGATGGGTCATGGGACTCCTTTGAGCCCAACGGCACGGGCCTCACATCTCCGTAATCACTCCCACCCTTTTGGGCATAGCCCACATCGGCGTGAGAGATCATTATTTATCAACAAAAATTTATTATAAACAGACAAAAAGATTTCTATTAACGTGAAAAAGGATTCAGCCTCCATTAGTTACTTCCTCTTAGTTTACAATCAATTATTCTAATCTTATAGAAATAAAGTGAATTACTAGGGGTACCTGAATCGCTATCTGGAGCTATCACAAAGCATGTTGCTCAAAATCTCGAGCACTGTTGAAAGTAAGGTGGAAAAGTATATTTAGTAGAAAAGTATACTTTAATTTATGGCTACTACAATAAAAGTTAAGGACAAAACCAAGCTTGATCTTGAGAGTTTGAGGGCTGAGATCTTGCTGAAGTCAAATATTAAGCTAACTATGGAGGAATTGCAAGATTACCTCATATCCTTTGCCATTGATAATAAGGAGTCGTTTTTTGATTATGTAATGAAGAAGTTTAAAATGAAAAATTATGAAAAAATGAAGGAAGCTATAAAAGATTGGGGTATTGATACTAGTAATATTGACGTCGACAGTGTAATATATGATAATCCTTGATACGAGCTTCCTAATAGCTTTTTATAATAAGAGGGATTCCAGGCACGAAGAGGCTCTGAAGATCTTCGACGATACTAACGACAAGCTGGTAATTTCAGACTATATCTTTGACGAGATAGTGACATTTTTAAGGGCTAAGGTTCCGTGGACAGCCATAGAGGTGGGTGAGAATATTTTAGAGAACTTGGACATTATAAGAGTTAATGATGAGGACTTTAGAACAGCGTGGGAGCTGTTCAACAAGTTTAATAAATTAAGTTTTACCGATTGTACTACCTTATCCCTCTCGAAGAGGCTAAAAATTAAGAGGCTAGTGACTTTTGATCAAGCATTGTCGAATGCGTTTGCAGAAATTAACAAAAAATGACTGATCAAAAAACTACCTTATGACTGTGCTGCCTTAACAACATTACTAGATCTTTGTGGGTTACTTCAATTTTTATCACGTTTACGTTAAACTTACTTTTAAATCTGCGCTTGATTTTGAATTTAAGGAAAATTAACGAGTTGAGAAAACTGAAGAATTCAACAAAGCAGTAAGGAGTATTCCTCAACTTTTAGCGTTAAGGATTTTCCAGGACGGTTAATACTCAGGAAATTCCTAGGATTACTTGAATTATAAGTAATAAATATTGCCAATTCCCAGAATAGGCTACTTATACATATTCTAGCAATTTCGTCTTGAACTCTATTAGAAATAATATTTTTGCATTAATAATAGTCTGAACGTTATTCTCTCTCTGCATAACAAGGTAATGGGGACTGATTTGTGGGCTAGTTGAATTTTCTTAGGCTCTAAACTCACTTCTTCAGTATAAATTCTAAATCCGCAGTAGAATTAAAAGTAAGTTTAACGTTAGAGAAAAATTGAAGCAATCCACAAAGCGTCTTTTACACCATTATTTAACTAAGTACTCTTTCTACCTTCTTTTAAAATATTTCAGTGGCACATTCTAGGCTTTCTCACCAAGTATACAAAGTAAACTTTATATACATTCTCTCTAAGTTTTTATTTATGAGCGAAATTATAAGAGTAAGTAAAGACGTGAAAGAAAAGTTAGTTAAAATCTCTGCCGAGTTGCAGTTGAGTAAAGGTAAAAAGGTTAGTTTAAACGAGACAATAGGATATTTAATAACTCTTTACGAAGAGAATAAAAAAGGTAATAAGAATTCACAGTTGCTTTTATCTCTTTTAGGCTCTGCCAGAGGAATTAGGGAAGAGTTTGAGAGGTCTAGAATAGAGGATGAAAGTAGTAGCTGATACAGGAGTATTAGTTGAAGTTTTAGAAGACTCTAAATTAGGAGAAAAGTTTATACAACTAGTTAATAGTGGAAAATTAGAGCCAATAATTACTAATTTAACATTAATTGAATTAACATACATAGTATGTAGAAAATATGGAATAGACAAGGCTAGAGAACTTGTTAAGAAACTATTAGATTCAGGATACTTTGAGATAGTGAACGCACTTGATTTTGCGGACGAGATAGTCGAAATAAAGTGTAATAATTCTCTGTCTATAATTGATGCATCTGCCATTGCAACGGCTAAAGGACTAGGAATTTCTGCATTATTTAAAATGGAAAAGGAGTTAAAGGATAAAAATTTGAATAACTTGATATTTATCGATAACATAGATGATATTTAACATATTAAAAATATTGATCTAATATTAAATTCAATATAAATGTTATAGTTGAAAACTTGTTATTTTCTAGAAAATTATTTTCTTATAATACTATTCTAATAAAATTGAAGCTTTACATAAAGCAGACGTAGTGAGAAAACATTAAAATGTATTCTACAGTAAAGTCCATGATGGACTTACTCTTCATTAATCATAGGGATATTTACCATCCCCAAGCAGGTGGAGCTGAAGAGGTTATTTATGAAATAGGTAAAAGATTAGCTAAAAATAATAAGGTAACTTGGCTATCGGAAAATGTTAATGGAAGACCTAATTCTGAGGAACTTGACGGAATGAAAATAAAAAGAACTGGTAATAAATTTACTATTCACTTATTTTCGTTTCTTGAAGCTGGGAAACATGATATAGTTATTGATAGCGTAGCTCATGCAGTACCTTTCTTTTCCTATATAGTTAATAAAAGGAATATAGCGTTAGTTCATCATGTTCACCAAGACGTATTGAAATTTGAATTGAACCCTATAATGGCTTATATTGTTAGGAATATGGAGAAAAATATTAAAAATTATGATAATATAATTGCAGTTTCATATACTACTAAAAATGATCTAATAAACAAACTTCACGTTGAGGAAAATAAGATAAAGGTAATACATAATGGAGTAGATCATAAAAAGTACAAGCCTGGAGAAAAATCAAGAGCGCCTTTAATCTTATGGATAGGTAGAATGAAAAACTACAAAAATCCATTTGATTCTCTAGAAATATTCAAAAGATTGAAAAATAAGGCGGAAATGATAGTTGTTGGTGGAGGAGATCTAGCAGAGGATTTTAATGAAGCTGCAAAAACTTTGGGAGTAAAATATTTGGGTAGAGTAAATGAGGAGAAGAAAATCGAACTTTATCAGAAGTCGTGGGTTATTTTGTCAACTTCTTTTATAGAAGGTTGGGGAATGACTATAGTTGAGGCAAATGCTTGTGGGACTCCCGCAGTTGCTTATAAGACTGGTTCTATGCCAGAAATAATAAAGGAAGGTAAAAATGGTTTTTTGGTTGATTATAAGGATTATGATAAGGCTGCAGAGGTCATTGATTATATTTTGGATGAAAGTGTAATGAATAAGCTTTCTAAAAGTTCTTTAGAGGAGTCATTAAAGTATGATTGGGATAAGACTGCTAAGGAATATGAGGATTACTTACGTACTATCTAGTTCTTATTAACCTTTTAGTGAATATCCAGAGGGCCGCATATGTTATGCTTAATAGAGGAAACAGGAAAACGGAAAAAAGTAATATTATAGAAAGTCTCTTGTATAGATCGCTATTGAAAATTTCACCTAAATCATGAATTCCTATGCTGAGGTATACATAACCTAAAAATTCTGTTATGAATGATATTCCAAAATCTATGAAAAGTATAATATCAAGAGATGATGAAAATAGTGATATAACGTTATTAGTAATTATAAGCACTAAAAATGTTATAAATCCAACTATTAACCCCGTAAAAATAAGATTTATCCCATTAATTGCTTTGTGGGTTCGTTCAATATATTTCAATAGGATGATACAGTAAAAATATGTTTTCTATAGAAAATAATATCTCTCCTAAATAATTTACTATACTACTTCTTGACCTCAAAGCCCTTAGCTCGACCAACAACAAGGTTGGCCATGTACATCATCCAAGCATAAGCCAAACTAGCTTAGCATCAACAACTTAACCAGCAAAACTCGTAGCCCTAACAGACTCACCAAATGCTTAACAGCAGAGAACAAGGACTCAACCAACCACCTTAACTAACCCTTCTCATCCCGCCAACGTTCATAACCCAACTTCTTGAACTCGCGCACAGCCTTACGCCTAGCAGGATGACCACGCCTAAAGCGTTCTTCCTAGGAGGAACAACAACACCAAGATTATAAATCTCGCCATCATAAGCCTTACCTAGAACCTCTTAACTTCCTTACCCTTTTCCTTCAAGTCCTTTACTTTGAAGCAGATTCGGCCTCATTACTCGTCACCTCAGCGCTTACTATCTTGAACTCGTCCTTCTCCATAACTACTTCAATCTTAAGGAATTTTGAATCCCTCCTTTTGCCCCACTTTGCTACTACTGTCCTCCCCTTGTTGTGCTTATTCCAGTACCGTCAGCTACTTCAAGTTCGTCACTCGCTTCAGGGAAATTAATGTTCATGTTTCTTACCCTTTCCCATATTGTTAATCTAGGCTTGTCGGTATTATCTTCATTTCTGCTAGTGCGCTTAGTACTCCTTCTACTCTGTAAGGTAAGAACAAGTGCAGGAATGCTAGGAAGTCGTTGAACTCCTTTGGTGCCTTGTACTTGGTCTTAGCATACCTGTTCTCCTCCTGGAGTAATTCCCACCAGTGTTCGAAGACGTAGAAGGGGAACATTAGCTTGTATCTTGTTACCACGTTCTCGTCGTACTCCAATCCCTAGTGTTCTTCTTTTCCATGGGTAATACTCTGCATAATTACTTAAAAATTTTTGTATAATTCTGAAGCGATCCACAACGTACAGTCTTAATGCTAACATCAGTTCTTGTAATTAGTTTTTATGTAATTTTTAGGAGATTGAGAGAATGATATTTAGAGAAATATTAGCCTTAGGTAAATCCTTTGTATCAACAGGAATTTTATTAATAATATTATCCGCAATATTTTCCTCGTCTATTCATGTTTTATCTAACACTTTAGGAGACTATGCGTATTTTACAATATTAATAGGGATTATTTTAACAATTGTAGGAAGCAAAAAATAAAGCTCAGTAATTATGAAGAATTTCGATAAGTTTCTTTGAATGATTTTCCCAAGATAAAGATTTTGCTGTCTCCCACGCATTTTTACTTAATTGATAAGGATTCTCTAAGATTTGATTTATTCTATCTATAGCTTCATTCTCGTCTTTTACTACATATCCATTTTCTCCTTGTTTTATAAGTTCTTTACTTCCTAACCCTTCGTTAACTACAACTGGGACTCCATATCCCATAGCCTCTAAAACGCCCATTCCAGGCCCTCTTTCATTGAATCCGAACCTTACTAAAACTGAAGCCTTTGAATAAAGCTCAATCAATTTTTCTTCACTTACTTTTCCTGTAACTTCAACGTATTTACCATACCTAGCAATAAAATCGTCCATAGTATCTTTTCTAGCCCATGAGCCTGCCATAATAAATTTTCCATTTATTTTTTTGGCAATTTCACCATATAATTCTGGCTTTCTTCCAGAATCCCATGTAGAAACGCTAAGGACTATTTTATCTCTATTATAGCTTATTTTGTTAGCGGGATAACAGCCTGGGTATATGACTTCTGATTTGTATCCTTTTTCTTCTAAAACTTGCTTATTCCAATAGGAATTAGTTATTATAACTTTTGAATGATCTAAAATCTTCTTTTCAAGCTGTCTTGGTAACAGATATTTTAATCCTTTTATTGTTAACGAAGTTTCGTGTAAATAAATAGCGTAATCTTCATCGTAAAATATTTTCCTCAAATATCCAGTTATTCCAGCAAATTGGTCATGAAACAAAGTAAAACCTTTTATTATCCTTGTTGCGTGGACTATCAAATCAAGATCTATTGTTGCATCTTTACCTCTATGACTGGCGTAAAGTGATGTTAAATATGAAAATAATGGAGTAAGAAACCCTCTTTCCCCCTTTCTCCTTAATATTTCATAATCCACTCCATTTAAATCATAATTACCTCCAGCGTCCCTGTATATGAAGAGCTTATATTTGGTCAGCCTGGCCTCCTCAATAGCCATCTTTGGTACTGCGCTATTCCAAAGGAGCCTTACTGCAATATTCATATGTTTAGTATATAGACTTATTTTTTAAAAGTTTGAAGTAGGAATTCATACGTTAATATCTGATTGGCCTAGTTTAAATTATTCAATGTTAAGTGATATCCGTAGAATCTTTCTTAAGTTCTAGATCTATTTGAGCCTCTATTTCTTCTAATGTCATATGCCTCGGCATACTAAGTATCTCATATATTAACCATGCAATGACTAAGATGACTAACAACTCTAAGCTAAGATCTATTACTAGATCTAAAACGTTAACAGTTATTGGCATATAATAACATTTAATATCTGGCTAAAATAGTTTCTGCGGAATCTAACATTAAATTATTTGTTTTTAACATTATCAATAAATACTATTTTATTATTGTCTAGGTGCTAACTATTTCTCACTAGTAATTATTAATATTCTTAGATAAAAGATCTATGAGGAAACTTCTATCTATAAAACTACTGCTATTTTATCTTAACAGGGGATTCAAAGAGGACGGAAGACTCCATCCGTGACGGTAGACCCAAAATCTTATTAGTAAAAATAATTTTTATTTGTTATTAGTTATTTATGTGAATTTAATGTAATTAGATAATTGATTTTGCAATATTTTTTAGAAATTTTTAAGTGTTATATTAGATCTTTTATATTTCTAAAAGTAAACTGAGAAATATTATCATAATATTAGAAAATGATGAGATGCGTATGATAGAATCCGTTTTATTTACATTGATTATTTAATACATTGTTCTTAATGCTCTTGATTATGAGTATAATGAAATATATTCCTTATGAAGAAAAAATATGAGGCTTAATACTGAGTTTGTATTTGTAATATGATTTTGGGTCTACCGGTTAGGGCGTGGTAGGCTCCACATGCTTTGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGAAGGAACTACTTGATTGGGGTCAACTTGAGGGCCTTCACCACCTCCTCTCCTATACCTAGTCTTCTTAGTCTCACCCTTGTATTCCCCATCCTTGAGTACGTGATAAACTATCCTACATATCTTGTTGGCCAAGGCTAATGTAGCCTTTTTGGAATTGCTTGTCCTCTTCAACAAGGCTTGATAGAAGCCATTAAATTGGGCCGTGTTCTTAGCGGACCTTGCAACAAGGAATAGAACGCGGGATAAGTGCTTATTCCCCTTGATGAGACCGTTGTGAAATTCGGTCTTCCCGCTCTGCTTAGTCCAGAAACTCCAGCATAAGCAGCTTGTTTCGAAGACTCAAACCTGCTCACGTCTCCAAGCTCAGCGTAAATTGTGGCTGCAGAGATTGGGCCTATTCCGGGTATCTTAGTCACTACTGCTTCCTCGGGTAGGAACTTCATTATCTCGTTCTCCACTTCCTTGATTTGTTCTTCTATAATGTTCAGTAGGTCCAGGAGTTGTTTTAGGATGAACGCTTCTATTCTAGTTAATTTTCTTCCCAATAATTTGGAGTACTCCTTGATCTCTTCGTCAGTTAGCTTCTCATCATTTAGTTTTCTCACTATTTCCTTTGTCTTCTTTTCGAAGGTAGCTTGTATCCTGCTGTTTCTAGAACTTTCCTTATCTCGTTCTTTACTTGTGTCTTTCTCTCTACTAGTCCTTCTCTGTGTCTTGTCATTTCTCTTAGTTCTTGCATTTCTCCCGTTGGTACGATCCTTTTACTGTGCCTGCAGCGTAGGCTATTGTGAGTCTTATGGAGTCGTTCTTGTCTGTCTTCTTGCCTAGGACTTCAACTGTTTCAGGGTTTATCACGTTTACTTTTAGTCCCTTGTCTCTCAGTACGTTGTATACGTGGTAGAAGTATACTCCTGTTGCTTCCATTATTCCTTCTTCGTATCCTTCTAGGAATTTTATAAGTTCTTTGAGTCCTTCCTCGTTGTATTTGAATTCTCTCGTATCAGCTTCTTTTACTGTGTTGTTGTTTATTTCCATCTTGGTTGCAACAAGTCTTGATTCCCCCACATCTATTGCAAATACTTTAGGCTTTATCTTCCTTTCCATATGTAATACTCTTTTTCTAATTCTTGAATTTTTCTATAATACGCGTTGTATTGTTAATTTTGTTAGGAGATAGTGCGAGCTAACTATGAGAACGTCCCCTTAAATTTTTGCACACTCCTACTCGGGATATTGTCCCACATGTTAGATCGCGGGGGACGTATAGCCAGCCTACCACATGGGGTTTTATCCCCATGCCCACTTTCGGCTTGTGTTATTTTCTTGTTCTCTTTATAAAAGTTTTACTCTTGTAAGGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGTTCACTTATTAATAGTATTCATTGTTAAGGCTTTAGAAATGAAATTCGTTAATATAAACAAATTAGAGGACGCTCTACTTAGCTTTTTTAGTCTTAAATTTCAATGAACGTTCTGTAACTCTTTTAGTCTAAAAACTTAAGTTAAAAAATCTCATAGACTTGTCTATATAAAATTTATTAATGCTTTTATACATTATATTTGCTATGTACGAGGTAAAAAAACTCAAGGATAATACATACGAAATTAATCTTGATGGAATAAGGACTATTTCCTTCAAACTTGAAGAGGACATGATAAAAGAAATAGAAATTGCTTGTAAAAAACTAGGATACAAAAACAAGAGTGAACTTATTAAGGATGCAATAAAGGAATATCTTAATTATTTATCTAATCATTGACCACAAAACTACTGATACACTGTCCATGCTCATGGCTAAAGCTGCATATTCTGGAGGAAGATAAATTGGGTAAAGGACACCTGCTGCTATAGAAACTAGGACTGAGTTGTATGCAAATGCCCATATAAGGTTCTGTTTTATCTTACTTACTGCCCTTTTTCCATATCTAAATACAGTTAATAATGAATTAATGGAAGGTATTATTATATCGCCTGCATATTTAGCTATTTCAGTCCCTGAAGATATTGCTATACCTATGTCTGCTTCTTTTATAGCCTCCGCATCATTTACTCCGTCCCCTATAAATACTGTAACTCCTCTTTTTCTTAATTCCTTAACGATATCAACTTTATCTTCAGGAGACAAACCTTTGTATACCTTGACGCCTAATTCTTTTCCAGCCTCTTCTGCCGAACTGCTTGGATCTCCAGTTGCAATATAAATTTCCTTTTCCATATCTTTCAATTTACTTATAACTTCTTTTGCATCGTCCCTTATTTTATCTTCCACCCAGATAGATCCTTCTACTTTGCCGTTTACACAGATTAATATATCCCCATCAGCATTTCCTTCACAGTTCTTAAGCACAAACTCCCTCTTACCTACTATTATCTCCTTTCCGTCAACTCTCCCATAAACTCCTTCCCCTGGAAAATCGTTAAAACCTTCTACTTTATGTTTATCCCGGTATAATGAAGATATGGCTTTGGCTATGGGATGTGAACTATAGCTTTCTAAGGAAGAGGCTAACCTTATGGTCTCTTCAGAACCTTGGTACTTTGTAACTGTAAATTTTCCTTCAGTTAATGTACCGGTCTTATCGAAGATTATTATTTTAGCTTTTTCAATTTTCTCTAAGCTATCACCATTTCTGACTATAATCCCTTTTTTTGCTAATTTATTTACAGTAGTTAAAACTGCCATTGGAGTTGCTAATCCTAAAGGACAAGGACAAGCTGCTGCTAATACTGCTACTGAAAAAAGTATTGACATATAAAGAGGAAAACCTATTACATACCTCCATATTAGGAAAGTTAATAATGATATTCCTATTATCACTGGTACAAATATTGATGATACTTTATCTACAATTTTCTGAATTGGAAATTTAACGTTTTGTGATTCTCTCAATGATTGTATAACTTGAGATATGTAAGTATTGTCGCCAGATCTTGTAACATAGATATTCAATTTCCCATTTAGTAAAATTGTACCACCAATTACTGGGGATCCCTTAGATTTTTTAGAAGGAGTTATTTCTCCAGTGAAAATTGATTCATTCACTTCTCCTTCTCCTTCATCCACTACTCCATCTGCAGGTATTATTTCTCCTGACCTAACTACCACTATATCTCCCACTTTTAATTCAGAAGAGTTCACTTTCTCTTCTTTTCCATTTTTCAGAACATTCGCCTTTATTGAGAGTAAACCAACTATGGAATTAGCTGACCTGGCCTTTAGATAGGCTTCTATAGTTTTACCTATTAGAACAAATGTAATTAGTAATGATGCGGCATCAAAGAATACTTGTCCATGAGTAAATACGGAATATAAACTATAGAACCATGCAACATTCGAAGCTAGTGAAACGAGTGTATCCATATTTGAAGTTTTATTTTTTAGTGCCCTTATTGCTCCAGAATGAAATTTCAGACCAGAATAGAACTGCACGGGAATTGAAAATATTAATGAAAGAAAGACTATGTCTGTATATTGAAAAACAATCGTTATTGAAGAAAATATAATGGCTATAATCAAACTACGTAAATAGCTATTAAATTCCTTTTTAGCCGCAACTATTTCAGGTATTTCTCTTTCCCCTTTTATTTCACTTACTTTATACCCTTCTTTTTCCAAATTGTCCCTTATTTTCTCAGCATTAGTTGTTACTGGATTAATTTCTAAATAGACTAAACCATTAACGTTCACTATGGCCTTTATTACTCCGTTAAAGGATTCTAACTTACTCCTCAAAATATCAACTTCTTCTGGATTAATTGATACTTTCAGAGTAATTTTTTGAGTTAAAACATCATATCCAGCTTTTCTTACCGCCTCAACTATGTCTTTTAATTTAGCATTTTCTACCTCAACCTTAACTTGTCCCGTAGCTAAGTTTACATTTACATTCGAAACACCTTTTACTGACGATATAGATTTGGATACAGTTGTTACACAAGTAGCACAATGCATTCCGACAACTTTCAGATCCTCTTCTATACGAAAGTCTTTCTTTTTATTCTCCATAATTATATAGTTACACTGTTAAATGATTTATGCTTTATTTTTAACATATGTTTCTGAATATATATGAAAAAACTGTATTTATATATATTTTAATATATTTGTTAGTGATTATTTCTATTTAAAGAATATCTAAACACTTTAATAAGAATATTACTTAATTTTTTATATATCAATAACACAACCTCAATAATTACTGGTATAAGACTAATATAGAAAAGCATTTCTGGTATAATCAAATTCAGGTATGCATGACCTATTCCATTCTTCATATTAATCTCTAGAAACCCTTGATAATTTTTAGCATTAGTCCAAAATTGAGAGTAAGGAATAAATATTATTGCTTTAGAGTAATTTCCGTATACTGTTATTTCATAATTTTTGAAAGTAAAATTTAGCGGTTTAGTATTTGGAGAAACTGTTAATCCCTTATAATTATCGTTTTTATATATGTATAAATGATCATGGAACATTAAGGAAAGATTTTCGTTCGTTAAGTGATATTGACTTACAACATACTTAACATAATAGTGAGGCTCATACTTATTTGAAATATTTATTAGATAAGGAAGACCTTGTAAGGTTGAATTACATGGATTACCTACGCCTTCTGTGTAAATACCTTGATGATCTAATATGTATTTATCAATAGTAAAAGACCATTGAGGATAAACATCATAATACGCACTACTTTTTAAATTCAACAGATCATAAGTATTGTTAAGCAACGGGAAATAACTAGGAGCTAGAGTCCCTGCTATTACAACTAATAATAATAGAAAGGTTCCCATATAATCTTTTTTATTAATGAATATGAAGCTAAGTAATAATAATCCTATTGTAAATAATATTATTTTCTGTTCATAGGTCGTTAGAGTTAAGAGTAGATCTCCTATTAAAGGTACATTCACCGGTATGTTCGAGAAGAAAGTCGTAATGAATAATAATAATGACGCAGTTGCTACTATAGAAATGGATATCCTATTTCTCTTCATTACTGCACTCCAAGAGGCCAAAATAAGTGATAATATTAAGAAAAACAAGGCATTTCCGTATAAATAATATCCAAACTTATATTGTGCTGCCCCTATGCTGCTAGCAGTAATATAGCTGCCTATTTCGACTCCTATTTCTGAGATAAAAGCCATAGAATCTGCAGCTATTATATAAGCTAAAAATTTTGGAAATTCTTTTATTTTACTTGATATGGCGAATAGAATTAAAGGAAACTGAAATATAAATGCTATGAAGAACATTTCAAAATATATGGCTTGGCCTATAATTAGTAACCCAGTTAAATATAGAAAATCTATTAAATTAAACTTTTTATAAATTTTATATGAAAAATAAAATATAAAAGGAAGCAAAGAATAATCAAATATAATCTCAGGATTAGTTATAAGTATTGAAGAAGATCCAGGATTAAGCATAAAGAAAAACGGTGCAATATACTTTACAATAAAGTTATTTGAAAATTGTTTTGCTAAAAAGTGAAATCCTAATGATCCTAAAATGAATGGAAAAATGTAGAGGAATTTTTCTCCGTTTCCTCCACCTAAAACATATATAAGAAAATATAAATAATTACCAGGACCTAGAAACGTAACTCCTAGAGATCCAATAGAAAAGTAAGAAGGAACTTCAGTAATAACATGAATATTGACTAAAAGTAAATTTCTAAATATTATTAGGTAAATGGAAATTACAATAATGGCATAAATTAGTTCCTTATTCCTCATACATTTAGATTTTAAGGTGCTGATTAAAAGCATAGCTTTCATTCCTGCGATGAATTATGATCAATAAAAAATAATAACTTTTTGAAAAATTATTTTCTTCTAATCAGGAATATTGCAGCTATTATAATAATTACAATAACTATAGCTATTATTATGTATAGCGTTGAAGATGAACTCGGTTTTGTAGTAGAAACAGTTGTCGTAGGAGGAACAGTTGAAGTTGTAGGCGTTACTGTGTGTAATACTTGACTTGGTAAAGAAACTGCTTTTGTAACATATAATTGATGAGTAGTGCTATATATTGTTGAATTAATTAAATATTTCCCTGATTCGGTAGGAGTGAAATTGATGGATAGAGTTTTAGTTTCTTTAGGCATTAATGTCAACGTAAAGTTCTTTTCAACTACTATAGCATTATTATATGAAACATAAACTTCTACTATAAAAGACGCTTCTAGATTACCTTCATTACTTACATTTATACTAACCATATACGGTTTACCTTGATAGAGAACTTCAGTCGGTTGCAAGGAAGAATTTAGAATATTAAGCGTAATTACCGGTTTTAATATCTCTGTGAATTGTATAGTTATAGTTTTATTACTGATTATAAACATAGATCCACTAGAAATTGACTGCGTGAAACCATTTACTGGACCTATTACATACGAATATGAACCTGGTGGTTCATAAAATATTATTTCATCTGTATTAGAATACTTGGTAACGCCATTTAATGTAACGTTCCATATTTGCCCTTCTGGTAATCCGATTTCTTTAAATATTATTTCTAAGCCCTTTAATACACTGAAATTATACACATACTTAGAGATATAGGCAGTAGAATTATAGGAGGTTACCATTATACTATAATTCCCTGAAACTCTTGGGACAAAAGGTAATTCTATCGTCCGAGATTGACCCGGAGCTAGTAATACATCTTCGTATTTAGTAGTTACAATTTGATGAGAAGAATTAAGTATTTCTACTATGGTATAAATATATCCTGTTTCATTTCCATTATTGGTTAATACAAACGATATATTGTATTGACCATTTACGAAGAATGTAATTGCAGGAACTCCCGAAGAATTAACTATCTTAAATTCAGATATTTCGGGAATAATTACTAATGGTTTAAATACTAGATTGATAGTTAAACCTGCATTATTGACTGTAAACGTTCCCTCATACTCCGATATTTGATAACCAGTAATATTCGTTACTTCATATGTATAAGTGCCGTCAGGGAGATATACTGTTAAATTTTGTTCATTAGATGTGTATACAGAACCGTTAATATTTACTTTCCATTGTGTCCCAATAGGAAGTCCATTTTCCTTAAATACTACAGGATATACATTTCCTACGAATATCTTTTCAATAACTGAGGGAATATAGACTTCCTTAGTTTCAAGATTTTTATAGAGAGTTAAATTGACGTAATATATTCCATTAGTGTTGGGAATCCATTGAATACCTATTTGTTGTGTTAACCCTGGAGAAATGTTTGAAAATGATGTCAATTGACTTACTATAACGTTTGATGATGAGATTATCTGAATACTAGCGAAAACTGGTGCGTAAATATTTCCATAATTTTTAATGTAGAAAAGCAAATAATATGGAGTACCCTTTGTTAGGTAAGATACTGTAGCTCCAGTATTCGAGTTTTCCATTTTAAACTGCGTAACATTTAATTCTGCCACAGGTTTGGAAAAGGTAATATTTTCAGTAATGGACGAATTATATACTTCAAGATATCCAGATGATGGAGACGGTACATACGAAGTATTAGAAGAAACTTTAAAGCTATAGAACCCTTTTGTTAGCGTAAATACTATCTCGTTACTGGAAGAATTCTGTGTAAAAGTTTTATCATTACTGGTATTAGTTACAGTTACGGACCATTCTGAGTTAGTTGGCAAACCATGTTCTACAAATGTCACTGTATACGTTGGAAGTGGCGTATTAGCTTGAGATATGTAAATAAACGGAGTTAAAATAACAAGTAGTAGCAATAATATATACTTCATATAGGTTAAGTGGATAGTACATATATAAACTTTATCGAACGTATTACCTCATACAGCATTTGCAAACATTAAGACCATTTCAGCTCTATTTTGCAATAGATTAGAGAAATTAAATTAATACTGGAAAAAAGTAACGTCGATAATGAGAAAGAAACTAGAGTTATCTCTTACTCATAAGTGTCTAATCCAAAATGTTATAGATAAGAATAATTTTATACTATTAATAACTATTTCAAACCTTCAGATAAAAAATGATTAACAAAAATAGCTATATCTTTTAAATTTGTTAATTATATAAATATATAAAATATGATTCAATCACTTTATTGCTCTAAATGAAATTGGATAATTTTCAATATAAATCTAATTTTTTATATTATGTTCCTAAATAGATTAAGTTGAACATTGTTAGTGTCATATTAAGATATATATTTTATCATGATCAGGGGTTGAAGGGGACGGAAGACTCCATGGAGATGGATAAACCCCTTTGTAAAGCTTATATACGTCTTTTTCGAATATTCTCTTAATTACAATCACTGACGGAGTAAGCGTCACCGCCTTGGTTAAAGCGAGGGTCCATGTGGTACGCCTCTACTCTATTCAACAGTCACATAAGGGGACACTATAGGCTCACTGCTCGGGGTCGGAACGACACTCACTGTGGGGCTCCGCTCTCTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGTTAGTTAGGGCATGGCAGTTCACGCAAAAAATGTTTATCATAAATAGATTTTAGCTCTATTCGAAACTATGAGTGTTTGTTTCTTTTGCAAAGATTTTATACCATAATTATTGATTAGTTATTAATGAATTATAATAATATAATACTTTCTCTCTTTATAGTGATATCGATAGCTGTTTTTATATTAAATCTTTATAATCTAGGATATTTAGAGATTTCAATAAAATATATGAAAATAGGACTATTAATTTTTTCTATATCCATTATCTCCACATTATTCTTAAGTGACAAAGCTAAGGAAAAAACTAGAAAAAAAGGAAAAAAGTGACCTAGTACTATTATACTTTTACGTAAACTTTAACGTCGCGGAAAAATATTTTATTCATAAAATTTACATCTAACAAGATGGAAAAGGATTCAGTATATTTACTGATCTTACTTGGAATAATACCTATTATCTTATCCTCTTATTTTAATATAGATTTTATATATTTTCTCAGTATAGTTCTAATAGACTTATCATTTTTTGCTATATTGAAAATATACAAATTCACGTTCATAATACCTTTCGCCATGATTTTTAGTTTAAAGGAAGATCCTTATATAGTAATATTATCCATATTCCTTTCTCTTTTTACATACTACTTCCCTAAATATATTCCATCGCTTTTTGTTCCGTTTTCTCTAGGTATTTCGCTTTTACATGAAAATATAGGATTAGAGCTTTTTTCAATTATTATATTAATATCTATATTTTATGTGCTAAAACTAGATTCTAGAGGTATTATAGTAGACGGTATAATATTTCTCATAGTCTCTGCCTTACTGAATAGAAACGGACTTTTACAATATTTCTCTAATATAGCCTATTTTTATTTAATTTTTGGTATAATATCAATAATTATTGAAAATCATAGTTTTAATAAACTCAAATATTCTAAATTAAAAATACTTCTGATCTATCTTCCTTTTTCAATTTTATTATTTATTCTGGGGATACCTCATAATTACTATTGGTGGAACTACGAATCTTTCATTTTTAGAATGAACGCATTATCTTTAGGAGTTCCAGGATTATATTATCCTCAGATAAACCAAATAATAGGATTGTATCCTATTTCACATTTCCTAATAAGCAAATTCAATATATATGGAATAAAAATATATTACGCTATATTTTCATATATATCAGGAATTTTTGCATTTTTGTTTTTTAATAGAATAAAGGCTAAATATAGCACAATTTTTTCCTTAATTTATGAAATAATGTCCCCATATTACGATCCACAGATCATGCTCGGATATGCATTATTACCTCTAATATTATATATCATTACTCTAAATATTTCAAATTATTTTAAATATCCTACAGCAATGTTACTTTCATCAGTAGCATCGTCTTTCTATCTATTTCCATTAACATTCATAATAATTAGCCCATTTCTTATAAAGAACTCTTGGAAAGTATCTATAGCTATACTGGGAAGTAATTTGTTTTGGATAATTCCTATAGTAATATCAGGACCACCGTCTTTACCTATTATAAGGATAAATTTCATATATTTGCTCGTAGCCCTTACAATTTTTATCGCGGCTTATGCAAGGGGGACAGGAAATTTATTTTTTCTGGAATGTTTAGCCTATTTTATATTTATTTAGCCTTACCATATAATCAACTTTTCTATCCAATTTTGATTATAACAGCTATACTTTCAGTTGAGTCCATAAAAATAGAGCAAATAAGAAGCATAGCTAGTGGAGTCCTCGTATTCCTTTTTTGCTTTCTGCAATGTATAACATTACTACATTACATACTATCTCCATTTCTGAAATAAATGATTATACTAAAAAAATTTCGAACATAACTAATATATCTTCCCCTGAACTCGTATTCTGGAATACGAGCTATCCAAAAATTTCTCCTATACCCTTTAATAATACTAATGTAAATATTAGCAGCATTAGATTTATTATTAATAAGAATTTTACATATTCTAATAATACGATATACAAAGGATATCCGTTCTATATTGAAAAAATATATTCTATTTCAAATAAGATTGTTAAAGGAAATTGGACAGAAACGCCTTATACTATATTTAATATAAACTATTCTGATTTCTATTATAATTATAAGTCCGATAATATGTCATTTAATATAAAAAGTAACTATATCCTTATTAAATCGAATCTTTCCTATCAATTCTTAATATGGAATATATCTAAATTATTAAATAATTTTACTATAAATCTTATAGGTCGATTTTCACAAGATAATCTAGCGCCGTCCATTTTATTAGGATATAATATAAACAATAAAACTAGCCTAGTGTTTTACAATTACAACTCTATTCTAGTAAATTTAGGCAAAGATAATTTCGTCTTTTCTGATACTCAAAAAGGTATAGGATATATAGGAAAAGATGCACAATTCAATCCTCAAAACGAATTTAATGTAAGCATTGAATTCTATAACAATAACAACAGTCTCGAAATAACTAAGGAGATAATAAATGATACTGAATATAATATTGACCTGGATACTCATTTTAACTGGAATGACATAAAAGAGATTGGTATTGTATTACCTTTAGGAACGTACTTGGATCTATATAATATGTCAATAGATATATATAATCCAGTTTATATTAACAAAACTTATATAAATTGGGATACAATAATACATCCTTCAACTCTGGTTTTCACTCCTATTGAGCCTTTAACAGGAAATATTACTGTTAATTCTTCAGTACCGCTAAATATTTACGTTCAACTTCCTGATGGAAAAATAGAGAAATATGTTAGTGGACCTATAACCTTTTCAAAGTTATTTTTAAAGGAAGAAAATCAACTAAACGTTACAATAAACTCGATTTACGTCAAAAATGATTTTAAAACATTTATAATTATAGGGAAAGAAATATATACTATAAATAAATACAGTTATAACGAATCATATATATTGGGAGGTATTAAAATAATATTTAACTCAAATTCTGCAATAAAAATATTAATATATGATTTTCCTTATACAATAATTGAGTTAAACGGTAAAGAAACTCATAACAATACATTAATTCTCTACCCAGGAGATAATACTCTTTACATTATATACTCCGATCAAAGCATAATACCATACTCTATATTTCTTAGTATAATGTCTTATATTGTCTTATCTATAGCTATAACTATTTATAAATTTAAAAACTATTTTTTAGCAAATAAAATCTTTAAATTAACGAAGAAGTCTTAAAATTATATTCTGTACCTTTAGGTAGAAACGAGTATCTAGAATTTTTCTTAATGGAGAATAATAAACGCGGAGTTTAATTATAGATAGAAACATTAGAATTATTATGTTAAAAATTTTAATGGAAATTTTACTGTACTTGTTATCATTCAGATAACTTGAAAAAAATTCCTTAATTCTGAATCCATTTCTAACGAAAGAATAGATTAAATTTACATCAATAAGATAGTCATTTATGATCAATTCATCCAATATTTTGAGTGCCTTATCCCTACGTAAAAGTTTAACTCCCGCTTGAAAGTCTTTAATTTTTATTAAACTAGGAAAGAACAATTTTACAATAATTCTAAAGGACTTGCTTAGTATGATCCTTAATTTTGGGGAATTAACAAATTTTCTATTAAGTATCAACAAGTCTGAATCTCTGCCAAGCTCGACTATCTTTTTAAGTTCGTTTACTGTTATAGGCATATCGGCGTCAAGTAACAATACAAATTCTCCCTTTGATTCGATTATTCCTTTTTTAATAGCTCCTCCTTTTCCTAACCTTTCCTTACTAACTATGAGATTTACTGGAAATTTTTTTACTATATCTGGTGTTTTATCATTTCCATCAAACACGACAACTATATCGACGTTCTTAAAGTACGAAGTTAAGGCTCTTAATGTTCTTTCTATCCTTTTCTCCTCATTGAATGCTGGAATAACTATTGAAAGCATTTTGATATTAATGTTTGAAAAAAGTTTTTAAGTATTCATAATCTCAAACTATGACCCTTTACGTCTTCTAAACTTTTTAGTTATACTATTACTTGTGATAGATCTTTAGATTAAAAATTAAAGACAAAAAATTAATTTAAAACTATAATACGCCATGATCCTTCTAAGCAGATAGGATAAGAGTTAGTTTCAGAATTTTGACTCACGTTTCTTTAACAATGAAGAAATTGTCGATATAAACTCGGAATTTTAATAATAATCTTCATGAATTCGAATTAATAGGGTTAGTGTTTGCAAATTAATGTTAGAAAATATGATTTGTATGTTTACTTCAATACTAAAATTCTCTATTTAATTCTTGTAGACTTTCTACGAAAATCCTTCGCAGTATTACGCAACGTTAAAAATAATTTAATGTAACATAATAGAAGTTAAATAATTTACTGTAAAGCCTAAAATACTATCATCTAAAATAGATAAAATTTATTTTATTGCATATTAGAATGAAAATATTTAAGTAAGAGAAATTTCCGTAAACTACTATTCCTGTTAAGAAAAATCAAATTTTTGAGATTTAATATAGATAGATTACAAAAACTCCTTTTTAAATCAAAAAATCTATAATATGATATTAATAAATTTAATAATAGAATAACTAAGTAGATCCATAAGATACTCCTTCTCCTACAACATCACTGTAATATAAATCAGCATAAGCGTATGTTAAATTAACAAAGGATGCCGAAGTAGAATAACTATACCCTGGAAAGAACCATGAATTTATACTCACATAGTCTGAGACCCAATTATAATACCAGAAAGATTGATTACATACTATTATACAACAGAACTCTACTCCTGTTATAATAATATACTGATAATATACAGGTATATTTCCACAATTTTTTGCAGTAACGTATACTTCGTTTCCACTACTCCAAACGTTTAATTTCTCATTAACGATAAGTGGTTTTAGCGGAGATTCTCCTATTACATATCCTTGAGTGTTACCAATTTTAGCGTAAAGTAAAGTTTTCTCTTCATAGCTAGGTATCTTTGTGACGTTCCAATAACAATTAGTGTAGTCGTTTATTTGAATTAGTGGAATTCCATTCGTAGAAACTATATCTTCAAGAGATACTGGGATAGAAGAATTTATAGTGTAAAAATTATAATAATTACCATTATAGTAAAGCATTGAAGGATTATAGTGTACGTAATCTCGAAGTATTAAGTTATTTTCTACATATTCTGTTGAATATATATCGGATTGAAAAACATAATATAAGAAATCTAAACTACCTAACATAACAATTATCATCAATATTCCGCCTAAGAGATATTTTATCATACTTCGAATTCAAAATTTATAAGATTCAGACGTAACTGAAAATGAAGAATAAGTTCTATGATTTAACTGCATATTTACCTTATTTTTTAATATAGGATACTTTATTATGTTATTTTAGAACATATCTTCTTTATTGAACTTCCTCCTTAAACAATATAATTTCATTTTAAGTTTGGAAATACTACAATTTACAGAGTGTCATGAAAAAGAATATTAAACTTCTACTCAATAAGTTATAATATGAGACTTCTTAGTAAGTTAATATTAATATTCTTTGGAATGGAATTAGCGATATTTTTAGGAGTTTCCTCAATTCCCTTCTATATGCCTGCCGTAGCACAGAAGTTTAACAGTACAGCTGGAGCAGTAGATTCAGAGCCTTACGTACCAATGGTTATAACTATATTTAGTCATAATTTGATGATAGCTTTATCTGAGTTTATACCAATAATAGGTATAGGAATGCTAATTTACACTACTTATAGTACAGGAATGGTATTATCTGCATTTACAACTACAGTTTATCATATTCCAGGAATTGCGGCCGCAGTAATACTATTAACATTGCCACATTCATGGCTAGAATTACCTTCGTATGCTGTTGCAGCTGGTAGTGGACTATATGTAATATTAACAAGAGACTGGAGAAGATTCGTTATGATGATACCTTTTGTAGCCTTAGAATTGCTTATGGCAGCTAGTGTTGAATCTGCTGAAATATATTTCAGAAGTGTAAATTCATATTATTTCTGGCTTGCAGGTGCTCCTTTGCTCGTTATGCTGTATCTTGTATACGAATATTTACAGAAAAAAGCCGACATACTTGCACCTAAACCTCAGACAACTACATCTGTTTTTATTCAAGGACAACCTATTCAAAATCAATACGTTCCAGAACAGAATATTGTAGATCAAGATTTAAACGCCGCTTCCGTTATGGAGAATCAAGGAAATTATTTTACTGCATCACAATATTATTGGAACGCTATAATAACCCTTATAGGCATAGTTAGCAAAAAAACTGGATTTATGCCTATAACACTCGATGATTATTTTAATGCCGCAAGGTTATTGGGTGAAAAATATTCTTCAGAAATACCTTCTTTATTTGATCAAGCTTACAAGGAAAGAACTGAAGGAAACTTTAACGAATTTAGGAATACTGCGCTATCTCTAATAACTAAGTTAAAGGCCATTGATAATACACATTAAATCTTAATTAGTTACTCATTTTTATTTCTAAAAATAAATTATATTTATGGAATCTGAGATTCAAGCATTAAAAAACATAAAGATCGGTTCACTTTATTATTTCATAGCCATAGTTCTTGCATTAGTCACTGAAAGTCTTGCCATAACTATAAAATCTTTAAGTACGAGCGCAGCATTCTTAGTATTGGAATTAATAGCTTATGTAATATTAATACTTGGATTTTCAAAGTTGCGTGTAGGTTTTTTTACAATCTCTAAGGAGATTAATACCAATATAGGAATAACTGGAATAAACATTTTCATTTTTGGAGTAATAGCGTTGCTGTTTAGTGATATTTTTTCAATCTTACTTTACCTTGGAGCTTTCCTGATAGTTTTAGGCAACGTAATGATAGGACTTAATATTTATAAAATTGGACAAAATTTTGAAGGAAATATGGAAAAAGTTGCAGGAATTCTAATAATGATAACAGTAACTTCGTTTATAGGTTATATCATATCATATTTTGCCTCTGACGAACTCATAAAGAAAGTATCTCAAACTCCAGAGGAAAAACCATTGCAGATAGTTACTACTGATAAGAATGTAGGTTATGGAATTTTAAAAAGTAATGGAGATGCAAACTTTACAGTCTATTCTAAAGGAGTATCTGAAATAGTTTCAGCACAAATTATAGGTTACAATTTCCAAGTATTGCAAATTAGCCCAAAAACTGTTGGACCTGGAGAGAATAAAATATATATAAAATTCAATTTATCGGGATTGCTATCTCCGGGAAATATTTATAATGTTGAAATATTACTTGCCAATAATGAAAAGTTGTTAGCTTCCCTAGTATATGAGATATAGTATATACAAAAATTTAACGCTGACTACTAAATTCTTTATTTAAACAACTAATTCCCTATCAAAGTCAAAGGTATTATACATCATAAAGATTACTTTAACTGGTAAAAGTAATTGTCCATAACTTTAAAAAGTTGTAGGGATATAATATATTTGTGAAAGAATATGAAAGCAGTACTTTTGAGTAAAAAAAGAACAAACAGTGCCGAGGTACCAGTAAACTATACTGACATGCCTCTAGAATACTTAAAAACCGAATTCCCTGAAGTATACGAAAGTATAATGAGATCACGCAGAGTTGTTGATGGCTATATTTATATGAGAAATATGTAAATTTTTGTATAACGTAAATTATTAAAAATAGTATTATTGTTTGCAAATTATTCGGTATTATTTTACATATTTTCATTTAATTATTTTTATTATCAATTATAAAACTAACTACAACTTAGACTTTTACATTATTTCAAAAAGATTTGTCTTTTAAAGGATAATAAAATATTAAAAATTATTGCGTTTGTAGTTCTTCTACTTCCTTAGACGATACTTCTAGAGGTCTATCCTTAGTCTCAGGAATTAGTGCTAAGGTTATTATTGCTGCTACTATTGCTAACGCCCCTAAAAACCCCACAGCAAAAGATTCACCATAAGCTTTAAACAATGCTGGAAATACGAAAGCAGTTAAACTTGCTCCTATTCTTCCAGAGGTCACAGTTAATGCTTGTACTGTACCTCTCACCTTAGTAGGTGCTAATTCTACACCCAACATTCCAGAAGCACTTATAGATCCAGGTCCTGCTTGTTGTGCTAAATTCATTCCGCCATATAATATTAAAGCTAAAACAGGAGAGAAAGCTAATCCTGCTAAGTCTTTATATGCAGCGAATGCTAGTAGAGATAATGCCATTCCTATAAAGCCTAAGACCTGTAATGGCTTTCTCCCAGCCCTATCTATTAATGATAAGGCAATTATACCACCAGGTACTACGAAAGCTCCTTCCATTATTAATTGGAATACTCCAGAATTTACTCCTAAACTAGATGCTATTAATGATGGACCAAATAATATTCCAGAATAAGATACAATATCAAAGAGGAACCATAATATGCAAGCAGCTAAGAATTGTCTCCAGTATTTAGCAAAGTAAAAAGAGAATGAATTAGTATCTTTCAAATTTGAAGTTATATCAATAGTATTTCCTGAAACTTGTTTTACTACATTTCTTAATCCTTCCATATCACCTTTAATTCTCCCTAAGAATCTTGCAGTTTCTGGAATCTTTCTTCTTAAGTATATTACAGAGACTGCTGGTATTGCACCTGCTGCTAGAACTATTTTCCAAACAATCATAGGACTTAATCCCAATGCTGAAAGACCTAAGTATATTAGTGCAGCAGTAGTAGCTCCAAATCCCCAGAATAATCCAAAACCTAATGCTATTATTTTTCCTCTGTCTTTAGCATTGGAATGCTCAGCCATTATCATTGGTGAAAGAACGTAATCTGCGCCTACACCAAGTCCTAGTAAAAATCTTACAATTATTAACTCTACTGGAGAAGAAACGAAGGCTTGAAGAAACGCGCCTATAGTCATTAATGATACATCTATTCCATAAAACGTCTTTCTTCCTTTGTTTGCTAGAATTCCAAATATAATAGCTCCAATCGCTGCACCTATTAGTGCTGAACCGCTTATCAAAGAGGTGTACAAAGTATAAGAAGGACTAGTTTTTGTTATTCCAAAAGTTGAAAGTACTGTTAATAGTACTATACCTATTGATGATAAATCGTATCCATCAGTAAAAACCCCCATCCCTGTAGTTATCATTGATTTTAAATGAAACCAACCTAGTTTCTTATCGTCTAAAGGTTTAAATGGACTGTTCATTTTAGTTCAAGCTAAATTTTATTGTAAATATATATGTATTTTCGACTATTATCTATATAGATATATATAATGAAAATAATATTTAGTCTAATATGTAGTACTATATAGATTATATAGATAAAAATACGAAAGATTTTTATAAAATTCTAAATTAGAATACTTATGGACGCGTTAATCTTAGGAATTATCTTAGGACTAATTCAGGGAATAAGCGAATGGATTCCTATAAGTAGTAAAACTCAAATTTTATTAGCTTCCACTTTTATTCTAGGTCTAGGATTTTCTGAGGGATACGTATTTGGTCTATTCATGGAAATTGGTACAATTTTTGCTGCTATAATATATTTTAGAAGAGAAATTTATAGAGTTATTATAGCGCTAATAGGAAAGGGAACTGAAGAAGATGTAGTTTTATTAAAATACGTAGTAATATCAACAATTATTACTGGAATAATGGGAGTTCCAATTTATCTATTTATTATAAATCTCATTAAGGGACCAGTTATTGGGATTCCCATGTCGATTTTAGGACTTATTTTAATAACTGATGGAATAGTAATATATTTTTCAAGGAAATCTTATATACCTAGGAAATCCTTAAAGGATCTCACTATAAAAGACTTTGCAATAGTAGGATTTGCTCAAGGTCTAGCAGCATTACCAGGCGTAAGTAGATCAGGGATGACTACTTCTGCATTACTACTTTTGGGAGTTAAACCAGAGGAAGCTTTTAGATTATCTTTCATAGAACTTATTCCTGCAGCTTTAGGAGCAATAGGTGTAACTTTGATTTTCTCTAAACATACAGTAGAAACTACTTTACACCTTATCAGTTTTGGAGCATTAGGTATATCTATAATCGTTGCCACTATAGTAAGCATATTCCTAATAAGTGCTTTGCTTAGATTTGCGAGAAGTAATAGAATATTGTTAATAGTGTTTACATTAGGTGCATTAGCGTTAATTAGCGGGATAATAAGTTCTATAACTGGATTAGGCTAACTTGTATGTTAAGAAAGGTAATAGTTTTTTTATAAAAACGATGAGGTTAAGTTGATACTTCATCTACAGCCTTTACATATCTCCTTAGCAAACCTAGCAAGAAGAGAACAACAGGGATAAGAACTCCGAACATTAACCTTATACCAATAACTTGAGCTATAAATCCAGCAACGGTAGGAGTTACAACACCTATTAGCATCATTATTGCAAAGAATTGACTATTTGCTGCGTTTCTGTTTTCCGGAGTGAAAGTCCTACTAATGGATATTACGGACATGGGATAAGTAATTCCGTGAGGGAATCCTAAAATAAATAATGCTAATAGAAATAGTGGAAAACTTTTTGTTAACGCTATTATTGATAAACCTACTGCGGTAGTTAATATTGAAAATGTTGTAAATCTCGAAATTAATTGAGCGGGTCTTATAGATAAATATAACCTAGCAATAAATGACGTTAAGAAGAATAAAGAGAATAATGCTGTAACTTGAGAATAACTTATCCCAAAAGCTTGTTTTGCGTAAACTCCTGCAAATGCCGTGAATGCTGCAAATGGAATATTATAAGATAATATATTTATTACAGCTACTTTAAATCCAGGATTAGAAAATACCTTTATTGACGTTTTTGCTACATTTTTCTCTTCAGGAAACTGTATGAAAAAGGAAAGAATAGCACCCAAAATTGCAAATGGCTCAAACCATAAGAACACCGTTTTCAAAACGTAATATCTTAAAATAAGGGATTCTATAGCTGGACCTGCAACTAAACTTATACTTAATGCCAACGTATATATTGACAATAATCTTTCTCTAGCTTTTCTATCCTTTAATAAGCCTGCTGCGTTTATTATATTTGGCATTATGGCACCTAATGAAATTCCTGCTAAAGCTGAAAACAGCCAAATTAAAAGAGGAGAAGACAAGTAAAACAACGGTAACACTATAGCGTACGAAATTGATGACGCTATAAAGATTTTCCTTCTAACAGGAGATTTTAGTCTTGCATTAATTATTCCGCTGGTTATAAATGTGCCTAGTGAAATTAAGGCAGATATAAGTCCTATTTCTGTATTGTTAAACAAAAAATCATACCTTGCAATTAAAGGTATTGTAGTTATTAGCATATTATTTGATGCCCTAATAGCAAAGGTCATAGGAACTATAATTAGAAGTGCTTCTAAAAAAGAGAGATTCTTGTTATTCATAAGTATAGGTAACAATGTTACCTATTTAAATTTTTCTTAAAAACAATATTAATAGTCTAATCAAAATTAAAAGACTCAAAGCATTATATTATTCTATAATTAGGGATTTCGCTTTATAGATTCGCAAACGATGAAAAATTTTCTTTAGCGTAAAATATACAGAAAAATTATAATTTAGCTGATTTTACTCCCCAGAAGTAGAAAATCAAAGAACCTATAGCAGATATTGCAGAAGCCTCGTAGAAATTCAATATAGCTAAAGCTCCATTATCTCCTATGTACGTCATTAGAGTAAGAAAACCTATGAAAAATATGTACCAAAGAGAATTTCTTACGTCTTCTTTTACCTTATAAACTACTGAAAAAACAGTAGACGCTATTGCCAACAATAAAACAGCATAAGGTACTGATGGCCATCCGCTCCAATATATTATTAAAGACGCAAAAATGAAAGCCAATACTGAAACTATACTTGAAAATGGTATTACAGATTTTATCTTACCTTTGGAAATTAAGGATTGCATAGCAACTGGATTTGCGGAAAAACCTATGTATCCAGCTACTACAGAATCGCTTATTAGATTATAAATAGTTGGTAGAGGAGCGGCTATATAAGCTACTATAGCTCCGATTATGACGAAAACTATTAGGGACCACAATGGGACAGAGTATTTATTTAATTCTTGAATCTTATCAGAAACATAATTAGATCTACTCATAGAAAATAATACCCTTATTCCTCCCCCTTGGTAAATGTAACCAGTAACAAAAGGACCTATTATGCCTATTATTGCAGTCAAAACTAGTAATGAGTGAACTACCGCGCCCTAACGGACGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGATCTTCTTAGGATGTTGAGGGAAGCATTATAATCACGATCAGCGACCCAACCGCACTTCGGACAGACAAACACACGATCAGCCAACGTCAAATCTTTCTTAATATGTCCGCACCTAGCACAAGTCATTGAAGTAAAAGCAGGATCCACTAGAGTGAGTTTCTTACCATACTTCCCAAGTTGATACTCCATGACACTCCTAAGCTCATGAATAGCAACATCGTGTAACCTCATCCTCAGCCTTCTGAGAGACTTACCAACAAGTTGCTTAACATGAATATCCTCCATTACGAGAACATCATAATGCTCAGCAAAATACTTACCAAGTTTCATGTACATGTCCTTCCTAAGGTTCTTCAAGTGTTCGTGAGCCCTCGCTAGACGAATCTTTGCCTTAAACCAGTTGTGTGACAAGAACTTCTTCCTTGAAAGAGCTTTATGAAGCCTCTTCATCTTATTGAGTGCCTTCTCGTAAGGTCTCTGGTTGGGGACATATTCCCCGTCAGAGGTAGTGAGAAGTTTCTCTACACCAACGTCCACAGCAACAACTTTGTTTGTCTTGGGGAGTTGAGGATACTCTTGATCCACAACGAAAGTAATGTACACTCTCCCTGATGATGTTAACTTGATTACTACCCTCTTTACCTTGTCTAGCGGGAAGTCCCTATGAACAATAACGTTGAAGATCCCTAGGTTTGACAGCTGAAGCGTTATTACCTTCTTCTTGTTCTTCTTGCTCTTCGTCCTTATTTCTCTCACCTTCAGGACTTTCCAACCTGATTGAGGGTAGACGAGGGAGTACCACTTGTGTGCTTTCTTTTCCTTTGGGAAACGTGCTAACCCATCGAAGAACCTCTGTCTAGCGTCGTAGAATCTGTCTGCAATCTGCTGCAGTGTTTGGGAATATAGATGTTGATATTGTTCATCCTGTTTTCTCAGATCGAGAGCTAGTTGCCTCAACTCCGTCTTAGTGAGTCCTTTTCCATCTCTTTCATGAAAATAGATGTCTGCCCAACGTAGGGTGTTGTATACTTCTGACGCTAACCTCAACTGGGCTTTTAACGCCCTCAATGTTTGTTCGTTAGTGTACGCTCTGAAGCGTAACCCTACGTCTGGCATTAATAGGATATTTGAAAAATACGCATTTAAATGTAACTACAAAGGGGGCTCCTACGGCGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCTTTACAAGAGTAAAACTTTTATAAAGAGAACAAGAAAATAACACAAGCCGAAAGTGGGCATGGGGATAAAACCCCGTTGGATAGGCTGGCTATACGTCCCCGCGATCTAACATGTGGGACAACATCCCGAGTAGGAGCGTGCAAAAATTTAAGGGGACGTTCTCATAGTTAGTTCGCACTATCTCCTAACAAAATTAACAATACAACGCGTATTATAGAAAAATTCAAGAATCAGAAAAAGAGTATTACACATACAAAGTGAAGGTCCTAAAGTTAACCTCTATCGAGTGGTTTCCTCGGCTCTTCAAGCTATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTATCCATCTCCACCCTTACGGATGGAGTCTTCCGCCCCCTTTGAACCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGGTCGACCCTTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATCTAGTATCGAGTGAGGGGAGGGTCTACACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCCAAATATACTATGGAAGGAGAAGGACTTGAGAGGAAAGAAAACAGATTTTTACGACGCACAAAAACTAATAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATACGTCTTCCTAAAAGTTGAAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAAGTGACGAGGAAAAAATAAGCAAGGAAATGCTTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTGGAACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATCACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGGAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGCGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTACACTGCTTTAGCCAGGAAATTGGCTAGAATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGACCATAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCAAAATATTTATTACTGAACGCCCCCTTGTTAAGATAAATGGATTTCCTGCAAGATTACTTAAAGCTCCCCAGTTTCCTATAGATATTCCTAGACCGCTCCAGTCTAAGGAAGCTATAAAAGCTATTGCGAAGGCAACGTAAATAGTTGTTTGTCCTAAAACCGTATAGAGTATAGCCTTACCTAGCACTTTATGATCTTTAGTTTCTTCCGCATAATCTGGAATTACCCTTATTCCACCAAATGCAAACATTGCTAATGGTATAGCAGAAAATATACCTGCAAATCCAAATGGAGAAAATCCACCATACGCAGTAAAATTCTGATAATGAAATAAATAAATTAGAAATCCAAAAAGTACTGCTAAATACAGAATCATTTTTATAGTTCCAAAGGCAGTTGTGGATTTTCCAAAGAATTTTACCGAAAAGTAATTAAATGGAATAAAAAGAAGCATAAATGATACTCCTAAAAGAGCTCCTAGTGTAGTTGGAGCGCCAGAACTATTAATAAGGACAATGTTATATCCAGTAGTAAAATAATTGAGTCCCTCAACTACAGCCAATGCTTCAATGGGAGGAATAAATAAATACCAAATTAAATCAGAAAACGCATTTATCATATTAGTAACCCTACCATGTGAATATAATGGATATCTGGATGGACCTCCGGCTTCTGGAAAATTAGTTCCAAGCTGAACGTATGTAAGACCTATAAATAAGTAAAAAATTCCTCCTAATAACCATGATATTACTATAGCCGGACCAGCCACAGCTGCCATACCTGCTGAACTAAATAGTACTCCAGTCCCTACAGCACCCGATATCCCTATTAAAATAAGGTTTATCAAATTAAGTTCCTTTCTTAAAGAACCTATTTTTTTCTCCATATAAGGTGAAACTATTATTTGGTTTAAAAATCTACTATACACTAATGTATACAGTTTTTAATTACTTATATATTTTGAATGGTATTATGAAATAACAATGATGATTTACGTAGGAGAATAATATACTAATAGCATATGTTCATTATATTAACGCTATAATTAAAAACTTTTAAAAAGACAGATTAATTAAAGTATAATTAATAATATTATTACATATTTTCAGTCAAGCAAGATAGAGTTTTTTTTCTATAATTAATTGTTATTATCTATGAAGATATCCTCATGGCCTTACTTTGAGAAATGGATATTTTTAGGTTTTATTATAGGAATTCTCATAGGCGTATTCTCCATTTCATTTACACTACTACTTAATTTTTTGGAAACTATTTTTTTGAAAGATATTTTACAAACTACAATACCTAAACCACTTGGAGAAGGAGGGAATTTAAATTATACTTTTGTTTCTGGAAGATTCATTTTCTTTCCATTAATTGTAGGATTAGGCGGATTAATTTCTGGCATTCTTATCTATAAATTATCTCCAGAAACTGCAGGTGGAGGTGTAGACTTTGCTATTGAATCTTATCATAAACTCCAAGGTAAAATAAGAAAAAGGGTACCTTTTGTAGAGCTTTTCTCTTCTACTTTTATATTGGGAAGCGGTGGAAGCGCAGGAGATTTAGGTCCTATGGGACTTATAGGAGGAGGTTTAGGTTCAGTTATTTCTCAATACTTCGGACTGACTCCTGAGGATACAAGAAAAGCAGTAGCTGTAGGAATAGGAGCAGGCGTAGGTTCAATATTTAAAGCCCCTATAGGCGGAGCCCTACTTTCAGCAGAAATACTTTATAGAAGAGATTTAGAACCAGACGTAATCTTGCCATCAATGATAGCCTCTGCTACAGCATACTCTATATATGGCTCAGTTGTAGGTTTTGAGCCATTATTTGGAATTTATCCATTTCATTTCTCACCTCTAAGATTACCGCTATATGCGTTATTAGGAATTATAATAGGAATTTTATCTATTTTGTTTGTAAAAATATATAAGAGTATTTCAGCTTTCTTTAAAAAAATGAAAATAAAAAGTATATTTAAACCAGCTATCGGAGGATTAATTACAGGCGGATTGATATTAATATTTCCAGAAGTCATAGGAACTGGATATGGTTGGGATGATATTTTAGAATTTGGAAATTTTAGTCCTATAAAAACTTATGGAATACCAATAATAATATTTTTATTTATTTTAGCTATAGCCAAAATGGTTTCGTCCTCATTAACTATTGGATCCGGAGGATCAGGAGGAATAGAGGCACCAGCGTTCGAAATAGGAGCTTTTATAGGAGCAGGCGTAGGAATGATTTTCCATAATTTATTACCATCCCTAGTCCCTTACGTTGCTCCTTTCGTAGTAATAGGAATGCTTACAATGTTTGGAGGACCGGCTAAAGCTCCAATTTCAGTAATGATAATAATTACTGAAATGACAAGCTCCCTTCAACTATTACCTGGAGAAATGATAGCTGTGGCTCTAGCATATGTTATAACTGGGAAATATACACTTTATCCTGCCCAATATCCTACAAGAAAAGATTCTCCAGCACATAAAAGTGAATACGAAATACCTGTAATGCTAAGTATAAAAATTGATGAATGTCCCCTTACAGAATTAAAGGCTTATTCCACTGACGATATAAAAGAGGTAAGTAAAAGAATGGAAGAAGAAGGTTACTTATCCTTACCAGTAGTAGACAAGAATAATACGTTTATAGGTATAGTATATTACAGAGATATAGCAGATAAGAAAGGAGAAGTAATAAATTACACTATTAGAGGTGTACCTTATGTGTCACCTAATGCTAATTTAGAAGACGCATGGGAAGTTATAAGTAGAACTAAATCAAGATGGGTTGCCGTTGTCGAAAACGGTAAATTAAAAGGTGTTGTTACTGTAGAATCTTTACTTGATAGATATGAGAAAGAAGTAATGAAAATAAAAGGAAAAAGTGAAAATAACGAAGAGTATAATTCATAAATTAACTGCATTATTTAAAAATTATATTAACTCAACTATATTAAATCATGAAAGAATTAAAATTAAAAAATATTAAAAAGCTTTGATTTACCATTCTCCCATAAACTTCTCTAACGCTATGTCTCCCTTAGACCACATGAAATATTTTACAAACAATTCTTTTTTCAATGAATTTGTAGGAGATGGAACTGCATCTGATCTAGTTCCGCCATAGAATGTTTCATCATGTACTGCTACTCCGTATCCCTCTAATGGATCATCGGCTATGCATACTACTGCAGGAACATATGTCTCTATCTTTGTAGGTACACCTAATCTAGTAGCTAAATGTTCAGCGGCTATTCTTCCAGTCTTTACTGCTAGATAAGCTAATTTAGGAACTGTCATTGCATTTGCGTCTCCAGAAGCGTATATATTATCATATTTTAATGATACCATATTTAGATCTGTTGGTATGAATCCTCCATCATCAACTAGATCTGGAGTAGAATTCTTTAACGCTGGATTACCAACGTAAGGTGGTAAAATTAAACTCAAATCTGAGGGAATACTATTTCCCTTTTCGTCAATAACTTCGTGTTCTGTTATTTTCTCTACTTTAAAATTATTTATTAAAGTTATGCCCATTTGTTTATACATTTCCCCCACTGCTTTCCTGGCTGCAGAAGATAAATCAGATAAATATTCACCCGGAGAGTACACAGTCATTTTTACTTTATCTAATATTCCCATTTTCTTAAAGTAACCATGTAACATTAATGACATTTCAAATACTGGCCCTTCGCATGCAGCATCAGAAAACGGTGCTAGATTTTCAGGAACCTTAGGTCTTGGATTTCTTCCCTGGTAAAAGTATCCAGAACCTATGGTTACGTTTCCACCTTTAAATTGCCTTAATCTGTCTCTTAGTTTTACGGCATAATCTGGCTCACAAACACTATATCCATAAGCATCAAATCCTTTTATGAGTTCTGGAGCTAACCTAGCTCCTATTCCAACTATTAGGTAATCATAATCTTCCTCTTCTGTTGAACCATCGGGCTTTACATAAATAACTTTATTGTTTTTTGCATCCACTTTTGTTATTTTTCCTTCTTCGAAAGCTATTCCTTTTTGAGGTAAAGCTTCAGATAAATCTAATTTCCATTCATCAACATCTTTAACTCCTATAGAAACATGCGGCATGTCAAGCCTTAACCAGCTATACCTACTTTCATTAATGAGTTTTATATCAGCTTTACTTCCCACTAATCTTTTTAGCGTATATGCAGGCGTCAAAGCTCCGAATCTTCCTCCTATAACTAAAACCTTAGTCATTTTATATCAAAATATCTATTGTTCTTCATACTTTAAAAACCTTTTTTATAAAAAACATATAAATTTCTAAAATATTTATTTCAATTCAATCACATTTATAAAATAAATTATCATTATTAAAAATACTATATTTACAAGACCTTCTTTAATGGCTTATTTTGTTTTCTTCTTTTTTCTACTTCCCTAAAACTCATTATTATACTTGATATACCTATTAGACCTACAACAGAAACCACTAGAAGGAATCCTATATTTATAGCGTCTAAATTAGGTATCGGATTACCAGTTGAAATCGAAAAATTATCTATTATAGGGAATGCTATTATTAGTAAACCAACTATTACAAACGCCAAACCTCCATAATAAAGAGTTCTTCCAGCACTTTTCCCTGCAATTATCCTCATTTCGTCTTCGTTTAATTTTTTCAATTTCATAATATTTGCAAACATTCCTCCAAAGATTATTTGCATAGTCATTGTGCCTAAACCAAACATTAACCCAGGTAAAGGTGCATATATTAGACCAGGAACTTGGGGTGCTAATATGAATGTTATAATTGTAGCATATGCTCCAAAACCGAAACCTGCAATTAAGCCATGAACTATAGTCATCTTTAATGGAACATCTCTTATATCTTCGTTTTCATTTCTTCCTAGAAGTCTATCTATAGGAGATGAATATATCTTCCGTGTAGTATATAACTGCCTGCTATTGCCATTACAATTCCTACAATGAAATACACTGGACCATCAAGATTGTATTCTTTATATATAGCAGCTAATCCAAGGAATCCTAAAGTTGTTAAAAATGCCCTTTGTATTGTAAATCCTAAAGAGAACAAGAATCCTGCTTTCATGCCTTTCTTAGTAGAATACTTACCTATGGCGTAGCTGAAGGTAATTGGCCATGTATGTTCATCTGGCGTAGCACCGTGTAATAATCCTAGAATGTATGAAAAAAGTAATATAGTACTTAATGTTAGCCCACTTGATGGGTTAAGCAACTCTTCTATCGATATCATAATAATATTTTAGGGTTACCCTAAATATATAAATTTTTCTATTTAGATGATTATAATGTTAGAAATGAAAAGAATTAAAAGATACAATTGATTTATCATTTTATATTAAAATAAATCTATCCTATAAAGTAAGAAGAACATGAAAATTAAATAAAAGATAGATACCACCATATTAAACAAATATTATGAAAAAATTATTAAAATACTACTCTAACGTCTACTGCATAAGCTCCTTTTTCATTTACTATTAAGGGATTTATATCCATCTCCTTAACGTTAAGATCCACTAGTAACCTAGAAACTGAAACTATTGTCCTAATTAAGGAACCTTCGTCATAGTTCCTTTTTCTTGCATTAAGCATATCATGAACCTTACTTTCCTGAAGCATCTCTAATGCTTCGTCTTCATATACTGGAGCTAAACCATAGCTTACATTTTTTAATACTTCGACATATATTCCTCCGCTCCCTACCAATACAGTATGTCCGAATACTGGATCTTTTAGCCCACCTACAAAGATTTCTAGTCCAGGCAATTGCTCTTGAATCATAACCCTCTTTGTAATTTTTGATAAATCTTTATACGTAGATTTTATCTGATCCTTTTCTACGTTCATTATAACTCCTTTCATTTCAGTTTTATGTACTGGAGTATCTGCAGAGATTTTCATGACAACTGGATATCCTATATTATCTGCAACTCTTTGCGCCTCATCTTCGCTTTCAGCTATTCCCCATTTTGGAGTTCTAATTCCATAAACTTCCATTAATTTGAGAGCCTCATAATCTTTAAGAAACTGCTTACCTTTTACAATCTCTACTGCAGAATTTATAGGTTGGGCTACTCTTATTTTCTTTCTAGGATTAGGCTTTGTAGTTAAATATCTAATAGCTCTTACTGCACTTTCAGGCATGTTAAAAGCTGGTATTGATGCAGATTCCAATATTCTCATAGCAGAATCTTCATCAACTCCCATTACAACTCCTACTATGCCTTTCCCCTTAAAATTAAGTAAAACCTTAGCTACCTCACTATCACTAACTACAGGAAGTGATTGAACTATTACCAGTTTAGTACAACTTAGATCTTGAACAATTTTTAACGCTTCCATATATCTATCTCTTCCAGCGTCTCCAGAGAGATCAAGTGGATTCTTAGGTAAGCTGGTATCAGGCAATATTTTCCTTAAGTCATCCTTTATTCTTTCTGGTATCTCTATCATATTGAGGTTGTTTCGTGATATAGCGTCAGAAGTAAGAACTCCATGTCCTCCAGAATTTGTCACTACAAGTATATCCTCACTAATTGGTTCCGATGACGTTGTAAATCTTGATAGGTTTAAGAAGTCGCTAAGATCTTCAACAAATATTCCTCCTACTGTCTTTATTGCGGATCTAAAGACTTCATAAGAACCTGCTAAACTTCCAGTATGCGTCTTTACTGCTTCTGCACCTTTAGATGTAGCTCCTCCTTTTATGAAAATTACTGGTTTTCTTTGAGTAGCGTCTGGTAATGTGTCAATAAATTTTTCTCCATCTGAAACTCCTTCTAAATAGACAAATATTGCCTTTGTTTCAGGATCTTTTGATAAATAATCTATAACTTCATATTCTTTTACATCAGCTTGATTTCCCATACTTACAAGAAAACTTATCCCTGTTCTTGTTCTTTGAGCCCAATCTAACATATAAGCTCCTATTCCACCGCTCTGAACAACTAACGCTATGTTCCCCCTATTGATATTTGCGTAAGCAAAGGTTCCATTGTAATCGGGGGAAACTATACCCATAGTATTTGGCCCTAAGAATCGTATTCCTCCCTTTTTAGCAGTATTTATAAGATCTTCTTCTAGTTTTACTCCTTCACCTCCCACTTCTTTAAATCCTGCAGTTATCACTATTGCTGATTTTACTCCTTTAGCTATGGCATCCTCCATGACGGAAATAGCAAATTGCCTAGGAACAGAAATTATAGCTAGATCTACATCTCCAGGTATATCTTTCAAAGTTTTATATGCTGTTAATCCCTCTATCTTATCTGTAGCTTTATTATTTACCGGATAGATTTTCCCTCTAAAAGTTGATATTAAATTTCTTGTTATAATATTTCCAATCTTTTCTCTATTTCTTGAAGCTCCCACTACTGCTATTGACGATGGTCTAAACAGATAATTTAAACTCATAGCATAATTTAAGAAATGGTCATTTAAATGTTTAGAGAAGTCTGCGCTCGTTGCAATAAGGAAAGAGAAGGTTTAGAATTAAGATGTAAAAGATGTGGTGGACCATTTAAAATAGAAATAGATTTCCCATTTTCAAAAAATCTTAGAGAAAACTTTCCTTATATAAGCGAATGGACAAGCTTAGGGGAGTGGAATACACCAACAATAAAAAGCAACGTTTATTATAAACTAGACTTCCTAAATCCAACTGGTTCATATAAAGATAGGGGATCTGTAACTCTAATTTCTTTTCTAAGACAAAAGGGAATAAAGAAAATATCTGAAGATTCCTCAGGAAACGCAGGAGCTTCTATAGCTGCATATGGAGCTGCAGCGGGAATGAAAGTAGCAATATTTGTACCGTCTAATGCACGTGGTGGAAAATTAAAACAGATAGAAAGTTATGGTGCAAAAGTAAACAAGATAGAAGGAAATAGAGAAGATGTAGCAAAAGCTGCTGAAAGTTCAGAATATTATTATGCCTCTCACGTCTTACAACCCCAATTTAGAGATGGAATAAGATCATTAGCCTATGAAATTGTAAGAGATTTAAATTGGGAAACTCCAGACAGTGTTTATTTACCCACTTCTGCTGGAACTCTACTTTTAGGAGTATATGAGGGCTTTAATCATCTTCTTAATAACGGAATGATAGAAAAGATGCCTAGACTAGTCTCTATACAAACAGAACAAGTTATGCCTTTATGCTCAAAAATTAATGGAGTTCTTTACTCTCCTCCAGAAAAAGTGACCTCTATTGCTGACGCATTAGTTTCTACCAAACCTTTCCTCCTTCAAGAAATGGAAGAAGTAATAAGAAGATTTGGTGATTGTATTGTTGTTTCAGACGATGAAATACTTACCGCATGGAAGGAATTAGCTAGGAAAGGTTTATTAGTAGAGTATAGTTCTGCTACTACACTTGCAGCATATAAAAAAGATAAAAGAAAAGAAGGAGAAAAAAACGTCCTAGTTCTAACAGGATCAGGATTAAAAATTCTCTAATTCAAAAAGTAATTCTTTCATCCATTCTTTTGCTTTGAAATAATCCTCCTTGTTTATATTTTCATTAAACGAATGTATATTTGATCCTGCATTGTCTACTCCTACACCATCAGCAATTTGATTGTTATTTAAAATTCTAGCAAAAGCTTCCATTGGACCTGTACCAGGACTATTAGGAAGAACAGTAGGATCTTCGCCATAAACTTTCTTGGCAGAATTTATAATAGCCTTAGCTATTTCGCTCTTTAAAGACGTTCTATAAGGTTTGACTTTTCCCAAAACCTTAATTTCAAAATTACTAGGAATTATTGAATTTAATTTATCTAGTATTTCTATGGGATCTTGATCTGGCACAAGTCTGAAATCAAGTTTTACAAAAGCGTAAGAAGGAATAACAGTTTTTGACCCTTCTCCAGTATATCCGGAATTAATACCGTCTATATTACATGTTGGATTTTCTACTACTCTTATCATAAAATCATCAGGGACTTCCTGGCCTAGTGCTTTTTCCATTCCTTTCTTATCTCCTTTTAGATACTTCTTTTCCTCGTTAGATAACCACTTAACCTTATCGTAAAATCCTTTAATATTCACCTTACCTTCAGGAGTTCTTAATGTGTTTAAAAAGTGCACTAATTCCCATGCAGGATTTCTCACTATAGGAGCATACATTGAGTGAAGATCTTTTTCGGTCCTTACTCTTAACTCAACATAAAGCAGCCCTTTAACTCCTAATACTATTTCTGGAGAATCGTCTGGACCTCTACCAGAACCTTCCCATAAAACATAATTTGAGCTCAACCTATCTTTATAATCACTAAGGAAATCTTCAATGTAAGGACTTCCTATTTCTTCTACTCCTTCGTATACAAATTTTATATTAATCTTTAGTTTTCTTTCTTTCATAAGCTCTATTATAGCTTGCAACCTTGCCATTAATGAGCCTTTGTCGTCTGCTATACCTCTAGCGAAGATTTTTCCATCCTTTTCTACTGGTCTAAATGGATCAGTGTTCCATTTATCTAAAGGTTCTACCGGCTGCACGTCATAATGATTATAAATCAATAGAGTTTTGTTTGAATTGACGTCAATTTCTCCAATTATATATGGGTTTATAGCCTTATGTTTAACAAGTTCAGCTTCTATCCCATTGTCTTTCATGTAATCTAAGATAAATTTCGCACCTTCCTCTCCTTTTCCCTTAGCAGAAGTAGTATCTATTTTTAGAAATTCGTAAAGATCTTCCAAATCCATTACGTTTTTATTATAGATAAAGATTAATTAATTTATGATAAAATACGCAGAATATACAAGGCATTCTTTAACTGAACCTTTACTCTTAGTATACCTTTATAAAAAGGTGGAAGATGGTAAAATTGTTTCTGCTTTCAGGATACAAATGTATAAGAACATGACTATATCGATTTTTGAGGATGATAAATTACAAGGCGGAGATGTAGTAGATATATTGACTGGAAATGTAGATAATGTAAAGAAAATAATTGATAAATATTATGAAGAAAGCATTGATGACTTAGTGATTTATGGAGAACAAAGATATGTTGACGAATTATTAGATAAATTGGAAGATAAAGAGACGCAAAGCGCTTAATATTTTCAATAATTATTTAATTTTAATTAATCTAGCGTAAAAGTTAATAAATATTCTAGATGTTCTTATATATTACTTTTCACTATATTTTATAATGTACCGATACAGATCTATAAGTTATCTTAGTTACGTAATACTTGCAATACTAGTGATCCAATTCTTAGATGGTATGTGGTTAAACCTTTTTGCAGTATTTCCTCAAGTTTCTTCGTCTTTTAATGCTATGAATATGATGAGTTTCATGTTCAATTATGGACCTATTTTTATGTTACATATGATGTCTGGGTTTCTTCTACTTATTTTAGGCTTTATAATTCTAGCGTTTAGTTTTATGTCAAAAAACTCTAATATCGTAATTTTTTCTTCTATAGGACTATTAGCCATAATTCTTGCCGGAATTTCTGGATTACTCTTTATGTTCTCTGATTTTTCAAACAATATATTCTCTTACATGATGTCACTAGGATTTATAATAAGTATAGCGTCATATACAATAATTATAGGTCAAAGAAAATAGAATTTACCTATATAGGTTGAAAGACCATTAGTACCTATGGGCTCTACCGTCGACAAGATGTAGCTTTGAAGCATGAAGCCCATCGTTAGAGTAATTCACAACATTAATCTTCCGAATTTACTTCTCAAAAATACACCAGCTATGAAGAATGCTACGGCAAACAATATTATTACTGGAACAACTTCTCTCCAAGGACCAAAATCTTCTAAGAAATCTGCTACCCACATAGTTAAGCCAAAGAAGAATAATAGAGGACCTACAACTACTACCCAAGTAAATCTGCTATATAACTTACTATCTTTTTTCTGTTCTTCTTTTTCTGACATAGGATTAGATATATCGAGCTTAGTTATAAATTTTTACCATAAAAACTAGAATATGTTTCTTTAACCTAATACTAGTTGAATATTACAAGATTATCTTTTTTCTAAAATCTTTGTAATCTCTTCATATAATTCCTTATCTCTATCTTGAATATTTTTAAGAGAAGGAGGAAGAAGCTTTTTCTCCTGAACTCCTCTTATTACAGATCTTAACCATGCATCATATATTTTTCCTGAACCGTTCTTATAGTAAAAATCTTTCAGTTCTTTTAACGCTTCTTCTTCATCAACTTTCTTTACATTAACTAGATACCTTGAAGCCACATATAATATGAACCTTTTTCTTCCATCGGATAACCCAGAATTTAATATTTTCTCTATCCAAGAATAGTTTCTTGTAGTTATCCTGGGAGGAAATAATCCATTAACCTCAAAGAGTAATTCTCCCTTTTCATCATATACTTTTGAAAAAATTCCGTCATATATAGAGTATCCAGCAGGAGTATCGTCAGGATAGTTAAGCAAAATCTTTATCTTTTTACTCTGAACCATTAATTGTAGTATTTGTAGAAATTTTATTAAGCTTTATCCTTATCGCACAAAATGAGCATATATCCCTATCATTATTAGTAGGTCTTCCACATATCTTACATTTACCTAAAGTTAGCTTTGGTACATCGTTTATCCATGGTCTTATTTTATCTTCAAAATTTTGGACTAAATTCAGCATAAAACCAGGAATTTTGTCTTCCATTTCTTCTAATGATCTTCTTATCTTATCTTGTGTTGGACCGCCCACCCTGAAAGTATGTGGACAAGAATCATAAATAAACGGTATATTATTAATTAATGCATACGTCATTATTTCCTTCTCTGGAGTTAAGAACAAAGGCTTAACCTTTTTTATGTAACCTAATTCTGCAGGAGAGACTACTCTTAATCTTGCTAAGCTATTTACGTCTCCATTAAAGTATCCTATAAAAACATATTGTGCTACATCGTTTAAATTGTGAGCTGTAGCTAGAGTATCCGCTCCTTCTTTACTAGCCACTTCGTCTAAAACATATCTTTTAGTTAAACCACATGTGCTACAAATTGGCCTCCTTATTTTATGCTTAGCTTCGTCTATTGTAAATCCATATTCTTCATTAAGCTTAACTATCCTATATCTTACACCTAGAGCCTCATAATTTTTAATAGCAAATTCTACACTTTTTGATGAATAACCTTTACCCATATCAATTCCAAGATCTATTGTTATTCCAAATATCTCGAATCCTAATTTCTTTGAAAGTTTATTCAAAAGATGAAGAAGTGTAGTACTATCTTTGCCTCCAGATACTGCTACTGCTACTTTTTTGCTTCCCTCAAATATTTTGTATTTTTTAACTATTCTTTCGAATCTATTTTCAAACCATTCGTTAAAATGCTCTTTACATAAATAAATATTAGCGTATGGAATTTTTATAATAGCTTTTTCGTCACACTTTGAGCATTTCACAGGAAAAGTATATAAATACTGGTATTAAGACTTTGTTACCATGCAGATTTTAGCAGAGGTACATCCTAAATCTAAGAGGGAAAAACTGAAAGGTGAAATAAACGCTTTGCAGTCCTTTGATGGTTTCGATATTCCAGACTCTCCTTTAGGATTACCTTCAGTTTTACCATCTTCAATTGGGGTAATGATAAGAGAAGAGCTAGGAGATAACAAGAGGATAATAGTAAATCAAAGACTTTTAGACGTGAACGAATTATTTGTTAACTCTTTATCATACACGGCTAGAGCTTTCAATTTTGATATAGCGTTCACAAAGGGTGATAAACCAAAAATAGGTAAAGAGGTAGGTTATTTATCTTCAGAGGAAGCAGTTAACATTGCAAAAAACATTGGAATTAAAGCTGGCATGATGTTAAGCTTAAGAAAATCAGAAAACGAAATATCCGCAAGAATTGAATCCAACGCAGATTTTTTCTTAGCGCTACACTTTTCCGAGGATAAAATAAAAACTCTAAGAAGAAATGTTATACCGTATATAATAGTAAAAACTGAAAAAAATAAAGAAATAATTAAGGAAATAACTCAACCCACTATAGATGAAAACAAAGTTTATGATGTGTTAGCTGAACTAGATGGTTATTGTGACGCCGTACTTTTATCTTCTCCTGGAGATCTAGAATTCTTAAAAAGATTTTCAAAAAAATCTTAAGCTAAATTATATCCACAGTTCATGCAAAATCTAGCATTACTGGGATTCTCATATCCACAAGCTGGGCATCTCTTTGTCATTTGAGGAGATTGTGGAACTGGATATGTTTGTGGATAAGGATATGATTGATAAGGTTGAGAAGAAAATTGCTGAGGGAACTGTTGACTAGACATAATTAGTCTTTCTACTTCTTTCATTGTGTCTTCTTCTATTCTTAAATCATAGATCTCTTCTATACCTTGAAAAGCTGCTAATGGCCAAAAAACTAACGCAGTTATCACGTCTTCAGTAGCATCTGCAGCCTTAACCCAATTTGACATTCCAATATCCACGTTTAAATAACCTTGTCCTCCCATTAATCTAACCGTGAAAGCTCTATCTGCACCTACTAAAGCTCTAAAAAACCCTTCCTTTTTAGCTTGTACAATAACAGAACTTCCTGAACCTAGAACTTGTGTCTTATAACCCTTAGAAGAAAACCAATTTTCTAGAAAATAAGCTATTTGCTGAGGGTTAACATAGACGCCTTGAAAGCTTTTATTCATGAAAGTAGGACTTCCTTCTGGATTTTAAAGATTTTTCATTATTGTACTTTGTAGACTAGCTGAATTCTCTTAAGTCTGTACTCACTAGTTCAATGTAAATTCTAAATTCGATGTTTGATTAAAAGTAAGTTTAACATTAGAGAATAATTGAAGTAAACCATAAAGCATCATAATTATAGTTTAGTGAATTCTTCAGTCACCATAGTCCATTATGTATTAAGAGTTCCAAAGTTTACTTGAAAAGTTAATTTTTAAGAAAAATTTAATTTGAGTATTTATAATTAAGAGTTTAAATAACTGTAGCTTGTTATATTACCTTCTTTGATTAACAATACATAACAATTTTAACCTTCTTATGTTTATACCTTAAATCAGGCAATACACTTAAACATGTAAAAGTAATTCTTAAGTCTATGAATGTAGTCTCAGAAATTATCAGCTATGCTTCAGGTTTAAGCTCTGCAATATCTACTGCTGCACTTATTGCTACAATATATTATTACAGGAAACAAACTCAACTTCAACAAACTCAGATCGTAGAATTAAAAAAACAATCTTCAATCCAAGAATGTCTACAAATGAGGGATTCAACTATAAGATTACATGAAGTTTTAACGCCTTTAATGCTAGAAGAAATAAACAATATTATTAATTTTAGAGAAAAAATTAACGAAACTTGCAAAGATCCAATTAAATGTATTGTATATATTCATAATTTATTAGCGAATTCTATAGAAAATCCTGAAGAATCTGAGACTATCAACTTTCTTGAAGAAAATGTTTCGAAATTAATTAGAGATTTAAATTCGTTAAAAATAGAAGATCCTCGTTTTGAAAGATATGAAAATTATATTGAAAGTATAATTAATTCTATTTGTAATTCTTACTCTTTAACCGAAGTAAAGAAGGAAAATTGTCAAGTACTTGATGAGATTCATTTTCTCCAAAAACACTATGGTAATATAAGAGATTCTGAACTTTATAATTACATTGATTTACCTATTTCTCAAGACATAAAAGGCTCAAAACTTGAAGAAAATTCAACTAGAATAGAACTTAAAAATTTATTCAAAATTGATAATTGGGATGAAATTTCAGACATACTAGATAAATTTGATTTCCTTATAGATTCTAAGTGTGGAAATTCAGAATGTTCAGAAAAATTCCCTATTAAAGAAATCTTTGATGGAAAAATTAATCCGTTAAAAGACATGCTTAATAATCCAGAAGAATTCTGTAAACTTAACGAAATAAATCTATGTTGTAAAGAATTTGAACCAATACTAAGAAAACTCTCAAGTGCAATATATGATGAGGAGAAGTCTAAAATTCTTTATTCATTCATATATCTTAATTAGTTATCTACAAAGATTAGAGGAATACTTAATACTATTCAGTTACCGTTTGAAGTAGATTTAAGGGTAAGAATGCGAGCTGAATTAGAAAGAATAACGTGTACAGAAAAATAACTATATTATTTTAGATTTAACATCGAGTGATAGTTTAAGTATTAGTTCGTATATTTTTAAAAAAGGAAAATTTATAATCTAGAGAGACAAGTAACGTGTTATGTTCAGTAATTTGAGCGATGAACTCAAGAAGGCTTTGAATGAAATACATTATGACAAGCCTACTAAGGTTCAAGAAATAGCTATTCCTCCTTTCTTAGCAGGAGAGAGTGTAATAGTTCAGGCTAAGACTGGTTCAGGTAAGACTGCATCTTACCTTATTCCTATAATTGAAAGAGGAGAGCAAACAATAATATTAGCTCCTACTAGAGAACTTGCAGAACAAGTTCTCTATGAGGGAAAAAGAATTGCAAAATATAAAGGAACTACCTTTGGTTTAGTTATTGGAGGAGTAGGATACGAAAAACAAGAAAAAGAAGCTAATAATGACGTTATAATTGGAACTCCAGGAAGAATTCTAGATTTATGGGGTAAAGGTATACTTGACCTCTCTAGGTTTTCTATAGCTGTAGTAGATGAAGTAGATAGAATGTTTGACATGGGTTTTATAGACGACGTAAGAATGATACTTTCTCACACTAGCGCAAAGAATTTCGGATTCTATTCAGCTACAGTACCTAAAGAAGTAGAAGATCTGGCATTTGAGTTTGCACCTAATGCTAAAATGTTAAAAGTAGATGAATATAAACCTGTAGAAATAGAACATAAATTCCTTTTAGTAAGAGGATGGAGAGAGAAAGTAGAGAAAACTCAAGAAGAAATAAAAGGAAAAGCTATTGTTTTTGTTAATACTAAAGCTAAAGTCGATGATTTGGCTAGAGAATTATCAGATGAGTTTGATATTACAGTGCTTCATGGCGATTTGCCTCAGTCTGCAAGAAACAGGAATTTAACTAAATTTAGGAAAAATGAAGCCTCAGTATTAATTTCTACTGATTTAGCCGCAAGAGGAATAGATGTAATAGATGTAGACGAGGTAATAAACTTTGACGCGCCAAGGGATATAGAAACTTATATTCATAGAGTAGGAAGAACTGGAAGAATGGGAAGAAAAGGTTTTGCTATAACTTTCTACACTAGGAGAGAAGAACAGCTAATTAAGAGAATAAAAGGAGTAATTAAGACCGTTGAATACGATTAATATTTTTATATTTCGTTCTTCTTATTATATCTTATGAACACAAGAGACAGCATTCTAGTTTTACTTTATGAGAGAGGAGAATTAAGCAAGGAAGAATTAGCTAACATGTTAAGACAAGAAGTAGATGAAATCGAGGCCCTACTTAAAGGATTAGAAAGAGAAGGATTAGTAATGCAGAAAGAGAAAGGTTTGATCTTTAAGAGGAAGGTCTATGGATTAACACCCTCTGGTTTAGAAGAAGCCAAAAAAGCTAAGGAAGACCTTGAGAACAAAGCGAATAAACTGATTCAAGCTATACAGAATGGAGACTATAGTCAAATTCAAAGCTTTGAAAGCGACATTCCTTTAATGTTAGCACTATCAATGATAGATATGATGATGTTACAAGGATTAATGTTTGATATGTTTCAATTCTAAAAAATTATTTTCAAAAAAATTATTTTCTTTGCATAACAGTAGCTATTTCTTCTTCTTTTATGTTGCTCTTAGGTCTCCATCCCATAGCATAAGCAATAGCTGTTCCCAATAACGTTACTGCAAGGTTCACAGCTAACGAAATTATAGCCATATAAATCAATTGTCCAAGTATAGGATATAGAGATGTTGTGAATGACGTTAAATGTAGGAATATAAAATTCCTATAATATGCTAATCCAACGCTAGTAGCTATTCCAGCAATCCATCCTACTAATAGAGATTTTGGTTCTAATTTACGTGTATATAAACCTAAAAATACTGCAGGCAAAGTTTGAGTTACTAACATTCCTCCTAATAGTTGTAATTGAATAGCGTAAGTTGCTGGCACTATAAATACAAAACCTAATGCTAAAAACTTGAATATTGTTGACGTCCATTTAGCTATTCTAGCCTCAGAATATGAAGGTAAATTAGGCTTCAATTCTTTAACAATGTTTCTTGTGAACAAGTTAGCTACTGCTATTGCCATTATAGATGCTGGAACTAATCCTCCAACAAATATTGCTGTCATAGCTATTCCTATGAACCAGTTAGGCATAGTATAGGAAATTAAAGCTGGAACTGCTAATGCACCATTCCCTGTTACCTTTAATAAACTTAAAGCATGTGGTACTGCGTAAACTAATATACCAAATAACGAGATAAAGGCTAAACCTATTCCGTATATAGGTAACATGGAAGTACTATATTTTAGTTTTTCTCTATCTTGAGAACTTAATGAACCGTTTATTGCATGTGGATATAGGTATAGTGCAAATGAACTTCCTAGAGCTAAGGAGAAATATGCTGAAATCTCTCCTGCAGGCAAAGTGTCAAATATAGGCTTTAGAGTTTGAGCCGCAGTAAATGCCTTTGAAAAACCTCCTACTTCTAACGGTACTGCTATTATTACTGTAATAACTGTTATCCATACTAATACATCCTTAAAAACTCCAGTTAATACTGCTCCCCTTAGTCCGCTAACAAAAGTGAAAGCGGCTAGCACTAGAAAGGCTAAAAGCAAAGAAATTTCCTCAGTGAATTTACTAGCAATTCCTAAACCTAAAAACATCATTTCAATTACTGCTTCCATACCTACTATTTGAAGAGCTATATAAGGAAGTTCTGCAGCGATTCCAGTAGCGGCAACTACTATTCCTAGAGTTTTGCTATTGAATCTTTCCTTAACAAAATCAGCTGCAGTTATATAGCCTTTATTTCTCGACACTGTCCATAATCTAGGCATTGTAAGCAATGCTACACCGAAACCCCAAGCAACATAAGGTACTGCAAAGAAGTAAAGGGAACCTGCTGCAAATATACCAGCTGGTACTGCAATAAAAGTATATGCGGTAAACAAGTCAGCACCTAATAAGAACCAAATTAAAAACGTTCCTAATTTTCTTCCTCCTAACCCCCATTCCATTAATGATTTTAAGTCTCCACTCCTAAATCTAGATCCATAGAATCCTAAGAAAGCGAAGAATCCGAACAATAATAGAAATATACCTAATGTAACATAATCTATATTTGAATGTGGTATCATTATTTCTCACCTTTTGATTCTTTTATAAATGATACTCCCAAGAATGCTAGGCTAGTTATTACCAGCAATATTGTTTGATACCAGTAAAAGAAAGGTATACCGAATAGCTCTGGAGTAATCTTATTAAATAGAGGATAGAGAGAGTATATTATTATATCAATAAGTAATACTATTCCGAGAGTAAGATAGAACTTATTCATTGCAAAAATAGTGTGTAAAAAATTTTCTTATATTCCTTTTTTAGAATAGGAGATAGATTTAGTTTTTATTAAAATATAGTTTTAATGATATCTAGACAATTCTTTAATCTTAACTCGAAATATATAGACTTTTATATCTGATTTATAGAAGTTTCAAACGATATCAATTTTCAATAATATCAATCTCGTCTTAAGTTGAAATTTAAAACTTTTCAAAAACTACTAAAATATATTATTGAATCAGAGTAGCTAGCAGTAGGAAAAATATCTTTCAAAAAAAGTATAAATACGCATTAATATCTTAACTAGTTTTTAACCTCAATTTTTAATTACGACATAATCAATACTAATTAAAGTGTATATCATAGTAGAATCTCCTGAAGATGTAATAATACCTCCTCTCCAAGAGCTAACTTTTATATGCAAAAATATAATGACGGAAACCAAATGTCAAGGTCCTAGCATATTTAGAGATCCAGATGTACTGTCCGCTATGCCATCAGACATAATATCATTAATGAGTATTCATAGCCTTGTAAAATATAAGGCCAGAGGAAGAAAATTGGAGAGATGGGAAAATTACATTAATAAATATAAAATTAATATAAGTAGGGAAGAATTCTCTTTAATTCTAAAATTAGATGCATTATTGACATTATATGTGGATGGATATGATTTTAATGGAGTGAGTGGCGATGCTGTTATAAAAGAGTTCAGGTTAGCTAAGACTATGGTTAACGATGAGCTAATCATTGAATTAAGCAAAATAAAACCTAAACTTATAGTTATAAGAAATAAGCCAAATTACTGGAATTTAATATCTGCATATAAAGTAGAATATATTGATAAAAATCTGGCTAAAGCGTTTTCAAAGCTTAATGGTGTAAGAAGAATAGAATGTAATGACATAAGGAGTATAGATTCAACTAAAGTTTGTACTATAGAAAATTGAAATTGAAAAAAATTTGTACATATGATAAAGTTTTTTAAAAAGAAGACAAAAAATATATTGATGGCTAGGTCATCAAAAAGTAAAAAGAAGACAAAAAATAACGATAGTAAACTGATTTACGTTCCTTTCGTAATATTAGCTATAATAGTAGGGTTATTTATAGCACTACCTTATGTACATTCTTCTAATACTCCTTCTAGTATATCATCTACACAAAATAATGGTCCATTATCTGATTTAGTTAAAATATCCAACGTTGGTTACGCTAATACTACTCAAGTATATTTTATTAGCTGGTACGGTTGTCCATTTGGTGCTGCATTATCATGGCCATTATACATTGCATTACAAGACTATGGAAACGTATCCGTAGTTACGCACTATTCTATTACTGAACCAGATATAGATAATGGGCTTCAAGGAGTACCTGGATTAATATTTACTAAATTTAATTCTACTTCCAACGTTGCATTTCATTTCCTGTATATATATAATCAAAACTTGACTGCAACACCTTCTGGAGTTCCATTAAATAATAATGCAGTTTCGATAGGTTTACAAGAAATAAAGGATAATGAACCATATTTTGTATATAATATCATTTACCAATACGAAGTAAATGAAACATTCCCAGGCTTACTTGCTCCAATAGCTTATGAAGGACACCCATCGCATATAGCTACAGCATTAATAATTACAGGACCTAAGGGTACATGGCTCCTGATAGGATATCCTAATCCATTAACACCAAGCACTATAATCTCGATAAATAACTCTTCATCACAACTATTATCAGAGATAAAAAGTGGACATGTTCCTTCTCTTATAAATGATATAGCTAAAGAGATAATTGAAGCCATTAATGAAGCTCAATAACTTTTACAAATTCATTGTCAATAGTAGCTTTTTTGCCTATTTCTAAGAAATCGTCTCTGTCTAATGGATGCATTTTCTTGTCTGAAAGAATTATAAGAGTGTTTACGTTATTTTTTGCCTCTTGAACTATTTCCTTTAGTTTTATATAATTAAATAAAATAGGAAGTACATTAACGTCATAGAATCTTCCTTGTCGAATCATAGTAGAGTATTCTTCACTCTTATTCCAAACCTCTCTTATATTTCCATTAAGTAGTCTCATATTAGTGGGAAGAACGAAAAGCGGAAGTATAGCAATGTCTCCTTCTATTTTATTAGTCCTATATTTTCCAGATTCCTGATCTATAACCTCGAATAATCTTTTCATGTATGTTTTACCTAATTCCGGGTCATAGTCTTTCTCTTTATCATATCTTTCATGAAAAGTCTGGCTTAACCACATATACGCATCTACTATTTCATCTTGTCTATTGCTAACAAAATCGATATACTTTACACTCCTTGCTTTAGATAACGGAGAATTACCATTTGCAATATTTCCAGACAAAGCAGAGTTTAGTATTATTACGTCCTTATCTATTATCCTATCTTTTATTTCTCCTAATTTAAAGTCTCCTTCTGGAAGCGATGCTAAGGGATTAGCTCCAACCCCTACATCCATTCCTTCCTTAGGATCAGTGTAGGAATAAAAAGTAAATCTAAAATGCTCTATCTCTTTAGCTTGAGGATACCATTCTCTAAATTTCTCCATGGCTTCTTGTCTTCTAATTCTTAATTCAGATAATATAGCCTCAAAGGCTTCATGAGTATTCTTAAATTTCCCATTCAATTCACCATAAGGTACAAAAAATGGCTCACCAATTATTGGCGTCAAATATTTAAAACCATAAGCTTTTGCTACATCTGGTATCGAAGAATCTATAAGAGTCTTTATCGCCCTTCTCATTGCTTCAGACAAATGATCAATATGGTAAATCTTCTCCTGCTTTTTGAATAGAGACATGTAAAGAAATAATTTTTAATGCTTAAAAATCTATTTTACGATGTGGATAATTCGGATCAGCTATTCCTTGCTTTTTTAGAAATTTCCATCTTTATCACTGTTGCACAAGCATTTCATTTAGCTTCTTTGAAGTATAAACTTCCTTCAATATTTGGTGAAATACTTACTGGAATAATTTTAGGTCCTTTTGCATTGGGTACTTTCTTAAACTCTATAATAGGACTAAACATATTTACGATAAACAATTATCTATTACTATTTTCTCAGTTTTCCGTTATATTACTGATATTTGCTGCTGGATTAGAGCATGGGTTTAGATCTTTAAGATCTTCTGGACTATATGCATTATTAGCAGCATCAATAGGCGCTATATTACCTTTTGTAGGAGTATATTATGTCATGACTTTTTTTACTAGTAAAGGTGTAGCGCTACTTATGGGAGCCGCTACTGGGGCAACAAGTTTGGCCGCTGTAAGTTCAATAATAGAGGGCATGGGAATCCAAAGAGAAAAATTCGTCAAAATCTTAACATCGTCGGCAGCAATAGACGACGTAGTTTCTTTCATAATTTTGTCTATTGCTCTTTCTCTAATAGAGGGAATTAAGGGAGGATATTTAGGATTATTAAAAACAGCTAGTTTTGTTGTAATATCATGGATAATCATACTTCTTGTCTCAGTATTAATAATTCCAAGATTACTCTCAGTTGTATCGGATAATTTGGTAGTAGAAACGTCTTTGATGATACTATTCATATTAACTGTAATAATGATAACTTTAGGATTTTCTCCAATAATTGCGGCATTTATAGCTGGGATTGCTATTGCTGAAAGTAGAAAAGCAGAAAGGATAAAGGGTATGGTAACTGCATTACTAAGCATTTTTGGATCAATATTTTTCGTCACAATAGGAGCTGAAACTAACGTCTTATCATTTGTTAATTTGCAAGTTTTAGAAATAGGTATACTTATAACAGCATTAGCTTCAATATTAAAATTCGTGGGAATTTTACCATTTGCTTTTCTTTATACTAGGAAAATGAAGCACGCAATAATGACATCGTTTGGCATGATACCTAGGGGAGAAATGGGACTAGTTATTGCATCATTAGCTTTTGCCGACAATATCTTTTCACAAAATAATCTTTCTGAGGTAGTATTTATGAGCCTACTCACTACTGTCATAGGAGGAATGTTCTTTAATTTATCTGTAAGGAAATGGCTATCTTCTACGCAATGAGCAGTGAACTGCCACGCCCTAACGGGCGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCAATATGGGACTGTTGAATGGAGCAGAGGCGTACCACATAGACCCTCGCTTTAACCAAGGCGTCTCAGTGACGCTTACTCCGTCAGTGACTGCCATTAATAGAATATTTGAAAAATACGTATTTAAATGTAACCACAAAGGGGACTATCCATCTCCACCCTTACCGGTAGACCCAAAATCATATTAGAAAAAATATTTCTGATAGGATAATATCGAATTTATAAAAGATAAAGAAATTTATAAGAGTGTAAAGAATTGAAGAAAGGGTTTAAGGCGAGGGAGATGGAGTATTACCACGTGAGATAGGAAGATGGTAACACCCGGTCTCCCTCACCAAACATTCAACAAATAGGATATAAATTACTTTCCATGTTGAACTTCCAAGGGGAAAAGGTAGATGAGGTAGCAAAAACTCTCATCTCCGCGTGTTTGTGGAACGATTCAGTAGAGAACAAGTCCAGAGCGTATGACGTATCCCCACAGACCGTGAGGAATTACGTAGAGAAACAAGGGATGGAAGTGATTGAAAAGCTATTGGAAAGAGCTAGGAAAATATCCTTAGAAGTACTGAAGGGAGTGAATGAGATAGATCTTTCAATAGACTGGACAACCAAGACGTGGTATGGGAAACCAGTGAAAGGGCTCGGGAGCTCTGAAAAAGGAAACTCGTGGAACTACGCAACTGCAACAACCAAGTATAAGGGGAAAGTACTTTTACTTGCCTTTATTCCGCAAGTGAACGGTATGACTAAGGACGAGATAGTGAAGATCCTCGTGGAGCAAGTAATGGCAATGGGATTCAAGATAAGGTTGATAACTCTTGACGCTGGTTTCTACACAGTTGATGTGCTCAATTTCATTTCACAGTTTAAGTATATAATTGCTGTGCCTGTTGGGGACGTGAAGGTGTTTGAGGAGTTTGACGGGGATTACACAACTAATAGTAAGAGGCATAGGAGGGATGAGCAGGTCAAGTTCAGGCTTCTCGTGTATGGCAAGGAAAAAGTGAGGAGAAAGAAGAAGAGTCTTGTTTATTTTGCTAGGGCTACTAATCTAGATCTGCCCAAGAGGGAAGTGTTGGATTTGTACAATAAGGTAAGAGGTCCCATAGAGACCTCTTATAGGAACATTAAGGCTTTTCTTCCATTTACTAGTTCTACTAAGTTTGTTTTCCGCACGTTGATCTTCGTGCTGGCCCTTGTACTCTACTCCTTATATACCATATTCAAGGGGGAGGTGGGGAGAGAGGAATTTAGATTATTATTAATTCTTTTATTTCCTGATTTATTCAATCCAGAGAATTTTACATTTAATATAATTGAAACACTTATTTACACTATAGATTTATTTTTAAGGAGGTGATTTTGGGTCTACCGTTACGGATGGAGTCTTCCGCCCCCTTTGAACCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGGTCGACCCTTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATCTAGTAACGAGTGAGGGGAGGGTCTACACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATACTCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCCAAATATACTATGGAAGGAGAAGGACTTGAGAGGAAAGAAAACAGATTTTTACGACGCAGAAAAACTAATAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATATATCTTCCTAAAAGACCTTGAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAGTCAGTGACGAGGAAAAAATAAGCAAGGAAATGCTTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTAGAGTACACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATCACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGAAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGGGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGTGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTACACTGCTTTAGCCAGGAAATTGGCTAGAATAATTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGATCCTCCCCAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCTTGTTAAGATAAAAAATGGAAACTTTTAGTTTAAAGCTTTAATTTTGGAATATAGTTTAAGAATTTCACTTAAAAGCGTTTTAGAATAATAAAAAATTTATTAGCTCTATTCTATAAATTCTCAGAGAGTTTATATTCTGAATACTGTTTTTATCAAATTAATTACAATATATACAAAAATTGCAGTCATTATACCGAACATAACTATTCCAGTGTATACTTCTTGAGATACTGAAAAGGGAGAGAAAGGATAGACTTCGTTAGAATACGGTGGCCAGCCTACTATTAGAATTACTGATAAAACACTATCTCCGCTCATCCATAAAACTAAGAGTAATATTTTTACTGCGTTTGATAATTTTGTAATAGTCATTCCTGCAAAAATTCCTCCAAGAAAAAGTGTACTATCATTAAGTATTCGCCATGATACGTAAGCACCAGCTAAAGCAAAAAATTGAGGAAGATGCCAGAATACTGGCAGTATAATACCTGGTATTAGATAAAGGATAGATCCTCTCATTATTTTATAGCTTAAAACAAATCCTGCAATGTATAGTAAGTAATGAGTTGTCATAAATAGCCATTGATATTTAAATTCCATAATTTCTGTATAAGGATTTACGGCTATTATTAGAAAGATTAATGGAACTATAAAATTTCGTTTTTTTAATTGGTCTCTTAATATCTCCATAAAATAGAGATGTATTTTAATAAAAAATAACTTTATTCTGGAGGAATTTCCTTAAATGACATGGATATATCTATTCCTTTTTTAGAATTAATATACTTCGAAAGCAAATATACTACTATCCCTGTAACTATTACTAAACCTACAAATATTTCAGTTATAGGTATACCGTCTACGGTGCTCGTAAATCCAAATACAGGGTTTATTCCAGCTTCATAAGTTAGAAATGCGAAGTAAATAGCAGAAATTATACCAGCTATGGATAATATTCTTATTTTATTCTTTACTCCATAGAATATTGATGCTATGCTTACTACTAAAAAGTATAAGGCTCCTAATATTGTAGCACCATAAAGTGAAGTAGCTGCAGCAGTTGAAAATACAGGGATTGATAGTAAAGATAACGTAAGGATTAAATCTAGTAGATGAGCATAGATAGGAGATCCATATTTATTTACTTCAGAAAACTTAGCAGGTAATACTCTATCAAAAGATAAAGCGAAAACATATCTAGAGAACACTATTACACCGTACGATAACACATAGAAATTCCATAATATTACGCCTAGACCTAAGAACCATTGAACTAGAGCATTTTGAGATAAAGCAATTGCCACATCCCAGAAGTTATAGATAAATGTACCATAAGCATAATAGTTAAAATAGTAGCCTGCTACAGCATCCATTTCTGCAAATCCTACTGTTACAAAAAACGCAGTAATAAGAATAGCTAATACTAGATTTAACTTAGCGATTTTCTGTGATTGCTTAAATTCTGCCGATACTGCTGGACCTGCTTGCATCCATGGATATGTATATAATGCAAATATAGGAAGAAGTAGAAGAGTATAATCCCAGTTTATTTTAGGTAAGAATGAATATCGTACAGAAGAAGGTATAGAAATGCCTTGTGATGACATAAATGGAGATATTTTAGCCATAAAGGGAGTTGAAATAGCTATTATTATCATAGCGGCTATTAAAGAAGCAAACGAGAATATACCTAATATTGTTACTATGTTATAACCCCATTTAGCTTTAAATATATTTAATAAAATAACTATCACAAAAAATATTGCGCCTATAGAGTAAAATATACCTTTTTGAATTAATGTCAGATTACCATAAGGGTTAACAAAAATGTTATTAGCTAAATTTAATAGGAAACTAGAATGATCTACTCCACCTATTGTAGATAGTACTGCGTTAATAGACGATGCTGAAAAGAAAGCTATTAATGCAAAATACGCAAGACTTTCTAGCATAAGAGCAATGGCCATTACGGAACCTATTCCTCCATTTATACTTCTAGATACCCAGACATAATCCCCACCAGTTCTCGAAATATGCCTAGTCATTACTGTATAGATTATTAGTTGTGGTATTGCAAATATTAGACCTAAGAGCGAAGCTATCCATAAAACTCCTCCTGGCCCACCAATAGTTGGATTATTTGACGAATTCAAATATGGTGATATTGACTCAAATAGAGCTACTCCTGCAGACATGTTTCCTAGATTCAGCATTACTGCATCTAATAAGTTAACTTGTTTAATTAAACCAGAACTTTCTCTTACAAAAACTTTTCTTTGAGACACGAGTGAGTATGAAGTATTTAGCTATTTAAGTTTTACGTAGTTAAGTAATATCGAGATTTATAAAGAATATGTTTTATTTACATAATCAAGTAAATACTATAACGCGGTATTAGTAATTATCTGTTAGCATATAGTATTACTCTGAATTCAATAGTAATATTAATTAATGCCATCTTGAGATTTAGAATTATGGCAACAAAAGTAAAATTCAAAATTAAAGGAGAAGAGAAGGAAGTAGATGTATCAAAAGTAAAGAAAGTATGGAAAGTAGGAAAAATGGTATCATTCACATACGACGACAATGGAAAAACAGGTAGAGGAGCAGTAAGCGAAAAAGACGCACCAAAAGAATTACTAGAAAAACTAGGAAAATAAGATCTAGTTTTTATTTTTTTCTTGAATTATATCTATCGCCTTATATAATTGGGTATCTTTATTGTGAGCATAGTCTTGTGGAGAAATTTCAACTTCTATATCTGGATCTACGCCATAATTTTCTACTCCTATACCTACATCATCAAAGAAGAATGCGAATTGAGGTTGCGTAACTATTGTTCCATCAACAAGCCTATACCTAGGATTTATTCCGATAACACCTCCCCATGTTCTTGTACCTATTATTTTTCCTAGATTATAGCTCTTGAATGCCTTACTAAAAATATCGCCATCGGAACCTGCATATTCATTGATTATTAGAACTAATTTTTCTGGAGAATATGAAGGATAAGGATATGCCTTACCTCGTCTTGGTACGTCCTTCCCTATTCTTTTAGGTAGCAATTTTTCAATAAGCAATTGAGAGACCATTCCGCCTCCGTTATATCGAATATCTATAATTACTTTACCATAGTTTAAAACCTCAAAAGGATATAATTTAAAGAACTCAATAAAACCTCTTGGTCCCATATCTGGAATGTGAACATATCCCACTTTACCATTAGTAATTTCATGTACATAACGTCTATTTTTCTCTACCCAGTCTCTATAAATAAGATATTTTTCGTCCTTTAAAGTTCTTACAGAAAATGTTAGAATTTTACCATCTTTCTTTCTAACTTCCAAAATTACTTGTTCTCCGGACTTATTTATAAGTAGATTTTGCGGTTTTATTGTCTTATTTAATTTTACACCGTCTATAGAAACTATACAGTCTCCTTCTTCAATATCCACCCCTGGATCTTTTAATGGCGATTTTTCTTCGACATAAGAAGGATCTCCCTCATATATTCTAGTTATTTCATAACATTCTCCAGAGTATCTAAACTCTGCTCCTAAACCGCCTATGGTATAAGGTTTTTCAACATCATAATCTCCACCCATTTCATATGCGTGCGATGTTCCAAGTTCACCTTGCATCTCCTTAATTAAATCAGAAAGTTCTGATCTAGAATTAATTTTACTAAGAAGTTTTGAATATTTTTCGTAAATATAAGACCAATCTATTCCGTTCATATCTTCCCTCCAATAATTTTCCCTCATTAGTCTCCATGCTTCTCTAAACATCTGAGACCATTCCCTGACTGGGTCTACAAAAATTTTCACTCTACTCATGTCTATTATTCCACTTTTCTTACCTGGTTCTTGAGAACTTAGATCAGGCTTAGTTTGAGTAGAAACTATTCTAAGAATTTTATTCTGTCTAACCAATAAATTCTTATTTTCAATATCAATATCAAAATCTGTAACATTAGTTAACCATTGATCTTTTGTTCTCAAATTAATATCATAAACCTCCAATATACCATCGCTTCTTATTCCACCGAATAGCCACGTGCTAAGAGCTCCCTTTATTGGATAAGATAATAGAAATATCTTTCCATCAGCAGCTACTAACTTAACGTAATTACTCTCTTCTATAGGCAACGACGATGTTTTTTCTTTCAAATTATTAAGGTATATATTATTAGTCTCATTATCAAAAAGTGTACTCTTATATAATGATTTTCCTTTTTTCAAAGGAATATAATACGGTTTTACACTTTTTAAAAATCCGAAATTGAAGTAGATTTGGTCAGATACTGGATCAAGATTTCGTGTTGACAAATAAAAAAGAAAATCCCCATTTGGATCAAAAGAAGGGGAAAAATCATTGTTTCCTAGATTTGTTACATCGTATTGTTTTGCAGATTGCATATCATATATTTTTATATGCTGAAAACCATAGCCGTCTGGATAAGTGTAAGCTATCATACTTTCGTTAGGATGCCATGCTACTTGGTATATTATATCTTCGGCTTTATCAATAATTTTGCTATTTTTATCTTTAATATTTATTAGCCAAATTTCAAATCTGTTATTAGTTACAACAATATAGTTACCTTTAGGTGAAGGAAATACTCCCTCAATCAAACCTAAATCTAAATCTAAAACGTCCTTATTTCCGTCTTTAATATTGTAAATTTCTAATCTCTCTTCTCCAGATTCATCTGAAACAGTAACAAGTGTAAACTTATCTATAAATTTGGTTAGTTTATATCTTACACCGTTCTTTAGTCCTATTTGAATAGCTGGACCTTCCCATGGATCCATTACAAAGCTTTTACCTCTTGAAGTGACAGATAAAACACCTTCCTTTATTCTAAATTCTGTAAAATAATTCCAGAATTCCACAAAATCAGGTCTTTTATGATTACCGCTTATGGGAACATTAATACTTATTTTATCAACATTATCATTGACTGGATTAAACACATAAATATCTCCAGCAGACTGAAAAACAATATTTTTACCATCAGAATTTCCATTTCTAACATAAAATTCTCTAAAAGAAGTATGTTTCTTAAGATCATTACCATAAAGATCTACAGAGTATATATTACCTATGCCTTCATGATCTGAAATAAAATAAAATCTATCATTGATCCACATTGGTGACGTTAAATTTCCATTTAGATCCAAAAATTTTTCAAATTCTCCTTTATAATAATCTATCCAGAATTTACCCCTAGTTCCTCCTTTATATCTCTTCCAATAAGGTAAATCCACTGTATTCCTTCCTATAACTACAGCCTTACTTCCAAAAGCTATTGAACTAGCTGAACCATAAGGAAGTCTTTCAAAATCCCCATTTAAATCTACATGGAAAAGTTCTCTCCAGCTGGCGAAAGGTTTATGATAATCAGAAGATACTATAACCTTACCATCTTTCCAGCCTACTACGTTAGTAAATGGGCTACCAAAGTAAGTTATCCTTTCTGGTTCTCCTCCTTCGGAAGAAATTATATAAACTTCTGAAAGTATCTGATCACCTCTTTGAGTTCTTGTAAAAGCTATCCATTTCCCATCCTCAGAAAATTTTGGATGAGAAATAATTCCAAAATCTGATGTTAATCTTTCTACCTTTTTTGAATTTAAATCCAATTTCCATAGATCATCTTCTGTAACAAATACTATTTGAGAATCTTTTATATCTGGATATTGTAGATATACAGAACTTGACTGCATAAAATTAATTGCAGAGAGTGATTTAAAGGTTTAGTAAAAATTCATAGCTTGATTCCATATCTTCCAGATATATTATTTGTAGTATATATTTCTCTTAAAGCTCTTAAAAATTCCAAAGTTCTATCACTAGCTCTAGCATAAAAAGGTTCTAATATGTATACATCGTTTTTCTTTACAGCATTTAAATCAGAAAAGCCAGGTAATGATGTAATTTTATTAGATTCAGGGGTTCAAGAGAGCGGAAGACTCCATCCGTGGAGATGGATAGGCTACACATGCTTCGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGAGGAAACCACTCGATAGAGGTTAACTTTAGGATCTTCACTTTGTATGTGTAATACTCTTTTTCTAATTCTTGAATTTTTCTATAATACGCGTTGTATTGTTAATTTTGTTAGGATATAGTGCGAACTAACTATGAGAACGTCCCCTTAAATTTTTGCACACTCCTACTCGGGATGTTGTCCCACATGTTAGATCGCGGGGGACGTATAGCCAGCCTATCCAACGGGGTTTTATTCCCATGCCCACTTTCGGCTTGTGTTATTTTCTTGTTCTCTTTATAAAAGTTTTACTCTTGTAAGGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGCCCCCTTTGTAAAGCTTATATACGTTAGTACTTTCAGAAAGTTTATAGCTTTTATCTTAAGGATTAACCTTTAAATTCTAGTCTAAGAACTTTCAGTAAATACTAGCCTGAGATCTTGGTAATTCAAGTAAAAAATCAGAGATCCAGTCAGGATTAATTACTTTGAATTTTTCTTCAGTAAACTGGGGAGTTAATTAATTTCTTTCACATTCTTAATTTTTCAAAATTCAATAAGAAGAAACTCTATTAGCAAATTGTTTTAATAACCTCTTTGCGGAGTTTATACATATGAAGACTGGTAAAGATGGAGAATATTATTATGCGGAGTTAAGTAAAGACGAAGTAATTAAGCTTAAGGAGATTGTGGAAAAGAAAGCTAAGGAGAGAACTAACGTCCGTAAACCTTCTTATGAGACCCAATCTCCCAAATGAAAACTATACAATTTTTTGAATCAACGCTGTAAAGTATTCTTATATCTCCAGTTACTTCTATGGAGAACATTGGATTGCCATGCTTATCCTTTCCTAACTTTTCCCTGGAATATTTGAAGGGATTATCTAGCAATAATAAAACCTTATCTAAGATAAGCATAACTAACTTATCACTTGCAAAACTATCTAGAAGGTAATCAGCTAACTCATCAAGATTATTTATCCTCTTACTGAACATTATCCTTAATTTCCATTCCTTACAAATCACGATAAAAGATATAGAAAACATATTTAAAAATCTTTTCCTTTTCGTATATTATCTCATTAGGAATAATAGTTGTAATAATGATAATAGTGATAATCATAGTAGTGAATGAAATGCATTGCGGCAAATAGCATTATAACTCCTAATAATATCGCTAAACCGTTGACAAAGGTATTATTATAAGAGAAGTGAGCAAAAGCTATCCTCCTCCACTTTCCGTTAACCTTGTGGTAAATGCCCCTCTCAGTGAAGACATCAAGGATCATGTGAGAAGGACCAACTAACAACCCGTCAAGAATAACGGAAAAGACAAAAAGAAAAGACGGAAAAACGAAATAAAGGAAAACGCCTATAGGCAAAGAAAGCAAAAGACCCCACAAGATAGACCTATAAACAGTGTGAGTCCTAGGAGTCCTAGAAATGTATTTTCCCTTAATCTCGTGACCAAAATAATCAATAAAAGAATTACCGATAAAAGAAATCAAACCAGCTAGAAAGACAGCGTAAAGAAAAGGAATAAAGAAAACAGTAATGAGAGAAAGAAGTCCAGAAGAAAAGATATAATGAGCCCTAAGCCTCATTTTTCCCACCTAAATTCATGAATCCTGCATAACTCATTACTAAAATCTTGGAACTTCAATTTAAATGAATTGTGGCGGGCAAGTTTTATAACCTTTTCAATATATATGGATTCTTGTGACCTACTGGCTAATACCAATTCAAGAGGATATGTGGGATGTTATATTAACGCAAGGGGTATATGGATACAAATCTAACCTAAAAGATTACATTAAAGTTGGAGATAAACTCATTATTTATGTTAGTAAGTATTACGCTAAAATATACGGAGGAAAAATAGTAGGAGTAGTAAGGGTTACTAGCGACTGGTACGTTGATGAAACTCCAGTATTTCCAGAAGAAACTGTAAGGAATAAGGGGTTCTATATTTATAGAGTAAAGGTAGAGCCTGAAATTACAGGAGTATGCGATATAAAAGCGATCCTTGATAAGATACACTTTATTGAAGATACTGCACAAATGGCTAAATATCTAAGAAATGCTCCAGCTAATTTAAAGAGACCAATACCAGATGATGACGGACACACGATAGAAAAATGCCTTAAGGGAGAATTATAACTTTAGAAGAATTTATAAGCAATCTTTTATTTTTTCTAATATTTCTTCTGGATCAAAGCCTATTATTTCTATTTTTGGTATTTTTAGATCTCTCAGATATTTTTCCAACATTTCGAGATCCTTCTCATCTGCAAAAAAATCTCCAGTTATTTCAACTTTTTCTATTTTTCCATCAAAATATACTCTCAATATAACAGTCTTTCCTTGTTTAGATCTAAAAACTTTTTCACATAACATTAAATTCACCTTAAATACGTCCATTTATCATTAGAATATTTGTACTTTAACTGTTCAGTGAATTCCTTCTCTATATCAGTAAGTTCTCCATCTTCTAAATTAAATATTTCTCTAAATCCTTGGATTAAACTTTCTATAGCTTCTCTGCGAGTAACTTCTCTTCCTAGCATTAGAGAAATATTACTTACTCTACCTTGAGGATTCCCTCTTTCCTTTATTTTTGGTTCTGGAGATTTTATTACAGTCATAAATCCAAGATAAGTAGAAAACATGAAAGTCCCATGTACTAATATAGCATTTTTCTTTTTAGCTCCAGCCATTCCTACTATCTTTTTACCTTGGACTATAATATCATTTATAGGAGAAAATTCTCCTTTTAATCCCAAAAGATTAAGAGATTTTATCAAAGCTATTGAAATTTTCTTGTAAGTTTCCATCATATCTACAGCTTTTAAGGATACACTCCATGTGACTTCTCCGTTTTCGTCATGCAAAGCAGGACCTCCGCCGGTGAACCTCCTTATTAACGGAATTCCTAATTTTTTTCTTTCTTCTTCATTAACCCAGTCATTTACTGCCAAAAATCTGCCTATACTTAATGTAGTAGGCGAAAAATGCCATAGTCTTAATGTTTCTTCCGACATATTATTTGATAATAGGATAAGCATAGTTTCATCCAATGCCATTTGCCTCTCCCCAGAATTTCCGCCTTCAATTATTAGTCTCATACTTAAAATCCTCCAAATATTTTTCAGGAAGACTACAACAAGCATCAAATAATTTCAAATTAAATTCCTTTATCACCTTATGATGTGGATTAGCTATTCTTTCAACTAAACCTCTTTTTATTACTTCCCTATCTAGTTGTTCTTTAATTTGATAAGGTCTCATACATCCCACACTAACATGTCCTTTCATTAATTTGGATCCCAATTCTATAAATCTAAGAGCTTTCTCTACATTCATGGGTTTTAATATTCTTGATGGTGTATTTGGAGTAGGGATAAGAATTAGAAAATTGATTAAGTATGGTTTATAGGAAGAGAGAATCTTTAATGAATTCTCAATTTCTTCATCAGTATCTGAAGGTATTCCTAACATTATATGAGGAACCACGTACTTAGGTCCAAAATCTATAAGATTTTCTAAAGTTTTTATGTAATCTTCTCTTTCTCTTTTTACGCCCTTTGATTTAAAAGCTCCTATAGAATATGGGAATTCATAATCCACCATATCTACTACGTCTTTTAGATCTTCTATTGTCTCCTTATCTAGAATTCCTGGATGTATATTAAATACTACACCCATTTCTTTTTTTACTTTTTTCATAATATGGATATAATTCCTAATAGGCAATTCTCCTTTTTCGTTAAATCCACCACTTATTAGAAATCCTTTTACACCGTTATTGTAAAGCTCAATTATTTTCTTATACATTTCGTCCGGTGTTAAAGCAGATTCCATACTGCTAATGTATTTAGTAGAACAATAGAAGCAATTTAAAGCGCAAGAACTACCAGTTACACTCAATACTGTGAATTTCCTTTTTATTATAAATCCACCTATCATTTTCCTTCCACATTAAATAATGGTATATTATACATTTTTTCTCTTGGATCTTCATTATAAAAAGGCCTATCACAATTAGGGCAACCAGACGTTATATAGGCTTTTTCGTTTGGATTACCATTAGTCGATAACTTGAACCTAATTTTTTGGATTTCCCTATATTCTTCTAACGGAGGTCTAGGAAAGTTCTCCATTGGAGTTCCTTTTACTGGAGTAAAAGCAAACAAAGCTACTTCAGCACCTAAAGAATATATTTTTTCCATTAGGGACACAAATTCTTCCTTTTTTTCTCCCAAACCAAAAACCAAATGAACATATACTTTCCTTTTCCCAAAGACTTCCACTGCGTTTTTAATGAACTCAACATACTTTTGGAATGTATAAGGCTTACCTATTTTATCCCATAGACTTTCTACCGTATCTAAACCAATTCCTAAATAATCTACTCCTAACTTTTTCATATTTTCCAATACTTCCTTACTAACAGGAGTTATAGTTACGGACTTAGGGATCTTAACATATTTTATGATCTCAATTACTTCATTTTCGAAATTTTTCTTTATAACTGTCTGCAAACAAAATCTTTTGAAATATGAAAGTTTATCTGCGATTTCTTCTATATTTACGGAATACCATCTTACTCTTGAAAGATATGATTTGTCTGATTTACTTAATGAAGACTGTGTACAAAAAGCGCATTTTCCTTCACACCCTCCAGTTTGAAGAGCGTATGCAGTATTACTATACTTTAACCCTTTCTTTATAAAAAAGTACGTACCAGCAGATAGTAAAATTTGCATATTATAAGATCTAGACAGATTAAATTAAACTTGCTTTCTGAACCATTCTAATAGATCTATATATTCCAATATTTTTTGCAAGTTCGGCCATTTTTCCCTTAACAAACTTACCAAAGATATCTCCAAAATATATATTCCCTATTCTAAGGATTATGGCTATTTGTTTATATTTGAATTTAGTATCTTTCCCTAATACGTTTAACATGGCAGTTTCTCCTGATTGTACTGCAACTTGAGCAGACATTGGAACAAATGAGTTCTTAATAGTCATGCAATCGCCAGCACCATATACATCATCATAATCTATCGATTTGAGATACTCGTCGACTAACATTCTTCCGTTAATATTACTTAATCCAATTTCAGAAATAATAGAAGGTCCTTTAAAGCCTGCAGTTAGAATAGTCAGATCTACTTTAATTTCACCACTGGAAGTTTCCACGGTATTCTTTACATCATAAACTTTCGTATTTAAAAGTACATTTACACCTAAATCTTTTAGAGTATCTAATGCAAAAGCTGAAGCATCCTTACTCATAAATGAAAGAAGTTTCTGTTGAGCTTCTATTAAATACACCTTCTTTCCCATAGAATTTAACGTTCCGGCTAATTCTACTCCTAGTGTTCCTCCGCCTAGGATAGCTACGCTATTTACTTTGCTTAACTGCTGCCTAATTTTTATAGCATCTTCAACATTTTCTAGCTTATACACATTTCCTCTTATCTTACTCAGATCTTGCTCATATCCTAATGATATAATTAACTTATCATAATCTATTTCGCCTCTGTCAGTTATAATTTTCTTTTTCTTGAAATCTACGTTCCTTATATACGCTTTTAAAAACCTATCAGGATATTTTATTTCAGCTATTGACGGATCTCCAGTTTCTATAACATCTACAAGTTTGTGAGTAAGAACAAAATAATCTTTATTATCTATAACGATAGAATTAGTGTTATTTAAAAATGCAGAAACACCAGCGAAACCTCCTCCTAAAATTACAGTCCTCATATGATTATATATATGTAGAAGTTTTTAAAAGAATCTATCTAGATATGTTTGAAAATTAGAAATAGAAATTTAAAAATTCAGCCCGCTGAAAGTCGATCATAAGTTTTCACTCCCCGAAAACTCATCATCCTTTTATAATAATACCACTTAAGATATATTATGTGATAACTCTTAATGATATAATTAACGTCTCAATAGTTAGAGAAAAATATGAATTTTATGAAAATCAAATAAAACACAAAGATGTTTCAACAATATATTCTGCCATAAAAGATCTCGTTTCGTTCATTAAGGAGATTAAAGGCTATGCATCAGAAGAATTGGCTATAATTCTTAAAGAACAAGAGAGAATCGCAAAGAGAATTATAACGGTAATAAGATTTAGATACATTATCATTTTTCTTTATAAAAGAATAATCGAAAAGCTAATTAATAGTCTTGAAATACTTATGACAAAATTTTTATCAAAACTGTCTTAATTGCTTATAACTAAATTTATAATTTTATTTTTTATTTGATCTTGTATCTCTTCTATGATAGAATTCCAGGCATCCCTAGGATTCTCCTTCGATATCTTTACACCATTTTCTTTGGCCACTTGTTTCATACTTACTATACAATCTCCCTTTATTGGACAGTAATCACATGAGTATTTGCTAGATTCTAAATTTATATAATAAAAAATATGGTCAGAAGAGACATAAGCTAGACCTTTTGAAAATTCTATTTTATCATTTGATTGAAATGGAATTATTATCTTAAACGCAATAGAATTATCTTTTACTATTTTTAAGGATTTGAGCTTATCAAAGAGAAAATAGAAATAACTCTTGCTAAAACCCTGTTTTTCATGTGATGAAATAACTCTAATAAGTCTATCGTCTGAAAGTCGTTGGAAAATATCGAATCTTAAAAACATTATTTTATGTTCACTAATAGGCCTTTCAATTTTAGTAAATTTAAATTCACACATAATATATATAATCATATAAATAGAATAAAAATATACCTAACAATCACAACTATAAAAAGACATTAACAGAGTTAACTTTCAATTTCTAACTAGATAAGCTAATTCTTAACTGATGACTTCTAGGAAATTCTAGGTCAATAGCTCTTCTCAAAATAACCTTCATTTCATCTTCCTTCACTTTATATGTAGTGTTATTATAACCGTGCTCATTTATTTCAAATTCATTAGAATTTAATTTTTTTATTTCTATCCATCTATCTCCCTTAAAGCTCTCAATCCTTAAAACCTTACCTTCCTTAAGTTTTAAAGCTTGACCAAGAATCATCTTATCTGCTGACCTAGCAGGAATCCAAGGCATTTTACCACAATATTAGTCCAACGTTTCACGTTTATTAAATTATATTTACCTTATTTTGCATGTGAGAAAATGAGTAAAAGAACTAGACCTACGTTTGTTATTTTGGGAGTTTTAGTTGCGTTATCACTTATTCTTGCATTCGTAAATGTTCCAATGGCACAGTCTTCATCGCAAATAACCGCATACAAAGTCGTAGGATCTGCAGATCTTTCTAATCCTGGCTCTGAGTCTTTCTGGAGTAAAATACCGTGGAATAATATATCTTTAACAGCAAATATTCCAAACGCTCCAACATCTGGATTAACTCATTATATTCTAGTGAAGGCTGCATGGAATGGAAGTGATATAATAATTCTAGTTAGTTGGCAGGCATCTAAACCTGCATTTGGTGCATGGTCTACTGCAGCAGCTGGTGTATATCCTCCTGCAAGCGGTCCTGGTTTATTTAGAATTATAGAAATTACTCCAGGATCTACGTATAAGTTATATACAAATTATACTAACTATTCAAGCATAATTAATGGACAAACTAAAGTCGGAAGAATAGTTCTTAATTATAGTGGAGTTCTTGTCCCATTGCCTAATGATAGTCAAATTCAGGTTTTGCCTAATGGAACAATATTGCTATATCACTCACCTAGACCTATAGAAAGGATACTATATGAATCCGGGCTATTTTACGGATACTATACAAATTCTACATGGTACTACCCTGATAGAGTAGCTATGATGTGGTACATGGGCAGTGGAACTCCTACTATGGACGGTATGCATATAGGAGGAAAATATATAGGGCAAGTTTATGATGGAGAAAAAATGCCAGCTGCTGGAGGTGCGCTAAAACAGCCTGGCGGTGCGGCTAATATATGGATGTGGGTATCTGGTGCTACTTGGAATAATAAGACAGAAGATCCGGCGTTCGCTGCTAATCTCTGGGATAACGAATCAGACACAGGACTACCATATATAGATTCTGGTAATAGCGGATTTGCTGTTCCCTTATATACAAATAATACTAACATGTATGAAGTAGACTGCTCTGGTATATGGTATGCGCCAGTTCAGTCTTCTGGACTTAATGGATCATTATTCTTTATTAAAACCGGAGCAAAATATCAAAATGGATATTGGACAGTAGAGTATGTTAGACCACTTTCAGTTCCTTCCAATTATGCTAAATATATGCCAAACATCTCCTTAGGGAATACATATTATGTAGCATTTGCAGTATGGCAGGGACCATTAGGTGAAACACTATTTGATAAGTCAATAACATCGTCTTTCTTACAGTTACAATTATCTACAGAGTCGTCTCCGCCTCCTCCACCTATAGTAACTATTAACCCTGTAGTATTAGATACTACAGTAGCCGGCGTAGTGATAGCTGTGGTAGCATTAGCGTTAATATTCTTCATGTATAGAAAGTGAATAAAATGAATATAACTGAATTTTTATATAAAGATATAAAGATATATTCAATTTTTTTGGCAATTTCTGCTTCTCTTGAGTTTATTTTTGAAACAATATTCCCAATATCATATTTACCTCTTTCCATCCCAAATAAACTATTTTTAGAATACATAGGAACTGCGGGTCTTTATATGGAATATGTAGCTATGAGTATTGTAGCTATTGCGCTCTCATATAAAATAAAATCGTTATTACCTTTAGGTATTATTCTATTCATATCTCCAGTTTTCACATTTATTCCTAATTATTCATTATCTTTTTTATGGATGTCAATTCAGGTAGCTATTATTGTAATAGGAATTGTTGCACTCTTTGAAAGTTTATTCAGAAGTAACATGCTTTCTCTTTTACTAACACCTACATTAGCTATGATAATACTTTCATTATATGCTGGATATATGATAAATTTTGAGCATTTAACATTTGATTTTAGTTTTACCTACCTTTTTTTATTTTCAATAATAGGTTTCATGGCTTATACTGTATTATGGGGAAAAATAGTATCTAAAAGAAGTATAGCGTCATATATAGCTGGCATTCCTGCGGCTTTCATTTTCTTGCCTTTATATTTCATTGTTAGCACTAACAGATTTATGGAAATGATAATGGATATGACTCTTCCTGCAATTTTTGGAATAATATTTAATAATCCATTTCATGTTGAACTTTTTATTTTGCTTCTAAGTCTTGCATTATACCTTATTATTACAATAGCAATTAAGGGAAATACTTACGCTGGACTAGGATATTTCCTTATAATGAGTACCGTTTTCTTAGGATTAACTGGGTTTCACCTAATTATGTATATGATAACGCCAGTTATAGGATTTGCATTACTAAATTTAAAAGAAAGTAAAGGTATAAAGATTCTTGAATTAAGGAAAAAATCAGTCCAACGTTAAATCCTTAAAACTAATCAAGATATATTCTTTTCTTAAGTGATTCTTAATGATTAAAATAAGAATAGGTAAAGACGAGAAGAAGATACTTTCGCCTCAAGATCTATATTTTATTCAAAAATTGCTCAGAAAAATGAGAGACCCAAAAACTAAATTTGATTCAAAAGAATTCGTTAAAAAAGGAGACGAATATCTATTTAATTACGTTAACAAAAACGTTGGAGGAGTAGATGAAGGAAGAAGAAACTTTCTTAAGGGAATTATTATTGGAATTTCTGCAGCTGCTGTAGCAAGCATAATCCCTGGATTAAGGGTAATAGTTCCGCCAAATGTATCTGCTATTTCAGCATTTCCTAAATCTCTCCTTGTTGATTCAAGTGGATCTCCAATAGAAGCATCCAAAATACCTGTAAATAGTCCTATAATAACAATTTATGAATATCCATTAAGTGGAGAACCAAACTTTTTAATAAATCTAGGAGATAGTAGCAATAAACCAGTTAAAGTTCCTGCGGGTACAGTAGTGGTACCACAAACTGGGGATAAATATACATTCCCAGGAGGAGTAGGTCCAAATAATTCTATAGTATCCTATAGTGCTATATGCCAGCATTTAGGTTGTACACCTCCATATATTCACTTCTATCCCCCTAATCACGTAAATTCTGCTCAGTTGAGCGCTCCAGAACCAGATACTTTAACGGGTGAGGCATTAGCTGCTGCCAAGAAGGCAAACATACCTACATTGATCCATTGTGATTGCCATGGATCTACTTACGATCCTTATCATGGTGCTGAACCTATAACTGGACCAACAGTTAGACCATTACCTACTACTATATTAGAATGGGATAGTTCTACTGATTACCTATATGCATTAGGATCTATAGGCGTAGGTATATATCCTACTGGAGCTAATGGTGTACCTTCAAAAGATCCAACTAGTGATTTGAGTAGTAGTTTTGGTTCCTCAGTAGGAGATAAAACCACTGTTACACAACCAGAAAATCCATTTTCGTCATCATAAGTCCAACGTTAAATATTTTTTTCCATTTTTTACGTTTTATCTTTTATGAGCATAACAAAAAGGATTTCTAATTGGTTTAACGAAAGGTTAGGTTTAGATGATTTACCGTTCTTTAGAACACCAGACTATATGTATCATGCAGATGAATGGTTAGGAGCCTTAGTAGCTGCAGCTTTTATGTATACTGTAATTTCTGGATTAATATTACTACTCTACTATAATCCAGATGAAGGATATGATTCTACTCAGTTTATAATTAATTCTGTACCATATGGCTCGGTATTTCTTTATAGCCATCTATACGGAGCTTATGCAATGATAATTCTGGCATACATCCACATGTTTAGAAATTATTTTGTTGGAGCATATAAAAAACCTAGAGAACTTTTATGGATACTCGGTGTATTAATGTTAGTATTAACTTTAGGAGCATCGTTCTTAGGTTATAGTTTAATTGGGGATGCATTAGCAACTAGTGCAGTAGATGTAGGAGCAGGCATAATATCTTCTATACCTCAATTATCTTTCCTACTCCCTATATTGTTCGGAAATTATGATAGCGGGCAATATGGTAGAGTACTAGCATGGCACATAATATTAGTGGCATTAATAGGGTTACTTTTTGTATTTCATTTCTTTATGGCAGAACACTACGGAATGATGCCATCAAGAAAAGTTAAAGCAAAAGCTCCTGCGGTATATACAAAAGAAGAATGGTCTAAGTTTAATCCATGGTGGCCAAGAAATTTTGTCTATATGATATCATTAGTTTTCTTGACATGGGGCTTTATTCTAGCAATACCCAACGCATTAGCATATCTTAACGGATTACCACAACAATTAAATCCATTTTTGAATCCTAAACCTGCACCTCCACCTAATAGTCCATTAGCAGCGCACATAACTACATATCCTCCATGGTTCTTCCTATTTGTATATAAAATAGCCGACTTTACTAGCGACGTAATAATATTCCTTCTAATAGGAGTAATAATTCCTTTAGTATATCTATTACTAGTACCATTTTTAGATAAATCTGAATATCTCCATCCAATGAGTAGAAAAATATTCGTTGGCTTTGGAATACTGATGATAACATATCTAATACAGACGTCAATATGGGGTGATCTAGCGCCAGGTATACCAGTTAGTATTACCGAACAAATAACTGTTTACTTACCGCCTGCAATAATAGTAGCCTTAGGTTTAGCTATCATAAGGGTGAAACCTAGCGGCGGAGGAATAACTAAAGCTCAGTTTAGTCCAATTTCGGCAATAGTGTTTACAGTAATAGCTTTACTAATGGCAGGTGCTTTTGTAGGATTTATGGATTATCCGTCAATAACTACTTTAGGAATCTTAATACCATTAGCTCTTGTTTTCTTAATAGGAGCTAGATCCTTAACTCCTAGAATATTCAAGGCAGATCAGACAATACCTACTACAACGTCTACTGTATCTGAAACCAATTTAGAAAGGAAAAAGAAAATTGCACAAGGAATAATGATATTACTATTAATCGTCTCAGTAATTTTAACTGCGACTATATGGACAATACCGCCTACTGGATATCAATCTAACATGTTTGGAGTAGATCTTGGACTTATCTTTATAATGTTAGGCGAAGCCATATCATTATATCACTACATTATATACAAGAAGCCTAATGAGTCCTACGAATAACGTTTTTTAAATCGATAACTATTTTTTATTTATGATAAATGTAGGTCTTTATTATAAGGTAAAGGAAGGTCATGAAAAAGAATTTGAAAATAAATTTAATGAAGTAGTGAATTTTTTGAAAAATAATTATCCTGGATTAAAACAAGCTAAGCTATATAAAAGTGTTGAAGAACCTAGAGAATATTTAATTTATACAGAATGGGACTCACTAGAGACTTTCAGAAAGTTTATTTCCAGTTATGAGTATAAAGGAACTGTAGATTATGGAAAAAGTATAATTGAAGGAAGACCATATCATAAGGTTTTCCAAGAGATAAATTCATAGTTTTTTAACTAGATTTTAAAAACGATATTGTTCTAGTTAATTCATGGACGTAACGATAGGAATTCCAACTATAGGAAGAAAATCTCTAGATTCATTATTATGGAAATTAAAAAAATATAAGGACGTTGAGATATTATTAGTATATAAAGGAGATTTAAAAACTAAAGATTACAATAGGGCAATAGAACAAAAAGAAGGATATTATGAAGAAGCAATAAATATAATTTTGAAAGAAAGTCATTCTTCTCTTTTACTTATTACTGACGACGATGCTATACCTTCAGAATCATGGATAGAAGATCATGCTCTCTTTCATGAAAAGAATGAAAAAATAGGAGTAGCTTCTGGAATAATTAAAGGAAAAAAATGGAAAAATTATCCAAATGCTCTCTTTCAACGATATAAAGACACAATTTATATGGAAGAATATGATTATAGATTTAAGGATTATATAGGGTTCTTAACTAAAACAGGATTATCAGTAGATAGAAGAGAACATAAGGAAGATATTGAAAAAACGTTAGCTATAGCTGGAGTAAACATGAGCATAAAGAAAGAGGTATATAGTAATTTGCAGATACCAGAGTATAGTCTTAGAGGAAGTTATAACGAAACGATAATAGCATTGGCTGGGATAAAAAAAGGATTTGATTCTGCTATTTTTAATTCAGGAGAAGTTACTCACCTAGGGGAAGAATCGCTATCAAGAACAAAAAATGATAAACTAGAAAGATATTTCGCTATAGAAAAATACTCATTTCCCTATGCTGTTAATCTTGAATTAAATCTAAACGTACTCCTATTGAAGGAATTTTCATTCCTCATCAACGGAGAAGCAAAAGTAGGTATAGATTTAGCTATAAGGGGAATTTCAGAAAAAATGTCTCCTCATAGATTTAGAGAAGAACTAAAAACAATATATTCTAAAATTATTTCTGAATTATAGAAGCTATAGATCCAGAAAATATTCCATTAATTATATTGAATGCTATAACTAATCCTATGAATGTCTGAATATATGGAGTCTTGATTGCATATGGAAGCATTGAGAAGAACAGGTAACTTATACTAGTTATTAATGATAAATATCTTATGCTTAACAATTGAATTCCAGCAATTTTAGTCCTTACCGGAAATGCAAATGCTATTAATGCTAATAAAATAAGTAACTGAACTATAGCTGTACCTAATGATGTAGAAAACAATAGAAAGGGAGAAATACCTAATGCATATGGTGGATAAAAGAATTTTACAATAGCCGATATTATAAAAGTTATAAAAGTTAAAATAAAGGAATATCCGATAGAAGCCGCAATGTTCCATCCTAAAGTTCTAGAATTCATTATCCTCCTCCTTGACCACTTTGTCCTTCATCTTTCTTTCCCATACTTAATCTTACCAGGCCATCTGGCAAATTAACTAAAGTAGAAAGCTGAGGATAATAAGGAACTCCTATAGCCATATTTACACTAGAAGGATCATTCTTTTCTGCTAGTACTCTAGCTAAACCAAGTCTTACTGCATCTCCTACTTGTATTCCTAGATCTCTTAACTGTATTATTCTTCGTAATTCTGGGTCTTGGGGTATTAATCTAGTGACTCTAACAGATATTAGCTCAACTCCTAACTCCCCTAGAAATGATTTTAAGGCAGCAGTTACTGCAGTAGAAATATCCATAAACTTCTTATATACATCTGTTAGTTTTACTTGATTCAAGACAGAACTTACTTCTTGGTCTATTACTGGAGCTATATATGTCGCTAAATCTGAATCTTTGAAGAATGCAGCTGAAAATTGTACATTTATAACTAAATTAGGAGGATTTTGTACCCTGAAATATACTGCCACTTCATATTCTAAAGGAACTAGATCATCAGTTTGACTTAATCCTACCACTCTAACTTCGTGTCTAGTAGTTGATACAAAATAAGCTACAGTATCGTATGGTAAAGCGTTATACCTAAATTTTGAAAGGAACCCAGAAAGTACGTTTGCTGGACTCTGAATATTGTGTGTACCAGGTGGTAAAACGCCTGCAACTTGACCTTGAATTATAACTACGCATTGTTCTTGAGGTTGAACTATAAATAAAGATTTTGAAGTTATATTTTCTCTAGGGAACCTAAATATCAGCACGTCGGGTGCCATTACTGAAGTTCCGTCTTCTCTTTCTGTTGAAATTACTTGCCCTCTTAAGGAAACTGACACTATCTCACCTCATCTCCATTGGATAAAATAATGTAGTCCTTTCTTTTATTATAGAATTTAGCTTATCTAACAAAGGGTTTATTTGCTCTACGTTTCCGTTACTTGCTAATGAATATATTTGATCAGCTATACTAATCATTTGAAGATCATGATTTACTATGCTATCTAATTCTTCAGAATTAATTTTATATCTAGCATAAATATCACTACCTCCTCCTTGCATGCCTATTAGTTCAGATATCATTGTCCTTATCTTTGATAATGTAAATTCTAGACTCTTAAGAACTGGGGAAAAAGGAGAAGTCGATGCTATATTTGATTCTAGCTCATTAATTTTTGAGATTGTAAACTCCAATTTGTCAGCCACTGCTTTTCTAATTAGGAAATCGTCTTGACGAATAAGATCTTTAACTTTGTACCCCCTATAGCCTGGAACAAGGAGTTGTAATTGTTCCAGAGGAGTTAATTGACTTGTCATATTATACTATAATGGTACAATAATTTAAAGATATCTATAATCTTAATGTGTTATTTTCTAAAATTATAAAATAATATATTATAGAGTATATTACAAAAGACTTATAGATGCTATTGCTAACAATGAAGTTATTATTAAATCAGTGCCTAAAGCATATGATAGACCTATAGGAATTAAAGAAACTAGTAATGGACCAAATCCACCACCAATTAGTCTCCCTATCAATAATGTAAAATTAGCTCCTGTTGCTCTTAGTTTTCCTGGGTATAGTTCACTCATCCATACGCCAAAAAATGCAAAAAAGGCAGAAGATGCGTAAACTAGGAAAACAGAAAACTCAATATAATCAGTATTTATTAGTAATATAAAAATTATGGATGAAATAAAGGCTAAAATTGCGAAATAAAGAGATGCTCTTTTTCTGCCTTTAATATCAGATAGATATCCTGCTATGCCATAAACTATCGCAGAAATTAAATCCGCAATAGCAATTACTATGTCATATGTAGGGACTCTAAGATTTTGAAGTATAGATGGCATGAGACTGAATGCTGGAATTAGATATAGAAAAGACGCAAGCGATAATATTGAGCCTATAATAGTTAGCCTTCTTAAATCCTTAGAGAAAATTTCTGAAATCTTCATTTGTACTCTGCCTTTCCATTTTTCCTCTGGTATCCATATCCAAAATAAGAAAGAAAGTAACGAAATTAAACCAGCAATAAGAAATAAATACCTCCAACCAAATGAAGGAACTATCAAAAACGCTGTAATAGCACCTATCAATGATCCTATTGAATATAACCCTTGCATTAAACCTCCTGCAAATCCTCTTAGATTAGTAAACTGTAATTCAGCTATTACAGCATAACTTATTCCGTTTTCTCCGTTTACACCTACACCTACTAAAAACCATATAATATATAGTTCATATATATTATTTATTATAAAAACTAATATTGTAAATATCGAATACAAAAAAATGGATATGAATAAACTCTTTTTTCTTCCGAATTTATCGGCTAAAATTCCAAAAATAAATCCTCCTAATGCTCCACCTATCCACGATAATGTAACAGCAACAATTACTGCTGAAAGACTAACTAAGAATGCTTTCGCTATATCTATAAGTACAAATGTTATTGAATACATGCAATATGCAGAAAGTAAGAAGATTATTAGAACGCTGATTAGACTCAAAGCGTTTCTAAAATTCATGACGAAAATTTAGGAACCGAACTATTAAAAAATTTTTTATAAACTATTCTTTTCTTAGGGAATTTTTCTTAACTTTCATATAACCTAAAAATAATGTTATAATAGTAAAAGAAAGCGTAGCTAAAAAGGAATAGAAGAAAATATTCAGTAATACTGATACTCTTGAGAATATAGATATTAGACCTATAGATAAAGAACCTATAGATAAATATAATATAATGGAAGACGCATAAGGCACGAAATAAGTATACTTCTTACCTCCACTTGCAAGAAAATAAAATAGTGAAATAAAACTACCAATTATTATTGAGTTAAATATGGAATTTGTTACAAAGTAAATAAGAAAAGGTAATACTAATAATATAATAGGAAATACTTTATTCATGAATTTATTACGTGCATGCTATTAAATAAATCTATTGAAACCATTCTTTATGTAGTAAAAAGTCCTTATAAGTTCTGCATGGCTCCAAACCAATGGAGATACAGAAGGATAATTACCAGTTGGAGATATTTGCTCTGGAATTATTCCAGTAGAAAGAGAGTTAGTTAAAACCCAATTGAGATATTTTATAGCATTCTCCATATTTCCCTCAAATACGTAGTGTTGAGCTAGCCATAAAGTTGTTATAAACCATGCATTTGGCTTATTATCTTCTTTCAAATACCAGTCATTTTCGTATCTAGCTATACCTCCGTTTACTAGTAATTTTTCTTCTACTGTTTTTCTATTAATCGACACTCTCTTATCATCTTTGTCTAATGCTAACATAGATCCAAGCAATGTACTCGAATCTACTGTTTTGTCATTTAAACTTCTAGCAAAATGGTCACCTACAAAAAACATGTCTAGTCCTTTTTTTATTTCTTCAGCAGCATTTAGGTACTTTTCCTTATAATTATCTTCTCCAAAAAATTCCGCAAATTTAGCTGCTGCCGTTAATCCTGCGTATACTGCGGCAGAAGTAAAAAAATGCACTCCTAATCTTTCTTCCCACAAATCATAAGAAGGCATAGGAAGACCCGTTTTTTCATCTCTATATTCTGCAAGGAAATCTGCGGCTGTTTTTATTGAAGGTCTATAAAATTGTTTTATGAAATCAACATCCCTAAATAATGAAAAATGAACCCACGCAGAATAAAGCGTTAATGCAGTTTCATCTTCTTGGATAGGTATATAGCCTGAAGTCCATGGATGCCAAGTGCTTCCCCAATGTCCGTCTGCAGTATATTTTTGAAATAAAAATCCTCTATAGAGAAGAGGCTTTGAAAAGATAAAAAGCATACGAGAGAAATCTTGATATCCCATTAAAGACATAGCTATAGACGAGAAAGCTGCATCTCTGTGCCAAACATAGTTATATGTATCTTTATTAAACCTCATAATATCTGTGTCTAGAGAAGCAGGTATTGCACCATTATTTTGCCAGTGTGCTGCTATAATAAGCATAGATCGTCTTATTTCTTTTTCATAGTTTCTTGCCTTAAATAACCACGCCTTCCAGTAGTTGTCTGTCCTTTCTATAAGAGTTTTTGGAGTTTTTCTTTGAATATATTCATGTAATTTTCTGACACTATCATAATCCCTAGACGCTGATAACCAACAATAAAACGTCTTATTTTTAACTTTTACACTCATAGCAGAGTCTACAGCACCTTGTGCTATAGGGTTCATAGAAAGAACTCCGTCTTCACAATCTTTCCAGGTACCTTGATATCCCATTACTTCTTTATACCCTGTTGCATATTGATATGTTGGAACATTACAACTGAAGAGAAACCACCTATCTCTTTTATAATGAATAATTGAATCCGTAAAAGGATCATAAAACGCAGTATCTCCTGCTTCATTGCCAAGAATGTTAAAGTCCCATGCAAAGAACACTACAACATCATCTTTTGAACTAATATTAACTTCCCTAGTCAATATTGGATATGCCATATCAACACTATCTTTTATTGCTAATTTTACACCTTGAAATTCGGAATTAACCTTAACTGAAAGTGAATCTTCCTCATATTCTATTTTTGGACTGAGGTCATGTAACCACGAAAATTTCCCATTAACCCATATTCCTATCCTACCCATTTGCATATGATTTTCAGTACTTAAAGGGAAATATAATTCCCTTATAGCGTAATTTTTATCGGCGAGAATTGTCAGTTGCCCATTACCTAAAATAGCATATCTTGTCATAGTTTCAATTTACTAGACTTAGTAAAAAGTATTTTTAAGATAACCGTTATAATCATACATTTATTCTTTATTTAATATTATTAATACTGTTACTGAAAAATCATACTACTAATGGTATTAAGTAGTAATAATATTGGTATCAACAGATCTTTTAAAATAATTGAAAAACTACCATATATGGATATAATATATTCATTTATAATAGTATTTATTTTAGGATTAACTCATGGATTAGATCCAGATCATATAGTCACCGCAAGAATTTTAAAGAAAGTTACAAAGATTTTTAAATTCTCATTATTTCATTCTGCAGGTTTTCTTATAATTGCATTACCAATTAGTTTACTCCTTTTTGTAAGAGGAGTAAAATTCATTATCATATTTGTTTCGTATATAATAGGTATCATTATTAGTTTACTATTACTTTATGGAAGTATAATTGGAAAAGAGTTTGAGATAGAACCAAAAAAATTTGGATTATTACAAGGTGCTCTAGTCCTAACTCCTTCTAAAATACTTACTATAGTCTTGGCAATAGCTTCCGGGAATGTAATAATTGGATTATTAATAATAGCTATTTTTATTCTAACATCAGTACTATCTATAACTATTTTTACAATAATAAATTTTATTCCTAAAAAATATGATAAAATTACCAATATCATGGTTTCTATATTTTCGTTAAGTTACATAATTTATAATCTTATATTTCTTTTTTAGCAGTATATAGTAATTTAAGGTGTAAATGTAATTAATACTATAAAACGTTTATTAGTTTTATTCCTATTTATTTCCTTATGGCTAAGTTCTCAGAAAGACAAATAATAGCTTTAGTAATTACGACGATTATATCTGCAATAGTAATTGGATTAGGAGTCTTTACATTAGCAGCGTTTAAAATAATTCCTAGTAATTTTACTTTATATTTCTATGCTACAATATGGTTTGGAGGAGTACTCCTAGTAACATATTTATTATCTTCACTAATAAAATTTAGATTCAGTAGACTTATTGGCGAAAGTAATGCTACTAGTGTATCTTTTATAACAAAGTTATTAGGATATATATTAGCATTTGTAGGTTTCTTCATATTAATAAGAGTAAGTATAGGGGCAGCATTAGCTGCTGGAGGTTTCGCTGGTATAGTTTTAGGTTTGGCCTCACAAACAGTGCTTTCTAATATATTTGGTGGAGTAATGTTACTCTTTTCAAGACCTTATAAAGTAGGGGATAGAATAACAATCTCAACATGGCAGTATGGATTATTAGCTCCTACTTATCCTCCAAAATTCTTTTCAAATGATTTTTTAATTCCTGGTTATACTGGCAAAGTCATAGATATTTCGCTTTTATATACAACAATATATACTGATGATAGTGTACCTGTAAAAATACCTAACAGCATAATGGTACAAGCAGCAATTTTTATACATAATGCAGAAGAAAAAAGAAATGTTAGAACTAAATACGAGGTTTCTAAAGATTTAGATCCGGAATTAGTTATCAATAGATTAAAAGATAAATTAAAAGGAATAGATTCAATAATTAGTGAACCGTCAATAAAGATTCTTGAAACTACAACGACTACGTATATTCTTGGAATAGATACAGTTTGTAAATCAATATACGAAGAACCAATAAGAGATCAAATTCTGCGAATTACAATGAAGACTATAAAAGAACTACAAAACGAAGTTAATAAAAATGGATCTCAAATAATAAAACAATAGAGCTAAAAAATTAATGATTACGGGCTAAAATTATTTAGATAATAAAAAGGTTTAATTTGATTTTATGATATTCATGTTTATGAATGCTTTTGAAACATTGACATACCTTATAGAGCATGCAGAAAATGGATCAGTTGCAGCATTAGTAACACAAGATAATACGCCAATTATAATTACAAAAGATGATGAATATTCCTTTTCAGCATATGTATGTACGAATACTGGAGATGTGAAGCGTATAAAGGAGGAATTTGATAAAACAACTTTCCATAAAGCTGTATTAGACTTCTTGGATGAAATTGGTGATTTTATAGGGAAAGAAGTAACTGAATTAAGTTTATCTAATATAGCCTTATTCCCTAACTGTATACCTAAAAAAGAAGAAAGAAAAGAACATAAAAGAGAAATAAATATTGCAGAGAAAATAAATGATTTTAAGAAAATAAATTCTCCTTATTATGCTATTCCATTACTAACAGATAATGGAAAACTCTTTGCTTTTATTCCAGAGATAGATGGAACAGCAGATCTTGATTTTATTATTAAAAGTATATCTAAAATAGAAGAAAAACCAAAGCCAGTCAACCTTGATTTAAATTCTGTTTATCCTATCTTATTTACTTCGAAGTTAGATCCCAAAATGGGTAATCCGTTTACCTCTGCAGGAAATTATACTTTCTTTACTGCAGTATATGTGTACCAAGATACCGAAGGATCCGAGAAATTTATGGGCCAAAATATGTTAAAAAGTTCTGGAAAATTCTTTTCCACTTCACCTCACGGTTCAATGAGAACAGAAAATTTAGAATTTTTATCATCCTCCCATAAAAAAGGCAATATATACGTAGGGTTCTTTGTAAAAGGCGAAAAAATTATAGAACTGCAAAGCTTAGATTTAGTGGATTTACATTTAGAAAATAAAATAAGAGTTAACGATTATATTTTTTCATCTTTTTCCTTAACTGCAAGGAATGGAATTATAGATTTTGAAAGCTACGACAAAGTTATGACTAATTTCATAAATTTTGCATTAGCTAAAAGCAATGGAAGAGAAGTACTTAAGGATGTAATAGAAATACATTCAATGGGTGGTATTGATTTACCTTTTGTTAAAAATTCTTCTGGACAAAACATTTCAGTAGTGGATCCAATATCTTATTGGTATTATAAGGTATATGAGAAAACAGACGAATTAAAAGATTGTAACGATTGTCCATTAGCCGAAAAAGTTAATGAGAGAAACTTTCTAATATCTATTTTAAGAAGAAAAGGTTGGATTTCGGCATTTTTACTGTGATGACTGACCATGCTTCTGATTAGTGAGGATAAAGTCAGCGTCTGATTTATTTTCCAGGCAAGTTAATTGTATATGATGATGAGTTTGCCGAGTATTGATATATGAAATAACTACAGTAACTGATTTATGAAATATTACCTATATAATATCTTATGGAAGTAGAAAAGATAATTGATGAGATAATGGAAAAAGCTAGGTCTAGTTTCATAAGTGAGGCAGAAACAAAATATCTAATTTCCATGATAATATGGGGATTAAATAAATATTCTAAAGATTCTTTGTTTGAAAATATAAAAAATACATTGAAAGAAGCATTTAAATCAAATGATTTGGAAATAATAATGATATTTGATGATCTAGAAAAATTACCTCCTTCAGATAAAATAATAAAAGGATACATCACAGCAGGTGATATTATTATTCAGACACTAAAAAATAAATGGTTTGAAAGAATAAGAGATGAAAGTTTGAGAAGAGCTATAGAAAATTGTAAAGAAACTATAGAAATTAAGGAAATTTCAAACGTAAATTCGTTCTTTAGAAACTTTATACCTCTATCTTGTGAAGAATTTGATAAAATTACGGGAAAGAAAGACTCATACAAAATAGCAGTTAGGCTATTGTTAGGAGTTTATGATAGTTCTCCTTTAAAATGTAAAATAAATATTTTCAATTTTGCACCAGATATTATAAAATCTAGCTTAAGATATTGTCATGAATCACTCTGAACTATTGGAACAAGTTTTGAACCACAATTTGAACAGAATTTAGAACCTGGCTGATTTATAGTTCCGCATTTAGGGCATTTCACTGGTTGTAATGAAGCCCCACAACTAGAACAGAATTTTGCGTCCTCGTCATTTTCTGTACCACATTTCCAGCATTTTATCTTCTTTACTACTGGAGCCTTAGTTTGCGATTGATTCTGAGGTTGAGGTACTGATTGCTGTACAGATTGTTGAGAAGGAGGCTGAGGATATTGGGAAGGTTGAGATTGAGGAGGATAAGGACCATACTGCTGAGGTGCTCCATAAGGTTGTGGATTACCTGCATATGGTTGGCCATATGGCTGTTGATAACCATATTGCTGTCCATATTGAGGATAAGGTTGTGGGCCCATAGGACCGGCTGGTGGTGCACTCATTATAGCCATTACTATCATATTCATTAGTTGGTCCTCTTGGGCAAAATCCTTGTATATGTTATACGCATCGTAAGCTGTAGCTCCGCCTCCTAAAATTTCCAAAAGTTTACTATGTAACATATCGTCTCCAATTAAATAGCTTCCACCTGCAGTAGCTCCTGCAACTAAAAGATCTTCCATTAGATTAGCTATTCCCGTTTCAACTACAACCATGTTCTGAGCTTGGCATAGTCTTATTGTATAAGCTTTATTCTTATCTGTTATCATACCTAAAACACTGTCATGCTTTGCTTGAATTACAGCCATATTTTGTCCTACCATTGGAAATGCCTGAAACCCTTGAGACATTAAATACATAGTAATTTGCTGAGAAACATATTGAAGATTTATAGGATAATTTATAGGAACCATCTGCGTTTTTCCGCCTAATCCTGTGGATTGTTCGCACATCATCGTGGTCATCATTGGATTATTTCCATATGGACCGTAAGGTTGCCCATATGGCTGCTGAGGTGCTCCGTAAGGCTGGCCATATGGATTATAAGGAGGAGGCTGATAACCCATAAATCTATTATTAAACTAAGATATATAAATAGTTATGTTCGAAATAATTTAGTTAGCTCTAAATATTTTTTCAAATTTACTTAATGTTCCTTTCTGTTCTAACTCAACAGTAAAAAAGGCTATCCAAGAGCCTAATAGCCAACCTCCCAATATATCTGCTGGCCAATGAACTCCCACATATACTCTAGAATAACTTACTATTATTGCTTCAATCATCATAATTATCCAAAGCCATTTAGGCGATGTTAAAGCTAAAACCATTGCGCCGTCACTTACTATTAAGGCATGACCAGAAGGATAACTAAAATCATGGGGTCTAGGTACCAATAAGAAGGAAGGAATATAGTAGAATGGTCGTAATTGTGCCATTAGGTATTTTGAGGCTTCGCCTAATATTATTGCCAATATAAATGAGGCAGCAAGAGTTATTGCAATTTTTCTAGTTTTTTTAAATATCAGAAGAATGGCAGTTAATGGTATCCATACATATTCTCTTCCGTATAGCGAGAAAAATATCATTGCTGGATTAATAAATGAAACTTGATGATAATTTATCAACTCAAAAATAACAATATTTAAGGGAACTTTAGGTTCTCCAAGAATTTTTACAATTATAGAAAATATTATATACAGAAATAATAGTACCCAGTATTTCTTCATCAGAAGTAAAAGCTAGAGTGTAGATAAAAATCTTTTGGATAGGAAAAATTTATCTTAACAGGGGATTCAAAGAGGACGGAAGACTCCATCCGTGACGGTAGACCCAAAATCTTATTAGTAAAAATAATTTTTATTTGTTATTAGTTATTTATGTGAATTTAATGTAATTAGATAATTGATTTTGCAATATTTTTTAGAAATTTTTAAGTGTTATATTAGATCTTTTATTTTCTGAAAGTAAACTGAGGAATATTATTATAATATTAGAAAATGATGAGATGTGTATGATAGAATCCGTTTTATTTACATCGATTATTTAATACATTATTCTTAATGCTCTTGATTATGAGTATAATGAAATATATTCCTTATGAAGAAAAAAATATGAGGTTTAATGTTGAATTCATATTTGTAAAATGATTTTGGGTCTACCGGTAAGGGCGTAGGAGGCTCCACATGCTTTGCCTCTAACATGGCTAGGCGATGGCTTGAAGAGCCGAAGGAACTACTTGATTGGGGTTAACTTGAGGGCCTTCACCACCCCCTCCCCTATACCTAGTCTTCTTAGTCTCACTCTTGTAAAGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCACCGTAGGAGGAGTTCACTATTCTAAGTTTATCTAACATACTTTTCTAGAGAAATATAATAAAATCCTATCCAGTATAAAAAGTTAAAAATTTTCAGTGTTACTATTAGCAATTATTTCTATATAGTTTACAAACGCTATATAGGAAAAGTTTATTTTGAGCTTATCAAAAGTTGAGTTGAGCAAAATGGGTTTTAACGGAATTGGATTTTATACAAGTATTCCAGGAGAAATACCAGTACCAATTGTAGTTGCTTATTTTGTTATTGCCTTTCTTGTTGCAATAATATTAGGGAAAAGAAACGGTGGGCTAAAGGCGTTTAGTACAATTGACTGGGTTTATATTGGAATAGGTGCTGCAGCAGCATATGTATGGGAATTTATTATTGGCGCAATTATAGGAAGAATTATTCCTTCAGGCATTTCAACCTTTGTTGATCCGTCTTTTTGGGGAAGAATGTTTATAGTTTTTATAGTAGCAGCCTTAGTTAGAAAAGTAGGCGTAGGTATGATAAGCCTTTTTCTTTTTGATATTCTTGGAGATTTATTTCATTACGGCTTCTCTGGAGAACCTATGTTCTTCATATACGAGTCTTTAACATACGGATTATTTGTAGATTTAGCTATAGCTGCAACTGGAGGAAAACTATTTGGCATAGGCATATCAAAGGGTTTAGGATATGTAGCCGCACTAGCGGCTATTGAAGGAGGAATAATTGGATTATTATGGGCAATTCCAGATCCAATATTTTATAGAGCTTTCTTCGATCCTTTAATTTATGGTGCAACTGTGAATTATGCTAGAGTTGTATATGATCTTATAGCATTTATACCTGGTGATGTCGCAATAGGAATTCTAGCAGGACTTTCGGCAAATAGAGTGGAGAAAGCAGTCCAGGTGTAAATAAAATGTATGCAATTGAAATAAAAGGTTTAAATTTTTCTTATTTAGGTTCTACTTCTCCTTCTATCTCTGTTGATGAGCTATACATTGAAAAAGGAGAATCTGTACTTATTACGGGTAGGTCAGGGTCAGGAAAATCTACTTTTGTAAGTTGTATTAATGGCATAATACCTCATATGGTATCTGGTAATTTGAAAGGAGAAGTAAATGTTTTGGGTAAAAGCGTAAAAGATACTCCGCTTTCTAAACTCTCCACGCTTGTGGGTACGGTTTTGCAAGATCCAGAAAGCCAAGTTATTAATTATACTGTAGAAGAAGAAATAGCTTTTGGACCAGAAAACCTAAATTTATCTCCAGATGATATAGAAGAAAGAGTAAAAGAATCAATGAAAATTGCTGGAATCCAGCACTTATGGGGAAAAGAGACTACTAAACTTTCTGGGGGAGAACTTCAAAGAACGATATTAGCCTCAGTCTTAGCTATGAGACCAGAAGTACTTATCTTAGACGAACCTACTTCTAATATAGATCCAGAAGGAACAGATCATATATTCTCGACATTGAGAAACCTTAGAGGACAGAAAACTATGTTAATAGTTGAACATAAGGTTGAAAGAGTACTTCCTTTTATTGATAGAGTTATACTTATAGATAAAGGAAGATAGCCCTAGATTTAAGGAAAGAAGAAATTTTAGATGGAGTAGATACACTTTATACTTCTGGCATAGAAATACCAGAATACTTTGTTTATTCTAAAAAACTTGGTCTCGAAGCTCCAGACTTAGAATCTGTTAAGAAAATAATAAAAGAGAAAAATATAATGATTTCTGATCCTCCTAGAAAATCTATCAATAAGGAAATTTTTACAGCAAATATTAAGGTATATGCAAAAAACAAGGAAATTTTAGATGTAAGTTTTGGACTAGGAGAAGGAGAAATAGTTGCAATGATGGGACAGAACGGAGCTGGAAAGACTACTATATTGAAAGGTATTTCTGGTATGTTAGATCCAAGCGAATACAAAGTTTATGGATCTATAAAGTATATGGAAGAAGAACTATCAAATAAACCTATATGGTATAGAGGAAAATACATGGTTTATTTGCCTCAAACATTTGATCTAATGCTAGTTACTAGTCAAGTGAAAAAAGAGATTGAGTATACATTAAAACATAGAAAGGTAAAGAATTATCATGAAATAGCTGAAAGATACATGAAAGAATTTGGACTTTTCGAATATAAGGATCAAGATCCGGTTATTCTAAGCATGGGACAAAGAAGAAGAGTGGCTATGGCGTCGATTTTAGCGTCAGGAGTTAAGATTATGCTCATGGACGAGCCGACTTCTGGTCAGGACTTTTATAATAAAATGATGTTAGGAAAAGAATTAAAAGATCTGGCTAGTAAAGGCTATACTATACTTATCGTAACTCATGATTCTAGATTTGTCTATGAGTACGCAGATAGATTGTTAATAATAGATCATGGGAAGAAAGTTCTCGAAGGAAAGCCCGAAGAAGTATTTAAGGAGTCATCTAAGTATGGAATATACCCACCAACAGATTTTCTATTAAGGTGGTAGTATGTTTATTTATCAAGAACCATCATTACCTCCTTGGTTATCATCTGGAATAAGCTGGTTCATTTTCTTTTTCGGTGCCGCTGGCCCAATTTTTATTATATTAGGGGCAATAGGTATTAGAGGATTTTTACAAATTACTAGATTCGAGAAAGGAAATGGAATACTTTACAAAATGAGTCCATTAACTAAGCTAGTATTAACTATAAGCTCTACAATAGTTGCGTCTTTAACTATATGGTGGTTTGGAGCTATTTTAACTTTAGTGTTTTTAGGCTTATTTTTTACTTTAAACGACGCTAAAAAGAAAGTCATGTATGTAAGCTATCTGCTATTTTCAACTATATTAGGAATAACAACAGGGTTTGCTTTCTATACCCCATTTAACTACCTATCTCAGGCGCTAAATACTAATACTTTTAATGTGATATGGGTATGGCCATCCTACTTTGCGTATATGGGCTATGAACCAGTTGTTACTACTCAAGCTTTATTCTATGCTTTTCAAATAGTATTTAGATTTTTAGCCCCAATGCTCGCAGGACTTCTTCTAATTATAACGACTACGCCGTCAGATTTATTAAGATATTTAGAAAAAATAAAATTTCCACTAGTTTTCATTTTTGCATTAACCGTAGCAATGCGAAGTATACCTAGAATTTTTGATACCTTAGATACTATAGTTAAATTAGAAATGATGAGAGGATTGGGATATGGAAAGCCTAGAATATTCAAGCCGCTTTATATTTTGATTGCAGCACTTAGTGCACTAGTACCGACATTAATTTTCCTTATGAGAGGAGCTAAATATACTGCAATAGCTGCAGATACTAGAGCTTTCAATTCTAATCCAAAAAGAACATATATGAAACAAGTTACATTCAATAAAATAGATTACATAACATGGATTTTTATAGCGTTACTATATGTCATTGCTATAATTCTAATTTTGACTGGATATGGAAGAGGAATACCATATGTCGGATATTAAGTTTTAATGTTATCAACAAAAAGCACGAATATTTTTTATTGCATAAACATTAATTAATAATTTTTTTCATTTTACCCTCAGCTATTTTATCCTTATAATTTTTTATATTTTATTTCATAATCTTTCGCATGACTAGAAAACTCTTAATGCATGTAGGTCCTGTAACAATAGATTATGATGTTCTAATTGAGGGAATGAAGGGAGATGTAGGATTCACATCAAAAGAATTCGTTGATGCTTTTCAATATTCATTGAAGTCTTTAAGGAAGATAATGGGAGCTCAAGAAAATTCACAACCTTTTATTATACCTGGAGGAGGTACATCTGCAATGGAAAGCGTAACATCGCTTCTTAGAAAAGACGATAAGATTCTAGTTATTTCCAATGGAGTATTTGGGGATCGATGGGAAAAAATTCTATCAAGATATCCAGTTCATGTGAAAACTATAAGAGCTAAACCTGGAGATTACGTAACTCCTGATGATATTGAAAAGGAAGTTTCAAAGGAGCATTATAATATGGTAACAATGACACATGTAGAAACTAGCACTGGAATAAGAGAACCAATATACGAGGTATCTAAAAAAATAAGAAACTATGTAGATCTAATAGTTGTTGACGGTGTATCAAGTGTAAGTGCAGAAGAAGTTAAAATGGATAACATAGATGTATTCTTAACTGCAAGTCAAAAAGCTATAGGAACTCCTCCTGGTGCAGGACTTTTAGTTCTTTCAGAAAACGCAGTTTCCAGATTATCTGATAATTCTATAGCAGGATATTATCTTAATCTAAAGAATTGGATTGATGTAATGAAATCTATGGAAGAAGGCAGGGCTGCGTATTTCTCAACTTTGCCTGTTCATTTAATATTAATGATAACGAAGGCATTTAAGTTAATTGAAAAAGAAGGAATAGAAAATAGAATTAGAAGACATGAAAAAGTAGCTGCTGCTATAAGAACTGGAATTGAAGGAATGGGATTATCAATAGTAGCTAAACATCCAGAAGCCTATAGCAATACAGTAACAGGAGTAATTGTGAATAAGGTTAATCCGAGTGAAGTGCTTAAGGAAATAGTAAATGAGGGAATAGAATTAGCTCCAGGCGTGCATCCAGATTTAGCAGGAAAATACTTTAGAATAGGACATATGGGATGGGTAAATGAAAATGATGCTATTTCTACTATAGCAGCATTAGAAAGAGTGCTCTCAAGACTAGGAGAGCCAATAAGATTAGGTGAAGGAGTAAGATCTACACAACTTTACCTATCAAAAGGAAACATTTCCAATCTATAGGCTGAGTCCCAAAACATATACTCCATTACGGAAGCAGTTCTGAAGTTTTTTATCATCTGATTTTTCTGCTCTTCAGTAATTTTAAAGGAATTAACTATAGATAAAACTTGATAAACTCCTTTTTCATATTCTTCTCCTCCATAAGTATCTATCCACTTTTGATACTCTTCCTTTGGAGATCCTTCTTTCTTTAGTTCCTTTCCTACTTCCATATATATCCAATAGCAAGGAAGTACTGCTGCAACTGACTCATAGTAGGGCTTAGAGTATACTGTAGATAGCAGAAAGGAAGTATATAAAAGATTAGTAGGAGATTCTTTAAATTCCGTTATATTAAGTCTTTTAATAAAATATTCATGTAATTCTCTTTCTACATTCATCACATGAGTAACATGAGTAGCAAATAGTAGGCTATCTTTATCTGGCGCCTTTGCTGAAAGGATTGAAAGAACTCTACTAAATTGTTTTAAATAAAGATAGTCTTGCGAGACATAATATTTGAACTTGACTACATCTAGTTTTCCATTTACTAACTCTCTTAAAAATGGATGAGATAATATGGAAGAATATATATCGCGTATAGAATTCCATAAATCATCAGATAACATTATTCATCAAAATATAATCGTCTTAAACTATATAATAATCTAACTTTCATATAGTTCGTAATTATTTCTTTGATACCAGAATAATTATGAGACCCTTTTAAGAATTTCTTCTATTAGAATCTTTATACTCTCCTTTGCGATATCATCGGCCCTAAACGGACTCAAAATACCCTCCTTATCTGGACCATTATACTGATAATCATGTATCAGAAGTGCTTTCTCTGTTAGTAGATTTATCTCTTTCCCGAGTAGGAGAGAGAGCTCTTCCAGATACGAAGTAGGAACTATAGCTATTATCCAATCTGCCTTCTCTATAGATTTGTTTCCTTTAAGTTTCTTTTTTCCATGATATTTTTTTATTATATCGCTTCTTTTATCGACTAACATAGAAGCAATAAGTGCTTTCCATGCTTGAAAAGCCTTACCTGCAGCATTCCTTATTAATCCTTCACCTAGAAATTTTTCAGCTATTGTAGCTTCAAATTTTGCTTCCTCTAATCTAATTTTTTTATAAGCATTAAGATCAAACCAAGGTTTAGGTAATTCTTGCATTATATACTTAATTATAATCTGCAGTTTAAAAATTGTTCATAGTATTTCAAAATAAAGTGGCATGAAATAGAGTCTAAACTCTAAATACATCCATAGAAAAGTCTAAGGATCTAGAAGAATGGGTTATGTACCCGCTTGAAATTATGTCTACTCCAGTCTTTGCATAATCTTTCACGTTTTCTGGCGTTATTTTTCCAGACGCTTCTAAAATAATTTTACCTTTAAGTTCTCTGACTATTGGAATTATTTCTTCAGGACTTAAATTATCTATTAGTATGGCATCTGCTCCTGCTTTATATGCCTTAATCGCGTTGGAAAAATTCGAGACTTCTATTTCTATTTTCTTAGTGAAACTAGCTATTCTTTTTGCCCTTTTTATAGCTTCTTCTACATCACCTATAATAGCAAGATGATTATCTTTAATGAGGATAGCATCACTTAAGTTAAATCTATGTGGATCGCCTCCACCAATTTCTATTGCGTATTTTTCGAAAATTCTAAGACCAGGAGTTGTCTTTCTTGTTCCTGCAATTCTTATTTCTCGATTAACTTCTCTTGCAATTTTAACCATTTGGTAAGTTGATGTTGAAATTCCAGATAACTTACCTAATAAATTCAATGCCAGTCTTTCGGCGCTAAGCAAAGTTTCGGCATCACCTTCTAATGCTATTATCCTATCTCCTTTCTTTACTTCCGTGCCATCTTTCATAAACTCCGATACTTTCAAACCTAAAAATTGTAGAAAAGGTACAATAAAAACCGTGCCTGACAAGATTCCTTCGTCTTTTGAAAAGATTACTCCTCTTGCTTTTTCTCCTGATACTATTCTACTAGTTATATCTTCCGGATATACATCTTCCTTTAAAAAATCCATTAATTTATCAATTATTATTTGATTAATCATTTCTTACACACTTTTATGAAATTCTTAAATACTTCCAAACCGTATTCTGTATTTTTAACTTCAGGATGAAATTGGACACTAAATATTGAATTATCCTTATTTACCATAGCTTGTATTTTTGCGTTCTCACTATACGCTAATACTCTAAAACCTTCCGGCTGAGCCTTCACTTCGTCGTTATGACTTTCCCATGCTACAAATTCCTTAGGAATATTTTGCAATATAGTATCATGGTCCTCTATTTTTATTCTAGCTAATCCAAATTCTGGATTCTCTGCCTTACCTACTTTTCCTCCTAAAACATAGGCTATGAGTTGATGACCTAAACATATTCCTAACATAGGAATTTTCAATTCCTTTATAAAAAGTGAAGAATTTCCCATTTTAGAAATCTCTTGCTCTACTGAATATGGCCCTCCACTAAATACTATGCAATCATATTTCTTCATGTTATCTAAAGACGTGCTTGGGTTAACTGCTTCTGCATCTTGTCCTAAATATTTAAGATTCTTTAGGATAAGATGATTATATTGACCTCCGTAATATATAAGTGCTATTTTCACATCTTTACTTAATAATGATAGATTAAAGGCTTTGATGATAAATATTCATTATAATTTCCTTAAACTTACTATAATCTTTAGCCTTTTCTATTTTTAATATTGATCTTTCCATTAATTTTTGAATAAATATAGATCCCCTAAATATTGGAAGATTATCAGAAACATATTCTGCAGTTTCTTCAGGATTTTCAATAAATAGATCTATTCCTTCTTGATAAATTGAAATAAAATCCTCTTCTCCTCTAGAAATGTGAGCACCACATATTCCAGGAATATAAATATTGAATTTTTCAAATAATTCATCAAGAGGTATACCTTTTTCATCAATAGAATTCGTTACTAACGCGGAATCAGCGTCACCCTTTTTATAAATAGCAAAAACTTGCATAGGATCTTCTGTATAAATAATTTGAGAATTCTTATTCAGAAGTTTTAGAATAGCTCTTAACATTAAATCATTAGCACTACCTTTTTTCCATATTACAATTTTATCTCCTATAAATGGAGTAACAATTAACATTTTTCTTATTAATGAGTAATTCACTTCTAAATCCTTTAGAATAAGTTCCACGCTAGCATTGACGTATGCGTCTGCACTATCAGCGTTAAAAGTAGTTCAAAATCATGCCTCTTCATTTGAGAAGCTATTAGAGGATATGAAACTGGACCTATAGGAGAAGAAATTTTCATAGTTATTTTATTGTCATATTTTCTAAAAAAGTTAATTATTTAAATAATTAGTCTTATATAAACAAAGCTAATGAATAATTTTTTGATAAAACACTGGAAAACACCATTATGAAAGTGAGTATAGAAGGAAGTAACGATTCAATATTTATAGATAATATGGAATTTAAGATAAAAAGAGAATTTTTCCCTAACTTAAAAATTATTGTTAATGATTTCGAGATAATTAGAGATAAAGGAACATATAAAATACTAAAGTCTGGACTTCTACGTGGAGAATACAGTAAAAATAAACTAGTATATGATGGAAACGAATACGTAATAGAGAATTTAAATATGCATGAATTTATTAAAAACAAATATCTCAATAAAAGAATATTAATGAATAATATCGTTATAGGATCAATAATATTGAATAAAGAAAAATTAAAAATAGATGGAGATTTCCCAAATGAAGATCCGGCTATTATTCTTGCAAGTATATTTACTCCGTATACGACTCTACAGAAAACAAGAATAATGAGAAGAAGATACAATAGAAGAATAGGAATCATGTTAGGAGTATTGGAAGCTTTTATAATAACTATAATACCGTTTAATATTATCTACATAGGAATAGCTGTTTTGATATTTGCTGTCATAGATTATCTAATTTTCAGAATTTATATTCGAAATAGATAGCTATACCTTACTTGTTAAGTCAAAGAAAGCTTTCCAGAACGGATCTTCTTTTGGTCTTTCTATCTTCTTCTCTCCTATAACTTCTGCTTCACCTTCTTCCACTATTCCAATAATTTCAGCTTCTATACCTTCTCTTTTTAGAGCACCTACTACCTCTTCTTTGTCAGTAACTATAACCATAGTTCCTTCGCTTATAGAGATGAAAGGATCTATATTCACTATGGAAGATACTTCTTTTACTGACCGATACATAGGAATTCTTTCCGGGAATATCCTGATTCTCTTATTACTTGCTTCTGCAACCTCAACTAACGCATTCCATAGACCTCCTTCAGTAGCGTCATGCATAGCATGAACGCCTATTTTAGATGCTATGAGACCATCCTTCCAGCAAGACATTTTCCAATACATTTCCATAGCTTCATTAAATACTTCTGGAGAAAGCCTTTTCTTAAAATACTCTGGATATGTATTAACTAGAAGCGCAGTTGCTTCTACTGCAGGACCTTTAGTTACTATAACCTTATCTCCTGGTTTAATTTTTGATGGATTTGCAAGTTTTTCTTTTTCTCCTATTCCAAACATTGCGAAACCCCCAAGCATCGGATAGTTAGTTCCCTCATATCTACCAGTATGTCCTCCAACAACCATTACTCCAATATCTTTTAGATAATCAGAAATTCCTTTCCACATTTCTTCAAACTCCTCGTCTGTCATAGAAGTAGGTAAATTAAGGTCAACCAGCGAATATTGAGGAGGAATACCAGAAGTCATTACATCACTTGCCAGAATATGAACTGCAAACCATGCTGCTTTTCTAAAACCGTACTGAGGAACAATAAATACAGGATCAGTTTTGGTAACTAAAACTCTCCCATCTCCTAAATCTATTACTCCAACATCTACACCATTTCTAGGTGGAACTATAACTTCTTCTCTCATTTTTCCTAAGTTTGGATAAATTATTTTATCAAAAACGTCTCTTCCTATCTTTCCTAAACTAGTCATGAGTAATTCCTTTGAACAAAAAGAAATAAGTATATTATAAGTTCTTACGGAATATCAAACTATGAAAAGAGTACTTAGAATTCCACGATTTACGAAAGATGGTAAAACAAAAACTTTAGAATTACTTATGGATTCCCCTACAACAAATGATAAAGGATTTCCTCAAGAGGCTAAGTTTCTTATCGTTATAGATGACGGTAATAATAGAGTTGGATTTCAATTAAGTCAGTCTGAAGCTGCATTACTTTACCATAGATTAGATTATATTTTAAACGAAGCATCAAAGGAATACATAGACCTTGAGGATAAATCCAGAAGAAGTTACGAGAAAAAAATGAATAAAGGAAAAGAAAAGGAGGATGAGGAATTTATAGACGAGCTGAACGATGAAGATCAAGAGTCGCAATAAATACACTGTTGAGCATTACTAAAGAATTTGTAGGATTTATATTAGTAAATGTTTCATGAATATAAATATAATAGCCGTTTAAATTAACAGTACTGTTCTGAATACCTTCAGCAGAAAATTCCTCATTAAATCCTTTACCATTAACTAAGTATGTAAGACTAAGATCTTTTACCGTATTTGCAGTATTTGATGTTAGAGCTACTAGAACTGCACCACCGTAAGAGTTAATTATCTCTATTATACCTCCAAAACCACCGTTAGAATACAGTTTCTCATTGGTTATAGTTGTTTTATTATAATTATCAAAAGTATATGAATAATAATAATGAAGTCCTAAATCAATATATCCTTCTTGTTCATAACTTAAATTGAATGGTATTACCTTGGGATTAGTTATAGGTACTGCGGCAGCATCAATATACATTGATATTGGATAATCACCTTGAATAATTAATGTGGAATTATAGAATCCAGTTTCTTTTGCTATTTCACTGAATGTTTCAGTTAAATTAGCTAATTCATAAATACTATTAAAAGTTTGATAAGCATAGAATCTTCCATACTGAATTACTGATGTATTTTCTATCCCATGTTCAAACATTAATTCTGATTTATAGGCAAGATAGTAATGTCCTCCTTCTTGGTAATATTCAGAATTTTGATATCCTCCAAAGAATAATGGAGATGAATCCATGTAATTTTGAAATTCCGTTATTATTTTAGCTCCTACTAAAGGATTAGATTGATTTACCCACAACATCATTACACCGGCTATATCCCAATCATAAGCTAATGAACCAGTTAACTGATATGCTTGAAGCAAATTGCTAACACTTACAGTTACATTTGCAGTAGTCCCGTATGCTATCATTGGAGTTAAGTCTATTATGTACGGATTATGGAAAGAGAGAGTATCTATTGACGTTAATGGTTTCCAGTAGAATAAATCTATTCCTCCAGTATAAATTGTCTCATAAGGATTGACTATACTAGCTAAATGAGAATCGTAATAGACCATTATACTCCTTGTAGCAGGCTCGTTAGTATACCAAAATTCATCGTTTCCTCCTCCTTCCTCATATATTAAAGCATCCATCTTATAAGTTCCATTAGGAATTTTTATTGAAGATGTTATACTATCAAATTTTGGATTAAGAATAACATATGAATAATTAAACGGAACTGTAACGTTAACAAACAATGGAATAAACTCGTTTGGCAAACCTTTTGGAGGAGTTCCAGGATACAAATAAAGTGTTATATTAAGTTCATATAATCCCGTAATGCCTACTTTTGCGTCATAGTAATTTTGTATTACTGGCTCAAATGTAACATTGCCCTTAAGTAAGTTTTCGAACATTGTCACATCGGCTTCTGCTGTAGAATTATTTATTTCTTGAGTAGATCCCCAAAATATTGGCACACCATTGACAAATATATACGCTTGCCTGTCATATTGCGTACCATTAAATTCTTTTATCGATACATTAAGGAGTTCCATTGAATAGTTTCCTGGAGGGACATAAGTTTTTATATAGAAAGGCCTCAACCCAGTGTCATTAAAAAGCAAATTAGTAGCTACATGAATAACTAATGGAGTAACATTAGGAGGAATTATGTGATATGCCTCAAAAGAGTAGTATGAAGGATCTTCAGTAAAAGGAATTTTTGATGAGACTGTAATGTTTGATATTAGTGGATGGACAAACGAAGATGGAGATACTTCAGTACCTTGTGTATATCCAAAAAATATAGAAAATTGAACTATAGTTAATATTAATAAAATTAAAATTGCAAATCTTTTCATTACTTTTCACCCCCTCTTTCTTAAAGAGAAAAATAATGCAATTAAGGCTATTATTATACCTATTATGCCTAAAGCATAAGCAACTGTTATAGAACTGCTCAGTGACGATATAGAATGACTCAATGTTGTTATCGAATGTTCAGCAGACTGTATTTGACCTTCACTTACTACTTCATGATAAGAATTATAAACACCAGATTGTAGACTATATTGTAAACCATCATTAACGTTTATAGTAAATATATAGAATCCTGAAGGTAGTAGACTAGCATCAAATGGAATAGTTATCTTTATTCCTGAAGATGTAGAAGATACAGAGTAGGAAATTGAGGACCCATCCATTTCAACACCAGTAACCTTAAGATTTTCTCCAGTAATGGTTATAGTTATATTTGTAGAAGACGTTGTAACGTTAGTTGGTGATATAGAAACTATTTTAGGTTCTGGTAAAGTTGACAATGAAGTCACATTAGTTATAGATACACCTTCTTGAGTTATTATGCTATCGCTCTGGTTAAATGCATAAGTAGAATCTTCAATTACACTACTTACTAGACTTATATTTGAATTTATAGAGTTAATAGCGAACTCTCTTCCGCCTATTGTATCCTTAATTAAACTTACTAAAGACGATTCCGAATTTATCTGAATTATTCTAGAATCTATTGCTATTAATGTTGAATTATATGAATCTATCTGACCTACTATAGAATTTAATAATATTACATTATGTAATCCTTCTACAGTTATAGAAGGTGAATATATGTCATCTAATTCATAAGTTGTCCCATTATATGTTAATAAAGGTATTTCGCTAACGTTTTCTGGCGTTATTATTAACGTATGCAGATACGTATAAGGCATTACTTGAGTATAACTTTTTGCTATTAAATTGGATCCAAATGGAGAAGTTCCAGTTATTACTACATCCCATGCTCCAGAGAGTTCGTACAGATTTCCGCCTTGATAGATTGTACCTTGATCTGTAAGTATAGAAGGTATCTTTGCTATGCCTACCCATTCTCCTAGAGTTGAATTATACTGTAAGAGAGTTTCAGTTTCAAATTCTAAGATTAAGGATTCAAAATTTAACTGAGATGGAAATAGAGTAGCAGAAAACTCGCCATACTTGACTTCCGTACCATTGGAATATGTTATATTCGCATAGATCTTTAGATTTTGGCCTTCATAAACTGTGGATACACTTCTCACTTGATAAGACAATTCAGAAGGCTCCACGTAAAATGCCGTAGTGAAATTAGAGTTTTCTATACCTACCGATGTAGATATAGTAGAATGAATTATTACAGTATAGAATCCAGGAGTAAAATTAGACGGTATAGTAAAATTAGCTTCATGATATCCAAATAAATTATATATTCCAAATTCTGTAATATCTGGAGCTAAGGACATAGGAATTGTAGCAACTAACTGATTCTGAGGATTATATACGAATGCAGTTACATTAGAAGTAAAAAGACCTAATCCAGCTTGATCATAAGTAAACGCTAATAAGGTTATATTTTGCCCCACATTAGCTGAAGGCATACCGTCGTTTATTGGAGTAAATAACAATCCATAAATTATACCTCCAAAATAATTGTACGTATATGCACTGCCATAGGTATTATTAATAACCATTATGTATGTTCCCTCTGGCATTGGAGATAATAATGTTCCTATTCCTTCATATTGACCAGGCGTAGAAGTAGGTAATAAACTTACGTTAAATATGGTCTTACCGTCCTTTATGAAATGAGCTACAAATGTAGTATTACTAACTGGAGTGCCATTAGGATAATATGCACATACTACTACAGGGAACGATTGATCTACTGGCAAAATTTGACCTACTGGAAATATTATGTTTATAGATTCCCCTACATCTATATCTGTTTGACCTATTCCAGTTAGACCATAAATTGAACCATTAACTACAATGCTCCAAACGTTTTGTGGTTCCCCTTTTTGAATTGTGTAACTACCTACCCAATAAGTTCCATTAAACGATAATGGAACACTAGCAAGATAGCCATTTAATGTATATATGTATGCATTAAAGTCTCCTGTGGTTACTGTAGTACCGTTAGGAGTTGAAATATAGGCCAATATCTTGAATGCGCTCCCATACATATACCATGGTTGCGTAATTTGAGGTTCGCATGTAGTTACTGATATTTTAAGACCCTGATTTATCATATAATTCTTTATAACATATTCAAGCATACCAACGTTAGGACTTCCTAATCCTGTAACTAAATTATACGTATAATTAGCAAAATATTTTCCATTATATCCAAAACTAACAGGATGAAAAGCTTCGTCATATAGTGTTGAGTTTTGATATATTCCATAAAGTAATGGATTAACTAATCCTAACGAATGACCTATGTAAGAGTCTATATCTGCTGCAGTTCCTGCCCATAAAGGTGTTGCTAAACTAGTCCCTCCGATAATACATTCTGCACCATCAACTATTGTAACAAAGCCAGTATATGGATTAGCGTCTGCGGCGACGTCTGGAGTTGTTCTAAAATTAGAATGTGTGATATCCCTCTGATACCAAGGAGATGGAAAAAGCGTGCTATACCCTCCTCCAGAGCTCACTGTACTAGTGCCTTCACTTTCATATTGCGGTTCTACACTCCATGCGGTTTCATAACCATAAGTTGCCGTAGAATTTAATGAAGTTAGATATCCCGATGTCACATTAACATAAAGTGATGTTCCGCCTACAGCTGTAACGAAGGGAGAAGATGAAGGGAATAGAACACCGCCATAAGTAGTTAGAGTGCCTTGATATGCTCCATCATCTCCAGACGCTGCAAAAAACGAAATACCCTCAGCAGTGCCTAATGCAAAGTAATAATCTAAATATGGATAGTTTGGAAAAGGTACCCCTTGATACCATGCGTAAAATCCTGATGCTGATGCTAAATTTTCTGGGAATCCCCAGCTCATACTAACTACTTGAGCTAAATCCTCACTTACTATAAGATCTATGGCCTCAAATAATGCTGCCCCGTTATTTGCAGCCACTACAAGGTCAATTTTAGCATAAGGAGACATACTATGAGCTGCTTCTACATCTAATGCAGTTTCTATGTTCCATCCAGTAAACAATCCAAATATAGGATGATAAGGACCTACTGGAATTACACTTAAATTTACTGGAGGCAAATGGAACATTTTGTCGAAAGTATGAATATCTTGGTAAATCTCTGGATCACCATAAGCGTCAACTACGGCTATAGTAACGTTTTTGCCCGGATTAGATCCAGACACGTTATATGCACCTTGTATATCTTGAGGGGTATAATACAAAGCAGAAAATTGTAAATAGCTCAACGGTAGACTTCTTGGAGCATTCGATGGTTCTATAACTCCATGTTCTAATTTACCGAGAACAAAATATTGTGGCTGAATTAGAGTGTAATTAGTTAATCCTCCAATTATTACGTTCTTCATTAATTGAGGAATTTGCGGTAATGAAGAAGGCTTATAATAAATTTCATTATTATCCTTATATAGATCTAAATTAACGGAAAACGTCTTTTCTACTATAGACGCAGGAGCTATGGCAAAAACTGAAAATGGACTTTCATACACTATTTCGTATCCATTATTTTCTAAGAAGCTAATTATTTTGTTAACTTTTTGTGATTGGCCAAATTCACTTACAAGTTGAGAATTGTTTAGAGGTTTCATTTGATGATTAGAGACTTCCTGAGCTACTAAATAAAGTTCATTTAGATTACTCGGTATAACAAAGAATTCTAAGCATATTTCTGTATTGGGATTGATTTTACCTATTTCATATCCAGATAAGGAAGGACCGCTATAAGAGACCTCTGATTGGGATGAGTAAGCTAGTATTGGAAACAAAAAACCTAAAATTAAAATAGTCAATACTAAACTCTTTATCTGTTGCATAAAATTCATACTGCACCTAACTTTATAAATATATATACAAATTTATGTGTAGGAAATTTTTAGATTTTATGACAATTTTTTTAGAAATGTGAAAAAATTATAATCTTTAAAACCTTGGGAATTGCCTTTAAATTTTGTTTCAAATGAATATTTATGCGTGAAATTACTATCCTGGAATGTTAATGGATTAAGGGCCGCTATAGGAAAAGGAATTGTAAATACTATAAAAAGCCTAGATTATGATGTACTGATGTTTCAAGAAGTGAGGTCAGATTCAATACCCTTAGACTTTCAAACATTACCCTATGAGATCTACATTTTTCCATCAAAAAAGAAGGGATACAGTGGCACTATGACGCTCACTAGGATAAAACCAATTAGTGTAAAGTATGGAATAGGAGTAGAGGATTTCGATGAAGAGGGAAGAACAATAACATTAGAATTTAACGATTTTTATGTAATAAACTCATATTTTCCAAATGCAGGTGAAGGTCTAAAAAGACTTGATTTTAAATTAAGATTTAATTCCGAATTTGAAAAATTCGTATTATCCCTAAATAAGCCTTGCATAATTTGTGGAGATTTTAACGTAGCCCACGAGGAAATAGATATAGCTAGACCAAAAGATAATGTAAATCATGCAGGATTTACACCTCAAGAGAGAGAATGGATGACCCATTTCCTTTCACTAGGATTCGTAGATACCTTTAGACTATTTGTAAAAGAAGGAGGGCATTATAGCTGGTGGTCTTATAGGTTTCACGCTAGAGAAAAAAATATAGGTTGGAGAATAGATTATTGTGTAGTTTCAGAGAAGCTAAAAAACAGAGTTAAAAGAGCTGAGATTCTAGAAAAAATCATGGGTTCTGATCATGCTCCTGTAATTTTGGAAATTGAATAAATAGTGTTTCGCAAAGTTTTATTATATTACCTAACTCTCTTTATCATATGAGAAAGAACATTATAATAGGTATAATAGCTATTGCACTTATTATTATAGGTGCTTTCGAGCTTTTACACATAACTACTCCATCTACGACAATAGTACAAAAACCGTCTAGTGTTCAAACAATTCGACCTCCTACTAGTTTCGTTTTAGATCCTAAAGACGCTGAAAATACTACAGGAATTTATCCATTTTATGTGGGAGCGTGGATTGAGATAAATAACTTTAATATGCCAAATTTCAGTTTTAAGAATTTTACAGCATCAAATATCTTTAATAAGCTTTTCATAGGTGTACTAATACATAATAGTTCTGTAAGATCTCTAGATTTTATAGCGCAAATAAATATAACAAAGAATTCACAATTTTCAGGATTCAATAAGAATTCTTTGTTATACGGAATCGTTGCAGCACTGAATTCTAACATCAGTATAAAAGGTTCTGGAGAATATAAGACATTCTACTATATATATGGCAATACCTCAAGATCAGGAATCGCTCTTGCGTATAATGGAACATATTTCATTGGTATTAGTTTGAATGGAACCTCTAATAACGTCTATTATGTTAAAAATTTATTATTAAAACAGATCGATTCTCTAATTATAAATGGAAGCATAACTCCAGCACCTCCAGATATTTTAGCAAATATTTCAATTCCATTAATAGGCTGGGGATACATAAATAACTCTATAATAAATAACTCTAGTTTCTATTTTATTAAAAATATTAATAAAATACCTTTAAATCAAGGATATGTCGGATTTTATTCTGACAACAACACTCTAGTAGAGATGGAAATAAGTCAATACAAAAATAGTACCGATGCTGAAAATGTATATGAACATATTTATAGCGTAATAAATACGTCTAATTTCCATACTAATATATCGCAAGGTAGTATAAGTGGAGCTAAATATTTCACACTAACAATTACTAATAATTCTACGATAACAATATCATATTATAACGAGTATGTAATAGAAATAGGAACGTATGGATACCTAAACTTAAATAATATAACACAAATACTAAAAAGCGAAATAAATATTTTATAAAAAAATTCAAAAACTTACTACAGAATATCCTTCTTCTACTTTCTTTACTGTTTCGACACCGCCCATTACTTCTTTTATTCCTTCAAAAATAAGATCCTTAGTTAATCCCATATTTTTTAATGAAATTCCGCAATAGCTAATTTCTATTCCCGAATTTTGCATATCTTCAATTACTTTTTTCATTTGAGCTGAATTTCCAGAATCTTTTAGTAATGTCTCTACTCCTCTACCCAAGAACATTAATGCTACAGTAGCTCCTGCATTTTTCCTTGCTCCAAGAGCAAAATTCATAGCCATCATTGCTCTATTTATATCATCTTTTCCTGCTGTAGAAATAACGAATATTTTGGCCATAGCAGTTTTTATATTTTAAAAAATAAAAAGTTATAGTTTGTGATGCTCACCGTGCTCATGAGTAGGCTTATCTGTTTCAATAAGTTCATTTTTAATTAATTTTTTTAAAGCTTCTTCAACTTTCATGTTCGGTGCTAGAAATATTTTTGCCTTACCTGATAATAGTCTTACTCCAGGTCCACCTATTTCTGCAACTACTACTGCATTTACTCCTTTATCTAGTGCAGACTTTAACATATGAGCTCCTGGTGCAGCAGTTGCCTTTAATGCAGGATTTTCGTATTCTTCTACTAATTCTATTTTATCTCCTTCCAAAAAATAAATTTGAACTTTTTCTCCTTCTCCAGGACCATCTACTAGTCCGTTTGTAACTGGTATAGCTACTTTCATATATTCGATATCGATTTCGATACTTAAATATTTTGCTGTATAAGATTCTTAGCTACTAGTTTACTTGGATTTATTATCGTTATGTCCTTAATTGTTCTTACACTCTCTAATCTCATTTCCAGATCTTCTGTATGTGCAATAACTATTGTCGGAATATCCTTTGCTATCTTTGCTAAAATCAACGTAATGTAAATTGTGTCAGAAGGATCTTTAACATCAATTATTATTTTCTTTGCTTTCTCTGGATTGAATTTTTCTATTTCTTTTTCTGACAATAAATTTATTGCACTAACTTTATATCCATCTTCAGATAATTTTTCTGCTGTAGTAATATCATTTATTATCATAATATACTTACTCTTGCTTTTCTTAAGATCTTCTATCATAGCCATGTTTACAGTACCACTTCCTATAAGAAGTATATGGCCCCTAAGCATCTCGCCTTCAATTGTAGCTAATCTTGATGTCAAGGAAAGTATTCTTTTACTGGCTAAATCACTAGAGATACTAGTTAATGCTGTTAAGAAAGCACCCATACCAAATACTATTAATGTAACTACAAACATCTTAGCTATTGGAGTTAAAGGCACTATATCGCCGTAGCCTACAGTAGAGAGTGTTATTATAGTGAAATAAATTGCGTTTATTAAATTAATATTTTCATTAAAATTATGTCCAGTATTTCCTAGAAAATATGTTCCTATAACCCCAAAGGCAACAACAGCGCCCAATATAAGGAGAGAAGCTATTGATCTTAAGGAGAGTAACATATATCTAACTCACTTTGTATTATAAAAATTATTACTCTTTATTCTCTTCTTCTTCTCCTCTATCCATATAAATTATTTCTGCAGCAAGAAACCCCATAATAATCATTGCCATAAATAAATAAACAAGAATTGGCTCTGAAGCTCCAATAGATGATACTAAATCATATCCTGTAAAAATTATAGCACCTATTGCTAAACTTATTTCAACAAGTCTTCTTCTCATCCTCTTTAGAGATATTTTGAATAGAGAGAAGTCTGAAGCTATATGCACAAATAGATTAGATAATACTGCAATTTCTCCAACATACTCAAAGGCTAGAAATGGCCTGCTATCAACAGATAATAGTCCAAAAACTACTGCTATTACATATAAAATTATGGCAAGAGCGATAGAAGCTATTGGTCCTCTTCCTGAATCAAACTTAGAGAATACTTTTGGCAAGAAATTATTTGTAGACATAGCATATGCAGTTCTAGACGTAGCTAACATAAAAGATAATGTAGCTAGTATACCGTCATTGGCGGCTGCAAAAAGCACAAATACGAATGTTATTAAACCTAGCCTATCTTCTATTAAACGTAGTAAATCTACACTTGATGCTGCAATATTAAAATACAATATATGATCTGCTATAGCATATACATCAAATGATGCAAGCAAACCGCCTAATAATATTACAGTAATTATCGCAGTTGGTACGGTTCGTTTTGGATTTTTTACCTCTCCTGACAATGGAGTTATAGAACCATAACCAGTAGGTATGCTAGATCCAAAAAGTATTGCCAATGCTAAAACTGCTAGAGATACATGATAATTAAAGGGATTATAAAAAGTGAATCCTGTCGATCTTAAAAATAGGAGCGCTATGACTGTCATTATGCCTATCTCAATAAGACTTGCTACTATTGCATATTTTGCTGTAGGTCTTATTCCAGATATTGCAAAAATTGATGATATTCCAAGAATTATGCCTACAGCTATCCAAGGGTTTATAGGAAGTACGTGAGAAATCACGTAGGCAGAGCCTAATACATAAGCAGCACCATAAAGTGTGGAGTAAACAAGGTAAATCCAACCAGTTTCAAAACCTAATCTTCTAGTTAATGAATAGTAAGCATATACATAATATCCACCAGATTTAGTAAACCTTGTAGAAAGTTTGTATATAACTAATCCATTCATTAAAACTAATAACGTACCTAAAATTATTGCTATTGGAGCAAAAGCTCCGGCTAATAGAAACGCATAAACACCGTATGTCAATACGCTAAGGAAAGGAGATTGACCGCCTAATGATAAAAACACTAAATCTCTAAGCCCAATGACACGCTTAGGTTCTTCATAATGTTTCTCTTCTTCTTTACTCATCAAGACGGAATATCAATGACTATTTTATTAAAATTTTCTTCAAACCTACAATTATCATAAATAAAATGTCTAATTACTAAAAATAATGGAAATTTTTTTACTTACTAACCATAGAATAACATATGAAACCACTAGGCTTTATAAGCAATGGAATCTCATCGGCTCTGATTGATTCTGGATCAATAGTATGGCTACCATTTCCTAGATTTGATTCTCCATCTGTTTTCGGAAAACTATTGGATATAGAAGGAGGAGAATTTTCAATATTCCCTTTAGAAGAGTTTAGTGCTTCCATAAGTTATTTGGCTCCAAATGTTCTTAGCACTAAATTTCACACCAAACTGGGGAATGCGGAAGTCATAGATATAATGCCATTAGGCGAGAACTCTATAATACGAAATATAAAAACAGATATACCTCTAATAATGAAAATTAAACCTGCTTTTTATTATGGGCTTTATAGAGCCATAGTTAAGGATGAAAAAGACGGTACTAGATTTTTAAATCCAAAAAGTAGAGAATGTTTAGCGTTATTTGTAGAAAATTCCAAAAGAATAGGAATTTATGAATGGGAAATATTACCTAAATCTTCCATTGTTTATCTTGCATATTCACCAGACTATCTTTATGGTCCTTTCCACAAAGGTAAGGAATTAAAAAGGGATCTAGAAAGGTCATTTAACTTTACTCTAAATCATTGGAAAAATAAAATAAACGATAAAAATAATGATGAATTAAGAAAAATATATTATACGTCGATAGGGGTTTTACTAGGACTTATGTACTCTCCTACCGGCGCACCAGTTGCTGCACCTACCACGTCATTACCGGAAGCTGTAGGATTAAGCAGAAATTGGGATTATAGATTTGCATGGGTTAGAGACTCAGCTATGATTGCAGAAGGTCTATTATATGCAGGATATGTAATTGAGGCTAGAAGAATAATAAATTTTATTTTAGGATTAGTTAATTTTACTACAAAACCGTTGGTTCATCCTTTATATACAGTAGATGGCGGAGATCCTCCGCCAGAGATAGAAATACCTTGGTTATCTGGATTTATGGATTCTCATCCAGTTAGAATAGGTAATGGAGCAGCTGCACAAATACAGTTAGATATTGAAGGATTTTTGCTTGACGTTATTTATAAGTATTATTTGAAAACTGAAGATAAAGTGTTTTTAGAAGAAAATTGGGAAAAAATTAATTATATAGCAGATTGGATCTCTAAGAATTGGAAATTAAGAGATGCAGGGATGTGGGAAGAGAGGGGTAAGACAATGCATTATACCCATTCTAAAGTAATGATGTGGGTTGCATTAGATAGGGCAGAAAAAATTAGCAATGAAATCGGAAAAAATGTTAACTGGAGTGAAAAAGATAAATTAAAGGAATGGATATTTAGTAATTGTATTAAGGACGAAAGTTTTGTAAAGACATCTGAAACTACTGACGTCGACGCTAATTTACTGACGTTACCTTTATATGATTTTATTGACGTTAAAGATAAGATATTTCTCAATACATTAAAGAGAATTGAAAATGAACTATATATAAATGGATACGTAAAAAGATATTCTAAGGATTTTTTAGGGCAAGCAATGCATCCGTTTACCTTAGCAGGGATATGGCTATCTAGAATTTATATAAGACTAGGAAGAACTAACGAGGCTATAGGATTAATTAAAAATGCGTATTTACCTTCTAATGGACTTTACTTAGCAGGAGAACATATTGATATTACAAAGAAAGAATATACTGGAAACTATCCTCAAGCTTTTGTTCACGCACAGACTATTTTAGCAATAAATGAATTAGATAACTCTAAAATAGGGTAACATACATACTTATCCAATGGAAAGGAACATTCTTTTTATTCTAATTTCTAGAATATTTAGAAGCTTACCATTAGGTTATATGGCCTTTTTAGTACCTTTATACCTGCACTATATAGGATTTCCTCCGTCTATAATAGGATTATATTTTCTGGTTGCTACATTATCAATATCCTTTTACCTTATAATTGGTGGATTTTTAGGAGATGCTTTTGGTAAAAGAAATATTCTTATAGTATTTTCAATTTTATTTTCAATTAACTTTGCCATATTCACTTTTTCTTACAATCCATATATAATATTTATAACATCATTACTAGGAGTAGGTGTAGGTTCTGGAGGAGGAGTAGGTGGGGGAGCTGGTGGTGGACCCTTCAATCCTTTGCAGACCTCATTAATAGCACAATTCACAAAAAAAGAAGAGCTAACTAAAGTATATTCCTATAATTTTGCAGCATCTACAATATCTGCTTTCGCAGGAAGTTTAATTGCGGATTGCGTTTCTAAAGTAGAAGCTCCATATCATATACTATTTTTGATTGGGCTGCTATTTTCCTTAGTATCACTAATTTTTACATATTTTATAGAAAAAGACTATGGAACAGGCAAAATTAGAATACCTAAAAATTCATACTCTTCTATTTCGAAGATCTCTATAGCAGGTAGTCTTGGTAGCCTTGGTTTAGGTATGATAATGCCATTAATTCCTCTATGGTTTAAACTTTATTTTCATGCAACAGAATTTCAAATATCTTTTTTATATTCCATAAGTTATGCATTAGTTGGTATAAGTTTCATCTTTGCAAGTAGAATAGAAAAAATGTTAGGTAGAGTAAAGGCTATAGCAATCATGAGAGGTCTATCTTCTATTATTTTAATAGCAATGGCATTCGTACCATCCTTCTTCATAGTAGAAATATTATTTCTTTCCAGAAGTATAATGTATACAGTAACAATTCCTATGAGGCAGTCATTATCTATGAACGTTTTCAGTGAAACTGAAAGAGCTACTGGAGTTTCTATAACTGGATTAGCTAGAAGATTACCTTATGGTGCAGGAAGTCTTGCATCAGGAATATTATTAGGTCTTGGATTATTTATATCCGCTTTATTTCTAGGTGGATTAATTTCAATACTTGACCCATTATTATACTATATATTTTTTAGAAAAATTCAATAATATTGTTATTTTTAATATTAATCGACATATACCTTTTCTTGAAAATATTCTAACATTATTAATTCTATATAAAATTTAATAGACTGATTTCTGATGAATCTTTATGAACCTAAGAATACTTAATCTGACTTCTAGAGCTATAAGAATCACAAGTACTCTAGTTTTGATTTTTATAGCTTATATACTATTTACGCAGATAAATCCTTTGAATATACAGCAAAGTAATTTAATTCAGTTTACGATATTGTATACACTATTCCTACTAGCAACAATCGCAATAGCTATTCCAATACCAAAAGCATTCGGATATTCCTTAGTTATAGGAACACTAATAATACCTATGTTAACATTAGCTATAATTTCATATGTAAAAAAGCTTGGAATATATGAAATTCTTGCACTTTTGATATTTTTTATTTTTAATGCAATATATCTCCCTATTTTAGGAAAAAAAGGAGGTTTGAAAATAGTAGTAACAACAATAATATTACTAATAATTATTGTATTTCCGAGCTTCACGCTTTCCTTGACAAAATTTCATTTATCAGTTATTTCTATCAATTCGATATATAACCTTCCAAAGCCATTTATTTCATTTATTAAAGAACCTATGAGTAAAGTATCTTTATATGGTATTTTCTCTACAATAGTAGGTGGTATAGGCTACATTTTAGCGAGTTTAAGAAAAACCTTTACGCCTGTTTCTAACTTAACTAGAATAACTATTCCTGTAATATTAGTTTCAGCCTTTACTTTCTTATCGTATAATTTACTAGGTAATATTTCAAGTTTTTATGGGCTATTCGAGTATAACATAATAGCCATAGCCATACTTTCCGCTGTTTTATTAGCATTCTATAACAAAAAGAATATTTACGGACTAATTATATCTGCAGTATCGTTTTCTCTATTGATATTATTTGTATTAGAGATGGTCTTTTCCTTATCGTTTACTTCTACATATCCTTTTTTAATTGAAAAAAATTTGCCATTATCATCAATAATATTTCCATTATTTCTAATCACAATAAGCGGAATAGCTTCACCTAGAGGGATTTTAGATCCAATTAGTATAAAGAAAAAGTTATTTACAGCATTAAGCAAAAATGAGTATGGAAAGGCTGGAGATTTTATATACACATTGCGTAGTCTAGGGATTTCAGAGACAGATTTATTTTGTGAGTTAATCAATAAAAGCAGAAACTGTAATTCTATCCTTTGGATGCAAGAAAAGTATAAAATAAATTACTCTAAATGTTCTAACCTTAGAGGTCTTGTGGATTGCATAATGTATAAAAACAGGATTCCTAGAGATATTGATGTAATTCTTGACATTTTATATAATAAGGATCTATCATATGCTGAAAAATTAGCAGGTTTTGTATTATCTAAAGGAACTAAGGACTATAGGGAAGAAAAAGCAAAAACGATAATCGCCAAAATTCTTGGAAATACCCAAACAGCTCAAAATAATACAAATACTCAAGTTCAAAGCAAACCGAACGACGAGAAAACTCCTCCTTTAGAAAAATGGGATCCTAATATATGGGTAGGAAGAGAGATTTATGGCTACAAAATTATTAAGGTCCTAGGAAATGGAGGAACATCATATGTTTTACTTGGAAGTAGATCAGGAAATAATCAAAATTATGCTATTAAGATACCTAAATTATCTGTACAGAAAAACGAAGCTACAAGGGCTAGTTTCACTACTTTCGATGATCTATCTAAAGAATCCTCAAAATTACAGGAAATGTCAGAAAAAAATAATGAAATAGTAAAAGTATATGGAACATTTGTAGACGTTAATACGATTAAAAGTATTACTTCAGGAAATAACACGTTAGATTATCTAAAGTCACCTCCTGCGATAGTAATGGAATTAATGGAAGGAGGAACATTAAACGACCTCATAAAAAATCAGATAGTTATTAATTCTACATATTGGACTAATATTGTTAAACTAATTTTCCTTAAAGTAGGATACGCATTAAGTTTTATTCATGCAGAAGGTTATGTCCATTTAGATGTAAAACCGGCTAACATATTTTTTAATAAGTCTCCTGGTAACTATGGAGAGATAATATATAATAGAATAAAATCTGGTGAAATATCTGTAAAACTAGGAGATCTAGGATCTGCAAGGAAAATAGGTGAAAGATTCTTTGAATATACTCCAGAGTATTGTCCAGTCGATCAAGTAAAATCGATATTATTTGGAAAAGGAGCAGATCCTTCAATGGATGTTTACGCTTTCGGTGCATCATTATATAAAGCATTAACTGGATATTCATATAATCCACCTGAAGTGGTAAATTTAATGGATAAAGCGATAACAGATTCATTATCGGGTCGTAACTTTAAAAAGTCTATAGAAGAAGCAGAAAATACCTATGCTACTTTCTATTCACAATTAAAAATCCCAGATGTAGATTTTTCTCTTCAAAAAATTATAATATCCACAGTGAACCCTGATCCTTTGAAAAGACCTAAAATGAAAGATATAATAAAAGAGCTATCTACTTAATGAATATCTTTTTTATTTTTGCTATCTTCTATTTCTTTTACCTTGTCTATATCTTTTATGGCCTCGTCTTCCATACCCATTTTCATGTAAGTCTTAGCTCTTCTAACGTAAGCACCCTTATAATTAGGATTTATTGAAATAGAACGAGTATAAAGTTTAACAGCTTCTTCAAACTTACCTTTCTTCTCTTTCATTATCCCTTTACCAAAATACGCCTCTGCATAGTAAGGATTGAGATTAATAGCAGTATCAAAATCCTTTTCTGCATCCTTATCATTATTCAAGGACATATGACATAATGCCCTATAGTAAAATAGATCTGCATCAAAGCCGTACAGTGATATTGCCTTACTCAGATCTTTTATGGAATCATAATAATTTCCCAAAAAATACTCTGTTATGCCCTTGATCTTATAAAAAATGGGAGAATTCAGATATTCTCCAGAGATCTCTTTTAATTCATCTAAAACTTTCTCGTATTGTTCTAACTTTAGATATGCCATAGCTCTAAGCAATCTAGCTTCTGGCTCATTTATTCCCTCTAATAACTGCAAGGCATCTGTATATCTTATTCTATTAATTAATATTTTTGCAGCATTAATTTTATCCCCTGCATTATTAAATGCTTCTAACGCTTCTTCTTCTCTGCCCATATCTAAAAGTATTTTACCTAATAGCTGATATGCTTCTTTAGAAGGATTAGAAGAAATTAGTTCTTGAATTTTTCTCAAAGCATAATTCAAGTTGCCAGAATTATACTGAGAAATTATGTCTTCTAGTTGTGACATTATTATTAATTATTCAGAAATACCTAAAAAATTATCTTATAAAAACAAGATTCAACTACTCCTATAAAGTATGATAAAAATTGATAATACTATTATAACACTTCCTATTATTTCATAAATATTAGGTATTTGGTGAAAGAAAATTATTGCTAGAATAGTAGCTACAACTGGCTCCAATAGACCTATAGTCTCTATAACATGTGGTTTTACATGTCCAGAAGATACTATTACCGATGTATGTCCTAAAAGGGTAGGAAGAGCTATTAGCCCCATTAAAGCAATAATAGAAATCATGTTTATTTTACCTACTCCATTTATTAACATTAAAGGTATCATAAATATCGAAGAAGAAATGTATATTGCAGAAGTTAATGAAATGGGGTCGCCTGCATCTTTTCTGCTTAAAAAAATGGTATAAAGGGAAATCATAAATGCTGAAATTATAGCAAATACATTTCCTTCAAATTCTCCTGGAATTATTGGATAATTTAAAATAATAACTCCTAAAAACGCAGTTAGTGCAGATATTATTTCCATTTTGCTTGGAGTAAATTTACTTAATGGATATAGCAATATGGCAAAAAGAGGAGAAGTAGAGACTAAAACTGTAGCGTCTATTATTGAAGTAATATTAACGCTCATTATGAATAATATCATATGAATAGCAAGTAAGAATCCAAAAGGCATTACCTTAATTATCTGTTTTAAATTAATCTTTCCAAAAGAGAGAATTAATCCAGCTATAAGAAATCTAAAGAAAGCTATAGCGGAAGGAGATAGATCGCATATTTTAATAAATATAGCGGCAGTACCAAATGATATCCCCCCAAATACAAGGAGGGTAAAATATTTGTTCATAATTCCATTCGAACAAAGCTTATTTTTGAGTTTTATGAATTACTAAAGTGGACATAGCAAAAGTCATTGGTGTAATAGTATTTATTAGCATTATAATTATAGAAATTTTTGTACTAAATGTTAATGAGATGCTAACACAAGGTATATATCAAATAACTAGTTTACCGAATGCCTTGAAGAATTTGTATTTTAAATTTTACTATTATAAAGGAGATTTAATATTATGCGCAAATAATCAAAACAATTTTAGTATAACTATTTATAATATATCTGGTAAATATACATATATAAAATCTCCTCAAACAGTACTTCCACATACAACGAAAAATATAACGATAGTAGTTACTAATTGGAATGAATTTATTAAAAGTTATGAAGATAATTCATATAATTTAACTACAAAACTTGGTTTTCTTGGACTTAACGTAACATCTTACTCGGTGATTTAGTAATGATGTATAAACTTACTATTGCTAGCCTAATATCTAATATCATTATAGCATTATTGCCATTTTATTGGTGGTATTATGGAACTGGAAATTTAATAGAAGTAGCCGATTCACCATTTATGCTTAACATAATTTTTATGGGATCTCAGCTGGAAATAATACAAATAGTAAATCTATTTCTCTTAGCTTTTAGATTTTACGTAATTATAGTATCAGGAATATACATATATTACGTCATAAAAGGGCAAAAGAAAACATACGGATTAATATTCTGGACTAGCTATTTATATATCTTAGATCCTATCGTATTTTATATAATATTTAATTATCTATTTCCCCTTATAGGTTATGGATTTCACTATCCATTTTTTATAATAGGAAAGGAAAAAGTAGATTTTACATATCAAAATACACTTATTTCAACTATAGTTTATAGTTATCCAAGCTCAGCTTACTGGATAAGCTTAGCTGCTGGTACAATATACCTTGCTTCAAGAATTTTTAAGAGATAAATCATGAATAATTTTCATAGCTACATTATAACCAGGAATACCCGTCACTTGTCCGCCTGGATAAGTTCCAGCACCAGTAATATAAAGACCGTCTATAGGAGACTTATATCCCCAACCTTTTACTGGCCTACCATCAAATAAGTAAGGTTCAATCATAGGCAAATGATTAATGTTGCCTGCAGGCAATATATACATTTTTTCGGCATCTTCTGCTGTAATTTTCTCTTCATATATCACCTCTCCTTTAATGAGCGATAAAGCTTCGTCTAAATCTCCCATCATTTCCATAACATTCCCCCCTAACGTTTTATCTAAAAGGGACGGTATTACGATCTCACCTGCATCGCAATCTATAATAGATGAAGCAAATGGTTCCAATTCTTTAGGCACTTTAGGCGAATCTTTAAATATTATGTTATATTTTACCCATCTATTTTTTCCTAGATGAAACTTAGCATCTAAATCTGCAAGTTTTACCGTCTCTGCAGGACTAGTAGCCGAAACTACTATATCAAAATCGCATTCTTTGCCATTAACTTTTACTCCTTTAGCCTTGTTATTGCTAATAAGTATTTTATCAACTTTTGAGCTAGTTCTTATATTTACGCCTATCTCTTCAGCAGATTTAGCTATTCTATCTGCTACAGTTCCCATTCCTCCCTCAACAAATGACCAGTCTGCATAAAAATACGAAACTAAATAAGCTGGAGAATTTTCCATTCCAGGATAAATAAAGAATCTATGCAGTTTTCTCGATAAGTACTTAGAAAGAAAATCTTTAGCAGAGGTTCTCATTAGCTCCTCTACCCCTATTTTTTCAGCTTCTTCTATTATCATTTCTTTTGATGGTGGAGAAGTTACGAAAGTAAATTTATCTTCTATTAATTTTTTAAATTTTTCTATTTTATTTTCAAATTCTTCAAACTTCTCTTCCCCTGCTTTTTTAAGTTCCTCTATTCTTTTCTTTTTATCTCTCCAAAAAGGAATAGGTTGATCAAGGTAAATCGTTTGTATTGGATCTTGCTCTATTACAGGTATTTTAAATTCATTAACTAAATTCTTAGGCATCAAACCAAGAACATAAGACGCTCTACTTATTTTGACTCCATTTATGATCTGGGTATCAGTCATTCCCCCTATTTTATTACTCCCTTCGAAAACAGTTACATCAAAACCTCTTTTCCTCAAATAATATGCTGAGATAAGCCCATTATGTCCAGCCCCTATGATAGCTATTTTCATAATATTATATTTTTGCGAAGAATCTTTATTATTTTATGGATCTAGCAGTTCTCATTGATGAGGCAGATAAGTATGCTAAGGAAAATTCTGTAGAAGGAATAATTGGAAGAGTAACTAGATTTGAAAGTGTAAAAATAGGAGAAACCCATTATGTTTCTATAGATATTTCGTTTGAGGATTATTTAAAAACTCAAGTAAGAAGAGGAGAATATCTAGCTATCAGGTCAATAATACCTAAAGTTACGATAGTAGGAATTGTAGATACAATAACACGATCCGATATGTTAGCATCTTTAAAAATTAGAGAAACTACTAACAATAGAGATCCATCTACAATAATGACTCCTACAACTATTCAACTTTCTCCAATTGCTGAAATAGACGATAAAGAGAAAGTAAGGCCTGCAGTTTCTCCTATAGATCCGCAATCTCCAGTCTTTAGACCTAAAGCAGAATTGTTAGAAAAAGCTCTTGGAATACCTATGAGAGGTGTAGTTATAGGAAATATCTACTCTGGAGGCGAAGAAATAGATGCTGAAGTTAGATTAGACGAAGATACTTTAAGACATCATTCCTTACTTATAGGAACTACTGGAGCTGGAAAAACTACTACATTAAAAGAAATAGTTAACGATGAAAACATTGAAAAACAGAACGTAATTTTCGATAGACAAGGAGATTTCGTACGATTTTCCATTTCGAAATTAGATGATACTACAATAATAATGCCAGTAACTAAACTTATGGAAGGAAAGGAAATTCAGGATTATGTAATAAAATTCATTGATAGATACTCTAATTGTAAGGATGTAGAATACACAGACAATAGTGTAGTCTTAGATTGTGGAAACAAAATACGTTTAGTTCCATACTCTATAAATTTTGGAGATATAATGAATAAGTTCCATAAACTTACACCGTATATGTCCTTAAGAGCTAGCATGGCATGGGAATCATTAATAAGAATAACTAAAAACAAAATTATAAAGGGTATATCGGAATATTTTTCCTTACCTAATAAAGATTCATATATAATTTTTATTACAGAAATACTTCCTAGAATATCTATAGAGAATTTGTATTCCGGGTATATAGAATTTGAATCTAAAAAACTCCCTACAAATAAAAGTAAGAAAACTCAGTTAATATCTACTAATGGAGACAAAATAATCATATCCACTAAAGACGCATTCTTTGACTCTGAAAAAGAACTAAAGCTTCCTAGCCAAACTACTGATGCCATAGAAAGAACATTAAAAGCGTATGGAGAATACGGAATATTTAATGTTGAAGGCAGTTACCAAAAACTCTCAGAAAAAATTCTCCAATCCAGAAATCTAATAATTGATCTTAGCTGGGTTCTTGATTATACTGCATCAATAGAAGCATTAAGTACTATAACATACAAGATTTTGTCAGATTTCTTTGATTTAAAAGATAAAAAATATAAAGAAGGAAAAAATGATATTTTAAGTTTACTTATAATGGATGAAGCACACGAATACTTCCCTCAAGGTGGAGAGGAAGTATCAAAAGAAATAATAGAAGAATTCTTAAATAAACTCATGAGGTTAGGAAGAGTTAGAAACATAGGAGTTATAATGGCTACGCATGTTCCAGACGATCTTAATCCACTTATACTACAATTATCAAATACTAAAATAATCATGAGAAATGAGCTAGAGATAATTAGAAAAATGTACGCAGACGAGTTTGCGGATCTCCTAATTAATGCACAGCCTGGAGTAGGTTTAATAAGAAGTATAAAATTCTCTAATGTGGTATTTAGATCTAAAATGATCTAACTTCAGTATCAAAAGCTAATTTATCATCATGTATTATATCAAGGAAAGATGAAGAAATCTCATATCCTATTATAAATAACGAAGAAGAGATTTTTTTACTTGCAGTATCTACTATTTCTATCCATGTTGGTATACCTCTACAACTAATCCTTGAAAATATACTTTTTATATATTGTAATGTATTTAAATTTAAGGACTCCACTCTGAAAAAAGATGATGGCCCTACTATTCTTTTTACAATAACATAATAAGCATATTTTGGAGGAACGTCTTTCAATATTCCCTCAACATTAATTTGATATGATAACATAAAAGGACCTAAAATACATATAGATTCACCTTTACATAATTTATGATAAAGTAATCTAAGTACTTCCGGATCAGTTATAGGAGGTAGCTTACCTAGAATTTTTTGGATTTCGTCTAGTTTATACAGTTTTTTAGAATTTTCTAATCTTTTTACTATTCCAATAACTTCTTTATCTTTTATTTTATTTAGTCTATCCCTAACTAAAGAAGCATAGGCTTTCCTATGGGTCTCCCTTGACATATTTCTAAATTCAAAAACATTCGTTAATTCTAATGGAGTAGGATATATAGGACCATCCATTATTATTAATCCGTTCATATCATCAATGGCCGAATTTTCTGACTCTAACCTTAATTCGTCAGCAACATCGTCTAATCTATAATCTTGATCAAAATAGTCTCCTATATAATTTCTTATAGCTATATGTTTTGTATTTATAATATCCTCTATTTTCGTTAAAATATCTTTATTTGCAGAAATTCCAAGAAATCTTATTTCCTTATCATATGGGGCTAAAATCAATCCCTCTTTTGTAGAGAAAGTAGCCATCCCAGTCATCACTATCCCTACAGTAGTATCCCTAAGATATCTCGTTGATGAATCTACACTAGATATTTCATTAACATGTTTTTCTTCAATTTCATTAAATTTATTACTAAGCTCAGAAAGAGATACTATTGAAAATTCCTCTCCGAACGCAGACTCTTCGTAATTTCTAATAACTTGAGGTAAAGTATTTTTTATAGATGATATCTCTCTCGAAATGGTGTAAATATAATTCCTTACTTGAGCTTCCGACAGCATAAAATAAAATCTTTAAAGAAATTTTTAATCTTTACGGAGTAAAAACTTTAATGTTTCCCTTATTTCGAGAGCAATCTTTTTACCTAATGGAGTTCCAGGACCTAAGAAGGATATATTACCGACTTTAGCTCCCACAGCTACAGCATCACTTACTGTCCCTGTAATTTTCATTGATAGATCCATTAAAGCTCCACTTTTTGCTTCTGTAACTGTCCTAATCAAATCAATAAGCCCGTTTATATTAACTCCTTCATCTAGAAATACTCCAATATTTATTGTCTTTCCTGCGTTTTCAGCACTTTCTCCTATTCCTGCACTTATTATAATTTTACCGTAATCAGTCTTCTTAAAAATGTAATTCTTAGCAGCAGTCATAAAAATAACAGTATTCTTACAGTCTATAAACTTAGAACAGTATTCATAAGCGTCTTTCCAAGGATTATCACTACAATAATTATGATCTACAAAGATTATCATAACCTTATTTACATACGAAATCCCTTCAGGAAAAAGTGCAGAAGTTAAAGAAAAATAATTCCCATTTAGATCATACAGAACATGCATTAAAAAAGAAATATAAAGGAATTAAAAATAACTTACTGTTTTACTTTGTTTATCTTTAATACTTTTTCAAATCTAGTTATTTTTAGATCGTTCTTTATTTCGGTTAATGAAGGTGCACTTAAGTACATTGCTACCGTAGATACAGCGTCATCAATACTTAGATTTTCGAAGTTTCCAGTTCTTCCTTTCAGTAATGTTAATACTACATTACCTAACCAACCTAATGTAGCTATATCTGCTATAAATGCTCCAGCTGTAGCTATTACTTCTGGTGTTATATATGCAGGTATTAAGGGGAATATCTCAGCCTTTCTTATTAAACCAGTTAAGCCTAAAGCGTCCATACCATATATTACCATTGTAGTTCCTATCATATATCCGATCATGTGAATCCAGCCTATTTTATTAGAATACCATTGCCTTCCAGTTAACATTGGTATCATGTAATACAATGTTGCAAATCCTGCTGGAACTATTGACCAGAATATCATAGCATGGAAGTGACCAGGCACCCACATACTATCATGGATTATAGCATCAAAACTTAAATCTCCGTTAGCTATCCCAGTTACACCTGCGGCTATTGAACCAGCAAAACTAATTGATATCCATGCAGCAATCAAGTTCATCTTAATATTTACGCCTTTTACTGTAGCCCATAAATTCAAGAATGTCATCATTGATGGTACTACTACACCATATGTTAATACTTCTTGTAATATCTTTATTCCTACTGGTAAGTTTACCATGTATAAGTGGTGTATCGGAACGTTATTTGAGAATACTAGGTATAATAGTGCAGCAATCCTAGCGCTTCTATCACTATAAATTGGCCTGTTTGCTAAAGTTGGAATAAGGTAATACATGGCACCTACTGCAGGCATCCAAGAAATGTAAACTATTGAATGCCATAATATACCGAATGCTATTTGGTTAGAAATTACGTTTAACCCTACTAATCCATAGTATGCTAAAATATCCCAAGTGTTAGCTGCTACTTCTCCGCTCCATCCAATAGCTATCATTAATGATGTCATTAATGCGAAAACTGCAAATATAGGTAATTTTTCTTTCATTGTCTTTGTTGCCAAATAGAAATGATAAATTAGCCATATTACCATTATATATACTCCTGCATCCATTAATTCCCAGCCGAAGAACCATAATGGACTAACAACTGCTTGAGAATAGTTTGGTACACCGTATGGTGATAAGTAATACCAACTGTTAGCTGGGAAATAATTATCATTAAATGTTGGAAATGCTACTATTGGACCTTCTATCAACATGAAAGCTATATTGAATAGAATGAATCCTATATTGAGGAACCATTTCATTCTTGGTTGCATATTTAGTATCCTAAGTGATAGAAATATGAAAATTGCCATTTCTAGTTGCACTGCAAATCCAAATAAATCCCTCATTGCATGTAATGCTATTGACGCATAATATTCTTGTGAAGTTATTACTAGAGAAGCTGTTGTAGCCCATGCCGCTTCTTGAATTCTAACCATTAATGCGTCAACTAAACCTAGCATTCCCCATATTAGGCTCATTACGATCATTGCCATAGTTATTCTCGATACCCAAGGTTTATCTAATTGAAATACAACATTAACAAGATTTACCAATCCTTTTGTAACTGAACTCATAAGGGAATATTAACACTATTCAATATTTACGTTTTCTCTCGTTTTAAGTATATACTATTATGAAAATTATTTTAAAAATTTTGACAAATTTTGAAAATAAGTTGGCCAGATCTTGAAAGTAATTGATTTTACATTATTTTATTAAAAATCATTTTAATGGAATAGAAGTATCTTCTAGTTGTTTTCTCTTTGTCTCTTTAGCAAAAATTAAAGATATAAAGAATGCTATGAAGCTAGTTGATGCAAAGAAAATTAGAGATGACGAAAATCCGATTATAGACACCATTTCAGGGAAGAAGTACACACCCAATATTGCTCCAATTCTACTAACAGCAGTTGCAAAACCTTGTCCAGATGCTCTAACTGATGTTGGAAATAATTCTGTTGGATAAAACAATGTTACTGCCCCAGCCCATTGCTCTAGTGCTACGAAACCCATGAAATATGGAACTAAAATTCCTCCTGTTATTCTTGTAATTCCGCCTAGGAATAGAAGTAATGCCATAGAGCCTAATCCTATTAAAAGCACTTCTCTTCTTCCTAGAGTATCTATTAGGCTTCCAGCTAATAGATATCCTAATAGGGCTGCAAAAGAAATTGCGATAGTTCCATAAATTACCTTATATGCTGAAGGAAAAGCAAATTGCTTCAAAATTAATGGATAATATAAACCTATACCATAAGCAGCAACATCGAATAAAAACCAGACTGATGAAGCAAATAGAGTAATATAAATTAACTTGCCTTTAAAGATATCGAAAAATCTTTCAGCTCCCTTGTTTTCATCTTCTTTACTAGGTCCTTCCTTAAGTAATCCTACTGAAACAAGCCATCGTGGAGATTCAGTTAACTTTAACCGTAAAAGAATAACTGGAATTGATATTATTGCTCCTGTTAGAAATACCCATCTCCAGAAATAAATACCTACTGGTAAGAATAATAAATTTGCAACATTAGCTAAAAGTGTTCCTACCCAATACATCGCTACAGAGGCAACTAGATATTTTCCCCTATTAGCCGAAGGAGAGATCTCTGACAACATAGTACTACTAATTGGATAATCTCCCCCTATACCTATACCTAACAATAACCTGGAGGCGAATAATTCAGCAAAATTTTGAGAAATTGCAGAAGTTAATGCAAAGAAAGAAAAGAAAAATAGATCTATACCCATAAGTTTCTTCCTACCCAATTTATCTGCTAAATTACCTAAAATTATTGAACCTATAACCATACCTATTAGAGAAGATGATACAACTAGACCTAACAATGGCGCAGTTAAATTCATTTCTTTTGAAATAAAGGTCTCTGCAAAAGATATTACTGATAGATCATATCCGTCCAAGAGAAAACCAGCAGAAGACACAAATAGAGTCTTAATTTTAACTCCAAAAGGCAGAGTATCAAAGTAACCCATGACTCTAAACTTTACATACCCTTTAAAAAACTATTTTTCTATAATTTTCATTTATACTTCTTTTTAACCCCTGCTAAAACAATGATGGCACCTAATATAAATAAGATAATAGCTAGAAAGAATTCTAAACCTAACGACGAATTATCTATTATTTCACTATATTTCAAAATTATAGGCTGAGATAGATTATTCACAATTTTTAGATGTCCATTATCACCTTGTACTACTAAGTTATTTCCTTCCTTAAATAAGGATGCGTTATTTATGTTTATATTAATATTAGCTACATCATGGAATAATACTACTGTAGGTTCTTTGAAATTTATGTTTAATGTCTCATTAGGTTGTAAAGTATCTACGACAGGTTTTGATGATAAATACCCAAAATAGATAATAGAAATAGCGAATATCATTATTAAGAGGCCCGCAATGACCAAACTCTTCTTCAATCACTCCACTATTTCCTCATTATAGAATTGATTATATTATAAAGCTTACGGTCATGCTTCAAACCCAGGAAATTTTATTTTAATTTTTATTCTTTCCAATGCACCCCACATTGCTGCAGAATTTTCTGTTATAATAGGAATACCCAAATCTTGATAAAGATATTGTGCTGCCTCATAAGTCGATAATGCAGTACATGCAATATAAACAGCATCTGCTTTAAGAACCTCTACTAAATGCTTCTTAACGAGTCTATATATCGTAAATATAGGAGTATTAGAAATATCAACTCCTCTTATTTTTCCTAATCCATCAAAACCAGTAACTTCAAAACCATTATTTTTTATCCATTCTACCTCTTCTAAGGTTCTTTCTTTTATATATGGAGTGCCTACCCATACTCTTTTGATACCTAGTTTTTTCAGTATCCTTATAACTTCCTCTTCTGGTATTACCACGTTTTTTATAATATCTTTTATAATATTAACGTGCTTATGCGTACCATATGTTCTACCGTAAATAACTACATCTGATACTTCTTGTATTAGAGAATATGTTTCTTTTATTTCCTTTTCGAACGCATTAACGTCAGTTGGTTCACACCCCTTAGTAGGCTTCATTCTAGTAGTATGTATAGTAACTCCTTCAGGAGCCATTTTCCATAAATCGTATTCCATCGCCGCGTTATTAGAAGGTAAGATTAAACCTATTCTTCCTCTTCCGCCTGGCATACTCAATTATTAAATTCTCATTTTGTTTAAGTTTAGCTGTGGATCTGGATAAGAAAATAATGAAGGAAATAAAGGGTTTCTTTCAGTATTACAAGAAGGGAGACGATGATATATTAGAAGAAGCTCTAAGCAATGTTAGTTATGAAAAAGGAAAAGTGAAAATAAGAGATGAAGAGATAAAGGTTGAAAAGAAAAAAGATAGTCTTGGAGTATTTTTAGCTAATATACCCTACGCAATTTTAGGCGAAGGAGAACTTCACTGGGATTTACCAGAAAAAGTGACTAAGGTACAAGGCGACGCACTTAAACTTGTAGAAATTGGAGGATTAAATGAAGTAGCAACCCTAGAGACTTATTTAATTATGGAAATGGCATTACGTTCGCTATATACACAATGGATAGGTGAAGTAGCTGTCATAAAATACAAGCAAAAGAAGGTAAAAGTTAAGAATACTGATTACAGAAAACTGAAATTATATTTACTAAAGAAAGGTTGGAGTAAATACAAAGTTAAAATAAATAACGAAGCTTTCCCATATTCGCAAGGTTCTTTATTAGCATGGGCTGAAAGTTTTATGGATGAAAAAACTAGTTTAGCATTTAGACTATCTATAAATGTTAGGAATCTTTTAGCTCACGGAGAAGTTGAATGGAATTTATATCCTACAAGAAGTAGTATTGAATCAGCATCATTTGCATCATGGTTACTTTTCCAAAGGCTTCAAAAGTCTAAATAGCCTTAAAGAAAACTTCTCCATTAATTTCGTATTTTTTTATTGGAATCTCATAGAGTTCTGAAAGAATATCTTCTGTAACATCTTTTGGATTACCTTGAAATACTATCTTTCCACCTTTAATTAAAATAACATTATCGGCTATTTGTATCATATTAACATCATGAGTAGTTATTAAAAATGTTTTATCTTTTATCTTTTTTATTACTTTCATTATAATAATTGAGTTTCTCATATCTAAACCAGACGTAGGTTCATCCATAATAACTAAGTTTCCTTCAGAAAGGGCTTTTGTTATTAAAACAATCTTTTTTTCTCCAGTACTTAAAGTTGAGAAATCACGATTTAAGTATCTTTCTACATTTAAAAATTGTATATATCTTTTATATCTTTCTAAAGTATACTTTCCACCAGAAAGAAGAACATCAATTACTTTCATTTGTACCTCAAAAAATTCTGCAGGTACATAAGACTTGTCCTCGTTTACAACAATTTCACCACCAGATGGTTTTATCATGCCTATTATTGTCCTTAATAGTGTAGTTTTCCCAGATCCATTAGGGCCTAAAATTAAATTAATTCCTTTATTTATTTCAAGGTTTATTTCCTTTAAAATTTCCTTGTTAAGTATTTTTACATTAAGTCCCTTGATTAGCAATACCCTTCACCAGCACATAAATAATTATAGGCGATGCTATGAGCGAAGTAATTGCTGTTATTGGTATTTTAAAACCTAAACTACCATCAGCTACTAAATTACTTAATAGTAGTACCGAAGATCCAAGTAGTGCCGAAAACGGTATCAATTGCGTTGAACTTCCACTAAAGAATCTTCTAACTATATGAGGAACTATTATTCCTATAAATCCTATTATTCCTACTTGAGAAACTATATATCCAGTTATTATACTTATTATGGAAATCCAGAATATTCTGAATTTTGATGGATTTAATCCAGAAGAATAAGCCATCTCATCGCTTATTGATGCTAAATCTATTTTTCTCGAAAATTTAATAGCTAAAAATATAATAGAAAAGGATAATAAAGCAAGAATTATTACATAATTCCATCCTATTACTTGAATATCTCCAAGTAACCAGAAAACTAAAGGAGGAACTTGAGGATATCTAATTTCCATAAATGTTAGCAAAATAGTGATTAATGAAGAAAAAATATATGAAATTACAACACCGCCTATAACTATACCATATACCCCACCTTTCCTACCTATAGCTATGGTTAAGAATGTTGAGAATAATGCAAAAACAAATGCAATAACAGGAGAAACATAAATTATCCAACTAAAAGGTAAATTAAACGCTAGCAAAAAATAAGATAATACTGCACCGAAAGCCCCTCCAGACGCAGTACCGCTAATATATGGATCAAGTAAAGGGTTTCTTAAAAGTAATTGCATTATAGCACCAGAAATAGATAACACTGCACCAATAATTGCTGCAGAAATTACTGTTGGCAATCTTATTTCAAGAAATATTATTTTGTATACTCCTTCAGGTCTAAATATGTCCTGAATAGGAATTTTTACTGAACCATAAATTAAAGATAATAAAAAAGAAAGCATTAAGATCAAAACAAAAAACATTATCTTTAGCTTCATTTAAAACACCGGTAAATCTGGATTTATGTTCTTTATTATCCATGACGTATTAATGTATTGAGGAGCCTCGCCATTAATAATTAACTTAATCATTTGAATGGAGTAAACTGCTAAAGGACCAGGTTCATTCATTAGATTTGCAGGCATTCCTTCGGATAGAATATATATTCTGTGTTCTTTATACGCTGTTACATTTTGTATTCCCGGTAAATGTGAGATCAAATATTCGGTATAACTAACGTTATAAATTTCTTGAACAATTATGACGTGAGGATTACTTTCTATTAGTTGCGATGGATCTAACACTGGATAATCAGAATATCCAGCAAAGACGTTTATCCCTCCTGATAACGAAATAATATTGCTAATGAAAGTATTACCTCCCGCTGTATAAAACTCTTCATTAGGACATATCCATAATAAATAAGCTACTGTAGAATTTCCACTCGTTGTAAAATTGCTTATTTTAGAATTCATCCAGTTTATTAATTCCTGGCTTTGATTAGTAGAGTTAAATATGTTTCCTAAATATTTTATGGAATCTTCTATTTGATAAAAGTTTGAAGCATAATCATTATTAGTTAGAACTAAGTGGAGACCACTAGCGTTGAGTTTTCCTACATAGGAGCCTAAAAGTCCAATCTCTCCCACGACTTTTGTTGGATTTAATGAAACAATTCCAGAAATATTAGGAGGATAAATTTGTTGAAATATGGTAACATTTGATGGCAATTGTGATGTCATATTTAGATATTTTAAAAGTTGATAAGAATATTCATCAATTCCAATTATATGTTTACCTAGACCTAAAGAAACTAATATTTGAGTATCACTAGGAGCTAAAGATACTATTCTTTGAGTATTTTGTTGAGCTGTGATTATTACAGATGATGGAGATTTTGTTTTAATATAATCATATAATGTTAATCCAGCTATAGCTACTAAAACTACAATGAGAATAGCTATATACTCTGATTTCATATTCTTTGGATAGCCTATCCAACTAATAAAATTTTCTAATGTTTATCTTCTCTTTCACATTTAGCTCTATAATCACAATAATCACACTGCCATCTCATTTCAGGATTATTCTTAGCCTCTGCTGATGGAAGAGTTTTCCTCATAAGATAATTATGTAGATCTTCTACTCGCTTTACAGTTTCATTATATAAATCTTGGTCAAATTCTACTTCAAATTCTTCAATCTCGAAATTCCCTCTATCTACATAGAGAAGTATACCCTTAGAGTTAGGAAATGCCTTAAGATATAGATTCAGTTGGGCCCTATGTTCCTTTTTAGGTATATATCTTTTTAGTTTCTTCTCTTCTACGTCTTCTACAGTTTTCACTTCAATGACATATCTAGTTCTTCCTACCGAAACTAAGATTATGTCATCGGCTCTTCCAGTTATGACTATATTGTCTGATGGATGTGGTATTCTAACGGGTACTTCGCTCATTACTTTTATATTTTCCTCTTTTTTTAAGATATCCGCAATAAATTCATGAATTATTGTACCCAAGATAGTTATTTTAGCACTGTCTAAAGTTTGAGGTATTGGAGAAATTCTGGAATAATACTGTTTCCTCATGCAATTCCAAATTTGTGAAGGCCAATATTCGCCTTCATAAAATTCTGAAATAGAAGTTGAACTTAAGTGTTTGTAAATTATTTCCTTAACTACCATAATATATAATTATATGAATTATTTTTATCTCTATATGAAGGTTTTTACGGTCTAAAAAAAGTTTTTAATCTTAAAGTTTTGGCTATAATTTGAGATTTCTTGGAGAAGAAGGAAATATGGAACAAATTTCTTTTACCAATAATGGAGAATTTTGCTGCTCCTTATTCCGTCTTAAGGAGAATTTTCCCTCAAATATTTTTACTTGGATTAATAGTATATTTCAATTCACTAATATTTGTATATTTTCAGCATCTAGACTGGATATCTGCAATATACGCAGGCATAAATGTAGTAACTACTGTTGGGTTATATGCACCAAATATAAATCAAATGCCAAGTACAGAAAAATTATTCCTTACAGTTACAATAATATTCGCAGTAGGATTGTACGCAAGTATGGTGCAATCAATAGTATCCACAGTAGTGAAAAGGAGTACATGGTTAGATGCCAAAGCTAGATGGAGGGGATCGCATATGAGATCACATACAGTAGTTATAGGGAAAGGAGAAGTAATCCTAAGTTCTGCAAAAAGATTAGAAAAATTGGGAGTAGATTACGTAGTTTTAACGTCGTCTAAAGAAATTTCTGATTCATTAAAAAGTGATAGAGTAATTCTAGGTGATCCGACAAAGGATAAAGATCTTCTAGATGCAGGTATAATGGAAGCTAAAAACGCGATTATATGTATGGATGACGACATGAATACCTTATTAGTAACTCTAAAAGTTCAAAAGCTAAATCCTCCGTTAAGTGTAATAGCTGTAGTAAAAAACGAGAATATAGCAGATGAGTTCAAGACTGCAGGAGCAGACATTGTAATACCTTATGAGGAAATAGTAGGCAGAATAACAGCTGCAGCAGCAGTGTCAAATAACGTAGCTGGTTTAATTTTCTCAATGAATAAAGTAAGGGAAGATATAGTCATTGGAGTATTTGATATAAAAAACAAAATAATGATTAAGGACTTACCTAAAGAAGTTATACCTCTTGCAATAGTTAAAGACGGAAAAATAAATCCATACTTTTCTAAAGATACTGAATTAGAACAAGGAGAATCATTAATAATTTTAGGTAATCCTTCTTCTTTTAAAAGAGTAAGAGATATCGTAGGTTAAGAAAAATCGTAGCTATATGTTACCATTAGTTCTGCTTCCTTATCAAATTCTCTCATTTTATCAGTATATCTTTTTATTTCTTCCATATCATTGGCAATATTAACAAATATACCTGCTTTATTGTCGCTTATTTCCCTAAAGTTTATTTCAGAAAAAAGTTTTCTAGCGATTTCCACGTTTTTAGTAAAAATAGCAAACATTGAAATACCTGCTTTATTCAAGTCGACTACTGGAATTAATCTCATAAAATTTTTATTAATTAAATATCTTATATGTCTTCTAACCGTTTTTGATGAGACTTTAATTTTCTCAGATATTTGAATGCTTTCTATCTTTGGGTCATCCTTCATTATTGAAACTAATTTAAAATCAAAATTGGACGGACTATAAGGATACTGCGTAGGAATATATATCATTTCTGGTGTCCCTAATTCTTCTGACATGGAATTTATTTTAGATTTAAGATCTTCAATACTTTTGGACTCTATTTCATAAATGGTAGTTCTTTCCAGACATTCGAACTTGGCAATATATTCTCCGTTCCAATTTTTGTAGTTTTTAAATGCTACATATCCGTGATATTTCCCATAAAAATTAGGATTTATGTACAGAGAAATTTTCCTTATTATTCCATCAGATAGTAATTTATCAATCCTATAATTTACTGCAGGAGGTGATATACCTAGCTTTTTAGCTATAAATCTTTGAGAGGAGTTATAATCCTTTAATAGCATAAGTAAAATCTTTCTGTTTAATTCGTCCATACCATAAATATGTAAAAGAAAAATATATGGTTTGATTATTATCATGCTTAACAAAAGTCACCAATTTTTATTAATACAATAAAAATTTTATGTAAAATAGCTTTTAAGCTTTTTAGCAAAGTTTAAGCTCATGGCAAGAAAATATTGTCCAATATGCAAAAAAGTTGTAGACGAAAAACTAGTTAAAGAAGGTAAAAAGGTTACTAAAATGTGTCCAAATTGCGGTTATATCTTTATTTCGTACGAGATAGGAAAAGGATATATCGAATCAAATAACGATAAAAAGTTCGAAGAAAAAACCGTTTCTAAATAAAAAGTTTATTTATCCTAACTATTTTTCTTCTCTTATGCAAACTCTTACAGAAAAGATACTTAGTAGGGCTGCAGGAAAAAACGTATCTCCTGGAGATGTAACTGAAATCAACACCGACATAGTAGCTTTTCATGATCTAACAGGATATCATGTTATAGAAGTAATGGAGAAAGCTGGATTAGAAAAAATATTTGATAAATCAAAGATAGTAATAGCTTTTGATCATTTAGCTCCTCCCCCAGATATAAGGAGTGCGGAAATTCAAGAATACATAAGAAAATTCGTAAAAAGTATGGGATTACCAAACTTTCACGATATAAATTTTGGAATATTACATGAGATATTAATAGAGAGATACGCAAATCCTGGTCAAGTAATAGTTGCAGCAGATAGTCATACTACAACTTCTGGCGCAGTAGGTGCATTTGCACAAGGTATGGGAGCTACTGATATAGCAGCAGCTGTAATTACTGGAAAAACTTGGTTGATGGTTCCAGAGCCATTCAAAGTTAATCTAAAAGGAGAACCGGCAAAATGGATTAATGGCAAGGATGTAGCTTTGAAAATTTTAGGTGAATTTAAGGCTGACTATTTTAATGGTATGTCAATAGAAGTGCACGTAGAGAATCCAAAAAGTTTCCCAATGGATTATAGAGCTACCGTATCAAATATGGGAATTGAAATGAACGCTGATGCTCTAATGTTTGTACCCGATGAAGAGACTATAAATTACATTAAAACAATGAGAGGATATGAACCACAAACGGTAAAGCCAGATGAAAATGCAAAGTACACAGATGAATATGAGATTGAGTTAGATAAAATGGAACCTTTAGTAGCTGCTCCTTCAAGTGTAGATAACGTTAGAACTGCAAGAGAAGTTGAAGGAACTGAAGTAGACCAAGTATATATAGGCTCATGCACTAATGGGAGATTAAGTGACTTTGAAACTGCAGCAAAGATAATGAAAGGAAAGAAAGTAAAAAGTAGATGCATAGCGATACCTGCTTCTTATGAAATGTTTAAGAAAGCAATGGATTTAGGATATATAGAAACGTTAGTAAATTCTGGTTGTATAGTAACATATGGAACTTGCGGTCCATGTTTAGGTGGTCATTTCGGAGTAGCAGGACCTGGAGAAACTATAGTATCTACAAGTTCTAGAAACTTCAAAGGAAGGATGGGTAGCGTAGATTCTAAAGTATACTTATCAGGCCCTGCAGTCGCAGCTGCAACTGCAATAGAAGGAAAAATAGTAGATCCGAGGGATGTAGAATGATAGTAGAAGGTCCAGTTATGAAATTTGGAGATAAAATAGATACAGATATTATAATTCCAGCAAGACACTTGAAATATACAGATCCACAATATTTGGCTCAACATGCCATGGAACCTATAGATCCTGAGTTCTACAAAAAAGCGTCAAAGGGCGTAATAATAGTTGCAGGGAAGGTTTTTGGAATGGGATCGTCTAGGGAACAAGCTGCAATAGCACTTAAAGCTGCTGGTGTAAAAGCCATAATAGCAGAAAGTTTTGCCAGAATATTTTACAGGAATTGTATAAATAACGGACTTCCAGTAGTAGTATTACCTAAAGCTAAAGACGAAATTAAGGAGGGAGACAATGTCAAGGTTAATGTAGAAACAGGAGAAATAATTGTGGGAAATAGAGTACTTAAAGGAAGAGGAATATCAGGAATGGCATTGGAAATTCTAAAATCTGGTGGATTAATGGATTATATAAAAAGCATAAAATAAAATATATAACAATTTAATCATATAGCATTAATATACCATAAATATTTTTCAAATTATAAAATTTCATCCTTATTTGCTTTCTTAATTTTCTCATTTATTTTTCCAGGTAACGCATAATCCTCTTTTCTTTCATTTATTTTACCTAGGAGAACTATTCCTTTTCCAGGTTTTATGTCTATTTCCCATACGTACTTATCATGATTTGTCTGCCTCATTTTTTCAATAAGAATATATCTCTTTAATTCTCCGTCCCTAACTACTCTTCTGAATCTTATTATACCATCAGCTACATGCTCTATTCCAAAACCAAATGCTTGGGAAGTTGTTATAGCATATTGAGAAGTTGCAAGAATAGTAAATCTCCACTTATATAACACTCTTTTTAAATAATAGCTTATTTTTCTTGACATAGCAGGTTTATCCAAAAATAGTGCACTGACTGAATCTATAACAAGTCTGGCTCTAGGCTTACCTAGTTTCTGCTTAGCTTCAATCACTTTATTTACTAATTCTTCGGCAGAAAGCTCACTTAAAGACCACTCGTCTTCCTTTTCTTTCATCAATGCATCAATAATAATAAGTTTCTTATCAAGATAATCCTCAAAATTCCAATTAAATTGCTTAGCTTGATTTATTATGGAATCTCTACTTTCTTCAGTAGTAACATAAATGCATGCGTCCCCTTCCTTTAATCCCTCAGCTATGAAACTTTCTGAAAAAATGCTTTTTCCTGTACCTGGTTCTCCTGTTAGTGCTACGAAGAATCCTTGCGGTATTCCTCCTTCTATTAATTTATCAAATTCTGGTATTCCTGTAGAGAGTCTTACCATAAGTTTAAAGTTCTCCTTTATAATTAATAAACTTGATGAAGATCAGCGGATCTACCTGAGTGATAACTATGTATTGGGTGAGGAAAAGGGAAATAGGCGGATCATGTTTGCCTTATACAGTAGACGAAATTAGAGAGTGGAAAGCTAAAGGTGTAAAAAGAGTCTTAGTACTACCAGAAGAATGGGAAATAGAGGAAGCTTGGGGTAATGCAGACTATTATTTCAGTATATTAAAGGAAAACGGTTTAGATTACCTTCATATTCCAATACCAGACAATTACCCGCCAACTCAGTCTCAATTTAATGAAATATATGAATGGTTAAATAAAGGAAAAGGAAATTTAGTCCATTGCGTAGGGGGAATCGGTAGGACAGGAACTGTAATAGCGGCATACTTGATCATAAAAGAGGGCTATGATCCTAATGACGCAGTTACAGAAGTTAGAAAATATAGAGAAGGAGCAGTACAATCTTTGCAACAATTCGAATTTTTAATCAAATTATCATCAAAATTTGAAAGATGAGAAGATTGGAAAGCTATTTACTTGATTTTCTTAAGCTTTTTCAAGGATTAATTGCTAAAAATATAAAATTAGAGCATCTTGATATATCTAAAGTAAAAACGCTTTGTGCAGTAGATGTAGCATATAAAGGAGAAGAAGGTTACGCTGTTTCCGTAAAATTCGATGGAAAAAATTACGAACATTATTTAGTTAAAGGTAAGGTTGATTTTCCTTATATTCCTGGCTTTTTATTCATGAGGGAAGCTCCAATAATGATAAAAGCCCTAAGCAAATATTCATGCGATCTAGTACTTGTGGATGGACATGGACTAGCTCATCCAAGAAAAAGCGGCATAGCAACAGTGATAGGAGTATTACTGGATATTCCAACAATAGGTGTAGCTAAATCCAGACTTACTGGAAATATAGTTACCGAGGGGGAAATAAACTATGTCATAGTAAATAATGAAAAAGTAGGAGTAAAATCCGGAAAATATTTTTATAGTCCAGGAAACCGCACAGATCTGAACGACGTTATTGAACTTTCAAAAAAAGGATATCCAGAAATATTGAAGATAGCTGATAGACTATCTAAACAGTTGAAGAAGGAATAAAAACACTTGTTCGTATTTATTAATTATGGAAATAAGAGTTCCTCAAATTCCGGAAGAGAAGGAAATAGAACTAGATCCTAGAAATACTGCAGTAATAATTGTAGATATGCAAAATGATTTTGTTAAAAAAGGAGGTAAGCTTTACGTTCCTAACGCTGAAAAAACAATTGGGCCTATAAACGATTTAATTAAAAAATCTAGAAATTCATCTGTAACAGTAATATATACTCAGGATTGGCATATGAAAGACGATCCTGAGTTTAAGATATGGGGAGAACATGCTTTAGCCGGTAGTTGGGGAGCAGAAATAGTTGATGAACTTAAACCTGAAAAAGATGATTTCGTTATAAAGAAATATAGATATGATGCTTTTTTTGAAACTCCTTTAGATTACATTTTACGAGTGAAAAATATAAAAAACATAGTAATATCTGGAACTGTAGCAAATATTTGCGTATTACACACTGCAGGAAGTGCATCACTAAGGTGGTATAACGTAATAATGATAAAAGATGGAATTTCTGCGCTAGATGATTTTGATTATTATTCAACGCTGAGACAAGTTGATTTTTTATATAAAGGAAAAATTACAACTTCCTCAGGAATAAAGTTTAATAATAGTTAAAAGTCATTTTTAATTCAAATGGATTATTATGCAATAGTTCATAACGACTTTGACGGAACTGCTTCTGTAGCAGTTTATGCAAGAGCCGTAAACTCCTTACCAAAAAAGGTATGGTTTACTGAACCTACAAAAATACATAATTTACTTGCAAAATTGGAACTTAGAGGAGTAAAGAAAATAATGATTGCAGATATAGGAATAAACGGCTCTACTTTCCAAAGTGTAGTGGAAAGCTTAACTAGGCTAAAGAACGAAGGAGCTGAAGTACAATGGTTCGATCACCATGTATGGAAACAAGAATGGAAAGATAAATTAAAGGATATAGGTATAGAAGTTTATCATGATACTTCTACATGTGGTGCAGGTGTAGTTCATAAGGTTTTGAATCCTAACGACGATTTTTCTGGCAAATTAGCGTCCGCAGATTGTTCTGTAGATATATGGTTGCATAATGATCCTATGGGAGAAAAATTAAGGAGAGTAGTAGAAAATAACCATGATTACGCTTGGAAAGAAAAGCTTATACAAATTTTCTATTCTGGCACATTATGGAACGATGAATTTCAAAAAATATTAGAAAAACAAGTTGATGAAGAATTGAAAGGATATCAGAAACTTCCAAAATACTATAAAGTTATAGAAATAGATGGCAAAAAAGTAGCTATAGCAATAAGATGGAGAGGCCCACCGGATATTAGTTACGCTGGCCAATACATAATGACAAGAACTGGGGCAATAATATTTGTGTCCGCCAACGGGAAATCAATATCCTTCAGAAGTAACTCATACGAAATAAGAAGATATGCCGCAAAGTTAGGAGGAGGAGGACACCCACTAGCTGCAGGAGCGTCTTTAAAAATTCCTCTAATATATAGAATTCTTAGAAGATTAGGAATAATTTCGCCAGCCTTAAACTGGGTATCTAAAGTAGTATACAGAACAATAAAAGAAGAAGGTTTCTCTGAATATAAACAAAAAGATATAACTCCTAAACAAAGTTAAAAAGGTTTTACTTGTTAATTCAAAGTGGAAACGTTTTAATTAAACTATTACTATCAAATTGTAGTGAATCCAAAATGGTGAAGATATATCAAAAATTCCCCGATGTTCAAGTTTTAACTACTAAAGGACCAATAGATTTCTATAAAGATATCTTTGGTAAAGGAAGATGGTTATTCCTGTATGCACATCCTGCAGACTTTACTCCGGTATGTACTACAGAGTTTGCAGCTTTTGCACAAGCATATGACGAATTTGATAAACTAGGAGTACAATTGATGGGATTGAGCGTTGATAGCATATACTCTCATATAGCATGGCTAAACGATATTGAACAGAGGTATGGTGTAACTATAAAATTCCCCGTAATTGCAGACCCCGATAAGAAATTAGCTAGATTATTAGACTTAGTAGAAGAAAGCTCTGGAGTTACAGTAAGAGGAGTATTCATTGTAGATCCGCAAGGAACAATAAGATTCATGGCACAGTACCCAATAGAAGCAGGAAGAAAGATAGAAGAAATGCTAAGAATAACTAAGGCAATAATGGTAGCATATAAGGCAAAGGTAGCAACTCCAGTAAATTGGGAGCCAGGTCAAGATGTAGTATTAGGTGCACCGACTACTCTAGATGAAGCTACAATGAGAATGAAATTACCAAATGCTAAGGCATGGTATCTAGTATTCAAGAAGTATAATGAACTACCTGCAGATCAAAGAATCTAAACTTTTTTACATGTTTATTATTGTAAATTTTTTTGTAGCAGGTAATGCTACATTATATACTTTTACGTTCTTAACTATACTGAAAGTTACTTTAGAATAATGAGCATGACCGTGAACAGAAATATTTGGCAAACATGATAACTCTTCAAGTAAATTATCACCTAAACTTGGATATGCAAATTTCTTTTCTCCGTATACAGTATTAAACGTAGTAGCATAATGTGTCAAAAGAATCCTAAAATTATTTGAGGAGCATAACATTTCCTCTATCTTATTTTTCCTATATTTATAAAAATCGGCATTGATTCCTTTCATTTTCTGATAGAAAGTAGGTCTCTGTATAACTCCTTCACTTCCGACTATCGTAATTTTTTTACCGTCAACCTCCATATTTACGCTTTCATCATCTAGCCAAATCACTGAAGGATATTTTTCCCTATATTCATTTCTATATTCTGAAAAATCCTCATTCCCAAAAGTAGCAACTACCTTATATTTAGATAAAGCTCTATATATGGGATCAAAATGTAAAAATCTCCCTCTATCAACAAGATCTCCTGCTAATAATACTAGATCTACTTGTGGCAAATATCTAAGAGCAATAAAGAATTCATTTAAATACCGAGGAGAGTGTATGTCCGAAATACCAGCTATAATCATAGTTTAATAGATACTATGCTAAAATAAATTATAAATGGAAATAGAAGGAATAGCAGATTTACCTCTTCACGGAGGAAAAGTTCCACCATGGTTAGTTCCAATTATGAAAAGATTGGCAAAGTCTATCATTGAGATCATGGTTATTGAATGGGGACCAGAAAAAGTCTTGGAAAGATTGGCAAATCCTCTCTGGTTTCAGGGTTTTAATAACGCAATTGCTATGGATTGGGATTCATCAGGTTCTACTACTGTAACAATGGGAATCTTAAAGGACGTTTTAAATCCAAAAGAATTTGGTTTCGCAATTTTAGGCGGTAAGGGAAAAAATGCTCTTAAGGTCCCTCAAGAATTAGAGGAACTTCCTAAAAACTATAATGTAAATACAAAAAGGCTTAGTATAATAAGCAAAACAGTAGCTAAAGTTGACACAACGTTGGTTCAAGATGGACACCAACTTTATCATCACACTATGGCAGTAACAGAAAATGGATATTGGATAATAATACAACAAGGAATGAATCCAGAAACAAAATTCGCTAGAAGATATCATTGGAAGAATACGGAAAATTTCACAGTAGAACCACATGAGGGAATTGCTGGAACTAAGGGAATTGCAGTAAATATTATAGAGAGAAATAAAGACGACGTTAGAAAGTTAGTTCTGGATCTATTAAGGGAAGATCCAAGACATATCATTTCTGAATATGAGAAAGCTCAAGCCATGGTAAAAGGACAAGGGATTTTAGACATGTGGATTAAAGGTGGATCTATAATAGGACTATCTAAGAAGGCTAAAATGATTTACATGAAACCAGTAGATACCAAGAGAATTAAACAAATTTTAGAAAACATTTATGAGGCTCAACCTTCTACACTAGAAGAAGCTTTAACGCAAGGTATGGGACCATCCACGGCTAGAGCTCTATATTTAGTTTCCGATCTAATTTATAATGAACCGCCTTCTTATAATGATCCCGTAACCACACCTTATGACCCGTTTAAATATGCGTTTACTGTTGGTGGAAAGGACGGAGTACCTTATCCAGTAAATATAAAAGTAGCAGAAGAGGTAGTAACTACATTAGAGGACTTCGTTGAGAGAGCCAAGTTAGATAAAAAAGATAAAAGCTTATCTTTAAATAGATTAAGGGAATTGAGCTGTGGAATTAAGGAAAGGTCTTGAAGACGTAGCAGTAAAAGAGACTGCAATAACTTACATTGATGGAGAATTAGGTAGATTATATTATAGGGGATACTCAATCTTTGATTTAGCCGAATTCTCTAATTTTGAGGAAACTGCATATTTAATATGGTATGGTAAATTACCAAATGAAAAAGAATTAGAAGAACTAAGGATTAAACTATCTACAAATAGAGAACTACCAGATTCCATTATAAATTATATAAAAGAAGTTAAAAAAGACGCTAACCCTATGGATGTCCTTCGGACTGCTATAAGTATGCTAGGAGTGGAAGATACTGATAATTCAGACATAATGGAAAAATCAATTAAGATCACTTCAAAAATACCTACTATAATATCTTATTTTTACAGATCAAGGAAAAACCTAGAAATAATTCATCCTGATGAAACTCTCTCTCATTCTGAGAATTTTTTTTACATGTTAAATGGAAAAAAACCTTCAGAAATAGAAAGTAAATCAATGGACGTTTCACTAATTTTGCATATGGATCATGAAATGAATGCCTCAACTTTCGCATGCCTTGTAGTAGCTTCTACTTTGTCCGATATATATTCTTCAGTAATAGCTGGAATAGCTGCTCTTAAGGGCCCACTTCATGGCGGTGCAAATGCAGAAGCTTTAAAACAATTTATTGAAATTGGAGATAAGAAAAATGTTGAAGATTACATTAATAAGAGATTACAAAGTGGTCAGAGATTGATGGGGTTTGGGCATAGAATATATAAGACATATGATCCAAGAGCAAAGATTATGAAAGAGTATGTAAAGGAAATAACCAAGGAAAAGGGAATATATAACTTATATGAGATTGCAAATGCAGTTGACGAAATAGGTATTAAAGAATTGGGAAATAAAGGTATATTTCCTAATGTTGACTTTTATTCAGGTCTAATGTTTTACTCTCTAGGTTTTGATCCCGATATGTTTCCCGCTGTTTTTGCTTCGTCTAGGGTAGTAGGTTGGACTGCGCACGTAGTAGAATACCTTAAGAATAATAGGTTAATAAGACCTAAGGCTATCTATATAGGGGAAATAGGCAGAAAATATCTTCCTCTAGAAGATAGACAGTGAACTACTCCGCCCTAACGGGCGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCAATATGGGACTGTTGAATGGAGCAGAGGCGTACCACATAGACCCTCGCTTTAACCAAGGCGTCTCAGTGACGCTTACTCCGTCAGTGACTGCCATTAAGAGAATATTTGAAAAATACGTATTTAAATGTAACCACAAAGGGGGCAATCCATCTCCACCCTTACGGATGGAGTCTTCCGCCCCCTTTGAACCCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGGTCGACCCCTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATGTGACGAGTGAGGGGAGGGTCTACACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATACTCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCCAAATATACTATGGAAGGAGAAGGACTTGAGAGGAAAGAAAACAGATTTTTACGACGCACAAAAACTAATAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATATATCTTCCTAAAAGACCTTGAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAGTCAGTGACGAGGAAAAAATAAGCAAGGAAATGCTTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTGGAACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATTACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGAAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGCGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTCTGCTTTAGCCAGGAAATTGGCTAGAATAATTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGATCCTCCCCAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCAAAATATTTATTACTGAACGCCCCTTGTTAAGATAAAATGCGTACAATGAGTTTTTAATTTTCCTTTAACTACATTTTACTAATGATTAAGTTAACCCTTAATAAAGAACAATTATTATTTTCCAAAGTTCTACAGATAGCAGAAAGTATTAAAGACGCTAGTAACAGACTTACTTCCCTTTATATCAACATATTTAAACAAAATTATGATGCTTCTACAATGGAAATGGTCAAAATTAAAGGAATTTATGAGAAAATAGCACTAGTTAGAGAAGATATAGTTTCTATGCTCTATGGAGAAGCGTTCTTACCTGATTTTAAAGAATCAATGATGATGTTAACACAATCATTATATGAAACTATGAAAGCCATTAAGGACTCAGGAAGAGCTATATCATCAAGAAAGCCAGATGAAAAATTATGCAAGATCCTTCAAGAAAATCTCCTATCGTATCTCTCAACTATTTCCGAAGCCTCAGAAAAGCTGGTTGAGATGATATCTCTCTTACAGAAAGATATAGGAGAAGCTGTAAAAGTAGGAAAAGAAATTCAATTACTAGAAAGAAATGGAGATAATATAAAAGACGGTTTAATACAAAGACTATATGAATCTGAAAAAGACTCTGATATTATCAGTATTTTACAATTAAAGGACGTTACTATATTTCTTGACGACATACTAGATAACATGGAAGAGACGTCCTTAAGTATAGAAACACTTTACGCAACTCTAAAATCATAACCCTAGAATACTTTTTATTATACCAAAAGCGGCTAAAGAAGCAATTATGGCTATAAACGGAGAAGTTCCCCAACCTTTAGCTACTTGTTTTAACTGCTTCTCAACATCATATCCAAAACTTCTAAAACTAAGGCCTATTATTCCCCCCATGGTTGTCTGCGTTATAGATATAGGTATACCGAATATTGTAAAAATTTCTGAAATTATATCACTTCCTAAAAGTGCGGAAGTGGCACTTACATAGCCTAGTCTGGTTACTTTGAAACCAACAACTATTGAAGCTTTTTTTGAACTAAGGTATATTCCCATAGCCGCAGCTAATGCATACAAAGGAGCTACTATATAATACGGTAGTGCAATTAGACCTGCAGAAACTATTATTCCCACTGCGTTAGCTCCTGTTACAAAGGACGTAAAAATGGAGGAGGCAATTATTAGAGACTTATAAATCTTCATTTCTCTTATTACTCTTTTCTCTTTAGAAGTAAGTCTCCTTAATATATAGTACATTACAAGAGCTGAAACTATAGCCAATAATGGAGAGAATCCCCAAGAGGCTACAGTAAACCAAAACTTAAACCAATTGAAGTAGAGAACTTTTGATACTAATACTAAAACAGCTAACGAGGGATAAATCATTTGGCTTAAAGAAGAAGGAATTCCTGATTTATTTAAATAATAGAATGCTATAATAGAAGCAAAAATAACTGAAAAAATTGAGACTTGAACATATATTTGACTTCCCTTTATTTCACCATATATACTACTAGCCATTGTGTAACTTCCTAGGGCTGTACCTATGAAAACACTCAAAGCACTTACTAGGTATGAATATTTTCTTTTTAGTGCATTGGTTGATATTAATATTCCTAGGGCTGTTGCTGAGTTATTTCCACCTACTATAAATGCAGATATTAGCCCAACCAAAAATATTAGGATACCAAATATAAACATTATTTAGTACCTTTATTTTTATTATACTTTATATACTCTATAATAGCCTCTCTAATGAAGTCGCTCCTATTAGTGTATCCTAATCTTCTTACCATATCGTCAACCTTACCTAGCAACTCGTCTTCCAACTTAAAGGAGATTGTAACAGTAGAATTTAGTTCTAGCTCATAAGTACCTTCTCCAACTTTTTTAACAGAATCCATAATGATCACAATATTAGTATTGTGTAATATTGATAAACCTTTTGTAGAAAGCTTAACGAAGTAATAAATCTTATACTATGGAAAACTTTATATAATATGTGACAATGAAGATATCCTTTAAATAGAATTCATTTTTAAATATGTAAAAGCAATAAGTATCTTCATGGAATTTATGTCACTAGAAGAACTTAATGCTGATCAAAGAATTATAGACGTAATAAAGAAAAGAGGAATAGAAAGATTAAATCCTGTACAAACTGAAGCAGTAAAGAAGGGATTAATGGAAGGTAAAAGATTACTAATAACCTCGCCTACAGGATCAGGAAAAACTTTAATGGCTGAGTTAGGCATGATATCCTTCTTACTTAAAGAAGGAGGAAAAGCAGTTTACGTTACACCTTTAAGAGCTTTGACTGCAGAGAAGTATAATACATTCAAAGATTGGGAATCTCTAAATTTCAAAGTAGGAATGTCATCTGGAGATTACGACTCTGACGATGAATGGTTAAGAAACTATGATATAATTGTAACAACTTACGAAAAATTGGATTCCTTGTGGAGACATAAGCCATCTTGGCTTAAAGACGTAAATTATTTCGTATTAGACGAATTTCATTATCTTAATGATTCGGATAGAGGTCCAGTAGTAGAAAGTGTTGCAGTAAGAGCTAAGAAAAAGAACATCTTAGCTCTAAGTGCTACTATAAGTAATTACGCTAAAATATCATCATGGTTAGGTGCAGACGCAGTAACTACTAATTGGAGACCAGTTCCACTTAAAGAAGGAGTAATAGTTCAAGATAGAAGAAAATGTCAAGTTATATTTCAAGATAACCTGACTTTAACATTAAACGGGAGCGACGCTATAATTGCATATACTCTATATACTATTGAAAAGGGTGGTCAAGTTTTAGTTTTCAGAAACTCCAGAAAGATGGCAGAAACTACTGCGAGAAAAATTGCTGCAGAAATGGAAAAAGCCCCATTGAACGATAAAGAACTTCTAGAAGTTGCTAATAGAATAAAAGATGTAGACGATGCTGGTGGAAACGAAAAGGAAGAATTATACAATCTTTCTTTAAAAGGAGTTGTATTTCATCATGCAGGACTATCAAAAGGCTTAAGAGAAATAATAGAAAACGCGTTCAGAGAAAGAAAATTAAAGGTAATTGTAGCTACTCCTACATTAGCTGCAGGAGTTAACTTACCTGCAAGAGTAGTAATAGTTGGAGATATGTACAGATATAATAGAAAAATTCTAGGATATCAGGAAGAAATACCTATTATGGAATATAAACAAATGAGTGGAAGAGCTGGAAGGCCTGGGTATGACGATTACGGTGAATCTTTGATTGTTCTAAGAAACAAGAGAGATATAGAAAAGATATTTGAAAAATATATCTTATCTGATCCTGAGCCTATAGAGTCAAGGCTTGGGAACGAATCATCGTTTTATACGTTTTTACTAGGAATACTCTCCACAGAAGGAGGATTAAATAAGAACGAAATATATGATTATTCACATCAAACTTTATTAGATAGAGAAATAGTAGATGATTACTTAGAAAAAGGTATTTCTTGGCTAAATGAAAATGATTTTATTGAAGAAAGAGATGAAAAATTTAGATTAACTAAATTTGGAAGAAAAGTCTCTGATCTCTATGTAAATCCATTCACTGCAAAAACTATAAGAGACTATCTATCTAGAGCCGAAACTAGTTGCGAACTAGCTTATTTCCATTTACTTGCTTATACTCCAGATGGACCATCAATTGGAGTAAGTAGAGCTGAACAAGATCAGTTAATAGACGAAGCTTATTGCCCATTATTTATAGATGAACCTGATGATGAAGACGAGCTATATGAATATTTATCTGCATTGAAAGTAGCATTAATAGTTAAAGATTGGATAGATGAAGTAGATGAAGACATAATTTTAGAACGATATTCAATAGGATCAGGAGATCTAAGGTCTATAGTGGAAACTATGGACTGGTTAACGTATAGTGGTTCCCATATAGCGGGCGTAATTGAGGCTACTGAGCATTCCAGAAAATTGGAAATACTTAATAAGAGAGTTAAAGACGGCGTAAAAGAAGATTTAATACCTTTAGTACAAATTTCTGGTGTAGGAAGGAAAAGAGCGAGATTATTATATAATAATAAAATAACTACTCCAGAAGATATAGTCATGAATCCAGAAAAAGTTAAGGCATTACTTGGTCAGAAAATAGGTGAAAAAATTGCAAAAGAAGCTGCAAAGCTTATTGCTGGATTACATTAATGGAAAAAGAGAATTTGAAGGAGACGAAGATGAATTACAAAAACTGAGCCTATTACTTTTAGCTATTGGTGTAAAAAGTGAAATTAAAAATAAAAAACTTATAGTATTATAATGGAATATTTCCATGTTTTTTAGGATATCTGTATTCTCTCTTATTTTTAAGCATGGATAAAGCGTTAACAATTATCCTTCTGGTATCTTTAGGCTCTATTACATCATCTATAAGACCTTTTTCTGCAGCCCAGTATGGGTTGGCGAACAGTTTCTTATATTCGGCTATTTTTTGTTTCAGGAACTCATCAGGATTTTGAGAATTTTGAATATCTCTCTTATATAATATTCTTACTGCTCCTTCAGGACCAGTAACAGCTATTTCTGCAGTAGGCCAAGCGTAAACCAAATCTGCACCTAAATTCTTTATGCTCATTGCTATATGTGCACCTCCATAAGACTTTCTTATAATAACTGAAATTTTTGGTACAGTAGCTTCAGAAAATGCATATAACATTTTAGCCCCATGCCTTATTATTCCCTTATATTCTTGTTCTGTTCCAGGGATATAGCCAGGAGTATCAACTAAACTAAGTAGAGGAATATTAAACGCATCACAAAATCTGATAAATCTAGCAGCTTTATCTGCCGCATCTATATCTATAGCTGCACCTAGTGTATTGGAATTATTAGCAACTATACCTATTACATTTCCAGCAACTCTAGCAAATCCTACTACAATATTCTGAGCCCAATGTCTATGAACCTCCATAAATTCTCCATTATCTACAATCCTGTATATTACCTCTCTCATATCAAAAGGTTTAGCTGAATCTGTGGGTACAATACTTTCAACGTCTTTAGTTTCCCTATCTGAAGGATCTCCAGTATCCATATAGGGCGGATCTTCCATGTTATTAGAAGGAAGATAAGACAGTAATCGCTTAGCTATACTTATAGCGTCTTGTTCATTTTCGGCTAAGAAATGAACAACCCCAGATTTAGTAGCATGAACTACAGCTCCTCCTAAATCTTGAAATGTTACTTCTTCTCCTAAAACTACTTTAGTTATTTCTGGACCAGTTACAAACATGTAATAAGCATCTCCTTTAATCATTATAATAAAATCAGTAAGTGCTGGAGAATATACAGCACCACCAGCTGCTGGGCCGGCCATTATAGTAATCTGTGGAATAACTCCTGAAGCCAATGTGTTCATCTTGAATACTGTAGCATATCCTTCTAATGCTATAGCACCTTCTTGAATTCTTGCACCACCAGAATCATTAATGCCTATTACCGGAGCTCCCACCTTTAGAGCTAGTTCATAAACTTTACCAATTTTGTTTGCGTGCGTTTCACCTAGAGTACCTCCTAATTCTGTAAAATCCTGAGAAAAAGCAAATACTGTCCTTCCTTCTATTTTTCCCCAACCAGTAACTACTCCATCACCATAAAACTTGTTTTTATCAAGTCCGAATTCTGTAGCCCTTGTAGTTGCTAATGGCATAATTTCATTAAAAGAACCTTCGTCAAACAATAAGGCTAATCTTTCTCGAGCAGTTAATTTACCTTTATCGTGCTGTGCTTTAATTTTGTCTTCTCCACCCCCTTGAAAAGCTTTAGCTTTTATTTCCCTTAACTGAGCTATTATTTTATCCATATCTGATTTTTCAGAAGTTATAGCCATATATACTCACATATATATTAGTTATCTACCTTATAAAATTTTTATTGTATAAACTTTAGAAAAAAGTATAGTGAAAAAATTTATTTAATTATAAGTAGAGTATCTCCTTTCTTTACTCCTTGTCCAGGTTTTACAATAATTTTCTCTACTATTCCTGCTATTGGCGCGGAAATAATTGTCTCAGATTTCATAGCTTCAACAGAAAGCAAAGGTTGGCCTTTATTTACTGCATCGCCTTCATTAACCCTAATCGTAACTATTCTGCCTTGTAATGGTGATATTACTTCACCTTCCTTTCCTTTGATCATTTCTTCTATTGACTCGCCTTCTTTTGAAGGAAGTTCTGTAAGCCTTTCTAATCTAAATACGCTAGCGTTATCTAAGAGTATATAGCCATTGTCTATGAATGCTCTATGAACTTTTCCATTAACTTTGAATAGATATTCATTTTCTCTTGTACCTTTTCCCAGATATTCTATTTCAAATTCATTATTCTCTGTTTTTATCTTATCTTTATCACCTTTACTATCTATAGCCATTATATAGGTATCTCCAGTATCTGCGTATGCCCTATATAGTTTCATTACCACATCACCCTCGTAGAAGATTGCGTTATTATACCGTAAGTCTTCCAACCAGACTTACTTTGGGCTTTACCTTTGTTATCAGTGCTGCTTGTTCTCAAAAGTCCTCTACTCTGAATTTCTGCAGCTATGGCTGCTTTTATCTCCTCTTGTTCTCTCAAATATTTTACAAATTGATCAGTTTTTTGTGAAATATACGAAGTACTGAATTTTCCTTCTTGAAAATCTGGATCTTGCATTATCCATTTATAAAGCTCTATAGTAGTTTTTATTCCTCCTATTTTATAGTCAGCTAACGCTCTTATTCCGGCTTGTATAGCATATTCTCTACTTTCCCCATAAACTATTAATTTAGATACTAGGGAATCGTAATATGGAGGAACGTAGCTACCAGATTCTATTCCACTATCTACTCTAACGCCAGGCCCTGTAGGCTCCCTATAATATGTTACAAATCCGGAACTTCCAGTAAAATTATTTAAAGCGTCTTCTGCATTTATTCTATATTCTATTGCTGTTCCTCTAACTCTCTTGTTTAGATCCTCTTGGCTAAAAGGCAGATGCTCTCCTGCAGCAAGTTTTATCTGCAGTTTTACCAAATCTATCCTAAATATAAGCTCTGTGGTAGGATGTTCAACTTGTAATCTCTTATTGAGTTCTAAAAAGTAGAAATCTCTAGAAACGTCCGAAAAAGCAGTTTCAAATGTACCTAATGTAAAATAGTTTATCAATTTCCCAAATTTTATGATTGGCTCAAACATAGATTCTCTTTCTTCCATTTTAAGAGCAGGAGATGGCGCTTCCTCTATTAGTTTTTGATTTCTCCTCTGAATAGTACATTCTCTTTCCCAAGCTACTACATAATTACCATATTTATCTCCTATTAATTGAAATTCTATATGCCTAGGATTTACAGCGTATTTTTCTATAAATAAGTCTGCTTTTCCAAAGGCTTGATAAGCTAATCTTTTATTTCTTTCCCAAACGTCCATTAATTGATCCTGATTATCTACTCTTGTTATACCTACACCTCCACCTCCGCTAGCAGCCTTAACCATTATTGGGTATCCTATTTTTTCAGCTAACTTTAACGCTTCGTCTATAGAGGTAACAGGGCCGTCTGATCCAGGAGCTGTAGGAACTCCTGCCATATTTGCTAATCTTTTTCCATCTAGTTTATCCTTTATTTTTCTCATGACCTCGGATGAAGGACCGATAAACGTTATGCCAGCTTTTTCTACTGCTTCTGCGAATTCTGCATTCTCTGATAAAAATCCGTATCCAGGATGAATTGCGTCAACATGAGCTTTTTCAGCAGCGTCTATTATATGTTCAATATTAAGATAGCTATCTAACGCAGGAGCCTTACCAATATAATAAGCTTCATCAGCATATTTTGTATGAACGGCGTATTTATCTGCCTCAGAATATACTGCAATTGCAGTCATTCCCATTTCTTTTATCGCCTTAAGCACTCTGGTAGCTATTTCTCCTCTGTTCGCAACTAAAACTCTACTAAAAGGCGGCATTTTACCCCATATATTATTGCTTTAACTGTTTAAAAGATTTTTACCTTAGAATATTTAAACCTTAAAAAAATAATATTCAGTGTTCGTGATTCTCCTCACCAATCGGATCCCGGATTCCACATCACTAAAAAAGATTATATTAAGCTGCATAAATACCTTCCTCTGCAACGTATTTTTTCCTAGCCAAATCTAACAATTTTCTTGTGAAGAAAATGGAATACATGACTACAATAACTGCAAATATTAATGATAACCATCCTACTAATGCTAGTTGTCCGTTAGCGTCAGCTAAAGCTAATTCCTTCATTAAACCTGTTCTTACTTCAAGATTATAATTATTATATATTTGAGGCCAATATTCACCAATAGCTAAACCTCCCCATGCGCTATTTACAGTACTTGAGAGTCCTGCTATTATATAAGGAAAAGCTGACGGAATAACAACCTTTCTTAGTCTTTGCCAAAATCCCATATTAAGATTATCCATAACTTCCCAATATTCTGACGGCATATTTTTTACTCCTAACCAATAACTATAAAATATATAATAAAATGTGGATATAAATCCTAGAAATAGTACATAAAATTCATCAGTATAGCCTCCAAGAATTTTTGATAAATATGGATACGTTGCACCAAAAAGTAATGGGAAGTATGCTGGAGCAGGAAACGCAGCTATACTCTGAATAATAGGTATGGCAATCCTTTCTGCTTTATGATCTTTGGCTAAAAAATACCCTGAAAATATGGCTATAACAAATGATATGAGAGCTATTATGGCTACACGAATATAATCCATTCCTATTTGAATCAAATCGTCAGGAACAGTGGAGAATAAATAATACCATGTACTAGCTGAAACGTTTTTAACTACTATAAAGGCAGAATATGCAAGAAGAAACAGGAACAAGAATCCTATCCCTGCACCGATTTTTCCCCATGGCATTTTCTTTTTACTTTCCTCTTCATCTATATCTATTGGTCTAGGCCTAGTAACATATTTAGCTAGTTTAGTAAAAGGACCTTTAGCACTACTTAATCTTGCAGAATACCCTACTCTAAATCTTCCTCTCCTCATATTATTCTCTTTAACCTCAGTATCTAAACCATATCTTTGAACTGAAAAAGCTGCAAATTCTCTAAGTAAAAATGTAATACTAGTAGTGAATATTGCTAAAACTAGTAATAAGTACAGTGCGTTAGTGTATTCTCCCATAGCAGTATACTCAGAAATTAGCGTACCTATTCCAAATACTTGATAAGTATGTACCCCTACGCTGAATACCTCGCTTACACTTATGTAAAATAGAGCATCAGCAAAACTGGGAATTAAATTAGCAGCTATTCTAGGAATGGAAAATGGAATATATAATTTTATCATTTTATCTAAAAATCCTAGTTTATAGTTTTCTGATACTTCCAATAGATTTTCTGGAACAGTTTTAAATGCCTGATATATTCCCATCCATATATTCCATACTACTGCCGTGAAAACAAGGAATAATACAGCAAGTTCTACCCCTAAAGAACCACCTATTTCGAAAACAAAGAAAATCAAAACTACTGGGAAAAACGTTATCACTGGAACTGATTCTAAAACCTCCGAGATTGATATGTATATATTCTCAAATATTCTATTTTTTATTGCTATATACCCTAACAACCATCCAGTAACTATAGAAGCCCCTATTGTTATAAAAACCCTTGCCAATGTTGCTAATGTAGCTAGGATCGCTAGTCCTAAATCAAACATTTGCTTCACCACCATTTAATTTAGATTTAGTGGTAACTGGTGTAAGCAATCTATAGAGATTATCAAGCAATTCTTGAAACTTTTCACTCTTAGGATTTCTAGGTCTTTCTATGTCTATTTTTACCTCTCCTACCACATTAGCAGGCCTATCATTCAAAACATAAACTCTGTCAGCTAATTCTATAACTTCTGTTAAATTATGAGATACAAGAACTGCTGATCTCAAAGATGTTTGATCGTTAAATAACATACCATAAACTTCTTGCCTAAGGCCTTCTGCAGTTAATTCGTCTAAATGTGAAAACGGTTCATCCATCAAAAGAACCAAAGGATCTGCCGCTAGTGCCCTAGCTATTGCAACTCTTTGTCTCATTCCTCCACTCATTTGTTTCGGATAAAAGTCTTCAAATCCTTGTAAGCCAACTATCTCTAGCATTTTTTTAGCTATTTTATTCTCTTCGTCTTTATTCAATTTTCTATATTGAAGACCTAATTTTACGTTATCTAAAGCAGTTAACCAAGGAAAAGTAGCAATTGATTGATGAATCAAAGAAATCTTCGGAGTTGGAGAGACAATTTTTTTGCCCAAAAGTCTAACCTCACCCTCTGTAGGTTTTATAAAACCGCCAAGGATTCTTAGCAAAGTGGATTTACCTATACCAGAAGGACCCACAATTGCAACCAGCTCATTTTCTCCAGCATATATATTTACGCCCTTGAAAACTTCATAACCGTTAGGATACTTATAAGCTAGATTTATCCCTTCTAGGATTCTTCCATCTGTATTCCCCGTTTTTCATCACAAATAATTTCTTAAAAGCTTTTCCTCAATTAAATATATGCAAAATTCCTCAGAAAAAATTTTTATTGTTAAGCCTGAATATTCAGCACGTAAAGTATCTTCTGGGGCCGTAGATGTACTTTCAACACCGATGATGATTGCATTTATGGAAGATGTATCGTTTAATTTAGCTAAGAATGTGACAAAGGAAGGAGAAACTACTGTAGGAATTCATGTGGATGTTAAACATCTAAATCCAGTACCTATAGGTGCCGAAATTAAGGTTAGATCGGAATTAATCAAGATAGATGGAAAAAGATTGGTATTTAGTGTAGAAGCATATTGGAGAAATACCAAAATAGGTGAAGGAATACATGAAAGATATATAGTAAATGAAAATGAGTTTATGAAAAAGATTCAGAATTTACAATAAATTTCTCTCCACTCTTTATAATATATTTCATCTTATATAGTTTTGATGCGACATCTATCCCGTATTCTCTAGCAATTTCTCTAAGTGTAAACTCTTTATTATAATATTTTTCTAACGCTCTCTTCATTTCAAATAACGAAGGATCATTAGAGTAATATTTCCTACAAATCCCTTCTGCACTGTACCCTTTTTCTTTAAGAATAGCTTTTATCTTTGGTATACCTGCTTTTATACAAAAATCTACTGAATCCTTTATTTTAATATCTTTTAATTCCATTACTGTATTTCTATCTAATCCTAATTCTGCTATCTTTGATAGCTCATATGGAACACCATATTTTACTGACATGTAAAGCTTGAACGCTTCGTCATACTTTCTATTTAAAGCTTTTAATACTCTATATAAAGCAAATGATATCCAACGAGCGTTAGCTATTATTTCTTCTAAATCTTTTGCCGAAAGTTCTGGACATACAGTAGATATATTTTCACCCTGAGACCATTTTTTCAATAGTTCCTTTCCTAGTTTACATCTTCTCATAGATTGAAGGACAACACTCGAACTAGATACTATGTCTAATACGTCAAAGTTTTCTTCATTTAAAGGGAAACCATTTAGTGAATCAATGTCTATATAGCTCCTCGAGACAGCTTTACCTAAAGCGGTTAGGAAAATTCCCCTGCTTATTCTTATTAATTTAGTATCACTTAATTTATGTAAAATACTGGAAAAATCATCCTTATCCATATTCTTAAATTTTAAGCTCCCCATAAGGATCTTATGAATTTCATCGTCATCAAGACCTTCTGCCCAAGATATTACACCTATTGAAAGATTTTCTGGCTTATAATTAACTAATTTACTCTGATATACATTAGTAAAATATTTACTTCTTAATTCGTCGGCATTTCTCATTGACGTTGCTATTATTATGCTTAATCCTTCTTTATCATAAATAGGCCTTCCTGCCCTACCTGCCATCTGCTTAAATTCCATCAAATCGAGATCTCTCCATCCCTTGAATTCTCCTCTTTCATCGACTTGAGGTAAAGAAGTATCATAAAATATCGTAGCATAAACAGGCAGGTTTACTCCTTGTCCCAATGCAGTAGTAGCTACAACGAAATTTATTTCTCCTTTCTTTAGAGCCTCCATCACAGCCTTCCTATCTTCAAACGAAAGACCACTATGATAATTTTCTACCTTAAATCCAAATTTAGATAATACAGAACTTAATTGCTCCGTAGATCTTCTACTCTTTACGAAGATTAATGCGTTTTTGTTTTGATTCCTTATATATTCCAATACGGAAGCTAAGATTTGTAACTTTATTTGCCTTATTCCTTCAAAAGTATTTAAAGGAATATCAAAATTGTTGTCATAACATCTTAGTACATATGGATAAGCAATACATTCGTGAAGAGGAACGCTTCTCTTTTCGTATGATATTACGTCTGCGTTTAACCATTCTGCATAATCCTTTATATTAGGCAAAGTAGCACTCAAAGAAATAGTAGGTACAGAATTATTCTTACTCCATAAAACAATATTTTCTATTGCAATACCTCTATCTGTTTCTACATTATGAACCTCGTCTATTACTACAACGCTAACATTTGAAAGCCATTTGTAGTTATGCCTAATTGCGCTGTCAAACTTCTCATATGTAGTAAGAAGAACGTCCGATTCAAAAGAGCCTAAATCGTCCTCATAGACATCTGAATCTATATATCTTGATTTTCTTTTTTGCCTAACGTCCTCATATACTTCTTTTGCTAGAGCTTTTAGAGGAGATACATAAACAGCTATTTTTTCTCTATTCTCCAAAACATATTTTGCCAAAAAAGTCTTACCTGAACCTGTAGGTGCTGAAAGTAAGTAATTATTATCTGGATCCTTATCATATTTCTCTAAAAACAATGACTGTAATTCATTCAACGCAATCTATATTGATAAAAGTAAAATAAAAAGGCTATTATGATTATCTTATAATCTAAGATATATCCAACCTTCAGACTGTTTCCTTACTATTTCTCCTACGCCTGCAGTAACTATTTTTATTCCTTCAATTAATTGCTCATCTTTTATTCCTAAAGCAGTCATACTATTTCTACAGCCTACCACAGCCACGTTATTTTTAAATAGTTCGTTTATTGTATTTTCATTTTCGTTACCTTTGATAAGAGATCTTATAGCATCCTGATGAAATACGACTTCTATTTCAGCATCTTTTATATCGTTTCGTAAGTTCAGTACTGATTTCATAGCTTGTAAGGCTCTTGAATTATCTGAAACTTGTACTACTACTTTCATATGCTACTTTAACGGTGTTTTAATAAAACATTAACTCTATTTAAATAATGACTAAAATTAAAGAAGATTTTTCCTTACATGGAATTTTCCATTTATGTAAAAGCATTATTTTATCTGAACAAGGGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATAGCCTCCTTTGTGGTTACATTTAAATACGTATTTTTCAAATATTCTATTAATGGCAGTCACTGACGGAGTAAGCGTCACTGAGACGCCTTGGTTAAAGCGAGGGTCTATGTGGTACGCCTCTGCTCCATTCAACAGTCCCATATTGGGATACTGTGGGTTCACATTAGTGCTCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGTCCGTTAGGGCGTGGCAGTTCACCTTAATGAAGCTAAAGGGATATGGAAGACTTCTAGCATTGGCATAGCTTTGAAATAGGAAGCTACATTAGTAAGACGGTGTAGTTTACATTTCATATAACCAGCAAGCTACCTTATTCCCTCCCTTTATAAAAAATGGAGGTTCTTGTAATGCGCATTTCCTAAATAGAAGTTTATCATTTTTTGCTGCATAGCAATAATCATGGAAAGGACAACCTTTATCACTTGGCTTACCTACTTCTACAACATCAATTTTTTCAAATTTTTTACCTATAGTTATTACAGATTTTTGCATAGTTTGAGAATAAGGATGATATAATTCTTTTCTTCCTTCTTCTAAAACTCTCCCACCGTATATAACATAAATCTTAGAACATATTTCAGAATATTCTGCAGAACTCATAAATAGGAGGAGAGTAGAATTAAGCATCTTGGCCGCTTTAATTAAGTATTTTAATGCAAGATACTTAGCTTGTTCTTCTATTAATTCCAAAAAATCTTCACTTATTATAAGCTTTGTTTTTCCGAAAAATACTGATGATAAATAAACCTTAAATACTTCAAATTCTTCGAGGCTATTCATTTCAGTATCATTAAGATTTAGAAAATTCATTATGACTTCGTAATTTCCTGAATATCTCTTAGAAAAAAGTTTGAGAATTTGACTAACAAAAACCTTTGGTCTTTCAAGATTTCTAGGAATAAGCCTTATATTTGAAGGAGAAATTTTCTCTATTCCATTAAAATAACTTACTTCACCAGAAAATCTTTTTCGTCCAAGTAAAACGTCTACTAAATCTGACTTATCCTTGTCCCAATCACCAAGAATGCATGTAATACCGTCTATAGCTAACGTTATACCATGAATATTTTCTGTAGTAAGATTCTTTACGAATATCATGTCTCCCACGGATAAAGAAAACATTTAACTTTGTTATTTCCTACCTTAACTTCTTCTGGTTTATTGCTCTTGCATTTATAACTTGAAAATGCACAATTTTCGCTATATACACAACCATTTCCTATAATATTCCTTTCTCTTATATTCCCAGAAATTAAATCAGTTGTGTATGGATGATAATGATCATATAATACGTCACTACCTTCTTCCACTTTTTCTCCTTTATATATTACAATAACATAGTCGGCAAGCCTAGATATTACGGCAGGATCGTTATCAAGAATTATGAAACTAGACTTTACTATCTGCATTAAATCTATTAAAGAATTAATTATAATAGCTCTCCCATTATCATTAAGACCAAACTCTATGTCATCTACTATTATATACTTAGGTTCCATAAAAGATGCTAACGCTATTGAAATTTTCTTAGCTTCTAATGGTGAAAGTTGAAGAGGATGTCTGTATACCAGATCTTCTTTTGCTCCAAGAATTTTTAGATATTCCTTAGCGATCTCTTCTGAAAAATGAAAATCTCCAAAATTATGTGATATGGCTATTTCAGCGAAGTGGGAAGCCACATTATAGATAGGATTAAACATAGAGTAAGGATCATAAAAAACTGCAGATATTTTACTCCATCGTATTGCATTCATTTCTTCTTCTGATAATGAAAATATATCAACTCCATCAAGTATTATACTTCCAGATATCTTGTTTTTCAGCCTTAAAGTAAGATATATTAGGTCCTCCTTACCGCTATCTCTTTGACCTAGAACTCCTAGATACATATTGTCGGAAATTTCTGCATCAAAACACCTTAATTTTTCTGAAGTTATACAATTATATTTTAGCATTATCTCACCTTAAAGAATCTGAAATAATATAAAGAATGACTATTACTATCCCCCTAAATACAGCTGGAATAAGGAATAGCCACCAGTCTGGTAATAATCTGGAAGTATTAAGTAGAGTGGTTAAAGTAGGATAACTAGGATCCCCTACTCCTGCTATAACACCCATTGCAGTATATGTAGATATTCCGTCTATAATAGCTGGAATAAAAAATTTCTTAGTTAAAGATGACAATGATGGCCAATATTGGGAAATAGATAACCTAAATGAAAGCTTACCTACAATTCTTGATAAAAGAGGCATTGATGTAGAAAAATAAAGATTTTCACTTATTTGCCTTGCATAATTGGACCATCCAGTAAGAGCAATTATAATCGCAGTTAAGAAAAAATTAGCTCTCAAAAATGTCCCTTCTGGAATTCCATAAAATAAAGCTATAGCTAAAAGAAAAGGTATTCTAGGAATTATTGTCAATGCGTCCAAGAACCTAACCATTATAACTCTAGTTCTACTACCTATAGTGGAAAAAACACCATATGTAGCAGCTAATAATATTTCTATAATGCCTACTACTGTTCCAAAAATGAAAGTGTTAATAATTGCTATTGCATTTACATTTATCATATTTTGTCCATTAATATACGTTCCAAGAGGAAATTCTAGATTTGGAGAAGTCAATGGTGAACCTTGCGGAAGTTTGTAGAAGGAAAAAAATAAGGAAAATAGTATTATAAAAACTAAAATTATGACAGATACTTTCATCTTCTCACCCTTGGATCAACTATTCCGTAAATAACGTCTGCAATGAAATTTGAAATAAGAACTATAGTCGAGTATATTAATAAGATTCCTTCAACTACTCTAATATCTCCAGAATCCACGCTAAATCTTAATAGGTATCCTAAACCAGGCCAAAAAAATATAGCTTCAATTAAAAACTCTGCTATCAACATTTCTATAAAAGCCGAGGATATTGTAGACAAAGTTACTACCATAAGATTCCCTACAACGTGACGATAGACTATTATGTCCTTACTTAAACCTTTTGCTTTGTTGATATCTGAAGTAGAACCAACTGTATATATTATTCTATTAGCAAATATTCCGATATAAGGAAAGAATAGTGATAATAAAGGAAGTATTATATAAAAAATTAGATGACCCTTCGGAGATCCTATAGGTAAAATTCCAAGATAATAATGAAAGGTATAGAGTAACGCTATGCCAATAACCCACGACGCTAAAGCGTTTCCAATATATTTCCATTTTTGTATTAAAGTTAGTAAAAATCCGCTACTGCCAATAGATCTCATTACTAGAAAAGCGCTTAAATAAACAGTTAAGGAAAACGCTATTCCGCTTAAAAGACTTGTATAAGAAAGTGAGGTAAGAAGCAAAGAATCTACGCTTATTCCAAGTTTACTTAATCCCTCATTAAATGTTAATAGGTCTATAATATCCTTAACAGGATTTATTCCTTGAATAATCTCTAAAAAATAAACCACTACTGAAACTATAGATATAGATATTACAAGGCTTGAAAATCTTTTCAAGATATAGCGTGATAGGGACCCTTCAACTGCATAACCTTTAGAAAGTTCGCCTAATACTCTTTCTTGCATTAAAAGAATAGAGCTTCTGAACCCAAAAGCTGTACCTATAAATATTAGAAATAATCCTAGAATTGACAAAATAGCATATGGTTGAATATATCCATACACTGAAAATACATAAAAACTTGACTTATTTAAATAAATGTCATGTACTCCAGTGATGTTTATTTCCTTATTAGGAAGAAATATAGTAGAATTTGGAAATCCTTTACTTAGAACTGACCAATATTGATATCTCCAGTTTTGCGGAGGATAGGCAATGCTACCATTGCCATAACTTATATCTTGATAAAATACAGTTATCGTAGAAATATATGATAGAACAATACCTATTAATAATGATAAAATAGAAAAAAATAGAAGACCGTATTTCATGGCTTAGCTATTGAAGATCTTTAGATTAAAAAAGTTTTATTTTAGTTTTTTAGATTCCAACAGTCTTAAATGAAATATTCTTTATTAGATCTATTCCAACAGTAAATAAGAATGTTATTGCTAAAACTTCTAGAATATAAAATAGCGGTAGAGGAGTAACGAAAATCCCTAACAATGAGATAAGAGTAATAAATATTATATCTGCTATACTTGAAGTCAGCAAAAATTTACTTGGCATAGAAGCCCACATACTTCTTCTTTCCCTAACCATATATACGGTAAATTGACCACTAAATACTAACATATCGAAAATGAATGTATGAATTTCGTTTATTGATAATCCTTGATACAGCGAAACCCATAAAGCGAAAAATGACTCAACTACTACAAGAAAAGCTAAAATCAATGATGCTATAATTAATTTTTTGGCACTCCATCTTTCTGGATGTTGTGAATATCTTACATTATCAGTAGCTATAGACATAGTAACGAAATCGTTAGCAAACAATAATAATATTATATCAAAGGGAGTAGTTACAAAGAATCTCACTATAAAGAAAGATAATGTTAGAAATAATACAACTTGTAATGTTTTAATTATTTTATTTATTGTATATGTTAACATCCTTTGATAAATTTTTCTTCCAGTTTTTATAGATTCTACTATATCTGTAAGTCCCTCATGTGTTAATACCATACTTGCAGACGCTTTTGCCACATCTGTAGCGTTAGCCACAGCTATCCCTACTTCAGCTTGTTTTAGTGCAGGAGCATCATTTACTCCGTCACCCGTCATTCCTACGTAATGTCCTGCTTTTTGTAAAGTTTTAACTATGAAATATTTATCCTCTGGATAAACTTCAGAAAATACATTACATTCCTCTATTTTCTTTACTTTTTCATGTTCATCTGGAATTTCTTTTATATCATTTATATTGCATATAGTATCTCCTATATCAACCTCTTTGGCTATTTCTTTTGCAATAAGTTTAGTATCTCCAGTTACCATCTTCGGTTTTACTCCCAAGGCCTTAATCTCTTGAATAAAGCTTTTACTATCTGGTCTAGGTCTATCATAGAGTGGAAGAATACCTACTACTTTTAGTTTACCTTCTTTATCTCCTATTGCAACAGATATTGTCCTAAAACCTCTAGACGATAAATCTTCCAAAGTCTTATTATAATCTCCAATATTATTTAGCTCGGCCATGGATGCTATAACTTGCGGTGCACCTTTAACTACTCTTAATATTTTACCATTATAATTTACTATAGCCTCAGTTCTTTTTATGGAAGGATCAAATGGTTTAAAACTTATTTTCTCAAAATTCTCTGGATTTATTTTATTTTCTCGTAGACATGTTATAACTGCGTTATCTATAGGATCTTGACTTGCCTCATCAGAAGCCATATATGCATATTTTACAACCTCGTCTTTACTAAAACCCTGCATAGGAATAGGGTCTCCTACTCTCATTCTATTTTCGGTTATTGTACCAGTTTTATCTAAATTTAAGACATCCATTGAAGCAGCGTCCTCTGAGGCCGTTAGCCTAGTAACTAATATACCCTTTTTTGATAATTCAACAGCTCCAAGTGCCATGGCTATTGTAAAGGTTGCGGGTAAAGCTACAGGTATGGATGCTATCAATACTATTAATGAAAATGGTAATACGTCTGAAATACTTATTCCTGATATTATTGAAAATACCGTTAATGCTATTACAAGAACTACATCGATAATTATTAAATATTTCACTATATTTAAAATAAGTTTTTCCAAATGAGATTCCGCCTTAGCTGACTGAACTAACTCAGTAGTCTTTCCAAAATATGTCTTAGCTCCAGTTAAAATCACTACTCCAGTAGCTTCGCCTCTTTTTATTATAGACCCAGAATAAGCTACGTTACCCACTGTTTTTGAAACTGGCATTGATTCTCCTGTGAGAGCAGATTGATCTACTGATACTTTACCATCAAAAATTTTCACATCAGCAGGAACTATATCTCCTAATCTTACATGAATTACATCTCCTGGCACTAAATATCGCGCTGGTATAACTTCCCACTTTCCATTCCTTAGTACCCTAGCTTTAACGTTCAACTTCTGTTTTAAGAGTTCTACAGCATTTTCCGCTCTATTTTCTTGAACAAAACTAACTATTGCATTAAAAACTAATAAAAATGCTATAATATACATATCCAAATATTTTCCCAATACATATGTTAATACTATTGCAGCTTCTAACATCCATGGAACTGGAGCCCAAAATTTCTTAAGAAATTTTATTACTGGACTTTCTTTTTTCTCTTTTATTTCATTGTAACCGTAAGTCTGTAACCTGTTTTTAGCTTCTTCCTCAGATAGCCCATTTTTTGACGTGGATAGTTCTTTCAATATATCCTCTATAGAAGCCTTTTCATAATCAGTCATAGATATTATATAAAAAAATGGGAATTTAAACATTAACAGACTCTATTATTCTTTCCAATGCATGTTCGGCACCTAATTTAAAGTGCTCGAAATTTCTTTTTTCAAAAGGTTTTAAAATGATTGATTCTGAAACTTTCCAAAAAGAGTAAATTTCACTTTCCTTAACTCCTACCTCATTAAAACCTTTTATTATACCTTTAGTAAATTCTATTTTCATGATCTTATTATCATCATCTACAAAAATACGTACATAGGAAGTTGAAGGAAAGGCAAACCTAACCTTGCCTTCATAATGATCTCCAACCTTTTGAACATCTAACCTTGATATTCCCTTCCAATACTTAGGAATTGAAACAACATCGCTTGCTACTTTCCATACTGCTTCAGGATTCTTTATTTCTCTTGAAACTCTAAATTCGATCATAATACAATTTAATTATACCTAGATTTTAAATCTTGACGTCAAATTCCTGTAATCAGGTATAATAGAACCTTTTCTTATTTTTGTTTTTGAATATTTATAGAATTGATTATCTAAATATTCTGAATTCTTCTCATCAATAGATTCAATCATTCTTTCTAAACTAGTTTTCATATAGTTAAAGTATGAAAGATCCTCTTTTATTGGAAGATCTTGATCAGAATGATAAAAAGGTATTAAATCATCATTATAAAGTACCATTCCAGGGTACCCTTCGGCGACATACGGAAAATGATCTGAAAATGGAGAAGGCATTTCTATTCTTTTTAGTCTAAAAAATTTAGAAAATTCCCATAAGTCTGGTGTAGCAGAAAAAACTACTCTATTTGGAAAAAGAGCATCAAGCGAAATCATTACAAAAGTTTTATCCTTAGGTTGTTGTAATGATCCAGTACAACACTTAGGACCTTCCTCAGATGAGAAGAAAACTAATTTAAATCCATGATTCTTTAGATTAGGTCTTAAGGATAATGCTAACGCTATACTAAAGAGATTGTCATGAAAGCCTGAAAGCCAATGATCTACATGAGCTCCTATCACGATAAAATCATTACCATCTTTCCTTATAGTTTCCAAATTATACGAAGTGGCGTCTTCTAGCTTACCTTCACCGCATATTTCGACATATCCTTCCATTTTATTCTTTATAAAGAAAGAAACGGGCTTATTCTTAGATAAGGAAATGCGTCGCAATTTATTATCTACTACTAATAATCCTTCTGTTTCTGGCTGAGACAAACTAAAAGGATGAGAAGGCATATCTATTATAGTTATTTCTCTTCCAATTTTACCTTTAATACATCCAGACGTATAAGGAAGGAGGCTGGCTTCAATTCTCTTGTTATTTACATATACGTCTTCCCTTTCTATTTTCCAGAATTTAGTCCTAACAACATTTTTTCTGAAATTATCAAGGTTTCCTTCAATTATTTCCAAGATTTTCTTCTCAATATTCCCTCCATGTATTGCCTCTCCAAGTTTCATGAGATCTTCTGCAAAACCAATATCCATAAATTAAATCATGGAAATTAGCTTATTTGTTTTGCCAGCTCTCTATATATTTCTCGTAATATTTTACAGCCTTTCTTAAATTCTCTATTTCATTCTCATGCAATGATAGCTCAGCGTATGCTCTAGCTAAAAATAGTTTATTATCAATCTTTTTAGCAATTTCTATAGCTCTTTTAAGAAAATCTAAAATATTTGTTCTCTTATACATTTCAAATAAAAGCTGTAAAGTTTCAGCGCTTTCTCCTTTTCCACTTTCTTCCAATTTTTGTATAGCCTCATAAATAAGCTCAGGCTTTTTAGAAGAGAGTGCAAAGAGAGCCTTAGCTTCTCCGCTTACATCTCCAATTTTCCTAAATATTTCCAAAGATTCCTCTAGATCAGATATCTCGTCTGAAGATAAGAGAGCCTCAGCTAATAATTTATCGTTTTTTAAGACCTTGGCTATGTCAATAGCCTTTTTATAAAGATCTTTTTCCCCGCTTCTTGAAAGCAAAATATAGACTAATGCTAAATCTTCGTTAGGCTCATCATAACTTTCAAGAATACTTCTAGCCTCATTTAGATATTTACCTCCTCTAACTATGCATACTTTAGCTAATAATCTATTAGCATGAGCTCTTACAGAAGTTCTTAAAGATACTACTTGCTTCAAGATTTCGTACGTTTCTACATAATTTTTCTTTTTAAAGAAGCATAGAGCTTTATTGAATAATATTACTCCTTTGCTTTCATCGTCTTTAGCTAACTTGTAAGCTTGATCAAAGTATTCTAATGCTTTATCTGGATCTTCTTTATCAAGATAACATAAACCTAATAGATTAAGACTGTTAAGATCCTTTTTTAAAGAATTTAAAATTTTAATTGAAGAATCCAAATATTCTACATTACCAGATTTTTTAAACTTGTCATAAAGGAACTTTGCCTCGTCTAAAGTATTCCTTTTCACAAAATGTTATTTTGATTCAATAACAAATAACTCTTTTAGTTGATTTTTAACATGCTAACTGAAAATTCCTTAATATAGATATACTTGGAAAACAATGATTATTATACTATTTTCTTAAACTAGTGAACAACCCCGCCCTTACTGGTTGACCCCTTGACTGAAGCAAAGTCTTCGATCGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATGTGACGAGTGAGGGGAGGGTCTACACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCAAAACTATGGAAGGAGAAGGACTTGAGAGGAAAACAGATTTTTACTACAAAAACTAATAAACATGGTAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATACGTCTTCCTAAAAGTTGAAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAAGTGACGAGGAAAAATAAGCAAGGAAATTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTGGAACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATTACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGGAAACTTTCTGGATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTATCTGCGGTTTAGACCCAATGAGAGGAGCGGTAAAGCTACTGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGTGCAGCTTGTTTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTCTGCTTTAGCCAGGAAATTGAGGATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGACCATAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCCCGTAAAGTTAAACCGACAGAGATTAAGAGGAGCTCAGTTTTTATTCATTTTGTTTTTAATAAATATTCCGTATGTTAAGCCATCAATCTATTTACTCTCTTATGATAAAAAATATTTCAGACGAAAGCGTAAGAGAAAATGGATACGATTTAAGGATATGCGGAGACAAATATTACGAAGTCACTGGAGAAATAATAATTCCTGACAAAAAGGCTTCTCTTAAAGAACATCAATTTAAGGATTATGCTGAAATGGAACCTCTTAAGACGTATCTTTTTGAAACATGTGAGGAAATAGAAATGCCTAACGATACTGCAGGTTTAATGACACTTAGAAGCACTCTAGCACGTAATGGATTTTTAACACCTCCAACTGTTATTGATGCAGGATATAAGGGAAAAATAACAATAGCCCTAACGTCTTTAAATAAAGCTAAAATAAAAAAAGAATCTAGAGTTATACATTTAATTTTTATAAAATTAGATAAACCTACGGAAATGCTATATAACGGAAGTTATCAAGGAGGTAAGATAATTTAATTTCGTTTTTTATATTAATATAAAATAATACTCTATAGAAGTATCTAGTTATTTACTCCAGAAAATTATATTAAAAAATATAACAACTCTTTAGCATGCAACGAGTAGAAGAAGCTTTTAAGGAGCTTGCTAATAGGTTAACGCTAATATTGCCAGTTCTTATTATAGTAATTTTAGACTTTATGGTAGATTTAGTTATTGAAGTTTTAATTCCCCCTACATTGTTAACCAGGATTGGTATATCCATAATAAACGGAATAGCGTTTTCTTTTGCAATTTCTATGGTATTTTCTGGCTACATGACTACACCAAGTTTATATGAAGAGTGGAGAGATACGTCCAGCAGACTAAACTGTATAATAGAACTAGGAATAATTTTAGGATTTTTCTTTTTTATTTTCTCGTATATTCCCTTTGGATTTTTACTTAATTCCCTAGCATTAGCTTTTCTTTTAGTTTCATTCCCATTCGTATACAAAAGTGGAATAAGAGGTATAAATCAGAGTTTACAATGGCTAACAAGAGCTATAAGTGAAGATGCCTTGTCATTTATAATCATTTATCTATCTGCATTGTTATCTTTCTTTCCAGTTATAGATATATTGTTATTACCTTACGGTACGATACTAGGATATATAGTTTACAGAGAAGTCATTTAAATTTACGGCACAAAATTTTCATAATGAGCAGATTAGAGCAACTTTTAGATGAACTTGATGAAGAGGGCAGACTAAATTGTAGAGAAATTACAAAATTGTTAATAAACGACATAGTAAGAAACTTTGATAACTACTTTAACCAAAAAGAAGTTAATTATGATATTACAATTGATGAGTTAATAATATATTCTTTAGCACACGAATTAAATTTACAACAACTCCTTACAGCTTGTTTTGTAGTTTACATGAAATTGAATACATTACAAATACAAGAACCTTTTTTCAAATTTAATAGAAAGGGAGTTTCTAGTGAAAGAATAAAGTGCCACATAAAAAAACTTATTGAAGAAGAAGTTATTCATAAAAATAAAAGATTCTCATTGACGTATAGGGGTTTATTTATGAGAAAAATTTTAGAATCTAAACTAAGAAATGGTGAAATTGAAAAAATACTTATTGAAATAGAAAAACTGACAACAAATAAAGATTTGAGAGATTTTTGTTATAAAATTTTGAAATTTGAAAACGAAAGAAGTTAGATTATTGATAACATTAATTATTATATATAATATTCTTAACTGTTTTGTAATATTAAGAATAATATTGCAAACTAATCTTAGTGTTACTGTGAGGAATATTCTATGCATACTTTCAGTTTTATGCTTTTTTAGGCTATTTGTATCTATTTTTAAGCTTATGTGATGAAAAACAGTATAATGCTTCTCTGTGCTAAGCAACACAAAGGATAAGTAAAAGATAGTACAAAGAAAACTTACTTTGCTCTATTAGGTGAACTACACGCCCTAACAGACGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGTGAGGGTCGTTCCGACCCCGATCTTCTCAGGATGTTGAGAGAAGCATTATAGTCACGATCTACAGACCAACCACAATTAGGACAAACAAACATACGTTCTGCTAACGTCAAGTCCCTCCTAACATGTCCGCATTTAGCACAAGTAATTGAAGTAAAAGCAGGATTAACAAAACGAATCTCCTTACCGTACTTCCCAAGTTGATACTCCATGATACTCCTAAGCTCATGAAAAGCGACATCTTGAAGCCTCATCCTCAGCCTTCGAAGAGACTTACCAACAATTTGCTTAACATGAATATCCTCCATGACCAAGACGTCATAATGCTCAGCAAAATACTTCCCGAGTTTCATGTACATGTCCTTCCTAAGATTCTTCAAGTGCTCATAAGCCCTCGCTAGACGAATCTTTGCCTTAAACCAGTTGCGTGACAAGAACTTCTTCCTTGAAAGAGCTTTATGAAGTCTCCTTGTCTTATTGAGCGCCTTCTCGTAAGGCCTCATGTTTGGCACATATTCCCCATCAGAGGTAGTGAGAAGTTTCTCTACACTAACGTCCACAGCAACTACTTTGTTTGTCTTGGGAAGTTGAGGGTACTCTTGGTCAACGACGAAAGTAATGTACAATCTGCCTGATGGTGTTAACTTGACTATGACCCTCTTTACCTTGTCTAGCGGGAAATCCCTATGAACAATAACGTTGAAGATCCCTAGGTTTGACAGCTGAAGCGTTATTACCTTCTTCTTGTTCTTCTTGCTTTTCGTCCTTATTCCTCTTACCCTCAGTATTTTCCAACCTGATTGAGGGTAGACGAGGGAATACCACTTGTGCGCTTTCTTTTGGGTAACGTGCTAACCCATCGAAGAACCTCTGTCTAGCGTCGTAGAACCTGCCTGCGATCTGTTGCAGTGTTTGGGAATATATTTGTTGATACTGTTCATCCTGTTTTCTCAGGTCAAGGGCTAGTTGCCTCAACTCCGTCTTAGTGAGTCCTTTCCCATCTCTTTCATGAAAATACGCATCTGTCCAGCGTAGGGTGTTGTATACTTCTGACGCTAACCTCAATTGGGCTTTTAACGCCCTCAATGTTTGTTCGTCTATGTATGCTCTGAAACGTAACCCTACGTCGGGCATTAATAGGGTATTTGAAAAAGACGTATATAAGCCTTACAAAGGGGGCTCCTACGGCGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCTTTACAAGGGTGAGACTAAGAAGACTAGGTATAGGAGAGGAGGTGGTGAAGGCCCTCAAGTTGACCCCAATCAAGTAGTTCCTTCGGCTCTTCAAGCCATCGCCTAGCCATGTTAGAGGCAAAGGATATGGAGCCTATCCATCTCCATGGAGTCTTCCGCCTCCTTTGAACCCCTGAATCTGATAAAGATAATAGAATAACTAGGAATTAGCAGTGCGGGGAATGGGATTTGAACCCACGCAGGCCTTCGCCAGTGGAGCCTCAGTCCACCCCCTTTGGCCTAGCTCGGGCATCCCCGCATGATAAAAAATAACAATGATTTAACTAAAAACGTTTTCTATAGTGCGATAAGAAAAGTTATTTAGTAATATATGATGTATTATTCTTGATTATACTTCAAAAATTCATAGAATAATGTCAGCAACTTTTTAACTCCTGCAAAGAATAGATATATTGATCAGGGATGAGTCTTTGACAAATATGTCCTGAATAAGCAGGAATTAAAAACAATTCTAAGGGAGTTGAAAAAATGGAGCGCACCAGCTACGGTCTTACTTTCCTTGTATATACCGCCAGGTAGACCAGTAGCTGATGTTGCTAATATGTTAAGGCAAGAAGCGTCAATTTCTCAGAACATTAAACTGAAACGAACAAGAGACGCAGTAGAATCTGCTATTAGTTCAGCTATAGATAGACTGATGTCCTTTAATAAAGTACCAGATAATGGACTTGCTATATTCTGTGGAGAGAATTTTGATACTGAGGAGTTTAAATGTTATGTCTTCTCTCCTCCAGAAAAAATAACAATTTACTTCTATAGAACTGATAAATATTTCCATACTGAATTTCTTGAAGATATGGTGGAAGAAAGCGAGATTTATGGTCTGATAATTGTTGAAAGAGACCAAGCTACTATAGGTATATTAAGAGGATCTAAAATAGAGGTTTTAGAAGAGGCTGAAGGATTTGTACCTGGTAAACATATGATGGGAGGTCAGTCACAGAGAAGAATTGATAGAATAATTGAAGAAATGTATGACAATTTCCTTAAAGAGACTGGGGAGAAGGTTAATCATTATCTCTTACCTTATCTAGAGGAAGGTAAACTTAAGGGCATATTATTAGGAGGTCCAGGTTACGCTAAGAAAGATTTCTACGATGGTGAATATATTGACTATAGACTGAAAAAATTAATAATGGAACCTTTAGTGGATATAGGAGATCAAGGAGAAGCAGGATTAAGAGAGATGGTAATGAAATCTAGAGAACTGTTAAAGAGCCAGAAATATGTTGAAGTGCAGGATCTAATGGAGGAACTTAAATTCCATCTTGCTAAAGACGATGGTCTAATAATATATGGATTGGAAGAAATAAGAAAAGCTATTGAATTAGGGGCAGTAGACAGTTTAATAGTATATGATGAAGATAATCCAGAATTACAAAAAATTACTCAAGAAGCAGAAAAATATGGTACTAAAGTATATGTTGTTGGCGACGAACTACCAGAAGCAGAATGGGTAAAGAAAACTTTTGGTGGAGCTGTAGGTAAATTAAGGTATAGAATATCGTAAAAAATTATAAGATTTTTCTTCTTTTCATTTCTTCCATTATTTTGCTTAAAGGTATTGGAGGTAAGATACCATAACTATCCTTAAATTCTTTTTCTAATTCTGAAATTTCCATGTGTCCTTTTTCGTCCAATATTTTTTTAGTTAAGTTAATTTCGTCTTCCCAATAATTCCATGGGTACATAAACCACGTCCAATCTGTTACGGTTTCTGCATAAAAATCTGGTTCATACTTGGAAGCAGTTTTTATATGCTGCATAGTAGCTGTTTTAATTTCAGAAGGGTTAAAATTCTCCTTAACATATTTTTCTGCTATTATAAGGCTATCTCCTGTATCGGTTATATCATCTATTATAATAACTTTTTTTCCACCTAAATCCACCTTAAATGGATACTTTATTTTTGCCTCTGGAGTGTGGGAAGCAGTAACTACCCAATGCTCAACCTTAATCGAAATTAAGTCGAGAATTCCTAAAACGTCAGCTACTATCCTAGCCGGTACTAATCCACCTCTAGCTATAGCTATTATCATATCTGGCGAATAAGAATCTCTAATTTTATCTGCTAATCTTGTAGACCATTCTACTGCTTCTTCCCATTTTACAACCTTTACGGGAATTTTTGGCAAATTCCTTACCCAAATATTATATTAATAAACATTAATCAAACTTTTGGTTTAGAGTTTAATAATCCATTCAATAACATTTCTTTATGCTAGAATACGAAAAAGTTCCAATAGCGATAATCGGAGGTTCCGGTGTATACGATCCTAAAATTTTTTCAGATACAAAGGAAATAAAAGTGTATACTCCTTACGGTGAAACGAGTGACCTTATAACAATAGGTACAGTAGAAGGAAAAAAAGTAGCCTTTCTACCTAGACATGGAAAGAGGCACAGAATACCGCCTCATAAAATAAATTATAGGGCAAATCTTTGGGCTCTTCATGAACTAGGGGTAAAATGGGTCATTGGCGTCTCTGCGGTAGGAAGCTTAAGAATGGATTATAAACCTGGAGATTTTGTAATTCCTGACCAGTTCATTGATATGACCAAAGGAAGACAATACACTTTCTTTGATGGACCAGTAGTAGCTCACGTATCAATGGCAGATCCTTTTTGTAACCATTTAAGAAAGATTATTATAGATTCTTCAAAAAGTCTAGGAATACCTACTCATGATGTTGGTACGTATATATGTATTGAAGGGCCAAGATTTTCTACAAGAGCAGAAAGCAGAGTATGGAGGGAGGTTTTTAAAGCTGATATAATAGGAATGACGCTAGTTCCAGAAATTAATTTGGCATGCGAACTTCAAATGTGTTATTCCACTATAGGTATGGTTACAGATTACGACGTTTTTGCAGATATTCCAGTGACTGCAGAAGAAGTAGGTAAAGTAATGAACGAAAATTCAGAAAAGGCTAGGAAACTTTTATACGAAGTAATAAAAAGAATTCCAGAAAAACCAGAGGAGTGTTCATGTTGCAATTCTCTAAAGACAGCTCTAGTATAATTTCAAAGTTAAAGATTAAAGATATTAATCTTGGAAATTATTCCCTAGTAGCTTATGGTAAAGGTATGGAATTACCTGCGTTTACTTATCAGAGAGCTAAAATTAATCTTGAAGGAAAGATTATAAAAACTATACCTATATATGAATTACTTTTTCTTGAGGACGCTTATGCTGATGAAAAAAATCTCTTAATTTTTTTAAACGACGTTTCAGAGTCAAAAGAAGTATTGGATAATTTATGGTCTTTAGGTATAAACGCAGACATTTTTACATGTCAAAAATTAAAGGAAAAAGGTAATACTAAAATTACTGAATTTGAAGGTGAACTATGTGAAACAAATCTTTCCTTATCTATATTAAATAATATAGCAAAATCATTAAATTCACCTAGATCTAAAAGAATCCTTGAAGAACTAGATTTTTCAGATTTGAAAGATTGGATAGAAAAAAAATCTTCTGAAGTGGATTTAAATTTACCAGAAATAATAATTTCTCCAGTATTATTGCCATCTAAATACTATATAGAGGAAAATTTGGGCAAAATAGTTAAAACTTATTATGATACAAATTTTTCTAATTCCACACTTATATATACTGGGATAGATACATTGGTTATGAGAAGAATTTCGTTTGAGCTCAAAAAGAATAATTATAATGTCAAAGAGCTTCTTCTAGATACTGAGCCTCTTATGGCACCTATTTATTTAACAATAATATCTTATATTTTAAAAAACAAAATTAAGTGAGAAGGGATATTTGTGGATCTATTAGAGTTTTGGACAAAAAGTAAGGAAACAATAGACGATCTAGTAGGGAAGTTTATGAATGACCTTAAAGATTGGGAAGTTCTCGAGATGAGTAAATACATTATGCGAGATGGAAAGAGATTTAGAGGTACGCTTTTGTTTCTTTTAAATAACGCTCTGGGTGGAGATGAAAAAGACGCTTATCCAGGAGCTTTAGCTACTGAAATTTTGCATTCTGCTTCGCTTGCTTTAGATGATATAGTTGATTACGATGATTATAGGCGAGGAAAAAAAGCTGCTTGGGCTATATACACTAATAGAAGAGTAATTTTTGTATCAAATTTTCTAATTCCTACAGCTTTGAACATAATTTCGCAGTATGGTGATAGGGCCCTTAATATTAGCATAGAATTATGGAAAGACACCGCTGTAGGAGCTTTAAAAGATATGTATGGAGAAAGTAAAGATTATTTTAAAACTATAGAGTTGAAAACTGCAAGTCTGTTTAAGCTTCCTACGATGCTAGCATCTTTCTCATCTGGTAAAAGCAACGCAGTAGATTTAACTATGGATTTAGGAAAATATTTAGGAATAATCTATCAATTAGTAGATGATTATGTTGATTGTGTAAAATTGGAAAGAGAAAAACTCGTAGGTAGTGCAAAACAACTCTTCCAAATAACTGAGGGAAGAGTTGATTCTTTAGTAGCAGTAGAATTTGATAGGAATAAATCAGAGTATTTAAAAATACTAGATTCGTTACCTATTGAAGAAAATTATAAAGATTCTTTATCCTCGTTACCTGATTTTTTAGCATATGGTTTACTGTCAGAAGCGGGAATAAAAAATAAAATGTTTTAGGTTGCGTTAAATCTTGGTGAAGATTTATAAAAATTGCAGTTATTCACGAATCTCAAAAAGTTACTGAAGCTTCTAAACAACTACTTCTCGAGATAAAGAATAGAGGTCATAATGCTTACTATATAAGACCATCAAAATTAAACGGAATAATAGATAAACAAGGAATAAGATTTACATACGTAGGAAAAGAAGTAAATATAGATGGAGGAATTCTAAGAAATCTAGGGTTTATTCTAACCACAGAGCAATTAATGAAAAGAGTTGACGTTTTAGAGGAGATGGAAAAAAGTGGTATAAACATAATAAATAAGCCCTCTTCAATGCTATTGGCAAGAGACAAATTCGAGAGCCTAATAAAATTAAGAAAGCATGGAATTCCTGTTCCAGAGACAGCAATAGTAGAGGATCCTTTTGAGGCAATGAGACTTACACAAGAATGGGGAGAAGTTGTAATAAAACCAGTAGTAGGAAGCCTAGGATTAGGATCTGTAAAAGCCAGCGATCCAGATATAGTATTTAGAATAGCTAAGTCTATTCTTTCAGTGAATCAACCAGTTTACATTCAGAAATACGTGAAAAAGCCCGATAGAGACATTAGATCGTTCGTAGTAGGTGATAAAGTTATAGGAACAGTGTACAGGATTTCTCAGGGAAGTTGGAAAACTAACGTAGCCCAAGGAGCAATAACGCAAGTATTAGCTCCTAGTAAGGAAATAATAGAAATGAGCATAAAGGCTACTCAGATTTTAGGGCTTGATTACTCAGGGATCGATATAGTTGAAGATATAGATGGAGGTTATAAGATTTTAGAAGTTAATGGCGCACCATTATGGAAGGGCTTTATGAGTGCCACTTCAATAAATCCAGCTAAATATATAGTGGATCATGTAATAGAAAAAGCTAAGAAATGAGGAAAAAAGCAAACCGTCTGAAAAAATGATGTAGAGCTCTCGCCCTGATCACTTTTCGTCTTCATCAAACATTCTTTTTTCCTTTATTGTTCTTAAAACAAACATAGTATAGGTAGATGTAATTCCTGGCATATTACCTAACTTGTCTAGTACTTTAGCGAGTTCTTCCTTACTTGAAACTCTTACTTTTAGTAAAGCATAATATTCCCCAGTAACATCATAAATTTCATATATTTCTTTCATATCATATATTTCTTTCAGTATTTCTTCATATCTCTTGGGATCTGCTTTTATAAGAACGAAAGCTAATACGTTTAAACCTACTTTCTCTAAATTGACTTCTATTGAAAAATTCTTTATTACGCCAGATTCTCTTAATCGCTTTAATCTCATATGAATAGTTGATTCACTTAAATTCAGCATCTTAGCTAACTTTGAATATGATATTCTTGAATCCTGTTGTAAGATGGAAAGTATTTTCTTATCTACATCATCAAGATAATAGAAATCCATTAAAAAATCATCCTCCCGAATAATTTAAGCAAATCTATTTTAGTGAAATCCCCCATGGCGAATTTTATTACCAAATCTGGATCTGCCTTCAATAATACCCTCTCTAAACCTTTTATAGAATTAGATTTCTTTGCGGACTTAATAACGCTAGAGTGAGTCTTAAGACTAGAATATAGCCTGCTTTTTTTGAATTCTTCTTTAAAATCTTTATTTTCTAATAAAGAATCGGCTAAGATTTTAGACGATATTATAGAAGGTCTTATTCCCTCACCGGTAACTGCATATACTGTACCCAATGCCTCACCCACATATTCACCATTTAATCTTTCTTCTAATACCCCATAATCGTTAACCCTAGCTCCTTGAAACCTCTTTATTTTGCCTTTAACTAAGGAGTTTAGCTTTTCTTTTAAGAAATCCACTTTTGCGTAACCGCCTATGCCTATTTTTGAGCCTCCTTCTTCTGGAAATACCCATCCATAGCCTAGTAAGTCACTATAAAAATACATTTCTACAATTTCAGGATCTATGTTATAATCTGTAATATACTGAATAGCTGGTATGGTTGTTTCACTGGGCAAAGAATAATGTCCATTTGCAAATATTACCTTATCCGCATATTCTTCTTTTCCATTTATAAGAATTTTTCCTTCTTTTGAAACTACCTTAGAATTTAATCTTAAATCTATATTTTCGGATAGTATTTTTAGAAATAAAGGTTTATTTATTATATATCCTAATTTTTCTTTTTTTCTTATATCGTATAATAACTTGTTATCTAAATAAATCTTAAACCCCTTAATTTCACTTATAATACTTTCCTTTGGAACATGTATAATTTTTTCAATATCAGAAAGAACTCCCCAAGCACATGGTTTTAAACCTAAAGATCCTAGACCTTCATAGACTGTCGCATCAATTCTAGTACCCTTTAAAAATAGGGCTAGAGAAATGCCTGCTGGGCCTCCACCTACTATTGCAAGCTTCATTTCCTAATCACTCTTTAAAATAAAGATAGGCTATTATTCCTAAGGCAACAAATCCTGAATATATTATTATAAGCTCGTAGAAGTTATGGAAAAATCTTCCTACTATTGCTCCTATTATTACAACTATTAGAAAAGCTACATATCCATTAGCGAACTTTAATACGTTCTTTTGGAAGAACTTTCCTAAGAATAATCTTGCAACGAAATAAAAGCTTACAAAGAAAGGTATAGATTCTACTAATGCTACGCCGGCATAAGCTCTAGGTTTAAGAGGAAGAGTTAAGAAGACTGCCATTGCTAAACCAAAGGCAAAAATTCCCGTAAAATATAAGGCTATTATAGCATTATTTGAGTTTTCCCAAGGTCTATATTGAGCAAACAAGTAAATTACTATAGCAAGACCTACTATTGATGCTCCCAAATAACCATAAAAAGAGTGAAGAAAAGCCGGAATAGTTGGCAACAGTATAAGTAAAATTGAAATTCCTGCTGTTTCGGACTGTTTCATTTTTTGCTCTTGCTTATTAGTTAACAAAAATAAAAATAACTAATGGTAATATATCTTGTGAAGTACAAGCAACCAATACTTTTAATTCATGGTGGAGCTGGAAGTTGGGAAACAAAGGATGCTAACATAGTAAATAGAGAAATTGAAAAAGCGTTAGATTATGGTTATGATCAATTCTCTACTGGAAGTTCTATTGAGGCAGTAGTTGAAAGTATATCGTATATGGAGGATTCTGGATACTTTGACGCTGGTAAAGGGAGCTATAAAAACGCAAAAGGAGAAATAGAAATGGATGCGGGTATTATGCATGGAAATAATTATAGTGTTGGTGCTGTAGCTGCGGTAAAGGTAAAGAATCCAATAAAAGAAGCATTAAAGGTCATGTTAGATGGTAGACATGTTCTTATGACTGGTAAAGTCGAAGAGGTAATTCCTTCAGAAAAGGCAATTCACTACGGTGATACCGTAGGCGCAGTAGCATTAGATAAAGATGGAAATATAGTAGCTGGAACTAGCACTGGAGGTATCAACGGCAAACTTCCAGGGAGAATAGGGGATTCACCAATTCCTGGTGCAGGATATTACGCTACAAATAACGTTGCGGTTTCAAGCACTGGTATTGGGGAAATAATACTCAAAATACTCCCTGCTAAAGAAGTAGATATGTTAGTTTCGATGGGATTTCCTATATGCGATGTTGTAAAAAGTGTTATAGATAAAATAACATCGATATTTGGGAAAAATAATATTGGCATGATAGCTATAGATAAAAGAGGATTCGCTACAGCATACTATAACACCAGAGGAATGCCTCGCGGAATCAAAAATCCAGAGGGGAAGAAAATATTGATGTTTGAAGGTGAAATATAATGAAAATACTTGTAATGAGTAATATAAGATTCCCAGAGCCTCATATTGAAAGCACCTTGTCAACCATAATAAAGAAAGAAGAACCTGAGGCAATAGTATTAGATGGAGATACTACACAATGTTATTGGGATTACGAATGTCCAAGAGTAATTGACGTTCTATATGTTATAAGAAGCATAGCACCTTGGGCTCAAATAGTTTATATCCAAGGAGATATGGATCCCCACGCAATAAAATGCATAATGGCGGAACCAAGATATAGAGAAGAAATTATAGGAACTACGATGTATATAGCTGACGTATCTTCAGTAAAATATTACATAATTCATGGACATCAAGGTGATGTCGATCAATTAAGGAAAGACGTAGGAGCTGGACCATGGGATTGGATAGTTACTGGACAATACAAAAAACTTGAAATAGACAAATTAGCTAGAGTAATATACACTGGAGGTATTACAAGAGAGTTTCCTCCAGAAAGTAGAGGCTACCTAGTAATCACCGATTCTAATCATTACATTAGAACGTTAAGTTAAACCAAAGTTTTATAGCGTATTCCTGTTTAGAAAGGTCAACGTTTTTAATTTAATTTCATTTTATCCTTTATGGAAACAGACTTTAGACCAATAATAGTCTTATTTTCTGCTAAAAATGAAGAAACTACTGAACTATTCAGAAAAGTATTAAGAGAAGCGAAAGTTTTAGGAGGTAAAAAATTGATAATTCATGTGATAGAAGATGTAAATTATTGGGATTTCTTTTCAAACTCTAGAGAGGCAATTTTAGATAATCTTGATTTGGGAATTGAAATATATACGTGGAAAACAACAGATACGGAAAATATGATCAAGAAAATAGAAGAAATAAATAACCCTAAAGGAATTGTAACTTTTTGCAGTGACGATTATAAATATATGATGAGAAAAATAATAGATAATCTTCCCACATCACTTAAGGCTAATATAATAAAAGACTACTGTAAGTAATTTTTTAATGTTTAAAAGAAAAGGAAAGGCGAAATAACTTGAAAGAACTAAACTACGATATTCTAATTATAGGTGGAGGTTTTGGAGGAGCCACTACAGCGTGGCATCTTGCAAACAAGGGTCTAAAAATTCTCCTTATAGATAGTAAACCTTGGAATAGAATAGGAGATAAACCTTGTGGTGATGCTGTAAGCAAAGAGCATTTTGATAATTTAGGTATGCCTTATCCTGAAGGAGAACAACTAGAGCAAAAGATAGAAGGAATAAAAATTTACAGTCCAGATAACGAAACATCATGGAAAGTTGAAGGAGAAGGTTTCGAAATAAATGCTCCGGCATATACTCAAAGGCTACTTAAAGAAGCCCAAAACAGAGGAGTAGAAGTATTAGATTTGACAACAGCAATGAAACCAATATTCGAAGATGGATACGTTAAAGGAGCAGTTCTTTTTGATAGAAGAAGCAATCAACAATTAGAAGTAAGAACAAAACTTGTTATTGAAGCAACTGGTTATTCTATGAGTTTTAGAAGTAAATTACCTAAAGAATTACCAATTACAGAAGAGTTGGATGAAAAAGATTCAGATATAGCATATAGAGAGGTAGGATTTACAAAAGATGATATAGAGGATGCTGGATATTTAAAAATATTTATAAATCAGAAAGCATCACCAGGAGGATACTGGTGGTATTTCCCAAAAGGAAAGAATAAGGTTAATGTGGGCTTAGGTATACAAGGAGGAATGGGGTATCCTAGTATTTATACTTTTTATCAAAAATTCTTAAATGATTATGCTCCAGATTTAGAAAAGGAAAAATTAATTGTAAAAGGTGGAGCATTAGTCCCTACTAGGAGACCCTTACCGACACTAGCATGGAATGGAATAATTGTTGTAGGAGATTCCGCATATACTGCAAATCCAGTTCATGGAGGTGGAAAAGGTTCAGCTATGATATCTGGATTCTGCGCCGCCAAATCAGCATTAAACGCTTTTGAAACAGGTGATTTTTCAGCAAACTCCTTATGGGGAACTAATTTATGCTATATAGAAAGATATGGAGCTAAACAAGCAAGTTTAGAGTTGTTCAGAAGATTTCTCCAAAAATTATCTGATGATGAAATAAATTATGGAATGAAAAGGAGGGTTATTAGAGAAGAAGATCTACTTGAGACTAGTCTTAAAGGAGATTTCCAATTATCCGTAGTAAATAAAGCAATGAGAGTAATATCAGCATTAGGTAAACCATCACTTCTCTTTAAATTAAAAACTGTTGCAGAATACATGAAAAAGATAAAAGAAATATATAACGAATATCCATCTTCACCAGAAGATCTAAATAAGTGGAAAGCCAGAGTTAACGATACTCTACTAAATTTTGATCAAGCTATAAAATAAAATGAATATTAACAATAACAGATATGGAGATATTATTGGTATCCAGAATGTCCTAAGAGTATAACTTCCAACTTTTTCCAGTCCTTCGACCATCGAAGATATTATTTTACCTATAACTTTAGTTCTTATTTTCATTATTTTTTGTTCTGATTTAACTTCCTTCATGTTTTCTATAGCCTTGATCCCTAATTCTCTGGAAATGTTTATTAGATTTACACAAGGCTGTGAAGGAACATAAAGGCTATATAATGAAGTACCCGTACAAGTATGGTCATCAGGTGTTACTAAAATTACTCTATCCGCCAAATCTTTTAGCTTATCCTTTAATTGTTCACCAAGTTCAACTGATGCATTATTACCAAAAACATATATAATCAATATTTTCTTTTCTCCATCGCCTATAGCCATAACTTTTACCTTATTACAACATATTCCTTCACACTTCTCGCTTAAAGTGCCCTCAGCATAACCAAAGTATAGAGGTTTTTTAAAGCCTGTTTTTTTCTCTCTTATAAATTCCCTAATTGTAGAGATTTCTTCTCTAGAAAATTCCTCTTTTAAGTTTTCATTATGACAATCGATCAAGAAATTATTATTTTCGACCATATCTTTCCACAGGGAAGTTGGCATATCATCTATTCCTTTCCCTGGCCTTTCTACGAATGTTAAAGAAGATTTATCAAAAACAAGAGTAGTAAGCTTGAAACTTCCTCTATCATTAAATTCTATTCCATAAAATGAATTAGGTTCCATGCCCTTATCAGTTTCGGCCTTAATATAACTTGCAATTATATTTGAATAAGATCTGGAAGGAAGATCTATATCATGACTACCAGGCCCATGAAAAACTACTACATTTTTCATTTTTTCTTCTATAATGTATGGTAATTTAGAACTTCCTACACTGCCATAAAGACCGTAATGTATTTGGGGTAAAATAAGTAATCTATCGGAAATTTTTAATGTATAGATATTAACATAATACGGTATAGATAATTTATCGAGAAACTTCTCTAACTCATCTTCCCTCTTATAATTTATTGCTCTTAGGAATGGTCTTACTACGGTAAGTGAAGAGATTCCAAGAAGTTTTGTTCCCTTTCTATCGATGGAGTATATATAAAGATATGTTATTAAGGCTACAAGAAATATGTAAAGAAAGACTCTAATGTCATTAGGTACAGATATAATTACTGGTATAATAGAAGCTCCAAAAGATATCAGAGAGGAATATAGAGCTTTGTAATCTATAAGTAGAGAGTAATCTAGAAACGGAAGGAAGATCCCGTAGGAATAAAGATAAAATTCTGGAAATAATGAAAAAATAAGATATATTATTGAAGAAAATGAAAAGATTGTAAGTCCTGTCTTAATTTTTGATCTAAATATTACAAATAAAATAATACCATAACTAATAAAAGAATAAATAAAAGCCAAACCAATTTCTAAACCTCTAAATAGAATCAAAGCAGACTCTATGCCATCCACTCCAATTAGTAACCTTAGACTAGGAAGACTAATTATCTTCGAGTAATACTTTCTGGTAATTTTTTCAGAATCCACTTGTAAAAGAAAGTAAAGGGGGTTAAAAATTGATTGAACTTGATAAAGAATATTTAGGCGTTAAAAAAATCATTTATAATAAATTAGATGAATGCGATCTTTACGTCTTAGAGAACGATAATGAAACTTTTTTGCTTTTCTTTTTTAATGGTAAAATTCCTTATTTTAAAATCATGCCAATATTCTCAGGGAGATGGGAGTGTGAAGAAGCAATATATAATCCAGTAGGATTATATGGCTTTATTATAGATAATGAAGATGTTAATGCTAAGATAAAACAAAAACTGGAGGAATTGAAAGAAAATGTTAAGAAATTATGATCTAATAATAAGCGATGTTGACGGAGTAATAATAAGGGAAGGCGAACCTATATGGGAAAATATAGAAGCTTTAAGATTCCTACAGGAACTTGGTAAAAAAGTAATATTTGTAACCAATAATTCTGGATTTAGTAGAGTAGTTTTATCTAGGCAATTAAATTATTTAGGTCTTTCAGCAAATCCTTCACAGATAATAACAAGCGGATTAGCTGCGGCTATCTATATGAGAAGAAAAATGAAAATAAATTCAGTTTTTATTATAGGAGAAGAAGGACTAATTGAAGAAATGAAAAATTTCAATTTTAAAGTAATATCTATGAGTGAAGTTGATATTAATAATCCCGACGCTGTTGTTTTAGGTTTAGATAGACTAAGTACATACGATAAGCTTTCTGCCGGAATGCGTTGCGTAGCCAGAGGATCAAAATTTATAGTTACGAACATGGATAGGCTATGGCCATCGAAAGACGGCTTAAAATTAGGTGCAGGAGCATTAGCTAGCGTAATAATTTATGCACTAAAAAGAGAACCTGATTTCATAGCAGGAAAACCTAACAAATGGATAATAGATGTGGCTATGGAGATCTCAGGAATACGAGATTTAAAAAAAGTTGTGGTAATAGGAGATCAAATAGATACTGATGTTAGAATGGGATTCAATATAGGAGCTGATACTGTCTTAGTATTAACAGGAATTTCTACAAAAGACGATGTAGAGAAGTCAGAAATTAAACCAAAATACATTGTAAACAACCTTTCAGAAATTGCTAATTAAAGTTTATTTTTTTAACTGATAATAGTTTAGCATGGACAAAACTTCTTATGATGCAATCGTCGTTGGAGGAGGACTAGCCGGTTTAATGGCAGCACATGAAATAGCAGTCTCTGGATATAAAGTAGCAGTAATCTCAAAGGTATTTCCTACTAGATCTCATTCTTCATCCGCAGAAGGAGGAATAGCCGCATATATACAAGGAAATTCAGATCCCAATGATGACCCACAGTATATGACATACGATACTGTCAAAGGAGGAGACTATCTTGTTGATCAAGACGCAGCAGAATTACTTTCAATGAAATCTGGGGAAATAGTAAGAATAATGGAAAGTTGGGGTACTCTATTTAATAGACAGCCGGATGGCAGAGTAGCCGTAAGATATTTTGGCGGACAAACATATCCAAGAACAAGATTCGTTGGAGACAAAACTGGTATGGCATTACTTCACGCATTATTTCAGAGAGTATCTGGACTTAATATAGATTTTTACAACGAATGGTTTGCTCTAGATCTAATCAGAAATGATAAAAAAATTGTAGGATTAGTAGCAATGGAGATGAAGTCAATGGAACCGACTTTCTTCAAAACTAAGGCAGTAGTCATGGCTACTGGAGGAATGGGTATGCTATATGCACATTCAACTAATGCATACATAAATACTGGAGACGGGTATGGCATGGCTTTAAGGGCTGGAGCAGCCCTTAAAGATCCAGAATTTGTACAATTCCATCCTACGGCGCTATATCCGTCAGACATTCTCATAAGCGAAGCTGCTAGAGGAGAAGGAGCCATACTCAAAAACAACAAAGGAGAAAGATTCATGACTAAATACGCACCCAAAAAATTAGATCTTGCACCTAGAGATATAGTATCGAGATCTATAATCACAGAAGTCAAAGAAGGTAGAGGATTCCCGGGAGGATATGTAGGATTAGACCTAACTCATTTAGGTGAGGAATATATAAAGGAAAGACTTGCGTTAGCATACGAGGCAGCATTAAACTTTGCTGGAGTCGATGCAACAAAAGAGCCAATACCCGTAAGGCCTGCGCAACATTACTATATGGGAGGAATAGACGTAGATATTACAGGGACTAATTATGATTTGATAGGTTTATTTGCGGCAGGAGAAGCTGCATGTGTATCAGTTCATGGAGCAAACAGATTAGGATCTAACTCCCTTTTAGAAACTTTGGTATTCGGAAGAGAAACAGGAAAAACTGTAGTAAAATTCCTTTCTTCAGCTAATGAATCTTCAGAAAGTCTTGATAAAGAAGCTGAAAAAATTGTGGATGAAGCGTATTCTTTTACAAAGAGCGAGAGTGGAGTTCACTTTGGTGTAGTCTTGAATAAACTCAGAGAAACTATGTGGGAAAATATCGGAATCTTTAGAGATGAAAATGGAATGAAAACTGGACTCTCAGAGATAATTAAGCTTAGAGAAATGGCTAAAAACATGTATGTTACGGACAAGAGTAAAACTTACAATACTGAATTTTTCAATGCCCTAGAATTAAGAAATATGCTTGATTTAGCCCTAGTTATAGCTAACGCAGCTATTAACAGAACTGAATCAAGAGGTGCTCATTATAGAACAGACTATCCAGAAAGAGATGATAAAAATTGGCTAAAACATACTATAGCTTACCTAAGAGGAAATACAGTCGAAATAGGATATAAACCAGTAAAAATTACAAAATGGCAACCAGAAGCCAGGGTGTATTAAAATGAGCGAAAAAGAACAAGAAATAGTTGTTAAAATAAAAAGGTTTAGTCAAGATAAGGGAAACTATTGGCAGGAGTATAAGGTTAACGTAGACAGATTCACTCAAATGACAGAAGTTTTAAGAAGAATTAAAACTGAACAAGATCCTTCACTCTCGTATAGGGCTTCATGCCATATGGCTGTATGTGGAAGCTGTGGAATGAAAATAAATGGAGAGCCTAGATTAGCATGTAAAACCTTGGCTTTAGATATAGTAAAGAAATACAACTCCAATGTAATAACCCTAGAACCTATGGATTATTTCCAGCCTATAAAAGATCTAGTAGTAGACTTGGACGATTTCTACGATAGAATGTTTAAAGTAAAACCTAGATTATATCCTGATAAGGAAGTACTAGAAGGAAAGGCTGAACAAAGACTAAAGCCTGAAGATCAGAGAGAATTATGGAAATTTGAACAGTGCATATGGTGCGGCTTATGTGTATCAGGATGTCCATCTGTTCGTAATGATCCAGAGTTTTTAGGACCTGCCGCCCATGCTAAAGGTTACAGATTCTTGGCAGATCCAAGAGATACGATTTATGAAGAAAGATTAAAAATACTTATAGATAGTTCATGGAGATGTACTTATTGTTATCAGTGCTTTAATGTATGCCCGAGAGATGTAGAACCAGTAACTACTATAAAGAAAACTAGAGCTCACACTAGATTTCTTAAGGATAGAAGTGCCGTAGCTGAAATTGGAGAAAAACACATTGAGGCCATAGAAGAGTCAATAAAAGATTCAGGAATGATTAAAGAAGCTGAAGTTTACTTAAAAACATACGGAGTGATAGCGTCATTAACTGATCTTATTTATGCATTCCAGAATGGAAAGCTTAAGTATGCATTTGTAAAAGAGATGAAAGTGAAAAACATGGATCAAATAAGGAAAATTATGGGTGATTAGAATGAAAGTAGCTTATTATCCTGGATGTGCTACTCATGGATTATCTAAAGATGTTGACATAGCAACTAAAAAAGTAGCTGATGTTTTAGGTTTAGAGTTAGTAGAGGTTGAAGATTGGAATTGTTGCGGAGGAGGATTCTTAGATGAGAGAGATGAAAAAGTTCATACAGCCTTAAATCTTAGAAACCTTTCTAACGTCGAAAAAATGGGTTTAGAAAAAATGGTAACTCCTTGTAGTGTTTGCTTGCAAAGCCATAGATTAGCTTCGACCAAATATAAAGAAAATAGAGACCTTAGAAAAGAGGTAGATAAGAAATTGAAAGAAGCTAATATTAATTATTCTGGAAAAGCTACAGCAGAACATATAGTTTGGATTCTTGTAAGAGATGTCGGTTTAGAAAAAATTAAATCAAATGTTAAAAAACCTTTAACTGGATTAAAAGTAGGAGCGTATTACGGGTGTCAAATGCTGAGACCAGAACAAGTAATGGGCTTTGAGCCATCTTTCCATCCTCATAGCATGGAAGATCTTATTTCTGTTACAGGCGCTACTCCAGTATCTTTTCCTATGCAAACAGCATGTTGCGGATTTCCATTAATGGGTAGCAATCCAAAGATCGGTTTAAAACTAGCATATAATGTAATGAATTCTGCAAAAAGCAAAGAAGCCGATATAATGGTTCACCCGTGCAGTCTATGTCATCTGCAATTAGATGTAACTCAACTTAAAGTTAAAGCAGAATTTAACTTACCGTGGACTATGCCAGCAATTTACATTACTCAATTACTAGGATTATCTTTCGGATTTTCTGCAGAAGAATTAGGTATAAGTAAAATAGCACAACAAATCCTTAAAGAAAAAGGTGTAATTTAGGTGAGTAAAATGATAGAGGATGAAATAGTTGAAAGCCTAAAAAAGGCAGGAGCAGAAGTAGGTAACTGGTACGATGTTTCAGAAAGACCTGGAAAGAAACCTTTTGGTAAAGAAATAGAATATAAAATAGATGAAATAATGTGGGGTAAAGTTCATTTAAGGATAGAAGGAGATGTTTATATTCATATTATCTCTAAGATTCCGTTTAACTGGAAGGAGAGAGTAAAAGATTTGAAAATATCCGGAGAAATAGAAGATTCTGCAGGCGGATTATTATGGATAAAGGAAGATCCAAAAAATATTGAAAAGGATATGAATATCATTAAACAATATCTTTTAAGTATTAAAAAATAAGGAGAGGAGGCCCCAACATCACTCTGCCACGGTTACGTGGAATGTCAGCTGGGTATGGCTATTTAAATTTAAGAAATTTTATTTAAAAAAGTTTATGCTTCGACTACTTTAAGTAAATCGTTCTGGTCTAGCTTATAGACAACAAAATAATTGTCAGATATCCTCCTAAGATCTGCATTATCTCCTCTTATCATTACACTAATTAACGTAGCGTTTGCCTCCTTTAAAGACCTTCTAACAGTTGTTTCTGCTATTTTATCTTCACCGTCTGTTAAGATTATAAGTTCACTAACTCCTTTAACATGACCTTCCTTAACGTCTTCACATGCGGATATTACTGACCTACTTATATCAGTCCCTCCGCCTCCTCTTATCTTTCCTATGTATTCAATCATTTTTATAACGTCCTTACTTTTAGCGCTTTTAATTACCTTTATTAAGGGATATGGTATATTATCGAAGAATCTTAAGTAAAAGTCTCTATTTTCTCTTTTTGCCCTACTGTACAGTGCTAAAGCTACTGCCTTAGCCCAAAGTATTTTTTCTCCATCCATGCTTCCAGATTTATCTAAAAGCAAATATATTGGGCCTAAAGTCTCCTTAATCTGTTTCTGATATAGCAATAGCTGCCCTTCAGCTAATCTAACATAAAATAATTCCTCTGGCATAGCCAATTCTGATGGAACTAATCTTTCCAAATCTGTACCTTCCTCATATCCAAATAATTCACCTTTAGCATACCTCGTAGTTTTCTTTTTAGTTAAACTACCTAATTTTGGTATACCGCTTAGGAATTCAAGAATCTTCTTTATTTCAGTGTTTCTAGCTAATCTTAAAACTTCATGTATTTCTCCCTCAAAATTAAGCACACTACCAGTACCTGCCCCATTTCCACCTACTATTCTTTGCATACTTCTTACAGCATTTGCGTCCTCAGACGCTTTTGATAAGGCTTTTTCATGAGCCTGTTTCATTAATTTCTGCATTGATTGCTGATTCTGTTGAGTCTGCTGTTGTTTTTCTCCTCCTTCCTTTCCCATACTTCCTTTCATTAAACCATTCAATATCTGTTCAGCAGCTTCTCTTTCTTCAGGAGATTGAGAAGTTCTCCTTATTCTTTCTAGCTCTTCGATTAAATTTTGTATATAGCTAACAGACAATGCCATGCTTACTGCAGAATTAGCTACAGAATAATTCCTATTCCTCATTACGACTTCTGAAGATAAGGTCATATCTAATAATGAATATTTTATATTATCTTCCTGATTAACATCTGATTTTGGTTTCAATAATGGTAACGGTAAATAATGTACATAATACGTATCAATTAAAAACATGGAATCTATATTTGACTCTTTCCCAGAAATTTTCCTTAAAGTATACGATATTCTATCTCCCCTATATTTAACTATAGGATCCTCATAATCTATTCCAATTAATAAACCACTCATGTATATATCCCCAGCTTTTTAGCCACTTTTTCTAATAGCTTATCTATCTCAACTCCTACCTCTTTGGAAAACTCCTCCACTTTTTCTTCTCCGCTCTCTTTGCCTAACGCTATTACTCTATCTCTTGTAGCCCTTAAAGTTCTAATTAGATCTATTAGTCTAGGATCGGATTCTGTAGCAGCGTCTACATACTTACTAGCTTCTTTAATATTATTATAAATCTCATTCAATTCCCTCATATACTTTATTGGAGTCTTTAGTTCCTCAGATAATAAAGCGGAAACTTTTTCGAAATCATCTATTTCCTTTGGCGCAATATATTTCAAAACTATCAAATCTTCTTCAGTAGCTTTAGTTCTCGAATTCAATATTGAATGAGCCGCAACGATTTTTAGCACTTTCCCTTTTCTTCTATCACTTAAATGTATTCCTTTTTCTTCGAGCATAGCATATAATTTCAATAACTTTCCTTTTATTGGAGTTAAATCCACTTCTGATAGATACTCATATAAATTATCTAAATCTTGAATTGACATAATAGGAGAACTTACCTTCCACTTATCTGTAAATTCTAAATCCCATGACGCATCTATTAAATTTTTCCACATGTCTTCTCCTATAGGTCTAGCATAATGTCTCAATAGAAGTCTATCATATAAAGCTTCTAACTCAGGTTCGTCTGGAACCCTATTACTTGCACTTATTAAAGTCCTTAATGGAACGTTTATTACATTATATCCGTCATATATTACTCTCTCGTTAAGTAAAGACAATAACGCGTTCAATATTGCTGAATTAGCATTAAATATTTCGTCTAAAAATGCTAATTCACTCTCTGGTAATCTTTCTTTAGTTATTCTTTTATAAATACCTTGCTTTAATGAATTTATGTCTAATGCACCAAATAATTCTGCTGGCTCAGTATATTTGGTAAGCAAATACATGAAGAATTTTGCATTAAGCAATTCTGCAGCTCTTCTAGCTAGAGCAGACTTTGCAGTACCTGGCTCTCCTATTAGAACCACATGTTCCTTGGTAAGAAGTGCAAGTGTTATAACTTTAGCTTCTTCTTCTCTGCCCACAAAAGGAGCAGACAAAGAATCAAGAAATTTCTTTGGAAGTTCTATTAGTCTATTATCCACTACTTCTCCCATATATTTTATCTCAATTATAGCTTATAAAGAAAGGTTAAGAAAATATAACGTTACTGTCTATTGTAGAGATAATGATTTAAAAGATTAATGTTGCAAAACAGCAAACAATAACATAAATACAAAAATTAAAAAAGTTATATTGAATACATCATATAAAATTGAATTTTAGTACGTCTTATTCTAATATTCCTCAGAGCCAAGATTTAAATATTTGAAATGAGTGTAGTTATTTAACAAATCGTGTGAGTCGGTATATAATGGATGAAAAGATAGGTAATCTAAAAGGTGGAATGGAAAACGTAAACGTAACTGCAAGAGTTCTCCAAGTAGGGGATCAGAAAACTGTTCAGACAAGAAATGGTCCCAGAACTCTTCGTGAACTAATTGTTGGAGACGAAACAGGAAGAGTAAAGCTTACGCTATGGGGAACTCAAAACGAAGATGTAAAAGAAGGACAAGTAATAAAAATAGAGAACGGATGGACTACAGTTTTCAAAGGACAAGTACAATTAAATGCAGGTAGTAGATCTAAAATATCTGAAGGAGAAGATTCAATACCAGAAGAATCAGAAATACCTGAAACAATGCCTACTGACAACTCTTTCCAACCAAGAAGAGGCGGATTTAGAGGCAGAGGCGGTGGAGGAGGAGGAAGAAGATTCAACAGAGGAGGATATAGAAGACAACCAAGACAAGAGGAGGAAGAAGAATGACAGACGAGTTTAAAGGAGACGAAAAGAAAACAATGAGCTATGACGATATAAAAGATAAGAAACCAATGAAAAAAGGAGAAGTAGTAGACAAAGCAGAAAACGGCGAAAATTACATTATAAAGCTTGAAGAGGACAAAGTTTATGAAGTAGCCCCAATAGCATTTTACGTATGGAATATGTGTGACGGAGAAAAGACTGTAACTGAAATATTAGACGAGATAAGCAAAGAAGCTAATCTAGAAACTTCTCAGATCAGAGACCCCATAGTTACAGTTCTAGAACAATTACAAGAAGCCGCGCTTATCTCATTATAAAATATAAATATTTTTTCATATTTTTCCCTATGAGGGCTATTTTACCAGAAGATAATTTACTATTTGCAGAAGAAGCTTTTAGAAAATTCACCTCAGAAGTTTCACCAAAACTTTGTATAAATGAAATACCAATTCTTGATTCTCTAAATAAAGTAAGTGGTGAGGTAGTTTATTCACCTATAGATCTTCCGCCATTTTCTAGGTCAACAGTAGACGGTTACGCAATAAAATATGAGAATACTCCAGGTAAATTTACTATTATAGGAAAAATAAATATAGGAGAATATAAAGAAATTGAGATTAAGGAAAACGAAGCAGTAGAAGTAGATACTGGGGCAATGCTACCTGAGGGAGCTAACGCAGTAATAAAAATCGAGGATACAAAAAGAGAAGATAATATTGTCTTTATAGACAAAAAATTGAGATTCGGACAAAACATTGCATGGATAGGAAGCGATATACCGAAAGATTTTGAAATACTTAGAAAAGGAGAAAGAATATCTCCAGAAAAGATAGCAACATTAGCCTCTGTCGGAATAAATAAGGTCAAAGTTTACAGCCCAAAGGTTTACGTTATAACAACTGGAGACGAATTAGTAGAGCCTGGAGAAAAATTAGATAAAGGAAAAATATACGAGAGTAATCTATATTATCTTTTAACAAGGTTAAGAGATTACATCATAGTAGGTAGTTCTTTAGTTAGAGATAGAAAAGAGGATATCGAAAAAGAAATTGAAAAAGCTCTGGATCTTGCAGATGTCCTTATAATAACTGGAGGAACAAGTGCAGGAGAAAAAGATTACGTGCACCAAATAATTAGAGAAAAAGGGAAAATAGTAGTTCACGGAATAAAGTTCAAACCAGGAAAACCAACAATTTTAGGTCAAATTAAAGGAAAACCAGTTTTCGGATTACCAGGGAATATAGTATCTACTATAATGGTTTATGAACAATTAATTAAAAAATATTTAGACCTAATGAGTAATAGTGAACACGAAGAAAATAAGAAAATTAGAGCAAAAGCACTAATTACAGTAGAGGCTGATAAAAAGAGATTTACATATATTCCAATATACATTTTAAGGAGTAATAAAGATACTTACTTTCTTCCAATACCTTTTGACAGCTATATGATAGGAACTTTCTCTTCTGCAGACGGATATATAGCTCTTAATCCTGGAGATAGAATTGAAGAAGACCAAGAGGCAGAGATTATTATAAAGAATATTGACGAAAGACCTACATTACTTGGAGAAGAAGACCTAAAAATGAAAAACATTAATGTAAGAAAAATAACTTTAGGATCTTATCCAGCTTGTAAAGCGCTAGAAAAAGGGGTAGGAGACATACTAGTAATAAGTTCGCTTATGTGTACACCAGATAACTATGATTTTAAGTTTGATAGGGAAATTCTAACAAATGGAAAAGGACCAGAAATAGGGTATAATGATTGGATAGGTATAAGTAAAATTATTAAAAATCCTACAGTAAAGCTAAAATCTCCTTCCACAGTAGAACATTTCCTAGGAAAAGCTAAGGTTTACGCTCCAGAAGGTTACATAAAAGGGGATAAGTTTTATACCGAAAGACTCTACATAGTAACACTAAATAATTCAAGAAAATTCCTACAAGGAATTTTTTAAAACTTTTCAACCTAAAAAATCTTTTATGTATAATAGATAGTTTATCCTATGTCAATTACAGCAACAGCATATTCAAGCTCAGCAAACTTAGGCTCTGGTTTTGACGTACTTTCTATGGCGCATAAAGCCTTTAAAGATAAAGTAAAAGCTACGTTAATAAGTGAAGGAAGAAATTTAAAAATATCAGTTTCGTCCAAAAATACGCCAGAAAATGTAGAAAAGAATTCTGCCGGTTTCGCAGTTAAAAGGATGTTAGAAATACTTGGAATAAATGCAGAGATTTCATTAGAAGTCATAAAAGGAATTCCTTACGGTTTAGGTTTAGGAAGTAGCGGAGCTTCAGCTTCTGCAGCTATAGCTGCAGTAAATGAACTTTTAGACCTTGATCTCTCATTAAACGAACAAGTCGAATTTGCAAAAATTGGAGAAATAGCATCATCAGGATCACCGCATCCAGATAATGTAGCTGCTAGCACATTTGGTGGTATAGTTGCAGTTACCTCAGTATCTCCTACGAAAGTGATTAGAGTTCCTAGCAATTTAAATTTTAAAATACTCTTAATAGTTCCACAAAAAACTCAAGAAGGAAAAACAAAGAAAGCTAGAGAAATGCTACCAAAAGAAATCGAAATAGAAAGATATGTTTATAACTCAAGACATTTATCATCGTTATTAATAGGTCTATCTTCAGGGGACAGAGAATTAGTAAGAGAAGGATTAAATGATGAAATTTTTGAGGTTTCTAGACTTCCACTTTTCCCTTATTATCCTAAAATAAAAGAAAATGCTATCGAAAAGAACGCTATAGGAGTTTGTGTAAGTGGAGCTGGACCATCAATACTTGTTCTTTACGATAATAAAACAGATCTAGAAGGTATTATTTCGTCTTCTAAGGAAATTTGTACAAAAAATGATATAAATTGTGATTTTATTCAAACCGAATTAGCTGGAGGTGTAGAAATTGAAAGAGGGAACTAAAGTAGTTAGAGAAGATTTTGAAGATAGCACTGGAGCTATAAATACACCTATTTACCAATCAACTGCCTTCCGTTTCCCAGAAGGCGAAAAATACAGATATTCTAGGGAAGCTAACCCAACTACCTTAGAATTATCTAAAAAAATAGCAGAAATTGAAGGAGGAGAAATAGGCGTATCGTTTTCCTCAGGAATGGGGGCAATATCTACTACTCTATTAACTTTGCTAAAACCTGGAAGTTCATTACTAGTCACAATGGATATGTTCGGAAGAAGTCTAAGATTCTGTAATGATTTTCTTAGACAATGGGGAGTCGAAGTTGAAGTAACAAAGCCAGGAAATACTAATTTACTTGAATCATCAAAGATTCACCACGACGTAATTTTCGTGGAAAGCATAACAAATCCTTTACTCAGAGTAATAGATATAGAAGCACTATCTAAGATAGCAAAAGAAAATGGGAGTCTCGTCATAGTAGATTCAACATTCGCTAGTCCAATAAATCAAAAACCTATAGAATTAGGAGCTGATATAGCTCTTGAAAGTGCATCGAAATTTTTAGCAGGACATAATGACGTAATAGCTGGTGTTGCTGCAGGACCTTCCTCTATAATAACAAAAATAGATTTAATGAGAAGAACTCTAGGGACTTCGCTAGAACCACAACCGGCCTATTTGGTATTAAGAGGATTAAAAACTTTGAAAATAAGAATGGATGTAATAAACAAAAACGCTATGCAAATAGCTGAATTTCTGGAAGATCATCCCAAAGTTCAAAAAGTTTACTATCCAGGATTAAAATCTCATCCAGATTACTCAATCGCTAAGAGAGTTCTGAAAGGTTTTGGAGGAGTTGTAAGCTTTGAAGTTAGAGGTACCATGAATGATGCTATAAGAGTAATGCAGAATCTTAAAGTAATAATTCCAGCACAAAGCCTTGGAGGAGTAAACTCGCTAATTTCCCATCCACCGACAATGAGTCACAGAACCTTAACACCAGAAGAGAGGAAAATCGTAGGAATAAACGAAAGTCTATTAAGACTCTCAGTAGGAATAGAAGAAGTAGAAGACTTAACTGACGACTTAGATAAGGCATTAAATTCAATTTAAAATCTTCAGAATAAAAAATCTCTGCATAGGCAACTTGCAGGATAGATTTAATATAAAAATAAATCAAAGAATAACATAAAATTAACATATACTAGCAAATTATATATAGACATTATCCGATTAATTTACTATGAATTTGCACTTACTTTTCTTTTTATTCTTATTACTTTCACCTCACATGTTCGTAGAATATAAAATACATTCTACGATCTCTAACGAAGTAATATGCAATGTAATATTAGAAAATGTAAGTAAAACTTTCCCTAATGGAACCTTCGCATATACAATTCAAGTATTTTTCATGAACTACTCAAAATATACTCAGCCTTCTATTGTTTACGACAATCTAACAAACCCACAAACATTCTTTTATATTCCAAAAAATGAACTAGGTAAATCCGCAATTGATAGACAAATTCCTTTAACTCTGGTTAACGAAAGTAACGGAACTTACGTGTATTTCGGTAAACAATTTGTTGATTATGTAGAAATAGAAGATTATTATTTTGTTAATAGCACTGGTGTTCCTTCCAAAATTGAAATAATTCAGATAGGGGAAAATGGAGGTATAGTAAGTGTAACAACTTACACATTAATTAGGACTAATATTTTTCAGAACGAAACCCCATTTATGCCAAAAGGTTTTAGCTTAGAAAATTCGTCCCTTAAATTACCAAATCAATCACTTTCAGATTCTTTAGGTACATACGTTATCCTCTTCAATATTATTGTTATTCCACTACTTTTAACTTTATATAAGGTGAGGAAAAAATGAAATATAACATTATAGAAATTTTATTTGTATTAGCTCTAACAGTTATTACTCCAATTGTAGCACTTCATTATTTAATATTCCATGTAGGTTTTATTTATAATAGAGACTCTTATCCAGCCTTTTATCAAAATGGACCCCAAACAGCACTTTCTTTACTAACTTTTCCTCAAGTAATAGATAATTCTTACATCCCAATAGTAATACTCCTTTATTTTAAAATAATATCTCCAATGGTAGCGGACTGGGTAAGTTACCTTATTTTCCCATTTGCTATTTCAATTCCTTCTATGTATTGGGCTTCAAGACATTTCCTAAAAAAATTTGAAAAACTCGATTTCTGGAGAACTCTATCAATTTCAATGATTATAGCTTTTCTTTACGCAGTTACCCCAACAGCTTTCTATTTCAGTCATTGGTCAAATTATGCAGGATTTTACGCATTATTGCCTGCATTAATAGCAGGAGTAGATTACTCAATAGATAAGAAAAGTCCAATAGCTTTGGCATTTTTCTCAAGCCTAACAACTACAGATCCAAGAGGCTTTGTTTTCACTTTATTCATTGTCATAACAATGCTCATTTTCAGAAAGAACGCAAAAATTTTCTTAATCTCAATACCATTCTATATCCTTATAAATATTAGACTGTTCCTTTATTTATTTATAAATTTCCACCAATACTCAACAATAAGCTTTTCAATATCTCAAGAACAACTGTGGTTAAACTACCTTAATTATCCACTCCTAGATTCAATGAGGGGATTAGGTCTTTTCAGACCTTTAGTACCATTTTATTCTGGAAACAAAGAATTAGATTTCATATTTTCATTCTCCATGATAGAGACAGGGATATTAGGATATATATTCATAAATAATAAAAAGAAAAACATAGCTACATACTTACTTATAATATACTTAATACTTGTTCTCGTTATTTCATCATATTTCCCATTCTTTGGAAATTCTATACAACTTAACGTACTTTACCCTCTCTTAAATTACCTTTCAAATGGATGGGCTTACCAATATTTATGGATATTTCTTCCAACGTATCTTTCAGAAATGGTTTTAGCTCCAATATTTCTCTTAAGCGCTTTAGTTCTAGCAAAACTAAGTAAAAACAAATTACTTATACCATTAATGATTTTTATAATAGTTTCACAATTAGCGTTCTCCGCACCTACAATAGCAAGTGGAAATTATTTCAATAATTATTTACCTCAAACGCCTCCGCAGTCATTAATTCAAGTAGCCGACTTTTTAGAAAATCACGGAGAAGGTAACGTAATAACTTTAGGAAACGTAAACCCAGACATAAAAAACTTTTACGGGGTTTTACCGAGAGAAATAAGTTTACCATTCAATATTCTAGAATATAATAATACTGCAAAAATATTGAATGCCTTTGGAGTACAATACGTGGTAACGCCACAAGATTTTAACTTCAATCAAAATGATTTTAAAGAAGTTTTCAACAATAATGAATTTATCATATATCAAAACGAAGATTTCAACTATAAAATAAATTCACCAATATATTTGTATAATTTCCCTCAAGATGTAGAGTATTTAAATAATTCTAATGCTCTTCCGTTTTATTTAATGTATTCAATACCGCCAAAATATTTAGGGGGAATAATAGGTAATTATACTCAAGCTGAGTACATAGCTTTTAAGGCATATAAAGCTGGAATATATCCCATTAATCTTAAAGTCAAACATTTACCTTCTCCAACAAATTTTACTAACTCTATTCCAGTAAATGTAAATGATATAAATATTCTTTCAAATTATCCTGGTATATCTTTTATTACAGTAGGAAGCCCTTCCAGCCTTAATATCAAAGTTAAACCCGGATTTTATACGGTAATAATTGAGTATATTACTACACTGAATGGAGGAACTTTCTGCCTAAGTAATGGAAGCGTAAAACTTGGAGTAAGCACATCCTCTTTTTACAATAATATTAACTTTACTATACTAGGAAATATTTCTACTAACGGAAATTTAACTCTGTCATTTAGAGGAAATTATCAATCCTACTTATTAGGAATAATTCTCGTGCCTAAAAATGAAAATTTTAATGTAGATTCTCACGTAGATTCCCAAAACATTACGTCTCTTTCATATTCCGGAAACGGATTAGGAAGAATTTATGGAGAAGAAGATAAAGAATCTTTAATCCCAATTTACATAAACGTCATAACATTTTTAATTGTAATTTTTATAGTCTTACAAAATCGCCTTCACTTCCCTTTTTAATTCCTCTTCCAACATAGTTTTTATTTCTTGCCTATGCAACCTCGTCAAATGAAGGAAAAGTCCCTTCTTTGTAAAAGGTCCCCTATTACACAACTTACAGTACAAGAGGCCATTCTGTTTTTCAGAAAGCCAAAAAGCTACCCTATCAACTACCTTCTCCGCCATCTGTTTTGAAGAAATTCCTACTATTTTTTCCAATTCATCATTCTTTACCGTAATGAAAGAGGCTTTCTTTGCAGTATAATCTATTAATTTTTCTGCAGTTATTGAGATTCCGCTATCCATTTCTTATCCCACACAGAAGCTATACCAACTGTTAAAGTAAATATGGAGATCAACCTAGAAAACCTTTCGGTTATATCTGAAACGTCAAGAATTCCAGAAAATACGTTAATGTCTATACCTAGAGACCTTAATACTCTCTCAATTCTAACTTCAATTTCATCATAATTATAAGTTACTTCTCCAGAATCCAAAGATTTCTTAAAATCAGAAACAGCTTCCAAAGTTTCACCCAATTCTTTTTCAGATATTTCATCAAAGATTTCAGTTATCCTCCTCTTTATTTTACCCCCAATTATTTCAGCAGTCCCAGGAATATATTTTATAGGAACCATTTCAGATATCCATGCATCTACGTATCTCCTTACAGTTTCTTTAACATCGTCTATTTCTCCATCTATGGACTCAACTATTGAAGCAGCCGCAATTATATGAGCTACAGCTTCACCAACTTTTACCCCAAGCACTTCTTCATTTACCTTATTATTAGATTCAATACTCAACGTAACCACTTAATCACAATATTAAAGTAAGATAAATTAAAGAAAGGAATCCAATAATACTCAAGTTACTTAGATGAGACCCAAATAGAAGAAGATTAAAATTGATAACGTATAAAGAGCAAAAAGAGATTTAAAAGAAGTATTGTACAATTATAAAATAATAATATGTAAAAATTGAATAATAATATATTTATTCCAATTAAAGCTCTTTTACTATATCGCATAAAAGTGCTATCATAAAGGAATACTACTAATATTACCTCTCTATTCTAGAGTATAATTATAAAAAAAGCTATAAAATCAGATTTATATTATAAAAAATCTAAATATATAGTATACAAATAATATTTATAATTTAAATAAAAAATTATTTAGCGTTTTACGTTGTAGTATATACTGCAGCAACTGCTACTGATTGCCCATCGTTTAAACCTAAATCAATAGTATATGTCTGCCCTGGTGTCGGCGTAAAGCCAGTAGGTAAAGTTATACTAATGAGATTATTGCCAGAAGATAAGGCTGTAGAAACACTTGTAGTATAACCGTCTACTGACACTGAAACCACAGTTGCACTACCAGTACTATCTAATACTACAGTTAATGTATATTGGCCGGTGTTGCCAATTTCGCTAATGCTTCCAGTACCAGCTGCGGTAACACTGGGCGTTGAAGTAACTGCCCCAAATATTCCGAATACAAATCCTACTACTACAATAGCAATAGCTACGCTCGCTATAACTAAAATTAAAGCAGTTACAGCTCCTGATAATCCTTTTTGATTCCTTCTTTTTCTATTTATAGTTTTCATCTTTCTCAACTTATATAAGGCTAATGTTCTATAAAAATTTTTCGCAATTATATACGTTGTGGTTGCTTCGAGTCTGGGACAAAAAATTTAGATACCCTCTTATTTTGTATTATGAACCTATGAATAAGAAGTTAACTCAGAGGGACTTTGACAACTTTAAGGAGTCCATATGGGACTTGATAAAGTTGTACAAGGAAAGCAAGCTCAGTAAGATGGGGAGCTATGAGGAGAGCAAGGAGGAGAGGTTAGGTTAAGGAAGTTCGGTCAAGAGTTAAAACAAGACTTGAAGGAAGCAGCAAAATTCGTGAAGGTCAGGAAAGGGCAAGGAAGGAGAAGCAAATTGACCCCAAAAGAGAAGGCGTACATACTAATACTCAAGGAATACTTAGGCTTATCGAACAGGGAGACTGCAGAAATGGCGTCACTACTGAACGAAGGAGGAGATAAGCTACAAGACCGTGGAGAGGTTATACTCCAACCCAGACGTCTTCGTTATCCTCTACAACCTGCTCTCAAAGACCGTAGAAGGGCTCAGAGTAGACGCTGTCATTGACGGGACCGGTTACTCCCTAATAATAAGCAAGCATTACAGGACTGAGAGGGAGAGGTCAGGAGAAGAGGTTAAGGAATGGAAGGACTTCATGTACTCCTTCTTCATCTTCGGCCTGGGCAGTAACTTGATTGTCGACGGTTATTCGCTCAAGAGTGAAAGGGAAGCCTATGAGATGACCCTCAAGATCCTGAGGGAACTTGGCGTACAAGTGGACTCTTTGAGTGCCGACAAGTACTATGGTAAGTCGACCCTTGATGACTTCCCTGACTGGGGCTACCAGTTATAGTTGTGTAAGAAAATATATAAGCAGAAGGTTAAAAATCTTCATCAAGGCTCACCTGGAACCTCGAAGCGTGGAGTTGTTTGAGGTGATATGAGTGATGCCTTATCACCAACATGGGCCTGAACTTCCATCGGGAGTTGCTTTCCTGTATAGAGACGTAGAGGTAGACCTCCAAGGAGCGAAGAGAGGGAAAGTAACCTCCAAGCTCTTCCTCGAACCTAGCTAGGATCGAGTTGAAGCTCTCCGACGTATTGTTGGTATAGAAGTAGTGTCTAACCTCCCTAGGGAAGTTGAGGAAGGCGCAGTACTTGTCAGCAGCGTCAAGAAGCCTCTTGGCTCTGGCTGGAGAGAAGGGTTGGACGAGTTGGCTGAGGGATGAGATAGCCTTCCTTCCCTCCTCCACGTTCCTGGAGGACTTTAGGTCCCTAACTCTAATCATGAGTTCCTCCTTCTCCTTGTCCGGGAGGACTCTCATGATGTTCCTAACCATGTGGGTTATGTAGAGCTGGTGTTAAGGGGAGGGGAAGAGCGTGGACACGACGCGATTAAGTCCCGAGAAGTCGTCGCGCACTATTACGTCAACCCTGCTGACTCCCTTGCTCACGAGTCCGCCCAGGAAGGACTTCCAACCGTCAAGATCCTTCCTATCCCTAACTTCGTAGTCCAAAACGAACTTGTTCCCCTCTAAGTCAACTCCTATGGCAATGTAAACGGCTCTCTCCATAATCGACTCGTTGATTCTGACCTTTACGAACTTCACATCGACGTAAAGGGCCAAGAGATCGTGAGGTAGTTCGCGGTTCTTGAATTCCTTGAGTTTATTGGATATTCTCTCGGCAACCCGATCCATACGATCTCACTATACGGTATTCCCTTAGCTGCTAACACGGCCTTAACTTGGCCCGCAGGCATGCCTGAAAGAACGAGCTGCTGGAGGAACTCCTCGTAATCCGGGCTCGTCCTTTCGTACTTCTCCGGAAGGATCTTGGGTCTGAAGCCACCCTTTCTGGTTCTCGATACTCTGAGCCTTAATACTCCGTTTCCAGTCCCCAAATACCTGAAGTACGTTCCGTTCTTGTCGTTATCCTCAACTTCCAAGTAGGCCTCCCTCTCTTCCATCATGGCCTCTTGCAAGATTATCTCCTCTATCTCCCTTAGGCTAACTCCTTCCTTGACTGCCTTCTCTCTTATTTTCTCCATTACCTTCATGGTATTACTCTCCCTTATAGTATTACCCCCTCTGGGGTTATTTTTACTTTTTACCATTATTTTTCACCTTTGACTACCACAACTATAACTGGTAGCCCCTCTACTTGATACCTAAGTCTAACGCTACGATAAAGGGAGGGAAGAGATGGAGGGAGACGGTATTGAGGTTCATGAGGAACCCGTTGGACTATTTGGAGGAGTACTTCAAGCGCGAGAAGGCAGAGTCTCTGATCTCATCCATCAAGAGAAGGACAGGATGGATTATAAACAAGGTTAGGGAAGAGAGGATCCACCTAACGGTCTTGGCGAGGGTCATGATTCACGACCTACTGTGGTCAAAAGCGTTAGACTAAAAATCTTAAAATGCTATATAGATTTGGAACCCATTAGACTAATTTGTCCCAGACTCCAAGATATAGATAAACTTATATAGACTTTTCACAACTAATAATTGTGAAGAAAGACAAACGAGCTTTATATACAGGAATTACTGCATTTTTATTAATAGTTGCGTCAGTTTTAATTACGCTAATAGTCTTATCCTTTGCATACTCCGTATTAGGAGGTTATAATTCTGTGTATCCTATTGTAAAACAATCTGGACCAGGCGAACTAAAAAACAATTATTTATATGTATATCTCACTTCTTCTAGAAATATAACAATAATAAGTATTTCAGTAAATGGTTATACTTCGTCTATATCAGTACCTTTATCGGAAGGTTCACAATTAGTAAAAATTCCGTTACCTAAAGGATTTTATTATACAAATGGAACATATTATAGTATAAATCTAGGACTTTCTGATGGAGAAAGTGTTGTAGTATCAGCATCATGTCTTTCTAGTTAAAAGGATTACAAGAACTAAGAGAAGAGCAGTAATTGCAAATATTTTTATCAATTTATAACCAAGATTCTCATTAAGTCCAGCTCCCGGTTTTATGGAAATAGGTTTCTTATGCCCAACATGAAATATTGGAAGCGTAGTATTGGAGAATATATTATCTTTCCATAATATATCAACACTTTTACTTATTATATTACCATTAGTTTGATAATCTATTGATTTAACGACTACTCCTGAGGAATTAAAATATAATATGAAATCATTCTCTACTCCTTCTATATATGAGGTTACATAATATTGAAAAAGACCATTTTTAGTCTCATTAAATATTAGAAACCCTTTCCCGTAAGAAATATTTTTACCTAAAAGTGACGGATTAACATAAAAGAATGCACCATAACTCGACTCGTTTTGTATGCACAGTGTTGAAGGTAAGGTAGTATTCTCACTTAATGCAATTATTGTTGAATTAACTAGCATAGAACCATTATCAAATACTTTTTCTATTTCTTGGATTATTATAATTTTTTGAACAAAATATTTTGGATAATATATATATGATGTTTCATTATATATTAGGAAAGAATCGGGCTTTATAGAATAACTTAAAGAATTAACATTAAAGACATTAAAGAAAAGTATTATGAACATAAATATTAAGAATAAACCTAAAATTCTCATAATATCTTATATAGAAATTTAAGCTTATATTTTTATGACTAAAAGCTATTTGATCTTCTAAAAACAGATTTTACTATCTTTTCTACTGAATTTCTTTAATTCTATAACGCTAAAATTCAATTTAAAATTTCTAATCCTACAATATATTAACTTAGATAATTCCAAATAAATTATTAAGAACTTTAAAATTAAGATTTGCCTAAAGTTTTTACTAAGGACACTATAATACCCATTCCTTTCTGAAATTCTGGATCTCTAAATGCTGAAATTAAACTTCCTAAAGTAACGCTCTGAGGATTTTTCATAGCAGTTGAAAATCCTTCCAAAACTGGAGAAATATTGTTCAGAAATTCAGTGGCCTTAGGTAAGAAATCTAAAAGCAAAGAAAGTGTTGCACCTAAGTTAACTATCATATCGTCTGTAAGCATGTCCTTAAGAGATTTTAATGCATAAGTCAAGTTAACTAAAGTATCTAAAGCTCCCGATTTTCTCATTTCCTCTATTTTTTGCATTAAATAGTTTAATTCTTCACTCTTATCTATAACTTCTGTAACGTCCTCCTTTTTCTCGTTTATCTTATCTACTACTAGCGCAATTGATGAAATTTCTTCACCAATGTTTTTTATCGATTCGTCATTTACCATGTCTTTAAGGGATTTCAGGAAAAAGCTTAGATTAACTAAAGTGTCTAATGTTCCGCTTTCCTTTAGCTGATTTAATTGCTTTATAATCTCGTTTATAGTAGGTAAGTTTTCCATTATTTGTGAAAGATCTTCCGTCATACTATCGCCTTGGCTGTTACAGTCCAGTAAAGTTTATTATACATTAGCTTTCCCCACCAATGCACATAAGACGGCGGTGGGGGTATTGGAGGACTGGAATAGTTAAATCTTATATATGTTCCACTGTTTAACCCTGTTGCGATGTAGCAGAAAACTGACCCGTCGAACATCTTTTTGCTTTTTGTCCCCCTAATTTCGTTTTCAATATTCCCCGCTACTACGTAAGATTCGAAATCTGCAGTTGAGCCTGCCTTAGAGATTGGAAGATCTGTAGTATCCCCAATTACATATACGTCTGAATGATCTTTCATTCTTAGGGTAAACTTGTCTGTAGGAACCCAATTTCTTCTATCTCCCAATTCAGAATCACCAATTACTTTTGCTCCAGTATGAGGTGGAACGCCTATTGCAAGATCAAACTTTACTTTATCTCCTTCTTGAGATTCGATTACATTTTCGTGAACTTCTTTAACGTTAAATGGAGAAATTATCTGAATTCCTCTTTCTTCAAATATTTTTATCATAACATCGTTTGTTGTCTTTATCCCGAAAATTCCTGGAACTGGATAAGTATAGATTATATTGGTTTTTTCTCTTAATCCCCTCTTCCTTAAGTAGTCGTCTAACATTAGAGTTATTTCCATTGGAGCTACTGGACATTTGTGAGGAAGTTTTGCTACGTTTATGACTATGTTTCCTCCAGTAAAGGATTCTAAAGTTTCCCTCAGTTTAATAGCGCTATCGAAATCCCAAGGAGAGTAAACTGACCTATATCCAGGTATTTCGTCCCACTGTAGATGAGATCCAGTAGCTATAACCAAGTAATCATATGGATAATCCTTCCCTGCTTTAACCAAGTGATTTTGAACATCTATTTTTTCAATTTCCTTATTAACAAATTTTATTCTTCTATCTAATAGTTGCCTTTCTTCTCTTACTAGCTCTGATGAATCTGAAAGACCTATAGACATAAGAAGCTGCCCAGGCTGATATACATGCTTATCACTCTTCTCTATTACTTGTATTTCAACTTCTCCCTTATCTATTTCCTCAGATAAACTCCTAGCTAACCTATTTGCAACTATTGTTCCAGATATTCCTCCTCCTGCTATAACTATTCTCTTCATTTACTAACACCTTTAACAAAATTATTTAATAATACATTTTGAGCATTTAAAAAATAATTCTCATTCATATGAGTAATGAATATAAAAGTTACTTATAAATTTTTTCTTAAAAATCTTATAAAATTAAAAATAATTGATCAGTTTAAAAATAGGGTTATGTTCACAAGAGAACTAAGAAGTTAAGGGCAAAGTAGAATAATTTTAGATAAATAGAGTAATAATGGATAATAGTCATAATTATAAGAATTTTAACTGTTGTACTCAATAATTAGAGCATAAAGGAATATTTTAGCTGATATCTACTATTTATTGAATTATATTAAGAGTTTTAAAAATGAGCTAATAAAGCCTTATTTTTTAGTTTTTACCTGTTGATAATCTGGTTGAAATGAGAAAATATTGAGTAAAAATCTTTATGCTATTTATTTTTTCTATAAAACTACATTATAAGTAATTCTTAGAATTATTTAGATATGAGGATGATTTGTCCAGTTTTCTAAAGTAGAAGCGAAGATTATATAGAAATTCTGAGGAATAACGAATAAAACATAGAAATTACCTGTTAAACGACTATTATAGAAATATACTCGCAATATTCTAGTATATTAGCTTAAAGTGTCTTTTTATTGACTTTTTCCTATTTAGCAAGAGTTATTAATAAAATATAATTTTTTCCATTATTTTTCTCTTCTACAATTTTCCAATCTCTTAGTGAACAAAAAGATTTTACTACTTCAAGATTTTCTGGAGATATTATGGCCTCTACTGCTTCCCCTTCCTTAACTTCATCCATTACTCCAGAAAGTTCTCCCAAAGGACCAGAACAAGTATTGCCAGTAAGATCAATCGTCTTATATATCTTAAGCTGAGTCATATTATTTCATATGATTTTTTAGTTAAAAAGCTTTTGTTATATTTCCTATATTCAGTAAAAAATAAACTATTTAGTAATACGATCCTTAGATTTTCTAGGCTAAAAAAGAATCTGAGAGCTATATCTTTTTACCAAAATTGGAAGAGATTATTAGATTTCGCTAATTTATGATTACGAAATATTGTGCAATATTAATAATTATAAAAGTTTTATCTAACCTACATTAAATATTAATTATCTTTAAGATATTTGCCTTGCTAAAATCTTTCCTATTACCAAGTAAAATATTTTAAAAGCCTTTTAAGATCTATTCAAATTTATGGATATTGGAATTACCCTTGATTCTACAGAAATCTTAAGGAAGTGTATAGCAATACTAGGAATAAGAGGTTCAGGAAAATCTAACACGGCAAAAGTACTTTCTGAAGAATTAAACAAGGAAGGAATACCTTTAGTTATAATAGATCCTGACGGAGAATATTCAATAGATGCAGACGTTATAGATAACTTTTCCTTAGATGAAAGCATACCTACAGAAAGGGTATTAAAAGAAGGAAAAAGTGTAATTCTAGACATGAACGATTGGTCAGAAGAGTCTTTTAAATTTCTACTTCGTTTCCTTAATTCATTATGGCTAAATTCCAAAATATACAAAAGAAACTTTTTTATACTTTTAGAGGAAGCTCACGAATTTATACAACAAGGAGAGAGAAATCAACTGAGCGACACAATAGTTAGAATAGCCCTCAGAGGAAGGAAAAGAGGAATTGGTATGATAATTGTAAGCCAAAGATCTGCAAAAGTTAATAAAGACGTATTAACACAAAGCGAAATATATTTTCTCCATAAGGTGGTACATCCTGTAGATCTCAAAGTTTATAAGGAAATCATTCCTTGGAAGTCAAAAGATGTCGAAAATGAGGTAAAAAAATTAGAAACTGGAGAAGCACTTTTCTATTTTAATGGTGAAGTTAAGAAAATAAGAATAAGGAAATTTGAGGAAAAAATTAATGGAGAAGGACAAGAAGTATTAATATAGAAATAAAACAATGTTGTTTGAAAATTAAAAATTTTTCAAGTATAAAATGTTGTTTCTCTCGATTCACACTACAAACCAACTATTGCATATTTACATAAAGATAGTCTTCAAATTTGGATCCCTAGTAATTCTTTAATTTATTTTAGATATTATTTAATAAGATTTAATAGAATATTTAAGACTTAACAGATAAATGAGAAATTAAATAAAGACAAAAGAAGATAAGTTAAACTAATCTATAAAATTAATATTTTAATTATTATACCATGAATACGTAAAAGACTAAGTATGTTGAAAATTTATATAATGACATAATTATTAGTTCCATCTTCAGAAATTAACGTTACATCACCATTAACTATTATTACTGCATAGGAGGTCTCCGAAGGAGGATTATAGGGAGATACCATATAAACGTATAGAATATAATAAGTATTTGTAATACTAGTTAGTTGAGGAGTATCATTATATAAATACCCATTTTTATATATAATATTGTCTACAGCCTGAAGACTACTACTCTCATCCTTATCAGCAGCAAAAAATTATGACATAGTTGCTACATTTCCATCTCCTTCAAGTAGTGTCAAATATAAAGGACTTTTAGAATTTGGAGCCTCTTTAGAATTTAAGTTAAAAGTTAATTGAGTTGAAGAATTAATTGAACTAAAAAGCCATTTTCTAGAATTATACCTAGCATCAAAATAGTACCAAGAATTCTTACTAATTGCGACGGTGAAACTTCTTTTATATATTCCGTTTTCATAAATCGTAGTATTTATGTGACTATTGATTAAATATATGACTATACTTAAATTAACTTTATTTGCTGCTTCGTACGTGTAGTTTGATAGAATAATATTTCCAGTACCTATTTCTTCAAACCAAAATCCAAAACTATCACCAAGCTTACTATGAGGAGTTACTGCAGAATTAGAGAAAGATGATACAGTATATGATCCTGAAGTTGTAGCTACATATACTCCCAATCCATAATCCCAAGGATTTACATATGGAGTTGCTATTCTATAAAGTATCCCGCTAATATTTACAATAATCCAAAAATATATTATTTCATTGTTTTTCACAGTAGCTGTAATATTGATCGTGTTGCCATTGTCAATTTTGTAAGCATTCACGTTAACTAACAATCCTCCTCCTTGCGGAAATTCTATTTTATTTATAGAAACTGATGGAAAACTTAAATGAATCTCTGCATTATTTGATGGAATATAGTAATAGTAGTTAAGTTGAGGGGATGCTATAAAAGGAACTATATAAATGTTCCCATTATAATTACTTATTGAAGGAATAAAGAGAAAATTAACTGTATAATTACTTTGAGAAATCGTTTTTCCAAGATTTACTTTATACGTTATTGGAGAAACTGTTGATGTAAAACCTTCAGTTAACGACAAAGCTTCCTTTTGAATAGAAGAAGCCGAAATAGTGAATGTAGTTGAAATAAAATAGAGCGATGAAGCTATTAACGACATGAGAATTACTGTTATTATTATTATTAAAAGTAGAATGTTATTCTCCATAAATGTTATATAGATAATGCTATATAAAAAATTAGCTTGCTATTCCAGTCTCGTTAGGTAACATGTATATAAAATTAGTAGTGTTAAACGCTCTAATTTCAAGTAATATTGGCATTTCGTATATTGGCATCTTGCCAATAGTATTGGGCATTGTAAAATTATATATTAGAGGAAGAGGTAAAGCTTTCGAATTGCCATATATATTTTTAGAAATATTTACATATACTGAAGTTTGAATGAAAACTGATATTAAGGTATAATTTGAGTTAGGTTTTAAAATTTCTATTTCTGGCTTTGTAGGAGAGGCATTATAGTAAATAAGAACTGTACCACCATTTACTTCATTAGATATAAGTTTACTGTAATCAATATTACTAGATTGTGGATATATTGAGTTTAAATATAGAAATAAAGGAATTACTGCTCCTACTATTATTAGAAGAATTATAATAAAAGCTAGAAAATCGGAAAGAGCCCTCATTTATCATCACGGTAATTGTTGAATATACCCAAAACTCCAATACGCTTCAATACTACCTGGACCATCAATATATACTATTGTAGATCCTAAAGTGTAATTTTGAAAATATATATTAGTAGAGTGTCCCCAATAATCGAAAATTGTCGCTTTGACAATCCCCACGTATCCAAAAGCCAATATGTTATACATACCTTCTTTGATCCAATATGATCCAGAGCTATAGGTAGTAGAATTTAAAGTTAAGACTGGATTATAGCTAATATTATTGCTTATTGATATCGTATAATAATTGTATAAATGTTCATAATAAATTGAGATCGAAGCAGGGGTAGAATTAGGAGGAATAAAGAGCAATATTGAAGGTAGTATAGTATAAGTTTTTCCGTATTCCCATCCATCAAAACCATAAGTACATATCTCTGTACTTTTGGTAATGTTATATGCTGGAGTTAGTTCTGTTAAATTCACATAACCTGCAGTAACAGATATTATTTGTTCACCATTAATTTGATATTTATGTCCATCTATTCCTATATATATTGGTCGGGTGGCATTAGTATATAATGTAAGGTTAATCTTGGCATTTATCAGCGTATAGTTTGCTATTAGTGATACTCCACTTCCTTCTAATGTAACTTCTATATCAGAAGATTTTGTACTATTAACTTTAGCATTACCTAAAACTATCCAATTATGGAAATACCCAGTATAAGGAAAACCCGAAGCGTTAATAGCATAAGCATATTCTGGAGCGTCTACAAAGAAAGATCCAGTATCATTAGTAAAAGTTACTGGTGTTGTAAAATTTTCCTTTTTAGTATCTATATTTGTTGTTATATTAACTCGCGTTGTATATATTCCTTTATTACCTTGAATCTGAGAAAGAATTATTACCCCACCTTTAGTACTTTGCAGAGGCATTGGACCAATGGAAGAATTTAGAACTAAATAGAACATATTCCCATATTCCGATATTATTACAATAGGATCTCCTGATACAGACTTAGGTATAGAAAATTCAGAGTTTTGAGTTACAGTTATAGGATAATCTATTGAAGAACCATTAGCAAACGTAGTAAGATTTCTCCATATTCCATTAGTAAAATAATCTATTTGACGTATTTCAAGATTTATAGGAAAAGATACTGTAGAATTGACATACAAGAAATCTATAGAACCATTGTAATTATAATATATACTAGGATGACCTAGAGTAACTGATTTATATTCGTCGTTCTTTATTGTTACATAATTATTAGTAATGGTGTTCTGAACAATAGAATTTTGATGAAAAGTGCTTTCATAAAGTAATAATGGAACTCCAATAGCTATAACAATTATTAGTAACATAAAGAAGGCTATTGCATTAGTTTGGCCTTTATTTTTCCTTATCAAATAAAATGGGAAAATTACCAATGAATAGAGACTATTAAAAGAATTAGACAAAATACTACTAGGCAAACTACCTGTTGGATTACTACTAACGCCATATTTCCAACACTGATTATCCACTACTATTAGGGGAGAATTAACAGTAAGAGCAGTATAATTACCAGTTCCGTTTCCTAATATATTGTCAGGATTTTCAAAACCATAGTCTACACCTATTGGATAAGATATTATCAATTGATAAGTCTGATTAGAACTTACAGGCCAATCAAGCCAATTATAATACTCAATAGTAAAATTACCATTTAACTGAAATAAATAATTATATGTTACATTATAGGAGCCTTGTGCTAAATAAACTTTTTCAAGTTGATAACTATTTATTGGACCAAAAGTTTCATTTTTACCATTTATACATAATTGAAGAAGTTGTCCAGCTATATCCCCATATACAGGCGATGTATTATGTATAAATATTGCATAATTATGCTGAAAAAAAGAATATGGCTGAATCAATTGAAAATTATTTTTAAATTCCACTAAATAATATCTTTCTTGAATACCATAATTAATATTCAAATATCCGCTAGAGTTTACGTAAATGATAAATTCATTATTAGATTTACTAATCATATAATTTGAATTATAACTATTTATTTTATATTCGTCTATTTCCCCATCTTTTACTGTATAGCCATATAACGTGTAATTATATGTTATATTTACAGGAGAAGGAAAAACTATTATATGATAACCATAAGTTAGATTAACTGTTATTTTCTGTTCTAGGCTATATGTTATATTATCTATAGAAATTGGTATCGATGCATTAAGAGATGAAATACTAGGGCTGTTTCCATAATTATTTTCAAGTATTATCCCTTCTTGGCTTATAGTAACTGGATATTTTTGAGTATTCATTAAATATACTATAGTAACTAGGCCAGTTCCGAATACTGTCAATTCAGTACTTTTACTTTCAGTATCACTTACACTAACTCTACCAATTGTAGTCCAATTTTCGAACTTTCCTGTTAAACTATATTGAGGAAGAAATATTGTAGAATTCGGAGTGGAAAGAATATAAGTTCCAGACTTCATCTCACAAATCACTGGAGTGATCTGAGTTTTTCCACTTATATCTATATTAATAGAAACTGCAAAAGTCTTACTTCCATTTATAGCAATTCCTATGAACGCTACATCAGGTTTAGCAATTCCACTTATAACTGAAGACATTATAACACTAGTATTAGGATTTAATAGAAAAATATTACCTAGCGATGTTATTATTAATATTGGATAGTTTTGAACATATTTCGGTAAATATAAATTATAATTACCGCTTACTATAATATTTCCTGTAGCTGCACTCCATGTACCATGAAAATACATTATTGAGGTAATATTAAAAGGAATAATAGTAGAATAATAATAAAATCTAATATATGGAAGTGAAGAAGAGTTGTAATAAATAAAAGGATTTCCCTTGAGTACTTCATTTACTTGATATCCTTGAAGTTGTATTGAAGGATCATAAGCTGATTTACCTTGCTGTGAAGATGAAGGTGTCGAATTCATAATCATAAAAAAAGGTACTATTACAGCTATTATTAAAAAAAGCATTATTATTGCAAAAATAACCACTGCTTGAGCTTTCATTGTGATACGCCTGAATAAGTATAATATATTCTAAAATAATAATTACCTGATTGATAAATAATCCATACTACAATAATATCACTACTATTTATTAAACCGGTAACTGAGGTAACTGAAAAAGCTTCGTTAGAAGGGACTTCATAACCAACCTGGTTTGTAGATAATATCTCTCCAGAAGTAGAATATATTGTACTAAATGTTTTTGATAATGGTATTTTTCCATTAGTCAAAAAAACATTAAGAGTAGACACGGAATAAGAAGGAGTTATTGTACCTATAGAAGCTATATCACTAGTAGGTACTGCAAAAGCTATTACAGTAAAATTACCAGAATACTGAGGTGAATAAATATAAAATATACTAGATCCTTTGCCATTTTCTAAAAATAGAGGTCCTGCTGTTACGCTTATATCAGACCCCATATTTTTTGCAGTCTGTTCTGCATTTGTAAAAGATAATTGGGGAACAAGAAACGCTGAAACAAAACTAAAAATGACAAGACCTATAATTACTGTAACAGCTAAAATTATAATTTCCCCTACACCAAAAGCCATATACTTTATTTAATATCTGTTCTATATAAGTCTTTTTAAAACAGTCAGTGGCATAACTAAAACTATTTTTAACCTAAAATATTAGGCTTAATTTTACAAAATAGAAATAAAAACAATAATTTTCAAACATGATTTAATATCTATAATTTATTAACTTATTAAGATCGTTTTAATAACGGATTCCCTAATGGAGCTTTTTTACCCCAGACTTCGGCAACTACTGCTACTAATCCCGTATACCACGCAGCTATTGCCGTTAATATACCCATATAACCTCCAGCATGTACTAATGAAATTGAGTTTTCCATATTTCCAATGCCTAATAGGAAGAAGGTTATCCATAATAGTAGAAATGTTGTAAAAAGACCTAAATTAAGCTTGAAAGTAGCTATCCACATTACTAGTGTAAATATTCCGAAGGCTACTAAAACTAAACCTATAGATGCAGAAGTTATGTTTCCAAAAATTCCCATAGCACTTAAGAAAAACCATTCCCAAAATGCCCCATAAGTAAAGAACGCAGTATATCCGAAAGTATTGCCTGATTTAAATTCAAAAATTCCTGCTACTATTTGTGCTAATCCTCCATAAAATGCTGCTAAACCTAATACTGCGCCTGCTCCTTGAGATATTAGTCCGGCATTAAACGCACTTAAAACTAGAGTCGTTAACGCAAAACCTGAAAGCCCAAGAGGGGCCGGATTTGCTCTTTTTTCTTCAGTCATGAAGAAAAACAAAATGTATAAGTATTTAAAATTTCCTTAAGCATTATAAAAAGCTATATTTATTTAAATCTCTTTTACGCAAATATCCTCATGTCACAACAAGAAAACCTTCCCTTTGACGAAGAGTATTATCAACCTCCTTATAAAGCAGTTTATAGAGAATCAATTGAAAATGCTGAAAAATTTTGGAGAAAAATGAGTGAAGAATTAGAATGGTTTTATCCATATGAGAAGGTTCTTGATGAAACTAACGCTCCTTTTTATAGATGGTTTAGTGGTGGAAGAATAAATATTAGTTATAATGCTCTAGACAGAAATTTAAAAAGTAGAGGAAATAAAATAGCTATTTATTGGGAAAATGAAAAAGGAGAAAATATAGGATTAACTTACTCTCAACTTTATAATGAAGTCAACAGATTTGCTAAGGTTCTTCAAGATTTAGGAATAAAAAAGGGAGATAGGGCAGTAATATACTTGCCTTTAATGCCAGAACTTCCTATATCAATGCTGGCATTAGCGAGATTAGGAGCAATACATAGTATAGTATTCTCTGGCTTTTCGGTTCAGGCATTAATAGACCGAATTAACGATGCAAAAGCTAAGATGGTCATAACTACTACGCACACTATGAGGAGAAATAAAAGAGTTGAATTAAAAGGAATAGTTGACCAAGCTGTTGAACAGACGCCGTCTGTAGAAAATGTTCTTGTAATAAAAAGAAATGAAGAACCAGTAATGAAAAAGAAAGACGTACTCTATCAAGATCTAGCCAAAAGAACTGGTTATAAAAAAGTTGAAGTTGAAGAGACGTCTTCTACTGATCCTTTATTTATCTTATATACCTCCGGAACTACTGGAAAACCTAAGGGAATATTCCATCTTCATGGAGGATATGGAATATGGACTTATCTAACTACAAAATGGGTATTTGACCTTAGAGATAACGATGTGTTCTTTAATACTGCAGATATAGGCTGGATTACTGGACATTCTTACATAGTTTATGGACCTTTACAAGCTGGCGCTACAGTTCTAATGTATGAAGGAGTCCCAGATTATCCAAATCCTGATAGATGGTGGGAATTAGTTGAGAAATATAATGTGACAGTTTTCTATACTTCTCCAACAGCTATAAGGTCTCTGATGAAGTATGGGGAGGACTGGATAAAGAATCATGATTTATCGACATTAAGAATTTTAGGAAGCGTAGGAGAGCCAATAAATCCTGAAGCATGGAGATGGTATTATAAAAATATCGGGAACTCCTCTTTGCCTATAGTAGATACATGGTGGCAGACTGAAACTGGAGGAATAATGATTTCCGCTACGCCAGGCTTAGGAAATTACATGTTAAAGCCTAGCGCCAATGGGTTACCTTTGCCAGGAGTTGATGCTGACGTTTTTACAGAAGAAGGAATTCCTACTAATCCTAGAGAAAAAGGCTATATTGTTATAAAAAGACCCTGGCCTGGAATGCTAGCAGGAGTATGGAACGATCCAGATAGATACATAAAAACATATTGGTCAAAATTCCAAGGAGTGTACTATCCAGGGGATTACGCAGTAAAGGATGAGGATGGCTTCTTCTTTATACTAGGAAGAGCAGATGAAGTGTTAAAGATAGCAGGACATAGAATTGGAACTAGGGAAATAGAGGATATATTAATTTCTCATCCTGCAGTAGCTGAGTCTGCAGTAATTGGTATCCCTGATCCAGTTAGAGGTGAAACTGCAGTAGCTGCAGTAGTACTTAAACAAGGATATACACCGTCTTCTCAACTTAGGAAGGAATTGGAAGATTATGTTAAGAAAACCTTAGGTTCAATAGTGATATTTGGAGGAATATATTTTGTTTCTAAATTACCTAAGACAAGATCAGGCAAAATAATGAGAAGATTGGTAAGGTCAGTAATTTCTGGACAGACACTTGGTGATGTATCTACATTAGAAGATGAAACGTCAGTAGATGAACTAAAGAAAGTCATAGAAGAGTTCTCTAAAGAAATTAAAAATCAATCATAAATTTTCACAATATACTAAACGATTAAATTTTTATTTTTAAATATTATCTCGTTTTAGAGAAGCATCTCTGAATTTTATATTTGGTATACTAAATTATTAAAATATACTAAATCTAATTACATTAACTTTTTATAGAAAAACGTATAAGTTAAATTTCTTTATTATAATTTATGATTAGTAAAGAAGTTAAGATTAACTTGAAGAACGCTAACAGTAAGGTTATTCTAAACGAGATATTTGATATAGATAACCTCCCTAAATTATGGAAATACCTTCAAAAAGTAGAAAAAATAGATTCCATCTCGTATATAGCAGAATTTAAAGTATTTATGAGATTTAGATTCTTAATGAAAAGAGAAATATCTGAATATTCGGTAGTGCATTCTGGTGTAATGAAATTCCCTAAAGCTTCTTTTACATTTTCTGTAAATGTTATACCTTTGAGAGATGAATCATTAGATATGATCGTTAGAGGTGATTACCAAGGTCCCTTAGAAAGATTAGCTGGAAGTCCTATGCAATCGTTTTTAAACAATTTTGTGGAAAAATTTTCTAATAAGATCCATTTTCAGACTTTCGAAAATTTTACAACTCTGATCAATGAAGGAATAGAACAAAGTAAGAATTATGATGGAAAGATAAAAATTTCTGTGGATGAATGTGAAGCATTTTTCGAAAACGGAAAAATTGTAGAGATAACATGTGGAAGAATTAAAGACGATGATGCAATGAAAGAACTTTCTTCTAAGAAGATATATAACGCAATTATTGATTATTTATGATATAATACTTACAATCAAACTAAATCGATTTAAATAATAGTATATACTATTAGAATTCTTTGTATCATAAAAATATAACTAAATAAAAACAGGAATTTTTAACTCTGTTTAATACATTGAAATAAACTTATAATGACAAAATATATAAGGGATAATCTGTAGTGACTAATATGCTAAGGCCATTAGTAGCAGTCGATTTAAATTCTCGGATTGACTATCTAACGCTATACAAATTTATGGAAGGATTATTGAAGAAATTTAAGGTAGTAGATACTGTGTTCATAATGGATGACAAAAGTATAGTTGAAATAGATGAGAATAAAGTCTTTAGAGTATCAGATTCTTACTCTTTTGTGGAGGTAGTAAGAAACTTAAAAGAATTGTCAGAAAAGAAAGGCACACTTGACTTGAAAAGTTTAATTATGCTTCAAAAAGAGTTGGGGAGAAGTCTAGTAGTACTAGTGAGTAATAGGAAAGCTAGATCTCTTGGTAACTTGTTAATAGTTTTTGATGGAAAGAAAGTAAAGACCTTGGCTGGGAACTGATGAAATTTTGTAAAGAAAATGGAAATTACGGAATAGAATTTAATGGGAATTACGTATCCCTTATTTCGGGAAAAATATTTTTTGAAGCTATAGATAACTGTTTTGAAATACCAATAGAAATTGATGAAAGAAATCTTTTTTATAAAGAATTAAGAGTTCCATTACCTTACAATTTAAAGGCAAACTTAGCTAGAGCTCTATTTATATTGCTAGGTGAGGTATCTAACGATATTTTCTACTATAGAAGAACCAAGATATTTATTGACTCAAAAATGAAGGATATAGATCTTAATGCTGAGAGAAAATTCTCAAAAATTTGCGGCAACTATGGAAGCACAGTCATGTACTATTGTATAGGAAATGAGACTTTCGCCATATTATCTCCTAATAAAGAAGAAGGAGAAAGCGCTTTTCAAAATTTTAAGGAATTTTATTATTTCGTAAAATCTTTAAGATAGTATTATCTTATCGTTCCAGAACCTAGCGAAGAACATTACTGCAGAGATAACTACTGGTATTACCAACACTAGGAAAGCATATCCTAAGCCTATTATTTGCGAAAGAGCTCCTACTATTATTGGTATAGATACAAATAGAATATTATTGTAAGCCAGAAAATAGGAATTAACAGCATTTCTTTCTATTTGTGAAGTTGACCTAGCTATCATTATAGTAGACATTGGAAATATTGAACCGTGAGGAATTCCTAAGATTGCCATGAAAATCAAAAAGCTGTAAAAACTAGGAGATAGTACCATCCCAGTTAAACCAATTAAGGTTATTAAAATTGAAATCAAAAGAGGATATCTTAATGAGTTAAAAGGTCTTATTGTCATGGAAAGTCTAGTTAAGAAGGATATTGTAAAGAATGGTATGTAAGAAAAGTATGCTAAATCCTTTGGAACGCCAAATTTTTCAATAGCGTATATTGTCAAAAACGCTGTTAGAGCAGCAAAGGGAACATTATATGTAGTTATAGAAAGAACTGAAGATATGAAACCTTTGTTCTTTATTGCACTCATACCGTGAGTTTCCCTTTTTACCTCAGGGAATTTAACATACCACGAAAGACCGAAAGCTAGAGCACCTAGAGGCAAAAATGCTAGGAATACAGATTTATACCCAAACATTGATAAAACATAACTTTCTAAAGATGGCCCTATTATTAAACTTATACTTAAACTAGTGGAATAGAGCGAGAGTAATCTTTCTGCAGTTCTTTTATCGTCAACAAGAGATGCTGAAGTAATTAAATTAGGTAATATAAGACCAAAAGCTATCCCAGCTATACCAGTTATTATCCATATTATGACTGCGTTAGATAGATAAAAGATACCTAATAAAACAAATATTATCAAATTGGCAGATATGAATGCCTTTTTTCTGGAAGAAGATTGCAACGTAGGATTAATGTAGGAAGTAGAAATAAATGTTGAGAGAAAGACTACAGCATCTATAATTCCAGCTAACAAATTGTCAAAACCAAAGACATACTTTCCCAAAGGAGCTAAGGTTGTTGTAACCATATTATTTGTTGCTCTTGTAGCTATAGTAATTAATGATAAAACTAAAGCCATATATATGAAAGATCTTTTGTCACTCATTGCAGTAGATATAGGTAACTTTGTTACTTAAAAATCTATTCTTCTTGTTTATGCATTATTAGAAAAGTAATATAACATTGAAAAAGATAATGGCGAAAATTTAAAATAAAATTATAGAAAAATAGATGTTAAAAAATTTACTCGTTTAGGTATTCTCTCCAGAATGTTCCTTCCATGACTGGGTTAATTATCCTTATGTATGGTCCGTAAATTAAAGTATCCAATGCCTCATCATGAACTTCTCTATACTCTGGACTTAATAATACTCTACCCATTCCGAACTGTAACGCATCTAGATTAGCCCATTCTACGTGAACTATGTACTGTGGTGGTGTTGGTTTAGCTTCTGGTACCTGATACATTACGTTATTTGGATCTGGCTCTAATGAGCCTGGGCTCTCTAATAACTGATGGAATCCTTTTGACCCGAATTGGAAGCTTCCTATTCCAGAGACGCCTATTTCTTTTAATAACATTGCACCTAGGAATCCTGGTGCTCTCTTAAACATCTCTAAGGTCTTTATTATTGCATCTTCAAATTGCTTTTCTTTTCCTGGAATTACTGTATGTTCTCCAAATGCTACTACTCTTTTTCCATAAGGCTGTGAGATTACTGGAATTTCTAATGGTTTTCCTTCTGCAAATTTCTTTCCTACTACTGCAGTGAAATCTGTCATCTCAGTGTTTATTGGCATGTCTGCATACTTTATTTCGTAAATTGGTTCCCAAGGTCCCCAAACCATTTGTGAGGCGCATGAGTAGCAAAGTCTAAATAGGTAACTCCAGTTTTGTCTGTGCATTTCTTCATGATCTTTCCAATCTTTCCACATTGTGTATTGTAAAACTCTTACAGTACTACTTTCCTTAGTCATGTCCATCTTAGCTCCTCCAAATCTTTCGCCAAACGGTAATACTCCTATTTGAACGTGGTTTTGGAATCCTACGAAACCCGGATGTCTTGCTGTTACCATGCACACTTTTGGTCCTACAGCTGAGAACATTTCAAAAGTTTTAGGTTCATTTTTCAAATCTGCCATGTTTATAGCTATGTAAGGTTTAGGCATATTTGTTCACAAAATAACATATCTCACCATGTCTATTAAACTTTGTTTAGTAAAAAGTATATATTCTACAGAAAAGTATAACCGCGTAAAAACAAGAATCTGTAACAAATTATAATTCCTTATTTAAAAAGATTATGTTTAAAAAATGGCGAAATCTTCAAACGAATTATAATATTTACTAAATATTTGTGATATAGCACTCTTCATATTTTCCTCGACTTGTCTTGGTTTCAATCCTAACGATAAACCTGCATGATACCAGCTCTTACCTTGAAATGTTCTTGCAAATAATGAAGCTAATAAAACATCGTCTATATCAAATTTATTCTCAAAAAAGTACTTTGTAGCTAAAGCATGAATAGCTTCAGAAACTGAATTATAAGGTAAAATACCATTTAAATATGAAATTATTTTGGCCTTATATAGGTCTGAAATATTGCCATATTCGATCGAGGGAGTTGATCTTAAAATTTTGACCAAGACCAATGGACTTACATTAAAATACACTTGATGTGATGTTCTTAGAATCTTATCTTTTAAATTCGCAGATAAGAAAGAAGTAATACTCTTCCCTTTTTCTGACATTCCTTTTAATACAATTATGGAATATCCTCCTAAGCCCTCATTTTTCCTTGATGCTAAATATACTGGAGTAAAACCGTTTCTAAGCCAAAAATTAAGAACCTTTAATTCGGATACAAAAGACGAACCTACCCAATCTAAAGAATAATTTAATGCAATTTCAGTAACTTTATTTAATAATAACGATCCAAGTCCCTTATCTTGGAGAGAAGGTATTACAGCAATTCTCATTATTCTCCATCCTCTTAATTCTCCAAAATTTTTTAGTCTTTGATATTTTATTATTCTATGTGGAATCAAATTTCCCTCATTTCCCTCAGCATATAACATTGATTCTATTTCACTATCGTTAAGACCTCCTTCTTCAACTATTTGAGCTACTGCAATGCCAGGATCAATTGTGAAAATTTTTTGAAATGCCATGTCTCCTAAAAGCATTAAATCGTCTGGGGAGTTTCTATAATGGGCGGATACTAATATCCCATATATTTGCCTAAGTAATTGCTCATCACTAAAAAGAGTCTCTTGACTTATTTCAGTTAAATTGTTTGTTGATTCGGCAACCTCTGGTTCAACATCTAAAAGCATTATGTCGTATATTAATTTCTCTACAGGATCTCCTCTTGCATATCTTATTGGATAGTCTAACTTAACCATTTGTAACTTAACATTTTTTTCTAGGTTGTTAATGTATTTTAGAAAAGCTTTTCCAGAACCTTCGTACCCATGAACTGTGGTTATCATAACAACTTTTTCCCATCTTCTCAAAATATAATCTAAATTTTCTATACCTAAAGAAGCTGCTTCATCTATAATTATTATGTCTCCATCCTCGTCTTTAGCGATTTCTGGGGCAGTCCATCTGATCCTAACATTGCCTACTCTTATTGACATTATTTTTCCTTCTTTAGATCTCAAGACCTTAATGTCAACTTTAAACAATTTTAGACCTCTAACTAATGCTTCAAGTAACTCTTTTGCAGAATAATAAGAAGGAGACGTTACTATAATATTGATAGTATTTTCAATATTCTTAATCATGAAATTTGATAAGGCAAATCCTACAGCAACGCTTTTTCCCCTACCTCTAGGAGCTATTACAGTAAAAACTCTCTTACCTTCCTCTTCTATGAAGTTGAATTCCTCTATAACTTTAGCTTGATCATCGGTAACGCAAAGATCGTAAAGCCTTTTGGGTATTTTAAAAATACCCTTCTTTTTAGGTAATGAAGTCTCTGAAGAAGAATAAGGTCTAATTATTTCCTTATCTCCAAGATAAATTATTCCTCTATTTTGAAGTAACTTTTGTAAGAATCTTTTCTCAAAAAGGTCTTTTACTATATTATGTCTAGTTAGTGACGATTTATAGAGCTTATTTTTAAATATATTATCGGAATATAAGAGAACTAACCCTCCTCCTCTAGCCATGTCTGAAAGTCTTGCTATATAATTCGGTCTGAAATCGTCTATACAATCTAATATTACTACGTCAAAGGTGCTTCCCAAATATTTCTCTGAAGAAGAATAATCAATGTCGTTTACATTAGCTACATTCATAAACTTCTTTAATTTTTCCTTACTTCCTTCTATCCATGGATGGAAAGCATAGGCAATAGTAGCTCTAGGGTTTATTTTCAAGTACTCTTTTAAAATTACAATAGCCTTTGAAACACTATCATCACCTTGTATAAAAGCTAAATTCCTATAATACCCTTTTTTAGCATCTAAAAACAAATTATCTAACTTCATAGATTGGTTTTTCACCTCTTAATGCTAAAATCAAGTTTTTTACTGCTATTTCAGCCATTTTGTCTCTAGTCTCAATTGTTGCACTACCTAAATGAGGAGTTAAAACAACATTGTTCATAGATATTAATGGACTATCTTTAGGTAATGGCTCGTGTTCAAATACATCTAATGCAGCGCCTCTTATCCAACCTTCTTTTAGAGCTTTTATTAAAGCATTCTCATCTATTACTGGACCTCTAGAAGCATTTATTAAAAAAGACGATTTTTTCATCAATTTTAATTTTTCCTCATTAACTATATGATAAGTAGTTGTGTTTAAATCTACTGCGATAACTAGAAAATCTGATTCACTGAATAATGTATTTAAATCTACAAATTTTGCATCTACATCATGAGGAGCTCTACTATTGTATATAATGTTCATGTCGAACCCTTTTGCTCTCCTCATAACAGCCCTAGCAATTCTTCCCATGCCTAATAAACCTAAAGTTTTTCCATATACTTCACTTCCTAGCATAAAAGTAGGATACCATGAAATTTCCCATTTTCCTTCTCTAATTAACTTATCTCCTTCAACTATTCTTCTTGAGACTGCAATTAATAGACCAAATATAAGATCTGCCGTAGCTTCTGTAAGAACTTCAGGAGTATATGTTATAATAATCCCACGTTTTTTTGCATATTCTACATCTATATGATCAAATCCTACACTATATGTACTTATTACCTTTAGTTTAGGTGCTGAATCTATTATTTCCTTGTCTATTCTTTCTGTTAATGTTATTAGAATCCCATCCTTATCTCTTATGTTATCTATTATCCATTCTTTGGGTGGAGGATAATTTTCCTCCCATAATGCAACTTCTACATTTTCTGATAAATAAGATATCCAATTTCCAGGGAGCTTTTTTGTAACTAAAACTTTCATAAAAATATCTTGTGAAAAACCATTAAAAAGGAAATTAGATTGAAGCTAAATTATATCGAATTAACATTAACATAATGATAGATTGAATAAAATATTTTTAAATAAACGTAAAGAGTATATTCTTCACAATTTAAATTGTGTACACTATGCATAAAGTATAAACTATCTTTTTAATGTCAAAATAGAGCATCTTTATATTTTAAGTTAAAGTCTGCTAAAGTTATGAAATCCTATATACATGCTACGATATCATCATCGTTAGCATGGGCAGGAAATATATACGACTTATTGTTAATGACATACGTATATTACTACATAATGAGAGCATTCTCATTATCATATTTTGAAGTATCAATATTGTTCGCATTGGGATTAATAGGAAGAGTTATAGGAGGAATTATTTTTGGAAAATATGCTGACAGTATTGGAAGAAAGCCAGTACTTATTATTGGAACAGGGGGCTATGCAATTTTTCAAGGTTTAATGGCTTTTTCTCCTAATGTTTTCCTTCTTTTTATATTTAGAGCTATTGAAGGGATATTCATGGGCGCAGAATGGACTGCTGGAACTGTAATAGCTTATGAACAAGCGCCTAGATCCCTTAAAGGTTTTGTCACAGGAATAGTTCAAGCAGGCTATGGAATAGGTTATGCTCTTACTGGGATAACATACCTAGTATTTCTATCAATGATAAGTGATTGGAGATTATTCCTTTTAATGGGTGCAACACCTTTAATCTTACTGCCTTACGTTCAACTTAAAGTTAAAGAAAGCATTGTAAAAACTAGTAAAATAAGAATAAATTACAAGGGATATTTAAGTATACTATTAAAAGCTACATTAGGAATGTCTGGAATGTTTATAACATACTTTGCAGTATTTGGAAATTATCCTACTATAGCTACTGATTATGCAAAAATGCCAGAAGCTATCCTAGGAATACTCATGACAATAGCAAACTTGCTTCTAGCGTTCTCTTTCATATTATTTGGAAGATTAGCTGATAGAGTAAATAAAAAGAAGCTTATACTTATGGGTTTAATAGGATTATTAGTATCTCTCCCACTTTCTGTTCCTGCACTTTCCCAGTTAGTAAATCTCTACATAATGGTACTAGGCACTCTCATGTTCTCTTTCTTTACAGGTTTTTGGCCAGTAATGCCTCTATTATTAGCTGATGCAGTACCATTAGAGGTTAGGGGTTTCCTATCTGGATTTGCCTATAATTTTGGCGGTCTTGCAGGAGGAATTGCCAACATAATACTAGGAGCAATTGAATCAATTTACGGCATAGACGCTCTTAGTAAAGCTATTAATATTATAGGCTTTACTGCAATAGTAATGGTATTTGTGAGCATAATCACTTGGCCAAAGAGCGGAAGTAAAGCAAAAATTATTTTACAGGCATGATATTTTTTAGCAAATCCTTTTTTAATTAAAAAGCAAATTATACAATATAAAATGTTTAGTGATATTGATGAAAATATTTAAATAACATATATTATACTCTTTCTCTAAATGAAAATAGTTTTAGCATATGATGGATCTGAAAATTCAAAAAAGGCAGTTATATTTTCCTTGCGATTTGTAAAAAAAGAGGACGAAATACACGTTGTAACTGTAGTAAAAGAAGCTCCCAAATCTCCAGAACAAAAAATAATAGAATCCGAAGAAAAAGGAGCCAAGACTCTCGAAGAGATTAAAAGTGAAATGGAAGGATTCAATGTTAAAACTAAGGTCCTAGAAAGTACTGACGTTTCCGATGCCATAATAGAATACTGTAAGGAAATAGGCTGCGATCTAATAGTAACAGGAAGTAGAGGATTAACGGGGATTAAAAAAGCCATTATGGGCAGTGTGTCTAGCAGTCTTGTTAATAAATCTCCTTATCCTGTACTTGTTGTTAAGTAAAAGATATATCTTTTTTAACTTAATATAACAGTGTTAATAATATGAGCTCTGTAATAGCTAAGAATTTAACAAAGAAATATGGGGATTTTACTGCAGTAGATCATATTAATTTTGAAATAGAAAAAGGAGAAATTTATGGATTATTAGGACCCAACGGAGCAGGGAAAACTACTACAATAAAAATGTTAACTGGTCTAGTGCCGCCTACAGAAGGCGATGCAATAATAGCTGGCTTCAGTGTTAAGGAAAAACCTATAGAGGTAAAAAAGAGAATAGGTTGGATCTCATCTGAGGTAATTTTAGACGATGAACTCACTGCATGGGAAAATTTGGAAATACAAGCAAAGCTAGAAGGCGTTAAGGATTGGAAGGAGAGAGGAGATCAATTATTGGACTACTTTGGAATTAAAGAGTTCAAAAATAGAAAAGCAGGAAAATTTTCTACTGGTATGAGAAAAAAATTGGAGGTATCTATGGCATTACTTAACTCTCCAGAAATTATATTCATGGATGAACCTACTATTGGACTCGATGTAAACACTAGAGCGTCTATGTGGAAATTAATAAGACAAATAAATAAGGATTACTCAGTTACTGTATTATTAACCACCCATTATATGGAAGAAGCCGATATGCTTTGTAGTAGAATAAGCATAATTAACAAAGGAAAAATAATAGCTACTGGAACCCCGGAGTATCTAAAAGAAAAATATGGGGGAGATGTAATAGAAATAGAACTTAAAAAAGATATTGAAGTGAAATTACCTTATACTATAGTTAAAAAAGATGGAACTTTAAGAATAAAAGTTCCTAATGCAGAAAATACTCTTTTAGAAATAATAAACACTATAGGAGGAAATAACATAAAATCTCTAAAAGTAAATAAATCGAGTTTAGATACGGTATTTCTAACGCTAACTGGAGGAAGTATAGAGGAGGAAGATTTTGACGCAAAGAAATTCTATGCAATGTTAAGAAGAGCAAGAAGGTGATCATGATGATGGAAAAACTCTCTGCACTATATATGAGAGAAATTAAGAGAATTTATAGAAGTATATACATGTGGATAATGCTTATTTCTCAGCCTATAATGTGGTTAGTATTTTTTGGAAGTAGTTTTTCTGGAGTACCCAAAGAGTTTCTTCAAACATTCTTTCATACCGATAACTATATTGCATTTATCTTACCTGGAGAACTCTCTGTATCAATGCTTTTTGTAGGTATGTTTAGCTCTATGAGTCTTATACAAGATAAAAGATTTGGATATCTCAAGAGAGTTTTAATAACTCCTACTCCAAAGTATAATATATTTCTAGCCAAGGCACTAGGAGGTGCAACTAGAGGAATACTTCAAGCTCCGATAATGATTATAGCTAGTTTAGCACTAGGAGTCTCATTAAATCTTACACCTATGTCAATAACAGTATTATTCTTAGCGTTATTCTTTGTAGGTATAGGATTTTCATCACTGTATTCAGTTCTTACTGTAAAAACAAGTGATTGGCAGGCTCCAGGGGTAGTGGCAAATCTAATAAATTTACCTCTGATGTTCTCAAGTACTGCATTATTCCCTAAAACATTTTTCCCAGTATGGCTTAAGCTGATAAGCGACGTTAATCCTATCACTTATTCTGCAGAACTGGGCAGAGAAGCATTACTTTTGAATGATCCAAACTGGACATACTTAGCATATCTAGGTATATTCGCTTTAGCAATGTTAATTATAGGATCTCTAATAACGGATAAAGAAATGACTGCTGAATAATAACTCAAGAATTTTGTTTTTAATAAATTATCCCTTATGTTATTTAATGAAATAATATTAAAATAATAGTTAAGGATAAACTATGCGGTAGCTTCGACTTTTTTCTTTATTCGCTCAATATATTCGTCTATATTTATTAATTCATTATTTTCATCTACAACTAAACTACCAGGTTTTCCTTTTCTACCTTTAAATATATACCATACTAACATTATGGATAAAGTAGACGTTAAAAATAATGTCTGAGGTAAATCTGGAGCTTGCAAAGAAGTCAATATTCCCCATAAGTTTAAACTTGTTGCTGCTATAGGAATTATTATTGTAGATATTCCTAATTGTCTTATTCTATAATAAAATACTGGGACTCCAAAACCGTCTACAACTCTTCCGCTTAACCAAAGTAAACTACTTATTACACTTATTTCTAAAAATGCATTTGTTATACCAACCATAAAGACAGAAGTAAAAGCAATTATGCCTGTTAAAGACCCCACAAATAAAGTAGCAAAGAGAGGTTCTCCTGACCTATTTACTTTTGAGAATATTTTAGGTGCTGATCCTTCCCTAGATAGATTAAATATAATTCTTGCTGCGCCTATAGTTGTTCCTATGTTAGAAGATAATAAACTGTTTATAGACAAAATTAGGCCTATTACCATTGGTATTGAACCAAAATAGAACATCTCATAAAGCAAAGGCTGTGGAGAATTGGCTAAATTAGAGAGAGAACCATGCCATAATGCTACTAATGCATATGTTCCTAAAAGCATGGAGATCCCTCCTACAAGTAAAGAAATCCACATTCCTTGCGTAATAGTTTTTGTAGGTTTTTTAGTCTCTTCTCCTAAATACGTTGCAGCTCCAGCTCCAGAAATACTAACCATAGATAATACGAATGCATCTGCTAGATTTTGGGCAGAAACCCCACTAGGTACAAAGTAATTACCATGAATACCTCTTGATAATGATGTTGCAAATAAAAATATTAGAAGAGCTGCTTCTAATGTAGCACTAATTGAAACAACATAACCTAATAATTGTTTTATGTGAGTAAGGGAAATTAGGGTTGGATATAATATTCCGAAAATAAGAACAGAATAACCAACCCAACTAGGCATTGAATAGCCTAGTATTTCGTAAGATATTGAAACCAATAAGTAGAGAGTGATTGCATTTACTGCGTTTAGAAAAGAGTAAGCAAATGATTCTGTTAACGCTTCAAAGAAAGATATTCTCTTGGACTTCCATGCACTATATCCATATGTGTAATATCCTCCTGCAGAAGCTATTTTCCTTGTATAACCAGTTAATGTAAATATCCATAAAGCACTTCCTAAAAGAGCTAATAATGTGGTAAATACTACAGAATATCCAGCGTAAACTATAGCCGCAGTTGATGTAGATACTACACTGCCTAAAGGCGCAGTAACAGCCATAGCTTGGCCGTAGGTTCCCCTTAAAGAAATAGAAGCTTTGTTGAGTCTCATAATCTCCCTTTAAGCTTTTCGCTCCTTAGACTTTATAAGTCTTTCCTACTTTGTTATCATCAATTTCATGAAAGCTTAAAAGACAATCCTCATAAAAAGTATAAATTTGGCTTAAAGGGAGACTAAAAATCTTTTAGTTAAATTAGTTCATAGTTTTCAAAAAATTTATTTCCACTAAAAAAAGTATTTTCATTCTTTAGAATCGTTAATACACTCTTCTAATGTTTTCTTTAGATCTTCAAATCTTATTTTCATTTCTGGAGGGAATGGTTTTTTAGGCTTTATTGAATTTAAAATGGAAATTGCTTCTTGAACGAGCTTTATTGAGGCATCTTTATTTTTAGCCTCATATGCATCTCTAACCTTCTTTGCTGCTAATTTAGCATTTTTTAAGTCATCCTCAGTTATTTCTCCGTCCCTAACTAAGAAAGTTTCCATGTCAGTTAACACTAGTGGAATTTCAAGATCTATGGCCTTCCATAGTTTTTCGTAAATCATCAAGATAAATAACAAAGAGAGATATATTTATCTTCTAGTCATCTTTATCAGATTCAGGGGGGCGTTCAGTAATAAATATTTTGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGCGATTTGGGGAGGATCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAACTATTCTAGCCAATTTCCTGGCTAAAGCAGTGTACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAAGTAGAACAAGCTGCGCAAGTACTTATTACCCTTCTTCGATATTCCCTTACAGTAGCTTTACCGCTCCTCTCAACTATTGGGTCTAAACCACAGTAGGCTACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCCCAACAATGCCTATTATTATTCCCGAAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTGATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTGTACTCTAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAAGCATTTCCTTGCTTATTTTTTCCTCGTCACTGACTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTCAAGGTCTTTTAGGAAGATATATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTGTGCGTCGTAAAAATCTGTTTTCTTTCCTCTCAAGTCCTTCTCCTTCCATAGTATATTTGGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGAGTATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGTTACTAGATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACCCTCCCCAACTAATTAATCTATATAGGTTCAAAGGGGGCGGAAGACTCCATCCGTGGAGATGGATAGGCTCCACATGCTTTGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGAAGGAACTACTTGATTGGGGTCAACTTGAGGGCCTTCACTACCTCCTCTCCTATACCTAGTCTTCTTAGTCTCACCCTTGTAAAGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCACCGTAGGAGGCTCCACATTCCTTTAACAAACTTTTTATCATTGTAAATATCATTGTAAATACTACTAAAATACCATGATATATCAAATAAGTATAGTTGCAGCATTATTAGCTGGTTTAACCATAGTTCTAGGAGGAATAGTAGAAGGGTATGGGTATGGATTATCCTTAGGTACTAATTGGCCTTACACAAGAAATATCATGGAACTAGCTAGCAAGAAAGATCCAGAAGCTATACATAGGATAAGCGCTACTATAGTTGGTCTCATAGCATTAGGGTATGTGATTATATATCCGTCGTTAATCACTGCAATAGGATTTTCGGCAGTAGTAGCTACTGCACTTTTAGGAATGGCTACACTTTACGTACTTGCAGGAAAACTCCCATCATATTTTCAAGGTTTACATGATATTGCTGCATATACTACTTATGCCGTATATTTGCTTCTATTCTTAGAAGGTCTGGGATATCACGTAAATATTCTAAGTTTTATGATAGACGCAGTTGTACCTCCTCATTTCTTGTATTTTGTGATCTTCATGGGAGGTGTAGTCACTGGTATGAGAAAAATGAAATTTGAAATTGGAAATGTTACTAGACCAAAGAACGCAATTCAAATATCTTGGGTATTACACTCTATACTAGCGGCAATATTCATTATAGCAGTAGCAATATTACATTACTGGCTAACACTAGTATTCACTGCAATAGAAATAGGTGTAGGTTTATTTGTTTATGACACAATAAATAGAAACTCTGCTAAACCCGGTATTTCAGTAGGTTTACATCAATTATTTTCGTTATTAGTTGTAACTGCAATAATAATTAACAGCTTAGGTATAGCAATTTGAAGTCAGTCGAGGTGCATGCAATCATTAAATCATTTACCGGAACTCATCACTTAAATCTTCTAAACTAACTCCTAGAGTAGAATCTGCATCTAAGTTATAATATTTTTTACTCAAATCGTAAATACTCTCATAAATAATCTCATTCATATGAGTTCTGTTTATCCCAAGAGTAGATGATAAATACCCCCAAGGTTTACCCTGTAGAATCTTTCCTATTAGTACTTGCTCTTCCTCATTTTCTAGATTCCAATTTCTTTTCGAGTCCCAGAAATATTTCAGCACTAATAAATGTATAGCGTCAGCAGAAGATTCATATGGACTAGTACCTTGCAAAAAGGCAGAAATTTTCGCTAAATGAATCTTTGTTAATTTAACGTCTTTATGAGATCTTGAACCCTTTAACAATATGGATGCGAGGTTAGGGTTCATATCATAATACACATCATGAAGAGTATTAAGAAGCTTTTCTTTGAAAATATACGATGATATATTAACTATTTTCTTAGCTTCTTCTGAAAAGGGCTTAATTACTACTACTGGAAAGTCACCGAATTTCTCGTTACGTTTTGGAGAAACGTGTATAGGATAAAAACCGTTTTTTATCCAGAAATTAAGAACTTTAGGATCTCCCATAAATGAAGATCCTATCCAATCTACTCTTTCTTCTTCGGCTTCTTTAGACAACATTAGAAGCATTTTACTACCTATTCCCTTATCTTGAAGTTCTGGTATAACAGCTATTCTTACAATTCTCCAACCTTTCATTTTACCAAATTCCTTAATTCTTACATGTTTTAACATTCTATCGGGTATTAGATCCCCATCAAAAGTACCTCCTTTTAATGCATATTCTATCATAGGATCAGATAATTCACCTTCTTCTGAAACTTGGGCTACTGCAATATAGGAATCGTCATAATATATCGATTTTAGATGATGATGGACACCATCCAACATTATCATTAGATCGTCTGGATTATTTCTATAATGGGCTGTAACTAAAATGCCATATACTTGAGAAAGTATGCTATCAGAATTGATTAATTTTTCCTTATTCAGAGTTTCAAAATATGTTACATTTATATCATTTAAAGGCCTTGAAACTTCTGCGTTAAGCATTAATGCGTTATATAGCCAATTCTCTATTGGATCTCCTTCAGCATATCTAAGAGGTTTTTCCATAGTCAACCATCTCACGCTAAGCTTTCTCGAAACTAGCATGTTTCTTAAATATTTTAGAAATACTTTACCTGATCCTTCATATCCGTATACAGTAGTAACTAATACAACCTTACGCCAAACCTTAGTCGCTATATCTATATAATTAATACCTAAAGCTGCTGCTTCATCTACAACCAATATATTCCCTTGATCTGTTAATGTAGCTTCTGGAGATTCGTAATATACTCTAAAATCATTTCCATCTATAGCCCTAATAAACCCATTATCTGACTTTATAACCTTATTTTTTATGCCTAAAGCGTCTAAACCTTTCTTTAAAAATTCCATTATTTGAGAACATGAAGATATTGAAGGTGCAGTAACGGCTATTCTTGATTTAAAATTATCTTCAAGATTTTTATAAATTATTCCAGCTAAGGATAACCCAGTTACTGCGCTTTTCCCTCTTCCTCTTGAAGCAGTTAATGCTAAAATTCGCTTACCACCACGCAATAGAAATTCAAAACTTTCTATTACGTTGTTCTGATCTTCACTAAGAGATAGTCTATGTAACTCTATAGGCATGTAAGGATTTTTGGGTATTACAGCACTAGTTCTTTTTCCTAAATTTCCAGAAAAAGTTCTTGCAAAATAACCTTGTTCATTAATAATAAAAGTCCCTTCGTGCTCAGCTATTTTGTTCTTAAATCTTTCTTCATATAGTGAACTTACCATTCCATTCCTTACTATAGTATTTTTAAATAATTTATTTTCAACAAGATTATTTGTATATAATACTATTAAGCCTCCACCTCTTACTAGGTCTACAAGTCTACCAATATAATTAGGTTGAAAATTATCTACAAGATCTAGAATAACAATATCGTAAGTATTTCCTAAATATTTATCAGAGCTCGAGTAATCTATATCATCAAAATTACTAAAAATTTCTCTTATTTTTAACATTCTTTCTTTCGATTCTGTTACCCATGGATGAAATGCATAAGCTACTTTAGGATTTGAGTTTATTTCTAAGTAAGCTTTTAATACATTAATTAGGTCATTTAAGTAATCTTTTTTCTCTATATATACTAAGTTTCTATAAAATCTATCTATAGAATCTTTAACTGAAGACTTTAGCGTTTTTAGGAACTCTTCCTCATTCACCAGCTATTTTCACAGTATTAGTTAATAGATTCTACTCAAAAACTTCCTAAACCTACTTCTCTTCTAATTACAGATAAATCTTCCTTATCTAAATGAATTAAGATTGTCTTTTCTTGAGAAAATTTATCATTTACAAAAATAATTCTGATTATATTACTCTTGCTTATATAGTCAACAAAATTTTTATCTATTGCGTATTCTAAATATAAAGGATTGTTAGGATCGTCTTTTATTATATTTCTTAATATAACATCTCTACCTTCCCTATCTACTTCTATATCTATTGGAGGATTAGAAATTTTTGGAACGTCTTCAGTCATGCACAAAACTAAGTTATCACACCATATTACACACTCTCCTTCTTTAAGATTATTTCTAATATTTTCTGGAATGTCCAATGCATATCTATTTAATACTGATATATTAAAAACACTCATGATCTCTGCATCTGGCGAGAAAATAGTTTCCACACAAAACTATATAGCAAGTTACATAGGAGCTAAGGTTCTAGAAAATGGCGGAAACGCTTTCGATGCTGCTGTAGCTATTAGCGGTGTTTTATCTGTAGTTATGCCACATACAAGCGGTTTAGGAGGAGATGCATTTCTTCTAGCTAAAACTCCAGAAGGATTTTTAGCATACAATGCCTCCGGCTGGGCTCCAAAGAATCTAAAAGTTGAAAAAATAGATGAAAAAAGTCCTTTTTCCATTACAGTACCAGGCTTAGTCGACTTATGGGATTTTTTACAAAGCTATACAAGTAAAGACTATGAAGAGCTACTGTCACCTGCTATAAAACTAGCAATAAATGGATTCAATGTTGGCAGAAGTCTACATAATGCAATTAAAGTGAGTAGTGGGAATTCGGAATGGAATAAAATATTCGGAAATAAAAAATTCTCAGATAAAGTTAAAAATCTAGAACTAGGAAAAATTTTGAAGCAAGTTTCCAAAGAACCTAGAGTTTTTTACGAAAAAATTGCAGAAGACCTAGTAAAGGATTTAAATAATGAGGGAAGTCCTCTAGTTTATGAAGATTTTTATGATTTTCATGGAGAAAAGGTAAATCCATTAAAAACTACTTATAAAGATTTCAATCTTTACGAATTACCTCCAAACACACAAGGAATAACAACATTAGAACTTCTAAAAATGATAGAAATATCCAAAATAAACAAATTAGCGTACAATGATATAAAAAGAATAAATGAACATGTAAATATGTCAATTTTAGCCTATGAAGATAGAGATAAATACGTCGCTGATCCTAGATTTTATAATATTCCAGGATTTATATTAGATGAAAAGTATCTAACAGAAAGAGTTAAAAACATTGGGAAATCATTTAATGTTAACGATGGAGATACTACTTTCTTTGTAGTAGGCGATGGGGAGAATCATATTGGCTTTATACAAAGTTTATTTCACCCTTTTGGATCTGGAATAGTTTCGCATGGAATAGTATTCAGCAATAGAGGATACGGATTTTCAAGTGGGGTTAATAAACCTGAAGGCCGTAAAAGACCATTGCATACTCTTTCAATCCTATATGCAGAAAAAGATAAGGAAGAATTAATAATAGGTTGTGCAGGAGGAGATTTAAGACCACAAATACATTCTGAAGTGTTCGAATATTATGCAGATTACGGAATGGAGATAGATGAATCAGTAGATGCGCCGAGATTTATGTATCTAGGTAACAAAACAATAGCCGAAAAAAGATTAGAAGTTCCATTAACTCAAGTAGGGTATTACTCGACACAAGTTGGAGTAGTTCATGCTCTAAAAAGAAAAAACAATAGCTATATAGCAGTAGCCGATCCTAGAAGTGAAGGGGTGGCTCTTCCGGTTCAGTAGTGCACCCAGCTTCTTTAAGCGCAATGAGTAAAGCCCCCATTTCAGGACTTTTTTTAGCTGTTATACCTTCTACTTTTTCCTCCTTTAATACTTCTATAAAATATTCAGTATATATTTTAGACGTAAACATTCCCCCTGCTAAATATGCTTTATCCATCTCAATTTTTTTTGCAGCGTAAAGCGTGGTAGAGGCTAGGTCTTTAGCAGCAGAGTATAAAATGCTCTTAGCTATTTTATCTCCTTCTATCGCAGCCTTATCTATAGTTTTCGCTAGGCTTGCAATCTCATCGATCTTATGTCCTTCATGATAAGCCCACCTTATTAAATCATCCAGATCCCATATTTTGATATCATCCATAATTAATTCTGCCATTCTAGTTCTTTCAATTCTGCCTTCAAGCATTTTTACCAATGTTCTTAAAGCCTTCCTTCCTATCCAATATGCTGATCCTTCATCAGATAATAACCAACCTTCTCCCCCATATCTAATTCGTTTTTTCCCATCATATGCTACTACTACACTCCCAGTACCTGCTATCGTTATAATACCTGGCTTACCACGTGTTTCCGCATATAATGCTATGAAAGAGTCGTGTTCTAATACAGTCTTTTTCGCCATGCCGTTTAATGCTCTCGATAAAACTTCATAATCATATTTAGAATCAAGTCCTGCTAGACCTATGCAGGCTACATCAGGAATTTTATTGTGAGTAGCTGACATTATTGCTTCTTTTATGTTTTCTACAGCTCTATCTATACCTATATTATGGTAATTGCCAGGGCCACTTATATGATATCCTATAAATTTTCCTTCGCATGTATATGCTAACGCTCCAGTGGATGTTCCACCTGCGTCTACACCAACAACTATCATATGATATATTACAAAAAGGTTTTTAATATATTATAATAAAAATGAGTGATGAAGATACTTATTTTGGGTATAGATGGATATTTAGGATGGCCACTAGCACTTAAAATGGGTTCTAAGGGACATGAAGTTATAGGTATAGATAACTTATCTACTAGGAAATTTTCAGAAGAAGTAGGGTCTGATTCAGCATTTCCACTACCTTCACCTTCTGATAGAGTTAAAGAAGCCAAGAAGATTCTTGGAATAAACATTGATTTTTACGTAAAAGATGCTAATGATATGGAATTTCTTAAAGAAACAATAAGGAAACATAAGCCAGATGTTATAGTACACTTTGCTGAACAGAGATCTGCACCATACTCAATGAAGGATTATAATCATGCACAGTATACTCTTGATAATAATTTAGGAACAACGTTAAAGTTAATTTACGCAGTAAATGAGATAGATCCTTCCATTCATATTTTGAAGATGGGCACAATGGGGGAATACGGTACGCCTAGTCTAGATATACCAGAAAGCCCATTTGTGGAGGCAAATATAAATAACAAGAAGGATAAAATAATATTTCCTAGATGGGGAGGTTCAATATATCACTGGTCCAAAATCTTTGATACAGACCTCTTGTTATATTTTAATCAAATTTTCGGTCTTACTGTTACAGATATAATGCAAGGTCCAGTTTATGGAACTAGAACTACCGAGATAACAGAAGAAGGATTACGTACTAGATTTGATTTTGACGAAACTTGGGGAACGGTAGTAAATAGATTCTGTGTAGAAGCGGTGTTAGGACTGCCATTAACGCCTTACGGAAAAGGAGGCCAAACTAGAGGATTTATCTCATTGGAAGATAGCATGGAAGCCCTTAGAACGTTAATAGAAAATCCTCCTAAAACAGGAGAATATAGGTTAGTTCATCAATTTGCAGAAATATATAGTGTAAATAAAATAGCTGAAGTAGTGAAAAATGCAGCAGAAAGTCTAGGCATGTCTACAGAGATAAAACACGTGGATAATCCAAGAATAGAGGCAGAAGAACACTATTACAATCCAGAAATAAAAATTCTACCCAGTTTAGGATTCAAACCGAAGAAGAATTTAAAAGACGAAGTTAAAATAATTCTAGAAGATTTAATTCCTTATAAAAGCAGACTAGAAAGATATAAAGATTCAATAATGCCAAAAACAAAATGGAAAAAATAGATTTATCATGATCAGTGGTTCAAAGGGGCGGAAGACCCCACCATGCGGTAGACCCAAAATCTGATTAGTAAAAATAATTTTTATTCATTATTAGTGATTCATGTGAATTTAATGAAATTAGATAATTGACTTTACAATATTTTTTAGAAATTTTTAAGAATTATATTAGATCTTTTATTTTCTGAAAGTAAACTGAGGAATATTATTATAATATTAGAAAATGATAAAGACATGAATAATGAAATCTGCTTTATTTGTATCAATTATTTAATTACATTATTCTTAATGCTCATGTTTATGAGTATAATAAAATATGTTCCTTATGAAGAAAAAAATATGAGATTTAGTGTTGAATTCATATTTGTAAAATGATTTCGGGTCTACCGGTTAGGGCAGGTAGTTCACTAACTATATGCTTCTCGAATATTTTGTCCTAAGATGTGCATCTTATTCCAATAGCTTAATATAAAAGTTAAGGCGTTATTCTAGTCCTTCAATGATATAGAAAAAGTAAGTTTTAAAGTATAATGCTAATCAATGCATAAAGATAAAAAATATATTGAAAGATTAAATAATATCAACCAATGATATATTATATCTTAATTATTGTAAGTGGAATAGTTTCTATTTGGAGCGTTTATAATTCCTTCTTAGCTTTTCTAGGATTAAAGTGGAATCCAAACGAATCTAAAAGCCCTTCTGGATATACGTTTTCTATAATAGTGCCTGCTAAAAATGAAGAAAACGTTATAGGTAGACTTCTAGACAGACTTGAAAACCAAGAATATGATAGATCTAAATTTAATATAATAGTAGTAGAAGATGGATCTACAGATAATACATTATATGTATGCAAAAACTATGAAAAAATGTATGATAATCTAACTGTTATTCATTTGAATTCTACTAATGTAGTAAATGGAAAAAGTAGAGCTTTGAATTATGCATTAAAAAATGCTAAGGGAGAAATAATTGGAATTTTTGACGCTGATACTGTTCCAAAATTAGATACATTAGCTTATGTATCTTCAAAGTTTTCAGATCCTAACATAGCAGCTGTTCAGGGTAGACTGATACCTATAAATGTTAGAGAAAGCGCTACAGCTAGATTTGCATCATTAGAAGAATTATTTTACGAGTATTCAATTTCTGGGAGAGCAAGATTAGGCTTTTTTGTTCCATTAGAAGGAACATGTACCTTCATAAGGAAATCCGTACTCAATGAAATAGGAGGTTGGAATGAAGAATCTTTAACTGAGGACCTAGATCTTAGCCTTAAGATAATATCAAGAGGATATAAAATAATATATTCGCCATCAACTGTTGCCTGGAGAGAAGTTCCCATAAGTTTACGCTCTTTAATAAAGCAAAGACTAAGGTGGTATAGGGGTCATTTTGAAGTATCACTAAAAGTTAACAAGATAAAATTTGATCTAAGAATTATTGATGGTTTAATGATAGTAGCTAGCCCGATATTTATGGTACTAAGCTTAGTAAATTACTCTTTAGTTCTAGTTTATCCATCTCAAATATATTTTATAGCAGCTACATTGGTTTCTGCAGCTTCATTTATTTCTTTATTGTTGGCTATAATGATTTCACGAAGACATATGATAGAATTCATATTCCCTTTTCTTTCACTAATATATATGAACTTTGTAATAATTCTGAATCTGATTGCAGTATTTATGGAATTCATAAAATATCCTAAGATATGGATAAAAACTGATAGGTCCGGAGGCATAACGGTGAAAATACATGATAGTTGAGTTTCTAGCTAAGAAGAAGATGGAGGATTACTTATCTCACATAAGGGAACAAGATACATTTTATGTAACAGATTTAGTTAGGTGCCCGTTAAAAACAGAATTTGAAACAAAATACAAGGAATTGGCATTAAGTGAGGTATATACGCCGGCAACCATGTTAGGTGATCTGATCCATAAGGGTCTTGAATCGCTTATTCAAATAGAAAACTATACTACAAGAACTGAAATAGAAGGAGAGAAAATAATCAATTTAGAAAAACCCTTTAAAATAAAGGGAAGAAGCGATATTATACTAGAGAATGAAAAGGAAAAAATAATTGTAGAAATTAAGAGCGCAAGAAGCGATAATGGTATACCGCATAAACATCATATAATGCAGTTACAATTATATTTATGGTTATTTGAAGCAAAAAAAGGAATATTATTTTATATTACTCCAGATCGCTTTACAGAATTCGAAATTAATCAACCTATGGATGATGCTACAGTAATAAACTTAGTTCAACAAAATATACAAAAATCTCCATCGCCTAGATTTCCATGGGAGTGCCAATACTGTATATTTTCAATAATTTGCCCGAATAAAAAGAAATGATTACTTTCTAACCTTTAAAGCAGATAAAATATTTTTATTTCTTATATTAATAGACCGATATGAGAACCAGACCAGTAGCTATAACAATAGCTGGAAGTGATTCTGGTGGTGGTGCCGGACTTCAAGCAGATCTTAAAACTTTTACTTCGTTAGGTGTCTTCGGTGCAACCATAGTAACTGGACTAACGGCACAAAACACCATTGGCGTTTCCAAGATTTATGAAGTATCTCCAGAATTCGTTGAAGCTCAGTTTGATTCTGTGATAAATGACCTTAAACCTAAATACGCCAAAACAGGTATGTTAGCTTCAAAAGAAATTATTAATATAGTAAAAAAGAAGATATTAGAATACAAATTAGATCTTGTTCTAGACCCTGTAATGATAGCTAAATCTGGGGATCTCCTTGTAAAAGAGGATGTCATTCCCTCTATAAAGGATCTAATAAAAAATTCCATTATAGCCACACCGAATAAATTTGAAGCTGAGAAAATTCTTGGAGGAGAAATAAAATCAGCAGAAGACCTAAAGATAGCTGCTAAAAATTTCTATAATTCCTTTTCTACAAACGTTGTAATAAAAGGAGGCTCAAAATTAGGAGGAATGGATTACGCTATAATAGATGGAGAAGAGTTAGAATTAACATACGAAAATGTAAATACCAAAAATACGCACGGAAGTGGAGATGTCTTTTCTGCAGCTATAACAGCGTATTTAGCAAAGGGATATAGTTTGAAAGATGCAGTGATTAATGCTAAGCAATTTGTAAGTTATTCAATAAAATATTCATTAGATCTGGGAAACGGACATGGACCAGTAGATCCTTTTGCTTATCCAGAATCTATAATAGAAAGAGAAATTTCAAGAGAAATTGCCGAAAAACTTGTCGAATATCTAGAAACTCATAAAGATATAGTTAAAAAATTATTAGATCAAGAAGAAAAATTAAATATAGGTGTTGGAACAGCTTATGGAGATATTGCCACTTTAGCAGGAGGAATAATAAGATATATAAACTGGATAAAAGTTGACGGTCCTATTGTTATTAATTATTACGATAATTTAGTTACATCAATCTTAAAGGAAACAAATAAAAAAATAGGTATTTCATTTTCCATGTCTAATAGAATTTTATCTGCTTCTGAAAAGGGTTTAATAAAAATTTCTGAAAGTGGTATTAATTCTGATACTATAATAAGAAATGGCAAAATAATTCTAGTTGCAGACGATTTAAATGATTTAATTAAAAAAATTGAGATGATAACTAATGATTGAGGTTGTAGGCAGTTATAATGTAGATTTTATATTAAAAGTTAAAAGATTTCCTCAGCCTGGAGAGACTGTTTTCTGTGAAAAATATATAATAAGCCATGGAGGAAAAGGATCCAATCAAGCAGTTTCAGCATCGCGCCTGGGTGCTAACGTGAGTTTAGTTTCTGCAATAGGAAATGATACCTATGGCATAGATGCTATAAAATTCTGGAAATCTGAGAATATAAATATAGATAAAGTGAAGATAAAGAATGAAAGAACAGGAAATGCCTATATTTTTCTGAATGATGAAGGAGAGAGCATGATAATCGTAAATAGAGGTGCAAATTATCTTCTTGAAGAAGACGATTTAGACGATTTAAGTGGAGATATATTGTTAACACAAATGGAAATAAAGGAAAACGTAGTCAAGAGAGCATTAATGAATTTCGATGGTACAAAAATATTAAATCCTGCTCCAGCTATATTAACAGATTTTTCTATTTTAGATTATGTAGATATATTAACTCCAAACGAAATAGAATTTAAACAACTAACTAATTCCGACGATCTAGAATATGGATTAGATCTCTTACTAAAAAAGGTTAAAAAAGCAGTAATAGTTACGCTAGGCGAAAGAGGAGCACTAATAGCTACTAAAGGAAAAAAAGTACTTATTTCTGCACCCAAGGTACCTGTAATAGACGCTACTGGTGCTGGTGATGTATTTAATTCAGCATTAGCTTATTACTTAGAAAAAAATAAAGATCTAGAAGATGCAGTTAGCTTAGCAACTAAGATAGCTTCATTTTCAGTTACACAAATTGGTGCTTTAGGACCAAGATGGGAAGAGGTGAAAAGTTTTGTCGAAGAAGAAAAATTTTAGGCTGAATGAAAAAAGAAAAAAGGAATATAAATGTATAGGACTCTGTGACATACCAGATGCTGATGATAGAGACGATATGTAAACTATATAGAGTAAGGTGAAAAAAGTATGGAAATAACTTTTCTTGGAACTGGTGCAGGATCTACTTTAGGAAGTAAGAGAATGAAATCTTCAATTTTGATTGAAGATTCTGGAAATAGTGTATTACTAGATTTAGGAACTGGAGCTAATTTTAAGCTTGAAGATATCGGGAAACTAAATATCGATGCTATTTTTATTTCTCATCTTCACATAGATCATATAAACGGAATTTTCGATTATCTAGTACAAAGAAAAATACATGGCATGAATCCAATAAAAATATATTCTCCACCTGGTTTTGGAAACATACTAAATCAGTTTAAGACAGAAGGTAATGAAATAGACGCAGAAGTTATAGAATCTAAATTACCCAGTGCTAAAATAGGTAATATTGAAGTTAGATCTGTTAAAGCATGCCATAAGATATATGCCGTTGCGTATATTATCAATAATAAAATAATTTACTCTGGAGATACTGCAGAGCCTTGTAATGAAATAGTAAGCGAAAGTAAAGACGCGGAACTGATTATTCATGAGGCTACATGTGTGGCAGGTTGTGAAATTTATGGACATACTTCTGTAAAAGACGCATTATCCATTTTCCCAAATGATAAGTTAATATTAACTCATATACCCTCACAAAAAGAAAAGGATATATTCCAAGAAGTGAATAATAGAGCTAAAATAGCTTATGACGGAATGAGAATAAATGTGTAGGTTACTGGCATTTAATACTAGGGAAAATGTGGATATTAAAATTTTAAAGATATTTTCGAATGTAGCTGAAAAAGATTTTCTATCTTCCACATTGTCGCACTCTGATGGCTGGGGAATTTCAACGTACATATATAATAATTCTTGGAAAAATCTCTTCTATAAGAGTAAAGATCCAATTTATAAAGACACATTTTACGAAAGTATATCAGGTCTACTAAATGGAGAAAAAATAATAGGTTTAGTTCACGCCAGAAAAGCAGGAAAAAAATTTCTTCATGGAGTTACACATTCTCATCCATATCATCTTAAAGTTAAAAATTATGAATTATATTTTGCTCATAATGGATCAGTATCTAGAAAAGCGTTTCAAAATCCTTTATTACCGTATACTGATAGTTTTCTTATTTTATTGGAAATTTCTAAGGAAATAGAAAATGGTTACTCTCCATTAGACGCATATAACATTGTATTTAATAGACTAAAGCCTTTTTCAACGAGCTTAAACTCCGTATTATTAACATTCAACGAAGCAGAAGGACCTAAAATATATGTAGGTTACTATTACAATAAGGAAAGATTAAAAGAGATAGAAGAATATTATAAACTATATAGATTCAAGGATTATGTATTTTCATCTACTCTAAAATTTTATTTTGATAATGATATAGAAGAGTTAATATATGGAGATATAATAACTTTAGAGTAAGTGTATGAATTTTAGGAAAGTAAACTTATACTTAAGAAAGTTATTAAAGTATAATATGGAAAGTTTAGCAGTAGCAACAAAATCTTCTATATACCTAGATAAGCTAGGGTTTGAAGTCTCATACAAGCCAGAAAACGGATATAAAATAGAATATAGTTATATACCTATAAATTCTGTAAAGGAAGCCATATTATACGAAATACATAATAGTGAAGAGAAAGAACTAGGTAGATTTTCTAATTTAGATAATATATTGGAAGTAGTAAAATATTTGGAGAAATATCCACAAAAAGTCGTAGAGAACATACTTCAAACTCTTAAGTAACTTTTTCTATAATATATATTATGAAAGAAGAACTAGTTCAAGCTAAAATTATAGATTACGGTAAGCTAAAATCAATTTATAATGATATATTTTTCTACAAAGAATATTCAGAGGCTTTAAGAAGAAATGGTGGTAGTTTAGATACACCTCCACCATCCTTAAAAAAACTGAATTTTATACCAAATACGTATAGATTAGGCCCTCTAAAAGTATCTTGCAATAATAAAATTCTAAAAATAGATTTTGTTAATGCATTGGTAGAGTCTGAAAGGGAAGGATTACCAAAATACGCAATAATCGATTTTAGTAAAGGTATTAAGATATATTTAGCCTATGAAAATGAAAGACCGATAATAGGAATAGATGTAGGTATTAGACACTTATTTACTGTAGCTTCGGTGAACTCTAATGGAAAAATATGTAAGGTAAGATATTTTGGCGACAAGGAAATAATACAGCCTTTTATAAGGTATCTAGGAGAAGAGCAAGGAGTAGTACATTTGACAGAAATCAAAGAAAAAGTTAAAGGCTTAGTTCATCAGACAATAAGATTCATTGAAAGTCTAGACCCTAAAATAGTTGCAATAGAAGACCTAAGACTTTACGACGCTAAAGTAGGTAAAGGCTTAAGAGTAATTCAAGAAATGTTAGAACATGAATTTTATAATAAAGGAATAAAATTCAAAAGATTAGACCCATATAATACATCAAGAATATGTTCACATTGTGGATATAAAAGAGGAGAAATAATGGGATCTATATTCGTATGTCCATCGTGTGGATACAAAGCTGATAGAGACTTTAACGCTGCCTATAACTTAGCCTTAAAATGCTATTATACATGTTAATTTTACTTAATATATTTTATACAAATATTCACGATATACAGTATTAATATAAATGAATAGATAGCAATCTCAACTGATAATTTACGCATAGCTATTTTTTCTTCTAACTAGATATCATTATATGAGAATTAAAAAACTGATAAAGGCTATGGAGGAAAAGAACATAGACTACACTATAATAGGGCCCACTAGTAATATGTTTTATTTTACACAATTTTCGGATGAACAGATGGAAAGGCCACTATTATTAATAGTTGGTAGAAACGAAAGCTACTTCGTGGCACCTAAAATATATGAAGAGCAGTTATCGAAAACTGATATCGAGATTAAAACTTACGATGATGGAGAGGATCCCTATACTAAAATAAAGATACCTAAAGGTTCATCATTGTCTATAGATGATCAGCTTTGGTCCGTTTTCTTAATAAACATAATAAACAAAGTTTCACCATCAAATATTCTTCCTGCATCTAAATTAATTTCTAAATTAAGAGCAATAAAAGAAGAGGAAGAGATAGAAAGAATGAAAAAAGGTTTAGATATTGCTGAAAAATCTTTCCTAGAATTTTTAGATAAAATAAAAGAAGGTAAAACTGAGTGCGAATTAGCTAAAGAATTAAAAGATATTTTCTATGATATAGGTGCAGATAATGTTTCTTTTGAGCCGATATTAACATCTGGCAGTAATACGTCTATGCCTCATTTAAGATGTACTGACAGAAAAGTAAAAAACGGAGATGTAGTTATTGCTGATTTCGGTGTAAAATACCATGGATATTCCACTGACACTACAAGAGTAATAAGTATCGGAAAACCAACAGCTGAAGTATTACATGTCTATAATATAGTAAAAGATGCACAGGCGTCTGCAGAAGATGCATTAAAAGAAATGACTGGAAAAGAAATAGACTCGCTGGCTAGAAATGTAATAACAGCCAAATCATTTGGCAAATACTTTATACATAGAACTGGACATGGGATAGGAATTGATGTCCATGAGGAGCCTTATATCTCACAAGATTATAGCGAGAAGATAGTAAATAACATGACATTTACTATAGAACCAGGGATTTACTTACCAGGAAAGTTTGGAATAAGAATAGAAGATATGGTTGTAATGAAGGATAAAGTAAGAGTTATGAACTCCTTAGAAAAAGAAATTTTTATTGTGTAGAAATAGCTTTCTTTAGTAATTTTACACCTGTTTTTATTTCATCTTCTGTAGCAACTGAGATACTAAGTCTGGCCATAGTTTCCCCTCCTTTTAAAAAGAAAGGAGAAGCAGGCACAAAGCTAAGGCCTAACTTTAGCGCTTCTTCAAATACTTTCCAACTATCCTTCTTTAAATCTATTAGTTGGAAAAATCCGCATTCTGATCTTGTAAAATCATTAAATCCTTCATCTATTAATGAGTCTTTCAAAATATTTAATTTCTTCATATAATAATCATGAATATATTCCATTCTAGAAGTTATAACTCCTTTCTTAAGTAAATTGGAAATTACGTATTGATTTATAGTAGATGTTGAGAAATCTAACTGTTCAATTAAAGCTATTTTTTCTGCAATCTCCTTATTAGCCAAAATAAATCCTACCCTTAGCCCAGGAGCAAGTATTTTACTAAAACTACTAACGTAAACAACCCTGCCATATTTATCAAAATATTTTATAGGAGGAGGAACTTTACCTGCTATTGGTCTATAAGGATCGTCTTCTATTATGTAGAAATTATATTTTTCTGCAAGTTCTACCAGTTCTTTTCTTCTATCTTCGCTTAATACTACACCAGCTGGGTTATGGCAATTAGGTATTACGTATAATAATTTTATACTAATTATTTTTAGAATATCTTTAAGCTGATCTATTTGTAACCCATTTTGATCCAAATTTATAGGTATATTTACAGACGATCTTAATTTTAAAGCATTAAAAGTCTCTATAAAAGTAGGATTTTCTACTGCTATTACATCATTTTCTAGAAAATATTTCCCTAAAAGTTCCATAGCATGCTGAGCACCAGAAGTTACCATTATTTCGTTATTGCCTTTTCTTAATCCAAGAAATGGAAGGTAATTTTCAATTTCTCTGATTAAATCTTCTTGCCCTCCTGCTCCAGGATATGAAAAGGCCTTATCCCTATAACTTTCAATAACTTCAATATAAGATTCTTGTATATCCTTAACTGGAATAAGCTTTGGATCTGGACTTCCACTAGCTAAATTAATTTTAGCCTTTTTAGCCATTCTAGACGCAAGTTCTACCGGGGAAATTTCTATTTCTTTACCAATCCTTGAGACCAAACTCCTCTCAACTCCATCTCTTTACCTAAACCTCTTTTCTTGGCTTCTTCAAAAATAAACTTTAACATAGAAACGTCCTCAAGGCCTATTCCTACTGACTTAAAAATAGTTATATCGTCTTTATTATATCTTTGTATTTTTCTTGTTATTATATTTGAAAATAATACTAACTTGCTTTTATCTAACATTTTCATCTTATCTGCCAATATAAGATCTCCAGCTTCTTCGTTAGCTTGCTCTATATCCTCTACAGCTATAATAGATGCTGCTTTTATAACTTCTGGAAAAGCTTCTACTCTTTCGGCTAGATTAGAACCCATAAGATTTATATGCGAACCTTTTTTGATATAATCAAGTTTTAAGAAAGGATCTTTAGACGAAGTTATGGTTACTATAACATCAGAATTAGAACATAATTCCTTATATGATGGCATAACTTTAACGTTAATTCCTTTATTTTTTAGAATTTCTATACTTTGATTAATCCTTGCAGCGGTTCTTGAATAAACATTTATATCTATAGATTTCAAATTATAAAATGCCTCGACTTGAGCCAAACCTTGTTTACCTAAACCGATTATCCCTACACTAGAGTATTCCCCTTTAAGATAGTCTGATGCTAGAACTGCTAGAGAAGCTGTCCTTATTTGAGACATTCTATCTGATTCTGCTATAAGCAAGAGTTCTCCGGTGTTAGAAAAAAGGAGAGAAATAAAGTTCCCTCTAATAAAACTCTTAAAACCTAAATATCCATTAATTCCACCTGATTGATAGCTTAATGTCGCACCTCCAAGTGAAGTTCTCACTCTCTTATAATTTACAGCCGTTTTATTATCCAGAGCTATAAAAGCCTCTTTTAAGTAATTATATGCTTGATGATAATTAAGTATTTCATTAACCTCTTCTTCTTTAAGAATAATTGTCAATATAAGGCCCTAGTTATGATATGCCCCATTGCTTAAAAGCGCTTTTATAGTAAAGCCCTAGACTATGGAACTTACTCCGAGATTACAAGACGTATTAAGCATTATAAAGAATAGGGGAGAGATAAACGTCAAAGATCTTGCTTTGGAATTGAAAGTATCTCAAAAAACTGCAAAAGGCTATGTTAGAGAATTATCAAGGCTAGGATTGATTGAAAGTGACGAAATTGGAAACATAAAAATAAGGTCAAACGAGGAAAATAGAGAAGAAGAAATCTATAAGTTGGTTCAAATTCATGAGAGTGAAATTAACTCATTAAAAAAGGAAATTAACGAGCTTAGAGAAGAATTAATGAAAATTAAGAGGAAAAATAAAGTTTAAGAACATATGCGAACCAATTAAGAATTTGGGAATAACTTAGTTTACTCTGACCCTTTTCCCTGTCCCTAAAAGTTATAGGTACTTCGCATACTCTCATTTTGGATTTTAGTATTTTATATATAGCACATATCTGAAATTCATATCCATTTGCTGTGTTACACTGTAACACTTGTAATGAAGCCCCTCTAGAGTATACTCTAAAATTTGAAGTATTATCTTTCAACGATGATCTCAATAATAATCTAACTAATAAATTTGCACCCCAGCTTATCATTTTCCTTTTATATGACCAATTTTCTATCCTACCACCCTTAATATATCTAGAGCCTATTACAAGGTCATATCCTTGTCTTGCCTTATCTAGCATCGATTTAAGATAAATAGGATCATGACTGAAATCCGCATCCATAGTTACAATAAATGAAGAACCTATTTCTAATGCTTTAGAAATTCCATATCGTAAAGCAGAACCTAAACCTTTCTCATCAGTTCTTATGAATACTTTCACATTTTCTAAACCTAATGATTTAACCGCTTCTCCTGTTTTGTCTTCACTATTATCATCTACTATAATAATATTTCCATTTAATTCACTATTTATTCTTTTAATCAAATTAATAATATTATCTTTTTCATTATAAGTAGGAATAACTATGGAGACTATTTGGGATTTTTGCACATTTTCCATATCTCGTCGCCTATCCAATGGAGATTTTGTGAAAACTTTCCCTTCTTATTAGCAGAAGCTTCTTCCTTAGTAATAAGCACTTTCATAACAGATACTGGAATCCCTGAAGTAGTTTTAGCCAAAATTATATCTCCAGGATTGCAATCACAATTAAATAATGATATACCTGGTACAAAAAGATCAGCTCCTCTAGATAGAGCTCTAGTAGCTCCTTCATCAACTACAACAGATGGTAATTCAACCTTATTATCCATAATCCAACAGAGAGTGGGTATAAGATCCTCTGAGAAAAAAGATAATTTACCTTCTATAAAATAATATACTTGCTTTTTTTCCTTACCTACTTCAACTTTATCAGTTTTAATATCTACATGATATTTATCTCTAATTTGATTTATAAAAGTTCTTAAATCCTTTTGTGATAAAAAGTGCCTTTGCATTATAATGAATCCCCTAATGATAATGGCATAGTCTTTATTCTTTTACCTAAACAATTTTCTACAGCATTAACTATAACTGGAGTAGAGACAACAGCTCCGGCTTCGCCTATACCTTTACTTCCAGTAGGATGAGCAGATAATCCTTTTTCAATATAATACCACTTTATCTCTGGAGACTCAACAGCAGTTGGAAAACCGTAATCTCCTAGATTAGAATTCAGTAAAGATCCGTCATCTGCTATTTTTGCTCCTTCATACAAAGCTTGAGCTATACCTTGTAATACACCACCGTGTATTTGGCCTTCAGCTAGCATAGGGTTTATTACTTTTCCAATATCATCTAATGCAATATATTTAATTACCCTCATTTTATTCAATTCTTTATCTACATCTATCATGGCCATATGTACTCCGTAAGGACTAGTTGGTTTAGATACTGCATAAACAGAAGTAACATCTAAAGATATTCCGTTTTTATAAGCATATTTTATTATATCACTCAGCTCCAATTTCTTATTTTCAGTCTTATGAGTTATTGTACCTTCTTTATATTCTAACTCCTCTATATCAGCGTTCATCATTTTGGATGCTATTTCAATGAATCTAGATTTTAATTCCTGAGCAGCTTTCAACATAGCTGAGCCGCCAACGGTTACAGTCCTACTTCCCCACGTGCCTATTCCGTCTTCTATAATATCAGTATCTCCCCATTTTACTTCAATATTTTCAATTGGGATCTCTAATGTTTCTGCTACTATCTGAGCAAAAGCAGTAGCATCTCCTTGCCCATGTGGTCCAGAACCCGTAATGGCTATTATTTTACCGTCTGATTTTGTAAATACTCTAGCTACTTCCCAAGGCCCAAATCCAGTTATTTCAACATACATTGCCAATCCTGTACAATATCCTTTTTCCTTAGCTTCAGCAGAAAGTTCAGTATAGTATTTTTTAGCCTTATTTAAAATGTCAACATAGTCTCCAGTATCATATACAATTCCAAATCCATTATCATAAGGCATTTCATTAGGCTTGACTACATTATTTAACCTTATCTCTATTGGATCCATTTTTAACTCATTAGCAATAATATTGATTATTCTCTCTATAAAGTATGTAGCTTCTGGTCTTCCAGCCCCTCTATACGACGTAGTAGGAACTTTATTAGTATGTACCGCATACGCTGTTACTGACGCATTAGGAATGTCATATGGTCCTAAAACCATTTTAGTTGTACTCAAAACATTCCCGGATTCGTCATCATTAGCATCAGAATATGGAGCCCCTAAATCTCCAACTATTGTTCCCATTAGGGCCATTATTTTACCGTTTTTGTTAAATCCTACCTTAAATCTCATGCTTTTGTCTCTACCATGACCTGCGCTTATCATCTCCTCTGTCCTTGTTGGAACCCATTTTAATGGAATACCTAATTTTAACGCAAGCTTAGATACAGCATATTCCTCTGGATGCGCAATAATCTTACTCCCAAAAGCTCCACCTACATCTGGTTGAATTACTCTAATATTAGAGTAATTAAGAAATTGCACTAGATTTCTTCTCAAAAAATGAGCCGATTGAGTAGAAGACCAAACATTAAGTCTTTGACCGTCAAAATATGCTAATATTCCTCGAGTTTCTAAAGGAGAAGCAATCATTCTCTGATTTATTAGTTCGTCTTCTATAACAAAATCTACGTTCTTGATAGCTTCTTCTGGATTACCTTTTGAATATGTTTTATTAATATAAATATTACTTTTTAACCCACTATATGCTTTCTTCTCATCTTTCAACGCCTCGTATGGATCTATAACATAAGGTAAATCTTCATATTCAACTTCTATACTTTCTAATAAATCATAAGCCTCATATCTATCTTTAGCTATTACAGCAGCTATTGGCTGCCCTATATAAGTAGTTTCGTTAGTAGCAATAGGAAAATCCTTCCCTGGATTTATGTCTTCGCCCGTAAAGATACCTTCTCTCTTTGCTATTTTTATTCTTGCGTGTGGCTTCGTTGATCTTAAAAATGCTACAAATTTAGTACCTTGAAATACCAAATCATCAACATACGTTCCATGTCCAGTAATTAGCCTAGGATCTTCGATTCTTTTTATTGGTTGACCGATATAATGCATATATTTATGCATATTTTCGAGTTTATATTTTCTTTACTCTTAATATTGATGATGGATGAGTAGATAATATAGAAGAAGAAGGATCGCCATAATTATTTATTAACAAAACAAGAGCTTCTTTACTTGTTAATTTTACAGCATATTTGTCAGCTTCTAGTTCAAATTTCCTAGAAAGAAATCTTTGAACCAAAAATCCTAAAAGAAGAAATAATAGAGCAATTAAAGGTATATTTAAAAGCGAAAAGAATCCTATAAGTATTAGCGATATGATGAATAAATTTTTGATATGATGCTTCATTTTTATGTGACCAAGTTCATGCGCTATCGCGGCCATTATTTCTTTTTTATCCAAATTCAACAAGGACGACGTAACTATTATAGTATTTCCAGAAGTAGAAAATGCGTTTATATCTTTACTATCCTTTATTCTTAAAGAAAAATTTACATTTGATTTAGATTTTAATTCGTCAATGCCTTCAACATAAACCTCTCTATAGTGTCTACTGTATATTCTTGAGATACCAAAGTAGCTAATGTATAAAATAACTAGAGGGACTATAACGAAACTAAAACTATTCATAAATCTATTTGGTCAGTATTACTATATTAACTATATAACTTAGCTGAAAGTTTCACTTAAAATCTAGAAAGTACATTTTGTCTTTAAATGAAAGCTATAGTATTAGAAAACGGCAACCCCTTGTTAAAAGAGGTACCTATACCAAAGTTACAAGAAGGCGACGTACTAGTAAAAATGAAAGCTTGCGGATTATGTGGAACAGATGTTGAAAAAATATGCGGTCAATATACAGCTTCTCAGCCAATTTTAGGGCATGAACCTGCAGGTATAATTCAAGAATCTACAGTAGAATGGCTTAAACCCGGTGATAGAGTTTTTGCCCATCATCATGTTCCATGTTATGAATGCTATTATTGTAAAAAGGGAAGTCCTACAATGTGCCCATATTATAGGAAAACTAATTTAGATCCTGGTGGATTTGCAGAATATTTTAGAGTACCGGCTTGGAACGTTAAACGAGGAGGAATATTAAAATTACCTGATAATGTAACTTTCGACGAAGGGGCTTTTATAGAGCCCCTTGCTACTGTTATAAGAGCCCAAAGGAGAGTATTTATCGATAAGGACGATTTTATACTAGTAGTAGGAGCTGGACCCATGGGTTTATTACATGTAATGGCGGCCAAAGTAAATGGAGCCGGTAAAGTATTCGTATCAGATGTTTCAGAGTTCAGAAGAGAATATTCATTAAAAGTAGGTGCTGATGTGTCATTTAATGCCGCTAAGATTAATATTGAAGAGGAAGTCAAAAAGCTTACAGACGGTAGAGGAGTAGACGTTGCAATAGTAGCGTCTGGAGCACCACAAGCTATCCTTAGTGCGCTAAATTCGGTTAGAAAAGGTGGAAGAGTATTACTCTTTGGTGTTCCATATAAAGGAACAATATTAAATTATGATATAAGCAATTTATTGAATAACGAGATCTCTATAATTAGCAGTAATGCCGCAGTAGAAGAAGATACTAGGGAAGCATTAAATATGATTGCCAATAAGAAAATTGATGTAACTAAACTAATTACAGGGAAATTTAAATTAGAGGAATTTAATGAGGCCGTAAGGGAAGCCAAAGAAGGAAAAACCATAAAAGCAATAATATATGACTAGTATTGAAGAGATATATAGAAAAGTTGTAATCTTAAATAATTTTAAAGCTCTTTTAATATCACTAGAGCTAGGTAAATTGCCATTCCCAACTGAATAGAATCCTCTTTTTTCTAACTTCACTCCTAGTAAATAAGCAGCTGCAGAAATCGGATATCTAGCATTAATACTTTCAATATCGCTGTGTCTAATAATATCTAGCATATTCTTTACTTTCAATCTCATTATAATTCCTGCCAAAATCATAAACAATACAGAAATTCTAGCAGGAATATAATTTAAAATAGTGTCAACTTTTGCAGAAAAGAATCCTTCTTTTTTTAACTCAGTAGTCTTATACCCTACCATACTATCCATAGTATTCGATAATCTTTGTAAAAGAGCACCTGGCATTCCTAATAATAGAAACCAGAAAAGTGGAGAAGATATTCCATCGACAAAACTCTCAAAAAGAGATTCTATAGCTGCAGACGCTATATGCCCTTCATCCTCTTTTGTCAAATTTCTCCTCACTATCTGTTGCACGATATATCTAGAATTCTCATCTAAATTTGACGATTTATTAACTATTTTATACAACATCTTTATTGAGAATGTAGTCTTCAATGTAAGAGCTAATAAAATAAATTTTAATATTAAAATAGGAATATATAAGGGTAAAATAAATAATATTAAAATAGGAACAACAGATAATAGCCAAATAAAAATGCCGTATACGTATCCTTTATAAGGCCTTATTAATTTTTCACTTATTTTGCCAGTTAATACTACTGGATGAATATATATTGGAGGTTCTCCTAATATTAAATCCCAAAATAGTGCAGCAATGAAGACAAGTAACAAAACTTTTCATTAGCTAATAAAAATAAGGGGAAAGATAAAGTTATCACAAACCCAGTTAGATCACCAGAAGATCCATGAAAAGATGTTTTTCCTATATAATAGAAAATTAGATAAAGAATAATGTACAAAACTAATGGTATTATTAGAAGAAAAGGAATAGCTTGGATTAGTAATAAAGCATACTTATTAGATAGATAGCTATTGAATATTTTTCCAAGATAACTATTCTCCATAGGTTTTAACGTTGATAAAATTAATAATCCTAATGATCTACAAGCAATTTCTGAAGATATTAAAACCAAAAAGGAATATAATGAAGGATACTGTAAATTTAACAATGCAACTAGCATAATGGAAAAATATACCAAAGAGGCACCTATTCCTCCAGAACCGACCTCAACATCTTTCATAGCTTTTATTCGTTTTTCCATGTTACCCTTGACCATCAGCGCATCCGAAATATCCAGTAATCCATCAAGATGATTGAAGCCTCTTACCACTTCAACTATAACAAATAATAGAACTTTAGATAAAATTCCTATGATATTCCATAGTAAAAGATAAGAAGCGAAATCTATTATTCCAGTAATTAAACCAATAAAAATTGGAGATAAAAAGCTATATCTTGCAATAGTTTCTAGATCTGATTTTATAGAAGGAATAATAGTGAAAAACGATAATTGAGCTAATATTCCTTTAAAAGCTTTCACAAAATCTTGTTAAATGTGGCAGTTATAATTTCTTCACCTATGAGTGATTCTGGTAAATCATTTTTTGTATCTACCTTAAGTAATATTCTTAGAGGCATACCATTTAAGGCACAAAATATGTCGTTAAACAGTTTCCCTAGTGATGAAGGAGGAGAAATTGCATTCATACAAGCTTTTCAAGCTATCGGTTCTGGTCTAAGCCCAAAAAGTTTCATGAACCCAGTTTTATTGAAACCTTCAGGTAAATCAGTAGAGGTCATCGTTTTTGGAAATTCATTAGGGAATTTTTCCCCTGGAGAATATTATAGCATAATAAAAAAATTATGGAGTAAAATTAAGAATATTATTACAGATAATATGATAATAGAAGCAGCCGGAGGATTAGGAGAACCTAATTTCCTCAATAGAGATATTTCAGGATTTTTAATAATGAAAGAATTGAAAATACCTACTATATTAATCTTAGATATCGATAGAGGAGGAGCATTCGCATCGGCATTCGGGATATACAAAATGTTTCCCACATCCGTGAGAGGATTATTAAAAGGATTTATAATTAATAAATTCAGAGGAGAAGAAAAATATCTAGAAAAAGCTATTGCATGGCTTGAAAATAAAACAAAAATGAAATACTTAGGCTATGTTCCATATTTAGAAGAAAACCCAATAATGCCAGAAGATTCCATGAACATCAAAGATATAGGAGATGGAGAAAAAAAAGTATCTATTATAGCTTATCCTTACATGAGTAACTTTAATGAATTCTATGCACTTTATAAATCTAATTCCAATGTGAAATTTGTATATAAACCTTCACAACTTAAAAATTCAGATTTAGTTATTCTTCCAGGTACTAAAAATACATATAAATCTATTCTATGGCTAAAGGAAAGGAATTTCATTGATGAAATAAGAAAATATCCTATTCTAGGAATATGCGGAGGTTTTCAATTAATGGGTAAGAAACTTGTAGATCCGTATGGCTTAGAAGCTGAAAATATAACGGAATACCCTGGATTAAATATATTTGATATAAAAACTATTTTTGATAAAAATAAGGTTGTATCACTGAGTGAGGGAAAAGGAGACGTAAGAATTGAGGGTTATGAAATTAGAAGAGGAAAAATACATTACGAAAATGAAAGACCACTTTTTTACATAACAAAGAGAAATAAGGTTTCCGTTGAAATACCTGATGGTGCAAAAAAGGATGATAAAATGGGTTTAAGTTTACATGGATCTTTATTCTCTTCTTTTAGTAGAGAACTAGAAGACTATGGCATAAAAATATTCTCTGGTTCTATGAAAGAGGAAATAGAAAATATGGTTCAAAAAAATGTAAAAATAATAAAAGAAAATATAGATGTAGATAGAATAGATGATATTTATAACTCAAAAATGTAAATAAGCTTGTGTTTGATCCCGAGAATTTCATAAAAGAGGTAACGCCTCAGATTTTAAATGTAGCAAAAGATGAAAAGATAGTAGCTGCGGTAAGTGGTGGAGTAGATAGTACAACAGCAGCAGTATTGTTATATAAAACCCTAGGTTTTAACGTAGTTCCTATAATGATTGACACTGGCTTTCTTAGAAAGGACGAAACTAAGATTGTCAAAAAATTACTAGAAAATATTTTGCCATTGCGTATCATAGATAAGTCGGAAGAATTTATAACTTCGTTAGAAGGAATAGAAGATGCCGAAGAAAAAAGAAAAAAATTTAGGAACCTTTTTTATAAAAACATTTCTGACATAATAAGAGAAAATAATGCTACTTTTCTAGCTCAAGGAACTATAGCAGCTGACTGGATAGAAACACAAGGTGGAATAAAAACACAACATAACGTGTTAGTTCAATTAGGTATAGATACAGAAAAAACCTGGGGCTTTAAGTTAATAGAACCTTTGGCAGATCTTTACAAAGATGAAGTAAGAGCATTAGCAAGATATCTTGGATTACCAAAAGAACTCTCTGAAAGACAACCATTTCCAGGTCCAGGTTTATTAATAAGAACTATAGGAAAATTAACTAAAGAAAAATTGGAAATTGTACGAGAATCTAATGACATAGTTGAAAAATCGCTTGAAAATTATTCCTTTTCTCAATATTTTGCTGCAATATTTGAATCAGATAAAAAAAGAGACGAAAAAATAACTAATTATATCGGTCAAGATATATTCGTATATAATTCCCGAGCAACAGGAGTTAAAGGTGATGTACGAAGCTATGGTAAAATAGCTTCAATAGATGGGGAATTAGATTATAATGAAATAATGAGAATAGTATCGGAAATTACAAAGTTTGATATTACTCATGTGTTATATAGAATTAACGAAAAAGAAAATGGAAAGTATTCAGTAGTAATTAGAGCAATAAACACTGAAGACTTCATGACTGCAGATTTTGCTAAAATAAGTTATTCGGTTTTAAATGAAATATCACAAAAAATATTAACACTAAATGACGTCAAGGAAGTCTTATATGATGTGACTACTAAGCCACCAGCAACAATAGAATTTGAATAAAAATGTCTCACTACTTAATAAATACTATTCTTAAGTCTCTCAAGTAGTTGAATTCTCTTAGGTGATGCAGGATGATCGCTAAAGAAATCTGCATACCAAGGCACTTTTTCTGTCTTCCAATAGTTTATTAATTGCTCTACATCCATATCACTAACGTCTTCATTTATATCCATTGGCGAGAAAAATAACATATTCATCATTTGATTATTATTTCTTTTCTTATATTTCTCCAATGTGTTAGGATCAACTGAAAGTGTTATCTTAGCTAAAGCTCTCTGTAGATTCTCCGCACCGTTAGGTATAGTTGTAGCAGAGTTAACATCCGCATAAGCTTCTCTTAATCTATTTATGTATAGAACTAGAAATTGAAACATATAACTTACTGCTAATAATGCAATGCCTATTAACCACATAGAACCAGCATTGTTATTTCTATTTCCTTCACCTAACATTCCTCCCCACATTAGAGAGTATCCTAAAAAGAATATCAATGTAGGTATCAGACCTATCGCCATTAATAACTGAACATCTCTATGCCTTAAATGGCCTAGTTCATGGCCTAATACAGCCTTAATTTCGTCTTTATTTAATATTTTTAATAAAGGCAAAGTTATAGCAACTCTTTTACCAGCTATAGGGCTTCCATATGCAAAAGCATTAGGAAATGGAACATCGGCTATATAGACTTTAGGAATATCTAGATGATTATACATTGCTACCTCGTCTACTAAATCTACCAACCAACCATACTTAGGATCAGTAGGCGATACTTCCACAGCCCTGTACATAGCATTAATCAAATATGGACCAAATAGCCATTGAACTATATTCAATACTATCAGAAAAGATAATATTCCAATAATTACTGCCGGAGCAAACGCTACTCCAAAGAAATACCCTGCTACAGCATAAACTAAAGCAAACCCTAGGAGAAAAACTCCTACACTAGCCACTACCATACCTAGTTTTAATTTTATTAGTGCAAAGTTCATGATTATCAATGTTATATTTTGAAGATGAGGATATAAAGCTTATTCAAAGTTTATTAATCACTCAATGTAATTTTTCCCATGGAGGAAACTGTAAAAGATTACATGAAAACTGAGGTAATAAGTGTAGATAAATCTAAGTCAATAAAAGAAGTAGCCGAAGTTATGACTAAGAACAATGTAGGATCAGTTATTGTAACTGAGAACAAAAAGCCATTAGGAATAGTTACTGAACGAGATATAGTAAGAGCAATAGGAAAAGGAAAAGATTTGAATGCAAAAGCCGAAGAAATTATGACTGCATCATTGATAACCATAAAAATAGACTCGCCAATCACTGGAGCTTTAAGTTTAATGAGAACATACAATATCCGTCATCTTCCAGTAGTCGATTATGATGGAAATCTTTCCGGAATAATATCAATAAGAGATATAGCAAGAGCCCTGGACGATTTTTATGAAAGCGGAGCAGAGTGAACTCCTACGGTGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCTTTACAAGAGTGAGACTAAGAAGACTAGGTATAGGGGAGGAGGTGGTGAAGGCCCTCAAGTTGACCCCAATCAAGTAGTTCCTTCGGCTCTTCAAGCCATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTATCCATCTCCATGGAGTCTTCCGCCCCCCTTTGAACCCTATATAGATTAATTAGTTGGGGAGGGTAATACTCTCCAACTGGGAAACATGGTCGACCCTTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATGTGACGAGTGAGGGGAGGGTCTACGAGAACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATACTCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCAAAACTATGGAAGGAGAAGGACTTGAGAGGAAAGAAAACAGATTTTTACGACGCAGAAAAACTAATAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACTCATTGAAAGAACTAGTAACACTATATATCTTCCTAAAAGACCTTGAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAGTCAGTGACGAGGAAAAAATAAGCAAGGAAATGCTTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTAGAGTACACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATCACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGAAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGCGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTACACTGCTTTAGCCAGGAAATTGGCTAGAATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGATCCTCCCCAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCCTGTTAAGATAAATGTATGGCATAAGTTTTTTAGTTTAACATAAATTCGTCTCTTTAAATGCAAAGAGTGCTGATATGGAAAGAATGGTACGAAATTCTAGAGAAAATAGCTAGGGATAATAAAATTAGTATGAATGAGTTAATTGCTAAAATATTAACTACTGAAGAATGCTTAAATCTCCCAGAAGTAAAAACTACTTCCAAAAAATCTATAAATGTAAATATAAATGATAAATATCTTATGGAGAAAATTCATAAATATCTTTTTTGTGATTAAGAATGAAAAACAAAGAAAATAAGCCTAAGAGAAAACCCGGCTTAGTTAGAATAGGGCTATTTAATTTACTTCTAAGACTAGCTATATCACCATTATCCTTTGTTTTTTCTCTGCTTATGGTTAAGTACCTATCTGATATTTCTGCTGTAACATTTGGTGCATGGCAGACAATGTTCGTACTAATAACTGGATATTTTGTAATTCCTGCAGATATATTCTCAAATATAACAAGTAGATATGCAGCAGAAGGTAAAAAAGTAGGTGGAATTTTGCTTATAAATGGAATAGCAGGAGTTTTAGCTATAAGCATATACCTTCTCATAATACCTTTCATTAATCCACTTTTAGGCGGAAACTTTGCAAAATATTTTTATTTTTCATCAATTTTAGTATTTTTATTCTATATTTTTGATATCACTAGATCAATTGCGCTTGGAAGATCACCAAGAGTTAACGCAATATCAGCTTCAGTTTTTCAAATAATTAGATTAATAGCTGGTATAATACTTATGTTTATATTTAATTTGTCTATATTTGCAGTAATTTTAGCTTATTCTTTGGGTTATATAGCACAAATTTTAATAAATATATTATTTTCAAATGCAAATTTGCAAATCGATTTGAAAATAGCATTCAAAGCAATTAAAAAATCTATAGTTTTCATAACTTCATATATTCAGAACATAATTGAAGCAAGCTTAGTATGGATAGCAGTTTATTTAGTTAGAACTGCACTACCAGTATCTTATTTTGAGTCGGCATTAATAATATCAAATATAGTAATATGGTCAGGTAGTATTACTGATGGATTAATACTTAAATTAGCTGAAAATAAAGATCCAGATTTATTAGAAACTGCTACCAAATTATTTTTCTTAGCCGGTTCTTTTTTCCTTTTATTAACATTCGTAGACGGTGATCCTCTACTATTTATTTTAAGACCTGAGTACATTGAAGCATTTTTAGCGTTAATAGTTCTATCTATATCCAATTTTCTTAGAGGCCTATATACTATTTTCTATCGTGGAATTTATATGGCCGATACTACATTAAGTACTGAAGGAAGTGGGGAATTAAAGGGAAGTACTGCAAATCTTATTAGAAGAAATATTTTTATTTCAATTATAGGTTTATCCTTCTCTACATGTTTAATGATAATTTTGAAAACTTTTAGCTTCTCATCTCCAGCATTAGCAATAGCCATAACTTTAGGTTTGCTAATAAATTCTATAGGAATGTTAACTACAGCATATATTTCAGCAAAGAATATATATCGATTAATCTTTCCTAAAATTGAAAGCGTAGTTCCGCTAATTGCTACTGTAGTATCATCATTACCTTTCTTAATTCGATATATGGAGGGAAATTTGCCTAAATTTAGGGCTATTCATGAAATAGAAATAATGTTAATATACACACTAATCTCGTCTTCTATTTTTGTTATTATAAATATAGCTCTTAATCCATATGCAAGACAGCTTTTTATTATGATAATAAAAAGAATCAAAAATTTATAGATAGTTGGCTTAATGTTCGTGAAATGAGTGGAATAAACATTAGGATAAACAGGTTATTTGAAAGAAAGAACGCTTTTGTAGTAGCTTTAGATCATGGGCTAGTCATGGGCCCACTTAAAGGCATAGAAAAACCAATGGAAATTGTTAAAAGTCTTTCAAATATTCCAGATGCACTCCAAATGACGCCTGCAATGCTTAAGATAGTGGAAGAAAATTTCTTTTCAAGATCTTCGCCGATGTTAATTGCAAGACTAGATACTGCTAACGTGTGGAGACAGCAGAAGAAATATGATAGCGGGTATTATTCAGCTGTGTATAAAGTGAGAGACGCAATAGAAGCCGGAGCTGATGCCGTTGTAACATATTTTGTTGTAGGTTATGGCCAAGATCAAATAGAAGGCTATAATATCGAAGAATTGTCTAAAATAAGAAGGGAAGCTAACGATTATGGAATCCCATTTATTATAGAGCCTCTTTTTGTTTCTCCAGAAAATCCAGATTCGATTAAAGATGTAAATCTTGTTAAATATGTAACAAGAATAGCATCAGAAATAGGAGCGGACATTCTTAAAGTGGACTATACTGGAAAAGATAATTTTAAGGAAGTAGTAGATGTAGCATTCTCACCTATACTTATTAGAGGAGGTCCGAAAACTAACACTAACCGCGATTTCTTATCTATGTTAAATGATGCTATAATATCAGGAGCTAAAGGTATCACAGTCGGAAGAAATCTATGGCAGTCCCAAGATCCTCAAAAAATGGCTAAAGCAATTTCTGCTGTAGTACATGAAAGAAAGAGTGTAGACGAAGCCGTAAAGATCTTAGGATAAAATATTTTTATACGACATCAAAATATGTTTTATGAAAAAATATAATTCCATATTTTACTTAGCATTAGTAATCATTTTAATAATTTACACCTATGAAACCATATTAACGTTTGATCCTACATTTAATCCTCAAGCTGATCATTATATTGGAGACGAAGTCTGGTATCCTACTGCGGCTTACAATATTTTGAAATATATTTTCCATATAACACCAAAAATGTATTTTCCTTATTCACATGAGTCTGGAATACAGTATTATATAAATCCAGAACATCCACCGTTAGGAAAATATTTTATGGATATTTTTATTCTAATCTTAGGATACAGCCCATTAGCGTGGAGAATACCTAGCTGGATTATGGGAGATTTAATAATAGTTATAGGTTTTTTACTTTCTAGAAAAATAATAGGAGATAATATAATTGGAAATTTAGCAGGAATATTAACTGCTATAGTTATAGCATTAGATCCTACTTTATGGCTTCTTCATGGGATAGCATTATTAGATATTTACGTAGGTTTTTTTAGCATTTTATCACTTTATTTATTAATAAGCAAAAGAATAGTCCTAGCATCTATTGCTTTAGGACTTGCGATGGCTTCAAAAGAACCCGCTTTTTTTCTAGTTTTGCCATTTTTATATTATTTAGGCGAAATTACAAATAGAATAAAGATAAGAGCGTTATATAGCATTGGAGTTCCTATTCTAGTCTACGCATTAGCCTCAATTCCGATAATGCTATACTTTAACGGAATAATGGGGTGGTTACATGGAAGTTTCCTATATATGTTAGGCTGGGACGCGGAAAACGGACATATAGCATTATCTGCAACATCACAAATTTCAGAACCTTGGGATTGGTTCCTCGATATTCACCCATTTTATATGGGATACAACTTTTATGCAAACGTTAATCCAGCAATAATGTTTTTATGGTTATTTACAACTCCAATAGCTTTCCTTTTTAAAGATTCTAGGCTAATTACTGTAACAATGTGGGCCTGGACGGAATGGCTTGGATTTGTTTTAGTTTATATTCTAGGGAATCATACTCTCTTTAGCTTTTATGTAGCAGACTTCGGAGCAGTTATAGATGCATATATAGTAACCTCATTATTCTTTCTAGTTCAAAACATGAAAAATTTAAAATATAAATTAAGTATGAAAAGTGAGACAAATGATACGAAAAGCAGTAATAACAGCAGCAGGTAAAGGAAGTAGAATGAAATATATAACATCAGTTTTACCAAAGGCATTATTACCTCTTTTTAGACATGAAGATGACAAACTCGTTATGAGGCCAATTATTGATCTAATAACTGACTCTTTAGGAGAAATCGGAGTAAGCAAATTTTGTTTGGTGGTAGGAAAACACGGAAAACTATTAATGGACTACATGTTTGAAAGAAACATAACAATAGTTTTTCAAGACGAACCCAAAGGTTTTGGAGATGCTGTACTTAGAGCAGAAGATTTCGCATCTAATGAACCATTTTTTGTACATGCGGACGATGGAGTTTTAACTGGAGGGTATAGAGAAGCCAAAAGTCTCTTTGAAGAAATAAATCCAGATGCTGTTCTTCTTCTAAGGGAAGTGAAAAATCCAAAGAGATACGGTATTGTAGAGATAAAAGATAATGGCACTTATATGAATCATAAAGCGTATAAGATAATTAATGCAGAGGAAAAGCCTGAAAATCCGGCGAGTAATATAGCAATTTCTGCAGTTTACATATTTTCGCCTAAGATATTTAATGCAATAAAAAAAGTAAGTGTAGCCCAAGGAAAAGAATTAGAGTTAACATATGGTATAAAAGAATTACTGAAGAATGGCGGAGAAGTATACGGAATATTATTAGATAATGAAAAATGGCTAAATGTAGGAGATCCTGAAAACTACTATAATGCGCTTAAGTTTACATATTCGGATTTAAAAAAATGTTAGAATCTTAACGAATGAACGTCTATAACTAACTGATTTAATTCCCTTTTTATCTCATTTAAATCAATGGAAGCCATACGAATTCCATAATTAGTTCCCCTTTGCATAAGCTTACCTAAACCATAAATGGAGAATCCAGATATAGTAGTTATGTGAAATGGATCGTCTAATCCCATTGCTATAAATTTACCAATGCCTTGTACAGTTGAGCCACGAGGTTCATAATCACCTAATAATTCCTTAGATATGTTCTTTAAGCTTTGATCTTTCATAGATACTATATTATATTCTTAATTTTTAAGTTAAGAAACACTTACATACAATATTATCACTACGTAAAGTACATTAGTAATATTTTGCTTTTTTTCTAGCCAGTCTCATTAATAACCTTCTGCTCATTATGAATGAGTATCTTAAATAAAAATTTCTTCTACCTAGATGATATAATCTATTCCTATAACCCATATATTTGATTAAATAATTCTTATATAAAATACTTTTCGTTATAGCGAATATTTTTAAATTATATTTATTTTTGGTAATTCCCATTTCTTTTTTATTGCAATCAGTCTTATAGAAGTAACTAAAAGAAAAGTTAATATTAAAGAAATATAATCTAAAAATCTCAGTGATACTATATAAAATACAAAACCACCTATTATACTAGGTGTTGCATAGAAATCTTTTCTGAGTATTAACGGTATTTCTGATACCAAAATATCTCTTATTGCCCCTCCACCGGTAGCTGTTATAGAAGCTACTATCGCTACGCCAAGTATATTAAGATTATGGAAATATGCTAACTGAGCCCCAAAAGCCGTAAATGCACCTAATCCTATTGCATCAAAATAAAGAAGTTTTTTACTTATTTTAGTTAAGTTCTTTCTTATTAATATAATTAAAAAAACAGATATAATAGCTGTGATTGGATATGGTAAATATACAAGGTTGACTGGAGGAAATATCCCTAGTAAGATATCTGCTATAATACCTCCAGCTAAAGACGTTACAAATCCTAAAACTATTGCTCCTAGGAGATCTAATTGTTTCTCCATGGCCTTAAGAGCACCAGATGCAGCAAAAGCAAAAATTCCTATGTAATTAATAACCTCCATAATTAGACTAACGAACACAATGTTTTACTATTAATAACTAAATTTAAGGTTAACTCAAAAGACGTCTCTGACTATAAAAATAGTTTAACCCAGCACGAGATAAGGGACTAAAGTTACCTAAGTTAGAGAAATGAATACTTACTTTTAGGTATTTATTCTAAAGCGAAGTACTAATTGATATCAAGAGCTTAAAACACTAATACTTTCAGAAAGTTATAGCTTTTATTTAAGGGTTTACACGTAAATCCTAGTCTAAGTACTTCATAGAAATACTAACGTACAACAGAATTTAGAATAGTGAACTCCTACGGCGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCTTTACAAGGGTGAGACTAAGAAGACTAGGTATAGGGGAGGAGGTAGTGAAGGCCCCCAAGTTGGCCCCAATCAAGTAGTTCCTTCGGCTCTTCAAGCTATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTACCACGCCCTTACCGGTAGACCCAAAATCATTTTAAAAATACAAATTCAACACTAAACCTCATATTTTTCTTCATAAGGAACATATTTCATTATACTCATAATCAAGAGCATTAAGAATAATGCATTAAATAACAAATGTAAATAAAACGGATAGTCGTTTACGGAAATTTCTCTTACTCAAATATTTTCATTCTATTACGTAACGAAATAAATCTTATCCATTCTAGGCGAAAATATTTTAGGCTTTATGACAAATTATTTAACTTTTCTTCTATTATATTAAATTATTTTTAACGCTACGTAATACTGCAGTGATTTTCGTATAAAGTCTAAACGGATTCTATCGTACACATCTCATCATTTTCTAATATTATAATAATATTTCTTAGTTTACTTGTAGAAATATAAAAGATCTAATATAACACTTAAAAATTTCCTAAAAATATTGTAGAATTAATTATCTAATTTCATTAAATTCACATGAATTACTAATAACAAATAAAAATTATTTTTATTAATCAGATTTTGGGTCTACCGCCACGGAAGGGGTCTTTCGCCCTCTTTGAACCCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGGTCGACCCCTTGACTGAAGCAAAGTCTTCGATCGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATGTGACGAGTGAGGGGAGGGTCTACGAGAACAACAAGAAGGGTTATGAAGAAATACTAAAAGTAAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCAAAACTATGGAAGGAGAAGGACTTGAGAGGAAAACAGATTTTTACTACAAAAACTAGTAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATACGTCTTCCTAAAAGTTGAAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAGTCAGTGACGAGGAAAAAATAAGCAAGGAAATGCTTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTGGAACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATCACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGAAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGTGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTACACTGCTTTAGCCAGGAAATTGGCTAGAATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGATCCTCCCCAAATCGCCACGTGAATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCAAAATATTTATTACTGAACGCCCCTGTTAAGATAAAAACAAATTGAATAAAACATCTATATGGATAGCTTTCTAAAAATAGAGCATCCCCTAATGTTGTCAGCACAACTGCTTATGCATAGCGGTGTGGCGGGCCCGCCGGGATTCGAACCCGGGACCTACGGGTTAAAAGCCCGCCGCTCTACCTAGCTGAGCTACGAGCCCACTAGGTACATTAAAAGATTCAATAAGCACTATTATTAAAATTTTCTAAGGCATCTCATTAACTTAAACATCAAGTTGTAGAAAATGCTATTGCCACTTAGTAAAGCAAAAGCTTTTTATTTAATTAGTAATTTTTAAATTAACTTTAATAAATATTTTTTTAAAATAATAGTAACATAATTTTTGTAAACAAAAATGGTAACTAAATTTGTTTATATTATAGTTTATTTTAGCATTACCGAAATTGTTAAAATTTGTAAAATTTAACCAAATTATCTCAAAGATCTATCTTTTAGATTTTCTAGATTTATTATGTTATCGCATATTCCTATGAGATCATCATCATGTGTAGCAATTATTATTCCCCTATCCTCCTCTTTTAATGTCTTGATCATATCATAAAAGGAAAGCAAAGAATAACCGTCCATTCCTGCACTGGGCTCATCTAAAGCTATTATCTTACTCTTAGATGAGAATGCAGATGCAATAAGAACTCTCATCTTTTCTCCGTAACTTAATGCATAAGGACTTTTATCGGCTTTATCTTTTAACCTAAATAATTTTAACGCATAATCGCTTTTTACTTCATCCTTTACGGTAGTATAGAAAAATTGTAAGTCTGGATTTTGAAATATCACATAAGCTTTACCTATGAGTTTTTTTAAGAGTGTAGTTTTACCTATTCCGTTTCGACCTACTATACATAAGACTTCCTTTTCTCTAAGTTTTATATTTACATTATCAATTATCGTATCTAATATTATGTTTCCTAGCTTTTCATTATCTTCTTTCTCTAGTTTGAAACCTCTTAGACCATTTTCCCTAAGAAAATTCTCGTCAAAGAGTTTTTCTTTATCTACTTCCTTTATATTATTGTTAGATATTAGATAAATTCTATCAACGAAATCTCTTACTTCCTTAGTTCTATGTTCTGCTATTAGTGAGCCTAAAGGTAATATTTCCTTAACAATCTCTAACGAATTTTTATCTAAATTTGCAAATGGTTCATCTAACAATATGTATTCTGGATTTGAAACTAGAATACTAGAAATTACATATCTTTTTTTGTATCCATCAGATAACTGCATAAATTTCTTATCAAAATAACTATTCATTAATTTTTTAGCTATTTCAAGATTTACTCTATGGTATCTCCTTATAATTGCTATTTCTTCCGAAAAAGTCTCAGCTAATATTTGTGTATATGGTTCTTGCAATACAGCAGATAACTTAGAGTAGTCTTTACTCATACAAAAATCATTATCATCAATAATTATTTTGGAATTTCCATCACATAAAATAGATCTTATGATTGTAGTCTTTCCACTACCATTTTTACCTAGTAGTGCTATTCTTTCATTCTTCTCTAATTCTATCTTACCAGAAATAAATGAAGGAAAAATGACAAGCATAGAGTAATAACACCTATCATTGTTATAATAATATCATCTTTAGAAGGCATAAAGTTTCTTTTAGATGAATACTTTCCAAAGAGCTTGATAGTATATGCGAGATATAAGTTTTCAGCAACTTTAAGCATTTCAACTATAATTGGTCTCGATATTTTTATTGGATTAAATTGTTCTTTCCTAGATCTCATGTTAAGAAGTACTTGCGTTGCTAGATCGTAAAAATAGGGATAATACGATAATGCTATAACTATAGGTATTCCTTTTTCTCCAAATATATCTATTATACTAGGTTTATTAACTATATCACTCAATATTATAAATAAATTTAAGTAAGTTAGAGCTCTTAAAGTATATACGTATAAATATATATGATGGAAATATAACAGAATAAGAAAAGATAATATCGATATTGTAATATCAACAACAATAATTGCTTTTCTTCTAACAAGAATAATAGTAGTAAGAAAAGGAACAAAGGAAAAATAAAATAACGAAGATATTATCACTAATAGTAAAAACGAGGAAGAATATAGAAAACTCGCTTTCAATGTAGTACTCCCGATTTTATTAGATAAGATCCTAAGTAATAAGATAGCAATCCCATAATTCCACTTTCTACAAAGTATAACACAGTAAATCCTCCTAAGTAAAGTGCTAGATTAGAAATGTGGGGAACTCCAAGAAGCATGAAGCCGAAAATTACACTTAAAGTTCCTACTAGTCCGCCAGCCAAAGTAGTATTAATCATTACTGCTCTAAAACTTCTGTATCCCACTAGTCTTGAAACACCCTCTACTACTGGCCCTGCTACTAAAAACGTTATTGCTAAAAAAGGTAATATGATATACAATACTGCACTTATTAGTGAAATAAGTAATGGACCAAATTTTTTATTTATAGCTTGAATTCCAACTGAAATTATAATTAGTGGAACAGTAAGAGTTACTACTGGGTCTAAAAAATATCCAAGAATTCCTATTGCATAAGCACCTATACCTAAAGCTAATGAAGCGGCTACAGCATAAGAAGCTACAGCAAATATTGCTGCATATATCAATGTTTTCCTATCTATTTTACTTGATTTATTCTCTTTGCTCATAAAGAGGAAGTTATTTCTTGTAGATAAAAATTTTTCTCAAAATATTTAGTCTTTAGCATGAAATGCCATTATATATCCGACATATGCTACAAAACTTAGAAATACCGCTATTATAATGAAATTTATAATCTTAACTATTATAGGAGATATATTAAAATTCCCAAAATCTATAGATAATCCTAAAAACATGATAGAGAAAGATAGAGAAAGGAGAAACAACGCAGAAATTATTAATAAAAACCCTATTATTTTAAATTTTATTCCCATATAATATATCCCTCACTGCTTTTCTAATTGCTTGTGAAGATGATAAAGAAGGATTCCATCCATATCCTCTAATCTTTGAAATATCTAATAGCATAAACCTTACATCACCTTTCCAGCCTCTTCCTTCTCCTTGATCTTCATAAATATGCTTAGGAGATAAATTCATTTCTTCTTCTATTATCTTTGCTATATCATTAACAGTTATCCAGTCATCATTACCTATATTAAAATAGTCATACTTAGACTTAAAATATCTATCCAAAACGAATATTGCAGAGATTAAATCTGAGATATAAAGATAACTCTTTCTCTGTTTACCATTACCTAAAATCTTAAGTTCGTTAGAATTCTGCCTTAATTTTTTAATAAAATCTATTACAACTCCATGAGATACCCTGCCTCCTGTAATATTGGCTAATCTTAGAGATATACCTTGAATTCCATAATTTCGAGAATAATATTCTACTATATCTTCGCCCATTAGTTTAAAAAGACCATAATTTGAAATAGGAAGTTTATTGTCAAATTCCGGAGTAGGAAATCTTATAGTCTCCCCATAAACTGTAGAAGAAGAAGCAAAGAATACTTTATCTGCATCATATATACGTGCCATTTCCATAACATTTAGTGTAGTTAAAATGTCTCTTTCAAAATGTTCATATATACTTTCCATAGACGTCCTTACATCTGGATTAGCTGCTAAATGATATATAGTACTATTTTTTTCTATTTTTGGATATTCTCGCCTAAGATCTATTTTCAATATATTCGATTTTGGATTTACATAATTCCCATTTGAAAAATCGTCTATCACAGTCACATTCTCTCCTGATTCTACTAACGCATCAACTAAATGTCCGCCTATATATCCAGCACCACCAGTTACAATAGATACCATAGTAGGTATTATTTGGGATAGAAATAAGAATTTAATGTTTATGATAATGAAGATTTTCTATAGATTTATAGAAATTATTTCAAATAATAATTTTCATTATTTTGGGTGTGGCGGGCCCGCCGGGATTCGAACCCGGGACCTACGGGTACCTCCCAAGGTTAAGAGCCCGTCGCTCTACCTGGCTAAGCTACGAGCCCTCAAACAACATTTTATATTCAAATAATATATAAAGTAATCTACGGACTAAAAAACTAAAAATAGAGGTCTAATATCTAAACTGTAACATTCTTTTTAGATTTTGAATTTATATATTCCATTATTTTCCTTATAGTAGCATATTTTGTACCCAACTTTTTTACCATTATAACTCCCTTTATTCTACTAGCTGGATGAATTTTATCAAAAAATTCTGGTTCTAACCCTAACGCGTTTGCTGCAGACATAATATCCTCTGTACTTAATCTTGTTTTTCTGAATTTTCTTCCTTTCTTTCTACTTTCAGCGTTAAAATATGCCAACCAGATAGATATTTTCTTGCCTTGATAATCTCTATTAGTCATTGTTGAACCAAGATCGCATTTATTACTCCGTCCTGACCTGGCCTAGAAGTAACTATTGCAATCCCTAATTCGGTTCTTATCTTAGAACCTTTTACTATAATGCCTCTTCTAGCATATTCCCTATTAGCAGGCGTTTCTAGAACTGATAATATCTTAGCTTTCTTGGCTACATTGTTCCTTTTGTCAAATACGTTAGCATAAAGGGCATACTTTAATTTTAATTTATAATCTCCACCAAGTGTTCTCTCTTTTTCCCTAATATCGCTATCAGCTAATCTAGTTTCAGTTGGAGGACTTCCCATCTCATATTTTCTTTTATCCCTATAAGTTCCCTTTAGTCCCCCAGTTATTTTTCTTGTATCGCTACCTTGGTAAACTCCCATTTTATTATCAGAACTATTTTGAATATAAGAGTAAATAAGATTAAGCTCCAAATTTTCTTCTTCTGCGCTGATAGGATCTTATTGCCCTCCAAAGATCTATTTTCCTAAATTCTGGCCAATATGCATCACAGAAAAACAATTCTGAATATGCCATATGCCATAAAAGGAAATTACTTATGCGCATTTCACCAGAAGTTCGTATTACTAGATCAATATCTTCTAGTTCTTCATCATAAAAATACTTTTTAAATACAGTTTCATCTAACACGTTACTATCTAACAGACCTTTTTTGTAGTCTACAACTAACTTAGAAACTGCATCCAAGATCTCCTGCCTTCCACCATAGCATATTGCTAATGTTAGCTTTCTATCTTTGAAATTTGAGGAACTTTCAACTACTTTAGAAATACTAAGCTTAAGATCATCTGGTAATTTCTCAGTTTTTCCTATAGTCCTTACTCTAACTTTATATTTTGGAACAAAATCTTCATATAATAAATCATCTATTCCCATCTTTATATACTTTAAAATAGTATTTAATTCTGTTTGGCTTCTCTTATCACAATTTTCAGTAGATAACGCGAAAACAGTAACATTCTTTACACCTAATTCTAGAAGCCAAATAAGAACCTCTCTTAATTTCTTATATCCGGCTAGATATGCTTCTTGAATGCTAGAATTAGTTTGCCTAGCCCATCTTCTATTACCGTCAGGAATTATGCCGACATGTGCTGGTATAGGACCTTCTTTAATCTGATTCCAAAGCATTTTTTCATAAAATATATAAGCCGGCTTAAGTAGGCTATTTAGCATAACTCTTCTATCGCATTTAGATAAGTTTGTATACCTATATATATTTCATCAAGAGTTATTTTTTCTAACTCAGTATGTTCTAATTTAGAATCTCCAGGACCATATGTAACTATACTCTGAGTTATATTTTTTAGAATATTCATATCACTAGTGCCGGCTTTTCTAACAATAGATGGCTTGATACCTTGCTTTATAAGACCTTTCATTACTGCTTTTACTGCAGGACTATTTACACTAACTTTTACTGGATCTACAGATTCTATTATTTTAATTTCACAATCTTTGAATTGCTCATAAATAGGAGATAGTATATTGGACTTATCCGTATTATAAGGATATCTAACATCTAAATGCAAGTAAGCGTCTGAAGGTGTAACATTCATGTATTCTCCAGACCTTATAATTGTAGGAACTATGGATGGTTTATCATACGTAGAGGGTAATAAAGATATTTCATTAATTTTTCTAGACATATCAATAATTATATTTTGAGTAGCGGAAGATGAGTGTTCGCTTTTAGCTTTGCAAATAATATCTAAATGCATTAATCCTCTATATTCAGTAACTACATTCTTAGTATTTGTAGGTTCACCAACTATTATATGTTCAAAATTTATACCTTCATTAAGAAGTTCTCTAGCTCCTGCACTTTTATTTTCCTCGTCAGATAAAGCAATAAATGAAACTTTTTTTCCATTTTCTAATGCTATCCAAGTGGCTAATAACATAGCTATTAACGGACCTTTATCATCTACCGCACCTCTGCCAAATACAATATCATTTTCAATATGTGGCTCAATAAAACCTGGTACTGTATCTACGTGAGGAGCTAAAAGAATTTTTCCTCCAGGACTCAAAAAATAGGAATTAGATTTAGTTATTTTCAAAGGTAAGTTAAACTCCTTCGAAACATTAATAAAAAAAGATTCAGCATTTTTTTCATTTCCAGAGGGAGTATAAATGGAAAGTATACTAAGAAGTAACTGCTTTGCTTTCTGTTTCAGAAATTCCTTTTCTTGCAGCATTTACTACCATCTCCATATCTTCTTGAGTAATCATATATGGCGATAAGAATCTTATAACAGTCAATCCAGCTTTTAATGACAGTATTTTACTATCTTGAAGTACTTTTATAGCATGAGCTGGATTAAGCCTTAAATCTATACCTATCATCAGACCTAATCCTCTAATCTCTCTAACAGATTTAAAGTCACCAAGAGAGTCTTTAAGCATTCTCATAAATATTTCTCCTTTTTCCTTAGCTTGTTCTGCAACATTTTCCTCAACTAAGACCTTTGTAGCTGCAGTAACAGCGGCTGCTGCCATAGGATTTCCACCGTATGTTGTTCCGTGATCTCCTTCTCCTAATTTTTCGGCTATCCAATCTGGCATGAATACGGCACTTACTGGAAAACCTCCTCCTATAGCTTTTCCAGCAGTCATTATATCTGGAACAATACCGAAATGCTGATGAGCCCATACTCTTCCAGTTCTTCCAAATCCTGATTGAACTTCGTCCACTATTAATAATGCTCCTTTATCCTGACTCACTTCTTTGAGAGCTTTCATAAAATCTTCTTTAGCTGGAATTACTCCACCTTCTCCCTGAACTGGCTCTACTATAATAGCTGCAGTATTCTCGTCTATTTTCTTTAATTCGTCTATATTATTGAAATCTAGAAAATCTACCGGACCTAGTAATGGTTCAAATGGCTCTCTATATCTTTTCGTCCATGTTACTGATAATGAACCAGACGTTCTTCCATGGAAAGAGTTCTTAAATGCTATAAATTTCTTTCTACCAGTAATTTTTCTTGCAGATTTCATTGCAAGCTCTACTGCTTCGCTACCACTATTAAGAAGAAATACATTATCTAAATTTCCTGTTTTTACTTTGTCTAATTCTTTTAACATTTCTTCTCTAATTGGAGTATTGAAGGCCGTAGTTAATGTCATAATCTCTGACATTTGCTTCTCTAGATACCTAACTATTGTCTTATTGTTATGACCTAGAAATGCAACGCCATGACCAGCATGTAAGTCTAAGTATTTATTCCCTTTATCGTCCCAAACGTATTGGTTCTCTCCCTTTACAATATTTATACCTCTTCCAGAGTAAAATGTAACTAATTTCATTTTCTAATCCACTCCTCAATTTTTTTAATTAAAAACTCAGATAAATTAAAATTATTTACTCTAACGGTGTTCTTATATTCAGGAACACCATTCACTTCATCAACTAAATATCCTCTTTCTTTATCTTCAAAAATATCTATTCCTAAGAAAAAGCCTCCTATTACTTCCTTTACTTTTATCGCTAACTCACTTAATTCGTCATCAATCTTTAATGGCTTAGCTATAGCACCTAATGCAGTATTTGTTCTCCAATTATTTGAATTGATCCTATATATTCCAACGGGTGTTTCGTCTCCTACTACAAATATTCTTATATCTCTATCTGGCTTTTTAACAAATTCTTGAATATAATATATATTCTTATATTGTAACATTGAATAATCCTGATATTCCAAGAAGCTTCTTAAAGAATCTTCGTTATCTGCTTTGGCAACCATCCTCCCCCAACTTCCTTCAATAGGTTTAATCACGGTAGGATATCCTAGCTTGCTTGCTAGACTAAATGCATTTTCCTTGGAAAAGGCAATTCCTGTCTTGGGCACTGGAATTCCATGTTTAGACAAAAGAGACGTTGTTACTAACTTATTTTCGCACCTAAGCAAGGTATATGAATCGTTTATAATTTTATAATTAGCATTTTCAAGAATCAAGGAAGTTGCAAATGCTCTACTATGTGCAACATTTCTTTGTAAAACTACATCCATGTTAGGTATTGTATACGCTTCGGAAAAAAGTAAATAAAAATCCTTAGAAAATAGAGGTATAACTTTGTGACCTAATCTTTGCCCTTCATGTATTAAATTTTTTTCTTCCCATCTAACTAGGTCATAAGATATTCCTAAAATCACTCTCCCCAATCCTCACCTACTTGTTCTGCTAATCTAAGGGCTAATCTGCCATTATCATTATACACTTCTAATTGTGCTCCGCATTCATGTTCTATTATTTCTCCAGGTAATGCATCGTCTTCTAAATTTATATTTCCTCCACATACGGGACATTTTAGAGTTACCATGATTGGTCAAGTATCAACTATACTAGTTAAGTGTTCAAAAGCTTATATGAAAATAAACGGTTCGAAATTAGAACCATGTACGCAATATAATAGTACTATTTGTACCTATAACGCCTTGAATACTTCTAATCTCATCTATTGTTTTATTAATCGACGAGATATTAATTCCTCTTACAACAACTATTATATCATAATCGCCAGTAGTTTCATAAACGGTCTCAACTCCAGAGATCTTTACTAACTTCTTAGAAATCTCTGGAGTAGGTATTTGCGGAGTAGATTTTACCATAACTATTGCTTTTACTTCGTTTTCTAGCTCATACTCTATTGTAAATCTTTTTATTACACCTAGACGGATTAGTTTTTCTATTCTCTTCCTAACTGCAGCTTCGCTAACCTTCAAATCTTTAGCTATAATAGTATAAGGAGTCCTAGCATTCTTTTTTAGAAAATCTAATATTTTTAAATCATTTTCGTCTATTTTACTACTCAACTTATCACCGTTCCATTCCCGTTTAAAGCGTTATTTATAGAATCTTCAATCTTGCCTTGAGCTATTATTACTTTTTTTACACCAGAACTAATGGCTTCAGAAGCCATTAGAAGTTTTCTATTCATCCCAGCTCCTACTTTACGTGAAAGATCTCTGGCATCTTCGGCACTTATGTTGTTTATAATTTTACCTTCCATCATCACACCATTTACGTCTGTTAAGAGGATTAATGTATCGGCTTTTATAGCCTTAGCTATACTAAAGGCCATTTGATCTCCATCCACATTTAGCAAAGTATTCTCATCAATATCAATAGCTAAAGGAGCTATTATTATGTCATCAAAAATGTTAAGAAGCGAAAATATATAATTTGAATTAACTTGAGTAATTTTCCCAGTATATCCTCCGTCTATTATTCGTTTTTTTCCCCTTTCATCAATAATCATGATTCTTTTTTTTCGCTCTGCTATAGCTATAGGCCCATCAGCTCCTGTTAATCCAATACATTTCTTTCCATTACTAGCTAGTGATTTTACTATATTTTTATTTATAAGATTCATTGCCATTATATAAACCTCTAATTCTTCTTTAGAAGTATACCTACTTCTTATGCCTTCAGGAGATGTAACAAATACTGGTTCTATACCCATTTTCTTTGAATACTCAGTTACTATATCTCCCCCTCCATGTATAAGAACGATTTTGTTATCATATTTAAGAACGCTTCTAATCAATGAATCAAAAGAATCTTTAATTACCCTACCTCCAGTCTTTACTACTATCATTATGCTGGCCTCAATGGTGGCGTTTTTAATCCTTCTTCTTCTTCAAATTTATTTGAGATGTTAAAGCTTTGAATAGCTTGGCCTGCGGCGCCTTTCATTAAATTATCAATAGCAGAGAACATTGTTAATCTGTTTAAGCGTTCTTCTATAGCAAATCCTATATCGGCAAAATTGCTCCCTATAACATATTTAGGATCAGGATATGGATGAACATTACCTCTTATTATCCTTATGAATTTTTTGCCTCTATAAAATTCCGCTACTTTTTTCCATATATCCATCTCGCTATATGATTGCGACATCCATAAATGGGCTGAGGATAATGCACCTCTTATACTACTTACAGCATGAGGAACTATACTAACTTTAATTTGCTTTCCTGCGATTATACTTAACTCTTGTTCAGCTTCTGCTGCATGCCTATGTCCAGTAGCCTCATAAGGTCTTATGGCATTAGCTCTTTCTGAGTGCTGAGATCCTTCTTTAGGTTTAGCTCCTCCTTCACTACTTGATACTTTAACGTCACTTATAAACCTATTATCGTCGGTAATATTAGAAGATACTATTGGTGCTAATGCTAGAATAGTGGCTGTAGCATTGCAACCAGGCGAAGCGATTAATTTGGCATTTTTAAGCTCCTCATAGTGAAGTTCTGGCATACCGTATACTGATTTTTTAAGTAAATCAGGATATGGATGTTCTATTCCATACCATTTTTTGTACACTTCTGGATCTTTCAATCTAAAGTCTGCACTTAAATCTATAACTTGCATCCCCATTTCTAATAGCTTTGGCGCATAATTCATTGAGACTTTATGAGGTAATGACAAAAATACAGTATCTGCCTTGTTACCAATTTTATCTATAGAAAAATCTGAGAAGTTTATGTTATAAAATCCTTTTAGATTTGGATGTACTAAGGATATTGGTTTACCTGCATATTCCCTAGAGGTAACTAGTGTTACTTCTACATCTCTATGTATTGCCAATAATCTTAGTAGCTCTCCTCCAGTATAACCCGAACCGCCTATAACTGCTACTTTAACCATTATGTTCAAAAACAACACTTCACTTATAAATAATAATGAATTCTACTAGTTTAAAATGATGGAAGCAAACACTGATGAGTTAAAGAAATTTTTAGAAAACAAAATTTCGTCCTTAAAAAAGGAAATAGAGTACTATGAATATTTACTAAGTTTATTGGAGTCTGGTTATGCCCCAATTAAAGGAAATAAAGGAAGTTTAGATTCAATAAAAAATCGTAAAGGAGAGATAATAGCCGAAGTATACTTTACGCCTCCCATTGCTAAAATAATAATAAGGAAAAAAATATCTCTTCAAAGGGCATATATAAATGCACTAAGTAAAATCCTAGAAGAATCAAAAGATAATGATAAAATAGATTATAACATAGTTTTTGATAATGATGCAATTAAAGAAATAAGCATAAATAACATAAAAGATGATTTTATTTATAATAAGATTAAAAGTGCTATTCAAGCTATATTAGAGAGAGCTACTAGTTAATACATGCGTCTTAATAAGCATTGGTCTAGGATCTCCTATAAATCTAATAAGTGCTTCCCCTCTTCCTAAGAACGACAACCTATTAACTATCTCCTCATTACTTATGTTTACAAATCTTTTTACAGTTTCTGACCAAAATCTTTTATCACCATTATTCATTACCATTAATAAACCAACATTATCTAAATATATATCAGATAATTCTCCCAGATCCTCAATATTTTGAGTTGCCATAAGTATAGAAATGCCATATCCCCTTCCTCTTTTTACAATATCAGTTACTATTGGATATTCGTCCTTCTCGCTTCTAAGTATTGTCCAGGCTTCATCTATCACTAAAGAAATTTTTAAACCTTCGTCCACATTTGACGAATACTTATTATATAAATCGGTTATAATTGAAAAAATGACTAATTTACGAAGGATTTCTGATTTGATCAGACTTAAGTCTATTACATTAATTCCATCATGTATCTGATCAACAATGGATGAATTCTCGTGATCTACTATTTTGATAGTACCAAATATTTTTGATAATACTACATATGTAATTTCATCAAATTCTAAACGAGCTTTTTCATCAATATAATCCCAGTTTATATTATTTATCTTTCCTGATTTTACGTTTTCCAGAGCAGTATTTACTAAATTAAAAACTATTGAACTATATACTCTATCCAAGTTGAAAGAATTTGAAATTATTTTCTCAATTTGGATAGATCTAATATTAGAATATACATATTGAGATCTTAAAAGAGATATACTATAAATTAATGGGTTCAATAATCTGAAGCTTAAACCATATTTTCTTAATCGAGACTTAATGTCTCCTTTGATATCAAAGAAAACTGTTGGAACGTTTTCTTGTAAAGATAATTTAGCTCCTAAAGATATTAAGAATTCGGTCTTACCGGAACCAGTAGGACCTACAATAAGTACATGAGGATTCTCAGCTTTACTAACATTCCAAAATACCGGCATGTTCTTTTCAATGTCCTTACCCAAGAATATTCCGTCTGTTCTTATTTCAACACTAGGCAATTTCTCTAATGAAAACGGTGTTAAGAATGGAACTTGAAATGATAAAGCTGTTTTATTTGATTTCGACTCTTCCAAAAATATTGTGTCCAAAATATCGTTCTTACTTGCAATCTTAGATTTAATATTTAATCCCTCAAGTCCTCTCATAACTACCTTAGCTAACTGTAGAACTTCTTCCTTAGATGATCCGTATATTAGTAAAAAAATCTCATATTTAAAAGGAATTTCGCCTTCACTAATTTTTTTCAAAATAGAATTAATTAAATCTAGCTCCTTTCTAGCTTTGGCATTAGATGGATCAGAATCTACCATTATTCTTAAATTTTGCGCCTTATTTAGAAGATTTTCCTTATATTTTACAGAATCTATATATTTCTTGCGAAATATAATATCTACTTGCGTACCAAGATTAATAATTTTATGAAAAGCTATTATTGAGTTTTTTATTTCGTTGTCTGAGAAATCTCTATAGTCATATGGTATATCGTCTATTTCTACAACAGCAATATAATCATTCCCTTTACATATTACGCCGTTTTCTACTTGTAAAGAAGCTTCCACACGTTGCTTAACTAAAAAAGATTTTATTGAGTTAATATTCAATATTTTCCATCTAGTTAAAACGAATATAGACAATACCAAAATTATTAGGAAAAACGGATTTCTATATACTATTGCAAGAAATATTGGCATCAATATTAACAATATTAAAGCTAATCTATTGTCCATCATAATTGTAAATCAGTATTTATATAATCTCACAGTTCTCTGAAACAATCACAAGCAGAAAAATGGATAATTTATCATGAGCAGGGGCGTTCAGTAATAAATATTTCGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGCGATTTGGGGAGGATCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAACTATTCTAGCCAATTTCCTGGCTAAAGCAGTGTACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAAAACAAGCTGCGCAAGTACTTATTACCCTTCTTCGATATTCCCTTACTTACAGTAGCTTTACCGCTCCTCTCAACTATTGGGTCTAAACCACAGTAGGCTACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCTCCAACAATGCCTATTATTATTCCCGAAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTAATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTGTACTCTAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAAGCATTTCCTTGCTTATTTTTTCCTCGTCACTGACTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTCAAGGTCTTTTAGGAAGATATATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTGTGCGTCGTAAAAATCTGTTTTCTTTCCTCTCAAGTCCTTCTCCTTCCATAGTATATTTGGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGAGTATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGATACTAGATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGTTCAAAGGGGATGGAAGACTCCATCCGTAAGGGTAGACCCAAAATCATTTTACAAATATAAATTCAATATTAACCTCATATTTTTCTTCATAAGGAACATATTTCATTATACTCATAAACATGAGTAATAAGAATAATGTATTAAATAATTGATACAAATAAAGCAGATTTCATTATTCATGTCTTTATCATTTTCTAATATTATAATATTCCTCAGTTTACTTGTAGAAATATAAAAGATCTAATACAATCCTTAAAAATTTCTAAAAAATACTGTAAAATTAATTATCTAATTTCATTAAATCCTCATGAATTACTAATAACAAATAAAAATTATTTTTAGTAATAAGATTTTGGGTCTACAGGTTAGGGCATGGTAGGCTCCACATGCTTTGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGAAGGAACTACTTGATTGGGGTCAACTTGAGGGCCTTCACCACCTCCTCTCCTATACCTAGTCTTCTTAGTCTCACCCTTGTAAAGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCACCGTAGGAGTTCACAATAAGAAAAATTGGGCTATATCTAAGATAATTTAATCGCAGTGCTTAATAAAATAATTATTCAAATGGCAGTATTTGTAGATTCCATAAAATTTCTAGTCTTGAATTTTTCTTTATAACGTTTTTACCAAGATTAAATAAACTATCAATAAGAATTTAGAAAGTATCTCTATCAGTTAAAATATCATAATTCTATATTAGCATGAACTTGCCTCAGATCTTCTTCTGATTTTTTAAGACGTATCATGAGTTCTGCTACAATTCCGTCCAAAAATAATTGTGTTGTGTCCTCAAATAATGTACCTAAAGGAGCTAAAGGTTCAGTAATGCCCAAAATTTGCCTTGCAAAATAGTCTTCGTTTTGTGAATATTTAGTTCTACCGGGTACTTCAACAACTATATCTGCTATTTTACCTATTGGACTGTCTGCATAACTTGTGATAGCTATCAATGTAGCTTTAGCTTCTTTTGCCGCCTCAGCAGCAGTTTGAATTAGACGCGTCCTACCAGAACCAGAAATTGCAATAGCTATATCCTTTTCTCCTATAGCCGGTGCTATGGTTTCTCCTAAAACGTAAGCATTATAGCCTAGATGCAAAAGACGCATAGCAAAGGCTCTTCCAACCAGGCCGCTTCTTCCAGCGCCCATTACTAATACTTTTCCATTCCTATTATTAGCATAAAAATTTTCCAGCTCATTTACCATTTTTTCTACTTGTTCGGGTTTTATTAATTGAACACCCCTAAGAATAAACTCAGCTATATCGTACATAGTTTTTAAACTGAGAGGTAGATTGAGAAGAGAGGAGGATGACAATTATTATTTCGCCAATTCACCTATTGGAGTAAGCTTTTTAAATTTTACTGTGATTTCATGGAATAATATTTAAGAAGTATAAACTATAAATATCTACTAAGGTAAAAAATGAGCAATAGATGGTTACCTAAATGGAAAATTGTTGAAATAGAAGTAAATAACAAACCTTTTGAAGTTTGTTACGATGAAACGCTAAAAATATATGCATGTCCTCTTTGCAGTCCCTCATGTAAATCTGGAGGAATTCCGGATTATAGTAGCTATTTTTTTCATACAGAAGATTTAATTAGACACATTAATGCGCATAAATATAATCTTTGGACAAAGAAAAGACCTATAGAATTCGAAGAGGAAGACGAAGGAGAGGAAAATAATGAAGAGGATTAACATAGCAATTCTCGGGGGATACACAATAGATGAGATTCATGAGAACTCCGCAACATACGAGAGACCTGGAGGTGCCCCAATTTTTTCCAGCTATGGTGTATTTAAAGCTGGTGGAGTCCCAGAGGTTTTTTCAATAAAGGGAAAAGATTTTGTATTTGATATTCCTGGTTTTATTGTAGAGAAATCTATAGAAGTCATTGAGCATAATATAAGATTTAAAATAGTTCTAAATAATGGTTCTCGTAAAATTTTTCTTATTAGGAAAAATAACCAAATTCATATTGATTATGACATTCTTAATAATTATAATGGAATAATAATTAACCCTGTATGTAAAGAAGTTCCTATCGATATAAAAACCGATTTACCTATAGCCCTAGATCTTCAAGGGTTTATTAGAAATTGTAACGAAAATGAAGAAATTAAATTAGAGCAAGCCAGTTTACCTATAAATAGAAGTTACATGGTATTTCATGCTAATGATGAAGAGCTGGAAAAATCTGGATTAGATATTGAAAAGCTGTATGCATTAGGATTTAGAGAGATACTGATATCCCATGGATCAAAAGGTTTTACACTTTATTACAATAATGAACATACAGATTATGAATCATCAATAGTAGGTAATTATGAAATAGGGAATGGAGATTTCTTATTAGGATATTATTTCACACTTAGATTACTTGGAAATAACATTAAAGATTCTGCAGAAAAATCGCTATTGGCCTCAGAAGAATTTAGCATGTACGGATTGAATTTAAAGATTCCTCAATACTGAAATTCTTCCACAAGCCTAATCTTCCGCAGTCTTCTACATAATTAACTTTTCTAGGTACTGGTTCGCCATACAATATTGCTTCTTTTATTACATGACTCCTATAAGCTAGTATCTCATCTTTGTTGATTATTTTTAGCCTTTTTAAATCGCCAAGAACCCTATAAATATCAGGAAGTTTCTTTCCCCATTTAAAGAAAGAATATACATAATAAATATCTAAATCGTTTTTCTGAATTTTAATAATATATGAGAAAATGATACCAGCACTACCATTAATATATATGTTCCACTCAGTATCCTTATGCTGTGATATCAATATAAAATCAAATAGAGAAATATATCCTAGATTCTCATCTATTCCGAGTAGTTTATTCAATTTTAATCTGGAACCAGTATTATAAATTTTATCATACGTTATCACATTACCCCTATTCGTAATTATTTTCTTATCATTAGAATTTATAAGTACAGGATGAGCAAAAATTACCTTATTATTAGAATAAATTATATCAGAAGGATTTTCAATATTATATATAGTTTTATCAAAACTAAGCCAACTAGGTAGTTCCTCACAAGAATCGCATACTTTATCTTTAAGATATTTCTCTTTTTCATATATAACTTGAGGCCTGAATTCGTCGAATTTTAGATTACTAAAGAATTTATTTACTAATATTTTATCTTTCACTAATGGAGGAACTAAAGTTATACCGAGATCTTTAAAAGATAAGGAAAATAATCCGCCTATATATGGTTGTTCCTCTAAAATTATGCCTCCCTTTTCTTTAGCAATATGTGACCCTATTAAACCTCCACCAATTATAATGTTCATGCTCACATTTAGATAGTTTAATTAATAAATCGTTGCTCCATTTCCAAATATATAATTTTCTTGGGACAATAGCTTCTTTGTATTTTTACCTTCCATTATTTCCCCTTTAATTAGTCTTAAAAGCTTCTCTTTAGCCTCTTCTTCACTAGAATAATCAAAGATTACTCTTTTTCCATCTATTTCAAGAGTAGGATATTCATAGTCGTATAAGAGATCTGTTTCCACATCAATACCTATTTTTACCTTAAAAGATCTTACAACTTCATATAATAAGGGTAATATGTTATTATCACCATAAGTACCAAATATTACCTTTATCATTGCCATCTTATATTGTAAGTTCGATACGTATAGTATAAAAAGCCAAAAATCCAATATTACATTCGATGAAATCAGTCCTAGGGCCAAATATTTCTCAGGGAGCTGGAATATTAGGTTTTTCAACTAATATAAATGATGCAAATAAGATTCAATTACTCGGAAAAAAACTTTACCCAGATTTTAACGTAATAATATTAGATCTGTCTAATCCAGACCAAAGAATAACTGCAATAAATATTGACCCAGATATAGCAGATTTTAAATCTGGATACGTTGTTGCGATATCTATATTAGCTTAATTTTTTAGCTAACTTAATAGATGTTATTTATGGGCCCATAGTCTAGCTTGGTTAGGACGCTACCCTCACACGGTAGTGATCGCGGGTTCAAGTCCCGCTGGGCCCATATTAGATATAGTATTCAATAATGATGAAAATTACACAGAGATAATTTTTCTTTTTTAAAAAAAATTATTTGTACTATACTGAAAAGTTCTTTTTAGAATAATATAAAAATTGAATCTTTAGGAATATTACTTATCTCTTAACGTTATCTGAACTAAAGTTACTTAGAATATTTGTAGCAAAAACCTCATACGATATCTAGATTAATATATTATTCATAATACAAGATAGTTAAAAGAAGCATGAAATTGAGAAAATTCAAGCTCAAGATTCCATTTAACAAACTAATAATGAAAGTTACATCGTTGGTAGTCCAGTTTTTGCTTATACTAGGATTGTTTGCCGTAATACTATCTACCATATTCAGTATAATCTACTCTTTAAATCAAGGTTTACTTGCCGTAGCATCCGTAACTTTGGAAAATGCATTATTGATAGTAGTCTTTCTTGAGATTTATTTAAGCGTTTTTGATTTTTTTGAAGGAAAGGGTAGAAGTATAGTATATGTCCTCGATGCTACAATGTCGTTCATTTCTAGAGAAATAATAATAGATGTACTAACAGCAAATATCAACTATGTTAATATTATATACCTAGGTGGAGTAATAGGCATAATAGCTTTTAGCAGATTCATAATAACTAGAAAAAAATCAAGAAGTACGGAAAAGCACAACTGACTCGTAATTGGGATCTATTTTAACATTTATTATATTTAGCCTTTCTGAGTTTCTATTTTTTAATGCGTCTTTAAGATCCATATAAGTATCAACAGTTATAGCTCCTATTGATTCTAGCTCTCTATCTATATCTATAACATAATTCGTTCTACCTATAGTTGGCATGTCAGACTTAGTAGTATCTAAGTAAGAACTAGCCTCATCGTTAAATATAACTATAGTACCTTTAGCTTCTCTAGATTTATAGTGTAGTAAACTAAGGTTCTTCTCTGCTGTAGATATATCTATTATGCCTAGAGAATTTGTTTTAGACTCTATAATCCCTGCAATTCCAATACCCTTTTCTAATAGACTTTCACTAGTAAACCAAATAGGCCTTTCTATAGGCATTCTTATTGAATCAAAAGTAACTGCAGATAAGTCTACAAATATCCTATCGTAAGTGAACTGTTGAAGTAACCTTACCACATCGTATGGCCATAGATTATTATGTGGTTTCAATGAAGGAAGTTTCTTGTTTATACGAATTTCTTTTTCTATATCAATATCGCGTGAAATATTTTTTTGTTTCAAAAGCGTAAGTAATTCTCTTAAAAATAAATTTGTATCTGCAACTATAGGCTGATGAGGAATTATAATTTTTCCTATATCTTCCCCATCAATATTGTTATGCATAGTAAACCCTTTGAATTTCATTGACCAACCTGCTGTAGATAATTGCGTAAGTCTAGATCCTAAAATCAATATAGAATCTGCTTCGCTTAATAATTTATTAGCAATATCTGTACCAAATAATCCTAAACCTTCTCCAGCAAAAAGAGGATGAGAAGATGGTATTGCGCCTTTAGCTCTAATAGTAGTTATTACTGGTGCTTTTAATATTTCGGCTAATTCTACTAAATCCTTTGAAGATTCACTAGCTATTACTCCGTAACCTGCAATTATTAATGGTAATTTAGAATTAGCTAGAACTTCAGCTACTTTAGCTACAGTATTCTTATCTGGTGTTTTCTTTTCTGGTTTCTGTTCTGCTGGAGATAAAGGATATGCCTTAAGCTTAAATAAGTCTTCAGCTATCTCTACGTATGCAGGCCTCATCCTGTTACTTAAAGCTTCCTTATAGCATTTTTCTACATTAACAGTTATTTCTTCTATACTTATCGCTCTTTCCCTTATTTTTGTTATAGGAGACAAAATTGCAGAAAGATCATCATTAGTTCTTAATTCTCCAACTCTAGCCCTACCTATATCTCTGTAGGATCTTATAGTTGAAATGATTAATAATGGGACTGAATCACTAAAAGCTTGCGCTATAACACCTATGCCGTCTAATAGAGACGTACCTGGAACCTGGATAACTACACCGGCTGTATTATTTTCCATCGCATATGTATAAGATTGCAATAATGCGTCTCTAGATGAAATATTATAATCAAGAAAAATTCCATATTGTTTAAATCTTTCTGCTAAAAACTCAGGTAATGAAATTGTAGTAAAAACCTTATTTACACCAAGTTCCTTGACGACAAAGGCCAGCGCCTCATCCCCAGACATTTCTTTTCCAACAGTTTCTTCTTTCCTTTTAGGCTGGCTCAAAATGCATCAAAATATTAATGAAATTCATTAATTTAAGCTTAAAAGCTGGGGACGGGATTCGAACCCGTGACTAACGGGTCTCTGCGACCCACTGCGGCCCCTAGCGCTACCGATGGGCAGTGCCGCCTTAGACCGCTCGGCCACCCCAGCCTCAAGTATAAAATTATGAGTTAAAAATTATAAAGTAATTGCAGTGAAAGACTTGTGAGGTTAATTGATAAATTTTAATGACATAGGGAAAGTATTATCAGAGATAAAAGAAATAACAGATTTTGTTATAATAGGAGATACAGTAGTCGACCTATGCCTTAAACGAAAAGGAACTGAAAGTGATGTGGATCTTTTCCCATTATCAATAAGTGTTATAACGGAAAGTGATAAAATCAGAGAATTTGCCTATAATAAAGGCTGGGATTACGGTTCAACTCCATTAGACACACCACGACTAGTAATTCCAATAAACGATGATCAATTACAAGTAGATTTCTATGAAAATTTTCAAGACTTTTATGTGCCCAAAGAAATTATAAATAGCGCTAGTGAAAGAAAAATTGGCAAATATGACTTTAAAGTAATTAAATTGGAGGATTATATTCTATTAAAAGCTAATGCGTACAGAGAGGAAGATGAAGACGAACTAAAAACCTTATTATATTTAGTAGGTGAAGGAAAACTTACTATAGATAGAGATTATTTAAAAAAGCATGTTAATCTTTTCGAAGAAAACTCTAAGAGTATAAAAGACAGATTAAATATGATAGGATTTAAAATATAGAAAAAATTTATGCTTTCTTGGTTGGCAACTCTTTCTTTTTTGGTCTTAAATTAGTGCTATGACAACGTCTACATTTTGTAGCTTTTATAGAATTTAATGCGCCACAATTTCTACATACTTTTTTTATGAATACTCTCTGCTGTACTATCTGCAATTTTACGGGGTCTGTAAGAGGCATTCCATTACCCGCTACTTATATATCTGACTAGTTCATAAATATTGCGGTAAAAAAGGAGTGTGGAATTCGGATGAAAATTCCTCTTGATTATTTGTGTGTTAAGAGTGGACTTCTTTGTAATAGGTGCCAGAGCTTAGTAGACAGTGGACAAGTGGACAGTTTTGAGATAAATGTAATGAAAATTCTGTTAGATTTAGAAGATACTCAATTCAAAGAGCTTAAAGATTCTACTTATTATAAAGCAATAAAAGTGAATAATCTTTTAATTCTACTAGTAAGCAGTGGACCTTCTATGACAATACAGAAGTGGATTAAGGTAGCTAAAGTATTACAAGAGAAATTAGGTATGAAAGTAAGAATAATTGAAAAAACAAGTAATATAAAAAGTAGTGCAGTACAACTATTATCTCCAGCTAGAGTTTTAGGAGTTAATACGGTCTGGTTACCTGATGGATCAGTACAATATGTAATAAGAGTATCAAGAACAGAGAGAAGATTACTACCAGCAGACGCACTAGTATTAGAATCTGCATTGTCTAAAATTCATGATACACGAGTAAAAATAAGGGTTGAATAATGCTCAGAACACATTTTATAAACCAAATAGTACCTCAAATGGAAGGTAAGGAAATAACACTAGCAGGCTGGGTTCACCTCGTTAGAGATCTTGGTGGTAAAAAGTTTCTAATACTTAGAGATAAGACAGGATTAGGCCAAATTGTAATAGATAAAAATTCTAATTCCTTTCAAGTTGCTAAAGATCTAACTCAAGAATCTACAATAATGGTAAGAGGAATAGTAAAGGCTGATAATAGAGCACCTAACGGAGTAGAAATTCATGCAATAGAAGTAATACCTTTAAGTATAGCTAAATCACCATTACCTTTAGATGTTTCTGATAAAGTAAAAGCAGACCTTGATACAAGATTAAAAGAACGTCTATTGGATCTAAGAAGATTAGAGATGCAAGCAGTAATAAAAATTCAAAACAATGTAGTAAAATCCTTTAGAGAAACACTATATAACGAAGGATTTACAGAAATTTTTACACCTAAAATAATAGCTACTGCAACTGAAGGAGGAGCACAATTATTCCCTGTTATATATTTTGGGAAAGAGGCTTTTCTTGCCCAAAGCCCACAGCTTTACAAGGAATTATTAGCTGGTGCTGTAGAAAGAGTATTTGAAATAGCACCTGCGTGGCGTGCGGAAGAATCCGATACCCCGTATCACTTGGCAGAATTTGTCAGCATGGATGTAGAGATGGCATTTGCAGATTATAATGATATAATGAACATAATAGAGAACTTGATAGTTAACATGGTGCAATATGTTAAAAAATATAATGAAAATGAACTAAAAACTCTTAACTACGAATTACCTGAAATTTCAAAGCCAATAAAAAGAATAACTTATTCTGATGCTATCGAAATGTTACAAAGTAAAGGGACAAATATTAAATTTGGAGATGATATAGGAACTCCAGAGTTAAGAATACTAAATAAAGAATTAGGGCAAGACCTATATTTTATAACAGAATGGCCAGCCTTGGCAAGGCCATTTTATACAAAAAGAAAGGATGATAACCCAGAAATAAGCGAAAGTTTCGATCTAATATTTAGATGGTTAGAACTAGTATCTGGAAGTACTAGAAATTACAGAAGGGAAGTTCTTGAGAAGGAACTAAAAGCTAGAGGGCTTAATCCTATAAACTTTGAGTTCTTCATTAAATGGTTCGATTATGGAATGCCTCCACACGCTGGGTTCGGAATGGGTTTACAGAGATTAATGATAATGTTTACTGGATTACAGAATGTAAAAGAGATCTCATTATTCCCAAGAGACAAGAAAAGACTAGTGCCTTAAGTAATCTCCAAAGGGTTTGCGTTTAATAATTCTTTTAAGAATACTGTTGCATACATTCCTCTATCTATTGCAAATGTTATACTACCGTTTTCATATTTCAATTTTCTTATTTTCATGAATGCCTTTCTAGTTATAGGTTTAAGGTTAAATTTTAATTCATTATTCTTAAATTCCTCTTCGAAAATACCTTCTTCATCTAATATTCTTATACAGTCGTCATCACATTTTGAAATTTCTAAAGGAAAGGTTAATGTGAAGTTATCCTTATCAGGAATATCTCTTAGTTCATCAATTTTTCTTGATAAGTATCTATTAAACAAATAACTCTGATAAGCTTCTACATAAAAATATAGCGGTATTTTAGAAGATTTTAGTGCTTCATAACAATTTCCAGACCTAATAAGATTTTTTAATAGCGTTTTCTCCTGTGCAAATGAACTAGGGATATATCTTAATGCCTCTTCATAATTATTGTTATAAATCATTTTCCTTATATCTCGCATTATATCTGACTCTGAGTAGAAGGGCATTGATAATATATACATTATAGCCTTACACCATTCTTCTTTAAGCAAATACCTACCTACGATATGTGTAATAGGTCTTTTGGTTCCAAAACGCTGATATCCTATATATGCTGGTAAATAAGGATTTTGAGAAATTATATTTAATCGTGTTTTTATTTCCTCCTCGTCATCAGAAATTAGACGAATATTAAAAATATTTCCAGTATGAGATATTTTAGAGTTATAATATCCTAAAAAAGTTACATGGAAATTATTTCCATTATATTCTTTCACGTTTGAGGGAGCATCTGTATAAATTAATTGAAAAGTAATTGCGTTTGTATCTTTAATACCTAAATACCTTACCTTCTTATGAAATATTCTGCTTAATTCATTAATTACTGAAAAATGATCCCTATTAACTTTTTCTAATAAATAAAACGCAAAATTCCCTATTTCGTCTCCTTTCCATTCCGTTACAGGAGTGTAATTTACTTCTTCTATGACTGTAAATCCCTCTGGTCTAGGTATCTTTGCACTAATTTTATTCCAATTATAATATAATTTTTCAATACCTATAGAAAGATCTAAAGGATCTAAAGTAATTTTAAATCACCCGTAATTTTATCTATTAAATAATCTTCTGAAGGACCTATTCCACCACATGTTACTGTACCTGGTTCCAATTGCGTCCTTCCTGCGTCTTCTATTAATGAAATAGGTAAGCCTAGTTCTTTAGCTTCTTCTATTTTAGTATTGAGCTCGACAATAGAATTTACTTTCACTACTATTTTAGGCTGACCTTCATTTAACCATTCAAAAAGCCAACTTTTCCATCTTGAATTACTTGAATTCAATATATCTATGACTAAAGATACTGCTGCATGAGCTACTTGAGCTGCAATTTTCCCTTTCCCCATCTTAATGTCCGTTCTTACAATTATAACCATCTTCATTTATATCAAAACCACTCTGATACATTTATAAGCTATATAGAGTGGTTAATAAAAGGGATTAGAAAATGTCAGTTAAGCTTAGTTTGAAGGAAGAAATAGTTCCTCCAGTATGCTCAAGCTGTGGAAGAATAATACATCCTAGAGAAAGAGGAGTAGCGTTCTATTGTCCTAATTGTGGAGAGGTTCTAATACAGAGAGATATGTATTGCAGATTACAGGGCGTTGAATATACATGCCCAAAATGTGGATTTACTGGACCGTAAGGTGGTATAATGACAGATGTATTAGTTGTACTGAAGGTTTTTCCTGAAGGAGACGATGTAAATCTAGATAATTTAGCAGATAATATATCGAAGAAATTGCCTGAAGGATATAAATTAGTTAGAAAAGATACTGAACCAATAGCGTATGGCTTAAAGGCGCTTGTTCTATATATTCAAATGCCAGAGCAAACAGAAGGTGGGACCGATACTTTGGAAAATTTGGCATCAGAAGTTGAAGGCGTAAGCCATGCTGAAGTTGTTGGAATAACAAGGCTAGGTTTTTAAAAAGAATAAAGTTAATCTCTTTTATCCTCTGTATCATATTATTTTAGTGGAGATAAAACTTGAGTGCTAGTTCTCAGGTTCAACCAAACCAGAGACGTGAGTTAATACTTAAAGTGCTTGAAGCTAGACAAAAAGATGTAGGTAGAGGAAGAGTAAGAATTGACACTGATATGATGACACAAATAGACGTTAGTCCAGGCGATGTAGTAGAAATTGAGGGACAAAGAAAAACTGCAGCAATAGCATGGCCTTTGGCTCCTGAGGATATGACAGGAGAAAAAGATATAATAAGAATGGATGGTATAACAAGGAAAAACGCTGGCGTCTCAATAGGAGATAAGGTGGTAGTAAGAAAAGCTAATGTAAAGACGGCTACTTCTATAAAGTTAGCTCCTTCAAACTTCTCTATAACTGTGGATCCAGGTTTCGTAGCATATGTAAAGAAAAAACTAAAAGAATTTCCTTTCGTAGAAGGAGATACAGTTCTAATACCAGTATTAGGCCAAGCTATACCATTTACTGTTATTCAAGTTAGACCTACAGGAGTAGTAATGATAACTGACGAGACTAGTATAACTATAAGTGATAAACCAATAGAACAGAGTAGGTATCCTAGAGTTACTTATGAAGACATAGGAGGAATGAAGAATGTAATACAGAAGATTAGAGAATTAGTAGAATTGCCATTACGACATCCAGAACTATTTAAGAGACTTGGAATTGAGCCACCAAAAGGGATACTATTATATGGCCCTCCTGGAGTAGGAAAAACATTATTAGCCAAAGCAGTAGCTAATGAAACAGATGCATATTTTACGTCAATTAATGGACCGGAAATAATGAGCAAGTTTTATGGAGAGAGCGAACAAAGATTAAGAGAAATTTTTGATGATGCAAAGAAACATGCACCAGCGATAATATTTGTTGATGAAATAGATGCTATAGCACCTAAAAGAGATGAAGTGATAGGTGAAGTAGAAAGGAGAGTAGTAGCTCAATTACTTACATTAATGGATGGACTAGAAAATAGAGGTAACGTGATAGTAATAGCTGCAACCAACAGACCTAACGCAGTAGATCCAGCTCTTAGAAGACCTGGAAGATTTGATAGAGAAATTGAAATACCTTTACCGGATAAACAAGGTAGACTAGAGATCTTACAGATTCATACTAGAAATATGCCATTATCTAAGGATGTAGATCTAGAAAAGATGGCAGATATAACTCATGGATATACAGGAGCAGACCTAGCAGCATTAGTAAGAGAAGCAGCAATGATAGCATTAAGAAGATATCTACCAATGATAGATATAAGTCAAGATAAAGTTCCACCAGAGATCCTAGAACAGATGGAAGTAAGGATGGAAGATTTTACTAAAGCGCATAAGGAAATTGTACCAAGCGGATTTAGAGAAATATATATCGAAGTTCCAGAAGTAAAGTGGAATGACATAGGAGGACTAGGAGATATTAAAGAAGAATTAAGAGAAGTTGCAGAATATCCTCTTAAATTCCAAGAGTATTATGAGACTGCTGGTGTTGAACCGCCAAAGGGTATACTATTATTTGGCCCACCAGGAACAGGTAAAACAATGTTAGCCAAAGCAGTTGCCACAGAAAGCGGAGCAAACTTCATAGCAGTAAAAGGACCAGAAGTACTATCCAAATGGGTAGGAGAAAGCGAAAAAGCAATAAGAGAAATATTTAGGAAGGCGAGAATGTATGCCCCAGCGGTTATATTCTTTGACGAGGTCGATGCAATAGCTCCTATGAGAGGCTTATCCTCAGATACTGGTGTCACAGAAAGATTAGTAAACCAAATGTTGGCTGAAATGGATGGAATAGAAAAATTAGATAATGTAGTTATAATAGCGGCAACTAATAGACCAGATATACTAGATCCAGCATTACTAAGACCTGGCAGATTTGAAAAACTAATTTATGTACCACCTCCAGATAAAAATGCTAGATATGAAATTTTGAAAGTTCATACAAGAAAGGTAGTTTTAAATGATGATGTAAATCTTGAAGAGCTATCTGAAAAGACTGACGGATATACAGGAGCAGACCTAGCAGCATTAGTAAGAGAAGCAGCAATGATAGCTATAAGAGAGGGAATGAGAGGTTGCATAACTAAAGTTAGTGAATTATGCCCAAGTGATGACAGAGATTGTAGGGATACAAAAATGAAAGAATGCATGAGTGGAGCTAGCATAAAAATAGAAATGAGACATTTTGAACTAGCTATGAGGAAAGTTAAACCATCAGTAACACAAGATATGGCACAATTCTACCAGAATTGGATAGAAAAAGCTAGACAACAATTACCTAGACAAGTAATAAAGCCCAGTACATTCACGTGAAACTATGTGGAGAGAATTACCGTTAAACTATATAGTCCTTGAAAAAGTTAGAAAATTGGAAGGACCAATAAAAGACGATGATTTATATTCAGAAATTAAGAAGGAAGTTGATTATGATTTTTCTTTCTCTGATTTTCTTCGAGCATTAATGTCGTTAGAGATAAGAGGATATATTTCAGTATCGTTAATAAGAGAGAATATAAGAATGATTAATTATATAGGTGATAAGGAATCGGAGTAGATTTATCTGACTTAGTTGAAGACGTAAAAGCTGAGATAAACTTAGCTGAGTTGCGTGGGAAAAAAGTAAGTATTGATGCATATAATGCAATATATCAATTTTTGACAGCTATACGCCAACCAGACGGTACACCACTTATAGATTCACAAGGTAAAATAACAAGCCACCTTAGTGGAATTTTTTATCGAACCATTAATCTAATGGAAAATGGTATAATACCGATATATGTTTTTGATGGAAAACCACCAGAGCTTAAATCTGCAGAATTACAAAGACGTAAAAAAATAAAAGAAGAAGCGGAAAAGAAGTTAGAGAAAGCAAAAGAAGAGGGAAAAACTACAGAGTTAAAAAAGTATTCTCAAATGGCAACCAGACTTACAAACGAGATGGCAGACGAAGGAAAAAAATTGCTTAAAAGTATGGGTATTCCAATAGTAGAAGCACCGTCTGAAGGTGAAGCGGAATCAGCATATATTAACGCAATAGGATTAAGTTTTGCTACTGCAAGCCAGGATTATGATTCACTATTATTTGGTGCGAAAAATTTGATAAGAAACTTAACTATAACTGGAAAAAGAAAATTACCTAATAAAGACATATACGTCGAAATAAAACCTGAAAGAATTGAACTCGAACCACTACTTAAAAAGCTTGGTATAACAAGAGAACAATTAATAGATATAGCGATTTTAATTGGAACAGATTATGATCCTTCAGGGATAAAAGGAATAGGCCCCAAGACCGCTTATAGGCTAATTAAGAAATATGGAAGAATAGAAAAAATTATTGAAGCGAATGAAATTCCAAAGAATTCTATTGATTTCGATATTAATCAAATAAGGCAACTATTTCTAAATCCGAATGTGAAAAAACCAGAAGAGAATTTAGACTTGCAAAATCCTGAAGAACAAGAAATTATAGAAATTTTAGTAAATCAACATAATTTTAATGAAGAAAGAGTTAAAAGTGCATTAGAAAGATTAAATAAAGCAATAAAAGAAACTAAAGGTCTCTCAAGACAAACTGGACTTGACCAATGGTTTTAAGATTTAAAACAACATTATAATTAGGTTTATATGTTGCGTAGTCGAGAATATATTTGTGTCACAATTACGCTATTTTCCAATATTTCTTGATCTTACTAAATTTAGAGTATTAGTAGTAGGAGGAGGAAGAATAGGAAGTAAAAGAGCGTTAAAGATGTCTAAGTATTGCAATAATGTAACAGTATATAGTCTAGAATTTAGTCAGGAATTACAAGAGAGTAAAATTAATTTAATTAAAGGAGACGCGAAAAATATAGATGAGAATTTCCTAAAAAACTATGATATAATATTCGTAGCTACAAATGATCAATTAGTCAACAAAGAAATATGTTTAAAGGCTATAAAACAAGGAAAATTGTGTAATAATCCTACTGATACAGATATATCACAATTCATAATGCCAATCTTTTATAGTGACGAAGACGTTGAAATAGCTGTTACTACTTATGGAAAATCTAGTCTTGTCTCAAAAATGATTTTAGATAAAATAATTAGTAATATCCTAGATGATACTACTATTAGAACAGCAATTGAAATTATGTATGACATAAAGAATTATCTTAAGAAAAAAATAAATGACCCCTCAATAAGATATAGGTTATATCACGAAATTTTCAATGATAATGATTTTGAAATTTTTATTAAAGATAATAAAATAATAGAAGCTAAAAAGAGAGCAGAGGAGATAATAAATGAATATGCTAGAAAATGAACTAAATAAAAGGTATTATGCATTAATATATACCTACAAAACTATTGGTCTAGAAAATTTAAGTAGTCACTACTTGCGAGAATCTGAAATAAAAGCTTTAGCTTCACACTTTGATGGAGAAATGATTTTATTACAAACTTGTAATAGAATAGAACTCTATTTGTACACAAAAAGTGAGAATAATATAAGTTATTTCCTTGAATATTTAGATAAAATACATGGTAAAAATATAAGCTCTGACGCATTATTACTTACTGGGAAGGAGGTTGCTAAGCATTTATTTGAAGTAGCAGCAGGTATAGATTCACTATCAATTGGGGAATATGAAATATTAAGCCAGATTAAGTTAGCAGTATCTAATTCTAATAGACTTGGAATATCTGGTAAATGCCTAAATACGCTTTTTGAAAGAGCCATAAAAATTGGCAGAAGAGTAAGAACATCTACAAATATTTCTCGTGGAAAAGTCGGAATATATTCACTAGCTATAGAACTAGTTAAATCAAAATTTGGAAATCTTGATGGCAAAAAAATAGCAATCATAGGTGCTGGAGATATAGGGAAAAAATTAGCTTTTATGTTGTATAAGGAAAACGTAACAAATGTAACAATATTAAATAGAACCCCAGAAAAAGCTAAAGAAATAGCAGAAAAATATGGGTTTAAGTATGCTAGTCTTGATTTTAATCTAATAGACAATTATGATATAGTATTCGTTGCTATATTTTACCCTGGCAAGATTACCGTACAAGGAGAAAATATCATAATAGACTTATCTTCACCTACTGTATTTCGAGGAAAAAATGTAATAACAATGGAAGAATTACAAGGATTATCTAAAGAATATTTAGCACAAAGAATGAAAGAAATATCATATGCAAAACAGATTATAAGTGATGGAATAGAAGAATTCTTAAGAGATTATGAAAATATAAGATATAATGAGATTGTATCAAATATAATGTCTAGAATAGAGGAAATTAGAGAAACAGAAATATCTAAAGCTATAAGAAAAATTAGTGATAATAATGCTCAAGAAATTCTTGATGCTATGACCAAATCAATGATAAAGAAAATATTTGCTCCGTTACTAGATAAAATAAGGATTGCACTAGAGAATGGCGACACAAACTACATTAACTACATTTTAGAATTATTCAATAATGGTAAACTTCCCGATATTAAGACCGAGGAGATTAAGGAATAATAAGCTTATTAGAGATTTAGTAGCAGAAACTTCTATATCTGAAAAAGATCTAGTTCTACCAATATTCATTAAAGAAGATATCATTACGCCAGAGAAAATCGAGAGTATGCCTGGAGTGCTTAGATATCCTCCAGATGACTCCCTTATAAAATATGTAGAAGAATCTTATTCTAATGGAATAAGATATTTTATATTATTTGGTGTGCCAAAATATAAAGACGATATAGCTAGCTCAGCATATGATAAAAATGGAATTATACAAAAATCTGTTAGATTACTAAAAGAAACGTTTGACGACAAAATCATAGTAATTACAGATGAATGTACAGATGAGTATACCTCCCACGGTCATTGTGGAATAGTGAAATCTATAAAAAATAGTTATTACGTTGATAATGATGAAAGTCTTAAGATACATGCTAAAATAGCATTATCTCAAGCAGAAGCAGGATCTGATGTTATAGCACCTTCTAGTATGATGGATGGAGTAGTAGGTGCAATAAGGAAAGAATTAGATAATGCTGGCTTCCAAAATACATTAATTATGTCCTACAGCGCTAAGTACGCTTCTACTTTTTATTCGCCATTTAGAGAAGCTGCATACTCTAAACCTGCTTTTGGTGATAGGAAAAGTTATCAAATGGATCCAAGAAACTCGGAAGAGGCTATAAAAGAAGTTGCACTCGATATAGAGGAAGGAGCTGATATAATTATGGTAAAACCTGCTCATACATATCTTGATGTAATAAGCCTAGTTAAGAATAGCTTTCCAGAGTATCCTTTAGCTGCGTATCATGTTAGTGGCGAATATTCTATGATAAAAGCCGCTGCACTAAATGGATGGATCGATGAGAGAATTGCAGTATTAGAAATTACTACTGCGATTAAAAGAGCAGGAGCTAATTTAATCCTGACATATTATGCAAACGAAATAGCTAAATGGTTAAAAGAGGAGATGCCGTTTTGAATAAGGATCTATGGAGAGAGGCCTTAAATTTATTTGCTGGAGGAGTTAATTCTCCAGTTAGGGCTGCAGTTAAACCTCAACCTTTCTATACTGATCATGCATATGGACCATTCCTATTCACTGAAAATAATAAGAAAATAGTTGATTACGTGCTAGGATATGGGCCATTAATATTAGGACATTCACCCCAACAAGTAAAAGAGAAGGTTATTGACCAAATTAATAAAGGATGGCTTTATGGCACGCCTTCAAAAGTAGAAATAAAGTTGGCAGAGAAGATATCGCAACATATTAGAACTGTAGAAAAAATAAGGTTTGTAAATAGTGGAACAGAAGCTACTATGAATGCTATAAGATTAGCAAGAGGTTACACAAAGAGAGAGAAAATCATAAAATTTGACGGAAATTATCATGGGGCTCATGATTATGCGTTAGTGGATGCTGGTAGTGCTGCTACAGAATTCGGAGTTCCAATCTCTGACGGAATACCAAAAGACGTTCTTAAAACAGTACTACTATGTAACTATAACGACCTAGACTGTGTTGAAAATTTTCTTAAAAAAGAGGACATTGCTGCAGTAATATTAGAACCAATAATGGGAAATATGGGTGTTATTCCAGCCGATCAAGATTTTCTAGAAGGATTGAGAGAGCTTACTAAGACATATAATTCGTTGCTAATATTTGATGAAGTAATAACTGGATTTAGAGTGGGTCTAGAAGGTGCACAAGGACTCTATGAAGTTTATCCTGATCTAACCACACTAGGTAAAATTATAGGAGGAGGTTTTCCTATAGGCGCAATAGGAGGTAAAAAAGAGATAATAGATAATTTCACACCAAATGGGAGAGTTTTTAACGCTGGAACGTTTAATGCAAATCCAGTCTCTATGGCAGCTGGATTAGCTACAATAGAAGAATTAGAAAAGGGTAAGCCATACGATATAGCTAATGCTGCTGCAAGAGAAATAGTTGAAGAACTAGACAAGATCCCTATTTTCCATACAATAAATTCTGTAAAAAGTATGTTTCAGATATTTTTTGGTATAGAAGAAGTTCATAATGCAAAAGATGCTAGAAATGCAAACAAAGAGAAATATATAGAGTTCCAGAGAAAACTACTTGATAATGATATATTCTTCCCTCCAAGCCAATATGAAACAATATTCACATCTGCAGCACATACTGACGAAATAGTATCTCTAACAATTGAAAGAATTAAGAAGATTGCAAGTGAAATTAAATGAAAATTAAAATAGCTGCAAGAAATTCATTATTAAGCAAAGTTCAAGTTAATATAGTAGAGGCTAAACTTCATGACATGGGAATAGAAACAGAATTTATAGGAGTTAAGACTAAGGCAGATTACTTCATTTCAGAACCACTATATAGGCTAGGCCAAGGCGTGTTTGAAAAAGAGGTAAATGAATATGTAATTAATGGTGAAGCAGACATTGCAGTGCATAGTATGAAGGACCTAACTACAGAATTAGATAATAGACTATGTATTCTAGCTACAATAAAGAGAGATTCGCCCTATGATGCGCTAGTAGGTAGTAAAGATATATATAAAATAGAATCTAAATCAGTGGTAGGCACTAGTAGCATTAGAAGAAAAAATTTTATAACATTTTTGAGGAACGACCTGGAAGTAAAAGATCTAAGAGGAAATATAGATACACGAATAAGGAAATTGCAAAATAAAGAATACGATGCTATTATAGTTGCTGAAGCAGCTATTAAAAGATTAAAATTAGATGTTCAATATCAACAGTTAAATCCAATTGATTTTACACCCGAAATAAACCAGGGAATAATAGCAATAGTTGGAAAAAAGAGCAGAAAAGAATTATCGACAATAAGGGAGCTAGACGATAAGAATACAAGAGATGAGGCTACTGCAGAAAGGAACGCTTCTCGTATAGTAGGTGGAGGGTGTCACTCACCTATAGGTATATTTTTCAAAAAAGAAGATAACTCGCTGTTTGGCATAGCTAGTTTCAGTAATGGTAAAAGAAAAATTACAGTAGAAATATCATCAAATAAAGAACCAAATATAGTTGGAATCGAATTAGGCAAAAAACTTTTAGAAGAGATGAAAAATGAAGGTATTACTATTTAGTCCTTCATTAAGCGAAAATATACATAATAAAGATATAGAAATAATAAATATACCACTATTTGAAATAAAATGTATTTCATATAAAAAAGACTTTGATGATTATGAAGCGATAGCATTTACAAGCAAAAATGCCGTAAAATGTTTTGATGATTGGGATAAAGTTAAAAATAAAAAAATATTCGCTATAGGTAAGCCTACTTCCGAGTTAATAAGAGAAAAAGGATTTAATTCAATTTATCCTAGTGAATACGATAGTATTCATCTATCAAATCTAATCCTTGAAAGTGGAATTAAGTCACTAGTAGCATTTAGAAGTAGTAAAGCTTCTGCAGATATGAAGTCTATTCTCTCAAATAAAATTGCCTACATGGAAATATATGATTATAAAACTACGATTATCAAGGAGAATGTAAAAAAGGCAAAGGAAGAGCTAAAGAAATGTAATGTTAATATAGTAGCATTAACTAGTTCTGAAATAGCTAGAACCATAGCTAGTTTTTTAAATAATTGCTATAAGATAATAAGCATAGGGCCAATGACTACGAAAACTATAAGCCTTCTTAGGCCGGATCTTAAGATAATTGAAAGCAATGAGCATGATTTTGAAGGAATAATAAGGAAAGTTTTGGGGGAATAGTATGGAGGATGTTAGGGAGTTACTGGTAAAAATTTTGAGGAAATTGGATCCCAAATTTGTTGAAGATAGTCTAGATATAAAATATATACAGAATTTTAAAAATAGATATGATGTTTTTGGTCAGTTTAGAAACGATATAGGAATTTATGAGTTTGCAATAAGTTTTGATAATAAAGGAAACATAAAGCGAAATCATATAAATATGATACGTCCACTTAAGTTCGATGATGAAATACAAAAGAAGCTTAGGGAATAAGGTGTAATTTTTGAAATTTTTATTAATAATCATTGATGGTATGGCTTATCATTTATTTGAGAGATTCGTTTATAACTTAAACACTTTTAGCAAATTGGCAGAAGAAGGATCATATGGCCCATTAGAGAGTACTTATCCTTCCATAACTCCAGTAGCACTAGCATCGATAGTTACAGGACTAAATCCTAAGAATAATGGAGTTACAGGGCCTAGAATATTTGTAAAAGGTAGAACAATCTCCTCTCCTTTAACAGCATATAATAGTTACTCATTAATCGCAGAACCTATATGGAGCATTTTAGGTAAAAAAGGATTTAAGGTTATAGTAACGTCATCACCTCAAGCGCTTCCAGACATATGGAAAAATAATAACGTTATATTATTTGATCCTTACAAGGCTAAAATCAAGAAATGTAGTGAAGGTAAAGTCATTAATGAAGGAGAAAATGAGTTTCTAAATAAGAAATGGATATTAAAAAAATCGGGTGACTCATTCCAGCTTACTTTAGAAACTCCAACAGGTCCTTTAGATATAAAGGCTAATCAAGATGAATGGATAGGACCAATAGAAATTCTTGCAAATTGCAACAACAGAGACGTAAAAGGTATAGTTTTTCTACATTTTAGAGTAAATAATGTTTACATAAGTCCTCCGAGCTTCTTGACAAATTGGGGGAATAACGAGTCTCTCGTTAACGAAGTATGGGAAAAAATATCTAAAAAAGTTGGAATGTTACTCGATGGAGATTATAAATCACTAAGTAAAGGTCTAATAACTTTAGAGGAATATATTAAAACCGCAGAATTGTCTTTTAATTTCTTTTATGAATATTCAAACTTTATTTTGAGAAAAACCGAATGGGATCTAGGAATAACATATCTTCCAATAGTAGATAACTTTCAACATTTATTTTATGGAATAGACGATGGAAAATCATTAGATTACATATTTTCTGCATATAAAATGGCTGAAAAATTCGTAAATTCATTACTAGATTTAGCAGATAATTTAGCAATAGTTTCAGATCACGGAATTATGAAAGCTAAAAAACGAGTATATGTTAATAAAATATTACAGAAAATTAATGTACTTAGAGTAGATGAGAATAAAATAGACTGGAAGAGAACAAAAGCTTTTTACGCCGGCGGTGGAATAATAAGAATAAATCTAGTTGGAAGAGAAGAAAAAGGTATAGTGAAAAAAGAGGAATATCCAAAACTAGTAAATTATATAGTTAAAAACTTAGAAAATTATGTTGATCCTTCTAGTAATGAAAAAATATTTCCAATAATTTATGAAAAACAAACTCCTGCAGGGGATAGAGAAGGAGATATAGAACTGACAATTGCAGAAATGTATTCTATGAGCTCTAATAATGAAAAAGATAAAGAAATAGAAGATATAATACCATATAAAAATTCAAGTGGTGATCATGGATATTATAGAAAGGACGATCTTTATGGGATAATAATTCTTTATGGAAAAAATATAGCACGTAATAGAAAAATTAACGCTAAATTGGTAGATATTGTACCAACGATTTTAAAAGTATTTAATGTAAACTATAATAAGTTAGATGGAAAGCCTATCTTAGATGCTATAAAATGATTTGTGCCAGAAGCAAGAAACAAAGACGATGTAGAATTCCAAAAGATTGTGAAACCGGTCTTCCATATACTCAGATAATTCATAATGGAAGACGAGAAAATTTATGTACTAAAATTTCTTTAGAAAACCTCAATATTCATTCTAGGCTATATTTACCACTAAGTAGTGAAATTATTCATAAAGTGAAAATTTTAAGATATTTTCCAAAAATCATAGAAATAGCCTCGAAAAACATTAGTTTACCGTCGTTTTATTTACCATCTATCGAATATAACGTAGATCACTTATCAATTGAAAACATGATAATAGGAGGAGGAATATCTGGTCTTTCATTGTTAGAGAATTTAAATGAGACAATTTTAATTTCGGATAGTTTAAATGACGATATCTTCTTTGATCCATTATCAGATAAAAATATTGTGGAAAAGATAAAAGGAATTATAAAAGAAAAGAAAGATAAAATTATTAATGGGTTATTCTTGGGAAAGTTTGATGAAGGATATCTAATAAAAACTGAGGATACATTGTTTATTGTAAATGCTAAAAATATCATATTTGCCAATGGCAGTAGATATATTCCACCGTTATTTAAGAACAATGATATACCAGGGATAATCTCAAGAAGAATGTATTTAAGAAATTATAAGTCAATAGGAAAAGTAATGGTTATTGGATCGTCAGATGATGCATTAAAGACTGCAATTATAGCTAAATCCAAGGTACTTTACAAAAAAGGTACTAATATGTTTTCTAAAAAATGGATTAACATTGCAGAAAAGGAAGGAATAGATATTATAGGAGCAGATAAGATTAATGTAAAAAGAAAAGGAAAAGAACTGCATATAAACTTTGATGGAATAGAAGAAAAAATTAATGCAATAGTCTATGCGATTGTAAAACAACCTCGATTAGAGGCTATTTCAAATTCTAATATAGATTATATATTTTATTCATTTTCTCATATATATCTTCCTACTCATGATATAAATGGAAAAGCAAAAGATAATATTTATGTAATAGGAGGAAGTAGAGCCATTTCAGATTATGAAACTTCTTTTTTAAGTGCAAAAATTATTATTGATGAAAAATATATTGACGAATTTCGTAAAAAAATAAACGAAAATGAATCTCATTTGATACATTTCTATTCAAAAAATTGGGAAACTCGTACCTCGCCTTATATTTTCGGTGACAAAGGTTATTTCTGCGAATGTGAAGACGTGACTTTTTCTGATGTAGCAAATGAAAAAAGAAAAGGGTATAAAACAGTTGAAGATATAAAAAGAACTACTGGCGCATGCACTGGAGAGTGTCAAGGTAAAATATGCAGTTATCTTTTAGGAAGTTATCTGGAAAGTGAGAAATTAATTACTTTTAGATCACCCTTATATCCGTTGTGGTAAAAATGAGCATAATTGTAATTGGAGCAGGAGGACATGGATTAAGTCTAGTATATCACCTATATAAAAAAGGTATTAGTGATATTATCCTAATAGAAAAAAACAGAATAGGATACGGGTCCAGCGGTAGAAATGCTAGTAGATTTAGATATCATTTCAATAGTAAAGAAAATGTTAATTTTGCAATAGAGGGAATAAGATTTCTTATAAGAGAATCTAAGGAAATGAAATATAATCCATTATTGCTTAAAACTGGATATTTATGGTTACTAGATAATGAGAACATAGACATTTTTAGGAAGCTAGATAAAACGTGGTCGTCTTTAGGTGTTGGAGGTAAATTTATGGATTGCAATAATTTTGATTTTCTTAAATATGGTGAGACGTGTTACTTTGCCCCTCAAGACGGATCATTTCATCATGATTATATTTTATATAGCTATTTTGAGGTTATAAAAGATAAAATTAAGATTATTTATGACGAAGTAGAAAAAATATTAGTAGACGATAAAGTAAGAGGCGTAAAGTTAAAGAGTAATAAAATAATAGATGGTGATATTGTAGCAGTAACAGCTGGTGCCTGGAGTTCATTACTTATTAACGACGTTCCAATATATCCAGAAAAAAAAGAAATATATATCACGGAAAATATAAAATTCAAAGTTAAGCCGTTAGTTATAGACACCAATCATGAAATCTATTTGTCTCAAACTTTAAAAGGAGAAATTATAGGCGGTATAGAGGATAAAAAGGACTATTCATTTTATCCATTTACGATATCTTTGGAAAATACAATTAAATTTCTAAAAGGGGTAAGAAATCTAATAAAAGGAACAGAAGGAATAGGAATACTCAGAGGATGGAGTGGATATTATGAAATGACTCCAGATCATTCACATATAATGGGATATTCAAATAATTGGCCTGATGGTCTTTATATAGACGCAGGATACAGTGGACATGGAATGATGTTTTCGCCTTTTTCCGGTAAAATTATGGCTGACCTAATAGCAGATAATATAAAATCTAAATTTATTAATATTTTCTCCCCTGATAGATTTAAAAATAATCAACTAATACAAGAAAATATGGTAATCTAAGGAAGACTAAAAGCATTTCTCTTTAATTTATCTCTAATATATTTAGCTAATTCTTTCGAGTAACCGTTTCTTCCTCCATCTGTAATAATAGTTTTTGCAGGCGAATTATCAACATAATATATAGTCTCATCAAAATCTCCATGATCACTAAACGCTACTACAAAAGTTTTATTATCCAGCTTCCTTATAGGAACGCTAAATTGCCAACCAGATAATAGAAAATTGGTAAAATCACTACTACGTTTTTTAAACTCATTAAAATGTCTAAATTCTATATACCAACCATCTTTTATTATATCTTTACTCTCTTCATCTTTTATATTAAATATATCATCTATTTTTTCGCCATATTTTTTAGCTACTTTAGTTATTTCGAATATTTTTCCCTCTGCTAAAAAAGGAGCATCTATACCAGACTTTCTAAGGAATTTCATAACTTCTTGAATCTTACCATGATATGCATAAATTCTAACTGGACCATTTATTAATGAATCTCTGATATAGTCTGGAAATAAGTATTCCATTTCCTGTTTAAATGGTCGTCTAAATTCCGGTTTACCATATGTAGAGTCCAAAATTAGAATATCAGAATCTAAAATTGGTGTCCCGCTACCTGGATTTTTAAAATCGCTAGTATATCCAACACTTGTTCCATCTTTTAATTTTATATATACTTGTGCAGACCCTAAAATATGTTCTGCAGGTTTTAAAGAAATAGATTCTCCTTCCATGTCTAAACTTAAATTATATTTTAGACCGAATTTTTTCTTAAGCGGAATTTTATATCCTAAAATTTCCAATACATCTAAAGTTTGAGGCGTAGCTATAATACCTAAACATTCGTTTATACTTTTTGAAAGACCTAATATATGATCAGCATGAAAATGGCTTACAACCCTAAAATTTCTTTTTGAATGACCGTCTATGGTAAAATTCTTACCTACTATTATTGCTCCTCCACGCTCTATTTCTATGCTCATATTAAAATACATCTTACATAGTCCCTATTATTAGATATTCTCACTAGTTTTGTCATCAATCTTCTTTAGCTGTGAATTATACATCTCATAGATCTCCTTAGAAGTTGTTGCGTCTTCTGGGCTTTTATCTGGTCTCCATCTTATAAATCTTGGAAATCTTACAGAGAGTCCACCTTTCTCATAATTATCTTTACAACAAGTATGTAATGGAGAGATAGTTATCTCAGCACCTATTATTTCAGCTACTAATGATGGAGTAACCCATACATCAGGAATCATCTCGGAATCTACTCTAGGATGTTTATCAGATCTTTTTAGTTCTTCAATTTTCTTTTGCAAGTTATCTAGTTCTTCATCAGTAAATCCAGAAGCTACTTTGCATACGGTTTCAAATACATCCTTATCAGGATTATATGCTGCCATAAGGAAAGAACTATATTTACCACCTTTCTTTCCTTTACCATAAAACGCACCGACTAAAACAAGGTCTACAGTATCTGCCATTTCGCTCTGATAATCTCTCTTAAATTTAATCCATAACCACCCTCTAGATCCAGCTTGATAGATTGAATCATTAGAAATAGATTTTAGCATAACACCCTCTGCACCTTCTGATATAGCTTGATAGAAGAATTCCTTAAGTTTATCAGTGTTATCCACAATTATATGAGTTGCAATATGAATCTTATCATTCTGTGATAATATTGATTCTAGTTTCTTCCTTCTCTCTGGTAAGGGCTTGACTGTATAATCCTCGCCCTCATAGTACATTAGATCAAATAAAAACACATTTACGGGGTATTCTTTTATTGCCTCATGTATATCTGATTTCCTCTTCCTATGCATAAGTTCCTGAAATGGTCTCATCTCGCCACTTTCTGGGTCTACTGGTATTACTTCGCCTTCTACTATGAATTCCTCTCCTCTTATAAAATTACTAACGTATTCCACTACATCAGGATATTGACTTGTTATATTTTCTAGTCTTCTAGAAAATATGAAAATATTATCTTTACTCTTATGAATCTGAGCTCTTTCTCCGTCGTACTTATAGTCGACTAGAGCTATATTGTTCATTTTTTCCATCATTTCTTGAGGATCAGATAGTCTTTCTGCTAACATAGGTCTTATTGGAATTCCAGGTTGAGGCTTTATTGTCTTTATAGCTTCTATTCCATTTTCAACTAATACCTTAGCTATATTACCTAGATCTGCCCTTAAATTATACGCTCTCTCAATAAGAGGCCTAAAATTCTGTCCACCGCCAAAAGTTATTGCTAGCGCATCAAGTACAGTAGCATCGCCTATACCGACTCTGAGTCTGCCATCTACAAATCTTACTAGATATTTAGCTTCTAAAGGAGTAGCTTTCTTTAATAAGCCTGCTAATATTCTTATCTTAATATCTCTACTTCCTTCGCCTTGAGACGTAGCTATTTTAACTAAGTCATCATAAGCCTCTTCTACAGTTAAACCTTGACTTATTTGAGAGCCAAAATAAGATAATATACTAGAATTTTGAGTATTTTGCTTTAGATTAAAAGCTACTTGACCTAAATCTCCTAGATTTTTAAATTCTTTTTCTATTTCCTCTTCTTTAGCGCTAGTAGCTATAGAAATTGCCTTTATTAGAAATTTTTCACCTATGCCTATTTCTGGTTGTCCAGTAAAATCTGGCCACAGTTTACCCTGAATCAGATATACTACCTTATCTATAACAGTTTTATCAGTATTTTTGAACAGGTCAGCTAGAGTGGCTGTAAGTTGAATTCTCGAACTGATTTTTTCTAGTTTATCAAAGTAATCTGCTATAACTTTAAACTCCATAAAAATATCTATTATACAAGCATTATTAATATATTCGGTGATGAAAAAAGGCAAAAGGAGGAGATGACTTATCAGAGTTACTCTGATTTTAATTTTTCAATGATATAGAATATATTTACATATAATTACCCATTTTATAAAATGCAAAAAGGTCTTAAAATGGTACATTTGAATAAAATACTCATATGATTTTAGGAGATAGAGATCTAAAATATTATCTAGAAAAGGGATGGATAATAATAGATCCTCTAAATTCAGATAGTATAAGAGAAAATGGTGTTGATCTAAGAGTAGGAGATCAGATAGCTAGATTTAAGAATACAAATAAAATCTTTACATTAGACGAAAATGATATAAACGAGTTCTTTATAATTGAAAAGGGTACAGAATTTATAATAAATCCTCAAGAACACGTATTACTAACTACAAAAGAAATGATCAAACTGCCAAGTGATGTTATGGCCTTTGTAAATATGAGATCGTCTTTTGCAAGACTAGGACTTTTTGTTCCTCCTACTATTGTAGACGCTGGATTCGAAGGTCAAGTTACAATAGAAGTACTTGGCTCTGCCTTTCCGATAAAAATAAAGGAGGGAACACGTTTTATACATCTTATATTTGCCAAAACATTAACTCCTGTAGAGAATCCATATCATGGAAAATACCAGGGACAAAAAGGAGTTACCTTAGCTAGATTTAATTTGCAAGCATCTTCCAACTTTTAGTGGAATTATCAAAATATACTGCTCCTGCGCTTCTAAGTTTCTGGAAAAGCTTATATTCTGTCCTATTTAGAAATTTTTGAGCATCTACATCGTCTGCTGTATGAATATCATTTAATTTTTTTGAAAATTCCTCAAAAAACTTGGGATCTAGACCTATTCTTTCCTTTTCTGTGTAAACAATTTTGGCTCCTTGCTTCTCTAATTTTTCAAAAAATAAGTCGGGATTCTTTAGTTTTACTTCGCTTTCATATATGGCACCTTGGTCTCTTAAATAATCTATAGCAGTTTTTTTCTCTCTTTGTTCCTTTTGTTCGTTTCTATAAATAGGTTCCTTCCTAGGCTTAGATTCATTTTCCACACTTTTAGTTTCTATATTTTCTATTTTTTCAGAAATTTCTGCAATCTTTCTTTTTAAATCTTCTACTTCAGCAGTAAATGGATTTACCATATCTTGCACTTTTCGCTCTATTTTTCTCACTATATCATCTACATTGGAAATCTGGGTTGGTTGAGACGATGAATTGGATGAATAAAATATACGTGACTTAACATAATCTGAAAGTAAAGCATAACCTTCTCTTCTAGCCTCTTCTTCTAGTTTAGAATACTCTTCGTCTGTAAACTTAAGAATTAATACCCTCATGTACCAAAAAAATTATGCTTAAACCAATTTAAACTTATTGAAAAATAAGACCTTATCATACCTTCTGTTTTTGTATTAGCGTATCAACGAAGTTTTCTTCATTAGGAACGCCTATAAACTCGACAGACTCATTAACAGCTAAAGCTGGTACAGACATTACTTGATACTTTTCAGCTATATCTTGGTTCTCATAAGCTTCTACTACCTCTGACAATACATTACATTTTTCAGCTTTGCACGCTTCGTACGCAACCATATGAGATAAGAGAGCAGCGTATGGACAATATGGACAAGAAGGTGTTACTACTACTTCTACTTTAACCTGACCATTTAACTTTTCTTTTATTGCAGATACAGTATCTGGACTAAGTCCACTTTCTCCTTGTGAAAGCCTAACTATTGTTTCAACCAATGCTCTAATTTCTTCTCCTAAAGGAGCACCAGTCCATCTTATATATCCTTTTAGGAAAGCTACTGTAGGTACTCTAGAAACTTTAAACTCTTCAAACTGCTTATCTTCCCCATTAGCTCTGTCTATTACATTTACCTTAAGTAAACTTTCACCATTACTATCTTTAGGTGCTGCGTCTCTTACAAATTCTACAAATTTCTTAGTTACTTCACAATAATTACAATTACTATCTTTTGAATCAATAAACACATATATATCCACAGGATTTTTCATATCTTTAAGAGCATCCTGCAGAGCATTTTGCACTTCTGGTGTGAATAATTCTGCATAGTCTTGTTCTGCCATACTTAGTTCACTCTATAACTCTTTACTTCCTAACCTAAAAAGTTATTATCTAAATATATTTAGACCTAGCTTATTTCTTCTAAAAGTTTACATTTAACCTCAGAAGGTTTTATCATAACTACTTCAGATCCTGGATCTAATTCTCTAAATATTATCCCATGAAATTTCTTAACTTTGACGTTTTCGTCAAGCCAACAATCTGGTGTTAAACCTGCCTTTAGGCATGTCTCTGCCAAAAATGTCTCAGAATCCCAACAATATTCCATTGCTACTTGAGGTAAAAGTAAACCAGAATGAAATATCCCTTTTTCAATAATTAAACCGTCTTCTCCTACAGTTACTAACTTAGGCAAATCTTTTTTTGTTCCAGATATTTCTTCTGGTTTAGTTAAAACTGTAACTTCTATAATTACATTTTTGAACTCTCCTTTAGTTAATGGCGAAAATCTAGGATCAGAAAAAGCTGCAGCTATAGCAGCATTAGCTACTATATCTTTAATAGGCGCTACTGCTTCCACATAACCTATGCATCCCCTAAGAGAATATTTATTGCCAGTTTTAGTTTCCAACGTAACAAATGCCAGACCTTTCTTATTAATTATATCGTCGAATATATCTTCTTTGTCTTTAAGTAGCCCTAGCTTCAGCATTATTGCTTGTCTTGCTATTTTTACTAGTTTCTTTCCCTCCTCTAGACTCAGATCTTCTATTTTTACTAAGCTCATTATCTTCTATTTTACTTCTAGCTTTAATAAGAATCTCTTCTATAGATTTCCAGTGTTTTCCTTTCCAGTACTCTTTTCTACACCTTGTACATTGCCACTTATTTTCTCCAGTTTTTAGTAATATTCCATTACATTCGGCACATCTTGTAGCCTCTATGTTAACATGTAAATCTATTTTGTATTTTTTTGACATTTGAGCCAATATATCAATAAGATCATAATCTGGATCCACAAAGAAGCACTGTAAGTTCTTCTTTTTGGCTCTATTGCATAATCCTCTATCTCTCGTAATGATTATTCTATTCTGCTCCTGAGAAATCTTAATTATCTTCCAATCCTCATACGAATTATCATATAACGTATCATAACCCAATATTCTAAGCCACCTAGCAAGACGGCCTAACATAGCATCTACAATAAACTTTTGTATAGGCATTGTCAAACTAAAATATTATACACCGTAACAAGTATTAAAAACCATGCAACAAAAAGAGTTAATGTACCCTTACCAAAAATTAACCACTTTTTACTTGGCTTAAATAAAACAATAATCAAAGCAACACTTATTATATATCCAATTAAAATCGCTATACCAGAGATAAAAAATGAACCTAAAAATGGGGAAAAACTTCCTATTATTAAACCTATTATACCTCTCATCAATAATATTTTATCTTCTTGATCCACATATCAATATGTAAATGTCATGGCTTTAAAGTTAACAAGAAAAAATTCTATGACATATTTTGATTTATTGGCATGGATAGTAGAGAATTCCAATCAAATCAATTGCAGAATAGATAACATATATTCTACTGCAATACACAATTTATTTATTTTCAAATTACATTGTAGCTCTTCTACTAAAGATCTTATAATTGAACCAGGAAAAAGAATACACTTTAGTAAATACGATAGAGAAAAAATATTTGACACAAAAGCCAGAATATTAAGAGAACTAATAAGAGATAGTATAATTAAAAAAGTAGAAATTTTAGATGAAGAAAGAATAATTAGGCTAGAACTTAGTAATGATAAAGTCGTCTATGTTGAACTTTTACCTAGAGGATTATTAGTAATTACTGATATAAACAATAAGATATTATTTTCTACTGAATATAAAGAATTCAAAGATAGAATAATTAAACCTGGATCCATTTATACTGCACCGCCTAAAATACAAATAAATAAAGAAGATTTAGAAAAAAATATTAAAAAAGGAAATATATCAAAAATTTTAGGAGTACCACAAGAAATAGTAACAGCATTAGATATAAAGATATCATCGATAGAGAATTTAGAGGAGGCTAAAGAAAGAATAAATAAACTTATTGACGAAATAAAAAGTGGTAAAATTCAGCCTTGTGTAAGTAATACTAATGTCATGCCAATAGAATTTAATGGATGTGAAAAAAGAGCTAGTTTTAATGATGCGTTAGACGATTATTTTACAAATTTAGAAAAAGAGGAGACAAGTATAAAAAGATCTGAAAAAATAGAAGAAGAAAAAAAGAAGCTTGAAATAACAATTTCTCAAGTTGCTCAGGCAATTGAAGAGGATAGGAAAAAAGAAGAAGAACTACGAAAAATTGGTAAAATAATAATGGAAAACTATGATAAGATCGAAAAAGAAATAGAAAGAAATACAAAAAGATTTACTATAAATATAAATAATGTGGAAATTGAATTAGATCCAAAGATTTCAGTTTTAAAAAACGCATCAAAATATTTTGATGAAGCTAAAATATATTCTCAGAAGGCTAAAAAAGCAGAAGAAACTCTAGAAAGTTTAAAGAAAAAATTATCAGATATTAATAGCCAGATAGAGAAAAAAAACGAAGAATCTGCGTCGATTTTCAAAAAAAGGGAGTGGTATGAAAAATATAGATGGGCATTTACTAGAAACGGCTATCTTGTAATAGCTGGGAAAGATCAGGATCAGAATGAGAGTCTAGTTAGAAAGCTTCTTGATGAAAAAGATATATTTATGCACGCCAATATTCAAGGTGCATCAGCAACTATAATTAAAAATCCAGTAAATATAGATGAAAGCGATCTTAAAGACGCTGCTCTAATAGCAGCGTGCTATTCTAAAGCTTGGAAAATTGGATTAGGCGCAGTTGATGTATTCTGGGTTTATGGAAATCAAGTATCTAAATCACCACCAACTGGAGAATATTTACCTAAAGGATCGTTTATGATATATGGAAAGAAAAATTTTATAAATAGTGTAAAACTGGAATTGGCTATAGGAATATGTAGAAACGATAATATTTTTAACATAGTAGTAGGTTCGGAAGATGTAATTTCGCAAAAATGTAAAATCTATGCTTTACTTATACCAGGAAATGAAGATCCTTCTAAAATTTCAGAAAGATTGGCAAAGATATTTTCTAAGAAACTTTCTCTAAGTTCTAAATTATTACAGTCTGAAATCTCTAAACTATTGCCTGGCAAATGTACTATAAGAAAAATAGAAGAAGCTAAAGACAAATCCGAAACTTCATTAAGCAATAATAACCCATGATAAAATATTAATAATATAGACATTATGCCCGTAAGCTCTTTAGCCGAAAAGACTTCCTTAGTTTCTTCCTCAGAATATATTATTTTAAAAACGTTACTTCAGTTTAGAGATCAATTTGAAGCTGTTCCGCAATCTTTTCTGGCTAGGCAAATAAATTTTAGACCTAAAGAAATGCAGATTTCATTACTAAAATTAATAGATTTAGGTTTGATAAACTATGAAAAACTAGGAGGAGAAATCTCTTATAGAATAAACTTTTCTGGTTTAGATACTATAGCAATTAAAAACTTATATATTAAAAATATCCTGAAAACATTAGGAGAAAAAATAGGAGAAGGAAAAGAAAGTGTAGTATATTATGGATATGATTTTAATGATAATACGTTAGCAATAAAGTTCCATAGAATAGGTAAAAGTAGTTATAAAAAAGCTAGAATATTACGTGGTTATACCGAACGAAAAAGTTGGATTACCATAACATTAGATAACGCAAAAAGAGAATTTGATGCACTAAAATGCATACATGATAATTCAGGATATGTACCTAAACCTATAGCAACTGAATATAATGCAGTAGTAACAGAATTTATAGAAGGAACTTTACTAAATAATTATGAATTGAAAGATCCTAATAAGGCGCTAAATAGTATCCTTGGAACGTTAAGAATAGCGTATAATTATTGCGGTAAAATGATACATGGAGACCTCAGCCCTTATAACATACTTGTAGATAACGATGAAAATGTATATATAATAGATTGGCCACAGTGGAAGGTCGATGATCACGTATTACTAAATAGAGATTTACAAAACATTTTATACTATTTCTCTAAAAAATACAATATAGAATCAGATTTCGATAAAATTATGAAATATATAAGGGGATAAAAATGGGGAAAATTCTTGGTATAGATATTGAACCTAAGAATAGTCCTTTATCATTGTCACAAACTAAGTATTCGATAGTGGTAATAGATGATAAGGGAAATATAGTTGAAAAAATGGATAATTGCCCGTTAAGTAGAATAATAAGACTAGCATGGGAACAAGAAATTTCTGTAATAGCAACAGATAATATTTATGAATTAGGCAGTAATGATAGGGAAATTATCAAAGCTATAAGTTTACTTCCAGATAATGTAGAAGTAGTGCAAGTAACCTATGTAGATGGAGAATTTAAAGATATAAGAGACGTAGCAAAAAATTATGGAATAGATATACAAGGAAAGCCTAATTCTACAAAAACAGCTTATCTAGCAGCAATTCTAGCTCTTAAAGGAGCCGGGACTAAAATAAAATTAATCGAAAATAAAACTAAAATCGTTATATCAAGAGGAAGGCATCTAGGTCCTGGAGGGATGAGTTCTAACAGATATAAGAGACATATTAGAGGACTGCTCTTAAGAGTATTTAAACAAGTTAAGGAGTCATTAGATAAAAACAATATTGATTATGATGTAATAGTTAAGAGAACTAAATCTGGAATTGAAAATGCTACATTCATAGTTTATGCACCACGAGAAAGTCTTTTTGGAATTGTTAAGAAAATGAAGGGACATGATCTTAATTTAGAAATAAGGCCAGTATATAAGACAAAAATAGAATTCGGAGATAAAAAAACTAGTAATCTAAAGCCTTTAATAGTAGGGATTGACCCAGGGTTAGAAGTAGGGATTTCTGCCATAGATCTATATGGAAACCCTGTTTTATTAACTAGTAGACGTAGTATAGATAGAGAAGATATAATTACATTACTACGAGAAAAAGGTTCACCAGTACTTTTAGCTACAGACGTCAATCCTTTACCAGACGCAGTGAAAAAACTTTCAGCTGCACTAAAAGCTAAAGTCTATATTCCAGAAAAATCTCTCAGTGTAGATGAAAAACAACAATTACTTAATGAATATTGTGATAGATTTAGTCTTAATATTAGCGATCCTCATATAAGAGACTCCTTAGGAGCAGCATTAAAGGCATATAAAGATCTAGAAAAGAAACTACGACAAAGCGATAGTGTGATAAGAAGATTTGAGATAGATATAAACGAAGATAAGGTTTTTAAGTGTATAATGGATGGAAATACAATAGCAGAATGTATAGAAAGGGAAATAGAAAATAAGTTAGAAAGTAAAACCGAGACAAAATTATCTTATGTTAGAAATCAAAATGCCGTAGATGATAATGTATATAAACACTACGAATATGAAAATAGTTTACTTAAACATGAGATAAACAGATTACGATCTCTAACTAGACAATTGTTTAAAGAAAAAGCTGAATTGGAAAAAAGAATAGAAGAAATAAAATTGGATTACAGATCAGAAGTGCAACGAGATAGGAAAATATATGAATTAAATAATATTTTGGAACAAAAAAGCAAAATTATTGAGAAATTACAAAATGAAAATTCAAAATTAAATATTAAAAATGAAAAATTAAATATGCTTATATATGATATCCTTAGAGACAAAGTAAAGATAATAAATAATAACTCTCCTTTAATTACAGTTAAAAATGGAAAATTATTCGTTTTTGATGAGGAAATCAATGATGATATAGTATTGTACATAGACAGCGATTTTGCAATAGTAGATCCTTCTTTATTAAACGATATTTATATATTAAACAAAGAAAAAGAAATAGAACGAACAATAAATATAGATGGAATTAAAAAAATAATTGAGAACTATAGAAATATTAGGTCAAAAGAGCATAACTTTTCCGTCTAATATTAATTCTGTTATCTTATTAAATGATGCTAGATACTCTTCTACTATTCCATTTATCTCATTCTTCAAATTATTATCAATTTTCCCATCGCCAGAATTTACTTCAACATTAACTATCAATGGATCATCAATAGGCCTGCCAATTTGACCTAATATTTCTACTTGAGTATTAAGAACATGAGTATCGTCTGTAACTTTTTTCGCAATAAGATTGGCTAATACATTATAGATCTTTCCTACATGATTAACTGGATTTTTACCTGCAGTAGCTTCTAACGACATCGGTCTCATAGGTGTAATTAGACCTACACCTCTATTTCCTCTTCCAGTCATTCCATCATCTCCATGCTCTGCGGAAGAACCAGTAACTGTCAGATAATAGATACCAGATTCTGGTTTATCACCAGTATTTATATTCACTTTTACATCATAGTTAGGTGCAAGATTATGGGCTAGATCTAAAACCTTCTCTCTAACTTGCTCTTTAATCGATATATAGTGTTGTGCATCTTCTATTAATTCACTTATAGTTGCCATTGCAATGGTTAGTTGGATTTCATTACCCTTTCTTAGACCCATAACTTTTATATCTTCTCCGACTTCTGGAAGTTCTAATTTAACATCTTTAGAATTCAACGTTCTTTCTGTCTGAAATACTAAATTTTCTAGCGTAGAATAAGGTGAAAACCCTACACCGAAGCTAGTATCATTAGATAGTGGAGTGGATTTGCTTTTCTCAAATATACCCACAAGATCAGTAGAACCTTTACCTACCTTATAATCTACTATAACATGTTTTTCTGAATCTAAATATCTAAAATGAGATTTTATCCAGTCTTTAACACTCTCTACTATAATAGTTCCAATTGGTATATTATCTATTCCACTTTCTGTTCTAACTTCAGTAGTAGCTCTACCTGCAACTATAATATAAATTGGTTGTAATACGTCTCCACCCTTAAATACTGGATTAGCTTGCCCACCTACTACTAATGTCTTGTCAAGATTATGATGTAATATTGTTCCATAATTCTTTAGATAATATAATGAAAGCTTTCTACTTGCTTCTTCTGATGCTGAATCGGCGATATAATCTGGATGTCCAGTTCCCTTACGTTCTACTAGCTCTACTTCAAGCCTATCCATACTAGATATCCTAGCCAGTTGCACGTTTATATTTTTCATATCAACCAACTTTTTGTGTGATTTTAAAAGCTTACTTTTCTTTTGTCATTATACTTTCATAGTCTACGCTTACAAATAATATATTGCTACCTCTAATTAATACTCTTCCATACTTAGCAATTGCCTCGCTAGATCCTTCAGTAAGTTCAGTACAATCACGTAAAACTAAGTTCATAGTACCATCAGTCTGCTCTAATTTTCCTATATATTCTGATCCATCCTTAAGTTTTACAAGGACTACTTTATTTACAGCTGCTCTCAAATTCTTTAACGGATTCTCTACTTTCGCTTGCAAACTTAATCTCCTCTTTTAAGTAGTGAAATAAACTCCTATAAAAGAATGACGCGCAATAGAAGAAACTCTTTTGAATAATTTAATATTAAGTCATGTATCATGGAAATAAATGTAGATGATCCAGAAGAGATACTTAAAATAGCCGAAGCATTATCTTCTATAACGAGAATAAATATTTTAAAAATTCTTAATGAATCGCCTAAAAGTATTACAGAACTTAGTGAAGAACTAAAAATGACAAAAGGCAATATTAGTAATCAAGTAGCTTTATTGGAAAATGCTGGGCTGGTTGATATAGAGTATCAGAATGGTGTAAAAGGAATAAAAAAGATTATTAAAACAAAATATAATAGAATAATTATAAGCTTAGATATTAGCAGCAGCCCTAAGGAAGCCAACAAATAATGGTGCAGGATTAAGAGGTCTACTCTTGAATTCTGGATGTGCTTGGGTTGCTACAAAGAATTTATGATCCTTAAGTTCTATTACTTCAACTAGACCATTTTCGCTAACTCCTGAAATTGTCAATCCTGCAGATTGAAGTTTATCTACATATTCTGGATTTACTTCATACCTATGTCTATGTCTCTCAAAAATCTCTGTTTTCCCATATAATGAATAAACCGTAGTACCTTCCTTTAGTATTACTTTTTGCGAACCTAATCTCATAGTTCCCCCAAACTGCGTTACTCTTTTCTGATCATCTAAAAGTGTTATAACTGGATAGGGAGTAGAGGGATCAACTTCTGTAGTATTCGCATTCTTTAGATTAAGTACATTTCTTGCAAATTCAACAACCGCAAGTTGTAATCCATAGCAGATGCCCAAATACGGTACATTATTAACTCTAGCATAATGAATAGCATTTATTTTACCTTCAACACCTCTAGCACCAAATCCTGGCAAAACAATTATTCCGTCTATTTTTTTAAATTTATCATTAAGATTTACTATATTTTCTAAATCAGTAGATTCTATCCAAACAATATTAACTTTAAGACCTAAAAAAGCTGCTGCATGAAGAACTGCTTCTTTTATACTCAGATAACTATCTTTTAATTTAGTATATTTACCTACCAATGCGACGTTTACTTCTTTTGAACCGTCTTTAAGAGATTCAATAAATGATTTCCAGTTCGAAATATCTGGTATAGTATCCTTTAGATCTAATTTTTGTGTTAATTTATGAGTAATTCCTTGCTCATTTAGTATTATAGGAACTTCGTATGAAGTAGGTACATCATAGCTTGAAAATATATAATCTGCCCTTACATTAGTAAATAACGCTATTTTTTTCTTAGTATCTTCGTCTAATTTCACTATAGATCTAGCTATTATTATATCTGGTTGAATACCTATTCTTCTTAGTTCTTGAACACTATGCTGTAACGGTTTAGTTTTTAATTCGCCAGTTACGTTTAAATACTCTACTAAGGCCACATGTACAAAAACTACGTTATGCTCTTCCTCCTCTAAATGTAATTGTCTAACAGCTTCCAAAAATGGCAAACTCTCTATATCACCTACTGTACCTCCTATTTCTACTATCACAATATCTGCGTTATCTAACTCTCCAGCTTTCCTTATCATAGATTTTATTTCATCTGTTACATGAGGTATTATCTGAACTGTTTGACCTAAATACTTACCTTCCCTTTCCTTTTTTATTACATTAAAATATACTTTACCTGCAGTTACATTATTATATTTATTCATATTAATATCTAGAAATCGCTCATAATGTCCTAAATCTAGATCAGTTTCGGCTCCATCGTCTGTAACAAAAACTTCTCCATGCATGTATGGATTCATCGTACCTGCATCAACATTAATATATGGATCTACCTTAACTACTGTGACTCTATAACCCATGCTTTTAAGAAGTAAGCCCAACGAAGCTGCAGCAGTACCTTTACCTACACTTGAAAGTACTCCACCTGTTACTATGACATACTTACGCATTTCAAGTAATCACAGTAACGCATTTTCATTTTTCTAGAATAAAAGTTCTTTTGTAGATTAGTTTATTATTACACATCTACTTCTTTAAATCGATATGATTAGAAATTCTCTCTTAAATAAGCTAAGAGAAAGGAAAAATTTACAAGTTGCTTTAGATTTCATTAACATAAACGACGCAATTAAAGTAGCAAAGCAAGCTATAGAGGGAGGTGCAGAAATTATTGAAGATGGAACACCTTTAATAAAATCCGCAGGTATTCAAGGTCTATTAAAGCTAGATGAAATAGCTAATGAAAAAATATTACTAGCAGATACTAAAACTGCAGATGCAGGCGATATAGAAGTAGAAATAGCTAAGAGAGGTAATGCGAAAATAATGACAGTATTAGGAATAATGGACGATTCTACTATAGAGTCTGCAGTAAATAAAGCTAAAGAATTAGATATACTTGTTCAGGCCGATCTAATAAACGTTAAGGATACAATACAAAGAGCAAAAGAATTACATGATATAGGGGTTGACATAATAGGATTTCATGTCGGGCTAGATGTTCAAAAGAAAAGAAACATAACCGTAGCCTCCTTAAAGGAAGAAATAAAAGAAATATCTAAATTCACAATAGTATCTGTTGCAGGTGGATTAAACGCTAGCAATATTAAAGATTTACTAGATATACCTATTAATATTTACGTAGTAGGAGGCGCGATAACTAGAAGTAATAATCCTTATGAGGCTACAAAAGAAATAGTTAACGTAATAAATACCAGTTACAAATAAGTAATGGGGAAAAATTTGTCACAGCCTGGTCAAGCTTCTAAATCTAAAGAACTTAAAAATGTTTCAAAACAAGTTATTACACCAAGCATCTTAAAAGAAGATAAGAGGAAACTAGAATTATTATATATTATAAAAGTACTAAATACTATATCTGAAAGAGCTCTTACTACACTCTTGTATGAGGCTAAAGACAAAGGATTAGACTTAAAATACGAATTTAACACAGTAGGAAATAATATATTTAGTCCATCAATAAAGGAAGATATAACAACTCTACTTTATTTAGGACTTATAGAGACAGATCCTTCAACTAAAAAGTTAAAATTGTCTACAGATGGTGAAGAAGCCCTAGAATCTAACTTAGCCTCTATAGACGATAATTTCAAGAATCAATTAAATCAAATATTAAATGACGTAAAGAACAAAATTGTTGCAATAGATGAAGAATATTCCTTAAAATTGAGATCAGAAAGGAGATCTAGAAGAAGATAATTATTTTACATAGTTGTAAATGTTCCTCTCCTACCTTGGTTTTGTTGTTCTTCTAGTAATGGTCTGCTCCATATTAGCGGGTCTAATTTTCCTTCTTTACCAAGTTTTGTTATTAAATCCCTAGCCTCTGATGTATGTCTTATGTCAAGTTCTAATAACTGTTCTAAAATTCCCCAGCTGGTCCTCTTAACATCTTCTAACATTTCTTTTGGCATATGCTTTATTACCATAGGATCTTGAAGCCACTGATCAAAAGCTTTTATCGTTCTCATCATATGTTGGAATGCTACTCTAGACGCTAATATTAAATCTAATCTGTCCATTGCTTGATCTTGTTTCTGCATATCCTTGAGAGTTGCTAGCAAATTCTTTTGCATCTTTATCCATTCGTCTAGATTAGATATGAATGAGTTTTCCAAAGCTTACACCAGAATAACTATCTGCAAACTAATTAATAAGTTCATTTTAACTCCCTAAATTTACTGGAAGTCCATTCTCAGTAATCTCTTTAGGAATCTTCTGCTTATATTTCTCCAGGAATTTTATATCGTCTTCCTTTTTCCTTAGTTTATCTGGAAGCATCCTAGGTATCTCGTCCATAATTGGATACCATCTCTTACACGAAGGACAATAAAGCAATCCTTCCACTATTTCTTTCTTATAACACTCGTCACAAGGGGGTTCTGAAATATCCTTGATATAAGCGTTTTTATATGCACAGTATAGCTCACATAGTGGTTTTTTCTCGTCAGTAGATCTATCAACATTTTTTTCATCAAACACAAAAAGTTGCATTGGAAAATGTTTACACATAGGGCAAGCCAATATATCCATTAACCTATATTTCAAGCTAGACTACCTACAAGTTTTATTAAATCATTAGCTAATGAAGTTGCCTCTTTTTCGTCCTTAGATTCTACCATAATTCTGATTATTGGTTCAGTACCACTTTTTCTTACTAGAAACCAAAAATCATTTCCTATTATTTTTACACCGTCTACTGTTATTATTTCTCCTTTATTTCCATATATTCTTTTTAATTCGTCGTAGATTTTTTGAACATTTGTGGTAGTCTTTATACTTACTTTAGTCTTTATTGGATAATATTTAGGCAATCTATCAAAAAGTTCTGCAGAACTTACATTTTCATTAGCTAAATACTCTAACATTAGCGCAAAAGACATTGCACCATCCCTCACATATTGATGCTCAGGAAAGATAAAACCACCATTTTCCTCAAAACCTGCTAATCCTTTTTCTTCCATTAAATAATGTGCTATATCTACGCTTCCTACCTTTGTCCATTTTACACTTATATTATACTTTGATAAGAACTCTTGAACTAGAACTGAACTAGAGACTGCAGTAAATATTCTTCTAGGAAACTCTGATTCTTTGGTAGATACCCAATACGATAAAAGAGTTCCACTTCTGTCTCCCCATTGTACTCTACCTTCAGAGTCTATAAAAATAACTCTATCAGCATCGCCGTCATGGGCTATAGCTAAATCTACACTTAGGTCTTTAGCTATTTTGGCTGTTTCTTTTAAACTATCCATTGTTGGTTCTGGCATCCTAGCAGGAAACAAGGGATCCAGATTAGTATTAGTAGTATAAATTTTGCATCCTAATTCTCTAGCAACTATGGGAGAAGTTATAGAACCTACACTATTAGCACCGTCTATCAAAACTTTAAAATTCTTTTTCCTAATCTTATCTACGTCAACATGAGATAAAACACCATTAACATATGTATCTATAATTCTATCATCTCGCTTGATATCATAAGTTAGGTATGTCCAATCAGCTGTGGAAAACTTATCATTAAAATATATATCTTCTATAATATTTTCTTTATCTCTAGATATTTCCACTCCGTCTCTATCTATAACCTTTATACCATTATATTGTGCTGGATTATGACTAGCAGTTATTATAACACCTGCATCATAGTTAAGTGTCTTTACAGCATATTGTAATGTTGGAGTAGGTGCGAATCCTCCTTCATAAACCTTTATACCAGTACTTAAAAGTCCACTTTCAACAGCCCTCATAAACATATCTCCGCCAGCCCTTGCATCCCTGCCTATTAATATTGTAGAGCCTTTCCCAAAGAATGTACCAACTGCCTTACCTATTTTTAAAGCTAATTCTGGAGTTAACTCGTTATTTATAGTTCCTCTAATTCCATCTGTTCCGAAAAGCTTTCCCATACATTTTTAATAACACTTACCAAATATAAATCTAAAAGGAAAACGATTATCATCAATGTTTACGTAAAATCCTTATCACTTAAGGAATAAAGATATTATGCTAAAACTTTTCGAAACTACTGGAGTGTCTTATTATGCATAAATTTCAGTTTTTCCAGCGGAAATCATTTCTTCATTCGACCCTCTTTTCATCATTAATCTTTTTATACAATCCTTTACTAAATTAATATTGCGGTCGTAGTCCAGCCTGGATAGGACGCTGGCCTCCCATAAATTATGGAGTGAGCCAGTAATCCCGGGTTCAAATCCCGGCGGCCGCATAATTCATATACGTCTTTTAGATATAATCTTTTTAATTATACTAAAAGTAAATACTACAATAAAACTTTTTACTTATTTATCTTTATAATAGCTTATGAATGATAAAGAAAAACTAGAAATATACGATGTTATAATAATTGGTGCAGGGATAGCAGGGTTAAGCGCAGCACTTTATTCCGCTAGACAGAAACTGAACACGCTAGTAATATCAAAAGATCTAGGAGGGCAATTAAATTTGACCCAATTAATTGAAAATTATCCAGCAATATCTGCAGATACTGGAATAGGCCTAGCGTCTAAAGTTGAATCTCAAGCCAAAAAATTTGGTGCAAAATTTATTTATGGTGAGGAAGTTTCAGCAATAGAAAAGAAAGACAGTTTATTTATAGTTAGAGGTATAAAAGACGAATACTTTGCAAAATCTGTAATATTAGCGTTTGGAAAATCACCTAGGGAACTTAAAGTTCCAGGAGAAAATGAATTAAAAGGAAAAGGGGTTTCATATTGTGCAATATGCGATGCGGCATTCTTTAAAGATGTCCCTGCTGCTGTAGTAGGAGAAGGAGATCCAGGTTTAGAAGCTATAGATTTGCTAGGTAAATATGCAAAACCTGCTTATTATATATCTAGAAGTTTACAATTAGCAGGAGAGCCAGATCTTGTAAACAGTGTAATGAACAATAAGAATATTATCCCATTATTAGGATACACTGTCGAAGCTATTGAAGGAAATTCTAAAGTAGAAGGCATCAAAATACGAAATATAAAAACTAATGAAGAAAAAGAAATTAAAGTAGAAGGCATAATAATAGAAATGGGATATTTACTCAATACAACATTCCTTAAAGGTTTAGTAAAACTCAATGAAAAGGGAGAGGTTATAATAGATGATTTAGCAAAAACATCTATGGATGGCATATTTGCAGCAGGAGACATAACTCAAATACCTTACAAACAAGCCGTAGTAGCAGCAGCAGATGGTGTAAAAGCAGCGTTATCTGCGTATAATTATATTAGAAGTTTACAAGGATTACCGCCTGTAACAGTGGACTGGAAAGCTGAAAAAAAGAAAACTGTTATATCATTTAGATTATAATTTCTATATTTTAAATTATTTTAAGTTTAATATATATATAAGGAATTTCTATGATATAATTAAAGAACAATGTTAAGCTATATATAAAAATCAATAAAAAAGTTTTTTTCATCAAATTCTTATAAACCGTATATAGCTCATAGATTAAAAATCTTAAAAAATACGAAATAAACCTAGATTATATGAAATCATTTTCAGTAGAGTTAAAAGATATTATAACCGGCAATATTTCAACTTGATAAGGATTGGGTATCAAGGATAACTATGGCAATGATTATTGTGAGTTTAGTATGGGGTATACTAGGAATAATAGATGCTCTGATGGTTAGAATCCAAGAGGCTGCATGGGCTACTAGTTCATCCCTACTTTTAACTTCTCAAGAGTATTACGGTTCTATAGCATTACATGCTATGCGAGATTTCTTTGCATTTGCAGTACAGTTAGAATTAGCTATTTTCATTTTTATCTCATTTAGGCTAATAAAAATGCAACCAAAAAGAAATGGATGCTCAACTTGGGATTCATTCTATTTAATATAGCGTTTATGTTAATAGAAGGTCCAATAGTAGTATTTCCAACATTTAATGATAATTATTTCCCATCAGATAGTTGGTATTATCTATCACCATATGGTGTTGCTGGATATTCACAGTATGTAGTAAGTCCATTATGGTATTTTGGTTGGGAAATAATGGATGCTGGAGTTTATTTAATGGTTATATGGATGGTTTATCAATTTTATATGCTTCTAAGGAAATGAAAGAGAAATTGCCTATATTTTCAGTATTTTCAATAATGACTGCGCTTATGATAGCTTTAGGTTGGAGTGAGGCAACTGCGGCAAATACATGGGACTTATTAGCATATTATGGTATATCAAAGCTAAATGTAATTTCTGATCAAATAGCGTTCGGTATATTATGGCATTCAATAGTATACATGACCTGGATGCCTGCAGTAGCATCATTATACTTTCTTATTCCTATTTTGGCTAATAAGCCTCTATATAGTGATAGAATGGGAAGAATTTCAGCACTGCTTTATCTAATATTTTCAAATAACGTTCCAATACACCACTTATACATGGTAAACTTACCAGTAGGAATAAAAGTCCTTGAAGAAGTATTAACGTTCGCTGTGGTAGTCCCATCAATGATGACGTTCTTCAACTTATGGGCAACAACAAAAGGAGCTAAAATCAATCTTAACTTAATAAGTGTTTGGATATCAATAGCTTTTGCAGGATCTATAGCTGCAGGAGTAACTGGAATAGCCAACGGAGATCTGAGTTTTGATTCTATAATACATGATAGTATGTGGGTAGTAGGACACTTCCATGCTATGATATTCTTCTCAATTGTTCCAGCAGGATTCGCGACACTATATTACATGGTACCAGCATTAACAGGAAGACAATGGTATTCCAATAAGCTAGGATGGATTCACATGGTTGGATATGTGATAGGAACAGTAATGATAGTAGTAGGTTTTGACGACTTAGGTTTAGAAGGACTAATGAGAAAGGCTGAAATATTCCCATTAATACCTGCATATATAACTCCTGAAATATTAGCTAGTGCTGGCGCTTTTATAGCAGATACTGCTACATTATTATGGTTAGGTAATCTAGTGCTAACATTATTAAAAGAAGAACTGGAAATTTTGAGAATATGAACGTAAATGCTGTAATATCTACAATAGCTATATCACTTCAAATCCCACAAAACTCAGAACTGACTATTATAAATAAAGTTAAAAAACACCTATAGTAAAACTTTTTAAAAAAAATTCTTAATTAAATATTTTTATATGAAAATAATCTTTCTAGGTATGCTTGTTCCCAATTATCTTTTTGTAGTGTATATTCTTTTTTAAGCTCTGGATCTTTAGATGGCTTTGGAGGCTTAGAAGTTAGATCTAATCTGAACTGAAGACTGTATGTTTCTAATTTTCCTTCAAGATTTCCCATATATGCCCAACCTACAAATGCATATTGGACTGGAACTTTATCTGATATCCCTTCAATTTCCATTATTTTATTAGCTGCAAATAAAGAGCTTTCGAACGCTATTTCTTGATTTTTAGGGAAAGGCAATTTTGCTACATCCCCAGCAGATAGCACGTCGTCATATTTAGGATGTCTTAAATCTTGTGGAGATCTTACATCGACATAATCATCTCCTAATCCTGAATCTTTTATAAAGGACGGTGCTCTATTTGGCTCTAACATAGCAAGAATATCAAATTTATATTTCTCTCCACTCTTTGTTATTACTTCTTTATCATTCATTTCTATTATCTCTTGGTTAGTAACTAAGTTGATCTTAGCTTTTTCAAATACTTGTGAAACTATGTCAGCAGTGAATGGAGGCTGTGTTTTATCATTAGCGTCTATATATGTAATATTGAATTTATCTCTAATTCCTCTATATTTTAATATTGTATGAATTAACATAGCTGTCTCTGTAGGAGCAGGAGCACATCTATAAGGTGCTTTAGGTGCATATACTACTATATTACCTTCTGTTTTAGTCCAAACTCTTTCTTTAAGAACATTTACTCTTCCTAAATCATAAACTGTTGTATTTTTCCACCACCATTTGTCATATCCGTTTATACTACTACCATCAAATATTATACCAGGAGCGATAACTAAATAATCATACGAGACCTCTTTAGTAGTACTGCTTGTAGTTTCAGAAACATATATTTTTCTTTCGTCCGGATCAATCTTATATACGCTACCTACAGTTAATTTTATTCCTTTCTTGCCTACTTCCTCGTATCCTCTTACCATTCTTTCGTATTTTTGTTCACCAGTTAACAGCAATGGTCTGCTAGGTCCAGTAAAATAATACTGATCCTTATTTATAACAGTTATATCGAAGCCTTTAGAAACTAGTGTTGTAGCAACTCCCATTCCAGCTATTCCGCCACCTAAAATAACTATCTTTTTCATAGTTTATTTATATCTTATAAAAAATATAGAATTTTCTAAACATAAATATAATGGCAAGCATTATAAGCTAGTTTAACCAATATTATATTTTCAAATTCTTATTTCTAAATATCAAATATATTAGAAATATATCTATAGATAATTTTTAAGCCTTTTTTTAGTTAAAAATAGTATTGTAACCTAGATTATAATCAATTAAAGTTAAATCTTATGATTGTTAAATAGGGAATTATGTCATTTAATGGAAAAGTTGTTGTAGTAACTGGAGGAACAAAAGGTATTGGAAGAGCTATTTCTGAAAAATTTAAGTCACTAGGGGCAAATGTTATTATACTATATAACTCCTCTGACAATATAGCAAGAGAACTTGAAGAAAAGGGATTTCTTACTATAAAATGTGACGTTTCAAAAAGATCACAAGTAAAGAAGGCCGCAGAAATAGTCGCAGAAAAATATGATAAGGTTGATGTATTAGTTAATAATGCAGGAATCTGGTATCTATTTTCCTTTGAAGAGTTTGATGAAGAAAAATATGAAAAGATGATGAAAATAAATCTAGATGGCACTATTTATGTTACATACGAATTCTTACCCTTAATCAAGAAATCCAAAGGCGTTATAATAAATATGGCATCGAATGCTGGTCTAGGGACTTCGGCTATAGGAAATACTTTCTATTCAATAACTAAGGCAGGAATAATTATTCTAACACGCAGATTAGCTTATGAGTTAGGGAAATATGGTATTAGAGTTAACGCTGTAGCACCAGGCTGGGTAGAGACAGATATGACTATAGGAGGAAAAAGTGCTGAGGAAATAGAAAAATTAAGACAATGGTTTAAGGATAGAACTATGCTACATACAACAGGAAAACCAGAATATATAGCAAATATAGTAAGTTTCTTAGCTAGTGAAGACTCCACATATATAACCGGTCAGATAATAGTAGCTGATGGAGGAAGAATTGATTATCTTACACATGGTATTTAGAAATTTTTATCCTTATTCTTGGATGTAATAATTATAGAATATTATAGATTAATAAAATATCTTTTGGAGGTAGGGAGAACCAGATAGCGGCGCCTGGATTTGAACCAGGGACCTCAGGGTTATGAGCCCTGCGGCCTACCAGGCTGGCCTACGCCGCTATTTTACCCTACCTACTTAACTACATAACTGCTTGATATTAAAATCTAACTTGCAATATTTAGTTACGAACTATGTAACTCTCTACGGAACTAACGCGTCTATATTTATAAATCCCTAATTTTTAAATTGCACTTGTAATTTCCACCTTTATCTGACCTTTTTCCTCTTGTATATTAGCAGATATAGATGCTATATCCACTATAGAAGTTATAAGATCTCTAGCCGACGAAACAAGCTTCTCTTGGATATCTTGTGGATAAATAGGAAAAGATATAATTATTTGATTATTATTAATGCTAATAGCTCCAACTAAAGAGAAGAAGAATTTTATAACAGATATAAATATAGGAATTATTTGATTATTATTTAGTGACATTTGTCTTATTAATAATCCAAATCCTCTTCCTAAATCTATCCATTGGCTTTGCTGTATATTGGATATAGCTGTTAGAGGTACTATAATTATTCTCTTATACTTGAATAGCTTTTCCATTATTATTATCTCATCTTTAATATCTTTCAAAGATACTCCAGACTCTTCAATATCTAACGCCGCCTCTACTAGTTCATTAGTATATTTATATGCGGAGTAATTTTTCTTACTTGCGTTTTCCGACAGTCTATTATATATATCGCTTCGCATGAAGCAGGGATGTCTACTATCTTTTTTCATGTATACATCTTGTATACAATTGTATATTATTATTTTAAAATTTTTCTTTCAGTGGCTGCCCACTAACTTCACAAAATCGGTAAAATTTTTGTCATCATCTAGTTGGATTTATTTAAGCTGAATTAAAAGTCTTTTTTATGATATGTGCAGGAGTTGACCCAGGTAGCGAAAGTTATGCAATAGCTTTCGTTGATGAATTAGGAAGATTAGTAAAATATTATGAAATCCCAACAGAACTTGTCGTAAACGCTAGTATGTCTATTGTTAAATACATAGCCGATTTAAGGCCAAAATTAATTACATTACCTTCTGGACACGGTTTACCATTCTACAAAATAAGCGATATTCAAGATAAAGAAATATTTCTACTTACATTATCTGATCCTAAAAAAACAGGACCATTACATAATTTTCTAAGGGCCGCTAAAGGCCTAAATGGAGTAACTTTACCTTCGATTGTAGAACTAGAAAGCGTTCCAAATTATAGAAAAACTAATATTATAGATATGGGTACTGCAGATAAGCTAGCATCTACCTTTTTTTATAGAACATTTTTCGATAGTTTTGTACTAGTAGAAGCGGGTAGACATTTTTATTCTGTTATAGTTGTAATAAATGGAAAAGTTATAGACGGATTTGGGGGTACAGTAATACCTGGGCCCTTCGCACCTGGAGCCTTAGACGGAGAAGTAGCATATCTTTTATCTAAATACTCTAAGATAACTAAAGACACAATATATACTAATGGCGATAAAAAAAGAGCTATAGAAATTGTAAAAATTATTTCAGAATGGTATAGTACAAAATATGATATACCTATAATAATTTCTGGAAAAGATAAATATAATATAGATTTTGGAGAAAAATTTGAGTTCAAATTTAAAGAATCTGCTATAGGAGCCTCATATATTGCTAATGCTCTATGTGGTGGTATATATAGAAAATATATTGATATGCTTAAGAGTAGTAACACACCTATATATTATGTGAGACTTAAAGGATGGGAAGAAATTATTTCCTTGATAAAGACGCTTTAATAGACAAGAATGACAATATATTTTTTGTACTTACTAATTATAACCCTTATGGCTATGTCTTTGCATATTTAAAATATATATATACAGGAAAAGGTTTATGGAAAGGATTTGATAGAAATTTAAGATACTATGGAATAAGAAACTTATTACAATCAAGGCAAGAGTTTATTTATGAACCTTGCTTTGGAGCTTCTTTCCCAATTAAAAGACTTTCAGAAGTCAAAAAACACTTAACTCCAGAAGATAAGATAGATGAGATTATCCGTAAAAGTAGCACGTCAGAATTAGACGAAATAATATTGGATTTAATATCCAAGATAGATGTAAAAAATATAGGTATTACCGGCTCAATTCTCCTTAACATTCAGCATTCTAAATCCGATATAGATTTTGTCATATATGGAGATAAAGACACTGAAGATTTCTTCAATACTTTTGAGGGATTTGATATTGATAAGGATTGGATTTTGGAGACTTCTAAAAATTATAATATACCAGTAGAATTAGCTAAAAGTTTATACAATAAAAAAACTAGAGGAATATATAAAGGTATAAAGTATTCTATATTATTTGTAGATAATAAACCATGGCAATATTGTAAAGATATCTGTATAAAAGAAGGTCCGATAAAAATTTCTGGCGATATTTATGGCGACGTAAGAGCATTATACTATCCATCAACGGCATTCCTCTTCAGTAATAAAAAAACTTTTAAAATATTATCTTATGAGGGTATATATAATACTGTACTATATGGAAATCATAAAGTAGAGATTTATGGAATGTTAATGGAGTGTAATGAAGATAATACTATAATTGTAGGTGATAGAGAAATTGGAGGTTACATTAGACCTTATATGCAGTGAGATAGCAGGATTATTAAGTAAGTCAAGTATTATAGAGTCTCTAGTATTTAAGCCTGGCAATGCCTCAAGATATCAAGATATAAACAGCGTAAAATTTAGAGACATACTAGAGTCTGCAATAATTTCTGAGGAAAGTTACAAAATTGCATGTAAAAGAGGATTTTATTCTGATAGACCTATATATGATTTATTGTATAGATCAATATATATATCCAAAATTATAGATGTAAATTTCTCGATATTTGGTACTGAAATTAGTTTATTACCATTAGCATATAGTTCTGTTCTAGCTTATAATCTAGATTCATTAATTTCTATGTCTACTCAAGTAGTTAGAAGCCTAGATAGGGACGATAGCAAATGGTTTTCTAATTCACTCAATGAACTTAAATTGTCATACCTAGGAACTTTAAGTTCCATGGACTTTAGAAATATGGAAGAAACTCTATGGAACGTATTCATGTATTCTTCAAACGAAGATAGCTTAATAAGAAATATAGTAAGAAATTATGAATATAGTATAGAAGTTTATAATATAATTAGACAAAATCCTTGTAAAGACTTTGAAAATAATATACAAACAGCGTTTATACGGATACTTAGTAAAGTGCCAGACGGTTTAATATACAGAAAATTTGGAGCCAGAGTAGCTTTACGAGTTTCTGACTATGCATCAAAATTACCAGAATGTCCATCCCAAAGCGATCTATATGAATTTAACAAATTTCTAGTCTCAAACAAATATAACCCTGGCTCTACAGCAGATATTATAGCTACTGGATTAGCATTATATAATTTGGATAAATGGTATGAAAAAACTCGCCTTAATATCAGGCTTCCCTTGCCAAGAGGATGTGATAGAATATATAAATGATCAAAAATTTGACGCAGTAATAGGATTAGGAGATATAGAATGCCCACAATTTCTAAATAATTTTTATGGAATACTTGGCGAATTTGAAAGCGTATTTGTAATGAAATACTTGAAAAAGACAAATAGATTAATACAAACCTCTATTTACGGATTATCTGTTAATTTTTCAGATAAAATCGTAATAACACATTTTCCACCTAAAGGTTTTGGTACAGGTATAATAGGAAATTTTATGATAGGAAATGAGGAGACAACTAAAAAAATTCTACATAACAAGCCTAAAATAGTATTACATGGACATTCAGAATATCCATCAATATCAGAAAAAAATGGCATAAAAATAATATCTATAGGCTCATTATATAATGGGTTTTACACTGAATATTATCCTGACAACGTAGAATTTGTGTTTAAAAGAGCTGCCATTAAATACGCATCTTCTCCATCAGCATAATAATGTTTTAATATTTTTATTTTTACAAATCCATGCTTTTCATACATGGAAATTGCAGGATAATTGCTTACTCTAACTTCTAAATAGACCTCTTCAGCGCCATAATCATCTTTCATACTTTTCATTGAAGCTTCTAATAATGAGCTGCCAATACCCTGATTTCTAAATTGTTCTAGGACTGCAATAGACACTACATGACCTTTTTTTACTAGACTAGGTATTGATTTAAAATTACTGAATCCATATTCAATTCTAGGCATTATATAACCTACTATATCTCCGTCAATCACAGCTACATAAAATGCCTTATCATAATCCTTCACGTGTTCCACAAAAAAATAATATGGATAGTTCTCTGGGAGAGCTAATCTATTTATTTTCATTATTTGATCAACATCATCAAGCCTTACATTCCTTAATGTAAAAGTTGACTTGTGACTATTAGTAGCTTGCTCCATGCTATAATGTTTTTATTAGTAGTTTATATACATGTTTGAAGAAACTTATGGTTCATCCATCAAAGAGAATTATAGGAGAAATATCAGAAGAATTGCGCAATAGAAAAATTCTTCTTGGTGTAACTGGAAGTGTAGCAGTATATAAATCCATAGATCTAGCTAGAGAGTTAATGCGTATAGGAGCAGAAGTATATGTAATAATGAGCAAAGGTGCTCTAAAGCTAGTATCTAAAGATATTTTCGAATGGGCTACAGGAAACCCTGTAATAACTAAACTCTCAGGAAAATTAGAACATGTCGAACTATCGGAAGAATTAGATACTATGATAATTGCACCAGCTACTGCCAATACTATTACTAAAATAGCTCAAGGAATATCCGACACTCCACTAACTACAACAGCTCTAAACTTCATAGGAAAAAACAAACCAGTTTTTATAGTTCCATCTATGCATTTGCCTATGTATCAATCGCCACAAATTAAAAATTCTTTAGAATATTTAAAATCAATAAATATAAGAATAATAGACCCAATTATTATAAATGATATAGCCCATTATCCTGAATTATCATTAATATCTTCCCAAATTTCAGCTGCACTAAATAGAGGAGAGGATCTTAAAGGATTCAAAATTATAGTTACTGCAGGACCTACTAGAGAATATTTAGATCCTGTAAGATTCATTAGCAATCCTAGTAGTGGAACGATGGGGATTGCTATAGCAAATGAAGCATACTTTAGAGGAGCTGACGTAGTTTTAATTCATGGGCCATTATGCTCAAAAATCAAATCATACGTAAAAACAGAAGTGGACGTATTTACTACAGAAAATATGGCAAATGAGGTTAGAAAATATGTAGAAAAAGGATATAATATAGTAATATTAGCTGGAGCTCCAGCAGATTTTAAATTCAAGATATCCTATAATACAAAAATAGACACGCATAATAAGGAATTGCCTAAAATAGAGATAGAAAAAACACCTAAAATATCAGAATATATAAATGGAAGAGCGTTCATAGTAGGATTTTCTGCAGAAACTGTAGAAAGCGATAATGAACTTTTAGCCAAAGCAAAAATAAAAAAGAACTTACATGGATTTGATTTAATAGTAGCTAATAATGTTAAAAGAAAAGATATAGGATTTTCTTCTGAGTATGACGAGGTATATATCATAGGGAATTCATTTACTAAAAAGATAGACAAAACATCTAAACAGGAAATAGCTAGAGTATTGCTTGACATAGTGAAGAAAGAGTTTAAAAGTAATATCAATAATCATATATAAAGTGGCTCGAGTAGCTCAGCTCGGGAGAGCGCTGGGCTGTGGACCCAGTGGTCCCGGGTTCAAATCCCGGCTCGAGCCCCATTTTATGGTAGACCAAAAATCATTTTACAAATACAAATTCAATATTAAATCTCATATTTTTTCTTCATAAGTAAAGGAACATATTTCATTATACTCATAATCAAGAGCATTAAGAATAAATGTATTAAATAATCAATGTAAATAAAACGGATTCTATCATACACATCTTTATCATTTTCTAATATTATAATAATATTTCTTAGTTTACTTGTAGAAATATAAAAGATCTAATACAATTCTTAAAAATTTCCTAAAAAATACTGTAGAATTAATTATCTAATTTCATTAAATCCTCATGAATAACTAATAACAAATAAAAATTATTTTTATTAATCAGATTTTGAGTCTACCGTCACGGAAGGGGTCTTTCGCCCTCTTTGAACCCTATATAGATTAATTAGTTGGGGAGGGTAATACTCTCCAACTGGGAAACATGGTCGACCCTTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATCTAGTAACGAGTGAGGGGAGGGTCTACGAGAACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATACTCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCAAAACTATGGAAGGAGAAGGACTTGAGAGGAAAGAAAACAGATTTTTACGACGCACAAAAACTAATAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATATATCTTCCTAAAAGACCTTGAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAGTCAGTGACGAGGAAAAAATAAGCAAGGAAATGCTTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTAGAGTACACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATCACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGAAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGGGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGTGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTACACTGCTTTAGCCAGGAAATTGGCTAGAATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGATCCTCCCCAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCAAAATATTTATTACTGAACGCCCCTGTTAAGATAAATTCTCTTATCAGTATAGTACTTCTATATAACATTATAATAAATGTTTTAATAATATAATATTATATTGTGTAAAATAGCTTTATCATAATCCTATCCATAACTATTTATTCGTAATTATGTCTCTATGTTTCTTAAGACTAAGTAGTCTCATGCTAGGAGAAAATTCTGCTAAGAAAAAATTAGTTTTAGATTTAATAAATGGAAAAACAATAGCTATACCGTTAGATACCAATATTACTATAATAATTACAGTAAAAAATAACAAAATAAAGAAAAAAGTATATTTTAAAAATACAAGAAACATAAGCAAAGAATACAGAGATCTTGTGATATTTCCGATATTTATTACAATTTAATGATATTATCTTAATACTCTAGGTAATATTAAGATGGCTAATAATAGATTAAAGAGTACTATAGCAGAGAGAATTATATATAGCCTGTTCTTATCATATAGAAAGTATATTAGAGCTAATGCGGTTCTTATTACAGGAATTGAAATAAGAACCATTAAACCTATGTATATGAAACTTAGGCCACTGAGGTCTGTAAAACCATTTAGTATAAAAGGTAAGGAAGCAGTAGAAGAATTAACTACTGAAACTCTAGAGAATAATTCATTTAGTGTATAACCGTCTGCACCATGCTCAATAACAGTTATTGCGACACCTATAGCTACTAACACTATACTTAAAATAACGCCAACCCTCATAACTATTCCAGTTACCGCATCTAAATCTGTCATGAGATACCTAACCCCCTCAATATCATCTGAATTCCTAAAAATGCCAATAAAATTATAAAAACTGTTCTTATCCTTTTATTCTTTAATTTTACTAAAGTTCTTGTGCCAGTAAATGCTCCGATTAGAACTCCTATTGTTGTAGCAGCGGCTATAATTGGTTGAATATATCCAAACGCCCAATATATTCCACTGCTAGTAGCTGCAGTTACACCTATCATAAAATTACTAGTAGTTGTTGTGACCTTAATAGGTAAATTCATTACCCAATCCATTCCTATGACTTTTAAAGCACCAGACCCTATTCCAAGAAGCCCTGACACGTATCCTGCAGTAAACATTACTAATTCGCCGTAAATCCATCTTACGCCATGATATTTTACTACGCTATTTAACGCGGCATCATAATATTCTCCATTCATCTGGAAAAATTTTGTGGACCAGTCTGGAGGTAACATGTCTGGTATTTCCGACTTACCTCTCTTTAATGTAGGATATACAGAACCCAATAGAACAATTCCAAAAACTATATAAATTATATTTTCTAAATGATGGGAATAAATAAATGTAACAGTCAAAGAACCAGCAATAGCGCCTAATGTTGTAGCAGTTTGTAACGATGTACCTATTTTTAAGTTTATTATCTTATCTTTTATATATGCACTTGCTGCGCCACTTGACGTGGAAATTGTTGAAATAAGGCTAGCTCCAGTTGCATAAACTATTGGAACTCCTGTATATAGAGTTAGAATAGGTACTAAAACAGTACCTCCTCCTAATCCAGTAAGAGATCCTAGATATCCTGCTATAATAGAAGCTATAAGTACTGCTAAGAAAAGTTCTATTCCAGTTAACATTCGAAATCCCAAAAATATGTTATAGATATGACTAATTAAAGTCTACCTAGTAAGCATCTGAATTTTATATTGAACTTAACGTTATTATTAAGGACATAGTTCTATTATCATCTAATTAGTCTCAAATCTAATATTTAGACTAAAACTAATCTATTATAATACTTTCGTTAAATTGATATTATTTCTCTATTATTACTCAATTTACATAAAAATATTTATACTTCTATTAACAATCAATTTTTAATTATTTAATTAATTATAAAGATATTATTAAATATTTTAAAATTAAGTACAAAATGTATTACAAGATTATTATTGCAAAAAATTAAGATAGAAAATCATTTGAGGATACTCTACTAACATGAGAAATATTAAAGTAAAAATAGAAATAAAATATATGCCGCCGCGGGGACTTGAACCCCGGACAACCCGGTCTTCAGCCGGGCGCTCTCCCGGGCTGAGCTACGGCGGCACTTAATTATATCTAAAGTCTTAAACTTAAAATTTTTGCCGAAATATTATGTAGGGGCTCGGCGACTCTCTAAGAGAAGCCCTTAAAAGGGCGCAATGAAATAGGGTCTCCAGGAGCCCCAACAATGAAGAAAATATTATTAGTTCAAATAAATAAGGTAGATAGACTTATTTTACAAAGCATAGTAGATGTATTATTAGAAAGAAAGTTTAGCGTAAATATATTTCCAGAAATATTTCATATATCCATAAACGCATATGATTGGAATGAAGACAAGTACATTTCAGATATTATTTTGAAAAAATTTCAAAGCAGGTTTAATAACTTTCCATTTGATATTATTATTGGAATTACAGATATAGACATCAATAATACAGATAATTTTTATATGAAAAATGGTAATATAGCTATTATACCTATTAAAAACATATTTAATAAAAATAACGTGAATCTTTCTATAGAAAGAATTAACAAAATAATATTTTACATTATAGGGATGTATAGTGGAATAGATAATTGCAAGAATTACTGCATAATGAAGGGATTTAAAAACATAGAAGAGCTTGACTCTTTACCTTTAGACTATTGTGATTCTTGTATGACTAGAATCAAACAAAATAACTATTGAAAATAAACTCTTATCTTAGTATAAAATTATCGATAGAGATAACGGTGAAATAATATTTGTTATCTATGTTACAGACGCTATTAAATATCTACAACAAATGTTATAGTATAGCTTCCGTCTTCATTCCGTTTAATTTCCATTTCGTTGTATGTCATAGCTTTAACTAAGGTTCTTCTCTCATGCTTGTTTTCATCGAATTTTTCTCCGCTTACTTTAGCTGACAATTTAATATTATCTAAGTCTATATTTACAGAAAATCTACTAAATAATAACAACTCTGTATCATAATAAAACAACAAAGCTTCAATCCATCTATACAGTAGATTTTCTAAATCAAATCCCTCTACTTCTATCTCCTTATCTACTTTAGGAACTACATGAGAAGTATCAGTCATAATTTCAAACACTGCTAATCCTGCGTTTTCAAAAGCTTCATTGATGTTTTTACCAAATGCTCTTATACCTACATCTGACGTATGATCGAAAAACTCGAATTTTTTCATACTAAAAGCTTTTTTACCTTATTGCTTTTAACTTTAATTGAAGAAAAATGGGAGGAAGACAAAAAACCACATTATTTATGACTAAAGAAGTAAGAAAGGAAAGAAGAACTACTACTTCTCAGCAAACTTCTTCGAAATAACTGACACGCTATAGTATATTATTATTGATAAAAATAAATCTGTAAATAAGTAATAAGAGTTTTTTGTAGATTCATATGTTATTACTATGTTGATTATTATTAAGATAAGTATAAATGTCTTACTTTTCATCTTTAATCACTAGAAAATCTCAATAGGAATTGGCAATCTAGACGAATATCCGCTAATAGCAGAACCTAATCCTATTGATAATCCAGCCAATATAGTTAGATATGCTGCAGGCAAAACGACTGTTCCTTCAACGTAAAATGGAATAGCCTCTGTAGCTAAGAAATTCAGAATATCACTAGCACTATTACTATTAACAGCAGGAGGATTAAGAACATTGACACCTAGTCCGGTCAGGAAATTAGGCAAGTAAGGTAAACCTATGTAAAATACTACTGCAAAACCTATCAATGCTCCACCTATACTCCTACCTATTCTAAAAGGTAATGACAAAAACAAAATTCCTAATGCTATAAATATTCCTACATTTTCATTTACCAGATACGATATTGTCAAAATAGTTTCCATAGTAGCAATCAAACCAGTTAAAAAAGAAAAGAAGATAGTTAATGGCGATAAGAAAATAGAAACTGCAGGATCTTGAGATATTGAAATTGTGGCATACAATGTTCTTATAAGGGTATAAATTTCTAACTCTTGTGCGATAACTTGATAAATCCAATTATAAAAACTAGTCCAATTTGATCCTATTATATTAGATATTTGTTGAGAAAAATACAATATAGCTTCAAAAGAATTAACTAAAACAGCGGAGTATATGCCATCTGATATTAGTTTAGGTCCCCATTTCTTTATTCCATATACCGGAATTGGACTACCCATTAATAATACTCCAATAAAATAGGTCAATATAGCTAAATTAAATGCTATGCCTAGAAAATAAAATGAGTTAAACATTTTCTCACCTTATATCTGACTTGCAACGTATGATACTAGACTAAATACTGTGGTACCTAAAGCTAACCAAAAAGCTGCTAATATTGCGTCTTCTATAAAATCTTGTCCAGTCCGTTTAATTTTAAATATTGGTATAGGCGAGCCTCTTATGGCCCATCCTATCGCCCATGCAAGGATAAATACACTCCAAGCTATTTCTGTTACTTGAGTAGTTATCTGTTGTACAAGAGTTTCAATACCTGTCATTACAATCTCCTTAACATATTAAATATGTTATAAATGATTCACAGAAGACTAAAACTAAATTACTAATAAAGATATTTAAGGTTAAAATAATTTAAATTAATAGAAAATAAATTCCTAATTCCTATTATAGGAATTATTTTCCTTTATTTCACTATATAATAAGCAAATATTATTTATCATTCATAAGATAATAAGTTACCTAATAATCACAAGAGATTTTAGATAGATAGATCTTTTGACGAAACATATCTAAGAATTATATCTATTATATTATCTACAGACATTCTTTCCGTATTAATACATAAATCAAAAACAGATAAATCTAAGAGATCTATACCATAATACTTCCAAAACCGTAAATAATGACTTTCTTCTCTAGCTATGACTTTTTGTATGGCTTCCGAATATGATATATTATCTCGCTTAGATATTCTCTTAGACCTTTCCTCTAATGAAGCCCAAATATATATATTATAATCCGCTATGTCTTTTAATAACCATCCAACTATATGAGATTCAACTACTACATTACCTTTACTAGCTATATCGAATATTTTTTTGTCGATCTCTTTATCTATAGAGAAATCTTTTTCCGCAGCTAAATTAAGATCAAGAACGTCTTTCCCTACATTTTTTGCCATATTTCTAAATAACTCTCCAGCGGAAATATAACTCAAATTAAGTTTATTAGATAAAATTTTAGCAATAGTAGTTTTCCCACTTCCAGAAGGACCACTAATTACAACAATCATGAAATTCCTCTCATGGAGGACTTTATAAGTTTCTCAAGACAGCTATGACAAATATATCCACCATATGGCCTTTCAGGACGTTTTTGAGTTTTACTAAATTTATTTACATTGTTTGTAACTGTGCCTCTAAGGGGTTTCTTACATATTGCACACACGGCAGGTGAATTTTTATGCCTTTCAAAATGTATACTAGATTTATTACTAGGTAATTTTATATGCACTTTTCTCCATGACCTAGATCTAAATTCAGGTTTGGTCATACTACTCAGTGTGAAAATATTTTTTATAGTTTAAATAATCTTCGGACGTCTTAGCGAAATAGGCGTGAATAACACAAATGATAATATAAATATTATCAGACTACCCAGTTCTAAATAATACTTATGACCAGAAATATGTGTTATAAATGGTATATTAAATGGTAAATATACTGGAACTGAAAAATACGTCAGAACTAAAAATAAATCTATCATATAAAAAACTATAAGCAATAAGGACTGAAAAAACGAGTACATATAAAGCTTTGAATTGTACGTCTTCATTTCAGGAGATATCTTCTTATATATTCTTTCTTTCCTTTTGTTTGAGACTACTTTACCTAAACGTTGATCATAATATTCTAATTTCTTTATAACGGAAATAAGCTTATTATATATGAATATTTTATAAAACACATAAATAGCGAAATTTGATAAAAAAGATATAGATATTATAAAAAATATAATAAAATTCATTTTACATCATAGAATCTATTATGACATTTGCCGCTACTCTTGGATCTCCTTCGACATTATTCACAATCTTTACTGACGCGCCTACTAGAACTGCAGAAGCTACTGCAGCGTATCTAGCAAAATTTATTGTTTCAGTAATTATCTCAATATTACTATAATCAGACCTTATTCTATCCTTATCCCTCGATTGTCGTTTTAAGATATTATTAGGATCACTTTCTATTAAAAATATTACGGTTGGTGATAATATTTCTATTATATGCTTTGGTAGTCCTGGTAAATACCCCGAATTAGTTCTTATAACAGCATGCGTATCTATAAAACTTAAACCTTTATCACCTAAATCTTCAGAATCTTTAACTATTTTCTTTGCTGCCTCCAATTGTAATTCCCTTTGCTTTGGTAAAGGAAGCTTCCTTATCTCGTCTCTATTATTTACATATTTTTGATCTAATGCTATATTTAGCATATAGTCTCCGTAATTCATTATCTTATATGGAATTTTCTTTTCCTTAAGTATCTCTGAGACCATTGATAATACAGTAGTTTTTCCTACTCCCGGTATCCCGGTTACTATACCCATTTTCATTAATTATTCACCTATAATTCTCTTTAATAAAGGATACATCTCTATTGATCTCTCATATGCTAATAAACTATAGTATTGCATTGCTATTGACACCGCTAATATTAGACCTACTCCAGTACCATACACTCCTAAAAACGTTGCAAATACTGCTATAAGACTAACAATAAGAGAACTAAAGAAAGCAAGAGGATATATATATCTAGCTAAAATAGCCTCAATCATTCTTGGACTACTTCTCATGCCTGGTATTTCTATACCTGCATCTGCTAATGATCTAGCTTGAGTAGCTGGATCCAAACCTGCTACCTCAACCCAAACTAAGCCAAACATTACTCCTAAAACTAGGAAGACTATAGCATAAATTAACGCGCCTAATGGATCTACTACTACTGCATAAACACTATGAGGTATAGTTGTATTAGGAGGTGGAAATACAAATGCCGAATCTATAGCGCTTAAAATCTTCTGAACACTAGGAGATACATAAGATGTGAGAGTAGAGAATAATTCTATATCAGCACCGAGTACACTTACAAATATTACTGGAATGCTACTTACATATAGAAAGTTAAGAGGTACTGTTCTTCTTATTCCCCTTAACTTTTGAGAGGTAACTGGAATATTTATGTTAATAGACTCTAGATATATGATAAGTATTGTAAGTCCTATTGTTGACACTAAACCTACTAGATCTGGCTGGAAAGGTTTAGTTGTATTAACTATTAGATCTAAAAGATTTCCGTGAGATATCAAAGTAGCAACTAAAGATGGGAAGAAACCTACAGGTAAATTCTGAGAAGAAACGGTTACAATACCAAACATATACCAAAACATTATTTTCATTACTCCTGCCAATATGAACAGACTAACGCCAGATCCTAGTCCCCAACCTTTCTGAATCATTTCGTCTAATAATAATATAAAGAACGTGGCTACTATTAGCTGGCCACCTATTATCAATGCAAAATTTAATCTTGAAACACCAGCTGATCCTGACAAAGCAAATCCAAATAGAAACGCTTCAATTATTATAAAAATGAACGCTAATCCTTTCTGGGCCTCAGTAAATGTTGCCCTATCATCTTCATTATTCAAATTTACATTTATAAGTTTAGATCCTACTAAAATTTGCATTATTAAACCAGCCGTTATTATCGGACCAATACCAAGTTGAGCTAATGTGCCAGCAGTAGAAGCAAAAATTACTTGCTCTAAAAGAAAATTACTAAAAAAAGAGGAATTAGACAATTGAAGACCATACAGTGGGACTGATGACATTACTAAATAAATTGCAACAGCTACTATAGACCAAATTAGCTTTTGATTTAAAGAAGGTTTCTGCTCCGGCTTAGTTACAGCCGGTAGAACTTGCCCAAGTTTAGCCAAGAAATCCGTAAATGACATAAACTCTCAAAAGACTTTTACCAAAACTAGTTTAAATATTCTATCATCAATACAAACTTCTTAAAAAAAGCTTTATTTTTCAGGAGATATAACCTGGCCGCCTATCTTCATAATCTTTTGCTTAGCTTTTTCACTTGCTTCAGCAATTTTTATTATAATAGGCATATTAACATTTCCACTACCTAATAATTTTTCATATCCATACTTGGTTAAATCAACAACGTTTTTACCGTCCTTTGACTCAATTTCAATTTTACCATTATCCAATAGATTACTTAATTGCCTTAGTGTTATAACCGCCTTAGTATATGACGTTGGATTAACAAATCCATGTTTACCGTACCAATCTTTACCATATTTCACTACCCATGACCATTTCTCTTTTCCCATGCCTATCTGTCTGCCTCCTTCCTTACCTCTATCTCTATGTTGGCCTTTTGCGCCCCATCCCATAGTTCTATGTCCTCTCATTTTCCTTGATTTTTTAGCTCTTCTTACCACCATTTAAATCATCCTCTCTATTAATTCGAGTATTTTATCCCCTCTATATCCAAATTCTCCACCAGTACCATAAGGCTTATTCACTTTACCTTTAAAACCTCCTCTTGGTGGATGCAAACGTATAGGCAATTTAAATAAATTATCGTATTTATTTACTATAACCTTACCTTCAAGAATACCTTGCTTCAAATCTTCTAAACTCATAGACAATTTTTCTTTTACAAAGTTTTCATTAACAAAATCTCCGTTAATAGTATGTATTCTACTTAATAGAAGATCTATAGCTTTATCATTAGCTTTACCCCATGTTATATAAGACTGGACTTTCATTAACATGCCTCTTATAGAGTCATTATCAGGATATATCATGGCATTAAATTGCTTCTTTAATCGCAACATTTCCAATGTTTCTTCTAGGTTCCATGGAGCAGATGCAGATCCTCTAATTCGAATAGCTATTATGGAGTTGCTCATTATACTGTTCACCTCTTCCTAGCCCAATCGGCCGGCGTAACAAATCTATATGTATTATATAGAGCATTATAACCAGCTTTTATAAAATTCTCTGTAGTTCGCGTTTCTCCGCTACTAAATGACCATACGTCCTTTAAACCAGCATATGTAAGTAAATTCTTTAGTATACTGCCTGCTACTAAACCTGTACCTTTTGGAGCTGGCCTTAAAACTACCTCTACACTTCCAGCTTTACCAGACACTGTAAAAGGAAGACTGTGAGGCTCTCCACATGTACATTCCCAACTACCGCATCCTCTTCTTACTGGAATTATATTCATTTTAGCATCTCTAACGGCTTTTTGGATAGCAACTCTAAGCTGCTTAGCTTTTCCATTCCCAATACTGACATAACCATCATAATTTCCCATTACAATCAAAACTTTATATCTAGATAACTCGCCAGCATCAGTTTGCTTCTGTACCATCCTTATATCTATAACTTCGTATTTCAAATTAGGAAGTAAAGCATCAACTATTTCCGGTTCTGCTATTGGAAGATTTTTTTCAAATAATTCCTTCATAGAAGTTATCTTTCCTTCCTTAACTAATACACCTACCTTAGTTCTAGGTTTCCATTCCTCTATATTTGATACAGGAACCTCTTCCGTCATAATTATCCACCCATACTTTTAATCTTATTTAAAGTCTCGTCAAAATGAGAGACTAAATCTTTAGGATTTAATCCTCTACCAAGATATCCAGAAAATATTCTATTAAACTTATCTGGATTTTCCTTTTCCAGCTTTTCTGCATAGTTTACTATATGCTTACCTTTTATTCTATCTTCGTCAAATTCCAGCTCATCCCCAATAGGTATATTTATTCCCGCATCCACACTGCCTTTGATGGCATAAAATATTCTTGAGCCTTTTATAGGAGTAAATAGGCCTATATCAGCAACTACACTAGAAATACCTGCTTTTTTGGCCCTAAGACCCAACAAATAGCCTGTCAAGTAAGCTGCAGAAGTATTATTACAGTCTCCCTTCCATCCATATTTCTTACATAATTCTATTGAATGAGCCATTACTACCGTACTATCTCCATTAGGATTAAACGCTACTATCTGCATAATTACATACTTATTAGTTAATCTAACGACAAGCCTAGTAGCTTTACTCAAAACATATGTATATCTTTTATAATAGTTAGTTTTTCCTTCTCTTCTTCTACTAAATTTCACTCTATAATTTGGACCTAAAGATACCATTAACTTTCACTCCTTTATTTTACCTGATTGCTTAAGCGAATTTCTAACATCGCCCAAACTCTTAAATGTACCGCCTTTAGCTTTTTTATAATATAACCTATAAGTACGCTCATCTATAGTCCCACTATCTCTTAGCCATTTAATATATTGTCTTATCTTCCTTATTCTATTTATCCATTCACTACGTGGTTGAACTCTAGCACCTTTTTTACCATTCTTACTACCTTGTCTTCTTCCTTCTCCTTTTATCCTTCTATTCTTACGCCTTAATTTAACTCTTGAATTACTTATACCACGTTTTTTCTCAATGATAATTTTTCCATCCGCTATCAATTTCTTAATATCTGACCTAGTCAAAGCATCTTTTATTTCATCTAAATTTTCTTCAGGTAACTTAACATTATTTATGCCAACATTCGCTATATCGGCAGCCAATCTTTTTTGTAAATATAGATCCGGCAACTTCTATCACCCATTAGCTACTCTTATTCCATACTCATTGGCCTTTTTAACAATTTCCATTCTTTTTCTTAATCCTAAATTACCATTTATTATTACAATAACATTATTTTTTTCATCTTCCCTTATTTTGGATAAATCATTAATATTAGAAACATACACTGGCTTTAGACCACTAGGATGAAAATATCTTATCATTTTTGGTTTAATATACCCAGTAGAGACTAACTTAGGAAATCCTTTAAGCCTTAGCCTAGATTTATTATCTATACCTCTAGGCCTTATCCACTTATTTTGCCTCTCTAATTTAAAGTATTTATCCCAGTCGTAACGTAAGAAATCTGGCTTTTTAGAACTATATTTAACTTTAAGCTCTCGTATCTTAGATGGTTCTAAAATATTTTTATTGCTCACTACCAACTACCTCCTTTTTATAGATATATATACCGTCGGAAAAAACTCTCCTATCGAAACCTTTTATTTTTGATGTAGATTCTATATTAGCTGCAGTTTGCGCAACTTTTTCTAAATCGGCTCCTTCGACTATTATATCTTCACCTTTTACTGTAACTTTTACTCCTTGTAAAATCTTTGCTCTTCTAATGTTTTTTTCGCCTATTAAATTTGTGATTTGCACTTCATTTCCTACTACTTTAACCGATGTTGGAAAATGCGTAAATATTATTTTTAAATAATATCTATAACCTTTAGTAACTCCTACAAAAATATTTTCAATCTCACGTTTTATGCTATATAAAGTAGCTTTTTGTTGTTTTGTGCCAAAAGTAGACTCGAAAATAATCTTATTGCCTACTAAATTCATTTGGATACCTTTTGCAAAAGAGAAATCCTTTTCTACTTCTGCCTTAGGACCTTTTATTACTATTTTATTATTACTAAGATTAACGGATATATTTTTTGGAATTTCTAACTCTTCATGAATTAAAGAGTACTGCATTTTATTCTCACCTTAGTATACATACCCTAAAGCATTACCGCCTATACGTAATCTAGCAGCATCTTTATGCGACATTACTCCTTTTGATGTAGACACTATTATTAAGCCTATTTCTTTTGAAGGAAGATAACGCCTAACATAGTCTGGCAAATTAATCATATCCCTATAGTTTAAAGAATATCTGGGAGTTATTGGGCCGCACTTATTAATTCTGCCTAGCAATTGTACGGTTATCTTTCCCCATCTACCGTCATCTATATATTCAAACTCTCCAACATAGCCTTCCTTTTGCATTACACGTAACACGTTAATTATCAATTTAGAAGCAGGCATTATTATAACCTGCTTATTTCTTCTTACTTCATTATTGTTAATGGAACTTAACGCATTTGTTAAAGGATTTAAAACTACCATTCAAATCACCTTAATTTCTTAAAACCTAAAGGACCAGCTACTTCTCTAAAGCATTGTCTACATAAATATATATCATATTTCTGAATCACAGAATCTGTACTACCACACCTTTTGCATACTTGTACTCCTTTTCCATGCTTCCTTTCTGCCGGAGGCTTAAATTTACCCATTTACATCACCATGCTTATATAATTGTAACACCTAATGTCTCCTTTAAAAAAGTCATTGCTTCCTCTTTACTTACTCTTTGGGACTTAGGTATACTACTTCTATTTCTCTTTCTTCTACCTATTCTATATCCAGGCTTTTCTAAGGTTATTGCGATATCCATGCCGAAAATACCAACTTCTGGATCATATCTAACACCAGGAATAACCACATGTTCTGCTATACCAAAACTAACATTCCCAGAATCATCAAAACTAGATGATTTTAATCTATAATTTATTGCAGGAAGAACTTTCTTTAGAAATTCAATTCCTTTATCCCTTCTTAGCGTAACTTTTACTCCTATTGGCTGCCCTTTTCTAACACCAAAATCTTTTATTGATTTTTTAGCTCTAGTATATACAGGTTTAGCTCCAGTTAACTCTTGTAACAAATTATATGCCTTTTCTAGCCTTTCTCCAGATTCTCCTAGACCAATGTTTACTGTAACCTTAACAAGTCTAGGCATCTGCATAGGATTTTTAGATAATTGTGTTTCTTCTGCCATTTTACTCCACCTTTATAACAGGCTGTGTAGTTCCTATAGCCATGATATTTTCTAAATTGCTCTCATAAGTTTTACCATCTTTAGATTGAATATTTACTACGCTATACACTCTTCTTTTATATTGAGACATTTGTATCTTACCTATTATGCCATGACGACCAGCGTTTTTACCTCCTATTATTATACCATAGTTTCCCTCCTTTAGCTCATATGTTTCAAGAATCTCTTGATTTGGAAGTGCTATTTTAAGAGTAGTTAATGTACTATATTTGTATTCGGCGATATTATCCTTTATAATTTGAATATTACGTCCACTATCTAAGTTAAGTTGCAAATCACCGTTTTTAACCAAAGATTTATTCAATATTCTAACAAGTTTAAAAGAAGACTCCTCTCTAGGTATCTCGATAGCCTTTAGGAATCTTGCGTTATCTGGAATAATTCTGTAATATAAATCTGCAGAAGGAATAGATATTACATCCATTAATCCAACTGGAAATCTATAATCTAATCTAACCTTTCCATCTACTAAGACTTCCCCAGAAGATATTATAGTCTTGGCTTCTTTTAACGTTACAGCCGCATGTATATAGTCCCTTAACAATATTGATAAAGGAACACTTTGATTAAGCGAATGAGCACCAGGTACTGTTCTAACAGTCCATTTATATTGCTTTTTACTTATAAGCAAAAACCATGGAGAAGCATTTCTTGTTATATGAACCATTATGATTCACCCTTAGGACTTTCATTAGTCTTCCTTTTTCTTTCAATTAAATCTTTTCTTTTGGAATCTGCAACATCTAACTTAGTTACAATAACCTTAGAAGCATGAATCCAAACATAAATAGGAGTTCCGTCAGCCTTTTTCCTAGTTAAGCCTTCTATAGCTACTCTGCCATTTTTAGTATCTACAGCTGCTACTTTACCTTCAAAGCCTGCGTGCTCTCCTCTAGCTACTTTAGCCGTATCCCCTTTTTTAACACTAATTCTGCTTATTCCATATTCTTTCTCTACTTCATCGGAAACTGGTGCAACAAGATTGACTTTTCTCTTATGATAAGCCATATTATATAGAATTTTCCTTTGCTTAGATGGTTTAGAAGTAACCATTAGTTTCACCTTAGCTAAATAATTAAAGTAGCCAAACTAGCTACTTTCGGCCATCTTTCAGCAGCTTCTCTAGCTACTGGACCTCTTACTTCCGTACCTTTAGGTGTCCCATCTGGATTAACTATAACCACTGCATTATCCTCAAATGAAATCCAGGTTCCATCTGCTCTTCTTAATGGCATTTTTTGCCTAATTATTACGGCTTTAAATTTCTGCTTCCTAACCTCAGGTGTACCTTTCCTTACAGATACAAAAACTAAATCTCCTACATTTGCGAAAGGCACCCTTCTTAACACACCTCTATATCCAAATACGCCTACTATAACAGCCTCTTTACCCCCACTATTATCCGACACTGTCACACTAGAATAATTCTGAAGAGCTGGAGTCCTTCCTTTTCTAGAACCTAACATTTGAAGTTTTTCTGACATTTATGCACCACCTACTTTTCCTACCACAACATAGGATACTGATTTGGCTATAGGTCTACATTCTGCTATTATAACGTTATCTCCCTCTTTAAGATTTAAACATGGAGGAACATGCACATGAATTCTGCTCCTTCTTCTCTCGTATCGCTTATATTTTGTATTATAATGAATATGACTTTTCTCAAAAACTCCTGTCTTATTAGCTCTAAGTTTTATTATTTTTCCTTCAAATATCATTCCTCTAACCTTTAACTTACCATGAAATGGACAATATTTATCATTGCACACACTTTCAGGCAAGCTTATGTTAGGAATTCCTATATTTTTACTCTGACTCACCTTAACCACCTTTTATTAACCCTTTTTGACGGTTTAGACACCAACTTACAACCAGAAATAATAATATGGCATCTTTTAAAATCTAACTCATAAAAACCATTGCTTTTCATTATCGTTAAATATCTATTACCAACCTTGATACGAAAAGTATTCTTAGTTTCAAAAACTATTATACCAGACGTTCCAATAAGAATAGGATTAGAATACCCCAAAATTTTTATCTTAAAACCTATAAAATCAATGCTTCTCTTCACGATGGCTATTCCTTTTTTTCTCATTAATAACTGTTTTAAGCCTTGCTATATTCTTTCTCATATTCCTAATAGACGCTGTGTCCTTTATTGTACCTACCCTAGCTTCGGCTCTTAATTTTATTAAATCAGCAATAGTATCTTGTAGCCTTTTATTTAGATCTTGAATTTCCAATTTTCTTATATCTTCTAGGAAATCATTGGTTTTGTGAGGCATTGACACCACCAGTTGTTCCAGATTCATCTATAAATTTAACATTTGTTATAGTTACTCCACCTTCTGTTGATTTAGGAGCTTCTCTAAATGTTATCTTATCTAATGGCTTCAATGGTTTAGTTATTACCACTTCGACTCCATATATACCCATTTTTAGAGTAGCTATAGCTATTGCCCTATCTACTAATAGATCAAGACTATTTCCTGACTTGTACACAGTACCTTCCTTTAGTTTCTCATATTTAGCTCTTTCCGATGTTATTTTCCCACTTACTATAACTTCTGCACCCATTGCGCCAGCATTCATTATTCTCCTTATTGTTATAAAAGCTGCCCTCCTAAAGTGATAACCCTTTTCTAATGTAACTGCAAGCCTAAATGCCATTACTCTAGCATTAAGTTCTGGATTTTCTACATTTGTAACTGTAATTTGCGGATTTTCTAAGTTGAAGAATTTTTCCAAGACTTGTGCCAATTGCTTTATAGTTCTACCACCTTTTCCTATTATCATTGCTGGCCTATTAGCATAGATTATAACTCTAGTTCCTATTGGAGTTTTTATTATATCTGTTCCTGCATATTCTGCCATATAGAATTGCTTAGCTAGATATTCATCTACCATAACTTTTACCATAGATTTTTGTAAAAAATATTTCCTAACATTTACCATTTATATCACACCTCTGCAACTATAACTTCTATATGTGATGTTCTTCTATTTTTTGCAGTAGCTCGCCCAAAAGCTCTAGGCATATATCTTTTCAATATTAACCCTTTATGAGCTGCAATATGAACTATCTTTAGACTATCTGGATCTAGACCTTTTGACACAGCATTAGCTTCAGCATTTTCTAAAGTTTTAAGAACGTACTTTGCAGCCTTTATAGGATATCTGCCATCTTTAATATGCCATTTAGTTTCTAACCCTGATTTATGTGAGGCTCCAGTAGAATATCTCCAATAAGGTACTGCTTCCTTCTTCTCTATTACCTGGTCCAGATACTTTTTAGCATCTTGCAATTTTTTACCACGAATTGCTTTACATACATTATAAAGATCTTTAATAGATACTGATACGTTTCTACTTACTGCTTTGCCTTGTTTGGTTTCGTCTATATTTAATAATGGATAATTCCATCCGCTCATTTTTATCCCTTCATAGCTAGGAATAGACTTGATCTTGTAGCCTTTAATCCAGGCTCTCCATGCTCTACTTTCTTTGTGCTTATTGAGAATTCCCCAAGGTAATGGCCTATCATTTCTGGAACTATCTGAACTTCTACGAATTCTTTACCATTATATATACCGAATTTTAGTCCAACCATTTCAGGCAATATTACCAAATCTCTAACGTGAGTCTTTATAGTCTTGTCTAAATTACCCTGCCTTCTAAGTTTTCTTATTTTCTCTAGAAGCCTACGTTGATGATTATTAAAGCCTCTAACTAGTGATCTTCTTTGCCTGGATGGAAGCAATTTTATGAACTCATCCATAGGCATTTCGATTAACTCGTCCAAATTTTTACCTCTATATGTAAACTTTTTCCATTCGGGCGGAAACTCAATTGACATTAAAACTCACTCCTTTTATAAGCTTATAAAATTTCACTTTCTTTCCTTCCTCCCTGTTCTTCTAGCTGCTATATGGCCTACTTTTCTTCCTGGCGGTGCGTTTCTAGATACTGTACTAGATCTACTTACACTAGCATGTAATCCACCACCGTGTGGATGATCTACAACGTTCATTGCTACTCCTCTAACATGTGGCCATACCTTAGCTTTGACTTTATATTTCCAATAGTTATTCCCTGCTTTTAATAAAGGTTTTTCTAGAGCTCCGCCTCCAGCTATTACACCTATAGTAGCAAGAGCATTATACATAACCTCTTTTATTTTTCCAGAAGGCATTCTAATTAAGACCTTATTTCCAGCTTTACCAACTATTATGGCATAAGACCCTGCAGACCTAGCATAACGTCCACCATCGCCCCTATATTTTTCTACATTAGAAATCATTGTACCTTCAGGTAAACTTCCAACTTCGACTATATTACCCAAGGATGAAGGAGCACCTTTCCCTATTTCTATTTTCTGATTAATAACTAATCCTTGTACAGCTTGAGTGTAAAACGAAGTACCATCTTCTAACTTAACTTTAGCCACCGGCGCTAGCATACCAGGATTATGAATTATGTCAATTACTTTGCCTATCTGATATCTAACAACACTAGGATATCTTACCTTTCCAACCCTAAGCCATCCCGGATTTCTAAAATTTATATTACCTCTTCCAGCTCTTTGTTGTAATAATTTTTTACCCATTTATTATCACCTTTATAATATTCCTAATTTATGAGCTACATCTAATGCCTTAAATTCTGGTTTTAACTTAATATATGCCTTCTTCTCGCCGGTAGGAGATATACTCACATTTATCTTAGCTACCTTAACGCTGAACATTTTTTCTATTTCAGACTTTATCTGAGTTTTAGTTGAACTTTTATTTACCACAAGCACTATAGTATTTGTGGATTCTATCAATTTCGTAGCTTTTTCTGTTGCTAAAGGTTCTATTATTACGCTCATAATAATCCACCTAATCTTCTGTTAAGTATATCTAGTGAGCTCTCAGTATATATAGTAAGTCTTCCTGGCTGAGCACCAGGAGCTAAATGAATAACACTAACAATACCTGCATTAACAACATCAACTCCTGGTATATTTTTAGCTGCTAATAATAGCTTGCTAACATCATGCGAAATTATTAGTGGACCTACTGGAATTTTGTATTTTCTTCCTCTCATTTTACCTTTTCCGGCTCTTATCTTTATTCCATCCTTAACTCTATATACGTCGTCTATAACTTTTATTTTACTTAATACTGATAGTAGCTCTTTTGGTTTACTTATACTTGCTAGCTCGTCAGTTACAACTATAGGTAAATTATCAATAGTAAATTTATGGCCTCTCGACGTAACAAATAATTTATCTGCAGTAGCTGAAATAGCACTAATAGTAGCTAGTCTTTTCTCCTTCTCATTTATTTCTTCTATAATCTTCTCTCTTAATGTGGGTGGGAAAGCAGCCCTACCTCCTACAGTATTGGGTGCTAATGCACCTTCTCCTGTAGTTCTTATTCTAGGAACTCTTGCTAAACCTAAATTTATTCCGAAACTAGAAGCCGGCGTTCTTTTACCCGCCATAGGATCTCTTGCCTTAGGCTGCAATGATCTTGTAAGTGAAGCATAAAATGCACGTCTAATCAAATCTTTTCTTACTGGATAGCTAAAAATTAATGGAAGTTCTATTTCCTTTAAACTACTACCGTCCAAACTCAAAATATTTGATTTCCTTACTTGTAATTCATAATACATTTAATTTCACCCTTGCTTACTGTTTAGATCTATATATGTAATGTTTTGTGGTGTAGGAGTTATCTCGTATGGTCTGATTGCATAACGTAAAAATAAAGGTCTTTTCCTTACGCCTATAGTAGATCCTTTAAGTAAAATATATGTATTCCTAACTTGTCCATATTTAACAAAACCGCCTTTAGGATTTATCTCATCTATCTTGTCACTTATTTTCAATATAAGCTTATTATATTCAGTTCTTCTATGGAATCCCATTTGCCCAGGCTGAGGAACATAACTAGGTGTTCCTAAGGAAGGACCCTTCGTACCTACTTTCCTACTTCCTTTCCTATGCTTATGCCATCTAGGTAATTCCTGTACGCTATATCTTTTTACAACCCCTTCAAAGCCTTTACCTTTTGTTACACCTATTATATCAATTAATTGGCCTTCTTTGAGCACAGAATTCACTGTCATGGGCTTACCCAGTATACTTAGAGCATAATCTAATTGAGCATTTAAAGTTCCTCCACCTATTTGAATTTCTGTAATGTCTGGAGTCTTCTTACCCAACGCAGGTACTAGTTTAGGTTGAGTTGCAACAATTAGCCTTAAAAATAATAAATTATTTATGTTATCCTTTATCTTATTTAGGAAAGCGCTTTGCTTTTCTGAATTTATCTTTATATTCCTTATTCTTCTTTCCAAATGTATATCAGAAGGCAAATTTGCCCAATATTCTGTAATGCTAGCAGGTTCTCCTTTACTAGTTATTCCATATGCCTTTATTGCTAAAGGAAGTATTGGAGGAGTTTCTATAACAGTAGATGGCACGAATATTTCCTTGCCAAAATTATCAGATCCTCTCGTATTATCTATCATATAAACATGAGTCATTCCTACCTTGTATCCTACAAATCCTAATAACGTCGGATTCTCATAGTTAACTATTGGCCAAGATCTAGGAGTAGGCAAGATTTCTTCTGCCCTTTTCCTAGGTCTTAGACCTGAGGAACCTCTTCTAGGTGATGCAAGCTTACGATGTCCCAATCCCTATCCCCTTTTCTCTTATTCCATGCTTCTCGCTGGTTATAAATGTATCTATTCTATTATAAGATTTAAAATGGAAAGCGAAGATATTAGAGCCTCTTCTGTCCTAATATCTGATACACCTTGTTTTGGAATAAAGTTATATGACTTAATAAGAAATTCTAAGCCTAATGTATTTAGTAAATTCCCCTTAGGCGGCCCAATTAATAGAGTTATCCCATTTTTTTCATATAAATCATTTATTTCTCTTTTATGCAAAAAAGGGTCTTTCCCATTTCTACTACCTATTATCAAATTCTTTTTGGTTTTTATGCTGTCTAAATCACATTTTATGAGTTTAAATCCAGAATAATATATATAAGGATATTTTATATAGTCAAGTTCAACTGAATCCAAGATTAATACTGAAGAATCTTTTATATTTAAGTTACGCTTAAGACCAAAATCTCCTCCTTTACCTATCCTAACTTCGCCTTCTGTTGGTAATCTATGCACAATATGAGAATAAATATTCATTGGAGATAGTAAGCCAACCTTACTAAGTTCTTTTTGTCTTGGAATTGTTCTCTTTAAATATGGAGGTAATATGGCATAATCAAAGATCTTTCTTATAATATTATACAATTTGGGTGAGTCATTAATAATATATAATTTAGATACTCTAAATATTAGAAGATATCTAAAAATTTCAGAAACTTTAAGAGTCACCTCTTCTATTGACGATTCAACACTTAATATGGAAGAAAATAAGGCTACATTTAGTTCCTTTCTCCTTGGAAATTCAAACATTGTTAAACCTTTTTTATTCCAATTGTATATTTCTCATCCTCAATATCCCAATCATTGATAAGTTCGCCTTCTATTTTATTAGTTACAACATCTACGGCTCTTGTTTCAGACTTTATATAATCTTTCCACTTGTTTATGATCGAATATTTATCTTCTGGAGATTGTATATAAACTAGTATATTATCTAGAACATTAAGATTCATACTCTTTCTCATAAACTGGATTCTTCTTATTAAATCTCTGATTATGCCCTCCTCTTCCTCTTCTTTACTCAATTCTTTACTTATTGCTATAGCACCTTTATCAAATCGTGCAATAGTATATCCCTCAATTACAGATTCCCTTATAGTAACATGAGTTAAATTGAGTGAAACCTCAGTACCGTCTAACATAAAGGTATGAGTTCCCTTTTCAAGAATATCTTTTGCTACTATCTCTGAATTTTGATTAATATATTGTACTATTTTAGGCGTATTTTGTCTAAATTCTTTGCCTATAGATCCTGAATTTGGATCAGCAACAACTTTACTAAATGACTTAAGGGACTCTATCCCCATTATCTCTAAGTTTTTCACATTAAGAGTAGATTTTAGAATGTCAGTAACCAGACCTATAGACTTTATATCATTTTCAGAATTTAGAAATACGTACGCAGATTTTAACGGCCATCTTAATTTTATACCAGCACGAGCTCTAGCATTTAAACCTGCTTCGTTTATCTCTTTAACTAAATTTATAGCATATTCAAGCTCGTCATTTATTAATTCGTTTTGAGCTTCCGGTATTGACTCCATACTTACTGATAATTTGCCATTTATTACAAACTCCTTGTATATTTTCTCTGCGGTATAGGGAATGACTGACGATGCTAAAATTATCCAGTTTTTCAGAATATAATACAATATATAATACATTGCTATTTTAGATGGGTCGTTAGACTCTATCCATGCTCTATTCCTTATTAGCCTTAAGTAGAATCTACTTACATCGTCCACTAAAAACTGAATTATAGCATTAGCTAGCTCATGAACTTTATAATATTTCATAGACTCTTTTATTCCTTTCAATACTCTATTAAATCTAGAAAGTATCCAGTAATCTTCTATCTTTAGAGCATTTTTTATATCATTAAACGTATATTTTTCTGGATTAAAATTATCTAAACTCATATACATACTTGCAAAAACATAAACATTCCAGACTACTTGTAAATCACGCTTTGTTAGTTCTATAGATTTCCAAGAAAATTTGGCGTCTTCCCATGTAGTATTCTTTAATAGCCATAGTCTTAAAACATCTCTTCCATATTTATCTATAACGACTGAAGGTTCTACATAATTACCTAAACTTTTGTGCATTTCTCTTCCTTGTTCGTCTAGCATAAATCCGTGGACTAATACCGATTTGTATGGAGCCTTATCATCTAATATAACCCCAGATCTTAACAAACTAAAGAACCAGCCTCTAAGCTGATCATGCCCTTCTAGAACTAGATCCACAGGAGACAATTTTTCCCATTTTTCTTTCCAATTTTCGCCCAAACTAGCAAAGAACGCTACACCGCTATCAAACCATACGTCAGCTACATCAGGAACTCTATAAGCTTCTTCACCGCATATAGGGCACTTTAACTTAACATTATCTATCCACGGCTTATGAAGATCATTAGGAACACTGTCTATTGCTAACTTCTTTAATTCTTCCACACTACCTACGACAGTTACATGATTATTCTTACAAATCCAGATTGGTAAAGGATTTCCCCAAAATCTCTGTCTACTTATTACCCAATCTCTAAGTTCTTTTACCATGTTACCTATTCTCGTCTTACCCCAATCAGGAATCCACTCTACATTATTTATCTCATTTAATAATTCCTGTTTTACCTTGGTTACCTTAATAAACCATTGTTGAATAGCCCTTAATATTAAAGGAGTCTTACATCTCCAGCATATTGGATATCTGTGAACAATCTTCGTACTAATTAATAATGCGTTTCTAGCTTTTAGGTCTTCAATTATTTCTATTGAAGCATCCCTAACATATTTACCCTTATACTTTCCTGCTTGTTCTGTCATATTTCCTCTATCATCTACTAACATAACTATTGGGGAACCGATTCTTTTTCCTAAATCAAAGTCTACATCTCCGTGACCAGGAGCTGAGTGAACTAATCCAGTACCGTCTTCTAAACTCACTAAATTTCCTCCATCTACTACTTTATGATATGCATCTAGATTATTTTGTGCAGGTACAAGATCTTTTAATGGATTCTCGTAATTGAGGCCTAGTAATTCCTCTCCTTTATACACTTTTAATACTTTATAATTGGAAATCTTAGCTTCAGTCATTACGTTCTTTACTCTCTCTTCAGCTATTACATAGATCTCATTGCCTACCTCAACATCGGCATAATTATAATCCTTATTTATCATAACAAAGACATTAGCAGGTAACGTCCAAGGCGTAGTTGTCCATATTATTAGATACCTATTATTTTGACCTTTTATCTTAAACTTCACATAAATTGATGGATCTTCTTGGTCCCTATATTCGGATACTTCATAGTCAGATAATGTAGTCTCACAACGCGGACACCAATGAAGAACCTCTACGTCTTTTTCTAATAGTCCTTTTTCATAGGCTTTCTTTACAATTGCCCAAGAATTACTTATGTATGTGCTATCAAGAGTATAGTAAGGTTTATTCCAATCCATGAAAACTCCTATATTCATGAAATTTTGCGTCATAGAAGACGCATTTTTCAATGCAAAATCTTTACACAATGAAACAAACTTATCTACGCCCACTTTGTCTATAATATCTTGCTTTTTAGTTATCCCTAGTTGCTTTTCTACCGCAACTTCTATAGGAAGACCATGCGTATCATAACCAGGCTGATCGTAAACTCTAAAACCACTGAGTCTTTCATATCGTAAAATACAGTCTTTTATCACTTTATTCCATATAGTTCCTATATGTGGTATAGGAGCAGATGGATAAGGAGGACCATCTATAAATAGGAACTTAGTCTTATTCTGAGAATTATATTCCTTTAACTTCGAATATACATTAGCTTTACTCCAAAAATCTATTATCTCGTTCTCTATTTCTTTTAAATCAAATTTATTTTCTAAAGGCCTTATTGAGGATAATTCGGTCCACCTACCTACTATTACTGCTAAGCTTTAAAAATATGACTCAATAATTGAGCAAATGAGATCACTTAATCCTTTGATATATTACGTCAGACATTTGGCTAAGCTTAGTGTTACCTCCTACATCAATCGTAGTATATTTATTCTCACTATATACTGAAATTATAGAATCTAGCAAAGAATTAGATGCTTTTAGATATCTATTATCTTTAGATTTATCATATAGATATTCGAATAACATTGACACAGATAAGAGAAATGCCGTCGGATTAGCTATATCTTTCCCAGCTATGTCAAACGCGGCTCCGTGAACTGGCTCGAATAAAGCTTTATTATCGCCTATATTAGCAGAAGGAGCTAAACCTAAACTACCTGCTATTTGTGCTGCTTCGTCACTTAAAATATCGCCATAAACATTAGTCGTTACTATAACATCAAACATGTTAGGATTTCTAACTAGATTAGCGGCAGCAGCGTCAACATACATTTCATTATACTCTATTCCCTTAATGACATTTCTGCAAGCTTTTGCAAAAAGCCCATCCGTAATTCTCATTACATTGGCTTTATGTACACATGTAACTTTCTTTTTACGTTTAACAGCATAGTTTAGAGCAACATGAGCTATTCTCTCAGAAGCTTTTCTGGTTATTATTTTCATTCCTACTGCAGAATCGTTATCTATTAAGTACTCATATCCCTTATATAGATCTTCAGTATTTTCTCTAACTATGAGGATATCTACATTGCTATATTTAGACTGAACGTTAGGCAAAGTCTTTGCTGGTCTTATGTTAGCGTACATATCATACATTTGCCGTAGTTTAACTACTACGTCCATAGCACTTTCGCCTACTGGCCCCTTTAAAATTACATCAGCCTTATTGATTACATCTATAGTCTGCTGAGGCAACGCTGTACCATATTTAGCTAAAGCCGAATCACCTGCTTCAACTTCAATTATATCTATCTTAAGATCATAGTTCTCTATTAATTTTCCTAAAATTCTCTTGCTAGCGTTTACTATTTCAGGTCCTACACCATCTCCTGGGATTAACGCTAATATAAAGCTCATAATGGAGAATAGCTATTCTAATTTATAACCTTTAGAGACTATCTTATTTTCCAGATCTCTTATTATATCTTCCATATCTGGTGAAAGTCTTTTAGAAGTTTTCAATTCATAGTTTATTATATTAAGTAATTTCAATACTTCCTTATTTGGCAAAATATCTAATCTTGTAAAATGAACTAGTGCATCTATTAGTAATGAGTATCCTCTACTAAATCCTCTATGCACATTACTTCCAATTTCTATACTATATGGATCTAATAGAAATATACTAGGATTATCGTTATTTAATTTTATACACTTAGCAAATATTATTTCGTATATCGATTCATCATTTATTATAGGTAAGGCATTTTTTATGGTATAATTTATATTGCCAAATAGAGAATTGTAAAATATTCGCGGATTGTCTGTAATATGAATAGAGCACTTAGGAATTTTTGATATATTTGAATATGTTAAAGTATTTCTATATATTTTAGCCGAAATATTATCTCCCTCTCTTATAATTCCTATTGGAGATAAATTATTCAAAACGCCAGTACTACCTAAAATACTCTCATAAACGCCATCTTTTGGAAAAATATCTTTAATATTAATTTGGATCATTATGAATCTAATGATTTATGAAAGGATAAAAGAGCTTTCAAGTATGGGCGAAATTGTAGCTGGAGATCAAAAGGAAAGAAAACTTATAAGCAAATTTGAAAAGATGTTTTCTAATATAGATGATAGGAAAATAGTTCCAATAGAAGTACTAAATTATAGTTCTGAAACATATATGGAAGGAGAAAAGAAAATAGAAGCAATCTCACTTCCATATTCTCCAGATATAGATTTTGATGGGAAAATAGTAAGAGATTTCAAATCTTGTAACAATTCTGGAATACTAATTATTTTAGATAATCTATATGATATAAATAAATTTTATATAAAAGCACTAGAAAATCAATGTCAATTCATAGTATTCACATTGGACAATAACCTTAGAAAATATGTCGTAAAAACTCCCCCTTTTCTTAATTTATCAGCATCAATTCCGCCTCCAATACCTGCTTTTTATATAAGGAAAAATGATTTGGATTATATAAGAGAAAAAATCTCTATTAAAAATTTAACCAAAATAAAAAGGACAACTGGTTATATATTTGAAATAATTAAAAATGCAAAAAAAGATGATAAGATATATGTATCAGCTCATCATGATCATTGGTTTACGGGTGAGCATGATAATTTAGCTTCTCTTGCATTATTCCCAGAAATAGAAAGCAGTATCTATGAATTGCATCTAATAACGTTTACCGCAGAAGAAGCTGGAGCATTAGGATATAGTTCTTTTTCATGGAGTTTTGGGTCAAGATATTATTTAGATAATGTAGTAAAAAATTTAGATAATATAATATTAAATATTAATTTAGATAATATAAACCCTTTTAGTCCTGTAGTAAAAATCTCACCTGGATTATTCACTTTATCCACTAAATATTTTAATGTAAAAAGGGAAATTGAAATATATAGTGACGGATATAGTTTTTTCAAGAAAGGAATTCCTTCACTTACTATTGAAGGAATTAATCCAAACTATCATAGCGATAATGATACTGTGAATAAAGATGAAGAAAAAGGGTTTTACGATATATTACATAAAATTAATACAATATTAAATACTGAAATTGTAATAGACAATTTAGAAATAAAAGAGAATCTAGTTAATATCATGGAAAATTTACCATTACCGTTAAGAGTAAATCTAGTTAATATCACAAACAATACGTTTTTGGATAAGAAGCCCACAAGCATATATAAACTGTATGGTGGAATATACAACTTTCAGGAAAGATATGCTAAAGTTAAACCTTTTCCGCTAATTTTAGGATTGGATTCTGTTAGAGCGAATACATCTAAGGTTTTTATAGAAGGAAAACCCAGCATGGAACTTAGGCCAGTTGATAAGGAATATTATGCACATCTTATGGAACAATTTATAGACTATTATATAAATAGCATTCATGAATTATCAAAAGATATCTTGTAAGCTTTTTATATTCCTAATAACTAGGTCAGCATAAAGTTCGGCAAATTTAACTTTATTTTGTCTATCTATAAGTATGGAATTTAGGCCAGCTTTTTTTGCCGCAAGACAATCCTTTACAGGATCATCCCCTACCATCACGCACTGATCAGAACTAAGGCTTAATTTCTCACATCCTACTATAAAAGGTTGAACACTAGGTTTCGGTTTTATATTATTTTCTCCACCTATCACTATTATATCAAAATATTTGATGAGAGGAAAATTTTCTAACCGTCTAGATTTACTTCCTCCTTCTCCATCACTATTAGTTATTATGCCAAGTTTATATCCTTTCTTCTTCAGAAAATCTAACGTATCTTGAACGTCATCGAACACTTTTGTATCACTAGCTATTGACCAATATAATGATACCCATTCAAAAATTTGCTCTTTATTTACTGATATTCCGAGTTTTTCAAGAATTTTTTCAATCCATATTGTCCTATCATATACTCCTTCAGAATCTAATTTGCATGAAATAGATGTTACTATCTCATTTATTTCTGAGCTAGAAATATTTAGCGAAAGATTATTGTCAATTAAATATGTATATAATTCTTTAGATAATACGTCTAAAGCTCTCTTAGAATTAGTTTCAAAATCTACTAGCGTATTATCAAAATCAAAAAATATGGCTCTAATTTTTTCAAATTCGTTATAGTCTTCCATATATTTTCACGATAAAAAGTCCTCTGGCTTTGGCAATTCTTTTGGTAGTCCTTTTCTCTCTCTAATTTTCATTATAACGTCTACTAGTAAGCTATCTGGAACTGGCGCCCATCTACTGAACTCTGTTCCCCAAAAAGCTCTACCTCCTGTTGATCCTCTTAAATCGCTAGCTATTTCATAAGATTCTGCCACTGGTATCTCGGCCGCTATTCTTGCTGCACTACCTACTTGAGACATATTCAATATTTTACCTCTTTTTCTAGTTAATACTGAAGTAACATTACCTACTAAATCCATTGGAACTCTTATATCTAGCTTTTGTATGGGCTCCAATAAAGTTGGTTTTGCAGTTAAGAAACCTGCAAATATTGCATTTCTAACTGCTGGAAATATCTGTGCTGGACCTCTATGCGCAGGATCTTCATGTATAACGGCATCATGTAATGTCACTTTTAATCCTCTAACTGGCTCATGAGCTAATGGGCCTTCTTTCATAGCTAACCTAAATCCTTGAAGTAAAGTGTCTATTATTTCTCTCAGATGCTGAATACCGCTTGTCATGTCTACAAATACATTTACATTTTCATCTATAGCAATTATCTTCTTCGCTTCGTCATAATCCCATTCAGCCTGATCCCTTAAAATCTTAGCCATTTCTTTAGAATCCATATCTTCTTTTATAGTGCCATTTGCTATTAGATCAACTGTCTTATCGTTTAATGGTTCTACGCTAATATAGAATTTATTATGCTTATTTGGAGACTTTCCTTCAAATACTTGACTTTTTGCCCTTATACTTTCTCTATACACTACAATTGGAGGACTAGTTACAACGTCCACGCCATAATTGTCCTTAAGTAATTGTAATGATACTTCCACATGAAGGAATCCCATCCCAGATACTAAATACTCTCCAGTTTCTTCATTTATTTTTACAACTAAATTAGGATCTTCTATGCTTAACTTTCTTAATGCATCAATCATCTTGGTTAGATCCTTAGGATTTTTGGGCTCAATAGCTACCGTTACTACAGGTTCAGAAACATAATGCAACGTCTCAAAGCTACCTTGTAAAGCCTTATATTCTGGGGCTATTAATGTCTCACCAGCTCTAGCCTTGTCTAAGCCTAATGCTGCGGCAATATTTCCTGCAGGTATTTCATCCGCTAATTCTCTAAACTGTCCCATATATATACTTACTTGCAGAACCTTTTGAGGAGCTTTAGCGTTAACCAACCATACCTCTTCTCCTGATCTGAGAGTACCTGAGAATACTCTTCCAGTAGCTACTAAACCTGCATGTGGATCTACTTTCATGTCTGTTATCATCATAACTATAGGTCCATTAGGATCAGAGTTTAACATTGCCTTAGCTAATTCATTATTAAGGTCTCCTTTCCAAATCTTAGGAATTCTATACTTTTGAGCTTCTATAGGATTTGGAATAAATTTAATTACAGTATCTAAAAGTGCCTCATTTATAGGAACTTGATTAGCTAGTTCTTCAAGTTTTGATTTATCTGGTGCAGTATATGCGTCAATAACATTCTTCATGTTAATTCCTTTCTTCTGTGCAATAGGTAAACTAAATCCCCATTTGTCCTTTGCGGATCCAAAAACTACGTTACCTGCAGTAGGGTTAATCATCCATTTTTCTTTAAATTCTGGTTCCGCATATATGTCTATAAGATTATTAACTTCTTTTATTATGTCAAGTAACTTCTGCATCATTTCTTGAGGTCCTAATTTAAGTTCCTTTATCAATCTGTCAACCTTATTTATAAATAGAATTGGTCTAACTCTTTCTTCTAGGCTTTGACGTAGTACAGTTTCAGTCTGAGTCATTACACCTTCTACTGAATCGACTACGACTATCGATCCGTCTAAAACTCTCAAACTTCTTGTGACTCTACCACTAAAATCGACATGACCTGGAGTATCTATTAAGTTAATTACATAACCCTTGTTCTCAAATTCATGATAAAGGCTTACGTTTGCAGCTTTTACCGTTATACCTCTTTGTTGTTCAACCGATAAATAATCCAATGCTAATGCTTCACCAGCTACTTTAGGAGAAATTATACCAGATGCAGCAAGCAGTTGATCGCTTGTAGTAGTCTTTCCATGATCTACATGAGCTATTATTCCTATATTTCTAACTCTTTCCCTATCTTTCATCAAACCTAGTACTTCTTCTGTTGTTTTGAATCTAGGCAATTATATCACCAAACGTAACCTAACTACTAGTTTATATAAGTACTATTAAAAGGTGACTATCAAGTTTTTTGACCTTATTTTCAAATAAAATCTAACAATGATTTCTTACTATTATTCTCTGAAGACGAATAAGGGGTGTTAATTATTTTATATATTTCTTCCGCTTTTTTCCTGCTTCCTATGGCCTTCTCTATGTCCGAAATATTAGCATTACAAATATTTTTTATTGTGCCAAATTTTTCAAGTAGTTTTTTAGCTAATATTTCACCAATTTGAGGAAAAGACTCTACTATATATTCTTGTTCTTCCTTTATATTCTCAAATTTTGGTTTATCATGAAGACTAATACTCTTTTTCTTATTGTCATTTAGCTGAAATTTTTCAGCAAGTTTCTTTAAGATTTCAGCCGATTCCTGTTTATCTATCGAATAAATAACTCTTAAATTTTGAATGGTCATTACAGAAATTAGTGCTGAATTTACAGCTTTCCAGTTATTAGTTATTTTATATATTCTGTTTAAATTACCTTCTATTAGCAAAAAAGATATATCATATGAGCTCGTAAGTCTCCCTATCTGATCAAAAAATCTCTTATCAAATATAGAATTCACTAAGTCTATAACGCTTTTTCTTTCAACTGCTATATTATCACCGACTATATAATCTCCTACGGAAAGTTGCCTTAAAAAAACTGTTATACCTAGGCTACGTAGAATGCTTGGAATGCCACTAGCTTCTTCTCTATCATCGGCATAGATCCTTATCATTATACTTTACATACATTAACGACTGTTTTTAAGCTTTTGGAGGAACTGTTGATGAACCTCCTTGTGGATAATAACGTTGTAATAATTCATTAACTTTTCTTTGAAGATCATCAAATTGTTTTTTAAGTAAATCTTCCTGTTTTTGATAAGTTCTTGATCTAAGTTCTAAAATTTCCTTTCTATCACTTAACTCTTTCTCTATTGTAGACTTATCTTTCTTAACCAATAAGTTCCCTAGAATTTTATATATGATAGTATCTGCGGGTAATGTAGACAATTCTTCTAGGACTTTATTTACTTCCCTTAGCTCACTATCTATAACACTTTTTTCATACCCTAATCTTTCCAATTGACTTTGGAGTTGTTGTAGCTTTAATAACTGAGTCTGAACTTCAGGAGGTAATTTTTCTGCCATTTATTTCACCTCTTCTATTACTCTCAGAATCGTATATATCCAGAATATATAAGAATTCATTATAGCTCTTCCTCTTGTTATACTAGGAGATTTAATATCTATCTTAAATGGTGAACTTGATATAGAAATATAATTTAAATCTATTTTTTCCAATAAAATGGATTTAGACACTATATTTTCAATATCTTTTGGAAGATCTTTTAACTCAAGTGAAATCGTGATCATATTAAAAGCCTCATCGAAAGACCTATTTTATATCCTTTAAGGTCAGTAAAATATATTTCGCATTCTTTCTCACTTAGTTTAATTATATTTAAAAATGATTCACATCTTGTTAATCTAAAAAGATTTATATCTGTGATAAAATCCATAATCTTTGTACATTCCATTTTATTTATACATGGATTTCTAGGTATTTTTTTGTCTTTAATGTCAGAAACTAGGGATATACTACTAATTCGAAATTTATATTTCAATAGAATTGCATTATACGAGATACTATATAATTCCAAATATGAAGGATTACCTTTATACGTAAGAATAAATAACAAAAACCTAGCTCCAATATCGTACGATATATGAAGAATTTGTTTAAAGCTTTGCCTACCCCTATTTATTTTTAGAGAATTAGGTATTATAAGTTCTAATTCATTCAAAAAACTTCTAGTTCTTTTAGACGCATCCCTAGAGGATGTTATTATTATATCAGTACGGGGTGTATGCAAGACCAGCCCATTTAGCTCCACATTTTTTGCAATACCATATGCCTGATGATATTCGTACTACTTTACCAGAACTTTTACAAACTGGACATTGATACTCTGCATATCTTCTCTCCATTATTTCTTTCCATTTTTTCCTTAACGTAGAACCATATCTAGGACCTAATCTTCCTGCAACTCCAACTACCTTGTATTTAGCCATTGTTAATCATCTTCTTATATATTTAATTGCTTTTTAAGTTCTTCTAAAAGCTTCTCACTAGAAGATCTAGCAATGTTTTCTATATTTAAAATCTCTTGTAAAGTAAAACTTCCTTGTCCAGTCTTTTGCATTCCTACTATTCTACCTTCTGGCGTATATGATATAGATAATTTGGCATCTGCTATTCCTTCTTCCTCTAGATCTGGGTCAATTACTATGTACTTGCCTATTTTAGCAGCTGTTATAGTTACCACAGGAAACATTATAGGAACTCTATCACCTTTTTCTTCTCTTATGATTTTTATTTCTCCATTATCATTCAAAACTTTAGGTAGTTTGGCATTATACAATGCCGCTACTGCTGCTAACGTGGAAGCATCTAAAACATTTCCTCCATAATCCAAAACATAGATATCAACCCATACTGTCCAAACTTTTTTCCCTGCTTCTATAACTAGTTTATTAAGGTCTACTGCCTTAGAATCCCTTAAGCTCCTATCTACAACCCTAGATAACTCTATTGCATTTTCGTCTGGTGGGCCTGGTTCAAAAGTTTCATACGCTAAAGGTAATAGTTCAACATTTACTACTAAATTACCTTGAGAAGGAGTATCGACAAAAGGTTCTTCCTCTTCTACTTTCACCCCAGCCAATACTGAGGTATCTCCAAGTTTTACTAAGGCAGAACCATCAGCCTTCTTAGCATAATCCAAGGTTATATTTAAAGGTCTATAATCGGTGAGTTTTCTACCATCTTCTCTTACTCCTCTTTCCAACATATGTAATATACTTTCCTTTTTAATTAAAGGAATTACATTTTCATTAGATGGAGTTACAGACATTTTAACTCTCCTCCTTAAGTTCAGCGTATCTATTTTTAAGAACATCTTTTTCCATATTATAAATAATATTTATTCCTTTCATTGATAGATCCATAGCTTGTTTAAACTCATCTGGTGTCATATTTCCGTTTAATTGTATAAGATTAATCTGACCTAAAGCTGGCATCATAGCAACTGGCATATCGGCTTCTCCCCACATATCTTCAGGCTCATTTAAATCCAAAACTACTATTCCGTCTGCCTTTCCTACCGCTACTGCTGCTATAAGATCCTTAACTGGAATTCCTGCGTCAACTACAGCCAAAGATGCTGCCATAAGAGATGCTAATCTTGTTCCTGCGTCAGCTTGAATAACTTCCATAAAAACATCGATAGAAGATCTTGGAAATTCTTCTACTAATATTGTTGATTCTAGAGCTTCTCTAATAACTTTTGAAAGTTCTATCTCTCTTCTACTAGGTGCTGGATTCTTTCTTTCGTCTGTAGAAAAAGGAGTCATATGATATCTTACTCTAAGTACTGCTCTATTTGGAAGTGCTAGATGTCTAGGATGCATTTCTCTAGGTCCATATACAGCAGCCAAAATCTTAGTATTACCAACTTGAACTAAAGAAGATCCATCAGCGTTTTTTAATACACCTATTTCCATTTTCATTGGCCTGAGCTCATCTGGCTTTCTTCCGTCTAGACGTTTTCCGTCATCTAAGATTAGTTTAGGTTTTTGAAGCTGAATCATTTATCTCGCCTACTTTTTCTTTAATTAAATTTTTAATTCTATCAGTTAAACCCTTAGTATGCGATTCTTCTTCAATTGTTTTTATAGCTAGAATTAAAATATTTTCTTTATCTTGAGAGGGACAGTTTGCCCATATTCTTCCATTCTGTGCCACTGTTATTTCGCATCCTGTCTCAGTAGTTAATACTTCAAGCATACTTTTGTTCTTACCTATAACTCTAGGAACTTTTACTGGCATAATATCAATTACTGTTCCAGAAGAAATTCTACCTAATCCCTTGCCTTTTATACTAAGAACAGGATCTATTGTCCTATCAAAGTTTTCTAACTTAGCTATTACATAATCTCCTATATCCATATATTTTCTTATATCTTCACCAACATTTACAGCTCTGCCTAGTAGGGATGACGCTGGAAGATATGCTGAATACATGGACTTTATATCTAATATCCAACCATATAATTCTATATCCTCTATCAAGCCAATTACAGTATCTCCAATTTTAGGGTAGTAATGAGGACCTTCTAGTGGTATTATTTCGAATACTGGATCTTTAGACTCAAATATTCCTATTACAGTTGAGTAATATTTAGTACCGACTTTATAAAAGTATGGAGACCAAGGTATCTGAAAATTGCCCTCTGCTACCAGATCCCCTGGTACTACTATACTTCTATTTTGGAAATAGAGTTTGTTTGACGACATTTTTATCTCACTTGTACTACTTTTACTTCTACTTCACCTTTAGTTATAGAGTTTAGCTTATCAATAACTTCTTCTTGAGCTCCTGCTGGTATTTCTATTTCTGCTATTAAAGATCCGTCGGCTAACCAATTAGTTTTCTTTACAGATCCTAAATTTTGTAAAGTAGATTTTATTTTAGAACTATATTTTGCTGAAACTTTTATTTCTAAAAGCGCCCTAGCTAATTTGATAGGTATTATTTTTGTTAACTCATGAATTATTTGCATAGCTTGAGCCTCGGGATCTTTATTTATATCTATTTGAATTTTTGCTTGTTCCATAGCCATTTCTAACCTAGCTGGTGGAATAGGCAAACCAGTTTTTGGATCCACAGCGTTCCTATGAATAAAATCTAATACTTGTTTACGTTTATTCTCTACAAGTTCCTTTCTTTGTTCAGACGTTAATGGTATTTCTCCCTTTAATAATATGTCTTTTACTACAGTTTCAAAATCTGTAGACCCAAAAACTTTTTTTAAAGCTGAAGGAGAAGCTTTTAGACCTCTCTTAACATCCTTATATATTGTATCTGAAACCACAATATCTGAAACAGGAATATTCTTTCCAGATCTAAATAAAAAAGCTTCCTTAGGTTTTACTAGTATTTCGAATCTTTCTCCATGTGACTCATACTTTACTATTATATAATCCTTTGTAGGCATTTAATTTTATCACCCCAATTTTTGAAGTATATCATTCCTTTCTTCTAATGTTAACTTTCTGAAGATTCCAGTATTTGCTGCGCCATACCCTATTTCTATTTCATTAGGACCTAGTTTTTCTCCAGGCTGTTTAGTAGCCTTAAGTGCATTAATCGCAAGTGTAATTGTATCTTCAACACTTAGATCGTCTTTATAGTTCTTTTGTAAAAATTCAGTAGCTGTAGTATAATTTTCGCCTATAGCTACCGCTAGGTATGGCATAAATTGACCGCTTGGTTCAGTCATGAAAAGTTTAGGCGTACCTTTGTCTACTCCTCCTATTATTAACGATACACCAAAAGGTCTAACTCCTCCATGTTGAGTGTACATCTGCTTTACGTCTGCAACTAACTTAGTCAAATAATCTATACTAATAGGCTCATCATAGATTAATTTATGTTGTAATGATGAATTCCTAGCATAATCTATAAGTACTCTACCATCAGACGCTAATCCAGCAAAACTGCATCCCACATGGTCATCAATTAAGAATATTTTTTCTACACTATCTATATCCACTAGAAGAGACTGTTTCTTTTCTCCCAATATTACGACAGCATTCTTTGTCTTGACTCCTAATGTTGTCCATCCCTTTTTTACTGCTTGAAATGCATAGTCTACTTGATATAAATCTCCATCTGGAGAAAATATTGTTATTGCTCTATCATATCCCATAGCTGCTGGTCCGAATGCCAAATATTATCCCAGACTATACTACTTCAGAGTAATTAATAAAAGTGTTATATATCAGATCGTCGCAGGGTACATCATAATACAGTCTGGAGCGGCCTCATCACATACTCATAAGTTTTTTAGCTCTCTTTAAACTACCAGTTGTCCTAGTTGCCACTATTAAAACTTTCGTATTATTAATTTCTTTGACTAATGGTAGTGATGCTATAACTACTTTATAACCTGCTCTGTTTGTAGATATAACGCCTTGTAATTTATTTGGATCATAAAAAACAACTTTTGGATTAGAAATTTCTAACCACATATTTCCTAATAGCTCTTTTACTGATCTCCTTATAGCATCCTCTATAGTTTTGTTTGAAATATTTATATTTTCGTTTTTCGACAAAATTATATAAAAAAGTATATATCGTTTGGATCTTATGCTTCGCTTATTAATGATTTTTTTTGTGTAAATATTTTTATTTTTAATCACATATAATGTCAGCATTATTAACCAGACCAAAAGTACTAAGTCAATAATTATTTGAAGCATGTATTAAGAGTTTCAAAGGATTATCATAAATCCATCGTAAAGCCTCTTCTTCATCCGCTCCATGGATAACAAGGTAGTTTAATTTAGAGATAGGTGTCCATATCTCATTTATATCTTGTGAGTAAGAAGAAAAAACCACATTAAACCATTTGTACGCCAACGGAATTATTTTATATATTAAATATGATGAGGAAGAAGGAAGTGGTATTTCTACAAATTTATTATGTTGCCTTAATAAGTTCAGTGAAGTTTTTTTAAGGATTCTGAAATTACTATCATCTATTATTATACCAGATATTTTACTATTTATAATGCCATATCTTAACACGTCCTTAGATAAGGGCTTAAGAAAAATCAGCCTTTTTTTCTTGATCGAGGCGATACCATTCTTAAACTCTTTTAAATTTGACGCAATTATAGTTTTTCTTAAATATTTATATGAATATTGGAAATTATCTTCTAAAAATGATATATTATATCCAACTTTCTTTAATATTGGCAATAGATCATGATTCTTTATGCAAGTCTCTATTAACAAATTGCTTAAGTTCCTCCTTGAATTCCTTTAATCTACCCCCAGTACCTATTATAACTTTTATAATATCATCACCATCTTTGAGAGCTAATTTATTCTTAGCTATTAGAAGTTGTTTATCTAGCCTTAAATGAACTTTACTTTTTTCTACTCTAGAATCTAGCGTACTTAACAAGTAGATTATGTCTGCCTTGTCAAATTTTGATAACAACGTATCAAGTATTTTACTGCACACTTTCCCTTGAAATAAATATTTTATTTCAATAATTGAATCTCCATAATGCCCCTCTATTCTTTCCTCTTCTATTTCACCTTCCTTAACATAATCTGATAATAAACTATCAATAGCGTACTTAATCTTATCCTTATTTTCAGTTTGATAAGAAAAAACTAGAAATATTATATTATTTAATTTCATTTTCACTTTCCAGGTATCTTATAATTTTGAAGTCTATAGTATTTATTGGCCTCATGTCTTTTCTTTAGTTCTCTCTCTTTCTGCTTCTTAGAATTCTTATGGTTTATGGTATATTTAAGACCTCTTGATTTACTTAATCCCCTAGCTTTCTTACCAGCAGACGTAAGACCTCTAAATACTCTTCTATGATTGGAAGAATTTTGAAGCCACTTGAGATCTTTGTCAGCCTTAATTACTGGATGGTTAGGGTCAACTAGAATTATTTCATAATATTTATAAAGTCCGTCTTCTCCTACATAGTAACTTCCTAGTACTTCTAAATTAGGAAATTTTCTTGCAGCTTTCTCTTCTGCTATCCATCTGTAACCTTTAGAAGGAGAATAACCGTATACCCCCATTCTTTTAGGTCTTCTGCCACTATTAGGTCTAAGCTTATCTGAACCTCCTCTACTTACCCTTACTCTAACTACTGTAAACCCTTGTTTAGCTTTATATCCTATTTCTCTAGCTCTATCTAACCTTGTGGGTTTAGCAAGTCTTACTATACTATTATCATCTCTCCATTCTATCATGCGCGCTTTTATTACATTTTTCCAATTATCTGATTGCCATGTCTTAGATATATAACTATACATTGATAAAGCCATTATTATTCAACCTACTACTCAATAACTAATTAAAAAGTGTGTTGTATCATATTTATGGTAAATATAACATGATATCTATAGGGTTAATAGGCAAAACTAATGTAGGTAAAAGTACATTCTTTGAAGCTGCTACATTATTAGATGTAGAAATAGCTAATAGACCATTTGTGACTATTGAGCCAAATATTGGAATAGCATATGTTAAAAATAGATGTGTGCATACAGAATTAAATGTTACATGTAATCCTAAGAATTCTGTTTGTATAGGAGATTATAGATTTATACCAATAAAATTAATAGACGTTGCCGGTTTGATTCCCGGAGCGCATGAAGGAAGAGGGCTGGGTAATAAATTTTTAGATGATCTAAGAAAAGCAGACGTGTTAATTCATGTAGTAGATATTAGTGGATCTACCAATGATGAGGGATTACCTGTACCTCCAGGTACAAGAGACCCGGAAGAAGACATAAAATTCATAGAAAATGAAATAGACGAATGGTTCTATTCCATAATTATAAAAGATTGGGAGAAATTTTCCAGAATAAGTGATCTGGGAGGAAAAGATATTATCGAATCATTACTTTCTAAATTATCTGGACTTTCAATAAATAGAGAGCAAATAATTAAAACTTTAAGTACTACTAAACTAGAAAATTTAAAACTCATGCAATGGACGAAGGATGATATAAAAATATTTAGTAAAACTTTAAGAGAAATATCAAAACCTATAATAATAGCTGCTAATAAAATAGATATTTCTACTTCTAAGAAAAATTTTGAAAAAGTTAAATCTAAGTATAAATATGTTATACCTACAAGTGCAGAATCAGAATTAGCATTAAGAAAGGCTGCAAAGGCAGGAATAATAGATTATATACCTGGCGAAAGTCATTTCGATATTAAAGAAAAAATAGACGAAAAAAGATATAAAGCATTAGAGTTCATAAAAAATAACATTTTAGAAATATATGGTTCAACAGGAGTTCAACAAGCTATAAACACTGCAGTATTAGATGCATTGAATCAAATAGTAGTTTACCCAGTAGAAGATGAAAGAAAATATACAGATAAAAATGGAAATGTATTACCAGACGCTATATTAATAAAAGAAGGTTCAACACCAAAAGATCTGGCAGCACAAATACACAGCGACCTTGCAAAAGGATTTCTTTATGCTATAGATGCTAAGAAAAAAGTTAGAATAGGGGAAAATTATAAGCTAAAAAATAACGATGTTATAAAAATAGTTTCTACTTTAGCTCATGGTTAGTTTTTGTAAAATTCCCCCTTATTTACGTCTCTATTAACTATAGAACCTGGATATATAGTTGCATATGCTCCTATTTTTATCCCTGGTAAAATTGAAACATTAATACCAGTTTTCACATAACCTCCCATTATTGTACCAAGTTTTTTCCTTCCAGAAGAAATCTTATTTCCTTTTATATTTATTTTCACATTTTGCTCATCAAATCGTAAATTAGCTATTAATGTACCAGCACCTAGATTTACGTTTTCCCCCAGTATACTATCTCCTACATAACTCAGATGTGGAATCTTAGAATTTTCCATGATTACGGATTCTTTAATTTCTACTGAAGCGCCTACTTTATTATTCTGTGTTAAAATCGTATAAGGTCGTAAATATGAATTAGGGCCTATGATACAATCTTTTCCTATATAGACTGGACCTTGAATATAACTACCATGAAGTACTTTAGCCCCTTCTTCTATAACTACTTTACCGATTATTTTGACATTATCGTCAATTTCTCCTAGATTTTTAGGTTCTTTATTATCTAATGCAATCTTATTTACATCAATAACCTGCCAAGGTCTTCCTACATCAATCCAGCTTCCTTTATACTGTACTACAAAAATTTTCTCATTTTTTGCCATTAAATTTACTGCGTCAGTGAGTTCATATTCTCCTCTACTAGAAATAGATATTTTATCTATATATGTAAATATATCAGGATTAAACTTGTATATTCCAGAATTAATAAAATAAGATACGGGCTCCATAGGTTTTTCGATAATCTTTTCTAAAATAGAATTTTTCATTAAAATAACTCCATATTCGGTCGGATTATTCACTTTAACTCCAACAATTGCGTTCTCGGTAAAATTCAATACTGATCTTATTGCATCTTCATCAAAAAATATATCGCCGTAAACTAGCAAAAAATCCTCTGAAATATTGCCTACACTAGCCAATGCTGCAGCAGTTCCAGAATTTTTACCTTGATAATATAGCTTAACCCCTTTAAGCCTATTATAGAAAGCCGAATATTCGGCGCTTAGTTCTGAAGGTATAACAATATATATATCGCTTACATATTTTCTTAACAAATCTATTGTATACTCTATTAACGTACTTCCCAAAACTGGAACAAAAGGTTTAGGTCTAGTATGAGTTATTGGTTCTAGTCTTTCCCCTTTACCCGCTGCTAGTATTACTGCCTTCACTAGTTACTGCAACCTCCTTAGGTAATTCTAATAGCCCTAGTACTTTAGATTTTTCTATTTCTACTTTCCTTAGCGGAGCTATTTTCTTTGTTTCGCTAAATATAGTATTAGATAAGTTTCCAAAAACCATTTCTTGAACAAATTCATCAAATGTATGGGCTTCTGCGTCCTTACGAATAAGGTCTTGCATAATTTTCCTTATTGCAGTTCTTTGTTCTCTATGCAACCTATATGTAGTTAATGCAAGTCCTTTAACTCTTAGCTTATATCCGTCTTTTGTAGCTACGTCTATTACAGTATTTACTTTGGAGCTTTTTCTTCTCACTAGAGATCTTATATAGTCCCTAGATAATTCATGACCATAAAACGCTGTATATAATCTATCGCCATCATGTGAAGCTACTTTAAAATATATGTGAACGTAAACCATACTGAAATCTCCGGTTAAATCGTAAAGCGTAGTTTCTACCTTTCTACCTATAGTCTGATCTACAGTAAAAGCAGGGGTTGAACCCAAAGATATCTCCCCAAAAACTTTTGGAGAGTATATACTATACCATCTCTTCATTTTCCACTTATCTTTTATAGCTCCGCTAGAACCTCTTGAACCTTTTGAAGACATATTAAAAGTCATTTACACATTTAGTATTAAAAGTCATTCTTTATCCTGATGCAAAATTCTAGTATATATCTTCCTTAAGAATCTTATAACTGTTCTAGCTTCTTCCTCATCGCTAACACCTTTAATTAATGCACGTTTTAAAGCGAAATACATTGATAGATCACCTTCATAATTTTTTATAAGATTGAATAATAATTTTGAATATTTATCTATTAAAACTAAAGACTCTGATGTAACTTTCATTTTTCGCGAATCTTTAGTTTTCCACAACTCATAAAGTACTATCCCTACCGCATGAGATAGATTTAACGTAGGATATAGCTTGCTTGCCGGTATATATAATAAAAAATCCGATTTTGCTATCTCTTCTCTAGTTAGCCCTACACTTTCTCTTCCAAATATTAACGCTACTTTTTTACCTCCTATTATATCATTGAGTTCCCATGGTCTTATAGCTTTCCTTAGAATATCTCCTTTAGTATCAGCAATACTTGACGTGGCTATTTTTAGCTCAACACCTTTTATAGCATCATCGAACGAATTTACTATCAACGCATTTTCTAGAATATCTCTACCTTTTGCTGAAAAACTTTCTGCGTTTACAATATTACATTTAGGATTAACTATATACAACTCATCTATATCAAAGTTTTTACACAATCTTGCTACAAAGCCTACGTTATATTCTCCTTCTGGCTCTACTAGTACAACTCTTATCATACAACTCTAAAGCAATTAACTCTTCAAAACCTATAACCTTCTCTACTTTTTTAGAGACTATAAATCCGCGTTTTTTAATATTTCTAAGAATAATTTCCTCATTGTCTAAACTGGAATAAATTGTATATACACGCTTTGCTTGTATTTTATTTAAGAATCTTACTAAAACTTCGCTTCCTATCTTTCCACCAGACCAACTATACTCTATCCATGAGTTGTATTCTTCTACTGGCAAGTAAGGAGGATTAAATATTGCTACGTCCCAATGTATGTCACGAAAGCATTCTAACATGTCACAATTCACTATATTAATATCGACATTATTCAGTTTTGCTGTACATAAAGTAACCAAACTAGCGTAAGGATTTATGTCTACTGCGCTAACTATTCCTTTCATTCTAGCAGCTAATACGCTTAAAATTCCTGATCCTGAACCTATTTCTATGACTTTTTCCCCATTATTAACCTTAATTATCGAAAGGAGCATTTCGCTATCTTCTGCTGGCTCATAAACATTATCATCTAAGCATATGTTAATCCCATATATTTTAGTAGTTCTGAAATTTGACATGGCCTAAAATCCCTTACCTTTTTTTCTTCGTTAGCCTTAATACCACAAATGGAAGCGGCATTTTTAATTTTTTTATTTCTATATTTAGTAATACATTTTAGAATTTTTGTAATATAAGGATCATAATGTCTAATTTTGGTAAATAATACAATTTGAGAAAAAACTTTAGGTGATGGACAAAAAGCTTTAGGGGGTATAATATCTTTTGGAATTATTCTATAGTAATAATTTAGAATAAATGATATAAAAGTTGGATAAGTCATAATTTTATCTACAAAATCCTTTTGTAAAATAAGAAGTAAACTATTAATCTTGTCATTTTTAATCACTTCTTCGAAAAAAACCTCAGTTATAGAATATGGAAAAGACGATATTATCGAACCCCTATATACGGGTAAGTATCTAGCGTCAGATATAACTAAGTTATATTGTCTTATATTAGGAATAAATTTTTTATCTATTTCTATACATAAATCTGGATTTATTTCCTTTGATATTACACCGTTCCCACAACCTATTTCAATAATAGGATATGAAAAATCTAAATACGAAATAAATTTTTCTATAAATTTACTGTCACATAGAAAATTCTGAGAAAGATTAGTCATTTCCTCTTAGCTTATCTAAGTATCCTACATATATTACTTGCTCTTGAGGTTTTCTATGTTCCACTTCTGTAGGATACACGAATAGATAATATTTATCTTTCCTTTCTATCTCAGTCAATATTCTTTCCACTATAACGTCTATAGTGTTCTTTATTCCAGTTCTTTGTTCAATATCAGAAAAACTTTCAAAAGGCTTTTTCTTCCGTTCTTCTAATATAATTCTTAATGTTTTCTTTCCTATACCAGGTAAAAGTTCTAATGCATGCAATTTTATTGTTAATGCGTCAGATTTATTGAAAAATTCTACAAAAACTCTTTCTTTATTTGTGACTATTCGTTTTACTACTCTAGGTAAAGTATCTTTAGCTACACTAGTTAAATCCTCATAACTTATTACTACATCTATTCTTAATGCAGAAGAATTAAACAAATCTACTTTCTCTTCTATTTGAAAATCTTGATCAGAAACCAATGCTTCCATTAATATAAAATAGTCTTCACCGATAACTTGAGCTAACGGTCTATTCTTATGACCTCTGTGTTTATCTAAAGGATTACCTTCCCTTAAATAATCTAGTACATATACAAACCTTTCCTTCGGTCTCCTTCTCTGTAACATATTGCCACTATAATTTATTATTTATATCTCAATAAAAAATATCAACTCTTTAAATGCTTCTTAATAGACTCAATAACTTTCTCCAAATCATCATTGGAATATGTCTTATTATCAATAACAAGAATTGCTCTTAACTCATCAATTGTAGTAGGGCAAATACTAGCTATCATTGCAAGTACTTCTTCTTTCTCTATAATTGGTTTTATTTCATCTAATAAAGAGCTTACATCTTCATTAGAGCACTTTTCTACATTATTCAAATATTCATATACACGTTGAATCATAGGTGACTGTAATCCGCTCTTAATTATTTCATAAATATATTTTTTAGCTTCACTATAAGAAATATAATGCTCATCAATTATCGATTCAGAAGACATAATTTATTCACTTTTATTTGAAAATAAAACAAGATGCTCTGGTCTAACTATAATTAGTTTTTCCTTATTTCCTAGATTCACTTTTACTTCATATGCTTTACCTCTTTTAGAAATAACACTACCTACTTTACCTTGGTATCTCCTATGTGGCATACCATTATGTATTGCAGAGTTTATCTTCACAATAACCTTATCGCCTACCTTGAACTCATACATTAACCTACTTAAAGATGGAATTGCTCCTCTTTCTCTTGGAGATTTCTTTAGTAACTTACGAGATCTAGTCCTATTGCCTCTAGAATGTTTTACCATAATTTTACCCTACAGTAGGTAATAAAGATAGACAAATTAAATTTTTGGGAAAGATATTTAAGGGAATTTATCGCTAAAAATAATAGTGCGGGGATGCCCGAGCATGGTCAAAGGGGGCGGACTTAAGATCTGCCCAGCGTATAAGAGATCCGCTGGCGAAGGCCTGCGTGGGTCCAAATCCCACTCCCCGCATCTTTTGAAGATGCAAGAAATTAATTTTGAGATTAAATTCGTATAAGTGTAAATCAGTTACATGTTATTTATAAGTTAATATATCTAATACAGCGTAATATTAAAATGTAATTATTATAGTTATATTATCATTGCTATATAGACTAGTTGAATTTTCTTAGATATTAAGTTGACTGATAGACATAAAATTCTAAATCTAACGTAAGATTAAAGATAAGCTATACGTTCTCTCTGAAAAATTTGAGAGATCACAAAGTATATTATCATATAATAAACTGCTCAGTTAACTATTGTAATATTATAAGTTCAAAATATTAACTATAACAAAACGCCGAAATTTTTATGTAAATGATTAATAAGATATTTACTCATATTGATATTTTTTGCTTAAATCCCATATTCTGTCTTTTTTAAGGAGTAAGGAAGAGATCTAAAAAATAACTTTAGAAGATTATGAGTAGTTGATATCTAAATATTCTGACTTTTACTGTGAATATAATTAACCTTGAACGTATGTTAGTTTTTAAATTCAGAAGAATTATATAATGACTAAATAATTTGTAATATATCTTACAAATTTCCATTACTAGTGAACTCCTACGGTGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCTTTACAAGAGTGAGACTAAGAAGACTAGGTATAGGAGAGGAGGTAGTGAAGGCCCTCAAGTTGACCCAATCAAGTAGTTCCTTCGGCTCTTCAAGCCATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCTTACCACGCCCTAACCGGTAGACCCAAAATCATATTAGAAAAAATATCTCTGGTAGGATAATATCGAATTTATAAAAGATAAAGAAATTTATAAGAGTGTAAAGAATTGAAGAAAGGGTTTAAGGTGAGGGAGATGGAGTATTACCACGTGAGATAGGAAGATGGTAACACCCGGTCTCCCTCACCAAAATAACATTCAACAAATAGGATATAAATTACTTTCCATGTTGAACTTCCAAGGGGAAAAGGTATATGAGGTAGCAAAAACTCTCATCTCCGCGTGTTTGTGGAACGACTCTGTAGAGAACAAGTCCAGAGCGTATGACGTATCCCCACAGACCGTGAGGAATTACGTAGAGAAACAAGGGATGGAAGTGATTGAAAAGCTATTGGAAAGAGCTAGGAAAATATCCTTGGAGATATTAAAGGGAGTGAATGAGATAGATCTTTCAATAGACTGGACAACCAAGACGTGGTATGGGAAACCAGTGAAAGGGCTCGGGAGCTCTGAAAAAGGAAACTCGTGGAACTACGCAACTGCAACAACCAAGTATAAGGGGAAAGTACTTTTACTTGCCTTTATTCCGCAAGTGAACGGTATGACTAAGGAAGAGATAGTGAAGATCCTCGTGGAGCAAGTAATGGCAATGGGATTCAAGATAAGGTTGATAACTCTTGACGCTGGTTTCTACACAGTTGATGTGCTCAATTTCATTTCACAGTTTAAGTATATAATTGCTGTGCCTGTTGGGGACGTGAAGGTGTTTGAGGAGTTTGACGGGGATTACACAACTAATAGTAAGTAGGAGGGATGAGCAGGTCAAGTTCAGGCTTCTCGTGTATAGCAAGGAAAAAGTGAGGAGAAAGAAGAGTCTTGTTTATTTTGCTAGGGCTACTAATCTAGATCTGCCCAAGAGGGAAGTGTTGGATTTGTACAATAAGGTAAGAGGTCCTATAGAGACCTCTTATAGGAACATTAAGGCTTTTCTTCCATTTACTAGTTCTACTAAGTTTGTTTTCCGCACGTTGATCTTCGTGCTGGCCATTGTACTCTACTCCTTATATACCATATTCAAGGGGGAGGTGGGGAGAGAGGAGTTTAGATTATTATTAATTCTTTTATTTCCTGATTTATTCAATCCAGAGAATTTTACATTTAATGTAATTGAAACACTTATTTACACTATAGATTTATTTTTAAGGAGGTGATTTTGGGTCTACCGTAACGGACGTGGCTTCCTGCTTCAAAGCCCCACCTTGCCAGTTGTAGAGGGCGGAGCTCCACAGTGAGTGTCGTTCCGATCCCGAGCACTAATGTGACCCTACAGTGTCCCCTTATGTGACTGTTGAATGGAGTAGAAGCGTACCACATAGACCCTCGCTTTAACCAAGGCGGTGACGCTTACTCCGTCAGTGATTGTAATTAAGAGAATATTCGAAAAAGACGTATATAAGCCTTACAAAGGGGTTTATCCATCTCCACGGATGTAGTCTTCCGCTCCCTTTGAACCCCTGAATCTAATAAATGGAGTTAAATTCTTGCATAAGAAATAGTTCCTAAGTATCGTATAAAATGCGGGGAGTGGGACTTGAACCCACGCAGGCCTTCGCCAATAGGGCCTGAACCTATCCCCTTTGGCCTAGCTCGGGCATCCCCGCTTACTAGTATAAATTAACTATAATCTAATAAAAATAACTTGCGCCGGGGACGGGATTTGAACCCGTGTGTCCTTGGAAGGACAGTGGGTAGCTTGCAATCTGGTCTCGAGCCCACCCCCTTAGTCCACTCGGGCACCCCGGCATATAGCATATTAATATACTTCTAAAAAATTAAAATTATGCCGGAATATAAGTAGGATTACTTTCTGTAGATATCTTATTTTGTTTTATCATTTCCTGGCGTATATATTTAGGTATACTGAATATAGTATGATGAGTTTCTCCATCATAAAATCTTAGTTCGCCATTTATCCTTTCCTTAATCTTTTTATCAATATCTTCTTTAGAAAGGTCAATAGGATTAATATAATCAGAAGCGTAAACAAATCCCCATAATCCGTCAAATGCAGGTACGTATACTATTGATGTTACAACATACTGGAAAATATGTTTTAATGTATTATATATAGTGGTAAAAGTATCAGTGTTAAATGATGGAGAAGTAGCTTGAGTAACCATACCTCCGCCTACATTTATATGCTTTTTAAGCTTTTCATAGAATTCTTTTGTATACAATTTGTAAGATGTGTTTCCTAATATAGGATCAGTAAGATCTAATATAATTGCATCATAATTATCGTTATTATTATCAAAAAAATTATATGCATCGCTAATTATTATCTTAGATCTAGGATCATCAAAAGAACCTTTATGCCATTCTTGAAGATATTTTTTTGCAAAGTCTATTACTGACTGATCTATATCTACCATAACGCTCTCAGTAACTAATTTGTGCCTTAATACCTCCCTAAGTGTAGCACCCTCTCCACCGCCTAATATAAGAACATTTTTAGGATTTTTTATGCTTAAAAGTAAAGGATGAACTAACGTTTCATGATATATAAATTCGTCAAATACACTAGATTGAATTTTGCCATCTATAATGAGGGTCTTGCCAAACCTAGTTAATTCCGCTACCATAATTCTCTGATATGATGTTTTTATATCCTCTATTACTCTATCAATCAAATGCCCATGAAACTCACAAGGATATTGCCATTCTAAATGCCAGCTCCATCCATATTGCATTACTTAATCCTTACCCCGTTAACCTTTTTATTCTGCCATGAGTAGCTTCTTATTCTCTTAGATTTTCCAAACCCGCATGCTGCACAGTAGTGTTTAGTTACATTATATGAATTTCTTCCACATCGTCTGCATCTAATATGTGTATAATTGTTATTCATTTTTCCAAATGAAGGTGTACCTTTCATATTACCTCACTGATTTATTGTTGTATAGGCGAAATAAGTATAACATTATCTCCTCTTATAACTATCGTACCTATTTTTTTTCCACTTCCGTCTGACTGAATCTCTTCAGAATCTGAAAGTACTAGATTCATATGTTGATCATAACTCTTTAAAGTTCCTCTGACTTCCTTACTTCCCTTTAGTTTTACTAGTACTAAACTTCCTAAAGATTCTGCGAGTAACTTATGCGCGGTTTCTGCCAAAATCTCACCTACACGATAAAAGGAACAACTAATTTATAAATTATTTGACAATTAGTCCCGCCGCGGGGACTTGAACCCCGGACCACCCGGTAACTGCCCTCTATCTACAGCCGGGCGCTCTAAAACCGGGCTGAGCTACGGCGGGTGTACATTGTAAGTTATATTAAGAATAAATAAAAATCTTTCTCCCTATTTTTTAGCCAAACACCTAAACCTAGATAATACTTAGATGCTACCCTAAATTTAAACGCCGTGACAAATATATTATATACTTAATTTAACATTAACTAATATTTTATAAATTCAACATTTAATGAACTAGTACGTACATTGATAAATTTATCTTATCCTAATATTTTAAAAGAGCTAGTTCAAATATAAACATAAGGACAAATTATAATAATATTTGGAAAACTTTAATCAAATTCTGTTTTTATTATACTATCTCATCCTATTTAAATAATTCTGTTATTAACTATTATCTAATATACTGACTTAATTCCTTATTTATGCATCCTCAATTATAGATTTATAATAAGATTAAATTCAAATCTGATAGTACTTAATTCATTTTACCTTTATTTTTCCTATTTAGAGTTCACATAAGCCAAAATAGTATCAATATATATTGTATAATTTTAAAAAGCTAAAAACATTTTCTACTATAATTAAGAAGAATTCGAATAGATTTTCACATAAATGTTAGAACATTATAAGATGGGCCCGCTGGGATTTGAACCCAGGATTACTACCGTGTCAGGGTAGCGTCCTAACCATGCTAGACGACGGGCCCTCGACTAACTTATATATTAACGCATACTTAAAAGATTAATTTATATGAAATTCGTCTTAACGTATAGATTATAAAAATACATATAATCGTATTGGATTACAAAAAAGAGATTTATTGAGAAATTATACTACTCTTAAACTATCAAGTATATTTGGTGCATAAATACTGGCGCTCTTTATCCCTAATCTTTCCTTTTCTTTTTGATTTTCTATTATTCTCATAAAAGATCTTATAGATGAAGCTTCTCCATGATCTAATACAATATTTCTAGGCTTTGGACTTAAGTCTCTTAAAAAGTTAAGTAATTGGATTTTATCTGAATGCCCAGAAAATCCATCTACTGTTTCTACTTCCATGTTTATACTAATGTTTTCTATTCTTCCGTCTCTGTTTATTATCTGAACTTCCTTAGATCCATCTCTTACTTTTCTACCTAATGTTCCTTCAGCTTGATAACTTACAAAAATTATAGAATTTCTCGAATCAGATGCCATATTTTTGAAGAACTCTACTGCAGGACCGCCGTTTAACATTCCAGATGTAGCTAATATTATACTTGGATCTCCTTGGGCAATATCCTCTTTATATCCTTCTATTCTCTTGAACATTTCGGATACAAAGGGATTTTCGTCTTTATAGAGTATAGAATCCCTAACTTCTTTACTTAACCATTCTGGATATGCAGTATGTATAGCTGTAACTTCATCAAATAATCCAGTTACATATACTGGAACTTCTGGAATTAACTTTCTCTTCATAGCATCGTTTATAACGAGCATCATTTCTTGCCCTCTACCTACTGCTAGTACGGGTATGAGAACTTTACCTCCTCTACTTATGGTCTTATTAATTATTTCTATTAATTCGGCTTCAGATTCTTCCCTATTTGTTTGTCTTTGTGCGCCATATGTAGTTTCCATTATAAGTGTATCTACTTTAGGAAACTCATTAACTGCTCTATCTAGTAACCTTGTCTTAGCATACTTAAAATCACCAGTATATACTACGTTATGTAGACCATCTCCTATATGTAAATGTGCCATTGCTGAACCTAGAATATGGCCTGCGTTATAAAATGTTAAACGTATGTCTGGAGCAACATCGGTTACCTCTTCATAATCTAATGTTATAGTATGAACTAATTCTTTTCTTACTTCTTTAGCAGAATACGGTAAAGGTCTACCTTCCTTTTCGGCTACGTCTAAGAGATCTAGTTGCATTAATGCCATTACGTCTCTTGTAGGCTGTGTAGTATATACTGGACCTTCGTATCCATATTTAAAAAGAAATGGTACCATTCCACAATGATCTAAGTGTGCATGTGTAATTATTACCGCGTCTAGATCTTCTAATCTTAATTGATCAATGTCAAGCTTAGGATACATTTTCTCTCCAAAATTAACGCTAGGATTAACACCGGTATCCAAAAGAACTCTACTTTCGCTAGTTTCTACTAGAACTGCAGATCTACCTATCTCCTGAAATGCACCTAAAGCTGTTATTCTCACATATCGATCCTTATATATTACCTCTCTATGTATTCTTTCTCCGAACGTCTTTAGAATTTTTGCTCTATATTCAGTCTCATTATATATATGAGTAAGAACACTTTCTACGGTCTTTGATTTTATAGGGGGTTCTCTAATTATTTCTGGTCTCCAAAATGTTTCTAAGAATATTTTTTGTTGTATTGATCCGCCTTTACCTATAACTAGACCAGGTTTTTTTGCTCTTATTAATACTTCACCTAACTCGTCATCAAATTTTATATCAACTATTTGCGCTTCTTGAGGAACTAGATTCTTTATTATTTCTATTGTTTCTTTTTCATCTTTCCTTATTGACCTATCTGCTTTAATAACTATTCGCTTTTTAATTTCCTTAGCTATTTTTTTTATAGATTCGACATTACTTGATAGAAATGACGGATTTTTAACATATACTGCTATTTCCGGACCTTCGAATTCTATTCTAGTTATTTGCGCATCTTTTGGTAGTCCGTTATATATCGAAGATATTATGCTTAGCCTATTATTAGACACTATACTCACCAAGAAATAGAAACCAACAACATTAATCCTTACTTTTTAATATTTAAATCTTGTCATGTATATTATGGCATCAGAAGAACATATAATAGATTTACCAAAGAGAATTTATGTTGGTAATGGGATAATAGATAAATTACATGAATACTTTTATCAATTAAACTCGTTATCTCCGTTTTTAATTATAACTGGTCATAATATAAGAAAAATTGTAGTAAGTAAAATTCTTGACGAAATAGGAAATATAGAAAGCAATATTGAAGTAGAAGAAGTAGAAGAAGCTAATATTGATGAGGCCACTAGAATAGAGGAAATAGCAAAAAAGATGAATACAAATACTATAATAGGTGTAGGTGGAGGTAAAAGTATAGATATCGCAAAATATACTGCATTTAGACTAAATAAAGATTTTATAAGCATACCTACAGCTCCATCACATGATGGAATAACATCGCCTTTTGCATCAATAAAAGGATTAGGAAAGCCAGTATCTATGAAGGCTAAAGGCCCAATGGCTATTATTGCAGATATAGATATAATGAGTTCTGCTCCTAAAAGGTTAATAAACGCTGGAATAGGAGACACTGTAGGTAAAATAGTAGCAGTTAGAGATTGGAGACTAGCCGCAAAATTAAGAGGCGAGTATTATGGAGATTACACTGCATCTTTAGCTCTTCTTTCTGCAAAACACGCATTAAACTGCACAAAGATAATAAATAGAGACCTAAAATATGGTGTAAGATTACTCACGGAAGCACTAATAAGTAGTGGAGTAGCTATGGGTATGGCAGGGAGTACGAGACCCGCTAGTGGATCTGAACATCTTTTTGCGCATGCTGTAGAGATGTTATACCCTAATTCAGCATTACACGGAGAATTAGTAGGAATCGGAACAATAATAATGGCATATATTCATGGAATAAAATGGAAAGAAATAAAAAGAGCATTAGCTAGGATAGGATTTCCTTTAACTGCTAAAGAGCTAGGAATACCACGAGAAATCGTAATAAAAGCATTAACAATAGCCCATACTATAAGACCAGAAAGATATACAATACTTGGAGATAGAGGATTGACATGGAGTTCTGCTGAAAAAATAGCAAAAGATACTGGAATAATAGATTAAATTTAAAAAACGGACTTATCGTATTTTTCAGTGTAGCTTACAACCGATTCTGGAAGAACAAACGTTATTATATCCTTTGCTAACATGAATTTCCTCATCTGTATATCTTCTAGAAGGAAAATATCCTTATTTACGTTAAAATTAACATTTTTCTTATCATCTGTAATTTCAAAGTTTAGTTTAGGATTACTACCGAACCATCTCTCTAATAAAGCCGAAATTTTTTCCTTATCGTCTTGTAATTGTTTAACTATTTTTACCTGATATAAAATAGTCTTTCCTGCATAAGGATGATTAAGATCTATAATTACTCTTCCACCGCTTACGCTTTTTATAGTAGCTAAAGAACCATCCTGAAGTCTTATTACCATATTTGGATAAGGGCTAATACCTTGTCTTTTTAATTCTCCTAATGATACTATTTTTATTTTTGTAGGATCTCTTTCTCCATATGCTTTATCTGGAGTAACTTCTATGGTTTTTTCTTCGTTTATATTAAAATTATATAATGCCTCTTCAAGCCCTTTTACTAATCTATGTTCTCCTAATATAACAAGTTGTGGCCCATATTTTTTTTCTGAATTGAAAATATTAGCTTTTTTTGCCTCTTCCTCAATAGTTGTATCAATTATTTCATTAGTATCCTTTATTTTTGCAGTATAATCTATATATAGGAAATCATTATCCTTGAACATATGAATCTAGAACCACTAAAGGTTAAGGATTTTAAAATTAGTTGTTAGAAAAGAGATGGGCCCGGAGGGATTTGAACCCTCGACCACTCGGTATCTCAACAGGCTATGAGCCGAGCGCTCTACCTAGCTGAGCTACGGGCCCACTTCTATTTTCTATAAAATAATCCCTTATAAGACTTACGTAAAAAATTATGTGCCGTATTTCCATTGTTTTATATACTCTTTTTGTTCTTCAGTCATGGTCTCTATTTCTATACCCATACCTTTTAGTTTAAGAAATGCCACTTGCTCGTCTATATCTAAAGGTACATTATAAACTCTTTTTTCTATAGATAAATGATTTTTTACAATATAATCTACTGATAAGGCTTGATTAGAAAAGCTAAGATCCATAACCTCACTAGGATGTCCTTCTGCGGCTGCTAAGTTTACTAATCGACCATCTGCCAGTAAATACACTTTATTCCCATTAGGTAATTCGTATTCTTCTGTATATGGTCTTATGGTTCTAATATTTTTGGCTATTTCTTTCAATCCTTTAACATCTATTTCAACATTAAAATGTCCAGCATTAGCTAGTATAGCACCGTTCTTCATTAGGAGTATATGATCTTTGGATATTACGTTTATATTTCCAGTAGCTGTAACAAATAGATCTCCAATTTTAGCTGCGTCTTTCATAGGCATTACATCAAATCCATCCATCAAAGCTTCTAATGCCCTTAACGGACTTACCTCCACTACTATCACTCTAGCTCCCATTCCTCTTAATCTAGATGCTATGCCTCTGCCAACCCAACCATAACCTACTACTACAGCTACCTTACCAGCTATCAAAATATTTGTAGCCCTTAAAATACCATCTATTGCACTTTGTCCAGTTCCTACTCTATTGTCAAATAAGTATTTTGTAAATGCATTGTTAACTGCTATAACGGGATAAAGCAATACTCCTTGTTCTTCCATGGCTTTTAATCTTATTACTCCAGTCGTAGTCTCTTCTGTACCTCCAAATAGTTTAATATTCCTATATTTTTCATGAATAAGAGCATGTAAATCTCCGCCATCATCCATAACAACGTTTGGCTCATACTTTAGAATTTCGTTCATATTATTGTAATAATCTGTTTCTGACTCTCCTTTCCATGCGAAAACATGTATTCCATCATATTTAACAAGAGCCGCCGCTACATCGTCTTGAGTAGAAAGTGGATTACTTCCTGCCAGGTATATATCAGCTCCAGCTGCCTTTAATGTTCTAACTAAAGCTGCAGTTTCTTTAGTTACATGTAAGACTGCACTAATTCTTATACCTTTAAAAGCTTGAGAAGAAGATAGTTGTTGTCTTATGCTAATTAATGCTGGCATATGCATTTCTGCCCATTCTATTTGTTTCTTACCTTGATCTGCAAGTGACAGATCCTTTACATTATATTCCATGCCTAAATAAAGATAAAACTACATTATTAAATTTAAAACCTATTTAAAGCCTAAAACATCGGCATAATTACCTAGATCTAATAATCCATGTCCAGAGAAACTTACAAGTACTGTTTTTTCTTCTCCTTCTTTTTTAGCATTATCAGCTATTTCTTTAAGTATTGGAAGGGCATGACTAGTTTCTGGAGCTGGAATCCAGCCTTCTATCTCCGAAAATATTCTAGCCCACTTAAAGGCTTCTTCTTGGCTATAATCCCGTGATTCAACTATTCCCTTATTCATTAAAAGAGATAATGAAGGAGCAACCGCATGGTATCTTAATCCTCCAGCATATACTGCAGGCGGTATAAAATCATAACCTATAGTGTACATTTTTAGCATTGGGAGTACCTTCCCTGTATCTGGATAATCGTATCTGTAAACTCCTTTAGTCATTTTTGGAACTTCCAGAGATCCAGATGCTATATATTTTCTTCTTATTTTTCCACTTCGTAATTCGTCTCCTAAAAATGGATATGCTAAAGCAGCATAATTAGATCCTCCGCCTACAACTCCTATTATATAATCTGGATCTTCTCCAATTTTTTCCATTTGAATTTTTGCTTCTTGACCCGCAATAGTTTTATATAAGATATCTGAATTAACTACACTTCCTACTAAATATTTTCCTCCATTATTTAAGGCATACGTTATAGCATCAGTAATTGCTATACCTAAACTACCAGGATTATTTGGATCCTTCTCTAAAATCTTTTTTCCATATTCAGTAAAATCTGAAGGACTGGGATGTATCTCTGCTCCATACATTTCTATCATATATTTTCTATAAGGTTTTGCAAAGTAACTAGTTCTAACCATAAATACATATGCTTTCATTTTAAAAAGAGCACTAGCTAATGCTACTGCCGATCCCCATTGCCCAGCTCCTGTTTCAGTAGAAACAAACTTAGCATTATCTAATGTAGCATAATATACATGCGGAATAGCACTGTTAATCTTATGAGAACCGGTATACGTATGACTTTCCATTTTCATATATATCTTAATATAACCACCAAGATATTCTTCTAATTTTTTAGCTCTAATTATAGGCGTAGGTCTACCTACTTGTAAATATCTTTCAATAACCTCATCAGGAATTTTTATATACCTCTGAGTTGAGAATTCATTTTCCAAATCTTTTGATGGTAAAGCTTGTTTTAGAACTCCAAAAGATTTTCCAGTAGGGTCTTGTGGTTGAGGTAAAGGTTCTGGTAAATCCGGAAGTATATTATACCAATTAGTTGGAATCTCGTCTTGAGATAAGTCGTATCTAAGAATCATAATAGACTGTCCCTTTAATAATATTTAAGATTTTAAGTAATTATCTAATAAAGAGATAAAGGAATGGGCCCGTAGGGATTTGAACCCTAGACCTCTGCCTTGTAAGGGCAGCGTCCTAACCAGGCTAGACGACGGGCCCTTACTTTATTTCTATCCGTTTTATACTTTTATAGTTTTCTTTTAGTTTTTGCTATTATTGATTACACAATAAAGTAACGCACCCAAAGAAGCCACTGGACCAATATCTAATTTTATTCTAGGGAGTCTAACTATTTCACCAAGACTTTGTTCAATTTTTGTAAATCCACTTTCTATTCCTGAAAATACTATTAATGTTTTTTTATTATAATCTATACTATCTGGATGCAATTCCTTATCAGAGTAATTTGATAAAAGGTATACGTTATCTGGATGCAATAATTCTATTGCGTCTTTAAGATCAGGTAAAACTATAAACGATTTGCCTTGTTTAAAAGCCAATTTACTTAAATCTGGTATACCTGTTTGCGCGGCAGTCCCACTAACTTTAGTTATTACAAAATATTTAATATCAAAATTAAATACTGCTTTAGAAAAATCCATCAATCTTTGATAACTTGCAATATTATGTAGACCTATCATTATCACCAAAAATTTTCACCTTTATATATGATGCTATAGCATTTGATAAGACTACTGGAACTGATTCACCTATTTGATTATACTGCTCGTCTTTACTACCTATAAAAACATGATCGTCTGGATAGCTCATAAGTCTTGCTTGTTCTCTCACAGTTAGATACCTATCATGAAATGGATGAATAAATCTAGAATTACCTAATATTGTTGGAGCTAGGTCATACGGATCGAGTCTAATATAAACAGGAACATCGCCCCTATAACTTCTAAACATAGTTAAATAATCTCCGTAGCTTAGTTTTGAAATCTCTTTCATTTTCTTTTCTGATAATTCAGTTATTTCATTATTAGGTATATCAAATCTTTCTTCAAGATCATTTATAGCCTCTGCCACGGTAACTTTCTTTTTATCTTTAGCAGGGCATATAGCTATATTCGAAATAAATACTCTAGTTCTTTTAGACGGATTCCCATAATCTTCAGCATGGAGAAAATTAAAAATTGGTTTATAACCATTCTTCATAAATTCTGTAATTAAGGCTTCCTTAAGCTCTCGTGTCTCAACTATTGCTGGTACGTTCTCCATTACAAACACTTTAGGTCGTAATTCTCCTATTAACCTAATATATTCAAGAGTTAGGGTACCACGCTCATCTAAATACAATCTATCTATAGCATTATTCAATCTAAAGGGATTAGCAGCTGTAAAAGGTTCACAAGGAGGACTTCCTATTACAATATCTGGAGGTTTACCTCCTATAAGATCAATTATATCTCTGCTTGTTATATTTCTTATGTCATCCTCGATTGTAATTGTTGAAGGAAAATTCAAAGCATAAGATCTTGCTGCTGAGTGATTTATGTCAATACCTAACAATATTTTAAATCCTTGTTGCCTAAATCCTAATGAAAATCCTCCAGTTCCACAAAAAAGATCAACTACTGTTAGAGGGGCCAAGTTTAGTCTCTTTATCTATTTCATCTTGCAAATCTTTTATCTTCTTCCCTAATACTTCCCTAACTTTTTTAGAGTCATAATATTCTAGTTGTGACCCACAACGCGGGCACTTAAATTCGTTCTCAAAGGCTTCCTCGAAAGTATATTTATTTTTATCTTCTGGACAGATATAGAACTCATTGTTTTCTTCGTACTCTAATCTAGTTTTTAGCTTCTCTAAAATTTCTCTTTTTCTATTTAATAATATATCGTTTATTTGATCTGTATTTACTTTCCAATAATATACGTACCAACCAGTATCTTTATCTCTAGACCGCCTGTAGCTTACTAAACCTTGGTCTGCTAATGCATAAAGTTTTTTCCTTACTTCGTTCACTTTTACTCCTAATTCATTAGCTATTTCATCATCGGTTATTTCTATTTTTCTGTTTAAGAGAAATTGCAAAACATCTAAAACCTCCTCTCCTAATAACTCTTTAGCTAGGCTTGTGACCAAATTATCTATATTACTCATTTTTTAATCACCTTTTTTCCTGCTTTTTGGGGAACAATAAGAAATTTTGAGTCTCCAAATACTATATTTAGTTGTTCTCCCTTATATATTCTATCTAAAAAAATTGCTAAAGCAGCAACTTCAGAATGTGGCTGATTAGAGATTGCTATATTATAATCCGCAGCATGATAATACCAACTTTCTACTTTTTCTGCACCTACAATTACGAGAATGTTATCTAGGTCTGGTATAGTGCCAGCAATACTATTAATATTTATACCATACATAGTAAGATGAATAACTTTTCCGCCGTTGTTTTTCCATTCTTCTACGAGTTTCTTTGGGTTTTTAATAAATGAAAGAGTAAAATAATTTCCTCCCCACTCATTTTTTACCTTTTCTATACTTTTAAGTATATTTTCATCCTCCCCTTCAATATATATCCCCTTAGCGCCGAAAGCTCTGGCAACCAATGCAACATGCGTAGTAACTCTCTTGTCTCTACCTGGCCTATGACCAAGTCTTAGTATATAAATATTTTTTAACTCAGAAGTTTTAATGTTCTCTCCCTCAGCACGTCTATATTATATAACTTAGTTGCTGAAGTAGAAATAACATCAATTATCGGAAAATAAAGTTCATTACTTAGCTTTGAAATAATGTCAAGTTTTCGTAAAACGTCAGTATTATCATGCACTTTATCTACTTTATTAGCAACCATTATTATAGGTTTGCCAGATACACCTATTTCTCTTATTATATTAAATGATGATTTTATCATATCAATTAAGGTAAGATCTGGCAACGAAATATCTACTACCATTAGAATTCCAGACGCATATTTTATTTCTGATAATGTGACAAAGAAAGCCTCAATAATTTGAGGAGGGATTCCTCTTATAAATCCAACTGTATCTACAAGAAGAATCTTTTTACTATCAACCTTTATTGAATATCGCTTAGGCGAAGTTGTGGTAAACATAGAATTATCTACTTTTTGACTGAGCCCAGTAAGTGCGTTAAATATTGAAGTTTTGCCAGCGTTAGTATAACCCGCTATAGCAATACTCGGTAAACCTTCATTTTTAGTCTTTTGGACCTGAATTTCTCTACTTTCCTTTAGATGTTCTAATTCTTTAGATATTCTTGATATTTTTCTATGATAAAGTCTTAAAGTCGATTCTACGCCGTATACTCCTGCGCCTAATGGACCTTGTTGTTCTGTTATTTTAGATTTTTTATACATATCCTTTATTATAGGTAACTCGTATCTTAGCCTAGCTAATTCTATCTGTAGCTTTGCTTCTTTAGATCCAGCATGAAGCGCGAATATTTCTAACAATAGCAAAAGTTTATCTATAACTTTCTTTTCAGGTATTTTCCTATTAAGGTTAATAAAATGTCTTGGCCTAAGTAAATCGAAAATTATTATAGTATCGATATTATTAGACTCTGCAATTTTAGCCAATCTGTCTTCTTGAATATAAAAAAATGAATTAGGCTTCTTAGGTAATTTATATATATCTAAAATCTCATAACCGGCTGTTTCAGCTAATGTTAATGCTTCATCTTTAAATTCGTCTGATACAAAGAGTACTGCTTTCACTTCCTCCCCTCTCTTATGTTTATTATATCACCAAGCGTTAATTCATAATTATTTATATTATTAGAGTTATTATCATTGCTCTCATCAATTTTTACTAATATTTTTATTGATAAGATCCTTTCTAAATCTTTGGCTAGTTGTATTGTTGGTTTTAGTTTTCCAGTTTCAATTCTTTTTACAATATTCTCTTGAACTTTTAATTTTTGCGCCAATTCTTTAGTGCTCATCCCGTGACTCTCTCTAGCTTCTTTAATTATTTTCGGATAGTCATCTACTATCTCCCATATAGTTTCTGTTTGAGTTTTTTTCGTTTGTCTTGATTGTACAGTATTTTGCTTTTTATTTTCAACAATTTTTGCATGACTTTTTATTTTTGAATAACATGCAGGACAAATAGTAATCGTACTACCTTCATAGTTCACAGTAATTCCCTTCCCATGTATTACAGATCCACATAACTCACAGTAATTCTCGGCTTCTTTCTGCATACTATCACTTATATAATAAATGGCAACAAACATTTTTAGTCTATCTCATAAATAAGTATAATGGATAAGTTTGTCTGGAGAATTAGATTTATCTAGGGATAATACTAACTCAGATGAGCAAATAATTAAAATTTTGGAAGAAAAAATTAAAGCATTACAGATTGAAGCTGAAAGTTTAAGAAAAGAGCTAAACTACTATAAATCGGAATTAGAAAAATTACTTAGCCCACCATTAATCGAAGCAGTAGTTCTGGACGTGCTTAATAATAATAGAGTAATAGTACGAAGCACTTCTGGACCTAATTTAGTAGTAAACCTGAGTAATGGAATAGATATATCAAATATAAAGCCGGGATCGTCAGTAGCACTGAATCAGAGAGGTTCTACTATAGTAGAAATCTTGCCTAATAGAGAAGATCCATTAGTTAAATCAATGGAAATAGTTGAAAAGCCAAGCGTGAAGTATAGTGACATAGGAGGTCTAGAAAAGCAAATTCAAGAATTAAGAGAAGTTGTTGAACTACCTTTGAAAAATCCAGCTATCTTTAAAGAACTAGGAGTACAGCCTCCTAAAGGAGTTTTATTATTTGGTCCACCAGGAACAGGAAAAACAATGTTAGCCAAAGCAGTTGCCACAGAAAGTAATTCCACGTTTATCCATGTAGTAGCATCTGAATTTGCACAAAAGTTTGTAGGTGAAGGAGCTCGTATTGTAAGAGAAGTCTTTGAATTAGCTAAAAAGAAAGCTCCTTCTATAGTATTTATTGATGAAATTGATGCAATAGGGGCTAAAAGAGTTGATTTAGGAACTAGTGGAGAGAGAGAAATTCAAAGAACTCTCATGCAACTACTTTCTGAGTTAGATGGCTTCCAACCATTAGACAACGTCAAAATAATAGCAGCTACTAATAGAGTGGATATTTTAGATCCCGCATTACTAAGACCTGGCAGATTCGATAGATTAATTGAAATTCCTTTGCCAGATTTAAAGGCTAGAAAAGATATTTTGCAAATATATATCAAAAAAATGAAAGTTAGATTAGATAATTTCGATATAGATAAAATAGCACGATATACTGAAGGTTTTAGCGGAGCAGATATAAGAAATATTTGTACAGAAGCTGGATATATAGCAATTAGAGAAGGAAGAAGAGAAATATATGTTGATGATTTCATTAAGGCTATAAACAGAGTAAATGAAAACAGAAAAAAGGAAGAATATAAATCAAGAGAAGAGAAATATGCGTGATAGAGAAGAAAAACAATTCGTAACTGAACCTCAGGAGTTAGTTGACTTTGATTTTATCTATCTAAGAAATATTGCTGAATATCAATTTAGGCAAGATATTGCTAATTGTCTTTTTCCAGATAAGTCAATTTTTTTTATACAAAGGTCATTAAATACTTGGAGAATAAGAAATATCTTAAATAAAGATAATTCTTTATATCTAGTACTTAGAGCACAAGATAATCTATTTTCATTAACAAACATTTCAGCAAATATTATAAAACAATGCTCAAAACCACCAGATTTTAGGGTGATAATCTCCAATGATATAGGGAGAATAATAAGAGAAGGAGGGAATGTGTTTTCTAAGCATATAATAAACATTGATAAAGGTCTTAGATCTGGCGATAATGTAATAGTAGTAAACGAAGAAGACGAACTAATAGCCTACGGAAGAATGAAAATATCTGGAGAAGAAGCAATAGAATATAAGAGAGGAGTAGCCGTAAATGTAAAGGGGAGATTAAAAAATGGGAATAATACTTAAGGGAATTAGTGAAAGCGAGCTTAAACATTCTTTCTTTATAACTGGATTTAGAACATTAGGTGAAGTTGGTTACTTGGCAACTAGACATATAGTATTAAAAAGAAGAATGCAACGAATAGGGTTTATAACTACTAAATACTTGAACGGAGTAACTTTTTTGGACGAATATGGAATTGTAACACCTTTCGAACTGTTTTATGACAAAGAATATAACGTAATTGTGGAATTAAACCATATTTTACCAGTTGAAAAAGAATGGAATGTCTTTTCAAGAAAAATTGTTAATTGGGTAAAAAAATTAGAGATAAAAAACGCCATATTAATAGGTGGATTAGATAAAAATTATAAAACTAGTAACGAAAAACTAAAATGGATGAAAACATCTAAAAGTGATTTAAATTTACAATATCCAGAACTTGACAAACAACTAATTATGGTAGGTCCATTAGCATTATTTACAATTTATTCCGAAATTAAAGATGTGCCAGCAACTGTAATACTTCCATATTCAGATAAAGATAGGATAGACCCTGCTGCGGCTGCGGCTGCTGTAGAAGCTATAAATAAAATAGTGGGCTTTGACATAGCTGTAGATGAATTATACGAAGATGCAAAAAAGATAGAGGAAGAAATACGTAAACAACTTGAATACTTACAAAAAGAGGCTAATAGGTCAGGGCTTGATAGACATTATATGTGATAATATAGATTTTTCACAATTAGCAAACTCTATATTATCATATTTTTTGGATTTTATGAAATTGGAAATTTGAGTAATAGTTTTTGAAATGACTTCAGTAGATAATTCAGTAGGCATTTCAAATTGCGCAAGAGGATAAGATTCAGAAATCATCGCTGGTATTAGGCCATAGAATGGTAATGCCACATAAATGTCAGAATCAGAATAGCGTTTTAGTAGAATTCTTCTTACTTTAGAGTCATTTATAACTGGGACTGTTAAATTATCTCCACATATTATAACTGCATTACGATTATGCTTTTGTAAAGAATCCAAGAATCTATAGTGTCTTAAAATTTCTGGTCTTGAAAACGAAGTTTCGTCAAAATAGAAAATACCTTTAATTTCGCCCTTTACTCGTGGATCATATTTTTCAAGGTATTCAGCGTATTTTAATAACCGTCTAAAAGCAGAATATACTGCAGGATGAGAATAAGATTTCTCTTGTAAATATTCAAATAATCTGTTCTCTTTGATAGCTAACTTAGTGTCGTTTATCTCTTCCAAAATTTTATATAAATTATGAAGAGCTAATAGTCTAATTCTACTGTCCTTATCCATTTCCATAAGTTCTTTAGGAGAATATTTAGAACATACTGGACAACTGCAAGGAAAGTAATCTAACTCGTCTAATTTATATGTTCTTGTCCTGGTAATATATCTATTATCCCTGGCATATATTATATACGATGCGGAATCAAATGAATCCACGCCTAAAGCGACAGCGAACGGAATTATTTGTGGAAGCCCTCCTCCAAATAAATGAAGAGGTTTTCCTCTTGAAATATTCGATCTTACAGTAAATATCATATCTATTAATGTGGCATAGTCATACTCTTTCATAATAACTGTAGGACTTCCTAATGCCAGAAATTTATATGACGTATTATTAGCAGCCTTTGCAGAGTATGAAAGTAAGTCTAAAAACTTACCACCCTGAATAGGGTGAACCCAAACTATCTCTTGTTCATCTTTAATAATTTCAAGAGTTTCTTTTCCTCTATATATCGTATCTTCTACAGTTTTTTTTGCATCTTCAAAATTATCTATATTACCAGTTGGAATATCCAAAAAAACTGCAATATCTGGCTTTATTTTAATTTGATAATTAACTATTTCAGAATTATTTATATTAATATTTCCATATTGAAGAATCTGATATGCTCCAGAATCAGTCATTATCGTACTATCAAAATGCAAATCGTCATGTACATTATTTTGTATAACATTATTTTTATATAATATATATGAGTTAGTTATAAACTGTTTAAATTTCAATTGTTTTATATCATCTATAGTTATTTCAGATTTTAATGGATTTACAACTGGAAAGAAAACTGGTGTCTCTAGTTTAGAATGTTTTGTTTCTAATATTCCGATACGACCTGCTAGGTCTTCATCTTTTAACTCAAAATCTCCAATCATTTTAATTCTTTCCTCTTCTTTGACATATAGTCATTATACATGTCATAAATCCTCTGGGCTAGTGGTCCATTACCTTCTACGCCACCTTCAGTTACTTTTATTCGTTCTAAAACAGTTATTACTCCTGCTTCTTCATATACCTTAACATCACCTGGTCTTAGATTCAAAGAATGCTCTATTATATCTGCAAATTCCTTAACATCAAACAAAGGGGCATTCTTGACTAGAATCTCTGTTATATTATTTCCATTTAGTATAACCTTAAAAAATGTATTATTATCGTTATCTTTGGCATTAGATAAGCTTATTATAAAAGGAGTAAGCTCATATGAAGATAATTGACCAGTATATACTCGGTTATTAACAAGCTTTACTATTACTGTTTTATCGAGTAATGAATTTATATCTGAAACTATTCTTCTAACTATACTCATAATTCTTGCCCCATAAAGTTAATATATAAGGATTTAAATAAGGAAATGAAAAATCTTGCTCTCGAAAAATAGTTATGAATATCAAGAATTATGTAGGATTACATCTATAGAACAAGGAGCTATAAGAGGTATTGACGTAATCAAATTAGATTGCGGAAAAATAAAGATAGACGTCGATATGATATCACAAATAAATGTCTTTACGGCCAATCAACAAGTAAAATTCATTATTTCCAAAAATAAACCAGAATTCACTAATAATGATTTTTGTGCACATGGCTATGTAGTAACTGAAAAGCATCAAGAAAGTTACGTTACAATTATTTCATTATTTGGACCTTTAATAAGAATAGTTTCAGACGAAAGCTTCTGTAATAAATATAATATTAGCATTATGGACCATGTATATGTCTGTATTATAAAAACATAACAACTAACAAATTATGCGTTAAAAATAGTCTTAGCTTGATATAAACTCCGTATCTATCTTGTTTTTAGTTATAGTTAATATATCAATTCCATCACCGGACGTGGTATCTCGCTCTATAGAGGCCCTTAATGATGAAATTACCAGATCTCTCCCTTTATCTATAGATAAATCTTCTTTATATGCTGACTCTAAGACTCCTATAGCCACTCTAGCACCAGAACCTACTGCAGCATAAGTATCTTCTAATAAGGATCCAATGGGGTCTAAAACATAGAACTGAGGTTTCCCGTCATCCATTCCTCCAAATAATATCTCTGAGATAAATGGCATGTACTTATACTGGTAAAGCATCACTGATAGTAATTTAGCAGCAGCTTTAGTGGATATTGGCCTATTATTAGATAATTCATAATATTTAATGTTAGCATTCATTATTCTAATAATTGCTTGGAAATCACCAAAAAGTCCTGCTCCAGCTATTCCGAATTTTCCTAGAATAAATACTTTTTTAGCAGATTTACTAAGAACATAACCACCATAGCTTAATCTTCTAACAGCACCTAAAATTACTCCATCATTTAATCTTATTCCCACCGCAGTTGAAGGAAGTTCTTCCATTTTATATCAACAGAATAAATAATGTAGCTACAAGTTATAATATTTGTCTTAAATGTGTAATGAGTTCATCTGAACTTACTATTTCTTGCGATCTAGAAGCAAGATCTTTAAGAACTACTTTTCTAGAAATTTTCTCATTATTACCTACTATAACGGCATATCTTACATTCTGTTCAAAATAGGAAGATAAAAGTTTACCTAAGGACTGCTCTTTTACATTAAGAATAGCTATTATATCTGATGATCTTAATATATCTAATATTGAGAGTGCGTAATCTATTACCGAATCGTCTAGAACTATAACTACTACTTGAGGTGATCTGTAAGTCTCATAATTTATTAGTACTGATGTTCTTTCTATACCTATTGCAAAACCTATTGCTGGAGTATACGTTCCTCCATATATTTCTACTAAATTATCATACCTACCGCCTCCAGCGACACTAAAAGTAACTTTAGGGTGAGTTATTTCGAATATTATCCCAGTATAATATGCCAAACCTCTTACAAAACTTAAATCTACAACAGATCTTATATTAAGATTATTTAGTATGGTAATAGTTTTTTTAAATCTATTAAACTCTTCATCTAGGCATTTTATTCCGATTTTTTGTATTTCTGATTCAACTTCATCCATTTTTAGATTAGAATATAATAATGTATTAATTAGATTTAACACATTATTCTGTGATATATATTTATTCAAAATCTGCATACTCTCGTCTTTTTTACCTTTGTCTATTAAATGTAAAAGATGTTCTTGAACATTTTCCTCAATATTAAATTTTCTAAATATGCTTCTATATAATCCTATATTATTAATTTTTAATAATATAGATTTGGATAATCCTAATTCATTATAAAAATCATAAAGAAGCTTTATAATCTCTATATCGCTTAATATTGAGTTAGAACCTAACATTTCCACTCCAGCCTGTCTAAATTCCCTATATCTACCTAACTGTGGTTCATCGTATCGATATACTCTTCCTATATAATATAGTCTAATAGGTTTAGGCAAATGCTGCATAGAATTTAAGTATAGACGAACTATACTGGGTGTAATTTCTGGCCTTAGAGCTACTTCTCTTTCTGCCTTATCTTTAAATACGTACATAGTATTTCTTATCTCTTCTCCGCTTTTTATTGCAAATAACGCAAAATCCTCTACAATAGGTGTTATAGTTTCTTGATAACCTGCTATCTCTACATGTTTTCTAAATAGCTCTTCCAAATATCTTAACTTTTTAGCTTCAATTCCATAATAATCTTTCATTCCCCTTACAGGTTCGAAAGATACCATTACTAACCCTTCGTTAACTTAGTTTCATCTACATTATAATAAGTTATATCACCGTATTTATCTACTATAGAGAGATATACATCTACTCTCAATGACTTTGATAATTTAACAATTTTTTCCAGGTCTGACACCAATATCGGTTGATTTTCAGTTAATACGTATACTAATGAGCCATGCTCATTTGAATTTTTTTTCTCTATAAATATGAAATCTTGAGATTTTGAGAGAGATATTCTTTTTCCTTTATTCTTAAGATCTATATAAACAACTATCTTGTCCCATATTAATTTATCCTTATCATAATTCTTTTTTACATAATCTATAATTTCATCTATATCCAAATCTATTTGAAATTTTTTTATTATTTCATCTATATCCATATATTATCACCAAACTTTCGATCAAGACACCCACAATTAACATTTGTAAAACAAACGATTTGTATATACTTTAAAACATTATTCTTTATGAAATGCCCATCATGCGGATCAACAAACATAATATGGAAATCAAAAGAAGGAATTGTAGTATGTAGTGACTGCGGTCTTGTAATAGATGATAAAGCATATGACTATTATCCTATTTACTTTGATAAAGAAATTAAAAATACTATAAACTCATTACAGTCTAAAAACATGGAAAGAGATAGTTATAGAGTTATCTCTAAAAAAATAAAAATTACAAATAATTATAATATCAATAGAAATCAAAATGTTGCAAAAAGTAATAATATAATAGCATTAGAACTATTAAAAATGAATTCTAGCGCATTAAAAATATATAATGTGATAAATGATAATGGATACTTATCTGGAACACAGATAAAAACTAAGGTAGCTGTGAGTTTCTATCTAAGTGGATATAATACTAGGAAGATAAGAAGTATTTTAGAAAAACTTCAAATAAACGAAAAATACTTTAGAAAAACCATAAAGAAACTTACTATGAAAGAAAAGATAAGGATAATCGAAATGGCTAACATATGAGAGGAGCAAAAAATTTTTATATAAGCTTTTTCTAAGTGAACCAGAAAAGGTGAATTGGTAATGGCCTCAACTGCTACAGTCGCAACTACACCGGAAGGTATACCTGTTATAATTTTAAAAGAAGGTTCAAGTAGAACTTATGGTAAAGAAGCTGTAAGAGCTAATATAGCCGCAGTAAAAGCTGTAGAAGAAGCGTTAAAGAGTACGTATGGACCTAGAGGAATGGACAAAATGTTAGTAGATAGTTTAGGCGATATTACTATTACAAACGATGGCGCTACAATACTAGACAAAATGGACCTTCAACATCCTGCAGCTAAATTGCTAGTACAAATAGCTAAAGGTCAAGATGAAGAAACTGCAGACGGAACTAAAACAGCAGTAATATTCTCAGGAGAACTAGTTAAAAAAGCTGAGGATCTACTTTATAAAGACGTGCATCCTACAATAATAATAAGTGGGTATAAAAAAGCTGAAGAAGTAGCTTTGCAAACTATTCAAGAATTAGCTCAAACTGTTTCTATAAATGATACTGACTTATTAAGAAAAATTGCAATGACCTCTTTGAGCAGCAAAGCAGTGGCAGGTGCAAGAGAGTATATAGCAGATATTGTAGTAAAGGCTGTAACACAAGTTGCAGAACTAAGAGGAGATAAATGGTACGTAGATCTAGACAATATACAGATAGTTAAAAAAGCTGGAGGAAGTATAAATGATACTCAACTGGTTTATGGAATAGTTGTTGATAAAGAAGTAGTACACCCAGGTATGCCAAAAAGACTTGAAAATGCTAAAATAGCTTTAATAGATGCATCATTAGAAGTAGAAAAACCAGAACTTGATGCAGAAATAAGAATAAATGATCCAACACAAATGCAGAAATTCTTAGATGAAGAAGAAAATCTGATTAAAGAAAAAGTAGATAAAATTTTAGCAACAGGAGCAAATGTTATAATATGCCAAAAAGGAATCGATGAAGTAGCTCAGTCATATTTAGCTAAAAAAGGAGTATTAGCAGTAAGAAGAGCTAAGAAGAGCGATTTAGAGAAATTAGCTAGAGCTACAGGCGGTAGAGTAGTATCAAATATAGACGAAATCTCAGAGCAAGATTTAGGATATGCATCATTAATTGAGGAAAGAAAAGTAGGAGAAGATAAAATGGTATTTGTAGAAGGAGCAAAGAATCCAAAATCTATAAGCATATTAATTAGAGGAGGATTAGAAAGGTTAGTTGATGAAACAGAAAGAGCTTTAAGGGATGCATTAGGTACAGTTGCAGATGTCATAAAAGATGGTAGAGCCATAGCAGGTGGCGGAGCTGTAGAAATAGAAATTGCTAAGAAATTAAGGAAATATGCACCACAAGTTGGTGGGAAAGAACAATTAGCTGTAGAAGCTTATGCTAATGCATTAGAGAGTTTAGTATCTATTCTAATTGAAAATGCAGGGTTTGACCCCATTGATCTATTGATGAAGCTAAGAAGTACTCATGAAAATGAGAATAACAAGTGGTATGGAATAGATCTCTATGCTGGACAACCAGTAGATATGTGGCAAAAAGGAGTAATAGAGCCAGCTCTTGTTAAGATGAATGCAATAAAAGCTGCTACAGAAGCAGCTACATTAGTTTTGAGAATAGATGATGTAGTAAGTGCTGGAAAGAAGAGTGGCGGAGAAAGTAAGACACCAGGCGGAGCTAATAAGCCATCAGAAGAAGACTAACATTTTTTTATAATTTTCTTATCTTTATTAGTAAAGGAGTTTTTGTATTTGGTGCTGATAATATAGCTTCACCAACGTCTAATTTATCTAATGCCGAATAGAGGTTATCTGGTAAAGAAAGAGAATCACGCAATATTTTCTTATCTATATCGGACTTTATTGAATGAATAATTTTTATATTAGTATTCTTCATTACTGCGCTAGATATGGAAGAAGGAGATTGAGATATTATGCATAACCCTACTCCAAATTTTCGTATTTCTGATATTAGCTTATCTATAAAATCATTTTCCACATTAAAGAAATTATGTGCTTCCTCAATTATTAATAACAGTTTTTTATCTGGCTTGTTATTCATATAAAAATCTGTTATATATTTAAGTAAAAATAATCCATACAGTTTTCTTAACCTGATATTATTTATGAAACTCAAATCAAATACTATACCTTTTTTACTTAATAGATCTATAATTTCTGGGTTTGTGTCAGCTGAGAACAATAATTTGCCTTTACTAGTAAATAAAGGATATAGTTTTCTTGCTAATGCATATTTAACTTCCCTCATCCAATTTGATTGATCCTCAGTATTTTTTAATACATCGAGCATATCAGTTAATCTAAACCTCTTATCTTTTCTTAACTTTGATATTATAAGAAATAATAAAAATCTTTGTGGATCAGTTAATTGCAATACGTCTCCTAGAATATCTATAATATCATCTATATCATTAAATTTTAATGGATTTATTTTATATAAATTTCTATAATTGTAGATAGTATAATCACTAAGTTTATTACTATATTCTCCATGCCAATCAAGTATCATTACGTTAAATCCCTTGTTAGAAAGTTCATTAGCTATTAGTGTTGCAGTGTTTGATTTTCCGCTACCAGTGCTACCAAATATTCCTATATGCCTAAGTACATCTGTAGATCTTATGCCAGTAGGAACGGTTTGATTGTGAACTAACATGTCTCCTAATTCTATATCATAGTCTACTATTATTTTATCAATAGTAGGAGACTCCATTTTAATATCCATAACTCGTGCAAAATTGACATTACCGAAAGCTAAAGGAAGCGGTAAAGCTTTATTCGAGACTGGTACTGCTTCCAAAATTATATGAGGTGATACTACTTTAGCTATTTCTAGAATATTATCAAACTCATATAATATTTCATTTTCACAATCTTTACATTCTTTATAAACTACGATAGAAGAAGAAGCTTGCTTACCATTAACACTAGTAAGTATAAGATATTGATAATTTTTATTTCTAGCTATTAATGCGTTTAATAAATTATTTAACTCTTTTTGTAAATCAACTGGATTTTTATCAAATTCTTGCTTACCTATTATTTTTGCTGCTATACCTGAAACATAACTCTCATTCAGATTTAAAGTGAATATATTTCTCCTTATTAGAAATTTCCTAATAGAAATAAAAGACTTTCCCCTTGTTAACACTATTGAAAATACAAAGGTTATTATAAGAACTATTATTAAGTAATATATTATATAACTTGCAATAAGATTTAATGCTACTAACATCAACAATATGGAAGATATTACCAAATAGAAAGGAAGTATCCTTCTGATTTCCATACTAAATATTTTACTAAAATATACTACTGAGACTTAACCGAATACACTGCATTAAATGTTAGTGCTATACGTTCTGCTATGCCTTTTATCTCTATCTTATCAGAAAAATCATTTATATCCTCTTTACAACATGATATTAAATATCCCTTATCTCCTTCCGATACTTTGTTTCTTTCTATACATTCCTTTATCTGAGTAGTGGAATTCAATAATAACATAAAATAAATAGACTTATCCTTAATCTTGGTGTTTTCCACATTAAAAAAAATATAGCAAGCTTGCCTAATTACAGATAATTGTGGTAACTCCTTTACAACTGTTGATACGCATCGGCCATCATAAGTTAGCTTCGATTTAATATCTTGATTCCATATAATCTCTCTAATTGTTAGCAAATTTAACCACCATGGTTTATCGGAATTACTCTTATTTCATTATTGAATAAAACTCTTTCATCATCAGTAAATAAGCGAATGTCTTTATCCCCTACTAAAACTATATATCCAGGTTTAACTTCATCTTTTTCATTTAATATTCCAAGATCCTTTAATTTAGCCTTTATAGAATAAAAACTATTTTCGTAGATTTCTACTGATTTACCATATTGCCTAGATAGTGGGCCTTCGAATACAATTTTTACCAAGCTTACTCCTCTACCTCTTCTTCAGTAGTGTGAACTGTCCTTGCTCTTTTAGCGTACCTAGTTAAATATCCTGCAACTCTGTTTCTAACCTTCTTAGAGTAAATATCTAGATATCTAGATACTAATTCCTTATTTTTTCCATAATCCTCTGTTATTTCATCAGCATATTTTTCATATAGTTCTGCTGAAACTCGTTTTATATCACGTGTATATATATTTCCCATTAAGCATCACATTAACTAAAACATCGATTATACTTAAAAAATTTAATCTGTACCTTGAGACGTATTCTCATAAATACTACGTTTTGCTTTAGTAACATCAGATTCTTTCTTAAATCTAGGCTTTAATTTTTCAGTAATTAACGGTAATGTAGTATACTCCATTTCACTAGGTTCTAATCTATGAGGCATAAATGGACCATGTCTTCTCATGTAGTCTGCAATATCTTCTGCTAATCTTCTAGTTTCGTCAAAAGCTGGATCATCAAATAGATCAGTAGGACCTACTAATCTACCGTTTTTAACATTAAATCCTAATCCTATTAATCTTGGTGGCCCATCAAATCTGGTAGCACGTGCATCTCTTTGTGATACTGGCATTATAGGCCCATAATGGCTTCCTCTCATCCATCCTGGTACTAAATATGGGAATGAAAATGCCTCTAATGCTTCACCTAATGCAGGAAAACCATGTTGAACCCTTATTATCATTACAGGGTCATCTTTTCCTACATATTTACCAGCTATCAAATTTAACCTTTCTATTGACGTTACTGCACCAATGTTATTGTCAGCTTTTCTATAAACTCTTCTTATAACATATTTTGATGGGGTTCCTATTAATCCTAAAATATCATATATTTCTTCTGGAGAATTAAGGATAACGCTTTCTCCTTCAAAAACATCTAATACTTCAAACTTGAATCCTTCATGCATAGTCGGATCTATTACTAAACCTGCTGTATTAAAAGGATCCGCAAACATTTTATACTGCGGATAATTAAAGGCGCCTGGCTCAGTCTTATCGGCCATGAATACCACAAAAGGTTCTGCTGGTCTCTCTTCAATCTCCATTTCCGCTATTCCAGGTCCCATTCCCTTCAAATTACCAGAAAATGTATCAGAAAGAAGATCTTGCCCTGCAGCATATAGTCCTAAGTCTTTTGCAACTTTTGTTGCCTCTTTAAACGCTTCCCATGCAGTTTCATGAACTTTCGTATCAAGTTCTCCTCTATTATGCGTCATTATAAGTTCTAAATCATCACCTACATTTGTAACATAATAATCTATAATTATATTTTGTTTCTTGGCTTCTGCCAATACCTTATTAGCAGCAGCCATAGTATCAGGGTGAACAACGTGATGCCCTGCTAAACTACCTATATCGGCCTTTATTACACTTATAGTAGTCTTCATATCTATCATTCTATACTGAGAGCTATTAAATTTTAGTTTTACTCTCTACTTGTTTCCATTGAATAATATTCTCCCTTGTCCTTTTGTAATCTATCAAGGTAACTATCTAGTTTATTCACTCTAGGCCTTCCACTATCTGCGTCTCTTCTAAAAGTTAGTCCTATTTCCTTTAAGAATATATTCATGCCTTTTCTTAAACTAGTTGGAGAATATCCATGTCCTTCTTTACCAGGTTTACCTAGAAATACTATTAGCCTATCAGATATATAATCATGCAAAGCTAAATCATGGTCTACCATAAATGTTACGGCTTTTCTTTCTCTAGTTATTCTTTTTATTGCTTTAGCTACAATATAACGCTCCTCCACATCAAGATATGAAGACGGTTCATCAAAAACGTACAAATCGGCCTGCTTAGCTAAAGTAGATGCTACGTATAGTTTCTGTAGTTCCCCTCCACTTAAATCCTTTACGTTAGATTCTAAAATTCTATGCAAATTCAGCCTCTTAATAACTTCTACAAAAAACCACGACGAAGAAGAAAGTATATCCTTACTACTATTCTCTAGAAATTGCTGAACGGTACCATTATAGTCCGGAACTAATCGTTGAGGTTTATATGATAAAGATATATTAGGTGGTATTATTTCTCCAAAGTCGGGTTTAATTTCGCCAACTAAAATCCTTACAAAAGTAGTCTTGCCTATTCCATTCTGTCCTACTATACCTATAACTTCTCCTTCTCTAGCGTCTCCTTCATCAATATCTAGGCTAAAGTCTTCCATTTTTTTGCTTATCTTACTCCATTGTATTCTTAACTTTATATTCTTTGAAAAATCTAAATCTGTAAGTTCTTTAAGTAAAAATTTTATTTCGTCCTGCCTAAATTTAATATTTTCTACTGGCAAATAACCATTAAGAAAATTATTTATACCTACTCTAGTAGAATATAATTTAGAAACTTTACCGTATACACTACTTTCTCCAAATATTATACTTATTAAATCAGCTAAATAATCCATAACAATTAGGTCATGATCTACTACTACAGTATATTTATTCCTAGTTAATTCTCTTATACCTTTTGCTACATTAATTCTTTCTTTAACGTCTAAATAAGAAGACGGCTCGTCAAACTCGTACACATCTGCTTCCCTCAATAATGTAGCAGCTACTAGAAGCTTCTGAAGTTCTCCTCCACTTAGATATTGTACAGATTTATCCCAAAAACTATCCATAAACAATAGGGATTTAACTTCATCTATTTTACCTCGTTCATCAACTTTTGACAAAATATCTTTTACTATCCCTTTCAAGTATCGTGATACATATTCTATATATTGAATCTTATGTACAACTTTTAATTTTCTTGAATATAATTTATAAAAATAATCATATAATTCCTTACCTTTAAATCGCTCCAAAACATTAACTGGCTCTAATTTAGCTGTTGGATCTCCAAAATTTGGAATCAACTCTCCACCTAAAATTTTTAATATAGTAGTCTTTCCAGATCCGTTTTTACCTAATATCCCTATTACGTTTCCTTGTTTAAGAATAGGAAGTCCAAAAAGCTCAAATCCATTAATCGTATATCTGTGAATTATATCAGATCCAAACTGGTCTGGTAAGTTAACAATGTCTATGGCATCAAAAGGACATTTTTTAACACAGATACCACAACCAATGCATGTCTCTTCGTATATTATAGGTTTACCCTTAACTGTCTCTGAAAGTTCTATTGCCTTACTTCCAGATCTATTTATTGGGCAAAATCTTATACACTCCAAATTGCACTTATCGGGTTTACAAAAATCATAATTTATTACAGCAACACGCAATCCTTACACCATTCATAACATAATAAAAAGTATAATTTTTAAATTAACTTTTATTTACCATTCATCTTCTTCCCAATCTTCGTCTAGTTCATCTTCCCATTCTTCCTCTTCTAGATCTTCCTCCCAATCTTCTTCCATTGCAAAGCACCATTCAAACCTTGAATAAATAGTACTTATTTTTTTCTCATCTTAAACCTAGCTTATAAAGAAGTAAAAAGCATTAAGATGTTAAAAACTATTACCAATTTTACACATATCACTAAAAAGATCATCTATGAATACAATATAACTTTGATATATTTTTATATATTTCAGTAACAAAGAGTCACAATTTAAAAAGTCTACTAAACGTTACTCCAAGATTATATAATTAGGTATCTCAATAATTATATATTAAAATCGTATTTTTATATATATTAATATAGGATTTTTTATAAAAAATATACCATTTAACTTACTGTTATTGAAGACTTTAAATGTGTAATGTATAAAGTCATATAAAGATTTATCATTTAATGAAGTTATACTGAATGAGTTTATTTTTATCTTTTTTAGTATGAAAATTATGAACTCTAAGATAGAAGCAAAAATAGCACAGATGAGATGTGAAAATAAACCAGTTAAATTAATAGCAAAAAAACTTGGAATAAATAGAGATGACATAGAAGCCATTATTAAAAAATGGATTAATAATACTGATGACTTTTTAAATGACATTATAAAAAATAGAAAGGTAAAAAATCCTAAAGCAGATCCTGGTTTTATAGTAAATTCTATCCAAGATCTTGAAGAATTGTTAAAGAACGATGATGTACTGGATTACATAGCTGTACACAGATCGGATTACCATGATAGATTAATGGATTGTATTAGATATAAAATTTATAGATATTTAAATAAGGAATAATAATAGAAATAGTAGATTTTTTACATTTTTAACATATAATATAAACTAAAAATCGTTAGCCTCTATACATAACTACGACAATGAAAGAAAAGCCTAGCATTATGCATATAAACATGTATATAAACTAGATAATGCAAATAGCTAGACGAAAGAGTGTTAAGTCAGTTCTTTAATTGACGTTGTAAAATCATCTATAAAAATAAAAGAAGAGGCCTTAGGAGAATTCCTCTCCTAACAGCGGACCCGCCGGGATTCGAACCCGGGACCACAGGCTCCGAAGGACTTATACAGTTGCATTTTATTGTATATTGAAAAGTGTTAATGTTGCGTCTAAATATATTTAAACGTTATTAGTTGAAAGTAATGTTCACAATATAATATACTGCAAAGCCTTGTTAATTGCAATTACCTTTTTATTATACCGAATATAGTGCCGTTTTTAACTATTCCTTCTTCCCCTCCTCTGAACATTTCGTAATGTGACTCAATATAAGAAGAATATGTGGAGTAGAACTCCTCTTTACTTAATCCCATCATTTCCCTTATATCCTTCAAAGCTGCTATATCCATAGGATTCTTCACTTTATTATACATTTTATCGAAAAGACTGGGATTGAACTTCTCAGTCTTCTCTATCTTTTTACGTCTAATGATTCCATACACTGTACCGTCTTTTATTATACCTTCTTTTCCGCCCGAAATTAACTCATAATTCTCCAATATATAATCACGGAATTCGCTCATGAACTGCTCAAGGCTCATTCCCAACTGTCTTCTTAGATCATCTATCCTTACATAACCTAAGGAATTCTTCATCATCTCATAAGCCCTATCAAGTTCAGTAGGAGATTTCCTCTTATCCTCTTTAGAACCTATACCGTCTAATAACTGAACAACCTTATCTAACTTCTTATTGATAACATCTAAGTCGTTTGAAGGCATAGACTGAGGAATTAAGCCTAATACCGCTTTTAACTCTCCAATCCATTCTAAGAATTCTTTCCTCTCTTCCTCACTTAGCTTATCCAGGTTAGGGCTTATGTACTTTATCTTATCTATAACTGTTCTATCCACTAATTTCCCTAAATATACCTTCTTTCCATGTTCATACCAATAAAAATACGTTTCTTCATTTTCCCTTCTTCTTATTAGTCCCATGTGTTCCAAATTGGGTAAAAGCATATATAAATTTTACTCCATTTTGGAACATATTTAATTTCAAATTATGTACTTTTATTATAAGAGATCTTTGACTGGCGGGAAATACGTTAATCTCTAGATATAATTGAAAGATAATAATGATAGAATTTAAGTCAAATCGTATATAGTATTATGAGCTATATAATCCGGAACATCTAACTTATTATAAATTCCTACAAAATGCCAATAAGGAATTTTTTCCTTCTTCTCTTTTGGGAGTATTGAAGGAGAATAAGAATTATGGCGTTTCCCAAAGAGCCAATAACCATAGACTTTACCTTGATCTCTTACTTCTACTTGTGAACCTTGAGCTATCATATATGCCATTTTGAGAACGTATTTTAGTACATACTGTTTAGGTGATAGAAATTTCCTATAAGCTGCACCGCTGCTATATTCTATAATTGAATCCTTTGGCGGCTTTCCCTTCCATTTCCCGTTCTTAATACGGTGAATCTCGTTAATCGGTCCTTGTATCCTCTTCTTCTTGTAGTCTAGGTAAGCCTGGAGTATGTTGATCCTTAATGCTGAGCCAAACCTAACTAGAATCTTCTGTAACCACATGTCAAGTAACGCCGTAAATACATATTTACTAATAAGCGTCTTGTCCTTTGATTCTAATTTCCCCTCTTTCATCTTTGTCTCCAGGTCTGAAGGTAAGGAAATATTATAACGCCTAACGTAGTATGTAAGAGCGTCTTCCTTCTTCCTTCCGTACTTCCTATTCCAGTCTATCAGGTAGGGAATCCCAAATATCAGAACATGAAGGTGAAGAGCGTAGTCAGTATGATACTCATAAGCCGTGAAGACCTTAATGTCTTCTCCTTTCCACATCTTCCTAATCCATGCCATCATGTTTGCCTTAAGCTGAGTTAGTATAGAGTCTTGTAAGGGAATGAAGCCGATAATTTTCCCTTTTTGCTTTATTGGATATACTAAGGGGAATATGTGAGGTATTGTAAGCGTAATCATGATCGCGTTCTTGTACTTCTTAAATGCGTTATCTAACGCCGTACTACTCTTAATTAAGTTCATAAACGCCTTCTTTTTATCGTTAAACCTAGTCCTAACGTTCATGATCATAAACTCCTCATCATCATTCATGAAAACCATCACACTACGATCCCACTCCTTTACGTTCTCGTTATATAGAAAAGCGATATCTGAATGCTCTCTAGTGTCAGGGCGAATGGAGACTTTATGCTGAGCGGTAAGTAGTCCTTTCTGTCTGAAAGCGTTAGCCAGGGTAATTACTCTTAGCCCTTTTTTCCGTAGTTCTTGTAATTTTTGTTTGTGATTTGTGTTTAATTCTAAGGTTTTGGAATTGTGATTATTTAAACTCAAGTCAAAGCTTTCATTAAGCCGAAAATTTTTATTAGAAGGTAAAATAAATTGAATGGGTAAACGCTTAAGCTTATACGTAATTGGATAAGTATCTAAACGTTCTACTATGTCTTCTTGAATAAGGGATTTAAGGTGTCTTTCAAGAACCTTATGGGCTGATCGCTTTGATATTCTCCTCTCCTTTGCGTATTCATTAGCCATAATAGTAAGTGAGACTGAATTCTCCTTCTTTAAACGTGAAACAATCCAAAATTCAACAAAAGAATGAGGTGAAGGAGAAAAAGAAGACATATCTTAAGCCTAAGGTCTACTTAGTACTACATCTACTCCCTTTCCTATTGCCTTTTCCCAATAGTAAGCTAAGTTACTAGGCAAACTAATTATATAGTACTTGTTATGGCGTGAAAGCCCTCTTAGACCAATTGGATATATTTCGTTATCTATCCACACGGTAACTATCCATTCATTGCCTATAACGTATTTCTCGTAAGCCTTTGGAACATAGACAAAGTATTGAGAATATTCGTAAAGCTTTCCATTACGTCCTATCCTCTTTACCAACTTCTGAATTCTAACACCGGCAATAAGTATTTGTGAAATGACGTTAGACGTAAGCACTCACCTTATACCTCAGCATTTCCCTTAGTTTATCGGCGTTTCTTATCTCGTAACAGTACTTCTTAGGAGTAAGTAGAACTGCTTTATTCCCGTGAAACTCTATAGTCAGTACTTCCTTATTTCCTTGTTTAATACTAAGACCGTAATCCTCAATCTCTAATGTTAGATAATCCTCATAAGAGATCGTGTCAGCCCTATTAATGCAGTCTATAACGTAATTCCCTATCTCCTTAGGTATAGATATATCGTTTAGGTAAGCCTCTTTAGAGTCTACAAATACGCTTAAGTTAATGTCTTCAATAATTAGGCTTTTGAAATCCCCGAAATCAGTAACCTTAGCCTTAACTTGCGTTATTATCTTCATTAACGCTCACCTTGTGAGGGCAAACCTTAGCGAAAACACAATACTTACACTCCCATTCATGTCTTGGTATTCGTCTCGTGTAAACGTAGTCTTGTACTAGTTCTATCAGCTTATCATCTGATATTCCAGTGTCTACGTAGAATTCGGTTATACGATCCGGCGTTATGTAAAGTAAAATGCCGTGTTCAGCGTTTAACATGTTTACGTAAATCCTTAACTGGAGTACGTGTTCTTCCTTTGGTATGCCCACGTCAGTCTTTGAGGTCTTTATTTCAATAATCACGTTATCCTTTTTCGCGTCAATCCTTCCTACCAGTTTGTAAACCTCATCATCAATCGTTATCTCCTTTGTAACCGGAACTTCTACCTCAGCGTTTAACTCTTCTATCAGTATCCTCTCTACGCTTTCATGAATTAATGAACCTTGTAGTGTTGAAGGATTGTAAGCCTCAGCTAACGTTAGTTCCTTAAACTGTTCCCTCAGTCTAGGCTTTAACGGGCAATATAGTAGGTCTGTAACGTAGATAGTATTACTGTCCTTCTTCTCATGGTTCTTTTTGTCGTTAAAACGCCTTTTGAAGAGCGTTTGTGTGAGGGAAAGATTTTTAAAGATAGAGTTTATACTCTGCATTGACTACACCGCTTTTTCTTGACTTGTGATTGAACCGCTTAGGCTGAGTTCATGATGAATTATCTAAATGGCGTTTAATGAAACGTTTAGCTAACGCTCTTAGTATTGTTGATTTTCCGCGATATCCTTCCTTTTTCACTATCTTATCAAGTGCCTCTACCTCTTCGTTATCAAGTATGACCGATACCTTTACGGGTTTTCTTACCTTTTTCATGCTATTCACTAAGGAAATATATTCGGAAAATGGTGCTTATCAATATTTACCATATCAGAAATAGTATTAATTATTTATATAATTTTTGCCTTAAAACTGTATGCCCAGGAATTTAGTTTTTCCTTATCTGAAGAGATTTTTGCTCTTGTCTCCACTGGAAATTAAGGTCCATTCAGATGGAAGACCTAAAACAATACGTGATTCTTACCCATTAATTTTTTTGTAATACTCTGTGATAGAGTCGAATATAGAGCTAAATCTTATAAAATTCTGTAAGAAGAATATTAATGAGCAAAAATGAACGTGGAAGAATGGGTTAAGGCAATAAAGGAAGACCTAGAAAGAGAAGACTTACCAGAGAGTTATAAGAAAGTCCTTAAGGTAGTGTTAAATCTCATAGAAAGCGGTGACCTAGATACGGCAAAAGAAATAGCCATCAACTTACCACCCATTTTGGAATAAGTGCTTATTCCAATTTGGAACAAGTTACTCCTTTTTTAACACATAACCTTTTACACTTCTCATGATAAATCCTTCTTTTATTGCGAACTGTTTCTCCTCAAAGAATTGCCTTATGCGTTCCGGTAACTGTTGATAGTACTGCTCACTCATGAACCTAACGTTATTTGCATCAGCCTTATCGTAAAGGTAACCTCTAACCTCAAGGACTTTAAAGAACTCCTTTAATGCTGAGAGTAATGGGAAGTAGTCTAAAAGCATATCGTGGTAAGATAAGTTTATTTCACTCTTGTATTTTTTAATCCCCTCTATCTCTTCACGTGAAAGACGTAAAGTAATTGTAACGTGATTCTTTAACCACCTCTGATAATAAGTAGTTCTTCTCCTTGGCATAACGCTTTTACCTTCTCATTTTACGTTTATATGCCTTTCTCATATTGAATGCAATATTGCTTATCAATATTAAATGATGAGAAATACTCGTTAATTTGCGGTAATTTAGATTGAATGCAAGTTTGAATCAACATTGAATCAACAACCTAAGGGCTTTGGTCAAAATTCATTATTATAAAATGTGATGGGATTATCTCTATTTTACTATACTCAAAAAGGAGAAATGCTGTTTTTAAAATGAAAACTGGGAATTATCACGTTAGAAAACCGTTTCTGAAATTGCGTATAGCTAAGAAAATGCCCTAAACTTTACGTGTTCATTATTGTTTCTCTGAAATGAACTTTCCGCAAAAGAGTGAACGTTATAAATGGTTTCGTAGAAATAGATAAATTTGGGATATTTTCTATACTGATTGAAATTTTAGTAACTATCCCTTAACCATTATTACTAAGATGATGAAAGTTATGATAACTACTAAGGTAATTCCTATGTAAAGTGTTGAGAAGGTACTACTAGTATGCTTAGGTTCTGATTCTCGCTCTTTATCATCCCTCTCTATTCTAAGAGAAGGGTCTACATTTCCTTCAATCTCCTTAGCGAAGGAATGCAATAATTCATTATTATTTAGTATATATGTTATTTCTGGTTCTGAAGGAGATGAGGGAGATAGCGTTAATGCCAGGGGATCATATGTTATAGGTCTGGTAGTATCCCTGGCTTTCTTGAGAGTGACATTAATATTAGGTAGAGATTTGTACACATATTCTTTTGTTATTATACTATCTCCTTTAGGTTTGAGAGAAGAAGGAAAGAGCATAGAACCTATACCTAACGCTAAAAGTGGATAGTTGAAAGCCTTAGACTCTCCTAACCTTACTGCTAACTTTCCTAAGGGGCTTAATTCATCAGCGCCAGTTACAAGTAACCTACCCGTATCGGCTAACTCTACTAAACCTGGAATATCGATAAGTCCAAAGGCTATATCACTAATTTTTGCGGGTAAAGGCTCATTAGGGTGATCGGCTAAGTGTCCAAAAGTCCCGCTAATAGGTATAATGTTACTAACTAATTTACTCCCGGCATTGAAGAGCTGCCTCCCGGTTTCTATACCTAAGTTTGACAGAGGGCTAAAAATCGGTGTCTCTTTTACGCTCTGGTTTTCTACGTCTTGTATTGCCTGAGAAAAGGGAATCAACTTATGCTTAAAAATTAAGTCTCCAGTCTCTCTTCCTAACGCTGAGGCATCTGTAAAAAGAGTAGTAAAAAATCCTCTAGTTATCTTATACGATTCTGCTAAAGCGTTTTGTATGTTATTCTCTATTTCGCTGAAGATACTACTCATAATATATTATTATAAGTATATGTGAGATATAACCCTTCATTAGTATTACAATAGCCTCGGGAACATTCTCCATTGTGTGACCTTAATCAATTAAATACATTATATAATTATTAAGATATCCTCTAGTTTAAAACTAGAGTAGTTTAGGTGCATATTTATCATAATTTTGTTGTAACTCAATTTCGCTAATTACAAAATAATGGTTTTGTAAGATTCTGAAGTCTTTAGGAGAAGCTCTCCCTTGAAGGAAGTCTACTATCATTGGATTTGCCCCTCTTTTTAACATATAAGAGGCGAAGAAACTTCTTAAGTCGTAAAGCCTAAATGTACTTCCTAATATCTTCCTCATCTCATTTTCAATTTTAGTCCTTAATATATCTTCTCTAAACGGAAATAATTTAGCCTTCCAGTTCTCTATATCAATACCTTGATTAGGATTAGCAGCTGCAAGTTTCCTTACAGAATTCTCGTATTTTCTTACAAACTCATCATGATAAGGTAAATAGGTCTCTCTCAACAACTTTGCCGTCTTCTCGTGCAGAAATGATATATAAGCCCTCTTAGTCTCATTCTCCTTCATTAATTTAATAATTCTGTGGTCTAAGTCTATCTGATCTACTCTAAGGTTCATAACTTCCCCTACTCTTAATCCAGTTTCGACTAGGAGTAAGAAGAGCGTCTTAGCTCCTAAGTCGTTAATATTTTGGAATATCTGCTTTAGAGAATCTAACGTTAAGATAGGTGGTCTGTATAAGGTTTTTGTTTTAGGAATCTTGAAGGAATCGTAAAGTTCACGGCTTAATATAGGGTTTCTGCTCTTCACGATCTCCTTAATGAAAAGCTTTAGCGTAGTAGCGTAATGTCTCGCCTTGTTCACATTCTTTGATTGCAGATCTAAGATGTATTCCTTAATTCTTTCTGAGGTTAGTTCATAACCTAAGTCTGCCGTAATTCTTCTAATGTTCTGCAAATGCATATTAGCGGTTCTTTTAGCTTTGTTATTCTTAACAAATTTTTCGAATAGGTCTAGGTCCTCTTTAGATACTATATAACTGTTTGATACTGACTTGAGATAATCTCCTAAGTATTGCCATATTAGGTTTATGAAAAAGTTGCGAAAGCTTTCATCTCTAATTGCTTTAATTATAACGCTAAATGCAATTGTAGGATCTATTTCAACTGTCCTTAAGCCGTAAATGATATCTGAAAGTTCCTCAATTGTAAGGAGTTCTGTACATTTCTCAACTACTTCATTTGGTATTGTCTGGATTTTGCCGTTAATATAACGGTTTAATGTGCTTCTGTTAATCTCTAATTGCCGTGAAACGTAACTTAATCCGTGTTTCTCTATAGCTTTTTTGATTATCTTGAGCTTTTTCTCATCATCTAGTTTATTTACGTCTATTTTTGGCATATTTCATATTCACTAAGTTAGAGCTATAACATAGTTGCAAATTTAACCTTTTATGTTGCATTAACGTAAAATTCTATAGATAGAGTAGAACGTAAATTACGGACCCGCCGGGATTCGAACCCGGGACCACAGGCTCCGAAGGCCTGCGCTCTATCCTGGCTGAGCTACGGGTCCCCTCTAGATTTATAAAAAAGTTAATATTAATCAATAATAAAGTGTACGATCCTAAAGAAGTAGTTTCTAACTATGCTTTGCAATATATTGAAAATAAGAAAATAATAGGTATAGGTACTGGAAGAACTGTAAGAAAACTAATTGAGTTAATTATCAAGAATAATATAATAAACAATAAGCTTTACGTAACAAGCTCTATAGATAGTGAATTAGAGATATCTAAAAATGGTGGTACAGTAATTTCATTATATAATGGAAATATTCCTGATATATATATAGATAGCTTTGATTATCTAGTGCCAGTAAACGATTCTTATATAATGATAAAGGGAGGTGGCGGAGCTCTATTGCGTGAAAAATTATTAGCATATTTTGCTAATGAAAGAGTATTTATAGGTGAACAGTCTAAGATTAAAAATTCATTTCCAATAAAGATTCCTATAGAAATAGTCCCAGTAAGTTTAAGTTATGTTATAAATAAATTAAAAAGCTATAAATATAATATAGAAATTAGAGAAAGTAATGGAAAAATAGGACCGATTATCTCTGATAACGGAAATATTATTCTTGATATGTCTGTAAATGGTAAGGCTGACTTATGCGAATTAGATAGCAAACTTAAAGATATACCAGGAATAATAGAAACTGGTATATTTTGTGATAAATTATATGATGAAATCATTATAGGTAATAACGATGGAAGAATCGAAATTATTAAGAAAAGCAGAAATAGCAATTAAATCGAATAGAATTATAAAATTAGAGGCTAGAGACTCTTTCTTTTATATTTTTGTTTTTTTAGGTAATGGTAAAAATGGGAAAGATCATATATTAAATGAGAAAAGTTGCGATTGTAAATCGTTTTTGTTTAATAGAATATATAGAAATACAAACATGTGCTATCATCTAATAGCTCTTAATAAAGCATTAGAGAACGAAGATTTCATTACAATTAAACTTAACTCTAAAGAGATCTTTGAAATAATAACGGATATATATGCTAATGGAAAATCATTAAAACTTAGAAAAGTATATCCAAACAAATGATATTAAGTATAACTCAAATTGTCCTTATAGTTTCTGTTATCCTCATAGCTGGCGGAATAACATATGGTATTTTTATGGAAATTTTAGAAAGCTCAGGAAAGAAAGAAGTATTAATAAGATCAAACAAATCTTCTAAAAGAAAGAGGGAATAAGGAATGGGAGGAAAAAGAAAGAAGAGGACAAAAATTATTCGTCCTAAGCCTAAATTGCCTAAAACATTTGAATGCCCAAGATGTGGAAAAATTTCAATTTCAATTGATATAAAGGATGGCTTAGCTAAGATACAGTGTGGTAGCTGCGGATTATATACTGAAATTGAAGTTCCGCCAGTCTTTGATGAGGCAAACGCATATGGCAAGTTTATAGATCTCTATCTTGATGGAAAGTTGGAAATAAAAGAAGAAAACAAAGATAGTACTGAAGATAAAAATGAAACTGAAGGGGAAAGTAAAGAATTACATTCAACGTCTAATTGAAGAAGGAAGTGTTCTTCATTTTTCGCTTCTTGATCCAGATAAAATTAGCGATATATCTAAGCTTTATGATATAACAAAAAGTCTATATAATTATGGAACTAATGCGTTTTTAATTGGAGGAACTTTAGGAATCTCTTTGGACAAATTAAATAAAATTTTGGAAATACTAGATGATTTCGATATACCAAAAATAATCTTTCCAAGTAATATAAATTTAATAACAGAAAAAGCTGATGCCATATTATTTATGTCACTATTAAATTCTGATGATATATATTACGTCATGGGAGCACAAGTAGCTGCTGCACCCATAATAAAAAAGACAGAAGTAGAAACGTTATCAACTGGATATCTTATTATAGGGAATGGAGGTACTGCGGCTCATATAGGTAGAGCTAGGGTAATACCTTATGATAATATTGATTTAGCAGTAGCTTATTCATTAGCTGCGGAGTATATGGGAATGAACTTTATATATTTGGAAGCTGGTTCTGGAGCTCTTGAGCCAGTTAAACCAGAAATGATAAGGACTGTAAGGAAAACTACCTCGCTTAAGATAATTACTGGAGGTGGCATAAGGACACCTGAAAAAGCCACAGAAATCGCTACAGCTGGGGCAAATATAATAGTAACAGGAAATATAATTGAAAGCGACTTGACGAAGGCATTAAAAATAATAGAAAGTATTAAGAAGATAAAAATAAGTGAATGAGTAATGCCATCTAGTAAAAAGAAAAAAGAAAACGTTCCATTAATGTCGATGGCTGGTTTAGTTAGATATTATGAAGAAGAGAATGAGAAAGTAAAGATTGATCCCAAGGTAGTTATTATTGGAAGCATAGTAATAATAGCTGTTGTCATAGTCTTATCTAAATTAGTTCCAATATGAAACTTCACTATAAAGGCAATGCCAAATGTTTTTTGATATCAAAGAGATAAAAAGAATTAGAGAAAGTATAGGAATTACACAGTCTGAGTTAGCTAAGAGAATAGGTGTTTCTCAATCACTTATAGCTAAGATAGAAAACGGAAAAATAGATCCTAAATTATCTATAGTGAGAAAAATATTTGATGAATTAACTGCGCTAATGGAAGCTAATGATAGTGCAGAAAGAATAATGCATTCTCCTGTAATTGTATCGAAAATAAATGAGAATATTCATGAAATAGTAGAAAAAATGGAAAAATACGGCATATCTCAGATACCTGTAGTTAACTCTTCTGAAGAATTAGTAGGAATAATCTATGATTATATATTACTAAGGAAACTGGCTCTTAAAAATCCATACGAAATAGTTGCAAAAGACATTATAGCACCATTACCACCATTAATAGATGCTAAAACACAATTAACCGAAGTAATGAAACTTCTAACCAAATATCCTGTTACTTTAGTAGTCGATAAAAAATTAAAACCACTAGGTATAATTACTAGAAGTGATTTAATAGGTTATTTAATAAAAAATTATAAGAGAGAGCCACAGTAGGGGGCTACGGTGAAAACTGAGGAAACTCCAGCCTCCTGGCCTAAAGGAGTCTCTATAGAGACAAGGGCAACACCCTTGGCAACTATACAGAAACAAGTACCTTGAAAGCTACATGTGAAAATGATTGTGCCCCTTCCTCTGGTAACGGAGGAAGAAACATGAGAGTAGCTTTCAAGGATGAAAAGATAGACCTCCTAGGAGCAAGTAGAGGGAAAGATGAGACTAGGCCCGATTTCCCTCTAGGACGCATAGCCAAATCCCCCAACATTACAGAAGCTGGGTTATTACTGTGGCTCTCTCAAAAAATCGGATTCTATTTGCAATATCTCCGAGTCAGACTTACCTTCATAAGATTTTAGTAGCTCTCCATTAAGCTCTAGAAATGTATGACCCCATTTTACTTTATTTAGAATCTCTACAGCGATATTCTCCTCTCCTATTATATATAATGACGCAGCAGCTGCTTCTATTGATGACAATTTATATGGCTTAGAATAATTTATAGGATTTCCTGCTAAAAGAAATGGTAATCTTCTAGAAAACTTGTTTTTGAATTTACTAAAAAACTCTATATCAGATTTGTTCCAAGAAGAATCAATAACTGTTAGACCTATATTTAGAATTATTTCTCTATCTTTAATAGAAACTGGAATAGAAGATATAGGATTTAAAACTATACCAAGAGGTTTACGAGTTCTCTTAGCATATCCAAATTTAATTAATCTCTTTCCTGTGCACTTTTTTGGATCATCTTGATCAAGATCAATAATATAAATATTCAACGAACATCGTAAAGTTCTTATAACTTTTAATTTATTAAACTAGTGGTAAAGTAAGTTGGTATCTGCAATAGTTCTTATAAATACAGATGCAGGAGGAGAGGAAGAAGTTTTCGATAAGTTAAAAACTATGAACGAAATTAGTGAAGCATACATAGTATATGGAGTTTATGATATAGTAGCTAAAATAGAAGCTACCGATATGGACTACTTAAGAAATTTTGTAAGTTCTACCATAAGGAAATTACCAAAGGTTAGATCAACTTTAACTATGATCATAATGGAGGGAAAGTCGATTAGAAAATGAGATATAGCGTAGGTATTGACGACCATGATTCACCTATAGCAGGCTGTACAACACATTTTTCGACTATTTTAATAAATTATTTTATTAAGAACAATATTAAACTTTTAGATTATCCTTATTTAATAAGATTAAATCCTAACATACCTTGGAAAACTAGAGGAAACGCCGCAATTAAATTTTCAATAGAATTTAATGGTACAAAGAAAGAACTTGCAGATATCATTTGGGAAAAATCAATAGATTACGTGAAGAATGTTTCTAAAGGATTAGAATATAATAGAAAACCAGGAGTAGCTGTAATTGATTACGAGAAATCTGATAATTTATATAATCTATACTTAAAAGCTGTATCAGACATAATTCCTAGAGATCTAGTTATAAAATACTCAGAAAAAATAGGTGCTGAGTTAAGAGGTTATAGAGGGGTAATAGGTTCATTAGCGGCTATAGGATTTAGAGGTCCAATTACATATGAATTATTAACTTATAGGAAAAGAGAAAATTGGAATAGAAAAAGAGAAATAGATATATCTAGTGTAAAAGCATTTGATGAACTATTTTTTCCGAAAGTTTTTGCCAATATGGATTATATAAAGAAAAAACCACTAATTATTTCTCATGGAAATGATCCAGTATTCTATGGTATAAGAGGACTAGATCCCAATATATTAATAAAGGGATTGGAAACAATTAAGACCAATGAAAAACTTGACATGGCTATGATATTTAAATCTAATCAAGCTACTGATGTCCATATAATAAAAACTGGAAATAGAGTATATCAAACTATTAAAGATTCATGCATAGTTGATGATATCAAAGTAATCAGAGGAGGCGATGTTATAATAAAATGTTTAAACTCAGCTACTTTAATTTGTTATAAAGAAACCGGGGAGTTAAATCTTGCAACAAAAAATTTAATGCACGGAGATATAATAGAATTTGTAGGCTCTATAAAACCTTCATTGGAATTTGGAGAGATTATAGAGATAGAAAGAATACATATTAATAGTCTTGTGAACTCAAAGTTTGCAAATCCGAGATGTCCCAAATGCAACGGATCTACAGAATCATTAGGTAAAAATAAGGGATTTAGATGTAAAAAATGTGGAAATAAATTTCTTGGAAATAAAATGATTATTCGTATACCCAGAAATTTATCTCTTGGAATTTACCAGGCTAGATATTATAGGCATTTAACTAAACCCCTATTCCTAGAAGACTTAGATAATAGCTTTAAATATGAATATATTATGGATTTCTATATTATTTATAATTCAATAAATAATATATTATACTCGAATTAACTTAGTTTTTTATAGTATAATATTATAATGTATAACAAAATTACAAAGCTAAAATAGGGTGCCAATGTGGACCGGCCGGGATTTGAACCCGGGACCTCCCGGATGCCAACCGGGCACTCTTCCAGGCTGAGCTACCGGCCCAATATACTGTGTTATATTTCTAGTATTAATAAATTCTTCCAATATTTTGAGCATTAATTATTTCATTAGTTCATAACACTTATAGTTTCAAGTATTTTCGACTTAAATTTTCAAGTTTCTATATATTTATATAAAAAAGATTTAGAAATAATCATATACATTTAGTGAAATAGTTATAATAAAGAACATACTATAGGCAATATTATACAATTTTTAATTAAGCGACGTCGTTTCCTTAGAAATTCTAAGCAAGATTTTATTATGTAAGAACTCATCCCCTTTGTTTCCTATGGAAATAATAATCGAAAACTATACAAATACCAAACGTTTTTCAATTATACAAAACATAAAGAATTACTGTTTACTAGATCTTTTCAAATATAGCACTCCAGTGGAAAGTTAGGGGTAAGTGACCATTCTTTAAAAACTCCAGTGGAAATAGAGGGGTTTTTAACTGGGGAGTTAAAACAGAGATTTATGTAATGCCTTTTAAGTTATAATAATAATAGCTAGTATTTCGATGAGTGAAATTATAGATGATATACTCAACAGTACTAGGGATTCCCCTATTTTCAAAAATAGGGAATATTTACTACCTGATTATATTCCAAACGAGCTACCTCACAGAGAAGAACAAATAAAGAAATTGGCAAGTATTTTGGCCCAGGTATATAAGGGCAGTAAACCAAACAATATATTTATTTATGGTCTTACTGGAACTGGAAAGACCGCAGTTACTAAATTCGTACTAAAAATATTTCAAGAGAAAATAAAGAACTTTACTTATGTTTATATAAATACAAGGCAAAGTGATACTACTTACAGGATTTTGGCAGATATAATTGAGAATATGGGGGAAAAAGTACCATTTACTGGAATTTCTACAGCAGAACTTTATAGAAGAATGTTAAAAATATTTTTGTCAACTAATAAAATAATAATAATTACTTTAGATGAAATTGACGCTATGGTAAAAAAACATGGAGATGATATATTATATAAGCTAACTAGAATTAATTCTGAACTAGATAAGAGTAAAGTGTCATTAATAGGAATTACAAATGATGTGAAGTTTGTAGATAATTTAGATCCACGAGTTAGGAGTAGTCTGAGTGAGGAGGAACTAGTATTTCCACCATATAACGCTAATGAATTGGAAGATATATTGAAAAGAAGAGCAGTTTTAGCTTTTAAGGACGGTGCTATTAATAATTCTATTATAAGTCTTTGTGCAGCTTTAGCCGCAAGGGATCATGGTGACGCTAGAAGAGCATTAGATCTTTTACGTGTAGCTGGTGAAATAGCTGAGAGATTAAAGTGTAATAGCATCTCAACTGAACATGTGGAAAAGGCTAGAATAGAAATTGAAAGAGATAGAGTATATGAAGTTATAGCTAGTCTTCCATTTCACTCAAAGCTAGTTCTAGTGTCAATAATTTATGGTACCGAAAATAAAAACACAATGACCACTGGAGAAGTTTATGAGCTTTATAAATCGTTGACAAAAACATTAGGAACGGAAATAGTTACGCAAAGACGCGTTAGTGATATAATAAATGAACTTGATATGGTAGGTATAATAACGGCTAAGGTGGTAAACAGGGGAAGATATGGAAAGACAAAAGAAATAAATCTAGCTGTAGATAAGATGATAGCTATTAAAGCGTTAATTGAAAATGATGAAAGACTTGCTAGTATCTGGAATAGATGATGGATATTTTCCTGTAAAATATAAAGGGAAAAAAGGGAAAGCGCCATTAGTCTCTGTTACTTATAACGATTATAAACTAATAGATGTAGATGTAGATTTCATATATGTTGATGGTGATGAAGCTACTATAAAGTTTAATAATTTGCGAAGAGGAGACGTCTCTATATTATACAGTATAATAGTAGGTGGATTTAATTATATAATTCCTTCAGGTAAATATATTATATTTTATGGTAAAAAACCTAATATTACTGAAATAGATAGAGCATTAAAACTTCATTTTGATGATAAACGTAGAGAAGTTATATTATATTATATTTCCAATTTAATTAAAGTGCCAACTAAAAAAGGTAGTGTATATATAAACACAAACCTAGAAATTAGCAAGGCAATCGATATAATAGAATTTTACCAAGTAAATTCTAAATATCCTGAACCTATTCAGACTGCTCACGTAATAGGTAAAGGAATAGGTCAACATGTTAATTCTTCTTGAATTTTTTTAGATAGCTTTATTCTTTCTTCTCTTTCTTTCAAGTCATTATCTACGATAACTTTTTCCTTATCATTAGCCGGTATTAGCTTTGGGATATTCCTAGGTTTTCCATTTTCATCTATAGCTACAAACGAAAATGTAGTCGATGTTACTAACCTTTTTTCACTTGTAAAATGGTTAATTGCATATACTTTGGCTCCTACGTCAAGAGAGGTATTTCCAGTATATTGTACTGCACCTTGTATTTCTAAAATGTCACCAATTCTTACTGGAGTTATAAAATCTGCCGATCCGGCACTTGCTGTAAAAGTATTTCCTTTCGAATAAAGCTTAGCTACTATTGCTAAAGCTTCATCGAGCATTGTATACATTTTCCCTGCATATAATATACCATTGCCAAATCCATGTTCAGGATATATTGTTCTAATATAACTTTTTACGAAAGAAGCATATTTTAACGGTTCATCATAATCTACTGATATTCTTTTCTTTCTTTCCATTCTTTTTTCTTTTCTTATATTTGCTTCAGTATCTGCTGGAATCTTAATCTCTAGTTTTCTTGGTTTATTATTCTCATCTACTGCAACGTAAGTCATTAATGCAGCAGAGGCTAATTCTTCTTTCTCTCCTCTTTTTATACAACCTTTAACTTCTATTTCTACAGAACTTTTCCATGAAGCTTTTGGTAAAGCTACTATTCTTAATATATCGCCTAATCTAGCTGGTTTAAAAAGATATATATAATCTACAGACGCTAACAAGTAATTCCCTTGGCTGATACTTGACATTAGGATTCCAGCACTGTCGATCATCCAGCTCATATATATTCCGCCATGTAATGTTCCAAAATGATTTGTATGCCATGGAAATACATTATAATACGTTTCCAATTTTTTACCACCTTTTGTCGGTGCCTGCTATTTCTTTTAGTCTTTCGTCCCCTTTTATACTTTTTATATATGTATAAACACTATTAGGTACTAATTCTTTCCATTCTTCTCCAGTTATGATCATTTTTCTTATTAAAGTCGAATTATATTTTTCCCTGTTGAATATCGGTGGTTCTTCTACTGCTAGGTTAGCCTCTTTAAATAATCTAATAACTAACGGATTTCTAGCTATAACAAGATTAAAAGATGGCACATATGTTTTTACATGATATGCCCATACACTATTCATCAATATATCTGGAATTGGAATCAAAAAATATCTACTAGAATCTATTTCGTATTCTTCTAGCGCAGTTTTTATCATTTCGATTCTTTCACCTGCAGTAAAAGGATTTGATAATGTGTGACTCTCTTGAGAACTCCCAATTAGTATTATAATTTGATCAGCTTTCTCTAGAGACCATTTTATAACACTTAAATGTCCTAAGTGAAATGGCTGAAATCTTCCTGGATAGAGAGCTCTAAGCAAATTTTGTCACCTATTTTAGCTTTTATTAACTCTGAGGCGTTACCCATATTAATTCCTATTTCAAGAAATCCATACCCGTTCTTATAAGCTAATAATTCGCCTTTTTTACCTTCACCGAAAGTATTAACGTACCTTATATTAAATTTATTAGAATTAATTAAAACGTACCTTATATTGTTTATTCTCTCTTTAATACTAGTAGCCACGTTTCCAAAATGATCTATATAAATTACATTTCCACAAATGATGTTATTATTCTTTGTTTGAATAAATTCTAATTTTTCTATTTCATTCATGTTAAGCTTATTTCCAAAAGTTTCTAAATCTATACCTAATGATAAAAATGCTGCCACAGCTGCAAATATATCTCTCCCATGGAATGTTCTTGATATTTCTCTACTAAGAAATAATTTTTCATTTGTTATCTTCACTATATTTAATATTGAATCATCATGTGCAGCAGGAAATAAAACTCCATTATCTGGACCTACAAAATAATAATTCCTAGACTTTATAATAATTGCTTTTCTTTCTGTACCTACACCAGGATCTATTACTGTGAGAAATATAGTATTTTTTCTAAAATATTTATACGAGGTATAAAGAAGATATGCCCCAGAGATTATATTAAAGTTATTAGCATTTGGAGTTATATAAGTTATGGAGGCGTTAGAATTTATTCTTTTTATTACACCTTCCATAACTCCGTTATAATTATCAGAAATTCCAAAATCAGTTAGAATTGCTATTTGCGGATTCATTTTTTTCCACCAAGAGTTCAAGGTAGGATTTTCTCTCTACTTCTACATTTATATTATATTTTTTTATAAAATCATTTATATATTGTAATAACCTATTTTCATCTGAATTTATTCCTTCTATTTCTATAAAATCACCTAATCCCTCTACTTTATCTAAACATATGTTAAAGTTATTATCTATAAACGTGTGACGCTCTTTAGATACTGAATATACAGGATAAAAATCTAACTTCTGCAAAATTTTTAACATAGCGTTTTCGTCGTTTATTACTACAGTTATCTCTTCTCTGGATTTACTTTTGGACGAAATTTTAGGTCCTTTATATGTAATTTCTGCTGTATCATTTACTTTTCTTATTCGTAATGCCTCATCAGTTTCCTTAAAATTTCTAAATTTCGAGTTTAAATATATATCAGTCTGCTTTTCTACTCCTACATATTTCATCTGATCATTGAGAAGCTTATTTTTAAGTTCTTCTATAGAGATACCTTTAAGTTTTAATTTTACCTCTCTTTCTATTACATCTGGCATAATGAGTACTATTGATAGTTATATAAACGAGTATAAAGAATTATTTAAGTACTCTCCAACATTAAGAGCTAAAGAACTTTCAATTAAGTATGGATTTCTTGATTATATGGTAGAAAGATATCTTGACATTTTTAAAGAGAAAACTGAAGATTTTCTAGAGTCTTGTAGTTATCCATTAATAAAAAGTATACGATGCAATACTTTAAAAATAGAATGTAATGAACTAATAAGAAGACTGGACGAAAAGGGTTTTATCTTAGATAGAGTAAACTGGATTAATTATGGTTTTATTGTCAGAGAAAGGCCTAAAAAACCGTCATTAGGCTCAACTTTAGAATATATGGAAGGATATTATTATATTCAAAGTTTATCTTCCATGGTTCCAGCAGAGGTTTTACATCCTAGTAAGGACGACATTGTACTAGATATGGCTGCTGCTCCGGGTAGTAAAACAACTCAAATGGCACAATTAATGAACAATGAGGGTCTAATAATAGCAGTAGAGAAATTCAGATCTAGAATCAAATCATTAATGTCTAACATAAATAGACTTGGAGTTAGTAATACGATAATAGTAAATATGGACGCAAGAGATTTAATATATCATAATATAAATTTTTCAAAAATATTGTTAGATGCTCCATGTTCTGGAGAAGGTTTAATTCCCGAAGATCCTCAAAGAAGAACTCGAACAAAACCTGAAGATCTTTATAAACTTAGTTTAGTTCAATTACAATTATTATATACTGCATTTATGCTATTACAGGATAATGGAGATCTTGTATATTCTACGTGTAGTATAGCCCCAGAAGAAAATGAGTTCATCATAAATTATGCAGTAGAAGAGCTGGGAATGAAAACAGTAAAAATAGATAAAATACCTGGAGATGAAGGAATAACAGAGTTTAACGGAATAAAATTTTCTAACGATGTTAAAAACTGTATTAGATTATATCCGCATAAGCATAAAACAGAGGGATTTTTCATTTGTCATCTAAAAAAGAAATAAAGTTTAAAATTATTGATTATAGGGAATTATATGAATATATTTCTTTATTATCTAAAGATTACAACTGTTTGTTTGATATAGACTTTTTTAAGAGATATAATATCATTAAGTCATATAATGCTAATTTTAGTCAAATTTTTCTTATTAGTAGTAAAAAAATACCGAATATAGTATTAGATGAACTAAATATATATTCACCTGGAATTTCAATTTTAAAAATATCAAATAAAGTTATATTACCACAATTACCTCTAGGAAATTTAATGGTAAAATATTGTAAAAATAAGTTATCTTTACCAGAACCAATATTAATGAAAATATTATATGGAAAAGATGTAGAAGTTAGAGAGAAATATAGGTTTAAATATGCATTATTAATATCGAAATATAATGAGTTCTTGGGTTTTATAAAAATAAAACAGCATAGAAATGGTAGCAAGATAATACCAGAAAAAGATATAGGATGGTATTTAAGGGAGAGTGGATAAATATAAATTAGCTAAATCATATCTTATTGTTTTAGTAGGTGAAGTAAATTGGCAGATCAAATAGAAGAAAAGAAGAAGACGAAAGGTATTAGTGATTTATCTGGAGTAGGTCAAGCAATATTGAATAAGTTGAATGATTCGGGTTACTCTTCACTTGAATCTATTGCAGTTGCGTCGCCTCAAGATCTTAGCACTGCAGCCGGTATACCTTTAACTACTGCGCAGAGACTAATAAGAGAAGCTCGTGAAGCATTAGATATTAGATTTAAAACCGCATTAGAAGTTAAGAAAGAAAGAGCTAACGTTAGAAAAATAACTACAAGTAGTCAAGCATTAGACGGATTATTGGGCGGGGGAATAGAAACTAGAACAATGACAGAATTTTTCGGAGAATTTGGATCTGGAAAAACTCAAATATGTCATCAAGTATCTGTAAATGTTCAATTACCTCCAGAAAAAGGAGGTCTTTCAGGAAAGGCAGTTTACATAGATACAGAGGGTACGTTTAGATGGGAAAGAATCGAAGCCATGGCTAAAGCACAAGGTATAGATCCAGATTCTGCAATGTCTAATATTTATTATATGAGGGCCATAAATACTGATCATCAAATTGCAATAGGAGATGATTTACAAGAGCTTATAAATAAAGATCCGGCGATAAAAGTTGTTATAGTTGATTCAGTTACATCGCATTTCAGAGCAGAATATGTTGGAAGAGAAAATTTAGCAGTAAGACAACAGAAATTAAATAAACATTTACACCAGCTAGTTAGATTGGCAGAAGTGTATGAACTAGCTGTAATAGTAACAAATCAAGTTATGTCGAGGCCAGATATGTTCTACGGAGATCCTACAGTTGCCGTAGGTGGCCATACATTATATCATACACCAGGTATAAGGGTTCAAGTAAAGAAAAGCAGAGGAAATAGAAGAATAGCTAGAATGGTTGACGCGCCTCATTTACCTGAAGGAGAAGTAGTATTTGCAATTACTGAGGAAGGAATAAGAGATGCTGAAGACTAAAAAACTATTAATTTCTTAAGTAATTAGTCCTTATATGAAAATTCTTTGGGCTCCTTGGAGATCTACATATGTATCTAACTCATCTAAAAATAAATTATCTGAATGTGTATTTTGCGATGTAATAAAGAAATCTGATGATAGGGAAAATCTTATAGTCTATAGAGGATCAAAATCTTATATAATACTTAATAAATTTCCTTATAATCCAGGCCATTTAATGGTGGTTCCATATAGGCATCTTTCTTCAATAGAACTATTAGATGACGAAGAGTATAAGGAGATTTTCTATCTTGTTAAAAAATCTTTATCAGCTTTACGAAAGCTATACTCGCCAGATGGGTTTAATGTTGGAATAAATATAGGTAGAAGCGCAGGTGCAGGTATAGAATCACATGTACATGTCCATATAGTACCTCGATGGAATGGCGATGCTAATTTTATGCCTATAATTTCTAACACAAAAGTTATTTCTGATACATTGGATAATACATATATAAAACTAAGTAAAATGTTAAGTGAACATAATGAAGAAGCTCTCGATCACTGAATAGTGATGTAGGCAGGGTTTTCCTGATGGATTATAATATTCTTCAACAAAAAATAGTAAAAATAAAGGAGTCTATATCTCCGTTTATTCATGAGACTCCGTTAGATTATTCATATACCTTTTCACAAATGATAGGATCTAACATATATTTGAAAATGGAAAACTTGCAAAAAACTGGATCTTTTAAGGTGAGAGGAGCATTTAGTAAGTTAATGAGTCTTTCTTCTTCAGAAAAAGAAAAAGGCGTTATCGCAGTTTCTGCCGGAAATCATGCTCAAGGAGTAGCATATGCATCAAGTGTATTAGGAATAAAATCTATAGTTGTGATGCCAGAAACTGCACCTATTTCTAAGTACTTAGCTACGAAAGGCTATGGAGCTAACGTAATCCTCTACGGTAAGTATTTACATGAAAGCATGCAGAAAGCTCAGGAGATTATTAGAGACACTGGTTCAATACTTATTCATCCATATGACGATATTAATGTGATTTTGGGCCAAGGAACTCTTGGCGTAGAACTTTATAATCAATCCCCAGACTATGTTGTAGTTCCTATAGGTGGAGGAGGTTTAATATCTGGAATAAGTATAGCTCTAAAAACTAAGTATAAAAATACTAAAATTATAGGTGTACAGTCTTATGCTTCTTCTTCATTGAAGATATCTAAAGACTTAGGAAGATTAACAGAAGTAGAACCTTCATTTTCAATTGCTGATGGAATACTAGTAAAATCTCCATCAAAAACAACTTTTGAAATTATAAATGATCTTGTAGATGATATCGTATTAGTTGATGATGATGAAATATCTAATGCTATAGTATTATTACTAGAAAGAAATAAAACATTAGTAGAAGGTGCTGGAGCAGCAAGTTTAGCTGCTTTGATATCAGGAAAAATAAAAATACCTTATGGAAAAAAAGTAATTCCTATATTAAGTGGTGGAAATATTGACTTGTCGTTAATGACACAAATAGTAGATAAAATGCTCTACAAAACTAAAAGAATAGTTAAAATAAGAGTGATAGTTCCAGATAAACCAGGGTATTTGAATAAAGTACTTACATATATTACGCAAATAAGAGGTAATATAATAGACGTCATTCATGATAGAATAAGTAGCGATGTACCTCCTGGTTACACTAAGATTTATGTAATGTTCGAAATTTCCAATATAGAGATGCTAAGTAGCTTTTTGTATGGACTATCCAAAGAAGGGATAGAAGCTAAGATAATAGATTAAGACAATAATATTTAAATATAGAAACTTATAATTTTTTATGTGACCCAAATGGAATTTATTATTTAGGCCCAGAAGGTAGTTTTTCACATCAAGCGTCTACGTTGCTAAGTGGAAAGCTGATTCCAAAGCCTACTATAAAAGATATATTCGTTGCAGTGAATAATAGTTTAGACGCATTGGGCGTAGTCCCAGTAGAGAATAGTATAGAAGGGCCAGTTAATGAGACATTAGATAACCTATTTGCTTTCGACGGAATATATTCCGTATATTCTATAGAAATTCAAATAGATCTTGTATTAGCGTCTAAGAGTGATTTAAGTAAAGTAAAGAAAATATATTCGCATAATCATGCTATAAGGGAGGCGCAAAATAATTTAGAAAAGCTCGGAGTAACTAATTTTGTTCCAGTAGAAAGCACATCTAAGGCAGCATTAATGGCTAATAATGATAGAGAATCAGCCGCAATATGCTCTAGTTTTGCAGCTAAATTGTATAATCTAGAGATCTTATATGATAAAATTCAGGATGGAGTAAATATTACAAAATTTTTAGTAATTTCTAAAAAAATGAGAACAGATGGTAATAAGGCCATATTCCTATTTACCGTACCTCATAAACCAGGAGGTTTGTATAGAGTTATAGAAAAGTTTTATTTAAAAAATATAAACCTTACGATGATATATTCTAGGCCTCTGCGTAATACACCTTGGAATTATTATTTCTATCTAGAATTCGAAAATTTCGATAATCTATCAACATTGGAAAAAGATGTAAGAGAAGTAGTAATAGAACTTAAAAATAAAGGCAGTTATACTAAACTTACATGACTATTCCTGGCTTTAAATTATCTAAACTATATAGCAACATATAGCTTTTTGCGCCTGTTATATTTATTGCATGTCTAGCCGCTTCATTAATCACCTTTTTATCTTTTCCATGTAGCATACAGTAGCATAAATAATCCCAAGGTTTATTGCTTTCACGCAATACAACATGTGTAGCTTCGTATAACTCTTCAGCTATTTTAATGCAAGAATATTCTTCATTCTCAGTATTAATAAGTAACATGGCATTGTCTTTTATTCCTACTTTCTCACCGTTTAATGTAGCTCCATAATCTTTTATTACATGAATCTTTTTTAAATCATTAATTAGTTCTATAAGGTCTTCTTCACTATATCCAAATTTTTTTGCTATTTCCATAAAAGGCCTTTCGTTTATAGGTAACGGCATAGATAGATACTTTAATAATTCTTTACTTATACCTATTTCATCAGCTGTAGGTATTTTATCTGGTATTCCTTCTGATTTGCTCCAGGATATTCCTTTAATTATATCATATTTTACACTTAATTTTAGATTTTTCTTAGAATAAAGTATTACATAATCTCTGGCTCCAGCTTCTTCCATTAGACGTTCTATGTTTCCATTTAATTTCTCCCTAGATTCTGCTTTTATGACGAGCCATACATTATATTTTGGATGATTCCTGATAAAATTATGAGTTAATTCCCTTATTCCAAGAGACATTTTCCTATATTTTTCAAGACCATCTAATGGTATATCTGCTGCTACTAGTGCTCCTTCCATGCCTTTGGCTCTAAAATTAACATACATTCCTACTCTCTTTACTATCTCATTATCTATAAGATCTTTAACTCTATTAATAACATAATTTTCAGATAAATTAAGCTTATCAGCTATTTTTTCGTATGGTCTAGCATCTATCGGAAAATTATATTCTAGTTCCATTAATAACCTTTTATCGATATCAGATATTTCCATAAGATGATATTCGTAATTAAAAATAAAAACTTAGCCTAGACCGAGTTTAATAAGAATACCTCTGGCTGCTAGAACTCCAGTAGCTGCTGCTACGTTAATGCCTCTAGATAATCCAACACCGTCTCCTGCCACGTATAGATTATCTACCACAGTCTCCATATTTCTGTCTACCACAGCTTTCATACTATAGTATTTTATCTCTGGAGCATAGAGTAAAGTGTTAGAAGAATATATGCCTGACGCTATATTATCTAATCTTTCTAAACCTTCTATTAGATCTGAGACGACTCTATAAGGTAATCCCATACTTATATCTCCAGGTGTAACGTCTTTAAGTGTTGGTTTAACAGTAGATCTACCTATTCTTTCCCATGTACTTCTTCTGCCCTTTTCAAAATCTATTAATCTTTGTAGTATAGGTTTTTCTCCTCCTAGTCTTGTCATTAATCTAGCAATGCTTTTGCCATATTCTATTGTATCTTCTAACGGGTCTGATAGTTTTATAGTAGTTAGAAATGCAAAATTTGTATTATTACTTTTTTTATCTACGTAAGTTTCTCCATTAACTCCTATGGTTCCATCATCATATACTTCCTTCATTATAAAACCTCTAGGATTTACGCAAAACGTCCTTACTTTATCATCATATTTCCTTGTGTACATTACTATCTTCGGATCCCATACAGCTGATGTAAGTTCTTCTGTAATGAATGACTCTACTTCTACTCTAACGCCTATATCTAAAGGACCTGGCATCATATCAATTCCTAGTTTTTTACTTTGGTCATAAAACCATTTAGCACCAGATCTGCCAGGAGCTACAAGTAATAATTTTGTTTCTATTTCGCCCTTATTAGTTTTTAAATTGAAAGAGTCTCCTCTTTTTTCTATACTAAAAACATCTGTAAGCTCAGATATACCTATACCTAGTTTTTCTATATAGTTTGTTATATTCTCTATAACTTCTGGACTCTTATCTGTACCTATATGCCTTTGTAAAATAGGTATAAATTCTGCGCCAGCTTTAGCAGATCTTTTTTGTATTTCTTTAACTTTTTCCATGTTTGGTTTAAATAATCTGTCTTTAGGAGCACCAAATTTTACTAATATATCATCAACGTAATTTATCAGCTCTTGCGCATTATCCCAACTTCTTAATAATTCTTGTAATTCTCCACCTATATCTGGACGTAAATTTATTATACCGCTGCTAAAAGTTCCAGCTCCCCCTATTCCATAGTTTATATGGCAAGGTGTACAGAAAGTACATTTTTCCTTAGGTGATAATAAAGGGCAGTTTCTTTTAGAAGCTCTAACTCCCTTATCTACTAATAATATTTTATAATTATGACCTTCACTAATGGATTTGGCAAGTTCATATGCTGCAAATAAACCCGCAGGTCCTCCTCCAATTATGACAACGTCGTACATTACTCTTCGCCTATTTTTTCTTTTCTTAGATCTATAGTATCCATGCTATCTTCTCCAGTACCGATAATAGTTATGGGAACTTTTAGCTCTTCTTCTAAATCTTCAATCCATTTCTTTGCTTCTAGTGGCAAATTGCTATAGTTTCTTACTTTATACGAATCTTTAAACAATGTGTCTAGCTTAGTTATTGCGATTTGTGTAGCAGAATTTAATCTTATTGATTCTTTGGCTAATTTAACATTAAATGGAGCAACCCTTCTTTTTCTTCCTGTAACCGTGGCTATTTCTGTGAGACCCAGTTTCTTTGCATCTTCTTCATTTAATTCATTTTCTAAATATCCGTTACCAACTCTAGTTACAAATGATTTAAAAACAACTATAATGTTATTTACATATTTAGGTCCTATTCCTATTTCGCTTAAAACTCCAGACGCCGTAGAGTTTCTACTAGTTACATAAGGATACTCTCCATGATATAAGCTTAGAAATGTTCCTTGTGTACCTTCTATAAGGATTCTGCTATCTTTTTGTAATTCGTCTATAAGCATGTCTGGTACATTCGCAATATAATTTTCCAGCTCTTTATAATCTTTAGCTAGTTTTAAAATTCTTAATATTCGTCTAGCCTCAGCGTATCCTACTCCTTGTCCAGTACTTCCCACCATTTTCATAAGATTTTCATCGTTTCTTTCATCTTTTATTTCTTTGTCTGTTATTATTCCAACATGAGAATCTATTATTACTCTATTATCCGAATCAGTTGATTTTATTTCATTAAATAATTGTTCTAGACTTGTTAGAGCTCCTGGAGCAAGAACTAGCTTAGTAGATTTATTCACGAAAGCAGAAGGTAATATTCTAATTTTCCATGTTTTATTATTAAAAACTACAGTGTGCCCTGCATTAATGGACCCAGTTCTAACAGCATAATTAGGGGAATCATTTATACCTAAATATGATGCTATCTTGCCTTTTCCTTCATCTCCATAAAATCCCCCTACAAGTATATCTAACATAAAACACCGTTTTGATTACTCTTACTCCATACTATAAAAACATACCTTACGAAATTTTGTAATTATAAAATCTAGAAATAAGTCTTCATATTTAATCATCATTTCCGTTAATTAATCATTATGATTTATGTAGTAATTTCATTTAGTCTGTTGTTATTTATTGCTTCTTTAATTTCTATTGCAATTCTTCTACCTAAACTAATAGGTTTTCCAAAATATAGCTTTGAGTATTGACTTCCTATACCCATATATGCGTTTGTGCCTCCTCCAATTCTAGGAGCTACGTCATATACTACCAGATCTAACTCTGGTGTTACGATAAGTTGTAGTGTAAATGGACCTATTATTCCGGGATATTGTAACTTCTTTGTAGCATTTACAAATGAATATCCTATCTCAAAAACTTTTTCTAGAAGACTTTCTCGAATAGTAGCAGGTTCATGTCCAACCTCTATTAATCTAGGAGTTTTATTAAGTTCTAACTGAATATCTGCAGGTAGTTTATAAAATGAATCCCAATCGCTTTGAATTCTTCTATCTATACTTATTATTTCAGTTCTATCAAATAACATACTATTAAAATAATTTATATTAAAATATGCTCCTAATATAAATTCTTCAATTACCATATCTTTTAAGCTTTCTTCATTTATTATATTTTCTTTCAATAATTTATTTAACTTGGTATCAAAATCGTCCTTATTTTTTGCGAAAAAGAATCCTCTTTCTACACGCCTTTTTGCTTCTGGTAATTTAACTATAACTGGCCCGTCAATATTTTCGATTTTATATATTTTGGGCCTCTTTATATTGGCTTCATCAAGAATTTTATAATAATTTTTGTCTCCTAATCTTTCTTCCCACCTTAACATATATTTATTTCCAAAAAATTTCGTTCTCATATTTTCTAAGTTATCATATCCTAGATAGACTGCCATACTTCTATTAGGGACCACTATGGCCTCATTGTAGATTAATTTCTGTTGAATTGAATCAGAATATATTTCTTTAAAATCATTTAATAATATACATTCGTCAACTATATTTTTAAATTCTAAATATGGTCTTTCTCTACCTTTTTTGCATAATGCTATTGTATCAAATCCTTCATCCTTTGCTCCATCAAAAATATCTAAGGCAGAATGGCTAGCCAATGCGGCTATTTTCATGTCGTAACCACATCCAATTTACTTTGTTGGATTGCTATATTTAATTCTCTTGCTATTCTCTTTCCTACACACATCGGTTCATTCCAATAAAGCCATGAATACGGACTTCCGTTTATATATAAGTTAGTTCCAGCAACTATCCTACCAGAGAACTCAAAAACTATTATATCAAGATTATCTGTCACTACTGACTCCAAAGAGAAAGGCCCAATAATACCAGGAGGAACAATATTTTTAGTAGTTTCTACAAAATTATCAGCGTATTCATATGCCTTAGGTAATATACTTTCTCTAGCCACTACTGGAATATTGCCTGCTACAACGAATGTTGGTTCTGTTTCGTTTCCCCATGGCAATCTTTTTAATCCGTCTATATTAGATTCATATCTTATATCTATACCAGTTAATTCTACTCTCTTAAGAATTGGGCTATAAAAAAACTGGAAATACATTGGTATACCTATAACATATTCTTGAATAATAATTTCATCCAAGTTTTTTATAATATTTTTTTCTAATAGCGTGTTAATTCCATTCTTTAACTCAGATTTATTTCTAGCTAAAAAATATCCCTTACCTCCTTTAGCGCCAGGTAGTTTAACTATAACTAATCTATCTACGTCTTCTATACTTTCAAATGATTCTGGAATTTTTATGTTTGATTTCTCAAGTAAGCTCATTTTTTTCTTTTGATTTGATTCCCATTCGAATAAATTTCTATTACCAAAAATTGGAACTTTTATTTTACTTACTCTATCCATTCCTAAGTATTCTATTAAGCTCCCATGTGGTACGAAAATGGAATTATTTATTGAATTTATGTGATTTACTGCTTCATCAAAATTATCATAAACTAGATATTTATCAATAAAAGTAAATCTTTTGTAAAAGCTCTCTCGTTTAGCATCAGTTATTATGGCTGTATTGAATTTCTCTTCTTTTGCACCGTGTAAAATTTGTAATGACGAATGACTTCCTAATGTTGTAATAAACATAAACTTAGATAAATGGAAAACCTATTAAGCTTGATTGCTAGTAGTAGGTGTAATGGACGACGTATGCCCTTTAGAGTGGCGATATGGGAGTAACGAAATGCGACATTTATTTTCTAGAGATCATATAATAAAGACTAGAATAGACGTAGAAATAGCATTACTTAAAGCGTTACAAAAACTAGGTTATGTTACTGTCGATGATATAAAAAAGGTAATAGAAGAGTCAAATAATATAAGAATTGAGGAGATAGACAAATTAGAAGAGAAATTAGGTCATGATGTAATGGCAATGGTCGTGGCATTAGCCGAAAAGTCTGGCGATAGTGGGAAATTTATTCATTTTGGAGCTACTAGTTATGACATAGTAGATACGGCGTATGCAATTATATTTAGAGATGCAATTAACATTATATATAATAAATTAACTAAAATAATAGATAGACTAAGCGAACTATCAGATAAATACAGAAATACTATAATGGTAGGTAGAACCCATGGTCAGCACGCATTACCTATAACTCTTGGATTTAAATTTGCTAACTATGTCTACGAACTAACTAGATCCTTACTTAGAATACTAGAAAGTAAAGAAAGACTGATTAGAGGCAAGATGTCGGGCGCTGTAGGTACTATGGCAGCGTGGAACGGATATGGTATAAAAATAGAAGAATATGTAATGAAAGAATTAGATCTAGAACCTCATGTAATTTCTACTCAAATTGCGCCTAGAGACGGCTTTGCAGAAATAGTTTCCGATTTAGCTATACTAGGTTCTCAACTGGATCGATTAGCTCTAGAAATTAGAGAATTAATGAGACCAGAAATTTCCGAATTAAAAGAAGGAGTTGGAAACAGAATAGGTAGTAGTACTATGCCCCAAAAAGAAAATCCAGTTACTGCTGAAAAAATTAGTGGTTTAGCTAAAATTCTTAGAGGTTTTGTAGTTTCAGAACTAGAAAATATTCCATTATGGCATGAAAGAGATCTTACTAACAGTTCTTCAGAACGAATAATAATTTCGCATTCGTTTATAATAATAGACGAAATGTTAGACAGCGCACTAGAAGTTCTTAGTAATATAATAATTAACAAAGAAAATATGGAAAGAAACTTAAGTATATCTAATGGTCTTATAATGGCTGAAAGTCTAATGATAAATCTTACATTGAAAGGAATGCCTAGACATAAGGCGCACGAGTTAGTTTCTAGGCTCTCTAAAAATGTAAGACTATCTAATAAATCCCTTGAAGAAGTAGCGTTAGAAGATCCAACTGTAAGAAGTTTCTTTTCTGAGAGTGAAATAAAAAATATTCTAGATTATAGAAAATATTTAGGCCAAATTAATGATTTGATAGATAGATCACTAGAGTATTATAAGGACGTGTTAAATCGCGATAATTTAAAAAGTGTAAATGCAAAATGAAATATTGCCGCTGTAGCTCAGCTGGTAGAGCGCCGGCCTCGTAAGGTATATTACCAAGGTAGCCGGTGGTCGCGGGTTCAAATCCCGCCGGCGGCTTAAAGTGACCGATAATGAAACTAAAAGATCTAGGAGAACATAATTTTATCTCAGATATTATTTCAAAGTATTTGGGAAAAGATGTAAATTCGGACGTATTTATTCAAGGGAATAAGGTATATAAGCTGGATGGATTTCAGTTATCATATACTCTTCCTTTTATGGATTATTACGATATAGGTTGGAAAGCCGTTACTGGGACTATTAGCGACATTATATTTTCTTTAGCTTCTCCAAATATAGTAATGGTATCATTAGGTTTATCTAATGATATGGAAGTAAATGATGCAGAGAAAATTATCAAAGGTATTTATGACGCTTCTATTTATTATCACGCTAGATATGTAGGCGGAGATACTAACAATAGCTCCTCATCAGGTTGGATAGATGTTGCAGGTATAGGCGATTTGCTTTGCAACGAGCATCCACAAATAGATAAAGGAGATGTTATCGTTGTAACAAATAAGATTGGTTTTACGTCAAATTTTTTTATATCTTATCTATCTAATTTTAAAATACCTATTTTTCATGATTCACTAGTGAAAATTTCGCATCCAGTTGTAAATACACATTTACCAAGAGTATTACAAAGATTTTGTGGTGCGATATCCTATTCTACAGATATAAGTGATGGATTAGTAATTACATTATATAATATTATCCAAAGATTTAGTGTAGGCATAAAATTAGACAGAATACCTATAAATGACGTAATAGCTAATATGCTTAAAACATACGGATATAGCATTTTTGATATTTTAAAATTCTCTGGGGAAGAGTATGAAGGAATATTTGTAGTTAAAGAAAAGAATTATGAAGAATTTGTTAATGCGCTTAGCATAATAGGCTATAGTCCAATGGAAATAGGTAGAGTAGATGGCAGTAATAGCTTGATATACAACGATAAGAAGTTAAATGAGACCGGTTGGGATAATTTTAAGGGTTGGTTTTAACCAAATAAACCTTTTATTTGGAGAATATACTTAAATATATCATATATCAATTATAGCTTCAGATTTGTATGGCACAAGCAGAACAGACGAAAAATCAAGGATTTAGATTATTACCTGCTCCGTCAAAATTCGAAAATGGAGTAGTAAAATTTGGTGATAGAGAAATAAAAATTGGCGGGCCTTTGCCTAAGCTTGCTACTAATGAGAAGTTAATTAGGGTTACTCACTCATTATGTCCAGTATGCTATAGGCTTTTGCCAGCAACTATTTTTGAAAAAGACGAAAAGATGTATATAAGAAAAGTGTGCCCAGATCATGGAGAATTTGAGGATTTGTACTATGGAGACGTAGGGATGTACTATAAGTTCGATTACTGGGAATATGAAGGAAAAGGACCTAAGGTTCCTTATGTTGATCTTCAATCTCCATGTCCTTTTAACTGCGGTTTATGTCCAATGCATCATCAACACTCAGCTCTAGTCAATCTTGTAATAACTAATAGATGTGATCAAGCATGTTGGTATTGCTTTTTCTTTGCTGAAAAGGCCGGTTACGTGTTTGAACCAACATTAGACCAAATAAAATATATGGTAGATCAATTAAAGAGACAAGATATAACATTAGTTATTCAAGTTACTGGCGGAGAGCCTACATTAAGAGAGGATATAGTAGAAGTAATAAAATTACTAAGAGAGAATGGAGTAAAGCACATTCAGTTAAATTCCTGGGGAGGTACTTTCGCTAAATTGTATTTAGAAGATCCAGATAAGGCTATAAAATACGCGGTAGCTCTAAGAGAAGCGGGCGTAAATACCGTTTATATGAGTTTTGATGGTACTAACAGAAAGACTAATCCTAAGAACCATTGGGAAATTCCGTATACTTTAGAAGCGTTTAGAAGAGCAGGAATGACTAGTGTTGTTTTAGTTCCTACTGTAATAAAGACTGTAAATGATAATGATCTAGGCAACATTGTAAAATTCGCAGCAAAGAATCTCGATGTAGTGAGGGCTGTAAACTTCCAACCAGTTAGTCTCACAGGGATGATGAAAAGAAATATGAGAGCTAAATTCAGGATAACTATTCCGGAGGTTTTAAAGAATATAGAGGATCAAACAGATGGTGAAGTAACTAGAGATAGTTGGTACCCTATAGGTACTTCCGTAGTATTTTCAAGGCTAGTTGAAGCATTAACTGGCAAAGAACAATTTGAAATGGCTAACCATCCAAGTTGTGGAGCTGGAACATACATTTATGTAGAATGGAAGAATAATGAACCTCACTTTATACCTATATCAAAGTTTATAGACCTTGAAGGTTTGCTTGAGTACTTTAAAGAAAAAGCTGACGAGCTTAAGGAAGGTGCCAGTAAATATTGGGTTGGGATGAAAATACTAGCTAACATAAAGAAATTTATAGATAAAGAAAAAGGACCTAAAGACTTTGATGTATTTAAGATGCTTTACAGTGTAGTAATGAATCATAATTATGAGGCATTAGGCGAATGGCATTATAGAACATTATTCTTAGGTACTATGCACTTTATGGATCTCTATAACTACGATATACAAAGAGTGATGAGATGCGACATACATTATGTAACACCTGATGGTAGAGTAATACCATTCTGTACCTACAATGTTTTAAATGATTTATATAGAGACAAAGTACTAAAGGAATATCAAATTCCATTAGAGGATTGGATAAAGAAGTATGGAGAAAATAGTATAGGTGATTCAACAAAATATAAGAGGATGGCAAGCATGTTGGAAAAAGGCGAAATATATAAGGAGACATATAAAGGATTTATTTGAATTTTTTATATATTAAATGGATTTCATTATTACACTCGCATATTTTTGCATCTACTAGTTGTAACCTTGGAGACTCTTCACCATTAAAGCCTTCACCATTAGCCAAGTTAATTCCATTTCCAAATATTCTAGATGAGATAGTTACTCTGATCTCATCATAGCAATTTTCTTTAATAGCATTCCATATTGTATTACCTCCACCTTCTATCATTATTTTTCTTATAGCAAAATTTTCATATAGATCGTTCATAATTTTACATATGGTGATATTGTTGATAATTCGTACTATTATACCCCTAGATATTAGTTTATCTTTCAATATACAATTGTCTTTTTCTGTATATACTATTGTTTGAGGCGGTATTATAAAGATTTTTGAATTTATATCCAAATTAAAGGACTTTGATACTACAACTCTTACCGGATCTTTTCCTTTTACATATTTTAACTTCAGCGATGGATTGTCTTTTCTTACTGTATTTCCGCCAACTAGTACTGCATCTACTTCTGATCTTAGAATATGCTGTCTTATCTTATCATATTTGCAACTAAGTTCACTATAAAAATCCTTTGCTGCTAGCCTCCCATCTATAGAAACAGTGCTAAATATTATAATATATGGCTTATTCATTACTTATTCATTATAGCAAGGTTTTTAAACCAAACTCTGATATCACACTTATATCTGATTTTACAGTCTATACAACAAGTATAGCATACATTCATTTTTGTAATTTTACAGTATTTTAGAAGCCTAGGTCTACCACATGATTCACAGTTTTCTTCGTAAACCATTTTTATATCTTCCAGCAGTCTATATTGTCACATACTATTTTTATATTTTTATCCTCTATGCTTATTTTGGAGTTACCTATAAACATTATATTATTTAATCTTATAATAATTGAACCTAGTGTAGGGGTTTTTGTATTAAATATATACAGATTTTCTATAGTCTCAACATTCTTTCTTAATTCCATAAATACCTCACAGCTATCTATAGTTTGATTATTACAGTTTCCATGTCTTATAGAAATAGAATCTGGATAATGTGAAACTATTTTAGTTCCAAATATTCTATGTATTTCGCATGCTCCTCCTGCAGAATTCTTTAGACAACTTGTTAATATGATATAACTTAATTTATTCTTATCGACTATTATTTCTAAAATACTCCTTATAACATCATTTATATATTCTCCTGATGTAGAGTCTATCAATATATAATATGTTCCAAGATTAACTAAATAACAATTATCTCTAAAATTAGGTAAACCAATTTTATAAATATCTTTAGAAATTCTAGCAATGCTCATATAGTAAACAAGGCATTTATGTTAGCGATGTTTATAAGCTTACGTAGTGCATCTTCTTTAGCTACTATAGCTAATACCAATATGATATCACTTCCAGATTTTTTTAATAAATTATATGAAGTTAATATAGTTTTTCCAGATTTTATTACATCGTCTACTATTATTATTTTATCATTTTTGTTTACTAAGTCCTTCCTAAGATATAGGCTATTTATTACACCTTCACTTTCTTTTATATTTTCCTCATAATATTCCATCTGTATTGAGTCTTTATGCTTCTTTGCTATAATAAGAGGTCTATTTATAGTATCAGCTACCAGAGTAGCAAACGGTATTCCATTACTAGCTATTCCAAATACTTTTGTAACATTTTCTATTTTAGGTATCTTATTCAAGGTTATTTCAACCAAAATTTTAAGAATATTAGGATAAAAAAGAAGAAAAGATGTATCAATAAATCCATCATTATATATTCTTATTCTTTCCTTTACGAAATTGGTTAGAAATTCCTTATTTTTTATTTTATTTATTATATTATTATACTGTATTTCGCTAGGTATTGTAATACCATTCACGTATCTGCATAAAAGACTTTCTTGAATATTAAATAATGATGAGAGCTGTCTATATGTATAGACGTTCTTAAGTTCTCTTAAAATATCTATTATGAATAATCTTTCTCTGAGCTCTACATCTTTAGATTTAATCATTAAATTTATACTCCATATTGCCTAAGATTAAAATTGATGTTCGAGATATTAAGTGCTGAGTTGTGACGATAAACCCACGCTGAGAATTTTATAATCCTAGTCTTTTCCTGATAAGATTGTTGGTAAGTTGCGGGTCTGCTCTATTTCCAGTCTTCTTCATAACTTTTCCTACAAGATAATTTATAACCTTAGGATCATTTTTTGCAGCTATTGCGGCATCTTTTTCCTCCTCTATTACCTCCGATATCACTTTTTCAAGATATTCTTGATCTTTTACCGCTGTTAATTGTGATTTACTGATTATCTCTTTAGGAGACTCTCCATTTAAAATTAAATCTGGTAATATAGACTTTACTATTTTTATAGTTACAATCCCAGAATCAAGCATATTTAATAAATCTGCTATATTATTTGGTGAAGCTTTAGAATCTATTATTCTTAATTTTTTATCGTTTATCCATCGTAAATAGTCATTAACAAGTAAGTTAGCTAATTTTTGATAGTTTTTATATAATTTTGCAGTATTCTCAAATAAATCAGCTAGTGCTTTATCCATAACTAATACATTAGCTTCTTTAAATGATATTCCATATTGTTCAATAAACCTTTTAATTCTAGCATCAGGTAACTCTGGCATTTCTTTACTTATTTTATTTATATACTCTGTATTGATAGGGTACGGAGGTAAATCTGGATCTGGGAAATACCTATAGTCTTCTTCAGACTCTTTTGACCTAGTTGGTACTGTTACCTTTCTTTCAGAATCCCAATGTCTTGTTTCTCTTTTTATTTGAATTCCCTGAGTAACAGCGGCTTTTTGCCTAGCCACCTCGTATTTAATTGCGTCTTCTACATCTTTTATAGATCCTACATTTTTTACTTCTACTCTCTCTCCTCCTTCTATAGAAATATTTACGTCTGCTCTCATTGAACCTTCCATATTGCAATCACATACGTCTAAGTGCTCTAAAATAGATCTAAGTTTTTCTAAAAAATCTTTAGCCTCTTTATGATCCTCTATATCTGGTTCTGTGACTATTTCCAATAATCCAATTCCAGATCTATTATAATCTAATAACGTGTACTTACTAGTTAACATAGATCCTGTAGGATATATTGTCTTTGCTGGATCTTCTTCAATATTTATTCTTCTTATTCTAATAGTCTTGTTATTAATAATAATTTTTCCTGATTTAGCTATTGCCATACTACCTGGTCCATCATATTGAGAAATCTGATAGTTTTTAGCCATATCTGGATAAAAATAATGCTTCCTTGTGAATAGTAACGACGGAGCTATTTCACAATTTAACGCTATTGCAACCATTATGGCCTTATTTAAGGCTTCTTGATTTAAAACTGGAATTGCCCCAGGTAATCCTAAACAAACTGGGCAAACAACAGTATTTGGATCTCTTCCTATATAATCAGTAGGACAAGAGCAAAATAGCTTTGTCTTTAGCGTATTTAAATGAACATGAACTTCTAAGCCTATTTTTGTCATTATTATCTACCTTCTATAGTTTAAACGCGTTAGGTAATAATTCATCCAACTTATATTTAACTATCCTTTTATTCTTATCTAACGTTATAATCTCTATATCATTGGAAAATTCTTCCATTACTTGCCTACATGCTCCACAAGGCATCATACCATTGCCTTCTGAATTAATTATAGCTATTTTTTTGAATTTCCTTTCTCCACTACTTATTGCATTAAATATTGCAACTCTTTCAGCGCATATTGATAAGCCGTAGGAAGAATTTTCTACATTACAGCCTGTTATTATTTTCCCATTTTCAGTAAGAAGCGCAGCACCTACATTAATTTTAGAATACGGTGCATAAGAGTTTTGAGTAGCTTTTAGTGCAATTTCTATTAGTTCTTTATCCGAAGGATCTGTCACCTGCATCCCCTAGGCCTGGAAGAATATATCCTTTTGTATTAAGTTCTGGATCTATGGATATTGTAAATAGATATATATCTGGATATAACTCAAATATTCTTTTAAGTCCATACTGTGATGTTATTACTGACGCTATATACACTCTTTTGGGCTTATTTTTTATTACCTTATCTATAACCTTAATCATTGTACTAGCAGTAGCTATCATAGGATCGGCAATTATAACGTTATCAATACTTTCTCTAATATACGGTATTTTTTCGTAGAAGATATCTACTTCCATTTCTTTAGGAGGTTCTTTTTCTTCTGTTTCTCTCCGTTTTGCAGTTACTACGCCTTGTCTAGCAGCCGGAAATGCTTTTAATAGGCCTTCTACGAGCGGAGTAGCAGCTCTCAGAATATTAATTATTATGACATTTTCTAAGTCAGAGATTTTTACTCCTTTAGTTTTTACTCCTAAAGGAGTTTCAACGTCAATGATTTCGTAATCTAGAGTATTTGCTACTGCATAACCTATTAACCTGCCAAGTCTAACTAAACCTTTTCTGAAATTTATCTGATCTGTATTCTTATTTCTTAATTGAGTCAAAATATGTAATTCTAATGGATCTGATAATAAAAATAAAGGCATATCTTTACCTCTTAGTTGTTAGCTTTCTTGCTTCTCTTTCAGTCTCTCTAAGAATTACTATATCTCCTAATCTAACCGGACCCTTAATGTTCCTTGTTAGAATTCTACCCTTATCCCTACCTTCTAGTACTCTTACTCTAACTTGAGTTACTTCTCCTGTGACTCCCGTTCTATCAAGTATTTGTATAACCTCTGCTGGAAATCCAAATTCTTCTATTATAGACGAAGTTTGAGTTGGTTTTTCGCTCATTTCACACCACTATATTACCTTTAGCAATTCATTTAAATACTTCACTAAAAAAATTATGGTGAGATAGAATGCCATCAACTCATACTTGTAGTTATTGTGGAGGCAATATCCCAGCAGGGACTGGGTTAATGTATATAAAAAATGACGGTACTATATTATGGTTCTGTTCAAGTAAATGCAGAAAATATATGCTAAAATATCGTAGAGATCCTAAGAAATTTAAATGGACTTCATCTTATTCGAGGGTTAGATAAATGTCTATACAAAAAACTTTTGTAATGATAAAACCAGACGGAGTTAAACGAAAACTATCTGGCGAAATAATTCAAAGAATAGAGAAAAAAGGGTTGTCGATAGTAGGCCTAAAGATGGTTAGAATTTCTAAAAATAAAGCAGAAGAACTATATGCTGAACATAATGGCAAATCATTTTTTAAAGATCTAATAAATTATATTACATCTGGTCCAGTAATATGTATGGTTATTGAAGGAGACGAAGCTGTGAGTGTAATGAGAAAAATGATTGGAGCAACTGATCCAAAGGAGGCATTACCAGGAACAATAAGGGGAGATTACGCATTATCGAAATCAGAAAACGTTATTCATGCATCTGATTCTGAGGATAAAGCTAAAAGAGAAATTTCGATATTTTTTAATGATGAAGAAATACTAAACTTGAATATTCAAACCGTATAACGGATCTTCTGTTCTTTTTATATTTATAATCTCTTTTATTACGCTTTTCATATCCTCTGTAATTATATCTTTATAGTTACTAAACAATATTTCTAAATCTTCCTTTGGCACATCAGTATATAATTCTTCGCCTTCATCTATTTGTCTGCCTATCATTATGTTTCCTTTTATGGATAAAGCAACTTCCATACCCTCAGTAGCTTTATCTAAAGTCTTTTTATTATCTTGAATTTGCAGTACTTCGCCTACTCTTCTTCCATCTTTCTTCATTAAAGGATACTTTGGTTTTATTATACCACCAAGAACTTTAATCCCTACTATGACAGGATCGCTTCTTCTAAATACGTATCCAGGCAAAATTTTTATTTTAGCAGGCAAGACTAGTGTATCTAATGTCTTTCTCTTTCTCTTTTCCCTTACATCATTAATATATTTTTCAACATCGTCAATTAATTGATAAATGATATCGTTATAGATGATCTTAATCTTAGAAGATTCGACTCCAGGCAGAGGTTTTACTCTAAAAGCGGCTATTATGCCGTACTCTTCTGCTTCCTTACCAGCAAGTTCTGCTTCTATGATATCTCTTTTACTTATAGGCCCAATATCTGCTAGTCTTACTGGTATATTTCTCTTTTCTAAAGCTCCCACCAATGATTCTAGCGTACCTAAGCTATCTGCTTTTACGACAATCCCTGTAATATTTTTCTGGAATCTAATTTTAGAGATTTCTTCTTTGATTATTTTCTTATATTCATCAAGTCTACTTTCATTATCTACAGCATATAAGGGCGATCCAGCTACTGCCTCATCTAATCCAGTAGCCATTATTTTAACACCAGAAGCTGCATAGACTTCATCCACGCTTCTATAATCTGTCTTTGAAATTCTCATGTCTTGTAATGGCGCAGGTAAAAGTAAGTTTCTGACTTTAGTAACTATTACGTCATTAACGCCTCCTAAAACTATTGTATCATTTCTCTTAAGTATTCCATCATAAATTATGGTATCTATAGTATACCCATATCCTTGATCTTCTTTAACTTCTAATACTACTCCTTTGGCAGGACCTTCTACAAATCCAATTCTTGTTCTCATAAATCTTTGTGTTAAACCAGCTAATAGTGCCAATAGTTCAGGTACGCCTTCTCCTGTTTTCCCAGATACAGGAACTATCGCTATATATTGTGTAAAGTCTTTTACTCTGTCGAACCTTTCGGCGTTAAAATTTAATTGAGCCAATTGTAAAACTAAATTATATATGGCGTTTTCTAGTCTTTGCTGTACAGCTTTTGATTGCTTAGAAAATGATACTAGGAAAGGTTCATTATCGTAAGGTTTCCATCCGGGTATTCTATCTATTTTATTAGCTGCCACCAAGAATGGTACCTTTTTTTCCTTTAATATTTCTATAGATTCGTTAGTTTGCTTTTGAAAACCTTCCATTATATCCACTACTAATATCGCTATATCTGCGACGCTTCCTCCTCTTCTTCTTAAGTTAGAGAATAATTCATGTCCAGGTGTGTCTATAAATAATAAACCAGGAATTTCTAATTTAACTGGAATTATATTTTTTAAAGGCTCTGAAAGTTTTTCTATGACTGAACTAGGAACAAAGCTTGCACCTACTTCTTGCGTCATCTCTCCAGGTTCCTTTTTAACTATTGCTGTTCCTCTTATCTTATCTAAAAGCGTAGTTTTACCATGATCTACATGACCTAATACTACTACTATAGGCTGTCTAAATCTTCTAGAATCTTTACTCATAGAATTCACCTACTGTTAATTTAATTATCAAATCTTTTACTTTTCATAGTTATTATTTTTAAGCTAGTATTTCACTTCAATATAATGTGATTCTCTTTTGGTAGATTATGACAAGTTAGCTGTAGAAACAGCATCAAAGTATAAAGGTAAAATACAAATGATCCCAAAAGTACCTGTAAACTCTATTGATGATTTCTCTATTTTATACACTCCTGGTGTAGCTGCAGTATCTAGAGCAATTAATAAAGATAAGAATCTTTCTTTTCAGTATACTTATAGATGGAATGCTATAGCTATTGTAACTGACGGTACAAGAGTATTAGGCTTAGGAAATGTTGGTCCAGAAGCTGCTATGCCAGTTATGGAAGGTAAATCTTTACTTTTCAAATATCTTGGCGGAGTTGATGCAATTCCTATTACTCTTGGAACAACAGATGCAGAGAAAATTATAGATACAGTAAAAATTCTAGAACCGTCGTTTGGCGGAATTAATTTAGAAGACATAGAATCTCCTAAATGTTTCTATATTTTAGATAAATTGAAAGAAGAATTGCAAATTCCTGTTTGGCACGACGATCAACAAGGTACTGCTGGCGCTACATTAGCAGGATTAATGGGAGCGTTAGAGGTGGTTGGGAAAAAAGCTAATGATATAAAAGTAATTCTTTTTGGGACTGGAGCTGCTAATATAGCTACTGCTAGACTTCTTAATAAATACGGAGTTCCTTATAAAAATATGATATTAATAGACTCTTCTGGAGTACTTTATAAGGGTAGAAATGACGAGGATGCTATAAAAGAGGAAAATGTCTGGAAATATGAATTATTGAAGGAAACTAATAAAGAAAAGATAACTACGATTGAAAAAGCGTTTGAAGGAGCCGATGTATTAATAGCAGCTTCAAAACCTGGTCCTGGTACAATTGATTCTTCTCTAATTTCGAAGATGAACAAAGACGCTATAGTTTTCGCTTTAGCCAATCCAGTTCCAGAAATTTGGCCAGAGGAAGCAAAGAAGGCCGGTGCTAGAATAGTAGGTACTGGAAGAAGTGATTTTCCAAATCAAATAAATAATTCACTAATATTTCCTGCCGTATTTAGAGGAGCTCTAGATGTAAGAGCAAAGACTATTTCAGATGAAATGGTAATAGAAGCCGCTCGAGAATTGGTAGCCTTTGCTAGAGAAAAAGGTTTAAACGATGAGTACATAATTCCTAAAATGACCGAATGGGAAGTATTTCCTAGAGTAGCTGCTACAGTAGGTTTAAAGGCTATTCAGTTAGGTCTATCAAGAATTACACTAAGTTATGACGAGCTATATACTAATGCTAAGTCGATGATAGAAAACGCTAGAAAGCAAATGAAAATGCTAGCTTAAATTTTTATATTCTTGAAAGTATAGGCTTTTTATCATACATTATTTAGGTGTATCATATGCGTTCAGTTTCTAAAAAAATAGATCCTAGGGTTCATCAGTTGGTTCCAAAACATGAGATTCTTCCCATAGAGGAGGCTTATAAAATGCTCAAGCAACTTGGTATAGGTCCAGAGCAATTGCCTTGGATAAGAGCTTCTGATCCAGTTGTGCATGCAATTGGAGCAAAGCCTGGCGATATAATTAAAATTACAAGAAAAAGTCAGACAATAGGAGAATCAGTAGTTTATAGATATGTTATAAGTGGGTGAGAAAAATGCTCAGCATTGATGATAGGTGGGAAATAGTAGAGGCATACTTTAAGTCTAGAGGATTAGTAAGGCAACATTTAGATTCGTTTAATGACTTCATTAAAAATAGATTGCAAGAAATTATCGACGAACAAGGAGAAATAGATACGGAAATACCAGGACTTAAAATAAAATTAGGTAAGATTAGAGTAGGAAAACCTAGAGTTAGAGAAGCTGATAGAGGAGATAGAGAAATAACTCCAATGGAAGCTAGACTAAGGAATCTAACATATGCTGCTCCAATATATTTAACAATGATTCCTGTTGAGAACAATATAGAAGGAGAACCAATAGAAGTTTACGTTGGCGATTTGCCTATAATGCTTAAGTCTATAGCAGATCCTACGTCAGATTTGCCTGCAGAAAAATTAATAGAAATAGGCGAAGATCCTAAGGATCCTGGAGGATACTTTATAATAAATGGCAGTGAGAGAGTTATTGTAACACAAGAAGATCTAGCTACGAACAGAGTTTTAGTAGATGTTGGAAAGGCAGGGTCTAATGTTACACATACTGCAAAGATAATATCTAGCACGTCTGGATACAGAGTTCCTATAACTCTTGAAAGATTAAGAGATTCCACTATACATATATCATTCCCTGCAGTACCCGGTAGAATACCTTTTGTTATACTAATGAGAGCATTAGGAATTTTAACAGATAGAGACATAGTATATGCAGTTTCTTTAGATCCTGAGATACAAAACGAACTTTTGCCTTCCATAGAGCAAGCTAGTTCTATAACTACAAGAGACGATGCGCTAGACTTCATTGGAAATAGAGTTGCTATAGGCCAAAAAAGAGAAAGTAGAATACAAAAAGCTGAACAAGTATTAGATAAATACTTTTTACCTCATATAGGGACTTCTCCTTCAGACAGAATTAAGAAAGCCTATTATATAGGTTTTGCAGTATCTAAGATTCTCGAACTTTACTTAGGGAGAAGAGAAGCTGACGACAAAGATCATTACGCTAATAAACGTCTTAAATTAGCTGGAGATTTATTTGCAAGTTTATATAGAGTAGCATTTAAGGCATTTGTAAAAGATTTAGTATATCAATTGGAAAAATCTAAAGTAAGAGGAAGAAGGCTAGCCTTAAACGCACTAGTAAGACCAGATATTATATCTGAAAGAATAAGACATGCATTGGCAACAGGAAATTGGGTAGGAGGTAGGACAGGAGTAAGCCAACTTTTAGATAGAACAAACTGGCTATCTATGTTAAGTCATCTTAGAAGAGTCATATCTTCCTTAGCAAGAGGTCAACCTAATTTTGAAGCTAGGGATCTTCATGGAACTCAGTGGGGAAGGATGTGCCCATTTGAGACTCCAGAAGGTCCAAATAGCGGATTAGTAAAGAACTTGGCCTTAATGGCACAAATATCTGTAGGAATAAATGACAGAGTAGTAGAGAAGGTTCTTTACGACTTAGGAGTAGTTCCAGTTGATGAAGTCATAAATAGAATAGAAGAAGGTGAGGAAGATGCTTCTACGTATTCTCAATGGAGTAAGGTAATTTTAAACGGTAAACTTGTTGGGTACTATCCAGATGGTGATGAGTTAGCAAAGAAAATAAGGGAAAAGAGAAGAAATGGCGAAATAAGCAATGAAGTAAATTCAGCATTCCTTTCTACTGAATATTACAACGAAGTTTACATAAACTGTGATAGTGGAAGAGTTAGAAGACCACTAATAGTAGTAAAAGACGGAACTCCATTAGTTACCAAAGAAGACGTTGAAAAATTAAAAAGAGGCGAGATGTCATTTAATGAACTCGTTGACCAAGGGAAAATAGAATTCTTAGACGCTGAAGAAGAGGAAAATTCATATATAGCATTAGATCCAGATAAATTAACTTCAGAACATACTCACTTAGAAATATGGTCTCCTGCAATATTAGGAATTACAGCGTCTATAGTCCCATATCCAGAACATAACCAGTCTCCTAGGAATACATACCAATCAGCCATGGCTAAACAAGCTCTAGGTCTATATGCTGCTAACTATCAGCTTAGGACAGATAGTAGAGCACATTTACTTCATTATCCTCAAAAACCTATAGTTCACACTAGAGCTCTTGAAGCTGTTGGATATAATGATAGACCAGCAGGAAGTAATGCTATATTAGCAGTAATGTCATTTACTGGATATAATATGGAAGATGCAATAATAATGAATAAATCTTCAGTAGAAAGAGGAATGTTCAGATCAACCTTCTTTAGATTGTATTCAGCGGAAGAAATTAAATATCCTGGTGGCCAAGAGGATAAAATTGAAAAGCCAGAAGAAGGATTAAAGGGCTATAAGGGGAAAGAGTATTATGAGCTGTTAGACGATAATGGAATAGTGCCTCCTGAAGTTGAGGTTAAAGGCGGAGATGTACTAATAGGTAAAGTAAGTCCACCTAGATTTTTGCAAGAATTTAAAGAACTTTCACCAGAGCAAGCTAAGAGGGATACGTCAATAATAGCTAGACATGGAGAAAAAGGAATAGTTGATTTAGTATTAGTTACCGAAACTGCAGATGGAAATAGACTTGTAAAAGTTAGAGTTAGAGATCCAAGAATACCAGAATTAGGAGATAAGTTTGCAACTAGACATGGGCAAAAAGGAGTTATAGGAATGTTAATATCGCAACCAGACATGCCATATACAGTAAAAGGAGTAGTTCCTGATATAATTTTGAATCCTCATTCTTTACCATCTAGAATGACGTTAGGCCAGATTATGGAAGCATTAGCAGGAAAATATGCCGCATTATCTGGGCACGTAGTAGATGCTACGCCTTTCTACAGCAAGCCAATAGATGAGTTACAGAATGAGATACTTAAATATGGATATTTAAAGGATGGATCTGAAGTTGTATATGATGGAAGAACTGGACAGAAGATAAAAGGCAGAATCTTATTCGGTATAGTTTATTATCAGAAACTTCATCATATGGTTGCTGATAAAATGCATGGAAGAGCTAGAGGTCCAGTTCAAATACTAACTAGACAGCCTACTGAAGGAAGAGCTAGAGAAGGCGGATTAAGATTTGGAGAAATGGAAAGAGACTGCCTAATAGGTTATGGAGCCGCTATGGTAATAAAGGATAGACTATTAGATAACTCAGACAAAGCCACAGTGTATGTCTGTGAACAATGTGGATATATAGGTTGGTATGATAGAAATAAAAATAAGCTAGTATGTCCAATTCATGGCGACAAGACAAACTTGTATCCAGTTACAATTTCATATGCTTTTAAGCTCTTATTGCAAGAGCTTATGAGCATGGTAATCTCTCCTAGGTTAATTCTAGGGGATAAAGTAGATATTAATGGTGATCATAATGAGTGAAAAAATAATAAAAGGTATAAAATTTGGTATTTTATCTCCTGACGAAATAAGAAGAATGTCAGTAACGGCAATAATCACACCAGATGTCTATGACGAGGACGGTACTCCGATAGAAGGAAGCGTAATGGATCCTAGATTAGGAGTTATAGAGCCCGGACAGAGGTGTCCTACATGTGGGAATATGATAGGTAGCTGTCCAGGACATTTTGGTCATATAGAATTAGTTAGACCTGTTCTGCATGTTGGTTATGTAAAACATATTTATGATCTTCTTAGGGCCACATGCAGACGTTGCGGAAGAATAAAAATGAGTGAAGATGAGATAGAAAGATATTCTAGAATTTATGCAGCTATTAAAAAAAGATGGCCGTCTGCTGGTAAAAGAGTTATTGATTATGTTAAGAAAACATCTATGAAGGCTGCTGTATGTCCACACTGTGGAGAAAAACAGCTTAAAATAAAGCTTGAAAAACCTTATAATTTTTATGAAGAAAGGAAGGAAGGAGTTGTTAGACTAACTCCAGTAGATATTAGAGATAGATTAGAAAGAATACCAGATTCTGACGTGGAATTACTAGGTTATGATAGACAATCTAGTAGACCAGAATGGATGATTCTTACAGTCCTACCAGTGCCTCCAATAACTATAAGACCTTCTATAATGATAGAAAGCGGAATAAGAGCTGAAGATGATTTAACTCATAAATTAGTAGATATAGTAAGAATAAATGAAAGATTAAAAGAGAGTATAGATGCAGGTGCACCTCAGTTAATAGTAGAAGATTTATGGGATTTATTACAGTATCATGTTGCTACATATTTTGATAATGAGATTCCTGGACTTCCTACTTCTAAGCATAGATCTGGAAGACCATTAAGAACATTAGCACAAAGGCTAAAAGGAAAGGAAGGAAGATTTAGAGGTAACTTATCGGGTAAAAGAGTTGACTTCTCTGCAAGAACAGTAATTTCACCAGATCCAAATATTAGTATAGACGAAGTAGGAGTTCCAGTGGATATTGCCCAAATATTAACAGTTCCAGAAAAGGTAACTAAATGGAATATTGATAGATTAAGAGAATATGTCATTAACGGTCCAGACAAATGGCCAGGGGCTAACTATGTTATAAGATCTGACGGTAGGAGAATAGATTTAAGGTATGTTAAAGACAGAAAAGAATTTGCGTCTACATTAGCGCCAGGTTTTACAGTAGAAAGACATTTAATTGATGGAGACGTTGTAATTTTTAATAGACAGCCTTCTCTACATAGGATATCTATGATGGGACATAAGGTTAGAGTACTTCCAGGTAGAACGTTTAGGTTAAATCTTTTAGTGTGTCCACCATACAACGCAGACTTCGATGGAGACGAAATGAATTTACATATTCCACAATCAGAAGAAGCTATTGCTGAAGCTAGAGAAATAATGATAGTTCATCGTAATATACTAACGCCTAGATATGGGGGGCCTATAATAGGTTCAGCACAAGACTACATAAGCGGAGCATATTTGCTTACAGTAAAAACTACATTAATAAGCGAAGAAGAAGTAGAGACTATACTTGGCGTAGCCGATATTCATAAAGAACTGGGAGAGCCGGCTATTCTAGCTCCAAAAAGAATGTACACAGGAAAACAGATCTTAAGTTTATTCTTACCCGAAGATTTCAATTTTCATGGTCAAGCCAATATATCCAGTGGTCCAAGAGCATGTAAAGACGAGGATTGTCCACATGACTCCTTTGTTGTAATAAAAGAAGGTAAACTCTTAGAAGGTGTATTTGATAAGAAAGCATTAGGAAACCAACAGCCTGAAAGCATTCTACATTGGCTTATACGAGAATATTCAGAGGATTATGCGTTATGGTTAATGGATAATATCTTTAAAGTATTTGTTAGATATATTGAGTTGCATGGACTTACGATGACATTAGACGATGTTACAATTCCACAAGAGGCTGTGCAAAAAATAGCTGAAAGATCTAAACAAGCTAATGAGGAAGTTTCACAACTTATTGAAAAATACAATAAAGGTGAATTGGAGCCGATTCCTGGTAGAACGATAGAAGAAAGCCTAGAGAATTATATATTGGATTCCTTAGATAAGTTAAGAAACGACGCTGGAGAAATAGCTACATCATACTTAGATCCATTTAATAATGCTTACATTATGGCAAGAACAGGAGCTAGAGGTAGCGTACTTAATATAACGCAAATGGCAGCAATGCTAGGTCAACAATCAGTAAGAGGAGAAAGAATATCTAGAGGATATTATAGAAGGACTTTGCCTCATTTCAAACAAGGCGATATATCTCCAGAAGCTAGAGGTTTCGTATATTCCTCGTTTAGAATTGGGTTAAATCCTATAGAAGTGTTCTTCCACGCTGCAGCAGGTAGAGAAGGTCTAGTAGATACTGCAGTAAGGACGTCTCAAAGTGGATATATGCAAAGGAGACTAGTTAATGCACTGTCAGATTTAAGAGTTGAATATGATGGTACTATAAGGACATTATATGGCGAGATGATCCAGGCATTATACGGTGGTGATGGAGTGCATCCAATGTATAGTGCTCATGGTAAGACAGTAGACGTAGATAGAATTTTGGAACGCGTAGTTGGTTGGAAGAGGTGATTATGTATGATTCAAAAAGATGTAGAACAATATATGGACGAACAATTATCTAAAATAAAAGATATTGTTCCGAGTACAGTAGTAGATAAGTTAAAGAAGAGTATAGAGAACTATCCAGTAGAAATTACAAAAGACGAAATAGATAAGATAATAGAGCTAGCAATAGCAGATTATAAGAACTCTCTTATAAATCCGGGTGAAGCGATAGGCGTAGTAGCAGCTCAGTCAATAGGCGAGCCAGGTACTCAGATGACATTGAGAACTTTCCACTTTGCAGGCGTTAGAGAGCTTAACGTAACTCTAGGATTACCTAGATTAATAGAGATAGTAGATGCAAGGAAGACTCCTTCAACTCCCATGATGACTATTTATTTAGATGAAGAATATAGAACAGACAAGAGTAAGGCTCTTGACATAGCTAGAAAACTTGAATATACTAAAATTGAAAGTGTAGTAGACTCAACTAGTATTGATGTAGCATCGATGTCAATAATAATTCATTTTGACGAAGATATGTTAAACGACAAAGGTGTAACAATAGATGATGTAGAAAAAGCAATTAAGAAGTTAAAATTAGGCGATTATGTAATAGACAAGCCAGACGAATTAACTTTGTCCATTTCTTTCCAAAATCTAGATAATATAACAAGTTTGTTTAAAGCTAGAGAAAGAATTTTAGGAACTAAAATTAAGGGAGTTAAAGGAATAAAGAGAGCTATAGTTCAAAAACGTGGAGATGAATATGTAATAATAACTGATGGATCTAATTTAGAAGGTATCCTAGGTATAAAAGGTATAGACGTAAGTAAGATTGAGACCAATAATCTTCATGAGGTTGAAAATGTGCTAGGAATAGAAGCTGCAAGAGAACTGATAACAAAAGAAATAAAGAAAGTTTTAGATGAACAAGGTTTAGACGTTGATTTTAGACATATAGAATTAGTGGCAGACATAATGACCAGAACTGGAGAAGTTAGACAAATAGGAAGGCACGGTGTTACTGGCGAGAAAACTAGTGTATTAGCTAGAGCAGCATTTGAAGTTACAGTAAAGCATTTGCTGGACTCCTCAGCTAGAGGAGATTTGGAAGAGTTTAGAGGAGTAGTAGAAAATATTATTATTGGGCAACCCATTAAACTAGGAACTGGAATGGTAGAGCTCTTGATGAAACCCGCGTTAAGGTGATAATATGTCTCAAAATATAACTTTTGAAACAGAATTAAAAAATCTTTTAAAATCAGGTAAAGTTATTTTTGGAAGTAAAAAAACATTAAAGAAACTAAAACTTGGTAAAGTTAAAGCAATTATAGTAGCATCTACATTAAAGGGCGATATTATGAATGATATAATACATTATGCTAAAGTTTCTAGCATACCTATATACAAATATCCAGGCAGTGGATGGGACTTAGGTACATTAGCTGGTAAGCCTTTTATGATTTCTACAATAGGTGTTGAAGATCCAGGAAATTCAAGAATACTTGATATAGCAAAGCTAGTAAGTTAAGGTGGTAATATTTGCCTGAAATTAAACTTACTCAAGAAGAAATGAATTATATGTCACTTTTTCAAGATGTTACTAAAGTTACAGTAAGGGATTGTATTATAGATACTGAAAATAATAGAATAATATTTTTAGTCGATCCTCAATTTATGGGAATTGCTATAGGAAAAAGTGGCTTAAATGTAAGAAAATTAAGGAAAATTATAGGTAAAGATGTAGAAATAGTAGCATATAGCGAAAATTTAGAAGATATGGTAAAAAATTTAATGGCTCCTGCTAGAGTTAGAAGCGTAAAAATAGTAGATAGTGATTCGAAAAAATCAGTATATATTACTGTAGATCCACAAGACAAAGGTTTAGCAATAGGTAAAAGTGGTAAAAATGTTACTAGGGCTAAATTAATTTTAAAAAGATATATGGATATAGACTCTGTAGTTATAGTTTAAGAGGGTGTAAAATTGTCAGGAAAATCTCCTAAAGGTTTATTTGCAGCCAGGAAACTAAAGCTTAAAAGATTAAAGTTTAGATGGAGTCAAAGAACTTTCAAAACTAGGGTACTACAGCTTAAGAAACGTTTCGATCCGTTAGAAGGATCCCCTATGGCTAGGGGAATAGTTCTTGAAAAAGTAGGTATAGAATCTAGGCAGCCTAATTCTGCAGTAAGAAAATGCGTAAGAGTTCAACTAGTTAAAAATGGTAGAGTAGTTACGGCATTTGTACCCGGAGACGGTGGTGTTAACTTCATAGACGAGCACGACGAAGTAGTAATAGCAGGAATAGGTGGAACGTTAGGTAGATCAATGGGTGACTTACCCGGAGTTAGATTTAAGGTTGTAATGGTTAACGGAGTTTCCTTGGACGCTTTATATAAAGGAAAGAAAACAAAGCCGGTAAGATAGGCTATTTCTTTTGTTGTTCCCTGTCTTTTTCTTGGTCTTCAACAAGCTTTTTCTTTACAAATATTGGTTTATTTGATACTAGCGCGAGATATATTGCATGGCTAGGTATCATTCTCTTTTGAATAATTACTCCATCAAATTTCAACTCTATAGTAGCTATATATACTGTATCCATTATATCGTCTATAATAACTTTATTTATATGCTTACTAAGTTCCTCGGTAACCTCAGGTACAAAAGAGATTACGTCATATATTGTTTCTCTTTTATCTAAAGATATATTCTCTTCAGTTTGTTTCTTAATCTTGTTTATCGCTAGTACGACCTCCGCTGGAACATAAAATAGATCAAATTCCCTACCATCTTCTAAATAACATACTATTACAGATATTCCATTGATAGGATAAAAGAAAGCATCTACATTATTGACCTTTACGTACTCATTTTGTTCTGACATCAATATATTATATTCCCTTAAAAACTAATAAACCCTATATGAATAGATATATAATCTACTTCTACTTATGTGATTCGAATAGTTATGGAGTATGATCTGAGTCAATTAGATATAAAAATATTTGGAAAATGGAATACCAAAGTTGAAGTAAGAGATCCTAGTTTAAAAAAATATATTTCACTAATTCCAGTTTATTTACCTCATTCTGGAGGAAGACATGAACATAGAAGATTTGGTAAATCAAGACTTAACGTTGTTGAAAGACTAATTGATGAGCTAATGAGACCAGGAAGAAATAAGGGAAAGAAAATGCTTGCGTATAATATAGTAAAAGCATCATTTGAAATAATTTTCGCTAGAACTGGACAAAATCCTTTACAAATCCTAGTTAAAGCTATTGAGAATGTAGCTCCTAGAGAAGAAGTTACAAGAATTATGTATGGAGGTATAGTATATTACGTTGCAGTAGACGTTTCACCAGAAAGAAGAGTAGACTTAGCTTTAAGACATTTAGTAGAAGGTGCTAGAGCTGCCTCATTTAACAATCCAAAGCCTATAGATGAATCCTTGGCAGAAGAGATAATTGCAGCATCTTCATTAGATACTAAAAGCTATGCATTAAGGAAAAAAGAAGAAATGGAAAGGATAGCTCTAAGCTCAAGATAAATAGCTAAACTTTTATTAACGCAATACATTAAAATGCGTTGAGGAGTGTGTAATAAAAATGTCTCAGAAGCCACACTTGAATCTAATAGTTATAGGGCACGTAGACCACGGTAAGAGTACTTTAGTAGGAAGATTATTAATGGATAGAGGATTCCTAGACGAAAAGACTGTAAAAGAAGCAGAAGAAGCTGCCAAAAAGCTAGGTAAAGAATCAGAAAAATATGCATTTCTATTAGACAGATTAAAAGAAGAAAGAGAAAGAGGAGTAACAATAAACTTAACATTCATGAAATTCGAAACTCAGAAATACTTCTTTACTATAATTGATGCTCCCGGTCATAGAGACTTTGTAAAGAACATGATTACTGGAGCTAGTCAAGCCGATGCTGCAATACTTGCCGTATCAGCAAAGAAAGGTGAATTCGAAGCAGGAATGAGTGCAGAAGGGCAAAGCAGGGAACACATAATATTAGCTAGAACTATGGGAATAGACCAAATAATAGTTGCCGTAACTAAAATGGATTTGACTGATCCCCCATACGATGAAAAAAGATTCAAGGAGGTTACAGATGTAGTAACTAAATTTATGAAGAGCTTTGGGTTCGATATGAGTAAGGTTAAATTTGTCCCAGTGGTTTCTCCGACAGGAGAAAACATAACACATAGGTCAGAGAACATGAAATGGTATAACGGTCCAACACTAGAGGAAGCACTAAATATGTTAGTAGTACCTCCTAAGCCTATAGACAAACCATTAAGGATACCTATTCAAGAAGTATACACAATTTCTGGAGTAGGTACAGTACCAGTAGGCAGAGTAGAAAGTGGAGTTCTAAAAGTTGGAGACAAAATAGTATTTATGCCAGCAGGTAAATCAGCAGAAGTAAGGTCAATTGAAACTCACCACACTAAAATGGAAAAAGCCGAGCCTGGCGATAACATAGGATTTAACGTTAGAGGTATAGAAAAGAAAGACGTAAAAAGAGGTGATGTAGCAGGACATACCACGAATCCGCCAACTGTTGCAGACGAATTTACAGCAAGAATAATAGTTATATGGCATCCAACAGCTTTAGCAGTAGGATATACTCCAGTTTTGCACTTACATACAGCTAGCATAGCTTGCAGAGTATCTGAAATAGTATCTAGATTAGATCCTAAGACAGGTAAAGAGGCAGAAAAGAACCCACAATTTGTAAAACAAGGAGACGCTGCGATAGTAAAGTTCAAGCCAATAAGGCCATTATGTGTAGAGAAATATAACGACTTTCCACCCTTAGGAAGATTTGCAATGAGAGATATGGGAAAAACTGTTGGCGTTGGAGTAGTAACTGACGTTAAGCCCACAAAGATAGAAATTAAATAATTTTTTATGGTGTTTTTATGCCTACAAAAGCTAGAATTAGACTTTGGAGCAGTAATGTCAATGACCTTACTTATGTAATAAATCAGATAAGAGCTATTGTAGATAAGACTGGAATAAGTATGAGAGGCCCAATACCTTTGCCTACAAGAAGACTAGAAGTACCTATTATGAAATTACCTCATGGTGAAGGAAGGAAAAAATGGGAAAAATGGGAAATGTCTATTCATAAGAGAGTTATTGATATTTCCGCTGATGAAAGAGTAATGAGACAATTAATGAGAGTTAGAGTTCCAGAAGATGTTTACATAGAGATAGAACTTGTATAACTTTAAATATGAAGTTTTTTAAATAATTTCGAGTGCCGGGGTGCCCGAGTGGACTAAGGGGCTGGCCTGGAGACTAAAATCCAGCTAGCCAGTGGGGGTAATCCCTGCGCGGGTTCAAATCCCGTCCCCGGCGTAATAAATTGAAAAATTATTTTGTTTGGTAATATTTTATTTTTAGAGAATATAGAGCGTGAGAATATTTAATACTTGAAGATTATTCTTCTTCTGAATCTTCACCTTGAGGACAGGGATAAAGATTATACCTACTACAATAATTGCCCATCTTATTCAACAAGTACATCTTAATCTCATTCTTCTCTCCGGTAGCATTAACAGTAGCCATCAAATAATTAAGATCCTCACTACATTGTTGTACATAAATAATCTTCTCGTTCCTAGTCAAATTAGGCAAAGAATCTATATAAGAAGACACTATTCCAAGAACTTCATCATAAATCTCCTTCAACTTCTTCACGTACACCTCACTATCCCTAATTATCTGATCAACATCTTGCGTAGCTTGTTGCTATTGCTGGGTATATTTGTATTTCATTGTTCTTGTATTCCCATCCTGCTCTTCCTAGTAGGCATTTTGTTTGTTGGTTTAGTTCTTGTAGTTCTTCTTGTGATATTTTCCCGTATTGTTTGTTTACTAGTGCTGTTCTTATCTTGTCTTCGTCTTCTTGTGTTATCTCGTCTTTTAGTTGTTGTTGTAGATAGTAGTATTCTTCTGATGTTTGTGTTATTTGTTCTTCTGTATTTGTATAAGTTCTTGTTGTGACACATGTAATATTCTTTATGATGTTTTTTTAAATGTTTTCAATAGATATATATGTTGTCTTATATCCTTCCATTACCTAATTTTTTAGTAAGCCCCAATGCTCTTTATAATCATGAACAGAATCTATTATTACTTAATAATCACTATAAACTCTTTTATTTTCTGATTTTTCTCAGTTAGCTTTACTATATACTTTCTAAGGTATTAAAGGCAAGATGGTACTGTAAATCTTATAATAAATTATGCATTATAAGCTAGCATATGAATAATGATCTTGGTCTTTAGATTCTAATAAAATATAAAATTATTCAATGATTCATATATATTTAGAATATTAAAATAATATATATACTAAATTATTCAAGTAGTCAGAAATTATTTAATTTATATGTAGATAATAGAAAAATTTAAGATAAGGAAAATCCATAAAGGCTGTGTTGACTAGTTAATTTTCTTATAGACTTTCTACGAAAATCCTTTGCAGTATTACGTATCGTTAAAAATAATTTAATATAATAGAAGATAAGTAAAATTATTTACTGTAAAGCCTAAAATACTATCATCTAAAATAGATAAAATTTATTTCATTACATATTAGAATGAAAATATTTAAGTAAGAGAAATTTCCGTAAAAACTACTATTCAGGTCTAAAGAGAAGCAAGAATAAGAAGTAATAATGACGTTACGATTTAGAATTTTTATTCAGTAAACTGGAGAGGTTATTCTAGACTACATCTTTAATAACCTCTTTGAGAAGTTTATACAAATGAGAATTGTTGAGGATAAGTATGGTAATAGGTTTCTAGAGATTGAGAATAAAATAGGGCTAAGGAAAACGCTAATGACCGTAAACCGTCTTATGAGACTCAATCTCCCAAATGAAAACTATACAGTTTTTTGAATCAACACTGTAAAGTATCCTTATATCTCCAGTTACTTCTATGGAAAACATAGAATTTTCATATATATCTTTTTTTCCAACTTCTTCTTGGGATATTTGAAAGGGTTTTCTTGGAACAACTCCAATTTCTCTAAAATTAGTATAAGCAATTTATCACTAAATTCATCAGTAGCGAATTCTACGAATGACAGTTTACGAGTTCTCTTTCGTTTAAACAATTTCTTGATTCCTCCACACTCGTAAATTCTTCTTATCAACCTAGAGAGCCTCTTAGCTCCTATTTAGTATTAGCTTCCTCTGTTGTTCGTCCAGTTTAGAAATGCCAATTGGCGTATAGTTCTACCATACTTATAAGAAAGTGGCGCTGTTCCAAAAATAAGGATGTCTGTTCCATTTACGCCTTTATATAGGGAACATAAATATCTTAAATTTTACGTAAAATTAGCGCCGCAGCCGGGATTTGAACCCGGGTCAAGGGCTCGACAGGCCCTCATCCTAGACCGGGCTAGACTACTGCGGCATATGAATATTATTACAATCACTATTTAAAGTTTACGCAAATTTAGGAGTTACATTGCTGTTATTAAGCCTTTATATACTTACCAAAAATACGTTATCCTTATAACTATTGGCTATGAGTCGATTTATTCTAGTATTTTGGTGCTTAAAACTAAAATAGATACCATTAGCACTTCCATAAAGTTATTATTTATTAAGCTATCGGAAACTTTTATATTAATGAGATAAAAACTAATTGGAAGTGCTACCATGAAAATTATATATTATCTGGATTCCAAAATGCAAGGGAAATTTACTTTAATATTGAAGTTCACTGTTAACATAGCTATTTGCACTATAGATAAGGCCTACTAGCTTGATTATTAGTGAAAGATTTTTCTGATTTTAACTTTAGATTCAGAATTTATCAAGCTATAACTGGTTTTAAGACTAAGAATAGATACTGAAAAGCATTCGACCTTCATTTCGAACACTATTATAGATTATCTACATGGTTTATCTGGTTTATATCCTTATACTTATCTTGGGATAATTGACCCAGACTTCCCATACGCGTCGGTTTACGGATACCCAGAACAGTTATTCTTAGGAATTGAAAAGATAGTTACGATAAACCCTTTCTACACTTCAATCTACAAGTTAAGCAACATAATATATCCAGAGGTTTATAATTATTTATCTGGGAGATTGTTCTATATTAATAGTGCTTCTGTTGGTTGTCCTGTTTTTATGAGTGCTTTTGATCATAATGCTGATGATGATTGTACTTATCTTGGTCTTGTTGGTCTTGTTAGTGGTGTTTTGAATAGTTTTGAGAATAATAAGGACGATGTTTATCTTGGTATTTATTATTTGCCTGTTGTTCTTCCTCCTAATAGTTTTAGCGTGAAGGACGTTCTTGATTACGCTAGGATGTTTTGTAGTAATGGCGTTTGTCAGGATTCTGCTTTCTCGTACTTGTTGGATAGGGTTAGGAGTGCTAATAGGGCTATGTCTTCTTTGATATCTGCTGGTGTTCTTTCTGGGATAGCTTTTGCGGCTGTTCTTGTTGTTGATTGGTATGATGTTGATCAGATAATTAGGGATAGTGAGGTGTACGTGAAGAAGTTGAAGGAGATTTATGATGAAGTTCTTGGAATAGTGTCTTCTTATATAGATTCTTTGCCTAATTTGACTAGGAACGAGAAGATTATTTATGTACAACAATGTAGTGAGGATCTTAATTATTTGATGGCTACTGTTAATGCTACCGGAGAGAAGAATGAGATTAAGATGTACTTGTTGAATAAGATGGGCAATTATTGTAGTAGGTATAATCTTTATCCCTGTCCTCAAGGTGAAGATTCAGAAGAAGAATAATCTTCAAGTATTAAATATTCTCACGCTCTATATTCTCTAAAAATAAAATATTACCAAACAAAATAATTTTTCAATTTATTACGCCGGGGACGGGATTTGAACCCGCGCAGGGATTACCCCTACTGGCTTTCTAGTAGGCTCTCAAGGCCAGCCCCTTAGTCCACTCGGGCACCCCGGCAAATTCTGTATTAGTCGTAATAGTATAATAATTTAACCTTTATCAGGCTATCTTCTTATCATGATTATAGAATATCCTTTTTGGTTCTTTATTATCTGTATGTTGGAGAAATATTTTCCGAATATCTTTATCACGTTATTCTCTCCTTTATATACTACTAATTCTATATATCCATCTTCAAGTTTTTCGTTACTTTGTTCGGCTAGTTTTTCTAGGAAATCTACTCCTTTAGACAATGGGGGATTTGAGAATATTGCATTAACTTTTTCTGGAAGATTATCTAGAACGTCACTTTTTAGTACTGTTATTATATTATTCAAATTATATCTTTCTACATTATATTTAGCCGTTTTTACTGCTATTGGGTTTATATCTAGCATGTATATTTTTAGGTTATTGTTTTTTAACGCTATATAAATGCCTATTGGTCCATAGCCACAGCCTACGTCGGCTACTTTACCTTTTTCTGGAATAGTTAAATTTTCTAGTAATATCCTTGTTCCTGTATCTAGTTTTCTTTTAGAGAATAAGCTAGTATGACTTACTAAGCTTAATGGTATGCCATTTACTACTTCATTGACTATAAAATAGCTCATTTCCAGCTTCTTGGGTATAAATCTTTTTGTATTAAAACTCTTTTTGGTTTTATTGCTTCTCCTTTTTCAAGACTAGATAGGTTTTTCGAATCTACTAAGGCTATACCTACCGCTACAGCTTCTCCCTTTAGCGTTAGTATACCTACTAAATCGCCTTTTTTAAAGTTTTGAAATGCCACTATTCCAGGTATCATTACTGATGCCCCATATGCTATAGCGTCAACAGCATTATCGTCTATTACTATTTTAGGAATTCCGCAAAATGCCATTTCCATTGGTATAAGTATTTTTCTTAAATCTTCTTCATCTTTACAGCTTTTCCACATGTATAATGCTTCCGAGACCTCTTGAAGCGTAACTAGATTTTTTTCTGTGAATATTCCTGATCTAATTCTTCTAAGTTCTCTCATATGCGCTCCACAACCTAGTAATATTCCTGCGTCGTGGCAGATTTTTCTCATATATGTTCCTGGCTCTGAAGATATTCTGAGTAGAGCCATTCTATTATAAGTTTCCAAGAGTTCTATTTCATTTACTGTTCTAAACCTTAATCTTCTTTTTACTGAAGATCTTACTGGGGGCCTTTGGTATATTTTTCCTTTAAATTTCTCTATAATGCTTTTTAAAAGATCTTTTTCAATATCACAATGAACTTGCATTACACATATGTATTCTTTTCCTGCTTCTGTAACATAATTCATAATTTTTGTAGCGTTCTCTAGACCTATAGGTAATACTCCGGTTACTTTGGGATAGCCCCGCCTTTTAAGGCTCTAGGGTCCCTCCATGACCTACTTTGTTAATGTTAAACATTTTTTTAACCCAGAATGCTACTTCATGGCTTGTAGGTCCGGGCGGTTTATCTAGGTTGATTATCGAGTTTTTTATTAATAAGTTGATATCTCTTTTATCTGGGTAAACGCCATATTTGTCTGATGTGGTTTCCTCTTTTTTTATTTCCCAAGAATTATTATAAGAACAAAATTCATCTATCTTATAAATAAAATTATAAAAATTCATTTAAATCACTGGTATTTTTATCTTTATTTTTTCTTTAACGAAGTCTGTTAGACCTGCCTCTTGAAGCTTTTTCTCTATTTCTTCGTCAGTTGCGCCTTTTTGTATATCTATCTTTTTATCTGTTGGTTCTAGATGGGCTATATTTAATCTTCTTCTTTTTATTCCTGAGACTTTCTTAGGTCCTGTAACTAAAACGAAGTTATCGTCTATTATATCTACTATTACACATTTACTTCCTGCTTCTCTACCTCTTGTTTTTACACATATTCTTCCTATTTCGATGACTGGCATTAATAACTACCTAAAAATCAAATTCTTGTCTATAATTTAAACTTACTGCCAGTATTTTCTATTTTTTAAGAACTTTTTCTCTACATTAAAGAGATTTTGGTAAAAAGACTCTTCTCCTTCACTAAGTTTACTTAGTGCTTTTCCTAGATTTGTAGAACCTACTCCTCTTGCAGATAGCGCTATTAATGCGTATTTTTTATACTGAGAGAAAAGAGATGCTATTATTTTTAGTTCTTTAAGCTTTTTCATTTCTGTTTTAGATAATTTTTTACCTCTAATATTTTTATTAATAATATCTATTGAATCTCTATCGTCTGGAAACGTTGCTGTAAGAAATACTGATTGGCATTTTTCACATTTCTCAGGGGAATACTCTATTGATACTTTTTTATTCCATCCGCATACCATACACAGAACTCTTACTTCTTTTGATAGTAATCTTCTCTTGAATACCTCTAGCATTACGGGTGCTTCTTCACTCTCTGTAATTAACAATCTGTCCAAAAATTCTTTAGCTAATGGAGAAGGAGAGGGAACTTCTACAATTTTCCAAGTATATTTTTTAATTTCTGTTAATACTGAAAGATCATGATTTTTAATCAACATTTCTCTTGCGGCTTCTTCGCCTACAATTGTATCTGAGAATTGTCTCAAAATTGCAGAGCTTATTATCTCTTTTGAATTAGAATCTATATTTCCAAATCTTTCTGCCTCTATGTATAACTTCCATTTAAATTGAGGAGATTCTTTTATAGCATCTATAACTATATTTCTTGCGTCGATCTGGCTTAGCTTATTAACGTAAGTTATTGTTTCTTCTATGTCTTTTTTTGAAATAGGCAATACTGATGCTATTACTATATTGTAGGGATCATTTCTAAAAGATGTCCTTATACCCTTGATTTTATTTAGGTAAAATGATAAAATCGATCCTAATGTATTATTTCCTTTACTTCCAAATGGGCTATGTACTACAATTAGTTCTCCATTTATGATCTCTACTAGGATATCATTATTAGATAATTCTGGATATCCTCTTTTTTTATATTCCTGAATTATATCATTTATTTCATCGAATTCATAATTTTTACCTTTTATTGCGTCTATTAGATAACTGTAAACCCTTTCTGAAACTTCTTTTTCTACTGGTATAGATTCTCCGAACCAGCTTGGTAATATTCCTCTTTTTAATTCCGCTCTATCCACAAATATTTTCCCATCTTCTATTGATACTACTTTCCATAGTTTTCCACCTAAGACAAATATGCTCTCTTCGTCTATCATAGCTACAAAATCTTCATCTAGTTTTCCAAGTTCTAGATTGTTTGCCATGTTTATAACTGAGTAACTTCTTATTGAATCTGGAATCATATTAGTGCCATAATAGTATTTCCATGCTCTATAAGAAGGCAAAAGCTGATTATCTTTTTCTTTGAGTATTCTAGAAGATTTTAAGAGCTGTACGACATTTTCTAACTCATCTTTGCTTAAATCTCTAAAATAAACACTATTTTTTAATATATCTAAAATATCTTCTTTATTTCTTACTCCTTCTAAAACCATTCCAGTTATTTCGTGAGCTATAACATCTAGTGCATTAAGTTCTATGTAGGGTTGTTCCAAATACCCCTCACGGGATAATTCTATAATGGATTTGCACTCAAAAATGTCATAAATATAGTTACTTGGTATAACTATTCCTTTAGATACTTTATTTAATGAATGACCACTTCTTCCTATTCTTTGTAATAATCTTGTAACTTCTTTAGGGGACATGTATTGTACTACTAAATTTATATTTCCTATATCTATTCCAAGTTCTAAACTTGAAGTAGCTATTATTGCGTCTAAATTTCCTTGTTTGAAATTGTTTTCTATGTTTATTCTTATATCTTTAGATAGAGATCCATGATGAGTAGCTACTTTTAGATTGTATAATGCTTGTAATTCGCTTGCTAGGAATTCTGCAGTTTCTCTTGTATTAGTGAAAATTATAATTGGTTTGTACGTTTCTATTATTTGCTTAAGCTTTTCGAGTCTAGATATTACATATGGATCCAGATTTAATTCAATAGCTTTTTTTGGAAAATCGTTTATATCTGGAATAATTAGATCAATATCGTACTCCTTTTTTAGATCAACCTTGGCTACTTCAACTTCTGCGTCACTTAAATATTTTTTAGCTAATTCTATATTTCCTATAGTTGCCGATAAACCAATCATTTGAATTTTATTTTTATTAAATTTTTTTAATCTAGAGATAACTACAGATAACTCGTATCCTCTTTTTTCGTCTAACATTTCTTGTAGTTCATCAATTATTATCCATTTAAGATTTGAAAGTAAATCTCTATATTTTTGATTTATTATTAGATACTGTAAACTTTCTGGTGTTGTTATAAGTAGGTCTGGAGGAGATTTCAGTATTTCCTTTCTTTTTCTTTCTGAGGTATCTCCATGTCTAGTTCCGATGGTTATACCCAGGGCATTTCCTAGATTTTTTAATCTTAGTTCTAAATCTCTGTTGAGTGCCTTTAAAGGTGTTATGTATAGTAGTGATATTTTTTCTGGTCTACTATTCCATATTTTGTAAAATAAAGGTATTATAGCAGCTTCGGTCTTACCTGATCCAGTAGGGGCTATAATTAGTGTATGTTTCCCAGAAATGATTTTAGGTATGGCTATACGCTGTATAGGAGTCAGTTTAGTATATCCTAAACTATACAATACTTTTCCGAAATCAGCTGCTGTGAGCATAAAGATATTTTAATTATAATTTTCACCGTTATAAAAGAATATGCAAGACTTCAGGCATGTTTTTATTATATTGCTTTCTATTGCAGAAGCTGTTCTATTATCTGTATATTTTAAATCAGACGTTATAACACTAGTAATAGAGAGAGACTTATTTATTTTGATAATAATATTTGTAAATTCAATATTGATATATCTACTTTTTTCGTCAATTGTTATGTCGATAGTATATTATTTCTCATTATATATTATCTTTATATTCATAAATATTAATTTATTATCTATCACATATTTTCTTTCCTATATTATTGGTGTTTCTTTTGCGTTATTTGGGTATTTCTTCATTAATAGATCGTTTAATGATAATTTTATTTTAAATCTAAGAAATTTCAAACCGCGTATTAATACATTTTCTATAATATTATCAGTTATTTTTGTTATTATTGTATCGCTTTTTGTTAAAAACCCACTAATTTTGATAGGATCTATATTAAATCTTCTAATATTGTCGATAAGTGGCGAGATAGTCTTATCGCCTTTAACTTTAGCTAGTTGGCTAGCAACTCCTTATTTGTTATCACAATTAGGTGAGATAAGAGTAAATAAAGGTTTATGCATAGGTAAGATTAATGGTATTTTAAGAAGATCTACGTTTGAATTAGGCAGAGTTAAAACAAATGCTAAATACAAATGGGCAAACATAAAGTCTGATTTTTGTATTGATCTAGATAATAGTAAGAACTATAATATGATTATCTTGGGTACAAGTGGATCTGGAAAATCTTCATTAGCAAAGACAATTGTTTCTAAACTTAATGTTAGTTATCTAATATTTGATATTCATGGCGAGTATTTTACTGAAGCAAAAAGAATAGATGCGTCTTTAATTTCTGTAAATCCGTTATCTCTATTTGGGCAATCTCCTAGGCAAAGAGCATTAGAAGTAGCATATATGTTAAAATCTATATTTAATCTTGGTAACCTTCAAGTAATAGATCTTTTTAACATTATTTTTGAAACATATGAGGAAAAAGGTATTTATGAAGAAGACAGCAGTTCTTGGAATAATACACCTCCTAATTTTAGAGATGTGATTTTATTGTTAGAAAGAAAAAAGAGGTATATAAATAACTCTACTGAGCTAAATAAAATACAATCGCTCGAGCCATATTTAAATTTCGTTTCTAATAGTATGTTTAATACAAATAGTATAAACTATAATGACATATTTGAAGATAATTACATTTTAGATTTATCAAAAATTACTATCCCAGAAATTAAATATATAGTAATAGAGACTATTTTGAGATCTTTAACGTCGTTTATGTATTCTACTGGAACTTCGAAATTAAGAAAGATGATAGTTATTGATGAGGCTCCATTTATTCTCTCTAAGGAAAGCGGACAGTTACTTGTGGAAAGATTGTTTGCTGAAGGAAGAAAATTTGGGATAGGATTTATTCTTATTTCTCAAACATCGGAATACGTTAAAAAATTGATATCAAACTCAGCATATTTATTTGCTCTTAATTTAGTAGAACCTGCTGATCTAGATTATGTATCAAAAATTATTAGCGGACCAGATCAAGATATATATAAATCTATCTATGACAGTTTACATAAGTTAGATAGAGGATTGATTATAACAAGAAATATATTGCAGGATGAAATATTTTTGGTTCGCATACAACAATAGGTGAAAATTATGTCAGATGAGTATAATAATGGAGAAGAGAATGAGGAGACAACTAGCGAGGAAAAAGAGCCAAGAGAAGAAGATTCTGAATTTCCTGCAGTATCTTTACAAGATATAGAGCTTCTTATGAAGAATACTGAAGTATGGTATGAATTACTTAATGGTAAAATATCATTGGACGACGCAAAAAAGCTTTTTGAACAGAATATTTCTTCTATGCCTTCTCAATCTGAAGGTAAAAAAGCTAAGAGAAAAGCTCCAGCAAAAAAGGTTAAAAAGGAAAAGGTAAAAAAGTGAATTAAATGTTTAAAGCAATTTATCCAAGTTCTAAGGATTTTTATTATTTGATTAATGCAATGAGTAAACTTTCTGATTCTATAATACTCAATTTTACTCAAGAAGGAATAATATCTAGATATTTAACCGATGATAAAGTACTTATGGGAGTTCTTAATATTCCAAAGGATAGTTTAGAAGAATATAGCATAGAAAAAGAGGTTTCTGTAAAACTTGACTTAACTAATATGAAGAAGATTTTAGGAAAAGCTAGATCTAGTAAGTCTAGACTAGAAATCACAGAGACTGATGCAGGAATTAAAATAGTTATAGTTGATGACAAAAGTGGAACTAGGAGTAATATTTATGTTAAAGGTGAAAAAGGCGAAATTCAGAACTTGAAAGAACCTAGCGTCTCTCTTACAGTTTCGGCTGCATTTTCTGGAGATATACTAAAAACTATAATAGATGACGCTGAGGAAATTTCGGAAGAAGCAGAATTTAGTGCAGAAGATGATTATATAAAAATTTATGTAGAAGAATCTGGTAAAACATATACTGCTTTTTTGAAAAATAGTAAACCTTTATCTAGTTTAGAAATAGAAAAACCATCTAAATCAATATATAGCTTAGAGGTATTAAAAACTGTAGCCTCTGCTGCCAATTTTTCAAGTAGCTTAAAGCTTAATTTCGGTACTAATTTGCCTATGAAAATTGAGGCATCTGGAGAAAAAGGTGCGTCCTTATTTTTCTGGGTAGCCCCTAGAATGTAAATCTAGAATATAAGATATTATATCCTCTTTTTATAATAGCTTGATAAAGATTATGGGATCTAAAAATTCCAGATCTTTCTCCTTCTATTATGATAAATCTTGCCGGTAATCCTTCATTTATATAATTTTTAAACAATATTCTCGAAATATTTGTAGTAGCTGCTTTAAGAATTTCCTTAGAATAGTTACTTAGAGGTTTTCTTATTCTAGTTATTAATAATGCTAATTCCATGTCTTTCCAAATATTCGGATCTATCCATGCACCGTTGTCAGTTCCTATAAGTAAATTAACTTTACTATCTATCATTTTATCTATTCTAGGTATCCCGTTAGAAAACCATAGATTACTTCTTGGACATGTTACTAAACTAATATTTCTATCTTTTAGTTCTAAGAAATCTTCTTCAAAAAGATGCGTACCATGGATAATAATTTTAGGTCTTATTACTTTCAAGATATATCCAAGGTCGTTTTGTAGGCCTTGTTTTAGAGTTTCTGAAATATGTATTGCTATAATTTTATCATGAAAAATATTGTTAATTTTAATTAAATCTGCTTTATTATATGTAGTTGAGCTTGATATCCCATATCCGTCAGAAAGTTCAAAAAGAGTTTTTAATCTTATCTTGCTTATTTTTTTATCTAGTCTGGATAATATAATATAATTTAATTCATTCGCCAATTCGTCTTTTATCTCTTTTGCTAGTTTGGCTCCAAATATATCCTGTTCTCTAAAATCCATAATAGTAAAGATACCAAATTTTTTTGAGTACTCAAGAAAATCTTTTATATATCTTTTAATATCTATAAATTTCAATTTATTAAAGAATTTATATTTTATACTTTTAGGATCACTAACTAAGTCTCCTATAGGTTTATCTATACCTATTTCAGGAAATGAAAAATCTCCAGCATGTACATGCGCATTTACAAGTGTCGGTATTAATATAGCATTTCTATAATCTTTCCCTTTAGAGTCAAAACCATTACCTATATGTACTATTTTATTATCTGAGATTTCTATATTTACATTTCTTTTTACTTGCAAATTTTTGCCTATTAATACGTAACCTAAATTGAATATTTCGGAACTATTCTCCATTTACAGTTCCTCAATTCTCGTATTTTCTCTAAAGCTTCAGTAGAATTCTTAATTGATATTCTAGCATTAGAACCTATTCCTATACCTACTTTTATGTCTTTCATATCTTCTACAATATTTAATATATTTTTGACATTGTTTTTATCGGTAAATGCTAATATGTTATCTCCTCCCAAATATTGTGAGATACCGCCTAACTCATATATTTTTTCGCTTAATATGCTATATAACTTATTTATATCTATGAATGCTTTATAAAACGAAATATCAGTAGATAACTTAGTAAAATTATCTATATCGAAATGACATGAGACTATTTGCTCATTATCATATTCGCCTATTCCAATATTTTCTGGTTCAGTATTTTTGATACATTCTGCAGCATTTTGTTGAGCTTCTATAAATGTGCGTCCATAACCTACGCATGCTCTAGGTCTTACTGGAGATAAACGTTTTATTTCATTAAATATGAACTTTATATGCGAATTTCTTATACCATCCACAAGAATTATAAAAAAATCATATCTTAATGGTAGTAGAAAAGCTCCAAGTTCTGCAGACAAAGTATTTATTTTATAAGCTAAGCTATGTTGCTCGTTTTGAATAATCCATTCTCTATCTAGTCCTAGACTTTCTGTCCAGTCTTTATATTTGTAAAGTTCTACAGCAAGAATTTTCACTCTATTATCACCGTGGATTCCGACGATATCATCTCCATTTTTTTCATTCTTTTTGCCATTTTTACTGAAGCTTCTACTGCTCTAGTTGAATATTCCTCTATTCTTTCTACAGCTTGTTCATGAGATACTCCTGGGCCTATTATACCTAATCCTATAGGCTTCTCATATTCTAGTTCTAAATCAGATATTAGCCTAGCTACTTGATTAGCTATTAACTCATCATGTTTTGTTTCTCCTTTAATTATTGCACCTAAGGCTACTACGCAGTCTATATAATCTTTTTTTAGCAATTGTTTTATTGCCAACGGTATTTCATAAGATCCAGGTACTTTAAGTATAACTTGAACTTTAGCTCCTAGAAATTCCGCATGAGAAATAGCTCTTTGTAGCATTAAATATGTTATATCATAGTTAAATTCTGCAATAACTATACCTACTCTAATCGATTGGACCTGCATCTTTATATCCCTGCCTCAAACCTTTTCCTGCAAAAGGAGTAAGCGAATTTTCTCCATCTCTTATTAACTTAACAAGATTTTTAGAGTGCTTAACTACCCTATCTATAGCTATTTCTTTCAACTTATCTATATCATCAGCCTCGTCCTCATGAATAGTTACATCTATAATATGTTTTGATGTTAATATCTGAACAGTTATTAGACCTATACTAGCAGCAAGATAGCTATATTTATCTAACATTGTCTTGCCAACCCAACCTAATGTTATAACACCATCGCATCCTTTCTCAATTAGCTTTTTAGCGGCTACTGGCGTATCTTTTATCCCAGGTACAGTATATCTTATAACTTCTGAGTCAAGGTCTTCTTTCTTTATTGTCTTTATTGCTATATTACCCATATCTATTCTAGAGAAAGTAGTATCTACTATTCCGTATTTTCTCATGCTATAACCTCATTTAATATTTCTTTACCTTCTATGAATAACAATCCGTTGTTTTTAGCAAATAGTAATGCTTTATTCTTCTTTAGACTAACTTTTTCGTCAAGCATTTCAGCAAAAGCTACGCTCTTTTCTAATCCTAAAAATGACATAAGCGTAGTAGATAGTTCTGTATGTCCTCTCCTTTTTGTTATATCTCTACTTATTAGAAAAGGTACATGACCAGGAGCATAGAAATAGGTATAAAAGTTCTCTTTAGCTTCTAGAGGATTCTCATTAATAGTTATTATTACTTTGTGTAATTCTTGAATAGTTTTAGCTCTATCGTAATCAGATATTCCAGTAGTAGTATTTACATGGTTAACCCATATAGAAAAAGCAGGTTCGTCTTTATATGATGGTATCTTCACTAATTTTTTATAAATTGTGTTATCTCTTAGTATATCTGTCTGAAATCTTAATCCTAAAATGTTGGCTTCTTTACTTCCAGTTGCGTAGCATATTAAACCTCCAGCACTTGTTCTAAGTGTATATATAGATTTCCAATTTATTGCACCAGCATAGAAAATCATATCAGTTTCTTCTTCTCTTCCATCAAAATCATAAATTAATATTGGAAGTCCAGATTCTAAATTTTTCCTTATTATTTCTTTGCTTATCATTAAGTAAATGATATGATAATAGTATATAAGCGTATTTACTTATTGTGTTTTCTATACCTTAATAGTAATGTACTGATAACCGATATTATTACTATAATAGCATACGGATAATAACTAGTTGTAGATATTTTATCTGAACTTTTTATATTAATAGTAGAATTCGGTATTGTAATCGACGAATTATATATCAATCTCACATTTATTAGAATTATAGCTATTTCCCTTGTGATATTATATATTATAATACGATACGAATTATTTGAATTAAAATTTAAATATAAAATATTATAAATTGCAGTGTTATTGATATAATATTTCTCTATATATAGATTAGAATCACTAACAAGAGTGTAATTATTTAATATTGACAATTGAATACCATTTATTGATTTATTAATTGAGATAGAGATATTATGTAAATATATTACTGTAATATTTATTTTATCAAAACAGTCAGTAGTTTGTTCAATAGTAAAAACGTAGTTATTAGACATGGAGTTGGTTACTATAGTGGAAACTAGTATTAGAGGTAAGAGTAATGATAGCATTAAAAACGTTACTTTATACATGCTTAATAATATAAATATGTGATTTTATAAGTAAGATAGTAATGTCTTCAGTAACACCAAATCCGTATAGTTGGAAATATGTGCTATTAAGCCAAGTTTATCTAATTGTAATCTCCGTAGTGTTAACATATTATCCGCAGTATTTCATAGAAGCTATAGTAACGTACTTTATCGTGATGATGGGTGTCATGTTTTACAGTATGTCAAAATCTAATCCTATGTTTAGAGACAGGAAACTGCTTTATGAAATAAATAATTCAAGGCTATTGTATGAGGAAAAAAATGCTTCAGAACTAATTAACAAGGATAAGGAATATACGGAGGAATATACTAAGTACGCTAAAAAAAGCTTTAGTATGTTAGGCATCTATTTAGTTTACATGATCGTATTATATTTTCTCTATACATATATTTCTAAAATAGCAATTTCCCAAGCAAGTTCGTTTGACAGATTATTAGTCTACTTAATATATTTTGAAGTCATTTATCTATTTGCGTTTTTTGTATTCAGGAAAATAGTGAAACCTGCAATGTTAAATATAATGGCACCATTTTCATATAAAATTACAGAAAAAGGCATAGTAGGTTCTGGTGGGATGTCTACATTTCTTCATGCTCGACATTTATTAGATGCCAACATTTCAGTGAACAGGGAAAAACATTATGTGGAAATAGATTCTGCTCAAGCCAAGTTACCATATAAGCTTAGGCTTTACTCTTCTGACGTTGATAAAGTTCTAGATTATATAGAGAGAATAAAAAGAATAGAACTTAGAAGACAGTCCTCTTCTCAACAGTAGAAAAATGTAAATGCGAGTATAAAGCGATAGTGTTATAATTATTTACTCCGTCTTTTTTATCTATAATTCCTTTGCCTTGATTATTTTCGAATAGAAAACTTTTTTCTCCAACTCTAATAGGCTGTGAGATATGAAATTCATGACCTCTTATTATGTCATTTTTATTTGCTATAAATGAGTCTCTTATTGCCCTTAGTTGAGTGTATCCAAGAGTTAATTTACCAGAAGTATTTATATCAATATCAAATATACCTATCATTTTGTATTTTCTATCGTTTTGTATGAGATTTTTTGATAAATACATTAAGCCACCACATTCTCCTAGTATAGGAGTTCCTTTTTCTGCCTCCTTTTTTAACCAGTTAGTTGTTATGGAAGATTCTAGTTCGTTTAAGTATAATTCTGGATATCCTCCTCCAAGATATATAAAATCAATATTCTCAATTTTTTCGTTATTTAGAGGACTAAAGAATTTAATATTATACATAGTATTTATTCTATCAATATTTTCTTGATAGTAAAAATTAAACGCCGCGTCATAAGCAATTGCTGCAATTTTCTTTCTGTAATTACTCGTATATTCATTATAATTACAATCTAATTCATTTGCATCGTTAGCTATTTGTAATAGAGCGTCTAAGTCAATATAATCTTGAATTAATTTAGATATATTATTAATTACTTTTTCTGCTTCTTTATAGCTCTCTATTGTGAAAAGACCTAGGTGTCTTGATGGTATTTCTAAATCTTTTGAATATGGTATATATCCTAAAACTTTTACTCCATCAATGGAGTTTTTACAGTATGAAAAATGTGTAGGAGAAGCTACTTTATTTAATATTACTCCTTTTATATTGGCATTTTTATATTCAATTAGTCCTTTAATTATAGCTCCTACAGTACTACTTAAATTATAGCAGTTAATTACTAGAATAATAGGGCTTTTTGTTACTTTAGATAGCTCGTATGTACTATATTCTGTATTTATGCCATCGTATAATCCCATTACTCCTTCTATGATGGAGATATCAAAGTTTTTTGAATATTTACATAAACTTCTTATCACATTGTCTTTTCCCATTATAAATAGATCTAAATTAATAGATGGAAAAGTAGTAGCTAATTTATGATATCCAATATCTATAAAATCTGGTCCAGCTTTAAATCCTCTTACCTTTAATTTTTTACTTAAAGCTTTCATTAATCCTGCAGAAACTAATGTTTTTCCTGAATCACTTCTATCAGACGCTATAATTATTCTAGGAGAATGCATTTCAATATTATTGATCTAGTCTTCTTAACTAATCTTTCTTTTATAGGACTACAAAAAAGATATATAATCTTTATAGTAGTTGCTAATAATGAAAGTCTCTTATGATGACGTGAGATACTTTAAAGCAATAATAGAAGCATTATCTAGACTTGTAGACGAGGCATCTTTTAAAATTAAACCAGATGGTATAGAGTTAGAAGCTATTGACAGGGCTCATATATCTTTAATTAAGATAAATTTACCAAAGGATGAATTCAAGGAGTATGATGTGCAGGAAGATATGAACTTTGGATTTAGTACACAGTACCTTTTAAAAGTACTTTCTACTTCAAAAAGGAAGGAAGAATTAGAAATAGAATCTCAAGACGTTTCTACGATAATAATTAGAATCAATGGTGAGTATCCTAGGGTATTTGAACTAAGAAATATGGAAGTCTCTCCACCAGAATTACCAGAGCTAAAAATAGAATTTGATGTTAAAGCTACATTAAAATCTGAGGCTTTTAGGAAGGCTGTAAGTGAGATTGCTACAGTAAGTGATGTTGTAGATATAATTGCGGACGAAAATGGGATTAAGGTTAAAAGTAAAGGAGAAGCTGAAGCTGAAGTAGAATTAAGTAAAGATTCTGGCAGTATACAAGATATTGAAATCTCCAAACCTATAGAATCAAGCTATTCTACAGACTATTTAAATGATATTTTAGTTCTTACTAAACTTTCAGGAAATACAAAAATGTCTTTTGCAGAACAGAAACCTTTACAGTTAGAGTTTAATACAGAATCTGGTGGTAGTGTAATATATCTATTAGCTCCTCAATTGGGGTGATAAAATTTAGAATTTCAATAGTAGGAAGTTATCCTAAGCCTATATCTTTAGGAAAAGTAATATCTAGATTTAGGTCTAATAAAATACCTAAAGAAAGATACGAGGATTATTTAAAAAAAGAGACATCTAAGTTTTTTCAGCTTGTTGGTTCTATTGGTGCTGAGTATACTACTGATGGAATGTTTAGGTGGGACGACATTGTTGATATAACATTTTCATATTTAACTGGCGCTGAAAAAGGGGATTTAATGAGATTTTATGATAACAATTTCTACTATCGTAGGCCTATAATTAAATCTAAATTAACATCAAATATGGAATATATTAATTATTTATCAATATCAAAAAATATATTAGTTGAATCAAAAATAAATACTAAACTTAAGGGAGTGTTCTTAGGTCCTTTAAGTTATTTGCGCTTTTCAGAAAATAATTATTATAAGAACGATGACGAATTATTAAGCGATTATGCAAGGGAGACTAACAAGGTAATTAGAGAAGCTCAGAATATTGTAGATGCTATAGAAGTTCATGAACCTGCTATTTTTGACAAAGGAATTAAGAAAGATTTGCTAGATCGTATTCCAAAAATATATGACGAATTATTAGAGAGTATTAAGATACAAAAGCATCTAATAACATATTTTGATATAAATACAAAAAGGTTAGATATTCTCTTTAATTTACCTGTTGATGTAATAGGCCTTGATATAATAGAAAACAAAAACAAAGTCGGAAATATATATAGAAACTTTAAGGATAAAAATGTATTTTTAGGCGTATTGAATACTAGAAATACAAAGCTCGAAAGACCCAGTAGCATAATTAGATTTGTCAGAAATGCGTATAATAAAGGGGCAAAAGATGTCCTTATTGGAAACGCAAGTTTAATGGATTTTATTCCAGAAATTATAGCAAAAAGGAAAATAAAATTATTAGGTAAGGTGAGGTCGACATATTATGGCTGAATTACCCATATTACCTACAACTGTTATAGGGAGTTATCCGAGACCTAAATGGTTAAGAGAAGCTATAAGACTAAATAAAGCAGGTAAATTAAGTGACGAAGAACTTACTGAAGCGTTCAATGATGCCGCTCTTTCAGTTCTTCATGACCATTATGTAGCAGGAATTGATGTACCAACTGATGGCGAAGTAAAGAGAGACGAGATGGTAGAGTACTTTGCAGAAAGATTAAAAGGGTTCAGATTTTATGGACCGGTTAGAGTTTGGGGTACAGCTTATTATGTAAAGCCTGCAGTAGTTTCTAAAATAGAATATCTAAGGCCTTTATTAGTTGATGAGTTTCTCTATACTAAATCAATTTCATATACCGACAATTTCAAAATAACAATAACCGGTCCCTATACTCTTGCATATTGGTCTTATAATGAATTTTATAGGACTAGAAAGGATTTAGTGTTTGATCTAGCTAAGGTCATTAATCAAGAATTACATAATCTAGTAAACGTTGGGGCAAAGATAATCCAGATAGATGAGCCAGCTATACATTCTACCAAAGAAGATATTGACTGGGCTATAGAAGCTGTTAATGAGTCACTAAAAGGTATTGATGCAAAATTAGTTATGCATATATGTTATGGCGATTATAGAATAATTGCTCCTTATTTAAACGAGTTTAATGTAGATCAAATAAATTTTGCCTTAAAAATATATGATTATAAATATTTGGATTTATTTAAGAAATACGATTATAATAAAGAAATAGGCGTAGGAGTTATCGATGTACATAACAGAAGAATTGAAAGTCCTGAAGAGGTAAAAAAAGATATACTGAGTGTAATAAATTACTTTGAACCGAATAAAATCTGGATTAATCCTGATTGTGGACTAAAATTATTACCTAGAAGTATAGCTTTTCAAAAAATGGTTTCAATGGTGAAAGGAACGCAAATGGTTAGGGAAGAACTTAAAAAGAAGGGATATACAGATACTATAAGTTTAAGGTGATTTTATGAATAAGAAACGTGCAAGGGGTAAATCTCACTCTACTAGGCCAGCTAGAGCTGGAGCACCTAAGTGGGTTAGATTTACTAGAGAAGAAGTAGAAATGCTTATTGAAGAGCTATACAAAAGAGGTTATTCTGCGAGCATGATTGGCGTAATATTAAGGGATCAGTATGGTATACCATTAGCAAAACAGATAACTGGTAAGAAAATAACTAAAACATTAGAAGAAAAAAATCTTGCACCTAAGATCCCTGAAGATTTATTTAATTTGATACGAAAAGCAGTAAATGTAAGGAGGCACTTAACTGAATATCCTGCCGATAAATTCTCTAAAAAAGGTTTAGAGGAAATAGAATCTAAAATAAGAAGATTAGTATACTATTATAAACAAACTGGTAAGTTACCATCTAATTGGGCATATGATCCAGCAACTGCAGAACTTTTAGTAACATCTTCGTCTTAGTTACATCCAACTTTTTTTAATTTCCCCTCTAGGGCTAGTTTGTAAGCTACTCTTGTTAAATGGTCAGCTTTTTTGTTCATTTCTCTAGGAATCCATTTTATCTCTATTCTTTTAAATGTTTTAATAACTTGATTTATCTGATCAAATAGTTTTACTAATCTATGCGATTTTATCTTATATATACCGTTTAGCTGATTTATCACTAATTGGCTATCTCCATATATTAATACTTCTTCGATTTTTAGTTCCCTAAGCTTAGTTAAAAGACATAGTAATCCTGTATACTCTGCAACGTTATTTGTGGCATCACTACTCCATGGTTCAGCAGCTAATCCAAAACCTTCAATATTATTATGATCAGTTTTTATATAATACCCATATGTAGCTATTCCGCCTGGATTTTTTGGTTCACACAATCCATCAAAATATCCTTCAATCAATTTTGCTCAACATTTGATACTTCTTCAATTCTTTCCTTAAGTATTTCTGCTACTCTATTGTCTATTCCTATAGGTTTAGCTATAATTATTTTTATTTTCTTATTTTTAGTTTGTATAAATCCGTTTTCGTCTACTCCTAATAATTTTGGAATGTCTCGTAAAAAATGTCTACCTGCAGCAAAAAGTAAAGGAACAGCTATTATTTCGTCTACTCCTTTATTTGCAAGATTTTCTGCACTTTCTCTTAATGTAGGTTGATTAAACTCTATAAATCCATATTCTACGTTATCAAAATATTTTAATAATAAGTCTTTATATTTTGTAGCAACGTCTGTCCATTCTTCTACTCTACTTCCATGTAAAACTAATAATACGCCTATCATAAGGTGTTTAATTAACTGCGAGTTTATATACTTGTGCTAACATTAGCATTTTGAGGTAGTTACAATTGCCAGATTTTAAGGTCGTTGTATCAGATCCAGAAGTAAAAAATGTAAAACAATTAAAGGTTAAGGTAAAGGCAGTAGATTCCATCCCGTCTATGGAAGGAGAGAAAGAAAACAGAACTTTACCTATGGCTAAATTAAGTTCAAAGCTAAAAGAGCAATTAGGATTAGAAAGCTTACTTACTTTGCAAGTTATAAAGCAAGAAGGAGATAAGAAGAATAAAATAAAAGTTCACTTTACTGTGCAAGTAGACGATTCCGCAGGCGATTATGTTCTAATAAGCAAATCCGCAGCCGAAAAATTTGGAAGCGAGGAATTTGAGGCTACGGCTTATAGAACTAAAGCTTTTCAGATCAATATAGATCAAAATAAGATAAACTTATTAGGTCTTAAACTAGGAGATACATTTACAATAAACATCAACGGTATTAATTTTAAGTTAAAAATAACTGGAGGTTCAGATAACACAGGATTTGCCATGAGAGCAGATGTATTAGGTGCAGCTAAAAGAAAGATATTTTTAGCAGGACCTCCAGGCTATAAACCATTAGAAGATGGAGAAAGAAGAAGAAAGATCGTTAGGGGTAATATGATAAGTAACGAGATAGTTCAGATTAATTCTATGATTATAAGGTGATTTTTTGCCCTGGCCAAAGGTTCAGCCTGACGTGAACATAGGTGTAGTAGGTCATGTAGATCATGGTAAGACAACTTTGGTTCAAGCTCTTACTGGTATTTGGACCTCAAAACATTCTGAAGAATTAAAAAGAGGTATGACAATTAAGCTTGGATATGCAGAGGCTAGTTTTGGGTATTGTAAGTCATGTAAAACGCCAGATGCCTATGTAAATGAAGAGTCTTGTAAACAATGCGGTAGTGATGAAGATCCTGAATTTATAAGACGAGTATCATTTCTAGACGCTCCAGGTCATGAAATTCTAATGGCTACTATGTTATCTGGAACGGCAATATTAGACGGTGCAATACTAGTTGTTGCTGCAAATGAACCATTTCCACAACCTCAAACGAGGGAGCATTTTGTTGCATTAGGAATTGTTGGAATTAAAAACTTAATTATAGTCCAAAATAAAATTGATGTAGTTAGTAAGGATCAAGCTATAGAACAATATAGGCAAATAAAAGATTTCATAAAAGGCACTTGGGCAGAGGGATCTCCTGTAGTTCCAGTAAGTGCGTTGCATAAAATAAACATAGACGCTCTAATAGAGGCATTAATAACTCACATAAAAGCTCCTCAAAGAGATCTTACTAAGACACCTATTATGCTCACTGTAAGAAGCTTTGATATAAATAAACCAGGTACCTTGTATAGTGAACTTAAAGGTGGAATTATAGGCGGGAGTATTGTACAAGGAGTATTTAAAATAGACGAGGAAATAAAAATATTACCAGGATTAAGAGTTGAAAACAAGGGGAAAGTATCGTATGAGCCCTTATACACTAAGATAGCATCATTAAGATTTGGAGATTTAGAAGTTAAAGAAGCTAGACCAGGAGGATTAGTAGCAGTAGGAACATACTTAGATCCGTCTATAACTAAAGCTGATACGCTAGTAGGTAATATAGTTGCAGATTCAAAAGCTAATGTTCCAGTTTTATGGAAATTAGATATTATTTACAATTTGCTTGAAAGAGTAGTAGGAAGTCAGCAGTTAATTAAAGTAGAACCTATTAGAAATAAGGAGACTCTTATGCTTACAATAGGATCATCTACTACTCTTGGAATAGTTACATCGTCTAAATCTGATGAGATTGAAGTAGAACTTAAGAGGCCAGTAGCTGTATGGGATAATAATGTAAGATTGGCTATTAGCAGGCAAGTAGGAGGAAGGTGGAGATTAGTAGGATGGGGGCAAGTTCAACTTTAGGAGTATTAGTAGATACAAACATTTTGCTATACGTATACGATAGAATAGACCCTTTTTGGAAGGTTATAAATTTCTTAGATTATAAACCAAGATTTTATGTTCATAAACAGGTTTTTAATGAATTGTCTACATTGGAAGGTAGAAATAGGAATTCGTTTGTAATGAATGCGAGAATCAGATTAGCTAGAACTTATCTTGATATTCATAAGAGTTTTTGGGAAGAAATAGATTGTTGTTCTGAATTAGAAACAGATAAGGCATTACTCTGTACAGCAAAAAAATATAATCTCTTAATCTTTACTAATGATAGGGAGTTAAAGAAGGAAGCATTAAAAATTGGTATAGGAATAATTTTCTTATTGGATAAAGGTAAAATTATAAAGTCTTTCTATCCAATCTAACTTGGTTTGCAATGTTTAAGCTTGTTAAGGCCAGAGGAGTAGTAAGAATTCCACCAGAGGATTTTGGACAAGAATTGGATCAAGTAGCTATAGAAATATTGAAAAAAGAATATCAAGAAAAATTATTTAAGGATCTAGGTTTAGTTTTAGCCGTATTAAGTGCAAAAGCAAGTGAAGAAGGTATGATAATTTTTGGTGATGGTGCTACATATCATGAAGTAGAATTTGAGCTATTAACATATGTTCCTGTAGTTCAAGAAATAGTAGAAGGAGAAGTGACACAAGTTGATAACTATGGACTATATGTGAATCTTGGTCCTATTGACGGATTAGTCCATATCTCACAGATTGGTGATGACAATTTTAAATTTGATCCTGTTAGAGGTATACTAGCTGGAGAAAAAACTAAAAAAATATATCAAAAGGGCGATATAGTAAGAGCAAGAATAGTAACTATTTCTTCAGCATCTGTAGGCAAATTACCTAGGATAGGATTAACTATGAGACAGCCTACTTTAGGTAAAATAGAGAAAAAGAAGTGAATAAGAATGGCTAACATATTAAAAGCTTGCAAAAATTGTAAAGCCTTAGTTCCAGAAGATCAAGACGTATGCCCTATATGCGGTGGATCAAGTTTTACCAATGATTGGGAAGGAATGGTAATAATAATAGATAATAATTCAGAGATAAGTGATTTAATAGGTGCAAAAAAACCTTGGAAATACGCGATAAATCTAAAGTGAATTTATGTTTTCAAGCACCTTCTTATTTAAGAAAGGAATTATCCAGACCATATGGAATTCTATTTACAAAAACTAATAGTTTAATAGATTATGTATCTAAAAAAAAAGAATTATTTCAGTAGGTGATGTAGTTACAGAAATTTTAATTCAAAATAACATTATGCCATTTCTTAGTATAATAGATGGTAAAACTAAAAGAATTGTAAAAACTAAAGAGAGTATTAAACCTACTTACTATATTAAAAACGAACCAGGTATACTTAGGATAGAGTCTATTGATTTAATAAATAGAGTATTAATGTCTACTTCATCTTCAGTAGTTTTTGTAGACGGTGAAGAAGATTTGTTTGTTATTCCCTTAGTTCTTGCAGGAGAAAAAGGAGATTTAGTAGTTTATGGCCAGCCTAACGCAGGCGCAGTAGTTTTAGAAGTATGCGAAGCTACTAAGTGGAGGGTTAATGATATTTTTAAAAAATTTCAATTAAAAAACTGTTAAAATCAGACCTGCGCGAGTTCTTCACCAATCAGCCCTTTCGAGCTTCGTCATCTTTACGCTCCATATTTACTAGCTCTATTAGAATAATTTAATAATAAATTCATTACATTTATTCCCATTATTTTTAAGCTACCTTTTTTAGCCTCTCGTTCATTGAAATCCTTTATATCATCTGCTATTATATTTTCTGGAACATAAATCATTATTGGTACAGGATCTCCAGAATGCTCTTTTAATTCCACTGGAGTAGCATGATCTCCAGTAAAGGCTATTACTATTTCTGAGCTATAATTATCCAGTATTTTACCTACCATATTATCTATTTTTTCTATAGCTTTTACTTTTTCTGTAACGTCTCCATCATGCGATGCAGCGTCTGTAGCTTTTATATGCAAAAATACTAGATCGTATTTATCGGATTTAAGGAAATTGATCACCTCGTTAGCTTTGGCATCATAATTAGTATCAATACCGCCTGTAGCACCTGGTGGAGTAATAGTCTCCATTCCTAATGATCTACAGATACCTTTAATTAATGGAGTTGCAGTAACTGCGGCTGTAGTTAACCCTGTATAATCCTTTATTTTGGGTAGTTCCCTATGTACGGCTACTCCTCTTAATAGAATAATATTAGCTGGTAACTTATTTTCTGATAATCTAAGTTTATTTATCTCAGAAGTAGATAAGACTTCATATATTTTTTTAGATAGTTTATTTACTATTTCAGCTGTTCTTGAGGATGCTGGAGAATTATCTAATGGTTTACTTTCTTTAATTTTTAATCCAGTTTCGTGCGGATCTGTATCTGATATCTTATCGCTTAGATTATCTCCAGATAAAACTACTGAAACTCTATGTTCAGTTCCTTTATAAAATCTAACTTTTACACCATCTATTTCTCCTATTTTAGAATTTAATTCATTTATTAGCTGTTCTGCTTCATCTATTTTCCTACCAGCTCTCCTATCTACTACTCTCATTTCATTATCAACTGTAGCAAAATTTCCTCTAAATGAAATGTCTCCTTCTGTCAATTCTGCGCCAGATCCTAATGCCTCAAAGCTTCCTCTTCCCCTATAATACTTATGAGGATCTATTCCAAATATTGCCATATGAGATGTATCGCTTCCAGGAATAATTCCTGGTGATATTGGATCCATTAAACCTACTAGTGAAGATTTTAATAGGCTTTTTATATTAGGTTTATCGGCAGTTTCTAGTGGAGTCTTATTGTTTAGACTCCTTACCTGTCTATCACCTAATCCGTCAGCTATTATTAGTAATATCTTATATTTTTTCATACTGCGACACTTCTTTTAAGCTCAGACGCCATTCTTTCGTATCTTTGTATATCAGCTTTACTAAGACTAGGAGTTACTACTTTTAATGCATCTTCGAAATCTTGCATTGTAACTTTAGCGTTAAGATTATTCATGCAATTTCTCATGAAGTTGTCATAGCATGTATTATTTCCCTTACATTCTGCCATGGCCTTATTATTGCACTCATTAGATAACTTTCTTAACATTATCATAGTAGCTTCTCTAACTAAAGCCTCGAGATCTGCTCCAGTATATCCTTCTGTTTTGTCAGATAATATATCAGCCATGCAATACTTTATTTTCTCATCTTTACACTTTTCATCTTTGCATTCATTTAATGCAAGGTTAATACATTGTTGCGTGCCTTCTATGGGTACTCCCCTCATGTGGATCATGAGTATCTCTTTTCTTGCTTCCTTGTCTGGTGGAGGTACATAAATTAGCCTATCAAATCTGCCAGGTCTTAGTAATGCTGGATCTAATATATCTGGTCTATTAGTTGCAGCTATTACTACTACTTTACTTAGCGGGGTAATACCATCCATTTCAGCTAGCATCTGATTTACAATCCTTTCAGTAACGCCACTATCATGAGAAAATCCCCTCATTGGAGCTATAGCATCTATTTCATCGAAGAATATTATAGTAGGTGCAGTTTGTCTAGCTCTTTTGAATATTTCTCTTATTGCTTTTTCGCTTTCTCCTACCCATTTGGATAGTACTTCTGGTCCTTTTACTGCTATGAAGTTTGCTCCGCTTTCTGTGGCAACTGCTTTGGCTAACATTGTTTTACCTGTTCCTGGTGGGCCAAATAATAGTATACCCTTTGGCGGTCTTATTCCAGTTTTTTCAAATATACCGGGATATCTCATGGGCCATTCTACGGCTTCTCTAAGTTGTTGTTTTACTAGATCTAGTCCACCTATATCTGTCCAGTGTACTGTAGGTACTTCTACATATACTTCTCTAAGTAATGTTGGTTGTACAGTTTTCATAGCTTCAGTAAAATCGTCCATGTTTACTTTCAATTCCTTTAATGTTTCAGGTGGTATTTGACCTATATCCAAGTTTATCTTCCCTGTATTATCCTTAAGGAATTTTCTTAATGCACTCATTGCTGCTTCTTTAGCTAAAGCTGCTAAGTCTGCACCAGTATATCCGTTAGTCATTTCAGCTATAGCATCCAAATTTACGTCATCAGAAAGGGGCATATTTCTCGTATGTACTTGTAATATTTCCTTTCTGGCCTTAGTGTCTGGTGGCCTTATCTCTATTTCTCTGTCAAATCTTCCCGGTCTTCTAAGAGCTGGATCTAGTGCATCAGGTCTATTAGTAGCACCTATTACTACTATTTTTCCTCTTCCTTTGATTCCATCCATTAATGTAAGCAATTGAGCTACTACTCTTTTTTCAACTTCTCCAGTAGTTTCCTCTCTCTTTGGCGCTATAGCGTCTAATTCATCAATAAACACTATAGACGGAGAATTTTTCTCAGCTTCTTCAAAAATTTCTCTTAGTCTTTGCTCACTTTCACCGTAAAACTTACTCATAATTTCTGGTCCATTTATTGTATAAAATGATGCACCTATTTCACTTGCAAGAGCCCTTGCTAGCAAGGTTTTACCTACACCTGGAGGTCCAAATAATAGTATTCCTTTAGGAGGCTCTATACCCAATCTTTGAAAAAGCTCTGGATGTTTCATTGGAAGCTCTACAATTTCTCTTATTTTTTCCTTAACATCTTCTAAATCTCCTATATCTTCCCAACTAACCTTTGGATAATTGCTAACTTCCTTTACTGGTTCTTCTTTGATTTCTATTTCTGTATTAGAACTTACATATACATTATTTGACGGTGATGTAGATGTTACTATTAATTCTATTTGTCCAGTGTAAATAGGTATAGGTATTACTTCGCCTTTGCTTAACGGTTTATACAATAAATAATCTTTTACGTAATCAACAAAAGACTGATCAAATCTAATTGGTTCAGTAGGAGCTAGAATAATTTTCTTTGCTTCGTCAACTTTAGCTTTTTTTACGCTAACTTCGTCGCCTATCGAGACACCTATTGCGCTTCTTACGTAACCGTCAATCCTAATTTCTCCATTACTTAAATCGTACGCTGGCATAGCTTGAAGCAAAGAAGAATTAGAGTTTCCTTTTACTTCTATATAATCTCCAGTTTCAATTCCTATTTTTCTCATGGAATCTTCTGAGATTCTGCCTATTTTTCTGCCTACATCTCTTTGTCTAGCTTCTAGAACCTTAAGTTTAAGCTCGGAGGACATGCTACATACTATTTATTTAAAACAAAAATAAGTCTTTGCTAGTAGCTAATATGCCTTAATTGTCAACATTTTCTATAACTTTTAATTTTTTATTGTTAATTTTTGATATATTGTCAAATTATTTCTAATATCTATAGTATATTTGTACTAATCAAAAGTTTATGGAATTAATTTTAAGTTTAATAGAATTTTTCAATAAGCTCGAGAGCAATCTTTTAAATAACTCTTTGCTCACAAAAGTAATAATGGCTTTAGATTACGATATCCCAAATATTATTTATATGAACTCTTGCCCTAATTGTGGTAGTAATATTTCATCATTAAGGTTATATAAGGGTTCTGCGTGTGAAAAATGTATAAAAGAGGATATTGTGTTTAATGATCTTAATAATCTTATACAATATCTCAATTCTAATAGTAATTTAGGACTATTAAAGGATTTTAAAAATATACTAGATAATTATAATAAAGTAGTAGTCTTATTTAATAAGATTCTTAATTCTCCTCCTTTGGGTCCTCAAAAATCATGGATCTTAAGAGCACTAAAAGGAGATAGTTTTGCCATTGTAGCACCGCCTGGCTTAGGTAAAACTACATTCGGTATTCTGATGTCGCTGTATTATTCCTCAAAAAATATTAAGTCTTTGATGGTCTTCCCTACTAGAACTTTGGTACAGCAAGTAACTCAAAGAATCCAACAAATGAGTAAAGATCTGGATAATGTACCAAAGCTTGCTTATTATTTATCTAATCTTACTCGTTCCCAGAAAGAGGAATTAAAAAAATCCCTAGACGCGTCAGATTTTGATATATTTGTAACTACATCAAGATATCTTATTAATAATATAGCCGATATTAATCCAGAACAATATGGATATCTATTTGTAGACGACGTTGACTCAGTTCTTAAATCCAGTAAAAGTTCCTCAACTATTCTTAAGCTTATGGGATTTAATGATACTGACATACAAAACGTTAAAGAACTTCTAAGAAAAGCAAGAAACGATGATACAGTATTTGAGGAAATTAAAAAAATAAGAGAAAAAAAGATCGGTAAAAAAATTGCTATTTTCTCATCTGCTACTATAACTAAGGGTAATCCTGTATTTTCCTCCCTTATGGGCTTTAAACCGGGCAGTGCTGTAATATACCTAAGGAATGTAATAGATTCCTATATCCAATCCAATGATATTATAAGCATTACAAAGTCAATAATAGATAGGTTAGGTTCTGGTGGATTAATATATGTTCCAATAGATAAGGGAACATCATTTGCAAAAGAACTAGCTACTGCGTTAGATGGTAATCTTAAAGTTGATGCGATATCTTCATCTTCTACTTCAAAATTAGAAAAATTTGAAAAAGGAGATATAGACATACTTATAGGTGTTGCAACACATTATGGTATACTAGTAAGGGGCATTGATATACCATGGAGAGTAAAGTACGCTGTATTTGCAGGTATTCCAAAATTTAGATTTAAAATTGGAGAAAAAATGCATCCGTTAGCTATGTTGCGAATGCTTACTTTAATTTCTTTGGTATTAAAGGATCCAGAAATCTCCAAAATATTAAGAATAGTAAAGTTTAGACTAAGAAATATATCACCGGCAGCACTTAATATTTTGGCAAAGAACGTTAAAGACGGTACACTTAATGATCAATACATGTTAAAGGCATACGAAATAGTTAATAAATATCTTAAAGATAAGGAATTATTGGAAAAAATATCAGAAATAGGAGAAATTTCTATTAATGGTGATTTCATATCTACTCCTGATTATTTAACATATATTCAAGCTAGTGGAAGAACCTCAAGAATATTTGGTGGAGAATTAACCACTGGTCTTTCCATATTAATTGTTGACGATACTAAATTATTTGATCTATTAAATAGAAGATTGTCTCTAGTGCTAGATGATATAAATTGGCATCAATTTGATATTGAAAATGATAAGATAGGAAACTTGGAAATAGATAAGATATTAGAGAAAATAAATTCTGAAAGAGATCAAATAAGGAAAATAAAAGAGAGCGGATTTTTGTCTGCAAGTTCTGTACAAAAAATAAAGACAGCATTATTCATCGTTGAGTCACCTAATAAAGCTAAAACAATATCTAGCTTTTTCTCTAGACCTAGTGTGAGAGAATTTGACGGATTAAGAGTCTATGAAACTGTAATAGGAGATAAAGTTCTTATGGTTACAGCTAGTGGAGGGCATATTTATGATCTTACAACAAAGGATATAGGCATACATGGAATAGAAGTAAAGAAAAATGGGAAACTTTCTTTTTATGCATATTATAATTCAATAAAACGTTGCTCTAATGGTCATCAATTTACCGAATATTCAGAAGATAACTCTTGTCCATTGTGTGGTAGCAAAAATGTCAGGGACAAAATGTCTACTCTAAATGCTTTAAGACAGTTAGCATTAGAAGCAGACGAAATATTTATAGGTACAGATCCTGATATAGAAGGAGAAAAAATAGCATGGGATATATTCTTAAATTTACGACCTTATAATTCCAATATATCTAGAGCAGAGTTTCACGAAGTTACAAGAAGGGCTATTATAGAGTCTTTAAATAATCCTAGAAAATTTTCTATACCGCTTCTTCAGTCTCAACTAGTTAGAAGAGTAGAGGATAGATGGATAGGCTTTAAACTGTCCAAAAAACTTCAGACAGAATTCTGGCCAATAGAATGTAAAAATCTGGGTAAACCCTGCGTTGAAAACAAGAATTTAAGTGCAGGAAGAGTTCAGACTCCAGTCTTAGGCTGGGTTATATCTAGATTTAATGAGTATAGTAAAACTAAAAAAACAGTATATGTTGTAAAATTTTTAGACAGTTTTACAATTTTAATACCGCGTCAATCTAAATTAAATAAAAATACAAAGCTAAAAATTGTGATAAATAATATAGCGGATTCTAAAGAATCTTTCGGACCATTACCTCCATATACTACAGATTCTATGCTTGCTGATGTATCTAACTTCTATGGAATTTCAGCTTCAGAAATTATGAGAATAGCTCAAGATCTCTTTGAAATGGGTCTAATAACATATCATAGAACAGACAGTACTAGAATATCTAACGTAGGAATAAGCATAGCAGAAACCTATCTTAAGCAGACTATAGGAGATAACTATAAATCTATTTTTAAGCCTAGGAGTTGGGGAGAAGGAGGAGCTCATGAAGCTATAAGGGTTACTAAGCCGCTAGATTCTGATCAATTAAGAGCAATGATAGAAGAAGGGGAATTAGAACTACCTAAAAGACTAACTTTTAACCATTATAGAGTTTATGATTTAATATTTAGGAGATTTATAACTAGCCAGTTAATTCCAGTAATACTTGAGAAGGAGATTGTGAATTTAAGTGTTAAGACAGAAAATAATGTAATGTTAAATATAGAAAATAATCCAGTAGAATTTGTATACAATGTAACATTACCAGGAGATACGCATTTTTCTAAACTTTATGTTCCAATGAAAACTTCAGGTAAACCAATAAAGTCTAAAATAAATTGTATTCCTGGAAAAGACTGTGAATTTGACGCTAAAGTGCAATATTCTTTTAGTAAGAGTGATGTTCAGTTATATACTCAAGGTACTCTTATTACAGAGATGAAAAATAAAAAAATAGGAAGACCTAGCACATATGCTACTATAGTGTCTACATTATTAAAAAGGGGATATATGATTGAGAGTAAAAATGTTAAAAGACTTGTTCCATCAAAACTAGGTATAGATGTTCATTCCTTTCTAGTAACTAGATATCAAAAATTTGTATCTGAAGATCGTACTAGAAGTTTATTAGAACGTATGGACATGATAGAAGACGGAAAAGAAGACTATAGACAAGTATTAAAGCAATTATATGAGGAAATACAAGATATTGGGTGATAATTTGTGCTAATCTCGTTAACTTACCTAAAAATGAAAGAGATGTCAAGAAAACATAATATTGAGAAAGCTAAAAAACTAATAAAGACATCCAAAGAAAGAGGAGCAAAACTAGTAGTTTTGCCGTCTTTATTCCCAGTAGGTAATTCTTTTGAGCTTTACAATAACGAGAAAAAAATGAGGAGTATGGTAAAAAATTTGGCTGAAAAAATTCCAGGAAGCTCTACTGATATTCTAGTTAAGTTAGCTATGGAAGGAGAAGTACATCTAATAGCGGGTCCATTGTTAGAGCAGGCAGGACCAAAAATTTTCTTAACTACATTAGTTATCTCTCCAGATGGCGAAATAATAGGTAAATATAGGAAAATAGTAGTATCAGAAAAAGATATTAGACTTGGAATATCAGGAGGTAAGGAACCTATTTATGTCGTGCTAGATAACAAATATGGTATAATTTCTGAGGACGATTTAATGTCACCCGAAATAAGCAGAATATTATCATTAGGTGGTTCACAAGCTGTAATAGGCACCATGAGAGCATTAAATAAAAAACAAGAGATAGTTAAACATCTAGCTATATCAAGAACGATAGAAAACGGTATATCTTATTTAGTAACTGGTGAAATGATAGAAAACGAGGATGGTGAAATAATAGGTTCTTCTCCTACATTTATTACTACGCCGGAATCTCTAATTTATAAAGAAGCGGAAGAAGAAGATTCTATGATACTAGTAGAAAGTTCAATAATAACGCAGAATAAAGAGAACGCCTTCAGTAGATTAAGCAATATGGAAACCATAATAAACGGATTATGTAAAAGTATCAAAAAGAATAGAATTCTTAATGAAAAAGCAATAACTAGTAAAACTTCTGAAAGTTAAGCTGCCATATAGACTGCTGTTCTCCTATTTTTGAAACTTTCCTTTATAAGACCTTGCGAATTGAGCTCTTTCAAGATTCTTTTAGCTACGCTAATAGTGATATTAGACTTAGTAGCTAATTCGTAAGGAGTTATAATTTTTTCCTTTTTTATTTCGTCTTGGACCCTTTTTATCATTTCGTTTGAAATCACTATATTTTTTGAAATTACTTCACTTCCAGTTTTGCTTGTTTTCTTTCCAGAAGCTTTCTTTTGTTGAGCTTCCATTTCTTTTTTCATTCTCTTTTCAACGTTGCTAATAGGTTTCTTTGATACTCCGCCCATTTTATTCACCTGATAATCTTTAATGTAATATAAGAATATAATATTTATGACTGAAAATCTGGTAGATGATCTTCTATCTAGAGTTTCTAGATTTGCATCAGTATTAGGAATTTCGAGAACAGAGCTACGAATATATTCTACATTGTTGCTTGAAGGTCAAATGTCAGCTAGGGAAATTTCAGAGAAACTTGGGATCTCGTATACTAAAGTATATAGTATATTAACGAAATTGGAGGAAAGAGGATGGATAAGAAGAACAGGTAAAAAGCCAGCTTTCTATAATGCAATTCCAATAAGAGATTTATGGGCTAATATAAAAAAGCTATTAGAAAATAGAATTGATGAGTTTGAAAAAGAATTTATAGAACCATTATCGGCTATGCTTTCTTCCTCATCTACGTATAATATCATTGTCATCTCATCAACAGATTTAAAGAAAACAATTTTTGACTTACTTAATGAGGCTAGTAGTAAATATCTCATAGCCATATCGTATCCAGAAATTCTTACTAAGGAGATATTAGACGTAATATATACGAAATCTTTTAGTAATGAGGTAAAATTAATAGTTCCAAGTTCTGTAAATGTAGAAAAAATACCAAATGTTAAAAAGGCAGATAATATGTTTGGCAGCGGTATTATTACTTCTTCTGCAGTTCTTTTAATAATAAAAAACAATGATAGACTATCTGGTCTTTTGTCAAATCATAAGTATTTTGTAGATATTGCAACTGTATATTTTGATCATCTATGGGAGAATGTATGTAAATAGCACCGTGCAAAAATTCTTAAAAATAATATTCATGGAATTCCTTATACAGACCTTAAATGAAAATAATAACAGTTAAGCTACCAGAACAGTTCTTGGAAGCAATAGATGAATTAGTAAATACAGGAAGATATGAGTCTAGAAGTGAAGTTATAAGAGCAGCAATAGGTGATTTTATTAGAAAAGAATTATGGGTTAAAGAATAGTGATGAAGGCTGGTATTAATGATAAGAGAGATGATTTAAGACACCAAAACTGATAAGATAAGGTTTTTTATATTATAGTTATCTTCAACTGTTGTGGCATTAAAGGAAGGAGACATTGTAACGATTTGGATAGATAGTAAGAGGGTATTTCTGTTAAAGATAACTAAAGGTAAAAAATTGGAAACCGATAAAGGATATATATTACATGATGATCTAATAGGTAAGGAGTATGGCGATTTAGTGAAAATGTCTAGGGGTTCTGCATATTTATTGAAACCTTTTTTAGAAGATATATATTTAGATTTAAAGAGGCCATCCCAAGTTCTTTATCCTAAAGACGTTGCGTATATGATATATTCTTCTGGAATAAAGCCTGGAGATAAGGTAGTAGAAGCTGGTACTGGTTCTGGATTTCTCACAATATCTTTAGCATATTTCTTGGGTAAAGAAGGCAAAGTAGTAACTTATGATATTAGAAAAGATATGCAAGAAACTGCTAAATATAATGCTTATATACTAAATCTTACTGATAGAATAGAATTTAAAAATAAAGATATCAAGAACGGTATAGATGAAAGTGATGTAGATGCAGTATTCTTAGATATGCCATGTCCTTGGGAAGTTGTATCAAAAGCTTATGAGGCACTTAAACCATCAGGCGCATTAATAGTTTTTGTTCCTACAGTAAATCAAGTAGAAAAATCGTATTTGGAAATGGAAAAGTATAATTTTATAGAAATTCACGCTGAGGAACTTTTATTGAGAGAGTATAAGGTTAAGGAGGGTGCTACAAGACCAAAAAATATAGGCGTTGTACATACAGGGTTTATTATAAGGGGAAGAAAATCAATAAAACCTTTATAGGAAATAGTAGAGTAAATATAAAATGAGTGAAACTAAGCTTAACATATATGCTAAACTTATAGTAAATTTTGAAAAAGATATTAAAAATGTAAAGTCAGAGATAGCTAATGATACAAAGAACCTAATATTGCTTTCCCAAAATTTATCCCAACAATTCAATAGTGTAGCAGAATCGTCTTTAAAAGAAATTTCTAAGTCAATCGACGAGGAAAAGAATTCTGAAATAAGTAAAATTAGACAGAAATATAGTGAGGATAGAGAACAGAAACTGCAGCAAATAAAATATAATGCTGAGAAAAATTTTGAAAAAGCTGTTTCTGAAGTATTGTCTGCCTTAAGTGGGGCATTTAAATGAGTTCAGCTTCTTTGGCATATTTATCCTCAATCTCACGAAATTTTAAGTCAAAGACTTTGACCAAAGGTCTTATAAATGAATTATTAGCAGAAACTGAATGGAAAAATGCTGTAAATATATTGAAGGAAAGAGGATATTTTGAAGAAGTTAGCTATAATTTTGATGATATGGAATACCTTATTAAGAGTAATGCTATTCAGAATTTGCTTCTATTAATGAATCTGAGTATGTCAGTAAAAACGTCGTACTATATAGCTAGCTTATATTATTATATATTAACTTTAGACGAATTCGAAAATATTATATCTGCAATATATAATAAGGTCAATATCCAAAATACTAGAATATTTCAGAAAATAATGGAATCCAAACCAGAAAATCTTAATGAACTTGTTAATTTGATTAGAGACTCTATTCATGGTAAAGCGTTACAGTACGCTCTATCTAAAAATCCACATGATTTATCACAATTGAATTCGTATTTAGACTACTATTTTATTCTTGAATTATCTAAAACTATAGAAGGTTTAAGGGGAGATTGGAAAGCATCTGCTGACAGTATAGTATGTGGATACAAAGATTATTACACAGTTAGCATGGCTATCAGGCAAAAAACGCAGGAAAACGTTGTGTGTAAAGTTAGTTTAGATGTTATAAAAGACTTAGTTAATTCTAGATCTTCTACTGAAACTATAGATATACTTAGAAGAATATCGTATGCTAGGTCTATGGAATTTACTAATGTCTATTCTGCACTATCTTCCTTATATAGGGAAGTTAGGGTTTTAGCACGGAAAAATGCGTTAAATGCATTTATGGGAAGTCCATTTACTCCTGTTACAGTTCTTGGCATTTCAGAAATATTACGATTAGATAAAGAAGACCTAATTTCTATTTTAAATGGAATAAAACTAAAAATGAATCCTGATAAGATAAAGTCTAAGCTATCATTTGAAATGGTATAATAGTTTTTCATCTACCAAATAATCATTGTTATCTTTTATTATAGTAAACTCAGGAAATTTTGGTGGATCAGGCATTTCGTTAACTGGTTTTTCTTTCCCTAAATATATCCATTTTAACTTTCCATTTATTTTTTCTAGTTTATACCAGTATTTTCCTATATAGAAATATTTTTTACCATTTTTATGGACTACATGAAACGGTTTTAAATATACATCGTAAACTTTTATTTTGGAGTTATAATCATATACTAACTCTTTGAATTTAGTGATAATGTTATCAAATTGTTTCTCATCTATTTTTATAAACATAATAGAAGATAGACGTTTATTTTGAAAAGATTTAATATAATAATAGTGGTATGACAATGAAGACTAGGAAAGTAGGTCATACGAATATAGAAGTTTCTGAAATAGGTTTAGGTTTATGGAGTTTAGCTACTGATTGGTGGGGCAATCCATATAAAGGTGAAGATGTTATTAAGGAGGCTTATAACAATGGTATAAATTTTTATGATACTGGGGATATTTATGGTGAAGGTAAAGCAGAAGAAATAATATCAAAGACTCTCTCTAATAAGAGAGATAGTATAATCATATTAACTAAAATTGGATATGATTTTTATCACAAAGTAAATAACAAGTCTATACAAAAGTTTTCTATTGACTACTTAGAATACGCTTTCAAACAGTCATTAAAAAGGCTCAATACTGATTATATAGATATTTTAATGTTACATAACCCTAAAATAAATGTAATTAGAGATAAAGAAATACTAGATTTCATGATATCGTTAAAAAATGATGGAAAAGTAAGGGCCATAGGTGTAGCCCTAGGTCCTACATTAGGTTGGGGCGAAGAAGGTAAAGAAGCTATACAAATGGGATATGAAAGTCTTGAGCATATTTATAATATGATAGAACAATATCCAGGGAAAGAATTATTAAAGTATAATATAGGTCATTTTACAAGAGTTCCCCACGCTTCTGACGCATTAAACGAAGATAAATGGCCAATAGTAGAAGATAAAAAATTACATAGAAGCCTTAAGAATATAAATTGGATAAAAGAAGCAGTAGAAAAAAGCCAGGAGATGCATAACTTTGCTAAAAGTAAGGGAATAAAGTTATCTCAATTAGCTCTAAAATTCGTATTATATAATAGTAACGTTTCGAGTGTAATTCCAAATATAACTACTATAGACGAACTTAAGGAGTTTATTCAAGTTGAAGGAATTCCAGATTTAACAGATGATGATATAAAATTTATAGATGATTATTATGATATTAAATATAAGAAATTGAACGAAGAAAGTATAGAAGAGACTAAGATCTATAAGTAATATAGAAGTCTAGAAATTTTTTAAATGCAGCGGCTCTATGTGAATAGGTATTCTTTTCCTCAATTTTCATTTCCGCAAAAGTTTTGAAACTACCATTTGGGACAAATATTGGATCAAATCCAAAACCTTCAGTTCCTCTAATATCTGATATTATAGTTCCATTTACTTTACCTGAAAATATTTTTGTTATTTTATCATCAATATAGCAAAGAGCTGTTTCAAAATATGCTTTCCTATTTTTAATTCCTGATAATAGTTTCAGTATTCCTTTATTATCTAATGTACGTTTAACGAAGTTAGTATATGGACCTGGAAATCCATTAAGCTCCTCTATAAATAATCCACTATCATCGACTAATATTGGCGATTTGAATATAGAATAGAATATGGAGGCAGAGTATCTTACTATCTCTTCCAAAGAGTCAGCTTGAATTTCTAATTTTGGTGCATTTATCCATTCTAGATTAACATTATTTCTTTTTGCCATCTCATCTAATTCGTCAAATTTATGCTTGTTACTAGTTATTACTTTTATTACGCCGTTCTTCAACATATCTACCTCTCATTCTAATATCGTTCACAGTTTTCAACACATCCATGTAATTTTCGACTATTTGTGAGTATCCATTCCTAAATCCATTGAATATGATGTCTTTTTTGTCTGGATGTATACTTTCTAACGATCTTAAAAACACATGTATATCTGTGGCTAAGTCTTCAATATCATTAGATCTTTTAGCTAAACCAAAATCTATCATAAATATGTCATTTTTAGAATTTATAATTAGATTATTTGTTGTAAGATCACCATGAGTTATGCTAGCCTTATGTAACTTCCCTGTTAAAACTCCTATTTTATATCCTATGTCGTATAAATTTTCTGTATTATTACGTATTAAATCCTTAACTACTATTCCTTCTATATATTCCATAATTATTGTAAAATTATCAATATCTATGAATAATATTGCAGGCACATTAACGTCTGATTTTAGCGCATCATACATTATTCTTGATTCACTAATTGTTCTTTCAGAGTTTATTTTATAATCTAATTTAGAATCTCTATATGATTTACTTACTCTTTTCTTGAATATTGAATGTACACCAAGAAAATATCCTTCATAGATGATTGATTCAGAACCTCTTTTTAGTATTTTCAATTTCTCCAAGGTATACTTACCTCATCTATCCTCCATCTAGGTCTTATGACAGACTCTTCTATAGGTATGTATATCCCAGATTTTGCTGCTAGTAATCCAGCATATGCTATCATAGCCCCATTATCTCCTGAGTAATTAGGAGGAACTATCTTTATTTCAACTCCCCAATCGTCACCTAGTTCCTTCATCTTTTTTCTTAAACTCACACTTGCTGCTACACCACCCACAACTAAGATTTCCTTCTTTGAAGTTAAAGCTAAAGCTCTTTCAGTAGCTTCCAGAAGCATATCAAACGCTATTTCCCTTATACTGTAACAAATATCATGGATGTTATACTTCTTCCTAGCTCTTAAGGCGGCTGTTAAAAGTCCAGAATATGACATATCCTGTCCTTTAACCACATAAGGTAAATCTATTAACTTTCCATTTTCGTCTGCACATATATCAATTACATGCTTTCCGTTTATTACATACGGAGGAGCAAGTCCACTTTCTCTTACAAATACATCCATCATATTTCCTAGGGCAATATCTAATGTTTCACCAAAAATTCTAAATCTGCCATTATAGAACGTAGTTATTATAGTATTTCCACCGGATAGATAAAGTATTAGTGGATCTATGGCTTTTGTTGATAAGTAGCCTATTTCTATGTGGCCTATTCCATGATTAACAGGAACTAATTTTTTATCATACTTTAAACTGAGAGCTCTGGCTATGACTGCGCCTACTCTTAATGCTGGGCCTATGCCTGGACCCAAAGATATTGATATATAGTCTATATCTTTTAGAGTTAATTTTGCTTCGTCTAAAGACTTTCTTATTATATCTGCGGCTACTAATGCATGGTGTCTAGCTAAATCAGTTGGTTTCATCCCACCAGATTTTGGGACATAAGTATCTTTAACATTGGATAAAATAAAAGGCTCATTATCTGTTGCTATTCCAACTCCAAAAGTATGAGCTGTTGATTCTATCCCTAAAGTTATCATTTCTTATTTTTTCCCCGTGACAAACTCAGTATATCCACATTTTCCACAAGCCCATCTTTCTTTAGGTTTTAAATGATGGGCCATAACGCTTCCACATCTGGGACATTTTTTATTCTTTAATTTAACTTTACCATTGTCTAATTCATAATAAGTTCTTACTATAGCCTTAACTTGATTTTTGTTCTTGGCTGGCATTTTGTTCACCTTCTTTCTTCTTTCCTATTCCTCTACTTAATAAATGCTTAGGTTCATATTTCTCTAAAATTTCTTTTTTATTATAAATATGAACTTTAGCTACGCTTATTCCAGCTCCGTAGCTAGTATATATTTTTCTTATAACAATTTTATCTTCAGGAGCGTTTATTAACTGAGATAATGATTTTATTAGTTCTTGTCTTGACGGAGTTCCAGTTCCTATATGAAAAAGTTTTATAGTTAATTCTCTTCTATCTACAACTTTGTTTGAAAAGTCTCTTTCTATAACTCCCTGTACTTTATCCGAAATTTTTATTTGTTGAGCTTGACTCATCATTTTAAATATAAAAATGTTGATTTTAAGAGTTGTGCAAGTCGTTTATTATATCTTCAGCAACTTTTTTGCCAGAAAGAACCATAGCTCCAAATATAGGTCCCATTCTAGGTAAAGCTTTAATCTCACACACTGCCATACCTGTAGTATATAAACCTGGGGCTACTTTCCCAGCATTATTAACTACTAATTCTTCTGCTATTTCGCTATAAGCTGATTTTTCTCCAGGTATCGATATTCCAAGTTCTGGAATTTTTCTTGAAGCTACAGATAGAATTTCGGCATCATGACCTGTAGCATCCACAACTGCCTTTGCAGAAATGAATAATGGATCTACGTGAAGTCCAGACATTTGTGTTGAGGTCCATTCAACTGCTACTCCGGCTACTCTTAGTGGGTCTTCTCTAAATATTACATCATCTACGTTTATTCCATGAATAATTTTAGCTCCAGCGTCTATTGCCGAAGCTCCAAGTTTAGCCATGAATTCTGCAGAATCTACTATATATATACCTTCTTCTGCTTTTTGTAATTTTATATTTAATTCTTTCAATACTTCATCTGCAGGACTTTCTATAACTATTTTATGAAAATTCATTGCTCCACCACCAATTCCACCACCAAAACTTAGTCTTCTCTCAAATACTACAGTTTTTAGGCCTTCTTTTGCTAGAAAATATGCTGCTGTCATCCCTGAAGGTCCAGCGCCAACTATAACTACATCGCTATCTATGATATTATTCCAATCTTCAAATGTATACTTTAAAATATATTTACTTATCTTTATTTCATCTACTTGCTTTATATTTATAGTTTGCATATGTAGAATACTTATAAGATACTTATAAACCAATTTATAGTAGTTTCATTACGGCAATATATAAATAATGTTATAGAACTAATTAGATTAATGCCATTTCAAGTCGAGAACAAATATGGAAATTATAGATGTGATTGGTGCGGAAAAATAATAAACACAAATCCAATAGTAGTAAAAACTTGTTGTAATAATAAGCCATGGACTTTTTGTAGTAGTCAGTGTTATAATCAGTGGATGAGAGAGTGGCTAAAGAGACAAGAGCAGAAAACTGGAACAAAAAGAAATCAATTATTGTAGGAATAACTGGGGCCAGTGGAATAATATATGGAATAAAATTTGTTGAAAAATTAGTCGAAATGAATTATAAAGTTTATGTAATAGTAAGTGAAGGAGCTAAGAAAGTCGCTGAACGAGAAAACGAATTTAATATATTACAGATCCTTTCTAATTATACTTCTAATATTTTTTCAGAAAAAGATATAGATGCTCCTCCATCTAGTTCAAGCTTTACTGTAACAACTAAGGGTATGGCAATAATACCATGCAGTATTAAAACTTTAGCTGAAATAGCAAACGGTATAGCGTCTAATTTGATTTCTAGAACGGCTATAAATATGATTAGAACTAGAAAGAAATTAGTCCTAGTAATAAGGGAAACGCCGTTAGGTCCCTTAGAATTATCTAATGCATTAAAGCTTTCAAATCTTGGTGCAATTATACTTCCAGCTTCACCTGCATTTTATACTAAACCTAAAAGTATAGACGACATAATAAATTTCATAATTGGAAAAACATTAGATTCCTTGGGAATATCTAATTCAGTATATAAACGATGGACTAGATGAGATCTACATCTTTTTTACCAAGTTTCTTGGATATTAACTCTTTTACTTTATTTTCGTAATCGTCCTCTTCCTTGAGCTCCTTTTCTAGATCGTCTTTGTTTCCGTCCTTTTTATTTACTGCAAAGGCACATTTATTACCAGGTAAGAGTGCTCTTTTTTCACAATACGCATATTGGCAGTCTCCTGTAATGCAAGTATCTCCAACCCATCTGCAAAATCCTACTTTGTAAGGACTACCCTTCGCATATTTTGTTTGTATCATTAATGCTCTCTTATTGCATCTAAAATATGGACATAAGTAGTTACATTTTTCACCCAAAGGAAGGGGCTTAGGTTCATTATCTGAAAATTGATTTCTCTGTGGTTTGAATCCTCTTTCGTTGAAATTACTTCTCAATACAAACCCCCAAAGTCTTTTTCTATAAAATAGTTACATTTTCACCCATTTAAATATTATGTATCTTACGCTTCTTGTATTTAAATTAACTAATCCTAATACTAGTTTTTTCTTAGTGCTATGCGATACACGTCCAAAGCTCATTAATTCATTAGCCATTAATTTGGCATTTTCGTCTAAGGCAATTATGACATATGGTGCATGTTCTATTCCAGGACCCAGCGTGTATATCGCAAAATCAGCACCAAATTTTATTCCAGATCTTACTATAAAGCCTTTGTTTCGTAAATCTTCATATACTGCATAAAGAATATCAAATCTATTTATTATAGATTTGGCATATTTTTCTAGATCATTTTCATCCATTTTATTGTCTATATTATAAACCTCTATTTTCCCTTTTTTTACTAAATAAAGTCCCTCAATTAACGAGACTTCTAATGGTCTTTTTAGATCTTCGTCTTTTTTTGGCTTTGCTATTCCCAAAGGTTTGCCATAAAATCCTGATTTATAAACGCTCATACCTTCTTGAGGATTAGGTATAACTATACGGTCATAAAATAAAACAGCATGTATAGCCATTTTATATTCTCCCAAATGCTATATACGTAATATCATTAGCCGAATCTCTAATTAAGTCCTCACTATCCTCTAGCCTATCTACTATATCTTTCATAAGCATTACATATATTAGATCTTCATATTTTCTTTCAAATAATTTTAATTCAACATTTCGATACAAATCATCAACTTCTTCTTCTAGTTTTAGAATATTTCTTGCACTATCTATAGATTTTTTTGCATCAGTAGATAGGCTCTTTATACTTTCAATTAAATGTGTTAATGAAGCCAATATTTTTTCTGAAATTATAATAATTAGCTTATATGTAAGATTGTCAATTTCAGTATTTCGAGTCCTCAATACACTTAATCTATAAGCTCCCGCGTCAAGATTTTGAGATATCTTCTCTAGCCTATCTAGTATGTTAATATATAAATCCTTATCATCTAATCCTTCTTTAATTTTTATAATATATTCACCTAGTAAGTATTTTTCATTTTCTACACTATTTTTTATTCCGTCTATTTTGGCATATAATTGCATAGGATTCTGACTTTTTACAGTTAAGAACTCATAAAACGCGCGTATTTCATCAATTAATTTTAGACTTATCTGCTGTAATTTTTCCTCTAATGTTAAATGAGCTATACTCATTAATAGACAACAGTAGTTATTGCTTAAAAACTAAGCTTTGAGAGCGAGGCTATGGCACCATCTAGTTGTTCTATATCACTTTGAATATCAAGATCATATCCAGATTTTTTAACTAGTTCGTTTAAACTTCTAAGTAAATCTTTTTCGTCTTTTAACCCGATTAGTTGAAGATAGCTTACTATTCCAATACTTTCCTCTTTAATATTTGGATCTTTAACTTCGGATATATTTTGAAGAATTATAGAAGTTCCTTCTAGGATATTTTTCCTAACCCTTCTTATTCTTCTTACTATTCTTACTGCTCTATTATAATCTGGTTCTGCTATAGCTATCATATTTTCTAGCTCCTCTAGATATTGTGAATGATCTTCAATAAATTCTTCAAAATCTTTTAATACTTTGAGTATTTTTAGTTCTCCTTCATTCATTGAATTACCCTTAATGTCACAGTACTATTGTCTTCGAGGCCTAATTTTATCATATCTTCAGGATTAGCCCATACTTCTATTTCTTGCAATCCGTCTTGAGGAATCGTTTGAAATTCCATTCTTTTTCCTTTTACAGAGATTTCTGCTTTACTCTTTATCTTCATCTCGTTATAGAGTTTTATTGAAATTATTATTGTTCCTTTTTCTACTTCTGGTTTTTTCTTTATCTTTACTCTTTTTTCTCTAATTGTGGCTCTTTCTCCACTTTTTAACGCAGACGCCGGAGGAATTACATTTACTAATGATTTTATATCTACTTTCTTTTCATTATCTTCGTCTTGTTTACTCATTTTCTTCACCTAACTTATTAAATTGCTCTCCACTAAATAACTTCTCTAATGAAGTAGTTAATTTATCTTCCTTAACCCTTATTTGAGACCAGCTATCTCTTTCTCTTATCGTTACACTATTATCTTCAAGAGTTTGGGGATCTATAGTTATAGCATAAGGTACTCCTATTTCATCTACTCTAGCATACCTTTTTCCTATACTTCCTGAATCATCATATATTACATCAAACTTATCTTTCAAAATGTCATAAATTTCTCTTGCTTTTTTTATAAGATTTTCTCTATCTAGTAAAGGGAATACTGCAACTTCATAAGGCGCGATAGACTTAGGTAAAGATAATATTACTCTATCTTTTTTCTCAGTATAGGCATTAGCTATTGATAAGAACAAGCATCTTTCTACTCCAAATGACGGCTCAACCACATGAGGGAAGAACTTTTTACCAGTTTCCTTTTCTTCTCTCTCACTTACCGTTATGAATTCAGAAATCTTTTTGCCATCTATAGAATATCCACTATTTATCATTTCTTCTATTTCTTCTACAGTATGTGACATTACATTCTTCATGAATTCTTTAGTGAAATTTGATCCTTCCTTATTTAACTTATCCTTATTTATGATTGTAATTTTTTTCTTAACGATTCTAGGAGAGTCGTATTTCTTGAATATTGTTAAATCTTCTCCACTTACCTTTGAATGTCTACTTAGATCATAATCTCCTCTATAGGCATGTCCAGATATCTCTACTTTTTCTCCTTTAACGACAACAATCTGATCAAAAGTTTGCTTAGAATAGTGAGCTCGTTCTTGTGGTAATTTTTCCTCAAAATAGGTATTTTGTATTCCTAGATAGTTCACAAATCTATTTGCTGTAGCCATCCAAAATCCCATCCATGGATTTAAAATTATTTTTTCAGATATAAGCTCCTTTAGTTTATATTGCACTGGATTTTCCTGACCTTTAATTTTTTCACTTCCTAAAAGTACATTAATAGAGTCATCTTCAAACTTATCTAAAGGAACTTCTAAATCTTCTGGATCAAAGAAAAATTCTATTTCCATGATAGTAAATTCTCTCATTCTTATTAGACCTTGTCTAGGCGATATTTCGTTTCTAGCTACTTTACCTACTTGAGCAATTCCTAGAGGCAGTCTTTCTCTAGTGGTTCCATATACTCTCTTAAACGCAGTAAACATACCTTGTGCAGTTTCTGGTCTTAAGAATCCTGTATTCCCAGAATATGGACCTATATTCGTCGAAAACAATAAATTGAATAGTCTAACTTCTCCTAAGTCTCCTCCACAAACTGGGCATTTAATATTTTTATCCTTTATTATTTCATTAAGTTCTGATACTGAAAATCTTTCTGCATTAATTTTTATTTGCTCTTCAATCAAATGATCGGCTCTAAATATTTTATGGCACTTTGTACATTCTACTATAGGATCAGTAAAGTTTTGTACATGACCACTAGCTTCTAAGACCTTAGCAGGTGTTATTATTGGAGTTTCTATTTCTACTACAAATTCTTTATTATTTTCAATAAAGAATTTTCTCCATATATTCAATATTTTATTTCTTATTCTAACTCCTACTGGACCTAAATCATATAATCCAGCTACTCCTCCATATATCTCATAAGATGGCCAAAATATGCCTCTCCTTTTAGCTAACTCGATTACCTTATCTACTTCACTCACAAGACCTTTATCAGTAAAGCCAAACTTATAAATTTCTTCAACCCGTTATGAGGTATGGAAGATCCTAGATTACTTTATCTATACGATTCAAGAAAATTTGCTGGTTTTAATAAGCCAGCATCTCCGTTCATTGTATTAGGGATTCCTATGGATATAACAAGCAGTTATAGGCCAGGAAGTAGATTTGCTCCCTCATACATTAGAGATGCTGCACAGTATATAGAATTTTATTCTATAAGGACTGGAATTGATATGGGAGATGTAGGTTTTAACGATGTAGGAGATATAATATTACATTCGTCTGACGCTGAAGAGAATATAAGGAGAATTTCAACGGTCTCAAGTTATTTTAAAGATAAAGGAAAAATTTTGATTTCGATTGGCGGAGAACATACTATAACCGTAGGAACTACTAAAGGGCTAAATCCTGATTGCGTATTAAGTTTCGATGCACACTTAGATCTAAGAGATGAATACATGGGATATAAGTATGATCATGCATGCGTTATGAGAAGAATAAGTGAAAGAAGCACAAGAATATTTGAAATTGGAACAAGAGCAGTTAGTAAAGAGGAAATTGATTACGCTAATTCTATTGGTATTCCATTTATAACTTCTCATCAAGTAAAACTTTTAGGTCCTAGAGAAGTCAGTAAAAAAGTTATGACGCATTTCGAAGGATGCAATAAGATCTATATCACATTCGATATGGATTCAATAGATCCGTCATATGCGCCTGGCGTCGCTACTCCAGAACCAGAAGGATTAGATCCATCTACAATATTAGATATAGTAAATTTAATCACAGATAAAAGAATAATAGGATTTGATGTAGTCGAGGTATCTCCTCCTTATGACCCTTCCGGTATAACTACAGTATTAGCATCGAAAATAATTCTAGAAACTGCAGCTTCGATATTCAAGTCGCTTTTATAACTTTTATTGTAGGTTTTCTTATCATATATATTATATCATACCCACAATAAGGACATCTAACTCCTGGTAAAACTTTTAATTTATCATCATCAAATGTTTTCCAACATTTGCCGCATCTATATTTATCTGCCATAGAAGTATGAATGTTTAGCAATGATTTAAAGCTATTTCTAATAGAAAAGCTCAAAAAGGGGATTTCTAATAAATATTTTAGTAAAATGACAGACAATTTGTGTGGAGGACTTCCACCAGAAATATGTGAGCAGTTAAATAAAGAGGAACAGTTTATAAAGGTAAAATTAGAAAGGCGACGATATGGTAAAGAAGTTACAGTAATAGAAGGTATTTCAGATTCTGACGTTGAACTTAAAAAAATAGCTTCGGAGTTAAAATCTAAGTTGGCTGCAGGAGGTACTGTAAAGAATGGTAGAATAGAGATTCAAGGCGATCATAGAGAAAAAGTAAAAGATTTGCTAATTAAGCTAGGATTTCCAGAAAGTAATATAATGGTTATAGAATAGATTAAAAAGAATAAAATTAAAAATAACTAATTTGAAAATTGCTAAGTTATTGGTTTTGTATTTCTATTTTTAGTTCTTGTATTAACTCCTTATATCTATTTCTAACAGTAACCTCGGTAACACCAGCAACTTGTGCTATTTCTTTTTGAGTTCTTCTTTCATCGTTAAGAAGTGCTGCTATGTATATTGCAGCAGCTGCAAGACCTGCTGGATCTTTACCTGCAGTTAATCCAACATTTTTAGCTTTTTCTAAGATTTCTGCGGCAAGCTTCATAGAGGCTCCACTTAAACCTAACAATGAACCTATTCTTGTTACATAATCCTTAGGATCAGAAACCGGTACATCTACGTCTAATTCTCGTAGTAACAATCTATAACATCTGGCAACCTCTTTTCTATTAGCTTTAGTATACTGTGCTATCTCATCTAGTGTTCTAGCTATTTTCATTCTTCTACATGAAGCGTAAATTGATGCTGCTACTACGCTTTCTATAGATCTTCCTCTAACTAATCCTTTTTCTACTGCTTTTCTATATATTAATGCAGCTTCATCTTTTACTGATTTAGGTAAGCCTAGCAAGTTTCCTATTCTCTCAAGTTCGTTCATTGCTTGAGCTAAATTCCTGTCTATTGACGACTGTATCCTTGCTCTAACTTGCCATTTTCTCCATCTTAAAACTTCTAATCTTCTTTTTGGATCAAGATTTCTTCCTATAGCATCCTTATCTTTCCAATCAATGAGCGTGGAAAGTCCTCTGTCATGAATTGTATTATTTAAAGGTCCACCAACTCTACTTCTTTTTTCTTTTTCTTCTGGTGTAAATGCTCTCCATTCTGGACCTTGATCTACTATTCTATCTTCTATTACTTCTCCAGTTTCTGTGCAAATATACTCTCCTCTATCAGCGTCAAAAATTATTTTATCTGGAGGACAGATATATGAACCAGATTTAGAATCTTGCTCCTTACTCATGTCTACCACCTAATCTAGAAATAAGGCACAACCGGGAAAACCCTTTTAAATCTTTCTATTCCGCCATTTATAAGCTTTTCTATAAGTTTTTAAATAAGATACAAGGATTAACCTTTAATAGTTATATTCCCTAAAATAATATAGCCGGGTAGTCTAGCGGCCAAGGATCTAGGGCTTTGGCCCCTGGGACCAGGGTTCGAATCCCTGCCCGGCTACCAGTTGTTAAGATTTTCTTTTTAATTGCTTAATGATATGATAATTCAATTATTATTGATGTTAGTATAATGCTGTTCTCATCTATTCTCTATATTTTTTCTAAACATATAAATACTTAATATAAAGAAAATTATCGATATTATTGTAAAAATTATCCCTAACGTTACTAGTGGTAATAAAGCTTGATGAGGTCCAACTCCAAAAAATATTGGTATTGGGCCAATAAGAACGAGTCCGCCAATTGCTGAACTTGTAGACTGCGGAGTAACTTGCGATATAGATCCGAATATTATAAGGAGCATTCCTATGAAGATTATAAGGAAGCCAATAATGGTTAATCTCATAATTTACTCTATTGTTTTGATATTTATAACGGTGTCGTTTATTGTATTATGGGGGAATAATATCCGTATTATCATCAAAAAAGCAAGATGCTAATGAAATAGCAGAAAAGCTAGGTAAACTTCATGAAGAAGGTAAAATTAGAATATATTATAGGCGTAATGGTGATTTCATCAGATCAGTATTAGTGCCTTCGGAATATCCTGAAAAAATTTTGGATGCAGCAGAAGCAGTTAGTTTATCATCATATTGTATTTTACATATACCTGAAGATATAAAATGGGTAGATGGAGAAGAGGCCCTACTAATAGATGCTCTAGGATTACCAGGAAAAATAGTTACAAATTTACCTTCTGATAATATTAAGAAAATTTTTAAAGGTTTAACAATAGAAAAATTTGAAATAATTAAGGATATTCAAGAAATTGAAAATAAGGAAAATGAAAAAGGTTTTGTATATATAGACAGAGCTTTTGTTGTAAAAGGCGTTGGAGTAGTAATTACAGGATTTTCCTTTACTCAAGTAAAAGTTCATGACAAACTGAAGATTCTACCTCAAGGAAAAGAGGTGGAAATAAAAAGCATTCAGGTTTTAGACGAGGATCAGACAGAAGTTATGCCAGGAATAAGAATAGGATTTGCATTGAGAAATGTTAAAGAAGAAGAATTAAAAGATTCATTTGCTTTAGTAAAATCAAATTCCAAATTATTAAAAGAGTTTACTGCAAAAATTACAGTTTATCCGTGGTCTAAATTTACTGATGGTAAATATCATGTAGTAAGTAATGGTATATCAGTAGTAGCAGAAATAAAAAGGCAAGAAAACGAGGCTCTTGTGTCTTTACCATTCGAAGTTCCAATATCTCAAAGAATAGCAATAATTGATGTAAATGCTAAACAAGGTAAGTCAAGAGTTATAGGCTATCTAGAGCCTAAATAAATTACGTTAAATATATATTTTAGAATAATATAAATACATAATGCGGCCGTAGTCTAGCCTGGATAGGACGCCTGCCTGCCATCATCAGGCAGAACGCAGGAGGTCCCGGGTTCAAATCCCGGCGGTCGCATATTAGTGATGAGCAGTGGGTAACAGAAAAAGTGACGATGGTCTTGAGTCCTGAAATTTTCAAGTATTTTTAATATTAGTTCTTAGTTCATTAAGATTATTTTCTGCTGTAAAAAATACAGGAACATCGTGCGGTAAAGCTGCTTTAAAACTAACTAGTAGCCATTGTCCTATCTCGAGATCTAACGTTCTATCCATTAGCACGTCGTTTATTCCAAATGTTTCAGAGATTAATTGTCTATCATATGGTCTAGGCAAAGTACTAATAAAATATGTATGAAGTTGTTGCAGTACATTTGTATTTAGATAAGCTAATCTCTGTGTACTGATTAGTGCATGTAGATGATATTTTCTTCCATGTCTTAATAATTTTTCTATAGCGTTACTAGAAAGCTCACTTCTGTCCTTTTGTCTAGTATCAAAAGGTATGAATTCCTGAGCTTCGTCTATTACGAACATTATTGGAGATGTAGAATAAAATCTCTTTCTTCTGTTCATGACTTCATTTATAAGCGAAGCTACAATACTTCTAGACTCTTCTATATTTGGTAATTCCAAAATGAAAAGTCTTGGTGAAGACGAAGAACCGTCCAATATTTCTATTGCCATTTTTTCTATATCATAATCTTCAGTTTCGTACTCTTGAGAATTAATGTATGCCTTTAGTGTACTTATAAAAGTAAAAATTGATGAAGTTTCTTTTAATCCGCTAGTTTTTGCTGTTTCTTCTATTTCATCTAGAATTCCTATTATACTATCATCTACTATATCATCTTTACCTAATTTTTTTTCTCTCATGAATATATCTATTTTACGTAATAGTAATCCAAAGAGTGGTTTCTGTGCATACGCTGTATATTTATCATTTATTTGAGATCTTACCATTTCCATGAGATCTCCAAAAGTTAAATATTGAAATTCTTGAGGCGGAACATACAATTGCCTCATTTTTGGATATATTTTATTTGCAACATCTTTTATTGTATCTTTTAAGTCTAGTATTTCTTCTGGTAATACATGGGTCCTTAAGAATTTTCTTGCAGCGTCTTCTGAATTTATTGGCAACCTCTCAGTAGAAACTAATCTTGAATTTATATTTAGCAATTGATCTAGAAGTAAGATTGCGTATTCCATAGAGATATCTATAATTACTATTTTCATATCCGTAGTTTTTAGAATTCTTCTTATTAATGACGCAGTTAAATTAGATTTTCCAGATCCTGTGAAAGCAAATATTCCTATATGATAATTTATAGCTTTTATAAGATCAATATTCAATGGCAAATTTTCTCCAATAACTTTTCCTATTTCAACTCCGTCTTTTTTGCATACAAAGTTTCTAAAAAAATCCTGATCTAAGACATATACTGTAGAACCTACAAGTGGAGGCACATATGTTTTTCTAAACTTAGGTTCACCATTTAGCTCTAAGGTGTAACCAATGGGATAAGAATATACTTCTATCCAAGTATTATCATCTTCCTTATTCCAGCTCTCTTCTACTCTTCGCATAATTTCTTCTCTTAAATCCCTAGGTACAGTTTCGTCTAGTTCTAACATTCCGTAGTGCATAGGTAAAAAATCAGCTACTTCTAATAGTAAATATGAGTTTTCTACCATTGTTTTTACAGCAAGAAGTTTTCCTATGTTTAGTATTTTCCCTGCTATATATGGCATTTCAATAATAAAGCTTCTAAAGCTAATTGAACCTCTACCATCAGCAGTTTGTCTAGTGATTATCTTAACTTCTCTTAGTCTTCCCTTTATATCTTCAAACATTCTTATCACTTTTTAGCTCTACTATATTCCATAATACTTCTAAACTCTCTGTATTCAAGTAATTTACCTTTAGTAATATCCATAGCTTTTTCCATTTTATTTCTGTAGTATTTTACTAACTTATCTGCTAGGAATAAAGGATAATTATACCCCAAAGCCTCTGGTATAGGGTATTCCCCACATATACTTAATAATGTTAATATTTTTTTGGGATCAATTATATTACTTTCGAAATAAAATACCCAACTATATTTATTAAGCTTAAAATATCCAGAAATTATGTCTTTGTTCTCTTCCTTTACTAATAGCCATGGATATTCATTATAGTTTAATTCTGATCTTATTTTAGGATCAAAGTCTTTTACTATACCAATTGTGTTATTAGGAATCTTCATATTTTTTTCTTTATCCATGGATAACTTTCTATCCATTAAAATAATATCAGAATTTAATGAATTAGCTAGATCGTATTCCATTCTTCTCATAAATTCCTCTCCAGAACCTTCGTATATATTATCAGTTATATTATAGGAGTTAAAAGCTAATTTATGTTTATTTAGAGTAAAATTTACAGCTCCTGCTATAACATAAGAGACTATTCCTTCTGCTGTAGGTATTTCGTGCAGACTTCCGTCAATTGCTGAAAGAGTTAACTTAAAAGAGTAGTCAATGTTACTATCTAGTTTGATAAAAGTGGAAACTCCCATATCACTAATTACTGATGTATTCTTGCCAAATATAAGAGCTTTGGAAGCTAAAAAGTTAAGATCAATGGATATGAGTCAAAGTAAAATAGCATCTTTACTTGGCGTAACACAACCAGCAGTAAAACAGTATTTAGATACTAGAGATTCGATATATTTAAATAAACTAAAGGAATTAGGTATTACAGAAGAAGAAATAAATATGTTTTTATCAGATTTAACTGAAATTTTACTTAAAAATGATGTTAAAAGTACTATGTTTTTTATAACAATTTATAGTATGGATATGCTAAGTAGGCTAAGATTTTGTTCATATCATAGGAAAGTCAATCCTCTAATACCACAAGATTGTAACATTTGTGAAAAACTATATAAGGAAGATGAAGAAGAACAGCTTTCTTTAGCTACTTCTATGCTTCAAAACGAAATTATTAGTCCATTAATTCCAGAAGTTTTAAGCAATATAGCCTTTGCTAGGAAAAATCCGAGAGAAATAAACGATGTGATAGCTATAGCAGGCAGGATAACTAAAATTAGAGGTATTCCAACTCCAGTCTCTAGACCTATGTGGGGGGCTAGTAATCATTTAGCTAAAATTCTATTAGCAATAAATATCAATTATCCTGAAATACGCTCAGTTATGAATATAAAATATGATGAAAATGTGAAAAATTCATTACAGAAATTAGGTTATAAGTTTACCTTAGCAGGACCTAAAGATTACGCTAACGATGATATTTTGGCAAAAGATATTGCCAAAGCTTTTAATGGTGGAGACGCCGTTATACATCTAGGAGGAAAAGGAGTAGAGCCAATAACATATATTTTTGGTAAAAATCCGTTAGAAGTTGTAAGAAAGGTAATTGAAATTTCTAGAAAGTATAAAGAAATTATCGAATTATCTTCCTTATCTTAGGCCACCAGTTATATTGCTTTAAGAATGACATAATTGCAGGAACAAATATAGGTCTTACTATAAAGGTATCAAATAATACTGAAAAGCCTACTGAAAAACCTATTTCCTGTAAAAATCTCATATTTGTAGCAACAAGCGAAAAGAAAGCTCCAGCTAGTATGAGTCCGGCAGCAGTTACTACTAATCCAGAGTTTTTGATTCCTGTAAGTATTCTTTTCTCTTCACTTCCTTTTTCTTCTATAATTCTAAGAATTATGAACATATCATAATCTATTCCTATACTAAACAGCATTGCAAAAACTATTAATGGGGATAACCAATACACACTATGGAAAACTAAATCCATAGTAGCTACACCTGTTAAAGAACTTACAATTAATGTTAATGCTAGTCTTATAGGTACTACAATAGATCCTAGTATTACAAATAAATAAAAGATTATAATTAAAATTGTAAAAGGTAATACAAAATTATAATAGTTGCTTACTGTATTATTAACAATATATATTCTTTGTGCATTACTTCCTCCTACTTCATATCCTTGGTTTATAATGCTTTTAGTAAAATCAATAGCTTTTGAACTAAATACTGGATAAGGTATATAGGCTTCGACTAGAGTATAATTATCTCTATAAAATTGAGGTATATATTCAGATTTATTTAAAATAATATTATTTATGGAAAATGTACTATATACTAATCCATTATTTGATATTATATATTTACTTAAATTATAAACTTTCGTATAAGTTATATTTGGATTTCCATGAATTATTATATAATCTATACTATAATTAAATAAATTTAATAGATATTTTTCTCCAATTACTGACGATGAATAAGAAGGAACTATTTCATTAATATTAATATTAGTAGAGTGAGTATAAAACACAGAAAACGAAAATAAGGTAAGTATAATCATTACGAATATCACTATAGTCTTTCTATGGATAGAGGACGAAGCTACTTTTTCTAAATATTTTATTCTAGAATCTACTGGACTAGGAATATCGCGTCTAGGATAGCCTAACCAGGATATTGGTATAGCCTTTAATGCAGTATATGTAAATATTACAGCAGGAATTATTGATGATATTGACGCTGTTATTAGCGCTTCCCCAATATTTTTTAGTAATGGAGAGGGAGAGAATACGAAAGACATGAAGCCTAAAGTTATTGATAGACCGCTAAATATTGCACCTTTTCCAGCAGTTTTTAACGCAGTTTTAATTGGATTATTACTCTTCTTCTTGATTTCTTCAAAATATCTATAAATAAAAAGTATTGAATAGTCTATAGTAATTCCAAACACTATTGGAGGTATAACTAATCCAGAAATGTAGTAAATCTGATAACCAGTAAAAGTTAAAAGATAAAGCAGAGTATATGAAATTTCTATACCTATTACTGCACTAGCTAATAATAATAAAATAGGTAATAATGAACGTAATAATATTATAAGAAGTGAACCTACTAGTATTATCGTTACAATATCTATTAATTTTAAATTACTTTCAGTGTAATAAGCAGATTGAGCGTATATAGCGAAATGGCCAGTAACTGTTCCATTCGTATTCTTTATGAAATTTTCAACATCTATAAGACTCTCGTTTTTTGGAATTTGAATTAAAAAGAGCCATTCGTTTCCTTTATGAAAGTTGCTTAACGATATGGGTGGAGGTAAAATTCTATTTTTAACTTCAGTAAGCGAAAAATTATACGGATTTACTAGTGCAGATTCTGGAATATATTTCCCTGTAATTTCGTATATTATCTCAGAATAATTATTAAAGGTTTTTAAAAAATTATATGCTAGACTAAAATTGCTATAATTATTAAAAGAGAAAAATAAAATATATGGATCTTTAAATACATATGCGCCAGCGTCTCTTGCTGCATTTAGTTTAGTTTCGTTTTTAGTCAAAATAGAGTATGCTACTAGAAATTCCTTAGCTTTGCTAGAATTAGAATGATATTTATCTAATGGTATTCCAAAACTTACATTTAATTGGCATTCAAAATTTGTGAAATTTTTTAATAGATTATACTTTAATATAGTTAAATTATTATAAATTCTATGAAAAGGTTCTAAGTAAGCTGCAGTAATGTTAGCTAATTCAGAGATTTCTTTTGAGTACTCGTTTTTTGTTTCATTAATATATTGAAATGGAGTTACTATTCTATAATCTTCTAGATATTTAGAATTTTTATCTATTTGATTTAGACTTTGATTGTAATTTCCATTTATTATAATATAAAGTGTAGAATCTTGTGAGAAATTAAAATAGTTATCTAACACACGGCTTACGGTAACGCTGGGATATTCATTACTTAAAAAAGGAGAATCGCTATAGACAAAATAATTCTGAATTTGTAATGTAATAGGTGATAATATAACTATTAGAAGTAACCAAGGTATTACAGTAATTAGGCTCTTTTTCATATATTTCTAGAATAATAGCTGTGAATAAAATCGTTTAGGAAATACCAATTTTATGAATGTAACCCATTTATCTAAAAACAAATAGTATAAATCTATGCAGTCTCTAAAGGACGCATTAAATTTGCTTGAAGAAGTTGAGAAAATAATTTCTAACTATAATCCGTCTGAAGAAGATAAAAAGATACTAAATGATATAATCACTAAAAATATGAAAATAGAGGCAGAGCTATATTCAAAATATATAAATATGAGATAATATCGTAGTGATGCGCTAAATACAAAAAAAGACTTATATTCTTCTTTTTAAAATTAATCTTTTGTATGTTTGAGATATTCTTAGATAAACTAATGCCCTATGGAGAAAAAGTATTAACTGACAGCGGACATGTTGTGACATTTTCCAAGAATTTATCTATAGAATTAAAAAATATGGGTATAAATATTAAGGTTTTTGCAGGAGTCGTAGCAGACTATTTTAACGAAAAATCTAAATCTTACTCAATATATTATAGACCTTTAAATATGGCTAATATGTCTGATATATTTACTAGAGTATTCGAGTTTTGGGTAGTTTATTCTTCTGGCCAAATTCAGTTATTTTCTATAATTTCAAATTATAAAGATATAAGTGAAATAACAATTATAGATCCACAATTAGTAACATTAGAACTAGAGAAAATTATGAACTTCGCTAAAAATTACAAGACAGCTACAATTACTATGCCATTTCTATATAAATTCTTAATATTTGAAACATTTAATTTGTTTAGAAAGAATAATATATTGAAATTTGAAGGGATTATAGAAGAAAAACGTGATGCTAAATACATGATGGCCGTAAATAAGAATCTTAATGCAATAATATGGAAAATAGACTCCACAAAACTGAATTATGTTAACGATATTTCGAGTGAAAAAATTGGTGGAATGGTTAGGAATTTATAGTAAAACAAATACATAATATCGGATAACAGTGACAAAACTTGAAGAATGGGATTGGCGATTCAGAAATCTTAATGAAGTAGAGTCGTTTTTACTTGCCATATTTTCTATTGCAGTAAAAGCAATTCCTTTGTTTTTCCTATTACCCAACTACTCTATTTTAGTAATACCAGCTGTTATACTTGCAGCTACAATAGCTGTTATTCCTCATGAATTAGCCCATAGGCAATACGCAAGAAAATACGGATGCTTTTCAAGGTTTACTTTGAATTTTACCGGATTTCTAGCTACTACTATAATAAATGCGTTACCATTTTTTGGTCTATTATTTCTTTCTGGATATACTCTAATTTCTTGCAGATTTTTCTCTATAAGCAAAGAAATAGAAGGTAAATCAGCAGCTGTAGGCCCATTGACTAATATCATAATCTCGGTTTTATCATTTTTATTAATAGGTTATGTTACGCAAACTGTAGCTTTCTTCTTGTATGAAATAGCCGCGTTTAATGCTGCAGTAGCTTTCTTTAATTTACTACCTTTCTGGATATTAGACGGTCTTAAAGTATTTAGATGGAACGTAGGAATATGGATAGTAATGATAATATCTTCTGTAGTACTAATGTATTTTACTGGTGAATTATGAAACCTAAAATATTATCAATTAAACCTACAATACTGTTAATGATTCTAGTAGCTGTAGGATATATTATAGGTTATGTATTGTCAATAGTTAATTTTATAGATTTCCTTTATTTGATTCAGGTAAACTTATTAGTTTTTAACGGTGATTACATAAGTTTAGTAACATCAATTTTTATTACAAATAGTTTTATAGACTTTTTCTTTAATTTTATATCATTAGGTGTAATATATTATTTATTTAGATCATATGCAGGGAAGATTGAATATGTAGTTTTTCTAATATCTGGAATAGTAGGTAATATTTTGACTTTGTTTGTATTTCCTCCAAGAACCGCATCAGAAGGTGCATCTGGCGGAATATTTGGAATATTTGCTTATTATGTAATATTAGATATGTTGGAGTTGAATAGAATAGATTATAATGGGTTAGGAATACTTGTTTTTGTTTTTATCTTAAGCGATATAATACCAAACGTTAATTATGTTGCGCATATTGGAGGAATAACTAGCGGGATATTACTGGCATTTGCTACCTTTAGGCTTTTAAGGAAAAATAGAAGAATTTAGTATTTATGAATATAATAGAAGAAATTTTGTTAGTATTAGGAATTGTAATGATGCCTTATGGTTTATATGAAGTGGCTAAGGGTAATGGCGATAAACAAGTAAAAATCATTCTAATAACTATATCGTTAGCGTTATTTGCTACTGAGTTCTTTTTAGCATATAGATGAGAATACTAATATCTGGTACTCCTGGAGTAGGAAAGACTGAAATTAGTAAAATATTGTCATTAAAATTTAATTTTTTATACTTTTCTGTATCAAAATTTATTTTAGAGAATAAATTATATACGAGTTACGATTCTAAAAGGGAAACATATAATATAGATGATAGTGTAATACAGAAAATAAATGATCAAATTAATAAAATGGATAATGTTATAATAGAAACAATCTATCCATCTTTAGTAGATAATGCAGATAAAATTATAGTTTTAAGAAAAAATCCATTTGTTTTATATAAAGATCTTAAGGATAGAAATTGGGGAGATTTAAAGATAGCCGAAAACGTTGAAGCTGAAATACTAGGCGTAATAGCTCAAGAAGCAAGAGAATGGTTTAAGAATATTTGTGAAATAGATGTTACAAATAAATCCAGAGAAGAAGTTGTAAAGAATATTATTGATAATCGCTGTGATAATGTAGATTGGCTATCCGATGATAGAATTCAAGATCTTTTAATAGAATTAGATAAGATTATTAGTCTATACGAGAATAAATAATTATAATGAGCTCTAATCCATTTAGAATACAGTCTCCTCAACAGCCTCAAAAACAACCTAGAGATCTTAGAAAAACTCAGCCTCAGATACCAGCAGCAGATATAAAAATCCAAATGAAAATGAAAAATATTAAATATAAAATAGCCGTGCTAAGCGGTAAAGGTGGAGTAGGAAAATCTTTTGTATCATCTAATTTAGCTATGGCATTAGCTGCCTCTGGAAAAAAAGTTGGTATAGTAGATGTAGATTTTCATGGTCCATCTGTTCCTAAGATGTTAGGAGTAAGGGGTCAAGTATTAACAGCTGATGACAACGGGATAAATCCAGTACAAGGTCCTTTCGGGATAAAAGTAGTTTCTATAGATTTCCTATTACCTAGAGACGACACACCAGTAGTATGGAGGGGGGCAATAAAACATACTGCTATAAAGCAATTTCTAGGAGATGTAAATTGGGGTGAATTAGACTATTTAATAATAGACATGCCACCTGGAACTGGAGACGAGGCGCTTTCAATAGCTCAACTAGTACCAAGTATTAGCGGAGCTATTATAGTTACTATACCTTCCGAAGTTTCTACACTTGCAGTTAAAAAATCTATAACTTTCGTAAAAACTGTAAACACAAAAATATTAGGCGTTGTAGAAAACATGAGTTATTTTGTGTGTCCTTCTGATAATAAACCTTACTATATTTTTGGTGAAGGAAAAGGTAAAAAAATGGCTGAAGATATGGGAGTATCGCTTCTAGGCCAAATACCTCTTGATCCTAAAATTGCCGAATCCAATGACTCTGGTGAACCGTTCTTTCTTAAATATGTAGATTCCCCTACGTCAAAAGAGTTTTTGAATATTGCAGATAATATAATTAAAATTGTGGAACAAAATTCTTCTTCAACTTAAAATAAAATTTTTTATTTTCATAAACTGGATATTTTTCTATAATTCCTTCTCTTACTAGATCAGCTAACGTTTCTCTAAATTCCATAGGTGAGAATTCTGTACTTGTTTTTAATATTTCTTTCATAATTTCTTCTGATGTCATATCTCTATTTTTTAGAATTTCAATGATTTTTTCTCTTAATTTATTGTTCATAGGTAATATGTATATATCAATTTCCTATAAAAATTTAGGTCTTGATTATAGATATAACTTTAAAAAGAATAAAAACTAAAATCTAAAAGGTGGAAAGTAAAATGAGTATTGAAATTACTGAAAAAAGCATAATATTGAGAAGATTTCTCATGGTTGCTTATGGCTTATCTGAGGCCGATGTTGATGCATTTATGAAAATAGTTAAGAGCAAGGAGGGCAAGGATGTAGATTCTATATCATCGGAACTAGGAATAAGTAAAAGCAGAGCTAGTCTTATACTTAAAAGGTTATCAGATTCTGGTTTAATCGAAAAACAGAAAAATAGCGGAAGTAAAGGAGGAAGACCAAAATATCTATACTACATTAATAAAGAAGAGGTTATATCTAAAATGATAAGAAGAGCAAAAGAAATATGCACAGATCTAGAAAGTATAATTTCTTCTATATGACTAGTTTAATGCCTTCCAAAAGAATATAAAAACCAAATGCTAGAATAATAATAAATGATGCTATTTTCGTATATTTCGAATACTTTCTTATATACTTGTGCGAGATCAAAGGAAATATTATAACCCATATCAATATTCCAATAAAAAAACCTAATATACTGGAAATTCCTAGATTTTCTAGCATAAAGATTCCTATAGTTAGCCACCAAGTTATCTGATATGGATTAGTTAGACCCATGCTAAGACCAGTTAGGTAATTTCCTTTAGGTGAAGTATTAGTATTGAATTTAGATTTTATAATTAAAGTAGAGATAATAATAAGTAATAAACCTCCTGCTATATAAATTACCTTTAGGAAATCTTTAGGTATGAAATTTCTGAAATTATACGATATAAAATAAAAAATCAAATCCGCTGTCATAGCTCCAAGTCCTACACTACTCCCATGAATTTTTGATTTTACGGACTCATTTAATATTATAGCATTAACTGGACCTGGAGGAGCAGCCATAGAAAGTCCTAGAATGATACCTAACAGAATAGATATCATGATACCATCTCCTTAAATTTTAACGCGTTTTTAATAGAGTAAATATTATTAAAAAGCACATAAGATTCCCCGTTCACTATGCTTTTTAATTTAAGTAAATCTTCATCAGAATAATTATATCTATAGTTAACTTCCTTACCGCCTATTCCATGTAACCTGTAGTATCTGATGTCTCCATATAAAGGCATATGTCTAAAAGGATCTGTTACATGAATAAGTTTAGCTTCCTCTAAAACATGGAGTAATATGTCTTGATTGTTATACCACTCTCCTCTAGGTTCCCATCCATACAAAAATTTTCTATCTAGTATCGAGGAGAACTCTATAACGTTTCTTATATTTTCTGCATTAGGCTTAAATGAAGGTGGAGTTTGAAATATTATTATTCTAGAGTTTAAAACATTGGCTTCTTCAAGTGTGATTTCTAACGCTTTTTCTGTATCTATATTAACCTTGAATGAACCTAGGTTATTTATATCACTAACTAAAAATTTTTTCATTTTTTCATAGTTTTTATTATAAGAATGTGTTATAACTTGTAGTGCTTTAACATTTAGCTCGATATCTCTGTTATAATTTCTCCATTTCTTTAATTTATCAATACTTACTATATCATAAAATGTATCCTGAATCTCTAGAACATTAAATAAATTAGCTGCCTTATAGCTAAAGCCGCAAATGCCGATTTTCATATGTATTAAAAATGATTTTGGGAAAAAATTTAAAAAGTTTATATGTGAGCCCTATTTATGCAGAATGAAGAAACAAGCAAAATAGCTAAAGAAATGTATGAAAGAGGTAAAAGCATAAGAGAAATTGCAAGAGAACTTAATCTTAGTTATTCACGAGTAAGAAAGATTCTTAAAGATTCTGGAGTTCAATTTAGAGGAAAAATTTCTAGAGATCTTGAGGAGAAAATAATAGATCTCGCTAAAAGAGGATATAGTGCCAATAGAATAAGTAAGGAGACTAAAATAAATTCCAATACAGTACTTCGAGTTCTAAAAAAGAACAACTTAGCTAAAACTAAAAGGAAATTAGCTCCAGAAAAAATAGAAGAAATAAAGAATCTGTATAAAAACGGAGTTTCAATTTATAAAATAGCTAAAAATTTGAATATATCTACAAACTTAGTAGTATATCATTTAAAAAAGTTAAATGTATATAAGCCTACTCATGAATCTTATTCCACATCTCAGTAGCTAACTTTCCATCGTATTTAAATAATCTAACTTTGTCTTTTGCCATTTCTTTCATCTGCCTATGTTCCTCTAAAGTATTATTCAGTTTTTCTATAAGTATTTCTTTTAATTCTCCAGTTAGCATTTTTCCTGATCTATATTCTTCTTCTATTTCTCTAATTTTATTATCATCTGGCTCAAAGAAATAGTATAACCATTGAAAAGAGACATCTATTTCAGTGTTTCCGCCCAATTTTCTATGAAGTTCTACTGTAGGCTGTCCTCCAGAGAACGCATATTTCATTATTTTTCTCTCAACAGTTTTGGGATCGTCTGTAAGGTATATAGCGGATTCTGGAATAGAAGAACTCATTTTTCCCTCAGGCCCAGTTAATGGAGGAAGAAATTTACTATGAATTTGTGCCGCCTTGTAATATCCTAAACTCTCTGCTATATCTCTTTGTAATCTCCAATATGGATCTTGATCTATTCCTGCAGGAATTAAACATCTTTTCTTTTCAAACATTGTAGGGGCAATTTGTAGAGCAGGATAAAATATTATTCCTATATTGGACGATAGTTCTAAACCAAATGTAGCCTTTACTTCATTAAACGTAAGTTTTTTAGCTATTTTTGTTGTAATAGGATACATATTTTTAATATATTCAGTATCCTGAAATATAAATGTCTTATCTGGATCAAAACCTACTGCAATTATATCTAAAATATTATCATAAGCCCATTGTCTAGTCTGTTCTAACGTATATTCCTGGTTTCTCATGAATTTTTCATCGTCTGTTATTTCAATATATACATTTACCTTAAATTTGTCTTGGAGCCATTTAGTAAAAATGAACGGTATCAGATGTCCAATATGCATTCCTAAAGATGGAGCTCTACCAGTATAAAGGAAAAATCCTTTCCCATTCCTATAATCCTTTAAAATTAGGTCTAAATCTCTATGTGAGAAAAAAATATCTCTTCTTAACATTACATGTAGGTCTCCTCCTATAAGTTTAGAGATCTCTTCCTTTAGTTCTGGAGTAATTTTTTGAGTGCCAAACTGTATTATTAGCTTATCATAATCTACTTTACCCTTAACTTCCCAAGGAGTTACAGAAAAGTTTTCATTGGACATAAAAAGAGATGATAAAAAAGGAAATAAAAAGCGTTTTTAGGCTTTTTGAGTGAGAGTAGCTGCGGGTAAATCTGGGAATTTTTCCTTCATTTTTTGCTCTGCTATTGTAGACGCTTCGTCTAAAATCTTTCTTGCCTCAGCAGTTGGTGCAGATGCGTATGAGTAACTTCCAGTAAAGTCTCCAGCCTCGACAACTACTTCCTGTAGACCTTCTCCCAATTCTCCTAGTTCTACAGATAATTCTGGCATTACTCCTCTTAATACGCCTTTTAGTTCATTTATAACTCCAACTACAGGTACTAAGTTTACAAACACATCTCCTATTTCGCTTACAGTTTCTAATCTAAGTTCTACTTGTTCCAACGCTATTTGAGTTGTTAATAATTGTCTGCTTATTTTTCTTATTTCTGCTACCTCATTTGCATACATTGCAGCTCTTGCTGTATCTTTGGACATTTGAGCTTCAACTACTCTTTCGAATAATGTTCTGTCTCTTTCCTGCATTCTTCCTATGTATGCGTCAAGTCTACTTACCATAGAACTTAATTGGTAATGAGCTTGAACTATCCTATATTTTAAGGGTTCCTTGCTCTTAAATGCACCCTTAAAACTTTTCCACATATCTTTATCTTCTGATCCTGCCCAATATTTCTGGAAATCTTTTCCAAGCATCTTAATTAATATGTTGTCAAAGAAGTTTTTTAAAGCGGATGACCAGTAATATATATTTATTATGTATTAACGAGAATATAATATATTTGTGAGAGTGTTGCCATTCATACAAGTAGATGAAGATCCAGATTTTGATATAATTCAAGAAGGAAATAAAATAAATATATACGTAGATCTAAGGGGAAAAGGCTTAAATATAGATAATATACAAGTTAAAATAAATTCTAATTCCGTATATATTATAGATCAACAATCGAATTCTACTGTAAAAACTATAAATCTTGCTGCGAATACAAATCTTCAGGTCTCAGAAGTAAGAAAACATAATGGAACTTTATTAATAATATTAGAGAAGAATAATTGATGGTAGAAGAAATATATCTTACTGATTCTTATGTAAAAAATTTTAAGGCAAAAGTTGTTAAGGTAGGTCAAGACGGAGTTATTTTAGATAGAACTGCATTTTATCCAGGCGGAGGCGGGCTTGAAAACGATATAGGAAAATTAGTTATAGACAATAAGGAAATACAAGTGACGGAAGTCAAACGTCAAGACAACGAAATAGTACATAAGATAAACGGAAATCTTTCCGAAGGAGATCTTGTAGACGGAATTATAGATTGGGAAAGAAGATATTCTATGATGAAATTACATACCGCTTCCCATATAATTGCCTCGATAGCATACAATAAATACGGTGCTATGGTAACTGGAGGACATATTTCACCAGAATATGCAAAAGATGATTTTAATGTAGAAGATAAAAACGTATTAACTAATATAATAAATGAGGCCAATGACATAATTAAGAAAAATATTGATGTTAAGGTTTACTTTAAACCTAAAGAAGAAGCATTAAAGATACCTGGAATAGTGAAATTAATGGGCAGAAATCCTCCTGATGTACCTATATGGAGAATTGTAGAAATTCCAGGGATAGATATTCAGGCTGATGGAGGACCACACGTTAAGAATACATCAGAAATAGGACATATAGAATTAATTAAAGTCGAAAATAGAGGTAAAAATAAGAAGAGAGTCTATTATACTGTAAAAAGTTAAGGCCATACCCATTTTATACTTGTTATAAATCTTACGATGAATCCAGAAATTATTCCTATGAAATTGATTATGCCAAGTACTAAAGACTGAAGTTTTAAATAAGACGTAAAAAACAATATTGCCAATATTTCCGAAGCATTACTAAAATGAAACATAATTACAATAATTGAAATTACCACAATATACTGAATAATTCCTCCACTAGCTGACGACATATGAAATTTAAGTAGTCTTTTCCATATGTTTCCTATTCTTTTATCTTTAAATGTCCATACATCGTTTAACATAAAATTGAAAATTATTGAAATTTCAATTGCTAATGCTAATGATATCGATATGGATAAAAGCTTAGTAGTAGATAAAAATACTAGTTCATTCACCAACGTGCCTAGCCCTCCTACTATGGCAAATTTCAGTAATCTCGACATCAAGAGATTATTTATATAATGAATTTTAAAATGCTTTGGTTAGTACTGTAAAACTTATTTATATAGTTAATTAGAGTCTTAAAATTTCTTTTTATTGATATTCTAGCATAATACGAATTTAATCCTACAAAACTACTTGCATCCCTTACCATAAACCCTTTCTTAACTAGATAATCATTTAAAATGTTCACCTTGAAAGGAAATTTAAAGAGTAAATACGGAGCATTGCTATTGTACATTTTATAATTGAAATCAAATTTTATGGAAAGTTTTATTTCTGATAATAGATTTTTTGTATAGCTCTTACTCTCATTGAAGAAGATTCTTACGTCATTAGGATTTACATTAGAAAATATGTAATAAGCAATGCTATTTACTCTCCATGGTATAGCTTTTGACTCTAAGACTTTAGAACTTTTACCTATTGTAAATCCTAGTCGTAAACCAGGGACTGAAAATGATTTAGTAAATGTAGATATTATTAGAATGTTATTGAACTCCTCTACAAGTTTTTTTGCGCTGCTAACTGCACTAATATCTGAAAATGATTCGTCAATAATTAGTTCTTTCCCATCATTGAGCGCACTAACTATTTCTTCTAAACTTATTGTACTTCCCGTTGGATTATTAGGGTTACTGAGTAAGACTTTTTTGCCTAATATACGATATATAAAACTATTTCCATTCTCCTCAGCAAAATAGATTGATGTTCTTGGATATTCTGAAAAATTAGGCTCAGGAACATTAATTCCTTTATCTAACAATCTTATAGCTTCAGTAGCTCCATTAAAAACTCCTATATATTCAGGATTTACGTCATAAATTTCTGCTATATTTTCTTTCAATTTAGTATAGTTATCAGGATAATATTGATATACTTTATATTTTATAGCATCACTTATTAGGTCAGATAGAAAATCAGGCATACCAAGTGGGTTAAGATTAATACTAAAATCATCAATAGTGTTTGGCTTTCCATTAATCCATTTAGCTCCTCCATGTATCATAATCCTCTTTCTCTAAAATAGTTCCCTATAATGTTTTTCTCAGCTCTTCTCAATATTTCGGAAAGATTAGATACACTTATATTTAATTTATCTGCTAGTTCGGAGACTTTTATTTTTCTAGGGAAATCAAAAAATCCTGCTTCAAATGCAATTTTTAGTATCTGTTCCTGCCTTGCGGTAAGTATATCTTGAGACTTAACTTTTACAACCTTTATTATTTTCGTATCTATTTTGTAATTTAAAAACTCCTTAAGGAGCTTTTTCAATTCTGTGTAATCACTTAAAATTACTGTCCAATAGAATCCTTCTAATGTTATTGTTCCATTTAATATGATATAATTTGATAAAATCTTTTCTACAGGATAATTAATATTTAAAGTACCCAAATATTTGAATTTAGAGACTTTAGTAAATTTTCCATTAAGCACAGAAAGTGTTTTCTCATCTCCCTTAAATTCAGCCAAAATTTTAGGAACATTGCTGAAATTCTTTATATCAAGAATAACCAAGGAATTTCTAGTCCAGTCTATATTTTTTGTCCATTCTTCGTGCGGTAACTTAATACTTACATATAAAAGCATCGATATTAAATACTTCGTCTTAATTTTTAAGTTTACGTAGATCAATGCTATGTTAAGAGTTTAAGTAAATTTTATATTACCTTAAATGGTAATATCAAATGCTCCGGTAGTATAGCCCGGTCAAGTTTAGCGCCGAGAGTATGCAGGCCTTTCGAGCCTGTGACCCGGGTTCAAATCCCGGCCGGAGCACTAATTTTTAATAAAATTGAAAGAGAGTTATGTTCTCTTTATTAAGGCGTAAATGGAACGGCAAAGGATATTTTGCAATATTCTTATACCATTTAATAATAGAAGTAAGATTATGATGATTAATATAAATAAATTAGATAATGGACATAATTTCAATTTTGAAGAAAGTCATTAAAAAGTTAGTGCTAAGATATATTGAATAAAATCCCAGATAATATAATGCTTGAAAACGCAAATAGTTGAAGAGCCTTACCTTTACGACATAAGGGGTTTTTGAGAGTCATATATGTTAAAATAAGATCCTCCATAATGCTAATTAACTTACTTTAAGAGATAGCCTTTCTATAATAGTTTAAATACTACAACTGTAACGCTTTTGTTATTATATTAAGGGTTTTTGTTTCACTGAATTGTTATTTTTGAGTACTAGGTTTAAAAGAAGATCTGCTAACTTTCTGTCTAAATTTTTTATACACTTTCTGTCTATTCCAATCATAGGGCTACTTATTATGGCAATTGAGGATAGAATTTATCGTTTAATTGAATTGCTACTTTATGTTGCTAAAGAGGAGAGTGCAGAGGTTACTGCAACTAAACTGCAGAAGATTTTTAATATTGCAAGATCTTTCGAAACTTTAAGCAAAACTTTTCTTGCAGCATATGGTACATTATACCGTGGCTAACCTGATATTTTTTGATATCAGGCATTTTCCAACCTCCTAAACTTCTCTAACTCAGTAATGAAAAAATTGACAGGAAGAGTATAAAGAAGACTAATAGGTACTTCATTTAAATGAAGAAAGAGGAAAGGGTTTAAAAATGGAAAGTTAACCATTCCTTAAAAGTCTAATTATGCTTTCAAATATTACCATTACACTTAGCATTCCTAAACCTATGCCAAGAAAATAAAACCATAACGTAGCGTACCATGGCGGTGGAATCTTAGGACAGAGATAAAAAGAACCAAAGTGAGATGAACTTGCATAGACCGGATTATTGATATATACTGTATGATCCATTGATAGTAACCATAATCCAATACCGATTAAAACTAAAGAAGACAGTATGATAACTAAACTTCTTTTATCTGCCTTTCTTAAGGAAAAATGAACAGTCAATAAGGTAGAAATTATACCTGCAACAAGTATTAGAACTGAAACCCACAACATATAAAAAAAGAAAATTTAACTTTTGGTAAAAAGTTTATTGGATAGGCATATACGTAGTGTTGTATTGCAAACCATTGTGATATTATAGCTAGACTTAGAAGGCTTATCCACTTCATTGTGGTTGGGAAGAGGGAAAAAGGGTTTAAAAATGGCTGAATAACTGCAATAAATAAGGTAATGTTAGCTCATATGTTACTAAGGCTATGTATAATCCTGCTAAGAATTTAAGTAATAATAACTTCAAGTTTTCAGATAATAATTTCGTTATCCAGTAAACAGCCAACAACGATAGAACTTTAATGCTTATTAAGTCTGGAAGAACTAGGCTTCCATTACTCTCAACAAATCTTGCAATAGGGTTGAGTTCGAACACATAAGCATCCACATTCACTTCATAATTATCAGTCCATAAAATATAACTATAAATTACATCAAAAGCACTGCAAATTATTATAATGAGCCAAAGAGTCCTAATTTTCATAAGATCACTTAACTTACGCAAATATTATGTTTTTTGCAGAGGTGGTTTAGAAGGGTCTCAGTATCCTTAAATCCCTTTCTGCATATTGGGCAAACAGTCGTATGTTCTGAATATCTTATGTGCATTTTCAATGCCTCACTTGATGAAAAAGGTATAAGGCAGAGGGGGCAAACGTAAGGTGAAACCGCTTTACTCTGCATTAATCTGTATAAATAGTTTGTTTCATTCAGTAAATCAGGCCTATAAATGAGAGTCTTTACTATCGCCCTAATGACCCTCTTTTGTTCCGGAGTGAGAGAATGGTAACGCGTTAATTCCTCCAATGATACATGAATCATTATACCCTTATGGTTACTCAGGTACTTTTTAGTACCTGACTTAACGTTATTGGCGTCTGTCATTTTTTCACCCTCCATATTGTGTAGATGTTTGAGCAAGTTACTGCACCTTCAAGAACTGTATCACCGTATATTACCCACATCGGTGAGAAATGGAAAACCATTAACCAATCTGTAGCAGTCAGCAAAAGGAAAAGCAAAATATCTTCTTAGAGGTAATCAAGGCGGTAACAGGAAATACTAATAATCCCATGCTACAGTTTCATTTAAGTTTTTAATGTTTCGTCAGTTGTAGAATCTTTTAAATTTAATTAAAAATAAGCAATGTAACTATGGCCGAATCTGATATAGAAAAAAGGATAGCGTATTATAGATGCCAAAATAAACCAGTAATTTATATTGCAAAAACATTAAATATAGACTGTCAGAGTGTTAAATATATTCTGAAAAAATGGAAATTTCTAACTAAGGAATATATAAATTCATTAACTCAGTGTGAGAATTCTTTTCTAAATCCTGACATAACCGGTCTTCTTAAGAGTTCTGACTTAACTTTTGATTATGCTAAAAAATTACTTTCAAACAAATATGTTCTTAATTATATTTTTCTAAATAAAAACGAGAATCATAATAGATATATGGATTGTCTTCGTTATCATATTATCCTTTTACAAAAAAATATGTGAACTATTATAGAGGAAATATCTCTAGATTATAATAAGAATTTTCTATTTCTATATGTCTCATTCTTTGTATCGAGACTTTGTCTAACTACATTAGTGCTTCCACTAAGTTTTTGTCTTATTTCTTCTTATTTTGCACTGTCTAAATGTATGAGAACTTCATGGGAATACTAATATTATATGAATAGCATTAAAAAATATTATAGCATTATTAAGTTTCAATAGACAAATATGTTAATTCTAGTTTAATACTAATCATATTTAATTATTACCATTATTTTTACAATAAATGATTTTTATGTAATAAACGCTTCACTCATTAACGCTGTAAGGTTAAATATAATTTACTTATGATAATCATAAAGATTATTTTGTACTCTAATGTTAAGTAACTTAGGTGCTTAGGAATAACTATAGAACGAACTAAATTAATAAGCAGGGCTCTTGAAATAATTAAAAAGGCTGAAGAATCTAATATAACCTTAAGGCTAATTGGGGGTGCTGCAATAGCATCCATAGCAGAAAAGGGGAGTGAGATATTTGCAAGGAACTATAAGGACGCCGATTATTTTGGCTTATCTTCCCAAAGGAAAGAGATCATTACATTTTTAGAAAATCTGGGATTAGAGCAGAATAAGAGGTTTAACGCTTTACATGGATATATTAGATTAATGTTTTACGACTCAGTTTTAGATTCTACTATAGATGTATTTTTAGACGAATTTATTATGTGCCATAAGCTGATATTGAAGGATAGATTAAAGTTATATTATCCTACTATTCCCCCTTCAGATCTCTTGTTAACTAAAATGCAGATAATAAATCTCACAGAGAATGATAAAAAGGATATAGCAGCTCTGTTATACGATTTTGAGATTGGCAATAAGGATGAGGATAAGATTTTAGATGCTAATCATATAGCAAGTATTTTATCTAATGATTGGGGATTTTATAAAACTTATACTATAAATCATGATAGGATGGTAGATTTCCTGAAAAACAGTGAGTATTCTAATATAATCTTGCCAAAGTTGCAGAAAATTATGGAAATCATTGAACAGTTTCCTAAATCAATGAAATGGAAGATGAGAGCTAAAATAGGAGATAAAGTGAAATGGTATGAGGAGCCAGAGGAGGTTAATACAGACTTCAAAAAGTAGAGCAGGTGCGGGGAGTGGGGTTTGAACCCACGCAGGCCTTCGCCAATAGGGCCTAAGCCTATCCCCTTTGGCCTAGCTCGGGCATCCCCGCATACATCTTTTTTAATTTTTGCTATATAAAAAACTAGTCCTTTACAGTTTCTAGAATAGAAACTACATTCCAAATAGATATTCTTGTATGTGTAGGCATATTTGGATCCTGACTTATATCTTCTAAGATACCTATTGCGTTAGCTGCTCTTACAGCAGGGCTAGAATTTTCGTCCTGCAAATTTCTTATTGCGTCTGTTGCTGCTCTTCTGATGTTCCTAGGAACGCTTGTATCGTTAACTATTTTTTGTAATAGAATGACAGCTTGTTTAATTTTTGCTTCATTATCGTAGAGTGTTGCCATAAACTCATCACCAGTTATTTTTTTATATACTCACATTTAGGTTTATTTTAGAGTAAAAATGAGTAACGATCAATCTATTAAGAAAGGAGCTGAGCTTTTAACTCAGGGGGCTACGATGCTTAATGAGTCTTGTCCTATTTGTCATTCCCCTTTATTTAAACTTAAGAATGGAGACGTTATATGTCCAGTTCATGGTAAGGTTTACTTAGTTAAGTCTGACGAAGAGGAGAAAAAGGTTAAGAAAGATATAGTTCTGAGTTCTACGGAGGACGAGCTTATAAATAATTTAAATTATCTGTTAAAGAAACTTAGAGATAGTCCAGAGGATTCTGATGTTATGATGCAAATAATAAGGTATTTGGATGCTATAGAAAGACTTAGGAGGATTTTAGGTACTTCTCAACAACATTAAATATTTCCGTAGTTATTGTTTCAATATTATTCTGGCCATTTACTATTATTAATTTGTCCTTTTTAGCGATTTCCAAGTATTTATTTCTTACATTATGTAAAAGTTTTATTTTCTCCTCAAAATTGAATTTATCATTTTTATTTATTCGTTGAATGGCTATTTCTATTGGAACGTCAATTAGAAACGTGATAGTAGGTTTAGGAAACTTAGAGTTAACTTCTCTAATCCATTCTTCGTCTATTCCCATTACTGATTGATAGGCTATTGATGAATAAATATATCTATCTAGAATTACTATATCTGGATGTTGGTTATATATCCAGTTTATATGTATAGCTCTATCTGCTGCGAAAAGTAAGGTTAAAATTATTGGATTTTTCCACCCATTATCCTCTATCATTTTGATAATGTCCTGAGTAAAAGGCTCAGCTGTAATAATTACATTTTTGTTATGCAACTTCTCAAAAAGTTTTTTTGCAACTGTAGTCTTTCCAGCACCATCTATTCCTTCTAATGCTATCAATAACATTTTAATAATCTTAATGATCTTTCTTCAAAATTATCATTTAAGCTTATTGAGCCTAATATTACTCCGTCTGCCTTCTTTTCTGGAGTTAATATTTCGATTTTTTCATTTATATTTCTAATTATGCCTGCACCAGAGATTTTTCCAGAATTAAGTAAAGCCACTAATGCGCCTTTAATAATTGATTTATCTATAAAATATCCGTAACATTCTCCATATTCAAATTGCAACATATCTCCCCATGCTGTAGATAAATTATGATTAAGTCTTGATCCGAAGACATCAGTATAATTTACTTCTAAAATATGTGAATCCCTAAAATATTTTATGAATTTTTCCCTTCTAGATCTTATTCTTTCTAGCTTGTTCTTAAAAAGAAATCTAGGTATTTTATTGACAATAACTATTCTATTTTGAAACATAGACGGTAAATCATTTTTCAATCTTTCATCGAATAGTAATATATAATCTGGATTAATATAATAAATAAGTTCTTTTTTATGCATATATGCCTTTAATCCTCTTACCCATCCGTCTGTATCTATAACGTTTATTTTAGATTTAGTTTTTTCGTATATTTTGCTAGTTTGTTCTACGTGAAGTCTGGGATTGTATGAAGGTGAGGTATACCCATAAAATTCAGTGTAGTTAAAAATACTATTTTCAGGAAAAATTTTAGATGATATGAAAGTAGGTATAAAAATATCTGGCTGTCCTACATCAGCTGTTAAATAAGTTATGTTTTTTGTCTTATTAATGAAGGTTTTACAAAAATATGTTTTACCGGAGTCATTACTACCAAGAACTATAGTAGTTCCTTCCGTTTGGATTATTTGTGAAATTATTTCATCCCAGCCTAAATGGCTTATCTTCGCTAGTATGTTACAATTTGTCTCTATTTCTGCAATGTTATTGGTAGATACTGAAAAAGTTCCTTTCCCAATAATAGCTATATCGCCGAATTCTTTTCCTTGTATAAATATATTACCTGTTAATATTTTTATTTCACAAGGTCCCTCTACTATTATATCTTCTTCTTTATTTAGTTTCATGTAGTTGACCTTAACGCTATAAGATACGCTGCTCTTATGTCCTTATTTTTTATTTTTACGTAAGGATTTTTAGAACTTGTTTTTCTTTCATCTACTCTTTTTACTCCAGGAAATTTTAAACTAAGTACCTTATATACTAATTCTCCTAATCTATTTCCTGTTCCGACTCCAATATAGAATCTATTGTGTGGAAAACTTTCCAATATAGAATCTATTGTGTCCTCTACGCTTTCTATTTGGGTTTGCTTAGTGTCTATAAGAGTCCCATCTGCAACAACTGCTATAGTTAATCTAAATGAGTTAGTATCAATTCCTACTAGAACTTCATTAAATTTTTCTTTACCCTGTGCTTCGCATATCGCCTTATTTATAGCTAATTCAATATCTTCTTCCTTATTTATTACTATATCTCCACTACATTCTGAAACTTCTATTTTAGATGACATCGAATCTAACAGATTTTCTCTCTTTTTTATTTCTTTAATTGTTAATGGGAACAATCTTGGGTCATTAATACGCAATAATGGTTTTTTAATACCCACACTTTATTATTAAAATATAGTGGAATATAAACATTGCAAAATAAGCGAGTTCATATTTAAAGAGAGTAATCTAGTGTCTATATATGGAGCTTCCGGTAGAGGAAAGACTATAATAGGACTTCAAGTTGCTAAAGAATTTTCCAGGTCTATTTTTATATCTTCAGAAGGTTATATCTATAAATCTAGAGTTTCGAATATATATTTTAAAAACGTATTATTTGCAGACGTATCTACTTCATTAGAACTTATGAATTCTATTTTAAAAGCAATGTTATTAGAACCTAGTGTAATAGTAGTAGATACTATAAACAAATTTTATAGAATTGATAAAAAATACAAAGGTCTACTTTACCCTTTAATGTTATTAAGTGAGTATTCTAAATATGGCAAAGTTCTTCTTTTTTGGCAAGTTTCTATGAATAATAAGGTAAGTGGAGAAAAATTTATGCGATATTTTTCTGGCGATGTTCTTAGATTAGCTAATGGGAATATAATAGGAAATTTAAGAAATTGTAAATTCAAGATTAGTGAGGATGGTGTTATAGGTTGTTTGTAAGCTTGCTAAGTCTTCTTATCGGTTTTTCTTTTTATATTCCGGCATTTATAGCTAATGGATCAGGTCCTTTTGTAAGGAAAGGAACTCCGATAGACAGAGGAAAGAATTTTATAGACGGCAGAAGAATATTTGGAGATGGTAAGACATTTGAAGGTTTATTAGTAGCATTAACCTTTGGAACTACTGTAGGTTTAATTCTAGCTAAGTTTTACGGAAATTGGTGGATCTTTGTTTCGTTTTTCGAATCTCTATTTGCAATGTTTGGAGATATGAGCGGAGCTTTTATTAAGAGAAGACTTAATATTCCTAGAGGCGGAAGGGCAATATTATTAGATCAGCTTGATTTTGTAATAGGAGCTACAATAGCTCTAATTATTCTAGGTATACAGATAAATATATATCAATTTATATTTGTAGCCATCATAGCTTTTCTATTGCATATAATGACTAACGATATTGCATATCGATTAAAAATAAAAAGTGTACCATGGTAAGTTATATTATGGCAAATAGTAGAAGAACGTACAGCCAAGTATTGAATACCTATTTAGTAATAATCTTGATCATAATAATGATGGTAGCAATATTTGGAGTATTAGCTGTTCCTTATTACATTTCTCCTATAACGTATTTTAATGGAGGAGTTCCTCAAGCTACTGGATTATTAGTGCTTGGAAGCATACTTGTCGCAATGCTACTCTCCGGTATTTATTTATTAGAAAGAAGGCAAATAGAATTTGGATCTTTTTTAATTATATTTGCAGTTATGATATTAGCTATACTTATATGGGAACAGTATGGAATAAGTTCCGTGAACAATATAATTCACAATATATAAAAATACTATCACTCTGATAGTAAAATTTAAAATATACGTATAAAGTTTATTGAGTATGGAGCCAATAAAGGTTAAGTTGACTAGTGGGAGAGAAGTAGAAATAAATGACGATGCTATAAGGTTACTAAATAAATATGTTAGGACTCAAATAACTTTAGAGCAATTAGCTAGAGATCTTGGATTAGCTGGATGGGAAGAAGCATATGAACTTATAAAAAGTGTGCCATCATGGGTAATGTGGACTCCTATTTCTATTTACAAGAGACTTGCTTAAACTTTCTTAAAGCATTCAGTTTTTACTTCATAAATTAAGCCGCTCTTTTTCATGTCTGAGACTATTTTTTCAGTACTTTGTTTTTCTATTCCTTCTCTTTCTGCTTCTTTTGAAATTTCTTTTATCTTAGCGCACTCTTCATTTTGTGCAAGCGTATCTATTATTTCTAGTATTTTAACCATCTTTTCTCTTGCACTCTTTGGTTTACCTAGCATTATAGTATCTATATCTATACTACCAGACTCTACATCTAGACCTACTTTTTCCAAGAATATCCTCATTATATTTATTGCCCTTTCTGCGTCATCTCTAGTAGCAACTTCTCTCAGTCCCATTCTTGCATATGCCTCTGTTAATCTTATTAAGGCTTCAAGCTGTCGTGGAGTTATTAGTATTGGAGAATCTGGCGTATCAGAACTTTTTTTCCTCATTTCCACATAGAAATCTGCCAATAGTTTTTTTGCTTCGTCACTTAGTTGAGGATTAACGTATTTTCTAGAAAATGCTATATATTTTTTCAATAAATCTACATCTATGGAATTTTTAACAGATTTTCCTCCATGCATATCTAGAATGTGATTTGCTAATAACTGATCTTCTGAGCCAGGCTTATCTACTAAAATAAATATTAAATCAAATCTGGAGAGAATAGTAGGAGGTAAATCTATATTTTCTGCTATTCCTCTCTCTTGAATATACCTTCCAAATTTTGGATTACCTGCTGCTATAATAGTTGCTCTAGCATTTAGCTTCGCTACTATACCTGCTTTAGCTATAGATACAGTTTGTTGTTCCATTGCCTCATGTATTGCTACTCTATCTTCATCTTTCATCTTATCTATTTCGTCTATTACGGCTATCCCACCATCTGCTAGTACTAACGCTCCAGCCTCTAAATAATAATCTCCAGTATTTTTTTCTCTAACTACGGCTGCTGTTAAACCTGCTGCAGTAGCACCTTTACCTGTAGTGTAAACAGATCTAGGTGCTACTCTAGCAGCAAATTGTAGTAATTGCGATTTTGCTGTACCTGGATCACCTATTATTAGAACATGAATGTCTCCTCTTATTCTAGTACCGTCCTGCATTGTCCTTTGAACTCCTCCAAAAAGTGCTAATCCTATGGCTTCTTTTATTTCCCAATGATCATAAATTGAAGGTGCTATTGATGACATAATTCTTTCCTTTATCCAAGGATCTTTAGCTAGCTCTTGGATCTTCTTCTTGTCCTCATCGGTTATTTCTACCTCATCTAGAACTTTTTCTGAAACTTCTATACTTATTACTTTCATATAAACATCGAAAACTGTTCTACTGCCTCTTTTTACTATAGAATCTTGCTTTATCATTAATATTCCAGTTAGTTTTACTCTATCTCCTGGTCTGGCCGAATCTACTAGATCATCTTCAAGGATTGCTTCAATTTGTCTTGGTAATTGGCCTGGTGGGACTTCTTCAGGTCTTTCTTGAAGTATAACTTTTTGCCAATCTATAAGTTTTGTTTTTTCTGGAACTATTTCGAATTGGCCTATTTTTCCGCATCTAGGACATACGGAAGGAGTAGTTATTATATCGTTCATTTCTCCTTCTTCAGGCCATATAAATTCTTGGTTACAATCTGGATGAACATGCTTAAATGTTACTCTATATGCTCTTTCTTTAACTGGAGTTTGTTTTGTTAATATTCCTTCTACACTTATGATTTTATTAACATCACTGCTTCGTATTTTCCTTAACTCTATTACTCTTGGTAGATTTATTATTCTGACATGAACTTTTTCTACTTCTAAAGGATACGAGTTATCTAACTCCTCAATTATTTTTATCATTCTATCTTCAAGTAAAGTTAGTGACTGTAAAGGATTCAATATAATTTCATTAGCAATTTTTTCATTAAATGAAAATAAATCATTAAAATCTACTATTATACTTTTCTTTCTATATGCTATGATTTCATTAATTTGATTCATGTACTTAAAATTCCCAGGGATATCCTGGAAATTCTTCAAGAATTCTTCAAAAACATCTCCTATATCAACTTGAGTTTCCAATAATATCACCATAATACTTTCTTAAGATTTCACTTATAGTTGAATACACTAAAAATTCTTCTTTTGTCATTTTACTTATAAGTGTTTGTTCATTTATATTAAGCAACGCTAATTGTATTATTTTTCTCAATCTAATAGAAGATAATTCCTTTATTATCGCGTATACTTTTCTTAAACGTTCTAGATCTTCTATATTACTTGAATTTTTTAGATCATTTATTAGAAATTTTATAATGATATAGAAATTATTATAAAGCTGGATAATTGATGCAGGCGTATTTATATTTTGTTTCTCTTGGAATAGTATTCTTCCCATTTCATCGATATTAGGTCTATTAACCTTTGTTTTTCCAGACTTTTCTAACTCTTTAGCTAACCAGAAAGGTATTTCATCTTCACTTCCTTTATATAAGGAAATTTCATTAAAGCCTAAATCTATAGTTCCAGTGTCATCAAGTACTATTACCTTCTCTTTTTCTACCATAAATAATCGATTTATCGCCCTTAGTTTAGTATTAAACATAAGTTATTTTTTATGGTAAAGGTTTTAGAACTATTTTGGCTTTATTCAGTATTAGAACTTATATGGAACCTAAAGTTCTAGTTACTACTGCGTCTAATAAAGGCAATAAATGTGTCGTAGAAATATTAAATAGAATATTTATAAAAGATTCTAATGCAATAGCAAAAGAAATTACACAAAATGTGATAATAGTAGAAACGTCGTTATCTCCTATAGAAACGTATGGACTAATTATTTCTGCTCCTCCAGCATGTGCAAAAAAGATATTTCCAATAAATATGATATTACCTTTAGATACCAAACTTATTATTTGCAAAGTATCAGAATGTCTCACAAAACTCCATATATCGAAATTTTTTGTTAATTGTTATGTAAGATCAGGGAATTTCGATTGTAAAATGTTAGAAATAGGAATAGCATTAAAATTAAAAGGACTTCTTAGTGTTGACTATAAAACTCCTGACAAGGTAGTAAATCTAAATATAATTAAAGATACAGTTTATGTTTCTATATTAAATAAGGATCAAGAAAAAGTTTCGGTTAAGTCCCTCGGTTAGAATATATAGTAATACTTCGTTATATAACGTATAGGTGAAAGTTATGGCGACCCCTGAAGATATAATTAATTCAGAATTAGAATCACCTTCAGTATTTAGGAATAAAGGAATTCTTTTTCCAGATTACATACCTAAAAGACTCTTACATAGAGAAGATAAAATACGAGAGTTAACTATAGCGTTTAAAGACATAATAAATGATCCAGGAAATTCTTCGATAAGAGTTGTCATTTGGGGAAGAACAGGTACTGGCAAGACAGCAACAACTAAATCTTTTGGACAAGGATTTAAAGGAATAACGAATAATAGAGGCATAAAAACCGAGTATATACATATTAATTGTCATAGACAAAGAACTCTTTACCTTTTAACGCTAGAAATTGCAAATATCTTAAAACTTCCTATACCAGTACGAGGATTATCCTCACAAGAAGTATTCAAGGTTATTCATGACTATTTAGATAAGAGAAATATGTATATAATAGTAACTCTAGACGAATTTGACTATCTAGTAAATACGTCTCCCCAAGAAGACGTCTATTTTCTTGTAAGACTTTATGATGAGATCTCTGCTGCCGTTAAAAGAATAAGCTATATTTTCGTAGTTAGAGATCTTTCCACTATTAATTCTCTAGACAAAAGTATTAAGGACCATATTCTAAGAAATATTATAGAATTCAAGCCTTATTCATCAACAGAATTATATGATATATTGCAAGATAGAGTTAGAGAAGCATTTAATGAAAATGCTGTCTTAGATGATGCAGTAAAGTTTGTGGCAGATATGAATGGATTTGACAAAGGAGGAAGTGGGAATGCCAGATTATCTATAGAGACATTGCAACTAGCAGGTGAAATAGCTGATAGAGAAAAATCCTTACTTGTAACATTAGATCATGTAAAACTAGCAAATTCTAAATTAAATCAAGAGGCTAGCGTAATATTTGATGAGATAGGCGATTTGGAATTACACTCTTTATTACTTATAAAATCGGTTAGTAATTTGAGCAAGCGATTTAGAGATGAAGCTTTTTCTATGGGAAAAGTTGAAGAAGAATATCAACAGATTTGTAAAGACATTGGAGAAGAGCCTAGAAGGCATACGCAAGTATACGAGTATGTTAGAAGGCTTAAGTTAATGGGCATATTCAATACTCAGCAAAGTGGACGTGGAACTAGAGGAAGAACTACATTGATTTCTTTGTCAGTTCCACTGTCTCAAGAATTTGACGATTATATAACTAAGCAAATAAGGGGGAAGCTAAATACAAAATACACTTAAACTTCAGAGAATTAAGATTTTGCTTACATTAATGCAATATGGTGATTTGAGCCTTACTAGGCTTTCTAGGCTCTCAAAAGTTAGATTTTCTGTTTTAAAAAGAGAGATTTTAATTCTAAAAAACAAGGGATATATAGAAATTATAGATAGTGGTAGAGTTAAAATAGCTAGGTTAAACTATTCTAACCAAAAAGTTATAATTCTTAAAAATCTGCTTGAAGAACTTGAGGATATATGACAGCAAAAATGGTTGATATATCTCCTAAAGATATAGTATTGCGAGAAGCAATAGCAGAAGGATTCATAAAATTAAAGAAAGAAACAATAGAAAGAATAAAAAAGGGAGAAATTGAAAAAGGTGATGTCATTACTGTAGCTAAAGTAGCAGGCATTATGGCAGCTAAAAAGAATTATGAATTGCTTCCAATGTGTCATCCTATACCTTTAGAATATTCTGGATTAGAAATATTTTTAGAAGAAGAAGGAGTGAGAGTAAGATCTACAATCAAGGCTCATTATAGAACAGGAGTAGAAATGGAAGCATTAACTTCGGTTGCAGTGGCTTTACTTACAATATGGGATATGGTAAAACAATACGAAAAAGACGAAAATGGGCAATACCCTACTACGATAATAAAGAATATTAAGGTTGTAAACAAAATTAAGTCTTCTTCTTAGAACTGCTGTATCTTCTATATGTCTTCTTTTGAGAATATTTTTGTGTATACTTAGTTTGTGTTTCTTCACTACTAGTTTCTCCACTTATTGTAGATAAATATTCTTGTTCTTTAGGAGTTAATTCAAGATTTTTCGAAACTTCCTTTATTTTTGAGTATTGTATGAAATATGGAAACACATCGTTTAGAATCTTATCGCTAGATGTGTGTATTTTTTTACCTATTTTTTCAAGTATTGAATTCTTGAGATCCCTATTTTCTTTAGACTTATATAACATCTGTATAACTTGAGGGAATTGATATTTTTTCCATTTAGGCTTCCATCCTTGTTTGAATTTTTCCGTTTCGGCCATAGCTACGCCTGGTCCCATTAAATCAAAAGTGTAACTAAGTAAATCCCAACCAGACGTTTTAGCCCTATTTAAGAATATTGATGCTCTAGATAACGCGTCATAAGCCCTCCAAATATCTTCCAAATTATCATATTGTATTGGTATATTTTCAGAGAACCATTTTATAAGTAAATCATAATCAACTTGTGAATTTGAAACGGCGTTCTTAGCTTGCCACACATATTTAGCCCAAAACACGTTTCTTACAGTCTCAAATGAGTCTAGTTCTCTTTCTTTTCTTTTTGCTATCTCGCTAACAGTAGTTTCTGTAACCTTTTTATATCCTTCAGCCACTGATTGTAGTAAATTTATGGCATATCTAGCATCTCCTTCACTAATGTCTATTATGTCGCCTAATGCCTCATCTTCGCATTGTATTTTTTCCGAGTTACAGATCTTAGACAGAATTCTTTTTAATGCATATTTTCCTAGTTTTTTAACTTCTATCATTTTAGTAGCGTTTCTAAGATCTCTAAGGCTTGGATCCCATGGATTATTAGCCGCCATAATTATTGGATACTTAGATTTTTGTATTAGTTCTAATATGGCAGGAATTGCGCCAGAATCTTGCTTAACATTTATTCCATCAACTTCATCTAGAAAAATTAGTTTTCCTCGTATGCCAAAAAGACTGCCACTTAAAGCCGCTTTTTCTGCAATATTTTTTATTGCAGTTATATTTCTATTATCACTAGCATTCATTTCCATTAATTCTAATTTATAGTCATTTGCTACCGCTATAGCTATAGTAGTCTTCCCAGAGCCAGGAGGACCATAAAGCAGTATAGCTCTATTTTCTGCCTTACCTTTGAGCCATGATTCTATCCATTCTTTTACCGAATTTTTAACGTCGTCTTGATTTTCTACATCGTTTAAACTCTTTGGTCTATATTTTATTATCCATGGTAAATTACTCATTATTACTACCTAGATATTTATTACCATAAATAGCTATTTTTGCTAAAAGTCCAGAAAGTTGAATTTCGTCATCTGCACCTTCTATTATTCTAAACTCTATTTCGCCTATATAATCCATTAATAATACTCTTAATTCTTCTGGTATCTGAAGTTCATTAGAAGTTAATTCCCTATGCAGCTGCTTTACTATATCTTCACCTGATAGTCCATAAGTTACTAATAACGATCTAAGTTTTTCTCTAGCATCCATGAATTTACCTTTTAGAGCAAAATTTAACATATCTCTCACTTCTTTAGGCTGTGCAAATCCTAATACCTTGTAAACTGATTCTACAGTAACTTTACCATAAGCCGACGCAGCTTGCAAAATATTTATTGATTTTCTCATATCTCCCATAGTCACATCGTATATAGTTTCTAAGGCTTTAGTATCAAAGTCCACTTTCTCCTGTTTTGATATATATTCTAACCTGCCTACTATGTCATCCTTCTTTAATGGATAGAATCTAAACAGTGCAGTTCTAGATTGTATAGGATCTATTATCTTACTAAGATAATTGCAGGCCAGGATAAATCTGGTAGTTTCTGTATAAAGTTCCATAGTTCTTCTAAGAGCTTGTTGAGCATCAGCAGTCATATTATCTGCTTCATCAAGAAGAATTACTTTAAATGGTACATTTCCTGGAACCATTGTCCTAGCAAATTCTTTCACCTTATTTCTTATTATGTCGATGCCTCTTTCATCGCTGGCGTTAAGTTCTAAGAAATATTGTAGATAGTTATCTCCATATAAATCATGTACCAGGGCAAGTGCTGCAGTAGTTTTACCAGTACCTGGTGGACCAGCAAAAAGTAAATGTGGCATATTTTTCTCCTGAGCGAATCTTTTTAATCTGCTTACTATGTCCTCTTGGTCTACTATATCATTAAGAGTTTTAGGTCTATATTTTTCTGCCCAGAGTACCTCTTCGACTATTTCTGACATATAAAAAGAATGTGATTTATAGGAATAAAAAATACAACTCTTCTTATTTTCTCTTATATTTTCCCATTAAATTGCCAGCAGATATTATATGATTCTCCATTAGAGATTTAAGATTGTCTGCAGTAATATTTTTCCTTAAAGGTAATTCCGAATCTAACGCATAGACATTAAAATAATATCTATGAGGACCATGAGATTTAGGAGGGCAAGGTCCATTATATCCTATTTTACCAAAATCATTAACACCTTGAATACCAATTTCACTCTCCATTTCCTTTTTCACATTTTCCGGCAATGAATTTCTTTTTATATTATATATAACCCAGTGAATAAATGTTCCCCCTGGTGCATCTGGATCTTCAACTATAATAGCGTAAGTTTTAGCGTTATCTATTTTTTCCCACTCCAATGGGGGAGATATATCTATTCCATCACAAGTATATTTTATTGGAATTTCTTCTCCGTTTGTGAAGGCAGATCTTATTTCCATGTAAGGATTTTATAATTAAAAATAATTAAGCTTTCTTATTTGGATAGATCTCTTTCTCTATATGGCCTTGTGCATTTATTTTAGTTACTATAGCTCCTGTTCCAGTGAATGAATCTCTTTTTATTGCTGATAATATTGCTCTACCAGCAAGATCCATAGCTTCGTCTTCAGATAAGTTTTCATTGTAGTCATCTTCTAAGACTCCCATTGCTACTGGAGATCCAGATCCGGTAGCTACATACTTTTCTTCTGTCATATCTCCGAAATAATCCAGGTTATATAATCTTGGTGCATCATCATACCCTCCTATCAATATCTGGACAACATAAGGTAGATATTTGGTTTGAGATAACACATTAGCCAGATAAGTAGACAAGGACTTAATACTTGTTGGTCTATTACCTGAGATATAATTAAAATGATATAAATTTTTTAGATAGTTATATATGAACTGTAAATCAGCTACGCTACCTGCAGTAGTTACTCCTATTTTATCTGTAATGTATAATATTTTTCTAACCATTTTATTAGCAACAAATGATCCAGCACTGGCTCTTCTATCTGCAGCTAGAACTACAGCAGTTTTTGTTACTAGACCGACGGTAGTAGTTCCTTTTAGTATTTTAATTTTGCTTTCACTTTCCATACTTACCACTATATATTCTCCATATTTAGTATTTGAAACTTGCTTAACGTAAGATCTTTACTGGATTAAGTTTTTTTCCTACCCAGTTAAATAAACTTCTAATGAAGATACTTGTTAATGGTTTACTTACATTTGATTCTGGTAAAACTACATTTGCTTCATATATATTAAGCGAATTAAAAAATACTGGATTGAATTTTTTTCCTCTTAAACCTATAGCTGGTCATAATGGATGGTATAGCTATGAGACGTTATTGAAAAGTAAATCTATTAATGCTCTTGCAGGTAACGATGCGTTGAAGTATTATAATATAACTGGAATTGATGTTAGACTTATAAATCCATTTGCTGTACTATTATTTCCAGTAGATCTTGAGAAATTAGACTATAAAATATCATTTTATGAACAACTGATGGAAAATGGATATCCAGTTATGATAAGATATACTGATGTTAACGGCAATGATTATTATTACGCTGTAGACCCCGGACTAGTTATAGACTCCTTAAGTGATATTTTGGAAGATCTATATAATACGTTTAAACCAATTATTGTTTCGAATAGGTGTATTAGGAACAAAGTTAATGAATCAAGCTATATTGTGGATAATAATGTGAAAGAATTTTTAAAAAAAGATAATATTATAATAGAATCATATAATGATGCTTTAGCTCCTACGTATTCATCATTAGGCGTTGATGTAATGTTTGCGGTAGCCCCAGGTAAGGTATTTATGATAGATGGCGATAGATTAAGGAAGATACTTAGCTTATTTACATTACCACCTTGGATAATTAGGACAAAAGAGATATTCGAATATACTAAACCAGATAAGACTTTTGTTATCAATATCAAAAATTCAAAAAATGATATAATAGTAAACGAGCTTTTGCGTTATGTAGATTTATAGTTTTCTCCTATATGTCTTAGTATAGATATCATTATTCCTAGACCTTTTTGTACTTCAGGATCTCTTAAAGATGATAATAGTCCACCTAGGCCTACTGGTTTTACTTTTTCGACTTTTATTGCTTCTCCTACTTTATTAATTAGATCTGTATAATATTTGAAATTTTCCAAGTTCATAGCACTTAAGCCTTTCATTATATTATCCCAATTTGTTAATAGGTTCATAGTAAAATCATTAACAAGTCCAGATATTATTTTACCTAAAGTTTCTTCATCTTTTAACAATCCTTTTATAGGATCTATAATTCCGGTATTTTGTAGATCTTTTAGCACTTCCAGTATACTTTTTATTGAGGAAATTGTTTCAGTAGAAGTTACGGTATCTATGAGATCTACTATATTATTCCACCTTCCTATAAGTTCTAAAGTTTTGTCGTTAACTATAGCTCCCATTATCTTACTCATATATTCTTCATCATTAAGAATACCAAGAACTGGGTCTATAATGCCAGTTTTTCTCAATTGAGTTAACATATTGAGAGCAAATTGTAGATTTTCTTTTGTATTCTCGTCTGTTAGTATATCCATAAATGACATTAAATTATTCCAATTTCCTATCAATTCCATAGTTTTGTCGTTAACTATAGCTCCCATTATCTTACCTAGATATTCATCATCTTCCAATAGACCGTTTACTACATCTATTATTCCTAATTTATCTAATTTTTCTAATAAACTAAGTAAATGATTTACTGTTATCAGTTTATCTCCAGATAAAATATTGTCTAAAACATTTACTTCAATTTCGGAAGCCATTTTCGTCACCAGCTAGCTAGGAATTTTTCTAATGCCATATCTCCTTTTGTCCACATAAAGTATTTTGTAAACAATTCTTTTTTAAGATGGTTAACAGCTGCAGGTTCAGCGACAGTTATGGATCCACCATACCATGTATCGTCTTTCACACTAACTGCAAAACCTTCATATGGATTATCGGCTACGCATACTATTGTAGGATAATATGAATCTATTTTTGTATGAACTCCTAATCTATTAGCTAAGTGTTGCGCTGCTATTCTTCCAGTCATTACGGCCAAATATCCTAGTTTAGGTACTGTCATTGAATTTGAGTCTCCTACTGCATATACGTTATCGTATTTTAATGATACCATATTTAGATCTGTTGGTATGAATCCTCCATCATCAACTAGATCTGGAGTAGAATTCTTTAGTGCAGGATTTCCAGTGTATGGCGGTAAAACTATAGTAAGATCAGAATCCAGTTTATTACCTTTCTCATCAACTATTTCATGTTCTCTTATTTCTTTAATTCTGAAATTGTGAACTAATTTCACTCCAAGTTGTTGATATATACTAGCTACAGCTTTTCTAGACTGTGGGGAAAGATCAGATAAATACTCTCCGGGAGAGAATACTGTGACTTTTACTTTATCAAGTAAACCTTTCTTCTTAAAATATCCATGAAGCATTAAAGACATTTCAAATACTGGCCCTTCGCATGCGGAATCTGCATTAGGTACGAAGTTTTCTGGAACTTTTGGTTTAGGATTATGGCCTTGATAAAAAGGACCAGATCCTATAGTTATATTTCCTCCTTTGAACTCATTTAGTTTTTCTCTCAGTTTAGACGCAAATTCTGGTTCACATACACTATATCCATACTCGTTCCATCCCTTCATAAGCTCTGTAGCTAGATGTGCTCCTATACCTACAATTACGTAATCGTAATCCTCCTCTTCTGTAGATCCATCAGATTTGGTATATATTACCTTGCTATTTTTGGCATCTATTTTTTGTACTTTGCCCTCTTGAAACTTTATTCCTTTATTTGGTAACGCTTCTGAAAGATCTATTTTTAATTCATCTACGTCTCTTACTCCAATAGCAACATGTGGAAGGGCTGGTCTAAAGTATGAGAATCTACTTTGATTAATTACTTTAATATCTGCACTACTACCTACTAATCTTTTTAATGTGTAAGCTGCTGTTAAAGCACCAAATCTACCTCCTAAAACTAGTACTTTGGGCATATTAGGTCTGATTATATTTGATCATATACTTAAAAAATCTTTTTTTGAAATAGTTTATATTTATCTTACAATATATTGACTATTTTAATTTAAAATTCTTTTTACTAAAATCTTATTCAAAAACTTTATAGCTTTTAAAGTAAATGTATATTTATGCAAAATCTGGAAAAGTTTGTTCAAGTTAACGGAGCAAAAATTCATTATATTGAAGCAGGAAATGGAAAGGCTGTTGTATTGCATCATGGTGCAAGGTTTAATGCTCATACATGGGAAGAAACAGGAACAATATCTGCTATAGCTGAGGTAGGCTATAGAGCAATTTCAATTGATTTTCCTGGTTTTGGAAAGTCTGAAAGTGGCAATTTTGGAAATTTATCAGATTTTATTTCCAGCTTTATTGAGACAATGAAGTTAGATAAACCAATATTATTAGGTGCATCTATGGGAGGAGAAGCAGTATTAGAATATGCCGTAGATAATCCAAAGAAGTTGGGTGGTTTAATTTTAGTAGGAGCAGTAGGAGTATCATCGTATGAAAATAAACTCAAAGATTTAGATGGACTTCCAATACTCCTTATTTGGGGAAAACATGATAACGTTTCACCAAAACATAACTATGAATTAATACTCAAATACGTTAAGAGTGCTAAGTTTGTGAATATAGGAAATCAACATGCATGCTATCTTGATGATCCTAATGGATTTAATGAGCAAATAAAGACATTTCTGAAGGGCTTATGATGGAGGATACACTTCGAACAAAACTTTATGAAGTTTTAAAAGATAAAAGGTACTTAGAGGTATTGGAGCATCTTAAGAAGGCTAATATAGATTATGGAAAATCTATAATGCTTAACACTAAGATACCCATTGATCAAGTAGTAGATATTCTAGATAAACTAGAACAGTTGGGGTTAATAGAAAGAGTTCATGGTGCTACTTTAAAGAATACAGAAGCTAAATTTAAGTTGAGTTCGGAGGTACATAAACATCATACTTATTATACTCTAACTAGAGACGGAGATCATTTGTTAAGAAATTTAGATGAAAAAATATTAATAAAAACGTATATTGATATGGTAAAAAACGATGATCTTGCTAAGACAATTCTAAATTTAGCAGATGAATTAAACGCAGATCATGCTTTAACATATTCAAAGTTAACTCATAAAACACTTGAAGAAGTTACTCCAAAATTAGAGGAATTAGAAAGGATGGGCTTACTTGAGGAAGCTAAAGCAAAAATAATAAAGTTTGGTGAAAGAAAATCAAAACCTAAAAAAGAAACAAGGACTCATCATAAATATTACGGTCTCTCTAGAACTGGAGAATTAGTAGTTAGAGAAATGAAGAGAAGAGGATTATTACCTAGATAATGTTTATATTTTCTTTTTGAAATTTTCATAAATTTCTTCTATAGTTTCAGTTAAACCAGTACCTTTCTTCTCATATTCTGAAATTATATCTTCGTTTTCTCTAATAGTATTTAATAATACCTCATCAATTTTCTTTTTTAAATATAGCTCAATAATCTTATGTCTTCTTTGATATATTCTCTTAATGAATAGATCATGTTCCTTTACAAATTTTTCATGTTGTGTAATACCTTGTATTAATTCACTAATACCATATTTTTTTAACGCACTAATTTTAATTATAGATGGTTTCCAACCATCTCTCCAATTCGTTTCTCCACTTTCTATAGCAAATTTTATAGAATTATACAATGACTCAGCTTCTATTTTATCAGATTTATTAATAACGTAAAAATCTCCAATTTCCATTATTCCTGCCTTTAATGCTTGTATTTCATCTCCACTGCCTGGTATCACTAGAACCAAAATACTGTGCACTGCAGAAACTATATCAGTGTCTGTTTGACCAGAACCTACGGTTTCCACGATTATCTTATCAAATCCTAGACCGTCCATAGCCTCCATTAGCATTATAGCTTCGGCCGATACTCCACCTAAAAATCCCCTAGATGCTATACTTCTTATAAAAACGTTTTTAAGCATGGTTTTATCTTGCATTCTGATTCTGTTTCCCATAAAAGAGCCTTTAGAAAACGGACTACTTGGATCTATCATAATAACTCCTATTTTTAAATCGTTTTTTGCGTATTCTTCTATTAAATCAGATATTAACGTACTTTTGCCAGCGCCTGGTGAACCAGTTATACCTATAGTATACGCATTACCTGCTCTTAAACTAAGTTCTTTTAGATATTCCATGCCATCTTTTGTTGAGTATTCTATATTAGTAAATATTTTAGATATAGATAATTCGTCTCCTTCAAGAGCTTTCTTAAGTAATTCATGGTTCAATTTTAATACCTCTTTTCTTTTCAGCAACTTGTCTTACTTTTTCAGCAACTTCTTTTAAGCTGGATCCAGGTAAAAATACGTCGTCTACTCCTATACTTTTAAGTTTTGGGATATCCTCTGGAGGAATAACTCCTCCTACTACTAATCCAACATCGTTTAAATTATTTTTTCTCATAATCTCAACTACTTTAGGTATTAATTCCAAGTGTGCGCCGCTAAGAATACTTATTCCTACTACATCAGCATCCTCCTGAATTGCTGTTTTTACTATCTGTTCAGGAGTCTGTCTTAATCCAGTGTATACTACTTCCATTCCAGCGTCTTTTAAAGCTCTAGCTATTACTTTAGCTCCTCTATCGTGTCCATCCAATCCCAACTTTGCTACTATGACCTTTATTCTTTTTTCCATATGTTATCTTTATTTCATATCTGTTTAAAATGTTTAAACTTTTCTTTGGAATTATCTCTTATAATATATATTTTTCAATATACAGGATAGATTTGGGCAAATGCTTATAATATCTTCAAGAAGACATTCTTTTATGTTTGAATTATGGTATATTCATATATCTCTAGCAATAATATCTGTAATATTCTCCTCATTGATTTTTATTGAGTTTAAATCTCTAAGATCAGAATTTAAGGGAAAACTTTCAGCTATTTTACTTATAATTTCTGTATTACTTTTATTGCAAAGCATTACTGATACTATAGCATTTAGTATGTGGAGCTCTTCTAAGAATCCTGTTTATGTATATCCATCATTACTTATAGCAATAATAACCACAACGATTATCATCTTATTTTATTATTATGTTACTAAAGCTTAATTTCTCTATATTTTTTAATGACATCATATACGAATATGGATGCGGAAATTGAAATTATTATATCAGAAAAAACTTGTGATGCAATTATATGTGATCTTAAAAATACAACTAAGATTATTAGTGATGTTAAAAAAAATGATGCTAAAAATGCTGATATAGGAATAAGAAAATTTGCGAATTTAACATAATCAGATAAAATCACTTTTGAAACAACGTATCCTTTTTCTGTTTCTTTGATTAGACCATCTTCTTCTAATTTCTTTAAATGATATTGTACAAGAGAGGGAGAGCTTAAATTGAGATCTCGTTGAATTTTTCTAATTGAAACTGCATTTTTCTGTCTAAGTATATAATAATAAATTTTCCTTCTCGTTCCGTATAAGCTCTCCACACTCATTAATTGTCACTTTATATTCATAAAACTTACTTAAAGCATATACGGAATAAATATAAAAACACAAATGAAAAACGTATTATGTGAAAACAATCCTAATGATAATAGCTGGAGTATTATTGGCAATTACTTTAGCTTATATTTCAATATACATGTCTGCAGGTAACTACACTAGAATTCAAAATTCTCCAAATGTAAGTATGCCAAATATAGAATTTAGTACGGAAAATTCTCCAGCAGTATATAGGCTTAACATTAGTGATAATAATTTCAGTGCCGAATATACTGTCCTATTAACTACTGATTCAATTATAAATTCATATTGTATAAACAACGATACACAAATTCCTCAGTACGGTCCCGCTTTTGTAGTAAATACAAAGATATATATATATCCTTTACTCTATGTATATCCACAACAGATAGTAATAAATAATTCTAATCGAAATATTGAATTTAATATAATGTCAGATAGTTTGAAAGAAATTTTTATAGGTTATAATTCATCGTTGTATGAAATATCATTTATTCATGAATATCTATCTGGTAATAACACATTAATACAAGTTGGGTTACATCTGAAAGATATTTCTAGACAGTCGGAAATTGTTATTCCCATATGGACAGAATATAATATGAAATATTACTATACATATATTATTATAATATACTAATTTTCAGTCGGGGATATTCATTTCATTATTGTCAAACTACATCGAGCTCATCATAAATTAAACTCTTTCATAGTGTCATATATTGACGCTTCAGCTGATATATTTTCTTGTAATGGACTTCTTGATTTACCTACGTAAAGTCCTCTGTATCTAAGTGCTATTTTTATTCCAGTGGGATAATCAGATAATGATACTGCATTGTTTAGTTTTATGGCCACTAACTGATATTTATATGCCTCCTTAAAGTCTCCTTCCTTATATTTAGTATAAATAGATGAAATAATTTCTGGTGCAAAATTTGCTATACCTGATACAGCACCATCTGCTCCATACATTAATGCTGGTAAAACTAATGTATCACTTCCTATTAGCATATTGAAATCTTTGTTCATTTCCTTCAGTACCATAGTGTACTTTATAAAAGAATCCATATCAGAAGTAGTATATTTCATACCGTCTATTATTCCATCATCTACTAATTTCGTTAGTATATCTAAACTTATGTTATATCCTACGTAAGACGGAATGTTGTAAATATAAACCGGTAATCCGGGCTTAGATAAATTTTCATAAAACTGTATAATTCCTTTATCATTTGGCTTGTGATATAATGGAGGTATTGAAAATACTCCATCTACTCCAAAATCCACAAAATTCTTTAATAATATATCAGAATTCTTTAATGAGTTTTCATTTATTCCAGCTAATATTTTACTATTTACTGATTCTCTAGCAGTCTTTACTACTGAAATTTTCTCATCCAAACTTAACATATTAAATTCCCCTGAAGTACCTAAGACCCAAAAAGAAGAAACTCCTCTATTTTTATCAAATTCCATCACGCTCTTTAACATACTTAAATTTAGGTTTTCTTTTTCGTCAAAAGGTGTTATTAGTGCAGTTAATATACCTTCCATATAATTTAAGCCCAAAATCTACATTTTAAGCTTAAGCAATCTATTTACATAATCATTAGCTTAGTGATGTTCAAGTTATTAAGAACCTTAGAAGTTCTCTCTCATATATTGTTAATTGCAATCTGTGATCTTTATCAACTATAGCTATTACTGGAGTTTCGGTTTCTCTAAATTTTTTTAATATATCTGATATTTTTGAATCTAATGGCATGATATCTATATCATCTAGTTCCATATCACATAACCTGAGTTTATCATAATAATCTGGACTTATTTCCAATAATTTTGATACTGTTATTATTCCGACAGGTTTCATATCACTTACTACGACTAGTGCTCTAGCATTTTTCTCATTAATCTTATTTATAGCTTCTCTTAGTGTCTCATTACAATTGGCAAATATTGGAGACGAAAATTGCGATAAAATTAAGGAAACCTTAGTATTCAATTTAATTTTCTCTTTCCTTTCAACTTTATATCCACTTCTTAGTTTGAATAATAAAGGAATAAATAGTGCCGAAAATGTTATAGCCAAAGCAGAATATGAGTATTCTGACGGAGTAATCGCATTAATCGTTAATGCGCTTATTAATAATGATGCGTCTACGCCACCTTTTGTTGACGTTCCTAAGCCATTTAAAAATAAATTGTTTTTTATTATCATACTAGAAATAATGCCTGCTGAAAATTTTGATATAAATATTACAATAAATAATATACTTCCAATTATTAATATTTGATAATCTATTTTTACGAAAAATAAGCCTATACTTACAAAGAATAAAGGTTCAAAAAAACCATATGTGAATCCGTGTAGTTTTTCTAACAGTTCTGGTCTATCTTTTAAATATCTCCTTAAAAGGAATCCTAAAAATAGTGCGGCTATTGCAGAATTAAATTTTAAAATTTCAGATAAAAAACCTATTATCAAGATTAATGAGATAATACTAGCAAATTCTATTTCTCTTACTTTTATATATCCTTCTATTTTCTCTAACAATCTAGATAAGAATGGACCTAGAGCAAATATTAAAACGAAAATAGCTATTATTTCTAATGCAGTATAGAGTAGATTTCCATTTATACCTAAGAAAATTGCAAACAAAATTACTGAGATTATTTCTACTATTGTGGCTTGATAAAAAAGATTTACACCAAATTCACTTTTTGTAATTCCAAGATCTATTAAAAGTCGCGTTAATGGTCCTGCACTTGTCATTATAAGTGGTATTATAAGTATCAGATAATGAGGTACATTTAGTATATATAAAACAACTAAAACTAAAGAAAATGGGATAGTAATCTGAATTATAGATGTTAATACTAATTTTTTATCTAATTTTTGTTCCATATTTATTTCTTCTGCTCCAGCTAAAAATAACAAAAAAACTATTCCTAATGACGTTATAAACGATATTATCTCATTAACCTTGATAAAGTCAGTTACTCCTTCACCTAAGATTATTCCAATAAATATTGCTCCAACAAACGGAATTAAACCTAACCTAGAAAATAATTCTTCTGCAAGTTTTGCCAAAAATAACATTATTCCTAGATATAATAGCGTAATTATAAGAACGTTCATAGTAAAGGCTTATTAGATTCTAAGCTATAATAAAATTGATGAAAATTTCTCATAGAGAGTTACAATATCTACTAATAATAAAGAAGTATAATGACGATGGAAAGCCTGCTAGGTTAACTAACATAGCAAAAGAAGTAGAGGTAAGTCCGGCTAGTGCGTATGAAGAAATAAATCATCTAAGTGAGAAAGGTATGGTAACAAAGGAGAAATCGGAAATCTGGATAACAAATAATGGTATAAACTATATAATGAAAGCTGTCAGAGCTCATAGAGTTATAGAATCATTTTTAGTAAAATTGGGTGTAGATAAGGACGAAGCTTGTAAATATTCACAACAATTTGATCTAATGGTTCCGGACGAAATAGTTGAGAAGCTATATGAGTTTTTAGGGAAGCCTCATAATTGTCCTCATGGTGAAGATATTCCTTGATAGACTATCTAGAAATTTTTCTTCTAATGATTGTGGAAAGTATAGGATTCCCTGTACCTAGTGAAATAATTCTTCCTTTAGCGGGTTACTATTCTTCTCAAGGTTTAACAAACCCAGTTTACGTAATTATTATATCTACTTTAGGTTCGATAGTGGGTTCTATAGTAGACTATTTTATAGCTTTTAAGCTTGGAATACCATTCTTACATAAATATGGAAAAATTTTTGGTTTGACCTCTATTAAATTGAATAAATTAAATCTATGGTTTTCGAAATATGGGACTTTTTCGGTATTCATTTTTAGATTCGTCCCTGAATTTAGAGCATTAATATCATTCCCTGCAGGGATTGCAAGTATGCAAATAGTAAAATTCCTTATATCGACTTTTTTAGGAAATATAATATGGGATTCTATATTAGTCTGGATCGGATTTGCATTTCCTTCAAGCTGGGAGTTGTTAATTAGTACTGTATATAGATATTTGATATATATTACAATATTGTTAGTCATTGGAATTATATTATATATAATACGAAATAAACTTAAAGTATTGTTTTTTAAGATTTAATTTCAAAAATAAGATATTTAAAATAAATTTATATAAAATCTGTAAAACAATATAGTAATGTCGAAAAGTGTATCAATATATAAGTTTTTAAGATACAAAAACTTTTTTATGTTTTAAGGAAATAAAGTTAATTATGGTCGTCATAGATCTTACTCCTTTGCAATATCTTCTTTCAATAGTTTCTGGTATACTTGTAGGATTTAGTCTAGGATTAATAGGAGGCGGTGGATCTATTTTAGCTATACCGTTATTACTGTATTTCGTTGGTCTATATTATGCCGTGCCAATAGCTGATAGAGGTTATGCTGTACATTTAGCTATAGGTACTACAGCTCTTGCTGTAGGATTAAATGCATACATAAACAGTTATATTCATTTTAAAAAAGGTAATGTAAAAGTTCCTCAAGGTATTATGTTTACATTACCTGGGCTTGTTGGAGTATTTGCAGGTACAACATTGGATAAAATAACGCCAGGGAATTCGTTACTATTTTTCTTCAGTATATTAATGATAGTTGTAGCTTTAATGATGTTAAGACCTCAAAAGAAAATAGTTTCGCAATCTAACGTAGATGCTTCAAAAGGCTTTAGTTTATCATCTCTTATATCTTCAGTATCTATAAAGAAAGTTATTCCTGCAGGATTCTTAGTGGGTTTTGCTTCTGGATATTTTGGTATAGGTGGCGGATTTTTAGTGGTACCAGGATTGCTATTTAGTACTGGCTTATGTATGGTTAGAGCAGTAGGTACGTCCTTAATAGCTGTAGGCACATTCGGAGTAGCATCTGCAATTTCATATACATTTTCAGGCTACGTACTTTTCATAGTTAGTATATTATACCTTTTAGGGGGAATAGCAGGTGGATATGCAGGAGCTTCTATAGCATCTAGAATGCCTAGAGGGCTGTTAAGAAAAATATTTGCTATTATTATAATAATAGTAGCCATATATACAATGTATACTAGTATTAATGGTTTATATTTATTGCTACATATTCTAGGAATTTGATAGATAATCATAAAGCTCATTAATTTTTTTTGATATTATATCAATTGTTGCATTTATGTCTGATAATAGCTCTGAATAGTTTTCAGCTTTGATATCAGATATAATTTTCTCTACATATGGATTCAAATCTTTATCGTGTTTTATTAAAAATCCACTTAATTCAGAACTTACCCATTTATATACTGTCTTTTCTTTCCTATTCTCAATATGAAGCTTTACCTTTTCTAATGAAGTTTTCTCTAAGATAAGGTCCTGAAGCCTTATAAATTCTTTATTATTTGACATTTGAAAAACTCTTTATAGCCAGACGTTAAAGAGTTATCCATGAATGAAAAGAAACTAGTACTATCTAGATATTACATCTATGTGATTATTGGATCCATATTGATATTCATGATATCATTAAGCGTAGCACCTTTTGCTCCTCTTGACGAACCTAAAGTGTATGCATACGATGGAGAATATTATAATCTTGGAATACCAGTAGGTTTCTCATTTTCTGCTTTTATCTCACTTATAATATTTATATTGTCTGCCATAATATTATGGGGAAATAAAAACGTATTATATAATATAATAATTGATTCTTCTGCGCTTTCATTCATAATTCTTAATTATATTAATTATTATTTTATTTGGGATGTCTGGAGACCTTATATTATGTTCTTACCATTTTTTGTTCTTATAAAGTATAATGGAGCTACGGCTATGCAGTTAGATTTAGGCCAGATAGTCTTAATTATTTTCCTTTATAGATTTTATAGATTCTATAAGAAATCAAAATCGTCCCGCCCTCTATCTGGTCCAGACTTGCAGTAAATGCACGGATGAAGGTCTATAGCCGGGCGGGATACAAATGATGAGGCCGACATAAACAGATAAAGTGAAGATCGGGTCGATAAACTGATGCAAAGATTCATAGTTGCTTTGTATACTGATATTTCCAATAACTTTAGTATTGTTGATCTAAAAATGCAAAGATAAAGATTTCACAAGACTGCTTTATAAGAATTATAATTAAGTTTAGTAGTTAAACTGATATTGATAATACTGACTTTAATATCTAAGAATATATCTTTAAAAACTCTATTACAAAGACAATGGATTTAGACGAATTAAATAGCACAATAAGAAGTTGTAAGTTATGTAAGCTTTCCATAAGTAGAACTAATGCGGTTCCTGGTGAAGGTAATCCTAAGGCGTCAGTTCTTTTTGTAGGCGAAGCGCCTGGAGCTACAGAAGACAAAATGGGTAGGCCATTCGTAGGATCTGCTGGGAAACTCTTAGATGAACTATTAAAAAGTATAGGGCTAGATAGAGAAAAAGTATATATTACTAATTTAGTAAAATGTAGGCCTCCCAATAATAGAGATCCAGAATCTGATGAAATTTCTTCTTGTTCCCCTTATTTAGAAACTCAAATATCTCTGATAAATCCTAAAATAATAGTAACATTGGGAAAATATTCTACAATTTATATGCTTAAAAAAGTTAATATAAATGTAACGTCTATATCTAAAGTCAGAGGAAAATTTTATGAATGGAACAATATTCTCATATTTCCTACTTATCATCCGGCAGCTGCTTTATATAATCCTAATCTGAAGGAGGTTCTTGAAAAAGATTTTAAGGTATTAGGTAGTAAGATAGGTTCAAAATTGTTTACTCTTGATAATTTTATGAATGAAAATGGACCTAGGAATACGAAATAAAAAGGTAATAGTAACTGCTGCTAGTAAAGGCATAGGATATGCTACCGCTAAAAGATTTTTAGAAGAAGGAGCACATGTTTTAATATCCTCTCATGATGAACAAAAACTGCTTGACGCATATAACAAATTGAAAGATATAGGAGATGTATATTACTTAAAAGCAGATCTTAGATCAATAGAAGAAATTAAGAATCTTATACTGAAAGGTAACGAAATTCTTAATGGAATAGATGTTTTTGTGTATGTTGCTGGAAGTCCTAAACCTGGAAATTTATTTGAATTGACGGATAATGATTGGGAAGAAGGATTTAAACTATTATTAATGAGTGCAGTTGTTTCTATAAGAGAAGTATCTAAATTCATGAAAAACAATGGTAGAATAATATTATCTACGTCTATTAGCATTAAACAGCCTTTAGAAAACCTAGATCTTTCAAACGTCATTAGACTTTCATTAGCGGGTCTTATAAAATCTGTTTCGAATCAACTTGCGCATAAGGGAATATTAGTTAATGGTGTAATACCTGGATGGACATTAACAGAACGCGTAGATCAGTTGGTTAAGGACAGATCTAGGAGAGAGAACAGATCAGAATCTGATATAATAAACGATATAGTTAAGGACGTACCGTTAGGTCGTATGGCATTACCTGAGGAAGTAGCTAATGTTATAATATTTCTTGCTTCTGAACTATCAACGTATATTACAGGGGCTTTAATTCCTGTGGATGGAGGCTATATTAAAGCAACTTTTTAAAACATTTGGGCAGATAATACTCTCTTTTTTCTTCATTTAGAGACTTAAGTGCATTAATTTGGCTAATGGTTATATTATATCTTTACAAAAAAGAGGGGTAGTGAGTAGTATTGAGACTCATTGAGTTTTACACTAACAATTTTAGAAGTCTTAGTAACGTTAATTTAGATTCCCTTGGTGGATTTAATGTTATAGTAGGTTTTAACGGTTATGGAAAAACAAATTTACTAACTGCAATGTATATATTTATAAAAAATATCGCTGCCGGTTTAGATAAAAAGTCTGTAGAAGATAGAAACCAGGAGTTCATGCTATTGTGGCAAGGGTACGATACATCAAAGATTATATATTTGGGGGGTAAACTTCAATTTAATGAACAAGAGGTAGAAAAAGCTACTGGAAAAATCCAAACAATGAATATAGAGATAATAAATAAACTGAGATATACTAATGGGTATTTAGAATGGGATTTAGATTTACTTAAGGTCAACGGTACTGTACCAAATAAGGATAATATTGATGAAGTAAAGAAGTTATTTGAATATGCATCTCAACAAGTAGAATATGTGCCAATATTTGACCAAAACTATTTTGATGATGTAATGAGAAGAATAACAGAAATAAGTAGATCTCCTATAAATTTGAGAAAGTATTGGTACGATTTTGTCAATTTGGTTAGTGCAACAATACCTGAGATAAGAGGAATGGAAATTTGGGATTCGAAAAAATTAGTTTTAAATGTATATAATTTACCTATATATATTGATCTTGCTGCTAGTGGTTTTCAAAGAGTTATCCTTATGCTTTTTGTCATTTGGTTAAGTGGAAATAAGGTACTTTTAGTGGAAGAGCCAGAAGTAAATATGCATCCTACATTGCAGTATAAAATAGCTAAACTATTAAAAAATTGGACTGATAATAATACGTTACAAGTTTTTATGACAACTCATTCTCCCTTCATAGTGTCTACAGATATAGATAATTATATAGTTCTTAAGAAAGCCTCAGCATATTCCAAGGCTATCTCAATAACTCCTACTGAAAATTTAAGGAGTCTATTAAGTATTTTAAAGGTTAGTTTGAGTGATCTATTGTTTAGTAGAATAGTTATTCTATGCAATGAATACGCAGATCCTAATGCAATTTCGAATTGGCTCAAAAGGCTAAGTGTAAACCCGGAATACAATGGTATTTCAATCTTTAGTGTAAAATCAGATATCGAACTTCAAGCCTGGCTAAAATTAAAAGAAATACTAAGACTTGAAACCATGTTTCTAGGAATGTGCGATAGAATTGACTCTTCTATGGCTGAATATTGCCTACCATTAGGAAGAGAAGTAGAATCATTTTATAGTAAAACTGGAATTCTCGAGGCGTTAAAAACTTTAGGTATATATCCTGATGATAAAGAACTTAAGGATTTAGGTAAGGAGGAAAACTTAAGGTGGCTAATAAACATATTTAAAAGACGTGGACTAGATTATTCAATATTAAGATCTTCATTAAGTGATATTGTTACAAGAATAGATAGCATAGAAATACCAAAAGAGGTGGAACTTTTAGCAAATAAAATTAAATCTTTTCAAGCAGTATAATAAAATATGGAAGGGATAATTCAACTAGGTATATTTTTGGTTCTGTTAGGATTTTTCATAGTATTTATAGGGTTTATATATGACGTCTTTAAAAATTCTGAAAAGAATGAAAATACTAGAACAAGTGCTGGAGGTATAATATTTATAGGACCTGTACCTATAATTTTTGGTAATTCAAAAAAGGTAGAAAAATGGATGATAATAATAGCACTAATAATAACGATTATTTTAGTTCTTCTATACATACTTCCAAGCTTATATTAAGCCTCTTGATTTCATTGCTTTTATTACCCTTTCTACTGCTACTACCATGGCAGATGTTCTTAGATCTTGATCGCCAAGTTTATTATATTTCTTATACATCTCATCAAAAGCTCTTTCCATTCTACTTAATATTAATTTCCTTGCTTCTTCATCCTCTATTATTTCTCCCATCTTATTGTTAGCCCATTCTACATAACTTCCTACTACACCTCCTGAATTAGCAAGTATGTCTGGAACAACTGGTATTTGTTTTTCTTTAAGAATTTCATCAGCATCAGCTGTCAATGGTCCATTAGCTCCTTCCACTATTAACTTAGCTTTAATTTTTGGTGCGTTGTATTTTGTTATAACATTTTCTAGAGCAGCAGGTACTAGTATATCACAGTCACTAATAAGAAGTTCATCATTGCTTACTTTCTTTCCATCAGGATAATCAATAACAGAGCCTGTCTTTGCTTTTATTTCTAATGCTTTATCAACATCAATTCCATTATAATCTAATACTCCGCCTTTAGAATCGCTTATTCCTACAACCTTAGCTCCTAATTCTGTAAAGAATTTAGCCGCATATGAGCCAAGATTTCCAAACCCTTGTATTATTACTGTCTTTCCTTCTATACCGCCCAGGAATTTTTCAGCGGCTATTTTTGCAGTATGTGTTAGACCTAGTCCAGTACTGTATTCCCTCACTGCTATACCTCCTAATTCTACAGGTTTACCAGTAAAAGCACCAAGATCAATTTTCCCTGAGATTTTATTGTACTCATCTAAAAACCAAGCCATTATTTGGGAATCAGTATTTACGTCTGGAGCAGGAACATCTATTTCGCTTCCTATATACTTATATAACGCATCAATAAAGTTCCTAGAAAGCATTTCAAGCTCTTGCTTAGATAAGGTCTTAGGATCAACTCTAATTCCAGCCTTTCCTCCTCCATATGGCAATTGCAATAAAGAATTCTTCCATGTCATTATCATTGATAATGCTATGACTTCATCTTGCGTAACATTTGGATGATATCTAACTCCTCCCTTGTAAGGTCCTAATGCACTATTATGCTGAGATCTCCATCCAGTAAATGTTCTTATTTTTCCATCTTTACTTAAGATTTGAATTTTTACTTGCAGTACTCTTTCGGGAGTTGAAAGTGCTTGTAACTCATCTTCATGTAAGCCTAATATATCTCCTATTTTATACAGTTTTTTAACTTGTTGTGTATATAAATTAGAACTTAAAACTTCTTCTACAGATGTCATCAAGATTAGTGTTAATATTTCCCAAAAAAAATCTTACTTATTTCTTACTTAAATTGTATAAGTATGTTTATTCTCTTCTATGCAAAATGACAAGAACTGCTACAAGAACTAATGTAATAACAATAGTCGCTACAAGAGATAATGTGGGTGCTATGGCTTTGAATGGTAATGCAGTATTGTTATAAGCATTTAGATTTATAAACGTTATATTGTTTCCATAAAACTTGTTTCCAAGATATTTTATACTTAACTCAGTAATGAAAGTATTTGATATATTTTGTTTAATGGATTCTTCTAATAAAATTCCTGATTTATTAAATATCAACGTTTGTATTGTTGAGTTAGTTGAGTTAGTATATACAAGCGTATTACTATATTGTTTATTAAATATAGAAATATTCTTATATCCTACAAATTTAAACGGAATAGAGTTCCATAATATAGTTTTAGTCATGTTTGGATAGAATGTAATCTCTATGTGAGTATAATTTGCTATGTGAATAGTAAAATCAGTAGTATCTACAATAGGTTGCCCACTTATTGTATTTAAGCTATAGGCAGATTCTCCTATTATACCGTTGGAGAAAACTACTGGATATACGATTTCTTCATCTCCTACACTTTGAGTAGTATTAGCAAAAGACGAATATTCGAAAACTGCATATAGATATGATATATTTAGTAGGTTCTTCGGAAGATATATTTGGGTTAAATCTCCCGTAAATAATGAAGCAAATCTCTCTAAAGTCATATTTACGCTTAATCCCTTATATGTAGTTTCAAGCTTTGCTATGTTTCCATTGGTTAATACCCAAATTTTTCCGCTTAATGAAGTTGTTGAAAAAGAGAATTCTGTCGTGTTATAATTAACGCCAGAGATTTTTACAGTTGAGTAGTTTATAAACGTTAATGAAATTGACGAAATAGAAGATTGTAAAGTATATGTATTATTAAATATATATTCCGGAGCTATAAATGGATAATTAAGGTTAAGAAAATCTTTCTGAAGACTAACGTTATACGTACCACTTTTTATTAACGTAAAATTGAAAGTTTTATTTTGCGACATTGATTGGGTACTAGTATCATTTATCTCTACATTTACAGTAACGTTACCATTATTGAAATTTTTTACATAATAATTTGCTATATATGTATAATTTAGCTTAGAAGTAGTAGAGTTACTTGATGTATTATATGCTACTATTTTATATGTTAAATTATTATAAAATGTAATACTACTTTTATAATTTGTTATATTTGTAGGCGCGTTAGGTATTGCTAATGAGAGTATAGGGAATATAAATATGAGGATTAACGATATTGCCAATATATATTTTGACATCATATAACACCTTACCAATAGTTTAATAACTTTTATCCAGAAGATTCCACATGGATAGACCTCTAGTAGCAGTAGGTGGAGTCATTATTGAGAGAAATAAAATATTATTGGTAAAACGCGCTCATCCACCAAACAAGGATATGTGGGCCATACCTGGCGGAAAACTAGAATATGGAGAAACATTAGAGGATGCAGTAAAACGAGAGATATTAGAAGAAACTAATTTACAAGTTAAGGTTCTAAATTTGCTATCTTTAATACAAATGATAAAGGAGGGATTTCATTATGTGATTTTAGATTTTCTTTGCGAAATAGTTGGAGGAAATCTTAAGCCATCATCAGATGCAGCTGACGCTAAATTTTTCTCTGTTGATGAGATAAAAAATCTTAATACTTCTCCTACGACAAAAGAGATGCTAATTCGCTACAATAATAAAGAGAAACTTCCCATTTTTATTACTGAAATCTCCAAGTAGATTTTTCTTTACTATCAAGTATCTTAATTCCATTATTCTCTAGAATACTGCGTATTTCATCCGAAAGATCATACATTTTTTTAGCTCTTAATTCATTTCTTATTTCTACAATAGAATCTATTATTTTAGATAATCTATCATATGCGAGACTAAATTCCTCATCCATGACTCCAAAAACTTCGTTAAATTGTCTAAAAGCGTCAAATGCTATAGAGGCTCCCATAAAATCTCTAGTGTTCTCTAGTTTGGAAAAGATTATACTAGCAATATTATGAATATGAGACAATGCGTTAGCAGTATCGAAATCATCACTCATGCTTTCATGGAATTTTTCTATTTCAGAAACTATATTCTTCTGAATTTTTATATCTTCGTCTGTTGAATAACTCTTTGGTCCTTCAGAAAGAATATTTCGAATTATCGACATAGCATCTTTAAGTCTATTTAAAGAGGCCTTACTTTGCTCTAATGAATCTTCGTTAAAATCTACTTGAGATCTATAGTGAGAGGATAGGAACCAATATCTTAATACTGAAGGTCCATAAGATCTTATTGCGTCTTTAAGTGGAATAATATTTCCTAAAGATTTACTCATTTTAGTTTTCTTTATTGTAAGAAACGCTACATGCATCCAATACCTTACCCATAGTTTTCCAGTATATGATTCAGACTGTGCTCTTTCATTCTCATGATGAGGAAATATTAGGTCCATTCCTCCCCCATGTATATCGAAACTCTCTCCTAGATATCTAGTAGACATAGTAGAACACTCTATATGCCATCCGGGTCTTCCTTCTCCCCATGGAGATTTCCAAAACGGTTCTCCCGGCTTTTTAGACTTCCATAAAGCGAAATCATATGCATGTCTTTTTTCCTTTATAAATTCTTCTCCTTGGTTCCATTCTTCCTTTTTTGTATTAGAAAGTTCTCCATACTTAGAATAAGTATCTACGTCAAAATAAACACTTCCACTAGGTGCTATGTAGGCATTTCCTTTATCTATTAATTTTTGTATAAAATCTATTATCTCATTAATATGATTAGAAACTCTAGGGTGAAGGTCTATCTTTACTTTTAAGGCATTAAGATTATCTATATAATCTCTGGAATAATCGTCAACTATTTCTTCCCAGCTTTTACCAGTTTCTTTTGATTTATTAATTATTTTATCATCAATATCAGTTATATTTTGAACTCTAATAACGTTAAAACCTCTTAGTTTAAGGTAACGGCTTATTGCGTCAAAAGCCACAAATGTTCTTCCATGACCTATGTGGACATAATCATAAACAGTAGGACCACATACATACATTCTTACTGTATTATTTTCAACGTTAAAATCTTCTATTTTTCTTCCAAATGTGTTATAGAGTCTAATCACAAAAATAAGAAGTAAAAGAACTACTTAAATACATTAGCTGTAAGCGATCTAGCCTTTGGTATTATATTAAGCTTCTCTGGATTTTCTCCTAATGAATTGGCTAATCTTATTGATGTTAATCCAGCTAACAAGAGTATTGAAGAGATATTTTTAAGTTCACTTTTGAATAATGGGGATATTTGCAGTGCATTTAGAGTCTCTATAGTAACTTTATCAATGTCATCATCTCCAATAACAATCGGTATTAAATATTTTCCGTTAACATAGCTTTCTACTTCGTTATGATTAACTTCAGGAATTAAGCCATAAAATGCAGGATATTTGGCGTTTTCATTTATTTCTTGTTTAAATCTTATAGCTAATGGAAAATATCTTGAAGCATAAAATACTGGCAAATTATTTTCTATCTTTTGTTCTAAATCTTCACTCATTTTTATCATTTTATCAGAACTTTCTATAATTCCTTCTTTTAGTTCGTCAATATTAATTCTAGTATTTGCTTTTTTAGCAAGCATCTTTATCAACGGCGTAAATAGTACAGGAAAAGAATATCTAGTTTGTGAAAGTCCTTTTACTTTAATTAATGGAATATTTTTATTTATAGCAATTTTTTCTAGATCACCTCCTGATGTTATAACTATTATCTTAGATTCCTTTTTAATTCCGTAATTAACTGCATATATTGTTTCTTTTGTTGTACCTGAATAGCTTACTGCTATTAGAGTTGTATCTTTATCTAGATTTCTTGGTATTCCAGAAACTACTGTATAATCTAGAGGTAAATTTAGAATTTCTGCTATTTTTCCAGGGATATAGCTTCCTCCCATCCCAGTATAAACTATCTTATTAGTGGAAATTTCTGGCACGTCTATGTTCTTTATTTCATCAAATAATGTATACCAGTTTAAGTAAATATCAAGCACTTTTAAGCACCAGTGATATATTTATTGATGGAGGATTAGAATTTAGACTAGAGGTTATACTTTCTATACCTATGTTTTTCATGTTATTTTTTAGTGATATTACTGCCTCTGCTATTGTGGTAGATAAACAGTCTACTAGATCTTGTGCTATTTCTGCGATCTTACTGGAGGAAAGAGAGCTAATGACAGCTGGTTGCACTAGGTATGAAAATATTAAATTTGTTCTTTGACCTAATTGGAAGAAAGAAATTAACGACTCGTCCCACTTTTTTTCTGATATATTTTTCTCAAATTCCAATATAAGATCTTCTTCTTTTCTTGCTTGTTCTTTAAGAAAAGATAAAATTCCCTGTTCGGCTAGACTTAAATTTATTTGCTGTAATCCTTCTATCTCCCTATAGAGATTTTCCATTCTAGTCTTAGCAATCATAGTTCTCTATATCTCATATTTGATTATAAAGTCTTAAATCTAGGTATTTAGTATGGAGAAGATTTTAGTACTAGGTGGAGGGGCAGCAGGTATGAGTGCTTCTTCTAGAGTTAGAAGACTTAGACCAGATACGGAAATTACAGTACTAGAACAAACTAAAATGGTTAGTCATGCTCCATGCGGGATTCCATATTTTGTAGAGGGATTATTTAATGACGAAAACTTGTTTATGACATATACACCAGGATTTTTTAAGGAAAAAAGGAAAATTAATGTAATAACTAATACTAAAGTAGAGGAATTGGATTTACAATCTAGAACCGTAAAAATTGCACGTATGCCAGAAAAACTAGAATATGATTATCTTATAGTTACGCTAGGTGCTAAGCCTAAAAAAATAAAAAACGTTGATGGTAAGAGAATTTTTTATGTTCATCATCCAGCTAGTGCCGCAGAACTTAGAGCAAAATTATGGTCTTTAAACACTATTGGAATAATAGGAGGAGGTATATTAGGAGTAGAAATGAGTGAAGCTTTAGTATCTATAGGAAAGAAAGTTATTCTATTTCAAAGATCTAATTACATATTAAATAAAATGTTAGATGAAGATATGTCAAAAATTATTATAGAAACTATGAAAAAGGATGTAGATATAAAGTTAGGCGAAGAAATAGAGGATATTAAAGAAGACGGTACACTCATAATTACTAATAAAGGAAAATATTCAGTAGATGGTACTATTATATCTATAGGTGTAGAGCCTAATATAGATCTCATAAAGGATAAATTAAAACTAGGAAAGACTGGAGCTGTATGGACGAATTCTCACATGGAAACTAACGTAAAAAACGTCTATGCTGCTGGTGATATAGCAGAAACCAAAAACATTGTTACTGGGAAAGAATTCTGGATTCCTTTTGCACCTGTAGCTAATAAGATGGGTTATGTTGCTGGAAGCAATATAGGAGGAAAAGAGATGGAATTTCCTGGCAGTATAGGTACAATGATAACCAAATATAAAGATATGTATATAGCTAAGACAGGTCTTTTAGAAAATGAAGCAAAAGGAAATGGTTTTAATGTTATTTCCTCAATGATTCATACGAAAACTAGAGCGAGATATTATCCTGGAAGTAAAGATATTTTTGTAAAACTAATAGCCGAAGAAGAAACAAATAGAATACTAGGAGCTCAGATAATAGGCGGAGAAGAGGTTTTAGGTAGAATAGATATGCTTGCAGCACAGATTATGAAAGGATTTAGCGTTGAAGATGTATTTTTTACTGAGATGGGATATTTGCCTGCAATATCAGAAGTATGGGATCCAGTGATAATAGCAGCTAGACAGTTAATGAAATCGTGATAGTATTACGCTATATTTAAATATTTCTATAAATAGTTAATAACTTAATTATGGCAATTCAGCAAGGATTCTTTGAAATACTTAGTGACTGTATTATTAACTATATAACTAGATATCTTAATACAGCGTCTATAGATGGCATATATTATATCGATGATCAAAAGAATGATGATATATTGCCATTAGAAAAACCACAAAATCTAGTAAGAGAAGTAAAACCATTGAGATTTGAAAAGGAGGTTTTTAGTATTGATGGAAGTAGTAGAAGTTTCATTTCTGGTAAGGGAATAGTTAGTATAGCGAGTGTTGCTGTAACCTCTACTTCTAGCAGTATTTATGATGTTTATCCTTCAGTTGATGGCAAATCTAAGCTAGGACTTAATGAACCTTTCATAGCTGTTGCGGCCTCTAATTTAGAATCTTCTAAACTAGATCCGTATTTATTTTCCAACAATTACATTTCATCTGTATCATTAAGTGGTGAACCATTTAATCCACTTAATGGATTTGAAAATATAGAAAGTGAATTAAGATCATTACTAGAAACTAAAGCTTTATCTAAATTGAAGGATAAAGGCTATATAATTGTCGATGGACCATTATTTCCATCGTATCTTTATTTAAACGGCAAAGTTAAAGACAAGATAATTTCGGAGAGAATAAAAATAATTGATAGTAATTTTATCGGAATAGTAAAAAGAATAGATAAATCTCAATATTTGGTAAAATCTCTAAATGGCGAATATAGAAAATATTTTGTTCAAAAATTCAAGTTAGATCCTAAATCTTTTATTTCTGATGAATCTTTGCTATTAAACCTTATACGTTTCAACTATAATATTCCCTATTCACCTATAGTAATTGGCCCCTTCTTAGATAGAGTAAAAGAGAATATAAATGTTTATATTAATTATTTGGTAGTTCCATTTAATCCTTATATAGCTAATTTCTTCATATTAAGAGTAGAAACATTAAACAATAATAGTGATATAATTGAAAAAATTTTATCATTAAAACCAACAAAAGACGGTATACCTTATAATCTTGCTTTAGCAGATTTAACTGCAAAAAAATTATCAGCAGGGCTATACAAATTAATCATATTATATCTTCAACAATTAGGCTTACAATCAAGTTTCTACAGCAGACTAGAGGTTATTAAGTCATGAGTAACAATGGGTTATTTGATAGTATTAAAGACAGAATGGAAAAAGCTAGGGCATTAGCTATAACACTAGGCGATATTATAGGTAAAGTTTCTAGGAATATGTCTAATAAAGTTCAAGAAAACGAATATATAGTTAATATTATTGTAGATCCACTCACATATTATAAATATAATTTTTTGGGTAAAGTGGGTATATTTTTGGGAGTTATAGATATTAAAACTCTTTATTTTGTTCTATTGAGAGTAATAGGATATGAAAGAAGTGATGTAAGTAGTTATTTATTTGATAATTCAACTATATCTACCATAGAGGATGAAGAAAATCCAGGAACTTTAATAAATAATGTGATCATAAAATGTGAAATGTTAACTAAGGTTGATATTCTGTCTTCTTCTGATATTTCTCCTGGTGATATAATAATAGAGCCTCAGTCTCCAGTAATTATTCCAAGGTCAGAAATTATAGAAAGAGCTTTAGGAATAAACAGCGGTGCACTAAAAATAGGATTCTTGGATTTAGATGAAGCAAGCGTCAAAGTAAGTTTAAGTTTAGATGAACTTAATTATCATACGCTCATTTTAGGCACTACTGGAGCAGGAAAGACGTCGTTTATAAAAGATTTATTGACAGCACTTTATAAGATAAATGAAGAAGGAAGTAAGGTATTTGTTGTTGATACAACAGGAGACTATTATCACATGTTTTTACCACCTGAAATTACAAATAAGCAAGTTAAGGTCGGTATACAAAAATTTGAAGATCTTTATGGTAAAGTAAATGGCATAGATATGGACATAATTTATCCAATAACTCATAAATGGGCCAAGAAATATCTTAAAAATAATTATGAAATAGAAAATATTGTGAAACAATATTATGAACTATATGTAAATCCTTTAATACAATATTTGAATAAAAAAGGTATAAATACATATACATCAATTTCAAATAATGAAATAACGATTTCAAATGATTTTTGGACTTCCAAAATCCACGTAAATCCCTTTTATTTTAAGTTTAAAAGTGTAAAAAGAATTTTATATAGACTAAATCCATATTTTAGTGAGCAAGCTTCGCATTTTCTTAAGATTATTCTTTCTCAAAAGGAATTTAGTAGTTCTTATAATTTAAACGACTTTATAGATAGATTAGATGATAATGTTTTTGAAAAAATGAAATTACATCGAAGTACTAGAGAGAATATTATAAGAGGGCTTTATTTATTACGCGAAACTGATATGTTTGATCTTAAGATAAGGCAGAAAAGCATTAATGAATTGTTAGAATCGAATTCCAGGATAACTGTATTTGATATATATAACTCTGAACTAGATGATTTTACTCAAAAAATATTTATATACTATATTTTAGATAAAATTTTTAATATTAGGGAAAAACAGCTTAGAAGTGGTATCGTAAAAGGTAGATATATAATAATTCTTGACGAAGCCCATAGATTTTTTCCTTCAACTCAAGGCAGTGAAGAGGATACTTACTATGTTAGAAGAGTTGCTGGAAAAATATCAATGATGATGAGATTAGGAAGAAGAAGGAAGATAGGATTTATTTTTTCTACTCATAATCCTGCAGATCTTAGTGACATAATAGTGCAGCTTTCCAATACTAAAATAATTTTTAGAATAAGACCAGAAATTTCAGAAAACTTTGGATTAACTAAGATGGAAGCAAAAACATTAAGTTGGGAAAACAATGGCGTAGCATTTATAATTTCTCCATGGTTAAGAGAAGGAAGAATAAAGGTAAAAGTCCCTGTACCACCTCCAGTTGGTCATTATGACTTATCTAAAACATAAAGGTGAAGTTATTTGGAATTAAAAACAGCATTACAAGAAATGTTGGAAAAAAAAGATGAGCCATCAGTATATAATTTCATTAAATGTATAGTTAACCTTTTTCCTCCATCTGATGACTTGTCTATATCTGTTATAAAGAGAGGTAACTACGAATATATTTTAGACAGAAAAGGTCTATGTTTAGTAAGTTTAGCTCAAGATGAGTATTTGCCATTTTTTTCTGCAGCAGAAAAAAGACTAACTACAATTCCGTACGATATCCAGGATTATATAGTTAATAACTGGAAGATGATTTTAAAGGAACTGGAAAAAATTCTAGATCAATACTCAAAAAGAGAATCTACATATGAGAAAAAATTGGAAGAGGTAAAAAGTCTTGTTAATAACTGATACTCGTGTTGAGACTGTAAATCTTGTTCATTATGAGCAGTGTAATTTCATGGGCAGATTACACGGAGGAGATATGCTAAGAATGCTAATTGACACTGGTATGTTATCCTCAATAAAGGCCGCTAAAGGTACTTCAGTTTTAGCATCACTAGATAATGTAGTCTTTAAAAAACCCATATATCTTGGAGATATAATAAAAATTAGCGCTCAAGTTGACTATATAGGTAATTCTTCTATGGAAGTTGAAATGGCCGCAAGCAGAGGTGAAGAAATACTGGTAACATCTACTGCAGCTTACGTTAAGATAGATCAAAATTTTAGACCTATTGCAGTAGGAGACAAAATAATTCCTTCAAACGAACAAGAATTGAAAATCTTTAAGAATGGAGAACAAAGGAGAAAAGATAGATTATCGAAAATAAAAAAGGACGTTGCTCAGATAGATCTTTCATCGAAATTAAGTAATAGAATTAGTAATATTTTTTACGTGAGTCCAGATATGACATACGATGGCAAAGTTATTTCTGCTGGTAGATTACTTAAATTAATGGATGATCTAGGTGGGATATTAGGTCTACGGTTAATTAATTATAAAGGCTATACGTCTTCTGCAGATACTGTAGTTACTGTTTCTGTTTCCAATATGAGTTTTTATTCTCCCATAAAATTGGGCGATATAGTTCAAATAAATGCTGGGCTTACTTATGTTGGTAAAACTTCAATGGAAGTCTTAATAACTGTAATGAAAAAAAGTCCTTCTACTGATTTTGAAGTAGTTACTACAGCATTTTTTAATTACGTTAGAGTTGGAAGTGACGGAAAGCCAAAAGAATTTCCTCAATATATTCCTCAAAACGAATACGAGAAAAAATTTTGGGATGATGCATTAAACCGAAGACGCAAGAATTTTTCTTAAATAATTTGCGAATAAAAAGGCAGAAAGTATAAATGAATAGAATATTGCCATATATGCATTATCTAAATTGTTGCCTATTATACCTGCAGTAAGGCTTCCAAGAATACTCGCTATATCTTCCACTGCATTAAAAATACCTATTATAGTTCCTCTATTCTTTTTCAAGTTTCTAAACATTACAGAGAAAAATGATGCACTATAAATTGGATATATAGATCCGAACGATAAAAATAATGGAATGGATAACATACCAATTTTTAATTTTGATAGAATTAAAATGGAAATACCAATAGATATTACTGCTCTTATAAAAATTATAAGGTAAATATAATATATTTCTCTGTTTATTATAATCTTTGACGAGAAATAATAGAATATTTCATCGACTATATAGAGTAAGGCATAACTTGCAAATATAAAGTATTCTGGATTTCCCATAATGTAATTGAACGGAATATAAATTGTAAAGAAAATTTCTGCTGCAAAATTGAAGCTGAAAAATGATAATATCGCATATAGCTTATTTTTAACTTCCTTTCGTTCTTCTGTTTTATCTCTAGTAATTGAGCCTGTTACGTTCCTTATAAACAACACATTAGAAACGAACGCAATAAGGAAAACGAAGGTTATAATTTCAAAATTGGGCTTAAAGATTGCCAAAAGACTACCCGAAATATTACCTGCTAATGTGAATTGTGATAATCTAATATTAGCTTTAGGAAGCTCTTCAAAAGTGAAATTTTCTAGTAATAAAATAGAATAAAGAGGTGCATCTATTGCATATACAAATCCTAGTAATCCATAACCTATAAACCCTAGTATAATTGATCCAGAAAATAGCAAGATGCTACATGGTATTAACGAAATAGGTAGCAAGAATAAAAATTCCTTTCTCCTTTTTATTGTATCAAGGATGTTACCCCAAATATATGAACCAAAAGCATTAGCAGCATTGAATATCATTGAAACTATTCCTAGAATTAATATAGACTTCGTTTCATCATATACTTCTACTGGATATAGTAAAGAAAGTTCTGTAATACCAGAAATTACTAGAGCCTGCCCTATGAATAGCCTCATCCGAATTCAAATGATTCATTCAGTTAATCTTTAAAGTAAACAGCTCTAGATGATGATGTGAATTACATAGCCCTTGCCATAGCTTTTCTTACATATAGTTTGATAGCGTTTAGAGGTATTACAAAAATACCACCTTGGGCATCCATGTTTTTTGGTGGAGTTTTAATGGTTGTATTCAATGTAATTAGCATAAATTTTGCTCTAAAATATATCAATTTAGACGTGATTTTATTCTTAATTACAATATTTATATTTTCCTCTGCTCTAGAAGTTTCTGGTTTTCTAAAATATTTAGCTTACTACATCATTTCTAAATTCAGAACTCCAAAAAGAATAATCATGGCTATAGTAATTTTCTCTGGTTTATTATCAAATTTTGTTACTAATGATGGTATTTCGTCAAGCTGGACGCCTATTATGTTAGAAGCTAGTAAACAACTAAAAATCGATGAAAAGCCTTTTCTTTACTCCTTAGCTTTTGGTGTAACAATAGGCAGCGTAATGCTTCCTACTGGCAATCCCCAGAATTTACTAATAGCACTAGAAGGTAACTTAAAACAGCCATTTATTTTATTTTTAGAATACTTAGGTATACCAACTGTATTAAACTTAATTATTAGTGCATTTATGATATATTTTATTTTCAGAAAATATCTATATAATAAGGAAATAAAAGTATCTAATATAAAAATGGAAGACGTATATACGGCAAAAATAGCAATAATATTATTAACTATAACTATAATTCTTTTCTTTCTTTTAAGCCTTTTTAATATAGATATATTACTAGGTTCCCTTTTTACATCTTCTTTACTGCTCATTATAGTAAAATCTAGGCGTGAAATAGTCAGAAGAGTAGATTGGTCGATAATTATATTTTTCATAGGTTTGTTTTTATTTACCGGTGGTTTAATAAACGGTGGAATAATATCTTCTTTAACCAGCATATTTCCACCACCTTCTAGTATATTTATCATTATGTTGATAAGTATTTTATTAAGTCAAGTTCTTAGTAATGTGCCAATGGTAGCAATATATATACCTATAATGTATGCAAATAATGCTGTAAGTGTATTTGATTGGCTTGCATTAGCTGCAGGAAGTACCATTGCAGGTAATTTAACTCTTATAGGTGCAGCTAGCAATATAATTATTTCTGAATCTTCTGAGAGTAGAGGTGGGAAAGGATTTGAATTTTTTGAATTTATAAAATATTCAATTCCAGTTTTGATTGAAAATTTTTTAATTTTGTATTTATTTCTTAGTTTGAAAACTCCTTGATACTGCCAATAGTTGCATCTCGTTAGTACCTTCTGCTATTTCCATAATTTTTGAATCACGATATAATCTTTCTACTTTTGATCCTCTATTTAATCCGTGGCCACCAAATATATGTAACGCAGTTCTTGTAGTCTCGGCAGCAGTAATTGCTGCATAATACTTTGCCATAGACGCCTCAGTTAAAGCTTCTATTCCGTTATCTAGTAAGGAAGCTGCCTTCCATGTTAGTAGACGTGCGGCTTCTATTTTTATATAAGCATCAGCTAAATTGAATGCTATCCATTCTTGATCTATTAGTGCTTTACCAAATTGCTTTCTTGCAGACGCTCTATTTATTGCATCTTCTACTGCACCTCTAGCGATTCCCACTGCTATTCCTGCGTATCCATTTCTACTAACCATTAATGCCTTTATTGCTCCTTTAAACGCATCTCCTTCTTTTCCAATTATCGAGTCCTTAGGTATTCTTACATTATTAAATTTTACATAAGACACGCCAGCACCTCTAATGCCCATAAGATCTAGTTTATGAATATCTACTCCTGCAGTTTTTGAATCTACTAAAAGTAGCGAAATTCCATTTTTATCACCAGGGTTTCCACTAGTTCTGGCAAGAACTACCATCTTCGTAGAAAACGAAGCTGCACTAGTGAAGATTTTCTCTCCATTTAATACTAATTCATTTCCGTCTAATTTAGCATTTGTTTGTAGTGCTCCTAGATCCGAACCAGCAGCAGGTTCAGTTAAAGCAACTGCGTATATTTCTTCGCCTTTTATTCCTTTTTCTATAAGGTCTTTAGCTGAATCCCCGCCAATAGATACAAGTAATTGTAAAGCATTTAATTGTGTATGAAGACTATGCGAAGCTCCACCACTCTCAGTACCTAATTCTTCCGTGGCTATAGCAAACGCTATTTCACCTAAACCAAGTCCACCGTATTTGGATGGTATTTTCATTCCTAGTAATCCCATTTCCCCGAAATCTCTGACTATTTTTTCTCCTCCCTCATTTGTCTCATCCATGTATTTAGCATAATCCTTAACCACTTTTTGTACATAATCTCGCACTTTTTCTCTATAATCTTCTACTTCTTTTGGTATTTCAAACATAAAGCATCAGAATATAAAGAGTATAAATAATAATAAACCTTATGTTATTCTTATGTTAAGAAACCTTATACTATCATTAATATTCAATAAAATCCCATTAGATTTTTCTGCAATGAGCTTATTATAGCTAGGTAAGAATTCTGAATAATTAGTGTCTATAATAATTACTTTTGAGATTTTTCCCAGTTTATAGCTTAAACATTCTAGTTCATGCTTTATATTTCCGGAAATACTCACGTTAGCTTTTCCATCAGTGATTATAAATGTTATCGGTGTAGCATATTTGCTCTCCTTTCTTAGAATATTGAAAGCATTTAATAAAGCATGACTCAGTGGAGTTTTACCAAATGGTCTTGTATTAGAGAGAATCTTATTGAATTTGTCAAAATTCTTTGAAAATGGAATTATATATTGAGACGCTGTACCAGAAAATGTTATTAAACCTACTTTACTTCTTAATTTGTAAGCATTAGCTAAAAGTGAATGAGATATCCGTGTAGCTATATTTATTCGCTTATTAAAATTCATGGATTTACTAGTATCGAGTAAAATTAATATAGGCAACGAACCTTTGCCTAAGTTATCTCTGAGCACTATATCGTCTTCTGCTATTTTTCTTCTTTTATTTAATGCCATATTTACTATTGTAGAATGAAAATCTAGTATAGTACCTTCATGATTATCTAGGTATCCATAAGATTTTGAAACTCCGCTTTTTCCACTTTTTTCGCTATTAATATTTTTAGTATCAAAATTAATTTTTATGTTCTCTTTATCTAACTCGTTATTCTCTTTATTTTCATTTCCATTCTCTTTATTCTCAGTTTTTTCGTTTTCATTTCCTTTTTGATTATCTTCTTTATCTAAGTTATTTATTATCTCATTTATGTTAGGTGTATTATTTAGACCTTGATTTAACGGTTCATTTTTTAATCTATGTGGCAATACTAGTTCTAAAGCTTCTTTTACGTCTTTCAGATTAACTTCCTTTCTTCCTTCCATTGCCGCAATAGTTTTAGAGACTTTAACAGCAGCTATCATAGCTCTATTACTTAACGAGTATCTTAATACCACGTTAGCTATGATTTTCAATAATTTTTCAGAAATATCAACTTCCGGTAATAATCTCCTAGCAGTGATAATCTTTATTTCTATTTCTTTTTCGTTATTTAAAAATCTTTTTTTGAAGTTTTCTGGATCTTTTTCAAATTCTTCTACTCTATTAGCTATTTCTATTAATTCATCTTCAGATTTTGGAGATTCTGCTTCAACTGAAATTCCAAATCTATCTAATAATTGCGGTCTTAATTCTCCTTCTTCTGGATTCATTGTTCCTATTAATATGAAATCGGCCGGATGAGATACTGATACTCCTTCCCTTTCTACTACATTAACTTTTGATGCTGCAGAATCTAGTATAGCGTTAACAATATCATCATTAAGTAAGTTAACTTCGTCTATATATAGAATTCCCCTATTTGCTTCAGCTAACAAACCTGGTTGCAATGACCTTATTCCGTCCTCTATAGCCTTTTTAATATCTAAGCTTCCTACTACTCTATCCAGAGTAGCGCTTACTGGTAGGTCAACAATTCTCATCTTCCTTTTTTTGGTGGGAAGCTTTTCTCCAGCTAACAATCTTCTTTTGCAGTTTTCACACATCTTATTATTATCGTAAGGATCGCAGCTAAATGGACAGTCTGCAACAACATCTATTTCAGGCAATAAATTCGCTAAGGCTCGTACAGCAGTAGACTTAGCAACTCCTTTAGGTCCTTTTATTAGGAGTCCTCCTATAGACGGATTTATAGCTATTATTAATAGAGCCTTTTTTAACCTTTCTTGTCCTACTATTGCAGAGAAAGGTAAAATGTTTCTTTCTACCATTCCTCAGATTCACCTTCTATTTTAGTATATATATCTTCTATTTTTTCTATTGTGTCTTTCTTTGGTTTCCATATACCTCTTTTTTCGGCTTCTATTAGTCTTCTTGTTATTTCCTCTAGAGCCCAAGGATTTTCCTTTAAAAACCAATTTCTATTATTATCGTTAAAAATAAATTTTTCTGCTACTTTATTAAATATAGAATCATTTACTAAACCTGTAGTAGCTCCCCATCCGTAAAGGTGTTCTATTTTCTTTAAGATTTCTGTAGCTCCTCTATATCCAAATTTTTTCTGCGATTCTATCCATTCATCATTAAGCAACTTTAAAATGCTCACTCTCTCAATCTCGTCCTTAAAAATTCTAATTCTAGGATTTTTAGGATTAAATGTATCTTCAAACATAAGCTCTGGATTTTTACCTATTTTTTTACATACTTGGAAAAATCCTCCTATATAGCTATAATTACAACTATCGTCTAAGATATCTATTTCATCTATTTCTCTTTTATGTACTATGAGATCTATTTTACTGGAAGCTTTTATTAAGTCTTCTACTGCTCTTATTCCGTTTTTACCTTTACCATAAGAGTATCCCATCCAGTTTAGATATACATTAGCTAGATCGTCTGAAGATTTCCAGTTAGATGATTCTATAGCCTTATCTGTACCTGCTCCATAAGCTCCAGGTTTGGCAGCGAAAATATGCTCAAAATTGTCTTCTTTGAGATAATTGTTCTGGGAATTTTCGTCTAATTTTTTTACAGTATCTATAGCTTCGTCTATTAATTCTATAATATTCATTAAATTATCTCTAACTATACCGCTAACTGTTATTATAGTGTCTATCCTTGGTCTATTTAGCTGATCTAATGGTATAGGTTCTATTCCTATAATCTTTTTAGTTACTGGATGCCATTTTGGTTTTACACCTAATGTATGAAGAATCTGTGCTACCAATTCTCCATCAGACCTAAAAATATCAGTAGACCATAATACGAAGCCTATGGCTTTAGGATATCTTCTGTATTTTTTTCTATAGTCTTCAATGAGTCTTTCAGATAGTATTACTCCTATTTGCCACGCAGATAAGGTAGGTATTTTCCACGGATCTATAGAGTAAAAATTTCTACCAGTAGGCAAAATATCATATCTTCCTCTAGATAGTGATCCTGAAGGTCCAGATTCAATAAATCCCCCATCTAAAGCATTAATTAGATTTATTTTCTCCAAATGTGCTGATTCTATTAGTTTAGTAATTACATAATTTTCTTTAATTGGCAACTTATAAAACCCATGCATTGCCTCTATTATTAATTGTTTGGCTTTTTCCCTTCCTACCTTATTTACTAATGAATCTTCTTCAAATCTTGTTGTAGATATTACGTATTCTGCAATATCCTCTTCATTGGGTAAATCGCCTAGGATATGTAAACCTTTTGAAATACTTGAGTCTTTAAATATATTGAGTTTATGTTCTATTTCATGAGTAGCTTTATCTGGATCAGAGAAATCTATTTTTATGCCCACGCTATTACTTAATTCCTTTATCTGTTCTAAAACTAGTTTTTGTCTTGATTTATTTTGTGCTCTTTCTGACTCTTCATATTCTTCAATCAAATCTTCTAATTTTCTAGCATCTTCCGGTATATCATCAGAAGTAGGAGGAGAAAGGTGATCTATTAGTATAGCATAGCTTCTTCTTTTTGCTGTTATTCCTTCTCCAGGAACGTTAACCGCATAGATATATAAGTGTGGTATTGTTCCTATGGAAATTTGCGGAAAACATGAAGGAGATAATCCTACACTTTTTCCTGGTGTGAACTCTAAAGTCCCATGAGTTCCAACATGAATTACGGCATCAAAATTATCATTAATCCATTTATAGAAGGCTAACCAGAAATGATGTACAGGTAAGTCAGAATTATGAGTTAACCTTATTGCATTTTCGTCATCTTGCCATGTAACTCTCTTTGGTTGAACTCCTACAAAAATATTTCCAAAAAATATTCCGGGGATGATAAATTTAGTTCCATCAAACATATAATTTCTTTCTCCATGTTTTATTTCTCCCCAAGTATTTATTACAAGTTTTTTAGATAGTTCTGGGAGAGAAGAGAAGAATTTTTCATATTCCTGAAACGTAATATAGCCAGCGTCTCCTTTTTTACTTAATATTTCTTCTAGGCTAGTATACTTAGTTTCTGGAATAGCCTTCCTACCTATTATTCTATTAATAAGATCTTCTCCATCTTTAGGAGGAATGCATCTATATCCTCTTTTTCTTAATTCGTTTATAATTTCTACAGTGGTCTGAAGAGTATCTAGTCCTGTAGCAGTACCTATATTAGCTTCAAGATCTTTATATGCAGATGCAGAGTGAAGTATTATAGCTATCTTTTTATCACTATTAGGTTTATATTTTAAGTTAATCCATCTATATACTCTTTCAATTAAATAGTCTATCTGGTTATCTATACCATTAAGTTTTCTAAATCTATACTTTCCTAATTGCTGAATTTCTATAGTACCAACTATTATAGGCTGTGTAGTTCCATCCATTTCAGGAATAGTAACGCTCATTATAGTGGAAATATTATCTACGCCAGTAGATTCGTTCCATTCTTTTTCTGACTTAAAATAGTTTATTATACCTTGAAATATAGGAACATTTAATTTTTTTAATATTCCATTATCTTTATCTTTTATCAATGAAAAGGAAAGTAGACTTATAACAGCATCTACTACCGGTTTTCCATTTAACATAAAATATTTGCTTATAGCATCTTCGTTACTGTCTATATTTTTAGATTTATCTCCAAAGCCTTGTACAAATACTGGAATAGGTATTATATTTTTCATACTTAACTTGTCAATTATCTTATTCACTATTTCTAGATCATTATCTACCCATTCCGATCTATAGAATAATATTCCTACCTTTTTTAAATTTGGATTACTAAAATTAGATAGATATTTATTTAAATCGAGATAAACATGATCTTTTGTATAAATTCCAGAAAATGGAAGAGGAGTTGGGTCCTCATATTTTATATTATATTTAAATGATAATAGAAATAGCATTAGATTTCTGATGTTATCCGTTCCACCAAAATTATAATATTCTATAACTTTTTTAGTAGATATTGGATCTAATTTATTGTACTTTGATAATACAGGATCTATTACCGCCACTATTTCCTTTCCTTCTAAAATTTCATGAATTTTATCTATAATTTCCGAATAAAGTTGTTCACTCGAAAAATGATGTATAAAAATTGCATCAGATTTTTTTAAATCTTGTATAAAATCTTCGTCAATTGGATCTAATCTTGGATATTTTATCGATAGTTCTATTCCAGTTTTTTTAGCCTCTTCTATAAAAGTTCTGATTACTGAACCGTTCCAGCCGATTAGAACAGAAATTTTCATTATACTTATCCTTTAATGTACCATATATAAAAATTTGGTTAGCCTATCCATATATTATTATTCAAAAAATTATCTAGCCTTAAACTTTTATACTATTAGTAAAAGATACAAAATGGGGTATCTGACCCCTGACAGCCTCGTAGTAGGCGGAATGAGGAGGGTTTCCTGCCGTGATTTTTATATATATTCTTCAAGTTCTGCTTTCAATAATAATGCTAGTCCACGTATCTATATTGGACGTTAAATATCGTGAGATAGATACAAAAATTTGGTTATTTTACTCACCTTTAGTTCTCTTTTTTATTTATAATATAAAATTCTTAAATATTTACTTATTTTTATACTCCTTTATAGTAACTATTCTAATATTATATTTTTTCTATAGATTATCTTTTATGGGGGGCGCAGATTTATTTGTGATGATCATTTTAGGTCTAGTTGACTCAAGTGTTCATCCATTATTTTATTCTTTCTTCTCTATAATAGGAATGGAACCTATAATTATAATGCTTTTTGCGTCTCTTCTTGTTTTTATGTTTGTTATAATAAATTTTATAAGATACTATAAATACACAGTAGGTTTATCGATATCTAAAAGGATATTATTATCCATTTCAGGTAAAAGAATGAAAATAAAGGATTTTATTAATTCTAAGTTTTTATTTCCATTATCAGTAATTGATGATAAAGGTAATGAAAGTTTGAGAACAAGTTTCTCAGTAGACGAAGATGATCGTGAATGGAGAGATAAATATACTAAACTTGTATTAAACAATATCATTAATGAAGATAAAGTGATATGGGTTGCGTACGGAATTCCTGTTTTACCATTTATTTTATTTGGATATATCGTAAGTCTAATTATTGGGATACCGATTTAATCTATAAATAATAATCTCTAAACTCAAAAGATTATTGAGTTGTATGTTTCTAAAGTTAAGATAATAGCTAATAAACAGAATAATATAGCAAAAGAACTATCGAAGGATTTAGAAGAATTAGGCTATTTTATTGTAGATAAAAATCCTGATGCAATAATATATTTTTATCCTATAGGAATAACTATAAGAAAAATTGCGAAAAATCTCAAAAATAAGGAGAAAGATCCAGTTATTATTTCAATAACTGATGATGGAGGTTATGTTATACCTTTAATAAAGGAACATTGGGGAGGATCCTTTTTGGGTGGAATAATAGCTGATTTATTAGGATCTCAGTTAGTATTAACTTCTAGAACAGCTCAATTAGGATTATACAGTGTAGAAGAATTTGCATGGGTAAATGGATTAGATATTGTCAATAAAAATAGACTTCTTGAAATGGAGAAAAAGTTAATAGAGGAAAGAAAGTTAAATGTGTTCTCTGAAGCTGTAAAACTTTGTAAATTAGAAGGATACAACGTTATAGATGATTGTAAAGACGCGGATATTGTAGTTGGTTTAGATTGTAAAGACTCTGGAAAATTAGTGATGAGACCTTACTCTATTGCTATGGCAATAGGATATACTTCTTCTGCTCCCAAAGAGTCTATCTATTATTCAATAAAGTCTACTCTTAAATCAATATACATTTCTGAAACTCGTCTTGATTTTATTTTAGTTCCAGAAATAAAGAAAGAGGATCAAAAAATAAAGGAAATAGCAAAATCTTTAGGTTCTACAATAATTTATGTACCTATTGAAGAATTACGAAATAAAACTCAGTCTACTCCTTCTCAAGTTGCTAGAAAATATTTTAATATTGAAGGAGTCTGTGAGCCTTCTCTAGAGTTTTTAGGAAGCAAAATAATTCTAAAGAGAACTAAAAGAGCTTATGGAGTAGTTACATGTTTGGGGATAAAATGATAAAAGTCGTAGGCATTGGAGCTGGAGGTAAAACATTAACATTAGAAGCTATTGAAGCAATCAAAAAAGCGGAGGTTATAATAGGCTATTCAAGATACATAGAAATGATAAGAGGTTATATAGAGAACGCAGAAATAATTTCGTCTAATGTGAATGAGATAGGACAGAGAATAGATGACTCTCTAAAGTTTAGCAATAAAAATACTATTGTTATAAGTTCGGGTGATCCGATGATATACGGTATGGGATCTAGATTATTCAAGTATAATGTAGAAATAATTCCTGGTGTAACTGCTGCATCATTGGCTAGTAGCGTAGCTAAGGTTCCCTTAGATGATTTTGTAACTATTAGTTTAAGCACGTACAGTAGAAGTCTTAAGGAAATAGAAAATAAACTAATAAATGCAATAAACGGTAATTTTACGTTAGTAATATATAATATAAATCCCGTTGCTAGAAAAGAATCTGCCTTATTAGCAGAAAATACTCTCAAGAAATATGCCATAGATTGGGACTATTATATGGTCTATAATGCCAGACGTGCTAACCAAAGGCTAATTCATGGTAAAATAAATAGCCTAGATATTAAAAATGCTAATATGGATACTATTTTAATGGTGAAAAAATGGTAAAGATATATAACGAGATACTAGATGAATACTTGGAAATACCTAGGCCAGTCAAAAAAATAATTAGTCTAGATCCAGCCTCTACTGAAACTATCTTTTTCCTAGGATATGGCGAAAAGATAATAGGTACTGACGCATTTAGTTACAGACCTGAGGAAGCTAAGAAGATACCTAAAATAGGTAGCTATACTCATGTTAAAATGGAATTTTTAGAAACTCAAAAACCTGATATAATTTTTACAACTATGGGAGCACAAAAAGATTTGACTAAACTGTTGTTAAATAATGGATATAACGTTTATCCTATTGGTGTTGCATCAAGTGTTAGCAAAATTCTTAATAATATAATTATAATAGGTGAAGTTTTAGGGATATATGAGAAATCACGGGAACTTTACTTAAATCTATTAAAAATCATTGCAGAAAATATATCTTCACCTAAAATAAATGTTTATCTAGAATTTGATCTAGGAGGTCCGATAACTGCAGGTTTTCCTACGCATGTAAGTGATGCAATAAGAATAGCCGGTGGTAAAAATATATTTGATAAATTTGAAAACGCATATTTTGAACCTAATCCGGCAGATATCATTGAAGGAAATCCAGACATTGTAATTTATGAACCTAAGCGGTTTAGTGAGTATGAGAAGGAAAGATTTCTTAGGTCTCTCGAAAATAGAGGTCTTGGAAATCTTATTTCTAAAAAAATATTCTATACGAAAGGTGACTTTCTAGCTCATCAAGGTCCAAGTTTCATTTCAGATGGTATACCGTGGCTTAAATCTATTTTCTCCTCCTAGAAAGTAGTTCTTGTAAAAGTGCTATTATTGCAATAGCTGCTCCTGCTAATGCTACTATTTCCATTACTTCATCATAAATACTTAGCCCATAATAAAAGCCGTTAATATAACTTGAAGGAAATATACCATAAGTATATTTTATTTCTTGAGAAGAATTTTCATCATTTATTACTACTAAGTCATATTTTCCGGGTGTAAGTTGTAGTCCGATTTCACCTTGAGCATTTCCTAATTCTTTGAAATTACTAGAATTATAAATGGATACGTTAGCGTTAGAGTCTACTACAAAAAATATTACAGAATTATTTTTAGGTGTTATTTGAATAGTTTTGACAATGTATTGTGCATAAGGCTTAACAGTTACAATATTTTCATTATTAGCGTATACATGATTTATAGTAGAATAATTAGGGTAGTATATTGGTGCCGCAATCACTGCTATTAATCCAATTAGAAAAATTATAACACCAATAGCTATAGTCTTAAAGTTCATAGAGTGATTATTATAATCTAAGCTTTTATATCTATTCAATAGATTATAACCCATGGCCGGTGGACAAGAAATTAGTTAAGGTTTTGGATACTACATTAAGAGATGGATCTCAAACAGCCTCCATATCTTTTACTTTAAACGATAAAATAAGAATAGCTCTATACTTAGATAAAATAGGTATAGATTTTATAGAAGGCGGATGGCCTAGTTCTAATCCTAAAGATTATGAGTTTTTTAGGAAGATAAAGGAATACTCATTAAGATCCAAAGTAGCCGCATTTGGAAGTACTAGAAGGAAAGATACTAAAGCTGAAAAGGATCCTACTCTAAACTCTATTTTAGAATCCGATGTTGATACTGCAGTTATTTTCGGAAAATCATGGATCTTACATGTAACAGATGTTTTAAGAGTATCTAAAGAAGATAATCTTAATCTAATAACTGAAAGTATAGAATATTTAAAGCAACATGGACTTTACGTTATATTTGATGCAGAGCATTTCTATCAAGGATTTTTGGATAGCGCAGACTATGCTATGCAAGTAATTAAAGCTGCTGAAGAAGCTAAAGCAGATGTTATAGCACTAGCAGATACCAACGGTGGAACAACACCAGATAAAATATATGATATAACTAGTTACGTTGTAAAGCAGACTAACGTTGAAATTGGTTTGCATATGCATAATGATATTGGGTGCGGTGTGGCAAATACTTTAATGGGTGTTCTAGCTGGTGCTCGTCATGTTCAAGGTACTATAAACGGTATAGGCGAAAGAACTGGAAATGCTGACCTAATTCAGATAATACCTACATTAGTTTTAAAATTTGGGTTTAAGGTATTAAAGGACATAAATAGTTTAAAAGAACTTAAACCATTATCTAGACTAGTCTATGAGTTGTCAGGAGTTAGTCCTAATCCTTTTCAACCATATGTTGGAGATAATGCATTTGCTCATAAGGCTGGAGTTCATGCCGATGCTGTAATTAAAAATCATAGAGCTTACGAGCATGTAGATCCAGAAAGTGTAGGAAACTCTAGAAAAATACTCATATCAGAAGTAGCTGGTTCTGCTAATCTTGTAAACTATCTTGAGAGATTAGGTATAAATATTGATAAAAAAGATCCTAGGCTGAAATCTATACTGCAAAAAATAAAAGATCTAGAAAATCATGGATATAGTTTTGATATAGCGCCAGCTTCTGCTGCGCTTATAGCTTTAAAAGATTTAGGACTTTATGAGAAAGTATTTGATGTAGAGTATTGGAAAGTTATTAATGAGAATGGGCTTGCACTAGCATTAGTTAAGGTAAATTCATATTTGGAAGCTTCAGAAGGAGTAGGTCCAGTAAATGCTATTGACCTTGCTATAAGGAAGGCTCTTCAGAATATTTTCCCTGACATATCGAAAATAAAGCTAATAGATTATAGGGTTGTGTTACCAGGAGAGATAAAAAATACTGAAAGTGTGGTTAGGGTAACAATCGAATTTACAGACGGAGAAAAACAATGGAAAACTATAGGTGTTTCGAGAAGTGTAATAGAAGCATCAATAGAGGCATTAGTGAGTGGGTTCGACTATTATATTCAAATTAGCAAGAAATTAAAACCATTAGTGGTTTAGATAATTTGTGACTTGGGATCCAGGAGGAGCAAGAGGAGGTAAAGGTAAACTTTATCTTATTATGAGATTCTTAAGAATGGAACAAACTTTATTTAGCCTTCCTATGGCTTACTTAGGTGCTTTTATAGCTATACGAAGAGTTCCTTCCATTTATATTCTAGTTTTAATATTTTCTGCATTGTTTTTTTTACGTATTGCGGGAATGACAAATGATAATTTAGCTGACAGATTTATAGATTCTAAAAATCCAAGAACTAGATCTAGGCCATTAGTTACTGGAGCTATAAGTGTAACTGAGGCTAGAATCTTAATAATAATAGGTTTACTTGGTTTCTTTATTTCTGCATATCTTGTAAATATATGGGCTTTCATTTTATCTCCAATAGTAGCCCTAATAGTCATGACATATCCCTATATGAAAAGATTTACAGCGCTTGCTAACTATCACTTAGCATCAATACAAGGCCTCGCAATATTTAGTGGTGCAGTAGCTGCTGCAGGAGTATATTACAATTCGTTATTAAGAGTATTAGAAGCCGTACCATGGTATTTTGTTATAGCTACTATATTTTGGGCTGTTGGTTTTGATTTATATAATCATATTCCAGACATGGAATTTGATAAACAAATGGGTTTACATAGTTTTGCGGTCGTACTTGGAAATTCTGCATTACAGTTTGCTGGAATAAATCAATTATTGTCTGTAACTATTGATTTTGTTGCAGATTTTTCATATGGATTAGGATTTTTATCATATATATCTACAATAGCCCATGGATTAATAATGGCCTATGCGTATTATTTAGCAACAAGAAGCAAGTTTGGAAGTGCGTTCTATTACAATATATATTCTTCCATAGTTTTGGGCTTAGGTATAGATATTGATATTATAATGGGTATACCTAAGCTCTAGGCATATCATTAAACTATTTAACCCCATTTTTATTATATAACTATTGAGATGCTCAGGGACTCAAATGAATGACGAGGATCTCCCCCGGACGCCCCCCGGGTCCCTGGGCATCTACTCTATAGATAATAAAGAAATCCCATGTTTCCTTTCCTAATTATATAGTACTTTTCTATAAATTTTTTCATTAACGCTCTTATCCTAGAAATTTTAGCTATATTCCATGTATTACCCCAAGGCACTTTAGATCTAATATGCAAGGCCTCTCCATAGCCAGTATCTAGGATAAAAATAAAAATTGGATCAAAAGGAGAATCATTATTTTTACTTAATTTTTTTCCTAAAAATCTTCCACTTCTCATTGCCAATTCTCCTAGCTTAGGCCATCCAAATATTATGTCACCAGCAGCATATACTCCTTTTTTGACCTCTAAATTTTCATTAACTTTCAAGAAATCTAGAAACTCTGGTGGTTCACATTTTTGAAGAATTAAATTTGGTTTCTCATAAATTTTTATATTATATTTATCTAATAGTATATTTACTTTCTCCTCTACATTTTTGCCTAGCCAGCTTAATGGAGATCCAGAGTATTTTACGTCTTTTCCTAATCTTTTAGCATAAAAAGCCATTTGTAGTGTTATGTATTCGTCATACTGATCTTCTGCGCCAAGTATTATATTATCTGTTTTAATTAATGAATTGATAATTTTATCTAGATTTAGTCTTTTACATCCCAAAGTTACGATAAGATTATCAGCATAATACTCATCCTTATCTGTTTTGATTATCCTATCTTTAAGATCTATATCCTTTATTTGCTCTTCTTTTATGAATCTTACTTTAGAGATATAATTTGTTTTTTCTATAATATTACGTAGAAGTGCAGTGTAAAATATGAACTTATTTGTATTGGAAAGTAGTATCTTATTACGATTTAGATTATAATACACATTAAGACCCGCATATCCTCCGCCTAATATTATGTTTTTCACAAATGCTCATTTTGTCATAAAGTTAAAAAGCTAGAAACCTTTTCTCCTATCGTGAAACTAAGTTTAGCTTATTCTATAGATGAAGAAATATTACCTATAATGCCCATAATTAATGGTGAAGTTTTAAAGGGTATTGAAATTGAGCCTAAGAAAGTTTCTTTAGATGAGATAAAGTTTAATTATAATAATTATGATATTTTCTATGTTCAATTACCGTTGTTTTTGTACATTAAAAATGTAAAAGTAATTTCTAATGGCGCATATGTAATTGAAAAATTAGGTTCAGAAGATAGTTTAACTTCTTCTTCCTCAGTATGTGTTGAAAGTACATCTTCGACTGAATTCTATCTTTTAAAAATTCTCTTAGGTTATAAAGGTATTCCAAGAAAGAATGGGAATTGTATAAAGTTAGTACATGATTTGGATAATATTTCTTGTTTATGGAGAGAACAATGTGGAAACCTTCCTATCATAATAAGTCTTATAGGCTCAACTAAACTTTCAGATGAAGAAATGAGTATTCTAAAAGTTGTAGTTAGAGAGTCTGCCTCACTTCAGGAAAAAAGAAATCTAATAAAAGCATATTCAAAAGAGTTAGGACTTAAAGGAAGAGATGCTTTAAATTGCTTTTTCCAATTATGTAAGGAAAAAAATATATGTAATGAGATCTCTTATGATATATTATGAACTCTCTTACTATTTTTTATTAATTTGAAAACTTTAACACATAGATAAATCGAAGGAACATATAGTAAGCTATATAAAGACGGTATAGAATACGTTAGCACTATTGATAATATTATCATTATGAGTGCGATAATTTCCTCTTTCATGAATCTATATACGGTCCTAAATTTTTATAATGACTCGTAAAGAATATTAATATGATCACTGCTTGGATGACGTAAGTAATATAGAAAAAGAAGCTGAAAAAATAGTAAGAAGTATAATAAATATTCAAGATAATGAAACTGCTGAAGTGATTATAAGAGCGATTCGTTCAACTGGAGATTTAGATCTAGTGGGAACTTTAAGAATATCTAAGAATGCTATAAAGAATGGCATAAAATATGTAAAAAATGGAGTTTTAGTAGATACTAGAATGGCTAAGGTGGCTTTAGGAGATATAGCTATATATAGAGAGCCACAACACAGGAATTCAAGATATTATTCCCAGGATCTTATAGAAAATTACAAGGATTACATTAATAATAGAATAATTATGATAGGTACAAGTCCTATTGCTCTCATAACTCTTAATAAAATGATTAAAAACAATATAGTAAAACCTTCTTTAGTAATCGCTGTGCCAGTAGGCTTTGTTAATGCTCTAAAATCCAAGATTGAGCTAAGTAATCTAGACGTGGAGTATATAACAAATATAAGCGTAAGAGGCGGTGTAGCTTTAGGCATATCGATAGTGAAAGCCTTGGTGAAACTTAGTGAGTCTTGAAAAATTTCTTTCTTCTGTTTTATTTTATACCGAAAAAGGCGATCCATTACCAGTAGCATTTGAAAAAACTAAAAAGATTCATAAACTTAAAATGGATTATGATCATGTTTATGAAATTTCAAGACTTTTGATATTGAGCTATTTTGCTATTAATAGTAAGAAGAGGTCACAGAAGGTTAAAGAATTTTTAGCAAAAGGGCCAAAACCAACTTTACCGGAATGGATGAGGAATAAACTTTCAATATATATGAATATTCAAGATTTAGAGAAATCATTGTTAACTAGAACAGTATGGTTTAGGCCAAATAGCTTAAAAAAAGATCCAGATAAAATTCTTACTTTCTTAGATATGCAAGGAATAAAATTTGAACGTGATAGAGATTTCCCGTTCTTATATAAACTTTTAGAAGGCAATATAAGAAAAACTGAAGAATTTAGAAATTTTGATGTTATAATTCAAGATAAGGCTAGTGTAGCTGTAGTAATGTCATTAAATCCAGAAAGAAAAGAAAGAATAATAGATTTGTCTTCAGCGCCCGGATTAAAAGCTCAATTAATTCAAGAACTAACTGAAAATAGTGTTAAGCTATTCTTAGCAGATTTAGATACTAAAAGATTACTTAAAGAGAAATATTTATTGCGAAAATACGGAGTGAATATGGATAATATAGAGTTTAATTTACAAGACTCATCATATAATTCGTTTTTAAGATCCGATAAAATTCTTCTTGATGCTCCATGTTCTTCGTCAGGTATGATTTCAAATGAGCCAGTGATTCTACTTACATTAAAAAATTCTGAAAAAATTTATAAATATAGTAAAATTCAAAATGATATTTTAATGAGCTCAGAAAAGATCAACGCAGATGAACTTGTCTATTCTGTTTGTTCCATATTTCCTGAAGAGGGAGAAGATCATTTCAATGTATTATACGACATAGCAGAAAAACCTTTAAATATAGGCTATAGCGGATATCCGTCTAAAATATCAGATCGATCAATAAGATTTTTCCCAAACGTTCATTCTACTGAAGGTTTTTTTATAACAAAACTAAATTTAAACAAACTAAAATGAGTGTAAGAATTCCTCTAAATTATAATCCTAATAGTCCTGAATTATCTAACTCAAAGAGCGTGAAAAAGGAAATAATGAAATTTGGATATACAACTGGGACATGTGTTGCCGCTGCGGCTAAAGCATGTGCTTTTGCTATAGTTGAGAAGAAGATTGTTAAATCAGTTACAGTAAGTACTCCTATAGGGTTAAGACTTGAAATACCAGTCAATTATGTTAAGATCGACAATGAATGGGCTGAGGCTAGTGTAACTAAGAATGGCGGAGATGATCCAGATGATACTAATGGTATGGAAATAATAGTAAAAATGAGAATTAATGGTGATAATGGGTATCTAACAATAAGAGCAGGTAAAGGTATTGGAATAGCAAGAAATAAAGGTCTTCCCATAAATGAAGGAGAACCTGCTATAAATCCTGTTCCTAAAAGACAACTAATAGACAATTTGACAGAGATTTTAGGAAATAATTTTGGAGCAGAGATAATAATAGAGGCACCTAATGGGGAAAAAATTTCACAAAGAACATTTAATCCTAGACTTGGAATTGAAGGGGGAGTATCAATTTTAGGTACTAGTGGTATTGTGAAACCTATGAGTATTATTTCATGGTATGCATCAATGGTAGAGCAACTAGACGTTGTAAAGAAAAAGGGTTTTGAGTCAGTTGTCATGGTACCTGGAAATATAGGTGAGACGGCTGCTAGAAAGTTGCTAAATGTAGATAAAGACTCTATAGTCCAAATGGCTATATTCGTAGGCGGAATGATAAAAGCGGCTACTAAGAGAGGGTTTAGAGAAATCGTATTGTTTGGACATATAGGCAAAATGGTAAAAAATGCTATTGGAATATGGAATACTCATTATAAATATGGGGATGGAAGAATAGAAACCATAGTAGCTTATTCTGCAAAACACGGAGTTCCAAATGACGTATTATTGAAAATTTTCGAATGTAAAACTACTGATGATGCAGTAAATATTTTAAGAAATTATAACTATTTTGATATATTTAGCGATATAGCGAATAAAATAGTTTATAATGCAGAAAATCTTATTAATAATAAAGCTAAAATATATACAATTCTTATAGATATGAAGGGAGAGATAATTGGATATTCTAAAGACAGCAAAAAATTCTTATATTAAAATTTTAGGTGCTGGACCAGGTAATATAGATTACTTTACATTCAAATTGATTAAAGAAGTAAAATCTGCAGACATTATAGTAGGCGACAAACGAATTTTAGAACTAATAAAGTTCATTACAGATGCACAGTTAATATATTTAAGATCAGATAAAAATTTTTATAATGATATAGAGAATATCAAAAATCTTTCAGGAAATGTAGTTGTGCTATCTACTGGTGATCCTATGATAGCTGGATTAGGAAAATTCTTCGACAATAGTGAAATAAATCCCGGCATAAGTTCTGTTCAATTGTGTGCATCCATTCTACATAAACCTTTAAACGAATCTGCAATAATATCAGTGAGATACGGTAATAATTATGATAAAATATTAGCAGCAATAAATTCTGGATTTAGAGTTTTCATACTTCCTAATCCTTATTTAGATTTGAAGGAAAATATTAGAAAGATATTATTATTAGGTCTAGACCCAAATAAAAACGCAGCTATATGTAATAATCTAGGTTTACCAAATGAGGTAATAGTAAAAGGAAAAATTGGCGAACTTATGCAGCACGATATAAATGGGCTAAATATTATTTTTATTGAACCGTGAGATATTATTAAACTTAATAATTACAGTATGAGACCACCTATTTTTGATATTCTTTTTAAGTTAGATACACCACCTGCTACCTATTGGTTAGAAAGTAGTAATGGAAATATTATTCTTAAGTCAGATATGATAAGACAACCATTTGTTCAATTATTTCCAGAACTGAAAATAGAAAATAAAGAATGGATATACCAAAGGGGTAATTCATTAATAGAATATAAATCTGGCGATACAACGTTAAAAAAAGTTGAAGAATTTCCAGGGGATGTATATTATGTATATATTGATGATAAAATTGAATATATAAAAAAGATTAAGGACTCGTACATTTTTCAAGATAACGTATATACAAACCTAATAAAATACTTAGATAAACTTATTCTTTATAATAATAAAGATTTTCTTCTTATTTATAGAGGAAAAATATTAAATTTCGAAAAACCCAAATCTATAAACGTTTCTAAAAATAACATATCATTAGTATATGATGGAATGACAAAGGTTATAGATAACGATCTTAATGTAGACAAATATAGTTTCGAAGGATATGTTTTAGGAAAGGCTAGTAAAGGACTAATTGTAAAATCTCTTTCAAATAAAATATTACTAAACGGCAATGTAATAGGTTATTGCCAAGATTTAACAGCGTTTTTGGGAGAGATCTCGAATAATATTATAATATTATGTGGTCCTATTCCAAAAATATATAGGGAAAATGGCTGGATGCAACTAAATATAAGCAGTGTTGAATATAGAAGTTTTATAAACTCAAATTTTATGATACTAGGAAATCACGATAAAACGCTAATATTTGATAACCAAATTAATCTTATATATACTCTAAATCCATCAGTTGTAATAGCAGACAGTAAAAAACTATATGCTTTCTCTGATTCTCATTATTTTGGAGTTATTAATACGTTGGAAATTAAGGACATTATAAAAATACTTAGGCATAAGAATACTTCAGAATTTCCAATTAAATTAGCTTTTAATAAGTTTTACGATATTTCATATGATAAATCATTTCTTACTATTGATAAGAAAGAAAAGGATAATAACGTAATTATGTATTTAGAACCTAAAAAATTTGAAGACGGTGAAGTAAAAATATTTTTGCAAAATCCTTTTTATCATGAGACATATAGTACTTATGTCGAATCAGAAAAGCCTCTAGTTAATTTTAATGGAAAAATATTACATGCTAATAAAGGAAAAGTTATTAATACAGATTTCAATGCATTGCTAGAAGGATATCTGGACTATAAAATACCAAGTAGGTTCAAAAATAAATTAAGGCTATCAATAGGGAAAAATAATATTTATTATGATATTTCTTCTAAAAATGGACAAATTTACGTAAGTGAACCAATAGATCTAACTAATTTTGAGGATAATATAATATTATCTATATATATAGAAAGGGAAGATTTAAGTATTTTATTAAAGGAATTCCTTTTACCTATAGTTAGAGTCGAACCAAACTCTGATATAACTAGAATAGCATATAATTATGATAATATTAGAAAAGTTATTTTGAGAGAAGAAAATGGAAAATTTGTATGGGATAGAGTATTTTTATATCCTAACTTTGCAAAAGGGATATTGGTTGCCCCTGCACATTCTTCTCTATATATTAATAATTCTAGATATTATCTTAAAAAGGGTATAAATGAGATTTGTACAAAAATTGACTCAAATAAAAGATGTTTTACAGTAATAGGAATAGATAATCCAATAGAGAAATTACTATATAAAGTTGAAAGCAACTACTTAATTATCACACCAATTATCAAATATTATTCTCCTATAGAAGTATATTATGGACTTCATGTTTATAGAGGTTTTCCAGTTAAAATAATCTTTCCTATAGATCCCGCATATAATACTGTTGTTATTAGAGCGTATATAGGAAATAAAAAATTTGTTCAAAAATTTACATTAGATTCTCTAAGAATTAGCTTAAATGTAGCTAAAATCTTATCTAACAAACTCTATGAGTATATGCATAGTTTCGGAATACTCTAGCTGTCTTAAAACATTTTTAAGATTATATGGAAAGAATATTAGATCAGTATTTTCTTTATGGTGCTAATATTACTATTAAAGATGTAAATGGAATTGGACTCTATATAATTAAAGATCCCGTATTAGATTTTAAAGATAAGAAACTTGCAGAGAAGTATATACGAGATATTCATGAAAAAGGAATAGGGTATAATTATACAAAGATAATAGAATACCTAAGTGACTTTCATTTAGATCAGTCTAAATTAGAAAAAATAGCCTTTTATGTTTTTAAGAAGCTAACTTATGACGATTTAACAGTTCCATACTTTGATACAAAAATTGAAAGAATAGAGTGCTATAGCTTAAATAAACCTGTATCAGTTATACATTCTTCATATAAAAAATATGGGAGACTATATACAAACATAATATTTAATTCTACAGAAGAAATAAGGTTCTTATTAACTAAATTTGGTAAAGATACAAGCTCAAAAAAGATAATGAGTATTGGAGAATTTTATACTTATGAAAATAATAAAATCTTATACTATTTTGATAATAACCTAATAAATTTTGAAATTATTAAGTCGTATGAAGAGCAACCTATAATAATAAATGTTCTAAGAAACAACAACATAGATTGCAATACTTTATCTTATTTATGGGAAACTTTAGAATATAAACCATTTTATATAATAATAAGTAATAAAAACAAAGCATATTATCTATTTAATTCTCTCCTTTATCTTTTACCTCAGTATATTAAGATAGCTACTATAGAAAGATATCCATTATTTAACTTTAAAGATAGAACGTGGCTTACGTTTCATATATCAGCACAATATAAGTCAAAACTAATTTCAAGTGTAAGCAAATATGAACCAGATTTTGTGCTCTTAGATTTAGATCTTGATTATATCGAGAGTTTACTAAAATATTTTCCAACTCAGTCTGGATTACTGATGTTCACTAACTTAGATTCTATTTCAAATATAATGAATCTTATCTCTAATTATCTTTCTCGAAACTTAGAAAAAATATTTGTAAATAAGTTAGACGGAATAATAGTTTTTAATGATAAACTTAGAATATTTGAAAAATATAAATTAGGTAATAAAGTTAGATTTAAAGAAATTAAAATTCCTGAAAATTTAAATGAGCTCGGTATTACTCCACAAATCAGAAACATATGCAGAAGATCTAGAAACAGCTATAATGATATAATAAAAAATATTACTATAAAATCAGAAATACTTAGAAAAATCGAAAATAATAACATAATAGATAATTCACAGATACAAGAAATATTACTTCAATACCAACAGTAATATGGAATAAATCTATTTTTTAGAAAAGCAATTAATACTGATTCTAAAATATTTATAATTAGATAAAATATTAAAAGTTTGAATATATTCTCTAAGCTAATATCTTTATATTTTATGTCTATAGAATGATAACAATGTCTTATCATAATAGAAAAATTTTTCCATTCTTAGATGATGAAATTTTTGAAAATTTAGATATTCCAGGACCTACTAAGCAGGAAATTAGAGTTATATCTATAAGCAAGATGAATATATTCCCAGGGTGCAAAACTTTAGAAATAGGAACTGGCACCGGCTCTGTATCGGCTGAATTGGATAGATTAGGTTGTTATGTTATTTCAATAGACAAAAACAAATATATCGAAAAGATATCGCATTTTAATAATGTTGAATATATTCAAGCTCACTCTGCTTTTATGTCCTATAGAAATTCTATATTTGATAATGTATTTATAGGAGGTACAGAAAATTTGGAAGATAGTATAAAATTAGCTCATCAAACTTTAAAATATGGTGGGAAAATAGTTATAAATATCTTTACTTTAGAAACTCTTTCAAAAATTCAGGAATTAGTTTCATCCATATTTCATAATTTTAATGTATTAGAGGTGATAATTATAAAAGGTAAAAATATAAAGAATCATACAATGTTCTTGGCCCAAAATCCGATATATATAGCTTATGCAGTTAAATCTTGAGACTTAACTACAAAATCAATAATATTTCCCTTTTCTAATCCGTCTAGAATTTCCTCTCCTTTATTTGTCAATCTATAGACTTTATGAGAACCTTTAGAGTATATTGTCTCTATTAATCCTAATTCTTCTAGTATGTGAAATGCCGCTAGTATTTCATACCTTGGTAATTTTGTTTTTACTACTACTTCACCCGGATTTAATGCACCGTCTTTTATTGCCTCTAAGATAATTTTTAGCTCGTACATTTATCTAATCTCTTTTATCTATTTAGTTTAAAAGCACTTAGCCATAGTTAATAGCTTGAAAATTTTAGATTATATTAGCTAATATTTCTTACTATCCGATAACTTGTCATTCAAGAAAATAATATAATTAAAAGCGAAGTTTTATGAATGATTTTTGTGTACTATTCCTCATATAATAATTTATTAATATTTCTCGCATATTATATTCTTTCCTTTTTGATCATTTTAAAGATTATAATTTAGGTCTTTTGTAACTTATTTAAACTAGTAACAAAAGGTACACATGTATGAAATGTAGTGGAGATTATATACTACAAAAATTAAGTAACGAATATATTATCAATCCAAAGGACTATGTTGCATATGATGTATGGTTAAAATATAAAGACTGTTTTAAGGTTTTGATAGCTACTCTACTATCTCAAAACTCTACTGATAAAGGAACGTATAAGGCTTTTTACAATTTAGAAAGTAAAATAAGTGTAGATCCAGATAAACTATCCAAGGCTTGTATAGAAGATATAGAAGACGCAATAAAATCTATAGGTATATACAAGATAAAATCGAAAAGAATACATGAGATCTCACTCATCATTAAGGAAAAATATAAAGGTAATCTAGATACTATCTTAAATTTATCTCCAGACGAAGCTCGGAAGGAACTTATTACGTTGCCTGGAATAGGTGAAAAGACAGCAGATGTAGTTCTTCTAACTTGTAAGAGCTATCCTTTTTTCCCAGTCGATACTCACATTAAAAGGATAGCAAAGAGATTAGGAATAGAGGGTAATACCTATAATGAGATATCGTGCGCCCTTAAACGCATTTTTAAAAAAGAAGATTATCTTAAGGCGCATCATTTATTAATAGCGCATGGAAGAAATACGTGCAAGGCAATAAAACCATTATGTTCGAGGTGTAGTATAAGTGACTGCTGTGAATATTTCCAAAGAAATGTTAGATCCTAGCTTACTGATTCCGCACGAAGATGTTTCCAAATATAGACTATTTGAAATTATATCACGCATAAAAGATACAAGTTTTATGTATCCAATAATAGTAGATAAATCGACTTATCTAATCTTAGATGGACATCATAGATATTATGCAAGTCTATTTTTAAAAATTAGGAAAATCCCTGTTCTATTAGTAGATTATATGGATTCAAGAATAAAAATTGAAAAATGGTTCAGAGAAGTAAAATCTCCAGAATTGGCTAAGAAAATATCTTTACAATTGCCAAATGACGGTGATGTGTGTATAAACATTTATGGTGCAAATTTTTGTTCTACTTCAATTTATTCATTATTTTGGAAACTTCATTGGCTAGAAAATAAGTTAATGTATTTAGGTATTAAGGTAATCAAAAATACAAAAAACGGAATAGAACCGCCTTCTATATCAAAGGAATATGTAATTAGTGTTGCCAATAATGGGCTAAGATTTCCTCCAAAAACGACTAGACATAACTATGAATTTATTATCCACTATGAAAGAGTAAGACTTAATGAGTTTATTTGATACAATAGTTCAGCTTCTAGTGTTTATAATACCATCATTGATATTATTGTATCAATTTATATTCTTTAATATTGGGAGAAAAAGAGTATATACCGAAGTTAATTTAAAAAATGTCCCGTTTCTTTCAATTATTGTTCCTACAAAGGGAGAAAATGTAGGCGTTATTCAAGGTTTATTGGATAATCTTTCAAAAGTCGAATGGGATAAGTCTAAAATGGAGATAATAATAGTATCTGATGATAGTAAAGAATATTTTGATAAATTAGTGGAAGCTTTACATTTTCCAGAAGGTCTTGAAGTTAAACTTTACAATAGGTTGGGCCATGAGAAAAAAGGATATAAGAGCGGTGCGTTAGCTTATGGATATGAGAAAAGTAAAGGCGATTTAGTAATTACATTAGACGTTGATGCTAGACTTAATAAAGATTCGTTACTGAAAGCTTACTCGCACATGATAAGTTACGGATGTGATGCTGTTACTATGAACTGGATAGGATACACTACAAATCAGTATTCTACATTAGCCAGAGGATTAATAGTTTCTACTCTAGTTGCAGACTACTCTATTCTAAATGGAAGAGAAAAAAGTGGGCTTAAAATATTTCCAGTAGGTTGCGGAACATTATTTAAAAGAGAGGCTATAGAGAGTGTAGGACCATGGGATTATAGTATGATCCAAGATGATTTAGAAATAGGTTCAAGACTAATAAATAAAGGAAAAAGAATATGCTCTTCTGATTCTCCAGTTTTGGTAGAGGTACCAGATAATCTATTTGCTTTTTATGTCCAACAAACCAGATGGGCAATGGGAAGTACTGAAGTTCTTATTAGGCGATTTAAGGAAATATTAAAAAGTAAATCAAATCTAATACAAAAGATCGATATGATATTATTTTTATCACAGTATTTCCCAATAGCATTAACATTTATAGTGGCAGTAATACTGCTCTTTTATTCCTTTATAGGTTATGGTGATCCTTTAAGGACTCCATTAATTTTAGTGTGGCTAATAGCGTTATCTCTTTATGCAATAGGGTTTATTTCTATAGCTAAAAAGCTTGGACTAGGTTTAATACAAAGCTTAAGAGCGTTAGGTAAAGTGTCAGCATATACTGTATCTATCTCTCCATTCGTATTATTAAGTTTATTTAAGGCATTCGCTAAAAAGAGAACATATATAGTCACACCCAAGGGTAAAACTAGTAAATCCAATATTGTGTATATAATAGGCGCATTAGGTTTTGCTTTTTTGCTTTCTTCTATAATATATTTAATTAAATATGATTTATTTAGTGGTATATGGATGCTTTATTATTCTTCAGCGTATTTATTCACATTCTTTACCTATAAAAATGAGCTTTAGTACAAATTTTTTTAACTGAGCCCAAATCATTCAATGTTAGAATGATAAGTTACGCAAAAGGTTATTCTGATGAAGAGGTGTTTTCTCTATTAAGGCCATACGTAGTCTCATGGTTTAGAGAAAAATATTCTACATTTACTCCTCCTCAACGTGCTGCTATACCTTTGATTAAAAATGGAACAAATACTCTAGTATCTAGTCCTACTGGAAGTGGGAAAACTTTATCTGCTTTTTTAGGAATTTTAGATACCTTATTAGGCTATGCTGAAAATGGAAAATTAGAGGATAAAGTATACGCAATTTACATTTCTCCACTTAGAGCCTTAAATAATGATATGTATAAAAATATAGTAGAACCATTGGAAGAGATATATAAAAGAATAGATTTCCAACAAAAGATAAGAGTTGGAATAAGAACTAGTGATACGAGTTCATATCAAAAACAAAAAATGTTGAAAATACCTCCTCATATTTTAATAACTACTCCAGAATCTTTTGCGCTCTCATTGGTTTCTCCAAAATTTAGCCAGAAATTAACTGAAGTGAAATGGGTGATAGTAGATGAAATTCATGAGCTTGCTAATAGCAAAAGAGGTGCATATTTATCAGGATTTCTAGAGTTATATCAAAATATTCTAGCTAAAAATAATTTTGCTAGAATAGGTTTAAGTGCTACAATCTCTCCTCTAGAAGAAGTAGCTAAATTCCTTGTAGGTAAAGACAGTGATTGTAAAATTGTAGATGCAAGATTTGTAAAAGACATTGATATAAAAGTTATATCTCCTGTGAGGGACTTAGTACATGCTTCGGAGTCACAGATAAGCAATGGGATATATAATACAATGATAGATGAAATAAAAAAACATAGTACAACTTTAGTATTTACTAATACAAGAAGTGCAGCAGAAAGAGTATCTTACAAGTTAAGGAAAATTATAGAACAGGAAAACTTATTCGATGCCGATATGGTAGGTGCTCATCATAGTAGTCTAAGTAGAGATTTACGTTTAGATATAGAAAATAAATTGAAAGAGGGTAAATTGAAGGTAGTTGTATCTTCGACTAGCCTTGAATTAGGAATAGATATAGGTTATATAGATCTTGTATTATTGTTAGGTAGCCCCAAGAGCGTTAGTAGACTATTGCAAAGATTGGGTAGGGCTGGTCATCATATAAGGAGTATAAGTAAAGGAAGAATAATTGTAGTGGATAGAGATGATCTGATAGAATGCAGCGTATTAGCTAAATTAGCTAAAGAAAGAAAAATAGATAAAATTCATATTCCTAAAAATCCTTTAGACGTTCTATCTCAATTAATTATTGCCGCTTCATTAATGGGTCAAGTTAATGATAAGAAACTGTATGAAATACTTACGAAATCTTATATTTTTTCGGAACTTAAATATGACGATTATATTGCAGTTTTAAACTATTTAACTGGAAAATATGAATTAGAAAGTAAAAATGTTTATTCAAAGATAAGAATTGATGATGCAATAAAGCCAAAAAGAGGATCAAGAATGATCTTTTATACTAATAGCGGCACTATACCAGAAGAATCCTTAATACCAGTATTTACAGAAGGAAATAAGTACGTTGGAAATTTAGAAGAGGAATTTGTAGAAATTTTAACACCTGGCGATATTTTTGTTCTAGGAGGAAAAACATATGAGTTCATATCAAGCAAAGGTAATAAAGTAATAGTAAAGGCTGCAGAAGGTCAAAGACCTACAGTTCCTAGTTGGTTTTCAGAGATGCTTCCACTAGCCATTGATTCGGCAATAGAGGTTAGTAAATTTAGAGGATTGATAGCAAACATGATAAAACAACAAGCTAAACAATCAGATATAATAAATTATATTTCAAAAGAATATAATATATCAAAATATGCGGCCGCTTCCATTTACGAATATGTACTAGAGGAATATTTATTTACTGATGGAAAGGTTCCTAGTGATACGCAAATTTTAATAGAAATCTATGATGATGAAGAAAATAGAAGAAACTTTATATTTCATGCCTTGTATGGAAGGAGAGCTTTAGACGCATTATCTAGAGTCCTTGCCTCTATATTAAGTGATGATCTTTCTACTGATGTAAGGATTTCAGTTACTGATAATGGCTTTATATTGACAATCCCTACGTTAGAAAACTATGACATATTCAAGATTTTTGATAAAATAGATCCTGAAAAAATGTATGATAGTTTAAGTAACGTTATACTAAGAACAGAAATGTTAAAGAGAAGATTTAGGCATACAGCTGAACGTTCATTTATGCTTCTTAAGAGATATAAAGGAAGAGAGACTAACTTAGATAGAAGACAATTAAACTCAGAAGTATTACTAAATGTTGTTAGAGAGATAGATAATTTCCCTGTTTTAAAGGAAACAATAAGAGAAATACTAGAAGACTATATGGATATTAAAAGCGCTATTAATATAGTTAAAAATATAAAGGAAAATAAAATAAAAATTGTAGTAATAGGACCCAATAAGATTCCTAGCCCATTTGCACATGGCATAATAATTAAAGAACATGCAGATGTAGTGCTAGCAGAGGATAAAAGGGAACTAATAAAGAAGCTGCATGATAAGGTTATACAGTTTCTTAGAAATAAGGGATTCAATATTGATCTCAATTATACCGAGGTATGAGTATTTATACGCTTTAATACATTTTTTAGAGACAATTATCCATGGAATATTCCAAAATTTCATATTATAAATGTCGAAATCACTTGGCTCACACATGCCTCTATGAGTATGGACTATAGCATTCAAATTATAATGTTTAAGATAATTGTATAATTGTTTAGGATCCATTATGAATTCGTAATTATTTTCAGATATATTCCTTATTTCTATAAATTCATTATCTACTATTATTCCGCATCTTTCTTTCATTCTTAGATAAAAACTCTAAGTACGGGATTTTTAGGATATCTATTAAATTCTTACTTATTCCTAAAAAACATAACAAAGATTTGTTTAGAATATCTTCAATATATTTTTAGTAATATTCAATATATATTAAATAATTAGACCAATACTATAAACTATTCAAAGGCAAATTAATTAAATTTTATTAAAATTAATGAACTTTTAGAAAGTAAATCTTGAAATTTATCTTGAAACTTAGATATTTTCTACACTCCCCATAGTCCCTCTAACCCTGCTATAGACTTTAGTATGTCTGTCCTGGTAACTATGCCTATTACTCTTTGCATTGAATCCACCACTAATAGTCGTCCTACATTATAAATTACCATTTTTCTTACTGCTTCCAATACATCATCCTCATCGTTTATAGTTATAACATCCTTTTTCATATAGTCTGAAACCTTAGATGAGTAATTACCTTCAAAGAAAGCTTTTATTATATCTGCTGTGGTTATAATTCCCGCCACTTTTTCCCCGTCAGATATTACTGGAGCTCCTCTAATTCCTTCTTTATATAATATCATAGAAGCCTCTTTTAAGCTCATTTCAGGCTTTAAAGTAACTAATTTTTTTCCTATTATATTTTTCACTTTTTCTTTTGGTACACTTATCATTCTTTTAACATCTATTGCTACTTCTTTTCTAGTATCATCAGCATGTATGACTACACCTTCTATAACTAGTCTACTGTACGGTGTTGGACCAAATCTTACAGAATCTCCTGCTCTTAATTTTCTTAAATCTCCACTTACTTTAAGTATTACTTTATTACCCGAAGGATTTGTAATATCTAAAAGCTCTATATTATCTACCTTTATATCTGTTTCAATATTTCCCCTATATAGGCTTAATTTATCAAGAATAGGCGTTACTGTAGGATTTTTAATAAACTCGTAAGCTTTAAGTGTTGGAAGATATCCTCCATTCGGTCCTGGCTTGGATTCTACTAAACCCAACACTTTTAGGCTTAGGATTATATTTCTTACTGTTCCCTCATCTTTGCTTATCATGTCAGCAACTTCTTTACTTTTTATCATTTTTTTCTCTCTATTATATAATTCAGTTAATGCTAACAATATCTCTTTTTGGGTCGATGATAGATTCTGCATACTAAATTATAATTAATTATAATACTTAAAAACTTCTGTCTTTAAACATTTGTTGATACTTCAAGAACTTTTTTAATAATTTTAGTTCTTACATTAAATACTTCCTTAGATATTAACGCTACATAATTAGCTTTTGGTAATGGATAATCAAATCCTATATTTATAGATATAGCTTTCTTCATTGCTATGTAGTTCATTTTATCTCTAATTATTCCTTCGGCTATTTCTTCTGCTAGCTTAAATGCAGTATAAAATCTAGAAAAACTTTTTGCAGTATGTTTTATAGCATCATTTTGGGAAGAATTAAGGATCCTTAGTGAATTTATAAGCTTAGACTCATCTGAAAATGAGAATATTACTTCAGTAAAAGTAACTCGAAGAGCACGTGCTAATAGATCCTTATCTTGCCCAGATAAATCAAAAGCTTTATCTGGGGATACATTAATAGATTCAGCTATTTCTTCATACTTCTCTTCTTGATCGAAGAACTTATCAAAAATATCTCTATAATCATCATACAAACCTAAGCCCTCTTTTCCTACAACATATAAACTTATCAATTCTTTCTCGTAAAGATTAGTAGACTTGAATCCTCTTAACGGTCTTATATTATTTTTCTCATAGTTTTTTTGTAAAATTTCTATTATATCATTTCTATTTAAATCTTTCCACTCATTAAGTATTAATCCCCAAATGTCTGTCAAAACCTTTATTCGGTCCTTGTAGATCTCTTTTACCATATTAAATCCAGAGATTTATATGTGTTTTACCTTAAAAAGGATATCAAATTAATTAATCATCTATGAGTCTTGAAGATAATTTAAAGCCTAGTATAGTTCTAGTTTCACCATCAGATCTAGAAGAAGAAATAAAGAAAATAGAAGAAGAAATAAAATCGCATGAGCAGATTGACGTAGATTTCCAGAAGAAAATTCATGAAGAGATAGATAATATATCAAAATCCCTAAGCTGGCTAAAAATAGCAGAATCACAAGGAGTATGGAAATCAAAGACATGTAAACATGTATCTAATGATACGTGCAATGCATGGAACATTAGTGATCCTGAAAAGCTTGGAATACCAGTGGATGTCATAATATTTAATCAAGACGGATCAAAGAAAGTATCTGTAAATAAATTCCCTGGTCTATGCATAACTTGTCCATTATATGAACCCAAAAGAGCTTAATGATTTTTTGTCTACTTCGGTAATTATCTTTTTTAGTTCTTCTAAATTCTCTTCTGCTATTGTAGGATTATTTGAAAGAATCTCAACTATACTTGAAACCAAATCGTTTACTATAATTTTCAATATTTTCTTCTTTTCATCATCATTCGCTATACTTAAAGCTCTCATTATGGTCTCATCGCTAGGATGAGTTTTACCGCTTGAGAACTTAACAATAGCTGCTGGAGTTATCCCAAGTTCATCGGCAAGTTCTTTTCTACTCCTATGAGACAAAAGTTCGGTTATAATTTCTTCTCTGGCTTCTTTGCTAATGTTATGAATAGCTTTCATAGCCTTTCTTTATAGTTAAAACTTAAAAGATAACCACTCCATTTCATTTGCATGATGTCTATAATATTTAACCAAGGTATTATTGCTAAGGACATAGTAGAAAAGCCTATAGACTCCGATTTTGTATTGATCTCTACTCAAAAGGTATTACTGGGTGTGATAGAAAATTCCATATATTTAGGATTTCTATGGGTAAGACCTTGGAGAGTATTAGGTAGTATAGGCATAGGAAAAATAGACGCAGTAGGTTTAGATGTAGATACTACTTTGCAAGGTAAAACAGTTCTTGTTCTTCCATATTCACAGAAATATGGCGGAATAGGAACTGAAATTGATGGTATCCTCTCTGAAAAAGCTACTGTTCCATCAGATTCCATTATTGTAATATCTCCTAATTATTCTGATAAGATTTTACTTTATCCTTTTGCGTCAATAGCCCTACAAATAAAAGAAATTGCTGAAGGTAAAGATATTCTAATTATAGGTTCTGGATTTACTAGTTTATTAACATACTTAGCCCTAGCAGATTCTTCTAATATAGGAATATATTCTGATACTGAATCAAAAATGCCAGGTATTCAAGAAGTCAAAAAAAGTGATAAAAAATGGGATATAATAGTTATCTCTACAATGAGAAGTTGGGCTAGAGTCGTTGCAGAAAAATTAGTTAAAGATAATGGCAAAATAATAATTCCAAAATTTATGAATTCATGGCCTACTATAGTTCCACATAATACTGCATTTATATATCCTAAAAAGAGGGACGATGTAGCTCAATTTTTAGATAAATATGTTACTGAAAGAATATTTAATGAAAATATAGCATATTCAGACGACATAATAAATTCCATACCTACACCAAAAAATGGAGTAATAGTAGAGATCAAGTCGTTAAAAAATTACATTTCGTCCTTAACTAGTTGACCAAGAGTTTTTATTCCATTATTAATTTGTTCTTCAGTAGGGAAGCTGAAATTTATTCTCATAGTATTTCTTCCAGAATAATCATAGTAAAAGCTGGAGCCAGGAACATAAGCAACTCCTCTATTTAAGGCCGTAGAAAGCATTTTCACAGTATCTATTTTTTGTGGTAACCATGCAAAAACGAACATTCCTCCTACTGGCTTACTCCATGAGGCTTCTTTTGGGAAGTACTGTTCCATAGCATGTAACATGACATCCCTTTTCTTTCTATATAGTTCTCTAATTCTGGGTAAGTTATTTTGTATTACATTTCTTTTTATAGCTTCTGCAGCTATAAATTGAGTAAAACTTGGTGTATGAAGATCTACATTTTGTTTAAATAATTCTACTTCTTGAATAATTTCTTCATCAGCAACTATCCAGCCTAATCTTAATCCTGGAGCCAGGATCTTACTGAAAGTACCAGTATATATAACTCTTCCTTCCTTATCTAACGCTTTAATTGGAGCTGGGCTATCACCATCAAATACTAAAAACCCATAAGCGTCATCTTCTACTATCATAAAATCATATTTAGAGGCAAGTTCCAATAGCCTTTTTCTACCTTCTAATGATAATGTAGTTCCACCAGGGTTCTGTGCAGTAGGTATTATATAAGTAAGCTTTACCTTTTTCCCTTCTGATGCTAATTTCTTTAGCTGATTTTCTAGCGAATCTAAATCTGGACCGTATTCTGTAAGTGGAATTCCATGAAAAGATGGATTTCTAGCTCTTAAGATATTTAAAGCTGCTAAATAGCTAGGAGTCTCTACGAATATATTATCCTTAGGGTCTACCATTATATTAAACAACATAAATAGAGCTTCTTGGCTTCCAACAGTTACGAATATGTTATTTTCTGAAATATTAGATATTCCACGTTGAGAAGATAAGTTTACAAGTTCTTTTCGAAGTTCTGGAATTCCAGAAGTTGCGGAGTATTGTAATGCTCTAGAAGAATAGTTATCTAGAACGTAGTCTGTTATATTTTTTATATCCTCTGCAGGGAAAGTTGTAGGATCTGGTAATCCTCCAGCGAAACTAATAACATTTTTACCTTCTGTTAGTTTTAACAGATCTCTGATCTCTGACGTCTTAAGTAAACTACTTTCTTTAGAAAGAAATTTATCCCATTTAGGCATAACTATTATTATTATGTAAAGTATTTATTACTTTGTGAAGTACATAGCCGAGATTTTAACAATCGGGAACGAGATTTTGAGTGGAAGGACAATAAATACAAACGCTTCTCATATAGCTAGGCGTTTAACGTCAATAGGATTTAACATTCGTAGAATGACGGTAGCAATGGATGAACTTAACGAGATTTCTGCAGTTTTTAGGGAATCGTTATCAAGAAATCCTAACATTATAATATCGTCAGGTGGTTTAGGTCCAACATATGACGATAAAACTTCAGAAGGTTTGGCAATAGCATTAAATTTGCCTTTAGTATATAATGAATTAGCTTTAAAGCAAATACAAGCTAAATATGAGAAATTAAATCTAGAGATAACTGAAGAAAGAAGAAAAATGGCTCTAATGCCTAAAGGTGCAATTCCAGTAGAAAATGAGCAAGGAATTGCTCCAGGTATTTATATTGAATATAATGGAGTCGAGATCTTATCTACTCCAGGAGTACCTAGAGAAATGGAAGCAGTACTCGAACAATTTATTGCTAAATATTTAAAAACAAAACCTAATGTAGTTTATAAGGAAATTTCCATATTTGTAGAGGGAATAATGGAATCTGCTATTGCTCCATATGTAACGCAGTTAGTCAAAAAATATGACTTATACATAAAAACTCATCCTAAAGGATATGAGCTTTCTCATCCATCATTGGAAATACAGATAGCTGGAAGTAGCGAAAATGAAAAAGAAATACTAAATAGGATTGAATTATGTAAGAACGATATTATTCAAGTTATCAATAAATTAAATGGAAAAATCATAGAAAGCCAGCAATAGCTTTGTTCAATTCATCAGGCGCTTCGAAATTTAGGAAGTGGCCAAATCCGGAAATTATATTTTCATCGTAATTTTTTAATTTTCTTAATACTTTTAGATTTTGTATTAGTTTATCATCAGATCCATAGACTATTAAAGTAGGCGAATCTATTTTTTCTATGTCTTTTTCATAGTTATTTGCTAAAAGTAAACCTTCCACCGCATATCGATAACCTATTGGAGAATTATCTCTATATACGTTAAGTAACTCATTCCAGGCAGTTTGATTTTCTACTAAAGCGCTTGAAAATTCTTTATTCATTTTTCTATATAATGCTAAAGCCTCCATCCCGTATGTATCTGCTATTGAAATATATCTTCTATAAGGTTCTGGATCAGGAGATTTATATAATGCTCCTATAAGAATGAGTTTATCTAAGCTGTATTTTAATGCAAAATCTAATGCTATTAATGTGCCAATTGAATGACCTACTATTATTGGATTTTTAATTTCTAAATACTCCAATAAGCTATTCAAATCTCTTACATGGTCTTCAATTCTATATGGACTCAAAGGAACTGATGACCTACCATGACCTCTTAGATCATATACTAGGACATTATATTTTTTGGAGAAATAATAAGACTGTTGAGACCAACTTTTATATGAACCGGCTAAATGATGAATAAAAACTATAGGCTTTCCTTCACCAAACATTTCATAGTAGATTTTTACTTCGTCTAAAATTGCAAAAGGCATTAGATAAGATTATTTAACTTTGATAAATAAATTTCACTTAATACTACAGGGAAAGATAATTCAAATTTGCTCAGTATCTCTGGATTTACCTCTCCTATAATTCCTACTATATTTCCTTTAATGGAAATTGACGCTCCTCTTCCTCTTATAAATATCAAATTATCGTTCTTAAGATAAGAAGGTTCTGTACCAACTATATTAGTTATAATTTGATGAACTAAAGATTGAAGATTTTCGTAGCTTACTTTACTATCCATAATAGCAAAACATCCTCTAGTCTCATTACTATAACCAGTATCAGATTCTGACATGGTAACAACATCGCCTACTTCAAAGATCTTTATAGGAAAACGTGCATGTTGATTTTTAGACAAGAAGTTCAAAGTAGTCCAGATTAACGAATTACGCACAGCATCATATTCTATTGAAATGGGATTAAGAATTTTAACATAATTATCTATTAGATTTGTAGATTTAGTAAGAACTAAACTATATATTTCTTGAAATCCAGCTCCTATAGAAAGATCTCTAAATGCTCTTGAAACCATTGATATTTTTAAATACTTGCCTATTTCAGAGCTTTGAAATTTTTCAACACCTAAGTTCTCATACCCTATAGCCATTGCAACATCTTCTGCTATATCCACGTCCCTCATGATATCTACTCTATAAGGTGGTACAATAACATTAATATTATCGTCTAATGTAGCATTCATTCTCATTTTTAATATGGATTTTACTATAGTGTCCTTGTCTAGTGAAACACCTATTCTATTATTAATATAAGTCGGATTTACAGATATTGTCTTATGCTTCATTATTGGCGATTTAGCGTTAGGAATTGTGCTAGAATAAGGAGCTTCGATTTTTACAAAACCTATTTTAGCACCTTCTTCAGCCAGATTACTTGAAAGTATATCAAGAGTTTGATATACGGCATCAAAACTAGTCCCTGTTACGTCTATAAATAGGTTCTTTGTTTCAGAATCTAATCTAGATTTATTTGAATTTATTATAGGCGGAATGCTAAGAACTTCTCCATTATCTTGTAATATAGCAGGAGTTAATTTATTATATATGGATATGTTTCCATACTCTTTCCCCTGCTCAGTATTTTTTATTATTTCTGAGACGCTCATTTCCACATTAGAGTTAAGTGGTACAAATTTGTAGTCTAACGGTATATATTCATATTTAATAACTTTACTATCTATTTTATCTAAATCATGAATACCTATAGCGACTTTTTTCCTCTTCCGCCCAATAGTATCATGAAGTTTCTCTTGGAATTGAATAAGTTCTTTTATTTCTTCGTCGTCTAATTTAATGTTATAAATAACTGCGCCTAGAGCATAAGGCCTAGTTTCTACATTACTTACTACAAGTTTATAGTCAGTATCAACGGCTGCATATTTAGATTCTCCTAACTCTTTTCCTAATATACCTTTTATAGCTCTTGAGATTCCACCTACGCTAAGCATATCTAGCCTATCAGCATTTATTTCTATAGATATATTATCCTCATCTATTGGCTCTATTTCTGATTTTAAATTAAATAAAACATTTTCAAGCTCATTTTGTGTTAGTTTCAATTCTTGCAATAATTTGGATTTTTTGACAACTATAGTTACCATCAAATATCTACCTTCCTATTCCTTAGGAACTCTATATCCTCAGAGTATAAGTCTCTTATATCCTTTACATTTAAGAAAAGCATAGCTAATCTATCTAATCCTATTCCCCAAGCTCCAGCAGGATCATTTACTCCAGCAGGCTCAGAAACTTCTGGTCTTAAAAGTCCAGCTCCAGCCATTTCGACCCATCCTAATTTTTCTATAAGGCCATAAACCTCTACACTCGGTTCAGTGAAAGGAAAATACGCAGGCTTAAATTTTACCTCTGTAATACCTAGTCCCTTAAATATCTCCTTTAGAACTCCTAAAAGCTTTTTAAAGTTAAAATCCTTCTCTATTATGAGACCATCCAATTGATGAAACTCGATTAGATGAGTAGCGTCTATTGCGTCTGGTCTAAATACTTTACCTATTGTAAATGTTCTAGTTGGAGCTTTAGGTCTTGTAGACAGTACTCGTGCAGTAGTAGCCGTAGTTTGGCTTCTCATTACTAATCTTAATGCATTATTTACGTCCCATGTGTAATTCCACCATTTTTCGTGAACTTCTTTCACGTTATTTAATAGCTCCTTATCACTTATCCTACCCTTTCCGCTTATTATAAAACTATCATGAATTTCTCTTGCAGGATGATCTTGTGGCTGAAATAGCATATCGAAGTTATAGAATTCCATCTCTACATAATCACTGCTGACTTCACTAAATCCTAGACTTATCATAACATCCTTAGCTTTTTCTATAAACTCTCTAAAATAGTGTTTTTTTCCTATAGGCACAAAAGGCGGCAGAGCTGTTACATTATACTCTTTAAATTCGTACTTTTTCCATTCTCCATTTTTAAGCAATTCTGGAGTAAGGAAAATCAGTGAAGATTTTACTTCTGGAGATCTTAAGAACTCTACTATTATTTCTTTATCTTCCTTCTCTCTAATTAAGTTTCTAGATCTTAAAAGCTGTAGCTCAGAATCCGTAATCATTTCTCCTTTCTCTATTTTTTCTAGAATTTTTCTTTCTGGAGATATAAACGAGTTAGTTAATGGTATCATTTCTCCTTTCTCTATTTTTATTATATTTCTCTTTTTCGCCCATGTTATAGCTATTTCAAAATTATCTCCAAGTTTTTGTTTTATTTCTTGTATTTTCAAAGACTTTCCATTGAGAATATTAATTAGATTTTCTTCTGGGAATCCTTCATTTAATCTTTTTTTCCCTTCGTCTGAAATCTCTATATCTTGAATTTTCTTTTCTTCAATAATTTTTATGTAACCTTCTGATGCTAGGTGATAAATAACACTAAAAACAGAACTCTTAGGCAAATTAAGAGAAGCAATTATTTCTGTAGATGACGTATTTACTTTTTCTTTTATGAAATTTAATATTCTAAACTCTATTTCGCTTAACATTTTTTTACAACTCTATACTTTGACCAGCTTGTAAAATAATTGCTTTGAAACCTCTTTCTTTTACTTTTTTTGAAAATTCTTCAGCATTTACTCTTATTAAATCCCACGTGTTATAATGGATAGGAATAGCTGCCTTCTTAGGTCTTAACATTTCTACTGCTATTGAAGCTTGATATGGATCCATAGTAAATCTACCACCTATAGGCAATAGAACATAATCTGGAGAAAATATATCGCCTATTAGTTTCATACCTTCAAAAAGTCCTGTATCTCCTGCATGATAAACTGTTATACCTTCTGATGAAATAACTGTACCAGTAGGATCACTGTGTTCACTTGAATGTATAGCTTGTGTTAAGGCTACTTTTATTCCATCTATATCAATATAACCACCAACGTTAGCTTGTATCATTCTATCCCAAGGTACATTATAACTTTCATTCAGATATTTCTCTAAATCGTATGTAGCTAGAAGTAGAGGTTTATTAGAATTTTTCATTATCTCTACTGTATCTCCTAAATGATCATAATGATCATGTGTTACTATAATTATATCTGAATCATAAGTATAGTCTATTTTTACAGGAGTAGATGGATTATTTTTTATAAAAGGATCTATGATTATTTTTTTCCCATTAATATTAATTTCTGTTGCTGCGTGGCCTAACCATCTTAATAGTGGCATAGTAAGTATTAAAAAGCTAAAAATAAAAATTTCTATTCAGTCTAGATTGTTATGACAGAAGATGAATTAAAACTACTTTTGAAAGCTGGCAAGATAGCTGCTGAAGCTAGAGATACTGGAGCCAAAATGATAAAAGCCGGAGTTAAGGTTCTTGACGTTTGCGAAACTGTAGAAAAAATGATTATAGAAAAAGGTGCTAAACCAGCGTTTCCATGTAATTTATCTATAAATTCAGAAGCTGCGCATTATAGTCCAGTCATTAACGACGAAAAAATAATTCCTGAAGGTGCTGTAGTCAAATTAGACATAGGAGCTCACATAGAAGGTATAATTACAGATACAGCAGTTACTGTAAGCTTAGACGAAAGATATTCCAGGCTATTGGAAGCTTCAAAGGAAGCCCTAAATGCTGCTATACAGAATTTTAAAGCAGGAGCAAGTCTAGGAGAAATAGGGAAAGTTATAGAACGTGTAATAAAAATGAATGGATATAAACCAATAAGAAATTTAGGCGGACATCTAATAAGAAAGTATGAACTTCATGCAGGAATTTTTGTTCCTAATGTTTATGAACGAAACGCAGGAAGAATATTTGATGATAATACGTATGCAATAGAACCTTTTGCAACAGACGGAATGGGAATGGTTACTGAAGGAAAAGCAGAAACTATATTTTCATTAAGATCTGTAGATGTTAGAGGATTAACTGATGTGGAAAAGAAATTTTTAGATTCAATTCAAGAAAGATTCAAAACTTTGCCCTTTTCAGAAAGGTGGCTTTCGGATCTTGGAGATAAATCCTTAGTCGAAGCTACTTTAAGATCTTTAACAAAGAAAAAAGCATTATATTCATATCCAGTGTTAGTAGAGATGAAAAAAGGAACAGTATCTCAATTTGAACATACAGTATATGTAAATAAAGACGAAACAATTGTTATAACGTAGTTAAAGTAATTTGGATAAAAGTTTAATTTAGACTATTTCATAAAGTATACTAAGGAGAAATATGATTGAAACTATATTCAATATAATAGCTTTAGCGCAAGGAACAGGTAGTAGCAATCCTTTTTCTGGTCCTTATTTGCTTTATACGCTACTCTATATAGTATTTATAGGATCGTTTGTCCTAATGTTCTTCCCTGGATTTCAACAAAAATCTCAAGTATGGTTCCTAAGCAGAGATGTAGAGCAGAAATTAACAATGATAGAAAATTACCTAAAAGATTCTAAAAGCGTTAGTGAAAAACTACTTAAAGATAAAGGTTTTCCAGATCCAAAGTCCTTCATAGACAGAGTAATAGATAGGTTTGTAATAGATCCAGTTGGAGTAGAACCTACAGATATAATTAATAGAATGAAATTACTAATTAGATCTAACGAAGATACAGTCAGAGATATGATAACAAGAATACAACCTAATATTGATCCAGTAAGTAGAAGTGAAATAGAAGTATCTACAGAAGTCATGAGTGCATTAAACTTAATCTATAAAGTAATAAGACATTATTTGCTAATGGCAAAGAAACTTAACAGCATAATGATAATGTATCAGTTACAAATGGTAGCTCCTATATATGTAAAAATGGCCGAGGCTTATGATAAGGCACAAAAAGTATTCTTGCAGGGTATACCAGTAGGAGATGGATTAGGTCCACTAGTAGCTTCAAGATTCTTAATGAAAACTGATAACAAATGGACAGCCAGTAAAGATACAGTTGCAGGTGCATTAGAGTTTGAACAGAGAAGATTAGTAGTTGTAAAAGCAGAAGGACCAATGGCAACAGTTGGTACTCCAGGAGAGGCAGTTCAAAATGTTATAGAGAAAGAAGGAGGAAAAGTAACCAGAATAATCACAGTAGACGCAGCATTAAAATTAGAAGGAGAAGACACTGGATCAATAGCAGAAGGAATGGGAGTAGCTATGGGAGATCCTGGCCCAGAAAAAATAGCAATTGAAAGAGTAGCTGTGAAATACAATATACCCATAGATGCAGTAATAGTCAAAATGAACATGGAAGAAGCCATAACAGAGATGAGGAAAGAAGTATATCAAGCTGCTGATAAGGTTGTAGAATACGTAAAGAACCTAATATTGGAAAGAACAAAGCCTGGAGATACAGTAGTACTAGTTGGAGTAGGTAATACAGCAGGGATAGCCCAGTGAATAAAAATGGCAATGGGTTTTGAAAATACTAAAGAGCAATTAAAAGTCAAGACTGAAATACGTTGCATGACTTGTGATTATAAAATTGTTAGAGATTTCCAACAGGGGGATTTTGTTCCCAAAATAGTTGGTCAATGTCCTAAAGATGGGGGGCAATTGTATATAGCAGGGATTTACGCTGAGAATATAGCCCCAGCACAGAAGAAATAATTTTTTATACTTCTAAGCATTATTTAATAATGTCCACCCGGCCATAGTAGGGGGGCAACACCCGGACTCATCTCGAACCCGGAAGTAAAGTCCCCTACGTTGGTAAGGCAGTGGGATCCGCAAGGGCCTGCAGCCTTGCCAAGCTGGGATGGACATTTATATTTTAGATTTATAAAATACTTCAAATGAAGAAGATATTTGACGAAATATACGGGTATATAGAGTTAGATGAACCGGAGGTAGAAATTCTTGATTCTCCGGAATTTCAAAGATTGCGAAGAATTAGACAAACTAGTCTAGCATATATTGTATACCCTGGTGCAACTCATACTAGGTTCAGCCATTCACTAGGAACTTTTTATCTTGCCAATAAATTAGGAACTAGATTAATGTCTGCTAATTATATAAATAGTGATGAATATGAATATCTCAAACTTGCTGCATTGCTTCACGATTTAGGTCAGTTTCCATTTAGTCACTCTTTAGAAGGGTATTATTTACCTAATGGATTTGGAAATAAGGATTTAAGAGAGAGCCTTATTACTGGACATAATATAAAAGAAATACTTAACAGATATGGCTATAATCCTAAAAAAATTCTTGACATATTTAACGGAAATTCGTTATTATCGTCAATAATTGATAGTGAAGTTGACGTTGATAGATTAGATTATCTAATGAGAGATTCTAGACATACTGGAGTTCATTTAGGTAATATAGATCTAGACAGACTTATAGACACAATAACATATAGAGAAGATGGAATATCAATATTGGATAAAGGATTAATAAGCCTAGAGAATTTCTACATTTCAAGGTTACATATGTATCAAGCAGTATACTATCATAAGACTATATTAGGATACGAATTATTTTTAAGAAACATATATTCTCATATTTTAGAGTATTGTAATCCTAATTTTAAGGATATAAATTACATTAAAAAACTCGCTTCTGACGGTTCAATATCCTATTGGGACGATGAATGGGTATTTAGCAGTTTATATGATTGTCTATCTAATTCTGAAGTTCCGTCATACGTTCTAGAGAAAATAAAAGACTTCCTAGACAGAAAAGGTCCAAAAGTAGTTTATGAGGAATTCTCATATAAGAACGAGTCAAGTTACATAGGCGATATAGTAGATCAATTACAAAGAATAGGTATACCTTCAGATTCAATTTATCCATTTGAAGAGAAAATTTCCATAATAGATAAGAATAAAATAAAAATAGTCTCAAAAAATAAGGAAAGAAAACTAAAAGACTACTCTTCTACTCTCTTGCATGATATACCAGAGTTTATGGTAATAAAAAGAGTTTATGTAGACTATGAATATTCCAGAAAAGCGAGGGAAATATTAAGTTGATAAAATTGATATTGGCAGATCTAGACGGTACCCTAACTGAAGACAAAGGAGTTTATAGAATAAGTATAGAAGCTTTAGAAGCCTTAAGGAGAGCAGAGGATATAGGTATAAAAATAGCCTTAGTTAGTGGAAATTCTTATCCTGTGCTGAGAGGTCTTCACAATTACCTAGGAATAACTGGTGGAGTAGTAGCAGAAAATGGTTGTGTAGTTTATTACGGGAAAAAAATTAAACTATGTAAAAATATGGATCTAAATATTCTTAATGAATTTAGAGAAAAATTCAAACTTAAAGATAGTTGGCAAAACGAGTACAGAGAATGTGACTTTGGATTTACTCCAGCTAATTTAACTGAAGAAATGATAAGATGGGCTAAAGATAAAAACGTATATATAAATACGAGTGGTTATGCTATTCATATAGCATTAAACCTAGCAGGAAAGAGTGTGGGCGTAAGAAAATTACTAGAATTGCATGGCCTTAAAAAAGAAGAAGTAGCCGCTATAGGAGATTCACTTACTGATATAGATATGTTTAAGGAAGCAGGTTTAAGGGCAGCAGTAGGTAATGCAGACGAAAAACTAAAAAAAGAAGCAGATGTGATACTAAACCTTAAGAGTGGAAATGGCGTGAAAGAATTCATAAATTACATAATAGATGGTAAGATATGGAACTAGAAGAGTTAATATACAAGCACGCTTTAGCGAATGCCATAAAACATGAAGGAAAAGCAGAAGTAGGTCCTGTAGTAAGTAAAGTTCTAGGAGAACGTCCAGATCTAAAAAAGAACGCTAAGGAAATAGTAGAAAAAGTAAAAGAAATAGTAGAAAAAGTAAATTCCATGACTTTAGAAGATCAGAAAAAAGAGGTCAAAGAAAAATATCCAGAACTTTTAGAAGAAAAAAAGGAAGTAGAGAAAAAGACACTATCTCCTTTACCTAACGTTAAGGGCAAAGTAATAACTAGATTTGCTCCTAATCCAGACGGTCCTTTACATTTAGGTAACGCTAGAGCTGCAATTCTTTCATACGAATATGCAAAAATGTATAACGGGGAATTCATACTTCGTTTCGACGACACCGATCCAAAAGTGAAAAAGCCAATAAAAGACGCATATGAGTGGATTAGACAAGACTTACATTGGTTAGGATTTTCTTGGAATATAGAATTTTTAGCATCAAGTAGAATGGAAAGATATTATGAAATAGCAAAAGAAATGATAGCAAAAGGATATGCGTATGTCGATCTTTGTAGTGATGAAGAATTTAAAAAAATGAGACAATTAAGGAAACCTTGTCCTAACAGAGAAAAATCTCCAGAGGAAAACTTAGAACTATGGGAAAAAATGCTAAATAGAGTATTTAATGAAGGAAAGGCTGTAGTTAGAATAAAAACGGATCTAAATGATCCAGATCCCTCAAAAATAGATTGGGTAATGCTAAGAATCATAGATACAAGCAAAAATCCTCACCCTATTACTGGAGATAAGTATTGGGTATGGCCAACGTATAACTTTGCTACAGCAGTAGATGACCACGATTTTAAAATCACACATATATTAAGAGCAAAAGAGCATATGGCTAATAATGATAAACAAAGATGGATTTTCAATTACTTTAATTGGGATTTCCCTGAAATAATAGAATTTGGTAGATTAAAATTGGAAGGGTTTATGATGAGTAAATCAAAAATAAGGGGCATGCTAGAAAAAGGTACTAATAAGGATGATCCTAGATTACCAACATTAGCAGGATTAAGAAGAAGAGGGATTTTACCCGAAACCATAAGAGAAATAATAATAGAGGTTGGAACTAAAGTCTCTGATGCTGCTATAAGTTTTGATAACATAGCTGCTCTTAATAGGAAAAAATTAGACCCAATTGCGAAGAGATTAATGTATGTTAACGATTATAAAGAATTCGTCATTGATATACCTGAACAGATAACTGCAAAAATACCCTTAAGACCTAATTCGTCCGATTATAGAGAAATCACAGTTAATCCAGGAGATACAATACTTCTAAATAAAATAGACGCAGAAGAAGGTAGTCTGATAAGATTAGTAGAATTATGTAATGTTAAAGTAGAAGGCGAAAAATTGAAATTCTTTAGTTATTCTGTAGACGATACTAAGAAATTTAACGCAAAAATAGTTCAATGGGTAAAGAAGTCAGACGCTGTAAACGTTACAGTAATAAAAGCAGATCCTGATAAAGATCTGATTAAAGAAGAGGGAAAAGGAGAACATGCAGTTACGGAGTTATCAGAAAATGAAATAATACAGTTTGTTCGTTATGGATTTGTAAGAGTAGATTCCAAAAAAGAAGGTAGTGTAACAGTAATATATGCCCATGAATAACTTTTTAATTTCAGCCGATATATCACTTTTTGCGTGACGAAGTAGGAGGAGGATGAACGCATGTCAAAACCATCTTATGTAAAATTTGAAGTTCCACAAGATCTATCAGATAAAGCATTAGACGCTCTTAAAAAAGCTAAAGAAACTGGAAAAATAAAGAAAGGTACTAATGAGACTACAAAAGCAATAGAAAGGGGACAAGCAAAATTAGTTTTAATTGCAGAAGATGTACAACCAGAAGAAATAGTAGCTCATTTACCTTCATTGTGTGAAGAAAAGAAAGTAGCATACATATATGTTCCATCTAAAAAGGGTATAGGAGAAGCATGTGGACTCCAAGTAGGCGCTGCTGCCGCCGCAATAATGGATCCAGGTCAAGCTAAGGACGAATTAGATGAAATATTAAAAAGACTAGGAGAAATAGCAGGTAAAACTCAATAAATATTTTTTAAATATATAATTTTATATAGATAAAATTTTTGAAGTATATGTTAGAGATTGTTATTTAGAGATTTTAGATTAGTAGTGACGATGGTTTTAGTGTAATGTAATTTTCCATTTCGCGTTATATTCTGTAGAAATTCCATTTGCCATTACATTCGCCAATACTTTTGGATAATTTTTCGAAATAATAAAATCGATAATGTTGCTAATGTTTTTCAGAATTACCATTATAACGGAAATGTTTTTCTTTTTACGTTACATATTTATTTTAATGACTGAAGAAGAAAGAAGGAGAATATTTATAAGGCTTTTAGAGGAAAGACCTAGGGCTAGGAAAAATAAAATAAATGATAAAGATTTGAAAAGACTTGCAGAATTAGCTACAGAAAATATCCAGATAATGAAAGAATTAGGATGTTGGAAAGTTGAAGGTGATATAATATTTTACAAGACGAATTGTTTAGGGAATTATTATCAAGAGTAAATGAACTAAAGGGAAGCGAAACTGATAGATTCTTAAAATTCTTAGCTATTTTAAATTGTTTGATAGAAAGAGAAAAAATTGGAAGAATTATAATAGTAGGAGGATTCGCTGCAGAAATATATTCTGGAAGAAGTTATAGAACTGGCGATGTTGATATAATAGTAGAAGGAAATTCTGAAATAGTTAAAGAAATTCTCAAAAAAATTTCAGATAAAGGATTAAGAATTTACATTCCGAAAATTAGAGAGATTTCTGAAAAAGGTATTGATATAGTAGATTCAATATATTTAGGAGAAAGAATTAGAAAGATTGAAGTTGACAATTATCATGTTTATATAGCTTCAGCGGAAGATATAATTATTAATTATTTGCAAGCGTGGAAATTTTGGGAAAGCACAGAAGATAAGATAAAAGCAATATTAGTTTACTGTGCACAAGACGTTGATGAAGAATATTTGAATATTAAAGCGAAACAAAAATCAGTCATGGATTATTTAGAGAAAATAAGAAGCGAATATTGTAGAAAAACAAAATAAAATCCTCTATTTTACCTATATAATTCGCCTAGTACTTTCTTAAATTCATGCTGTTGAATAGTTCTTATTATAGTTGTCGAAATATATTTCATGCTAATATATTAATATTTTTTACTAAAACTATAAACTTTTATATTTTCCGAATATAAATTATAATTGGCCTTCTATGTAATATACTATTAAATAACACTATAGTACTCGTTTTAAACATCTATAGGGTAATAGATATTAAATCAGTTTTATAACAAAAGCTTTGGCAAATATAAATAACTCGCGATTACAAATAAAAAATGTATTAATCTCAGGTTAGTAATTTTATACGCCACGGGATGGATTCGAACCATCGACCGCTCGGTTAACAGCCGAGCGCTCTTCCAGCTGAGCTACCGTGGCAACCTATTATAACAAGCTATAGTTTTTAACGTTTTTGGATACTCTTTGTGAATAATAACGATGATTCAATAGGATTGGCAGCTAAAAGGAAATAGAGAATTTAATCCATAAATAATTCCATTTCATCACAAAGTAATCATTCGATAAAAGTTTATAATAGCACTTTTATTATCAATGTTTTGTATTTTTTATGAGATTTAACTATATAGTGTTTTTAATAATTAGACTCTGCTTTACCGTATATATAAAAATACTATCAGTTACGAGTAATTGTTTTAAAAGTCTTGAAAGTAAATGATGACAACGACCTTTAAGAAAAACATTATTTCGAAATTTTTTATTTTTTTGTTTTATAATATTTTAAAAAGATATTACTTGATATATGAAGATAAAGAGGAGATAGTACTTCTTAAGAAAGGAAAGGACTATAGATATGATATTATTTTAAGACATAGAGGTGACTAAAAATGAAATATTGGTTTAAAATACTCTGTAACAAATCAATTGAATATTTACATATAATAGTTAAGTATCAAGAATTTAGACTTTATACGAATATTGGCAAAATGTTTTAAAATGTAAAAGGAGTGAGATAATTACACGAGAAAGTTTTCAAATTCTGCTATTAGCAACACTATTTTTCTCTCAGTTTCTAATAGCAGGATTAACATTTGCAATGCTTTTAGAATATTTTCCAAAGTCAGTTACTATCGTCGGAACAATACTACTAATAATAATACTTAGTTTAACTACAAAAATTCTTAAAACAAAGATTGCGCAGATCTTTTGATAATATCCTTTATGTAATTCTACTAAGTTATTTAATTTTTATAGATATTACAACATATAGACTTTTAGATATTATGTTCTTATTAAAGTTTCTTTGATTAACTATCTACTATTTATTTTTGCTCTAGCAGTATTGAAGATTTATCCTATAAAAATGAAATCTGTTCATGACTGTCCGTAAAATTATAAAAGATCAGTTTCGTTACAGTATTATCTAATAAATGATTTTGAATATAAAAAGATAAATATTTCCATTTTCAAAATAACAATTATGAGCACCACAACATTACCATCATTAGGTTCATTAGCAGGAGCCTTAGGAAGCATAGCAGGTTTAGAAACATCACTCGACATACAACAATTCAACTGCGTTAAGAACAACCTAGAAAAATATTTTGAATTGTCGGCTAATTCAGCGCAGAAATACGAGATTTACCCTGCAATAGCAGCAAGCGACACAATGGTTAAAGAAGCAGCAAACTCTATAGACAAGGTCTTCAGACAAGGAATACTAGTAAAAACTACTGACACCAACGAATGGTACTACATAGGAGGAGTATCCCCATACTGGTCAGCAGGAAATCTTATAGTATACCAAGGAGGTTCTAAAGCAAAATCACAAGGGAAGATCAACAAGAGATTATGGGATTCAATAATAAACAAGATTGGAGGAATAGTAGCAATACCTTTACAGAAGACAAGAAGCCCAGAAAAATGGTACAACCCAACAATATTCAACAATTGTAAAGGTACATTCGGATTATTCTGGAACTACCTAGCTGAATTTCAAGTAGGATTTCTACCACTACTGAGCCACGCGCCAGATTTATTAATTCTAGCCGAGGCAAAGCGTATATCAAGTTTTGCTTATACTAGTTCTGGTCATTATTATTTGTCAAGGGGTGCTGAGGATTTGATGCGTACAGCTTCTGATACTTATCCTTACATATATGGTGGTTTGGGTCCTAATCCTGTCATAGCTAAGTCTTATCATTTGGAGGTTTATCCTTATTTTACTTTTGATAGTGCTACTCAGGAGGTTCAATCTATATGCAAAAGTATAATGCCTTCTTCGTCTTGTTCTTTGGCTTTGGATTATATTAAGTTTAATGATATTGATGTTGGTGCTCCTGTTCTTAGCAGTATTCCGTGTGATTCTTCTTGTTCTACTTTTGGTTTGGCTGGTCTTGTTTTGAGTATTTCTCCTTTGAGCATTAAGAATTATCAAGCTATTTATCTTAGGGTTGTTCAGCCCCCTTCTAGTTTTACTTCTTCTGGTATTCTTGAGTGGGTGAAGCTTATGGACTTTGTTGATATTTTTAATTTGTTGTTGGAGGGTAGTAGAAAGTATAAGAAGGCTATAAGTAGTTTGTCTTCTGTTTATCCTGAGTTTATTGCTATTGCTGCTGCTCTTACTGTGGCTTGGGTTGAGTTGTCTTATGATGATGGTTTGAAGCAGGCTGAGAAGAAGGCTAGTGAGTTGAAGGGACTGTACGATAAGTTGGTGGAGGAGCTTGCTGGTAAGGCTCCTCCTATCTCTGATAGGTATTTGTATAAGGAGTGGAGGGATTATAAGGATAAGGTGGAGAATTGTGCTAGGGATGCTATTTTGGATCATCCTGAAGCTACCTACGATGAGTTGAAAGATGATACGTTGGATTGTGCTGGAGCTCCAGATTACTAATGTTAATCGATTTTATAGCTAACTTTCGACTACTATGAAAAATTTATGATGAGTACTAAACTATTAGTTTACGAAAAACTTTTTATTATAATAGAATTCTTTTTAATTGTTTGATTCTCATTAGATTTTAATCTTTAGGAGAGTTTAAGGTAAATCTATAAAATACTCCTAAATGAAAGTCCTAAAACTTTATTAGCTCTTTGAATATATTATTATTTTAGATGATCGGTAATGGGCCCATAGCTCAGCCAGGTTAGAGTGCTGGGCTCCAGATGAAATGCATTGGGTCTAAAGACCCGAAAGGGGATGAGATGCATCTGGAATGGAGAGACCCAGTGGTCCGGGGTCCGAATCCCCGTGGGCCCATTAATTGGAAGGATTTTTAATCCTATATATAAAGGCGTAAATTGAATCAACTAATTTTTATTTGTTGCCTTACTCTGTTTTATGAGTAGTATATATACTCTATGTAGAGAGTTCGAGAGTTAAAATAATATGAGATAGATCAAGCTTATCATGCTGAGTTAGTTTTGAAATTAATTCGCCTTTTAACGATGAGTTATATGAATTGCCTTTCAGATTATGTAAATAGTAAAGTTATAGCGAGAATTGATATGATTACATTAATTAATACACATTCTCTAGTCCCGATAATACAAATAATTTCATAGAAACCGGTGAAAATCTATTTGCATACAAAGGCAACTCGATTCCGGTGAATTGACTTTTTCGAGTGCTAAGACCGAAGTTGTTAAAGCCATTAGTGATGATGCAGACTACCATGGCGGTGAATTAACTAACATAGATTCTATTTCTATTGAGCCAGATAATTATGATATTGATAAGCTTGCTAGCACAATATCCAACGATATTCAATCTATTAATAAAGAGTTCGGTGCTACTTTACCCAGTAAGGTAGAGGTTGATGAAGATACTTTAGAAATTTCAGGGAAACAGTAAGTGTATTTGCGTATTATAGTCCCGATGATGATAGTGAAGATTAAGATATATATTATTTTTTTACTATTTTTTATGTAGGTGTTAAGTTGGGGAAAACGTTGGTAAGTATACCTATTTGGAAAATGACGGAGGAACAGAAGGAAGAGTTTAAGCAAACCAAGGAATACCGCAGGGTTGTACCAAAAATTCTTCATTTCATGAATATTTTTGTAGATAAAAGTAGGACATCGAAGAATCTTCGAGAAGCCTTAACTCTGTCCTATGACGGTGATCTGGATTATATGGGTGAGAAGTCAGTAGAGTGGTTAATGCAGGGTGAAAAAATACGAATAATCTTTCGCTCACGTAAATTAGAAAGGGGAAACAGCGTTTTTAAACACCATTCGTGTTATATCGGTATAATAGAAGAGCCTAGGGAGTTGGCGGGTAAAATAACAATGATAGACTGGGCGAGAATTAGGGATGTAAAGATAAGGGATTTTGTTGAAGAGTACAGAATCCAGAAATCACCGTTTAAAGCGGAATACGAATACGTTATAGGTAAAAGTAGTCCTCTCTCTCAAATAATGGTAGAAGTACCTCGATATGCTATGTAAAATGGCTTAGTCCCTTTTTAAACCCTTTCTTCCTTTTTTCTGTCGTCACCTAATTATTTGTTAGTCGGCCCTTCTCACATGCTTCTTGATGTCTTCACCGAGAGAGGAATATACCATAAAGTGAAAGGAAGGTGGAGGAGGATTGCTTTTGCTCATTTTTCTTATAATAACCCTCTGGCCAATGGTTTAGCAATCCTTTTAGGAATATTAATGTTGTTTGCAGCAATGGAAACGCATAGTTATCATTACTATTACCATTACTACAACTATTATTCCTAATGAGATAATATACGAAAAGGAAAAGATTTTTAAATATATTTTCTATATCTTTTATTGTGGTTTGTGAGAAGTGGGAATTGAGGTTTTCAACGAGGAAAGCTAGGGATTATAGAGAATTTATGGAATATACCGCAGATAATTTTAGTGATAAGTTAGTAATGCTAATTCTTGAAAAATTGGAGCTATTAAGGAGAGATCCATTGAGCTATGCCAGGGAAAAATTAGGTAAGGATAAATACGGCAATCCGATGTTTTCAATAGAAGTTACAGGAAATATAAGGATACTTTATAGCGTTGATTCAAAAAATTGTATAGTTTTCATTTGGGAGGTTGGGTCTCATAAGAAGGTTTATGGACACGACCCTTAGCTTTTTCTCTAGCTATTTTTAACAAATCTTCTTTAAACTTCTCAAAGTCCTCATCAGTTTCGATGACTAGAAATCTTTCTCCGTCTTTGTCTTCGACAATTCTCATATGTATAAACTTCTCACAGAGGTTATTAAAGGTGTAGTCTAGAATAAACTCCCCAGTTTACTGAAGAAAAATTCAAAGTAGTTAATCCTGCCGGGATCCAAAATTTTTTGCTAGAAAGGGCTTGGTAATGCGATAATGAGAAAAGGTTTAACATTTCTTTAGTTCTTGTGGAAAGAGAAGCTAAAACTGATTTCTAAGCCTTGTAATGGGTATTAATTTTTATTTAAACATGACGAGTTTCACTATATTTTTCTTAATTTAGTTCGTATTTTTTCCTAATTGAGATATATATCAAAGTTTATATCTTTCATACGAGATAATTTGTTTAAAAACTATTGATAGTATAGGTTTAATCTTAATGTAACACTAGTATTTCCATGAAGTACTTAGACTAGGATTTACGTGTAAACCCTATTAAATAAAAGCTATAAACTTTCTGAAAGTATTAACGTATTTAGATTATTAGTTTACATAAATTCTCTTTATTTAAACATTTTTATTTTCTTATGTAATAAAATATATTATAAAATGTATAATTATTCTAATTTTTTATTACTAAAATACTAATACCGTTTTTCATTAAGGCGTAAAAATTTGGATAACATAGAATAATTTGTGACTAAGTCAGTAATTAAACAAGGTAACTCAATAATTATAGAGCTTTATAAAGGTGGTATAGAGGCAATTAAGGTTAATGGTGAAATAAAAGTAGGAGAATTTGATGGTGTAGATTTTGTTGAAAAGTCAGTATCTGAGGAGAAATTAAATAAGGCAAGGGATTACGCTAAAAAAATTCTTAATGCTATATCATCATGCCCTTGCATAATTTCTATAGTTTTTTCAGATATGATATATACTAAATTTGTGTATAATGGTCAGGAAGTAGTAGCGTTTATTTCCAATTGTGTTACTTATAATAAGCAAATTTCTATAGATAAAGATACAGAAAATAGGCTTCTGGAATGTAGCAAGAAATTTATGAATTCTCTGGATTTAAAGCAAAAAGAAATATAACTTAAGAAATTGCTTTCTAGGTGTGAAGTGGGACGAAAGGAGATTAAAAATTCTTGATGAACTTAGGGAGAAGGGAATAAATCCGTATCCTCAGAAATATAACATAACTCATAGTATTATTCAGATAAAAGAACTAGTAAAGAACAACAATGATAAGCCTCATGAGCCATTTATTTTTGATATATCTACTGTTGGTAGAATAGCCAATATAAGGAGGCATGGTAAGGCATCATTTGTAGATATATTTGACGAAGGTGAAAAATTACAATTATATTTAAGAATTAACGAGTTAGGTGATAAATATGAGGAATTCTTTAATTATTTTGGTCGTGGCGATATAATTGGTGTTAAAGGGGATTTGTTCTACACTGGCAAGGGTGAGCTCACTCTATTAGTAAAGGATTACACTATGTTATCTAAGGCGTTAATAGAACCGCCAGACTGGTCTAAATTAAGTCCAGAGTTTAGATATGCTCATAGGTATGTTGATTTTCTCTATAATGATAACGCTAGAAGAGCTATGGAGATTAGGTTCAGAACTATAGCAGAAATAAGAAAATTTTTGGCTTCAAAAGGGTTTATGGAAGTAGAGACGCCTATACTACAGCCTGTATACGGTGGAGCTTTAGCTAAACCGTTTAAGACTAAAATAAATTATCTTGATGAAGATTGGTATCTTAGAATATCTTTAGAATTATATTTAAAAAGATTCATAGTAGGTGGTTTTGATAAAGTTTTTGAAATAGGTAAAGTCTTTAGAAACGAAGATATAGATGTAACTCATAACCCAGAATTTACTTTAATGGAGCTATATTGGGCTTATGCAGATTATAATGATATTATGAAGCTTACTCAAGATATCATAGTAGACGTAGCAAAAAACATACTTGGAGAAACTAAAGTAAAATACAAGGTAGGAGATAAAGAGTATGAGATAGATTTATCTCAGTTTAAGGAAATTACTATGTTTGATTCCTTGTCTGAAGTTTTAGGTAAAAACGTTGAAACTATGAGCGATGAAGAACTTAAAGGATTAATGCAAAAATATCAACTTATTCCTAGAGGTAATTCCTATATAAGGGGACTAATGATAGAGAAGTTATTTGACAAGTTAGTATCTCCTAATTTAATACAGCCAACTTTCGTTACAGATTATCCTATAGAAACTACTCCCCTCTGTAAGCCTCATAGATCTAAGAAAGGTCTAGTTGAAAGGTTTGAATTATTTATAGCAGGGATAGAATTTGCTAACGCATATACTGAACTTAATGATCCTGTTCTTCAGGATAAGTTGTTTAGAGAAGAGCAAGAATTAATGAAAAAAGGAGATCAAGAAGCTCATCCATATGATAAGGACTTTATAAGAGCTTTATCTTATGGCATGCCCCCTACTGGAGGATTAGGAATAGGTATTGATAGATTAATAATGTTGCTTACTAATAATCAGAGTATAAAAGAAGTGATTCCGTTTCCAATAATTAGCTATAAGCTTATCGAGGAAGACTAATTGATAGCATTATAGCAAATATGAAAGATAATAATAAGAAGGCTTGTATATAATACGATATTTTTTCTCCATATTTTAAGCTAATCTTCTTTATTATTTCTGTGAATATTTTTCCTCCATCAGTTATGAATAATGGGGCACCATTAAATAGGGCTAGGCTGAAATTCACTATAAACATCCAAACTGCAAATTCTAGGAAAGGAAATATTGACGCTGGGATCGCATATGTTACATAAACTCCTAAGAAATGGTTTTTTGCTATTGCGGTATAATATGATATAGTGCCATTTGGATTCTTAACTTGAATTAGGTAATGGGTTGTACTATAAAGGCTTTGATTTAATTCTGAGAAAGTTCTAATAGGCTGTCCATTAATTTTTTCTATTATTTGACCTGCGTGCATTGATATATTATAAGCTTCACTGTGAGGAATTGTACCTACTATTTGGATTCCTTGGGAAAATAGTGTTGGTCCAAAACTGGCTATTGGGAAGAATATTCCAGCTAGAATTAGATTTACTGCTATTCCTGCAGCTACTATCTTAAGTTTTGATTTAAAGGAAGCTGTTTGGAATTCACTTTCGTCAGGCTCAACAAATGCTCCAGGAAATATTCCTATTAATATAAATCCGCCGCCCTTTACATTAATTTTGTTTGAGGTAGAAGAAACAGCGTGTGAAAGCTCATGTAAAACTACTGATATTCCTATAGCTAAAAGTAAATATGGCACTTCATTTAAACCTATAGTTATTCCAGGTATTATTGGTTCTAATCTAATTGCTGTAGTTGCAGGATGGAATACAAGACCTGAAATTGTATAATAGATTAATACAATTCCTCCAATCATTGAGATTAATCCTAGAGCTATAGCGACTTTTTCAAAAAATCTATATTCCTTAGACGTAGCTAATTTAGGGAACCATTCACTCCTGGTACTTTTTTTCCACATCAAAACAAAAGGATATACTTTGAAACCTCTTGTTTCGAGTTTCTTCTTTAATGCGAAGATTACTAACCAGAATACTAGAAATCCTATTCCAAAAAGCTCTAGTGAAGATATCATACTAAGCATTTAAGTGAGTACTAAAATAAAACGATTGTGGAAATAGAGTATTCAGAAGAGCATTGGAATATTCTTAGACATAAAAGAAAAATTTCCCTGGATTTATTATATAGACTGAAAAATAATGGGTTAATTGGTTACGTTTATGGTTCAGTAGCTAGGGGTGATGTAAGAAAAGATAGTGACATAGATATAATAGTTTTTAATCCTAATATAATTGAATTGGATTTAATTGACTTTGATCATAAGTTCATTATTCAGGCTACTCCTTTTTCTACTCCAAAAGCATATATTTCGTTAGATCCTGAAGAAAGCGAAGTTATATCTTTTCCTTTATCTAGATTGAAGAGAGATGAAGAAGAATTCTATCGTTTTGGTGGAATGCTAGATTATTATGGCATAGAAAAAAATCTACGAGTAGCTGGTATAAATAAAAAAATGGAGATCATAATACCAACAGAAAAGGGTCATAACGAAATATTGTTAAAAGGTAATGAGGATTTAGCATCAAAGACTCTTAAGATATCTATATCTACGATATTAGAGAGAGAAAAATTACTTACTAAAAGAGTAGAAAAAGGAAGAACTGGGGTTTTTCTTCGATATGATTTAAGTAAAGACGAAAGTTTTGAAAGTTCAATTAGAATATTATATAAGAAAAATAAATTCTTTAGGCGTATGATAGATGCTTAAAGGGAAAGTTGGCGATTATAATATTGTAATAAAGAATTTTCGTGGAACTCATATTAGGGAATTATCTTACTTTGAAATGTATCTTGACAATAAATTAGTAGGCAGATGTAGTTACTTCTCTGGTCGCGATTATTATGTTCCATGGATTGAAATAGATTATATTCCATGGCCTAGACAGGAAGGTATTGAAGTAGATTTATTCAAATATTTTTATGATTTACTGACTCCTAACGGAAGACTATTTGTAACTTATGAGAATGATATAGAAACTTCCAATTTAATTTTTAAGGGATATTCTGCTGTAGATACTCCTTTAGGTTTTTCAATGTTAAAGGCAGGATTTACGTGGTTCAAAATATGGTATTTTCCTGAGGGTGGAAATGAAGGTTATCCTAAGATTCAAGGCAATAAACCGTTAAATGAGGAAACTAAGAAGAAGGAACTTTTAGAACTATTAGATGAAGTTAAAAATCCCCAGGTAAAAGAGTGGTTATTAAAAAATGTTGATAGGAAACCCTGAGATAGGCGTATATAATAATTTACCAAAAGGATGTGAATTATGTAGGCTTGGAGGGAAGTTAGTAGTGTTTATATCTGGAGAATGTGGAGATTCTTGCTATTATTGTCCAGTAAGTGAAGAAAGGTTTGACCATGATATGATATATGCTAATGAAAAGAAAGTTGAAAATTTCATGGATTTCGTGTATGAATCATATAAAATGAATGCGTTAGGTGCTGGAATAACTGGCGGAGATCCAATACTTCATTTGGATAGAGTTGTTGAGGTTATTAATATTTTGAAAGATGAGTTTGGAGATGATTTTCACATTCATCTGTATACTTCTGGAAGATATGTAACCTATGATGTACTAAGAGAGCTTCAAAACGCAGGACTAGATGAAATACGTTTTCATCCATTAAATAAAGAATATCTAAAAGCTATAGAAAAAGCGTTGAAATTTGACTTTGACGTAGGCATAGAAGTCCCATCAATACCAGGTAAGGAAAAGGAATTAGAAGAGTTAATACAATGGGCAAAAGAAAAGAAAGTTAAATTCGTTAATATAAATGAGTTAGAAATTACCGAGAGAAATTCACTAAATTTGAATGCGATAGGGTTAAAGATCGATCATGGTTTAGCTGGGGCTTCTAGAAGTGCAGAATTGGCTCTTAATATAGTTAAAAAATATCATGAAGGTAAAATGTCTGTTCATTATTGTAGTTCCATATATAAGGACATAGTGGAAACTAGAACAAGGTTTCTAAGGACATTTAGAGTTTACTCTAAGTCATTTGAACAAAATTCTGGAGAAGGAACTATAATAAGAGCACTAGTAAGAACTAAAGCTAATCTCGAGGATTATGGGGAAAAATATGGGGATGGATATTACGTGTCTCCAGATTTAGTTAACGATATAATTAAAATGTATCCTGTAGACGAAGTTAAAATTATTGAAGAATTGCCGTATGGTTTAGTAGTTTCTGAAAAATTAGTTTATTCTAAATCGCAATATAGCAATAATTCCAGTTAGATTTTTTGCCTCAAAATAGACAGGTGAATCTTCTGGAATAATTCTTACCTTTCCACCTTTTTTTTCTACATCTTCCATAATGTTCTCTATTTCAAGTTTTCTTTCTTCATCACTTGGAGAAATCAAATCATAAGTTATTAACAATGTATCCACTGCTCCGTATTCAGAGGCCTTTTTTACCTCTTCAATTCCATATGCAACTAGACCAGTATTTTTAGATAATAACTCTAGAACTTTTTCCATGTCTTTTACGCTTTGAGAAATCTCATAGTCTCTCATTACTTGATCTATTACATCTCTTCTAAGAATTTCTGATAAGCCTGCTCTAGAGGCTGACGATACACTATCAAGATATATTTTCCTTTTCGTATCTAATTTTTCCTTTACAATTTCTTTAAAAGGTCCAGGTCCAGCTAATATTATTGCATCAGGATTATATTGCTTACTATAATCTCCAATTTCTTTAGCTATTTCATTTGCGTTTTCCTCAATTATATTCTCTTCTTCCTTATTTGGAGTTTGAAGACTTCTTTCTGATAATATTTTAATTCCTTGAACCATAGGTATTGCGATCAAACATTCATCAAAATCTACTAAAGCTATAAGAACTTTACTTCTTTTTTCAGCTTGAGAATATATTCTATCTAATTCATGTTTAGGCCATTTTTCCTTTATAATTATAATTTCATCTCCAATATCCAAGTTAATAGTATGATGAGCCCCCCTTATTCCAAACCTTTCTGGTGCATCGACTATTGTCCCATGTATTCTAAGTCTTGAAGTGAAAGCCTGGAATTCCGTATATTCTACTTTTAGTTGGATTATCATCGATATTCTTCTTCCTTCAGCACCAACACTGATATCTCTAGTAGTCTTAGCTATTACATTGTCCCCCTTATTAAGTATCATATGGAGTGTCCATAAGTCATCCTCATCTTCTATATGCAATTTCATGCTGCCTTTCTTCTCGTCAAATTCCAAAACTTTCATTACTAAGTACTCTTTAAACCTTCTGTGGTAATTATATCTGATGCGTCAGAGGAAGATCTAGAGCAGATATATGAAATAGAGGTAGAAAGTTTTGATAAACCTTATCCTATATCATTACTTAAGGCGTATCTATATCTTTCAAACATTTATATAGTAGCTAAAGAAGATAGTAAGATCTTAGGATATGCTATAGGTATCATACAATTTAAAAAGCGTGGTCATGTGGTTTCTATAGCTACTAGAAAAGAATCTAGAAAAAAAGGTATAGGAACGTTATTATTATCTACATTAGAAAAAACGTTTATAAATAATAACTGTACATATTCCTATTTAGAAGTTATGATTACTAATAGAGAAGCAATAAGATTCTATAGGAACATGAATTATTTAGTAATATACACTAAAAAGAACTATTATGGTAGAGGAAGGCATGCTTATATAATGATGAAATCATTGATTAATAAAAGCCTGGAATAAATTTTAATTATATTAAATGATAACAGTACTATGATTGGAGATTTTTACATATTAGACTTTTCTTACGATGTTGAAGAAGGTAAGCCAGTAATTTACATTTGGGCAATAGATAAAGATAATAATAGAGTTTTAATTTTAGAGAAAAACTTTAGGCCATATTTTTATGCATTACTTGAGGACGATAATGAAAAAATTATTGATGAAATAAGAAAACTGAATAAATCGGAATCTCCCATAACTAAAGTAGACGTATTAGAGAAAAAATATTACGGCAATCCAGTAAAGGCTTTAAGAATAGAAACTGTTATTCCTGCATATGTAAGAACATATAGGGAAGCAGTAGGTAAAATAAGTGGTATAAAGGAAGTCCTAGAAGCTGATATAAGATTCTACATGAGATATTCAATAGATTCTGGATTAAGGCCATTCTTTTGGTTTCAAGCAGAGGTTGAAGAAATAAAGGATAATCGATTCAGAGTATCAAAAGTATATAACTTAACAAAGGTAATAAAAATTTATGAAGATAATCCACCAGAGTTAAGAATACTATCTTTTGATATAGAAGTTTACAATAAGTATGGATTTCCAGATCCTAAAAGGGATCCAGTTATAATTATAGGAGTTTGGAGTAAAGATGGTGGAAAGCAATTCGTTAATGAAACTGGAGATGATTTAAAAACAATAAGAGAATTCTCTAAATTCATATTAGATTATGATCCCGACATAATTTTAGGATATAATTCTAATGGCTTTGATTGGCCATACTTAATTGAGAGGGTAAGAAATAGAAATGTTAAATTAGATATAGGAAGAAAAACAGGTTCTGAACCTAGCCAAGGTACATATGGACATTACTCTATAGTCGGTAGGTTAAATGTAGATCTTATAGGATTTGTTGGAAGTATAGAAGAGGTTAAAGTAAAAAGTCTGGATAATATAGCTGATTATTTAGGCGTAATGCCAAAAAATAAGAGGGTTAATCTTGAGTGGTATCAAATTCCAGAGTATTGGAACGATGATAAGAAAAGACAAATCTTACTTCAATATAATATGGATGATGCAAAATCTACCTATTTATTAAAAGATGCTTTCTTACCTTTTGGAGAGCAAGCTGCAATGATCTCTGGACTTCCATTAGATCAACTTTCTATGGCTAGCGTTGGATACAGAGTGGAATGGCTACTTATGCGGGAAGCTTATCACTTTAATGAATTAATACCAAATAGGGCAGAGAGAGAATATGAAGGATATAAAGGAGGATTGGTAATTTCTCCAAAACAAGGTATCCATGAGGATATTTCTGTATTAGATTTTTCTTCTATGTATCCTTCGATAATGATAAAGTATAACATAGGTCCAGATACTTTAGTTAAAGGAGACTGCGACGATTGTTGGGTAGCTCCAGAAGTTGGTCATAAATTTAGAAAGGCTCCAGAAGGTTTTTACAAAAAGATCTTACAAGAATTAATAAAGGAAAGACGAGACATAAAGGATAAGCTTTCTAAGACAGATAATGAATATGAAAAAAGAAGACTTGATGAAAGACAAAAAGCGTTAAAGATCATGACTAACGCCTTTTATGGCTATATGGGATGGTTAGGAGCTAGATGGTATAGTAGAGAAGGTGCTGAGGCTGTTACGGCATGGGGAAGAGAAATTATTTCCTCTGCAGCAAAAATAGCTGAAAGTGAAGGATTTGAAGTTATTTATGGAGATACTGATTCCATATTTGTTAAAGGAGATAAGAATAAGGTTAATGAGCTAGCTAAAGAGATAAGTGATAAGTTTAGTCTTGATATTAAAGTAGAAAAACAATATAAGAGAATATTTTTCACAGAAAACAAAAAGAGATATGCAGGTTTAACTTTTGATAATAAAATTGATATAGTAGGTTTTGAAGCTGTTAGGGGAGATTGGTGCGATCTTGCTAAGGATCTTCAGAGACAAGTTATCGAAAGAATACTTTTATCTAGCGTAGATGATGCAGTAAGATTAGCAAGAGAAACTATAATGAAATTAAGAAGAAAGGAGTTTAGAATAGAGGATCTAATAATATGGAAATCCTTAGATAAGAGCATAGACGAATATGAGGTTGAAGCCCCACATGTGTCTGCAGCTAAAAAAGCTATGAAGGCAGGATATGCAATATTTAAAGGTGGAAAAATAGGCTATGTTGTAGTTAAGGGAGCTGGTAAAATTTCAGATAGAGCAGAACCATATTTTATGGTTAAAGATCTATCAAGAATAGATGTAGACTATTATGTTGATAAACAACTAGTTCCTGCAGTTATGAGAATCTTAGAATCTTTTGGTATAAAAGAAAGTACCTTAAAAACTGGAGGATTTGATATAATGAATTTTTTTAAGAAGTAATTATATCTGAAAATGTGAGTATTTTAATATTATCTAAGCTTTTAGTTATCCCACCAATTCTTACTCCTACTAACATTTTCACGTTTTTGCTAGCAGCTAATTCTAGCAATCTCTGCGTAATCACTCCATCGAATATTATATATGAGACTTTGTTATCTTGTGAAGCTTCAAGCTTAGGAATTATGTCTCTAACTTGTACTCTTTCTACAGGATTCCAGTTCTCATCAAACATTATACCTTCAAGAGTTCCTGGCAATTTCTTAATCTCTTCCATTGCGGTTTGAGGTATATTTATCTCTATTTGCGGCTTTTCCTCTATTTTTTCAGGCTGTACTACAATTACCGATTGTCCTTGACCTTCCTCTTTAATAGCCGTTTGAACTTCTTGTTGTTTCTTTAAATATTGAGAAATTGATATCATATTTGATAGGGCTTTAGCTATTTCTTTTCCTGTTAATTCTTCTACTTCTCTGCCCTGAGGTGCTCTTGCTATAAAATCAATCTTAACATTGGCATTAATTAATTCCTTTAATATCAGGTCTCCCCCGTGGTCTCCATCAAGGAATGCTATAACAGTCTTTTTCTCTTTAGACAAGTCAACTATATCTTGTGGAATTTTACCGCTAGCACCTTCCACTGCTACAGTATTCCTATAACCGTACCGTAGAAGATTTATTATGTCGGCCCTTCCCTCGACTATTATTAAATTAGGATCAGTTAATACATCTGGACCTGCTGGTAGTCTTTCTATTCCAAACTCTGTAATTTCTCCTGTTTTTACTGCGCTGCTTATTTCATTTAGAACTTCCTTTATATCTAACGCTTTTCCTCTATTCCACGTACCAAGTATGTCTTTTGCTCTTTCTATTATCTTCTTTAATTTTTCTTCTCTTACGTCTTGAATTTCTTTCAATTCAAATTTTGCCTCATAAGGGCCTACTTTTTCTACGCTCTCTACCATTGACGCTATTAGTGCTGTTTCTACTCTATCTAAATTAGACGGAATTTCTATTATCCCTTCAGATTTTCCTGACTTAGTCTTCATATCTACTACTATTCTTCCTAGTCTCCCCTTATCCTGCAATTCTCTTAGATCAAATTCTTCTCCAAATAAATTTTCAGTTTGGCCAAATATAGCCCCTATTACATCAGGCTTGTCAACTATTCCTCCAACTTCGAAACTTAATTTAACTACATATTTCAAGCTTTATCACCTTGTAACATTTTTTGATATACTCATTATCATTTTATCGAATTCTTCATTTTGAACCTTTTTCCTCAAAGGTTCAAGTATTTCATTTAGCTTTTTAGAAGTCGCAGTTTTTAAGTCCATTGGATGAAGCTTTCCTTCTGCAAAAGTCTTTTCTAAGTCTCCGTAATTCCTAAATTCTATGTCTCCGCCATATTTAATGTCTCTCTCTATCTTTAGAACTTGATTAGGTTTAGAAAATATTATATATTTATTTATTTGCAATATGGGATTATTTTCTACAACCCCTTTAGGACAATAAGCTTTTCTTATTTTTTCTTCTATTTCCTCTTGCGAATCATTTATAAATATAGCTGTTTCTGGCTTTGATTTGCTCATTTTTATATCAGCCATTAATTCATCTTCTTCTTTGGTAGTGTCCATTCTTTGTCCTCCTTGAAGACCTACTAATAATGGAGTATGAATAGCTATTACTTTCTTCCTTCCCAGTTTCTCTGAAACGTCTCTTGCAAGCATATGAGCTTTTCTTTGGTCCGTTCCACCTAAGGCGATATCTAGGTCCAAATAAAATATATCGCTTACTTGCATTGCAGGATAAATAAGCTTAGACGTATCTAATTCTGCGTCCTCGGATTTTCTTCCCATTATAGTTAATGCTCTTCTCATTCTTGCAAGACTAGTACTTTTAGCCACTTTAATTACCAGTTCCCAATAATTCTTATCTTTTACAAGATCTTCTGCATCTATTACCCTAAGCTTAGCAAGATCAATTCCGTACGCTCCTAAGATCTCAACAGCATATTTTCCTGCTGTTTTTATTAGTTCCATATCGCCTCCTAACTTATCATTTATCCATGCATGCCATGTAGCCATAAGTACAGACATCTCTACGCCGGCATCCATTAAGTCCTTCACTTTTTGAGCCCAAATTAGCCATCCTATATGGAAAAGTCCACTTGGCTCAAAGCCTATGTAACCTTTTATTTTTTCCTTAGATTCCAGTTTAGATTTTAATTCTTCTATAGTTACAATTTCTTCAGTATTTTTTGTTATAAGTGATAGCCTATCTTCCAAGTAATCTTCCCCAAAAGAAAAGAGTAAGAGAAGTTAAAAAAGACCTATTCCTCCTTTAATTGCTTAAGAAAAACTATCACTGGATGATCTTTACCTAATTTTTCCTCCAAATCCTTTACTACAAGATTAATGTCAATATCTGAATTAAGTAGCCTAGTTATTAAAAATTCAGTAAAAATATACGAATTGGCTATGGTTTTCTCATCTAAATCTTCGTCGTCTTCTGTAAGCTTGAACTGAATTTGCCTCTTTCCTTTTACTAATGAATAGAGATATTCATCAACAACATTTTCTACACATACTTTATCTTCACATTCGCTTAGTTTTTCAAGAAGTGAGAAAGATCCAGGTGGCAATTTTACCATTTAATTTTTTCTAACACTAGTAAAAAAGTTATTATTCTCCCATTACTTTAACATTAACTGTTCTTGTTCTAGGTCCGTCAAATTCTAGCAATATAATTCTTTGCCATGTACCTAAATCCAAATTCCCACTTCTTACAGGAACTGTCCTAGAGTTACCAATAATTGACGATATGATATGAGCATGTCCATTATTATCTATAAGATTATGCTTAAATTCCCCTTCTGGAGGTACTAATTTTTTTGCCCAATCCAAATAATCTTGCATTAAACCCTTTTCGGCCTCGTTAACAATTATTGCGCATGTAGTATGCTTAACAAAAACATATACTACACCTTCATCAATAGATTTTGCGGTCTCTTGAATTCTTTCTGTTATATCTATACTTTCGAATTTGCTTTTAGTCTCTATTTTGAATTCGTGAGAAAATATTTTCATAAAGAACATTGTACTTTTAAATTTTTTAATCTAATGTTCTGTATGGATTTAGAAGGTATAGCTAGGGTACTACCAGAAAGCATAGCCAAACAAAAAATTTTAGAGTGGCTATCCGTATATAAAGGAAATAATCCATTTAATGAAAAAATAGCTAATATAATTATAAACGAAGTTAGAAATTCTGAAAAAGCTCAACACTTTAAGCCTACTCTGTGTGGTGTAAAGGCTGGAAATGCAGGACTAGGTTCAAGAGGTATAGGAGATCATTTAATACATTTAAAACTGTTTGAATTAAGCAAGAGAAAACTATCTACATTTGATGATGCTGGAATTTCAGAAGATACAATAGTTTCAGTAGATGGTATACATTCAAGACTTTCATATTTTCCGTTTTTAGCCGGTTTTCACGCAACTAAAGCTACTCTAAGAGATATAATGGTAAAGGGTGCAAGACCATTAGGTCTAATTATAGACATTCATGTCTCTGACGACACTGATATATCTTATTTGTTTGATTTTGAAGCTGGAGTTTCTACTATAGCCGATGCTCTTGGTATTCCAATACTTGCTGGAAGTACCCTAAGAATAGGAGGAGATATGGTAATAGGAGAAAGAATAAGCGGTGGTATAGGATCTGTAGGAAAAATTGGCAAGAAAATCTTGTTGAGATCTAACATTAAAAAAGGGATGAAAATTCTTATGACAAAAGGTAATGGAGGAGGAACTGTAGCTACTACTGCTATATATAATGGTATGCCAGAAATAATAAATGAGACATTGAAAATAGACGAAATATTAACAGCAAGAAAGATAAATGCAGAATTTATTGACAAAGTAGAGGCAATGACAGATGTCACAAATGGTGGTATAAGAGGAGATGCATTAGAAATCTCAGAAATGTCTAATTTAAGTTTTATAATAGATCAAGAGAAATTTCTCTCATTAATTAATAAAAAAGTTCTTGACATGTTTAACCTATTTCAAATAGATCCTTTAGGGGTCTCTATAGACTCTCTCTTGATTTTTACGGATGATGAGAACTTAGAGAAGGAACTTAGCAAGGAAGGATTAGAAGTAAAAACTATAGGTTACGTAGATGAATATAAAGGGTATCCTATATTGACATTAGAAGGTAAAAAGTTAGAACCTAATTTTAGAGAAAGTCCATATACTCCTATTAAAAAAGTTATAGGAAATTATTCTCCATATACATTAGACGAAATAAAAATATCTCTGGAAAAAGCATACAATAGCGCACTGGCTAAGAAAGAGGAGGTATTGAAAAATTTAAAAGTCACTTCTACATAGCAGATACAGTCGAGATAATAATGTCTGAACAGCAGTTTAGATATATAGTAAGATTATTTGGTCAAGACGTAGACGGTTCTATGAAAGTTCCGTATGCTTTAGCGATGGTAAAAGGGATAGGATACAATACAGCAAGAGGTATTTTATTGAAAATTGGAATAGATAAGGATAAAAGATTAGGCGAATTAAGTGACTCAGAATTGAAAAAGATAGAGGAATCTTTTTCTGATAAGTCTGCTAAACTTATACCTGCATGGATGTATAACAGAAGGAAAGATTTTGATTCGGGTTTAGATTTACATTTAGTAACATCAGACCTTATTTTCTATGTTAGGAACGACATAGAGAGGGAAAAGAAAATAAGAAGTTGGAGAGGAGTTAGACATATATATGGCCTTAAAGTTAGAGGCCAAAGAACAAGGACTACTGGAAGGGCTGGTACTACGGTAGGTGTTAAAAGAGGTAGAGGTGCACAGCCAGGCGCAGCTCCCTCAAGTACACCAGCACCTTCTTCACAGTCAACTACTCAAACCAAAAAGTAAGGTGATTTAAATGGGAGATCCAAAGAAAGGAAAGAAAAAATGGGAAGGTCCAGGTTTACCTTGGATTAGAGAGTTATTAAGATCTGAACAAGAATTAGTAGGCAAATACGGGCTAAGAAATAAAAAAGAAATCTGGTTAGCAAGAACACTGGTAAGACAATTTAGACATATGGCAAGAGGCCTTTTAGCATTACCACCTACTGAAAGGATGGTTAGAGAAAAACAACTTATAACAAAACTATATAGACTGGGACTTTTAAAATCGCAACAAGCCACCGTAGATGATATTTTAGGCTTAAGAGAAGAAGATCTACTTGAAAGAAGATTACAAACCATAGTATTTAAAAAAGGTATGGCAAGAACAATATATCAAGCTAGACAATTAATAACGCACGGACATATAGCAATAGGAGGAACTAAAATAACATCACCAGGATATTTTGTACTTAGAGATGAGGAAGATTTAATAGACTTCTACGCAGTATCTCCATTTAAGGCAAATCCACCTACCGTGGGAGTTCAAACTTCAGAAGAAAAAGGTGAGGAAAATGTCCAGCAGGCGTGAAATTAAGTGGGGTATCGCTCATATATTTGCATCACAAAATAATACGTTAATTTCAATTACAGATATTACCGGAGCAGAGATGATAGCTAGAGCGTCTGGAGGGATGGTAGTTAAAGCAGATAGAGAGAAGCCTTCTCCATACGCTGCTATGTTAGCTGCAAATAAGGCTGCTGCGGAAGCTTTAGACAAAGGTATGATGGCAATACATATTAAAGTAAGAGCTCCAGGAGGAGCAGGTCCTAAGACTCCTGGTCCTGGTGCTCAACCAGCTATAAGATCCTTGGCAAGATCTGGGTTTATAATAGGAAGGATTGAAGATGTTACGCCTATTCCACATGATACGATAAGAAGGCCAGGTGGAAGGAGAGGAAGGAGAGTATAAATGCCAATAAAAGTTTTATCTAATCAAGGTAATTTTCTTTCTTTAGAATTAGATGATTATCCTTTAGAATTTGTGAATGCTATAAGGAGAGCTTCAATATTATATGTACCAGTAATGGCAATTGATGAGGTATATATTATAGAAAACAATAGTCCGTTATATGACGAAGTCTTAGCTCATAGATTAGGTTTAATTCCATTTACTTCTGATGATGCTATAGATTTCTATAGATCACCAGACGAGTGTGCCTCATGTACAGACAATTGTGAAAGATGTTTTACCAAGGTATACATAGACGTTGAAGCAAAGGATTCTGAAAGAATGGTTTACTCAAGGGATATAAAGAGTGACGATCCTAATGTAGTTCCAATAAATGGGGATATACCAATAGTCTTGTTAGGCAAAAATCAAAAGTTGTCATTGGAGGCAAAGTTAAGGTTAGGCTATGGGAAAGAACATATAAAATTTAGTCCAGTATCTATGGCAGTAGCTAGATATTATCCAAAAGTTGAAGTTTTAGGTAATTGTGAAAAAGCAATTGAAGTATGCCCAGAAAAGGTATTTGCTATAAAGGAAGGCAAACTTGAAGTTGTAAATGAAACTGCTTGTACATTATGTGAAGAATGTTTACGATATTGTAATAATATAAAAATCAGTAGTGTAGATAATAAATACATTTTAGAAATAGAGAGTATAGGTAGTTTGAAGACTCAAAGAATTTTAATAGAAGCTAATAAAAGTATAGCTCGTAAACTTGATGAACTTAAAAAGAGGGTTGAATCTTTATGAGTAGAACAGGAAGTACAGACATAATGGTTAGAAAACTTATAAGTAAACTTGAGGCTCAAGAAAAGCCTATATGGAATGCAGTAGCTGAAATGCTCGATGTTCCATCAAGGAAAAGATCTTATGTAAATTTATATAAAATAAATAAATATAGCAAAAAGGATGATGTAGTCCTAATACCTGGAAAAGTATTAGGAATAGGAACTTTGGATCATCCAGTTACAGTAGTAGCACTCGATTTTTCTTCTAACGCTAAAAACAAGATAGAACAGTCTGGTGGAAAGATATTAAGTTTTTATAAGGCAATTGAAGAAATAAAAGATTTTAAAAATGTAAGGTTGATGAAAAAATGACTGAAGAAAATATAATTATAATAAATGCTGAAAATCAAATATTAGGTAGAATGTGTAGCAATATAGTAAATCTATTAAAAGATGGTAAGAAAGTATACATAATTAACTCAGAAAAGGCAGTAGTTAGTGGTCCAAAATATAGAGTTATAAACGGATATAAATTGTTCTTTTCAGTAAGAACTCTTTTTAATCCTTATAAACAGGGAATTAGAAGACCTAGAAGTCCAATAAATATAGTAAAGAGAACAATTAGAGGAATGCTGCCCAAAACTCCTAAAGGTATTAGAATGCTTAAGAACGTAAAAGCATACATAGGGATACCTAAAGAATTTGAAGGAAAAGAGTTTATACGATTTGATAATGCCGATGTAAAAAGACTTAAAGGTAAGTATGTCACATTAGAGGATGTAGCAAAAGAGATGGGGTGGAAAGTATATGTCAAACCAGCAACAAAATAACGTGATTATAACTAGTGCTAAGAGAAAAATGGCTAGCGCTAGATGTTATATTTATCCTGGTAAGGGAAGAGTATTCGTGAATAATGTACCAGTAGAAATAATACCAATAGAGGTAGTTAAATTGAAAATTATGGAACCATTGCTATTAGCCGGTGATGGTATTTTCTCAAAAATAGATGCTAAAATATATACAGAAGGAGGAGGTCTAATGGGGCAAGCAGACGCTGCTAGAATGGCATTAGCTAGAGCTATAATAAAATTCACAGGAAGTAAGGAAGTTGAAGAAATTTATAAAGCCTATGATAGGTCAATGTTAGCTGGAGATCCAAGACAGACAGAATCAGAAAAATGGATGAGATATAGTGCTAGAAGATGGAGACAGAAATCATATAGGTGAAGTATTATGATAGTTCCGATAAGATGTTTTACGTGTGGTTCATTAATTGCAGATAAATGGGAACCTTTTATAACTAGAGTAAGTGCCGGAGAAGACCCAGGTAAAGTTTTAGATGACTTAGGAGTTAGAAGATACTGTTGTAGAAGAATGTTAATCAGCCACGTGGACATTATAAAAGAAGTTATAAACTATACTAGACCGATTTAGGTGATAGTATGTCAGCAGATGAAGAAAATAAAAATACTGAATTATCCGAAGAGGAGAAAGCTGAATTACAAAAATCAGAAAAGGGTGCAGTAATAGAATTATTAGTTCCACTAGAGACTTATTTATCTTCTGGAGTTCATATTGGGACGCATAGCTGTACAAGGTATATGGAAAAATTCATCTATAGAGTAAGGCCAGAAGGTCTATATGTATTAGATGTTAGAAAAATAGATGAAAGGTTAAGAATAGCTGCTAAATTCCTTTCTAGATTTCAAGCATCATCTATCCTTGCAGTAGCTTCTAGACCCTATGCATTTACTCCAGTTCAAAAATTTGCGGAAGTTGTAGGAGGTAAATCCGTCACAGGAAGATTAGTACCAGGGACATTAACTAATCCTTACCTGGAGCACTTTATGGAACCTGAGGTGATATTAATTTCAGATCCTAGAACAGATTTACAAGCCATTAAAGAAGCTGCTGACATGGGAATTCCAGTTGTTGCATTCGCAGATACTGATGCTAAGATAGACTATGTTGACCTTGTGATACCAGCTAACAATAAGGGTAGGAAGTCTCTAGCTTTACTATATTGGATCTTGGCTAGACAAATATTGAGGGAAAGGAAAGAAATTGCTACAGACGCAGATATACCAGTAAAGGTAGAGGAATTTGAGGTGAAACTAGTTCAATGAAAAGAATGCCCGCAGTAGCCGGATCATTCTATGAGTCCGATCCTCAGGAATTAAAAAATAGAATTGAGTGGAGTTTTAATCATCCAGTAGGACCTGGAAAAATACCTGAAATTCCGAAAGATAAAAATAAGAGAGATAACTTGTTTTTTATAGTTCCGCATGCTGGCTATATTTATAGTGGTCCAGTTGCGGCTCATTCTTACTATTATTTAGTATCAGAAGGTAAACCTGATATAGTAATAATATTAGGCCCAAATCATACGGGTTATGGTTCTTATGTTTCAGTATGGCCTGAAGGAGAGTGGGAAACTCCTTTAGGCGATGTAAGAGTAAATAAGGATATTGTAATGGAATTAGTGAAATATTCTCAAGTAGTTGATATAGATGAAAAAGCTCATTTGTATGAGCATTCGATTGAAGTTCAGATACCTTTTCTCCAATATTTTTTTGATTCTAATTTTGAAATAGTACCTATAGTCGTAGGTTTACAAACTCCAGAAATAGCAGAATATTTGGCTAATGGAATTTATAAGATATTAGATAATCATAAGGACAAAGATATTGTAATTCTTTCTAGTAGTGATATGAATCATTATGATCCTTATGATGTAACGTATAAAAAGGATCAAATGGCTATAGATAAGATAGTTCAGTTAGATTATAAAGGACTATATGAGGTAGTTGAAGATAAGGATGTTACTATGTGTGGATATGCTCCAGTAATGGTTTCAATGATTTTGGCTAGAAAATTTAATAAAAAACCTTACATACTTAAGCATGCAACTTCTGGTGATACTTCTGGCAGCAAGGACTCAGTAGTGGGATATCTTGCAGCGAGATTTGGAAATTAATATTCCATTATGTTTTTCTGGCATTCCTACTATAGTTAATAATCCTCTTCTTATAGTTAATATAAAACATAAGATAAGATTAATTGATAGAAAACCTAGGATTGACATTTCAAAAATATTTAAAGAAGCTACTGGGTTTGAGTGCAAATTTAATATTGATATAGAGAACAATCTTCCTTTTTCATCGTATTATGTTATTATTACTAAATTTCTGATAGATCGAGCGATAGGAACATGTGAATTGCCAATAACTTTAGATGAAGAAAATGAAATTATGAGAATGATAGATGATGCGTTATACGATTCTGAATTAATTAGAGCACTTAGAACTGCACAGTTTATGAACTCCTCAATTCTCTATAGAGATAATGAGGATCCAGTAAAAATTTCATTTCCTTCCCTTAAAATAAGGGTGCTATATAGTTTTCCAATACGGATTAGAGACGACTTAGATAATTCTATAATACATACCCTAGGTATGATACCGGTTAAATTTTCTGAAAAATTTTCTCCTGATTTAGTAAATCTAGAGAATGGACTATGGCATTCGCTGTATTCTATTTTTTCTCCTTATACTAATAATTGGAAAATAATATGGGATCTAAATTGGGCTACGTTTATAGAGTTCTCAAACTTGGTGGAAGTTTAATCACTAATAAGAATGTACCTTTTTCGTTTAATGAGGAACTAGTAACTAACGTTGTGAACGTGATAAAGAATTTTAAAGTGATATTAGTTCATGGTGGAGGAAGTTTCGGGCATTATGAAGCTTCGTTAAGTAAAGAAAATACTCAAACTAGGACAGTTATAGCTATGCAGGAATTAAATCTAAAAATATTGAAAATTTTTAATAAAGAAAACATTCCTGTTTTTCCTTTACCAGGAAGATATTTCACAATTAATCAAGTTTTGGAAATATTACAAAATAATCTAATACCAATAATTTATGGTGATATATTGCCAAATGGAAATATTATTTCTGGAGACGATATAACGTTAACTATAGCGAAACACTTTCATACAGAAGCTCTCTTTGCTACTGATGTTGAAGGTATAATAATAAATAATACTGCTGTGAGCTTGTTAAAATCTCTTGATGATTTTAGAGAAATAAGAACATCTCAATTCGATGTTACTGGTGGTATAAGAGAGAAATTAAGGAAAATATTTCAATATAAAGTAAATTCCCTCATTTTTGATGGTAGAAATCCCACAAACATATATTATGCATTGAGTGGAAAAAGAATTGGCACTTTTGTGGAGGCGGAATGATGATAAGTAACAGGAAAATAGAACATGTAGAAATTTGCCTATATGAGGGAGTTGAGGGATTTACTTCAACTCTTTTAGATAATGTTGTTCTGGTTCATAAAGCAATGCCAGAGATTTCATTTAATGATATAATTACAAAAACAAAGTTCTTTAACAAAGACATTTCCGCACCTTTAATGGTAACTGGTATGACTGGAGGTACTGCAGACTTAGGTAAAATAAATGAGACAATAGCTTCAGTAGTAGAAGAGTTGGGATTAGCTATGGGAGTAGGTAGTCAAAGGATAGCTATAGAAAACTCTTCTGCAGAAGAGAGTTTTAAAATAGTTAGAAAAGTAGCACCATCTTCTCCTATTATTGCAAATATAGGAGCTCCGCAACTTACTAAAGGTTACGGTGTTAAAGAATTAGAAAAAGCTGTATCTATGATAGAGGCTGACGCTATAGCCATTCATCTAAATCCTGCTCAAGAAATATTTCAACCCGAAGGTGAACCAGATTATTCTAAAGAAATCTTGGAAAAGTTGAAAGACATTTCAAAATCTTTGAAAGTACCTATAATAATAAAGGAAACAGGAACTGGTATTTCGATGGAAACAGCAATATTGTTTTCAAAATATGGGTTCAAAAATTTTGATGTTTCTGGACAAGGAGGAACTAGTTGGATAGCTGTAGAAATGATAAGAGATAAAAGAAAAGGGAATTGGAAAGAACAAAGTGCATCACTTTTTGCTGATTGGGGAATTCCTACTGCAGCGTCTATAGTAGAAACAAGATATTCCGTTCCTGACTCATTCATAATAGGTAGCGGAGGAATAAGAAATGGTTTAGATGTTGCCAGAGCTATAGCCTTAGGTTCTGATATAGGTGGCATGGCAAGTCCTGTTTTAAAGAGGGCAGTGGAAGGTAAAGATTCTCTCAAATCGTTTTTTAATAAAACTATTTTTGAATTGAAGGCCGCCATGATGCTTACTGGATCTAAGGATATAGAGGAACTTAAGAAGACTAATATAGTAATTTGGAAAGATCTGAAAGATTGGATGGGTTCTCGAGGAATAAGCTTATCTATTTATGATAAATTAAGAAAGAGAGAATAATGAACTTAGAGGAGTACTTTAAGGAAATAACAGATAACGTTAATGAGACTATAAAAAGTTACGTGAAAGGTGATACAAAAGATCTTTATGATGCATCTATGTATCTCTTGAATGCTGGTGGTAAAAGACTTAGGCCATTAATTTTAGTTTCTTCTTCCGACCTTTTAGGAGGAGATAGAGAGAGATCATATAAAGCAGCTGCTGCAGTAGAGGTTTTGCATAATTTTACTCTGATTCACGATGATATTATGGACGAAGATAATCTTAGAAGAGGAATTCCAACAGTTCATGTAGTTTGGGGCATTCCTTTAGCTATATTGGCAGGGGATCTTCTTCATGCAAAAGCTTTTGAGATACTAAACGATTCTCTAAAAGGACTAGATAGCCAAAGATATTATTGGGCTATTTCAATATTTACTAAATCTATTATTATAATTTCTGAAGGTCAGGCTATGGATATGGATTTTGAAAAAAGATCTAATGTATCTGAAGAAGAATATATAGAAATGATAAAGAAAAAAACTGCACAATTATTTTCATGTGCATCTTCTCTAGGAGGTATAATAGCAGGAGCAAATGAAAATACTGTAAATAAACTTTCATCCTACGGTTTAAATCTTGGTATTTCTTTTCAGATAATAGATGATATTTTAGGTCTAACTGCAGATGAAAAAGAGCTTGGAAAACCAATTTATAGTGACATAAGAGAAGGAAAAAAGACAATATTAGTAATTAAGGCTCTAGAAAAAGCTACTGCTAATGAGAGAGATGTGATAATCAAAGGATTAGGTTCTAAAAACCAAGAAGATGTAAAAAAAGCTGCTGAAGTAATTAAATATTTGGCTTTAGAATATGCATATTCTTTAGCAGAAAAATACTTAGATAATGCGCTAAATGATATTTCCTCTATAGAGAGTAAGAACGAAATAGCTGGAAAGGCTTTAAAATACCTTGGTGAGTTTACAGTTAAAAGGCGAAAATAATTTGCTATTAATCCCTGCAATTATAGCATTTTTTATTACTTTTGTAGCTACAGACTGGATTATCAAGATCTCTAAAAGTAGAGGGTTTGTGGGTAAAGATATAAATAAGAAAGATAAACCCTCAATTCCTGTCTTAGGAGGAGTTGGTATAATTGCAGGATTTGTTGGTGGAGCTTTCACATTGTTAGTTACTGATCCAAGCGGAAACGTAATTTCTGCAGTTCTTTTATCCTCGCTTTTAATAGCATTTTTAGGTCTCTTAGATGATGTATTAAATTTGAGGCAGTCAGTAAGGGCTTTTACGCCGGCATTAGCTTCAGTACCTTTAGCCCTTTTTAGCGTGGGACACTCAACAATTTCCATACCTTTTTTAGGTCCAGTTAATTTTGGAGAATTCTATTACATATTCATAATACCTATAGCTTTGACAATATCAGCTAACGCATTTAATATGCTTGAGGGGTTAAACGGCTTAGGAACCGGAATGGGTATAATAATGTCAGCAGCTTTAGCAATAATAGGCTTAAGAAGTATAGGAAGTATATATATTTCAGGAGAATTGGCACTGGTTCTTTTATCTTCACTCCTAGCCTTTCTTTATTATAACAAATATCCTGCGAAGGTATTTTTAGGTAACATAGGTACTTATTTCATTGGTTCCGTAATAGGTTCTATAGGTATTTCTGGGTTTATGTTAACCGCATTAGCTATACTGTATATTCCTTATGTCATAGAATTCTTATTGAAGGCTAGAACTAAATTTAAGGGTATTTCTTTTGGTAAGATTTCTCCTGAAGGTTATCTTTACTGGGATGAAAAACCCAATTCGCTAACTCATATAATAATGAAACTAGGCCATTTCAAAGAGTATCAAGTAGTAGGTATAATATGGAGCATAGAAATAATATTTGCTGTAATTGCAATTATTTTACAGACCACTATTATAAGAATATAATTTTTATTTATAAATGAGATATTAATATCTTGAATTTTTACATGAATACTATTTAGATAGCTCTATCTTAAGAGTTATTCCATTATTGTTATATCTCTATAAATTTCAATTACTTTGAGATTTATTAATAATAGATGTATTATCAGTTATACTAGTATTTATATTCTCAATTCTAGAATAGGCAATTTAAATTGTTTTATTTTATTTCCTATAAAGTAACTATTTTTAAATTATAATGACAAAATTCTTAAATAGTAAGTTTGTAGTTAATTTTCTGATGTTTGGAGAAATTAAACTAATGTTTGTTACGGATTTACATGGATCAGAAACTGCTTATAGAAAGACATTAAATGCGGCAAGGATGTACAATGTCGATTACCTTATTATAGGTGGGGACATAGCATCTAAAAATATAGTATATATAGAAAGAAGAGGAGATAAATATTATTTTGATGGTAATGAAATAGATATAAAAACTGTTTATGAGGATGCCAAGAAGTATGGTTACTATATTTATGTTGCGGATAAAGACGAAATACAGAAAGTTATGGACAATAAGGAATATCTAGAATCTACAAAGAAGGTATTTATAGGAAAAACAAATAGATAACTGGATTAAGATAGCTGAAGAAAAACTAGTTAATACTAATATAAAGGTATTCTGGAGTTATGGCAATGACGATCCATTATATTTAGACGAAATTTTCTCTAAGTATAATATAAGAGATGAAGGAATATTTGAATTAGAAGAAGGCAAGACTAATACTTTATATCTGATTTCATATGGGTATGTAAATCCTACACCTTTTAAAAGCTACAGAGAAAAACCCGACTCTACTATATACATAAAAGGAGAGGATTACTTAAAGAAAATAGATGATCCAGATAAGGTAATATTAAATTTTCATGCTCCGCCATATAATACTAAACTTGATATAGCTATAATCAATGGTAAGGAAAGAGAACATGTTGGATCTAGAGGAGTAAGGGATTTAATTGAAAAATATAGACCTCTACTAGGTTTACATGGTCATATAATAGAGTCTTCTGATACGGATAAGATAAAAAACACAATAATAATTAATCCAGGAAGTCTAGCTAATGAAGGACTGTTAAAATATTCAATAATAATCCTAGAAAGAAAGCTAGAAGGCATAATGGTCAAATATAAAATAAAAGGAACTGCTATCTTATCTGGATGAATTATTTGTAGAGTTTTTTGTTAAAGTAATTCCAATGAGCTAAAGTGATAAGAAATAATTGTTAATGTAGAGAGATAGTGGGATAAACGCAAAGCAATTTTAAATTAACTCATTAAAAAAAGGAGAATTAAAGTGAATATAGAAGAGAATGTAGTTAGATTCCAATGGGGCTGGAGGGATTTGAACCCTCGATCACCAGGGCCCAAGCCTGGCATCCTAGTCCAGGCTAGACTACAGCCCCACAATACTAATGTGTAAAAAACACTTTTAAAAGTTTATTATATATGGGTTGGATCTTCCTCTCCATGGTAGTTAATAGTCTAGGCTTTAACCCAGACTTACCTTAAGCCGGTGACCAATAAGCGCTAACGCCCGGCTACGGCTGCTCCCTTCCGGACCTGACCGATTCACCCGGTAAGTATGGAACATCCTCTCCCTCCGAAGAGGAAGTCCATAGACGTTAGCCCTATTGGGCGGCTTTCATTGTACAGCCTGGACCTAGACTATTACTTGCCATAGGGAGGAAGTTACTGGTGCCCGCTTTACGCCATGCGGGAATAGGAGATGGCGAGTCTCCCCACCCTACCCAACCCATTAATACTTCTGCAATAAGGTTTTTGAAGTTAATGCAAAAACAGTGATGGCTAGATTAGATAAATCAGAAGAAACTTAATATTCAGCTCAAATAATACTGATTTTTAGTAATTTTTATGTATTTTGTTATATTCAAGGCTTATCTGAATCGCTATTAAATAATAACAGTATTAATGTTTGTTTAATATTAGTTGTGTTTTTATGGTAACATTTATAAGCCCCGCTGACAATAAGATTTTTGCCGGGGTCGCCTAGCTCGGTTAGGGCGGCGGCCTGCTAATCGTCAAGCAGGTAGCCGTTGGGGGAAACCCCGCGCGGGTTCAAATCCCGCTCCCGGCGTATAAATATATTGTAATTAATAATTTTTCTGAGCGTGGTAATATCCATAAATAAAGTGTAACGCATTTAGGAATCGAGACTTGATGCAATATGTTAGTGTTTTTCCTCTTCTATAAGACTAAATATCTGAAATTAAGGTATAAATGTCGATTTTTTAAACAATTTATTATATAATAATTAATTTAATTATTTTTCGCTAATTTAACTCTGTTAAAAATGGTTTATTAAAGTTTTACATTGAAAAAAATAAAAATAGGTAAAAATAAATTATCATGACCTTATATGGGACTTAAAAATCTAATTATCGCATTATTCCAACTTGATAAAGATTGGACTACAAGAATAGTAATGGCAATGTTAGTTATGGGTGTAATATGGGGGCTTTTGGGTGTAATAGACTCACTCATGGTCAGGCTTCAGGAAACAACGTGGGGTACTTCTGCACTACTTATAGAGACATCACAAGAATACTATGGCGCTATAACTCTCCACGCTGAGAGGGACTTATTTGGTTTTGCACAACAAGTAGAATTTGCACTATTTATATATTTCACTATAAAATTATTGAATTTACAGCCAAAAGCTAAATGGCTCTTAAATATTTCCTTTATTCTTATTAATATTTCAATGATGTTTATGGAAGGACCTATAGTAGTATATCCTACATTTAATGATAATTACTTTTCAGCTACAGATTGGTATTACCTATCACCAATGGGGATTCCATCTTATTCTCAATATGTAGTTTCTCCATTATTCTTTACAGGATGGTTACTTCTAGATGCATTCACATATTTAGCAGGAATATGGATAATTTACCATTATTATATAGCTGCTAAGACATTAAAGGAAAAGTTACCTATAGGCTTAGTATTTTTCCTTATGGATACATTATTATATACTATAGGATACTCTGGAGTTACTGCTGCAGATATATGGGATGTTCTAGCTTATGCAGGCATAGTAAGATTAGATCCTATAGCTAATCAGATAGCATTTTGGATATTCGGTCATGCTATAGTATATATGGCATGGTTGCCAGCAGTTGGTGCAATGTATTTGCTTATTCCTATTTTGGCTAATAAGCCTCTATATAGTGATAGGATGGGAAGAATTTCAGCACTGCTTTATCTAATATTTTCAAACAACGTTCCAATACATCACTTATATATGGTAAACTTACCAGTAGGAATAAAGATATTGCAAGAAGTATTAACGTATGCAGTAGTAGTACCATCAATGATGACGTTCTTCAACTTATGGGCAACAACAAAAGGAGCACAAGTAAATTGGAATATAATAACAGCGTTTATTTCAGCTTCTTTTGCAGGCGCAATAGCCGCAGGAGTAACTGGAATAGCAAATGCTACTATAGCTTTTGACTCTATAGTACATAATAGTATGTGGGTAGTTGGACACTTCCACGCTATGATACTTTTATCTATAGTTCCAGCTGCTATGGCAGTGCTATATTTTATGATACCTATGATGTCTGGTAGACAATGGTATTCTGCAAAGTTAGCATGGACTCACTTTATAGGCTACATAATAGGTGCTGTAATGTTAATTATAGGAATGGAAATGATAGGATTTTACGGCATAGTAAGAAGAGCAGAAATTTATCCTAGATTCGAGCCTGGATTAGTTTTTGCAGAAAATCTGGCTACTGTAGGAGCTTTAATAGCAGAGTTAGCAACATTAGGATGGTTCTTAAATCTAGTATTAACATTAGTTAAAGGAAGAACTGCAAAGTTAGAGGGACTAGGTGTAGGAGAATTAATAAATACAGTTGCTATGTCCTTAAGTTGGGAAAATGCCAATATGAGTTCATTGATAAAATTTAATAATAATCATAAAATAAGTAGAAGTATGTTAAAGAAAGCATTAGGAATAGATTGGGTATTAGGAATAATTGGGGCATTATTCATAATAGCTAGTGCAATACCACTATCTCTAGGAGGAAATATGTACAATGCTGCACCATGGGCATGGATAGTGCTATTAACAATAGGTATAGTAATGATAGCATATCCAGTCTTAAGAGGATCTAAAAGCATTTAGTTAGTTTTTTTAATATTTAGTCTATAAATTAAGTCTGTTAAAGGTGATTTAGATGGATAAACAAGAAAGATGGGAATTAATTTGGACCTTATTTGTTATTGTTCTATTTGCTATTGTTATTGTTGGTACTCTTCCTCAAGATTTTATAGTCGGAGGAGTACCGAGTACATTAAGTGAATTACCTAATGACCCAAGTAGTATAGTTAATGTTCATATAACCTCTTATCAATATCTCTTTAAGGTTAATGAGAGTGGTCCAGTTAATTCAGAAGAATTAGGTAACCCATTCTACTATAATTTAATAGTAGCTCATCCACATGAATGGTTAAATATATCTATGACATCAGCCGATGTAACATCTAACTTTTATTTCGCTGACTATTCTGATAGAGTAATTACTGATCAAATAGTTCCTGGTTTGGTTGCTTATGATGCGTTACCAGTGCCTAACATAACTGGTGCATATGCGTTCGTTGGTGGAGAATTTAATGGTCCATGGTTTAGTTATCAAACAGGATTACTATTAGATATTCCTGCGTCTGGTTACATTACTCCTAGTAACATGTCTGCATATATTTCTCAAACATCTAAAGCTCAATCTATAGCGCTAGTTGGCGATCCTTATAATCCTCCAATAATATGCCAGACTACTACTTCCACTCCCTCATTCTATCTAACTGGAAGCGATTATGGAATATTCAATAGTACTGTCCCAGGTCCAACATTAGTAGTTAAGGACGGTTCGTCAGTTACAGTAAAAATGTATATGCCTACTCCAGATAATGACCATAACTATCTCTACAACTATTCAGTATCTGGTAAGCCATATGCTGTAACTAACGTTACAGTTGGTATTTATGCCGTATGGTGGAACGGAACTATAACTCCAGTAGTTACAGAACCAATAAGTTATAATTCAACAATGACTTTCCACTTTACTGCTACTGCCCCAGCATATGTATATGGATTAATATATCCAGTATACTATAACTATAATCCAATGGGGCTATCAACTAAAATCGGTCCATTAATAGGTATACAAAAGGGATACGTAATGGGATATTGGGGAACTATGTTGGTGGTGAGCTAAAAATGGTGAGTTTCTTTAAAGTATTAGGCATAGGGTACGTATTGGCAATTGCATTACTAGTATGGGAATTAGCGGATGCTACGCTACATGCGGCAGCAGCGCCTTATACGTTAGTATTTACTATAATGGCATTCATTGGATTTATATCATTCTTCCTATTTGTGTACTTTGCACCCCAAGAAGAAGGTAAAAGTTAAATTATTTTTTTAAAATTTTCTTCTATTTTCTTTTCAATCTCTTTTTCTTCTATTTTCTTTATTTCTGATATTTTCTTGATAGTGAATGACACATTGCAAGGCTCGTTTCTTTGATTTTTTTCATATCCCATAAATGGTGAATCAGTTTCTGTAACTATACTCTCCAATGGTACGCATTTTACTATTTCTTGTCTATTTTTATCTCTTAGGAGTATTGGAGGAATAGATATGTAACCTCCCATATCTATAAATTTCTGAGCATCTTTTGTGCTTCCTTCATAAGCATGTAATACAAATTTTATTTTATATGAAGGTAATAAGTTTATTAAATCCTTATTTCCACCTCTAGAATGAATAATTATAGGTAATTTTCTTTTTTCTCCTTCTTTGAGAAATATCTTAAGTATTTCAATTTCCTTTTTCTTTAAATTCTGATCTTTAATCCAGTAATAATCAAGTCCTACTTCGCTTATTGCTTTAGCTTGATCGAGAAGTTTTAATATTTTTTCTACTTCTTCACTTTTTTCAATATATTCCGGGTGAAAACCTATTGCTGGAAGGATATTTGAATATTTTCTAGATAATTCTAGAACTTTTAAATCCGATTCTAGATCTACTCCTGCTTCAACAATAACTATCTCACATTTGTTTATCACTTTATCTCGATCTAGATCAAAATCTTTTGTATGCAGATGAGCGTGAATATCTGTTAGCACAAAAAAATTAAAAAATTATATTTAAAAAATTATTTCCATGGTTCTTTCATAAGTGTTATTTTTACAGCGTTATCTTTTTCATCAAAAATTACTTTAACTAGATCTCCTTCTTTTATTTGGAATTTTTGTCTTATCTTAGCAGGTATTGTTACCTGATAGTTCCTACTAACTTTGACTATTTCTTCTACTTCCATTTAGATCACTATGTTACCTATATAAGTAGTGGTATATAAATCTTTTTTTAGTTATGAAAAAATATCATTTGATGATATAAGTGAGATAGTTCTTACTATTGGAACATTTCAGATTTATATATTAAGTTGAAAGCAGGAGTATTTTGTATAAAAGCTTAATTCATAGGAAAAGTTGAAATCTAATCCTTATTCTACAATGAAAAAATATATATATGAGAATTTACATTCTTTATATGTGGTTAAAATGGAACAAACTCAGATTAGTGGATCAAGAATAAAGTTACCATCTGGAAAAGATGCTGGATTAGTAGATATATTGTCTTTTTGCTATGGATTGTCTGAAACTGATGTTCAAGTACTTATTGCGTTAATGAAAGGAGATGCTAGGGGTACTGAAGAATTAGAAACTGAATTAAAATTGTCTAAAGCTTCTATAAATAGAAGTTTGAATAAACTTCTTGAAATGGCTTTAGTCATGAGAATTAAGGAACCTGGTAACAAGGCAGGAAGACCAAGATACTTATACAAGGCAAAAGACTACGGAGAATTGAAATCAAAGATATTACAAGACATTAAAGACTGCTCAGAAAAAATGGCTGATTTAGTAAATCAAGAATTTAAGCCATAAAGTCTCCTATAACTTTATTCAATAGATTTTTCTTTTAGCATGTTTTTTAGTTGTTTTGAATTGAGGTTAGGAATAGTTTATGATCAATTAATAGCTCCTATATTTCCAGGAGGAGGAGGGGTACATTCTCTAGAAGTTATAAAGAGGTTAGCTAATGATTTTGAAATTGTTTATTTTCCATCTAGTAGACTATTTTTAAAGTGGGGAGATAGAAAAGATGAAATTTTACACAAAGCAGATTATATTGGAAAAATTGTTGAGATTCCCGAGATCTTTTATGAAATGTTAGATAAATACTCAGAATCTGCTTATAATACATTCTTCTTCGAAAAATTTTCAAAAAATATGTCAAAAATTTATGCTAAATATACTAAAGATATTGAATTCTTATATGAACCTGATCATACGACAGCTGATATTTTTTTCATATCAAAATTTTCTGGGAAAAAGTTCGGAATTACCTTACATACGCCTTTATTTTATAACAATAATTTGGAGTATCTTAAAGAATTAATACGAATTAGATTTAACAGATGTTTAATATATAACAGAAGAGGATTTATAACTAGTTATCTATACAATGCCTTATACCTTAAAAGAGTATATACGAAATTACTAGATTATTCTCCGCCTTCCTTTATAGCCAGCGTAAGTGAAGGACCTCTATTCTATTCTGCACTATATAAATATTCTATTCCTTTAAGAATACTTTCCCCTGGTAATGCTTTTGATAGTGATTTGTTAAAATATCGAAATGTTCTTGATAAGGCAGACTACATGATATATTTTGGAGTTTTAGCTGAACATAAAGGGGTTCTAGAAATTCCTGATATTCTTTATCAAATTAGGAAAAAGGTGAATATCAGCTTAAAGTTATTAGGCAAATTTTCTTCAAGATGTATCGAAAAATTGTTTTGGTTAAAAGCTAAAAATCTTGGTGTAGATAAGAATATAGAATTTCTAGGTTTTATAGATAAGCATAAGGAAAAATCTAAATTTATAGATATTGTTTCAAAGGCGAAACTTCTTCTATATCCTTCTCATATTGATTCGTTTTCTTTAACAATATTAGAGTCATTAGCTCTAGGCCTACCAGTAGTTTCTTATGACATTGTAGGCATACATTCAATATACAAAAATATAGACGCGGTAAGGTTAGTGAATGAATTTCATAAAGATGAATTAGCTCGAGAAGCCGTTAATATTTTACAGCTTGATAGAAATACATATAGCGATTTATTAAATAATAAAAAAATAATCGATTTTCTAAATTTTTATTCATCATGGGATAATGTGGCTTTAGAAGTAAAAAAATATATTTTAGAGTTTGGGAAAAAATAATAACTTGATAAAATATATGGCAGATATGACTACTTTAATATTCTCACCACATGCAGATGATGAAACTTTAGGTTGCGGTGGATCAATAGCTGCCAGAAGAAGCTCTGGTGAGGAAGTTTATATAGTATTTATGACTGATGGTAGATATGGATCTCCTTTACCTGAAGAAAGGGGATCTAAAGAGCTGATAGAAACGCGGAAAAAAGAGGCATTAAATGCTTTAGAAATTTTAGGAATTAAGAAAGATAATATATATTTCTTAGATTTTGAAGATGGCCATTTAAGTAAGAGCAAAAAATTAGCCTTATTAAAAGTCGAAGATATAATTAAAACTGTAAAACCTAATAATATATATTTTACATCTCATATTGATGCTCATACAGATCATAGTACTACTGGAGAAATAGTTAGAAAAGCTATTGGAAATTTGAATATAAATGTTAAACAGTACTCATTCATGATTTGGAAACCGCGATTAATAGCACGAGACTTAAATATATCTATAAAATTTATAAAAAGCTACTTCTATAAACCAAGAATAGAAGTCGTAGATATTTCCAAATATCTGAATATTAAGTTAAAAGCATTAGAAGAATATAAAAGTCAAGTAAAATGGTTTTCAAAAGAGTTTCTATCTAGATTTACTACAAATTATGAGACTTTTTTCATATAACGTTCATATAACTTTTTATATAATAAATTAGGGTTAATTAGAAATAAAAGTGATGCACCAACTAGTTTTATTGATGTAATATCTTTAGCACTATTCATATACTTAATGGCTAACAATAGTGCTTTTAGTCTATTATTTAGTGAAGTACTATCGTATATGGTAAAGTAGAAAGAATCTGCGATATATTCCAAAAAAGCAAGTTTTCCTACAAATGTATTTTTAAAATTTGTTTTTATTCTTTCAGAAATTTTAGATCCAAATTCATAATCTTTCCTGTTTTTCTCTATAAATTCTGACAAAGTATATTTTCTGTTATATACAAAATAGTTTCCACTATGTAGTCTAAATAGTGTTAAAGGTTTTTCGTCTATTATTAGTCTACCTCTTGAATTAAGGCCAAAATAAGCCATTACAACATCAATAGAATATCCTATATATCTTAATTTATCTGTATCAACTATGTCTCGTTTTATGCATTCTGAACTTAAATTAAAAGACATATTCGATAAAAACTTTTTTGCTGTTCTAATGTTTTTATCTGAGTATTCTATTCTATGTTTATTTTCTCTTCCAATTTCCTTGCCTTGTTCATCAATAAAAATCTTCGAATTGTTATAAAACGCAATATCTGCATTAAATTCCATTTTAACTGTTTCTAATTTATTAGATAAAAACATATCATCATCGTCTAAAAAACATAATATTTCGCCATGGCTTTTATCTATTCCAAGAGCTACTTTTTCTCCTGTAGCTTTAGCATCGGTATAATAAGTATAAATCCCGTTTGATTCTAAGTATTGATCAAAATCTGAAAAATTTTTTACTACTAATATTTCATATTCGTTTCTAGGTAATGTTTGATTTAGAACAGAATTAACAGCATCTAGTAAGAAATTCTTTCTATCATGTGCAGTAATTATTACTGATATCATTACCAAACTTTAAATTTTATTTACCTAAAAAGCCTTATATGAAAGAAATAGTACTATCAGAAGATATATTGCCTAATTTATATGATATTTATAAAGAATCTAAGTTCAAGCATCCATTATTGAATCCGTATCAGATATACGCAAGACAAAATATTAGGAAGATCAAATTTTTACTCTTGAAAGAAGGATATACGTATTTTAATGTTAGAAAAAATAGGTATTTAAAAATACTTACTGCAATATTTCCATTAATTACATCGAGAAACTATGAAGATGAGATAAAAGATTTTATTAGGAATTACAAAAATTATTTTGGAATAACAAAAATTCTACACGTATATACTAGAAATGAGTTAGATTATATAAAACTGTTTAATAATATAGAGAAAGAAAATTATTCATATGTGATAAATGACGATTCATGGAAACCAAATAGAAAAATTAATTATTATGTGAAATTAGCCGAAAAGGAAAATATACATATAATCAACGAGTTTAATTTTGATATCTATAAGGAATATTATGAAAACTGTTATTTACAAACTTTAGAATCTAAAGAAAGTACAAAACTTCAAGCAGGTTATAAATTCTTTGAATATCTAGCCAAGAAAGATATGTTAAGATCTGTATTTGGTTTACTAGATAACAAAATTATTTCTGGAGTTTTCATATTATACGATGAGGAAAGTCGTATAGGATATTATATAGACGCAGCTTCTTCACAAGAAGGTAAGAAATTGGGCGCAAATTACTTATTGCTTTATAATCAGATAAATTATTTTAGAGAAAAAGGTTATATATTGGATTTAGGAGGAGCACCTTTAGGAAAACTAAAGAAATGGGATGATATATTCCTATTTAAGAAAAAATGGGGGAAAGTAGTGGACATGCCATTGATTACTTTGAAGAATTTCCTAACTGTTATTTTGTATAAATTTAGGAAATTCTAGACTTTCTCTTTAGTATGGCATAAGTCAAGCCATATGGAAGTGATATTGCTAAGGCTAGTCCAGGTATTAAGTTATAAATAAACTTTCTTGGACCACCATAGTATTTTATTCCGAAGCCTACTAGCGGAATATAACCTAATAGTATTGGATAAAAGAAAAATCCTATAATTCCTATTAAATAATAACTTCCAAAGTAACCGTACCCAGTTAGAAAAGTAAAATTTGTTAAGCCGTCTAAAACTAGCATCATATCATATTTTGATCTCCAAAAGTTTCTTTTTGCCTCAGAAATAGAATCACGGAAATTATTTCTTGAATGGAGTTTATTAAGATGAAGGCATCTTCCTTCAGTAGGGCCTACTCTAAACTTTTCCTTTTGAAATTTGGAATAGACCCAAATATCTTCATCTCTTTCATATCTTTCATCAAACATCCCTATTTTCCTTAGAGAATCCATATCTATTCCTGCACATCCTAAATTAGGATTTTCTTCACCAGGAGAAAGAGGCTTATTCATTTCTTTTTCATCGTAAGCATAATGCATCCACGTCAAAGAAAATCCCTGTCTTAATTTTTCTATCATTTTTTTGACCCCGTCTTGTGGTAGTACTACATCACTATCGAGCATTATTATATATTTTTCTTTCGTTAGAGAAAGCATTTGATTTCTCAATGCAGCCATGTTTACTTTTTTCATTCTATGTACTTTTACATGATATACGTTCATTTCATCTATTAATTTAGTTAAATCTTCTCTCTCTGAATTATTGAAAACAACGACTTTTCCTTGAGTTATTGCGGACGAGATTGATCTTTTGACCCATTCTATATTATCTTTAGGACCGACTGGAATTAATATCTCTGTCACAAAGATCAAATTGTGAGAGAAATAAAAAAAGTCGCAGTGATAGCTCACGGATATGGATATAGAGGTTACAGTGGAGAAGGAAAAGTATATTTAGAAGGAGTTAATGCGCTAAAAGATCATAATTTAGATTATATTTTAGTAACATTTTCTAAGTTAAATATTAATGACAATGAGTATGTAGTTCCATTTAAATTTAGAAGGTTTGATAAATATCAAAGATTACTTGTTTGGTTTGCAGCAAGAAGAATAAAACCTTTATTTTTCCTTAACCTTTCTGGAGTTCCAATTCCGTTGTCCAAAATCTCTCCTCATATAATATATGCAGGAGCCCCAGCAATATCTTCTGCACCCACAAAATATTCCTCTTCTCTATTTTGGAAGGCTTACCTTTTCCCATTTAAAATTATAGCAAAAAAACTTTCGGAGGAGGCTAAAAAATCTTATATTATCGCAAATTCTTTTTATTCATTACGAAAAATTGAAGAAGCGTATAATACAAGGGTTAGAAAAGTTATTTATCCACCAGTGGACGTCGATTTTTACAAGAAAGCTTTTACAGAAAAAAGAAGTGAAATATTTCTCTCTATAGGAAGAATAGAAAAGGGAAAGATGCTAGAAAACTCAATAAAACTCTCAGCTAAATCTGGCATAAAAGGAATAATAATAGGTTCGTTAGGAGATAGAAAATACTTAGAATATCTGTATAGATTAGTTAAAGAGCTTGAAGCTAATATAGAAATATATACTGACCTTGCTTCAGATAAAATCCTCGAAATAATGAAAATAGCCTCAGTATATTTTCATCCCACTATAGGAGAACATTTCGGAATACCAGTAATAGAATCTATGTCTGCCGGTTTAATACCTATTGTTCCACGAGAAAGTGGAAGTTACGAAATAGTTCCAGAATATTCATATAATAATCTTGATGAGGCCTCTTCATTATTAAAAAACGTTATATATACCGATATAAAAACTAGAAAAGAATTATCTGAAAAAGCTGATTTCTTTAATTCCAAAAGATTTAAAGATCAACTTTATGCAGAAATTTCAAATTTTATTAAGTAACTCATTAAGCTTATTTACTAGCTTTTTCTTTTTATCCAATATATAGTCCTTCTTAGTTATTTTCCCATTATTTATAGTACCTACTATAGCTTCGCTAGTAGCAAAATATACTATGTTCGAAATTATTCTATCTTTAAGCAATGGATAAATTGAGCTAGAATCAAATATTGCTAAATCAGCAATATAGCCTTCTTTTATTTTTCCACCTTTTATCCCAAGAAGTTTATAGCCATTTTCTGTAACTGCCTTAAACACATCAAGTGCTTTTACTCTTGTATCCCAGTACGAGTGCCTTTGTAGAAGCACTGCAGTCTTCATTTCTCTAATTATATCTAAAGAATTATTGCTTGCTGCGCCGTCTGTACCTAATGTTACATTTACTCCTTTGGTTAGCATTTCATAGAATGGGTATGCTCCAGCTGTAGCTAGTTTCATGTTTGATGTAGGGCAATGAGTAGCACCCTTAGCTTCCTTTAAATAATCTATTTCCCAGTTTGCTATCCAGCCTAGATGAACTGCATTTACTAATCTAGTTAAACCAAGGTCATGTAAGTATTCAACAGGGAATTTTCCTGTTTTCTTCTTATTATCGAAAATTTCTTTTCTAGTCTCTGAAACATGAATATGTATCCATGTTGACGTCTTTTCAGCAAGTTCTTTTGCTCTAATTAGAGTCTTTTCCTCTACTGAATAAACGCTATGTACGTTAACTATTGGGAAAAAATTCTTACATTTTTTTAATTGATACTGCTTCTCTTCTACTTCTTCTGGTGAGAAAAGAGAATCGAGAAATGTATAGCCGGCTGCTGCCTTAATCTCGTATTTTTCAGTTAGTTTTTCTATATCATCTGGATTAAAATACATATCAACAAAAGCAGTAGTACCAGATGATAGCATCTCTAATACTGAAATTTCACTTCCTAACTTCATTAACTCTCTTTGCATGCTTTTTTCGAATTCCCACATTTTATTTAACCATTCAGTCAATTCAGCATCATCGTAGTAACCTCTTAATGGTATCATAGCAGAATGAACATGCGAATTCACGAAGCCAGGAGTTATTATCCATTTGCTGCAATCTAATTCGTCTCCTTCAATTTCTTTGCCTATACTTTCTATTAACCCATTGTTTATAACTATGTTTGAATTTTCCATTATTTTTTCCGAGTCAACTAGAAATCTGCAATTTCTTAAAGTATATGTTTTATTTTGAATCTCCACTCAAACTCTCCTAATTTAATAGTTTCGCCTATAATTTTTAATTTTCTTTTAAAAAGTGGAGCATATGTCACAAAAGTTTCTGCTTCACCTCCTTCGAATGCTGGATTAAATCCAAATTTCTTTGAAGCCAAGATTATTTTTTCTATATCTTCTCTACTTACTTCTTTGCCTACTAATTCAAATGGAAAACCGTATGCAGAAGCTGACGTTATCACATATTCGAATCCTTCATCTATTAACTCTCTCATATAGTTTTCTTGATTTTTCCTCCATAATGGTGAGAAAGTTTTCAGATTAAGCTTATTTGCGATAAAATTAATATTTAATCTCTGATAATCAGAAAGTAATGCTCCAGATACTATTCCTTCTGCTCCTAATTCCTTTGCCTTAGAGAATGCCAAGAAAAGATCCTCTAACTCTTTTTCTTTCAGACCAGAACTTTCTTGAAAGAATATTGGTATTCCCAACACTTCTGCTTGATATCTCGTAAATTCTACATTAGGATACTGAAACATCCAAGAGTCTTCTCGTTTAGGTAAAATAGTTATAAGGCATATAACATTAAAACCTTTAAATACGGCCCAATGGAGTGCATATGTACTATCTTTTCCTCCAGAATATAATGCACAAAGATTATAATTCATAACAATATATCATGTGTTCTGTCCAACCTAATAATCCCATAGCTTTTACCTTTATTTCCTTTGTTGGTCTTAATTTTTCAAAAGTAAAATCATGACTCGATATCCTTAAGCCTTTTTTACCATATTTCAATATAGTATCTTCTAGGATCTCATTAGCTCGAGTAGATAGATAAAGAGTTAATACGGAGACTTTAGGAATTAGAATACTAGATAGCGTAACCATATCGCCGCATATAACTTCTACATTATCATTTTTTGCTTCTCTGCATAACCTTTTATCTATTTCAACCCCTATGGCTTCTCTCACATAGAATTCTTCTTTGGCTATCTTAATTATTCTACCATCTCCACAACCTAAGTCTAATAATATGTCATCGTTCTTTACTTTGGCGCATCTTAACATTTCTCTTATTACTTCTGGCGGAGAAGGAACAAAAGGTACTAACACACTAAATAAAGATAAAAAATGTTATTAACTTTTTATGAAACACTCTTTTAGTTATTTCTTTTCTTTAGAAGATCCAGACGATTCAGAACTACCGGATTTCTTTTTCTTCGCCACTTTATATCATTTAAGTTTTAAGAATAAATAATAGATAAAGATTATTGATAGAAAAGAGTCTAAATAGTTATTGAAATATCTAATGAAATCTTATAAAAAATATTTATTTCTTATTTACTTATATATTAACATTGACACAATCTATCATTATAACATAATAAAAACTAATTATTTTTCTATATATAGAGAAGATAAAAATTTAAGATAAAAACTATGTACTTACGTAAAATCTCTATTTATAGACCAATTTTATTTATTTAAGTATTATTTTACTCTTTGTAAAAATATTTATTTTTTTAAGTATATCATCTATTCTGTTTATGTTTTTTACTGAATTTAATGTAGGATCAACTAACCTTATTTCTTCTGTTCCAACAAAATAAATATCATTAGCCAAATTAATTAGCTCTATAAAAGAATTTACTTTCTGATAATTAGCTTCTATAAAAGATTTTTTGTAGCATCCTAATAATGGTTGTGGATAGTCTAATAAAGGCAATATAATATCATAGTCTTTATTACAAATTATGTTAATTAACTCTTTTTTTATGAAGGGAAAATCGCATCCGGTTATAAATATCTTATTTTTGGATAGAAATGGAATAGCATACCTAATAGCCTTTATTGGGCCTTCTCTTTTCTCGTCTATTATCAATTTAAATTGATTATTTAGCTTTCTCCTAACATGAGAAATTATTATAGGACAGTCAAAATTTTCGGCGACTCTTTGTAACATTGATTTTCCTGAGATGCAATACTCACATTTATCTGAACCAAATCTTACTGAAAAACCGCCTGCCAATATTATAGTATCATAAAAGTCTTTGCACAATAATTTTCTCACCTTTTCTATATATCTTCCCTCTTTTTAGTATAGTAAACATATTAGCCTTGTTTATTTCATTATATAACCCAACTCCCCATCTTAATGGAAAAACTTTTCCAGATTGCTCAGTCAATAAATAAACAGAATCCATCTTATGTTGGACTTCTATATCTTCTCCTAATTCTGCCTCAGAAAATTTCCTTACTTCTGCATCTAATAATCTAGAAATTAGATGTAATCCGTGTTCATGAAATGATGTTACAGCGGAAACTATCTGACCAGGTAAAATAAGGAAAGGCTTATTTTCTATAACTCCTACTCCACACCGTTTGATTATATTGGTAGACACTCCTTCAAAGAGAAGAGTCCCAAAGTATGATACAATTTTCTTTATGTAATCCTTTTCTCCCATTGACGATCCCCCAATGGAAATTATAAAATCGTATTGTAATGCTTTCTTAACGAATTCCTTTACACTCTCTTCGTTATCTTTTGCAACACCTAGGTAAGAAACTTTTCCAAATGTTTTTAATAAGGAGATAATAATAGGGCTAATTGAATCTGGTATTCCTTCTCCCTCTTCTCCAATAGGTATTATTTCATCACCACTAGCAAAAACTGCAAAATTTATATCAAGAACCTTAAGCTTGATGGTTTTTTGATAAGATAATACGCCCAAATGATACGGTTTTATAATCTCTCCTTTTCTTACAATAATCTCTCCTTTTCTTACATTTTCTCCTTTTTTCATAATATCTTTTCCTTCAAAGACATTTTCCTTAACTTCTATGTATTCGTCTTCAATTTTAGTACCTTCAATTCTAGCTACAGTGTTTGCTCCTTCAGGGATAGGACTTCCTGTAGTAACATAATAAGCTTCTCCTTCCTTTATTCTCGGAATTTCCTTAGATGCAGGATAAAGTTTTCCAGCAATCTTCATTTTTTTACCTAAATCTCTAATATTGAACGCGAAACCATCCATGGCAGATATATCTCTCAAAGGTATCTCTACGTTGCTAAATACATCTTCAGCACTAATTTTTCCTACAGCATCAAATAAATCAACGTATGCTGTTCTTACTTCTGGAAATTTGAGCTCATCTATCTTTTTTCTAGCATCTTCTACAGGGATAAGCATCAATAATAGTTATGATAAGAAATATTTATGGTATGTGTATTTCAAGTGTTCGGGAAAAAAGATTCTGGGAAGACAACTGCAATCGAAATAGCTATTAAAAAACTAGTATCTAATGGGTACTATGTTGCTGCAATAAAACATTCTCACCATATAATCAATTCTGAAAATAAGGATACTATGAAATTTGAGAAAGCTGGAGCTAAAATTGTTATATTTCATAGCAATGACTGTGCTCTTTTCTTTGAATGTAGCAATTACGATTACATTAATCTTATACCAGCAGATGTTATTTTAATAGAAGGATTTAAAAATATCAATATTGGGAAAAAAATTGAGATAAGGAATGTAAATGAAGCAGAATATATAGCTAATCAAATAGTAGAAGACGCTAAAGAATGCAAAAAGGAAGTAAAAATGGAAATAAACGGAAAAATTGCTGAAAGATCTTTCCAAAATTTAGCTATATTTAATTTACTTAGAAGTCTTAAAGTTAAAGAGGTAAAAATTATTGATTGAAGGATCAGATATAATATCTCTTGACTGTAATTCATCAGTTTATGACGCAATATTTTTCATGAAAAGAAGGAATATAAGAAGAGTTGTTATAACATGCGAAAGGAATCCATTAGGTTTATTTACTGTAGATGAAGCACTAAAACAAATTCTGTATTCTACTGAAACTAAACTTAAAGATATAAAATTAAAAGATATAATTAGAGTTAATAGCAAGGACATAAGGGAAATCGTAAACGCTATGATATTAAACAATGTAGACGCAGTAATAATTGATAATAAGATAATAACGGAAAAGGATGTAGTACTTTCTGTAAATTGGGGGAATGATAAAATTTCTAAAATATCAAAAGACGCTATTACAATAGAGAGTTATAGTAGTATGGTTACAGCTATAGAAATTATGTTAAAACATAATATTAGACATCTTCCAGTACTAGAAAAAGAACCTAGAGGTATGTTATCTGCTAGAGATATAGTTTATTATTATTGTGATAATCTTACGTTAGATTCTCCAGTTTCTCAATTGATGACTCCTAATCTAGTGAATGCTGATAATAATCTTACTCTAAGAGATGGAGTAAATCTCATGAAAAAATATGGTATAGGAAGTCTCTTCATAAGGCCCAAAAAAATAGTTACTTTTAAGGATTTTATAGTATATATATTTAATGAAAACCAATAATGGCAAGTTGGAAATTCTTGAGTGTCCTATTGATAGGACGCCATTAAATGAGAATCTAATATGCGAAAAAGGACATAAGTTCTATATGATTGATGGAATATATGACTTTATAGGAAAAGATATTGAAACAGACAAAATATTAGAGACTGTTGCTCCTTTGTATGAGAGTGTTTGGGCGCCATTAGGATTTCTATTAACTGCAGGTAATACATATTCATCAATACTTCGTGATTCAAGTAATTTTATTCAAGGAGATACTCTACTTGATATAGGAACAGGGACAGGCAAGATATTTGATTTTGCTAAATGTAATACATGTATAGGCTTGGATACCTCAATAAAATTTTTAAAAATACTAAAACATAAGAGAAATAATGTAATAGCTATAAGAGGAGACGCACGTTCTTTACCAATAAAATCTGAAAGTATAGACGGAGTGTCTTCAATGTTCGTTTTACATATGTTGGAGAATCCAGCTTTAGGTATAAAGGAAATTTCAAGAGTTTTGAAAAATGAAGGAAAGTGTTCTATTGGAGTCTTAGTGAGAGGAAATACTATTTCTTCAATTCTAAGTAAATGGTGGAAAATAGATCTAAAGTACCAAGACTATTATATTTCAAATTTGAAAGATAGTGGACTTAACATTATTGAATATAAAACCTTAGGACCCTGGAGAATATTTAAATGTAAAAAATTAGGGCATTTTTAATAATGATATTGCAAATAATACATAGCTAACTCCTTCTCCTATTTCTGCTAATTTATCTAATGTTGTAGTTAGTGAGAGTGAATATGCTGCGATATATACTCCTATTACTATTCCGAAGATAAATATTCCTTGAATTATGTATGGTGTCATGTCTCCTTGTCCCATTAGCATATAATAGAATTTCTTGTTTCCACTTATACCATATATTAATCTCTCTAAGCCTAATATGAGCCCAATTGGATAAAAGAAGTAAGGATCAAAATTCATTACCATACCAAATAAATCGCTTATGCTAAAATGAATAGTATATAAAAGATATATTGAACTACTAAACATCAATAATCCTATTAAAGTACTTCCTCCTCTATTTGCTAATAAGCTATCGATGTTGGCCATTCCCAAACACCTACTAATTTTTCACCCATTTCTATATCTGCAAGCTCACCTAAAACTATTCCGCCCAAGAATCCCAATAACATACCAGGTATTCCACCTAATTTAAGTCCTAATCCTGCTCCTAATATACTTCCTACACCTTTCCCAAGATACTTATCATCTACTGAATATATTGTAACGAAATCCTTACCTCCTTTCTTTCCTTCTCTAACTAATAAAAAAGCTAAATCTGTAATGGCTTCTTTTAATTCATTCAGATCATTAGATTTATATAATGCTGTGTAGACTTCCTTTCCATTAATTTTTTTAAAGTATATTGGGATAAATCCAGCTTTTTTTAGCGTTAATGCAGAATTCTGTTGCGAGATGCTATCAATCTTAAAGATAACTTTATACATAATATAAAGTTTCATAATTATAGGTTTAATATTTTTGCTAGTTCGAATTATGAACCTAAATCTTTTTACATTCTACATTAACTAATTGTTTGGAGAACTAGACATGGAAGAAGATAGAAAGAAATTCTATGCAATTGCAAGAGTAGAAAATTTGGAACTACCAGATTATATATCCAAAACAAGTTTGCATGCTCATGTCTCATCTGCAGTAGATGAGGCTATGGATAACGTAAAAGTTTATCTTAAAAATAAAGGTATTAATGGCAAATTTAATACACATATTGACGTGTTTGCTAGAGAAGAATCAGTAACCAGATTAATTGAATCTATTAAAGCTAAGATTAAAGCATAATATAATATGGCAGAACTTTCTGAACCACTTGAAAATTATTTAAAAGAAATTTACGAGCTTGAAAGCGTTAAAGGTTACGCAAAGGTTACAGATCTTATTGTAGCTTTTCAAGTTTCTCCTGGTACAATAAGTAAAGCTATAAGTAAATTAGAGTCTCTAGGTCTAATTTTAAGAAATAATAAAGGCATAAAATTGACAGATGACGGAAGGAAGGTAGCTGAGAGACTAGTAAAATCTCATAGAATTTCAGAAAGGCTTCTTACTGATATAATCGGTCTAGATTGGATAAGAGCACATGAGATTGCACATAGATTAGAACATATATGGCCAGATGATGTATTGGATAAGATAGATGAGGTTTTAGGGTATCCTAAAACTTGTCCTCATGGCCATCCTATTCCAGGCAGAGGAGAAGTAAAGGGAGTACAGTTAGATCAAGTAAAGTCAGGGAAATATATTGTTGTCATGATAATAAAAGAAGAAGAATGGATATTAAGAGAAGTTGAAGAATTGGGTCTTAAGCCTGGAAATATAATTTCTATAAATAGAGAAAATGATAAGATTTTTTTAGATTCTAGTGGTAAAATGATTGAAATCCCTAAAACAATAGCAGAACAGGTCTTAGTAAATGTCAGAGCTTAATGATTTAATGAAAAAAATTTTGATGCATATATACAAGTTTGGTCCGGATAATCCATGGTATATGGCTAGAAGATTGATGGGCGAAAGTGGTTGGGCACCTAAATATAGTGAGGATGAAATAGATAATACTTGTAGAGAATTGGAAAAGATGGGATATCTAATCAGATTTCAGGGCGCTTTAAAAAGATCTGTAACCTCATCAGTTAAGCCATGGCTAAAAGTTAAGGCTAGAGAACTAGATCACAAACCTAAGGGGATTTATTACGATCTATCTAAGGAAGGTAGGAGAATAGCATCTCAATTATATAAGGAGTATAAGAAAAATGAATCTGATAAAAATATTAAGAGAAAATAAGCAGTTCAGATATTATTGGTTATCTACATCTTTTATGCATATTTCTGGATTAATGTATAATATAGCAATAGCTTATTTGCTCTTATCTAGTTCTTTGCCATTATATGTGGAAATTATAGGAATTTCAATGATATTATCCTCAATAATGCCTTTTCCATCTGGATTTTTAGCTGATAAAGTAGATAGGAAAAAATTTCTTATTTTAACTAGAATTAGCCAAGCAATTCTAATATTTGTTTCCTCTTTTAGCATTTACACAGCAGTTATCTCGTTTCTTTTATTAACTACTATAGTTTCTATATCTTCTCCTTTTTCTGCAGGTCTAATTCAATCTATATTAAGAAAGAATGAAGTTATAGGTGCTACGTCTATAAATTCCTTGACTATATCGTTATTTGCTCTAACAGGAGGAATTCTGAGTTTACTATTTCCGATTTTGGGCAAAATAGCCTTCCTATTTTTAGTCTCTATTCTTAGATTTTCTTCTGCTTTTCTTATTAGTAGAATAAATATCTCTAATATACATATTCCTCATAAATATAGCTTAAAAATAAATTTCTATAAGATGCCTATTTTATTTTCGGCAATATCTTTTGCTTTTGTTGGGCTTATTCCTATTATACTAAATAGTTATGTATTTAATATTTTCAAGACTGAAGAATCTATAGCGTTAATATCTACCTTTACTACAGTTGGTAATAGTATTGGTGCATTTGTATCCTCACAAGTTATTAAAAACGAAAGAATTCTAACTTGGATAATAGTGGGAATATTAGGTTTGAGTTTTTCTATAATAGCTATTAGTTTTATAGATACGATTTTTATCTATATCTTGATACTTTTTAGAGGATTATTTACTTCTTTCCAAAACATAAGCTGGAGATCGTGGCTTAGAATAAATATACCAAACGAGATTATGGGTAGAATCTGGGGTACCATATCTACAATTTCCTCAATATTATCTGGTATAATATCTGTTTCATATTCATTTATAGCTGAAAGTATAGAACCAAAATATGTCCTTCTTTCACTTGGATTTTTAATTTTAATATTTAGCATTTATATGATAGGTCTTGGACGAAATAGTAAGCAAAATATTGGATTATTCAGATCCATATCTAGTACTCCAGAAAAAAGTAAAACTGAGCAAAAATGAGGTCATATATAATAATTTTAAGGCCTCATTTAAGAAACCGTTAGTAGTCGCAGTAGGAAAAGCAGCCTATAAAATGGCTAAGTTCTTTCTGGAAAGAATAGATCCAGTTAGAAGCTTAACGATATTACCTAAAGGATCTAACGTTAAATTAAATTCTGAAATAATAGAATCTTCACATCCTCAAGTAACTTTATCCAGCTTAGAAGCAGCAAGAAGAGTAAAAGAAATCTTACAAGAAGAGGATTATGATATATTTTTCTTTTTACTATCTGGTGGTGCATCAGCTTTAATGGAGGATCCTCTCATCCCTATCGAGGAATATTCTCAGCTTAATAATGACATAGTTAAATCAGGCTTATCAATAAATGAAATAAATACAATACGTAAACATTTATCTTCAATAAAAGGAGGTAATCTTGCTCTTTATTCTAAGGCTCCAATAGTTAGTTTCATAGTAAGTGATGTACCTGGAAATGATTTAAGTAGCATAGGAAGCGGACCAACAGCTCCAGATTTTACTACAATAGAAGACGCAAAAGAATCACTCATAAAAGTAGGTCTAGATAAATATGTAAAATATCTTAAAGAGACTCCTAAAGATCTAAAGAATGTTAACAATTTTATAATTTTGGATAATATGGATGTTCTATTAAATTTATCAAAAGATACTAAAAATCCTTTCATATTAACTTCAGAAATTAGAGGAGAAGCAAGAAGTGTAGGTGAACTTATAGCATCAGTATATAATTCTTCATCTTTATATTCTATTCCCTTTTCTAAGAATTACACATTCATAATAGGTGGCGAGCCAGATGTTACAATAAGAGAAAGCGAGAGATATGGAAAAGGAGGAAGAAATAGCGAAGTTGCGTTATCTTTACTAAAATGGATAAGAAAAGGCAAATTCAAATTTTATGCAATAGCAACAGATGGGATAGACGGTAATAGTGAATATGCAGGATGTATTATTGACGATTCACTAACAATTAATTATAAAGATATAGATGAAGCACTTAGAACTCATTCTAGCTATGAATTATTAGAGAAATATGGAGTAGTAGTAAAAACAGGGCTAACATATACTAATGTGAATAATGTTTATTTACTGATAGTACCTTGATTTCTTATTTTTTTCTGTAGCATTAGAATTGCTCTTGCTATAGCTTCTGGTCTCGTTGGACATCCTGGCAAATATATATCAACTGGTATTCCTACATCAGAAGCTAAAACTGTATTATACGAATTCCAGAATATTCCGCCCTCTAAACTACAAGCTCCCATAGCAATTACGAATTTAGGTTCTGGCATTTGCTCATAAACTATTTTTGCTGCCCTTGCCATCTTTCTAGTCATAGTACCTTCTATTACTAACAAATTTGCCTGTCTTGCTGACGAAAATGGTAACACCCCAAATCTTTCAGAATCAAATCTGGCTGCTGCAAATGCGCCGAACTCAGTTCCACAACAACTTGTAGTCAAATGGGGGGGCCATAAGGAGAAAGAAACTCCCCAATCTATAAGATTTTTAATAGGTTTTCTATTAACTAACCATTGTGCGGCCTTTTTAGCAGATTCCCTTACATCTCCAACTAGTATTGTTTCATCAGACATTAGATATCAAGTACACTATTATCTCAAGAGTTAATATATCTTGTTAATATACAGTTTTAATATTTCTATAATGCAATACGAAATGTATAATATTATAACATGATATATTATAAAAAATTTTTATCTCATCATTTATTTCAGAGATCACCTCATCAATCATCTTTCAGTCCAATTTCAGTGTAGAGCGCCCCTGTCACTAATGTCCACTATCCGTTGTTCATCACTAAAAATAAATTCTACATATTAGGTAAAAAGCGTATGATACTAAAAGTTGATCCATTAAACCCAGAAATAGATAAAATAAGAATAGCGGCAGATGTAATCAAGAAAGGGGGAATAGTAGCTTTTCCTACGGAAACAGTATATGGATTAGGAGGAGACGCTTATAATCCAGAGGCTGCAGCTAAGGTCTTTAAGGCAAAAAACAGGCCAATGGATAATCCATTAATAGTGCATATAGCAGATATAGAGCAATTATATGAGGTTGCGGAAGATATACCCGATAGGGTACTAGAAATAGCTCAGATAGTTTGGCCTGGGCCTTTAACTTTTATTTTAAAAAAGAGCAGTAAGGTACCTAAAGTGACTACGGGAGGATTAGATACGGTAGCTGTTAGAATGCCAGCTCATCCAGTAGCCCTTCAACTAATCAGGGAAAGTGGAGTACCTATAGGTGCACCTAGTGCAAACCTTGCAACTAGACCAAGTCCTACAAGAGCAGAAGATGTTTATGCAGATCTAGACGATAAGGTCGATGTGATCTTAGATGGAGGAGAAAGTTTCTTTGGAGTAGAATCGACAATTATAAACTTAACAGTAAGTCCTCCCGTACTATTAAGGCCCGGTCCATTTACTGTAGAAGAATTGAACAAATTATTTGGTGAAATAATAATACCCGATCAAATAAAAGGAAAAGGGGAATTTGGTGTAGCGTTAGCTCCAGGTATGAAGTATAAACATTACGCTCCTTCAAAGAAGATGTTATTAGTAGAGAACATGACTATATTTAAGGATGTTGTAAATAAGTTAAGAGAAAAGCATAAAGTTGCTGTTCTATGTTCTACTGAGAAAGCTGTTCTTTTTGATGAGCCTAAAATTATCTTAGGTAGCGAAAAGAATCTATATGAGATAGCAAGAAATTTATTCGTAGCATTTAGAGAACTTGATAAATTAGATGTCGAATTGGGAATTTTACAGTCTTTCCCAGAAAGCGGAATAGGATTAGCAATAATGAATAGATCTAGGAAAGCCTGCGGGTTTTCAATAATAAATTCTATGGAGGATATTAACAAGTATGCTAATTAAACTAAATAAAGTTACATCTACGCAGGATTTTGCTGAAGCAGTATATTCAATGCTGTATTCTGATTTCGTTGTAATTGCAGGTGAGCAAACTAAAGCTAGAGGTAGATATAGGAGAGAATGGTATTCTCCACAAGGTGGTCTATGGTTTACTTATTGTAAAAGGGGATTTCCAATAGAAGAGATACCAATAGCTACTCTTAAAGTAGCTTTAGCCATACGTTACGTTCTGGAGGAATATGTCGACGCAAAAATAAGATGGCCAAACGACATTGTAGTTAATGGTAAGAAAATCTCTGGAATACTTATAGAAGGAATATTACAAGGAAACGATTCTACAATGTTCATAGGTGCCGGTATTAATACTAATATTAAAAATTTTCCTAGTGAGCTAAATGCTACGTCAGTTCTAATCGAAAAAGGTAAAGAATTGGATAATGATGAACTCTTGAAAAATATAATAAATTCTATTGAAATATATTTAAATAAGGATGACGAATCTACAATAGAGGAAATAAATACATTTCTTTATATAAAAAACAAAAAAGTTAATTTATATGGAAATGATTGGAATAAAACATGTACTGCCATGTTTGTGGATAGACTTGGAAGATTAATAACTGACTGCGGTATATTTGAGGTCGAAGACGTTTTAAGGCTCGAAACGTCTTAAAGCTTCCCATACAGCTTCCAAGTAAGATGGATGTGGTGCAATGAATTCCCTAGCCTCTTCTAGGGTCGATCTCATTAGAACGGAAATCAATGATATTATTTCTTCTGCTCTTTCACTAAAAGCAACTGCGCCAACTATCTTATTATTTTCAAAGCATATTTTAACAAAACCTTCAGTTTCTTTTTCTGCAATAGCTCTCGCTACTTCGGCCATATTTATTTTTACGCATTTTCCATTGGTATTTCCAACATAGGCTATTTGTGGTTCTATATATAGCACTTTAGGCACTCCTATAGGACTATAGACCTTTTTATTACCTATAACATTTAATCCTGCTACTACTCCTTTATTTATGGCTTCGTGGGCAGTAAAACTTCCAGTTATGTCACCGGCAGCATATATATTTCCTACTCCTGTGTACATTCTTTCATCAACTCTGATCCATTTCTCGTGAGGTATTTCCTCAAATCCATCCAATAAGGGCTTTCTGCCAAATGTAAAAAGTATAAGATCAGCACTAAATTCCTCATCAGCAAATCTTACTTTATTCTCACTTATCGTTACATCATGTCCTAAATGTAATTTTATTCCAATTTTCTTAAAGTATTTAGTTACTTCTCTTCTAAGATCTGAATCAAGATATGGTAAAATTTCATTTTGTTTTTCAAAAATATGCACGTCTTTACCTAGCATTTTTATTAACCAACTATATTCTACTCCTCCTACTCCTCCGCCTATTACAGCGACTGAATTAAAATCTTTATTGAGATATGGTATATCATCTGAGGCTATGGTGAAATTAACCTTAGGTTTCTCTGTTCCAGTAGCAATTACTATTCCATCACTTTCTATACTTTCATTACCTACGTTTATCTTTCCCGATCTATAAGTAGCAGTGCCATGAATTACTTCTACTCCTTGACTTTCTAACATATATTCCGCTCCTTTAGAGAGCCTATCTATTGCTTCTTTAGCAAATTTTTGTGCTTCATCAAAAGAAAAATCTATTTTTCTGCCTAGTCTACTAAGTTCATAAGCCAATATACTAGGATGTAGCATCGCTTTTGATGGAATACAACCATAAAGTACACAAGTGCCTCCAAGTCTATCTTGTTTTTCAACTAATTTTACTTTAGCAGTTCTAGCAGCAGAAATAGCAGCGTAAAGACCTGCTGGTCCAGATCCTACTACTGTTATATTCATGATAAAATATATTACAAAGAATACATAAAAAACCTTTTATTTTACAACTATTACGGGTATTTTAGCTTCTTGAACTAATCTAGTAGATACGCTACCTAATAGCATCCTTTTAAAGGTCGATAAACCTCTACTTCCAGTTATTATAAGATCTGCGTTATTTTTTGAGACATAATCTAATATGGCATTCGCGGGATCTCCCTCTAATACCACACCCTCAGCGTTAACTCCTTTTTGGGAAGCTAATTTTTTTGCTTCTTCTATATCTGATTTTGCCTTATTATAGACTGATTCAATTACATCTGCAGGTATTGGGGCTACTCCTGCTCCAGAAAAAACTGTAGAATCAACTACTTCAACTATATCTAATTTAGAAGAATATTTAGATGCTAAATCTATGGCTATATCTAAAGCTCTTTTAGCATGACTTGAACCATCATACGCAATTACTATATGGCTAAACATGAATTTCTTTATAGGGAATTAATTATATAAATTTATTGAATGATTTTTACGTAAGATAAATTCCTTTAACCAAAATGTTACTTGTTAATACGTTATTGTATTGTTTATATTTATGATCTTCAGCCTCTATTCCTTTTAATAGATTAAGAATATTACCAGTTAAGATCATTTCTCTTATTCCCTTTTCCTCTTTGGAGAGCCACGCTACTGAAGCAACTACACTGAAGTCCCCAGTATCAAAATTGCTTGTATGCACTCCTTGAACTTGATCTACTACTACATAATTCTCATCAGCAGATAATTTTTCATTAAAGTCTATTTTTATGTTAGAAGGAGAAATTGAAGGAATTGTAGAATAACTTCTAGATGCTGATGACGTTTCTTGCTTTTTTGCCTTTAGCGACCAATACCAATTATTTAGGAACGTTTTTACTTTACCATCTATTATAACATTCGTTTTAGATTGTTGACCTTCACTATCAAAAGATCTACTATACAACGAATTTGGTATAGTAGGATCATCAATTATTTTTAAGCCGGATTTTATATCCATATTTTCTTTTAAAGGTGTCTTTCCACGATAATTGTTTTCTTCAGTTATTGCGTATGATAATAATGGCACTAAAAGTTCAGATATAGCCTTGGGCGTTAATATTACAGTATCAGTCCTTTTATCAAATTTTTGTCTATTTTTAGTAATATTAATTCTAAATTTTATATCTTCCTTAATTTCATCAATATTAAATGAAGGATCTCTAAATGATCTATACTCATAGATTTCCGGTGATACATTAGCCCCTTCCTTATTATTTGCGACTATACCTACTGTTACTCCGGATCTATTCTCGCTTATGTTGACCCCTTCAGTATTTACTATTCCTACTTCACTTTCATGGGCTTCAGTATATATACTAATTACATTCATAAGTGTTTTAAGTTCATTCAAATTCTCAAATAAACTTATACAAACATCTTTTTTATCGAATTCAGTAAATAGCTGTAATTTATTTACAGTAGAAATTTGAGGAATTTCGTTAGCATCATCTTTCTCCGATATTTTCCATGACTTTATAGCATTATCTAGTAATTCATCATTTAAATTGGTAGAAAAGGCAAATCCTACTTTTTTATCTTTAAAGATTCGTAATCCATATCCTTCTTCCTTGAGGTTTCTGGAATATATTTGTTTTTCTGAATTTATTGAGAATTCATTTCTCTTTATGTAGAAAATTTCTGCTGCAAACCCTAGTGATTTAGCTTTAGAAATTAAATTGTCAAGCAACGCCTCCCACCTTTATCTTGACTTTAATATATGGGCCTCCAGTTCCTACTGGAACACTTTGTCCTCCTTTACCGCAAAATCCAGGCCATACATCAAATTCCTTAGATACAGCAGATATTCTATTTAACGTTTCTAGTGTATATCCTGATATGCCAACATTTCGTAGAGGATACTTTATCTCCCCGTTTTCTATTTTATATCCTTCTTGTATTCCAAACTGGAATGTTCCATCTGGACTGGTTTGCCCACCTAACGGAGAAGAAAGCAAGTATCCGTCTTTTGTATCCTCTATCATTTCATTCAAGTTCCATTCACCAGAAAGCATGTAAGTGTTTCTCATTCTGATTATTACTGGACTTCTAAAATCTTCTGCTCTTGCGTTTCCAGAAGGTTTTTCTCCTAGATATGCGGAATAGTATCTATCTACTAAAAATTCTGATACCACTCCTTTATCTATTATCTTGACTTCTCTTCCTTCGACTCCCTCATCATCATACGGAGTTAAACCTATAGCCATATCAAAACTTAAATTAGGAGAGTCCACAACACTAACATAATCTGGAGCTATCTTCTTTCCTCTTAAAGGTTCTAAAATTCCATTTATTGCAATATCCGCCTCAGCTAAATGGCCTAAAGCCTCATGTGAGAACACTCCCACAACGTCTGGAGCTAAAATAGTATCAAATTCTCCAGCTTTAGTAGCAACGCCTTTGAGTTGATTGTTTATCCGTTTTTTTAACGTAGATATCATTTCATTTACGTCAAAGACCTCTAATGGATATCCTAAATAGGTTGATTTTCCATCGAATGCGGCAGCAACTATATCCCCTTCTCTTGCAACTGTACTTATATAAAGACCAGATAAAGCATATTGAAGTGTTATATCTCTATCCTCAGTACTATGATACTCCTTATAAAAATCGTTTTGATAGTACCTTATATTAACAGATTTAATTCTTTCATCTTTAAGTAGTTCGTTCTTTATTAATTTCAAGTCATTGGCTATCTCATCTGGAGATTTGACAATCATTTTTTTAGGTTTTATATGTACAATATCATGTTTAGGAGGTAGATAAACTATATTAACATTTGCGTTTCCATAAGAGCTTTTAATAGCATTCTCTAGCTCATTATCTTTTGATTTTACAAAACTTGAATATCCCCAATTTCCCTCATAAAGAGTTCTTAGAGAATATCCTTCATCTATACCATTAACAGATACGTATTGACGATCTTCTGTTACTACTATACTGATTTCTTTAGTCTTGTAATAACGTAAATCAGCAAACGATGCGCCCATGTCCTCAGCCTTTGCTATAAGATCATGCATTTTAAAAATATCACCTCTATATACTACTTATGAATGTAGAAAAGATTAGTGTATCATTACCCAAAGATCTCGTACAAGAACTTGAAAACTTTATGAAGAGCAATTTAGCAAGCGATAGATCAAAAATATTTCAAATAGCATTAAGAAATTATTTAGATGAAAATGAACAAGACACAAAAATTGTATATGGAATTATAAATGTAGTCTACGATGAAAGGATGGCTACAGAAGATTTTCTTACTTTACAACATGAAAATTTGGACAAAATAATATCGACTTTGCATATTCATATTAATGAAAGAGACTGTATGGAAGCAATAGCAGTAAGAGGGACTAAGAGTGATCTAGTAACCTTAAATTCTAGGCTTTCACAATTACGTGGAATTAAAAAATCTAGACTCTTAATATCTTATGAAGAAAGATGAATATCAGCGTAGATAATAGCTGCAAATTAATGGGAATTTTCATAGCATATACAGAAGTTTTAGGGATATCCAATGGTAAAAACAATTTAGAAAAGGAAATATTAGAGATTGAGAAAAAATATTCCTCACAGAACCCCGAAGAATTAAAAGACAATCCTATTGTTAGAGCCTATAGGGATTTTTACTGGAAGATAGGAGTAGATCCCACAAAGACTAGACCCAGTGGAGAAGCTCTACGTAGAAGAATAAATAGAAACGGAAAACTCCCTAGAGTTAATGATATAGTAGATTCAGGAAACATAGCTAGTGCAGACACATTGGTACCTATTGGAATATATGATATGTCAAAAATAAGAGGAGACCCATCTTTGATTATTTCGTCTGGTAATGAGATTTTTTATGGAATAGGCAAAAAGGACCCAGAAAAGGTAAACAAAGGCATACCTATTTTGATTGATGAAGAAGGTAAGGTAATGCATATATATCCTCATAGAGACTCCATATTAACCAGTGTAGATCTTAATACTAGAAATGTACTTATAGTAGGTGCAGGCGTACTTAATGTAGATAAGGAGTTAGTTATTCGAGCAGTAAATATTACATGTAACCTTTTATCTAAGTTAGGAGGTAAAATAGTTCACGAGGTAATAATAGCTTGAAACTAATGCTAGTTGGCTATGGTAATGTTGGAAAAGCATTTAGAAGTTTAATTCATGAAAGGAAAATAAATGTCGAAATAGGAGGTATTGTAACCAGTAAAGGAGCTATGTTTAAAGATTCAGAAAAATTTGAAGTAGAAAAGAAGATTATGGCAATAGACGCATTAGAAGAAATAAAACCAGATATCGTAGTAGATATGAGCGTAGCTAACTACAAAGATGGTGAGCCTTCATATTCTTTATATATATCTGCGTTAAGGCAAGGAATACATGTTATTACTACAAATAAGTCTCCATTAGCTCTCAGATTCAAGGAAATTATGGAGACTGCAAAAATGCACAATGCCAAAATAGGCTTTCAAGCTACTGTAATGAGTGGAACTCCTTCAATAAATCTATATAAAATTTTGCCTTGTATGAAAATAATAAAGATAAGAGGAATTTTGAATGGAACAACTAATTATATTTTAACTAGAATGTCTGAAGGTTCAAGCTATAACGAGGCTCTAAAAGAAGCTCAAGAAAAAGGTTATGCTGAGGCTAATCCAGAGTTAGATATTAACGGTTTTGATTCGGCTGCTAAACTAGCTATATTAACTAACGTTTATTTCCAAAAGAATATATCAATAAACGAAGTAAAATTTGAAGGAATAAAGAATATAAATCGTAATACAATAGATGATGCAAAAAAGACTAACTCTAAGATTAAGTTAATAGCATATGCAGACTCTAAAGAAAACTATGTATCACCTATTGCTATAGATCAGAAGGACGAGTTATTTAACGTTGATTATGTCAATAATGCATTGCAAATAGAATCAGATATAGAAAAAATTACTATTATTGGACCAGGTGCTGGTCCAATAAATGCTGCCTATGGTGCGCTTTCAGATCTTATTTTATTAATAAAAGGCGTATTATAAACAAGCTTTTATTTTTATACTCTAAAATTTACACTAGATTAAGATGGCCTTAAGTATACCAAGTAAATTGATATATTACACTAAATTAAGTAAACCTAGAATTATATGGTTATTGGATTTAGCCGCTTTAGGTGGGGCATTTCTTGCATCTAAAATAATCCTTGTAAATTTATTAGCAGTACTAATAGGAGGCACGCTGGCTTCTGGAGGTTCTATGATAATAAATGAAGGAATAGAAATCAATAAAGACAAAGTAATGAAAAGGACATCACATAGGCCTACTGTAATGGGGTATGTAAGTAAAAAAGAAGCTATTGTAGTCGGTACATTTCTCTTAATATTGGGGACTTTAATTGGATTAATTGCGAATCCATTATCTTCAATGTTTATACTTCTAGGCGGATTAATTTATGTCCTAGTATATACAATATGGTTAAAGCCTAGATCTCCTTTAAATATTGTAATTGGCGGATTTGCAGGAAGTGCTGCCGCATGGGCAGGTTTTGCTGCTATGACAGGAAAATTAGATTTAGCAGCCTTTTTATTAGGCTTTTTAATATTTATGTGGACTCCTGGACATTTCTGGTCATTAGCATTAAGGTTCAAAGAAGATTATGATAGGGCTGGAATACCAATGCTTCCAGTAATTATGCCAGAGAATTTCTCTGCTAGAATGATAGCAATTTCGAACGCATTAATGATACCTTTTGCAATTTCACTATATCTTTTTGTTGGTATTCCTTATTTGATAGTTTCAGTAGCAATGTCGATATTATTAATGTATTTTAGTATAAGATTATTGAAAAATCCTACAGGAGAAGAAGCCTGGACATCCTTCAAGGTTTCCGCGCCATATCTAGCGATTATTCTTCTATCAATTATAATAATAAGGCTTATTACTTTTATTTAAAAATTCAATATGATATAGAAACTTTCATATCGGCTACATTTTTATTCGTTAACTCTATTTCTATTATTATATCTCCGCATCTTCTTCTAAGTATCATTTTATTTTCTGATAAGGAAACCTTTAGATTAGAGCACGAATTTAAAGATTTTAATTTATAATAATAGTAAGGATTTTTCATTTTTTTCAAAGCTTTGTTAAATATTTTCTCAAAAATTACATTAGGATCCGTGTTTTCTTCTAGATCAATTGGTACTTCAAGCTTTATTTCAATATAATACTCATTAACATTGATCTGCATATTTTCGTATTTTCTAGAAATTAGATATGCAACTAAAAAGGGAGATATTGCAGCATATATTAGAACTAAATAGAGATAATTACGAAAATATATAAAAGAAAGAATCGAAGAACTTAAAATAAACAATGGGAAACCCATAAATAAATATACTAGAGAATCCTCAAAATCTCTAATTTTTCTCCCTAATAAATATCCAGTTATTGGTCCACCTACTAATGGAATTACTGAAGTCAAAGCTATTAGTATATTACTTCTTTCTAAGCTTTTCATAATAGAAATTACTACAAACTAGAATTAAAGCGTTATTTAAATATCTTTTCATAGAGATATTAGACATGGAAACTCTAGACGTTAAAAAAGAAAATGGAATAGGATGGATTTATTTAAATAGACCAGATAAATTAAACGCTATTAATTTAAAAATGATTAATGAAATCGACTCAATTCTAAAAGATTTTGAGACAGATAATGAAATAAGAGTTGTTATTTTTACAGGAAAAGGAAAAGCTTTTTGCGCTGGAGCTGACATTTCTCAGTTTAAGGAACTTAATACAATGACTGCATGGAATTTTGCTAGGAAAGGCCGTGAATTAATGGATTATATAGAAAGGTTTATGAAACCAACAATAGCAATGATAAATGGTTACGCTTTAGGAGGAGGCTTAGAGCTAGCTATGGCATGTGATTTCAGAATAGCGTCTGAAGACTCTATGCTAGGCCTGCCAGAAATTAATTTAGGTATATATCCAGGATTCGGAGGAACACAAAGATTAGTAAGATTAGTAGGAAAACCTAAAGCTATGGAAATAATGATGACTGGAGATAGAATAAGAGCCGATGAAGGAGAAAGAATAGGTCTCATAAACAAGGTTGTTACTAAGGAAAGCCTAGAGGAAGAAACACTAAAGTTTGCAGCTAAATTACTTGAGAAGTCTCCATTAATATTATCTATTTTAAAGAATATAATACTTTATGGTAATGATTCTCCTATAGTTGATGGACTAAATATGGAGAGTCTAGGTTGGGGATATGTATTCTCTACAGAGGATGAAAAAGAAGGAGTTGATGCGTTCTTAAATAAGAGAAAACCTAATTTTAAAGGAAAATAATTTTTTAGATAAACACTGGTTCGAATCTATCATCAAAGGCGTGCTTAGATAACTTTCCTATTATAGGTAGTTTGTATCCACAATATTCACAATGCATATCTTGAGTTAAATGCCATTCAAGGATAGAAAATCCATATCTTCTTATAACCATTCTACCACAATTTGGACAATATGTATTTTCGTAGGGATGTCCAGGTACATTTCCTATATAAGGAAACTTAAATCCCATTTCTTTAGCTATTTTATAATGGGCTTCTAAAGTAGACACTGGAGTATCAGGCAAATAACTTAGTTTATAGTCTGGATGAAATCTTAAAAAATGAATTGGAACATCTGGTCCAAGAATATCGTAAATTTTCCTTAATAATGCTTTAGCAGCTTCAAGACTATCTCCTATCTGTGGTATAATTAAGTCAGTTATTTCTACATGAATGCCTTTTTTATTTAGCTCCTTTATAGTTTCTATTATAGGTTCTGGTCCATTAGCTCCAGTATACCTTTTCATAAATTTTTCTTCTCCATTGCCTTTGAAATCTACTGTAGCTGCATCTAGAAATTCTTTGACATACTCAACAAGCTCTGGAGTCCAATAGCCATTAGTAACCATAGTATTAAACAATCCTTTCTTTCTCGCTATTACTCCTACGTCATGAGCGAACTCCGCAAATATTGCTGGTTCATTATAAGTATATGTTATTCCTTCACTTTCATAGCTTAATGCCATTTCTACTATTTCTTCTGGTGAGAGTTCTGTACCTTCTGCTCGTCTTCTTTGACTTATATCATAGTTTTGACAATACATGCACATCCAATTACAACCAAATGTCGAAAATGAAAATACTCTAGAACCAGGATAAAAATGAACAAGAGGCTTCTTCTCTATCGGATCAACGTGCGCAGCAGCTACTTTACCATAAACGTCTAAATATAATTTACCGTTCCTAACGGACCTAACTCCGCAAAAACCTATTTGTCCTTCACCGATTAAACATCTTCTTGCACAAGCTAAGCATCTTATCTTATTCTGTTCTTTCTTATACAATACAGCTTCCTTACTCATTATATATAATCTTGTTTTCTGAAAATAAAAGCATGCCTAAGAGGTATATTCTCTTTTATCCGTTAATAGATGTTAAAGATCTAAATGGAGTAAATGTTATTGACATAAGAAAATGCAAATTTACAGAAATAGACATTATTGATTCTCCAGATAAAGTCATAAAACTATTGGGGATTCCTTTATTTATTGTAGATACAGATAATATTCAGGGAGACTTTAAAAAACTTTTTTATGAATGTCGTTTTTGGGAGGCTCATGAAGTACTAGAGCGAGAATGGAAGAAATCTTCTGGAGAATTAAAGAAATATCTACAAGCACTAATTCTAATTTGTGCCGCAATGATAAAATTTTTAAAAAATCAGATTGATATATCAGATAAATTATTACAAAACGCGTTATCGCTTATATCCGAACTTCCTAAGGATCTCTTTCCTTTCTTTTATGTCGATATCGGACTCTACTCCTAATGGAGTATATCCGTCTATCACGCCTATAATTCCTCTTCCTTGATCAGTTTCTGCTACTAATACTTGTAAAGGATTTGAAGTAGCGGCAAATAATCTTACAATTTCGTCTACACTTTTTAATCTATTTAAAATATTTATAGGATATCCATTCTTTATATACAAGATAAACGTATGTCCTGCAGCTATTTTTTTACAATTTTCTATTGCAACATTTATAAGTTCAGTATCGTTTCCATCCCATCTTATCAATCTTTTTCCACTAGCTTCAGAAAAAGCGAATCCAAATTTTAAACTAGGTGAAGACGATGCTAGAGTTTCATATAAGTCTTCTACAGTTTTTATAAAGTGTGACTGGCCTAAAATTACATTAGTACCTTCAGGTATCTCAACCCTTATGACATCTATTTTAACACTCATATAACGAATTAAAAAATTAGAAAATTAAATGTTTTTAGGAGCGTAAATATGCATAGCTTATAGATATCATTTTATCGTTATCCATGCTGACGTGAAGTGTATAATGATTTAGCTGCGTAACTTCCACACTATAATTACCGGGAGGTAAGTAGAATTCTGCAATTCCTTGAGAATTTGTAAAATTTTGATAAAAACTATTTTGGTTCTTTACCCAAACAGTCGCATCTTGTAATGGCGATTTTCCTCCAAATGGTCCATAGTTCATTATAACTTGAACCTTAAGGATATATTTTCCATCAACTTCTTGTGTTGAAAAAGTAGAAATGCTGTAAGATGTCTTGTAACTTGAAGCTAAGTATACTCCAGCGAAAGTTAAGATTAGTATGATTACTCCTAAAGCCAAAAGCACTGTTTTATTCATGGTCGATATCCAGTATAAAAACACTAATATTTAAATCGAATCAATATATGTAAGAGTGTTAGAGAAGATAATTGATGGATTAAAATATTCTATAAAATATGACAAATCTATATTAAGGAGATATTTGATTTTGGGTGCGTTCGACGGTATTCTATTAGCTACTGGAGTTCTTATTTCCGCTGCTGCTAGCAAATTAAGCATACAAGACACTAATCTAGCAGTTTTAAGTGGTATTATTGCAATTGCAATATCTTCTATGTGGAATTCTCTAGTAGTAGAAGCTAAGGAAAGAAAATTGGAATATGAACAGTTGGAAAGACAGATGATGAAACGACTTAAGGGAACTATTTATGACTATGGTATGAAATCAACCATAATTCTCTCTGTAATTTCTCATGGTTTTTCTCCATTTTTAGGTGTATTTGCTGTAATTGTTTACGATTATACCAGGGATATATTTTATGGAATTTTAATATCACTAATTATACTTTTTATTCTAGGTTTATCTTATGAAGGAGACTTAAAGGAAAAGCTTCAGTCTGGAGCAATAATTATAATTGCCGGAATAATAACTGTATTAATAACAATGCTAATTAATCATTAAATTTAAGTATTTTAATATTATAACCACCAGCCGGTAGAGCTCCAGCAACCATATCTATCTAACATTTCTTGGCAAGCCTTTCTATCTCCCTTTACGCAAGATTCGCAAAGATGTCCATAATCTTTTACAGTCTCTGAATCGCATATAACCTTTCCGCATATCATTACACAAATTTGATCACCAGATTTAATATAACATTGCATATACACTATCGCCACCTTTTTAAACTGCTTAAACAATATAAACTTATGGAAACATTAGAAAGAAAAGATAGGCAAAAAGAATTAACTGAAAACATTATACATCTTGTAAATGATATAGAAAACAATGATCTGAAAGTTGTAACTTTCATGGAATACACATCTCCTCCAGATAAAGTAAAACCTAAAGTTGTAAAGTTTTCAAAGATATTAAAATTACTTAAAGCGATAGCAGAGTTAGGTAAAGTAGAAGAGGGAGTAGCCAAAATAATGTTGTATTCACCTTCTACTGGAAGATCTAGGGGTCTGACACCTACTATGATGGCTGGTTTTCAGTTAATTGAAAAAGGGAAAGTTACTAAACCTCATTCACATAACATGGCTTCTATATATCTAGTTGTCAAAGGAAAAGGATATTCTATAGTAGATAATGAAAAACTATTTTGGGAAGAAGGAGATGTTTTTGTAGTACCAGCTAATGCTATTCATAGCCATGTTAATACTGGAGAAAATGACGTTATACTGTTTGACGTTACAGATTCAGGATTACTAGAGAACTTAGGAATTTTAGAATTTAAAGAAAAATAATAAATATCTAATCTTTTCCCCAGACTATTCTATATATTTTAAATAGCTTTTCGTCACGCCACTTAGAAAGTTCTTGAAAGCTTTTTCCCTTTATTGATTCATATTCCTTCATTTGCTGAACCGCTTTTACTACACCAGTATAAGGAAACTTATCGTACTTTGCCAAAGTGCTCATCCATTCATTTGCTCCGTATCCAAAACCTCTGTTAAAGAAGTACTCTAATCCTCCTTCACCTCCGCCAAGATGATATGTTAAAAACGGCCCCATAAATGCCCAGCGTAAACCTATAGCTGCCGTCATAACTTTATCTATATCTTCTACCGTTGCAATTCCTTCATCAACTAGATATACTGCTTCTCTAAATAATGCAAATGCCAGTCTATTACCTAAGAATCCTGGAACTTCTTTCTTTAAAGTTACCACTACCCTATCTAAAGATTCCATAAATTGTTTTGTAGCATTTATTGTTTCTTGAGATGTTTTTTCTCCCGGTACTATCTCTACTAAGGGAAGTAAATGAGGAGGATTCCATGGATGTGCTATGATGCTTCTTTCTGGAGAGTTTTTCATAGCTTTTTGTATTTCAGTTAACAAAAGGCCTGATGTTGAGCTTGCAAGAATTACGTTTTTATCTAATATTTCATCTAAATAACCGAAAATGTTTTTCTTAACATTATAATCCTCAATCACCGCCTCTAGAACAAACTCGGCGTTTTTAATAGCATCGTCCATATTTGTTGTTGTTTTTATATTTTTAAGATATTCAGAAGAATCTTTATTTACTAAATTTAATGATTTCATTACATCAAGATAACTCTTTATCTTGTTTAGACCTTTTTCTAAGGTTTCTTTCTTATCAGTGTACAGAGATACCTCATATCCCTTAGTAGAAAGTAGGGTAGCCCATCCTGATCCTATAAGACCTGCTCCTATTACCGCAACGTGTTTTATCATAGTCACTTTTATTGTATAAGTAATATAAGTATGTTTCTATCGATTGATTTTTTATTCACTTGTCCTTATCTAAACACCATATGCCTATAGAAGAAATAATAGATTACATAAACTCAATAGAATCAAAATTAACTGAAAGATCTGATAATAGAGAAAAATTACTTTTGATGTCAAGAGAGTTAATAAGATTATGTGGAGAAACAATTTCCTTATCTCATAGACATAAAAAAGAGGAAGCAATTAAAAAATACGAGGAAGCAATTAAAAAGGCCAAAGACATAGAAAATATAGTATCTAACTATCCTGAATTACTGTACGGAGACGTAGGAACATCTTTTCAAGAACTAGCAGAAGCGTCTATTATATTATCTTTCTATTTCGATGTTAAATTAAATCTACCAGAAGATTTAGGAATACCTGATACGTATTACATTACAGGAATAGCAGACTCCATAGGAGAAATGAGGAGAAGTGTATTAGAACTATTAAGGAAGGATGGAAATATAACCGAAGCAGATAAGATTCTAGGCTATATGGATAATCTTTATGAAACTCTTTGGAAGTTAGAATATCCAAAGTCTTTAGTACCAGGCCTTCGACAAAAAATAGATCAGTTAAGAAGAATAATAGAAGAAACTAGGCATGATGTATTTTTGGCCAGTTTAAAAATTTGATTTCAAGTAATCAATTAATTTTTGTGGTACATTAATACCAGTGGCTAACATGAATCCCTTAAATTCTGGCACATCATTAAGCTCATTTATTATATAGCCCTTTTTAGGATGTTCTAGAATATCGATTGAAATGAATTCACCTTTTACTATTGCAGAAGCTTTTAGTGCTACCTCCTTAAGCTTATTATCAATTTCAATTTTTGTTGGTGTTCCACCGAGAGCTACGTTTGCTCTCCATTCGTTTGGGGGAATATTCCTAGCATAACATCCCAATAATTCCTTTCCCATAACTATACATCTTATATCTCTATCCTTCTCTTTAACATATTCTTGGACTATATGAACTTTTAATGCAGAATTAGCTAGCATTTCTCTATGTTCTATTATAGTTTTTCCTTCAAAAAGATCTCTAATTAATGAAACCATTCTTCCCCAGCTTCCTATTGGTGGTTTATCTATCAATGGATATCCTATTTGCTCGTAGGCTTTTAAGGTAGCATCAGGAGACATTGCAATGATGGAATCTGGTATTGGTATTCCTTCTTTAAATAATTTTGAATAAGTTAAAATCTTATCTCCAGCAACATTAATAACTTCAGTAGAATTAATAGTATGTACATTTGCGCCTTCAAACACTGCAGCTGCGTATAACGATCTATACATACTAACTGATCTTATTAATGCAACGTCGTATCTACCAAGTGCTTTATTAAACGGTAATGGTTCTTGGCCTACATTTATTACATCATATGCTATTCCTGATTCATTTAGGCTCTTTACTATTAGTTTTTCTTCTTGTCTAACTATATCAACAACTAAAGCTACTCTAATTATGCTTCACCCCTATATTTTTTTAATTCAAAAAACGTAATGGATTTACAAGAAAACGATTTTGATAATTCGTAACCTAATCTACCATTAAGAACTAAAGGAATATTATAGTCAACTGCGGTCCTTCTTACTTCATAGTCAATATTCTTCAAATATCCATTTGTAATAACTATATCTATCTTACCTTGAGTTAACATATTTAAGGCATCCTTATTTCTTATATCTGGGAAATCTGCTAGTTTCTGTTCTGATAGCGTATATACATTCATACCAAATTTAGATAGATTTTCTGCAGATTTCTTTAAATATTCATTATTGCCTTTTCCATAAACTAGGGCAGATTTACCTTTTTCTGGAATTCTATTGGGCATTGCGGATAGCCAGCTCTTTAATAAAGCATCATTAAAATTGACCCCAAAAGATGCCGCTTCTCCAGTACTTCTCATTTCGGGCCCTAAAAATGGATAAGCACCTTTTATTTGAGCCCACGAAAATTGAGGAGATTTCACTGCCCAATACTTGGAAGGAGGCTCATAGAACTCATCTAAAGCTAGACCTCTAACTATTCCATCTACTGCTTTCTCAATTAAATTAAATCCTTTTGCTTTACTTGTAAATGGCATAGATCTGCTTGCTCGCAAATTAAGTTCTATTATATATGGTACATTATCTTTTATGACGAATTGTAAGTTAAATGGACCCTTAATTTCTATTTCTCTTGCTAATCTTAATGCAGCTTCTTTCATAAACTTTGCAGTATTTTCATCTAACTGCCTATATGGTATAGACATAGTAGCGTCTCCGCTATGAGTACCTGCTTCTTCAACATGTTCAAGAATAGTACCTATAACACCTTTTCCATCACTAGCGGCATCTATTTCGGCTTCTATCGCATCTTCCATGAATTTAGAAACAACTACTGGATATTTTGTAGAAATCTTAGCTCTCTTTATAAATTCATAAAGCTCTTCATCATTATATGCTATTCTCATTGACGATCCACTAAGAACGTAACTTGGCCTAACTAGAACTGGATATCCTACACTATCTACAAATTTTTTAACATCATCAAAAGATCTTGCTGATATCCATGCAGGTTGTTTTAAATTCAGCTTATCCAATAATGTAGAAAATTTTTCTCTATCTTCTGCTATATCTACACTTTTTCCGGAAGTTCCGAAAAGATTTATTCCGTTATCTTCCAAGGCTTTTGCTATTGAGTTACCAAGCTGCCCAGCCGCAAAAGTAGCTACGTATCTAAACTTTTCCTTTTGAACTAAATCTATTATTCTCTCCACGGATATTTCGTCAAAATAAAGTTTCTTTGCAATATCCCAGTCCGTAGAAACAGTTTCTGGATTATAGTTAAGTATAGCAACATCATCAAAATATTTTGAAACTGCATCAAGTAAAGATACTACACCCCAGTCAAATTCTACAGATACGCCAATTCTAAAACCTCCTGCTCCCAATATTAACAATTTATTAGCAGAAGGAGAAAACTCTATATCGTCTTCCTGTCCATTATAAGTTAGATATAAATAATTAGTTACAGCAGGCCATTCTCCAGCTAACGTATCTATTTGCTTAATATATGGCAATAAGTTAGCTTCTAATCTTTTTTTAGTTATATCATTAGTCTTTGTTGAGATAGCAGAAGCTATCTGCTCATCGCTAAAACCTAGCTTTTTAGCTTCCAATAATATATCATTGGAAATTATCTTAGAAGTCTTTAAGCCCTCGTAAAAATCTACTATTCTCTTTATTTTTAATAAGAAAAATTTATCAATACCAGTAGAATTATATATTTCGTCTATTGAAGCACCTTGGGTAAACGCCTTGGCAACATATAAAAACCAATAAGGATATTTCTTATCAAGCTTACCAAATATCTCTTCCTTAGTTATAAAACTGTTATATATCTTACCTCCAACTACGCCAGGCTCACCAATATCGAGCATTCTAACGGCTTTTTGCAATGCTTCCTCAAACGATCTTCCTATACTCATTACTTCGCCAATACTTTTCATTTCTGTTGCAAGACTTTCTTCAGCATTTTCAAATTTCTGTAAATCCCATCTTGGAATTTTAATTACTACATAATCAAGACTAGGTTCAAAACAAGCACATGTAGATCCGGAAACTTTGTTTATTATTTCTTCAAGTGTGTAACCTAAGGCTAATTTAGCAGAAACATACGCTAATGGATACCCAGTAGCCTTACTAGCAAGCGCACTTGATCTTGACATTCTAGGATTAGTCTCTATAACGAACCTTGAGTAGCTATTAGGATCTAACGCAAACTGTACATTGCATTCTCCTACCAGGTCTATAGACTTAGCAACTTCTATAGATTCGGTTCTCATATTTTGATATTCATAATTATCCAAAGTTTGACAAGGTGCAATTACAGTAGATTCTCCAGTATGAGTGCCCATTGGATCTAGGTTTTCAATACATGCTATTACAGCAGAATCTCCTTTTTTATCTCTCATAACCTCATATTCAAGTTCTTTCCAATGGTAAAGATATTTTTCAATCAGAACTTCATGAATGTAACTCTGTGATAATGCTCTGCCTATATCTTTTTTAAGCATATCCTCATTCCATGCGACAATGGAACCTCTACCACCAAGATTAAAGCTAACTCGTACCATCACTGGATAGCCTATCTCTTTAGCTTTCTTTAGGGCTTCTTCTTCACTTTGAGCAGAAAGTGAAGGGGGAACTGGAAGACCTACGTCTATCATAGTTTCCCTGAACTTCTCTCTGCTTAATGCTTTCTCTATGCCTTCTATTGGTGTTCCGAGGACTTTTATTCCATATTTTTTTAATACACCATGATTATGTAGATCCACTCCAACATTTAATGCAGTCTGACCTCCAAAACCTATCATTATACCATCTGGTCTTTCCTCTTCAATTACCTTTTCAACAGACCACCATGTTACTGGGACCATATATATTTTATCAGCAAACTTATAGCTAGTTTGTACTGTAGCCACATTTGAATTAACTAAGATAGTTTGTATTCCTTCTTCTCTTACTGCTTTAAGAGCTTGACTTCCGCTGTAATCAAATTCTGCAGCTTCTGCTACTTTTATTGGACCAGACCCAATTATGAGGATTTTTTCCATTTTATATCACCATCTTTTTAAATTTATCAAAAACCCAAGTTACGTCATTTGGTCCGGGCTTTGCTTCTGGATGAAACTGAGTTGTTATAATTGGTAATTTTTCGTGAATTAAACCTTCTATTATCCCATCGTCTGGATTATAGAACCAGACTTTAGAAGAAGGTGGAATATCATTTTTAAAAACTCCATATCCATGATTATGCGTAGTAATATAGCATTTTCCATCCGTTGTATCAATTACGGGTTTATTTATTGCTCTATGTCCATATTTCATTTTCTTTACTCCACCGCCTAATGCTAATGTAGCTACCTGGTGACCTAGACATACACCCAATATGGGAACTCTGTATTCTGTAAGATCTTTAAACGTTTTTACTACGTCTCTTATTAAATTTGGATTTCCTGGTCCATTTCCAAAGACTACTCCTTTAGGCATATAATCCATTATGTTTTCTGCAGAGAAATTACAGGGAACTCTAACTATCGTAAAACCTCTTTTATATAATTCGTATAGTATTCCATGTTTTGTCCCACAGTCTACAACAACTATTATATTATTACCATTTGGATGAATTATTGGGGATTTAGGAGAAGTAAACTTAGTAAAATCTATTTCATCGTATCTTTTTTCGAGGAATTTCCGTGGTTCATCTAACTCATATCCACTAGCTAAAACACCCATCATTGCACCTTTAGATCTTACTCTTTTTACAATCATTCTAGTGTCTACTTCGGAGATCCCTGGTATTCCTTCCTCTTTTAACCAATCATGTAATGACTTAGAAGAATTCCATTTTTTAGGCTCAGTCTCTTCTGCAACAATTAGCCCTTCTATCTGTATTCTTTCTGACTCAAAATTCTTTAATATTCCGTTCTCGATTTCTTTGTTAGGTATGCCATAATTTCCTACCAAAGGATGGGTTATTACAAGAATCTGTCCTTTATATGATGGATCGGTAAGACTTTCTGGATATCCGTTCATTGCTGTAGTAAAAACTACTTCTCCAGCTTTGACTGCTCTAGCTCCAAAGCCGCAACCCTCAAGTAAAGTTCCATCCTCTAAGTATAGATATGCTTTATAACCCCTCCTGCATAATGTCATCTTCTATCACCCGTAATTGGCCCATTTTACTTACTATTAATGATTTATATTCACTTAGAGATAGTTTATCTAAATCTAGTCTTTTTCCTATAAGTTTTAGATCTTCTTCTAGAATCTTAGGGTTTGGAGATCCGCTAACTGACTTAAGTTCTATTGACTCATTCAATGTAATTGTTGGAGAAAAGGATCCGTGCATTACTTTATCTGCTACATCAAAGTAAGCTTGCCTATAAGGTTTTCCCTCATTAGCAATTTTCTCAGCTTCATCAGTAGCCAAAGTAGATTTATCTATTTCCTTATTTAGAATTTCTATTCCTTCAAATAAATCCTTCAAAACTTCTAATGAACTCTTAGCTATTTTTATACAATTCCATAAGTTCTTATTAATTTCTTGTAGATCGAGATCATATCCAGACGGAATTCCTTTATAAATTGACATCACCGAGGTCAATATTCCTATGCACTCACCGCCCTTAGATCTTAGAATTTCCATTGTAACCGCATTTCTTTTTTGAGGCATGAGGCTACTTGTACTAACTTGAGAGTCTGGTATTTTCACATATCCAGTAAACGAAGAAGATAAAAGTATCATATCTTCTGCAATTCTACTCATCGATATCATTAAATTTGTTATTTCTGATACGGAAGAAATTAAATCTGCTCTCGATGCTGTAGCACTGATAGTATTTATTATTATATTGTCAAATCCTAATAGTTCTGCTTCTCTACTCCTATTAATAGCTGTATTGGTGCCTACAACTGCTCCTGAGCCTAATGGTGATCTATTAATATTTTTTAGTACGGAGAATAATATGTTCCATCTAGAACTAAGTTCTTCTTCAATGTATAACATGTAATGAGAAAAAGTAGTAGGTTGTGCTGGCTGAAAATGAGTATATGATGGAAATAATACATTTTTAAACACCTTAGATTTTTCAATTAGTAATTTTCTAAGTTCTATTATACTTTCTAATATCTCTATAATTTCTGCTCTCATTTTTAGTCTGAGAGCTGTAGCTACATGATCGTTTCTTGATCTCGCTAGTCCAATCCAGCCTCCGTCTTCTCCAACGTTTTTTATTATAAAATCCTCTAAAGCCTCATGAATATCTTCATAACCTTCCGGTAACTCATTGAAATTATTTATAGCGTCCAAAATCTTCTTAGATATTTTCTTATCTATTATCTTATCGAGATATAATTCTATTACATGTGCTTTCATTACAAGTTTTACTTCTTGAAATATTTCTTTATCTGAATCTATAGAAGAGGTATACTTAATTACTTCATCGTTCTTTGATCCCCATTTCCTATATAGCATTTTTATCCGTACCTCATCTTTCTAGCTAAAAGAGAATGCATACCCCATATTTCTATAAAACCTTTAGCCATCTCTTCGCTTGGATACCAACCTTTATTGTAACTAGCTATTTTGTCAGAATAAGGAGAATATGGAGAATCCCTACTTACTATTGTAACACCATTACCTTCTATTTCCATCTTCACCTCACCAGATATCCATTTATTCATTTCATTGCCTACATTCTGTAAGGTTTCTCTAAGTGGTTCATACCATAAACCTTCATAAACTAAATCAGACCATTCTTGATCAATATTTTTCTTAAATCTATATTCTAAAGGAGTGTAAATCGTCTTCTCGAGATCTTTATGAGCTTTTATGAGCAATAACGCGGCCGGGGCTTCATATATTTCTCTTGATTTAAAACCGACAATTCTATTTTCTAAGTGTTCCAATCTTCCAAATCCATATTTTCCTATTTCAGAATTCAAAAATCTTATTAGATCAACTAAATTCATTTTTTCTCCATTTATTCTTGTAGGCACTCCATTATCGAATTCAATCGAAATTTTTGTCTTTCCATTCTTTTCTTTTTTTGTCCATTCAAATGCGTCTTCAGGAACTTCCTTAGAAGGATCAGAAATTATATCGCCCTCTATACTCCTTCCCCATAGATTTTCATCTATACTATATTTTGTACTTTCAATTTTAATTGGTATTTTTTTCTCCTTTGCATATTCTACTTCGTCTTCTCTAGTCATTTTCCAAACTCTAGCAGGAGTTATTATAGTAGCATTAGGCATTGTAGCCTTTATAGCTAGATCAAACCTTACTTGATCATTACCCTTAGATGTTGAACCGTGAGCTATATAAGTAGTATTCTCTTTTCTTGCTATCTCAACAGTTTTTTCAGCAATTAATGGCCTAGCTAATGCAGTAGATAAAGGATATACATCTTCGTATAATCCATTCATCTTTATATCATACGCTATGTAATTTTTTGCGAATTCCTCCCTAGCATCTATTGTATAATGTTTAGCAGATCCTGCTGCATATGCTCTTTCTTCCAATTTTTTAAAATCGTCTTCTTGTCCTACATTTACACTTACTGTGATAACATCAGCGTTGAAGGACTCTCTTAACCATCTTATTGAAACTGTGGTATCTAAACCACCAGAGTAAGCTAAGATTATTTTCATCTTACTCAAAACGTATCGACTTTAGTTAAAAATTATGAAGAAAATGATTTTAACGTATTTCTTAATATAGAGAATGTTGAAGGATTTCCTCAAAAATCACATTCTTCGTTTCATATAAAATTCTAGGGCTTTTTTTATGAATTCAGTTCTACTTTCTAAACCCATGTCTTTATACTGTTTATCTATTTCTCTCAAGATATCTTCCTTTAGTCTAACGCTTATTACCTTTCTCATATACATCAATGTAGAAAAGATATTATTAAAATAAAAATGTTTTAGCTTGAAAGACAAAAAGAATAGTTAGATAAAAATATCTGTATTTAAAAAACTTTTATTAACTTGCCGAAGTAAATATTACAGGCTTTTCCTTTTTAGCCCTAATCTCATCAAGTTTCTCTGACATGTTTGTTATGGCTAATGTTAACATATCTTTATGATACTTTCTTACATGTTCTTCTGAATCTTCTTTAGCAACTACTGTATTACATAGCGTACATGTATAAACTCCATTTTCATCACGAACAACAATCGGTTTAACGTCTACTGCCATTTGCTTAAGTATCGGAATAATTTTTTTAGCTCTAATTTCACTTCCGCTCTTTTCAATAATTCTCTGGGCATAACCTCTAAGCTGATGTTTTGATATGTTATATTTATGTGCTACAATAGCAGGTCCTTCACCATTTACTAAGTATTCTTCTAAAGCATCTAATAGATAGTCGCTTCCTCCCAATATTTTTAGAGATACATAATTTATAAGAGACTTTATATCTACGGGTTTCATATTAGTCACTAGAGTCACATTTATAGCTTCAGAGTTTAAAAAGACTTCATTAAATTCTATAGATGGAGAATAACGTTTTTGTATGTTATAATATTTATGCTAGATCCTTCTATCACTTTACCTATCTCAAAAACTTCATCATATTTTTCTAAAAAGTTTTTAACATCTTCCATATATTCTTGTGAAGTGAAAATGATCATTCCTATACCCATATTAAATACCTTATACATTTCATCATGCGGGACTCCTGCTTTTTCTATTTCTTTAAATATTTCTTGAGGTTCTGGTAAATGTAGTTCTAAACCATATTTTGTTATTCTTCTTAATTTAGTAAAAGATCCACCGGTTATATGAGCAGCAGCTTTTATTTTATCTAAAACACCTAGGACCTCCTTAACATATATTCTCGTAGGAGCCATTAGTTCATTTTCCCAATCTTTTAGTGAAAGTTTACCATCATCTATTAGTTTTCTTATTAAAGAATAACCATTAGCATGAATGCCATTACTTCTAAGACCCAATATATAGTCACCAGGCTTTACGTCATTACCTAGTTTAGGCTGATTAACTACGCCAAGTGCACTGCAAGCCATATCAAATCCATTTATTACTCCCGGCATTATGGCAGTTTCTCCACCTACAATTTCAGTTTCAGCTTCCTTCGAGCCTTTTACTAAACCTCTTATTAATTGGTCTAGTTCCTTATCCATAGGTTTTTCCATTGCTATATAATCAACTATAGCCATTGGTTTAGCTCCAACAGATACCAGATCGTTAACATTCATTGCAACACAATCTATACCTATAGTTTCATATTTTCCAGTTCTAGAGGCAAGTAAAGTTTTAGTGCCCACTCCATCTGTGTGTAATGCTATTTTTACTCCATTTATATCTATTATTCCCGAATAATGTCCAGCGCCTACTATTGTATTCTTATATGTAGAAGAGACAATCTTAGAAATATAAGCATGATAATCCTTTAGTTTATTTAGATCTACACCAGAGTCAGAATACTTCACCATAAACCACCATTAGGGGACCAATCTGCCGAAACTCCTAAAATTCCTTTTCTCTCTCTATTTTTATACGAATATCTTACTATCTCTGCTTTTTCTATTTGATCTTCTATAGATCTTCCTATGTCAGTTCTATAGATTAACTTAGACGATGATGAAATAAATGATGTGCATATATCTAGCTTTTTAACTGCCGTTTGATAATCCCCTATTGCAACTAGTTCTAATGCTCTAGATCCAGTAGTAATTAATTGGTTATTTTCTAATGATACTGCTCCAAAAAATACATCACATCCGTTCTCTCTTATTTTATTTATATTTATAGATATTATATTTCCCTTCGCAATATCTTTGTTTAATGGATAACCTAATGGAGCAAATGCTCTTACTACTGCTGGCTCATCCATAACTTCTAGTTTAGCTCTATTTAATCTCTTTTCTGCAGTTAATTCCAATATTTCTCCAAAATCACTAGATATTCTCGGTACTATTGCCGCAGTTTCAGGATCTCCCATTCTAGAGTAAAATTCTATTACAGTTGGGCCCCATAGATCTGTAAGCATCATCTGACCAGAAATAAAACCTATATAATTCTCATCTGTTTCCTTGTTAATTGCCTCAGTACTCTGTTTTACTATTTCGAATGTTTTTTCATATTCTTCCTCTGTAATAAATGGTAAGTATTTTCCAGGGCCGGAGATTGAGCCCATACCACCAGTTTCTGGCCCTATTCCATCTTGGTAAGCGTGTTTGTAATCTTGAGCTAAAGGTAGAGGCAAATATGTATAACCGTCTGTTAGAACATGCAAAGTATATTCTGGCCCATCTACTTTTTCCTCTATAATTATTTTTATTTCATCTTTAACTAAGTTTCCTATTTCTTCTACACTTCTGCTCGCAGCCGATCTCTTATCTTGAGATAGATAAGCCTGCAAATCTGCTACGATTTTCACTCCTTTTCCTCCTACTTGTTCTGAAGGTTTTATAGCTATAGAACCTCCATATTCAGACACGAATTTTGCTGCTGCTTGCATGCTATCAAATGCCTTAAATCTAAGCCTGCCCGGAATCTTATATTTCCACATTAAGTTTCTCATCCAAACTTTTGATTTCTCTATGGTAGATCCCTTACTTGAAGGACCAACAACTGGTATTCCTTCTTCTCTAAATACATCACCGATTCCATTGAATAGAGGATCTTCTGGACCTATTATTCCAAAATCTGGACTTATTTTTCTAATTATGGTTTTTACATAATCTTTAGAATTTATGTCTCCTCTAAAGTACGTTCCTCTAGACTTTTCAACATTTTCTTTTATTCCTGGGTTTATAAAGGAAGATATAGCATATAATGTATAATCGTTAGAGGATTTTGTTATAGCCTTAGCCAATGCATTCTCTCTTGCTCCATCTCCTATTAAAAGAACCTTCATTTATATCACCTTAGGATAATTACCAGTCATACAGCCTACACATATTGATTTAATTCCAATAACATCATACAAACCTTTTAGGCTAAGCCAATAAATCGAATCTGCACCTATTACTTTTGCTATTTCTTCATCATTTAAATTAGCAGCTATTAAATCTGAGGACTTAGGAACATCCACACCGTACGGACAGTAAGATATTAACTTTGGACTTCCAATTAATACATGAACTTCCTTTGCCCCCATTCTTCTTAGACTATTTACTGTATTTTTTAACGTTAATCCAGTTACCATAGAATCATCTATTAATATTACCTTTTTCCATATACTGCGGATTTAATTGTATTAAGTTTTAATTGAACACCTACGACTTTCATGAAGCTATCGTCCGCTAGCATAGTTCTTATTGGACTTCCTGTTCTAGCAAAGCCTAAATCCAGAGGAATACCAGACACTCTAGAATAACCTACTGCAAAAGGTAATGCAGTATCCGGTACGCCAATTATAGTATCACCTTTTAATGGTTTTTCCTTAGCTAATTGCTCACCTATTTTCACTCTTAAAGAATAAATCTCTCTTTCGTTTATTTTGCTATCTATTCTAGATTGATATATATATTCTATTGAACAATATGACTTATTAGATTCCTTTAGTTTTACTGAATCTATATAATATTTGTCAATAATTATCATCTCTCCGGGATTTATTTCTCTTCTAGTCTCGCCACCAATAACATTTATACCAACATTTTCCGAAGATACTATAGCCATATCAAATCCAAAAGCACCAATAGAAAGTGGTTTCAGTCCACTCTCATCTCTATATGCTATAATTTGTCCTTCTTTAGTTAATGCTATGAGAGAAAATGCACCTTTTAACTCTTTTAATGTTGTATCCGGATCTTTATTTACTTTATTTAATAGTTCTTTATTTTTTATTATACCATCTACTACTATAGCTACATCATCAAAAATTATTGGATAATAAGCGCTATTTCCAGTATATCCTATTCCAGCCCAACCATCAAGTGAAAACTTAAGATCTTCTGGAGGTTTTTCTCCTTGTATTTTAGAAAATCCATTATTTAAAGTAACTACTCCACTACGTAGATAGCCTCTGTGTTGTAAACCTATTAGGGAATAATAAAGAAATTTAGATATATTCCAGATTTTATCAAAAGCCATAATTCCTATAATTCCTGCCATTTTTTCACCCATTAAATATTGATTCCAATTTATCTATTGGATACCTATTTCTTAGTGGATAAATTCCAGAAAAACATGCAGTACATAAGGTCTCTCTACCTATAGCCTTTATCATTTCATCAACTGTTAGATATTCTATAGAATTAGCACCCATATATTGTGCTATGTCATTTTCACTTTTAGATGAAGCTATTAGTTCTTTTCTGCTAGGAAAGTCTATTCCCATATAGCATGGAAACTTTATGGGTGGAGATCCTATCCTTATATGAACTTCTTTTGCTCCTGCGTTCCTAATGAAAGAGACAATTCTCTTCATAGTATTACCTCTAACTATAGAATCGTCTATTAGAACTATTCTTTTATCTCTTACTGCGTTTTCTACTACTCCGAATTTTTCTTCTATTACTTCATTACGCTTATCGTTAGTAGGCATTATGAATGATCTTTTTGAAGCTATAGTACGAATTAAGGCTTCTTCAAGTGGAATCTTACCTTTTCTAGAGAAGCCTATAGCTATAGGTCTTGAAGAATCTGGAACTGGAACTACTATGTCTGCATTAGCAGGATGTTTATCATAAAGAACTTCGCCTAATTTTATTCTTGCTTCGTATACCGAAATATTATCAATAGTACTATCAGCTCTTGAAAAATATATATATTCAAACGCACAAGTACTTACCCTGGAATTTTCAATTCTTTCTGATACTATTTCAGAATTTTTCGCCCTAATTATCTCCCCTGGCTTTATGTCCCTTATTACTTTCCCTCCTAATTGCTTTATAGCAGAATCTTCAGAAGAAAATACTAGATTTTGGCCGATTTTACCCATTACCAGTGGCCTGAATCCTTTTGGATCTCTTACTGCAAGTATTTCGCCTTCTTTTGTCATAATCAACATAGAATAGGCTCCATCTGCAATATCCATAAAATGTTTTATAGCTGAAACAATAGATTTTCCCTCTTTTATATCCTTATCTATGAAATCAAGTATAAATTCGGTATCAGTAGAATATTTACCAAATTCGAAGTAATTTGTTATAGTTCCGTTAAACGCTATAGAGATCTTCTCATTACTTAATGGTTGTGCTTCTTTTAGACTAGTCTTACCCGTTGTAGAATATCTTACGTGCCCTATACTTATTTTTGAATCATTGAGAGTAATATTCTCATCTAATGCCTCCTCAACTAACCCTAGACCTTTTTGCGTAATTAGATCATTAGCATTAATATATGAGATACCTGCAGATTCTTGTCCTCTATGCTGTAATAATTTCAAACCTTCATATGTATATTTTATAGAGTTATTACCTATAAATCCAAAAACACCACAGTGTTCTTTAATCATTCTATCTCATCTCTTAAGTAATTATAATAATGATCTATTATGTGAGATATATTGAATTTTAATGAATCTATTTCTAAATAGTTTCCTTTCCTTACTTTACCTATAGTAGATGCTATCATACCTTTTTTCTTAGCTAAATCACTAATTGAAAATGGATCAGATGTAATAAAAACGAATCTACCACTATTTTCTGAAAATAGCTTTGCATATATGTCCTCAGTTCCTATAATTTTGGAAGTGTCTATGGATACAGTATAACCATAAGCTAGTATAGGCATAAGAGAACCTATTATACCTCCCCTACTAACATCCTTTGCAAAATATATTTTGTCATCATTTATGAGATTTAATGTAATTTCACTCGCTAGAAGATCTTCTTGAAGCCTACTTTTAGGTATATTTCCATATTTTCCAAATATCTTTGAAAATAGCGAGCCTCTCATCTCATTTCTAGTATACCCTAAAATTACAATATTGCCTTCTTCTATTCTAGGTTTTAATAGTTTTCCTTCAATTAAACCCGCCATTACAATTAGTGGAGTAGGTTTTATTGGTATGTTATTCTTATTTTCATTATAAAAGGAAACCTTTCCACCAACTATAGGAATAGAAAAGAACCTAGCAGCTTCGCCTATACCTCTTACAGATTCTACAAAATCATTATAGATTTCTGGTCTTTTTGGATCGCCGAATTGAAGATGATCTACTGCCACTATACCTTTAGAACCTACAGATGCCAGGTTCTTGTAAGCTTCTGCAAATATATATTTTCCACACTCATAAGCGTCTTCTTCACATAGGTCCGGATTTGCGTCGCCTTTTATTGCTAATAATTTTCCATTAGGCAATGATATAACAGAAGAATCAGCCATTCCTGGTTTTAACACTGTAGAAGTGCCTACTTCATAGTCGAATTGGGAATATGCCCATTCTTTACTTACTAAATCTGGATTTAACAATATTTTCTCTATTGCTGTCTTTATTTCTATATTAGGTTTTACTTCGTTACTTTCCTTCTTTTCCTCTATAGGCCAAGCATAGAGTGGGGGATATAAAAGAAGGTCAGAAGATAATGACACTATTTCTTTATTATTATAAGTGAATCTTACTACACCATCACCAGTAATTTCTCCTATAACCGAACATGGATAGTCATAATATTCGAATGCCTTACATACGTCTTGCACATTCTCGTCTTTTACAGCATAGAGCATTCTTTCTTGTGTTTCAGAAACTAGTATATCTTCTGGTCTCATATCTTTTACCCTTAGCGGTACTTTATCTAGGCTAACTACTACTCCTAATCCATTAGACATTTCAGTTACAGCTACGGCTAAACCTCCTCCGCCAAGATCTTTTATGGCTTCTACCTTGTCTTGAATTTCAAGTGTAACATCCATTATTATCTTTCCAGCGAAAGGATCTGCTATTTGCACAGCACCTATTTCATCTTCTCCACTCAATTTTCTTGATGCAAATGACGCACCTCCTAGTCCATCTATTCCTGTTAGCCCAGCAATAACTATCTTTAAGCCTTTCCTATTTACTATACTTGGTTTTATTTTGTTTTTATTTACTATACCAACACATGCTATATCAACCAAAGGATTATCTGAATAAGAATTATCAAATGCTAGCTCTCCACCTACAACTGGAACACCTATACTATTACCATAGAATCCTATTCCAGAAATAATATTTTTCAATAACCATTTATTTTTATTATCTGATAGGTTACCTACTCTTATCATATCTAATAAGGCTAATGGTTTTGCACCCTTGCTTATTATATCTCTTATAATTCCTCCTACCCCAGTTGCCGCACCATTAAAAGGATCTATAGCAGAAGGATGATTATGACTTTCTACTTTGATTACTATTGCATAGTTATCTCCTATGTCAACAGCACCTGCGTCTTGCCAATCTTCTATACCCATAATTACTCCTTTTCCTTCGCTTGGAAAACTTCTAAGAAAGATTTTTGATGATTTATATGAGCAATGCTCAGACCATAAAGCATCTATAGTCTTCCATTCCGCTTCATTAGGATCTCTCCCCAATGCCTTTTTAACATAATCTATTTCGTATTGAGTAAGATTTACCATTTCAAACCCCTAAGGAGTAAAAGTCCATCAGTAGATCCGTCAATAGAAGTTAAGTTAAAAGAAGCCCTTTCTGGATGTGGCATGAGACCTATTATATTTCCTTCTTCATTAGCAATTCCAGCAATATTCAATATTGAACCGTTTGGATTATATTTTTCTTCTATGTTTCCTTTCTCATCTGAGTACTGAAAAACCATTAAGTCCTTAGCCTCCTCCTCATTTAGAAAGAACCTACCTTCTGCATGAGCAATAGGCATTCTTAGAACTTTTTTCTGTAATTTTTTTGTTAATAACGTATTATTTCTTACTACCTTAATATTCACCCACTTACTTATAAACTTAAGATTCAGATTAGGTAGTAGTGCACCTTTTAATAAGCCACTTTCTGTTAATATCTGAAAACCATTACATATTCCAAGAACTATTTTTCCATCGTCTGCCATTTCTCTTACTCGTTTCATTGTCTCAGTGTTAGCCGCTATACTACCCGCCCTTAAATAATCACCAAAGCTAAATCCTCCAGGAATAATTACAGAAGAATATTTGTCAGGATCAAAATCCTTGTACCTAACTATTTCAGCATCTATTTTAATTTCATTTAATGCCTTTAACACATCATTGTCACAAGTAGTTCCAGGGAATTTAATTATTGCAGTCTTCAATTTTATTCACTCTTATATCAATTTTATGTACTATAGGATTATACAGTCTATTCTCATTTGCTAATTTATACACAATATCTCTAGCTTCCACCTCGTCATTTGCATTTATATCAAAAAGCAAATATTTACCTACTCTTATGTTCTTTATTTTATCGCTGTTCTTTTTAGCTATATACCTCTGAATAGTTTCTCCTTCTGGATCTCTAATACCTTCCTTATTTAGTATCATTAGCTCTACTTTAAACATTATACCACCTTACTTAATTTATCTAAGAATTCTCTATAAGAAGACGCTACTATATCTAAAGGGTATCCCTTTCTATACAAATCCTTGTCTAGTATTCTTCCATTCTTATCCCTTATTCTCATAGAATCTAACGTTATTTCGTCTCCTATGATTAATTCGTTGTTATTTCTTCCAAATTCTAACTTAAAATCATATAAGACAAAATCCATCCTATTTATAAGATCTAATAGAATTTTGTTTACTTTAAGCATAATACTTTCTATTTTTTCAGCCTCGTTCTTCTTCATCAATTTAAAAAATTCCATATGATAATAATTAAGCATAGGATCATGCCTACTATCGTCTTTTAGGAAAAACTCTATAATTGGAGGTTCAAATACCTCTCCTTCTTTTATAGGCAGTCTTTTCACTATACTGCCAGTAGCAATATTTCTTAAAACGACCTCGACAGGTATCATGGAAAGCTTCTCAGCTATCATTGTCCTTTCATCGTACATACCCACGTAATGAGTCTTGATATTATTTCTCTCTAATACTCTAAAAATAATTGCAGACGTCTGTGCATTAATGACACCCTTATCTTTAAGAATATCAGCCTTGGCTCCATCACCGGCTGTTATACTATCTTTGAACTTTAGAAGTACATGGGACGCATCATAACTATAAACTTCTTTTGTTTTACCTTCCCCGATTTTACGGGTCTCCATACTGGCTATTAACATAACTGGTATAAAAAATCTTCTAAGCCATAATGTAATTATTTACTTGGTAAAGTAAACAAGCATTAAATATCCTTTATGATTGTCCAGAGTGATATGGAAATAACAATAGACGATTTCGCAAAGATAGAAATGAAAGTAGGAATAGTAAAAAAAGCTGAAAGAATTGAAGGAACAAAGTTATTAAGATTAATAATAGATGTAGGAGGAGAAGATAGGCAAATAATTTCTGGAATAGCAGAGTACTATACGCCTGAACAAATGATAAATAAGAAAGTTATAGTTCTCACGAATTTGAAACCAAAAATGATTAGAGGATATGAAAGTCAAGGAATGATACTTGCAGCAGGATGTAAAGAAGACGAAGAAAAAGGGATAAAACCAAGTCTTTTAACACCGGATTCTGAAGTACCATCAGGCACAAGAATATGCTGAATCCTTTTGAGAAAGTAAAATGCCCACCAAAAATAAATGATATGATAAAAATTCAATTAGATAGACTTCCTAAGATAGCTGGAGAAAATATTAAAGATAGAGAAATTAGAAGACTCATTTCATATCGTGACAATTTAAAAAAATACTTGGAGTTTATTAGATCTTTACCTAAAATTGATAAGTTACACCCATTTTATCGTGAGTCTGTAGAAATAATAGCAAAAAAATCATCAAAAGAGATAGATTTTTGTGTTTTAATTGCTATGAGAACCATAAATCTTTCTATAAAAATATTAAATGAATATATTTCCAATATTAAAAGATCTGACCAAAGTCTCAGTAATAGGTTGATGAGGCAAGGTTTTGGCAGAGCATCGTCTGTATTGAGAAAAGACAGATGCATTGACTGGTTAATAGATCTTATAAAAGAATTAAAAAAATTGAAAGCTATAAATCCTGATTTGCCTACAGTAATTGTGGCTGGACCACCGAATGTAGGAAAATCTACTCTTGTATCTAAGATATCTTCTGCCAAGCCAGAAATAGCTAGTTATCCTTTTACAACAAAGGAAATTCATGTAGGGCACATAGATTGGAATTATACTAAAATTCAAGTTATAGATACCCCAGGAATTTTAGATAGACCCAACGAGAAGAGAAATGAGATAGAAAAGAAGGCTCTTAATGCCATTAAAAATTTAAATGGTATAATAGTTTTTTTATTTGATGTATCAAAATATTCAATTTATTCTGCAAAAGAACAATTAGATCTTTATAATGAGATACTTCAATTTAATAAGAAAATTATAGTTGCCATAAACAAAATTGACGATGCTGATAATTCACTTTTAGAAAATATTGTAAAATCATTAGATGTACCTTTTTTAAGAATATCTGCAGAACAAGGATCAGGAATAGAAGATTTAAAAAATAAGATATTCCAGATACTTCAAGAGTAAGAATTGAGATACTGGATAATAGAGATATTTACGTCTATACAAGGAGAAGGAGATGTTATAGGTTATCCGTCTAATTTTATAAGATTAGCAGGTTGCAATTTAAGATGCGTTTGGTGCGATACTAAATACTCATGGATAAGGCATGATGGAAAAGAAATGTCAATAGAAGATATTTTACAAAATATTAATTTAAATATAAAATATACTACAATAACTGGAGGAGAACCTCTTTTACAGAATATAGAGCCGTTAGCCAAGACGTTAAAAGAGTATGAACATTTTATTATAGTAGAAACAAACGGCACAATAAAACCTTCAGAGGAATTAAAAAAACTTGTAGATGTTTTCTCTGTATCTCCGAAACTATCTAATTCAGGATTTAAAATCAACTATAATTTTGAAGATGATTGGGCCTCATACTATAAGTTCGTCATAGATAAAGTGGAAGATTTACTTGAAGTAAAAAGCTTTATTGAAAAACATAATATCAACCCTAAAAAAGTAATAGTACAACCTAATGGTCTTAGCAAAGACTATATAGAAAGTCTAAGAGAATTAGCCGATGCTATAATGAGAATGAACCTTCCTTTCAGAGTTCTCCCCCAGCTTCACAGAATTATTTCCTACAGATAATTCCAAAATATTTTGAAGATTTCTCATCTTTTCTTTGCCGGAAAGGAGAATTTCGTTAGATATTTTAACTAATCGTGACACATCTTCAGAATTGATTTTCTGTTCTTCATTTTCTCTTATTAAATGAACAAACCTTATGCCAGTCCTTAATTCCACTAGAATTCCCTTACTATTTTTAGTTAGTATTCCGCTATGCTTAAAGCCTGCATCTCTTGCAATTTTTATTATTTTCCATGCTTCTTCTTCGTCCTCTGTATAAGCATGAACAATAGGTCCTTGAGTTATTAGCCAAAGTCTATAGAGCTGCCCTTTATTCAGTATGTCAATAACGTCCTCTTCTGTTATACCTAGATGATTTTTAAACACTATAGTAGAGTTTTTCCTAACCCATGGTAAAATTGAGTCAACTATGGTAATTCTTCCGCTACAACTACTATACGTATATGTTTTTTCTCGTTTAAAAAATGCCATTAAAAGATCATAGATGTCAGGATCTAGATATCCAATCTCCTTATCATGATTGATGCGCTCTAAGGCCTTTTTCTTGAAATCTTGCCAACTTGACATTTGATGATTTTTTATATGCCCAAGAATAAAAAAGTAATGTGAAAATAGAAGAGATACTAAAGGATTTTCTCGCAAAGGAGGAAAGAGAGATAGAAGTTAAAGATCAAATTGAAGGTGAATTTAATGAAGAAATACCTTTAGGAACTAAAGTAGTTATAAACTACAATGGACGAAGAAGGATAGTAGATCTAGGGTTTTTATATATTATATCTAAATGTAATAAAAATTTTGTAAAAGATTACTTAGATATGTCATTTTCTCTACGTTATATACATAGAAAATACAAGGTATATACTGAGATAGAATACGCTGCACTGTTTTGTATGGAGTTTATAAACGATCCTGATATAAGAGCTGCATTAGAGAAGCTCAAAACCTATATACTTTCTAGAGAAAATATGGAACATGGACTTTGATGTAGTAGTTATAGGCGGTGGCGTAGGAGGGTTAGCTGCAGCTTTAAGGTCTGCACAACTTGGGAAAGAAGTCGCCTTAATTGAAAAGGATAGAGTAGGAGGAGAATGTATAAATAGAGCATGCATACCTTCTAAGACATTAATAGATGCTGTAAAGATACTATCTAAAACTAAGAATTCCCCTTGGATAGACACTAATGGTAAGATAAATTATGAGAAATTAAACGAATATAAAGGAAAAATAATAAATAGTCTACGAGAGAATTTTATTAAAAATCTTAATAAATTTAATGTAAAGATAATAAACGGAATAGGAAAAATAAAAAGTTCTAATGAAATTCAAGTTAATAATGAGACAATAGTATCGGATAAAATGGTAATAGCTACTGGATCTTCGCCTATTTCATTACCAGATTTTCCTCTTAACGATAGGAACGTTCTAGATCCTTGGTCAGCGATGAATTTACCAGAGTTACCTCAGTCTATAATCATTGTAGGGGGAGGTGTTGCTGGAGTAGAGCTAGCTACTTTATTTAGAGCTTTGGGAAAAGATATAACTATATTAGAACTAATGCCTCAACTATTACCTGGATTTGATAAGGATATTGCTAATGAAACAAAGAAAAGGTTAGAGGAAAAAGGAATAAATATATTTCTTAATGCAAAATCGAAAGTTATTGAAAATAAAGATAAAGTTAGGTTTTCCGTTAATTTACCTACGTCTTCTGAAACGATAGAAGGAGATTTAGCTGTAATTACTATAGGGAGGAAAGCTAATAATGATAATTTAGGATTGAATAACGCTAATGTTGATGTAGACCAAAGAGGATATATTAAAGTAGATAATAGGGCAATGACGTCTAATCATAAAATATATGCTGTTGGAGACTGTGCAGGTATTCCATTATCTGCTACGAAGGCATGGAGACAAGGAATAGTAGCTGGAGATAATATAGGAGGAAAAGATAATTTTATGCCAAAATATATACCAATTTCCATATTCGCAGATTTAGAAATTGGATTAATAGGAAAAACACTGGACGAAGCTAAAAAAACCGGAATTGAAGCTAGAGAAATAAAAGTAGATATGTCATCTATACCAAGAGCGTGGACAGTTAATGAAATTGAAGGATTTTTGAAATTGGTTATTGATAATGACGGTAAAATTTTAGGTGCCCACATGATAGGAGAAGGAGCTACAGAAATAATAAACACTATTGCTCTAGCAATGGAAAACAACCTTACAATGAAAGATATCTACAGAGTGACATTTTCCCATCCTACATTAACCGAAGTACTATCTGAAGCGTCCCAACGCTATTATTATGGAGAGATATATTAATTTGAATGGCAGTAGTAAGGGCGAATGAATGATAAAGAGAGAAAGCAAGTAAAAAAGATGCTAAAATTTCTTTTTTTCTCATCAAAAGGTGGAAAAACTAGATTAAATATTATTAAGCTTTTACAAAATTCCCCTCTCAACGCAAATCAGATTTCAGAAAAATTAAATTTAGATTATAAAACAGTTATTCATCACCTAGAAGTTTTAATAGAGAATAAAATAATTATAAAAGAAGGAGAAAAATATGGAGCTAAATACAAGTTAAGCTCGGAGTACTATATTTTTAAAGACGTTTTTGATGAGTTATTAAAAGAGGCAAAACAGTCTTAAATGTTGCTTCTCAATATTTAGTATTGTGAAAAAGAAAGATCTTGCCGAAGTATTAACAGACGTCAGAATAGCGCGTAATAAGATAAAGTTATGGAATTCGAGAATAGGAAATAAAATATTGCAATATCAGAAACTTTCTACTGCTAATGCTACTAGATACTCTATTTTGGCAGAACAGTACGCGAAAGAATCTGAACAATTGGAAAAAATTACTTCTTACTTAGATAAATTGGATATACTATTAGAAATGTTAGAAATAAAAATAGAGACGATAATTTCTGTAGGCCATATAGTTAATGATGCACCAAAAATAGTGGAAGCGTTAAAAATCTTTAAGAATATAACTCCGTCTCTTAGCTCGGAATTTTCACTCATGATAGATAATATATCTAGTAATTTTTACTCGTCTATAGAGATTCCACAAGACATAAAAATAAAAGCTACACAAGAAGCTCAAGCTATATTGGACGAAGCAGATTCTATCTTAAATCAGAAGAATATAAAGGTAAAAGCTTAAATCTATATATATCTATAGAAGTTATGCAAAACAGACTAGTGCGAAAAATACAACTTACTGGTGGTTCTACTTATATATTATCTTTGCCTAAGAGTTGGATTAGACAATTATCGCTTAAAGCAGGAGACGAAATAGAAATTATTCAGGATAAGAACTTAAGATTAATTTTAACGCCTAATTCTACCCCGCAGAAACAAGAAAAAGCTATAATAAACTGCGAAAATTTGAAAAGCGATCTTGCAACTAGAGAATTTATAGCGTATTACATGGCAGGTTATATTACTGTTACATTATCTTGCAATAGAATGAAGGCTGAAGATAGAGCGGCAATAAAAGAGACTATAAGAAGAAGGCTTTTAGGAGCAGAAGTTGTGGAAGAGGACGCTAATTCTTTAACTGTTCAATTTTTAGTCAACGAAAAAGATTTGCCTATTTCAAAGGCTATAAGTAGAGCATCTACTATATCCCAGAACATGTTAAAAGACGTTTTAATAGCGATGGAAGACTGGGACATAGACATAGCTAATGAAGTTATAGAAAGGGACGATGAGGTAGATAGATTTTATTTCTATATATCAAGGCAGCTAAGTCTGAGTGTTTCTAATTTTGAGATATTAGAAGAAGAAGGCTATAATATTGCCCAAATAGTTGATATTCACTCTACAATAAAATCTATTGAAAGAATTGCTGATCATTCAACTAGAATAGCAAGTTTAGTTCCTCAGCTTCACGGTGTAAAAGATCAAGAATTACTGAATCTTGGAAAAACAGTATTAGAAATGTATAAGAGAGCTACTACAGCGTTTTTGGAGAATAGAAAAGATCTAGCAAATAACATAATAGAGCAAGATTCAGAAATTAATGAGATACATAAGAAGATCTCATCCAAGATATTGTCTTCAGATTCACCATATAAAATTGGGTTACTGATATCAGCTGATTCCTTTAGAAGGATAAGTAGGTATTCCTTAGATATAGCCGAATCAACTATTAATATTATGGCAAAAAGTGGAAATAATATAGATAAAGTATAAAAATTAAATATTTTTATATTCAAAGACTAGATTTTCAGATGAAAATTTCTTATATGCAGAAACTAAACTATCCATAGTTTTGGCTTTTTTAACGGATTTAGCAAGTGATAGTAGATTTTCTCTGTCGTCTAATGTATATGCGCCTTTTCTAAAAATAGAAGAAATGCAATGAGGATTCAATACTGAGTTTATTACGTATCCCTTGATAAATGTATTATCTGCTGTTTCTATATCCTTGTGAGAAAAAAGGCATATCCCTGGATGAGTATGAGCTACTCCAATACCTTCTGGAATTGGTAAAGACACTTTATCCTCATCTCCTTCCAAGATTAGATATTCGCCTGACTTAAGAATTATATTCATAAATTCTATTTCATTGCTCATTGTTCTATTAGCATAAGGTACCATAACATCTTTTAGAAATTCTATATATTCATATGCTATTTGACTGTAAAGTATTTGATATTGAAATTTACCAGATCCAACTCTTACAATTTCATAGTTTTCATCTTCTGGAATATCCTTAACATAAACATATTCTAGATCAGTAGTAGGAGGTACTCCAGTTATTTCATGTAAATCTTCGGATATTGTTAATAATCTATATAGTTTAGCTATATTCAAACTTTTGTTGTTTTTATCTAGTTTCTGCTCTTTTGCACTCATTTAATCTTTCCTCTTGTATTTTTTGAAATTCTAAAATAGTACCTATAGGATCTTTAGAATTATATATACTTCTTCCTATAATTTCATAATTTGCTCCGTTACAGAGAGCATCACCTATTTTTGCTCCTTGAGCTCCTATACCCGGTGAAATTATTATCTTTTCTGGGAAATCTTTCTTAACTGTTTTAAGTATTTTAGGCCTTGTTGCTGGTGCAACTAAGCCATAAGGATTAGTCATCTTAATCACTTCTTTTATATAAGGGTAAAAATTATCATTCCAACCTTTATGGGACATTGATGATACTAAATACATTTTCTTATTTTCCTTGTCAAGAAATTCTTTGAGTTCTCTTATACTTTCGTTATAACCTACAAACGCATGTACAATAAAGGAATCGCCTAAATTTTTTAGATGAGTAGTTATCTTTATCATTGTTGAATCTATATCCGCTAACTTTAAGTCAAAAATAATGTTATTATCGAAATTTTTTAAAATATTTTTTATTCCCTCTAAACCTTGCTCTAATATTAACGGCCAGCCTATTTTTATTCCAGCAACTTGTGAGGAAATATCCTTCAAAATTTTATAATCTAGAGGTTCATCCAACGCTAAAATTATTTTATTCAATATTTTTCACCAAATAATCTTCTATAATTTTTTTCTCGTTTTGAGAAACTCTATTCAAAACGGATTTCAAAATATATTCGATATTATAAAGAGAATAAAGATCTACACCAATTTCTTTTAATCTTTCTTTAGCACCTTCTTTTCTATCAACAATAACAAACGCTCCTACTATTTTTCCTCCATTATTTATTATTTCTTTTGATGCTTTTTCAATAGATCCTCCAGTAGTAGCAACATCATCTATAAGTAAAATTTTTTTGCCTTCTACATCGGCTTCAAGAAGTTTATCTGTTCCATATCCCTTTTTCTCCAGTCTAATATATCCCATAGTTTTTCCTAACTTGCATGCTAAAAATGATGCCAGAGGTATTCCGCCAGTAGCTATTCCTATTATCATATCGTAGTCTAACTTTTCTATAACTTTTATAGAGTCATTTACTATCTGGAAAAATTCAGGATAATTTGGAAGCCTACGTAAATCTAGATAGTATGGACTAGTCTTTCCTGAAGTTAGAATAAAATCTCCTATTAGGAGCAATTTCCTATCTAATAATATATCTCCTATGCTCATCTCAGTAAATTAGAGAAAAGAGTTTAAATACAGTTTTCTTTAATTAAAACCAAGGGCAATTAGTGAAAAATATAATTTCCTCATACGATTTTTCGAGAGAGGATTTTCTAAGTATTTTTGAATTAACTGACGATATAATAACTGGGAAAATTAAGCCTAAATTAAATGATAAAATAATATCAGTAGCATTTTTTGAACCTAGCACAAGAACAGCAACGAGCTTTATTACTGCTGCTTTAAAATTAGACGCTAAAGTAGTAGGATTTACCTCGCCGGAAGGAACTTCCATAGCTAAGGGAGAAAATTTAGCCGATACTGTCAGAATGTTAGAAGGATACTCTGATTGTATAATAATAAGGCATAAATACGATGGTGCGGCAAAATTTGCATCAGAAATTTCTCAAAAGCCAGTAATAAATGCGGGAGACGGAAAACATGAACATCCTACTCAAAGTTTAATTGATTTATACACAGTATATAAAAAATTTGGTGAAGTAGATAATCTAACATATGCGTTATTTGGGGATTTAAGATATGCTAGAACAATAAATAGTATTTTACGAGCTTTAACCAGATTCAAACCAAAAATAGTTTATTTGATATCACCTCCACAACTTAAAGCCAGAAAAGAAATAGTTCAAGAACTTAATTATGAGATAAAAGAGTTAGAAAATCCATTCGATATAATATCTGATATTGATATTTTATATGTTACAAGAATTCAAAAGGAAAGATTTCCAGACGAAGTAGAATATGAAAAAATTAAGGAGAGTTATATTGTAGATCAAAAATTAGTTGAATTCATGAAAAGAGATTCTATAATACTCCATCCATTACCAAGAATAAATGAAATTGATAGAAGAATAGACTCTTTACCTCAAGCTAAATATTTTTATCAAGCCTCTTTAGGAGTTCCAATCAGAATGTCACTACTTTACAAGATTATAGGTGAGTAAATTTGGAGAATGGACTCATTGTAAGTAAAATAAAAAATGGAACAGTAATAGATCATATCCCAGCAGGAAGAGCTTTAGCAGTACTAAAAATACTAGGAATAAAGGGAAATGAAGGGAGTAGAGTAGCATTAGTAATGAATGTAGAAAGTAAAAAAATGAAGACAAAAGATATAGTAAAAATTGAAGAAAGAGAAATTAAAGAAAAAGAGGCAGAATTAATTACATTAATAGCTCCGTCTGCAACTATAAACATTATAAAAAATTATGAAGTGGTAGGAAAAAGAAAAATAGGAATACCAGACAAAGTTAAAGGCTTACTAAGATGTCCTAATCCATCATGTATAACTAATAATGATGTAGAAGCTATTAGTATATTTACTACAATTAGTAAGAATCCTATATTATTAAGATGCGATTATTGTGAAACTCAAATAGGTGAAGAAGAGGTACTGAGGCAAATATTGTCATGAATTACGGCAAAATTTTATCCATAAATAAAATTGGAAATATTAGTCAAATACAAATTGAAATAGAGTTTAAAGTAAAACCAGGACAATTTATATCGTTAGTTCTTCCTAAAATGGAAATACCATTAAGTATAGGCGATTATAAGAATAATATTTTAGAGCTTCATATTTCTTCTGCAAATATTGTAAATATTCTTTCACATAGACGTGAAGTTATAGTTAAAGGACCACTTGGAAAACCCATTGAACTAAAAGGAAAAGTTTTAGGTATAGCAGAAGGTGAACTATATTACGATATTCTTTTCCCTTTGCGTGAGGCGAAAAGAAACGGTCTTGATGTTGCAGTAAATTGCACTGGATGTAATTCTGAGTTTCGAAAACCAGATTCAAATGAAAAATGGGATACTATTCTAGCATCCGTAAAGAACGTGAAAACCTTGCCTAGAGACGCTCTAGTATATTTAAGGTGGATAAAAATGAACTGTATGTTAGGAGTATGCGGAGCTTGTGAAATAAATGGATATTTGCCTTGTATTGAAGGACCCTTCTTAGAAGTGAGTAAAATTGTGGATTAAAGGAAAAGCATTCATAAAAGATAATATTGAAGACTGTTGTATAGAATTTGATAGAAAAATAAAACAGATAAAAAAGGATTGTAAACCAGATATTTCTTTTAATTCTAGCTCATTGATTTTGCCTGGATCTCTAGACATGCATGTACATACTAGAGGTATGTTATTGTCATATAAAGAAGATATAATTACAGCGACTTCTGAAGCAGCGTATGGAGGAGTAACAACTATAGTAGATATGCCAAACACTAAGCCTTACATAAATACCCATGAAAGAGTATTATCTAGACTTAGAGAATTTGAGAATTATTCAAGAACAGATTATGGAATATATTCCGGAGTAACCGATGATAATAGAGTAGACGAAGATCCCATAGCAGGATATAAAATATTCCCTGAAGACCTAGAAAAACCTGAATTAAAATCAATATTATCATCAAAAAGACTCAAAATAATACATCCAGAAATTCCTATCTCTAACAATAGTTTCAGAAATTTGAGGGAAATGTGGCAAGAACTTGCGTCTCTCTATTTTGTACAAGGCAAAATTCATGTTACACATGCTACTAATTATAATACAATAGAATTAGCTAAAAAATTTGGATTTACTGTAGACTTTACCCCACATCACCTTCTAGTTAGTGGAGAAAAAGATTGCTTAAGTAAAGTAAATCCGCCTATACGAGATAAGACAGAACAAAATAAGTTAATAAGAGCGTTGTTTGAGGCCGATACTATAGTAAGTGATCATGCGCCCCATACATCTAAAGAGAAAAATATGCCATATGAAATATGCCCTCCAGGGATTGCTGCAGTCTCTTTCACTACTCCATTTGTTTATACTATGTTTAAGAAAGGAATAATATCTCTTCAGAGAGCTGTTGAGCTAGTTTCTAAAAATCCTGCAAAAATATTGGGAGTTAATCTAGGAGAAATTAAAGAAGATAAAATAGCTAATTTTACAATTATTAGTTTTAACGACTGGAGGTATCATACTAAATTCTCTAAAGTATTGGAGACTCCTTTGGATGAGTTTCCATTAGAAGCTAATATTCTGACAACCATAGTGGAAGGTAAAATAGCTTATGATGGAGAGGAAGTTTATCCTATACGGGGTGTAAATATTTTTGATAAATCTGGGAACACTTAATTTTAATGACCCTATAATAATACCGTCTGGTATTATACCGGATGTAAAAAAAGTCATTCAAGATATATGTACAAAATATAAACCGAGCGCGATAACTACAAAAACACTAACAAAGAATCCTTTAAGTCCTCATAATCCTCCCACAATATTAAAATTTCACGATAATTGCTATATTAATGCTATAGGATTAGGAAATCCTGGAATGACGTTTATTAATGATCTTCATATAGGATGTAAATTGTTTATAAGTATAGGAGGCAAATCTGTTCAAGAAATAAAAGAAGTTGCAGAATTTGCTCAAAATAAAGCCGATCTTCTAGAAATAAATATTAGTAGCCCAAACAGAAAGGGATACGGTGCTTCTTTAGCTAACGATGTTTATAAAATAGTAAAGGATGTTAAAGGAAGTGTATCTAAACCAGTTTTTGTAAAGTTAGGTCCTTGGGATAATATATTGGAAATTGCCGGTAAGGCATTAGAAGCAGGAGCTGATGGATTAACATTAATAAATACTCTTAAGGGACTTCTTATAGACGTTGAATCATTAGAACCTATATTAACATATGAAACTGGAGGAATATCGGGTAAGTGTATATATCCTTTAAGTCTTAGAATAATCTCCGAAGTTTATAAAGAATATGAACCATCAATAATAGGAGTAGGAGGAGTATTCTCATATAAAGAAGTTATAGGGCTAATGAGTGTAGGGGCTAAACTTGTAGGTATTGGAACCGCAATAATAGACAAAGGATATGATATAATAAACGAGATAAGGAGAGATCTTGATCTTTATTTAAATCAAAAGGGATTAAAGTTAGAAGATATAATAGGTAAAGCAGTGAAAAGATGACATCTAGAACGGTTATGAAAGGAAGAGATTTAGAAGGATTAGTTTTCTTAGGTAAAATTGATTCAGTAACTATAGAATTCTGTAGTGATGATAAGAAAAATGCTAAAGTTGTGGCAAAAACTACTGATGGAGAAGAAGTTGAGTCAGAATGTATACCAGTTAGAGCTGCAGGTAAGATAACAACTGTTATGAAACATTACCTAAGAATGGGAATAGGAAAATATATAGTAACAAATGAAAAGGTAACAGGAAGTATAGATACGGAGGGAGAAGATGAAACTCAGGATAGACAAACTTCCTAAGAGTGACGAAGATCTACAAGAAATACAAAGAGAAATAGAGTCTCAGCATCATCATAATGATGAACCAAATATAGAGGAAGTACTAGGAGAACTATATTCTGGAATACAATCTATGGAGGGAAGAATAAATAATATTGAATCAGATAGTAAAAAATGTAAGGAAGAAATAAGTAGAATATATAAAATCTTAGGTAAAATGTTAATAGCATTAGCTACTAATGACCAAAATGAAAAGATTAAAAATCTCAAAGATATTTTAAACCTCCTAGAATAAGAATGGAATTATCTCAAACATTAGTAATTGCCGTTAAGCTTTTTGCAATAATGGATCCATTTTCAATAATACCATATATTCTTGCAATGTTTGAAGAATTTAGTCAAAACGATCCAAAAGTAACTTGGCGGTTTTTAGTCAATAAAGTAGAAATTGCAGTAATAGTACTCTTACTACTTTTTTCAATAATAGGAAAACCTATGCTAGATTTTTTAGGTATAAAACCGGTTTCTCTAGAAATAGGAGGAGGTATTATATTAATTTATCTAGGTATAGACACGATGGGTGGCTTTCAACAGCTAAGGTTTATGTCTAAGAGCATTACAGAAGCTGTAGTAACTCCTATAGCCACTCCACTTATTGTAGGCCCAGGTACAATGACTGCATTAGTCTCTTTGTCAGTAACCTTTAATGTTTTTTATCTCATCATAGGAAGTTTGATATCAGCATTTTTGGTTTATGTAGTATTGATGATGGGACCTCTTTTAATTAAGGCCCTAGGAAGAACTGGTACTGTGGCTGCAGGAAGATTTACCGCAATTATAATTGCTGCTTTTGGTGTTCAGCTAATTCTAGAAGGTATATCTCAAATTAACTTATAATGACAATCCGAAGTTAAAATAAAAATTTTTTAACAAGTTCCACCTACTTTTTTACGAAGTATATGTCTAATAATAAGAAAAAAATAGACATGGATGCGATAGATAGAAGATTACTAATTGAATTGTTAAGAGATGCTAGAACAAGTTTAAGGAGACTCTCTGAAGAAATGAATGTATCACCGGCTACGTTACATAATAGATTAACTAGATTAGTACAAGAAGGAATGATAAGAGGATTCACTGCGCTTGTTGACTATACAAAGTTAGGCTATTCTTTATCCGCAGTAATTATGGCAAAAGTTGATGGAAAACATTTAGTAGAATTTGAAAGAGAAATAGCTAATACTGATAATATAGTAGCAGTATATGATGTAGTAGGAGAATACGATGTAGTACTAATAGCTAAATTCAAAAACGTGGAGGATTTGGATAATTTCTTAAAACAATTACTCAAAAATCCTAAAGTTGAAAGAACTTATACAAGTATAGTTTTAAACACAGTAAAAGAAGATCCTAGAGTTAGAGTTTAAATTCTTTAATTATATTAAGATAAAAAACGTTAATGTATACGTTTGTTTCCAAAAGCCTTAAATATAATACTATTGCTTTAATTTACTATATGGTGATTTGATTGCAGTTCTGTCCTAAGTGTGGAGGAATGATGATACCAGTGAAAAAAGATGGCAAAGAGGTGCTAAGATGTACTAAATGTGGATATGAAAAAGAGATGGATAATAAGGCCAAAAAAGCTTACGAAATTAAAGAAAGTAAAGGAAAATCTAACAAAGTTCTAACTACATCCATAGTTAGTGATAAATCTGGAAGAAAGAGAGACGAAGACGAATGGGAACAAGAAAGAGAAGAATATTATAAAGAAATAGGTTTAGAACTATTAAGAGACGAATTAGAAGGTTCAGAAGAAAACGATGAAGACTAAAGAGATAATATTATAAATTTTTATTGTAAAGTAAAGTGGTATGAAGATAACAGAGGCAACAGAAAAATATTTAGTAAATTTTAATAAAAGAAAATTTTTGTTAGAAGAATTAAAGGATGAGAAAGGAAGAAAGGTATTTTCTATATCTGAGGTAAGAAAATATACGTTACCAAATGGAGAAGAATGGGAAGAGAAAACTGAAGGAATAAAATCTTTTGATTGGTCAAACGCTCCGGACGATATTAAAAAGGTTATTAGAGAAATAATAATACGTTTATAAGATATATTTTTATACTAGGGTACTAATTAGGTGAATTGAATGACGCAGTTTGATTTTATTTTAACTACTGATAGATGTTTAATGACTGATCACCATCATAAGGAGTTTTTAGGATTTTTAGGTACTGGACCTGCTGTTGGATTGCCAGAATCTGTATGGAAATGGTTAGCATGCCCAAAGATGAAAGTGGACGAGCTAGGAAGACCTTTAGAGGCTCCTTATGGCATGAGAAAAATAGAAGCGAAACTTATAGATGAGGGTTTTAATGCAGCAATAATAGATCCAGATTATATAGATAAGTACCTTAATAATGCAAAAGCTCTAATGTTTTCTCACCATGATTATTTTGCTTTTGGTCCACCTTCTTCTACATGGTGGGGAATTACAAAAAAAGAGCCTATAAACTATAAAAGTTTTCAAGCACTTATAAACAAGCCAGAGATCTCGGAAGCTAAGAAAAAAGGCATGAAAATAATAGTAGGTGGACCTTCTACGTGGCAATGGCTATGGAGAGAAGACATGATTGAAAAATTAGGTGTTGATACTTTAGTAGATGGAGAAGGCGAAAAGGTAATAGTAAAACTTGCTCAGTCTATTATAGACGGCGAGCCTTTGCCTAGATATGTATATGTTAGTGGAGATGATGTTCCTGACCTAGAAGATATTCCAGATATAAAAGGCGCAAGTGTTAACGGTTTAGTAGAAATAATGAGAGGATGCGCTAGATCTTGCAGATTTTGTTCGGTAACATTAAGACCAACTAGATATTATCCATTAGATAAAATAGAAAGGGAGCTTCAAGTAAATGTAAAGGCAGGCATTCATAGTGGAGTTATACATAGCGATGATGTGCTATTTTATGGAGCAGTAGGTATATTACCTAGGCCCGAACCATTAATAAAATTACATAAACTAGTTAAGAAATACTATAAGACAATAGCATGGAGTCACGCAAGCTTAGCAGCCATAAGATATTCTCAAGAGAAATATGGGTTAATAAGTAAACTTTCCGAAATAATATACGGAGAAGGTAATCAGAAATATTTGGGAGTAGAAGTAGGTATAGAAACTGGTTCGGTAAAACTAGCTAAGGAAATAATGCCTGCTAAATCGGCCCCATATAAACCAGAAAGTTATCCTGAAACAGTAGAAGAGGCATTTAAGATAATGCATGAAAACCATATAATACCAGCTGGTACTATGATAATTGGACTTCCGGAAGAAACAGAAGAAGATGTATATAAAACAATAGAATTAGTAGATAATTTAAGATCATATAGAAGTATACTAGTTCCTATGTTCTTCGTCCCAATGGGGTACTTTAAGAATAAGGATTGGTTTACTAAAATTAAGTTAAACGATGCCCATATAGAGCTATATAAAAGAGTATTTTGGCATGATGTTTATTGGGCAGAAGACATAATAAATAAGTTCTATATTGAAGGTCCTATATACTACCCAGTAAGAATAGCTTTAAAAATGTTCTTATTTGCTGCTAAAAGAAAAATGAAAAAAGTAGAAGCGTGGCTAGAGACTCAAATGAAGAAATAAAGTCACGGCTTTTTATTTGCGGGTAATATATAATCTTTTGGAGCTGCTTTGAAAGGTTCTAGGTATTTTCGTAATACTTTAGGAATCTCTACACTTCCGTCTGATTTTTGATAATTTTCTAGAATAGCTGTGATCGTTCTAGTACTAGCTACAGCTGTGCTATTTAAAGTATGTACATATCCCTTTTTGCTCTCTTTTCTATCTACATAACGTATTTTCATCCTGTACGCTTGCCAATCAGTACAATTACTACAACTAACCATTTCTCTAAATTTAGCTTGAGCAGGCATCCATACTTCTAGATCATATTTCTTTGCTGCGCAAGCACCCAAATCACCAGATGCTATATTAATAATTCTATATGGCAATTCTAATCCTTGAAAAATTTCTTCAGCATTATTTAATAATTCTTTATGATATTTCCAGCTATCATCTGGAAGGCAATATATAAATTGCTCTACTTTATGAAATTGATGAACTCTAAATATTCCTTTTAGATCTTTATTAGCAGCTCCTGCTTCTTTTCTAAATGCAGGACTTATTCCAGCTAATTTTATAGGTAGTTCTTCCTTGTCTAATTCGTCCTTATAATGAAGAGCTGCTAAAGGATGTTCGGCAGTAGCTATTAAGTACAAATCTTCATTTTCTATTTTGTAAATAGCGTCTTTGAATGTGTCCATATCGATTACTGAATAAATAATTTCTCCACGTAACATATAAGGAGGAAGTACTAAAGTATATCCTTTAGAGGTTAGTGTATCTATCGCATAAAATAATAAAGAGAAATCCAACCATACTATATCGTTAAATAAATAGTAGAATCTAGAACCGGTTACTTCAGATGCCTTAATAGTGTTGCCTAGTTTCAGAACATTTTCTAACATGTCTGCATGCCCTATTGGTTTCCACTGAATAGTTTCATATTCAACGCTGGCGCCATTTAGTTGTTTCTTAAATTCATCAACATCTTTTTCATAAACTCTAAATTTTCCCCAGAATTTTATTGGTACACTATACGTATCGTCTGGGCCTTGCGGTACATCTTCAGTTACAATATTAGGTAAATTTTTAAGAACCTCATCTCTTTCTTGTTCTATTTCCTTAAGTTCTTTTTCTTTTTGTTGTAATTGAGCTAACAGTTCTTTAGCTTCTTTAATTTTCTTTTTTCTCTCTTCAGGTGGCAATCTAGGAATCTGTTGAGTTATAACATTATGCTCATGCCTCAATTTTTCTACTTGTTGAAGGATTTCTCTCCATTTCTTATCTAATTCTACGGCTTTGTTTACTACTGAAGGATCTATATATCTTCTCTTTAGATTTGCTATAAGTTCTTCTGGCTTTGTTCTAATGAGTTCTAATAAACTCCAAGACATAATAGACACAAAAAGCTTAAGCTTTTATGCCTTCTGATTCTAAACTCTGTCTATTTTTGCGATGCCAATAGCTCTGTAGAAAAGACAAGATGCTTGTAACTATATCAACCCAATAATTGGTAACAAAACAAAAATCTTTCAAAATCTCATTAGCATATTATCATTTCTTTCTGTTTTTTGGGTAAATTCCTTATATCCTCTATAGAAGCAAGATCTGTTCCCTGTATGACATACTGGTCCTATTGATGTTACTTTTAGCACTATTGAATCACTATCACAATCTATTCTTATATCCTCGATAATTTGGAAATTTCCACTTGTTTCCCCCTTTAACCATATTTTCTTTCTACTTAATGACCAAAAATGAGCATATCCAGTAGTTAGCGATTTTATTACTGCTTCCTTATTCATATTACCGACCATTAATACTTCGTTTGACTTAGCATCCTGAAGGACAGCTATTATAGTAAAATATTCATGCCTATAATTAAGCATAGAAGCTATCTTTTCTGCTTCTTCATTAGATAACTTTAACGTTTCATCCACCTAGTTAGATTTCTAAAGAATATTCTACCAGTATCGCTACTTTTTTCTGGGTGAAATTGAGTACCTATAGCAAATTCGCTATATACTATTGAAGGATAGTCGATTCCATAATGACTAATCATTAAAACATTATTTTCGTTTGTATATGCTACATAGCTATGAACGAAATATGCATATCTGTTATCCAGGTCTTCAGTTAGTTCAGAAGGATTCTTAATAAGAATTTTTTCCCAACCTATATGAGGTAACTTAACATTAGCATTTATTTTATCTACATAACCCTTAAACCAACCTAAACCCTTATTTTTACCGCCCTCTGTTCCTTCCTCGTACATTATTTGTAAACCTAAACAGACTCCTAGAAATTTTACGCCATTAGATCTTAAATCATTCAATTTATTTTCATTTTCATTAATGTACTTAGAGACTGCAGAAAATGATCCTACCCCAGGAAAAACTATAAGATCGGCGTTCTCTATATTCCCTATTTTAACTTCAAAACCAGTTCTTTTTAATGCAGATGATATACTATATAGATTTCCTACTCCATAGTTAACTACTATAGCTTTCATTTCATTCTCCTCTTTAATTCTTGATACAAATCCTCGGGTTTTATTCCTTCTAAAGCCATCAAAACCCAAAGATGATAAATAAGATCTGCTGACTCGCATAAGAATCTGTTTTTTCCTTCACTTAGTGATGCTACTACAGTTTCTACGGCCTCCTCTCCTACTTTTCTTGCTACATATCCCTTTCCCTTAGATACTATTTCTGCAGTATAACTACCTTTTGGCATCTTATTGATCCTATCTAAAATTATATCATATAAGTCTTGAAGAATCTCACTCATATCTAGCACCTATACTTTTAGAATGAAAATTGAAGCCTTCATAATTAGCCAATATCATAGCAGCTTTAATTAGATTTTTTTCTGGCTTCTCTGAAATAACATAAGATAACGGTTTAAGGAAATCAAAGACTGTTATTCCTCCTTTAAATCTTGCCCAGCCATTTGTGGGTAAAATATGATCTGGACCAGCGCAATAGTCTATTAATGCTGGTGGTGTATTGCCTAGTGTTATTGCTCCAGCATTACTAATTTTACTTAAAAGTTGTAAAGGAGATGAAGTAGCAATTGATAAGTGCTCTGGGGCTATATCATTTGCAATTTGTATAGCCTCATCTATATTGTTCACTTTGATTATATAGAAGTTACCTTCATTAGGTAACATTGATTTAATTCTATTTACCAAAAATTCTGAAGTTGAGATTAAAACTAAAAATGATGTTTTCCCGTGCTCTCCTTGTGCCAGAAGATCTAAAGCTACATTTTCTGGATTAGCAGAATCATCTGCAATAACTACCAATTCTGTTGGCCCTTCTATTCCATCTATACCTACATTCTCACTTACAAGATATTTTGCGGCTTGTACATATATATTGCCTGGACCTACTATTTTATCAACTTTTTTTACGCTTTCAGTTCCGTATGCAAGAGCAGCTATAGCTTGAGCGCCTCCTATCTTATATATGCCCCTAATATTTAATCTAATTGAAATATATGCTATTGCAGGGTCTACTTTTTCTTTAGGAGTAGCAACATATATTTCCTTAACGCCTGCAATCTTGGCAGGAATTCCGGCCATAAGTAAAGTAGAGGGATAAGTCTTTATTCCTCCTGGAACATAAATACCAACTTTTTCTATTGGTTTCCAAACTACTCCAAACTCTATTCCGTTTTTACCTCCCCCAGAATTAGGAGGCATCATACTTTTATGAAAATCTGTTAACTGATCATAAATGATATCTATAGCATTTCTAACATTATCATCCAATAAGGATGCTTGAGATTTGATTTCGTCTTGATTAGCCTTAATATCCGATAATAGATAATTATCGAATTTAGCTGTATAATCAATAATTGCTTTATCTCCCTCTTCTTTAACTTTTGCAATTATGTCCCTTACTTTATCTAATACAGAAATAAACGATATGGGTCTGTCTTTAGGTAATATATACTCTATCATATCCTAACATCAACTCCTTTAGATTTTAAATAAGTCTTAAGCTCTGATATCTTTATTACACCATCATGAAATATACCTGCGGCCAATGCAGCATCAGCATTAGAATAATTAAATACGTCATAGAAATCTTCTAATTTGCCTGCTCCTCCACTAGCTATAACCGGTATATTTACTGAATCTACTATTAATTTAGTAAGATCTAAATCATATCCTTTTCTAGTACCGTCTTGGTCTATGCTTGTAAGTAATATCTCTCCTGCACCTAGTCTTTCTATTTCTTTAGCCCATGTTTGGACATTAATTCCAGTATTGTAGGTACCAGATTTTGTATAAACAAGCCATGAACTATTGATTTTTTTTGCGTCTATTGCCACAACTATGGCTTGCGCACCAAATTCATTAGATCCTTGAGTAATTAGGAGTTTATTTTCAACTGCTGCTGTATTTATACTAACTTTATCTGCACCAGATGATAAAGTTCTTGAGATATCTTCTATTGATCTAATACCGCCACCTACTGTCAATGGTATAGATAACACGCTAGCAGTGTCTCTAACTACTTTCAATAGTGTAGTTCTGCCTTCTATAGTAGCTGAAATATCAAGAAATACTATCTCGTCTGCTCCTTCATCCTCATATCTAGATGCTAACTCTACTGGATCGCCTTTATTCTTTAGATTTAGAAAATTAGTACCTTTTACGACTTTTCCGTTCTTTACATCAAGACAAGCTATGATGCGTTTTGTAGTCATAGTATTCCCTTAGTACTATTTGTTCCACTGTACACAATTCTAGTTGCTTCATATAAAGAAATTCCTAATGCCTTAAATGAAGCTTCTATTATATGGTGATCATTTTCACCTTTAATTTGCATCAAATGCAAAGTAATGCCAGCATTTTGAGCTAAAGAACCAAAGAAATGACTTACATTTTCAGTCGAGAATCCACCTATTTGTTCTCTTTTCAGTTTTAAATCTACATATGATGATCCTCTACTAGAAATGTCTATTGCAATCATTACTAACGCCTCATCCATGGGAATTATGTTACTACTAAATCTCTTTATACCATCCTTATTGCCTAGAGCCTCTTTTACAGCAAGACCTAATGTTATTGCCGTATCTTCTATTACATGGTGATCGTCATAGTTTTGTTTGTCTTCAGCTATTATTTTTCCAGAAGATCGCATGAAAAATAGCAAAGTATTTAACATATGATTAAAGAAAGGAACAGGAGTTTTTATTTCAATGTTGCCAGGATTATCTATATCTAATTCGAGTTCAATTCTAGTCTCCTTCGTTTCTCTTAAAATCCTTGAATATCTAGACATATTTAATACCTCTTAATATGCCAGAATAAAAAGACATACCTACTATTGCAAAATCAAAACCTAATTCTTTAAGGTCTGTTAGATCTTTAATATTGCCTATGCCCCCTGCATAACCTTTCATATTATGAAGGTCTAAAATATATTTGCCTAAAGTCTTATCAATTCCGCTTTTAGTTCCTTCATTGCATATGTTGGTAAATATAGTTCCGTAAGTATCTTTAATTGTATCTATTCCTTCATTTAAAGAAATGGACTTTTCTTTCCATCCTTTTATATAAATTATGTTATTACAATAATCTAAGGATGATATTATTTTATCACGTCCTACTTCCTTTATAATTTGATCAAAAAGAGTCTTATCTGTGAAAATTATAGTAGATACAACTAAAAACGAAATACCATAACTTATAAGCCTTTTAGCTTTATTTAAATCTCTTATTCCTCCACCTACCTCTACATTGTCAAATCCAATTTTCACTATATTTCTTATTATATCCTCATTTGAACCTACGCCTTCTGCAGCGTCTAAATCTACTATATGCACATAATTATATCCATCGCTGTATATCCTATAAGCTATATCTAACGGATTACCTAATATAAGACCAGATCCTCTTTTTCCCCTAATTCTTTTTACGACTTTTCCTTCGCTAATGTCTATGCTAGGTACTACTATCATCTTATCACTTTTTCTATTCCTAATATAACTATATCCTTAGCACCTGCAATCATTGCCTTAGCTACTATTTCTGGCAAACAGTCTTCATTAACCACTGTAATAACTTCCCATGCATCGCTTTTGCTAAGTTTACTTATAGCTGGAGCAAGCATGGCAGGCAAAGACGCAAGGACTTTTTCTAAATCTTTATCCTTAACATTCATGAATATCATTTTTTTACCTCTAGCGCTTAATGCTCCTTTCATCATTGTTAACACTAAGTTAATCTTGTCCGCTTCTTCACTTTTCAGCCAATATCTATTTCCTATAATAGTAGCATATGTTTCCATTACAGTATCAATTTCCTTTAGGCCATGCAATTTTAAGGTAGTACCAGTGCTTACGACGTCTATTATTGCATCAGCGGCACCCAGAGAAGGCATTACTTCTGCCGCACCACTTATTTTCACTATCTTAGCATTAATATTTTTCCTTGTAATATATTCCCTAGCAATATTATAATACTTTGTAGCTATTTTTATCTCTCTTTTTAACTCACTTACATCACTAATGTTCCAGCTAAGTGGGACAGCTAGAGATATTTTCGCCTTACCAAAATCTAATCTTATTAGATCCTCTACATCTGCCCTAGATTCTATAACATAATCCATTCCAGTTATACCTATATCTGCAGCCCCATTTTCAACTAGATTAGGTATATCTTCAGTTCGCATTAGAACTAATTGTACTCCTTCCCAACTAGTAGGAACTATTAGCGATCTTTCGTCAGTAGCTAGTGGTTTGATTCCTACAGAAGATAAAAACTGTAATGAAGGCTGCTGTAATCTACCTTTATTTGGTATTGCTATTTTCAATTATCTCACCCAATTTCTGTGTAAAAATGGTACATTGCTCTAATGTGCCAACAGTAACTCTATAATAACTACTAATTGGCCTTCTAATAGCTATTCCTTTACTTAATAGAGGATGAATAAGATCTCCATCGTATTTAAAGAAAAGAAAGTTAGTTAGTGATTTATAAACCTTCAGACCCAATTTCTTTATAGACTCATAAAGAAAATCTCTATTCTTCTTTATTTCATTTGCTATATTAAATGCATAGCTTGGGTTTTCTAACGCAGAAATACCAGCTACTAATGAAGGTAATGGGATATCAAAAGGTGTAGTAGCCTTAGTTAAGGCTTTTATAACTTCTTTGTCAGCTATTAGATAACCAACTCTAAACGAGGCTAATGAAAACGCCTTACTTAATGTCCTTACAATTGCAACATTCTTATATTTGCTAATAAAATCCTTCACTGTATAGCCAGAGAATTCATAATATGCTTCGTCTATTATTAATAACCCGTTAATCTTTTCGGCTATGTTAGATATTATATCCTCTTTGGCCTTTAACATAGGAGATCCAGTAGGATTATTTGGATCGTCTATTATTACAAGTCTAGCATTTGAAATTTTATTATATAATAAATCTAAATCCTCTTTCCACCAATCGCCGTCCTCTTTAAGATTTATTTTAATAACATTCAAACCTCTAACTGAAGAATATACTGGATACATGCTATACGAAGGAAAGTTGTATACTACCGTATCGCCTGGCTGCGTTAAATTATAGAAAATAGTCCTTAATGCTCCGTCTCCTCCTGGAGTAGGCAGGATATTCTCAGGTTCTACTTTACTATATTCTGCAGCTAATTCTCTTAATCGAGCTATTAGGTCAGGATGTTGATATCTATTGCCTTTTGTTAAATATTTTTCTACATTTTCTATAATAAAGTCTGGAGGAGAATATGGCGATTCATTTAAGTGTAATCTTAAACCTTCTTTTATGTCGTCGTAATTATATTCTCCTGCATTTTCTAACCATGTATATAATATTTTTCTTAAATCGGTTGGTGCAATAATGAACCCTCAATATGAAAAGATGGCTAACTTTAAAAGCTTTTATTATAGGAAAATTCGTGTTTTTAGAGCGATTGCTAGATCTTAAAAGCATTATTATCTCTTATTATTATTCTATAAATCTAACAATAATTATGAATGTAGCTTCCTTATTAAGTAAACAGAGTAAAGATGTGTGTATTATAAACTATGATAAGATAAAGTGGGATTTTTATCCATACAATATAGATTTTTCACTAAACTGTAGTCCAAAGTCGGAAATAATAGTATTTGAAGCTGAAAATGAAAGAGAAATTCCTAAAAATTTTAGATTAGTAACTACATATAAGAATTTAAAAATAGATGGTACTAAAATAAAAATAGATAAGGTAGATATAAATTTATATAAATCTAGAATTGATGATGAAGAATATCTTTTTAGAGTAATAAATGGAAAGATAGAAGATTATGAAATAAGAGACATTGATAAAGAAATATTGAATATAATAACTAGTTTAGGGAATCCATGCAATTTAACAGATGTAATAAACATTTCACAGAAAAAACTTAATTTACCAAGAGACAAAATTAGAGAAGAATTACAATTCCTTATTCAGATAGGTAAAATAAAAATACATAATAAAATTATTGAATTAATATAGCAGGTCTTAATGGTAATGCGTCTTTATTATATTTTTGTCTTATTTCGTCGTTAAATTTCTCTATATTTATCTTCAATCCTATCTTATATTCTAGATATGGCAGAGCATCTTTTATAATATCGAATTCAGAGAAATCATATTGTAATAATCTTTTCATATTTTCTTGCATATTATTTGCATATTGGAAAATTTTTTGTAAATTCTTTGCATCATCTTTATTTTTTGGTCTATATATTTCCATTAGATTTTTTAATGAACCGCCTTGGGAAATTATTTCTATTGATTTCCTTAATTTATCTAGGCTTTCTTGATCAGAAGTGTAGATAGTAATAGAGCTTGGTTTTCCTTTGTAAATGTTTAATATAGATCTTATGTCCTCTATTAATTCTTCATGATATTCATGTTCTAACTCTATGAAAGTATCTATTTTTGTCTCATCATAAGTAGGCCATTTCTCTATAGAGACAAATGAATTATTACCCATAATATTCCATACTTCTTCTGCAAGATGTGGTGCAAACGGCGTTAAGAGCTTCGTCCATTTTAATGCTATTTCTTTAACAATGCTAGCGTTAGGTTCTCTACCTTCTGCTTTTACCATCTCAAAGTATTCATTGAATGTCGAAATCATTTCAAAAAGTACTTTATTTAATGAATCTCTAAGTATTAGCTGATCCATTAAAGAAGTAACGTCTTTAATTAGAACATTAAATTTTGATAACAACCATTTTTCTGGCTTTCCTAAAACATTTCCGTTATATGTTGTGGTACATATATCATAGTATCTTCTCAACGCATCTGAAATAGATCTAGCTCCAGCGTCAGTAAAATTAGCGTCTGATCCCATATCTACAGTACAGGATAAGGCAATCCTAATAACATCTGCACCATACATCCTTATAGCTTTCCTTAATGGCAATATATTCCTCAGAGACTTGCTCATTTTCTTTCCTTCATATAATATAAATCCATTTATTGCAACTCCTCTTGGCCATAATTCCTCAGGAAATATCGCAGCGTGATTAAATAGAAAGAAAGATAGGTGATTTGGTATCAAATCTGGTCCGCTATGTCTTATGTCTAATGGATACCAATAGCTGAATTCACTTCGTAAGTCTTCTATTATTTTTCTATCTATTCCAGTTTCTTTTGAAATTAGATCTACGTCTCCTTTTCCTAACATTACATAATCCCAAAACTCTTTAGTTAACTGAGAAGCATGAAGCTTATTTAACCTGATTTTATGAGATATAGTATAATATGCCATATATATTGTAGAATCAGATAGACTTTCGATTATCCATTTCTTGTCCCATGGCAATGGAGTACCTAAACCTCTTGTTCTGGCGCACGCTCTTTTTTCTAACCAATCAATAGAATATTCGAAATCCTTTCTTACCTCTGGTGGAATCACTCTCATTCTACTTAAGAGTTTTTTAGTTTTATTTTTCCATTCTGGGTTTCCGTAATCTAAAAACCATTGATCTTTTAGGATTTTTACTACTACTTCATTGCCGCATCTACAGTAAACGGGTTTATTCATTATTTCATAAATATATCTTCCAAATCCTTTCTGTATTATGAAGTTAGTTATTATTTTTCTAGCTTCAGGGACACTAGCACCTATTATATTCTTTAACTCTTCTCTAAATTCTGGTTTTATTAAATTAATTACATCGTCTCTAATTTTTCCCTTGTTATATTCAGTTCTATATACCATTTCGGTTACTTTCTTTAAATCTGAATCATTTTTCGGTTTTTCTTTATCTATGAAATCCTTGGCTGGAATATCAGAATATCCGTCTACTTTTACTACTGGAATAGGTTCTATATCAGATTTTATTTTTCTTAAGTAAAAATAATCAAAAGGAGCATGAGCTGGAACACTCATTACTACACCAGTTGCTAATGATGGATCTACAAAATCTGCTGCTAATATAGGAACTTCTTTTCCGTTTATAGGATTTATAGCTTTTAGTTTCTGTAAGTCTTCTGCAGATATCTTATCCTCTTCTTTCAGATCTAATTGAAATGATAGCTTAAAAGCTGCTTTTTTCGACACTATCAATTTTTTCTCATTAATATCCACAATAGAATAATCCTCTTTTGGATTTATCCAGATAGCTACTACGCCAAAGATAGTCTCTGGTCTTAACGTAGCTACTGGTAAATATCCTTTAGGTGTTTCAAAGTAAATTAAAACATATTGTCCTATGTCCGGTTCCATGTCCCCTTTAGTATCGTGCATACCTACTGGTAAATTGTGTACTGGACACCAACCTACTGGATGCGTATCTTTAACAATATATCCCATTGATTGTAATTTTCCGAATTGCCATACAATAAATGAGGAAAATTCTGGATCAATAGTAGTAAATTCTCTTCTCCAATCTATACTTAAGCCTAGCTCTTTCATAGATTTTTTAATCTCTTCTTTAAAATAATTCGCCATAAATAAGGGATCAGATAATTTTGGTATAACTTCAGAAGGAATTTCATAAATATTCTTGAAAATATCTAATAATTCCTTATCCCCTTTAGCCACATCGTCTGCCATAGTAATTATTGGTGTCCCTGTATAGTGAAAACCCATAGGGAAAAGTACATTATATCCTTTCATTCTCATATATCTAGCATAAATATCGCAAGTAGTATACGTTCGTCCATGACCTAAATGAAAAGGACTATTAGGATAAGGAAACGCTACTGTGCTATAAAATTTTGATCTATTATCTGGATTAGATTCAAATATTTTACTCTCTTCCCATTTTTTTTGCCATTTTTCAGATACCTTATTAAGCAAAACTACAAAGTCTTGAGACATAAGCACACCAAAATTTATTTAAGTGTGACATTTTTAAGCTTATTAAATGTTTACAAAGACTGGAGATAAAGGAGAAACTAACGTAATAAATAAACGCGTAGGGAAAGATTCCCCGTTAGTTAATTTTCTAGGAGATTTAGACGAAGCTAACTCATTCATAGGGTTGGCAATAAGTAAAATACCATGGGATGATATGAAAAAAGACCTTTTAAGAGTCCAACATGATCTTTTTGTCCTTGGAGAAGATGCCTCAACTAATAATGGAAAAGTAACACAAGATTTTGTTAAATGGTTAGAAGAAAGAACCGTATATTATAGAAAAGAAAGCGGCCCGATAAAATTATTCGTAATTCCAGGAGGATCTGAGGAAGCATCTCATATCCATGTAGCAAGGTCAGTTGTGAGAAGGATAGAAAGAAATTCTGTTAAATACTCAAAGGAATTAGAATTTAATAAATGGATCATAGTATACTTAAATAGGCTTTCTTCTCTTTTATTTTCCATGGCAGTAGTAGCTAATAAACGAAAGGAAGTAAAGGAAGAGAATTACGACATAGGCAAATATTGGTGATTCAGTAATCCAGATTTTATTAATAATTCACAATTTTTACACACATCTCTACCATAACTTGTTGGTTCTCCACATATTTTACACTTAGGAAGATCTTTTAACTCACTATTTCTCTTGTATTCTTCAGATATTTTGTCAAATTCCTCAACTATGGTTAGTAAACTACCAGGCTTTTTTGACTCTAATGAGTATAATAAATCTCTAACCTTTGCTCTTAATGTAGGTTTCATAGAAATATAAGGACATTCCACTTCCTGAAATTCAAATCCTTTATAATATGCATACATAGTAGTCTCCCATTCATATATTTTCCTTAAAGGCTTAACTCTTAATACAAATTTATCACTTAATTTTACCGGTATTTCTCCTAATCTTATTAATCTTTTTATATCTCCTCTTAATAAATTTATTACAATTGTCTGAGCTTCATCGTCTAGATTATGACCAGTGGCCACTAAATCAGCTTTTACTTCCCTTCCTGCAGCATTTATTAGTTTCCTTCTAAAACCACCACAAAAAGTGCATGCAGAAATATTTAGACCTTTATCATGAGAAGATCTTACCATATCGTCTAATGTGAAGCCTACTTCCTTTTTAAAAGACGTAGAGATTAGTTCTATACCTAGGTCATCTAGGTATTTTTTGAGTTTTTTTGCTTGATCCGATCTGTTATATCCTCCTATACCTTCTACAATATTAAACGATATAAGCTTCTTAGGATCTATAAAAGAAGCCAAAGTATCTGCTAACGTCAGACTATCTTTACCTCCGGAAACTGCTAATAGAATCTTATTAGCTTTAGTAAGACCTTCCTTTTCTGCCTCCTTTTTTACTCTATTCCGAATATCGTCTATAAAACAATCCTTGCATAATCTTCTGCCAGTATGAGGCTGTAATATTACAGCGTCTTTAGATTTACATACGTCGCATTTCACTTTACTCTTCTCCCCTCTACTATTTTGTTTCCTCCTGCAACCTCATCGATACTATGTATCGCGCAACCCTCCTCTTCCAATACTTTTCTTATTTCGTCAAAGTCAATATTATCTCCTTCAACAACTACACTTAATCCCATAGTTTCTACATCCATATCAGTAACCGTTATATTAACTCCATCTATGCCCTTAATAATAGTTAGTTTATCTGCTAGATCTATAATGGTAGAACCTTTAATCGGTTTAAGAACGTCAAGAACTACACGTCTAATTCCCAAATTACATCAGATCTAATTATTACTTATAACGTTAAAAACTTAATTTTATGCCAGGTCGTAAAGCTATTATCCGTGAACTACTGACCCTTATTTTAGTAGTTATAAAGAATTTTGAATCTAACTACTAAACATAAAAATTTTCTAGAAAATACTAGAATTTAGGCTAAAACTAATAATTGCAACTTTTATCAGATTTAGGGATTCAAAGGGGGCGGAAGACTCCATCCGTGGAGATAGATAGGCCCCTCTGTAATTAGGCTTATATACGTATTTTTCAAATACCCTATTAATGTCCGACGTAGGGTTACGCTTTAGAGCATACACTGACGAAGGAACATTGAGGGCGTTAAAAGCCCAGTTGAGGTTATCATGTGAAGCATATAATACCATACGCTGGACAGATGCGTATTTTCATGAGAGAGATGGAAAAGGACTCACTAAGACGGAGTTGAGGCAACTAGCTCTCGATCTGAGAAAACAGGATGAACAGTATCAACAGCTATATTCCCAAACACTGCAACAGATCGCAGACAGATTCTACGACGCTAGACAGAGGTTCTTTGAAGGGATAGCACGTTACCCAAAAGAAAGCACATAAGTGGTACTCCCTAGTGTATCCCCAGTCAAGTTGGAAAATCATGAAAGTGAAGGAGATCAGGACGAAAAGCAAGAAGAACAAGAAGAAGGTAATAACGCTTCAGCTGTCAAACCTAGGGATCTTCAACGTTATTGTTCATAGGGACTTCCCGCTGGAAAAAGTAAAGAGGGTAGTAATCAAGTTAACACCATCAGGGAGATTGTACATCATCTTCGTTGTGGATCAAGAGTATCCTCAACTCCTTAAGACAAACAAAGTAGTTGCTGTGGACGTTGGTGTAGAGAAACTTCTCACTACCTCTGACGGGGAATATGTCCCCAACCAGAGACCTTACGAGAAGGCGCTCAATAAGACAAGGAGACTTCATAAAGCTCTTTCAAGGAAGAAGTTCTTGTCACGCAACTGGTTTAAGGCAAAGATTCGTCTAGCGAGGGCTTATGAGCACTTGAAGAATCTTAGGAAGGACATGTACATGAAACTCGGGAAGTATTTTGCTGAGCATTATGACGTCTTGGTCATGGAGGATATTCATGTTAAGCAAATTGTTGGTAAGTCTCTTCGAAGGCTGAGGATGAGGCTTCAAGATGTCGCTTTTCATGAGCTTAGGAGTATCATGGAGTATCAACTTGGGAAGTACGGTAAGAAACTCACTCTAGTGAATCCTGATTTTACTTCAATGACTTGTGCTAGGTGTGGACATGTTAGGAGGGATTTGACTTTGGCTGATCGTGTGTTTGTCCTAATTGTGGTTGGACTGTTGATCGTGACTATAATGCTTCCCTCAACATACTGAAGAGATCGGGGTCGGAACGACCCTCACTGTGGAGCTCCGCCCTCTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGTCCGTTAGGGCGTGGTAGGCTCCACATGCTTTGCCTCTAACATGGCTAGGCGATGGCTTGAAGAGCCGAAGGAACTACTTGATTGGGGTCAACTTGAGGGCCTTCACCACCTCCTCTCCTATACCTAGTCTTCTTAGTCTCACTCTTGTAAAGCTTGTCTTCATGTTTAAGAGTGTTGTTCGTGAAAATCGCCGTAGGAGTTCACATATTAGAATTTATAACAGTTAATATACGATTAAAAGCTAACTATAGGTTTGTAAAAAACGCTATAGATACTTTTATTTTAGGTTAAATTTAAATACAATTATTAAAAGGGGGTATATAAAGGGGGGTTAACTGTGATGGGGGTTAATTTAAGTTACGAACCAAAGGTTGTGGGAAAGCAAGTTTATGGAAGTCTCTATGATTGCGACGAAGATATGTTAAAGGATGTTGATAAGCTAAGAGAAATAGCTATAGAGGCTGCTAAAGAGGGAAAAATGACCTTGCTTGATGTTAAAGCATGGAAAATAGGGGAGGGAGTGAGCGTGGTTGCCATAGTCCTAGAGAGTCATATAACTATACATACTTGGCCTGAGTATAAGTTTGCTACAGTAGATGTATATTCATGCGGTTCCCATACAGATCCTAGAAAAGCGTTTGAATTCATAGCTATAAAGCTTGGTGCTAAAAGATATACAATGAAAGAGGCTGATAGATCATCGGACTTTTAATTATAGGAGGAGGAATAGCTGGTCTTTTAGCTGGGTACAAATTTAGGGATTACAATCCTTTAATTTTTGATAGGAGAAGAACACCAGGGAAGAAGTGTACTGGCATTATAAGTTACTCTACTTTTCTTAATTTAGGCGTATCTAAAGAATTCGTAGATAGATATTTCAAAGATATAGAAATTATTATAAATAATAAATATCACGTTTATATAAAAACAAATGTTCTAAGACTAAATAGAGAAAAGCTTGAAATCTGGTTATCTAACGAATTGACAGTTAAACGCCCAGTAAATGCTTCTATTAACGGGAATATTGTATACTACAATAATGAAAAATTTACTGGAGATATAATTGACGCATCTGGCTGGAAAGGAAAGGCTAAGTGGATAAGAGCAATAGAGTACGAGTTATCTCCAATAAATGAAGAAAAGATAACTGTATACATTGATAATAATAATCCAGGAGGATTCTCGTGGATAGTACCGTTACCAGAAAAAACATTGGTAGGTAGTATAAGTTATTCAGATCCTTTAAGATATATACCTAAGGTTAACTCTAAGGTATTAGGAATACATGGAGGAGCTATACCTAGGGTAAAACCGAAATTTTCTAAGAACGCCATAGGCGATTCTACTGGGTTAATAAAAACTTTTACTGGAGGAGGTATATTTGGAATTTCAGAAATACTTCAAGTTCTTCTAACTGATAAATATGATGAGAAATTTAAGAAATTATCTAAGGAAGTTAGTAAACAATATCATCTTACAAGCTTATTAGAAAAGTCTTGGAGAATATCTCTAAATATGGGCCTATTTTATAATGAAAAAACCATTTATGCAGATAAGGAATTTGATTTTCATTCACTTCTTTTCAGATTCTCTAACTAAATTATAGCATCCTTCTCCTTTGTCAATTATTCCCATTTCTAATAATTTTGCTATTATTTTTTCTGGTTCTTTTATCCCTAATCCTTTTAGATCTCTAACAGCAGCTATTTCTCCTACGGAAACATTGGTTTTAAAATATTTTATTGCAACCTCTAAATCTCTTTCCATCTTTAAGTTTATTTACTTCTAATCATTTAACGCTATCGTGAATCCATATCTTAAACTGATAAGAATCCATAACGTTATAGGGGCAGCAATAGGTGATTTTACAGGGTATGTAGTAGCATCAGAATGGAGAATATTACCGTTAAAGTTGCTAATTTCAATCTTGGTAGTTTCATTAGTAGCTGCTGGAGGTTACGCAATAAACGACGTATATGATATAGAAATAGACAAAATAAATAAACCAGATAGACCATTACCATCTGGGAGAATTACCCTAAGAAACGCCGTATTCTTATCATATGCTACAATGATTCTAGGAATATTACTTTCTGTATTTTTAGGTTATATACAAATATTCGTAGCTTTCATAACTTCATTATTACTCTATTTGTATGCAAAATCGTTAAAAAGAACTGGCCTTACGGGAAATTTCGTAGTAGCATTAACTACTGGTCTTTCGATATTTTATGGAGGTCTGGCATATTTTAAGGGAAACTGGTTAGAGATGGTGTTAATACCAACTATATACTCATTCTTCTTAACATTAACTAGAGAAATAGTGAAAGGTATAGAAGATTATGAAGGAGATAAAAAATATAGTGTCAGAACTCTAGCTACTACAATAGGAATATCAAAATCTTGGAATATAGCTAAAATTATGCTAATTATTGTGCTAATCTCTTCACCAATTCCTTTCTTTTTAGGTTTTAATTTAATTTATTTGGTTCTATTAATTCCATTTTCTTATTTTACATTACTAACCATAATTCAAAACAAGAGTATAGAAGGAGGGGCAAAAGCTAGAGCACTACTAAAAGGATCCGCTTTTGTCGGAATGCTAGCTTTTGCCCTAGGGACATTACCTCTCAATTTCCTTATCAATCACTTTCCTTAAGCCTGCTTTAACACCTACAACCCTTATATTAAGATTTCCTTTCTTCTGTAATAAAGAGCTCATAGGTATTTCATATCTTATTATACTCTTTGTTTTTACATTCTCAAATGTTTTAAAATGTACCGTTACTCCATTTAACATAATGTTTACCAGTAACTTATCTAAATCTATTTCGCCGCAGTTTTCTATGTTTAACAAAATTCCCTTATCAATTACTTTTCCATCTACAGAAATATCTATTTTAGGACTCTCTGTTTTAGCAGTATAATGAAGATATATAAAAGCAGGACATTTTACTTGTCCTTCATGAATTATATCTATTTCCTTATTTTCGTTTATTTCTATTTCTTCGCTATTTTTATTATCACCTATCTCGCTTAGTAATGTACCATCGCCGTAAATCTTTAATACTGATTTATTAGGATTTTTCAAAATAATATAGCTTTTATGAAAATTTTTTAGCATTAGTCTCTCTGAAGATTTTAGCATTAGAATTCCTGCCTTAGTAGAGAATTTTGTATAAAAATTTGATATATTATAAAAAATTAAACTATTAATAAAATTAACTGTTATTGGCTCTACTGTAACTGAATTAATTACAAATTCATTTTTACCTTTCTTAACAAAATGCGATATATCAAATACATGAATATTGAAATATTTCGAGTTATATTCAAGGTTTATATTAGGTCTAAATTCCTTCGTTAAAGAGAAATTATTTATCCAGAGTCGCCATTTAGTTAATAAATTAGGTGTTTCAGTTCCTATTATCATATAGCTTTTATAAGGCTCTTTTTCTGCAAAGAAATTGTAGGAAATCTCTTTATTGTCCATTCCTAATTTTATAGACTTTAGTGAGGACGAATAGTCTATTGTACCTTGGAAATCGCCCTCGTCAAAAGTTGCTAGTTCACCAATTGGCATATATTATAAACCGATACAAAGAAAATAAAATGAATGCTAGGAAAAATCTATTCTATAATCAAGAGATCGGATCTAGTAATAGAAGTATTAGATGCTAGAGAACCAGATTTAACTAGATCAAAATCGCTAGAAAATTATGCTAGAGATCTAAATAAAAAGATTTTAATAGTAATAAACAAGGGGGACTTGGTTCCTAAAGATATTTCAGAAAAATGGAAAAAATATTTTGAATCTAAAGGATTGAGAGCTATATATATAGCGGCAACACAGCACATGGGCACTAAAATTTTACGAGATAGCATAAGAGAGTTACTTAAGGGAAGTCAAGGAACAGTATGCTTTATAGGTTATCCTAAGACTGGAAAATCATCTATAATCAATGCATTAAAAGGAAGGCATTCAGCTACAACATCATCCCACCCAATGGAAAAAGGCTTTACTAAAAATCCACAACTATTTAAAATAGACAGTAAAATATATGCATGGGACACTCCAGGTATAATTCCGCCTGACGGCAATTATCTTGAAAAAGTAATAAGAGGAAGCTCAGTAGATGAGTTAGAAGATCCAGTAAAGGCAGCAATAATGCTTATAAAAAGAATAGAGCAGTTTGATAAATCTTCTTTAGAAAATGTATATGGAGCATATTCTGATCCAAACGATTTACTGAGAAAAATAGCCATGAAGCGCGGTTGGATCTATAAAAAAGATAAAGAACCAATAATAGACGAAGCTGCTAAGGTAATAATAAGAGATTTTCACGATGGCAAAATAATTTATTTCAGTCTTCCTCCAAAAACTAATGATGAAAATAAAAGTAGTAATATTTGATGCAGACAAAACTTTATGGGATCATTACAATATTTCCGAATTTGAGGAGCCTATAAAAATCATAAATAGAGACGAAATTGAGGATATAAAGGGAAGAAAACTAAAAGTTTTTCCTGAAGTAAGATCTACATTAGAGGAGCTAAAGAGAAATAATCTAATACTAGGAATGGCTACATGGAATTATCCTGAAAAGACCGAAAGAATGCTAGGAATATTAAACTTAAGAAGATATTTTGATGTAATTGTATCAAGAGACTTTCCTTTTAAATTCATAATGATATCTGAAATAATTAATGAATTGAAGAATAGAGGAATATCAGTAAAACCAGAGAATATAATGTTTATAGATGATAGACGTGTACATTTTGGAAATGTTTGGCTATACTTAGGAAAAGTGAAATGTGTTGAAATGTGGAAAGACATTTCTTGCCACAGTCAAATTTTAAAGTTATTGGAATTGAACAGTTAGATATTTTGAAAAGCTTATTTCGATTAAAAGTTTTAAAAATTCACTCTTAGAAATGTACAAATCTATAATAAAGCTTAAAAATCATTAATGATACTTTATTGAAGTGACAAAGATGATGGGTGGCTATACCCTCCAAATTCAATAAAGTATCTAAAAGTATTCTTAAGGTATTTCCATATATATTTGAATGTGTATTCTTTAGGGGTGAGAAGTTTTGCCAAATGGTAGCAGAATATTAGTGGATTCTCTAAAAAGAGAAGGGGTAAAGGTAATCTTCGGAATACCTGGCCTATATAACATGCCATTTTACGACGAATTATACTATGACTTAGAAAATGGGGAAATGAGACATGTGCTAATGAGACATGAACAAGCTGCAGCGCATGCTGCTGATGGCTTTGCTAGAGCATCTGGATTTCCCGGTGTATGCACTGCGACTTCCGGTCCAGGAGCTACAAATTTAGTTACTGGTGTTCTGACAGCATACTGGGATAGCTCTCCTATAATAGCATTAACGGGTCAAGTAAATAGATCATCAATAGGAAAAATGGCTTTCCAAGAATCAGATACTCCTGGAATATTTAAGGATGTATCCAAATATGTTGTTCAATTGAAGACTATCGATGAGATACCAATATGGATAAAGAATTCATTCTACATTGCGACAACTGGTAGACCTGGCCCAGTAGTAGTGGATATTCCTAGAGATGTTCAATTAGAAAAGATTGAAAACGTAGAATGGCCAGAAAAACCGATAGTAAAAGGTTACAAGCCATTTAGAACTGTTATTGATCCATTAAAAATAAAGAAAGCAGCAGAACTTTTGCTAAATGCTGAAAAGCCAATAATATTATCTGGAACTGGAGTAGTATGGTCAGGAGCTACTGAGGAAGTATTACATCTAGCCGAAACAGTAGGATCTCCAATAATATCTACGCTTCCTGGTAAATCCAGTATACCGCATGATTATCCATTATTCGTAGGACCAATGGGATACTACGGAAGAGCAGAAGCTTCAATGGCAGCTTTAGAATCAGACGTAATGCTAATAGTTGGAGCTAGATTAAGCGATAGAACTTTTACATCTTACGACGAAATGACGGAGACTAAAAAGAAATTTATAATGATAAATATAGATCCTACTGATTCTGAAAGAGCTTTCAAAGTAGATGTGGCATTGTACGGTGATGCAAAAATATTGCTAAGAGAATTATTAAACGCTGTAATAAAATTGGGATTAAAGAAAGATAGAACTGCATGGTTAAATAGAATCAAAGAATTAAAAGAGTATTATTCTCAATTTTACTTCCAAGACGAAAAAGGAAAAATGAAACCATGGAAAATAATGAAAACTATAAGAAATGCTATACCTAGGGATTCCATAGTAACTACTGGAGTAGGACAGCACCAAATGTGGGCAGAAGTATTCTGGGAATCACTTGAACCTAGAACTTTCTTGTCTTCTACAGGAATGGGACAATGGGATTTGGACTTCCAGCAGCCATGGGTGCTAAGATAGCTAGACCAGATAAGGTTGTAGTAGATCTAGACGGAGATGGATCATTTATGATGACAGGAAATAATTTGGCCACTGCAGTAGACGAACATATACCAATTATTTCAGTAATATTTGATAATAGAACATTAGGATTAGTTAGACAAGTTCAAGATTTGTTCCAAAATAAGAGAATAGTAGGTGTAGATTACGGTTCATCTCCTAACTTAGTAAAATACGCAGAATCTTTCGGAGCGCTTGCGTTTAATGCAGACAGTTACGAAGAATTGGAAAAATCTGTAAAAACCGCAATTAAAGAGAACATGCCTACAGTAATAAGAGTACCTATAGATAAAGAAGAATTAGCTTTACCTACGTTACCCCCAGGAGGAAAATTGAGCCAGGTGATAGTTCGTGATCCAAGGAAAAGTACTTAAAATAACAGGATATTATAGAGATCCAGAATTACTAGAGAGAATAATGGCTAACTTTAGAAAACTATGGGTCGATATAGACTGGATAAATGCTAGAAAAGTTTCAGATGATGGTTTATATGAAATATTTATGCAAATCAAGGATACAAAGAATACGCAGCTTGCTATACTTAATTTAAGCAAGACAGTCGATATAGAAAAAGTAGAAGTACTTGAAGATGCAAAAGTAGTACAATACAAATTTAATGAAAAAGGGGAGATAGTTGATGGCAATAATTATAGCATGGTAATTTATGTACCCATTTATTCTAAAGTAACAAGTTATAGCTGGGGTGAAATAGTTGGCCAAAATATACACTGAAAAAGACGCAAATTTTGATATAATAAAAAATAAGAAAATAGCAATATTAGGCTATGGAAGTCAAGGCAGAGCATGGGCTTTAAATCTGAGAGATTCTGGATTAAATGTTACCGTGGGATTAGAAAGAGAAGGCAATTCGTGGAATCAGGCAAAAAAGGACGGGTTTAATCCAGTACATACTGAGGAAGCTGTAAAAAATGCCGATATAGTTATATTTCTTGTTCCTGATATGGTTCAAAGATATGTATATAGAGAAAAAGTGCAGCCATATTTGAAAGATGGAATGGATCTAGTCTTTGCACACGGCTTTAATATACATTACAAGCTTATAGAGCCTCCTAATAATGTAGATGTTTACATGATAGCACCTAAAGGACCCGGTCCTACAGTTAGAGAATATTTCGTTCATGGTGGAGGAGTTCCTGCATTAGTAGCTGTGCAACAAAATTATTCAGGCAAAGCAATGGAAAAAGCATTAGCAATAGCTAAAGGTATAGGTGCAACAAGACCAGGAGTAATTGAGACTACATTCAAAGAAGAAACAGAAACAGATCTAATTGGTGAACAAACAGATCTCGTTGGAGGAATAACAGAATTAATGAGAACTGCGTTTAACACATTAGTAGAAATGGGATATCAACCAGAAGTAGCTTATTTCGAGACTATAAACGAAATGAAGATGATCGTAGATATAATTCACGATAAAGGGTTCTATGGAATGCTTAAGGCAGTTTCAGATACTGCTAAATATGGAGGCATTACTGTGGGAAAATATGTTATAAATGAGGATGTTAAAAAGAGAGTAAGAGAAGCTGCAGAGAAAGTGAGAAGCGGAAAATTTGCTGAAGAGTGGATTGAAGAGTATAATAGAGGTAGCCCAATAGTAAAACAAGCAATGGAAGAAGTTCAAAATAGTCTTGAAGAGAAAATTGGTAATGAATTAAGAGACATGATAGAAAGAGGAAAACCTAAATCTTAATTCTTTACTATTTTAATTGTGAATAAAAGGAAAGTTAAAGGAAGTAGCGTAGAAAGACTAATTCTTTCTTTGTTAAGGGATAGAGGTTTTGCTGTTATTAGAGCACCAGCAAGCGGTAGTAAAAGAAAGGATTCTATACCAGATATTATAGCATTAAAATATGGTTATATCATGCTGATAGAAGTAAAAAGTAGAAGATCTGGAAAAGTCTATATTTCAAGAGAACAAGCAGAAGGTATATTGGAATTTAGTAGAAAAAGCGGAGGAGAATTATTTATAGGTGTAAAATTGCCAAAAATATTAAAATTCGTTCCATTTTCGAAGTTAAGAAAAACTGATGGAGGAAATTATGTTATTGACGATAATATACTAGAAGAAGGATATACCATAGATGCGCTAACAAGATATGTTGAATCTAAATTTAGTAAAACATTAGATTCATTCTTGTGATCCATTTTCACCATTATCTTCTAATCTTATTCTTATTTTAGCTCCAGTCTTCTTTTCTAATTTTCTTAATTTAGAATTTACTCTTCTATTGAACTTACTTATTTGTGATTTAGGTATATTTATTACATATTCACCGTTTTCGTATTTTACAGTAGCTCCTGGCATAGAGTCTAATACTGTTCTTTCAATTCTAGACTCTACATTATCCTTAGTTATCTTAGATACCGGAACTATCATAGCTTGTTCTCCAAATACATATATTTCATATTCTACCTTATCGTTAAGGAAGTCCTTTATTTCAACTACTGGTCTAGCCAGATCGGCCTCTTTCATTCCAGAAGGAACTTTCACAGACATCTCTAGGCTATACACCTTATCTACTGCTCCATTATTTATGAAAATAACTGTATCTAAAATACTTGGTATAGTACCTAAATCAGTTCTACTCAAGAACCTATGAATAGCATCTATTGGAGTAGTTGCATGGACTACACCAATCATACCTATACCTGCTAATCTAAGATCTATATAGAGCCTGAAATCTTCATCATTTCTCATTTCATCATATACTGTATAATCTGGTCTACTTAATAGTAATATATCATGCAATTCTCCTATTTCTGCATAATTTTTTGAATATTGTGTTATTTCTGGAGGTAAATGCATGTCTCTTGGAGACTCTATGGTCTTAACAACTTTCCCAAGCTTCATGTAATATTCAGATAAGGCTTGAGCAAAAGTTGTTTTACCCATACCTGGAGATCCTGCAATTAATATACCCTCTGCCCTATCTTCAAGTCTTTGAATTAATCTTTCATCCAAATTATACTCCTCTAATTTCTTTCTAGCTACAGGCTTTGTAATTGTAACTTCCCAACCATCGCTTAATGGGGGCCTAGTTATTACAATTCTATAGTTACCTAATTGAACAATTGTTGATCCTCTTCTTTCAATTTCTATAAAAGAACCTTTAACATATTTTATAGAATTTAATATTTCAGAGACTAGTCTCTTCAAGTAAGAAGCGTCAGTAATATCATTAGATAAAGTTACAAATTGCCAATTACCTGGCCTGCCTTTTTTAGCTTTAGGCAAAGTATCTTCTTTCAAGTGAACACTCATAGTATTTTCATCAAAAAATTTTTCAATACTTAGCTCTTCAATTGGTTTTTCAAGAAATATAGTTTCTACACCTATAAAATCACAGATTTTTTTCTGTATTTCGTCCGCAGTAACTATAACGCAGCCTTGATCTGCACAATATTGTCTTATCGCTTCATCAACGTTTCCTCCATAATTTTTACCTACTATTTCAAACGAAAATAAATACTGTTCTGATAAATCTTTTAATCTATTTACTTCATCTAATGCTAGTTCTCCAGTGACTAAGCCGTCTCTAGTCTCTTTTTCAAGCTCTTCTAATAATGATCTATGAATGAGAAAATTTCCATTAATAATATTCTTCTCTACATACTTAGAAATTCCATGAAGTAAAGCACTCTTATCTGGCAAAATATTTCTAACTGACAAAAGTTTGTTCCCCACTAACGATTAATGTATAAAAATGAAGATTAAAAAATTATTTCTTTATTATTGACAGAAAGTATTCATGAACAATAGTCGTTGAAGATAATTCCGGATGAAAAGTTGTTGCTAGCATATTGTCTTCCTGAACCATTACTTTGTTGTCTCCTAAACTAAGGAGTTCTTTAGCTTTTCCCCATGTTTTTGTAATAGCTGGAGCCCTAATAAAAACAACTTTGGCAGTTGAACCTCCTATAGTCGAAAAATCTAATGTAGTCTCAAAACTTTCTCGTTGTCTACCATAATAATTTCTTATAATTGTAGTATCCATAAGTCCTATTAGAGGCTGAGATTTCTTTCCAACTTTAGCATCACTTACTTCCTTTGCCAGCATTATTGCACCTGCACATGTACCTAATACTGGAAGTCCACTAGATATCTTATCTTTTAACGTATCTAAAACTCCAAGTTTCTGTGCCATTATACCTATTGTTGTGCTCTCTCCGCCAGGTAATATTATACCATCTACAACATTGAGCTCTGAAGGTTTTTTAACTGGAACTACATCGGCATTTAAATGTAACTTGTCTATGGCCAATTTAGTTTGGAGAGCATGCTCCTCAAAACTTCCTTGATAGGCTAATATACCTACTTTCATACTCCTCTCACTTGAAGTAATTCTTCTGGTTTTAGAGTTTTTATATCAATTCCCATCATTGATTTTTCTTCGGTTATCATTTTCTGAGCCTCTAGAACTATCTCTGGATATTCCCAATTTGCCGTAGCTAATACTACAGCTTTGGCTCTTTCAGAAGGATCTTGACTCTTAAATATTCCAGAACCTACGAAAATACCATCTGAACCTAACCACATCATTAATGCAGCATCTGCTGGCGTAGCTATTCCTCCAGCAGCAAAGTTAACTATAGGCAATCTTTGTAATTTTGTTACTAATTCGACTAATTGATAAGGAACTTGATATTCTCTTGCTTTCTTTACTCTATCTTCCTCTTCCATGCCCAAAAGATTTCGTATTTCACTATTCATTATTTTCATGTGCTTTATTGCCTCACTTACATTTCCTGTACCAGGCTCACCCTTAGTTCTTATCATAGACGCACCTTCATTAATTCTTCTCAAAGCTTCTCCTAGATTTCTTGCACCATTAACAAATGGCACCTTAAATTCCCACTTATTAATATGATGTTCTTCATCAGCAGGTGTTAATACTTCACTCTCGTCTATCATATCTACTCCAAGAGACTCAAGAATTTTAGCTTCGTAATAATGTCCTATTCTAACTTTTGCCATTACAGGAATAGTTATTGAATTCATTACATCTTCTATTATTTTAGGATCTGCCATTCTGGCTACTCCTCCAGATTTTCTAACATCATAAGGTAATTTATCCAGAACCATAACAGCTGTAGCTCCTGCGTCTTCAGCTATTTGAGCCTGATTTACATTAGTTACATCCATAACAACTCCGCCTTTTTGAAAAATTGGAAAAGCGTGCTTTACTCTTGCTGTCCCTTCCTTAGTTCCTGATACTGATCTTTCTAATTCTGGTACAAAAGTTAGTAATCCTTCATCCTTTATAATATCACGAAATTCAGATAACTTATAAAAGAACTCTTCTATTTCATTGAATGTTAATTCATACAGTCTCATAAAAAATGAGAATGAATCACAAGGTTAAAAATATATATTAATATACTGCTGGCCTAGACTTCCTTTCATTTTCTGCTCTTATTTTAACTATACCAAAGTGTATAGCACAATTTATACAGTAACATTTCCTCATTGCATATCTAGGTATTATAGCGCCTTTTTTCTCTAACTCAGAAGCTAATGTAGCATCTACTGGACTATACATTCTTGTAACGCATATTGCCTTATCTTCTGGAACTCTTGCCCCACAGTTGTCACATGTTATATATCCAACGTGACCTTTATCGCCTTTCCTTCTACCTCTGTTCTCCCTCTTCTTTGGCAAATCAACACCCTATAATTCTGACTCGTTTGTTTCTAATAAGTTTTTGCTATTCTCAAAACATTAGAAGCGGGTTTTTTACATATAACGCAACTATCATTGATTTTTTTACTCTCCAATGGAATTCCCTTTACTTTAGCATTAGTTAATTCTTCTATTTTCAATCCACAACTATTATCCCCACACCAAGGTAATTCTACAACTCCTCCTTTTTCTAAGATTTTGTTTGCGTCTTCTACAGTTTTCGCGTAAAATATTTTTTTGTTAAAAGATTCCCATGCTTTAGATTTAAGATTATTTTCAATATCTTCAAGCAATTTTCTAATCTCTGTAATTAGCTCACTTAACTTTACTGCTTTTGACTCTAATGTATCTCTTCTTTTAAGAGTTACAGAAGAATTTTGAACTTCTCTAAGACCTATTTCTACTCTAATAGGAACTCCCTTTATTTCCCAGATGTAGAACTTCTCTCCAGGAGTTTTTTCTGTGTCTTTATCTATATTAGCTCTTATTCCTGCAGATATAAGTTGTGATTTTACATTTTCACTATATTCTAAGATTTTATTAGTATCATCTGTGTTTTTGGAAGGAATAGGTATAATTATTACTTGTATTGGAGCTACTAAAGGAAATAGTACAGAACCTCTATCATCTCCATGCGAAGATATTAATGATGCTATAACCCTATCTGAAATACCATAACTAGTCTGGTGAGGATAGTCTAATGTTCCATCGGCCTTCTGTACCTTAAAATCGAAAGCCTTAGTAAAATGTTGGCCTAAATGATGTACAGTACCTATCTGTAAAGTTTTTCCATCTGGCATTATAGTATCAAATGCGTACGTCTTCACAGCACCAGGGAACTTATCCCATTCTGGTCTTTGTGAAATCAAATAAGGAATTCCTAAGATATCGAAAAATTTTTTATAGATCTCTATAGCCTCTTTAACTTGATTTTCAGCATCTTCAAAGGTTGAATGTATAGTATGTGCTTCTTTAAATGTTGTAACTTCCCTAAGTCTTATCATTGGTCTTGTAGCTTTAGTTTCGTATCTAAATATGCTTACAATCTGATAATATTTCTTAGGCAATTGTTTATAACTTTTTATCCATAGAGATTCCATGAATGTTATAGCAGCTTCAGAAGTAGGTCTTAATGATAATTTAACATCTAAATCTTCACTTCCGCCTTTAGTTACCCAATAGACTTCTTCTTCGAATCCTTTTATATGTTCTGATTCTTTTTTAAGAAGGCCTTCTGGAATTAACATAGGAAATAGTACTTCTTCATGACCAGTGTTATTAAGTAATTGTCTTATTATGTCTATTATGGCCTGTCTTAACTTGAATCCATAAGGAAGCCAGATTCCTACTCCTTTTAATGGATATCTTCCATAGTCATAAAATTCTCCTTCAGATATTACCCAATCAAACCATTCACTAAAATTATTGCTCCACTTTTCTCTTTTTATATTCATAGAAGAAGGAAAAATATTGGGGTTAAAAATTCTTTTTACCTTTTAAATCTTCGCGAATAGCATTAATAGACCAAATAATATCCCATAGACCGCTAATCCTTCTCCTATAATTACGAATATTAGCACAGTGCCGAACATATCACGTCTTTCTGTAAGTACTCCTATACCAGCCGCTGCTGCCATACCTACTGCTACACCTGCACCTACTACTGCTAGTCCTATTGCTAATCCTGCTCCTATATTTATTCCTTCAAATCCTTGTGCTGTAGATGCTGGAGTTACTGCTCCGACTAAAATACTAGAAAGTATTAGTGGTAAAATTGATAACAAAACGTATTTTCTCTCCATTTGAATCTCACCACCTATTTACTTTGATAAATCCTTTAAAGCCTTTCTCTTTATATCTTCTAGTTCTTTTTCCTTATTTTTCATTATGTTATTATATTCGTTTGTGAGTTGTTCTAGTATCTCTGCTTTTTTCTGATCTAATTTTATCTTTATTATGTCTATATATTTCTCAGCTTGCATTTTCTCTCTTCCTCTGCAATATTCTTCTTGTAATCTTAAGTCTTACGAAATCATCTCTTGATCTATCACTTAATATTCCTCTAATATATTTTATAGAACTTGTGTAAAATGGCAAAATAGAAGAATCTATAGCATTAATTAGACGCTGAGTTTTCATTAATTCGGAAGTTAAAGATCTTATTGTGGACTCAAGTTCTACTAGCTTAATAACCTTTATTAATGCATCTCTCATTTCATCATATGACTTTGAAAGATAAGGAGAAACTTCTATTTCGTTAAACGGTTTTTCTGGAATTGAGTTCTTATCTAGCTCTGTAACAGGTATCTTAACTCCGAAAATTACTTTAGTTGAACTCTTGACAATAAGTTTATCAGACTGAGAATTAGCAATATTTTGAACATTCGTTATACCCTCATCAACTACTGCTTGTAAAAATGAATTGTAAACTTCTTTTAGTGTAGAGTTAACTTCTTCATATAATTTTTCGTATTCTGTTGAATATGACCTAAGATATATAAGTAGAACTTCCCTTTTACTTTCTAATAACCTTTTTATAACTCTTACTAGCTTTAATTGATTCCTTAACTGTATAAGATTTATTTTAGTTGGTAATACTTTCTGTGAGCTCATTGTTTACCACGATATATTGGAAGATATTTCTTTATATATGAGGACTTTATATTAGTCAATTCGCTTTCAGGTAAAATCGAAAGAATATCCCAACCTATATCTAAAGTAGTTTCTATACTTCTATTTTCATTAACGCCTTGGCTAACAAATTTTCTTTCAAAAGCTTCCCCAAACAATAAATACTTTTTATCTATATCTGAAAGACTATCTTCGCCTATTATAGCTGCTAAACCTCTAGTATCAACTGCTTTAGCGTAAGCAGCAAATAACTGGTTCGCTACATCTTTATGATCTTCTCTAGTTTTTCCTTCGCCTATTCCATCTTTCATAAGCCTCGAAAGACTCATAAGTACGTTTATAGGAGGATAAATTCCCTTATTATATAATGTCCTATCTAATACAATCTGTCCTTCTGTTATATACCCAGTAAGGTCAGGTATCGGATGAGTCATATCATCATTTGGCATTGTAAGTATAGGCATTTGAGTTATTGATCCTTTCTTTCCTTTTACTTTTCCAGCTCTTTCATATATTGTTGCTAAATCAGTATACATATAGCCTGGATAACCTCCTCTTCCAGGTATTTCCTCCTTTGATGCGCTGATTTCTCTTAGAGCTTCACAATAGTTTGTCATATCAATTAAAATTGCTAATATATGCATATCCTTTTCAAAAGCAAGGTATTCAGCTAAAGTTAATGCAGTTCTAGGCGTTAGGATCTTTAACATAGAAGGTTCATTAGCTAGACTCATTATCATGGCCACTCTATTTATAGCTCCAGTCTCTTCAAAGAATTGCTTGAAATATAATGCTTCATCATATCTTATTCCAATAGCACCAAACACTACGGCAAAATTACTCTCTTCACCTCTTACTGTAGCTTGCTTAGCAATCTGTGCTGCTAATGCATTTGCTGGTAGGCCGCTTCCACTGTATATAGGTAATTTTTGACCTCTAATTAACGAATTTAATCCGTCTATAGCGGAAATTCCTGTCTGAACAAATTCTTCTGGATACTCTCTTACTGCTGGATTAATAGGAGAACCGTTTATATCCCTTTTTTCTCCAGAAATTACTGGAGGACCGTTATCTAAAGGATCTCCTAGTGGATTAAATATTCTACCTAACATTTCATCAGATATCTTTACTTCTAATCCTCTCCCAAGAAATCTTATTGTTGACCCTGATGGAGATATTCCTGTAGTACCTTCGAATATTTGAACTATAGCAGAACCCATTAAACTATCTACTACTATACCTCTTCTTTTCTCTCCGTTTTCCATCTCTACCTCTACTAGCTCGTTGTACGAGGCGTCTGTTACACCTTGAACTATTACTAGAGGACCTCTAATGCTAGAAATATTTGAATATTCTCTTACGTTTAACATGTTCTCCATATCAAGCACCTTGCTTAGATATTTGATCAAACTGGCTTTTTAATATATTCTCTAATTCATCGAACTTCTTCAGATCGTCGTTTTTAATAGTAGATTTAGCTCTTATTATATCCGAAACTACTGTTACTTTTTCCGATATTTGCTTTACTGATATTCCTTTTTCTACTAAAGCCTGAGCATATTGATTATAAGTATATATAAGTTTCATTATTCTGTCTTGTTTTTGAGGAGTCGAGAATGCATCAATGTCATCAAAGGCATTCTGCTTTAAAAACGCCTCTTTTATTATTCTAGCTTCTTCTAGAACTAACTTGTCTTTCTCTGCTAAAGATTCTGGTCCTACTAATCTAACAATTTGTTTTAATTCGTCCTCTCTTATTAGAGTCTTTACAATAAAATCTCTCATTATTTTCCAATCGGGGTCCACGGTGCTATTCCACCATTTAGCAACTAAATCTACATATGCAGAAAATCCTTGAATCCAGTTTACTGCTGGAAAATGCCTTGCATGAGCTAAATTGACATCCAATGGCCAGAATACTCTAACGAATCTTAATGTATTACTAGTTACAGGTTCCGTAAAGTCACCTCCAGGTGGCGATACGGCAGAAGCTAAAGTTACTGAACCTATTCTTTCCGGATTTCCTAGTGTTTTAACTCTCCCGGCTCTCTCATAATATTCCGCTAACCTAGAAGCTAAATAACTAGGGAATCCCTCTTCAGCTGGCATTTCTTCCATTCTTCCACCAAGATCTCTTAAAGCCTCGGCCCATCTTGTGGTACTATCAGCTACTGTTAGTACATCATATCCTTGGTCTCTAAAATATTCTCCAATGTTACACCTACATAAATACTTGCCTCACGTGCAGCTACTGGCATATTACTCGTATTAGCTACTAGAATCGTTCTTTCAAGTAATGGCCTTCCAGTCCATGGATCTTTAAGTGTAGGGAAAGATCTTAATTCGTCGGTCATTTCATTTCCTCTTTCTCCACAACCTACATAGATTATTATCTTAGCTGAACTCCATTTAGCTAAACTCTGCAAAGTAACAGTTTTTCCAGCACCAAAAGGACCTGGAATCGCTGCTGTTCCACCTTTGGCTAAAGGAAATACTGTATCTAAAACTCTTACTCCTGTTAGCAAAGGTTCTGAAGGTTCTAATTTTTCTTTAAACGGCCTCGGTACTCTAACAGGCCATTTCTGTATCATATTAAGTGGCACTTCATCACCATTCATATCAAGCGTAGCAATTGTCTCCTCAACAGTATAGTCTCCCTCTGGTAATATTTCTTTAATCTTACCGTATCTATCTGGAGGTATTATTATTCTATGCTCAACTAAAGCTGTCTCTTCTACTGTTCCAATTATGTCTCCAGGAGATACCTTGTCTCCTTTATTTAGCTTTGGAACAAAGTGCCACTTCTTTTGCCTATCTATTGCTGGAATTTTTACACCTCTGGCTACAAATGCTGAATTAGTATCCTCGGCTATTTTGCCTAATGGTCTTTGTAAACCATCGTATAATTGCCCTATCAAACCTGGACCTAATTCTATTGATAAAGGAGACCCAGTACCATAAACTGGCTCTCCAGGCTTTACACCACTTGTATCTTCATAAACTTGAATATAAGCCCTATCTCCTTCTATTCTTGTTATTTCACCAGTTAATCTAAGGTCTCCTACTTCAACTACTTCATACATTTGAGAAGCTCTCATATTATCTGCTACTACTAATGGACCATTCACTCTTACAATTCTCCCTTTTTCCATCATTCCTCACCAAATAGTATCTGAGCTATTCTAGGTTTTTCTGATTCAAAAACTTGATTTAAAATAAGATCTAGTGAATAATCTCTTACTAATCCTTGATCTGGATATTCTATTCTTATGCCACCCAATAAATTCTGTTCTTTAACTTCGGCATTTATCTTAAGCTTATTCAGTATTGTTTTAACCTTGTTTACATCGCCAGAATTACAGAAAATTATTGAACCATTTTTTGATTCCCTAGAAATTATATTTTCTAATCCTTTTTGGTAGCTCTCAGAATCTATAAATAAACCGATTTTGTTTTTGACTTCATCAAAAACTTTTTGTATCCAGAAATTCTTTTCACTAGATATTAATCTTTTATTCTCTACATCTAATTTAGCCTTTTCTCCTTCTATTTCTTCTTGATACTTAGAAAGAAGTTCATTAACTTTAACAGAATATGAATTAAATGTATCATTATATGCATGCTCGACTATTTTCTTTGATTCATTAAAACTTTGATCTACATTTGATTTTATTTCTTCGAGTACTTTCTGTATTACATTATTTAATAAGTCTTCTAAGCTTGCCATTTTACTCACCCAAAACCTAAAGCCCTTAAAATCATTTTCCTTACATCCATAGGTTTAGATTCACTAAATGGAGAAGGAATTATCGTAATTAAAGGTTTTGCTTGTGTTGAAATCAACGAATCTATCTTTTCTCTTACTGGTTCATAGATATCTCTTGTTATTAGAATTAGATCAATATCTTCTCTTTTTCGAGCCTTTTCTATTTCACTATTTAAATTAAAAGGATCTTCAATAACCTCAGCTTCAGAACCCATCATTCTGAACAAAGAAGCCGTATACCTATCACCCATTAGCAAAATTTTACCCATAATTTTCAGTCTGTAATGTAGATTAAATATTTTAAAGTTTAAAGTATAGATAGAATCGAGTTCATATTGATTTTCCCAGAAACTATGTCAAAAGCAGAGATTATATCTCTCAAAGAAAACACTGACAAGATAGTAACAGAAATTCTAAAGTTCGGTATGTTTGAACCAAGAGATCCTTCTATTCCTATTTCTCAAGGTCGTATAGAAGGAGCTAGAAGACTTATCGGAGAAATCCAAGAACATATATCAAAACTGAAGATAATAATGGATTTAGCAGGACTTATTTTAGAACCTGCTGGAAAGCTAAAAATTAATGAAGACTGGATAACTACGAGTGAAAGGATATCTAAAGAGGCAGAAGACGAGGAAACTAGATACAAGGAGCTTTTAGAAGAAATAGGAAAAATAAGAGGTGAAATAGATCTTTATAAATCACAAATGGAAACACTAGCTCCATTCAGTGAGATTACAGTATCTCTAGAAAATCTAGGGAAATTAGATTATTTCGACGTTATTTTCTCCATAGTAACTATAACGCAACTTGAAGAATTAAAAAATAATAAGAACATATTTGTGGCTTATAGACTATTAAAGAACGGTAACTATGCTGCAATAATTATTTCCCTAAAAGGGACTCAAGAGGAATACTTAACAAAACTAGGAATAAGAAAATTTGAGACGCCAGCAGGAGAATCTCCTTATGATGCATATAATGAGGCATTACAAAAGGTAAAAAGTTTAGAAGAAATATTAACTACTACTAGATCTCAACTCTCACAAAAGGTTAGAGATAACTCATCTAGTTTTAGAGAATTATTAGGAAAATTAATGACTATAAGAGATGCACTAAATATATTATCTAAAGTCAGAGTATCCGATAATTTTATTCAACTAGAAGGCTATGTTCCAGAAAAGAAAGTTAAAGAACTTAAGAATAAGCTAGATAAAATAGAAGCATTTATAGATTTTGTATATCCAAAACGATATGGAGAAACGGATGAACCTCCTACATACATAAATCTACCAAAGAGAATAAAGGCTATAGAGTCAATAATAGATATTTACGGGACTCCTTCATATTGGGAAGTTTCTCCAGCTATATTCCTTATAGTTACATTTCCAATTCTTTTTGGATTAATGTTTCCAGATGCAGGAGATGCTATAGTAGTGTTTTTATTTTCTATATGGTTTTATAAATACGGCGTAAGAAAAGGTAGTTATAATATAAGAAATCTTTCACTAGTTTTAATATACTCTAGCGTAGTGGCTATTGTAACTGGATTATTGGCTAGAGAATTTTTTGGTCCATTGCTAGTAGGTGGATTAGAAGAACTAAATCCGTCAAAATTTCCAGGTAATATAGGCCCATTATACTATGTGTGGCCAGTTCCATTAAGTATATCAAAATCTCTAGCTTTTCTCTTACCGTTTGGAGAATACGCAACGGCTTCATCAATAGAAAATACTATGATATTTTCAGTGTTTATAGGAAGTTTAGCACTCTTTGTAAGCTCTTTAGTAGGTGTTATAAACGCATTAAGAAAGAAAGATATGGAATTTTTAATTTATGAAAAACTACCATTATTACTAATTTATATTGCGCCGTTCCTAATATTTGCTTATGGAATACCTGCTGGAGTTTCTAATGGAGTAGCATACTTTAATACTGAAAAAGCAATTTTAGGCTACATACTTACTGATATTACAAATCCTACTTCTCCAGTATTGTATAATTCAACTGCTATATTTAGTTATATAATGATATTATGGATAGAATTGTCGATAATATTTAACTGGATTTCTAGAGTAATCCTTTTGAAAAGATATGAGAAAGTAAGTATAGGTTCGGCAATAGGCTTAGGATTTATGGAAGGAGGATTTGAAGCAGGATTATTACTATTGTCAAACACTATATCGTTTATAAGAATTCTAGTATTTGCACTAGCACATTATTATTTACTCTATGCGTTTTCATATATGGCATATCTAGTAGTAGGAGTACCTAGTCTTTATGCAATCTTTACTAGCCCAGCGTCAATAGCTTTAATTTTAGTAGGTAACCTATTGGCAATAGGCTTAGAAGGATTAATAGTTTTCATACAAGATATGAGGCTTCACTTCTACGAAATGTTTAGCAAATTCTATGATGGAAGAGGAAAAGAATTTGAACCAGCTACTACATACGTAGAACTTATCTAAGTAAAGAAGGTCTAGTTTTTTCTAATTCTTTTCTAATTTTTTCTAGAGTCATTGGTAGATCTTTTTCAAATGTGTCAGGAAGTTTCTTAAATATTGGTATAGCTTTCTTTATTTCATGACCTGACTGTAAATTAATCTTCTTGGAATTATCCCACATCTCATTTTCTATATTACCTAGATTAAGTAAATCATATATAATTTGGGAATGCTCAGGAATAACAGGATATAAAAGAATAGCTAAAGACTTTGTTAAATTAGCTGAAAGATATAAGGTATTTATAGCGTCTCTAGGATTTTTCTTTATAGAATCCCAAGGTGCCTTAAGATTTAAGTACGAATTACCTTCTCTAGCTAACTTTATTATCTCTTCAGTTCCCGCTTTTAATTTCCCTTTTTCAAATAAGGAAGATACCATATCTGGAGTTTCTGAAATTAGCTTTATTATTTTAACATCATTTTCATCTATAATTGATTCATCGAAATTAGGAATTTTTGCAGAATTATATCTATTTATCATTGTTAAAGTTCTATTTATATAATTACCTATATCATCGTTTAATTCAGTATTGACTATTCTTATTGCCTCTTTCCATAGAAAGTTCATGTCCTTTTCTTCTGGTCTCAGTCTAATTAGGACATATCTCCAGTAATCTATATCCATTATTTTAGGTGCTTCATCAATCCATATTCCTATTCTTCTGCTCTTACTAAATTTTTGGCCCTCATACAATAAATATTCAGTAGAAGAAATTACTGTAGGTAATGTATACCCTTTACCTGATGCCATAAGCATTGCAGGAAATATTACTGCATGAAATGGAATATTGTCTTTACCTATAAAATAATAGCTTCTAGCATCATTCAACCAAAACTCTTCCCATTTCTTTGAATCCCCATTTTTTTCAAAAAACTCTATAGTAGCGGAAATATAGCCTAATAAAGCTTCGAACCAAACATATATAGTTTTACCTTCAGCTCCTTCAAAAGGTGCGGGTATTCCCCAAGAGTTATCTCTAGTAAGACTTCTAGGTTTTAGTCCTTCAGATATCCAACTTAATGCAACAGATTTGACATTATCTGGCATATCTTTAGAACTCTCTAACCATTTTCTAAGATCATCAGAAAACTTACTTAAATCAAAAAACCAATGTTTAGTCTTTTTAAAGACTGGTTTACTACCGCATATTGCACATCTAGGATTTATAAGCAATTCCGGTGAAAGAAGTCTTCCACACTTATCGCACTGATCTCCTCTTGCGTCTTCAAATCCACAATATGGACACGTACCTTTTATAAATCTATCTGGCAAGAATATCTTATCAGTTTCACAATAAGGCATTGTCTCTTCTTGAACAAAAATGTATTTTTGAATGCCTAAAATAAATTCTTTAACGAATTTTTTATGCGTTTCGGACTCTGTTCTTGAATAATTATCATAACTTATTTTCCATACATTTAAAAAGAGATCCTTTACATACTCATGAGCTTGATCTGTAAGGTTTTTAGGATTAATTTTTCTTTTTATTGCCTCTATTTCTATAGGAGTTCCGTGTTCATCGCTACCGCTTACAAATACTACATTTTCTTTTCCATATTTTAATCTAGCATATCTAGCGAAAACATCTGCAGATAATACGGAGCCTATTAAATTTCCTAAATGAGGAACAGTCTCTACGTATGGCCATGCTGAGGCAACAAATACCTTCATAAATGGTAATGATATCATCTAACTTATAAAGGCTGTTGAATAAGCTTAATTCTGAATGAGTTTAATCAGTACCGACAAATATCCGTTCTTAAAATCGTTTGATGAAGCAATAAAAGATTATGGCGGAATAAAATTCTACGATATAATAGCTACTAATGGTCAAGTATTAAATGATGCAAAAGAAAGAATTAAAAAGATTCTCGAAGATTCTCCAGTAGAGTCTTTCAAAAGATATAGGTATTCTTCACTTGTCTTCTATACTGAGTTGTTAATCCTTGCCATAATGAACGATAGGAGAATAATAGAAAAAGTGCTTAAGAGAGAAGCTGAAAATTTTAGCAAAGAGATATCAGAAGAAAGTGAAGATCAATTTAAAGAATTATTAAAAAGATTGAAAGTGCCTATAGAATACAAGAAAATCTCATATCATAATGGTAACAGAAAAATTGAATTAAGTTATGCTATAAACTTTATAAGTTATTTAACGCTTATAAGAAATTTAACAAATTCATCTCTATCCCTTTCTCAAAATATATTAAATAAAGGATATGTATATCTAGATAAAAATAAAGTATTGGAAATTTTAAAAAATACAATATATAATAAATTATATCAAAATATTAAACCAATTTCACTTTCAGAAATACCAGAAACTTTAAAGGATTTAATAATAGTTAAAAATGGCAAAACACCTCCTTGTATAGATGGACTGATAAGAAAGCAAAATAAGACTCCAGAAGAAATAAAAATTCTTATAGTGTATAAACTAGATATAAATACAGATTTAAATTCTATTATAACTTTTCTAAAAGAAAACGGTGTTCAAGAAGCAGAGAACTATATTAATGAAATACTTAGAAAGAAAGAAAAATACATTTTATACTCATGTAAACAAATGAAGGAAAAAAATTTATGTATTTCTGAATGCGGAGTAAAAAATCCATTACAGCTCTATTTCGGTAAACTAGACGATACTAAGAAAAATCTTTGAATAACCGTAATTGCAGATAATATTATAAAAATATAAAATATATATGTGGAAATCTGAAAATAAAACATTGATATTAAAAGTATTATCATAATAAATATTAATCTTTCTCCTCTCTCGATTATCCCCTTACCTTCAGCTTTTATTCCTAATGACTCAGCTTTAGCTCTTAAATATGGTATAATTAATGATAATCCTACTAGGATAGCTACTAAATAGGATTGAAAACCCAAAAAACATAATGCTGATAAGAATAATGTGTCTTCTATTCTGTCTAAGGAAGAATCAAGAAAACTACCTAAAACACCAGCCTTTCCAGTTATTCTTGCTATTTCACCGTCTAACGCATCAGCCAAAGACGAAAATATAATTAATACTAAACCATATAAAGGATTTCTAAACAGCATAATAATAATAAAATAAAGCAAAGCTAGAACTAAACCTATTATAGTCATTAAATTAGCAGATATTCCTAATTTTGATAAAGCAGAAGCTATAGGTCTTAAAATTTTTTTAGATTCTTTCCTTAGTCTAGTAATCATTCAGACCACTACTGTTTTAAACTTAAAAATTGACATGAGTCTGAGAGAGGATAATAATGAAAGCTAAAAAATTAATCCTCGTAACTTCAGATTCGCATCCTATGAATAAATCGTTTATAACTATTACTGAAGACTTGTCAAAAGAGCTAGGAATTGATAAGGAAATAAAAAATGAAGATTATAGTTTTCTATCAGATTACGGTGAGAAAGACGATTTTGGTATGAGTTGGCTTCCCCAATTATTTATAGAAACGGATGACGGAAAAATTACTCCTATACTTACACAAATGCCGTTTGGAAAAGATCTAAAGCCAGATGAAGAAGAAGCCAAAAGAGAAGCTCTTAATAAAATTAAAAATCTAATATCATAACTAATCATAAGTGAGAAAATTGAGCTATACACCTCACGTACCATACGTTCCAACACCAGATAAAGTAGTAAAGAAAATGCTAGAAATAGCAAAAGTAGGACCAGAAGACGTAGTATATGATTTAGGCTGTGGAGATGGAAGAATAGTTATAACAGCAGTTAAAGATTTTAATGCAAAAAAAGCAGTAGGCATTGATATAAACGATGAAAGAATTCAAGAAGCTACTAAAAATGTAAAAGAAAACGGCGTAGAAGGCAAAGTATTTATTAGAAAAGGCAATTTCTTCGAAGAGAATATTTCTGAAGCCACTGTAGTAACAATGTTCTTATTAACAAACGTCAACGAAATGTTAAGACCCAAGCTAGAAACGGAATTAAAACCAGGAACCAGAGTAGTTTCACATGAGTTCGAGATGAGAGGATGGACTCCAAAAGAAGTAGTTAAGGTAGAAGATGGCAACATGAACCATATAGTTTACCTTTACGTTATAGGTGAAAATAAGTGAAAGTATTAATATTAAAGAGCGAAACAGGAAAAATAACATCAGAAAAGACTATAGATGGAAATATAGGAGACGTAGTAAAGCAAGTTGCTTCAGACGCGCTCAAAGAATGGAATGAGATGACTTCAGATTTTACTATAATGAAGGATACGCAAGAAGCTAGAATACCGTTACCTCTAAAACCAGATGTATACGAAGCAGTAAAGAGCTTTCTAAGTGGGAAAGATAAAACATCGGCTATCTTAAGAATACCAATTTATATTATAAGTTTTGACAATATGTGGAAAGAAGACGATTATCAAGATAATAAGGTATATGTTGTATCTTACTATCTTGACGATAATCTAAAGAACGAACTATTAGAATATGCAAAACAAGCTACTTCTGCTCAAAAAATAGAAGAACAAGGAGAAGAAGAGGAAGAATAGTCCTAATAATATATTTCCCTAATTAAAAAATATTTGTAAGCTATTATTAACCTCCCTTAATTTTTAAAAAATGAATCTATTGAAATTGTGGACTCTATTTCATCCCAATTGATTCCTAATGATCTCAATAACTGTTCAAAGGTACTCCTTACTGCATCATAATATTTATCTATGTCGACTTCTGAAAGTTTAGCAAGTTGAACTGGTTTAACTCCTTCTTTACTTTTAACTTTTACAAATGATATTATGTCTCTGGGTAATACTTGGACTCCAAAAGCTCTTAATTGCGCTGCTGCTTTAACATGTTGTGGAGTATTTTTAGTATAGGATTCTACACTCTTAGACAACATCACCCTAAATGCTAATTGATCTAGGTTGAATCCTTTATTTCTTAACTTATCATATATATCCTTGATCTTCTCTTTAACTTCTTTCTTCGCTTCTTCTAAATCACTTGGAGAATTAATAGTCATCATAAGATCTTTAACTTCTTTAAATGATTCTTTTAGAAATTCTGGAGTATTTCTCTTTTTCACTAACATACCTTTTATGTCAACAGTAGAATCTGTAAATATTCCAAAATAGTTCTTCTTTAGTCCAGAAAATGCTACAAATTTATAACTTTTATCAAGCTCCAAATCTAGTTTAAAAGTCTGTTTTACCCAACTTACAACTTCTTGCATTTTTTCAGGAGTAGGTTGATATATAAATAAAGAATCAGTATCACCATACAAAACTCTCATACCTAAGTCTTGAGCTTTTTTAACCGTACTAGTAATAACGTATCTTCCTAAAGCTGTTACGCTCTCTGCCACTGCTGGTGCATATAATGGGAATGTCTCGGCTCCAAAAACTCCATATGTAGCATTTATAAATACTTTCATGCCTCTTTGAACAACATCGTAAAGCATCTTGTGCTCTTGATCGGCGTTAGAATGCTTTGCTTTTTTCTTATATATCTTTACTCTAAAATCTCTGAGTAATCCAGTCATTACGGCTGTGATTCCTGGTTTATCCATGCATACTACATGCAAAACTTCCCCAGTTTCGTCCTTCACTTCATATGGTTTCTTGCACTCTTCAAGATCTACAGTCTCATAACTTAAATTCCAATTCCGTATGATAGACGGGTACAGAGAAGCAAAATCAAGTACTGTTACGTTAAAGAATACGCCTACTGGAGGATTTATCACTACTGCGCCCTTGTATCCTTTACCTTTTATGACAGCAGCTGTTTTTAATCTCGATGTTCTTTCCAAAATTTCCTCTTTTAGAGGGATTAACCAATTTCTTCTCCTATGTTCCCAATAATAGAGATTCTTTACCCATGCCGATATCTCAGTTCTCGTTAGCTCCTCTATACCTAATTTAGATATTCTTGAGAATAGTACTATTAATTTCCAGACTATTTCATTATTAAATGTAGTTAATTTTAATGTTATTTCAGAATCTCTAAAGTTATACTGAATTAATTTAGTTAAATTCAGATCGCTTATATTAGAATCTATTTTAACTTTAGATAAACCTAATAAAGCTGATGCAACTGCGTCTAAACTATATTCACTGTATTTTCCTTCAAATGCATAATTCCTTACAGCTTTATTGAAGAAAAATCTATAAAGATCTATATGAAAGCCTGCCAAAAATTTGGTTTCTCTATTTCCTATTTCAAAAGGTATCTCTTCAGGGAAGAAACCCAATTTCAATGCTCTAAAATATATATATGGAATATCGAAGTCGTCCCCATTAAATGTTAAAATCAATGGAAAATCCACTATAATATCAAAAAATCGTTTAAGTAATTCTTCTTCAGTTTTAAAATACTCTACAGATATGCCTTCGTTAGAAGTATTTCCTTGCTCAACATCTGGTCTCTCTATTAATAAGACTTTCTTAGTCCCATCAGTACCTGCAATAGAGATGCTTATAATAGGAAATTCTGCCTTGATTGGATCTGGTACTCTACCCTTCATTGGTGTAAAAACTTCTATATCTATAGCTGCACGCTTAATAGAAGGCACGTCAGATTCAAAAAGTGGTGCCCACGTTAATGCTGTTTCTTTAGTCATCTCATCGGAATCAGCAAATGCTTGTTTAACTTCCTCTACATCAACACTTGGAGAAAGAGCGTTTAATTTACCTTTATTTATAGCATATGGCATCCCTGGAATAAGGTTCAGATCATAGATATAGTTATTATAATATTTTATATGGGCTTCATAAGCTCTAGGCACATGATTCCTCATTCTTTTTACTGCTAGAGGATCTTTAACTACTATTTTTGTGAGCCTTACTTTCTTTCCAGTATATGGATCTATCTTATATACAACTTCTAAATGATCAAACGATGAATCTTTTACTATCTTAGCGATCTTTCTTACTTGTTCTGGATCTAAATCTACTAAAAAGTAAGATTTATGTCCAGTATTATCGTAAAAACTATGCACATCCTTTTTTTCAGGATCATATAATTTACAGAAAGCTTTCCCTTTTTTTCCATCATAATCTACAGCCAACAAGTAATATGTTCTCCCATCCTCTGCTTCAGGCAACCAAACTTTTCCTTTCTGTCTATAGTTTTCTACATTCTCAGTATCTTCATTAGATTTAACAGACTTAGCATTTCCTTTTTCAGCACTTTGCATTGAAAAATCAAAGAGAGTTATCTGTTTAGCCACAATATAACTATTATACTAAAAAACTCTATAAGCGTTAATGCGCGTTTGCTTTAATAATTTAGTATTCAAATATTGAAATAATGGACCCATAGCTCAGCCAGGATAGAGTGTCGGCCTGCGAAGCCGATGGTCCCGGGTTCGAATCCCGGTGGGTCCGTGACTATTACTTAAATTGAAAGAATTTCTCTATTTATGCAATGACAACGTTGGTAACGAGTAAAAAGCGCAAAAATATTTCTACTACATATATGGAAAAATGACTATGAAAGTAGAATTAACAATAAATCTTATAATACTAATAAAAGCAATAGAATTATATGGTAATTTTTAGTTTCGATATAGACCTAGAATCCATTTTTCGATATTATATAGATACTAAATGAACCCTATTGGAACGTATTAGCAATATAGTATCGAATTTTCATTTCATAGTTAATATTTTTATATTATATATTTTCCTATTAAAAATATTTGAAACTAAATTTGGGTAAATGCTTATAAATACTTCATCCCTTACAAACTTGAGAAAAAATGGCAGATACAAAAATTATAGGTTTCGCAGTAGTTATTATAATATTGTTAATAGCTGCATCAATAGGTTTTTATGAATATTCTTCTGTTTCTTCAAAATATGCTAGTCTACAGAGCTCATATACATCATTAAGTTCTAGTCTTTCGGCTGCTCAGGCTAATGCTACTTATTATAAAACACTAGCAAAAGATAACTATACCCAATACCTAAGAATAATGTCTAACTATACAAGCTTGAAAAGTATGTATGCAGCTCTTGAACATAACTACACTATGCTTCAAGAGATGTACAAGCAACTTGAAGCTAACTACTCTAAATTAATCTCAGAAAAAGTATCTCAAGAATATCTTCAAGGCGCAGCGTTAGATACTGCATTTGAGTTCTGGGATGGAATAGCTATAGAATCTCCGTCTGATGTTTTACCTTTCCTAGCCTCTAACTTTACTGCGACGATTACAGGTGTACCATTTTCAGGAACTTACAATCTTCAATCATTTAACTCAACGTGGCTATCTAATTTCTTCAGTAATTATGAAACTGTATACTTCTACACTACAGCCTTACCTACAATAACTATGATAAATAATACTACATATGAAATAACAGCTGTAGCACAATATTTTGTAGCACCTACAAATGATCCAGTCTATCTTCAAGTATTTAACGCATCAATATCTCTATATATTCAAATAATAAGTGGAAAGCCAGAAATAACTAGTATGAATTGGACAGGAAATGAAGTAGCCCCATCAGAAGTAATAGCAGGATATCCATCTCAGCATTTAATGCAAGCTAATCAAGTTACTGATGAAGTTCTATCAGAAGTAAATGGACTTGGAGCTGAATTTGCTCCGTCTACAATAGCTATGTACTTTAGTCCTAATGCTGAATTAAAGATACAAGGAACTTTACCTCCTGGTCTAAAGAATGGAACATATACTGGTATATCAAATATTGAAGGATTCTTTAGTAACTGGGATAGCTACTTTATATTCGCAGCAGAGTACGCTCAGAATTTATTACCAAATGGGACAGCCATACCTCCATCAGTAAATGTAACGTTATCGCCAACTGGGACTAGTGCAGTAGTAGTTGCAAATGTAACACCATTCATAGGTTTTGTGAATCAAGGAGAACCAGGTTTTCCAGGAATATATGACATTCATGTAGATCTTATAGCATATTTACAATATAATTCAACTACAGCATCATGGCAAATAACTAACGAAACATGGAACGTTATGAATATCCCAATATCCCAAGATACAATATATTATAATCTTAATCAACCAATATTTAAGGTAATTAAAGAAGATACTACTCTAGTTAATGCAACCCAAGGAGCTATACTACAAGCAGGTAACATTATAACTATAATTCAGCCAGGAACTTATGCCGCATTGCCTAACGGGACTATGCTATCTGAATACAATTTCTCATTGATAATATTTAGTCTACAAGCAGTATATCCACCTGCGTTAGATTTCTTCAATTTGACACCTACATATGCGTTCGCATTTGCAATAAATGGACACATATCCCCACAATATTCTTTAGTGACTCCTTCTAAACTAGCTTCTCCTGCAATAACTATAGTATATGGCTCAGATACCTGGACAAGCTGGACATGGTTTGGCGGAACATTCAATGGTACTGCATACATAGGTGGAAGCTATAAGTTTGCAGACAACTGGATATATGGAGATAATGTATTAGTAAATATTCAGTTCTTTAAGCCAGTATTATGGATATTCGAGGCATCACAGACACCTATAAAGACTCCACCAATGCCAGTAAATGTTTCTGTATCTCAAGCATACGGATTAACTCCAATAAACGCATATTCCTATGAAATAAACGCAACACAGGGAGGAGTAGTAACTGCAGGAAATACTTTAGTAGTAATCAAACCAGGAACAATAATAAAGACTCCAACAGCAAATCTTACTGAATATAACTTCTCAATAGTATATTATGCTACAAGTAACTTACCAAGCCCTGGTGATAATCAAGAACCTTTCATAGCTTTTGCATATGCTATAAATGGAAACGTAACATTTAGTTATACTGCAACTCAACCATTCATTACAGTTATAACTACACCAAGCCATAATGCCGAAATGTGGACATGGAACTCTAAAGGATATATCTTTAGAGACCCCATTATAATAGGCAACGGAATATTAGTAAATCTAACATTTATTAAACCAGTACCATGGATAATAACATTGCCTGAGATCACAACATCAACTACTTCTACTACGTCAACTACTTCAACAACTTCTTCAGCCTATTGGGCATAAAAATACAATTTATTTTTTTATCTCTCTTTTTTATTTAAAATAATTTCCTTTCAGTTCTCACACGGAAAGCATCACAGCTCAGTCCGGGGTTCAGTCATCATTTCAATTTAATTAAAAAAGTTTTCTTATAAAATCTGTAAGATCCTTTTTAACTTCTTCTATACTACCGTATTTATATGAGTTCTTAAAATAATATCCACATATTGACTGTATAGGACCTCCAATTCCTTTATTTCTAGTTAGTTTAGCTAATCTTATTAAGTCTATGAGCGGCTGAACCGCGTTTGGTGCATCATGAGTCTTTAGAGAAATATCTACTCTAATAGTCTCGCCTAATGCATATTCTCCTTCAATGACCATGTAACTAACTCTTCTATCCCCCAAAAATTCTACATAATCAGAAGTCCCTGCTACGACCTGGGCACCGTTAGTTTTTGAGGATATGTATGAGGACTTAATATCTTTTTTAAGGTCTTTTCTCCAATCTTCTAGAGTTATTAAAGTCTCTGTATTTCCTGCTATGTCTATTTGATAAGACCTATTTATTTTCACTCCTCTATTTTTTAAAAATTCAATAATTCCAGTATGGAATATTGTTCCTCCTATTTGACTTATTAAATCATCTCCAAATAAAGGAACTTTTTTACTTTCAAAGTCTTTACCTAATTGTCTAACTACTTCTGTCGGTGAAGCGTTAATAAAAGCTGTAGAAGACTCTAAAGACGATTTTGCGTAGAATAGTGTAGCTTCATTAACTCCAGTAGGAAGAAGATTAACGACCACATCTATTCTTTCTTCTCTAAGAATAGAAGAAACGTCTACTGGAAGTTCCTCAGATTCTTCTATTATGTTAGATAGGCTGCCTTTATTTCCATCTAATGTAGGTCCTCTTAAAACAGTAACATCATTAAAAACCTTAGTATATTGTGGAACTACGTTAGGTTTTGCAAATATTGCCTCAGATAAAGTTTTGCCTACTTTTCTCCTATCTATATCAAACGCTGCAGATATTTCTATATCTTGTGGAGAAAAAGGTAGATCTAAAATTCCAGGTATTTCTTTACCATGTTTTACCTCTTCTAATGATTGGACTAATGCAGAAGCTACGTTACCTACTCCAACTAAGGCTACTCTTATCATATGACCACCAACAATAATGGGGCTATTAAACCCACTGCTATACTTATAGCTGACGCAAATATAACACTGTCTCTTTCGTCACTTCTTACATATGTGAAATTACCTTCTCTGTACATTTCTCGTATTAAGGGAACATAATACCCCGCAGATATTGCGCTATTTATCACACCTATAACTATAAGCCATGGTATATAGAATGCAGATTCAAATAAGAACAACTTACCCCAAAATCCTAAGATAGGGGGTATACCCAGTAAACTTAATAAAAGTATAGTAGATGCTACGGCCAAACCCCTATCGGAGGATGCTAAACCCCTTAATCCTCTAATATCAGTTGTACCAGAAACTTTCTCGACATGGTTAGCAAAGTTAAAAAGTCCTGCTTGTGCTATTACATATGCCATCATCTGTATTATTATCCCAGCCTCCGCTATAGTTTGACTTAAAAATATAGTAGTAAATCCTATGAGTACAAATCCCATTTGTGCTATACTACTGAACGAGAAAATAGAAGTAATGTCTTTCCTGGAGAATGCCACTATATTTCCTATAGTCATACTTAATATTGAAATAGTAGCAAAAATAGCTAAGACAGATATTTCCTCTACACCCGTTGGATCTCCAGATATCAATATCTTTAGCAATGGAACTATGCCTACCATTTTCCCTACGCTTGAAACAAAAGATACGGATATTCTGTCTGCATCGATATAAACGTCTGGTAACCATCCTTGGAATGGAAAAGCTCCTATCTTGAAAAGAAAAGCTACTGAAACAAATACAATACCTAATGTAAATAGATCGGGATATTGTATATTTTGAAATGAAAAATATAGTGTACCTATTCCTAATGCATATAATGCAAATCCAAATATCATGAAAGAAGATGAGATTAATCCCATAACTAAATATTTCATACCTGAAATAACTGAACCAAAATCTTTTCTAAGCATTGTTATAGCATAAGAAGCAGCAGATGATATTCCCCAACCCGTTAGAATTACAATTATATTATTAGAGAATGCCATATAGATAATTCCTAACATAGTCAACATCATTAAGGATAACATTGAAGATCTTGTTCTCCATATTTCCATATGATCTTTAGCACCTAGTAACGCTACAAGTCCTCCTAACACGGCTACAATAGATAATAGATAACCTATATTACTTATGTACAGCGAATACGAGAAAATGTAGTAATTATCTGGACCAATAGTCAGAAAATAAAGCAATACAATTAAAACTACTATAAATGAGGATAATGTCAAGAAATATCCTGTAGAATATCCTTTCTTTTCTCCTTTATCTATAAAAAGTACACTTATTGAAGAAAAAAGTAATAATACAGATATTAAAACTATAGGTATATAATCTATATACATCTAAATCACCCCAAATATTATTAGTACTATAATTAAAAATAGGATTATTCCACCAATATAATAACCAATATAACTTCTTAATACACCATTTTGTATCCTTAAAAATAATAAAGAACCGTATTTTAATACGCCTTGAGGTATTCTTACATTTAATGTCGTATCAATAATGCGTGTCTCTACTTTTTCGAAAATTTCGTTATAAAACTTGAAAGAATATAATCCTAATTTATCTAATAAAGGATATATGTACCAGCCGTAATATAAGAAGTCTATAAATGGCCTTAACATACTATATTTGTAAAAATCTAGGTTCGAAGTATATAATGTGAATGCAATAAATACACCAACAAGAGATGCTACAAAGTCTATAGCATTAAAATAAAATTCGTTTCTAGGAACTAGTATATAATTTGAGAAGAATGTAGTAATATTAGGTATTAAGATTCCTAATATTATAGTAGCTAGAACTAAGATAAATGGTGAAATTAATAAACTAGAGTCTTTATGATGTTCGACTTCTTTCTCTCCCTTACCCCACAAGAAAGTTTTTGAAACATATCTAATTATATAGATAGAACCTATAAATTCCAATATGATATAAATATAAGATAAATATCCTCCTGTTAAACTCGAAATAAAGGAATGTGCCCAGAATCCTATTAATGGTGGTATATTAGCTAAATTCAAAGCTGCTATTAATTGAAGATAAAATACTGTCTTTAAATTCTTATACAAATTAGGAAATTCTCCAATATATCTTGAATTTATGGCATGAATGACCGCTCCTGCATTCATAAATAATGATGCCTTATATAAGCCATGTGCTATCATCTGAATTATTCCTATGCCTATTCCTGCATACAGGAATAACGGATTTTTGTATACTATGGAGAGTAAGGCACCTAAAGACGATGCAAATATCATCAATGAAATCTGATCTGCAGTAGAATTTGCTAAAATTACTTTTTGCTCATTCGATACAAGTGCATTAAGGCTAGTATATATGGCAGTGAATAGGGAGATACCAGTAATTATAGATAGGAATTCAACTATAGTTGGATTTGAAGCTGTTACCAAAAATGGATAAGTTAGAAAAGTAAACATTGCTCCAAGATTAACCATGGTAGCTGCATGTATTAGTGCACTAACTGGAGTAGGCCCAGTCATTGCAGTAACTAACCACTGAGTAAATGGAAATTGTGCACTTTTGGATAATCCTCCTAAGTACAAGAAAATAAGTAGTATTAAAGCCAAAGGTACTGTTGAAATGAGATGTAAATATGAGAATATACCATTATTATAGATTATGGTATTTGCTCTATATGTAGAATAAGAAGTTATATACAGCAAGTAACCTAAGCCTAAAAATAGACCTACATCTCCTATTCTAGTGAATATCATAGCTCGTATTCCGCTTGTTGTCGGCCTACTTAGAAATTGTAATCCCATTACATACCTTTTGAAATCTCCTACAACATTCCTTTCATTGTCGTCTAACCAATATCCTATTAAACCATAAGATGCTAAACTAGTACCTTCCCAACCTGCCATAAATAAAATAATATTATCTGAAAGAACTACGGCTAGCATGGAAGTAACGAAAAATCCAAAAAATCCCCAGTATCTTCTTAGCACATTATCTTCCTTCATATATCCTATACTATATAATGCGATAAAGAAAGAAAGAGTTGAAACGAAAATCGCTAATATAGCTTGTAATAAAGAAGAACTAAACTGAAAATATCCAAATAACTGATAATGCAAAACTGGCTCATAAAATATTTTATTTAAAGATAATGCATTAATTAAATTAAAAACTGATAATATCATGGAAAGAGCTATAGTCGATACTACAATAGAGCCTCTAATATTTTGATTTAATGATTTGGGAAGTATTATTGCCAATAATGAGCCTAGGATAGGAAATATGACTATAAGGAAAATACTATAATCATTTCCAGAAATTTGAGGGATGAAATTATTTAAAGCACTTACAAAGTATTGTGGAACAAAAAATAATATTATGCTAATACCTGCTAGTACTCCCATCGGAATACTATATTCTAATATTCTATCTATTGACTGTCTAGTAGAGGTTCCAGCGAATACTTTCTTATAAAGATAAGTTACATATCCAGAAGATATGCCTATACCCAAAAATATAGCAAGCGCAATTATTATCCAATATGCTCCTAAATAGTTTACTAACTGCCCAGCAGAAAATAACAACAGAGCTTCACTTATTAACCCTATAGATGGTGGCAATCCTAATATATTCAAAATTCCAAAAAAAGCTAATGTAGAATGCAAAGGAGAGGATAAATAGATTCCGCCTAAATTGTAAATATTCCTCTCTTTAAATTCTGTTATAGAAGCACCTGCACTCATAAACAGTATAGCTTTTCCAAATCCATGAGATACATAAACTAAAATTGATGCTATCATACCTAATGGTAATTCGTATACGGAAGAACCTAATCCTAAAAGATAGGCAATTGAAGCCCCTAATAACATGTAACCCATTTGCGAAACGCTAGAATATGCTAGAAACCTCTTAAAATCCTTTTGAGCTATTGCGTTTATTCCTCCATATATCATTGTAATTAAAGACCATCCTATGAAAATAACGGCTAAATAGCTAAATGAAGGAAAGAGATAATAATATAGAATTATAACAAAAACCCCTAAACCAACCATATTTGGGCTTAATAATACAGATATTGGAGTAGGAGCTTCACCATGAGCATATGGTAACCATATATTGAATCCGGCTTGCGCGCTTTTGACCATCATACCTATAATTGCTAGGAAGAATACAAGAATTGCATAACTAACAGTAGAATAATTAGCAAAAACACCGTAAGAGCTATATATATCCATTGATCCTGTACTTATCCCAATTATTATTATAGATGATAATAATATTATAGTGCCTATATGAGTCCAAATAAAGTATAATAAACTTATTCTTCTTCTGTCTCCATATCCATATAGCATTATAAGTAAAAATGATGTAATCAAAGCTATTTCGAGAAATATGTATAATTCCAATAAGTTTACTGATATTACAACATATAGCATAGATATTGCAAATAAAGAAAATAACCCAAAGTATAGTCCCCAATTTTCTCCTACTTCTTCAAATCTATCTTTCATATAATGTAAAGAATATACTAGCGAAGATAATGATACGGCTAATATAGTAAAGATAAATGCTAAATTAAGGTCATTAACAGTAAATCCAAAATATCCGATAGAATTGCTAACATAGAAATTATCGAAAAGTCCTATTTTTGCTATAAAATAGGAATTTAAACCTATTGATATAAATGAAATTATAGATGCTAAGGTTTTTCTCTTTGTTAAAAAAACTAATGAAGCTAAGACAAACGATACAATAAATACTATATATGTTATCATTTCATTCCACCTCCAAAGATCCCTTCTGCCTAAAATACAATATTATTGCAGCAAACGCTACTATTACTTCAGTTAACGCCATACCTATGGCGAAAATGGAAAATATTATTGGTAGATATGTTCTACCCATTATACTAGATACCGCGAAAACAAACAATATGGACGCGTTGAGTATAATTTCAGATGATAATAGAATTCTTATTATATTTTTACTATTAGTTAGTCCATATATGCCAATCCCTACAAGAATTATTGATAGAGTTATGCCAAGATATGATACCAACATATCTAATCCCTCCTAGCTAGAGAAATTGCCTCTATCATGGTTGTTAAAAGCCCTATAATAAGGATTACTGCTGGGAACCAGTACTTTTGCAGAATATCTAGTCCAAGTTGCTCTAAATTTATTGGAGAAGGAAGTTTAGATGGAATATTATTAATTGAAATAAGCACAACTGAAAAAATTACTACAGACACTAACATAGCGATAACTGGAGCCCATGATATTTTTATCTCCTTTACGCCTATGCCTCTAAACATAACTAAGGAGATTGACATAAAAACTACTGTAGCTCCCACATATAACAATAAATGAAAAGCAGAATACAAGGAGTAAGCTACTGGCGAAATATCGGCTATAAGTACAGCAATACTTATTCCTAAAAATGCCAAAGATATTGCAGAATAGAATACATTCTTAGATTTTACGATAAAAATGGAAAAAGCAATAGTAATTATTGAGAAGAATATAAAAATTCCAATCTGAAAGTCAGCTGTCAGAGACATATTTAATCCCTCTATTTTCGTCTATTACAGCCTTTACTTTCCTTACTACCTTCCCTACTGGAGGAGCTTCATCAAAATCTTTATTGAATTTATCTGGCATGAATACTAAATCTCTTCTATTAGTGAACGCAGCATCATGAACACTGGTTTCCTTCAATGCATCAACTGGGCATATATCTACACAAAAAGCACAGAAAACACATCTTCCATAATTTATAGTAGGCAATTTCTTACCTTCCTGAGTTACCATCTTCATAGCATCTGCAGGACATACCATTGCACATAAAGTACATCCTATACATACATCCTTATAGAGTCTTATCATTCCCCTATATCCTACTGGCAACGACAAAGCTTCTTCAGGATACTTTAATGTAACTCTTTGAGGCTCTACAAAATATTTTATACCCGTACCTACTGCTTCTAAGTGTTCTGCAAATAATCTAAATGGATTCGATTTTTTATATTCTTTTACTTTATCCATAAGTAACCCACCACCATTCCTAAAAATATAGAAACTAGAGCTAGCGGAAATAAATATTTCCAGCTACCTCTTAAAGCTTGATCTATTCTATACCTACCATATACTCCCCTTAAAAATACTGAGAAAAATAGTACTATAACTGCTTTGAACACTGTTAGAACTGCACCTGGAAATCCGGATAAAGGATACCAACCAGATAAGAAGACGTCCGAGAAAACTAGTGCGTAAACAAAATTACCTAAATAAGAGCCTGCCATTGTAAGGACAAATAAAAATCCACTATATTCTGTATAAGGACCAATAACTAACTCAGTATCTGCCTCAGTTATATCAAAAGGAAATCTAGAGGTACCTAAAAGCATTGCGACAAAAAATAGAAAACCTGCTATTGGATTAACTACAAATCCCGGAATACCGTAAGAAACTATCTTTGCAATATCAAGCGTATGAAATTCTATAGCCATAGCTAATGTAGACATTAACAATATTACATCATAACTTACTGAAAGATAAGTTTCTCTAACTGCCCCTACTAATGCAAACCTATTATTAGTAACCCATGCAAGAAATATTATGAAAATAGGGTAAATGGACTCGAGAGCTAAAATCAGCAAAATATTATAATTAACAAAAATTCCAGTTAAAACACCTTGTGAGATATTGGGATCATAAAAATCTTTGAAATATATGGAAAATACAGAACCTGATGCTGGAATACTAGATATAGGGATAACTGCTATAGGAATAAAGGAAACGGCTAACATTAAAACAGGAGCCAAAGTATAGAGAGTCTGATTAACTTCTGATGGTATTATCATCTCAGAAAAAACAAATTTAATAGCATCTGCTACTAATTGCAGAAAACCGCCTATTCTCTTCGAAGCATAATATGGGCCAATTCTCATTTGAAGTCTGGCTGCAGATTTTCTTTCAAACCAAATTGTAGTTAGCAATAAAATTGAAGCAAATATTAATCCAGGGAAAATTATTGTAACAAAAAATGAAGGATAGAGAATATAGAATCTTAAAATACCTAGCGCGTCCATTATCTATCAGCCTCTGGTGGAAAATAATCTAAACTTCCATATATAGAGACTAAGTCTGCAAATCTGCTTCCTATAGATAAATTTTTCAATACATTTATTAATCTATAAGATGGCGTAATCATTCTTAACCTATAAGGCTTTGCTGATCCATCACTCACTACATAGTATACTAATTCCCCTCTTCCAGCTTCTACTCTAGATATTGCTTCCCCTTTGGGAGGCCTAAATGAAGCATAATAACCTGGCATAACTATTCTATGTTGACCTTCCCACCATTTCTTTAGCCTTGTAGGTGGAATTTGTTTAAGAAATCTATCACTTAAAATATTTCCTTGTGGTATTTCCTTTATTATCTGTTCAAGTATTCTAAGACTCTGTTCTACTTCGTCAAATCTTACCATAGTTCTAGCATATCCGTCTCCTTCTTTATATACTGGAATATCAAAATCCAATTTAGAATATGCTGCATATGGTTCTATTTTTCTTACATCGTAATATACTCCTGAAGCTCTTAAATTAGGACCTACAGCTCCCCATTTTATAGCGTTTTCTTTTGACATTACACCTACATTCTCTAATCTGGCTCTAATTGTTGGATTATTCAAAAATATTCTTTTCCAATCAATTAATTTCTTTCTCATATAAACTATAGCTTTTTTTGTCATTTCAGCTATTTCTGGCGTTAGATCTCTCCTTACTCCTCCAGGTATTATATAAGAATTAGTAACTCTTGCCCCAGTAAGTGACTCAAGAATATGAACCCAAACTTCTCTATCACCAAATCCCCACATGAATGCAGTAGAATGACCTAAAAATATCCCTAGTATGCCTAAACCATACAAATGGCTTGCTATTCTATTTATTTCTGCAGAGAAACTTCGTAAATAAAGCGCTCTTTCGGGAACGTCTACATTTAGTATTTTCTCTACTGCCATTATATATCCTAGATTCATATGTATTGAATCCAAGATAGCAGGGCGTTCAACTAAAGGAATCAAATGTATATAGTTTCTATTTTCGCTAAGTTTTTCGACTGCTCTATGAACATAACCTACATCTAAATCTACATCCTCTATTATGTCACCGTTTAATTTAACCAAAAGGCGCATGTGGCCTGAGCCTGGGTGTTGAGGACCTACGTTTAATTCTCCTTGAACAGGCACAATTTCAACTTCCATCCCTGAACTTGCTAATACTTCATTAGCTTGATTTATCAACAAACAACCCCTCCAATTTTATTTTATAGTTCTTTCTTAATGGATATACATCTTCAAAATCCTCAGGTAAAAACAGTCTTCTTAAATCTGGATGCCCATCAAAATATACACCTAGCATTTCAAATGTTTCTCTTTCTCCAGTCCATACGCTATTCCATATTGGATATAAACTCGTAATATGAGGATCTTTATATGTTACAAAACTTTTTAGAGCTAAAATGATTTTCGCCAGCTCCTCATTAGAATATGAAGATATATGATACACTATTTGTATTTTCTCTTGATCTGGATAGTCTATTCCAGTTACAGACTTAACATGATCAAATCCTTGCTCTTTAAGGAAATTGGCTACATCAAATAACTTGTTTTTATCGACTTCAATATATCCTCTATTATCACTCTCAGCTTTTACATTAACATTAAATTTAGATTTGATAGTTGTTAATATATTATCAATTTGGCGCTGCATTTTTATCTCCTCAACTCCCAATTTAGTATCATATTTATTTGATTTACAGAATAAACTAATATTGGATATAAAATTGCTATAAAAGACGATATAATTATCAGAATATTTCTAAATAATAATGAGGATAGATAAAATGGCACAGAAGCCACAGTAAAAAGTAAAACCAAAATTGGTTCCAATGATGTATATATTAAAAGATATCCATAATATTGTAATGGAAACCAAAGTCTTCCTTCTCCAGTAGGTATATTACCAGCCTCAAATCTGCTAGTTTTTACAGGAGACGGCTCATTAGGAACAATAAGTGAAAGTAACTTGTATCCACCATATCCTGCTATTAAAACTAATATTGAAGGAAGACCAAAAGCAACTATAGCTTGTGTGAATGACATCAATCTAATTAACGTGGTAAAGTGCTTAAAATATTTTTCTTAACAGAATATGAACCTACTTATATAATTTAAACTTTTAAATCGAAAGAAAAATATGTTTATTTTAACTTTTCGAGAATAGACTTTGAATTCAAAATACATTTTATTATACCTTCTCTTGGGACTCCCTCAATACAACGTTGAGATAAGAATTCCACACTCAGATTATCTAAAGTTATTGGTTCTTGTCTGATAAAGTTCTCATGGATTATACAGTTAGGTCCAGCATACCTAAAGAGACGTGGATGAACTTTCTTTACTTCTTCTAACATTTTCCATGCAACTGCTCTAATTTCCCATTGTGCTCTAGAACATAACCTAAGCCCGAAGAAATTATACAACTCCCTAGCATTCATTGTCACTACGATGTTAGTATTTACACCGTTAGGTAAAACATACCTAGCATCTTCCTCAGGGACACCGTTCTGTAGGAGGTCATAATATAGATCGTAAGCGTCCTTATATGCCTTCTTTATGACTTCCTCATTTCTTTTTTCTGCAGAGGGTGGTACAACAGGTTGGTAATATTCGTCTACTGGTTTGGCAAAACGGTGACTCATTTGAGTATATGAGGCTATCCTATGTCTTACTAATTGATGAGAGGCTACCCTACTTATTCCCTCAATTGAGAATGTGTAGACACTATGCTCAAGAGGTGACCAATACCCGTGAATTACTGCGTCTCTTATCCACGTTTCTATTTCGTCCTCGGTCATGGTTTCCTCATGATGTTTCCATCCCTTCCTTGATCTGCTCATCTTAGAAGCAATAGCAACTACTTTTTCTCCATCTTTAGTATATGAAACTAGAGAAACATTCATTTTTATAACTCTTCAGAAATAAATCTTAAAAAAGTGATGTCTTAATAGTATTGATAATTATAAAATAAAAACTGTGTTTAACATAGAAGTATATAAAAATTTATTCAAGAACATTACTTAGTTTTTCTGCTAATCTAGTTAGTAAAGAAGCGTTTTTTTCTGCATCTTTTTCTGCTTGTTCCATATATTTCTTCGCCTCTTCATTAGATAAACCAGAAATTCTCTGCTTATATACTGTTATCATCTTTAATTCATCTTCTAGAGAATCTAATATGCTTTTTAGTTGGTTTTCATCTATTTTCGAAGTTTTAAGAGCTTTATCTCTAAAGCAAGTATAATGAACTACTGCTTTTTTTGATGTAAAGGTAAAAAGTTCGTCCCAATATATTGGATTTTTACATATATCGCAATTCCATTTAGTTTGTGCACGGCTCATTGAAAAGAGTAGGAATTATATACTAAATAAATATTACGGTAATTATGCTAACAGAGAAAGTTATTTCTGACGCAAAATTTTACAATAAATTAATATTAACATTTTTCAGTTCCGAAGACTGTAATATATGTGATGAGTTATTTAATAAAATAAAAGAATTAAAAATCTCTAATAGATACTACATTTTTAATATTGATTCGATAGAAAAAAGCAATTATTTTATAAGATTAACTAGAGGAATAATTCCTACTATAACAATACTTTCCCCAGATCTAAAAATTCTAGGTATTATTGAATCAACCGACATAAAATTTATTGAAGATTCATTAAGGAAAATTTTTGAGTCTTATTTGAGAGATTTTAAAGGAAACGATATTCCTAGTTTTATCCCTGAATTGGATGAACCATCTCAAGAGATTTTTTATGAAATTATCAATAGAGCTCTTGAAAATGAACCAGTAGATTACCGAAGTGTAGAATTTATAAAAATATTTTCTACCGTACATAAGGAATATGAGAAAATAATTAACGAATTGAATCCAGCTAACGATATGGCAAAATATTTAATTAATAATTCTAAAATTGATTTACAACAAAATTATGTATTTAATATCTCATTCCTAGTTAATTTTGATAAAGAAGATAAAACAAAACTATTAGACTTTATAGATAAAGACGGTGGAGTATTTAGAAGTATAAAAAAAGAAACTAAAGGTATGTTGATAGACGAGGCTAATGTAGGAAATACTCTAATTTCTCTATATAATAGAACAGGGGATAATAGGTTTTTAGAACTAGCATCGACAATTTTCAATTACATTAAAGAAAATCTTAGTCATGAAAAAGGATTTAAAGATTGCCCTCCTAATGACGCTATAACATCAGTAGTCTTTCTAGAACCATTAGCTAATTCTGAGACAGCTTTATTTTTAGCTAGGCTTTGGGCTATTACACAAAATGAGGAAGCTAGAAAACTTTCAGAATTGGCAATGAAATCTGCATATGGAGGATCAAAAGACATCAGAGTACTCTCAAGGATAGCTTTATCATTAATAGTTTTGAACGAAAGAATAAAGACGTCTGAAAAGATAAGTTATGATGATGTTAGACTGTCTTTACAAAATATATCTTGCAAATACGAGTATGATGGAAAATGTTATAATTCCTTAGAAGAAATAAAACCTAAATTCTTCTAAATCCTTTTATAATATATTTATTTAGTTGTCTAGCTCCTCCTCCTTCACAAATTGTTCTAAAAACCCTGTAATTGTCTACAGGCAATACTTTTCCTACAATCTCAAATCCGTATTTCTTTAGGGTTGCCGGAGCTTCTACAGAAGAGACGCCTGACAAAATTATGTGTTCCGCTTTTAAGTTTTTCAGAATTTTCTCGGTAACGCCTAAGACTAATGCGGACCCAAATATTACTGCAGTATCACATATTTCTCCATTGTATTCAGAAAATGGTGTTAACTCAGTGTCTTGAGAAAAATCATAAGCTATTGTTTGCTTAAAATTAGACGAATTTATATAAGGTTGATATCCAAAAATACAAAGTTTGTTTCCAGAAAATAATGTTATAGGGTCTCCTTGTTCTAAGTTCTTACTTCCAATAGAATTCAATATTGCAAGAGAAATACTCCTTTTTATTGGATTATCTATATCCTTAGCTATCTCGTAAGCATTTTTACCTATTATTTCTCCTGCATTCTCAACTTCGCCGTCAGGTATAGTATGGGAAATACCTATAGTCTGATTATCTAATATAACCGAAGTATAGGCTATTCCAACACAAAGATTAATTATTTTCCTTTGTTTTAATTCATACGAAAGTTCTTCTATTATCTCATCTAAAATCATAAGATTATCTTACCCCTCTTAAATATAGGTTCACTAACTTCTTTATTAGGTAATATTATAGTATTCTGATTAAGTAGCACTCCGTCTTTTGTTAGAACTTCCTCTCCTATTATAGTCCCTTCTCTTATGTGATTCCATTTCCCTATATTTGACTTATCAGCTATTATAGATCCTGAAATATACGAATGGTCAGCTATTTTCACATTATCCATTATAAGCGATTCCGAAACAAAAACTCCTTCGCCTATACTTACATTTTTTCCTAAAATAGTATTTGAGTCGACTATCGAACTATCAGAAATTTTAGCACCGCTTGATATAAAATACGGAGGAATTAGAGTCACGCCAGAGCATACTTTTGCATCAGAGGCTATATAGCCTTTTGGATATTTCTCTGCTAATAAAGAAAAGTTTAATTTTAGATAATCTTTAGGAACTCCTATATCTGCCCATATTCCATTATATCTGTATACTGATATACAGTTATTTTGCAAAATCACTGGCAAAAAGTTCTTACTTATGGAATTACCACTTATTAAATCAAATAATTTCTTATTAAATACATACACTCCAGCATTTATCAATTTAGAAATAGGATTTCTAGGCTTCTCTATTATTTCTATTAATGTATCACCTTCTGTAACTAATACTCCATATCTCCTAGGATCTTCAACCTCTTTACCAACCATGGTTGCTGGACAATCTCTCTTATCATGAAATGAAAGAAGATCCTTTATGTTCAATTCAGTATATATATCTCCATATATCACTATTACTGTGTCGTCTAATTTGTATTGATTAACAATATATTTAAGAGGTCCTGCATCGCCTAACGGATCTTTTTCTACTACAAACTTAATTTTTCTACCTTCTCCCTCTAAATAGTCAATTATTTTATCTCCCATAACTCTTAATGATACGTATATATCGTCTACACCTGCATCTTCTAACAAATCTAGAATATAATCTATCATAGGTTTATCTAATACAGGAAAAAGAGCTTTTGGTTTAGTTAAGCTTAAAGGTCTTAATCTTGTAGCATATCCTCCTGCTAGTACTATAGCAGATACCATAAGGTTAAAAGGTATAGTAGGAAAAAAAATTATTTATTCAGATATTTTTCAAGTTTCTTGTTAGCGTAGTCCCAGTTTACTAGATTCCACCACGCATTAACATAGTCTGCTCTCTTATTCTTATACTGCAAATAATATGCATGTTCGAACTCGTCTAATATAAGAACTATTGGTAATTCAGCTATGTGGTTCTGGAAATGATTTTCAAACGTCATAATTTGTAAATTGCCATTTTCCGTTTCATAGTATAATACTGTCCATCCTGTTCCTGGTAAAGAGTTTGCTGCTTCTGTAAATAAAGCCTTGAATTTGTCGAAGCTTCCATATTGTTTTTCAATAAGATCAGCTAATGATCCGCCAGGCTTTCCACCACCTTTTCCATTTGGAGCCATGTTTTCCCAATATAGGGAATGAAGTTTGTGTCCATTTATGTTAAATACGAGCCCTCTTAAAAGACCTTGTATGTCATATTGACCAGATAATAACTCTCCTTTAGTTACTTTTTGCATTCTATCCAAAAATGAGTTTGCTCCGTTTACATACCCTTTATGATGCCCATTGTAGTGCAAATCTATTATATCTTTACTTATGTATGGTTCTAATGCATCTAATTTATAAGGTAGTGGTGGTAGCTCGTATTTTTTGAAAGATATCGAAGAACTCATACTAACAACTAATTAATAGTCACTTTTATCTCTTTCGCTAGGAATTTCCATTACGAATTTCACCTAAGTCAAAATAATACCATTAAATTAGTTATTCTCAAAAAATCCAAATATTCAAAATTCATATTAAAATAGCTAAAGTCTAAGTATATAGCATAACAACTATCTATTTTAAATTTATATATTTCTAAAGAAGAATTATATTCAATGTCAAATAGAAACTTTCGCAGTATTGTTCTAGATAAATATTCTGATTATATAGAGAGAACCTTACTTAGCATTCTAAATTCAGTTTTAGCGTATGGATTATCAATATTTTTGGGACTAAACTCTCAATATTTATACTTAATTATACCAATAGTAGCACTAACGTCTATAGTAATCCCATTTATTGCCTCTCCAGTAATTACAGTATTATATATTGTTAATCTCATTTATGATAAAATTATAGATATAGATACAAAATCCATTAATTTTGATTTTAGTATATATATATTAATAGAAATAATCTTAGCAATAATAGTTCCACTTCTTATAGAACTAAAGTATAAATCTATCCAAGGATTTATTTCAATAAATAGTTTACTGTCCTATTCTATATTACCCTTATTTTCCATTTTTCTAATTTCTGGAATATCCGAAAAGAAAAGTAGTTTAACAAATGCTTTATCCTCATTGCCCTTACTAAGTATGATAATTTATTCAAATTTATTAGATTTCGATTTAAAAATGATGATATTAGAATCGGTATTAATAATTAGTGGAGCAATAATCTTAGGATTAAAGAAATTTTTAAGTCCTATAGGAGTAATTCTTCCCATTTTAGCATTTTATCTATATTTTGATAATTTATCAACAATATATATAGCCTCAATGGGTATTATAGGTACTCTAATAAATTTGATACCTACTATAGATATGGAATATAGTAAGAAAAATTCAACAAAAGAAAAATTCTATTCAACAAAAGAAAATCTTAGAAAAGAAATAGAAAATACTGTACTAATTCTACAGAGACTTATAGAGAATAATTTAAGTTTTGATGAGCTAAATTCAATACTTTCGCAATCAAAAAACACTCTAGCTGATATTGACGGTTATATTGACAAGTGCCAAAATATACAGTGCTTAAATGAATTAGAAAAAAAATATAGTGAAAATAAGAAAGAAATGGAAAATAGTATAAATGAGATAGTTTTTAATAATATAGTTTCATACAACGAAGTTATAGGAAAACTTAAGAGATATGGAATTAATGGCGAGGAGATACAAGTAAGCAATGCTAAATTTTCATTAGATGAAAATGGTATAGATTATATATCGAAAATATTTTTTAGTATCAATAAAAATGTAAATATAATACTTAATGATTTAAACGAGAGTATAGACGATCTACAAAAATTGGTAGGAATTAATCTAAATAAAATATTTATAACAGATTATAGAAAATTACCAGATTTAATATTGTTCATACAAGATAAGAATTTAATTACGAAATTACAAAAACTAGTAGACATAGAGAAGGAAATTATAGCAAATTTAAACGATCCTAAGATTGCTGAAGCTAAATTAGATATATCTAAAAAACTAAATTTAATAAACTTGACTAACATAACATTTTATGAAGTAAAAGAAATAGTACAAGTATCGAAAGAATTAGATAGTATAGTAAATTCTGAAATGTCTAACATAAATAGGAATTTATATAATTTAAACCTAGAAATTGGTAAAGATTTAGAACAACAACAGAAACTCATATACATGAAGTTGACAAATCAAAAAACGTTATACGATAAGTTTAGTAACTTTCTGACGTCTATAAACCTTATAAATGATTGTATTGAAATTAGTGAAAATAAAGGTGAGATAGAATCTTTATATCAATTATTAAATGATAATTCTAAGGAAATATTAAGTTCCATATATGAAAATAAATGTATAAGTATCTCAGATTTAGGTATTGATCAAAAATTCTCAAAATATGTTTCTTATTGGCTAAATAAAAAAGGTGTAAAAGCTACATATATAAAAGATAAAATATGCCTATCTTAATCTTCTTATAACTATTTCTGCATGATCTCCAACTACATCTCCTTTAAATAAATATCTTGGCGCATTTCTCAAAAGTTGATGAGTGCACATTATCCTATCAGGGTCAGCAATAACCTGTATGCTATCTCCTGGTTTTAAAGCAACAAGATATTTAGAAAGTTCTACTATAAACTCTTCACATTCTTTACCTCTCAAATCTAGAGTTGTCATAAAAATTAGTTTTTATTATTTAGATTTAAATTTATCTAGAGAATCAATTTTCTTTCAATATTATTATCTTCCAATTTTTTCTGTTCTTTTTCTATTTTATCCCATAAATTGTCATAGTTATCTAGCATATATTTGTAAACTTTCATAATTCTTTGCATTATTGTTAAATCGCTTAGCGGATATATTTTAACACCTACTCTTCCTACACTAGCACCTCTAATCATTAACCAATGTGCGAAAACTTCGAGCGGATATTTTGATTTAATGTTCTCTATACTAATTTTTGTTCTATATAACCAATAGATCTCTCTTATAAAATTAGATGATATATTTCGGATCATTTTGTCTTCCCATTGTTGAAGATATCTTTCTCCTTCTTTTATCATTATATTCCTAAGATAGGTATATTTCTCTTCAGCGTTATCGCTTAAGGCCAAACCAGTAACTGCAATAATAAAATCTTTCTGTGCCATAAATGAATCAAAGTCTCTATTAACATATATCCATGCAGTAGCTGCAAAAGAATCTACTATACCGTACATTAATTTATTTATTAGTTCTGCTTTATCTATCTTTCTACTTACTTTTTCTCCATTAAGTATTTTAGTAAATTCTTCAAAGTCTACTGTCCCTGCATATATTAATTTGCCATCTATAAAAATGGACGGTGTAGAGATAACTCCCCTTTCTATAGCTAGGAAAGGATAAAGTTCAGTATCTATAACTTGAACTCTTCCTAAGAGACTCTTTTGATCTAGGTATTCTAATAATAAATTGCATTCAGTACAATTTTTATGAGTAAATATTTCGACTTTCACAGTAATGAAATCTTATTAAGTATATTTTAAATTATAGCTTTACTTTCCTAGGATTATAGCATCTAAGTTTTGTTTTCCACATTATATTATCAAATCTTTTATCAAGTAGCCATACATTCGCTTTATCTTCCGGACTTCTTATAGCTCTACCTATAGCTTGTTTAACTGAAATGTATGCAGGTACTGAAATCAAAAGATCAATTAGATTTTCTCCGGTAATTTTTCTAATTTGCTCTGCCTTTAATTTCAGGAAATCATCTACTGAAGGATAAGGTATGCCAGCCAATATAACATCACTTATAAGACTTTTTCCTTCCATAGTAAGCTCTACACCTTCTGTCAATTTTCCTCTTGCTACTCCTGCAATTATAGTTTTGCCTTGTTTAGTTTTTTCCATTATTTCCTCAATATTTGTTTTATCTTTTTCGACAAATTTTCTTACTTCGATTAAATTCATGATTTTTTCCATAATCATATAACTAGGAAAAACTGCAAGAATGTGCTTCTCAGCTAAGTGATAAATTTTTAGTATGTAACTAGCATATTTCTTCCACATTTCTGTTGTTCTTAGAGAATAAGAGGAAGTAACATCAGTAGCTATCATGCAAGTATAATTTCCAGTTATCTTGCTCTTTACTTCCTTTTCTACATCAATATATATCATTCTTCTTTCTATCCCCATAATTTTCTTCATATATTCTATTGGTGGTAAAGTTCCAGACATTAGAATAAAACTTGTATTTGCATTAAGAATTGACAGCATATCTCTAGACGTTAAAGGTTTTGAAACTAAACTACCCTTATATGAGAAAACTTTTGCCTCAGATAATGAAGTATAAAATTTTAATATATTACCAAGATATATTCTTGAAATCTTCTTTTGCTTTACTGCTTCTTCTCTCTCTAATTCATATTCATCTTTTAATATATCTAATTCATCTTCAGTAAGCTTCGGATAATTATCCATTAGTATATATTTGTCATCTGAAAAAACAGATTTCCTTATCTCCACTTCTAATTTATCCAATATCTTTATTACTTCGGAATTTTTTACTTTATTCTTAGCTAATTGTATTATGTTTTGATTTAATTTCCTCTCCTGTAGATCGTTTAAATAATCTAAATTATGCGCTTCATCAATAATTACTGCAAAATCTTCAATGTTTATATCTAAAGACTCTCTTAAATAAGGAAGAAAAAGGTAGGGATAAGTTATAAGTACTAGATCTGAATCTTCTATACTTCCTAGTAAAGAATAATATGGGCAATACCCTTTTTCCACTCCGTCTTTCTTGATTTTTTTAATAAAAGCAAAGGGTGACTCATCTACAGTAATTTTAGCAGAGTTATATATCTCACATGACGAGCACTTTATATCTTCTGGATCCACATCACCAGAAACAAAAGGGCATGCTGAACTTTTCCCTATGATAAAAGAATATGTTTTATTAAGCTTTCTTATTTCTCTATACACTGGATAAAATTCATTATGTGTCCTAACAACATAAAGAACCTTAGGTTTAACTTGAAAAGAAACTAAAATAGAAAATAGTGTTTTTCCACTCCCTGTAGGAGCTTGTAAAGATACTAAAAATCCATTTTTTAAGTATTCTGTTACTTTATCCTTAAGAAAGGACTGCCAGTATCTTAAATCCACTCTTCTGTCTTTACAACAATTTCGTCTAACATAATATATTTTACGAACGATTTTTCTGAGAGCTTAGTAACATCCTTAGCTTTACCTTTAACTTTTATAGTCTGCATAAAATTATAGACTTTTTCGACCTTAACTAACTGTGATACGTCGTTAATTATATCTTCTGAAGGAGGAACGTCAAGAACTATAGTTGCTTTTATTTCTGTACTTGGAGAGCTATCAGATATCTCTACTATTCTATAATCAACTTTTGACCTCATAAGTTCTCTAACATTAGACATTTTACATTACACCTCTAAGTCTATAATATAGAGTTTTAACATTATAAAACATTTCTTATAATGGCTGATTATGTAGTCTAACATATATAAGTAACTTATTAACTAACTTATAATAATGACTCAAATAACTGAAGCTAAAAGTGGTAATGTTACAGAAGAGATGAAAATAGTAGCAAAAGAAGAAAATGAGGATCCAAATAAAATAAGAGATAGAATAGCTAAAGGTAAAATAGTAATACTGAAAAACAAGATTAGGAGCTTAGAAAAATATACTGGAGTTGGAGAAGGGTTAATAACTAAAGTTAATGTAAATATTGGGGCTTCCACTGATCATTATAATATAGAGGAAGAGATGGAAAAAATAGAAATAGCAAACAAATTTGGGGCGGACTCACTTATGGACCTAACTGATGGAGGAGATATAGACTATATTAGAAAACTAGTTTTACAAAGAGCTAAAATGCCAGTTGGTACAGTACCCATATATCAATTATACTATGAAATGGTTACAAAAAGAAAATATGTTATAGACTTTACAGAAGATGATTTCTTTAATGTAATTGAAAAACATTTTAAAGACGGAGTAGATTTTGTAACATTACATACTGGTGTAACCTTGGATTTAGCTAAAAAAGCTGCTGAAATGAAAAGAACTGCTGGTATAGTCAGCAGAGGAGGAACAATTTTAGCTGCTTGGGAAATATATAATGAAAAAGAAAATCCTCTCTATGCTAATTTCGACTATTTATTAGAATTGGCAAAAGAATACGATGTTACATTAAGTTTAGGAGATGCTTTAAGACCAGGTGGAATTGATGATGCACATGATGAACTGCATGTAGGAGAATTAATTGTGAATTCAAGATTAGCTAGAAAAGCAATAGAAAATGGTATACAAGTTATGATTGAAGGACCTGGACATATGCCTTTAGATCAAATAGAAATGGACATAAAATTGGAGAAACAATTAAGCGGTGGTGTTCCTTATTACGTACTAGGCATTTTACCTACAGATATAGCAGCAGGATATGATCATATTGCAGGAGCAATAGGAGGAGCAATAGCAGCTATGAATGGTGCAGATATGTTATGTTACTTAACACCCGCAGAGCATCTATCTTTACCTAATCCAGAACAAGTAAAAGAAGGATTAATAGCTTTTAAAATAGCAGCACATGCTGGAGACATAATAAAAGTTGGAGAAAAAGTAAAGAATAAAGACACTGAAATGAGTAAAGCTAGATCCAGATTAAATTGGAAAAGAATGTTTGATTTAACATTTGACCAGGATAATGCAATAAAAATCTATTTACAATACAAAAATTTTGCTGGAGGTTCATGCACAATGTGTGGAGATCTATGCGTTTATTTAGTTCTTCCAAGAGCATTAAATAAGAAAAAATATGATAAGGATAAAAAGACCAGATCTTAAAGTTGGAGAAAAAACTAAAATAAATCAAGATAATTTAGAAATTCTTTTAATTTATTTAGGTGCAGATAGATTCTTAGCGTTTGATAACAGATGTCCCCATTTAGGATGCGATTTATCAAAATACGGAGTATTAATTAGAGACGAATTAGTTTGTCAATGTCACTTTTCACATTTTTCAATATTTTCTGGAAAACCTATAAAAGGCGCAGCTAAAAAACCTATTAAAATATATAATGTAAAAATTGACGGAGACTATTTAATAATTGGCCAATAATTGAAATATTCTTTTTATATCCTTATAATGCATTTGGCCAGAAGCTGTTGGTATATCAACATATCCATAAATCAGTTTTGAACCTAAAATTGAGAAAGCAATTCTCTCTAAAGGATCTACATTCATAGGCATTACTGCTATATTCTCATATCTGAGTAATTTAATCAGAATTTCCCTATAGTTTTCTTTTCCTACTAAAGCGAATTTTATAATATATGCCTCACGATATTTTCTTATAATATCCTCTAATTCTTCAAATGAAGGAATATGATCAAAATAATGAGCAGAAACTATTTTCCCTTTATGTGGTACTAATTCTCTCTGTAAAAATGAGGCTTCTATATCGTATAAAAATCCTTTGGAATATAGCTCTTTTAAAAAAGCAGATTTTTCAGCATCTGGAATTTCCTTATAACCACCTTCACTTTTATCCCTGATAGTAAAAATTAATTTAGATCTGTATTCATTCAGAGAATCTAAATTAACCTCTAGCTTGTCCATATAATCTAGTCTTAACTCTATAAAATCCGCGTCAATACGCTTTATCTTTTCTAAATCTCCTATATTATAAACGGGTAATGAGGCTACTATAGAAGTTCTCATTTTATAGAAATTTTGCCACCTAAGAGTTTTAAATCTTCCCAGAAATTTGGATTGCTTTTGTTTACACACTCCGCATTAAGTATTTCACCGCCTGAATATGTAGCTAAGTCTGCTGCCAACATAGCGATCCTATGGTCATTAGGACAAACTACTTTCCCCCTACTAGGTTTTGATCCAAAAATTAAGATATTTCCGTCTGAGTATGATGATTTTATATTAAATGCTTTCAATGTCTCTATAATAGTTTGAACTCTATTACTTTCCTTAATTTTCAGCCTATCTATGTTTCTTAAAATAGACGTGCCCTTAGATACTGCAGATAAAGCAGAAATTGAAATAGCCATATCTGGAGAATCATTTAAATCGATTTCTATAGGATAGTACTCTTTTGAACTTTCAACAATCCATTTGTTATCGTAATAATAACTTTTCGCTCCCATTCTCCCTAATATTTCCATTATAGAGTGATCTCCGAAATAATTTGGAGGACTATATAAATTTTCTATTTCTATTCTACCACTAGTTATTAAAGAAGCTATTGCATAAAACGAAGATAAAAGATAATCTCCTGGAATTTTAGTATTATAACATGATAATTTTGATGATTTGATGTAGATTGTATTTCCTTCCATTTCTATTTTAGAACCCAGCTTGTTAAATAAATCTATTGTCATGTGGATATAACTCAAAGACGATATAGGAGGAATTATATCTATTATACCTTCGCCTAAAAGATGATAAGCGTAAATTAATCCAGTTATATACTGGCTACTTTCCCAACCTTCAATTTTAGTTTCTCTTTCTAATTCCCCGTATATTGTAACAGGAAGAAAATCTGATGAAAATGAAGCTTTTTTTAAAGCTTTTCTTATTGCGCTTATAGGTCTTTTTCTAAGAGTTTCGTCTCCATCAATAGTAACTTTCCTCTTTAATGCTACAACAATAGGAATAAGTATCCTTAGAGTTGTTGCCGAGCCTCCTACATAAATATAATTATCTCCACGTCTTATAGCTTTTACAGCATTTATTGCTGCAATAATATCATTTGAGTTCCAAAAATCTGTATTAACCTCAGTTAACAAAGATAAGAACGCTACCCTAATTGCTAAACTTTTAGATTGAGGAGCTTGAATTCTACCGTGTATTATCGATTTTTCTATATCTATCTCCAATTTCAACTGCCCTTGTTACTATAACTTTACCATATTTACTTAAACTTTCATAAATAGGACCATCATCTCCTTCCTTACATAAAGCAAATATCGACGGACCGTTACCAGAAATTCCAGAGGCTATTGCACCGTTTTTTAATGCGGATATTATTGGCTCCTTATCATAACCCAAAATTTCCGCTATAGCTAATCCGTTCAGTTTCATTGCTGTTATGATATCTCTTAATGCTATTTTGAAGATCTCCTCAAAAAGTAAATTATACTTTTTTAATATCTTAAGGTCTATATTAGGCCTATTTCCAATAGCTAAGATCAAGATAGAAATATCTTCAGGAAAATTTTCCATCTTGATTAATTTAAATTCCTTATTGTAAGTAAATGATACGCCCCCATAATACGCAGCAGTAGCATCATCATATGCACCAGTAACCGAGACTCCCGATTTAATAGAGAGAATAGCAGAAAGTTTAGGTATATCTACTTCAATTCCGAATTTTTCAGATATGGCTGCAATTAAAGCTGTAGAGACTGCGCTACTACTTTTTAATCCGCTCATTTGAGGAATTTCAGATCTTATGTTAACCTTTAATTCTGGAATATTATATGTTTCCCTAAAATAATCTAGAATAGTCTTTACAAGAGAACTTTGAAATGTACTATGTCCTTCTTCAACGTCCACATTAACTTTAAGGTCTATAGCCATTGAAGAACCGTACCATGAAGGTATAGCATTTACTATTGAGATTCCTCCAAAGGTTTGCATGCCTCTTTATACCTCAACCATCTTTCTTGAATAATCTCTGCTTCCTTATTATCTATTTTTACGCTAGGAATAACTCCAGATCTTATAGCATGATCTACTAAAACTAATGAAGTCATTGCTTCGACCACTGAAACACCTCTAATAGCTACTGCTGGATCATGTCTTCCTAAGACAGAAATTTTAGATTCATTCATTGTCCTAAGATCTATTGTCTCTTGAGGAATTCTAATAGAACTAGTAGGTTTAAATGCACAACGCAATATTATAGGTTCCCCATTAGTTATACCTCCCAATATTCCGCCAGAAGTGTTATTTTTCCATCCTAGTTTGCCATTTTTTATTATAATCTCATCATTAGCTTCACTACCTCTCATTTTAGCTAATTTAAATCCTAAACCGTATTCAAAACCTACTGCGGCGGGAATAGACATAATCGCTTTAGCTAAATCGGCCTTTATTTTATCAAAAACTGGCTCTCCTAAACCAGGAGGAGGATTTTCCACAAATATCTCAGCTATACCTCCGTAACTATCTCCCTCTGTTGTAGCCTTCTTAACTAACTCAATGAACTTATTTTCTATATCTTTATTTGAAGCTCTTACTGGACTATATTTAGAACATAAAATATCATCAAACTTTACTTCGGTATCTAGTTCAATATTACCTAGACTTTTGAGATGACCAGCAATAATAGTATTAGTAAACATCAGTAGTTTCTTTGCTATTGCTGACGCGGCTACTCTACCTACAGTTTCTCGAGCACTAGATCTCCCACCTCCTCTATAATCCCAATTCTCGTAGCCATATCTCATAATATAAGGTAGATCAGCATGTCCTGGCCTAGGCTTATATTTTATTTCCTCATATAATGAGGAAATTACATCATTATTTCTTACTAAAATAGCTATTGGAGCGCCAGTAGTCTTGCCGTTAAATATTCCGCTTAAGATTTCTGGCTCGTCTTTTTCTCTTCTACCGGAAACTAAAAATCTTCCAGGGCGTCTGAATGACAATTCGAATTGAATATCTTCTTTATCTAAAGGTAGTCCTGCAGGAACTCCGTCTATCACAGCACCTACTGCTGGTCCGTGGCTTTCTCCAAAAGTAGTTATTCTAAAAATATTACCGAACGAGTTTCCTGGCATATAGGAAATTCACCACTTCATCTTCATTAACTGTTTTTCCAAACCAAATTTTTTGAGCTTCTAAAGCTTGTCTAACGAGGATTTTAAGCCCATTTACATCTTTCATTCCATTTTTCCTTGCTTTATCCAAAAAAGTCGTAATTACTGGAGTATATACGAAGTCTATGGCTATATTACCTTTAATACAGTGTTCAGGAATAAAAGAAGGATCTGGAGTAGCGTTAGCTATTATGCCATATTCTATTGAACAGTTCTCTACAACCTTGGCTTTGTATCCTTTTGATTTTATATACTCGACTAGTTTCTCTCCTTTTTCTTTCTTTCTATCATAGATATAAACCTTGAATCCTTCTTCTGCTATTGCAAAAGAAATAGCTTTAGCAGCACCTCCTGATCCAAATATTATAGAATCATAATACCCAGTCTCGTTTAATATTGTCTTTAATGCTAAATAATCAGTGTTATAGCCCTCTTTTTCCTTTATAGTATTCACTGCACCAATTTTTTCTGCAGTAAAATCCACTTTATCTAGATACTTAATTATTTTCTCTTTATAAGGTATAGTAACATTAAAGCCTTTACCAAGTTCCAATAATGATGAGGTTAATCTTTCAAATTTTGTTTCATCTAAATCAAAAGCTAGGTACACCGCATTTATTCCTAGTTTTTGAAAAGAATAGTTATGAATAGCTGGAGAGAGAGTATAGCTTATATTTTTGCCTATTATACCAAGTAATTTTGTAGAATAGTTTATTTCAAACACTGTGACGCAAACCCTTTTAGAGTTTCTTTAGGAACATCTACTTTCTTCCATTTTCCTATTCTAGTGGGAAAAGGCATCATAACAAAATTTCCCCGAGTTTTTTTATCCTTTTCAATAGAGCTTAGCGCTAAATCTAACGAAATAGGAATGCCTATTTTATCAATACTTAATGGAAGACCATATAATTGCAAAAGCCAAAGAACGTCTTCTACTACTCCTTCTTCAGAATATCCCATTTCTTCTGCTATTTTAGCTTCACATACCATACCTACAGATATAGCATATCCATGAGAAATCTTAAAATTAGATCCTGCTTCTATGGCATGACCTATTGTATGACCAAAGTTCAATACTACTCTTATTCCTTTATTCTCTCTTTCATCTTCTTTAACTACCCCTAGCTTATCATTTACTGATCTATAGATAATTTCTTCTAATGCATCCTCCTCTTTATTTAGTATCCTATCTTTATTTAAAGAAAGAAAATCATATAGATCCTTATCTAAGACCAAGGAATACTTTATAACTTCTGCTAATCCCTTCTTAAGTTCTTCTAATGGTAAAGTTTTAATGAAATTTAAGTCTATTACTATATTACTTGGCTGGTAAAATGTCCCTAGTATATTTTTAACTCCTGCAAAATTAACTCCATTTTTACCTCCTATTCCTGCATCTACCATTCCCAAAAGTGTAGTAGGGACGTTTACCAAATTTATACCTCTAAGATAAATAGACGCAGCAAAACCTGCTATATCAAGTACAGTTCCTCCACCAACTGCAATAACATAATCTCCTCTATCGAAATCATTATCAAACAAAGTTTTCACTATATCTAAAACGTTGGATAAATCCTTTGCTTGTTCACCATCATCTATAGGAATCACAACGTCTGCTTTAGGATTTATTCGAAGATTTTTAGAATAGATTATTGCTTTCTTTTTATCAAGCTCAGATAGAAAATCTTCAAACTTTTTTCCTATATCGACGTTAATTTCAAAAGAACATATATTCTCCTTAATATTTTTCATACAGATCTACCGAGAGCCGAAGCTAAAGCTTTTATCCTATTCATAAGAACTTCGAAAGATTCTGGAGTTAATTGTTGCTCAGAATCACTTAGCGCACTTTCAGGATGTGGATGAACCTCTATTAGCAACATATCTGCGCCAGCTGCTACAGATGCTAATGCTAAAGAGTGAACTAACTCTCTTTTACCTGCAGGATGACTCGGATCTGCGCAGATAGGTAAATGGGTCATCATTTTTGCCGCAACCATTCCTCCAATATCTAAAGTAAACCTTGTTGATTTCTCAAAAGTTCTTATTCCTCTTTCACATAATATCACGTTTCCGTCTCCTCCATAAAGCAAATATTCTGCTGCTTGTAACCATTCCTCTACTGTATTAGCCATCCCTCTTTTTAGGAGAACTGGCTTTCCTATTGAAGCCACTTCTTTTAATAAAGAGAAATTTTGAGCGTTTCTTGCTCCAATTTGCACCATATCTACATACTTCTTAAACACTTCAGAATCTTTAGTGTCCATTATTTCTGTGACTATTGGCAAACCTGTCTCTTCGCCTGCAGTTTTTAGAATTTTTACTCCTTCCTCTCCTAAACCTTGAAATGAATATGGACTAGTCCTTGGTTTATAGGCTCCTCCTCTTAAAATTGAAGCACCTGCCCTTTTTACTGCTTTAGCAACACTTACTACTTGCTCTTCTGACTCTACAGCACAAGGACCTGCTGCAACGACTATTTTATTTGTACCTATTTCAGTGCCTTTAACTTTAAATGATGTAGGATCTTTTTTCCATTCGTTACTAGCTAAGATATATGATTTTTTGGTTTTAACTGCAACTTCAATATCCTCATCTACAATCTTTTCTGCCTCACTATCCGGCCATACTAATAGTAAATTTTTTCCATAAAGATTAAGAAATTTGTATGATGAAGATGATAATTGTAATTTTTCCTTTAAGGTAGAGTAATCTCTTTTATCTTTTAATATGAAAAGAATCATTTCTTCTCACCTAAAAATTCATTATAAAGATTATTTAGCTCTTTCATACCTAACTCTCTAGCCTTTTGAGAGTATGGATTTAATTCCTGGATCTCCATTATAACACTATGGAGATCATTAACTCTTTTTATTATCTTATAAATATCCCTAAAATTTGTAGTTTGGAAATTTGAAAAATCTACATCCAACTCTTTAGCAAGTAGCTCTATACTTTTACTCAATGCCATTAAATAAAAATGTGGTAAAACTTGCACTACAGCCATTGCCTTTTCATGATTTTCTAAACTAGTCTGTATAGGAAAAAGACCGCAATTCCTCCAGAAGTCCAAGATTTCTTTTGAATCAGGAAATGTTATCGAAGGAATTACGGCTATTTTTTCACCAACTGGATAAAGATATGGACCAAAGAGAGGATGAGAAGATATATAATTAAAATTATTTTCAAGCGACATTTTTTCTAAAAAGCCAAAAATAGAATGTTTAGTAGATAAAATATCTATAACTTTTTTCCCACTAAAATATGGAAAAAGCTTTTTCATAAAATCCGAAACAATACCAGACGGCGGTAAGGTAATTATTATAATCTCTCCCCATTCAACAGCCTTATAAGGCTCCATGTAGGCATATCCAAATTCGCTTGCGAGCCTTTCAGCTTTTTTTATATCTCTACCAGTTACTACAACTTCTTGTGAAGATATTTTAAATAAAGAAATTAGAGATCTAGCCATTCCTCCATATCCTATTATAGATATTTTCTTTATGTAGCTAGGATTTATCTGAAAAATTTTTGAATAAGAGAAAATTAAATTTAATAACGGATCTATCATTGACTCAGGGATGCCATATTTCTGAGATAAAGACAACCATCTTAACCTAACTGATTCTTCTCTTTTTTCATCTGTTATAGGAAAATTATTTTTTTGTTTTATTTTGCCTATTTTACCAGATAATTTCATTCTTTCAGATAACAAATAAACTAACTTTTCATCTATATTCTCTATCTGTTTCCTTAAGTCGTCTATCTCACTCATTTAATCAGCTCTAAAGCAGAGTTTACTATAGACTTATCAGTTATATTGTAATAGTCTAATAATTCTCTTTCACTTCTTGCAGATCTTCCAAAAGTAGTAGCACCAACAAATCTCATTGGTACAGGATATTTCTTAACTACAACTTCTGATACAGCAGAACCTATTCCTCCATATATACTATGTTCCTCTATAGTAACTATTCTACCAGTTTTTCTAGCATAGTATTCTATTGTAGATTCATCTATAGGTTTTATAGTCTCTAAATTTATTACTGCAGTGCTTATTCCCATTTTCTCTAATTGTTCAGCTGCTTTAAGAGCGTCCCATAAAACTACTCCAGCTCCCATTATAGTTAAATCATCTCCGTCCTTAAGCACGTAAGCCTTACCAATCTCGAACTTGTAATCAAGACCATTGGTTATTGGAGGAGAATATTCTCTTCCCATTCTATAATATATAGGACCTCTCTCCTTCATTATCACTGGCAAACCTCTAATAACATCAGCAGGATCTGCTGGAACTATCACTCTCATGTTAGGAAGAGTACGCATTAAAGCTATGTCTTCTAAAGACTGGTGACTAGAACCGTCTCCGCTATCACTATATCCAGAATGAGTAACCAGAATTTTGACATTTAAGTTCATTCTACTTATACTATTCCTTATTTGTTCCCATGCTCTCATCGTAAACATTGCAAAATCTACTACAGCAGGCTTCTTTCCAGTAGCTGACAATCCAGCAGCAAAATTTACCATATCTTGCTCGGAAATTCCGACATTGAAGTATCTCTCTGGAAATTTTTCCTTAAAGTAAGAAGCCCTAGTAGAATCGCCAACGTCAGCAGTTATTACTATTATGTCAGAATCTTCTTCCCCTAACTTTACTAAAGTTCTACCAAAAGCTTCACGAATTGAAGAGAAACTTCCTTGTAACATCAGGACTCGCCCTTTGTTTTTTACTATTTTCTATTGGAGTGAAACCTTTACCTCTGAGAGTTTTTGCAAAAATTACTGCAGGCTTCTTTGCCTTCATCGCCTCTTCAACACTATTTACTATACTAGAAATATCATGGCCATCACATAAGAAAGTCTCCCATCCTACTGCTTTCCACACATCATGCAGAAACTCTTTAGGTTTAACATCTTGAGTCGAAGCGTCTAACTGAAATCCATTAATTTCTATAAATGCTATTAGGTTATCCACTTTTCTAGCTACTGCATGTGTCATTGCTTCCCAGATCTCTCCTTCGTCTTGTTCTCCATCTCCCATAATTACAAAAACTCTACCACTTCCATTAGACATTTTTATTCCAGTGGCAACACCAATACCAAAACTTAATCCCTGCCCTAAACTGCCTGTAGACATATCTATGCCAGGAATGTATACTTCTGGATGACCTTGTAATAATCCGTTTATTCCTTGAATTTTCCATAATTCTTCCTCTGGTATAAGTCCTTTCTCATGCAATACTGCGTATAAAGCTGGAGCTGCATGACCTTTGCTTAATATTAACCAATCTTTGTCTGTAGGATTTTTACTTTCTCTCACGTATCTGAATAGTAACGTAGTTAAAATCTCTATGCTACTTAATGACGACCCTACGTGAATTGATTGATCATAGAACTGCATTTTTATAACATTCTTTCTAGCTCTTTCTGCAATCTCTTGCAACTTTTTTAATTCTTCTAATGATATTGGAATTCCATCACTTCCACCTTTTCCCATTGGTGCAACAACTAAACCCCCGAATATAGAATAATTCTTATTTTTTAAGCTTTCATTATTATCTATGGAACGATATTCTAGGCAATTATTAGCCTTAGGTTTAGAGCTTCAGGAAAAGATTTCTTCTTTAAAGGTAGCTGTTATAGGATGCGGTGCTTTGGGCTCGGCTCTTGCAGAAATGTTAACTAGATTAGGAGTAAAAGAATTAGTTTTAGTAGATGCAGACGTAGTAGAATTAAGCAATTTACATAGAACTCACATATTCACTGAGAAAGATTTAATGAGACCTAAAGCATTAGTTTGCAAAGAATATTTAAAAAAAGTAAATAGTAATATAAAAATAGACACAATATTAGATATTTTAGATAGCAAAAATGCCGAAGAAATAGTTAAAGGAAACGATATAGTGTTTGATGCTCTTGATAATGTAAATTATAGACTTGTCCTCAACGATGCATGTGTCAAAAATAATATACCATTAATATATGCCGGTGTAACTGGAGAATATGCTTCAGCTAAAATAATAATTCCTGGTAAGACCTCATGCCTCTCTTGCTTTTTAGAACCTATTGATGAGCGTAATGCATGTGAGATAATAGGAACTACTATCGCTACAATAGATATTATAACGTCTATTCAAATTCAATTGCTCATAAATTACCTTAGAGGAAGATACGAGGATGAAATGATTTACATTGATATGGAAGATTTAAGATTGGAAAAGATAAAAATGAAAAGAAATTCAAATTGTGAAGCATGTTCACTACATCAGTATAAATATCTTAAATCAAAATTTTACACATGTGGAATGTTAAGATCTGAAAAAAGTGGGAAAAATATTTTTAGATCTTCTGAAGTAGAAATATATAAGGATAGTGAAGGTACTATTATATGCTATAATGAAAAATGTTTTAAGAAAAAAGAAGCATAAAGCTTGTGCAATTTAAATATGTTTTTACTGCATTATTGCCAATATTAGTCGTTGTAGTATATTCTATAATTTTTAAAATAAATATTATAGAAATAGTAAGAAGTTTAACTCCAATAATTATTCTAGCTTTTGTTCTTTCATATCTTGGACAGATATTAGTAATAGCTCTTAGAGATAAGAAAATTGTAGGAGTTTCTTTTTACACAGCTTTCAAAGCAAGATTATTAGGAAATTCTATAGGACTAATTTTACCTGGCTGGGTTGGTCAAGAACTTACTAGAGCCACAGTATATAGCAAAGAACATGTAGAGCTTATTCAAGGATTTTCATTATCGCTATTGGAAGCTTATTACGATGTAACAGTTGGATCACTTATGTTTCTTGTCCTATTACCTATAAGGTTCATTGCAATAGAATTAATTTATATCTTCATAACAATAGGTAATATAATAGGCTGGTCTTTGGGACTAGCTTACGTATACACTACTGCAGGTAAATCAATTAGAATTGAGAAGAGTATAGTTAAATTAATCGGATTAGATAAGTATTATTTTGTATTAAATAAAGGAAAACAGGCAATGAAAGATAAAATTGAAGGAAAGAACTTTATTACATACTTCTCTCTTACAGTCTTGGGATATTTAGTTCAATCACTATCATTCTTGGCTATGGTCTCAGATTACTTTAAGGATATTCTGATTAATATGACTTTTTTTGCTGCTACTCTCTTCCCCATACCAGGAGCATCAGGAGTTTCAGAAATTGCATTCTCCTTATTTCTTCCTCCGCATTTCGTAGTAGCTGCCGTAGTTTTAGAATTACTTGACTATTTTATAGGTTTCATATTCATTAGGGATATAGACATTAATGAACTTAAAAAAGAATTCTACAAAATTAAAAAGTATGGAGAGTTTTATCAAGGATCCGAATCCTGAAGAAGGCTTAAAACTTATCGAATCTCTATATAACGAAAAATCATTATGTGTAAAAATTCCCTACACTCCAGATTCTATAATATTTTCTAGTTTACTAATGAAATATTTTAATGGCGATTTTGCTATTAGTTTCTCTTCCTTAAATTGTGAAGTCCAATTGCTTCAGAACGAACAAGGAAAATGGATCAATAGTAATGATAAACAAGTATTTTTGGGAAACTCAGCTTTTAGTTCCATATTACCATTAAGTAAAGACGATCTACTACCAATTTTATCAGGAATTTCTATAAGTTCTTTCCTAGAAAGGAGAAAAACTAGTGAATGGGAAAATAAAATAATTGAAAAAGCAAAAGCTATGGGAGTAACTGTAGAGAAAAACGTAAAAATACCTGCCTATAATGAACTGCCGCTCTTCCTTTCTTTAATGCTATCCTTTGATCCATATTTACCACAGATTACTGGAAATAGAGAAAATGCTATCAATTTTATTAAAGAGCTTGGGGTTAATGAGACGACTAAATTAAGTGAATTAAACGAAACACAACTCAATACATTTCTTTATAAAATAATGACAATAGCAATCAAGCTAAATCCTAGAATTTCCAGAGATGACATAATTTCCGATAGAATATTTTACTTTAATTACGATCTTCTTGAGGTATCTCTGGCATTAATCTATTTTATGGATATTATAGGAAGCAAATATTTAATTCAATTTTCATTAAATCCATCAATAATAGGAATATTAATAGATAAATTTAGAGAAAATGTAGCAAAAGGATTCAAAATTGATATTCTAGATAATAAAGGAAAGTACTACATAGTAGATTCAGAGCTTAAATCTCCTACTCTAATATCAATTTTCTTACAGCAAATAGAAAAAAACAAGATAATTAAGACAATAGTTATAAAGGATAATGATACATATCTAACTTCAAGATATTTTTTATCATCAGAAGAAGAAGGTTTGATAAAAATTGATATCAAAGATAAAAATTAAGTACAATACGGAGAATTCAGAGGAAATATATAGAAGTATAAAAGTAGATAACATAGATCTTCCTGATGGCATGAAAATTAACGTTAATAAAGGAGATAATTATATAGAAATCTATATAGAGATGGAGATAAAATCTTCCAAAGACATTTTAACTCTTCGTAACACTGCAGATGAAATATTAGCACATATAGAAGTTATAGAAAAAGTAATTAGTAACGTTAATTCTTGATTATCCACTACTCCAGTTAATCAATTAATTTAAATACTTGAGACAGCTAACTCTAATTTATGCCATTAAGACCAGGTAGGTGTTACAGACATTTTTCAGGCCCAGCTTATACTAGAAAAGAGTATATACCGGGTGTACCTCAACCAAAGATAACTAAATTCACAATGGGAGATCCAAATAAGGATTATGATTATGTGATAAAATTAATAACGAAACAAATTGGTCAAATAAGACATAATTCACTCGAAGCAGCTAGAGTTATAGCATTAAAACAGATTTCAAGCGCTATAGGAAACGAAACAGATTTCTTCATATGGGTATTAAAGTATCCCCATCATGTAATCAGAGAAAATAAAATGATGGCTTTTGCTGGAGCAGATAGATTACAAGATGGAATGAGACTATCTTTTGGAAAACCTATAGGAACAGCAGCAAGAATTGAAAAATTAGGAGAAGTAATAATGCTATTAAAAGTAAAGAAAGAACACTTAGAGATTGCTAAACACGCATTTAAAGTTGCTCAATCAAAACTTCCTCTTGATACTGAAATAGTAGTAGAGCGTATACAAAAAGGTGCATAAAATCAGTGAGTTATTTTTTTGATTACGACAGAGTTATAGAAGAAATTGAAAAAAGAGGAGCTAAAAAGGTTCTTTTACAATTTCCTGAAGGTTTAAAATATTTTTCTACTGAAATAGTTGAGAAAATTCAATCTAAAATGCCAAATGTTGAATTAATAATATCTGGAGAGCCTAGCTGGGGAGCCTGCGACGTAGCTGAGGACGAAGCTAATATAATCAATGCAGATTTAATAATTCACTTTGGACATACTCCGTATACTTGGTATTATCCAAAGTTTCCTACAGTTTTTATAAATGCTGAAAGTAGAATTGAGATAAATGGAGAACAAATTTCTGAATTAAAAGAAATTCTAAAACAATACGACGCTAAGTCTGTAGCACTAACGTCCACAATACAACACCATAATGTTCTAAACAAAATAAAGGAAAACCTTAGGGAATTTGAAGTAATAATTGGAAATCCCTCAAATCCTTTCATGTTTCCCGGTCAGATATTGGGATGTGACTATAAAGCAGCCACTTCTGTTAATGCCGACGTATATGTAAATGTGTCTGGAGGAGAATTTCATGTTATAGGTCTTGGTCTAGCAACTATGAAACCTACCATCAAGTTGGATCCATACACAATGAAAGTAGAGGACATGACTAATGAAGTTAACAGAATTTTGAAAATAAGATATTCGAAAATATTAAAGGCTATGGACGCAAGAAATTGGGTAATAATACAAGGTGTAAAAGTGGGCCAAAATAGGCCCTTAATGGTAAAGTATTTTGAGAAAAAGCTAAAGGAGAGAAATAATAACGTCTTTATTGTAACAAATAAGGTATTAAATATAGATAACTTAAGAAATATAGATAGAAGTTACATAGATGCTTATATAGTAACTTCTTGTCCAAGGCTTCCAACAGATGATCTATTTGAGTTCGAAAAACCGGTCTTAACACCTGGAGAAGCAAAAATGATTATAATCAATAAATTAGAACCATATATATTCCCGTGGTAAAAAATGAGAGGACAAGGAGACTTTGTTTACCCTGGAGAGGAAATCGCAGTAATAGAAGAATTCTCTGCAGGAGAAAATACATATGAAGATAATGGGCAAGTAAGAGCTTCGTCATTGGGTAAAGTTTTTTATGATATGATTAATAGAAGGAGTAATATTTTATCAGTAAAAAGGCCTATATTATTAAATCTCAAAAAGGCAAAATATGTATATGGAACAGTTACACTAGTAAAAGAAGATTCTGCTACAGTTTCTATAAACAGCATAGAAGAAAGATTCATAAGTCCATCAATAACTGGATATCTTCATATTTCACAAATTTCTAATAAATACTTAGAAAAAATAACCGACGGTATAAAATTAGGTGATATTATTAAAGCTAGACCATTATCTATCTCAATACCTCTTCCCTTAACATTAAAAGGAAAAGATTTAGGAGTTGTACTAGCTCAGTGCTCAATTTGTGGAACGTTAATGATAAAAACAGACGAAGAACATTTAAAGTGTCCTAACTGTGGTAATATAGAAAAAAGAAAACTTGGTAACTATGCGGTGAAAAAAGTTGGAAATTAAAGTAGTAAAATTATCAGGAGATTACCTAGAACTTGAAATAACTGGCGAAGATCATACATTAGGAAATCTAATAGCAGGATCATTAAGAAAGGTTCAAGGTGTAAAATACGCGTCTTATTATCAACCACACCCTTTAATAGATGCCATTTCAATAAAACTAATGACTGATGGGACTATAAAACCATTGGATGCGTTATTGAAAGCTATCGAAATTGCTAAGGGAACTTCAGAGAGATTTGCAGAGGAAATACAAAAAATATGAAAAAAGAAACAAGAATAGGAATATTATCTGAAAATAATAAGTTATCCTGTATTTGTATTTTTAGAGGATCCTTTTTGGAACATTTTATATTAGCATCTAATAAAGAAGACGCTCTAAGGAAATTGGAAAAATCTAAAGTAAAACATGAAATTAATATGAGTAATTTTGGCATAGGAGAAAAATATTCAGGAGACCTAGAGAATACGTGCAATATGATCCTTGAGAAAGTATCGGAAAAAATAAATAAAACAAATGAGTAGGATATTAATATTGTCTCGGTGATTTACCATGAAGTTCTGCCCAAAATGTAATTCTATGATGGTACCTAGAAAGATTAATGGAAAATCAGTATACAAATGTCTAAAATGCGGATATGAAGAAGAAGTTAAACAAGAAGAGGTAATAACTACAAAGATAAAGCATGATGTAAAGGAAAAAACTATAGTTTTAGAACAAGACGAATTACCTGTTGGAACTCAAATAATAAAAGGTGTTGTATGCCCAAATTGTAAAAATGATGAGGCATACTTCTGGATACTACAAACTAGAAGTGCGGACGAACCAGCAACAAGATTCTATAAATGTACAAAATGCGGAAAAGTATGGAGAGAGTATGAGTAAAACAAGCGTAAATCTTATTTTAGTTTGTTGAAATGTTAAAATGGACCCGTAGCTCAGCCAGGATAGAGCGCCGGCCTTCTAAGAAGGTCGAAGTAAGCCGAGGGTCCCGGGTTCGAATCCCGGCGGGCCCGCCTATCCTCAAAAATTCTTCCTTGGTTTTACTACAGTAAATTTTTGCCCTAAAAATTCAGAATAATAAGTACCTAAGTCTCTATCATATTCCTTGGCCATAGGCTCAAGTTCTTTAATCTCCTCTTCTTCTAATTCCCTATATTCGTATGTAGGTATACCAACTTTTTCCTCAAACAAGCTTTTAGCTAATTTTTTGGCATCTCCTTGTAATCTATTCATTATCTCTATATATGGAAGATTTCTCAAATCTTGATATTCTTTATCAGATATTAGTTTGTCTATCAATAACGCTTTTAGTAGCCTTAAAACTTCAAATCTGTTTGGCTGAAGACCAAGTTTAGAAGGATCTAATTTTCCTCTAATATAAATTCTTCCACCAACCATTCCACTTCCAACATAATTTCCAGTAGGTTCTGCCTTAGTATTATTAAATATTAATATAACACCACCAGCCATATATTCCCCCAAGTAATCGTCTACTCTTCCTCCTATTATAAGGTAAGGTCTATTTCCCTCATATTCCCTCATCTGAATACCTACTCTATTGCCAGCATTTCCCTTAACAAATATTTTACCACCCTGAAATGCTTGACCTAGGACATCTCTTGCGTCTCCATAAATAACTACCTTTCCTCCATGCATTGTATCACAACAATCGTCTGCAACGTTTCCATAAACATATATTTCATTATTCTCGTTAAGATTAGCTAATGCATTCCCCACATAACCATATAGCCTTATTTTTTTACCAGCTTTTGGAAATGATATTCCTATATATCTATGAGAAAGAACATTTATTACTGTAATTTCAGACTTATTCAATTTTAATATCTCTTTATTTAAATCTTTATATCCAATATTCGAAGCATCTATATCATAGGTACTAGAATCAAAATGAGAAGAAGAGAAACTTTCTATTTCTTCCCTACTTCTTCCATAACTAATAACTCCCTTTTTTAACGATGCTATAAAATACGAACCAGGGGCTAAAGTCCATACTTTAGCTTTTTTATTTAACAGTCTAATTTGATTTTCTTCACTTGCTATATAATAATAATTTTCATCTTCGCCTATAATTATAGGTCTAAATTTAGATCTATCAGCAATACCTATCATATAAAGATCATCTCCAGAATCATAACCTATAATAGCTGTGAATGGACCATCCAATCTAGCGTTTCTATACCTATAATCCTCTTCTGTAGTCAATACATTGGCCCTCCTAGAGGGATTCATCATTATTTTTACTGCCTCTTCTATAGAAAGTCCCTCACTTATTAGCTCTTCAAAAAGAAAAGCCATAACTTCACTGTCAGTTCCAACGAATCCTTCCCATCCCCTAGATTTTAGAAATTCTAAGTTAGCACCAAAAGAACTTACGTCACCGTTATGAACTATAGCTATATCAAAAGTTGAAAAAGGATGAGACCAAAAAGGATAATGCCCTGGAGAATTTGTCGGTTGTCTAGTATGAGCTAACCATAGATCTCCAGAATAATCTTGAACATTATAGATCTTAGCAATATCTTTTGGATATCCTACACCTTTAAAGACATCTAAAGATTTCCCAACACTATATATCCTTCCTTTGTGTTTCTGCCATAATATCTCATTAATATTTCTAGTAACTTTTTTAATTTGGGCAACGTTACCTAATGTAATCTCGAATTTACAATCACAAACATCACCATCAACATAAGAAGAACTCAAAACTCTAACACCATATTTTTCTATCATTCCCTTAATTTCGTCTATATCGCCAGAATAGAATGCCTTGACTAGATATCTATTCTCACTATTTAAATTAAAAACAGCAAAACCTGCTCCCTTATCACTTCCCCTATAACTTACTGCATCTATAGCGTTGACTACTTTTTCGCCTTCTATTTTAGGAGAATTAACTTTCCTTAATATTCCGAAAACTCCACAACCCGAAGGAGAAATCATAGAGAACCAGCCTGTTTAACCCTTATTTTTTTAGCAATATAAGAATTCAAATTAACAGCTCTAAGAAGTTCCCTATTTCCAGTCAAACTAGATTGAACACTAAATACTCCGGCTGCCCCTGCCAATAGTGCAATCTCCTTCTTCATACCTACTATAATGTTAAAGGCCTTCTCCTTTAGATTTCCCTTACTTCCCTCACCTATAGCAACCTCAAGTATCTTATAGGGCACTATAACAGAGTCAGCACCCAATAGAACTAATTTAAATACATCACCTGCATCTCTTATTCTAGAAGACTTAGCTATAATATCAAATTTATTCCTAATACCAGTTTCTCTTAGCTTAGTATCAAACTCTGATAAAAGAATTTCTAAATCCTCATCCATAATTTCCTCATCAAGTATATATCCATTTACTTCCTTAGAAAAACAGTCAAAGCAATCTGATACTAAATAATAACTATCCTTCTCTATTTTTGTGCTCCAATTTGCTATACCTTTCTTATCTCTACTTAGATAGACCTCCTCATAAGGAGATAAAACATTTTCGTCGAAAACCAAAGATCCCCCAGCAAGTGCAGCCCATGCAAAAGCTTCTTTAAACTCCAAAGGAGCTTCTGAAATATCAAAAATTATAGGTAATGAGATATAAACTCTTCCCTTATTAAGCAGGAAACTAGTATCAATATCCTCTCTATATGGATCTATAGGCGGTCTGGTCACTTGAGCACCATCAGTTCTCAACCAATCTATTATCCTAGCAGGTTTTTCAACATCTGGCGGAGAAGTACTACCCATACTAGTTATCACTGGCTCACCTTTGTTAGCTAATTCATGTATATTAAACTTCCTCCTTTTTGTCCACAATTCCCCAAGTTTAGGATTAAGTTCCTCAGATTCACCCCTAATTTTCAATATATCCAAGACATCCCTAGAAAGCCCATAACCATATAGCAAATCTCTCCTACTTCTTAATTCTCTTATACTATTCAAACCTAAATTCTCAACTATACTACCCAATTCCATTTTAAAACCATTAATAAAATTGATCAAAGATTTAGTACCGAACTCCATATCGAGAAATCTAGATCCATCAATTTTATTTGTAAGAGCAGTTGGACATGATCCAATATGGCATTTATGCACCATGACACAACCCATGGCTATTAAAGCCCCAGTACCTACACTTACAATGTCTGCTCCTAGAGCTATTAATTTAGCTGCGTCAGTAGCATCTGCTATCCTACCTGCAGCAATTATAGTAAAATTATCTCTCATACCTTCTTCTTTTAAAACAGAATCAGCAGATGCTACAGCTAATTCAATAGGAATACCTAAATTATCTCTAATTATTGTAGGAGTGGCTCCAGTACCAGCTCCATGACCGTCAATTATTACACCGGCAGCTCCCATCCTAGCTATTCCAGATACTATATATGGCACATAATTAGTAGCTGCAACTTTTACAAAAACAGGTTTTCCAGTAGCCTCCTTTAATGCTTCTATCCTCTGTCCTAAATCCTCAATAGAATAAATATCATGATGTGGAGCAGGAGAAATTGCATCCATGCCTATAGGAATTCTCCTTGTCTTTGAAATAGCCTCGGTAACCTTACTACCAGGTAAATGACCTCCTATACCAGGCTTTGCACCTTGCCCTATTTTTATAACTACACCCAATCCAGCATTCAAAACATCTATATCTACACCAAATCTAGCAGAAGCCCATTGAACAAATATCCTCTTGTGTTTAGCAACTTCAGGATGCAATCCTCCTTCTCCAGTACCTGCTAAAGTTTGCGTAAGATCAGCAGCTTCTGCTATAACTATATTAGGATTCCCACTTAACGCACCATAAGACATATCACCTAAATACAAAGGGGCCGCCATATCAATTCCAGAAAATCTTAAGGAAAGATCTACATCATTTTCATAGAGAGTGTTCCTTTCAACTTTAAATTCAATCCTATCTAGAATTCTTAAACTCTCCCTTCTTTTCTGCATTATTTTGAATGGTCTTCCTGTCAAAGCCAAATGTCTTATATGATCTATCTTATCAACAGTCCAAAATTCTGAATCAGTCTGTTTCGGTATAGGTAAATACTTATTTATTATCAGCATTATCAGTCGCAGATTTAAATTTGATAATATTCTTATATATTTGTTAATGAAAATCTAAAAGGTATTTTTTAGTTTAATCCCATGCAAATTTAGGTTTCTATTTATGATGTATATAGTTCGTATTCATAATCATTATCTTTTATAAGTTACTATATAATTATTGCAGTGGATAATTTTAACAATAATTTAAAGAATAACGTAATTCATTATAAATTAAACAAGCTTCGACAGAATAAGATAAACATAGTTTAGAACAGAATATCTATTAAGAAAAATATATAATTTATCATTAAGAATGGTCAAGATAGTTTACATTACCTTGAAGAAAATTTACAATAGTTCCTCTACCTACATTATCAGAAGCTAAAGAAATTACATAATTTCTATATAATATCAATATTATATAAGAATCATTTTTTTCAAAATTCATTTCTTCATTAACATTCTTAACTAATTTAACGTTATTATAAGAGAAATTATAATGCTTTACTGATTGATTATAGAATACCGAAACCAAATTATTATAGAAATTTCTTGCCGACTCGTTGGTAGTAAAATTATATACTATTACAGAAAAATTTCCTTTAGGTCCTAAATAGATTGCCTCATATCTATCCGGAGTCTCATTCATTATACACATTTTCTTAAAATTATCGTACTTCTGAGGTAGAAAAAAGGATGGCTCATGATCAATTAACAAAATAATTGATAAAAATACTAATGCTATAGCTACAAACAAAAAGACATATCTATACTTCATATAAAAACACCAAAATAACTTAAAAAAAGAGATTAACTTATTTTCCTTAATACTAAAATTATCGCTACTATACCTAATATTAATCCAACTATAGCTGCTGCTAAAGCTCCGTAAACTATTCCCGAAAGAGAGGAGTAATCAGACTTTAATGTAGTTTCAGTATTACTTAAACTAATTACTGTAGAATTAAGTGAACTTTCTTCAGACTTTAACGTATTTACTTCGGTTGACAGAGAACTTGCGGTACTAGATAAGCTTGATACTGATGTACTTAGACTACTTATTGATGAATTCAAACTCTTTATTTCATGATTTATAGTACTAATGTCATTATATAAGGTACTAATATTACTATTCAAATCAGATATCTTAGTTAAAGTTTCATTAATCAAGTTTGTCAGAGAGTTTATTTCACGATTAATCTGAGTAAAGTAAGGCATAGGATTAAGCTGGACATCTGTAAATATCTCCTTCATTGCACTGTATCCTGAATATGATGCATTAATCATTAAGTATCCTTCTGTTGGCACATTAGATATATTGTACGTAAACTCATACATTCCAATAGTAGAATTATAAGTTGCAGACTCTGTCATACCATTAAATGTGACTGTTACAGTTGCAGTACTTACTGGGGCTCCTTCAAAATCTACTGTCACGTAACCAGTTAACATTGAATCTCCTATAGTTATTATCTCATTAGGATTGGAAACCTTAGCGTAAGTAGTTCCATTATAATACATTAGATTTACCTGAGTTAACTCAACTTGTAATTCTTCGACTAAAACTGTATATTTAAACGTATAAGTTTGAGGAGCTACTACAGTTATAGTCTTCGTTAGAGGAACATATGGCGAAGGAGGTACTATACTAACGGAATATGTTCCAGAAGGTAGCATGAACATTGCAACACCAGTAGAATTAGTAGTCTTAGTTATTCCCATTATAGTTACGCTTGCTCCAGATACTGGAACATTCTCAGGATTATAGATCTCTATATATACAGTAGCTAATTGAGGTTCATATTGGATAGTAGTCGAATTCGTAAAACCTTTTGAATTTCCTACTAAAACGCTATACGTACCATATGCTGTATCAGTTGTTGGAAATGTAAATAGATCAATTTCATAAACGCCAGTAGAAGATGAATTGCCAGATTGAACAGCTATGGTTGTCCCATTAGGAGCTTTTAACACAGCATTAACTTCGACATTTGGCGCCGTAGTACCTAATACTATTACTGTTTGTCCAGGATGATATATCTGTTGGGAAGTAGCTACAGTTATACCTACAGTGGAAGCAAAAACAGTAGAAACTCCAGAAACTACGAACAACGCAAATAATATGGAAATTAGATACCTAAATGATTTCATACTTAATCACCTAATCTAAATAAAACAAAAGAAATAAAAAACATTTTAACTTACAACTTGGACCTGCTCTGTGAATTCTGCTGGTATATATGGAATGGTCAAGTTAGCATTCCTTGCTAGGAACATTGTCACATTATATGTGCCAGGCATAGATGGAGTCCATACTAATCCTTCTGTAAATGTTGATCCAGCTGGTACTACAGTTTGTCCAATTAATATTGGAGTTACTACTGTGGTTCCTACATGAACTTCTACTGCAAACCATACTGTTGCATTAACATCTCCAGTATTCTTTACTGTAAATAATAGATCATATGATTGATTAGCCGTTAATTGAGTTACAGCAGCTCCTGTTGTCTCACTAATTGCCTGGAAGCTTACTAACTGGAACTTTATAACTATTTGCCCTACGTAGAAGTACGCATTACTAGATTGTTCTAATAGCACAGATTTGCCATTTATATATAGAGATGGAGTATATTGATTAGGTATTTCTGTTACACTAGTATTTACTAGGATTGGATTAACTACTCCAGTCTTTATTGGTAATACACCAGGCATTCCTTCATATGATCCGTATGCACTATATGGTACAACTCTTAGTTCTCCTGAATAGTTATCTGTTGGAACTGGTATTCCGTCAATTATTTCGTATTGTTCTACCAATGGTAATGTAGTTAAAACTCCAGTAACTGGATTCCTTACAGTTACATTAAATGTGGATTTTAATCCTACTAAATCTGGTGCAATTACTGATACTGTTACTAATTCACCAGCAGAAGTTGTTGGGAATGGAACTACATTAACAGTGCTATTAGTAATTACAGTTCCATTATACATTATTTCAGTTTCAGGCTGAACTTGAGCAAAGTCTACTTGTCCTACAGTGTATGTCTTTACGCTACCATATGCTGCTACTATTCCCTTACCTGGTGCTGTTATTTGAGTGAAAGACCATTGATTACCTATTACCGTTGCAGTGTCAGTTATGTTAACGTTCAAAGCTGTTAAACCGTTTAAGGTTGTAAATACTCCTGGTTCTCCTTCCCAAGCGGTTGTCGGAATATCAATTGACCAATATCCTGTACCATTTAAGTTAACATAATACCCTACTCCAGCTGCAGATACCATAGTACCAGACGTAAATGTATCTCCAGCAACTTCAGAACTTGCCTCTGCTAATTGTGCAGATAATATTTGTCCATACACGTCTAAAGCTCCATTAGGTGAGACTAAATTATCATTTGTATTGTTAGATGGATGCTGGAATAATGTGAATAATGGGCTTCCTAATAATATCTCTATTCCACCATATGGACCTTCTACTGGAGGAGCTACTACCATAACTTGAGGTACTTCGTCATTAACGGATATTGTCTGAACATGATATTGAGTTACGGAAGATGTTATTGTACTTAATGTGCTAACTGGATTAATTACATAGAAGTATGCTGTAGTGCCTGGAGTAAATGTATATCCAGCAGTAGTTAATCCATTCATTGGTGCTGTAGAATTGCCCATATATACAATACCACTAAATATGGAGTTTCCAGCAGAATTTTCACTAATTATAGCAGACTGATCATTTTCCACCTTTACTAAAGCTCCTGTTCCATTCCATGCAGTAAAGTTGGCATATAAGAACGCTAAGTTTGTTATTTTTATGTTATGAGCTTGAACTAATCCTGGTGCATATACTGTCACATTAACTGGAGCTCCTGGATTCGCAGAACCTACTGAAGACATTATTTTCATTGGTGCAGCTAATATTTCATCAGACGCTAGAGCTGATAATTTCGATACTGGAGATGTATATGCTACAGTGAACGTCATTCCTATTAATTGATTTGCAGTTAAAGGTTTCCCAGTTATATCGCTTTCAGGTATATAATTACTATCAATAACTAAGAAGTACCCAGTAACTCCATCATATGTTCCCTTAACTAGCTCATAATTAAATGTTGTAGTGAAGTTACCGCTATCTGGTTTTGTCTCAGTTGCTGATAAAGATATGTTTTGTACAGTAGCACCAGTTGGTATATAATATAATGGTAACGTTAAATCACTACTAGAGTTGACCACAACCAAATTTCCAGTAACGCTTAATACTGAATTTGGCAATGTTTGACCTTCCTGTGTATCTATTATTGAGACGTCTACATAGTGAGTATCAGTAAATACTGCAGGATTTGCTACATATGATGGTATATATGCTACACCAGATGTTGTAAAGGTTGACTGTGTTGGTGGTTCTAAGTATACTACTGGTGCTATAACCTGGAATGTAACTAACACGCTTAATGGAGAATCTACTACATAGTCATATATTTCGACTTGCATCGTTGTGCCTGGAGATATTGGCTCTATATGTAATAGGAATAATGTGAAGTTAAATTGTCCGTTTCCTGTTGGAGAAGTTATTGTAGATGGAACTTCAAATTGTCCTAAGTTATAATATGCTACTGTTCCATTAGAGAATGTTACTTTTACTGTAGCATTAGCTATTTGAGTACCGTTGTATTCCAATAATGAGTAAGTCTTTTCATTAATTACATTCAAGGTAGTTAATTTACCGAATGCTAAATTAGGTTCATAGTAATTGAATACTATGTGAGTTGTAGTATTAGGTAAGGTAGTTACAGTAGGACTTACTAACGTCAAGTTAGGAGTTAATGTTTGAACTGCTACTAAAGATGATGTATTAGTTGGTATGAAAGTGCCAGTAATGTACCAATATGCAGCTCCTATATCATTTGTTGCGTATGCAACAATCTTTGTAGTGCTGAAGTCTTGTGCTGGTAATACTATTGTTGTTACATTATAGTAGGAATTCTGAGTAACTACTATTTGAGGTCCAAAACTTAACTGTATTAAAGTACCAAACATAGGACTACCTGGAGATACTTCTGGAACTGTTATCTTTGCTGTTTTAATTACAGCTCCAGTTATAGTGCTTATAAATTGTAGATATACTGCATGTAAGTAGTTAGTTACGCTAAAGTTTGTTACATTGTCAAAAGCAGATATATATAGCTCACTTGGAGTTGTTGAAGATACAGTTACAGACTGTGGGACAGTTTCTTTAATCTGCCCAGTTACCATATATGATGAGTTATAACTAAATGGATCATAGAATTCCTCACTTATTACAGTTGCAGTAGTAAAATATTTACCAGTTATAAGTGTATAGTAGTTAACTGGGACTCCATCAGTCTCATAAGTAGAGTTTGAGGTAGCATAAATAGTGTAATTACCAGTATATACACTATTCTGGAATACTGTAGTAGTTGAAGAGTCTCCAACTGCGAACGTGGTAGTATTCCTTGTATTAGATATTAGTGTAGGCAAGTAAGATACGTTCTCGTAAAATGTCATAGAATCCTTACCTATCATAGTTTGATTGAACGGATCATACTGGAATGCAGGATCATATACAAAGGATTCCCATGTAGAGTTTATCGGTACATAATTTTCAGTAGTATATACACTTATCGTATATGAGGAGGCACTATTTTGTAATACATTTAATGTTAACGACTGACCAGAAGATACTACTGTAACACTCGTAGCAGAAGAGGCTGCTGGATCTTGAGTTGGAATATTATATACGTTTAATATGTCAGTTGTTGTCTTGGCATAATCTTCTACTTTTACAGGAGAAGAATTTAGTGTATTTACCTTCAATGCATAATTAACATAAACTGGCATACCCGAGGGATAGAGAACATATCCGCCTGTCGAATTTACTACTTCTTTATAAGTAACACCATTAATTTTTACTGTAGTATTTTGGTTGAAACCTAAGAGTAAGTAGAATGTGTTAGTACCTGGTACCCAGTAGAAATCTTGATAATCTCCAGCTAATGAATAATGTACACCATTAGCTACAATATATGTGTCTGTAGCTAATTCTACTAATGCTTGAGTTACGTTGCTAGAAGCTACTGATCCTAAAGTTGGATTGTTTATAGCAATTAATGTTACACCTGCTAATGGCAATACTGGTATGTTAGATACTATCTGAACATTGCTAGTTGCGGCATTTGTTGGGAATGGTATTCCCATGAATATTTCAAATGATAGCAAGAACAAAATACCTATAGAAATACCTTTTAAGACTTTTAGATCCATACTACTTTTCACTGGTCATTATCTAACAAAGTATCGTTTATAAAATATATGACACAAAATGTATACTATGAATTTAAACATAAATTGAAAGTAAAAACAACGATTTAAAAAGATTTCTTTTTTATTTTTAACGCGTTTTTTATTTTGTCCAACATTTAACATATATTACAGTTAAGTTCTAATTATAGGATAAATTACTATCATTTTTAAATAGTATACTACAGTAAACTTATGAATAATTTTAAATCTAGAGTATGGAGATTCTTATATGAAAAGTGTTTTTGTAATTATAGCGATTATTGCTATAATATCTTTATCTTTACTGAGTTATGTTTTATTATATCCGAAGACTATGTTCTTAAGCTCAAATAGTATAGATAGCATTCTAGGAGGAAAATGGAAATTAACTAATGATGGTGAGATTAAATCTATTCAAGGTTCAATTCTTACATATTTTCAGGAAAATAGTCAAAATTCGTTCTTAGCTAATTATTCGTCTAATTACGCTAGTATGCAATTTTACATTTTCAAATATAATTCAAGTAAAGTTTCTTTACAAATTTATTTTACGTCGTTTAAATTATATAATGAACTACATTGGAATTTATATAATATTTCGTCACGAAATATTTATGCTTATTTTACGCAAGGATCCTATTATGAGTATATAATTTCTTCTAATGGGGAATACGTCTTAACTATAATATATCTTGGTAAAAATGTTCCTACAAGTTCTGAGGCTTTTCTTCTTGCTTATAATGAATTAAACTTGATTAATGGGCCTGCCGGGATTTGAACCCGGGATCACGACGACCCGAACGTCGCATCCTAGTCCAGGCTAGACTACAGGCCCAACAACTTATTTTGCACTTCTACATAAAAATCTTATGACAAATGATTTCATTATCGAAAGTGTAGGAAAAAGAATTTCTGGAGATATAGTTTGGAGTTCTAACATAGGCCTTTCTATGAGAAAGTGGAGGGAAACTTTTGGTATTTCGCAAGCCGAAATTGCAAGGATTCTAGGAATATCTCAATCAGTTATCGCAGATTATGAAAGAAATAAGAGACAGCCAGGCTCTTTGTTTATCAAAAGATTTGTTGAGTCTTTAATACAAATAGATGGTAGAAATGGATTTAAAGTAATTAAAGAGCTTGCAAAATCCTTTACTCTCAATTTTTCTTTTATAATTGATATGAGAGATTTTGTAACTCCACTTCATCTTCAAGACATAATAGTAGCTTTGGATGGAGTTCCAGTAAATTCTACAGTTAATAATGATCAAATTTACGGTTATGTTATAACAGATAGTATAAAAGCTATAACTGCCTTAAACGGTATGGAATTTTATCAGTTTTTATCTATATCTTTTAATAAAATAATAGTATTTACTAAGGTTACTTCTGGTAGATCTCCTGCAATAGCTCTTAAGATTGCACCAATAAAGCCTCAAATAATAGTTTTACATAGACCTATAAGGATGGATCCTCTTTCAATATATCTCATGGATAAAGAAGGTATAACAGTTATAGTATCTTTTAAGAAAAATGAGGAAGATATAATGAAGTCACTTAGGAGTCTTGGCTCCCTGTCAGAATCATAATTGCTTTTGCTATATCTCCGTTTGCTTTTTCTAAAGCTTCTCTTGCTTCAGCTTCGCTCTTTCCTGTTTGTTCTGCAATAAACTTTACATCTTCTTCCTTAATTTCTTTCCCTGTACTCTCCTCGTTCTTCTCTTCTCTTTTTTCTCCTCCCATAATTATTATAGCTTCTTGTCCCATTGCAACTGTTTTTGTTACAGTTGGGGATTCGATTATTATCTTCCCATTTTGTGTCTCAATTATAACTCTAGTAGCGTCAATATTCTCAGTTTTTATTCCCATTCTTTCCAAATTTTTCATATCTTTTGGCTTTATCTTCATCATTATAATATAGTTATACTCAAACTTAATATTTGCGGTTACGGATTTTAGCAAAATGAATTACAAAATAAAGATACTAGGTGGAGGACAGGAAGTAGGCAGAGCTGGAATAGAAGTATCTAATGAACAAGAGAGCATTATATTAGACTATGGAGTTAATTTTAGTCCAGACGATTCTCCTAATTTTCCTTTGCAAGAAATGCCTTCTAAAGTTGACGGTTTCGTAGTATCTCATGCTCATTTAGATCACGTTGGCGCTTTGCCAATTTATCAGATTTCAACAACAAAACCAGTTTATGGCACAAGACTAACTAAACAAATTGCAGAATTGATAATAAAAGACTTTCTTAAGATCTCTGGAGCTAAGGTTCCATATGAATGGGTTGAATTAAGAAAGACTATGGATAATTTCCAGACATTTGATTATAATAAAGAGTTTCAAATTGGTTCCTTTGCTATAAAAACCTCTAATGCAGGCCATATTCCTGGCAGTGCAATAACTTTAGTTAAGACTGAAAAAGGAGATGTAGCATATACTGGAGATATTAATTTGGCTAATACTAAGTTAATGAGGCCTGCTGATTTAGAAATAATGAAGTCAGCGAAAGTGATAGTTACTGAAGCCACGTATGGTAGATTCAATCACCCTGAAAGAAAGAACGTTATTGATGAGTTCTATAGTTCTATCCTTGAGGTTTTAGAAGGTGGAGGAACCGTCTTAGTTCCAGCTTTTAGTCTGTCTAGGAGTCAAGAAATTTTAGCTATATTGGCTGAGAAAGAAATTCCTTATCCTGTATATTATGATGGTATGTCTAGGACAATCATGGAATTGATGATAAATAATCCAGAGTATATTAACGATATAGACAATCTAAGAAAAGCATACAATGAGTTTAGATATGTAAGAGGATGGGAAGATAGGAATAAAGCATGGAAAAATAATGGAGTAATAGTAGCTAGTGCTGGAATGCTTAAAGGAGGACCTGCAGTCTATTATTATAAGAAACTAGCGGAAAATCCTAAAAACGGTATTTTCCTAGTAAGTTATCAGGCTGAGAATACTCCAGGTAGAAAATTACTAGAAGCAGGTAAGTTTACTGATGAATCTCCTTTGCTTAAAGCCAGATTTGAGATGTTTGATTTTTCAAGCCACGCAGGTAATAGACAGTTAATGGATATAGTTAAATCCTCGTCTGCTCTAGAGAAAGTTATAATAGTTCACGCATCATTAGATAACGCTCAACATTTTGCGGAAATGGTTAAGGAAGAACTAGGGGTTGAAGTTAAAGTTCCAGAAAACGGTGAGGAGATTGATGTATAGGTGTAAGCTAAATGATACTGCTTTTTATTCATGCAGAAAGCTTCTCATTTAAGGTTAAGGAAAAGGCTGTAAAAAGCGCAGAAGAAGATTTCCTAGATTACTTGAAAAAGGATAATACACTAGTTGTTTTTACTACTGTAGAAAAGAATGATAATGATGAAATAATAAATAAGGCTTTGGATAATATTTTGGATATTTTTACAAAAGTTAAGGCTTCCAGCGTAGTAATCTATCCTTATGCTCATTTATCTAGTGATTTAGCCGATCCTAAAAATGCCGTAACTATTCTGAAAAAATTGGAAGATAATTTGAAAAATAAGTTAGAAGTATATAGAGCTCCTTTTGGATGGTATAAGGCTTTCTCTATATCATGTTATGGCCATCCATTAAGTGAGTTATCTAGGAGAATAAGGAACGAAAAGGATATTCAGAAGGCTCAAGAGATGAGTTTATGTGAAAAATTCGGTTTTCCTTATTCCCCGAAAGCATCGTTTATGAAAAATGCTGTAATAAAATTCTTGGAAAACTCGATAAATCCTAAAGGTACCATAATAGGAAGTAAGGATGTACCAAAGGGTTATTTATCTATCGTTTATTCTAAACCTGAAGGACGTATTTTGCCCTGTGTTAATGAAGATCCTATAATCGAATTATATTATAATGGACTTAAATTAGATTATCCTAAATCTTTTAACGATTCTAAGAACACGCTTATAATTTGGGATGATAATAGAGTTAATATTGGAAATCTTATTTATTATATTTTATTAAAGTCTAAGGAAATGCAAACTCCTAGTCTTCCTCTTTGGATGTCGCCCATTCATGTTAGGATCTTACCAGTTAGTGAGGACTATATTCAGAAGGCTTTAGATTATGCAGAAATACTGAAAAATAAGGGAGTAAGAGTTGAGGTTGATAACAATAACGATAGTCTTGGAAACAAGATTAGGAGAGCAGGAAGTGATTGGATTCCTTTCATAGCAGTTTTTGGTGAAAGAGAATACAAGACTGGGACTTTGACAGTGAGAATAAGAGGAAAGAGCGAACAAAAGAGTTTGAGTTTAGATGAATTAGTTTCAATTATAATGGAAGAAGATAAAATTCTTTTGAAACAAAATACGCCAATAAAGATGAAAGATGATAATAGCTGAAGTCCCTCTTAAACTTACATTATTTGGAGAACATGCAGTAGTTTATGAACAACCTGCATTAGCCATGGCAATTTCTGAAAAAATGATTATAAAGGTAAAAAGTAATGAGAAAATGATTATAAAATCAAACTCTCTTTCTATAAAGGGAATAAAGGTAGACCTTAATGATCTTAAGTTAGAAAGTGAAGAGACTGGTAAAATTCTATCCTATGTGATAGGCGCTTTAAGTTATTTCAAGGAAAAGAAAAATGCATTAATTGAAATAGAGTCTCCAGTAGATCCTTCGGTAGGTTTAGGTACTAGTGCTGCTGTTATTGTAGGAATAGTTTCTGCATATTCAAGATTTTTAGGTTACGAATTAACAAACGAGGAAATTGCAAAAATATCTCATAATATAGAGTTATCTATACAAGGTATTGGTAGTAGGATGGATACGTATACAACCGCATTAGGAGGTCTAATTTACTTTCCTAAAGATGGAGGATACGAAATTTTAGATCAAAATTTGGAGTTAACGGCTGGATACATAAAAAGAGTAACTACGACTAAAGACATTTTGAAATATGTTAGAAATATGAAAGAGAAAAACTTTGAAATATTTAATGATATAATAAACACTATAGGCAAAATCACTGATAAAGCTAAAAATTTGATAAAAGATGGAAACGAAGAAGAGTTAGGAAACTTGATGTATATAAATCATGGTCTTTTAATGTCATTAGGAGTTACATATCCATTAGTTGATAATTTAGTTTCCACCGCAAAAAACTTGGGAATAAGGGGATGTAAGATAAGTGGTGGTGGTGGTGGAGGTGCTATTATTTGTACCAACGATGTGAAAGCTGAAATTCTTTTAAATACAATAGGAGCTAGAATTATAAATTGTAAAAAATCAGAGCATGGAGTTATGATAAAAGAAATAAATTAGTATAAAATTAGTTTCTCTTATATGTGCGGAATAATAGGAATAATAGCCAAGGATAAATCTCAACATTTAGCTTCTATAACTTACGAATGCTTACAAAGGCTAGAGTATAGGGGTTATGATAGCGTAGGTATAGCATCATTAGGAAAGAAGGGAATAGAGGTAAGAAAAGCAAAAGGTTCTGTTGAAGAAGTTGTAAAGAAATTTAATGCACTATCAATGACTGGAGAAATATTTTTAGGTCATACAAGATGGGCAACTCATGGAGAGCCTTCAGATTACAACGCTCATCCTCATATGGATTGCAGTAACTCGATTGCCGTGGTACATAATGGCACTATAAGAAATTTTATGGAATTAAAAGAAGAATTGGAATCGTTAGGTCATAAGTTTAAGAGTGAGACTGACACTGAAGTTATACCTCATTTAATAGAGGAATTCAAAAAAAGAGGTATGAGCACATTTTCGGCGTTTAAATCTGCTATAAATACAATAAAAGGAACGTATGCAGTATTGGCCTTAATTAAGGATGATTATAAGATATATTTTGCAAAAAAATTTAATCCCCTTGTTATAGGTATCGGCGACAAGGCAAACTTTATCTCAAGTGATATACCTAGTTTTCTTCCATATACAAAAACTATAATAACAATACAAAACGACGATATAGGTTATTTATCATCAAACGAAGTATATATAGAGAATAATGATATACCAGTAAATGTAAGTGAAAGAATTAGGCAAATAGACTGGGACGCATCTGCTGCTTCTAAAGAAGGATTCGAGTATTACATGTTAAAGGAAATTTACGAAACTCCTGAAGTAGTGATGGATACACTATATGGACTAAAAAACGACGCAAATATCGATAAAATAATTGATAAAATAAATTCTTCTAAAAGAATAATAGTAGTTGCTGCTGGTACTAGTTATCATGCAGGCCTCTATTTTTCTCTATTATTGCAAAGAAATGGATATACTACAATTCCTGTTGTAGCGTCAGAATACTATAATATAAAAACAGGGCCTGATGATTCGGTTATAGCTATAAGTCAAAGCGGAGAAACAATGGATGTTATTATGGCCATCAGAAAATTTAAAGAAAATAATAGCTCTATAATTTCTTTAACTAATGTAATAGAAAGTGCTATATCTAGGGAAAGTGATTTCAAAATATATACTAGAGCAGGACCAGAAATAGGTGTAGCTGCAACTAAAACTTTCACTACACAAATTGCAGCATTAACTTTCATTTGGAGTAAGATAGTTGATAAAAAGATAAACTTTGAAAGCATAGGAGACGTCATAAGAAGCTCTTTAGATAAAAGCGGTGAAGCTAGAAGAATTGGAGAGGAACTAGCACAGAAAGAAAACGCGTACTACTTGGGTAGAGGAATTTCTTTACCGTTAGCAATGGAGGGATCCCTTAAAATAAAGGAAATAGCATATTTGCACGCCGAAGCTTATCCAGCAGGTGAAAGTAAACATGGTCCCATCGCTCTCATAAGTAATGGGTTTCCTGTAGTCTTCGTAAATACTGGAGAATTTACAGAAGAATTGCAGAGTAACGTTCAGGAAATGAAAGCTAGAGGAGCCCTTACTTATGGAATAAGCATAAACAGTACTCTTAATACGCATAAGGAAATTTTACTTAAAGTAAGTGACGAAAATTTAGCTGTTTTCGCTTTATCTCCAATAATTCAACTTATAGCTTACTATGCAGCATTAGCAAGAGGAAATAATCCTGATAGACCAAGAAACTTAGCTAAAACGGTGACTGTAGAATGAAAGCTGTAATATTAGCAGGTGGCAGTGGAGAAGGACTTTCTCCCTTCACTCAAAAGGAACAAAAGGAATCAATATCAATTCTTGGTAGATCCATAATTTCTTATACATTAGAAGGTCTCAAGAAAGCTGGAATTAAAGAGGCTATAGTTATAGTTAATGAAAAACAAAAACAAATAGAGGAAAGTATAAGTACTGATATTTCTATAGAATTTGTAAGACAAAAAAGAAACGGGATATCTGGTGCAGCTCTTGATGGGATGGAAAAAGCTGGGGATGATGAAATATTATTGGCATTTGGAGATATAATAGCTTCTAGTGATTTTTATATTAGTCTAATGAATGTTTATGCTTTAGGCGCAAAAGCCGTTTTCTCGTTAGTTCCTGTCTATGAAGGAATGCAAACTTATGGTTTAGCTAAAATAAAAAACGATAGAATTGAAATTGTAAAAGAAGGATCTACATTAGCGTTAGCTGGGGCTTATATACTCCCATACGGTGATTTTAATAATTTACTGGAATATTTTACTAAACTAGCTCCTATTTCAAAATTCTTCGTATGGTCTGGAAATTGGATTGATATAGGATATCCTGAAGATCTTTTAAATGCTATAGAACTTCTTCTTAGAAATTCAAGGACTATAATTTCGAATTCAGCTAATATTTCTAAGACTGCATTAATTGGAAGTAATGTCGTAATAGATGATAATGCAGTAGTAGAAGACTACGCAATAATCAAAGGCCCCACATATATAGGTAAAAATGCGTATATAGGATCCTATTCATTAATTAGAGATTTTTCTTCTATCGAAGAGAAATCTAGTATAGGAGCATATTGCGAAGTCTCTCATTCTCTAATAGAACCGTATTCTGATATAGGCTCTAAATCATATGTTACCTACTCTATCATAGGTAAAAGAGCAAAAATCGGCGCTTCAGTAATAACGTCAAATTATCCAGCTAACATTATAAGAGGAAAAGTAAACAAATTAGGGGCATTAATTTCACCCGAAGAAACAATATCTCATGGATCTGTATTACCCCCAAATTATAGAAAATAACTTAAAAATCTTTTTATTTAATATCATTTTATCGTAAATGTTGTCATTCTGGAAAACCTTCATAGATTTCTGATAAATTATTTAATGTATTACAAGAGTTTAGATAGAACTTAACTAAAATTTATAAGCTTTCGATTATATTTTTTAATTTATTATAAGATTTATAAGATAATAATACAATATAAAAAACTGAAAGAATAAGATACTTTATAAATACGGGGATGTAATTTTGAGGTAAAGAAAAGCTAGATATTATGCCTACAAATTAGAAAATGAAAGAAATTGGGGGTGTGGGTATCCCCCACTATGCGACCGCCGGGATTCGAACCCGGGATCTCAGGCTTGGAGGGCCCGCGTCCTAAATCCAGGCTAGACTACGGCCGCTCTCACTAAATAATAATAATGAACCTTTTTTATATTTTTCTGACCTAAAAAAGGGTTGTTCATTCATAATTATTAACAGAGACTTCTACACAAAATCGTATATAATTAGTTATAATATACTAAGATCAATTTTAAGTTAATTATATTTAATTAACATACAAATTTACTTTATATATATATTAATTGCTAAGCCATTTTTCATTTTAGCAAATACATCTATACTAAATGCATAACTATTAAATACATTTAGCCATAAACTAACTTTGCCTAAACTCTAGATCTATACAAGTCTCATCTTTAGCTTTCGTATTACTTAAAATATACTGAAATCCACTCATAACTCCTTCTATTATTGCGGAATAAAACATAATTCTTTGATTAGAATGTTCGGGAATCTTAAAGTTTGCAAAGACCTCTAATTTATCTGAATTAGAATTAATAATAATATCTACATTATCTGACAAGAAAAACTCTAGAATAGATTTAATAATTTCGTTATTACTATTGGTATTATTTAAATTAATTCCATTAGACATAATATAGGAACTAGTTAAACTTTTGTATATTTTTTTAATATATTCTACTTTATCTTCAATGGACGTGTTAGAAAGCAATAAATCTAAAATACTTACTGGCATATATATGCCAAAGTATTTGTCAAAATATATTTTTTTATCTATATCATCATATAATTCGGTAAATTTTTTTGATTTTTTAATATAATATGAATTTTTGCTAAGTATAATATTAACAAAGTCGTTAAAACTTTTTACAGTGCCATTATCAAGATTTCCATTTTTTACAAACTGAAATGTAGAATTTATTTCGTCAAAATTCCAAATAGGGGTAAGCTTCTTTCCATTGACTTTTTTAGGCATTATTTCTAATATCTTCCAGACTTTATATAAAGATTATCGAATAGTTTACATGACTTGATTAAAATTACTATTAGAATATAACAAATTAAATTAAAACCTAAGTTATTAACAATCAAGTATAGTTAAAGATTAGGATATAACTTAAGTTTTATATTCCCCTATTCAGTAAGTTAATAAAGTGGGCCGGTAGCTCAGCCTGGAAGAGTGCTCGGTTTGCACCCGAGAGGTCCCGGGTTCAAATCCCGGCCGGTCCATATCATTTGATAAGTTGTTTTCATTATAACTATGTAATATTTGCTATTAATTGTCCAATACTTTAGCATAAACAATATTAATAAAATGAATTTTTCTGGATATGAATAAAAACATATATTAAATAAAAAGGATAATATTGACAATAGAAATTGAAAGAGTATAGTTAAAAATATATGTTTAAGGATTTTAGTAGAAATCATAAAATAGAAATAGACTTCGTTAGGAAAATCATTAGACCACAATGCTAGCAGTCTCCTAGAAATTGAAAAATAAGTATTCAAAAGTTTCAATATGTGGAGAAATAATCATATTAAGAATTTAGAATGATTACAATAAAAACTATATACGATATAAAAATTATTATTTTAAAATTATATCTAAATATCCATAGTAAATATACTCTCCCTTGTTAGTAAAAATGTATGCCACATAAGCATAGCCAGGATTACTATAATATTCGTCACTTGAAACCAATGTTTGCAAAGCATTTCTTAAACCAGATCCAGGATATATATCATTATTTTCACTATTTGCTATATATTCATGACCATTATATGTAAGATTTAGAAATATAGAAGAAGCCTGATATGATAGAGCGTTCTCATATATGCCGTAAAATATCACTACGAACCCTGTTCCGTTCATATTTAATGGAACAATTAGACTCAAACCATCTATGTATCCAGAAGATAAATATAGTGTTAAGCTATCTGGCTGAATATTAATTTTTGGGTCACCGTCCTCAGAGTTTAACGGAAGACTCTGTGGGTATACTATATTTCCTAATTGCGTTACAATTGAGATATTTCCGCTCAAAGGAATTTTTATCGTAGGATATCCACCATAATTAGCGTTTGCATTGGAACTGATCACATATATGTTTTCATTAATTACTTTATTATTATCTATTATATGTTTTACAATTATCGGAATTGGAGGATTCTGATATATTACAAGGTAAATATTATGATTACCTTCATAAAAACCTACATCACTTCCGAATTCTTGTAATTGTTCTTGTGCTTGTGTGAAATATGGTTGTGCATTTTCTTGTGCTTGTGCCTCGTTTGATGGCATTGAGTTAATGTAGTATGTTAATGGTATTATTATTGCTATCATTATCATTAGGACGAATATCATCCCTATCGGTGCGGATAATCCTTTTTTCATCATTTTACCACCTCGTATCCTATTCTGTAATAGTTTCCTTGTATGTTTACCATTATCCATATTATGCTGTCTGGTTTTGCAAAATATACTGAGCCTTGTTTATAATCTTGTATAGGGATACTCCCTTGATAAATTATGTTTCCTTGTGTAGTGTAAACTGTAACTTCAGTGTAACTATTGCCTACTTCTTCGCCCATTGATGGAGTTACTACTGAGGCTGAGTTTAGAAGGGATGGACTTACGACAAAATCTGTAATAAGCAATGTTCCATTGTAATTGTAGTCTTCTATTACTACTGGAATTGGATTGCCTTCTCCTAATTCTACGTGAAGCCCTTCTGAGTAGTATTGTGCCTCCTTTAGTATTGTTGCTTGTGAAAATTCTACTCCTGCATATGCTGAGAACAAAGAGAGTACTGCAATTCCTACAACTACAGTAGCTATAACTATAATGAAGGAACTTATTGATTCCATGATTTTATATCACCTTCAATAATTTTATATAAATCACTATTATTTTTCAAATTTTCAGTAAATATATCTACTATAGCATAATCCTTGAAATCACGCAAAAATATTAATAAAGAACTTAAATTGCCATCCTTTGCTAAAACTATGTTATATAAATTACGTAATATTAAGAAATTTACTTTATAACCATTTATTTCCAATGATCTCTTTAATTCTTGTAAGTTTTTTCTCAATATGTTTTTAGATGTCTCAAGGTCTCCGTTTAAATATATTCTACTAATCAAGGTATTCATGGTCTATTTAACTTTTTAAATAAAGAATAAGGGACCCTAAAACGAAACTTTATATTAAAAAACGCTATTCTCAGATTATAATATTAAAAGATCGTATTTATAAAATTATATAACTGTAAAATTACTTATAATTTTTAATAATATATTTTAAATTAAGATATATGATATATATAAAAATCATTTCCTCAAGTTTGATAAACTAATATAATGAATACGAAAATGCTCTAACTACAAAGTTTTGAAAAGTTATAGTAGCTTATTAAGAATACTAATATTATTGAGATAAGCTAGTAACATTGTGAACTCCTACGGTGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCTTTACAAGAGTGAGACTAAGAAGACTAGGTATAGGGGAGGAGGTGGTGAAGGCCCTCAAGTTGACCCCAATCAAGTAGTTCCTTCGGCTCTTCAAGCCATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTACTACGCCCTTACCGGTAGACCCAAAATCATTTTAAAAATACAAATTCAACACTAAACCTCATATTTTCTTCATAAGTAAAAGAACATATTTCATTATACTTATAATCAGGAGCAGTAAGAACAATGTATTAAATAATCAATGTAAATAAAACGGATTCTATCATACTCATCTCATCATTTTTAATATTATAATAATATTTCTTAGTTTACTTTCAGAAATATAAAAGATCCAATATAACACTTAAAAATTTCTAAAAAATATTGCAGAGTTAATTATCTAATTTCATTAAATTCACATGAATTACTAATAATAAATAAAAATTATTTTTACTAATCAGATTTTGGGTATACCGCATGGTGGAGTCTTTCGCCTCCTTTGAATTCCCTGTTAAGATAAAGAGCCCTACTTAACAATTTATTTATAAATATAACAAAGTCTATTTTATGAAGTGGTATACAGGTACTGGAGATTCAGGAAAAACTAATGTGCCTTCTAAGGGAAACGTATGGAAATTTGATGAAATAGTAGATGCTCTAGGCGATTTGGACGAGCTTAATGCCTCTTTAGGAATTTCAGTCTCCCTTTATCCAGAGATAAAAGATGTAATAGAAGATATACAAAACGATATATTTTCCATTTCATCAGAAATTTCTGGTTTTAAGATGAATTTCTCTAACGAAAAAGTTAGAAAAATTGAAGAGGAAATAGAAAAGATTGATAAGGAAATAGATCCTTTACATAATTTTGTTTTACCTGGTGGACATATAGCATCATCTTATCTTCATCTATCGCGAGCAATATGCAGAAGAGCTGAAAGAAAAGTAGTAAAATTAATGACAGAAGGTATTTCGAATGATATTCACGTAAAATATCTTAATAGACTTTCTACTCTTCTTTTTGTTTTAGCGTTATGGATAAATAAAAAAACTGGCAATAAAAATGTAATATGGAAGTCAAAGTGAATACTTATATGCATAATATGCTGATAAGTTGTCCTGCGCAGATATTCCTACGGATTTGAAAATTGATGGTCTCTCAATTTTTATTTTATTTGATATGATATTTCCTATTTCTAAAATATTTTTGTTCTTAAGCAGTCCGCTTTCTTTTGGCTGAATATAATCTCCGCTTTCTTTTGAAACAGCGTCCAATGAGTCTACAATATATGTTTTAATTTTCCTTATTGTGCTGTCGTCCACTTCTCTAGCATCTGGAGTAAAAGCACCTATACTTACTAAATGAAAATCTTCTTTCAGCTTGTCTCCATATACAACCGGTGTTGTTGATGATGTAGTAGAAAAAATAACATCAGATTCTTTTAGCAAAGTGTCTAAATCTACTGCTTCCCCTCCTACTTTTTTAGCTAAATCCACGTGCCTTTTCCTAGCAGAAATAAGTAATCTAGAAACAGAAAGATATCTCAAGGCAGTTTTTGCATGATATTCTGCCTCTAGACCAGCACCTATTATTCCTAAAGTGCCAACTTTTTTCCCATAAGAAATCTCTGTTGATAATACACTAGCAGCAGAAGTTCTTATTGCAGTTAAATATGTGCCATCGATATAGGCTAAAGGTTCACCATTATCAGGCGATAAGAGAATAACTGCGGCCTGAACTGGCGGTAATCCTTTTTCTTTATTTTTATTTATAACATTCACTATTTTTACTACAAAAGAAAAATCGGTATATGAGGGCATTACCCCCCACCAATTTCCTTTAATAATAAAGGATTGCCTTATTGGTTGATTTACTTTACCTTGAGAGAAAAGTACGAAAGCTTCTCTTACTGCATTAACTGCTCTATCTGGTGTCAATATCTCGTCTAATTTTTCCTTATCTATGAAAATCATTTAGTTACTTAATCAGTTTAAGGTATAAAATGTATGCTTTAACTATGTTAAAGCACTATTAGAAAAAAATTGAATAGAAACTTTATGAATAACTTTCTATAAAATATTTGTTATGCGATTAGTATCTCAGGATTTAGAAAACGGAGACAGTTCAGCGATAATAAACTGGGCTAAAAATACTGATAATTTAATTTCTGTAATACCAAGTGTGGTAGAAGTTGAGAAGAATATGATAAAAATGAAATTTACAAGGATGTTCTTATTCTCGTTTGAATCGAAGTTTTCCATTCAACCTTCTTTTATAGGTAATGGGCTTGTTGAGTATAAACTTATTGATGAGAAAGATAATACATTTAAGATAATATTTTCTGCTGAAGGTAAAAAAGGAGTTAAAATTTCTCTTTCATACTCTGGAGAAAAAGAATGGATAGTAGGCAAAGGATTACAGAAAATCCTTAATGAAATAAGCAATGGTGTGAATAAGGAAATACCAAAGGTTCAAATTAAAGAATCAGAACAAGATTATTCAGAAAATTTATCTAAAATATCATATTTATCAAAATTAATTATGAAGTCAAGATTAGTTAAGTCGCAGGAGACTTCAATAACTGAAGGAGGACTTATAGACTATATTCAAGAACTAATATCTCAATTCTCAGAATATCCAGTAATATATATTTCTGGAAGCGGATCATCGACTTTTAGGATTCTTTTTGTCAACGGAACATTAAAAGGCATATATGTATTAAAAGAAGGAAAAGACTATTTCGGAGACGAAAATATACTGAATAAATTATCTGGCAATTTTAAGATTCACGTTTATGTAGTAATATCTCCTGAGATTTTAGAGGTGATTAAATGAAAGTTCATAAACCGTTTGTTTTATACGAAGATGGAGATCATAAGTTTGTATGGCTAGGTCTTGACGAATCTGAACATGAAAAAGGAATACTAACAAATCAGTATCTTGTAGTAGATGGAGATAAAGGAGCTCTATTAGACGCTGGAGGTTACTTTGTATTCGAAAGAGTTTACGAAAATGTAAAAGAATTCATAAAACCAGAAAATGTAGTTGCATTGTTATTTTCTCATCAGGATCCAGACGTTATAGGATCATTGAACTTATGGTTAGATGTAGCACCTAATGCCACAATTTATGCATCAGTATTGTGGGAAAGATTTCTTCCACATTTAGGCTTTGAAGCTGGAGGAAGAATAACAGATATCCCAGATGAAGGAATGGAAATAAAGATAAATAAAGATTCGTTAAATGCGATTCCTGCTCACTTCATGCATTCACCTGGAAATTTCCATTATTATGATCCAGTATCTAAAATTTATTTCTCTGGAGATTTAGGTGCTGCCGTTTTCCCTGAAGGAAAATGGTATCTAATGGTAGAAGATTTCCAAGAACATGCAAAATATATGGAACCTTTCCATAGGAGATACTTAGCTTCAAGAAAGGCAATAGACTTATGGCTGAAGAGAGTTAAAAATCTTGATATAAAAATGATAGTCCCTCAACACGGTTCAATTTTTGATGGAGAAAATGTAAAAAAATTCATTGAATGGGTAAATAGTCTAGATAAGGTAGGATTAGATTTAATGGAATAGCCAAACTACTTTTTAAGGTTTTTTGATAAGCTCATAATTGTGAGATTAGAATTAGGTTCTCCTCCTGAAGATGGAGACCTATATAATGCATTTATTAATGCGCTTTATGCAGCAGGAGCAGGAAAAGGAACTATAAAAATGTACAGCGTAGCTATTAGGGAATTTCTTGAATTTGTAAAAAAAGATCCTAGGAAAGTAACTTCAGATGATATAAACAGATGGATAATTGAATTATCTAGTAAAGCCAAGGACAATAGATCTAGAAGCGTGACAATGCGATATTATGTAATAGCAGTAAGAAGATTCTTAAAATGGCTAGGTATAAACGTTAAGCCCGTAATGCCTAGGGCTAAAAGAAAGGAAATCAAAGCTCTAAGTGAAGAAGAAATACAGAAAATTTTAGCTAGTGCTAGAACCCTTAGAGACAAGCTTATTATAAAACTTTTAACAGAAACTGGAATGAGGGCAAATGAGCTTCTTAATATTAATATTAGCGATATTGATTTTAACAGAAAAATGATAAGATTGAGAGTTACAAAGAATGGAGAAGAAAGAGTAGTTTTCTTCACAGACGATACTTTAGATCTAATGAAGAAATATTTGAAAATTCATGATGGAGAAAAATTATTTCAAATGACTTATCCAGCTCTTTATAAGGCAATAAGAAGATTAGGAGAAAAGGTAGGTATTAATGGGCTAAGACCACATATGCTAAGACATTCTTTTGCTACTAATGCTATAAGAAAAGGAATTCCTCTTCCTGCAGTTCAAAGAATTTTGGGACATAAAGATATAAAAACAACTCAAATTTACACTCATCTAATTCTTGATGATTTAGAAAAAGCATATAGAGAGGCTTTTGGCTAAGCTCTTCCTGTAAATCTCCACTTTACCATTTCTGCAGCGTAACTTGCTAGATCGGATATGCTATTAAAAGATGCAGTTTGTAAATGAAGATATTCGAATCTAGCTTGATTTTCTAACATTTTTTGTCTTAACTCCTTAACTTTTTGAGAGGAGAGTATTTTATCAAGCTTTTCTTGAGATAGATTTCCCACTATTTCTCCATTCATATCGTCAGGATATGGAAGATCGCCATTAGGATATATAGTTATAGCATAACTTACTAACCTTTTTGGAACTTTACCTATTAATGCATTTATGAATCCCCAAGAATTATTTAACGTTGATGAATATTTCTTCTTTAATTCTGATAAAACTTTATAAAGCTCCATGTTATCTGGGGCAAGCTTTACTTTAGCATTTGGATAATCTACTGCAGGCAAAACTAGGATTTTATAGTTACATTCTCTAACTTTCCTTATTTTGTCTTCTAGTTTATATAAATTATATCTAGTAACTACAGTTTGTACATTAACCTTTAAGCCATAGTTTCTAAATTTACATAAATTTTCTAAAGCTTTAACATTCCAATGGTATTCGTCAATAGAGTAATGTAAAAAGTCTATTTTATCCGAAAGTTTAGAGAGAAAATTTTCATCGTTCAGTTTATATCCGTTGGTAGTTAACATAACATAAAACGATCCGTCATGCGCATATTGGAGTAAATCAAGAATGTCGCTCCTAGTAGTTGGTTCTCCACCTTCAAATGATAATACAACAACTGATGAGTCTCTTAAATTATCTATAATTCTCTTAATTGTATCCGTGTTCTCTACACCTAATTCTCCATTATAATATTCAGGATTACAGAAAGTACAACGTAGATTGCACTTTGATGTCACTTTAAAAGTAGCGTAACCTGGGTTAAAGGGGTCTTTAAGTATCTGAGTTCTAAAAAACCATCTAATTGCTTTAAGGTCTCTGTTCATAATCTACCACTTAAAAATTTCCTTGTGTGATTTAAATATTCTTCAGCATTGTCATCTATCATTTTAATTTCATTCTCCTTTAATCTTCTCACAACTTTAGCTGGTATACCTACTGCGACACTATATGGGGGAATTTCACTACCTTGAGTTACTACTGATCCCGCACCTACTATTGAATATTCACCTATCTTTGAACCGTTAAGAAGTATTGCTCCCATTCCAACTATTACATGAGAGGATATTTTAGCTCCATGAATTATAGCATTATGTCCAATAGTTACTCTGTCGCCTATTTCGATCTTATATCCAGGGTCTGTATGAACTGAAGAGTTCTCTTGAATATTGCTCTCTTTTCCTATATATATTGAATCATTATCTCCCCTTATAACGACATAATGCCAGACACTAGATAAATCCCCTATCTCCACATCACCTATTATATATGCAGTATCATGTATGTATGCCTTATTAGATACTTTAGGTTTTTTACCTAAGTACTCTTCTATTGGCATATTATTTTTTCTTTAATTTAGCTATAAAAAATCCAGTCATATCATGAATATTTGGATGAAATCTTATAGAAAATTCTACTTCAAATCGTGGATCTTCTATTACTTTCTCGTTTTCCCATGTTGTTACAGTACATGTAGAGTATATTACATATCCACCATCTTTCAAAATCTTATACGCTGAGTTTAGAAATTGTTTTTGATAAACATAAAAATTCAAAATATCATCTTTAGTTTTCTTATCGTAAATTTTTGGTCTTATTCCTAATGCTGAACACGGAGGATCAATTATAACTTTATCTACGTTTTTTAATCCTATTTCGTCTGCATATCTAGAGTCTTTTACATATAATTCAGCATTAACTCCAAGTTTATTTAGAAGATTTCTCATTTTTTCTATTTTTTTATGTGTGTGATCAAGACCTATTATTCTAGCTCTAGGCTCCAGCTGATAAACATGAGTTAGTTTTCCTCCAGGGGATGCTGTCATATCTACTATGGTCTCGTTAGGTTGAGGATCTACTATTCTGGCAACATACATAGAGGCTTTACCTTGAGAATAAAGTAACCCATCTTCAATTTCGTTCAATTCTCCTATTTTTACGGAATCATATAATGATTTAGTAATATTAACAACTATATCAGAATTACATAGAATTCCTTCTCCAACCAAAATTCCATTATCACTTACCACTGATACTTCTTTTCCCTTACCTTTTATACTCTTAACGCCAGGTTTATATACATCTGCACCCATCATTACACTTTCGGCTGTTTTTTTATCAACTACAACTACTGTATTATGTAATTCTATCTTGTTAGGTCCTTTGATCTCAGTATAAATTGCTTCTTCAAAATCTTCATCTCGCCTAAAGCACGGAAGTCTCTCTAAAATCTCGTTTGTTGTTGTTTTTAATGTATTTACTCTCAGATAGAGTCTAGAATTCGGCTTTTTTATAGAATCTAAGAACGAATTAAGGTTTTTACCATATACTTCTTCTAGATTACCTAAAACGAAATTATCATAGTCTAACTCCATATTACTTTTGCACCCGTATTATTAGGTTCTGTATAAAAACCGCCAAAATATGATACTAGTTCTTCACACTCTCTTTTATTACAAAACGTGAAAATCGATGGCCCAAATGAGGACAAACCTGCAGGAAAACCCTTGTTTTTCATTTTAGTCATTAATTTCTTTACTTCGTCAGTCTGAAGCGAATTTTCTAACTTCTTAAATCCTAATCCTTGAATTCTATCTAAGGCATCTAGAACTCCTTCTAAATCTTTTTCCGAAACTGATGGAATAAATTCCATTAATACTACTCTACTCAAAATATCTATCCCTTCAACTTTGGCATTTTTAAATATTTCCAACTCTTCTTTTCCAAATATTCTTCTTCCATTAGGAGTATTTACATATATATACCACGGAAAATCAGTTCTTAATATTAATGGAGGCGGCGGAGATGCTGAAAAGTCTGAAGGTAATGCTTCCTTCTTAACTTTTTTAGAATGTCCGCCATCTACTATAAATCCTCCATATTCAAAGGCATATACTCCTATCCCAGATGTAGAACCTCTTTTAACTATCTTTGCTATTTCTGCCGAATTCTTTCTTATCAATCTCTTTTCTAGCGATAATTTAGATAATGTTAAAAGATATTGTGTAGTATGACCTAGACCTATATGGCTATCATAGTCTTCCTCTATGCAAAAATTGACCTTAGGAATTCCTTCATAATTAAATACATTACAATTTCCGTCATTTACCACTATTCTTGGATATTTTAATGCTACACCCATACCTCCATCAAATCTCCCATATTTACCTTCTACATCAAATAATGTAATATGAATTCTTGATAAGCCAAATACCTTAATCATTATCCTTATTAGACTAATGTAAGAAATTAAAACGATTAACTTATGAGTTTTGCAAATCTTCTGTACGAATGGTATAAGAAAAAACCTTCAGCTACTTTCCTTTTAGGTGATACAAATCTAAATTATGAAGATGCTACAAGAGAAATATCTTCCATTGCATCAAACATTTCACAAGGCGAAACAATAGTTCATTTTGAGTTTAATAGTATAAAATCAGTCTTGCATTATCTTGCCGCGTTTTGGGCTGGAGCAAAGATAGTATCTGTAGATCCCTTAACTTCTGCAGAAGACCTAAAATTCATATTAGAGGATTCTCAGCCAGATAGAATATTCGCTGATGATGAAACTTACTCTAGGGAAAAGAATATTCTAAAAGAGTATAGAATATGGAAAGACGAAACTAAAAACGAGTTTATAAAACCATATGATTATATGGAGAACGAAGTTGGTCTAATTTACTATTATGCAGGAATAGCAGGAAGGACAATGCAAGTTCTTCATAGTGCTAATAGAGTTGGACTTAATTCGGCTTCCCTTTATTCCGCTATTAATCTTCATAATATTTCAACAATACTAACTGTCCCATTAGCTCACGTTTTAGGAAACAGTGTATTAGGAATAGTATTAGAAGATGGAGGATCCTTATATGTAATGAAAAAGTTTGATGCAAAACAAACTATAGATATAATTAATAAGTACTCTATGAATTTTCTAGCTACTGTACCTATGGTTTATGACGCATTAATTAAAGAAAATGGAAAATTAGATAGCTTAGAATTATGTATAAGTACTGCGGCACCACTTTTTCCTTCTACAATTAATGGATTTAAGGAAAAGTTTGGTAAGGATATAGTGCAACAATACGGTTTTACAGAAGGTTTAGTAATTACTTTTCAACCAAAAGAATTTTCAAAAGTTATAAGCATAGGCAAACCGTTACCTAATGCAGAAATTAAAGTAGTAAAGGATGACGGTAAAGAGGCAAAACTTGGAGAGACAGGCGAACTTTGGGTTAAAGCTCCATGGCTAATGTTAGGCTATAAGGATATCGAAGAAACTGCCAAGGTATTTAATGAAGGATGGTTAAAAACTGGTGACCTAGTAAGTTATGATAGTAACGGATTACTTTATTTTAGGGGAATAAAGAAAAGAATGCTTAAGTATAAGGGGTATCCTATATTTCCAAGAGATTTAGAAGAAATTCTAAAGTCTAATTCTAATGTTATTGATGCCCTTGTATTTGGGGAAGATTCTGGAAATTTAGGTTCTCAACCAGTTGCAAAAGTAGTAGTAAAGAATAGAAAATCTAATCTTGAAGAAGAACTACTTAATTATGTTAATTCGAAAGTCGCATTTTATAAAAGGCTAAAGAAGATATATATTGTGGATAAAATTGAGTGAACTAGATAATTTAATAAAAGAAATTTCGGAAAAGCTACAAAGAAAAGGAGAAGATTTTTTAGGATCAAAAGAGGCTTTAACGATTACAATAACGGATCAGAATATCAATGAGATAATATCTAAGAACAAGGTTGTGTTAATAGACTTCTGGGCACAATGGTGTTCTCCATGCCACCTATACGAACCAATATTCGATAAGGTAGCTGAAAAATATAAGGGTAGAGCTATTTTCGGTAGACTTAATGTGGATGAAAATCCAAAAACTGCAGATGAGTATCAAGTTTTAAACATACCAACAACGCTAATTTTCGTAGACGGCAAAGTTGTTGATAGCATTGTTGGAGCAGTAGATGAAACTACGCTAGAAAGTACATTGGCGAAATATATATGATAGAAACAAAGTTAGAAAAACATTTTAAGAATTTTATTTTAAATTCAGAACTAAATGATGCTGGAATTATATGTATTACAGGAAATAACGGCAGTGGAAAGACTACATTTCTCAATTTATTATTAGGAATATATAAGCCAGATAAAGGATATGTCAAGATTAATAATAAAGATATAACTAAGTTGCCGGTGGAAAAAAGGAGAATAGCATTTGTTAATCAAGATAGCTATATACCAGAGTTAACTGTAGATTCACATATTTTATGGGGAGCTAAATTAAGGAAAATAAAGATTGATGATAACGAGATTAAAGATCTAAAAGAAGCTTTAGGTATAAAATTCTCTGGGAAAGTAAAAAATTTAAGTTTAGGTCAGAAAGAAAGAGTGGCAATTCTTACAGCAATATTATCTAAACCTTATTTTTTACTAGTAGATGAGGCATTTTCAAATATTAGCGATAAAAAGGATTTCCTATCTAAATTAATAGAAATTCTAAAAAAATATGATATTGAAATGATATTCACTACACAAGATTTAGAGGATGTTAAATTTTCAGAAAAACATTACATAATGAATAGGGGTATTCTTCGAAAAAGTTTTTAATTTTAATTATACTGGAAAGGCCTTAAAACAATAAAGTAGTTACAAAAAAATATAAATAAATAAATAGTTTTCATACTTTATCTTCTATAAGCTTTTATACTCTTTAACAAAACGGCTTAACATGCCATCAAATGCGGAAGAAGCATTAAAGTTTCTAAAAGATAATAAAATCGAGTGGGTAGATTTGCAATTTACTGATCTGCCTGGTAGATTACAACATGTTACTATTCCAGCTTCAGATTTCGACGAAAATAGCTTCAAAGAAGGTTTTGGAAAACTTGATGGAAGCAGTATAAGAGGATTTACTATGATATATGAAAGCGACATGATTCTACAACCAATACCACAGACTATGTCAATAATACCTTGGATGAATGGTGTTGCGAGAGTACTAACAAAAGTATATTGGGGAGGAGGAAAAGGAAGATTTGAAAGAGATCCTAGGTTCATTGCAGAAGAAGCTGAAAGAACACAAGAAGAGCAGGGTTATACTTCGTTTTTTGGGCCAGAACTGGAATTCTTCATATTTGATAGAGTAGATTTAGACGTAGCACTTCCTCAAAGTGGAACTGGTTATAAAATATACGCTAGAGAGTCTCCATGGCACGATAATGGAGGTTTTATGATAAGATATAAAGAAGGATACTATCCAGCCCCTCCAATAGATCAATTAATGGACATAAGAGTAGAGGCAGTTGATACATTAACAAAGTATTTTGGATTCATAATAGAAGCTACTCATCACGAAGTTGCTACCGCAGGCCAAGGAGAAATAGATTTTAGATTTTCGACATTAGCAGACACTGCAGATAAAGTTCAAACGTTAAAGTATGTTCTTAAAAACGTAGCTGCTAAGCATAATATGGTTGCAACTTTTATGCCAAAGCCAATGTATGGAGATAACGGAACTGGAATGCACACTCATTTTAGCTTATGGACAAAAGACACAAAAAAGAACTTAATGTATGATCCTAATGACGAATATGCTGAAATAAGCCAGACTGGAAGATATGCCATTGGAGGAATTTTGACTCACGCTAGAGCTCTTTCTGCAATAGTTTCTCCAACAGTAAATAGCTATAGAAGATTAGTTCCAGGATTTGAAGCACCAGTATATACTGCATGGAGCAAATCTAATAGAAGCGCTATAATAAGAGTACCGTCTTATTATAGAGGAATGGAAAAAGCTAAAAGAATTGAATACAGAGCTCCAGATCCTTCAACTAATCCCTATCTAGCATTTTCCGCAATATTAATGGCTGCATTAGATGGTGTAAATAAAAAGATAGATCCAGGAGATCCAGTTGATGAGAATATTTATCACTTAACTCCAGATAAAAGAAAAGAACTAGGAATAAGAGAATTGCCTAGATCTTTAGACGAAGCCTTAGATGAACTAGAGAGCGATAATGAGTTCCTTAAACCAGTTTTCAATTCATCAATGTTAAATGTATATGTTGACCTTAAAAGAGACGAGGCAAAAACATTACAAATGTATCCTCATCCAATGGAACTATATTATTACATGGACTCCTAAGGTAAGTAAATACCAGATTTTTTTAGATATTTATATACTTCGTTTAAGTCTAAATAACTATCAAATTCATAGTTATTAATTGCCTTTTTCATTATACTATAGTCTTCTCCTATTAGATTTGCGTATTCTGGTATCCATCTATCTTTAGACTCTAAGAACCACGAAAAAGAACTTTCATAAAGATTCTTGATTTTTTCTTCATCTAGATCTGACCTTATAGCCATAGTACAACAATGTACAGGCTCGAAAACATGGCTTATCTTATTTCCTTGATCCTTTAGAATAGAAAGATAAGGTTCCCATATAGCTATGGATTTTATCTTTTTTTCTTGAAAATTAGAGACTAGATCTTCTGGAGAATTAAAAGGGACTATTTTAACATCCTTAAAATCTGCTATAGTCCATGTTTCCATGCTAGAAAGTACTGTAGAACCTACTTCGCATGATTCGCCTATTATGCCTGCGCCTCCCTTTGCACCTCCAGCTATTATCTTTATATCAAAGGCTTTTGAAAAAATAATCTGAGAGACTACTGGAGAGAAGCCTATATCAAGCTTTCCTAGCGCTAAGTCTCTAGTAACGTCTATTCCGTTCTTATATATTATTATACTAGGTGAATATCCACTATCCTTCAGCTTTTTGTAAAAAGGCATTATAAAAGGATATTCGGCAGCTTTTATTATACCGATTTTTATTATTCTGGATTTGAGAGAAACTTCTAAACTTTTCCCAGCTATTATTTTCCTTGATATTATACCTTCCTTTTCTAATTCCGAAAGTATCTCTGAAACTCTGCTTTTGGATATGCCAGATAATTTAACTAAGTCAGTCTGAAGCAGAGAACCATTTTTTGATAATAAATCGATAATTATATCTCGTCCTTTCATTATTTATATTTTTATAAAAAGATCATATTAAACTTAAACTTTTATTAGACGAATCTAGCATCCTTAATACCTTATTAACTAGTGCCTTATCTTTCTTGAAAATTCCCCTAGTTGCTACAGATAATAGTTTAGCCTCCTTATCTTTAACTCCTCTTACATATACACACATATGCAAAGCATCTCCCATTACCATAACTCCTTTAGGTTTAATGTCGCTATTCATTAGCGCGTCTGCTATTTGGCTCACTAGCCTTTCTTGAATTTGAGGACGTGCTGAATAATAATTCACAATCCTAATGATCTTGCTAAATCCTGCAACCTTGCCATTTTCTCCAACAATATATGCTACGTGTATTTTGCCTATAAAAGGTAAAAGATGGTGTTCGCATAACGAAGAAAATTGTATATCTCTCAAAAGAATCAATTGATCTTCCTCGTAGTTCGTATCGTCCTCTTCATTCAGTTTAAATACCTTAATTGTAGGTTGAGATGTTCTTAAACCGTATGTCATATCTAGCAATGCCTTTGCGACTCTAGTTGGTGTTTCTTTTATTCCCTCTCTGTTTGGATTATCTCCCAAAAGTTCTATTATTTCTTTAACGCGCTTCGCTATCTCTTCTACTAGTTTTTCTTGGTTTAATGATGTTTCCATACCTTTAAATGTTAGAGGAGATTGCTATAAATATATTTATTTTAAAAAATCTTATAGTAATTTATAAGCAGTTTCTAAAACTTCTGGTTTTCCAGATGTTACTATCATTGTATCTTCTATTCTTACGCCATATTTACCCTTAATATAAATTCCAGGTTCAACAGTTATTACCATATTCTTCTTTAAAACATCATTAGAATTGAATGAGATATAAGGACTTTCGTGAACATCTATACCAACACCATGCCCAGTCGAATGAACAAAATATTTTCCAAATCCGTTTTTTTCTATTACATTTCTAGCAATTCTATCAATTTCAGAAGCCTTTATTCCATCAGATACTGCGTCTATAGCTTCTAATTGCGCTTCTAATACTATTTCGTAGATTTTCTTTAAATCGTTTGAAAATTTTTTAACTAGCAAAGTTCGTGTGCTATCAAAACAGTATCCCTGATATTTTGCTCCTATATCTATAACTACACTGTCTCCCTCCTTTATTACTCTATCTGTAGGTATGTGATGAGGTTCAGAAGAATTTTCTCCAGAAGCTACTATAGAAGGAAAAGCATAATCTTCTGCTCCCTCCGTTTTCATAGTATAATCAATAAGTCCTGATAATTGTTTCTCATTAACTTGTTCTGTTGCTTTATCAATAGCAATTCTCATAGCCACTGATGTTATTTCTCCAGATTTTTTTATTATATCAAGCTCTTCTAAATCTTTTATTGACCTTAATGCGGATATTTGTGAAGAAATATCTTTTAGTTCAAACTTACTACTTAACCGTAAATATGTGCTGGCATCTAGCGACGAAATATCTGCAAATATACTATTTCTACTAGTAATTTTTTCAATAGCATCAATAATCGATGTATATTGTATATCCTCGCTAACTTTTGTCGGATAATATATTTTCACATCCACTCCCTTAGTTTCTAATGCTCTATTCTCTTCTAGAAGAGGAGCTAAAAGGGTAGCTACTCCGTCGCAATACAATAAAACTCCTGCACCGTTATATCCAGTAAAATAAAAAATATTGGAACTTCCAAATATTGCTCCACATCCTTTTTCTATAATATTAGAGAGCTTGTTTATTCTCATATAACATATACTTGAAATTAGGCTCTCTAATAGATATTGCTATCTCAAAAGCATGCGTTATTACTTCTTCTTTTACATCGTCTTTCAAGTCTGCCTTTAATATACTGAAAATGTCAATAGTCTTATCAGTTTTATATAAACAAGTTTTCAATTTTCCATCTACTGTTAGTCTTATTCTATTACATCCTGCACAGAATATAGGATTAGAATAAGGTTTTACCATTTCTACTATTAGCCCTGATTTCAAATAATATCTAGGTCTAAAATGTTTATTTCGTATTACACTTTTAATAGAATTAGATTTTATATATTCTTCTATTTTGCTTAAACTTTCATGACATGAAAAAGACTCTTTCCCTAAGCCTACTGGATGTAACTCAATCAAATGGACTTCATTTACTCCAAGGTCTTCTGCTAGTTTCAAAAATTCTATAGTTTCTTCCTCATTTTTCTTATTAACCACAAAATTAAGCTTTACTGGTTTTAATCCAACTTCTACAGCTTTCCTTATTCCAGATATTACCTTGTCAAAGGCATCAACGCCAGTAATTTCCTTAAACTTAACTTTATCTATTGCGTGCAAACTTACATTAACTCTATCTAGTCCAGCATCTTTTAGTTTCTCAGCTAAAGTATTTAGTAAAACCCCATTAGTAGTCATTGAGACTTCTTTTATCCCTACTTTTTTTATTGAAGAAATTATTTCTGGTAAGTCTCGTCTTAATGTAGGTTCCCCTCCAGTTAATTTTACGTATTTTATACCAAATTTTGTAGCTACTTTAGTTACTAGAACTATATCATGAAGACTAAGTCCGTTCTGTTTTTCTTGACCTTCGCCTTCCATATGGCAGAAAAAACACGAAAAGTTACAAACATGAGTTAAGGTTATTCTTAAATCCTCTAATGGTCTTCCATATTTGTCAATCATTACCTTTATATTCTTACCTAAATAATAAAAAGTTGTATGAAAGACGTTCTTTGTCCAAGGTGTGGTATAAGAATGGAATTTATGGCAGAAGCTGAGGTTAGCGGAAGTAACAAGAAGGTAAGATATTTCTATAGATGTCCTGCATGCGGAACTAGAATATCAGAATCCGAAATGACAATAGAAAAGAAAGACGGCTATGTATCTATAAAAGTTCTCCAATAGTCTTCTTTAGAATATTTAAATGTAATGGAGGAAACAAACTCAGCAAAGCGATATTTTTTAAATTATTAATATATAGTAATTCTTCTTTTGTTGGAGAATATGAAATAAGGAATTCTCTTAAAATATTTTCATACTCTCCTATTTCGTACAAGAATTTATAACTAAGAAATAAAACAAACACTGCTAAATCCCATGCCCTATATTCCTTTGAGTCTGTCTTGATAGCTTGTTCTGCATCGATAACATATACAGAATCATTTATAAGAAAATTTTCAAATTTAGTATCTCCCATTGCAAACCCAGAATCATGTATATTTCTTAATGTTTTTCCTAACAATTTAAAGTCTTGAATTGTAGCAGGAATTTTGCCTTCTATAAATTCTCTTACTATGCAATTCTCACTAAAGTCAAAATCAATTAATCTTGGAACACTAATACCTTTCCAAGGATTTGTCAAGAAATCTATCTCTCTTCTCATTCTTTCGTTAGGATCTGCTACATAAGGATAAGATCTAAAAAGAGGAGTTATAAAAAACCATTTAAGAGATACATTTGAGCCATAACATTTTTTAACATATTTATTTCCATCATATCGAACTATTTTAGATTGTGTATAGAAAGTTCTAAAAATATTTTCTATGTTCATTGTATATAGAATAAAAAATATGCGTATTTAAATGTAAAACTCTGTAGTTGTATATCTTTACTTTATATCAAGTAAATCGGCCATCTCATCTATATACTTAAACATATCGTCTGGAAATACTACTACTGTAACCTTATCGTCACATATCTTATTGTACGCTGCTATGGTAGCACCTGCACTTAAGCCTATCAAAATTCCAGAAGTCCTTGCTATAGTTTTAACACCTTGAAAAGCCTCGGCTAAAGTTATATCTATTATTCTATCTATTATTGAAGACGAAATTAAACCATCGCCATCTTGCCTTTTTATACCAGGTATTCTTTCTCCTTTAGCTGGCTGGACCCCTATAATTTCTATATTACGATATTTTTCTTTAAAATATTTAGAGATGCCTGCTAGATGACCTCCAGTACCTGCAGTAGCTATTATACGTTCTGCTTTTTTCCCTATTGACTGTAGTTGTTCATCTATTTCCTTAGCAGTTGTTTCATAATGGGCTAACATATTTACTGGGTTTACAAATTGATTTAGATGCAGTGCTGAAGTAGACGAAGAATATTGTCTAACTAGTGGCAATAACTCCGTAGTAGTATTTCCAGCTTGAATAACGTTAGCTCCTAATATTCTCATAGCTACCTTGAATGTTTTAGGGGCAACAGATGGAATAAATGCAGTAAATTTCTTGTTAAAAATAGCAGAAAATGCTGAAAGTGATATACCTACGTTACCTGAGGTGGCCTCTACTATCTCATTAGCATTATTATCTAACGCTTCCCTAAATAAGAACCATGCAGTTCTATCTTTTATGCTTCTACTAAAGGGATTATAGTACTCTAGTTTAGCCCAAACATCTTTACCAACTTTTAACTTCAGTAGAGGAGTAGGCCACATTCCTTCTAATAGTTCTATAGAGTCTTGAAAAACATGCAGATCTTTTGACACAATACGCATCTACCCATCATTAAATTATATTCAGCATATATAAAGTGCTATCTCTTTAGTTTAAGTCTTATTAGTGTCTCACTTCCATTTTTTTCGTATCCTAAAAACTCATTCCCAGTCTCTTTGCACCAATTTTTTAAATCGTCTACCATACCTCCCCATGGAGTTCTAATTATAATTTCTTCTTCCCCTTTGATATTTTTCCAAACTTCCATTAATTGAATAAAACCAGATGGGCAAGCATCCTTTATTTCCAACTCCTTCATATACTTATCACTATATCAGAATCTTTAGCCTCAAGTAAAAATGTTACGGCCCCAGATAATTTTACGCCGTCCATTAAATCCTCCTTAGAGAATCCAGCTATTTTTAATCCAGCTTCATCAACATAAAATTCTACACCTTCCTTTATAGCGTCATTAAGTAACTTTTCCGTTTCTCTTACACCTACCTTTTTCATCTTATATTTTGTGTACAGATTAGCAAAAAATCCTATGCTTAATTTTGCCCTACCTCTTACCTTCTTAGTAAATAAAATTACTGCTTGAGAGGTTACAAAGCATTTAACTGTCCAATTTAACGCTCTACCGTCTATTGCTAATACTAATGCATGATAAAATTTTTCAAAACTATTATCTGAAACCAAAATTGTAAGCTTTGGCATTAGGATATATTTGGCCAGTATATTTTAAAATTATAGAATACAATCTAGAACAGTTAAGAGAGTCTACAGTTTATTAAGTATTATTATATTGTTTTTCATTTTATCTTAGAAACGCTTTTTCCTTTATTTAACTTTATAAATTAATTAACTATAACTTATTTTACAGAACTATGACTAGCTTAAAGTTAGTAAGTTTCTGTTTTCAAAAATAGTTTAAGATTATATTTTCTATAAGCTTTATTTAGATTACATAGATATTTTCATACATATTTAATAAAATTTCAATTTCGGACTTAATTAATACTTTGATCGTTTAAAGAAAATATAATTAGCATGTGAATATCTATAACTACTATGCAAATAAGAGCACTAACAGTATTTGTCTCGTCTTTAGAATATGATAGAATAAGTAATTATGTTGAAAAAATTAAAAAAATTGACAATATATGGACAAAAAGAATTTCATTACCTGAGACAAATCTTTCCATATCAAAAGTAATGGAGTTAATTCCCCAAGATAATAGTGTGCTTTTCAGCGTTTGCGGAATGAGGGATAACGATAATAGAATAATGGAAATACTTGACGCATTAAGATCTGGAAGCAATATTTTTTGTAATATTCTAGTTAATGATATAAAAAACCTAGATAAAATAACGAAAATATTAACAAAGCTAGAACCAGAAGAGGCAACTAGATTGGCTTTATTAATTAATGATGACTTCCTTCTTACGCCTTATTTCCCTGCTTCTACTGCTAATGTTGTAGCAGACTCGTTTGGCTTAGCATTGCTGTACGTTAAAGATTTTATTGAAAATAATATATCTAGCGCGTTTCAACAAGCTAATGAATTCGGTTTAAAAGTATCAAGAAAAATTGGTGCCAAATTTCTAGGTATTGATGTCTCTTTATCTCCATGGATGAATGAAAGTGTAGGAGAAATAATAGAAAAACAGAGCGGGAAAATATTTTCACTAGGTAATACGTGGACTGTAGGAGAAATTAACAAATTAATATTTTCAGAAGCCTGGAGATCTAAAGTAACCCCTATAGGATTTTCAGAAACAATGCTTCCAATAGCAGAAGATAATATTCTTAAAAAGAGAGTCGAAGAAGGTTCTTTAACATTGTCTCAACTAGTTCAATTAACATTTGCTTGCGCTGCAGGAATTGACATGGTTGGAATAAAGGAAGATCCATTACTTTACAAAAATCTTATCAAAGACCTTATAGCAATCCAATTTACTAAGAAAAGACCTTATGCAATAAGAATTATTCCTTCAAGAGGAGAAGATAAAATAAATACAAAAGATTTCGGTATAATACCTACGATTAAAGTAATATAGAGATGTTTTAAATTACTTTTATATACTTCCTATTATATAGAGAAATATCATGGAAGTTAGAAGAGTTCAAAAATTTGGTAAATCAACATTGATGGTTTCTCTGCCTGCAGACTGGGTAAAGGAAGTAGGTCTAAATCCTGGTGAAAGTATATACTTGGAAGTGGACGAGGACGGAAGCTTAAAGGTATATCCGCCAAATTTGAAATCAGAAAGTACATCAAAAGAGATGAAAGTAGCTATTAAAAATAATACATCGGCTGACTTAATAGGAAGACTTATCTATAGTTTATACGTATTGGGTTTTGATAAGGTATCAATAGAATCTACAGACGGTCCTTTTAATGAAGATGTGTTAAGAAAAGTTAAAGATGCAGCAAGAAGCCTTATAGGTTTAGAAATAGTTTCACAAGATGTTACTTCTCTACAAATACAATCGTTTTTAGATCCAACTAAATATAATATGACTAGCCTAATAAGCAGATTAAGTAATACGCTAAAGCAAATGTTACATTATCTAAACTTAGGAATAAAAGAGGCTAGTAGAACATTTTTACAAGAAGTTATAGAATTAGAAAAAGAGATAGACAGACTGTATTATCTATCTTTAAGACAGTTACTAATAGCACAAGTTAATAGAAGTTTAGCATATATGATAGGTGTAAAAAGAATACAAATTGTTGGGAACAGAATATTAATGAAAGCTGTAGAGGAGGCAGCAGACGAAATAAGCGATGCGGCAAACGATTTATTAGCATTACATCCGGAGGATCTCGAAATAATAAAGAACTCGTGGGAAAAAATAGACATGTTAATTGATCAGACTACAGTAGTAATTGATCATGTAGTAAAAGTTCTAGGAAAAGAAGATGTTAAGTTAGTAAATGAAGTAATGGAAGAACTTGAAACATTAAGAAGAGTATTGATAACAGAAGCTTTGGGTATAGAAGAAAAGCTTAGCAAAATAAGTTCGCCTAGGGCTACTATAGCTGCGAGGACACTAAATCTAAGATTATATAATGCTATAAGAAGAATGGAGCCGATAGCTGAAATAGCATTTAATAGAAGCGTGGAAAATTTAAAGGAAATTACTATTGACTAATAGTTTTTAGTTGTGATAATACATATTGTCTTATCTCAGTTATTGAAGGAAGTTTTTCCATAATTTTCCCATTATCCATGTATTTCTTAAGTAGAGGAGTACATCCATCTATTTTTTCATTTAGCAAAGTTATTGTATCATTTAGACTATTACATCTCCATACTTGTTTTGCGCCTGGCCATTTACCTCTTTTAGTGAAAGGAACCCATTTTCCGTCTATATACTTTTCAACAATATCTGCGCTAAAGTCTACACTCTGTGGAAATGCTACACTGGTTCCTATACCAAATCCATCTACATAATCTTTCAATTCTATTACGTCCTCCTCATCTATTCCTCCACTAACTATTATCTTAACATTCCTAAATCCATTAATGTCAAGAGTCCATCTGACCTCTTGAATTATTTTCTTAAAGTTACCTCTTCTACTGGAAGGTGTGTCTAATCTTATTCCGTATAGTTTATCTCCTAAAAGTTTAGCAGCTTTTAATGCTGCAAAACGTTCATCTTCAAATGTATCTACTAGAGCTATTCTTTGAACTGCCGGATCTATTGCATTATTAAACGCTTCCCATGCCTTCTCATCATCTCCTAATATGAGCATAAGAGCATGAGGCATTGTCCCAGAGGGTTCTAATCCTAAATATTCCTTACTCATAAGACCAGATACTCCATCCATTCCGCCTATATAGGCTGATCTATCTGCTATTATTGAAGAAACTGGATGTAAAGCTCTTAATCCAAAAAATATCATGGATTTATCTAAAGCCAAAGACTTTAATCTAGCAGCCTTAGTAGCTATGCTACTTTCTTGCCTTAATATTCCTAGTAAAGCAGTCTCATATATTCCAAAATCTAAATAATTTCCCTCTATTATCATTACTGGCTCTATTTCCTTGAATAAAGTACCTTCTGGCATTGCATAAACTGTTACTGGCTTTCCTTCTAATAGTTTTAGTACTTCCTCTAAGCCAGCGAAAACTCCCCAATTATAATTTTTAGGAAGTCCATATGAATGAAACTCCATTCTTACTTTTACATCTTTTATGCCTAAGTAAGATAGAGTTTTTACTGTTCTGTCGAAGTATATATCAGTTATTTTTCCATCTAATATTTCTTCTTCCTTTGGTATGAAAAGCTTCATCAGGATTTATTGTATAAGTTAATTTTTAAACCTTAGAGAAGAGCTACATATGAATTAAAATGATTACAGTTAATATGGTGCCGCCAAATATTTATATAGAGAAGCTAGCAGAATATGTAAAAAATAATGTAAAAGAAGTTCAACCACCTGAATGGAGCTTTTTTGCAAAAACTGCTAGTTTTAAAGAAAGAGTTCCAGACGATGTAGAGAATTGGTGGTATATGAGAACTGCATCGTTACTTAGAAAGCTTTACGTTTATAATTCTATGGGGCTCAGTAAATCAAAAACAGTATATGGAGGATTAAAAAGAAGGGGAAGTAAACCACCAAGAAGTGTGAAAGCCCCTGCTCATTCAACTAGATTGATATTTCAACAATTGGAAAATGCAGGCTTAGTTACAAAAACTAATTATGGAAGAAAACTATCTCCAAAAGGTAGGTCTATTCTAGATAAACTTGCCCGCGAAATATTTATAGAGTTGTCAAACCAAAATACTTCTTTGAAAAAATACCTTGAGTGATAAGCTATGTCAGATAACTATGTAGATCCCGAATTAGAAGAAATGTTAAGGAGAAGAGCTCAACAAGAAAGCAGAAGAAATATAGAAGAGCAGCAAAAAAGGGCTGAATTAGAAGCAAAAAAGGAGGCAATACTTAGGGTTATACTAACTCCAGAAGCTAGATTAAGGTTAAATAACGTAAAGTTAGTAAAACCAGATATAGCAACTTCTTTAGAGGATCAACTTATAGCATTAGCCCAAACTGGAAGAATTAAAACACCAATAAGTGATGACGAACTAAAAGAGATACTATCTCAAATAGCCGATCAGAATAAAAGAGATTATAAAATACAAATAAGAGAAAGGGGCTGGAAATGAGTAGAAATAAACCCGCAGGTAAAAAATCAAGACTTGGCAGAGCATTAAAATCTAATAGTGCTATACCTGCATGGATAATATTAAGAACTAATGGAAAGGTAAAAATAAATCCATTAAGAAGAGATTGGAGAAAAAATGATTTAAAGGTGTAAAAATAATGAAAGAAAAAGATAATTTTGAAATGATAATAAATCTAAGAAAGGTTATTATGAGTAAAAAAACTAATAGATCAAAAAAAGCTATAGCTATGATAAGGAAAATTATAGTAAGACATTTCGGTGCAGAAAAAGTCCTTTTAGATCCATTACTAGCTGCTACAGTTTCTAAGAATAGAGAGAAAGTAAGTTCTAGGATACCAGTTGTCGTGTCTAAGATCGGTGAAAAAACATATTTAGTAAAACTAGCAGTTAAACATGAATGAACATTCAGAGATTAAGTGTTTTCGGAACAGATAATATCGGAGTGTATATTTATTCTAACGATAAATATACTTTTATACCTAAAAATTTAGATAAAAACACTAAAGATATCATTATAGATAATTTAGGAACTGAATTAATAGAAACTAGCGTTTCAAATAGCTTCCTTTTAGGGATATTTATAAATGGAAATAATAATACTATAATACTACCAAAAATTGCGAAAGATAACGAAATAAAAGAAATAAAAGAGCAAGCAAAAGACACTAGAGTAGAAGTTCTTAACTTGAAAGCTACTGCATTAGGCAACGTTATACTAGCAAATGATCATGCTGCATTAATTTATCCTGAATTTTCTGATGCAGAAGTAAAAGAAATAAAAGAAGCCTTACAAGTTGAGGAAGCAAAAAGAGGAACTATAGCTAACATAATAACAGTAGGTTCAGTAGGAGTCATAACAAGAAAAGGTGGAATAGTTCATATAGACTCAACTGATGATGAAATAAGAGATTTAAGCTATTTTTTTAAGGTAAAAATAGACGTAGGAACAGTAAACTTTGGAAGCGCATTCATTAGAAGTGGAATGATAGCTAATTATAAAGGTGTGCTAGTTGGATCTTCTACCACGGGTCCAGAGATTTTAAGAATTCAGAGAGCATTAGGTGATTAAGATGAGTGAGATAAAAATATATCAAGTAAAAGGTACTGCAGTATTTAATTTATCAGAATTTCCGACCAAACAAAAATTTGTAAAGTATGTTAGAGCAACAAATGAAAAACAAGCTATAGAATATGTATACACCCAATTCGGAAGTAAAAACAAAATTAAACGGTCTAATATTAAAATAGAAGAAGTCAAGGAAGTAAACTCTAACGAGATTCCAGATAGAACAATAAAAGATATTGGCAAGTTAGATAAAATAATATTGTGATGTATTATGTCAGATCAGCAAGGTAAAATAATGATATCTTTAGAAGATCTTCTAGCGCAGGCTGATTTATTAAAAAAACAGATAGAGGATTTACAGAAAGCTCAATCAGAAATAGCTGACTCCTTAAGCGCAATAAAAAGTGCCAAAGATACTATAGATGAGCTAAAAACTCCTAAGAATGATTTATTCTTATCAGGAGATAAAAAAGGATTTTTAATGCTAAGAATTCCTGAAGCGAAAGCAGATAAAGTAATAGTCTATCTGGGTCTAACTTACTATGCAGAAGTTACACCAGATACTGCAGTAAAGATTTTATCTGATAGAGAAAATGAACTTAATTTAACTTTACAAGAAGTTAATAAAAAGTTAAGCGAGAGTATAAACGCTTACTCACAGATTTCAGATATTCTAAATAGAATCCAAGAGCAACAACAAAAAGGTGAATAAATTGTTTTGATAAGTTAAAAAAAGCTTTTTCCAATTTTTCAAATAAACTTCTTGGAAAAGAAGAGGAAAACATTAACAAAAACGAGGAAACTAGTCAAGAAGTTCATACTGAGGAATTGCAAACAAATAAAACAACAGAAAGTAGTATAGAAGAAAAAGTTGAGAATGCTGAAAATAAAGAAAAAATTACAGAAAAATTAAATATTTTTAATAAGTTAAGATATAAAGAAATTAAGGAGAATGATATATCAGATATAATAGAAGAACTAAGAATGGAACTATTAGAAAGTGACGTATCACTAGAGGTAACAGATAAGATTTTAGAAGATCTTAAAACAAATTTAATAGGTAACAAAGTTAGCAGAAGCGAGGATTTAGAGCAACTTATAAAAAAATCATTAAAAAAGTCATTAAATGAAATTTTACAATATAATAAGATAGATTCAAATTTAGTCGATAATATAAAAAAATCTCCTAAACCTTTTATTATAGTATTCTTTGGAGTTAATGGAGTAGGGAAAACAACTACAATAGCCAAATTTGTTTATTTACTTAAAAAAAATGGTCTGAATGTAATAATAGCCGCAGCAGATACGTTTAGAGCCGCAGCTCAAGAACAATTAGCTGTTCACGCTAAGAAACTTGAAGTGCCATTAGTTAAAGGAAAATACGGAGGAGATCCTGCTTCGGTTGCATATGATGCTATTCAATCCGCAAAAAGTAGAGGAATTGACGTAGTTTTAATAGATACTGCAGGAAGAATGAATACTGATAAAGATCTAACTGAAGAATTAAAAAGAATAATAAGAATTGCAAAACCTAATTTCAGAATTTTGGTATTGGATTCTCTAGCTGGAAACGACGCATTAGAGCAAGCTAGATATTTTGAAGACGCGGTAGGCTATGATGCTGTAATATTAACAAAAGTTGATGCTGATGCTAAGGGAGGAATAGTTCTTTCTTTAGCATATGAGCTAAAGAAACCAGTTATATATTTAGGTATAGGGCAGGATTATGAAAATCTTATAAGTTTTGATCCTAGTTGGTTCTTAGATAGGCTTTTCAGTTAAATTAATATTTTGACTATACAATAAGTTACATATGGATATTATTGAGGAGATTAAGAAACTTCCTGCAGAGTGGAAAAAAATAGTTACAGTGGCTAAAAAACCAGATAAAGAAATGTTCAATCTTAATTTGAAAGTTACCCTAATAGTAATGGCTTTTGTAGGCTTGCTTGCCTTCTTAATCCAATTAGCACTGACTATACTTATTGGGTGAAATTTTCATGGAAACTAAAATTAGAAACTACTATGCAGTAAAAGTTACTGGAGGACAAGAAGTTAATGTAGCATTAATGCTAGAGGAGAGAATCAAGACAAATAATATAAGCGATGTCTATTCTATCTTAGTTCCTCCGGGTCTGAAAGGATACGTTATAATAGAAGCTGGAGGCCCTCATGTAGTTAAACTCTTAATAGCTGGTATAAGACACGTAAGAGGGTCAGTCCCTGGCCTAGTATCAAAAGATGATATAATGAAAATGATATCTAAGAAAGTTGCTGGACCTTTGGTTAAAGAGGGAGATTTGGTAGAAGTTACTGCTGGACCTTTCAGAGGAATGCAAGCACAAATAGTAAGATTTAATGAGAGTAGAGGAGAAGTAGTGTTAAATATTTTAGAATCTGCTTTTCCATTACAAGTAACTATACCTGTAGATCAGGTTAAACCATCAAAGAAATCTTGAGGTGATCGTGTATGCCTAAAAAAACAATTAAAATAGTGGTGGAAGGTGGTAACGTAAAACCGGGACCTCCTTTAGCTCCAACACTGTCACAATATAAGTTAAACATAGGAGAAGTAGTCAAGAAAATAAATGATGCAACATCTCAATTTAAAGGAATGTCAGTACCAGTAAACATCGACATAGATACTGATACAAAAGCATTTGAAATTAGTGTAGGAATACCTACTACAACTTCTTTATTATTGAAAAAAGCTGGAGCTCAAGAACCCTCTGGAGATCCTGCACATAAAAAAATAGGTAACGTTTCAATGGATGATGTAGTAGACGTAGCGCTAATGAAGAAGCCAAGTATGACAAGTAAAAGCTTGAAATCTTCAGTAAAGTCTATTTTAGGTACTGCAAAAAGTATAGGATTAACAGTTGAAAATAAAGATCCAAAAGATTTAGTAAAGGAAATCGATGAAGGTAAATATGATGATTTATTATCTAAATATGAAGAAAAGTGGAATAAAGGTGCATGATTATGATAGTTTCAAATGATAAATTAAAAGAAGGAATTACACTGGCCTTATCCGAGCAAAATAATCCAAAAAGAAATTTTAAGCAAAGTGTGGAATTAATAGTAACTTTTAAAGAAGTAGATATGAAAAAAGGAGAATTAAAATTAAGGGAAATAGTTGCTTTACCTAAAACTCCAAGTAAACCAAAAAATGTTGTCGTAGTACCTTCTTTTGAACAGACAGAATCTGCTAAAAAGGCAGAGCCTAATGTGCTTCTTGCCAAAGAAGATCTTCAGAAACTTCTTGGACAGAAGAGAGCAATCAAAAAATTGGCTATAAATAACGATTGGTTTCTCATTGCACAAGACTCTATGGCACTAGCTGGTAGAATATTAGGCCCAGCCTTAGGCCCTAGAGGTAAATTTCCTACACCATTACCTACATCGTCAGAGATAACTGAATATATTCTTAGATTTAAGAGATCAACTTTAGTAAAAACTAAAGATCAACCACAAACTCAAACATTTATAGGATCTGAAGACCAAAAACCCGAAGATTTAGCAGAAAACGCTTCTGCAGTACTTAGTGCAATAGAAAATAAAATAAAGGGACCTTCCGTAATAAAAGCTATATACATCAAAACAGATATGGGTAAACCAGTAGAGATTAAACTAAAGTGATAGAAATGAGCATAACTATACAACAAAAGAAAATTCCTCAATGGAAGATTGACGAAGTAAAAGAACTAGAGCAATTAATAAAAGAAAATAAGACAATTATTATAGCCAATTTAGAAAAATTCCCTGCAGATAAGCTTCACGAAATAAGAAAGAAATTTAGAGGATACGCTGAGATAAGAGTATCAAAAAATACTTTGTTTAAGATAGCAGCTAAAAACGCAGGTCTTGATATTACTAAGATAGAAAAGTATCTGAATAGTTCTAACGCATTTATATTCAGTAATGAAAATCCCTTTACAATATCAATAAATCTTAATAAATCTAGACTAAAGAGATACGCAATAGCTGGAGATAAGTCTGACGAAGAAATTGTTATACCTGCAGGAGATACTGGAATGCCAGCTGGACCTATATTAAGCACTTTCGGAAAACTAAAAGTCCCAACTAGAGTACAGGACGGAAAAGTAGCAGTAACTAAAGATACATTAATAGCAAAGCCTGGAGATACTATACCAGCAGAAGCTATACCTATACTACAAAAATTAGGGATAATGCCAGTATATGTAAAACTTACTATGAAGGTTGCATATCATGAAGGATTGCTAATACCAGCAGAGGAATTAGATGTCAACTTAGATGATTATAGATCAGAAATAGGCGAAGCATATAGAAACACTATAGCTCTTGGAGTAGAAATAGCATATCCAGTCCCAGATGTATTAAAGATTAGCATTACAAAGGCACAGAATTATTCTCTAAATCTTGCTGGAGAAATGGGCTATATATCTAAAGATACTGCAGAAATAGTATTTATAAAGGCATTAGCTAAAGCAAATGCGCTAGCAGAAGCTATAAATGATAAGGCTAACCTTGGTATACAAGTAGCGCAAAAACCTACAACGCAAGAAGCTAATAAGGAAGATAAGGAAGAAAAGAAAGAGGAAGAAGAAAAGAAAGGACCAAGTGAAGAAAAGTTAGGTGGAGGTTTATCCTCGTTATTTGGATAACAAAGCTTTTTAAATACCAGAATATTAACTAAGGTGATAAGATATGGAATATATATATGCAAGTTTATTGTTACACTCTGCTAAAAAAGATATAACTGAAGATTCATTAAAGAATGTACTTACAGCAGCTGGCATAAATGTAGACGAAGTGAGAGTCAAAGCTGTAGTAGCGGCTCTAAAAGAGGTTAATATTGATGAAGTACTAAAGAACGCAGCAGCTATGCCAGTAGCGGCAGCACCAGCAGCTCAACCAGCAGAAAAGAAAGAGGCTAAGGAAGAAAAGAAAGAGGAAGAAGAAAAGAAAGGACCAAGTGAAGAAGAAATCGCTGGCGGTTTATCTTCTCTATTTGGTTAAAAGAACTAGTTTTTTTACACATACTTTTTAATTCCTGAATATTTATCTTCTTTTAACATGATTGTAGACGAAAAGGAGTACAAGGTAAGGCTATTCAATAATAATTATTATAGGAAGACTTGTAATGTGTGTAAAACGCCTTTCTGGACAAAAGATAAAGAAAGAACTAATTGTGCAGATATTCCTTGCTCAGACTATTATTTCTTAGATTTGGATGTATCAAAGCTTAATCTAAGCGTGAAAGAAGCTAGAAGTAAGTTTCTTAATTTCTTTAAAAGACACGATCATGAAATTATACCACCTAAACCGGTATTAGCAAGATGGAGAGAAGATCTATATTTAACTATAGCAAGCATAGTAGATTTTCAACCCCAGGTCACTAGTGGATTAGTACCACCACCAGCTAATCCTTTAGTTATTTCACAGCCATGCATTAGATTGGAAGACATTGATAATGTAGGCATAACTTTTGGAAGGCATCTGACAACATTCGAAATGGGAGGTCATCATGCATTCAACTATCCAGATAAATACATTTATTGGAAAGACGAAACGGTAGAACTTTCTAAAGAATTTTTTACCGAAGAACTCGGTATACCAGAAGAGTTACTTACATTTAAAGAATCTTGGTGGGAAGGAGGAGGAAATGCGGGACCTTCATTTGAAGTAACAGTGGGTGGACTTGAGTTAGCTACTTTAGTATTTATGCAATATGAAATAAAAGGATCTGATTATATACCCCTTAAACTGAAAATAGTGGATACAGGATATGGTATAGAAAGACTAGCCTGGTTTACTCAAAAGACACCAACAGCTTTCCATGCCATATATGGAAACTTAGTATATACTTTCTTCAAAAAATTAAACCAGGCTCCAGTAGATGAGGAGATGCTAAAAACTGCAGCAAGACTAGCTGGTAGAATAGATACAGATCATCCCGAGTCTATCAAATTACACAGAGAAGAGGTAGCCAAAAAAATAGGTGAAAAACTAGAATATGTAGACTCTGAACTTACAAGAGCAGCTAGAGTATTCCAAGTATTAGATCATACTAAAACTATAGCTCTAATGCTAGCAGACGGTCTAGTGCCATCTAACTCTGGAGAAGGATATTTAGGAAGACTATTAATAAGAAGAACATTAAGAACTATGAAACTTCTAGGCGCTAATGCTGATCTTGTGGATTTGATTTCAGAACAAATAAACTATTGGAAAGAAGATTTTCCAGAAATGTTAAAGAATAAAGATTACATTCTTGACGCAATAGAAAATGAAGAACAGAAATTTAATGAAACCATAAGTAAAATTCCATCAATAGTAAATAACCTTAGTAAAAAGAAAAATATAACTGCTGAAGATTTGGCTCAAGTCTATGATTCTAATGGTGTTCCACCAGAGTTACTTACTGAAGAATTAAAAAAGAAAGGCATAGAACTTCAGATACCCTTCAATTTTTACGCACTAGTAGCTAAAAGACATCAAACTGCTCCTATAAAATCTGAAAAAGAAAAATCTAGATTAACAAAAGACGTAATTGATTTTGCATCAAAATTTGAGCCAACTAAAAAACTTTACTATACTAATCAATATCTAAGAGAATTTGACGGAAATGTAATCGGAGTGTATAAAAATTTTATAATAACTGATCAAACAGTCTTCTACCCAGAAGGCGGAGGTCAGCTTGGAGATAAAGGATTTATAATAACTTCCACTGGAGAAAAGTATTCTGTAATAGATACTCAAAAAGTGTCTGATGTTATATTGCACATACTTGATAGAGAAGCAAAAATTAACGTTGGGGAGAAAGTTCATGGAGAAATAGATTGGCAAAGAAGATACAGATTAATGAAACACCATACTGCAACTCATGTTATACTTGCAGCTGCTAAGAAGCTTCTAGGAGATCATATATGGCAAGCTGGTGCAGAAAAAACTCCAGAAAAAGCTAGATTAGATATAACCCACTATAAAATGCTTTCTAAAGAAGAAATCAGAAAAATAGAAGATATGGCAAACTTTGTTATAAACGATAGGAGGCCAGTTAACGCTTTTGAAATGAATAGGACAGAGGCAGAAACTAAATTTGGAGTATCGATATACGAAGGGGGAGTTCCAAATAAGGCCTCAATTAGATTGCTAGAAATTAAAGACTGGGACGTAGAAAGTTGTGGAGGAACTCATGTATCCAATACTAGTGAAATAGGGGCTATAAAAATTGTTAATGTTGAAAAAATTCAAGATGGAGTAATAAGGCTTGAATACGTTGCAGGAGATATGGTAACAAACTACGCAAGAGAAATAGAAGATGAGATAGATAAAACTTCTGAAATTCTAGGTGTTGATAGGTCTCAATTGGAAATTAGGTCACAAAGATTTATTGAAGACAAGAAAAAAGTTGATGAATTACTTAATGAATATAGAAAATGGTATATAGAATATTTGTTAGAAAATTCTAGTAAAGAAATATATAATGGCGTAAATATATTGATTTTGAAAAATATAATAGATCAGGAGATAGTTAAAGAAATAATGAAAAGATTTACTATTGATAGTTCTAAAGTTGTAGTTAATATATATAACAATAATCAAAAGTGGATTATAGAAATAGCTACGTCTAGTAATATAAAAGTAGATCCAATTTTAGATAACTTGAGAAAGATAGGAGGAAAAGGCGGAGGAAAAGGGACGTACTGTAACGTAAGTTTTGTTACAGTTAAAGAAGATGATATTATAAATGCTATTAAACAAGGACTTAAAGGAAGCCTATAAAGATTATAAATATCTATTAAATAGAGGTTATAGTAGAAAAATCGCTCTAGAATTGATATCGTCTAGATATTTTTTATCTGAATTGCAAAGACTTATTTTATATAGATGTACTCATTCTGATAATGAAATATCTTACATACAGAGCAAGATATCAACTGAAAATAATATTGTCGTTGATGGATTTAATATCGCTATAACACTAATCAATATATTAGATAATGATAACGCATTTTTATGCGATGATGGATTCATTAGAGACTTAGGCTTAGGTAAAAAGAAAGAAGATGAGAGAATCTTAGATATATTAATTCTTGTTTCAGAATACTGTGTCTGGAAAAAATTCTCTTGTGAAATAATATTAGACTCTCAAATAAGTAATAGTGGAAAAATTGCTGAAAAATTAAGGCAAAAGCACGTCACTGCCAAAACTGTTAACAAAGCTGATAAAGAAGTTATAATAAGCAATAAAACTATAGCTAGCAATGATTTTGTAATTCTAATGAATTCTTCAAAAATAGTAGACTTACTTGGTAAAATGGTAAAAGACAGTTATATAAAGTTAGTAAAAATACCAGAAGACCTAAGCTAACCTAAGCTAAGAAAAATCTTTAAGGTAGTTCTAATCTAATTACTCTATGGACCCGTAGCTCAGCCAGGATAGAGCGCCGGCCTCCTATGAAGGTCGGAGCAAGCCGAGGGTCCCGGGTTCGAATCCCGGCGGGCCCGCCACATAGATTAGGTATTATAAAAGTATTCCCTTAGATGATACACGTTACATTTATAAATTCTAAAAGTAGAACTTCACTCGGGGCATAAGAAAAGAAGATGTCAGAGGAAGCAGTTTTCCAAACCTCTTCTGAAGATAGGATAATAGGGAAGCACGTGTTTGGGAATCTATATGGAATTGAACCAGATATCTTAAATGACAAAGATCTCCTACAAAATCTAGTTTTGCAAGCTGTAAAGATAGCTAATATGAATCTAGTTGAAGTAAAGTCTTGGAGTTTCGGTGGAAAGAAGGGAGGCGTATCAGTAATAGCCCTCGTTGAAGAAAGCCATATAGCTCTACATACATGGAACGAGTATAACTATGCAACGCTTGATGTATACACTTGTGGAGAAAACAGCGATCCAGCGGCAGCTTTCAAGTTTATAACAGATAATTTAAAGCCCAAAAAATATCAGGTATTCTACGCAGATAGAAGTTCAGAGTGAGCTGAGGGCTATCATCTATCAAGTTTTTTGTTTCATCACATGATATTTTTTGTTATTTATCTTTAAATTTTTTTATAGACAGTTGTCTATAGGGGTATTAGACAATTGTAGAAAATCTTTAAAAATGTCTATAGCGTATAATAATAATGCATAGCGGTATAGTTGGTTGGGGATCTTATATCCCCAAATATAGAATTAAAGTTGACGAGATAGCAGAAACTTGGGGAAGAGAAAGGGCAGTAGTAAAAACCTTAGGTCTTACTGAGAAATCCGTACCTTCGCCAGATGAAGATTCTACTACAATGGCTTTTGAGTCCACAGTAAATGCTCTAAATCGAGCAAGAATAAATCCAGAAGAAATAGGTGCTGTATTATTCGGTTCAGAATCAAAAGTTTATGCAGTTAAGCCTACATCGTCGTTTATAATAGATGCTATAGGAGCCTCTAATTATTCAGTAAGTGCAGATTTAGAATTTGCTTGCAGAGCAGCATCAGCAGGACTTAGAATGGCATTATCCATGGTAGATACAAATCAAGTTAAATACGCACTAGTTATAGGCTCTGATACTGCTCAATCTAATCCAGGAGATATATTAGAACTTAGTTCTGCAGCAGCTTCTATATCATTTATAGTAGGCAAAGATACGGAATCTGTAGCTATAGCAGAAGCATCAACGTCTTATACTTCAGATACTCCAGATTTTTGGAGAAGAGATGGAGTCCCTTACCCACTGCATGGAGAAGCCTTTACTGGTGAACCTGCATATTTCGCACACATATTATATGCTGTAAATAAATTACTCCAAGATTCTGGACTAAGAATTTCTGACTTTGATTACTTCATATTTCATCAGCCAAATGGTAAATTTCCTCTTCAAATATCTAAAAAACTAGGAATACCTCTTGAAAAAGTTAAGCCTGGCTTAGTCTCCACGTATATAGGTAATCCTTATAATGCTTCTGCACTATTAGGATTAGCAAAGGTTCTAGATTTTGCAAAGCCTGGGCAGAGAATTTTAGTAGCTCCGTTTGGAAGTGGTGCAGGAAGTGACGCATTTAGCTTTGTTACCACTGATAAGATCTCTGAAAGACAAAAATTAGCTCATAGTGTAGATTTCTATATAAATAATAAGAAAATTGTAAGTTATGCACATTATGCTAAATATACTAACAAATATAAGGTGTATGAACAATGAGCGTGAATATTGCTTCATACTCAATGCTAAAAGTAGATAGATATTATGAGACTAATCTAACCAATTTATCTGTAGCTGCTGCAAAAGAGATAATAGAAAATTTGAAAGATAGTTTCAAGCCAGATATTTTAATTTTCGCAAATTCTTATTCAGAAAAAACATCTAACCAAGTTTTATTATCAACAAAGTTAACTAATATATTAGGCTACTCTGTTCCATCATTCAGGATAGAAAATGGAGATGCCAGTGGAGGTGCGGCTATATTTACAGCATACAATTTAATAAAGTCTGGAGAAATAAAATCTGCTTTAATTATTGGTTCAGAAAAACTTTCCGACTTTCCATCAAATTATCTAAACGAAATTCTTACAGAAAATATGGATGAAGAATTCTCAGAAAGACTTGGTATACTACCACAATCATTTGCTGCACTACAAATGAAAACATATATGAAAAAATATAATGTCGACTACGACTACTTTAGTAACTGGCCATATTTCATGCATAAATATGGGTCAGAAAATCCTTATGCATATTTAAAGTTCGCAGTGGATAAGAAAACAATACTGGATTCTCAGCTTATTTCAGAACCTATGAGATTATTTGATACTGCACCTAGAGCAGATGGAGCAGCAGCTATACTTGTTACAAACGATGAAATAGCTAGAAAACTTACTGACTCTCCAGTAAAAATTTCTAAAGTAACATCGTCTACTGCTGACATAAAAATTGGAGAAATTCCTAGCTTAAAGGAGGCTTATAATAAACTTGGAAAATTCAACCCAGATCTTATAGAAATTCATGACTCATATAGTATATATGCAGCTTTAATTTTAGAAGAATTAGGCTTTACTAAGGGAAAATCTTTATCTGAACTAGATAACTTACCAATAAATTATAGTGGAGGACTTAAATCTAGGGGTTACCCCGGAGGAGCTACTGGAATATATCAAATAGCTGAGGCTACAATGCAATTACTAGGTAATTTCCCAGGAAAAAGAGTTCCATCAAGCGAAAAAGCATTAGTAATTTCAATGGACGACTTAGGTAATACAACATATTTAACTCAGTTGACGAGGTGATAAAGATGAAGATCTTTCCACCACAAATATGGAGAAATAAAGAAACTATGTATAGATTAATTGCAGGAAAATGCGAAAAATGTGGCAACATAATATTCCCATATAGGGATGTATGCAATAAATGTGGATCTACGAAAATTAATAAAATAAAACTTAGTGGAAGAGGAACATTATTAACTTATACTACAAATTATCAACAGTTACCTGGATTAGAGAAAGTAACACCTACATATATAGGCTTAATAAGATTAGATGAAGGAATAGAAATCGTGGCTCCATTAACAGATATCGACGAAGATTTGAAAGATAACACGAGAGTAGAAGCTACAATTAGGAGAGTAAAATCAGATTCTAATAATGGTTTAATAGAGTATGGTATAAAATTTAGGCCGGTCGAAAATGAATAAAATAGAAGAAGTAGTAGATAAAGTTGTATCAGGAGAGATCTCCCTACATGATATAGATAATTATTTAGAAGCCAATGCTGCTATGGTAGCTAGAAGATTAGCTATAGAAAAAATTACTGGTGCAAAGTTGCCTTCTATAGGATCTACTATTTTAGATTATTCAGAAATAAAAGGAAGAAATGCCGAAAATGTCATAGGAGGAATCCAAATACCAGTAGGTATAGCAGGACCTATAAGGATAAACGGTGATTACGCTAAAGGAGAGTTTTTTCGTGCCAATGGCTACTACTGAAGGAGCGCTTATAGCTAGCGTAAACAGAGGAATGAAAGCAATACATGAGTCTGGAGAAGTTATAACGAAAATATTTTTCGATGGTATGGCTAGAGCTCCTGTTTTCAAATTCAATAGCATAAAAGATGCATATAATTTTGTAAGATGGGTAAAAGATTCATTTAACAAAATAAAGGATATAGCAGAAAGTACAACATCTCATGGCAAACTTCTAGATATACAGACATTTATTCTATCTAACAATGTATGGCTAAGATTCGTGTTTGAAACTGGAGACGCTATGGGCATGAACATGGCAACTATTGCTTCCGAGGAAATATGTGATTTCATCGAAAATAATTTTGAAGGGGCTACTTGCATAGCAGTAAGTGGAAACATGTGTAGTGATAAGAAACAGTCAATAACTAACACCGTATTTGGTAGAGGAAAATCAGTATCTGCAGAAATTATTATTCCTAAGGATACAGTTAAAAATATTCTTCACACTACTGCAGAAGCAATAACTGAGGTTAATTTAAGGAAAAACTGGCTAGGAAGCGCAAGAGCAGGAAATATTTACCAGTTTAATGCTCATTTTGCAAATATAATAGCTGCAATATTTCTTGCAACTGGTCAAGATATGGCTCAAGTTGTAGAAAGTAGTTCTGGATATACATGGACAGAAAATAGAGACGGTGATCTATACATTTCTATAACACTTCCTTCTTTGGAGATAGGTACTGTTGGAGGAGGAACAAGACTTCCAACTCAAAGAGAGGCATTAAGTATAATGGGAGTAGAAGGAAGTGGAGATCCGGCAGGGAGTAATGCGAAAAAATTTGCTGAAATAACAGCTGCTTCTGTCCTGTCAGGAGAATTAAATCTTTTATCTGCACTAGCAAATAAGGAACTGGGTAAAGCCCACAAGAAACTAGGAAGAAACCTCAAAGCTTAATTTTTTAAACAAAATAGTATCTAATGATGGAAATTCCTAAAGAACTCGAAAAGGTAATTGAATTAACAAAAGAACAAAACAAATGGAGAAGGACGGAGACAATAAACCTTATTGCATCAGAAAACGTGATGAGCCCTATAGCTGAATCTGTTTATATGAGCGATTTTATGTCAAGATATGCTGAAGGAAAACCTTTCAAAAGATTCTATCAAGGAACGAAATATGTGGATGAAATGGAGACATTAGCTATGGATCTGCTTAATGAAATAACCCCAAGTAAGCTCTCGGACCTAAGACCGACAAGCGGAACCATAGCTAATGCTGCAGTATTTAGAGTTTTAGCTAACCCTGGAGATAAAGCCTTAATAACTAAAGTTCAAGCAGGTGCTCATGTAAGTCATACTAGGTTTGGAACTTTAGGAGCTTTGGGTATAGAACACATAGAAATGCCATACGATATGGAGAATATGAACGTTGATGTAGAAAAGGCATCAAAAATGATAGAAGAAGTTAAGCCTAAATTTGTAGTTTTAGGTGCTAGCTTATTTTTATTCCCTCATCCTGCAAAAGAATTAGCCCCAATAGTTCATTCTGTTAATTCAAAACTAATTTATGATGCAGCCCACGTTTATGGCCTAATAGCTGGTAAAGAATGGGATAACCCTCTTGACGAGGGAGCAGATATTATGACTATATCAACGCACAAAACTTTCCCTGGACCTCAAGGTGGCGCAATATTATCCAACAATGAAGAGGTGTTTAAACAAATATCAAAGACAATATTTCCGTGGTTTGTAAGTAACCATCACCTGCATAGATTGCCAGCTACCGCCGTAACTGCCATAGAAATGAAATATTTTGGGAACGAATATGCTTCTCAGATAGTTAAAAATGCTAAAGCATTAGCGTCGTCTTTAGCAGAAAGAGGTTTCAAAGTTATAGCAGAACATTTAGGTTATACTAGAAGCCATCAAATAGCCGTGGATGTCAAAAAATTCGGTGGTGGAGCAAAAGTAGCAAAAATGCTTGAAGATGTAAATATTATAGTAAATAAAAACTTATTACCTTATGATCCTCCAGAAGCTGTCTCAAATCCAAGCGGATTAAGAATAGGTGTTCAAGAGATGACAAGGTTCGGAATGAAAGAAGGAGATATGGAAGAAATAGCAGACTTAATGAAACAAACAGTAGAAGGTAAAGATACTAACGAAATCAAAAAGAAGGTTATAGAATTTAGAAGCAGATTCTTGGAACCAAAATATACATTCAATGTAGATCTAAAAAACTATTCAAATAAAAACATTCCAATGCTTATCTAACTGTTATAACAGTTATAGGTGCATTAGCAGTAACTGATAATGCTGTAGATCCGATGTTTATGTCACTATTTACAGAAGTTCCTCTAGCGCCTAATATTATGGCATCAAAAGTATCTTCTGAAATTGTTTTTAAAATTTCGTTTGCAACGCTACTTTCTTTACTCATATTAATAACCTTAAAATCATATTCTATTTTCTGACCAATTCTTTCCTCTATTTTTTTCTTGACATGTGAAACCTCGTCACATTGTGAGCATACGTATACTACTGTTATCTTAGACCCATATCTCATGCTAAAGTCTTCTGCAAGATCCAAAGCCCTCAAACTGTTCTCAGAACCATCAATTGGAACAAGCACTTTTCTAAACCATAAACTTACTGTATATGTAGGCTCATATGTCATATTATATATCCCCCACTAATTCCTTGTGATGTATTTGTTATTTTTATTGATTCATCAGCAGATATACCATTAATAGCTCTTATAGCATCTATATTTTCTGGCACTACTATAGATTCTTGATGAACTGCATAGGTCAGAAATACCTCAGAACCTTTAGTATATATTGAATCCTCGAATACTACTACCTCCCTAATATCGTTTCTCATTTTACCTAAATCTCTAGCTACTTCTATAATTTCCGCAGTAGAAGAAATCTTAGATCTAGAGCTAACCATAACTATTCTAGGAGTATTTAAGAATATACTCACTATATCTTCCTTATCTATTTGTTGCTTAAAAGTAACATTAAGCAAATGAACATGCATAAGAGTTGTAGGGGCTATTATTGCACTAGTTATTATATCGAGATCTTTAAGCACGCTGTTAACGTCTTTAGCATGATGACTAGGAATAGTAGCTGGGTCTAATACTAATGCATTTATTGGTCCCTTTTTGAATTCTTTAGGATCTGCAGCTCGTCTTACTATAGTAGCCCTTACTTTATCTATCTTTCCTAGTTTTGATAGTGTGCAAATTGTCCTTAAAAGAGCTGTAGTATTGCAAGATACTACTCTTACGTATTTCTTATTTAACGCTTCGTCATAATTACATAATGCTGAAAAGGATACGTCAGCAACATTAGGTTTTTCTCCACCTTGGAAAATAGCTCTTTTTTCATATTTTTCATATAATGTTTTATATTGAGCCCCAACACCGTTTGGAGTAGCATCGACAATAATATCGGAGTATTTGATCATATCCTCTATGTTTCCTGATATCTTTATTCCTGACTCCTCAAATTTTTTTGAAGATTCATCAGGAGAAAATATCTTTATTCCTTTACTTTGAGCAACTAACGCTTCCATATTAGGGCTAGTCTTTGAAACTCCAACTAATTCCATATCTGGTTGCAACATTATAGCTTCTGCAACTCTTTTCCCTATTGTGCCATATCCGTTAACTGATACTCTAATCAATTATTTCACCCCAGAGGTAGATAAAACTTCTAATGCTGGAAGTTTTTCTCCAGCTAAAAATAAAAGTAAAGCTCCTCCTCCTGTTGATATATGAACTTTATTACTGTCTACAGTTACATTTCCCAACATGCTTATCATATGGCCTCCACCAATTATAAGATAACCTGAACTTTCCAAAGCATCAACTAACAATGTTTTACTACCTTCTCTAAATCTTTCATCTTCTATTATACCCATTGGACCTCTCATAACTATTACTTTAGCATCTTTTATAAAAGACGAGTATATACCAGTAGTAGTAGTTCCTATATCTTTAATAACGCCGGTAAGTTTATTTAAAGGCTCTTCTATAACTTTGCCTTCCTTTTCTACCCTAAAATCAACTGGAATCTCTATGGGACCTCCCATTAGAAGTATTTTCCTTGCTCTAGGTACTAGAGATAATATTCCAAGTTTTTCCAAAACCCTAATATTATCCTTACCTATATCGAGACCCTTAGCTACAGCAAAAAGTTCAGCAATTAAGCCTCCTGTAAGTATTCTATCAGCTAATCTTTTTTTAACTAAATTTTCTATTATTCTAACACTATCTAGAACTTTGCCGCCACCTAGTATAAAGACCTTAGGATAATCATCTGGATTAAATATCTTAGCTAATGCTGATACTTCTTTCTCCATTAATCTACCAGCACTAGATTTCAAAACTACAGGAAAACCAACTAAACTAGCCTGACTTCTATGAGAAGCCGCAAAAGCATCGTTCACATAACCATCAAACAATGGAGAAAGTCTTCTAACTAAATAACTCTTAGCATGTTGTGAAGGAGATGCTTCTATTAACTCTTCTGAAACAAACCTAACATTATCCAATAACATGACCCTACCCTTCTCAAGATTTTGTATTTTTTCTCTAGCATATGGCCCCATTACGTCTTCTATAAATTCCACATCAGTATCTAGATATTTGGAAAGTATTTTGGCGTGCTCCTCAAGCGATATAAAATCATTATCCCCAGGTCTTCCCTGATGTGAAATCAAAACTACAGAATTTCCCTTTTCTACTAATTCTCTGATTGTAGAATTATATGCCTTAAGTCTCGAATCATCCAATAAATTACCAGTTTTAGGATCTACTGGTGAATTTATATCTATACGTACGAGAATCTTTTTACTACTAAAATCAACATCGTCTAAAGTAGGAATTAATAGATCATTTATCTTGATCAGAACTTTTCCCCCAAAATACTTTCTAATTAATAGATTTTAATGTTGTTGCGATTTTGTTCTCAAAATCTAGAAATAGATAGATAAAAGTTACATCTATAATTACTGTTTTGTCTATACTTCATTAAATTAGAATAATTCTAATCATAATGTTTACTATATATAGTTCTCTAAATATAATAAAAATGCAAGAAGATATAATTTACACCGCTAAAATGCTTTTTACACTTATTAATCAGTAGCCGGGCAGGGATTCGAACCCTGGTTCCAGGGGCCAGAGCCCTAGATCCTTGGCCGCTAGACTACCCGGCTAAGATGTATTTGTTATTACAAGGTTTTAAAGTTTTTATTGAGATAACTATATGAGGGTAATAATTTGTTTCCAAAGATCTTTAAGCGAGGTTCCAGCAATAACAGTAATTATATCAAGAACGACTTAGGTGAGTGGTTGTTAGTATCTAGAAATCCTGAAATTTCATTTATAGACTGGTCTGTAAGAAAAACAATTAAAAAATTGGGCTGCAAAAAATTTGATTTCTATATTTTACAATATGATAAAGATAACAATATAAAAAATTTCATCTCAAATAAAGTAATGATAATTTCAAAACAAAATTTAAGAGAATCGGACATAATTCAAGGATTAAACAAAACATTAGAGAATTTTGCATTAATAGGAGAAACCAAAATAAGTAAATTAAAAATTTGCGGAGATGTATATTTATTTCTCTACTTCGATATAATTCTGAAAAAGATTAAAAATTATCATACCTCTGTTAAGGTTTTACTTCCTCCTCTTGGAATTAAAACATCTAATATTCCTTACACACCAGAAGATCTCTTTAAGGATATATTAAATAATGCCATGAATACCTCATGTACAACTGAATTTGAAGTTCAAGAAGGAAAGTATGCTAGAATATTAGCTGACTGCGAAAATATATCGCAGTATGATAATCTAAAATATGTAATACCTTATTTTATAGACGCTGGTGAGATGAAAATTTCCATTAAAAAAAGTGAACTAACCAAGAGTGAAATACAATTAGATATTTTTGGATTTAAATCAAAATCTTTAATTCCTCTAGTATGGGATAACTTTATGTCAACATATGCACAATGTTAATATTCAGAAGATTTTTAGCTTAGAAAGATAAAAGAAGTCTTGCCGCCGTAGCTCAGCATGGTTAGAGCGCCGGACTCATACGGCACTCTGGGATATCCGGTTGTCCGGGGTTCAAATCCCCGCGGCGGCACCTACGTACTTTTAACGTAATTTTTGTCAGTATAAAGTGAGAAAAATCCTAGAATTTAACGTCTCTCGATTTTTATTTAACGCATATGTAGGATAACATATCTGACGTAAGAATTTACTAAAATTTAACGCCTAACGGGTTTTTCACGCCGTTAATTTAACACATTTTCTGTTTTCTACTGGATTACTTACACTGTTAAGTACTATACTAACCCAAGACTTTTACACCTTACTCTTTTTCTCAGGAGTAATATCTTCCCTAGGATAGCTGGAGAGAAGGATTGACTAAGGTTACGCGGAAATGGTCTAGCCTCAATCCGAATTGAGTCGCATTTAATTAATCGCTCAGCCTCTTAAGCAATTGGTGTAAGGATAGAGGGAATTAATAGATTTAGCCGAGGTCAATAATACTCCTGCACTGAGGGTTTCGGAAGAACTTCAGAAATATAAGTTAATAAGAGAGGAAAGAGAAACCACATTTCCTAGAAGGAGGTTAATTTAATTTAACCGATGATGGGAAATATGTAGCCGTAAGAATAAAGGAAATTATGGAAGTATTAGTTAAGAATCATCCGCCTTTATAATCAATTTAGCGTTCTTGTCGAAGCATATCATCATTCTCGAAAAGAAATCTTCCCTACCTAAAATAAGGCTTGGAAAAACTCCTTCATAAATGCCGAAATCGGCTACTGCAATAGGTATTTCAAAATTTTCATTTAGCTCTACGAAATGAAATTTTAATTTGTACCTTTTTGTATGTAAATTTAGATTGGTTAATATAATGGTATCAAAGTAATGATCTTCTAGATTATCAAAACACTCGTTTAACGTTCTCCTAATTTATTAAAGAAAATCTACTACCGCTATCTGGTAATGCGTATATCAAAACATCTTCCCCAGACTTAGGGCACTCCATCCTTACTTTTATTAAAGGTACTGAGTAACCTTCGGCGTTAATAAAAGGGATCTCTATTTCTTTACCCATACTAACTCTTTTCTTGCTTCACTACCGTTAAAATATCATACTGACTCCTTTTATACCCCTTCTTTTCCATTATTTCCTCGACTTCCTCCCACGAATTACCCTCAGCCACTATGTTTCTATTCTCATCTATCGCCAAATACTTTCTTACGAGCTTAATGTTCTCAGACATGTTCTCAAATTAAATATAAACTTGTAGAACTATAACTTTATCTACTGCACTCTATTGTTTCAAATTTTTGAACTAGAGACGTGCTTGTCCTTTTAGTATTTAAAAGATTAAAATATGCTTTCACTTATGGAAATAAGTGTTATGAGACGATAATAGCAATATTAGCTGGAAAAAGTTAGTATACTATACGATTATTTAATGTAAAAGCTTGAATGCGACAAAAATCTTTTTTAGCAACATTTTCTAAAATCAAACAGGAAATAATATTCAGTTTATAGATAAGTTATTGTGGTAAGAAGTTCACAGAATTTATACGGAGATGAGGAGAACTGACAAATAATTGAGGTATTTAAGGGTTTAACGTCTCATACTATGTAGATTCTTTCATCTAATAATTAATCTAAATTATAATATTAGAATGAAAATTAACCCTTTAACATAAAGGTATTAAATCAAACCTATTAATTTAACGTCTTAAACATCCGGTTGTCCGGGGTTCAAATCCCCGCGGCGGCACCTCCCTAATCTTTTTCATGAATTAAAATAGTTTTTATGTTATCATGAGAGGAGGATGATTGGGAACATCTAAAGTTTCTAGAAATGTAACAATAATATTTATCAGTAAGAATATGATACAAATTTTATTGTGTTTTTCAATTTACTAGAAGATTAGGAATTTATAGGCTATACTTAAGAAGAACTCTTAAATTTAGGAATAGATAGTACAAATAGCTAATGGCGAAATAGATAAGAAGATTTATACTATGTCGATAAAGTTTCTGAATTTTTGACTAGAGATAATAGCTAGTTTTTCCTTCTATAACTAAAGGCTGATTCTATTTAGCATCACCTTTTAAAAAATGTACAATATAATAAAAAATATTAATTCTTATTTATCAGTAAATCCTACTGAACGTTACATGCAATAGCTAAACCTATACAGTAATCAGTACATGTAACTCCATCTAAAACTTCTATGTCATTGTCACCAGCACAGTCGTATACGAGACACTAATAAAAACAAACATAAGAAGCATCTGGATCTGGTGGATCATTCTTTACGCACATCTTATTTCACCTTTTTTATCTCTATTTTTTCTGGTTCATAAGTAGTCAAAACGTTTGAAAGTGCGTTTCCTTTTATTTCATATCTGCCTGATACTACTTTAGTTACCTTATTTTCTCTTAATAAATAAGATTCAGCAGTAAATACTTTCTTATCTCCTTCTCTTTTAATATTCTCCAAAATATTTAATACTACAACGTGACCCCTATTTTCTTCTGCGACAATGAAATGATACTCCTTATCCTTTTCCTTAATTATGACCTCGTATCCTACTTTCCCGTCCTTAGCTTTCACAAATGCGAAAGAGTAGTTTCCTATCTGTATATGATCTCTAATTTCAAATTCTACCTTATTACCTTTATTTAATCTATCTATATATTGCTTTCTCTTTTTTACGATATCATCTATAATATCAAATTTCTGTGTAAGATCTTCAAACTCTATCGTTTATCACCTCAATATATATTACGTGTAATCAGCTTTTTTTTTAACTCTCGTTTACTCTAAAAAGTTTTAATAAATAATGGATATAAAGTTTCTTAATACTAAAAAGTCTGTAATACATTTAAGCAAGAACTAAACTAATTTTAGCAGAACTAGCTTCTTTGCTTTTGCGTTATCCTTTTTATATAAACGCAATAATTTCACTTATTATCTTTCTCTAAAGCGGTACTTGTAAGTCTCGATCTTACATCTCAAATTATCAACAAGCAATTTAGTCTCAAAGCTCATATTCTTTTCCTTCATGGCCTCCTCAGCTTTTGCCGTTTAGTCGATAAAGTTATGATTTCTAATATACTCACTCCAAAAGAAAGGTATAGCATAAAATTTCACTTCGTAGAACTTAATGGGACGTTACAGATACCAGTAGCACCTTTAGATTTCGTAAACTTAGGTGAGGGTATATATCCCAGCCTAATTTTAGGTAGAGATGATTTCTTTTCAAGAACAATAATATACTTTGACAGGAACATAAGATTAATTATTAAGGCTGATAGTGTTTACATTAAGGCTGATAGTGTTTACCCGTGGCGTAACTTTTCCTTACTTTTAATTACTTCTAATTCCGCCACTGGCACCCCTCTCAAGGGATCATACACAGTCACCCTTAAGTCCTTGGGGCTAGTCGAGGGAAACACCAATACCCTCCCATCCACCTTTTTCACAATGTTAAGAGGAGCAATAGAATCCCTCTCCAACAAAACTTCACCACTCTCCAAATACCTAGCGTTCACCTTGAAAACTCTAATACCCCCACCCTCGTGAGCAGAGCCCGTCATCAGGTAGGGGTTAAAAACCTTGATAACCTTCTCAACTACTTGCTTACCCTTCCTCAACTTCTCACCGTTAAATGGGTTAATAGAGGAAGTATATGACTCAGAAACCTCCGCAACCTCTATCGGCTGAGTTTTCAACATATCCACGAATTTAACAACACTCCACTGGTGAATCCTATGCCTAAGCTTATCATTTTTATTACTCTCCATCTTCTCCTTAGACCTTGAGGAAAACTTACCTACTACAACTTTAGCCTTTAAATCCCTAGCAAGCTCTGTTATCCTTTTTACAGTCTTCCTCAAAACGTCAATTTTCCTCTCTTTTTCCCTTAATTTCCTCAACTTCTTCTTAACCAGTTCGTCCTTAGTTGAGTGTCCTTTAGTAATCTCCTCCCTCCTCAGGGAATAGTTCATGACAATCCTACCTAACCCGGTCTCATATCTCCTCAACTCCTTGAGTTTAAAACCTTCAAAAACCGCTAAAGTGACGTTATTCTCATTAACGTCAATAGAAATATAATTACCCTCCTTAGACTCAACCTCAACCTCCTTCTCAAAAGTCAACCAAACTAGGACTTTCCTACCTATTAACCTCAGCTTAAGCTCTTGTGAAACCCTCCAACCTTCATATACGTAGCGGGTAAATTGTTTAGTGAACTTGAGGGGTATCTCAACCCAACCCTTGTGAGTTACGACACTGACAGAAATTCTATTAAACCTCCAATTAACCATGTTAGGAATAGTGATTACAACTCTCTTGTACTCCGGTTTATCCTTCCTCGTTAGCCCTTTCTTCCTCCTCTCCCTAAAGCTCTTAACAATCCTTCCGGCTACGATATAAGCACCTTCAATAACTCTAGAAGGTAGGAAGGGGTACTTCTCCTTATAATGATTGTAAAATCTTTCATGCAACTTCTTCCTAGTGGTTGGTAAAGCCTCGGAGAGTATTATCTCAATCATTTCATTAACAATCTTCTTCTGATATTCCTCAACCTCCCTAAGAACGCGGTATTTCCACTCGTTCAAGAAGTCGCTCTCTACCCTAACCGTCCTTTTTAAGGTCTTCAACACATTTTACCACCTTCTCATACTCTTGGCCGTAAATTCTAGAGGCGAACGATTTAACGATTTCAACAAAGTCCTCAACCAACTCTTGCATGTAATCCTTATCATCTTGGAAAGCTACGACTACGTTTGCTCCGTATGCTTTGAATAACTTCACTTCGAAACCGAAACGCGTTAGCCTGTCCTTGTAAGCTACTACTACTGCGTCAATTTGCCTCCTCTTGGCTAATTCTATTAACTTCTTTAAACCTTCTCTATCCTCTTTCAATCCAGAACCTATATCCTTAATTTCTATTACACTCACTTCTCCGAAAGTTTTCTTAACCCATTCTCTCAATGCGTCCAACTGCCTCTCCAAGTCGTCCTTTTGTGTGTTTGATGAAACTCGAGCATAAATTGCCACTTGTTTAACCCTTCCACCGCCAGACAGTAATCTTTCAATTTCGCTGTAAGGTATTCTCCACCTACCGTTAATCTCAACAGCCTTTATTTTTCCCTCCCTAATCCACTTAATAACACCACTCCTACTCATGCCGAATATTTCAGCGACCTCACTAGGTGTTAAATACCTCTCCACAGTAATTAAAAGTATTTAAAAGTTACGTGAAAGTGCTATAGTCTTTAACTTAGTAATTTTCTTTGGATATATAAACGTTTATAAATTGTTACGCTATGAAGAAGAGAAGAGTGATAAGCAAATTTTTAGGCAAGGAGTAACGTATGAAAATGCTTCATCTAGGATAATCCAATAGAGTCAAGTAGTAGTTAGTATAATATTCTGCTAGTCTCTGCTAGCATAACTCGTTAAAGTGCACTAAATTATTCTATATCCCATTGTAGAAATAAAGTGAATTTATAGTGAACATATTAAATCTTCTATGGATTATTACCAGCAGGATTTTTAAATTGTGTTATATAAGCTTAAAATGATAAAGAAATATGTTTAATTATCAAAAATTTGAAAAAGATTTCATAGAAGCATGGAATTCACACGACATAGAATATTTGTTAAGTTTTTACACAGACGAGTTAGTTTATATACACCCAGGTGAGCATCCTAGAGTAATTAAGGGGAAAGAACAATTTAAAAAGTACCTAGAAGTTTTTTAAGACATTTCCTGATTACAAATTCGAATTAATTAATGTGGCATGGAATGACAACATAGGATTCGGCGAATGGATAGGGAGGTCAACTTTTAATGGCAAGAGATACGGATTAGAAATTAAAAATAAAAAATTCGAAATAATGGGTGTAGATATATTAATTATCGACAAGGAAAAAGAATTGGTAAAAGGAGAGAGTATATTACAATCTATTATCGGTTTTAGAACAAATATGTAAAAACTTGGAGGTGAAGTGTAAGGATGAATGAATTATCTAAATCAGTCCTTTTCTCTTCATTACCTTCGTTTATCTCTTCAGTTGAAGCTACAATGATATTGATGGTCATTCCATTAATAGCTAAAGATTTTTCAATAACTTATATAAAAGCCTCAACTATATTGTCAATTTATATCGTCACTGAGGTCTTACTTTCCATTCCATTTTCACTTTTAGCCGAAAAAGTTGGAGTAAAAATGGTCATAATATTAGGGACAATGATAATGGCTTTATCGTCCTTTCTCATAATTTTTTCTAACTCTTTTTTACTTATACTCATTCTTAGGATTTTTCAGGGTATTGGGGCTTCAATGGTTCTTCTAACGTCTTTGTCTTACGCCAGTCTTATAGGCTCGGATAAAGAGAGAGGGAAAATGATAGGGTTAAATCACACTATAGTTAGCCTGGGTTACGTTTTTGGCTTACCCCTTGGAGGAATAATTGCTGAAATTAATTGGAAATACTTATTCGCGATAACATCGGTTCTTTCCTTTATCTCACTGTTCTTAATACTATCCCTTAACGAGGTACATGCAAAGTCGGGATTAGGGATTAATATAATTTATACTTCGCTAATATTCGACGGTATAATCTTAGGACTATATTACCCACTGTTCTTATTACTATCCTTAGTAGGTCTAGTTATGACTTTGTGGAAAATAAAGTTAGGTAAAGTATTTTATTTAACTAGTCTTTCGGGCTTTTTACACTCAATTACAAGGAATATGATAGCCGCTTTCTTTGTATTTTATTTATACTCCTTACATTTACCTGCTCTAATCATTGGCTCTTTAGTTCTCCTTTACCCTCTTTCCTTTACATTTGTCTCATTTTACGCTGGTAAGCTTCACGATAAGTATAAGTTAAGGGTTGCGTCTTTCGGTTTTGCCTCAATGGCCTTATCCTCCTTGTCTCTTTTCTTCAACGTCATTTTGGGAGAATTTTTACTGGGTGCCTCCTCTGGAATTGCTACTACTTCAAACACTGCTTATACAATGTCTTCAGTTAGGAATAAGGATAGAATAGTAGCCTCTGGAATAAGAAGCGTTCAAGGAGTTGTAAGTAATACTATAGGGTTAATTATTGCCTCATATTTCAGAACGTTCTTGACTCCTTACGTCGAGATTACAGTCCTTCTAAACTTAGCGTCACTTCTTATCTTAGGTATTGTTATCTTTTCCCAAGCAAACACCTAGTAAAAACTTTATTAGTATAAATTATATTTGTATTGTAGATATTTTAAGGGCGGTAATCATTAGACTGAGAGATCATCTTTGCCCCACAAAAAGGATATCTACTTTAAAATATGTGTTTACCCGTGGCGTAACTTATCCTTACTTTTAACTCCGCCACGGTAAACACTAAAAGAATAGAGAATAAGGAGATATTGATACCAGATAAACTATGCCAACCTTTATGCCAGAAAGCTGGTTTATGTTGGTAATAAAATTTTACTTTATAAACAAATTTAACTAAGGAAAAAGTTATGGAGGGAAAGAAGTTATTTTTTTTGAAATGGCTTTACCGTCTGAGGACTCCTTATACGTCTTATACTAATCCTAGTACTGTGCAAATATGTGGTAATCCTTCTGCAATTACAAATGATTGGCAGCCTTGTGGGATCAATAATGCAGTATTAATTGTACTTAAGCAGGAACACAAGCCATTATGCATAAATCTTACAATACATTTCAGTTGTTATTTCGCAACAGGATTTAGACATACTGGGGATGTAAAAACTAATATAGGGATTTATTCTGGGTCTTTTTACGGTCAGATTGAGTTCGGAAATTACTTTCTCGGTGCATATTCTGGTGTATGGCCTTTTGAGGGATTTCAGTGTATATTACTTAATTATCTCACGGTTATGTTTTCCCACTGGCTTTTTGCGATGTTGGCTTAGGAGTTCTAACATCATGTAGTCATTTAGTACTTAAAACTAGGTGTGCTTGGGATTCAGTAAAGGGCTTTAATTATTTGCTAAGTATACATATTAATTGTTGTTGTCAGATTTACATCGAGCTGTACAAAGAATGTAATGGAAAGTATATTCCAGTAAAGTTACCTTATATAACTCCTGAATACGCAAAGTTTTATCCTTGCCCTTGCAAACCTGTAGCGAAATTTGAAGGAAATTATAATGAGACGAAATGGGGATATACGAGATGCTACATGTGTGTTCTAAAATCTATCTCTTGTGTTGTTCCATTCGGAGAAATAAAGGCTGCTGTAAAAGTTGTAGGCTATGCAAGTTGTGGTTTCTGTCCGGTAGAATATCCTTATGATCCCTTAGGAGTCGCAGTAGAAATAATGTGGGGAACATCAGTCTACGTCTCCGGCATTCAAATAGCAAATTAAATATACGTAAATTATTTCTTGTTTTTAGCTCTTCTAATAAGCAAAAATTCTTATATAGTACTTTAATTTTATTCATTGTTTTATACTTATCATTAGCTAATAATTGATAAAAGACAATTATTCTATTGTATACTATTGTAGTCATAAGTTTTTACATTCTTCTACTGACGAGATCTCTCCTTTAATTAGTTTAGTTGCGCATTCTAACCCTCTGTGAGTTAGCTGATAAGTAGTAGAACCTCTAGTAGGGTGTAACGTCAATAGCCCTCTTTTGATCAGTTCTTTAATACACCTCCTTACATCTCCTCTTAAATGACCTGGAAACCTCCTCAATACTGCTTCTAAAGGGACGTGAGCAGATAATGAACCGTTGGTGGCATCAAAAACAGCTACTAATATTGCATTAAGTGTCTCGATACTGCATTTAGCCATTTTCTGCCAGAATCACTTTATTCATAACAAGATTTATAAGTTTTTATCAGAAAGTGATAATTATGGAAAGTAAACAAGCAGAGAAAGGAGTAGTTTTCGTAAGCAAGGTTTCCGTAACTAAAAGTAAGAAAAACGGTAAGGAGTATATTACTTATAGGATAACCATTCCTATGGAGAAGGCTAAGGAATTGGAGTTAAACGACGGGGATTATTTGTTAGTAAAGGCTAAGAAGGCTAAGTGGTATCACCTCTTAAATTGGGAGGAAATGAAGAACGTTTACAACATGTTACCGGAAGAAATAAAAAGGGAAGTTGATGAACTGAATCATAAATAAGGTTTCAACATATCTCTTGTTAGAAATATTATAGCCTTAGGAAAATCGGTCTCCCTATTAAGGTCAGCTTTGTCGGATAAGTCTAAAAATTTGTTTCTAGCTTCCTCATCATCGTTTGCTACTGCCATTATTCTAGGTGGTGTACCACCTATAATTAGATATTTATCAACAAGCTTCTCCAACTCATCTATGGGTAACGATAGTCCAGGGTAGATTTCTATTGTAGGTTTCATACTATACCTCTGGATGGGAATGATCTTTGAGCTCGGCGTTAGGATGGGTATACTCAGCTCTCTGCCAAGGAGTTCATCGTTCCCACTATTGATTCGGGTTTGCATCTCTCATTTGGTGAGCAGTAGGGCTGAATCCTTTTTCACGTTAATAGAAATCTTTTTATATCTGTTTATAACAAATTTTTGTTGATAAATAATGATCTCTCACACCGATGTGGGCTATGCCCAAAAGGGTGGGAGTGATTGCAGAGATGTGAGCCCCGTGCCGTTGGGCTCGAAGGAGTCCCATGACCCACCTACAGTAAGTGGGTGGTTGAGGGCTAAGTCCCTACACTCTATCATGAATTATCATAAAATGATTGAAATGAAAGTGTAGGGACAAACGGTAGCCAGAAAGTCCCTCAAGAGGGGACTTTCATCCAAATTACGTCTAGTCCCTTTGAGACGTCGCTAGTTGCTCCTCCCTCACTTCCATTAAGCCCTCAATCGAGCCGGGAAGCTTCCGGTATAAAAACTTTTCCTTAAAAATTGAGCATAGTCCACACTACTTATGCAATAAAACCTGCTTTACTCATTAGCGTTAAACTGCTTATTATTAGTACAATTAATTTATCTTTTGATACGTCTATTCCTGCAACTGGGGGCTCAATGTATACTCACCCTTATGTTTTATTCGGGCTTTAAGCCCAACTTCCGGTCCGAATTGGAGGCGGCCAAGCTCCCCATCGGGCTTTAAGCCCAAGGAGCGTCACGGCCTACACCCCAGTCAGATCTGTATTACACAGATCTGACTAATATGTTTTATATAAGGAGCATCGTTAGCGTCTCTAAAAGAAATTAGGAAAAAGAAGTATTTAAATATAAGGGGGTTATCCATCCCTTGACGAGGCTTTCCGCCCCCTTAACCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGGTCGACCCCTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATGTGACGAGTGAGGGGAGGGTCTACACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCAAAACTATGGAAGGAGAAGGACTTGAGAGGAAAACAGATTTTTACTACAAAAACTAGTAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATACGTCTTCCTAAAAGTTGAAAGTAAAGTACAAGAACAGGGTAAAAAGAGCATCCTAAGTGACGAGGAAAAATAAGCAAGGAAATTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTGGAACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATTACAGTCTGAAAATCACGTTCTACTAACTATACCGGGAATAGGAAAACTTTCTGGATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTATCTGCGGTTTAGACCCAATGAGAGGAGCGGTAAAGCTACTGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTCTGCTTTAGCCAGGAAATTGAGGATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGACCATAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCCTTTTTGTAAAGGTAAAAACGTATCATTAACCTTAACAAAAGGTACCTCTATTCTCGCGAGACATTATCAACTCTCTACATACTTGATGGAAACTAAAATGTCGTAAGTCCCTTTCTTGTAACCCTTCTTCTCCATGATCCTATCAATCTCTTCTTCAGCCTCAGCCACAATCCTCCTATCATAATCTATTGCGTAGTATTTCCTCACAACCTTGATGGCAGTAGTCATGCTCTCAAATTAAATATGAACTTGCAGGGCTATAACTTTGTCTACTATACTACGCTCTATTATTTTACGATACTGGATATTAAATAGATGTGTTAAACATCTAAATTAAAGCACGAAACATAGTTTTGCTCACGATAAAAGGAAAAGTGACGTTATAAAAATGATAATTCAGAATACAAAAGCTATAATAATTGGTTTTAATCTAAAAGCTTCAGTATAGTAGAAATTTAATTTTATCAAATTTTAAAAAATAAAAATATCAGATAATAGATAAAATATGATGGTAAGAAGTTCACAATTTATACAATAAAAGAAGGAAAATTGGTAAAGCGACTCTGGATAATTTTAAGGGTCTAACCTTGGACTAAATTGGTACACATGAAATTATACTAACTTTTAGTGTATAATAATAAAAATAATACTCTAACGAAGAGATGTTAAATTAGTCGTCTTAATTTCGACGTTTTAGACATCAAGTTGTCCAAGATCAAATATCTGTAGCATTGCCTTCGTTATCTAAAGCGAGAATGGTGCTCTCATTAATAGGATGATAAAGTTTCGAAAATAAAAAGAGAAATACAGCGTTAGTTTATAGAAATGTAATAAGGTATTAGAGGATATAGGTATTAAAGTATTTAATACTGGCTAGATAAAAAGCTTATTTATTTTAAATATTCAAGAAAAATTATAGAGTTCTTAGATTAATAATTAGAATGAGATTATAGCTAAAGACTGAGTAATCTTATGATAAAATACCATGTAATAGTGCATTCCAACTGTAACTAATACTTCATGTCCAAGAACGTTGTTTAAATTTATCGGAATTGACCAACCAGGGTCAAAAATTATTCCGGACGATGTTATTCTTTCTCCTTTTAAATTCAAGCCTGTTACTTTACAAGCTACAAATATGCCCATAAATGGTTTTTTAGCTATCTTTTCCGTCAAATTTTTGGAAATTCTCATAGAAATAATTTTTACTATATCTACGGTTTCAAAAGAGATGTAATACGCTGATAATAAATTATATAATGGCTCAGGTACTTCTAACTCGGTGTTTATATTCTCTATGTTTTTCCTATCTAATATGAAGAATTGAGCTTTATTTAAATCATAGCTTGATAAAAAAGGTATATAGAATGATACCACCCTTAACGAAGGGCTAGAACTAGCTTTATTAAGCTTATCTATAGCTTCTTTTACAATTCTTAATATATCTTCAGAAGGTTTGCTTGACTTAAGTTGGATTTCCATTTTTATATTATCACCTAGTAGTTTTAAACAATTAATCTTTGAACACCACAAAGTGCAATGCAACCCGGTGCTGTACCAATTCTTACCTCTACTCTTGTCCAAGGTTTTGTACCACTCTTCTGAAGTTGCTCAATTGCACTACCCTCGGCCGGATAATAATTATTATTAGAGTCAATCCAGTGCATATGAAAACCTTCATCCTTTAAATTCTGAGGCATTTTAAAGCCATATTTTTCTGCCACACTAAAAGGGTCTTTTATAAACTCTGCTCTAAGTTGAGGAGATGCTGCAAGTTCTCTATCTAATTCAAATAAGGGTTTAAGATCTAATTTAGCTATTTCTTCGAGTACCTTTTTTGTTCTTTCTAATATTTTTTCTTCTTCTCCCATCTTAATCGCCATAATAAATTATGTAATAAACAGCTTTTTTTTACTCTCAATAAGTATGAAAATTTTTTAGATATGCCTAGTCTAAAATATGCTTAATCTTAACAAAGTTTATTACTAATATTACTTAATTTAACCAATTATTAAATTCCTACTTATTAACATAGAATGCTATTCATTACTAATTAAGATAAGGATAGAATGCCTTAAATATAAAAAATTGTGCTTGTAGTGCCAGATAATAATAAGTTTTCTTTAGCATATGAAAGGAGTTAGATGAATATTTTGACAAGCTAAAATCAATCGTTTTGATGTTATGATATTAAATTACTCGAAATTCCATATACACACCAGTAATATGTTAAAATTTTGTTTCATAGAACTAAAAGAAGAATTTGAAAATCCAGTCACAGTAGGGAGTACCTGAGGAGTTTTCCGAGACTTATTCCAAGCATTGATAGCTTCTTCAAAGACGGTAATTTATTGATTATAGTAGAAGCTAATTTATAAATTTCCTAATAACTACTATTCGTCATGCTAAGTCAATTAGAGAAGTTATTCCTTACGGATCATGTTAGATTCGCATTTGAGATTTACGACTTAAGGTTTGATAAGGAATATACTGAATTTAAGATGACTAGGGAAGGTTATTTAATGATATACAGAAAATTTTATCCACCAAGAATAATTCTTCACGCAGATAAGGAGTGCACTGTGAGGGAATTACTTTCAATATTAAAGAACGAGGAGAGTAAATTTGTTCTATTCATAGAACCAAAATGGTCACGGCTACTAAACTTTCCTAATATGAAAATTTATCCAGAAATATTAATGACTTGTGATAAACCTAACGTGTTCAGAAAAGAAAACGTGAGAAGACTAGGTATTGAAGATAAGGAGGAGATTTTAGCCCTTTATGGTCAAGGTCTGGGTGATGTATTACTCCAATTACTAAGAGACAACAAAACCACTGCATATGGACTGTTTTTAAATAGCCATCTAGTTTCAGCTGCATATACATTGATCGAGCTAGAGAACGTTGCTGTAATAGGAGGAGTCTTAACTAAGGAGGAGTTAAGGAATAGGGGCTTAGCAACTTCAGTCGTATCAACATTGACTAAATACCTTACTAAAAGAGGTAAGGTAGCGTCATTATACGTGAGAGAAGATAATAGTCCCGCAATTCATGTTTATAAGAAAATAGGGTTTAAAGAATATTGGAAAAGGTTATGGATATCTGTAAATACTGATGAAAAACCATTATAGTACTCACGTTTAAGGTATTTTAATGACTATAAATTGTGAGATATTATAATATTCAGATAGTGTAATACCAAGGTATTCCCATAAAACTACTCGTTGTAGATAATTATAAGGGTTATGATAGGAGGTACTTCTTCTCCACAAACGTTAATGATACTGCAAAGGACATCTTGACTACCTTGGAGAATCGTTGTGATATTGAGATCTTAATTAGGGAATTGAAGACTTTAGGACTGGAGAAGGGTTCTTTCCTCACTTGGTTGAGGAATACTAGTTTCGTGACCTTGAAGACCTTTTCTTTGTTTACGATATTGGTCTTCAAGTATTCCTTAGGTTTGAACCTAGGAGCTAAGAGGCTCTCTAGGCTGATAAAAAGAATTTATCAAAGAGATGGAGGAATCAAATATTTGTTTAAACGGAAGGTAAACATTAGTAATTTCATAAAATTCTTAGCCAGTTCTTCTATGGAAATATAATAGTAACAAAACTTACAAACTTATTGGATTTACTAACGTGAACTAGTATCTGAATATTTAAAGAAAATCTATAATAAGCTTAAATAGATAATAATGGTTAAAGTCACAGATATCGGCAAGGCTGTTGGTTATATTACTGGAGGAAGTGTAGTTTCGGTAATAACTGAGGCTTTTACTCACCTTTCTCCTCTCTATATTTCCCTTACAGTAATTGCGTATCTCCTTACGATCATAGTAATCACTTTCATGCTTATTCGATTTGAGAAAGGATCAGAAATTGACAAAATTAAGGCCGAAATACTAGCAGAAGAAGATAAGACAATACTTGAGATTCTAAACAATAACTGCTTAAACGCTAAAGTAACACAAAAAGATCTCTGCGAAAAATTAAAAGAATATTTAGAGGCTAGAATTAATGCTTTTTCAAACTTGGAGAAGTAAAAGTTTCGTAATAAATTTTTAACATATCCTTTAATATTTTACTAACCTTTACTCCGAATTCAGTCAAAACTATCATGTTATATTTCCTTTCGATTACTCCTAAATCTTCAAGTGACTTTACTTTCTCTTTAACAATTTCTGGAATGTTATCTAAATGAAGTTTCTCTCCAACTTTCCTCTCCAATTCTTCTTCAGATGTCCCATTGTTAGTTATAATGGTTGACATAACTAATGTCATAATTCCATCACTAAATATCTTTGAAGCAGTTTCATGAACGTCCTTCTCCCTATTAAATACGCTTAACATTTTGTAACACCTCACTTATTAGTATATTATATACATAAAGAGACTAAATTCTTTGTACTTGATCTCAACTTCGTTTCATACTGTTTAAATTAGAAACATCTATATACTTGTTAGTGTCTAAAACTTGAAACAAATATTATACTTAGTCAGACCTTAAAGGGCAAGATTTATATTTGATAAGTAATACTAGCTTGTTATGCTGAAGTCTAGCATGCATGGAATAAGGCTTAACAAGAAGCAAGAGGAAGAGAGGAGGATTAACGCGGTAAAAGACGTGAGGAACGGAATGAGTATAAGGGAAGTGGCGAAGAAGTACGATGTTTCCATCTTCACCATGTACAAGTGGTTGAGGAGGGAGGATTTGAGCGCTAAGCCTAGGAAGGGATCTACGAAGCTGAAGGATAAGGAAAAGCTCGTCCAAATCTTAGAAAAGAGTTCAAGAGATTTCGGGTTAAACTACGACTTCTGGACCTTGAAGCTCATAGCCTACTTGAGAAGGAATTTGGGATAAAATATAACCCGAGGAGTTTAAGCCCAGTCCTCAAGAAGTTGGGCTTCAAGTACAAGAAGGGTAAGAGGACCTACGTTAGAGATGAAAAAGCAATAGAAGGATAAAGGAACAAGGGGAGAGGCTTTTAAAAAATAAGGGAAGGGTACAAGATACATGTCTTCGACGAGTCGTACGTGTTCTACATAAACAAGGGTAAAGGTTGGATGAAGGTAGGAGGAGGAATAAATGTTAATCCAAAGAGGAAGATTGCAGTAGTGGGAGGGATAACGATCAGTAAGGAGGGAATAACTTTCTTCTAAACCTATAAGAAGCCTTAACTCAAAAGATATCATACTTGGGAAAGGTGGTAAAGGACGAGAAGATCGTGATAATAATGGACAACGCTAGAATTCACGGTAATGAAGTGAGGGAATTCCTTGAGGAAAATAATGTGGAGTTTATCTACCTACCGTCTTACTCTCCAGACAAGAGCCCAGCTGAGGGACCTTGGGCAGTCCTCAAGAAAAAGCTTTACTCAAAATCTACACGGACTTCGAGACCTTAACATGGGACGCAAAGAGGTTCTTGCGCTCCATATCTAAGAGAGTAAATGACCTCATATACAGTGTGAATAGATGCGGTGAACCTTGGACGTTAATACTGAATGAAGTTACCTTGCCCTTTAAAGTCTGACTAAGTATATTTTCCAGTTAAATTTCCTTAAAATCCATGCAGCATTTCACATGTTTCTCTTTTGTTTAAACAATTTTCTAATATATCAATTTTCTAAACTTAAATATAATGTGCAATATTGGCTGAACTACTTCTATAATACTTTGTATATATCATAAAAATATACTTTCTTATACCTTAAAGTACAAGGTTACATAATAAGCTAATAATCTGCAATCAACCATATTATATAATAGTTTCCTTGGCCTTTAGAGTATAAGGAAATATAACTCTTAAGTTCTTATTTTGTTTTATCATAGCTTATCAACTTATAAATGATTATATTTAACGAAAATGAGGCTAGACCTACTACTATAAAGATAACATAATATAAATCAAGTTTTATCAAAAAAGCAAGAAAAGTAGACGCTAATGATGAAAACATTACATCTATCAGTTGAGACAATGCTGAAAGTTTCGTATTGAAACGTAATAACCTCATCATTATTTCTTCAGACGCTGGTGCTCTTAAATAAGCAGTAGCATTGGCTAACAATATTAATGATAAGAAAATAAATATAGAAACGCTGTAAAATAAAGATAAGATTAAAAACATAATAAACTCTATTATTGAAGTAATCAGAAATAATTTGTTACTTATCTTATATCCTATATACAGAAATACAAAAAGAGGAATCTGAAATAACGCCAGATAAAGGCTAATTTTCTGTGAGGAATAAGTTAAAAATACTGAGAGAAGAATTAAAGGTATATAACTAGTTATTAAAGTTCTTCTTAAAGTTGAGAAAAATTTTACTGGAAATATAATTTTTCCTATAGATTTTAAATTACGATAAAAATCCTTTAAACTTTCTTTAGGTTCTTCATATTTGATTTTAAATGATATTATTGCATTTAAAATTAGAACTAAAATTAGCGCACTCAGTATTATATTTATATTTTCAAACGAACTTAGATAAAATAATCCAATACCTACTATATTCAATATAGCCGTTAATGCCATTAGTGTCGAATAGTCCTTTCTTATAAAATCCTTTTGAATTATTATTACAGATGAAAATATAGAATTAGATATACCCATTATAATTGCTATCAAAAGAAAACCATAAATATTTCTAAAAAATAGCAGAAAAAATCCAATTAAGATCTCCAATATAGTAGTAATAACTATATTCCTAACAATAGAGAAGAATATTAGTATTATATAAGAGACTAATTGAACTATCATACTTAAGGTTAATATTAAACCTATCTGAAAGCTCTCTAGTCCGGAAACTTTCATTAATGCTATATATGCGAAACTCATGAATCCTACAAAAAGTGAAAAAATCGATCTAAACAATATGACATATTGTTTTTGATGCAATATTATCCACTATATTTCTTCATTATATTTACATAGTTATATACAAATTCTTCTGTATATTCGTTAGTATATTTAAGGAAAGGTTTAAGATACTTCTCATAGAATTCCTCAAAGCTTAGTTTCTTAGCAAGTTCGTCCATTTGATCATAGCTCATATTATAATAATAGCTAGTTGGATCTTTTATCTTAGCCTCTTTAAAAGCCCTCTTTCTGGATCTGCAAGGTACACAAATTCCGCAATGTATCTTTCCAGAGACTATACAACTCCACGTTTTAGAAAAATCTATTCCTAATTTATTACCCATTTTTATTACATCACTTTTAGTAATCTCAGAAAAAGGAGCTACTATCTTAATTCTAAGAAGCTGTTGAAGTTTATCTATTATGTCTTTTTTATTATTCCACTCGCCTTTTAACCAACCTACAAACAGAGTATCAAAATCTGGATATGCTGAGAGTGTAGCAAGAATCTCAATTAAAAATTGGTATTTTATTAGATAATTCATTGTTGATATGGGAGGTAAATCAAAAGATTTAATATATGACGAAAAATCAATAATTTTAAGTTCAATACCAAGATTTTTTGTTAAATCTTTAACTAATTCCATTTCTTTATGTTGAGGTGCATAATCATAGTTAATAGAAACTCCATATAGTTGATATTTTTCTTTCAGATAATATGCTAAAACTGTAGAATCTATTCCTCCTGTTAACTGAATTATTACCTCATTATCCATTTTTATTACCAAATGGTTCTTTGGCTGGCATATAATACGCTATATGTTCTAATGAATCTATTCTTTTATTGTTCCTTATTACGTTAAAATCGCTTTTAGTATACTTGAAGATCATAATTTCATCAAATGGTAGTCTTCTGTTGCTATAACTTCTGTACTCCCTAATAGCTTCCTCGTAATATAGTTTGCCATCTACTCCTTTTTGCAATTGGTTATATAGCCCTAATATTGTATTATCTTTCTGAGTTAAATATACTGCATAGCCTGGAGAATTTAGGAGCTTAAACTGCTCATCTATAAATCCCCAAACCTTAGTTTTAGCGATTCTTATACCATTAATATTTCTAAGTATAGTTTTCTGATATCCTTGAAAAATTGTTTCTCCGTCCTCATTTAATGTTAGATATGTTACGTCTACGTCTAAAGGAAGACCCTCTAGAGTTCCCGTAATACTGCTAATATTAAATGAACCATGATATGCTCTTGAGAAAGTAGAATAAAGGCAGCAACTAGAAGAACCTCCACTACCTGCTTGTACTTCATATTTAGGTACTGTTTCCCACTCAAAAAACAATGTTGAGATGTTTGTCTTAATATCATAAGATCCAAGAGAAAATCCTCTATATATATCATCATTTAAAGTGAAATCTAAAATAAATACCGTATCTATTTTTGTCATATCGCTTTTATGATAGTACCTTTCAAAAAAGTCTTTAAATTGTTTATCTTTAATCTCGTTCTCTTCTATTATAACCTTAATATCTTTAAATTTTAACTTTATATCATATAATAAACTAGATGTTTTTCCTAATATTTTATTTTCCACTTCCATACTTTATCACTAAAATTATTAAATTAAACAGCTTTTTTTTTTAACTATAAATGAATGTTAAAAATTTTTAAGAAGGCTATATTTGATAGATCATGAAAATTAATAAATTTCATAAAAATCCTAACTTGTATTGAATATTTTCTAAGTATTGTAATGATAAAAGAGGATATAAAATATTCAATAGCTTTATATAGATCAATATTTACATTTAAGTCCACTATTTTCAGTAGTATTCCTCTAAACGATCTTTTATAAAATATATAATATTGATACTAAATTGATCGTCACTTGTAAACGCATAATAAAAATTAGTTATGAGCATGCATTATACTAGATAAACTTTAATCCCATTTTAGTAAAACATTAAAGTAAGAGCCACCGTAGCTCAGCTGGCAGAGCGCCGGCCTTGTAAGGCTATTACCAAGGTAGCCGGCGGTCGCGGGTTCAAATCCCGCCGGTGGCTTAAAAAGAATCTAAATATTTCTTTAGAGCTTCTCTAATTATCTCACTTCTGGATATTCTTTTATTAGCTGCATACAAGTCTAATTTCAAGAGTAAATCTTCTTCTGCTTTGAATGTGATTACTCTCATAATTATCAGTATTACCTTCTCAAAAAAGTATATATTAAGAATTATTTGACAAATGTAAATGGAGGGATAACCGAAACTAATATCCAAGATCCGAAATTATTTTTTCTACCATTTCCTTTACTATGCTTATGTCATTTTCGTCATTTAAGAATCCCCTTATTATTAATCCTTCTGCAGTTTTTCTATCAAAACCTCTGTTTTGTAAGTAAAAGACTAGATCTTCATCTACTCTAGATACAGCGGCGGAATGCTTAGCAGTTATCACTCTGCCAGTCTTTACCTCGAGCATAGGAGCAACTATAGCTTTGGATTCTTTCCCTAGCATTATAGCTCTACCTATAATAGATGTAGAGGAATCATGTGCTGTCTCTCCGACTTTAGCGTCTCCTCTAATTACTGTTAATGAAGTATTAGCTGCTACTGCCTTCATACTTCCAGTGCTTACACTCTTTTCTCCTATATGCGTTACGTCACTTACAATATCGATATTGTTATCCTTTACTCCCAACGCTTTAACATTAAATGACGCATTAGAATAAGATCCTAATATTGATTTATATTCTATATGAGCTTGAGAAGACCCAGAAGCAAATATAGATGAGTTTATAGAACCATCTACTTCAGCTTTAGCATAAACAAAAGAGTAAGAAGAATTACCTTTAACTATAGTAGAAAAATTAACAGTAGCGTCTTTACCTACTTTTAAATATATTGTTGAGCTTGGCATAGACTTACCAAACGATTCAGAATAATATACTATATCTGTTATATCATCATTTACATTTATCTCAATATTTATAGGAGAATAGAGTTCTTGATCAGTATAATGGTAAATAAAATATTTTCCTGGTCTGTCTATGATAATTTTTTTAGCTAGAGCTAAATTTAGGGCAACCAGTTTATGCTCTTTGGGATCTATTCCAGAGTTTTTAGGTGAATCAAGAACTTCTGTGCCTTCTACTATATTATTTGCAATAGAAATTAATTTATAATCTTTGAGTGGAGAATCAAGATTTTTCTTTGAGCCATAGTCAATTTTTAGATCTAAATTATCGAATAAGTCCCAATCAGTATAATGTTTTATTGTAGGAGAATCATGAATTAATTGATAGGGAATTTCTTCATAAATTGAAAAAAGTTTTTCTCTATCTGATACATTGCCTAATTTTTGGATATAGTTAATTGCTGAATCTTTATCTACTATAGCCATTTTATGCTACAGCCCCTAACTTGTCAAGTTCTAATTTAATAACCTTATTCAGCATTGTAGCATATTCAAATGGCAGTTCTCTCATTATGTCATCAATGAAACCTAAAACTAGCATTGATGTTGCTTCTTTTTCATTTATTCCTCTGTTCATTAAATAAAATAATTGATCCTCACTCATTCTGAAAGTATGTGCCTCGTGGGCTACATCTGCATCGTCTTCAAACACTTGATTATGAGGGAAAGTATAGGCTTTTGTTTTCTCGTCTAACATTAATGAATCACATTTTACAAACGCTTTTGAACCTGTAGCACCCTTGTTAACCTTAACTAGTCCTCTATATATGTTAACCCCACCGTTGAATCCTATGTTTTTGTTTATTATTTTACTCTTTGTATTAGGTGCTGCATGAATCATCTTAGAACCGCTATCTTTCCATTCGCCTTCTCCAGAAGCCATAGTTACTACAAGACTAGTAGAGGTAGCATTTCTTCCTCTAAGTATAGTCGTAGGATATACAAAGCTATACTTAGATCCTAATGATCCTTCTACCCACTCTATCATAGAATTCTCGTCTGCCCATGCTCTTTTATTATTGAAATTAATCACATTCTTACTCCAATTCTGTATAGTAGTGAATTTAATGTGAGCGTTTTTCTTTGCATATAGTTCAACCATTCCATCATGGAAAGAGAATTTCTTAAATTGAGGTGCGCTACATCCTTCTATAAAATGAATATAAGAACCTTCATCTGCAACTACTAAAGTATGTTCAAATTGGCCTTCCATTTCTGTACCTATAACAAAGAATCCTTCTACTGGAGTAGTTATTTTGACTCCTTTAGGCACATAAACAAAGACTCCACCACTCCATAAAGCTCCGTGCAAGGCTGCAAATTTATGATCGGAAGCAGGGAATATCTTCATAAAATACTGTTTTATTAAATCTGGATATTTCTGAACGGCTTCGTCTGGTGGCATCATTATGACCCCCTTTTTAGTTAGTTCCTCCTTTACATTAGAATAGATGGGCTCGGATTCTAATACTGCGACCAATCCTCCAAGATATTTTTTCTCAGAGTCTGGTATTCCTAGTTCATCATAATAGTTCTTGACGTCTTTTGGTATTTCGTCCCAACTATTTGTTTGCTGTATTCCAGGTTTGACATATAATTCCAATTTAGAGACATCTAATGTTCCTAAGAAGTCAGGTAACCAATTAGGAGTGGGAATTTTCTCGAAAAGTTCTAACGCTTTTAGTCTTAACTGTAACATCCAATTAGGCTCCTTTTTCATCTTTGAAATTTCTTCTATAGTGCTCTTAGATAGACCTGCATTAACTATTTGCCTGTGAAACTCCATTTCACTCAATTTCTCATGCTTTGCCTGTATAGAAGCGTTGAGAATTTCATTTATATCCAATGAAAGTTTTTCCTCAGTCATTTTAAAACCTCTATCTTTAACTATGTTAAAGAAAACATATAAACCTATCTATCTTAAGGAAAATTAATTCTTGATTACACTTTCGTATCCTTTTTCATCTATCAGCTTAGCTAAACTCATATTGCCTGTAGCTACTATTTTTCCTCTGTATAGTACGTGCACCTTATCCGCATTCACATAATCTAAAATTCTTCTATAATGAGTTATAATAAGATACGCAGTATTCATTTCGTTCTTCATTTTGTCCACTATGTCAGAAATTATCCTCAAACCGTCTACATCAACACCAGAATCTGGTTCATCAAGAATTGCAAATTTAGGTTTCAGTATTAGCATTTGTAAAATTTCAGTTCTCTTTTTTTCACCTCCACTAAAACCTTCAAATACTCCTCTATTTAATAGAGTTTCAGATATTCCTACAGATTTTGTAAAATCTTTAACTTTTTGAAAGATTTCAGTTGCCATTTGTCCTGAACCTTGAACTCTATTATACTCTGCTACTAAAAGTGTTGAGAGCTTTACTCCCCCTATTTCTATAGGATTCTGGAAAGCTAGGAATAAACCCTTCTTTACTTTTTCATCTGTATCTATGTTTGTTATATCTTCGTTATCTAAAAGTATCTTACCTTTTGTTATTTTATACTTAGGGTGTCCCATTATTGCTAGTGATAATGTCGTTTTACCACTGCCATTAGGTCCCATTAAAGCATGTATTTCTCCACTATGAATTTCAAGGTTTATTCCTTTTAGAACTTCTTTACCTTCCACTTCAACATGAAGATCTTCAATTTTTAAAGTGGACATTTTATCTCATCTCATGTTTTAGTTTTATGCGGTTAAGTTTCTTTCTATCCATGGCATATCTTCCAAAAATAATGTGCAAGAGGAATTATCTAATGCTGACTCTAAAGACGCTATTAAATCTTGTAAATAATTAAATAGTAATGGATATTTTTTATCGTCCAATGTAGATATATTGTATTTAACTTGCTTTATTAACATGATTCCATTTGAAACTCTTTTTATACTTGGAAATAGAACTGTCATAACGACTTCATCAAGCAAATCATTTACCTTTTGTAAAGTATCTTTAATTACTCCTTTCTCTGTTTCTGTTAATTCCTCACTTTTTATTAATTTTGTTAATTTATCTATTAAATTCCCAGTATTTAGTAAAAGTATAGAATTCATCACAATAAAGAAATTTTTAGTTATATTCTTTGATGTATCATACTTTATGCTCATTACACGTCTCAATAGCATAAAATATATTCTCCTAAGGTCCTCATTATTGTTTAAATTATCTTTTATAGGTTCGTTAGTTATATATGCAACTATATCATCGACTTTTTTTGAAATTACATTTAGCATCCGTCTTAATAATGATTCTAAACCTACTTTTTCAGAATCTAGGAGACATTCAACTTTTATTCTACCGTCTGATGCTTCAGTTACTTCTGAACCTACCATCTGTTTGGTAACGTCTATTATATCTTCTATGTCTTTCTGCATTAAAGGTTTTTTAGATTCAAAAACTATTTCATCATATCCTAGAGAATATAAGCATGGTATAATACTCGGCATTGGTTGTTTTAGTGAATCTACGTCTATTTTTATAGATTTTTTATTAATAATTAATTTTACTTTTTCTGCAAGTAATTTCAAAGATCCGTCATCAGAAACTTCTATCAGAATTTTATCTCCTGGCTTTATACTCCACTTATTTATCCATTTTTTTGGTAAAGTAATAAATAAAGATGAAGAACCTAACTTTTGAACTTTCCTAGTTTCAATATCTTTGGAACTATCAAACTCTTCCAAAGCTTTCACATATATCTTTTCTTAAACGGCGTTTATAAATATGTTGCAAAATGTTAATAACACTTTTTAAAATAAGTTTTTAAACCCTTATGTTTTGCTTAGTACTATTTTTACAAATCCTTTACGATTAATTACCTTTACATCGTAATTCTGATATTTTTCTGGAATTTTTATTCTTAGTGTATATTTCCTCTGTTTCTTATCTTGACACGAAAAATCAAGATGATTTTTCTCTATCTTTACATAAACCGTAGAGTAGTTTATGAACGGCACGTCTATAATATAATATAAAGATCCTCCTTCTTCATATCTTGTATAAAGCGGAATCATTCCTTCTATCTCTTTTTCTGCCTCATTTATAGTGTTCTCTATTTCCTCTTCCTCTTCATCCATAAGCTGTCTTATCATTTCGTATAAGTCTTTAAATGCTGGCATAGTTATCACGTATATGTCATAGGCTTTCCAACAGAATATGAAGGAAGTTCTTTCTTTGTTTGTTCCATTAAGCCTTTTATTTTTTCTCTTATTTCTTCTGCTTCTTGTAATAGAGAACTCACATCCACTTTAAAACCTATATATTTAGAAAGGACATCTAACGCAACTGCAGAGGCTTCCGGATCCGGTAGATCTAGAAATGACTCTATAGCTATAACAAAATTATCTATACCAGCCTTTGATGATTCTAAGAGTATTGGAGCATATGGGCCAGCTATATATCCATCTCCAAATTTCTGCATAATGCCTATTTTTTCCAATTCCTGTGATAAATCAGAATTGCTTGATATCCAATATGCTGTGGGTTTTTCTATATCTAGCCTATTTTGAATAGGAAGCCCAGTTATAGAAATAATTTTACTAATAGAATATTTACTAGCATATTGCACTATAAATTTTGCTAAAGGATATATAGAAGATGAAGGCAGTGCAGTCCATGAATGAAAGACTATTATGTTAGGGTTCTCAGAGTAATAAAGTCTTAAAGGAGATTTAGCTATTCCGTTTGTAACATGCATTATTGGAGGAATATATTTAGTAGAATATAATTCTCCAAATTCCTTTAAACTAAATTTTTCTATAAGGAACTCAGTACTAATTGCTCCAACTAATCCAGCGTCAGGAAGACCAATAACCATATACGAGGGTTTAGAAATTCTTGGAAGCGAAAACTCTTTTACTTCAAACTCAGATTGCATTATTCTCCCCTTATCTTTTCACTATATTTTTCTGAAGTTAATAATTTTTCCTTTCCTTCATCAGTTGTAATCTTTAATTTGAAAATCCAACCCTTACCGTATGGATCTTTATTTATAAGTTCTGGATGTTCTGTTAGATCTTCGTTAATTTCAATAATTTTACCTGAAAGAGGCGCATAAATATCTGCTGCGGCTTTAACAGACTCTATTACTGCCACACTATCTCCAAGTTTAACTTCTTTACCTAATTCTGGCAAATCTACTCCAACTATGTCTCTTAATTTTTTCTGAGCATAATCAGTTATCCCTATAATCGCCTCGTCGCCAGAGATCTTTACCCATTCATCAGTTTCTGTATAATATCTATCTGTTAGAATTTCGTACTTGCCAACTTTTATGCTCATTATAGTTTCACCAGAGGAAAATCTGAAAACTTAATAGAATATTTTTTGTTCCTTATTTCAACATCTGCTGAATATCCTAAAACAAAGTTTTTAGACTTTATATATCCCATTCCTATTGATCTTGAGAGATAAGGGGAATAAGTGGAACTAGTAACATATCCTATATCTACATCAAGAATCTTTATCCTTTGACCAGATCTTGGTAGGGCTCTCTCTCCTTTACTTAACTTAAACCCTATTCTAAATTTATCGACACCATGCTTTAAATAATTAATAATCATCTCTTTTCCTATAAAATCCTTATCTAAAGAGAACACCCAATATCTAGCTTCTATAGGATTTATATCCTCATTGATATCCTCGCCATATAAAACAAATCCCATTTCTTGTCTTAGACTATCTCTTGCTATAAGCCCTGCTGGAAAAACTCCTTTATTATATAATTTTTCTATTATTTTCTTTGCACTATCAGGTTTAGCCCAAACTTCTATACCATCCTCTCCAGTCCAGCCTGATCTACTTAATAAGAATACATCTTCTCCTAAGAAATGAGTATTCAGCCTAAACTGTAAATTATTTAAATCAACTTTTTCAAGACGTTCCCAAATTCTTCTTCCTTGTATAGCTAGCATAACGTAATTTAATGTTAGATCTTCTACGTCTAATGAGGAGTTATTTTTTATCCATTTTATTACCTTCTCCCTATTTAGAGCATTAGTTACTATAAGAAATTCATTTTCTGATACTTTATATGTCATAACATCGTCTATGAATCCACCTTTATCATTAAGAAAAGCTGTAGGCCCTATCATGTATCCGGGTTCCTTTTTGCTAAGAGATTTAGCTACTAATCTCTCTATTTCTTCAATTTTTCCATTTATTCTTAATCTTCCCATATGAGATAAATCAAAAAATGCAACGTCTTGCCTTACTTTCATATGTTCTTCTTGATACGAAGAATATTCCATCGGCATTTCCCATCCTGCAAATTCTCCAAAATTAGCTCCCAATTTTTCTTCTATATCTTGAACTGGACTACGAAACATTATTATTCCACTTAATACTGGTTGTTTGTTAAGGAATTTATATGGAAATGCATCCTTGGTTACCAAATCTAAAATACATTGATGAAATGCTAACTACAATAGGAGCAAAAAATATAGACGATTTATTTAATGATGTACCTAAGGAAATCCTATTAAATAGACCGTTAAATATAGGTTATCAGAAACCACTATCAGAGTATGAAATAAGCTCTAGAATAGAAGAATTAGAAAGAAAAAATAAGCAACTAATATTCCCTCCTTTTCTAGGAGGAGGATTTTGCCCTCATTATATTCCACAAGCTGTTAAAATGATACTTTCTAGATCAGAATTTTATACCTCGTATACTCCTTATCAGCCTGAAGCTAATCAAGGCTTGTTACAAGCTCTTTTCGAATACCAAAGTTATATGGCAGAATTACTACAAATGGAAGTAGTAAATTCGTCTCTTTATGATTGGGGAGGAGCACTTGCTGAAGCAATTTTAATGTCCAACAGAATTAATGGAAAAAGAAGAATAATAATACCAAAGAATATGAACCCATTACATAGGGATGTAGCAGAGACCTGGACAAGAGGGAAAGGAATAGAGTTTGTAGATGTTAACTATAATTCTGAAGGAAAAATAGACATTAACGATCTCGAAAATAAAATTTCAAACGAAGTTTCTGCGATTTATTTTCAGCAACCTAACTATTTTGGTATTTTTGAAACAGAAATTGAGAGTATAGTAGAATTAGCAAAAAGGAAGGGTATAATAACTATAATGGGCGTTAATCCTTTATCTTTAGCCTTAATAAAACCTCCAGGAGAATACGGAGTAGATATAGCTATAGGAGACGCACAAGAGATTGGCATTCCTCTAAATGCAGGAGGCCCTTCTCTAGGAATTTTCGCAACCAGATGGGATAGTAAGTTAGTAAGGCAAATGCCTGGAAGGATTGTAGGACTAACAGAAGACTCGTCAGGTAAACGTGGATTCACACTTATCTTACAGACTAGAGAACAATTCGCTAGGAGAGAAAAAGCAACTTCTAATATAACAACTAATGAGGCATTATTAGGTATAGCTGTTTCAGTATATTTGTCACTCTTAGGAAAATATGGAATAAAGAAACTTGCTGACGAAGTCTATTATAGAAGTCATTATGCAGCAAAGAGATTACAAGATAGAGGCTTAGGCAAAAGACGCTTTACTGGAGATTTCTTTGAGGAATTCCTATTCGACTTTCCTATAGATTACAACAAAATTAACTCCTATTTACTTTCAAAGAATATACAAGGAGGATTACAAATGGATGCAAAATCAGCCTTATTTTGCTTTACCGAATTGCATTCAAAACAAATGATAGATTTTTTAGTAGAACAAATAGAGGAAGTAATAAAAAATGTGGAAGCAAGCAAGTTGGGATGAGCCTATAATATTCGATTTTAAAGGAAAACAAAGACAAGGTATAATAATACCAGAGGATGATGAAATAAAAAATGAAATACAAGTCGAAATACCAGAAAAAATTAGGCGAAATTCAGAATTAGAGTTCCCTCAAATGTCCGAACTAGAGGTTGTTAGACACTATACTAGGTTATCTCAAATGAGTTTTGGTGTAGATATAGGCATGATGCCACTAGGTTCGTGTACTATGAAATATAATCCAAAAATAGAAGAAAAAACACAAGAACTTGTAGAAAATGTTCATCCATTACAAGATATAAGTACCATGCAAGGGGTATTGGAATTATTATATGAAATGCAAAAGTGGATAGCTGAAGCAACAGGAATGGATAACTGTAGTTTCCAAGTTCCTGCAGGTGCGTCTGGAGAGCTAGCAGGAGTTTTGATGACTAAAAAATTTCATGAAAATAAAAATCAAAATAGAACAGAAATGCTTGTAGCAGATACAGCTCATGGAACAAATCCAGCTAGTGCAGCAATGGCTGGATATAAGGTAATTTATGTAAAAACTAATGAGAAAGGTCTTGTAGATTTAGATATACTTAAAGAAATTGTAAACGAGAATACAGCCGGCTTTATGCTAACTAATCCCAATACTCTCGGATTATTTGAAGAGAACATTATGGAAATCTCTAAAATAATTCACAATGATAACGGAGTATTATATTACGATGGAGCTAATCTTAATGGAATACTTGGAGTAGCAAGACCTGGAGATATGGGCTTTGATATAGTTCACGTAAATTTACACAAAACATTTGCAGTGCCCCACGGAGGAGGAGGACCTGGGGCTGGTGCAATATGTGCTAAAGGGGAGCTAGCAGAATACTTGCCATATCCAATAATTGAAAATATAGATGGTAAATTTGAGTTCGTAAAACCTAAGAAGTCTATAGGGAAAATGTCTACTTTCTACGGAAATGTAGCTAATATAGCAAGAGCATATTCGTATATACTAGGAATGGGAGCAGAAGGAATATCTATGGTAGGTAAAATGAGTACATTAGCTACCAATTATTTGATAACCAAGTTAAAAGGAGTAAAAGGAATGGAATTACCTTTTTCTGGAATATATAGAAAACATGAAGTAGTATTCAGTGTAAAGCAATTAATGAATGATACAGGAATTACAGCTTTTGATGTAGCGAAGGCTCTTCTAGATAGAGGATTTTATGCACCTACAATATATTTTCCTCCAATAGTGGAAGAAGCATTAATGATAGAAGCAACAGAAACAGAACCTAAAGAAACTTTAGACGAATTTGCGGACGCGTTAAAAAATATTCTAGAAACAGCATATGCTAATCCTAAAGATATTTTGGAATCTCCTCATAATACTTCAGTTAGGAGGTTAGATCAAGTAAAAGCTAATTATCCATCTACTATAACACCAACATACCTAGTGAAAAAACTTAGAAACCAAAACAAAATAAATTTACTTAAATAATAGAATTTATTAAAATTGATATATATCCTAAATAAGGTATTGAAAATATGATTCCATGAAATTCGTCTACCTTACCTAGTACATAATTAGACGGAATACCTTGTGGTGGTTCTAATCCTATCTTACTGTCAGGGACTGGATTAGATATTCTATCAACACCTTGTGTTATATAATGTTTTACTTCGTTATAATTATCTACATACACAACTCTATGAATAACGTAAGCATCTATAGCTGGAGATTTATATATTATTATATTTCCAATAGTAATATTATGTGGAGATGCATAAAAAGTAAGTGAACCATTCTGAAAGACTGGATACATAGAAACTCCTTCAACGCTTGCCGAACTTATAACATTAGAAAAATACAATAAATATATTACAAGAATAAGTATTATTAATATTATGTCACTCTTCTTCATCTAAATCACTAAGATCTAACTCTATAATATCCCCCTGATCACGTTTCTGTTCCTTTTTCTCTTCTCCGCCAAATTTTTTAACTCCTTTTTTACCTTCAACCTCTACAGAAGAGTCTCCTGCTTTAATCTTAGACACTACTGCCCTCCATTTATGCCCACATTTAGGGCATGTATACGAACCCATTACAGTTATTGTTATTCTTCCGTAGGAATCAGGCAAAGGAGATATTAAATTCCATGTCTTTGTAGGCTTATCAACAACTGTCCCACAATTAGGGCACACGTTTGACTCTTTTTGCTTCTTTGGCATAAGTAGTGTTTTGTTTCATAGTTTATAAAATAGCACTATAATAACAGCACTAATAAAAAATAATAAACCATCGTATAAATGTTTGGTCTTATTAGCAATAAGAAGAATATATCCCAATATATTAAATATAGCTAATAAAAATATTAGAAAAATATTACAATAGAAATAAGATACTAAATAAGGAGCAGTTATCCATGCAGTTAAGAAATATTTTTCATTACTAAGCCTACCTCTTAATATTCTAAAGTAAATTGGAGAAAGTAGGCCATAGATTATGAAAATTAGCGCAGCATAGTATAACATAATAACTCTTAGCTAATAAAATAAACATGTGATTAAAAAAATGTCGGATATTTTTGAGATAAAAAAGGTAGAAGGATTAGAAATAATAGATTCAAGAGGAAACTTTACCGTAAGATCTTTTGTAACTACAAAAGGCGGAGTAAGAGATTTCGGTGATGCACCAGCAGGAGCCTCTAAAGGAGAACGAGAAGCAGTAGAACTCAGAGATAAAGATGGAGGAGTTAGAAGCGCTGTGCGTTCAATTAACTATTATATAAATTATGCCTTAGCTAAGCTTGATGTAAGAGATCAGGATAAGATAGACAGGCTTATGATAGAATTGGATGGCACAGATAATAAGTCAAGATTAGGAGCAAACTCAATGATATCTACATCAATAGCAGTAGCTAAAACTGCAGCAAAGGCAATGGGAATTGAGATTTTTAATTACATAGGAGGATTTCGATCGCATAAAATTCCGATTCCATTACTTAATATACTTAATGGAGGAATGCATGCAGGCAACGAACTTAAGATACAAGAGTTTCTCATAATACCTGTAGGTTTTAGTACCTTCAGTGATGCAATAAAAGCTTCGACAAGCATATATAGAACGTTAAAAAATTTAATATCAGAAAAATTCGGGAAAATATACACTTCGTTAGGAGATGAAGGAGGAGTGTCTCCTCCATTATCTAAAACCGAAGAAGCCTTAGATCTTGTTTATACTGCAATAAAAAATTCTGGATATGACAATGAAATTTTATTAGGAATGGACGCGGCGTCTTCCGATTTCTATAATTCTAAACTGAACGTATATGAAATTGACGGTACAAAAAAAACTCCGGATGAAATGATAGATTTCTATAAGGAACTATGTGAAAGATATCCTATTCTTTATTTAGAAGATCCTTTTGATGAAAATGATTTTGAGAGATTTTCCAGATTACAGAGTAAACTCTCAAAAGTTATAATAACTGGAGATGATTTATATACTACTAACATTAAATATCTTAAAAAAGGTATTGAAATGAAATCTACTACTGGAGTTATAGTCAAATTAAATCAAATAGGTACAGTTACAGAAACTTTAGATTTCTTTGACCTAGCTAGGGAAAACTCAATTAAAACAGTAATAAGTCATAGAAGTGGAGAGACTGAAGATAATTTCATAGCAGACCTAGCTGTAGGCTTAAATAGCGATTTTATAAAAACAGGGGCTCCAGCAAGAGGCGAAAGAACTAGCAAATATAATAGATTATTGGAAATTGAGAAAGAATATGAATTCAAATATAATAAAATTTAACTTTTTACGGCAATATTATGCCTATCACTATAAGCATTCCTGCTAATATCAGTAAAAACAATAGAAACTGTCTCGTAGTCATTCTAGGTATTGATGAAAATGCCTTAAATAAACCATACGAAATCCCACCTAGAAGCATTAAGCCTATAATTGCTAATCCTATGATTATTAAAATCTCAGAAACTGAACCACTATTCACATGACTATTAAATATTTGTGAAGTTATGTTATAAAGGGATCCTAATGCCATTTTCCTCAAATATATAGCTACCATCATAAAGTTTATTTATAGTCTTACACGTAATATTACTAAGCCGATGATGAAGGTTAAAAGCTCTTATAGGATGAAGAAAAAGACCTTCTGAGGAGCACTAATCCTTTTAAACAATATAAAACGAACAATTAACTTTGAGGAGTATTACCTATGGTAGTATCATCTGAAATTTTAATGAAATTTATAGGACAAAAAATCAAAGATCCGTACAATAGGGACTTTGGATACTTAGTTCATGTTTATACAGAAATAGATGGAACAGTAACAGGTATAGAAATAAATCAAGGAAGCACATTTACTACTATAGACCCTTCTAGGGTTAAGCTCGACAACGATAGTTTAATAATTTTACCAGATTGGAAAGCTGCTGCAATAAGAACATTAACTTTAATGGAAAAAATTAGAAAAAGACAAAGAGCATTAGACGAGTTATATTCTAAGCAAGAAATTCCAAAATCTACATACGATGATATGAAAAGGAAATTAGATAGTGAAATGCTGAAAATAAAGGATGAATATATAAAAATAAAAAACTCGCTAAAAAATAGATTAAATGAAGTTGAAGATCAACTAACACAAATAGATAAAGCAATGATAGCAGTTAAAATGAGTTATATATCTGCTGAACTATCAGAATCAGCATATAAAGGTTCAGCAGAGATACTTAGATTAGCTAAAGATAGTTACACATTAGAGAAAGACGATATTAGAAAAACATTAGAAAAATTAGATCTGCTAGATAAAGAAGGTATTGATATAAAAACCCCCGGGCAAGTAATAGGCTCACAAGATCAGGGTACTAAGAACGACCAGAACAAATCGGAAATACCGGTTCCAATACCAGTAAAGGTAATAAATACTTTATGACTAAGCCAGTGAAATAGGATGCTAAAAAAGTTATTCCTTTCTTACTTTAATTCTGACAAGAAAAAAAAGGAACAATTAGGTAGACTTCTAACTGAAATATCAATAAAATTAAAAGATCAGCAAACAAGATTAGATGAATCTATAAGGAGATTAAAAGAAAGAGATAAGGATCTTTTCGATAAAGTAGTTAGAGCACAAATAGATGGAGATATAGCTAGAGCTACTATTTATGCACAAGAAATTTCGGATATAAGAAAAATGATTAAAATAATATATACTGCATATCTAGCTATTGAAAAGGTTAGATTAAAACTTGATACTGTTCAAGAATTACAAGGAGTATCTTTGGTGTTGTTCCCAATTGTAAAAATACTAGGAGAATTAAAAGATCAAATAAGAGGAATATCCCCTGAAGTCGCAATTGCCTTAGATTCTATAACGAGTAGCGTAAATAGCATTGCAATAGAGACAGGAATGATAAATGATAAAGGTATAATGCCAGCTTCGGTTGACGAGCAGGCTAAAAAAATTATGGAGGAAGCACAGAAGAATGCAGAAGTAAAGATGAAAGAACTGTTACCAGATTTACCTCATCCTCCTTCAGAAGTTCCATCAAAAGCAGAAATTAAGAGAAAACTAAATGAAAAGGAAATACTAAACTACATCTCAACTACAGGAGGTTTCCTTGATATAGACTTCATATCAAAAACATATGGCGTAGAAAAACAAGAAGTCTTTACTCTATTAAAGCAAATGGCTAACAAAGGATTGATTAGCTTAGAGGGATAGAAATGAGTGCACAAGTAATGTTAGAAGAAATGGCCAGAAAGTATGCAGTATTAGCTGTAAAAGCTGATAAGGATGGCAATTCTAATGAAGCAGTAAATTATTACAAAAAAGCCATAGAAATTCTATCTCAAATAATTACGTTATATCCAGATTCAGTAGCAAAAAACGCTTATGAGCAAATGATTAAAGAATACAAAAAAAGAATTGAAGTATTGAGTGAATTAGTACCAAGCTCTCAGACTCAGGATAAAGAAACGACAGCGGAACTATTAGTTAAAGATAAACCTAAAGTATCATTTAATGATATAATAGGCCTTGATGATGTAAAGGAGACATTAAAAGAAGCTATAATTTATCCTAGCAAAAGACCAGATTTGTTCCCATTAGGTTGGCCTAGAGGAATCTTACTATTTGGACCTCCTGGATGTGGAAAGACCATGATGGCTGCTGCAGTAGCTAATGAAATAGATTCTAACTTTATCCAGCTTGACGCAGCATCAATTATGTCAAAATGGCTAGGAGAAGCTGAAAAAAACGTAGCGAAAATATTTAACACTGCAAGAGAAATGTCAAAAAAGGAAAATAGACCATCTATAATATTTGTAGATGAATTAGATGCCATACTTGGTGTTTTTAATAATGAGGTAGGAGGAGAAGCCAGAGTAAGAAACCAGTTTCTTAAAGAGATGGATGGTCTATTAGATAAGAGTGAAAATTATAAGGTTTATGTAATAGGTGCTACTAATAAGCCTTGGAGACTTGACGAACCTTTCCTCAGAAGATTTCAAAAAAGAATATACATTCCTCTCCCTGATTTTCAAGAAAGAATAGCACTATTGAAATATTATACTGATAAGATAGTTACTGAAAATTTAAACTTGGAAGAAATATCTAAAGCTACGGAAGGTTATACTGCTAGCGATATTAGAGATATAATTCAAACAGCACATATGAAAGTGGTAAAAGAGATGTTCGAAAAAAATCTTAGTATGCCTAGAGCCGTGACTACTAATGATGTAATGGACGTGCTAAAATATAGAAAGCCAAGTGTAAACCAAGATTTAGTAAAAGCGTACTCTACTTGGTATGAGAAATTTAAGGCATTATAAAATCAGATACCCCAGGTTTGACCTCATCTATCGGTTTGGCATGTCTTACATCATTATATAATTGTTGTTTATCAAATCTAATATTAGTTTTCCTGTAGACTTTGACTTAGATAATTTGCTTACAATAGCTTTCCTATTATATCCAGTTTTTTCTTCCCATTCTGATAATCCAGATTTAAGTCTCTCTAACGCAATTAAATGATATTTACATAAGCCGTCTTTTTCTTCTTCGAAATCACAAAACTTACATTTATTGTATGATAAATAACCAAGTCCCTTAGATATCTTATTCCCTATTTTTTCTTTATTTTTATTATACTCTTCCATATACTTTCCTATTTTTTCTTTTATTTCGTTTACTACATCATCGCATTTTATTTTGCCATAGATTATATCGTTAAGTTTAGATTCCATCTCAGATGTCATTTTTATACTAGTTAGTTCTGAAAAATAATCATTAAGAACTTCAGCTATTGTTATTCCAAGTTTAGTTGGAACTATGAATTTCCCTTTGGGTTCAACATATTTTCTCGAAAATAACGTCTCAATTATTTTACCCCTAGTAGCTTCAGTACCAATTTTTACACTTTCCATCCATTTTAGTAGTGACGTTCTATTATATCTAGGTAATGGTTTACTTAAAGATAGTTCTAAGGTTATTTTCTTAACATCTACTTCTGCATTTTCCTTTATATTAATAAGTTCGTCCTCTTTTATATTGTATGGATATATAGTAATCCAACCCTTATATAGTATATTTTGTAAATTTAACGACACATCTACATTATTTTTAACAAATTTTAATATTATATTTTGTTTTTGAATTATAGCATCTTTAGAAATTGATGCTAAAAATCTTCTTACTATTAGTTCATAAATTTTATACGCATCCTTAGAAACTTTCCTAAAATATCCAGTAGGATAAATAGCAGGATGCGCTGGATCATCCTTTTCTCCTTGTCGTACGATGTATTTCCCACTAGTTAAATTATTAAGTATGCTTAAAATCGATCTAAAAGGTCCCTTAGCTATTCCATTCACTATTTCTACTAAGTTTACTGTAGAAGGAATACGTTGACTATTAGTTCTTGGATAACTTATAAGACCTTCTAGATATAGTTCTTCAGCTAACCTTTCAACTTTATATGGAGAATAACCAAAGAATTTTCCAGCCTCTAATTGCAAATCCATTAGATTAAATGGAGATGGCCTTGATAATTTGGTCTTAAAAGAAGAAACTGAGGTTACAATTAGTTTATCATTTTTGAGTTTAGACACGAGTTCTTTTGCATCATATATCGACTCAAATTTCTTATTTAAAAAAACATAGAAATCTTTATTATCTAAATTTATAAGGATTTTTATTCTAAATTCAGGATAAGGAAAGTATAACGACCTTTCAATTTCTCTGTTTACTATTTGAATCAAACTAGGACTTTGTACTCTACCCGCACTCAATATTACTTTCTTACCAGATGCGGAACGAGTCGATATCATTAATGCCCTACTCACGTTTATACCCCATAACCAGTCTACTTTGTGTCTTGCAATTCCAGCGTTAACCATGTTTATATCTAACTCGGACAAACTACTGTAAGATCTCAAAATTTCTTCTTTGGTTAGTGCAGAAATTTTCATTCTTTTTGCTTTCTTTAAATCGCCGAATTTTTCAATTAGAATAAAACCTATGACTGAACCTTCTATATCGTAATCGCAAGCATTTATATATTTTTCTGCATTTTTTGAAAAATAACTTATTGTGTTTATATATTTCTTAGTATATAAATTCTTCTTATCTATCTCCCATAAAGGTTTCCATTCCATAGTATATACTGGAAAAACGTTAGGGCCTGTTATTCCGAATAAATGACCAGCAGCTGATACTATGATTATATTTTCGTTATTATATGTTAATTGCCAATATTTAACTCCTCTATAATTAATTTGCTTGTAAGAACCAAACGCTTCGGCTATCTTTTTAGCAGCCTTAGGTTTTTCGGCTATTATTAGAGTATAACCTCGTATCATTATCCCCTTAAGCTTCTAACAGAAATTAATTCGGTTTTTCCATTAGGAAATCTTCTTCTTACAGTTATAGGCAAAACGTTTCTCTTAAGCTCTTCTTCTGCTATACTTATTGAATTAAGTTTTTTAGAATCCAAAGTACTAATATCAATGAGGGGAGAAGCACCCATAGCTAATTGTAATGCCCTAGCGCTTATTATTCTTGCTTTTTCATAAAGAGTAAGCCTTACTTTCCAACTTTCTATGAAAGTATAATTTAAGGAAGTTATATATTCACTCTCAGACATATCATGAAAACTAATAGAACTTAAAAATAAAACTTTCTTACCATTCTACTTCTGCTCTAAGGAAATCTGGAAGACTACATTCTTTTGGAATATTTAACTCAACTTCCTGTCTTAGTATGTCTGACATAGCTATTGTTAACCTAGATATAGCTCTATCATCCACTACACCTAATATTCCTATTCTAACAATTTTGTCCTTAAGTTCTCCCATTCCGCCAGATATTTCTATGCCTCTTTTCCTTAGTTCATTGATAAAAATTTTAGGCGGTAAAGGAGTTTTTCCAGCAACTACAGTATTAGAGAAATTAGTGTCATCACCAAATAAAGAGAAATCTAATTTACTTGTTATGTTTCTAAGATATTTAGCACACGCTTCATGTCTATTCCATCTCTTCTCTATGCCTTCCATTTCTAGCAATTCGGCTGCTCTGAGAGTAGCAAAAAATATGCCTACTGCTGGCGTAAAAGGAGTTTCATGCTTTTCTTGAAACTTCAAGCTAAGACCAAGATCAAGATAATTAGGTATCTCATTAGAACGCAGTTCAGAAATTCCCTCTGAAGATAATGCAACAAAACCCATACCTGGTAATGAGGCTAATGCTTTTTGGCTACCAGTTGCTACAGCATCAATTTTCCACTTATTTACGTAAAGCTCATATGCGCCAAATCCTGAGACAGAATCTACAAGAAGTTTTTTACCAGAATCTTTTATTATCTTTGAAACTGTTTTAAGGTCTCTAAAAGCTATACCAGTGCTGGTCTCATTATGCACAAGAGCTACAGCATCGGCGTCTTTATTATTCTCTACAGCACTCTTTACTTCTTCTATAGAAAAACCTTCCCCAAAATTTTTTCTATATACTATTGGAATAGCACCTCTACGTTTTATAGAATCTAAAAGTCTATTACTGAATTCTCCATATGTAAATACAATGGTCTTCTCATCTTTATGTAAAAGAGAATAAACCATTGATTCTACTGCTAATGTACCAGAACCAGTTAATAATGCCACTCTATCAGAATTGAATTCCTTAGCTAAAGTATTCTCTAGCTTAAATACAACTTCTCTAAAAGTGTCAGACCTATGATTAATTACTTTAGTAGCCTCATATTCAACACTTTTAGGTACATTTACTGGACCTGGAATTAGTAGCATTATTTTACACCTATTTCAGCTAATGCATCTAGTAGATTTTGAGTTGTCATCACTGCTACTCTATATTGCGCCTCTTTGGTCTGAGCTCCTATATGTGTTGTAACAGTTACTCTTTCATGCTTTAGTAATTCCATTTCCCACTCTTCCTTAGGAGGTTCATGCCAGAAGACATCTGCAGCGTAAGCTAATACCTTATTTTTATTTATATATTCCAGAAGAGCCTTTCCGTCTATAGCTACTGCACGGCTTGTGTTTACTATCATTACGCCATCTTTCATCTTTTCGAATTCATCCTTGCCTATTATCGGCTTGGCATCTTTTCCTACAGTAACATGGACACTTATTATATCGGACTTCCTAACTAGCTCGTCTAAACTAACACTAGTAGCTCCTATCTCTTCAGCACGTTTACGTATATCTATAACATCATACGCTAAAACATTCATACCCATAGACTTAGCTATTATACCTACTTTAGTTCCTATTCTTCCAAAACCTATTATACCTAAAGTTTTACCCGCTAATTCTATTCCTGAAATTTTCTTAAAAATTCCAGATTTAGCTAGATTCATTGATGTATAGAAATTTCTAGCTCCAGCAACCATTAAACCAATTGTAAGTTCTACCGCAGAATCTGTAGATGCTCCAGGAGCATAGACTACTTTTATTCCTCTATTTTCAGCCTCGTCAGTGTCAATATTATCTAGACCTATACCGGCTCTAGCTATTATCTTTAGTCTTTTGCCTTTTTCTATAATTTCTTTATCAACTTTAGTTCTACTTCTAACTACTATTACATCATAATTTTCTATAATTTTCAAAAGCTCTTCTCTTTCAATACTAGGACTATATGTAACTTTAAATCCCTTTTCTTTCAATGACTTTAACATGTACTCATTCATGGGATCAGTTATTAGTATTTGAAGGTTTTCTTTATTTATAGAATTAACTTTCTCGCTCTGCATAGAATACCCCATTCTGAATCACCATAAATTTAGAAGTCTAATCTAACATGATGAATATGATGACCATGAGAAAATACTTATTAAGAAAAAGCTAAACGTAACAAATTTATCTATTTTCGCGGAATTATGCCCAAATCTAGCAATATCCATTTTACCTCACATATACACTACATTTCTGGTTTATATACTTTTATTTATTTTACTATCATTTTGGTCTCTTTAAACCATATAAACAGATCCAATAGTCCGGGATACAAATTAAAATAAGTTGAGATACTTCTTAAAATTGATTCTAAGTATATATATTCTGACCTTGATAATTGTTTATTCCTTATTTCTACATAATCACTCAGAAAATTTAATATATGTCTATCTATTATTGCAAGATTGAAATAGCCTACGTTCCTTAAAAAATGACTAGCTTCTTTCATTCCTATTCCATAAAGCTTTAGTAAATATTCTCTAGCTTTTAACTGATCAGTCTCTGCTATATTCTTTATAGTATTTTTTAATTTACCATATATTAATTCTCTATCCTTTACTATATAATAAGATTTAATATTATAAAACCTATAACCAGATTTTTTTAATGATAGAGAGATATTTTCTTTATTTTCGTAAAAAATCTTGTCTCCTAGATTTTGTAAAGCATTATACGCAGATATAAACGATGAATTAGCCGTTAATATACAAAGTACTAGCTCCCTAAACCACACATTCTCATTAGATAAATTGTTTAGCTTAAACTCTTCTGCTCTTTCTAGAACTCTTGCCCTTAACTTTACGTCTTTTAGAAGATTTCTTAGCACGCTTTTTCTTTACTGATCTAGATTTTTTAGTTTTAGTTTCTGCTTTAGTTTCTTTTACAGGTTTTGTATCTTCCATATCTGATTTAGAGATTATTCTAAATCCTTCTGAAGTTTCAAGAACTAAAAAAGGAATCTTATTATAATCCATTTTAATTCCTATAATAGGATAATCTGAATTAACTTGTATATAGTTTATTTTAACAATTTCAGAAGTTATATCTGCTGGAACTCCTACTTTATATACTTTAAGAGGATATGGAAACTTAAATGATGTATCTAAGTTACTATTTATTATTTTACCATCTTTGGTGTTTATTATAACTACTTTATTATCCAAAAAAACATTATCTAAATCTTCTTTTCCATCTATAGCTGTTTCTCCCTCTTTCTTTATGGCTATAAGTGAGACACCTTCAATAACTTTAATCTCTTCAGGCATATAATACTCTTCAATTACACTCAAGGATATCTATATATAATTATGAAAACGGCTATTAAAAGCCTAGTATAATAATAAAGGTAAAACCATGTAATCTCATGCGAAAAGTATATATAATATACAATATGATAAAAGTTGGATAAGATATGAGCTTAAGAACAAAAGGAATAGATGCTTATGGACATATGGGATGGTTTACAGTACATTGTAGGATATGCAATAGATCGCTCAGAATAGGTATTGATGTAGTTTACAAATGTCCAAAGTGCGAAAAGAAATACAACGCTTATTTCTGCGAGGCAGATAAAAGAACGTTAAAAGGCAAATGTCCATACTGCGGTAGTGATTTGGTACCTGTAATATGATAAAGCAATATTTAATAGATAATAAGAAAGTTTTTGTTATTTTAAACAATTCTACGGTATTGTATGCAGATACAGATATAAAAACAAAGATAGTATCTAAGGAAAATATAGAGTATAAGGATGTGAATATCCCTTTTGAATATGGAAAAATAGTAAAAATAGTTACATGTAAAACCTCAATATACACTTATATATGTAATGCTGTAGCCTTGCTAGATAATTTTAATGATAACTATATGACGGAAATTTATCATAGTTTATTGAAAGAATTAACTAAATTGGCATGAATACCATTTTCTTTCAATTTATTATTTATATGCTCAGTTATTCTTATAATTTCTGTAGCACTAGTACTTTCTACTCGTATAATCATTAAAAATTTTTTAATATCGTCACTTAAAAATACAGTTATTAATGATTCTGGAGAAGGTGAACATATATATGAAGCACCTATTCTTAAAGGTTTGCATAGATCTTCTAAAAAATTATCGAAACCTAAAAATACATCTCTAATCCTTTGAGGTTCGGACATTACTGAAATATCAACACTAAATATACTGTTCATTTTAAATTAGCCCTCTTTACTGGAATTTTAACTTGATCTAATACTCTTTTTACATGCTCATAAAACTGAGAATCTCCGTTAATTTTTTTAATCTTAAGCTTTCTATAATTGAGAACTAGTACAATATTTCCCTCATTTATAACAATTATTTTCCCCTTAACTTTATTATAGATATTCTTTATCAAAGTTATGTATACATAAATACCTTTAGAAGGTATATCTGTCAAATAAGCTTCTCCTACAGTATAAGTTGGTTTAACCTTAGAACTAAATTTTTTCTCTTCATGAATATTATTATCTATTTTATAAAGCAATGTTCTAATGACATGTTTGCCTGATTTGCTTTTAGAGTTATCAATTACTAATTGCACCATCTTTAATCGCCTTAACTGATTCTGATATACCTTCAAAATCTATTTTATCTTCTAAAAACGCATCTATAAGTATCCCATTCCTTAAAAATACTTTAAGCATTGATTTCCTTAAACTCTCATTAAGGTTAATATAAATTTTTAATAATGAATACTGTATTTTTATCCTTTTTTCTAGTTTATACAACTTATTATTTAGGGTCTCATTAAAATCTTCTCCCTTAGTTAAAGCGTCAAATGCGGCTTCTGCTGATATTGCAGACGGTCTTATTCCTTCTCCGCTCATAGGGAAAACTAGACCCCTGGCTTCTCCTATTTTCCAATTTTTATCAGATATTAGATCCACAGTTATTGGAGCACCTCTAGTATCTATAATTTCATATTTTTTTAGTTTAGATTTAATATATTGTAATAAAAGTTCCTTTGAATTCTTATATTCTAAGAATCCAGCACCTATATTATATATCCCTTCAGAGTCAGGGAAAATCCAGTAAAATCCAGTAAATTTAGAGTTAAATTCTAATATTGCTTCATCATTAAATTCTTCAGTCTTAACTAAAGACCTTGTGGTATATACTACTTTTCTGTCCATAAGATATGGACCCATAGCGTTTATTATAATATCGTATCTTTCTCTTTCCGGTTTTTCGTTTCCGATTACCTTTTGTTTTATATTATCTAACATACTATTAATCCATTCTGACTTATCTATAACATTCCATTTAGTGTGTCTATATCTTACATCGTATATTTTTTCTCCGTCTAAATAGAATGCAAAATTCTTAATTCTATATTTTATATTCCAATTTATTTTTGGTTCATAAATATTAGGTACTACATCTCCACAAGGCTTAAAATATTTGCCTTTTAGATCAAATAGTGTAACGTCGTAATTGGATTTTTGAAGTAAATTAGCTAGATAAGAACCGGCTACTCCGCCTCCTCTTATGGCAATCTTGTCCATAATTTAGAATCTTAAGTAAAGTATAAAAAGTAGCTTTGTTCTAAAAAATTTAATATCTTGTGTGGTGGTCAGTTATTGTTGAGCCAAGACGAAATTTTAAAGAAAATGGAAGAATGGCCTAAACACTATGAACCAAAAGAAATTGAGCAAAAATGGCAAAATACCTGGTTAAGTAAAGATTTTTGGGATAAGGTTTATAAATTCGATGAAAATTCTGAAAAGCCAGTATTCTATATTGATACACCACCGCCTTTTACTAGCGGAGAGCTTCATATGGGACATGCTTATTGGGTAACCATTGCTGACACTATAGGCAGATTTAAGCGCTTGCAAGGTTACAATGTACTCTTACCACAAGGTTGGGATACACAAGGATTACCTACTGAACTTAAGGTTCAATATAAGTTAAAAATTCCAAAAGAAAATAGAGATCTATTCCTTCAGAAATGTGTAGAATGGACAAATGACATGATAGATAAAATGAAAAAAGCTATGATAAAATTGGGTTATAGACCTGATTGGGAACAGTTTGAATATAAAACATTTGAGCATAATTATAGAGTAATAATTCAGAAAAGTTTGATAGATATGTATAATAAAGGTATAGTAAAGATTAAGGAAGGGCCAGTATATTGGTGTCCAAAATGCGAAACAGCATTAGCTTTAAGTGAAGTAGGATATCTGGAAAAAGAAGGATACCTAGTTTACATAGGTTTTCCATTGAAAGAAGGTGGAGAAATAGTAATAGCAACAACCAGACCAGAATTAATAGGTGCTACTCAAGCTATAGCAGTTCACCCTAACGATGAGCGATATAAGGCTCTAGTAGGAAAAGTTGCTATTATACCTTTATTTAACAAAGAAATAAAGATAATAGCAGATGAGGACGTAGAAAAAGATTTTGGAACTGGTGCAGTAATGATAAGCACTTATGGAGATCCGCAAGACATAAGATGGAAGTTGAAATATAACTTGCCTGCAGTAGAGCTTATAGATAATAGAGGAAGAATAAAAGGAACTGGAATAATAGATGGATTAAAAGTAGAAGATGCTAGGAAAAAGATAATAGAAATTCTTAAAGAAAAGGGTTATGTAAGAAAAATAGAAAAGATAAAACATAATGTTCTTTCTCATACTGAAAGGAGCGATTGTTTATCTCCAATAGAGTTTTTAAATAAAAAACAGATATATATAGATGTACTGCCTTTTAAGGAGAAAATGTTAAAAGAATATGAAAAAATGCAATTCAAACCGAGTAGAATGTCATATTATTTACAAGATTGGATAAGAAGCTTAGACTGGGATTGGAATATAAGTAGACAAAGGATCTATGGAACTCCATTACCTTTCTGGTATTGTGATAATAATCATCTAATACCTGCTAAGGAAGAAGATCTACCTATAGATCCAACTAAAGCAAAACCACCCTACGAAAAATGCCCATATTGTGGACTACCATTAAAGCCAGTAACAGATGTAGCAGATGTATGGATAGACTCTAGTATAACAGTTCTTTATCTGTCAGGATTTTATACAGATAAGAAAAGATTCTCTAAAGCTTTTCCAGCATCTTTAAGATTACAGGGTACAGATATTATTAGAACTTGGCTATTTTATACCTTCTTTAGAACATTAGTATTAGCTAACGATGTTCCCTTTAAACAAGTGCTAATAAATGGCCAAGTATTAGGTCCAGACGGAACAAGAATGAGTAAGAGCAAGGGAAACGTTATTTCTCCTCTAGATAGAATAGACGAGTTTGGTGCAGATTCTATAAGAATGACATTACTTGATGCTGCCATAGGCGATGATTTTCCATTCAAATGGGAAACTGTAAGAAGTAAAAAACTTCTCCTACAAAAACTATGGAATGCATGTAGACTTTCATATCCGTTTATAAGTAATAACATAGAAAAGCCAGAAAATCTAAATATCTTAGACAAATGGGTATTAGCAGAACATAAAAAATTCATAGAAAAATGTATAAATGCTTATAATTCATACGACTTTTTCATAATACTTCAAGAAATATATAGTTATTTCTGGGAAATAATAGCAGATGAGTATCTAGAATTAATAAAATATAGATTATTTCAAAATGATAAATCTGCAATATATACACTAAGTAGAATATTAAAGGATATAATAATCATATTGCATCCAATAGCTCCACACATAACAGAGGAAATATACAATAGGCTATATCATATTAAGCCAAGCATACTTCTAGAGAATCTTCCTAACACAGATGATATAGAAATAGATCCTGAAGCAGAAAAAATAGGTAATAATGTCAAAAAACTTAATTCTATGATAAGAAGTGCAAAAATAAATAGTAGACTATCCATGAATACATACATAAATGCGAAAATATATGGAAACAGAAATTTTATTGAAGATATAAAGAAGGCTGAAGATGACATAAAGAAAACACTAAAGATAGACAATATAGAATATATAGAAAATAGTGAAGAAAAAGTCGAAATAGAAAAATCAGACCATGGGAGTTCAAATCATCAATCATGAGTAGACTTTTCATCAACTTCTTCTATTACATTCTTAATTCTATTTATTCCTTCTTTAATCTTATCTTCGCCTATAGCAAAACTCATTCTCAAAAATTGTTTTCCTCCATTTAGCGGAAAAACCTCTCCCGGAACAGTTATAACTCCTGCTTCTTCTATTAATTTTATAGCTAGCGATTTCGTATCAAAATTCCATTTTTTTAGAATATTACTTACTTCCGGAAACATATAAAAAGTTCCTGGAGATTTATATATCTTAAACTCTTTTATTTTCTTTAATTCAGAATACATTATGTCTCTTCTTCTTCTAAATAGTTCTATCATATTCTTGACATCATCATAAGTGTTAAAGGCTTCTAATGCGGCTTTTTGTACAAAACTAGTTGCACATGTGTATATATTTGATGCTAATATGCCTATTTTGTCTATAATCTCTTTTTTAGCTGCTATATATCCTAGTCTCCAACCAGTCATGCTAAAAGTTTTACTAAATCCATTTATGTATATAACATAGTCTCTCCAATCAGGATCTTGCAAAACACTTCTCATTTCTCCTTCGTATATAAAATGGTCATAGATTTCATCAGATAATAGAATTATTTTATTTTCTTTAATAATTTCTTGAAGCTTGATTATCTCTTTTGATCTGAAAACCATTCCTGTAGGATTATGCGGATTATTAAGAACTATCATCTTAGTTTTTTTATTTATAAGTTTGGATATTTTTTCTATATCTATAGAAAAACCCTCGCTTTCTGAAAACCTCAATTCTGCATATACTGGCTTCCCACCAAGGAGTTTTATAACTTCAGAATACGAATAAAATGCCGGATCTATTAATATTACTTCATCTCCTGGATTAATATAAAGTAGAAACGAGACAAAAAGTGCAGTTTTCGCTCCAGGAGTTATTGCTATCTCCTCTTTCTTGATATTCCCGTATTTTTCACTTAGTTCTACAGCAATTTTTTGCCTAAGATCGTCTATACCTAATGCTGGAGTATAAGCAGTAAAACCTTGATCTAAAGCTTGTTTTGCAGCTTCACGAATTTTGGAAAATGTTACAACATCTGGCTGGCCTATTCCGAAGTTTATAGTCTTTATTCCTTTTTCTTTTTCTATTTTCCTAGCTATTTCTTGATATAATAATGTAGATTCACCAGAAAGGTTTCCCAAACTAGTTGCAAAGTTTTGCATTGTTAATTAAATGTTATAATAGCTCTTTAATTTTAGCTGGTTCTTTCATTAATAACGTTCCTATTAGAAAAGCGTCTGCACCACTTTTCTTTAAATCTTCTATATCTTCCCTTGATGAAATTCCACTTTCTGCTACTTTTAATTTATCATTAGGAACTAATGGCAAAATTTCTTTTACATTCTGTAATTTCAATTCTAATGTACTTAAATTTCTAGAATTTATTCCTATTATTTTGGCTCCAGAATTTAAAGCTATTTCTAAATCATCTATATCATGTACCTCCACTAATGGTTCTAATTTATAAGACCTTGCATAGTCTAAAAGATTTATAAGTTCTCTTTCAGTAAGTATCCTTACTATTAATAGTACACTATCTGCTCCTAAATTATATGCAGTATCGATTTGTCTTTCCGTAACAACAAAATCTTTCATTAATATAGAGATTTTTACTGTATTAGCAATATTTCTAAGATTCTCATATGAACCTCCAAAAAACTTATCCTCAGTAAGTACACTTAAGCCTATAGCACCATTCTCTTCCATTAGTTTAGCGTACTCGATCGCGTCTCTTTCAGCAAAAAAGCCAGATGGAGAACGTGTCTTATATTCAGCTATAATTGCAGTCCTTTTTTTCTCTTTAGCATTCAAAATACTTTCATATAGTGAATAAATTGGCCTTGATCTTTGCATACTTATATATGGTCTATTAAGAGCATTATCTACTACTTCCTTTAACCAACCACTAAGATATCTAGGCATCTATCATACTCTATTCAGAAAATTATAAAATATCTTTTGACCAACTGCTGTTCCTATACTTTCTGGATGAAATTGAACACCGTATATCCTTAGATCAGAATGATGAATAGCCATTATCTCATTATCTTCCTTTGATATAGCATCAATTATTAGAGGGTATTTAACATCGTCTATGACTAGACTATGATACCTAGTAGCCTTAAACTCTTGAGGAATAGCAAAATATAATGACGTATTTGAATTATGTAATATATTACTTACTTTACCATGAAATACCTTTCTTGCTCTTCTTATTCTAGCACCAAAAGCATAACCTATAGCCTGATGACCTAAGCATATACCTAAAATAGGAATTTTCTTGCCTAAATTTCTAATAACGTCTATAACTATTCCTATATCTTCTTTCTTATCTGGAGATCCAGGACCAGGAGAAATAATTATCCTATCTGGATTCATTCTTTCTACTCCGCTTAGAGTTATTTCATCATTGCGTATGACTATAGGATATGTTCCTAATTCACCAACAGACTGTGCTATATTATATACGAAACTATCGTAATTATCTATAATGAGCGTAATATCCATTTTACTTCCCCAGAGCAGCTAATAATGCTTTCATCTTATGTTCAGTCTCTAAATATTCCATTTCTGGAATAGAATCATAGACTATACCTGCTCCTGCTTGAATTCTAATTATGTCATCGTTAATAAATGCTGTGCGAATAGATATGGCAAACTCACCAAAGTTCTGGGATAAAGTTCCTACTACTCCCGCATAAGGACCTCTTTTATAGGGTTCTAATTCTTCTATGATGTTCATAGCCATAGGTTTTGGAGCTCCGCTAACAGTACCTGCAGGAAACATAGCTTTCAATACATCAAGCACAGTGTAATTTTTCCTGATTGTCCCAATTACTTTACTTACTATATGTTGCACATGACTATATTTCTCGACATACATAAATTCTGGAACCTTAACAGTGCCTGGAACAGAAACTTTTCCTAAATCGTTTCTTGCTAAATCTACAAGCATTAAGTGTTCCGATCTTTCTTTTTCAGAAGATATCAACTCTTGTTCTAAAGAAAGATCTTCTTCTTTACTAGAACCTCTAGGTCTAGTACCTGCTATTGGATATGTTTCTGCTATATCATTTTGAAGGGAAAAAAGCAATTCTGGACTAGATCCTATCAATTTTCTCTTATCAAACTTTAAATAAAACATGTATGGAGATGGATTTATCTTCCTTAAGTTATAATAGAGCTTCATTATATCGCCCTTAAATGCGTATCTATAAAACCGAGAAAGAACAACCTGAAATGCGTAGCCAGCTCTTATATATTCAAGAATCTTATTCACACCATTTTCAAATTCCTGTTTTTTCATAGATTCGTCATAGAAATTTACCTTTAGATCTTCCATTTCTCCACAATTATATGATTTTAAATCGCCCTCTACATACACTTTTCCAGAGTTATGATCAAATACTATAACATTTTCAGGCAAGAAAAATTCTGCGTATGGCCAGTCTTCAGAACTTGGCTTAAGATCCTTAACTCTTTCCCATTGTCTAATTACATCATAAGATATATATCCTATCAAATTCCCTAAGAATCTTGGATTAAATTCATAATTTGTAGGCGTTATATTTTTTGCTACTTTATCTTCAAAATTTTCACTGGCATGTACATTAATGTAATTTTTAGCACCCCAAGCTATTATACTATATCTTGACATATTTTGAGGTCCACTGACACTTTCTAATAAGGCAGCATATTTCTCAGAACTTTCTATACATTTGAAAACTTCGTATGGTTGAGCAAAAGAAGTTATTGGATATACTTCCATTTTAATACGCCAATTATTGTTTTTATTTTATCTAAATCTTTTTTTCCAGGAAATGATTCCACGCCACTGGATATATCTATCCATGCAGGGTTGAGCTCAATATAATTTTTAATATTTGAAGGATTTATACCACCTGCTATTCCTAAATCTGGATAGTTATTAAGAACTTTCCTTGCATAACTTAAATTCAATTTTTCTCCTTTTCTTGGAGAATCTAACAAAGCCAAATCTGTAACTTTGTATACTTTATCTATGTACTTTTCATATTTTTCGTCTCCAGGAACATATAATATGAATTTTCTATTATATGTAGTAAGCTCATCTAATTCATTGTCTTCTAGAATCCTGTGTATTTGGATTATATCGGCTTTTTCTCCATCTTTAATTATATCACATATTTTCCCATTTGCTCTAACATAGACTATAGGTTTAGTAGAAAAATGCTTAGCTATCTCTAAAAATTGAGATTTAGCGAACCTAGGACTGTTCTTTTCGCTAACGATTCCTAGCATATCAACGTCCATATTGGAAATTTCAATAATATCCTTTAAGGTAGAAATTCCACATATCTTAATCTTTGTTGACACCTGCTTCCACCATTAGGCTTCTTAGTTTAGAAATATCACCATTACCTTCTATAATTTCATATATTTTTCTGAAAACTGTTTCAAATAATTGTGAAGATAATTCATAACTATCGTATAAATCTTTTGTTACTCCAGTAACATAAAGAGCGAAAGCCGAATTTATTTTTATAAAGTTCTTAATATATTCGTCTTTATTATTAATTGCTCTCAGTATTCTTATTGCGGAATCCTTACTATCTTTTACTATAATTTTGTCAATAGATATTTTTTCTTTTAGAAATTCCGAATAATTTACGATATAAGATTCTATTTTATTGCCTTTTAGCTCATAGACATATGTATTACCGCATGGACTTACTTCGTCTATACCAGGTTCTCCATGAACTAATAATAGTCTATCATACCCTAAACTTAAGCCTGCAGCAATAATTTTCTCTAGATATGCCCTCGAAAATACTCCTATTATTTGCTTCTTTATTCCAGCAGGATTAGTTAAAGGTCCTAAAATATTAAATATAGTCCTTATACCGAGCGTTTTTCTTATGTTGGCTACATTTTTCATTGCAGGATGATAAAGTTGAGCGAATAGAAATACAAATTTATACTTGTCAAATAGTAGCTTTGCCTTTTCTGGAGTAATAGATATATTATATCCTAACGTTTCAAGTAAATCAGCACTACCACTTTTACTACTTGCTGCTCTGTTTCCATGCTTAATTACTGGATATATTTGACTTACGAGTATAGCGGATATTGTACTAACATTCACTGTGCCATAGCCATCTCCTCCAGTTCCTGCAGTATCTATAGCATCGCCAAGATAAACCTTTAGCGCATGAGAACGCATAGATTTAGCGAAACCAGATATTTCACTTACACTTTCACCTTTAGTCTTTAATGCTGACAAAAAAGCAGCAGATAAAATCTCTGGCATAGAACCAGACATTATACTATTAGCTATTTCCTCAGCTTCAGTTTCTTCTAAATCTAGTTTTTCTGTAACCTTATTGAGAAGTTCTTTAGAACTCATTTAAAACTCCCCTGAAATATTTAACAAGAGAAATTGCAGAGTTTATTCCGTTTTTCTCTATTTCTTCAATATATGCTGTACCTATAGCTATTCCGTCTGCTCCTGCTCTCAATGCCTTTCTCATATCATTAACATCTGAAAGACCAAATCCTACTACTAGTTTATTTTCAACTAATGTTCGTACGCGTGTTATTAAAGAATCTACACTAACTGGTATTGGTACACCGGTAGTAGGTCTTACACCATAATATAAAAACATATCAGAATTCTTTGATACATTATGAATCATAGTATCTGGAACTGATGGAGCGGTAAATATAACAGCCTTTAAACCTTTTTCCCTTATCTTATTAACATATTTTTCATATTCATCAACAAAATCTATCAGCAAATCAGGGAATAATATACCGTCTATTCCTATATTATGGAGTTTTTCAAGGAAAGTATCTAATGAAGGCAACCAATCTTCTAAATATGTTAATATAACTATAGGAACATCTATTTTTTCTCTAGTTTCCTTCAACAATTTCCAAGTTTCTTCTTCTGATAAATTAACTGCTTTATAGCTTCTTCTTATAACTGGCCCATCATACTTAGCATATTTAGGTTTCATCCCTATTTCTAATATATCAGAACCTTCTTTTACTGAACTTTGCATAAATTCTAGGAAATCTTTGTTATTTGGATATCCCAAAGTTAAATATGATACTAACCATTTACTCATTTTTGACTCCTGTTAAGCATTAATTCGTAATTAGGAAGATCCAACAATCCGTGACCACTTAAGTTAAACACTATAACCTTCTTTTCATTATTCTTCTTAGCCTCTAAAGCCTCATCTATCACTGCCTTTATAGCATGAGCTGATTCTGGAGCTGGTACTATACCTTGAGCTTGCATGAAAATCTTAGCTGCCTCAAATATTTCAGGTTCACTGTATTCTCTCCATTCGATCATTTTTTCTCTTATTAGCAGACTAAGAGATGGAGCAGCTCCATGATATCTTAATCCTCCAGCATAAATAGGAGGTGGAACGTAGTCCTTGCCTAACGTTATCATCTTAACTAATGGCAACATCCCTGCGCTATCTGGATAATCGTACATATAGTCTCCCTTACTAAATTTTGGAATTTCGTATGAACCAACTGCAATATACTTTTCTCCTTTTTTAGCACCTAAAAACGGAAACGCAAATCCACCAAAATTACTTCCACCACCTACGCATCCTATAAGTATATCTGGTTCTTCTCCTATTTCATCCATTTGTCTCATAGCTTCTTGTCCTATTATACTCTGATGTAATATCGCAACGTCTAGAACGCTTCCTACAAGATATTTATATTCGTTTTTTAATGCGTACTCTATTGCTTCACTCATAGCAATACCTAGTGAACCTGGATGATCTTTGTTTTCAGACAAGATTTTCTTTCCAAAATCTGTTATATCTGTAGGACTAGCATAAACATCTGAACCATATAATTGCATAATAGTTCTTCTTTGCGGTTTTTGCTGATAACTAACCTTAACCATAAATACGGTAGCTGATATATCAAACATTCTCGCTGCAAGTGCAACAGCAGTACCCCATTGACCAGCACCAGTCTCAGTAACTACATGAGTTATTCCTTCTTCTTTAGAGAAATACACTTGTGGAAGGGCAGTATTTATCTTATGTGAACCCGTTGGAGTAGCTCCTTCAAATTTAAAGTATATTTTTGCAGGCGTGTTAAGCATTTCTTCTAGTCTTTTTGCCCTTAAAAGAGGAGTAGGTCTACCTAGATTAAGATATGCGTCCCTAACTTCTTCCGGAATCTTTATAAAACGTTCTACAGTAAATTGTTGCCTTAAAACTTCTTTTGGCATTATTTTTCTTAACAGATCTATTCTTGAGAAATCTGCATCTTGTGGATCTCGTGGAGGAGGCAAAGGCTTAGGTAGATCTGGAATTATATTATACCAATATTTTGGTAAAATTTCTTCTCTTTCTTTTTCTACCATTGGTACAACAAAGACACCAAAAGTAAATAAAAGTTCAGCTATATAAATGCTTAGTATGTATCAAAAGATGAAAACTCACCCTTATATTCCTCAAGTTTATATTCTATGTTTTCAACTTTAGACAATGGAGGACCTTTTCTTATTATATCAAGGAGTTTGTTTAATGACTCATCATATCCTTCCGCTACAACTTCAACACTACCGTCTGGTAAATTCTTTGCATATCCCTTAATTCCTAATCTTATAGCATTTATCTGAATATACCTCCTAAAACCTACTCCTTGTACTATTCCAAATATTCTTACATACATTCTTTTTAACATTAAATCACCTCAGTGTCGCTCCACTTCTTCACTGATCTGATTTTTCCCTTTCATCACAAATATATTTTAACTCTTTATCTACCTTAAAAGTAATGATCAAAGTCGCAATAGCTGGTTTAGGAAACTGTGCCTCTATGTTAATTCAAGGTATCTATTATTATAGACAAAAAGGAAGGAATTATATAGACGGTCTTATAACTCCATTTATAGGTAATTATTCTGTAAGTGATATAGAAATAGTAGCTGGTTTTGATATCTCAAAGAATAAAATAGGAAAAGATCTTTCGGAAGCTATTTTTGAAAGACCTAATATAACACCTAAAATTATTGATATGGAAAAAACTGGCATAAAAGTAAAGAAAGGTCCATTACTTGACGGAGTAGCACCACATATGCAAAATGTCTTTAATCCAGAAGATAGCGGAAGGGAAGAAGATGTAGTTCAAGAACTTAAGGATAGTAAAGCAGATATCTTAATAAACATGTTGCCTGTGGGAAGTGAGAAAGCGTCGAGAGCTTACGCTAAAGCCGCATTAGATGCTAATATAGCATTCATAAACGCAATTCCAGTTTTTATAGCAAGCGATCCAACTGGAGAATTTCCTAGGCTATTTAAAGAGAAAAACCTTCCTATAGCAGGAGACGACATTAAAGGCCAAGTAGGTGCTACGATATTTCATAGATCCATAACTTCTTTATTTAGAATGAGAGGAGTTAAAGTAGAAGAGACTTATCAATTAAATGTTGGCGGAAATACTGATTTTCTTAACATGAAAACCGAAGAGAGACTTTATTCTAAAAGAATAAGTAAGACTAAAGCAGTAACAAGCACTTTAGATGACCCAGAAGAAATAGAAAGCGAAGGAAAAATTAGAATAGGCCCTAGTGATTATATACCATTTTTAGGCAATACAAAAGTTGCTTACGTCTACGTAAAAGGATATGGATTTGCTGGAATGCCAATAAAAGTAGAAGCTAGTTTAGAGGTTGATGATAAGTCTAATTGTGCTGCGGTTCTTGTTGATGTCATAAGAGCAGTAAAACTGGCTTTAGATAGAAAAATTGGTGGGCCATTAACTCAAGTATCGGCTTTCTACTTTAAACATCCCCCTACACAAGCGAAAGATGATGAAGAAGCATACAGATGGTTTAAAGACTTCATTATGTGAAATTTGCGAAGAAAAAGAAGCTAATTATGTATGCAGATTATGTAAGAGAAAAGTATGCGAGAATGATTTCAATAAAGAAAAAGGGATATGTAAAGTTTGCGAAATGAGTATTTGCGAAATTTGTAATGAAAATCTATCCATAGGCTACTGTGAAATTTGTGGAAGACTAATATGCGAAAAATGTACAGCTTATTCCAATGGTACAAGTAGAATATGCGTCGAATGCATTTCGAAAATAAATAAAGGTAAAAATTAATTATTTTATCTAGATTTATTTAATATTAACTTCTGCTCTACACTAGCTACTAATCTTCTGGTATAGATAACAGTATCGGGATTTACACTTATACTGTCTATTCCTGATTTTACTAGAAATTCTGCAACTTCTGGATAAACACTTGGAGCTTGTCCGCAAATAGACACTGTCTTACCATATTTATGTGCAGTCTTTATTAAGTTTCTCATGGATCTTAAAACAGCTGGATTTCTTTCATCGTAATATCCCATTCTTCCAAGTATTTCGGAATCTCTATCTACTCCAAGTGTAAGTTGTGCCAAATCATTACTACCTATGCTAAATCCATCAATTATCTTAGAGAACTCATCAGCTAATATTATAACTGAAGGAACTTCTGCCATTATCCACACTTTAAAATCACTTCCTCTCTCTAATCCCTCATCTTCCATAATCTTTATTGCCTTCTTAAGCTCTGGAACAGTTCTAACAAACGGGAACATTACCCAGACATTCTTTAGCCCCATCTCCTCTCTAACTTTCCTTATTGCTTTAACCTCTAATCTAAATGCAGGCTCATATTGTGAACTTATATATCTAGAGACTCCTCTCCAACCCAACATTGGATTTCTCTCTTCTGGCTCGAACTCTTCACCACCTATAAGTCCTCTATACTCATTAGTCTTAAAGTCAGAAAATCTTACCACAACTGGTCTAGGATAAATTGCACTAGCTACTTTAGCAACACCGTCTGCTAATTTATTTACAAATTCTTCAGGCTTCCCGGTTTTAATAAGATAGAGAGGATGATATTTAACCCATTCACTGACTATGAACTCTATTCTCATTAATCCTATTCCATCAAATGGTAAATCAACATATTTTTCTACTATATCTGGCTGTCCAAGATTCATATATATCTTAGTACCTGTTATAGGGTAAAGGCTAAGCAAAGTATCCCTACTTAATCCTTGCACACTTTCTGTTGCCTTCTCCTCTTTCTTTTCTTCTATAATTCTGCCTTCATATACAACTCCTCTAGTAGCATCTACAGTTATTTCTTCTCCATCTTTTATTACCTTTGTACCTTCTTTTGTACCTACTATTGCAGGAATACCTAGTTCTCTAGATACTATAGCCGCATGACTAGTTATTCCTCCTTCATCAGTAACTATACCAGACGCAATTTTCATAACTGGAACCCAATCTGGATCAGTCATCCTAGTTACTAATATGTCGCCTTTTTGAAAATCTTTAGCATCTTTTACTTCTAATATTACTCTAGCCTTACCACTAGCTATACCTGGACTAGCAGCTAGTCCTTTAACTAGTATTTTCCTTTCGCCTATCTCTTTAGTAGTTTGGGTAGTTTGAGGTTTTCTAGAGCTCCAAAAAGTTTCTGGCCTTGCTTGTACTATAAACACATTATCTGGAAAAGATAAATCAGAATCTATAGCCCATTCTATATCCATTGCTCTTTCATAATGTTTTTCTATTTTTAATGCGAGTTTGGCCAATTCTATAGCTTCATTATCATTTATACTAATTTCATCCGCTTCTTTACCCAAAGTTACTTCTTTATTAGTATTTTCATTTGGATCATAGAAAATTTTAATATTTTTATGAGATGTTTTCTTTTCCACTATTTTCAAAGTAGATTTTTCAATAACTATTTCATCTGGAGTTACTTTTCCTCCTACTACAGTCTCTCCTAATCCCCAAGAAGATTCTATAACTATATAATTAGTGTCGCCAGTAGCCGGATGCAAAGTGAACATAACTCCAGCCGATCTAGAATTAACCATTTTCTGAATTATCACTGCAATCCCAACTTTTGTTGAATCTATGCCTTTTGCAAGCCTATATTCTATAGCTCTAGCATTAAATAAGCTAGCCCAAACTTCTTTAATTTTATTAAGAAGCTCATTTCTCCTTACGTTAAGATATGTATCTTGTTGACCAGCAAAACTTGCATTAGCTAGATCTTCTGCAGTAGCTGACGATCTTACAGCCACTAGGATTTCTTTTCCAATTTTATTAGCTAATTCGTCATATGTAGAAAGAATAGCCTCTTCCAGATCTTTAGGGATTGGAGAAGAAAGAATAATTTCTTTTATTTTGCTACTAGCAACTTCAGAATCTTTTTCCTGAACTAAAATCTCGTTAATTTTCTCATGAATACTATTATACGAAATAAAATAATAATATGCCTTAGACGTAATGACAAATCCCGGCGGAACACGAATGTCGAAACTTACAAGCTCGCCTAAATTAGCGCCCTTGCCCCCAGCAAGCTCTATCATGTCTTTTCTAAGTTTTGAAATATCAAGAATATAATCCCCTTTTAGAAGCTGTTCGACAATAGGCTTTCACCATATATAGATTCTAATTCTAAGTTTAAAAATCTGCTTAGAATATATAAACTAACAAAAAACATAGTATATAAAGAAAATAATAATTTACAGAATTTACTTCATATTACTTTTGAGGAGCATTAGCCTTCTGTGCGGATGTAACGAAAGAAGGCAATTCTGGGAAGTTTTCTTTCATTCTCTGCTCTGCTATAGTAGATGCTTCAGCCAAGATCTTTCTAGCCTCTGGACTAGATGGAGCTTGTTCTATATTACCTCCAGTAAAGTCTCCTGCCTCTATCACAACTTCTTGCAATCCTTCTTCTACATCAGCTAACTCTAAACTTAGTTCTGGCATCATTCCATGCATGGATGTCCTTAATTCCTTAACTACACCTATTACTGGGATAAGATTTGTAAATACGTCTCCTAACTCTGTAACAGTTTCAAGTCTTAATTCAACTTGCTCTAATGCTATTTCTGTGGCTATTAGCTGTTTTGTAACTTTTCTTATTTCGGATATCTCATTAGCATACATAGAAGCTCTTGCTGAATCTTTTGACATTTGAGCTTCAACTACTCTCTCGAATAGAGTTCTATCTCTTTCCTGCATTTTCGAAATATAGACGTCTAACCTGCTTATAGTAGACTTTAATTTATAGTGCGCCATTACTAATTTATATCGTAATGGCTGTTGAGTCTTAAAAGCGCCTTTAAGTTTCTCAGCCAAACTTTGTTCTTGCTTACCGTTCCAGCCTTTAACGAATTCTTCTACCTTATTTGCCATTTTAATCTAAGTGTAAACTTCACAAGATGCTAATTTAATACTCAAAGCATATAATACGTCGTGGTGCTCCAGTAAATGTCGACCAAATTTTCTGTTAAATTACTAGGAGGAAGGCTTATATTGGAAAACATTTCTGGAAGAAAATTATTGATTAGAGAAATTATATTAAGATATAAAGTATCTACAATTACTCCAGAAAAAGAAGTTGGACTTAAAACTATTTCAGACGAAATAAGGATGGAGAAAGAAATTGAAAATAATTCAAAAGTTGAAATTCCATTAACTATAAACGATGTAGTAGAGATATCGATAATTTATAAAGACGGTGATTTTACTTTGAGGGAGGATATTTCCTTATAATTTTCTCTATTATAGGAGAAATCTTTTTAACAATATTCTCATCGCTTTTCAATTCTTCAGGCCATTCTCTACCTAACTCCTCCTTAAATTTCCTAGTAGCGTCTATTCCTATTTTACTTCCTAAAGGTGGATATAGTGTTGTATGATCTAAGGAATCTGTAAGAGCGTTAGAGATTACAATAACGTCTCTAGAAGGGTCTACGGTAGATGCTATGGCATATATAACTTGATTTACATCATGAATATTAACATCAGAATCAACAATTATTATCATTTTTAGTAAGCTCAGTTGTCCATTTCCCCATAATGCCATCATTACTCTTCTAGCCTGTCCAGGATAATATTTCTTAATAGAGAATATTCCTATTCCAGTAAAAAGTCCATATTCTGGTAAGTTCATATCCACCAAATCTGGGATTATCATTTTAAGAAAAGGTAAGAATAATCTCTCGACGGCCTTGCCTATCCACGCATCTTCTAATGGAGGTTTACCTACAGAGGTAGCATGAAAAATTGGACGTTCTCTAGTAAAACTTTTTTCAAGCTTGAAAACTGGATAATAGTCCTGTGGAGTATAATAACCTAAATGATCTCCAAAAGGTCCTTCCAATCTTAAATCATTAAGATCTACATATCCTTCTAGTACTGATTCTGCATGAGACGGAACTAATATACCGTTGTCTAATTCATGTACATCTACTCCTTCGCCTCTTAAAATTCCAGCAAATAAATACTTATCTAATCCTGGCGGGACTGGAGAAGCTGCAGTGAAAGCTATTACTGGATCTACACCATTGACTATCGCTATTGGAATCTTATTTATTCCGCTTTCTTTATATTTCATTGCTGTTAAAGCCCCGCGTTTAAAAGCCTGCCAGTGAATTATAGCCTCTTTATCGTTCAGTATCTGAACCCTATATACACTTAGATTGTTCACTCCAGAAGGATCTTTAGTTATAATTATAGAATATGTTAAATATCTGCCTGCGTCTTTTGGCCATGTCTTTAAGGCTGGAATTTCATTAAATGTTATACTTGAATCTTTAAAATCTGGTTTTTTGGACTTAGGCAAATATTTACCCATCTGCATCATATCTGGTAATGATCTGATTTTATCGAAAAAATTTATTGGTAGATTATTTAAATTAGAAAGAAAAGATTCAGTTATAGATTCTAAATTGTTTGTTCCAAAAACATCATATACGTTATTTATAGAACCAAAAACGTTTGTTATTATCTTCCAATTTTTAAAATTTTTAATATTATCAAAAATTAGTGGGGGTAGACCAAGATATGTACATCTTCTTGATATTTCTGCTATTTCTAAAATGGGATCTACTTCATCTTCAATATGTATAATTTTATTCCTGCTCTCCATAAATTTTATATAATCTCTCAGATCTTTGAATGCCATAGTATAAAGTAGAATAATACAAAAAGCTTATATTTTTATGGAAATCAGCTTTTGCGGTTGGTGACAAAAAGTTGGAAACAAACTAGACGGATTCATGAAATGCCTTAATTGTGGATACGAAACTTCATTAGATCAGCATAATATAACATGTCCAAAATGTGGTGGAATACTAGAGATAATAATTGAATTAAAAAATTTCACGTTCAATAATCTTAAGGGTAGAGGAGTCTGGAGATATAAAGACGCCATACCTGGAAACTATACTAAAATCGTAAGTATGAATGAAGGAGGAACACCACTTATAAAAACAAAAGAAGAAGGTAAAGAGATATACTATAAATTCGAGGGAGCTAACCCAACTGGTAGTTTCAAAGATAGAGGAATGACAGTAGCTGTAAGTTCTGCTTTAAATACGAATTATAAAGTAGTTGTAGCAGCATCTACTGGAAACACGGCGGCATCGGCTGCGGCATATGCTGCACGAAGTGGACTGAAGATCTTTTTAGTTTTACCTAAGGGTAAAGTCGCGTTAGGCAAATTAGCCCAATCAATACTTTATGGAGCTAATATAATTGAAGTAAATGGAAGTTTTGATGTAGCAATGAATTCAGTACTAAAAATGTATAAAGATCTAGGAATAGTATATCCATTAAATTCTTTTAATCCTTGGAGATTAGAAGGGCAAAAAACTATAGCTTACGAGATCGCTGAGGAAATAGGAGTTCCCGATTCAATAATAGTTCCTGTTGGAAATGCAGGAAATATATACGCAATATGGAAAGGATTTAAAGAACTAATGGAAAATGGAAGTATAAATAAAATACCTAGGATGATAGGAATTCAAGCTGAAGGAGCTTCACCTATTGCTAAAGCAATAGCTAAAGGTTCGGAATTACCAGTATTTACTAATAACCCTGAAACTATTGCAACTGCTATAAGAATAGGTAAACCAGTAAACTGGATTAAAGCAATGAAGGCTATACATAACTCTAATGGTACAGCATTATGTGTAAGCGATAATGAGATTATAGAAGCTCAAAAAGAATTAGCAAGAAAAGAAGGAATAGGTGCAGAGCCTGCATCAGCAGCAGCATTAGCTGGATACAAAAAAGCTTTACATGAAGGTATAATTAACGAGAAAGAAAAAACTGTATTAATACTCACTGGACATGCACTAAAAGATCCTGATTCAATGCTAAGAATAAATACAAAAATTATGTCACTAAATCCAGAAGAAATAGAAAAAAATGTTTTAGGTGAAATAAATGTTAATAATTAAGATTGGTGGATCAATACAAAAAGACGAGAAAGATTTTAATTTAATTATACAAAAAATAGAGAAATATTTGGAAAACACTGATAAAGCAATTATAGTTACTTCAGCGCTAAAAGGCGTTACAAATCAGTTGCTCTACGCTACAGAAAATAGAGAAAAAGCTGTAGAGATAGTTAGTGACGTTTATGATAAGCATATCAAGTTATTATCAAAAATAGCAGAAGGTCCTTCCTTTGAATTTGCTTTTAGAGAAATTTCAAAATTGGCTGATGAGTTGTTCAAAATTGCATGGTCTATAAGAGTTTTAGACGAAGTTACACCTAGAGTTAAAGATTATATATTATCATTCGGAGAAAGAATGTCGACCCTAGTTTTAAACGCTGTACTGAATTCATCAAGAATAAATTCTGAGGCGTATCCAGAACCTCCTATAATAACGGATGAGAATTTTGGAGATGCTAAAGTAATAGAGAAACTGTCGCTTCAAGAAAGCTCCAAAATTTTAGAAAAAAAATCTAAAGTAATAATTGTTCCAGGATTTATTGGAAAGACTCAGACAAACAAATATACAACACTAGGCCGAGGAGGTAGTGACTATACTGCGACTATTCTGGGAAAACTTCTTGATATTAAGGAGGTACGTCTTATTACGGAAGTTCCAGGTATAATGACAGCAGATCCTAGAAATTTTCCTAATGCTACTACAATAAAAAGATTATCACTTGAAGAAGCCATTGAACTTTCGCAAATGGGAGCCAAAAGGTTACATCCAAGAACATTTGAACCATTACTAAATAGTAACGTAAATGTTATAATTGAAGGACTCTACGATCCTGGATATACTATAGTTAGAGGTGATTGTGACAACGATAAGGGAATTAAAGGAATAGCGGTTTTAGACAATTTAAAACTAGTAACAGCCGAAAGTACTGATATTGTAGGAAAAATAGGTTCTGCAGCAAGAGTAATGAATGAGGCTAAAAACTCAGGCGTAAATATAATTTCAATTTCTCAGCCTGCGTCTGAAACTACTATACAGCTAATAGTTAACTCACAAGATTCAGAAAAATTATCAGAAAGACTTATGACATTACCAGAAATAGAAAGCGTAACTACTGAAGACGTAGAAGCAGTAAACGTAGTAGGATGCGGACTTAAATACAAAGAAATATTTAAAGAAGTAATGAAAGAAATCTCAAATTATGAGATTTTATCTATATCTAGAGGTCTAAATAATGTAAGCGCTACATTTATAGTAAAGAAAGAAGAAGGAGATAAGTTAGCCAAAGATTTACACGAGGTAGTTCTCAAATGGACAAACTAAGAGTTTCTCTACTTGGATCTACAGGAATGGTAGGGCAAAAAATGGTAAAGTTACTTTCAAAGCATCCATATATTGAATTAACTAAGATTAGCGCATCACCGTCAAAAATAGGTAAAAAATATTCTGAAGCTGTAAAATGGGTAGAAGGAGGGGAAATTCCAGATAATGTAAGAGAATTAAAGTTAGTTTCTACATTGCCGGAGGATCATAAAGACGTTGACGTAGTTCTTTCTGCACTACCAAACGAACTAGCTGAAGATATAGAACTTAAGTTAGTCAGAGAAGGCAAAATAGTGGTTTCCAATGCTAGTCCATATAGAATGGATCCAGAAGTTCCATTAATAAATCCAGAAATTAATTGGGAACATTTAGAGTTACTAAAATCACAAAAAAGCAAAAGAAATTGGAAAGGATTATTAATTAAAAATCCAAATTGTACTGCGTCTATATTATCGTTACCTCTGAAGCCACTATTGAGAGATGTAAAAATGAATAAAATACTAATAACAACATTACAAGCAGTAAGCGGTGCAGGATATAATGGACTTTCCTTTATGTCAATAGAAAATAATATAATTCCATATATAAAGGGAGAAGAAGAAAAAATACCTAAAGAAATCAATAAAATGTTAGGAATCATAAATACTGACAAATTAATAGAGGCAAACTTAGATGCCAACGTAACATCTATTCGTGTCCCAACAAAGGTTGGGCATATGGGAATTATAAATATAATGACAGACGAGAACAAAGTAGATGAAATAAAGAAGTCTCTTAAGTATTTTAAATCATTACCACAAGAGAAAAACTTGCCTACTGCACCAAAATCTCCTATAGTGGTAATGGATCAAGAAGATAGACCACAACCAGAGATAGATCTAAAGAGCGGAAATGGAATGGAAACCTATGTGGGAAGAATAAAATACTCAGACGGAATTTTAAGAATGATAGTGTTAGGAGATAATTTGATAAGAGGAGCTGCAGGCATAACAATCCTTACAGTAGAAGTAATGAAGGAGCTAGGATACATTTGAAAATAGATTTCCATACTCACACGTGCTATAGTGATGGAAAAGAGACACCAGAAAATTTAGTTAAGTATGCTGAAAAAAGAGGTATATTTTTAGCAATAACAGATCATGATAATAGTAATGGGATAAAACATGTCCTTGGTAAAGTAATCCCAGGACAGGAGGTTACAACACAATACGGGCATGTTGTAATAATTTGTAATTTTATTCCACATCCTCCAAAAGATATACATGAGCTTATAGATTATAGTAAGGAAAATTCATGTATAGTCTTTCCATCTCACCCTTTTGATATTTTCAGAAAAGGAATAGGAAATCACTTGTTTGATTATAAATTTGATGCTATAGAGATTTTCAATTCTAAGGCACCAAAAAATGCTAACAATAAAGCAGAAGAAGTATCTAAAAAACTCAATTTACCCGGACTATCCAATAGTGATGGCCATGTAAAAGAAGCAATAGGTTCTGCTTATAACGAATTCGATATTAATGAGTTAAAAATTGACGATATATTTGATCTTCTTATTGGTAAAAAATTTAAACCTATTAAAGTGGGATTGACCAAAACTGCTAAATTAAAGATTATAGAATGGCATATTCAGAGGAAGTTGTTTGAGAAGAATACCTGCAGAACTATGTATCAAATGCAAGGGTAGTAAATTACTTTGTGGGCTTAGAACATGCCCTATATTAGAGAGATTCAGAGCAATTGTAAATACTTCCTTGAAGATAGATCTAGAGAAGGAGAGTATAGAAGGTGCTACTCCACCTAGTGTTGTAGTTGGAGAAAAGAATTATCCAAAAGTTACTATTTCTTTTAACGTCCCCCCACAAGTTTATGGAGAAGAAGCAAAGGAGTATGAAAATCCTAGAGGTTGGTGGGGTAGAAAATCTATATATGAAATTATAGATTATAGATCATCTTTAGTTTCTAATTTACTCAAAACTAAAGCTGACGACGTTTGGAAGTTATATGAGAAAGAATTACCATTAACTGCAGTTTCGTACTCTCCAGTAGGTGCTGAAAGTAAATTAGAAGGAAAAATAGAAGCTAAATTAAGATTTAATGGATACATAATGCCAAGAGGACCTTCTGCAAATATAAAAGATTTCAAAATTGTAGATAATCCAAAAATCTCCAAAGTTATGGATAAAATAATATTTGATGACGTTAAAGCTCAAGACGCCATAAGGGAATTATACACATCTGGAGAAGATATATATAATATAATTAACGCTATGTCACTAGGGCTAATTGGAAAAAAGAAAAATAGGAAATTAGTACCAACTAGATGGGCAATAACTGCAGTAGATACAACTATAGGGAGAGATATACTAAATAAGATAAAAACGTATCAAAGTATAAGTGAAATTCAAGTATTTTATCAAAAATATCTAGGAAACTATTTCCATATAATACTTTATCCATCAAATTATAATATAATATGGATAGAAATATGGCATCCATTAACACTATGGTCTAACGAGCTAATTATTTCAGAATTGAAAGAAAACTACTGGGGAGAGTATGATTTTCTTGATGGTGGTTATATAGCAGCTAGGACTTCTATCTTAGAGTACCTAGAGAAAGTAAGAAAATCTGCAGGTATCGTAATAATAAGGGAAATTACATCAGAATATTTTGCTCCACTAGGAAATTGGCACATAAGAGAAACTGTTAAAAACGCAATGGATAATAAAATAGGTAAATTTGAAAATATAGAAAGTGCAATTCAGTTTATCCAAAATAGACTAAATGGAAAAATAGACTTATTTAAGGTTAAAAGTATTCATGACCTAATTAAGCAAAAAACTATAGACTCGTTCTTTAGATAAATAGTGAAAACACTGACATAGCAGTATATAATCTATTTTCAGCCTGATCCCAAACAGCACTTTTATTTCCGTCTATTACAGAACCTTCTACTTCTTCTCCTCTAACCGCGGGAAGGCAATGCATAAAAATTCCGCCCTTTGCAGTATATTTCATTAAATCTTCGGTAACCTTATAGTCCTTTAGCATCTCTCTTTTTTTCGAAGCAATCTCTTCTTGGCCCATACTTACCCATACATCAGTATAAACAGCGAAGCTACCTCTAACAGCTTCGTAAGGATCATCATAAAATTCAATTATAGCTCCAGAATTTTCTGCCTCTTCCTCTATTCTCTTCCATATATCTTCTCTAGGTCTTAATAATTTTGGAGTACCTACTCTTATTTCTAAACCTAATTTAGCTGCAAAAGCCATTAAGCTTACAAGAACATTGTCACTTCCGTCTCCTACAAATGCTATAGTTTTATATTCACCAAATTTTTCCTTTATTGTCATATAATCTGCTAATGCTTGCAAAGGATGAGAAAGATCACTTAACAAGTTAAATGTAGGTAATCCAGAAAAATTTGAAAGTTTAATTAATGTCTCATGATTTAAAACCCTAGCTCCAATACCATTAACCATTCTTCCAAGAACTCTAGCAGTATCCTCTACGGGCTCTCCTCTACTCCATTGGATATCATTTTTATTCATTACAATCGGAACTCCTCCCAAAAGAGAAATAGCAGTTTCTGAACTTACCCTAGTTCTAGTACTCGGTTTTTCAAATATTAATGATATTCTCTTTCCTTCTAAACTTTTGGGAATTGAATTCGAATATACATTGTCTTTCATTAAGAATGAGACTTCCATTATTTTTTCTATCTCTTCTTTCTTGAGATCAAGAAGGCATAAGAGATTTTTACCTTTTAACATATTTTTAGTTAAACGCAGGGATTAAAATATGGATCTCATGAAAGTTATAGAAGAAGCAGTAAAGCCTAAGCAAGGTAATAAGCCAAAGTACGAGGAACCGCACGTAATCTTAGCATTAGAAACCATAAATAAAGAACAGCCTATAGGAAGACTTAGTTTAATGAAAAAGCTGAATCTCTCAGAAGCCCCTATAAAAACATTACTTAAAAGATTGAGAGAGATAGGAATAATCAAGGTAGATAAAGTAGGAGGCGCTGAACTTACTGAAGAAGGTAAAAATTTAGTAGATGAATGGAATAATAAGATATTTATTTCACATGTAAATTTAAATAGTATAAAATGGAAATCTATTGAAATAATTCTGAAAAATGGTAGAAATATTTTGGATAAAATAGGTGTTATACCATTAAGAGATTCAATAATTAAGACAGGAGCAGATTCTGTATTAATAGCTATATTGACAGATAAAGGAATAGAGCTGCCACCAAAAACAGATGAGCTTTCTATAGGAGATTTACTTAATGAGATAAAAAATAACTGTACTTTTTGTAATAAAAACGATTTGATAGTTTTCATTATTCCAGAAGATAACTATATTGCATACAAAGTTGCACTACTTTTAATTAAATATGAAAGTGGGATTTCTAGTTAACCCTTATGCCGGAAGCGGTGGTAGATTAGGCAAGAAAGGAAGTGATAATATATACATAGAGAATCCTGAAATACCTATAAGAGTTAAAAGATTTATCAATAATTTACCTTCTACGATTACTTATTTTACTCCCCGGTTTAAGATGGGAGAAATATATTTCACTAACTCATTAATTAGGCCATTTGTAATTAATTGTGGTAAGGAACGGTCTACAAGAGAAGATACAATAGCTAGCGTGAAAATTATGCAAGAACTAGGAGTAGATATTATAGTCTTTGTAGGTGGAGATGGTACAGCAAGAGATATAGCTGGAAGCCTAAACAAGCAGATACCTATCCTAGGAGTTCCAGCGGGAGTAAAAATGCATAGTGGAGTTTTTGCCTCTACACCAGAAGCTGCTGCAAAAATACTAACAGATTTTAATGATGGCAGAGCTAAAATAGTAAAAGCGGAGGTTCTAGATATTGATGAAGAAGAATATCGGAAAGGAATTTTTTATGTAAAATTATATTATGTTGTAAATAGTGTAAGTTCAGGAAATCTACTCACTCCTGGAAAGGAAGAATATAATTATTCTACTGACGATATCTCAGAATATATTATTGAAAACATGAATAATGATACATATTATATTCTAGGTCCAGGTAAGACTGTAAAAGATATTGAAGAAAAGCTAGGTTATTCACCCAATTTTCTTTCTACGGATGTATTTTTAGGAAAAAAGTTGTTACTATCTAACGTATCTTATTTTGATTTATTGAAAATAACCGGGGAGTTAAAACTAATTTTGACACCTATAGGAGGTCAAGGATTCTTAATAGGAAGGGGAAATCAGGAAATAGGCCCATCAATTCTAAGAAAGATAGGTAAAAATAATATAATAGTAGTGTCATCAATTGAAAAATTAAGAAAAATAGAATGTCTCAGAATTGATACTGGAGATCTTGAAGTAGACAATATGCTACAAGGTGTTTATAAAGTAGTAGTAGGTTATAACGAGTTTATGGCGATAAGAACATGCAGTAATACATAATCTAAATATTATTTTGCTAACACTCATTCTCATTTGGGTACATATTAAAAGCTATTTTTACGAATTATATAGGCAATGAAAGGAGACGACGATATTAATGAAATTGCTGAAGAGATAACAAAACAGTATCTTAAAGGTTCTCCTAGATCTAAGCTAGTCGAAGCAGTTATTGTCCTCCTTCATGCTAGGCCATTAAGAACTTCTGAAATAGCGTCGAATTTAGGTTATGAGACAAAATACATAAGCAGCTATCTAAGTTATTGGAAAAGAAAAGGCTTAGTCTATCAAGAAGGAGGAAGATGGTATTTATCTCCAGATGGAGAGAATTTAGCGAAATCAATAGTAGATTCATATTCTAACTCTAGATTTAGAGAAATGCTAGTAATAGCTAAACAAGTACTAGAACCAGTTAATCAGTCAATAAACAACAACAATTCACAAAAAGACACAAAAAACGGTAAGGAAGTTTTGTCGTTTATTGACTCTAAAACCAGTAATAAAATCAATAAACGACAAGATAGAGATATAACGGTTTGTATATCAGAAATTCTAGAAAAATTAGACGCTGATGAAAGAGATATATTAATATTCCTAGTAAACAGATATAAACAATGGCAATCTACTTATATTTATATAGATCAGTTACAAGAAGAATATAAAGCAGATTCTACTTGGCTCTTTAAGGTTCTAAGAAATCTACAGACAAAACGAATAATATATCTATATAATGATCCTAGATTAGGTTTTAGAATAGGTTTTTCACAATCGTTTAAACGAAGGATAGAAAACTGCTGAAAAGTTAAAATATAATTCTTAAAAAATCTTAAGGATATTCTACGTTCTATTAACCTATTCTAAGTTTTATGTACAAGAAGTATTATTAACTATTGATTAGACTGATGAATAATATTAAGTCAAAATATTGTATACGTTATGATAATGTTTTGGCTAATATAGGTTATGTAAGTATAGGCTCGTCTAGTCCTTTTAATTAAAGTCTGATTTTCAAGCTTTACTTACCGTTTTATGAGTAAACTACTTCTCTATTTTTTGTTTGATAGCTAATTTACTAATAGTCTAAAAATCTTAAATTATACAAACAGTATTTAGCCAATATTTTTGGTTAACAAAAAAGAGTAGTAGTAATCTATATAACTCATTTCACTAAAAGGGTATTAGGTGAAATGTTGTCTTCTAATAAATCTGTAAAAATGTCAGAAGATGAAATAGACCAAGCACTGGCTAAGGCCGAAAAAGAAGCTGAGAAAAAGGATCATAAAAAAATATGGATAGATAAAATGATAAAAAGTGCTAAGACATACTATAAGGTATGTCCTTACTATGATAAAAAAACTTCTAAATGTTTTTTAGACTTAGCAAATAAATGTACAAGAGAAGGAAGATATGAGAATTGTCCAGTTTTTATGGGATTTCTAGATAATAAATACCAAGATCTTACATCGAAAAAGAAAATTTTACCGTTAGATTTCTTAGATTTAGCTCAGACTACGTAAGTGAAATATATTGCCAAAAAAGAAAAAGAATGAAGATAAGGCCAAGTCAGAGAAATCTAAGAAGAAATCCTCATCTAAGGAGAAATTTATAGACCCGGAAAAGTTATTAGATGAATATTTAGATGAAGCAATAGTCAGTCTAAATATTTCTTATTTAGGTTTAGACAGAGACGAATATAAAGAATTAATAAAAGAGCCATTCACAGCTGCCGTAGGCCAAGTTAAAAGCAAACCTAAGCTTTCTACTATTTTAAATAGGCTTTTAGCTAATAGAGATGGATTAATGGAATTTCTAGCTATTAAATTGGCTAAAATTAAAGAAATATCTACAATGAATGATTCTCAGTTAGAATTTTTAGTATATAATACTAAAAAAGCAATAATTTCCTTAATTCAGCCTTTATATCATGAAGTATTAAAAAGAAATAGAAGCGACTTAATGGATATTCTAAGATATAACTGGGATTTATATGGCATACGATCTCCCATAAAATGTAGTAAATGCGGATTTAATTCTATTATGCCAGATTTTAGCTGTAAAGTATGCGGATATGTCATGAGCATGAAAGAAGTTAAATCTCAAATAGATGTTATAAATATATTGAAAGATCTCTCGAATATTGATCCTGAAAGCTTTAAAGAGATACTTTCTGCTGGTTATTTTTACTATACTGCGGAAGGCCCTATAGCGCCTTCTAAACTAAAGCCTGAGCCTGGATATTTGTTTTTTGAAATTATATTGAATTCTAATGAGAAAAAGACCTTAAGCAGTATTCACAGTACTCAGCAGACTTAATATATGCTCCGCATATTTTACATCTATTATTCTTAAAAACTATTAATGAATTCTCAAATGTGTGAAATATTTCATTATCGCTAAATTCCATACTAGACCATTTCAATATTTCATTTAGTAATGGATCATTAGTATTTAACTCCCCAGTTATTTCATTGAATCCCTTCAGCTCTTTTAACGGTGTATTATATAACGGAATAAAGAATATCTTCTGATTAAAAATACTAGTTAAACCATAATAACTTAAAAAACCATAATTAGAAGTAGAAATTGAATAAATCATATAAGATAAAAAGAAATCGGCAGTAAAAGGAAGAATTATTTTATTAGCATCTAATTTCATTATATTTGTGAAAAATCTCCATAAATCATAGTTTATTTCCATACTTTTAAATTCTACTTTAGTTTCTTCAAAATCTAATTTGCAATCTTTACATATCTTTAAAATAATATTTTTTATTAGATTAGCTACATTCTCATAAAAGTCAGGGTATATTAGGATAACTTTATCTTCTCTATTTAAGAATCTTGTTTCTGAAAGCTCTCTTCTTATTCTTTTTATTATCTCATTTCTTGCGCATTGTTTACATAATAGTTTTCCACTAACACTTACTTCTGCAGGATTTCTATTACACTTTACGCAGAGCACTTCAATCAAAATATATAATACTGATTAAAATAACTTCCTAATAATGATAGAAAAATTTATATATAAGCGATACTAATGGTCTGCAGAAAAGGTGCGTAAAAATGTCATCAGGAGTTCCAGTCTTACTGTTTAAAGAAGGTACTTCAAGAAATAGCGGAAGGGATGCACTTAAAAACAATATACTTGCAGCAAGAACGTTAGCCGAAATGCTTAGATCTAGTTTAGGACCTAAAGGATTAGATAAAATGTTGATAGATAGTTTTGGAGATGTAACTATAACAAATGATGGAGCTACTATAGTAAAAGAAATGGAAATACAGCATCCTGCGGCTAAATTGTTAGTAGAAGCTGCTAAAGCTCAAGATTCCGAAGTTGGAGATGGAACAACTAGTGCAGTAGTCTTGGCAGGCCTATTTTTAGAAAAAGCAGAAAGTCTTGTTGACCAAAATATTCATCCAACTATAATCATTGAAGGTTTCAAGAAGGCTTTTAATAAGTCTTTAGAATTGTTACCTCAATTAGCTACTAAAGTTGATGTAAGCGATTTGAACAGCGCTACTGCCAGGGACGCATTAAAGAAGATAGTATATACTACAATGTCAAGTAAATTTATGGCAGAAGGTGAGGAGTTAAACAAGATAATGGATATAGTAATAGATGCTGTAACTACTGTTGCAGAGCCTTTGCCAGATGGAGGATATAACGTATCGTTGGATCTTATAAAGATTGATAAAAAGAAAGGAGGAACAATAGAAGATAGTCAACTTATACGCGGAATAGTACTAGACAAGGAAGTAGTACATGCTGGAATGCCAAGAAGAGTAGAGAAAGCTAAGATAGCAGTTTTAGATGCCTCATTAGAAGTAGAGAAGCCTGAAATATCTGCAAAAATAAGCATAACTAGTCCAGATCAAATAAAGGCATTCCTTGATGAGGAAGCTAAGTATTTGAAAGACATGGTAGACAAACTAGCTTCAATAGGAGCTAACGTAGTTATATGCCAAAAAGGAATAGATGATATAGCTCAACACTTCTTGGCAAAAAGAGGAATTTTAGCAGTAAGAAGAGTTAAGAGAAGTGATATAGAGAAATTAGAAAAAGCATTAGGAGCTAGAATAATAAGTAGTATAAAGGACGCTACACCAGAAGATTTAGGTTATGCAGAGTTAGTAGAAGAAAGAAAAGTAGGTAATGATAAAATGGTATTTATTGAAGGAGCAAAGAATCCTAAAGCCGTAAATATATTGCTAAGAGGTTCAAATGATATGGCGTTAGACGAAGCAGAGAGAAGTATTAATGACGCACTATACTCTTTAAGAAATATATTAATGGAGCCATATATTGTACCAGGCGGTGGAGCAATAGAATTAGAACTTTCTGCTAGATTAAGGGAATATGCTAGAAGTGTAGGTGGAAAAGAGCAATTAGCTATAGAAGCATACGCAGATGCTCTAGAGGAAATTCCAATGATATTAGCCGAGACTGCAGGACTTGAGCCGATATCTGCATTAATGGATCTAAGAGCTAGGCATGCCAAAGGTTTGACAAATTGTGGAGTAGACGTGATTAATGGTAAGATAATTGATGATATTTATAGCATAAATGTAGTCGAGCCAATAAGAGTAACAAGACAAGTCTTAAAGAGCGCAACTGAAGCAGCAACGTCTATAATGAAAATTGATGATTTAATAGCAGCGTCACAATTAAAGTCTAGTGGAAAAGGAGCAGGAGCAGGCGCTGGTGGAGAAGGAGCAGAAGGTGGAGGAGCTCCATCAATGGAGGGTTTAAGCTAAAATTTAATTTTTAACTTTTTAGTATTTCTTATACATTACGACTGCGTCTGAATCTTCCATATCTTTATATCCATCAATTTCTTGTAAAACTTTTTCTGCAGCTTTCTTTATATTTTCATCATTATAACTATTTATTATTTCTTGGAGCAATTTTTTAGCTAATTCTACACCTATTACTAACTCTAATTCTGTAAAGTCTGGACTTAATAAATAGTCTGTAATCTTTTTAGGATCTCCTCCATAAGAGGAGAACTTATATTTAGACTCTGCATATGCAAGCAGTCTTCTTACATCATCTAATCTTTTCAGATCTAAATTATTTGGCGTAAGCACCTTACTTGCCACATGCCTTAAGAAGTCGGGTTGTTCCAAACTATTTCGCCTATAGAAGTTTTATTCGGTATCGTGTATAAAAGGATTCTACTTAATTAAGTTTGAAACTCTTAATGAATACTTAAAAGCAAATTGTGATATAATTATCATAGTGTTAAGTATGAGTGTGAGGAAAAGGAAAAAGAGGGCTGATAGTGAAGAAACAGAAGAAGTTGAAAATAAACTAAAAGTTGTTTACTCTGATAAGGACGTTGTAGTAATGACTGCGCCAAACGAAGAAGAATTAAAACAAATTCTACTTGACCTGTTAACAGAAAAACCTATGAATCTAAAAGAATTACATAGTAAACTTTCTGGCATAGCTAGTGAAGATAAGATAAGAAGAGCATTAGCTAGCCTATCTGAAAAGGGGCAAGTGACTCTTCTTGAAGACGGAAAGTATGCCAAACTAGGCACAGAATAAAGTTTATTTCGACTCTCTTATTGGACATTTTTGCCAATATTTGCTACATAAATTGGCATTGGCAGATGTTATTATTCTGCCAAGAATTTTACAATAAGCTATGAAGCCAGATTCTATTTTCATTAATTGGAAATACTCACAACTGCTATCTATTTTTTCGCTCAATATGTTAACTTCAGGATAAAATTTAATTTCCTGATCTATTTTCTCGTTAAATACTTCCAATCCTTCTTTTTCTTCGTTTTTGTCAACGAAATATCTGCAACCTTTAAATGTCTTAAAACATCTAGATGGGCTAACAATGGTATCCGTAGGACTTTCTAACATAGGTGACATACAATATCCATTTTTGTAATATGGGCATATATCACGTTTCTGCAACTTCTCTCACTATTACATGAATGCCCAATATATCATTATCTTCCGTATCCCACTTAGGTATATGTATTGTGCTTACAATAACGTTTTCTACATTATTTTTCTTCATTTCCATTATGGCTTCTTTCACTTTTTCCTCATTTATCTTCTTACCGCTAAAATCTTCCACAACTAAAACTTCTGCTATTTTCATAATTAATGACTTTAGTTAGCAAAGCATTAAAAGCTAAATTCCATATTAGTTGTGTGAATATCATAAGGGAAGCTAAAAAAGAGGCCTCACAGATAATATCAAAGGCTATTGGAATAAACGAGGACATAATTTTAAATAATATTGAATATCCACCTAAAGGAGATTTAGGAGACTTAGCTTTACCTTTACCTTCAGTTACTAAGAATTTTAATGTGAATGTAACTGGAAAAGGATATTATATTAAAAATATTGAAAGATCTGGAGTGTTTATTAATATATTTCTTGATGAATCAAAAATATTTACTACAATATTTTCTAATTTTGACGAAAAATACGGTATTGAAAAATCTGAAAATCCTAAAAAAATTGTAGTAGAACATACAAGTGCTAATCCAATACACCCATTGCACATAGGTCATTTAAGAAATTCAATACTAGGAGATACTTTAGTAAGATTATTAAGAGCCAGAGGACATGATGTAAATTCTAGATTCTATGTTAACGATAGCGGAAGGCAAGTTGCTATTTTAATCTATGGTCTTTCTAAATTGAACTATCCTGAGCCTCCTTCAAATATTAAAAAAGACGAATGGTTAGGTTTAATATATGCTATGACAAATGTAATAATCGAAATAAAGAAAATTACTGACGAGTTAAAAAATTCTGGAGAAAATGAGTATAAAGAAAAAATTTCCAAGAGGGACGAACTTGTAGCTACAGCTAATGAATTGAGAGAGAGAAATCAAGAATATTTTGATATTTTAACTGAAAATATTATGAAAGATATTGATCCAGAAAAGGAAATTCTTGAGATTATAAAGAAATATGAGACTGGAGACGCAAACACTAAGGTTATAGTAAGGAAATATGTAAGCTATGCTATAGATGGGTTTTTGGAAAGTTTAGATAGACTTCACATCTCATTCGATGTATTTGATTATGAAAGTGATATTTTATGGTCGGGCGAGGTTAAACAAATACTCAATATTGCTCTCGACTCGCCTGCAAAAATAAACTACAAGGGCACATGGGCTTTAGACCTTCAAAATTTTATAGACGATAAAACTAGAGAAGAATTAAATATTCCTAAAGATCTTGAGCTTCCGCCTTTAGTTTTAATGAGATCTGACGGGACAACATTATATACATTACGGGATGTAGCATATACTTTTAGGAAATTTTCTGACTTTAAGGCAGATATTGTAATTAATGTTATAGCAGAACAACAGTATATGCCACAGATACAGCTAAGGGCTTCATTATATATCTTAGGATATCCTGAATATGCTAGAAACTTGTTACACTATTCGTACGGAATGGTTAATTTACAAGGTATGAGAATGAGTGGTAGATTAGGTAAATATATATCGTTAGATGATATTTACGATAAAGTAAAAGAAGTAGTGGAAACTAAAATAAAAGAAAAGAAGGGAAACGTAGAAAACTTGAATGAGATTGTTAATTCAGCCATAAGATACGCGATAGTTTCAGTTTCTGCAAATAAGCCTATATCATTTAATATTTCTAAAATAACTAATCTTGAAGAAAACAGTGGGCCATATCTTCAGTATACATATGCTAGAGCATATAATATCCTTTCAAAAGTTAACGAGAAATTAGATTTAAGTAAAGCTGATTTGAATGAACTTTCTGGAGACAAAAGGAAAATACTGATTATGATATCTAAGTTTCCGGAAATTTTTGGAAAAGCCGCAGACGATATGAAACCTGAAATTTTGGCTATTTATCTAAGACAATTTTCTGACTTATTTAATTCATGGTATGATAAGGAAAGAGTTCTACAAGAAACTGATGAGAATAAAAGAACTACTAGAATTTATCTAGTGAAAGGAGTAGAGGGAGTTTTAAGAAACGGGTTAGAAATTTTGGGGATAACGCCTTTATCAAGAATGTAAATGGACCCGTAGCTCAGCCAGGATAGAGTCCAGGCCTCCGGAGCCTGTGGTCCCGGGTTCGAATCCCGGCGGGTCCGTTATGTTAGTTTATCTATATATTGAGTTAGAAACACTTTTCACTAATGCACTACTATTTTGAAAATTTATATCTAGAATCCCATATTAATTAAAAAATACCGCTATATGCTATCTTAAGGTAATACTATCATCTACATTAGATATAGTTTAAAGCCAAAAGACTGAATAATTATAATGGTTCAAATGCAAGCTAGTGCTAGCATTCTCTCTCTTAATAAGATCTCAGTGATAAAGCGGGATGGTAACAAGGAAGAGTTTAAACTTGAGAAGATTTTATCCAAGCTGGGCTTTATTCCAGATAAGGTCATGGAGGGAATAACTAACGATGTAATGCAGATTGCTAAAGATAATATTATAGACTCTAGGACATTAGCTGATATAGTTGAAAGGAATCTTATTGAGAATTCTCTTGAATATCCAGAACTCTTGGATTTAGCTAAGAGATTTGTTTTATCTAGAATATATAATCATGTTTATGGTAAAGGAAAGTGGAAAGACTTTGATCAAAAGGATCTTCTTCTTTCATATAATGCTCTAAAAGTGTTGGAAGCTCGTTATTTATTAAAGGATCCTAACACGTTACGTTATATAGAGACACCTCAAATGATGTTTAGAAGAGTAGCTAAGTTCCTTTCAAATGTAGAAAAAATATATGGGAAAAGTGAAGAAGAGATTCATCATATTGAAGAAAAGTTTTATGAAAAAATGAGTGAATTGAAATTCTTGCCTAATACGCCAACTCTTATGAATAGTGGTACAAGGTTAGGTATTCTTTCAGCGTGTTTTGTACTTCCTGTAAAAGACTCTATGACTACTTCTCAGGGAGACGGAATATATGATACATTAAGGGCTATGGCTCTAGTTCATCAGCAGGGTGGAGGTACTGGATTTGATTTCTCTGAACTCAGGCCTAAAGGAGACATAGTAGCTTCAACAGCAGGCGTAGCTTCCGGTCCCGTATCTTTTATGAAAATATTTGACGTTTCTACAGATGTTGTAAAACAAGGTGGTAAGAGACGAGGCGCTAATATGGGTGTAATGCATGTATGGCATTCTGATATAGAGGATTTTATCCATGCTAAAACTGGTCAGCTTAAAGATGTGCAATTACAGAATTTCAATATTTCTGTAGGCGTATATGATTATTTTATGGATAAAGTAGAAAAAGGTGAAGAAGTACCTCTTATTACTCCTAGGAAAACTAAGATACCTGGTACTGACCATGATTATTATATAGTAAAAGCAAGAAATTACATGAACGAAGAATGGGTACAAGAAGAGATATTAAGTGAATTAGAAGAAAAAGGTTCAGTCTATCTAGATGAGAGTAAGATTGTTACAGTGGATGAAGCGCTATATATTGCCGAAAAAGAAGGCGCTATAATTAGGTGGATTAACGCTAGAACTATTTTTGACGAAATAGTAAAAGGTGCATGGGACGGAGGAGATCCAGGACTTCTTTTTATTGACGAAATAAATCGAAGGCACCCAGTATGGTATCTAGGTAAAATTCAAGCTACTAACCCATGTGGAGAAGAACCTCTTTTATCTTGGGAATCCTGCAATCTAGGTTCTATTAATCTTGAGAAATTTGTAAAAGGAGAAGAAAAAGTCTATGTTGATTGGGATGGTTTAGCAGATACTATAAAATATGCTGTTAGATTGCTGGACAACGTAATAGATGCTAATAGGTATCCTTTAAAACAGGTAGAAGATGGCACTAAGAGAACAAGGAAAGTTGGTTTAGGTGTTATGGGGTTAGCTAGAATGCTAATAAAACTTGGAATCCCTTATGATAGTGTCGATGCAGTGTACTTTTCATATCAGTTATCTAAGTTTATTTATTATCATGCATTTAAGGCATCTATAGAACTTGCAAGGGAAAAAGGATCATTCCCAGCATATGATCCTACAAGATATAGAGAAATATGGGATTCTTCTAGGCCGTTTGACTATCTTCTTTCAGTTACTGGAATTAATGAGACTCCTTCAACGAGGATAAAAGAACTTACTAAGATTGTAGACTCACTTGATTTTTCTGCACTTAAAAAGGACAGAATAACTTTTGGATTAAGAAATTCTACAGTAGTTTCTATAGCACCTACAGGCACAATTTCTATAATTGCGGGTACATCATCTTCTATAGAGCCGCTCTTTGCTTTAGCGTTTATCAGAAACGTAGCTGTAGGTAAATTTATGGAGATAGATCCATTGTTTTTGGATTACTTAAGAAGATATGAATTAGATAACTCAGAAGTTGTTAAAAAGGTAGCAGAAACTGGGACGGTAGCCGAAAATCCATTTATGCCTTCTACGATAAGGAAATTATTTAGGACAGCTCATGAGGTATCTCCGGAATTTCATGTCTTGCATCAGGCAGCGTGGCAACAATGGAATGATTCTGGAACTTCAAAAACAATAAATCTTAGGACAGAAGAACCACCAGAAACTGTAGAGAAAGTATATATGATAGCGTGGAAGTTAGGAATAAAAGGAATAACAATCTATAGGGATAAATCGAAATCGCAGCAAGTAATATACTTTGGAATAAAGAAAGAGAGAGAAGAGAAAGAGAAAAGACAACAACTTATCCCATCTGGAATGAGGTTAGAGAAGAAATATGTTGAAGTTAGCGAAAATTATGCAGGCGGATGTAAAACTTGTGAATTGTAACATAAAATAAAAATTTTTTTATACTTATGTGCAGAGTGTTAATATGGTAAAGATTATGTCTATTAGCTTACCATGTGAATTTTCAGTTAAAGAATTACTGCCTGCTATAAGATCTATAATAGCGGTTAAGTTAGTAAAGGAGAAAGGAATGCCAATATATAGAGCGTCAAATCTTATGGGAATAACGCCTGCAGCTGTTGCCAATTATATGACTAAAAAGAGAGGAGTTGCTATACGGGATTTGATTGAAAGTGATGAGAGAGTAATGTCGCTTATAAATGATCTTGTAGATAAGTTAGCTGCAAATAATGCCGATAATCTATCTTCTTACTATTGTATATTATGTTCAGAAGGTAAAAGAGCTCTAAAGAAGAAAGGGTTTGATATACCTGCGTGTATGTATGAAACTACTACGATTGTTAGATAATTTTTCTCTTAAGATATTGTTCTATCAGTTTTCTTATTTTTAGCCTTATTATATGAATTCCCCATTTTCTAAAAGGAATTTTTACTCTATCAAACTCCGTCATAATCTTCTCATTTTCATCTAAAATTTCAGCTTCTAAAATTCTTGCAGCAAGGTATAACGTAGAGATTACTGGAATATCTGACATATTAATGAGCTCTAAAATTAGCTCACCGTTATTATAATTTATAAATAACGGTATTATGGAACTAGGTTCAATTCTATATAAGCTAATATTATACTTAGGTTTACAATCAATATCTATAACTGGATTAGATAAATTCCAACTTATTCGATGAGGTTTAATTTCCTTCCAATTTCTACCATACTCCACTAATAAATCCATACCTTCAGCAATTACTTTGCCTTTATCAAAATCCAACTTAATCGGTCTTGATGATATGATGCATAATGTCTTATCTAGTTCTATACATATAAATGAAGAACTATTAACAGGTTTAGAAGATAATTGAATAAAAAAAGGATTAAGAAATATAAATGAAGGATTATAAAAACCAGTATTAATTTTTATTTCATTTTTCAAATTCTCTTTAGCTATGTAATGGTCAGTTATTTCTCCAGGCTTTAATTGATCTCTTTCCCATGGTGAAGGATTTATATATCCATTACCTTCATTACATGGTATTAAATCGAATATCATTTTTTTAATGGAATAAATATCTAATCTGTTATAATTCCATGGTATAGACTTTAATATTAATGGTGTTCTTACTAGAACTTTATTTCCTTCTCCAATAGTCTCTATATAGCTTTCGTCAGGGCCTATAATTTTTGCGTTATATTTCCATTCAATTTCTTTAGGTTTAGAAAGATTAAGTAGCTGTGGTAATTGTTCAATAGATAAATCTTCATCCGTTATTATTACCTTATTATAAACCTCGAAAGGATAAGTTGAGAATTTATTAAAATCAATCAAAAATCATAACACCTTCAGACAAATGCCTTTTCTTCACCTTTCAGGATCGGGGGTAATTCTTCACCATTAGATGATTTGTAATTCCCTCTTAATTAATTCAGCTACTTTCTTTCCTTCAGCTTTTCCTCTTACTTTTGCCATTACCCTACCCATAACTAAACTGAAAGCTTTTTCTTTTCTCTTATAAATCTCTTCCTTATTTTCCTCTATTGTCTCTCTAACTATTTTCTCTAGTTCACTATCAGAAATCATAGAATATTTATTTATTATATCTTCTATTTTGCCATTTCCTCTAGAATATTCAGTTAAAATTTCTGGTATAGAATCCTTATTTATATTTCCCTTATATATTTCGTTTATTACCTCATCAATTATATCATCAGTAATTAAATCTGGATTTCCTCCCTGAGTTTTAACATATTTTACAGTATTTTCTATAGTGGTAGCAATAATCATTGGTGGTACTTTAGGAGAATACTTTTTAACAAGATCTTCAAATAAATCTATTCTTGGGTTATTTATTAATTGTTTAGCTAATTCTTCGCTTATACCAGTACTAAGCAAACTCTTTATCTTATCCTCCGGAGTAGGTGGAATTAATTGTTTAGCCTCTTCTATTAACTGTTTAGATACTCTAGTTGGCATTACGTCTGTTTCTGGATACATTCTTGCAGAGCCTGGCTGAGGCCTTAAAAACTTTGTAGTGCCATCTTCGTTGGCTCCTCTAGTTTCTTTTGGTATACCATCAAATGCGTAAAGTATTCTTTCTTTTATTACATTGGTAGCCAGGTCTAGTTTATCTTTAGGTCCTACTATTAGTACAAAAGCATCGTTAGTAGATGTATTTAGATTTTCTTTCACTTTGCTTATCTCTTCTTCAGTTATTCCATAATTTGGTAGCTCGTCTGAATGAAATATTCCACCCAGTCCTGCTAATGCTTTTACGTAATCAGATACTTCTGTTCCAAAACGTCTTTTAGGCACTAGTTCTTTTCCGAATATTCCTCTAAATCCTGCTACTTTTATTCCGTACACTTTTCCGTTTGATTTAATTGCTGAAAGAATAACTTTACTTTTAGTGTTTTTAAATAGATCTGTGAGATCTTTTATGATAAAGTTTTTCTCTATCTCCTCTTTCGTAATTTTTTTCTCTATCTCCTCTTTTATTTTTAGAAGATTGTATTGTCTTAATACTTCATATTTTATTATCATAGGAATAAGATCGAGTTCTTGTACACCTTTTATCTCTATTTTGACACCACCGGTAATAGAGACATTAAGATCTTGTCTTATTGTTCCTAATCCTCTCTTTACTTTTCCAGTTAATCGAAGCATTTGTCCTATCTTAAAAGCTACTCGTTTAGCTTGTTCTGGCGAATGTATATCGGGCGCAGTTGAAATTTCTATTAGTGGTATACCCAATCTATCTAGATTGTATATAATTTCTTTTCCTTTATCTTCTATTTTTCTTGCAGCATCTTCTTCTATAGCTATTGTCTGAATTCCAATCTCGCCTTCTTCATCATTTAGATTGCCTCCTAGACCCACTATTGAAGTTCTCTGAAACCCAGATGTATTAGACCCATCTATTACTTCTTTTCTCATAACGTAAATCTCATCAACTATATTTCCTCCAAACGCTAATGTCATTGCTATTCCAATTTTTAATGCTTCCTCATTAAGATTATGAGGAGGTTCTTCATCATATTCTACTAGACAAGTGCTTTTTTCTGGAATTCTATAGATGTATTTTTTACCTTTCTCCCACTCAAATAATGCTGCAACATCGACTTCTCCTACTTCGCTCATTACAGGCCTTAAGAATCTTTCTATAGTAAATTTATACTCATCAGTTAGCAAAGTTGGACAGTTACAGAATAGTTTGCTTTTAGTATTAAGTTGTTGATGAATTTCTAAGCCAACCTTTAAACCTAATTCTTTATAATTAAGCTCACTCATGATACCACCTTGGAAAGAAATCTAATGAATGTCTACTGTTAATTTCCCCTACAAGATTAGTTAGCATTAAGTTCTTTATTTTTTCTATATCGTTTTCATGGGCTAAAACCCACATTAGCTTAACTAACGCTACCTCTGGTAACATATCCTCTAATGGTACTACACCGACTTGTTGAAGTAATCTACCAGTAGTATAAACGTTCATATTTACTCTACCAAAAATACACTGTGAGGTCATTCCTAAGAATATGCCGTCTTTTGCAGCTTTTTTAAATGAATCAAGGAGCTCTGTAGATGTATGGCCTAATCCAGTACCTTCTATTATTATCCCTCTAATTTTTTTTGTATCTACCAAATAATCTATGAAAGAAGGATCAAAGCCAGGATAATATTTTAGTAAAAATACTCTATTATCAAACTTAGAATCTACGGTAGTCTCTTCGTCTTTTGTATGATAATCTGGTCTAAGTATTTTGATTTCCTTTTCAAGCCACAAAACCTTAGCTAACGGTTTGTCATTTATACTTTGAAATGCGTCTCTTCTACTTGTATGCATTTTCCTAACTTTAACGCCCCTATGAGCTAGTGTATATAAATCAGAGCTTTCTCCATGCATGTTAATTACTACTTCACCAAACGGAGCTTTTTTAGCAAGCAAAACTGAAGAGTATAAATTTATGGGGGAATCGCTACTTGGTCTATCGCTACTTCTTTGTGATCCTACTAAGACTACCGGCCCTTGCAATTTTTTAAGGGAAAAAGATAAAGCTGCAGCAGTATACGCTAAAGTATCAGTTCCATGAGCTATAACAACTCCTAAATTTCCTTTATCAAAGGCAGATTTTATAGCTTCAGCTATTTTAATCCATTTATCCGGTGACATGTTCTCGCTTAATATACTAAATAATATTTCTGCTGAAATTTTGGCTATTTCGTTAATTTCTGGCATAAATTGTATTATTTCTTCAGTAGATAGAGCTGGCCTAACTGCGCCAGTTTCGTATTCTATTTTACTTGCTATAGTTCCTCCTGTGCTAATTATTTTAACTTCGCTTTTTTCTTCCTTTTCTGGCATAACGTTAAGTGGTTTTTGGATTCTTTTCTCTAAAACAGATATTTTTGAATTATCAACAGATATTCCAACATTATATCCATTTTCCATTTTTATGACAATTATACTATCATCCCTAGAATACGATGGCATTAGAATACCTTTTATTTTAAAAGAATCTCTAGAAATTTCTATTATATCGCCAATATTAACATTTAACTTAGATAATATATCCAGAGCTTTTCCTCTATAACCTTCAAGTGACATTTAAGAAAAAATACATTAACTTATCTAAAAACCTTATGAACCTTTGCCTCTTTGTTGTGGAGTTTTTGAAGATTTCACAATTCTTTTCTCAAATTCCATTCTATTTCTTAATTTAGGTGGTTCTTTAGATTTTTCTTTTGGCTGAACCTTTGGAGTTTGGCTTCTAACTTTCCCAGCTTTAGTCAGTGAACCATGAGACGGCATTTATTTATCATGTTATAATGTGAAAACAAGAAATTTAAACTTAGAGCTTTAAGTGTTCTGGGCAATAATGAGAATATATTTGGTAGAACATGTTATTGGTTCATTTGCATTTGATGAAGACGGAAAGCTTATAGATTACGTTCTTAATCCAAGAGAGTTAGGTAAAGTTGTTGAAATGCTTATTTCTAACGAGGAAAAAGGCGATCCTTTACCATCTACTATAGAATTATTACAAAAAGTTAAACCTAATGAGGCTATAATAGAAAACGAGACAGAAGTTTCTAAACTACAAAATCTAGGAATAAAAATTAGCGCTACAATACATCATTTAGGAGCTAAGGAGTTTAGACAATCGTTAGCAAAATACGCACTTGAGTCAAAATATGCCTCAAATGAGAATGATCTCTACTCATTTCTTTATCAAGTAGCATTTGAGTATACTAGAAGAAAACTAAGAAAAGCTGCTCAAAAAAGAGATTTATTAGCAATACAAGCAATAAGAGCTATAGACGATATTGATAAGTCAATTAACTTATTTTCGGAAAGATTAAGGGAATGGTATAGTCTTCATTTCCCAGAATTAGATAAAATGATAGAAGATCATGCTCAATATTCAAGGATAGTAAGTGAATTAGGATATAGGGACAATATAACGCTAGAATCGCTTAAGGATATAGGATTTAATGACGCTAGAGCTAATAAACTTGCAGAAGCTGCTAAGAAAAGTATTGGAGCCGATATATCAGAAGATGATATAAATTCAATAAAAGAATTATCAGATACAATTTTAAATCTATATAGAATAAGAAACGATCTATCAGAATATGTAGAGTCAGTTATGAAGGAAGTTGCACCAAACGTTACTGCCCTAGTAGGCGCTACATTAGGAGCTAGACTATTAAGTATAGCAGGGAGTTTGGAAGAATTATCTAAGATGCCAGCTAGCACTATACAAGTTCTTGGTGCAGAAAAAGCATTATTTAGAGCGCTAAGATCAGGAAGTAGGCCACCAAAGCACGGTATAATATTTCAATTTCCCGCAATTCATACTTCACCAAGATGGCAAAGGGGTAAAATTGCTAGAGCTTTAGCAGCTAAATTAGCTATTGCTGCTAGAGTCGATGCATTTAGTGGGAGATTTATTGGAGATCAATTAGTGGATCAATTAAATAAAAGAATAGAGGAAATAAAAGTTAAATATGCGCAGCCTCCGCCTAGAAAGCAAGCTCCTCAAAAAGAGACTCATGAAAGAAGAGATCATGAAAAAGGTAGAGGTAGGAGAGAGAGAAAAGGTAAAAAGGGTAAAAACTATAGGAGGTAATGAAAAATGTCTGAATCTATAAAAACTATTAAAGAAACTAAAATGGAAAACGTATTTGAGTGCATCTATGTTGATGGGACAACAAGGCTGTGTACCAAGAACTTTGCACCTGGTTTTTCAGTATATGGAGAAAGATTAGTTAAATATGAAGGAATTGAATATAGAGAATGGAACGCATTTAGAAGCAAATTGGCAGGTGCTATTCTTAAAGGATTAAAACATAATCCAGTAAAAAAGGGCACGAAAGTTCTTTATTTGGGTGCGGCTTCTGGTACAACGCCCAGTCATGTTTCCGATATAGTAGAAAACGAGGGTAAAGTATACGGTGTAGAATTTTCAGCAAGAGTAGTCAGAGAATTAATATTAGTAGCGCAGCATAGATCAAATCTATTTCCAATTCTTGCTGATGCTAGATTTCCTCAAAGCTATAAGTTACTTATAGAAGATCCTGATGTATTATATGTAGACATAGCGCAGCCTGATCAAACTGATATAGCGATATATAATGCTAAATTCTTCTTAAAAGATAACGGATATTTACTTTTGGCAGTAAAAGCTAGAAGTATAGATGTTACCAAAGAACCAGAAGAGATTTTCAAGACAGAAGCAGAAAAGCTTAGGAATTCTAATTTCGAGGTAGAGCAAATAATTAACTTAGATCCTTATGATAAAGATCATGCTATGATATTAGCCAAATTCAAAGGCTAGATAATGTTAGATAAAATAATCGATCTTGGGTTTAAAGATATTCTATCTTCTTTACCATCAGAGTTTGTAACCTTAAATGACGCAGTACAAGGTAAAAATAAGATAAAGCTTAAAAATGGTTTTATTCATGAAATGGATAAAAACGAAATACTAAAGTTATCAAATATTATACCATTATACTTATGGGCTTTGATAAAGGTCCCATTTATAATATTAAAATTGGAAACTCCCGGAGAATATACAATAAACGGATCTGAATGGGATAAAAAAGCTTTATCTATTGTTCTAAATAAGGACACTGGAAAATTCATTTCGTCTCTTGATGTAGAAAAATTAATGAAAGATTATAAGTCATTAATATTTATAACTTTGTCATATAGTATATTTAATACTAGTGATAATAACATAGAGGAAGGAATGTAATATGGAACATAACATTCAGCACATAGCCGATATCTTAGAAAATGAGGGGTTAGATTACTCTATAATAAATTATCCAGAAAAAAATAAAAAATCGATAGATATAATAGTTACATATGATTCAAAAAGATTAGTAATAAAGGTATCTACAGATAAAATATCTAAAGAGGAACTAATGGACCTAGAGAAATTCTCATATATTGCAGAAAGTTTTCCTATAATAATTACTGATGAAACAGAAGAAGATATTGCACTACAGAAAGATAAAGTTGTAGGATTATCACTAGATGGATTAAAAAGAGTTATAGAAGGAGACAAGATTTATGTATATAGAACCCGTGGAGGAATGTTTGTAAGGATAAGGTCAGACGTCTTAAGAAGGAAAAGAGAAGAAATGAAGTATAGTATGGGAGACTTAGCTAAAATGCTTGGAGTCTCTAGGAAAACTATTTATGACTATGAAAATGGAGAATCTGACGTTTCAATAGAAATAGCAGAAAAACTTGTAGATATATTTGGTCCAGATGTAATTGGGGACATATTTCAAGATTTACCTACTAGAATAGAAAACTTTGATATAGACTTTAAAAAAGATAAAGGATATTTACATCTTTTAGATATATTATCTGCTGAAGGATTTAATGTTGCTAGGCTTAGACTTACGGCAGCGGATATAATAGCCGCTAAGGATGGACAAAAACTATTAGTTACAATGGAACCTAAGAAACAAGACTTTGCACTTAAAAAGATAAATGAAGCTCATAAAATAGCTACTAAATTTAAGTTAAATTTAATTATAGTATCTAAGACTTCTTCTTTTGCGAAAGAGTTAGAAAAAGATGGATTTAAAGTATACTTAGAAAACGAATTAGATAGCCTAAAAGATGAGATTAAAGGAGATTGACGAAGGTAAAGCTAAATTATTAATACCAGATCCAGAGGAATTTAGAAAAGAAGGGAAATTTGATCCTTCATGGGCTCCAGTATTTTATAATCCAAGGATGATATTTAATAGAGACTTTAGTGTAGTAATAGTTCATTTTTTATCTCCTAAGACCATTGTTGATGCTCTTTCAGCTACTGGCATAAGAGGAATAAGATATTATTTAGAATCTTACACTGCAGACGAGATAATTTTTAATGATAGAAATAAAGATTCTGTTGAACTTATACAGAAAAACATAGAATTGAATAAAGTTCCTAATACCAAAGTATTTAATAAAGACGCAAATTCTTTACTCTATGAGATTAAATCTGACTTCGTTGATATTGATCCATTTGGATCTCCTTCACCTTTCATTCTATCGTCTATTAATGCTGTAAAAAGGGGAGGATTTGTAGCGTACACTGCTACAGATTTAGCACCGTTAGAAGGTAGAGCAAGAAGATCATGCTTGAGAAAATATTTTACCTTCAATTATAAACTTAGTCTATCTAAAGAAATCGGATTAAGAGTATTAATATCGAAAGTAATACAAGAATCTGCTATAATGGAAAAATCTGTATATCCACTAATTTCCTATTACTCAGATTACTATTATAGAGTATTCTTTAGAGTTATTAACGGAGCAAAAAAAGCCGACGAAGTATTAGAAAAATTAGGATTTATCTATGAATGTCAAGATTGTGGCTATCATGAAATATCGCATACTCAATGTATAGATAAATGTTCGTATTGTGGAAGTAAAAATATAAAAACTGTAGGTCCGTTATGGCTTGGGAATTTGATAGATAAAGATTTCGTTAACGGTTTGTCTCAGAATTTGGAAAAATTTAGTTATCTAAAGTATTATGATAAGATACGAAGTATTGTAGATTTACTTCTAAACGAAAGTAATTATGTTGGATATTATAATCTAGATTTTCTGGCATCAAAACATAAGACAAATGTGCCAGCAGTCAGTAAAATGATAGAATGCTTAGGTGATGCTTCAAGAACGCATTTTGATACAAAAAGTATAAAAACTAACAAAAAATTTGAAGATATATTATTATGTATTAAAAATTTATCTTATTATAGATAATATCCATTCTGAAAGTTTTGAACATGAATTTGGATTTACATGGGCTCCATTATTACACTTATAGAGAAATTTACATGAAAAGCATGGTATATCAGAAATATTTCTAAGTTCTATTAAGATCTTAGGCTCGTTAAACACTTGTATAGCAAATAGTTTAACAATGCTTTTGCCATTTTCCTTTATCGATTTCTTTATAATGAGTTTTTTTTCTATGAGCCTTTTAACTATAGTACTTAATTCACGTGTTGAGAGCCCTACTGATTTAGCAAGCTCTTGTTGTGATATTCCTTGACTCCCTCTTTCAATTATCTTTTGATGTATTAAATCTTCATAAGTTGAAATTTTTGATTCCATTCAAAAACACCTGTGTTGGCTACATATATATTATACTTTATTCTAGCTTATTTAGTTTGCTATATCATTAAATCTATAAACTAACTTCAATATCGAAATTATTTATAATTTCTTTATATCTATTCCTTATTGTAACTTCAGTTATTTTTAAAGACTCTGCGACTTCTTTCTGAGTTTTCTTTACATCCATTAATGTGCTTATTAAATATACTGTAGCAGCGCTTAGGGCTAGATACCCTTTACCGCTAGTTAAACCATTTTTATACATTATATCTACAACCTCAGCAGATTTAGTAGCAATAACTGAAGGTAATTGTAATTTTTCTATTATTTCAGGTATATATCCTACAGGTTTTACTTTTGGTCTAAAATTTTGTATAGTTTTTGATATTTCTTGAACTCTTTCTAGGGCTTTCCATAATTCACTGGATGATAGAGCATATCGAGTTTTAATTTCTTGTAAATGTTTTGGAATATTATTAATTTGGCATGAATAGTATAATATTGCTGCTATGAGCGTATACATCTCAATTCTTCTTGCAAGACCTGTTTCTATAAGTTTTCTTAATATTAATGCAGACGTCTCTTTTACATATTCTGGCAGTGCTAATTTTGCAGCTTCATTATTAAGTACAGATAAATAAGTTACCAGCTTTTTATCCTTTGAAGAGACTCTAAGTTTATTTTGTAGTCTTTGCATTTTTAGAAGTTTTACTTTATCTTTTACTTTTCCATATCCGATTTTTGTTGTTAACCCTTGGTCATGAACTTTGAGCGTTAATGGGGATCCAGTTCTTTCTTTTATTATTCTATCTTCGTAATTATATGCTCTCCATTCTGGACCAGAGTCTATTACATTATCCTCTATTACATATCCGCAATTAGAACATATATATTGCCCTCTTTCATAATCGTATCTTATATTTTCTGATGAGCAATTAGGACAATTCATCTTCTATTCCTCCGTTTCTTAGATTCTCTATTTGTTATCTCTAAGTATAACTTAGTTTTTGGCTCGTCTTCTGTCAAAGGATATGCTAATATGTATGGCTCATTAATATTTCCAATTACATCTATTACTTTAGCTACTCTTTTCCCTTGTTCATCAATAATTATTTTTCCAATAGGATTTAAGTGAACATAGTCATTTTTGTTTGCCTTGATGAGATATTTGTTTTTTAAAGTCTTTTTTTCATACGTTCCAAGTTCAATAAGTCTACTGCGTGTCACATTATCTAATTACTACTTTCATATGCTTATTATTAACTTTTAATAATACCTCGATAAAATCGACGTGGATATTACCAGGCTAAGATAGAGGATTATTTGGCTAATTGGTTTAAATAGCATCTGTAAAAGGCTATATGGAAAAAATTATTAACATATGTCTCTATATACAAGTCGATGACTGATTCAACAACAGACAGTGAAGAAGAGGCTCTTTACAGGAAAATTTCAGAAATAAGAGAAGAGTTGGGAAAACTTAAGGATAAAAAGAGATCACTTTTTGAAGATTTAAGTAAGTTAAAACAGAAAAGAAGTGAAAAAATTAGTAAATTAAGATCAATAAGAGAACAAGTTTTTACATTGAGGAACGAATATAAATCCAAAATTGATGAGTTAAATCAATTGAAAGAAAAGAAACAGAGTTTACTAAGTTATATTCAAGAGATGCGTAAGGAATTTGAAGAAATTAGAAATCTAATGAAACAGTCTCAAGGAATGAACCCAGATATGTTAGAGAAAAGAATAAAATCACTTGAATGGAGAATTGAAACTTCTAGCCTAAGTTTAGAAGAAGAAAAAAAGATAATTCAAAAAATAGCCGAATTAGAAAAGAAACTTTCAGAATCTAAAAAGTTCTTAAAAATAAAGGAAAAAGGAAGCGAAGAAAGAGCAGAATTTTTAGCAAAAAGAATAGAACTTTCTACTGTTAGAGAGCAAATGTCTAAATTGATAAATGAAATAAGTGAAAAAAGAAAAGTATTGAAAAGCTTAGTAGATGAACGAAATAAACTCAGGAAGGAATTAGACGAGATTACTGGAGAGATAAATAAGAAGAAAGACGAGATATCAAAGCTAAATTCTGAATTTAGTGTCAAAAAGGATGAATTAAATAAGTATACAAAGCAATTAAGCGAATATAAAAATGGCATATATAATAGATATTATGCTGAAAATAAAAATATAGATATTAAAAAAGGTATTGATAATTTCGCTGAAATAGGTAAAAATAAGGACTTGCTAGAGAAAAAGAAAAAAGTTGTAGAAGAAAAGTTGAAGAACGGAGGCAGACTTTCATTTGAGGAACTTTTAATACTTTATGGTAACGAAAATAAAGATGATGGAACAGCTAACAAATAAGACAGCTATCATTTATATTGATATTGATGATGATTTAGGCGATATAGGAATAAAAACTCCAGTGATAGGAGAAAAAGACGCTTTTTTAGCAATTCAAAGAGCATCTGAATATATTCCTGATGATTCTGATTTTAATTCCATGGTAGTAGCATATAATTTGTATAATAAGTTAAAAAGCAATAACAATGTAGAAATAGTTTTTATAGCAGGATCTAAAAAAGGTGGGCTGGATGCTCAATTAAACTTATCAAAGGAATTAGAAGAAGTCATAAAAAAGATAAATCCAGAACAGTCAATCTTAGTTTATGATAGTCCAGAAGACGCAAAAGCTATTCCAATTATTGAGTCTAAACTAAAGATAATTGGCATTCAACGTGTTATAGTAGAGCAGCATAGAGGTGTGGAAGAAACTTACGTACTATTAGGGAAATACTTAAAAAAGATAATCTCAGAACCTAGATATTCAAGAATTTTCCTCGGTGTGCCAGGAATTATATTTCTCATAGCTAGCGTTTTTTATATTCTTGGAATAGCTTCTTATCTTTTACCTGTAGTATTACTAGTTATTGGAATAGCTATGCTAGTTAGAGGATTTGGAGTAGATGATATGATAGAAAAATGGTGGGAGAATTCTACAATAATGGTAGTTGTAGGTATCTTGTCCATAATTTCTTTAATAATAGGTATAGTGGAGGGATATTTAACCTCTCAGACGATTAAGGGTTCTTATATTTTTACTATATCTTCTGAGATAATATCAGTTCTTCCTTATTTGACATTCTCTGTAATTATTCTTTTTGCTGGTAAAGCTCTAGAAAATGCATTAACTAGAAACATGAGAGTATGGCATGATCTGTTAAAGATAGTAGCCATAGTATTATCATACTATATAATATCTGGTGCTCTAAAAAATATACAAGAAGGAATTTATGTATTTCAAGTTCAATTACTATATATGTTATCAATTTCCTCAATGATTCTAATAACAATATATATAGCTTTAAGTATATTAGAAAAATATAAATTTACATAGTTGATTTTGTTATTTTATCTCTAACTTCTAATGGTATATCATCGATTTTGACTATGTTTGCTTTTCTAAATTTATGATTTGAGATAATATCAAGGACTATGTATCTATCTGGTGAATTCTCATCTCTATTTTTTAATACTCTTACTTTAACATATTTTCTTTTCCCAGTATCTACATATACATATTTCTTTTGCTTTAATGACATTTTTAATCACCAATAGTATTACTTAGAGATTTTAAATTTCTAGCTCTTCTTCCTCTTCTATTGCTCTTACGCAGTCTAGTTCTTCTAATTTATCGAAAATCTTTTTAACAGCTTTATATACTTCTTCTTCTCTTTTTGCCCCAGTTATTACCATTTTTCCGCTACTAAATATTAATAATACTACTCTAGGATCATCCATTCTGAATATAAGACCTGGAAACTGCTCTGGTTCATACATGTTATTTTCTAGTAAAAATGCGGCTTTATCTAGATTTACATGAACATGCATATTTGCGGACGCTACTATATTTTGTATTTGAATTTTTGGTTTTCCTGAAATTTTTATGCTATATTTCTTTAGAGTTTTGATTATTCGTTTTACCGACTTTATAAGCTCTTCAGTACTTTTAGCTCCTGTAACTACCATTTTTCCAGATTTAAATATTAGGGACGTTACTTTTGGAGTTTCTAATCTAAAGATTAAGCCTGGAAACTGATCTGGATCATATTCAACGTTTGGTACACTTCGTTCCATTGCATATAAATCTAATGATTCGTCTAATGTTACTGTTGCTACTATATTTTCTATACTTATAATTGGTTTATAAGCGATCGGATTAGAGATAATAGCTCACCATATATAATATCTTATAAACTCATTTATAAACCCCAAAGCTTTTTAAAAGAGAATGTTTTTAAGCAAACCTAATTCTGGAAACTCCATTATACCTTCTTTTTCAATAATAACATACGGTTTTGCTTTTTCTAAAATTCCAAAATTTCTTATTATTGGACTCATATAATTATTATGAAGTAACGAGACATCATTTCCTGATTGATATGTTCCTATAGAAGGAAGAACTATAACATTAGAAGAATTTTTAAGAGGAATATTTAGAAAACATTGCAATTTTCTTGAAAAACCTAGTTTATCTTTTATTGAAATTCGCGGATGCTCATGACCTATTATGTATGTTGTATTGTCTCTTAATTTAACATCCTTATGGCCGTGATATATATATATATTTCCAAGATCTAAATTATCTACTAATTCGACGTTATCAAATTTTTCAGTAACTAAACTGATATAATTATCGTGGTTTCCCTTAATGACTATTACCTTAATATTATCATTTTTTAGAATATTGAAAATATCATTTAAATCACTTCTTTCTTCTTTACCTAAAGAGTTAAACATATGTTTAAGATCGCCGTCTATTATTATCTTATCAAATTTGAATATCTTTAGGGATTTATTATATATATCAATAAATTTCTTTTTTTGTACTTTTGGAAGGAAAATTCCTTTTTTAGCCATTTCTTCTTCATATCCTATGTGAACATCAGACAGTATCATTGAGTTCATTTTTTTAAAATATAGTCCAGGAATATCAGATTCTATAAATAAATCTTGAGAAATTTCTAACATAACCTCACCTATTTATAAGCAATATAAATATAGTATAGCAAAAATGTCATACCTATATCTAATAGGCTTAGGACTGTCAAAAAAGTTTTTTACAAATAAGGCATTAGAGGCTTTAAAACAATCAGACATTATATTTTTAGATTACTACACATCGTTTTCTTGTGATTTAACTAAAGAATTTTTAGAGAAAATTACTGGAAAAGAAATTACATTAGCTTCAAGAAATATGCTAGAAAATAATTCTAATGAAATTATGAATCTTTTAGATTCAGGAAAAAATGTTGCTATAGCTTCTATAGGAGATCCTATAATAGCAACTACTCATGTGAGTATAGCAGTTGAGGCTAATCGAAAAGGTCATATAGTACAAGTAATTCCAGGTATTTCTGTTCATTGTTATATTATATCAAAATCTATGCTTTCATCTTATAAATTTGGAAAATCTGTGACTTTAGTATACCCATATGATAATATAATGGATTTTACACCATATGAAGTGATAAAATCCAATAGAGCATTAAATCTTCATACTATAGTATATCTAGATATAAAGGACGGGAAATTTATGAATGCAATAGAAGGTTTAAAATATTTAATTGAGATGGAGAATGTAAAAAAAGAGAACGTTATATCAATGGACGATATTGCAATTATAGGGCAAAGATTAGGCTGTGACGATGAGAAGATCTCTGCTGTGAAACTTTCTGATTTGGAAAATGCAAAACTAAGAGATCCACCACACATAATAATAATTCCTTCCAAAAATCTACATTATATGGAGGTAGAGGCAATACAATGTCTTCATTGAGAAATAGAGCCTTAAAATATATTGAAGGCATGGAAAAGAGATTAAAAAATATAAATATGCCAGAATTCCAAAAAATATTGGATTTAGCTAGGCAATATACCGATGACGCTAAATATTATCTGGAAAAAGGTGACGAAGAGACTTCTCTAGTAGACATAGCATATGCAGAGGGATTGTTAGATGCGATTTTAATTCAAAATAATATTGATCCAGATTCAGACATTTCAAAGAAAGTATTTGTAGGAGGAACTTTTGACATTATACATCCTGGTCACATAGCGTTTTTAAAGGAAGCCTCAAAATTAGGAAGAGTATATGTTTCTGTTGCTAGAGATAAAAATTCCGAAAAAATTAAAGGTAGAAAGCCTATAAATAATGAAGATCAACGATTAGAAGTAGTAAAAAATATAAAATATGTATATTATGCGTTTTTAGGCGATGAAAATGATTTTATAAAAAGTGTAGAAAATGTAAATCCAGATATTATCTTTCTTGGTCCAGATCAAAAAGTTAATGAAGAACAGTTTAAAGAAGAATTAAGAAAGAGAGGAATAAATGCAGAAATTCTTAGAATGAAAGAACGACTAAACAAGTGGGAACATAATAGTACTACTTCTATCATAAAAGAAGTTCTTAATCGATACTGTAATCACACGTAAGACTCTATTTCTACTTCATCTCCATCTTTTATATTTAGCTTTTCTCTGAGGTAATAAGGTGAAATTACTTCTATAACGCTTTTAGGATGAGTGCTTCTTAAAGGGAAAACTATAGCTGCAGGTCTAATTCCGTTTATTGATGCAGGAAATACTTTTACTGCTCCTAGTACTCTATTTTCATCCTTATATTCTGGAATAAGGATATGTTTCTCTGCATCTAGAATTATTCTATTTTCTAAAGATAATCTATCATATATTACTATATTTAATGTACCTGGATAAGGAGTAAATCCTAGGAATTTCTTGAATGAGTCTTCATAATAAGGTAACGAAAGAAATATTTTACCTTCTCCTAAGCCAGAGGTTACCATACCTTTTATCTTAAGTGCATGTGACGATATTATAGCTTCTCTGATTAATGAGAGACATTGAGATAGCAAATCTTCGCCTTTAGTAGTTAATGATATAATTTCACCATCTGTTGTTATAGTTCGTTTAATGATCTCCTTATCTTCCAATTCTTTTAATTTACGTGAAACTGATTGTTGAGAAAGATTTAATTCTTTAGCTAAAGTCTCTTGAGTGATTTCACTGGATTTAGCTAAAGATATAATTTTCGCTATTATACAAGCATCATTCAGCATCTTTACTGTTCCTCTGTACAGCCTAATTCAGCTTCTTTATATTCTCCATTTATATCGTCTTCAGAATCTTTAGTACTCCAGCTCCATTTTTGTGTCCATGCATTACCTATTTGAATAGGCTTTTCCAGCTTGCTTAATAGTACAATCCTACTTGGAATATGCTCTGATAATATTTTATATCCAGTAAATTTGGAAAGAGTTTCTGCAAATTCTCTTATCTCACTATGTCTGGGCATTGCATCTTTACTTAATCTATATGTAGATGGGCCAACATGCATGTATGCCTTTACTTCAATATAGGTGGGCATAGCAAGTTTAATTAAATTAGCAAATTCTTTTGCGTCTTCTATTCCCATGTTGAATCCCTTTATCATAGTCATTCTAATTACTGTAGGAGAACTAAAGCTTGGTAACATTTTTAGAGTTTCCATTACTAAATTCCATGAATTTGCAACTATAGGTCTATTAATGAGTTTATGTTTTTTCTCGTTTGGAGCTTGAAGAGATACGAAAAGTTGTGTAGGTTCTTCTTCAAGGCTAGCTAATATATCTGGTCTTACTCCACTTGTGACTAAGAATGTTGTCATTCCCTTTTTATGATATTCGCTTATTAATTCCCCTAACTTATCATACAGTGTTGGTTCTCCTGTTAAGCTTATAGCAACATGAGCTGGTTTTGATGCATCCTTTATCATTGCTTGCTTTACTCCTTGCCTACCATAATATCCAGATACTGCTTTTACATGTTCTTCAATACTTTTTTCAGCAATGTATTCTGGATCATCCATGATTGGCATCTTAGTCTCATCCCATTCTACACCTATATCTTCTGGTTCTAGTCTCCAACAATGTATGCATCTAAACCAACACCATGCAGCTACTGGTGTCATTTGCACGCATCTATGGCTTTCAATTCCATAAAACTTACCCTTATAACAATATCTATTTTCTGTTAGCGCTTTATGAGTCCAATAACATTTCTTATAAGCACTATGACTACCTATTATGTGATACTTTTCTTTTTCCATTTCACTCATTATTTTGCTTAACGTATCAATCCTTAACTTAGGTGTTTCCATAAGCGTATCAATAAAATTTTTTCGCGCAATTAAAAAACTTATTTATTAAAGTGGTGCAGTGAGATCATAAAGCTTCAGAATTTTTTCTATATATGAACTTATCCCAATTAACATAGTATCTGAAAGATATCTTCCCATTAGTTGTAAGCCTACAGGCAAATTGTTATAAAAACCTGCTGGCATGGAAATTGCTGGTATTGCAGCCAAGTTTGCTATTACTGTATTAAGATCCATAGCATACATTTTTATTGGATCATTAATCATTTCGCCTATTCTAGGAGGTAAAATAGGCATAGTAGGGGAAATTAGTATATCATATTTATTGAATATTTGGTCTAAACTATCTTTTATTATTCTTCTTACTTTAAGAGCTTTAACATAGTATTGATCATAGTACCCAGCACTTAAAATGAATGATCCTAACATTATTCTTCTTTTTACTTCAAGGCCGAATCCTTCTCCTCTATTTTTACTAAATGTTTCCTTCCAATTTCCATCACTATATTTGCTGAACCCATATCTAACTCCATCATATCTAGCTAAATTAGAACTAGCTTCAGACATGGCAATTATATAATATGCCGGTAATGCGTATTCTGAATTACCTAATCTAACATCTTCTATTATTGCACCTTCTGAAGATAACTTATTTATAACATTATTTATGATAGTTGTTACAGACTTATCGGAAGATTCTAAAATGTCTTTGAGTATACCTATTTTAAGTCCACTTATCGGAATCTCTGATGGTGTTCCTATATTTTTGTTTTTTATAGTAGTAGCGTCTTTACTATCTTCACCAGATATTATACTATATAGTAAACCTAAATCTTCAGCGTTTTTTGCCATAGGTCCTATTTGCTCTAAGCTATTAGCATAAGCTATTAGACCATATCTGCTTACAGTCCCATAAGAAGGCTTTAACCCAAACGTTGCTGTAAAAGCTGCTGGAGCTCTTATAGATCCTCCAGTATCGGTACCAAGAGCTATATCTACGTAACCAGCAGCAAGAGACGCGCCGCTTCCTCCTGAAGATCCTCCTGGAGTTCTTTCTAGATCCCATGGATTTCTAGTTGGCCCAAAATAGCTAGTTTCAGTAGTAGAACCCATTGCAAATTCGTCCATGTTAGTCTTTCCTATTATTACTGCTCCTTCTGATTTCAATTTCTGTATAACTGTAGCATCGAATGGCGGTATATAATCTTCCAACATTTTAGAAGCACAAGTAGTCCTTAAATCCTTGGTAGAGATGGCGTCCTTAATTGCTATTAATATACCGGCTAGTTTGCCTTCTTTCTTAATATTTTCTTTTACCTCTTGTAAAACTTCTTCTTCTTTTCTAAGTGTTATAAACGCATTAATGTTTTTTTCTAGTCTATTTATTTTTTCAAAAGACCTTGCTACATATTCTTCTGGGCTTAATCTTCTCTCCTTTAAATCTATTACTATGTTAGAGATCATTTAATCACCGTAGGTACTAGGTCCTTTGATATAACCATTTTCTTTATGTTTTACATTTCTTAAAGCGTCTGATTGAGTTAGTGTGGATAATGGCTTATCTTCCCTTAATTTTCCTTGAGATATAGGATGAAACATAGGTTCTACGTTGGATAAGTCTATTTCATTTATTTTATTAAAGAAATCTAATATTTTTTTAATATCTTTACCTATTATTTCCTTTTCATTTTCTTTAAGCTCAATTAATGATAAGCTTTGTAATTTTTCAATAAGTTTTTCTTCACTCATTTTCTCACACTCTCAAATATCCAATTTAGATATTCTGGTAATCCTCCAGAAATATTAAAAGTAATAATTTCTGGTAACGAATATGGATGTAACTCTTTAATTCTTTGGATTATTCTATTCTCAAGATCTTTCTCAGTTTTAATTATCATAAGTGCTTCATCGTCTTCTTCAGTTTTACCTTCCCATATATAAAACGATCTTATATATGGGATTATATTTACGCACGCGGCTAATTTTTCATCAACTAAAGTTTTTGCAATATGTTTCCCAGTTTTTATTTCTGGTATTGTACTTAATATAAGTATAGCAGGCATAGTTAACTAATTATACTATACTGCTAAATTAAAACTAATGAAAGTTAAAGATCTATTTTCATTACCTTGGAAAAATATGGATAGGGCTTTAGAATACGGTGTGGAAGAATGTAAATATCTTGGTAAAACATTGCTAGGGATTACTTTATCTAATGGATTAGGATTTATTATATATTTTAATCCATATAGTGAAGAAATATACAGAATACTGATTATGAGTCCAGAAAAAAAGGAACTAGGTGAATTCTTTGGAGTATTTAAGTATGAAGGAGGAAATACCTTTTTTATATATACTGTAACAAATTTAACTCAAATAGTAAACTCTTTGGGTGAAATAGAAGTAAATTCTGTAGAAGTGATTAAAGATGTTTTCGAAGACTTTTTACTTGAAGCGCTGGCTGGACAACGAAACATTTACTAAATTACTTACATTTTCTAGATTTTTGGGACGAGACGAAAATGGTTCCCAGTTTGTGCTAGATTTAGAGAGAGCTAGAAGAAATAGGGTGAGATTATCTGAAATTAAAGATACATTAGAATCCTTAGGAATAACTTTTAGTAATGATGAATTACAATATTTACAAAGAATACTTCCAGAATATGATATAGAATTTTCTATAGATAGGGGAAATCTTTTTGTAATTCCAAGCGTGTATATTATGGATATTATAAAAAAATATAATATATCTATAGAATACGATAGGCAAAGAAAGATATTTATATCTAAGCCATATTATTATTCTAATCTGAGAGAAATATTCTTAGAAAATGGCCTAAAAGTGCGTGAGCTAAATACCAAAATGAAAAATTTTGATTTTAGTATTAAGATTATATTACGAGATTATCAAAACGAAGCCATAGAAAAATGGAAAGAAAATAACTTTAAAGGAGTTATAGCACTTCCTACAGGTTCTGGAAAAACTTTGATAGGATTAAAAGCTATTGAATTAGTAAAGAAATCTACTTTAATAGTAGCTTTTACGAAAGAGCAAATGAATCAATGGAGAGATTCTATAATAAGGTTTTCTGATTTTAGACCAGATATAGGATTGTATTATAGCTCCGAAAAAAACATAAAACCTATCACCATATCTACATATCAAACTGCGTATAGACATATAAACGAATTAGCAGACAAATTTGATCTTTTAATAATTGATGAAGCTCATCATTTACCTGCTGATAAGTTTAGGGAAATAGCATTAGGGCTAATAGCTAGTAAAAGGTTAGGCTTATCTGCTACACCGTATAGAGAAGATGGAAAACATGAAGAACTCTTCAAATTAATGGGGGGAGTTATATATTATAAAGGAGTTAATGAACTGATTAATAAAGGATATTTGTCTCCATACGAAATAATACAAGTTAAGGTATTTTTAAATAAAGAGGAAAGATCTAAATACTCTGAGTTATTAAAAAAATTTAAGATATTATCCAAAGATAGAAGAATATCGGAATTAATCAAAAAAGCTCAAGAAGGAGACGGTGATGCGATCGAGGCTCTCAGAATATATAATGAGATGAGAAAAATTGTTAGTTTAGCACAAAATAAGATATCTAAAATTAATGATATTATACAGAAAGAAAATGGGAAGAAGATATTGATATTTACGCAATATGTAGAACAAGCGGAAAATTTAGCTAAAATATTTAATGCTTTGATAATAACAGGCAAAATATCCAAATCGGAAAGAGATAAAATACTAGCTGAATTTAAATCAATGAAAAGTGGAATCTTGGTATTAACTACTGTTGGAGACGAGGGTCTAGATATACCTGACGCAAGTGTAGGGATAATAGTAACTGGAACTGGTTCACGGCGACAATTTATTCAGAGGCTTGGAAGGCTACTTAGACCAGTAGATGGAAAAAAAGCTACACTCTATGAAATCTTAGTTCAAGGTACTCCAGAAGAGTATCAAGCTAAGAAAAGAAAAGAAGAAAATCTAGATGAGGCATTTCTTCAAATTTCTTCTGAATATTCAGAAGAAATAAAGTAAAAAACACTATATGCTAAAGGTACTAAAATTTCTTGTCTCATCTTAGTATGGATAATGACTTGCCTATTATTAACGCTAATAATAGGCTTATTCTCTATTCCAATAATTATTATTCCGTGATTCTTATCATCTATACGTAATTTAGTGTTTCCTAATATCTTTTTTGCAGTATATGCAGCGAGCATCTCAGGACTTAATACTTCTATCTCTCCGGAAACTTCTATATTGCCATCTAGCATTATTACTTGCTCCTTTCCATTTATTTTGACACCATCTACCCATATAGTCGAAAAAAGTTTTCTATTACATTCAGTACTTAATATGGATAATGGAGGAAAGACAAGATTATATCTAGTATTTGTTAGAAACGGTTTTACGGCTATTATATCACCCTTCTTTAAATTTATTTTTTCTCCAGGATAGCATACTCCGTAATCTTCTGTAACAAAAGGCATTTGGAAGATTTTTATATTAAGTAAAGTATATGTAATTAACGATGAAAGAACTTGTAAGAACTGATGATGATGATAAACCGGGCTTATGAGCAATGAAATGGCTTAAGAAAAGGGATGTAGTTATATATTATTTGCTTTATAAGAAATTTGGTTATGACGAATTTAATTTAGGGGAAGCAATAGATACGTTATCGCCATACTTCTCTAAAAAGGTAATACTCACCTCAATAAAATATATGAGCAAAAGAGGGTTAGTAACTAAGTTAGATAATCTAAATTACAGACTAATTTCTTTTGAGGAGTTTATATTTTCAATTTCTTTTGAGTATTTAAAAAGAAGATCTAATCTTCGTCATAAAATTCAACTATAATTTTTACTTTTACTTCTTTCTTTGAAATAGGTGGTATAGAATTTCCAAAATCTACTCCCATAGAAACAGGATTTCCCATAGAGTCATTAAATTTTATTTCTGCAACATAATGCTTCTGTGGACCTTGACTCATCATTTTCATTAGTTCATCATATATTCTAGAAATTGCCATCTGAAATGCTATAGGACTAGATAAATCTTCAGGTTTTAATTGAACAGAAGCTAAATTTCCCATAACTTCTCCAATCTTAGCTTTACCTTCAAACTCTATCTTATATGTGGGTTGGCTCATTTATCTTCAATATATTATCTTGAAGCCAGAGGATATTAAAGGTATGGGGAAATTGCATTAAAAAAGCTTTTTATTTATCTTTAAGCCTTTTTCTTTATTGCTATTTCTATTGTTGAAACTCTTGATTGTCTTCCGTCTTGGCTTGTGACTACTTGGCTTCCTATTCCTATTGATCTGATCTCTATCTTATCTGGTAAGAATCTGTTCCTTACTATTTCTACAGTGTCTACGGCTTTGCTTATTGCTCTACCTCTAGCTTTTATAACTATTTCTGGCACGCCTTGATTTAGCAGAGTTAATGCTGCTAATACATAGTTCATTACTGGCTTTTTACCTACTAAAACTACGTTACTTGGAGTCGGAGTTGCGGTACTCATTTTATCACCTTTGTCGCAACAACTACATATACGAGAAGTTAAAAAAGTTATCCTACTCGGTAACATCTGGTTATTTCCTTTTTAAGGTAGTCCCAATTATAAGAAGTTCATTATAATGATAACTTCAGTATACACTAATTCATGCCCTAATTGCGGAGGGCCTTTAGAATCTACAAGAGCATTAGAAGGTTTACCTTGTAATAAATGTATTAATGGTAGCGTTGACGCATTTAAAAATATACCAATAGATGAAAAAATCAAGGCTATTTATAATATTCTTGTTAATCAAGGAAATTTGAAGGGATATTGGGAATTATATTACTCTTTAGAATTATATGAAGAGCTTTCCAATTATTTTAAGAAAATTACTGGATATATGCCATGGTCACTACAAAAATTCTGGCTAAGAAGACTAGGAGAAGGAGCTAGTTTCTCTATGTCTGCTCCTACTGGTTTAGGCAAGTCTACTACTATTATGGTATATTCTTCTTATTTGAAAGATAACGTGTTATATTTAGTACCTACCAAATCTTTGCAAGATCAAATTTGCAATAAAATAAGTAAATTTGCCGAAATATCTTGTGGTAAAATAGACGATAAAAAAATTAGTATAGTTACAATAAACTATCTAAATAGACACTTTAGTGAAATCAATTATTATAGGCCTAAGTTTATAGGTGTAGACGACGCTGATGCAATAGTAAAAAGCGGTAAAACTACCGATAAGCTTGTCAGTATTATGGGAATTCCAGAAGAGATTTATGAGGATGCTATAAAACTTGTTCGACTTAAAAGATTATTATTTATTCAAGAAGATAGAGAAGAATTGGAAGCTAAAATAAGACAAATAGAATCTAGAATAGCATCGTTTTCTGGCAATATAGCTCAATTAGTAATAGCTAGTGCTACTATGAGACCAAAAGGAGTAAAGCAAAAGGCGTTAAAGTATATAACAGGTTTTGATGTTAGTACTGCACAAATTTATGCAAGGAACATTATAGATTCCTTCTCTGACAAAAGCCTAGAAAGTATAGTAATGGAATTAGGTAGTGGAGGTCTAATACTAGTTTCAAAAGAATATGGAAAAAATAAAATGAAAGAAATAAAAAGCTTACTTGAAAACAAGGGCATATCAGTCGATTTAGCAATAAGTGGTAGAAAATTTCTTGAAAAATTCTCTTCAGGAAAAACAGATATTATAATAGGTTCTGCGTCATATTATGGAGTTGCAGTAAGGGGAATAGATGAGCCAAAAAAACTTAGGTACGTAATATTTTACGGTGTACCTAAGAGTAGAATTAGAGCTTATGATGCAGTACTTAATCCTTTTACTTTACTTAAAATATCGAAACTACTTAATTATGAAATAGACGAAAATAAGATATTGAATTTAAACAGCGCTGAGATACAAGCAATAAGAATAGCTTTTCTTAGATCTCAGAAATTATCTGGTAAATTAGGAGAAATTCAGCAATATTTGCTTCCAAAAATAGAGGATATTCGTAAAATAATGGCCTCGGTTACGTCTGATATAGACGGAGATACATTCGTATTAAAGAAAATTAATAACGAAGTTTATATTGAATTTCCTGATGCTACAACATATTTGCAAGGATCTGGAAGAAGTAGTAGATTATTAAATGGAGGATTAACTTTAGGACTTAGTGTCATTCTTGTAGATGATTATAAATTATTGGATATGCTAAAACGTAGAATAAATTATCTAATGTACAATTTTAACATAACAGATTTTAATTCCCTTAATATCTCTAAGGTAAAAGATGAGATTGAAAGAACTAGAAATGAAACCAATGCTTCTATAGATATATCTACTGCACTTTTAGTAGTCGAATCTCCTACTAAAGCTAAGACAATATCGAGGATGTTTGGAACTCCAGCAAGGCGTAATATAGGTGGCATTCCAATTTATGAAACAGTTATAGTAGATGCCAATAAAGCGTATATTTTAGACGTTATGGCTACTAAAGGGCATATAACAGATCTTACGCTAGAAAATAAAGGATATTATGGCGTAGACGTTGACGATGAAAGAATCTCTCCTTATTATTCACCGTTATATAGGTGTGTAAATTGTAAGAGGTTAATAAGTCAAACAGTAGATAAGTGTCCTTATTGTGGATCTACTACTCTATTATCTAGCTTATCTACTATTAATGCGTTAAGAAAAATAGCAATGGAAGTAGATAAAGTGTTTATAGCCACAGATCCTGATACTGAAGGAGAAAAAATTGCCTATGATGTAGCAGTAAATGTTGCACCATATAATAATAATATTAAGAGAATAAAATATCATGAAGTTACTAGAAATGGGATACTTAGTGCATTAAGAGATCAGGGCACTTTAGACATTAATGCTGTTAATAGTCAAGTAACCAGAAGAATAGAAGATAGGTGGATAGGCTTCGAATTAAGCAAAATATTAAAAGTTAAATTCAATTCTCAGAATCAAGGAGCTGGCAGAGTTCAAACTCCAGTACTTGGTTGGATAGTTGATAATACCGAAAAGTATAAAAATTCTATGGGTTGGATAGCTAATATAAAATTAGGTAATTATGTTTATAGATTATTCTTTAAAAATAAATCAGACGCTAAGATAATGTCTATTGAAGTTAAGAAAATAGGAGAAAAGAGAGATGTCATATCTCCATATCCTCCATATACTACAGATACATTGCTAATAGATGCATACAATAGATTTAGACTACCTGCGGAAAGAGTGATGAAAATAGCGCAAGAATTATTTGAATCTGGATTAATAACATATCATAGGACAGATAGTATTCATGTTTCTTCTAGGGGAATAGAAATAGCCAAAGAATACTTAAGCAAAAAAGGTATCCAGGAATTTTCACCTAGAAGTTGGGGAAATGAAGGTGCACATGAGGCCATAAGACCTACTAATCCTATGGACTTAGATGATTTAAAGAAAGAAATAACTGAAAATCCTAATAAATACTTTATAAAATTTACCTGGGCTCATTTCGCAGTATATGATCTTATATTTAAAAGATTTATTGCAAGTCAAATGAATAATGCGATAGGAACTTACACTAAATACGAAATAAATATAAATGGGAATAATATCCAAAACATCGAATTACTTTCAGATATTTCTGGCGGATTTTCTATGATTTTACAGTTAAGAACATATTCTCTGCCAGAAGGTAAGATACCCCCAGAATATACCGTCATAAAGGGTTCTAAGGAAAAATTAATGAATTATGCAGAAGTCATAAAATTGATGAGAGAGAAAAATATAGGAAGACCTAGTACTTATGCAAAAACTATACAAACACTAATTAGACACGGATATATAGTCCAAAGCAAGAAAAAGGGCTATTTAATAGCCACTAAAAAGGGTATTGAGGCTTACAAATATCTTTCTACAAGATTTTCTAATTTAGTTTCTACAGATACTACGGCAGATCTCCTAAGAAAAATGGACATGATATCTAATGGTTCAATAGAGGCTGAGGTCATAATAAAAGACATTTTAGGTCAAGTAAAGTCTTTAGTAAGCCTTAGTTATTCTGAGCAACAAATATGAAATACGTTTTTTATCTTTTACTTCGCTTCCTATTGAGGTTTCTGATAATTTAATGCCTTCACCTAGTTTATCTTTTAGCTGATTATAAATATCTACTGTTTTGTTTATTTCTCTTCCATATCCTTTTATTTCTATTTCGCTAGTACCCTGATTCATCATGGTTATTATTTCTAACACATGATCTTCAACTGACTTTGTGCTACTAACTACTATCTGAGCAGTTTTATCCATCATCTTTTTTCATCATGTGAAAGCTCACAGCCTATAATAAATCTTACGTACAAATATTCCATAAGCTTTAATAGGAATAACTAAATATTTTACAGTTATTTTCAGTAACACGGGCCTATTTCACCACGTCAACTTATATTTATTCATCACTATTCTAAGAATATTTTAGATTCTGTATATAAGCTACTGCATTAAGAAGTAAGTATGGTATAGATTTTTTATTTACATAGTAAAATCTAGGAGATAGATTGCATACTAGTGGGTCTACTGGATCAGAAATTCTTAGTTCTCCTATTTCTTCAAAAGGAATTCTATGTTTTATTTCATCAAAATTATCTATTAATTCCTTTGGCTTAAATATTATCTCGGTATTTTCATTACCATTAAGTTGTCTCAATACAGCAACAAAAGTTTCATTTTCATTCAAAACGGAGAATGATGTATAGAAATCATCTGATTCTACTATCTTTTCTAGATCATCAAGAAGGCACCATCTAATTTCTCTACTATCTACATCAATAAAGCTAGTTATTCTAAACTTAGAATCAGGTTTTCTCATTTGCTTAAGCTTATTTTCAAGACTTTTTTCTGATATTCCCAATGTTTCTGAAAGTTCTGAAATAGTATATGCACCGCCTTTTAAAGATTCATAAATTAGCGTATAGACACTAAATAACCAAGGCTTTATAGGGGCATGAGATAATACTGCGTCTCCTAATGGAGTAATTCCGTCGTAATTTATAATTTTTATCTCATTATTTTTTATTTTTCTGATAAATTTAAGTGTTCCCTTTATACTAAAGTATCTATTTACAGTTTGCTTTAGTGCTTCCTTAATTAATATTTTATCTTCTTTATTATTTACTTTACCTACCTTTCCAAAACTTATCTGAATTTCTTTTAAAACAGAAATGAACAAAGGTGATCTTAGAACTGATTTCAAAATAAGCTGCTTAAGTTTTTTGTCACTTAGTTTTAGTATATCCTTTAGTAAATCTTTTTCAGTATAACTCACTGAAAATCCATAAATGGAAGATCTTGCATACGTATTTAATGATTCTTTAGAAGTAGCTAAATACAACAACATATGAGAAATTGTATTTGAAATTCTCTCATTTAGTAACGTAGTATATACTGTTTCCTTATCTCTTTTTTCTATAATTATGATTTTATTTGATGGTAGAGGAATTTTATGATTTAAATATACAGAAAGTAAGTCATTAATTTCCATAACTGCGTTTTTGTCTAATATATTATGATTTATCTTATCTATATTTCTAATTAACTTTGAAATCTCTTTGGGTAATAGATATGATTTTGGTATACCGTCTCCTTTCCATACTGGTATTTCTCCTTCACCAGAATCTGTAGGAACAACCTCTATGCTCATTCTTCCGCTATGAATTTTTATCACTTTCCATAATTTTCCGCTTATTCTTATAATATCGCCTATTCTAATGTGCTTATAAACATAAATTGCGTCTATTTCGCCTATAATTCTATCATTATGCTTTAAGATAAATGTGTCATCATTATTTATTAGTGAAAAAAACTCAGAAAAGCTTTTAGTCCAACTAAAATTCCTATTTCTATTGAAATTCCATAATTTAAAGAAGAATTTGCCTATTTTTATATCTTCGCCTTCTAAAGATAATAAGCCATTCCTAATTAAATAATTAATAATTTCTTCAAATTTCTCTTTCTTCAGATTTCTAAACGGATATGAGTTTATTAATACATTATAAATAAACTCTGGTGATACTTTTTCGTATTGTAACGTTATGCCTAAGATCTCTCTAGCAGCTACGTCTAAACTAGAGGATATTCCAGGCTTTTCTACTATTCCTTTTTTAGCCAAATAATATATGGATAATGCTTCTAAAACATCAAAATCGTATATACAGAATATTTCTCCTTTTGGAACTCCTGAAATGCAATGCCCACTCCTGCCTAGCCTTTGTAAAAACGAGGCTACAGAGGGAGGCGGTCTATACATAATTATTTTTCTTATGTCGCCAACATCAATTCCTAGTTCTAACGTTTTTGTACATATTACTGCTTTAGCCTTGCCTGCTCTTAGATGCTCTTCCACATTATTTTTTGATTCTCTAGATATCGAAGAATGGTGTACAAAGATTCCCTCTTGATTTAATTTCTCTAATTCCTCATGTAATCTTTCCGTTAAAAATCTTGAATTTGTAAATATTAAGCTAGGAGACTCTATAGAAGACGATATTTCTTTTGCAGAATTTGTCCAAATATCGTTTCCGCATATTTTTTTAATTCTTAACTCGAAATTCTTACTGTCGCTTATTCTAACTATAGAAGGATTTCTGGATGATGAACCAAATAGAAACGAAGATATCAAATCTTCGTTAGCTACAGTAGCAGAAAGACCTATTCTTTGAAAATCAAAGTTAGAAAATTCCTTTAGTCTTTCAAGTAGAATGGACAATTGAATTCCTCTTTTAGAATTTACTAACTCATGAATTTCATCTACTATTACCCATTTTACATTCTTATAAAATTCTCTAAATCTAGAAGCCCAATCTAAATCTATTTCTAGTCCCTCAGGCGTAGTAATGAGAATATGTGGTACCTTTTTTAATCTCATATTTTTCTCTTTTTGCGGTACTTCACCATGTTTTCTACTTACTAGAAAATCTAGTCTTGATGCCCACCAATCTACCCTAAACGTTATATCATTAATTAGAGCTTTTAGGGGAGTTATGTAAATGAGTGAAACAGGTTTAGCATTAGACTCTATCATTTGACTTAAAACTGGCAATAATGCTGCCTCAGTTTTCCCATACCCTGTAGGTGCTATGATCAAAGTATTATTTCCACTAAGTATAGGTTTTAATGATTTTTTTTGTATATCAGTCATTTTATTCCAGTTTCTTTCTTTTATGAGCTCTATGATCTTACTGTTTAATGATTCCATTTAGATTCCACCGAAGTTTCGTTGAACAGTAGCATGAACAGTTATTTTTAAAAATTTAAACTCAGCCCTCAATATTATGGAGCAAAAGCACGTTTGTTTAGTATGCGGTAAATCCTTTACTGAAGGTCAAGGTATAATCTTAACCATTGCAGATAGAAAACTAGAATTCCATAGTAAATCATGTGCGTATAAGTTTCTAAAGGAAGTTATAATGAATTCCGAAAAAGATTGCATTTCCTCACCATTAAAAGACGTTTATAAAAAATATTCAGATCTATTAGATAAGAGAGAGAAGATAGAGAAAAAAATCTGATTAGGTCTTATCATCACTATTTCAGGGTCCGCCACAGTCTTCATCAATTGGTATATTACTTCATTAGCTAGTGAACTCCTTCGGCTCTTCAAGCCATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTACCCTGCCCTAACGGGCAAGGCTTCCTGCTAAAAAGCTCCACCTTGCCAGAAGGCGGAGCTCCACAGTGAGTGTCGTTCCGACCACGAGCAGTGGGCCTACAGTATCCCAATATGGGTCTGCTGGATGGAGTAGAGGCGTACCACATGGACCCTCGCTTTAACCAAGGCGGTGACGCTTACTCCGTCAGTGATTGCCATTAAGAGAATATTCGAAAAAGACGTATATAAGCTTTACAAAGGGGTTTATTCATCTCCACGGATGGAGTATTCCGCCCTCTTTGAACCCCTGATCATGATAAATTGATACACTGAAATTTTTATTGGTATTTCTTTCTTTACAGTAACTTAAAGAACAGTTTTTTTAAGTAAAAAACGTTAAAGATACGTTGGGCAATAATGCAAATTTCTCCTAAACGTATAAATTCCTATGAATGGCGGATCGATAAAGGTACACAAGAATGTATGAAAGTTCCAGTTACCATATTTGCAGACGATGTTTTGATAGACAAAATGAAACAAGATTTAACTTTAAAACAGGCTACTAATGTTGCTTGTTTACCAGGAGTACAAGAATCTGTATATGTACTTCCAGATGGACATCAAGGATACGGGTTTCCCATAGGTGGAATAGCCGCAACTGCAATAGATGAAGATGGGGTAGTAAGCCCTGGCGGAATTGGCTATGATATAAACTGTGGAGTTAGACTACTTAGAACTAATTTAGATTTTAACGATGTTAAACCTAAACTAAAAGACTTAGTAGAGGAAATACATAAGAATGTTCCTAGTGGCGTAGGAAGTGAAGGTAGAGTAAAACTTTCATTACAAGAACTAGACGAGGTACTAAGCAGAGGTGTAGATTGGGCTATAAGTAAGGGATATGGATGGAGCGAAGATATGGAACATATAGAACAGAAAGGTAGCTGGAATATAGCCGATCCTTCTAAAGTGAGTAAAGTAGCAAAACAAAGAGGTGCTGGGCAATTAGGGACATTAGGTGCAGGAAATCATTTTCTAGAAGTTCAAGTTGTAGACAAAATTTATGATGAAAATGTTGCTAAAACCCTTGGAATAACTCATGAAGGCCAAGTTACTGTCATGATACATACTGGTTCTAGAGGCCTAGGTCACCAAATAGCTAGTGACTATCTACAAATAATGGAAAGAGCAATGAAAAAATATAATATTAATGTACCAGATAGAGAGCTTGCTGCCATACCATTTAACAGTAGAGAAGGACAAGATTATTTCCATGCAATGGTAGCCGGTGCAAATTTTGCTTGGAGCAATAGACAGCTTATAACTAATTGGGTTAGAGAAAGCTTTGAAAGAGTTTTCAATACAAGTGCAGATAAACTTGATCTGCAGTTAGTATACGATGTTGCTCACAATATAGCTAAAATAGAAGAATATGATATTAATGGAAAAAGGAAAAAAGTTTTAGTTCATAGAAAAGGTGCTACTAGGGCATTTCCACCAGGAAGTCCTGAAATTCCTGTAGATCATAGAAGTATAGGACAAGTTGTTCTAATACCTGGAAGTATGGGTACTGCGAGTTACGTTATGGTAGGAATTCCTGAAGGTAGAAGAACATGGTATACTGCACCTCATGGTGCTGGTAGATGGATGTCAAGAGAGGCAGCAGTAAGAAACTATCCTGCAAATAATGTAGTAGAAAATCTTGAGGAAAAAGGTATAATTGTAAGAGCTGCAACAAGAAGAGTTATAGCAGAAGAAGCTCCTGGCGCATATAAAGACGTAGATAGAGTAGCTAAAGTTGCTGATGAAGTTAAAATAGCTAAACTTGTAATGAGATTAAGACCAATAGGGGTAACGAAAGGATGAAAAGAGAGGACTTATTAAAAGAAGAAGTTCAAGATATAACACTCGATGATGTCAAAGGATTGTATAAAGCTATAGAGATATATAAAAAAATCTATGGATTTAGTGCAGAATCAATGTATAAATCTTCAGATATACTTAAAGAAATGATTAAAAATGCAGATTTAAGATTTCTTTCATTTACTGCTAATTTAGTCTCTACTGGACTTAGAGGATTATTTGCTGATTTTATAAAAAAAGATTTCTTTAATATAATAATTACAACAGGAGGTACTATAGATCATGATATAGCTAGAAGTTTTGGTGGGAAATACTATAAAGGAGAATTTGAATATGACGACTCAATGCTTAGAGAATTGCATATACATAGGCTTGGAAATATATTAGTACCATTTGAATCTTATGGAAAAGTGGTTGAAGATACTGTAAGAAAGATAATACCTGAAATTACTAAAGAGAAGAAAGAATGGGCTGGATATGAATTATTATGGGAATTTGGGAAAAGAATATCTGATAACAATTCCATTCTTAAAGCAGCCTATGACAAAAAGATACCTATTATTGTACCCGGTATTATGGATGGAAGTTTTGGTACTAATTTATTTATACAGTCTCAGTTTACTGGATTGAGAGTAAATTTATTTGAAGACATGAGGCTTATTAAGGATTTAGTGTTCACATGCAAAAAGTCTGGTGCTTTAATTATAGGTGGAGGAATAAGTAAACACCATACAATTTGGTGGAACCAGTTTAAGGAAGGATTAGATTATGCAATTTATTTAACTACTGCTCAAGAATATGATGGTAGTCTTAGTGGAGCTAAACCTAGAGAAGCTATATCATGGAATAAAATTTTGCCTAATGCTAAACAAGAAGTAATATACGAGGATGCTACTGTAGTATTACCTATTTTGGCTTCATCCTTATTAAGTTAATCACTTAATATTTTACTTATGGTGATTTGAGTGTCGCTCAAAGAGAAATTTACCAGTATCTCACCTGCGGAATTCTTTAAGAGGAACCCAGAACTAGCAGGATTTTCTAATCCAGCAAGGGCTATGTATCAAAGTGTTAGAGAATTAGTCGAAAACGCATTAGATGCCACCGACGTTCATGAAATATTACCTTCGATTAAAGTTATTATAGATATAGATAACCAGGAGAAACAGATATACAAGATAACAGTCGAAGATAATGGAATAGGAATTCCACCACACGTTGTTCCAGACGCTTTTGGAAGAGTGCTTTATAGTTCTAAGTATGTTTTAAGACAAACACGAGGAATGTATGGTTTAGGTGTTAAAGCTGCTGTTCTTTATAGCCAAATGTATCAGGAAAAACCTATAGAAATAGTAACATCTCCAGTAGGTTCTAAAAGAATATATGTGTTCAAATTGAAAATCGATGTAACTAAAAATGAGCCAATAATATATGAAAGATCATCGATTTCTAATGAGAAAAATTTTCATGGTACTTCAGCAACATTATATTTGCTAGGAGATTGGCAAAGATCTAAGTCTAGAATATATGATTATATAAAACGTACATATATTGTTGCTCCTTATGCCGAATTTTACTTTAAAGATCCAGAGGGGAATGTCGTATTTTATCCACGTCTTACGAATAAGATTCCTAAACCTCCAGAGGAAGTAAAACCGCATCCTTACGGTGTCGATATAGAATTACTAAAAAACATGATATCTAGAATGAAGCCTACATATGTAATAAAAGATTTTCTAGTCAATCAGTTTCAAAGCGTAGGAGAAATTACTGCTCAAAAAGTTCTTGAAATGGCAAAAATAGATCCTAATAAGAAAATATCTTCTCTTACAGATGACGAGCTTTCTAGACTTACAGAAGCTATGAAGAAATTTGAGGATTTTAGGCCTCCATCAGCTGATGCTTTATCAGTAATAGGCTCTGACTTAATAGAACTGAGTTTAAAGAAAATATTTAATCCAGAATTTGTAGGAGCTTTAACTAGAAAACCTAAAGCCTATCAAGGCCATCCGTTTATAGTGGAAGTCGGTATAGCATACGGTGGTCAGATTCAACCATCGTCAGAACCATTAGTATTAAGATACGCAAATAAAATCCCATTAATATATGATGAAAAATCTGACGTAATTTGGAAAGTAGTTGAGGAAGTAGATTGGAAAAGATATGGTGTAGAAGGAGATCAAATACCGCTAGTTGTAATGGTTCATCTTTGTAGCACTAAAGTTCCATATAAGAGTGCTGGAAAAGAAAGTATAGCAGAAGTAGAAGAAATAGAAAAAGAAATAAAGTATGGAATTATGGAAGTAGCTAGAAATTTAAGACTTTTTATTTCTCAAAAGAAAAAAGAAGAAGAAACTAAAAAAAGAATGCTAACCTACTTAAAATACATTCCTGAAGTAGCTAGAAGCTTATCAGTATTTTTAGCTGATGGAAAAAAGGCAGATGCGGATAAACATTCACAGGAACTTAAAACAAAGCTCTTTGAAATAGTGGCAAAGAAATTGGATTTAAAAGATTTGGAAGAATATAAGTTATATAAGGTTGAGGAACTGTGAGTGAGTTTACATCCAAAGTAGATAAAGAAGCAAGGCAAAGAGCTGCTGAAGTATTAAAGAAGAGATTCCTGAGTTTAATAGAACAAATAAATAAAGGCGAACCATTAGTAATGGAAATACCAAAAAGGACATTAACTAATACTGTTTATGATGAGAAGAGAAAACTTTTACTTTTAGGAGAAAGTAAACTAAAAAGATCTTTTCTAGATCTTAATGAAGCTAAACGATTTATGCAGACCACTTTAATGGGAAGTATTATTTATGACGCCTTAGTTAATGATGAGTATCCTACTATACGTGATTTATATTATAGGGGGAAGCATTCTATAGTTCTTAAGGCTCCAAATGGAAGAACATATGAAGAAAACACGTGGGATGAGCAAAAAGAATCTGATAGTGTAATAGTGGATATAGAAGTATTTACATCTTTATTAAGAGAAGAAATGCTAATATTAAGTAAAGAAAAAGGAAAAGTAGTAGGCGATATGCGATTAAGAAGTGGCAATGATGTTATTGATTTAAGTAAGATGGGACATGGAGCCTATTCTATAGAGCCTACTCCTGACCTAATAGACTTCGTGGAAGTTAATGCTGAGTTTGTATTAGTAGTAGAGAAAGACGCAGTTTTTCAGCAATTACATAGAGCAGGCTTTTGGAAAAAATATAAATGTATACTGATTACCAGTGCAGGACAACCAGATAGAGCTACTAGGAGATTTTTAAGAAGGCTACGCGATGAACTTAAACTTCCAGTATATATATTAACTGATGCAGATCCGTACGGATGGTATATTTACAGTGTATTCAGAATAGGTTCGATATCATTATCCTATGAAAGTGAAAGATTAGCCACACCAGATGCTAAGTTCTTAGGAGTATCAATGGGAGATATCTTTGGTACAAATAAAAAGAAGCCTTACTTGTCAGAAAAAGAAAGAAATTCCTTTATAATAAAAGCTAAAGACTTCGATGTAAAAAGGGCCTTAGAAATAAGAAATTACAGTTGGTTTAAAACTAAAAGTTGGCAGGATGAAATAAACCTGTTTCTCCAAAAGAAATCTAAACTTGAAATAGAAGCTATGGCAAGTAAAGGTTTGAAATTCCTAGCATTTCAATATATACCGGATAAAATAGAAAAAGGAGACTATATAAGTTAAATCAGACGAGACAGGTTATTTCATCGCTCAAATATATTGGGTTCTTCATCTATTCTGTATATCCTAGGATCTCATTAAAAGTATTTTTCTTACATACTTTACAATACATATAGATAGTCTTTTGTTTGCTTATATCGAAACTAACATTAAGATTCCTTTCAGTACCGCATACTGTACATTTTATTTTCCATGGCATAATATCATTTAAAACCTCTATACAATAATAAAATCTGCGATGAAGAGTTCAGCTAGGCTGAAATAATGATGAAGGGCCAAAGCTCGGAGCACAAGAGTTAAAAACTCACTAATAAATCAAGAAAAGGGTAAAGTTCATGGGAGTTAACTATACCACAGTAGGAGAATTGAAAGAAGGTAATTATATAGTTATAGATGGAGAACCTTGTAGAGTAGTAGATATTCAGAAAGCAAAAACTGGAAAACACGGTGCTGCAAAAGCTAACGTAGTCGCTGTTAGCGTATTTACTGGGTCAAAAAAGACACTAATGGCGCCGGTAGACCAACAAGTTGAAGTACCAATAATAGAAAAACATGTAGGGCAAATCCTTGCGGATACTGGTGAAAAGCTTCAAGTTATGGATTTGAATACATATGAGACGTTTGAAATGGAAAAACCTACAGAGGCGGATTTAGCCAGTAAAATAAGACCCGGAGCGGAAATAGAGTATTGGACTATAATGGGGAGAAATAAAATTGTTAGAGTAAAGTAAAATATTAGGGTCAAATAATGCTAGATAATATAAAAGATGCTGTAAGAAAGTTTCTTAGCGGTAGTTCTTCTTATGAACAAGCAGTAGATGAATTTATTAAAGATTTACAAAAAGCCTTAATTTCTTCAGATGTTAATGTGAAACTTGTATTTTCTTTAAGTAATAAAATAAAAGAGAGATTAAAAAAAGAAAAACCTCCTTCTTCGTTAGAACGTAGAGAATGGTTCATAAAAATAGTCTATGACGAATTATCGTCTCTCTTCGGAGGAGATAAACAGCCCGATGTAGTTCCAGATAAAATTCCTTACGTAATAATGCTCGTAGGAGTACAAGGTAGCGGCAAAACAACTACTGCCGGTAAACTAGCATATTTTTACAAGAAAAAAGGATTTAAAGTAGCCTTAGTAGGCGCTGATGTTTATAGACCTGCTGCGCTGGACCAACTTATCCAGCTAGGCGACCTAATAAAAGTTCCAGTATATGGTGAACAAGGAAATTATGACGCAGTAGGAATAGCTAAAAGAGGAGTAGAGAAATTCCTTTCGGAAAAATATGAAATAATTATTGTAGATACTGCAGGAAGACATGGTTATGGTGAAGAAACTAAGCTCTTAGAAGAGATGAAAAATATTTATGACGCATTGAAACCAGATGAGGTAACATTAGTTATTGATGCTTCGATAGGGCAGAAAGCGTTTGATTTAGCGTCAAGATTTAATCAGGCTAGTAAAGTTGGATCAATTATAATAACTAAAATGGACGGTACGGCTAAAGGCGGAGGAGCATTATCGGCTGTAGCAGCAACAGGGGCTATAATAAAATTTATTGGAACCGGAGAAAAAATAGAGGAACTTGAAGTATTTAATCCTAGAAGGTTTGTAGCAAGAATACTAGGAATGGGAGATATTGAAACAATAATAGAGAAAATGAAAGCATTAGAAGATTATGATTCAATACAGAAGAAAATGGAAGAAGTAATGTCTGGGAAAACTAAGTTAACATTACGAGATTTTTACAAACAAATGATAGCGTTAAGAAAGATGGGTCCGCTCTCTAAAATTTTGCAGTTAATGCCAGGCGTAAATATGCTAGGTCAAATTCCAGAAGATCAAATAAAAGTAGGAGAAGTTAAGATGCGAAGATGGATGGCAATAATGAACTCAATGACATATCAAGAGTTAGATAATCCATCAATAATAGATAAATCAAGGATAAAAAGGATAGCATTTGGGTCTGGTACAGAAATAGACGAAGTAAAAGAATTGTTAGACCACTTTAATAACGTTCAAAAAATGCTTAAAATGATAAAAAGGAGGAAAAGAGATGTCGAAAAACTTTTTGGACAGTTCGGAAATACTGGATAAAGCTAGAACTCTATTAAAAAAATATCCTTTATGTGATAGTTGCTTAGGAAGATGTTTTGCTAGATTAGGTTATAGTTTAACTAATGCAGAAAGAGGAAAATCCATAAAGATTTCTCTTCTTCTTCAAATTGATCAGGAAATTAAAGATCATAAAATAGAAGATTTAAGCGAAGTGAAAGAATTGTTCTTTAACATAGGAAGTTATGCAGAACCTCTTTTTAAGAACTATTTTTCCGAGGAATTTCAGAAAAGAAATTGCTATTTATGTAAGTCAGAGATAGATAATATAAAGAACGACTTCATGGAGAAAGCATTATCTCTTCTTGAGAAACTTGGTAAAGTCAAATACGTATTAGGAGTTAAGCTCTCCGAAAACTTAAAAAGTATAGAAAATTCCTTTTCGTTAGATAATGGAATTTTATACTATGAAAGTATAAAAAACGAAATAAAGAGAGATGTAGGCAAGATTCTTTCATCAAAGGGTTATCCACCAGAGATAGATAATCCAGATATTGAAATAATATATGATATGGATACTAGACAAATTTATACAATTTCTAAGAAATATAAGGTTCTTTATGTTTATAACAGATTAAGCAGAGGCGTACCTTTATCTACATGGTCAGAAGAAGGAAAATCATTACAAAGCAAATTAAATAAGAACATAGTAATTCCTTTCTCCGAACCTTCTGAAGTAAGAATCCTTGATGAATATCCTGTGGTTATAGAAGATGAAAAAAGAGACGAAATTGAATTATGTGGATATGTAATTAGAAAGATTAAAGAAACCGCAGGAAGGGAAATGAGTCTAATAACTCAATCATTACCATCAAAAAGATTATACCGAGTTACAATATATACTTCAGATAAAATAGAAAATTCTAAACAAATATACGATAATATAAGAGATATATTTATTTATGCGAAAAATTTTGATGATCTCCAACAAAAACTGAAAAACTTAAGCTGTGAGATACTTTCAATAGACCTAATATCGTCTGAGGGAAGACACAAAAAAATAGCTGAGTATTTAAATAATGGTAACAAAGATACCTTATGAAAATAGGCTTAATTGGATTAGGAGTTATGGGTTGGAGAATAGGAGCAAATCTTGCTAAGGATAGTAAATTAGATTTCGTATATGATAGAACATTATCAAAAGCGGAGGATTTTTCCAAAAAATATGGTACAAAATATTTTACGTCTATAAAAGACCTTGTTAAAAATTCTGATTACGTACTAACGATGCTTTCTGATGATAATGCTGTTTCCTCAGTATATGGCGATATAATACCAGAATCTTCTGGAAAAATTTTAGTTGATATGTCAACAATTTCTCCTTCTTTAAGTATAGAAATATCTAAAAAAATAAAAGAAAATGGTGGTATAATGTGCGATTCGCCTGTAATAGGTACTTCAATATTCGTAGAACAGAAAAGGATTACGTTTCTTGTTGGAGGACCTAAGGATAAATTTACTGATGTCAAAAATATTTTGCAAAGTACTGCTTCTAATATATTTTATATGGGAAGTAATGGAATGGGACTTTATGCCAAGTTAGTAAACAATCTTTTACTTGGAGCATATGCTTCAGCATTAGCAGAAGCGTTTAATTTTGGAATAAAAAGTGGATTAGATCCTAACGATGTGGTTAAGCTACTTTCAGAATTAAGTAGCTCTAAATCACCTACCTCTGAAATAAAATCTCCGAAAATGTTAAACGGAGATTATAGTACACAATTTGCTACTAAACATATGAGAAAAGATCTAGAAATAGTTCAAAAAGAATCTCAAAATCTTAAAGTTATAACTCCATTATCTTCATTAGCACTTCAGTTATTTAGAATGGCTGAAGCTATGGGGTATTCTGAGGCTGATTATATTTCAGTTGTAGAAGTTTTCAAGAGATTTTCTCCAAAATAGACGAGAGATTTTTCTTAAAATTTTCAAAACTAAATTGATATATCTTTTTAGAGTAGTCAAATTCAATGCTAGAGGCCTTTTTTATACCATCTATTGCGCTATCTATATCGCAATACCCTATGCCATATTTTCCCTCTTCTATAATATCGTACCACGCTCCTCCACTCTTATGGACTACTGGAGTTAATCCAGCTGCCATTGCTTCAACTATAGAAATACCAAAATGTTCATTTATTTTCGGATGAAAATATATTTTAGCTTTTGAAAAATAATCTATTATTTCTGTATCATCAGGATTCTTTCTAATAAAGATATTATTTAAATTTTTTGAGTTATTAAGAATATAATTAATATATTTTTTATTTCTACCTTCAGATCCTAATATAACAAATTTATAATCTTTCATTCTTTTTGCAACCTCAATTATATTTTCAATGTTTTTTTCTGGAGAAATCCTACCTATGTAAACCACAAGCTTTGGATCTCTATTCGAACTTTTTATTTTAATTCTAGATATATCGACTGGCGGATAGAGAGTTTCTGCCCTATATCCCGATATTTCTAGAATTCTTCTAGTCCAATTGGAATTAGCTAAAAGTTTTGTCTTTGATTTTCTAAAAAACATTCTATGAATATATTTGTAGGGCAAATAGTACATTCTTAATTTTCTATTTCCTATATAGCTCTCATACTTATAGTAATTATCTATATATTTCAAATTATCAGTTAATGACCAGGGAAAGTGTATATAACTATAATCACTCCATGTTATGTCTCCTATTGTACTAAAGCTTCTCTCTTTTTTAGTCATTAATGAAAGATAAAGCGCTTTATAAATTCCAAACTTTAATGGAAATTTTTTTATTACTATCTTATCTGGATCTACAAAACGAGGATCCCATTTTTTTATTTTTTCTTTATTTATTTCAGATAAAGTAATTAATGTCACTTGATAACCAAGGCTTTTCATAACATTTAATACCGCAACAGCTACTCTCTCGCTACCTCCTAATATTTCAAAAGAATGATGAAAGAGTGTAAACTCCACGAAACTTAATTTTTCATATAAATTATAAGCTAATATGGAGCTCAATGTATATAACAAAAGAGTTCTCATAACAGCATCTACAGAAGGTATAGGAAAAGGTATAGCAAAAGCGTTAGCCAAAGAAGGCTGTAAAATAATTATATCCTCAAGAAATAAGGATAAAGTATCAAAATCTGTCGAGGAATTAAGAAAAATTAACCCATCAATTTGGGGAATCACTTCTGATATTACTGATGTAAGAAGTATAGAGAAATTATCTTTATTCACAAAGGAAATTTTAGGTGATATTGATGTCCTAATAGTAAATTCTGGCAATCCGCCTTCAGAACCATCATATTTTGAAGAAACAAATATTGAAGACTGGGAATACTCTATTAGATTATATTTAATAAGTGCAATAAAATTGGTTAAGGAATTCTTGCCAGGAATGGTTAAAAATCACTGGGGCAGAATAATTTTTCTTTCATCTTGGACCATAAAAGAACCTCAAAGCATTTTTGCTTTAGCAGACGTATCTAGATCTCCATTAATTCAATTATCTAAAATTTTAGGAAGAGACTATGGAAAATTTGGGGTAACTATAAATACCATATTAATGGGAAGTTTTGAAACGGAAGGGGCCAAAAAAACTATACGAAATCTTGCAAGTAAGAAAGGAGAAAAATTTGAGGATTTATGGCAACAACTTGTTATATCTCCAATTCCTGCCGGAAAGATTGGTAATCCTGAAAAAGATCTCTCACCACTAATAATTTTCCTTATCTCCGATCTTTCCTGGTATATAAATGGGACTAGTATTCTTATAGACGGAGGTATGACAAACGCTGTGTAATACGTTGAGGGAAACCTTCAACATCTATTATTGAAGGATTGATGGTATTATCAATTAAAACAGTCATGGAAAGGCTTATAATCTTAATCCTACACCATTATTATTGGTTATCATGAGCTCTAAAAAAGCAGTAAAAGTAAAAACTCCCGGAGGAAAAGAGATGGAACTAAATCCGGAAAAAGTATGGACACTAGCTCCGAAAGGAAGAAAAGGAGTAAAGATAGGATTATTTAAAGATCCAGATACCGGGAAATATTTTAGGCACAAGCTACCAGATGACTACCCAATTTAAACTTTTTTATTTCCGTTTTTATTATATTTTGATGAATCTTATACTCAAAATAAGTGGTAAATTCTTTGATGAGGAAGATGCTGAAAAATTAAAGACGCTAAAAAACACTGTAAACGAATTAACTAATGAAGGTTACAGGGTTGGTATAGTTACGGGTGGAGGTAGAACTGCAAGAAAGTATATAAACATAGCAAGACAAATGGGTAGTAATGAGGCTTTTTTAGATCTTTTAGGAATATGGGCGTCTAGACTTAACGCATATCTTGTAATATTTTCTCTATCAGACTTAGCTTATATGAAAGTTCCAGAAAGTCTAGAAGAATTTACACAAGCGTGGTCTTATGGAAAAATAGTTGTCAGTGGAGGATTCCAACCAGGACAATCTACAGCAGCAGTAGCTGCTCTTACTGCCGAAGCATCAAATTCTAAACTATTAATAGTTGCTACAAATGTAGATGGCGTATATGAGAAAGATCCAAGGATTTATTCAGATGCTAAACTCATATCAAAGCTAACAACTACGCAATTAAGAAAAATTTTAGAAACTTCCCAATCTGTTAATGCTGGAACATATGAACTTTTAGATCCTTTGGCAATAAAAATAATTGAAAGGTCAAAAATAAAAGTTATAGTGACAAACTATAATAAATTATCAAGACTAACAGAGATTATTAAAGGAGAAGAAATAGCAAGTATAGTTGAGCCTGAGTGAAAATTATGTCAATATTAGATCAAGAAGAGTTTAAGCAATTGAGAAATTTTAAAGGTAAAGTAGATTCAGAGCTAGTAAAAAGAATCTTGGAAGAAGTAGAGTTAGATTTCGAAAAAAGCGGAAACATAAAATCATCAATAATATTTATTTATACTAATTACATTCAGCAAATAAAGCAAAATAGAGACTTTTTCAACTTACTATCTATAATATTAGAAAAATATACACCTAAATTAGGCATTGATAATGTTAATCAATTAATACTAAGTTCCATATCTTAGTTCGAATCTAAAACCTTTTATTTTGATATTATTTAATAATCCACTAACTCGTTTTGAACGTGTAGGTGCAATATTTGAAACTAGGAATATTAGATTCTACATTACGTGAAGGAGAGCAAACTCCCGGCGTAGTTTTTACTACTGATCAAAGAGTAGAAATAGCTAAAGTTCTTTCAGACTTAGGCGTTAATATGATAGAAGCAGGTCATCCTGCAGTATCTTCTGATATTTATGAAGGAATTAAAAGAATAATGAAGCTAAAAAATGAGGGAGAAATAAATTCAGAAATAATAGCTCACAGCAGGGCAGTAAAAAGAGATATAGAAATAGGAGCAGAACTAGAAGTAGACAGAATAGCAATATTCTTTGGAGTTAGCGACATTCATTTGAAAGCCAAGCATAAAGTATCCAGAGAAGAAGCATTAAACATAATTTCAGAGCATATAAGTTACGCTAAATCACATGGAGTTAACGTAAGATTTACCGCAGAAGACGCTACTAGAACAGACCTTGATTACTTAATCCAAGTAATCAAAACAGCTAAAGAAGCAGGGGCGGATAGAATAGGCATAGCCGATACAGTAGGAATACTTTATCCCGCAAAAACAGTTGAACTCTTTTCGTTTTTGACTAGACAAGTTTCAGGAGTTGAATATGATATCCATGCTCATAATGATCTAGGTTTAGCGGTAGCAAATTCTTTAGCAGCTGCAGAAGGTGGGGCTACTATAATTCACGCTACAGTTAACGGTTTAGGAGAAAGAGTAGGAATAACTCCATTACAAATAATAGCAGCTGCTATAAAATATCACTTTGGATTAGATGTAGTAAAACTCGATAAATTAACAAAAATCTCTTCATTAGTCGAGAAATATAGTGGAATTTCTATGCCGCCAAACTATCCAATAACTGGTGACTATGCTTACATCCATAAGGCAGGAATTCACGTTGCTGGGATACTTAACGATCCAAGAACTTATGAGTTTATGCCCCCAGAAACATTTGGAAGAAGCAGAGATTACGTTATAGACAAATATACGGGTAAGCATGCACTTAAAGACAGATTTGAAAGATTAGGAGTAAAATTATCCGAGGAAGAATTAGAACAAGTACTTGCTAAAATAAAAACACAGAATACGAGGTTCTTAAGAGACGTAGATCTTTTAGAAATAGCTGAGGGAGTTACAGGTAAAATTCTAAAACCTAGACCGCCAGAAAAAATAGAGGCAATGGTATCAATAAAATGCGATTCCAATATTTACACTACGTCAGTAACAAGAAGAATATCAGTAATTCCAGGAGTTAGTGAAGTTTTAGAAATTTCAGGAGATTACGATATTATAGCCAAAGTAGAAGCTAAAGACTCAGTAGAGCTAAATAATGTCATAGAAAATATAAGATCAGTAAAAGGTGTTTCTTCAACTCTCACATCTTTAGTACTAAAGAAAATGTAAGGAAAGAGTTTTATATGTTATAAAATAATGTAAATAATGACCAGCGGGGGTGCCCGAGCTGGTCGAAGGGGGCGGACTCAAGACCCAGTTAAGAGATCCGCTGGCGAAGGCCATCCGGGGTTCAAATCCCCGCCCCCGCATTTTATTTATAAAATATTATAATAGTTTCAGAAATAGAGCTTTCATAAATTTCTACTTCATGAAAAACGTTCTTTAAGTCGAATTTTAAATTTTCTACATCAATCTCTTTATAAACTCCTAAAGGAAGGACAATCATTACTTCCTTAGCGTCTTTAGGAATTATAAATTTCAAGCTTTTATGAATATTGGAAACCAATTTAGGCGACAAAGTTTTAACATTAACAAACCCTTTATTCGACACAATCTCACTTAATACTGATTCTATTTTATCGTTAATGTAACTCAGCATTTTCACTAGCATCTTTATATATTGTCTAACAAAGGTTAAAAATCTTAGCGGATAGAAAATGAAAATACTATTTCCTAGAAAATGTTACGAATGATTTATATCTAAGATAATAATTTCCATAATAATACGATATTTCTCCTATTACTTCATTATTCTTTTTTACATTGTATTGCAATTTATTTAGTCCTCTCTCTGTAGTTAATATCGGTCCTTCTATTTTTAGACCTTCAGAGATAGCCTTATCCCAAATTAACGACATTAATGAGAAAAAATCCTCCTTACTACAATAAATCTCTCCGTAGTTCAATAATTCAGATAATTTTTTACTCTTTAAAGCTTCCTTAAACTCTTCCATTAATATTGTTGTAGACATCACTTAATAAATAGTTATCAAAAAATAGAAAACAGTTAAATCCCCTGTTTTATAATAACATATGCAATTAGAGAAAGCCGATGATGTAAAAAGACTGGCAGAGGAGATTAATACAAAAGCCAGTTTAGGCTTAGATTTAAGTAAAGTTATTTTTTTACGTAGTCAACATTCCAAAACAACCGCAATAGCTAGAACATTAGGCTTACCTCCTCAGTGGAGATACGTATTTGGTGAAGACAAGATATATATTATTGAAGTTATAAGCGAAAAGTTCGACAAATTAACATGTCATCAAAAGATTTACGTTGTAGTTCATGAACTACTCCATATACCTTCAGGAATGAAAGGAGGATTAAGAAATCATACATATAGAGAATTCAGAAATATACGAAAGATAATTAAAGAAAAAGGACTAGATGAAATATGTTGGTGAATAAATGAGATTCTGTCCTAAATGCGGTTCAACAATGATAATAAAGAACGATAAAATGGTTTGCATGAGATGCGGATATTCAGATAACAAAATCGAAAAAATTGTTTATAATAGTAAAATTAACCATGACAAGGATAAAATGATAGTAGCAGACGGTAAAACTTTGGAAGGAAGATTATCCATGAGTTTATGCCCAAAATGCGGTTCTGCAAGAGCATTAAGACTAAAAAGAGGATTATTCAAATGCATAACTTGCGGCTATATTTACAGATCATAATTATGTAAATTATTTTAACATATAAATCTTTAAATACTCTAGAATATAGAGAATTTGATTTTAAAATAACTAGCTTCCTTAATAAATATTTTTTGTATAAAAATTTGGGATATGATAAATAAATGTATAGGACATTAACACTTTAATTTCTAAGACAAACAATATCATAATGATAACCCTTTTCAAAGCACTAATAATGCTAGGATTTGAGAAAGTAGCACCGAGGACTCTTCAGCGAGGACAAGTTACAGTAAGGGTTAATTTCGGTTACGATGTTAAATGGCATATAGATACTCCATTGGGATCAGCAACTTATTATAGTCAAAAAGCTGCCTTACACGGTTTAGTCTTAAGATTAGCAATATCGAAAGAAGATCTAGAGTTTTTAGCTTCGATAGGTTTAGATTACGCTAAAACCGAGCTAGAAAACTTTGAAAAAACTATGAAAAGAATAGAATCAAACGATCAAAAGGCAATTCAGAATTTTCTTAAAAAGGAAGATTTTTCCAAATCAACTAAAAATGAAGAAGACTATTTCTATGATATAAAAAGGCAATTTATAAAACAAACAATATACCCAAGGCTCACTCAAATTTTGCTTGAAAATAGAGGCAGATGTCCAATATGCGGAAGAATATTCCAGGACGCTCCATCATTCTATAATCATATTAATATGACTTCAGTGATGCAGAAACAACACAAAGAATTCTTAAAAAACGTAATGTCTGAAGTAACTGGAGAAATTCCTTGATCTTTTATTTAAAATTAAATATAACATAAAAAATAATTAATTTTCGTAAAAGTTCTTACTAAATCTTTTAATACCAGTATCTTGTTTTAGCAGCCTTATATCCTTCTTTATATGCTGTGTATGTAACAATAAATCCTATTGCTAACCCAGTTATTAGTATTAGAATTACATCTATTATAGAAAAATCGCTAGAATCTATAGCTTTCCTAACATTTCTTAGGTTAGAGAAGAATCCACTAATATAATCCCAAGCATCAAAAATAGTAGCAAAGGCATTATAAGCAGTTATTAATCCAGCTTTCCAATCCCTATATTTTACTGCAGTCACTAGTGTAGTATATGTTGCTATAACACCCCATATTATTATTTCCAAACCAAAGACTAAGAAAGAAAAAGAAAACAAAAATACTGCAGAAGAAATACTGATATAGCCAAAATATCCTAAAATGAAAGTCAATATAATTACAGCAACATAACCCATTGGTAAAAATCCACCCAAAGTATAGAATAATCTACCTAATCCTTTCCTATAAGCCGATATCTTACCAGCGTTATAACTATTCCACAAAGCAATAGCTATATCTATTATTAGAAAAATGATATCTAACAATAGGCCTAAATTCATTAACACCTTATCTTATTAAACATATAATAAAACTTTCCCAAAACAAAAAACTAGTATACAAGAGTTAACATATAAGCAAAGAAAAAGAATTCCATTAGGCGAAAATATTTTACTACTTCTGATAGCACAACATGTAACAGTTTAAGAACTTTCATTATTTAAATTATTATATTTATTGTTTACTAAAAATATCTCTAACTAATTTCCTAACTTCCTCTTTATTACTATATTTTTAGTGAATAAGGTTATTTTTTTTAAAAAATGTATGTAAAACTATGCTTTGTGGAATGATTGATTTTTACAGATCTCAATCTTATCATAATTTCGTAAATTCTAAATTTAATGCCTAATTGAAAACTGATTTATCGATAATTACAGAAAAACTGTCAAAATTTTCAATAAGCATAAATATTATATTTTCAATAAAATCAGAGTTGTTATATAGGTATATTTGATACTTATTATGAAAGCATTTATAAATAGTAATTCGAAAAAATATGTGGTAAAAATACATGGGAGAAACTAGTGAAATACCTCCTGAACCTAATTTAGAAGGAGGAGGGTTAATAACTATTGTAGGAATAGCTGCAGAAATATTGCAAACGCTAACTAACGATACTGCTACAAGCCAAATGCAGTGCACGAAAAATAACGAGAAAAAGCTAATAATAAGTGGGCCCCCTTCTCCGGAATTATATACTGTAAAAAGTGGAGTAATTTTCGCTAACGCAGTTAACGCGAATTCTATAGGTAACGAAATAAATTCAGTCTTAGATCTCATAGGAAACGGATTAATATATGTAACTAACGATAATGGTGATACAAGTGCATATTTTATAGGAAGAGTAAAAAGCTCATGGAGGGAAGTCGTAGTAGCACAAGACAAATGGACTACTAAAGTATATTTAAACCAAAACAGTAGAGACTTCATACAAGATTTTCAAGCTAATGTAAACAAAGGTGGCGGAGTAAACTTCGAACTAGGAATTATTTATCTAGGAAAACCAGAATTTCTTAATCCATTACCAGAACAACAATGTAACGGTCAATGGTATGACTCCATATTTAACGTATGGGAAAGTTATTTAGCTGGTATAAGAGGCGGTACAATTTCCTCATATTCCACTAAAGTTTATGAAGGATTTAGATATATGAAGCCAGTAACTCAATGGGGCTGTAGAAAAGGATATTGTTACATTAGTCCAACATTTGTAAAACCTAGATTGTCTACAATTACAGCAAGTGCTGGAATGCAGTTTCTTTCATATTTACAAGAATCGGGTGAATTACTTCAAATTATACCTGGATATAAGGGAGATTTATATTCTCCTTCAATTTTAGCTTATCTTTATCATCAGTTCGGAATAAAATCTAATGGCGAAATGAGTAAATGGCTCTCAACTTTTATCGGTTCGCAGTTTGTTTCATCAGACGCTTGTCCAGGCTCATCGTCGGGGTGTAGTGAAAGTGGAGTTTCAGCCTTAATAGGTGCTACAGTTTTCGTAAAATACTACGGCTTTACTCCTGGCTTCTTTATAGCGTTTCCTTCTCCTAAACTTCAAAACGCTACTACGCAAGATCTAGTAGATTGGATGAACAAAGTATTCTATTGGAATCCTAAAGCCTCGGAATACATTAATTTTATCATAGGTACAGTATCAGCACTGAATTCCGTAATACATGAAATAAAGTCATCTGAAGGAGAGGACATTGCAGAAGCTGTTAGAAGAGCTTTACTTTCTACAGTAGGTTATACTACTGATAAGAACGAATATAGGGAAGCTGCAAAATCTATAATACAGAAAATTAAAAAAGCTATAGAATTAGCGAAAAACAATTTACAATCATCTTTACCAGAGTATCTTAAAGGAATGGGCGCAAAAAGGAATATGATCAGCTATTGTATGGGTATATTAGATTCAATGATAAATGATTGTCTACATAATATAGACTATTCTGAAGATACTACAGAAGACGATTTGGCAGATCAAATACAACAATGCGTAATTCAAGAATCACAAACTCAATGTTTATAAAATTTTTAATTGAACTCAATTTTTTATTTTATAAAATATGAAATTGATTTTTTCTCTAATTATTTGAATGCCTCGCCTAAGTTTTTACATTAAATTTCTTCAATAATTCAATTTTATTACATAATTTATGAAGGAGAAAATTATTCCCAGTATATTATTCTTTCACTATTCTCAAGCCAAATCTTTCCAATCTCTTAAAATGCTTTAAATTATTAGTTCTAAGGCAAAGATTATTCGCAATACATATAGATCCTATAAGCAAGTCAGGATCCTCTATTAACTCCCCATTTTTCCTTAAATCTGAATAAATATTCGACGCAGTTATAATCGAATTATTATCCAAACATAACACATTCAAATAAATCTCAATAGCAGCCTTAAATTTCCCTACATCTTTACCCACATAACTTATCCCTCTCAAAAATTCATAAACACTAATACAAGTAGTATAATAACCAGAATACTTCTTTATCCCATCTTTAAAAGCGTCTATTAGAGCATCAGTATCTAAGCAAATTCCCTTGTTCTCCACTTTTTCCTATCCTCTGAAACAATCCTCTTCAAAAACTCAGCCTCTTCATCACTAAGTTTTGGGACTTCAGCCTCACCAAAAACCTCCTGAAAAAACTCATCCCAACTTAAGGTCTTATTAAGCTTAATTTCAATCTCCTTCTTTTTCACGTAAAGCAATTCCTTAGTTTTTTCACTAACAGATATTGTAGTAGTCTGAGTCATAAGTAATTATTTAATTATATAATTATTAAGCTTTATTCTCTATATAAGAACTCTACATTCTTTGTGCTCCAAAGATAATGAAGATTTTCATTTAAATGGTATCTCTAGATACTAAGGAAGTTTACCTATATTATCACTTTAAGATCTGAAGGAGTATAATTCAGTTTTTACTACATTATAAAATACTACTAGATAATATTAAAGACATAAAGAGAAAATATCATCTAAAACTAAAATGTTTTTAAGAAACATCAAAGATTTCGAGAAATATTTCATCATTTTACTTGCGTAACAGACGTTGAGCCCTTTATACTATGATTATGCAGTAAAAAATTTTTATGAAAATTCTATACAATGGAAAATTTGCCATAATTTAACGTGAATAATAAGGGAGAAAATTATGGAATATCGAAAAGTTAGCTTTATATCTGGTAACAAGATAAGAATATACTTGCACAGAACCCCCCGGGAGAAATCCCCCCGGAGGGCTCATGCTTACATATGGAGGGATGAGAACCCCAGAGCCCATAACTCTGGGAAGCTCATTCCTGACAAGAGGAACCGAGACAGTGAAAAGCATCCTGTCTCCTAATTCCGGTTGATCCTGCCGGACCAGATCGCTATGGGGATAGGGCTAAGCCATGGGAGTCGTACGCTCTCGGTAAGAGGGCGTGGCGGACGGCTGAGTAACACGTGGTCAACCTAACCTCGGGACTTGGATACCTCCGGGAAACTGGAGCTAATCCAAGATAGGCAAAGGAATCTGGAACGATCCTTTGCTTAAAGGCCTCTAGGCTAATACTGTCTAGAGGTGCCCGAGGATGGGACTGCGGCCCATCAGGCTGTTGGTGGGGTAATGGCCCACCAAACCGATAACGGGTAGGGGCCGTGGGAGCGGGAGCCCCCAGTTGGGCACTGAGACAATGGCCCAGGCCCTACGGGGCGCACCAGGCGCGAAACGTCCCCAATGCGGGAAACCGTGAGGGCGCTATCCCCAGTGCCTCCGATAGGAGGCTTTTCCCCACTTTAGAACGGTGGGGGAATAAGCGGGGGGCAAGGCTGGTGTCAGCCGCCGCGGTAATACCAGCCCCGCGAGTGATCTGGACGTTTATTGGGCTTGAAGCGCCCGTAGCCGGCCCATAAAGTCACTGTTTAAAGACCCGGGCTCAACCCGGGAAAGGGCAGTGATACTTATGGGCTAGGGGGCGGGAAAGGTCGGAGGTACTCCCGGAGTAGGGGCGAAATCCGTAGATCCCGGGAGGACCACCAGTGGCGAAAGCGTCCGGCTAGAACGCGCCCGACGGTGAGGGGCGAAAGCCGGGGCAGCAAAAGGGATTAGATACCCCTGTAGTCCCGGCTGTAAACGATGCAGGCTAGGTGTCGCGTGGGTCTAGAGCCCGCGCGGTGCCGCAGGGAAACCGGTAAGCCCGCCGCCTGGGGAGTACGGCCGCAAGGCTGAAACTTAAAGGAATTGGCGGGGGAGCACCACAAGGGGTGGAACCTGCGGCTCAATTGGAGTCAACGCCTGGAATCTTACCGGAGGAGACCGCAGTGTGACGGTCAGGCTAATGACCTTACCTGACTCGCGGAGAGGAGGTGCATGGCCGTCGCCAGCTCGTGTTGTGAAATGTCCGGTTAAGTCCGGCAACGAGCGAGACCCCCACCTCTAATTGGCATTCTCTCCCCCGGGAGGGACCCACATTAGAGGGACTGCCGTCGTTAAGACGGAGGAAGGAGGGGGCCACGGCAGGTCAGCATGCCCCGAAACTTCTGGGCCGCACGCGGGTTACAATGGCAGGGACAACGGGAGTCCAACCTCGAAAGGGGGAGGTAATCCCTTAAACCCTGCCTCAGTTGGGATCGAGGGCTGAAATTCGCCCTCGTGAACGAGGAATCCCTAGTAACCGCACGTCAACAACGTGCGGTGAATACGTCCCTGCTCCTTGCACACACCGCCCGTCGCTCCACCCGAGTGGAGAAGAAGTGAGGTTTCTTGCCCTTCGGGGTGGGGAATCGAACTTCTTCTCCGCGAGGGGGGAGAAGTCGTAACAAGGTAGCCGTAGGGGAACCTGCGGCTGGATCACCTCACATAAAGCTCCCCTGTTTAGAGGAGGCAGGATGCTCACTATAATCTCGGTTCCTCTTGTTAATGCGGTTCCTCTCATCTTGAGAGGAACTAAGTAGCCAAGAGTTCCTACAATAGGCCTGCGTCAGTTATTGATGTGGCTTATTGTAGGTCTCAATGAGGCTAGTTACGACCAACGCCAGACAGCCACCTAGGGATGGCTGCGCAAGGGCACCAAGCCATTCGGTGGATGGCTCGGCTCGGGCGCCTAGGAAGGGCGCGGCAAGCGGCGATATGCCCGGGGTAGGCGCAAGCAGCCTCTGATCCCGGGATTCCCGAATGGGACTTCCTGCCCGTTAGGGCGTTCCCGCCTAAAAAGTGGGAACGGGAACTCTCCGAACGGAAGCATCTTAGTAGGAGAAGGAAGAGAAATCAAAAGAGATTCCCTGAGTAGGGGCGACCGAAAGGGGAATAGCCCAAACCAAATCTGCCGGTGATAAGCCGGTGGAGATGTGGTGTTATGCTTCTTGCCTGCGGGTTCGACTCGCGACCTTCCTAGCTCATCTAGCCGAACTCCTCTGGAATGAGGGACCATAGAGGGTGATAGTCCCGTAGGTTAAAGATGAGTGGAAGGTGGCAAGAAGCAGAGTACCATCCCCTGATTTGGGGGTGGGAAGTTAGGGGACACGTGCCTCTAAGGCTAAATACGTCCCGAGACCGATAGCGAACTAAGTACTGTGAAGGAAAGCTGAAAAGAACCCCGGAAGGGGAGTGAAAAGAGCCTGAAACCGAATGGTTACACAGGGCAGAGCTCGAAAGAGATGAGCCCTTCCAAAGGAGGGGGACGCAAGTCCCTAGTACGAGGAAGGGTGATCGGGGTTCTGCTTTTCGTCTTGAAACACGGGCCGGGGAGCTCATATCAGTGGCGAGCCTAAGAGGGTAAACCTCGAAGGCATAGGGAAACCGAGTGCTCGCAACTCAGGCAACTGAGTGAGGAGCAGGGTCTGTCAGGGCCTGAAGTCACTGGTATGAGGCTAGAAACCGGGCGATCTAGACCAGGGCAGGCTGAAGCCGGGGGAAACTCCGGTGGAGGGCCGAATGGGGGTTCTGACGTGCAATTCGTTCCCTTGACCTTGGTCTAGGGGCAAAAGACCAATCTAGCCCGGTGATATCTAGTTCCTCCCGAAATGCGCCCTAGCGCAGCCTCTCTGGAGGTGGCTTGCGGGGTAGAGAGACTGATTGGGGGTTGGTAGCGAAAGCTACCGATTTCCAGTCAAACTCCGAACCTGCGGGCGCCTGAGAAGGAGGGAGTGGATCACTCAGCGTAAGGTCGAGTGGTAAGAGGGGAACAACCCCAACTCGGGTTAAGGTCCCTAAGTACTGGCTAAGTGCAAACTGAAAAGCGTCTCAAGCCCTAGACAGCGGGTAGGTGGGCCCAGCAGCAGCCATCCTCTAAGGAGTGCGTAACAGCTCACCCGCCGAGGCTTGAGGCCTTTAAGACTGGTCGGGGCTAAAGCCAGTCACCGAGACCCGAGGGGTGGGACTCAATGAGTCTCACCAGGTAGGGAGGCGCCGTGATAGGTGAGAAGGTGGGTCGAGAGATCCACTGGACCTTTCACGGGTGCAGATCCCGGCGGCAGTAATAGCGAAAGGGAGTGAGAATCTCCCTCGCCGAAAGGGCAAGGGTTTCCCGGCAATGGTCGTCAGCCGGGAGTGAGCCGGTCCTAAGGTGAGGCCTAACTGGTACTCACCGAAAGGGAAAGGAGTTAATATTCTCCTGCCTCGGAGGTAGGTGCGGTAACGCATGCTAGACTCCTGACGGATCGAGGTAGGGAGAATGAGGCCACCGCCTCATCCAAGTACTTAAGTCCCTGGAGAGCCGTAATGGTGAGAAGGGGACGAAGGTGCGATGGGCTTTCCGTATGGAGAGTTCTCCTGATCCTTGGTTCCCATGAAAAGGGAGTCTAGAACGATCCTCCGAGTCCGTACCCAGAACCGACACAGGTGCCCCTAGGTGAGAAGCCTAAGGCGTCTGGGGGTTAACTCAGTCTAGGGAACTCGGCAAAATGGTCCTGTACCTTCGGAAGAAGGGATGCCTACCATTGTAGTAACCCTGCAATGGTAGGTCGCAGTGACCAGGGGGATCTGACTGTTTAATAAAAACATAGGTCCTCGCTAGCCCGTAAGGGTGAGAACGGGGGCTAAATCCTGGCCACTGGCGGTCGGTTAAACTCGGGCTCAACCGAGCGAAGCCCCGCTGAAGGCCGGGGGTAACTCTGACCCTCTCAAGGTAGCCAAATGCCTTGCCGGGCAAGTTCCGGCGTGCATGAATGGATCAACGTGATCCCCACTGTCCCAGACTGGGGCCCCATGAACGCCCAGAGTGGGTTCACAGTCCCGCAACCTCCAACACCGAGAGAAGACCCCGTGGAGCTTAACTGCAGCCTGGCGCTGGTTCCCGGGCGTCTATGCGTAGAGTAAGTGGGAGGCGTCGAAGCCATCCCTCTGGGGATGGTGGAGCCGAAAGTGAAACACCACTCATAGATGCTCGGGAACCTAACCCCGAAAGGGGAACAACGTCAGGTGGGCAGTTCGGCTGGGGCGGCACTCCCGCGAAAAGATAACACGGGAGCCCAAAGGTCGGCTCAGGTGGTACAGAACGCCGCCGTAGAGTGCAAGGGCAAAAGCCGGCCTGACGAGACCCTTCAAAGTACGGGGTCTCGACGCGAAAGCGCGGCCTAGCGAACGCTCATGCCCCCACACGTGGGGGCTGGGCATGTCAGAAAAGTTACCCCGGGGATAACAGGGTCGTCGCGGGCGAGAGCTCCCATCGACCCCGCGGTTTGCTACATCGATGTCGGCTCTTCCCACCCTGGGGGTGCAGCTGCCCCCAAGGGTAGGGCTGCCCGCCCGTTAAAGGGGAACGTGAGCTGGGTTTAGACCGTCGCGAGACAGGTCGGACTCTAAGGGTTGGAGGTGCAGGTCGCCTGTGGGGAAGGTACTCCTAGTACGAGAGGAACAGGGTACCAGGGCCTCTAGTCTACCGGTTGTCCGGTAGGGCAATGCCGGGCAGCCACGCCCTAAGGGGTAATCGCTGAAAGCATCTAAGCGAGAACCCCTCCCCGAAAAGAGGCGGCCGTGTAGATCTCCGAAAGGGGATCTACGGGAGCCCACCCAAAAAACATGGGGCTGATGGGGTGGGGGTGTAAGTCCCGAGGGCGAAAGTCCGAGGGATTCAGCCCGCCACTCCCAACGGGCAAGCCCATGCAGTCATCCTTAGGTGGTTGGACGTAATTGGTCGTAACTAGCCTCTTACATTTATTTCTCTTTTATTATGTATTATGGGGATTTTAATTACCGGTTATAGTAGGGTTGATTGGATCTAGTAGTATAATGGTTTTGTGTCTAGTTTTTATGTGAAGGTGCATGATTATATAATTCGTATGTAACGGGATATATTTTGAAAAGTTTGAGTAGAATATTTTGCAAGTGCCTAATAATGTTAAATTCTAGTGTTTGATCTTTTTATTTTGGATTTTATAGTAAAATTTATTTAAGATATTTATTTCCCCATTTTTGTATCTCTTCAAAAACTCCTTTTAATTCCTTACTTTTTTCTGTAAGCTCATATTTTACTCTAAAAGGTCTATCACTTATTATGATTCTTTTTACTAAATCGTAAGTTTCTAAGTCTTTTAATGTTGAGGATAATGTCTTTGAGCTGAGTTTAGTTAGTTTTTGTAGTTCATTAAAACCTTTGCCTCCGTCTAGTAAATATCTTAAAACAAGTAACTTTGGTTCGCTTCCTATGATTCTAATAGTTTCTACTATCGGACAGATTGTAGATTCAGGTTTCTTCAAGGTAATCAGATTTAGTTAGGTAAACGGACTATATATATACTTTACTTTCTAAACTTACTTTGCAATGGCTAGGTTAGTAAAACACGATCGTAATAAGCCATATGAAATAAAGGCAGATAATGGACAAGTTTTTTATGTATGTGCTTGTGGACTATCTAAACATAAACCTTTTTGTGATGGTTCACATAAAAGAACCTTAGATGAGGAAGAAGGGATATATATATACGATGAAAATGGAAGAATTAAAGTAGAGAATTTTTATCCGTAAGTGTTTTTCATCATTTTATTCCGTGTTAATTTTTTTATTTAAACTAACTTCTAAAATTTGCAATAGATTTTATTAAAATTCTTCAAATTAATAAATTAATAATTTTATACATTTAAAAACTTTTAGCCTAACTCTTATGTAGATAAATCAAATATTTAAATTAGTGTTTATTTTTCCTGGATTGAGTCTATCTTCTGGATCTACTTTCTGTTTGAAATCAATAATTTTTTCTAATCTATCATTATTGGTGAAATCTATTTTAACAATGTCATTAACTTTGTAGGAATGTAAGTTAACGTTATAGCCTAATTGTGGTAATTTAGTGTAATCGAGTATATAAGTTCGTGAAAATATCTTATTTGAGCTCTTAGTGATTTCAGCGTTGATTAGACATTTAGCTTCTTCTAGAATTCTGGATTTTTTATCTAATTCGTCTAATGAGATATTTAGCGAATTATAATTTACTTTTCTTTTGCTTACTACTGTGATGAGCCTGCAAAACTTGTTATTATGTCCTTTGTTGCATAGCTTTGGCCGTTTTCGTCATATACTCCGTATATTATATTCCATTTGTCCCATGAATACTCTGGGTCTATTTCTTTTGCCATTCCGTAATTTCTTATGCTTAAGAATTCTGTAGAATTTAATATGTTAAAAGCATCGTCTAGTGCTTTAGATAATGAATTAAATGTTTTCTTAACTATATTAATCTTTTTATATTTTCTATTTACTAACCTCATTTTTATCTTTGTAATAATACCCGTAGTTCCTGCAGCTAGAGTTGTTGAAAGTATATTTTTTCCTGTTACTGTATAAAATCCTTTTGGAGTGTAAATTTCTACTTCTATCAAATTGTCCCATAGAGCTCCGTTTTTTAATGCTCCAAATCCATATGCTCCTGTTGCTGCATATCCGCCTAATGTTGACATGTAAAAACTTGTAGGAATTACTGGAATATCATTTATTCCTATTTCGTTAAAATCATTTCCAGGTCTTGAGATGAGCACATCTCCTATTCTTTTAAATCCTTTAAAATTTGTAATGTCTGCAATTATAGTGTTTTATTGGTACAGTTTCTCCTAGCGTGTTAGTTCCGCTTCCTCTTACTATAATGTAGAAATTATATTCTTGAGATAATTCTAACAGCGTTTTTATTTGTTCTTCTGTAGTTATTTTTACTATTGCCTCGGGAACCTTCTTTAGGTCGTATAATGTAGAGGATAAATAACTATAGTCCATAGAATATTTTTCTAATATTTCTTTGTCAGTGTATATTTCGAAATATTTAGATAATATATCTTTTAGCATAACTAGTATATTTCTTCTGATTTTATAAAATGTAAATCTAACCAGTTTGAAGAAAATTATGATAAATTGTTGTAGTTGATGTTGTAATATAAGGAAAACCTTTGGTTATAGTAGGTTAAAGACTTATTCTTGAATTGTGAATAATTTTTTTATTGCTTCATTATATATTCGTTTATAGTTTTCTTAGTATTTTTAAGGAGAAATTATAATATTTCCAAATAATAACTGTTGATAAATATTTTTATAGCTATATACCTTAGATATTTATTCCCTCATGGCTTTTTACTCTTATGAAATTTTATGTAGGTAGTCTTAGTAGGTTAAAGATTATTTCAGTTAAGGAAGTTCTTAAACATTATATGACAAGCTATGAAATAATACCTTTTAATTCTCCTTCTGAAGTTCCTAGAACTCCTTGGAACGATGAGACTCCAACTGGAGCTAGAAATAGGGCTGAAAATATGAGGAAGAAATTCTTGGATAATGAAGGGGTTTACATAGGTTTAGAAAGTGGACTTGTAGAAAGGTTTAATCAAATATATGAGGAGACGTGGTGTGTAATAATTTATAAGGATAAGGAATTTTCAGCATATTCTAGTGGTTTAAGATTGCCAAGACAAGTAGTAGAAAAAATTAAACAAGGTGTTCCTCACAGTAAGATATTGAATCAATTATCAAAACAGCTTAATGCTTCTCCTAAAGATACATGGGGATTATATACTAAGTTTAAATTAAGTAGAAAGGTTGAGATAAAAGAAGCTTTTAGAAATGCTCTAATATTAATGTTAACTAATATTTAATTTATATTTGTATGGCTTTTTCAATTCTATATGCTATTAAACCTCCTATTAGTCCTGCTATCCAAATGAATGCTAAATGAGTATATAAATCAAAATAGACTTTTTGCCAATCTACTACGGCACCGTAAATAAATGGCCTATAAAACGCCTCGTAAATTATAGGGTCTGGAATTCCCCACAATATACCTACAATAGCTCCTTCTATTGCTGCTAAAATCTTTGGATATGTTTTTGATGATATACCGAAAGGCTTCCCGCCTGTGAAAGCTATTATTGCGTCAATAAATAACCCATATGTTAATGCCTCATAAAAAAAGTATAATGGTTCTCCACCAAATCCGTAATGGAATAAGTCTGAAAGGAATGTAAATACTGTGAGAGATACCATGCCTACACCAGTTTTTCTAACTACGCCTGCAATAACGAAGAGTATAATCATTCGTCCCCAAAAGCCTGGGTCAATAAAATATTCTATTCCTTTCGGTTCTACTCTATCTATAAAAGCTCCTAAGTAAAATTCCCAAACTACGCCTGCAGCAGCTCCAATTCCAATATAAACCCAGTCTAATGTAGTAAAATTTTTCAACGCTCTTCTTCTTTTGGCTATTAAAAATACTAATGTAGGTGCTATTATATAATAGGCTAGTATTATTTCCCAAGGGATCTCTCCAGGGAGGTCTATTAGACCTTTAATACCATTAATCATAATTTCAAATTAAAAGTATAATACATAAATGTTTCCTTTATAGTTATAAAATTCTATATAGATTATTAGGACTATATATTATTCTTGTTAATGAGAAAAGTAATTGGCTATTAAATTATAGACGCTTGTTAGATTATTTTTTCCTAAAGAATAAATTAAATCGTTCTATTATATAATATACATAAATTCTCATATTAATAATCTTTTAAAATTGGAAATATTTTATATTAATCTATTATTGCTGTATTAGTATTTAAACATGAAACCTCTAGGATAGTTAATTCTTAATACATTGTTTTATCATGTAAGAAATAGTATATTATGATTACTATAGTTAGAACTAAGTCGTGTTTTCAATTCTGTATAGACTAGCTTAGTTTTCTTATATTTTAACTTTATATAGAGGTGTAAATTCTAAATCTAACGTAAGATTAAAAGTAAGTATAACTTCTCTCTGAGAAAAATTTGAGGCATTCATAAACTATGTTTTCAGTTAAATATTTTATATATTAAATATCGATATTAGCCTATTTTAATATCTTGATATAATAATAGTAAATATATCGATATATCATTTATTATAATAGAAACATATAATTTTTAGCTCTAAAATAAGAAAGATTTTTAATTTTTCAGTGGTAGTAAATTTGAGAATATGTTTTCTTCTGATCCTTCCGTTATCACACGAAAAGAAAAAATGGATAAAGAAGAAGCTGTAAGGGCTATAAGAGGAGCTTTAATGGCTGAATTAGACGCTATAAACTATTATCTTCAACAAGGTAAATTATTTAATCAAGACTTTATTAAGAAAGTTCACGACGATATAGCTAAAGAAGAAATAACTCATTTTGGTGAATTCTTAAGATTACTCTATGAAACTAGTAAGGAAGATTTTGAGTATATGGTTAAGGGCTGGAATGAAGCGTCTAAGTTAATAGGAAGTAATCCTTCATTTCCAATTACTTTATCTTCTACTTTGGAGGAAAAAGCGCAAAAAGAGAATCAAGATATGAATGTTGAATATTTCATAGCTAAGGCTTTAGAAGAGCGTAAAATAAGGAATTATGGTACTATATTAAAATATGGAGATGAGTCTATTTCCATTTATGATCTTGAGGATACTGGAAATAAATTAATTCAAAAGGATAATAGCTCTTTATATAAAATAGAGCATTTGAACGTTGAGTTTGAAATAAGAAGTGATTTATCTATAACAAGAACTATGGATATTATCTATAAGGCTGGATTAAAATATTCTAAATTGGAGGATTTACTTTTGCTTTCTAATCATCCTCTTTCACTTTCTGAAAGAGGAATAAAAGAAAAGCCTTCAGACTGGGAAATTCCGGGTAATATTGCGTTCGATATTATTAAATCAATGGAAACTATAGAAAGTTCTGGTTATTCTGATATTGCAGTAGTAATTTCTCCTTCTCTTTATGCTAAATTATTTAGAGTATATGATAAGACTGGTAGCTATGAAATAGAATTATTAAGGCATTGTTGTGAAATGATTGTTTCTCCATATTTGAGTGGATTAATAGTATTTTCTAAGAAAGGATTTTATATTTTGGAAAACTCGCCAGCAAGTGTAGAATTCTTAGGTAAAGAAGGAGTTTATAGCGATTATCTTATATCCGGTAAAATTTCTCCTTATCTTATTGATTCTAATGCTGCTATGATATTAAAGTAGTTTTTCTATGTCACTTAGAACATATTTTAAATCTTTTTCCTTTTTTACGTTTAAATCAGGATAAAAGTTACACCTATCTAAGAGAATAGAATCTAAAAATGCTCTTTTTGCTCCTATATAATCTACCTCAAATATATCACCTATATGTATAGCTGGATATCCTCCCTTAGATATAGCTAAATAGAATATCTTTGGATTGGGCTTTACATATCCAACTTCACTTGAGATTACCAATGAATCAAAGTATTTCCTTAAGTCAAACTGATCTATGAGCTTATGGATTCCTTTAGTAGCATTGCTAACTAGTACAATCTTGAGTCCTAAAGATCTTATACCTTCTAGAAAGTCTATGGTATCGTCGTAAAGAAAAGCTTCTCCGTCTCTAATGTTAGATTCATTAAGGGATTTTACTAATTTTTCATTTGGTGTAATTCCTAGGAAGTAAAGGAAATCCTTTAAATTTACTGGATTATGACCGTTTTCGTCTGGAAAGTTATTTAATGCCATAGCTTTTACATATGCTCTAAAAACTTTCTTCTTATCGAAATTATATCCATTATCTTTAACTATTTCATGTACTCGTTCGTAAAATACTGGCCTAAAACCTACTAAAGTACTACCAAAATCTACAAAAACAGACTTTATCAAAATATTTCGCCTAATATAAAATAAAAATCTTAACTTTTTATAGCTATTCTTTCTTTACTTGATTCCTCTAAAGGTTTTGCTTTAGTTTCTGGTATACTGAACCATGTTAAAATAGCAGCAATAAACATTAAGATTGCAAAGAACATCATTGCTACTTCTTTACTTATTGAAACGAAAAGTATTGGGAATAGAAATGATGCTATAGCAGCTCCAGTCCTTCCTGATGCTACTGTTATAGCTTGGACTATTCCTCTTACTTTTGTTGGCGCTAGTTCTACTCCTAGCATTCCAGCAGTACTTATTATACCTGGACCAAAACTGCTTGTAAAGTCGTGTAAACCATAAATTATTAGAAGCATTTCAGCAGGTAAGTAGGCTTCACTTGGTAAAAGTATTGCAAATATAGCAAGGAATATTCCTTCTCCTAAAGCTCCTATAGCCTGCAATGGTTTTCTTCCTAGCTTATCTATTCTTGAAATTCCGAATATTTTACCTGGAAATCCGAATATAGCAGTAATTATGAGCGAAAATATAGCAGGATCATATATTCCTATGGATCTTGCAATTAGAGTAGGCCCAAATAGACCATTTGCGTAGCCTGTAAGATCAAAGAGAAACCATAAGATTGCCGCTATTAGGAACACTTTCCCAGAATTTTTAAAATAGGATAGAATAGAACTGCAATCTCTTAAATTTTCTTTTATGTTTTCTTCTTTTCCAGTTATTTCTTTTACTACTTTAGAGAATTTTATATTATCACCTTTTATTCTTAATAAAAATCTTGATGTTTCAGGTACTTTTCTTCTTAGATAAATAACGGATGCGGCGGGTAGTGCACCAGCTGCTAATATTATTCTCCAGAGTACATTAGTTGATACCAGTGGGGAGATGCCTAAGTAAAGTAAAGATGCTGTTACTGCACCTAAGCTCCACATCATTCCAAAACCCAGGGCTATAAGTTTTCCTCTATCCTTAGCGTTTGAATGTTCTGCCATTATCATTGGTGAAAGCACGTAATCTGCTCCAGTTCCTATTCCTACCAAAAATCTAACTAAAGCTAATTCAATTGGAGAAGAGACAAAGGCTTGTAAAGTAGCTCCTATTGTCATTAACGCTACATCTACACCGTAAAATGTTTTCCTTCCTTTATTTGCTAGAATTCCAAAAATTATTGCACCCAATGCTGCACCTATAAATACTGTTCCTGTTAATACACCTAACCATAAGTCATATAGGCGACTTTCTTTCGTTATTCCGAAAGTTCCTAAAACATCTAGTAAGACCAAGCTTATTGATGACAATAAATATCCGTCAGTAAAAACTCCCATTCCTGTAGTAAATAATGCCTTTATATGAAACATATCAAATTTTTTATCATCCAATGGTTTAAATACGTCTTGTAGTTTCATTTTTCTATTAAAAGCTAAAAAATCATACTATTTAAGAATAATCCAAATAATTTATTTAGTAGTATATAACCTATATTTACTATATATTGTAGGCTTTTCTGAAATTATTCTCTATTATTGTATTTAAAGTACGAAGATCAATCTCTTTTATTTTGGAAATAAAGTCTAATGCTAGTATTATATCGGAAGGCTCTAATAATTTTCCTTTATATTCATATCCTCCATCACTTTCAGTTATGATTATATTTAAAGGCGCGTTTTCTAATACTTTTTTGTGTTTTTCTTGAAAAGTTACTGAAGGATTTATTGTTATGAAATATCCAGCTCCTTCAATGTCTTTAATTAGATCGATAGGCCCAGAATACCAATGTATTATTGCCTTTTTTATATTATGTTTTAGAAGTAAATCTAATGTTTCTTTCCATGCGCATAAACCATGAACATTAACTGTTTTATTCTGGGAATTCTCTAAAAAATTTTCGAAATATTTTATTTGTAAATCCTTAGCTGCCTTACTATATTTAAAATCTAAACCTATTTCTCCTATAAAATCTGCTTTGTTAATTAAATGGAGAACGTTATCTATATTTTCCTTGTCCACATTCCATGGATGTATTGCGACACCCTTAAGTATATTTTTATCACTTATCGATAGTGTATTAATAGACGATGAATAATCCATGCTTACAGCTGCTATCTTGAAATTTTCGTACTTTTTCTTTAATAATGAATAGTGGCAATGTGCATCATAATACATACTAAACTTTACGCTTTTATTTTAATAAATGTTGAGAGTTGTAAGTCGAGATTATTGAGCACTTTTTCTGGTAATAATACTTTTTGTAAAGATTTTAACACTGTCGATGGAAATATTTTACCACTTAATCCAATATTAATTCTCATTGTGACTATTGATGTTATTTCCGTCTTATCTGGAATTTTTCTTGGTCTAAATGATATTTCATAAATCAAATTTTTTGAGTTAAAAGTATAATTTATTAAACCTAAATTATAGTTTGGTCCATTAATTTTTCCAAGAATTCCAGTCTTTAAGACGTTTCCGTAAAATTCTCTTGATATAGGTAAAGCTAGAAAGCCTATATTTTCCTTAAGCCTAACTATACCTATTGAGTTATAAATCAAGTCTTTGTTTTGGATTATCCTTAAGGAATCTTCATAATTCAGGTCTAATCTTATAAAATCGGATGAAGTTAAAAAATGCCAGTTATTACTTTTTATATGTTTTAAAAATGATTTTTTATCGTTAAAATCTTTATCACAACATTTATATGCCATAGTTTATGGTACTAAAAATTCATAAAGAAGATTATTTAGAGACATTCTAATGCAGATTTAAATATGACTGCGTTTTTACTTTACGACCATAACTGGTACTTTTGAGTGATTTAGAACTACGCTAGATACGCTTCCTAATATTACTCTCTTAAATCTAGATAATCCTCTACTTCCAATAATTATAAGGTTTATAGAGTTTTTATCTGCAAAATCTAATATAGCAGTAGCAGGATCTCCCTCTATTACTTCACCTATTATATCAACTTCACGCAAGGTTCCTGCACCTTCTTTTTTAGCTATTTCAGTGGCTTCTTCTACATCTTTTCTTACCTTCTTTTCAAGATCTTTTATTGCTGAGAGTGGAGGTAAAACACCAGTATTATAAAATACGCTTTCGTCTATAGCTTCTACAATATAAAGCCTAGAATTGTAAACTTTGGCTAGATCTATTCCTATAGCTAATGCTTTCTTAGCATGTTCTGAACCATCGTACGCTACAAGTATTCTTTCAAACATGTTCTCAAACTCATTCTTATAATAGGAAACTTTAAATTTAACTTCTAGTAATTAAATAAATATTTTTTAACGTACTCTTTAAGTTCTTTTAGCTTAGTTTTAAGGCAAATGTCTATTATAATGTTTTTTATATTCTTCCTATCTTCGCAATTTAAAGATAGCAGTATTGATTCTGCCTCTTCATATCCTCTATTTGTTAATTTGAAATTTTTTATTCCTTGTAAATAACCTAATCTTATTAAATAATATATATGTGATTCAATTCTTGGACTATAAACAAAAATTCTTTTATTCCATCTAAAATAAAATAATCCGTCTTGTACTATATAATTTTTTGACAGATAATCATAAATTAGAAAACTAGATACAAAAAGTGATATTTTATTCATTTCTCTTTCATGGAGAGAAATTAAAATTAGGTCATCTACTTTTATATTATAATCTATTCGTCCTTCTTTAGTTAATTTCTCGAAATCTGAATATACTTTCTTTAAGAGTAAATACATGGATGTGAATGAACCATATTTCTCTACTTCGTCTATAGATTCTTCAAGTAGTTGCTTAGCTCTTGATTCCATTATTTTATCTCCTCAAGTTCTATTAGTGCTAATATTAATCCAGAATGTGGAAAAAGATGTGGAAAATTGCCCATAGGATAACAAGTATCTCTTTCATAATGTTCTGCTATTAGGCCTAAATCTGTTGAACACTCTATAAGGTTATTTATAATGTTCTTTGCATAATCTATTTTTCCAAGTCTTATGTAAACTCTAGCTAACCATGTAGATACTAGAGTAAAAGGATTGCTTACTTCCCCTAAAAAATCGTCCTTGTATCTTAAAAGTAAGCTATTTGAGACTGAAAGTTCTTTTTCTATTCTTTGTAACGTAGAAATAAATCTCGGATCATTTACACTAATGAAATTATATAGTGGTAGTGTAAGTAATGCTGCATCAACTTCTTCGCTTCCATAATATCTTACGAAACTTTTTGTTTTTTCGGAATAACCATTAGCTAGCACGTCTTCTTTAATTTCATCAGCTATTTTTTTCCAATCAGTTTCAATACCTAACATTTCAGCTAGTTTAGATGCTCTATCTACAGCTACCCAATCCATTACTTTTGTATGTACAAAATGCTCATAAATTCCTCTTTGTTCCCATATATCAGTACTTTTATCTTTCCATGAATTTTTAACCCAATTAGCTATTGCATCTACAGCCCACCATACATCCTTTATAAATCCCTCGTCTTTTGTTTCTTTATAATATGTGTATAATCCATGCATATATGCGCCTTCTATATCACTTTGTACTTGCATATAAGCTCCATTACCTATTCTTACTGGTTTGGAATGCTTGTATCCTTCTAACCACGTAAGCTCTTCTTCAGCAGGAGGTGCAGTACCATCTATGCTGTAAAATGGATGATCAAAACTCTTAGACGAGGGATCTATCATAGAAGTTAGAAAACTTAGAATATCCCTTCCTCTGATATATAATCCTGATCTTATTAACGCTTCAGCAGAGTAAGATGCGTCTCTAACCCAAACATATCTGTAATCCCAATTTCTTTCTTTTCCTACTATTTCTGGCAATGAAGTTGTAGGCGACGCTATTACTCCGCCTGAAGGATTATAAGTTAATCCAAGGATTACGGTTAATGATCTATAATATTCTTTTTCGAAATTCCGAATTTTTTTGGCTTTTGAAATCTGTGAGTCCCAATATCTTAATGCTTTGTCTAGTGCTTCATAAGGTCTAGAATAAACAAAGCCTTTCTTACTAAATAATCCATATCTTAGATCTTTGGAATATAATAAATAAAGGAATCCTTTACCTGGATTAAAAATTATTTTGTTTTCTTCAAAAGTATAACTACCATTTAATAGTACTTCTACGCCTTCTCTTGATCTAGGATTTGTAAATATTATTCCTGATTCTAAGAATTGTACTCCTGGCTTTATTAAACTGTATTCAAATAATGGATTTACTTCGGCGTAGAAAGGTATTTCACTGTCATATATTCTTATTATTGCAGGTAAAGATAAGGGCAGGAAATCTATTAATTGGAGTCTTTTTCCATCTTTTACCTTAAATTCGCTTTTTAGAATTAAAGAATTTCCTACATATTCTTTCTTATAAAAATATTCTATTAAAGGTCTAATTGTAAAACTTCCACCATTTTTGTCAAGAATTTTAGAAAAAATTGATGGAGAATCGTATCTAGGACAGGGAAACCAATCTATACTCCCTTCGTTTTCTAATGCAGCAGTAATTCCATTAGATAGGAGTGCGTAGAAATCTATCATTTCTTTCCCCTATAGGAACTTATAGCTTCTTCTAGAACTGAATTAAGTTCGCTTATAGCGTTATCTACTAGGCATTTCTTAACGCTTTCTAATCCCATTTCTCCTAATTTATCCTGATTTTGAATAGCCAATTCTATCTTTTTGGCCATATCTTCATAATCCCCAGGATTGAAAGTATATCCATTTCCTCCTTCTATTATAATTTCACTAGCTCCAGCTCCCTTACTTACTACAACTGGCTTTTTATAGAGCCACCCTTCACATACAGTTAAACCAAAACCTTCAATGTTAGAAGGTAGAGCTACTACATTTGCTCTTTGATATAGAGACATTAGTTCATCATCAGAAACATAACCCGTAAAAATTACTTTGTCCTCTATTTTTAGATCTTTTGTCATATCTTTTAATTTTCTAACCCAATTTCCAGCCTTATTATGACCTAAAGTTTTGCTTGTAAAACTTCCGTCCCCTGCTAAAACTAATTTTACATTCAGATTTTTCACGGCCTTTATAGCTATATCTTGACTTTTAATTGGATCCATTCTAGCTACTACTAGTACTACTTTATCATTGTCTTTTATACCAAATTTTTCTTCTATTTTTCCTACTTCTTCTTTATTCTTACTTTGATAAGCATTAGGATCTATAAATGGATATATTTGTTTGACATTGACTTTTGCTCCCGTTCTTACAAGTCCTTCAATGTCTCTTTTTGTACTAAAAATAACCGAATCAAAACCTTCAAATGATCTTACTAGGAATTCTCGTAATCTATCATCTAAATTTTCAGGCACAAAAGGAATATGATACCATAATACAGCTGGTGCCGAAGGTCCAATAATTCCACCGACTAAAAGTTGTTGGAAATCATTAATAAAATACGCATCAGTATCAGAATAAAATTCTAGAAGTTTTTGTGCAGAAACCCAATTATAAGTAGCATATGCTATATAGTCGTCTCCATTGATTTCATATTTAGATACACCATGGCTTTCATTATATATACCTTCTTTAAACCTTGTATATTTAGCAAGTTGCTCTGGAGGAAGATCTACAAAATGCACTTCGATGTCATTTAATAATGCTGATGGAGGATAACCAGGACCTAATGAAACCCACCTTTTTTTAGTAGATTTTACTCTGTCTAGGAATCCTAACATCATTTTTGATACTCCGCCAACCGATACGTAATATTCGTCTGAAGAGAGTAAAGATAGATCAAGTGGTAATGAGAGAACTCCATATCTTTCTATTATATCTTTGAATGTTACGGTAAATCTTATTGGAGGTGTTTGAGTATTTACAGCAAGGCTATTCATAGGTAAATAGAGAAATCAAAGTTAATAACTTTGAAGATACTTTAACTAAACTTTAAATAATATTTCATTATTCAATCATATTTATTAAATCCCTTAATCAAAATATTTATACTAAACCCTTCTTCTGATAATTTCTTAATTTCCTTTCTTATCTTTACTTTTTTTTCTTTTCTAATTACTAATTTTTCTAGTGTATCTATATCTTGCGATTTTATATATTCTATAATTCTATTTTTACTTAAAGGGAGAATTATTACATCTGAGTTAATATTGTCTATAATCTCCTCTATATTCAACGAAGATTCTACAACATTTAGTTTCCAATTTATTAGCCTTACCATTAAGGAAAATCTTTCTATAATTTAAATAAAGTTTGAATTAGATGAGTTATATGTAAAATCCTTAAAAATTCATATTGGTCATACTTATTTTATAAATAATCTTATATATAAGTATCTTTGATTCAGAGTAAAAAATTTTAGTATTACATGATATTGTGGAGGTCTTGAGTTTATTTTGGTATGGAATTGAGTATCTTAACCAAAAATTTATTTATAATGATTATCTGATAACCTAAAGTGTTTAGGCTTTCAATAGTGGGTGCTAAAGGCGGAGTAGGAAAATCGACATTAGCTTATTACTTGGCCTTAGAATTTAGCAAAAATAAAAAAGTGCTAATAGTATCTATAGACGGTTCTAGAACCCTTAGCGAAATATTTAACGTTAGCGGAAGCTTATTAGATAATACGGATTTTTATTATGAAAAAGGGAACTTGTCGTTTATATCATTCTCTAGCGGAGGAAAAGACGTGAGTATTGATACTGTAGAGAATATTTATTTACAGTATATTATAGGTAAGGATATAGTAATAGTTGATAATCCAGTGCATTTAGGTAAAGATATTATCTTAGAATACTCCGCGTTTTCCAAGATGAGTAACACAAGGAATTATATTTTAGGTGTTTCATCTCCGCAATCGTTCGTAATTACTGCAACAAAGAATTTTTTGAAAGAATATTCTTCTGCACTTTCATCAAATTTTAACGAAATAGGTATAGTTATAAACTTCTTTAAAGGAGACAAAATAGACGAGTTTAAGGTATATACTAGAATATTTACTATTCCATTCATTAAAGAATTATTATATAAAGGATTCTGGAATATTGAAACTCCTAAAGAATTTAAATGTTTATCTAAAACAATTTTAAATATTTTGGAAAATGAAGGCTAAGCTTTTTATTTTATGTAATATATAGTTCTACTTAAATGTTTACTATTAAAGCAGAATGGGATAGGCTTCGAGGAGTTCTTGTTCATGAGCCTGGGATAGAGATGTTTTATGGAGTTCTAGATCCGGAATCATTTCTTTATATGCGTAGGTTTAATTTACAACGAGCTTTGTTAGAGCATAAAAAAATGCAAGATACGTTGAAAGAGTTAGGAGTTACGGTTTACAGGCTTAAGGATGTTATTCTCGATAAGGCAAATTCTGATCAAAAAATTATGGATTATTTAAAGAAATTAGCTTTGGAGTCTATAAGATTTGAAGGAGATGGAGAATTAGAGAAACAGCTACAAGATTTTGAGGAGGATATTAATAAATTAGATCCTGAAAGCCTATTTAATATTGTTTTATTAAAGCCTACTGTGATAACGCATAAAGCGTTAGGAACTTCCGAATCTACTCCAAGGATAATAAATGAGGAACCTTTAGCTAATCTCTATTTCACAAGAGATCAAACTATAGTTACTGATGAAGGTATAGTTTTAGGTAGAATGAGTAAGAGAATAAGAAGAAGGGAAACAATTTTACTTAAATTAGCAATAGAGAGTTTGTCGGAAAACATAATAAAAGAGATTAGCGAACCAGCATTTGCAGAAGGAGGAGATTATATGCCTTTTAAGAATTTTGCAATATTTGGCACAGGAGATAGAACTACCATAGCTGGTGCTATCCAGGTTTCTGATGCTCTTAATTTTAATGAAATAGTAATTGCATATAATCCTGTAATTCAAGCAAACGATTATATGCTTTCGATGCATTTGGATATGTATCTTAATACTCCTATGGAAGGTATAATTGTATCAAATAAGAAAATTTTACAATCTACAAGAGCAGACGTTTATGAGAAAAAGGAAGGTAAATATGTGCTTAAAGAAAGAACAAATCTTTTAGATTTTTTCATTAAAAAGAGATTCGATATTATAGACATAACACTTCTAGAACAAATATCTTACTCTACAAATTTTCTGACAATTAAAAACGGTCAAATTGTAACTCTAGATTCAGAAAAGAATTCTAAATATGTTTTAGAATACGTCAATAGTAGAGGGTATATGGATCTTTCCAATGAAATAAACTTAGAATATACTAAGCTTAAGGAAGATAAAAGATTCTTTCCTAGGAAAAAGGAAATTGATGATTTCGGAATAGACTTTGTAATAGCAGATGTAGGAGAATTAACTGGGGGGTTTGGAGGAATTCATTGTATGACAATGTCATTATATAGAAATTAAAAAATATTAACATATAAACTATTTTTTTATAGAAATATAGATATTTATGACTTTTATATACTTAAGCTTAAAATATATCAATAGATTTTTTACATATGAACGATAAGGTTCTTTTCGTATTCATGACAGGAAGAGAAAATATGGCTAAATTATTAGCTAATATAGGAATGGCCGCTAAGATAAAGAGTGCTGATCCGGGTATAACGGTTGAAATGATTTTCTTAACTCCAGCAGTAGAGTCTTTAAATAAGAAACAAGTTATATTTAAACCGATTCTAGAAACCGTTAAGGAAGCAAAGAAAGTAGGAGTGAAAGTAATAGCTTGTGAAGTAGCTATGAAGAATGTAGGTTTAGATAAGGATGACATAGAGGAAAATTTAGTAGACGAGTTTGCTCCAATAGGTGGTATTTATGTTTTAAATAAAATAAAGGAAGGATACGAAGTTTTAACCATTTAGCTTTTTTATTCTATATAATAAAATTAATATTATTTGTTTTCTATGGGATTTTTATAGTAATTGCTATGTTAAAGAGTAAGAAGTATTATGTTTACTACATAGAGAAGGATAATAAGAATCACATAAAGGAACATTACCTAGCCCCCTTAGATAAGATGATCGAAACTTATCTTAAAATTGGGGGTGTTGGGGTATCCCACACAGTGGACCGGCCGGGATTTGAACCCGGGACCTTTCGGTTGCGAACCGAACGCTCTTCCAGCTGAGCTACCGGCCCACACTTAAATATTAAAGAAGTTAGAATATAAAATATTGACTTATGATGAGCGATGGGCGGCAAGATCTATGATGAAAACCACTGCAGCTCTGATTATTTTTTATCTAGATCCTTTTCTTCAGTTTTTTCCTCAACTTCCTCTTTCTTTGCAGATTCTGGTATGGTTGCTAATAATTCGGAGTAAGCTACTTCACCATGCATTGCGTAATCTCCTATCTGTAAAGTATCTGGTGGCGCTTGCAATGGTATGAATAGTCCTATGAGTTTAAGTAAACCGAAAGTTATTGCAAAATCATAAACTACCACTATAAGAGCTGCAAAGGCCTGTATGCCTAGTTGATACCAATTTCCATATAAAGCTCCAGTTAAACCTGGATCTATATAAGCTGTTACTGCTGGATCTGCAAAAATTCCAGTTAATAGACCGCCTAATATTCCTGCTATGCCATGAGTAGAGAATACTCCTAATGTGTCATCTATTTTTAATTTTGGCTCTAACTTATATAATGCTAACCATGGTATGCTTCCAGATGCTATGCCGATTATTATTGAATATAATCCATTAACATAACCGGCTGCTGGAGTTATTGCTACTAGTCCAGTTATTGCTCCGCTTGTAGCGCCTACTAATGTTGGCTTCTTGAAGAAAGCCATATCCATTAGCATCCATGTTATTGCGCTTGCAGCTGTTGCAATGTTCGTGTTTAATACTGCTATAGCAGCGTCAATAGTAGCACCGCCTGGGTCACCTCCATTAAATCCATCCCAACCTAACCATATTAGTCCAGCACCTGCTAATATTAGAGGCAAGCTATGAGCTTCTAATTTTCTTTCTGATGCTAATCTAGGTCCTACTGCTAATGCTGCAGCTAATGCACCTATTCCTGCATCTACATGAATTACATAACCTCCGCTAAAGTCTACCGCACCCAATTGATTTAGCCATCCACCTGCAAATAACCAGTATGCGACGGGGCTATATACTAATAATGACCAGAAAGGCACAAAAATCATCCATGCTTTAAAGTTCATTCTTTCTAGGACTCCTCCTGCTAGTAAGACTGGAGTTATTGCTGCAAATACGAACTGGAAGAATATATAGGTGGATGTAGGTATATCAACTGGAGAATATCCAGGTCCATATATGGTTTGTGAAGCTTCATATGTTCCAGGCCATGCAGGTAGAGGTGTTCCCAATATACCAAAATGATCTATTACTAAGGTAGGTTTTCCGAAACCGAAGTTATATCCTGCAATCATCCAGATTATTAGTACTGCTGCGAAAGCATAGAAAACCATTAATGCGCTATTAACTGCATATTTCTTTTTAGATAATCCAGCATAGTATAGGGCTACTCCTGGAACGCTTTGAAGTCCTACGAAAGTTGCTGCTGTTAGCATCCACGAATTGCTTCCTAAACTAAGCCAAGACGGAACTGAAGCTGATGGATAATCAGCTGTTCTATTTAATATAGATTGAATTGAACTATTTAATGATTGTATAGCCGACGAGCTTGCTGATATTGAAATTAAACTAAATATAATTGGAAAGAGAAGGATTGAAATAGTTATTAGCTTAATATATTTATTCCCCATTCTCTATCAGAACAAAAAAGATGATAAACTGTTTATAAAGAATTCCATAAATCTGTATAAAAAGTTTTCATTTTTAATGGATTAATTTTTTAATTATACATGATTCTAGATTATAGATTAAACGATTAGATTAAATTTTTTTTAATATATCTAGGTAGTAATATAATTTATTTTTATACATGTATAAACTCTTGGAATCTGATATAAATAAAAGACTCTTTATAATTATAATATAATATACTGTTTTTAACTTATGAATTTCTCAGCTTTATTTGATTACACAAGATTTTACAATACTAAAATCTAATTTATGCGATTTTAATGGTAATATTTATTGCTTGTTCTTTAGTTGTAGGTGTAGAAATTAATAACAAGATTTAAAACAGTTAAAATAAAAATCTTATAACGGGCCCGTAGCTTAGCATGGCTAGAGCGCCCGGCTGATATAGTCTTGCAGAAACCGGGAGGTCGAGGGTTCAAATCCCTCCGGGCCCACACGTTTTTGGAATAAGCTTATAAAAAGGAAATAAGAGAAAATGGTTATGCAATCAATTAAGAGCGTTTCTCGCGTTCTGAGGAAAACTACTCTTACTGATATGATATTAGTGTCATCTATAGCTTTAGTTTCAATATTAATAAGAGCCATAAGCGCAGATTATCCTTTAACTATTAATGGATTTGATTCCTGGTATCTATTTTATAACGCAGTCATGATAGCTCAAGCTCATGGAAATTGGTATGCCGTACCTCCAGATGTCCATGCATGGTATCCATGGGGCTTCTTTATAGAATTAGATGATACAATAGGTTTACCATTTATTGTTGCATTACTTTCATTACCCTTTTCCTCCTATGGGACTAACGCAGTTTATACAGTAACTATATTTATGGATATTGCGTTAGCAGGTCTAGGAGTTGCTGCAGCATACTTAGCTGTAGATGGTATAACTAAAAGTAGAGTTGGAGCATTAATAGCAGCTATAGTTGTAGCAGTATCCCCAGCATTAACATATAAGAATATCATAGGCGGTTTGCCAAAAGATTCATGGGGAGGTGTTTTTGTTCTTTTTACTATATATTTATTAAATTATGCCATAGAAAAGAAAAAGCCACTATACGGAGCTATAGCTGGAGTTCCACTATTTTTAGCTGAAATATCATGGGGAGGATATACATATATAGATCTAAGCTTAATAGTAGCAGCTTTTGTGCTAATATTACTAAATAGGAATGATATTAACACAGCCAAGTCGTTCACACTAATGGGTGTAGTTACTGCTTTTTTAACCTCTTTTGCTCCAAACAATATAGGCTTTATGTCTGGATTAGCACATGGTTTTTCCTTACTATTAGTAGGACTATTGCTTTTTGCTGATCTATATCTAAAAGAAATAATTCCTAAGGAGTTATCAGATGCTAGACCTATGGTTTTAACTTCTATACTAGTTTTGATATTTGTTTTAGCTATAGTAGGTCTCTCATTTTTAGGAATTACTCCAATACCTGCTAGATATTATGCTATAGTAGATCCATTCTACCAGTTTACAGTACCGATAGATAGAACAGTAGCTGAATATATACCCCAATCAATATCATCCATGATTCAAGATTTTGGCGTCTCGTTATTTATAGCCATAATTGGAATATACTATATATTAAAAAGTGGAAATCTTTCAGCGTTATGGTTAATGATACTTGGAGTAGTAAGTATATATGGAACATCTGAACAACCATATTTATTTAATTATACTGCGTATATGGTAGCGCCATTAGCTGGAATAGGTATATTCTTTATAATATCTAAATTAAAGGATGTTGGAAGTAGGCTAATTCCTATAATGCTATTAGCTTTAGTTGGAATATCACTGGTAGGTGATGCTGCTTCAGCTATAATGGCAAGTAATGAACCTAATGCTATAGTGACTTCAGCTAGTCCATATCCTGTCTTGAATTATGCATGGGTAAACGCATTAGATTGGGTAAATAGTAATACTCCTCCTCATTCGTTTATATTAAGCTGGTGGGATTATGGATATTGGGATGAAGTAATAGGAAATAGAAGCGTTATTGATGAAAACAACACTCTTAACGGAACTCAGATAAAACTTATGGCAGAAATGTTTCTTAATAATGAAAGCTTTGCGGCAAATGTTTTAGAAAATGATTTTCATATAAAGCCATATAATGGTAGCCCAAATCAAGTCCCAGCATATATTCTAGCTTATGACGCAGTAACATTAGCATATTCTTCAGGCTCAAGCTCCTTTAGTTTAGACGCATATATAGGGTACCCAGTAGATATGGGAGGGCCATTTTTAGGATATACAACAAGCTTAGGCGATATAGGAAAAGCTATGGGCGCAATGACCATAATAGCTGGATATCCAATCAGTGAGTACATAAATAGTACATTAGTTTCTCAACAGATATCGGCAATAAACAGTACTTATGGAGCTAACCCAGCTACTGCTTCTGAAGCACAGACATTAGAAAGCTATATAGCGAATTCTTATGTCATGGCTTGGACATCTAAGGCATACCAATCCCTTATTGTGCAAATGTTTATTGAAGCTTTACAAGACGAAGGTTTTCAAGTAGTTGCGCCATTTACTACATCATTTTCAACAACAGGAATAAGCGGTGGAAAAATACTTCCTCCAGTACATTTAGATTATTTCCAGCCAGTACATATAGCATTATATCCATTATATGAGAGCAGAGCTTACGGTTATATAGTGTATATAATGGTAATGGTATATGAGTTTACACAGCCTGGATATGTTATACCAAACTCTAGCAGTTAAGTTTTCTTCCTTTTTTCATTTCTAGTCTATATTTTACGAATTTATCTTCTGGAGAAAACCTTGGTGGATGAGGTACTATAGTTTTGGATCCACATATTGGGCAATTATCTTTAAGAGTATATGTTCCGTCAATAGGGCATTTTCTTAATTTCCATTTCATAACCTTACGTACTATGAGTTTAAATTAAAAAACTAATTTTTATCTTCTTAGCTATTGGCTATATATTTTCCTATTACCTTGAGCTTTTTCGTAGATGAATTTTCAGCCAGCGTCGCTTTAAATAATTAGTAGTTCCAGCAAGTCCTTGACTTGTAATTTCTTATTTATACTCTCTATAATGACTAAGAACTTTATGGGCGTTCTATATAGGAAGTACTAATGAAATAGCGATAAATTATCTATAAAAACGCTATAAAGACTCTCTTAGAAAAGTATTATTTTCAATTTTATAAATTTTATATATAAAAATCATGTAGTGCATCATTATTTATAATTTCTTTTTATTACATAATTTAAAAAATTTACTATTTTGCATTTCCAAATTCTAGTCCTTCATCTGAAGCTAATGTTTTAATATTTTCTACTATTTCAGATAAGTTTTTAGCTACTTCCTTAGGTTCACTACCTAGAACTTCTATTCTATATCTAGGAGCACCAATACTATATACCTTTACTGTTACATTTTCCTCTTTAGGTAACGCTTCGGAAAACACTTTTTTTATCTTCTCTACGCCTAGTGGATCTGTGGTCCTTAAGATTATTATTGTTGATTCTTTATATTTGCGTTCTTCAGAATGTTTAGAAGCTTCCTCTATTAACGGCTTTATCCATATTTCTGGGACTCCAGCTTCCAGTAGAACTTTTTCGCCCTCTTTGCTTGCTTTTTGCATTGCTTCGAAAACATCGCCGTATTTGTCTTCTAGTTTCCATGCTACTTGTTCCCATGCTTCCTTTTCCGTTTTACCAAGCTTTTTAGAAACTATCTCTAAAATTTTATCAGTCTTTTGGATCTTTTTCCATTCAGCATTCTTCTTTCTTTTTTCGTCATCAGTAACTTTTTTCAATGATACGTCTACTGTACCTTTTCTTCTATCTATTCGTATTACTTTAACAACTATTTTTCGTCCTTCCTTTATTACGTCTCTAATATTCTTTACCCATCTTGTACTTATTTCACTCCAAGGTAAGAATGCTTGCAAACCTCCATATTCATCTAGAGTTACATAACTACCATAATCAAAAATCTGCTTTACTGTTGCTATTAGAATGTCTCCTTCTCTTGGTAATGGATGCTTATTGTATATCATTTTTAACTCATATCTCTAATAATTTCGCCTACTATTTTTGCTTTACCTCCAGTAGGATAAGTTATTTGTGTACCGCATGATAGGCATCTTACTGGAAAAGATGCATGGCTGAAAATAACTTGCTCATTTCCACAGTTTGGGCATTTAACTCTTACGAATTTAGTCTTTGGTTCTGGGATTAAAACTCTAAGCTTCTTCATTTAATCACCTCAGCTAATTCTAGTTTTTTAACTCTTATTCCATGTTTCATTATCGTGTATCCACATTTTTGACATTTGAACATTAAGACTTGCTTCTTTGTAACTTTAGCAAAACGTTTTTGTTCTGGTTTTCTTTTGCTTCCATATCCTAGATTCTTCCTATCGTATCTTCTTTGTCCTTCAGATAAGGTTCTTCTTTTTCCAGATTTATACAATGTTACGCTATGCTCTGTGTGAGTTTTACATCGTGGGCAATACATCTTTACAAGCTTAGGAACTTTCATATCAGTAATTTACTAATTTATAGGGGATTATATATTCTGCTGTCCATAATGAAATAGCAACTTTTATTGGTAAAAATATTATATCACCTGGATTTAGTACTTTATCCTTTATATTAATTTGTTTTGATACTTTACACATTATTCTATCTTTATTAAATACTATATTTCCAGTTAAAATTGATATATAAATATCCTTTAATTTTGAAAGAAAATCAAATACAAACGAGTCAAAATCAGAGCTTTTCAATTCATTTTCTATATATTTCCCTATTCTAACTTCAAAGATAGATTCTGCTATATCCTCATAAATTTTAATTTCTTTTTTATGAATTTCATCATTATACCTTAATCTAAGTTTTCTAAGTATTTCTATATCTTTAGATAAATTGTCCAAAGATATAGACGACAAATTTTCATTTTTTAATTCTTCAGCTAAAATTTCATCTAACATACAAAGTCACTTCTCCAAGATTTTTTAACGTGGAATATATTGCTATAGACGTTTCAAGTTTTATAGGAGTATTTTTATAAAACTTTATTTTATTACCTAAGAGATTAAACTCTCCACTAATAAAGGGCTTGAAGACTGAAAATCCTGTAAAAGGAGAAAGATCTTTATTAAATGAAAACTTGAGTATGTCATCAATTTGTTTTACTATTAACCCTGATTTCCCATGTAAAGATCCAGGAATTCTGATTAATCTTTTAGTATCGATAGTTACTTGCTCATCTATTTCTACACCTTTTTTGTTCTTAGCCAATCTTCCGGGCCATCCAGGATCGCAAGGCTTGCCCTGATATTTAGGAACATTAAAACCCATTACGTATTCAGATATTTCCTTTCTAGCGTCAGAATTTAATAGTGCACAGTCTCCAGAACATTCTATGATAACGTGAAATCCCCTATTACCAGAAAAATATATTTTAGGCTTAAAATCAAAATCTTCTTTCAATATATCTACAAGGTCTATTGTTTTATCTTTTGTTATATTAATACATTCTTCAGTTATTTCCATATATTCTATAGTTTGAGATCCATCTTTTGGACATTTATCTCCAGAAACGTAATCACCGCAGACTGGACAAAAATTGAATTTTCTTACGTTGCAGAAATGATCAGCGTCTAAATCAAATTGTATATCAGCTCCCATCCATCCCTTTTCTTCCATATCTTTTGCCGAAGGCATTTGATATTTTGCTGAAGAGTAAAAGAGATGTAAAGGCAACGTTTTAGTTATAAATGATCTGAGCTCTATCTCATTGTTAAATGATAAATGTCTGACATACGTAGGAGAATCAAAAGGTTGAAAAGCAAATTCTCTAAGTTCCATATCAAAAGGTAATTCTAAATTAGCCTTTTCATAATATTCCCTAAATAAAGTCTTAACTAAATTATTCAACCCTTGGTGCAATGTAAAAATCACCATAACCTCCTTGAGGTAGCTCAAAGTGAAGCTTCAATGGTAATTGCGATCCAAAAAGAAGTTGTACTGTATCTGAGGGTTTTCTCATCTTAGTTGTATTTAAGATATATTCTATGCCATAATTACCGGTAGCGTCACTTCCTTCAGACTCTATTAAGCCTCCATTATCTACAGATAACTCTATCTTAGAAGATCCCATATCTCCAGTAACTTCAAAATAAAGTTTACCTCCTTCTGAACTTATAGTTATAGAGTCACCTAAATTAGCTAAGCTTTCTATAACGTCAGCAAATGTTACTGTTAACAGTTTTGCCTTAAATGGAAATTCTAAATTTATAGAAGGATTTTGTTGCTCTTGTGTTGTCAAGATAGGTAAAGAGAATATTCTTTCAAAATCGTCATTAATATCTATTTTTATTTTTTCTTGCGCAGTCTCTATTATTACTGAATCGTTTTTTCCTACTCTTCTCATTACTCCATTAATATCCTCAAGACTTACTCCATATGTTTCCTTTTCCTCAGATTCAAATTCTTCAAAATAAGCAGAAGGTAAAAATATGTCAATAAATACTACTCGCGAAGGATCTATGCCAGATACCTTTATTCCGTCTTTTGTGCTTATTATTGTTGCATCATCCATGAAGTCTCCTAATGTCTTAAAAATGTACGAAATTGCTGATGCATCGACTGCCTTAAATTTCATGATTTTATATAACAATTTTAAAGAGTATAAAGTTTAGGGGTCTTTATAATCTAGGGCTATTTTCTTCTGTCAGATAATCTTCTCCTCCAGCTAGTATTCTCTGTATTATTGCGTAAAGTTCATCGAATCCTATATTCTTTGTTGCAGAAACTGGTATTGGCGGATTATCTAGATTTTCTACAATAGTTCTTACTAACTCAAATGAGTAATCATCTACTACTCCTAATTCATCTATTAATTCTTCACCTTCTCCCCATGATGATATCTTAGCGGACTCTTTTTCATTTAATAAATCAATCTTTGATAACGCATCTATTTGAGGTAAGTTTAATCTGAATTTTATTGCACTTGATAGTAGCAATAAGGATACATAACTTCTTGCTTCTTTAGCTAAAAATGAATCCATAAGAAAGACGTTTACTGCTTTATTCTCTCCAGATATTAAAGAAGATATTATTCTTCCAGTATCCCTATACGCAAAGAGTTCAACTTGACCTGGTGTATCAACTAGCACATAATTTGCTTCTATATTATCTATGTCTTTTTTTATTTCTGCAGCCTTTGTAAGCACTAAATCTATAGATGCTATTAATGAGGAATTTGGACCTAGATTATATTTTTCCATAACTTCCAATGCATCAACATAATCTCTTATGTCAAAATCTGGCGCATAAGGTAATTGTTCTACTGCAGGATCTAAATTTATAACTGCGGTATCTAATCCTAATTGAAGAAGATAATCTTGAAATTCCTTTACCATTGTAGTCTTTCCAGCACCGGCTGTTCCAGTGAAGAATATAAAGTACATAATGTCTATTCTCGACTTTTAATCTTAAAAACTTCTTTGAAAAACTATAGATATGATTATAGTAGGAGGACCGGCAGCAAACGGTATTGATGAGAAAATTTCTAAGATTTTAAAGTACGATCTCGTTAAGGTTGAGCATAAGATATTTCCTGATGGAGAATCGTATATAAGATTTCCAAAATCTTTGGAAAACGAAGAAGTAGCTATTGTTCAATCTACGTATTATCCTCAAGATAAGCATCTGATTGAGTTATTTCTAATGATAGAGACAGCAAGAGATATGGGGGCATCTAAAGTTTCCGCAATTGTTCCATATTTAGCTTATTTAAGACAAGATAGACGATTTAAAGATGGAGAATCTCTCAGTATAAAAACTGTCTTAGGAATATTAAACGATGTTGGATGTGACAGTTTAATAGTAGTAGAACCTCATAAGATAGACGCATTAAAATACTTCAATGGTGAAATAAAGATAATTGATCCAATACCTGCGCTAGCTAGAGAAATTAGGAAAGAAGTAGAAAATCCTTTTGTATTGGCTCCGGATAGAGGTGCCTTAAATAGAGCAGAAAGATTGGCTAAAGAACTTAATGCACCATTTACACATATAGAGAAAGAAAGAGATAGAACTACAGGGGAAGTAAGAATTAAAGAATTGCCAACAGATAATTTTACTGGTAAAGATGTAATTTTAATAGATGACATAATAAGTACTGGTGGTACACTGGAATTGGCGTCTATTACGTCGTACAAATTAGGTGCAAAAAAAGTAATAGCTGCGGCTGCTCATACTTTATTAGTTAATAATGCTTTAGATAGACTGAAAAAAGCTGGTGTTAAAGACATTATTGGGACTAATTCCGTAAAAGTCGAAGCAGAAATTAAAATTGCAGATATATCTGATCTAATAGCTGTAAAGCTATGAAATATGCGTTGCTTAGTGCTGAAGAATTATTCGTTTCGATGGCAGAAATCTCGTCCTTAGTAAAATCTAAAATATCGTTTTTTACTGGAGTAGCAATATTTAATGATTATAATGCAAGTATTGCTAAACATTCTTCTACAATTAAGTATTCTGGAGAACTTGTTTCAATATCGGATAATCCAGAAGATATTATAGAAAAGATAAAAGGAGAATGTTTTTCGGTTAAGCCGAATATCATAATGAATTCTCAAAAAGATAAATTTAATGAGATATATAACAAAATATTAGATAGTATAAAGCTATCAAGAAAATGTAAGATATTAGATCTAATATTTACGGATGGGGTTATTATAGCTGGCATTAGAGAAGATGAAAGGGATACAAAAAGCTTGAATATGCACGCTAAGAAACCTTTTTCTCAATCTGGTACTATGGATTCTTATACTTCTCGATTATTGGTTAATCTTGCTAGCCCTAAGAAGCAAGTTTTAGATCCCTTTGTAGGTGTCGGTTCAATACTTTTAGAAGCCGCATGGATCGGGTATACATGCATAGGAAGCGACATAGATAAAAAAATGATAGATAAAACTAGATATAATCTGAATTACTTTGGTTATAATTGTGAAATTTTAGAGTCTTCTGCAACTAATTTGCCTTATAGAGAAGTAGAAAGTATAGTAACCGATCCACCTTATGGAAGATCTTCTAGTGCTAAAGGAGAAAAACTAGATAAATTATACGAAGATTTTTTCTTTGAATCAGCTAATAGTTTGAAAAAAGGCGGAAAGTTAGTTTTTGCTTCAGACTCTACTAGGGATTGGAGGGACAAAATAAAATCTAGTGGACTTAAAGTCCAAGCTGTTCACTTTATTTATTTGCATAAAAGTTTGAGTAGGGCTATTTATGTGGTGATAAAACCTTGATCGAAATTTATTTTTTAGGTACAGGTGGAGGAGCTCCTTCAAAAAGAAAATTACCTGCATATCTTATAAGGCGAAATGGATTTAGTGCTCTCTTTGATTGTGGAGAAGGCACACAAATAACAATGATAGATCATGGAATAAGCATTATGTCTATTAAATTAATAGCTATAACTCATTTGCACGCTGATCATGTTATGGGAGTTCCTTCTATTATTCAAACTATGGCAATGTATAGTAGAACTGATAAGCTTTATATAATGGGTCCAAGAAAAATTCAAGAATTTCTTAAAGCTAGTTTTGAAGGAACGTATTTTTGCCCTTCTTTTCCTATAGAGTTCATTGATCAATACGAAGATAATGAGATAACTATAAGACCTTTTAAAACAAAGCACGTTATTCCATCTCAAGGATATATTTTTCAGGAAAAAGAGAAAGTGAATATAGATAAGGAAAGAATTCAAAGAGATGGTATTAAAGACTGGAGAATAATAAAAGATTTAAAATCTGGAAAAGAAGTAAAAATTGGAAATAGAATCCTTAGGCCAGAAGATTATCTTATTAAAAAAGAAGGATATAAGATATCATATACTGGAGATACTTCAGGTTATGATAATGTAATAAAATCCGTGAAGGATTCGGATCTACTTTTGCATGATTCAACATTCTTAGATGATATAAATGCTGAAGAATATGGACATTCTACAGTTTCCATCGCTGCAAGAATTGCTCTAGACGCTAATGTAAAAAGACTTGGTTTAATACATATTAGTGGAAGATATGAAAATCTGTGTATTTTTGAAGAAATATCAAGAAAAATTTTTGAAAAATCTTTTGTACCTAAAGATCTTTCATATTATCTTTTTCGTTAGGTATAGGATTCTCCCAAAGAGGTTGGCCTTTTGACGTTTTTGGTGCTAGCCAATCTATTACTTTCATAGGCTCTTTATATTCTATAGTTACTATTATTGGACCTAAAGGAGATTCTTTTTCTTCATCTATAAAGGATATTATTCCAACACTTGCGGCTTGTTTATGAAGCATAAAAGTTATTGTATCGTCTTCTATTCCCTTAATTAAGTATTTTCTTGCTACATCTAGAATTCTTTCCTCTCGTAATATCTTATGAAATTTTTTTAAGCTAGCCAAAGAGTATGCTTCTTCTATCAGTAGCTTATTTAATTCTCTTTCCTCGATGATAATTTTCTCGTAGTCAAAGAAAGTTGCTATAGCGACTTTTATCTTATCTTCATCCTCTGATGGCCTTATTTCAGCCATCACGGTAATTTTAGTCATCTCAAAATCCTTTCTATAATATCTGTAGACTTCTTCTTAAATTCCTCTACTGTAGAATCGTTTACTACTACATAATCAGCCATTGCAATAACTCCGCCTATACCCAGAGAAATTTCATCAAGATCTCTTTTCCTTAAAATATTTACGTCTGTAGAGTCATCGGCTCTCATACGTGCAGTCATTCTACTATATCTTAACTGTGGCGATGCATGAATAGCGACAATTAAAGGTTCACCTATTCTCTTAAACTCTTCTACCTCCGCTAAGCTCCTTACTCCCTCAAAAGCTATTTTAGTAGTAGATTGAGTTATTTCTTCTATAGATAATCTTGCGACAACTCCGTCTCCATATATTTCTCTTATTCTTTTTGCATAATCCATTAATCTTTCTCCATATTTAGCGTCTTTTTCGTATCTTTTTCTTAGAGCGTCACCCATAGATATTACTGTGAAACCTTTTTCTTTCAATAAATTTGCAAAGAGAGTTTTTCCTGAACCTGGCATTCCTGTTATAAGAATTACTTTAATTATTGACCACCTAATTTTTTTGTTTAGAGGTTTAAAAGCATGAGGCTATTTATAGCTGTAGAAATTAAACAAATTCCTACTATTTTATCATTGATTAATAGTATAAAACAAACTAATGCTGACGTAAAGTTAGTTGATCCAGAGAATATACATTTAACATTAGCGTTTCTTGGAGAAGTGGAAGATTTGAAGTTGAGCAGAATTGAAGACTCAATGAATTCTGTAAAATTCTCTAAATTCAATATAGTTCTACGTGGTACTGGCGCATTTCCTAGTATATCTAGACCAAGAGTTGTATGGATAGGAATAGAGAAAGGTTTCAATAATATGAAAGATATAAGGGCACAATTAGTGAGTAATCTTAAGTTGAATGGTATAAAACCAGAGGATGATAAGGAATTTGTACCTCACATCACAATAGGTAGAGTTAAGGGTCCTAGAAATTTATCTGAACTAAGTAGTTTTATAATAAAAAATGCTAATGAGTTATATGGAGAAATGGAAGTAAACGAGATAAAACTGTTTAAAAGCACATTAACGCCCAAGGGTCCTATATATGAAGTCTTATACGCAATTAGAGCAAATAATTAATGAGGTACTAAGTAGAATAAAACCTACGGAGGAAGATGAGGAAAAAGTTCTAGAGAAAGCAAACGAAGTTATAGCTCATTTAAAGGGATTTGATGTACAGATACACGGTTCATTTAGAAAAGGAACGTGGTTAAAAGATGATGCAGATGTTGATGTTTTTGTATTTTTTCCCAAGAATGTAGGAAAAGAATATTTAGAAAAAGACGCTTTAAAGATTCTTAAAGATAGGCTTTCAGATTTTGATATAACTATAGCCTATGCAGAACATCCTTATTTAATAGTTAATAACAAAGGAATCGAAATAGATATAGTTCCAGGAATTAAAGTGGAAAGTGGAGATAAAGCTATAACTGCTGTAGATAGGACACCTTTTCATACGGAATTTATTTCTACACATCTTACCGAATCTCAAAAAGATGATGTAAGAGTCTTAAAAAGATTTATGAAAGGAATTGGTGTATATGGTGCAGAGATTAAAATACAAGGTTTTTCAGGCTACGTTAATGAACTTTTGATAGTAAAATATGGCAGTTTTTTAAATGTTGTAGAGAACGCAAAAAAATGGAAAGTACCAGTATTAATAGACCTGGTTAAACCACAGAAAAATTTTGATGCTCCAGTAATTATTCCTGATCCTGTAGATCCCAAGAGAAATGCAGCAGCTGCGGTTTCATTAAATAGTCTGGCAAAATTTGTTATAGCATGTAATTATTTTTCTAAGAATCCATCTATTTCGTTCTTTTACCCTCCAGAATCTCCTTCCGATATAATAAAGGGTGATATATTAGTTACCAAGATCTATATAAAAGAGAGAGCAGTTGAAGATCTCTTATGGGGTCAGATCTATAAAAATATAGATAAAATTAGGAACGAATTACGCGTATCTGGATTTAATGTAATGGATATAAAGGCTTATGGTAACTCTGAAATTGTTACTATAGCTATACAACTAGAATCTAAAAATATAGGGAAATACTATGTAAATCATGGCCCATTATTTTATATGATGAACGCTGTTGAAAAATTCATAAAGGATAATACAAATGTTTGGGTAGGTGAAGATGGAAGATTATATTCATTAAAAGAAAGGAAAGAAACTAACGCTGAAGAAATAGTTAAGAACTCGATATCGCTAAAATATACTTACAAATTAGAACAATACTGGTTAGAAAAGGAGCCAAGTGAACCATGTCTGAAAGAGTTTTTGAGAAAGACTCCAAGCTGGTTGATATAAAGTATTTTATTTATCCTAGTTACGATTACGATATTTACAGGGAACTCTTGGAAAACGGAATAAAGTATGCGTACTCTTTTGGCGATCTAAACTTAGGTAAGGTTAAAGTTATAGGTAAGGGCAAAACAGGCATAGTTGCCTTAATATCAAGTAATAGAGTAATTAAAATAAGACGAAGTGATTCACCTAAAGAAACGCTGGAATTAGAAGCTAAAATTCAGCAACGCGCATTTCCTTCGTCACCTAAAATATATCATTACGGTAAAAATTTTATAATAATGGATTATATAGAAGGTCGCAAACTTAGAAGGAATGACAGATCATATCTAATAGATTTACTTAAAAGAGCTAAGTACCTTGAAGATGTTTACATTGAACATATGGAGTTATCAAGACCCTGGAGCAATGTTATTGTTAGTACTGAAAGAACATATATAATAGATTATGATTCTGCGTCTTTCAAAGAGAAACCATATAATGTAACCAAAATTCTTTCTGCTTTTAAATTGAATGATATAGCTAAAGAATATAAATTGGGAAAGTTGGATTTTGATAAAATAATTTCTATTTTGTCATAGGATAGATTTTCTTTTTTAACGAAATTTTGATCTCTCCAACGTTAGGAATTCCCAAAGGATGGCCACATTTAGGGCATCTACCACCATAAATTGATTTTATCTCTGACGGCGTTCTCACTCCATAAAAGTCTTGTCCAACTTTCTCAAATTTATATAATTCATATCCACAATTTTTACATCTGTACTTTACAGGAATTTTTTCCACCTATTAAAGAACATGGAATAGATACGTTTTATAAATTCCACCCGTTTTACCAAATAACGTATTATGGGGTATGATGTAGTTTTTATAATTTAAAAGGGAGAGAGAGTAGGCCGAAAGTAAAAATATTATGATACGCATAACTTTTAAATGTAAGAGATCCTTTTTCTATTATACGGGGCCGTAGTCTAGCATGGACTAGGATGCCAGCCTGGGGATAAATTCCCTAGCCACCAGAACGCTGGTGGTCCCGGGTTCAAATCCCGGCGGCCCCACCTATTTTTCGTTGAATTATTCTTATGCTTAATAGCAAAACTATGCCTATAGTAATCATTATTGCTGATGCAGTAACTGCTACTTTAGGTCCATAATATCCAAAGTACTCATAGATTAAAATTGGTGCAGGAGTTACACCGTTAAATGGCGGATTTAAAACGTAGTAAGCAATAATAGCTATAGATCCAAACTCACTCATTGCTCTAGACATGGCTATTAGCAAAGAAGTTATCATTCCTTTATAAGACATCGGCATAACAACTGAAAATAATGTTCTAAGTTCTCCTGCACCTAAGCTTCTGGCATAATTTTCGTGCGATCTAGGTAATGAATCAAAAAATCCTTTAAGACTTTGTATGTAAATTGGTGCGGAAACGATAACCAGTGCAGCAGTTAAGCCAGGGTATGAATCAAAGAAATTTATTCCTAATTTTTCTAGAAAAATACCTATAGGAGTATAAGGACTATCTAAGAATACTAATGCTACACCAACTATAGGATGAGGAATAGATGCAGGAACATTTGCTAGAGAATCAGCTAAGAAATCATTATTTCTAGAAAGGTAATACGATAGTGGTGTAAATAGAATGAAATCTACAAAGACTGCAGTAGCAGAAGAAATTAATGTAAGAATCACACCATCAATAAAAGACATAGAAAACGCTTGGGGGGACTTAAATACAAAAAATCCCATATATATTAAAATAAGCACCGGAACTGCTAAAATTAGAGATAAAAAAATTCCTAATAACTTTAGGATGCTCATAACGATCCTGCTATCTTAAGATATCCTTCTGAAATTAATTTTGCTATTTGTGGTGGTACAGCGGTTGAATTAAATAATAATGCTGGATGTAATGGAGTTAGTCCATATTTACTTAATAAAGTAGAATTTTCTATTGTAAATGTTACGAACTGTAAAGCTTCTTGATAATTATTAGTAACCTTCGGTATAGTTATAAAGAGGTATATTGGTTCTCCATGTACTATTCCAGTATTTAGTTTGTAAGTAAAGTTATAATAGAAGTTAGAGTCAGCTACACAACCTAGGTTTAATTTATTTGGTAATGATATATATTCTAAGTGTTTTGCTATTGCAGCAGATTTATATATGAAAAGGAAATTTATATGCCCTGTGTCTAAAGCTGAAACGAAATCAGCAGCATTCGGTTCTGTGACATTTCCCTTATTATAGAGCATCCTATTGAAATAATATGTTTCATTATGATGATACAAATATCCTGCTATCTCTAAGATTATCCAAGCTCTAAAACCGGCTGGGTCAACGTTGGGATTAGATATTCCTACGCTAACCTTTCCGCTAGTTAGTACCTGGAAAAATGCAGACCAGTTACCTGAGTTAGCGTAATTAAGTGCTTCTTTAGCGTAATTATTGTTTATACTTGTATTAGTATATGCTATGGCCATATGGTCTGCTACGAAGGCTATAGCCCAACCTGGATTATCTTTTCCTAAATCTGTTACAGCTCCTAGCGCTACTGGTGTAAAAACGGTAACTCCAGATTTATTTCCTTCAATGCAAATTTCATGAGCTAATCCGAAGGATCCTCCTCCTTTTGGTGTAAGAACTGGTATTCCATATTTAGACCTAAAAGCGTTTAATAGTGTTTGAGCTTCTGCAGTATATGCATCGGCACTCCATACGGATATGGGAGTTGCGGTCTTTGTTGTCGTCTTAGGATATAATTCATATATGGCAATTCCCATTAAAATTATAACAATGACTATTATACCTATTAAAGCTGTCTTATTCATTGTTAATAAAGAATATATAATAGTTAAAAATATTTCTATCCTATAATATATAAGTATAGATTTATTTCTAACTAAACCATTTACTTACTATTCTGTAAGTTATTGATTGCATTACGTTAGATAATTTAAGAAAATAAGGCTCTATTTTAAGTCTAGAAGGGACATAAATCTCTCTTTTCCCAGTCTTTATACTTTTTATTACCGCATTAGCAACCTTTTCTGGTTCTACTGAAAACTTATCAAACGAGTTTTTAACTCCATTAAAGGACGGATGCGAAGTAAAGTTAGTCCTTACTGGACCAGGATATATACCAGATACTTTTACTCCGTATTTTCTAGCTTCTGCCCATAGACCATTAGTAAAACTGGCTAATGCTGCCTTTGTAGCAGAATAGACTAAAAGTTTAGGAGAAGATACATATGCCGCTTCAGAAATGATATTTACTATATTACCCTTTTTTCTTTCTATCATAGATGGTAATAAAAATTTTGTAAAATAAATTGTACCCAGAAAATTTGTTCTAACCATATATTCTTCTTCATCTAATGACGTTTCTTTGAATGAACCATATATTCCAAATCCAGCATTATTAACAATTACGTCTACAAAAGAAAATTCACCCAAAATTTTATCAACTATATCTTTTACTGCAATTTTATCAGAAACGTCTACTTTAAATTTTATATCTCCAAAATCAGGTTCAGATCTTGATATAGAAACGATTGTGTATCCATAATTTTTTAATTTTAACGCGGTGCACTTACCTATTCCTTTAGAAGCACCAGTTATTATTGCTATCATTTGAAATTTCTAAGAATAGTAAAGTTAAGAACTTTTTTCCAATTTTAGGACACTATTTAAATCATTTATCTTCCTTACTTTGTTCTCAATGACAATGGCATAAAGGATATTATTTATAAAGATTTTATATTTACACTTTGTTTTTTTGATTTTTATTTTTAAAATTGAGAATTTAGGTCCTACCATCTCAAATTCCCATTCCTCAGGAATAATATCTCCTCCATTTTCTTCACATACATTGAAAGCTTCTATTTCCGATTCTTTTACTAATCTAATAATATCATCACAATCTGATAAATTATAAGGCCTTTCCATTCTAATTCACTTTAAAGCCGCGGCCGGGATTTGAACCCGGGACCTCTGCCTGCCCAGAAATTTACCAGGGCAGCGCTCCAGCCACGCTGAGCTACCGCGGCAATTAAAAATCTTACATAAAAGCATTTAAAGTTTTTACTCTGATAAGTATAGCTAAGAATATTTTATATATTCGTCGTAAATAATAAGAGCCATAAATGAGTTCAATTACAGTTTCTTTAAAAAGACCTAGGTTAAGGATACGCAAGCTATTTTAGAATTTTTAGTTTTTATTTCCTCTCTAGTTTTTAAAAGCTCATGTACGAATGAGGAAAAATGGATGATTTAAAACTAGTAAGAATAATAATTGATATATTACAAGATAACATGCCAGAAGACTGTGCAGAAATAATGGAAAAATACTACGAAATGATACTTAAAGATATTAAAGATAGGGGTTTGAATTACACTTTAAGAAAGTGGTTTTATAAAGACGATGAAGAGGTTTTACTGATCCAATGAACCTAACGCGTCATTTATCTCTAGTGAAGCTTCTTCCACATCTTTAATGGAGTCTATAGAACGCCAGTATGCGTTTTCAAATTTCATTCCCTTTAAAAGACCTTTAGAAGCTAATTGAGGAAAAGTAGTTTTTTCCATATCTCCTTTTTCTGGCAAATATTCGAATATTCTTGAAGTAAATAAGTATATTCCTGCATTTATCCAAAAGTCTTTTAGAATTGGTTTTTCTACAAATTTACTTATTTTATCATCAGAAGTTTCTACTACCCCATAAGGACTTCTTAGAGGCACAAGAGATATAGTAGCTACTGCATTTTCACATGATAATTTACTTACATTAATATTTGTTATTATATCTCCATTAATTACAATAAATTTCTCGTCCACTATTTCTTTAGCTTTATATATAGCTCCTCCAGTACCTAAAGGTTCATTTTCAGTTATGTGAATGAAATTTACTCCTAATCTGCTTTCATTTTCAGTTAACCAGTTAATTAAAGCCTCTTTTTTGTATCCTTCTAGAACTACAAAAGTTTTTATTCCCATTTTTTTTAGCCATAATACTTGCCATTCTATTATAGGTCTATTTGCAATCTCAACTAATGGTTTTGGTTTATCATCAGTTAATGGTCTTAATCTTTTTCCAAAACCGCCTGCTAAAATAACAGCTTTCATTACATACTAAAGATTTTTCAAAATTTTAAACATTTTCGGGATATTTTATACCTTCAATTTCAAGTAATTTTCTTTTTATTTCTACGCCTCTAGAATAACCTCCTATATTCTTTTCTCCTACAATTCTATGACAAGGTATTATTAACAAAACTGGATTCTTGGAAAGTGCAACTCCTACTGCTCTTGGAGAACTATCTATTGCTAACGCTATTTCTTTATATGTTTTTATTCTTCCCCACGGTACTTTCATAGTTTCTTTAAATACTCTTAATCTAAATTGGTTAACATTTAGCGATAAAGGTTCTTTAAGATCGACTTTTTCTCCTTCAAAATATTTGTCTAATTTATAGAAAAAGTCTGTAAACAATGAATTATCTAAAGATTCTTTTTCTATACACTCACAGAAATCTAGCATCAAAAAGCCTTTTTCATCTTTTGCTACTGTTATAGGACCTAGAGGACTCCTATATAGTCCATAAAATATCATTTAAGTAACTCAACTGCGGAGTTATTTAAATCTCTGTTTAATATCTCCTTTGATAATGCATTAATGAACTTTTCAGAATCCACGTTTCTTATTTCTATGTTACCTCTAGCTCTTATAGTTATTTTATTCTCAGAAGCTTCTCTTTTTCCAACAATTATTATGTAAGGTACACCATCATCATAGGCTCTTTTTATTCTCTTTGCTAATGTATCTTCAGTATCAAGTTCTGCTCTAATCCTAAGAGACATTAACTTGTTAAATATACTTTCTGCGTAATTTTTAACATCTTCATTAATAGGTAATACTCTAACTTGAACAGGGGAAATCCATGTTGGGAGCTTTCCTTTGTAATGTTCTAATAATATTGCCATTATTCTTTCTAAAGATCCATAAATAGCCCTATGTACCATTACTGGTCTTTTCTTATTACCATCTTTATCAACGTATTCTAATTTAAATCTCTCCGGAAGATTAAAATCTACTTGTATAGTAGATAATTGCCACCATCTCCCTAGACTATCTCTTATATCGAAATCTATTTTAGGACCATAAAAAGCTCCTTCTTTTTCTTTTAATATGTAGTTTAATTTTAGCTCTCCTAGTGCATCAGATAAACTTTTAGTAGCTTTTTCCCATTGTTCCTCAGTTCCTATACTCTCGTCCGGTCTAGTACTTAAATTAATTCTAACATCGTCTCCCTTAAATCCTAATTTTGCTAAAACTTCCAGTGTCTTTTTAACCAAATTTTTAATTTCGTCCTTTAACTGATCTTCTCTCAAAAATATATGTCCATCATCTTGCGTAAAGCCTCTAATCCTAAGAAGTCCATATAATTCGCCTTTTTTCTCCCATCTATATACATTTCCAAACTCTGAGAACCTTATAGGAAGATCTTTATAACTTCTAGATTTAGATTTGTATATTAGTATATGGGCTGGGCAGTTCATAGGCTTTATTCCGAGTTCGTCGTCATCATGTTCAAATATAAGCATTTTATCCTTATACATTTCGTAATGGCCACTTATTTTCCAAAGTATGGTTCTATACACATGAGTAGTATAAACTTCTTGATATCCCATTGAATTGTTTATTTCTCTCATGTATTCTATTAACTCATTTCTTATTAACTGTCCTTTAGGATGATAGAGAACTAATCCAGGTCCAGCCTCGTCAGGAAAACTGAATAAATCCATTTTCTCTCCAAGAATTCTATGATCAGTTTCAGAAGCCTTCTCAAACCAATTCAAATAATCTTTAAGTTGTTCTTCAGTTTCGAAAGCTACTCCTCTTATTCTTACATATTGCTTATCTGGAGTTGGATGATGTACTGAAATATTAAGAATTTCAAAAAATTTAGGATTACCGGAAGGTTTTACATCAGAATCTATATTTATTTTGAATTTTCCATAAATTACATTATTACCTTGTAATTCAAAATTATAGTCCTTATATAGCGCATATTTTTTTGCTTCTTCAAGACTAATGGAATTATCAGATTCTATATCTACATAAAAATCTCTTTCACCTAAACCCACATCTACAGCTTTTTTATTATCATTTAACAAATTAATGGCTATTATTATTCCGCCCTTAAGCCATAAAGCCTTATACTCTTCCATACTAGGCTTTATATTTTCTAGATTATAATAGTTTTAGTTAATGGCTGATATATTAATAATTGCTAGTGGCGGCGGTCATACTGGTTTTGCTAGAGCTGTAGCAGAAAATATTGAAAGAAAAGTAGACTTTGTAATTCCTAAAGGAGACGAAATTTCTAAAAAAATGCTAAATCAGTATGCTTCAAAATTTTATGAAGTTGAGAAAGGACGAGGTCCATTTGATAATTCGTTTAGTTCATTACTTAAATTTCTAAGAGCAATGGTTGAAAGTTCCAAAATAAGAAAATATGATATTATATTAGCTACTGGTTCTAATCATTCTATTTTTCCATCATTTTTTCAATATATTAAGGGAGCTAAGGTTTTCGCTATCGAAAGTCAAGATAGAATTATCACTAAGGGTAAAGCTATAAATATAATTTCAAAATATTCAAAGGCTGTCTTTCTCCATTGGAAAGAACAAAAGAGTTTATACAAAAAAGGAATAGTAGTAGGTCCTATAGTTGAAAATCCACATTATAATCCCTCAGACAACGGATACATTCTGGTTACAGCTGGAACTGAAGGGTTCCCAAGATTATTTGAAAAGATCTCCACTATTAACCTAAAAAATGTAATAATACAAACCGGTAAGATAGATCCAAATTTATATTCGAACAAGGTTCTAAAAGCGTTTAATTTTGATCCTGATTTAGAGAAATATATTGCGAATTCGTCTTTAATAATTACACATCAAGGTAAGACAGCTATGGAAGCTGTTGTAATGTACAAAAAACCAACTATTATCGTATACAATAAAACTCTAGTAAGAGCCGCTACTAGAGAAGATACTAGACTATACGCAAAAATTCTGGGAGCAATGTTTCTAGACGATCCATTAGACTGGAAATCAAACGATGAATTATTATATTATATAGAGAATCCAAGAAAGCCTAATTATTTCACGTCTGGAGCGCATGAGTTAGTAAAGGTAATGTTGAATGAATATAATTGACATCTTGGAAAATAATAAGGATATAATTATAAAAATGGGTTGGATAGTTAGTGAGCCTTACTCGTATAAATGGTGGGGTGGGCTTGATTCAGCCGATAAAATTGCAATATCCGCATTTCTTGTTCAATTAACTAAATGGGAAACTGTCAAGAAAGTAATTGATGATTTAAGTAATAGAAATTTAGATAAAATAGATAATATTGCAAATATTTCAATTGAGGAATTAGATAATATAATTAAACCAGTAAATTTTCATAAAACTAAGGCTATACGACTTAAAAAATTTGCTAATAAAGCAATAGAAATGGGTGGATTAAGTAATTTACTAAGAATCGAGAATAGAGAATTGCTAATATCATTAGATGGTATAGGAGACGAAACAGCAGATTCTCTTCTACTCTTCGCTGGGAACAATGCAGTTTTGCCTTCTACTGAATACTTAAAAAGAGTTTTAGAAAGAATTTATGGTAAAAAATTCACAAAAAAAGGAGCAAAAGAATTTGCTGAGAAATTAATTGAAAAAGATCTATATAAGTATAAACTTTTTCATGCAGGAATAGTAAGTGTAGGCAAGGCTTATTGCAGGTTAACTAAGCCTAAATGTGAAGAATGCATTTTTAAAGGAGTGTGCAAATATATTTAATTATGAAACTTTATGAATTTGAAGGTAAATATCTTTTTTCGGAGGTAGGTATAAAAATACCTAGAGGAGTATTAACTTCTGAACATATAGATTGGAAAGGCAAAGCTGTAGTGAAGTCACAGATTTTAGAAGGAGCTAGAGGAAAAAGAGGTTTAGTAAAAATTACAGACGACGTAAATTCAGCAATAGATGAGCTAAAAAAACTAGGAATTGAGAAATTTCTAGTAGAAGAATATATACCGCATACTAAGGAGTTATATGTTTCAGCAATACTTGATCGAGATTCTGGAAATCCTATGATAGTTGCTTCTCCTAGTGGTGGGATAGATATAGAAAGTTCTAAAGATATTATTAAGAGGGATATCCCAATAGAACGTGGAATAAGACCTTTCGATGTTCTACCATTAGAGAAATATCTTGGCGTAAATGGATTATATGGCGTAATAAATGGATTATATAAAATAGTAGTAGAATACGACGCAGAATTAGCAGAAATTAATCCATTAGCAATAACTAATGAAGGACCTGTAGCATTAGACTCAAAAGTTATACTAGACGATAACTCATTATTTAAACATGAAGATTTACTTAAAAAGCTTGGAAGGAGTTATACTCCAGACTCTTATGTAGAGCTTGATGGCGATATAGGAATAATAGGAAACGGGGCTGGACTCACCATGGCTACAATGGATCTAGTAAAAATTTTTGGCGGAGATCCAGCAGATTTTATGGATGTAGGTGGAGGAGCTAATTCAGAGAGAGTTAAATATTGTGTAGAAAAAGTAGGAGGTAATGAAAAAGTAAAGAAAATTATTATAAATATTTATGGTGGAATAACTAGGTGTGATGACGTAGCGCGGGGCATAGTAGAGGCATATAAAAAAGTAAAGAAACCAATATATGTAAGATTAGTAGGAACCAATGAAAATGAAGGATGGAATATTCTAAAGGAAAATGGAATCAATGTTTATACTAATGCATTAGACGCAGTGAGGGATGCCCTACGTTAATAGATAAGAATACTAAGGTTCTTGTTCAAGGAATAACTGGAAAGGAAGGCTCGTTCCACACTTCGCAAATGTTAAAGTATGGCACTAAGATAGTTGCTGGCGTTACCCCTGGTAAAGGCGGAACATACGTCAATAATATTCCGGTTTATGATACTGTAGAAGATGCTGTAAAAGAGCACGATATTGATGCTAGTATAATTTTTGTGCCTGCTAGATTTGCAGTAGATGCTATATATGAGGCAGTTGACAATGGCATAAAGTTAATAGTAGTAATTACTGAGCACATACCAATTATAGATGTTTCTAGAGCTATAAAGTACGCTAGGGCTCATGGGAGCAGAGTAATAGGGCCAAACTGCCCTGGAATAATAGTACCAGAAGAAAGTTTAGTAGGTATAATGCCTTATAGAGCTTTTAGAAAAGGTAAAATAGGAATAGTATCCAGATCAGGAACGTTGACTTATGAGGTAGCTGATATTTTAAGAGATTACGGGCAGTCTACTGTAATAGGGATAGGTGGAGATCCTATAATAGGTACTCCTATGCAAGAGGCAATTAAATTATTTGATGAAGATCCAAATACTGAGAAAATTGTAATGATAGGTGAAATAGGAGGAACAATGGAAGAGGAAGTCGCTAATATGAAGAAAAAAGGTATGATAAAAAAGGATATAATAGCCTATATAGCAGGAAGCACTGCGCCCAAAGAAAAAAGAATGGGACATGCTGGTGCGGTAGTATATATGGGTTTAGGTACATATGAGAGTAAAATCTCAGCATTTAAGGACGCTGGAATAAAAATAGCTATTACGCCATATGACATTAAAAATCTTGTTTCTTAAAAATATTTTTATTCTGAATTTCTTGGTTTTATTGTTATTGTTCCAGAATCCTCGTCAACTTCTAGCATATATTTAGTTCCAAATTTTTCTACCATAGACTTTGGTATGTATAGATTCAATGGTAATGTATAGTATTCGTATTCGTATACTTTACCTCTAACTGATTTTTTTCCTACTAGTCTTTTGGCTTCTACTTCTCTCTCTTTCATAAGATAAGCTACTCACTTACTCTTTTTAAAACTTTTCCATTGATGTGCTTTAAAAACTTTCAAACAAATTAATTTTACTTAGATATATTTAAATTTCTTAGTTAGAGAACAGATATAATAGATTATAATAATTTCGAATATTTTTAATGTTAATTCCATTAATTTAGTCTTCTGAATAAAGAGCCAAAAATTAGTAATAGCGTTTTAGTAAACATTTATATCTAAGCGTTTTAGTAGGTTTATGTGAATCCTGTACATATATTAGCAAAAAAAGGGGAAATAGCTGAAAAAATACTATTTGTAGGTGACCCCGGACGTGCAACATTGTTAGCTAATATTTTACAAGATCCTAAATTAGTAAATCAAAACAGAGGTTTTCTTGTATATACTGGATCTTATAAAGGTAACATAGTAAGTATAGCAACACATGGCATAGGAGGCCCTTCTGCAGCGATAGTTTTGGAGGAACTTATGATGCTAGGAGGTAAGATTTTTATAAGATACGGTACGACTGGTGCATTAGTTCCAGAAATAAACTTAGGAGAATATATAATTCCTACTGGAGCGTCATATAATCAAGGTGGATTATTTTACCAATATCTTAAAGATCAGGCATGTATAGGCGCTACTCCAGATTTTGAACTCATGTCGAACATAGTAAAGACGTTTTCTATGAGTAATTTAAAGTATCATCTAGGTAATGTCTTTAGCAGTGATGCCTTTTATGCCGAAGATGAAGAATTTGTAAAAAGATGGTCGTCAAGAGGAAATATTGCTGTAGAGATGGAATGCGCAACATTGTTTACCTTAGGTAAAATTAAAAGTGCCAAAATTGCTGCAGTTTTAGTAGTCAGCGATAACTTGGCTAAAGGTGGACAATGGATCTCTAAAGAAGAATTAGAAAAAAGTGTAATGGATGGAGCAAAAGCTATTTTAGACGCATTAGTTAGTTATTCTAATTAAGGATTGAAAAATAACCTTTGATTAAACTATCGATTTAATTATTTTTAAGTTCCTTACTTTGCAAAAATAATTTTAAGTAGAATCGTAATGTAATTAAAAATGAAATTAATTAGAGATCCTATTCATGGCTATATTAGAATATCTGATAAATTATTGCAGATTATATCGTCTCCTCTATTTCAGCGTTTAAGATACATTAAACAAACAGGATTAGCATACTTAGTATATCCAGGGATGAATCATACTAGATTTGAACATAGTATAGGTGTTATGCATCTAGCTAAAGAGTTTACAAGATTTATAAACGAAAATTCCAACATAGACTTTGTCAATGATGATTTTATAGAATTGATAGGATTGGCTGGATTACTTCATGATATTGGTCATATGCCATTTTCACATACTTTTGAGAATGCATTAATCTTGGCTAAAGATGTTTATGGAATGAATGTATATGAAGAAGGTAAGAAAACTCATGTAAAGATAGGCGAAAAAATTATTGGAGAATATCTAAACGATTTGATTGATAACAATTTCTCAGAATCTGTTAGTGATCCAGTAAAATTTTTGCAAAAAGTTATGAACGAAACTCCTGAGACGAAAGAAGAGAAATTTGCTACGTTAATAATTTCAAACTTTGTTGATGCAGATAGGGGAGATTATCTATTACGTGACTCTTATTATGCTGGCGTAAGTTACGGTGAATTCGATGTAGAAAGACTAAAAAGATTCTTAGTATTTATAGATGGTAAAATAGCCATTTTGAGTAAAGCTGTTCCGATAGTAGAGCAATTCCTATTGTCTAGAATGTATATGTATGAAAACGTTTATTTTCATAGTGTAGTAGGATTATATAATGCCATAATATCTCATGCTATTGTAAAAATTTTGGAAAAAGGCATAAGTATTCCAGACAGTGAAGAGGACTTTAAGAAATTTACAGACTATTTCATAATTTCCAATTTATATGATATTAATAATAAATTTAGAGATGCTATTTTATTTAGAAAAGGTTTTATGAGAGTTAAGAAAGATATTATAGGCCAATGTTTTGATGAGTTCAGTAATTTAAAACAAGAACTATATAAAGACATGAGAGAATCTAATGGACTTTTTATTTATCACGAGTTTAATGATGTTCCATATTATGAAGAGAAAGATGACGCAGTTTTTGTATTTGATGGAAACGAAGTAAATAAATTAACTTCGATATCTTTAATTGCCAGATCTTTAAAGGAGATAAAAAAGGCAATAATAGGTTTCCATTACTCTGAAAAAAATAAGGCAGAAAAATATATTAAAAAACTTCAATCATGTAATACTATTGGCCCATGACCTACTTTTGATACTATGATTTTTTCAACATTTATACTCTTAAGGAAATCTAGAACTACGTCAGCGTATTGTTGTAAAGTAATAATATGTGCATTTTGTCCTGCATCAAATGTATATGCGGCTTTCCCATAATCCTGTATCCATCTCATTATTTCCAGATCTTTGTCATTAAGATAAAAAAAAGAAGGCCAGGAATCCAGAATTACTGCATGCATACTATTGCTGTGCCTCATAGTTAGTTCAAAGAATTTTTTCTCGTTTTTCTCTTTTATACTATTAATAACCTCTGGAATTGTTCTTTCTATAAATTCTAGTCTACACTTCATTAGGGTAGAAGAATTTACGCTTGTTTGCATTCCTAACCTAGAGGAAATTTTCTTTTTTTGAGTGCTAATTATTGCTATTATGTCCACTAAATCTTCCCAATAATTTTCAGGGAAAATCTGATAACAGAAAGAATCTTCACCAGAATCTTTAACTCCTTTTTCCCAAAATGCAAATCCACCAACTGTACTTCTACATGCACTTCCTGAACCAATTCTAGCTATTATGGATAGATCCTTTTGAGTCAGATTTAAATTAAGGGCACTATTTGCGGCATATACTAAGGCTGCTATGCCAGCTGCAGAAGACGCTAGACCGGAAGATTCCGGAAAATTCGTTGTTGAATTAACAAGCGCATAAATTTTTTTTCCATATATGTTTCTAAATATGTTAAGAACTTTTGTTGCATAATCTTGTTTTTCCTTTATTCCTAATTCTTTTCCATTTATTATTATTTTATCCTCATTAAAATTACTATCAAAGACTACCTTTGTTTTTGCATATATTCCATCCAATGATATTGAAATTGAGGAATTTAAAGGTAAATTAAGCTCAGAATTTCTTTTACCCCAGTATTTTACTATGGCTATATTTGATGGCGCTATTGCTTCTCCTTCAAGAATCAATTTTTAGACCCTCGTCTTCTGCTATTTCTATTATTTTTATACCTTTGATTTCCCATGCCTTTTTAACATTATCTAAATTATCGCCAATAGCAAATATTATATCACCCCCTCCAGCTCCTGGCATTATAGACGTCCATGCTCCTTCTCTTTTTGCTATACTAATCAATTCCTTATCCTGTCTGGATTGTAATTTTATTCCAATAATATCTTCTGCTATAAAATTTAAAAAGTTCCATGCCAAATCAACATGGACACATGCCTCATCTATTTTGCCAAGTTTTAACAACTTTATAGCAGTTTCATTTTCAATGTTTAGCTCATCTATAACTTCTTTGAATCTGGGATCTTTTTCCTTCTTAACGAACTCTTTAACTAAATCAACAGTATTAGAACTTCTTCCGGTAAAACCTAGAATCATCATATATTTCCCTATTTTTAATTTCTCATAATAAAAATCCATTTTATTTATATCAGTAAATCTTTTATATATTATACTTCCGTACATTGCTGAAGCTATATCAAATCCACTACCGATTCCTTTTTGTCTTATAAAATTAGCTTTTTGTGCTAACTTGTGTATTTCGTCTAAATCTAACTTATTTGTAATTTTATGATATATACATGCAGTCAATGCTACAGTAGCAGCTGATGAACTTCCTAATCCAGTCTTTTTATTATTAATCTCAAAATCCTTATCATTTATAAGTTTCACATGAACTTTTGGGAAAAAGCCAAACTTTTCTACAATGACTTTTTTTACGCTAGATATAAGTTCGTTTCCATTTTCATAGTAATTTCCATACGATGTTTCAAAAAACGTTCTTTCAGAATCAATAACCTCGCATCTAACTCTTTTATTTATAGATATTACATGAGAAATTCCTCCAAAAACTACTGCATAGCTTCCAATCCAAAGAACCTTCCCTGGAGCACTTATCATCTAGGTGATCTTATTATACTCAAGTTAATATTTATCGATAATGAGATTCCTTAATAAAAAGAAAAGACTAGTATTGGAGTTAATAGCTCAAGGAGGTCCTGCAGGTTTAACATTACAAGAAATTAAAAACTCATTTTCTTACATTATTTCCGATTCTTCTCTAAGTAATATCTTGGAAAATCTATATTTTTCTGAGTATATAAATATTTTGAGAGATGGTACAGAAATTAGATATATAGCTAGTAATGAAGTTAGAAATTCATTGATAGCCCTGGAAATGCAGAAATATAAGATAACAAAATTTTTGGAAAATGTAAAAAAAAGGTCTGAAGAATTAAGTAAGCAAGATAGGAAAGTACAATTGGAAGAACTAACTAAATTAACACAAGAAGGTTTAAATTTAATTTCTATAGGTCTTTTTACTTTAATTAAAGACAAGCCAGAAGTTACTATACCAGATTATTTGGAGTTAATTGAAATCTTAAATAAGGAATTTTTCTCTAAGACTTTGTCTCTATTAAATAATAATATGTCTCAGGAAGAACTTGAAAAATTTTTATTGTTAGTATCTAAGTTTAAAGGAGAAAAAGAGGCTGAAATTATAAAGATGACATTAAACAATGTTAAAAAATAAATTTATATAGACACGTGCAAATATTAAACATATGAAATCGAAGAGAGACCAGATCGACATTATAGTTGATATGTTAGAGGTAATTGACGAAGGAATGGGCAGTAAGTCAGGAATAATGAAAAATGCTAATTTGAGTAATACTATTACGGAAAAGTATATAAATATATTAAAAAATAAAGGATTAATAGATTACGTAGACGGCAGATATGTTGTTACAGAAAAAGGAAAGAATATATTACAAAGACTTAGGAAACTTAGGGAGCTAGAAGTAGAAATAGCAGAGCTTTTTAATTCAGTATCTAAAGAATTATCTTAATGGGTCAAATTGGTATAGTGCAAACATTTGATGCATTATTTCTGATCGAATTTGTAACAATTTATTATCTACTTAATAGGAAAGTTTCTAATTTGAAGATAAATAAGGACACTATAAAGCAATTACTTTTATTAAATACATTCAAGTCTATTGTTGATTTCATAGCCTCAGATGAGATAGTTGAACAAGGAATTATAGGATCTACATTAGATATTAAGGATAAACAATTTATGAGATTCATGGAAGATAAAATAAAGAAAATTAGTGCTGATGTAAGAATTTTAAGCAATTCTATATATTTATTAGAGAACTTTGAAGAGAAATCCAATAAAATGATAAGCTACTGTAATGATATTAAGTACATGGTACTTTCATCAATGCTAATGTTAGCCATTACACTAATTCCATTTGGTGATAATTTTATTATTTTAACTCTAGGCTTCGTAATAGGTTTAGAAATAATAGGAATGTATTATAGCATATTGGCTTTGATATTGTATCGTGAGATTAAAAATGATTATACTAAGATTATAAGTAAAAATACGAATAAATAATAAATCATCCTTATTTATTAACTTTAATAACAAAAATCAGAATGAGTAAGAAAATTTTTTGCTCAATTAGTCATTATCTAGAAAAGATATCTAGTAGGGTCTTCTAATTTAGCTTCTTTAAATGCCATTTTCCTTAACTCGCATTGCCTACATTTTCCGCAATGATATTTTCCGCCAAGAAGACATGAATACGTATTAACAGGATCTAAACCTTTTGATACGCCTATTTTAAGAACCATCGCTTTACTTAGATTTAGGAACGGCATTATGACATGTATACCCAGCGTTTCTCCTAGATTTTTAAATTCTTTAAGAATTTCTGGCTTGTTAGTTTCATATATACACTCATCGCTTACGGTAGAAAATATTACCTCGTCGTAACCTTTTTCTTTAGCAAATGTTAATGCTATGCTAAGGAGTATAATGTTCCTATGACTAATAGGTTCATGTGGTCTTAACCAGTTATCCGAATAGAAAGCTTTACCAAGCTCTCGTATATTCACATATATTAACTTTTTATTTAGATTTTCACAATTTAGTTTGGCATATTTATATTGCATTGATGCAGATTTTTGGCCATAATTTACATAAAGACAGTCGTAGTCTTTATCCTTATAGTAATATGCCGCGCTAGACGAGTCTAGGCCACCAGATATTAGCAATAGGCTTTTCACGCTTATTTAAATACTCATTATAAAAAATAAATTTATGGCAAGTATTGAGAATGAAGCCAAGAAAATTGCATCTACGTACGCAAGATGGCTTAGAGATCCAGAAGATGCTCTATTTGGATCAACTGGGAAAGGAGTAGTCTTGTTAATTTACTCGAAGTTAAAAGAAGCTAAATCAAAATCTCAGATAATTCAAATTCTCGATTTATCTCAATATAATATGAAAACCTCTACATTTAATGATATGACAAGGTTCTTGAATGATCTTAAAAATAAAATATCAACAATGAATGATGAGGACGCCATAAGATTTACATTAGAAGTTTTTAGGTATTTTCAAATAGCTCTAGCTACTAAACTGGAAGATATGAGAAAAGGAGTCTGGGCATAGATTAAATCGATTTTTGCTAAAATAAGCAAAGATTTATATATTTGTTTTTTCCATATATTATGCTAGATAAGCATGGAAGTAGAAAAATTAAAAGCAAGACTTCCTTCAGGGAAAGAAGTAGGATTAATAGAAGCTCTAAGCTTCTGTTATGACGTGTCCGATACCGATTTTGTAGTTTTAAAGACTTTGATAAATTCTGGGGAGAAAACAGAGGACGAACTAGCTAGTGTATTAAAGCTAAGCAAAGCCTCCATTAATAGATCTGTAAATAAATTAATATCAATAGGATTTGTTGAGAGAGTTAAGGACCAAAATTCTAAAGGAGGTAGGCCAAGATATATATACAAGCCATTAGATGTTAATTCACTTACAGAAAAGATATCTAAAGATTTCGAGTATTGTGCTAAACTATTTGGAGAGATTACGCCTAAAGAGCTTACTTCTTCTCACACTTAGCTATAAATCTCTCTGGTTCTCTAGAAAAAGCTATTTGACATATTTCTGTATCAAAATAGTACATAATTTCATTGTATACAGTTTTATAAGGTGTACATTCAGCTTCAAAAAGCTTGTTGCAAACTGGACATACGACTTTCATAATGTATTCTACTTAAAGTAAAGTTTTTTAATTTTTTGACTTTCATTAGAATATGGAAGAACTTAATCTAGTTGGAAGAGAATGTCCAGAGCCTTTTTTGAAAGTTGCAGCAAAACTAATGCAGATGAAGGAAGGTACATTAAGAATAATCTTTAGTGATCCAAAATGCGATGAAATGATACTACAAGCTGTTGAATTAATGGATTGTAAAATACTTGAACATAGTAAAAACGGAGAAACTTTTGTATTAACATTAGAGAAAAAAATGGGAGAAAATAAAATGAAAAAAGTAAATTTAAGTGGCTGCTGAACTTATCTTTCTTCCGCATTCTACTAAGTCTTTCTTAATTTTATCCCATAAATTGTTTGGAATAGCATATTCAAATTTTGGTCGGCCTATTCTTTTTTCTTCTGGCTTTATTCTTATTACTAATCCTACATCTATTAATTTTTTTAAGCTATTTTCTACTGTTGTTTTGCTAAATTTCATAATGTCTGCTAATTCTACAGATGTAACAGGTCTATTTAATTCCATAAGTTTAAAAAGGCAATCAACATCTGTATCACCTAGCTTATAGCAACATTTTATGCTATGCTTTTTTTCTTTATCGTTTATCATTGACTCCATATTTAATTATATAGAAATCATATTTAAAAACTTTATTAGTTTTTTTATTTTTTATTAATAAGAGGTTCTCGGGAAAATTTTATTTGATATTATTTAATCAATGTGAAAATCATGATACATAATCGACAATATCTCTTTTTACTGACTTAATTTAAGGTAGATCTATTTATTTTTCATATTGTTTTCTAGATAACATAAGAATATTTAAGATATATATTCTATTAATTCAAAAATATAATATATGAGTTTAGCGATTATATGGGACGAAAGATTTACTAATATCTCTTTTTCTCATCCTATGATAAGAGATATATCTAAGGAGCGAATTAAGAGATTTTGGGAGCTTCTAAAAGACGAGCCTGGAATAGTATTCGTAAAGCCAGATTTAGCTACTAGAAAAGATCTTGAGTTAGTTCATACGACAGATTATATAAATAAACTGGAGAAAGCTAGTGAAGATCCATATATAGGGTTTTTAGATTCTGGGGATACGACACATTACCCTGGAATGTTTAACGATATCTTATTGATAGTAGGATCTAGTATAACAGCAATAAAATACTCCAATTTTTTTGATAAAATATATATACCACTTGGAGGGTTTCATCATGCTTTACCTAATCAAGCTATGGGCTTCTGTCCAGTAAACGACATTGGAATAGCTACAAAAATACTTTTAGAAAAAGGAGAAAGAATAGCCATAGTAGATGTAGACGCTCATCATGGAAACGGATTACAATATCTATTTTATAATAAATCTATATTAAAAATTAATATATTCGCGTATGACGGAAAATTTTTCCCTGGTACTGGACATTATAGCGAGAGAGGATTAGGAGAAGGCAAAGGTCTTAATTATAATATTGCTATGCCATTAGGTTCGGCAGACGACAGTTTTTACGAAGCATTAAGAATTTTAGATAAAGTTAGTGAATTTAACCCAACATATATTATAGTCTTAGCTGGAGTAGATGGACATAAAGAAGATAATTTGAAGTCATTAAATTTAACTACGAACTCGTTCAATCTTCTTGGATATAGAATAAATAGAATATCTAAAGAGCTTCATTCCAAAGTTATTTCATACGGAGGAGGAGGATACGGTAATTATTCTGCATTATGCATGCGAGAATTTGTGAGAGGATTAAAAGGTATTAGAGAAAAAATAGAGAAAGATACTGAAGATATAGAAAAAACAAAATATGTTAAAAGACTAGTTTCCTTACTCTCTGAAGGCTTTCCCAGTAGCTTTTAGTAATGATGTCATCATTCCAAGCGCATATGCAGAATCCTTATCTGAGGTTATTCTTAATAATCCCATAGTACCTACAGGTTTAACGTTAGGCAAATCGTTTGTCCATATTTTTAAGGCTTTGCTAAACTTCTCCATCATAGTGACCATTGTATCTACTAATTGAGGATCTGACATTACGTCTATTAATTTCATCATTCTATCCATTGTCCCATTTCTCTGAAGTTCAGCAAACTTCTCCATCATTGTTATCATCGAATCAAAATCTAACTGTGAAATAATTTTTACAGTTTTTTCATCGGTTAGTTTCTTTATCATAGGCATTGCAGATTCAGTAGCTGATAGTAATCCTTCTACATCAACTTGTTGAATTAATTTCACTGTTCTGTCACTTGTTAATTTCTTCATTATAGGAGTCATAGCTTCTAGTGCTGATAGTGTTGAATCTATGTCTATTTGCTGTATTATGTTAAGTGCTCTGTCACTTGTTAGTTTTTCTATTAATGGCCATAATGCTTGTATTTTTGGTAATTGATCCATGCCAAAAGAAATTAGAGCGTTAACTAAGTCTGCTTTTTGTGCAGTATCAATTAATGAAAGCCCTTGTTCCATAAGGTTTATTAAATTATCTAGTTGACCTTTTTTCTGCATCTCATTTAACATTGATGCTAATCTATTAAGAGACGGTGTCATTGTTTCGGCAGTAGCTAATAATGTGTCTATATCAAGGCTTTGAATTATCTTTAATGTTTTTTCGCTAGTTAATTTAGAAAGTAAAGGAGTTAACTTAGATGTATAATCAAGTAAAGCATCGTAGTCTATACTTTCGAGAATTTTTAGCGCTTTTTCGCTTGTCATTCTTTGCATTACTGGAGTTAATTTTTCTAGTGCTGATAGTGTTGAATCTATGTCTATTTGCTGTATTATGTTAAGTGCTCTGTCACTTGTTAGTTTTTCTATTAATGGCCATAATGCTTGTATTTTTGGTAATTGATCCATGCCAAAAGAAATTATAGTATTCATTAAATCGGCTTTTTGTATAGCGTCTGCTATTGATATAGCTTGATCTGTTAAATTTAACATAAAATCTAATTCTCCTTTTTTATCTAAATCCTCTAATTTATCAGTAAGTTTTTCAATAGTTGGTAATGCATCTACTAGCTTGTTTATCTTTTGTAAATTCTCTGGTTTTAAGAGAGTTTCTAAAGGATCTTCATTTTCTGCCATATTATTTCCCTTATACTCTTTTAATTTTTTAGATTAAATAACCTTTATGAACGTTAAAAGGTTTTGAGTTAACGTTTTAAATTTTTATAATGAGGGATCACTGTGATATTAGTAATCTCTCCTTCAGCATTTAATAAGATAGATGAAATAATCAAAAAATTCAATAGTGATAAAATTATAATAACAACTTATGGGGTAAGTTATGCATTATCTAATAATATTAATATAGATAAAATATTAGATTTAGGAATAAAAGTCATGGCATATTCTCATAAACCTTATCAAGTTTCTAACCTTTCAATTACTGAGTCTGAGGCTATCCTAGTAGCTAGAGATTTAAAAGCTACACTCATAGCAAGTGACACGAAAATAAAAGAGGAAGCTGAAAAATTAGGCATTAGCGTTATCCTTATTTGAAGACTTGGCTAACATTTTTAATAATATATTTGGAGGAAAACTACCTGGCAACTCTATCTTATCGTTTAGAACTATTTTAGGTACACTTAGTACTCTATATTTTTCTCCAAGTTCAGCGTAAGTTGTAATATCTATGATTTCAAGACTTATCTTTTCATTTATGATTGGTAATTGATATAATAGTTCTGCAGCTATTGGACATTTTGTACAGTCTGGAGTTACAAATAACTTTATATTTCCAGAAATTGTTACCGCTATATCTCTTTCTGAAGGCTCTAACTGAACTTTATTATTAGATATTCGTACAAGAGCGTTTAGAAATGGCCATAATTCATTTATTTCAGGAATACCATAGTAAGAGAAGAAAATTCTGTCATTTTTTCTAACTATTATTAAAGGTTTTTTGCATTCTATTTTCCTTAATTCTATATTACCGTCAAGAAAATATGATATAAAATCATCTGCATCACAATACTCTAAAGTTATTTCATGAATTGCAGTAAGATATTGCCTAATAATTTGCTCATAACTCATAAGAAATACCTCAAGCTCTCTATTCCTTCCATAGATTTGATTAGCTTTCTTTCAAGATCTTCTCTATTATTAAATTTTTTTATTATATCCAATTCTGAGCCATTAATTGTATACTCAACAGGAGATCCAAGACCTTGAACTAATCTAGAAGCTCTAGCATATTTTATTCCCATGTTCACTAAATCATCAAGGCTTTCGTTTCCAGTAGGTAAAGGAACTGGAAAGATTATGGAAAGGTTATCAATATAAAATTCATAATCTCCCATATTAATCCTAAGTCTATCTTCTTCTTTTTTAATGCTAAATCCTTTTTTATTTATATAATCTTCAAGACTCATTTTTCATACCCTTAAATCTATCTACATCTAAATTATAGAAACTTCTCGCACAATTAATAATTGCTTCAGAAAGTGATGGGTGAATAAAAGACGAAAAAATTAAATCTTTTATATTCATTTTTTCTCTTATTGCTAAGGATAATATATTTATTAATTCCTCTGCTATATTCGATACTATTTCGCCATATACTATTTTTCCAGAATTATCTATACCTATTTTAGCATATCCTTCTCTAAATCCACTTATTGTAGCTCTGGTAGTAGCTGTTATGGGGAACTTATTTATTTTTGATACATCGCTGATATTTCCTACAATACCAATTTGAGGATCAGTGTAAATTACTTGTGGGATTGAATTGTAATCTATAGTTTCCTTTATCCCCAATATGTCTAAAGCTGCAATCATTCCTTCAGACATTGCAGCATGTGCAACTTTTTTTTCTTTATCAATAACGTCTCCTATAGCATGTACTCTTGGATTATCAGTCTCCATGTTATTATTAACCTCTATACCATTTGAAAAAGATTTGACCCCAAGTAACTCTAAACCATAAGGAAAATTAGGTTTTCTTCCAGTAGCATAAACAATTATTTCTCCTTTAAATTCTCCTTTATTAGTAATCACTTTTTCATCTTTTATATGTTTTATCTCAGTATTCTCATAAATCTGAATATTATCCCAATCAAAACTGTCTAGTAAAATATTTCTAGCATCTTCAGTTATTTCCTTAAGTATCTTACCTCTAGTTATTAGCGTTACATTACTACCAAGTCTAGCAAATATTTGGGCTATCTCTGTTCCTGCATATCCTCCACCTATTACTACCATACTTGAAGGTATCTCATGAAGATTTACAGCTTCGTCCTCACTTATTGCGTAATCTATTCCATCTATTTGCGGGGGTACAGAAGAAGATCCAGTAGCAATAATTAGCTTTTCAAATCCTATTTTTTCACCATTTACTTCTATTTCTTTATCTCCATTGATTTTTCCTTCTCCTATAAAAGTATCTCCTCCAGCGTCTTCTATTAATTTCCTTCCTGCATCTGAAAGATAATTTATTATTTCGTCTCTCTTTTTAAAGAAATTATCCTTAGATATCGAAATATTTAGTCCTTTATAATTTCCTAACTCTTCTAATCTAGAAAAAAGAAAAGAAATATCTGATAAAAAAATGCTAGGGACACATCCAGAGTTAACGCATACTCCTCCGAATGCTTTTTTCTCTATTACAGCTACTTTTAGATTATTACGAGCTAATATACTACCTGCAACATATCCAGCCGATCCTCCGCCAAGCACTACAACATCATAATGCATGCCAATCAGAAGAATAATGTTCTATCAGCATCTAAAGTTAAGTCTATTAGTGTTGATCCTCCTACTAGTTCTATTCCGTCTACTACATCTGTTTCATTCATATGGCACATATCTTTAAGACTTTGCACGCAGACATACATTTTAACTCCGTTGTCTTTTGCCATATCGAAGAAGTGTATGAATGGATTTCCTCCTTTCTTTCTTTCATCTTCTTGCCATTTTTTGGAAAGTAATAATGGTCCCTTTATCATGAAGAATACTGAAGTTTCATATTCCATAGAAGCGGAAATAGAAGCCATAAATAATGGAGCATAAGTTCTATCTAGATCCTCCGGTCCATGTGTTACTACTATTAATATTTTCTTTTTTTGCTCACTTTCTTGAGATTCAGCTGTAGTTTGGGACATTTCTCATCAACATTATATTTATTTAGCTTACTTATATTTTTTATCAAAAATATTTACCTAAGATCTTGATCTTTTTTTAACTTTTTTTAAATAATTAAGGAATAGCATAAAGCTTAAATATTTTTAAGAGAAAGTAGATTTTGGTGAAAAAGTGTCCAGTAACAAGAAACTATCCATAATCGTATTTTCTGGAACTATAGATAAACTAATGCCAGTTGGAATACTAGCTAGTGGAGCTGCTGCTTCTGGATATGAAGTTAATCTATTCTTCACGTTTTGGGGATTAAATTCAATAACTAAGAAATCACTTGAACAAATGCAACCTATTGATAAGAATTATGAACAATTCGGTTCTGTTATGATGCAAAGAATGCAAGAAATGAAATTTCCAAGTTGGGTTCAACTAATACAACAAGCAAAAGAAGTAGGCGAAGTTAAAGTTATAGCGTGTTCTACTACGATGGAATTCTTCGGAATTAAAAAAGAAGATCTGGCTGACTTTGTAGATGATGTAGCAGGCGTGGCGACATTTTTAGATAGAGCAGAAGGAGGAATTACATTATTTATCTGAGGTGAAGAAGATGAGTCAAGAAACTAAAATTGCAAAAACATTAGATCTAAAGGGAATGTATTGTCCTGGTCCAGTTATGGAAACAGCTAAAGGTATAAAGCAAATAAATGTAGGGGAAGTTCTAGAAGTTTTAGCTACAGATCCTGCAGCAAAGCCAGATATAGAAGCATGGGCAAGAAGGACTGGTCAACAAATACTAGATATACAACAGCAAGGCGGAATAACAAGAATACTCATTAAGAGAGTTAAATAATTAACTCATGCTAACTTATTTTATTTAAGATATTTTTTAATAAAATTTATAAGTTCCTTCTTCTAACATAAATCTGGTAATAGAAATGTCTCAGAGTAAAGTATTGCAACTTCCTGATGATCCAAGATTTCTTGATATGGCCTACGCTGAGCAAGGAGCTTTACCAGAAGAAATAAGAAATTTAGATTCTTTAAAGCCAGAGGATAAAGAAATAGCAGAAAAGTTCTGGAAAGCAGTTAAGTCGGATTTCAGATTTAATGAAGATTTAAGAGGTTGTCTTAACTGCGGTGTTTGTACTTCTGGTTGCCCCGCAGCAAAGTTCTATGATTTTGGACCAAGAGAAATGATTCAGTATATGATGAGGGATGAAGCAGACAAAATATGGGAATTCACAAATAAGAAAGTTTGGGCATGTGTGCAGTGCTATACTTGTTCTATGAGATGTCCATTCAATAATGAAATTGCTGGGTTAATAATGTTATTGAGAGAATACGCTGTGCAGTTCGCTCTTCCATCTGCTAAGGAAATATTAGCACCTTATAGAAGAGTGCTTTATACTGTAATGACACTTGGCAATCAAGTAACGCCAGATATGATACAACCAGAAGCATTTCCAGATTGGGGTCCTCAAGCAGTAGAAGAATCTAAAAATATGGACGTGTATAGGAAAGCTATCCCAGTAGATTTAATGCAGAGAACTGATGTAGGTTGGCATCCTTCTCTACAGACCTCTGTAGAAATGATGACAATAATGATAGAATCTGGAGTTATGGATTCTATAAAAGGAGTAGATCCAGATCTTTATGACATGATAATGGATATCTATGAAGATAGAAAAGCCCAACTAGAAGAAATCAAGGAAAAATGGCAGAAAGGAGAACTTAAAGAAGACGAATTACCAGATAGTTGGTTAGACTTATAAATTAACTTTTTTTTGAGAATTCAAAAATTTTTGTAATTTTTTAAATAATTAAATAGCTTCTTTAATAAGTAAAGTTTTTATGCCAAAAAAACCTACATATATATAGGGTTATACACATGAGTGAACAAGTAGATAAAAAGATTCAGGAAGGGATAAAAGACGCCTTCCCGATGGCAGATACTACTGACTGGAACGAAGTTTATCAAAGGATTATTTATAGGTATAGTACACCTCACGGGTTACAACATGTTAAGGAAGAATTATACAAATTAGAGGATGAAGGAGAAATAATAGTTCACCATATAAAGCCTTATAACGACCCAGTTAAGATGCAATCGCTAAATGGCACTCCAAAGGTCATACCTACAAATAAATTATGGCATCATAAGAGTTGTGGACAATGTGGCCATATACCTGGTTATCCTACATCCGTATTTTGGATGATGAATAAGATGGAAGTAGATTATCTAGACGAGCCACACCAAACTTCGTGTACTGGATGGAATTATCATGCTTCTGGTGCCTCAAATCCTGTAGCGTTAGCAGGAGTTTATGTAAGAAATATGTGGAGAGCATATGAAACTGGATATTATCCTTTAATTCATTGCGGGACCTCTTTTGGACATTATAAAGAAGTAAGAAATATGATAGTTTTACATAAAGAGGTAAGGGATAAATTAAGGCCAATTATGAGAAAATTGGATATGGATATAGTAGTTCCTGAAGAAGTAGTACATTACTCTGAATGGTTATTCACTATGAGCAAGAAAGCCGCACAACAAAAGAAATATGATCTAAGCGGTATAAAAGCGGCAGTTCATACACCTTGCCATGTTTACAAATTAGTCCCAGAGGATACTATATACGATCCAGAAGTATTTCAAGGAAGAAGACCTGCAGCACCTAGTGGAACAGTTCAGAATTTCGGCGCTAAACTAGTTGATTACTCAACATGGTGGGATTGCTGTGGATTCGGATTTAGACATATATTAACTGAAAGAGAGTTTTCAAGAAGTTTTGCATTATTCAAGAAAGTAATTCCTGCAGTAGAAGAAGCTCATGCAGATGTATTCGTAACTTCTGATACAGGCTGTGTTACTACATTAGATAAGAGTCAATGGGCAGGAAAAGCACATGGATTTAATTATAATTTACCAGTCTTAGCTGACGCTCAATTTGCAGCAATAGCGATGGGAGCAGATCCTTATACAATAGCACAAGTTCACTGGCACGCTACAGATGTAGAAAGCTTTATGAGAAAAATAGGAGTTCCAGTAGATGATTATAAGGAGAAATTTATACAATACTTATCAGATTTAAGAGAAGGGAAAGCAGAGCCACAGTATCTATATACTCCTCACAGGAAGATTGACTTCTACATAGCAGTTCCAGAAAGAGTAAAGTGGTATAAAGGACAACAAATACAAAAGTAAAACATAGTTAAAGTAAATCTTTTTAATTAAATTTATTAAAAATAAATAGGTAGGTGAATTTGATTGGTAAATGAAAAAGTTCTCGTGATTGGATCTGGTCCAGCAGGTCTTTCAGCTACAAAGGAATTAACAAATATGGGAGTTGACGTAGTATTAGTAGAGAAAGAATCGTATCTTGGAGGAACACCTAAAAAATTAAAATATAGTCTCCTATTTCCAGAACTTAGACCAGCCTCAGAAGTTTTAGATCCTATGATAAAGACTGTTCAAGAAAGCAAAATAAAGACTTACATGGAAAGCATAGTTGATGGAGTAAAGCAGGAAGACAAAGGCTTTACAGTTTCAATAAAAGATAAAACAGGAAAGATAACATCAGAAAAAGTTAACGCTATAATAGCCGCATCTGGTTTTGAACATTTTGATTCTAGAAGAAAATATGAATATGGTTATGGTATAGTTCCTAATATATATCAAATTTCAGATATAGAAAGGATGCTTTCAGAAAACAAACTTGTAACTACAAAAGGAACTCCACCTAAAAGAGTAGCTATATTACTCTGTGTAGGTTCAAGGGATGCAACAGTAGGGAATACATACTGTTCTAGAGTATGTTGTGCAGTATCAGTAAAGCAAGCTATGGAAATAAAGGAAAGAATACCAGATGCAGTAGTTCATATTTACTACATGGATATAAGGACATATGGTTTAATGGAAGATAAGCTATATTGGAAATCACAGTTAGAGTACAGAGTAGGTTACATAAGGGGTAGAATTTCAGAGTTTATGAGAGGACCAAACGATACTGTAATAATAAAGGGAGAAGATACTATGAATTTGAATAGAGCCCTAGTAGTTCCATACGATATGGTTATCTTAGCTAACGGAATGGAATTAGGTTTAGGATCAAAACAAGTAGCTAAAGCTTTAGGCCTAGAATTCGAGGAACATGGATTTATAAAACCATTAGACCCAGACAGATTACCAGTACAATCCACTAAGAAAGGAATATTCTTAGCTGGAGCATTAACTGGTCCTAAAACAATTTCTGATTCTATAACAGAAGGTTCTGCAGCAGCTATGAAAGCATATGAATACGTAACAAAGGGTATCTGGGAAGACTCAGATTTCGCCAAGAGAAAAATTGAGGTGGCACAACATTAGCCTTAGTTTTTTGAATATTGACTATGTTAGGGAAATTTATAATGCTATGTTAGAGGTAGATGTAAATAACACTGTTTCTGGAGACGCAAAAAAGTCTCTAGAAACAATCCTTCAGGCTATGAAAATTAAATCGGAAGAATTGAGAAAATTAGATATAAAAACAGAGTCAGACGTTAGAAAGGTATTTGATTCAGTTTTTTATGCTAAAAAACATTATACTGACGTTATATCAAAAACTCCTTTGCCACAAATTAGTCAAGCATTTAACGAACTTAAAGATGATAACAAGAGCTATAATGAGAGGGTTTCGTCTTTCCTTTCCAAAGTTAATGGAGGAGAAAGAGAAGACATAGAAGACATGGCTAAAGAAATAATACATTTCTTAGAACCAGAGAAGTATCCATTATGGACTAGATGGATATGGAATAAGAAAAGAAATTCTGGATCAATAAATTATGTATTAAAAGACGAAGTAAAAATAAATGGCGAGGAAGATTTTTGGACATCAATAGACGAATTAAAGAAAGTTTTAGATATATTTGGTCTTCACTCAGATAATTATTATGTTACATCTGTTTTTTTGGTTTATTCATACGTAAGATATTTAGATTACACTACACATCTCGCGGTAGATAAGAAAGCCGCGGGATTAATTCCAACTCATTTAACTACTACGGCCCTTGTTTTGGGCCTTAAACCATATCTTAAGGTGATCAAACTTGCCAATACCCGAACTTGAAAAACCCATAATTAAAGGTTTAATTGAAAAAAATAAGGTAGTAATAGATGGAGTAGAGCTTGACGGGACATGGAACGCATTCATGATAGAGAGAACACAGACAGGCTACGATCCTTCAGTATGGGACGAAATAGCGGATACTGTGGAAGGTAATACTATATCCTTATGCTGGCAGTGCGGTACATGTACTTCTGGATGTACCATGAGAGAATATGATCCTAACTATAGTCCTAGACGTTTTATTGATTTAGCAAGAAAAGGTGATAAGCAGAGTCTCATAGAACTACAAGATAGCTTATGGAGATGTGTATCGTGCCAAAAATGTACTCATAGATGTCCAAAGGGAGTTCTAGTAGAAGAAGTGGTTCATTCTATTCATAATTACATGTTAAAACATGGGTTAGTAAAAACAGATCCAGGAACAGTTTTTGACGAACTATTCCTTGACGCCGTTATGAAAAATGGAGGAAGAATATCCGAACTTATTCTTGGTGGAGCATCAGCCAAAGCAGGATTCGTGACATTAAGTATAAAGGATCTACTTACAATGACAGGTCCATTATTAAAATCTGGGTTAATTAAAGATTTAATGAAACCAAATAGAGTAAAGAATTGGGATAAGATAAAACCAGTATTAGAAGAAGCAATGAAAGAGGAGGTGAAACCAGAATGAGCACATATGGTAAAGTAGCGTTCTATCCAGGCTGCGCATTAGATGGACTAGGCAAAGGATACGAAGTATCATTAAAATTAGTAGCTCAAGATCTAGGGTTAGAATACGAAAAAATTGAAGATTATAACTGTTGTGGAGCGTTAGAAGTTAAGAACGTAAATACTATGGCTGGACTCTTACTTCCTGCTAGAAATCTATCATTAGCTAGAAATATGGGAGCTAATGCTATAATGTCAGCTTGTCCAGGATGTCATTACTCATTATCTAGAACTCAATACTTTATGACAAGATATCCTAAATTAGCAGCTAAAGTTAATGCATACTTAGAAAAAATGGGAGAAAAATCTTACGATAATCAATTATTAATGATTCATGCTGTAGAATTCTTCTACAACACAGTAGGCCCAGAAGGAATAAAATCTAGAGTTAAGAGACCACTAGAAGGACTTAAAGTAGCTCCATATTACGGTTGTCTATATACAAGGCCCAAAGCATATACTCTTACTGGCTACATGAAGCTAAAAGACGATCCAGAGAGACCAATATTTATGGATGAGCTATTGAAAGCTTTAGGTGCTGAAGTGGTTCCATTTGAAGCTAAAACCATGTGTTGTGGAGGCCCGCATGTATATTCTGACGCTCCAACGTCAATTCATTTAGAAGCCAGAATATTAAAGGAGGCTAAGAGAAATGGTGCAGAAGTATTAGTTACTGATTGCCCACTAGGACACGTAGCTATAGAGACTAATATGAATAAAATTGCAGAAAAATATGGTGAAGAATTAAGGATGCCGTTAGCATACTTTACACAGCTAATGGCATTTGCATTTGGTCACAGTCCTGATGAAGCACTACTAACTGCTAACCTAACTAATCCAATGTCTGTACTCAAAAGATATTTATAAATAATATAACCTTTTTTTATTATGACTTCTCCATCAGACCATTTCGCTAATGAAAGAACGTTTTTAGCTTGGGTAAGAACTGGTATAGCATTAATAGGTTTTGGTTTTGTAATAGCAAAGTTTGCTTTGTTTTTAGAAATTCTTAAAGGTGAGAAATCTATTGGTGGATCAGTAGCATATGGTGAAGTAATGATAATTTTAGGGGGAGGCGTAATAGCTTATGGGATCTATAATTATTTGAGAAACGAGAAGGATCTATTTAAGAACACTTATACTCCTAAAACTACTGAAAACGCTATGTTTGCACTAGCAGTTCTGCTTATATCTATAGTTTTAGCGCTGTTAATCATTTAGTAAATATAAAGGAAACATATATCATAAAGAAGTATAATATCATTAGGAAAGTAGACTCTTTAGCTCCTAATTTTCCATCTAGTAACGTTACTAGTCCTATTATATTGGCTATAAAGGCAGCTATAATTTCTGGTAATGTAGTATTAAGATTAAAACTGGAAAAAAGGCCAATTAAACCAAGGAGAACAGTTGCGTTCTCTATTTTACTTCCTATAAAACTTACAATGGCTAGAGATCCTCCTTCAGAATTAGCGAAAGTTAAGCGTAAAGCAGAAATTTTCTCTTCTAATTCACTCGCTATTGGAGTTATTACTAGAGCTAACCAAGCTGGAGAGATTCCAAAATCTTTTGCAGTTACATAAAGGTAATTTACAAAAAAACCAGAAAGCGTTACTATTATTATGGCTCCTATACTTAAATACGTTAATGCTTTTTTCATATTTATTTTATCAATTTCTCTATTTTCTCTCTTATTTAATCTATAGAAGATATAGTATATATAAATGAAAAATAACGGTATAGCAGTTATTATATTCAATTTCCCATAAACTATTATCAATGCCATACTTATTGTTGTTAAAATTAGAAATCTATTTTCAACTTTATAATCTCCTTTCATTCTAAGTTTAGATTTCCATTTAAAGAAGTAGGCTAGACCTATTAATCCTATTCCAAATGTAAATAATACGACGTTACCTCCTATTGCTGATCCTAGAGCTACTGAATATTTCTTATCTATTATTGCGACAATAACAAATATGGTTTCAGGCAGTGACGTTAGAAACCCTAAAACTAAGCCCCCTGCTATTCCTTGGCTTAAACCTTTCTCTAATTCTTCAGTTCCTCTAGCTAAAGACTCCGAAGCAAAGCCTAACGCAATTATTATAGCTGTTAGTACGCTTAGTGTATAAAAATCCATTAATTTTATCTTTAAAGATATTCCCTTTATACTTGTCTATAATATGTTATAGTATAAATATAACTCAGTTACTGTAAGGAAAGTTATAAAAACGAAGGCAAAAAATACTTGAGCTAATGTATGTTGCTTTAATTTAATCCTTGATATTCCTACAATTAAAGGTAAAAATAGAAGAAAAACGTAAGTAAACCCGAATATATAAATTACTGCTGAAACTATACCAGCAATACTTGATTCATGCAAGCTTATCTTAAATTTAAGAGTAATTATTGCCAAAAGAAGTGTATTAAAAGCATAACATATTGATAAATAGGTCACAATGTTCCTAGTATTGTCAAGATAAAGTAAAAAAGGGACTATTAGATATAAAGGGTAAGTTAAAGCAAACATAAGTGGTCTTTCTTTTCTTTCAGTTACAAAAATGTTGCTAACTTTTCCTTTAATTTTAAGAAAATATACCATTATATATGGCATAATACCATAAAATATAAGAAACAATATTATTACTGAAAGACGTAATTGAAATGCCATTGCTATAGCAGAAAAACCTACTGCTGAAGTAATTGAAGGATGAAATATTCTTGATATAACGCAGTATATTTTACCCAAAATCTTTCGTCTCGCTGCTCTTTAAAGAACATAAAGTTTTAGCTAATTCTCTAGGATTATCTATATAACTAACTTTTACTACCTCTCTATGATCAAAGTAATCTGGAAAAGCCTTAATTAGTTTGTCGGTACTGAAGCCAGTGTTACTCAATACAAAAACAGGTTTTCCCATTCCATACCCCATTAATATCTCGATTTCAGTCCCAACTCCTCCACCTAAAGCTACTACTGCATCACTAGATCTTATTAGAGGAATTGACCTAGCCCTATATTCCATTCCAGTCTTTATTTTTATAACACTATCTGGCGGACTAACGTCTTCGTTTTCTATTGGCAATAGGAGTATTACTCTTAAACCTAAATTACACGCTTGATCGACAACCTCTTTCATTAGTCCCCAATATCCTCCTAATAGAAGAACTGGATTCTTACATTCATTACTAACTCCTTCTAGAAACTCTTTAACTTTAATTTTCATTTCCTCATTGTACTCCCCACTATGAGCAGCTATTGCTATCTGCATATATCGATTTAAATAATTATTAATAAAAAAGATCTTTCCACGTCATTTTATATAAGGTTTTTAAAATTTTCATGTGAGTAATTATCATGGAGATAGAAAGTTTAGGAATAGAATATTCTAAAGAGGAAAGACAAGATTTTTCTGGATTTAAGGTTAATCCATCATTTATCTTTTATCCAAAAAACGAACATGATGTAGCAAAAATAGTAAAATTTGCAAACAATCATAAAATTCCTATAGTAGTTTGGGGAGCGGGAACTAGTCTTACTGGAGCAGTAAGTTGTAATGGATGTATCTTAATTGATATGAAATATATGAATAACATTATAGAAATTAATGATGTAGATTGGTACGTAAGGGTTCAGCCTGGAATAAATTTAGAATTTTTAAACAAAAAATTAATGGAAAAGGGGTTTTTCTTACCTCCAGATCCTGCTAGTTTTTTCCTTTGTACAGTAGGAGGTGCTACTTCTAACTCTTCTGGCGGAATGAGAGGAGTAAAATATGGAACTTTTAGAGATTGGGTTCTGGCATTAAAGGTAGTTCTTCCAGACGGAAATATAGTTAAGCTAGGAGAACCACTAAGAAAAAATAGAGCAGGATATGATTTAGTTAACCTGTTTGTAGGCAGTGAAGGTACTTTAGGCGTAATCACTGAAATATGGTTTAGAATAACTCCATTACCTAGAGAAAAAATACTTACAGTTCTAGCATACATGAAAGACTTAGAAAGTGCTGCCAATGTAATAATAGGTTTAAGGAAAGGAAAAATAATTCCTGAAATATCGGAGTATATGGATAATAACGTTATTAAGGCGCTTAATAAGAATCTCAATGCAGGATTAGAAGAAAGTGAAGGAGGTCTAATGTTAATTTCTATCGAAGAAAAATATCTAGAAGATCTAAAAGCTATTCTGAGAGATAACTCAACAAAGATCATAATTGCAGAAGGTGAAGAAGCTGAAAGACTGTATTCTATTAGGGCACAATCAGCAATAGCACTTAGAGCGGAAGCAAAGAATATGTTTGTGGAAGACATAGTAGTCCCAGTATCTAAATTACCAGAAGCTATATTGAGGCTAAGAGAAATAGAAAGTAAGTATAAAATCAAACTTCCTATAGTTTCTCACATAGGAGACGGGAATCTTCATCCAAACATTTTATTTGACGAAATGAGTAATGCCCAAGAGGTATTTGAGGAAATAGCAAGAATAGCAATAGAATTAGGAGGTTCAGTTTCAGGAGAACATGGAATAGGAGAACAAAAGGCTAAAGTTATGGCAGAGCAAATAAAATCGCATAATGGCGAAGAAGTTCTTGAAATAATGTATAAAATAAAAGGGCTAATAGATCCTAACAATATAATGAATCCAGGAAAATATGTGGAACTAGCATATAAATTAAGGTAATTTTTTAAGATATTACTCTTATTTTCCTATCCATGAACTTCACTATAACTTTTATTTTGCTATATGCAATTTCTCTAGCGGTAGGAAGGAAAGTTAAGCTCCCATCAGTTATAAGTGATATTACAGTACTTCTATTGATATTTTCCATATCATTTTGGGGAGGTAACGAAGTATCTACTCAAGCAATAGAGAGAATAGTATGGATTTCTATAGTATCATCGTTTATTATAGTGATCATAACTTATTTTGTAGGTTCCTTTATAAGACTAAAGGTAAAAGAAGGAAAAATAAAGTTAGATTGGAAAACTCAAGTTAAATATGTATTACCTTTAATATTCGGTTTTATCTTAGGTTTTTTAATAAAGGTTAATTTACCATTTGGCTCAATTATAGACTGGGAGTTATATCTTTTAGCTATAGTCATAGGTTTAAGTATAGGTAGAGATCTAAAGCTAGAAATTCTTAAAAGAATAAGCGGAATTGCCATATTTTCCATATTTGTAGCAATATTTGGAGGTTTAATTTCTTCTATTCCACTTTACTTTTTAGGTCTACGACCTTTTAATTTAGCCCTTTCAGTATCTTTAGGCTCTGGATGGTACTCTTATTCTGGACCTATAGTTGCAAAGTATTATGGCCCAATTGACGGGGTTATAGCATTTCTAATAAACTTTCTCAGAGAACAATTAACTTTCTCACTAGTTCCATTACTCTTAAAATTAAGATCCACCCCCTTAGGCGCAATAGCAGTAGGAGGCGCAACATCTATGGATACTACATTAGGTTTCTATGTAGATGTCTTAGGATACGAATACGGAATAGGTGCGATGATTAATGGCGTTATTCTCACTCTCATAGTTCCTATTGTGCTCCCCTTGATTCTCTCTCTTTAGAAGCTTCATATAAAGTATTCCACTAACAGCTTGAAATATTCCACCTATAAATAATGGTATCGGAAGATCTATTTCCATTAAATATCCACTAAGTCCAGAACTCATTTGTGAGGCTCTAGTTGCTATACCTTGTAAACTTGAAGCTGTACCATAATCTTCAGAAGAAACTCCTCTAATATTAACTGCAGTTCTATTTGGAGCACCGAAACCAGCATTAAATCCTCTTATAATATAAAATAAGGCTGCCAAGAAAAAGAAAGGAGATAAGGCCATTATAGCTAAGAATACACCATTTAAAATTCTTGTTATTGACGCAACTCTTAGAGATTCAAAAGATAGTCTAGTTGCCATAAAAGATCCTAAAGAGGTAGTAATATAAGATATAGTAAAGACTATTCCGATCAATGCAGAAGACGCATGATAATATAATGAAAACCATAGAGGTAGTAATGGAATAGCCATACCTATACCAAAACCTGCAAAAGAATTAGCCAATATTACCTTGGAAATATATTTTAAACTAGAAATTTTCATTATTTTAGTAGTCTTTTTAGGTCTAGGCTTTTCTTTCACCATAAAAACACTCACTAATGAAGCTAAAAGCATCAAGAATGAAACAAAGAAAAGAAACCTATAATCACCTACTGCACCAAAAGGTAGATAAGAATGGATAGTTAGCATTAAGCTGCCACCTATAGCAGAAACAGAAGCAACTGAAGTAAGTATACCTATTTTATTTACCCTGTCTTTCTCATATTCCCAATTGCTCATAACTAAGGCAGTTAATCCTGGAGAATAAACTCCTCTCATACCTCCAGCGGTTCCTCCAATTCCTGCTATTATTAATGCTATAGCAATAAGTAGTACATTTTGTGATAAAGAAAGAATTAAAACTCCTATAACAGCAAAACTATCGCCTATAATAATTGCGTTTTTATACCCTTTCCTATCTCCGAACATTCCTAAGATCAAAGAAAGTATAGACGAAAATCCTATAACTCCAGCAAATATTACACCAATAATTACCAGATGTACTCCGATTAACGCAAGATACAGAGAAGATGATAAAGTAACGAATATTATACCAATACTTCTTAGAATCCTCGATAAAACAAGATATTTGAAGCCCATATCCATTGGAATACACCAAAAACAGTAGTAGATAACAATTATACCTAAAAAAGTTTTATTAGATATATCTAAGAAAGAATAGAATTATGTAAGCAAATATATATTTACCCTTTTTTAGTAAAAACGCGATATAACATAATTTGATTTTATATTAGTATTAAAATATCTATTTTAATTTCGTATTCAGTATACTGATACATCAATCTGTTTATCTATACCAAAGAACACAGTGCAATTCAAATTTTATAATCAAAATCCCTCAAATGGAAATCTTAACATTTTTATGTTACTTTTAATTTTAAAGTATGATGTAATGATTTACAATATTATAATGACATATCTCTCTACTATTCAGTTAATTAAAAATCATTTACCTTATTCGTTAATGAATGATAGAGAAATTTAAGATAACGAGAAATCCATAAAACATTAGAAAAACTAGCATACTAAAGCTTCTCTAGATTTTCAGTCAAAATTAACTTTACATTTTCTAACGGTTTTACCAACAATGAATTTTCCATAAGGCAGTTCAAGCACTGCACCGTATTTCCTTATCTCATTACTCCATTTTACTAATTCCTCATAAATATTAATCTTATCATATGTAACACAAAATGCTATAGATACTCCCATTAAAACAGTCCCAAGAGTTAAGTTATTTTCAAATTCCTTTTTTGTCATAATGGTAGTATCTAAATAAATATTTGTATCTTTAACAAACCTCAGTCTAACATCGTTAAAATTCAATCCTTTGGCCTCGTCCTTTATAATAACCAATACATCTAGATCAGAATTCTTATCATATTTACCTATAACTCTACTTCCGAAGAATATTATGGCAAGTACCTCGTTTCTTCTTAAAAATAAGGTAGCTTTTCTAAATAACTCCATATTTTCTAAGATAGTTCCCTGCAATTGCGATCACCTCATTAGAATACTCTATTCCTTGTCTACACATTTCCTCAGTCACAAATTCTTCTGGAGTAGTTATATTATTTCCGTTAAAAAACGGGTATCTAGATATGTTCCATGCACCAGAAAGATAATCTAATGCATTCAAAACTATGTCTAATTCGTTTCCAAGATCCTGTAAATTGCTTGAAGCATCTGCTATAATATCATGTTCTTTTTTGTATATTAATTTTAATTCTAACATAGCTTTTACACTTTTTTCAACAGATTGCTGAGAATAAAAGAAACATTCAGGATAATCTTTAAGTTCCAGGGCTCTTTTTGCTCTATTATTATCCTTTATTGCAACATTGTAGAAAGCTTTAGCATATTCCCTAAACTTTGGAGGAATCACAAGCAATTTATAAAGCAAGAGAATAAATTATTTTACGCCTCTTATACTGAAGCACATTGCATTTCCAACTATTTTTAATCTCTTATAGAATAAAATATTCCAAATACTAGTATTTTCAGAAAGTTTATGGCTTTTATCTAAGGATTTACTGTTAAAATCCTGGTCTAAGAAATTTTGGAAAATACTAACGGGAGTATTTGCAGATCTCCAAAAAATTTTTCAGAAATAACGTATAACTTACTTTTAATCTTATGCTAGATTTAGATTTTTTTCTTTTCTAAGAGCTAAGAAAATTTTGCTAGTATACCTAGTAACATGGAAGTAGATTTTAGTTCCATTAATATCAAAAGTTAAAAACCCAATATGTACTTGATCTTTTAGAGTAATTTTCATATTTTATAATAAAATTATTCGACAATTATTCCAGCTATCACTTTTATTCCCAATTTCTCTGCCTCTTCTTTAACAGATTTTTCTATGGAATTAGCTATTAAAAATAATTTAACAGGCTTATTATACATCGATCTGAAGATTTTTTCCCTTATTTCTAATTGCTCTATAGCTCCTTCATCTCCAAAATTCTTAATCTCAAAAACGTAGATTGCGTCATTAGATTCATAGAAATCTACTTCATATTTTCTGCCCTTCTGAACAATGCCTATATTATCTATAATAGTAGTATGAGTAACATTTGAAGGATCTATTCCATGAAGTTTTAATGCTTCTTTATAAACCTCCATAATTGTTCTTTCAATGTAATGTCCACCTCTAGTAGTAAAAGAAGAAAATGAAATATTTAGCCTCTCAATACTTTCCCAGATCTTTCTATTTTCTTCTTGGATAGCCCTTATAGATTCCTGAGTCTCCTTTATACTTTCCCAGATCTTCTTGTTTTCCTCTTTGATCGCTTGAATTTCTTGCCAGATCTTCTTGTTTTCCTCTTTGATCGCTTGAATTTCTTGCCAGATCTTCTTGTTTTCCTCTTTGATCGCTTGAATTTCTTGCCAGATCTTCTTGTTTTCCTCTTTGATCGCTTGAATTTCTTGCCAGATCTTCTTGTTTTCCTCTTTGATCGCTTGAATTTCTTGCCAGATCTTCTTGTTTTCCTCGTTAATACTCTCTATTCTTTTATTAGTCTCTTGAATTTCTTTCCATATTTTTTCATTACTTTCCCAAATTAATACTATATTATCTGAATTGTTTTGAGTAACTTTCTTTAGTTCACTAATTTCATTACTCAAAGCTTTTATTGACGAAGTTAACTCGTCTATTTTCTTAAGGACTATATCATCCTTAAGTTTTGGATAAAGTTTATCGACTAACTTATCCAAAAGTTTCTCATCGCTAATTATTCTCTCTACTATATCTTCGCTCACAGAATTAACTTCTCAAGAAAAGATAAAAATCTTATCTAATAATGAGATAATCTTCAATCTTTAATCAAGATATAGCTTACTTTAGTTAACTCCTACGGTGATTTTCATGAACAACATTCCTAAACAAGAAGACAAGCTTTACAAGAGTGAGACTAAGAAGACTAGGTATAGGAGAGGAGGTGGTGAAGGCCCTCAAGTTAACCCCGATCAAGTAGTTCCTTCGGCTCTTCAAGCCATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTATCCATCTCCACGGATGGAGTCTTCCGCTCCCTTTGAACACCTGATCATGATAAAGCAAATATCAGTTCATTAGTTTATCTACTACTGAAATGTATCTTAATTAGTTATATCTAAATATGAGAATATTTTATAGGAAATAAGATAATTTTACAAATTAAAAGGTATACTTTAAACTACTCTATAAATTTAGTTTGAGAAGATATTTATTTTATAGGTTGTAAAACGAAATTTGGCTATTGGATTGCAATTTTTTATAGACTAATATATGTTGGAGCAAGCATATTATCCTCCCAATAATTCGAGGTATTGTTTTACAACTCCTTCGCCTTTTTTAGTTATTAAAACTTTTATCCTCTTACCCTCAACAGTAGGAACGTAGTTTATGTCTATATACCCCTCCCTATGTAAGACTCTTAAATGCTGATAGAGTTCAGCCTTATTTAACTTAGTAGCTTCTAACAATTCCTTAAACCATGCAGACCTTGTATAATAAAGTCCTAATAAGATTCCTAACCTAACGCTAACGTTCAATGTCTTATTATCCTTCAGCAGTTTTATTAACTTCTCTAGCTCCATTCCTGAGCTCTCCTCACTAATTTGTATAAAAGTGCTAAAAGTGGTGGAATTAATATAGTAATAGTACTGAAGGGTGAAAGTGCTATTGATATTCCAGAAATTATGTAGGAGAGGACTAGGAAGTATTCTATAGTTCTCTCTTTTAGAAACCTTATATTAGTAATTAACTGACTTCCAATAAAAGATATGTACCCCCCAACTAGAAAAGCCGGTAAGATAGATAAGGAGTGAACGTAAAATGATAGAAGAAATATAGCATTAAGCAATATAAGTGAAAGTACGTAGGTTAACTTAATAAGAAAGGGAAATTTTTTTGCTATTAGCAAAGATTTGTTGGAACTAAAGGTCTTAACTAAAGGGTATACAAATCTACTCATTTTCCAAGATATAACAACATACGTCGTGGAAAAGACTAGTAGACTAATGTTTAAGGTAAGAGGGTTCTGGAGAAGCCTTATTAGTAAAAAAGCGATTATGCTTCCAACTCCTATAAAGTCTAATACGATTTTTGATATGTTCAACATAACTCTATAATATAACATCTGACTTATCTCTAGGGATTTTTGAATATCTATTTCCTTATCTATAAGACTTCTCACCATTACTTAATTTTACTTTATAATAATTTTAAACTTAGAACACAGTTAAGATTTTTTAACTTGATGTGTAGTCCAACAGCTGAACCAGCATCCAGCCCAACAAGCTATATATACTTCTCCTCCTCTAGCCTTCCTATTGCATTTTATTATCTTCAACCAGTTCACCGTTGACCATATTGTAAACTCTTACATTCTTCTCCAAAAGCTTAATTAGTTCCTTCTGGTGAGTTACAATTATACCCTCATTAATCCTTTCTCGTAGTAACGATATTACCTTATCCAACCTATTAATGTCAATGTTTTCTATGGGTTCGTCGATAGTCACTATTTGTGGTCTTGTGAAGAGAGCTAATGCTAAGGATACTAAAGCCTTTTGTCCGGTTGACATCTTAAAAATCGGCTTATGAATTACTCTCCTATCCAAGTTTAAGTAGTCCAGGATTTTGAAGAAATCTTTCAAATCTCCTTTCTTTATTTCCGAGATTATTTTTGCTGTTTCTAATACTGAATTTCCTATAGTATATACCTCTTGAAGGTTAGTAGAGTACTCTAGCAAACCCTTTGCGCTCCTAACCTCCACACCGTTTATCTTTATTGAACCCTTATATGGGATTATACCTGAAATAGCTCTTAATAAAGTAGTCTTACCTGAACCGTTGGGACCCAAAATTATATACACTTCCTTGTCCAACTTTAGGTTAATGTCGTTTAGAACAGTAAAGTCATCAAATGAGACTGATAAGTCTTTTATCTCTAACATTACCATACCACCTCTTCTAATCTCAGCGCCCTAATCTTCCTTAGAGCTAAATTACCTAAGAATAGTAGCAGAAGGGCTAGTAAAGCTACTTCAATAGTGTAAACGCTTATACTGTAGTGGATTAGGGAGTATGAGATAATATTTTCAGCCTCGTAGAATGGATTCAGTGGAGATGATGCTGAAGGAGAGAGTTCTGAAATTGCCAGTAGCCCGAAGAAAATGTAGTAAACGTAGTTTGACGCCTTAGCACCTACCTTGATCAGTAGTGCTGATGTTATTGTAAACGTTAGAGAAAGTATGAAAAAACTAGAGATCAATACTGAGATTATGAATTGTGCAGCGTTACTCAATTTGATAACTTGGTAGAACTGATTTAGTGTGACTTTAGTTACTAGCGGTGTAACAAAAATTGTGAAGACTAAAGAGTATATAATGGTGGAGATTATTGCTCCCAAGAACAAGCTCATAACGTAATTATACATTTTAAGTTTACTGAACCGCAAGTAGTAAGCTAATGCTGAGGAATGATAGACTAGAGCTATGCTGAAGCCCGTTGAGAGGCTAGCTACTAATAGTATTATTGCAACGCTGTACCACATTATTCCCGAACCTATGCTTTTAACGCTATCTAGGGCAAAATAGAGTCCTACAGAGTCTAGCATCATCATTCCGAGTAGGTAAGATATTGCTGTTGGAGAGAAGGCGAATCTCTTTATCATAGATTTTTCTAATTCCATGAGTAAAATTTTGTGAAAGATAATAAAAATAGTGGATTAAGTTAAAACTTTATAACTTAGCAAAGGGTTTATTTTTGGTTTGAATTTAAGTGTATAGAGAAAGCGATAATAAATGAGAGTAATAACTAGTACTAATAAGAAATCAATAGATTTAGTCAGAACTAATCCAATAATGCTTGGTTGTTGGTTTGGGTGTTGGTGCTGTTGTGGATGTAGAATAAAATAAAAAATAATTAAGGAAGAACTTCCCTACTTTTTACCAAATTATTTATAAGCCGTAAGTTTAAGTATACGAAAATCGATATAGTTACTGAGAGAATAATTACGCTAGGTTGTATTGTAGTTTTTTCGATTAATATTCCAAATATCCAAAGAGGGTTAAACGAACTCTTTAAGAAGGAGATAATGAATGTTGGCACAATAACTATTGGGTAAATTATTACGATTATATAACAATCTAATCTCCCATTAGTTAATAGAAGCGATAAAAACATAGAAATAGATTCTAGAAATAGGAAGACTAGAAGTGCTGTAGTAAAAAAAGGAATCATGTCAATAATAGCAAGACTATTGGAGAAGAGACAGTATAAAATGATAAGTAATGTAGTGTATAATAATGCGGCTATCTCCCCCGAAAGGTAAAGTAATACTAAGTATATTCCTATTCTTAAGTTTCCGAATCTCATTAGGAAGGGCAGAGCAGAGGAGTTATAAAGTAACATAAAGCTTACTCCAACTGACAAGATACTGAGTATTAAAATTTCGGAAACATTTAAGGCAATGCTGGACTTAATTATTCTCCAAATAATTAGGGCGGTAATAAAGCCTAAGAGCATGTTATAAGCTGCAGGTTCACTTAATATTAGTTGTTTGAGGAAGTATGTAAAAAGGCTCTTCATCTTGTTGTATTAAGAAACTAGTGTTATCAAGACTAAATGTAGTTAAAAAGATTTAACTCTACTATGTGTTTTTATATTCAAAAATCAAAAATACTGCATGCAGATTGACTATACCTATAAGAAGGCAGTAGAGATAACTAAAGATAATAAAGTGGTTTTTAGCTGGGTTGGCTGTTGGATTGGTTGCTGGTTTGCTAGAAAATAAGGTGATATAAAGTGCAAGCTAGTCTAAAGGTATCACCTTTTTTCTCCATATATAGAAATGGCAATAAGTACATTGCATATGCAGAGGCTTCTGGTTTAATAGAGTTGAGTGAGGATGAGTTTAACAATCTATTGTCATTAGACGTGAAAGAATTAAAGGAAATTAGAATGTTGATTCCAGAAAAGGAGAAGAAGATTAATGCAGTAGTTAATGGTATAAGACTTTTAAATCAGGAAGCGATTAGCTTCTTTGAATCGGATAAAGAACTGCCTAAGGGCGAGAATGCATTAATAATCTCAAGTAGTATGAACTTTCTTCTCACTACTGACTTATCAAAGTTTGAAAAAGTCCTTATAGCATATGTCATGGATCCTTATAGATTTTTTATATATGTCATGAAAAAGAACAGTCCTTGTATTTACGAGATATACCTATGGTTAAAGAACTCTAGGCTAATCCTAGATGTGAAAGTTGATGGTGCCATTGTAAGAGAGGGATCTCCTACCCTAAGTGAGTTCACGGAATTTTTATTATTAGGACTCGCTAAAATACTCTTAAACGGTAATAGCTATGATGGGAAGCTAATATATATAGATATGATGGATGGGGAATTAATAGTAAACACACCGTTAAAGATCCCAGGGTGTCCTAAATGCAAGATTTGATCAACGAATTTTTAGGACCTATCTTAGGTTACACTATAGAAAAATATGATAATGTGGTAGTCACCAAACTACTAAATTACGTAAATAACGATTTGCTTGAATCCCATCTAGCAACTCAATATGTTAAGGCTAGGTATACCATAAAATTACCTATTGAATTTACGCCACTTCTAAGATACTTAGAAGACGTTGTACCTGCTGGAGGTAAAGGAGAGACTGAGGAGGAAAGCCTTATGGGTGCTATTGGAGAGTTTTTAGAAAGGTTTTACGGTTACTCGATCTTTTTCGATGATAATACATCAATTTTTGGAAGGGTAGGAGAATTGAAAGAACAATTTAACGTTCTTCCTACCAGATACAAGTTCTTTTCAAAGGAGCAAATTAGAAAGTTCTTCTTTTTTAAGGACTATTCCAATGACACATTTGTAACGTTTACTAAAGCAATTTCTTATAAGGATAATAAGACAATTTACGTACCCTCACAAATCGTTTATCTAACAGATCTAATCAGACCAGGCGAGAATTTAATAGCTTATTCAACTACTGGCGGTCTTTCTTATCATGAAGACTTCGAAAAAGCCTTCTTACACAGTTTGTTAGAGTACCTGGAGAGAGATGCAATAAATATCTCGTGGATTTCACGTATAAGTCCATTAAAAATACAAATTTCAGAAAAATTGAAAAGGAAATTTAAAGTATTGGAAAACAAGGACGTTGTTTGCCTAAGGTTTATTAATGAGTTTAAGGGACTTTTCGTAATAGGTTGTCTAGGATTTGTTAATGGATTTTATGTTGGCGGTGCTGCTGCAGATATAACTGTTGAAGATGCATTAAGAAGAGCAATTTATGAAGTTTATCAATCTATTTCATCTTTCAGTAAGGTAAGTGATGAGGAAATTAAGCTTGCTAAAAAGCTCAATCAAGATCTTTTAGTTGATTTCGGATTAGTTCCACTCTACTATACATATGTGAAAAGGGAATTTTTAATGGATTATTTAAATAATTTAAATACCGTTAGTTATGAAGAATTAGAAAGAGAAGAGTCATTGACTTACAAGGCTCTTATCGAAGAATTGCTAAATCATGGCTACGATATAATTTATAAGGATTTTAATGTAGAGAAATACGTGGATAAAGGAAAGCTAATTAGGGTAATAATTCCAGATTTAACACCAGCACATGCCCCATATTTGCCGTTCCTAGGCTATGAGAGGTATTACAGTATTAGGAAGATAATGGGACTTAAGGAAGTTAAATTATTAACTGATGAGCCAGTCCCATTTCCTTGAGGTAATTATGATGAATATATTTGAGGAGTTCTATCTGAAGACTCAAAATTTTACTTTTACAGTAATCCCAAATAATTATCCGAAAGAGTACAATGGTGTTAAAGTTATACCCTTACCTAAGCCTAGAGAGATAGTAGAAGGTTTTCATAAGGTAATTACTACTAGATCTTCAACGAGGAGGTTTATGGAAGAAAAGGTCGATATTAGCGCTATTTCTGATTTGCTCTATTATTCGGTAGGTGTCAGGAAAAAAGAGAGCGAGGTAATATATAGAATGTTTCCATCAGCCGGAGGTTTAGCGGAAAGTGAGGTTTATTTAGTACCTCTCATTTCCGATTTAGAAGTTGGTATATATCATTACAATCCCTTGTCCCATTCTCTAGAGAAACTTAACATTGAGATTGAGCTAGAAATTCTTAAGTCTGATATTGTTAGTTCTATTCCAGATATTAATGCAATTCCTTTACTTCTCATCTTAACAGCAAGATATTGGAAAGCTTTAGCAAAATATGGTAATAGAGGTGGAAGGTTTGTATTTATTGATATAGGAATAGTTATGGAGAACTTTTATTTAGTAGCTACAGCCCTTAATTTGGGAATATGTGCTGTAGGTGGTTTTAACGATTACATTTTTAATAGAGCGCTTGACCTAAAGAATAATGAGGTCGTACTAGGATTATTAGTAGTTGGAAAAAAGAATTAATGTCTAAAAGTGCATATAAGTCGATGCCTTATGTCCATTTTTAAGAAGCACTGCTTTAGCCTTAATAGTTCTTGTTGATTTAGCTGAAAATTTGCCATCCTAGGAGTGTGTATTTTTACTTCTTCATAACTAAGAGTTTATTAGAAACGCTAACATTCCTTAGTAGTTCCTATATAAGGATTTACTACTGTAGACCATGTTCTTTTAGAAAGAAAGTGTAAAATTTCAACTACATTAAATAATATCTTACTTGAGCATCTAAGAGTTTATTTATGTTCATTATTTAATATAAATATCTACAGTACCAGTACAAGGTTCTTAACATTAAATATAGGCAATTAATATTATAATATTATGTGATAGTTTAATTACAAAATCGATTTTGGTAATCTATATTTTGAGATCTCATCTTATTACAAAAGGATTATGTTAGTTAATGGATAAAGGAAAACTATAGTACAGTATTTTGATTCAAAGAGTTTTTGATGAAGTATCTTCAATTTATATAAATACTTAAAGAATTTGATAGAGTAAAGCTAACATAATCCAAAGAAATATCAGATCCGTAAGTAGACATAAAGATATAATTTCTGGATAAAATTAATTCTTATTTATTTAATCCTATATCTTCACAATTCTTAGTCTTATTTCATTATTATAGATAATCTTAAGCAGAGGCAAATATATCCATTTTAATCATCGTAATTCTAAAATATAGCCGTAATATAACTAATTCAGTGAATATATTTGATTATAAGAAAAAAATATAACAATATTTACCAAGTTAGAATAAGAATTGCATACTAACGTTTAATAACTTTAATAGATTTTTTCCTATTATTGTCTTATAATTGGTTCTTAATATTCTCATTTTACTTTTTTTATTCCTTAAGCAGTTTTCTAGAAAAGAGCTATATCAAATGTTTTTTCTTAACGTGTAATACGCAAGGAAGGTATTACTTTCAATTAACGATTTGATTAAAAATACCACTATTTCTTTTGAATTTCACGTCTTTTACTTTCTCTATCTGGGAATCTCATAATACAGAGTATAGTTAACTTCCAGTTATCTTGTCATTTCAAGAAGAGTTATAACTAAACTATAAAACATCCTACAATCCCTAAATTTAAGTCTTTTACGTTATTTTCTCTTTATCCATTACTTCCAATGTACAAAGAAAAATCTTATAAAATTTGTAGAAAAAATGGATATCTCATATATATTCTGAGTCTTTAGTATTTTAAATCACTAAATTCACTAATAACGGAGTATAATTCATTAATACTCTATTTCTATTCTATAAAACTCCTTCTTTTCAGAAGTCTAGAGAGAAGAAGACGTAGATAAGTATACATTTAGCTTTAAATATACAGCCAAAAATTTTCCATGATATGATATAATATGATCAAATATATAAATGTATATCTACCTAAACTAAAATAGCCTACTTATTATCAAACTGATTTTCTTACCCATAAAACACCCTATTAACCTAATGATTTACCTTCTTAGCTAATTTTCTCTAGATAATAGTAAACATAATTCATAATTAGTTTATATAGTCTAAATAAATATATCACTGAAGTAACCTTATTAGATTTCTTGCAAATATTCCTACAGAGAAAATGAACAGATCTATATTTTTGAAAAATCGTTATTATGAAGAAATATTATGTTATTATTGACGAATCTCATGGCAGTAATGTTTTCGTTTAAGCCTTGACTATAATTGTCAAGATCTACGTTATACTTCTTTTGACTATAAAGGTAAAGAAGATATCTCCGTTTATTCTTAATAGAAGTTAATAACTCTCTCGTTCTTTAAGGTACTAACTATAATCTTTATCCGGATTTTGAAAGATGATTTTAATTTACTAAACGTCTTTATTAACTGATTAGATTTTTATTAATTTTAACTTTAGAATATTTGCATTTAGAATTCTACTCTATAAAATCTCTTTTAGTGTGAATTCACCACCAAAATTCTTCAGTCTTTAACGTATAATCCTTTGAATATACTACAAGCAAAACTTTATCCTAACGAGTATCAAATAGGAATTTATGAGTTATATCTAATGCTTTAAAGGATAAGATGTTACTGTAAAGCTCATTGTAAATTCAACACTGTAGTCTAAAGGACCTAATAAAATATTGACATTTAGATTCTAAGAAAGTATAATAACATGAACAAAATAACTTTGTATGATTTTTAAACAATCTTTATATTTTTATATATTCAGATAAAAATATTGGTACAAAATATGAACTTATACTTGGACTTTTATTAACTCTGTTCATCCATTAAGTATGGAGCAATATATTTCTCAAGCAAACACGATAGATTTCATAGTATTCTTTGCAGTAATTATTTATATAACAGTAAGAAGACTAAGGCCTAGAAAATTTAGACCAACAAGAATGTACATATGGCCAGTAATATATGTCCTTTTAGTTATCTTCTTTGCAACAGAAATCAATGATCCTTTAATGTATTTAGCTCTCCTAATTTTAGGAATTTTAGGATATTTGCTTGGAAATAAATTCCTGGAAAACGGCGAGATAGAATTTTTCTATAATAGCGGAAGACTGTATTATAAGTGGCCCTATTCTATAACAATCTTATGGTCAATATTATTTCTAACTAGAATATTCTTAGAATTTATAGGTGAAGGAAATATTCTTTTATTAAGTATAGTAGATTTTCTTCTATCCCTAAATACAGGTCTGCTTGTCTCTGCATCTTTTAAAACAATTAAGGAAGCTAAACGATACAGATATATCTAAACCTTTTCGCTATAGAACTAAAAATTAAACAATGTTAAAGATAGATTTTAATATAAAAACTCTGGACAACATTTTTATGAACATTAAACTCATCCTTACAGTTTTAACATTAGGAACACTAATGGCAGCAGTTGACACAACAATAGTGCTATTAGCTTTACCTACAATGACTATAGATCTTCATACAGATCTTTACTCCTCCATTTGGGTTTTATTAGCATATTTACTTATCCTTGCAATACTTTCCACTCAATCTGGAAGAATTGGAGATATATTAGGAAGGTCAAGAATATATAATCTAGGTTTCGTAATTTTTACTGTAGCATCAGCATTATGTGGATTATCACCAGACGTTTATCTTTTAATATTCTTTAGAGTACTTCAAGCTATAGGTGGAGCATTATTGACAGCCAACAGTTATGCTATAATAGCAGATACTTTTCCACCTAATCAAAGAGGAAAAGCTTATGGAATAACATCGCTTGGATGGAATGTGGGAGCTTTACTTGGCATAGTATTAGGAGGGATACTAACTACATTTCTAGGATGGAGATTTATATTCTACATAAATGTTCCAATAGGAATAGCAGCAGTTATTTTAGGCTTAAGAGAAATTAAAGACATTAACAGAGTAAATACTAAACTAGATATATCTGGTGCACTAATACTTGGAGTGTCCTTGACCCTAATTTCATTAGGCGCAATGTTTATAGCAGGTTCTGGAGTTTCACTAGATTACATTACAGAAATCATAATAGGACTAGCCCTCATTCCCCTATTTATTTATAACGAAACAAAAGTTAAAATTCCTATAATAAATCTCAATGTATTTAAAATAAGGATACTTTCTTTCTCTCTAATGGCAAGTTTATTACAAGGAATAGGAGCTCTCTCATTAACTTTCTTATTAATAATGTATTTACAAGGAGTTAGAGGATTGTCCCCATTATACTCATCATTACTATTAACTCCAGGCTATGTTATAGCAAGCATTTTAGCCCCATTTATGGGAAGAATAGCAGATAGAGGAAAACCTGGAACATTAGCTGGAACAGGTCTCATTTTAACATTCATTTCATTAATGATATATTATTTTATTTTGACTCCTTTTACTCCCTATTATATTATTCTGGCAATTACAGCAATAACTGGAGCAGGTTCATCAATGTTCTGGCCAGCAAACGCTACAGCAGTAATGTTTAGTGCACCTAGAGAATACTATGGTGCTGTTTCAGGAATTTCAAGAACTTTAGGTAGTATAGGAACTACTTTCAGTTACGTTTTAAGTATTACAGTAGCTACGCTAGTAATTCCCAGATATGTAGCGTTTGAAATATTTTTAGGCACTAATGTTCTCAATGGAGATATAAGCAATACTTTTGTATCAGGCCTTCATTTTGCTTTCCTAGTATCAGCTATTATAATTCTAGCTTCTGCAATTCTTTCAATATTGGGTGGAAACACTGCACAAAAGGTTCAAAAGAGATAAATCGTTGCTTTGTGGATTAGTTGAATTTTCTTATATCTTGAACTAGTTAGTTCAAGATAAATTTTGGGACGATTAAAGTAAGTTTAACGTTATTTCTGAGAAAAAAAGGAAGTCAATAAAGCATGTTGCTATATTCTATCTTAAAATGGCTAATCATCTTGTAGTGATCTTGCTTGATTATTTTTAGATGTTATGCTTTACGCAATTTTAGAGTAAATAACTGTTATACTTAAAAAATACAGAAAAGTATTTAGCTATAGAAGGAGAAAAGAAATACATGGGAATATTTGACAAAATGAAAAAGAACGTTAGTGATGTTATAAACACTACTGAACATAGATTAACTGGAAGACCTCCAGTAAAAGGCAAATTCATCACAAATATCCCAAAGGCATTAATGGTTGAGGATTGGTATTGGGACGAGGAAGGCGTTTTTACTTTGGAGAAGAAGCCAGGACTTTTAAGTTCTGGTATAAAAAAGGGGAAAATAATAAGATGGCAAGAGATTGACGATATAATACCATTAAACGTTAGTCAAACATCTAATTATAGTGCTTTTGGATTATCTGGAGAGACAAATATGATAGGAGATTGGGTGATTAAGAAAAAGGACGGAGCTACAGTTACTATAAAATATGTAATAGACCCAATAAATAGGGCAGAAGCTTTTAAGAAAATTTACCTAAATAAAAAATAATTTTCTAATCTCTTACTTTTTGCTTTAATATAAAATAAGATTTACTGATAACTAATCTATGAGTTATGTAATCTTAATTGCTCTTTTGTTTATAAATAATCTTACTCAATCATGTAATCCATTATATTCTTTAGATAAGTAATTATCATGCCAAAACAAACGGAAAAATATTTAGCTATAGAAGGAGAAAAGAAATACTGAAACGAGGATAGGGGAAGTTCTGAGTATAATATTGTATGTATTAGCAGCATTATTTATTCTGGGGGGTATCGGTCTAATGGCATCACCTCCTTCTCCAGCTTCAACTATGGGTGCAATAGTGGGCTTTGGTTTCGGTGCATTATTTATCATATTAGGAATTATAGCCTCAAGGAAAGAATCAGCCAACTCGGAAAAATTAACTCTTATAGCTGGAAAAGGATTATTTTCACCCTGGTATTATATTGGGAAGGAAGGAATATACAAGGGAAAGAAACTGTTACTCGGATGGAATGAAATCGCTAATATTTTTGTTATTCATGAGTACGAGATAACTAAATCAAATCTAAGTGTAAGGACATTACAAACTGGTGTTCCTTCTATGAGCGGAACTATCTATAAAATGGGAACTTTTAGAGTGATAACTAAGGATGGTAGAGAAATAGATATTAAGAATGTTATAAACCCAAAAGAAATTTTAGAATATATAAAAAACGTCTATTTAAGGACCCTCTAAAGTACAATAATTTCTTCAATTTTGCGAAAAAGATCTTTAGAATATTGTTAATTTTGTCATGGTGTAGAGTAAGTGTGATAACGTCCCCTTAAATTTTTGCATACTCCTACTCGTGATCTTGTCCCGCATGTTAGATCGTGGGGAACGTTTAGCCAGTCTATGAGGGTTTTTACTCCCATGTTCACTTTTGGCTTGTATTGTTTTCTTTGTTCTCTTTATACAAATTTTACAAGAGTAAAGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCACCGTAGGAGGTTCCACATGCTTTGCCTCTAACATGGCTAGGCGATGGCTTGAAGAGCCGAAGGAGTTCATATTGGCTAAGTTATTAATGATATTATGCTCAAATTTAAGAATATTATTTGCTAACATAATATATATTTTTTATCAAAATCTTTATTTAATAATACTTTTTTGTATACAAAATTAAATATTTAAGATGTAAACTATAAATTACATAATATATTTCATTTATGAACAATATGAACTCCATTTAAGATATAATTATATATATTATATATAGTTTTGTCTTAGAAATATTTTTCGTATCCAAAAAATCTATATACTATATAATAAGCGTAAATTATTTTTATATAAAAATACTCAAAAAAATTTATTAAGGTTATTATATCATACTTTATCTCAATTTATATCTAGTATAGTCTGGTAATATTCGCCTACCCCTTTTAACGTAAACTTTAACAAAATGATATAGCCCAAAATATAATAGATCCTATAATGGGATTATATCTATACGTCAATCTTTCAGTCGATACACTAGTATACTGAATTATAATAATAATTCTCTATAATTTAAAAATTTATTATGTAAAAGTTTTATTCCTTTTAAACATTTTTTATTTTTTCTTTACATGTATGTATATTTATGATTGAAAAATGTTATTTGGTTATATCTCATTAGCTATAATATCGTGATTTAGTAAGTATTTATATTAGGGCTACGCTAATTTTATAAATATAGATAACAATGTTATCTATATGGAACCAACTAAAAATCTAAGGATTTTAAGTATAACTTCTCTTGCACACTTTATGAACGACGGTACTTTTCTAGTTTTTCCGTTATTAATAGTATACTATACAACAATTTATCACGTAAGCGTAGTATTTCTTGGCACTTTAGCTATAATTTATACATTACTTTCTGGGTTACTTTCTCCATTCTTTGGGGATTTTGCAGATAAACATGATAAAGACGCTGTATTGATGGCGCTTGGGATTTTCTTAGAAGCGTTATCTTTTCTATTTTTTGCTTTGTCGTTTTCTATTCCTAGTTTGATCTATGTTTTAGCTTCCTTAGCTGCAGTTATTTTAGGTATTGGACAAGCCTTTTATCATCCGATAGGCGGTGCTATTTTATCTAGAGTTTTTGGTAAGAGTGCAGGAAGAGCTTTGGGAATAAATGGCTCTATGGGAAGTATAGGGAGATCTGTAATGCCTTCAATAGTTACTTTTCTTATATTAGTTTTTGCTGAAGTTACTGGTCTTCTTTTAGTTTCTGCATATATGATAGTTGCTTCATTGTTGATATTCTTTGGATTAAGATTTTACAAGAGAGGTAGTAAAGAAGAAATAAGGAAATCTAAAGAGAAATTGGAATCGCAGTTTTATAGATTTCTATTTATTTTAGGTTCTATAGTATTTATAAGGAGTATGTTCATTACTGGTACAACAACTTTTTTGGGAGATTTTATTTATGATATTTATCTTTCAAAGACTCTGGCTGGTATATTTTTAACAGTAGGATTTATAGGTTCTGTATTTGGACAGCCTGTATTTGGCTGGATTACTGAGAGAAAAGGTGGCAGATACGCCTTTGTATTAAGTAGCATAATCTCCATAATATTCTTCTTACTTTTCTTGATATTTTCTAATAATCTAATAGTATCTTCACTGTTCTATACGCTCTTTACTTTTGCTTCATTTAGCTCTTTTCCAGTTCTCCTAGGCTATGTGGGTCAAACTTTTCCTAAAAGTTTCTTTACTGTCGCAAACTCATATATTTGGGGAGTGGGAGTTACGGTAGGAGGAGCTGCTGGTACTGCAGTTATAACGCTCTTGCTTGGAATGCATTTTTCTATATTAACGTCTTTCTATATTATGTTTGGATTAGCAATAATTTCTGCTATATTGATGCCATTAATACCAAAAAAGATATCTAAATAAATTACCATATTTTTGATAATTCTTCTGCTGTTACTATGGGGAAGAAAGATTTCATATTTTCTAATGATCTATCGTGGGCTTCTTTGTTTCTTGACGATACTGCGTCTTTTACTATAACTGGTACATATCCATAAGCAAATGCATCTCTAGCACTAGTTTCTACTCCTATTTCTGTTGCAATACCAGTGAACACTATGGTAGTTCTTGCAGAATTCTTCATTAAGAGATCAAAATTTGTTCCAACAAAAATGCTCCAAGTATTCTTATTCAGTATTATGTCATTTTCTTGGGGTTCTATTGCTAATTTCATTTCTTCTGGCTTAAATTGGAATCCTCCTCTGTACATAATTTTTGACGCTGTTGATTCAAAGCCTTTAGGATAAGGTGTTATTTTTGTGAAAAGTATTGGAACACTTGCTTTCCTAGCTGAGTCAATAACTATTTTAAGATTCTTTAGGAATTCGTCTTTATTAAAAATGCTATTTACTAAAGCTAAGTGTACATCCCAGACTACTAGGAGTGATTTTTGAGGATCTAATATCTCTTTTACTGATTGCATATAGATATATCTAAAATAATGTTAAAAAAATTAATGTTCGAAATAGAAATTTTTGCATTATTGTAAGTAGTTAATTTAGCTATTAGTTAGATTTAATATAAATAATGTTGATAAAGCACTATGGACAAGGACGTTATAAAAATAGCGTTTTCGGCGTTTTTTAGTGATCTGGGTTATCAAGCAGTAGTGGCTTCATTTCCTTTGTTGTTAGTATTCTATTTTCATGTTCCTATCTACGTATATGGTATAGTCGAATCATTTAGCTATGGGGTTGGGCTTTTCTTTTCTTTCTTGGGTGGATTATCTGCAGATAGATTTGGAAGTAAGAGAACTTCTATATTTGGTAACGCGCTTATAGTGTTATTATCTTTTACTGGATTTGCAAGAAATGCTATTGAGGCTATATTATTTTTCCTTTCTGGTTGGTTTATGAGAAACTTAAGGAGCCCAGCAAGAAGAACAATGGTTGCAGAAATAACTAAGGATGAAGAAAGGAAGAAGGCTTACGGAATTTTACATGCTTTGGACGTAGGTGGCGGAATGCTCGCTATAGTATACTTGACTATATTATTATACCTTAAGGTATCTCTATACTTTATTCTTCCATTTACAGCTATTCCTATAACTATAGGTACGCTGCTCTTAGTTTTTTCTAGATCTGGTGGGAAAAAACCTAAAGAAAAAATAAATTACAAGGTCATCACTGGAATATTGATCGCAACAGCTTTTTTTGGAATAAGTACCTACAGTCCAGGATTTCCTATAATAACTGTTACACAATCTACTCACGAAATATATTTGGGAGCTTTAACTTATGGTATATATTTAGGGGCTTCTGCTCTCTTTGGATATATATTTAGCTATGTTAGAATCGGGGATTTCCAAGGTCTTTTTTCAGGATATGTTCTATCTGCTTTAGCTAGTTTGGGTTTCGTATTTCTTTTTGGATTTAAGGCTGAAGGTCTTTATCCTCTTGTTTTTCTGCTAGGAATAGCCATGGCATCTGCAGAAACTTTTGAGCCAAGTATAATTTCTAAGGTTTCTGGTCAAAATATAGGCAGAGGGATGGGACTTCTTTCTCTAGCTAGAGGTATAGGATACTTTATAGGAAATTCTGTCATGGGTATACTTTATACAATAAATTACGCATATGCATATACTTTTGCTTCTTTAGTATCATTCGCGTCTGCCATAATAATTCTTATACTGATAAAATATAATAAGTAAAATTTTTATTAAAACGTTTTTAATACTTAAATTTTGTTTGACTTTAATCTCTATTAGGTTAACTCAATTGGGCTATATAGCGAATTTTATATTATCGAGTAATATTGTAGTAAGATAATATCTACTTTGTCTTTTTAAATAAGAAATTTTAGTATTATTATATAATTATTTATAAAATCTAATATAGCATTATATTAATTTCTTATTCCGGTGGTATTTCCTTAAATGTTATTGAAAGATCTATTCCTTTTTTATGATTGTAATACCTAGAAAGTAGATAAATTGTAATTCCTAAAGCAAAGGCTACGATTACAAAAGTTGCTGTTATATCATTAATCCCTGTTGGTGTCATAAATCCGAAAATTGGGTTTGTTCCTGCATCGAATGTTAAAAATGCTAGATAAAGTGCTGCTAGAGGTCCTGTTATTTTGAGTATTTTGATTTTGTTCTTAAAACCATAGATACTTGCGGCTATCATTACTGTAAGAAGGTATGAAGCGCCTAAGATAGTTGTTCCATATAACGATGCTGCAGCAGATAGTGAAAATACTGGAATAAGCAATAGTGATAGCGTTATAGTTAAGTCTAATAAATGGGCATATATTGGAGAACCTTGTGAGTTTACTTCCGAAAACTTCTCTGGTAAAACTCTATCAAAGGATAACGCAAAAACATATCTTGAAAACACTACTACTCCATAAGACAGTGTGTAAAAATTCCATGCTATTAATCCTAATCCTATTATCCATTGAAGTATTGGATTTGAAGCTACTGCAATAGCTACTGTCCAAAAATTGTAAGTAAAAGTAGGATATGCTAATAAATTCAAATTATAACCTGCTACTAAATTCATTTCTAAAAATCCTAATGTTACTAAGATAGCAGTAATACTTACTGCTAATATTACATTAAATTTTGCTATCTTATTATTTTTAAATTCTGAAGATACTGCAGCACCTGCGTTTATCCATGGATATGTATAGAGCGCAAATAATGGGAGGAGTGAAAACGTTGCAGCAATACTTATTGGAGGTAAGAAGGAATACTTTGGAATTACATTTGTTATGTTATTTGTTTGCAGGAAGGGTAAGATTTTAGTTCCGAAATCTGATGCAGAGAGTCCAATTGCTATCATTGCTATTATTAAACTAGATAATGAAAAAATGCCCAAAGCAGTTACAATACTAAAGCCCCATCTTGATTTCGTTATGTTTAACAATATGATTATTATAAAGAACGATGCCGAAATACCGTAAAATATTAGTCTATTAATAATAGGTGCATTATAAGGATTTACGAAGATTGTATTTGCTAAATAAAGAAGATCTGGTATCTTATCTACTTGTCCTATCGTTGTTAAAGTACTATTTATTGATGCGCCAGAAAAGAATGAGATTATAGCAAAAAACGATGCAGATTGTATTAAGTACATAATGGCCATTATTGATCCTATTCCTCCACTTAAGTTTCTGGAAATCCAGATGTAATCTCCTCCAGTTCTAGAGATCTTACTTGTCATTATAGTATAGACAATTATTTCGGGAATCGTAAAAATTAACGCAAATATTGATGCTAACCATAAAACTCCTCCTTTCTCTAGATAGGGAGAAATAGAAGTATACAATGCTTCGCCTATAGATAAATTTCCTATATTAAGCAATACTGCATCAGTTAGGCTTACTTGCTTTATTAAGCCAGAGCTCTCCCTTATGAAGTAACTCTTGCTTTCTACCATAAAGTGATCTTTATGGTTTGGTATTTAAAATTAATACTCAAGTAAAAATTTAAAGAGTATTATCAAGCTATTTTTTACATAACTAAGTTAAAACAGATCTTAAGATTGTATATTAGGTTGTTTCGATAAATTTTATTATTATAATGAGGGTAAATGGTATCAATGCGAAAGAATTTTGTTACTATAGGGATAATATTGATAATTATTGGTGTTGTAATATTTGCTTCTTCTATGTATATAGCTACATCGTCACTTCATTATAATGAAATTAATTTAGCGCCAGGTCAGCAATATTCTTTGCATGTAACTAATACTGGCATATTTATGTATAAATCCAATATATCTTATCCAGTAAAACTTCTTCAAGACAACGTTACATTGACATCTTCTAGCTATAAATCAGGGTATTATAGTTACGTAGTAGAACCTTCTAATGCGCATGCTATAATAAATATATATAATAATTATACGGTTCCGCTTGAAATAGTATATGCAAATATTCCAATTTCATCGAGCGTCGTAATTTCAGGATTATTAGTTATAATCGCAATAGTTTTAGTAATAGCTGGTATAGTCATTGCTATTTATGGGGCGATAAAGAAGTAATCTAAATTTCGATAAATGGTAAAATAATCTTTTGATTTTTTCTACCAAGTAATATTTCTACTAAATTATCTAAAGTAGGTTCTGTAGAATATTCGTTCATAAAAAAAGCACCGTTAAATGGAACTAGAATTATTGAAATAAAATTATCTATTTCTTCTTGCGCTAATATTATTTCTTCTATAATTTCTTTAGGTATTGGAGAGACTTTGTTTATAATTAGAATTTTTTTTCCATTCCAAGATTTCGAATAGTCAACTGTAGTTTTTAGGCTAAACTTATCGCATACAAACAAATTTATTGAATTTTCTTGGTCTGGTCTGGCTAATCCAAGATCATAAATTTCAAAGTCTACTTCTTCATTTTCTACGGCATATTTATCAGGATAGACTTCTACTTTAAAATTCATTTCTCTAAGTTTTTGTGCGATGTAATTAGCAATCAAAGTTTTTCCTACTCCACCTTTGAGTCCTATTACTTTAATTTTCATTAATAATCACTTTACGTTTTTAATATAACGTTATCTATTTGTCTATTCTATATTGGTAATCCTATAAACATAATTTAATCTAACCATCCTAAAGTTTTATAACAATCAATGGAGAATCCACTAGATCTCATTTTAAATTTTATTAATACATTAAATAATTCCTGCCTTGTTACAGGTATATATGCAGAACCTAGTGGTCTACAAAATATTTCTTTAGACTCAGCTAATATATTATCTTTGTTCTTTTCCTTAATTTCTAATACAGATAGATCTGTAAACCATCTGTTTGGTCTTATAAGTAAATTTTCATTTTCTGTTTTTCCTATAAGTTCTCCTATAGCAGATTCCTCTTTTAATTGAGTAAAAATTACGACAGCATTCTTATTTAAAAAATATCCTATGATCCCTGTTCTAGGATCAGAAATAGGAAAATCCTTTCCTATAAGATAACTTTTATTTTCAGTATCAGAGTAATTTATTCCTACTGTTGAGTCTACATTCCATGTCAATTCTTTTCCCCATTTTTTAATTCCGATATTCAAAATTAATTTAGTATTTTTTGCAATTTTAGGTTCTAATGTAGGTGGAGATCCATTTATAGAAACTTTAACACCAGCTTCTCTTAAAGCTCCAGCTAACTCTAGTGTTTCCATTAAAGTATCGTCACATGGATATAAGTATATCACATTAAAGAAAATAAGTTTACGGAAAAGCTTTTTATACTGCTTAGTATCTATTCTTATCTCGATCTCTTTCCGATCTTTAAAGTCAATATCGGAGATCTCTGTCGCTTTATATATCATGTATAATGATTATCTGTCTATATAAGTTTTTAAGCTTTTTTAATTAGAATGTCATAAAAATCTAATCATATATTGTTAACAGTCAGAAAACTGTTTTTTATCTATTTTTTATATAGAATAACAATAGGATAATCGGAAAATAATTCTGATACGTTAATATTATTGGTTATTTTAACTTGATTATCTGTAAGAATATCAATAAAGTCTCCATCAAGTTTCATAAATGTATTCTTTAATTTATCTTTGAATGGATATGCTTCAGTTACAAATCTTGGAAATATTACTAAGATTCCTCTTCTCATAAAACCACAAATATTATTGCTTCCTTCTACTTCTAGTGGTTTATACCCAGAGAACGCTTCCGGATCTTTTTTCCTTAAGTTTAAAATCTTCCATGTAACATATAATTTATCATCAAGGTGTCTATTTTTCTTAATATTATTTAATTTATTTTTTAATTCCACAAAATTCACTTGTCTCCTATTGTCTGGATCAACCATGAGATATGTAAAACTCTCATTTCCTTGATAAATATCTGGTACGCCTGGCAGAGTCAATTTAAGTGTTGTCTGTATTATTGAATTCATTTTACCATAGAAGTCTATCTTCTTCCAAAAATCTAAAAATGAGTTCATGAATAATTGATTATTGAGAGCTTTTTCAATAAAATCCTTAACAGCATTTTCATATTTTATATTTGGCTCTATCCAGAATGTGTTTTCCTTTTCTTCTCTAATAGCCTTAAACATATAGTTTATTAATCTTTCTTTATATTCGTTGCTATACCCATTCCATGTACCTAATAACACTTGATAAAATCTATATTCATCGTTCTTTGTAGGTCCTATAGTTACGAATTTTTCGTTAAACTTAGACCATTCTAAAAGTTTTTTCTCCCATTCATCTGGTATTTCAGAAAGTACATTTATTCTTGCACGTACGTCCTCACTTAATTTAGTATCGTGTGTTGATGTAGTTAGCATTGAATTAGGCCATAAAATTTCTCTTTCAATGTTAAATAAATGGAAGTCTACACACGATATTCCATTAAGCCATGGAGTACCTCCTACTTCGTTCTGGGAAATAAGGGGATTATAATAATAAAAGAATGTATCTTCTATTCCTTTAGCCATTACTGCAGGAGAGAATTGTTCTATTCTTTGCAAGATCTCCTTATTATTTAATAGATTGAGTATCTTACTGTCTTTAGAGCATTCTTCTATGTTTTTTATTACTTCAGTATCTATCCAACTGTAATTCTCTACGTAAGTTCTGTAAATATTTATACATACTAAAAAATTAATTAATGTTTCCCTATAATCTTCACTTAACCCAGTTATTCTCAGTAACCTTTCTATATCTCCTTTAAAGAGCTGGTCTATTACTTTTCTCTTTTCTCTTACTAATAAATCTTTGGAAAACTCTATTCCAGTAAAATTATAATAAATTTTTCTCATTTTTTCCATATTCTTTATAAATAGTAAATTTAAAATTTTTAAGAAATCATATCCCGTAGTTCCTTCGATTTTCCAATCTCTCAATCTTTCGTTCTCTCCTAATATTTTTTCAACAAATAGGTAAATGTTTCCTAAATTAGCTCTCAGTCTTTCTATATATTGTTTAGGATCATATAGTCCATCTATATGATCTACTCTTAAACCTTCTATGTATCCTTCTTTTACTAATTGAAATATCTTTTTATGAACTTCGTTAAATACATCTTCGTCTTCTTCTCTTAATGCTATTAAGCCGTTTACGTCGAAAAATCTCCTATAATTTATTTTATTGGAAGATTCTTTCCAAAAAATTAGTTCATAATTCTGGTCTTCTAATATTTCTTGTAAATGTTTATTTAGACATTCTTCGTCAGCGCAAGAATATTTGTTCTTAATTTTTTCTATACTATCGTCTTTTATAGGCAATTTTAATTCATAGTATCTTATATAAAAAGAATTATCTTGTTTTTCTATTCTTAATTTTTTAATATCTTCAGGATTGCCTAATATTGGTAATAATATTTTATTTAAACTCCAATCTATATCAAAGAATTTAGCATAAGTTGAATTTTTACCATATTTTAAAACATCCATCATGTAAGGATTTTCTAATGCCATATGATTCGGTACTATGTCTAGAATTATTCCTATGCCTTTTTCTCTAGCTTTTTTTGATAATTCTATAAACTTCTCTTCTCCTCCTAATTCCTCGTTTATTTTAGTGAAATCGAAGACGTCGTATCCATGACTACTGCCTTTTCTAGCTTGTAAAATTGGAGATAAGTAAAGATGTGTTATTCCTAGATCTTTTAGATAATCTAGTATTTCAATGACTTGTTGGAAATTAAAGTTTTTATTAAGCTGCAATCTGTAAGTTATCAATTTTATATCCTCCTATAAACTATTGCAGATCTACCCTCAATCTCTAATTCCTGTTCTGCTTTAACTATCTTCTCTTCTTCTTTTGGATCTCTATCATAAGACCAAAGAATTAGTTCCCATTTTTCTCCTATTTTAGGCACTTTAAATTTTATGGTATTTGGATTTGCGTTTAGAATTATGAGAAATGTATAGTCTGCTACTCTTTCTCCTCTTTCATTAATCTCATCCATAACGTCTCCTGATAGAACGAATGCTATTGTATTTGTTGGTGAATTCCAATTGTTTTCTTTTATCTCTAGTCCGTCTGGGCCTAGCCAAGTTATATCTTTATAAGGGGCTCCGAAAAGTTTTCTTCCTTGGAAAAACCTTCTTCTCCTAAATATTGGATGGGACTTCCTTAAGAAAATAGACGATTTAACAAAGTCATGAAATTTCTTTTTCCTATCATCTAAATTCCAGTTAAACCAGCTAATCTCGTTATCTTGACAAAAAGCATTATTATTGCCTCTTTGAGTTCTACTAATTTCGTCTCCTCCTAGTAACATTGGAACTCCTTGGCTTATGAATAATGTTATAATAAAGTTTCTTTTTTGCCTTTCTCTACATGCTATTATATTAGGATCTTCAGAAGGCCCTTCAAATCCACAATTCCAACTATAATTTTCATCCATACCGTCTTTATTATCCATTAAATTTGCTTCATTATGCTTCTGATTATAACTAACTAGATCCTCTAGTGTGAAGCCGTCATGTGATGTAATATAATTTATGCTGGCGAAGGGCGTTCTTCCTGATCCCATGTAGAGATCTGGAGAACCCATTAGTCTGTTTGCTAATTCGCTATAAACTATTGGTTCTCCTCTCCAAAATCTCCTTATTGTATCTCTATATTTTCCATTCCATTCTGCCCATTGATATGGAAAATTTCCTACTTGATATCCTCCTTCTCCAACGTCCCATGGCTCTGCTATTAATTTTACTCTTGAGAGAACAGGATCTTGTTGAATTGTTACAAAAAAGGTGGATAACATGTTTACGCTGTATAGTTCTCTTGCTAGAGCTGAGGCTAAATCGAACCTGAAACCGTCTACATGCATTTCTAATACCCAGTATCTTAGACTATCCATAACCATTTGCAAAACTCTAGGATGCCTTAAATTTAGGGTATTTCCTGTTCCGGTAAAATCCATGTAGTATCTTGGGTTCTCTGGGTTTAACATGTAGTATGATTTGTTATCTATGCCCTTGAAACTTAGCGTAGGACCTAGTTGATTACCTTCTCCAGTGTGGTTGTAAACTACGTCGACTATAACCTCTATGCCTGCAGTATGGAGTTCTTTAACCATCTTTTTAAATTCTATAACTTGTTGTCCTAAGCAACCGCTACTGGAATATCCACAGTCTGGTGCAAAATATGCTATAGGATTATAACCCCAATAATTAGTTAGACCTTTATCGAGTAGCCATTTATCTCTTACGAATTGTTGAACTGGCATTAGTTCTAGAGCCGTTATTCCCATATCTTTCAAATATGATATAACTTGTTTTGACGCTATTCCCATAAACGTTCCACGTAGATTTTCGTCTATGTCATCCCTTAATTTTGTCATTCCTCTTACATGTGTTTCGTAGATGATTGTTTGACTCCAAGGTATCCTTAGACTAAGAGGTCTATCTCCTTCCCAGTCAAAAGAATCTTCGTAAACAACAGATTTAGGTATAAAAGGGGTAGAATCTCGTTCATCAAAGGAGAGATCTTGATTTTGATCTCCCATTTTATATGCAAAAAGAGAATCATCCCATTTTATAAATCCTGCAAGAGCTCTAGCATATGGATCTATGACTGCTTTATTTTTATTGAACCTTAAACCCTCTTCTGGTTTAAATGGACCATCCACTTTATAGGCATATAATTGTCCTGATAAAATACCTGGTACCAGAACGTGCCAAAGATCTCCAGTCTTTTCTTTAACATCTATTATCTCTTTAGGTTCTTTATCATCGGGATGGGAAAATAATAATAGTTGAACTGATGTAGCGTTCTCAGAGAATAATACAAAATTTGCTCCATCCTTAGTTATTGTAACTCCTATAGGATAAGGTTCTCCTGGTCTAGTAGGTCTCTGAACAGTAGACATAGTATAAGAATATATCAAGAGGTTTTTTAGTTAGCGTTTCTATAAATAGCAGCTCCTCTACCTATTTTAATCTCTCCTTCTATGTATTCTGGAAATTCAGCAGTAGATAATATAAGTTTCCATTTTTTCTTTAAATGAATAGTAGAATCTTTAAATGCTGCTACGACTAATAATTTATCTCTTTCAATTAACAATGAATTATCTTCTATTTTTACTAGAATATTTCTTGAATGATCGAGCTCTTTTTTAATTTTTATAATATTTTTATAGAAATTTAGTATTTCATAATCTATTTTCCAACTTAACTTAGATTTATTATAAGTGTCGTCTGATTGAGGATCGTAATAATACTCTCCTAATTCTTTTTTTCTACCTTCCCTTAATGCATTAATTAGCTGAACATCTGAAAAGTCAGTAAAAAATAAGAAAGGATTTTTTTCTCCATATTCTTCTCCCATAAAAATCATTGGTATATAAGGAGACATAAAATATAGAGTGGAAAGTATTAGAAAGTTCTGTTTATCAATTAAATTTAGTAATCTTTTACCGTCTTTTCTATTACCTATCTGATCGTGGTTTTGAATATATACAATAAATTTATTTCCTCCTAGATCTCCCACCGGTGCGCCATGAGTTTTTTTCCTGAAATTTGAATATACTCCATCATATATAAATACTTTCTCTAAAGCTTTTACTATTTGTTCTATAGATCCAAAATCTTCATAATATGAATCTCTCTCCCCAGTAGCGTAAGCATGTAACGCGTGGTGAAAATCATCAGACCACTGAGCGTCAATGTTATAACCGCATTTTTCTTTAGGCGATATTATTTTAGGATCGTTCAAATCACTTTCTGCTATTAAATTTATTTTTCTTTTTAATTCACTTTCTGCTATTTTAATTTTATCAGAGATTTCGGATAATATATGTTTTGGAGAAATGTCGTAGATACTATGTACCGCATCTAATCTTAATCCATCCATATGATATTCGTAAATCCAATATAGTGCATTTTGAGTCACATAATGCCTTACTTCATCACTCCATGCTTCATCATAATTAAAAATTGGACCCCACGGAGTAGTATATCTTGAAGAAAAATAAGGTCCAAATTTTCCTAGATAATTACCCTCAGGACCTACATGATTATATACTACATCTAAAATTACTCCTAGGCCTTTTTTATGTGCTTCATTAACTAATCTTTTTAGTTCATAAGGGCCACCATAGCTATTTTGTACAGCATAAAGAAATACTCCATCATAACCCCAGTTTCTCTTTCCCCCAAATTGAGATACTGGCATTAATTCAATGGCTGTAATACCTAAGTTTTTGAGATAATCTAGTTTTTCTATAACTCCTTGAAAATCTCCTCTTTCACTAAATGTGCCTACGTGTAGTTCATATATTATAAGGTTATTCTGATCTATACCTTCCCATTCTTTGTCTTCCCAATTAAAATTTTCACATAAAACCTTAGATTTACCATGAACTCCTTCAGGCTGATATCTAGATGCAGGATCTGGTATTTCCATGTTTTCTATTAAATATGAATAATATTCCACATCCTTATCTTTCAGCGAAAAATATCCCTTATCTTCCTTATTCATCTCTACTATTTCCTTTTTATTCTGTTTGTATAGAACTATTGATAAAGAATCATAGTACGGTGACCATATTCTAAAACTTACATTAGACTTTTCACAATTTGCACCAAGATCTAGTTTCCAGGGCATATAAATACTATTATTTAAATATAAAAAAGCGAATCTATAGAGTATTAAATAATGGAAATTATAATTACTTTCTATCAGAATTATTAACCAAATATATTAGTATGATTCAGATAATAGCGAAATAAAGTAGCTATTGTTTAATATTAAAGACGTAAAGACTAGTTTATTATCAATAATATCTATATAGTCCTATATAGTCCTATTGGAATATATAGAATAAGTATATATTTTCAGTAAAAGACTCTCTATACGAAAGAAAGATGGGATCACCTTTCAAAAATTCGCCATTTAAAGAATTTGATGATCTAAGGCTAAGTTTTAATCATATCAAAGTTTGGTACACTTCTGGCATGGGATTCTTTACTGATGCCTACGATTTGTTTATCATTTCAGCAATGTTAGATATATTTGGAACGCAAAATTTACCAGGATTTCATTTAACTCCTTTTACTGAGTCATTATTAGCATCCTCTGCGTTAATCACTGCGGTCTTAGGACAGCTAACTTTTGGATTCTTAGCGGACAAATTTGGCAGAAAATCAGTTTATGGAATAGAGGCAACTTTGTTGGCATTGGGAGCTTTACTTTCAGCTTTTGCTCCTAACATAATTTGGCTAATAATATTCAGATCTATAATGGGATTTGGAATAGGAGGAGATTATCCAGTATCAGCAACTATAATGAGCGAATATGCCAATGTAAAAGACAGAGGCAAATTAGTTGCTCTAGTATTTGCTAATCAAGGTTTGGGAAGCTTAGCCGCAGTAGCAGTAGGCGCAATTTCTGCTTATGTGTTACCTTTGTCAATAGCGTGGAGAGTTATGGCAGGCATAGGTGCAATTCCAGCAGCTTCTGTTATATATCTAAGGAGAAAAGTACCAGAAACTCCCAGGTATGCTGCACTAGTAAAGGGAGATTATAAAGAAGCTCAGAGATCCGCTACATTTATGGGGACTAAATTACAAGCGAATAATGTAGTTAGTAAAAAACTTTCATTTGGTCAATTCTTAGGAAAATATGGGGCATTACTTTTAGGTACTGCTGGTACATGGTTTATAACGGATATAGCGCTTTATGGGACTGGAATATATTCTGGTGCTATAGTTACTTCAATTTTAGGAAAGCCTCCGTCAATTGGATATGAGATAGTAGAACAAGGCGTTCCTTTCACGGTAGGATTCTTTGGGTACTTTACTGCAGTAGGATTAATGGATAGATTAGGAAGAAAGTGGATACAAACGCAAGGCTTTGCTATTATGGCAGCAATATATGCAATAGTATCAGCTATATTGGTAACTTCAGGAACAAAAGTTACAGGATTTATAATTCCAACAACAGAAGCTTTCGCAATATACGCTTTATCATACTTATTTATAGACTTTGGTCCTAATACTACTACATTTGTTATACCGGCGGAAGTATATCCTACTAACTATAGAACTAGGGGGCATGGTATTTCAGCAGCAGCAGGAAAAACTGGTGCAGCAATAACTACATATTTGTTCCCATACCTATTAACAGGAATAGGAATTAAGGGGGTCTTAGAGATGTTAGCAGGAGTTAGCATAGTAGGCGCGTTGCTTACAGTGTTCTTTATAAAAGAGCCAAAGCTAAAGAGCTTAGAAGAGATATCTGATGAAGAAACAGTAGAAAAACAATCTTCGCAATCTCAATAATTTTAAGTAATTAAATGGTATTGTGTTTTTTATTTAGTTATATATAATAATATAATGCATATGTATGAACTTAGTAAGAGACTAAACTGGTAATTTTTTAAGTATCGTATATCGAGTAAACATATGGACGTTGGTATATTTCTTGCGGCTTTTGGAATAAGTCTTCTAGAACTGTCAGAAGCTGGAGCTGTAGCAGTTATCTATAGAGGGATATTTAATAGCAATAAACCTTACATTTATGCAATATTAGGAGTTCTTACAGTACTAATTCCAACTTTTCTTTTAGGCTCTTTTATATCTCTATTACCATTAAATTACGTACTTATAGCAGCAGGAATCATTCTTTTTTATTTTGGATATAGATTATTAAGAAGTGCTAGAAGATCAATTAAAGGCTTACGGAAACCACATGAGAAAGAAAAGGAAGAAAGTATAGCGGTTGTATATACTATAGGAGCTACAGAAGCATTTGAGGCAGCATTAGTCATTATTGCGTTAATACCTCAAAATTACGTATCTACTTTGATTGGTACATTGTCAGCTTCATTAGTAGTTATAGCTCTGACAATAATTCTAAAATCTCAAATAATGAAAATAAGAGTTCCTCAGTTAAAGTACGCATTATCTGCACTTCTTTTTAGTCTAGGAACTTTATGGTTTGGCGAAGTATTTATTGGTATAGATGAAATATTTCTTCCATTATTTTTTGTAGTATATCTAGCTGTAAATTACGCATTAATAAGAATATAACGATATTAGAAAGATAAGTCAAAATTTTTTATGACATGTTTTATAGGATCCAGCGATTGTTATAATTTTTACTAAAAATGTCTATATTATTTTAAAATATATCTAATTACTTCCTGAAGTGGAAAATGTCATTCCGTTGATTATTACTGAAATTAATATTATTATTGTTCCTATAAATTGAACAAAATTTAGACTTTCCTTCAAAAATATGTAAGCTAAAATTATCGTAAATACTGGCTCTAAAGCCGAAATTATAGTTGCTGTTCCAGAATCACTCTTTTTCATTCCTCTATAGAAGAAAAAATATGGTAAGATTGTTGCAAAAATACCAAGATATATGCCTCCAAAAATAGAAGGTAAGTTTATTTTAGAGAATATTTCGAGTATTATTACAAATGGAATAGACCATATGGACTGAGAAGCTATCATTTCCCACTCCTTTGATCCTCTAATTTGTAAATATCTAGAGTAGGAAACCAATAGAGCGTAAGTAAAGCCCGACATAAGGCCTAATAACGTTTCCATCAGATTTAACGTTCCTTCATAGATTATGTAAAGGCCTATAACGATACATATAGAGGATATGATTTTTATTGCGTTTGTAGATTCCTTAACAAGGAGTTTAGATAACATGAAAACCCATAGAGGCGCAGTATATAATAAAACAGCAGATAATGCTGCTCCGTCTATAGTTATGGTATAAATGTATGTTTCGTAAAAAGCTGCTGCGAATAAACCAAGAATTATTTGTTTGAGGTTAAGTATATTTCTAATTTTTATAATGAAAAAAGATATTATTGCTGAAGAAATACTTCTAAATAAAACTAATGAATAAGGATTAGCACCTTGGATATAGAAAAATTGTGTTGCTATACCAATAGTTCCCCATAAGAACGAGGTTAATAATAGATCATAAAAACCTTTCTTTAAGTGCATTAAAATAATTTCATAATTAGGTCTATATTATCTTAATTGATTTTAGGTAAACTAATCCATTGTCAAGGATGGCTCTATGTTAAGAAAAATGTTTATTAATATAATTAATATATTAAGTTAAAGATTATAAGAGCTCTATTCTGAAGCTGTAGTATTTGTTGAGAGAATCTTTTTACAATCTCTTTTTATCTATTTATAAAACGATTTTGCTCTACGAAATGTCAGGTTAAAGAGCTAGATAATATAAGATTGTTGCGAATATACTCTTACAATGTATAGATTCATAGTCAAGGATAATAGATAGTTAAACATAATACTGAAAGATTTTAATAATTATTTTAGTTGGAAAGTTGGTTTGCCCATATTATAAAAACGGAGCTTGTTATTCTCCGTCATTAGATCAACCAGATGCTAGTGTAACCTCTAAAGAAAGATGTCTAAAGAATTTTAAAGTATGCAGATATTTTCAAAATGAGACTAAATTAGATATTAAAAATTTTTATTTTGAAATGAAAACAAAGCTTTCAAGCGAGTGTAATTATTATGAGCTTAAGGATGTTGGTAGTGGATTTGTAGCATATTGCAAGGTACTTAACAGAATTATAACGGAATCACAAGCAATTAACTGTAATAAATATTGGAATGACTGTCCTTTAAGAGCTATTATGGATATCCACTGAAAGGTTCTATAATTATTTTGCCAGTTTTACCGCCTGCATCCAATGCAAGTTTAGCGTATTCTTTTGTATTTGTCGGCATTCCACTAATATAGAATAATGCGTCTTGATAAGGTCGTAATTCATCTGCGGAAGGTTTCTCAAATTTTGCTACTTTTTCCAAATCTTCTTTGAATAATATAGTTCCATCATCATCAGGTTCATAGAACAATATTATTTTTGATTTAGGTTTATCTTTCAATAAGTAAAGGATCATTGATCTTATAGGTGTTATTCCTATACCTTTTGTTATAAATACATATTCGTCTGAATCTTTTATTACAAATTCGTCTTCAAATGGGCCTTCAAAACTTAACTTATCTCCAGGTTTCAAGGTCGATAATCTTTGTTTGAATGCTGAATTTCTAATTTTAGTAGCAAACATTAGAAAGTCCTCAAAAGGCGAACTAGCTATTGAAAATGTTCTCTTATCATTGTCAAAGATTACATCTATAGTATTGCCTGGTTTAAAGTTTAATTTGGTGTCTAATTTCATTATCAATTTATCTCCAACTTTATCTATTGAAAGTATTTTTGCATCCATATTCTAATTACAGATAGGAAGTAAAAAAATGGTTCCATTAATTAATGACTTTAACTCCATTTTATTACTGTTTTAATCTCTCCAGGTATTTTTTTGCTTACTACCTCAGGTCCATTTTCAGGAGAAACCATGGAAGTAATCATTCTAGGCACTAATGATCCATATTTTTCTTTCCAAAGTGTCAAATAGTTTACGGCTTCCCTGAAATGCTCCTTGCTGGCATTTACACTTCCTACTACGGCAATGTTATTTTCTACAAAGAATGTTACTAGATCTGCGTCTATTTCCACTTTATCTCCTGAAGATGTACCAAAGAGTACTAAAATAGCATTCTTTTTAAACTTCTTTAAAAGAGGTAAAAATGCTGACGGATAACCAGTGGTATCTACAATAACATCGGCAGAAGGAAGTTTTTCTAATCCTTGTGTAGTATTATAAAATGTTGTACTCATTCTTTCTGCTATGTATGCCTCTGTAGGAGAGGGATCTCTCTTATTAAGGAGATATACATTAAATCCGTTAGTTCTTAAAAGAAGGGAAAAGAAAGTTCCTATTGGTCCAGATCCAACTACCAACGCATTTCTGCATTCGTAAGTAGAGTCTCCACAAGTCCAAATCATTCTATTCTGTATATTTAATATTTCATCCACTGCTTTTACTACATTGGATAATGGTTCTGTAAGCATCCCTATATCTTTTATAGGCTCTGGAACTCTGACAAGATACATTACATCGTCAACAAATTCCTCTCTCATAAATCCATTAAGTCCTCTTATACCAGCTTCTACAAATTTTCCAGTTTCACAGAAATCTGGTCTTCCTATTTTACAATTTAAGCAAATACCACAGCCTCTTCTTACTACTGGAACTACTAAATCACCTTTTTTAAATCTTTCAACTCCTTCTCCTACTTCTTCTACAACCCCCATAGCTTCATGGCCTAAGATTAGCTCTGATGCATTTTCTTGTGGTCTAGAAAAAGTTATTTTTCCGCTAACTATTCCTCTATCTGTACCACATATTCCAGTATAAAGTGTTTTTATTCGTACTTGACCAGGTTTAACTTCTTGAGAAAGTTCTATATCTTTAACTTCTGCGCCAGGGTTAGGTGGTTTTACTATAATAGCTTTCATGTATATATTTAAGATAATAATAGATAAAAAATAATCCTTTTAACGGTATGTGTTAATAATATGATCTTAAAGTTAATATCTAACGTATCGTAGTATTATAGAGTGCAAAATCAAATAAGGTTTTACCCAAAGAATTCTAATCGTGTACTTTGCGTTCATTAAGGATAATAAAAAAATTCTGTATAGCGACGGGATAATTAGTGAGTATGATGGTAAACTTAAAGTTAAAGACAATATAATAGGTTACGTTTTATCTCCTTCAGACGGTAAGCTAAAACAAACTAAGATTCCAGTTTATGATTGCTCTAAAGTAGAATTTTCTGGAGCATTAAGGGGAAAAGTATCTGATTTCTATATTTTTGAGTCTAAAGATTCTCTTTGTTTATATTTTGGAACTCTAGATAAAGAAATAAGTGGAGCAATTTATGATTTTGTAAGCGGATTGTCATTTATTAAAGGTGATAAGACAGAAATTATAAAAAATATGGATAAATATGAAGTAATTCAGTTTGCTTTAAAAAGTTTTAATGATGATGAAATAAAAAGATACGCAATAATTAATTTATCAAAGTTGAATAAATGTAATGAAGCTATAGACTTATACTTGAAATTAGATAAGAAATTCCCAGAAGAAGCTCTAGCAGCGGCTGAATGCTATGAGAAATTAGGTGAGGACTTAGAAGCATTAAAAATATACTCTTTCTTTTCTGAAGAAAAATATAAAGAACTTGAAAGTAAATTAATGAAAAAAGTTGACCTAATGATAGATGAATATAAATCAACAGAGAATCCTAAACGTCTGTTTGATGCATTAAATGTTTTACCTACGTATGATGCACCTGCTGTTAAATTAGGCTGGCACTATATGAAAAAGAGAAATTATAACGATGCAGTTAAGTACTTTGAGGAAGCTTTGAAAAGATCAAACAGTTACCAGAATATGTTAATGTTATCCTATGCGTATTTTAAATCAGGAGAGTATAGGAAAGCATATGATCTAATAGAAAATGCAGAGAAAATAAGAAGAACTGCTAACTCAGCCTATCTTAAAGGTTTAGCTTTAGAAGCTTTAAATGCTCCATCTAACGCAGAAAAGGAATTTACATATGCATGTAAAGAAGGAGTAGTAGAAGCATGTGAGAAAGTTTCACCAAATAAGTTATATTTACCTAAGGATTTTTTGCCGGAACAATGGCTAGGCTATGTACTTTATGGCTATGAAGTCAAGAAGATAATAGGAAATGGTGGAATGGGTTATGTATTGTTAGTAGAGAAAAATACTAGAAAATATGCAATGAAAATAATGAAAAAAGAATATAATTTTACAGAAATGCTATACGAGGTGGCTAAAATGCAAGAAATATCAAAGGGATCAAAATATGTGGTAAGAATTCTTTCAAGTTTTATAGACGAGAATTGGACTGATTACTTTTCATCTCCTCCTGCTATCATTATGGAATATATGGAGGGTGGAGATTTGAGGAAAATACTTATAGAAGAGGAGTATCAAAGTTTGCGACATTCAGTAAGATGGCCTGAAATAGTATCATTAATATATTCTAAAGTATCTGATGGCATAATACACATGCATAAAGAGGGTTATGTTCATTGTGATATAAAGCCTTCAAATATCTTATTTAGTTCAAAATTACAAAAATATGGAGAAGACGCTGAGACAGATATTTTAACAGAAAGATCTGTTCCAAAACTTTCCGATCTAGGCAGTGCAGTAAAATTTGGAGTTCCTGTAATACATTATACTCCTTATTATGCACATCCGCTACAGAGGTTTGGTTATAGAGCCGACTATAGTATGGATGTGTATTCTTTTACAGTATCTTTATATGTAACATTAACTAATAATTTCCCTTTCCCAGAATGGCTTGAAAGAGAATTAGAAGATGCTGTAACAGATTCTTCAAAGAGAGAGCAAGCGTTAAAAGATTTTTATAATGCAGAACCTAGAATGGATTACGTCCCAGACGAATATAGGGAATTAATAGAGAAAGGATTGAAAGGAGAGATAACTATGGAAGAAATTTCAAGGGAACTAAAGAATTTAGTAAGTAGTTTCTATAATATACAAGATAAAATTTTAATTTCCTCGTGAAATAGCTGTTTTCTTCTTTCTTCCTTTAAGTCTTGATAATAGTATTCCTGAGAACATAATTGTAATTCCTACTATAGAAAAATCAGATGGTAAGGACATGGTCTCTATTCCATCTATAGCTGTTGTAAGTAGCGGTACAGAAAAAGAAAGTACTGTAACCTTTCCGACTTTCTCCATCCTTAACATTTGATTCCATAAAATAAAGGTTAAACTTCCACCTAGGATCGAGACATAAATGAGATCTGCTATAAAATTATATGTAAAATCCAGCTTAAAGTCTAGGAAAGAGAAACCGAAGAAAAACATTGAGCCTATAATAAGCTGTGACGAATTTACAACAAATGGATCCATATTTTTTAGAAATCTAAAAAATACTGTAAAAGAAGCCCAGAAGAAGGCATTAACTAACGTGAATATAAGTCCTATGAGGGTATATCCAAAGCCTAGCGGTATTGAATAAATTATAACTCCTAAGAAGCCTACTGTAATCCCTAATATTTCAGTTATTTCTGGTTTCTCTTTTATAAGGAGTAGCGATAATGGCAAAGCAAAAAGCGGCATTGAGTAACTCAATACTGCAGATTCTGAAGGAGATACATAAAGTAGTCCATACGCCCAAAGTCCAGAACTTAAAGTAGTAAGAATCGTTAAAAATATTATATTTCTATTTATAACAATCTTCTTAGCTAATGGAAGTAATGAAATACCTCCAATTAAATATCTTATTGCCATAAAAGGTAAAGGAGAAGCATATTGTAATCCGTTTTTAACAAATTCATAAGAAAATGCGCTTAACACGATGTATGGAATAGCGTATTTTAATATTTTCAAGTTTTTATCAGTTATCGTCTTAGAGATTCCATTAAAATTGTTAATTGAAGCTGTAAAGAGTAGAAAGGCTTATAACTGAGAAAATGAAGTATAAAAGATTAAGTGAGAAGAAATGGAATACAGAAAAATCTTTGAGGGGGCTGCATATTCAATATTTGAAGACGATGAGGCTACATTGGTATTGTTAGAAGGGAAACCTGTTGCTGCCTCATGCATTGAACATGGTAATCATAACCTGTTCGATTTTGATTGCCCCCATGTAGAAAAACTAATGAAGAAAATTTTTTCTTAAACCCAAAAACTTATACTACGGCTATACATGCTATTTCTATAAGAACATCTCTAGGTAATCTAGATACTTCTACAGTAACTCTTGCAGGTGGTTTTGTACTGAAATACTCTTGATATATATCATTAAAATCTGAGAAATCTTTCATGTCTTTTAAGTAAATGAACGTCATAGTGACATTTTCTAATGAAGCTCCAGAACTTTCTAATATTGCCTTTATGTTTTCTATAACCTTCTTAGTTTGCTCTTTAATATTTCCCTTTATAATTTCATTTGTTTTTGGCTCTATAGGTATTTGTCCAGATACAAAAATTATATTTGAAGATTTTATAGCTTGAGAATAAGGTCCTATAGGCTTTGGGGCTTTTTCGGTATATATTACATCTTTCATTACATAAAGCAGACTCAATTAGGTTAAATTCTTTTTTTCTGAAACGAATGGTAAATGCAACTGATAGTGAAGTGCTATTAACATATCTCTTTCTGTTATTATACCCTTTGGCTTTCCTTCCTCGTCAAGAATTAGAAGTGAACCTATATTTTTAGATATTAATAGGGCAGCAGCTTCATTTATTGACTTATTTTCGTCAATAGTTATTACGCTCTTATTCATAACGTCCTTTATATATCTTCCAAAAAATGCTTCTGGTTCCATTTTCTCAACTGATTTTCCAGCAGATTTTACTGCGTCAGCAGCAGTAATCATTCCTATAACTTTTCCGTCTTCGTCAGCTACAGGTAGTCTTCTAAATCCTCTATTCAACATTTGTCTAACTGCCTGCTCTAAAAGTGTGTGTTTATATACTGTTGTAACTCTTTTTGACATAAACTTATTTACAGGGAATAACTCGTCAAGATCTTGAAACGCTAGTAAGAAATCTCTTTCTGTAACTATTCCTATAGGCTTTCCTTTTTCATCTAGAACGGGTAAAGAACCAAAGTTTCTAGTAACCATTAACGTTATTGCATCTATTATATCAGTATCTTCAGTTACTGTAACAGGGTTAGGCGTCATATAATCTGACGCTTTAGCATTTCCTAATTTATACAAATCTCCTTGAGTGCACGTAGTAGGGCAGAAACTTAAATAAACTGATAGAAGATCTCTCGTTGAGAGCAAGCCATGTATTTTATCGTTTGCCACTATAACTCGTCCTATTCCTCTATCATTAACTTTTTTGAACGCTGTTAGCAATTTATCATCTATTGATACTATTGGAGGATTCAAAATCTCTAAAGTTTTTATAATCATAAAATATGTGTGTAGAGAAGTTTTATAAATATTTTGAATGAGGAAAATTAATATTATATATTAACCTTGTTAATATTGAAGTCATTTGACTATTGGCTTAAAAATATTTATAAAAATCATTCTTTTATGGAACTTCCTACATGTTTATCTATAGTAATAAAAGACAATGAAGTTTTAATGATAGAGAAGAAAAGGGGTCTAGGTAAAGGTCTTTTGACGTTTCCTGGATGGAAAATAGAAAATGAAACCTCATATGAATGCGCATTAAGGGAATTAGAAGAAGAAGTAAACGTTAAGGGTTATGATCCACTATACGCTGGTAGAATTCTATTTAAGCAAGAGAATGGATATGTGATTTCTATGTACGTATACCTAATAAGGAAATTTTCTGGAGTTATAAAGGAAACAGATGAAGCTAAACCTTTTTGGCAAAGAACTGATGATATACCTTATGCAAGGATGTGGCAGGATGACAGATTTTGGCTGTATAAAGTTCTGTCAGGCAAAATAGTAGATTGTGTATTTACATTTTCTAATGATTGGAGTGAAATTATGGAGGGATATTGCTAAATACATGAACTATCCTGTCCTTACGAATAGGACTTTCTGCTTTATGACTTCATTTTACCAATGGTAGAGGGCGAAACTCACAGTGGGGGTCGTTATGATCTATATAGGAGCCCGATGGTAATATACCAACACTAGTATTTACTGAAAGTTCTTAGACTAGAATTTAACGGTAAATCCTTAAAATAAAAGCTATAAACTTTCTGAAAGTACTAACTGGACTGCTTATTGAAGCAGAGACGTACTACATAGACCCTTACTTTACCTAAGGCGTCTTGGCGACATTTAATTCTATGTATTCAAAATTTTCTCGCTTTCGTCAAGCATTCTCTTTACCTTATTTATTAACGGCAAAATATCATCTAATGAAAGCTTAGCTTCATGGAAGCCCCATACATAAAGAGTATAAGCAGAATTCCAATCGTCTAAAACCCAGTCTCCAGGTTTTTTGAGAGTTTACTTGATGCAGAAACTAGCCAACTAGTATACCATCTCTCTTCATCTAAAGCTTTCTTATATTCGTCTAGCGTGAACTTTTCTGAAAGCGCTTTTATAATCTCTTCAGCAACTTTGTATGCCCTTTCGAAAGCTTGTATTACGTCTTCTTTATTGTCACAAACTTGAAGTTTTAAAGCGTTTCCTTAGACGCCATTAGTTTACTCCTCTAATAAGTTCTTATGTTATCCTTTTTAGCTTTATATTATTTAGCAGATAAAAATTTTATAAAAATACTAATGTCAAGAATTGTAAATATTTTTTAAAGACGATAATAGGCAAAAAATCAGTGCACTTTATTATAATTTCTATGCGAATTTACATGATTTTGGTCTTCCGAATACTTTTGATGCTACTTTTGAAAGGCAAATATCCTCGTTATCATTACATATAAATATCTTTTTTCCACTTTTTGTAATTTTATCAAATTTTTCCTTATCCAAATTTTTAACGATAAATATGCTTTCTTCTTCATTAGTTTCTCTTATTACTCCATTATCGTAAATAACAAATCTCTTACCGTTTTCAAATGCTACCACTATATTCATCAATTACAGTAACGTGTATGCTATAATAAAAATACTTATTGAAACGCCTATCAGCATACTTCCCATAAATCTCATAACTTTTCTATCTATTTTCATAACATTAAAGGATGAAAGCGTTATATACGCTATACCATAAAATATAGCTATAACACCTATTATGTTCAAGATTATTTTAAATATTATGTCAGGACTCATATGGTTAATGTTATAGAATCTTAATTATAAATCTTCTATATGTTTTTGAGATAGTTTTCTAAGATAGGTATTGAGACATCATAACGGTATGATACATTAAGGTGGCCGTCTTCAAATTCCTCGTATATATGCTGTATATTTTTCTGTTTTAGCTTTTTATGAATTATACGTGAGCCGTATTGTATGTTAAATTCGTCTTTAACGCCGACATCGATATATACAAATTTGTTCTGCAAATTTCCAGAAATTTTGTCTACCATTCTAACTGGATCTTTCTGTAACCATTTTTCCCAAATTTCCATTATAATTTCTCCAGTTTCTAGATCAAAAGGTAAAAGGATATCTCCAGAAGAAGAAGGAGAATAAAATGCTGACATTCCTATTATATTCAGCGTATTTATATCTTCTTTTTTCTTTTTATTCTGTTTTGTCCAATAATAATCTAGCCATTCTTTTGGTGTCTTAAATTTTCTTAGATATGGTATAACTTTTGGGAAACTTGGTAAATATACATATTCGAAATACGCATCTCCAGAATGTGACGCTAATGCTTTTATTTTTTTACTTTTCATTCCAAGTGTTAGTGATCCATATCCTCCAGAAGATTTTCCAAATACTCCTATTTTGTCAGTACTATATTTTTCTGAGAAATAGGGAATTATCTCGTTTAATATAAAATCTTCATACTTTCCTACTGCTTCTGAATTTAAATATTGATTTCCGCCCACTTTAGTAAAAGTATCAGGCAAAATAATTATACTTCCGTCTATTTTTCCTTCACTTTTTAATCTCTTTACACGCGAATAGAGATCTTCTGACAAAGGATCATAATTTAGTTGTGCTAAGGATGACGATAGAAATCCGCTCAAATATACTAAGAGTGGTTTGCCTTCTGGCTGATCTGGCTCTATAATTGCTGTTTTTCTAATAAAAGGATCTTTTAATACGTTATCTTTTAATACATCACTTTCAAACTCTAAAAATTTTAGATTCATAAATATAATAGGCTATTATAGATCTTATTTTTATGCAAAGTTTACAAACATTGGCACTTATTTTAGTTTCAGCGTCAGTATTAGGTTTGATCTTAAATAGGTTTAAAATTTCGCCCGTGTTAGCGTATTTATTAGCAGGGTTATTAGGTGTTTATTTAAGTGTAAATTATGAAGGTGAGATATTTCAATTTTTAGATTTTTTAGCACTCAATTTAATATCCTTTGAAATAGGAGCTACTCTAGAGATTTCTAGATTAAAAACACTGTTTATACGATCATCAGTAATCGTTTTTATAGAAACTATTAGTGCAATATCAATAATATTAACATTGGGATTTTTATTAAGATTAAATATTTTAGAATCAATTTTTCTAGGTTTAATAGCAGCCGATACAAGCACTTCAATAGCGTTCAAATTATCACAAGGAAAACTAGACGAGAAAGACAGAGAACTTATTCTCTCAGTTTCTTCATTAGAAGACGTCTTATCTTTTTTAGCATTAGCAGCAATATCTGCCTCAAGAGACATAGGTAGCTTAATAGTTGATTTACCTATAGCTACAATATCTTCGCTTATTTTGGGATATTTTATTTCAAGATATCTAATAAAGCCTACATTAAACTTTTCAAATGAAAGTATAATATTATCCGCAATAACTGCAGTATTTTTATTTAATCTTATAAGTAACGAATTAGATATTCCTAATACATACGGATCTTTTTTACTAGGATTATCTGCAGCCTTAACTCTAAAGAATACAGTTAAGGTTACAAATCTTCTCATGCCTATTAGAGAATTGTCATTAATATTCTTTTTTATAGTAGCAGGTAGTTATTTGAAAATCGGAAACTCATTATTAATATTTCTACCAATAAGTATTCTATTAATTATAGTAAAATATTTGTCATTCAGTATAGCCACGTGGATGACTGGAAGCGAATTCTTAAGAGCTTTTAGATTAGGGCTTTTTATGACACCCATAAGTGAGTTTGGAATAATAATTTCTCTAGATGCTATAAATCAAGGATTTAATATACTTCCAGTTTACGATATTTCTACTTTAGTAGTGGCTTTTTCTTCAACGGTATCGTCGATTATTATTAACTCTGAAAAGAGAATACTAAAAGGAATATCTAAAATTTATTTTAAATCTACATTTCTTCAAAATGTAGATAGAATAGTAAAATCAAATAGCTTCTCAAGAAAGACTCAGTTTAATTTTGAATATGTAAAACCAATAATAGTAACAATAGGTATAGTAACTAGCTTATATACAGTTTTAGTTTCACTAAAAACATATCTTCCATTTTTACTTAGTTTCACTGCACCTATAATTACTGCATTTTCTATACTATTTATCTTGTTTTTATGGAAGGATTCAATAGAAAAAGTTAATACAGAAGGAAAAATAAAGGAAATACTAAAAATTCTTTCAATTATGATCTCAATACCAGTATCTTTAATTCTCATTAGTATGTTAGTTTCATTTCTAGGTTTCTCATTTATTTCTATTCTAGCATTATTTATATCAATATTAGTTTTATTATTACTATATAGAAGAATAGAAAGAATTGTTAGAGAAATAGAAAATATAATCTGAATTTTCTTTTACAATTTTCATTTTCTTATCGATTAGATATATTTCTCCATCTTTTGCTTTAATTGCCTTTGCCTCTCCATTATCATATAAATATGCAGTTATAGCACATAATACAGCGTCAAATTCGTCTTTAATACTTGTATAATCCTTCCAATTTATTTTCATTAACTTCATTGAAGACGTGGGATGAGTTTCAATAGAATTAAGTTTTTTAGATAATTTTATTCCTCTCTCTACTAAACTAGGCATAAAAGACGGAGGAAGTACTTTTAAACCTAATTTTAACATTTCTCTATCTATCTCTCTAAAACCTTTAGAATATGATAAAGGAGAATCTATTGCAGTAATTTTAGCTTTTGAACATAATTCTAATATTTCATCATCCGTAGATACAAAATATATTTTTATCTTATTATCAATCAATAAGCCTACTGCTGTTTTTCTCTTTACTGCTAAATCTATTCCACAATAAATAAAAGTCAAGTGTTTTCTCTTAAATTATGAAAAAGCCAATAATATTAATAAACTTTAAGGCATATGAGAACTCCTTTGGCGAAAAAGGAATACAAATGGCTAAAATTATAGAAAAAGTAAGTAGAGAATACTCAACTGACATAATAATTTCTGTTCCAGCTACAATGATTTATAAAATAGCTCAAGAGGTGTCAATTCCAGTTTTTGCTCAACATGTAGATAGTGTTAGCTTAGGTGCTAGGACTGGACATACAACTGTAGAGATGATTAAAGACGCTGGTGCTAAGGGAAGCTTACTAAATCATAGTGAAAAAAGGATAAGGTTAGATGAGATAGACGACGCTATTAAGAAATTAAACAAAGAAGGATTAGAGAGCGTAGTTTGTGTAGATAGATATAGTATAGTAGCTCCAATAGGGATGCTAGGTCCTAATTCTATTCTAATTGAACCTCCAGAGCTTATAGGCAGTGGAATTTCGGTTTCAAAAGCTAAACCAGAAGTTATTACAAAGGGAGTCGAAGAAATAAATAAAGTAAAAGGCGTAGATCTTATTGCAGGAGCTGGAATAAGCAGTGGGGATGACGTTTATACTGCTATTAAACTAGGTGCTGCAGGAATAGGAGTAGCTAGTGCAGTAATGAAATCGCCAAATCCAGAACAAGTAGTAGAAGATTTTGTTAAATCTGCAATCAAAGCTATGAGTGAAAAATAATGGAGATAAGAACTCATTCAGCTCTCCATGTATTAAAAGGTGCAGCAAGGAAAGTTCTAGGTACAAAATGGACAGCTAGTACTTATGTGAATGGTTTTCATGGTAGACTTACAGTAAAAATGGAAAGAAAACCTTCTGACGAAGAAATAAACAAAGTTTTTTATGAGGCTAATCAAAAAATCAAGGAAAATCTTCCTTTTATTATTGAGAAAATGAGTAGAAAGGAGGCAGAGGAAAAATATGGCGACGAGATATACGATCTTTTTCCTGTTCCTTCAGATGTGGTAGAACTTACTATTGTAATAATTCCAGATTGGAATATTAATGCTTGCAATAAACAACATGTAAAATCTACTATAGAAATTGGAGAAATAATACAAGATGATTGGAGATATAGAAATTCTAAACAACTTTTAGAGTTATCTTTTAACTTAGCTCATTAATCATTTTAGTATATTTTTCTAAAACTTTTTGTACTTCCTCTTGAGCACTATTATATATTTCTAACATTTTCTTTAATTTTTCTGGAATTTCAGTTCCTCCAGCGTTCTTTCCTCCTTTCTTTAGTTCCATACCACCAACAGACGCATTTATTCTTCTTACGTACTCCCAGGCAAACTTGTATGATAGGTTTAGTTTTTCGCTTGCACCAGAAATAGAACCTGTTTCTATTATCGCTTTTACTAGCTCTACTCCCCCTTTTCCTAGTATAGGCTTTCCATCTTCGTTTTCAATCCATAATTTAAAGTTAAACTTCATAATTCAATACCTTCAGTATATAATATTTTCATAATATTATCAATTTTTCCTTTTACGTCTTCTAGGTCTTTACCAACAATATTTATATGGCCCATTTTTCTTCTTTTTTTAGCCTGATTCTTTCCATACCAATATACCTTACCTATTCTAAGAATTTCCTTAGGAAAATCAGATTTTCCTAGAATATTTACCATTCCAAACGGTTTTAAAAACGTGGTATCTCCTAAATCCATATCAGTTATAGCCCTTAAATGTTGCTCAAATTGCGAAACAAAAGAAGCATCTAAAGTATAGTGACCAGTGTTATGGACTCTAGGAGCAGTTTCGTTTATTAGCACTTTGTTTTCCTTAACAAAAAATTCTATACCCATCGTTCCTATGTAATCTAAATCTTTAGTTAATTTTTCCCCAATTTTTACCATTTCTTCATTAAAATATGGTCCATAGTTATATATTAATATACCTTTTTCATTATAATTAAACGATGGAGTAAATGCCTTAAATTCTTTTTTACTTCTTGTAACTATAATTGATGCCTCAAAATCAAAGTCTATAAATTCCTCTACTACAAATTTACAATTCATATTTTTTATAAATTGATATTTTTCAGAATCTTCTTTAATAAAATATTGGCCTTTACCATCATAACCGCCTTTTGATTGCTTAATTACACCTAAATTATTAAAATCGTTTTTTAGTATTCTAAGAGCTTCTTCTCCATTATCAGCAACTTCAAATCTAGGTACGGGAAAATTATGATCTCTTAAGAATTCTTTTTCTTTATATCTTTCTCTCTTTAGTTCAACGCTGTTTAATCTAGGTAGCAATTTATTTTTTTCTTCAGCATAATTTAAGGCTTCTTCACTTACATGTTCAAATTCAAAAGTTACTACATCACTTTCGTCTATCATTTCTTTATAATTCTCTAAAGGATAACATTTGTCAGCAATTTGGCAAGCAGGGTCTTCTGGATTTCCTAGAACATAAAACTTTAATGGTAACTTTCTTCCTTCTAATATCATCATCCAGCCTAATTGTCCTCCTCCTAGAATGCCTATTTTATAATTTTGTAGAGAGGACATCGTTCTTCATCTCTTCCATAAAGTTTTTCATTTTAGAAAATATATCTGGATATTTTATGCCTAGAATTCTAATTGCTAGAAGTGCAGCATTTTTTGCTCCTCCAATGGCTACTGTAGCCACTGGTATTCCATAAGGCATTTGTACTATTGAAAGTAATGAATCTAAACCATTTAAATTCTTAGAAGGAATAGGAACTCCTATAACAGGTAGTTGAGTCATTGAAGCAATCATACCAGGTAAATGTGCTGCACCTCCTGCTCCAGCTATTATTACTTCTATGCCTTTTTCGTGTGCCGATTTGGCGTAATCTAACATGTATTCTGGTGTTCTATGAGCCGAAACAACTTTAGCTTCGTAACTTACTCCAAATTTTTCCAATACACAAGTAGCTTCCTTCATATATTCCCAATCACTTTTACTGCCCATAATTACTCCTACTAAAGGCATGAGAAAATATACGAACAAAGGTAAATAAGCTAAAGAGCCCTTTACTTTTAAAGTTTTTATAAAGAATTTTTTTAATATGATTGAAGTTGCTAACGAAGAAGAACTTTTTAAAGAAATAAGAAATGCTTACATCGGAAGGAAGAAAATTTCAATTGTCGGTTCTGGTTCTCATTCGGATAAGAAAGGAGAAGTTATATCTACAATTAAAATGAATTCCTTTGATATTAAAGGAGATATAATAGAAGCATATGCTGGAGCTTCTGTTTTAAAAATAAGAGAGGAAGCCTCTAGCTATGGCTATCTTTTCCCTACACTTTATGACGGAACTATAGGAGGATTATTAGGGATAAACTATGTTTCGCCATTATCGACGTTTTATGGGACCCCAAGAGACTTTACGCTGTGGTGTAGAGCAATAACCCCTTATGGTGGATTAAATTGGAAAATATTTATAGGATCTAAAGGTCTTATTGGTGCCATTTCTAAAGCAGTCATGAAGTTATTTCCTAGGCCATATAAAATAGTGACTCTAGAAAAATCTTATGATAGTGTAAATGAACTTTTAGACGACTATATAAAATTGAAAGAAAATAAACCCATAGCTACCTTAGTTGAATATGAGAAAACTTATAAAATTCATTTTACATACTCTGTCGACCCAGATATAACTGGTTTCAATAAAGATGATGGGGTTCCATTTATAGAAGAAAGTGATAAAAATAGTTATATAGTCGAAACTCCTTCTTTAAGTGAATTTATTAAATTGGTAGAGAAAACTAATCCCATTTATGCATATACTGTAATTAACTCAGGATTCTCAAAAGTATATCTGGCAGACGAAGATATACTAGCTGGTTTTAATTATTACCCATATAATGGAGTTAAAGGCATTTATTTGAAGTTAAAGAAATTATTGGATTATAGAAATATATTTGAATAATAAAAAGTTTAAATTTACGCCTAACTTTCTAACTTTATGTCTAGGCATTTTATAATAGATTGTGATACAGCCGAAGACGATATAATGAGTTTATTCATGCTTTTAAAAAATAATATGGTGATTGAAGGAATTACTATAGTTGAAGGAAATATAGCGTTTAATCAGGAGATAAACAATGCGTTGTGGGCGTTAGAATATATTTCGGACAAACTCCCTTATGAAGTAAAAGTTTACCCTGGAAGTAATAGACCATTGGTTAAAACGTTCAGAACAGTAGAAAATGTCCATGGAAAAGGAGGGATAGGAGACGAAATACCTATTCCTAAAAAACTTTCTGCGAGTAGCAAGAAAGCTGTAGATGCGATAATTGAATTAGCAGATAGATATCCAGGAGAGTTAGAGTTCTTAGCTATATCACCTTTAACTAATTTAGCTTTAGCTTATTTAAAGGATAATTCTATTGCCGAAAAAATTAAGAAAGTATGGGTAATGGGAGGGACTATTTATGGTAGAGGAAATATTACACCAGTTGCGGAATTTAATTTCTGGGTAGATCCTGATGCTGCTAAAATTGTGTTTAACTCAGGATTAGATCTTACAATGGTTTCTTGGGACTTAATAACGAATTATACTATAGAAAAAAACGATTGGGATAATATTAATTCAATGGACACTCAGATGTCCAAATTTTATTCCAATATATATAAACATTATAGAGAATTTGCTATGACTAAGCAAAAAATGAAGGGTAATCCACATCCAGATCTTATAACTACTGCTATTGCTATAAATCATGAAATAGCTAAAAAAACCGAAATGCAATTTGTAGATATTGAAAATTGCGAGTGTCTAACTAGAGGAATGACTGTTATAGATTATCTAAATGTATGGAATAGAAATCCAAATACTGAAGTGGTTTATGAAATAGATAAAAGTAAATTCATGAATATGTTGTACGATCTTTTGAAATGGTTTTAACAATCAAATTTGCTACACAGTGCAAATTCCATGTCCGGCATAAGTTTCTGTAGGAAAACATAATATCTATATAATTCTTCTAACCCTCTATCGGTAATTCCGAATATTACATCATCTCCAATAAAGGCCTTTTTTTCAACATAGCCTTTGTATTCCAACAATCGTAAAGCCTTAACTATAGTCTTTTTTGACAAACCCGTATACTCCATTATTTCCTTTACACTAAGTTCTCCTTCAGCTAAATTAGTTAGCATGACTAATTGCGTTAAGTTCAACGATCATCAAATACTAATTTGTTTTTCATAACTTAAAAACAGTATCCACGTCAACTTTTAATGGGAAAATTAATAATGGATGAAGTTTTACTTTAATGCCTAAATTCTGATTAGCCTTTTGTAATTTTTATATTTTATCGTATATTAATTTATAGCAAAAACAAGAAGAAAATATATTATGAGTATCCAAAGCAATGTTTTTTAATACTGTATAAGCATATTTATACGATATATTATGGTAGAAAACATGACAGAAGAAGAACAGAAACTGGAAGAAAAAGTAGACTATAATATGCGCTATTATAAATATTTATTTGATTTAAGCAAAAATAATCCTGAAAAATTCTGGGGGGACCTTGCTGAGCAGCTAATAGACTGGTTTGAACCTTGGAAGACAACTATGAAACAAGAAGATCCTATGACAAAATGGTTCATAGGCGGAAAACTTAACGCTTCTTATAATGCAATAGATAGGCACATAAATACTCAAAGGAAGTATAAGGCTGCAATAATTTGGGAAAGCGAAAAGGGAGAAAAGAAAGTTCTGACTTATCAAGATCTCTATTATGAGGTAAATAGATGGGCTAATGCTCTCAAGGAGCTAGGAGTTAAGAAAGGCGATAGAGTTACTATATACATGCCATTAACTCCAGAAGGAGTAATAGCTAAGTTAGCATGTACCAGATTGGGAGCTATACATAGTGTAGTTTTTGCAGGGTTTGGATCTCAAGCCTTAGCTAGTAGAATAGAAGACGCTAAAGCAAAGGTTGTAATTACTGCAGATTCTTATCCTAGAAGAGGGAAAGTCGTAGAGCTAAAAAAAGTGGTTGATGATGCATTAGACATATTAGGTGAAAATAATCCAGTTAGCAAGGTTTTAGTTTATAAAAGACTTGGAACTGAAATAAATTTTAAAGAAGGCAGAGATGTCTATTTTGATGAAATAGGTAAATACAAATATATTGAGCCTGAATTAATGGATTCTAATGATCCATTATTTATCTTATATACTTCAGGGACTACTGGAAAACCTAAGGGAATAGTTCATTCTACTGGTGGATATCTAGTAGGAACATCAGCAATGCTACTTTGGAGCTACGGGTTAAGCCAGGAAAATGATGTACTGTTCAATACTTCAGATATAGGATGGATAGTAGGTCATTCTTACATTACATACGCACCCTTAGTAATGGGAAGAACTGTAATAATCTATGAAAGTGCACCGGATTATCCTTATCCAGATAAATGGGCAGAAATAATAGAGAAATATAGAGCGACAACTTTTGGAACTTCTGCTACAGCTTTAAGATACTTCATGAAATATGGAGATGAATATGTCAGAGCACATGATTTATCATCATTAAGAATTATTGTCACAAATGGAGAAGTTCTTAATTACGCTCCGTGGAAATGGGGATTAGAAACGTTAGGCCAAGGAAAAGTATTTATGTCCCATCAATGGTGGCAAACAGAAACTGGAGCACCTAATTTAGGTTACTTACCAGGTATGATATTTATGGAAATGAAATCTGGACCAGCTTCTGGATTTCCATTGCCTGGTAACTTTATTGAAGTATTAAATGATCAAGGAGGTCCTTCAAAACCTAGAGAGAGAGGATATTTAATTATGAGACCACCATTTCCACCTTATATGATGATGGGAATGTGGAATGACGACGGGAACGAGAGATTAAAGAAGACTTACTTTAGCAAATTCCCTAGTCTATATTATCCCGGCGATTACGCTATGGTAGACGAAGACGGTTACGTATGGGTCTTAGGTAGAGCTGATGAAACAATAAAAGTTGCAGCTCATAGAATAGGAGCAGGAGAAGTAGAGTCCGCGATAACGTCTCATCCATCTGTAGCCGAGGCAGCAGTTGTCGGTGTTCCGGATCCAGTTAAAGGAGAGGAAGTTTATGCGTTCGTAGTTCTTAAACAAGGATACTCTCCTTCTGAATCCTTAGCAAAGGATATACAAGCCCATGTAAGAAGCGTAATGGGTCCAATAGTAACGCCTCAAATAAGATTTGTTAAATCATTACCAAAAACTAGATCCGGTAAAGTTATGAGAAGAGTAATTAAAGCAGTAGTTAGCGGTTCTCAGATAGGCGATATTTCTACAATAGAAGATGAGGCATCAATGGAAGAAATAAAGAAGGCAGCAGAAGAACTTAAGAATGAGCTAAATAAATAGCGAAATGATACCTCAGAGAATATTATCATTTTTATCTGCTTTCAGTTTAGGGAAAAAGTTTTAGTATATGGTGAATTACCACCATTAGAATCTATACAAACTATTTCAATTGATGATGCTAAGGATTGCTGTCAATTTGATTCAGCAATATCATTAATGTATATTCACAATGCTAATAATCCTATAAATATAATAAAAAAGATGTTAGACTTATCAAAAGGAATAGTTCTTATAGCTGACTGGAAACCCTCTTACTCAAAAGATTTAAAATATCTACTAGATAAGTCAATGAAAAAAGTTGTCTTCTATACAACGAGAAATATGGGTTTTGAGTTTTTTGAAGGAGATTGTTGGTATGCTGTAGTAAGAGGTTCTCCATAAAACTATATAGTTTATAGTAAGTTATGCTTATTTTATATAGTTAGTATATATCATATGCAATTAAAATCAGTATTTATTGATGCTGGAGAGACTTTAATAGGGTTTAGGCCTAGATCCTATGAAATTATTCTCGCAATATTGAGGGATTACGGCTATAAAATAAATACTACTACCTTGTTTAGAGCAATAGCTAGATCTATCTCTAAATATAACTTTCCTAATGAATTTGGTACTAATCCATTAAATGTAAGAGATTTATTATTCGAATTAAATATTTATCCATACAAAGAATTGGTAAAATCTTTAGTAAACAGAGATTTCTATGGAGGAGAATATTTTCTTTATGAGGATGCTACAGATTTCCTAGAATTTCTTAAAAGTCAAAGTTTAAGTAGTGTTATAGTTACAAATGCTACTAGGAGAATGGATAAAATCTTAAAAGAATTTGAACTACCTAAGAAGGTAAATGGTATAGTAGAATCTTTTGCTGTAGGTGTAGTTAAACCAAATCCAAAAATTTTCTATTATGCAACTAGAATTGGTAAAACTCCAGCTATACATATTGGTGACATCTATGAGGTAGATATCGTTGGTGCCAATAGAGCAGGATTTGATGGTATCTTGTTGGATAGATTCAGATTTTATGACGATATAAAATACAATAAAGCCATGACTTTAAAAGATGTAACTAAATTTTTAGAAAAAAATTGGAGCTAAGTGTTACAATCTATTTTATTTGTAATTACTTTAATCTATTATACTAATTTAATGTTTCTTATGTCTTTTAGCTTTCTATAATATATTTTAGAGTAAAGTCATATATTAATTAAAATTTCTAAAAATAATTATAAAATATAATCTAAATAAAATGTATTATAGCTACTAAAACAAATATTTAAATTATAATATATTCTTCATTCCTTTTATATCTACTATAACATATATTGAACTAAGTTTTATAGAGATCCGTTGAATGTTAAAAAGAATCTCTAATTATATGTGCAAATATAAGATAACTTTTTAAAGTCTTCAGTTTCTCTTTTTATTTATGGCATCAAAAAATCCAGTATCTGGAGCAAAAGATTTAGGTACACAAGCAGATGCCCAATTAAGGAAATCGCTAAATAGATTCGAATTATTATTCTTATCATTAGGTGGTGTAATAGGTTCAGGATGGTTATTCGGATCCTTATATACTGCAGGTTATGCTGGAGGTGCTGGAGTTCTTTCATGGATAATAGCTGGTGTACTAATAATATTCGTAGGGCTAGTTTATTCTGAAATAGCTTCAGCAATACCGAAATCTGGAGGAATTGTAAGATATCCTCACTATAGTCATGGGGGAGTAGTAGGATTTATAATTGCGTGGGCTTATTTCCTTTCTGCAGCTTCAGTACCTGCAATAGAATCCACGGCAACTGTTACTTATTTAAGCTATTTTATTCCTAGTTTAACGTATCCTAATGGCGTTCTAACTGTGGAAGGTATAGGATTAGCTTACGTTTTGCTAATACTATTCTTTCTCCTTAATTATGCAGGCGTTAATATTCTTGGTAAAGTAACTCATTTTGCTGGATGGTGGAAGTTAATTATACCAGGCTTGACAGTGATTCTAGCATTAGTTTTCCTTTATCATCCGGCTAATTTTACAATGGGAGGAGGATTTTTCCCAGCAGCAAGTAATCTAGCCGAAGGATTCTCAGGATTTTCTACGGTTCTTTATGCTATACCCACTACTGGAGTAATATTTTCCTATTTAGGATTTAGACAAGCTATAGAATATGGCGGAGAAGGAAAGAATCCAAGAAAAGATATTCCGTTCGCAGTAATAGGTGCTCTAGCTATAGGAATAGTTCTTTATACATTACTTCAAGTAGCTTTCACTGGCGGGGTCAATTGGACTGCTGCTGCAGTAACGCCAGGTAATTGGACTGGACTATTAGATTCTAATGTAAGTCATGGTCCGTTCTTATATTTATTTGAACATTCAGGAGTAGTAGGTCCAATATTAGGCTTATTCGGAATATGGGCATTAATACTCTTAATAGACGCAGTTATTTCTCCAGCAGGAACTGGTTGGATATATATAGGAACTGCCGGTAGAACAGTTTATGGTTTCGCTTCAAATGGATATCTGCCATCTTTATTCCTTAAAGTAGGAAAAACAAGAGTTCCAGTATTCTCCTTAATAGCAGCCCTAGCTATTGGTATGCTCTTCTTATTGCCGTTTCCAGCATGGGTAGCGTTAGTAGGTTTCATATCCTCTGCTACGGTGTTTACATATATAATGGGAGGTATAGGTTTGCATACTCTTAGGAATGTTGCTCCAGATTTACCAAGAAGATATAAAGTTCCATCCCACCTTATAATAGCTCCAATAGCTACCTTAGCAGCAGGTTTGATAGTTTACTGGTCAGGTTTTGCTACATTATTTTATGTTGTTACTGCAATATTCTTAGGATTACCACTATTTTTCGGATTTTATGCATATAAAGCCTACAGAATGAATATAACATTAGCTACAATATTAGGAGTTGTAGATTTAGGTATAACAATAGCCTCTGCTTTCTTCTTCGATATTGCTACCTCTGGTCTAAGTGTTGCGAATAACATAGCATTCCTATTATATATGTTACTTATGATAGCGTTAGTAGGATTCAATTTAATTGTATTATGGACAAGTGTAAATGACGACGTTAAAAGAGAGATAAAGGCTAGTTATTGGCTTGTAGCGTTAATATTTGCAATAATAGCGCTATCGTATTTTGGAGGATTCGGTCTCGACGTAGTTATTCCGTTCCCTTGGGATACTTTAGTTGCTGGAGCAGTTATACTTGGATTTCACTTCTTAGCAGTAAAAAGCGGTTTAAGGACAGAAGCAATAGACGAAATAATAAATCAAACTAAAGAACCATGATTTTTTAATCTTTTATTTTTCTTTTTTTCTATGCCATGTAAAGGAATACACGCAATATCATCTGGTCCTGTAGAGTTTCCAGAACTAGTTTACTCCTTCGTCATATGTGATGATAAAACTGTAATGATCGATTCTGGAGTTTCAAATAGTGTAATGGATATTAGCTTTTTAGATAAACTAGACTATTTAGTACTGACTCATATTCATGTGGATCATGTAGGAGGAGTTTCTGAATTAGTTCAAAGGTATAAGCCTAAGATAATACTGTATGAGGGATTTTCAAAGTATTTAGAAGATACTACACATCTTAATGCAAGCGCTAGAAATGTATTAGGGGATTTATTAGATATTTACGGTGAAGTTGATCCAGTTAAGGGGGGAGAATTTCTTGAAGTTAAGGGCGGAGAAGAATTGAAATTAGGGAAATATACTATGAAAATATATTATACTCCAGGTCATGCAAAACATCATATATCTATCCTTATAGACGATATACTATATTCTGGGGATTCTGTTGGTGGTAGATATAATGGAATACCTTTTCCTACTACTCCTCCACCGCTTGATTACGATAAGTATATTGAGAGCTTGAGATTACAAATATCTTTAAATCCTAGAATGGTTGGCCTTTCACATGGAGGTTTTGTATCTTCAAATCATATGGAAGAACATCTTAATCAACTCATAAAAGGCGATTATAGAGTGAATATCGATCTAGGCGGAACTGCAGGAGAACTATTAAATAAATTATTAGAAATAAATTATAGTGGGATAGCTAAAAGTCAAAACGCAAAATGATAAAAGTCCTCTAGCTAAGTGTATATAGGGATTATGAAATACACAGAAGCTGCACCTAGACTTTTTATGAATACAGGAACTAAATTTCCTAGAAAAATTATATGGTCCATGGGTCTAGTAAAATTAGCTTGTGCTAGAGTTAATACCAGTTTAGGATATTTAGATAAAGAAATAGGCGATGCTATAGAAAAGGCATCTTGGGAAGTTATGGATGGTCTACATGATAGTAAAGTAATTCTTGATGTTTTTCAAACTGGTTCTGGAACTGGACTTAATATGAATATAAACGAAATTATAGCTGAAAGAGCATCGGAGCTTTCTGGAAAAAAGATTCATCCTAACGACCATGTTAATTTAGGTCAGTCCTCTAATGATACCGTTCCGACTGCAATAAGAGTTGCAGCGGTTGCTAATGCAGTAGAAAAAGTTGTTCCAGCCTTAGAAAATATGGTATCTGTGTTAAATAGAAAGAGTGAAGAATATAACAATGTTATAAAGTCAGGACGTACTCATTTGAGGGATGCATTGCCTATAACTTTAGGTCAAGAGCTATCAGCATATCATGATGCTTTTTCTCATGAGATAGAAGAGATAAGAAGTATTTTAGAGTATGTTAAGGAGTTACCTATTGGTGGTAGCGCAGTTGGTACTGGATTAAATGCAGATCCAAGATTTCAAGAGATGGTTATACAAGAGATAAATAAGATAACTGCATATGGATTTAAGCCAGCAAATAAATTCCGAGCTATGAGGTTTCTTACTGATCTTCTTCTACTTAGTGGGAATATTAGAAATATCGCAGTTGAATTATATAGAGTAGGACAAGATTTTAGATTAATGTTTTCTGGTCCTTTTACCTCTATAGGTGAGATAGATTTACCTACGCAGGAAGAGATAGCTGGAAGTAGTATAATGCCAGGGAAGACAAATCCAGTGACAGTAGAAGCTTCACTGTTAGTTTCTGCACAAGTTGTTGGACTAGATCACGCAAATCAATTTGCTTCAATGTTAGGAGAATTTGAGTTAGCTATGGGTGTTCCGTTAATAGGATATAATATAGTTACAGAAGAAGACCTTATATCTGAAGCATTAAATAAGTTCTCAAATCTTGTTATTGAAGGAATGAAACCTAATGTTGAAAAAATGAGAAAATATGCTGAAAGTAGTCCTTCCTTAATTACTGTAATTTCTCCAGTAGTTGGTTATGATAAAGCTTCGCAAATAGGCAAGATGCTTAATAAAGGAATGTCTATAAGGGAAGCATTAAAAGAATTAGGTTTTAGCGACAATGATATTAATAAAATTCTTAAGTTAGACGAACTAGTTAAACCTGGTATTCATGCAAAGAAAGAGGGTTAAACTATGAGCTGGAAAATAACCAATTCGAAAGTGGACGCTAAATTAGACGTTAAATGTCTTATAGATGATATAGCTAACTCTCCAAAAATTAAAGAAATATGTGAAAGGAATGGTATTAGTACTGGGCATGCCAGTGAAATACATAGGTTAGTAAGTGATGTCATTATCAAGATCTTTAAAGAGAAAAGAATGAAACCTTCAGATATTCTCTTAAAATATTCTAAGTTGGCTGACGAGAAAACTCTAAAAGAATTGATTATAGAGATAGTCAAGGCAGCTAATAGTGTCGGTGAAATAAGTTATAAGGTAGGTAATTCTAGCCTCGAAGAAGAATTCTCCAAATTAGAATCTAGCCTGTAAAAACCACGCCTTTTTCTGTAACTTTTATATCTTTGCTTATTTGAACTAAGATTGATTTAGCTACAATTTCATTAAGGAAAACGTTAGCTGGTTCCAACTTATTTGATATCTTTACTACAACTTCTTCTGCAGTCATTTCATTCCCTTGTATTGCGTTCTTAATTTTTTCAACTAATTTATTATTATAATCTAGGTTAAAATTGAGAAGATCTTCGACTTTTCTTTTATCAGTATATACTGGACCATGAGAAACGAAAACGTAGTCAACACTTTTTATCAATTCTTTTAATTTTTCTAAGCTTTCCATAGCCTTCCAGAAATCAGTATAAAAAGGAAAAACAAAAGATTCTAGGACTCTTTGTCCAAAAAATGCATCACCGCAATAAAGTACGTTATCGATCAAAAAAGCCGAATGTCCTGGAGTATGGCCTGGTAACTTTATAACTTCGACTTCAGGATCTGAAAAATTCTCATTTAAATTATCCTTTATTAAGTCGTAAATGAATAGCTTAGAATCAGGAGAACTAAATCCATACGTCATTGCCCTCCTTCCTATAATGTTTAATGTCCAAAAATCTTCCTTAGGAATAAATTTCTTTTCAGATTTTTTGAATAATCCAGCTATATGATCCATGTGTCCATGTGTAGCCAACTGTATTTCTGAATTAATATTTAAAGAAGCGTTTTTACCTCCTTGATCTATTACTATTCTTCCATCATAAACTAGAGTATTTGGACTTCCATTTATAATCTCAATTTTTCCAAGTTTCATATAGGATAGAAGTTAAATATAGTTAAAAAAGAGTTTTGATTTGAATAAAATATTTTGATTTTGAACAAAATCATTTCTCTTTATTCGTTTTATTTTTAGCTTCTAATAGTTCTTCCTCAACTATGTTAACTCTCCTACCTGCATTCTTTAGAACTTGTGGTTTAGACTTTTTGATCCAATATGCATATACTGATGCTCCTGCTAGATATAGTGCTCCTGTAGCTACTGCTTCGGTTACTGGAAATACTGGAGGTATGATAGATTCATAAAGTACGAATGCAAATATCGCTGTAGCTATTCCTGGTAATACATAATGTTCTATTGGATGTATGATCTTATGGAATCCAAAATGTTTCTCCTTTAATCTTCCAAACAATGTCATTACAGAAGTATTCATCATTACATGTGCTACTACTAATCCGACTAACGCTATTGTTGTCAGATAATCAAATGCGTTTTCCAAAGCGTTAATTATTGCGCTTGATGTCGCAGGTAATGTGAGCATTTGAATTGGCGATATACCAGAGAAATATCCTATTATAAATCCAGCTAATATAGAGATAACTGATGATGAAATCGCAATAAATGCTAGCGCCTTAGTAGGAGTTATCCATTTTGGATGGACATATGCAAAGAATTTAGGTATTATACCATCTCTCGCCATTGCAAAGTATACTCTTCCAGCGTTAGACTGCATTGCAACGCTATCTGAAAACGCTGAATTAAACGCAAATAGAGCTAATAGTAATCCTCCTGCTAAACCCATATATTCTGCATAAACAACAATTCCAGGAATTCCATTACTAGCAAAGCTCACCATATTATCTACTCCCCAACCTACAGTTAATGAATAAGATACTTCTGTTAGTACTATTCCAACTACTAGAACTCCAAAGACTAGAGCTTTAGTTATTTGTTTACTACTTTTAGCTTCTTCTCCAAGTGGAGCGGATCCTCCATATCCTATGAAGCTAGTTATTCCGAATACCATTCCTAAACCTAATGCTGCTATTGGTCCTCCTACACTTGTAAATTTTGATCCATATACTGAATTCCATGCAAAAGGATTAAATACCTGGATTGTATTATCTGGAGCTTTCAATATTATAATCAAACTAGTTATTGCTAAAAACGCTACTTCAGTTAATGCAGCATATCTAATATACTTCATTTGTGGTCTTATACCTAGCATCGAAAGTACTATAGGCACAACAATGAATGTTATTATAAATGGTATCCATATCCAGCCTGGTAAGCTGATTCCCCAGAAGTAATTTAATACTCCAGGTAAAACTACACCGGCTACATAGATGGGTATAGCTGATGTACTGACTACCTGGTATAAGACGTAAATTAAACCTACTACTATTGCAGGAGTAGGACCAAAAGCTGTAGCAACATATCCATAGTACCCACCAGCACTAGCATGTCTCTTAGATAAATGATAAAGAGTATTCACTTCTAAGTACATCGTAGCCATAGCTAAAAGAAAGGCTAACGGTGTTAATACAAAAGCGAAAGCAGCTGCAGACGTTATAAAAGCTACAGTATCGCAAGCAGGGGCCATAGCAGCTATTTCTTGACCTATTGCTTCTAAAGTTCCAACGACTCCTCTTCTTAATCTAGGTACAGTAACTGAACTTTTCTCGTTACTCATAAATTGTCACTCATAAATTAGGGGAACCCAAATAGTATATAAATCTTTCTGTCAAACGAGGTTAAAAAAGCTAAGTATAGTATTTTTTGCAATATGTAACTATTTCGTAATAATCAATATATACGATATTAAGTTTTATTAATTCTAATAAATAGAATTATAGAGAGTATTATTGAAATTAAACTAGAAAACTCAATGGCAATGGTTATATTTCTTATTATTGATGTAATAGCATAGCCTATTGTCCAACCTAGCGATTGCGTAAAATTTATTGAAGCAAAATCTTCTACAGACCTAGAGTTAGAAAATATTTCTAATGTAACAGGAATGATGACTTCCCAAAATCCGTAAAAAATTGCGAAATAAGGAGATATTATACTTAATCCTTCAATGGAAAACAAAAGAATGGAAAGCGGTAGGAGTTTCTTTGTAAAGAAGAAGGACGATACTATAGAGAACATCATTCCGATGAATTCTGCTATAGATGCCAATATTCCTATTTCTGTATCTGAAAAGGAGAATAATAGTTTTATTTCTAGGAAAATAAACTCCATAGAAATTGCTATTGGTATTATAATGAGTAATATTATTGGTGATATTCTAATTTTTGAATTTCCTCCTTTTACATTATTTTCTTTTAATATTGGAAAAACGGAAAATAGCACAAATAATCCTGAAATAAGGAATAGTATTTTATATCCGAAATAGCTAGCTATAATACCTCCTAAGAAAGGAGAAATTATTGATGGAGAGACCGATATTCCCCATATTCTCTCTATAGTACCGTCTCCTATTGATTTAAAAACTACATAATAGCTAGGTAAAGAAAAATAGAAAAAGTAATACGTAGTTAAGGACGCTATAGCCTCATATATATTTCTTGAGAATCCTAATAAGAATAGTCCTAAACTAGAAATTATCATACCTATTATTATAGTTTTTGTAGATCCAATTTTCTTGTGTGAAATCATTCCTAAAATTGGGAAAGGCAATGAAGATAATTGACTAATGAAATATATTTCTGGAATGCTTGAAGGAGAAGTAATTTTTGCAAGGAAAATAGACAAGAATGGTAAATATAAGTAAAATCCTATTCCCCACAGCAACCAACTAACGGTAAATGCTAAACCTCTCATTTCTTTTAAGTTGATATTTTCTTCCTTTAAAGTAAACCCAAATTTTTATATATTAAGGTAACCCTAAATATAACTATAAAGTTCAGGAATAACTGTGAAAAATAATTAAATAATGGTGAATGTGAGATGTTTGTTAATTACAATATAGGAAATATTTTAGAGACCTCGGTTTTAAACGTAAGATATTTGCGTAATATAAATAGATTATCTAAATATAAAAGAAAGCAGTTAGAAAATAAGCTGATTTTGCTAGAAAAGATAGAAGGTTTAATTCCATTAGTTGTAATTAAGGATGAACCTATGATTTTTGTTATTAACTGTAAGGAAAAAAGATCAGATATTATATGTATGGATAGTTTAACAAATACTCAAACAAATAAAATATTCAAAAGTTTAAATCTCTAATTTATTTATTTCTGGCAAAACTTTTGAATATATTTGAATACTTTTGTTTAATTCATTTTTATTCAACGTTAATCTATGTCTATAAATCCCTATTATTTTTTCCATTACGTTTACGGAATAATATTTTGACAATTGAGAAATTATTCTAGCGGAATTTTTAGGATCTTCTTTGATAATATTTATTCCTTCTTTATATGCTTTTAGAACGTTATCAATTTCTTTTGAATTAGAATATATCATACATGATGCTGCTCTTGCGTTTAATTTTCCAACTTCTTCTTCAAAACTCTCTCCTATTTTAACTTCTATTCCTACTAAGGCTAAATTGCCTTTTTCTGCTTCATTTAGAGCATTCTCTGCAGTAGTGTTTATAACTTCCTTATTAGTCAATATAGCAAGTAATCTAGCATTATAGTCTGCTAAAGTTCCTTTTCTTATTGTAAATATTTTGTTAGAATTTTTATTCCCTATTAATGAGTACATGTCTATGAATACTCCTGCTACTAACTTATAATTCAAGTTAAGTTTAGGTAAGTTAGTAATAGAATCTAGTATTACATCTCCTATCTCTTGGGTCTCACAGGAGTTTTTTATCTCAAAGTCTAATTTACCATTTTCTTTTGCTACGAGTGTAGGAAAAGATACTGGTCCAGCAAATGGTGCAGTTACGAGCATAGAGTTAAATTGTATTCATCGATTATAAACTATAATTTTAGTGTTGTAATAGCTGATATTATATTAATCTTAAATAAATGACTTTTATTTCTTTTATCGTCTGCAGATCCAAATCCGTGTATTGATGGAAAATTAGAGAATTTTGATGCTATTTCCTTTTCTTCCATATTTAACACTAGAACTGCAATGGGGGTACAAATATCTGATAAGTAATCTATATGCCAATGAAAATTTTCCTTCTCTTTCCTCATATGTCTAGATATTCTTTTATCACAGTAATTACCACAAGAACCTACGTAAGCGTAATTTCCATCATCTATAATGAATTCTTTTCCTTTAGTTTTTATTTTGCCCTTTTTACAATTTAAAAAAACTATGTATCCTTTCATTAAAAGATATAGATTATTCTTCTATATAAGTCGATAACTTGGGTAATTTTAAAATGTTTAGGAATATATTTCAACTAAAATATAGGAAAATTTTTTAGTATAGTTTTTATGATAAGTTAAATAAGTGATAATATGGTAGTTGAATCGAATTGTGAAATACCGGAAGATCTTCTCTATTATATAGAAGGTAAAAATACTGTTTGGGCAAAACAAGACGGAGATTTATTAATAGTTGGTATAACAGACGTAGCTCAAACAATGGCAGGAAAAATTGTAAAGGTGAGAATAAAGAAAAAAGGGATAAAGGTAGAGAAAGGAAAACCAGTAGCTACAATGGAAAGTGGTAAGTGGGCCGGTCCAGTTCCTGCTCCAGTTTCTGGAGAGATAGTAGAATCAAATACCGAGGCAGAAAAGAATCCAGTTTTAATAAATCAAGATCCTTACGGGAAAGGATGGCTTGTAAAAATGAAACCTTCTAATCCAGAAGACTTAAAACAGTTATTCGCAGGTGCGCAAGCAGTACAAAAATTAAAGGATCTAATAGCTAGCGAGAAGATCTCATGTAAGAGGCTTTAAAATGAGCTGGCGTTTTTCAGAATTACCTCCCCAAGACGGATATCATATGGTGACTTCTTTCGTATCAGTCGCAGATTATGTAAGTAGGGGAGGTAAAAATACATTGATGCTTTTTTATTCTAAAGAACCGTTTGTAAATGTAGGAGTTCACCAAGAGGTATGGTTAGAAGTAGATTTAGATTACACTAAGTCTCACAATATTCCCGTTGTGAGGAGAGACTTAGGAGGAGGAACAGTAGTTATTACTCCTGGAGAGCATGATTATTTTCTTGTAATTAATCAGAATGAGGTTCCAGGCGAACCTAGTAAGTTATATTCTAAATATCTTTCTCCAATTGTTGACGTTTTGAAAGATTATGGTATAAATGCTACGCTTAGAGATCAAGACATTGTAGTAAACGGTAAAAAAATAAGTGGAAACGGTGCAATGACTTATGAAAAGGCCGTAGTTATTACAGGGAATATCTTGCTCAGCCTTGATGTGGATCTTATAAGTAAATGCATTAGAGTTCCAAGCGAGAAATTTAGAGACAAGATGGCTAAAGATATGAGGGATTGGTTAACATCACTAGAGAATGAACTTGGTTATACTCCTTCTAGAGAGGAACTAAATAGAAAAATAAAGGAGAAATATGAGAGTGAACTTGGAATAAAATTTGAGAGTTCTCAGCTAACTCCAGAAGAGATAGAACTTTGGAATAAACTTGCAGAGGAAAAAAGAAACGAAGAATGGACATATTATAGAGATAATAGGCATCCAGATCTAAGGACTGAAAGATGCGTAAAGATCTCTTCCTCTGTTGCTCTATGTCATCTAGATTATAAAGCTAGAAAATTATTAAGAATAACTATTAAAATAGTAAATAAGAAACTTCAAGAAGTTTCAATTTCTGGAGATTTCTTTATAATGTCTCCTAACGGGTTCTTAGATTATTTAGAAGATAAATTAACTGGAATTGATCCTAATGAAATTTCTAAAAAAATTGATGAAGTATTTACTGAGAAAAAACCAGTTATATTTGGTTTTACTAAAGAAGATTTAGAAATAGCATTTCAGAAAATTATTGAAAAACCAGAAATTCAAGAAGTCATATAGAAAGAACTGCTAATATTTCTCTTTCGCTTACGCTTCCTAACAGGCTTCTGCTATCAACTACCGGTAAGAGTCCTATATTTTTCTCTGCCATCAGAAATCTAGCAGTTTCTATTGTAGAATCTGGAGTTACTCTATAAACTTCAATTGTCATGAAATCTTTGGCTTGAAGGTTCTTCATATTTCTTCCACTAGCTAACGGTCTCGCTATATCTCTAACTGAAAGTATACCTCCAGGTAAATTATCCTTAATAATTACTGCGTGTCTTTTGAATTTTTGTTTCATAACTTCAATTATTTCATCTAATGTTGAGTCTGGAGATGCAATTATAGGTGAAATATCCATTATATCTCCAACATTGCCGTTTATATTTACCTTACAGTATCTTATTAAATCTCTCTCTGTTATTATACCTTGTATATTAGTTCCGTCTCCTACTAGTAAAGATCCGACTCCTTTTGCTGTTACTACTTTGCAAGCTTCTTTTAAATCATCTTCTGGATTAACGAAGATAAGATCTTTGCTAGATATTTCTTCTACTGGCATGTCTGGATTTTGCCAATTATATACAAGGTCTCTAATAGTAACTATTCCATCTCCTACTACTAGCCTTCTTATGTTATTATATAGCATGATCTTTGCAGCGTCTTTTATTTTAGTATTAGGATCAGCCTTTATTACGTTCGTACTCATAATTTCCTTTACTTTCATTTTAAATCACGGTTTAACAAAGTTTAATGATTTACACTTTGAAATACATTCATCTATATTTATATATCTCCATTGTGAAGACGGCTTAAAACATTCTGCTACACAAGGGTCTGAAATTTCTGACATTCTATCACCTAAGATAATTTAGAGATTATTGAAGAAAAAAATCTTTACGTTTAATTTTTAATTAAAATATAGGTGTAACTCTGTTGAAAGAAAAAGTAGGTGTTCTTGAATTGGAAGTTAAAGCAGTGATGGAACTGGAAGGCAATGAATATAAAGTTGTAGACGTACCTAGTGCCGATGAATATAAAGGATTCCCTCCATCGTGGGAATTTGTTAAGTCTAATATGCTTAGCTGGAGACCTTATTTTAAAGGAAAGATGATAGAAATAAATAATCAATTAATTCCAGCAGTAGGTAATTATCTTCTGAACATGGATGAGGAAATGTATAATTTTGTTTTAGGTATATATAATACTTTTAAAGTAAATAAACCATCAATAGAGACTAATATAAGCGTTGTAATAACAGATCAGATTAATGAAATTGAAAGAAAATTAGGTAGAAGTCTTAATGAGGAGGAGAAAACTAGATATTATATAAGATACGCAATAGAAGCCGCTATATTAAAGGACGTAGGTCTATTAAATTAGGTGAATTAGTAATGATGACCTTCACAGTAGAAGGAAAATTAGATGGAGATGTAGTAAAAAGTTGTGTTAATGGTACTGAAGTTACAATAGGTCTTTTTGGATCGGATTATCCTACGCCAGAAGAGATGCTGTTAGCTTCTGCTTTATCATGTATGCTTCTTACGATATATTATGTAGCTAAAGAAAAGAATGTAGAAATAGAAGAAGCTAATGGCTATATAGAGGGTACTATGGATCCTAGAGGATTCCAAGGAGATCCTACTGTTCCGCCTGGTTTACTTGAAGTTAATTACGATATTACTGTAAAAAGTAAAGATCCTAAAATAAATGAAGTAATAGAATTAGCTAATAAACGGTGTCCTTTAAAAGATACTTTAACACGGTCTATTAAGATTAATATAAAATGGAATATAAGCTAACTTTATAAATTAAATTATTAAAAAATTTTGATGATAAACAATGTCTGAGGAACTAATGAAACCAGGAGAAAGACAGCTTACTGAGATAAGAAGCTATCTTTTTGATTTACTGGATAAAGTTAATTCTCTAGCTGAGGAAAATAGAGTTTTATTATCTAATAAAGGTTTAGAAAGTAAACTTAGCATAGCGTTGGAGCTTATTACAATGCATAGATATGATTTAGATATAGTGATGAAGAATTATTGGAATTCGTTTAAAGAGATAATAAGTGAACTAAGTAATATAACAGAATTAAAGGATAAACTTAATGACATTTTGGAAGATGTGAATCAGATAGAAGAGTTAAGAAAAGAAGCAGGATTTTAGTAAGTGTTATATTTTACAAATCTTTTTGTCATTAGAAGTAACATGATAGAAATAAAGTTCTTTCATGACGTGCTTTGTCCTTTTTGCTTCCTGACATCAATGAGATTAAAAAATATTGTAAAAGATTATCAAGATCTCAAGATAAAGCACAAAGCGTTTATGATGATATCTTCTCTAGAGGATTTGAAAGCTATAGCTCCAACAGAGGCTGATGCTAGAGAAGTTTTTAAAAACGAATTTAATATATTAACCAGATACCTAAAAGATTACGATCCCGATAAACCTATATCTAAAGGAAAGATAGGTTATGTTTGGTCTCTTCCTCCTTTAATGGCATGTAAGGCAGCGGAGTTTCAAAAAGGTGATGAAGGACATTGGGATTATTTTAGTAAAGCTCAAGAAAAATTCTTTATAGAAGGAGAAGATGTAACAAACGATGATGTGTTAATTAGTATAGCTAAGGAAGTTAATCTTGATGTAGAGAAATTTATTCAAGATTTTAAATCAAAGAAAGCCAAATTAGCTGTAATACAAGACGAAGAAGAAGCAAAGGCCATGGGTATAAGAGGAGTTCCGGCTCTTCTCATTAATGATAAATGGCTTATAAGAGGTTTGCAATCTGAGGAATATTTAAGAAAAGTTATCGAAGACTTAGAAAAAAATGGAGAACCTAAAAACGTTGAACTAAAAGCTTATTGGGAACAATGAAGAGAATATACCACCATGGTATCTGTAAAAGAATATATGACTACTCCTGTATTTCAAGTAGAAAGTAATACATCACTCCAAGAAGTATGCAAACTAATGATGGAAAGAGGCGTAGGGTCAGTAATAGTAACTGAAAATGGAGAACCGAAGGGAATATTCACAGATAGGGATGCTGTAAAAGCTCTTGCGCAAGGATTTTCTCCGTCAGACGACGTAAAACTAGCTTCTACATGGGGAGATCTAGAAATCGTAGATCTTAACACTGACGTTATGGTAGCTATTCAAACTATGACAAAAAGAAAAATAAGACATCTACCAGTTAAAGATTCTGAAGGGAAGATAATAGGAATGTTTTCAATAATGGATGCATCAAAAGCAGTACAAGATCTGAATAGATAAAAATATTTATAATAAGATAGATAATTTTTTACTGTGAGATTAACGCTTTTAATGAAGGGCAATGCTTTATCTTCATTGTGGAATGCGGAAAAGATAGTTTCGATAGATGGAGATTATGAAGAAATAAATACAGGATTAAACAGGAGTTCATTATTAAAATATTCAAATTTTATAATAGGTAACTCTTTTCTATATGGTGAAAGGAATCTTTTATCGTTAACGGCTGATTACGTAATAGATGGAAACAAAATAATTAGATCAGAGAATCTATTTGAAAACTTTCCAAGTATAAAATTTAAAGGTAAGACTGTAACTGTAGGTTTTTGCCCTGAGATAGGTGAAATAGCATGTATATCTACCTTGCATCAACATAACTCTTTACAAGCTATATATCCTCTCCCTTTTAGAGATTCTTCAATAGACGAGATACTATTTTACGAAGTATTAGATTATGATATAATGAGAGAAGCTAATAGAATACTCAAAATAGGCGGTAGAGTTTACCTTATAATAAGGGATCAGGTCTTTGGAGGAATAGATCCTAGAGATTCTTTGAAATTTTTATTAAAATTTTATATAGAAAGTGCGCAAATAAAAGATAATTTCTGGATAATAAAAGCCAAAAAGATTAGAAACTAATTTGGTAAACTCTAAGCAGTTTTTTCAGGAGTTTATGCAAATATATTATTATATTAGAAGTAAAGAATAAATAAGGTGTGAAAATGATTCTTGATATTAACGAGGCTGTAAAATTACTCAAGAATGGAGATACTATAACGATAAGTGGAATGTCTATACATAGAAATCCTATGGCATTTATTTATGCTTTAGTAAATAGTAATGTAAGAAATTTAAACTTCGTGGATAGAGAGCCAGGTCTAGGTCTGGAAGTTCTTCTGAAATATAATGTAGTATCAAAAGTTAGGGTAGCTATGGCAACTTTAGAATGGTTTGGTATGCTTCCTAATTTTAGGGAGAAAATTGAAAAAGGCGAGATAAGTATTCTTGAAGATACTTGCGGTGCCTTTATGGCAGGAATAAGGGCAGGAGCATTTGGAATTCCATTTATGCCGGTTAGAGGAGTCTTAGGTTCTAGTCTAGTTTCTCTTCATGAAAAAGAAGGTACATGGAAAGTGTCAGAAGATCCTTTTTCTGGGGAGAAAATTGTTCTCGTTAAGGCAATAGTTCCAGACGTTGCAATAATACATGTCAATAAAGCAGATGAAGAAGGAAATAGTGAAATTCAAGGTCCTCTTTATGAAGACGAATTTAAGGCAAAAGCTGCTAAAAAAGTAATAATAACTGCAGAGGAAATAGTTCCGAAAAGTTATTTTTATGGAAAAAGACCAACTATAAATTCTGAATACGTATCAGCAGTAGTTCATGCCCCAAAAGGAGCAGAACCTACTAGTATGTATCCGCTTTATGATGCCGACTATGAAAAAATTCTATCTATTCTAGGGCAAGCCTAAGTTCATAAGGATCCATATTTTTTATAAACTCTTCCTCATCTTTGTTTAGTTCTATAACTTGTGGATTTTCTGCCTTAACAGTAAATTCAGTATTATCATGAATTTCTTTCACACTACTAAAAGGATAAAGTCCAGTGATCTTCCATAACTTATTATCTCTATCATATTTTAAAACACCTAAATTTGTTACAATAACTACTTTATTATTTGAGAATTTTGCACTTCCAGTAACAAAATCAACTTTTTTTACTAATGATTTTTTAGAGTGTTTTAAATTCCATAAAATCACTTTTTTTACCAATGGCATTATATACGCTGTAGCTGCTCCTCCAGGTAATCTAACTTTAGGTTTAAAGTAGTCTCCAATTACTGAAAGATTAACGTTAGTTTCTTCATCTATCTGGACAGGACCTAAGAACATTACGTCCAGTAACCCCTTTTGTGCTAAATCAAAAGAGTCAACAGTGGTCATTACCGGAGATTCCTCTATAAAGAACGGACTTCCGGTAGATGGGGAGATCTCTATTCTTTTTGGATTATCTGCTTCTGCAACTCCTAAAATCCTTATTTTTCTTTTATATAGATCTCGTGCCATAAATGCAGCAATTACTGCAGGAATTGAATTGAGCCCAACGTAAACCTTTTCTCCATCTTCAAGCTCAAGAGAAATTGCCTTAATAACATAGTCAATTTTCATGATAGTTAAATCCTTAAACTATAAAATAAATGTTTATAGTATGGTAGTTTATAAATACCAGGATTACTTTATATCTGGAATAAATCATGTAGTTGAAGGATATTTTCAAGATATAGTATTCATTTATAAAAATGGAAATAACTGGAATGCTGTAAGTGCAGAGAAATTTAGAACTAATGATAAGGTATTAAATGAAATTAAAGATTTAGTAAAATTTGCTACGCATGTTGATGATCTTAAAAGCGCTATTAATGAATTGAAGAAAAAAGGTATAAATATAGAAGAAATTGATAGATATCCATTTCCAAGAAAGCTTATTGAGGGTAAGAAGAAGATTCAGGCTGAGTTTGACTGAAATACTTTTTTAGCCATTTTAATTACTTTTTCATTAGCTTTAAGCCATCTTGCTCCTTCTTCCAGGTTACTTTCTCCATCCCTTAGTAGTCTTAAGTATTTATCTGCGTTAGATTGATTTTCTATTATTGAATCCTCTAGGCTTTTTCCTTCTATCACATCTAAAATAATATTTACAATTTTATTAATTCTGTCAGGAACTCCAACTCTTGAACCTTTTAACTCTATTCTAACTTGTGGATAATTATAATGAAATTTTTCTGATAACTCTGTAGTAGCGTTCTTCCATCCAGTATTATCAAGAATTCCTCCAATAATGAATGTGTCAGTATTCCTTATAATGCTCTCATCAGCTACTACATCTCCATAGGGATTTAGTACAATAGTTTTACCTATTGGAGAAGCCTTATATCTTATCTTATTCTGTATCCCTAATTTTTCATGTAAATTGGGGGGAGGATGTTCTACTGAAATATTATAATCCCATAGATGTTTTCTAATGGTGGATATGGATAGCAATAGTTGTAATATTAATTTCTTCTTTTCCTTTTCTGAGTGTTTATCCCAGAATCCCATGTCTATTATAAAAAGTGGAGTTTTAGGAAAATTGTCGAGAATATCTTTCCCATTCTTAGCTAGAGAAAAATTACTTTTTTCCTTTCCTTTTCCTTTCAGAATCTTTATTCCGCATTCTTCGTCAGCTAAAAATCCGTAAAAATCTCCTTTTACTATTCCTAAATCCTTTAATAAAATGTCTACTGCAATTTTCTGTAAAAATGGCCTTTTATTTGCATTATAATATATAGAATTTATACCTTGATCCAATAGATTTTTGGCAAGTATTTTTCCTAATATCATTGCCTCATCTTTCTGGTAGCAGCAGATAAATCAGTTTTTGCGTCTCCTGTCATTTTCTGCGTATATTCTATTAAGTCTTCTTTTCTAGTTTCTTCAGCAACTTGTTTTAGTTCTGTCATTATTTTAGTAGCTTCCTTACCTTTTTCTAGTGCTTCAGTATAATCTCTTAACAATTTATAATATTTTATTTCTGCATCAACTTCCTTGTTTAAGTTAGCGTTTACAACGTCTTCATTAGCCCTTTTTAAAACTACAGAATATGAAAGAGACTTATTTTGCGATGTTACTGGATCATCGTAGTTTGCTATTATATTTACTGGGTAATCCTTATCTCCTGGTGGGACAGTTAAAATTCCATACACACTGATTAATCTATCTACTATAGGTATTTTAATTGGCATATCATAATTAAGTGGGGAAAATCCTTGAGGTACACTTATAGAAAGATTAAGTGCATGAACATTATTTGTTGTTTGCTCTTCAAAGAGTGTAGGTAACTGAGAAGGATCGTCTATATGATAAAAGATTCCTGAAGTTTTATCTGCTAACAGACTAAGGATAGTTTCGTTATAATCACTTCCTATTCCTATAGATATTATCTCCATATTTTTTGGAATATTCAGTTTTTCATAGTCTTTTATATTTCTTTTATCTATGGGTTTTCCATCTGTTAGTAAAATTACTTTTGTCGGTATAGGATTTTGCGAAGCCATAGCCATTATGAATGTTATTAGTTCGTAAAATCTAGTCGTAGCTCCAGATTCTTTATTGATATTTACTTTTATTCCAGTAGCTCCGCTGTACATTATCTTTGGATGATTTGAAAATTCGATAATAGTTACTGTATTTCCTTGCGGTAACGTTTCTAGTAATTTTTCAGCAGATTTTAATGCAATATCCAGGTTTCCATTTTTAACCATAGAAGGGCTATTATCAATAGCTATTATAAAATGAGTATTTTTTATCTTTGCCACAGATTCTGGTACAGCATAGATTATAAAGCCTATTTCAGTAGTTTTCTTATAATTAATAAAAGAATTTGAATACCTTATCTTTAATGAGATTGTCAAGTTTTCTATACCATTATACTATAACGTAGAAATCCTTAATAAGCTTTATATACAATATACAAAACATGACATGGAAATGCCCTATATGTGGATATGAAAATTCTGATGATGCTCTTTTTTGTGTTCAATGTGGCACAAAGAAGCCAGAAGTTCAATCAACAAATGAAACTCCAGAAGTAAAGCCTGAACAATCATTAGAGCAGCAATCAGCTATAGAGACTCCCCAGAATTCTCCACAAGCTAGCGAAAATCAACCATCAGAACAGCCTATTGAACAAGCGAATCAATCTGAGATAGCAGCTGTACCTCAAAATTTAGAACAGCCTCCACAAGAATCTCCACAACAATCACAATCCCAAACCGAAAATCCTTCTGTTGAAAGCCAGTCATCACAAATACAGGTTGAGAGCAAACCAGTTGAAACTGAAGTACAAACTACTGGGAAGTATTATATACAGTTCATAGCTACTTCTGCTTCAGCACTAAATAAAATGAAAGTTCCGTTAGATTTCGAAGTATTTGAAAATATATCCGTAGGCAGAAGTCCTGAAAATGTAATTGTAATACCAGATGCAGAAGTATCTAGAAGACATGCAATAATATCTCTAGAAAGAGGAAACTTATTTATAGAGGACCTTAACAGTACCAATGGAACATATGTCTACGATGGTAAAATGTTTCAGCCAATAAAAGGGAAAACAGAAATTCAGCCAAATTCCATAATTAAGCTTGGTAACAATACTATAATAAAAATTGTGAGAGAATGAGTTTGATGGAATATACTAAAATCGAAAATATTTTAGATTTAGTAAAGAAGTCTATTGATAAATTTGATTCAGAAGAATTATTATTAAATCTTCCAAGTGTAAAAAAGGCTGTTTTTGTTGGAGATACGCATGGAGCTGATTGTATAACAAAATATGTCTTTGAAAATTATTCAGACGCTGATCTTTTTGTATTTATTGGTGATTACGTTGATAGGGGACCTAATGGTATAGAAAATTTAGAAATATTATTAAAAAAACATCTTGAGGATCCAAATAAGGTAATATTATTAAGAGGAAATCATGAAAGCCCGCTAACCAATATGTATTATGGTTTTTTTAATGAGGTAAAGAAAAAACTCGGAAATGAGGAGTATTACTCATATTTTGTTGAAATGTTTTCTAGAATGCCTTATGCTGCTCTTTTTAATAACTATTTGATAGTTCATGGAGGAATAGCAAGACACCTAAATAAAGTAGAAGAAATTAAGGGTCTTCCAAAACCAGATAAGAATCCAGATAATGAGATAGCCTTTGAGATACTTTGGAACGATCCTAGAGAGGAATTAGATGGATTTGTACCCAATATAAGAGGGGAAGGAACGTATTTTTATGGCAGGGATGTTACAGAAAAATTTCTTGAGGATAATAGCTTAAATGGGATAATAAGGGCTCATGAGGTAGCAGATGGATTTAGAGAAGACATTATAAATTCTGAAAAGGGCTTAAAAGTTATAACCGTATTCTCAAGCGCTTATCATGGCATGAGAGCCGGTGCTTTAGTCTGGAATGAAGAAAAAAAGAGTTTTAACTATGAATATATACCATATTAGGTGATAAAAATGACCATTTCTATGCGTGTAGAAACTAGTCACAAATATTCATTTAATGCCAACGTTAAGATGATATTTAAAATTCTTTTAGTGCCAGAAAAAGTTTCTGTAGCTTCAGGATTTCATTATATCATATTGCTAGATACTAGCGGATCTATGGAAGGAATGAAACTGGATAGTGCAAAGACAGGAGCTATAGAACTATTTAAAAGAATTCCAGAAGGAAATAAAGTCACTTTTATTACATTCTCCTCACATGTTAACGTAATTAAGGAATTTACCGATCCTCAAGATCTCTCTGAAGAAATTATATCCTTAAAAGCTGGTGGACAAACGGCTCTTTATACCGCATTACTTACAGCATTTAATCTAGCTAGAAAACACGAAATGCCAAGTTATATTGTTCTCCTTACTGACGGAAATCCCACAGATGAAACAGTTGAAGGTACATACAGAAAAATAGTAATCCCTGAAGGAATTCAAATTATCTCTTTTGGATTAGGAGAAGATTATAATGAGAGTATTTTAAAAATATTAGCTGATAGAACTAGTGGACAATTATATCATGTTGACGATCCTATGCAAATTCCAGAAAATTTACCTAAAGCCGCAAAGACTAAAATAGCTGGAAAAAATATTGTTATAGACATAATTTCAGAGGCTCCAGTAAAAATCTTAAATTATTCTGATCCTCCCATAAAGATTAATGCTCTAGAAGGCGTAGTCAAAATCTTAGGCGAAACTAATGTTCCACCAAACTATAATGGTAATTTTATGACAATAAAACTAAATTATGAAGATCCGTCATCTCAAAGACAACAAGCGTTGATGAGTATAGTCTCTTTAACACCTGCAAAAGATCAACAAACTTTTGTATCTGGAGTAAATAAGGATCTTACATTTGAATATGAATATTATAACGCATTGCAAAAATATTCTTCTGATGTAGAGGCAGGTAATTTAGTAGAGGCCACAAGAACTTTAGATAAAATGAATGAACTTGCCCAACAAACTAGAAGGATAGAATTGATTGAAACTACAAAAAGGCTTTCAAGTAGCCTGGAAACTACTAAAAGAATAGGTACAGTTGAACAAACTAAAAAGCTGTCAAAAGAAGTAACTAGTGAAGTTACTAGAAAACTTAGAGGAGAAAGCTAGCATAATCGACATCAATAGTATTAACCTTAATTTTCACTTTCTCAAATCCATTTATAATGCATGGTATATTGTTAATAGTTATAGAAGCCCATTCAGCCATAAAATCTTTAATGTTTGCAAGAAGTTCTTTTCTGTTTGAAGCTACTATTGGGACATCATGCATTATCAGTAGCTTACTTGGTTTGTTTTTAATTCCTAAAAATCTTAGTTCTGTAGTTATACCATAAGACATTTTTTTAGCTTTAATTCCTAAAACTATTTTATTACTACCAACTAAGGAATTAAGTTTTCCATCGACGTTAGACGTCAAAGAGTATTCATATCCCAATTGGATTTCATGACCTTTAAAGAAAGGTTTAGATAAGATAATTAATTCTCTAATTATTTTCTTATCTTCATTGAGAGAGATGAATGATGGATATTCGTCTCCAAAGCTACTGAGAAATCGTTTCTTAGTAACTATAAACCTAGTTTCAGGAGTAATGAGAGAATCAACATTAATCCCAAAGAGTCTCATGATTAAAATTTCGTTTTTTAAGTTAATTTGTCTTTCATTTAATTCTACTTTAATATGTTTGGTTTATGATATACTATTCTTTTTTGTTTAAACATTATCTCGAATAACAGCGTAATATAAAAGGGATATCTAAAATAAGTTATCATGCAAATTAAACAGATACATTATTTATTATTAACATTTTACACAGGAAAATAAATACTTTTTAAGGTATTAGACATTTATAAAAAATTACCATAAATATAATGATTTAATTAAGTATTATTACCTAATTTTAAAGGATATCATTTCTAAACTCAACGACGTATTTTTCTATATATCGATTTCCTTTTTATGCCCATTCATATTACTGCTAAAATGTATTATAGAAAAAATTATAAACTATGAGTGTAATATAATCACTGAGAAAAAATGACAGTCGAAGATATAGTAAAAGTAAGTAGAAACTATCAAGTCACAATACCAGCAAGAATTAGACAAAAATTCCAAATAAAAGAAGGAGATCTAGTAAAAGTAGTTTTTGATGATCAATCTAATTCAGTAAAGATAGTTCCTATAAAGCAGTAAAGTTATCAATAATTTTTTTAACTTCCTTTTGTAAATTTTCACTCAAGTTATTTTTTATTTTTTCAAATTCTTCCATGTCAATAACTTCCCTTTTTCCATCTCTCTCAACGATATCAATCTCCAGATCAACATATCTTATTTTACCTTTAAGAAGTTCTGGAGGAGTTGAAATGTTAATATATTTTCCCTTTAGTTTACCATCTTTAGAATAATAGTTATGAACTTCATACCATTTTGAAGAATCTATCTCCATTATATCGTAATCTCCTTCTTCTTTTAGGACATTAAGACCATCATAAACTCCATTTGGAGAAATTTCTCTTCTTAGCAAAATTTTATATCCATCTTCTGTGACTTCTTTTTTAATCACCTTTCCTCCTCTTAGTCTTATTGCTTTTTTATTGACTTTTACGTGGTCTATTCCCATGAAGTCTTTTATTAGTTCATTTAGCATATCTATAACATTTCTTTCATCTACGTCAGAAAAACTAAGTTTTAACATATGATGAAACTTTTGCGTCTTTATTACTTTACTTCTTATACTGTCTAAGAATATCTTATCTTGTAATGAAGGTATTATTAAATAGAAATCTTCTCCTTGGTTAAACGTGTTAGTATCATAATTCATAATTAATCTTTCTATTTCTGCTTTCAAATCAATATCTTGAGCATAATCTGCATTACTTCTCCACTTAATATTGTATCCTTTTTTATTAAATGGTAAACTTAACTTTAATAGCCTATTTTTATCATGAACATGTTCAGAAAAGTACGTCCTGCCATTTTCTCTCCAAACGAAAGCATATTTACCCACAGCTTTAGGTTTAGAAAGCAAGATTCTTCCTTCATATGGAGGTTTTATAACAAGCCCTTCATCAATACAAGGGTCAACTTCATAATTCATAAATTTACAATCCTCGGTCTTAATTACTGAATAGAGTTTTATAGGAGATTTCCAAATTACAGAATACTTGAAAATATTATGTAAAAAATCTCCTATATCTTTACCAATTACTATGATATTTCCATCTTCTGTATCTTTTATTGTAACGTCTGCAGGAAGTTCTCTTATATTTTCATTAAATCTTAACGCAATTTGAGGGCTTTGTTGAACTACATTAAAGTTTTCTTTAGCTAAATAAGTAAGAGCTGTAGCATAAATACCCCTAATCCTTATTTTTAAGTTGTTCGAAGACGAAATTTAAGATCCCTCCAGAGTTGATATATTTAACTTCAGCCTCAGTATCTATTCTAACTAACCCTTTGAATGTTTTTATTCCTTCTTCACTAATAATTTCTATCTTTGCCTCTGACTTAGGTTTAATGTCAAAATATAAATTGACCTTTTCATTTCCCTTTAAACCCATTTCCTTCCAGCTAACGCTTTCTATTGGTATAACTCCCATTGCAACCAGGTTACTTCTATGTATTCTTTCAAAACTTTCTGCTATTACTGCCCTTATTCCTAGTAATGCAGTAACTTTAGCTGCCCAGTCTCTGGAACTACCTGACCCATATTGCTTTCCAGCAAAAATTACTAATGGTATTCCTTCATTTTTATACATCATTGAAACTTCGTAGATTGAACCTTCTTTTCCATCAGGATAATGAACAGTATAGCCTCCGTCTCTATTTACCATGTAATTCTTGATTTTAGGATTCGAAAAACCACCTCTAAGCATTACTTCATGATTACCTCGCCTTGATCCAAATGTGTTTAACTCTTTAACCCCCAGAGAAATCAAGTATTTTCCTGCATCGGAATCGGGGGAAATAGGGCCAGCCGGAGATATATGATCAGTTGTTATTTTATCTCCAAGTAGCATTATGATCCTTGCGTTTCTTATTTCTGTAAACTTCTTCTTTTCCTTAAACCATGGTGGTTCAACTATGTAAGTGCTATTCTCCCATGAATAAGTTTCTGTACCGGAAATAGAAAGCTCATTCCAGTTTGCGTCTCCTTCAAATATTGTAGAATATTGTTCTTTAAAGAATCCCGGATTTAGAGCTAAATTCATGTATTCGCTTATCTCTTTCATTGAAGGCCATATATCCTTTAAATAAACTGGATTACCGTTAGGATCTAAGGCAATAGGTTTTTCTACATCCATATTTATTTTCCCAAAAATAGAATATGCTACAACTAATATTGGAGAAGTCAAGAAAGTACCTTTTAATAACTTATTTATTCTTCCCTCAAAGTTTCTGTTTCCACTTATTACAGCATATACTTCTATACCATTTTCTCTTACGTCTTCTTCAACATCTTTGGGTAGAGGTCCTGCATTACCTATGCATGTGGTACACCCAAATCCAACTATATGAAATCCTAGTGCTTCAAGATATGGTAAAAGTCTAGATTCTCTCAGATATTTTGCTACTACAGGCGATCCTGGGGCCATACTCGTTTTTACATAGCTTTTTGATCTTAATCCCAAAGATACTGCTTTTTTAGCTAGTATTCCAGCTCCTATCATTACAGTAGGATTAGAAGTGTTTGTACAGCTAGTTATAGCAGCTATTACTACACTTCCATCTTCTACAATTTTTCCTCTCTTTTTACCTATTTCAAAATTTTTCATATTACTTAAGGATATTCTTTCATCAGGATTTTTAGGACCTGCAAGAGAAGGTTCTACTTCACTAAGGTTTATTTCTATAACTTCATTATATTTAATTTGATTTTTACTATCATAGAAGAGTCCTTGTGCCTTAGCATATTTCTCTACAATTTCATAATATCTCCCAGTAGCCTTAAGGAATTTTATAGTTTGGTCATCTATTGGGAAGTAACCTACAGTAGCGCCATACTCTGGTGCCATATTTGATATTGTAGCTCTGTCTGGCACTGAAAGAGAAGAAATCGCAGGTCCAAAGAATTCAACAAATTTTCCAACTACACCTTTTTTCCTTAATTTCTCAGTAATAAAAAGCACTATGTCTGTAGGCGTTACGCCTTCTCTAATTTCTCCATCTAAATTTACACCAATAACTTGAGGTATTGTCATAAAGTAAGGTTCTCCAAGCATTACAGCTTCAGCTTCTAATCCTCCTACGCCCCATCCCAGAATACTTAGACCGTTTATCATCGTTGTATGAGAATCTGTCCCTATAACTATTTCTGGATAAGCTATTCCGTTTTTAACATCTATTACTTTACCTAGGTATTCCAAATTTACCTGATGTATTATACCTTTCCCTGGTGGTACTATTCGCAAATTTTCGAAAGATTTTTGAGCCCATTTTAGGAATTGATATCTCTCTTTATTTCTTTCGAATTCTTTTCTCATGTTTAATTCTAATGAATATTCAGTTCCATAATAGTCGACCTGAACCGAGTGATCTATAACTAGGTCAGACTGAATTTCAGGATTGACTATAGAAGGATTCTTCCCTATCCGTTGGAATTCAGATCTCATTGCTGCTAGATCTACCAAAAGGGGAACTCCAGTATAGTCCTGCATAATGACTCTTGTAGGAAGGAAAGCTAAATCTTTCCCTACTTCCCATTTAATAACTCTATCTAAATCTTCTTGTGAAGTTTTATTCCCTAAATTTCGCAGTACATTTTCTATTAATATTTTTGCTGAGTAAGGATAGTCATCTATTCCTAAATTTTTTATAGAATAAAGTGAAAAATCTCCTAAAGAAATTTTGTTTTGCATATTCATCATTCATATTTGAACCTTATAAACAATGATTTTGTAAAGGTTTTAATAAATCATTTTACTTATAAATAATTTATAAGTAATTATCTAATAAATTTTTAAATAATAATAACTAAAATTCCTAAAATTACATTATGCATATTTTATATTCTTCTAATAATTTTCTGTTATTATTTCGTCTAATCTCTTTGCCTCCTTCTTCATCTCTTTTACATATAAAGAGGAGGAGTTGTTCCATTCTTCTGGAGTATATGCAAAGAATTCTAATCCTGGTCTAATGTATTTACTTAACATTTCTAATCTTTTAGTGTATTTCATACCTTCAAAGTCTCTCGATATTATAACTAGATCTATATCGCTTTTATCTAAGTAATCTCCTCTGGCCCTAGAGCCAACAATATAAACATTCTCAATTCTTATTTCTTTTTTTACATCTTCAATGAATTCCTTAGCTCTTTTTATCATTTCTCTTTGACTATCTATTGCAGATTTCGCCTTACCCATGTTACCACCTTCTCTGATCTTCTTACCAGCTCTTCTGCATCTTCCTTAGAGTAAAGCTCTGCAGGTAGGCTATTTGCAACGTCTGGATATCTAGATATCGTATAATTGAACAGTTAACTTTCTCACATCATCTCTTATTTCATCAACAGATATAGAAGACTCAGTCTTAATGATATTTAAAAGTTCATTTAGATCATGACTACGAATAGTTTTTCCTAAGTTCAATAATAGTGATTTTAGAGCCTTTTCTGCAGCTTGTTGAGCCCAAAATACTGCTGCATAATAATGCCCAGTATTTATCGTATCTTTTGCAGTAGAAAGGTCTTCTATGGCTTGCTTAAACCATTTTTCGGCTTCTTCTCTCATTATTTAAAAATATGTAGCTAAATTAAAAATCTCATCTTCATTACGTATTATGCTCTACTCAAATTTGTAGAAAAAGATTGTTGATTATAAATAATAATTATAAAAAATAAATAAAAATACTAATCCTAACTAAATTAAAATCAATATTTCTAATTTTTATTTCTTTTTTCTGTATACTCTAGTTTTCCATTTCTAATGTGCACAATGGATTCAGCAGCGTTGATAGCTTCAGGATCATGAGAAGCGAAAATTACTGTCCCATCATATTGTTGAATTAACGAAAACACTTTTTTGGAATTATCTATATCTAGGTTAGAAGTCGGTTCATCAAGCAGAAGAACCTTGGCTCCAGAAGAGAGTGCTAATGATATTTTTAATAGTCTTCTTAGACCAGAAGATAATTGATAAACTTTAAGATTAGTGTTAATATTGAATGTATCTATTAAATCAAATAATTGGTCATTAAAATATCTTAAGGATTTAACGAAATCTATGAATTCTCTAACTGTAGCTCTCTCTATGAAGATTAGTAATTCTTCTAACATATAGACGTCGTTTTTCCTCATTTCTATATTAGGTTCTCTACCTAAAATCTTAATATATCCAGAATCTGGTCTTAAAATACCATAAATTAAATATAATATCGTAGTTTTACCTGCACCATTAGGTCCCAATAACAATGTTTTAGTATTTCTTTCTACTTCTATATTAATATCATATATTCCACGATCTTTCCCAAATGATTTTGTAACTTTATTTAGTTCTACGTCAATCAATATCCCTCACCTTTATATTTTTATATGGATCCTTATATACAGAATTTAGCGTATATAATTCTATTAATATTGATAACGGTATTATAAAAATTAGTTTGATGAGAACGTTTACATAGTTCATAAATGGAAAATAATAATAACTTACCGTTAAATATTCTATAACAAATGGAATTATAGAAATAAAAGAGAGTAGTAAAAATACTGGAACAAGCTTCTTAAAAGCATCTTTTACTTCAACTCCATTTATTATAAATAACCATAATATCTCTTTCATATTTTTTCGTTCTGAAAAGATATACCATACTGATACTAGTATTGAAACTAATGTTAATCCATTTATCCATTCTAATAAATCACTAATAATTGAGATATTAGGAACTATGCCGGAGATATCTATTCCGCTAGTTGTATTTATATATCTATTAGAATAAACAATTAATCCAGATGCAATATATTTTGAATAATTTAATGGGAGCACCAGAAAATTTCCCGAGTAAAAGTTCAAATACAGAATACCTGCAAATTTTATAGTTGTATTAATATTCTTTAAGGACTGTATATTTGCTCTTAAATCATGGCCTATTGGAGTTTTTATGTACTGTGCCATATTAGAAGCTACATATAGACCGTACTGTGGAAATTTTCCTTGAAAGATGTAATCTCTAAAATTAAACAGAATATTTAATTCTGAAAGATTATTTGTAAGATAAACATATACCGGAGTATTTAGATTATTTACTTTAACACATGCAGTACCGTATTCTATGTAGAACTTTGAGATATTCTCTATATATTTTGTATCATTGTTAATATTTATCATGTAAGTATTTTTTAAACTAAGTTCATGTATATCTCCTTCATAGCTTGTTACATATAATATCATAGAGCTCATAAAGAAAGATATTAGAAAAAGGATTACAATTAAAAATATAGATGTTTTCAATAAAGATTTTCTTAAGAAAAAATTTTTTATAATTAATGTACTCCTCAACTCGCATCACTTTTAGTTATATATACAGAACGCTTCATCATTGTACACATTTCCTAGAATGTTATGTGCCCATGGAGGAGTTTCTGGAGTGTTTATGGATTCTGCAACACCATAATCATACTGATATACTAGTTCATGGTTATCTGGTACAGACTGATGAATATACCATCCTACACAATCTCCACTATTAACACCAACGAATTTTATACAATCTACTTCTGCATAATACATTTGTGCTCCAAGCAGGCGAGCTTCACTTATCTTAGGATTTCCACTTATGTCTCCTTTCTCTCCAGTTATCTTAAAAACTGGCATTGTAACACCATTTAAGGAATAATTAGTTAGTACATCAAAGTGAATAGTAGTCAATCCAAATCCATCACAACCAAAATATTCTTGTCCTAATCCATTATTTGCTCCTCCTATAGAAACGGTATTACTATTCCATGCAAAATACGGATTGTATCCTACTGCCATTACAGGAATTGATGGTATGAAAAATACTAATACCATAAGTACTATTATTGTTGACAATATTATAATTCTTATATTATTTTTAACGATATTCAGATTCATACTCTCTAAAACATTTTCTTCAACCCAATATATATATAGGTTTAAATAAAATATTATTGTTAAAACTATTAACTAACGAAATAAAAGATTTTCAACTATATCGTAATTATAAGAAAAAACAGTTTAATATATCTATTTTATTTTTGGCGGTATTAGATAGTTCCATAAGTATTTGAAAAGATTAACGTTATTTTATGTCAAACAATTCTATTATTTATATGGATATAGCAGAACTTTGTGGACGAGTAAAATCTATAGGATATTTTGGTTCTTATACTCGGGAGGATTACATTGAAGGAGTTTCAGACATTAATGTGTTTGCAATAACTGAAGATAAATCATTACTTATAGAATTAGCTAGTAACGATTTCTCTCCTGTAGTTCTGAGCGAGAACGATTTACAAAAAATATGTTCAGAAGGTGAGCCATTATGCTACTATATAATCTTTGATTCTAAAGTAGTATGTGGGAGTATTAATGCTACTTTCATTAAGACACAAAAAACTTGTGAAAGATTAAAGAAACAAATAGTCTCTTTTCTTCAGATGAGTATTGAAGGATTCTTTAGAGGCGATCAGATTAGTTCTCTTTCAAACGCATACAAGAGTTTTAGGTCATTAATTCAGTGGAAATATTGTTTAACTCACGATATGATCCCATTAAGTAACAAAGATCTTGATAATGCATGTAAAGAGTTAAATATGCAATGTGCAACTTTCGACGACATTGTAAATTTAAGGAAAGTGAGAATGCCTATTACGTTGTGGAGTTTAAATAAAATATACAAGGAAATTAACTCACAGATACATATACCTTTTCCTTCTCCCATTAAAATAAACGAATTAACTAAGGGTAAATTAAGTAAAATTCTGTTAAATGATAAAGTATATCTTATTACGAATGAAGGGGATAGAATAGAAGTATAGTTTTTATACTAAACAAATACGTTATACAAAAAACATTGATTGAAGAAAGATTTATTACTATTATAGAGAATTTTCAATTATGTCCACAGAAGAAGTAAATAGAGATATGGAAAGAGCTGAGGAATATGAACAATTAACGCCTAGAACTACTGCACTTGGAGGAAATAAATTCGAGATTTCTACAGGTTTAATAATAGCAGCTAGATATGCGGATAAATTGAGAAGAGTTTCTTTAGTGTCGCTAAGTAAAATGGTACCAAAGGATATTATTATAAGAGATGTTTCAGAGCTTAATAAGAAACTTTACGATGAGATAATAAACAGAAAAATAGATAAGCTTAGCGTTATACGAATTACAGTAACTGCTCATTATGATGCTGATAAGAAGAAAATATTTTTTGATGATGTAAAAATTCAGAGATACTATACTGAAGATGAGTGTAAAAGGCAATATGAAGAAATTGCTAAAGAAAACGAAAAATTGAAATCCGAAATTTCTACAATAAGACAAAAGTTACAAGAGCTTTTAGCCGTAAATAACTTTTAACTTTGAGGATTAATGAGTGTTGAATCAGAACTAAAGTTAAAAATTTTTGTTTCAATTATTTTAACTATAATTTCTGAAATAGTAATAATTTCACTTATTGTAAGCATCTTAAGGTTGCCCTTATTTTTGATAGGTGTTTTCTTAGGTTTATTATGGTTAATACAATGGTTAATATCACCATATCTTGTAGCAAGGGATGCGTACGAGGTTACTCCTATAGATCCTTATTATAGTTGGGTTTATTCTATTGTTAAAAATGTATCGAGAAAAAGTAATATTAAAACACCTAGAATATTTATAGTAAATGAGCCTTTCCCTAATGCTTTTGCTTATGGAAATTATGTATCTGGAAAAAGAATAGGAATAACCAAGCCATTACTTTCCATATTAACTCCTGAAGAATTAGAAGCAGTTATAGGTCATGAAATAGGTCATATAAAGCATGCAGATGTTGAAATAGGTATGGCTATAGGTTTAGTTCCTTCAATAATCGGCTATCTAGGAATGCTTTTAATCAATACAGGTCTAATTTTCTTCCTTTTTATAGAGGATATTTCCGATATTATTTTTGCAATTATATTAATTTCGTTAGGATCCTTAATGTTAGCTATAACATTTTTTATTCAAATATTCGTCCTGTGGTTTAATAGATTGAGAGAGTCATATGCCGATATGTATTCTGTAAAAATCTTAGGGAAAAGGGCATATTATCTTGCTACCGCACTTGCCAAAATAGAAATATATATGAAAAATATTAGAATAGATCCATTTACTGGAATTATTGTAACTGCAACACCAGTTAAAGTTACGTCAAATGATCCAAATCTCCTTTTGGAAGAATGGTTACATAAAAAAATCTCACCTTTTTCTGATATATTTGATACTCATCCTCATCCAGCTAAAAGAGTTAAAATGATATTTGAGCTATTATCCCTTTACTAAGCCTATTACGAAACCAATTATGAAGGCTATAGAATTATACGGTAATAAAGAAACATATTTAGAAGCATAATCTTCTGCTTTGGTAGCATATACTCCTAAATCCATTAATCCGTGTTGAATACTAGATGGCGATATAGCTCCTATTGCAACTAGTATTATAATTATAGCAAGAATAACTATCCCTACTTTAACTATGTTTTTTACTAAATAACCTACTAATAACCCTAAAACGAAAGCTACTATTAGTGAAACTACGTCGCTAGTAGTTATTGAAGATAGCCCAACACTACTTACCATAATGTTCATATTGATAATATATAATTCTAGACAACCTTATAAGTTTACTTGAGAGGGTAAATTTATGAAAGTTCTTAAATATCACCTTAAGGCCAAAATACAAATTAAGGATAAAGAAGAGACCAAGGAACTTACATTTAGGCATCTCATAAATGTTAGGAAATTTATTAATGGCATGAGTAAAAAGTATGACGTTAAATGCTCTAAATTAAATTCTTCTGGAGATGTATATACTACTCAATGCGAAGGAGGAGATTCTACAAAACTATTTTTTGAGGTTAAAAAAGAACGAATAAAGAAACCTAAGGCAGAAAAGAAAGAGGAAAAGAAGGAAGCTAAAAAGGAAAAGAAAGAGGCTGAAAATAGGGAATATCAAGTAGAAAGCAAACCTGAACCGGCAAGCGAAACTAAGCGAGATACGGAAATGGCTCAAGAAAAGAAAGAAAAACAAGAAGAAACTAAAAAAGAAAACTCTTAACAAAAATCTACTTTTTTATATAAAATTTACGCTGGGATAGTCTGTACGTGAGATTGTAAATCTTTCTTTACAGTATCAACCAATTTATTCAAATCTTGTATTAATCTACCGTATAATTCTTCATTATTTACCCAGTATACATAGTTAGGTCTTCCTTTTTGCTTTGTTTGATCGACTACTTTGTCTCTATTTATTAATCCTTTGTAGAGTAGATTATTTATTGATTTACTTATTGATGCCTTAGTTACGTGTAAAGATCCTGCTAATTCATCAGTATCTAATTTCTTTCCTTTTGTCATGAGTAGATGTAGTACTTCAACGTCGCTCTTTGAAAGTCCGTACAGAAACGCTATTACCTCATGAATGTCTACTTCTCTACCATCTGGAAATCTTATTCTTTCTGACATTTTTAATCCTATTAACATAATGTGTTTTTTAACTTAAAAAAACTATACATTCTAATGTATAAAAAAATATACTTTTATGTACTTTAGCTAAGAAAACATCTTTACTTATTTGTGAACTTATGTATAAAAGTACATATTTATATAATTGACGTAGAACGGTGTTAAATTAACAGAGTTAAATATTTTCTCCTCTATTATATATATGCGATTTTTTTATCATGAAAAATAAGTAAAAAGTATGGAATGGAAAACTTATTGCGAAGAATCATATACGAAGGTAATTCCCTATTTAAGGACCGCTATAATAAAAACTCTAGTTAAGAAAGGGATTCCAGTAAAGAAAGCCGTAAAGATTGTAGGAATTTCTACTACTGCCTATGAAAGGCATGTTAACGATAAAAAAGTAAATATGATACTTCAAGATGAGGAACTTGGAGATATGATAGAAGGTGTAACAAGTAGATTATCTACAGGAGAAGTTGTAGAAGCTACTAGTTTCTGTATATTATGCTCAAAATCTAGGAAAGTTTTCGGACTTCAACCTTGTACCTAAATTTATTTTATTTTAAGTATTTTATAGTATATGAAGAATAAGGACATAGTGGCCTTTAGTAGCATTGCTTTCTTTTTGTCTTACTTTTCTAGATTAGCATGGAGTATACTATCTCCGTTTTCTAGCTTAAAGCCTACTATAGAAGATGATGGAATAATTTTTACCTTATTTTTTATAGGTTATGTATCAGTTCAGATACCTGCTGGTATACTTTCTGATAAAATTGGAACTAGGAAAATAATTTTTACCTCTTTATTGGGTATATTTATCTCTTCATTAATTTCTGGATTAGCAGTGAATATAATCCAAGAATTTATAGCCAGCTTTATCATGGGCTTATCTGCTGGCTGGATTTATCCAGTTACAATAAAAATGATTTCTAATTTTTTTAAAGGAAAGGAGCTTGCGATAGCTATGGGTTACTATAGTTTAGCATGGCCACTGTCTCTGGTTTTAGCTGGAGACGTACTTCCATTTGTAGGTACTTCAATAGGATGGCGTTGGGGATATTTTATAATATCGATAATATCTATATCTTCAGCATTATATTCATTAAAGATACCTTATGCTACTTCGCATAAGTCTTCAAGTTTTACTATTATTAGAGACAAAAGTGTTGTAATGATAGCTATAGGCGGATTTCTATTTTTTCTCTCATACTGGAGTATAGCTTTATTTCTTTACAAATATTTATTAGAAACAGTTTATAATCCTTATATCTCTGGTGTAATATACTCTCTAACCGCTTTACCAGGAATTTTTTCTACAATAGTTTCTGGAAAGATTATCAATTTACTAGGAGTCAGAAAGGTATTTATATTATTTATTTCGCCATATGGTATTTTGACTATATCAATATCTTTTGTATATTTTGCAATATTTTTAGGAATAATAGCATCTTTTATGGGTCTGATCAGATTTGTAATAACCCCAGCTAATTCTACTGCAGTAGCGCAAATAGGTAAAGAAAATAGCGGAAGCGTAACAGGATTCGCTAATTTTTTCTGGCAATCGAGCGGAATATTAAGCTCATTCCTCTCAGCTATTATAATTTCGTCATTAGGCTTTAGATTTTTATGGATATTTATGGGTTTAATAACACTGTTATCTGTAATATTTTACTCTTTAATAAGGGTTAGCCAGTAACTTTTAAAACAGCCTATGATTTGGGTATAGTTTTTAATTGGCAAAGGATTAACAACCTTATGTTAAGTTTTAGATACGATTTAAGTTTGAAATTTCTGATAACTTACTTCACTAAACATATACAAAATACTATTATATTATAGAATAATTTTCGGCGTATTTTTAACTTATATTGCATATATTATACATTTATATCATATTTCTTCTTCTTCAGTTATTTTTTAATCTAACTTATGATTTGGGGAAAAATATTTTTAAATATAAGATAACATTTCCATATGTCAAGCAGTTTAGGAATTCAAAAAATAGGACTACGATGGAGTGCAATGTTACTATCGGCATTATGGGCTTGAGTACATCTAGATCTAACATCTGCAGTTTTACCTAATCCTACGGCAACCTTAATCTATAGAATATTTTTCGGATTTACAGCGTCTTTAGCTATAGTAGCCGCAGTAGCTTTTATTCAAGGTATTAGATCGTTATATCTACCTGCTGCAATATTCTATGCAATAGATTTAGCGTTACTTACAGAGACTAGAACAGCACCAGCGTTATTCGTAGGGAAAGTGCTTCCAGTAAACCCGTATGTAGAGATTTCAATAGCACTCGATGTAATATTACTAGCTCTATCCCTAGTACTATGGAAATTCGATAGAAAATAGATAACAAGTTTTTTCTTAAGAAAATCATTTTTTAATATATGAAGCATGAGTTATATGAGGATGTTATAGAAGCCGAAAATTCTTCTCAAGGTTTTGGTATATATAGATATAACAGAGTAATTTCTGTAAATAAATATCTAAATAATGGCAAGTGGATAATAGGGGAAGGAACAGACGAGAATATACCTTTTGATTGTACAAGTCTCATTAGGGAAGAAGTAAAAGATTGGGAAAAAGTAGAGGATATAATAAGAAGATTTACTATAGAAGGTGTTAAGATAACTGTCAAAAGAGTCAAAAGAAGATTACAACACAAAGATAAAATTTGTGAGGAAGATAAAATAGTTAATTATGTTAATTTTAATGGAAATCTTTTCGCATTTACTGGGTCTCCTAGAGACATAGGTGCGGTTTTAGACTATTTGAAAATTGAAACTCCTAGATCCCTAACAAGGATATGGAGTATAGATAGAACCGCAGTAATTTTAGATCCCGAAGCATCGGCAAAAGTTTTCCACGAGATTTTCTCCTTATTAAAAGGGGATTCTCCCAGAGTTAAAAAGAATGAAAAATTATTCTCAGATCTATCTATCTATGATAATCCTGAAAATCCTTTTTCAGTAGGTTTCTATGCTTTTGACGATGAAGGAACAAAAGCCAGGAAAAAGGAAATAATAGGAGACGGGTATGTTTTAGACTATCTAGGTACTTTAACTACAAAGCTAGGAACTCCTGGTAATGGGAGAGGAATAATACCTAAACCAGACTATTTTACTTTGGAAATAAGAAGAGGAGATTGGGGATTTCAAGAAATGATAGAAGATACAAAAAACGGTATTTTAGTTCTTGGAGCTAAATCTACAGAAATAGTAAAGAACAGCGTGAGACTAGTGCCAAGAGAATCTATTCTAATTGGAAATGGAAGTATTATTCTAAGAGAAATTGCCATTCCTTTCCAAGAGTTTCTTACTATAGACGGAATATCAAGGGAAACTAAGAATGTTATTATAGACGAGGAGCACGGGGGTATATCTCCATTTATTAGAATTCACGCTAGACCAATACTATACTAGAAATATTTTTGGCATGATCTATACCATGACGGTATTTTTGGATTATTAATAGAATCCCAATCATCATACGGTTTTATATCTAAAACAGGCGTGCCATTGTATGCATTTATACCTTTAACTGTTAATGTATTTTCTTTTATATTCAATAGTTCCACTACTGAAATTCCAATAGGATTTGGTCTGTTTGGGCTCCTAGTTGAGAATATACCTATGTTTTTCCCATTACACTCTCTCGTGAGAGATTTGAGCGAAGATAAATGCATATAATATATAATAAATAAATGAGAAAATTCTTCTAAGCCTCTTAATCCTTCTGAGTAATCTTTATCTATCACTATATTTACGGGCTCATGTCTAGATGCTCCTTCATTTCTTCTCACATAACCTATGGGTATTAGATTCAATGCCTATAGATCCTCCAGTAATTTTTCAAATCCTTTAATATCTCTTAATGGTAATCCAGTTCCTCCTTTAGTTACCATCAATATTTCAGATACTATACTAAACGCTATATCTTTTTCATTTTTAGAATTTATATCTAGACCAGCAGGTATTCGTAGTTTTCTTAATTTATCTTTATCTATTCCCGCTTCAATTACTCTTTTTAATATAGTTTTGGCTCTTTTCAAGCTCATCACAACTGCTATTTCCTTAGCTCCGCCAAGTATTGACTTTATAATTGCCCACGTATCATAAACATGTTTTGTTGCTATTAGGACATAATTATCTTTTACAATTTCGTCTGGAATTTGGAAAGTAGTTCCTTTTATGACTTCATCTGCCTCATAATCACCAGCAAACGGATCTACTACTATAACGTAATAACCTAGATCTTTAAGATGTTTAGCAACATAAGGCGCTACAGAAATTGTTCTTCCAGTACATTTACTTTCGTCGACCTTTACTGTATCTCTATCACATATTACTGGTTCTTCCATTTCTGCCTCTTTGCTTGATGCAAAAATAACTATTTTCATGATATAATATACGGAAAGCTTGAATAAAAACGTAATTCTTGATTTTAAAAATCTAAACTAAACCACTAGTAAGTATTACAAAACCTACAGTATAAAGTATACCTATAGCAATTTTCCTCATAATTTCATGAGGAATTTTAGGATATATTAGATAAGATAACAAGAGTATCCATAAGAATCCAACAGATCCACCAATAAATGCAGGGAAAACGCTTCCTGTCATAAAATATGCCGATATTTCAAAAAGATTTACTTCTACTCCCTCTCCTAATACTCCTACTAAACCAGTAATAAAAGCACCCTTTGGAGTAGGATAATCGGTAAAAAGGAAATAACTAGCTAATCCCAGGAAAAAGAATCCTAAAATAATTTTCATGAGATATTCTGCAGTATCTGTAATTAAAATTGGCAGCAACATATATATTAAATAGCTAATTAGAAAAACTGATATTACGCCAAAGAAAGTGCCTAAATTTCCCATTTTCTTATCGTTAGATCTTGCCATGTAAGAAAACATTGACATTTCAATACCCTCAAAAGTACATGGAAGAAATGATGCTAAAAAAGGAATTTCCCAACTCATGTCATTTACCTTCTTCTGTATATCCTAGCCAGCATTACTCCGCCTATTAGAAAACCTATGAACGATGCAGTAAAATAGTACTCGCTAACAAATTGGTAAATATTATTGACCTCATAAATATATCCAGATATTCCTAGTGAAATTGTGAATAACAAGAAGGCAGGCTTAAGTAAAGTTCTCTTTTTAAATGATATAAAAAGTATAACGAAAGCTACTGTATCAAGAGGTAATAAGAACATCATTTCTGGTACTGGATACACTTCTGCGTATCCCTTATAGCTGGGAACTGTAGCTATATATCCATAATGTATAGGATACTGTAAAGCTATAGGATACGTCCAGTTATTAGGCTCTAATATTATAGGCTGTCTAGGATTTACATCGAAATTAAAACTTTGTAATATACCGTGAACTCCTCTTTCTGACAAGTTGGTTATATATGGTAAATGAAAATTATAGTCTATAAATCCTAAAATACTGTACCCAGATATTGTATAATTATTTACCCAACCTTCTTTTGCATATGGAGAAATTATCAATAATGGTATTCTTTGGCCCAAACCATAATGATTTATTGAAGGTGGTATTATTTGATCATAATATCCTCCACCTTCGTCAAAAGTTATAAAAATTGCAGTGGAATTCCAGTATTTGCTCTGCATTACTGCATTTATAACACTAACAAGCTCTTTTTCTCCTTTTAATATATTATATGGTGGATGCATATCATATTCGTCATTCGAACATCCTATGAACATAACCCATGATACTGAAGGAAGATTTCCTTTAAGGTCTTCATAAAAGTTAGATATTCCATAGAAATGATTTTTGTATTCAGAAATTCCATTAAATGCATTTAATGGCCAAGGTATTCCTCCAGAATATCCATAAGTGTAATATCCCCAGCTTACGTTATAATAGGAAAGTTGATAAAATATACTAGAATTTAGTGGGCACGTTCCACTAGCATCGTCCGTGTAAAAATTAGGAGGAAATCCAGTTAAGTAAGCTATCCTGTTTGGTTCTGTTAATCCCATTACTGGAGCAAAGTAATTATCTGCGAGAACGTATTCTTCTGCATAATCCCATAGCGGAGCTTCTTGCTCATAGGAGAAGTATGCCATTGATTGAGGTCCAGAATAGTAAACAAATCCATCATCTGTATCAAACCAATAGTCACCATGATAAGAATTCCATCCTTCATAAGGATCTACTGTAGAATAAGCGTCGGCATAATATGGATGAGAATTTCCCAATTCTGGTAGCCATGGTACATTTGGAACGGAAACGTAGTTTAAAGTACCTTTCTTTAATTGTGTATAATTCGTATAAAGACCTTCTGGGTCCATTAGTGATAATGTTATATTATTAACTATAGGCGGATAGCCAAATGGATACGTTCCAAAGAGATTATCAAAAGAATGATTTTCTTCTATAATAATTATAACATGCTTTATTGGAGTTTGTGTGTCTGAGTACGAATGTAGAGGTATGCTTAGTAAAAATAATACTGTAATTGCTAATCCTATAAGACCAATTTTCATAGAACTATTAAAGAAGAAGAGTTATTAAATTCTTATTATAGTGCATTTTATCATATAAACTATAGAGGCTATATATTCCTATTTAGTTTTTATATTTTCTATAATTTCCTTTAAAACTTCTGGATCTTCAAGCATGGTTTCATCAAATTTATTTCCTATAATAGCATCTCTAAGTGCTCTTCTAACTATTTTGCCACTTCTTGATCTAGGCAATCTGTTTACTTTAAATATTTTATCAATAACGTAGATAGGTCCTAATGATTCTTTTATTTTTTCTCTAATCTGATCTTCACTTACATTGCCTACAATGAATACATCTAATTTTTCTCCTTTAATCTCGTCTGGAACTCCAATAGCGGCAACTTCGATTACTCCAGGGATTTCAGAAATTACACTTTCAACTTCCCCGCTGGTTATTCTATGTCCTGCAATTTTTATCATATCGTCTGCTCTTCCCACAATTTTTATATAATTTTCATTTATAATAGCAAGGTCTCCTGTATAATGATATCCAAATTTGAAATATTCCTTGAATTTTTCTTGATTATTTAGTATACCTATAAATTGTGTAGGAAACTTTGATTTCATAACTAAGTAACCAACATCATCTGTATGTTTACCATTTTCGTCTACAGTATCTAATAATGCTCCAGGGAAAGGTACTCCTGCATAACCTTTTCTAGGCTCTACATTCATCGAAAAAGGTATACCAACTACGTATCCAAGTTCTGTTTGTCCATAAACGTCGGTATATTTGTCCGCAAAAGACACATAATCCCAACTTTTTTCGTCCATTATTTCTCCAGCAGTAGCAGCAAATTCTACTCTAGGTATTTTTATCCCTAATTTTACTAGAAGTCTGAGAAGAGTAGGTGAAGTAAAGAAAAGTTTAGGGTTTATTTCATCAATTATTTTAGCTACACGATCTTTTGGATAATCTGGAGCACCTTCCATAAATACTAATGTACCACCGTGAAGTAATGTAGCGTACATAATTCTAGAAAAAGTTATCCAACCTACGTCAGCTGTTGTAAATACTATATCTCCTTCTTTGAGAGAAAACATTATATCAAAAACTGTGTAATCTCCAACCATCCAGGCTCCATGAGGTAAAATAATTCCTTTTGGTTTTCCTGTAGTTCCAGATGTATACATAACTTTTAATGGCTCATTACTTTCAATTTCCTCATATTTATCATATTCATTATCAAAATCAAACTCATTATTTCTGTCAAAAACTATACTTCCTTCTAAATATAATGGAATTTCCTTGCCTCTTCTATATGTCTTATTTGCCTTTATTATGGCATTAGGTTTAAAATCGTCTATTCTTGATTTTACAGCTTCATAACCTAATCCAGCAAATATTAGTGAATATATTGCACCTAATCGAGCGCACGCTAGAATTGATGCTATCGTTTCTATCATATTGGGCATGTAAATTGCTACTCTATCTCCTCTTTTGACTCCTATATCTTTTAATTTTCCTGCAATTCGTCTTGACAATTTATCTAAATCATTATATGAGATCTCTCTGACTTCGTTTTCGCCATACCATATTAGTGCCTTGCCAGAATGGTTCAAGGAATTCATTGCAATATTGGTTTTTCCTCCAATAAACCACTTGTTTTCAAATACCTTATCCCATTTTCTAAACCAATTAAGGGAAGATGCAAAAGGATTCCAATATTTTTCTGGATTTTCCAAGGCTAGTTCGTACGCTGTTTTATAGTCCATGGGATAATTCTTCTGTATTCTCGATAAAAAGCAATTTTCTTAATTTTTCTTCAGGTTCCTTTATAAGATTCTTGTTTAATTGTTTTACTAAATCATCTCGTATTTCTTCCTTGTTTATTTTTTCTAATGTTATTATTCCACCTATAACCGAATGATATCCATAGAAATATCTTACTTTGTTACTCATTAAATTCCTTATAGTTGAAGATCTCATTACTCCTCCTAATAAGTAAACATTATTTACATCTTTTTTTAGTCTATTTACCATTAAATCTATATATTCTGCGGCATTTTTCATTACTTTAAAAGCTAATTCATCATTTTTAGAGAGCTTATCAATATTCACAGCAAAACTAGCTATTAATCTTTTATTTTGTTCTTTAGATAATCGTGTTACTACTTCTCTAAACTCTCCTCCAAAGAATTTTTCAACTTCTTCAGGAATTTTACTTTCCTTTTCTATCTTATCTACACTTCTTATTGCATAAGTTATAGCATTTTTAGCTATCCATGATGCCGATCCTTCGTCTCCAAAAAACCAACCCCAACCTCCTACCCTTATTATTTCTCCATTTTTCTGATAAAACGCTACGCTTCCAGTACCTGGAGCAAAAACAGCTCCATCATTAAACAGATTAGTTGCTCTTAATGCAGAAACTCCATCATTCATTACTATCGAATCTTTAAAAATGTCCTTAGCTATTCTCTCTCCAATTTCTGTAAATTTTTTAGAGTCACCAACTCCTGCAAGAGCAAAAACTGCCTTATTTATTTCTTTAAGTGAGACTGAAGAATTATTTAATGCGTCATTTATAGCTTCCATTATATTTTTCTTGGCTTGCTCCTCTCCTACTTCTGTATAATTTCCAGAAGACGAAATTCCAACACCTAAGATTTCATCTTTATAAACTGCTGCAACAGTCTTAGTAGCTCCACCGTCTACTGCAAGTATCATACAAGTTTGGAAGAAAACAAATTAATGTAGTTAACTAAAATATTGTAATGAATAATCTCGCAGTAATAAAAGACGCGTTGACTGAAAATTTAAATAAACAAATGATGCCTTTCCCATTTGATAAAAAAATTTGCAGTGGATGGACTACTGATTTGCCTAAAACTGGAGATACTATAATTTATACCTCTTGTATGTATCAAATAGAAACTATAGTTCCGATTTTTAATAAATTTCTACCGTATTTGTCATCTCTTAAGTCCCTAATACCTTTAGCTAGTAGACTAAAGCCAAGCAAACAACAAATAGATAGAGCATATCTCATATTAAATAATATAGTAAATGCAATAAAAAAGGAGGGAATAGTTCCAGCATATTTTTACGATGAAGAACCTTATAGTGGAGCTATACTTTTAGAAATGGGATTCCTCACAGAATTTGAAGAATATGGAAAGAAAGTTTATGAATTCTTCAAAAATAAGGGAGTAAAAAGAATAATTACTGTAGATCCTCATACTCATAATGCTTTAACAAGATATAATGACTTTTTCAATTTTGATATTGAAGTGATAAGTTATTTAGAAATTGTAAAACCCAAAAAAATTGAAGGTGAATTCACTATTCATGATTCATGTCTTTATTCTAGATTCCTTAACTTGAGAGATAAATACAGAGAAATGATAACATCATCAGGAATAAAACTTATTGAAGATGATATGTTAACTGGGAAGGATACTTCTTATTGTTGCGGAGGTCCTTTAGCTCCAGTTGATTCGAAAGTAAGTGAAGAAATGGCAAAAGAAAGAGCTAAAGGTTTAAGAAAATTAAGTAAAAAACTATTAGTTACATGTCCTATTTGTTATGCTACTTTATCTCCTCATTTTGAGGGCGAAATTAAAGATATAGCAGAGGTGTTATTATGAGCTGGGAAATAGCTGTCAATAGAGCAATAAATAACAATGTACCTAGAGTATACAAAGTATTAAGGGAATATCCTTATATCATTGAGTTAGCTAAGGAATTAAGAGAAACTAAGCTTAAGGTTCTTAATAATATTGATTATTATATAGATCAGACGCTAAAATCTGTAGAAAAAATTGGAGGAAAAGGATATTTTGTGTCCACACCAGAAGAAGCTAGAGAAATAGTGGGAAAGATTGTAGGAGAAGGAAAAACTGTAGTAATGGGCAAATCGATGGTAGCTTATGAGGCAGGAATTAGAGAATACCTAATAAGAAAAGGTAACGAAGTTTGGGAAACCGATTTAGGAGAGTTCCTCATTCAAATTGGAAATCAACCACCTTCTCACATAATAGCTCCGGCAATACATCTTACAAAAGAGGAAACTGAAAAACTTCTTAAAGATAAAATAGGCGGAGTCAATGAAAATTCTACACATGAGGATTTAGTAAAAAGAGTGAGAGAATTCCTTAGGGAGAAATTCATTAAAGCAGATATAGGTATAACTGGGGCTAATTCTGTAGCTGCTGATACTGGGACTGTAGCACTAGTTGAGAATGAAGGTAATATAAGATTTTCAACTGTAGCTCCCCAGGTTCATATAGCTATTACTGGAGTAGACAAGATTGTCCCAACTCTCCATGATGCTATGATAGAAGTAATGGTTCAAGCAGCATATGCTGGAATTTATCCTCCAACTTACATAAATCTTACTTCAGGACCAAGTTCTACTGCAGACATAGAAATGAAAAGAGTTAATCCAGCGCACGGGCCTAAAGAGTTTCACTTAATATTATTGGACAATGGTAGACTAAAAGCAAATAAAGATCCAGTATTAAGGGAAGCGTTACTATGCATAAGGTGTGGTAGATGTCATTTTCATTGTCCAGTTTATAGGGTAATGGGTGTAAACTGGGGAGACCCTCCTTTTACTGGACCTACTGGAGCTATGTGGTCGTATATAGTTAATGGGGATACAAAACCTGCACTTTACTGTACACATTCTGGTGGATGTAAAGAAGTTTGCCCTATGAAGATAAACATTCCTAGGATATTAGAGTATATAAAGTGGAAAAATAACGATAAAAAATAATTTCAAATATAAAAAATTTTAAAGTATATTTCCTAGTGTAGGAATTTTTAATCCTATATATCCTACTAATATTAATATAATAAATTCAATAATTATCGACATTATCCCTATACCTATTGCTCCTAGCCAACTAACGTCAAATATCGCTCTATATATCGCAATTACCGCTAATATGGAAACTAGAACTCCTATTAATTCTAGATGAAGTAGTCCAAAAATTCCGGAAATTATAATAATAGCTATTATTCCTGCAAGTGTAGCTATCATAGCTCTACCTATTGTGCCGTTTTTACTAAATATCTTGGCAGAAATCCATACAGGTATTGAAGTTATTACCCAAGCTAAGATGAAAATCACTATTGTTGCTAAGATAGTTTCAAGTGGCGTTATTATTGACATAGTAAATCGTCTTCATAGGAGTTTTTAAATTTAAGTAATATTAATGGACGGTTTAAATCAGTATTCAAAATTATTTTTAGCATTTTCGAGTTTAGGCCATTTTTTATCTTTTTCTGACAGTATCTTTTCTTCTACTGGCCATGGAATTTTTAATATAGGGTCATTCCATAAAATTCCTGCTTCATGTTGAGGAGAATATTCGCCGTTTGTTATAAAATATACTACATGAGACTTTTCTATAGCCTGGAATCCGTGTGCAAAGCCTGGTGGTATCCAAAGGAGTTTTCCTGGAGTTAGCTCATATGCTACAAATTTACCATACCAAGGAGAACCTTTCCTTATATCTACTGCTACATCATAAATTTTGCCTGAAACTACTGTAACAAGTTTTCCCTGAGCTTTAGGATTAATTTGATAATGCAATCCTCTTATTACTCCTCTTATTGAAAACGAATGATTTACTTGAATTATTTCAGGAATAAATTCTAATTCGTCCTTCTTGAACATTTCAACGAAAAATCCTCTTCCATCAGTATATATTTCGCTTTCTATATATTTTATATCAGGAATTTCTGTTTCAGTTATTTTAAATGGCATTTTTTATTAACCTTCTTATTCCCTCATCTAAGCTTAGATCCACATCTATAAATTTCTTTGCCTTTGAAGAATCTAAAGAAGAATCCAATGGCCTCTTGGCAAGCCATTTCATGTCCTTGAATTTGACTCTATTTATTAAAGAAGGATCTAATGAAGATTCTTCAGCAATTTTTATGGCTAAATTATACCTAGATACTCTTTCGCTTGCTACGTTTATTATCCCAGTACGTCTTTGAAATATTAGTTCTACTATTGCTTCTGCCAGTTGTGAGGCATGAATAGGAGAATAGTACATGTCATCTACGGCATTTATTTGCTTGCCTTGCTTTAGTGAGTTAAGAACTAGAAGTGGAAAATTATTCTTATTATTACTATAAACTCCAGAAGTCCTTACTATTAGAGAGTAATCATAAGATATGGTATAAGCGTCCCCTAAAAGCTTTGTTAAACCATAATAGTTCAAGGGATTAGGTAAGTCGTTCTCAGAATAATTACCTTTTTCTCCATCAAAAACATAATCTGTAGAAATTTGAATAAAATATGATTTAACAACTGACGCTGCTCTGATCATATGCCTTACTGATTCTGCATTTATTTTCATAGATTTTTCCTTAGATCTTTCACATTCGTCTACGTCAGTCATAGCTGCGGCATTAATTATTGTTTCAGGCCTAAGTTTTATTATAGCGTCTTCAATTTCAAGAGGATTTTCAAGGTCTATCTTAATTCCTTGGATTTGCTTTTTATTAAAGGTCATTACGGCATTTTTCACTCTTTTACCTAACTCTTGACCTAATTGTCCAGATCCTCCAAAGATTAGTGTTACCATGGTACCTCACTTCTGAAGAACTCATCTCCCAAAAGTGGAGTCCACCACCATTGGTTATTTAAATACCATTCAACTGTTTTCTTTAATCCTTCTTCTAGCGGTATTGTTTTGTATTCTAACTTAGTATTTTTCATTGAATATAATTTATCATGACCAGGCCTATCCTTTACGTACTTTATTAATGGTTTTTTACCTAGAATTTTTCCTATCTCGTCTATAATCTCTATATTAGTTCTTCTCTGTCCTCCTGGGACATTATATATTTCTCCTTTTTTACCCTCTTGCATTATCTTTTTTATTATTTTTGCAGTATCTTCTACAAAAATCCAGTCTCTTTCTTGTTTTCCGTCTCCATAAACAGGTATTTCCATATTTTTTAGAATTCTTATAATAGTCTTTGGAATTAATTTTTCAGGAAATTGTCTAGGTCCATAATTATTTGATGGCCTTATTATCAGGGCGTTTACTCCATATGTTCTAATGTAAGAATGGATAAACATATCTCCAGATGCTTTAGATGCAGAATAAGGTGAAGACGGTTTTAAAGGAAAATCTTCAGTGGAATTCTCTTGTTCTCCATATACTTCATCAGTAGAAATATGAACTAATTTTAAATCATATTTTCTTGCTACTTCAAGTAAATTTATAACTCCTTTAACGTTTGTATCAAGAAATATGAATGGGTCTACTATAGATCTGTCTACGTGACTTTCTGCTGCGAAATTTACTATAGTATCCACATGATTTTCCTTAACGGCTTTCTCAATTTCTTGGAAATTCCTAATATCTCCTTTGATAAATAAATGTTTAACGTCTTTTAGATTTTCTAATCTTCCAGCATAAGTTAGGGCATCAAAGACTAAAGGATTATCAATCTCTCTAACGAATGCCGATCCTATAAATCCTGCTCCTCCAGTTATCATTATCATTTTTTATACCTCTACAATAGAATTTTCTCCAACTATAATTTTTCTTCCTGAAGGTAATCCGTCTTTTTTAGATATTTTAGCCTTCTCTCCTACTATAGAATCTATTATAGAAACGTTACTAATTTGTGCTTCATCCATTATAAGAGAATTCGATATTTCCGAATTTTCTATTATACAGTTATCTCCTATAGTAGTATAAGGACCTATGAATGAGTTTTTGATTACAGAATTTCTACCAATATATACTGGTCCTCTTACTGTGGAATTCTCTATAATACAGTTTTCAGCTTTTACTCTACCTTCTATTTTGCCTGAGATTTTCCCTATTATTTCGCGTTCCAAAAATCTGTCAAGAAGTATCATATTAGCCTCAAGTAAATCCTCTGGAGTTCCAGTATCTTTCCACCAACCTTCTACTATACTATAGTTAACTTCCTTTCCTTCGTTAAGTAGTTCTTGGATAGCATCAGTTATTTCTAATTCTCCTCTCCAACTAGGCTTAATTTTTTCAATAGAATTAAAAATACTTGGAGTAAATGCATATACTCCTACTAATGCTAAATCAGATATAAACTCCTTTGGCTTCTCTACTAGTTTTATTACTTTTCCTTCATTTATTACAGCTACACCAAATCTATTAGGATTATTTACTTTAGCAAGAAGTATAGAAGCTTCACCATTAAAATTTATCAAATTTTTAAGACCGTCAAGCACTACGTTATCTCCTAAATACACAACAAATCTATCGTTACCTACAAAGTCTTTAGCCTTATAAATCGCATCAGCTAGACCAAAGGCTTCTCCTTGATAAATATATGTTACGTTTATATCAAAAACAGATCCGTCTCCATAGAATTCTACTACTTTTTCTGGATGATTATTTCCTAGTATTATAGCAAAATCTCTTATTCCTAAATCTCTAAGAGATAATATACCCCATAGCGAAACTGGTTTACCTGCTATCTTAAGCAACTGTTTTGGTCCAGTATGCGTTAATGGTCTAAGTCTTGTTCCTTGACCACCGTGAAGAATAACAGCTTTCATTAATTGATTAAAAGAGCGCAAATATAAAAATTTGAAATATAGTAATGCCAATATAATTCAGCATATCTCTAATATTGCGTAAAAATTTAATATATTATTTTCACTTACTCTCTTTTATAATTTTAAATATTATAGTTATGATACCTTAATGCTTAACTATTTTAAAAGTTTTTCAAAAATTGACGATTTATTCTACAAAATTTTTAGATAGATATATGAGCAAATATATAATTTATTATATAAATGTTTAAAGAGAATAAACATTGTTTACTTTATAAAGTAAAAAATTTAATATATTAGATTGCTAACTTAAAAGTTCTTTCCAAAATTTTCATTATTATTAGATTTATTTAATCAGATGTATAAAGTCTATTTGATCATATATGAATTCGAAAAAAGTAGTTATGTCGATAGCATTCGTATTAATTTTAGTTAGTGCAGTTTCATCTGTATATCTCTTATCATCTACATCAATAACTGAACAATCTCCTCAAAATAGTGCTCACAATTCATATGCTTGGATATCTGCATCTCAAGTAACTCCAGGAAAATGGATAAAAATAACTAATCAAGATTTCGCGCCCGCAAATAAAACTGAGGTATTCCTAGATGGCTGGATAGGATGCCATGTAGCAGCTATGGATTCATGGCTAATATATTACGTTTTATCTCATTATGGGGTAAACTTCACTTATGAGTTTCATACATCAGATCCTTATAGAGTTCCACCTAATGTTCCAGGATTAATATTCGAAGGATACAAGGCACCTAAGAATTCTCCTATAATGTTTGACTGGATATATATGTATAATGAATACCTAAATGAGACTACATTACCAACTCCAGAGCCAATGAATTACACAATAAGCCCAAGTATAGCGACCTATGACGGATTAATGGAATTAAAAGACTTCGCACCACAATGGATATATAATATAGCCATAACATATAACGTTCCGATAGTAGGTCAATTTAAATCTCCACCTCACGTAGTAACCATGTTAGTAGTTACAGGACCTAATGGCACATGGTTATTGCTGGGACCATCATATCCTCCATCTGCAATAGCCAAATTAACTCCAGAACAAGTAATGGAAGATTTACTAACTCAGAGTAATCCAGAACTAATGCAGGCAATTTATCAATTTTGGCAAGTTTTAAATGAATCTATGGGAAAACCAGTTACTATAACAGTTAGCCAACAACAAGAGGAAATAACATATTTACATGGATTTGGATTCACCACATATTACCTATCTAATACTCCAAGCATAAGTACTGGTCCATCTTCATGGAATATGTATGCTAATAGTCCAAATAGAAATCCAGTATTTTCCGGAAATCTAGATGTCAACTGGATATATCAACAAATGAACGCTTTTCAGTATGGAAACATAACAGCCTGGGAACAAGATACAAAAATGCTAGGATCTGAATTTGGTTCAGGATATGAACAAGCGGCTGGTGATGCTGTAGGTCCATCATTTGCTAACGGAATAGTTTACGTTGGTTCAGATAGCGGACAGCTATATGCCATAAATGCGCAAACTGGAAACGCGATATGGATATTGAGTACGCCTGCAGCAGTAATAATGTCGGAACCAGTAGTTTACCATGGCATGATTTATGTAGGATTAGGTCCAGCTACTTTCACGTATGAACAAGGTAAATTAAACGCATACGGTGGTGGACATAGAGGATTGTATACTGGATTAACTGGTTTGCTAGCAGTAAATGCTAGTGATGGAATACCGAAATGGATATTCTTAACTAAATCTCAAGCAATGCCCACTGCAGTTGCATATAATGGAATGGTAATGTTTGATGATGGAGACGGAAACGTGTACGCATTAAATGCTACTAATGGAAACTTAATATGGAATTACTCTTATGATGGAAGTGCCAATATGGCAAGTTTAGATTTATATGTAGGGAACAATTATGCATTATTAATAACAGCGTTCTCTCCAGGTTATCCTGTTAATATGTCTGCAATTGTTGCATTATACGTTAACAATGGAACACCTGCATATGTTCTTAAAGTGCCCTTTGCATATGGTTCTTCAGTAGGTGATGCAGTACCAGCAGTATATGGACAATATTTAGTAGATAGTTTCATGGGTTATCCGGTATATCATGGCGTTTATTTAAATCAAATATACGTTAGGCAAGTGTTATTAGTAGCTAATGTTACTAACGGAAATATATTATACGTTGAAAATATAACTGGATATGGTCATCCAGGTGACGATAATAATGGCTTTAGTCCACTAGTATATAATGGAATTATTTACGTACCTTCTCATATAAATAGAACCGTAGCAGCATTCAATTTAACCTCTGGTAAATTAATATGGATATCTCCACAGATGAAGCATGCATCATTAGCTGATCAGCCAGTTTACTATGATGGGTATATAATAGTGCCAGATTTTGATCATTTTGCAGTACTTAACGCTGCTAATGGAGACTTAGTTAACAAGTATTATGTTGGAGTAGATCTAGGTAAGGATCAGCCAATAATAGTAGGAAATACTATAATAGACTCATCAATATTTGATTATGTAATAGCTCTTCCTATAAGTCAAGTGATTTAAATTCTCTAATTTAGATTTTTATTTTAAAACTATTTTTGGTTTAAATGGTTTAGGTTCTGGAAGTTTTAAATAAAATATTGAAGCTAAAATTCTTAAAACGCCTACACCTAACATTAATAACCTTATGGAATCTATTCCTGCTATTGACGTAAAATATTCTGCAAGTATTGAGCCTATACTAGAGCCTATTAGATCTCCTAAACCACCTATTGCACTATATATTCCCACAGATCTCTTTACATCACTTGAAGAATCATAGAGGTAAGACATATAAGCTGTAGAATTAACTGAATTAGTAAATCCCGCAACTACATTAGCTAAATATATTTCATATACCGACGTTGACAGCGCATACGCTAAAGGAAAAGTTGCTAATGCGAGTCTTCCAGTAAACATCATAATTTTTCTGTTTTTGTCTACTAATTTTCCTATTTTTCTTTGTAACAAAAGCGTAGATGAGCCAGAAATTACGCTGATAATGGCAACTTCGCTAAAATTCATCTTAAAGACATACACTTGTGCCATGGGGAAGAGTGGCCATGCTAAAGACCAAACTATATTGAAAAGGAAGGATATTAAAAGATAATCTTTCAATTCTCTAGATATATTTATTTTAATTGTATTTTTTACTTCGTAATCTACATCAAATTTAGTAGATATAACGCCATCAAGTAATGTGAGTACGCCAGCAATAATAAAGAAATATCTTATTAGCGAGAATCTCTCTCCTACTATAAATCCTGTTATTAATGTAGCTATAAGTCCTCCAAAAGTAGAATAAAAAGAATATTGAGCTAATATTTTTCCTCTGGATGTTAAACTAACTTTTTCCATTATTAAATACCAACCAAATATAGATATTCCCATAGAAGCGTCAAGAGCCAAGTAAACTATAGTGAAAAAAATGCTAAAAGGGACTATCGATAAGACTAACCATAATATACCAGTTAGAAATGTTCCAAAACTAACTAACGTTTTTGCTCTAGCTTTAACATAACCTAAAAAGAATTGTACTACTGAAGGTAAGACTGTTCCTGCAGAAGATATTAAACCCAATTGCTCTCCTATAAGTCCGTAAGCCGCAGAGACAAAGGAAATAAATGGTTGTACTAATTCTAACGAAAAGTTCTTTAAAATAATGTAAGTCCGCAGAGGTTTCATTCTACTTTCTCTTAAGGCTTCTTCCTTATAATTATTATATTCCTAAATTAGCGAAGAAAAATTTATTAAGTGAATTTTTAAAAGTCAGTTATAAATTAAGTTATAAAGTAATCTATATTTACTTTACTAATCGCATCATCAATTTCTTTTAATATATTCTCTTCTAATTTCCATCCTATACTTTCAATATTCTCTTTTAAATGATTGATTTTTGAGGTATTAAATATTGGAAAGACATTCTCCTTATTAAGTAACCAATTCAATACTATCTGAGCTAAAGTCTTTCCTGTTTCTTTAGAGATTCTCTCCAACTCCCCTAGTAAAGGTTCTAAAGACGAAATATATTCTTGTCTTGCTAAATAATACCACCTAAATTCGTCTCTAACTTCTTTTCTACCTATTAGATAACCTAAACCTAAAGAATCATAAGCCAATAGAGGAATATTTTCTTTTTTCATATAAGGATATATTTCTTTTTCTACATCTCTAAAAAGCAGATTATAATGCAGTTCATTAGCAGCCACATCAGTTTTTGAAAGATATTCTCTGAATTCTTTCATTAAAGGTAGGGAAAAGTTACTTAATCCTACGTATCTTACTTTTCCTTCCTCATATAATTTTTCTAGTGCTTTAGCAGTTTCCCTAATAGGGACATAAGAATTTGGCCAATGCACTAAATATAGATCTATATAATTGACATTTAGTCTTCTTAAACTTCCTTCTGCAGCTCTTAATACGTCGTTATATCTTAGATGATTTTCGGAAACTTTAGTTATAATAAAAATATCTTCTCTCCTAATTTCCTTAATTATCTCACCTAAAATTCTCTCAGACTCTCCATTACCGTAAGTTTCCGCAGTATCTATAGCGTTAATTCCTAAGTTAATCGCCTCTTTAATTATCTTTTTTGAATCTTCTCTAGTAACCATAGTTTTAGTTCCGAACTCCCAAGATCCTAAAATTAGAGGAAAAATTTTTTCCTTTGTCCATCCAAACTCCATACTATAATTACTATTTCGTATCATTAAATCTATCTAGATAATATTCTACTTCTCTGCATAACTCTTATAATTCCTTAAAAATAATTTACAATGATGAATATACTCATAATTCTTAATCGGTCTACAGGCAAAGCTGTAATTTTCCTCCTATATTTAATCTCAAGGTTATTATCAATACCTTGGTTTTATCAGTTTCTTTATTACCTATTTACTTTCCCTGACGCTAGTTTCTCTGGTTTCTTTATAAATCTTGGTTTAATACCCCTATTATTTATTGTTCTAATAATAGTGGCCATTATAAAACTGATCCTAAAAATCAAACATAAAAATTGATTATACATTTTTTAGATAAGGTTATGTATACTACATTTTTCAGTAGGAAGTTTTATAATATCATTCACTGCGTTTATACACGCGTAGTAAAAATGAAAGTAAACGAATTAAAGCCTCGTGCAGGGGCAAGTGTAACTGTAAAGGTAGTAAGTGTAGGAGAACCCAAACAGGTTATGAACAAGGATGGGTCAACTCATAACGTTGCCGATGTATTAGTCGGCGATGAGACTGGATCTATCCTTTTCAGTCTTTGGGATGATAATATAAGCAAAGTAGCAACAGGAGATGTTTTAGATATAACAAACGGTTACGTATCAATAGTAAGAGGATCAATGAGATTAACATTAGGTAGAGACGGAAAAATGGAAAAAAGTACAAAGACTATAGAAAATGTGAATACTGAGAATAACTTATCCAATAAAACAGTAGAAGATACAAGATACGGCGGCTATAGAAGAAGCGGCGGAAATTTCAGGAAAAGATTCTAAACTTTTGTAACCATAATTAAAATTTAATTTTCATTTTTTAGTGCTTATCTATTCTATCATTATTAATCTAGAAAGGCTTATATTTTAGGCTAGAGAGTTTATATCAATGAAAGCGATAGTAGTAAAACCAAGCAGTAAAGGAGTAGAAGTAAGAGATGTAAATGAGAAAGAAGTGCAGAATTTTGGAAGGGTAAAAGTTAGGATTATAGAAAATGGAATATGCGGTACTGATAGAGAAATTGTACAAGGAAAAATGACATCCGCAAGGGCTCCTCAAGGTAGAGATTGGTTAGTTTTAGGTCATGAGGCCTTAGGAGTAGTTGAAGAACCTTTTGGAGAATTTAAGGTAAACGATGTGGTTATGCCAGTAAATAGAAGAGGATGCGGAAAATGTAATAATTGTCTAATGGGTAGAGCAGATCATTGTGAAACTGGGGAATTTGTTGAAGCAGGAATAAGCGATATGGACGGATTTATGAGGGAATATTATTATGATGATCCGAAATACTTAGTTAAGGTTCCCAAAGGTATAGAAGATATAGCCATATTAGCACAACCTCTTTCTGACTTAGAAAAATCAGTAAATGAGATAATAAAAGTTCAAGAAAGAGTTTATTGGACATGTAATGATGGTACATTCTCATGTAGGAGAGCTCTTGTTATAGGTAGTGGGCCTATAGGGATTTTGGTATCAATGCTTTTAAGATCCCATTCTTTTCAAGTTATTGTAGCAAATAGGAGAGAACCAACAGAAATAGAGGATCAAATATTTCAAGAGATAGGTGCAGAATACTTTAATTCAGCAAAAGGTTATACAGAGCTTAAAGGAAGATTTGACGTAATATTTAATGCGTCTACTGCTCCTCCAACAGTAATAGAGGACATAATACCGTTTTTGAATTATAACGGTGTTTTAGGACTTTTCGGATTTCCACCATCAGGAGAAATGAAGCTTAGTTTTCAAGAAATTCAGAGACTGTCTTTAAAAGGTGTAGCGATATTAGGATTGGCAAATGGACAAAAACCTCACTTTGAGGAAGCAATGAGACATTTGTCACAGTGGAAAATAACTTGGCCAAAAACTACAAATAAACTTATAACCAGAACAGTACATGTTGACGAAGCGCCTAAAGTTCTTTCTTTCAAAGAAGAGAATGAAATAAAAGTTAAAATTAGATGGTAAAACTGATAAGACATTTCTTTTTGTAGTAAATTTTAGTTCAAATTTTTAATCTTTACAATCATTATTATTTTATGACATTTTTATTATCTGCCACATATGATATCGTTCCAGAGAAAGATAGTATATTACCTCCATTAACGTCAAAGGTACCTAAATATATTCTAGAAAAATCACCATCTATATCTCCTTTAATTCGAAATAAGACTAAGTATAAGGGATTGACAATTTCTCCCTTAAAAAGAGATGGACAGTATCTTTATTCTATTCCAAACTCTCCAGTAAATGTAGCAAAATCTGGTACGAAAATGTCATTTCATCTCTCATTTTCCACTCAAGATATAGACCCAAGTATTTTTTATATAGACGAAATTCAAGATACTCCTTATGGAAAATTTTATATTACGCTTAATCAAATAGAAGTAAAAGAGATGATAAATCTTAGTTTTAAAATTAATGATTTCTTTGTAATACGGTTTGAAACTCCAACCTTATTATCGAACAAATATATGCTTCCTCCTCCATTAAAAAGAAAAAATATTAAAGCAATGAATAAGCTTATTCCTCAACCTTCTCTAATATTTTCGTTTCTTACTAGTTTATGGAACTCCATTGCTGAACCTAAGGAAAAGATAATAAAAGGAGACTTAGATTGGACTCCATACATGATAGGCAGAATATCTGATGTTATTTTTACAGAGCTGGGATATTCTATTAAACCTATTACAGTAATTTTAGGAAAAGATAGTCACGATAATCTAAGAGAAGCTAGGGGCTTTATAGGTTGGACAAAGTATAAAGTTACTCATTATAGAAATTATATTAGAATTATGGAACGTCTGTTAGGATTAGCATCAATAATGGGTATAGGAAGATCTAGAGGAATTGGTTTAGGTATAGTTAAAATACTAAACCAAGGGCAAAAAGTTTTAACTTGAATATATTTTATTACTTACTATTGCTGCATATTTATATATTTTCTTATCATTCTCACTAATATTGGAGTTAATTAAACTATTTAGTTCTCTATTTGAAATATAAAGAAGTTCCTCCCTTCTTTTAGATCCCATAAGTACCTCGTATATTAAATTTGATACTTGTATTGAAAAGCTCCTCGTAGAACTATCAGGATTTAGAGCATCTGCTGCTATATCTCTTAACATGTAAGAAATGTTTTCATAAAAAATCTTATTTTCAAGAATTTTTTTAACTCCTATGCTATATCCGCTTACAACAGACGCAGTACTCATTCCTCCAGCGTCAGAAATTACATACATTCTAGATTGATCTATTATCGCGTTTGTACTCACCATTTTATACGTAAGCCATAAAGTAAACGCAGTTAAAGGTTGAAATCCAGGAATATAATCTATTCCTTTTAAAAGGTCCGGTATAACTGTAAAACTATAATCAATATCCTGTGGAAATAAATGTATTCCTACTCTCTCTCCTCTAGAAAATGGTGCAACTCCTAACCTAGTTAAAGTCCATCCTACCACTGATAACATGACATATGAAGGTTCGATTTTAATATCGTTTTTCCTATTTCCAACGTAACCTGGATACCTTCCAAATTCGTATAATTCTGGTTTTATGAAAGATAAAGCAGAAACTTTTTCACATTTCTTTTCCTCTGGAGTTATTTTCTCTAAGATTTCTGAAAGATTAGAGTCTGGGGGTATATTAAAACATTTTAAAACTGACTGGAAAGGTTTCTTATCGTTTCCACTCATTGGTAACAACATGACGCGTTTTTTAGTTCTCTTTTGTATAGAATCTTCTTTAGCTTTCGCTATTTGATATGCTATATTAGAAACGTTTTTTACTTCTTCATCCGATATCTCTATTTCGTCCTTAAGTCTTCGTGAGCCTTTAGCCAGCGAAGCTACTGCTATTATATAATTATCTCCAAATATATCGTAGAGTTTAACTCTCATTTTCCATCTCCTCAAGAGATTTTATAAACCTACTTTTAGCTTTGGATCCTTCATCTACGGACCTTTGTTCATTACTGTCCAGATTATCTCCTACTATTAGTGGAGCTAAAAGAAAAATATATCCCTTTGCTATATTCTTCTTCATAGAAAAGGCTTTTAGCCATTCTACCATTAGCTGAAAATCTCTCATTTCATAATCATTTACATTCAGTTTTCCATCTATTATTCCTTCCATATCTCTATCAAATTCGTTAATTAACACTTCCCCATATTTCTTTAGATAGAGCATTTCTTTCCTTAAATTTACCTCTGATATTGTATGAATTCCTCTAATAGCGTTTAAATGATTCATAATCGTAAGGACTGACCAAAATTTTATAATTTCATTATTCCAATTATTTTTAAAGAGAAATACAGATCCTCCTATTTCATGATAAATAAAAGTCGTAGTTTTTCCAATTGGTTTACATTCATCGTCAAATTGCCTTTGATAGTACTCCGCAGCTTTTCCTATATCGTGGAAGGCTGTTAGGAAAATTGTAAGTTTTTTCAATTGTTTCCAGTCAATATCATATATCTTAGATAATCTCTTACTAGCTACAATAAAATATTGATTATTAAATATCTTTTCCACTTTGTTTACTGCACCTTTAGAATGGTCAATCAAAGTCTGGTTAGAAAATGCACAAGGTTTCATAATATACCACCTGTTTCGTCATATCCCTTTATTACTATTCCATCAATTCCTTTCTTTAAGAAATATATTGAAATACAATCTCTTCTTGGAATAGCATCTAAATATTCTTCCTTTCCATCTTTTATCACTTTTTTATTGCTTTCTAATTCTTTTAATGCTTCCTCCTCCGTTAGAGGAATTGCACAATTTACTGAATAGCATCCAGGCGGAAAACCCATTACCAGTGATACCTCCCTAGTAAGATTACATTCCTCCTCTATGAGATCCCTTGAAGTTAATGAGAACAATACATTATCATCTATTAATTCAAGTGACTTCAATAACATTGGGTTTAGATCGCTGTGTCCTTTTGAAACCGACATTAAACTTTGGTCTATTGATCCTCTTTTTCTAATTTCATTTAATGTTTCATTAACTTCGTCTCTATCATATACGTAGCCTCTAAATGGAAAAATTATAACCTCACCGTACCCTCCATAACGAGCTACTCTTCCAGCCCTTTGGATAATACTTGACGCTGGTGCAGCCTCAGTAATTAATCTATCAAATGATTTATCTATTCCAGCCTCTATAACTTGAGTGGAAATTACTAAATTATAATCATCAATAGATTCTATTTTTTTAGTCCTATCAATTTTATTGAATTTACTATGTAGAAGAAGAGGATTAAAATGTTTAAGAATTTTGTAAGCTTCTATCGCATCTTTTCTAGTATTAAAAACTATTAATGTCTTCTTATTTTTATCTATTGGGAATTTTTCTACGAGCTGGTTAATGGTTAGTTTCTCGTCATCTATAAAGTCCATACTTATCTTTCTTTCAATAGAAAAATCGTTAGCATTTACTTCACATAAATTTCCGTTTATTTCAAGTTCCTTCTTTATAAGTCCCTTAATATTTTCAGAAAGAGTGGCAGTCATAATTATAAAAGGTACACCTAAATCGTTTAAAGCCCTTAAAGAAGCTATGGTAGAAGTAAGAGGCCTACCCTCTTCTGAGAAAAGATGGAATTCATCAAATATCACTATCGAAGAATATATCATAGCTCTAGGAATCTCAAAATGAGAACCATTTCCTTTTATTACTCTTTTTATTTCTGCAACTGGTACTTTAAACAAATTGAGAATAAATGTATCAAGAGTAGTAATGTTTACTTTCTTTAAAAAATATGGGGAATCGGTAAAATCCATATCTTGGGCAGCTATCTCTCTTTTATCTATTCCCAATTTTTCAGAATTTTTTAGTAATTTTCTATACAAATCTTGAACTATACTCCTAAGGGGCAAAACATGAATTACCCTATCAAAGACTTCATTTCCTTTAATTGCTGCTAACGCTAAGACTTCAGTCATTGTAGTCTTTCCATATCCAGTAGGTGCAGTAAAAATTACAGATTTCCCCTCTTCTATTTTCTTAATTGTATCTTCAATACCAGATCTTCTTGAAAAATTCAAAGCGTTTATAGTATAATTATAATAATCCATTAAATTAGTTAACGACGACGATTTCTCCTCCAACATCGTAAGCCTCCTCCGCTTCTACTTTTGCTTCCACGGAATACAAAGGAAAAGAGGATATGGGCACTGCATACGTTTTCTTTTCTCCTTCCTCTCCCCATGTCTGACCTCCTTCCCAAAAATCTATATATTTTATGAATGGTGAAGCATCGTGTTTGACTGTAGCTGGAAAATAATATTTTGTAGTAACTCTACCTGAAACTTTTTTTGCTTTTCCAATCTCAACATTTTCTACACTAACTATTCCTTCCTTAGAGCCTATCCTAATTATGGACCAACTTAATTTCTCTAGTTCTTGAGGTTGAATCTTATCTGTAATGAATACTACTATCATTTCTCCATTTGGAGAATATATTTTCCCAGTAGGAACAATATTGTATCTATATGCCTTCTCTTTTCTTCTTTCAGGTCTTTGGAAATACGTTACAACGTTCCTGACTATATCCTCTATATAAATTCCTGCAGAATTATCCTCATATCTAGCTGCAGCTATTATGTTATCGAAGTTTTTAGCAGGGCTACATGTTTTCCCTCCAATTTTTACTAGATCTTTTCCCCTGAATTTGCCATATGATAGGGCGCCTATAAGGGTTGTAGGAGGAGGAAGTAATAAACCAGATTTCGATTTAGAGGATAATGGAGAAACTACAGAGAATCCCCAGTGAAATTTTATGTATACCTTAGAATAAAAAAATTCACTCATTATTTTCACTAAGTGATGATATTAGGTCTTCTGGACTATTTACTACAGTAGCTTTTCCTACATCAATACCTTCTTTATTTATGGCGTATATTGACGTAGAACTACCGTTCAATATTGTTTTTGCTCTCTCTATCCTTTCAGACGTTAATTTAATGTAATCTTCTGAATGTCCAGGCTCTGGAATAAATGGAAAATCACTCACCGTAACTACTGCAGATTTTAGTTCTATTGATGGCAAAAATCTAGATCTCTTTCCTCCAAAATATCCAGTCATTATTGAATAAAGTGCATTTATAGCCACCTTTCTCCTTTGATCTTTAGTTTTAACTAGCTCATCTTCTTTGTCTACTTTCTCTCCATAGTTAGAAGGAATCCCTATGAATTCATCGTCTAATGAAAAACTTAAAGTGTAAAGAGCAGATCCAACTTCCACGTTAAATATAGCCTGTTTCTCTTTGGAGCTAACTACGGAATATCTAACGTGAAATTGAGCTTCTAATTGTGCAGGTATCTCGTCTTTAGATAGGACTGGAATCATGTAACCTACCATAAACTTAGAAGATCTCCTTACAGGATATTTACCAGCATACATAAATCCTCCAATATCTGCTACAACGTCTTTAAGCATTACGTCTACCTCGAATCTTCTTGCATCATTGTCAGATTTTGGTGGATTTATTCCTTCTTCTTTTAGCGTATCATCGTCTGAGAATTTTATAAGCTCCCCTTGGTAAGTTTTTAAAGATACGGGTAATCCATTTTTTTTAGCTAAATCGGCTACAGCCATTTGATATGCATGGGCAATCGATTCTCCAGAGATTGCTGGAACATATCTTACAACGTATCCGCCATCAGATGTCCGTACAACTACTGGAGCTGTTCTATGTCTTGTTAAGTTACCTACTGATTCTACTCCATTGAGAGACTCGACGTTTATTAAAAATCTCAAACTTCCAGAAATCATTGATTCCCACCTAATTTTGCTTGATTTACAATAGACATAGCTATGGCGCCTGCTTTTCTTGCATTATAAATATCTTTCTCGACCTCTAGTAGGAAATTCTCTATATCTGAAGTTGTTGGCAAATATCCATAAATTGAGAGCATTTTCTCTCCTTTTATAGATATTATAGGATGGTCATCCTTTTTATTTTGGAAAATATCTCCCTTAGAAATTCCACTTTCAATAATTCTTTGAGAATCATTTAAAACTTTAGTTATAGCTTCCTTTGATAAAGCATTTGCAATTCTGTCTATGAGCGTTGGAGAGTCCGTATATAAAGACGATGTTGCCAAAAGGTTAGCTATTCTTTTCAACACACCTTCATCCATGAGAGATAATTATATAAAGAAATATATAAGCTTTTATGATATTTGGTGATGAAAGTCTTTTCAGAATTATGAAAAATTATTATATATACTAATGAATATTTCTCCTTTTTTAGTTAGAGAAAGCTGTTCTCCCTCTTTCTTTATATAATAATTATCTACTAATTTATTCACCTTCCTCCACGCAGTAGTTACTGGTATTTTTACTCTTCGTGAAATTTCAGACACACTTTTTTCACCTTCATGAATAGCTAAAAGTATTTTAACGTCGTCCTCCTCAAAATCTTTCCTTACCATTTCATCTATTCTCCAAGAAATTACTCCCTCTAGACTCTCAGCTTCAACCTCAATTTCAGCATTTAAATCAAGAATTAAGAAAGCTGATAGAATTTCCAAATTCACAATTCTCATACCACTAGAAAGACTCAGAACAAACGAAGTATATTTAGAAGACTTAATCCATTTGGAAATAGAGGAGACTGAAGATACGTAATCCAGATAATTTATTTCAAGAATATTTAACTGTACTGATACTTCTTTAAGTAAATTATTAAAAGAGTCAATTGCCTTCTTTACTTTCTCATTATCTCCCAAAGGTTTAACTAGTAAAACTCCAGATATTTGCGATCTACCTCTCCGTAGAAAGGCTCTCAGCAAAAACTTTTCCTCAAAACCAACAGAAGAAACTAAAAGAGACATGATTTAATTAATAAAAGAAGAAAAATAAGCTTGATGCTATAAAATGCTTTGCTTAATGGTTGGATTTTACTAAGCCTTAGACTGGATCAAGATAAATTCTAAACTTAAGTTTGATTAAAATATGTTAACATTTTTCCTGAGGAAATTGAAGTAAATCATAAAGCATGAAAGAGGATAGTAAATAATAATTTTATTTTACTACAGTATGTTTTATGGAAAGATATCTCTGGATCTCCTTTATTCTATTGGCTTTAGGAATAATATTTGACGGAATTTTAATTCTATTCTTTATATTCTCAATATTAGCCCTTATTACAATATCGTTAAAAAGAAAAGAAGTATTTAGACTATTTTTATCAGCAATGCTAATAGGCTTCATTTTCGAAAAGATTGGAGTATCTACCGGTATACCTTTTGGTCATTATTATTACAATTTTCCACCCTACATTCTAGGAGTTCCAATATTCGTAATTTTTGCATGGGGAATTATCTCATTTATATCTTATTTGCCCATAATGCAATTCCCAAAATATCTAAAAATAATATTATTCCCATTAATGATGGTAATAATTGACCTATCTGTAGATCCAATCATGGTTTCAGCCCACTATTGGACATGGGAATATTCGTCATTAAACTGGTTCGGAATACCTTTAACAAATTTTTTAGGGTGGTATATAGTATCTATGATTATTATCATTTTTAATTTATTTAAGATGAAAGAAAATAAAATACAGACAAATCCCTTTCCAATAATTTATTTTCTGTTTTCTCTAAAATTCTTCATTTTCGCAAAACTAAAATTGTTAGAACCCTTACTTATTGCCACAATTATTTCTTTATTAATGACAATTTTAATATTCTATATTTCGAAAAGAATTCAGCCAATTTGATAACAAGCAAAACTTAACAAAAACTCTTTCACTTCACAAGAATATAATCCATTACCTTTAAATTTGTTATTGTTTTTGGACCGGTTAAATTATATTAGATCTTGGACGTTAGATCAAGTAAGTTCTAAATCTATCGATTGATTAAAAGTAAGTTTAATATTATTTATGAAAATAAAGTAGCATATAAAACAAATTTATTATAGTTTTATTGAAAAATCTCTTATGTCTATTATTTTAACCAGATATTATTACTTCTATAACTTAATCATATTTACTATTAATAATATTTAATTTTATAACAATTATTTTTATATATTATATTAATTTATTATAAATTAATTTTATGATTGCTAAATATCTATTAAATTTTCTATAAAATCATGAAATTAAAATTAAAATATAATTTTTTTAAAAAATACTACTATCCAGAGATTTTAAATATCATCAATACAAGATTTACCAATGACTAAGATTTGTCCAGTTTGTGGCAAAGAAAACGATGATAATGCTCAGTTTTGCGTTAATTGCAATTACGATTTTTCCTCACCTCCTCCAGTTCCAACACCTTCTCCTTCAAATTCTTCAAAATTCCCTAAGAAAATTATAGGAATAGCCGCAATCATAATAATTATAATAGCTGCAATCATTTTTTTACCTTCATTTTTCCACCATCCAACTTATACGGAAGCCTCGGCTGCAGAAAAAGCATATGGAGGAAAATGGATAGTTAACACTACTTACAGCGGGACTGAAATAATAAATTCTAATAATACTGTATCAATAAAATTCTTAAATGGAACTTCAACAGTGCTAACAGTAAATTCTACGGGCTTAGCCGGTACCAAGGCCTTAATAATGATACTAACACAAAAGAATTCCACAAATTATATTGAGTTAGCCGACATAAATTTCACCAATACCACAGTAGCATCAAAATATTTCTCATTCTTCTACACATCAATAGAGGAAGAGTCGTCTTTCACCAACATGAGTATTAATAATGCAACATACCAGAACTATAAACTAGTATATATTGCAGGAGGATCAGTAAAAACGGTTTATGGCATATATCCCGTTCCTAGTATTGCAATGGCTATTCATGGATCAAATGTAATCACTTTAAGAATAAACGGATTTTCGTCTAATTTAAGCCAAATAGTCGACTTATTAAAACCATTAATTTAGACATTATATATTTTATATTTATTTTTCAATTTTAGTTTTCGACATGATTTATGACAATCACACTTTCAACTCTATGAAAGATTAACGGCTCCTCCACGTCGGGAGGAGGGACGGGGTTTTCCTGTACCTTTCAACTCTATGGAAGATTAACCACTTTCACACAGGAAGGAGCGGGTTCTATAGATCTCGACTTTCAACTCTATGGAAGATTAACATGCTTTAGATTTCGTAGTAGTAGTAGTAGGCGTCATAGTCTTTCAACTCTATGGAAGATTAACGATATTCGTAGATCTGCCGCGTACTGGCATATAAATTATCTCTTTCAACTCTATGGAAGATTAACATGGCGAAGGAGAATGACATGCATGAAAGGAATGAGAATGCTTTCAACTCTATGGAAGATTAACCAAATCCAGAAGTATTAGACGCTGTAACAAATATAATAACCTTTCAACTCTATGGAAGATTAACATTATTATGTTGTCTTTTCGTTTGGAAGAAGGGAAAGTACTCTTTCAACTCTATGGAAGATTAACTATTTTCGTAACAGGGATATGGAAAAGTGATACTGGTATTACTTTCAACTCTATGGAAGATTAACCCGTCAACCGTCCAAGTGATATTCTTTTGAATTATAACGAGCTTTCAACTCTATGGAAGATTAACTGCGGAAATTGCCCTAGGTCCTATAGCAAAAATTGCCCTCTTTCAACTCTATGGAAGATTAACTTATCATTTGCTGATATTTTTCCAATACAAAGCACAGTAATCTTTCAACTCTATGGAAGATTAACAAAAAGATGATCTATAACGGTAGCAATTTCCACATAAATGACTTTCAACTCTATGGAAGAATAACAGTGCCATGTCGGTTGGTGAAACTTTATCAACATAGCCCTTTCAACTCTATGGAAGATTAACTTATTTTTTTAAACTAGTTCTTAACTAGAGTTATATTAGCTTTCAACTCTATGGAAGATTAACACTGAAGGGTAATAAAAAGCAGATGGCAGTGAAGTTAATGCTTTCAACTCTATGGAAGATTAACAGTATTACGTATTTCTGAATGATGTCAAATACAGGGGGTTGCTTTCAACTCTATGGAAGATTAACTAAACGTGACGAATAGGGTTATTATAGGCAACGAAACTTTCAACTCTATGGAAGATTAACTAGTCGATAAAAAAATAGCAAACGACTAAACGTAAAAATACTTTCAACTCTATGGAAGATTAACCATCTGAACGTCGATAAAAGTAGTGTCGTCTGGTGGGCGTATCTTTCAACTCTATGGAAGATTAACTGCGATGAGATGGAGTATGACACCTTAGCGGTTAGAGCAACTTTCAACTCTATGGAAGATTAACCGATATATCGAATTATTGCCGGTAGGCACAATCACGCTTTCAACTCTATGGAAGATTAACGAGAGCAATATGTCACAGTCAAAAAACCCAAGATGGGAATCTTTCAACTCTATGGAAGATTAACGCGTTTAAGCCTGGGGTAGATCTCCCTGCTCTCCACTTGTACTTTCAACTCTATGGAAGATTAACGGAGACCTAGTAGATTTAGGTATGGATTTCTTCTACAGGTCACTTTCAACTCTATGGAAGATTAACTTAATTAACGGATACACTAGGCTGAAGATAGCTAAGGAATTCTTTCAACTCTATGGAAGATTAACTAACTCTGGAGTTTTAGAACCTACCAACATAACTTCTAATTCCTTTCAACTCTATGGAAGATTAACTGAATGTTTTTATACTTGTACTATTCTTTTTCCTTCTTTTATTATTTAAGGTTTTCTTTGTCTATTTCCTTATATTTTTTCTTTAATCTTTTACTCATTTTCTTTTTTCTTTATTCATTTTTTGTCTGTCCCGTGTAATTTCGGGATTTTTATGAAGAGAAATTTTTAGTCTTCATTTGGAGAACGTTAAAAAATTTTATCGTAAAGTGAAAGAATCTCCCGATTTTTGAAAAAATCATGAAGATACAAAGAAAAAGAGGAAAAAATTAGTATATAGACATGAAAATAGTTAAAATTCTTATTATTGCTAAATAGAAGTTTCTCGATTGAAAACTTGCATTTAATTAATAAAAGTTATAAATATGGATATAAATGCGTTATAACTGAAAATAAATAAATTGTAAAATCGGGAGTTAACCTAAAGTTGATTGTAGTTTGTCTAATTAGATTACTATTAACATAAAAGTAAATGATGTTGACTAGACTCGACATGATAAGAGGGTTGAAGAGCCTCCACGAAATAAGAGCCACTGATCCTGTCCAAGAAGAATTAAGGGGATGGTACTACTACAGTCCTCCAGTAAAACCTAGAGCTTACCTTTCTCTTTCTATTTCAGATGTAGCATATGCCTACTGTCCTACCAAAAGAGACGTTTATCTTAGGAAAGTAACTGGATCTAAAGGAAATTACGAAAAACCCCAGATAATTAACGGTACCGCTATTCATAAGGTGTTTTACAAAGCATCAAAAGACGTTTGGAGCATAATATCTTTAGGGAAAGATCCTATAGAATCTTTTAATTCTTTAGCTCCAGAATTGGAATGCCCTCAAAATCTTCAAAATTATTGTATAAAACTCTATAAATACTTGACTATGTTATGGTTATCAGAAGTGGCTAAGGCTAGAAGTTCCTATGGTGGAGAATCTATTGGTCTAGTACCTTGGCTCAGCGAAGTGAGAGTAGACGGATCTATGCTAGGCCTTTCAAATAGGTTATCGATAGATGCTATAGCGGATTTTTCTATAATAGAGATAAAAACGGGAAAGCAAGAAGATTTTCACAAATTAGGTGTAGTAGGATACGCATTGGCCATAGAATCTAGCATGGAAATACCTATAGATTACGGATTTTTAATATATGTAAATGGATTTAATAGAGATAGTATAGAGATCTCAACTAATGCTATTTATATTTCCTCTGACTTAAGGAAAGAATTTCTCGATAGAAGAGACGACGTAATTGATATGATATTAAGTGAAAAGGATCCTGGAATGCCTGCTTCATGCCCAGATAGTTGTCCGTTTATAGAGGTGTGCAGAAAATGAAGTCTGTTTTACTCTCAAATTACGGTGTAAAGCTTTCTGTAAAGGGTAGAATGTTTATACTCTCTTCCAAGGAAAAGAAGGAAACCATATCCCCGGCAGACGTGGACCAATTTGTTATAATAAGCTCTGGAATTTCTATTTCATCAAAGGCAATAAGGTTAGCAATGGAATACGGCATAGATATGGTTTTCCTTGATAATAGAAAGAATTGGGCTAGGATATGTTTTTCTAACCCTATTATGACAGTCGAAAACAGAAAGGCCCAGTACATAGCTATTTTACAAGGTAGAAAGGAATTCGGAGAAGAAATAATAAGAGCAAAGGTAGAGAATCAAGCAGGTCATATAAAATATTGGTCTAGGAAGATAAAAAGAGAAGATTTCTCTCAAATTTTGAATTACACTAACAATGAAGCAACAGCAGCCAGAATATACTGGAGTATGATAGCTGACTTACTTCCTAATAAAATAGGATTTGAAGGAAGAAATCATGACTCTAAGGATGTTTTCAATATAAGCCTAAATTATGCATATGCAATACTTTATTCAGAATGCCATAAAGCTCTGTCTTTGGTAGGCTTAGATCCCTATGCAGGATTTATACATAAAGATAGGAGCGGTAACGAAAGTCTTGTCTATGATTTTTCTGAAATGTTTAAACCAGGAGTAGTAGATTTTACGTTAATGAACATGATACTAGAAGGTTATATACCGCAAATAAGAGACAGCTTACTTTCTCCGGATAGTAGAAAAGAAATAATAAAAAGAATTAATACAACGCTAAACTCTAACGTAAAAGACTCTGAAGATGGTGAAGTAAGAACATTTCTCCAAACCATAAGAGTATATGCTATGAAGATGTCATCCTCATTAAAAGGAAAAGAAAACTTCAGAGGGTTTGTTCAAAGATGGTAAGAGTAATAGTAATTTATGATATCACTGACGATACACAAAGAACTAAATTATCAAACGAACTTTTTAAAATAGGACTTTCAAGAATTCAAAAGAGCGCATTTTCAGGAGATATAGATAGCCAAAGATTCAAAGACTTAACAAGAATATGTCAAGATTTCATAAAATCTTCTAACGATGTCATTCATGTAGTAACTTTAGGGATTAGGGATTGGGAAAGAAGAATAGTATTAAGAGGAGAGTAAAATGATCCCTGTTACATTATTAAAGCAAATGGATTTCTGTGAAGCTATACCATGGATAATTCAAAGGATGAGCTATCAAGAACCCGATACTTTTTCTTTAATAAAAGGAAGAGAAATAAATCTTAACGATGTCGCAAAAAAATTAAACTTGGAAAATCCTAAATTCGAAGTTTTTGTGAGTGACTCAATAATATCTGGGAAAGTTGATATAATAGGTGGTAAAAATAGACTAATTGTCGTGGAAGCTAAGGAATTTCATAGAAGAAGTTTTCTTCACTTTAGAACGCAACTATTGGCATATGCATATCTAGTAAATAAGGAAATAGCTCCGGTAGAAAGGGCAATATTATTCATGGGGAATAAAATAGAGCTTGATATAAAGCTTGATAAAACACATTTAGAAGCAGTAGAGAATAAAATTCAAAAATTGAAGAGTATATTAGATTCAGAAGATCCACCCGTGGTTAATAGGGATAAAAAGGATTGTATCTCTTGCCAATATAGGAGAATATGTCCAGTAACCTCGTATTAATTATGTTCAATACTTATCATTTTATATTTAAAACTTGGGATTGCCTATAACAAATTATTTCGCCTAGTTTACTAAGATAGTATCCTCCATTTTTCCCTTTCTGAAAAACAATTCCGGCTTCTTTCAGTTCTATTAAATGATTTATTAAAGTTTTTCTAGATCTATTCATAACATTGGCTAGTTCATCTATTGTAATTCCCTGATTTCTATATATATTTAATAAAATTGCCATTTTTTCTTTAGATATATTGGAAATTAACGATTTTAATTCTAAATTTTCGAAGAAAATTTCAAAATTATCCCCTTCTTGTGTAATAAAAAATTTAGCTTTCTTGTTTACTGCCAAAGTAGAGACAACAATCGCAAAGCCTATTAATCGCATTCCTCCAGAAACATCTACTATAAAAGGCTCTGGATATTGTAAAATTTCTGTAGATATATTTTTTACTATATCAAAAAAATCAGTAAGTTCTATTTCTAGAAGATTGGGTTCCTTAAGAAATAACTTAGAACAATAAGATTGAATTCCTTGATATGCTCTTAATGATGCTCCAGCTATAGGCTTAGGAGCCACAAGAAGTATATTATCACTTTTATCAGCAAATGTATTATGTAATCGCCTAATCATAAAATCCTCATGAAAACCTAAACTGAAAAGATAAGTTTTCATAGATTATTTATGGTATTACTTATTTTAAAGTATTATCTTCCGTTAACTTTACGCTAAAGTATGTGAAAATAACTATCTCTTGTACTAATTTTTTCCTCTTTTTCTTTGTATCTTCATGATTTTTTCAAAAATCGGGAGATTCTTTCACTTTACGATAAAATTTTTTAACGTTCTCCAAATGAAGACTAAAAATTTCTCTTCATAAAAATCCCGAAATTACACGGGACAGACAAAAAATGAATAAAGAAAAAAGAAAATGAGTAAAAGATTAAAGAAAAAATATAAGGAAATAGACAAAGAAAACCTTAAATAATAAAAGAAGAAAAAAGAATAGTACAAGTATAAAAACATTCAGTTAATCTTCCATAGAGTTGAAAGGTTCTCGAACTGTATCCTCTCAACGTCGCTAGCAAACATTGTTAATCTTCCATAGAGTTGAAAGTTTGACATAAAACTTTTTTATATTTAAACGTTTTAACGGCGTGTTAATCTTCCATAGAGTTGAAAGTATAGTACTATTAGACCTATATGCCATGGAAAACGGGTTGTTAATCTTCCATAGAGTTGAAAGAGTACTAGTAGCTCAGGAGGACCCTAAGTATAATATTCCGTTAATCTTCCATAGAGTTGAAAGCTCCAGACAACACCAAGTAGTAAGGCGTGAACATGCTCATGTTAATCTTCCATAGAGTTGAAAGAGTGCTGTCCCGCAGCGTCATAAATCACCTTGTTCCCGTGTTAATCTTCCATAGAGTTGAAAGATTAATACAAAACCAGCTTTTTTATAAATTGTATTTGTATAATGTTAATCTTCCATAGAGTTGAAAGTTGACTGAGGGACATACTGTAACTTCAGCGTTTGCACTTCGTTAATCTTCCATAGAGTTGAAAGGACTGCAATTGAGCTCCACAGCCCGCCTGGATGGTAGCATGTTAATCTTCCATAGAGTTGAAAGTAACCATTACGATGTATAGCTGATCGCCTACATTGGCCTGGTTAATCTTCCATAGAGTTGAAAGCAACACTGTGCAAGATATTGCAAAAAAGTTCAACTGCGGTTAATCTTCCATAGAGTTGAAAGTTTCACTCAAATCGCTCTTATTCCCTTCTCCCTTCCATTGGTTAATCTTCCATAGAGTTGAAAGAACGTCGTTTGAGACGCTGACGGTGCCGTGTTGTTATTAGTTAATCTTCCATAGAGTTGAAAGCAGCCTTTTCCCTAAATTTCTTTTCTGTTTTTATTATATGTTAATCTTCCATAGAGTTGAAAGAAAATATGAATGAGTAGAATTGAATTTTCTCTTATTATATGTTAATCTTCCATAGAGTTGAAAGAATTTCGGGCTTTGCGCCTGGCCCCTTTTCTAACTCTCTGTTAATCTTCCATAGAGTTGAAAGCATCAACGTTAATGTTATGTGACTCGGCGTACTCTAGCACCGTTAATCTTCCATAGAGTTGAAAGATACATTCTTCAGGAGTAACGGTAATATTAAGAACTTCTTGTTAATCTTCCATAGAGTTGAAAGTGTTTTCTAATCATTTTTTATAGTTCAAAACTTTCTCTTGAATAGCTTTGGCTAATGCCTTTATTTCTTCTGGAACTTTAACGCTTTCAATTCTATATTGCCCCATAAAAAGCTCCTCAATAAAAGGCATAAAAATCTTAATATTTTCAATATCTGCTACTGCATATTCAGCGTTTTTCATCTCTTGAGGAAATGGTGGTATCATATTAACTACTAGTCCCCATAGTCCTTCAGATCCATAAGCTCCTTTCTCAAGTCCTTCAATATATTTTTTAGTTTGCTCTATTGATGACTCGCTAGGATCTGTGACATAAATTCTAAACCTTTTCTGATCTGAAAGAGCTTTCCTGAACATATTTCTTTCAATCTCTACTATTTCATCGTTGAAGGTCACTAACGAAGGGTTATCAACTATGTATACATCAAAATTTCTTTTCAATATAGAATAGTAGGCGTCTTCTAATTTTTGTCTCAAAGAAGGATCCTCGGCTTTCTTTATGTCGTAATAAAATCTTCCATAATCACCAAAAAATTTTAGCACAGTTAGTCTCTCTAAAACAGTTTTACAAGAACCTTCAATTTTCTCTCCATTAACTACTTTGTAAAGTAAGCCTGGATCCTTTATTCCTATAAGATTAGAGGCCCAAGATAATGGATCTCTATCTATTAGAAGGACTTTCTTTCCTTCTAATACATATTCCTTAGAAAGGAGAAGGGAAATAGTAGACTTTCCTACTCCTCCCTTAGCTCCTAGGACTACAATTCTCATTATAAGTTTATATAGAATATGTACTTAAAAAAGGCTTTTATGAACTGTATAAATATCTTGGATAGAGTTAAATTAAAAGTATAAACAAATATTATATTTCTACTAAGAGAAAAAGACTAAGAATAGAGTAGATTATTATGGCAGTTAAGGATTTTCCTTAAGTAATCGTTGGTGATATTTTCCTATTATTATTTAAAAATAAAATATTCAGTTGAGGCTTAAATAACCAATAAAAGTGTGGAAATTTTATACAGTCTATTGAAATATAATGATTTCGTTTTTAAGAAAAATGAGCTCATAGTTTTTTCTCTTATATAAAAATTATTTTCTCGTAATACTCTACACGATAATAGAAAACAATGAAAAAAATTTCATACTTTTCCACATAGTAAATGAAAACTTTTAAAAGTCACGAACCTTAATAAAAGGATTTTAATAAAATTCGCGGATATTATAAAGAAATAGCCTAAATCAAGAAATTGAAAGCTATATTATGATCAAAATGAAAGTTCAAATCCTCCAAAATCAATACTTTATAAGATATATTTTAATAGGAATATCTGCAGCGTCATTATTAATGGCGTTACATGGTCTAATAGGACATGGAGAAATTGTTGAAGGCGGATTTCCAGGTTCTGGATAAATATTATAAAGGAAACGTTTTTAAATATATATTTTAGAACATTTATAAGATGAGCTTTTTAGCTGAAGATTCTGCTGTTTCTAAAGTTCTTTATTATGTTCAGAGATTCGGAGATCTGAATTCACAAGTGATTGGCGCTTTATCGAAAGTAAAGTCTACTAAAACTATAATAGACGAATTACGTTTAAAAAAGAAATTATTTGTATCGTTATCACCTAGGCATAGGAGTCTTGGACTTAAATATTATATAGCTTATGCTATTGGAAATTATAATATATCATTATTGAATGTTTATAATATTCTAGACGAAATTCCTGTTGTTATAGCTCGTAATATAATGAATCCAAAAGAGCTAGTAATGGGTCTAGTTTACACTACGCATCCTTCATTTATTAGGGGATTGGAGGCTTTAGTTTCTGCTGGTGTAATAAAATACTACGAAGTATATGAAGAAACTCAAAGATTAGAATACCCAATAGATTATTCTTCATTCGATTTTAAAGAATGGAAATATAGGAATAATTTCTTAGTAAGTGAACGTGAACCCTTTGATTTCCCTGATCTTTCTGACGATTTTTATCCCGACACTTATGATGTAACAATTTTAGGAAAGAAACAAGCTCATCCTACTTATTCCCTTAAAGATATTTCACAATCAACACGAATTCCATTTAAGGACGTTTTATATCATTATCAAAATCACATAGTCGGAAAAGGTTTAATATCTGTATACAGAACTTATCTTTTTCCTATAGATTATAGAATATCTATCTTTTTCAAAGATGATAAAGATCTTATATCTGAGTTGAGTAGAATCCCAACTTTGCTTTATATCTCAAAATCTGAGGAAATGGACTATGCCATGATAGTTGGTCAGAACTATATGCTTTTTGATATTCTTAACTATCTAAATTCCTTATCAGAAAAATATACTGATATAAGCATAAAGGTTCATCCGAATAATTCTAATTATTCGTTAACTGCTTCAATACCTTATGAGCATTTTAATGGAAAATGGAACTTTAACCCTGAAGTCATGGTATTAAGGGCTGAAGAAAGTCTATAAAAGAAGTTTTATGTTACGCTAAATCCAAGGCTCTGTAATTTAGCTATTAATTCGCTACCTTTATGAACTTTGCTAAATCTCAATAATTCTACACCGTTTTGTAGGAAAACTACGTCTTCTACAACGTGATTACCAGCTGTCCTAGTATTTATGTACTGCGGATTTACTGCAGATACTAGAAGATTTGGTGTATTAAGAGGTATTTCATTCTTTATTTTTCCAAATCTTAAGTGTAAGGCTCTTTCATTTGTCACAACGTATTGATTGGCAGATCTTAATAAGAAATACATTCCTAAACCTAGTATAATTAACATGATACCGAGAGCTGCTAGAAATATTGTTAATGTTAGTATAATACCTATGATAACTATTGCTATTGTATAATTTTTTCTATAATTGCTTAATGGGAACTCTTTCCAAATTATCTGTTCTCCAGGATTTAAATCCATATTTATCTTAAACTGAACAACTTGATTTTAAGTTTTTTAATCATAATACTTTCGTTTAATTAAAAAGTACACTCAATCATTTTCCTCTTAACCATGCAATAATGCACTATTTTCTAAAATATGTAAGTAAATCTTTTCATAGAAAAGAATATTCTTTATATGTTTTTCATAGATCAGAAAAGTTAATGAGAAGTAAGACTTAAAAATAATCACGTAAGATAGGAATTTTTGAATTATGATGAAAATTCAAATATTTCATTGTCATTAAATGAAGCGAAATGTTGATTTAGCTTATGTAATAACTTAGTTTATGCAAAGCGTTGCTGTTATAGGGAGCGGAAAAATAGGTTACGCTATATTAAACGCTATAAAATGCAATTTTAATGTAATAGCTACTGGTAGGAGGGAAGAAACTATAAATAAAGTAAAGTCTTTAGGTATTGAAGGTACAAAAGATAATGATTACGCTGTAAGGAAAGCCGACGTCGTAATTCTTAGCGTTAAGCCTCAGCATTTTTCTACTGTTCTTACGCAAGTTAATAAGGAATCTTGGAAAGGGAAAACTGTAATCTCCGTAATGGCAGGTATAAAATCGTCTACCCTTTCTTCTCTTCTACCTCAAACTGAGGTATATAGAGCAATGCCAAACATTAATGCGTTAGTTAACAAAGCTACTACGGCAGTAGCTGAAAGAGAAGGGGAAAATAAGGAAATTGTAGAGAAAATTTTTAGATCTATAGGCAGCGTGTATTGGATTCCAGAAGAGTTAATTGATGTATGGACAGCATTAATAGGAAGTGGTCCAGCTTTTATTGCAGAAATATTGGACGCGTTTGCTTTGGGAGCCGTTGCTTGCGGAATGCCAAGAGATTTGGCTTATGATTCAATATTAGATATGGTAAACGGTACGATAGAAATGTTGAGGTCTAATAAATCTCATCCAGTTATATTGAGAGATCAAGTAACTACTCCTGCAGGAACCACTATAAGAGGGCTTATGACCATGGAATCTGAAGGAGTTAAGTCAGCAATAATAAAAACTGTAGAAGCATCATACCAAAGATCAATTACTATAGGAAACGAAATTGACAAAAAATTTAGGATGTAAATTTAGATATTTCATTATTGATAAAATAATAAACCTATGCAAAACCTTAATTGAATTGTTCTTGATGGATTTTCTATATGAACAGTTTTTAAACGAAAAATCGTTAATTTAGAGATTCTCACAAATAACTATAAAAATACTTTTTAATAGATTAGTAAATAAAACAAAATCGGATACTTTAGACCTCAGTTTCCGTTTTCAGAAATAATATCTACTTTGAAATTTCCCTAAAGTGCTATACTAGTATTTTCTAAAAGTTCTTATACTAGGATTTGGTTGTATATCCTTAAGTCTAAAGCTATAAACGTTTTGAAAGCAATAACGAAAACTAGCGCATTTTCTGAAAGAAAACTTTGTATAAATCTAATTAAAGCTTCAATAAATCACTTATCTTGTTTCTTATAAAAGCTAAATAAAAAATTTAGTCAGAATTAAATTCCTTTGGATATCATTTTTCATTAGGAAAATATGAAAGTAAGTAAATACTAGTATTGTAAACTTCATTTCCAAACCATATTTCTGCATTAATAAGCTCCATACAGTTACCAGACGATGTGTTTGGCCAGTTTCCGATTTCATAGATATGATTTCCTACATTAATTATGTTTGAATATAGTTTGTTATCAACTTCTATCTTAGAAGGTTCACGTGGCAGTATTGCGTAAAGTTTACCATTGTGGGAAACTAGATATGGAACGAGTGGCGTTGTTATCGTAAAATTAAGTTTAATAGTAACGTTTGTTAACCATGAATAAACTAATAATTCGTAATTACCAGGATTTAGATCTGATAATCTGGAAAACGCGTTGTAGAAAGCTGTGTTATTAGGAATTGGACACAAATAATCTATCTTTTTATAAAACCACATAGTCTGTCCAGGCTTAAACGTATAATTTTTTGGAATGATAATAGGACTCCCAAGTATCACTCCTGTTGGTAATAAAGAATATGCCGAATCATTTAGTGGATTCAATATCTCAATATTTAGTGGATAACTTCCAAATAATTCTATTGTCGTGTTGGGTTTAAAAAATTCATCAGTAAGTATTATTATAGAGCTATTTCGAAGGTTAGTAAAGGAAACATTAACATAATAGTAAAATCCATTAAATCCTAGAGTTACATTCTCTGTAAAACCATTACGCGTTACAGTTAGTAGTTTACTTCCATTTAGTGAACTGCCACGCCCTAACGGACGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCAATATGGGACTGTTGAATGGAGCAGAGGCGTACCACATAGACCCTCGCTTTAACCAAGGCGTCTCAGTGACGCTTACTCCGTCAGTGACTGCCATTAATAGAATATTTGAAAAATACGTATTTAAATGTAACCACAAAGGAGGCTCCTACGGCGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCTTTACAAGAGTAAAACTTTTATAAAGAGAACAAGAAAATAACACAAGCCGAAAGTGAACATGGGGATAAAACCCCGTTGGATAGGCTGGCTATACGTCCCCGCGATCTAACATGTGGGACAACATCCCGAGTAGGAGCGTGCAAAAATTTAAGGGGACGTTCTCATAGTTAGTTCGCACTATCTCCTAACAAAATTAACAATACAACGCGTATTATAGAAAAATTCAAGAATCAGAAAAAGAGTATTACACATACAAAGTGAAGATCCTAAAGTTAACCTCTATCGAGTGGTTTCCTCGCCTCTTCAAGCTATCGCCTAGCCATGTTAGAGGCGAAGCATGTGGAGCCTATCCATCTCCACCCTTACCGGTAGACCCAAAATCATATTAGAAAAAATATTTCTGGTAGGATAATATCGAATTTATAAAAGATAAAGAAATTTATAAGAGTGTAAAGAATTGAAGAAAGGGTTTAAGGTGAGGGAGATGGAGTATTACCACGTGAGATAGGAAGATGGTAACACCCGGTCTCCCTCACCAAAATAACATTCAACAAATAGGATATAAATTACTTTCCATGTTGAACTTCCAAGGGGAAAAGGTAGATGAGGTAGCAAAAACTCTCATCTCCGCGTGTTTGTGGAACGATTCAGTAGAGAACAAGTCCAGAGCGTATGACGTATCCCCACAGACCGTGAGGAATTACGTAGAGAAACAAGGGATGGAAGTGATTGAAAAGCTATTGGAAAGAGCTAGGAAAATATCCTTAGAAGTACTGAAGGGAGTGAATGAGATAGATCTTTCAATAGACTGGACAACCAAGACGTGGTATGGGAAACCAGTGAAAGGGCTCGGGAGCTCTGAAAAAGGAAACTCGTGGAACTACGCAACTGCAACAACCAAGTATAAGGGGAAAGTACTTTTACTTGCCTTTATTCCGCAAGTGAACGGTATGACTAAGGACGAGATAGTGAAGGTTCTTGTGGAGCAAGTAATGGCAATGGGATTCAAGATAAGGTTGATAACTCTTGACGCTGGTTTCTACACAGTTGATGTGCTCAATTTCATTTCACAGTTTAAGTATATAATTGCTGTCCCAGCTGGGGACGTGAAGGTGTTTGAGGAGTTTGACGGGGATTACACAACTAATAGTAAGTAGGAGGGATGAGCAGGTCAAGTTCAGGCTTCTCGTGTATAGCAAGGAAAAAGTGAGGAGAAAGAAGAGTCTTGTTTATTTTGCTAGGGCTACTAATCTAGATCTGCCCAAGAGGGAAGTGTTGGATTTGTACAATAAGGTAAGAGGTCCCATAGAGACCTCTTATAGGAACATTAAGGCTTTTCTTCCATTTACTAGTTCTACTAAGTTTGTTTTCCGCACGTTGATCTTCGTGCTGGCCCTTGTACTCTACTCCTTATATACCATATTCAAGGGGGAGGTGGGGAGAGAGGAATTTAGATTATTATTAATTCTTTTATTTCCTGATTTATTCAATCCAGAGAATTTTACATTTAATATAATTGAAACACTTATTTACACTATAGATTTATTTTTAAGGAGGTGATTTTGGGTCTACCGGATAATGAGGGGCATAGGTAAATAGATTTCCATTAAATATCCACTAGCACCTGCAGTAGCTTGAGAAGTTCTTGAAGCTATACCTTGAATACTTGAGGCAGCACCGAAATCTTCAGTAGATATCCCTTTCATGTTTACTGTAGATCTACTCGGAGAACCAAAACCAGCTATGAGACTTCTGAGTATGTAAATAAAACTTCCTATAAAATACGGAGAAAACGGAATTAAAATTAATAAAGCACCGCTTAATATTCTAGTCCAAGAAGCTATATTCAATATGCTTATCCATTTAGATAAATTAGATGCAAAGAATGAGCCCAATGCAGTAGCTAAATATGATATGCTATAAATTATTCCTATGTCATAAGATGATATTTTATACATTAATTCAAACCATGCTGAAGCGTAATATTTTCCATTTTCTAGAAGTACTTTAGCGGTATCCAGGTCTTCTAAAGCTTGCTCAATCCATTCCTTATAATCCATTATGAAGATTATTTGGAAAAAGAAGTCATATAGCTTTCTATAGTGTTTCATAAGGTCTTAGATTCTGATTTCGGCAAACGATTTGAAAGTTAGAATAAAACCATTTTATGTCTTACTTTATCAAATTATAAATATATAGATAATAAATATGAATCAGTTATTTTATTTCTAGGTTATAATATTCCTTGAAAGTATATTTAAGGAAAGTAAATATAAGCATAACTACACTAACTAATACGTAAGTCCATCCAACTCCAATAATTTCTATTAAAATGCCCCCCAAAGGGCCGGAAAGTGTAGATAATCCGTTGGCTATTACTCCAATAAATCCAGTAGTCCTTCCCCAATATTCTTTATCTATATATCTTAGTAATGTGGCCGACGTTAATGTTGAATTGACTCCAGAAGAGAATAATATGAGGAAAGTAGGAATTAATGCAAGAAATATATTATTAATAAGGATGTATGATGCCAATGACGCTGATATTATTAGTCTAAATATTATTTGATAAAAGCCTAATTTTCCTTTATTTATTCTTAATGCAAATATCGATCCTACTACTATTCCTATTTCAGCTGATATAAGTAGTGCACTAAAATAAATTGGCCCTTGATGTAAGACGTCTTCAACGTAAAATAATAGTAGTAATCCCTGCATTTCGAAGAATAAATTATCCGTTGTAAGTATTGTAAACTGAGTTAACACTTTACTTCTCTTCACATAGTAAAACCCGTCAATAAGACTTTTCTTAAAACTATGCATCCTTTTTTCTTCAACATTCTCTGTAATATTCATAGATAATAAAAGAAATCCTACTACTACTAAAATAATTAATGATGGAGTTATTGAATATTTAAAGCTAATAGCAAGAAATATTCCTGCCAAAGCCTCCGCTAAAATCCTTAATGACCTAAGAGTAACTCTATTAATAGATGAGACCTTCCTATAATCCTTTTCATTCACATTTTCCTTAATCCATATACTTAAAATGATACTTGCTATATCAGAGGTAAAACCGGTTAATATAGCAAAAGTGTAAAATAGTAAAATAATAGTGAAAATATCGTTGTTAGCAAGTAAGGCAATTTGAGACAGGAATAAAATAGTAAAAAGCGTTATTATTAATCCCAAAAGTATTGTCTTCTTTTTCCTAGTTAAATCCATAAATGCTCCGGTAAAATAACTGAAAAAGTAAGCTAATGAAGAGAGACCTATTAGAATTCCAGTGAGTAAACTTGAACAAGTTAGCTTTGATATTATCCATTCCATCGTAAATATTGCAAGCGTTATATTGAAATTAATTAAATTAATTGACATTATATTATACAGAGCATTTTTCCAATTAGTTTTCGACATATTCTACTATCTCTTTCATTTTTCTAAGATTTTCCTTAAAGCTTTTCCATTTAATATCATTAAGCATTATATCATTTAATTCAACTAAAAATCCTTCGTATAAACCTAAGTAATAATTACAAGCATAATTATCTATGATAACTTTTCCATTTTCGCCAAACTTTAAATCGCCAAGGCACGCATTGCAAATTTTCATTATATCACATGTTCTACATTGGTCTATATTAGTTTTTACATTCACGTACTTAAGAAAATTTTGAACTTTAAACAATCTATAATTATTTAATCCATTAATAATATTACCCATATAAAATCTGTTATCGTATGAGAGCATATAACATGAGTATATATCACCATTTGGCATAATAGTTATATTACTAAATCCTGCACTGCATGGTAGACCCAAAATCTTATTAGTAAAAATAATTTTTATTTGTTATTAATGGTTCGTAAAGATTTAATGTAATTAGTTAGATAATTATATGATAATTTTTATAAATTTCCAAGTACCATATTAGATTTTTTATATTTCCACACGATTAACTGAGAGATATTATTATAATATTAGAAAATGATAAAGATGTATATGATAGAATCTGTTTTATTTACATTGATTATTTAATACATTATTCTTAATGCTCTTGATTATGAGTATAATGAAGTATGTTCCTTTACTTATGAAGAAAAAATATGAGGTTTAATGTTGAATTTATATTTGTAATATGATTTTGGATCTACCGGTAAGGGTGGAGATGGATAGCCTCCTTTGTAAAACTTATATACTTCTTTTTCAAATATTCTATTAATGGCAGTCACTGACGGAGTAAGCGTCACTGAGACGCCTTGGTTAAAGCGAGGGTCTATGTGGTACGCCTCTACTCCATTCAACAGTCCCATATTGGGATACTGTGGGTTCACATTAGTGCTCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGCCCGTTAGGGCGTGGTAGTTCACAGTCAACGTAACCTTAGGAGGATTCGCTCTTTCAGTACTTACAAATAATATAGTATTAGGAGGTATAATAATAGTAATAACTGATGTTTTTGTAGTAATTTTAGGATCGTCGTTCATTCATAAATTTGAGAGTTACGCTAGTGTTCTGTTAATTCTTTTAGGAATTTTTGTAACAGTTGAGGTTACAGCAAAGAATATACATACTCCTGCAGGAAGCTCGATTTCGTCTTTTTGGTTAGTTTTCCTAACTTCCTTCGGTGCAATATTAAGCTGGTCTCCTTATGCAAGTGATTATAGTAAAGGAATTAACTTAAGTTTAAAGAAATCTTTACTTTACACTTCCTTTGGAGTAACTATTCCGAGCGTTTGGCTAAGTTACATTGGTTATCTTAGCGCATTAGCAATGGGAAAACCTTCACCAATTGCTGACGTTTTAGGAATTTTAGGTAAATATTTCATTGCAGGAGTATCAATAATGATTTTAGGAATTATATCAGCAGATGCGTTAAACCTCTATACAAATACAGTAGCATTAACGTCTATAGTTAAGACGAAGAAAAGGATAGCAACGTTAATAGCAGGAGTTTTAGGATTCATAATTTTTTACTTTGTTTATCAAAATTTTCTAAACTTTCTAATAAATTTCCTCAGTAGTCTAGGCTATTGGATTTCTCCTTGGATAGGCATATTAATAGCATATACAATGAAGAAAAAAGATTGGAAAATAGCATGGTTATCTTTTGCTGCTGCTATAATTTTAGGTTTACCTTTCATGAACCTTAAACAGTATGGAATACCTTATGAAGGCCTTGTATCAAGTATTTTAGGAGGAATAGATATTTCTCAAATAATTATGCTGATAGTCTCAATTGTAGTGTATATGATTCTCTAAAAGATAAATATTCTTTAATTGAAGTTTTTTATAATTTTAGTTAGTCTTGAACTTACACTCGCTTCATCGGCTAGTATGGAACTACAGAATTAAATACCGTATTAGGTTATGTACAAAGAGTAAGGAAATATCAGAAGTTAATAGTTCAAATTCCCTTATTTTTTCTATAAAGGTAAAATAACTTATTCACTCAGTGAAATTAATGGGATAGTAGAAGGCAGTATTTTAAAATCTATAAAATTTTAATATAAATTTTCGAGATTTATTCAAAACAAATGATGTAATACTAATCTATGATTAAAAAGGAATTTTAAGGTGCAATTCCATTTATAAATAAAGGAGAATTATGGCAATCATAGTTAGGAAAGTTCATAAGAAGGATGACGGCAGTACAATTTGGATAAGAGTAGGAGAATCTCCTCCAGTAATAAAGGATGGGAATGTAATTGACGGTGGATTTTTTATAAGAGTTGGTGACGATAAGAGCGATAAAATAATTCGGTTATCCGACCAAGAGGCTTTAGATATAGCATATAGGATAATAGAGTCCTATAGGAGACACGTTAGGATTTTTACTAAACTGGACGAGCTATCGTATGAGCAATATAAGAGAAGTAAGGAAGTTGTAAAAGAAGATGATGAAGAGGAGGAGATTAGGAAAATAGAAGAAAAAAAGAATTTAACTCCAGATAAAATTGAAGGAGAATTGATAGATTATTTAATAGCTGCAGGTGGAGAAACAACTTTAGACAAAGTTAGGGAAGAGTTAGGAGAAGAATATGTTGCTTACTTAAAAACAATGAAGAATAAGGGAGTAAGAATTGAAGGAATCAAAGTTAGCCTAGACAAAGATTTTAAAAGTACTTAGATGATAATCCTGTCTTTAAAGATTTTAAAGTAAAGTTATCTTTTATAAGATAAAGGAAATATAAAGTAGATATTATAAAGAATATTCCAGATATTTCTATATTTATAAACCTAAAGAAATACGATATCAAAAGGAGATAAGGAATAGGATAAGCTTTACTATAGTTATACCTTGATGTTGAATATATTATACAATTAAAGAAGAACATTGCCATAATTCCTAGAGCAAAAGCGTGAATTTCTTCTCCCAAGAAGATTGAGGCTAAGGTTATAAAAAGCGATACAAAAACTACCGATAATCCATTTTTTATTATCTTTGAGTTATAAAATAACCATACAAAATAACCTAAGAGAGAAAAAAATAAGAAATTATGGTAAATTGTTAATATTATTAAAATAAATATTGGCAATTGTTTTATGCCAAATTTAGGTTTAGCTCCTACTGTTGCAGTAAATACGCCAATGTTTATTCCAAAAAGATAAAACAATAATCCTACCATTAAGATTGAGTATCCTAAATATGGATAAAAAGACCAAGCAAGCAATGAGGAGAAAGGTGAAGCTAAAACTAATAGATTAATTGGAAATTTACTACCATAATGTATTACGTCTTTTAATCCCCACAATTCATTAAATATTAATGATAACGATGCTATAGCTTGTAATGGATAAATAGGAATAGCTATAAGTACTAACGAAAGAATATGTAAAGGAAAATATTTCCTAGCCGGGAAAAAGAGTCTTAACAACATTCCAAAGAATAAGGAATAAGCTCCTATCATCATAAAATAAGGATGAAATGGCAATCCTTCTGCTAAGGATATCCCTCCTAATGACCAATATATAATTGTCAGGATAATAAACGGTATGTTGACTCCCCACGGTTCTATTGCCTTTTTCATATCAACTTTAAGTATTGAATACAGATATTAGATATTTATGCCTAATATTTGAGTTTCAATCTCAAAATATTAGTACTATTTTATTATTCTCTATGTTAGGACTTCTGCCAAATTCAAAAGTTAAGATATCTTTATCTTTAAATAGAGTTTTTAGTAAAATATTGTTTATCTTAATTTTTTAATATAGTATAAAATAATCTGCTATATAATAGAAATACTTCCGCGGAAAACACGAATATTATTTCGTTATGAAAGCATTGTTACTCTTTAGCTAAAACACTTATCTACTTCATTCTTCCTCAATGTTATTATTTTTCTTTTAGTACAATAGTCTTATGGATTGGGAAAAATTAGGAGAAAAATTTCCTTATTTGGAAAATGATGTAAAAGAAGCAGTATTATCTATACTTAAGGCTAGTGAAAGGGAAGATAGAGAGTTTAATATTATTTCCTTCTATTCTGGCCTAGGAAGAGAGATTAATAATATAGAAGATACATGGATAAAAAGAATTAATGATGAATGTAACGAGTATCCTTCAGTATGTGAAGGTTTGGCTAGAGGTATATCTGAATTAAAGGAAATAAAAAAGGAAAAATTCATGACTTTAATTTCGTCTAAACTTATGGCAATTTATGTATTATCTAAAATAGATCTTTCTATACCAACCCTTAAGGACGGAATAATTTACGCTATTGACGTAATAAAGGAAGAAAAAAATTTAGGCGAAGTTGGCAAAAATTTTGGCGAAAATTATCGTAGAATGCCAATAGAAATTAAGGAAAAAATGAAGGAATTATTAAATAATAGTTCTTTTGCTTATGAGTTTTTAAGAGCTATAAATTTAAATGAGTTTTCTGATATATATAATTTCAAAAATTCTGAAGTTATGGAAGTAATAGGAGAAAAATTCAACCAATTAAATGATTTTCAAAAGAGAAAAATACTTTTTAGTGCTGATAGAGGTCTCGGTAGAGGCATAGGGAAAATCTTTGACTCTTTAACTTATTCTTGGAAATTAAATATAATTGAGGAGGCTAAAAATAATAAGGAATTTGCATTAGGGTTAATTGAATGCATAGATTTGGAATATATTCAGGATAAAGTCTTCTTTGAATTGCTTAATATCGCTCTAAAGGATTGTAAACTTTCTTTTGCAATGGGTACAAATTTAGGTCAGAATTTTTCCTATTTAACAGAAGATTTAAAATCAAAAGTCGAAGAAATCACCTTTGAAAATAAGGAATTTGCAAAAGGAATCGGCAATGGATTCTCAATAACTTTCAATAAATTCTTCGATCTCTTTATGAATTACAAAGAATTAAAGGAAGAAGACGAAATTAGAATATTAAATCTAGCTTTGAAAAACAAGGACGTGGCTGAAGGAATTCTGCAAAATCTCTCCTATATTATTCTTTCAAAGCATAAAAATAAGATTCTTAAATTAGTGGAAAATAATGAACAATACATAGAGAAATTCCTAAAACTTCTAAACAGGAGAGTAAATGAATTTGATATAGACGAATTATTTAATTTGGCAAAAGGTAAATATATGGTAGAATTAGGGAAAATACTATGCGAAAACTTTCCTCAATTAAATAAGGAAAAAAGGAAAAAAATTATAGAGAAAATAGAAAACAGAGATTTCTATCAAGGATTTCTAGAATGTGGAGATAAAACTTCTTAGCATTTAAAGAATATATTTATTTGTTAATGTTGAGAATTTAATATATAATGTTAAATCTAGGAACTTCAGCAGACATTTATCTTAAGGAAGGGGACGAATTCCTTAACAAAAACGATCTAGTTCAAGCAAGCGAAAAATACTACAAAGCAGCAGAAGAAGCAATAAAAATACTAGCTATAATATTAAGACTAAAATACATAGAGAAGGAGGTTTCAAAAGAAGGTTGGAATACTAGAATACTTAACGATGCAGTATTTTTAATTTCGGAAAAAATTGATGAGAAGATACCAATTTATTGGGCTTCTGCTCTATCTTTAATAACAGTAAACTTAAGTAAAGAAGTAATAGAAGATCTTAAAAAAGACATAGAAGAGTTGGTTAAAATTGCAGATAGAGAATATAATGCAATTCTTGAAGGAAGGGGACGAATTCCTTAACAAAAACGATCTAGTTCAAGCAAGCGAAAAATACTACAAAGCAGCAGAAGAAGCAATAAAAATACTATCAAATAAAAATAACATTAAAGTACTTTCTAAAGTTAAAAAATTTGATAGATGGAGATCAGAGTTTTTATTTGAAGCATCGTTAGAGCTCTCTGCCAATTATTCTATAATAAAAGATATATGGAAAAGTGCTTGGATACTTCACGTTGAAGGATTCCATGAAACTAGATTAACTAAAGAGAAAGTAACATTTTATGGAAATATAGTTAAAAATCTTTATAATATTATAAAATAGTTATTGTTGTTGTCCAGATTCTTGTGGCATTCCATAAGTTTGTACCCACATTTCAACAATGTCATAACCATACATTTTCTTAAATTTCTCTCTGCCTTCAGCAGACATCTTTAGTGGAGACCAAGGAGTATCTAAGTCAACATCTACATTAACACTTTTAGCAGGAACACTTTCCTTAATAACTTGCTCAACTGTGTAAACTAAATCGTCAATAACTGGGCAGCCTGGAGCTGTTAAACCTAGTCTAACATAAACGTCTCCATCGTCGCTAATTTTCAATTCATAAATTAATCCAAGATTTACGACATCTACAGGAATCTCAGGATCATAAACTTGAGTTAGACCTTCTAGAATTTTTTTTCTCCATTCATCTACGTTAATTTTGCTTGACATATGGTAAAGTATGCTTTACCAGTTTATATATTTCGCTTATAATCTCGCTTATTATTTATTTGAATTTATTTTTGAATTTATTCTCCTTATTTCATAGGTTTATAATTTATATATCCATAAAGAGATTTGATTCTATATTGAGAATAACTAATACTGGAGCATTAAGCCTCATATTTACGACGTTTCTCTTTTCAGCATTTTTAACTTCCAAATTTTTGATTCTTACTGAACTTATTCCGTTAGTGCTTTTAAATGGATTTACTATAGAAAGGCTTTACTCCAGATTATTGTCGAGAAAATTTTGTAAGTTTGACTATTTTTTAATAGCTTTAAATTCTGTTCCATATTTACTTTTCTTTACAGTTTATCTTATTATACCTTTGATCTTTATAATATTTGCTTTTATAACTTCATATTTAAAAATAAAAATTATACCGACACTTTTTGGAACTTATTCAATAGTTTCACTCTACTTACCTTGGTCTGCAATTCTTTATGAGATAAATATTAAGGTTATTTCGATATTTGTCCTTTGGTTTCTCTATACTTTAACTCAATCTTTATATGTTGAATACAAGATACCTTTTAGGAAAATATCTAAAAACACTGTAAGATTAGCATGGATAATAAGCCTCTTTACTATAGTTTACTTTTCTCTTTATATTCCAATAATATTAATAGGTTTAATAGAGCCTTCAATAAGATTCCTAAATCCTGGAAATAAATTAAGTTCTGCGAAGGATATAAAAAACCTTGGTTGGAAGATAGCTAGACGAACCATAATATTAATGCTTGTTATTATTATTTGTGAAATCTTCATAAGATATTATTTTATTTTCAGATACTGACTCCTTACTAAAATAAGAAAATACTCAAAAAGAGAAAAATTAAATCATTATATATCAGAAATATTTGAATTTAAATAGAAAAGTTTAAATTTTATCTTTCATATATCGTTATATGAAACGCTATACATTTTACATGAGTAATAACATTAGAAGACAAGTTTACAATGAAGCTTTAAGATATTTATCTCCTGAACAAATAAGGCAAATTGTAGGAGAACAGAAAAAGACATTATTTTGGAAGAACAGAGCTAAAGTATCTGATGAAGCTGTTGAAAAACTCTTAGAACACTTACCGAATCAAGTAAAGTTGGAAGTTTTAACTGTAATAGAAAATGATTTAAAAGAAGCTTTAGATTCTATAGAGAGAGAAAAGAAGGAATTAGAAAATAAAAAGTAATATATTACTGTATAAGCATAACGTATTTGTTAATTATAAAAATGAAGGTTAAATTAAATAATGAACTTTTCTAGGAAGATTTTTATTTTAGCAAACGCATGCTATCTTATGTATACGTATAACTTAGATGAAGTATCTGCAAACATGGTAAGCTATGTAGGAAGAAAAGCGGCCTACTTAGGAGACTTATATCATTATAACATAAATGTTCCTGAAGGTTTTGTAATAACAAAATCTGCATTTCAAGAGTTTTTAAATAAAATTAAAGGAAAAATTAATAATGAGCTAAGAAATGTTGATTTAAATGATTTAAATGATTTAAATGAAAGATTTCAGAGAATAAAAGAAATAATAGAAAAAGAAGAAATTCCAGAAGAAATAGAAAATGAGATTAAAATTAAACTTCATGGACTTTCCTCAGAATTTTTTGCTGTTAGGCCTACAGTAACTTCAAGTCTTTCTGGACATACTTTTGCGGGTGAGATGGAAACTTATCTTTACATAAGTAAAGAGGACGTTCCTCATTTTATAAAAATGGCCTGGTCAAGTTACTTTAATCCAAGATCATTATCATACCGTATTTCAACGGGCGAAGATCCATTACCTGCAGTTATTGTTCAAGAAATGATAAATCCTAGAAGTGCTGGGACTGCTTTTACACTACATCCAGTAACTAAAGATCCTAAAATGATAGTTATAGAATCTAGTTGGGGGTTAGGAGAAGCAGTTACTAAAGGTGTTGTAACTCCAGATAGATTTATCATACCTAAATACCAAAGAGTAGTAACTGAAAAATTTATTTCAGATAAAATAGTAAAATTTGTTTTTGACGAGAATGAGAGACTAATAAGAAAAATAGAAATGGACGAAGAAGAAAGAAAATCCCCTAGTATTACAGACGATGAAGCCGTTAAAATAGCAAATACTGCAATAAAAATTGAGGAAATTTTCTCTAAACCAGTTAACATAGAGTGGGCAATTAGTGATAACAGAATCTATGTATTAGAAGTGAGAGGTATAAATACGGTTATAGAAGGAGTTTAGATTTTTTTTAAAAAAAAATTAAATTATCTTAAATAATCCTCCAATATTCTGATACATTAGGTAGATTGCGACCAATATTATTATTATTGCAAATATTTTTCTAAGCATTCCTCTAGGTATAGAAGTAGCAACTTTTGTTCCTAAATAACCACCAGCTACTCCTCCTGCTAAATACAATAAAGAAATTAGAACGCTTATTTCTCCAGCCATTGTATATCTTATTGCGCTTACTACACCAAAAGTCCCTACGGCAATCAACGATGTGCCTACTGCTCTAAGCATACACAATCCTGCACTGAAAATTAGTCCTGGAACTATAAGAAAACCGCCACCTATCCCAAAAAATCCTGAAAGCAATCCTACAGCAAATCCAGTTGGAAGAATTCTATCATACCTTATTTTACATGAAGATTCTATTTCTTTCATAACGTCATCTACTGGCCTTGCAGGTTTTCCTTTATTTCTCCACATAAGTACAGCAACTACTATCATTAGTATACCGAAAAAGAACAATAAAGAAGAACCATGAACCAATAATCCAAGACTAGCTCCTATAAATGACCCTACTATACCAGGTACAGTAAATAGTATACCTTGTTTTACCTTTACATCACCTTTTTTAAAATGCATAAAGGAGTTTATGTACGCATTAAGTCCAACAGCTAATGCAGTAGTGCCTATAACTAAATGATCTATCTCGTTAGATTGAGGAGTACCTTGAGGATATAAGTATCCCAGACCAACAAAATATAGAAGGAGAGGAACAGCAAGAATAGAACCTCCTCCACCTATTAGACCTAAGCTAAATCCGACAATTAGTCCAGCTATTATAGAGAGTATATATTCTATTGGTGTAATTTCTATGGATATCATAGTTCAACTTTTATTAATTAAAAAAATCTTTAATAAATCTTTCTCACACGCATGTTAAATTTGGAAATACAATACTGAAAATTATCAACTTATTGCTTCTTCAAATATATACTTATGAAAAGCATTCAAATATCTAGATGTCTATTAACTTTTTCTCGGCATTATTCATGATTACATGATATATTTTCCTTATAGTTTCACTGTTTTCCTTAAACTGATTCCATGGTTCCACACTCGAGAACTCTCTATAAGAAAAAGTATATTTCTTTTGAAAATCTTTTACAGAAATCTTGGGTTGATGATATTCCTTTAAAAGCTCGTTCTCTTGATTACCTAAAATAATATGTTCCTTCTCTATTCCGAGAAATTTAAAGAGAATAAAAGGATCATAAGACATCATATCATTTAGGACTTTTTGCACTGCATATATGTGTTTACATGGCCTTTTATAATCTGGACATGTACAGTTGAATCCTAATTTTTGTGGAATTAAGTGAATGTTTTCCTTTTCAAGGTCTTTTTTTAACTCTTTAGGAATTTCGGATGATATTATAGAAGACAGATAGCCTTTCTGATGAATTATATTTATAATCTTCTCTTTCTCATCAATAGGGATGGTACTTCCATAGATTGTAACTTTATACATCGTTGTGCCTAAAACTTCTGCACTAATCTTGCCTGGATTTATTTCAATTTTTTTAACTGCTCCGTTTTGTGCATATTCTCTACCCCTCTGTGCTCTTGCATGATCGGTATTTTTTCTTATACTTTCACCGAATTCCCAGGCCCACCATTTTCTCATTTTAATCGCCAGAAGAAAGTTCTATCACTTTTTTCAAATCCTCTGTATTTAATTCTGTGATCCAGGAATCCCCACTAGCTATTATATCCTTAAATAATGATCTTTTTAATGATAACATTTGATCTATTTTCTCCTCTAAAGTACCTATTGTAACTAATTTATGAACTATGACATTCTTAGTTTGTCCAATTCTATATGTTCTATCTGTCGCTTGATCTTCGACTGCTGGGTTCCACCATCTATCAAAATGAATGACTCTATTTGCTGAAGTAAGATTTATACCAAAACCTCCAGCCTTTACTGAAAGTACAATGAATTTTACTGATGGATTATTCTGAAATTTGGATATTAAGTTATCTCTTTTCGCCTTAGATAATTTACCATAAATAAAAGGAGTCTCAATCTTAAATTCTCTCTCTAAAGTATTTTTTAGGATTTTACCCATTTCTACAAACTGAGTAAAAATAGCGATCTTATCTCCCTCATCTAACGCCTCCCTAACTATATCAATAGTTCTAATCATCTTTCCTGATCTTTCAATAGATGGCTCATCTCCTTTTATTAAAGCAGGATGGTCTACTATTTCCTTTAGCTTAAGGATAGTTGATAAAATAATTCCTTTTCTTTTCATTCCTTTTACGGCATCTATTTTATCTAATAACTTATCGACTTGAGCTTTGTACATTGCAGCTTGCTCTGTACTTAAATTACAGTATACGTTAGTCTCAATTTTCTCTGGTAAATCATTAATTATTTCTTTATCATATTTTGTCCTACGTAAAACGAAAGGAGATATTATAGATCTTAATTCCTCTTTCACTTTAGGATCTCCATTTTTTATTGGATTTGCAAATCTTTCTTTGAACTCATTGTAACTTCCCAATAATCCAGGATTAAGAAAACTCATTATAGACCACAAATCATCTACCTTATTTTCTATTGGAGTACCAGTTAGTGCCAATCTATATTTTGATTTCAATTCTCTGATAGCCTTGGATATTTTTGCATTTGGATTTTTAATATTTTGTGCCTCATCCAATACTATGTAATTCCATTCTACGTTCCTTAATTCCGTATCTCGTAACAAAATATTATAAGTAGTTAATACTACGTCGAATTTAGTTATATTATTCAAGTTACTTTTAAATTTGATTCTATTTTTATGAAAAACTAAAAAGCTTAGATCTGGAGCAAATTTAGTTAATTCTTCCTCCCAGTTCTTCAAAACAGATAATGGGCATATTACTAATGAGGGAGACAGTTCACCCTTTATTTTAGCATCAGAGAATGCTGCTATAGTTTGTATAGTTTTTCCTAAACCCATATCGTCGGCTAAGCATACTCCTAATCCTAGTTTGTTCATGAACCTTATCCACGAAAATCCTTTAACTTGATAGGGTCTCAAAATAGCTTTTAAATTATAAGGCTCTAAAAGCTGAACTGATTCCTTTTTATTAAGCCCATCAAGAAGGTCATTTTTAATATTCAAATTTCCAACAAGAGACTCTCTTAAAATATCAATTTTTCTTAATTTACCCTGTTTTATCTTCTCTATTATGCTCTTTATCCTCCTCAATGACGAAGAATCTATCTCAACTAAATTTCCTCCTATATCTATTATCGTTTTATTTTCATTTACCAATTTCTCAAATTCATCTTCAGATATTTCTTTATCTCCCAGTGAGATTTTATAGTCAAAAGACGTCAATTCTTCTGCAGAAAATAAATTATATGTATCAGAATTTATGCTAATTACTGGTTTTAATTTTCTAACTTTTGTAAATACCTTAACACCTTTCTCAATTAATTTGGGTACTATATCAAGAAAATTATTTAATTCATCAATACTAAGTTCGACGTCTTTTATTAATAGCCCATTCAGCTTTGGATATATGTCTGAAATTGAAGAAACAAGTTCATAATATATTTTCCTTAAATCTCCAGAATTAAGAACGATATCCGACGTTATTATTTTATTATCATCCTTATCATAGAGACCAGATATTATTTTACCTCCATTTTCATTATATAATATTGCAAGATATAACGTATAACCTAAATGCTTATCACCTAAATTACTCTGTAGTATTTTATGTAAGGTTATAAAATCATCAGAGCCTAAGACTTCTGTAGCAATAGCTGATATAACAGCTTCCATAAATGATTTAATTATTTCCGCTCTATTCGAATTCTCTAAAAATGCGTCCGGAGGAGCTTCATTAGCTAAAGAATATATATCTTCATCGCTAATCAAAGGTTTCCATTTTATACTACCATTTAAAACTGGAATTATTCTCCCAGATTTTATAAGCTGAAGTGTAGTTATTAGTATATTTTTCCAAAACATCGTCGATGGAGAATAAACTAGATTATCTACTTTTTTCCTAAATATTTTAAAAACTGCACTAATTGGAGTTTCAGCTACAAACACATTGAAAGAACCTAGTCCAACTGCGCCACTGTAATCATAAAATACGGGTCTATTAAATTCGTCAACTGGAAATATAATGGTTTCTTCGTTAAACTCTGGATAAAAATCGAGATCCCATGCTATCTCAAGCAAATCTTTTATAGTTCCGAATTTATTATCCTCAATCCATATTCCAAAGTTTTTCCCGTTCCATATAGCATGGACCACTCTCATAATACTATAAAAATGATAAATTTACGAAATAAATACTTTACTATTTAGAATTATCTTATTCAATATAAATATAAATTCAATTTCAAAAAATTCAATATTAAATTAGTTATTCTATTGGTTAAACCCTGTTAAAGTTTAGCTAGGTAAAAAAATTAATTAAAAATCTTTTTGTTTATAAGTTAAGATAATATATATGTGTGATTACAAGGTAATGAAAATAGAGAGGCCAATAAAAGATAATGGCAAAATAGTACTTCTAAATAGAGAATTTTTCAATAAATTATCTTCTGAAAATTATTTAAAGGTTTTATCATCTGATAATAGAGAAAAAATACGTTTAAGTAAAAGTTACTATTATTATATATTAGAAGAATTCAAAGAAAACGGAATAATAGAAGACAATGCAATAGCGTTTAAAGCTATAATACCTTTCATAAGCGAAGGAACATATATCAAAATTGATAGTAGTATAGTTTATGTCAATGAAAACATGATTTTCTACATAGATATGGGATCTACAACGTATTCCTGTGGAAAATGTCCTGTTGTAAGTCTTTGTGTTTATGGTTTAAGAAAAATAGCCCAGGAAATGAAAGTTAAAGTTAATACTGATTCCTGTGGACTTCCAGCAAAAATGTGGGAAAAACTTGTTTCATCAGTCTTTCAAAAATCTCTTATAAATGTGAATTCAATAAAACTATAGTATTATATAAAATATCTTATTAGCTTAACAACCTCCTCATAGCTTTTCTTTCTACAATCTAAACCCTCAAATCCTTTATTATCCAAAACTGAGAAGAACCTACATCCTCCCATACACATAGGTAAATAAGGACAATTATCGCATTTCCCTTTCCAAACGTTTCTAGCATTTTTGCTTGTAAATTTTCCATTATACTCAATTGATCCGTCTTCTTTCAGTTTACCTTTTATATACAAAGGATTTCCAGTAAATGCCCAACATGGATAAATGTATCCATATGGATCAACTACTATATCTTTCTCTACATGAGCAGCACATATGCCCAGTCTGAAAACCTCCTGCGGAATTTTAAATCCTTCTTCTCTAGCCATTTCCCAAACTTTCGTTAGAATATCTCCTTCTTCGTCTTTGGAAAAAATATTATCCCAATACTCGTTTCTAAAAACGTTCTCATGGACTAAATGAGGATCTATTCTTACTTTTGTAATTCCTTTTTCTTTTAAAGTTGAAAGCAAAGATTTTATCTCCTCAACGTTTCTATAGTCAACGTTAATCCGTAAAACCACCTTAGTATGATCTTGCGCATAAGCTAGATTATTTAATATTATATCAAACGATCCCTTACCTCCTACAAAATATCTTCTTTTATCATGAATTTCTCTAGGACCGTCTAATGTGATCTGTACATGAGATAGCCCAAATGAATTAAGTCTATCAAGAACACTTGGAGTTAAAAGGGAACCGTTTGTAACTATACTAAAAGAATACCCTTCTAATTCCTTTGATATCTCTTCTATTCTTTTCATTTGAAGTAACGGCTCACCTCCAAAATATGTAACTCTTACTTTTTTATCTTCTGAATTTCTCCTTATATAATTTATAAATCCTCTTACAACGTAATCTGAAACTCCGCCCTTCTTCCTAAAGTTCTTTTGAAAACAGTAGACGCAATCAAAATTACAATCATACGTTAAAAGCAAAGTAGGCTCTAAATATTCTTTCTCAAAAATCATCTTTTCAGGATCAAACTCTTGGTCAGAAAAACCTTCTTCTAATATATCTTTTAGATCTTCTGGTATCTCTCCTTTAGATAGCTTACTCATTTCATCGTCCGAAACTTTAATTGCATATCCTGTCAGAGTATTAAAAATTATATTGTAATCATAAAGAAAAATATTGAATTTAGATAGTTTCGTTTTTGTTTCACCTCATTGTCCCCAAGATGGAGAGTAGTTGCATCTTCCCATTTTTCTTTCGATTTTTACTACTTTTTTGGAGTCCATATGAAAAAAGAGGATAAATTGTATAAGTCTCTTTTTAAAATAAGTCCAATATAAACTATAGTAAACGGTGTTAAAAATACAACTCAGTATCATGTTAGAGTTAATATAATATTTTTCAATTTTTCTTTAAAATATTCTTATGAATCTCTTCGAATTTACCATAAATGTTTTCTAAATCAGAAATATTTTCACCGTTCTCTATTAACATTGTTATCCATAATAATTTATGACTTTTTTCAATATTTTTCTCATCAATGAAGGAGATAATATTATTCTTAATATAAAATTCATCATATTTATTGCTTAAGAGAAAACTATGTATTTTCTTCTTATGATCTAAAATTTCTCTAGGAAAGTTATTAAAAGGTAATAATTCGAATTTTATGCACTTTTTTATTATTACTCTTCTTATATTCAAAGGAGAATTTACGACAAGAAAGGAAATAGACGAAATTAGTGAATCTATGAGTTGAGATGTCTCTTTATATTTTATATTTTCCCTTATATTCCATCTTAATTTATTTTTAAACTTCTCTAATGCTAAAGATATTCCAGTACAATCTTCCAAGACGGATATATAATCTAAAGCTCTTAAACTATCTGACAATTTAAAAGATAGAAATTCTTTATTGGATATTATATCATAATTTCCATTAATTAAATTATTAAGATGATTTCTTAAACTATAGTCTATAATATCTAAAGGTAAAAATTTAAGCAAAAAATCATTTTCATGTGAGATCTGCATATTATAACATACTGCTTTAAGAGTATAAATTTTTTCTTTACATTCATAATCATACATTTTGATCAAATCGACTTCTTATTCTATAAAAATATTTCATGTGTATTAGCTAAATAATAACCATAGATAACGAGTAATCTATTCTTAGAGAATAGATTACTTTTTAATTTTAGTTCGATATTTTTAATAGTTTATAAGAGTTTTTAGTTTTACAAATTGTATTTTATGCAGCAAAGAACATGTATGCAATATATTTATAACGTTAAGTTCACATTATATTTTAATTCTTAATTAATATAAAATGTAAATTACATGAGTTTCAACTAATCATAATTTTCGTTAAACTGTGTTAATAATAACTCAAATTTAAATATTATCATGATAATTAATTATTTATGAGGCTAGTCGTAGGAACTAATTTTGATGATTCTTTATTGGAAAAAATTCGAGTATATCCAGTAAGATACGTCTTTGGAAGCGAAACAAGAAGTCTTACAGGACACGGTAGAGCGTCTTTTGTTTTACCAGAAGTAAACGACGAAAAATTAAAAAATCATATAGACGTAGCCCACTCGTATGGAATAAAATTCCTTTACACTATGAACACTGCAACATTAAACGGGAAAGAATACTCTCAAAAATTCATAGAAATGTTGCATAAAGAAATAGACAAATTGAATAATTTAGGAGTGGACGGTTTCATAGTAGCAATGCCATTTTTAGTAAGTTACATTAAAAAGGAGTATCCTAATAAGGAAATTTCAATTTCTTCATATTCAAGAGTTTATAATATTAGAGAGTTTGAGGAGTACGTAAATTTAGGAGCAGATACTATAATATTACATGAAGACGATAATAGAAATTTTAAGCTCCTTAGATCTTTAAACAAATTTAGATCTAGTGTTGACATAGAGGTAATAACAAATAACTCATGTCTTTGGGGATGTCCGTATAGGAGAACGCATGATATAATATCTTCTGTAACTTCCTCAGAAGACGGTGTAAACAACGTATGGTTCGAATATCCAATAATGTTCTGCGCAACTGATGTAAGAAATGATTTGGCAAATATAATAAGAATGAGATGGATAAGACCGGAAGATTTACATCATTATGAAGAGATTGGGATTGATAGATTTAAGATAGCTGGGAGGAACAAGAGCACGCAGTGGTTATTAAGGGCAGTTAAGGCTTATTCTGAAGGTAAATACGAAGGAAATCTCCTCGATATTGTAAGCTATCCACAAGGAAGAGCAGTGCCTAAGGTTATGAAGAAAGTAGGAGGTCCAGAAGATTATGATATTTTAGAAAAAGTTTATGTAGATAATACAAAATTTCCGCCTAATTGGTTAGGATACTTCAAATATAATGAATGTGAGACTAGGAGTTGCGAAGAATGTAGATACTGTGACGTAATTGCAGAAAGCGTAATTTCAGCGGAAGGAAAATCTCCGTCTAAACTTAATTTAAGTAAAATAAGACCTCCAATAGATCTTATTCCGAGGTTTTCCAAAAATGGTGAAACTGAACAATGAAATTAGAATTTTGGAATTAACTGAACCGAACTTCTTTGGAACAGTCCTCAATCATAACTTGACCGTGACCAAAGGACCTGGTGGAGGATTAATGCTCATAGATACTGGCCTTCCAGGATATTTGGATGAAATTGAAAGATATTTAAAATCATGGAGCTACTCTTTAGAGGATATTTCAGATATAGTCTTAACTCACTCTCATCCAGATCACTCAGGAAACGCACAAGAAATAAAGAAAATTTCAAAAGCCAAGATTTATGCTCATAAATTGGAGAAATTTGACAACCAGAAATTCCAAATACAGTATGATCAAGTAAAACAAGAATTCAATGTAAATGAAAAAGAATTTGCGGAAACTATGAAAAGAATAAATAATTTGGAATACGAAATTCCAAAAATAGATTTCTATCTGGAAGGAGGAGAAACTATAGGAAACTTTAAAGTAATTCATGTACCTGGCCATACACCAGGCCATATAGCACTTTACGATGGGAAAGTAGTAATTGCGGGAGACTCTGTAAGATATTATAAGGGTTTGAAGCCACCATTAAGATTTTTCTGTTGGAATTACGAAAAAGCAGTGAATTCGTTTAATATCTTGATAAATTTACCATTTTCATTTTTTGTTCCGTATCATGGTGAGGTGATAACCCCATGGTAAGTCCTTTTGTAGTAGTCTGGGAAAGCACAAAAGCTTGCGATTTTGCTTGTAAACACTGTAGAGCTAAAGCTATACCGAACAGATTGCCTGGAGAACTCACTAAAGAAGAAGTATCAAATTTAGTTGATGACCTAAGGCAAAGCGGAGTTAAACTATTTATAATAAGCGGAGGAGACGCACTAAAGAGAGAAGATATATTCGAAGTAATACAGGATTCTTCTAAAAAGATCACAACTGCAATTTCTCCAAGTGGAAGTAAAATAGACGAAAATATAGCGAGAAAGCTTAAGGATTCAGGAGTTTCGATAGCATCAATAAGTATTGATGGACCAGAAGAAATTCACGATAATTTTAGAGGAGTTAAAGGCGCATTTAAAATAGCTTCAAAAGCTGTAAATTCCTTACAAAATGCTGGAATTCCAGTTCAGATAAACTCAACAGTAAGTAAGTATAATGTTAATCAATTGGATAAATTAAAAGAAACAATATTGTCTTTCAAACCTGTCAGTTGGGATATATTCATATTGATACCTACCGGAAGAGCAACAAAAGATATGATGATATCTCCAGAAGAAGGCGAAGATGTTATGAGAACAGTATATAAATGGAGGGAAGAAGGAATAAATGTAAGGATGACATGCACTCCGTATTATGTCAGAATAAATAATGAACTAGGAAATAGACCATTACCCCCAGATATTAAATATGGAAGAAGAAGTATCAATGGAGCAAGAGGATGTATGGCTGGAAACGGATATGCGTTTATATCTTACGATGGAACAGTTTATCCTTGTGGTTTTCTCCCTATTCCTGCAGGGAATATAAGAGAAAGAAAATTTAGCGATATTTATGAAAATTCACCTATATTTAAAGCATTAAGAAATCCAGACGATCTTCAAGGAAAATGTGGAATTTGTGAATATAGGACTGTGTGCGGTGGATGTAGGGCAAGAGCATATTCTTTAACGGGTAATTTCATGGCAGAAGATCCATTCTGCCTTTATACTCCTATTAGGGTGAGGATATGATTAGCATTTCAAGATTAATGACAGGAAAAAGAGAAAAGGCAGACGAGATAAGATATTCTGGAAACAAGGATTACTACCCAAAAGTTCTTGTATTTAATGTTACTAGAAATTGCAATTTAAGATGCGAACATTGTTATTCTAACTCAGGATTTCATCACTATACAGATTTACCATTATCGACATGGATCAATGCAGTAAAACAAGCAGCAGATATGGGAGTAAAACACATACTTCTATCCGGCGGGGAGCCTTTAGATAGAAGGGACACATATCTTATAGCAAAGGAAGCTAACGATTATGGAATTTCAGTAGAACTTTCAACCAATGGCACAATGCTAACAAAGGAAAGAGTGGACGAAATTAAAAACTACGTAGATTATATAGGTGTAAGTATTGATGGACCAGAGGAAATTCACGACAAATTTAGGGGAATAAAAGGAACATTTAGAAAGGCAATAGAGGGAATAAGAAATTCTAAGGAAGCTGGTATAAAAACCGGATTAAGATTTACCATTACAAGAGATAATTATGAATACATAGACTTCATTTTCGAATTAATGGAAAAAGAAGGGATAGATAGAGTATGTTTCTATCATTTAGCTTATGCTGGAAGAGCTGACATAAAATTGGATATTGATAATAAAACAAGACTTAATGTTGTTAAAAAAATTATAAATTATTCAACATCTGGGAAAGAAGTGTTAACTGCAGATAATCCAGTAGATGGTATTCTTGTTTATGCAATGACTGGAAAAAAAGAAGTTTTAGATTTACTAAGAAGAAACGGAGGAAATAAGTCTGGGGAAAGGATTGCAGATATTACACCAGAAGGAATAGTTTATCCAGATCAATTTACTCAAATACCGATAGGCACAATAGATAACCTTAAGGAAATATGGGAAAAACCGAATCCATTAGTAGAAAAATTAAGAATGAGAAAATTATATGTAAAGTGTTCGGCGTGCCCATTCTTTGACGTATGCAATGGAGGTCTAAGAGGAAGAGCATTAGCTTTAGGTGACTTGTGGGGGAAAGATCCTTCTTGCTATCTAGAAAATATATTTAACAAATAATTTTTAGAAAAATATTTATTTTATTTACTTTTTGCTAATTTTTCTGTTTCAGTTTCTCTCCAAGGTTCTGTTTTTTGTGTGAAATGAACTTCAGATTTCATTCCTGCTAACCTTTTTGCAACTTCTTCCGAATAACTTAGATCATAAAGTCTTGTAAACATTATACGTTGAGCCGCAGGACTTCCAGCACCATGTACAGATTCTATTTGGAATGCTACCCCCAAACTCACATTTTCTAATAATCTAACCATTCTTATACGATCTTCTGCAGTATACCCCTCAATTCCTTGAAGGTATTTAGCTATATATTCCCTTAATTTAGGATTCTTTAGATCCCATTCGCTTGGTGCTGTACCTAATATTCCTCCTGCTATATCTACTGATAATTGAGATATTTGAGATGGAAATCTTGTAACTAGATGTTTGGTTACGTTTGCATGCATTGGATTTACCCACCAACAGCCTGGACAAGGTTGAACAGCATTAAGACTTGCAGCTATTCCTGCTGCATACATTGTTTCAGTTAGAAATATTTCTTCTGTAATTTTTTCTTGAATGTGAGACGCTTTTTCTACACCGGCCTGCTTAGCTAAATTATATGAAGCTCCTATAATTACGTCTCCTAATCCAGCTTTACATCCTCCATAGCCCTGTCTATGATATGCGGAGAAAATTTCAACTAATTGCCCGGTATATTGCCAATCTCTCAAAAGGAAGACTCTATCCATGGGAACAAAAACATGATCAAATATAACTAATCCCTCATGGTTATAGAAATAAGGTATTCCATCTATTTCTCCTCCTTCTAGTCTTCTAGCATCGTTTAATTGCCTTCCTACAATTATTTTTATTCCTTCGCTGTCTGTCGGTACTGAAAAAGCTACTGCATAGTCTTGATCTTCTGGACCCATAGCTCTCGTAGGAAGAACTACTATTTCTTCGCTTGCAGCTACTCCTGTTATGTTAGCTTTAGCACCAGAAACGTAAATACCATCTTTTGTTACTTCTGTTACTCTAACATATGCATCTTTATTAGGTTGTTGATGAGGCTTTAAAGTTCTGACTCCTTTTGCGTCAGTCATAGCTCCTGCTAACGCTAAATCTCTTTTTTGTACTGTCTTCAAATATTCTACAAACTTTTCTTTAGGTTCGGTTTTACCGTGCTGTGCCATTAGTTCTACCGTTATATATAAGGTGTTTAATGCATCGAAACCTACGCATCTTTGGAAACATGCTCCTACTTTATGACTTATCTTTCTAAGTAATTTTACCTTTGCAGCTAAATCGTCTGGAGACCTGTGAATATGATTAAATCTATTTGTTTCATCGTTTATAAATGGACTCCAAACTCTAGCCAAATCCTTAGTATCTTCGTCCCATGCAGCGTCAAAAGTAGCTTTAAATGAAAGAATTGAAGGTTTTAAAAACGGATTTGTAGTTACGTCTTTTACTTCTTTTCCTAAAACATATACTTCCGCTTTATTTCTTACTTTTATCGCGTCTAGGTATTGTTCTCCAGTTCTTAATCCCATATATAGCTATATGATTTAAAGTTTTTAAACTTTAGTATAAACGTTCTTCGTCTGAGAAAAAGTAGAATAAATGAGAAAATGGTAAAAATCGAAAGAAAATGATATATTTGCAAGAATAGAAAGCTGAAAAAGATGAGTATGTATAAAAATTCAATAATAATTTAATGTTATCTAGAATAGAAAATACTTAGAAAATACTCCTTTAAATACTTCGAAAGCGTCATCGGAATATAAGCAAATAATTATCTCCATCTCAGGATTTTTCTCTAAAATTACTTTAGCCATTATCTCTGCGCACCTTTCATAAGGATAGCCGTAAATACCCGTAGAAATTGCAGGAAAAGCTATCCTTTTTACTCCTAGTTCTTTAGCCTTATCCAAAGATTTTCTTATAGCAGACTCCAATTTATCATCTCCTTCTACTCCATATCTAGGACCTACGGCATGGATAACATACTTTGCTCTTAAATTGCCTGCAGAAGTTACAGCTACTTCACCAGTAGGAATAGGACCATTCTTCCTTACATATTCTCTACTTTCTTCTTGAATTATATATCCTCCTTTTTTAACTATTGCCCAGGCCACGCCTCCTCCGTGCTCTAAATAAGAATTAGCGGCATTAACTATTGCATCAGCCTCTATTTGAGTTATATCGCATTTCCTTATAGAGAGCTTCACAATTGTTTTACAAAGAAACGTTAGATAAAAAAGTTTAGAGTAGATAATATGTGAAATTGAAAATGAAAACGTTAGTACTTTCAGAAAGTTTATAGCTTTTATCTTAAGGATTTACCGTTAAATCCTAGTCTAAGAACTTTCAGTAAATACTAGTGTACATAACAATAGCAATACGATTCTAGATAACGTTATTCCAATTCTGTTATTGTTAATTATTATATTTGATATTCTTTTACTTATTAATACTAAAAATATTGCGTTATTAAATTAATTCCTTGAGCATTCCATCTACACTTTTCCCATTCATATCATAAACCGTTTGAATTGAAAGTATTAATGAGAACAAAAGTAACCCAACGTTTCCAATCTTTGTACCTAGTTTAAAGAATTTATTTAGTTTTATTTTACTTTTTTCATTTTCTTGGATTTTTTGAGGAAGAATAATGCTATACCAACCTAGATCTTTAAGTTCTTGAGTTACTTTCTCTACATCAATATTATTCCTAAAATCTCTATAAGTCTTTATGCTATCTTCTATAAGTTCCTTTGGCTTATTTACAGATTTTACTATAATGGGAAGAAGACCTATACTCTCGCTCATGGAAAGATTAGAGGATCTTAATCCCCAATATGCATATCTTAAATAAGATATTAACTCTAAAGTATAAGCGTCAGCATGCCCCTTACTCTTGATTTCTATTTTCCCTAAGACTTTTCTAAGTATATTCTCTTCTAACTTTAGTTTATCCTCGTTTATAGCAGTTACCGTTATTTCTTTAGGATTTAGAATTATCTCACCTAAAGTTGTTCCTAAACGTGGCTTTTCGTTACTAAAAAACGCAGAAACTTCATAAAATGGTAATCCATTAGAAATAATTTTCAAGTATAGAGAACTATCATAATATTGCTCTACAAATTCCCTGTCAACAGAATCAAATTTTTTCAATGTAGTAAGAACGTCCCTAATTTTATAGTTAAAAGCTACAGGATCTATTTTAAATGAAGCTTTAAGAGAATTGACTATCTCTTCCTTCTTTTTCTTATTCTTGATAAGAGACAAAATTTCTTCTACAAAGCCTTTAAGTTCTCCATCATTTAGATAGTCTTTTAGTAATCTTTGTTGAAGATAGAGTTCAAAGAAAAGCGGGTCTTTTTCTTTCAATTCTAATTTAGTATTTAAATCATATTTCTCCAATATTGGTTTTAATAACTCTACATTTGGCTTTTCAATAAGAACTTTCGAACCTATTAATAAAGCAGAATAAAATTCGTCAGCATTTTTAACTTCTATTTTACCTTCTATAATAACTCTGTAACTTGGTGAACTCATTAAATGATTCTTTGATTATGGCTAAAATATCTGTCTCCTATATACTTTATTATTTTACAATAAAAACTAATACTATGAATGTTAAGGAATCAATAATTTCTAAAATAAAGAATCCACAATTAGCAATGGCTTTCACTAAGGTTAATAGAGAAGATTTCCTTCCAGAACAACTAAAAAAGTATGCCTATGACGATAAGTATGTAGAATCTGCACTTACTATTTTACCTAATGTCACTACTACTGCTCTAAGCCTTGGAATTTACATGTTAGATTCGCTGGATCTACAGAAAGGTCAAAAAATTCTAGAGATAGGAACGGGAATAGGATATTATACTGCATTAATGGCAGAAATTGCTAGTAAGATAGTTTCAATAGAGATAAACGATGATATGTACGAATATTCTAAAAAGAGATTAAATTATAGTAATATTGAGCTTATAAAAGGAGATGGAACGTTAGGATACGAAAAGGAAAGTCCTTATGACAGAGTTATAAGCTGGGCTGCTTCGCCCACATTGTTATGTAAGCCATTTGAACAACTTAAGGAAGGAGGTATAATGATAACTCCTATAGGAGTCGAAAGAGTACAATGGTTATATAAGATTACTAAAAAGGAAGGAAATCCTATAATTGAGAAATTAACTGAAGTAATTTTTATGAGAATGAAAGGAGTATATGGATTTTACGATGATTATGAAGATCCTATAGAAAATAGATTAGAAAAACTAGAAAGACAAGTCAAATCTATAATATCTAGATTAAAGTAACTACTAAAAAAGAGGTTTAGCCTAATTCTTAATCTAAAAGTCAAGTATCTTATGAAAATTAACTAATGAAGAGATTTCTGATGTTATGAATTTGTTATGAATTTTAAAAACAAACATTATAGAAAATTTTTAAAAGTTTCTATTATATATTAAGGATATTTCTTTCTGAAGAGTAAAATAATAAGTATTACAAATAAGATACCAATGCTTCCTATCCTAATTGCTTTATATACTAGATTTACACTGGATTGATGAGTTATTGACGTAGTAATTTTCGTTACGTTATGTATAACTATTGCACCAATGAATTCTCCTACGCACTTACCGTTTTTATAAAAATATACTACCTCTGGATACGGAAGATAGAACGATTTACCATTTACGCAGTCTACTTCAGTATAATTGTTAAAATTGATTAATATTCTCTTTTCAGGTATGAAAGAATAGTTAAAATAGTAAAATGGCCTTATTGTTACGTTTTCTAACGCGGTAGAGTTTACAAAGAATCTCCCATTAGCTAACCACAAGCTACCCCTTGGAAACGTGTAGAGGGTATTATTAACAATTACGACACTAAAGTTATATAATTTCTGCATACCAGCGTTACCATAAGTTATCCACACTTTTCCATTGCTAAAATACGCATATCCGTTCGTAGCGCTTTCTCCAGTAGACGGAATCCCACTATAAGCTACTGGAGGAACATACCAATTTTTATTATATCTGTAATATTCTTTTATAGATATATTAAATCCTTTTGCAAGTCCCGCTACTGCGCCGTTCCCATATCCCCCTATTACAGTACCAGTATCATAACCAGAATACACTATTCCAATAAATTTACCTTTAAGAACACAAGTTTTGTTTAACGTTAGAGTTGTATTAGATATAAAGAATTCAATACGAAGCATATTACTAGTGTTTGTCCAAATTGTAGTAATATTAAAGGTACGACCAACAATGCTACTATAAAAATATTCATAATATGATCCATTGTAGTAAATACTAGTTTCCCATTGCGTATCGTAACCATTTTTAGTTAACATCATTGGCTGAATTACATTTTGAACAAATATATTGCTACCATTTAAATTAAGACATACGTTTTCCTGGATTGAAATATCTGGCGATCCAAGCTGTAAAGATATATTGTACAAATTCACTATTGCTTGTATTCCATTAGTTTCTACATATCCAAATTCATATCCATAATTAAACCCTGCATGAAATACTGGAATAAAAACTATTAACGTAAGGAGGAGTAATGCCTTCACAAATATCATTAGATTTAAGCAAAATAAAAATCCTTTAGTAATATTAGAAGTGTTTTTAAGATTACTCTATAAAAATTATTTTTAAATCAGAGCCATACAATACTGTATAAAAATTGATAGGGAGCGATCAAGGAAAACTCTTATAGAAAAAAGTATTAAATTTTCTATTCTCTTATTTCCATATGAAAAGTATATATTTACCATTAGTATCTTCAGAAGATCTTCTACCGTTACCTAGATATAAGCAACTTGCAGTATCCTTAGCTAAGGCTGGAGGAAAAGAAAATAGGTTTACTAAAATAGACATAATAGGCTGGCCATTTTTAGCATATAAGTTAGAAAAAAGCGGAGGCTATCTTATTTTTGATGAAACCCTAAAACTAAGTACAGAAATAAAAACCTACATAGTTCAAGATTATGAAAGGATATCTTCAATATTAGATAATTCTAAGGACGAAAACGAAATACTTAATTATATAACAAGTATCAAATGGGGAGATACAAAAGGTAGTTCTGTTCTCAGTTTCAGAGGAATAATAGAACAGAACATGCAGGATATTTTTAAGTTAGGAAACTCTGATATACCTGCTAGGATTATTGACAAAAGTTTAAAAGAAATAGATATAGAACTTTCTATTTCAGATATAGAAAAAACTATGGAAAAAATAAAAGATGATATTAACAATATAGAAAGAGCTGAGGAAAAAATTAAGACTACAATAGAAATAATTAAGGGAAGAAAAGCAGAAGATAAAAAGAGAGTAGAAGAGGAATTCAATAAAAAAATTCTAGAAAAATCTCAGATACTAAAAGAAAATGTTGGCAAAGTTAAAAAAGCCATTGAAGAGGAAGTAGGGAATACAAGTAAACAATTATATTCTAAATTGACTGACATAGAAGTTTTAATAGCTAAGGCAGAAATAGACATGGAAGCAGGATATGTTGAAAATGTAAATAGCGTTTATACTGTGAAAAATAAATATCTTAGCGAGATTAATCAAAAAATTAACGAGATTAAGGAAAAATATAAGAAGGAAATCCATAGGATAGTAGAAGATATTAACTCACTCAAAATAGAAAAGCAAACAGAAATAAATAGAATAAACAATAAAATACAGGAATTAGATAACATACAAAATCAAGCAATAATTCAATTAGAACAAATAAAAAAGGAGCAATTAACTAGCTTAGATAGACTAGCAAAATTACCAAAATTTCTCTCATTTATGGAAGATAGAGTTGAGGTAATAGTACCATTTATGGTACTAGAAGGTAATAATAGGATATTAATCTCCCCACAAATATACAAAGGAGGAAAGAAAGCTTTCTTTGGAATACTCAAAAAAGATCCGTCCGAAATTTCTACTCAAATTAATGGAATAGAGTTCCTATTGAATAACTTCTCTTGGAATACAGTAGATTCTTTAAGAAAATATAAGGAAGAAATAGAAAAAGGACTCAAAGAGCTATCAGAAGAAGGATGGAACGTTAAAAAAAGTTTGGATGAATATTATACATGATACAAAAACCATATTTATCAAAGATAATAAAGTGTTAGAATATTTCTAACAAGATAATTTATACATCTGTTCAAGAAAAGCTAGATTAATATGATATATAATTACGAATCGGAGATTAGCGTTAGTGAACTACCGCGCCCTAACGGACGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGATCTTCTTAGGATGTTGAGGGAAGCATTATAATCACGATCAGCGACCCAACCGCACTTGGGACAGACAAACACACGATCAGCCAAAGTTAAGTCCTTCTTAACATGCCCGCACCTAGCACAAGTCATTGAAGTAAAAGCAGGATCCACTAGAGTGAGTTTCTTACCGTACTTCCCAAGTTGATACTCCATGATACTCCTAAGCTCATGAAAAGCAACATCGTGTAACCTCATCCTCAGCCTTCTGAGAGACTTACCAACAAGTTGCTTAACGCGAATGTCCTCCATTACGAGAACATCATAATGCTCAGCAAAATACTTACCAAGTTTCATGTACATGTCCTTCCTAAGGTTCTTCAAGTGTTCGTGAGCCCTCGCTAGACGAATCTTTGCCTTAAACCAGTTGCGTGACAAGAACTTCTTCCTTGAAAGAGCTTTATGAAGCTTCTTCATCTTGTTGAGTGCCTTCTCATAAGGCCTCTGGTTGGGGACATATTCCCCGTCAGAGGTAGTGAGAAGTTTCTCTACACCAACATCCACAGCAACAACTTTGTTTGTCTTTGGGAGTTGAGGATACTCTTGATCCACAACGAAAGTAATGTACACTCTCCCTGATGGTGTTAACTTGACTATTACCCTCTTTACCTTGTCTAGCGGGAAATCCCTATGAACAATAACGTTGAAGATCCCTAGGTTTGACAGCTGAAGCGTTATTACCTTCTTCTTGTTCTTCTTGCTCTTCGTCCTTATTTCTCTCACCTTCAGGACTTTCCAACCTGATTGAGGGTAGACGAGGGAGTACCACTTGTGTGCTTTCTTTTCCTTTGGGAAACGTGCTAACCCATCGAAGAACCTCTGTCTAGCGTCGTAGAATCTGTCTGCAATCTGCTGCAGTGTTTGGGAATATAGATGTTGATATTGTTCATCCTGTTTTCTCAAATCGAGAGCTAGTTGCCTCAACTCCGTCTTAGTGAGTCCTTTTCCGTCTCTTTCATGAAAATAGATATCTGTCCAACGTAGAGTGTTGTATACTTCTGACGCTAACCTCAACTGGGCTTTTAACGCCCTCAATGTTTGTTCGTTAGTGTACGCTCTGAAGCGTAACCCTACGTCTGGCATTAATAGGATATTTGAAAAGAATTATTTAAGCTTTACAAAAGGGGGCTATCCATCTCCACCCTTACGGATGGAGTCTTCCGCTCCCTTTGAACCCCTTGTTAAGATAAAGTATTCTCTCTCAACCTTATATTTTTCTATTAGTAACTAAATTTCCTATAAATAATTCGCTAAGATAATTTTTGTAAGATGATTTTAGGGTCTACCCTCACTGATGGGGTCTTACGCTCCCTTTGAACCCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGGTCGACCCTTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATCTAGTAACGAGTGAGGGGAGGGTCTACGAGAACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATACTCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCCAAATATACTATGGAAGGAGAAGGACTTGAGAGGAAAGAAAACAGATTTTTACGACGCACAAAAACTAATAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATACGTCTTCCTAAAAGACCTTGAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAGTCAGTGACGAGGAAAAAATAAGCAAGGAAATGCTTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTAGAGTACACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATCACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGAAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGTGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTACACTGCTTTAGCCAGGAAATTGGCTAGAATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGATCCTCCCCAAATCGCCACGTGAATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCAAAATATTTATTACTGAACGCCCCTTGTTAAGATAAAACTCTAATGATGCGGTAAACTGTATCTTATGAATAGAATAGTATACATATACAGGGTGAGAATTATTATTATAGAATATGATGTTTCCGGAACCAGAAGTTATTATGCCTAATGTTCCATAAGGAACTTTAGAGGTAGATATTGATGAAGGTAATTTTACTTGTATAGGCTAGGACATATTATAGTAAATTAATGACTAATAGCCTGCTGTAGAGTTATAAGGTACAAAAAAGGCAGTCGAAGGACCTATTTCTGCTAGGGTTCCATGTTGAAATTGTAATATGTTTTGTTTAAATTCTTTTCCTAATTCAGAATGTATAAGTATTGAAGGCGAAACAAAAAATAGAAATAGACCTATTAATATTATAACTATTCCGATTATAAATATCTTGCTGACCATATTGACAGCTCGTCAAAAGCCAATAAAAATTAATTCGTTATAACATTTTCTAGCAATTCTTTAAAGAATATTTCTATGGCCTTGTAGCCTATTGCTAATGCATTCATTTTTACAATATCCTTATTTTCCTTATTCGTATCGTAATATGTTAGTTGAACTTTTGGGTATACAGTCAGTCTGTCTATACTCACGTTAAAATTGAGTGTTTCTGTAATAGAAGTAAAAGATTTGTTATAACTTTCAGTTAATGAGACGCTAAAATCCTTTCCTTTTAGATTTTCTAAAGAGTTTTGTATTTCCCTGTGAAGATATTCTTTTGCTTTTTCAGAGTTTTCTTTAAGGAAAACTTTCATATATAATCTTAGAATATTCTTTTTATCTAATTTTATTGATTTTATTAATCCTATCTTATTTAGCCATTCATTACAGATTTTTCTACAAGTTTCTCCATAACAAAGACTACAATATTTTCCTAAAAGGACTTTAGATAAAAGTTTTCCCATTTCTTCCACATCATAAAAATAAAGCACACTGCCTTCTTTCATTGCCTTATCTAAGTATTGTGAAAAACCTTCTTCTCCATTTAGTCTTGTATTAGACGATAAAATCTCATAGTAAAGGGAATTAATATCTTCATTCTTCTTTTTGAATTCCGCTACATATGTTAATGGTGTTACGTCCTTTTCTTCGGTCAATTTTAGGAAAGGTATCATATCTTCCTTCTCTTTATTAATAATATCTATTACCTTAGCTACAGGTCCCTTGCCTTCCTTCTTTTCTATAATGTAACTTACATCTACACCCTCAGCAAATAGATTTCTTAATGCGTCGTCAAGATTATCATATTCTGGAGTTTTAGGAGTTAATGCAACAACAAGGAATTTTTGGGTTTCTTCTTTTTCGCTTCTAATTAGTCTTCCTAATCTTTGGTAAAACCGTAATGGGCTTTGAGGCACATCAGTCATTATAAGGAGTTTAGCTTCAGGGATATCTATTCCTTCCTCGCCTACTAAGGTAGAAATAATTACGTCAACGTCTCCTCTTTTTGCGCTATCTACTAATTTCTGCCTTTCCTCTTTTGATGCGTCTCCAGTAAGAACTTTTACTCTTTTCATGTCAACTTTAGTTTCTCTTATAGCTTTTTCGAATTCGTACGCAGTAGCTTTTCTCGATGTAAAAATTAGTACTGGTTTGAAATCTTCTACCCTATATACGGAAAGTATATCTTGAAGAGCTCTAGCTTTATGGCTTAATCCTTCTGAATCACATAGCATAAAGTATGCAGAATTATCTTGAACTTTATCATTTAATCTTTGTAAACTTTCACAAAATGCACTCTTTCCGTAGCTATAAAGAGTGACTTCTAAGAATTTTAATGTGTCTTTATTTCCCTTTGCTTTCTTTTTAAAGAATAACTCATAAACGTTATCCTCTAAGGAATCCATGTCAGCATCAAAGAGATCTGCTATAGCTTTTGGCGGTTTGAAGGATGGGTCTATCTTAGACAGTGCCTTAAAGTCGTATGAAAGTACTATAGGTTCTCCAAAAGATTCTGATACTCTCAAGTCTAATTTATATCTCTTGTACCCTGGTAGAAGTGCAGTAAGTCCTATAATTATTTTTGGATTAAGTTGCATTAAAGCTTCCGTATATCTACTGTCTCCAAATGCATGGTGTACCTCATCAAAGATTATAGCGTCGGCTTTTGCATCGCATTTTGCCGCAGTAAATGGAGTTGAAACTATGATAGATTTTCCCTCGTTAAACGCTTCGCAGTTTCCTTCATATTCCATTCCTATATCTTGATAAACTTTTTTCCAAAATTTTGTATACATCTGATCGCATAAGAGTCTTGTAGGCTCCATTACTATTATATTGTGAAATCCCTTTTTCATTAGGAAATAGGCTAAAAATATTTCAATTACTGTCTTTCCACTACCTGTAGGCATTGATGCTACGACGAATTTTTCTCCTAAATCTATTGCATTTATTAAATCTTTGCTTACATGTTCTTGATAAGGAAACATTGAAAATCCAAGCTTTTCTTTTAAAAGAGAGTTAAAATCGCTAATATAATCCATTCTATATGATGTCTAAATATAGTTAAATAAAAACCATTATGCCCGTATTGTTAGAAATCAAGAAATTTGTTTATAATAACTTTCCTTTTTCTCTATTATTTTTTCAAAAAATTCGTCTAAATATACTTGATAGGCTATTAATGTTACTTTGGATCTATTTAAAAGAAGATTTTTGAGAACCTCATCACCTAATATTATTCTATTTTCCAATATTAGTTTCATGTTGGAGATATTCCTATCTACTACATATAGCGTAGCCTTAAGTTTTTCACCCTTAATTAATATAATTCCATTATCAATTTTTTCAGAAATTTCTCCTATCTTTGAAACTATTTGATTTGCAAAATTTTCTTCTCTATACATTTCATTTAAAGTTGTTTCAAAATCGTAGTCTTCGTCTTTATAAAGTTCAAAGAATGGAACAAAATGTGCTGTAACTATATGTTCTGCCAATTTAAAGGAAGAGCGTCCTAATAATTTTTCAAGACCCGTTTTCTTGTAATCTACATCAAGTATTATTTTTAATTTAGGTTTCTCATTTTCTTTTAAATAGAACTCCATGTTCCAAGAGAATTTTTCTGAATATCCCTTATATTGAATTCCTCCTATAATAAAATACGGTCCTTCCATTTCTCCTAAAATAGTAGTTACCTTAGAATCTGGCGTACCGAATATATATACTACCTTATATTTATCTTAACAAGGGCGTTCAGTAATAAATATTTCGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATTCACGTGGCGATTTGGGGAGGATCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAACTATTCTAGCCAATTTCCTGGCTAAAGCAGTGTACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAAGTAGAACAAGCTGCGCAAGTACTTATTACCCTTCTTCGATATTCCCTTACTTACAGTAGCTTTACCGCTCCTCTCAACTATTGGGTCTAAACCACAGTAGGCTACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCTCCAACAATGCCTATTATTATTCCCGAAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTAATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTGTACTCTAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAAGCATTTCCTTGCTTATTTTTTCCTCGTCACTGACTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTCAAGGTCTTTTAGGAAGATATATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTCTGCGTCGTAAAAATCTGTTTTCTTTCCTCTCAAGTCCTTCTCCTTCCATAGTATATTTGGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGAGTATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGTTACTAGATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATAGCCCCCTTTGTAAAGCTTAAATAATTCTTTTCAAATATCCTATTAATGCCAGACGTAGGGTTACGCTTCAGAGCGTACACTAACGAACAAACATTGAGGGCGTTAAAAGCCCAGTTGAGGTTAGCGTCAGAAGTATACAACACTCTACGTTGGACAGATATCTATTTTCATGAAAGAGACGGAAAAGGACTCACTAAGACGGAGTTGAGGCAACTAGCTCTCGATTTGAGAAAACAGGATGAACAATATCAACATCTATATTCCCAAACACTGCAGCAGATTGCAGACAGATTCTACGACGCTAGACAGAGGTTCTTCGATGGGTTAGCACGTTTCCCAAAGGAAAAGAAAGCACACAAGTGGTACTCCCTCGTCTACCCTCAATCAGGTTGGAAAGTCCTGAAGGTGAGAGAAATAAGGACGAAGAGCAAGAAGAACAAGAAGAAGGTAATAACGCTTCAGCTGTCAAACCTAGGGATCTTCAACGTTATTGTTCATAGGGATTTCCCGCTAGACAAGGTAAAGAGGGTAATAGTCAAGTTAACACCATCAGGGAGAGTGTACATTACTTTCGTTGTGGATCAAGAGTATCCTCAACTCCCAAAGACAAACAAAGTTGTTGCTGTGGATGTTGGTGTAGAGAAACTTCTCACTACCTCTGACGGGGAATATGTCCCCAACCAGAGGCCTTATGAGAAGGCACTCAACAAGATGAAGAAGCTTCATAAAGCTCTTTCAAGGAAGAAGTTCTTGTCACGCAACTGGTTTAAGGCAAAGATTCGTCTAGCGAGGGCTCACGAACACTTGAAGAACCTTAGGAAGGACATGTACATGAAACTTGGTAAGTATTTTGCTGAGCATTATGATGTTCTCGTAATGGAGGACATTCGCGTTAAGCAACTTGTTGGTAAGTCTCTCAGAAGGCTGAGGATGAGGTTACACGATGTTGCTTTTCATGAGCTTAGGAGTATCATGGAGTATCAACTTGGGAAGTACGGTAAGAAACTCACTCTAGTGGATCCTGCTTTTACTTCAATGACTTGTGCTAGGTGCGGGCATGTTAAGAAGGACTTAACTTTGGCTGATCGTGTGTTTGTCTGTCCCAAGTGCGGTTGGGTCGCTGATCGTGATTATAATGCTTCCCTCAACATCCTAAGAAGATCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGTCCGTTAGGGCGCGGTAGTTCACAATGTTTCCATTAATAGTATGCTTCTGATATTTATAGGAATAATATTAACCATTATTGGCATAATATTCACAATAAAGAAAAGATAAATTATCTAGCTATCTCAAAATCAGAAGCAGAGTTTTTAAATATCAACAATGAAGGCTTCCCTATGTAAAAGTTCCTTATTAGTCCCCTATAGTTAACTTTGATGACCTGCGGTTCTAATACCAGTAATGTAGCATTCTTATCCTCAAATTTATCCATAAGAATACCGTTAGCTATTATTACCGAATTACCGAGTCTTATGCTTGTATTTCCCTTCTTACTGAACAGAAAGTTTAGAAATTCGTCCTTTCTTTCTATAACTTTTTTAGCTTTTAAACGTGTTATTAAGGAACTTACGTTTATAGGTTCATTCAATTCCTTCTCAATGTGCTCCTCATCTTCAGATATACTCTCATTAAGTCTTAATTTCATAGACGACCCGTATTCAAGAGGAATTCCGTTCTTAGTAGAAATTTCTATTATTTTACTTTCAATATCTCTAAATAATTCTTCTAATTGAGAATTATTTTCAACTTCTCTATCTAAAATATTCTTAATCTCGAGATAACTTGAAGAAAGCATTCTCAGTTCATCAATCTCCTTGTCATTCATATTTTGTGTAAATTCTTCATAAGGATTTGAAAAGTAAGATGTACCAATTTCCATAGCATAGTCCTTTCCTTCATACTGATTAAGCTCATTATTAATGATATAATCCTTTGCTTCTCTATCGTTTTTAAAGACTTTCAAAATTTCCATCATAATTCCTGGAAAATAGATTTTTAAACCGTCTCTTACTTCGAAGTTTTCCTTATACATATAATCAAAGCCAAAACATCTTCTTATATCCTTCTCAAATTTTACACAGTCCTTTGATACTGTATTCACGAATATTTTTTCATCAATTCCTGCAATAAAATCCTTGTTAGGATCTGAAGTTTCTATATATAGAAAATCTCCAATTTTAAAGGAATTAGTTTTTATTGCTAGCGCAGCCTTAAACCTAAAATAATGGGATTCGTCTAGAAAACATTCCTCACTATCCGCTTTTTCAGAATAAAGTACGTCTTCACAATTCATTCGAGATACTGTATTTTTGACTTTTTATTTTTTACTAGAATACCTTAATTTCAATCAACATGATAATCCTAGCCCATTTTACCATTATTTATGATTGTAAATATTCTGCACTTGGAAGCTTTTGCTTCAGAAAATTCCTTAGCTAATGGAAATTATTTAGCAATTTCAAATAATATATCTTTAAAATTGGTAAGAAATTCTTAAAGCGTTTTAAAATAAGCATGAATGTATAAAATATAGTAATTCATTCTCTAGAATATGAGTGAAAAAGAACTAGAAGACTTATTCCAGCTTATAGAATGGCCAGAAGATCCGTATAAAGAAGGAAAGAAAAGATATGAGAAAGCAATAGAAAATTTTAGGAAAATAGTTAATCACGCATTCTTTAATTTCGGTAACGATATTAGTATAATAGATTTAGCTGCTGGTACTGGAATAGGAGGAATAGCACTAAGCAAAGTACTGAAAGAAAAAGGATTTAGCGTTAAGCTATATCTAATAGATTTAAGAGAAAATTCGCTTTTAATTGGAAAAAAATTTAGTGAAAGTGAAGGAATATCTTGTGAAATAATAAAAAGTGATGTAAAAAATGTGCATAAACTTGGTTTAAAAGCTGATATAGCACTAATGTACGGAAATGTTCATGCCACCTTTAGTCCTATAGATCTTAATCTAATTATGGCAGCAGTTTCTGAGACACTAAATGAAAACGGCTTATTTATAATACAAGGAATGAACAATTTCTATTATGTGTTTTATGAGAGAGGATACAAAGAAATACTTCCAGAAAAAGTAGACAAAAATAAAATTCTCATTTCTATACATTCGAATTACGATCATTTCAACGGAATGTTTAAGAGGTATTATTTAGATTTAATTTCTGGTAAGAAAATCGGGATAGATATAAGATTTTGGGATTTTGGAGGAATTATAGGTATTTCTAAAATATTCTTTAAAGAAGTGAATTTAATAAGAGATGGTATACTAGGATTTATTTTAGCAAAAAATCCCAGAGGTTTAAAAGTTAAAGATATAGAATAGATTTTTGTATAAGGACTAAGTATATAAAATTAAATATTACTTAATTTACTAATATTATTATCTTAATATGATAAATCTACCGTGTATAAATGATGAAACTTCATATTTGATTTTGCTGATTGCTTTAATTTCTCAAAATAATATTAAACTCATTTTTAATCAATAGATAAATTTAGAATTTATCTTGATCTAGTGAGCTCAAGATCTAAGAAAATTCAACGAGTCTACAAAGAACCACGTATTTTATCAAATTCTATTGTTTCCATATATTTCAACAATATTTTTAGATTTTATACTAAATATTTGGTTATGCTTGATTATATCTGTCAAAAAGTTATATTGTGATTAAATAATATTCTCTCATAATGATTCACGAATTACCTAAGCCCTGGTATGATCCGATAGCATATAAAAAAATTAGATTAGAAGAGGCTAAATTTGAAGCAGAGATAGCCAAGAAGTTTGTAAACGAGAATCTTACTAGAAACGCTACAGGTAAAAATATTTCAAGCATGGGAAGCTTTAGTTGCAGCATTAGCTGTAGATAAACGGAATGAAATTGAGAACAAATATAAAGGAATTGTAAAAATTAAGGAAGGTAAGAAAGTAAAAAGAGCTGATTGGATTATAGCAATAATGCCAACTAGTTATTTAAAAGAAATTTCGATAATCATTGGAGGAGAGATCAATTATTTAACAGATAAGGCAATTTTAATTCATCAATACCAATATAATGGCCCAGATAAGGAAGGAGTTTTAAGTTCGTATAGAAGTGATGAAATAGCTAAAAATGATATATTGACTCTTATTAATGAAATAGAGAAGATTTTAAGCAGATTTAGCTAATCTTTTTAAAAACTAAGGATATTAAGAATTCCTAATTAAATAGATATCAAATAATTGTTCAGAATAACAAATAAAGGTAGAATTTTACTTATAAATAACCTATTTTTCATATATTGTATAATTTATACATCAATTTGATTATTAATATCTATTTTTAAATTTTCCTCGTTAGGAAAAATAATGGAAGTTCACTAACTATAAAATGTATTGGTACCCATGAAATATGGGTACCCATGAAATTCATATTTGGTAGACCTATTGATGAACCTTTTGATAGAGAAGAGGAAATTAAAGCTTTAAATGAATTAATAAGCAGGAATCAACCAACTGCAGTATTAGGCATAAGAAGAATAGGAAAAACGTCTATTATATTAAACGTTCTTAAAAATCAGAATATTCCAAAAATTTATATTAATGTAGAAGATTTTATAGAAGGAAAAAGTATTGACATTATAGGTTTATTTTCATATTTTTCTTCCTCCCTTTTATCTGAGGCTATAAAATTCATGGAACCAAGAAAAAGAATACCTATAGTATTAAAAGAAAAAGGAGAAGAAGCTATAAAAACATTAAGGGAGATTTTAGGCTATATTAAAATAAATTTCAATATAAATTTAGGAAAAGTAGAGATATTTTTAGATAGTACAAAAAAAGGTGGAATCAAAGAAAGTTTAAAGGAATTATTAGATCTTCCTCAAGAAATAAGTGAAAATATAAATAAAAAAATACTAATTGTATTAGACGAATTCCAATACTTAAAACTAGGAGAACAGAACTTTCCAGGACTTTTCCACTCACTAAGAAGTAAATGGCAATTTCAAAATAACGTAGAATACGTAATCTCCGGATCTGCTGTTGGTATGCTTGAGAATATATTTAAGAAAAATCAGCCCTTTTATCAATTTTTCTTTCCAATATATATTAAACCTTTTTGTAAAGACAAATCAGAGGAATTTCTTAGTGAAGGATTTCAAGATGAAGGTAAGACTTTCCTAGAAGATGGAATAAAAAAGGCAGTAGAATACTTGGATGGAATACCTGCATGGTTAAATTATTTCGGAATAAAATCCGTATTAGAATGCAGAACAATAGACGAAAAATGTGCAAATAAGGTAATAGAAGATATCTATAAAGATCCAGTAATTCAAGTTATAATAAAAGACGAATATAATAAACTAGGGAAAAACGCTAGAAAAATACTGAAATTTATAGCTAATAAAGGAGGAGAAGGTAACTTAAGAGGAATAGAACTTTCAAGATCAAGTATAAATGAAGGAATTAAGAGCTTGTTTAATGAAGGATATATTGAAAGGAAAGATAGAGGTGTATATAGAATAATAGATCCAATTATGAGTAAAATTGTCACTATGCTCTAGTACGATTAAAAATAAATTAATTGTCCTAAAAGATTATATTAAAACTACAAAAGCTCCTTTTTAAGTATTTATCTTAAAAATATCATGTAACAGTTGCAAACCACGACCTAAGTTTTACCATAGGCAGAAAACACTAGGCTCTCAGTACATTCGCTATTGTCTCTAATAAGGAACTACACACTTCATATCTAATATAGTTAGATGAGAATTTATCATAGCAACGTTCCTTTCGGGTATAAAGATCTAAGATAAAGAATTATCGGAATTACTAGCGTGTTAAGAAGATTTTCCATAAATATAGAGATTATAAAATTAATATGAATTTAAAAACTAAATGATTTCTCAGAAGCTTTTCTTGACGAAATATCTTTTCAACATTGGACAAGATTTATTTAATAACTTCCGTTTTTAGCAATTATGAAATCAAAAAGTTTGCTGAGTCTAATATAGTTAGTTATCATTACATTAGTTTTAATTACATTATTCTCCATATTTCATTTTCCTGTTTACAATACACAATCAAATAATATTCTTCACAATATAATGAACATAACCCCTTTACCAAAATTACATTATTATAATTTATCTGAACAAGGGTTCAAAGGGGGCGGAAGACTCCATCCGTAACGGTAGACCCAAAATCACCTCCTTAAAAATAAATCTATAGTGTAAATAAGTGTTTCAATTATATTAAATGTAAAATTCTCTGGATTGAATAAATCAGGAAATAAAAGAATTAATAATAATCTAAACTCCTCTCTCCCCACCTCCCCCTTGAATATGGTATATAAGGAGTAGAGCACAAGGGCCAGCACGAAGATCAACGTGCGGAAAACAAACTTAGTAGAACTAGTAAATGGAAGAAAAGCCTTAATGTTCCTATAAGAGGTCTCTATGGGACCTCTTACCTTATTGTACAAATCCAACACTTCCCTCTTGGGCAGATCTAGATTAGTAGCCCTAGCAAAATAAACAAGACTCTTCTTCTTTCTCCTCACTTTTTCCTTGCTATACACGAGAAGCCTGAACTTGACCTGCTCATCCCTCCTATGCCTCTTACTATTAGTTGTGTAATCCCCGTCAAACTCCTCAAACACCTTCACGTCCCCAACAGGCACAGCAATTATATACTTAAACTGTGAAATGAAATTGAGCACATCAACTGTGTAGAAACCAGCGTCAAGAGTTATCAACCTTATCTTGAATCCCATTGCCATTACTTGCTCCACGAGGATCTTCACTATCTCGTCCTTAGTCATACCGTTCACTTGCGGAATAAAGGCAAGTAAAAGTACTTTCCCCTTATACTTGGTTGTTGCAGTTGCGTAGTTCCACGAGAGAGTGTCCCAAGTGCAAATAATTGAATAAATCTATGTAAAGGTTTATAGATAATAATTCAAAAGATATTGTGAATTACTGAGAAATTTTGAATTTTCGCTTGAAGCAAAAAGTCGCGTAATACTTAAAGGGAACCGGGACGATGTAGTACCGATTCACATGAAGCATTGGATAGAATACTACAACGGCCCGGTCCCCTATGAACATTTATCAGCAAGGCATAAAACACTTGTGAAAATGAACTACATGCTGATCACGTCTGAAGTGCTGTCGCGTCTCTCTGACCTCTTCATATTGAGAGCGTTAATAGTTATGATTGTGTGGACGTGCTCCTACAGGGACGTGCGGAGCTACTACGAGTCAGACGTGGTGGTAAGGTGGTTCCTAGGCGAGTACAAGTCTAAGTCGGAGATCCATAGGAGGGCAAAGAAATTTAGGGGAGAGGTAAAGACTCTGTTCAAGGAGTACGCCAAGGAGTTGGAGGGGAAGATGAGTAGACTTGCTGACTACTTACCTAGCAGTGCGTTATACGGAAAGGTTGGAAAGCTGTGGATCGTGGATTCCTTCCTAATCGAGGTACCCTTCGGGAAGAGGAACAAGGAAACATTGAAGAAGAAGTTTGAGCTAGACCTAAGGCAGAGGAAGTACAGGGAGGCGGCTAACACGCTCTTCTTTTACATTAAGTGCAAAGTGAGGAGGAGGTTCAAGGGAGAGTTTACAAAGAAGAGGAACAGGAGTTACTTCGGCTTCAAGGTCTTCAACCTCATGTCGCCTACAATGATAGTTCACGAGATTCAAGTGGAACTGGCCAATTTTCCGGACAATAAGGTTGGCTTCTCTCGCAGCGGTTATAAGGTAGTGGATAGGGGCTTCGTGGGGAAGTCCTCGACCTGGTTGATAGGTTTCTCTAGTTTCAGGAGTGGAGTTCTTTGGGATCTTCTTGAGGAGGTATTGGAGGCCTTACGCTACTGAAAAGGGTATGGTCGAGTTCTTTGTCTACGTTATCGCGTTGATTTACAACTCCTACATCTACACTTCTGTGTTATCGCGTGTTCCGGAGAGTCAACTCGCCCACTAACTTGTACCGCGAGAGTTGATCAAGGTAGTGTGGACTATGTTGGAAATTCTGTTTTTCTCTATACTTGATTATTTTCCATTACAATATAAGCTTAATCTCTCGTTATACTGAAAGATATAATTATATTTTATTCTTAATTAATTATAAAATTGTTTTTCTATCATACTATATTTATTCAATTATTTGCGCTTGGGACACTCTCACGAGTTTCCTTTTTCAGAGCTCCCGAGCCCTTTCACTGGTTTCCCATACCACGTCTTGGTTGTCCAGTCTATTGAAAGATCTATCTCATTCACTCCCTTTAATATCTCCAAGGATATTTTCCTAGCTCTTTCCAATAGCTTTTCAATCACTTCCATCCCTTGTTTCTCTACGTAATTCCTCACGGTCTGTGGGGATACGTCATACGCTCTGGACTTGTTCTCTACTGAATCGTTCCACAAACACGCGGAGATGAGAGTTTTTGCTACCTCATCTACCTTTTCCCCTTGGAAGTTCAACATGGAAAGTAATTTATATCCTATTTGTTGAATGTTATTTTGGTGAGGGAGACCGGGTGTTACCATCTTCCTATCTCACGTGGTAATACTCCATCTCCCTCGCCTTAAACCCTTTCTTCAATTCTTTACACTCTTATAAATTTCTTTATCTTTTATAAATTCGATATTATCCTACCAGAAATATTTTTTCTAATATGATTTTGGGTCTACCGTTACGGATGGAGTCTTCCGCCCCCTTTGAACCTATATAGATTAATTAGTTGGGGAGGGTAATACTCTCCAACTGGGAAACATGGTCGACCCCTTGACTGAAGCAAAGTCTTCGATCGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATCTAGTATCGAGTGAGGGGAGGGTCTACGAGAACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATACTCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCCAAATATACTATGGAAGGAGAAGGACTTGAGAGGAAAGAAAACAGATTTTTACGACGCACAAAAACTAATAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATACGTCTTCCTAAAAGACCTTGAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAGTCAGTGACGAGGAAAAAATAAGCAAGGAAATGCTTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTGGAACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATTACAGTCTGAAAATCACGTTCTGCTAACTATACCGGGAATAGGAAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGCGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGTAAGGGAATCTCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTACACTGCTTTAGCCAGGAAATTGGCTAGAATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGACCATAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCTTGTTAAGATAAACCAACCTAAAGTGTTGAGGAAATTGAGAAATGAGAAAGTTTTCCATCCCTTGTTAAACACGTCCTCAGATATCCTTATTTGTTCTTTATTAAATCTAGGTCCCATAGAAGTTGCTATTCCTAAGACTATAGAAGCTGAGAGATTTCCTAACAAGAGTGAAATTATTGTTAAATCAGGTGAAAGGCCTAATACTGCCGGTATTAAACCAATTGCATACTTTGCGACTGCAGTATTTGATGAGAACCAAAGCGTTAAGATCGAACGTGGTTTTACAGACATACGAACATGTGTTCTACTTATATATTAAAATTATTCTAGGCTAAAATTGATTTATAGCCTATATCTATAAATAAAGGAGGAAGTAATGTTACTTTCAGTTCTTATTTTTAATCTTTCCTTCAAGGAAGTTTTTATGTAAAACAGAGTATATGTCATATCTTATTTTAGATTCTTTTTCAAAGTATTTTATGGATTTATGTTCTTTTATATTAAACTATATAAATCTTCGATCTATTGCTTATGTATTTCCTCTATCTCTTTTAATATTTCTTTTCCTTTATTATTAATTTTTATATTCTTTATCAACTATATATGCTTCCTAATAGTGAACTAATTATACCTCGAATTGAAAATCTCATATGACAATCTAGTAAACATTATGTCTAATGTCCAACTGAAGATATATTACCAAATAGTCTTATAAGATAAAATGATTTATTAACTCTAAAAATATGTAATAATTATAAATTATTTTAATTAATTTTTAAACTTTGACAATTATATATTTCCTATAAAACTAAAATCAGATAATCGATTAAAAACAAAGGTTCTTATGGGTAAATTTCTCTTTACTTTATATAAGTTTACAAAATCTTTAAATTTGTAAATAGATTATTTGCATACATGGATATCTTTGATGCAATTTCAAACGAGCTGAGAAGAAAGATAATAAAATCGTTAGATAAGCCTAAATCTTTCTCTCAACTTTCGGATGAACTTAAGGTAGAAAGTTCAGCGTTAGCTTTTCATTTGAAGAAACTTGATGGGTTAATATCTAAGGATGAGCAAGGTAACTATATACTAACTGAGGAAGGAAAAAGAGCTTTATCCATAATAAATGTAATAGAAAATCAAAATATATCACTTACAAATTCACCTAAGATTCCTATGATAATTCAATACGTAGATAATTTTGTTGTAAATGAAAATATGATAAAAAAATTAAAGGAAGAAGGAAGAAAACTTATTATCAAGGACGTTAATACTGTAGAATTTAAGGAGATAGATCCAGAACTTCTAGATAGTGTATTGGAAAATATAGAGAATGTAATAACTGTTAAATGTCCAGAAGATCTAGTCAATGTAATTTCTTCTAAATCTAAGGAAATAATTTCAGTTGAACATGAGACTGAAGAAACTTCGAAAAATGAAATTGAAATATTTCAACCTGAGAGTTTAGTTGGTAAGTTTATTTCAGCGTTTCTACCGAAAATAAGAATAAACGATAAATTAAAAGTAATTTATGATGGTCCTCTTCAACCTACTAATGATTTACATATAGATCTCGATGGAGGAGTAATAAAAATATCAAAGGGAGAACCACATCTTTTTGCTAAATGCAGGGAAGTAGACGACTTAGATATAGATAAGGATAATATAGAGGCTGATGGCTGCTATATAAAAATTTCCTATCCTGATTTAAATTCTCTTGATGTTACACTGGACGGAGGTAAAATAGATGTCTCAGGATTAAAAATAAACAAATTTTCAGTCGACGTTGATGGCGGATTAATAAACCTCAACGTTTCAATACTTGATGAGGCATACTTAAGTATAGACGGAGGAAAAATTGATGGGAAAATATCGTTTTTACCAAATCAAAATTCTAAACTGACTATAGCTGTGGACGGAGGACTAGGGAACATTTCCATATCTGTACCTAATGACGTTACTGTAATTTCATCTTCTAACATAAACGGTGGAGTAGTTACTTTACCTAAAAGCAGGATAGGTAAAAACGGTATCTTAAACATAAATGCGTCGGTAGATGGAGGAGTAATCAGAGTGAAGGAAGAATGATATACGTCGGAACTTCTGGCTGGGTATACGATTGGAATGAGAAAGGAAATTTAGATTGGTACGTTAAAAATAGCGGTTTAAATGCTGTAGAGCTTAACATGAGCTTTTACAGATTTCCATTTAAAAATCAAGTTAAGTCATGGAAGAAATATAGTATAAAATGGTCTGTTAAAGTTAATAGATACATTACTCACGTCAAAAGAATGAAGGATATGGAAAGCTGGGAAAGATTCTACGAATTAATGGAAGATCTTCATCCTGATTTTTATTTATTCCAATTACCACCAAATTTCAAATACTCTGATGAGAACTTGAAGAGAGTAAAGGAGTTTTCTTCGATTCTTAAGGATAGAATGGCAGTAGAATTTAGAGAAAACGAATGGTATGATAAATTACCTAAGTTAGACTGCACTATAGTTTCTATTGATTCTCCTATAGGAACGTATATTGTCAATACTTCTGGTAAAATATACCTTAGAATGCATGGTAGAGAAGATTGGTATAATTATGAATATAGGGAGAACGAATTGCTCGAAATAGCTGAGAGAATTAAGGATAAAAATCCTAACGATGTTTACGTTTTCTTTAACAATGATCATTACATGTTAGATAATGCCAGAAAGATGAGAGAGATTTTAGATAAAATGTTTAAAGTGTAGAATTGAAATTTAATATTATAATATATAATTAATATCTAAAATGTAATTAAATTTCTTATTAAACTCAATTATTACTTATATAAACTAATTTCTTGTCTTTATATCAATTTGAAGATTATAATGGAGAACTTTTCTTTAGATGATTAATGACAAAGTTTTTTAAATAACATTGGTAAACTACTAGTATGAAAAGATACGCGTTATTATTAATAATTCCAATGTTGTTTGCTCCCCTTTTATTTGCTACTCCGTCTTCAAATTATCAATACGTACAGTATCAGATAAATTATTCTTCAATGACTCAATCTACTCACTATAATTCTACCACGTCTCTTCATTTATATTTAACATTAAATTCTACAAAAATTTCAAATAATCAATACGAGAACATGATAAAGATTATTGGAAATATAACTGCTACAAATTTCAACCATCATATGAGAATGAAATTTGTCACTAGTAAGATATTTAATCAGCATAATTTTACTAAACAGATAAACATTACTTATAAATTCAAGAGCAATTTCAGCATCGTGGCAAAATTTGAAAAGATGAATTTCACTAGTATACTAAACTTTACTAAAGACGTATTGTATAATTTCACTTCAAACATGCTGAACGTAACATATAATTTTACTTATAAACCGATAGGATTAACTGTAATAAACTTTAATGGAGTAAAATATATTGGAAAAGAATTCGCATACAACTTAAATGCTACTGCAAGCAGTAATATTTCTGGAATTTTCAATTTAGGAATGAAATATAGTTACGAGAACCACATGGAGGGGAATGTAAAAACATTTATACAAGGTTTAATATATTCAGTAAATATGCATGGTACCTCAAAAATTATTACAACTTATAGTTTAGGTATGTTTAATGGTAATCAAACGACAATAAAAACAGAGAGCTTACAAATTATGCTAATGTCAACTAATATACCATTAGGAGATCCCATGAGTCCAATGTCTTTCATTCCTGTAGTCTTTAGTAGTTCAGGTACGTATTCAATTTTAAGATATATCTAATTTTTAATTTCTTTTAAACCATATTATAAATAATTTGAAGTAAAAAATTAATTTTTTATTATATTACGCTATTTTCCAGATAAATTTTCAATAAAGCTATTTTTGGTTATTAGCTAAAGATAGATCTTTTACATAATCATCAATGGATTATTCTCAGACGATATAAATTTAAACCTTATTTCCATTTTATTTTTAATGATAATTTCTTCGGAAAAATTACCCGAAAAAGCTAAACAAATAATTCAAGTTAAAGATGAAAACGTTACTGAAGAAGATCTAAAAGAAGCTATAGCTCTTCTAACATGGCCCAGAAAAATATCTGAATACATAGATAAAATGCCAAAACTACAGGTCATACAAACTTTTTCTGCTGGAGTAGATGATGTACCGTTTTCGAAAATTCCACCTAACGTAAAAATATTTTCTAATGCTGGCGCTTATGCATTGCCAGTAGCAGAACACGCTTTCGGTTTGATACTATCTTTAGCAAAAGGGATTAATAAAAGAAAAAGGATAGAAAGTTATCAACTTAACGGTAAAATTATTCTAATATTAGGCGGTGGAGGTATCGGATCGGAGATTGCAAAAATAGCTAGGAATGGTTTTAATATGAAGATAATAGGAATATCAAGATCTTTTAGAAATCCTGAATTATTCGACGAGAGATATGCTCTAGATAAACTTGATGAGTTAATAGGAAAAGCCGACGTAATAGTTGATACTCTACCTTTGAATAAGGAAACTCTTGGTATTCTTAATTATCAACGATTATCAAAGATAAAGGATAAAGCAATTTTAGTTAATGTAGGCAGAGGAGAAACTATAGTCGAAAAGGATATAATTAAAATACTTAAAGAAAGGCCATCATTAAGATTCGGTACTGATGTTTTCTGGAGAGTTAATGGCGTTGAAAATTTTAATTCCGAGCTATGGAATATAGAAAATTTTGCAGGAACTCTTCATATAGCAGGAGGATATGCTAGCACTGAAGTTCTAGAGAGCGCTATGATAAAAGCATGTGAGAATTTATCAAAATTTCTCAAAGAAGGAAAAGCAGAAAACGAAGTTAAGATCTCGGATTATATGTAATTATTTTTGTTCTATTTTTTCTCCATTTTTTATGGAGAGTATTATTGCTTGTTTTATTCCATCCTCTTTGCTCATTATTTTTACTTCTTCAGGAGTTTTATAAATACAGAGATTTTCTCCGAAAATTAAAGATTTTTTACCAGCAAAGAGTTTTGGCCTAGAAATATTTTCATCATAGATTTCTATATCATTAACTTCTATTTTTCCCTTTTCCCTAATAAATGGAATTTTTAGAGTATTAAAAACATTCTCTAGAATATCAATAGGAGAATCTGTCTTAAATTCTATACTTACTTTTTGTTTATCTTCTAACTCTATAACGTCACTTATTTTTTCCTTGATCTTCTCTATTTTTTCCTTATGTTCCTTGTATTCATTTAAAGCTTCTAGAAATTCCTTACCCTTAGGGGTTAGAAAATAAACTCCTTTATCATTATATATTAATCTATAATCCTCTAGTAGTTTCATGTATTTTTTTAAAAGGTCGTAGCTAAGATTAGCTTTATACATTATATTAGTTTTTTTCGTTCCATTTACGCAGCAAGAAAGTATATCCCTTATAACGTCTGCAGTTGTTCTCTTTGCCACAATTATACACTATGTATAAAGAATAAAAATATTGCATAAAAAACCTAGAAAGATATATAGACAAAAATAGAAAATATTTTATTTCTCGTTCTTTTCTGACACTTCTTCTTTCTTTTCTTCCTCTTCTTTGGGCTTGCCTAGAACTGAATACGGAAATTGACTATAGATAACAGTAGCTATGACTAACAATAACACTGTTATTACACCAACAGATGCTACTTGAGATCCGGTTAAAGGCGTAGTAGCAGTATCTCCAGTAACTGCTGCGGCTATTATTATCTCTAAGATGAAGCCTATGATAAATATCGCTTTAAATATTTTATCCATTTTATCGAGAGTTTTATCATCTAATTTCTGTGCCATTTCTCATCACTTCCTGTAGTATATTCTTCCTACTATTAGCATGGATGCAAATACTGCTATTGCGAATTCCCATCCGCTCAAAGCCATCTGTATTCCTCCGCTTAATATGTGTCCAGATGCACATCCGTCTGCCATTCTAGCTCCGAACAACATTAGGTATGCTCCGCCGAAGGATCCTAGGAATCTTACTGCTTGATTGCTTCCGAATCTTTCTGCCCAGCTTGGAGGTATTATATTTCTAAATGATGTATATCTTCTTGTTAGGAATACTGCTGAGAAGAATGCACCCATTAATGTTCCTATATCGCTAAATGGCTCCCAACCTATTCCTTTGAATACTGCTTCACTGTACTTGAAAGTTGGTAGGAATAATTGACCTGCTAGCCATGAATCTGTAGTGGACTCTCCAAATATTTGATGTAAGAACATTTCTGCAACTACTGTCAATCCTACTATGCCTGCTACACTTATCATGAACCACCTTGTAACGTTATCTTCTACAGCATAGTACTCGTTTAACTTCTGTGCAGTACTTCCTTTCTTATAGGGCAATCCTCCATCAGTTAAGTATTTTGCAGTATCGATATGTTTCTGTATTTCGTATGGTGTCATTCTCTTTTCTACGTTAGCTCTTAAGCAGCTTCTTTCTCCTCCCTTATACCTTGGTAGGTAATATGCTATAATAAATAACGCTACTCCATATACTACTGAAATTCCAAATAAGTCTAATCTTGTTAATCCATCTAGTGGTTGAATTACGAATGGAGATATTTTCTTTCCTCCTAATGTAAGGCTTCCAAAGTTTAATGTATTGACTAACCATTGTCCAGCAGGAGTTTGATATAACGCTGTCCAAGATGCTGCACCTAAAACTGCACCAAATACTGCATATACTGCATCTCTTCTTCCTTCACCTAATGCCATCCAAATTGAACCAGGGAAATACCCTGATAGAGCTAAACCAGTACCAAAAAATATTCCACCTAAACCTACTCCTATTAAATATAGGGGCTTTGGAGACCAGTGAAATCCAATTCCTGCAGCATAAAGTCCGTAAATTACTGGTGTAGAAACTGCAAATCCTATTAATATACAGTCAAGGAATAACCTATCTTCCCATTTTGCTAATCTTATTAGTGTTTCTGGATTAGCTATTCCCCATGCTTCTGCGGCTGCCCCTATTATAAAACCTATTATTAATCCAACCCACATTGGGGCTGTATATGTTATCATTTGTGTCACCAACAATATAATTAGTCTCTTTAAATCAATATATAGTTGTTTTAATATAAACCTCGATATTTTACATTAACCGAGTTAATCTGAGAAAAATTTAAACTTTTCAAACGAATATGATGATTTATAGAGTTTTCATATCTAACACTGTATGGACAATAATTAACTATATAGACCATTGGTAAAAGTTAAAGGTATATAATGAAAAACTGTGAAATAAGGTTAAAAATATGTATGAACCAAATTTAGTGAAAGAGAACTATACCCTATTTATTTTTAATAAAAAGAATTTGAGAAAATATTTTTAAAATTTAATAATGATTTAACAAGATTAGTTTGCTTTATTAACCGTCTCTAAAATCTTTCCTTATGAGAAAGGAAATTATAAAGATAGAAAGCGATGCTCTTAAGGACAATTATTTAGGAGATCCTTATGAAAGGGAAGTTTTAGTATATGCTCCAGAAGGTACTGATAACCTACCATTATTTATAGAACTAGCTGGAATAAATTGGTCTGGGAACACTCATAATAGATTCGATCAAATAATGACAAATCTTTTAGGGAAAAAGAAAATAAATGCCGTTGTTGTTAATCCTAATTTTAGGACTAAGTATCATTTAAATCAATATATAAACTCTCCAGCAGTGGGGAATTATGAGGATTTTATAATCAAAGAGCTAATACCACAGCTTAAGGAGAAATATAATCTGGATAAAGTAGCTCTTTTTGGAAAATCGTCCGGAGGATTTGGAGCTTACACTCTTTCAGTAAGGCACCCTGACGTTATAAATGGTTTTGCTGACCATTTTGGAGATAGTTGTTTTCTTTATTTATATAATGATGACTTTATTTATACTATTAAGGCTTTGGAGAATAAAGGAATAAAAGATCTTTTAGACAGTTTAATGAAAAAAGAAGAGCTTGACGATAATGATATGAAGATTTTCAATGTATTCGGAAGCTCAGCTTTCTATTCCTACAATTTAAATAAGGACTACGGCTTTGATCTCCCATTTGATGATACTGGAGAAATAATTGATGATATATGGAAGAAATGGGTTAGAAATGACCCAGCTAAAAACGTTGAGAATTATAAAGACCAATTGAAAAAGTTAGACGCAATTTACTTAGATGTAGGTAAAAAGGACGAATATAATCTATTTATAGGAATGAGGACATTGCATAAGAAGTTGAATAAAATGGAAATTAACCATTTCTATGAAGAATTTAATGGTGGACATTTTGGAAATTCGAATAGATATTGTAAGTCTCTTCCATATCTTTATGAGAAATTAAAAACAGAGAATTAAAAGAGAACTCTCTAAAGAGAAGGCTAAATTAATAGTAGAACATCCGAAAAACAGGGGAAGTATCAGAATAGACGAACTTAAAAATATTTTATATTTTTTCTCTACAACTGAAATTAATATCATTGATAAAGTTAAAATAACTAAATATATATTTATTCTGAATCCTAAAATTAAAGCTTCAACTATTAACAATGTTGAGGTTATTAGAATAAAATATTTCATATTTAACCTTCCAAACGAATTTTAAAATATATTTTCTATAAAAATTCAGTTAACAATGGAGTTATATATAGATTACCAAGAATATATATTGCGTGGACGAAACAATAAGGCTTTATAATAATGATGACACATTAAAATTTGTAAAATTTTTTATAAAAATTGCTGAGGAACAACGAAATAATGTAATATGGGTAGGGAAAAATAATGAGATTATAGTACTAGCAAGAAAAAAGGTAAATATTGAAGGAGCAAAAGTTATTTCTTTAGAAGAAGAAATCAAGAACTCCTTTCTTTCTATAAGTGGAGTCAAAAAGGTAGCGATAAATGATAAGATAATTCTGAACATAGAACCTAATCCTGAAATTTATGAGAAAATCTACGTTGTTAAATATTATTTAGAGAAAGAATACGGGACAAAGTTAGAATTAGAGATAATAGAATGTTAATTTATTGAGAATCTTATAATATCATGACCTTCAATAAGAGTTCCTTTTCTAATTTTAGCATGGAGTAACTTTCCCACGTATTTAACTTTGCCATTAAGTTTAACGTAAATTATCTTGCCTGGAAATCTCCAAAATATTTCGTAAGGATATTCTGAAGTTTCACTTTCGTATATATCTTCGTACTCATTAATTCCAGAAATGAGCTGACCATTAAATCTTATAAAAATATGTATAAAGGAAATATTTTTTGTCATTAATCTAGCATTTATCCAAATTACTTTAGGTTTTACCTTTTTATGATTTATAAAAACTTCTTCATTATCTAAAAATTTTTGCATATTAGCTTTAATATCTCTAATTTTTTTCGGTCTAGAATATTCTTTATAGTAGAAAATGACATTTTGAAAAACCTCTCCAGAGTTTGACATTTCAAATATTCCTTTAGCGTATATTGGTTTCATCGTTTGACTCCCTAAGTTTTAAATAACATTTTATAACAAATATGATAGTGGAAACTAATAAAAAGGTAGTTAGTAAAAAAAGCAAGAAGCTCTCCTTTACTGATTTATTCTTCATATCTTTCGGAGGTCAAGCTCCTTTTATTTCACTACTTACCTTTGGAACTGTAATGATTGGTCTAGTTGGCACAGCAGGAGCTTTCGCTATGATTATCGCTACTATAGTAGTTCTCTTTAATGGGATGGTGGTCTATTTTCTATCTAGAAGGTTCAAAAGAGGAGGAGGATATTATATTTACGCCTTCTATTCTTTAACCTCTAGGCTAGGGTTAGAAACTGGATGGAATTATATACTTTACGCTTTAGCCTATGGAGGTACTTTACTTACCGGTGGGGCTTATGTACTTTATACAATAACTGGATTTAATCAGACTTATCTAGCTTTAATAGTTTCAATACTTGCTTCAGCATTAGTAATATCTGGAGTAAAAGTATCAGCAAAGTATGCAATGATAATGTCTTTAGTCGAAATGATAGCTCTAATTTCTCTTTCTATTTATTTCCTTTACGTTTCTGGATGGCATTTTTATAATCCTATAAGATTTTCTCCAAAACTAATTGCTGCAGTTCTGTTTGGTCTAGGAATTCCAACTGGTTACGGATCTATTGCTCCTCTTGCTGAAGAAAGTAACGCTCAAAAAAGTATTGGGAAAGCAGCGATAGCGGTTTTAATTTTTGGAGGTGCTTTAGCTTCATTATTTTTCTATTCTTTAGGAGCAATGAACTTTACTGGAAATTTGGTAAGTTATCTTCTAGATAGCTTCGGAATTGTAGGATTAATAATTCTCTCGTTTATAGCGCTAAATGACGGAACATTAGGAGGAATGGCCTATATTTTAGGAAATTCAAGAACTTTTAAGGCAATGGCCGAAGACGGAAGATTTCCAAAGATTTTCACACGTAATATAAAAGGTAAGCCATTGTTTTCAGAAATATTAATTTCAATTATTTTCGTTTTAGTAGTTACTTTGGCAGTTAATTTCTTGGGACTTTATGATACATTTCTTACGTTAGGAGCTCTAGCAGGATTTGGAAACATTTTTATTCACACTTCAGCCGATTTCTCTTTAATAAGATTAGCGTCTAAAAAATTAGGATTTAGGAAAAACATAAGGGTATTAGAGGTATCCATTGGAATAATTGCAGTATTAATATCTTTATGGGTTTTGGTAGCATCTTTACCGGAGATCAGTCCCTATATTGAGAACATATTTTTTGCATGGATAATAGGGGGATTTCTTTACGCTGAAGCCTTAGATATGATAAAAGGAAGTAATGAGGAAGATAAAGGATAATTTTCTATAATAAATTGAAAAGTTTAAAAGAATTATGTTAGCTGAATTTAATATTTCAAAATAATATTAAGTTATATGGCAAAAAACATAGTCGTTATGATAAATTCGGGTAAAGACCAAAAACCTAAGATATTAACTGGATTAACGTTAGCATTGGTAGGCAAGCAAAAGCATCTATTTGATGATATTCAAGTGATATTTTTTGGACCTAGCGAGCAATTAATAGCAGAAAAAGATCCAGATATAATGAATATGCTAAATCAAATGGTAGAATTAGAGAAAGTCTACGCGTGTCAACTTGTAGGAGATAACATGAAAATTACCGATCAATTAAAAGGAGTTAAAGGATTAAATGTAGTACTTGTAGGTCCACTTATTGCAGACCTAGTATCTAAAGGATACGAAATACTTAATTTCTAAATAAAAAATAAGCGTAACTTTTTTATTTTTCTTTCTTTCCTTTTTTAGTTATTTTTTCTGCTCCTTCCTTAACTTTTTCTCCAGCTTTTTCTGTATCCTTAGCTACAGCTTTTGTTGCATCCTCTAATTTCTTTCCTAATTTCTTTGCCATAATATGATGTTCTCTAACCTAGTATAAATTTATATCGCAGCCAATTCAAATGCAAATCTTTAAAAACATAGTTAAAATTTTATCGAAGTTAGGTATTCTTCAAGATTTTTCTCTACAAATTTTAAATCATCAATTTTTACGTATTCGTTATAGGTATGCAATTGATTTAACTCTCCAGGTCCATAAGCTATTGTTTGAATTCCCTTATATCTAAAATATCTTCCATCTGTAGCATAAGTCGTAAGAAAAGTTTTTGCATTTACGATTTCCTTAAATTTATCTATATAGTTTCCTTTACTATAACTAGGTTCCGAAATGTCTAGAATCTCTAAATCTCCTTTTATCAATTCTTTTACTGAAGCTAAAGCTTTTTCTGATGATATACCTGGAGGTATTCTCATATCTATTTCAGATTCAGCTAAATCAGGGACTACATTTACTTTTATTCCTCCCTTTATTATGCCAGGATTAAAAGAAATTCGTTTGAGTTCATTACCTAATAATGGATTTATGTTAGACAGAGTTTGAGAACCCTCTTCGACTTCCTGAGGTATGTTAATCTTTATTTCTTGGATTTTCTGTAAGGAAACTAGATCATTGACAAGCTTCATTATAGCATTTTCTCCAAGTGAAGGCATACTTCCATGAGCAGATTTTCCTTTTTGAATTATTTTAACTTGAAGAAGACCTTTTTCTCCTATATTTATCAATCCTTGGGTAGGCTCTCCTACTATAACAAAGTCTGGCGAAAATAATTGGGCAAGGTATTTGCTACCTTTTTGACCACCTGTTTCTTCGTCTGGAACTGCTGTGAAAATTAGGTTATAGTCTATTTTATCAGCGACTTTAATGAAAGTATTAATAAGTACTGCTAATCCTCCTTTCATGTCCGTACTGCCTCTTCCGAATACTTTATTATCTACAATTTTTCCAGAAAAAGGATCATATTTCCATTTAGTTATATCACCTATGGGAACTACGTCGTAATGACCATTGAGTAGAATACTTTTGCCATCTTTATTATTCTTTACAATTATTGTAGGCCATCCTTTCTCGAACTCTTTAATTTCTGCAGAAAATCCATTTTGACTAAAGTACTCTGATATAAATTTTACACAGTCGTAAAAATTTTCAGATTCGCCTTTTGGATTTATAGTTTTGAATTTTACTAGCTCTGATGTTAAATCTTCTATCTTTAACATGGGAAACAATATAATAAAGATATTGATTAATTTAAACATAGTTTTTGTAGATTAAGGTAATTTTTAGATGTACTGTGTTTTCCTTGCATATTACGAATTGGTTTCATGTTATAATCGATTATAAGCGTCAGTAAAATGATATTCAATATTTCAATCAAATTTATACACACGCTGCGCATTCTTTGTCAATATCATTTCCTTAATCTCATCGGTTTTATCCAAAATGCCAATGTTTCTCATTTTTTCTAGAACTGTATCTAAGAATCTAGGGAAGATTTTTGCGCCTAACCAAGCAATTTCTGGAATGTTAAATGCATCACTACCATACATTATCTTATTGAAAGGAGCTACTTCCATTATTTCCTCTAATGCGTTAAGTGCTCCTAATGGAGCGAAAGGAGTAACTTGTGAGAGGTCTAGGTAAACTGACGGAAAAATATAACTCATCCACGCAGTCTCTCTATGATAAGGATATCCTGAATGAACAAATACTATTTTTCCCTCATATTTCCTTACTACATCAGTTAAATAGGACGGTCTAGCTAGATCTAATTTTATATCTCTATCTCCTGCTCCAGTATGAACTTGAAAAGGAACATCTAACTCTTTAGATATATCCATAGTTTTACAAAATAAATAATCTCTAAATCCTTTAGCCTTTTTTCCATACCAATCCTCTTCTCCAGATAAGAAATCTTCAATTGCTCTTTTCTTATCACAGACTATCTTTAATCCCGTTCTATAAGCTATTATGCTCTTAAATCCTGAATATCCGTTTTTTATTTTTCCTCTTAAAGTTTCTTCAAATATTTCTATTGCTTTATCAAAAGATAAAGAAAATAGTGAATTTATTATAGTTTCTATTCTAAATAGTAATTTATAATTTATAGGAATTTCTAATTCCTTTTTCCCGAATCCCTCATCAATAACTAGTCCTTCTATTCCAGCATCTTCAAATAGGAATCTAATGTAATCTATAGGATCATTTTTTACCAATCTATTTCTTTCAGCTAGAAAATTCTCTCCAAGTAATTTTTTCATCTCATTTTTTAGAAGAAAATAGAATGGCCTCCATTTATTCATTTCTAATACGTCAGCATTAATCTCTCCTTCATTCCAAGATTCAGCTGAAGCCATAATAAACTCTTTTTCTCCCATGACTTTTGCAGAAAACCAATGACAATGAGTGTCTATCATTTTAGATCTTCCTATATACATTATATTCCCAATCTGTTACTAACGATTCATACTCTTCAACTTCTGCTAGTTTAACGTTAATAAATTCCCTTATGATGGTGTTCCCTATCCTTTCCTTTAGCCTTGTATCCTTGTCAAGTTCATTTAATGCTTCTCTAAGATTTCTTGGAATGTTTTCAATATCTTTTCTTAAGTACGCGTTTTCGTTAATTGGGCCACTAGGTTTTAACCCTCTTTCTATTCCGTCTAATCCTGCTTCTATTACGCCAAGCAGTAGGAGGTAAGGATTTATTGTAGGATCGGGAACCCTATATTCTATTCTCCTATCATTTGGAGCCATAGAAGGATAAGGTGTTGGAATTCTTATCATAGCAGACTTATTATTGTAACCGTAAGCTATCTTTGTAGGAGCCCAAGATCCAGGGACTAGTCTTTTATAAGAATTTACTGTGGGTGCAGCTAGGGCTGTTAAAGCTTTAGCGTGTTCTATTAATCCACCAATAAAATTATAAGCCAAATCACTAAGTCCGTATCCATCTTTCATATCGTAAAACGCGTTTTCTCCTTCTTTCCAAGCACTTATGTTTAAATGAAGTCCAGAACCAGCCATATTATTGAATGGTTTAGGCATAAAATTTGCTTCTAAACCTCTCTTTGTTGCTACTTGCTTTGCAATTTCCTTAAAAATAATAACTTCGTCTGCACTTCTTAAAGCGTCTTTATGCATTAAATCAAATTCATATTGTCCAGGGCCATATTCTTTAATTATTCTTAAAATGTCTATACTGGAATTAGTGAGTAATTTTGCGATTTCTCCAATAATAGGATTGTCGTAAAATGCAGAAGAGTCAAAACATCTTGCATCATCATAAGGTTTTCTATCTTTAATTAGATAAAATTCCATTTCGAAGGACGATCTAAATTTTAATCCAGTTTCTTCCTCAATTTTTTCTAATCTTAATCTAAGCTTTGATCTTGCGTCGTAATCCCAAGGTTTTCCCTTATCATAAAGTTCAGATATAACCATAGCAGAAGGTGGGAAAATTGTTAATGTTGATAGATCTGGTATTAAAAATATATCTTCGTCTTGAGGCCCAAAGGATCCATAAGGAGATAAAGTGTCCATAGGCGTAAAACTAAACATTGCTTTAGTTAATCCAATTCCAGTTCTTAGCATCTCGTCTATATGATTTATGTAAGCTCCTTTCGATCTTATGAATCCGTCAAGCCCAACCCATGTAAATCTTAAAATATCTACGTTATTATCTTTTAGAGTTCTTTCTACTGACATTAACTTCTTTTTTAACCAAAAAATTAAAAACTTTATTTAGCTATCTCTTTAAATATTGTTTTGCTATGAGCTCTTTAACAATAATTTAAATTTTAACAAGTAAATAGTAATGTTATGGAAACTCAGTATAACATTGATAAAAGAGGACTAATTATAATGACAAGTTTTTCAGTATTTTACGCTCTTCTTGAAATAGGAATAAACTGGGATCCGAAAGAAGGTTGGCTATCCCAGCTTATTAATAAAGAATCTTCGTTGTATTTCTATCGTTTCCTTTATACTGCTATATTCTTATATCCATCGTATCTTGCTTCTAGAAAAATATTTTCTATAAATACAATTTGGTACTTTATCTATGGCTCAATGGCTGAAGATATTATATATTGGATATTTTTACTTAAAGTTCCTTATACATGGGCATGGTTTTATCCAGTAATAAATGGAATACCAATACCAGATGTTATAGAAGGGATATTGCTTTTGATAATACTATATCATAAAGGAGTCTTGAATTTATTAAGGAGTATAAAGATCTAGCTTTAGTAATGAATGCTTATACTATGATAAATTAAGATAAAATTAACTAAAAGTGTAATTTTTAATGGTTAAAAGTAATATTCCATAAAAGAATATTAATTTTCCTAAGAAATGCTGTAAAGTTTTAAGTTAGTTATTATTTTATTATTAAAATGGAAACTTTAAGGGAGTTTGAGTCAGACCTTACTATCGATAAGAAGTTTGGTAAACTGAAAATCACATTATATGAGAATAAGTTAGTTTTGGATGATGGAAAAAATAGAGTAGAATATAATTTAAAAAATATTTCTAACGTAAAGTTAAATGAAGGTTTTGGTATAAACTCCATTGTAGCAGACTATGAAGGAAAAAAGATTGAGATTCTCTATTTTACTAACAGAGTAAAAGAAAAACTTGCTGAACTTTATGAAATATTGGCTTCAGTAACTTCTGGAAATTATTTGAAAATGAATAAGATAGAATCTAAAAAGAATCAAAACGTAGTAAGATGGCTTTTGTCTCTAATTTCTCCTTATAAATTTAGAGTATCAATGGGTATTCTTTTCTCTTTATTGCTTGTTATTTTGTCTCTAATTCCACCTTATTTATTAAAAATCTTTATAAATAATGTACTTTTAACCAAAGGAAATTCGTATCTTTTCACTGAAATAATTTTGGTATTGATTGCAGTATATTCATCAGTTGTAGTAATTACAGTTCTTCAGAATTATGCTTTAAACTACCTTGGACAAAAATTATCAAACGAGTTAAGAGTAAGAATATACGAGCATGTAAATAAGTTATCTTTAGGATTTATAGAAAACTTCCAATCTGGTAGAATTCTTTCAAGGATAACCACTGACGTAGGGAATACTCAATGGTTTCTAATTTGGGGAATTCCTACTTTACTGACGAATCTTGTTACAATTATAGGCATAGGCGTAATAGTTTTCTTTATGAATCCGTTTTTAGGCATTTTTGCCATACTACCAATTCCTGCAATAATTATTGGAACTACGATCTATAGGAGAAAATCTAGGTTAAAATATCATAAAGTATGGAGAAGGTCTGCCGATATTACTTCTTTACTGACAGATACTATACCCTCTTCTCTAATAGTAAGATCTTATGCTAATGAAGATTATGAAAATTCAAGGCTAAGAAGACTTACTGAAGAATTATTTTCTTCACAAATGGGAGTAATTAGATTAAATGTTTCTTGGTGGCCGACTTTAGGTTTCATTTTATCATTAACTACGGTTATAATTTGGTTTGTAGGAGGAAAGGAAGTAATAAGCGGAACTTTAGCTTTAGGTACTTTAGTGGCATTTATAACATATTTGAGTATGTTCTATCAGCCTATTCAAAATTTAACTAATGTAATTCCATTCATGCAACAATCTTTTACTTCTGCAGAAAGAATCCTTGAAATAATAGATAGCGAACCTGAAATAAAGGAATCTGACAATCCTAAAAAGATAGATCTCAAGGGAGAGATAACCTTTGACCACGTCTGGTTTGGATACGATCCATTGGCTCCTGTTGTTAAAGACGTAAACTTGAAAATAAGACAGGGAGAAAAAGTAGGCATAGTTGGTCAATCAGGTTCCGGTAAAACTACAATGATAAAGCTTTTACTAAGGTTTTATGATCCTTTGGCTGGAAAAATATTAGTTGATGGTTATGATTTGAAGGATCTTGATATAAAGAACTATAGAAGTCAAATAGGTATAGTTCATGCTGATCCAACCTTGTTATATGGTACAGTAGCTTACAATATAGCGTATGGAAAGCAAAACGCTAGTCCAGAGGAAATAATAGCTGCGGCAATGATGAGTAAAGCCCACGACTTTATTATTAATCTTCCTTTAGCTTACGATACGCATCTTGGAGAAAGAGGTAATAGATTATCAAGTGGGCAAAAACAAATGATAGCTATTGCAAGAGCCTTAATAAAGGAGCCAAAACTTCTAATAATGGATGAACCTACAGCAAACGTTGACAGTATAACAGAAGGGGAAATTATAAAATCTCTAAAAGAAGCAATGCAAGGTAAAACTACAATAATAATAAGTCATAGATTTTCAATTTTGAATTACGTAGATAGAATCATTGTCATGGATAATGGGAAAATCGTAGAAGAAGGAAAGAGAGAAGAACTATTACAGAAAAAAGGAAAATTCTATGAAATATTTAAGGGAGATGGAAATGGTACTAGAGAAATATATAAAGAAACTCAATATAGTTGAAAACTTAAAGGTAATTAAGTTCAATACCGAAGATAACACTGTCGACATATCAGTAAATAACATAGTGTACAATAGGATGAAGATAATTAAACCATTTCCTATATCTTATCCTAATTTTGTCATGTTTACTAATGGTAAAATAATTTTTACGATAAAGAACTATGATAAAGAATTAGAAGATATAATTTCAAAAATCTATTTTATTCCTAAAATTCGAAGAATAGTATCATTAGATACAAGTGGAGACGAGTTTGTGTGGAAAATAGAAACTAATTATGGAGAAACTGAAATAAGGACAAGAGGTAGAACCTCTATAATGAGAATAGAAAATAGAGTAATTATCATAGATACTTCAGACGTAGTCTATGAAATAGAAGATTTCAATAAAATAGATAAAAAAAGTAAAAAACTTATTGAAAACATAATTTAAAAATTAACTTTTCCATGCAGGGTATATTTGACTTAGAGGTATTGCAATGACCCATCCATAACTATTTGATAAATACATAGTTCCGCCAACAATAACTGGATTCATTATTCCTAGCCTACCTCCAACATAATACATTGTCATTATTTTACCGTTATGAGGATTCAAAACATAAACGTTATGCCCAGCAGCTACCCATAATAGACCATGATAGTATGTAGGACTGCCTCTAGGACCTCCTGGATATTCTGGCGGAGTTTGCAAATCTGGAAGTTTAGTTTTCCATAATATTGTGCCGTTTATAGATATAGCATTTACAGTTCCTAAAGATGGGTTTCCGTCGTAAATTACGTTTCCATATATTAATGGCATTCCACCTTTATATGCTGGAGGAATAGGTCCTCTACCTAGATTAACTGCCCATACAGGTTTACCATTGGTAGCATTTAATGCAAACGTTACCATATCAATCATGCCATTAGAGAAATTAGCAATATCATTATCTATTACTAGTCCTGCATTTTGATCTACTGCTGGAGCTACGTCTCCTAATCCGGTGTTTGCACCTACGAAAGGCGATGGCATAGTGGCGTTCCAAACTTCGTCTCCGTTAAATCCATTGACTGCTATTATATATCCGTAAGGAGGAGCTACGTAAGTGAATCCTGCGAGAAATAACGGTGTACCATTAGGCATTACGTAATAATTAACACTGGCCATATTGCCCATTAAGCCAGGGAATCTGTCCATCCATATAACTTGGCCAGTAGTTGCGTTAAGGCCTACAAAACATCCTCCTCCAGTAGTGTAGGCTAATATTCCGTCATATATTGCAGGAGCCGGCATTGCTTCTCCCATAGTGAATCTCATCCATATTAGTTGTCCATTAGTAGCGTTAAATGCATAAACTGCTCCGTTCCTTGCTCTTACTATATCGTTATATTGATGTAATTCGTAATGAACAAATTGAGAGAAAGTGAAACATACTCCTCCTACAGATACGTAAACTACTCCATTCCATACTATTGGATTATTCATGGCCTGTCCTGCTAAACCAGTAGCGTACCATACCATGTTACCCGTTAATGGATTTATTGCTGCTATACTTCCGGGTAAGCTATCTTCAGTAGCAAATAACAAATTATCAGCTAACGTTACACCTAATGGTTCACCGGCCATCTGAGTTTCCATTACCAAAGCTCCCTTAACTCCCATTTGTTGGGCCCAAGGAAGTTGACTAGGAGGAGTTGATAACGGTATAGCTACTCCACCAACATAATTTAACAATGGAATTTGCCAAGCAACACCTGAAGCAATTTCCTCAGATATTGTTTTCACTACTGCATTATGTCCTTGGTTGTAATTTGTAACTGTCCAACTTGACGGAAGCCCTAGATTGGAAGTTGTTGCGTTACCAGGATAATAGGTTACTTCCAGTTTATATGGAAAATAAGTTCCATTGTACTGGGTATACGTAGTCGATATTTCAGTTTCTTGACTTCCAGTAATTATGCTCATTGCTAGATTATGCATAAAAAATACTGAAGATATAGTTAAAATTATTAATACCGGGATTACGAGAAAATATGTTTTCCTCATATTTTAAGATGTCTAATCGAGTACAATAAATAATTCGATTTTATAAGGATATTATTTTAATAATTATTAATAAACTATCTTAATATAACATATTTTTTACCTAGAAATGAGAAGATAATTTTTTAAAATTATAAAAATATTCTTAATTATGGAAAGAATAACCTTAAACACTGATTATTCTGGGCTTTTAAATTTAGAAAAATCGTATAAGGTATATTCTCTAGAGAGCATTGAAAGGAAAAATTGGGGATATGAAGGAACCTTAAAAATTACAAATGAAATTAAGTTCCAATGTGTAATTAAGACTGGTAAAGATTATGTAGATATTTTAGAGACATCTGGAAAATTTTCCATACATATCAATTTTGATAATAGAAATGCAGAAATACATTGCAACGGAATTTCGAATTTTTTAACTAGGACAATTACTTCAAGAATTTCAAGGTTATTATCAGAGTATGGAAAATATTTTCGTAGCTCAAGGAAAAGATCAGTGTTCTTAAAAGATAAGGGAGACACTCTAGTCGATTTAAGAGGAGTATATTGCCCTTATGGAGAAGTCTCCATAATAAATATCTTGAATGGTGTCAAAATAGGAAATTCCATAGAAATTCTTTCTGATTGTGTAGCTGCAAGTAAGGTTTTTCCTAAAATAGCGGAAGAGTTAGGATTTAGATACGAAATATATGATATGGGAGATTATGCATCATATATTTTTATTAGATATAGAAAAACTGATATTAATGAACCAGATTTATGCAAAATTAAAGAAGGAATTAGAGATTATAAATACATAGCATCGCTTTTCATATATTTTAATAAAATTGAAAAAATAGAGCAATATGACGAGTTCTGTAGAGATATTTTAGATTACGATAAAGAATATTTAGCTGTAGTTTCACCTAGAGGGAGATCTTGGTTCTTAATATCTTATATTAACAAAAATATCTTAGCTTCAAGATTAGAATATGAAGGAGTTACATTCTTTGACGATTGTGCATTTACTGTTCTTGATGGTTTAAAAGGTAAATTCAGTGTATATAGACTAATTCACTAGAATTCTGATGTTCCGTTTATGTATATTGTTATTGGTCCAGTATAACTTTTCATTGGCGCTCTAATGTCAAAGCTTAAGTTTATGCTACTGCCGTGGCTTAAAGTTATAGGCAGTGTGGGAGTTGTAGAGACTAAAGTAAATGGCGAAGAAACATTAACGTATGTTATCTCTACTGGTAGTAATCCGTTATTAGAAAACTCTATAGTTATTACGAATGTTTGTCCTCCGTGTACTGATATACTTGTATTGTAAGCTGTTTCGTGTACGTTTTTAAATATACTAAGTGTCGTTCCAACATATTTTATATTAAGTCCAACCACATTTACTGAAAAAAAGTATCCTTGATCGTATAAATAATATAAACTTCCTATAACTATTAATAATACTATGATTCCAACTATTAATCCACTTTTCATTGTTGAATCCTTCTTTGTGTAAAAATAAAAGTTTTTTTAATATTATACTATATTTTGAAATGGATTATTGAGTAAGAAAACGTATATAGAGACTAAATTTTTATCATCAAAAAATTGTGAAACTCTTACTAAAATGTTAGGATCAGTAAGCAATGATGTCAAAGAATTTTTCCATTGAAATAATGTATACCAGGTCTTTTCATCATTATCGTTTTTAATACTAACTACAACACATTTTTGAACAGAATTTATAACCATTTTAGAAGAATCTTTCAAGTATTTTAATTGCATTTTTACTTCAATATCATAGGCTTTAGGTTCTAATCCAGTAACATCTTTGAGTTTTGTAACGATTTCTTTTACACTTTCCGGCGATGTAAGAGAAAAGTTTACTGATGATATCTTTATTTCAATCTCTGGATTATCCTGCGGATAAAGGAATTTAGCTTCAGAAAACCAATCTTCTGGATGCTTAGAAAATACATCCTTAAGGAACTCTATAAACGTTTTCTTGCTCTGAGAAATACTCATTTATAAAATATACAAACAACATTTATAAAACTGTTACGCAATTGTTTGACGTGATTACTAATAATCTTTTAACCAAAGTTTATCATTGTTTATAAACGGAATTAACGTTAGTTTTTCTTTATATAAAAAATTGTATTAGAAAAAAAATCATACTTGCTTCTCATTTAGAATATCTTCCATTATAGTTAACGGTTTACCGTCCTTTTCAATCTCTACCTTAGCAGGAATTATCTCTTTATAGCTTTTTGCACTTTCTGCAATTCTTTCCTCAAAGGAAGGTATTAAGTCATTTTGATAGAATATTCCTATAGGTATTTTTTCTCCCCACTCCATAGATTTTAGAATTCCACTAGCCATTTTAGCGTCCTTCTCTTCGGGCTTTCTTACTATTGGATCCCAGCCTTGTACAGTATCTAACTTGTAAACTCTCTTATCTAGAAACTCTTTTGTCATTATATCGTTATATGTAGGACATGGCTGAAGAACATCTATAAAGCTTAATCCTTGCCTAGAGAATGCAGTTTTCATTAGATCCTTAAGATGTTTTACATCATATGCATATCCTCTAGCAACGAACGTATACCCTGCAGATATTGCCAAAGCTATAGGATTTATATCATCATTAATATTAGGTTTAGGTAACGATTTAGTCTTTAACCCTCTTCTAAGAGTAGGCGAAGCTTGACCTTTAGTTAAACCATAAACTCCATTATCATGAACTATTACAGTTAGGCTAACGTTTCTCCTTCCTATACTAACGAAATGTCCTACTCCTATACCTAGTTGATCTCCGTCTCCAGCGTTTACTATTACTTTTAATGAAGGATTAGAAAGTTTTACTCCTGTGGCAAAAGTTAATGCTCTTCCATGAAGTGTGTGAATCCCAGTAATTGGATATCTAAAGAAATGAGGCGTTTTCCCTGAGCATCCAATTCCTGAAACTATTACTACGTTCTTAGTATCTAAACCAAGTTCAGTTATTGCCAACTGCTCAGCGTTTAGTATTCCAAAATTACCGCAGCCTGGGCACCAATCGTTCCATTCTGGTTTCCAATTATGCTCCACCATTTAATATCACCTCCTTCTTTCCTTTAATAGCCGCCAAAATTCCTTCTTTTACTTCGTCTCTTGCCATTGGCCTACCGTTCCATTTAAGTATATAGTTAGTGGGCTCTAAACCAGTTTTTTCTTTTATAACTTGAGCTGCTTGAGCTTCGTAGTTTCCTTCTATATCTATAATTATTTCTTTTCCAGAGAATAACTTAGTTATAAGGTTCTTAGGGAATGGATTGAACATTCTTAACTCTATCATTTGTACGTCTATTCCTTCATTCTTCAGATCTTCAATTGCGTCCAAAACAGCACCCTTTGGAGAACCCCACGTTACTATAGCAATTTTTGAATCTTCTCCGAAAATTTTGACTCTCTCCTCTTCAGGAATTTCTTTGTCCGCAGTTTCTAGTTTCTTCATTCTTTTCTCATACATCTTTACTCTGTTTTCTGGGTCTTCCGATATGTGCCCCATTTCATTATGTTCGTCTCCAGTATAGAACATAAACCCATCACCTAAGAAAGCTCTGGGTGATATTCCATCATCAGTAAATGAGAATCTATTGTAATTCTGAGATGCAGGAACTATCTTCCCTCTGTCAATTCTTAATTTATCCATCTCTAACTCATCAACGTCTATTATAGAGTATGCATTAGCTAACGCTTTTTCTACTAAATGAACTACTGGAGTCTGATATCTTTCAGCCAAATTGAACGCCCATACTGCATCTTGGAATGCTTCTACGTGATCGCCGGAAGCTATCACTATTCTAGGGAATTCTCCATGTCCAGCATTTAATGCAAATTTAAGATCTGCTTGAGACGTTCTGGTCGGTTGACCAGTTGATGGACCGCCTCTCATATAGAAAGTGACAACAACTGGTGCTTCATTCATTCCAGCCCAACCTATTCCTTCAGCCATTAATGAAAATCCTGGTCCCGAAGTAGCTGTTGCTGCTCTTACCCCAGTTAATGCTGCGCCTGATGCCATATTTATTGCAGCTAATTCGTCTTCTGATTGAACAACAACTATGGCTCTCTTTCTCTTATCCCCAGTTTTTGGATCAATATATAGGACTTCTTGGTGCGCCTCAATGTAAGTACTTTCATCACTAGCTGGTGTTATTGGATAATAACTTTGAAATTCTAATCCTCCATAGATTTTTCCCATAGCTACTGCTGTATTTCCGTCAACTTGAATTCTCTTTTTGGAAAGAGGATGAGCCTCAAGCTTAAACTCTGGAACTATGTCTTTTGTTGCAACATCTACTGCTATAGAATTTAATTTCACAAAAGTGTCCTGTTTAAATGTTCTCTTTATAGAGTTTAGAAGATATTCCTTTGGTAAACCTAAAAGCGCGTAAGATACAGCTATTGCTGCAGTATTTTTAACTCTTTCCGCTACAGAAAGAGGAACCTTTAGTTGAGAAGAAACATCTTTCATGATCCCGTCGTAATCTACTTCTATAAGTTTTAAGTTCCTATCTTTAGCATATTTAAGCACGCCATCAATGTTTTTCTCATAACCTTCAGCTTCAAGTAAATGTGAAATTCTGGAAGATACTTCTGGTTCCATACTTTGAACTTTGTCTATTGATGTTCCTTTTACACCTTTATTGTATATAATTATTTTAGTTACATCACTAAAGTGTTGAAATAATGTTTCAGCATCAAACGAAGCTAATATATCAACTTTATTGGATATGCTTCTAACTCTTTTGTCGCTTATTGTTAAGTTAAAATAACTATGCCTACCCTTAATGTTAGAATAATATTCTCTATTTCCATAAATATAATACCCAGCGGATGCCAAGGCATTGCCAAAAATATTAGCCGATGTATCTACGCCAGCACCTTGTGCTCCACCTATCATCCATGAAATTTTCATAGCTATCAATCTATAATGGTGAATCCTAATATTTAAAATAATCCTAGAAATAAACGAAAGTTTATTATAAAAGTTTAAACATCCAACACTACAATAGTGAAAAAATTAACTTTTATAATTATAGAATATTTATATTAATTAAAATAAATAAGAAAATCAAAAAGCGAATTTAAAGTTGAATAACAAAGATGAAAATCTCGTACCCTCCAGACCCAAAATCACTTCCTTATGTTAACACACTCTTTGCATTTTCTAGCATCTTTTTAACTTTTTCGATATTTACTATGATTTTGTCAACGTTCAATTTACCTTCATGGAATCCCCAAACATGTAAGACGTAAGCCGCATTCCATCCATCTACAATCCAATCACCTAGTTTCTTTGACAAATCGTTAGTGGTACTTACAAGGAGGTACGTGTACCATCTGCCTTCAACATTAGCTTGTTTATATTCTTCAGTTTTAAATTTCTCAGCTAAAGCTTTCACAATTTCTTCTGCTACCTTGTAAGTCTTCTCTGAAGCTCGAATAGGATCGCCTTTCTTTAAGTAATCGTAAGCTTCAGCCATATATTTTTCTGCAATTTCTAACCTTAATCTAATTCCTTCTTGCGGATCTTCCTTAGATATTTCTCTAATTAATAAATCTTCTACGTCAATGCCCTTCTCTCTAGCCTTTTTTATTAGCTCTTCCATAAGTGAATTGAAGTGAGATTAAGTTTATAAGTTAAAGCTAGTAGCGCTTTTTAGGAGATTTCTCTAACTTAAATATTTTTATTCTATTGCATAATTGAATAAATCTTATCCATTCTAGGCGAATATATTTTAGGCTTCACTGTAAATTATTTAACATCTATTCTCTTATATTAAATAATTTTTAACGTTACGTAATACTACAAAGAATTTTAGGAGAAAAGTCTAACCGTACAATCTTATCACTTCTAACTCTTCCAAGGACATTCTTTATATATGATATGTTGGTTAATGAAAAAATCAATTTTTCACTTTATACTTCCACGGTAATTCATGCAACAATAGCTAACGCTAACAACAACGGATATTACGAGAAAACATGAATTGAAAAACAAAATAAGCCCTAGACTTATTAAGGCTAAGAATTAGAACCTTTCTTAGACCTTAAAGTACAAGGTTACATAATAGGATAATAATTTGCAATCAGCTATATTAAATAGTTTTCTTGGCTTTTAGAGTCTAAGGAAGTATAAGAAAATAAAAAATAATTATAGCGTTATTTCTTTCTTCCTAGTACTTTAAATAATGAACTTTCGGAATAGGAAAGTTTGCTCTCAGTATACTTTTTCCAAAGTCTATTGAGAACAGGTTTTCCTGCTAACTGTTCTAAAGTCCATTCTTTTGCAAATTCACCATTCCATATTTTTTCAGCTTCTTCTTCGCTTATTTTCTTTAACATATCATAATATTTTTCAGCTCTAGTAAATTGTCCATATTGACTTGTAGTAGAATGAAACTTCATTTGCTCGAATATTCCTACATCTGCCATTGCCCTAGCAATTTCGGCGAGTTCACCAGAAGCGTAAAGCTCAAGTATTGCAGCTTCTGGAGACGCTCCGTATTTCTCTGTAACTACATCAAAATAAGCCTTAATTGCAGACACTAAAATTGGTGCCCAAGTATGCTCACTTAATAAATCAAGTAAAGCCTCCTCTTCAAATGATGACATTACTGCAACTCCTCCAGGCTTACCTATTGCACCTACTGCAGTAGCTAAAGACTTAGCGTAATCCCAGGCTTTTCCTGAATAATCATTAGAAACTCCTAATAGTACTGGATATCCTTTGTCTTCTTTATGTAGTAGAACTATCCCTTCACCTATCATCCTAGGAGCAACCATTATAACGTCAGTAGTAGATGGTGGTTTTATAAAACCAAAAGCTACGTTATATCCTGAAGCAAAATCTAGGATAAATCCTTCTTTTTTCATAATTATTCCTTCTACACTTTTATAAACCTCAGGAGCTATTTCATCTGGAATTAGCATTAATGCAACGTCTGCTCTTTCAAAAGCTTCTGGAATTTCATAGACTTTGAAACCGTCCTTTTCTGCTTTCTTGTAGTATTCATCCTTTATATTTCCTATAATTACATTTAATCCATTATCTCGCATTATGCTTGCTTGAGCAAAACCTTGATTTCCATATCCTATAACTGCTATATTTTTACCTTTAAGTAGAGAAAAATCTCCTTCAAGAATTAGTTTTCCCATAAAATAAAATAGAGAAAATGATTTAAAAAAGAGGTATCCTATCTTGTAAGGTTATATTTCGCCATAAAAGTCTCTTGTTACTTCCTCTAATGTAATTTTATCTAGATATCGCTTCTAGTGGAGTCCCTGGTTTTATGTTTTTCCCTGTCATAAATATTATAATACTAATTAGAAATCCAATAGCTCCAATTATAATTATATCTCCTGTAATTCCTATTAATCCAATTAACGTTCCATAAATCAACGATGTGATGCCCCAACCTAATTGACCTACCGCAGCAGATAAAACATTAACTGTGCCACGTATTCTAGTAGGTACTGTTTCATTTATATAGTTAATAACATTTGCAAAATTCCCATTTATCCAGAAAGAAGCAAATGAGTACGAAAGTAACAACTGAATAAATATTGGAGGCGATAGTGCAAACCAGATTATTCCTATAAGTGCCAGTAACGTACCAATAGTTCCCCCATATTTTCTTCCTATTAATTCACTTATTGCACCTGCTGTTACATATCCTGGTATAGTTATAAATGAACCTATACTAATTATTGTTCCAGTCTCTACTACAGATAGGTGCAATAGTTCCTCCATATAATACGCTGCCAAAAGAACTAGCGGAACTTGTCCGGCTAGATACAGTGTGTATAATAGGATTGACCTTAAAGTCAGTTTTCTTACGTCTCTCTCGAAAGCTTGCCTATATGGACTTTTCTTTACTTTACTAATATCAGTTATAATTCCCGTTTTTTCATCTATGTTCCCTTTTCTAGCTTTTTTTATTTCTTCGAATCTATCCGATTCTTTTATCCATCTTCTTGCTATAACAATAAGAATCATTGGAATTATTGCCACTAGCCAGATATATGTAAAGCCTAAAGGTTTATATAAAGTAGCAGCTATTAGTCCTGCTATTGCTACACCAAAAGGCCAACCAGATTGTACGAAAGAGTATATTAGTGCCCGCCAACGAGCTGGCATCTCTTCTGTTATTAAGCTAGCTGCAGTAGGTTGTTCATTTTGAGCAAGTGCTTGAGCTCCAACTCTAGTTAAAATAAGCGGAATAAGCCCAGCATAAGTAGCTATTCCAGTTACTCCTGTTAATATGCTTGTGATAAGTAAGGATATTTGATAATAGAGTTTTCTTCCTACTATATCTAAAAAATATCCCGACAAGAATACTCCAATAGCAAGCCCAAATTGAATAGAAGATAGCATTAACCCTACTTGAAAAGAAGTTAATTTTAAGATATTACTTACTGGTCCTAAAAGAAGGCTAAACATATTCCATTCATAAACTACCATTGTCCAGCCTAGCCATGCTGTGATAACAAGAAATATTTTATATTTTACGCTTTTGTTTTTTTGAATTTCCTTTTCTACTTCTAGTACTTTACTATTATCCATTATTTTTTCATTACTGCTTTTCTCCACCATTAAGAGGTTTTTTACTTAAACTATTTAAAAAATAGTTATCTTACAAGTTCGGAGTCCTTTGCCTAGCAACTGATTTATATCAAAAAATCTAATGTGAAATAGATTAATTTTTAGGAGATCAATATTATTAAAATATAATAACCCAAGGTTTAATGCCTAAATAAAAAGTTGCTGTGATGTTAAGTCGATAATGATAGCTATAATTCACAAATACTTCATTATTAAACTTTTAATAGTTATAAAACTCGATTGTCTATTATATTAAGTACATTACTTATGAAGATATTTCTAAGATTATGTTAGTGTTACCTATATAGGCAACTTTAGTTGACATTATGCTTAAAGTTCGACAGAAAGATTTATTACTGAACGCCAGTAAGTTTTTATTTTACTATTTCTCATCTTCCATAATATCTTAATGAATAAGAAGTTTATGAAATTAATACAGAGTAAGAGAAAAACTTTATCGAAACTATCTTGATAATTTATTTCAGATATCTTAATACTAATTATTGAAGTACTTCAATAATTAGTATTAAGTGCTAATTCTATTAGTTTCGTGAAGCAGTATTAGAGATTCGTATATTATTAATGATGAATACAATATTATTTATATTATAACAGATTCTTTATAGGTTCCTTACAAGTATGGACATATTAATAATAGACTTCTCTTTGAATAACTTATTAGCATGTCTGAGCGCTCTAATTCGAATAATGAATCGAATCCCAATAAATCTTCTAGATCTAGACGATATATCATTTATTTAACAATAATAGCACTAGCTGGTTGGAGTATGGCATCATTTGATTTCAATCTATTTACATTAACTCTTCCACTTACATCTAAGGCGTTAAACTTTACTGTGGCCGAAGCAGGAGCTATTTCTGGAATAATATACCTAGGGCAATTTATATCAGTTCTAGTATTTGGACCTTTAATGGATAGATTAGGTAGAAAGGTAATGTTCCAATTAACTCTATTATTTTCTGCAATATTTACTGGCTTCACTGCATTTGTACAGAATTATATACAATTTATTACCTTAAGATTTATTTCGGACGGTAGTGCATTTGCAGAATTGCCTACTGGGCTAACGCTTATAACAGAAGAATCAAAACCAAAAGTAAGAGGAATCTTATACGGATTCGTTCAAGGTGGGTGGCCCTTAGGGGTTTTCTTAGCCTCAGCTATATACTTGATTCTGGTATCGTCTATTGGTTGGAGAGGATTATATTTAGTAGGAGTACTTCCATTAGTTCTTATTTTGATAGGTAGAAGATGGGTAAAAGAAACAGATAGGTTTAATGATCTAAAAAAGGCGCTAAAAGGCGAAGAGCAAACTACACGATTTAAGACCAATCTTCAAAAGGCTAAAGAATTTCCATTTAAACAGTTATTTACTGATAAAAGTATTAGACGACAACTTATTGCGGTTAACTCAGCGTGGATGTTATATACATTTTCCTTCGTTACTACTAATGTAGTTATAACGTTAATTTTTACTTCCTATTATCACTTAACTGCGTCTCAAGCAGCCTCAATTTTATTACTTTCTTCAGCCATAGGATATTTTGCATATCCTATAGCAGGTTGGTATGGACAGAAAATAGGTAGAAGAAATGCATGGGCGTTAAGTAGCATAATTATGCCGCTATTAGCTGCGGTTTTTCTACTTACTGCAAGACCTGGAGACTATTTGTCAGTACTTATACCATATATTCCGCTATATTTCTTTAGTAATGGTACGTTTGCATCGCCTGGCTTTATGTATGTGTCCGAAAGTTTCCCAACGAGAATAAGGGGGACTGCAACTGGATTTACAATGGCATTAATAGCTGCTTCGTATGCTATAGGCGGATTTTTATTTTATGGTGTTCTCACTTTAACTCAAAGTATATATTTGACATGGATAGCACTAGCTATCATACTACCTATAGGTGCATTAAGCATATTAATAGGAAAGAACATACCGCCTAGTGCAGAACTAGAAGAAATATCGTGGTAAAAATGTCTTTTAGGGAATTTTTACACAATAATTTAATTAAAACTAAAATTTTTGATTTAACTCATTTAATATATCATAATATGCCTGTATATCCGACGTCTCCTATAATTTCCATAAATCAAATAAACAGTGTTGCTAAAGATAAATTTTCTTCTAGAGAGATTAAAATGATTACGCATCATGGTACTCATTTTGACGCTCCTAGCCATATGTTAGATCAAGGGAAAAGTGTTGATCAAATAAATCCAAGTATGTTTATTCAAAGATGTGCAATACTGAACTTAAGTTTCCTTAAACCTAAAGAGGAGATTATTTCCAAATATCTCTTACAATTTAAAGATATTATAAGCAGAAATGAGGCAATCTTACTTTATACTGGATGGAGCAAAAAAAGAGGTATAAACTCAGAATATCTTTTTCAATGGCCATATCTAGATATAGAAGGTGCAACGTATTTAGTGTCGTTTAAGAATCTTAAGATAATAGGAACTGACGGATTAAGTATTGCAGGATATGGGAATAGCGCAAATATAATAGATACACATAAAATATTACTTGAAAAAGATATTCTAATAGTAGAAGAGTTAAATTTCAATAATATTTCTACGATTCTTGATCCAGTAAACTATTTAGAAGGAGTTTTTATAGGGCTACCCATGTTAATTAAAGAAGCAGACGGTGCTCCAGCAAGAGTTTTATTTATATTAGAATAAATTTTTTCTATAACTTCTCTCCGTATTTAACAATATTTTCTGGATCATAAGCCGGAATAATTATTCTGCATTCTTCTTGGAGATAATCATATGCTCTTATACATTCATAAATATCTTCTGCTATTCCTATAGGTGTCTTAGTTTCCAGATTTTTAGAAACGAAAGCTGCATCTGTTATACAAATTTTATTATCAAGAATTATAGACATCGAGCTTCGATGATGACATCCAGTCCATTTCAGGAATATATCGCCTATTTTTTGATCATCAGTTAAAACTATTCTATTCCATGCTTCCTCAAAAAGATATTCTCTAACATATTTAGGTAAGTATACGTCTCTATTTAGGAAAGGCGAAGGAGAAGGGTTCACTACATCTTCAAACCAGCCTCTCCTAGAAAAAATCAATTTAGCTTTTTTAAAAAGATCTATATTACCTATAGTATAATCTTGAACTGGTGTGATTATTATTTGAGAAATATCGTCTGGTGTTAAATTAATTTTCTTCAAATGATTTTCAATTTTTTCTTCATCCTTTACACTAAATTTACATCTATCGCTTCCTGCCCATTCTCTCAAGAATTTATTTCTCAATGTGAGATCTCTAGCAAGACCAGTATTTATGAGAGTATAATTGTCTTCACTTTCTACCAAGAAAGAATAGAATGATAGTCTTATCCAAGAATTAAATTCCTTCATCCAAAAAACTTCAGCTCCTGGTACTTCTCCATGCTCACCTACTTTAAACATATAAACTTGTTTAATCATATTGGGAACCTTTCTTTCTAACAAATAAAAACCGTACCATACATGTAAGGATAAAACTATCAATAATCGATAAGAACATATTTTTATCAGATTTTTGTCTTTAAGGTAGAAATTAATCAATTCAATATTTATTCCATTTCTTTACTCTTTTTATCAGTTCTTCCACCTTGAAATCTTCAGTTAAAAATATTTATTCCAGTTTTCTTATGTTTAAAACATTCTTTTTTAAGACATAATCCAAATAGCTTATTTTATTCATGTATAACAATCTTGTTATGGAAGAAGTTCATAAAAATTTTTATAAAGAGATCGAAAAACAAGGAGACTTTATTATATCTCTATATAAAGAATTTATACCCATAAAAGCGTTAGGACCAGAGAACGGAGGCGAAGGTGAATACGAGAGAGCTAAGAAACTTAAGGAAATAATGATGAAATATTTTGATGACGTAAAAGAAATTGATGTTGAAGACGATAGAGTACCCTCAAAGATAAGACCTAATTTAATAGGAACAATAAAGGGAGAGAAAGAAAATACTTTATGGATAATAGCTCACATGGATACTGTACCAGAGGGTGATAGAAGCCTCTGGAAATACGATCCATTCAAAGTTAATGTTGAAGGAGATTACATTTACGGTAGGGGAGTTGAGGACGATGGTCAAGCAATAGTATTAGGAATAGCTTTAGCTAAATTGCTTAAAGAAATGAAAATTAAACCTAAAATGAATTTATCTTTATTAGTTTCTGCAGACGAGGAAACTGGAAGTAAGTACGGAGTGTCTTATTTAGCTAAAAATTATCAACTCTTTAAATCAGAAGACATAATATTAATTCCAGATGCAGGAAATTCAGAAGGATCAATGATAGAGGTTGCAGAAAAGAGCATTCTATGGTTAAGATTTACAGTAATAGGAAAGCAGGCCCATGCTAGCACTCCTGAAAAGGGAATTAATGCTCACTTCCTTGCAATGCTATTGGGAATTAATCTATATAATGAACTCCATGATAAATATAATTCTAAAAATGAGTTATTTGACCCTCCAGTTTCTACATTTGAGATAACTAAAGTTGAGAAGAACGTAGAGAACATTAATACTATACCAGGTAAACATACCTTTTACATGGACTGCAGAATTTTGCCTAAGTACAACATTGATGAAGTTATGAATACTATCAATGAGGTTGTAAAAACGTTTGAAGAGAAAAATAATTGTGAAGTTAAAGTTGAAATAGTAAATAGAGAGGACACTACAAGACCCACAGATGAAAATTCCGAAACAGTAAAGAAATTAAAAGAAGCAATAAAGGCAGTAAAAGGTGTAGATGCTAAGGTATTAGGAATAGGAGGAGGTACTTACGCTAAATACTTAAGATCGTTAGATCTAAATCCAGTAGTTTGGATGACTTGTGATGAAACTGCCCATTCTCCAAATGAATACGTTAGATTGAGTTACATTATTTCAGATTTGAAAACGATAGCGTATATGCTATTGTAGAAATCCTATATTTTTTATATTTTATTAAACAATTCTTTTTAACAAAAAGTTCAATGTAAAGAATATCCTTTTAGGTTAATTGAATAAAATCATTACTGAGATTCGCTATTTCTTTTTCACTAGATGAAAGCGTTTGACACAAAGTCTTTCTATATTTAAAATTCTAATTATCCTATGAATGCATTGGATTTATTAATTCCAATAATTTCACTCTCAGTAGGAATTATTCCATTATTTTTTGTAAAAAGAAATTTCTATTTGTTAATTTTAGCTTTAGGAGCGTATTTCGTGGCTATATTCTCAAAGCAAATAATACAATTATCTTTTTTAGGGTTTTTCCTTACACCTTCATTACCTACATATTTAGCTTACGGTCTACAAACAGCTATACTCGAAACAGGTTTTGCTTATCTTTTTCTTCACTTCAAAAAGAACTTACCTAAAGATATTTCTTACGGTTTTTCATATGGAGTATATCTAGCATTTTTCGAAAACGCTATATTATTAGGTATTCTATATTTACCGTTATATATCAATAATACGTTTGGTTTTCCTAGCAATTTACCTTTAGATACCATTGCATTATCTTATCTATTACCTCATTTTCTTGATAGGGTAAGTTCTCTAATATTTCATACTTATATAGGATTTATGTCGTTTTTAGCTATAAGTACTAAGAAGATAACATATTTCCTATTAGCTATGCCTTTTGGAATGATAGATTCACTAACTGCATGGTGGGATCTTAACCACAAACCAATTTCGTACTTAGAGTTTGCTATCATAATTTTCATAATTAATATTATATCAATATTTATAATGCTATATGCTAAAAATGCGCAAAACAGAGTGTGAGTCCAATTAGTATTAATCATGTTTTTCATGAATTGATTTCCCATATAAGACTAAAAAATGGAAATTATAGTTTTTCAAATTCAGAATATTATGGTATTATTACTTGTCTACCTAAAACTTCACCTTTTTCAAGATCATTTAATGCATAATTAATTTCATCTAATTTTCTTTTTATGATGTAAGGTTTTATGAGTTCTCTTTCAGTTAAATTAACTATTTCTCCTAGTTCATTCATAGTACCATAATTACTCCCTATTAGTTGATATTCCCAAACTACCGAATCAAAAGTAGGTATTCTTAGATTCTTTCCTTCCATTCCTACCTCAATTATTGTGCCTCCACTTTCAAGATTTTTAGAAATGTTTAATGTAGATTCTTCGTTTCCAACAAAATCTATAGCTACAGAAGCTCCATTACCATTAGTTATCTTATCTATTATGCTTTTTAATTCTTCAGGTTTGCTAGGTATTGCTCCTAATTTTTCTATAAGATCGAGTTTTTGCTCTGATCTTGCAACAGCTATTACATTAACATATGGAGCCAAAATCTTAAGTTCTTGCAGTGCATAAATACCTAATCCACCGAAACCATAAAGAATAACAGTAGAGTCAGCACCAAGAAACCTTAGAGACTTCTTAACTGCAGAATACGAAGTTAACCCTGCATCCGCTAAAGGTGCCGCTATTACGGGATCAATATTAATCTTATAAAGAAATTTAAAGCTAGGTACATACATGAATTCTGAAAATCCTCCAAAATAGAACGACTGACCTGGTACAGTCTGATTTCTACATAACATGTATTTTCCTTCTCTGCAATATTTACAAGTTTGATCTCCCCATACTGCGTAAACTATTACCTTATCTCCCTTTTTCAAACCCTTAACTTCTTCTCCTACTTCAACAACAGTTCCAGCGTTTTCATGACCTAATACAAAAGGTAAATTTAAACCAGGTCTAGGTTCTGTTCCTTTCCATATCCTCAAATCAGTTCTGCACATTCCTGCACCTTCTACTTTTATTATTACTCCTTCACCTTTAGCCTCCTGAAGTTTAATATTACCTATTTCAAGAGGCTTACCAAACTCTTTCAAAATAGCTGCTCTACTTTCCATATAGAAAACACTCTAAATATCTTTTTAAGATAATAACCAAACAGGGAAGATCCTATCTTTAATATTTGGAAAGATTTTTGACAAGAGTCATTGTGACGAAAGATGATATTTACTCATTATCAAGAAAATGCTTTACTTATTAAATGCTCTGATGGACAATATTTTCTACTATCTTTCTTAACTATCCAAGACGAATCAATTAATTGATTTAGATAATTATAGATTTCAGAGTCACTAATTTCTATGCCCGTACTTGCCTCTAATGCTCTTTTTATTTCGCTCCAGCTAGCACAGTTAACCAATGTTTTCATGATGGTTAAGTACCTATCTCTCGCTATAGCTCTGATTTTAAGAAAATTATTAAATTCTTCCCTTATTAATCCAATAGCACTATTTATTGTTTTAGTCAACGCTTCATTTAAATCTCTTTTTTGAGAGTAATAATATCCGAAATATGTAAGCCACCCTGGAATTCCTCCTAAATTTTCATAAACTACATCGAAATCGTTAAAAATAATGTTTAATTCCTTAAAACCTAATTTTAGAAACTCCACACTCTTCTCCTTATTAAAAGGATTTAACTCGATCTCATTCATAGCCCTTCCATAGAGAGGAGACCTGGGATTATCCTTCCCCAGATATCTGTACAATAAACCCATTTTTGAACCACTCAATATTATTTTAATTTTCTTTAAATTATCAAAAGAATAAGCAAATGTTGGCAATAAGTTAGCTCCCCTTAGATTTAGTAATTCTTGCGCTTCATCAATAGTTAATATAGCCTTATTTTCCGTCCAATCGTTTAGAGATTCTAATAAGAAAGAAATGTTAACTCTCTCATTACCTCCCCATTTTAGTCTAATCTCGTTTCCCATAACCTTTACTCCTTCTATTCGCTTAAGGAAGTCAATTATATTTGGAAATCTCTTGATCAATCTATTTATCTCTTTTTGTATTTCTAAAATCAAATCTTTATAAGATATATAGCCTATTTCTTCAAACTTCCTTAAGTCTATATAAATATAAGGAAGGTTGAGTTCATTTAGCGTTATATGAATTACTGAAGACTTACCTGTCCTCCTAAGTCCTAGAACTAAAGTTATAGGTGAGGATAAGGACTTAATCTTATCTATCTCCTCCTCTCTATCAAAGAAATCCTTTCTAGATTCTTTAGGTTCTGGATCAAAAATCAACTTCTACCCCCAGAAGTAACTTCTACCCCCAGAAGTTAATAAGCTATGCTAGTTTTTATAATGACAAAATTATTTTAATGCGATAGAGAATTCCATAAGCTTAAATTAGTAGTTCTTAAATTCTTGTCAATTCTTATCTGAAATCATAATAACAAGCTACCAGCTCATAGATTTACCAAAATTAAAAATATTTAAGATACTAGTTAGAGTAGAGGATGAGGTTTATTTATCTGAACAAGGGGTTCAAAGGGGGCGGAAGACTCCACCATGCGGTAGACCCAAAATCTGATTAGTAAAAATAATTTTTATCTATTATTAGTAATTTATGGGAATTTAATGAAAATAAATAATTAATTATATGATAATTTTTATAAATTTCAAAGTACCATATTAGATTTTTTATATTTCTACAAAGATAGAGCGAGGAATGTTATTGTAAATTAGGAAATGATAAGGAAATTGATGATAAAATCTATTTTATTTATATTAATTATTCGATACATTATTCTTAATACTCTTGGTTATGAGTATAATGAAATATATTCCTTCGCTTATGAAGAAAAAATATAAGGTTTAATGTTGAATTTATATTTGTAATATGATTTTGGGTCTACCGGTAAGGGTGGAGATGGATTGCCCCCTTTGTAGTTGCATTTAAATACGTATTTTTCAAATATTCTATTAATGGCAGTCACTGACGGAGTAAGCGTCACTGAGACGCCTTGGTTAAAGCGAGGGTCTATGTGGTACGCCTCTGCTCCATTCGACAGTCCCATATTGGGATACTGTGGGTTCACATTAGTGCTCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCATGCCCGTTAGGGCGGAGTAGTTCACACTAAAATATCTATACCGAATCCATATCCATCAAACTCTTTCTCATAAAATACTCCCTTCTTAGGCTTTGGAGGATTTTTCAAGAAATCTTCCATCCACCTATATTTAGTTAAATATTCCGCCATAGGACATACGTATTGGGGACATGAAAATAGAAAGTGTAAATTATACGCAGTTGCAGTATGAGGTATAACTTGAATTCCATACGCCTCTGCCAAACCTTGTACTTTTTTCATTAATGTAATTCCGCCTGACCATAAGGCATCTGGCTGAAGTATTTCTACTCCGGAATCTGCCAAGAGTTTAAACTCCTGAATTCCGTATGCATGCTCTCCAGCTGAAATTGGAGTTCCTAGTTTGGATAATGATTTGTAAGCGCTGTATTCGTCCGGAGGCAAAGGTTCCTCTATCCAGCTTAACTCATATCTTTCCAATCTTTGAAACATTCTTTTAGCGTATTTTAAATTCCATGCCATCCACACGTCCGCCATTAATTCAACGTCATATCCTATAACGTCTCTTACAGCTTTGACCAGGTCCTCGTTCTTCTGCATACCAGCAGGCCCGTCTATAGGACTACAGCAGAATCTCATTTTCATGGCTTTATATCCCTCGTTAAGATATTCTTCGGCTTCCTTCTGCAATTCCTTAATATTAGTAGGATGGAGATGACTAGCATAAGCAGGTATAATTTCGGCTGTTGGACCTCCTAAAATTTTATACACAGGTTTTCTCATTTCCTTACCTTTTAGATCCCATAGCATTAGGTCGATAGAGCTTATTGCCATCATTATTATCCCTTTTCTTCCAAAAGGTAAAGTAGTTCGATAAAGGAAATCGTATATTTTTTCGGTCTCATCAGTATCTTTACCTATTATGCTGTTCTTCAATTTTAGTATAATATCTCCAACTAGGTCACTAACTTCTATTATGCTTTCTCCGTTTTCTCCTATCATTTTTACGAAAGATGTAGTATTATAACCTGCGGCTTCTAAAGGATTCGTTTTCTGAATTTCAGGATAAAAATCAGTAGGTTTAGTGTAAGGATATGCCTCAAGGTTAGGTCTATAATTAGATTTTACGATTTTTATGTCTAGTATTTTCATAAAAAATATTTCTAGACAAAGGGTAAATCTCAGTATCCAAACATATTCGGTTACACTAAATTACCGAAAACTCAACATAAATTTATCTTTCAACTAAAATATAAATCACCGTCTTTTCATGATTTTAATTCTAGAAACATATATTTAATGAGAATTGTTGAAGATAAGGACGGAGAAAGATTTCTGGAATTTGAAAGCAAGGAGGATTTGGAAGAGTTTAGGAAAATGCTAATTGAAGCTTATTATGAACTTAATCCCGACCGTAAACGTCCTTATGAAACCCAATCTCCCAAATGAAAACTACACAATTTTTTGGATCTACGCTGTAAAGTATCCTTATATCCCCTGTAACTTCTATGGAGAACGTAGGATTACCGTATTTATCTAACTTATTCTTCAACTTTTCTCTAGCGTATTTGAAAGGATTTTCCTGTAATATCTCCAGTTTATCTACTATTGACATTAATATCTCTAAATTTGAAAATCTCCTAACTACAAGGCTAAGTAAATCACCTTCGCTCTTAACATCCCTCATCAAGAACCTTACATCCCACTTCTCGCAAGCAACTTAAAGAGAAAAGGAAAACATATTTAAAAATCTTTCTAATCATTTATTATCTCGTTATGAATAATAGTTGTAATAATGATAATAGTGATAGTAGTGAATCATATGCGTTACTGTAAATAACATTATAGCGTTATTTCAACATTTTTAATAAAAATGACGAAATTAGGTTTGGAAGAGATAAAATTCTATCAGAGGAGTAAAAAATCATAGAATGCTTCAATATGAATACTTGAAGTGAGTAAAAAGAGAATTCAGCAGTAGTTTCAGTAAGTTTTTGTTCTATCATTTTCATTTTTAGACTCTTAACGACTAAGAACTTTATGAGATCACTAATGCTGCATACTTTATCCTAATAAGTCTGAAAGATCATCACTATGAGCTTAACCCTCTGGCAAGATAAAGCCTTGAAGCAGAAAGTCACGTCCGTTAGGGCGTGGTACTTCACCGTTAAAGCAATATCGTAATCTAGATTAAAAGTCATGTAGAAACAGTCTTTCACTAACTTAGTCTGCTTATTATAGTAAAAATTAAGTATGCATTAATTCTCCAATCTCTTTTTCTGCAATCCTGTAATGCTCCTCAATTTCATCGTCCCAATAGTTCTTGAAAAATTCTTTTATTATAGTCATGATTTCCTTAGATAACTGAATGATGTCCCTTATTGCTTCACTTCTGTCTGAATAATCGCTGGCGCCCTTATAGAGTCCATTATAGGAATATCTGTGCAACTCTAATGCTGTGGATGTTAAGTGGTTTACTTTAAATCCAAGTTCCTCAAGCCTTTGAGAAATACCTTTTAATCCAGTAGTTGGGGCAAGAAAGCCGGTCTTATAATACCATTCCTTTTCCTTTTCGTTTCTAGGCATCTTTTCCAAGTTTATAACTGCTAATGCACTTATAATGGCCTTCCAAGATAAGAACACTTTGCTTGCAGAATTTCTACTAAATCCTTCCTTAAGTAGTTTTAATCCTAACGTTAACTCGTCTAAACTCTCTATTATCCGTATTTTTACGTAAGCGTCTTTGTGTTTCTCAATCGTAGGTATTTTAGATTCCATACTTATCCATTACCTAGAAAATTAAAAAAGAATGAAATCTTTAATGTCCATTATAGTAGGGAAAATCCTAAAACTATTATTCGTGATCTCGTGAAGTTAAGGGCTGGTTATTGGTATTGAATATTATGAAATTCTATGAAGTTTTAAGCTCATTATCATTAAGACTAGAATGGATAATTCAGAAATCCTCTAAAGAATCGTTAACAGTCTTCAAGATCTTCTTTAACGCCTTCCTCAATATTTCATTAAAAGAAGATTTAGTTATTCCAATATTTCTAGCAACATTATCTATATTATTCTTCTTAGGATATTCAAATAAACCTTCCTTATATGCTATTTTTAAAATTTCAGCTTCTCTTGGAGTTAAAATCGAAAAATCCTTAAATTCATATTTAGATAGAATATCCGGCATTTTAGTTTTCCTCACATTTAAATCTAAAACCTTACCGTGCATTTCCATGTACCTCCTCATTCCGTCAATACCGTACTCTTGAGTAAAAAGAATTGACCAGAATTCCTTACCTTCATAGTACAGAGATGTATCGGCTATTGCACCTAAAGTATACGCAGTAGCCCTTATAGTATCCCTTAAATCACCTATTACCCCTAACTTAAGTATTTTAGGATATCCGTCATTTATAGGATAAAGAAAAAGCACTCTTTTTATTTTCCAGTGTGACCTTAAAACTTTTTGAAGTGTTTTAAGTACATCCTTAGAGGATACTCTAACCGTAGAAACTTCCACTTCTCCCTCGGAAGAAAGGAAACTATTGAAGGGAGAAATTTGCAGATGGAATTTATCTACATCCATAAACTTAGATGTCCAATCACTTTCATGAACGTAGTGCGCAGTTAGTTCATAAAACGTTAAACTATTTTCCATAATATTCTTTATTATGGATAAGATAAAATATTTTACCGCTTTAAATGTTAGAATAAGTAGAAATAGTATAAACATTCAAGTAAAGTAAATTTAGAAGAAAATTCTTTTAATTTATATAAATATTATATATAAATTGATAAAAGATAAGAAAAGATCGTGTGTAAAGTAGAAATTAACTTATGATAAAATTTCCTCTTCCTTCATCAGTAACTCTTCTACATTGAATTCCCATTTTTTATTAAAATGCTCATATGGTATCGATGCTGTCAAAGAATATTCAAAGGGTGGAAATAAAGGATGTATTGTAAAGGATATTTTACTATCCTTCTGAATTCTTGTAATAAATTCTAGTATTTTATAAAGCATATGAGACTGTGCTACTAGAGTAGCTTTAGAAGTATTATCACTTAAATGTGAAATACTTATTAAAGTTGGTATTCTAGACAACGCATTATCTACTTCCTCGTCACTGTCATAAATTAAACTCATCTTAAAATCAAATTTTCCTAGAAAGACATGATACGCAGAAATTAATCCTCTTCCTACTACATGGGCTTGATAATGATATAATACTTCTTTAAACGGTATTCCTAGTGATGATGAAATGTCCTTTAATGTAAAATCGTTTTGTTCTTGTTTCTTTCCTAGAATTTTTATATCTATTTCGTCTGGTTTAAAATTATCCGACAAATCTGGTAATTCAAATGGTTGTCTTGGATTTTTTATGAAATCTTCAGAAAATTTTCCTTTTTCAAAATCGAAAGTAGAATAATCTATTGGATAAACTTGTTTCTCTTCTTCTTCATACAATTCGTAATAATGTATTAAACCTATATCAACTAGATATTCTAATCCTCTTATGAAGTCAGCGTTTTTAGAGTACATTATTCCTATAATGTATTTTTTATCATTTAACATGTCTCTATTTATAGCTACAGTTATTCCATTAAAGGCCTCGTATAGTTTTAATAAATCAATATTTTTTGAGAAATATACTTCGACATAATATCTTTTAAGATTTAATTTATCTGCTCTTTCTATAGGATATGGCAACATTTTGTATTTTTCTTTCAAATTTTCTATTATTTTTGTAGCTTCCTTTATTCCACTCAGTGCTGTTATCAATTTCGGTGAAAGATCACCAAATCTTTGAACATAGTAAAGAACTTTAGAAATTTCTGATTGTTGTTGAAGAATCTGCACAATAAAAAATTTAAAGATATTTATAAAAAGACTTCTATATAAAAATTAAAAACTTTTTAACCACATGATCCTGCAGGGGCTTTACTTACTTCAGCATGAACTCCATGTAATGCTAAAAGCATTGTTGCTAGCATTCCTATTAATGCTATATATCTTATAATGTTTTGGTTTAGAACGAAATTTGCTTTCATTTTAATCAAGATTTTACATCCTTCAACCTACTGATAAGCATTACTCAATAAATTTTAGATAAAAATTAACTTTAAAGGTTAATGAAAACAACTATCTAAAAAGTTTTCAAGTTAAGATAATTAAAATTTAACAATAATAGTATAGCATTAAATCTTTAATTCGCGTATTACGTTTGGTTTATTTTTAAGTACATATTCTCCTTCTTCTGCCTATATTTTCTCTTTTCATCAATTTATATTTATCACGTCAGAGTTTATGCTTTTGTATTTTGATTTTAACAGCGTTTACCATGACTTTTCATAATTTTTTTACAATGTTTTATCATCAACTTAATATAATTTATTCTATCTAAATTTTCTTATTAAAAATTATATTATAGAAAGTATCTCATTTAACTCATATACATAAATACTCTCTTTTCCAAAAAATCCAGAACTTTTTTCTCGTGTTCAGTCATTAAATTTTCAGCTTTTTCAGGATTCTTCTCTTTAATAGCAGTAAATATTAGATAATGTTCATTATATTCATCTCTTCTTCTTTCAAAACTAGTAAAGAGTGAAGTTCTTACGATCTTTAATTTGACCCTTATGTCTATCAAACAAGAACGTAAATACGTATTTTTTGTTGCGTCTGCAATTGCCTCATGAAAGGCACCATTTAAATCCGCTAAAACTAATGCGTCTGGGTTTTCTTTAGCAGTTTCTTCTTTTACTTTAGAAAGTATACTCTCCATTTTTTCTATGTCTTTCTCGTCAGCTCTCAGTGAAGCTAATCTTGCAGCTAATCCTTCTAAAGGTATTCTTAATTCGTATAACATTCTTGCCTCTTCTGCAGTAATGTAAACTACTGAATATGATTTGTTATCCTTTTTTATTATTCCTTCAGACAATAACATTCTTAGTGCTTCTCTTACTGGCGTTCTACTCATGTTAAGATCTTTACATAATTGGTCTTCAGTTAGTCTTTGCCCTTGTCTGTATTTTCCTTTAACAATGCTATTGAGGATTTCGTTATAGGCGTTTTCTGTCAGATTATTCATTACTAATGATTTTTAATCATGCTTTATTAATTTATCTTCTAAATCACTAAAATGTAGAATTCTAATTTTATTTATATAAGGATATTTGACTAGTGCTTCCTCGTTGATTTCTACATTTTCTGGAGGTTTTACATATCCGTTTTTAAAAACGGGAACTGAGAAAAGATCTTCAGGAAAGTCTGCTATTGGATATTCAACTATCTCCATTTCCCTAGCTAGAGCTAAATTAAGTACGTAAATTAGAGAAACTGGAGATCTATCTGGACGATCATGAGGTGCTACTTTAACGTTATATGAAGACGCTAGTTCAAGAATTTTTAAAAATTTGCTTACTCCGCCTATTTTTGCTATGTCTGGCTGGAGATAAGAAATTCCTGATTCTAAAAGTTTCTTAAAACCGTATACTGTATATTCATTTTCTCCTGCAGCTATGGGTACTGGAGAAACTTTTGTTAATTTTTCTAGAGATGAATAATCGTTAGGTGGCCATAAAGGTTCTTCTATCCATTCTATTTCATATTTAGAAATTTTTTCTGAAAAATCTTTAGCCTTATTTAGATCGAAAGGAGAATTAAGATCTATAGCTATCTTTAATTCCTTGTATTTCTCTCTAATTTTCTTTACAGTTTCAAGAATTGTAGATGGAGACTGATGAAGTTTAATAAAATCAAAACCTTTTTCTTTAGATATTTCTACCGCCTTTATTACGTCTTCAATTTTAGAGAACCTTGGAAAACTGCCGTAGACTTTTACTACACTTTTGCTTTTACCTCCAAAAAGTTCTGCAAGTGGAACCTTCATTCTCCTGCTTTTCAACCCCCATAACGCCATTTCCACTGAGCTAATTGCTCCTGTTACAACTCCGCAATTTCCTGCACTGAACATTATCTTTTCGAGTAAGTTTTCCAATTCGTAAGGAGAATTGATTTCATTCTCTTCAAGAAACGGTTTTATCAGTTCACTTATTACTGAGGAGTATGCCCCTATTATACCGCTCCCAGCAACTAATGTTTCTCCCCAACCGAATTCTCCATCTTCAACTTTTACATATAATTGAACTGCCCACTGGTCTATCCAATCAGAAGGTGGATTTGTAATAAAAGGTATGGATAAAGAAAAAACGTTTACTTTCATTTTTATGCACTTATATATAGTTTAATTGGAGAGAATTCGTCGTGCTGTAGAACCTCAGCTCTTGTTAATCTTCCATTTAGAACTCTAAGCATATATTGGTATACTCTTTCTCCAGCTTCCTCTAGGGATATCTTTAAATCCAATAAATCTGAAACGTCGACGTCAATGTGTTCAGCCATCTGAGCTGCAGTCTTAGGATTAGCAGTTATCTTTATTACTGGGATAATAGGGTTTCCTACTATGTTACCTTGACCAGTAGTAAATAAGTGAACTACGGAACCCTTAGCTGCAAAGAGCGTTACTGCTTCTGCCGCTGCTGAAGACGTATTAACGAAGCATAAAGTTCCTTCCTTGCCTTTATTTAAAGGATCTAGATAATCAAGAACGCAATTGACTTTCCTATGTCCTAATTTTTGAATATTTCCTAAAGCTTTCTCTTCAATAGTTGAGAGTCCTCCTTTTATGTTACCTTGAGTAGGCTGAGAGCCTAACAAATCTGCACCTTCTCTCTCTATTGTGTTATCATAGTCTTTAAAAATCTTCATGAATTTCTCTCTTAATACGTCATTAGCCATTTTTTCTGCAACTATATCTTCGGCTCCAGTAAGTTCTGAAGTTTCACCGAACATTACAGTAGCACCTTGGTCTACCATTTTATCTACAACAACACCTACTGATGGATTTGAAGCTAATCCTGAAGTTGTATCAGATTCTCCGCATTTAATGCTCATGACTATTGACGATATGTCTACCTCAGTTCTATGTTTTTCACTTGCGTCTTGAACCATCTCTAAAGCTTTTCTTGATGCCTTTTCTATTGTTCTTAAGTCTCCATTTCCTTCAATAGGAAATACTTCTACTGGCTTTCCAGTCTTTGCAATCTCATCTGCTACCTTGTTTGCCCAATTTTCCTCTATACCTATTACTATTGCTCCTGCAACGTTTGGATTAGCTCCAGTTCCAGAAAGTATATGGAAGAATAGATCCAGGTCTCTGCCGAACTGTAATCTACCGTACGGATGAGGAATGACAGTAGTTCCTCTTATCAACTTTGAGACTCCTATTGCTGCGGAGTTTGATAAGTCGTCTAAAGGTAAAATAAGTACGTGATTCCTTACTCCTACTGCCCCGTTTTCTCTAACGTATCCTTTTATTGTGTTCATTTACCCCACCTCAAGGATTTTATATTATGAACATGTACATGTTCTCCTTTTATTATATCTTTAGTTGCTTCCCCTATGGCTCTTCCGTATTTAAGAACTTTATCGCCTTTCTTTATATCTCTTAGAGCTATTTTGTGACCAAGAGGAATGTCTTCTTCGCTTTTAACTAAAATATAAGACGACGGATTCTCTAAATATGCGCATATTACTTCTTCTCCTTTCCTTACGTCAGTAGTAGCTACGCAGACGTCGTCATTTTTAGAGTGAATTAAACCTTTTGGCATAATTATGAATATGATCACTACTTAATATATTTTTATTATATATCTTATGGTATACATTAGAATCTTACTAGATAAGTTATACACTTAATATTTAATGATTTACATAGAAATAAAATTTTAAGAAAATGTATTTATATGAGATAATTATAATTTACTATAATTTAAGTAAAAAGTCTTAGACTAATATCGATATTTTATTCCATAAACTCATTTTCAAAATTTTATAAATATATATAAGAATCAAATACAAAAAATAGATATACCAGATTGTATACTATAGTGTATTAGAGAATATGGATTGGGAAACCTTAAAGGAAAAGCTATTTTCCGAAATGAACTCAATGAAATCAAAACCATTTCACTATAGGATGTTATTGCTGACGGGAGGAGGAATATTCGTTGATGGTTATAATATAATAATTATATCGTTTGGATTAGCTGGAATACAGGAAGCTTTTCATCCTTCAGCCTATTTATTAGGTTTTATAGGATTATCTGTAATAATTGGAAATTTAATTGGGGCACTTATAGCAGGATACGTAGTAGACAAAGTAGGAAGAAAAACAATATTTATTTTGGATTTAATATTTTTTGTTGGTTTTGCCATTTTATCTGGATTAGTAACTAATTCGTATGAATTGTTAATAGCAAGAATTCTGGTAGGGTTGGGCATAGGCTTAGATTATCCTATAGCTACTTCTTATCTTAGTGAATTCTCTCCAGTAAAACCTAGAGGAAAATATCTTGTCATGAATATAACTTTCTTTAATATAGCGGGTATTGTTGCCACACCTGTAGCATATTGGCTCTTAGGTTTCGGAGAACTAGTAGCATGGAGATACATGCTAATGTCCGCTGCAATTCCTGCATTAATAGTACTATTAGCTAGACTGGGAACACCTGAAAGCCCAAGATGGTTATTAACAAAAGGTAGGAAAGAAGAAGCTAGGAGAGTAATAGAGGAAGTTATAGGGAAACCGTTGGATACTGATGCAGTAGAGCTATTGGAAAACACTGAAATAACTCCAGAACATTCGACTTATTATAAAGAATTATTAACAAAACACACGAGAGACGCCATATTTATAGGAGTTTTCTATTTCCTTTTCGCTATAGCATTTCTAGGAACTTCAATATTCGGTCCAGAATTTGAAAGTGGACTTCACTTGCCTGGTGAAATAAGTAGTATGATTTTCTGGTCGCTATTTGTGGTTGGAGATATTATATGCATTCTTTCTATAGACAGAATAGGCAGGAGGTCAGTTACATTGATAGGCTGGGCAGGTATGTCAGCAATGATGTTAGCACTCATATTATTACCTAAAAGTTACTATATAGGACTAGAGCTGGCATTTACATTATTTGCTATGTTCCAAGGTATTGGGCCAGGTAGTACTCACATGGTATACTCTCCAGAATTATTTCCTACTAGAATAAGGGCGACTGCAGAAGGATGGAAGCAGGGAGTTGGAAGATTAGGTGGAGTCTTAACTGGTGTGTTTTTCCCAGCTATTTCTCTTGACGATAAGCTATACATAATATTTGCCGCATCTGCGTTGGGTCTTATATGGTCTTTAGCGTTAGCTAAGGAAACTAAAGGTAAGAGTTTAGAAGAAATCTCAGAGAAAGCTAAAATAGAAGAAGACAAAACTAGCATAAAGAGAACAACTGAAAGGTTTTAATTTTTTATAAATTGATATTTTTTATATTTTACGCTTTATTAATCCCTATATAAAAATATTTTATAATTTCGTACAGAATATCAGTTTATGAAAATAAAAAAATTTTTACTTAATTTTTATTTTCATAGTCCATTTTCGATCTTATTTCAGGTTTAATATTTTCCTTAACGTACTGTCTTTGTATAGTTAATCCTTTTTCAAACACCTTTGACATATCTTCTAATGACACTCCCTTAGTCTCTGGTAAGAATAGATATACTATTATAAGTGCCATTATAGATAATATAAGTTCTAATCCGAAAAATGAGTAGACTCCGAATGTTGCTTTCCAGTACGGGAAAATAAATATTATTACAAAATTTCCGAACCAGTCTAATGCTGCTAATATTCCAGCTCCCCTTCCTCTTACTTCTGTTGGTATTGTCTCACCTTGCAAAACCCATCCTACTCCACCTACACCTACATGGAAGAATAGCAGAAATAATGTCATAGCTGTGAAAACTAGAGCTACTCCTGCAAATACTATGCCAGATGTAAAAGCTCTAAGACCTATTAGCATAATAGCTAAAGATCCAGCTAATCCTCCATATCCTAGAATTCCTAGCCTTCTTCTTCCCCATTTGTCTATAAGATAAAACGAAATTCCATATTCTACGGCCCCCAAAGATTCTGAAATCGCAGTGTTGAGTATAGCTCTAGATCCAGTTAATCCTAGATATTTGTATATAGTAGGACCATAATATAATATTACATTAACTCCTGTTATCTGCTGAAATATTAGCCATAAACCAACTAAGATTATAGCGGTTTTAATGGGTCTACTACTAAATATTTCTTTAAATGATAATTCCTTGGAAGGAGTAGCTATTTGTTCGTCCTCTGCTATATTAACTCCGAATTTTCTTAGAACGTTCTTTGCTTTTTCTTCCATTCCGTTAAGTAATAGCCATCTAGGACTTTCAGGCAAGAATGCTCTTAAAGCTACTAAGATTACTGCTGGAATTACTCCAAGGCCAAGCATAAGTCTCCAATTAGCTGAAAAAGAAAGTATGTATCCTGCCCAGAATGCTGCTGTTATCCCAGAAAATATCATTAATTGTTGAGTTATTGCTAGTCTTCCTCTCCATTTCTTAGGTGAAAATTCGGCAATATACGCTGTTGCTATTGCAGTATCTGCGCCTATAGCGAAACCTACCAAACTTCTCCATAGGATGAGAAGAAATGACGTTGTAGCTATTGCAGAAAGCAGAGCAAAAACTGCATACATTGCACCGTCAGCGACGAGTAAGGATTTTCTTCCGTATTTGTCCGTTATAGGTCCTGCTGCCAGTGCGCCTATTCCGGCTAACAGTGACGTTCCTGCTGTTAATATTGCAACTTCCCCTGAAGTTAGATGAAAAAGTGGAGTTACGTATACTAACGCACTTCCTATTATTCCAGTATCATATCCGAATAGGAATCCTCCTAGTGCTCCTATTATAGTTGCTAAAATATGCAATCCTCTAACTTTATCACTATCCAGTCTTTTTACTACCTCTTCATATGGAACTATCATGATCTATATCTAAAAATTATTGTATACTTTTACGTATATAAGGTTTAATGGTATACCTTGATTTTAAATATTAAATGTCAATTGATTAAATCTTTATAGTTAATATGCTGATTAAATGAATATTAGATATTATTTGTAAGAATTCCTTTATGATTTTGGGAACATGTAGTATTTTGTTGCGTATACATTGCAATAAAAATATTTAATATTCCTCAACTTCTTTATTCTCCGATAGACATGGAAATATCTCTTAAAGGTAAGACATGTTTAATTACAGGAGGTACACATGGAATAGGATTAACTACTGCAAAGTTATTTTCTGAATTAGGTGCAAAAGTAGTAGCTTTAGGAAGGAATATAGAGGAAAGCAAAAGTATCCATTTTGTTAAAGTAGATCTAACTTCAAGAGATCAGCTTCTATCCTTTATAGAATGGTATAAAAAGGAAATAGGAAAAGTCGATTGCCTAATAAACAACGCTTCGGTAAATTCTAGGTACTCAATATTGAACGTTACGTTAGAGGAATGGGATAAAATGATAGCTTTAGAACTTACAGCACCCATGTTACTTTCGAAAATGGCATCTGAAATCATGATAAAAAATGGCGTTAAAGGTAAAATAATAAACGTTGCTGCAATACAAGCTCATTATCCATTACCTGAATCTTTACCTTATGTTACAGTTAAAGGAGGTCTTATATCGATGACAAGAAGCCTTGCAGTAGATTTAGGTAAATACGGAATTCAAGTGATTACTGTAGTACCTGGGCCGATATATACTAAAGGAGACGAAGTTCCAGAAAATTTAGATAAAAATGCAGCAACACTTCTTGGAAGAATGGGTAGACCACAAGAAGTTGCTAATTTGCTAGCGTTTTTAGTTTCAGATTATAATACATTTATAACTGGAAGCGAGATATTCATAGACGGAGGAAGGATAATAAGTAGAAAGCCAGATCCTGAAGAAATCTCTTCAGGCGCAGTATAATTTTGAAGTTATCATCAACTGTAAAGTTTTATTATTTGTGAATACATAATTGTATACATGCTTACTATTATAGGAAATGAAAGAGTTGATTCTAATGAAAAGATAGCTGTTAGAAATCCTGCAAACGGAGAAATTATAGATTACGTTCCTTCATTATCGAGAGATGAAGTAAGGAAAGCAATAGATATAGCTTTTGATAGTTTTTCAAAACTTAATTCAATTACTCCTGCAAAGAGATCAAAGGCATTAATGGAGACTGCGTCAATCATTAGAGAAAATGCTAACGACTTAGCTGTAACTATGACTAAAGAAACTGGTAGGCCTATAAAAAGTTCTAGAGCAGAAATAGAAAGAACGGCACAAATATTTGAGTTGGCTTCCTCAGAGTTGAGAAGAGCTTTAGAAGGAGAATTTGTTCCATTGGATCTTTATGATTTTCCGGCAGGAAATGAAAAAAGAATTGCTTTCATTAAGAGAGAGCCAATAGGCGTGGTTGGGGCTATAACTCCTTTCAATTTCCCTGCTGCTAGTTTTGCACATAAGGTAGCTCCTGCACTGGCTGTAGGCAATACTGTAGTATTTAAGCCTTCCTCTCTTACTCCATTAACTCAGATAAAACTTGCAGAAATAGTTTCCAAAAAGTTTCCTGTAGGAAGTGTAAATGTAATTACTGGAAGTTCTGAAATGATAGGGGAGGAATTTATTTCTAATGATAAAGTTTCACTCATTACTTTTACAGGATCTGTTAATGTGGGATTAGATTTGGCAAGTAAGGCAGTAAAGAACGGTAAGAGAGTCATAATGGAATTAGGAGGGAGTGATGCTATGATAGTTCTTGAAGATGCTGATATTGATAAGGCAGTTAAAGCCGCATTAGTGGGTAGGTTTGACTTTGCTGGACAGTTCTGTAATGCTACAAAAAGAGTAATAGTTAGGCAAGAAATTGAGAAAGATTTTAGCGATAAATTAAGATCAGAGCTACAGAAATATAAGGCAGGAGATCCTATGGATGAAAGCGTTGATATACCTCCATTAATATCTGAGCAAGCAGTCATGAGAATGAGAGAGTTTTTGAATGATGCAATAAAGGAGGGTGGAGAGAAAATTTTTGAAGGTAAGGTTCCAGAGAAAGGTTACTATTTTCCACCAGTTGTTGTAAAGTTACAACCTACAAGTAGATCAAGAATATTAAGAGAGGAAGTTTTTGGTCCTATCCTTCCAATAGTTCCTGTAAAAAGTGATGATGAAGCAATAAACATTGCTAACTCGACGCAATATGGTCTTGATGCTTCAATATTCTCTTCCAATTTCTCGAGAGCATATGAAATTGCTTCTAAATTGAGGGCTGGAACAATCATCATAAACGATACTACGAGACTTAGATGGGATAATTTACCTTTTGGAGGTATGTTAAAAAGCGGAATAGGAAGAGAGAGCGTTATTAATACTATGATGGAAATGACTGAGACAAAGCTAATGGTTTATTCGAGGTGATAATTATGAAAATAAAAGACGTTAAAGTCTATTTAGTAAATGCTGTATGGAGAAATTTTGTAATAGTTAAGATAGATACTGACGAAGGAATAACGGGATATGGAGAAGGCACAATGGGAGATTTTGAGAAAACTGTAGAATCTGCAGTATATGATTTCAAGCCATTTCTTATAGGTAAAGAAGTAAATGTTCAGGAAATTTACAATTTCCTTTATAGGCATTTCTTTTGGAGAGGAGGAGAAATATTAATGACAGCAATAAGTGCAATAGAACAAGCTTTGTGGGACATTTTAGGTAAGAGTGTTAATAAACCAGTTTATGATTTATTAGGAGGAAAGGCTAAGGATTCTGTTAGAGTTTACGCTAATGGTTTCATATCTGGAGATAGGACTCCAGAAGAATTTGCTAACGCGGTTAGAAAAGTTATAGATAACGGTTTTAACGCAGTAAAATTTGATCCTTTTGGTTCTGCAGGTCCTCAAATAACTGGGGAAGATTTAGAAAAGGCAAAGAGTAGATTAAAAGCCATTAGAGACTCCGTAGGATATTCTGTAGATATAATGCTCGATGCGCATGGTAGGTTTAACACGGCTTCTGCTGTTAAAGTTGCTAATGAGATATCTAAATACGAACCATTTTGGCTAGAAGAACCGGTACCAGAAGAGGACATAAGGGCACTGAAATATGTAAAAGAAAGATCTCCAGTTACTATAGCCAGCGGGGAAAGGATAGTTAATAAGTATAGGTACAGAGAATTTCTCGAGGAAAGAGCTGCAGATATAATTCAGCCTGATGTGTGTCACGTAGGAGGTATATGGGCTCTAAGGGAAGTGGGCTCAATGGCTGAAACTTATTATACATCTGTAGCACCTCATAATCCTAATGGTCCAATAGCTACAGCCGCTACATTAAACCTAATGCTTAATATGAACAATTCTCTGATAATGGAATTCTGGGTTGATGCAGACACTGTAAGAAGATCTATATTAAAAGAATACTTTAATGTGAAAAACTCCTATATATATCCATCAAATAAACCAGGTTTAGGAATAGAAGTTAATGAAGAAGCTCTAGAAAGATATCCATATAAAAAGCTTCATCTAGAATATTTTAGCAAGGATTACAAATATTATGGAGACGTCAAAGACAGAAGTACATAATAAATATAATTTATTTGAATTTTAACTAATAAAGTTTAAAGTTTTAAGCCAAAATATCTCTTATGGAACTTAATTTTGCAGAAATTATCCTAGAAAATAGGCCTTCTCCATTTTGGAATATATTAAAGCAAATAGGCGTAAATAAGGCGGTTGGAGTATTGCCAAGAAGTTACAAGGATTGGAGACAAGAGTTAGAGGAAAATCCTTGGGATTATGGATCTTTAATGAAATACAAAAATATGCTTGAAGATAACGGATTAGAATTAGTTGCTATTGAAGATAATCCGCCAATGGATGGAATAAGGTACGGAATTCAAAAGCTCAAAGAGGAACAGTTAGAATATGTTTCTCATATGCTAGAGAATATGGGAAAACTTGGAATCAAAATATGGAGCTATAGTTGGATGGCTGGATTTGGTTGGAGCAGAACTCATACCCACATCAGAGGAGAAAATGGAGAGTTAGTCTCTGGTTTTAATATTAAAGACGTCGAAAATGCTCCTCCGCCTAAATTCGGTAAGATTTCGGCTGAGAAGTTATGGAATAATTTGAAGGATTTTCTAGAATACGTGGTACCTATTATAGAAAAATATGATATAAAAATAGCAATGCACCCAGACGATCCTCCAATAGAAGAATATAGGGGAGTAGCAAGAATAATGAATAGTATAGAAAACTATGATAAATATTTAAATCTAGTAAAAAGTGAGAATGTAGGAATAACGTTCTGTCAAGGAAACTTCACTTTAATGACTGACGATTTACCTAGTGCCATAAGACATTTTAATAAGAGAATATTCTTTGTACATTTCAGAGACGTTAAAGGAAATAAATATGATTTTATTGAAACCTTAATAGGAAAAGGAAAGACAGACCTAGTAGAAGTAATGAAAGCATATATTGACATTGATTTTAAAGGCATAATGAGAGTGGACCATACTCCTACCCTTGAAAACGATACTGAGTTCCTTGCTGGCTATTCGTATTTAGGGAGAATATATAGTATAGGTTATATAAGGGGACTATATGAATCGTTAAAACATGGTTGAAAGAATTATGTATACCTTTGTGTATATCTTAAATAAGCTTTTTATTTAGGAAAATTTTTAAAACTCTAACAAATAACGAACATTATGAATGTAGATACATTAAGTATATATAAAGCAAATCTTGCAGAAGGACCTATTTACGATATAGAACTAGACAGGCTTTTTTGGGTAGATATAGAAGGTAAAAAAATCTTAATGAAAGATCTAGATAATTATTCAGAGAACGCTTTTGATACACCAGATTTAGTTTCGTCGTTATGCATTGTTAACGAGAACGAAGTTATTGCTACAATAAGACATGGATTTTATATTATAGATTTTAAAACAAAAAATATCACTAAAGTAGGAGAAGTTGAATCTAATTATCAAGAAAATAGGTTTAATGATGGTAAATGTGACCCTCTAGGAAGATATTGGGCGGGAACTATGAATATGAAGAAATCCGGCCCTACTGGGAATTTGTACAAATTAGATCATGATATAGTCAAGGTTTTAGATGGATTGACAGTGTCTAATGGTTTGGGATGGGATCCAGAAAACGATATAATGTATTTAATAGATAGTCCGGTAAGGAAAGTTTATGCTTTTGATTTTGATCTGAATAAAGGAGAAATATATAATAAAAGAATTCTAATAGACTTTAATGGAGAACCAGGTAACCCAGACGGAATGACAGTAGATGAAGAAGGATACTTATGGATAGCTCATTGGGGAGGAGGGAAAATCAGTAGATGGTCACCGCGTGGAGAAAAAGTTTTTGAAATAAAGCTTCCAGTAACTTATGTTACTTCAGTTACGTTCGGAACATATGAGATGGATAGATTATTTATAACTACGGCAAGTAAAGAAGATGAACCTTTAAGCGGTAAGGTATTTACTACGCATGTAGGAGTTAAGGGAATTCCCTCTTATAGATTTAAAAAATATTGAAATTATTTTGTTCCACTTAATGAATATACTTTTGTCAGATATTTCTGAAATACTATGAATATAATGAATATGGGAATACCCATTAGCACTGAAAATGCTGCAAATACGTTGTAAAGCGTTGATCTATTTGTTATTGCAAGATAATACATACCTAAAGTTAATGTCCACATATTTCCAGAGCTTATAAATACGTTAGCTAACGCATAATCCGTATAAGCTCCCATAAAACTTAGAAGTGACACAAAGGCTATTATTGGCTTACTCATGGGTAATAAAATCCTAGTAAATGCGCCAAATCTACTTAATCCGTCTATCATTGCGGCTTCTTCGTAGTCTCTTGGTATATTATCTAGAAATATTTTCACAAGATATGCTCCAAACACAGAATTTCCTCCAGAATATGCTATAATTAATCCATAATACGTATTAACTAAATGTAAAGTTGAGAACATTAAATATAACGGTATAACAGTAACTGTAAATGGAAAGAATGTCATAACGTATATTGTAATTATTAGAACTTTCTTCATTGATATATTTAACCTAGATAATCCTAAGCCTGACACGAATGCCACTATTACAGAGATTGCCACAGTTCCAGAAGCTAATATAAGACTATTTCTTAGCCATAATAAGAATGGTTCATGGAATAGGATTCCATTATAAGCTTCTAAAGTAACAGTAGTAGGTATGAGCGATTTTAAGCTAACTGAGGCTAACGTAGGTATCGGACTTAAAGAAGTTATTATAATATAATATATAGGGAATACTGCAAAAGCAGCTACAATGATTAGAAGTGCGTAAGATATTGCCAATCTAATTAGTTTTAAAATTAAATATTTTGGGTTCACTTTTTGCCTTATCATGATACCACCTCTAATACGTGGGTAATTTTTAACATTATTATGGCCATTATTGCAAGAATTATAGTTGAAATTGTAGAATATGCTGCGGCTATATCGTATAAATTGTAGGCAAACGCTTCTTGATATGCGTAAACTATCAATATATTAGTACTTTCTCCAGGTCCTCCACCGGTTAGCAGGTAAATTGGGTAAAAATTATTCCATGTGAAAATAAATCCACTTATTCCAACAAAAGATATTGAGGTTTTCATCATAGGAAGAGTTATTCTGCCAAACTTTTGCCACATTGATGCTCCATCTACTTCTGCAGCCTCATAAAGTTCAGTAGGTATACTTTGCAAACTAGAAAGGAATATTGCAGTATAGTATGGGAAAGATAACCAAACGTTTGTTAAAATTAGGGCAATCCATGCAGTATCAGGATAAGTTAACCAATTAATAGGAGCTAAATGTATAAGTCCAATTATTTTGTTTACTACTCCATACTCATAATTCCACATTCCTAGCCAAACTAAGAGAGAAATGTATGCTGGGAAAGCCCAGGGAAAAAGCATGAGCGTAAAGAATAACCTTTTTCCTCTTATATCCTTCTGATTTAGAACAAGTGCCATTAAATATCCCAATGCCATCATTGGCACTAGGCTTCCAACAGTCCATAATGCAGTATTACCAAGAATATGAAGAAATGTATGGCTAGTTAATACTAGAACGTAATTTTGAAATCCTACAAGACTATACTTAAAGAAATGATATAAACTAAAATTTGTAAATGAAATATAAATTGCATAAGCTACAGGATACATAAATAGAAATAAAATTAATGCTACGATAGGAAGGATATAAAAATAATTACTTAACTTATGTTCATTCATTTTATATTTCACCATAAGCCTAGAATACCTAAATTAAAGAGATTTGATAATAATTCATAAGATTGTAATAAATTTAAGTTAATTGGTAATAGTAAATCTGGAGTTATTCCTGCCTGTTGCATTTGAGATAACATGTAATTTTCCATTTTCTGTGATGCTACTGTGGCAGTGATCTCGTTAGCATAATATTCAGTGGCATAGTCATAAAATCCATCCCAGTAGAAGTTCATCTGTGGGATATTGGGGAATTTTTGACCGTATTGTGCTTGTTCTAATACTCCTTTCATTATTCCGTTAAGATATGTAGGCGTTAGATTATCATTATTTAATTCAGTTATTACGGTATTATATGCTTTCATGTTAGCTGGTATATCATGAGCATAAGTCCATAAATTCATTTCTGCTTGATAGCTAGTCATAAATTGTATAAATAATAACGCCGCTTGTATTTGTTGTGGAGTTGCCCCACTTGCTTGTGGTGATGAGATTACCCAACCAGTAGATCCTACGAAAGGCGCTGCATGAAGACCAGTTTGACTAACTATAGGTAATGGTGCTGCACCTAAATTAGCTCCTAGTGCTGGGACATAGATTCCTAGATCCCATGGTCCGTCAAATATTATTGCAGCTTCATTATGAGTGAATAATTGTTGTTCTATGCTTGGAGTAACATCTGGAGCGTTTATATGGAGATTGTACGTTAAATTATACCAGAATTCTAAAGCTTCAACCATCGCCGAAGAGTTCATTTGTGGCATTCCTTGAGAATTAAATATGTGTCCTCCAAATCCAGCGAACCATGCCGCAAATCTATATCCATATTCAGAAGTCATACCATATGCTATTCCCCATATATGATAGGTCTTATTTACGTTTGTAGCTATTTGTATTAGCTGTTGAGTAGTATTAGGAGGATAAGGTACATATTGTTTATTGTAGAACATTAATATGTAGTTTACTGTATCTGGTAAACCATATACTGAGCCATGTAGTTCGAAATTTTTGATTGATATAGGAGCATACTGATTAAATACACTTTGGTTTAAATATGCTGATAAATTAAGGATTAAGCCAGCCGCAAATAAGCTTCCAGCATCATTACTTGTATCCCTATAAACTATAGGAGCTTTTCCAGCTTTTGCGTCAGTCTCGAGAGAGTGTCCCAAGTGCAAATAATTGAATAAATCTATGTAAAGGTTTATAGATAATAATTCAAAAGATATTGTGAATTACTGAGAAATTTTGAATTTTCGCTTGAAGCAAAAAGTCGCGTAATACTTAAAGGGAACCGGGAAGATGTAGTACCGATTCACATGAAGCCTTGGATAGAATACTACAACGGCCCGGTCCCCTATGAACATTTATCAGCAAGGCATAAAACACTTGTGAAAATGAACTACATGCTGATCACGTCTGAAGTGCTGTCGCGTCTCTCTGACCTCTTCATATTGAGAGCGTTAATAGTGATGATTGTGTGGACGTGCTCCTACAGGGACGTGCGAAGCTACTACGAGTCAGACGTGGTGGTAAGGTGGTTCCTAGGCGAGTACAAGTCTAAGTCGGAGATCCATAGGAGGGCAAAGAAATTTAGGGGAGAGGTAAAGACTCTGTTCAAGGAGTACGCCAAGGAGTTGGAGGGGAAGATGAGTAGACTTGCTGACTACTTACCTAGCAGTGCGTTATACGGAAAGGTTGGAAAGCTGTGGATCGTGGATTCCTTCCTAATCGAGGTACCCTTCGGAAAGAGGAACAAGGAAACATTGAAGAAGAAGTTTGAGCTAGACCTAAGGCAGAGGAAGTACAGGGAGGCGGCTAACACGCTCTTCTTTTACATTAAGTGCAAAGTGAGGAGGAGGTTCAAGGGAGAGTTTACAAAGAAGAGGAACAGGAGTTACTTCGGCTTCAAGGTCTTCAACCTCATGTCGCCTACAATGATAGTTCACGAGATTCAAGTGGAACTGGCCAATTTTCCGGACAATAAGGTTGGCTTCTCTCGCAGCGGTTATAAGGTAGTGGATAGGGGCTTCGTGGGGAAGTCCTCGACCTGGTTGATAGGTTTCTCTAGTTTCAGGAGGTATGTGGAGTTCTTTGGGATCTTCTTGAGGAGGTATTGGAGGCCTTACGCTACTGAAAAGGGTATGGTCGAGTTCTTTGTCTACGTTATCGCGTTGATTTACAACTCCTACATCTACACTTCTGTGTTATCGCGTGTTCCGGAGAGTCAACTCGCCCACTAACTTGTACCGCGAGAGTTGATCAAGGTAGTGTGGACTATGTTGGAAATTCTGTTTTTCTCTATACTTGATTATTTTCCATTACAATATAAGCTTAATCTCTCGTTATACTGAAAGATATAATTATATTTTATTCTTAATTAATTATAAAATTGTTTTTCTATCATACTATATTTATTCAATTATTTGCGCTTGGGACACTCTCTCGAAGTTAGATGTTGATATTGAAACTCCATATGTTACATCTACGTGAATCCAAGGATATGCACTCTCAAAAGCAACTAAAGATTTATTAAAACCTTGATTTTCAGGAACATCGTAAGTATCCCATACTGTTATAGTTACTGGAGTATGAGTGGAGGTTGTGGAAACGGGAGTAGGAGTTGGTTTGTGGGTAGTCATCATTATTCCTGCTACTGCAGCTATTACAACTATAGCAATTACAACTACTATAATAGCAAGCTGAGTTGTAGATAACGCTTTTTCCCGTCTATTATGTTTATTTTTCGAATTCATGAGTCTCAATTATAATTGAGAATGATAGTAATATATAAGTACTTCTAAAGATATATACATGCAAAAAATACTTAAACTAGTATATTAACTTAAAACAAGTGAAAGGTTATTGTCTGTTAGACTTAATGACATTTATAAAAGCTTTAAAGTAAAGACTGGAGTAGTTACTGTTCTTAAGGGTGTGAATTTAAATGTATCAAAAGGTCAGTTTGTTGCAGTTTTAGCTCCAAGTGGTGAGGGAAAAACTACAATTTTAAGGATAATAGCAGGATTAGAAACTCAAGATAAAGGAGATATTTATATAAACGATAAACTCGTAAACGGAATACCTCCAAAAGACAGAAACGTCGCTATGGTATTTCAAAATTATGCCATCTACCCTTTTATGTCAGTTTATGATAATATAGCATTTCCATTAAAAATAAAACATGAAAGTAAGGAAGAAATAAAGAAAAAAGTCGTTGAAGTAGCTCAGATGCTAAGAATAGAAGACTTATTGGATAGAAAACCTCATCAACTCTCTGGTGGTCAAAGGCAAAGAGTAGCTATTGCAAGAGCATTAGTTAAGGGATCCAATATTCTACTAATGGATGAGCCTTTAGCAAATTTAGATACTCAAGTAAGAGCCATAGCTAGAGCTGAGTTAAAGAATCTTCACAATGAGTTAGGAATAACTGTAATTTACGTTACTCATGATCAAAGTGAAGCTATGGTCTTAGCAGACAAAGTAGCTTTATTGCACGAAGGTGTAATACAAGCTTTTGACGATCCCTTAGTACTCTATAAAAATCCTCCTTCTGCATGGGTAGCTTCCTTTATGGGCAACCCTTCTATGAATTTAATAAAAGGAGTAATAAACGGTTGCTCCTTTGAGTTTGAGAATTACAAAATAGATCTATCAGAAAATCAGTGTAAATCCTTGCCTAAGGAAGTAGTTATGGGCGTTAGGCCAGAAGATATAGATATAGGTGGAAATATAAAAGGAAAATTGGTCACTATAGAAAATATAGGAATATATACAATACTTCATCTGCAAGTAGGTAGCACACTAATAAAAGTAGTTGAAAGGTCTCTAACAAAGAGGAATATAGGAGAAACAATAGACATAAGCATAAGTCCAGACACTGTCTACTTCTTTGACGCTAAAAGTGGGAAAAGATTAGCGTAAAAACTTTCTTTTTATTAAATAATATGCTAAGATCACTATAATAGTTATTATAATCAGAAGTGGTATATTTATTGACTCCTTTTGTATTTCTTTGTAATTTATCGCTACAATAATATACATTGCAGAAGACCATGTTAAAGGTGAAGTAGTAGGTAAAGGATTTCCATAAGTAGGATCTACTGCTTCTGGCAATAGAAGATGTTGAGAGTGAATTATTGACCAATTCATTAAGTTTAAAGCTTTAGAATACTGCCCAGTTTTCTCATAGTATAACGCTAAAAATAGTGTAGTTATTATCCATGGAGGCATAGGACCAGAACTGTCATAAAGCGTATTGGAATAATGATATGTATCTCCAGTAAATCTCGCTAGTCCACCATTTCTAGTAAGTTGAGTTATAGTGTAATTAACTGTTTTTATGGCCCTTTGTGAATTTAAAGGAACTAAACCAAAGTCTATAGGTAGAAGAGAAGAAGAGTCTGCGAGAGTCATTGGAGTGTAAACTAGTTGAGACTTACCGTTAGCGAACTCAACAGTAGGGGTAACGTACTCGGCATATCCATCATTAGTGTAAAAATATTTTTGTATAGTTTCATTCAGAATATTTTCTAATTTTAATTCTAGAGAATTATTCAGATTTAATGCAGAATAAAGTAATGCGGTATCCTTAAGACCTAAAGCATCCATAGCTTGTGTCCAAAAGTTATATTGATAATTATCTTCCCATACGCTTAAATCCTTAGGAATTAGCCCATTCTTCAAAATATAGTACGATTCCCAGGTTACTGATCTATTTATTGATGAAATGAATTGTTCTATCATAGATTTGTTATGAGTTTCTTGATACAAATTCCATATTCCTATTTGAAATAACCCTAAACTATCATATTCTGGGATACCAAAAGTCTTATCAGGTTTTCCATTCCAGAAATTATATCTTGTATACCACGTGCCATTCTGAATTTGAGAATTACTCATCCACTTCCAGAATTTTATCGCAGAATTAATATGACCTGAATCTTGTAAACTAATTGCAGCAAACGAGCCATCTCTAACCCATGAATAAAGATAAATTGGAGAAGGAGAAGCTGCAAATTCTCCAGTGAACGGATTTTGATCATCTTTTACAATGAGTAAAGACGTGAAGTATTCTTTTAAGAAGATACCCTTAATATGAGGAATTTTTGAAGAGTTTAGCCATTTTGAAATATGAATATAATTAATTTTCTGTAATGTTGTGAAATTTTCTATGGAATAATTTCCTATAACCACATTTAATGTGCCGTAACTTTCGTTTGATTTTATGTAAATATCTAATAATGTACCATTTCTAATAACAGCGAAGATAGCATTGTTTAAATATATTTTTAGTATAGGAACTGTATTAATTATTAGCATATGATCTTTTATTGAATAAGATGTTTCATTTGTAGTTACTAAAAATTTTAATTCACTTTTACCATTCTGAAAGATTGCGAATTGTTGACAGTACGGAGGAAAGATAAACTCAGTAGATCCATAACTTTGTTTAACAACTATTGTGTTATTTAACGTAAGTTCAGAAGAAATGGAATTTCCATTACTCTCTACATAAATCTTTACTGGAATTATACCATAATGCCCAGCATAAATATCTTGGACTGAAAGATTCTGATAGCTTACTGGTAAGAACGGATCTTGTATTCCAGTAGATATTAATATTGATTCATTTATCCAGTTATTGAGTAATAAGTAAGTCGGTGAATAAGCAAGATTTCTATCGTAATTTTCTCCAAGAAAAATAGGTATTGTAGATAATAAAAACAGTAGTATGAAAAGAAAAGGTAAAAGCTTCATATTTTTATGTAACTAGAAATTTGTTAAAAACATTTCGTGTACTTATTTTGTTAACTCTGTTAATATAATGTAATATTAGTCTATATAGTTAAAATTTATAAATGGTACAGCAAGGTAGATTTGTAATGATAAAAAAATTATTAGCTATTATTTTCGTTTTTGTAATATTTTCTGAGATTTTCCTTGTACAACAGTTCTATAGCAAAACAGAAATAAACGTAAATTTTACTGTTACATCGCAAGGATATACAACTATATATATATCTGGAATTCCTAGCAATGAAAGTGTAACTTTGCATTACGGTATAGAAAATGGTCCTCAAGAGTCTTGGATACAAGTATTCAATAAAGAAATGATATGGAATGGTAATAATTTTTCAGCAACTATAGGTCCTTTTACTAATAATACATGGATATCATGGGTATTTTATGATAATTCTACTGGAACATGGATAAACTATGAAGATCATCCCTTCTGGAATTGGAACCTACAAATTAATCCTACAGATATAGGCCAAACCTATGCTATAGTCTTGCCTAATGGTAGTATATTAATAACTGCAATAGGAAGAGCTCCAGATTTGTTTGATGTACATTATGGATTGGCCAGTGGACCTCAAGCTGGCCTACCATGGAGTAACATAACAGACGTAGTAATGACATATAATCCGTTATGGGGAAATTATAGTACATTGATAGGTCCTTTTAAGCCCAGGCAATGGATACAATGGGTATATCATGATCTTACTACTAATTTATGGTATAACAATTATGGTAAAAATTTTGCTATAGAAGATATATATTCTCCTGTAAAAATTATTGGAATTAATTATACTAAGTTTGTTTTCGTGACTGGACAAGTTTTAGGTATAAATATTTCTATATATAATGGCTATTCTAGTTCTCAGTCTATAGATTTAATAATAACACTAAATAATGGAAATTACTCTTTTGAAAGTTATTTAAATCCTGGTATTAATACCAAATATATTTCGATAAGCCAAAGTTTACCTCAGGGTATATATTATCCTGAAATTCTAGGCATAGACAATGGAACGGTATTATTTGCAAATCCCATGCCTCCATTATACATAGTCAATACTACTAATAAGAAGCCTATAAGTCTGGTAATAGTCTGGAATATGCATCAACCATTATATATAGAACCTAATGGAACATGGGAACAGCCTTGGGTTCCATTGCATACTGGACAAGATTTTATGTGGAATGGAAGTATGGTAGGTTCTTATGAACTTCAAGCTTTACTTATAAACAAATATAATTTAAGTGTTACAATAGATTTTACACCTGTTTTATTATATCAATGGGAAACATTACTTCACGAAAAACAATTCAACTATTCAGGAATATTTCCAGGCAATATAACTTATGATATAAAAGCAATAAATTTCACTCTAAATTTATATAAAAAATTAACTCAAGAAGGTAAGATAGAAGTATTAACAGTCCCGTTTTATCATCCATTAATGGCAATAGAATACGATAATGGATGGGAAAGCGATATGCTAGCACAAATATTAATGGGGAAGAATTTTACTAGGTACGTTTTCGGTATAAACTCTTCAGGAATATGGACACCAGAAATGGCGTTTAATATGGGTTTGATTCACCTTTATAACGAGTCAGGAATTAATTTTACTATTTTAGATCAGCAGGCATTCTTACCATATGTTACGTTAGTTAATGGTTCTTTAAATCCTGATCAGCCATTTAAAGTTGAAGACTCATTAGGTGACAGTATCTTCGTATTATTTAGAAATACTACTCTATCAAACGAATTTGGATTTCAATTCTTTAGTCAGTCTCCATATTTGACTGAAGAACAATTAATTCATCAATTAGCTACTATTTACATGAGTAATCCTGGAGGAATAGTTGTAGTAGCTTTAGATGGGGAAAATCCACTTATATTTAATCCTGTTACTGGTCCTTACGATTTAAATGCTATATATAGCGCTATTTCACAATATGAAGGCTCATGGTTAATAACTCAAACAGCATCTCAAGCTATATCATCACATAATTACTCTATAATAACTAATTTACCTGAAAATTCGTGGGATCTTAATTTAGACTATTGGAACAATGGGTATTATGGAAAACAATTAATCTGGAAAAATGTTTCAGAAGCTAGGGAATATTTAGTTAGTTTAACAATTGCATTAGGAGATCAAATATCTCCTATTGTATGGACATCTCCACGTACTACACCTAACTCAACTAATTTGGTTGACAGTCTATGGAATTATCTTTATGTTGCAGAAGGGAGCGACTGGACATGGCAAACTGGGCCGCCGGCAAACGGTCCTTCATGGTTTAAAGCTCAGGCCATTGTATATAGTAATACAATTATAAATACTATAAAAAGTTTAATGAACAATATTACTTTAGTTTCAATACAATCATCACATAAATATACTAAACTAAAGATAGAAAATAAATTACCGTACGATCTTAATTTAATTGTAGTAGTTAATAATGGGACATTTAATGCAAGCGATAAAATAATACTCCATCATGGAATTAACATAATTAAAATAGCCATAGATGATAATGGTAATAACGAATTTTTAGTGTACTTATTTGCACCGGTTAATTATAACGAAATAGGTGCTGGCGTTATTCATCTAACTCAATATGGCTTTATGCTTAAGGAATTTAATTACAGTGAGCAATCTTCTCAAAATATAGATTCGACAATATATATCGGGACTATATTAGGAATAATTGTACTATCAATCATTATATTCTTTATATATAGAAAGTTAAGATAATTTTTTTTTAGTTCTATTTTATATTCATATAAACTATTTATGCGTATTTACGTAATATGTAGTTCTGTTTAAATTGTCAAAATCTTTATTTGTCACTATTCTAAGTATGTCTAAGTACTATAATAAAACTCTTTATTTTTATGAAATAGCGGTATTTAAAGAAGTTTATAGTACTATACTTGGACATTATTAATACCGTACTATTAGTTTTTAAGAAATCAGTCAGTATAAGAGTTATTTGTTTTAAAATAATTTTTAATAAGATATTTTATATTATATTTTAAGTGTATATATTAACTATATTGAAAAATACTATATATACTCTATTTTTAGATTATAATAATGATTTAATATCAAAAATTTAACACTATGATTTATAGAAAGTAATGATGATATTATAAATATAATAAAGATTAAATTTAATTAAACATGTATAAAACTGATAATACAGGAATTAATTTTTTATACAATTTAAGCGTATAGTAATACGGGTTTTTAAAATGAGTAAGAAATTAAGAAAAGCCTTAGGTAAGACTGCTTTGATAGCGATAGTAGTTATCTTAGTAATAGCAGTAGCAGGCGGGATAGGATATTATATGACAACACCTCATCACCCAACAGTTACTAAAGTAACGATAAATTATTACGATGATCTTGCTCCTTCAGAAGCTAAAGTATTTGATGATTATATAATTCCAAAATTCGAAGCGCTCTATCCTAATATTACTGTTCATTTAACTGTAGAGAGCGCTCCTAGTATGGTGGATACAATAGAATCGTTAGAAAAAGGAAATGACGTTGGACCTACAGTAATAGCTGAAGATAACATGATTATAGGTGAGCTGTTATATGCTGGAGACCTCATGAATTTAACTCCTTATGAATCTACTATAGCTCCTTCCAGCATGATTCCTTCAATGGTTAATTTAATGCATTATGAACAATCAGTATATCATGGCATATATTTTATTCCATTTAGAGGAAATATTCCATTAGTATGGTATAATAAAACAGTATTTAGTGAGCTTCATTTACCTTTGCCACAAAATTGGACTCAACTAATGCAGGATGCTAAAATAATATACCAGAAAACTGGAGTTAAACCAGTTATGTTCCAAGGACATGGTGGTGCTAGTACTTCAACTGAATTATACCAGTGGATGGTACAAGCAGGAGGAAATCCATTCGTTTTCAATGATTCTGGAGATATAAGGGCATTTACATACCTAGATGAGCTTTCAGCTTATATGAATCCGCAATATGTTCACGGATATTGGGGTAGCTATAAGGGTTTGGCAGATGGTGAATATTATATTCTAGATTATCAATGGCCATACATATACACTACAATGCAATCTGAGGGAATAAACGTAACAAATATAGGATTCTATCCTGGTCCTGCAGGTCCAGTAAATAGTGATCATTTAGTTGGTGGTGACGTGTTAGCTATACCAAAGGGTGCTACTCATTTACATGACTTATTACTGTTTGTAAGGTTCCTATTATCAACTCAAGTCCAGAGGGATATAATAACAATATTAGGAGAACCTGCAGTTAACGCCAAAGCTTATCAGAATTTACCATCTAACATTTCAGCATTGTTTAAAGCTGAAGAAGAAGCGTTCCAGAACGCGTTCTTTAGAGAACCTGTACCGTGGATTAGCTATTGGAATACTATAGCTGATAAAGTATTTGATCAAATAGTAGTAAATCATGCTCCAGTTTCCGAAATTCCATCAATATTAAGCGGTGCTAATGCGGAGATGTATACGTACTTAAAGACAACGTACAACTCTACGGTGGCTAACGAATACGAAGAAGGAATGTTCCAGCCACTCTATGGGTGAATAATTTGAATCAAAATCTAAGATATCTATTTTTTACCCTTCCAGCTATTATTTATGTTGGAGTTTTCGCTTTTTACCCTTCATTTGATGCTATTTATTTAAGTTTCTTAAATAATGCAGGTCAATTTACACTTAATAATTATAAAGAATTATTTTATTTTAACATTTATGGAACTATTTTAAATACAATAATAGTTACCGTAGGTGCTTTATTGATACAACTATTTTTAGGTTTAGGTATAGCCTCTCTTCTAACTAGGGAGTTTAAGGGTAAGAAGGCATTTTCTACTTTGACTATAATACCAATGGGAGTTGCTACCATTGTCGCCGCAATTACTTTCTCTTTTATCTTTCAAACTACGGGAGGCTATGCTAATTCCTTCTTACATTTATTACATTTACCAACTATTAATTGGTATTCTAATACTTACATTTCTCTTTTAGTAGTAATGATATCAGATAGTTGGAAAAATACTCCTATAGTTACACTAATATTATTGTCTGGAATGATGTCAATACCAAAAGATCTTTATTACGCTGCATCGCTAGACGGTGCAGGGCCTATAAGAAGATTTGTTCATGTTACTTTGCCTAACTTAAAGAAATTTATAGCTATAGCCTTAATAATAAGGGGGGTTAGCGAATTTAACATATTTGCACTGCCCTTAGTCTTAATAGGATATCACCCTGCACTTCTCACCACATTAGCTTATGATTTATATTCAACTACAACAATTTACTTATCTTCAGCAGCTGCAGTAATTCTCTTAGCCTTTATTTCAGTTTTGATAATATTAAATATAAAACTAGGTGGTAAGAGATGAAACTTTCATATATTGCAGTAATTATATTTTCAATTTATTTCCTTTTACCACTTTATATTCTAGTAATGATAGCCTTTAGTCCTGCAAAATATACTATAGAATCTCTTTATCCACCACTTACCTTTAAGTCGTTTACGCTGAATAATTTGGTATATGCATTTACTCAATATGATTTTATACATCCCTTTATCAAGAGTCTTTCAGTAGCTACTTTAGTAGGAATATTAGGATTAGTAATAGGTATTCCAGCGGGATATGGATTAAGTAGATTACCAGGGAAGATAGCTTATCCATTATTGGTTTTACTTCTAGTAACCAATATGGTTCCTGGAATAGTAGTTGCTATACCTATTAGTGCGGAATTCATAAGACTCCATCTATTTGATTCGATTCCTGGATTAGCTTTAGTTCAAGAGCTAATAACATTACCCTTAGCTACATTTATAATGCAAGGTACTTTTTCTGCTGTTCCAAGAGAGATTGAATATCAAGCTAGAATAGATGGAGCTTCTACTTTATCCTATTTTAAGAACGTATTAATACCTACTGCATTACCTGGAATAATAGCCGCATTCCTTATTTCATGGATGTTTTCTTGGGATGAATTTACGTACGCAATAATAATTTCTCCAATACACCCTACTTTACCAGTAGAAATTTACGTAAATATAACAAGAGGAAACGAATTGGCAGCAGTAGCGTTTTCTCTTGTATTCACAATTCCTGTAATTATTCTCACACTTTTCTTACAAAAATATCTAAAAGGTGAATATTTAGCAGGAGGTGTAAAAGCATGATTCAATTTCAAGACTTAACAAAAAGATATGGAAATAAGGTAATATTAGACGGGGTAACAGAAACTATAGAAACTGGAGAATTTTTTGTAATCTTAGGACCTAGCGGTGCTGGTAAAAGTACGTTACTTAAAGTTATTGCAGGAATAGAAAAATTAGATAAAGGTAAAATAATAGTTGATGGAAAGGATATTACTAATTTACCGCCCGAAAAAAGAAACGTTGCCATGGTATTTCAAAATTATGCTTTGTACCCAAACATGACTGTTTATGATAATATAGCGTTTCCATTAAAAATGAAGAGAATGAAAAGAGAAGAAATAGAGAAGAAAGTAGAAAGAGTAGCTAAGCTATTGGGAATTTCAGATATATTGAAAATGAACGTTACTAAGATAAGCGGAGGTCAACAACAAAGAGTAGCAATTGCCAGAGCAATAATTAGAGAACCTTCTTTTTATCTTCTTGACGAACCCTTATCAAATTTAGATGCTAGAGTTAGGTTTGTAGCTAGAGGAGAATTAAAAAGAATTCAGAAGGAACTTAACGGAACATTCATTTACGTTACTCATGATCAAAAGGAAGCCATGAGCTTAGCAGATAGAGTAGCAGTTCTTCATAATGGAAAATTCGAACAAGTAGGTGTGCCAATGGAACTTTACGAATATCCTAGGACAAAATGGGTTGGAGAGTTTATAGGAGATTTTCCGATGAATTTTCTACCAGGAAAAGTAGTTGGTATAGAAGGTATAGAAATAGGATTTAGGCCAGGTTGGACAAAACTAGGTGGTGAACTAAAGGGTATAGTAGAATCTGTGGAAGTCTTAGGAGAAATGATTTACCTCTTCTGTAAGGTAGACGATAATAAGGTAATTATAGAATCAAAGGAAATGTATGACGTTGGAGACGAGGTTACGTTTAGTGTGATAAAATTCAGAAGATTTAAGGATGGTTTTCTCATTGACAAGGAATAAAGTTTTTTATTATATGTCGGAAAGAAAATTATGATTTATAATTTCAACTTTACACTGAGAGTTAAAAATGAAGTTATAATACAGCCTTTCAGTTCTAAAATTTCAAGAATTGCGATATCTAACGTTTCGCAATATTATGTAAAGAACACTGACTCACCTGGGATAAAACCCTTTAGAGTTACTGCTATAAAAGATTCCAAACCTCTATTCTCTACTGGTAAAAAATTTCTTAAGCTAATTCCAGATAAAAATTATTCATTTACTTTAACTTCTGTTTCTGAAGAATTATTTAATGAAGTAGTCAATACCCCTTCTTTAAGATTTAAAACTTACTCTACAGAAGCAGAGATTGAACTTAAGAACGTTGAAATTATAAATCAACAAGATATTATTTTAGAGGACTCAGATTCTTATTATATACAGTTTTTAACGCCAACGTTGTTACAGCCTCCAAGGCCTTCATTTAAAAGGAAGAGGAATCGTTATGTTCTTTTTCCTTACTCACCTTTTATTCTTTCCTCTTTAGCTACTCATTGGAATAATTTCTCTAATATCAAGATTTCAGGTATTAGTGGGTTAAAATCCCTTTATTATTTTAGGGAAGTATCCTATAATTTAATGCCTATTACTGTTCCATACGATAAAGGCAAAGTAAGAGGATTCACAGGCTGGGTTAAATTCGCTTTAGATGCTAGAAGAAATTCTAAACTTAGAGAAAATATAAGGAGGCTCCTAGCCTATGGTAATTATTTTGGTGTAGGGAAATCTAGGGCAATAGGTTTTGGAGAAATAAGAGCATTCCCTAAGAATCAAAATTAAGCTTATAGAAGAAAGCAAAACGTAATTACATAACCAAACAATAGCTAGTATACAAAGAATTAGGAAACACTTAATTTATTTCTAAAATATCATCAATAAAATTAATTATATATTTAATAAAAGTAAATAACTTAGTTTTTTATTATTATGTATAAATATTAATAAAAATTATATAAAGACGAATTGTTAGTCTGAATTAAATTAATAATTTTAAACATTGTTTTCTAAATTTACTATAAATAATATTCAAGTAAGATTATGAAAGATCTCTATTCTTTATTAATAATGAATTCATTATTGTCTAATTCTCTCCAACACGGATAAGCGTTTAAAGTAGATTATTTTTCATAATATACTTTTCTTATTTTGTCAAAGAAGATATTTTGTAATACGTTTCATCTAAGTCATGATATACATATTTAAGGTTGTATACAGAAAATATTTTATATAGGTTCCTTATATCTAACTTAGAACAAAAATGATACCTATAGAAACATTCTCTATATCTGCGGCATTAACTAACTTAGAAAACGAATTTATAAATGCTATACCATCTATAATACTATTTGTAATAACAGTTTTAATTGGATATGTGGTAGCGATAATAGTTTCTGACATAATAAGTAGAGTACTTAATAACTTATCAGCGTCTTACCCTGGACTAAAAATAAGTACGGGCTTAATATCTGGTACAGTAAAGATACTTATAATACTAATAGCATTAGCTATAGCCTTCTCTCTACTTAATCTGGGAACAGCTAATATTTATATTAGCTATATAGTTAGATATTTACCTGATCTAGCAGGTGCCATATTACTACTAACATTAGGTGTATCGTTAGTAAATATCTTTCTAGATTTTGTAGGTAGACAAATGGGTCAGCAAGATTCTTTCGTAAATACTATCCTAATGGTACTGAGGTTTGGTTTGTATGCAGTTATAATAACAATAGCTGCTAATTTAGCAATATTTTATTGGATACCCACTGTTAGTTCTTATCTATTCTATGATATTATTATAGGTTCAATAATTCTGCTTTTTAGTTTTACAATAACAGGAAAAGCTATAGATGACATTTCAAAATCTCATCCAGAAACTTCTAGTGTACTAGGATATGCTAGATTAATTCTCTATGCAGTGTTTATCTTAATAGCAGTAGGAGTAATCATTCAGCCATTTGGTAATGTTACAGCTATAATTCAGACGTTCGCATGGGGACTAGCAATAGCCTTTGCAATAATAGTAATTCCATTAGTATATGCCCTAGCAAAGAAAATAGTTCAATAAATTTAGTTTAAGTTATTTTTTAATTAATTTTAATTATGAAGAGATATTTTGTATATGTTATTAGATTTATTTCGTCCCTTCTTTTATAAAGTTTTTATCAGATTCAGGTGTTCAAAGGGGACGGAAGACTCCATCCGTGGAGATGGATAGGCTCCATATGCTTTGCCTCTAACATGGCTAGGCGATGGCTTGAAGAGCCGAAGGAACTACTTGATTGGGGTCAACTTGAGGGCCTTCACCACCTCCTCCCCTATACCTAGTCTTCTTAGTCTCACCCTTGTAAAGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGTAGTTCACTATATTGTATAGTCAGAGATGGAAAACTAGCAGATCTAATATCTTAAAAAGAGGGAATTATATACAAATGAAAACTTAGCTAAAGATGACTGCTATAAGGCAATAATAAATACCTCCTATTGTCATAGTTGGTATCTTGAGATAACTCTAGTAGGTTTAGATTATGAACAATTTTAATAATATAACAATGTAAAGAAACTATTTTTAAAGTGAGTAGATATATTATTTTTATTTAATTCTTAATAATATAATAGGATGGACATTCATTAAATAAGTTAAAAATTCAAAAAGATTTACGTTCTTATCACATTAACTAAATCTTTAACTCTTTCATAGTCCTTATCGTTACTTACAATTGTCATTCCGCTTCTTTTAGCAATAGTCACGTTTATTGCATCGCCTACACTAAGTTCTCTTTCAAAAATAATGTTGATAGAATTTAATATATCAAATTCAGTAATTCCTATAACAGAATTTTTAATATCGTTTAGTATTATATTTAAAAATCTCAAATATCCTTCTGCCCTATTTTTATACCCCCTTTTCAGCATATCTAAATATCTACTTCTGACTATAGTAATAAGTTCGTATAATGTAATAATAGTAATGATTCCCTTTCCTCTAAATTTTACGTATTTTTTGGAAAATAGAATATCAGTATCAATTAAGTATTTTTCTTCACTCAATTTTATGTACCTTTTTTGTTATTTCCTTTTCAAGAATATCATTAATATCATTTTCTGAAATTCCAATTTCTTCTACTAATCTTAAAAATTCATTACTAAAAACATTAGCCGAATTTTCTGAAACTTTTTCTGCAATATCCTTTTTATCAGTTATAAAGTAACCAGAACCCAGATCAACTATGTAAACGTCTTTTCTTTTGTATTCTGTCATTATCACTCTGCCTTTCTCATCTGCTTTTCGTACGAAAATTTTTCCTATCATATACAAAATGTTATGCAATAATTTAATAAGATTTTCCCACGTTTAGTTACCACTCAATTTTTAGCTTCGTTCCTAAAGGCAAGATAACTATGACCTTAGATATAAATTTAAATTTTTACAAGAAGTTGAATGAAGTCATTAGTGTTTTAAATAAGTTTTTAGTCTAATACAGTAACTTTCAAAACCTGGCTCAGTTAGCAATTCTTCATTAATATGACCATTATAAACTCAGATGTATGTTTGAAAAGATGTATAACTTTTTTGAAACTAAATTATATTTTAAATATGGAATCTAATTAAAGTCAAATTTTTTCTCAACTATTTTTAACTTTATGCGAATTATTTATAAAATTTACACATTATATCTTAGTATAGAATATCTTACTTGATGATAATAAATAAAGAAATATTGACACAGGCAATATAGCCTTTTCTCCATTAATTCCTATATCGTCTAAGGTAAGTATATATCCCTTATCTATTTTTAAATCTCTAAAATCGCCTCTTCCCCATTTTACTTCTACTCCTAAATTTTCTACAATAAAATCTATTTCTTTTCCTCCTTTAAAAAACGTATAGCCAACTCTTTCATACTCTCTGGCTAAATGCTCTCCTACTATACCTTCTATAATGTGAGGGATTTCTTTCTCTTCTAAAGTACCTAGACCTTTTGTATATCTCTTCATAACTCTATAAATAAATGGATCTATGAAATATATCTTCTTAAATGATTTATTGTTTATCTTATTTCCTTCCATTTTTCTAAAAATTCTTAAGATAAAAAGATTTTCAGCTAAATCAAGATATGTAGACACAGTATTATGAGAACCTATTGATGTTTCTTTAGCTATAGTATTTTCCGATATTCTAGAACCATAAGAATCGATTATTTTTTCAATTATTTCCCTAAATATTCTTTCTTCCTTTCTAAGTTTTGCTAGATCGCTTAGTATTGCATCCTTATAGGTTTCATAAAACGAAGCCAAAGGATCTCCTTTAATGTAGTTTGTTGCAAAAAATCCTCCTCTCTTTAGATATTCTAATAACGCTCTATTTAGTTCTGCAAGATATGGAACCAACTTTATTGCGTCATTATAAAATTTTTTTACATCCAGGATAGATGAAGTATTCACATTAAGTTTTTTGAAATATATATCGAAAAACATTCTGAAATTTAATGGATATAATATAACTTTATTTAACGGTCTTCCAGGTAATGTCTCTTTCTTCAAAGAAACCGAAGTGGATCCGCTCACGTAAACCATGGAATTTTTAAAATATCCACCATTAAATAAGTGGAGTAGCCCAATATTCCAATCTTTTACAAAAGTTATTTCGTCTAGAAAAACGAAACCGTTATCTGGATTAATTAAAGATCTGTATTGAGAAAGTAATGATATTAAATCATCTTTATCTTTTAAAGAATCACATGAAAAAAAGAGTATTTTAGTAGGTTCAGTATTTTTCTCTATAATATTCATTATTGTAGTCTTTATGAATGTAGTTTTCCCAACTTGTCTAGGTCCTATTATAAGTAAATTGTCATTTAAAGGAGATATTATGAATCTTGGATTTAGGGATAAAACTTTCTTTATTTGTTCATCATCATAAATTCTATTTTTATCTATCCACCAAGGATTCTGAAAATTCATTTGAGCAATAAGTGACATCTTGCTAATATACTGACAAGTTTTATTTAAGATTTGCTAATATACTGACAAGTTTGACATTAATCTTGTCAATTATATAACAAGATTACCGCCTTTTTAATGGTTTAACATAAAGTTTGACTAAGAAAAACCAATTAAACTAAACAATTACTTTTTACCTAAAAAAATCCTTGAAATCTCTTCTCCTGGCTTCTTGCTCCTTTTTGCATTATTTATTATATTTGTCTGAATTGAAATAATTTTATAAAGTCTGCTTGAAGTTATTTTGCGATGTTTACCTATAAGTCTAGCATGAATTATAGACGCTCTAATTCCTTCTCCAGTTATAGGAAAAACCGCTCCCGCAGATTCTCCAACCCTTCTTGTATAAGGTTTTAATCCTGAGATTGAAATTCTTGCTACTCCATAATTTAATTTTTTACCTTTTAAAAGATAATTAAGTCTATCAAGGAGTACATTGAAACTTGTATCTCCTCCTATCCCTATTTTTGCGCCATATTTTCCAGGAAATATCCATCCGTATCCTACAAAATCTGAAAAGAAATATGAATTTAGTGTATCTTCTTCTGTTTTAAAATCGGTATCGTACTGTATTGCAGGAACTGTAAAGGAAGGAGGTAAAGCTTGATATCCTCTAGCGTCTATTATTCTATCATATGTAATTTCCTTTCCATTAACAATTATCTTATTTTTATGAATAATAGCATATGAATTAAACATGACATTAACTCCGTCAGACAACCTTTCTAAGAACTTCTTCTTATCTATAATATAAGCAAAAGGTTCATTAGAATTAACTTCATGGATTAATTTGTAATCAAGATATATCCTATATTTCCTTATCTTAAAAAGAATTTCATCTCTTCTTAATTTTATTTCGTCCGTGGAAAGTACAACCCAACTGCATGGTTTTACTGCTAGTTCTTTTTCTCTCTCATAGACGTCTGCGTCTAAATATTTAGCTAGAGTAAGTCCTGCAGGCCCCGCGCCTACAATTCCAATTTTCATTAGACTAAAAAATGATTAGAATAATATTTTTACTTAACTATGAAGGATTATCATTAGAAATTCTGCTAACTTCTTCAGATGCTAATCTATCGAGTAATTTTCTCATATAGGTCTTTACAAAATATATAGTTTTATATTTCCTAAATTCTTCTTCGTTATTTACTGCTATATCTATATATTTCTCAGGCTCATAATGTCTTATACTATATTGTTTTCCGTCAATTTCTATTTCGTCTGGGCATTGCCCTCTCTTGACTATTAAGAGCTCTTTATCTTTTATCCCTGCAATCATTACATCCCATTTCCCTATCATTTCTACTGCTCTCAGTACAATCTCCTTATCTTGCAACTTTTTCGGCCTCAGCCTTAAATTTATCAATAACTTCGTCTAATGTCTTTAGATTTTCAGTGAATTTTTCAACTTTTATTTTTACTATCCATGCTTCATAAGGTTTTTCATTAATAAGACCAGGATTATCTATGACTTCCTTATTTATTCCAACTATTTTTCCTTTTATAGGTAATCTGAATTTTCCTATCCATTTTGCGCTTTCTACAGAAAATATATTACTCCTAGGAGTTACATCTTCTCCCTCTTCTTTAGTAGATACTTGAAATATTTTGCCGGCCATATACTGACCAAGAGACGTTATTCCTACCTTTATTTCTTCTCCCTCCTTCTTTACCCATACGTGTTTTTCATCGTCATATAACAAATCTTCGGGAAATTCGAAACCAGATATATTCATAAAATAAAAGATAATCTTAAAACTTAAAAATCTTAATTTTGAAAATTAAGCCATGAAATACGCTGTATGGCTAGACGGTGTTATTTTAGACATAAATATTACAGATAGGCTTTACGAATTGTATAAAGGAAAGCCAATAGAAATTCCTTACACTATGAAAATTAACTATGATTGGAACGAATTTTACAATAAGCTTAAGGGGAAAATAATCATTTTATCACCGTATAATGAGACTTTAACAAAAGAAATTCTAAACATAGCTAATATAACAGAACCTTTTATCTACAATAAAGGGAAAACAAAACCAGATAAGGATCCAATGGTACAGTTATTTTCTTCATTTACGTTAAATCCTTTAGACGTTGTTGTTATAGGTTCTTCACCTCTAGATTTACTTTCAGCTAGATTTTATGACTCTAGAGTAAAGGTACTCTGTGTAAATAGACAGATTGATTGCTCAAAATACTCTCCTTACCTAATGAATAGAAACCTTGAAGAGCTTTATCTATCCATGAGAAGACTAAAATTAGTTTAATTTCATTTTTTAATAACATTAGTCCTTTTTTATAAGGTTATTAATAATCAAGTTATTATATCTTAAAATTTTTCACTTAATTCCTTTTTCTTAGTATAATAATGCATAGAAATTTTTATATACTTTATTAACTTCATTTTCTTTTAATGCAAAGTTTTAGATTTATGATAGAAAGGGGACCTCAAGCTAGATTGTTAGCAGGTGAGGAGGCTCTACTAGATTCCGTATTCTCTGGAGAATCTCCAGTTCTTAGATTCGTTATATTTGATCCTACAGCAGTTCTCGTAGGATATCATCAATCCGTTGAACAGGAAGTCAATTTAGACGAGGTTAAAAGGAAGGGTTGGGAAATAGGTAGAAGACCTACTGGAGGAGGCACAATAATTATGGGTCCCAATCAATTAGGCTGGGAAATTTACGCAAATTCTTCCCTCTTAGGGAGTGTGGAAGAATCAATAAAGATTGGAGCACGTGGAGTTATTTCAACTCTAAAAAAACTTGGTATTAATGCCAATTATAGGCCTAAGAACGATGTGGAAGTAAATGGAAGAAAAATCTCTGGAATGGGAGCATTTTCTATAGGAAATTACATTTGTGCTACTGGAACTATACTCCTAGATTTCAACGTTGATGATATGGTCTCAACTCTAAAACTCAGTTCAGAAAAAATGAGAGATAAAATAATTAAAGACTATAGAGATAGAGTAACGTGGATTAATAGGGAATCAAATCCAATAGATATGTCTCAATTAATTAATATTTCAAGAGAATCTTTTGAAAAAGAATTAAATGTAAAACTTGTAGACGGTAATTACACTCAAAAGGAAGTAGAGGAAATAGAATCTCTATATCTTAAATACTCTTCTCCTGAATGGATTTATAATACTAGACCTTCATTAACTGGAGATATAAAATACGCAGAAGCTAAGTTTCCTGGAGGTCTAATAAAAGTTCAGATTAAGCTAAGAGGTAAAATTATAGAGTCTGTTCTAATAACTGGAGATTTCTTTGTAGAACCTAGGAGAGCTATCTATGATCTTGAAGCCAGATTAAAATGGTCTAAGGTAGAAGATATTGAAAAAGAAATTAATGATTGGTATAAAGAAGTAAAAATTATTGGAATTTCTTCTCAAGATCTAATTAAAGTTATAGAGGAGGCATTAAAATGAAACCAGTCTACTTTTACGCGCCAGCATTAAAAAGATACGAAACCTCATATCTTAATTCAAAAGAGGGATGGAGATCTATTTCTGTAACTGGTAGATACTGTGCATTCAATTGCAAACATTGTGAAAAGAGAATTTTAGAAGGAATGATAGACGGATCGAATAGAGAAAAATTCGAAAAAGAAATCAAAGAAGCAGAAAAATTGGGAGGAGTAATAATTTCTGGAGGATCTACTGTGCGTGGCGACGTACCTATATGGAAATACACTGACATACTTAGATCATCTAAGGCTACAATAATTGCGCATACTGGTGTTGTAAAAAATGACGAAATTGCAAAAAAATTTAAGGATTCTGGAGTAAAGATAGCCCTTTTAGACATGGTAGGAGATGACGAAACTATTAAAGAAGTACTGAATCAACCTTTTTCTGTAGAAGACTATCTTAACTCTTTTAAACATCTCAAGAAACAAGGAATAAAAATTGTACCGCATGTTATAATGGGCCTCAGTATAAAAGGAAAAGAAGGAGATCTAAGGGCAATAGAATTACTGAAAGAAGTTAATCCTGATGCAGTAATAATTGTTGGACTTATGCCTTTAATAGGCACATCCTTTTCAAAGATAAATCCACCGTCGCCCTCTCATATTATTGATGCTCTAAAATTAGCTCGTAATTCCTTTGATGTTCCAATAATGTTAGGCTGTGCTAGACCTAGAGGGAATAAATACCTTGATGTAGAAAAGTTTGCTATAGATTACGATATTGATGGAATAGCATTTCCGGAAGAAGAAACCATAGATTATGCTAGAGAAAGAAGAGAAATAATTCTGAGTAATGCTTGTTGTGGAAATATAGTTTATGACTTCCTATCACGGGTGTCCATATGATAAGTAGTCCAGACTGGGTAAGACTAAGTTTCGGGGCAGATATGGTATTAGGGTTCAGCCCCGGACAATTTTTGAAAGGAGCATTGAATACAACTATAAATCTTCTACAATATTATCCAGACGGATGTAAAGCAAACTGCATATATTGTGGACAAGCTAGAGAAGTAGCAAAAGGGCCAGAATGTAAGACATTAATAAGAGTTGAATGGCCATTAAGAAAGCTTGACGATGTACTTTCCAGAATAAAGGAAAGAGAAGGAAATCCAGAATATGGTTTACAAAGAATATGTGTTGGACAATTAGCTCATCCCAGAGCATCCCCAGACGCAATTGAAATAACAAGAAGAATAAGAGAGCACGGAATAGAGTTGCAAATTTCTGAACTTGTAACTGCTACATATACATTTAAAAAACACATGATAGAGATGAGAAATGCCGGCGCAGATATGATAGACGTAGCTATAGACGCAGCTAGTAAAAGAGTATTTGATGCAGTAAGAGGAAAGACTGTCAGAAGCATGCATAGTTGGGATAGATATATTCAGGCTATAGACGAAGCAGTGGAAGTTTTTGGAAAAATGAACGCTGGAATACATCTTATAATAGGTTTAGGAGAAACCGAAAAAGAAGCAGTAGAATTAATGCAATATGCTCATAATAGGGGAGCTAAAATAAGTTTATTCGCATTTTATCCAGAATATGGTACTCCTTTAGGAAATAAAAAACCAGTACCTCTTAACGTCTATAGAAGAACACAGATCGCAAGATGGTTAATAGAAAATGACATAGTGGATATTAATTCATTCAAATTTGATGAAAAAGGAAGAATAATAGATATTGATATTCCTGCAGATATTAGTTTAGAGGAATTAGCTCCAGCGTTTATGACTAGCGGTTGCCCAGGGTGTAATAGGCCATATTCTAATGAAAAACCTGGCAGTAGACTGAAAAATATTCCATGGTATCCTACTAAAAATCAAGTTATATCGTCTATAAGAGCAGCAGAAATAGATAACTTAGCTAAGAGATTCTTAAATTAAGATGTAAGATATGTTAGTTAGCTATTTTTCAAGCGGATTTCCATCTCATGTCAGGATAAAAGCACTGGATATTTCATCCTGTAGGGAATATTTTTATTCTCCTTTTGATGGAGAAATTTTTCATATAGAAAAATTTTTTGTAGGTAGACCGAACAAGTTTTCAAAAGTCAATTATGATTATCTTATATTGGCAAAAGTTAAGAATAAGATAATAAAAATACTTCACGTTGAACCTTTCTTGAATGAAGGAGATAAGATTAACAAAGGAGAGATAATAGGAAAATTTCTTGAAAATCCATATACTGGAGGAGATTTTTTACATGCGCATATTGAGGGAATTAAGATAAGTTTTCCTAAGATAACTAATTACGACGAGAGAGGCATAGGTGTAATCGTGAATGTATATGAAAGTTATTTTGACGTAAAATTAAAAACGTATTCCTCTGCTGGAAATCTAAGAGGATTGGGATGTTGTGGTGGTTTGTTAAATGCAAGTTTACCTTATTCTGGTTACGGAGGAATAATAGGGAAAGAGGTAAGTCATGTAAAAATTGGGAACACTATTTTCCATATAGCGAAAAGGAGAAGAAATCTTACTCTTTTTGAAATAAAAAAAGGTTTAATTAGAAATTGGGAATACGAATCCACATTTAAAGTACTAGAGGGCAGTCCAATATTTATAGGGCCTTTATTTGAGGCAATACTTTCCTATAAAGGATTTCCCTTAATTAGATTTTTCTTTAAAACTAACTTATCAATAGGCGATGAAATAGACGTTTGGAAAACGATTTCTAGTATGTGGACACGTTCTTTTACATTATGGTAAAAATTTTCCATATGATTTTGAAGATTAAGAATAAAAATTATTTACTTTACACTTGCATAAGATAGACTAAAGGAAATCTTGTAAACTCTATTAAAACAGCGTTTATTGAAATTGTATTTTCATTATTTATCTTAACAAGGGGGCGTTCAGTAATAAATATTTCGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGCGATTTGGGGAGGATCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAACTATTCTAGCCAATTTCCTGGCTAAAGCAGTGTACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAAGTAGAACAAGCTGCGCAAGTACTTATTACCCTTCTTCGATATTCCCTTACTTACAGTAGCTTTACCGCTCCTCTCAACTATTGGGTCTAAACCACAGTAGGCTACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCTCCAACAATGCCTATTATTATTCCCGAAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTAATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTGTACTCTAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAAGCATTTCCTTGCTTATTTTTTCCTCGTCACTGACTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTCAAGGTCTTTTAGGAAGATATATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTGTGCGTCGTAAAAATCTGTTTTCTTTCCTCTCAAGTCCTTCTCCTTCCATAGTATATTTGGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGAGTATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGATACTAGATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATAGGCTCCACATGCTTCGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGAGGAAACCACTCGATAGAGGTTAACTTGAGGACCTTCACTTTGTATGTGTAATACTCTTTTTCTGATTCTTGAATTTTTCTATAATACGCGTTGTATTGTTAATTTTGTTAGGAGATAGTGTAGAGTAAGTATGAGAACGTCCCCTTAAATTTTTGCACGCTCCTACTCGGGATATTGTCCCACATGTTAGATCGCGGGGGACGTATAGCCAGCCTCCCACATGGGGTTTTATCCCCATGCCCACTTTCGGCTTGTGTTATTTTCTTGTTCTCTTTATAAAAGTTTTACTCTTGTAAGGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGGCTCCACATGCTTTGCCTCTAACATGGTTAGGCGATGGCTTGAAGAGCCGAAGGAACTACTTGATTGGGGTCAACTTGGGGGCCTTCACCACCTCCTCCCCTATACCTAGTCTTCTTAGTCTCACTCTTGTAATGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCACCGTAGGAGCCCCCTTTGTAGTTACATTTAAATACGTATTTTTCAAATATTCTATTAATGGCAGTCACTGACGGAGTAAGCGTCACTGAGACGCCTTGGTTAAAGCGAGGGTCCATGTGGTACGCCTCTGCTCCATTCAACAGTCCCATATTGGGATACTGTGGGTTCACATTAGTGCTCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGCCCGTTAGGGCGTGGTAGTTCACGCTCATAGATAAATTGAAGGGAATTTTCTATAAAAAAATAATAAGGTAATATTTATATACAAGAACGTTGTAGAAGGTCTATGAAAAGAATTGTAATCTTAGGATTTTTAATATTATTTGTTATAAATATTATGATACCATATTCGTACTATAACTCTTCATCATATTCAGTGTCAAATATTCAGAACTATACAAATAAATTATCGACAAACCTCCATGAATATTTACCTCCAGCTAAAGGAAATATTTCCTTATCCAATAAATTTGAACCAGAAGGAGTAAACGTATATGCTGCCTACAGTTCGGAACCAGCTCCTATGGGAATAGCGGATTATGGAATAGGACCTAATGGTCCATTCGTTAGAAGTACGACTCAGTTTTTAGGAAAGATCTACCTTAATGAGTTAAGCGATGAAAGCACATTAAATAATCACGAGGTATCATTTCAGTTAAATGTGGTTCTTAATTATAACTATAATGGATATAACTATGCCCTATGGGTTCAAGACGTAGCGTTCTTTAATTCTTCAAATGATTTTATGTACTTTGAAAATAATATATGGAATTTTTCAGCATACAAAGCTAATGTAACAAATTTAGTAGGAAATGGAAATATATACTTATACAATTCCCAAACATACTATGCTTATGTTGCGTGGAATTACCCTGGAAGTCCTACAACATTAACCCTTCCTACAACAATATATCTTTTAGTTAACGTGAGCACAAATTCCTTAGGTCAACCGGTTATTTATTTCTGGTATAATGATGGGTTTGGTTGGGTAAACTATGACGTAGTTAGAGTAACTAATGTAAGCAATACTAATAATGTTTATTTTCTAATTGATGGGTACCAGTATACTCCTTCTGGTAATTTTTATGATGCCGAATTAGACATGGTAGGACCAGGAGATGGATCATGTGCATACATTTATAGTTCTAATGTAGAGATGAGTTTGGAATATTGGAATGGACATAATTTTCAAGGAATAAGGAACGCATACAACTTCGGTTCAGACACAGCAGAGACTTCTAATAACGTTATAGACAGTTCATATTATTTTGTACTTAGAGGATATCTTATAGCAGGATTACATACCGGTCAAGGTAGTTTAGGTCCATTATGGAATCAAAATTCAGTATCTACCTTAATTGTAAATACCGGGATTGACAATGGATATATAGTAGTTTATAATTCCAGTTATCCATATTCTTCAGCATATGTTGAATACGAAATTCCATTCTACAATGATACAGTAGAATTAACACTCGTCTCTATGGATTATGCAGTCTTGGTTTATAATCAGAATAATCAATTAGTAGGAGAGGCAAACGTAAACGCTCCTTACGGTAGTGCAAGAACTGGAGTTACACAATTTAACGTTTTTACCGTTACTTCAACAACTTTGGATGAGGGATCTTCAACATCTGTAACTATCAATTTAAATGCCTATGGTGACGTGAACTTAAACGTTATAGTACCTGAGGGCATTTCTTACAACATTCAAAATCCAATTTACGTTGATGGTCAAGGTACTGACGTCCTAACTTTGTACGCTTCTAATATATCTCAAGGCGTATATACAATAATTATTAACGCCTCATTATTTACAGGATTTTATAAAACAGTTTACATTACACTTTATGTTGGACAACCACTTTATACTGTATCATTCTCTTATTCGGTAATAGGACAGCCTTTACCTGAATCTCCACAATTAACTTTAGATTTTCCCAACGGGAGTATAATATCCTTAGCCATATCATCAACAGTTCTCAAATTACCTTCTGGGACTAAATATTCTGTGCAAAATACTATAGGTTTACAAAATGGCATAAGGTGGACTACTGATAATTTAACTTCTGGGACAATTTATGGCCAAGAATCTATAAACATTGTATATTTTGAGCAATTCCTAGTGTCATTTAATTACGAAGTTCAAGGAGGACAAGGTTATGAATTACCTATAATAACGTATAATTATTTTGGGCACATGATTCAAACTACGCCCAATACCGTATGGGTAGATTATGATTCTCCATATAGTTATCAAAGTATATTGTCAGGTTCAAATTCTCAAGAAAGATGGATTGCTTTCTCCTATTCTGGAATAGTCGCTTCGCCTGGTACAATTAATATATATTATTATAATGAGTACTACGTAAACGTTAATTCCCCTATAAGTATTTATGCTATAATAAACGGAACAAATTCTACATTAGTTTCTAACTGGTATATTCAAGGAACTTCTGTAAAAGTGGAAAATTTGACTTATTATCCTTCTTTAGGTGAGAGGGAAGTTATAACTTCAATATCTCCTTCTTCATTTACAGTAAACTCTTCAACAAAAATTAACGTTAACGTCATTACACAGTTCCATGTTAATGTTAATTCTCCTATTCCACTCTATGCATTGCTTAATAACACAAATGTTACGCTAAAATCTGGATGGTATAATGCTAACTCTGTCATAAAAGTGGAGAATTTGACTTATTATCCATCAATCTATGAAAGATACGTTATTACGAATATTTCACCGTCTAGCCTTATTGTTGATAAGCCTTCAACTATTTCAGTAAAAACATTAAAACAGTATTACATAACTATATCGTCTCAAGTTCCATTATATGCAATAATAAACAATTACAATACAAGCTTAATGTCTAACTGGTATAATCAAGGTACTAAAATAGCGATCGAGAATTTGACTTATTATCCTTCTTTAGGTGAGAGGGAAGTTATAACTTCAATATCTCCTTCTTCATTTATAGTAAACTCTCCAACTAACGTAAGCGCTAGCATTATTGTCCAATTCCTCATAAAAGTTAATTCTCAAATCCCAGTTAAAGCTACAATAAATGGTAGTTTAACATATCTAAACTCTTCATGGATTAATAAGAATTCAATAATAAACATAGAGAATTATACTTATTATGTGAATAGTGAAGAAAGGTATGTAATAACTAACATAACTCCGCAATCTGTGACCTTAACTAAACCTCTAACATTTACTATTGGAGCACAAAAGCAATACTCTGTAAAAATAAATGGAATATTAAATTGGTACAATGCAGGATCCAAAATATACCTTAATGCTTCAGTACCATTTTATGATAATGGAGAATTCAAAGGAACCTATGACGTATTACCCGGATCGCCAATAACTGTTAATGGTCCTATACAAGAGAATCTAGTAGAAACTCCTAATTACGTGGTTGTAGGCAGTATCTTTACTGCTGCAAGTGCTGCCATAATTGTAGCCCTTCTCTTCATAGTAATGAGAAAGAAAACTAAGAAGTAAAGTGATTTTTTATTACCTTAGCTAAATCAAAAATCTTAAGTTAGCAACGTCTGATAAAAAGGAATACGAAATTGCCGTAAAAGAAGTCAATGCATATCTAATATAAGAGTAAAATATTAGCTAAAGTGAATCGCTACGCCATTACTGATAGATCGAAAATATATTTATAAATATAAATTTAACTAAATGCAATATTTTTATATACAAAGAAATAATTTCTTATATATGTTATTAAGCATATTAAGAAAAATTTATTAAACAATAAATATGAATAAAATTATATTTTATCACATATATTAATATTATTTTTCAAATGATATACCCAATCCTATATCATATGAAAATACTTTGTTGGTTATTTCAATTTTTCTCAAGGTTAACGTTAACTTACCTTTAATCAAACGTTTAATTTAGTATTTGTCTTGATCTAGAGAGCTCAAGGCGTGAGAAAATTCAACAATTCACAAAGCATTAGTACTCCCAAATACTGAAAGTTTACTTTCTTTATCTTTTAATAATGATCTCCTATAATGTATATTATGGAACTTGGAGTATTAGGTTCAAACAAGCTCGTTACTACGACAAACGCAATATTTACAGAAATTTTTACTGGGATATTTCCAGATAAAATAAGTATATTGTCTCAAGATTCATCTAATGTAGACTTCACTCCCTTAAAAAAAGCCTTAAAAATTTTGGGTATTAACGCAGAAATACAGAATAAGATAGTAGGAGAAGAGTTCGAAAAATGGATAGAATTTATGGAAAAATATTCTCCAGATATTTTAGACATAACTCCAGGAAGAAAAATAATGGCTTTATCTTCCATTTATTCTAAATCTAAAGAAATAAGGTATGTATATTTGAAAGAAGAGGAGAAGGGATACAGAATATTTGGCTGGGTACCTTTTAGTGAATTAAAAGTATATAATATAATAACAAAAGCTCAACTTAACTTAAAACCTTTAAAAACAGTTAATGGAGGAAGAGCAGAACTGGACATTGAAGGTCTAACTTCCCTTTATAATATACTGAGTTTAAACGGAAAAGTGGACATTGAAAGTGAGAGTGACGAGGAAATTGAAAAGCTATGTAAGATGAGATCCGGAATTTTAGAGTTTGATGAGGAGAATGTAATAAGGGATAAGATAGCTCAAGGGGATAAAATAACTTTTGATACTAACGCGTTCATATATCTCGGATATAGGTTAAAGAAATATGGATCAAACGTTATTCCTTTAAGGAAAGTATACGACGAGTTAGAATATAATTCAACAGGATCAAGACCCGACGATAAGACTAAAATGTTTTTACTAGGACTCTCGTCCTATAGATTTTTACATAATCCTCCTCCTTCAAACGTAAATAAAGGTGGAGATGAAGGAATTTTGAGCGAAGTAAAAGAAAAAATGAAGGAGAACGGAAATATATGGTTTGTTACTCAGGATAGATTAGAATCTGAAAAAGCTAAAACTAGAGGTATTAATACAATTTTACTTAAAAACTTAAGGCCAAACCCTGATAAAATTAAAATGGGAAGCTATATTCATTGCCTTTCTGTATTTTCTAAGGTTAGACTTTCAATAAAAGATGAGGAAGTTATTACTATAAGTGACGGTAGTCCTTCAGAAGGACATTCTATGGTTAAAAGTGTGGAAGGTTTCAATTACGCAGAAGTAATAAAGAACATACAGGATTTTGTAAGATCAAAACCTTGAAGAAAACATATTAATACTTAAAGAAAAAGGATTTTTCATGGAATGTAGAAAAGTTGCAGAATTAATTGCTTCCTCTTCTTATGCTATAGCGTTCACCGGTGCGGGAATAAGTACTGCATCAGGGATTCCAGATTTTAGGGGACCTCAAGGAATTTGGAAAAAATATTCTCCAGATTTAGCATCAATAGAATATTTGGAGAAGGATCCTAAAGGCTTTTGGGAATTTTATTCTATGAGAATGAGAGGCTTATTTAACGCTGAACCTAATAAAGCACATTACGCATTAGCAGAATTAGAAAAAATGGGATTAATAAAAGCTGTAATAACTCAAAACATAGATGGTTTACATCAAAAGGCTGGGTCAAAAAACGTTATTGAGATTCACGGCACAATGCAAAGATCTTATTGCTCTTCATGTTATAGATCCTATCCTTCCTCAGAAGTTTTAAGTAAAATAGATAAAGGAGAATTACCTCCAAAATGTGACTGTGGAGGAATAATTAGGCCAGACGTAGTTCTTTTTGGAGAGCCTGTAAAAGACTTTGAGTACGCTAGAGAAATAGCTTTTGAAGCCGATCTTATAATTTCTATAGGCTCTTCATTAACAGTATATCCAGCAAATTTAATTCCGGAAATTGTAAAACATCATAATGGAAAATTAATTATAGTGAACATGGAAGAAACTCCTTTAGATAATATTGCCGACGAGATTATCAGAGATCCAATAGAAGAATTTCTACCTTGTGTTTTAGACGAAATAAAAAGAATTTTATAAGATTAATTATTTTTAGGCAATTCTCTTACCTTTTGTTTCAGCAACTAAAGCTAAACATATTAAAGTTATAATAATATAAGGCAAGACTACTATCAATATTTGATAATTAGTTATTCTCAAAATAGTTGGAGCGATTGATCCACCCATTATACTTGCTAACTGGTAAGAAAAGTTGGATGCAGTAATGCGATATTTTTTATCGAATAATTCAGTAAATAAAGAAGATTGTGGAGCGTATAATGCCGCATCAGATACTGAAAGCGTTAATTCACCTAATATGAATTTTAAAGGAAAAAGGGAGGCTCCCAAAATCATTAACATTGTTCCATTTAATATTACCATACGTCGTCCTATTACATCACTTAAATAGCCGAACATTGGCATTAATAACAACTGCACCGAAATTGAAACTATAACAATCATAGATACAACGTTAGTTGAAATAGATTTTGCAAACACATAAGAAGTAAATATATAAAAATTTGCACTTTCACTCATTTTTATTCCTATTGCTTTAAGAATATTTCTCCAATCGTTCTTGAGAGCATCAAAAATAGGCAGTTTTGATCTATTTTCTACTTTTACGTTCTTTAGGTCCTTAATCAAATAAAATGAAATTAAAGAAATTATTATAATAAATATTAATGAAAATCTCCATCCTCCTAAGTACGAGAAAACGGAAAGAAGAAAAATTGAAAAAGACGACAAAATTACTGATATCGGAACTGCTAATTGAATTATACTTGCCATAAATCCTCTAAACTTTGAAGTATTATATGCCTCAACTATTATTGTACTAGCCCCTCCCCACTCTCCGCCTAAACTTAGACCTTGTAGAAACCTAAATAACACTATAGTATAATAATTATACAACAGTATTATCAAGATTGACGAAATTACCAATATTAACGCAGTTAAGAACAATACAGTTTTTCTACTAATCTTATCTCCAATATATCCAAAAAGTATACTTCCGCTTACTCTTCCTATAAAACCCAGAATGAAAATTATTACACCAAACACAATTGGAAAGATGAATAATGAAATTTGAGAAATGAGAAAAAAGGCGTACCACTGGGAAACTGTTAAAAGTAAGCCTCCCAAAAGTAAATTCTTCATAGGGTAGAAAAGTAAAAACTAGATTTTAAGCGAATGTAGAATATCTACTATTCCATTAAATTATAGAAATTAGCCATTTTTGTATTCTTAAAGTCTTTTCTTTATGCTATAAAGGTAAAGAAGTGCTTTGTGGGTTAGTTCAATATATTTCAATAGAATGATACAGTAAAAATATGTTTCTATAGAAAATAATATCTCTCCTAAATAATTTACTATACTACTTCTTGACCTCAAAGCCCTTAGCTCGACCAACAACGAGGTTAGCCATGTACATCATCCAAGCATAAGCCAAACTAGCTTAGCCTCAACAACTTGACCAGCAAAACTTGTAGCCCTAACAGACTCACCAAATGCTTAACAACAGAGAACAAGGATTCAACCAACCACCTATTACCATAACCCTTCTCATCCCGCCAACCCTCATAACCCAATCTCAAGAACTCACGAACATTCCTTCTCCTAGCAGGATGACCACACCTAAAGCGTTCTTCCTAGGAGGAACGGCCACATCAACACCAAGATTATAAATCTCGCCATCGTAAGCCTTACCTAGAACCTCTTAACTTCCTTACCTCGCTCCTCCAAATCCTTCACGGTATTAGCTGCAGATTCAGCCTCGTTACTCGTCACCTCAGCGCTTACTATCTTGAACTCGTCCTTCTCCATAACTACTTCAATCTTAAGGAATTTTGAATCCCTCCTTTTGCCCCACTTTGCTACTACGTATTGTCCTCCTCTTGTTGTGCTTATTCCAGTACCGTCATCTACTTCAAGTTCGTCACTCGCTTCAGGGAAATTAATATTCATGTTTCTTACCCTTTCCCATATTGTTGAATAATCTAGGCTTGTTGGGATTATCTTCATTTCTGCTAGTGCGCTTAGTACTCCTTCTATTGCTCTGTAGGGTAAGAATAAGTGTAGGAATGCTAGGAAGTCGTTGAACTCCTTTGGTGCCTTGTACTTGGTCTTAGCGTACCTGTTCTCTTCCTGGAGTAATTCCCACCAGTGTTCGAAGACGTAGAAGGGGAACATTAGCTTATATCTTGTTACCACGTTCTCATCGTACTTGCTCCAATCCCTAGTGTTCTTCTTTTCCATGGGTAATACTCTGCATAATTACTTAAAAATTTTTGTATAATTCTGAAGCGATCCACAACGTACTAATGTTCTTAAAATTTTAAGGCTCTAAATATTAGGTCATGTACTTTTAATGAGAATGTCCTTATTACACCGTATCCTGCAGGAGAAGCTTGAAGAACATTTGCATATTCATCCATACCTATCTTCTCTAAAGCATCCTCGTCTGCCCTTAACGCAATTTTAGTATTTGCTAAAGTAAGTATTAAATCGTTTAAATCCGTAGGCCTATGTGTTGCCAATATTGTTCCTATTCCCCTAACTCTACCTAATCTCATGATCTTATTTATCAATCTTTCTAAAGCCTCCTTCTCATCATCTCCCCTCTTACTTTGAGGAAAATATTCGTGAGCCTCATCAAATATCATTAAGAAAGGCGTCTCCTTACCCTGATTTTTGTATTTTTTATCAATCAGTTCGAATATTCTTTCTGCAATAATGAAAGCAGTCATTGTAGCAGTGGATACACCCTTTTCCAAAACCCATCTAAGGTCAACTACAGATTTCGCTGGAGTATCATTAATCAATTCGTCGTAGTCAGGTTCATCAAGATAGCTATTCCCTTTTTCATTACTTATTCTAACGTCCAGTATACCAGTGTTTTTCAGGAGAGTAACTGACCTAATTATATTATCTTGAGTACTACTATGCAAACGCATTCCTTTCATCACTTCCACGCATTCATCCTCCCAACTGTCTATGGTTCCTTCGCAAGATTCTGTTATTATTTTAAAGAAGGAGGCTCCTTGAGCAGAAAAGAAAGGAGAAACGTCAGGAATTAACTTATAAGTTTTACTTAATCTAAAAGCAACTAAATAAATTGTTAATTCTTTTTCTCCATTTTTTAGTACAACTTTATTTCCATCTATTTTATCAATTTTATAGTTAGAAAGGTTACTTCTTGCTAGGAAAGTAGAAATGAAATTTGTAATTTTACCTGAATAATCCCTTGGAACTGGAACTATAATGTTACCTCCTATCTCAGCTGCAGGTTTAACGTAATCTCCTTGAATGTCAAAAACAACCAAAGGAATATGAGCATTTTTCATTATTACCTTAAGTAAATTTGTTTTTCCTGCTCCAGTAGTTCCAACCACTAAAACATGATGTCTCAATATCTCTCCAGTTAACTTAACTTCGATTCCCATTTCCTTGTATCCTTCAATAACTTTTCCAATACTTATACCATCGTCTGGAAGACCAAGCATTCTTTTTACGAAGAGTATATTAGGAACAAAAATAGGACTCTGAGGATCAATAGGAGAAGACGGTGGTACAACTTCACCGTCTACCTCTTCAGATAATAACTCTATAGTTAAGGAAAGCGGAGTAGTAATTCCGGAAGTATCTTCAGTAGGAGACAAAGCAGGTATTTTAGAAACTGCCAGAATATCAGACCTTTCAACTTCAGTTATTCTTCCTAGAACTAAAGTTTTAGATACTGGAAGGGAGATTCCTAGATAGCTACCAATAAGAAATTTTTTGGATAGATAAACGTCAAAAGGTACTTCAGCTTTAATTTCCTTATTTTCCTTACCGTGAGATATTGGAGAAACCCTGGAAGCTAAGCCTACTACTTCACCTTCCTTTCCTGCTTTCATCTTGGCCTCTTCCACTAATTCCCTTATGTTTTCTCTTTCAATCATGTTTAATCACCCAAATCTTGAGTTGCTTCCTTGTACCTATTCCAATCATCATAATTTACACCTATAAGACTTTTAGCATAAACAAAAGAAAGAAGAAAAGTCGACGCACTTAATTTTCTAGAAATCTTATCTGCTACTTCTATAAATGTGGGAATACCTCTTATTGAGGAATTTAATAATGCAGTTTCAACACCCCTACACAAAAGTTCCTTATCCTTACTTTCTACTCTAAATACGCTATCCCTAACTTTAACGTAAGACATAAATCTAACAAATTTCTTTCCTCCAATTTCTATTTCCTCCTTATATATTGGAGTTACGTAAGGATCTTTCCCCTTCCCCATTTCAAATACTAAAACATCATCAGTAACTCCAGATTTAACTAAATCTGGATATTTCTTTGAAATTTCTTCTTCTCTGCTTAATTTCCTCGTAAAATTCAATCTTTTTACAATTCCAACAATTTTGTCAGTCTTCCTTTCCAACGTTAATTTCTCAAATGCCGATTTATAAGGTTCCCCTACCATCTGAATATAAGGCCCAGGGAATATTGGCCCATCAACTATCATTACATCAGAATTAGAATTATTAATCGCGTAATTTTCTAACGAAATTCTTAGTTCGTCAAGAATGTTGTCATCCTTATAATCCGGAGTATAAGCTACTCCATTAACGTTTTCAGTCCTTACTACACTCATAGTAGATTTAACCTTTTGTATAACTGTACCGTTTGCTTTTATAGCCAAGAAAGGAAAAGAAGCATCTAAAGGAATAAGAACATGTCTCCCAGAATCGTTTGCATATAAAGAAGCAATGTAAATATTAGCTCCTTTTACGTTGATAATTCTTGAAGAACTATCTAAATACCCAAAATCTGAAAAAGGAGAACATTTTCCTATTTCTTCTTCATAATAAATAGGAGTAGATTCCGAAGAATCCACAGAAATTGAAGTACCGAGATAAGGCTGATCAATTGAAATCTCCGAAAGAAGCTTCATAAGACTAAGGATAGCATCCTCAATTTCCATAAAATAATTTATAGAACATGTTTTAAAAACTTTTCCTTCAGTTTATAATACTGTATTGTAAGAGATTTGGCATTTAGTTTAAAAATAAGTTATAAAACTGAACTATCCTTTACATATCTAATTGTATCTTCCAAATCGCTTTCTAGAGATTCTTTTATATATTTCTCTATATTTTCTCTTTTTATTGGATTTTCCTCATTTATATTTCCATCTTTTACATTAACCTTCATGTCCTTGGATAATCCTCCATGCATTAAATAATTTCTTTTTTCTATCAGTTCTCCATGTTTTTGTCTTAGATAAGACGTTACTAAATCTTCACAACACTTATATTTCCAATTATCATCATCAAATTTTCCTCCACCGTTAGAATCGAGACATGTAGCTACTGGTAATTCTCTAGCTAAGGATAAAGCCTTATCGTAAAGTTTTGCTTTAATATATAATGAGATCAATTCGTGTAACTTATCTATATCATTCCCTGGGATAAGAATATTCCTAACTTCCAATGTTGAATAAAAATTGGAAATTACCAATTCTTTTATATTTTCCAAACTTTTATGATTATACCATTCTCTGTAATAATTGGAAAGTTCGTTTACGTCTGTTTCAAGTTGTTGCGAATAATGTTCAACATCAGACATCGAATGCACAGCACTAACTGTAAAACCATTTCTTAAGTTCCACAAAAGATCTATTACTTTGCCAGGATCTTTTCCCTTTATTTTACTAATAGTCGTTTTTTCTTCATTAAAATTATTAGGATTAAGATTAGGACTATTTAATTTATCCCTATAATCTCTAAAATATCTTTCGTCCAATTCTTGAATGGAAGAATTTATCATCAAAGAATCCTTCATTGCCTCAACAATTTCTGTAAGCTCTACAATATTTACTTCGTTTTGGATAGGTGCCATTATAGGCGCTGCAAAAAATCTTGTTTTAAATAAAGCTCCAGTAGTTAAGGCCGTCGAAGTTAAAACGTTAGTTCCATGAGTTAAATCTAGAAGTATTTCGTAACTTTTGTTCTCATGGAAGATCGTGTATATAACATTAAAGATAAAAACTGGATTTCTAGATTCGGAATAAGCTGATCTTTGCAGTTGTTGTTTCCCATTAATCTCTGTTTTTAATACTTCTCCGTTTTTGTCTACTTTTATTGCCTGGCCTATCCCCACGTTAGGTATAACTTCAATGGTAAGATCACTAATGAAAGATTCAATATCTGATACAGTTTGTTCGTTTATATCACCTTTATTTTTGAGAAAATTAGTTCTATCCAAAACAAGCTTCTTGTATCCTTTCTTCATGGTTTCTATATCCATAGGGCGTTTTTCATGTTGTATTAGACTATCTGGAAGTAATGCTATTATTTTCTCTACTTCGAATATTTTAGACAGAGCATGAGCCGAAAAGAAAGACGTTACTTCTTTATCTGCAAATTTGTATTTAACCGGACTATAGTTTGAGACATCTCCCGCTATGTATATCAAACATTTTTGATCCAGATTTGACATGATTTAAAACTATACGAAAAACGTTTTAAAATGTATGCCCATTTATAACGCTTATGTAAGAAATATTGCATTAACCAATATTTTATAAGGATAAGAACCAGATTAGACTCATGGAAAATTAGACACTACAAAGCGGTCATGAGTGAACTACCATGCCCTTGCTAGTAGACCCAAAATCTTATTAGTAAAAATAATTTTTATCTATTATTAGTAATTTATGTGAATTTAATGAAATTAGATAATTAACTCTATAATATTTTTTTAGAAATTTTTAAGTGTTATATTAGATCTTTTATATTTCTGAAAGTAAACTGAGGAATATTATTATAATATTAGAAAATGATAAAGACACGAATAATGAAATCTGCTTTATTTGTATCAATTATTTAATACATTATTCTTACTGCTCCTGATTATGAGTATAATGAAATATGTTCCTTATGAAGAAAAAATATGAGGTTTAATATTGAATTTATATTTTTAAAATGATTTTGGGTCTATCGTCAGGAGGGGTCTTCCGCCTCCTTTGAACCCTTGAATCTGATGAAGTTCTTTACCTTTAGATTTTAAGATAATGTGATCATGGAGAAAATCAATTTATCTTTAAAATCACAAATTCATTAAATTTTCAAATATACTCGAAGAATTATATAACTCTCTCAACTATTATTTAACATCTTTATAAAAGAATATATAAATATATTCTAAATACGAATTAATCTGAAATGGTAAGTATTAAGTTAATCTAAACTTCTCATGTTTTTAACCTAATGTTCAATTTTGAATATATAAAAACCAAGGAAGTTAATACGTAAGAAAAAGGATTTCATGATAAACTTCAAATCTTCTTAATCTCTAATCAAGTTTTATTTTTAATTTATATTATTTTTAAATATAAAATAGTGAGATTGCAAATAAAATGTCTAATACAAGCAGCAATTTATAATTATCATTATATACTTTTTTAGGGAGAAGAATCATTTTATTTCTTGAAAGTAAATTTCCAAGAAGAAACAGAAAGAAAAAATGAAAAGAGAGAAAAAGTTGGTGAGAAAAAATTACTTTATGATAATCATTTTCAATAAATTTATAGACAATAGTCTATCCAATTCTCATTATAAAGATGAGAGAAAAAAGAGAAAAAATGAAAAATAAGGGAATACCATAAAAAGAGAAAAAGAAAAGGAAAGATAAAAATAGAAAATGTTCATCTCATCCCTTATTTTTTACCTTTAACTCTTGCAAAGATAAGAACATCACGAGAAGAATTAAACATTAATCTGTTATGTTGAAAAAAGTAGGATTACAATTTTGTAATACTATCATTACTAGGTAGGAGGTGAACATGAAGATTAAAAACGTAAAAGTTCGAGTTACAATGCGTACAAGACGAAATCAGACGTGTAGATTGAACGTTTAAAAGGCTGTCTATTCATTCAATTTCACGAGCGGACCATGCAAACAGAACGACGTCAGATCATTACAACGAATTAGTTCGCATGAAGAAGAAAGGAGATAAAGGAAAAGTTTATAAGTTTATTGTTCAGAATATATAAATCAGAATATAAATCCATCAGTTTCATCCAAAAAGGAATTGAAAGAGAAAAAAATACAAAATCTAGAGAAAATAGCAAATGAAGAGAGTTTCATCCAAAAAGGAATTGAAAGGCAGAAGCCTTACTGCAGATACACAGGGCTTCCTTATCCTATGTTTCATCCAAAAAGGAATTGAAAGATTATCTTCACTTATAAAAGTCAAAACACAACCGTATAATTGTTTCATCCAAAAAGGAATTGAAAGTTTTCCGCATCCTTTGTGCTAATAATATAATTTTGTAACATGTTTCATCCAAAAAGGAATTGAAAGTTAATTATATAATTATGTTTCTACCCGCGGTTTTATTTTTTGTTTCATCCAAAAAGGAATTGAAAGTCAACGGAGATATAGTTTTTTTTCTTCTTTCAATTCGCGTGTTTCATCCAAAAAGGAATTGAAAGACTCATAACAACAAACGCAATTTTGACGAAGTTATACGGTTTCATCCAAAAAGGAATTGAAAGGACTGGAGGGTACTATTCCGCCTATAGCGCTTGGAGATGGTTTCATCCAAAAAGGAATTGAAAGTCTATTTTCAAAATATATGTGCGTCCCGATATTAATACGGAGTTTCATCCAAAAAGGAATTGAAAGTAACTCGGTAGGATAACTAAGTTAAGTCCGTCCTTTGTGTTTCATCCAAAAAGGAATTGAAAGCCCTTTAGGGGGATGTTTCCTTAATTAAATAATTGGAGAATGTTTCATCCAAAAAGGAATTGAAAGATGAATAGCCCTTCCATCGGTTTTGCAAGCATCTCATACCTTGGTTTCATCCAAAAAGGAATTGAAAGTAATTATCAACTTCATTTATATGTATTTTTCAATATATTAAGTTTCATCCAAAAAGGAATTGAAAGTATTAAGAAGAAAAGCTATAAATGCTGAATGAAGATGAAATTAAGTTTCATCCAAAAAGGAATTGAAAGTTTATTTGGGGTTTTTCCCTTTGGGTTATGATTGTTTGCGTTTCATCCAAAAAGGAATTGAAAGATTACATTCTTTTCACCATGCCTTATGAAGCCTCACGTTTCATCCAAAAAGGAATTGAAAGAAAAGATGTAGTTGAATATGAAATAAATCCTTTAATTTTAGAGTTTCATCCAAAAAGGAATTGAAAGTTCTGCTCCTCATAAAACTTAGCCAATTTATCATCATAACCGAGTTTCATCCAAAAAGGAATTGAAAGTAATAAAATATAGTCTACTTCACTATACATTAATAGTTTCATCCAAAAAGGAATTGAAAGAAATTGCGTATTCCTCTTCTAAAACAAATCACAAAACAAAGTTTCATCCAAAAAGGAATTGAAAGAAATATTCACAGTCTAGTATTAGCATCAGGTGGAAAATCAAGTTTCATCCAAAAAGGAATTGAAAGGCATAAGGGGGAATCTGTATAGCCCAATTATGAGAAATTGTTTCATCCAAAAAGGAATTGAAAGAACATTAGAAAAAAACGGATATCTTTTAATGGTGAATAAAGGTTTCATCCAAAAAGGAATTGAAAGGTTGTATGGTGAAATATTTGACGAGTTGTCACAAAAATTCGGTTTCATCCAAAAAGGAATTGAAAGTTAATTATATAATTATGTTTCTACCCGCGGTTTTATGTTTCATCCAAAAAGGAATTGAAAGATGAAAGAATCATTATGAGTGATATAGACCCAATTATTGTTAAGTTTCATCCAAAAAGGAATTGAAAGATAGAAATATCAACAACATACGGCAATGCCACAGTACTTAGTTTCATCCAAAAAGGAATTGAAAGAAAAAAGTTGTTAAATGAAGTAGACCTATTTGCTATAAATAAGTTTCATCCAAAAAGGAATTGAAAGAGTACCTCTAGAATATTTACAATTTACTCCTAATATATCGGAGTTTCATCCAAAAAGGAATTGAAAGTTAAAATTGATAAGAAACGATACAATTGAGATATTCAATAGGTTTCATCCAAAAAGGAATTGAAAGAAATATTTTGTGAATATGAATAATATAATATCAACCATTCAAGTTTCATCCAAAAAGGAATTGAAAGTCGGGTTTAACATCGTCAGTAGCATAAGGGCATACCGAGTTCGTTTCATCCAAAAAGGAATTGAAAGCCGAAACATAACTATCTAATGCATACAAGAACTGATTTAAGTTTCATCCAAAAAGGAATTGAAAGTGCTTACCGAAGAGAAATGTTGTTATGTCAAAACCCTGGAAAGTTTCATCCAAAAAGGAATTGAAAGTTCCTCTTTCCGCCTTTCAACAGAAGATTAATGATGTGAAGTTTCATCCAAAAAGGAATTGAAAGATCTGTATTCCGATCCAATCGCCCTCATTAATATATTATTGTTTCATCCAAAAAGGAATTGAAAGTCTATTAGCTCATCAAGCTTTGTTTTAACGTAATCCCTTATGGTTTCATCCAAAAAGGAATTGAAAGGCTCTAAAGTCTTCAAATGCCAGCACTTCTTTCCGAAGCTCCGTTTCATCCAAAAAGGAATTGAAAGATATATACAAATTACTGGCACTAGGAGCGATAGAGACCAGGTTTCATCCAAAAAGGAATTGAAAGCTTAATAGTGTTCGTGCTAACATTAATGATAGTAGGACTGTTTCATCCAAAAAGGAATTGAAAGCTTCCCAACACTGTCATAGTATTTGGGGAGACAAAGACATACAGTTTCATCCAAAAAGGAATTGAAAGATATACCATATGAGGACATTAGGGCAACTAATAAAGAGGAAAAGTTTCATCCAAAAAGGAATTGAAAGAAATCGGTCTCCTCGTAGTAAGTAGGGTAATCAGCGTTCACCAGGTAATGTTTCATCCAAAAAGGAATTGAAAGATTCGTTTTTGGCTAACTGCTTTAGTGTTTCTATATGCGTTTCATCCAAAAAGGAATTGAAAGCTGTTTATAAAAGATGTCTATAAGGACTTACCGATCCTTCATGTTTCATCCAAAAAGGAATTGAAAGAACTTTACATCTGCGGTGAAGTAATCTCCACCAGTTAGCCGTGTTTCATCCAAAAAGGAATTGAAAGTTCCGCTCTGAGCAGGATCGAGATGTTAGCGACAAATGAGGTTTCATCCAAAAAGGAATTGAAAGTCTTCTGTTACATACTTTATGACGTAGTTGAGGCTAAGCCCCGTTTCATCCAAAAAGGAATTGAAAGTTCAACTCCAGAAAAGTGTAGGAGAAAACGGTTGCATCGTTTCATCCAAAAAGGAATTGAAAGTAGACTTTACACGTACCGTCCTTAAGCTTCATTACAATTCTGGTTTCATCCAAAAAGGAATTGAAAGTGAAAAAAGAAGATTAACTTTTTTCAGGTGTCAAAATCTATATGTTTCATCCAAAAAGGAATTGAAAGTTCTTTATTTATCTCCTTATAATACCCTCCCCTAATTAATTTGTTTCATCCAAAAAGGAATTGAAAGACAAACTTGTATCACAGTATGGACAGGATAGAACAGTGATATGTTTCATCCAAAAAGGAATTGAAAGAGTGCAGACCTAAGTGCGTTCATGATAGCAACAGTTACAGTTTCATCCAAAAAGGAATTGAAAGTCAAATATTGCATCCCAATTTATGAATGACGCTTATTCATTTGTTTCATCCAAAAAGGAATTGAAAGCCCTGAAACTAAGATATTGTTGAATTATTTCCAAAAGTACTTGTGTTTCATCCAAAAAGGAATTGAAAGCTGTTTTAAAACATCATAAATCTCTTTCTCGATTGTAATCATGTTTCATCCAAAAAGGAATTGAAAGTTTAATCTAGACGACTTTTACGAAAACAACTTCAGGAAAAAAGTTTCATCCAAAAAGGAATTGAAAGTTCGATAGCATTTATATATACAATCTCATATATTTCTTTATGTCTATATTTAAACTCTTACATATTTCAATTTTAGGTATAATATTGTTGAGTATACTTGGCATATCTTTTTCAGTTGGTTCAATATCTGTAGGGAATGGTCCCAGTTACGGAGTTTATTCTAATGGAAGGATTTTTATTATAGCCCAACAAGCTAATGAGTTGCAAGAAATTAGGGATAATAAAATAGTTAATACTGTTAAACTTCCAATTTATCCTCATTCTGTTCCTTTTAGATTGGCTTCTCTTGGGAATTATCTTTTTATAGCATATCAAAAAGGGCCAGTTATAGAACTAAATGATAAATCTGGTAAGATTATAACGGCTTTTCATATTCCCCGTATAGGAAAGTATCCTGCAATAATTTCTGCCCATAATTTTATCATAGTTTCTGCATCTTATGGTGATAAACTGTATTTTATTTTTAATAATTCAGTAAAGAACGTCAGTGTTATGAACGGCCCTCAAGCCTTAGCTTATGATAATTTTACTAACGTGGTTTATGTAGGAGGATATAAGAGTAATTTGATTTATAGAATTTCGTTTTCTTCAATGAAAATTGTTGACAATTTTTCTATAAATGATACTACAGTGGATGCTATGACTTTTATTCCTCCTAATGAGTTGGCCGTTGCAACTTATGAGCAACAATTGGAAATTATAAATCTTAGTAATAATAAAATAGTTAGTGTAACAACTTTCGAAAATGGTATAAACGGATATTCGTCTCTAATTTATGATCCCTACGATTCTTATCTATTTCTATCTCTTCCTCACCATGATAATCAAGTGGCAATAATTAATAAAGAAGGAAAAATAGTATCTCAAGTTACTGTAGGTAATTCTCCTAACGGTCTTGTTTACGATCCCTTAAATCATGAAATTTATGTTATGAATTATGCTTCATCTTCTGTAAGTTATTTTGCGTCCCCTATTCCTTCAATAGTATCCCATAAATATCATTCGAGTAACTTTTTACAAGATTTATGAGATTCTTTCTTTAGCTGCAGTAATTGTAGTAGTTTTAGGAATTGTAATAATATATTTGAGGCGATAATAATGTTTTCTCTTCAACCAGGGATAACTCCTCTACCTTTAGTCTTGGGATACTTTGTTTTTGCTGCAATAGTAGCAGTTTTCATTTTGAGGAAGTCTAAATTTACTCCTACAGATTTTGCGTTGGCAGGAGTTGGAGGAGCTTTAGTATCTGTAGCAGACCATATAATAGGAGACGCTATATTTTTGCCGTCGTCAACAGTTTCAGATAAACCGTGAATTTTATGTCATTTGATATCATTTAACATTCCTAGCTCTTCTCATGAGAGTTTATAAATTTTGTAGTTACATACTATCATGTAGAAGAGAGCCCTACAGTGAACTCGATGAGCAATGTGAGGGGGAGGATGGGTTCGATGAGGCTCCCTATGTCCTTGAAGGGAGTGGTTTAACTACCGCTCCCGTAGACGGCATGGGGAGCCGGACAAGGGGAATGAGGACGAGAGGTTGAATACAAATTCATGAAACCTCAATGAAAGTCCGACCCCTATGTTCCTCTTCTCTGGTTTAATATTTCTAACAGTAAACCCTTCTGATCTAATAAGGTCTATGCACAAGTTTAAAATTCCTTTATCTTTAATTTTTGCTGTAGCAGTAGGAGTAATTTCTGTCCCAAGAATATTTGAGGTAGCTGATACTGCGATTAAATTACAATTAATGAAAGGTGTAGGATATAAGAGAAATAGAATTTTGAAAATATTCTACAAACTTAAGGCAATGTTTGAAGCGATAATCCCTTTAACTATTTACGAATTTAAAAAGGCTAGGCTCATTAGTCTTTCTGCAGAAACTAGAGCCTTTATGGTGTACAAGGACAGAACATTTTTAAATGATATTAATTTTAGTAAAGTTGATAAAACGATATTAATTATTCTTATCATTGCAGTAATTGTAGATTCTTATCTAGTATATTCTGGATACATTCCAGCAATTCCAGTTCATGGATAAATTATCATTTGTCAAATTACACGAAAATATGTGGAAAATTCTTATATAAAATATTTATTAGAGATTATTTCATGCTTCTATTAGAAAATTCCTATAATTCTAGGTCTTCTTGAAAACTTTAAAAATCTTAATAAAATTACGTATGAGCAAAAACTTAGGAAACGATAAATATTACCACGCTCTAAGTAATATTTACTAATACTTTCAGGAAGGTTAATAGCTTTTATCTAAGGATTTATCGTTAAATTCTAGTCTAATAACTTTCAGTAAATATAACGCTACATTCACACGGCTAATCTAAAAAAGACACCACGACAAGATTACTCCTAGGAGCTAAGAAGCAGTCCAGACTGGTGAAAAGAATTTATGAAGGAGGAATAATTTTTTTAAAAAAAAAAACTGAATAAAAACACTAGTATTTCCTATATAGGAAGTACTAATGTGGCAATCTTAGTTGACACTATGCTTTAATGTAGTTTACGGAAATTTCTCTTACTTAAATATTTTCATTCTATTATGCAATGAAATAAGTTTTATCTATTCTAGATGATAGTATTTTAGGCTTTACAGTAAATAATTTTACTCCTCTTATGTTGTATTAAATTATTTTTAACGTTGCGTAATACTGCAAAGGATTTTCGTAGAAAGTCTACTCCTAATTCCAGGCTTGTCTAACTTGGGTTTAGCTAAGCCCTCAGATACTGCTCAGCACTACTAACTTTCTCTAAACTGGGGCCTTGTGAAAAAGCGAGGGCGGGCCCAAGGCTATAATAAAGTGTTAGTAGTATGTTCTCTAAAATGAGCATTAATATAATAGTCTCTCCATAAAGAAATAATATATTGTTATTTTGTGTTTAGTGTGCAAAAAAGTAGTAAAATGTAAAATAGTTTATCTCTTAAGTTGTGAAATAAAAGATAGTTAGTTTATCTTAAAGTATAAAAAATAATGAAATAAAAGAACTGTTATAATATTCATATAAAGATAATAAATGTGCAGAAAAAGAAACCAAAAGATTTAAATATCTGTTTAACTACACATCTAAATAGGGGGCAAGCCCCCGGAGGTGAGGAAATGTCTTTTTCGCCCACATTAATGAAGGGGGTTTCCCGATAGGTGACGAAGGACACAGGGCTGATCAGGGTGCCCCCCATTATATTTTATCCTTCTTCCTCATTTATACTTTTCCATGTCAATATTGTACTTCTTAGCGTATTCTTTTAGGCCTAAGTCTAATACCTCGTCGGCAACGTCTGAGTATCTTTTCCCTATGTCTACAGCTATCTTCTTTATTATCCTAGCGTATTGAGGGCTTACCCACAGTTGTTCCTTATTTGTTGGGTGAGACACCATTTCCCTCACTAAGTAAACATCTGTTTAGATGTTTAAAAACTTTACTGTTGAGATAAAGAGATTGTATAAACTCCCCAGTTTACTGCAAAAATTAGGATTGTTTATTTGCGTGAAGTTTTATAACTATCACTGTACCCTGGAGTTTACTTCTCTCAATGAAAGCATTAACTACTTTCTCTTCTTCATCATTTCTTACAACTACAACAAAAACGTGATCATTATTGTACAACTCCTTCTCGTTTTGTAAGAAGAATGCTAACCTATCTAGTTCCCTATCTATTAGGACTACTTTTTCTCCATTTACAAGTATCTTATCCATCATATTATAATAGAGGAGCTATAAAATAAAGTGACCTCACTGAAAAATATTCCTCTTTTTCCAATAAGCCTTAATCCTTATTTTTATTATTCTCTTTTTTACACCTAATACCGCCTCAACTAGGTCGTCAGTTTTAGGTATTTCCATGATTATACTAGCGTCTATCTTTACAACGTAATCTCTTCCTTCCTCATAATACATTAAATACTCACAGATCTCCCTATTTAGGTCGTCACTTTGATAATCCCTAACTCTATACTATTATACATAATATATTCGTATAATCTTGTCGCAGTTTCCTCATCATCAACATCTGCGGTAAATTCTTCATGATTCTTTATCATTAAAACTACTTCAAAAATAGTAAACGTCCTTTTCGTTTATCGGAGATCCTCTGTATTCCATCTAAATCACAAATAAATATAAGAGAGAAAGCAGCATTTAAATATTTCTCTCTTAGATTCTTCTATGATTTAGATAAGAATCTCTCTTAAAATAAAGAAAGATTTATAAAGTAAAATGGAGAATGTTTATTCATGATAATTAAAGAGGAGTTAAAGGTCAGGGTAAAGTATAATGTAAAGGTTAACAGTAAAGGAGAGAAAATTAAGTATCCTTATTATATAGTTACTTTTCCTATAGAGTATTCTAACATACTTAAGGAGAGAAAAATATTAAAAAACGTCACAATAATTACCGATGAAGAGAAAATAGAGTTAAGTAATGTGAAGATATTTTCCTTGGAATATTACAAAAAAGGAGAAGAAAAGATTCCATACTTTAGTATTTCTATTCCTAAAGAGATAGGGGAAAAGCTTGTAGGCAAGAAAGTTTTAGTAATAGCTGAGATTGAATAAACTTCTCAGTTTAATGAGAAAAATTCAACTAGTAGTAAATACTACTAAGAGGCTAAGAAGGAAAAAGAGCAAGTGAGTGAAAAGCTTAGGCCCACGGTGCTTTTCTGCTTTTATCATGTAGAAAGCCCCTTCCTTTCTCTTCATAAAACTTTTCCTAAGTTAAAAGGTATGTAGTGTATTGTTTTTGATTTTCAATTCCTTTTGGGATGAAACAAACAAGGTATAAAATGACCTCAATTTACGCCTTAATAATGCTAATCTTGCTTTCCTCCTTTCAATTCCTTATTGGGAGATATCCTTGATGTGATATGTGTTTCGTACTAATAATAGAAATAATTTTGTTCAATATCACTGTAAAATTATTGATAAAGGTAAAAGTTAAGGTTAGGATCAGGATAGTCCACAAGAGGAAGAAACAGTGACGTTAGGTTAAAATGATAAAAAAGTAAGTAGCAATTTCTTATTAATAATGAATAGTAGCATTAACTGGAAAAACGTATGCATCAAGACTAGGTAACCACAAGTATTATTGCATATGTAGAGAAAGTAGATCACTCTAATTTATGCACTATATCCTTAACTTATGATTAATATACCTACTGACTTTCGAATATTGTATGTACAAACTCGTTTAATGTGCTTCTATATTTTTCATAAATTTTAGGAAATATTCTATACACCTTAATATTTTCATTATAAGTAATTTTATTCTCTCTAATCAATTTATCTATTTCACTTTTGTTTAATATATAATATTCTGATGTCATAGGATTAGTAATTCGCAAAATTATAAAATAATCAAAACCATCTAGTTCATGTAAGATTGCAGTTTTATTATCTAATACCATTCCTTGAATAACTACTTTTACTTATTACCAGCTTTTGTATTATTATAATATAAGCTATAATACATAGAATAATATAATTTAAAAATAATAAAGTTCTACTCCTTAGAGCTATAATCTTTTTCTTATCCTACGTAAAATAGAGCCTGCGATGAAAGACGACTAGTGAAATAGAATGGCCAATAGTGCTAACTTAAAGTACGCTGACTGCAACAGTAATATTTACCATTTTTCCCATAAATGGACTAATACTTCAAGTAAGTTTTTGTCTCATTATTTCCATTTATACTGTCAAAATGAATAAGAACTTTATGAGACTATTAATATACACTATTTCTAAAAGCTACTAAGTTATAATTCATTTTAGTTTGTGCAACCCATGATGACTTTCTTTCCCTTAAATAATTTTAGGTGGTAAATATAAATAGTCACTCTTAGTTTCTATTAGATTTAGTATCCATTTCAGGTTTACAGGGTAAAATTTTGTTACGTCAACGCCAACATTAATTGTCTTTATTTTAGAGTTAATGAATGGGTACTTTCTCAGTCTGTTATTATGCACATGACCATGGATTAGCCACGCATTATAAGAATTCAAATTAGTTGGATAGTGTGAGAGTATGAATTTATAATTGTTTAGTTGTAGTTCTAATTGCTTTACTCCTATCGCTGGAGGATCATGATTACCTTGTATAAAGATCTTTTTCCCATTTAGGAAATTAACGTAATTTTTAAAATCTCTTCTAGCAAAATCCCCTACTATATAAACTATATCGTCATTAGATATCATCTCATTCCACTTATTTTTTATGTGTTCGTTCATTGTAGTAACGTCTACGAAAGGCCTTGCAGAATATTTAATTATATTTTTATGTCCAAAGTGTGTGTCAGCTATGAACCATATTTTATCTAAACTTTTAGGATTTACTTCTATTTTTAGGTACTTTTCCCTATATTTCTCATATGTTTTCTCTAGTTCAACTAATGATAAGGCCTCTGCTCTATTGAGAATTTTCTTATTTAATATATCGTACTCATAGACTATTTTACCCGTATTTACGAGTGTTATCCTTAATACCTTAGCTTCATACAAAAAACGAGATAAAATTTGGAGCATTTCTTTATTGTTTGAAATATTTTTTACTACTTTACATGATAAATGAAAAGAAATGCCAGCATGAAACCAGAAGTTCTCGTTATAGAATTTAGCGTCAGACCTTTCTTTTATATAATTTTTTAGGCTCTTATAAAGGTCTTCCCTAAATTGAAGAAGTTCATTATTAGGCCTTATACCTAAGGCTATCGTATATCCTTCTTTCCCATTTTTTATCTCGTATTTATCGTAATAAAATTCTAAATTGCCATATCTATTAGATACTTCTTTAATAACTTCCATTATTTTAAGCGGAGCTACTAATGGTCGGAAATTATATACGAGAGTAATATGAGGTACTCTATGTACTTTCAAATAACTTATAGATCTAATCTTTCGCATTATTTGTTTTAATTTATATTTCTCTAGAATTGGTCTTATTTCTATGATATAGCTATTTCTCATTATATTTTTATATTTCTCCTATTATTAAAAATAATATACCTCTCGGTAAACTGGGAAGTTTACTTCGTCAGTCCTAATATCTTTTTATAGTATTATACCTTAAAGTAGTTTTACATGGCATTTATAGTAGAAACGACATCTATAGCTATCAGCGTTATAGCATTAATGGTTAGCATATATAGTGCATATATTAATTATAGACATTATCGGTAGTACTTTCAGAAAGTTTATAGCTTTTATCTTAAGGATTTTCATTTAAATCCTAGTCTAAGAACTTTTCGAAAATACTACGGTTAGGGCGTAGTAGTTCACAGATAAAAGATTTATACTTATCATGAGTTACTACTTTGATGAAGGTCTCTGTAAAAGAATTAAAAGAGATTTTTAAACCTAAGGTTACTCCAATAATTTGGGACGATAAAAACAACGTTCTGACTCTCTTGGATCAATCGGCTTTGCCTTTTGAAACTACTTACGTAAATTTGAAGACTCCTGAAGAGGTTTCTTCCGCAATAAAATCGATGAAAGTAAGGGGAGCTCCTGCAATAGGAATAACAGCGGCTTACGGTATGGTTTTGTCAATTATTTCTTCACAGAATTTTGAGGAAGCTCTTTCTTCTTTGTCCAAGGCTAAGACCATCCTTGATAAGGCTAGGCCTACTGCGGTTAATTTAAGTTGGGCAACTTCTTACATGCTCTCAAAAGCTAAGGATTTAGTAGATAATGGAGAGGCAAGAAATGTAGGGGAATTAATTTCTTTGATGAAGGAGGAAGCTAAGAAGATTTTTGACGCTGAATTAGAGGCTGAACTTCAGATGGGTATTTACGGATTGGAAAAGATTAACGATGGAGATACTGTGCTTACCCAATGTAATGCTGGTGGTTTGGCTACTGGAACTGGTGTTGGTACTGCTTTGGCTCCCGTTAAGGTAGCCAATGCTTTAGGAATAAAAGTCTCCGTCATTGCTCCAGAAACTAGGCCGTGGCTTCAAGGTAGTAGGTTAACGGTTTATGAACTAATGACTGAAGGTATTCCAGTTACTTTGATTGCTGATACAGCAGTAGGTCTCGTAATGTATAAGAATATGGTAAATAGTATTATGGTTGGTGCTGATAGGATACTTTCGGACGGTCACGTTTACAATAAAATAGGTACTTTTAAGGAGGCAGTAATAGGTCACGAACTAGGAATTCCTTTTTACGCTTTAGCTCCAGTGACAACTTTTGACATGAAGAGTAGGGTAGAGGACGTAGTAATAGAAGAAAGGGATCCAGACGAAGTTAGGACAGTTAGGGGAGTCCCCATTGCACCAGAGGGCGTTAAGGTCTATAATCCAGTTTTTGACGTTACTCCTCCTAAGTACGTTACTGCAATAATTACAGAAAAAGGAATAATATATCCTCCCTACGATAAAAATGTTAGGAAAGTTATTGAGAGATGAAACTTTTTCCGTGAGATACGTAAATGTTTTTAGGCTTTAATTCCTTAATTTTTTCTATACTTTTTTGGAGTTCGTCGTAATTTTCATAAATTGATGGCGGTTTCAATTTTCCTCCAAGAGTGTCTCCTACTATTATTGAGTTAATTTCTGGTAGATATATAGAAATTGAATCATCTGTATGTCCGGGAGTATAAATTATTTCTATACCTTGTAGGAATTCTCCTTCTTTAATTGCTTCTCCGTTCACTCCTTTGAATGGTTTCATCAGGAAGGGCGACGCGATCTTGAAAAGTATCTTTATGGGTGAGTGGATTTGAGGTTTTCTTATTTTTCCTTCCTTTAAGTAATCAAGCCCGTTTTGATGGATGAAAAATTTCTTTTCTCCTAATTCTGAAGCTCCCCCTATATGATCCTCATGTGAATGAGTGAAAATTACGTAGGATATTTTGTTTGGATCTTTTCCTAACTCCTTTAGCCTAGATATTATCTTTTTTCCACTCCCTGGGGTTCCTGAATCTATTAGAATATCCTCTTTTCCTTCTATGAGGAAGGATTTGACTAAAGTTAGGTTTATTTCGTAAACTTTCATAAAATATTTTTCGTTTTTCTGGTTATAGTACTTTTCTTAATAATGTTTACTTTAATCATGAATTATTACTATAATATTTATTATTTTTCACTAAATTTCCATTTTTTATATTTTAAAAAGAATTTGAAGTAAGATATTTACAGGAACTTACTATCTTTACCCTGTAGGAGTATTAAAGGTAGTAGAGTCCATTCATGAATTTCTAGTTAGTTACGTTAATCCTATATTTCTTGCGTTATTAGGTATACCAATAATACCTATACTATTCTATTTGTCAAGAAAAAATAAAAGATATTACATTTTTAATTTTAATATATTAATTTTTACCTTATCTAGTTAGATTTAAATTATTGATTATCAATTAAACGTAATGGCTCAAAGTCCAGATATGGAGGGTTTAAATAAGTTAAAAGATTCTTCATTGTGGTTCACCATAGTCACATTAATTACTGCAATAGGAATTTTTTATTCTCAAGCAGCTATTTTAACTATTGTAGCTATTGTTCTTTTAATAATAAAGGCAATACCCAGTTTGAGAGATACTTTCAATTTCTTTAAAAGTACTGGGAAGGACGTAGATAGGGGAATTCAAGGATTAAATTATATATTATGGGGTTATATAATATTATTTATAGCTGGAATTTTTGGATTACTTTCGTTTATGTCTATATTTTCTCTAAATCTTGCAATAGTAGGATTTTTTGGAGCAATAACGGCCTTGCTCATAATTGTAGGAGTATTAATTATATTCATTTCCTATCTCTTCATAGGTCTATCTGTTTATAATTTGGGAGTATTTTATAATAATGATTTCATGAAAATCGGTGGTATTTTAATAATTATTCCAGGTATTAATTTTATAGGTTGGATTTTAACTTACGTAGGTAGTGACGATACTATAAGAAAGATTCAAGGAATTCAACCTTTTAATTTTCCTGCATACCAACCAATATATCAAGTAGGAAACGGAATACTTAGATTAGATGGAACTTGTTTCTTTTCATTATATTCTCCAATTCAAGGAGTTCAAATAACTAGCGCTATATTACAAGAATTAAATTTCTCTGCAACAGATATACAACCTAATATTCTAATACAAGGCGTAAATAATATTTCTATAAAGTTCCAGATATTGGGCAGTGGAATAGTAGGTAAACTATATACAGTTGTTGTAACTCTTTCTAACGGCCAAGTAATTCCTGTAAAAGTAGCTTTAACTGGTACTTAGTCTACACTAATTTTCTTAAGTATGTTAATATTTTTTATATACCATAATGTAACTGCACTCATTGTAAGTAATCCTGAGAATGGAACTAATAGCATTACAGTAGTGTATAAATATCCTGCTAACAACGAGAAAGATAGTCTGGAAATTGCAGTAACGAATTCATCTACTCCTATTGCACTTCCTAAAAGTTCTTCTCCTGCTCCATTTTGCATTCCTCTTAACCAGTAAATTTCGTATATTGAGTCCGCTATTCCTATTGCACCTAAACCGTAAACTACTATCCAAGGGTTATGTATTATCATTAAAATAAAAATAGAGAAATATATTGGTAACGTGTATGCTATTATTTTTAGTACAGACTTGAATCTTTTCATTATCCAGCTTCCTATAATGAATGATAATGAAAAGATTACTTGGGAAATGTCGTAAATTAATGATGTTCCATGGTAAATTATAATTAATGCAGGAGCGTATGAGACTATCATCCATATAGCTCCTTGTATTGAAGCAGTACCGAATGTCGTAAGTCTTAGAACGTTCTTCTCTTTAAAGAGCTTAAAGCCTGAAGATAGCGAAACGTTTTCGTGGCCTCCTCCCATTTGAAAAGTATAAAATATTATTCCTCCTATCATGGAAATTATTAATCCTAAAATTGCAGTAAAAACTCCTAAATATGAAAGTAAAAAATACCAACTAATTGTACCGGCAATTTCAGAACTTTCGTAAACTATCCTATTTATGAAGATGGCTTGTTTTTGCATCTCCCTTGGTACAATTTGATAAAAAGCTACTGAGCCTATCATTACACTGAACATAGAAAAAATAACTCGTAAAATAAAGAAAAATATTATAAATAATATCGAATGGAAGATGAGGAATATTACTACCGTAAGAGAAGAAAGTCTTGCAAATATGCCTAAAATGAAGTTAGCTTTCCTCCTGTCAAACTTATCGCTAACGTAGCCGGCTAATGGGGAAATCAAGACCTGAGAAATTGGTCTTGCAGAAGCTATTGGAATGAAAAGTAATGGATTCTGAATTTCCTTATATATCAACCAAAGTAAGGTCATCTGTATTATAGGGGTACTGAAAGATAGTGCAGAATTACCTATTAGAAAGCGTTTAAGCTTTTCCGGTATTGGCATTGATAAAAACAAAATATTTCATGGTATATAAGTTATTGATGTGAATTTTTATGTAAATTTCTTTTTATTAAAGCATTTTCATTAGTTTCATCTATCTCTTCATTTTATAACGTAAACTAAAATAACTTAATATTTTTTATAAGATTTTATCAAAAAATAATATTTGATCTTTATTTCATAAAATTTTCATATTTTGCTTGATTGAATAGCTATTTTATTATTAGCGTAATTCAATGCATCTATGTATTTTATCATTATGGTTAATATTCCCCATTCTTTATCAAACCTCTTCTCTTTAGCTATATAATCGAATTTCCTGTAGAAATTGCTTGCAGTATCTAAGGCTTCTATCATTATCATGTTCTTTCCCAATTTTAAAGAATAATCTTCTGAAAATTCTAGCAATCTGCTTCCTACTTTTTCTGATTTTACCAGTATATTTTTAGCCAACATATCTATAAGAACGTATTCACCTTTATCTATTAGATCTACTATTCCAGCTATTTTGTTATCTTCGTCTAGTACGAATACTTTATCCCCTTCTAAACTCCAAGTATAGTAGTCCTTAAGTGTGTATTTATCCATTCGTTTATCTCCAGATTTAAACGGGAAATATATGTCCTTTTGAGATATTTCCCTTATTATCCATCTAGCGCGATTTTAAATAAGACTTTATTTTTAACGTCAAGTTCATAAAATAAATTAGATAAAAAAGGGATTAATAAAAGTACGTATTAAAGAATTTGCGTATGGGAATTTATAAGGATTAAAGAGAAGCCATATATTTTTGAATTTTTTCTAAGTCTTCATCTGATAAAAATTGTTTTATCCATTCATATTTTAGGGACTTTAGTAAGCTTACTATATCTTCATAGTTAGCGTTATCGTTTTTCCATTCATCAAATAATTTGAGGGCTTTTTGTGTCATTTTATCAATCTCTGGATAATTCTTTTGCAACTTTTGAGATACTTCAAGCATTTCATTTTTAGGAACTGCACAAGGAGTATCCTTCCTGTGAAGATCGTGAATCATTGCTAGACATTGAAGCATTCTTCTTTCTGCCTTATATGCTCTAAACGCTGCTAGTTTAAGTTCTCCCTTTTTTGCTCTTTCTGTTGCTACTATAAAATCTTCTAAACTCATTTTTGCGTAGGTTTTCTCGTCTCTTATAGGCATAATATTTTTATAAAAAAAGTAGTTTTAATTTTTTCTTAAATAACATATCGTGGATTATCATGTAGATGAAAATTGTAACTTCTTAGAATATAACGGGATAATTATTCATTAAAAATTTTTAGTTAATATAAAAAAATTAAATATAATTGTATGTAATTATTATGTATACCCATATTTGCTTGTAGGAATTTAGGAGAATATTCTAATTTTAATATAAAAGAATATGATTTTAAATACTTGCAAGACTTTCATTTTAATGCAGTCTATTAGAGAAAATATAATATATAGTACTAAATAGCCAATAAATGAGAACGTTTTTATTTTTATTTTTTTCAGTACAAGCTATGAATTTATATGACGTATCAAGGGAAATAAAATCCGTTCTAAAAGAGGATAAAAGGGATGTAGATTCATTTGGAATAAAAAACAATAAGCTAGCATTAGTTCTAATTGATGGACTTGGTTGGAATATATCTAAAGATATAAAGACCTCTATTAATCCTAGGCAGATAGATTCAATATTTCCAAGTATAACTGTAACAGTTTTTGCAACGTTGCTTACAGCAAAGAAACCTGGAGAGCACGGAATTCTAGGTTGGAGAATTATTAATAAAGAGAACGGAACTATTGAAAATCTAATGGAAAAACTAAAGAAGGAGAACATTGAAGTTGACACGTATTTTCAGAATACTAATTCATTATTTATCATGCCAGAAGTTGCTACAAAGAGCCTAATGGGAAAATTAAAGGTAATTCCTTACTTTACTTATTGGGACGGACTATATAAATTTAGGACAGCTCTTGATAGATCTGATAATGATTTCGTTTTCTTTTATATTCCTTACGTTGATGCCGCTTCTCATCTCTATGGCCCTAATCACGAGGTTACCTTAAATACTGCAAAGGAAGTTGTTCAAAAAATAGACTGTATTTCAAGCTATTTTAAGGAAAAGTATTCAATATTAGTTACAGCAGATCATGGACATACTGAAATAACAAGAACTATCGATCTAAAGAAGGATAAGGAATTTATGACTGAAATGGATTTTCCGCCTTACGGAGATCATAGAAGCTTAATGTTCAAAGGAAAATTGCCAAAAAGCCTTCTTAAATACGGAATTAATGTTATTGAGGGAGAAAAAGTTGAAGAAATTCTTGGAGGCAATAAAAATAAGCCAGACTACGTTCTCATACCTAAGGACGATAATATAATTATTTATTGGGAAGACGATAGGAAACATGAATTCAAGGGTAGTCATGGAGGTTTAACTGAAGACGAAATGAAGATACCGTTATATCTTTATCAATAAGGTCAAATATTTTTATTATAACATCAGTGAAATATAATCTAAATATTTTTTATAGATCTATATAGAAAACATCTTAATACATATTATATGTAGATAATATTAATTAATTGCTTTTTACTTAATCAAACTATGAAAAATCCTCTTAAAGAATGGGATGATAAAAAACTCTCTCTTTTTCATATAAAAACAATGTTAGTAGCAGGAGCAGGTACTTTTGTAGACGGATACGATTTAACTGTAGGTTCCTTAGTGTTAACAATAATTGAAGAGAGCCAAGGTATAAACTTAGAATCGGTATCAGAAATCCTTTTTTTATCAGTTATTTTAGGAAATTTTTTAGGGGCAATAATATTTGGTTATTTAGCTAAGCATGGTAGAAAGAAGTTCTACGGAATAGATGCAATGCTAATGACTATAGGAGCAGTAATGCAAGCATTTGCATATACTCCTATTTTGTTATCAGTAGTAAGATTTTTATTAGGTATAGGAATAGGTGCAGACTACGTATTATCTCCTTTAGTTAATGCGGAGTACGCAAACAAAAAAGATAGAGGAAAATTAATGGCAATTTCTGGAGGTCTTATGTGGAATTTAGGGGCATTATTATCAGTTATTACAGTTCTAGTTTTATCAACGTTTTTACCCTCAGATTTACTTTGGAGAATTTCATTAGCTTTAGGCTCACTTCCAGCATTAATTGTAATTTATGCAAGAAGAAAATTTCCAGAAACTCCGAGATATTTACTTTACATTAAGGGAGATTTAAAGAGTTTAAATAAGTTTTATGATATAAAATTAACTGAAACTCCTCAAAGTAACGTAAACTGGAGTATACTAATAATACCTCTTATCTTAGCTTCAGCAACCTGGTATCTTTTTGATGTATCAGCTTATGCTGGAGTGTTCTTTGGGCCAAACGTTATAGCAAAAAGTATTGGGGTAAATGGAATTATATTTGAGTTAATAGTTTTAACAATATTTGCTATTCCCGGTAACGTTATAAGCGCATTTTTTGCTGATAGAGCTGGAAGAAAACCACTGCAAACAATAGGATTTTTAGGTATGGGAGTCTTTATTATAGCCTTTGCGATTATAGGTAGTAAATTAGCATTACCTCTTTATGGTATTTATAGCCTGATGGCTCAAGTAGGTCCAGGAACAATAGTTGGGTTTTGGGGAGTAGAACTTTTCCCTACTATGATTCGTAGTATAACTAGTGCCATTACAGTTATGTCAGGAAGATTAGGAGTAATAACTACCGCGCTATTATTTCCTTTAATTATCCATTCTTATGGAGTACAAAGTACTTTAATTGTCTTAGGAATACTAAGTCTGATTGCGTCGGCTTTAACTCTTTTCTTAAGGGAAACTAAAGATAAGAGTTTAGACGAATTGGAGTTATTGAGAGAAAAAGTTTAGAAAGTTTTCATATGCGGATTTAAAACATTAGCTTGAAATTTTTATTTTTAAGGTTCTTAAAAATTAAGTATTAAATATTGATTTGCTTAATAGTAAGTTATAATTATTTTTCCCAATAAAACTAAATAACTTATAATTTCTCTATCTTTATTTCAGTATACTTATATTTTGGAGCTCCAGATTCATCTAAATCGTCACATACTACGTAATTAACCTTAGGATCGTGCATATACATCATTGCGACTCCCTTTGGGACTTCATTAGAAATTTTAACCTTAAAATTCATTTTTCCGCAATTTGATATTACGCTAACTTCTTCACTATCCCTTATCTTTAGTTCCGTAGCATCATCACTACTAATATATATAGGGGTACTATACACTCCAAATCCTGGTATCCTTCCAGTAACTACGTCAGTATTATATCTTGTTACATTTCTTACTGTTATTAATATCATTCCATTTTTAACTTCATGTTGTTCTCTGAAAATGAATCTAGCTTTTCCATCCTCAGTATTGAATTTTTCCTCATATAATGAAACTTCATGATTAGGATATCTTGAATTAGACGAATAGTCCATTATTTCGTCAAGGGAAAGATTAGAGTACGTTGGACTTACTTTCTTCATTTCTTCAAAAACTTCTTTAGGATCAGAATTAAAGGAATATCCAAATCCTTCAGCTAATTCTTTTAATATTTCGTAGTCCGGTTTAGCTTCTCCTGGCGGATCTATGGCTTTGAATCTCCATTTTACTAATCTATCTAAATTTGCTACAGATCCTTCCTTTTCTACCCATAAGGCAGCTGGTAAAACGTAATCTGCTATTTTAGCAGTTTCAGTCATAAAAGGATCAATGACAACTAAGAGATCTAAGCTTCTTAGTTTTCTTTCAACTTTTTCTCTATTAGGCATACTAATTAAAGGATTATAACCCATGAATATTATCGCTCTTATTTTATCTTAACAAGGGGGCGTTCAGTAATAAATATTTTGGTTGAACTTCAAGCATAATGTCAACTAAGGTTGCCACGTGTACCTTTCAATCCACGTGGCGATTTGGGGAGGATCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAATTATTCTAGCCAATTTCCTGGCTAAAGCAGTGTACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAAAACAAGCTGCGCAAGTACTTATTACCCTTCTTCGGTATTCCCTTACAGTAGCTTTACCGCTCCTCTCATTGGGTCTAAACCGCAGATACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCTCCAACAATGCCTATTATTATTCCCGAAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTGATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTTCCAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAAGCATTTCCTTGCTTATTTTTTCCTCGTCACTGACTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTCAAGGTCTTTTAGGAAGATATATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTGTAGTAAAAATCTGTTTTCTTTCCTCTCAAGTCCTTCTCCTTCCATAGTATATTTGGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGAGTATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGTTACTAGATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATAGCCCCCTTTGTAAAACTTATATACTTCTTTTTCAAATATTCTATTATGTCCGACGTAGGGTTACGCTTCAGAGCGTACACTAACGAACAAACATTGAGGGCGTTAAAAGCCCAGTTGAGGTTAGCGTCAGAAGTGTATAACACCCTACGTTGGACAGACATCTATTTTCATGAGAGAGATGGAAAAGGACTCACTAAGACGGAGTTGAGGCAACTAGCCCTTGACCTGAGAAAACAGGATGAACAATATCAACATCTATATTCCCAAACACTGCAGCAGATTGCAGACAGATTCTACGACGCTAGACAGAGGTTCTTCGATGGGTTAGCACGTTTCCCAAAGGAAAAGAAAGCACACAAGTGGTACTCACTAGTATACCCTCAATCAGGTTGGAAAGTCCTGAAGGTGAGAGAAATAAGGACGAAGAGCAAGAAGAACAAGAAGAAGGTAATAACGCTTCAGCTGTCAAACCTAGGGATCTTCAACGTTATTGTCCATAGGGACTTCCCGCTGGAAAAAGTAAAGAGGGTAGTAATCAAGTTAACACCATCAGGCAGAGTTTACATTACTTTCGTTGTGGATCAAGAGTATCCTCAACTCCCCAAGACAAACAAAGTTGTTGCTGTGGATGTAGGCGTAGAGAAACTTCTCACTACCTCTGACGGGGAATATGTCCCCAACCAGAGACCTTATGAGAAGGCACTCAACAAGATGAAGAAGCTTCATAAAGCTCTCTCACGGAAGAAGTTCTTGTCACACAACTGGTTTAAGGCAAAGATTAAGCTTGCAAGGGCTCACGAACACTTGAAGAACCTTAGGAAGGACATGTACATGAAACTTGGTAAGTATTTTGCTGAGCATTATGATGTTCTCGTAATGGAGGACATTCGCGTTAAGCAAATTGTTGGTAAGTCTCTCAGAAGGCTGAGGATGAGGTTACACGATGTTGCTATTCATGAGCTTAGGAGTATCATGGAGTATCAACTTGGGAAGTACGGTAAGAAACTCACTCTAGTGGATCCTGCTTTTACTTCAATGACTTGTGCTAGGTGCGGACATGTTAAGAAAGATTTGACGTTGGCTGATCGTGTGTTTGTCTGTCCCAAGTGCGGTTGGGTCGCTGATCGTGATTATAATGCTTCCCTCAACATCCTAAGAAGATCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGTCCGTTAGGGCGCGGTAGTTCACTGTCTCGCAATAAAGCGTTTGTAACTGATAATCCAGGGTTAGTTGGAGGCTTAAATTTCCATATTTTAAGGAGTTTTTGTGCATTTTCTTCGTTCATTGCTCCGTTTGGAAAGACGTTTGGCTTTACAATATCTCCTGCTCCTTGAACGTTAGTCTGTCCTCTAAATACTAGAAGTCCACCATATTTTCCTATATTTCCTGTAAGTAATGCTAAATCTATGTAAGATCTAACGCCGTCAACTCCTGAAGATTGAGTTAAACCTAATCCCCAAGCGAATATAACTCCTTTTTGAGAAATTAATTTAGCAAAATTTTCTATATCTTCTTTTAATATTCCAGTAATCTTTTCAGCATAATCCAAAGTATATTTTGATACTCCTTTAGCATACTCATTAAATCCAACTGTTCTTTCTTTAATGAATTTCTCGTCAATTAAAGAATTTTCAATTAAATAATTTCCTACTGCATTAAATAATGCTATGTCAGTTCCAGGCTTTGGTCTTAAATGAACATCCGCAAACTTTGAAGTGCCGTTTATTCTAGGATCTATCACGACGATTTTAGTTCCTTTAATTTTTGCTTCTGTCAAATATTGGGATAACACTGGGTGACTTCCAGTGACGGATTCTCCAGTTATCACTACTACTTTCATTTTAGGAATCATTTCTGCAGAAATTGAAGAAGCTCCTATTCCAACCATTTCCTTTAATGCCATAGCTGAAGGCTCGTGACATACTCTAGCACAAGAATCTACGTTATTTGTTCCTATAGCTCTTGCTAACTTTTGCATTAAATAATTTTCTTCTAGAGTATTTTGACATCCACCGTAAAAAGCTATTGAATCTTTACCGTATTGAATAATTTCCTTAATTTTATTAACAATATCATTTATTGCCTCTTCCCACGATATTCTTATGTGTTCTCCTTTAATTTTCTTTAGAGGATAAGTTACTCTATCCCAAGAGTAAACAGGCTCAAAGGATAATGTTCCTTTTCCACATAAATGTCCTTTACTTAATACATGTTCTTTAGATGGAGATAGTCTAACAATTGACGAGTCTACGTAAAGTTCTACTCCACAGCCTACACCACAGAATGGACAGATACTTTTAACGATTTCCATTGTGTTAGATTAGTACTTATGATAAAAAGGATTAATGAGAATAAGCTTTGAAAGAATCGTTTTACATTGAAAAAGAACTTATGTAACTTTAGAAAGGAAAACTAAATATACAGTGAAAGATATTGGAGAATATTCACGTATCTTATTTAATATAGTACATTTGACATTTGAATGATTTTTCTAGTAGTTTATAAGATGTTTAATTCTAATTTTAGAGTATAAATAATGATTATTTAATGATGTATGTTGGAAAAATAGTCAAGACTGTCTGTATTTAGCAGGACGTGTATAATAAGCATGTGAAGGTAAAGCGAACTAATTAATAATATGTGATAAGAATAATGGAAAAAGAAAGAAAAAGGATTTATGAACATAGGTATTATAGAATTAAGTCTTTAGGTTAAAGGTCCTTACTCTTCTATAATTGACTTTTATACACTTATGTTTCTTTTTCAATTTATGCTATTTCTATAACCTTAGAATATTTTGAGTATTCTTTAAATCCTTCTGAATCAGTTACATGAATTTCAACAGGTGCATCGAAAGGTAGACCGTAAATATCGAAAGCTCTTAACATTATTGCCCGTTTAAAACTTCTCTTATCTTTAACATCTGTAACTATTAATACATCAATATCACTTAACACGGTAACTCTATCTTCAGCTACACCGCCAAAGACGAATACTCTTGACCTTGGGTCAAGGTCTTTGGAAGCCTTTGCTATAGCTTCAGCGTATTCCATCCATTTTCTTAAGTGTTGGAATTTTCTCTTAACCCAACTTGACATTTTTATTCAACTCCTCAAGGAGTTGGATTAGGTCTGAGACTAGCTTGATAATATCTACAGCTAAATTAGGTTCGTAATAGCCTTCTTCTCCATATCTACTTTCAGTATAACTTTCTTCTAAAATAATTAGTTTCTCCCTATTTTGAGTAACAAAATCTTTTATCTTCTTGGACTCTTTTTCAAAATGGTTATTATCAAGCTCTGTTATTAGTTGCCCTAACAAACCCCTTAGTTGGTGTCCCCTTATTTTCTCTCCAAATAGTTCGTAATAAATTGCTTTAATGTATAGTTGTGCTGCTTGTTCAGAAAGAAATAAGCTCCAATTGATGTCTTTCGAAATCTTAGCTAATTCCAATGCGTTCAAAGCTCTCTCCTTAAGTATCCTAACGTAATTACCGCTCATGATGTGTAGTTTACTTTCTCTTATTAAAAATTTTAATCTTGATTGTTTTGACAATGTTTTATTAAAAAAATTCTCTTTAAAATCCTGATAGGTTAAGGATTCTTGAAACAATGAATAAGAAAATGATTAACAATAAATATTCTCTAACAAAGTCAAAGGATTAATGAGAATAAGCTTTGAAAGAATCGTTTTACATTGAAAAAGAACTTATATTTCAAAATTCATAAACAAAAAATTTGAAGGCTATATTCTAAAAATATTAAACTACACAAAAAAATTTTTATGGAAAATGATATTTTGTATATTTATCCATTAATAATGTCTTTTTGTTATACGCTTAAAAATTTTAAAACTTTTATGAATTGTTATTATTTAATTTTAGTTTTTTATAAGTCGGACTTAAATAGACAAAGCTTTGTCAATAATTTAAATGAAATACACTAAATTACCTTCAAAATTTATTAAAGTAGTAGTGTTTTTATCAACTATAGGTTTAATTATAGAAGCTTATGACTTCTTCTCTATAGGGATAATTTCAACAGCAATATGGCCATATGTTTTCTTTAAGGGAGTATCAAGTAGCGCAATAGCTTTTTCAATATTTGCTTATGCTACAATACTTATAGGTAGACCAGTAGGAGGGGCAATCTTTGGACATTTTGGAGATAAGATAGGAAGAAAATTCTCAATGTTCTGGAGTCTTTTCTTGTCTGGTATAGCAATGCTTTTGGTAGCATTAATACCTCCAATAGGAATAATAGCAATTCTTCTAATAGCTATTCTTAGATTCGCTCAAGGTTTAGGATTAGGAGGAGACGGTGGAAGTTCTATAGTTTTGAGTTTTGAATATGCTAATAAAGGAGATAAAACTGGATACTTCATGTCCTTTCCAATGGCTGCAGCCATACTAGGAATACTCTTAGGTCTAGTGGGAGTAATTTTATCAGAAAACTTGGAAAGTAAGATATTTCTACTTTCATATGGTTGGAGAATATTGATAGGCATAGGATCTATAGCTCTAATGGTTTCCGCTTATTTAAGAATGAAAGTTGTTGAAAGTTTAGACTTTAAGGAGTTATCAAGAGAAGGAAATGTAGATCCTAGTCCTATAAAATCTGCATTTAAAACATGTTGGAAGAAAATTGTACTACTAACTTTAGGTATGGCATATTTTCCAGTAATGTTAAACTTTGTTCTTTATCCATATTCAATAGAACTTTACACTAAGTTAGGTTTTGTTGAAAAACAAGTAATGATGGTATTTCTTGTTGGATCAATAATAGCCTTCGCTTTTACTCTTCTAGGTGGTTACTTAGGTGATAAATACGGATGGAAAAAAATAGTGTTAATTTCAGCAATTGGTAGCTTAGTGACTTTGCCTATTTTACTTTTGCATAACCTCCTTGGATTAATACCATTGTATGTTTTGTCATCATTAGGTTGGGGAGCTATGGGTATGTACGCTTCGGAATTCATAGTAAAATTAAGGAATACGAGTGCTGGGACAGTATTTGGTCTTATTGGCCTCTTCCCTGCAGTATTATTACTAGTCGTGTTACCTCTGTCTATAACTATTTACGGTATAGTAGGATCTTTCATGCCTATAATGACTATTAGCGAAGCAATTACAGTCATTTCAATAGTTTCAATATTTACATTAATGAGAGGTAACAAAAATGAAGGAAGTATCTCTTAATGTCTCCCACGAATTGGACGTAGTTCTTTCTCTTTTTTCTGACCCTGAGTTTTCTTTGCCTAGAATAATGCCTGGCTATGAAAGTCACACTGGTAAAGATAACTTTCAAGTAATTGGAGTAGTAGGAATGTTTCCATATATAATGGAAGGTAGAATATTTAGAGGTTCCTCAATAAAGTACGTATTTAGAATGATAGACGGATTAAAGGGAGCAGGAAATATTGATATCTCAGGAATTGAAAGTAAACTGAAGTTTATTATAGACTACGACGGCGATGCTAAGTCACAATTCGAATCTTCCTTCGAAAAAGGAATTAAAAAGATCTCTAAAAGTATAAACGAGGACATTAGATTGGAAAGAATAAAAAGAAAAATATGATTTTTTCTCAGTCTAAAACTTATTAACTTTTTATCAAACTATTTCCCATGGATTATTTTACTGGAAACGTAAAGGATACTCCTTCCTCAGAAGTTAAAATAGGTAACTCTAAAAATACTTTTATCCAATGGTTAGTTACAAAGGATCATGGTACGTCCTACGCATTAAGGAGATTTATAGTTAAACCTAAAGGTCAAATTCAAATGCATTACCATGAGTATTATGAGAGTCTATATATAATTAAAGGTCAATGTAAAGTATGTGTAGGAAAAGAAACTAGACGGCTAAATCCAGGAGATTTCATTTTCATAAATTCGAAGGTTAAACATGCTATAGTGAACGAGGGTGATGAAGATTTAGAATTTCTTTGCGTAATAAATTATGCAGATGATATGAAAATAATTCCATTAGACGAGGAATGTTAAAAAAATTAACTTAATTGTGTTATTAAAGAGAATAATATATCTCTTTCAGTTACTATTCCTTCCAATTTTTCATCTACTACTGGTAAAGTTCCTATGTTTTTATCTCTCATGATTTTGGCAGCCTCGGAAATACTAGTATATTTGGAAACTGTTATAGGATTCCTAGTTCCTGCGTCCAAAACCTTTCCTGATACTCCTTTTCTAGATACGTATTTTACTATATCTGCTGCTGTAACTATGCCTATTAGTTTACCTCCTTCAGTAACTGGTAATCTTCTTAAATTGTTTCTAAACATTATAGTAGACGCAGAAAGTAGATCAACGCATTTGTCTGCAGTAATTATTCTTTTAGACATTACTGATTCTACGAAACCTGGGATCTGAATTTTAGAAGCTAAATTTACAGCTTCTCTTTCCGTAAATATTCCAAGGATTACGTTTTTATCTATAACTGGTACTCCTCCTATATTGTTAGCAATCATTTTTCTTATAACGTAACCTACTTCGTCTTCAGGAGATACTGCTATTAAATCTTCGCTCATTAGGTCGGAAGCCCTTAAGTTAAATAAGGATTCACCATATTCAGAAAGAGCTGCGATTATGCTTCTCGTAGTAATTACGCTTATTGGCTTATCTTTATCCATTACTATTACTCTACCAGATTTTTCTCTGGAGAGAACATCAAGTAATTCTTTCATTGGAGTCTCAATATTAACCGTAACAACGACTTTATTCATTAATTCTTCGACTTTCATATATATAATTATAGATTTTTACATTTTAAAACTTTGTATCGAATTCGTTCTTTTCTATTCTAAGCCCAAGTTTATTAGCTATCTCTAAATCTGCCAATATTACCTCAAACTCTGGAGATTGAATGATATACGAACCTATCATCTCTTCATCATATTTGGTGTTGGATTTTAGAACATAAACTCTAGCCTTTCTTTCCGGCCATTTAATCTTATTTACGTCTACTAATTCAGTAGTTATTTTGGCTTTAGGCAGAATTTCCTTAAGCAAGTCCTCATTTACTTTTGCATTAATTTCTTCAAGTTCCTTAAGAGTACTGAAATTCTTATCTTTAAATATAGAAATTAGTTTATCATTTATTAATTGAGTAACTCCTTCATGATTTTTTATAACCGAATAAGTTAATTTCATTGCAGCACAATCAGTATGAGGTAAATAAACAACTTCTTCAGGGTTTAATTTCTTAAGTATATCTTTAATTTCAAATATGTTTGCTCCAGCATTCCTTATGATTAAAGAATCTTTTTTAGATTTATTTATAACTTCTTGAGTTAATCTGTAATCCATGCAGGAAATAACGACTTGCATGATACTAACTATAATTTCCAGTATAAATTTTTTAAGTAATTTAAGTAGTATGAAATAAGAAGTAATAGTTCCAACAAATTATGAGAATCTATTTAATAATGTATATCGTAATTAGGAATAGCTTATGAATATAGAAAAAATAAATTCAATTTTATGTAGTTTATATAACGGAAGAATTCTAAATGCTATTACTAACATTAACATATTTATTGATATTACTTTTCATTGATAGCAAAAAATTAACTAGTTTCTGATATTCTCTCTCAGTCGATAAATATATATCATTATTCATACTCTATTCAGTTATATTGTTCTTAAGTAATTAAAACTTTATCCAATAAAAATATATTTATTAACAAAAGAATTCAGTCCTCATTTGCTTGGATGGAAATTTTTAATACGCCGTTTGATAATTTTATCTCATGAATATGCAAATCTCTAATTCATTAAATGGTAATTTTGCTAATAATTTACCTTCACAAGAACAAGTTATTATCCAACAACTTATTTATCCTTATATTGCTTTAGATAACGAGTCTGGGATAATAATAAGATTTAGTGATAATTGGAGTAAAGTAGAATATCATGAAGGAAAGATAGTAATATATCGTGATGAAGACGGGAAAATAAGTATTATAGAGGCAGAATACGATGATGAGAAATAAAGGGATCCAATATCAACAATATGAAGTAATTAACGTAGAGCCATTAATAATCAAGTTTTACGTTAAGGATGAAAATATTACTTTAATGTTATATATGATTCCTCAAGTAGTGGAAATTGAAGACAATAAGGTTGTTTCAGTGGTTAGTACGTCTGCTTTATCAATATTTTCCGATAAGCCTAAAATGGGCGAATTATGTAGTCCTCAGAAATTAAATAGTCGTACTCCTGTAATTCCAGAATATGATATAGCAAGTGAGGGAACTACAGAAATTAAGGTAAACGATAAAAAGGTTAAAATCAGAGCAAAAATAACAAATATCAACGTTTACCCAGATTTAAGGGATAGTTTTGGAAACCCTTGTGTGAATGTATCATGGATTCAATCGATAGATGTAGAATAGATTGCAAGTTCGTTAAAAGTGAGGCTAAAAGGGCATTTTTAGAGGAAAGACTAAAAGACTTATCCCAGTATAAGGAAGAAATATGTAAAGCGTTAAATGATGTATGTAATAGTAAAGTAAATTTTTCTTGCTTACAATGTTTTGATAAAGTTTCCAATAAATATAGTTCTGGAGAATGTAAAAAATCTTGCGATGAAAAATTTAGATTCTCCTTTTGTTTCAAACTTACACAAGATTTGATATTTAATGTTATAGCTGAGAAAGATGGAAATACGATAATTGTAACTTTCTATCCTTTTTCATTTCAAAAGGCAACAACGCTGGAAGAAAAATGTGATAACGTAATTAATTCGATCTAGGATTTCAAGCCTAAGATATAAATAAATGAAAAACACTATTAAAGCTGATACATAATTATTTCAGATTATGATAATAATCGATATTAAGCTTTAAAATTAAATCACTCATAATTATAACTATGGATATAGAAAAAATAATAGAGGAAGGATATAAGAAATCAGATAATGAATTAGAAGACTATTTTAGAAAATTATATAAAGAATTTAATAATAATCCTAGAATTGTTTATGAATATGCCAACGTATTGGATTACTTAGGAAAAGAGAAAGAAGCAATACCGTTGTACAAGGAAGCCTTAAGGAAAGGTCTATCTGGAAAATACTTAGATATGTGTTTAATTCAGTTAGCGAGCTCCTTACGTTTAGTGGGAAATTTAAATGAAAGTTATGAAATTTTATCTAATTTATATAATAAAACTAAAGAACCTTCTTCCCTTCTATTCCTTTCCCTTACACTATTTAGTTTAAACAAAATCAAAGACGCTTATTGCTTAATGTTTAAGTATATTTTGGAGAAAAACGAAGGTTTCCTTGAAGATTACAGAAGAGCTTTAACGCAATATATTAACGAAATATGCAAAAGTTAAGAAAATTTTAAGAGTTATTTCAAAGTGCCGATTTTAGTACGAGAGAGAAACTCTCATTAACATGATAGTAAAAATATGTTATATGATAGAAACACGTCAGCTTTTCAAAATTTATAAAGACGGGACTACGGCACTCAACGGACTTGACCTTAAGCTTTCCTCAAAAATTTCATGTGTTCTAGGTAGAAACGGTGCTGGTAAAACTACATTATTGAGAATACTTTCAACACAACTTTTGCCAACCAAGGGTAAAGCATTCGTTAATGGATTTGACGTAGTAAAAGAAGCTAAGAAGGTTAGGAAAACAATATGTAGTATTCCTCAAGAAGCAGGAACTGCGGGAATGCCAAGTCCTTTGGAGCATCTTGTAATGTATTTAACTGCCAGAGGTTTTTCAATTTCCGAAGCCTTTAACGTTTCAAAGAAAGTACTTAAGGATATAGGATTAGGAAAAGTTATGAATAAGCCTACAGACGAACTTTCAGGAGGAATGAAAAGAAAAGTATTTGTAGCAATGGCTCTAGCATCAAATGCTGACCTAGTATTTTTGGACGAACCTACTACAGGTTTAGATCCCCTTTCTAGACTTGAAGTATGGTCTGCAATCAGATCTATGGATTCAAAAATTGTTTTAACTACTCATTACATGGAAGAAGCTCAAGAACTTTGTGAGGAAATAGCCATTATAAACAATGGGAAATTGGTAGATAAGGGAACTCCTTCTGAATTACTTTCCTCACTAGAAGGTAAAGTAAGGGTAGAGGGCGTTGGAGACATAAAAATAGGGAACATTAGAATATCCTATATGACTCCTGATGAAGCTAAGAGTTTATTAGGAAAAGTTACAATAAAGCCAATAAGTTTAGAAGACGTTCTTATAACTAAGGGGTTGTATATTGAAGATTAGGTTTATATTAACCTTTTCGTGGTTTTACGGATTTACAACGTTAATAAGATCTCCAATCTACATTCTTTCGTATCTAGCATTACCTATGTCTTTACTATTTTTCATTTTTTTAATATCTCACGGAGCTCTTTTAAAATTCGGAATTTTAGGAGGTTTAATATCAGTTATAGTTTCTAACGCACTCTCCTTAGTTGGAGATTTTGCCTTTTTTAGACTGCAGCTAAGGCTACAAGATCTTTTAGTAGCTACAGAAATAGGTCCTATAGATTATATTTCTGGATTAGCTATAGGCAATCTTCTATACAGTATACCAGGATTAATAATTTACATAATAATGGGATTGTATTTTAACGTATTTTCTCTCATTCAACTTCCACTTTTAGGATTGGTTCTCGTCCTTTTACTAATGTCTAGCACGGGCTTATCGATAACTTTAGCAAGCTTTCTTAAGCATACAAGGCATTCTTGGGGATTATCTACATTCCTATCTTTACTATTTACCTTATTGCCTCCTCTATATTATCCTTACACTATACTTCCTAAGGTAATTTTAGACGTCCTTTACATTTCGCCATCTACTTCCGCATCAATGATTGCTCAATCTTACTTAGGTTTAGCACCATTTCAATTAACTGCAGTTATAGTGTTTACAATAGAGACTATCTTCTTTAGCGCTTTACCTTTTTATGCCTTAAGGTGGAGGGAAAGCTGAAGCCAATATGAAGGACTTAACAGAGCTTTTAAAAACTTGTAAGATTTTCCAATTTTTAAAAGAGAGTTAAATTGTTCCTAATTTTGTCTTTATCTTTTCAATTAATTCTTTCTCTTCATCTTCTAGTTTCATTGAACTAATAATTTCAATCTCAGTTTTTATTAACTCCTTTATTGAGATTATTGCATCATTTCTGCTATGAAAAGGGCTTATGTCCTTATCTAAGCCATTATATGCATATCTATGAATTCCTAGCATTGCTGTGGTTAAATTGATAATTCCTTTAAAACCAAGATCTTCTAAATCTTGTGATATACCAATCAATCCAGTAGTTGCTGAATAGCCTATTCTTAAGTACCACTTAACTTCATCGTCTTTTCCTTCTCTCTTCTTTTTTTCTATAATCTTGTTAAAATTTGATACAACTAAAGAGCTTAAAAGAGCTTTCCATGAAAGAAAAAGTTTACTTGCTGAATTCCTACTATAACCTTCTTTTAGCATTTCAAGGCTTAAATAAAGCTCTTCTAACGCTTCAAGTAATCTAAGCCTTGAATACTTTTCCGGTTCTCTAGTAAACTTAGGTAATTGCGATTCCACAAAATTCTTTTCTCTTTCCCTTATTTATTCTTGCTACTTTTATCATTAGTTATTATTATCTTAATTGAATATATTGAGATTTATATATAAAATAATATTCTCTAAGACTTTATTACGAAAAATTAGTTATCTAGGTTGTAAAATATTTTTGAGATAATTTCTTTATATATGAATATTAAATTTATCTCTTATGTTCAATAAGCTCTTATTATAGTTTTCCGCATTTAAGAAGACTATAAGATAACTATACTGCTAAAAATTTCACTATATATGAAATTCCATTCTTAATTATACAATAATAAAAGTTATAGGAAAAACTCTTTTACTCTGCGATTTATGGACTCTCATGGACGTAATAGAAGAAATGAAAAAGAAAGGGTTTAAGAAGTTAACAGGTCCTCCAGAAGATTGGCTAAAGACTTTCACTTCAATGGATTGGGGATTTAGAGAAAAAGAGAGACTCAAAAAGGAGTGGGATAAAATAGAGCCAGGTGACATTTTTATTTTTCATTCCATGAAAACTGAAAACTTATCTGCAGACTTTCCAACTGGAATTATAGGAGTTGGTATTATAGGAGAAAAGAGAACTGGAATAGACGAAGAAGCATATTTTGAGGATAAGAGACTAAGGCCTTTAAGGATAGTCTTTAAAGAAATTTGGTGGTTCGGCGATTACGAGAAGATTTCAAAAGAAAAATTTCCTTTAAAAGCTAGAAGGGGAGAGGATTTTCTGATTAAAGAGATTTATTATCTCTTAAGGAATTGCATAACTTTCCAAGAAATGAGAGAACATGACTGTATAATATCTACCCAAGGTGCAATACAAAACGTAAGTAAAGAAAAACAGAATAAGTTAATAGAACTTATAAAGCCTAGATTAAAGGAACCTATCAGGAAATGAATCACTATGCTTTAAGAGCCTACTTCAATCTACATCGTTAGTAGTTCCTGAAAATTCTTATCCTTAATTTCAAAAAACTATTCTTCTTATGACCAGATTTTATATCATAAGGTAAAATATCCTTTAGCTTATCTTTATTTTTGATTATCATATTATATATTTTATCCTTTAATTCTAAATTATCAGACAATATTTTATATCCATAATAGAGCATATGCGATAAATTAACATTATTTTCGTTACACTCTTCCGGTTTCATGACAATAATATCAACTGGAGCGTTAGGCATAGTGCGACTATAAATTTCAATACCTTTATCTTAACAAGGGCGTTCAGTAATAAATATTTCGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGCGATTTGGGGAGGATCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAACTATTCTAGCCAATTTCCTGGCTAAAGCAGTGTACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAAGTAGAACAAGCTGCGCAAGTACTTATTACCCTTCTTCGATATTCCCTTACTTACAGTAGCTTTACCGCTCCTCTCATTGGGTCTAAACCGCAGATACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCTCCAACAATGCCTATTATTATTCCCGAAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTGATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTGTACTCTAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAAGCATTTCCTTGCTTATTTTTTCCTCGTCACTGACTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTCAAGGTCTTTTAGGAAGATATATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTGTGCGTCGTAAAAATCTGTTTTCTTTCCTCTCAAGTCCTTCTCCTTCCATAGTATATTTGGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGAGTATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGTTACTAGATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATAGCCTCCTTTGTAAAACTTATATACTTCTTTTTCAAATACCCTATTAATGTCCGACGTAGGGTTACGCTTTAGAGCGTACACTGACGAACAAACATTGAGGGCGTTAAAAGCCCAGTTGAGGTTAGCGTCAGAAGTGTACAACACTCTACGTTGGGCAGACATCTATTTTCATGAAAGAGACGGAAAAGGACTCACTAAGACGGAGTTGAGGCAACTAGCTCTCGATCTGAGAAAACAGGATGGGCAATATCAACATCTATATTCCCAAACACTGCAGCAGATTGCAGACAGATTCTACGACGCTAGACAGAGGTTCTTCGATGGGTTAGCACGTTACCCAAAGGAAAAGAAAGCACACAAGTGGTACTCCCTCGTCTACCCTCAATCAGGTTGGAAAGTCCTGAAGGTGAGAGAAATAAGGACGAAGAGCAAGAAGAACAAGAAGAAGGTAATAACGCTTCAGCTGTCAAACCTAGGGATCTTCAACGTCGTTGTCCATAGGGACTTCCCGCTAGACAAGGTAAAGAGGGTAGTAATCAAGTTAACACCATCAGGCAGAGTTTACATTACTTTCGTTGTGGATCAAGAGTATCCTCAACTCCCCAAGACAAACAAAGTTGTTGCTGTGGATGTAGGCGTAGAGAAACTTCTCACTACCTCTGACGGGGAATATGTCCCCAACCAGAGACCTTATGAGAAGGCGCTCAACAAGATGAAGAAGCTTCATAAAGCTCTCTCACGGAAGAAGTTCTTGTCACGCAACTGGTTTAAGGCAAAGATTCGTCTAGCGAGGGCTCACGAACACTTGAAGAACCTTAGGAAGGACATGTACATGAAACTTGGTAAGTATTTTGCTGAGCATTATGATGTTCTCGTAATGGAGGATATTCGCGTTAAGCAAATTGTTGGTAAGTCTCTCAGAAGGCTTAGGATGAGGTTACACGATGTTGCTTTTCATGAGCTTAGGAGTATCATGGAGTATCAACTTGGGAAGTACGGTAAGAAACTCACTCTAGTGGATCCTGCTTTTACTTCAATGACTTGTGCTAGGTGCGGACATGTTAAGAAAGATTTGACGTTGGCTGATCGTGTGTTTGTCTGTCCCAAGTGCGGTTGGGTCGCTGATCGTGATTATAATGCTTCCCTCAACATCCTAAGAAGATCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCTCCGTCCGTTAGGGCAGGGTAGTTCACGTAATGGATTTTCACATTCTATGAAAACTATTATATCGAAATCGCTATTAGGTCTATTTTTACCGCTAGCTCTACTGCCAAATAATATAACAGTAGTGTTAGGATAAAGGCCTATTAACTTACCTAGTACTTCGTGAGCTTCTCTCAACTTCATTTCCTTTTCCATTTTACTTTTAAAGTATATTCAAATTTAAAGAATCTAGATTATATCATATGTTTTGTATTATTAAGAAAAAAGATAAGCTATTGTTTTAAATGTCGTTTGACCTTAATAAGTATCATAAAGATAATCATATTATAATACTAATGATCTAGTATCTGTAATTATATTTCTGTTTCTACATATAATGACTAAAATATTTTCTATTTTCCATTATTTTAACGTCCTCAGGGAAAGTTAACATTTTAGAGAACGAAAAAGCATTACTATTTTCTCCAAATTTACTTCCGACCATTTCTAGCGTAATTTTCCTTACTTCTCTTTCGTCCGCTATTCCTATTAGATGTAAATATTCGTGTAATATTACAACGTAAAGATAATCATGAGATTTCTCACTGTCAATAGCTACTCTACTATAAGGTATCTCGTTGACATAAATTACGTTACTTCCTGCTTTAACAAAACCTAAAACTGAAGGATTAAAAGAAGCAAACTGAACATAAGCTTCTGCTCTTTTTCCCATTCTTTTTAAAACGTCGCCTTGAACTTCAATAAGTATAGTATTTGGAGAACTTATCGATGGCATAGTTAATTTTCTCATTACGTATTTTTAACTTTATGGGTTAAGAGGCTTTGTAAAATATTAAAAATTAAGAAAAATTTTTATATTGATTGTTGATATAAAGTTAGATTAAAACCCTTATTGAGAATTATTTGGCAAAATTTTAGAATAATTTATAATATATTTTTATATACTATTATATGGTTTAGAAAAGATTTAATAGTATTTTATTAAAAAGTGTCATAATGATATACAGGGAACATAATAATTTATTTTATAATCAAGATAATAAAGAAGATTCATTTAGCAATTTGAATAGAAAAAGTATAAAACGAATTATATTCGAGATTGCAGTACAGGAAAGATTACTGTTTACTTTAATATTTCAGTTTATTTAAATAATTTGATATAAAATGTTATAACATTGGCACACTTATGAATATCTAAATATAATGATTAAAATGAATGTTTTTCTTAGAGCAGATTATTTCAATTCTAAATGAAACCTTGAATGTCTATAAGATACTATAATTAATCTAAATATTTTTAATATTTTACTATATATAAGAAAATTCTATAGAATATTAAGCTTTTGCCTAATCTTACATTTAAGAAATCAATATTATTTTCACTTTCGCGGAACTCTCCCTCTATTTACATTTTTAATATTCGATTATATATGATATTACACGTCAAAAGAAAATATATGATATCTTTAGGTAAATGGAAAGCTTCTTCCTATATTAACTGCTTAAGAGATTTCTTCAGTTATGATAGAGTAACCATAGACTCTATGGCATTTTTAATTGCTTCAGCCAATGATGATGAACTGGACGTATTTAAGCCTGACACTAATGGTATAATGTATGCAGAAAAACTAGAGGATATAAAAGGTAACTGCGAAAAGTGGATAAAAATTTTCTCTTCATACAAAGATGATATAATAAAAAATACAAGCATGAAATTATGGAAGTTTTATTCTAACAAAAATGTAGTATTTAATGAAGATGAGAAAAGATTACTCACGGATCTAGGTATTAAGATTTAAAGGTTAAGCCTATATTAAAATTTTTACTGAAATACCTAGACACTTCCTTTTTTAGAGATTCGTCATAAACTGCAATATGTATTCTATATCTATCTGGAAGTTTAACAATATCTTCCCTCTCAAATTCTGTATTATTTTGATAAGAGCCTATAGTTCTCTCTATATATATATCACTTCTCTTAGTTTCTATTTCCGTCTTGCCGATTATTATCTTTCCTTCGTACGGAAAAATAATGTCATTGAAAAAATCTTTAGCTACTTTCTCTTGGTCTAATAACTGTATAAGCTGTTCTGCAGTCTTACCTTCTAACGTAGATCTTAAGTAGCGTCGTCTATTAATTATAGCATTATATAACGGCTCGTAGTCATTCTTCTTTACCCTTAAGATACTAATTATCTTATCGTCTGTAAAGTCAATAAATTCTTGAACGTTTGTCGGTATATTGATATCATCATTGGATATTGCATAAGCAATAAAATATGCCATTATTCTATTAAAGATCTCTATTACTACGTGATTATATACCGAACTATACATATGAAACCTTGCTAAGAAGAAGTGTTCCAAATCATCAATTGCTTTAGGCGGGAATATGTAACCATTAGCGCATATTCTCATTTCGTTAATTATTCTCTCAGGATCTATGATTCCAAATTTAGCACCAGAATAGTAAGAATCCCTTTGCAAATAATCCAGTCTATCAGCATCAAGTTCGGAATTGATTATAAGTTTAGCAATCTTAACTACTTCCGAGTTATTGCTAGGCTCTATATTATATACCTTACTCATTAGATCCGCTATATCGTTTTTATTCATTTCTTTCAAAACTCTTATCCCCATCATTTCGTGTAACTTAGCTAAACCCTTGATAAATCCTGTTAATCTTATTAATTGATCGTATTTATTTTTATTTAAATATTTAAGTATTTCAGTTGCAAATTCGAAAGTATGAGAGAACGGAAAATGTCCTATATCATGATACATTGCAAGTTCTAGAATTTTACTCTTATCATCTTGTGTAATGTTATTTAATATCTTATTTAACAACTTTGAAGCTATATATCTCGTTCCTAAGCTATGCTCAAACCTACTATGTCTCATAGATGGAAAAACTAGGTATGCCATACCGTTCTGTATTATATATCTCAATCTTTGAAAATACGGTGAATTAATATAATTCTCATCTATTTCTATTATGCCATAAATAGGATCCCTAATATATTTAACCATGATTCAATATAAAATTAGATTAGTATATATTTTTTCATATACTATGCTTTATTGATGATATTTTTGTTAGTTTGACTAGATTAAAATTATTGTCCTACTCATAAGTATACAAATAATACATCTAATTTATTTTCAAAATTTATCTCATTTACAAATACAATTTAATTTTCTTATTGCGTCTTAGCTGTGATTATCCATGATAAGGAACAATTCAATATTTTATTATCTTGAAGGGCGTAAGGAAAAGGTAAAGTATTGCAGATATTATTCCTAGTAATGCGACGCTACCCCAAAGTATTGTAGGAGTAAATAAGAAGAAGTTCATTAAGTATCCCGAGAAAGAAGATCCAGAAACTCTTCCTAAAGCCGTTACCATGCCGTAAATTCCCATAGACCTTCCCCTAGTATTGTTTTCCGAGAGAGATGACGCAATTGCTTGAGATAATGGGGAAACTATCATTTCTGCCAAAGTTATAAACACCATATCTATAGAAGCCAACACGAAATTTGATACAAAAGCTACGGCAAAATATGATGCAGAATAAATTATCATTCCTAAGGATATCATTTTTGACGTTAATTTTCTTCCTATAAATTCTTGTAAAATTACAATTAAAATACCATTTATCATAAAAAGTAAGCCCACTTGAAAAGTATTAATTTTATCAACTACGTCATAGAATGTAAGTAGAGAAAACCCTAATTGCCCCATAACCATGAAAGTAAGGAACGTAGGAATAAGGAACTTTATGAAGTTTTTATCAGCGTGAAATGATACTTCTATTTTTCCCTTAAAATCTGGAAAATGAAGAAGCAAAGGTATAGAAATCAATGATATTAAAGAAGAAATTAAGAGAATAGGTCTAAAACCTATAAAAGAAAAAATGAATCCTCCAATAACTGGACCCGCAGCCCATCCAGCGTTAATTCCTACTCTAATCCTACTGAACGCTCTAACTAGTCCGCCAAAGCCTCTGTTAAGATCTCCTACTAGGGACGTATTAGCAACATTATAAGCAGAATTAAAGAAAGTTTGTATTAAAATAAGTCCAGCTACTACTAAAGAGTAGTTAATTAAGAAAGCTAGAAATAGTGAGAAGGAGGAAAGGATGGAAGAGAGTATCATGACCCTAACTCGTCCCATAAAATCTGTAAAATATCCCCCCATAATGTATGCAAAAATGCTTACTAATCCCTGAAAAATGTAAAATATTGATATAAATGTAAAGCTAAAGTGATAAACATCGTATAGTGCAAAACCTATAAAAGGCCAAACTATTGACCCACTTAACGCTCTTGCTCCGCCTATAATTGACAGTTTGTTTATCTCTTTCATTCTTTAGTTAGGTATTTTGTTACCTATTTAATGTTAATCCCAAAAGACATCTTTTATTAGAAATATTTTTAATAGTTAATATTTTGTTAAATATAACCCTGATTTTTTTAGAATTCCTTATTTCTTTAATATATGAACTTTAATAAGAATATATCTTGATCAGATTAATATAAGAATATATTTATATATTGGAAAACTGTTTATATTAACCAGTGAACAAGAACGAAAATAGTCCTCTCAGTTGATTCGGAAGAGTTCGGCTTTCATCGTGACTAATAGTCACTTTTCGTGACTATTAATCACTTAGCCTCATCACTCCTTCTCCCTCTCCATGCCGTCTACGGGAGCGGTAGTTAAACCACTCCCTTCGAGGACATGGGGAGTTTCATTGGGTGCCTTCCTCCACCTCGCAACTGCTCATAGACTTCATAGTGGCACCCTCCAATTTAATGTTAACGGAAATATTTATAAATCTTTCCGTAACTAATAACATATGGTTCAAGTTACATTTCACTCAAAGATCTCCTCAATGGGTCATGATAAGTACGGTGACCCGAAATACGCAATATACGTTCCTAAGAGCATTCATGAGAAGATTAAGGGTTTGCTGGATAGGGAGGTGATTATAATTGTCATCCTACCAGATGATGAGGAGTAAATTAATTGGCTCTAAGGAAGCAATTGATAACTTCCAATTCGTGACTATAAATGGTAGGGTTGAGTTTGAAGACGTTGAAAGAATCTCAAGGATTGCTTATTATTACTCAAAGGCTGTAAAGGCTGGGATCAACTTAGCTTTAAAAGGAGTTTCATTAAATGATGCTGTTAAGGAGTTGTATAATATCATCCCTTACGCCTTTTACGCTGAAACGGCTTATAAGCAGGCTTTAGCATTAGTTGAGAATAAAGGGAGTAAGGTTGAGATTAAAAAGAGATGGATCGCTTGTAGGGGGAATAAAGCTGATAATGGTAATAGGGGGATTAAGTTCCACGTTTTTCAAGACCATGTGGAAGTTAGAGTTAAAGACCCATGGAGTAAGTGGGTTCACGGGAAGGCGTACTTCGGCAAGGAGTACTTACCATTACTTTCTGAGCTAGAGGAGTTATCTCGAAGGAAGGAGGAGGGTTACGGTGCTGTAGTAAGTTTCAAGCATTACCCCATGATCCACCTCCAAATCCCACTCTGGTTGTACTTAAAGCACTTCTCTTCACCAAAACCCAAAGGTTACGGTTTGATTGCTGGTTTTGATTTAAACAGTGATAGGTTGAATGTGGTTGTAATTAATAAGGATGGTAAAGTTATTGCCATTAAGACTTTTTGGTATTCAGATGTTACTAGGCCAGGTTTTCCTAAAGGGAAAGCTAGGGCTTTGCGTTTGAATGCTCTTTCACAAGCTCTCATTTTCCTATCAAGGGTTGGCGTTGATTATGTTATCTTTGAGGATTTGTTTCTAGTGAAGAGGAGGAAGTTCACTAGGAGCAAGAGCGGTAATAGGAAGGTTTCACGTTTCGCTAAGAGGCAAATGTTAATTCACGGTGTTATTAAAGCACTTAGGTTAGGTTTCAACGTTATTCTAGTTAATCCTAAGGGTACTACAAATTCTGAGAATCACGATAGGATAATGAGAGAGAAGGGATTCGACAGACACACAGCCTCTGCTTACTTAATAGCATTAAAGGGATTAGAAGTAATTAAAAATAACGAATAGTTACGTAAACGTGTTACAGACAAGATACCCATGTCTATAACTGCAGCAACACACCTTTCTGAAATGCCTGAAGCAGAATTAGTAGAAGTAGTTTATTTAAATGGAGGAATTGCAGCAGTAACTGAAAGAAACAGAATAGCTCCTATTTTAAAGAACGAGAAAGTAAAAGTAGTAGCTTGCGGAACTTCAATGGAAGCAAGAAACATAACAAAAGAAGAACTAGCACCAGGCGTTGTTTACGTTCCGGCTAGTTTAAAAGAAATAATAAAGAGAATTCAAGAAGGATACATATATTTAGTTTTATAATTTTTATTCAAAATTAGATATAAAAGTAAAATTATGATAATTTTTTGGTTTTTTGGTAATAACTTTCATACTTTTATTGAATATGTTAGTATATTACACATTCCTAATCGAGAATTTTGCACTTTAGGTCTCCAATTTATTCCTCTAGGATCCTTTGCTCTAATTAGGATAGTATAGATTCCTTTATTTACTTTCAGAGGAAACTTTACATCAATTATTTTATTCATCTCCCATTTTATTGCATGTATTGTGGATATTCCTTGAAAAACATAATTTTTCGGCAAAACGCCCGCTACTAATTTTCCTAGATCATAGTTCCTTCTTGAAATATTTGATGGATTAGGTTCATCATGAAATATTAGAATATTTTGCGGAATCATTACATTTACTTCTCCTTTAATAGAAAAAATACCGTTCGAAAAATTTGGTTTATTTATCCATTTTATCCACGCTGATACCATAATGATATCGAGAAAAAGATTCCTTTCGTTCCATGCTATTGATATGTCAGCATAATTAAAACATGGATCCAAAAGAGAATCCCTATGTCCCCAATCACTGTCCTCATCATGATATATCATGTTGTATATTAATTGTTTCCCTTGCTTTAATGCTACTACACCATCCTTAAAATAAAGTGAATCTGAATGAGAAAATCCTATAGATTCTTCAGCTCCGTAATAATTTCCAGTAGAAGTGAAATAATATATTGGTATTTTTCCTTCTTTATCGTAATGACTAAAAAGGTTTTCTTTAAGCATGTAATTTACTCTTAAGTTAGCAGTACCAGTATTGGCGTAATTAACTGGAGGAACGCCATTTTCTTTCCTCAGTTTATTAAGGTAATCGAGCAAATTTCTTGTAATCGACATTCTAAAGATATTGATGAAAGTCACTTAAGAAATTACTTTTCTTTCAATTCTTTCGTGGATGAAACATGAAATGTTCTATTTACTGATGGCAATATTGAGTACCCTACTTTCAATTCCTTTTTGGATGAAACGAACTAGCAAATGCAGGAGGGAAATACGACGAAAGACAATACTTTCAATTCCTTTTTGGATGAAACAGGGGGATATATTACTCCCCCATACCAATGATGTTTAAAGTCTTTCAATTCCTTTTTGGATGAAACGAGGCTAGGAAGGTCATGTCGTATCACCTACAAGTCGCGAATCTTTCAATTCCTTTTTGGATGAAACGTTTGTATTCTGACACCCATTTTTCCCCGTTAAACTTCTTTCAATTCCTTTTTGGATGAAACATTATAAAATTCCAGAAGATGAATAGTAGACCGTCAAAGCCTTTCAATTCCTTTTTGGATGAAACTAGGCCTTTGAGGTCTGCTTTGCTTATTTCATGATTATTTAATCTTTCAATTCCTTTTTGGATGAAACCCGTATCATTATATACGTCAGTTAGAAACTCAAATGAATTACTTTCAATTCCTTTTTGGATGAAACTCACCTCTTGGGTGGATAGAAGGAGCAATCACAGGCGCAATTTCTCTTTCAATTCCTTTTTGGATGAAACAAACTATATTTCTCCATCAGTTGTTATAATGTAATAAATACTTTCAATTCCTTTTTGGATGAAACAATAATAATCCGCGTAGATGCTTAGATCTCGGGCTAAATCACTTTCAATTCCTTTTTGGATGAAACTTGACCGATGAAGATAAAGCGAAGTTCAGGGAGAAATTAAACTTTCAATTCCTTTTTGGATGAAACATATCTTTTATATTACAATTCATAATAACAAAATCTCAATACTTTCAATTCCTTTTTGGATGAAACTTTGAGCTAATTTTATCGAATTCTCAAGTTTTGCTTGTCCCCTTTCAATTCCTTTTTGGATGAAACAGTGCAAATTTAATTTCTAGTTTGGTATTAAGCAGTTTTTTACTTTCAATTCCTTTTTGGATGAAACACTACAACATAATCAAAATCCAATTCTTCTAAATAATTCTTTCAATTCCTTTTTGGATGAAACATTTTGTAAAATAGATATTATTTTATCTTTATTTTCAATAACTTTCAATTCCTTTTTGGATGAAACCGTAGTAAAGATTAAAGGGTTCGGGCTCGGTAAAGCTCTTTCAATTCCTTTTTGGATGAAACACATACGGAATTACCCGACGTTGGTGACACGATAGTAGAAAACTTTCAATTCCTTTTTGGATGAAACATATCTTTTATATTACAATTCATAATAACAAAATCTCAATACTTTCAATTCCTTTTTGGATGAAACTTTGAGCTAATTTTATCGAATTCTCAAGTTTTGCTTGTCCCCTTTCAATTCCTTTTTGGATGAAACAGTGCAAATTTAATTTCTAGTTTGGTATTAAGCAGTTTTTTACTTTCAATTCCTTTTTGGATGAAACACTACAACATAATCAAAATCCAATTCTTCTAAATAATTCTTTCAATTCCTTTTTGGATGAAACATTTTGTAAAATAGATATTATTTTATCTTTATTTTCAATAACTTTCAATTCCTTTTTGGATGAAACCGTAGTAAAGATTAAAGGGTTCGGGCTCGGTAAAGCTCTTTCAATTCCTTTTTGGATGAAACACATACGGAATTACCCGACGTTGGTGACACGATAGTAGAAAACTTTCAATTCCTTTTTGGATGAAACATATCTTTTATATTACAATTCATAATAACAAAATCTCAATACTTTCAATTCCTTTTTGGATGAAACTTTGAGCTAATTTTATCGAATTCTCAAGTTTTGCTTGTCCCCTTTCAATTCCTTTTTGGATGAAACAGTGCAAATTTAATTTCTAGTTTGGTATTAAGCAGTTTTTTACTTTCAATTCCTTTTTGGATGAAACACTACAACATAATCAAAATCCAATTCTTCTAAATAATTCTTTCAATTCCTTTTTGGATGAAACATTTTGTAAAATAGATATTATTTTATCTTTATTTTCAATAACTTTCAATTCCTTTTTGGATGAAACCGTAGTAAAGATTAAAGGGTTCGGGCTCGGTAAAGCTCTTTCAATTCCTTTTTGGATGAAACACATACGGAATTACCCGACGTTGGTGACACGATAGTAGAAAACTTTCAATTCCTTTTTGGATGAAACTGATGGATTTATATTCTGATTTATATATTCTGAACAATAGACTTATAAACTTTTCCTTTATCTCCTTTCTTCTTCATGCGAACTAATTCGTTGTAATGATCTGACGTCGTTCTGTTCGCATGGTCCGCTCGTGAAATTGAATGAATAGACAGCCTTTTAAACGTTCAATCTACACGTCTGATTTCGTCTTGTACGCATTGTAGCTCGAACTTTTACGTTTTTAATCTTCATGTTCACCTCCTACCTAGTAATGATAGTATTACAAAATTGTGATCCTTCTTTTTTCAACATGACAGATTAATGTTTAATTCTTCTCGTTATGTTCTTATCTTTTCAAGAGTTTAAGGAGGAAAATAAGGGTGATAATGAACATTTTTTCTCTTTTGTTTCCCTTTTTCTATCATCTTTTTATGGTATTCCCTTATTTTTCATTTTTTCTCTTTTTTCTCTCATCATTCTCATGAGAATTGTATAGACTATTGTCTGTAAATTTATTGAAAATGATCATCATAAAGTAATTTTTTCTCACCAACTTTTTCTCTATTTTCATTTTTTCTTTCTGTTTTATCTTGGAAATTTACTTTCAAGAAATAAAATGATTCTTCTCCCTAAAAAAGTATATAATGATAATTATAAATTACCATGTTAGTTATTAGCTAATTATAATCTAATAATTAATAATATTCTAAATTCTAAAATAATCTAAGTACTATTAATTTTAATCTCATCTTTGGTAAAAAACATAGCAGTGACAATTATTACGAAAAGTCCTCCTACCCCCAATATGATCGAAATATTCCCTTTTGTTATAAAACCTAATATTAGCATTACAAATCCTATTGTTTCTATCACTATAAAAGGGAGTCTCATAAAAAATAGAATTATCCTTTTAAAATAAATTTATTCGTAACTATAATCTTTCAATTAAATATTTTGATCTTGAAAAACTGATAATGGAATAGGAAAAGCTCTTCACAAGTAAGATATAAAAGTGGTTTTCCTTTATTTTATTCATGGCAAAGTTAGTCTCTACATTAGGCACGTCGCCTGGCGGTATATTTGAAACATATATGAATTTAAGAGAAGGCAATTACGAAGGAGATGACGTTAAGCCCATAGATATTAAGGAAGTCTATGTTATAAGGACATCTGATAAGTCTGTTGAGTTTGCGTGGAAGCTAATTAAGGCAATATTTTCGTGTTGTAAAAGGGAAGAGGTTACAATTTCTGATATTCCTCTTACAATGCAGGATATTAATAGTTCTGAGGATTTTAAGAAATTTAGAAAAGAGATTTTCTCAAGGTTAAATGTAGGAGATTACGTTGATTTTACAGGAGGAAGAAAAGCTATGAGTGTGGCTGCAGCTTTGGCTGCTAGGGAAGTTAAAGCACACGTAATAACTACAATTATTCCTCAAAACGAATATAATAGGATCTCAGAGATTATAAGAGGGTTAAAAACTATGGAAGATCTAGTAGATAGAGCAGGGAGAGGAGACTGTGAGACAATAAAGGAATCAATATGTAAATTAGTCTCCCCCGAAGCTAAGACTATTATGCTTATTTAATTGTGTTTCAAGATATATTTTATCTATGATTATTTTTAAAATAAGAAATTTATCGGTTCTCTGTCAATCGTAATTGTTTCTCAGATTTATAATTAAAATATTTTAGATAATAGTAAAATATTCTATATAATGGCAAATTATATTAGTAAACAGAATGATGTTTTTATAGATCTTTTTTTTAAAATTCTTATTTATAATTCAAAGAAACAATGAATTCTTTGACATACTAATCATATGAGAGAAAACTTTATTGGGGGAAGTGATACACATGTATATTTCTTCTTATTGAATTTAAACATCGTAACGCTGAACCAAATTATTTTTAGTGTAAAATAATTAGCTTTTCATGTGTCATCATATCAAAACACCGTGATTTTATGCAAAAGATCTTTAAATTATCTAAAGATTTCGAAGGAATCCTTTAATGATGGACTGTATGACGTTTCTTCTACAAACTGTCAAATTTCTGCTGACCTTCTCATAAAATCAACTTATATCTTTCTAGGATGCTCCTTCCCTCAGACTCATAATATTAGAAAATTACTTTCTGGGCTAGCCGAGTTAATTCCGAAAAATTAAAAATTTTGTAAAAGAGAAAAGAAAGGATTTAAACTTAGTAGAGCTGAATAGGTTTGAGGGACAATATTCGCTAGTATAGACGCAGAAACTGCATTGGACTGTTTAGATACTGTAGAAAAATATCTTCTTCCATTAATAAAAAGCGTATGGGATGATAAATGGTGTGGGGATTAGAATATATTAAATATTTTGAAAATAATTGGTTCAAGATAGCTGAGAGAGTGAAAGAAGTAGCAGAAAATTTAGGAAAAGTTGATAAGGTAATAGTATTTGGCTCAGTCATTAAGGGTAAAGTTACTGGAAGTAGTGACTTAGATATAGAAGTATTTTATGATGAAAGACTTACTGATAAAGAGAAAATAAGGAGAACATTAGAAATACTGAATATAGTAGACGAGGAAATTGTTGATATAAATTTGCAAGTACTGACTAAAGATGATGAAGACTTCTTCTTAAATAAATTCGTTGATAAATATGTGGAAATCATTTAATCTAAATATCTATTGAGGAATGCGCTTTAGTAGACTAGCATTTCTGGGAAGTTCTTAGACTAGGATTTAACGGTAAGTCCTTATAAAAGCTATAAACTTTCTGAAAGCATTAGTGTAGATTAGTTGAATTTTCTTAGATCTTAAGTTAAAGGAGAGATACAAAATTCTAAATCTAACGTAAGATTAAAAGTAAGTTATACATTCTCTATAAGAAAATTTTAGAGATCTACAAAGGACTCAAATAGATTTCCAAGAATAGTTTAATCTCTTCCTCAAGTAAAAGATATTAAAATTAAGAGATTATATATTCATATTATGTCAAATCTATGCATCAGCGACTTGCAAAGATATTGTTCTCATCCAGATAAGCAATTAAAAGATCATCTAAGAGAAGTAGGCGAATTAGCTAAACAGAACGCTATTGAAAGCGGTAGAAAAGATATTGCAGACTTTGCGTATATTGCGGGCTCCTTACACGACATAGGTAAATATACGAAGAATTTTCAAATTCATCTTAGAGGTAAGAAGAGAGTAGAATGTTCTGATCATGCTTTAGTTTCTTCACTTATTGCTTACGATGAAGCCAGAACCTTAATTTCAAACCGCAAAGACGAGTTTAATGACGAGATTTCCCAACAAATTTATCCATTACTAACAATGATAGCCGTGATATCTCACCACGGAGAATTAAAAGGACTATGTACTCTTAAGCTCACTTTACAAAAGAAAAATGAAGAAATAGAAATAGGTGATAGTTGTCTTTTCCAACAAATAGACGAATTGAAGAGTAAATGGGACACTATTAAATCCGAGCTTACAGGAACAAATTTAACTCTAAATACACCTTCCTTAAATCTCTTAAAAGAAGCCCGAAAATCTATATTTAACGTGGAGAACTACTTGAATAATCTAGTATCAAACAAGAATTATACGTGGAAGTGGTATTATGAAGGATTATTACTCTTTTCTAGTCTCATTGACGCAGATAAACATAGTGCATCTAATACTCAATATTTACATGTATCTTCACCACTTGTAGATAAATTAATAGACTATGCAAATACATTGCCTAAGTTAGGCAGAGTATATCAAATGAGATCACAGCTATTTAGTTTTGCCTTAAATTACTCTCCTAGAGAGAGTATATTATTCCTAAACTCGCCTACTGGTAGTGGTAAAACAATCTCTGGTAGCATTATAGGATTAAAACATTCTAAGAAGAGGCTAATATATTCCTTACCCTTTATAAATATAATTGAACAAACTTATGACGTACTTTCAAAGGTTTATGGACAGGACGTTCTTAAATACCATCATCTGACATATCCATCAAATGAAAATGAGTACACTGATATGGAAAAGAAATTGATTACTGCAGAAAGTTGGGATTCTCCAATAGTAGTAACTACATTTGAGGCTTTAGTAGATACTTTATTTTCTCCTAAAAATGCTTACCTCAAGAGATTACATAACTTAGCTAACTCTTTTTTAATTCTTGATGAAATACAGTCAATGGGAATTGAAGAACTGTATATTGTGAAAGAATCATTGGAGGAAGCAGTAAAACAACTCAATACTAACGTCCTTTTCATGACTGCTACTAATCCGTTCTGGCAAGGTGTAAGACCAGTAACAGCTACTCCAAATAGATACAAAGTAAAAGTAATGCTTGATGACATTGTAACACCGGAAAAGTTTGTAGAAAATATAAATACTCAAAACGATGTTATGATTGAATTTAACACTATAGGTTCTGCTGAAATAGGTTTCAATACACTCAAACAATCATTAAACAAAAAAATATACTACCTATCGACCAGGGTAATCCCTAAACATAGGCTAAAGAGAGTTAAGGATATAGCAAAGAAAATGGGAAGCGGCGTAGTGTTAGTTACAACCCAACTTGTAGAGGCAGGAGTAGACTTAGACTTCACTGAAGCTTATAGAGATTTAGGACCAATAGATTCTATAATACAAGCAGCTGGAAGAGTCAACAGAAATTGGCTAAGAGATCAAGGATTATTAACTGTAATGCGTGTAAAGAGAGAGGGTGGATTAACAGACTTCGCAAAGATTTACGGTAAATTAACTGAAGAGATAACAGAAGAAACTTTACGAAATTTTGGTAAAAAAGAATTTAATGAAAATGATGTAGACTCACTGTTAAATTCTTATTACAGTGTATTAAGGCAGAGGTTTAAACCAGAAAACTCTAAGAAGAGAAACGTAATCTTAACTAATGTAACTCGATTGGAGTTCGACAAAGTAAAATTAAAGTTAATACAAGAAGAACCTAAATATATTGTTTTCATAAAATATGACGATGAAGCAGAAAAAGTATACGAAGAACTTAAAGCCGCTTTAAAATCACAGGGATTTGACAAAAGAGCTAAAGTAAAGAAGGCTATGGCTAAAGCTGAAAATTATATAGTAAAAGTATGGGAACAACCATCAACATTACCTATTGACGAAAACTTAGAATGGTACATTGTGGAAAGAGATCAAGTAGACGAGTATTATGATAATAATACAGGATTTAAAAACAATAATACAAATGCGCTAATATGGTAACTACAAAATATATTTACAATAATATGGGTTACTACAAAATATTAATAGCTGCTGCTGTATTCATACTATCACTATAGTTTCAAGTCCTCTAAGGATTTCTACAAATGGGTATAGGAATTCCTATGCTATCCTTCTTAGTAGGGTCAAGTTTCAAGTCCTCTAAGGATTTCTACAAATTTTCACTAGTCACTTTCTAGTTTGACGTTCTCTGTTGGTTTCAAGTCCTCTAAGGATTTCTACAAATAATATTACAAAAGTGATAAAAAATATGCAGAAAAAAGTTTCAAGTCCTCTAAGGATTTCTACAAATGAAATGAAGTAGACCACGTTATTCCATTCCACATCAAATGTTTCAAGTCCTCTAAGGATTTCTACAAATACCGCTTTGTAGCGTTATGTAGCCCGACACTTGAATTAGTTTCAAGTCCTCTAAGGATTTCTACAAATTATAATATTTTCAGAACTTTTAGAATCATACAATTTGTTTCAAGTCCTCTAAGGATTTCTACAAATAATGTTTTTTGTTGCTTTTCAAAATTATTTCTTGTGTTTCAAGTCCTCTAAGGATTTCTACAAATCCGAGAATGTGAAGATATGGAACTTTTCTTTTTAAAGTTTCAAGTCCTCTAAGGATTTCTACAAATCCCTTAGTAATGCCCTTTATCCAATTAAGACAGGAATGTTTCAAGTCCTCTAAGGATTTCTACAAATTCTTATAATTATTATGCTTTTCCTCCTTTAGACGGAGTTTCAAGTCCTCTAAGGATTTCTACAAATAAAATCCAGTAAGACGCGTCTTCTAAAACTGAGAACAGGTTTCAAGTCCTCTAAGGATTTCTACAAATGAAACACGGTGAGTAAAAGAAACTATTTGAATGTTCGTTTCAAGTCCTCTAAGGATTTCTACAAATCCGCCTTACTGGTTTTTGGAGTATTACACTGAAGTGTAGTTTCAAGTCCTCTAAGGATTTCTACAAATTGTGTGTAGGCATAAACTGTTATCCAAAAAAGGAAAGTTTCAAGTCCTCTAAGGATTTCTACAAATATGCGGGATATCGTACAATACCAGGCAGGGTTGAGTTTCAAGTCCTCTAAGGATTTCTACAAATGGAGTCATAGAGAGCGACCAGAGCGAGACAATAAGATGTTTCAAGTCCTCTAAGGATTTCTACAAATACGATTACGTGCCTCGTCCAGGTAGGCGTTAACGCGTGTTTCAAGTCCTCTAAGGATTTCTACAAATATAATACTAGTATTTTTTTCTAATTAGTTTGGTATAGAGTTTCAAGTCCTCTAAGGATTTCTACAAATCAACACCATAAACTTTCCTAGCCAATTTTTGAGCATGTTTCAAGTCCTCTAAGGATTTCTACAAATATTAATGGAAAAAGCAAAACAAGAAGGAGAAGTTTATGGTTTCAAGTCCTCTAAGGATTTCTACAAATCCTATTATTTCCAGTTTGGTACATGAGCTATATTTTCGGTTTCAAGTCCTCTAAGGATTTCTACAAATTTAAGACCGCGTTTTCCAAATGCAAGAAGTACTTGGAGTTTCAAGTCCTCTAAGGATTTCTACAAATAAATGCAGTCTTCATTTTCTATCACGTCGATACCTGGTTTCAAGTCCTCTAAGGATTTCTACAAATACAGATTTGTTAATACTGTTTCCATCAACGCGGTAGGTTTCAAGTCCTCTAAGGATTTCTACAAATCCATTCGCTTTCACTAAAATTGATCTTGTTTCAAGATCTTCTAGTTTCAAGTCCTCTAAGGATTTCTACAAATAGAAATGGATTAAGAGATGCATATAGCGGTGTCAGAAAGTTTCAAGTCCTCTAAGGATTTCTACAAATTTCTCATTTTTTGCACAAATTACGCAAGATGACAGATGTTTCAAGTCCTCTAAGGATTTCTACAAATGGGTCTTATTTTTCATTATTTTTTGTCCTTATAAGCTTTGTTAATTTTCGGCAGTTTTTGTTTTCCTTATATTTCTCTTAGATTGCCGATGATTTTTTACGTAAATTAAATATGTTTTAGTATGAATATTTTTCCTTTCCCTTAGACAGCCGATTTCATATCCTACCAGATAAAATGAATAAAAATAAAAATAGAGAAATAATATATAATACTGATCATCTTCTTATGTCAATAAAAGGCTATAATGTTTATGTATTATTAATTAAAGTTCTTATCATTAAGCGGAATGAAAAATGATATAAAAATTTCCTAGAAGTACTACCGTTTAACGATTTAAGGACTTTTTCCTAATCGTGGAACGTTCTCATAATCCCAAGTTAAGCTAACACTTTTCAATACTAGTTCAAGCCATCTAATACGCGATGGGGAAAACTTAAATGAAGATGAAAGACTTTGCCATTATTGTTACTTAAAGAGAATATTATAAATTAAAAACAAATTAGGAATCTACTGAAAAATTCGCTTTTTACGACAAAAAGATTTAGAATTATTGTCATCTACGATAGATATAGCCAAAATAGATCTTTAGAAAGATATATTCCAAGCAGTTTTACGGAAATTTCTCATACTTAATTATTTTCATTCTATCATGTAATAAAATAAAGTTTATCCATTCTAAGCGAAGATATTTTAGACTTTATGGCAAATTATTTAATTTCTCTTCCATTATATTAAATTATTTTTCACATCCCGTAATATCGTAGGGATTTTCGTAGAAAGTTTACTTATAGTTTTAAGGAAAACGACATATCTAAGCTATTCAAAATTTTCTACATGTTAGGACAAAATTTTTTCCTTAAAATCTTAGAAAATATTGAATTCTGACTCTACAACTTTACAGTCCACTTTTAAAATATTATTTTCAAAATTTTATAATAGGCAGATTATTATGTATGTTATTCTTGTTTACGATTTTGATGAGAAGAGGGTCGTGAAAGCACTTAATATTTGCAGAAAATATCTAACATGGATACAGAGATCGGTTTTTGAGGGAGAACTTACTGAAGGCAATTTATATTTATTAAAAAACGAGTTAAAGAAGATAATGAAGGAGAACGACTCTGTGATAATATTTAAATTGGAAGGAAAGTTCATGGTAAATAAAGAGATAATGGGCAAAAAAATTAGCGATAATAATATACTATAGACAGAATATATATAATATTGATCAATATACTATTGTAGAAATTAGTTAATTTATAGTTAAGTACTTTGTTATATTCTTTCTCAGATGTAAGGCCAATAAGATTTTCTGGATTCAACATCAATTGAAAGAAAAACTTAATGCTAATTTAATAAACATTTAAGTTGCTTTTCAAATTAACTTTGTTTTTATAATATTATAGAAAATATTATAAACTTAAGTTCTTAAATATATTATTATTGCCGTCATAATTTAATAGGATATTTAGCTCATATGAGTTAATTATTTCAATTTGAAATTGGAGCCGTAAATTATCCAGCTATCAAGATTTCATTATTTTACTATTAATACATATCGTTATTTACTCATATAAAAATGATATTTAGATGTGTTAAACGGTATTTTATATATGAAAAATAATATATTTTGAGATAGTAATTAAGCAATAGACTACATGAACTTTAATACTTTCTCACGGTTCTTTAGTTCATTTTCATATTAAGATTTTTGTTAATGATACTTATTTTTATTCATTTTATCTGGTAGGATATGAAATCGGCTGTCTAAGGGAAAGGAAAAATATTCATACTAAAACATATTTAATTTACGTAAAAAATCATCGGCAATCTAAGAGAAATATAAGGAAAACAAAAACTGCCGAAAATTAACAAAGCTTATAAGGACAAAAAATAATGAAAAATAAGACCCATTTGTAGAAATCCTTAGAGGACTTGAAACCTCACAATATAACATATGTCAAAACTCATATTTAAAGATTTGTAGAAATCCTTAGAGGACTTGAAACTCGCGTCGCCGTTAGGGTGAAAACATGGCTAAAGTAAAGAATTTGTAGAAATCCTTAGAGGACTTGAAACAAGAGGCGGAAGAAATGAAATATGAACAATTAATAACAACATTTGTAGAAATCCTTAGAGGACTTGAAACCAAGATAACGGAATAGACGTAGAACCGTTCATGAGTTATTTGTAGAAATCCTTAGAGGACTTGAAACCTTTTTTAGAAAAAAATTCACCAAAACTTGATGCTGATTTGTAGAAATCCTTAGAGGACTTGAAACAAATTTGTTTCACAACCGTCATAAAAATCGTCAAGAATTTGTAGAAATCCTTAGAGGACTTGAAACATCACTAAGCTTTAGTTCTTGTAATACATCTTCAATAAATTTGTAGAAATCCTTAGAGGACTTGAAACGATTCTACTTAAAAAATCTTCAAATTCTCCTAATATATTTGTAGAAATCCTTAGAGGACTTGAAACGGAATACCGTTTACAATTTTGACTATATCTGAAAATATTTGTAGAAATCCTTAGAGGACTTGAAACACAAATCTATTTTCGACCATAATCTTATTTTTATTTGATTTGTAGAAATCCTTAGAGGACTTGAAACCACCTGCGAGCTTGTAAATCGTAGGAATGATGTCGAGATTTGTAGAAACCCTTAGAGGACTTGAAACTCAACGTGACCTGGCGACGTATTATATCCCGCATAAAATTTGTAGAAATCCTTAGAGGACTTGAAACTAATGATAATAATGACAAGTAGAGGGTGAGAGAATGAGCTATTTGTAGAAATCCTTAGAGGACTTGAAACTAGTATGACGTTGGAAGACGTGTTCTACTGGATTCATTTGTAGAAATCCTTAGAGGACTTGAAACCGACTTTAAGAACGGTACAAAAACGCTAATGTTGTAATTTGTAGAAATCCTTAGAGGACTTGAAACAAAAGAGAAAAAGAAAAATAAAAAGAGAAATGAAATTTGTAGAAATCCTTAGAGGACTTGAAACAAATATAGAATAAATATTCCATTAAGATAATAAAATTTGTAGAAATCCTTAGAGGACTTGAAACAACGTATATAAAAGCTTTTGCTTTTATTTCAATTTAATTTGTAGAAATCCTTAGAGGACTTGAAACAATATTGTAAATAAGTACTTATTAAAAGATATAATAAAATTTGTAGAAATCCTTAGAGGACTTGAAACTATAGTTATGCAATATAGAAGTTATAATTTAATAATATTTGTAGAAATCCTTAGAGGACTTGAAACCAAATATAGCAATAATATTTTTTCGGCATTCATATCACAATTTGTAGAAATCCTTAGAGGACTTGAAACGAAAATATGGATATCCACTTTCATGCCCTATGCGGGATTTGTAGAAATCCTTAGAGGACTTGAAACCCGCTGTAGCAACTGAGTTTCCGCTGAGAAGGAGGGAATTTGTAGAAATCCTTAGAGGACTTGAAACCCCAACCCATAGGGAACCAAGGTATTTCGATCAGCATTTGTAGAAATCCTTAGAGGACTTGAAACACGAGTTCGGTAGTGAGAAGAGATGGGTGGTCTCAATTTGTAGAAATCCTTAGAGGACTTGAAACCGTCACCAGGTGTAGTCGATAAAATTTCACCAACAACGAATTTGTAGAAATCCTTAGAGGACTTGAAACCATCTGCACAAAACAATTATGAATGTCAATAAAAACATTTGTAGAAATCCTTAGAGGACTTGAAACGAATATTCAATATATCATGTTCACCATGCCAAAAACATTTGTAGAAATCCTTAGAGGACTTGAAACCCTCATTCGTATCCATTTTAATTGACACACTATAGATTTGTAGAAATCCTTAGAGGACTTGAAACTAGAAATCAATAGCTTCATCTATGTCCTGGATTGGAATTTGTAGAAATCCTTAGAGGACTTGAAACTCAACATCATTCACGGTGACTCCAACATGAGCCTATGATTTGTAGAAATCCTTAGAGGACTTGAAACACGAAATGCTACGGTACCTAATAAGGAAGGAGTACGAAATTTGTAGAAATCCTTAGAGGACTTGAAACTCGCGTTATCGCTCCAACTCTACCTCTTCAATAAGGAAATTTGTAGAAATCCTTAGAGGACTTGAAACTTGATGATGATGTTTTGCCTAACAAAATTCCTACGAAAATTTGTAGAAATCCTTAGAGGACTTGAAACTTTTTTTCTCGTGTTCTATCGTAACGTTTTGTTCCATATTTGTAGAAATCCTTAGAGGACTTGAAACTATCTATTTCGATCTTTTTCCTTACATCTCTTGTTTCTATTTGTAGAAATCCTTAGAGGACTTGAAACTTAACACAGGGAAAGAGTAGAATCAAATTAATTCAAAATTTGTAGAAATCCTTAGAGGACTTGAAACATATAATCTGTTGGTCTTAATCCTTCATTTTCGTAAAAATTTGTAGAAATCCTTAGAGGACTTGAAACACTATGAACTATTCTTCAATTAGGAATGTGGCAGATGAATTTGTAGAAATCCTTAGAGGACTTGAAACTTAGAGATAGTATAAACATCGATTGTATCCAAAATCAATTTGTAGAAATCCTTAGAGGACTTGAAACTTTTCATTAGGAGAAAGAGCTTTCTGTAGAGAGAGAAATTTGTAGAAATCCTTAGAGGACTTGAAACTTAATTCCCTTTTTTCATAAAAAATATTTTTATATATTTGTAGAAATCCTTAGAGGACTTGAAACTAAAAGAACAATTGGAAAACTTTTTGATAGATTCAAATTTGTAGAAATCCTTAGAGGACTTGAAACAACTAGAGAACCATGAGAGTTGTAACATTTAAAGCAGAAGAAGATTTGTAGAAATCCTTAGAGGACTTGAAACCAAATAGTTTCAGTCTGGATACAAAAAAGTTTTTAAAATTTGTAGAAATCCTTAGAGGACTTGAAACATTTTTTTACGCAATTTACAGAAAATGATAGATATTTGTAGAAATCCTTAGAGGACTTGAAACGTTAGCTAAATGCTAAGCAAATTCTCTGGATTGAATATTTGTAGAAATCCTTAGAGGACTTGAAACTTTTTTATACACATTTTTTATCAGTTTTGTAATAATTTGTAGAAATCCTTAGAGGACTTGAAACAGTTAGTGCAAAGGATAGGAAGAGTAATGAGACCAGATTTGTAGAAATCCTTAGAGGACTTGAAACTTTCCATCAGCAGCAAATGTAATAACTGGTTGTATATAAATTTGTAGAAATCCTTAGAGGACTTGAAACTATCCTAATTCCTGTAATGTCTTCAGATTCTTCATCATATATTTGTAGAAATCCTTAGAGGACTTGAAACTAGCTCTACTAAAAATGTGTTATTGTATTCAATATCCTTCTATAATGTTTTTCTTAAATCTCTTTTTCTTTATCAGTTATATTTACTAGTAAGAATGGAAAGATCGTATTTAATACAGTCCTAGTAAAAGAAAAAATTTAATATATTTTGCATATTATAATTTATATAATGTCTGACAAACCGTTAGAGCCTTATAAGATAGCGGATGATGTTTACGTAACGGGTACACTAATATGGTATCTTCATATTTGTCCTAGGGAAGTTTGGTTAATGAGCAGGCATATCATACCCTACCAAGATAATAAGAGACTTGAATACGGTAGAGCTATTCATAAGATACATTCTGATGAGACTTTTCTCATTATGGAAGGTATGAGAGTCGACACTTATAAGAAGGAAACAGGGGTAGTAGTTGAAATTAAAAGTTCATCAAAGCACTTAGAATCAGCCAAAGCTCAGTTGAGTTATTACCTTTACAGACTTAGAGAAAAGGGCTTAAATGCCGTAGGAGTTATTAATGTACCTGAAGAAAATATTGAGGAGACTCTAGAGAACATAGATGAGGGGAAAGTCTTAGAAGACATAGATAACGTTAAAGAAATAGTAAAGATGGAATATCCACCTAAAAAAGTTAGGATTAAGTTCTGTAGGAAATGCGCTTATAAGGATTTTTGTTGGCCAGTAGGGGAATGAAGAACGTCAAAGAGGATTTTTATAACTACTCCAGGCACATTGAAGAGGAAAAATAATACAATAGCTCTAATAACTAAAGAGGGTACTAAGTATGTTCCTGTAAATCAAGTAAAGCGTCTGTATGTTTTCAGTGAAGTGAATATTAATAAGAGATTTTTACATTTTGTTAGTAAGTACGGGATTCCTGTGCATTTCTTCTCTAAACAGAGGAGATATATAGGTTCTTTCTTGCCTAGGAAAACTAACCTATCAGGTCATGTTTTGGTAAAACAAGTCGAAACTTATTTAAATACACAAAAGAGACTATATTTGGCAAAGACGTTCGTAGAAGGATCAATAAGGAATATGAGTCTAATATTAAGGGAGAACGGTGTCGATAATTCAAATGTAAAAGCTGGACTTACTAAGCTAAAGCAAGCAAATAGTGTTCAAGAGGTGATGGGTGTAGAAGGTACAGCAAGATTAGAATATTATAAAGGTATAGATAGCATACTTCACGGCTCTTTCATAAAGAGAACTAAGAGACCTCCAGAGAACTGGGCAAACTCTTTGATGAGTTTAGGTAATATGATGTTCTATGCTGAAGTGCTTGGAGAAATATATCAAACGCAATTGGATCCTAGAATAGGTTATTTACATAGTACTAATCTGAGGAAGTTTTCTCTAAATCTCGATATTGCAGATATATTTAAACCGTTAATAGTAGATAGGCTAATAATTGCTATGATTAATAAGAAAGAAATTACGGAGAAGGATTTTGAGGCTAATGGATTAAAGTTAAGCGATGATAGTCTAAGAAAGTTTGTTAAAAAATTTGATGAAAAAATGGAAACTAAAGTTAACGTAGGAAAGAGAAGAGTGACTTACTCTACTATTGTCAGAATGGAAGCTTACAAGGTTGAAAAATTCGTCTTGAGTGATGAAGAGTATAGGCCTTATGTGGGAAGATGATATATAATAAGATTTCTTATCTATTAAATTTTTGACTATGTTAATTTTCGTTTGAAAGATATTATTTGATAATAAATTGAATTAAAACAATTGATAAAAACGATCTATAAATAAGAAAATCTTACAAGTGAGTATTAAGCTAAAAGTTTAGATATACAAATTATTATTCTGCGCTTTCTTCTTGATTAGCTGTAGGTTGTTTTGTCTGAGGCTCGCCGTGCATTATAAACTGTTTTGTCTGATAAGAGTAGCCTAAGAGTATATGAAACACATTAGCGGCTGTGTCCCATAAATCATTAGGATTCTTCTTTATTGATTCTAATGCTTCAGCAAATAGGGATTCCGTAGTAGAATTTAATTGTCTGTAATCTCTTAATGACTCATGTAATCTATTGGCGTAAGTTACGATGTCATCAATGTCCATACCTTCGTAGTCGATTCTATTTAAAATAGCCTTCTTATCGTCTCCCTTATTATGTTGTTCTTTTCCTACATATGCAGTTAATACACCTAGTAAGAATAGTCCCTTTAGTCCCCCCTTAATTCCCAAACTGCCAATATAACTATCTATATTGCTCACTTTTGTTCTCTCCATATTTAATGTATCTTCTCCCATGATACCTAATTGTCTCATAACATATATAAAGATTTCTTGATATAGTAGGAGGTCTTCAAGTGAGAATCTTGTCAGACTATTGCTACAAGTATCATATCGCAAGCATCTAATTACAGAGAGAAATGAATTGTAAACGTAGTTTGGGTCTAATTTATTTCCTAATAATATTGCTTCAAGGAAATCCAAGAATACACTTGGATCTATTCCTTTACTCAGTTCTCTAACAGGTAAAATACCGTAGAGCGTAGAAAATGACACATCTTTGAGATCTATTTTATTATCATATGTTGCAGAGACTATCGCTTTTCCCCTACCTGCTAATCTCATTACGTGTACTAGCCTAGGTACTCCAACTTCTGGTATTATTCTCCAAAGTCTAAATTTATTTTGTTGCTTCTGACCGAACACTAGATCAAGTCTAACTTCCACTCCTTCAAACTCCATTATATCCAACGTTTCTCTTTCCCCCTTCTCTATTTCTCTTAACCCTTCAAGTATGTAACTACCATCTTGGTCTGTCTTAAACCTTTGTAGAAAAGTTACATCTGCTTTAGGTGGCAAGTCTGGGATAACATAAGCGTTAAGTTTGCCTATTCTAACAGATAAATTTTGTTCAACATAATTATTACCTAGTTCTAATTTATGTCTACAGGACGGGCAAATTGTATGAGACTCGAGAATATCGCCGAAATTTGAGAGAAATCCTTTTTTATCGACTATAAATATTTTTAACATAGAACCGCCTGTATAGTCAGGATTAGGGAGTACATTATCTGAACCGCAAAATTGACATTTACCCTTTACAGTAGTCATACCTTCTACTAATGAGGTTCTATAATCTGGGAGAGTAGCTATATCTATTTCCTTACCATTTTTATCTATTATTCTGACAGTATATAAGTCACAATCCCAATCTAAATTATCTACTTTTACATCTGGTGAATACCAGCTTAATACTTCGTTCAAAAGTTTCCCAGTTTCACTGTTACTTAATTTATCTGCTATGACCTTCAAAGCGAATTTATTGTTTCTTACTTTCGTGCTATCTTTTTTGTATCCTAAGATATATTCTAGGTTTCCAGTAGTAATCCTATCTTGAGGTTTCTGTGCTTTTGCATTACCTATATGGGCATATTTTTCCTCATCTCCTTCAGCTAATTTTTCCTTCTTTATATATACACTTTTTGATCTATTATCAAAAACAACTAAGCCAAGCGTAGCATCTTTTTTATCTATTGCTACTATTGGTAAAGTAACTGAGCCCTCTGTTTTCCCTATTTGCAACTCACCTATTCTTAGTAAGGAATGAAACATAAAGTAGTATATGAATTATATATAAATAAGTATTTTGTTGTTCTAAATGTGACAGTATTTGAGCTAAAATATTTTCATGTATACTAACTTTTATCTTCTTACTTAAAGATTTGGAAATTAGGTTTTCAGGATTTGTATTATAACACGAAATTCCATGAGTATTAGAAGAAAATATAGTTAGGAACTAATATTGAGTAAGTTATCTTTTCTCCAAGAGTCTTTCTCTTCTTAACTGCATTAAAATATAAAGCACAGTAATATTTATTAATGTTATTGAGATAATATTTTTGATATTTCATGTCAAAGAATGATTCGAACTTAACCACGAATTCAGAATACCTTATAATTTATGAAGTAAAGAACGCTAATCCTAATGGAGATCCAGATGATGAGAATAGACCTAGAATGGATCCTAAGACTAAAATAAATTATGTTTCCGATGTTAGGTTAAAACGATTCTTTAGAGATTACATAATAGCAAAATATGGAACCGATTATATTTGGGTAACTAAACTAGATGGAAAAAACGTTGATGCTACTAAAAGGTTAGAAGTCATAGGAAAAGATCCATCATCAGTTTTAACTAAGTGCATAGATGCCAGACTTTTTGGTGCTACTATACCTAAAAAAGGCGGCGAAGGTAAGGGAGAATCCTATGCTTTTACAGGTCCACTGCAATTATCGTGGGGTTATTCTCTACATAAGGTAGATTTAATGGATACAAGATCTATAACATCGCTTTTCTCTGGGAGAGAGACAGGATCAGGAAATATAGGCAAGGATTATAGGGTATACTATTCACTTATAGCCTTTTACGGTGTTTTCAGTTGGAGGAGAAGTAAAGAGACTAAGGTCACTCAAAACGATCTGAAAGTTTTTGATAACTATTTATGGCAGGCTATATTGGAGGAAAGCGTAACTAGGAGTAAGATAGGACATTATCCATTACTTTATTTAAGATTAGAACACAAAGATTCTGATACACTTTTAGGTGATTTAAGGAGGTTTCTAAAAGTAGAACAAAAAACTGAGAACGTGAGAGGTTTGCAAGACCTGAAAATCGATTTAAAAGAATTATCTGAGAAAATAAAAGGTCTCGGAAGTATTTACTTAAGATGTGCAGATGAGCTCTCAGAGGAATGTAAATCTTTAAATGAATTAAAACCTGTTATATTGCCGCATAAAGACGTTAAATTCCCGTGAGGAGTTTTGGAAAAGATTTTATCAATACAAATTTTTAGTAAGCTAGCTCATTTTAGAAAGGTATTCTCTAATTCAACTTCTCTATCTTATTATTTTCCACCTAGAACTACGATAATGGGGATAGTAGCTGCCGCTATGGGTAAGGATAAAGATTCGTATTATGATGAATTAGATAAGTTTAACTATGCTGTTGAGGCGTTGACACCGCTGAAGAAATTAGTTTTTGGAGAGAGTTATCTTGATACTGATTCGGTTAATGTCCAGAGATTTAGAGGGGTAAGTAATAGAGTGCCTACTACAAAAGAATTTATATCTCCGTCAAGGGGAAACTTCTTAGGTTATGATATTTATATCACTTATAATAAGAATATAGAAGAGGCATTTAAGAGGCCGAAGTACCCATTAACTCTGGGAACAGCTGAAATGCTTGCCTGGATTGAAAAGATAGAAATGTTGGAATGTCAGGAAGAGAATGATTTTTCAGATAACGAGGTTTATGGAGTTTTTCCTAGCTCTTTTTCTATTGAAACAGGAAGCGTAATAACATTAGAGTATAGTGTCCCAAGAAGGTATGAGAATGAAAGGATGTCTGGGAAGCTATATGATTATTTCTTCTCTACCAATACTTCCCCAGTGAAAGTTAAAACGGGCAAAGGTAACGGTATAAAATGTAATGAGGGAAAGAAAAATATACTATTTTTATAGACCAAGAATATTTTTATCTCTTTTAGAGTTGAATATATTAAAGCAAAAAAGAATGTGAATACAATGAGGATCTATATTAAAGCCCGTATTTTAGAAGGTTACGTTCCGCTTCATTATAACTATTATTTACAATCTTTCTTTTACAAAAGTTTACCTTCAAAAATGAGGGAGGTATTACACGATCAAGGAATAGAGCAAGGCCCTAGAAGGTTCAAGATGTTTACTTTTTCAAGGCTTTACGGTGATTTTGAAAAGAAAGAAGATAAATTATTCTATAAGGACTATGTTTACTTTGCTTTCTCCTCCGCTTTAGAGTTACCTATTAAATACCTCTATGAATCACTAAAGAACGATCCTACATTCGTTATAGGAAAAGCTAAATTTATAGTCGATAAGATTTTAGTTAAAGATTCATTAGTAGAATTAAATGATTATGATATATTTTACACTCTTTCTCCTGTAGTAGCTACTAAGAAAATGGAAAACGAAAGTAAGTTTTACTTTCCTCACCAGTTAGAGTTCAATTATCTGCTTCAACTTAATGCAAAAAGGAAAGTTTTAGCATTAACAGGGAAGACATTAAAAAGCGATTTAAATATAAGAGTTGAAAGATGGAGAAGGATAGTTGTTAAATATAAAAGAGGTAACATAGAAGGAGTTATAGGAAAGTTTAAGTTAAAAGGCCCATTAACCGTTCTTAAAATAATATATGAGGCTGGATTAGGAGCAAAGAACAGTCAAGGTTTTGGTATGCTAGAATTTGAGGGAACGAGTATAAGAAATATACTTGGTGAATAAAATACAGCATTATCTAGCTTAGAAGTTTACCATTTTGCTAAATTTAGTTCTTTTATCTCTATTAACCATTTCTATTCTATAATATCAAATAGCTTTAATGTTTAATTTTAGTTTGACGTATATTCTGTAGTACAATCTTAATTGCTATTAGCAATTAGAGTGTTTATATAATAGGGACTATAACCAACTATACTATCTGATTAACATGCTTAGTATTCTTACTAAAACAGCTAAATTCTATAAATAACAAATTTGTATGTAAACTTCTGTATAATGATATAACATAAATATTTAGAACACATAACATATAAATTAAAAATAGTGATCCAAAAGAATTCAGAAAATAGAATAAGTTACTTGAGTCATTATTATTTATTTTAGGTTTAGATCTACGATAATCATTAACTTTGACTAATATACCTAATTATACCAAACACTATGATAAGTGCTTTGTGAGTTAGTTCAATATATTTCAATAGAATGATACAGCAAAAAATGTTTTCTCTAGAAAATAATATCTCTCCTAAATAATTTACTATACTACTTCTTGACCTCAAAGCCCTTAGCTCGACCAACAACAAGGTTGGCCATGTACATCATCCAAGCATAAGCCAAACTAGCTTAGCCTCAACAACTTGACCAGCAAAACTCGTAGCCCTAACAGACTCACCAAATGCTTAACCGCTGAGAACAAGGATTCAACCAACCACCTATTACCATAACCCTTCTCATCCCGCCAACGTTCATAACCCAACTTCTTGAACTCGCGCACAGCCTTACGCCTAGCAGGATGACCACGCCTAAAGCGTTCTTCCTAGGAGGAACAACAACATCAACACCAAGATTATAAATCTCGTTAGTATCATAAGCCTTATCGCCATAGAACCTCTTAACTTCCTTACCCTTTTCCTTCAAGTCCTTTACTTTGAAGCAGATTCGGCCTCATTACTCGTCACCTCAGCGCTTACTATCTTGAACTCGTCCTTCTCCATAACTACTTCAATCTTAAGGAATTTTGAATCCCTCCTTTTGCCCCACTTTGCTACTATTGTCCTCCTCTTGTTGTGCTTATTCCAGTACCGTCAGCTATTACTTCAAGTTCGTCACTCGCTTCAGGGAAATTAATATTCATGTTTCTTATCCTTTCCCATATTGTTAATCTAGGCTTGTTGGGATTATCTTCATTTCTGCTAGTGCGCTTAGTACTCCTTCTACTCTGTAGGGTAAGAATAAGTGTAGGAATGCTAGTCGTTGAACTCCTTTGGTGCCTTGTACTTTGTTTTCGCATACCTGTTCTCTTCCTGGAGTAATTCCCACCAGTGTTCGAAGACGTAGAAGGGGAACATTAGCTTATATCTTGTTACCACGTTCTCATCGTACTTGCTCCAATCCCTAGTGTTCTTCTTTTCCATGGGTAATACTCTGCATAATTACTTAAAAATTTTTGTATAATTCTGAAGCGATCCACAACGTACATTATGGAAAAAAATACAATAATAAACCTCAGAACTTCATAGAGTGGATAATTGCTTATGCGGATAAAGCTAGTGCTTCCTCAAGGACTTTCTTACCAAGAAATAAAGAAGTATTTGAAAACTTTCTAGAATTTGCTGAGAAGCTCCAAGAACTTTACGATATAGGCAGTAAGGAGTACATAGAAGAAATAAAAAATAAGGTAGTGGAGAATGAAGAAGATAGCGAAGAGTTGAGGACTTATGGACTCATATCGCCAGATGAGAATAAGGCTATAAGTTTGGCTGAGAAGCTCATAAATGCAGAAAAAGATCTATGTGGAGGAAAGAATCTTTTGGCTTTTTATCATTTTGAAATTCCTAGCATAAAGTCGTATTTAAATAGAGGGAGAGAACTTTCAATTTATGCCGGATACAGTATAATGATAGACTCATTAATACATGATGCCTCAGATTATATTAAATCAAAAATAGGTAAGGAAGTAATTATAAGCGATGAAGGAGGATCTTTGTTGGCTATAGTCCCTTCATCATTTAATTCAAAGGAAATGATTAAGAGCTTAGATCTAAGTCCGTTTGAGACTTATAAGGAGAATTTCATGGAATTTAAGCTTGCAGAGGCTCACTTAGGCCCAGAAGAAAATTGGAAAAATTGGAGATCTGAAGATCCATACTTTAGAGATTCGCTAAGAGGATTTGGCACACTCATAAATAAGTTTCTAAGCTCTCCAGGTAAGATAAATAAAGTTAATAATAATAACGTAATTCCTATTGATAAATTATGTAATAAATGTAAGATAAACTATGCTAAAGACGGAAAAGAATGCGAAAGTTGCAAGAAAGCTGAGCTTTTCTACAAGACCTTTACCTCAATGTCCAGGAACAAGAGTGCCGATCCTCAAATCTCAGAGAAAATTAAAAGATTAAGAATCTATAAACTCGTTGAGGAAATACAGGAAAGAAATGAAGAAAAAATATTAGTAAAAGTATGGGATACTGTAGATGATTTAAACAAGGACTTTAATGGAAATGAAGTAGAATTGAAAAAGAGAAGATACCCTGTGGTGATGGTAGGTGACGGAGACAACTTCGGACAGTTAAAGTCTAGTGTTACTACACTTACACAATACCTGGAAATAAATAGATTCTTTACCTACATGACGTATTATTCAATTTTCTACGCATTAGAGAAAACCGCAATAAACTTCTATAAGCATTTTAGCTCACCCGTAATAGAGTTTCAACCAATATTGCTAGGTGGAGACGACTTTTCATTAATACTCACCTCTCAAGAACTTATTCCTTTCCTATATTATATGGACGAAGCGCTAGTAAAGATTGGTGGAAGAGTTGATAAAGATTCTCAAAAGAACTATGCAGACGCCGCAGAGATGATATCAAGTAAAAAGCCATATCAATGGTTCGGAATTTCAATAGGAGCTTATATTTATAAGAATACCGCGTATCCGATATTCTTAGCTAGAGAAGATGCAGAAGAGTTAGAACACATATCAAAAAACGTGTCTAAAGGAGTATTCCAGGGCAAGTATTTTGGTTCAGAAGTAATAGTCACTATAATGGATGAGAAATCGAAAGGCTTACTCGAGAAAATTAAGGAAAAGAATGGCATATGTATCCTTGGTAACAATATGAGAAACATATATGAGACTATATTAAAGTTTGAAAACTCAGGTATCTCTTCGAAGAAGATCTTGGATTACATTAAACTAGAAGGAGATAAGATAAGAATATTTTATGATGTAGCGAGAAATAACTCAGAGTCATTAGAGATAGTAATGGAGACAATTAGCAATGCTATTAGAAACGGATACGATATAGAAGGTTACCTGGTATTATTAGGCACGCTAATGAGTAGTCTCGAACAGAAAAATTTTGAAGGAAAGGAGTATTATAAGACTCCGTGGGAAAACATAGGGGTGATTCAAAATGAAAGCCTATGAGAATACCTTGAAAGTTAATAACTTACGAGGGCATATTAACAACGCTAGTATAGATAATTATGATGTAGATTTAAGGGCTATGTTGATAGAATACGATGATAAGGTTTATGTAATTCCAGGTTCTAGTATAAGAGGACTTATAAGAAAAAATATGAAGATATTAAATTGCAATACCTCAGTATTAGGCTCTGAATTTGGAGAGAAAAGCGAGATGTCAAAGGTAATAGTAGGTTGGGGGTACATTACCGAAAAGAAAAAGAAGAAAGTGCGGTACGGGATAAAAGTGGATAAAGAAATAGGAATAGTAGAAAAGGGAGCCTTATTCTCTTATGAGATAATACCTTCAAATATAGAAATAAGGTTCGACATAACTCCCTTGGTTGAGCTATCAAAAGAGGAAAGAGAATGCTTAAGTAAGGCCATGCTGTTAATGAAATACTCAACAATAGGTTGGGGAGGAAGTAAAGGAATAGGAATAGTAGAGGAGGTGAGCGTAGATGATGCATTACTTAGTTAAGGTAAAAAATGAAACTCCTTTAGTAATAAACTATTCATCAGGAAATTATTATAGATCTTTAGATTATATCCCTTCTTCAACAATTATTGGGGCCTTGAAGGCTAGAAAGTTAGCACAGGATAAGATATGGGGAGGAGAGGAGAAAAAAGAAGTCGAAATAAACTTGCATGTAACTGACGCTTATCCATCAATTCGTCAAGAAAAGTATCTTAATCCATCATCATTAGTTACATTATATAAGAAAAACGAATCTGACGCTTATTTCTTAGACGGTGTAAAAACAATTATTGAGACTTATCAAGGAAAGAAAAAGTGGGGAGAAGAAATAATAAGACTAAAGAAAGGTCCTAGGAATAGACCAAGTGGACTTAACAAATCGAATTATACGGATAGGGAAGGTGAGTAAAACAAAGAGGGCTTACATAACATTTATCCATAAGACTACCGTAGAGTGGTTAAAGGAAACGTATCTTCCATACCGTGAACAATTTATAAGAAGATATATGAACTCCATTAAGGCTTTTAATGTTAACATAGAGGAATGGAAGTCTAAGCTTTTTCCGTTCGATGAGAACGACATAAGGACTGAGATTAAGATAGCAATGAGGAAAGTGTTAGGGAGAGAATTTCGCTTATACGATTTACGCTCATTCTTTGCCAGTTACATGGTGAAACAAGGGGTTAGCCCCTCGTTGTGAATTTGTTACAAGGTAGAACACCTCCTCAACAGTTTCAAATACTTCAAGAACATTACCTTAACCTATCGGAAAAGGAATTACAAGAGGTATACGATAAATGCGCCCCGAGGCTATTGTAATACGTAATACTAATGAAAGGCTATATCTCACATGTACTTAATTATAATATATAATGAGTTTAAGTTGGAACAGTATAATAAATGGTATAAGGAATGTGTTAGCGACAAGTTATAAGCTAACAAGAACCGGATTTACAGATCTGTACACAGACGCAGCAGCGTTAGGAAGAGAGACTGGAGACTTAATTTTTAAACACAAATTAATACCTTTCTCTCAGGCAATACAAGACGTAGAGAATCAAAGCGTAAAAGAGACACCGATTTTTAGTCCTCTTTCAAACTTAGGTATACGAAAAGGCTCTCAGTTGTTTAATGCTCAATCAAGTCTTACCACGAATTTCATACCTATAATAGGGAGTTTCGGGCATTTAGCCGATCACCCTAATGAGCCTTTGCCTCAAAAGATCTCAGATATAGCCTTTGGTATTCTCGATATACCCGGTGTGATCGAGTTAGCAGATACTTGTAGAGCCATATTAAGAGGGGGCTGATGAGCTAAGCCAATTAGGGAGAATAGCGGAAAGGTTAGGAAAAAGTAAAGCTTTCAATTTCTCTCTACTCGCTATCGGGTTAGGCTCTTCCTTAATTCCAGGCTCTAGAGAAACGCCTTCGAGGACTGCAGTAATTCAAGGTCTTAAGCCAATAATACAAACCATAGGCGTCATGATAGGATTCTGGGTAATGATATATGCTGGTCCTCAATTCGTACCAGTGCTTTTAGGAACTGTAATGAAGTTGCCTCCAACTGTCTACGGTCCATTGGCTCTGTTCATGAACCTAATAGGAATACCCTCAATGGTAATTTCGGGTGCTCTGTCCGACAAGATAGGTAGAAGAAGCATGGAAATAATAGGAGCCATGTCTTCAATAATCGTTTCAGCAATCCTCTACTTGGGCGTACAAGCTGGGTTTCCGTTACTTTACGCTATACTCATATTCGGCTTTGGAATAAATCTACCATCTGCAATATCGCCAGCTTATTTATCGGAGAGGTTCACCACAATTAGCAGAGCAACAGGGGTTGGGTTCTCCTATAATGGGGTATTCATAGTTGCAGGTTTTTCATCTATTTACATTTCGCTGTTAAGCAGAGTTAATTCGCCTTATATATCTGCATTTATAATAGTGACTGCAGGAGCTATCATATCAATTATGTCTCTGCTGGCAGGACCAGAAACGCTAAGGATTCTCAACTTAAGATAGAGCAATCTTAATTTTAATACTTTTATATAAATAACTGGGGATTTCAACGACTTAACATCTTATGTATATTATATATTAAAATCAGATATTTATTAATAACAGTAAGATAATATATAATGTTATACATTTAACAAACTAAGTAATTTAGGAATTAATTTAACGTTTTAGACATCCGTTTATTAGGGTGTTTACCCATGGCGTAACTTATCCTGATTCCGCGACTTGCATTCCTCTTAAGGGATCGTCCATAGTCACCTTCAGATCATTGAGACTAGTCGAGAGAAACACCCTACCTTCTCATGTAACTTTTCACTCCTATCCTCATGATTAGATCCGTCATCAAGCTGAAGATCGTCAAAAGAAAAAAGTATAAGTAATAGTATATAAACGTAGTTTAATCAAAACTAATTTAGAAGTAATTAAAAATAACTAGTAGTTACGTAAAAGAGTTACAGCCTATCATGAAAATAGTGAACTTTAGAATCTTTGTTCTCCCTGGAAGTTAAAGAAGATAGCTAACTAAACCTTTTAAAGAATTAATTTAATTTTATAAATAGTAAAAGTAATGAAGAACTTACTGATAATATGATAAAGGTTAGTATACCGTAAAATATACTTATATTTATAAATAAGCCTATTATTAAAGGTACTATTATAAATATTATATAGTGGAAGAATAAATTTACTGAGTTAACTAAATTCTTCTCCTTAACGTCTTTAAATTCTCTCGCTATAACTAAATTAGATAATGGTAATAATAATCCGTGAGGAATTCCTAAGAGTATAATTCCTATGAGTAAATATATTGGATTTCCAATCATTAAAAGCATAGATCCACCGATTGTTAGTACCATGCTATATAGCTTCATATTTTCTTCATTTGTATTATATTTATAAATAAAATATCTGGATAAGAAGGATACTATAAGATATGTAAAAAAATATAAGAAGCCTAAGGAAACATTAAGATGATAATAATACTTGGCTAACAACGCCAGATAAACGTTAATAAACGCTATAGGTATATCATAAGGCAAGCTAATTAAATTCGCAATCCATAGCTTTCTATTAAACAATACTTTAAGAGATAAGATAAGATTATTACTAGAACTATAGAATTTGTAGTAGTAAAAATATATATTATAAATATTAATCATTGATAATATTATCAACAGTAAGCTAATAACTCCTAAGCGTGTGGATATCGCTTCTAATATAGTGCTAACAACTGCACCTAGACTTAAGCCAATATTATATATTTTAAGTAGCTTGGTGTTAACATTTTGTTCGTTAGCAATGCTGGATGCAATAGTAGTCATGGATGGTATTATAACGCCAAAGGATAGTCCAGCTAAAATTAATGATATAAAGAAAATATTCAAATTATTTATATTAAGCAAAATTAATGATATAGATAGAAACAAGAATGATAAAATCAAGATCTTCTTTGAGTAAATCAGATTAACTGAGAACATAGAAATTATTATTGAGACTAACACTAAAGATTCTGTTAATCCTAAGTCTTCTAGCGGGATATGATATTCAAATTTAGCAATTACTGGAGATAGTGTAAGTATTATATTATTAATTGCCCTTGAGATTAGGGCAGTTATTAACACAGATGTTAAAATGAAAGTGTATTTATTGCCCATAGCTTTTTTTACCTCTAGATGTGTCATATTTTAATATGTATAATTACCGCTTTTGAGGCAGACTTTTTGATAGTAATATCCTTTTGGAATATTATATTCTAATAAATGTAATAACTTATGCAAATAACAAGATCTAATTTTAAGTCCCCTATACGATAATAGATTATTACCTATGATTTCAAATTCGTAAATATTATTTTTAGTATATATTACTAATTTATCACTATCTATATATATATGCTTTGTATCAAGTTCGTATAATCTTTGGAAAATTTTAATCAGATTAAATATATTGATTTTAAATGATTTTTCGCATATATTTATCTCCATTGTTATCCTTAACTAATAATAGAGAAGTTTTTAAGTTTTATCGTTGTTTTTACGTTGTGGATCGCTTCAGAATTATACAAAAATTTTTAAGTAATTATGCAGAGTATTACCCATGGAAAAGAAGAACACTAGGGATTGGAGTACGATGAGAACGTGGTAACAAGATATAAGCTAATGTTCCCCTTCTACGTCTTCGAACACTGGTGGGAATTACTCCAGGAAGAGAACAGGTATGCTAAGACCAAGTACAAGGCACCAAAGGAGTTCAACGACTTCCTAGCATTCCTGCACTTGTTCTTACCCTACAGAGCAATAGAAGGAGTACTAAGCGCACTAGCAGAAATGAAGATAATACCGACAAGCCTAGATTAACAATATGGGAAAGGGTAAGAAACATGAATATTAATTTCCCTGAAGCAAGTGACGAACTTGAAGTAATAGCTGATGGTACTGGAATAAGCACAACAAGAGGAGGACAATACGTAGTAGCAAAGTGGGGCAAAAGGAGGGATTCAAAATTCCTTAAGATTGAAGTAGTTATGGAGAAGGACGAGTTCAAGATAGTAAGCGCTGAGGTGACGAGTAATGAGGCCGAATCTGCTTCAAATACTGTAAAGGACTTGAAGGAAAAGGGTAAGGAAGTTAAGAGGTTCTATGGCGATAAGGCTTATGATACTAACGAGATTTATAATCTTGGTGTTGATGTTGTTGTTCCTCCTAGGAAAGACGCTTCTACTAGGCGTGGTCATCCTGCTAGGCGTAAGGCTGTGCGCGAGTTCAAGAAGTTGGGTTATGAACGTTGGCGGGATGAGAAGGGTTATGGTAATAGGTGGTTGGTTGAATCCTTGTTCTCAGCGGTTAAGCGTACTTTTGGTGAGTCTGTTAGGGCTACGAGTTTTGCTGGTCAAGTTGTTGAGGCTAAGCTCAAGTTTTGGGCTTATGCTTGGATGATGTACATGGCCAACCTTGTTGTTGGTCGAGCTAAGGGCTTTGAGGTCAAGAAGTAGTATAGTAAATTATTTAGGAGAGATATTATTTTCTATAGAAAACATATTTTTACTGTATCATCCTATTGAAATATATTGAACGAACCCACAAAGCAGTATAATTCTGAAGCGATCCACAACGTAAGTTTTTGATGAATGTTTAAAAAATGAATTTATCGGCATCTTACAATCTTCCTATTTTGATTTTAACTAAGAAATGACTCAATTTTATCTAGCTTATCGTTACGATACCTTAACTCTCCAGTATCGCAATTGACTTCTACAAAAGCACCTGGTAATCCTGCATGCGCAAAGAAAGTCCTTTCATCTGGATCGCTAGAAACGTTACCTTTAAGGATATTACTTAAGGGATTCCAAGAACCTTTACAGTTCTCTTGAATAGAATCGGAAACACTCTTAATCTCGTTCTGAACTATAACGTTCAACATTGGGTTAATTTTATAGATATCGACTTTTTTGTTCAATTCGTCTAATTTTACTTGACTTTTCTTGTCTATATTGGAAACCTTCTTTATCATTTCTGCAACAACAAATGATTCGAAACCACGAGCAAATGAAAAATGAGGAATTACAGTTATTCTTGATGAATCATTTCTTATATCAATATTATTCTTGAAAAAGTCTACAGCAAAGTTTACGCGTTGGTCAAAATCATCCGAGAATGTATAGGCTGCAAGTAATGCTCCTTTATTAATGGCGTTAATGAAATATTTTGGGTTTGTACAGGATTTTTCATTTTTCATTTTTTTATGTAGTTCTTTTCCTAGCTTACTCTTCTCTTCTGCAGAATCTGAGTAAGGACGTAAAATACTATCGCTATAGCTAGGATAAACGAAAGAAGGTTGTATCTCTTTCTCTAATACTACATTAATATTGAGATCAGGAAATGGAGGTGATTTCCAACCTGGCGGATACGGATCTGAGTTAACTACTTTAATTTTACTATTATTAACTAGAGAATAAATATCCAATATTAAATTTACAGCATTAAATGTAAGGTATCCCATGTAATTTATACCGTGTGTTAAATCTAGAATAACTTCTACGTCTCCTTCTATTTCCTCGAATATTCTTGCTAGTTTATAAAGAATATATGCATAAAAATTGTATATTTCTCCTTTGAAATCTAGTGTCTTATCTTTCTTGGAGTCTTTCTTGGAGTAAAATACTCCTGGAGAAATAATTTTCTCAAAGTCATTGATCTCTTTTACTTTATTTTCTATAATTTTTATTGATTCCTTTTGAAGATCTTCGAAGGTATTTCCAGTGTCAGCTAATGTATATTGTCCAATCAATATTTTCTTGTCAAGTTCTTCTTTATCAATTAAAATAGAAGATGCAAAGTTACTTGTTTTTTTATAATTATTATAATGATAGTTTGCCTCATGATAGTTGGTTGGATCGCCTATTAGTGAAATTAAAATTTTCTTGATTTTTGACATAACCATAATATAAGGAGATTTCCTTAATATTTTTATATAAAGATGTAGATAACTTAGAAATTTATCAAAATTATGGAGAGCTTCCCTAAGCATAATAATTAAACTAATATTTTTCTTTATAAATAGATTACCTGAATTTATAATGGAACAGTGAAATCTCCATAGTTCCTTATTCCAATTTTTAGAATTTAAACAATCTTTTTGGATAGTAGTGATAAAATAGCAGAGTAAGTACATTTTTACAGTTTTCATATTCAAAAAAACACGAAAGGTTAATAAATTAGAGTTAGAAAAATAAAAAGTAATGGGAGGAGCACCAGTAGGTATTAAAATAAAAATTCCCATAGAACATGAAGAGGAAAACAATAAGAGTGAATGTAGTCATATACAGATCAACCTACTGCAGACAAATTATGGTCTGACGCTCATAATTGATGGTCATATACAGTTTGCTGAGAAAGACGAATATATTTATCATGAGGCCTTGGTTCATCCAGCAATGGCTTTAGCAGGAAACCTTGAGACTGTATTAATAATTGGTGGAGGAGACGGATTAGCTTTGAGAGAAGTTTTGAAATGGAAAAGCGTTAAGAAGGTTTACTTAGTTGATATTGACTCTTGCGTAGTAGAAATGGGTAAAAATATTCTACAAGGGCTAAATTGCAACGCATTCAGTGATCCAAGAGTAGAAGTTGTCATAGATGATGGAAGAAGATTTCTAGAGAACAGTACACAGAAGTTTGACGTTATAATAATTGACTCTACTGATCCTACAGGTGATGTAAACTCTTGCAGACTTTTCACTCTCTCGTTTTATGAGCTTGTAAAGTCAAGATTGAATAAAGTTTTAGTTACCAATGCTGGACAATATGGTTCTAAGGAGTTTCAGAGAATATATTTTACAATATCCAAAGTGTTCCATTATGCTAAAGGTTATTCGGTAAATGTTCCAAGCTTTGGTACTGTTTGGGGATTTGTTATAGCTTCGCCATCCATTACCTACTATCAAGGTAATCTCCCTGAAAGCTTAAAGTTTGTCAATCATGATTTTATTTACTATGTTAATGAAAGCTATCCTATAATTAATATTCAGGAAGTCATAACTGAGGAAGATCCTATTGAAGTTCAATCATTTTATGGAGTTCCTCTAGAAGATGAAGAAAAGATAATAAGAGATTTTAACTCAAAGTCTTACGTTGTCGGCGTTACAAACAAGAGGGTAATAATAGGTGACAAAAATTCAGGTAAATTTACTACTGTTGTACCTAATAAAGTAAGATCAATCACTTTAAACGAAAAAGGTATACCTTTATCAACAATAATTGCATTCTATTTAATTTTACTAATAGTATTTGAAATAATATTAATCTCCATTCATTATTACCTTGTGGGATTTCTTGAGTTAGTATTAGTCGCTGTAGTCGGAATTCCCTTGAGTATATATTTAGCCAAAAATTATACGGAAATAAACGACACGATTAAAATACCTGATGAAAATAAGGAAATATATGATACCATAGTGAAGGTGTTTAACATAAAGTGATATTTTAAAAGAACGCTCTGGATTTTCCTGCACCTATGTATCTTCAGTATTTATTGTTCTGACTAACTTCATGCAGTTAAACTACTATTCAAGGTCATAAAACTAGTGTTTCTCAATCAGACGAGGAAGGAACCTTCTCGATAGTCTGTTCCAAGTGCAAATAATTGAATAAATACTGATAGAGTGAAATCATGTGCTATTCAATTAAAAAATAATAAGGAAATTATACCTTTCAGAATAATAGAAGATTCATGATTTATTATAATTAAAAATATCTGATTATAAAGAAAAACAATTTTAAACATACTCCGCTAGTCTAGTTAACACTAGTATTTTCAAAAAGTTTATAGACTAGTATTACTAAATCGAATTATTTAAGATTTAGTTTAGACTTACGAAGAAGAGAAATATATATTAAGGAAAGAATTCTCACAGTAAAGACGCATATAGTTTACAGTATGAAAGAAATAGAAGTTGCAAGAGCCTTGACCAAGGAATACTCAACAGTGATATTACGGATGAACAAATATAGGAGTGAATGGGTGATTATAGTCTTGTCTTATTGAGCGTTATGTACCCTGTAATTCAAGGGAGAGGACTCCCTTGAATGAGGCTTACTTGAAGGGAGTACAGAATATTAGAGAGATTTGATATAATTTTTCTAAACAATATCGAATAAGATGACTGCATTAGAACATTTTCAATAGAATCGCACAAGATTATTATAAAAATACACATAGATTTTATTATTTAGATAATCGATATTTAGCATAATTTCTTCATTTCCGAGTTTTACTCTGAGTCTTTCAGTTAATCCATTTTTTGTGTTATCCCCGTTTTTAACAATGTCCAGTTCTAATTTTAATTAATAGTGCCAAAAGATCTCCTATGTAAATTACTTGTTTATCCAATAAGGAATAACATATTGAGTCCGTCCTACATGATTTACAGATTATGTTAAAATCTGTATATATCTTTGTTCTATTATTTCTCCAGATATATCTAATAATAGAACATCTCCCTCAAACGACCACACTTCTTGAAGACTGTTTGGCCTATGATTAATCGGGAACGGTACATATTTGATTAATTTACATGAATAAGATAGTTTTGGAGATGGACAGAGTAAGTCAATAGCCATATTAATCTTATAAAGAAATAGGAACCTGACTTTAAATGTATTAAACCACATTATTTTTCAAAACTTTTCCCACAAAGCTACTTTGTGGATCTGTTCAATTTTTCTAAGAGACTACATTAAACTTACTTTTAATTCTACTGCAGATTTAGAATTTATACTGAAGAAGTGAGTTTAGAGCCTAAGAAAATTCAACTAGCCCACAAAGCAACAAAGCGAGCAAGATATTTATAGAGTATAAACTATTAATTTTTATGAAGCTACTCTTTGCTCCAATAGGAGATCCTAAAAACTATGATGAAGTAACATATACAATAGATTCAAAATCTTTCAAAACTAACGCTAGTTTTATGGCCATTGAACAGGCTCTTAACTTGGATAAAACAATAGTATATGCTGGTCTTAGCTTATGCGATATCTCAAAGTATAAGGACTATACTAGTTGCTCAAATGATATTTCAACCTTTGTAAAAAATAAGTTGCAATTAAATAATGAAACTGTTATTGTAGCTCCAAATATTTATGGAAATAAATTTATTCAAATTGATAGAAAAAATACACTTTATTTTAATTTTATTTATTATAATACTCTTAATATTCTTAATCGTGAGAAACCAGACGAGATATACATTGACGTAACTCATGGGATAAATTACATGCCTTTACTTGCAACAGATGCTATAAAATTAGCAACTTATACTTATATAATTGAAAAGAATACAATAGACCTAACGATTTTTAACTCTGAGCCTATAATGTCACGTAATCCTGGTCCATATAACATTGATAAGGTATTTACAGAGAAACTTAATGTTAGACAAGCTTTACTTTCAGTTTTAATGCCTTTCCTATCTAAAGAAAATAAGAATAATATTACGAATAAAGTTTTAAAGGAAATAATGAACTGTGATACTGATTTAATTTACTCTAACGCTAATGCTTTATTTTCTGGTATATTTGCATTTTTAATACTTTCTAGAAAAGAAATAGAAGAATGCGTGAAAAGTATTGAACAAAAGATTGGAATTTTAGATTATAATAACTTCAAAGTCAATATTGAAATTAGCGACAGTCTAGTTTATAAAGATAAAATGCCTATAGAACTCAGTTATTTGCATTCATTATTAACTATCATAGGAAAAATAATTAGTAACCTACCCGACGATTCATGTGTTAAAATTAACGATATCAAAAAACTGGCAAAAAAATTCTCTATATCTGAAACAATATCATCATTAGTTTTGAGCGAAATTGATAGCATAAACAAAAAGAAAAACATTAATGAAAATCCTCAGCTATTGGCCGATATTGAAGCTCAATGTAAACATAATGAAAGATCTGAAGAGAAATTGGCTACCATGGAATCCAAAAAATCTATTTGCCAGCCTAATGAGAGAAATCTATTTGCACACGGAGGGTTTGAACAAAACGTTACTTACTTGTGGAAAAAGAATGAACAAATATGCATGAGCTATCTCGAATGCAAACAAAATGTAAAGGATCATCTTAAATAATCAATTTTCCTTCAAATATTAAATATCATAAGATAATGCTAATTTTGGACACTTTAGTTGCTAGACTAATAATCAAATCTAATGTTCTATAATTTATGTTAATTGGAAAATGGTACCTTAAGTATAACATTATTTCTGAGAAAAATTGAAGTAATACATAAAGCAGAGGAAAGTTAATTTTTCAAAATTTTGTGTAGATGTGGTATAGTTCTTTGCTATATAGTTTATAAATACGTTTTTTATTGGTAGTTTTTACGTTTTGTATTACATGTATTAAGTATATATATAAGTGATTTTTACGGGAAAAGAGATGTTTTACAACGAAAAATCTATTAAAGCCTAGTAGGTAGAATTTCATTTTTCATTATTTTGATTTTTAAGAATTTATCCAAAAACATTTCTAGCAAATTAGAAAGCATGCTTTTTATCATGCAAATCCTTAAGCATTTCAGTGTACATTTTCTCATACTTGTCAATGTGAAGAACTATTGCCCTTTTACACTTTAAGAAATACTTATCGGTAGTTACAATATAGCCGTTAATTAGTTGAGCGTAAATCATTATTTGATGGTCATATTTATAGGGAGTGATGAAAGGATAATAACCCAAATATTTAACCCTCCTTCTACACCACCTATAAAATCCTTTTATTGAAAGGTCAAAGATCAGAGGGATTCCCTCGTGCAAATTTCTACTATAGGAATTACGACCGACTGTTCCCAGTTTGCGAGGCTTGGAGTCTGAACTACTCACAGGGAATCCCAAATTTTATTGTGAAGGATACATTATAAACTTTTAAGGGTTTTTGATTTAATACTTTCAGCCCTCATTTTATCCATTTTCTGAATTCTATGAATTATTTACATTTTTCGTCTTCTAATCATTTTCCAGATCATGAATATCCGTGGAATTGAAAGATTAGTCTTAGAAAAGGTAATAAAAAGTTCTCTAATTGCTGATTTCTAACTAGTTTCGAAAAGTTTTAGTGCAGTTTTTTCATTTCTTAATTCATAAGTATTCTATGGAAATACTAGCGTTCCTCTTTAACTTAAGATTTTTCATTTTTTAGAAATGAATAACATTGAGCTTAATACCCTAAATGAGATTATCATTCTAATTTTTAAATGTTTATAAAGAAAATAATATATGAAATGTGCAGTAATCCCTATAAATAGGTCAGATTTCACTTTCGAAAGTTCCTTCTCGTCTATAGTTAGGACTTATGAACTCTTTAAGCCCGAGAAAATTCTTATACTTTACGCAGATTTTAATGACGTTCACTTACAGAAATTAAAAGATCTTTTAGATGAATTAAAAGGTAAAGGAATTGATATAAAATGCGTTAAGTTAACTATGGAAAGTTTTGAAGATTTCAAAAAACTTATTGAGGAAGAAACTAAGGGATGTGAGAAAACCTATCTTGTTCCGACTTCTGGAGCAAATATAGTCGCAGTTTATTTAACCCTACTTCATTCTCAAATTCATCCTTTAGTTAATTACCTCTTTTCCTTCGGATCTTGGATTAGGTATTATTATCCCTTTGTTCCTAGAAGTTTAGAGAACGTTCTAATATTGGGAGATAAGAAACCTAACACTGTAAATCTGGATCTTAATTTAGATAGTTATTTGGATGATACTGTCTTCACAAGAATAATTGAGATGGGTGCAGAGAAACTGAATAAAAAACTTTCAATCGAGAACGATGATTTGTATTTAAAACTTAAAGGAAAAGAAATACTAAGCACCGATCATCCAAATTATAATAAAACACTAAAGGAACTATCGATAATTTTCGATCATGCCCAAAATATTCTCACTCTTTCTGGCGCTTACGACATAATTGTCGACGATAAAAAAATTGAGGATATATCCTACGGTAGAACTCTCATAATTGACACTAACCTAATATATTATGGAATTCACAGTCACGAAATAAGAGATATAGTAATTCCATATTGCGTTCATAATGAGGTTTTATTTAACGTTAATAAGAAGGAGTCCTTTAGCGATGCCCTATTTTACGTATATGATTCATTACGTGAAAAAAGCAGAATGATACCAAGCGAGTCTACTATTTGTGACGTTGCAATACCTAAAATAGAGCCTGATCTAATTAGAGGATCCTTAGTAGTAACCGCAGATAAGTGGGCTTACGAAAGATGGAAAAAATTGGCCATTAGCTCCTACACTGATTTAAAGTTGGCACACCTTGGGAAAGAAAGGAAGGATTACGTAAATGTGAGTAACGTAATATTCAATCTTGCTGCAATACTTTGCTTAATGAAAACCTCTGAAATCGAAGTATGTTGGAAGAGTAACGGCTGTGTAAAAATAGATTGTAAGGACGGTGTAAAAATAGATTAGATCCTCTATTTTTATTAAATAAGAAAAAATATTTTAAACAATGTCATATTTTTGAATCTAAGAAAAATTAGCTCATTAAACGGAAAATTTGAGTCATAAAGTTTTCTTTGCCAATTCACTTTATTTCTATAATCAGAGAGAAAATATTACTACTTTATCGTCAAATACGTTTTCGTTAGTATTTCGGGAAAGTTCTTAGCCATTTAAAGAGTACAAATGAGAGATAACAAGCTAACTTAGTAAAACTACTAGTTTATGTGGTAATTTAATTGAATATTTCTCTCAATTGTCTATTATTCCAATTCACAATAGAGCCGTAAATTGCCCGAGGCTAAACCGTGAGCATATTTTCTTATTGTGGAGTTAAAAATCCTTATTAGTAATAAAAGGATTTAAACTAGTTAATAAATTCTACAACCTCATTTACACCTATAAGTTCCTTTTCCCTTCTGAAGAGAGCTTTTGCGCTAAGGAATTTAGCAGTTCCTATAGCGGAACAATCAGCTAAGGAAATGGAATACTTGCACTTGCATTCTGAGGTATACTTTAAAATTCTAGGTTTTACTCCTACTATCTCATAGTATCCGGATTTTATTACATCTTTAACTATTTTTTCTGCTTTCATTCTTCCCAACTTTCTGCAAAGCACGTAATACACTTCAGCAAGGTTCACTACACTGACGTATGCGGTTACTTCTTGGTTAAGTACTTTGTTATAATACTCTCTGAATTCGCCGTTGTTAGCAGTTTCAGATAAACCGTAAAGTTTGTATGTTTTAATGGAAAACATAAATACAGTCACACCAGATGGGTGGAAATATCACGACGAGGTGTGACGTTAAAAATTAAAGATGTGCGGGTTTCCCCGCATCTGTGATATTCCGGGGGTATGGGTTGGGGTTATCCAGCTAAAGGGGCGGATGGGTAACGGGTTTCCCCGTGACTCTGGTGAAGCCCAAGGGCTGAGGATTGATATTAAATATTATGAAATCCTATGAAGCCCAAACCCCTTCTAGAAAGGAGAGAATTACTCCAGTATCAAGCACTACTTTTTTCATCTTCTTTACGTCCCTTCAATAATTCTTCATATAAGTTTTCTCCTTTTGCTATTCCAAAAAGCTCTTCAGCAAGCTTTCTATTCTTAAGCTTTCTCTCAATTAAATGGTTTATTGCCTCGTCATAGGAAACTTTTCTTCCTAATTTCTTTTCAAGCATTCCAGCAATTTTAGTAAGTTTCTTCTTAGTTTCTGGTTTTACTTTTATGCTTTCCATATTTTCTACCTTTTCCACTAAGTATATAAAATTACTTTCACTTATATCAAGCGTTCCTAATGTTAGTATTTATTTTAACAAGGGCGTTCAGTAATAAATATTTTGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGCGATTTGGGGAGGATCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAACTATTCTAGCCAATTTCCTGGCTAAAGCAGTGTACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAAGTAGAACAAGCTGCGCAAGTACTTATTACCCTTCTTCGATATTCCCTTACAGTAGCTTTACCGCTCCTCTCAACTATTGGGTCTAAACCACAGTAGGCTACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCTCCAACAATGCCTATTATTATTCCCGAAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTGATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTTCCAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAAGCATTTCCTTGCTTATTTTTTCCTCGTCACTGACTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTCAAGGTCTTTTAGGAAGATATATAGTGTTACTAGTTCTTTCAATGAGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTGTGCGTCGTAAAAATCTGTTTTCTTTCCTCTCAAGTCCTTCTCCTTCCATAGTATATTTGGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGAGTATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGTTACTAGATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACCCTCCCCAACTAATTAATCTATATAGGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATAGGCTCCACATGCTTCGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGAAGGAACTACTTGATTGGGGTCAACTTGAGGACCTTCACTTTGTATGTGTAATACTCTTTTTCTGATTCTTGAATTTTTCTATAATACGCGTTGTATTGTTAATTTTGTTAGGAGATAGTGCGAACTAACTATGAGAACGTCCCCTTAAATTTTTGCACACTCCTACTCGGGATGTTGTCCCACATGTTAGATCGCGGGGGACGTATAGCCAGCCTACCCCATGGGGTTTTATCCCCATGTTCACTTTCGGCTTGTGTTATTTTCTTGTTCTCTTTATAAAAGTTTTACTCTTGTAAGGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGCCCCCTTTGTAAAACTTATATACTTCTTTTTCAAATACCCTATTAATGGCCGACGTAGGGTTACGCTTCAGAGCGTACACTAACGAACAAACATTGAGGGCGTTAAAAGCCCAGTTGAGGTTAGCGTCAGAAGTGTACAACACCCTACGTTGGGCAGACATCTATTTTCATGAAAGAGACGGAAAAGGACTCACTAAGACGGAGTTGAGGCAACTAGCTCTCGATCTGAGAAAACAGGATGAACAATATCAACATCTATATTCCCAAACACTGCAGCAGATTGCAGACAGATTCTACGACGCTAGACAGAGGTTCTTCGATGGGTTAGCACGTTTCCCAAAAGAAAGCACACAAGTGGTACTCCCTCGTCTACCCTCAATCAGGTTGGAAAGTCATGAAAGTGAGAGAAATAAGGACGAAGAGCAAGAAGAACAAGAAGAAGGTAATAACGCTTCAGCTGTCAAACCTAGGGATCTTCAACGTCGTTGTCCATAGGGACTTCCCGCTAGACAAGGTAAAGAGGGTAATAGTCAAGTTAACACCGTCAGGGAGAGTTTACATTACTTTCGTTGTGGATCAAGAGTATCCTCAACTCCCCAAGACAAACAAAGTTGTTGCTGTGGATGTTGGTGTAGAGAAACTTCTCACTACCTCTGACGGGGAATATGTCCCCAACCAGAGACCTTATGAGAATGCACTCAACAAGATGAAGAAGCTTCATAAAGCTCTCTCACGGAAGAAGTTCTTGTCACACAACTGGTTTAAGGCAAAGATTAAGCTTGCAAGGGCTCACGAACACTTGAAGAACCTTAGGAAGGACATGTACATGAAACTTGGTAAGTATTTTGCTGAGCATTATGATGTTCTCGTAATGGAGGATATTCACGTTAAGCAACTTGTTGGTAAGTCTCTCAGAAGGCTGAGGATGAGGTTACACGATGTTGCTATTCATGAGCTTAGGAGTATCATGAGATATCAACTTGGGAAGTACGGTAAGAAACTCACTCTAGTGGATCCTGCTTTTACTTCAATGACTTGTGCTAGGTGCGGACATGTTAAGAAAGATTTGACGTTGGCTGATCGTGTGTTTGTCTGTCCCAAGTGCGGTTGGGTCGCTGATCGTGATTATAATGCTTCCCTCAACATCCTAAGGAGATCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGTCCGTTACGGTAGACCCAAAATCTAATTAGTAAAAATAATTTTTATTCATTATTAGTGGTTCGTAAAGATTTAATGTAATTAGTTAGATAATTATATGATAATTTTTATAAATTTCCAAGTACCATATTAGATTTTTTATATTTTCACACAATTAACTGAGGAATATTATTATAATATTAGAAAATGATAAAGATGTATATGATAGAATCTGTTTTATTTACATTGATTATTTAATACATTATTCTTAATGCTCTTGATTATGAGTATAATAAAATATATTCTTTTATTTATTAAGAAAAAATATGAGGTTTAATGTTGAATTTATATTTGTAATATGATTTTGGGTCTACCGGTTAGGGCGCGGTAGTTCACTAATTACTAATATATAACAATTCCGAGTAAACATATTGCAGACGCTAGGGAATCTCTTTTCCCTTATAAAAAACATAACCAAAATAAATTCAGTATCTTAAGTTGTCTTTAATAGAAGTCAATTATTTTAAAATTCTATTTTGAAATTAGATAAAAAGGTTTCTCAAAATTACTTCATAAAAGTTATTAATCCTTCTCCTTCACTCTTACCATAAATGTCCCAAAAGGAGTAGGGTATTTCTATGTCTCCAATAGTTACGCTCTTAATTATTCTAAAGGAAAACCCTCTTTTTCCTCTTGTCAATTTAATTAGAGAATGAGAAGTGTGTAGACCGAAAATTGAACCTTCCTTTTCTCTATCCATTGCACTAAAAATGAAAACTTTCCCTGCGTTCCTTATTGCTGAAACTATTTGAGTGTATAATCTTTTATGATGATAAGGATCAATGATTATCATCTCCTTACCCATAGCTTCAATAGTAGGTTTAACGTCCTCTGCCTTGAAAGCTCTCCTTATATAAATTTCCCCTTTTTTCTGAAAAATATTCTCAAATCTCTCCACTAAAGTTGGGTCTATTCCACCTCTTTCAGCAACTATAACTACCTTTACTGGTGAGGATAACACTATCACGCGGTGATAGAAAAGAGTTAACAAATCTCTATCTTCAGAGTAAAATTCTACAATTTGATCCTTCATTATTATTTCATCTATCTCATTAAATCCAGTAATCATTTCCACCACATCGATTCGTAAACCCTTTTCAAATAATTTAGGTAATAAAATACGTCAGCTCCATTGAAACCGTTATAAGCCTCATAAAATCCTTTTACTCCTCTTACGTAAGGGATTCCTTTTATCCAGAGGACGTAATCTTTGGGCTCTCCGTTTATTATCCTTTGTCTGTATTGACGATATATTTCATCTATTTTCTTCATGTTAATTTCCTCACACGAATTTGCATTGGACATTTCCCGTGTTAAGTCCCTCAGAAAATCCTTGATAACGTTAGGCATGTTACTTCTAATAATACCTTTAACCTTCATTTTTTCTCCCTTACCTAAATATCTTGTAGGGAAAGGAAGTCCTTCCCTATTGTTAGTAAAAATCATCCATCTGAATTTTTCAACTTTAAGTTTTAATCCCGTCCTTTCCTCTAATTCTTTAACGTAATCCTCAATATCTCCTTTTACAGTTAATGAATCGATTATGCCGTGGAGGACTTCTATTCCTCTTTTTTCAGCCAAATCTATTGCCTCCCTTAAGGTTTTCCTCGCAAAATAAGTTACTAGTTCATAAGCCTCTATTTTACCGAATTTAGAATTCCTGAAACCTAAATAACCAAAGGAAGCTACTAACATCCATTTTATAGCATTTGATCTTTCCTCATCAACTTTCTTTAATTCCTCTTTTCTTCTTATTAACCATTCTAGGGCTTCTGGAACTATTCCCTTTTCTTTAAAACATATTGAACCTATTTCTGTTTTTAGGTCTTCACAAGAGTCAACTGTCTCTGCCGAGATGTTATATTTAACTATTAGGGAAGGATACATTGAGGAAAAATCTATTTGATAAACGTTATTGAAACATCCAACTTTAGGGAATATTATTAACCCTCCTTTATCAACCTTCTTTAATTCCTCTAAAGTCCTTAACTTCTCCACCCTTGGAACAACCTTATGGATTATTATCTTCCTTCTTAATGCTACCCAGGCTTCGTTAGTAGTTAAAGCTTTACCTATAGTTGAGTAAGCTATTTCCCTAAGTAAGACCTTCGAGGAATAGGACCATTCTATTAAACCCTTTATTAAAACAGGAGATCTCTTCCTCTTCATGTCTACCTTTACTATAGCGTCAACTTTTTCACATGCATCTCCTAGACATTCTGCAACGTCTACATTAACTTTAGGATTGTATTCTATTCTTTCTTCACCGTTTTCTATTACCTTTACTTTTTCTCCTTCTTCAGCTTCACCGTACCAATCTAAAGGTATCAAAGTTGCATAACGTATTTTAGGAAAATCATAGTCACTAGTAGCAACTATTTTTCCTTTATCGATTTTTACCCATCTAAAGGGGAGGGCTTTAAGCCTGTAAAGCGTTTGGGAAATTATTGAAGGAATCTCGTTAACTACTTTCAGTCTTTTCCTTATATAATAATAAGCTGAAATTTCCTCAATCTCAAAACGGTAAAGTTTGATTTTCTTACCTTGAATATCCTTCCATTCTTCTTCCTCGTACTTTAGAACTGAAGGATGTTGGAGGACAATTTCTGGATTTTGTGTAATTACGTAAACGGGAAAAGTAGTTTTTACAAAGGCTTTTCTGAAGCCATTCAGATAAAGAATTAGACCACCTTTTACAGGTTTTGCATCTATTAAGTATCCCTCAGTCATTCTTACACTCTTCCTCTAATTCTGAAAGGAGAGAAAGGAAAACTATTTCAATAGGGCTGAGTTCTTCGTCGTAGGAAGCGTTTTGAAAATACCTTATTTTTCCCTTAGCTCTTTCTAAAACTGGAAGAAGATTTGGAGAAGCTCTTCTCAATATTCTCTCAAATTTTTCCATTTCTCTGTCTATTGCGCTCGTGTAAGAGGGCTGAGTTCTTCCCATGAATATTGTTTTGTAGAAAAAATAAATAAACTTAGAGAGTAAACTGAAAGTTATTTTTACGTTATTTTTATCGAACATTACTTTCAGAATAGTGTTAAGAAATAAGGGGGTTTTTATGCGGAAATTTATGATATTGCCTTGGATAGGTTTCTAGGTAGACATAGAAGAATCTTGTAAATTTCTGCTTTATGACTTCTTTTTTCTCAGAAGTAACGTTAAACCTTCCTTTAATTTAACAAAGTTCAGAGTTTACCCTGAACTAGTTCAAGACCTAAGAAAAATCAATTAATCCACAAAGCGTAAATTCACGTAACGTTAAAAATACTTCAGTATTAGAAGAATTAAAAATTATAAGATAACAAAAAAGATTATTGATATTAAATAGAAAATATCCATTTTAATACATTAGGATAACAGTTACATTCCAAATAATGAAACTTACTTAAGCCGATTCTAAGAAGGAAATTTAGATCAAGAAAATAACTAGATTTCCTGTGGTAACTGAGTTAAGACGGTAAGATAAAGCACAGAATGCATGAAACATTAAAAGCGGTTAAACGTAGATATATATAATGGAAAAAGACCTCTATAAGGTAAATGACGAATACGTGGAAGCTAGAGTAATTGAGAGTTTATCGGATCTGTTAATCTCACTAAACTTATGGAAGGAAGGCTATACTAGAAACTCTGCAGGAAAAGCCTTTAACGCTGTAAAGGCATTGTTGAGTGCTTTAATAGTAGTCAATGAGGATAAAATTTTGAATTTAGCCAAAGATGAGAAGGAGAAGGAATGGATTAAGAGGAAAGCTCATGTTGTACCAACTCACAGTATTTACGCTTTAGCACAAATGTTAAAGGATGTTGGAATTGACGTTGTCGACCTTGTAAATTACGCATTAGATTTACGCGACTATCAGTATAATGGATTTGAAGCTGGGTTCAGTAAATACAGTAGAAAAGAAGACGTTCTCAAGGATTTACTCACTGTAGTCAAGGAGACTAAAAAGGTAATTAGCGCCTATTTTCCAAAATTTGAAGAAAAAGGAATTTCTGAAAAAGTTGATGACTTAGTTAAGGAGTTTGTAAAATAGTTAGAACAAACTAAGCTATTATTCTCTTCAAGATTTTAGTTTAATCTCAATTTCTTCCCCTATCTTATCGTCTAATTTCTGAATACCTGGCAAAGGCCTAAAATTGAACTTCTTAAGCTCTTCTCTTGTAACGCACTTCCACCTCTTGGTGTCCCTATTTTCAAGTACTGACTTTGGTATTGCGGAAACCTTAATCGCCATATAATGTGGCCATTCGCCCTCAGGCCAATATTTCTCCTTAAGCTCACCAGTCTCCTTAATTACACCTGACAACACTATACAACCATCAAAACCCCTTTCCTCATCCCTACTTAAATAAAGGAAGACCTTCGTCCCTGGTCCTTCAACAGAATAAAGCCTACTTGTACCCCAAATAAATATACCTTCATCAAACCTCTTTATGAAAGAACTTTTCCTATTCAGATAATCATCTAAAGAAAAAAGAAAATTGTTAATCTTACCATTAATTACTATATACATAAGAACAAATAATCAGTCTTGGTAATAAATATGATAGTTTTCCTATAGCTTTTATCTAAGGACTTACCGTTAAATCCTAGTCTAAGAACTTTCTGAAAATACTAGTGTAAATAAGACTATATGATTCCGGTTTATTATTAGCTAATACTAAAATATATTATAAATATTTTAAAAAATTGACTGAATATTTAACATTATATCTGGAGATAAATATTACCATACTAGTATTGGCGAAGTTTTTAGTAATTTGCCTAACGAATATAATTGCCGAATCTGTAATAAAATAACGCTATTACATCTGGATACAATATATCTTAAAATTGTCCTATTTCGTTATCTATCTTAGTTAGAATGTCCTTGTAAATATCTCTATCTTTTATTTCTAGGTTTGATAGAATCCTAATAGTCTGCATTAGTTCGAAAATTTTACTAGGCGGTAATGTCCTTATTATAGAAGGATCCTTCTTGACTCTAAGCAATAATCCCAAGATATTATCGTCTTGTTCACTAAATTTAATTTTTCTTTTACTTGTAAGCATAAATAGCATCCTAAAGAATAATCTACTTCTTCCGTAAAATTTACCTAGTATATAATATCTAGTCATATCATCTGCTATTTTACAGCCTATGGAATTACATAAAACATTAGTTACCTCATTAAACACTTCATCTATTCCTCTTATTCCTATTATTTTCTCATATTTGGTAAATTCTTTTAATACGATCTCAAGTGCACTTGTAAGTGCCTTAATATCCTGCATATTATTGACCCTTTTTTCTTTCAATAAGTTATGAATAGCTGCTATTGTTATAGTTCCATTTCTATTCTTATCTAAAGATATCTTAAATCCCTCTTTCTCGTATTGTATAGACAATACTCTATATCTTGAATTTAATAAGAATATTATATCATCCTCTTTTATAATTTTCATCAGAAAAGTTGTTTTATTATCAAGTATATCTTCTAACGTTAATTTTTGTTTTCCCTTCTCTACGTAAGAATTACATTTATCATCTAGACAATTGAAAAAATACTCAGAGTAGAGATAAGGTACTAGAACTCCATTACTTAGATTACTTAAAGTAATCTTAAGTATACTCAAATAAAAATTATAAATTTCGTTCTGTATTCCATAATTGAGTGTTGGAATGTAGATTCCTTCCTTGGCTTTAAGTACTGCAATAGTTGAATTTACAAAATATTTTCCAGGTAATATAGGCCATTTCCAGCTTATTTTTGGTTGTATAGTATAAAACATGCTTTTTATTCCTTTATCATTTATCAATGTGAACATTGAATTATATGAAATATAATCTAAGAGAGATATGGAGAGTATAGTCCTTATGCCTTTGTCTGTTTCCCTAATTTTAGAAATTAGCCTACTCATTGTATAGAGCTGCAATGGAGAAAAAAATTTATAAACTCTATTAAAGCCGTAAAAACTTACCCTAAAATTTATTGGTTCGGTGGGAATATTCTCTATATCTTCTACAATTAACTCAAAATTATTATCTGTGGGGAATACGGGAGAACGATTTAATTCGTTGGCACTGATTTCAAAGTTCATGAATTTTTCTAGAAGTGAGTTCCATTGCTCAAAGTTAACTTTCTTAATGACGTTATTACAATTTGGACATCTTATTATCTTATTATCATCTACTTCAAAGGAAGTTTCACAATAAGGACATCTAATTTTCCATTTACCTATTTTCACATCATCAATTACTCTAATTTCTTCTGAAATATTTCTTGCACAAGTAAGAACATCTTTTACTTCAACTGGCGATTGAAGTAATCTTTTAATCAAACCGGGTGATATTGAAGGACCTCTCCAGTAAGGTATTATTGAATTTAACTCTTTCACTCCTTTTTTTCTTCTCATGAAAAGATAAGAGTTATATTAAATGCTCATAGTATAACGATAATAATTATTCACTATTATAGGATGGACTAGCACAACTATAACCAAGTTTTTTAACGTATTCACACATAACGCTTGTAGCTTCAGTGTGTATAGGAATTATTTTCTTAGGTTTAATGGTTTCAAGTATATTCTTTAATTCATAAGGATAATAATGACCAGACATTCTAAGCCTATAAATTATAAATCCTAGTGCTCTATACCAATTATCTTCTACATTCTCGTCTTCGCCACTTTCTGCTTTACTTTCAGTAGATATGGATATAATTACTGATCCTTTACTTGCATCACTTAATCTTCTTCCGAAGTTTATCAAATTACCTTTAACGGTAAATATAACATAGTCTTGAGGAGAATTTAATATCTCCTCTTCATCTATTATATTAAACTCTATGCTTTTATCCTCAAATTGGTATGCCGTATCTACTAATTGAAATTTAGAATTCCAGAGGTTAGTCATTTCTATTAGTCTACGACCCGAAAATACTGGAATTTTACCTTTCATTTTTGTAATGAGGAGAAGAGACGCTAAACCTTCTAGATCTATAGGATCAACTGAAATCATGATAAGTGAGTTATTATGGCTATCAAAAATATTGTTAATTTGCTCAATGAAGTAATGAGGTTGCATAGGAGACGTTGCTGAAGAAAAATTTGTCCCCTCTACTAATAGTACGTCGGTATCTAATCCTTTTTCTCCGTATTCTTCTAGGAGAGTTTTATCGTGAATTCTATTATGAAGATCTGAGTCTAAGAACCTTAATGGAGACGAAAGTCTAAAATCTCCTGAATATAGTATTCTAGTATCACCATTATTATAATATAACGAATATGCAGGATATGCACTATGTTCTACAGATAATGGTAATACTTCATTTCCGTTATCTCTTATATCCATAACATTAACTCCAATCGGCGGGGAAACGTAAGCAGTCCAATTACTTGATTCTTTATATGGTTCTATAAATACGTTGAAAATATCCTTGTCTGGAACATATAGGGAAGTTCCTACATTTAATAAGTGAAGTACTCCTAAATGATCTAGATGCAAATGGGAGATGAAAATCTTATTGAACTCATCGGACTGTGGTATAATTCCTAGTTTTCTCAATTCTAAAGCATTAGAAGGCTGTATATTAACGTTGTAAAATTTCTTGAACCTTGAAAATCTTATTCCTTGATCAAAGACAACCTTATTATCTTTATTTTCTATAATTATAAAATTTCCACCTATTTCATTAAATCCTTGCTTTACATTAATTTTAGTATTATTATAATTAAATTCCACTTTTAACACCTACTAATACGCCATTAACGTACGTATAATTCCAGGAGTCTTCTTTTGAATTTCTTAACATATCCAATGGACTCACTATTTTTATATATCTAACTTCTCCCTTACCTTCAGCCCTTATCTTATCTCCTAGAGTGATTTTCCAACCTTGAGATTCTAAAGCCTTTATTGTTTCATTATTTACGTCTTCGCTATGCCCTTTAACTCCTATTATTACTGCGTTTGGAATACTAACATTTACCTTTAGATCTTCCCTACTGCTAGGAATCCAATTATCTCTACCCCTGCGTTGTCTGTAAGAAACAAATTGTTGTTCAAGATAGTAGAGTTTCTCTTGAACGTAGTTAATCACCTTATATATCCAAGAATTATCATTTACAACTACTTCACTAGGATATACTTTATTACAGAAAAGTAGTTGAGGAAGAATATTCTCAATAAATTCACTTTCTTTAATTATATTACCTTTAGAATCTATAATTATAGGAATATGAATTAGACCCCTTTTTGATTTTGTTTCTACGTTAGTATCTAAAATGTATATATTATAATCTAAACTATCACAAATTACGTATTTTTTATTATACTTAGAAAACCTAGAAATTAGAGAATACAGCAAATAAATGTTCTTACCAACCCTATTATCATCGTATTGGTCAATAAATTGTTTACTAGGCATAACTATTTGATTATTAGAAAAACTTCCTTTATAATAGTTAATGAATTGTTCTAAAAATGATTTTATTGATCTATTTAGATTCTTCCTATTTTCAAATCCAGATATTTCTCTAACAGAATTTATCTCATTTATTACAGCTCCTTGCATCCTTTCAAATAACGCAAATTTTTTCATAGTTTCTTTCAATATTTTTATTCTTTTTAATAGAGAATTTACTAGTTCATCCATGTTTCCTTGCAATGCTGCTTCCCACACTTTAATTGGCGTTATTTGTTCCTTTTCATTTTTAGGATCATTATATACTGCGTATACAGGTATAGTTTCCTTATCTTCACTTAAATCAAATACTCTATTCACAGTAACTCCTTGATAAATTACTGCATCCACTACCTTATCGTTAGATCCAGTACCTTTAGTTATTGATAATAATTTATTATAATAATTCTCAAGTAGGGCTTGCTCCAAATCTATTTTCAATGATATATAATAAACATATACAGGCTTTGTTTGCTTAAGTCTCCAAACTCTTCCATTTCTTTGCTCGAATCTTACTATACTTAATGGAATCTCATAATGTATTATAACGTTAGCAGTTTGTAAATTTAATCCTTCTGACGCAACATCTGTAGCAACTAATATTTTCTTTCCCTTCCCCTCTAGCCATTTTTTAATATTATCTATTCCTTCTTGATTTACAGTATCGCTAGAGGCAATCTTAATTTCATTATCGGTTAAATTGAGGCTTTCCTTGAGTTTCCTATTAATATAATTAGCAGTATCTTTATATTCAGTAAACACTATTATCTTGTCTCCTTTGCTTAAATGTGTATTTACTAGGTTTATGAGTGCTTTTATTCTAGTATCGTCCTCCATGACTTTCTTAGCAGAGTCAATTAAATTAGGAATGAAGTCCTTAAATCTTGACAGATAAGGTTCGTTAATTTCCGCTAATTTGTTTGCTATATCATCTGGTTCTATACTCTCTCCCACATCTTCTTCTTCAGCGTATTCCTCTGCCTCATCAATGATTTCCTCCTCATTAAGCTTTGTTCTTCTATTTTCAATAATATGTTCAAACGTAATCAAACCTGCCAAAGGACTTGATAATGAGCGTCTGCCTATATTAAATGCTAGAAGTTGAAGTGCTTTAGGCTGTTTTCCTACGTTGTTATAATATTCTTTAATAATAGACAAAGAAAGTTCTCGTATAAGGGTATAGTATTTCTTCTCATCTTCTGTAGGTTCAGCCAAATATTGTACAAAATACGCTTTAGGAAATATATCTTCCTTCTCATAAACTTTATTCACGTTGTCCTTATTTCTTTTTAATATTATTGCTCTTACTGTACTCCTTAATATTTGATCATCTACGTCCCTCATATAGGGATCTATAAGAACTAATCTTTTTATGTAATCGTTATCGTTACCCTTATGAGGAGTAGCCGATAGGCCTATGAAATGAGAATTAGGATTCTTACTTACTAACGAAGCCAAAGCAGTATACCTTTGATTTTCCTTATTACCTATTATCCCTATTTTATGGATCTCATCAACCATTATTAAATCCCATGACGCTGATAGGAATTTGTTCATATGATTTGTCCTTTTTAAGGTGTCTACGCTAACTATGTAAATCCCATCCTCAAATGATAAACTCCTGTTATTCCTATAATCAATTGGTGAGAGCTTCCATTCTTTTGTAAATCTCCTCAATTCATATAACCATTGGTCAACTAGAACTTTAGGCACAATTAACAGAATCTTCTTAACTCCCCTGTTTTTAACCAACTGATCTATTATCATTATCCCTTCAATAGTTTTTCCTAAACCTACATCATCAGCTACTAAAAATCTTACTGGATCTCTAGAAAGTGTTCTATAAAATATTTCTGCCTGGTGCACATAAGGCTCATAATCTCCCCCAGTTAATAGGGAATATCTAAACATAGGGTGAGAATCCTTTAATATATTCAAATAATTTAATATAAATTCACTCATAAAGATCACGGAAAGCCTTGCTAACCTTAAAAGTGTCTACTACATTATTTCTAATTGAGAATTTACTTAAAGATTCCGTATACCAAAATTGTAAACTAAATTCGTCCATATTTATTAATGTCTTGCCTAATTCATTAATTCTTGTGGCGTAAATCTTTCTCATTGACTGCCTAACGCCTCCATAAACAACCAAAATTTTAAATAATCTTTCATTCTCAGTTCTTAGCGTTTTCTTAGTTCTTTTAAATTCCATATTTGTGTTCTTTAGAATTATGTCATACATCTCACTTAAAGTCACGGATGTCTTGAAAACTTTTGAAGTAACATTACCCCTTAGTATGTAATAAAAAGTGTTGGAATTACCTTCCCTTATGAAGTACTCCATTAGCACACCTTAACCTTTACTTTTATAAAGTTTTTATTAATAAGTTCGTTAATATTCTTTATTCCGTCTTTATTTATTTCCTTAAACTCAACAACCCTTATTACTAGAGAACCCGTAATTTTAGGCTTTAGACCTACCAGGCTTAGCTGAGGAGTTAGGAAGCTAATGAAATCGTTAATATTTGATCCCATAGGCTTCATTATCAAACTAATTTTCTTGCTGGAATCTTCTATGTTAACTTCACCCTCTAATAATTTTTTACCAATTATAGAGAAGTTAATTTTACTAAGTGTGTTTTTCAGATCTTCCGTATTTATTATATTAATCTCAGATATATGAGAATCTAAAGATATTTGATCAACAAATTTTTCACACTCATTTTGTAATATTCTTATAGGTATACTAATTCTTTTCTCCTTATCATCATACTTAGCAGTTATATTAACTATAGAATCCTGATTTACAGTAATCTTAAGAGTAGATTGAAAATCTGGATATTCCTCTTTTACATTAAGATCTCCTAAACTTGATGATAAAGATACCTTAGAATCAAATTTACCTATTTTCTTTACAATTATTTTAACTTCTTTAGTCTCGCCCTGTGTACCTTCTATCTCGCTAGGTTCGGCGCTAAGATCTATCCCAGCTTCTACAGTATCTTCAACTAGCTTAATCTCTCCAGATTTAAATTTCTCTAGCCAATCCACATCATTCCTAAGCTCACGTAAAGGTATCTTTATACCGCCTGGAAGCTCTAAAATATAATACCTTTTTATAATTTTATTCTCGCTCTCGATAATTTTCTCTTGAGATATTAAATTATCAATTTCCTTTTCAGCAGCGTCCTTTGCAGGTAAAATTATTGAAGAATCATTTACAATAATTTCCCCAGAACCTTCGTACTTCTTATAATACACTTTACCTCCATTCATAATTCCAATTTCCAGTTTTTCGACGCCATTGCGTATAGCATTGTAAAATGTTGTTTCGGTTATAAATGGTAATGACGGATTAGCGTAAAACATCTCCTTTATATCCTTTATAGACGACATCCTATCGACTATTGTAACATTTGTCGCCTCCAAGTAAGCCTTCAAAGTCTCAAAGTCAAAATTATCTTCACGCACTATCTTATCTTCATCCAATAACGTATCCTCGGCTTGTTGTAAAAGAGTTTTACCACTACTCTTTAACTCAACTATTCTAACATCGTTATTTCCAGTAGGATAAGCTACCCTATCGAAATACTGGAATATCTGGTTGTATATCGCGCTCTCTAAACTAATTACATAATCGTTCAAAATCTTTTGAGCATAGTCTTTACTAACTTGATCCCTATAATAGGGAGTAACGTCAATATTGGAACAAGAAATATATCTCTTCACATAATCACGCATTTTATCTCTATTGTTACCAATCAATGGAAATAGCAAAGTAAGAGTATTAGCATACCTTCTTGGTTTTTCAGATTTACCAGAAGAAGTATAATATATCAATTTTCTAGTTATTTCCTCGGCTTTTTTCAATGCGCCGTCAGAAGTTTTACAATCTTCACATATTGGCCTGCTAATTATTACAAGATAATATGAGGGTTCGTCTATATCAATTGGTTCATCTGTATTCCTTATTACACTTCTGTATAATTTCAACAACATACCGCTAATAGCCTTTTTACCTTTCTTTTGAATAACATCAAGGGGAATTTCAGCCAAACTGAGCATCATAGAATCAAGTTTTGTGTCAGCATCAAATTCTGACACTTTACTAGCGTCTTTTTCACATATTGTTTTTGGATCCAAAAACCACGTAACCCAATATTTTCCTTTATCTGTTATAAGATAAGGTATAATCATGTCGACGTTCTTTGAATTACTAGTTATATTATCTAAAGATTCTTTTATATCTCCAGGGAGTTTTCTAGAAGAACTTAGATACTCTGAATCTAGTAAAGAAGTAATAATCTCCTTACTATCTGGTAAGGCAGAAATTAATTGACCTGGATCTAAACCTAATTGATAATAGTACGTAGAAATAAAAATATAATTAGCTAATAAAAATATGACATCTAAACCTTTAGATCTTTGAATAATAGTATCTGCAACTACGTCGTAGCTCTTAAAGTCCTTTAATAGTATTGTCCGTATCTGAGAATCTTTTATACTTATATCCGATGGTAAAATTAAGCTTCTTGTAGGCTTATTTTCCCAAAGATTCCTTATTACATATCTAGTAATTTTTATAGCTTCACGAGAACCTTGAAGGTGAGTATTCCCTTCCAATAAATTCTTCAAAAAATTCACGTAAAGCGGATGAAAAGGATAAGTATTTACAACTTCCCGAGCCGTAGTAACGTCTAGGTAATCTTTAAATTGATCAACATACTTCTGATACTCCTCGACGACTCTCTTTTTCACATCTTCGTTTATTTCTCTAAATATTCTCTTTATTAGTACATTTGCCAAATCTATCGAAGTTTCTATCGGTGCTCTGAATATCTTTCCTCCTCTTTCTATCTTCTTAGATAAGGCCTCTATGACGTCTTCATATCCCTTTTCAAAATACATTGTAATATCTTCTTTATTTTTCTCCTCTATTTTTGCAGGAATTGTAACTAATAATACTACAGGCAAGTTAGATCCCAAAGAGGCTAAATACTCAAAGAAGATCAGACATTGATTATAATAATTTCCACCACTTAACCCCTTTAATCTTACTAAATAAGCAGCTATCTCATCTACTAGAATTAGTACTCTTTCTCCCTTAAATAATTCCTCTAGTTTATCTTTCGTCGGTGACATGAGATCTTCGTCGTATTTCCTTACGATATCGTATTTTCCTAATCTTTTGGCAATGTATCCCCACAAAGTTTTTATCTTAATTCCGTCTTCCTCTATTGGATCTTCTGGGGAAGGTGCAGTTCTACTATCCTTACCTCCAATACCTATTACCTTAATATTTTCAGGGACTTCAAGACCGAATTCCCTTGCTACCGTAGGATTATTAAAAGCATGAAATAGTAAAAGTACAGTATGAGTTTTACCACCTCCGAATAAAGAATATAACGTCATACTTAGGCCTTTACCTTGAGTCAAAGCATTCGTTATTTCCCTAACTAAACTTTTCATCGAATCGGTAATGTACGTCGAAGAGAAGAATTCTCTGGAATCAAGATAAATTGATGGTGCGTTTTTAACTATTACGTCGCTGAGCTCTGGAGCTACTTGATCGTCCAAACTTCTATTAAATACGTCTTCCCTAACCTTATTCTCGTAAATCAGATTACTCATTGAACCCACTTTTCTATATTTGTTTTTTCTCCAGATAAACGCTTAGAAGGTTCCTTTTCTACATCAGAATCGTCTAATACTTTTGTCAAGATTCTAGCAATAGCTAAAGCCTCATCTACGAAACGTGTCCTTTCCTTAAGCTTGTCCACCTCTTCCTTTATCTTATCCGGGTTCTTTAATGAGATGTATTCGAGATAATGAAATGCTTCAACTGGGTTAGAGAAGTTATAGTCGCCTTGAATAGCCTTTCTTACGTCTGGAAGTTGCTCTAATGCCGAAATGAGACTAAGTTGATCCTTAGCAGCTTGATCTGGCTCAATAAGTGCTATAGAATCTTTATCTAAACTGATAATCCCATTATCTTGTAGACTTTTAACGTCTATATTTCCAGAAATATTCAAGTAAGTTAGAGAATTTCTATCTAATTTTCTCACTCCTCTTTTTGGAGTCGGAATTAAGAGTTTTACTAAAACGTAGTACGTTGAATTAGGATTAGAAATTGACACACCTGCACCTTTAGATAGTCCTTCAATTATTGACTGCGTAGTAGTAGGAAATATATACTTAGTAATAAGATCACTTACAGCATTAACTCCTTCATCTCCCAATCCTACTAATTTCTCGTATTTTGTAAATACACTAATAACTTTTCCTAAAATTTCTATGTAAGTATCTAAGGAAAGCTTAAGCTTTCCCTTAGTTAACATGGTTGATATCCAATCTGAGACAGTTGAAATTGCCTCTTTCCTGACTTCTTGAACTAGTTTCTGTCCCTCTGCTCTTTTCCTCCATACTATAGCCATCGACTTATCTAACGAAATTGTAGTATTACGAGCCGTTATTCGCGTTTCGTCTTCCGTAGTTACCGTATATGTAGTGGTTATTCTAAACTTTGAAGAATACCAACTAGCGTAAAGTAGAGAAATCCACGCGTCTGGAGAAGTATGATTATAGAATGTTATGAGTAATCCATCATCGTTTAAAGATTCGCTAAGCTTGTTAAATGCTTTGGCTAGTCTATCTCTAAAATAATCATAAGTACCAACACTATTATCGAACGTCTTAGTTCTCTCTTCGTCAACTCCTATATCTTTTGGTACTAGTTCTTCCCATTGTGTATTATAAGAAAATGGAAAAACTCTTTTTAACCATACATAATAGAAATCACTTACTTCAGGGTAAGGGACATCGTCTGCATAAGGCGGATCTGTAACTATAAGGTCTATTTTATCGCTTAAATTTAATTCATTTACATCAGAATTAAGAATTTCGACTTGTGAATTAGAATTAGTTAGTATCAAATATTCTAATCCTTCTTCTACATGTTCCAAACTTCTAGATAAGGAACCTATAATGTTAGCTAAAGGAGACATTTCAACCCAGTTCCATGTAAACGCAAATCTTCTAAATGACAATGCATGAGCAATAAATTTTCTGCTAGGTTCAACTAATGTTAAGAAGCAATTATGTCTTATATGATTTAAGAATGCTATAGTTAAATATGTTATTATAGCTTCTTTATATTTCTCATCTCCTCCAATCTTTTCTTTAAATTCGTTTAATTCGTCAATAATTCTACTAAAAATCACTAGCTGCCTAGCATCGAATAATTTAAAGAATTTATCTATACCCCATGCAGTAAATCTGAGAACACCGTATGAAGCAACATTCTCTGTAGGTATTTTGCTTATATCAATTTCCCTTAATCTAGCAAATGATTCCCAGAATTTTTTCTCATCTTCTTCTGTAATCTCTTCAAAAGTTATGTCTTTCGATTCTCCATTAAATTTTATGAGAAGTTTAGGTCTAGCTTTAGAATTACGTAAGTCTTCTAGGTTTATTTCTCCATTTAAAAATCTTTCATAATTCTTATTCCACTCTTTTATTGCTTCTTTTATGTACCATTTATCACCTTTACCGGGGAATACATTATTACAGTACAAACATCTGGCATTACTACTTTTAGCACTAACGTTCCCCTCGGGTACGTCATAATCTTTTCCATCTACTATAATTTTATTCTTACTTACCTTCGCTGTTATACTTTGTCTATTTAACTCTTTATTTAGGTCTACAACATTTATCCTAAGGTTACCTCTATTAATTTCTGGCTTCATAAAAACTATTCTCTTAAACTTTCCAGACTTAACTCCTTCTTCGTTTTCTCCTTCATTACCTTTCATAGCCATTAGCCACCACTGGTTAATCAAAGGAGTGTAATTACCGCAATGGGGGCATTTAACTTCCCATGTCCCCACAAACCCATTGTCTTCATACAATTCTTTTACATAGTTTTCTAAGCTCTTAAGGAGTTCATCCCCATATTTTTTAACGTCGTCTATAAGTTTCTTTCCATATTTAGGATATTCCAATACTGCCTTTAGAAATACGTAGGCAGTAGGTAAAAGTTCTGATGCAATAACTTTACCTATTCCTAATCTTTTAGCCTCTAACGGAATTGAACCGAAACCTGCAAAAGGATCTAAAAGCGTAAAGCCCTTAAATCTACCGTTAGTTATAGGCTGAAGTTTATGAGGAATTTCAGTCTTTGGACCGTTATTTTGAAGTCTAATCATTCTTTTAAATTCGTCTAATGGAAAATCTTCAGGTAACAGTGCAGCAGCTGTGAAAGCTCTGGCTGAAATAAGAGGTTTTCTAGTCCACCAAAAAATCATTTCCCAATAAGTTGGTCTTCCAGGACCTTTCTCTCTAGCTGCTTGTTTATCTATTTCAGGAATTAAAGTTGCGAAAGAATCACTTTCGATTAACCGTCTCCCATTATTTATTGCCATACGCAATAAGAAACTTCTATATATTTTAAGCTTTATTTATTGATGATCGAAAAGTTTTAACTTATTGTCTCATTATAATATGACTAATCAACCTTGGAAACCATGAATCTATATATAGGATTGATACTGCTATTGCAATAATATTAGCAAATCTATTCCTCCCAATACTGTTGCAACGAAACCTTAATAAGATATATCATACTGTTTAAGATTTATAAAAACTAATGCGGAAAGAATGTTGATTATGAAAATATCACGCTCTTTTCTAGTCTTTTTTAATATAGGATATCAATATGCCTAATTTAATGTTAAGTCTGATAACTTAGGTGAGATCATTATTACTACTCCCAAAATACAATATTTATCTTAAACTCTTGGAATATAGGCAATAGAAAATATTTTCTATAACATGATAACAGCAATAATTATTATATATTATTAAAAAATCTTGGAATTTTACAAATTTTAAGTATCATAATTCTATATAAATTCAATAAAATGATATTATCAATAAATTAATTGAATAAAAATACTCATTGCTTATCGTTCTTTACGTCCTCGATTTCTTCGGGTTTTATCTCAGCGTCTTTAAGCACTTTATTCATTACATCCTCTGACGGAAAGACTATTATCATTCCTCTAATTTTCTTGACTATCATGCTATTTAACTTATTTGAAATTTGGAGTGAGTTATGTGAAAGTAAATATAGGAAAAATCATTACTAGTCCTCTTACACCTTATTGAACTAAACCCTTTACAGCTTTAGCTGTTCCTTTATCTTCAAAAAATACATATACCCCTCTTATACCCCTAGTCAGCATAATATAATATCTATTCTTAAGTAGCAATAGAGCTTTATCTCTTTTCTTAGGATTATTAGCTAACTTCTTTAGTGAAGACGACCCTCCCACGTAATCGGTTATAGGTCCAGAATTAACAATCCACTCTCCATTATGCCATATTAAATCTCTTCCCCATACTACTCCTACATAATCCGCCTCAAAACCTTGTGAACCGTAAACTGAAGAACAATATTTTAGAGAATCTAGTTCTCCTTTCCAATATCTAGGATATTCGGTTTTCTCATCCATTAACCATTTTACCTTTATTTCATTACCTTCATATTTCATTCCCTTATATAAGTCAAAGCCCGATTGCAAAGGATAACCTATCCTTATATTCTTTATACTTTCCCAACTAGTTTTGTTGTTATTATCACCCTCAGATTCTGTGAAGGAACATATAAGAGCAGTTTTCATTCCATGATTTTTCTCGTTCTTTAACTCATTGAACATATCAGTAATGTTATCAAATATCTTAAAGTCAAAATCACCAGACTTAGCTTTTTCTCCTTGTAATATCTTTCTTACAAATTCCAAATATTGTTTAGGCTCACGAAATGGTGAAGATAATTTATACTCACTTACGTTTTGCAAATACTTGAGTAAGTTTTCCCTAGTTCCGGCCTCATTACCTATAAGAACTTGAGAATCATCATAAAAATATACGTTTATCTTTCCTTTAGGAGAATTTCTAATTACATTGTCGGTCATTCTTTGAGCTTCGTCAAAGACTATTAAGTCTATATCAGTCTTACTCTCTTTACTCTTAATATGTTTAGAGAACCATTCATCAAACCCTTTTTCTCCTATTCCTATATTACGTCCAGTGGAGTAAAACATTACTAATGAGGAAAGTTCGCTACCCAAAGCTTGTCTTACAGCACTTATAAGTCTGTTATTTTTATAGGCTAAGATTGCGAAATAACCTCGGCTTAAAGCCTCCAAATATAAGGTAATTGCGAGCAAACTTTTCCCAGAACCGCTTTCACCTTGTATGATAAAGTTTTTCCTTTCGCCCTTATCCAGAGAGTCTAAAACGTCTTTTAAAACTCGCATTTGTTCTTCCGTTAAGCCGTAGCCAGTAGATAAAAGAACTTTGCTTACGTCTTTTAATCGTTTTTCTTTTACTTTTTTAACAAGTTCTATGAAAGTGTGTTTAAGCATTAGCTTACTATCTACAATTTTTCTTGCGTCGTTCAGATCGCCAGAAGGTAAATTTTTGAGCTCATTCCTTAGTTCTTCTATAGTTCTAAGCGTTTTACATTCTTCAGACGAATAATCCCTAGTATTGTAAAGGAAAAGCAGGCCTTTAAACTTTAGATTAGAAGAATGGAAAAAGTTTAACTTATATACATAATTATTGAGTTGGTAACAAGGATCCAAGTGAAGTTCTCCGTCTGCCTCTACTACGTTATCTCCTAATTTCTTTACTGATCTCCAGCCCTTTGCCTCAACTACTACAGCCTTATCTTTATCTGCAAAAATAATGTCTGCTCTTTCTGTGAAAATAGGGTATTCTAGGATAATTGGATGAGGAACGTTCAATTCCTGTAAGAGATCCAATAGTTTCTTCCACGCATTTTCTTGCTTGATAGAAGGCTTCTCGTTGTAAGTTTCAACATATTCATTCACTAAATTATTGTAGGCTTCGTCTGTTGCCGCTTTGAGTATTACTGGGAGCACACTATAGATTACCAAAATAAATTATAAATTTTCGCTCAACTCTCTCTCTTTTAACATTCTAAATGGCAGCATGGTAATCGAAATCCTATCTTGTATAGTTGAAACCACTAATTTCGAGGTAATAACATATGAAGCTTTGAGAGGAAAATCAGGAGAAGTAAAGGCTAGTGAGAAGGAGCTATTAAAGAGAGGAATTACTAAGGAATATATTGAAGATTTCATAGATGACGTTGAACATGCTGAGGGAGCAATCTGTGGAGAAATAAAGAGACTAAATGCATATCTTGAAATATTGGACATTATAGGACTCTAATAATACTATGAAGGAATTGGATTGAAATAGTACTTCTTATTTCATGATTGAGTATAAAAGTTTCCATTAGCATAAAAACTTAAAGCAGATAATATTTTTATGTACTATAAACAATAGTTAAGATTTTATATTTGATATCATATATAATCATATGTTAATGAGATATTGGGGTAGAAAACCGTTAGAGCTCATTGATAAAATAATGAATAATGTTCACGGTACCGTTATTGATCCATTTGGGGGTGGTGGTACAATAGTATTTTCAGCCTTAAGACATGATAATAAGGCTATATATTTAGATATTAATCCTTATGCGTGGTTAGTAACTTTTGTTAACGTAGTAAGTATTGATCCGAAAGAGTTTGAGGAGAAAAGTAAAGAAGTTTTGGAAAACGTTTATTTAGAATCTGTATTTTCTCTTCATAATGATTATCTTTATTATCCTAATGGTAAATTTTTTTGGAAAAGAAGAAATGCTGATAGGATTACAGAGTTTTTTTCTAGAGAAAATTTCATGAAGCTATTTTCTATTTTAAAGAGTATTGACAAAGTTGAGAGTGAAACTGAGGTAAAAATAGCACTTTATGCTGCATTTTGTTCTTCTCTTTTCACGTCTTCAAGAATGAAAAGAAGAAACTCTGGTAGCTGGGGAGTACCTTCTTATTGGGTTCCAAAAGAACATGAAGAAGTGAATGCGGAAGATGCTTTTAAAATGTCTGTTAAACGTTTTTCGTCTTATTTTAGGAGAAATAAAGGTTATGAATTAAACGTAGATGTTAAACTTTTAATAGGTAACGCATTAGCTTTTAATTACCCTGATCAGTCAATAGTTTTCACTGATCCACCGTATTTTGATGAAATACAATATATGGAATTATCCTTTTTCTATTGGGCCTGGTTAAGGGAAAGTAATTTCAAAAAAGTAATTCGAGAAGTTTTAGGCTATGAACCCGAATTTAGAATTAGTGATGAGATAATTGTTAATCCTAATAGAGGAGTTACGTTTGACAAATATATGGAAACGCTAAAGGCGTTCATCATAAAGGTTTCTAAAGTAAACTCTAAGTATCTTCTCTTTCATTATGATAATGACAAGCTAAGAGAAAAGGTTATTAAAATAGTCAAGGAAAATTGGACAAGGATAAAGGTTGATGATTTTGAAATAGTAAAACAAAGGAAAATTGGACCTAGAGGAGGTAAAAAATATTTGTTAGTTTCAAGTCCTTAAGTAGAATTGCTTTTATCTATTATTTCACTGAATTGATCTAATAATTTTTTGACAGTATTCTCGTCTATACTTACTTCTTCAGATTCTACGTTTTTTTGCAAACCGTTGATAGTAAAGTTTGCCGAACCGTGCATAGTTATAGAGTCATCTATTATCAACATCTTTGTATGCACAATTCCTTGAGAATCGGCCTTAAGTTTTATTACCTTAATTTGGTTATTTTCTGCCAATTGTATTGCGTCTTTATTTTTATCGTCGTCTAATGTCACTATCGTAATATCTAGGTCTCTGTAGGCTTTAATATTAGTGAGATCGTCTATTATATCTTTTCCTATCCAAGGTGAAACAATCTTGATGTTTTTTTGAGCCAGTCTTATTAAATCAATAAATACGTTATATAAGCCTTTAGTAATTATGAAGTTTGCTTCTCCCATCCAATCCTTATATGTGCTCAAGAATTCACTTACTAACTCTCTACTTACAAGAAACGGCTGATCGTAAGGACCAAACATACAGCCTTTATCCATACCTACACAAGAATTGCAGCCATCCCAACATAGCGGTAAAGATGATACTACGTCTTTAAACGTTTGCCTAATATTGGAATCTTTATTAATTTCCTTTCTTTTAACCTTTCCTACATAATTTCTTACAGCTAAGTGTAAAGGATGAGTATATTGATATTGCGAACTCCATTCATTATAGACGTCATAAAGTATATCTAATATACTTTTATCTATTTTACCATTGAAATTATAAATGGTATTCTTCATGTTATTTAAGGAACTGTTGAATCTTTTTTCATGATTTGGAAAGTCTAAGGTTAATATGTCACTTATAAGATTTAGTAAGTTTGTATCTCTTTTTCCTATCATATTAGCTATAGCCCTAATGTATCCTAGTCCTCCATAAACACTTTCAATAATATATACTGCTGATAAATTTGCGAGCTTATTATTGCCCATTAAGTTACGCAAAATAGGATGAGTTATAAAATATGTTATGTCATTAAGTATAGAAGATGATGGGGTAATAGGTATTATTATCTTGCTAATGATTATGTGAGCCAAAGTATGTAATAATACAAAGCTACCAAATTCCACGAGATCTTCATTGTCACAATCATTTTTTTGCTGATTTCCTTTACGTAAATCGTCAAATTCTTTTTCAAATCTTTTCATGGCATTAAACCCTGCATTACTATTATTTAGATTGACGTTAAGCCTTTTTTTAGAACCGAAGTATATTTTCTTTTTAACGCAAAGCCATGCTCTTAGTTTAGAATTATTATCAAGTAAATATTTTATATAATCCTGTAAAGTACATATACTGAATTTAATTATTATTCCATTTAATTTTCTAAGTCTAAAGCCTATTCCTTCTTTATAGCTTACCCATAGAAAATCTTTATACATAAGGTCAGCATACTTTGAGTAAAAGATTGAAGCATCGGCAAAAGCATGTAATTTTATCATATCGCTAAACTCTATCTTTCCTATTATTCTCTCAACGTTATCAATTTTAACGGTAATTAAAGAAATTATTTTTCCTTTTTTCCCTATTTCTCCTTCTTCTTCTGCGAATCTTACGATATGTGGAACAACAGTGTATAATCTCTCGTAAGAAACTGGTCCATCATAATATTTACAAGCATTTTTTCCTTCGAATACCTCACATTTGTTCATTAATGGACATTGGTGTTTATCATTAAGGAGTATGAAGCCATATTTACAATAATATCCATGAATCAGAGAATCATAGTTAAAATTCATTAATTTAGGAAATATTGATATAACGTCAGTCTTAGAAATTTTGTTTCTATTTTTCAAATTCATATCCTCGTATTTTATGCTGGTATTATTGTTCTCGTTGAATAATGTTGCATTAATTGTTGAAGGTAATATAACCTTAAAGCTTTCTCTGCCATAGAAAAAAGGCGTGTAACTATCTACTATGCCGTTATTCCAATTTAGATTTCTAGGTGTTGAATTTAAATATGTTATAGGTACTAAAATTATTGCATATTTTCTCCTACCGAATAATTGTTTAAATGGCGTAAATGTATAAAGTGACTGAATTCCACTTCTTTGAGTTCCAGAAAATTCACTCATCATTATCACTCTCGTCTACGTCTACAAGTAAGTTAATATTTGGCGAAGGTGGGAGCATTAATAAACTAAAGAAAACATAATTTGCAAATATCTTATCTAAAAGTGAAAACACATCTACATAGTTTGATTGCGTAATCAATGTTTTATTAAAACTAGAGATAAATCCTATTAATCTTAAATACTTCTCATAACCTTTATCTAATGCAACATTAATTATTTTAACTAAATCTCCAGTATTCTTAAGGGCTTTTTCAACGCTACTTTGTATATTTGATAGAAGATCACTTTTTTCTTTTTCATTGATCATATCTAGCAGATTATTTGAGGAATTGGATATTTTTATGTTATCTAATTTTTTATTAAAATTCTCAAGATTTTTCAATTTTATGTTTAAGTTTTGTATAAGAGATTTAAGACTATTATTACTAGCTGTACCAGAATATAAGCTATCTTGAATTTCTTTTACTATTTCAAAGCTTTTATTTAATATATAAATAATTTCTTTCTTATCAAATATCTTGAGTTCATCAGTATTTTGTTCTTCTATAAAATTTGCTGCTTCTGATATTGAATTGAGAGTATTATTTATGTATTCGTCTATTTTCTGACTAATTTCCATATCATTATTTTCATTGTTAATAATAATTTCCATATCATTATTAAGCTGCGTTAAAGTATCTTTTAAGGTCCGTTTTAGATCTTCGTCCGAAAGGTCTAGGCATAGTTGCTTCTTCAATTCTTTCGTAGTATCTTCTGAAGCCAAGGCATTAATAGATTGAGAGATTAATTGCCTAGCTATATCTTTGCACTCATCATATTTATTTACATCACCTACACAAGTACTAATACCATTAACTGCCCATTTTAAAAGAATGTATGAAAAGATATGCTGTAGTGTAATTTCAATATTCATAGAATTAATTGTAATGAAACGTAATTTTGAATTTAGGTTAGTTAATGTATTTCTGAGATCGTCGTTATAGATATATAGTGACGCATAAGGTGTAGATTGTAATGTTAATATACCAGTAGCTATTCTGTAACTATTTTCGTTCCTTCCCGCTCTTCCTATTCTTTGAATAAAACTCTCTTTTGACAATGGCAATTTATGTTGAATTACTAATGCTACATCTCCTATATCGATACCTAACTCCAATGTAGATGTAGAAAATAGAAGTAATTTTGTTTTATCTTTCTTGAAGCTTTCTTCTATTTCTGATCTTTTTTCAGGAGACAAGAGAGAATAATGTTCATCTATTCCATTTTTCATATTCTCGGCGAAATTTCTCAGTTCGTCGTCGTCTCCACATATCTTGCTATAGGCTGCTAGGAAAGGCCAATAGTACTCGTCTTTACAACATAAATTTTTAGGATCTTTGTAACAAAGATGATCCCTTATTTCTCTACCTTGTCTTCCTCCTAGAATCGTATTCCAAAAATATTTGTAGAGAGTATCTACTCCCGACACGCTATCAGCAAATAGTATACCTTTGCGATTGTACTCCTTAAGCCAAGTTAATGCCAACTGAGTTACATCCTCAGTTAGTGTTTCAACTCCTCTTTCTATGTTAGGAAAAAGAAATTCGTATAATATTATTCTCTCCTTTTTATTTCCTAAATGCTGATTTTTATAATAATCTTCTAATGATAAAATTTCTGGTATGCAATTTTCATTCTCACAGCAAGCTATTTTAGTTAGGAAATTTTTATAATCTGGAATAGTTGCAGATGAAAATATTATTTTATCAATATAATCTTTTTTTGTAAGATTCTTCAATGACTCAAGTAATCTTAAGATAAATTTCAAGTGTTGAGTATATATACCGTCGTAGGCATGAATTTCATCAAACACGATGTACCTAATGTTTTTAAAACTCTGTACTGTTTCTCTATTGAGAAGTCTCCTATAGAGTATCCATAAATTAGTAACTAAAATATTTGAGTACTCTTTATGGATATCTTCTCTAGTTGCAATAAGGTAATCGTATTTATGCCCACACTTTTTACATTCTATTATCCTATTATTATATATGAGATCTCCTCCGCATTTTACACATTTTAGTCCTCTATACGCATCACCGTTTCTTATTTCATATGCCTTTGGTGTATCTCCATCTTCTAATGCAATTGTAACCATTTTATTATATTTTTTTAATTCATCGTTAATTATAGAAACATATTTAAGAAGTCTAAAGATTTGATCTTTTGCCAAAGCCTTTCTTGGATATACAAATACTATATTGATTGGTTCTTCTCCTCTAATTACGCTTTCTAACAAATATACAAGCCCAGGTAAAGTAAATGCTAATGTCTTTCCACTAGCAGTAGGAGCTACTAATGGTATATACTTATAATCAGTAGAGAGAATTTGCTCAATTATATACAATTGATAACTCGATATACTTTTTATTTTAGGATCATATTCGTTTAATATTCTCTTAATAATTTTCATTATAAGGATAACATCATTTTTGGATACTCCATCTCTGTCTAATTTATCTTGAATAATTTTAAGTATTTCATTAAAACTATGCGCTTCAAAATCTGGAAATGGTTCTTCTTTTAACTCAATATCATATTCTAAAGCGTAAGGCGAATCGTTTTTATAAGCTCTTACATGAGCGGCCTTTGCTAGAAGAGCCATATGGGCTGTCCTATATTTACCACATAAATTTATAATCATTTTATTATTTATCAATCCTGTAAGTAATTGATTTCCATTATTTAAATTTAAATTTGATATAATATTATTTAACTCGTTGGCATCAAGAAAAGTTGTAGCAAAGTCTTTATTTTTCTTAAATTTATCAACCTCATACTTTAAAATCGCTTGATATAGTCTAATTTCATCTTCAGTAGGTATTTTGACAGCCATAATATCTATACCCTATTTAATAATCTTGAAGTATAAATTCTTTTTAGCTTTTGAATTATCTCTGTTATAGTTTTATATTCGATATTATAATCATTAATTATTTTAATTAATTCTTCTTTTTTATTAACTATATTTTTAGTATTATCTCTAAATAGATTCAAAAGTTTCCTTCTTTTAATCTCATCTTTTAAAATATTATTGACTAACAAAGTGTATAATTGTTCATTCTCAAAAGCAATGGAAGTTAGTTCCGGATGCACAAATATTATATTATTTCTATTATCAGCAACAAAAATCCTTATTTTAAAGTCGTTATAATTAAAAGAAAACATCTCTTCTATATCATTCCCAGATTGTATGTGAATATTCATTTTTATTGGCGAACTATTTACCTTTTGTATAAATTTAGAGAATTTTTCAATTATATTTTTGAATTCCTGAAAACTACATATTTTAAGAAAATCATCATTATCTAACTTAGTTACATATATACTTCTAAGTATCATTAGGATAATCCTTGATTTTATATCTAATTTATTATAATATCCTCCTTTTTCGTTATTATACTCTATAAGGAAGTTATTATTGCTTATCTTACATTTATCCTCTCCTGTTCTCTCTATAATAATCCTCTTAACTAATAGATACGTCAATAAATTTTTCTCTATGTTATTATCTAAATTAATATTTCTAAAATTTAAATTTATATCCAAATATTTACCATTAGTATCTATACTAGCATAAGTATGATAAATTTTGAATATAGTTAGGTATCTTTCTCCAACATATATGTAAATGTTTCCACGAAATATGTTATTCTCGTTAAATGGTAGACTCAAAGAAAATAGCCAATATGTACCATAAATATCCAATAACTTATCATTAGATAAAACATTTCCGTTATGACTTTTATTGTAATCGCAAATACCACAAGAATGACATATTAAACTCTTGTCATATTTAACTATCTTATTAGAAAATTTTCTGAAAAAATCTTTGTGCTGTCCCCAATATTTATAAGTCATTATCCTATCCTGAGTTAAAACATATATTGGCAGAAACATACCCGTATTGAATACGTTCCCTTTCCAAAGAAAAATTCGTTTGACAGTGCTTGGACCTACTAGATTACCTAAATTAAAAAAGTATACATGGGTACCACCGTAAGCATAGTCCCGAATGCTATTATATTGTTGCTCGTATTTATTGCAACCACGAAGAAGGAATTTTACGTGTTCCTCATGATCAAAAGTAATCATTATAATAACAGTATTACACAAATATTAATAAGTATTACTCTTTCTATTTATATTTAATGGCAATACTTTGTTTAAACATTAATTTATCAACTACTTTGTAGTTGGTTTGTTTTCCAGACTAAAAAGTATAAAATGAAAGTAATGAGATTTAATTTGGAAATAATTTATGAACCATATCTCGCTTAATCATTATCTCTTTTTATTAATTCATTTTCGGTTAAACTAATAAACTATCACATAAATTATGCTTTGTGGGTTCGTTCAATATATTTCAATAGAATGATACAGTAAAAATATGTTTTCTATAGAAAATAATATCTCTCCTAAATAATTTACTATACTACTTCTTGACCTCAAAGCCCTTAGCTCGACCAACAACAAGGTTAGCCATGTACATCATCCAAGCATAAGCCCAAAACTTGAGCTTAGCCTCAACAACTTGACCAGCAAAACTCGTAGCCCTAACAGACTCACCAAAAGTACGCTTAACCGCTGAGAACAAGGATTCAACCAACCACCTATTACCATAACCCTTCTCATCCCGCCAACGTTCATAACCCAACTTCTTGAACTCGCGCACAGCCTTACGCCTAGCAGGATGACCACGCCTAGTAGAAGCGTCTTTCCTAGGAGGAACAACAACATCAACACCAAGATTATAAATCTCGTTAGTATCATAAGCCTTATCGCCATAGAACCTCTTAACTTCCTTACCCTTTTCCTTCAAGTCCTTTACAGTATTTGAAGCAGATTCGGCCTCATTACTCGTCACCTCAGCGCTTACTATCTTGAACTCGTCCTTCTCCATAACTACTTCAATCTTAAGGAATTTTGAATCCCTCCTTTTGCCCCACTTTACTACTACGTATTGTCCTCCCCTTGTTGTGCTTATTCCAGTACCATCAGCTATTACTTCAAGTTCGTCACTCGCTTCAGGGAAATTAATATTCATGTTTCTTACCCTTTCCCATATTGTTGAATAATCTAGGCTTGTTGGGATTATCTTCATTTCTGCTAGTGCGCTTAGTACTCCTTCTATTGCTCTGTAAGGTAAGAATAAGTGTAGGAATGCTAGGAAGTCGTTGAACTCCTTTGGTGCCTTGTACTTGGTCTTAGCATACCTGTTCTCTTCCTGGAGTAATTCCCACCAGTGTTCGAAGACGTAGAAGGGGAACATTAGCTTGTATCTAGTTACCACGTTCTCATCGTACTTGCTCCAATCCCTAGTGTTCTTCTTTTCCATGGGTAATACTCTGCATAATTACTTAAAAATTTTTGTATAATTCTGAAGCGATCCACAACGTACATAAATTATAAATGATGAAAGTAAACTATTTCTATTACGTAGTCCTTGTGGGAATAGTTTATCTGTGGCAAATTTACTACCTTCATAATCTTATTCCATTGTTAGTTTACACGATTCTTTATTCCCTTTTTGTATTAACGTTCTTAAAAAGAAAAATTAAATATTCGACCGTTTTAAACATATTAACTTACTTTGTAATAGTAATTTACTGGATGATCTTCCATCCAAGGTACCTTTACGGTAATCCATTCTTTCTTTTTTCTTCTATAGTGGCAATAATTTCAGGAATATTAATAATCAAAGACGAGGAGAAAAAAGGTTTAGGGTTACTTTCCCTTGGAATTATAATAAACGTAATTATGGCTACTGATAAGAATTACATGAGAATCTCATTTTTAGATCCAATATTCCTAACCATTTCGTTTATTACTTGGAGAATTGGAAATGAGAGACCGAAACTTCAAACTTCTCAGACTGTATATTATCAACCGCCAATAGGTTACACTACAGAATTGAAGAAGACAACTTTCATTTTTAGGGGATTACCTAAGAATTGTGCGCCTACGTTAGAAGTATGCGGAATAAAATATACACCAAACATAGAATATCAAGGCGATTATATTCTTGAATTAACTTTTGAGTGCTCTTGGAGAGCTAGAAAAGTAAAATGTAATGGAAAAACCTACAAGCCAAATAAAGAAAGCGGTTTCGCTAAATTAGAGGATAGTATAATTATAAATTACTACGAGGATGTTACAATAACGCAAACTACAAATAAAATTAAAAACACTCAAAATCCACCAAACTCCTCATCGGTCCCTCAATGTTGGATAAACAATAAATTATCAATTTATAAAATAGATGGAATTATAGGCGAAGGAGGAACAGGTTATGTACTTAAGGGTAATTATTCTTCAAAAGAAGTGGCCATTAAAGTTTTAAAAATTCAAGGGAATCCTCAAGAGTACTTTAATAACTTATTGCAGGAAGCATCGAACTTGATAAACCTTTCGAATCATCCGCATATAGTAAAAATTTTCGCAATTAATAATTTAGATAAGTTCATTATCGACGAGATAATTAAGGGAAATAAATCACTATATATAAATAATCCTCCAATGATAGCAATGGAGTTGATGAGAGGCTCACTTTACGACCTACTTAAGGAAGATGCTTTCTTTTACTCAGTTAGATGGAGGAAAAACATATTTAGAGCAGTTCACCAAATTGCTGAGGCGTTAGATTACATGCACTCGAAAGGTTACGTCCATATGGACGTAAAACCTCAGAACATATTCATTAATAAAATTCCTTCAGACCCCTCAGAATTAGATTATGTAGAATTCAAACTCGGAGATTTGGGTAGTGCAGTTAGAATAGGAGAGAAAGTCAGACAGTTAACCTTAGAATATTCACCTCCAGAGGCGTTAATAGGAAAAGCTAATCCTTCTTTCGACGTTTTCGCTTTGGGTATGACATTGTACGTATTGCTCAATAGAAAAAATGATAGACCAGACCTAAAAGAAATGGATGAATCCTTCAATGGAGACTATTCAAAAATAGCAATTTCCAGAGAGAAGCTAAACAAATGGAGTGAAAATAAAGACGATGTAATAAGAGGAGCACTGCAAATGAAATATAGTATCAAATATTTCATGAGTAGATTATCATCAAGTTAATCATAGTTTAAAGAAACTTCACATTATGCCATTTTATTCTCTATAGCTAATAATTTTGTATATAGTATTATACTACTATTTATGTTTTTATTTATATTTAAGTCGACATTTATATCTAATGCCAAAATAATATCATGTTCTAGAGAAGTATTTGTTGACTTTTCATTTTTATGGTAATTCGATGAAGAAGATTTTCATAAAGTGAAAAATGCCTTTCTATATCTGCGTTGAAAGATTTATACATACTATGGGAACGTTATAGGTTGTTCATAAGGAATGTCTGTAACACTTCATATTTATAATACATTGACTTAAATAAGTGAAAGCATATAAAAACTATTTCGATGATTTTTCACGATCATGAAATAAGAAAATTTTGAGTATCAAAGATACTTTATAGTTGATTTTCATGCATTGACCTCAAATTATTAAAATCTCACTTTCGAAGTAATCTAAACGCTAATATTTCCATAAGGTCCTCATTCATTTAGATAGTTCGAAATAAGAAGAATAACCTAAAAACTGGAAACACTAGCTTATTCAAAAATATTAGGAAAGAGTAAAGTTTTTAAAAATGAATATCAATATAATTTTGTACAGACCTCCAATGACTACTATGACCGAAGTTAGATTAAGCGATATAGTAATTTTAAACCCTGTATATTTTGACACTAAACTGGGGATAATTACCTTGTTGCCACAAGTGACTCAGCCAGGAACTTATCGCCCAATTTATGCAGCTGGAATAGAGGGAATATATAGGTTAAGAAGATCTGGAAAATATTTGAAAGAAGCAGGTTCTGCCTTTGGAAGAATTGTATTATCAATTATAGGAGGTTTTATATTATTTTTCTTAATAATTGCAGGAGCCTCTTTAATGTATTCCGCCACAAGTGCTTTAACGGGAAATACTTTTATTTTATCAACAATTTCAGCTCTTATCGAATTATTTATTGGATTAGGTATAATAATAGGAGGAATATTTGGAATTATAAAAATAATCAAATTTGCGAGGAAAGCGAGAATGCCAAAAACTGTTGAAGCTGAGTTAGTTATTCCTTGGAAAACTGTAAAAAGGATATCAGTTACCGATGAAAAGCAAGTCAATGTTGGAACTTTAGTTAACCCTATATATAAAACAATAGGTAATTGGCATGTATTAACTGATGGGAGCGATTACCTAATCCCTGAGGTAGACGATCCGTTCAATAAATTGGATTATATAAAAGCTAAATTTAACTTAACAATTCTTGATTAAAAGCAAAATTCCTTACACTTAACCTTGAAGTATATCTTAATTTTAACTGGAGTAGCAGTTTATGTAAATTTAATTGTATAAGATGTAGTTATTGTCAAATGTATTAGAATGTTGGTATTTCCAAAAATCCTTATCACTTAAGAAATGAAAAGACTACACTAAATCTTTAACTACTAGTGTTTCTAATTAATATCGATGCTTTATATAGTAGTCGAATTTTTACGGATCTTAATCTTTTTAGAATTTGATAAATTCTAAATTTAGTGTCTAATTGAAAATTAGTTTGCCAATATTGATGAGAAAAACTGAAGAATTCCTATATAGAATTCCACTAAACATAATATCAATAATATTTTTGACTTCTTTGTTTGTAATTTATCTTAACAAGGGGTTCAAAGGGGGCGGAAGACTCCATCCGTGGAGATGGATAGGCTCCACATGCTTCGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGAGGAAACCACTCGATAGAGGTTAACTTTAGGATCTTCACTTTGTATGTGTAATACTCTTTTTCTAATTCTTGAATTTTTCTATAATACGCGTTGTATTGTTAATTTTGTTAGGAGATAGTGTGAACTAACTATGAGAACGTCCCCTTAAATTTTTGCACGCTCCTACTCGGGATGTTGTCCCACATGTTAGATCGCGGGGGACGTATAGCCAGCCTATCCAACGGGGTTTTATCCCCATGCCCACTTTCGGCTTGTGTTATTTTCTTGTTCTCTTTATAAAAGTTTTACTCTTGTAAGGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGCCCCCTTTGTGGTTACATTTAAATACGTATTTTTCAAATATTCTATTAATGGCAGTCACTGACGGAGTAAGCGTCACTGAGACGCCTTGGTTAAAGCGAGGGTCTATGTGGTACGCCTCTGCTCCATTCAACAGTCCCATATTGGGATACTGTAGGTTCACATTAGTGCTCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGTCCGTTAGGGCGTGACAGTTCACAAAGAGCCTAATCCAAGAATGGACTTAAATGGTCTATTAAGAACCATATAAACTCCTTTATTACATTAATCATTTTCATAATTTTTTTATCATCTATTAGCAGTGATGAGAGCAATACAATAATTCCTATTATAATAAAAGAAGGCCATAGTGTAGCATACCATGGCGGTGGAACGTAAACACGAAAAACGTCAGGCATTCCAATTATCTCGGTGGGAAATGACTTAATCTCTATTGTAGGATGGTCTATTGAGTGAAGATAAACCGCTAACCCTAGAAGTATTATGGAAGATATTGTTAAAACTATTTTTAGCTTGTCCATTAAAATAAAAAAAGAAAAATTGGCTTATAAGATTTTTCAAGAAAATAGTCTAAAAATTACTTCGTTTTCGATTTTATTCTTCCGGTCTATGAATTTCGAATGGGCTTTTCTGCTCGCCAAACTCGTAATTATACCATTTCTTGTACAATACTCTAAAACTCTTGTATAATATTCTAAAACTATGATAAAACTCCATGTGCCAACTAATGAATAAAATTACAAAACTGGTAGTTAAGACTTCAATCCATAAGTTAGCATACCATGGCGGAGGTATCATGCGAGATGGGTGTGCAAGCGGCATCCAGTATGGACCATGCTCTGTCAAAAAAGTAGGATGGTCTATTGAGTGAAGATAAACCGCTAACCCTAGAAGTATTATGGAAGATATTGTTAAAACTATTTTTAGCTTGTCCATTAAAATAAAAAAAGAAAAATTGGCTTATAAGATTTTTGCTAAAGTAAAACTGTCGTGGTACCGCTTGGTACTGCAATTTCTTGCTGGTAACTCGTTACCAAACTTATAAAAGGATTAGCATACCCATTGACTACTATATTATTAACACTGGCATATGAATCAATACCGTTCTGTGTCCCTAACATCCAGTAATCCACATCATAATAATTTGTGATATATTCTATACGACCTTCGACATGGGTTGATGTTTTTGCTATATACTCTTGGGCACCCCATGCTACTCCACTAGGTGGCACCGATGCACCTATCATTGCACCGGAATCTTCACTTAAATCATTGTCATTTGATTGAGCAGAAACTAAGTTTTGCCCATTCCACGGTTGATCCCATTCTTGATTACCTTTCCATAACTGGAACAATGCTACAAATTTAGGAAGATCTTGAATAAATATATTCTGTGATTGTGCATTAACTTCTAATGATATACTAGGATATACAGGATATCCGAACAACGATAATTCCTGTGAAGTAGAGTCTACAGAGGTGAACGAGATACCATATACAATTATATTTTGTGTTCCTCCTGAAGATTTATAGCATATACCAGCTAATCCGTTTGACGGAACTGTAACATTAGACGGAATTGGTGTATCGGGATACTGAACTACACCACCAGAATATTGAAAAGTAGCTTCCCATTGTCCATTTGTAGATCCGGCTTCTATTATGAACTGCGAACCAGAATTATAGTTTACGGATTTTAATGGGAAAACTACCAAAATAGTATTTCCATTATTTAGAGTAAATCCAATATTCATTTCAATATAAAATCCATATCCTATAAAGTCAATCAATGCGAGTTGAACTATAATTCCAGAAAAATCAGAAGTTGTAACTGAAGTCTTTATCGTCCCACTTGCTTGTATAGGTAAATTAATCATTTCGGCCATATAATTAATTCCATTAGTGTTAGTCATAGGGAAATACGAGAAATTGTAAAAATCTACAAGATAACTATTTGCACCTGTTAGGTTCTGTGAATATGCTGATATGGCCCAATCATATTCAGAACTGCTTTGAGCCGTTGTTAATACCGATGGTATTATTGATATTGGCATTGGTATAAGGGATATTACGAATACGGCTAATACGGCTAGAGAGATTAATGACTTCATTTCAGTTCTGTTTTTACCGAATTCCGTAGTTTTTTAAATGGCAGAAAAACTACTAACTCACACAAATATTATGTTTTTTACAAATATGGTCTAACAATGCGTCTTGGGTAGTAAATGTTTTACCGCAATAACGACACTTAAGGTTATGAGCAGTATACCTAACATGTTCAATCAGACCCTTATAGGAAGAGAAAGGCATTAAACAGATAGGGCAGATGAATGTATTTATTGATTTTAACATAGCATATTTAACTAAGTTATCGTTAAGTAAGTTAGGGTTCCTTATTAACGTTTTTATGAGAAACCTTAAGGCCCTTTTCTGTTCGGTAGACCCAAAATCTAATTAGTAAAAATAATTTTTATTCATTATTAGTGGTTCGTAAAGATTTAATGTAATTAGTTAGATAATTATATGATAATTTTTATAAATTTCCAAGTACCATATTAGATTTTTTATATTTCCACACAATTAACTGAGAAATATTATTATAATATTAGAAAATGATAAAGATGTATATGATAGAATCTGTTTTATTTACATCGATTATTTAATACATTATTCTTAATGCTCTTGATTATGAGTATAATGAAGTATGTTCTTTTACTTATGAAGAAAAAATATGAGGTTTAATGTTGAATTTATATTTGTAATATGATTTTGGGTCTACCGGTTCTTCAGGTAGATTCTTGTAAATTTCGTATTCTTCACTGCTAAGGTGGAAGAATACCCCTTTATTCTCTTTACCGTGACTGACCTGATATTTTTTTGGTATCAGGCATTTTCCAACCTCCTAAACTTCTCTAAAGACAGTGATGAAAAAAGCGATATACCTAATAATGTGAAAATGAATATTGCCCACTTCATTTAGAGGAAGAGGAAAGGGTTTAAAAAAGAACTAATCTATTAAGAACCATATAAAGTCCTTAATCCTTTTAATTGTTACTTCCCTAATTATTTTAGAAATTGTTTTTCTGAATACGAATATTAAAGTTGAAAGTAACCCAATTATCCCTATTGCAAGAAAGTAAGGCCATAGGAAAGCGTAAGACGAAAATGGTGGGCTACTCATATAAGAGGATGTTATCTCTGGTGTTGTAATCTCACCCGGCGGCGTCCCATTATAATATATTACCAATTCGTGATTGCCAATATGTATTATTTCATGAGGAATATTAGGATTTATTTTTATTGGAGGTACATATATTGAATGAAGGTAAATTCCAATTCCTATGAACGCAATAAAGAGTAGGAACAAAGGAATTACTATAATAACCTTTCTCATAAACAGAAAATAAACCCCATAACCTATAAATCTAATGAATACAAAAGTATACATAAAAAAAGGGATTTGACTTTAGAGACCATATGTTGTTTGATCATTTGTAGTATCATAAAACTTATATGTAAACTGCCATAGCCCGTCTTGCATCTGTCCACCATTATAGGGATACGCATATTCATAACTATAGTGGCTCAATTCGTCCAAATTATATACTTGCGCTTTAAACTCAGTGTTTGGCTGAGGAGTTCCAGGCCCTACATACGTTTGTCCAGACGATATATAATCGAAATAGAAGTTGTATATTTTACCACCGGATATTTGAGGCATTGAAATAAAGTTTCCACTAGAGTCGTTTTTAGGCGCTTCTACTATGGTATATGCTGAATATGGTACACTGCTAAATACCCATGTAAACGTATTTGAATATTGCATTATAATATCTTGTAGATTACAATAATATGCAGTTAAATCCACATTTACTTTATTGCTACCTTCATAATCCATACACATATAAAGATAAAGCTCTGACATTTCTGTCTTGGTAATGGGTATAACCTTATAATAATTGACAGTGGCCCCGTTATCTATCGTCATTACAAATGGTACAAGCGCATAAGATCCGTTAGGATACATATTAACACTAAATCCTGCCCGGAGGAAATTCACACCTATATCACTAGATTCTGAGGGATTGTACGGCCCTAATGCAACTCATATTCCAACAGCATCATGCCCATTAGGATTAGGTATATAATGGAATGTAGCATTGCCCAAATATGCAGATTCGGCTACAGTAGTTATTTCGTTCCAACCAGAAAATAATCCTCCGTCAGTAGACCAATGGTTTCCGTATATTGCGCCCACCCAATTGGCGGTATTGATTGTGTTTATTATGTCTTGTACTCCTAATTGAGATTCTGATATTGCGTTTGTAGGTAGTATTGACATGAAGAATATTGTTGCTATAGCTATTCCGATTAGAGTAGAATACTTCCACATTGTGGTTGGGAAGAGGGAAAAAGGGTTTTTAATAGCATAAGTGATGTTTTTTGCAGAAGTGGTTTAGGAGGGTCTCAGTATCCTTAAATTCCTTTTTGCATATTGGACAAGTCTTTGTATGTTCTGAATATCTTATATGCATTTTTAACGCTTCAGGTGACGAAAATGGTATAAAGCAGAATGGACATACATAAGATGAAACTGCTTTACTTTGTATTAATCCGAATAAGTATAGCCTTTAACTGAAAAATCCATAAACACAATATAGATTAAAATTCTTAAGAATTATATTATTTAAAGAAAAAATTCTTAATAAACAGTAAGACTATAAATTTATTAGAATCATTTACTCTACTAATATCATATTTATTCAGATCATGAAAATTCATAAGGTATTTATACACAAATGTAGGTATTTTTACTAACATACAGATATTTAGTATAGATTAATATTATCAAAAACTTATATATTATAAAAACAAGGTAAATTTGTAAAGGGAAATATGAATGACCCCTCAATTGATTTTATCACAGATTTGTATGTTTCTTTTATAAATAACTTGACTTTCAATTAATGAGAAAGTCTTAATTTCTACCTCTACTCCTTTGTGTAAAGCCTCAAAGAACTTTTCTGAGAATTTCTTATCAGTTCTCTCATTAGGGTAAAAACATTTAGCATCGTCTCTCATTACCAATACTAATAACTTAGCGTTGTATCCTTTTTCCTTAAGTTTTATTAATTCTTCTAGATGTCTTCTCCCCCTTTCAGTTGGAGCGTCTGGAAACATTGCCACACCGTTTTCCACAAGACTGCATCCCTTAACTTCGATGAAAGTGTTTCCGTCTTGAAAGTCAATTCTACTGTTCCCTACTTTAACCTCAGCTTTGGCGTTAGGTAGGAATTTCCTTGCAATATCATTATGAATGCTGGAATCAACAATTACCCACAAACCGTTCCATGCTGCAGTAACTTGACAAGAAGTTTTCCTCTTATTACCGTCTACTTCTCTAACTAAAATCTTGTTCCCTGGATAAATTAACTCCTTCAATCTGCCTGGATCATGAAGATGACAAAGTTTTCCAGATTGAGTTAAAACCATAAATCTGTTTAATCTTTCCTTAACTATCTCTTCCTCTAATTTGGGGAATTGATAGACTATCATAGTAGTGTGATGTTTTTATTTTAAAATAAGTCTTTATATTATCCTTTTGATTTTATATTTTTAATGAGTAAAGGATTTTTATGAAATTATTATACTTCCTTACACTCTAGAAGCCAAGGAAACGACTTACTATGATTGATGCAGATTATTAACCAATTATGGAACCATGCACTTTAAGGTCTAAGAAAGTATGACAACTATAAATAGCTCACTCTTTATCTGAGGAATAGTATACTAACAGTAGAAATTATTGCCCTTTATTATTCCTAGATCTAAGATTTTCTATTATTTCTCTTTGATATTCCCTGAATTTTCGTAGAATTTTATCGTCAGTGGTTCCAAGAGACTTTTCCAAGGCTAATAAGAATTTTTCACTAATAGTATCTGGTGTATCGTTGGGTTCTATTAACTCCTTAAGAAGACTTAATGCTAACTTTATACTAGCAGGCGAAATATTATATTCATACTGCGATTTTTTCTGCTTATCTGAACAGCCGAACTTCTCTCTTAGGTATTTAACTTCACTGATAATTACCTCCTTAAATGGAATAGTAGAATCGTTCAAGAACATTTTTACATCTTCAGTACCACACGTATAATCTAAATGAAAAATTAGAAATCTTCTCGTTAGAGCCTCACCAATTGGAAATAAATTATTAGCGTCAATTAAATTCATAGTTCCCACGAACCTTATTTTCTTCAGGACTTCGTCTTTTTTATCTCCTAGTCTTTTTAGATTGGCAAGAAATTCCTTGGCTTCATTATCAATTTCGCTAAACTTCTCTATTTCTTTCTCTATCTCCTCTAAGATCTTTTTCCCTACAGAACTACTACCTACGTCGGACATTAAAGTTAGGATTTCACCAAAGGCCTTATCCACGTCTGCTCTATTTATCTCATCTATTATAACGTAATAATTCCCATTATTAATCTTCACAGCGCTATTATATGCTCTTATAAGTAAACCGCTATTCCATATAATACTTCCTTTCTCCATACTTTCACCACCAATTAAGTCCCTTCTGAACCAAAGAGAGTTTGCTGTAGTGACTTCGTAACAATTGGTATTTTCTCCAGTTAGTTTATCTATAACACTTATTGTCAAACTGGTTTTGCCAGTACCTGGAGGGCCTACTAAGAGAACATTATAGATCTTAAGACTAGCTCCTAGCATTTTAAAGAATTCTTCAACGTTGGGAACTTCAACGTAAAATCTATTTGTCAAACTCATTACATCGGAAATATTTCCTTTACCACAATCAATTTCGATGTTGGAAACCTCAACCCTATTACTATCATCTCTTTGTAGAGATCCAGTAAATAAGGAGTCCCATTTCTCTAAGAATTCGTCTTTATCTCTTCCATCTTCATACATGAGATAACCTAGTACTTTTTTACCATTTATCAAGCTATCCTTCTTTTCAATCCAATAGGAAGTTATTCTGCCATTACGTTCTACTATATTATTTTTTACAAATTCTAACGGTAAAACATAAGCTTTAGGAGAATCCGTATCAGCGTACGTTACTGCTATTAAAAAGTCACATAAAACATAGTTAGGAATAGCGCCTATTGGATTTCTGCCCTTGACACCAGCAACACGAATATAGACTTTACTTCCATTCGGCTTCTGTAATACTAAATGAGGTTTACAACTTAATAATTTCTGATCATCTTTAGGTGGTTTAAAATCTTCGGGTACTTGTGATATTTTATACCCTGAATATTTTGAATTTATCAGTTCATTAATTTTACTTAAAGTATATTTCATGGCTCTTTCATGAACTTCTTTCCTTGGATTACTATTTTTCATGTATATTACTAAAGAATCTTAAATTTATATATTCTCTTCATTCTCATCTGGTCGACATTATAATTTAAATTTAAGATATTTGTTATGTTGATATTCTTAGCATAGTTTATTACCATTGTAATCCCAAATAAAGTAAATGAAAGACTATAGACTAACTGTTAGAGACTTACAATTAATTAAAAAGGTAGGAAAATATTACTTACAATATATACGTGTTATAGATATGGATACTCTTTTAAAGAAAATGAAAAGGAATTCAGAGTATGAGAACGCAATAGCATTACGAAATGCACTAAACGGAATTTATTATTACGTTCTTTACATACTTACAATAGACGTAGTTAAGTCTGCGAAAGAGGCTTATAAAGATAAACTCGTGAGAAAAGAATTTAGCAATGAATTTGCGTCAGAAATCCATGGAGCATTAGATATCCCTAGATCTTTAATGACTTATCCTTCAAAGATATATTCATATTATACGTATCAAAGAGGAGCAGACTCTTCAACATTCGCAGTTTTAGGGGCACTCCTAAGGGAAATATACAGAAATATATTTAAATTAAAAAACGAATTAGAGAAATATTATGAAGAATCTCACGTTATTAATTACTTTCAATTAAATGATTTTAATGATTACGTTAATTTGCTATATGAATATAAGGATAGATTCAGAAAAGGTAAGATTAGAGCGCCTATAGAAAAAGATCCATCATGGTTAAAGCGTGCTTTTAAGATATATATTACATTGGAAAAAATGATAGGAAATGAAATATCTTTAGGAAACGAAAACTCTATACTCCCTAAAGATAAGGATATAATAAAAATGTTATTATGGAAACTTTATGAACTTTACGTATTTTACTTATTAATTAAGTATTTCGAGAAAAAAGGGTACAAAGTTAAGGTATCTAAAAAAGATAAGTTTGACGTAGTTATGGAAAAAGATGGAAAAAAGAAATTTATAACACTGAATTCATCACTTGATTTTTCCTCACTATTTAGCATAGATAACTCTCAAAAAATAGAGGATTTTATGGGAAGACCAGATATCGCTTTAATTAACGAAAAGAAAATTATATTCGAATGTAAATATTCAACGTCGGCTTCTTACATTTCACAAGGAAGGTTCAAGGTTATGGCCTATATGTATGAATACGATCCTAATATAGCTATTCTTATTTATCCTGGAATTGAGAGGATAAATAAATTGAATTCTGATAATATATTGAGTGAGAAAATAGATGAGAGTATAAGAAACAAAGAGAAAGATAAAAAGTATGTAAAGCCCATATTTAAGTCTAGAAATAATAAACCTAGACAAATGTATATAGTAACTATTGATCCATTAACGGAAGAAAATAAACAGGTCATGGAAAGCATAATGAATGAAATATTCGTTTAATATTTTTAACTATAAGCTAATATGGAATTATCGCTTAATGGCCTCTATACTAATGTCGAGAAAGGCTGGTATGATTTTACAGTTTTTGTTAGTACTCTCAGAAAGTTCTTAGCCAAAGAGTACAAATGAGAGATAATAATTACAAAGACTTAATGGAACTATCAGTACTGAACAATCTTTACAGTTAGCATTAAAGGCGACGCTCCTTGAGAATAAGGGTAATTATCCTTTTACTCATGAAATTAATGAACTAATAAGTTCTTTAAAAAATATGAAACCCGAACTGGTTGAATTAGAAAATAAGAATAAAGAATTGATAGCATTGTTAAAACTATCCTATACAGGGTCAAGATACTTTCCTAGTTCTTACGATAAAGATACTGCTAATAAGTTAATTAGTTTGGTAAAACAATTTTTAGAGGTAATAGGCTTATGGCAGAAAGAATAGAGTATTTTAATAATTGGAGAAAATACGCTTATGAGATCTGTGCTTCGCTAAAGAAGGTCTTACAAGATGTAATGGTAGTAGTCTTCGGTAGCGTAGTTAGCGGGAATTATGTGCCTTCTTTAAGTGATATAGATATTCTAATTGTAAGTGATAAGGTTGGCGGTATTTTATGGCAGGCTAAGATGAACCTTTACATATTATCTGAACTTAAGAGTGATATAACTCCTTTTGAATTTCATTATTCAAATTGGAAGGATTATGAGGAATTCTATAAGGAATTTTTCAATCCTAGGGTTGAAATTAGATGCTAATTTGTGAAATTCTTCAGTTTTTCTCAATAGAAACGTATAGCTAACTTTTAACTCAACAGAAGATTTAGAATCTATTTTACTTCTAGCTTAAGGCCTAAAAAATTCAATCAACAAGACAGATGTTAATTAAAAAATTACATATGTTCTTGTTTCTTTCTCATAGTCTATATGATCTCGTGGACCTACTCCTTCAATTCTTATATTATAGCCTCCAAATTTAGACGTTGAACGCTTTGTGTTAATCGATATCCGTGCTGCCCGTGCAAATACATATACCGAATATGTAATATAAGGATTCAAATACTCAATTGGCTCATAAGCAGAAATTATCTCCTCTTTATCGTTTTTAGCCTCTATTACTAAAAACTGTTTACCTAATGCTTCAATAGATACTAACCTTATTATAGTGAAGACATGGTGCATGTTAGCACTCAAATCTAGAAAGTATTTATATGCTGGTATTTCCGTAAATTCGTTATTTATGAATTTATTGCGAACTTCTACTACTTTATCCAAGAAATCATCTTTGTCTGAATTAAGAGTACTAACATATGTGCAATTCGGTGCTAATTTTTCACATGGACACAATGCAATTATAGGCACTCTATACTATGGATAAAAACTGCATATATATTTGTTTCCTAAAAATTTATGCTTAAAATGCTAATATTTTTATGACTATTATCCCAAATCATTTATAGAATTAATTTATATTTTTCATGACTTTAAAGAGCTAGGGAATTTCCTTCAAGAAGTCCACTGTTAATCATCTAATAAGGTAATCCAATCTCTTTACAATCAAATTCTAAAACCTCTTAGCGTTTTTAGATCATTAAAATTAACGTAAAAATGGAGTATTATCTAATCCGCCAACTGCTTGAGTGCTATATCATTAATATAAAAACATCATTTTCTTAGCAAAAACTTCCATATTGGTTCTAGAGTAATTTCCTTTCCATTATATTTAATTATGTCTTCTCTATCCCAAGTAATGATCTTGCATTTATAACCTAATGATGAAGAAGCTTTTACTAATCGATCTCCCTCTCTTTTATTCCGTCTCAGTCGTAAGTTACTTGAATAAGTTCTCTAGCCTTCTCATCTAAAAAATCTACTTCATAATCATTCCCTTTAACGTAATATATTCCCTTGTTTTGATTTTTTCTTAACAAATGTATTGCAACAATATTTTCCATCATTCTTCCCATGTCCTTCTTTATCTAAACCTCTTGTATAATCCCAGGATCTACTACATAAATTTTCTTATTTTCTTTAATCCTGCTAAGTTTTACAGAGTATCTTTCTGCTGGATAGATGATATAACTTAAAACAAGACCGTAAAACCACTGTTCAATCGTCTTATAATCTACATTAAGCATCTTTGATAACCTATTCAGTGAAATTTCAGAGGAGTAAAGAGAGAATATTGCAGACGAAAATCCTTAAACTTCGTTATCCTCTTAATTTTTAATCTCTGTACCACGTCCCTAAACAAGATATTATTATATATACTATCATTTGTCTACGTCTTAAGAGGAGCACTTCTGGAAATCTGTCAAATTCCATGTATTCTCTTAAGTAATTTTTAATTTTCGGCCTTTTCTCTAGTTGTCAATACATCATTATATTCAACTTTCTTAAAACGCAAGAACTCCTTGAATGAGAAAGGGAAAAGAACAAAGTCTACATGCCTTCCAGTTAGACTTGTTGAAAGTTCTCCCGAAAGTAACTTTGAATTGCTTCCAGTAATAATTATCCTTTTTGTATTCCTTAATCTACTAACAAAGGGCTCCCAACCTTGTATGTTCTGTAACTCATCAAAGATTAAATAAGGAACACTTCCGTAAAGTTCATAAATTGCCTGTTCAACTAAACGTAGATCTTCAACCTTTAACGTTCTTAATCTTTCGTCGTCAAAGTTTATATTATGCAAATTCCTTATCTTTTAAAAGTAGAAGAGATAAAGTAGATTTACCGCTCCTTCTGACTCCCAATATTGCAAGTACGTTTGGTATTTTTAGAATATCTAAAAGCTCGTTCCTAGGAACATCACTACATATAACTCTACTAAATCTTCTGACTCTTCTTTTTGTTCCTTTATGATACTCTTTATGTCTTCTACGTTCACGGATAATAATACACTTTCTACTTTATAAGTTTTGGAGTATACTCCAAAATCTATTCGTAAAAATATTGGAGTATAGTCCAAAGTAAGCTTTATGAGAAACTGACGCAAAGTTGTTTTCGCTGTTCTAGTTGAATTTTGATGGACAAAATTCTGAATCTAACGTAAGATTAAAAGTAAGTTATACGTTGTTAAAATTTTTAGGGATTCATAAGTTAACGTTGTTTATAAGGATTTACAACTTTTTATTATCATATTTCTCCAGTTTAAATCAATTATGCTATTTTCATAGTTTCATTCTATTATTTAGTTTCAGGAGAAAATCTTTTTAAAAATGGCTTTTATCTCACTTTATCAGAATTCATTTTCGCAATGTCAAACGAGAAAGTAAAGGGAAACGTAATAGGTAGAATGGAAAGATTACCTATAAGCAGGGTTCATTATAAATTTCTTCTTTTAGTTATGGGAGGAGAATGGGTAGAAACTCTAATGCTTTTAGGAAACGGAGTAATAGCTGCAGTTCTTTCCTCAGTTTTATTTTCTAGTATAACTGTTGCTGTTACCGCTATAACTACTGCTTTCTTTTTGGGTGAGACTGTAGGTAGTGTGTTTTTCGGTAGACTAGCAGATTTAAAGGGTAGAAGGACAGTTTTTCTAATTAATTTATTGTTATTTGGGTTTGGTTCGATAATAGCAGGATTTATGAGTAATTTTTACGTAATCTCTGTTTTAATGTTTATTGCAGGCATAGGTGTTGGTGGAGAATTTCCTTTAGTAGATACCTACACTTCCGAAATGATGCCAGGGAAGTTGAGAGGTAGTGGAGTTGCTTTAGTTTATACTCTGGCAGTTACTTCTGCACCGGTAATAGCTTTGGTCACTTACTTCTCTTCTCATCCTCTTAATTATTATTCATGGAGAATCCCATTGTGGTTCATGGGAGGTGCAGCTTTAATAGTTTGGGCTTTAAGAACCAGGTTAGACGAATCTCCACGTTGGTTAGAGAGTAAAGGAAGAAGGAGTGAGGCTGACGCAATTGTTGAAAAATGGGAAAATGAGGTCTTAAGAGAAGGTAAAACTTTACCTGAGCCCGAGAAGACTGAAGTTGTAGAGGAGCATTCCAAGATTTCTGAATTATTTTCTCACAGTTTAAGGAAAAGAACAATAATGATGATCATATTTCAATTCTTCCAGTCTGGAATATTCTATGGTTTTGTGGTATTGGCTCCGGAATTTCTTTTGGATAAGGGAATAAGTCTCGTTAATACTCTACTATTCTCCATCCTGATAGATACTGGTTTCATTGTTGGAAGTATCTTTAATTACTTCATTATAGACAAGGTAGATAGGAAATATGGCATAATAGGATCAGCGGTTTCTGCAGGAATATTGGGAACTGCCTTTGCACTTACTTCTAGCACAGCATTGACGGTTTTGTTAGGGTTTTTAGTTGCTTTTAGTTTATGGAATTTCTCTAATTTCTTTCATACATATCAAGCTGAAATATTCCCTACTAGAGTAAGGTCTACTGGTGCAGGATTGGTCTATAGCATTAGTAGATTTTCTACATCAATTTTAGTATTAATGATAACGGCCTTTTTCTTGCCTCTTGGGTTAGTTGCTACTTTCGGTATAATATGGGTATTTATAGCGATAGTTTCTTTAGATATAGGGATATTCGGGCCTAAAACTACTGGAAGGAAATTGGAGGACATTTCGAAATAATTTTTATTTTCTTAATTTTTAGTCATGATTATATAATTTATTAGATTTGTAATTGATTGAATTCAGCATAACTAATATATTGATGCATTTTCTTCCCCAAGCTTAAATAAGGTCGTACCTAATTAGACAACAATATCAAGGTCATTAGAAGGGTTTTTTATTTTATTTTTCTTAATATTATTTTAAAATCATACAACGATAATTTAAATTATGATAACGACGTATTTGATGAAGGGAAATGTAATAAGTTTGATTGCCTCAGTTATAATTTTGATTGGTTTAATCTTATTAGATTTAAGAGGATTAACATACGCATTATCTTTACCTTTCATATTAATTATGTGGATTGTGTGGATTCTTGCATTGCCATCATTATATTCTTATCATGAATCAAAACTAGATAAACCTAAAATAATGGACTATTTCGCGCTTTTCGCAATTATAATCACTTTCTTTGGTCTTATCTTAGCTTCCTTAGGCAACTTCACGGGTATTGAGATAATTCTTATAGGATACACACTTGAGCCAGTAGCCGGAATTTCAATTTATCTTACAACTAAAAAGATTAACTTAACATATTCTTCACTTTTCTTCTGGGGAGCTGTAGTGTTCACTGCGGGTCTACCACTATATTTAGTTAATCTAGGAATTATATCGATTATAGGAGATATAATAAAAATGATTGGGATAGTGGGACTATTAACTACAAATTTTTTAAAAGATAAACATTAATGAGTGATGTTTCGCAAGATTGGCGGAATATACTCCACAAAATGAACACAGAAGAAGCTAAGAGATTGGTAGCCGATCAAAAAGACCTAATAGAGGAAAAGCTTTCACAAAATTACGTAAAAAGAGACGTGAAAGATATTGATAGATTTCTAAGGATACCGAACGTATTAGCAATATTGGGAGTCAGAAGGTCCGGAAAATCTACCTTATCCTTAATATTAATGAAGGAATTGAAAGTCTGACCCCTACCTTAACTTTGATGATGAAAGCCTTTTTGGAATCAGTAGTAACGATTTAAGGAACATTGAACAAGCTATCTACGAAGTTTACGGTAATGACGTAAATTATTTAGTTTTTGACGAAATACATAACGTAAAAGGCTGGGAGTTATTTGTCTCGAGACTTAGGGAAACTAAAAGAATAATAACTGGTAGTAACTCCAAAATGCTCTCCGTAGAATTGGCTACAGTATTAACTGGAAGACATTCAGATTTAATTCTTTTTCCTTCTCCTCTAAGGAATACTTAAGGTTTAAAGGAGTTAAAGACGAAATACCCTTATCTACTAGACAGCAGAGGTCAGACCGGCCCTTGAAAAATATCTGGATGAGAGAGGCTTTCCTGAAGCTTTAATTATTTGGAAAAGATCAAAGTTGACGTAATATATAACGATATACTTTTCAAAGACGTAGTTTTTAGGTGTGAACTACTACGCCCTAACGGGCGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCAATATGGGACTGTTGAATGGAGCAGAGGCGTACCACATGGACCCTCGCTTTAACTAAGGCGTCTCAGTGACGCTTACTCCGTCAGTGACTGCCATTAATAGAATATTTGAAAAATACGTATTTAAATGTAACCACAAAGGAGGCTATCCATCTCCACCCTTACCGGTAGACCCAAAATCATATTACAAATATAAATTCAACATTAAACCTCATATTTTTTCTTAATAAATAAAAGAATATATTTTATTATACTCATAATCAAGAGCATTAAGAATAATGTATTAAATAATCAATGTAAATAAAACAGATTCTATCATATACATCCCATCATTTTCTAATATTATAATAATATTCCTCAGTTAATTGTGTGGAAATATAAAAAATCTAATATGGTACTTGAAAATTTATAAAAATTATCATATAATTATCTAACTAATTACATTAAATCTTTACGAACTACTAATAATGAATAAAAATTATTTTTACTAATTAGATTTTGGGTCTACCGGTTAGGGCGGAGTAGTTCACTACGTGAAAGGAAGAGACTTTGAAGCCGATTTTTACGATGAGTTTAACTCTAGGTTAATTCAAGTTACATACGCTATAGATAAGGTGGAGGAAAGAGAAATAAAAGGGATTATGAAAGCTAACGAACTTATCAAGGCTAAGGAATTGATAATAGTAACTTATGATATTGAAGGAAAGAGAAGGTAAAGAAATAAAAATTATTCCTTTATATAAATTCTTGCTAAAATAGTAGTCATAAATCTCATATATTAAAATATTTTCGTCTTTTTAGATAATAAAATAAATTTTGCTAAACCTACGCCAATAGTCTTTTGAGTTAACGTTGAGCTTTTTAGATTGACGATGGATAAAACTTATCGAAAGTACTAACGTTAAATGTTAATAAAGATAAACTTTATTATATTGATAATCAAAATTTAACTTATGACGACAAAGGTTCTTATAAAAAATATGGATGAAAGCATTTACAGAATGCTAAAGGCTAAGGCAGCAATGTTAGGAATAAGCGTTTCTGATGCAATACAACAAGCTATTTCATTATGGCTTAATGTAACAGATAGTATCTCTGATCAGAATTATGCTATTCTTAAGACTAATCAAGAAGCAGTAAAGGCTTTCAATGAAGGAAATTATGTTTTAGTATGCGATGGTAGATATGTAGGTTCTTTTGATGATGAGAAAAAGGCATTAGAGAAGGCTAAGGAGTATGAGAAATGTATGATAAGTAATAAGAATTATCCAAGACAGGATATAGGAGAGTGGGGATGGTCATCGATTGCTTTAGAATAAATGAGAGACCAGAAATTCCGATAACTGTTGTTGATATAGTTAAGGAAAAATCTATTGAAGTTAATGCTTTAATAGACACAGGATTTTCTGGTTTTCTACTTTTGCCAAACTCCTTGTATTCAAAAGTTAACACCGTAGAATTGGACGAAAGTTTTTGGAGAACATATGCTACTCTTAATGGTATAGTGAAAACTAAAGTAGCTAAAGCTAAGATTAAAATAGGAAAAATTGAATTGGAAAGTTTTATAGAAAGTCCAGTCTTAGGTAGAGATTTAACGTTAATAGGTAGAGAACTGTTAAAGAAAATTAGTGTAGAAATTAAGAAAGGGAAAGAAATATGTGTAGATGATCCTTAGGCTTTAAATTGACTTATCTTAAAGGTTAAATTTGTATATATTATGAATAATTCTTTCTAAATTGAGGAAAATTATGTAGAATTTGTATCTAAAAATTATTTCAAGTTTAAGAAAAAAGATAGAATAGGAACTAATCTGGTTGCTGATTCTCTATAGACAGCCTATTTACGAAGGCTTTATTTCCTATTTTTTCTATAGCACCCATTTTCTCTAAGGAGTTTAACGTGGATATTACGTCGTCTTTTCTGAAAGTTATCCCTTTTTCTAACAATTTCTTCTCTAAAGAATAAACACTAACTATTCTTTCAGATTTATATAGCAAACCTACAAATTTTTCATCCATTTCCATGGATTAACACCTTATGTTTACTACTCCGAAACCGTTATGTCTTGAACTTCCTATTCCTTTAGCTTGAGCGTTTTCCAGGATTGATCTCAGCTCTGGAAAGTAACCTCTTATCCTGAAATTCATTCTCCCAACTATCCCCTTTACCTTTTTATTAGAATAGACAACGTTTATTGAATGATAATCTGAGGGTTCCTCACTAACATTTTTCTCAATATCATAAAGTATCTTATCTAGTTCTGGGCCTCGCCTAAGCTTCATCTCATCCATAGCATTTACTGCAAAAACTATGAATGATGCATTAGTGAACCTCTTTTTCTCGTCCTTAACAAAAGGATCTGGAAATATTGCAGGAGTAAGTATGTCCACTTTGACGTATTCTTTGCATTCCAACGATACAGAAGATACTTTAACGTCTTTAATTTTCCATAATGTATTAAAGACGTTAACGTCATTAATTTGTGACAGTGCCTTTATCATTTCCTCTTCTTCGCCTCCAACTCTGAAAGTGTAAGTTTTTCCTCCCTCTACTTCTATATACGTTGGAACATCACTCTCTTTGAATATGAATTTCTCACCGTCGTACAGCGGGGATATTGAAAGTTTATAATTCTTGAGTATGGTTTTTCCTACTTTGCTAGTGAATGGCGGTATTATTGCATTATTTTCGGGTCTGACTTCTATTTCAGCTAAAAGTTTCACGATAAGCACCCACTGCTTTTTCCAAAAGTTCTTTTGCAACTTCTGGAGATATGATCTTTGAGCCTTGATATATTATTGCGTACATTGTAGCATAGGTCAGTTTAGCGATACCGCCATTTAGTTCTTTCCTCATAGTGTACAATAGGAAAGGCTTAACTGAAATTCCTTCTACGTAAGATTTGATAGCAGCATGAAAGAGAGTTTGTAATCCGTCTCTATACCGTATAATTTGGTTCTGGGCAATTTTTTCGAAGACTGTCTTCTGTTCAATTACAGTGTATTTATTTTCGTAATCACTTACAGAAAATACAGTAGTTCCTGCAATTTCTACTTGTCTTCTTACGTCTTTTTTCCAAGATTTGTAAAAACGGTCATAAATATAGTCTTCTGCAGTATAAGTTACTTTACGTGTTTCATGGTTAGAATTCGTTAGTCTATCAACTAGTTGAGTTACTGAAACCTGGTTAATACTATTGTTATGTTTTTTGCTTTCCCTACGACTTAACAATACATAGTCGTCAATGATGATCTTAATTTGCTCTGCATAATATACTCTACACTGAAAGAGAGACGACATCGTCATCAGCTCCCTCATTGTACAGTCGATAAACTTTCTAAATTAACAACGTTCTTGTTGTATGTTTTCAAAAATAGTCTTATATTTAATTCGAAATTATATGACGTACGAATCATTTTTCCACACTACTAAATCATAGTAAAAGGCTAATATAAGCTTTTCTTTTTAATTATTGCTTATAGAAATCTAATTTTGAATACTATATTGTGTAATACCTGGTACATTTGTCATATATTTATGTTTCAAGATTTTCCAAAATTTCTTATCTTTAGTCTTATTTTGAAATAATAAGTTATATATTAAATTAAATATTTTATAAAAATCAAATTTCCATGTTCGTTAAAAAAAAGGTACAAAAATGCGGTCATTAAAAAGGAATCTTACGTTATATATTTTCGTTAAGCCTATCAATTCATTTATGGACAATTATTATTCACGAATTAGTTTATAAGTATATATGAAGTTATAATGAGTTGATTTATGATTTTAATAGTAGCTCCATAAAATTCTTACTCATTTAAATAACGTAAAATCAGGAGTAATAAGACAATAACTTTCTGGAAAAATTAACTTTTATGAGTCTCAATAAGAACATGAAAAAAGGAGCAATATAAATCCTATGAATACTCAACTCCGTAACAATGAGATCTAATAAACACTTTTTATTTGGACACGCACATTTTGAGAAATCTTCAAAAATCATAACGTATACTTTTATCGATATCTTTAAATAATAGGATCTTCGAGTAATTATTACCCTATAATGATTTATTTTTAGTAACCTTTTTATAATATAATCCACAATGACTTTATATAGAAAATTTAGGTGGAAAAATGTCTCAAGGTACTCAAAATAAATCCCAAAATTCAGATTTATACGATAATTTGGCAAAAGTAGTAGTTAAGGCTAAACAGGAAGGTTTTTCGTCATCTCAAGTTAACAGTTTCTTGGAATATTCACAATCTACTACAGATAAGAACGAATTATTCGTCTTTATAATGAGACAGGCCGAAAGAGGCGAATACACAGAAACTGCTAGGTTAATGCTGAGCTATCTTAAAGATAAGGATATGTCAGAAATAAGGAAGTTTATCGGACTATTAAAGTGGTTAATGGAAGCAATAGGAAACATTAATGTACCTTCTAATATTAATAATTTTGAATCATTGATTGACCTCTATATTAAGAACGTTAACAGTAATCCAGGCTATTCTGGACATTCTAAATATCAAGGTGGGTCTCATGGATATAGTAGGAGCTGATTTCAATAATCTATCTTCAATAATTGACATTTCTGGACAACTTGTTAACGAATCTCCTTTAAGAGTAGGAGGAGGTAGGGGAAACAAATTTGATTCTGCTGCAGATTCTCCAATAATTACTATGGGTAACATTCCTTTCATCCCAGGCTCTACTTTAAAAGGAGCCTTAAGGTCTCTCGCTGAAGCCTATGCAAATAGTATGGGTTGGAAAGTTGTCTATCCGTATGAAGATAAGGAAAACGAACTTAACGATTGTATTACATGCATCTTATTCGGCTCTAAAAAAGTAGCTTCTAGAGTTTATTTATTTGATTCTCCTTTAAAGGGAGATGTTAGAACCGGGATAAGGACTATGGTTGCAATTAACAGAGTTTTTGGAGCTCAACAACCTAAAATGTTATATATTTTAGATTATATAGAGCCTAATTCTATTTTTGACTTCAAAATGAGAATAATTAACCTTGACATTATTAATGGGGAGAACGAAGAGTGGAAGAAGAAAGGAGTGCAAATAATGAATTTCCTTATATCTCAATTAAAGGAAGGAATAATGATAGGTTCTAGGAAAAGCACTGGTTACGGTTTAGTTAAGCTTAATGACGCTAAGTATGTTTTAAAGAAGTTGGATAACGGAGAGATGAAGATAATTAAGGAGGGATCATTATGACTTTCTTAATAAGAAAGGATATTTTTGCAAGAAGAGTAAAGATTTACGGTAAGATTGAGACTTTAGCCCCTTTAAGGATAGGAAAAGGCAGAGGAGAGACTAATCCAGAATCTGCTGCTACAATGCAGATTATAAGGACTTACGACGAAAAGCCTTTGATTCCTGGCAGCAGTTGGAAGGGAATTTTTAGATCTACTGGAGAGAAAATAGCCAAAGAAAAAGGAATTTTCACTTGTACTGGTTTAACTAGGCAAACTTGTATGGATAAGATTTTAAATCAAGTTCAGTCATTGATGTCAAAAGACATTGATGAGGCTGTAAAATTAGTATGGGATGAAACTTGCATTAATTGCAAGATTTTTGGAGCACCTTCTCTTTATTCTGCAATTTCATTATTTGACTCAGTGGCTGAAAAATTCAATATAGGATATAGGCCTATGATAGCTATAAGTAGGGATACGGGAGCAGTAACTAAAAGTGCATTAGCTACAACAGAATACGTTGAGCCAGGATCAATTTTCCCTTTTCTACTAATAGGGAATAATCTTCCAAATTATGCTATAGGTTACATTATCAAGATCATGAGATACATTAATGAGGGTTTAGTACAGATAGGAGGAAATAAGAGCAGGGGTTTCGGATTTATAACTTTCTCTAAATTAAGTCTAGAAGTAAGTGACTATAGAGACGGTAAGTTAAAGGCTATAGACGACCTCGATAAGGAAGTAAATATAGAGTTACCTAAAGATTCTGAAGGTAAAGATTTCTTCTCAAAAACAAAGCCTCTGGAGGAAGTGTTCGATAATGCAAAGATTACCTTCCCACACAATAATTTACACTAATAGAAGTCTACCTCAAATAATGAAGGTCCAGATGACCTTGAGCGTTATTTCAGAATATCTTCACATTTCAGAAGATCCAAAACCTTTACCTTCAGTTAAAGTAAAAGGTGACGTATCAAAGGTTATTAATGAATTCATTTCGAGTAAGAACCCTAACCTAGACGCTTACTTTGAAAGAGATTACGTAAAATTCATGAGCACAGAAAAAGGTTTAGTAATCCCAGGAAATACTGTAAAAGGAGCAATAAGGAGCAGGTTAGAATTATTAATGGATTGTGCATGCTATGATTCCTTAGGAAATAGACCTTCTAAGAGTAAAAGCAATAGATACATAAGTATTTATCATCCTAGGAGGAAAAATAGCGATAGATTCGATCAATATAAGAGCAAATATATTTGTTACGTTTGCAATCTTTTTGGGAATGCTGGATTAGCTAGCAGAGTTAATTTCAGTGACTTAGAATTTCAAGAAGGTAAAGTGGATTTTGTACCAATAAAAGGCACACTCTACGAAGTTGTAAGAAAAGGCTCTATTTTTAAGGGCAATGTAATATTGGATAATCCTCAACCGCACGAAATAGGTATGCTACTTTACGGTTCAGGATATAGAGGACAAGGTAAATGGAAAACCTTGTTATTGGGAAGATTTAAATATGAAATGAAAGAATTCGGAAGAATTAAATTCAATATTCAAATTAACAACGCTGATTCTTATCTTAATTCTTTTTTAACCTTACATAAGGGTCACGTCCACGACGTAGAGGAGGATTGGAAATGATTCTCTGTTTTAAAAGAGATTTGAGTGTTGAAATAAATGGAACTGAATGTGTAACAAAAGTTGAAGTTGAGGAGGAAAAATTCAACGATAAATATCGTATAAAATACAAAGATCTCCATTATGTTGAAGAAAAGGTGATGAGAAATTATTAGAGGAGTTTATAGACCATTAAAAAAAGAAGTAGATTTTGCTGACGAAGGAAAAAACAATCAAGCGTTTAAAAAGCTAATAGACTTAACTGTAAAGTCAATATTAATACTCTCTGGAAATATTAATACTCCAGAAGATTTGGCTAACGCTTTAGCAGATACTATCTCCCTAGTCTATAAGGCCCCTATGGTTCTCCCTCCTTTACCTTATACATCTAAAGATAATTCAATAATTACTAATAATTTTGATTATCTTACAGCATATGTAATTAATAGATACATTAAAAATATAAAACCTTCAGAAATTCTTGACATGAAAGCTGATAATCTCACAAAAATATTAAAATATAGTTCCTATACTGATATTGAAGAGATTTATGAGGCCCTTCTCTCAACTCCTGCAGATACAAGGCCTGGAAAGAACTTTTCTTCATTAGCTGCTCATATGAATCTAACTTCATTAATAGGTTGGTTAATATTTGGTGAAGCTAAGGATATACCTTATTATAGATTAGCAGCTATACTCCACGACGTAGGAAAGATAATTAAACCTGAAGCACATCTTGACGGAGCTAGCTTATTCTTTAATGAAGTGATTCAAAAGGTAAAGGAAGAAGGAGTAAAGGGAAACATTATTGATTATTTAGGAGTAGTAAAGGACAGAGTTGAAAAGCATCATTCCTTAGATTTCAAACCAGATCATATAGCTGCAGAAAATGAGAGGTTTCCTAATGAGAAAATTGAGGAAGTCTTCTCTAAAAATGAGGAATGTTCACCGTTTTCTGAAATGCTTAACCAAAAAAGCACTGCAGATTCTATAAATATTGAGAATAAATGGATAAAGGAACTAGGAGAAGAGGAATATAGGAAAAGATATTCAAAATGTTCAGCTTTAGCTTACGATCATATTATGCAAAATAAAGGCGAGAAGAAAATTGAAAACAATAAAGTTAATGGATACATATATTATATTAATTTCCCTGGAGTTCAATCTTTTATTGAGTACTTTAGCAATCTAAAGGACATTTCCACTGCTAGTTTTATGGTAGATTTCATAGTATCTACTCTACCTTTTGTGCACTTCGACAATCTACTTCAGAAAACAAGACTTCCTCTAGAGGCTTTGCTTGCAGTTAGTGGAGGACATTCGATTCTAGTAGGAAGATCAGATGTAGAACCAGAGAAATTTATTGATGACTTAAAAAACGATTCGTTATTAAGGGATCTAGATATAGAACTTCCCATTACTTATAAACCATTCTTCGTTAACGAGAATCTAGCTTCTTATGACGTTATCTCCGATCTAATGAGAGAATCTCAATTTAATAGTTTGAAATTTAAAGGTTCTAAAATACTTTCCCTTGGATTACACAGGATATGCGATAACTGCAAAGAAAGGCCTGCAGTAGACAAGGTCGGTGAGGAATACCTATGTTCAAGATGTAAAACCATAAAGGATTTTGCTAATAAAAGAGGATTTTCTGCCAGAGTAAAACCTAAGTATATTATATGCAATAAGGAGGTAGATATAGGATATAATGGAATAGATCCTATGGTTTTCATTTCTGGAGGCAATTCAGACGATGATCCTAGGTACGTAAGCATAATAAAATTTGACGCTAATGATGCGTCAATGTATTTTGCCAACACATTAACGTGGAGCGAATACGTCGATAAGAGTTTCTACACCGATTATTGGATAAAGAAAAGTTTGAGAGAGACAGCCAAAGAATATTACAATAAAAATCAAGAAATGGTAAAAAGATTAATAGCAGGAATTCAATTCTTGGGAGGAGATGAGGGTCTACTCATATCTCCTGCATTAATTTCCATCAATTTCATGATAGACATGATAAAAAAAGTATATAGGAACACTGGAGTTACGTTTAAAGTTGGAATAGTTACAGTAAAACCTGATCACCCAGTACAATTTGCAGTATCTACTGCGGAAAAAATAATGGACGAGGCAAAAATAGAAAAAGATGAGGTAAATATTGATAGGAATTCCATTGGAATACTAGTTTCGCCATCTTTTGTTTCTCCATCAGCCATAAGAAGCTTCCAAAGATTTGGAGATTTCACAATACTTTCCTATAAAAATACTATTAGCGAAGTCGAGGACATTTTAAACGACGTAAAAGTGGATATTTCAGGCAAGGACGAAAATTTTAAGGATTTTGTGAGAGAAATGGAAAGTATTGTACAATTTCTATATATGCATAAAAACATTAATGAAACAATTATTTATTTAATTAGAGAAAGGGTTAGACACAAGGAATATTCTCAACTTATAGACAAGATTCTTAAAAGTTATAAAATCGATGAAAAGAAAATCAATATATTAGATATTTATTTTATTTTGAAAAGTATTGATTCCGGATTTTCCAAGGTGAGAGAATGAAATTCGAAGTTCATTTAAAAAACCTAAGTTCTTTAACTATAGGTAATAGTTCAAGAATAGCTTACGTAGATATAGGATTTAACGATATGGGTATCCCAGGCTCAAGCATTAAAGGAGCAATGAGAACTGCAATATCTTGGGCAATAAAAAACGGATTAGTTAGAGAATTCACTTCCTGCGGTGAAGTAAGGCCAGAAAAAATAATAGAAGCACATAAGAAAGGAGTATGTGACGTATGTAAGCTGTTTGGATATCCAGATCACGAAGGCATACTAAGAGTATCTTCAATCAGCATAAATAAAATAAACGTCCTTACAAGGGTTTCAATAAAAGACGATACTAATACTTCAAAAGAACATGCATTATTTAAACAAGAAGTCATCCCTCCAAATCAAGACTTTACTTTCGAAGTAGAGCTCTACACTCAAGATTGCAGGATGCTAGAATTAACTTTATTGTCACTATATTTCTTAAGGCTCTGGAGGTTAGGGAGAGGAGGAATGATAGATTTAAAGATCGATGAAATAAAGGAATGTCCTTCTTTAGAAATAAAGAAATATTTAGGTGATTGGTTATGGCAATAATTCTCAGAATAACGCCAAAAGAACCTATTTCCTTCTACACTAGAGCTATAAAGACATATTACTACACTACGAAAGACTATATTCCTGCAACGACATTGAGGGGAGCATTACTAGAATCTTATCTAAGAAATAGTGGCGATTTGTACAAGAAAATATCAGACTTTTACGTCAGTCCTGCCTTTCCCTTGAACTCTGCCCCTTCTCACCCATTTTTACCTGCTATTTCAAGAAAAAGTGAAGATTTCGTAGAAGAACCGAATTCACTTCAAATTAAAAATTTACAAAACGATTTAGAAAGAACGTTAAATGAGATAAAAGAGAAATATTCTAAGGATCAATATCCAAAACCAAAAACTGGAACTATTGTTAAATTAGAAAACACAAATTCTATTCCATATAAATATAAAAGTTTTGGATTTAATTCAATAATTAATATGCATGTAGCTATAAACAAATTCCACGGAGCGTCTGAATCAGGAATGCTATTTGCTTATGAATATAAGGAAGTTGGAGATTTATGGGCTATTGCAAGCGAAGATTTGGGAGTAAATGAGGCTTATATTGGAAAATCCAGATATAAAGGAGCAGGAAAAGTTGAAGTAAAGAAAGTTAAAGAATACGAAATACCTAATCCTAATGAAGGAGATTGGGCATACTGCCTAAGTCCTTGTATAGAAAAATTCCTTGACAAATCATTCTTCGAATACGAAGAAGCCTTAGGTAAAGAAGAACTGTATAATGCCTGGTTTACTTACAAAGATCTAATGGGGAGAAAACCATTATTGAAAGTCCTATCTCCAGGATCTATAGTAAAAATAAAGAAGATTTATAATATAGACGAATTAAAACCGGCAGGACTCAATTTCATAATAAAAATAAACGACTTAGGATCATTCTTACGTGGGGTGCAATAAAATGAAATTTTACTTATTTAATCTAATTTTCAAAACAAGCGGATTAAGGATAGGAGGAGAAACAGATAAGAAAGTACTATATTTCCTAAAATACGATGAGATGTACGTTATACCATTTAGCTCATGGAAAGGATCGTTCAAAAGGATAAGCGAATATGTAGCAAAGTCAATGAAAATAGGTAGTTCAGATAAACACAAAGATGATAGACATGAAGGTTATACCGATAACGAAATCGAGGACATACTTCAATCAATTAAACAGAAAGGCGATAAAATAAGAGGAGAAGAAATTGAAAGCGATAAATACCCGAATTTGTCATCAATATTTTCGCCAAATAACGAATATAGTGTAAGAGATGTAGAAGATAAAATAAGAGAATACATTGCCTCAATTAAGTGCCCTATAGATGGACTTTACGGTTCTAATTTCTTTGCCTCAAAATTAACATTTAGCGATTCAGTATTTCATGAAAATGGAACATTCCTAACTCACGTAACAATAGATAGAATGAAAATGAAAGCATATGAAGAAGACAAGGGAGGTCACCTATTTGACGAGGAGGTTTTAAGGCCACAAAAAATTGAGCTTAAAATTATTCTTAGAATACCTAATGAAAACGAATTAAAAGTATGGAAGAATACACTAAAGTTTATAAATACTGAAGGATTACAGATAGGTGGCGGAAAATCAAGAGGATTAGGAATGCTTACACTGGATAAAGAAAGTACATTTGACGAAATTGAAAATTTTAACAAAATAAGTTATAGCATAAAAGATATTCTTAAATAATATTCCAATTTTTTGTGGATTTATTATACCGAGTTTTCCTATCATTTTCTCTTTCAATTCTTCCAATTCCTTTTTGGATGAAACCGCGGAAACATTATGCAGGGTTGAATACTCAAAGTTAGATCTTTCAATTCCTTTTTGGATGAAACATAGGTTTGAATGCCTAGAGATGAGTGACGGAATGCTAACCTTTCAATTCCTTTTTGGATGAAACTTAAAAATATTTGGCAAGCAATACATGTTTCCTATTCTATACTTCTTTCAATTCCTTTTTGGATGAAACTACATTATTACCAGTATATTGAAAATTTATTCGAAAAACCCTTTCAATTCCTTTTTGGATGAAACTCAGAGAGAGTCTTAAAACTCTCCCTGACTTCCCTGACGTCTTTCAATTCCTTTTTGGATGAAACATGACACAAGAAAATGTTCAAATGGAAAAAATGAACTTTCAATTCCTTTTTGGATGAAACTTATAGATTATGGGTATGATGTCCTAGGACAATTAATACTAAACTTTCAATTCCTTTTTGGATGAAACCTATTCTCAAATTGTGTTTCTTCGCAGCTTTTTCAACTTTCAATTCCTTTTTGGATGAAACTTTGCCTTTAGGCTAAAGAACGGTGTGATCCTAAAGGTAAGACCTTTCAATCCCTTTTTGGATGAAACTTATACTATAGATATGGAAAAGACAAAATACGTATTAATTAACTTTCAATTCCTTTTTGGATGAAACGAGTACTTTGAGTTTGACATATACAATAAGAAGCCATACGTGCTTTCAATTCCTTTTTGGATGAAACCCCATTGCTTCCTTCTTTGTTCTTCATTAATGTATCCTTTCAATTCCTTTTTGGATGAAACTCGCCATCAGGGAAACATTTACATATCTTTATCGTGCTTGACTTTCAATTCCTTTTTGGATGAAACCTGATAGCGTAATAGAGACATACTTGAAAACATTAATGTATCCTTTCAATTCCTTTTTGGATGAAACCTAAGACTAGATTTCCATGTTTACTCCATTAGAAGTTATAATCTTTCAATTCCTTTTTGGATGAAACTAAGTTCAAATTATAAAAATTTGAACCCAATCGAAAAAATTCTTTCAATTCCTTTTTGGATGAAACATCAGCCATCGCAAAACACGGTAAAGAACTGATACTAAACTTTCAATTCCTTTTTGGATGAAACAATTGAACAGGATAGCAAGCGAAAGGAAAGTCACAGTTAACTTTCAATTCCTTTTTGGATGAAACATAGCAAATTATTAACGAAATTATTCCAGTCTTGCAAAGTCACTTTCAATTCCTTTTTGGATGAAACAGGAATCCAATTGCTGCAGGACAGCAACGGCAACTTATACTTCTTTCAATTCCTTTTTGGATGAAACAGCTATAGCTAATTATTTTTCTTTCTTTGATAATTTCTTTCAATTCCTTTTTGGATGAAACGAACAAATTATCGAAAATGACCAGGAGTTAAAAGAAACTTTCAATTCCTTTTTGGATGAAACATTGTAGGAGTTTTAACAAGCTATTCTCCTCAAAATCCGCCAACTTTCAATTCCTTTTTGGATGAAACGTAACATAAAGAAAAACAGTTTTAATAATCACAGATATGATTACTTTCAATTCCTTTTTGGATGAAACGTGATTTAGAATTTTACGATATAAATATTTTGAAGAATACTAATTCTTTCAATTCCTTTTTGGATGAAACCCTCAAAGGCATTGCGTATCGCGTTTTCTAGAATGTCTTTCAATTCCTTTTTGGATGAAACTAAAGGAGTATTTAAATCTTTTTTCTCTGTTTTTCCTAGAAAATCTTTCAATTCCTTTTTGGATGAAACACTAACTGGAAATAATGAGGATAAAATAGAGGAGTATGTACTTTCAATTCCTTTTTGGATGAAACCTTAAATAACAGATTAACATACATGTATATCGACCAAAAACTTTCAATTCCTTTTTGAGATGAAACCTATTACAGAACTATAACGTGGTAATAGGAACATTACCAGCTTTCAATTCCTTTTTGGATGAAACAATAATTTAATTTTTTCATGCTTAATTTGTTTCATGTTCTTTCAATTCCTTTTTGGATGAAACCCATACCCCAAAACGACTGATATCCAGTATATTGAAATACTCTTTCAATTCCTTTTTGGATGAAACGCGAATTTATCGCCATCGATTATATGAAAGACGAAAAGTATGCTTTCAATTCCTTTTTGGATGAAACATGCCACACATTAAGTGTGGCATCAAATTACGCCGAAATTATCTTTCAATTCCTTTTTGGATGAAACCATATAATTAAGCTGGAGAACGAGAATATGATCTTGAAAACTTTCAATTCCTTTTTGGATGAAACTAAAATCTGATTTATTTTCATTTTCTTTATTTATCCTTTCAATTCCTTTTTGGATGAAACCCTTCAAACAAATGCAAAGTACTTAATTAAAGATGTAAAAGCTTTCAATTCCTTTTTGGATGAAACCCAAGATTACGGTTTAATGACAAAGGTGTATTAAAAAATGCCTTTCAATTCCTTTTTGGATGAAACTTTAATTAGGCGAAAAAGATGGCAAGTTTGAAGGAAATATTAGACTTTCAATTCCTTTTTGGATGAAACCTTCCAAACCGTTAAGTTCAAAACTTCCACCCCTTGATGGTAATCTTTCAATTCCTTTTTGGATGAAACCTTATTCTCTATAATTTTTTTAGAGCAAGACAATAAATTAACTTTCAATTCCTTTTTGGATGAAACTAATGGATTTATATTCTGATTTATATATTCTGAACAATAAACTTATAAACTTTTCCTTTATCTCCTTTCTTTTTCATGCGAACTAATTCGTTGTAATGATCTGACGTCGTTCTGTTCGCATGGTCTGCTCGTGAAATTGAATGAATAGACAGTCTTTTAAACGTTCAATCTACACGTCTGATTTCGTCTTATACACATTGTAACTCGAACTTTTACGTTTTTAATCTTCATGTTCACCTCCTACCTAGTAATTATGATATTACAAAATTGTAATCCTGCTTTTTTCAACATGATAGATTAATGTTTAATTCTTCTTGTGATGTTCTTATCTTTGCAAGAGTTAAAGGAGGAAAATAAGGGATGAGATGAACATTTTCTATTTTTATCTTTCCTTTTCTTTTTCTCTTTTTATGGTATTCCCTTATTTTTCATTTTTTCTCTTTTTTCTCTCATCATTCTCATGAGAATTGTATAGACGATTGTCTATAAATTTATTGAAAATGATCATCATAAAGTAATTTTTTCTCACCAACTTTTTCTCTCTTTTCATTTTTTCTTTCTGTTCCATCTTGGAAATTTACTTTCAAGAAATAAAATGATTCTTCTCCCTAAAAAAGTATATAATGATAATTATAGATATAGTCCTAGTATACTAGATTTATCTTATCGTGAGGCTGATAAGGAATATATATTTGTATATTTACGTTAACTTAATATTAAGTATCTAAAAATAAGGATTTAAATATGAAGATAATGAAAATAATTTGATTTGTATGATATTTCTGAGAGTGTAATTAGTCTATGAGAGAAGGTTAAGGATAGATAGTCTGGAATCATTAATAATTTTCACTTAATTACTTATAAATTTGCAAGTAAACCGATAATTCTTGATCTTAAACTTTTATTTTTTAGTAATCATTACTTAATAATGAGAGTTCTATTTCCAGGTAGATTTCAGCCATTTCATTTAGGTCATTTAAGTGTAGTAAAGTGGGCTTTAGAAAGATTCGATGAATTGGTTCTTATAGTGGGTAGTGCACAGGAAAGTCACACGCTCTATAATCCTTTTACTGCTGGGGAAAGAGTTGAAATGATTTATAATGCGTTGGAAGAAGAATCTCTTTATAAAAAAGTCTTTCTTTTTCCTTTAATGGAATCTATTTCTAATAAAAACTGGATTCATGACGTAGAGCTTGTTTCCCCAAAATTTGACGCAGTAATTACTGGAAATCCTTTAGTTATAACTTCTATAAGAGATAAATACGAGGTAATAGTTCCTAAACAATTTAATAGGGAGAAATATAATTCTACGTTAATAAGGAGCATGATTTTGAAAGGAGATAATTGGAAGGATTTAGTTCCTTATCCAGTTTACGAATTTATAAAGAGAATTCATGGTGAAGAGAGAATGGTAGATCTCTCCAAGACTGATAAAGCTCCTGAGGATTAATTAAATACCAAGAAATTTAAACACATAATTATCCCGAACATGTTTTCGACAGATAATTTTAAAAATTATTCGTAATACTGTACATTATGCAGTTCGTTAGGAACTCTTCTGGATTAGTCAAGAACGCTTCCCTGCTTGACGCTACAATGTTAAACTTAGCTAACATGGGTGCAGGTTTGGCAATATTTACTGGAATAAGTCCTTACATAGTAAAAGGCGCCGTACTGTGGGTTGCTTCAATATTTACTTTCTTACTTACTTTACCTTTAGTCTTCCTCTATACTTTCTTCATAATCGAGATTCATAGAACTGGAGGAGATTACGTTTGGTTGTCTAGAAAATTAAGCGGAAAAATAGGATCTATAATGGGAATAGCTATAGCTTTTAACATGCCTCCATACTTTGCTTTGTCAGCGTTCTTCTCAGTTTCTGCAATAACTACAGTTTTGTCTGTAATAGGTTCCCTAAATAATCAGTCTTATTTAGTTACAGCTTCAAACACAATTTTTGCTAACGATGCATTTATTTACGCTTTAGCAGCTGTAGCTTTTGCCATAGTGATAGGGATAAACATACTGAGACCTAAACTAGGTTTTACTTTAGTTTCTGCTTTAGGTTCCTTAGCTATAATAGGTACTATAGTAGCTATGATAGTTCTTGCCTTCAATATTCCAGATTTTCATACCAAAATTTTACCATTCCTTCATGCTTTCAATTTAACGCCAACGACTTATCACGGTCCAACTTTTAGTTTACCTGCAACTCTTTACATGATTCCGTATTTTGCGTCCTTTGCTTACATATGGCTTTACGCAGGTCCTGCAGTTTCCGCAGAAATTAAAAGCGAAAAAGGGATAAAATACAATTTAATTTTAGGAAGTTTAATGACCCTATTTTTGATAACTGTACCGTTCTTTTTAATGGATGTAGCTGGAGGATATGGCTTTAATTTCGGATTATATCCTACAGGAACCTACAATTTCTGGAGTGTGGCAATGGCTCTCTCAGGTAACGAAGTCTTGGAATGGTTTATTGGTATAAGTCTAATTTCTTGGGAATTCTTTGTCATGGCCTTCGGAGTAGTGGTATTCGCTAGATATGTATTTGCCTTCTCTTTCGATAGACTTTTCCCCGAAATATTTTCGAGATTAAATAGGAATAATTCTCCGGCATATGCTCATGTCTTGGACTTAATAGTTACTTTGATTTTCATGACAGTGCCTATAATAAGTCCTTTAGGAACTGAGGCATTGTACAGTTATACTCCTTTAGCTATAGCTTATTTACTTTTAGTGTCTATTGCAGGTGCAAGATTTGCATTACAGTCAAAGAGGAAGGGAATGCTGGTGACAGCAATAATTTCGTCTATCTTAATGATATTTATGGGATATGAGGCTTTTACTAATCCTTATTTCGGAGTAGTGGAGAACGGTGCTCCATTCTGGCCTGGCATAGCTTATATTGTAAGTTTAATAGGTCTAGGCTTAGCAATCTATGGAGTATCTAAATGGTACAATTTGAAAAAAGGTATTAATATAGATTTAAACTATAAGGAAATTCCTCCCGAATAATTAGATGTATTTTTTAGCTTCTTCAACGTCTTTTTTGTCTGCTTCCTTGTAAGTCATCCACCATGCAAATCCTTTGTATTGCCCTAACCTAAGTTTAGCATCCTTCAAATTTCTAGGTGGAGGATTAAGTACATTATCTCCTATAATTTCGTTCTTTGGCCAATTAGCAGGCATTACTGATCCAGTTCTGTCAATTATTTGTAAAGCTTTAACGCTTCTTACTATTTCGTTAATGTTTCTTCCTAGTTCTAGAGGATAGTACATGATTAATCTTACAGTGGATTTATCGTCAACAATGAACACTGCTCTTACAGTTGAAGTTGAAGACTCTGCGTGTAGCATTCCAAGTCTCTTAGCAACGTTTCCCATAGGGTCTGCTATTATGGGGAAAGGTATTTCCACTTTAAGGTTTTGTTCAATCCAGTTTACCCACTCAATGTGGCTAATATTACTGTCAACTGATAATCCTATTAGTTCGGTATTCATGCTCTTGAATTCCTCATATTTTTTAGCGAATGAAACGAATTCTGTTGTACATACTGGTGTAAAGTCTCCTGGATGACTAAAAATAACAAACCATTTGCCCTTATACTGATCTGGTAATTTTATTCTTCCTTGTGTGGTGTCTACTTCTAATTCAGGGAATTTTTCACCAATTAAAGGTATTCTAAATTCTTGTTCCAAAACTTTTTCACTATATATAATTTAGAGTTACTACTATTTAAAGTCTATTTCTAATTAGTAGATATTTCTATCTTAAAAACAATTTGGATACTACATAGAGAATTCAATAAATTAGTTGAACTTTAGATGATTTAGGTATATATACCAAAAATTCGACATTTAATTATGGCAATATTAAAGGTTTCAGAGGACGTAAAAGAAGAGCTAATGAAATTAGCAGACGAATTACCAACAAAGAAAGGAAAGAAAGAATCAATAAATAATATAATTGAGTTTCTTATAGAGTTTTATAAGGAAAATAGTAAGAATTCAGTTATAAAATAATTTTTCATATTTAATTATAAAAAATCTAACATATAAAATTCAATTTACCTCACTATTGCGATAGCTCTGACTGGGGATCCGTCAGCTCCCTTTATTAACAAAGGGAAACATAAGAAATCCACATATTTTCCTATTATCTTATCTAAATTAGCTAAGTTCTCAACTATAATAATCTCGTTTTTTAGCAAAATTCTATGAGTTTCGAAGGATCCTATACTTGGAGAATCAATTCCTACAAGCTTAAATCTTTTAGAAATTTCTTTTGATGCTTCTTCAGTAATAATAGAGTATTTATTAATATTCCATCCATTTTTCCAGGATTTACTAGTTCCAGTGTATATCAAAAGTATTTCTGATTCAACGTTTGGGATATCTTCTTTATTTATTTTCTCTTTTTCAATGGCTATAACATAAGCTTTCCCAGAAAATCTGGTAATCTCTATTTGATCTAAAGTTTTACCTTCTGGTATAAAATGAGATGGAACATCTACGTGAGTACCAGTATGAGTGCCTATAGTTAGCTTGTGAACTACATAGCCTTCCTTTTCGATTGAAGTGAATTTTTCAATCTTAGGTTGTGGGTCTCCAGGGTAGTAAGGCATTCCGTTCTCTATAGGAAAAGTAAGATCAATTATCACAAAAAATTTATCTTTTCTAGATATTTATAATCTTCCTTGCATTATCGAGAATCTCTTTATCTTTAATTATTGAAAGAGGAATATAAGGGTAACAACTACCGAAAATTAACTTATCTTTTGGAAAATCCTTAACTAAATCAATTGGAACCGAAGATATTTCACCGTATATATTACTCTCTTTAATAACTTCCTTAGCTTGATTTATGTATTGTGGATATCCTAATCTCATGAGTACTATCCTTATTTTATATTCCTTAACAACGTTTTTTAATTCTAAAGGATTTCCTTTACCTCTTCCCGTACATACAAAAACTGGTAGACTATGGTCTTCAGCAAATTGATAAACTTTCCATGCTTCTTTCAATTCAAAATCATGATTTATAGGGTTAAGAACAATTCCTACAATGCCTTTGTCGTATTGTCTTCCTAATTCAACTTCTGCAGGAACTCTGCATTTGGGGTTATAAATACCTAATTGAAGATAATCCTTTCCCTTATTCCATAAATATTGTTGGTAAAACCCATCTACACAACACATACATCCGTATTTATAAGCTGGATTCAAAACAACGTAGTCGAAAAGTTCTCTAATTTCCTTAGCTTTCACATCTCTTATCCCTAAATGTTGGTGAACATCTATCTTCATAAATATAATCTTAAAATTTGAACTAATATTTTTATATCGTTATATTCTACCTAAAAGAAAAATTGATAAATATAATCTTTTTAATTTTCTTTAATCTACTTTAAAAACTCAAAGTAAATTTATAAAGGATAAGGAATAAGGAAATCCTCATGGCAGACAATCCTGAAAGAGGAAAACATTTGAGAAAAGAAATCAACTTCTTTGAGTTATTTATTATCGGATTATCTGGAGCTGTAGCTACTGCAGTATTCTTCAGTCAAGTAGAAATGACAGCCTATGCTGGACCTGGAAGCTTAATAGCTTGGATAATTGGAATTCTTCTTTACTTTACCATTGGTTTAACGTACATAGAGCTATCTCAAACTTATCCAGAAGCTGGAGGGCCATCTCGATATTCTATTTATTCCCACGGAGTAGTAACTAACTTAATTAACGCTACCGCAGACCTTATATGGTACCTTTTTATCCCTCCTATAGAGGCTTACGCTACTATAGAGGGATTAGACTTTTTCTTTCCTCAACTTCTAAATAAGGAAGATTTTCCTACTCTCTTAGGCGCAATAGTGGGCGTCATCATTCTTATAGCATATATACCATTTAATTATTACGGGATAAAGGTATTTGCAAGGATTACTGCAGGATTTGGAAGCGTTAAAATGATATTTTACGCATTGCCTGCAATAGCTTTAATTTTTCTTTTCTCAAAACCTCAGAACTTCACAATCTACCATGGAGTTTTACCGTTTGGAATAGCAGGAGTATTTGCAGCAATGCCTTTTGCTATGTTTGCTTTTGGAGGCGCTAGAGTAGTTCCAGATTTTGCAGAAGAAACTAAAAATAAAAGGAATATTATTTATGCCCTATTGTTTACCATTTTAGGTCAAGCTACAGTTTATATATTGTATGACTTAGCGTTGATATTAACTGTAAAATGGAGTGCGTTTAGCATTACTCCGGGTAATTGGGGAGGTATGTCAAACATAGTGGGAAATCCTTTCGTTATATTAGCGTCTTCATATGATCTAAAAGTATTCCTTATAATCATATTGATAGCTGCAATAGCCGGACCTTTCCTTACTGGATACATTTACATGGGAAGCGGAAGCAGAGTACTTTTAGCAATGGGAAGATCTAAATTCATGAGTAGTGCAGTAAAACAATTACATGAAAAATATGCTATACCTTATTGGGGATTAATAATTTTTGCAGTAGTAGGAGCTCTAATTACCTTTTTGTTTGCTCCTGTACCTAGCATTTACGGTCTAATTTCTGACAGTGTTGTAGCTGGATATTTAGGTTTTTCAACAAATCCTATTGCTTTGGTAGTAATGAGAAAGCAGGGAGTTACAAAGTTCAGAATACCTTTAGGTAACGTAATTTCTGCAATAGCTTTCGTAGGTTCCTCACTAATAGTCTTCTGGTCAGGTTGGCCTTCAGTACCTTACTCTGTAGTATTGTTAGCTATCGCTACAGCAGTTTTTGCTACTATAGGAAAATCTACAAAGGATTTCCCAGAAGCTATATGGTATATAATGTATATAGCTTTCCTTACCTTTATGACCTATATTGGTAGTGATGGTGCATTGAACATAATACCTTTTATAGATTCTACAATAATTACTGCAATAGTTTCTTTAGCAGTTTTCTATCCATGGGGAATAATGTCCGGCTTAAAGAAAGAGAACTATATTGAGCACGAAAACGAAATTAAAAGTGATACTGCGTTGTAGTGAACTACCACGCCCTAACGGACGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCAATATGGGACTGTTGAATGGAGCAGAGGCGTACCACATAGACCCTCGCTTTAACCAAGGCGTCTCAGTGACGCTTACTCCGTCAGTGACTGCCATTAATAGAATATTTGAAAAATACGTATTTAAATGTAACCACAAAGGAGGCTATCCATCTCCACCCTTACGGATGGAGTCTTCCGCCCCCTTTGAACCCCTTGTTCAGATAAAAAATAATAGTATAAAGATAGCCATTTTTGGCAATCTTATCTACTTTTCCTGACAGAATTTATTTTCAACTTTTCCAAAAATACTAAATTTCAGTAAGTTTTTTGTATTATTACTTCTTTTACTACATTTAAATTGATAAGAAACTTTACGGCGTTCTATATAGGAATCACTAAGGATTCTTAATTTCTACATATACATGTTGTTAATTTCACTGAATTCTATCTATTACTTTGATAGGATAAAAATTAACTCTCTTTATCCAAATTTTTTACTGAATTTATAACATTTTCAAGGCACTCTTTCTTATAGCTTAAATAAACTCCGTTTTTTACATGTACTACAGTGAACTTTCTCCCGAAACCTGCGTGAGATATCATTTTAGTTTCTTCGAATTCGCATTCTGTATCTTCCTCTATCTCAGGTTTCTTTATCCAGTCTATTACTTTCATATTGCCCAATTTTATCAAGTAATCTAATGAGAATTCTTCTCCTTCTTTAGCTATAGAAACAAGTTCTTTTATTCTTTCTATTTCTCTTCCTATAATTACTCTCTGCATTCTTCCCATGTTTTCAGATATTTTTCCTATAGCATCTAATGAGAATTCTTCTCCTTCAGAGAGTTTCTTATAATTTTCTATGAAGTGATATCCTATAAAATAATAGGGTGCATTCTCGTGGGCCTCTATCCCTTGATCTAAAGAGTATAAATCCGGAGATTTAGATATCTTTATTGAGTCTATAATGGTCTTTTCTACATCTTCCGGTTTTACTAAGTTTTTCATGTTAGTCTCTTTTAATAAATACAGTAATGCTAAGGGAAATCCGTATTCTAGACATTTTCCTATTCCGTACATGTCTGACTTTCCTACAGCGTTAAGTCCTTTTTCCTTAGGATCAAGGATTTTTACTAATTTTATTTCATTGGTCAAATAATCTTCTATATTCGATTTTTTAACTGTCATCTTTGATATAAGGCCTATTCTTATTTCTCCTTTATCAATATATGATGGACTTGCACTAACGTGGAAATATTCTATTTCCTTTCCTGTTGAAGAAACGTAATCATCTATAGCTAATCTAGTAGCGTTCATTGATGCGGGTATTTCGTAATCTGATACGTTCGAAGTATCTAATATGACAAGGTTTGGTGAGTATTCCATCATTTTCCTATAAAGATACAAATAAAATAGAAATTGATAATTTCCTATTCCTCCCTTGTGTTCATGGATAACTGTTTTATTAACGTAGTTTCCGATACCTGGAAGTACATAAGCCTCATATTCCGCATTAATTATCTCTTTTACCTTAGATTTTATTCCTTCGCTTAGAGAAGGAAAATCTGGAGGGGGATCTTGCAACAAGTAAGATAATGTTGAGGGAAGGAAGATTAATAGTGATACTTCGTTTTTTTGTTCTTTAAAATAATTAAATTCTGCCAAAGTAGAATTGTTTGCGTTAAGTGCAAGGTCTATTGTGTCTCCTTTTTCGTCTACTGGATGGTAAGAAGATTCTTTAAATCTTAGGATTTTTTCCCACGGGGCTACAATGAGAACTTTCATTGATATTACTTATGGTAAGGTTGAATTAAAATTCTTAGATTAACATCAGCAAGGAAAGCTAATTCCTCATGAGGCTATTCTTTATCTTTTTAATTTCGATTATAATGAATTGTTATTAAATTTAAAATTTTTTATAGTGTCTTATATTAATGATGTTTAGTTGATTAAAGTTTAGAATCGCGTTCAAACTTTTTATTACATAACAATTTTAAAATAGTAGTTTATTTTGATGTCTATATTTATCTTAAAAGTCTATTTTAAATAGAAACTAAAATAATAAAAAATTATAAAATAATATTACAGATCAAACTTTTAATCTTGGGAAAGCAATCTTTTATCATGAAAAGAACCGATGTAGAAGATCTTTTAAAAGGAAAAGGTAATTATGTGGATGATGTTAAGTTTTCTGGATATCATGCAGTTTTTGTAAGAAGTTCGTATCCCCATGCTAAAATAAAAGTTGATGCTCAGGATGCGAAAAATAAGGGTGCTTTAGTTCTCACTGGGGAAGATCTACAATTTTCATTAAAATCTGAAATTACTGAAAATGAGGGTTCTGCAAATCTTCTTCCGTTAGCTTACAATAAAGTAAGATACGTAGGTGAGCCAATAGCTGTAGTAATTGCTAAAGACGTTTACACTGCTATGGATCTTGCAGAAACGGTAAATGTTGATTATCAACCTTTAGAACCAGTAGGAAGCATTGAAGAAGCGTTAGAGAATAGATCTTTAGTTTTTGAAGAAGTGGGTTCTAACGTAGTTTACAATAAGGTATACGAATACGGCTCTATGCCTAACGATAGGGAAATCGAACTGAATTTATATTGGAGTAGATCCTCAGGTAATCCGATAGAGACTTTCGGTGTAATAACCTATCCTGAAGGGGATTCTCTCACAATAATCTCTAATATGCAAGCTTCCTACATGCAAGCTCAGGATTTATCGAAATATCTTGGTAAGATTCGTGTAATTCCTGCTAGACAAGGCGGAAGTTTTGGTTCGAAGTTTTCTCTCAAAAATTACGTTTTAGCTATAGCTTTAGCTTCAAAGAAATTCAATATTCCTATAAAATGGATAGAAACTAGAACTGAGCATCTTGAAGCATCAAACAGTTCCGGTCCAGAGAGAAAATTCAAGATTAAGGCATATTTTAAGAACGATGGAACAATAACTGGACTTGATTTTAAAGTATGGGAAGATGTAGGAGCTTCTCTCTTTAACGGTCAAGCCTTTAAGCCTTTAGGAATTCTAGCAGGTCCCTATAAGGTAAGAAATATAAGATATGATGCCTCTCTTGTTGCGACAAATAAAAATCCGCCCGGAGCATTTAGAGGAGCAGGAACTCCCCCTCACACGTGGGCTTTAGAGAGAGTTGTTGATTCAATAGCCGATGAACTGAAAATGGATAGAGCTGAAATAAGAATGAAGAATTTCATTGACGAGTTTCCTTATGAGTCTCCTTATGCGTTCTACGATTCAGGCAATCCTAAGAAATTGATGGAAATTGCTTTATCACGGAAAGAAATTTTCAATTTAAGAAATCAAGGTTATGGTGTAGGAATAGCCTCTTCCACCGATCCTAGTACTCCTTCAGGACAAGAAGGCGTAAAAATAGAAGTTAAAGGAGGAAAAATAACGCTGGGAATAGGTTATGGGCCAGAAGGCCAAGGTAATGAACATACTGGAAAAATTTTGCTTTCTCAAATGCTAGGAGTTCCTTTAGATAAAATCGAGGTAAAGGTTTTAGATAACAATGAGTCTCCATATAGTTTTGGTCCTGGAGGAAGTAGGATGTCAGTTTTCCTTTCTGGCGCAATAAAAGGAGCAGTAGAAGAATTGATTAGGAATTTGAGATCTCAAGTAGGGGAAGCTAAATTTGAAAACGGATATTTCATAAAAGGAGATCAAAAGGTAAGTATTTTAGAACTAGAGGGAAGTGCGTCATATGTATATTCCTTACAAGGAAAAACAAGGTTTAACGCCTATCCTTTCGCAGTTGATATTGCTGTAGTTAAAGTGGACGAATCAGGGATTATAAGACCAGTAAAACTCATAGTATATATAGATCCAGGTACACCGTTAGATGAGGATTTAGTTAAGGAACAGATTATAGGAGGATCATTTATAGGAGTATCTGTTGCTCTCTATGAAAGATATGTTTACTCAAATGGTCAGCTTTTAACTTCCAACCTTTCTGACTATAATTTCCCTACTGCGTTGGAAATGCCGGAATTTGAGGTTAATATAGTTCCAACACCTTCTCCTTACACTCCTATGGGTTCAAAAGGCATAGGTGAGATTCCTGTAGGTATAGCTGCAGCAGCAATGACTAGTGCCGTTGAAGACGCATTAAAGAGAAAGATAAATAGCGTTCCTATAACTCCTGATAATAATCTGCAATAATTTTTTATAACCATTTAAAAAGCCAGAATTATGAAAATTATATTAACTCTTATAATTCTTTCAATAATTGTTTCTGTTTTAAACTTTCATGTAGGTACTCAACCTTTGGCATTGACTTCTAATCATTATTTGTTTGTCGCTAATTTTGGCTCAAATACAGTATCTGTAATTAATCCTGAAAATTTTTCTATAATAAAGAACATATCTGTGGGAAAAGGCCCTTCTTCTTTACTTTACGTTAATCAATTTTTATATGTTGCCTCTACATTATCGTCACAAATCAATATAATAGATGTAAATTCTTTAGATATTGTGAGAAATATTTCGGTATCGTATCCTTATTCTATAACTTATGATCCCCAGAACGGAGAGTTTTTTGTAAGTATCAGCGCTTTTAATGAATTGGCAATAATTAAGAACTACACGGTAGTGAATATAATAAAAATACCTCAAGGAGTTGGTAGTTTGGCTTACGATCCTAAGGATTCTCTGATTTATATTTCCGGAATTTATAATAATTCAGTTATAGTTTTCGATCCTATCAATGATTCTATAATTCGTGTAATTCATATTTATCGAACTCCAGTAAATTTAGTATATTCTGGAGGAAATATTTTTGTTACCGATCCTCATTCAAATTTTATGACTGTAATAAACACTAAAATAGAAAACGTTAGCGTAGGAGAAGGAATATTTTCTGTTGCTTACAATAAATCTGACGGCTTAATTTACGCTACCAATATTTATAATAATTCGATATTAATTTTTAAAAACGGAAATTATATAGATTCTATACCAGTGGGAATTAAACCTACTTCCGTCATCCTTTATAACGGAAAGATAATCACCACAGATTACGGCAATAATGAAATAAGTGTGATTACTACAAAAGTAAAATCAAGTTTAAACCCAATATACATACTGATTATTATTGCAGTTGTTATAGTAGTTTTAGCGTCAATCTACGGTATAAAGAGAAGGTAACGTCTAAAAAACGTTAAATATTCATAATGCTCAATTTTGAACGTGTCAAAAGTAAGCGGTTATTTATCAATAATTGGTGTAATAATTGTTTGGGGATTATCTTTTCCTTTATCTAAGCTAGCTCTATATTACATGTCTCCATTTATTTTAACTTTTTTCAGATTCTCTATAGGAGGCGTACTTTTACTTATTTACGCTAGAGGAATAGTTTTTGGTAAAAAAGAGGCAATAAATGCAATTTTAAATATGTCATTATTTGTAATCTTATTAAATTTAGCAATAAATTTATCTTCCAATCCTGCATTAGCTTCAGTCCTAATTTACACTCAGCCCATATTCGTTGTAGTCATAATAAGAATTTTGGGAGAGAGAATAAACCTATTGCAGCTTTTAGGAGTAATTATTGCTTTCTCTGGAATTTTCATTTCAGTAGATAGCGGCGATTTTAATATAGGTTCGCTTATAGCTGTCTTAGCTGCCATATTATGGGCTATAGGAACAGTGTATTATAGGAGGAATCTCATAAAGGAGAGCGTAACTAAACTTAACGCTTTTATGTCCCTTTTCTCAGCCTTATTTGCTTTACCTACAATAGGGATAGATTTCCGTTTTACCTTTAACGTTTATGGAATACTTTTTGCAATAGGCGTTGCTATAATAGCACAAGCAATGGGTTTCATATTCTGGTTCTCAAGTATTAAAAATTTGGGTCCTTTAACTTCTTCTACAATGGCTATATTAGTTCCAGTCTCTGCATACGTGTTTTCTTTTCTTATTCTAGGCAAGATACCTTCATATTTCCAAATACTTGGTTCTACATTAGCATTAATAGGAGTTATAATTAGTCAAATAGGTTTCGTAAGACTTGCTAAGTGAATTCTCTTCCAGAGTTTTTGCTTAAAAAAATTATTGGCTAACTGCTAAAATTAAGCTTTGTCCATTACTTAATTTTAATATTATATTAAAGCTCTTAGAAATTATCAATTGATCAAAACTTATCATTACATTGTTATTACCTGGAAATAGAATCTGAGGGTCTATTCTTTTCGCCACATACGTAGTACCTTGTATTTCTGCAGAAATAATGGGAATTTGGGAAGATGAAAATATTGTAGCATAAACATCATTATTCCTAAGAATACCCATACCCACTTGATGTAAAGAAACCTGGTTTGGTTGATATTGTATAGGGTTAGCTTGTACAATTTCCCCTAATCCAATATAGGATAAAATAAATCCTATTAAAGGTAATATTATTAGAGGTATTGCCATTAATATTCCTCCTATTTTGGTATTGGAATTATTAAAATATGAACCTACTAAATACGTTCCTATACCTAGGATAATTTCACCAATTACAATAATAATTTCTGCAAAGGAAGTTATTAGGAATATTATTCCTCCAATTAAAATGATCAAAGCTCCAATAGAACCTATATTGAAGTCTTTCGATAATTGCAATAATCCCTTGAATCCCTTATCTAGATTAATGTAACTATAAAATATGAATATTAATGATATAATTCCAATAACGAATCTTAATATAAAGAAATGAAGCATGAAATTTTTCATAAAAAACGCTCCAGCAAAGAGCACTCCTGCTCCTAGCAGAGATAGAATAGAAACTATCGATCCAACTACTAAAAATAATAATCCCGTTCTTATATTCCCTATACTTTCGTTAATAGAATTCATGTACATAATACCTTAATTAAATGGAAGTTTAAAAATATATTTTAGGGGCCATTAATTCGGTTTTGTATATAAACAAAACTATAAAAACCATAAAAATTTTTCATTGGAACTTCAAAAGATAATTTTAGTCGTATAAATTGATTTTTCTTTCAATAGTAACATTTTTATTTTAATAAATCTTAAAACTTTTATGTCTTCAATTTTTGATAGCATAAGATCTTGGGATATAAAGCCTTTTAGAAGGATGGGAGTTACAATTGACGAAGAAATATATTTTGCAAAATCCCTGCTTAAGGACTTTGAAGGAATTAATCCAAAGAGAATAGTTGAAATAGGAGGAGGAAATTGTGTTATTTCCTTAGTTCTAAAAAATAAACTTCAGAATGAAATTCTCTCTATAGATACATGGAATGAAGAGATAAAAATTGATGATGCTAAAAAATATTCACAAGGAAAGATAAATCTTTTAAATAATTTATTTCCATTACCTTTTAGGAGAGAGAGCGTTGATTTAGCGTATTCGGTATTGTATTTTTATAATGTACCAAGATTAACTAGGAAGAATTTAGCCGAAGACTTATTTTTAACAATTAAAAAAGGCGGATATTTTATCTTGGCAGAACCTGAAATTGTCAGAAATATGAGAAAGGATTTTTTCAATGTAGGATTTAAAGAGATATCATATAGATCGGAGCAAGCTGTGTTCTTCTCAAAAATGATTAAAGAATAATTAATCCAAAAAAGAAATTTTTATATTAAAATTTTTCTTACATAAAATTGAAATATAATAATAGATATATAATTCAATTTTTTCAAAATTATGTAATTAGACTTATAAATTTTATCAAAAGATCACTTTGTAACCTAAAAATTTTTAAATTCGAATGGTTCTTTTAGGATAATGAGTCCTAAAAAAATTTTAAGTGTTGTATTCTTAATATTTCTAGTAATATCTCCTACATTAGTTTTTCAATCATTTTCGACATCAAATAATACAATAATAAACAATGTTAAACCAATAACAGTTAAAGGATTCCATTACGTAGGGACACTTCCTAATTCTTCAAATGTAACATTCACAGTCTTTATTCCGCTTAAAAATGAAAACTTAATTTATTATTACGCATACCAAGTGTCTAACCCATTATCTCCATTGTATCATCATTTCCTAACAAAGAAGGAAGTCCAGGAATTATTCTATCCTATCAAATCCTTCAATAGAACGCTGAATTATTTAAAGAATAAAGGATTTAAGATCATATTAACTGCCTCAGATTCTGTAATAGTTGCTCAGGGAACAGTAGCTCAAGTGGAGAATTATTTAGGTCTTTATTATGAAAAGTATAGTAACGGAAGCGTAGTATATTATACCGCATACGGAAAACCTAAGATAGATGCTTACATTTTCTCATCTAATTACACTGCAATATACTTGCAGCATCCTAATTTTCTACTTACTCAAAAAACTCTTACTCAAATGGAGAAATATAGCAGAAACTTAACTGAGCCTTTCGTTGGATACTCTCCAAAAGTAATGCAAAGAGTTTACAATACTACATGGCTCTACAATAAAGGATATGAAGGGACAAACTACACTATAGGTATACTGGACTTTTATGGAGATCCAGAAATAGTTCAACAATTACATTATTTTGATAAAATATACAATTTACCAAACGTTAACTTAACTATAGTACCAATAGGTAGATATGAACCCAATTTAGGTATTCTAACAGGATGGGCATATGAAATAAGTTTAGACGTTGAAATATCTCATGTGATGGCTCCTAAATCTAATATAGTTCTATATGTAGGAAATAACGATTTGGATCTTCCAGCAGTAATAGCATATATAGACCAGCAAGACAAGGTAGACGTATTATCTCAAAGCTTTGGATTTGAAGAATCGGCATTGATTCAATCTCCGCAACTCTTATATGATATAGTAATGCTAACTAACATGTACTATGCTTTAGGTTCTGCAGAAGGTATAACTTTCTTAGCTAGTAGTGGGGATGGAGGAGGGTCTGGATATAGTTTCGGACCTTTAGGAGATATAGCTTATCCATCCGAATCGCCTTTCGTAACTGCAGTAGGCGGGACTACTACGTATGTAGATTTCCCTAATGGATCTTATCAAACTGCGTGGTCCTCTTATGGTTTTATTCCTTTCTTAGAAAATGAGGGAGGATCAACAGGAGGAGTTAGCATTATAGAACCTACACCATGGTATCAATGGGGATTATCTGTTAAAGGTTATCCTAATGGCAGGATGACTCCAGATGTTTCTGCAAATGCTAACATTTATCCGGGAATATATATAATAGCCCCTGGGAACTCTTCAATGTTGATTGGAGGAACTAGTGAAGCTTCTCCTCTTACTGCAGGGTTATTAACAGTAGAAATGCAGTATATTCATCATAAAATAGGCTTATTTAATCCATTACTGTACTATGTTGCTAAAAACGATTACGGTAAGGCAATAGAACCAGTTACCTTTGGATACAATATTCCTTGGGTAGCTAAATACGGTTATAATTTAGTAACAGGTTGGGGAACGATTAATGCTGGAGAACTAGCTACTTACCTATCTCAAATAAAAATTACTCCGTCTATAAGTATAGAAGTAAACGTAACAAATTCTTCAGGATTGGCTCCAAGGGAATTTTATCCAGGACAGGTAATGTATGTTTGGGCAAATATAACTAACGGCTCAACAATAACTTCTGGAAACTTCCATGTTAGTTTAGAAACTATACAAGGTAATGTAACATCACAAAAAATGTTCTATAATTCTACAGCTAAACTATGGGAGGCTAAAGTAATAGTTCCTCAAAATTCTAACGGAATAACTTTCGTAAATGTGTATGGAGATCACGCAATAGGATTTACTGTAACATTTACGGGATTTATAGTAGAGTTCCAACAGTGCTTCCTATTTGGCCCTTCAAATGGAAAAGTACCTTATACTGCTTATGTATATAATATTTATGGTATTACAATGAATGTTACTAAAGAATTAAACGTTAGCGTGTATTCATATAATATCACGACCAACCTTTACACTAAAGTAGGAACTTATACTTTTAATCAAAGTTCTGGTTATATTTACAAGATAATAGAAATTAATGGTACCTTTACGGTAATTAGAATCCCAACAGTTTACTATTCTGGGAACGTTTCTTTACCAGAAGGAGTTTACGCAATCGAACCAGATCAATTTTACGGTTTTACCTTCGGAATTAACGGTGACATATCTCAAGGAAATTGGATAATATTATCTCACATAGTTTCAATGCCTGGAGTTGTTTCGCCTGGACAAACAATTTACATTGACGGTGTACCGAATAACTTTGGAGCAAATATTACTGCCAAATTAGTTAATCCACAAGGCATAGCGGTAAGTCAAGTATCAATTCCGCCTACAGTAATAATTATGGACGGTTTAGGATTTTTGACGTGGGAAGGATTTCTAAAAGTGCCTTCTAACGCTTCACCAGGTTTGTACTCTGTCCTACTGTTCTCTACGGTTCCAACACATAATGGTAGCAGAATTGATGGGTACTTCTACGGTCAATTATACGTTTCTCCTGCAGTTTCAGAAGTTCACGCAAATGTTTCTAAATACGTATTTGAAGGATCTCAAGTGAAAATTTATGCTAATATAACATACTCTAACGGTACAGAAGTTAAGTACGGTATATTCTCTTCAATAGTCTATCCTAAGATATATGAAAGCGAAGCAACTACAATAGAGCTAGATGATGAATTCAATGTACCTTTATACTATAATTCAACACTTAATTTGTGGGTAGGAGAATTCAATGTACCTTCGTCCCAAAATCTTGGTAATTTAACTTATTACGGAACTCAATATTATGGTGGTCCATTAGAAATTCTGATATTTGGTAATGCTTATAATGGATATCCTACCAATGTTACATATAAGGATCAATATACAATATACGCTTTACCATATACAGAAATTTCTAACTCCTTCCTAACTAACGTTCAACCATTTAACGTCTATTTGAATAACGATACTTTAATGATAAATAAATTAACTATAGATAATGCTATTTTGAATAACGATACAATATACGGAGATTTAACTATAACCTATTCTAACTTAACAAATATAAAAATTGTAGATAGTAACGTTACACTGATATCATCGAACGTAAGAAACATAACGGTAATACATGGTCACGTTAATTTAATAAATTCCAAAGTTCAAAATATGATTCTAAATACTTCATCTGTTGATAACCAGGATTCTGTAATTTCAGGAATATATCCTAGCTTGCCTAACATAACTATTATAAGTCCTTCACCGTTGTCTAATATAACTGGCAAGTTTACTCTAACTTTTGAAATTAAAGGGAGTGAAATCAAGGATGTTCAAATTTACATTAATAATGTGTCATTATCTATCTTAGAAAAAATTTATCCGTATCTTAATGTGAGTTTAAACAATTCTGATAACGTTTCAAAAATTACTTTAAATTCTACAGCATTACCTGACGGAACGTATGAAATAAAGGTAGTAGCACAGCAGGCCGATGGTTTAACTACCTCTAAAAGCATAGTAGTTAATTTTGCTAATAAACTAAATCAGGAGCAAAATCAAATTACTTCGTTAAACCAAAGCATAAATAACATTATTAGTAAAGCTAACAATGAAATAAATTCTCTCAAATCTCAAATGAACTCATTAGAGACCAGGAACACAATTCTTACTATATTAGCAATAATTTTAGCTATAATAGCGATTGCTGTAGCAATTATAGTAAGGAAAAGATAAATATTTTTTTAAATCCTCCTAAAAATTAAGTAGTCCTTTTACGTTTAATTATGATTTTTTATTTATATTTTTTAGAGCATTGTTGTATATTTCTAAAAAATTTTCTAACTATCGCTATTCAATTATAAATTCTCAAAATTATAATATAAATAATGGATTGCTCATTTAAATATTAGATGATAAAGGAATTATGGATGTTAAAAAATCTTTTTTAAAGAAAATGTCATTGTCAATTAATAAAATCTTGATGCAGAAACAGAAATGTTTAATAAAAATGACATATCTTCATTATATTTTGCCAGTTTCAAAACATAGAAAATCTAAGAAAACCGTACCCAGCTGCATTAGAAATACTTAAGCATTGTAATCCTATTAAGAGAATGATAAAATGTTCAATTTTAGCTATAACTTCTGTGAAAAACGAATTTAATAGCTATATTGTTATTATGATATTTATAAAATTTTATCAATGAAATAAAATGATCTGTAACAAAGTTATATCTAAATGTTGATATAGTATCAAAAATTGAGTATCAAAATTATAAGTTTATTAAATAAAGTATCGGCATTTCAGAAAATGTTTAAAGAAGTTATTAACTTCATAGAAAAATGAGAAAGAAAATTTATTAATTCCAAATCTAGTAGTGAGAAGAGATAATATGGAAAAGACATTTCAAATGGATAATGTAGATCTTAAGGCAATTCATGATAAAATTATGAGTGAAATTCAAAGTAACGGATTAGAAGTACACAGGGATGAATGGAGAGATAACGGATTTAAAATTCTGGTAAGAAGGGGAGAAGAAAGAGGTGAAGTAGAAGTCTTTAATGATTGGGGAAGTTTAAGGTTAATAACACGCGATAGATTAGAATGGGACCTAATGAATATGATCGAACCTCTAATGAACCAAGGACCTCAATCTATTACACAACAATCACAAAATTCTGTACCTCAACCTCCAAATATTCAACCTTCGCCGCATCCTCAATTTCAACAGCCCATGAATTATCCAAAACAGGACCAACAAGCATATACTCAGCAGCCCTATCAGCAACCACAGCAATTACCCAGTGTAGTGCAAGTTCCTGAACATCAACAAATAGTAAATATCCTAATGCAAAATAATTATCAAATCGAAGTAAATACTACAAATGGACAGACTTTCTTCGTTAGAGGTAGAAAAGGAAATTATGTAATAGATATTGAAGGTAGACCTCAACCATAGAATTTTTTATATAACTATTTATGTTATATTTCTATTAGAAAGAATTATATGGACTGTTAATTTTCATAGTACTACTCATAGATTTCGTGAAAAATCTTGATTTCCATTATTGAGTTTATAAATTTTCTTAATAAACTTCCATATTTTTATGACAAAATGGAACATTATTTTATCATAATATTTTAAACAACATTAAGAATAAGGAACATTAATATAAAAATTATTTAAAATGACTCTAATATAACAACACAATCATTTACAGTATTTTATGTATTCTTATATGATATAGAAAAAGTTTATAAGAAAAAGTATATGGTTACTATTAAACTGGCAATAAAATGTATAGAGTTATATTGTTATAGGATAAAAAGTCTATAATTACTTTGTTTAGATTTATACGTTGTGGATCGCTTCAGAATTATACCATTGAGTTAAAAGTAAACTATACGGTTCTATTGAGAAAAACTGAAGTAATAAAACGGAAATGACGTTGAACTTGCTTTAATCTAGATATAGACTTAGAATTTAAAAAGAACTTAATATTTAGTAAAATATAAGAATTCCATAAAGCAAACACTCTTACAACTTTTAATTCTATTGAATTCAATGAATTATTCAAATTAACTATTGTCTTTGATATTAAATTTCTTTTTATAATTATCTATCTCATTCTGAATTTTAGAAAGAGAAATTCCGATATATGAGAGAGAACCTATTGATAAGAAGAATGAAAAAATATCTACACTAAAAAGATAAGGTAAGATAGAAGAATAAGGAATAGTAAAAGATGTAATAAGATATATTAAGGAAAGAAGTATAGATGGAAAAGATACAATTATAAATACAAATTTGAATTTATCAATATCCTTAGATAGATTTTCTAATCTAAAAACATCCTTCCCTGCATTAAGTAAATCTTGAACTTCTGCTATAACTCCTTGGAGTCTTTCATAGATTTTTTCTGCCATGGTCTTTGTATCTAAGTTATTCTTATTTAGAGAATAGTATAATATAACTTCTTCTATAAGTTCAGAAGTTTTTCCGGAATAAAAGTTAGATGCTTTATCTAAAAAGTTTGCTATAGATAAGTATAGATATTTCTCCTTCATCTGTTGAGCTTGTTTTTTTGCACTAATATAAGCATAAATAATTATTATTGCAAAAGCTAGAGAAGATAAAAACATTAAAAAAGAAGCTAATCTGAAAAACAAGATTTTCACTATATTGGTTCCTTCAACTTCGACGAAATTTCATCTAATTCTTTTTTCTTTTCTCTGAAAGTTCTAAGAATATCTAGGAATTTCATTCCTTTTTCAGTTACGAAGAATTTGTCATCTTTCTTCAATATTAACTGTTTTTCAACAAGAACGTCTACATATTTTTTTAGGACTTCAAAACTTAAGTTAGCATTATACATTAATCTAGTCTTTTTTACACCAGGTTTGCAAGTAACTAATATATCATAAATTATATCGTAAGATGATCTCTTTTTCCTTTCCATAGACTTACTTTCGGGATTGTATATATATTTATTTACGTAAAATTGTAGGGCTAAAATCTACAAGATTATCTTTAGATCTTCTATAATATTTTAGTTTTGTATTATATATTTTTCATTAAACCGAAAAATTGAAAGTTGAATTTTCATATAGTTTAAGGAATTTCTTACTTTAAATAATTACTATATCCAGTTTTCATTAAACAAACAATTTTCATCTATAACTTAGAATACTTATTAGAGCATTTTAGTTAATAGTTAAGATAATTCTTAGATTGAAATCTACAATAAATTTTATTTATAATTTATCTATATAATATAGACATGCTCAAGAGGGACAAATATAGAATAACTTATGAAATACTGAAAAACTGTAGATTGAATATGAGTAAGACTAGGCTTATGTTTGCGTGTAACTTAAATTATGTCATATTAACAAAATATATAAACGAACTTATAGCTAAAGGGTTAATTATAGAAGATCAAGGAAAATATACGCTAACTCCAAAAGGATTAGAGTTTTTAAAATTATTAGATACATATATTAAATTAAACGAAGAAATTAATAAGTTAGAAAATTTACTGTACAACTTTTGACAAAAAATAACTAGAAGATAACTCGCTTTTTAAATACAAAGAGTGACATTCTTCCATATAATATGTTTTAAAATTTTCTAAACAATTTAGGTTTATTTTTCAAAGTAAATATTTGTGGTAATTTTAAATTAGTATTGATGGCTGACTTATCTAAAAATTTCATAAACTTATGAGCTTTAATTCTTATTATAGATTATATCTCTATAATCAGTATAATTGATGATAAAGCAGTCTCTGTTTTTTCTTTAATTTGAAAACTAAATCGATAACCCTTTCTACGCAAATTCAATAACCTTCTATTTAAAGTAACTAATTCTATTAAATATGCCATAAATACAATATTCAGTATAATAAACTTTGCATTTTTATTTTAAAAATATATTGATCCCTTATCAAAAAAGGAATAGTCCTACTTCAGGCTCAAGTCCCATAATCCTAAAAGTAGCTAGACTAGCTTTTGGCACATAATACTCTTCAATACCATGTTCGGGGTGAACTAACGTTATTGTCTGAGGTTTCACTATAAGAATATTTGCTAAATTTATTTCAGCTCCCAATAAAATCCCTGAAATCTTTATTGCATGAGGTGTAGTATAGTGCCCTAATTTTATATATAATTTTTGCTCGTTAGAATAAACGTATTCAAGAAAATTCTTATAATTACTTTGGATTTTTAGCCTTCTGAATTTTTCAACTGCGTTATCAATATCTATAAATCTAATGCATTTTTCCCTTCTCGGATCTAATATTCTCCTTTTTTCATAAATATCAGGAACTTCGAAAGTAAAATATTTCATTAATTGTTTTTCTATTTTCCTCAACACTTTAATAGAATATTTTAATTTATCTTCTGACGCAGAAGTTCTTAGAATAAAATCCATCATTTCTGTATATATTGATGTTAGCTGCTCAACTTTTCTTACATCTTCATCTTGATATAGCTTGCTTCTCAAGAAAGAGTTAGTTAAGTCTTGTAGATTAGACGATGCTATAAAATTGGAAATATCTTCTTCAGTATTAAATACTTCTCTAACTTCCATTACAAGATCTCCTTGAACCCTTATCCCTATACCTTTTTTATATTCAAAGGTTTCATAGGAATGATAATCGAAACCCATACATCTTCTTATTTGGAATTTAGCTTCGTCTGGATAATATTCCGAAACATAACAGTGTCTTCTCACTGGCATTACGAACATTTTTCCAGTAGATGAGTCCTTACCCATTACGAAATTTACTGGAAAAGACTCACCTTTATCTGAGTCTCCCAATTCAAAATAATAATATTCATCGACTTTCCTAACTCTTTCCTTTAGCTTGTTGGCTAAAATAAACCGTACATAATGTTGAATACTTAAAAAGTCGTTTTCCTTAAAATCTAGGCTCATTCAATCTAGGCCTCTACTCCTAATTGTAGTGAGGTCTATCACCTTTTCATCTGAGCCTTTCTCCTTTATTTCATCTTTTTGTTTTAACTGGGTTGTTTGCATAATTATAAATGCGTTATATTATACTTAAGTATTTCCTTTTAAAAGTTTTCAATTTTTGAGCAGAGAGTAACGGTATATACTACACATAATTAGTATAGAATACGTAAAATTCTGTTAACTTTTTACTTTATAGTATTTTAAATTAAACATAACTTTATATAGAAATAGTTAGGTTAAAAATTTAAAGAAAATATTTCCTTATTGTCTTTATACACTGTTACTTTATTTTCCTCAGATTCCAATATTCCATAACATCTATAAATCTGAGAACTGTCTACTCTAAGATATTTAGTTCCTGAAGGAAATTGATAGTATGAATAGCAACCAGCAGTCATGTGTCCATTAAAGAATAATCTGGGTTTCAAATCTTCAACAGCTTCAAACACTAACTCATTGTAATCATCCGCTCTCATTTTAGGATATATGTCAGGGATATATGGAGGCTGATGAGTTATTAAAACGTCTAATTTCGGAACAGAATTTTTTATTCTATAAATAGCATTCATGAATTGTGTTGGTGTAGTTAAAGGTATTCCTTTAATACTATTTTCTCCTATAAGGCCGTTAATTCCTGCTATTTTCAAACCACCAACTTCGAAAACCTTACCGTTAGGCATTGCGTATGTTTCTATTACTGGGAAGTTTTCATGATTACCGTAGATAGTGAATAGTTTAACCTTAGAATTTATTTTCCTAAAATCCTCAGGAGTCATTCCCTCGTCCCAGTCTCCTGCAGAAATAAGTACCTCAGGCTCAGTCTTATCTATTATTTCTAATAACCATTCTACAGCTACTGACTCGTCGTATCCCTTATAGAAGTTGAACGATTTATGAACGTCGCTAACTAGTAGGAATCTCATCGTTTTATATAGAGAGGAGTACTTAATTAGATTAACTTGTCTTTAGATTAACTTAGTCCTTTATACCTTAAAGCAATATTATTGTAAGGGAAATATAATCTCATAAAATAACGCACCAAATAAAAGAAAATAATATCCGTTATTAATATAAAATAATTAATGATATTAAAAATACGTCGAATTTAAGAGTTTTCTTGAACCATCTGATTATTCATAACATACCATAACAATATTGAGTAATAACTATGAGTGCCAGCTATGTGGAATTGTAACAGTATTTGAACACTAAGTTGCGGAACCTCATTAGTCTGGGAAGTATAATAATATAGAAAAGTTATTATATCGGCAGCAGGAATTAGAACGTTTTCTTTCACTATTTTAAACTGACTAGGCTCCAAAACAATAGGATTAGAGAGAGTCTTATTTACAGTGAAGGTAGTAAAAGTTCCAGTAGATGGAACAGATTGCATAAATGTATTATATTGATATACCATCTGCATAGTTATAAGAAAATAGTTAAAAGACTCTTGCGTTACTCCCCTATTGCTCATTATTAGGAATATACTGGCATTAAAAGGAGGAACTATCAATCCTTTAACTACTATAGAAGCATTTTCGAACATTACGAAATTATTAATAGAATCTAGAGATATTGCTGGCATTTCTGTAGTATTATATATGTTTGAATTCAAAACAAAACCATTAATATAGAACGGAGCTATGCACTGTAGTTCATTCGAAATATCATTCGAAGATAGAAGTGTTATTTTACCGTGATTAAAACCAGAAACCATTATATTAGTTTGAGTAGGCGACACTGAAATATTTACTGGAACAGAATAATTATATATTGAGAGTATATTATAATACATACTATTAACTGAATATTGCACTAACCTGGAAAAGCTTAGCTGAGATTTACTTATATTAGGGAATTCACCTTGAATATATTCCACATATACGTTATTTAAGGTAATCTGATTCCAACCTTTACTGTAATTATATAAAATCAAGTTTGTAGGTGAATCTATTGTAACATTGAAAGATCTAGACAATAGTGAAATCTTCCATACGCTTCCATTATGCCAATTTAGTGTTCCATTAATGAAGATGTTGTGCCCATGATAATCTGTCTCATTTAGTTTTAATAATGCAAGATTATAGTTGTAACATATTGAGATAATACCGTAAAAAGAATTATTTCCGAAGGATATGTTTGTATCGTATTGATTATGAGAATTTAATTCCGTAGGAAAAGTTATAGTTCCGTTAAAACCAGACAAATTCATATATCCTAATCCTAAAGGCATAGTGTAATTCCCTATTATTTCACCGTTGAATGTTCCATTGTATATTCCATTGTTATCAAAAACATTCTCTAAAAAAGGTACTACGGTAGTATAAGGAGGAAAACCTTTGTCAGAATCCTGAGAAATGGAAATGTTCTGAGGTTTCTCAAACACATCTTGTAAAAATAGGTCAAGAAAAGTATCTGGTGTCGTAAAGCTTCCTAAAGAATTAAGTAAATCCACTTTGTTTATAGAAACGTTAATTTCTGTAGAATTACTATATACCGTAATAGTATCCGACAATTGAGCGTTCTTACTAATAGTCTGAGACAATGGATAAACTACAAAAACATTTCCTAAACTAGTTTCAATTTCAAGCTGATCGTAAGCGTAAGTAGAATTTACCTTAATAGCTATAGCAGGATATCCGAAATAGTAAGGAGCGTCATATGTTGTTATCTTAACAAGGGGCGTTCAGTAATAAATATTTTGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGCGATTTGGGGAGGATCACTTGGGCTCATAAGGCTTATTATTATACCAAACACTCCAAATTATTCTAGCCAATTTCCTGGCTAAAGCAGTGTACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAATAATTCATCTCAGCGAGGAAGTAGAGCAAGCTGCGCAAGTACTTATTACCCTTCTTCGATATTCCCTTACTTACAGTAGCTTTACCGCTCCTCTCAACTATTGGGTCTAAACCACAGTAGGCTACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCCCCAACAATGCCTATTATTATTCCCGAAGAAAGTTTCCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTGATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTGTACTCTAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAAGCATTTCCTTGCTTATTTTTTCCTCGTCACTGACTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTGCTTCAAGGTCTTTTAGGAAGATATATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTGTGCGTCGTAAAAATCTGTTTTCTTTCCTCTCAAGTCCTTCTCCTTCCATAGTATATTTGGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGAGTATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGTTACTAGATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATAGTAGGGATTTGTCACGCCCCCTCTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGAATAGGCTCCACATGCTTCGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGAGGAAACCACTCGATAGAGGTTAACTTTAGGATCTTCACTTTGTATGTGTAATACTCTTTTTCTAATTCTTGAATTTTTCTATAATACGCGTTGTATTGTTAATTTTGTTAGGAGATAGTGCGAACTAACTATGAGAACGTCCCCTTAAATTTTTGCACACTCCTACTCGGGATGTTGTCCCACATGTTAGATCGCGGGGGACGTATAGCCAGCCTCCCACATGGGGTTTTATCCCCATGCCCACTTTCGGCTTGTGTTATTTTCTTGTTCTCTTTATAAAAGTTTTACTCTTGTAAGGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGCCCCCTTTGTAGTTACATTTAAATACGTATTTTTCAAATATTCTCTTAATGGCAGTCACTGACGGAGTAAGCGTCACTGAGACGCCTTGGTTAAAGCGAGGGTCTATGTGGTACGCCTCTGCTCCATTCAACAGTCCCATATTGGGATACTGTGGGTTCACATTAGTGCTCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGTCCGTTAGGGCGGAGTAGTTCACCATTGCCGCAATACCCCCAATTATACTTCTATTATTAAGAAGAAAAATGCCAGAGAGTATCAGATGGGCCGCCGAAGTAGGGAATAAGAAAAAAGTAGAGGAAGCCGTAAAGAGACTGGAGAAATGTGGCTTAGAACCTGAGGTTAATTTTGACGCAATTCAAGAAGACAAACCTACATTAAAGCAAAATCTCAAAGCATTCTTCAGTAGGACATATGCTAGACAAGTAGCCTTCATTTTCTGGATTGGTGCAGCATACGCTTTGACAGTCAACTTAGTTTCAGTATACTCTAGTAAGGTTCTCTCAGATTTAGGAGCTTCGTCCTTTGAATCCCTATTAGGTACTCTGAGTATAGATATTTTAGGAACTTTTGGAGTTTTAATAACAGTATTTGCGGCGGACAAATTAGGGAGAAAGGTCCTAGGCACACTAGGTTTTGGACTTTCTGCAATTCCATTGGCGGTACTTTACGTGGCCTATTTGATGGGTTTCCTATCGATTCCTTTAGTAGTAGCAATGTTCTCATTATTCTTCCTTATAAATGTAGGATTTGTAGGTACTTTACAATACGTTCCAGCAGGAGAAGTATTTCCTACAAGATTAAGGGGACTATCAGTAGGTTGGGAGAAATTATTCGAATTCGGTTTAGCTTTGCCAGCATTGTCGTTGTATGCATTTCTAGGAGTAGCGAATTCATTACTTTATGATATAATAGTTGCAATAATTGCAGCAGCAATATATTACTTCCTCTCGTTAGAAACTAAACAAATGCCATTAGAAGAGATACAAAGAAGATATACTGGAAATGAAGGAATACCTAGCTTTGCATTAAAAGACATAGCAAGAAGCAAGGATAAGGATAAGTTATAAACTTTTTATATCTTTTTACGTTTTATTTAACATTTTATATCAAGATTATTAAAAGAGATAATAAAGGGCCTATTATTAAACTATCTATTGCTAGCATGGGACTTCCTATGGATATTACTATGCCCACAAATAAAGGCGCTATCATAGATCCTATCTGAGATATGGCATTAGCAAACCCCATGGAAGTTCCAGCGTTTTCTTTCCCCATTATTTTTACGACTATTGAATCTGTAGGAGGTCTATACATAAAGGAAGATATTCCAAGTATAACACTGATTGGTATAAGGAGATACAGATCTCTTGTAAATGATATAATAATTATTGAAATAATAAAGAGAATTAATGAGGTTTTAACTAGTTTAATATCCTCCATAATTCTCGAAAGTCTTTCTGAGAGTATTATAGAAAGCACTTGGCCTATTGCGTATAATATAAATAGAATTTCGGAAAGTTTTTCAGGTACATTATCGTAGAGGACTAAAAAGGGAAATAGCCACGACGACGTTCCCCATGTACCCCATAACTCTCCAGCTCTTATAATCGAGACCTTACCTACTCTCTTATTTAGTATAACTTTTCTAGCACTCTCTGATTTACCAGATTTAACATTAAGAAATAACGATAAAAAAGACGTCAATATTAATCCTATGAATATACAGATATAGAAAAATTTCCAATAAATTAATATTATTCCAGAAAGAGTAGCTAAAATAAGTAAAACTATTGGAGCTGAACTTTCTAAGAGAGCTAAATATGGTGTTAATGGTCTTTCCAACAATGAAACTATTTTTACTGATGATGGGAAAAGTCCTGCTGTTAAAAGACCTTCAATAAAATACAATAAGTAAAGTTCATATATACTTTTTATAAATATGAAAAATGGTATAAAAATTCCTGAAAGTAATGCTGAAATAAATATTGATTTTTTTGGTCCTACCTTATCTATAAATATACCCCATAATATTGAACTACTTACGTAACCTACATAAAAAAGAAAGAGTACTGTTCCTATTTCAACTGAAGTCATACGAAGAACGTAAGCAAAAGTTACTGCAACAACTCCCCAACTTAATCTTAAGGCTAATTGAAGAAAGGTTGCGGTCCAGCTTAAACCTAAAGAAAATCTCATAAAAAATGAGTAGAATGAAGATTTTTAAATTTGTTTAAAGTTGGAAATACTTTGAAATGAAACATTAAGTTTTAGAACAAAACTTCTAATGTATTACAAAAAATGGTAAAAAGGTATTCGATCAACTAATTTTTCATTAATACTCTCATCTTCTAAATACTTTTTATGAATATATGAATTTAACAGTATAAATATTCATTAACGCTTACTTTTAGTAGGATAGTCTTTAAAAATTTTAAGATGAGATAAGTAACTAAAATTTTCTAGCGAACTCGTATGAAAAATTATAAAGTTAACATTCTCAATATGCTAATTGAAAAAACATAAATAATCATTATTTAGTCTTTGAGATATAGATTCAGTTATTAAAACAGACAATGTAGACTAAAAGTATAAATATATGTAGATTTAATGTATTATATGCAAACATGTCCCATGTGTGGAGCAAATCTGGTAGAAGGTTTAAGTTATTGTCAAGTATGTGGAGCAGACGTTAGTATATACGATCAAATATACCAGAGCATTCAAGGAGTTTCTCCATTTCAATCTCCAGGAAATCAACAAAATTTCCAACAACAAGACTTTTCACAGCAAGGTTTTCAACAGCAGAATTTCCCGCAACAAGACTTTCAGCAGAATTTCCAACAACAAAATCCCCAGTATCAGCAAGGAATTCCTTGTCCTAACTGCGGTTTTATGAATCCACCAGACGCTAAAGTTTGTGGAAATTGCGGACAAGAATTAAAAAAACACCATCATCATTTCTTCTAAATTTTTATATTTGAACTCACTTTTTATTAATATGCCAGAATACAGAATTCTTGGTTACGATATGCAACATGTAAGAGTATATTTAAACCAAGGTGAAATGGTTTACGGAGACGGAGGGCATTTAGTAGCAAAATCTCCTTCTATTCAAGTTAATTATGCAGCTCAAGGAGGAATAATAAAATCTTTTGAAAGAGAACTTACTGGCAGTAGATTCTTTATAATGCAAATAATAGGACCTGGGGTAGCAGAATTTTCTTCTTTTCTTCCAGGAAGAGTAGTAAAAGTAGATCTTCAAGGTAATGGAATAAGAGTAGAGCATAATTCTTTCCTTTTTGCAGAACAGGGAATTCAATATACAGCGGCATTAGATAAAATAACTGTAGGATGGTTAGGAGGAGAAGGATTACTGATGGAGCATTTTACTGGACAGGGATCTGTATTTATCCATGCTTTAGGAGGAGTTAGCAGTTACGTTTTAAATCAAGGTGAAGAAATGGAATTTGAGGCCGGACATGTATTAGCCTTCGATGATAATATGCAATATTCAATAACGAGGGCAGGAGGAATAAAAACAATGCTTTTTGGAGGACTTGAAAAGGAGGGAATGTTCTTTGTAAAACTTACTGGACCAGGTAGAGTATGGTTACATAACGTATCATTAGAACAGTTGATCTCTAAATTAAGATTAGTCGGTGGAGGCGGTGGTGGAGGTCCATCTCAAGGAACTCCTGACATAAATATTGGAGGATTCAACATAAATATATAAAAAATTATCTCTTTATGTTTTTATTTTATCAGGAAAATATTTTAGGAATTTAGTAATCTTTGGATCTATTATCACTCTACAATAAGGATAATTTCTATGCTTATCGTAAAAGTTATGATGATAATCCTCTGCCTCATAAAAAGCTTCAAAAGGCACAACTTCCGTAACTACTTTTTTCCCTATTTTCTTTTCTACTTCTCTTATTATTTCCTCTGCAATTTTTCTTTGCTCGTCATTATGATATAATATTATAGATCTATATTGTGAACCAACATCGTTACCTTGCCTGTTTGGAGTTGTAGGATCGTGAATAGAGAAGAAAATTTCCAAAATATCTCTAAAAGAAATAATATTAGGATCAAAAGTAATTTGGACTACTTCAGCATGTCCCGTTTTGTCCGTACATACATCCTCGTACGTTGGATTAGGCACTTTTCCTCCAGAATATCCTGGTTTAACCTCAATCACTCCCTTAACTCTAGAAAAAACTGCTTCAGTGCACCAGAAACATCCTCCGCCTAATGTTGCTTTTTCCATGAAAGATATATGAAGTAGCTAAAATTTAACTTAGTGTTAGAAAATTTAAAATAGTTGTTTTGAAAAGATTTACTATAAACCTTTGATGAAGTTTTTGGAAAACGAATATTGTTATCGTGAACTACCATGCCCTAACGGGCGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCAATATGGGACTGTTGAATGGAGCAGAGGCGTACCACATAGACCCTCGCTTTAACCAAGGCGTCTCAGTGACGCTTACTCCGTCAGTGACTGCCATTAAGAGAATATTTGAAAAATACGTATTTAAATGTAACCACAAAGGGGGCAATCCATCTCCACCCTTACGGATGGAGTCTTCCACCCCCTTTGAACCCCTTGTTCAGATAAAATACTATCGGTAAGGTATATTGACAATTTTCATCTTAAATATTTAAGAACCGCACTTCAGATTAATTATTTATGAGTGAGGATTTAATCAAGGCGCTAATCAACAACGACGAATTCAATAAGAAGATAGCTAGTATAGTCTATGAAAAAATTAGAAACGATGTTATATTGAATAAATTTGATGATATATATAAAATATTAAATGAGCTAACTAAATCTGTCCAAAAGAACACTGATCATATAATCCTTATATGGGAGAAAATGGATCAAACTGATAAGACTATTAATAACATTATACAATCAATTAAGGATAACACTAACGCTATAAAGGAGATGCAAAATGAGGTAAGAACGTTAAATATTACAACACAAAAACATACTGAAGCTATAGAGTCTCTTCAGAAAAATATTGATTCACATACGAAAGCAATAGAGACAATGCAGAAAACGTTAGAAAAGCACAGTGAAATCATCGAAACACATACGAAAGCAATAGAGACAATGCAGAAAACGTTAGAAAAGCACAGTGAAATCATCGAAACACATACGAAAGCAATAGAGACAATGCAGAAAACGTTAGAAAAGCACAGTGAAATCATCGAAACACATACGAAAGCAATAGAGACAATGCAGAAAACGTTAGAAAAGCACAGTGAAATCATCGAAACACATACGAAAGCAATAGAGACAATGCAGAAAACGTTAGAAAAGCACAGTGAAATCATCGAAACACATACGAAAGCAATAGAGACAATGCAGAAAACGTTAGAAAAGCACAGTGAAATCATCGAAACACATACGAAAGCAATAGAAGAACAATCTAAGGCAATAGAGAAGTTACAAAATGCGATTTTTAGACTAAGTACAGAGATAGGTGCGTTTACTAATAGAGCAGGTAAAGGTCTAGAGAAAAGTATAATGAATATATATAGAGAAGCGTTAAAATTACATGGTATAGATCCTTCTAACGTTAAACATGGTAAAATAAAGGATACCCTAGGAATAATAGATAAGGATAAGGAGTTTGAAGTAGACTTTTATGAGACCGATGATTACGTCTATGTTTTTGAAGTTAAGAACTATGCAGATGAGGGAGTTTTAGAACAAATGAGAAATAGAATTAAATTGTTTTCCGCATTATATAAAAAGCCTATAAAATTCTATATTATATCTAACTTTATAGAAAAATCTGTAAAAGAAGAAGCAGAAAAAGAAGCAGCAATAATTATTACATCTCATGTTGTAGAAGACGAAGCATAAATTTTTCAACTTTATTTAAAGATTTATTTATAAAAATACCATTTAATATTTAAATTTCAATGATAATAGTTCTTATTTAGTATGAACTACACAATACTTGTATTGTATTTTATTATTTACAAGTTTTTAAATGATTAAACTATTATATTTATTTATGGTAACATGCATAATTTTATCAATTTTATTTAATTTATTTTTTATATTTAATTATATGAGGTGATGATATGAACGTAAGATCCTCAACCTTATATTTTATTGGAGCAATTTCATGGTTAGTCATTACTGGTTTAGGTGCTATGAATCTTAGAACTTACTTATTGAATGAAGGATCGATAAAATTTGACGAAATATATTACTTCATGCTAACTTTACATGGAGATTCTGGAATGATAGCCTTTGTTTCTTTCTCATCTCTTGCAATTTCGATATTTCTAATTGAAAAATATTACAGTCTAAATTATAAAATTCTTAATAGTTTGTTTATAATAGCAAATATTGGAATTATAATATACTTCTTAGGAGGCCCAATAATAGGATGGTATATGCTTTACCCTCTTTCTACACAATCATTCAATTTTATAGGTATTTACGGTAAATATTTTTGGATAAGCTATTTAGGAATATTTATATATTGTATATCAATAGAGACATGCTCAGTATATCTTTGGAAAAAATCAAATAATTTAATATTTATTACACTTTCGCTAATGATTTTCTCAATACCATTTCTCGGAGCCACAATGATACTTTATATTCTAAGTATTGTAAAAGGAATTTCTGTATCCCCTATAATTACCTCGTTCACGTTTTGGGAATATGGTTCACCCGATACTTATTTTCTCACTTTTTCAGTATTCGCATTACTCTACTATATCTTTAAACCTTTTTCAACAAAATGGACATTGTGGTCAAAATATCCTCTCATGATATTGCCCTTTCTTATATTTGCTAACCATCTTCAAACATGGCCTATAAATCCGATAGTAAGAGAAGCTTCGGATTTCTTTACAATAATTCTTACAGGATTTCTTGCAATTTTATTTTTTAACTTAATTATTCCATTATTTAAAACTACAATAAATTCTACAATAGAGTTTTTAGGAGTTATTACATTAGGCGGATTTTTAATTTCGTCAATATTCTCCATAATATTACCATTTAATTTCTTTGATCCTATATTTCACAATACTTATTATGTTGTAGGAAGTTTTCACTCAATAATATGGAACTTCTTAATAACAGGATTCTTCTTGGGATTCTATATCTTTACAACTAATCTTGAAGAGAAGAAAGAATTAAAGAACGAGAACGTAATTTTAAAGACTTCACTAATAACATGGTTAATTTCATCAACAATATTAAGCTATTTAATGATGTACTCTGGTTATGAAGGGTTAATAAGGAGAGAAGTCATTTTCCCTTCTAAATTCTTGCCATCAATGGATTTAATGACAGCGTTTGCGTTTATTGCAGTCACTGCAATAAGTTTGGCTTTTTCTATTGAACTTTCAAAATTAATAAGTGTTAAGATTAAAAAAATAGAATATAAAAAATTCCAAGCAAAAATTATGAATAAAATCCGTCATTGATTTTTCGTTCTATTTCTCCCAGAAGTTTAGAATTTATCCATGCTCTTCCAAAAGCACCTATATTTTCCTCATCTATAGTAACTAAAACATTATTTGGATCTCCTCTAACTCTTACTAAAATTATCTCCTCTTTATGGAAATGTCCTCTCTTTATCCCTTTTATCATAAAATCGGTTGGTTGATTTTGATTTAACGTAATTTCCCAATCTTCGTCTTTTAATGAGTTTTGAATATCTTGAACTAAGTTTTGAATATTTATATTTCTATCAATAAATTCCCTTTCCATAACTACATTACATGAAATTTAAATATAAAATTTTCGTAACATATTTACAGTTCTCGAAGTTTAAAACTATTTTCTAAATATAAAAAATAAAATTGTTTTATCTTATATTTTTCCCACAAAAAGCGTGTCAAGCTCCTTTTTAATATTTTCGAATTCTGTCATACACCTTATATATTCTTTATATTTAGTGATATATTCTCTTCCTTTTTCAGTTAAATAATACTCATCTCCTCTCAAAGTTATATAATTCAATTTCTCAAGTTTACTTAAATATTTTGTAAATATGCCATAGTTTAAATTGGCTGCATACATGAGTTTAGTTTTTTTCTTTCCGTCACAATTCTTTAATATAGAAAACATAACCTCATAACAATCTCTCTTCTTTCTTATCTCGTTATGAGCATAAGAATCGTAATATTTCGCTCCTCTATTTATTAAAACGGAGGAAATCTCTTGGACTTTCGGCTCCTTTTCCCTCATTTTTCCACCATTCTCGACAAGTATTATTTACCTTTACGTTATATAGCTTTGTTTAACAAATTATAGAAATAAATTTTAAATTATACATTTTCAAAAAAATCATGTAATTTATTATTTAAAATCCAATTATATGATAGACCCCGTACTTGTGAACTCCTCCTACGGCGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCTTTACAAGAGTGAGACTAAGAAGACTAGGTATAGGGGAGGAGGTGGTGAAGGCCCTCAAGTTGACCCCAATCAAGTAGTTCCTTCGGCTCTTCAAGCTATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTATCCATCTCCACGGATGGAGTCTTTCGCCTCGTTTGAACCCCCTGTTAAGATAAAAAAAGTAAAATAAGTTAAAATTTTTATTTTATCTGTAAAATAAGTTTTTTTAACTATAACAACATATTTAATTATGAACAAAAAGGAAGGAGAGTTAATAATACAATTATTTAGAAATCCTTTACAGTCCTATAGAAGTATAGCAAAAGAAATTGATGTATCAAACTCCCTCATAACTTACATGTTAAGAAGATCTTATTATTCTCCTATAACTAAAGATTTAGTTTTGAGCATTACTCCAAATTTTTTTAACCTTTACAAATCAACAATAGTCTTCAAAGAAGACCCGGGAAATATACCTTATTCCTTAAAATTTAAAGGAGATAATAATACTTTTGTCATGATTTATGGAAAAAATTCTAATAATATTACAGAAATTTTAAAATCACAAGGACTTACTACATCGAACATTAACATGAGATATGACCCCGAACAACTAAAATTTAATTTTCTTTCTTTCCCTAAAAGGCTGATGGAATTATTGATAGCTGATCCAAACCAAGTTTTAGATTATAAAAAATTAGGAGAGAAAATGAATAGTCCTCCAGCTACCATAAGAAGGTATATAAATTATTTTATTAAAAATAATATCATACAATTTTTTCCAAAAATAAATATTGAAAAGAACAATATGTATCTGTTTACACTTATTACCCAAAATTTTCAATTATCGATGTCTTTATTAAGAAATTATTATACAATATTAAGACCGTTGGACAATTATGGACTAATACAAGGTATTATTTACGATGAGGAAGGGACTGCATTATTGGATAAATTAAAATCTTTAGATAAAAAAGTATATATTTCTATCCAATATAAATACGAGACTAATCAGACACCATTTATAAGATTTCTAAAAAAATAACTTAACTTTGTGAAACTTCCATTAAAGTCTTGAATATTTCATTAAAGTCTGCCTTCTGCATTTCTACAAATACTCCATAATTCCCCATTACACATACTGCGTAGTCTCCTGCTGCTACAGCCCATCCATGAAACGGAGTCCATTTCATTCCCGATAGTTTAGAAAAACCTTCTGCCTGCATTTTTCCCATTAATGTATTTGCTGCTACCATCATAGCTACCATTTCGGCTATATCCTTTGGTAAGTTTCCCTTATAGCTTACCAATTTTCCATCTATAGTATATTCTCCTGCAGCTACTGCTCCCTTTAAGCCCATCAGACGATCTAATTTATCCATATTTATCATTATTATAATGTATGTTTAGATTATATAAATTTTATGAATAAAAAATTTTCTCTACTTAGTATTGAATATTAAATTATTAAATCTTTATATTGATATCTTCCTTTCACGTTTCTATTATTATAAGTTAGTTAAACCCAGTTAAAGAAAGACAAAATTTAAAAACTATATTATTTAGTTAATTTTATACAATCGGATTTGACACTTTACATTTATATATCGTGACTATAATATTTTTTCCTATGAACCAAGAGATTATAAGAAGAAACCTTAATGATATTAAATCTTCAGGAATATTATTAGAAAAAATTCTCCCTAATATATATGTTAACAGATATAACATCTTTTCTGACATTTTTATAGTAAGCGAGAAAAAAGGAATGTATGTCCATTGTATGAAACATTGTATTAAAGGTACTGGTTGTGTCTTGTATGAAACAACTCTAAGTGAGAAAATTCCAGATATTATAAACAAGGAATTTATAGAAAAACTAGAACTTAAACCAATTTATATTAGTAAAAAAGCATTAATATCAATAAACACTTTGAGAGAAGCTTCAAATACTCTAAAGAAAGAAGAATTAAAAATAGCTTCAGAGAAAATAATTCAGAAAATTAATGAAGGATTATTTGACAATTTTTAACTTATACGTTATAATTGAATTTTTCTCTTGTCAATTCTTTGAAAACTTTTGTCAAAGAATACCCTTTTAAGGAATACTAAATTATCCTAAAATATGGACGATCTTACAAAAATAATTAAGGACAGAACAAGAAGAGAGATTTTACTTTATCTTCATAATAGAGGAAAAGCTACATATTCCGACATTCTTCATGATATGAAATTATCTACAGGAAAACTAAATTATCACTTAAAAGTTCTAGAACCATTCCTCTCGAAAGAAAACGAATACTATAAACTTAATGATAAGGGCAATCAATTAGCAGAAATAATCCTTAGTTTAGGAGATAACAAAAATTCCTCAGAAAAGTATTACCGCAATTCTTTGCTATTATTTCATTTATTCTCCTCATTATAAGTTCAGAGATTTTATATTCTTCTGGATTTTATATAATTTATTCTATTTCAATAATTACTTTATTAATATCTTCATTTCTAAATTATGTACAGGAAGAAGTTGAAGGTTTTGAAAATTTTATGATTTTATTAGCACTATTTTTCCCTTATGTCTTCTTCGTATTGAGGGGAAAAATTTTCAGTTTTTTACCATTATATTTAATTATAAGCCCTTATTATCATAATATTACATTTAGTTACTATATTAATGAACTAATACCTACAGCAGTATATTATTTTGGAGTACTCCCAAGATTTGTGAACTACAACGTAAGGTTGATGAGTATAGTTTGGGGAATAATTTTAATTGCAGATTCTTTATCTGGATTTATTGATTTGACTCCTTTATTACTTGGACTATCTATTCTTGTAAATAAGGAATCAACATATAATTATAAATTGTTTTTATTAATTACCATAGTGTTAATAATTTCAGCTACGTTATTTAAAATATTTATTCTACAGTATTAATCTGGGTTTATGCTATAAAAATCAGTATTTTCTAATAGTATTCCCCTAGGTATTTTAGCAAATAGATATCTTAAGAACGGTAATGAGGAATAAGAAAGCTCTATATATTTATTTCCATCTATAAATAGTTCTATCTTATTTCTATAATGATCTACATAAGCTATAAAATTAGAGAATTTTAATAAATGGACTAAATCCACGACTGTTTTATCTCCTACAAGTAAGTGTCCAAAATTCTCTGTAAAATAGTCTAGGTCTACTTCTTCTACATCATAAACTATCATAGGTCTAGAAAATCTTATATTAATTCCTTCAAGGTCTTCTAATTGCCTTACTTCCCTTACTTTTCCATCGTAAATAAATTTCTTATCTTTAGTTAGAAACAGAACCTTGAAAGCCATAAAATTTATGTGGATTTGGTATAATTTATAGTTTTCTTATGAAGATTATTAATAAGATATGAATATAGTCATTACAAATTAATATATATACTATATATAGTCTATAGAAACTATATAGATCTAACAAAGTATTTTCGTCATATCATTTGCGTTTACTGTATTTTTTTATTACATCTTATTTTTCTCATGCAAATCTTTATATGTTTACAATTTCCTCTAATGGCGAAACCTTTGCAACTACAACTTGCTTTAACATATTTTCCAAGTTCTATCCTAACTATGTAACTCTTTAAAGGATTTTTCTCACTATTTATTGCAAACAAGTAAATTCTTGAATCCATATAATTTCTTTTAATTATGAGATATGGATACATACATTAAAAGTAAAGATTTTAAAAAATCAGACTTACCCGATATTATTTACAGTCTCATTGCCAGTTTTTTGTACAAAAGACAACGTGAACTCCTTAATTTTTTCTTCAAGTATTTCCGAATCTCCATGAAGTATTCTTATAGCTTCTAATGTAGGCACTTCTATTTTAGTTACTTTAGACTCATCTACTTTCAGTTTCATAGAATTTGTAATAACGAACCTATTGCCTACAATGTACTCTTTTTTATCATGCTCCACTTTTTCCAATTGTGATAATAATTTTATATCTTCGTCTTCTTCCTTATCGTCATTCATCAATTTTACAATTCCTACAAATGCTAAGTCGTCCTTTATAAAGAATATTCCAGCTACAATGTATTTCCCTTTAACTTCTATCCTTTTACCTCTTAAATGCACATAAGATAATCCTAATTCTTTCGACATTGAGCTAAGGCCTTCTCTAATAAACTTCTCTAAATTCTTAGACTCATCGTCAGGATTCTTTAATGTATGTGAACTCCTTAACTTTTCTTTTATGCATTCTGCATTATCACCGCATTCTTTATCAAATTTTTCTATCTGCGATTTAATAAACTGTAATATAGAGCTAACAGTATTTAATTCCCTTCCCTTCCACATTGAAAGTACTATTGGAAATATCTCTTCGCTTATAGGATTACAATAAGCGTCTACTATTTCTTTTATATCTTCTGGGGTGAGGGCACTATCGAGGGATATTCTACTTTCGTCCAATCTCCTCCTTATTGCAAGATCTGTAACCTTACTATAAGAATCTGTAGGTATTGCCATTATAACTGGTATTCCCAACCCTGCATTTATTAATCTATGAATTTTAGGAATGTGACTTTCTCTTACTTCGTCAATAAGTAACGCAACTTTAGTTATTCCGTTAAGGTCGGAAAGTAAGTTCAACATCCCGTCAAAGTCCTTATTATAGGAAAGGCAATAAATCCTCAAATATTTATCGTCGTATTTATCGCATACTTTTACTAACCAATCTTCAAGTTTAGTTCCAGTAATTTTTTTCCAAAATGAATACCCGAATTTCTTCCTATTCTCATTTAAATAGTTAAAAGTTAATTCCTTCAAGTTATATGGACTGATTTTACTCCAAAATTCTTCCTCTATTTCACCCTTACTAGCTAGATCTAGGTAAAAGGACAACTCACTTACATTTTCTTGAGTTTTCTTTAATATTGTAGTTTTACCCATTCCAGGCTGTCCTATTATAGAAGCTACATCATTGTTCTTTATAGCATCCAGAGTTTTTTGCAAATATTTTGTATAAGTAGGACCTACCAAAATAACGTTCTTACTGTTCCATGTTGTCACTGTAACTTTCGGTATATTACATAACATTTCATTCACCCCTTCTCTTAATTATACCATATATGGAACCTTTCCTAACATAACCTTCCTCTCCACCAGCAATAAAATCGTAATTATCTTCAATATGGCGCTTTAATTTAGAATAAAACTCTTCCTTGTCCATGCCCAATTCTATCCTAATTGCCTGCAAATGTGCATATCCTAGATTATCCTTAACCTTGTCATATACAGCATCAAAAGTATCTTCACTAATTTTCTTTTTTTCTGAAATATATTCTTGTAATTTCCTTATTTCGTCTTTAATTTCTCTTATTTCGTTTAATATTATGTCAGTCTTATCTATCTCTAGAATTTCGTATGCTTTACCTCCTCCACTTTCAATTTTTCTAATTTTACCACTTTTTTCCATTTTTTCTAGTACGTTGAGAAGTTCTTCTCCGTCACACTTTAATTTCCTCTTAATTTTCGAAAAAGCTACTGGTTTACCGTCGTAAAGTTCCTTTAATGTAGCAATAATCTCATCCTCTGAAAGCATGTCCTATATCTTTATTCAAATCCTTTAAATACCATAAGATAAGTAATACTTTAGATTTTTTATGAAAAAATTATTTTAACTTTATTATACCATACAGATTTCCTTTTCTCGTTAACCCTTCTTCTCCTCCAGGATATAGCTGATATTTACTTTCTATATATTCCCCATACGTAGAATAGAAGGCTTCTTTAGTTAATCCCATTTCGATTCTTATTGCGGAAAGTTTAGAATATCCGTCTGAATCCTTAGTCTTTCCGTAAATCTCGTCAAATTTCTTTGAATCTACAGTATTCTCCTTTAAGAGTATTTTTCTTATATCTTGAATATAATTTATGATATCTGAAAACATTTCATTTATCTTTGGTTCATCAATTTTGTTTTCTTTAACCTCAAGCTTATTCTCCTCATGATCCTCGTTATTCTCTTGTTTAACGTAATACAGTATAGAATTACCAGATTTTTCCTTAATTAATTTCCCTTCTTTTACTAACTCTTCTAAAAAGTCGTCTACTTGTTTACTTCTTCCTATTTTATCCTTAATTCTCGTCTTCGGTACTTTATCTATACCTTCCTTCTGTAATTGAATTATAATGTTTAAAATATCTTCTTTAGAAATAGTTTTAGCCATCATGAATAGTTAGCTTATATTAAAAAACTTAAAAAAGAGTAGGTTAAATATTATATTTACTGCGGTTTTGCTGACAATCTTATTAACCAATAAATAGCTTTTATAATTCCTACGGTGTTATTTAAATTTATTTTAGAGAATGTCTTAGAATATTCCCCTTTTGTTTCTTTAAGATTCCTGAATATATCGTCAATACTTGAAAATGTTTTATTAATCATCGTTTTCACCACGTTTCTTACAAATTTATTTCTAATTCCTCCTGTAAGTATTGGAATCAAATCCCTAGTTACCTTAAAATTATAATTCCAAGACATATAAAGTAGATCCCAATAGCCCTCAGGCAATGTCTCAGGTTTAGGATATGGGTTTTTAGAAATGTACGAAGTAGATATTGGAATAACGGGTAAAGGAAAGACCCAAGCAGTAAATTTATGATCAATAATTGACTGAACCAAATCCATACTCTCTCTAACGTCCTCCTCAGTTTCTTCTGGATATCCAATAGTCATAGTATAGCAAGGATATATGTAATAATTATTCATAATACCAGTAGCGTCAATAATTATATTCTTCCAATCCTTAGGAGTCCAAGGGAAAGCTTTAGCGGACATATATTTCTCAAATATTTTTTGACTGCCTGTTTCCAATCCAACTACTGGAGCTGCAGCTCTATCCACATCATACCTTGTTATTTCAGAAATAGCCTTAACTGTCTTAGGACTCTCCCTTACAGCTGGAGCAGAAATATGTGGAAACCATATACCGTCTACGCCCATTGCCATGACTTCTGAAAACAGTTTAACTATAGCCTCATGATTAGTCCTTAACTTTGAGGAACCATAAAGCATTACATCGTCAGTTATGAACTCAACTCTCCTCCATCCACCTTTAATATTAACCTCAACTTCCTTCTTAATTACGTCTATAGGTATAGATCTAAAACTCTCTGGAGTTATAGAACAGAATTTACATCCTCTAGGGCACCCCCTCGTAATCTGAACTTCTCCTAGCCTAGCTGGATTCTTAATAGGCGGTATATCATCTACTTTAGGATCCTTTCCCCTTACTACCTGAGGAACGTCTTCGTTCTCTATCATTCCTTTAATAACTTTTGGTAAATCTACTTCTGCGTCCCTTAAAAATACTACATCTATCCATTCCGGTTTCCTTAAACTTAATTCCCAAGCTCCTGGGCCTCCAGCTATAACCTTAAAATTAAACTTTCCTTTAAGGTCAGAGATCTTTTGCCCTAGTTCATCGAAAAATTGAGCCGTCCATGTTGGTCCTCCACCAAAAAGAAAACTAAGCTTCGCACTCACTGGATTCAGTCCAAAAGGATCATGAACAGTAATTCCTAGAATTCTCGTCTTTCCTGCAAATTTTTCTATTTTTTCTGGAGGAATAACTGCTACATTAAATCCTGATTCTGAAAGGAGAGATTCTATTTTCCTTAGTGCGTAAGGAGCATATAACGCTTTTCCTTCCTTATCCGTCTTTACTTTAGGAGTGAAGAATTTATCCATGAAGAATCTTGGTACTAACCTAGACGGCATACAGGCTACATATCCTAGGACACTGGATCCACCGTAATCCGTGAAAGATCCTCTATCTGCTGAGAGGATTACGTCATACATAATGTAAAAATAGATATATCTAAAAAATAAACGTTTCTATAAAAAGTGTTTAAACTACGATTGAAGAAAAATTTTTAAATTCAGTAGATTGAGAACGTATTTTATAATTTTTAAAAAAGTTCGATTACGAAATAACTCGTTTTCCAACATCGTTAAGATTTTAAAAGCAATAAATCATTTTACTTATCTATAATTAGGTTCACTAAAGAATTTGTATTCCCATAAATTTATTTAGCAAATTATATTTCTTAATGAAAAAGATTATCAAAAAGTTTTTAAGCTAAAAAATATTTCAATTATATATGAGTTTTACTCAAATCCTCAAAATGAAATACAAGGGATAGAAAATCTTAGAAACGGATCGCTTTACTTAATAATATCAGCATTATTGTTTATTGTAGGAGACTTTATAATATTTACTGTACTTGGAGCTATTGTAGTATATATAATATCATTTGTATTTGTATTCCTAGCATATTCTAGACTTAGAGCAGGATTCGGAATATTGCAAAGTAATGGAAAAAATACCGGTTTAGGAAGAACTGGAGCCACTTTACTGTTAGTAGGTATGATATTGGACGTTATCGGCGCAATACTCCTATTAGTGTTCGTGGGCATAGCGTTCTTAGCAATAGGTGCAATAATAGTAATTATAGGAGAAATACTAGTAGGAATAGGATTATATAATACAGGAAATGCATATAATGACGGCTTACTTAAAATAGGAGGTATATTAGTAGCAATCATCGTAACGGCTTTCATAGGTTACATTTTAGCATACGTAAGTTTAGGTGGTATATTAGATAAGCTCAAGAGTGGGTCTTTCGTACCTTCACCAACTTATAGTCAACCAGGTACGCAATATCCTGGAACACAACCAACGTTCTCCCAACCAAGCAATATATACCAAATAGGTACCGGCAATTTAAAGGCCAACGGAGAAGCTTACGTAGCAATTTATTCCCCTACTCCTATTCAAATAGTTTCAGCAGAAATAGTAGGAACATCGATGATAAGCTCATCTATAACTCCAAATCTTCTATCGCCTGGAAGCAATAATGTTACGATAAACTTCGGAACAATAACTGGATTATTGCCAAATAACACATATACAATAAAACTTACTTTAGCAAATGGACAGACTATTGATACTATTGTTGCCTATCAACCATAATGTCAATAACTAACACAAATACTATGTTTCGCAAATACCCATAAATCTAAATTATGCTCATTTTTTAACTATAATAACTATTTTTATGGAAGCTATAGTTATACTATGAATTCTAATTCCTTTCTTATTCCCCAAATCAGTAAAACATTCCATAATCTACTTCAACATTAAAAACTTAAGAAATCCCTAGAACTATTATTTCTTTTAACTCCACTTTATTCCTATTTATAAGAACTGTAATATCCCAAAGATTTTTACAGAAATCATGCACTAATTTTAGGAATAGCTACTTTTTTTAAAAAAAAATGAATCATCCAGATTCTTTAATTTTAGGTTTATGGGACTCAATAGTTCTAGGAGAATTCATTTTTAATTAGGATATATGTTACCAATCAGTCTATCATTTATTATCTTATTAGGATTATCAATGGTTATTTTAAGAGAAATGTAGGAATAGGATTATATAACTCAGGAAATGAATACAATGAAAAACTAACTAAAATTAACGGAATTATGGTATCAACCCAGTCTCATAAGGGGATACTGTAGGCTCACTGCTCGGAGTCGGAACGATCCTCATTGTCTTTGTAGAAATATAAAAAATCTAATATGGTACTTGGAAATTTATAAAAATTATCATATAATTATCTAACTAATTACATTAAATCTTTACGAACCACTAATAACAAATAAAAATTATTTTTACTAATTAGATTTTGGGTCTACCGTAACCAAGGCGGTGACGCTTACTCCGTCAGTGACTGCCATTAAGAGAATATTCGAAAAAAGAAGTATTAAGCCTTACAAAGGGGGCTATCTATCTCCACGGAGTCTTCCGCTCCCTTTGAACCCCTGATCATAATAAAGTCTTATAGTGCAAACTTACAAGATTTTTGGCTCTTTACAGACAATATTCAACGAACAAAATTTAATATATGGATTTTTTATATCACTTATGAAAGCTTACAAGATAATTTTTTCTGGTATAGTTCAAGGTGTAGGATTCAGGCCATTTATTTATAGAATAGCTGTTAAATCAGGAGTAAGAGGATACGTAAGGAATTTAGGAGGAAGCGAAGTAGAAGTCAAGATTGTAGGAAAAGAAGAAAATATAGCAGAATTCATGTCATTATTTTTCTTAAAATTACCTTCTCCTGCAAAAATAGAAAAAATTATAGTAGAAGATAGTGAAATAGAGAATTTTAAGGAATTCCAGATTTTAAAGAGCGGGAGCACAATTAAGGAAGTTGGAGAAATACCTCCGGACTTATCAGTATGTGACGAATGCATGAAGGAAGTTTTAAACGAAAAAGACAGACATTACATGTATCCATTTAATAGTTGCGCATACTGCGGACCAAAGTTTTCAATAATATATAAGTTACCCTACGATAGAGAAAACACTTCCATGAAAGATTTTCCTATGTGTTCTTCTTGTCAGAAAGAATATGAAGATCCGGAAAACGAAAGAAGATTTGACGCTCAAGGAATAAGCTGTCCAATTTGTGGACCTAAATTATTTCTCGAAGATATTAAAGGAGAAAGAATAGAAGGAGATCCTATAGCCCTTACTGCAAAGCTCATAGAAGAAGGAAAAATAGTAGCAATTAAAGGCATTGGAGGATTCCACATAGCTATAGATCCGTTTAACGATGATGTAATTATAAGACTAAGAGAAAGAAAAAAGAGACCACAACAACCTTTTGCCCTCATGGCAATCTCTACTGATGTCATAAAGAAATACGCAGAAGTGTCGGAAATAGAAGAAGAAATTCTACGTTCGCCGGAAAGACCAATATTACTACTCAAAAAAAGAGAATCAATTTCAAAATACATTTCCCCAGGATTGGACAGAGATGGATTTTTCCTTTATTATACTCCTCTACATTATCTCCTCCTCAACTCTCTGAAGAATAAAATTTCAGTGATGACAAGCGGAAATATTCACGGCTTACCTATGTGCATTGACGAAGAATGTGTTAAAGATAAATTGAAAGACGTTGTGGATTACGTACTTTACCATAATAGGAAAATTGTTCACAGAGTTGACGATAGCGTAATGAGGATCTCATCACGAAGGATAATTATGTTACGAAGAAGTAGAGGATTTGCACCTACATGGATAAGAATAAAGAAGAAGGTGGAGCCAACAATAGCTTTAGGAGCAGAACTTCAAAACACTGGAGCAATAGCTTTTGACGATAAGGTTATACTCACACCTTATGTTGGAGATACTGACAAACTGGAAAACTTAGAAGAAATGGAAAACAGTATAAGGTTCCTTTTAAATACCTATTCAATAAAACCTAAATATGTAATAGCAGATAAAAATCCAGCTTATCAAAGCCTCAGACTAGCTAAAAAATTTTCAGAAGAATTTTCGGCTGAATTTTATCAAGTTCAGCACCATTTTGCTCATGGGTTAAGCGTAGCTGCAGAAAAAGGAGTAGATGAGGGAGTAATAATAGCTATAGACGGAATAGGTTATGGAGACGATGGAAACGGTTGGGGAGGTGAGATAATAAAATTTGAAGGAAGTAAATATTCAAGAGAATATCACTTAAGGTATGTTAATTACGCAGGAGGAGACATAAACGCAAAGAAGCCCGATAGAATGTTAGCTTTATTCCTATCTAATTTCCTTTCGTGGGAAGAAATAAAAAAACATGTAAAACTATCTGAAAAAGAAATAAAAATCCTAGAAATGCAATCAAAAAAATCGTCATTGTATACCTCAAGTGTTGGAAGATTTCTTGACGCAGTTTCGGCATTTTTAGATGTTTGCCATGAAAGAACATATGAAGGAGAACCTGCAATAAAACTTGAGGCGATGAAAGGAAGAATATTAGATTTCGATTTCCCTATAAAAGGAGAAGAAATAGACACAATAGAAGCGTTCAAATGGTTTTTAAACAATAATTTAAGGAAAGAGGATATTGCTACAACCCTACAATATAAGCTAGGAGAAGCATTAGTTAATGCTGCCGAGAGACTGAATCCGGAAAGAATCTTAGTTTCCGGAGGAGCTTCAGTAAACGAATATATATTAAAAGGTATATTAGACAACGCAAAAGCGGAAGTGTTAACGCTCAGTAAAGTTCCACCAGGAGACGGCGGAATATCTTTAGGTCAAAGTTACTTTAAAGTGTTGTAATATTCTATCGGATATATCTTTCAATTCCTTTTTGGATGAAACTCCACTTTTTCGTAATTTCTCATAAAGCATTTAAAGATTTCTTTCAATTCCTTTTTGGATGAAACCCCGGCGAAGAGCCCTTGCTGGGCTCTCCCGGGTACGAGGACTTTCAATTCCTTTTTGGATGAAACGTAGTTTAGGCGTAGAGTTGGAGGGCGTTATGCCCTACTTTCAATTCCTTTTTGGATGAAACTGCGTTGGTATGCAGAAATATTGCCTATAGTTACCGAAGACTTTCAATTCCTTTTTGGATGAAACAAATATTCAAACTGATAACGGCGGAATATATTTAGCTTACTCTTTCAATTCCTTTTTGGATGAAACGTATGGTATTATCAAATGGTGAAAAAAATGGGAAACGAAACCTTTCAATTCCTTTTTGGATAAAACTTGAGGACTTCCAGGGGGGATATTACTATATCCCCTACAACTTTCAATTCCTTCTTGGATAAAACTTATTCAACACCTGCAGCAAGGTATCCAGCTAATTCAACTTTCAATTCCTTCTTGGATGAAACAAAAGGTCTAATTCAAAGAAAGAGCGTAAAGGATATCATAAACTTTCAATTCCTTCTTGGATGAAACATTGTAAATGGGTTTAGCCCAAGCATGTTAAGTCAAAATTCCTTTCAATTCCTTCTTGGATGAAACTTATGAGTTTAAGAGAGACGCCATAAGGAAGCTAATGGAAAAATACTTTCAATTCCTTCTTGGATGAAACAATGAATAAGTATGTGACAAACGGGTTCAGCCCGAGTATGATACTTTCAATTCCTTCTTGGATGAAACATACTATACGTATCGTATGACGACGGGTTTGAAAAAGACTTCTTTCAATTCCTTCTTGGATGAAACACATGATGAATATGAACCGTTTGCAAGCGCTAAATTAGAAATCTTTCAATTCCTTCTTGGATGAAACCTGAGGTTATTGTCTTAAAACTTAATGATTTTGATAAGATAACTTTCAATTCCTTCTTGGATGAAACTTCTTCTCCTCCGACATGTCTCATTCACCTCTCATATTTAACACTTTCAATTCCTTCTTGGATGAAACCTGTTTATTTCTTTTAATTCCAATAGATTTTTTGTACTGATTCTTTCAATTCCTTCTTGGATGAAACCATTTAAATATTAGTTAGGTCTTAATGTAACATGATAAACACTTTCAATTCCTTCTTGGATGAAACAAGTGATGGCAAGGGAAGGCACAAAAATGATGAGTATTGACTTTCAATTCCTTCTTGGATGAAACCTTATATCATTCGGCTGTTCCTCTGGGGTCTATAGAAAAACCTTTCAATTCCTTCTTGGATGAAACTACAATACGGTTCATTACCAGACGCGTTAATAAAATCACTTTCAATTCCTTCTTGGATGAAACTCAAAATAAGTCAAATTTAGATCAACAATTAAATCAAATTTTCTTTCAATTCCTTCTTGGATGAAACTAAAATCAAGGGGGGAAATATGGTTGAGTTTAACAAAGCGGCTTTCAATTCCTTCTTGGATGAAACATATCGATTTGTCACATAAGAATTTTGACTTTTTAACTTTCAATTCCTTCTTGGATGAAACGTCCCTAAGTGAATTACTTAGGGACATAGTGTTTGAATATATCTTTCAATTCCTTCTTGGATGAAACTTCCCAAAGAATGCCAATGGGTGGCGGAGCTGGAAAAAATTCTTTCAATTCCTTCTTGGATGAAACATAAATTCATTAACTACCGTAACCGTTGGGCAATATATAACTGCCTTTCAATTCCTTCTTGGATGAAACCTTAAAGAAATTGCAAATTGGGTTGGGGCAAGATCATTTAGCTTTCAATTCCTTCTTGGATGAAACATAATGACATACTAGTAATAGTGTACCCAAGTCTGCATGATATCTTTCAATTCCTTCTTGGATGAAACCTACTGAGCTCGAAAGTTTTGGGTGTGCCTCTGGGGTCTATCTTTCAATTCCTTCTTGGATGAAACAGTAAGGACTTACAGTGCGGAAACCGGGAAACCGGTGGCCTTTCAATTCCTTCTTGGATGAAACTTGCTACCTTCATTTGTGAGCCACCTCAACGACAATTATTTCTTTCAATTCCTTCTTGGATGAAACAGGAGGACTATAAACGCACTATATATTGACGTTGTAATGATCTTTCAATTCCTTCTTGGATGAAACACAAAAAGGGATGGAGGTTTTTTTACAACCTCCTAAAAAAGACTTTCAATTCCTTCTTGGATGAAACTCTTCTGCTTCCATAAAATCATATCCAGCAAAAAGTTTTCGCTTTCAATTCCTTCTTGGATGAAACAGAAAAATTAAAGATAAAATTAGCTAAAGAATAATAAATCTTTCAATTCCTTCTTGGATGAAACCTATTTAGTGTCACAATGCAACGACTGGTGTGCAGTTACAAACTTTCAATTCCTTCTTGGATGAAACAAGAAATAATTTTACAGTTGTGAGAAAAATTAAGCATAAAACTTTCAATTCCTTCTTGGATGAAACAAGGATACGAACGACAAAACAGATCCAGCTATAACAAACGGCTTTCAATTCCTTCTTGGATGAAACACAACAACGACTTGAAGCAATTAGGTGACAACGATGATGAGTAACTTTCAATTCCTTCTTGGATGAAACAAAAAATCGACGATCGTTTGGAAACCTGCCCGCTATAGAGCTTTCAATTCCTTCTTGGATGAAACATGAAATAAAATTACGAGAGTGAGAAATTTGATAAAGAGACTTTCAATTCCTTCTTGGATGAAACCTCAACTAAATAATAATAAAAGTAATACACTTCAAATGAACAGCTTTCAATTCCTTCTTGGATGAAACACAGCCGAACAGCAAATCTAGAGAATAACGAGACGGTAAACTTTCAATTCCTTCTTGGATGAAACCCAAAAATAGAACCGAAAATGATAATGAAAACAATGAAAGAATACTTTCAATTCCTTCTTGGATGAAACCTATCTGGATTGATTTCGGTTCTTATAGAAATTAGACCTTTTTGTCTTTCAATTCCTTCTTGGATGAAACTAGTAACGAGGCACCAACTACTAAGACTTCAGGAACACTTTCAATTCCTTCTTGGATGAAACTTTAGTCATTATATTACTACTTTTACTTTAACGTAACGTAAAACTTTCAATTCCTTCTTGGATGAAACACAAAAAATGTAATTAAGTATATGCGTAAAAATAGAAGAAAAACTTTCAATTCCTTCTTGGATGAAACAATAGAATTCTTTGTATTTTTATTTTTTTCGTTTTTTTATCTTTCAATTCCTTCTTGGATGAAACCTTTCAAAGTTTGTATTTGCGAAAATAGAATTAAAAATTTTTCTTTCAATTCCTTCTTGGATGAAACTTGATAAAGTATACTGCAAAGGTCTACATAATAATCATACAATCTTTCAATTCCTTCTTGGATGAAACACTGTTGCGTTAGAAATTTTGCAAAATGAATTGGAATATACACTTTCAATTCCTTCTTGGATGAAACGCGGTTTTTCGGCTAATAATCTGCCAAACGTCTACAAATTCTTTCAATTCATTCTTGGATGAAACTTAGAACGTAAGGGCGGAAAAGCTCCACTCATTGCAATCCAAACTTTCAATTCCTTCTTGGATGAAACTCTGCAATATCGACAGTTGTCTATAGCAATATTTTCGTGACCTTTCAATTCCTTCTTGGATGAAACAAAAGGGTTAGTGGACATCGATAAAGATAAAGCAAATAGACTTTCAATTCCTTCTTGGATGAAACGAACATTAGTAATAAAATATGAACCAAATTCAACATTATATATCTTTCAATTCCTTCTTGGATGAAACCATTTTTATCGATAATAATACAATAAAGTATATTGCTAGCTTTCAATTCCTTCTTGGATGAAACTGATGGATTTATATTCTGATTTATATATTCTGAACAATAAACTTATAAACTTTTCTTTTATCTCCTTTCTTCTTCATGCGAACTAATTCGTTGTAATGATCTGACGTAGTTCTGTTCGCATGGTCTGCTCGTGAAATTGAATGAATAGACAGCCTTTTAAACGTTCAATCTACACGTCTGATTTCGTCTTGTACGCATTGTAGCTCGAACTTTTACGTTTTTAATCTTCATGTTCACCTCCTACCTAGTAATGATAGTATTACAAAATTGTAATCCTACTTTTTTCAACATGATAGATTAATGTTTAATTCTTCTCGTCATGTTCTTATCTTTTCAAGAGTTTAAGTAGGAAAATAAGGGTAATAATGAACATTTTTTCTCTTTTGTTTCCCTTTTTCTATCATCTTTTTATGGTATTCCCTTATTTTTCATTTTTTCTCTTTTTTCTCTCATCTTTCTCATAAGAACTGTATAGACGATTGTCTATAATTTTTATTGAAAATGATCATCATAAAGTAATTTTTTCTCACCAACTTTTTCTCTCTTTTCATTTTTTCTTTCTGTTCCATCTTGGAAATTTACTTTCAAGAAATAAAATGATTCTTCTCCCTAAAAAAGTATATAATGATAATTATAAATTATCAAAGGATTTACGTTATCCTTATTTTAAATCTTATTTTTTATTTAAATATATAATTTTAAAATATTTAAATCTTATTAATATTTCTAAATATCTAAAAATAGGAATAAAAAATATTATATGTTATTTCTATATAAGATTGATTATGGATCAAGTAGTAACGGCCATGATTCTTGTCGTGGCAACGATAGCTTTAGGTCTTATAGCCTTTGCTTTTTCATCAGCATATTCCTCTACGGTTAATGTTTCGTATTATAATCAGATTGAGGCAGAAAAGATTTCTTCGTCTTTTAATCCTACAACAGTAAACATTAACAATTCTTGTGCATTAATAATACCTTATTCTTATTTTTATCACGGTATTTTTTACGTTACAGTCTTTGAGGTTCCAGAATATCTTGTGAACTACCGCGCCCTAACCGGTAGACCCAAAATCATATTAGAAAAAATATTTCTGATAGGATAATATCGAATTTATAAAAGATAAAGAAATTTATAAGAGTGTAAAGAATTGAAGAAAGGGTTTAAGGTGAGGGAGATGGAGTATTACCACGTGAAATAGGAAGATGATAACGCCCGGTCTCCCTCACCAAAATAACATTCAACAAATAGGATATAAATTACTTTCCATGTTGAACTTCCAAGGGGAAAAGGTAGATGAGGTAGCAAAAACTCTCATCTCCGCGTGTTTGTGGAACGACTCTGTAGAGAACAAGTCCAGAGCGTATGACGTATCCCCACAGACCGTGAGGAATTACGTAGAGAAACAAGGGATGGAAGTGATTGAAAAGCTATTGGAAAGAGCTAGGAAAATATCCTTAGAAGTACTGAAGGGGGTAAAGGAGATAGATCTTTCAATAGACTGGACAACCAAGACGTGGTATGGGAAACCAGTGAAAGGGCTCGGGAGCTCTGAAAAAGGAAACTCGTGGAACTACGCAACTGCAACAACCAAGTATAAGGGGAAAGTACTTTTACTTGCCTTTATTCCGCAAGTGAACGGTATGACTAAGGACGAGATAGTGAAGATCCTCGTGGAGCAAGTAATGGCAATGGGATTCAAGATAAGGTTGATAACTCTTGACGCTGGTTTCTACACAGTTGATGTGCTCAATTTCATTTCACAGTTTAAGTATATAATTGCTGTCCCAACTGGGGACGTGAAGGTGTTTGAGGAGTTTGACGGGGATTACAAGACTAATAGTAAGTAGGAGGGATGAGCAGGTCAAGTTCAGGCTTCTCGTGTATGGCAAGGAAAAAGTGAGGAGAAAGAAGAAGAGTCTTGTTTATTTTGCTAGGGCTACTAATCTAGATCTGCCCAAGAGGGAAGTGTTGGATTTGTACAATAAGGTAAGAGGTCCCATAGAGACCTCTTATAGGAACATTAAGGCTTTTCTTCCATTTACTAGTTCTACTAAGTTTGTTTTCCGCACGTTGATCTTCGTGCTGGCCCTTGTACTCTACTCCTTATATACCATATTCAAGGGGGAGGTGGGGAGGGAGGAATTTAGATTATTATTAATTCTTTTATTTCCTGATTTATTCAATCCAGAGAATTTTACATTTAATGTAATTGAAACACTTATTTACACTATAGATTTATTTTTAAGGAGGTGATTTTGGGTCTACCGTAACGGACGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCAATATGGGACTGTTGAATGGAGCAGAGGCGTACCACATAGACCCTCACTTTAACCAAGGCGTCTCAGTGACGCTTACTCCGTCAGTGACTGCCATTAATAGAATATTTGAAAAATACGTATTTAAATGTAACCACAAAGGGGGCAATCCATCTCCACCCTTATGGAGTCTTCCGCCCCCTTTGAACCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGGTCGACCCTTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATCTAGTAACGAGTGAGGGGAGGGTCTACGAGAACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATACTCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCCAAATATACTATGGAAGGAGAAGGACTTGAGAGGAAAGAAAACAGATTTTTACTACAAAAACTAATAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATATATCTTCCTAAAAGACCTTGAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAGTCAGTGACGAGGAAAAAATAAGCAAGGAAATGCTTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTAGAGTACACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATTACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGGAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGCGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTACACTGCTTTAGCCAGGAAATTGGCTAGAATAATTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGACCATAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCCTTGTTCAGATAAAAAAGACTATATAAGGGTTTTTCGATATACGGCTATCTAAGAGCCTAATCCAAGAATGGGCCTAGATGGTCTATTAAGAACCATATAAACTCCTTTATTACATTAATCATTTTCATAATTTTTTTATCATCTATTAGTGATGAGAGCAACATAATAATTCCTATTGTAAGAAAATAGGGCCATAGTGTAGCATACCATGGCGGTGGAACGTAAACACGAAAAACGTCAGGCATTCCAATTATCTCGGTGGGAAATGACTTAATCTCTATTGTAGGATGGTCTATTGAGTGAAGATAAACCGCTAACCCTAGAAGTATTATGGAAGATATTGTTAAAACAGTTTTGTCTTATCCATTAAAATAAAAAAGAAAAAATTGGCTTATAAGATTTTTCAAGAAAATAGTCTAAAAATTACTTCGTTTTCGATTTTATTCTTCCGGTCTATGAATTTCGAATGGGCTTTTCTGCTCGCCAAACTCGTAATTATACCATTTCTTGTACAATACTCTAAAACTCTTGTATAATATTCTAAAACTATGATAAAACTCCATGTGCCAACTAATGAATAAAATTACAAAACTGGTAGTTAAGACTTCAATCCATAAGTTAGCATACCATGGCGGAGGTATCATGCGAGATGGGTGTGCAAGCGGCATCCAGTATGGAACATGCTCTGTCAAAAAAGTAGGATGGTCTATTGAGTGAAGATAAACCGCTAACCCTAGAAGTATTATGGAAGATATTGTTAAAACAGTTTTGTCTTATCCATTAAAATAAAAAAGAAAAAATTGGCTTATAAGATTTTTCATTAGAAAGTAGCAGAACCTATTGCGATTAGCTGTTGTGGCGATGTAACAATATTTACAAATTCATTTGCATACGGTAAGGGAGCAGTAGGTAATTCCTGAGTTTTTGTATCTATACCTTTCAATGTACCTAATAACCAAGTCTGCACATTATAATAGTATGTAGAACTAGTAGGGCTAGATATTGAACACTCTATTGCACCCCATGCCATACCACTAGGCGGTGTAGAAGCGCCAACTTCAGATCCGTAATCTGTGCTGAGATTTGAACTGTCTGCAGATACTAAATTCTGGCCAATATATGGTGCATTATATAAAGATGATCCTGATTGGCTCGCTACGCATAGTTGAAAGCCAGTAACAAAATACGGATTTAATAGATTTTTCCTTCTGTTATTTGAACGTCATCAGGTAAAGTTACGTCGAATTCATCATCTAAACCATTATCGATTGTATTTTGTAGTGTATCGGTAAAATCATTTAAATCATAATTACCATCTGTAATTTTTTCAGTACTATCATTTTTTACAACATTACCTCCATTGTCTTTTGCTTTATTGCAGATTCTCTTTCGGTAAAAACGTCAAGGAATATGCGAGAAGGACTAACAAATCATTAGGTGACGACAGAAAGAAGGAGAGAAGGGTTTAAAAAGGGAACTAATTCAATACAGGGTCTAAATGATCTATTAAGAATAATGTAAAATTCTTTAACGCCCTTATTATAGTCTTTCTATGTATGAATGCTAAGGAAAGGAGTCCTATAATACCTAATGTAAGAAAATAAAGCCATAGTGAAGCATACCATGGAGATGAAAAGGAAACGTAAATGTTTTTTACTGATAGTAGTATTGAACTATCATAAAGTCTAGTACTAACTCCTGATAGAAAAACGCTGATATTTTTTACTGCTAATGGTGATTCTATTGCATTTTGTAATTTTATTGTAGTTGAATGGTCTATAGAATGAAGGTAAAAAGATAAGCTAAAAAACACTAAAGAAACAAGACAGATAACAAAAGACTTCTTCATAAGAAAAATAAAAAATCTCTTTTTTAAATTTTTACCATATATACTGAAATCCTTGAACTAACTGTCCATCAAGTAGTTCAGTTATTGTTGGATTACCTTTAGCTTGTGCCTCTGGATAAGTCATAATAAATTCTGTGGCATAACCGTAAGGTATTGATACTCCTACTCCGTATTGTACTGCGACTGCTTTTATAAATAATCAGAATGGTGAAATTACCTATCAATTTGAGAAGCAATATTCTCCATTTAATCCGTCTATAACCTTAGAAGGTCTATAAGGAAATTTTTTATTGGTCCTTATATGCTATATACATGATTCATTTCGTCTATTTTGATAGTAGTGGTCTCAATATTAGTTCTTGACAAGCTCCGAATGTTACAACAGGATTCAAATTTTAAGTCCGTACTTATGAGTAATGCTTATTGTTATCTTAATTCTCTTAAATGGTATAATGAATTTATATAATTTATTTTATATTAACTAAATTCCTAACTATGCCTAGAGCTTCTATATTTAAATTTCAAATTCGTTTATAGCCTTATATCATATAGTGTATAGTAAAAAGTAAATAATACTTACTAATTATATTATAATTATATATTAGTTTACTGATTAGTATATCGAAAACATTCTTAAAAGGTTTTAATACAGTATTTCAGTTAAAAAAAGCTGTTCAATAGCCATATAAATTAATGACAACAAAATTAAAGTCTATAGATGAGATAATTAAAGTCTCAATCTATTATAAAGATATAAATGAAACAATAGGATTAGAGTCACCGGTATGTTATCTTACCGGTGGTGGCGGTGGTGGAGGAAGCGGTGGAGATCCAGAAGGAATGAGTTGCGGATATCCTACATCGTCCTGTTGGTCTATTCCGTATCCTAAATATCCTAAAAAGAGGTGACCAATTATGGTAAGCAATAATGAAAAAATTTTTTATTTAACTATTATGTCGTCAAGTTGGTGTAATTTTAGATGTATATATCGTTTTGAAAATAACTATTTTAAAAAAGAAAATATAATAACTTCACAAGACACTATTTTTAGGATAAAATTATTCATAAAGAATACATTAGAGAAAAAATTATTCAATAGAATACATATAACTTGGTATGGAGGAGAGCCATTATTAGATTTTAAAACTATTATAGATATTATGGATTATATTATTAATCTATCTAAGACATATAATATAAAAATATCTTCAGACATTCTTACTAATGGATATCTACTAGACTTATATAAATTTACGGAATTAATAAAAAGAAATGTAAATATATTTCAGATAACAATAGATGGATGGAAAGATACTCATGATAAGCTAAGACCATTATTAAATAACGGTACGACTTTTGATAGGGTATTTAACAATTTAATTCTAACAAAGAATATTAAGGAAAATTTCATAATGATTATACGATCCAATATTACACAAACTAATATATATTCAATAAAAAAATTCTTAAATGTTATATCTATATATCTTTCTAATGATAAAAGATACTATTTTAGTTTCTTTATTATAAAGAGATCTGGGAGTAAAAACGATGATAAATTAGATTTCATAGACCGTGAAAAAAGAAATTTCGTATTAAAAGATTTATACAACTATGCGTTTAGTCTTGGTCTAAATGTACTTAGTAACACTCTTTTATATCAAATGGGAACAATACCTACTAAATATGGTATGTGTGGAGCCGTATATCCTTATTCAATTACCATTAGGAATGATGGAAAAATATTCAAATGTCCTATGACAGTCTTATTGGATAATGAAGCTGTCGGATATTTAGATAAAGATGGAAGCTTAATCATAGAAGAGGAAAAGATTAATAGGTGGGCTAAATATATTAATTCTAAAATTGGATGTCCTAGGTTAGCTGAATTTGGGGAAATGTAATGGGATTTAATATTTTTAAGAATAGGGACGTTAAAATTTATCTTATTCAACACTCCATACAGCCGTATTTAGCTCTTTCTTTCATTTTACCTGCGTATGTTTTTCTATTTAGCAAGAACATTATTTTAGTTGGTGTTCTTCTGAGTATTGCGTACTTGTTAGGACATCTTACAATAATTTCTGGTTTTTTAACGGATTACGTTGTAAATACTAGGCTATACGATTTTATTCTTTCAGTTTTAAGTGGATTAATATTTCTTGTCTCTTCATTAGTTTATTCAAACTCAGTGAGTTTTATTTTTTTATTGTACGCCGTCCTAGGCGTAGTGTATACGCTTAAGGGAACTAATCATAGGAAAGTATTTAGAAATGTTGTAAATTCTTATAAGGATTATAGAAATATTTGGGTTTTAACTCATAGTATTAGGGCATTTACGTCGATTATTCTTCTTTATATTTCTCTCTTCATAGTAGGGTTGAAATATACTTTGTTAATTTTAGGATTATACATGCTTTTTGTTCATACTCCTCTAATTTTCCTTATTAATTATCCTAGAGGTACTGGGAATGCTAAGCTAATCTTTAACATGTCGTTCTCATTGTTAAAAGGTAAGAAGGGTGCCCAATTTTATGTTATAGATAATTTTTTCAGTAATTTTTTTAGTGGTATATTACCGGTATTTATAGGGGCTTTCTCTTTATCTTTTTCGTTTTTAACTAATTACATAATTTATTATGTCGCTTTTATCCTTTATGATGCTATTTATCTGATTATTTTAAATAAGGATTTGAAAGGAGTTAATGGTAGATACTCAGTTTTGTTTTTAAGGGGTCTTGTTCCTTCTTTTATTCTTTTCAGTATAGTTATCCTTTCTCCTTCATTATATATAATCCCTATTGTTCTTTTTTCTGTAGTATTAACATTTTATAATGTATTTGTGACTCAAGCAATTCAATTTAATATACCTAAGGAAGTTTATGCTACTTTTATAGGATTGAACGTAACATTTGGCAGTTTATTCTACACTTTAGGAAATTTAATACTACCTTACATGGAAATAACCTTAGGTTTAAAAGGCGTAATGGTTTTAGTCTCAATAGTGTTAGCTATTTACTCTTTGATTATCTCGTATAGATTTAAGGATTTATTTAAAGTCATTAAGAAATAATTTGAATATTCTAGTCTCTTTAAATTCTTTAGGATAAATGATATTAACTCCTTAAACATAATTATTTTTATTTAATGCAAAATCCTCTAATCTTTACATAAGAAGTTTTATCAATATCTCCATCAAAACTCCTATCTTGAATAACACTTTACATATTTCATACTTCGTATATTGTAAAATGGAAAATTAGATCTCATAGAAAATCTGTAAGGAAAATAGACCTAGGCTTAAGGATAAACTCAAGAGGAACATAGAAAGAGTAGCTAAGGAGGTTTAAATATGATTTCAACCAATTTCTCCACCGTAGTATGTTCAGTCTGCTCCAGAGATTATTTTGATTATGAGAATTATCGCTACATTGTTAACTTTTTACTTTTCTACGAAGTTGGTAGGCACAATTAAAAGGTTAAGTTCAATGTTTAGGATTTAGGAAAATCCGTTAAGTGCGGTTATTACAGAAAAGCTTCACTAGTAGTTCCTGAAAATTCTTATCCTTTAACTAGGCAAAAATTAGGAAACCATGATACAAAAACTTTTCAGAAGTACTAACGTTATAAGTTGTCACTTAACCACTTCTGCAAAAAACATAATATTTGCGTAAGTTAGGTGATCTTATGAGAATTAGAACTCTTTGGCTTATCCTTATTTTAGGTAATTTATACGACTATGTAGCAACTTTAGTATTCGCTTATTTACATATTCTATGTATGGATCGTAATGTCTTTATTGGATATTCTACGTCTTTCTCTAATGTTATAACTGTTTTAACTGGCGAGAAACTTTTATTCCTAAATGGCGTATATTGGTTTAGTAAACTTTTCGATTACTTAAAAATTAGTAATTATAAATGGTTAGGATTATTACCATTTACTATCATTACAGCACTTATAGTAATTGATGATTCATTAGCTATCATTATAACTCTTTTTTAAACCCTTTTTCCCTCTTCCCAACCACAATGAAGTGGATAAGCCTTCTAAGTCTATCCATAATATCACTAATGTTATTACCAACATTACAAACTGGAGCCCAAACATCTAATACATGGGTAATTGGGAACAGCCATAACGAAAAGATTTATATTAAAAGTTAAATTTTCTTTTTTTTATATGTTGTGGGTTTCAGTTCTAATACTTGTTGCAGGTATAATTTCTACCTTATTGACTGTTCATTTTTCCTTAAGAAAGGCAGATAAAAGAGGTTTAATTATAATACTGTCTTCTTTAGTTTTAATCGGTGTTGGATTATGGTTACTATCAATGGATCACACAGTATATATAGCTAAGCCGATCCATGTAGCTTATCCATCTAACATACAACCACTTGGGCCATTAGCCTATTGTGTTAAAATTCCACCGCCATGGTACGCTACGTTATGGTTTTATTTTCTTGGCATAGGTTTAGGAATGCTAAGTGTAATGGTAATATTTGAAAGTATAATTAGACTTTTAAAGAATGGTTAACTTTCCATTTTTATTAGTAAAGCCTACGTCCAAATAGGTGACCAAATTACAGAACTTTCCGCCAAATACAAGGCAGAAGATCTAACGCTCGAAGTATCAAGCAGAGATATTGAATCGGGAACTTATACTTTTGATGATTTGACACAGGAGATAACGGACATTATCAAAGATATAGATTCTAATGATAATATTGATTTTCCGTACGATTTAACAGTAGAAAACGGTGTAATAAAATCTTATTCTGACGAAGTATATGACGTATTTCGTTTTATGACCCGCGTGATGAAGAAGATTAAAAAGATATAGTCTTTTTTCATCATATTTATTTAGGTGATAGGTTATGCCTATTATTTTCAGCACTACGGCGTATATCCCTATTTGGAAAATGACGGAAGAGCAGAAGGAAGAGTTTAAACAGAGCCGTCTATATCGTAACGTTATACCGTTAGTTTTCAGGGAAATTAATAGTAAATATCGTTATATGTATATGGACGATAAAATAGAAAATTCTATAGAAAACGGGTTTATTGACGGCGTAAAAACCCGTGTAAAAATACGATTAGTGTTTTCTTCAAAGAAATTAGAGAGGGAAAACAGTATAGTGAAAGAGCATTTTTACCATATAGGTGTAATAGAAGAACCTAAGGAATTAGCAGGTAAAATAATATTGAGACATGGGGCGGGGATTTACGACATAAGGATAAGAGATTTCTGCCATAATTCTCATTTTTATCATTATTTTGCTGAGAAAATACAAGGGGTATTTTCCAAAGAGACATTTTATCCACAAAAGGTTATTATAGGTAAAAGTTGTCCTCTCTCTCAAATAACGATAGTTGAATACTTACGTAAAAAGGCTTAGTCTCTTTTTAAACCCTTTCTCTCTTCCTCTAAATGAAGTACCTATTAATTTTCTCTATCTAAATTATCTATCTTGTTATCAATATCTTTACAAGCCTTGTCAGTGGATAGTAGGTGTTTCCGTAGTTTAAGATTTATACAAGAGACTATCTAAGTCCTACTTGCCATGATTTTTATACAAACTGATTTACCTTTCTACGTAAAAAGTTTACAGTTATTAGTTACTTAGATCTTTTCTATATAATCACTATTATAATCTAAGTTTAAAAACTTGTAATCTAAGATAAATTTATGTTAGAATCACAACTTATTCTAGATACTGTAAGAAATTTTTCTAAAAACAAAATAGAGCCATTATCAGAGAAGATAGATAGGGAAGATTGGTATCCTAGAAATTTAGTAAGAGAAATGGGATCCATTGGTATTCTTAATCCACTTTATCAAGGCTTAGATCTTTATACTGCAATGCTAATTTTAGAAGAGATAGCCAAAGTTAGCGGTTCTGTTGCTTTAATTCAGGACGCTCAAACAGAGTTAGTTACAGAACCTATAAGGAAATTCTCTAAGGTAGATGTTAATGCTTTATCTTCTGGAGAAAAAATAGGTTCTTTTGGATTAAGTGAGCCTTGTTGCGGTAGTGATACTTCTTCAATGAAAACTAAAGCAGTAAAGAAAAATGAATGGATTATAACTGGAGAAAAGATGTGGATTACTCAAGGTCTTTACGCCGATCTTTATTTAGTCGCAGCTAAAGTTGACAACAAAATAAATGCGTTTTTAGTAAATAGGGATCCATGTATCAGTGTTTCTAAAATAGAAGTTATGGGAAATAGGGGAACAGGGACGGCCCACGTTAAGTTTGAAGAATGTAAAGGTGAACATATAGGTGGATGGGAAGTAATAAAATATGCACTAAATATTGGAAGAGTTGCAATATCTGCCATATCTATAGGATTAGCGGAAGGTGCAATAGAGGAAGCGTTAGAGTGGGGTAATTCTAGAATAGTTTTCGGTAAGAAGGTTTTAGAGCATCAAGGGAATTTGTGGAAGGTTTCAGATTCTATTTCTAAAATTCTTATGTTGAAAAGTTTCCTAAAATATGTATGTGAGAATATGAACGATTATCTTATTTCTTCTCTTAAACTGCAATCTTCTAGGATTTCCCAAGAAATAGTTGATCAATCTCTTCAAATAATGGGAGGTATGGGATACGCTAAAGGAAGTAAAATTGAAAGGATATATAGAGACATTAGATTAACTAGGATTGGGGAAGGATCGGACGAGGTTCAACTTCATATTATATCAAAAAATATTAATAAAATATTTTAAAGATAAACTATTCTAGTTTTTCCATTTTTTATGTGTATCTTGTCTTTCAATTCCATAATAATTAAAAATAAATTAATAAGTAGTTATTGTATAATTATATATTTACAGTAGGAATTAATGGAAGTTTTTAAACCCTTATTAGTAATGAAATTTATGAAATCATTTATATTTTTGAAGATATATAAACTATTGTGACTAAGTTGGAAAAAGTTGGAATAATAGGAGCAGGATGGTATGGCTTTCGTCCTCAAGTAAAAGATCTTTCCTTCAGGGAAATGGTTTTTGAAGCTGCAAGCAGGGCATACGAAAGTTCTGGAATAGATCCAAGGAAGGACGTAGATACTTTCGTTTCATGTCAAGAGGATTTCTGGGAAGGAATATCGATAGCTGACGAATTTGCTCCAGATCCAATAGGAGGTGCAATGAGACCTACTATGACAGTACCTGGAGATGGGATTCAAGGAATCATCCACGGTGCAATGCAGATTTTATCTGGAGTTTCGAAGGTTACCGTAGTTGAGTCTCATGCGAAACCTAGTGACATTGAGAAAATCGATAAAATCATTGAATTGGGAATGGATCCTCTCTTTTCTAGGTTAGGAGTTAACGTTAATTTCCTTGCAGGTCTTGACGCTACAAAGTTCATGAAAAATTACGGAATAAAAAGGGAAGATTTAGCTGAAGTAGTATCAAGAAACCTTAGTTCTGGATTTAAGACTCCTAGATCTTCTTTTGCTTCTAAAGTAAGTGTTGAAGACGTATTATCTCAGGATTTCTTAGTTTATCCGTTATCTACTATGGATATAGCTAAATATGTTGATGCCAGCATTGTTTTTATTCTAGCTTCAGAGGAAATTGCTAGAAAATATGATCCAGTGTGGATAGAAGGAATGTCTTTTTCTACTGCAGAAAAACTCGGTGAAGCTGAGTATTTGTCTATAGCATCAAGGCAAGCTTATAAGATGGCTAACGTGAAACCTTCTCAAGTAGACGGAATATTTGTAGATGACAGATACAGTTATAAGGAACTTCAACACCTAGAGGCTTTAGGCATAAGTTCTAAGGAATTTTTAAGAGACCAAAACATTGAGGTTAATCCTTATGGAGGACATTTAGCTAAAGGTGTTCCTTTAGAGGCTTCAGGCCTTTCTTTACTTTTAGATGCCGTAGATTTTATTGAAGAGGGACATGAAAGTGCCATAGTAGCTAGTTGGAGGGGAATTCCCACTTATACTGGCTCAGTATTGGTGGTGAGAAAATGAGGAAAGTCGGAGTAATAGGTGCAGGATTAACACTGTTCAGGAGAAGGATGCTTGAGACTCCTCAAGAATTAGCGTATATTGCAGCAAGTAGGGCATTAGATGAAGCGGGTTTGGAGTTAAAGGATATTGATTGCGTAGTAATAGGGAGTGCTCCTGATGCTTTTGATGGAGTTCATATGAAGGGAGAATATTTGGCTAAAGCAGGAGGAGAGAAGAAAATGGTTAGTAGAGTTTACGTAGGTGGAGCTACTGGTGTTATGACTGCAATTTCTGCGTGGTATCATGTAGCTAGCGGTCTTTGTGAAAAAGTTTTAGCAATAGCTGAAGAAAAAATGAGTCCTGCTAGACCTCATCCTCAATCTGTATTTAAATACATATGGGATCCTATAACTGAAAAACCCCTTAATCCTAACCTCATCTGGATATTTGCTATGGAAATGCATAGGTATATGGCAAAATACGGCATAAGGAAAGAGGAAATAGCTTTAGTTTCAGTAAAGAATAAGAGGAACGCAATGAATAATCCTTATGCTCAACTTCCAGGAAACATAACTGTTGATGATGTATTAAAGAGTGAAGTCCTGGTATGGCCAGTTCAATTGCTAGACGTGAGCCCAACAAGTGATGGAGCTGCAGCTATGGTTGTGGCTACTGAAGACGTTGTAAGGAGATATACGGATACTCCAGTATGGATTGAAGGAGTAGGATGGACTTTGGATAACACGTCTTGGCCAGGGAGAGAATTAGCTTATCCAAGATATTTAGAGAATGCAGCCAGGATGGCTTACAAGATGGCTAAGATTGAAAGACCTTATAAGGAAATAGACGTAGTAGAGCCTTATGATCCCTTTGATTATAAGGAGCTTCATCATTTGGAAGGTTTAATGATAGCCAAAAAGGGAGAGGCTCCTACGTTACTTAAGGAGGGAGTATTTGACATTGATGGGGATATTCCTTCAAGCCCTTCTGGCGGTCTTTTGGGAGTTGGAAATCCAATAGCTGCTGCAGGCTTAATGAAAACTATAAGTATTTATTGGCAATTAAAGGGAATTGCAGGTAAAATGCAAGTCAAAAAACCAGTTCATACTGGTGTTGCACAAGCCTGGGGCGATTTGATGCAAGCCTCAACAGTTATAGTTATGAGGAATTAAGGTGAGTTAGATGGAGAGAAAAGAATTGGAAAATCCTCTAAAAGAGGAGGAATTAAAAGATCATATTACTATAAGCTATAAACCTTTCGCTAAATACGAATATTCTGCTGGTCAAGCCATATCTAAATATTTGGAGGGATTAAAGGAGGGTAAAATAATAGGGAGGAAATGTAATAAATGCGGTAGAGTTTACGTTCCTCCAAAAATGTATTGTGAGGATTGCTTTAGGCCTACAGACGAATGGGTAGAAGTTAAGGATGAAGGAATAGTTGAGACTGCAGTTGCAAGTTTCATTTCATGGACTAGAGAAAAGATTGAGGAGCCTGAGATTGTAGGTACTATAAGGCTATTTCCATCTAAAGAAAACGATTACGTCTTCCCTGGAGTCTTTCATAGGATATGTTGTTCATATGAAGAAGTTAAGAACATGTCTATAATAGGTAAGAGAGTGAAAGCAGTTTGGAAAAGTCAAAGAAAAGGAGATGTGAACGATATCGAATGTTTCAAGGTGATTTGAATGGCATGGGATAAAAGTGCAAACTCAATTCAAGTAAAAGATAACATGGAAGTATTTGAATATGTATATACTGCGGGAAAGAATGGAGAAGAGTTCTTTAAGGCACTGAAGGATAAGAAAATTTTAGGAGGTAGATGTGATAAATGCGGTAAGGTATCTGTACCTCCTAAAATGTTCTGCGATTGCTTTGGGCTACAGAAATTAGAGGAAATTAAGGGTAAGCCGTTTATAGACTCTTTCACTATAATCTATTATGATAATGACGGTAAAAAGTTAGAGACTCCTATAACTCTTGGGTTCATATCCTTTGAAGGCGTAGAAGGAGGAATTCTTGCTTATATTGAAGGAGTTCCTGAAATTGGCAAAGAAGTTGAAATACTTGAATATAATATACCATTAAGGGTAAAAGTAAAATGAGTTGGAAACCGAGCAAGGAATGGATAGAGGAAAGTAATGTTTATAATTTTATGGCTCAAAAATCTTTAGATTTTGATTCTTTTTTGGAATATTCTACTACACCAGAATTTTGGGAGTATTTTGCTAATAAGATTTTTAATTTTCATAGAAAATATACTAAAGTTCTTGACTTATCTGAAGGGAAACAATGGCCTAAATGGTTCGTAGGCGGAGGATTAAATGTAGGGAATCAATTGAAAGAAAGTAGCGATATTTTTGTTAAGTATATGAATGAAAAAGGAGAAAAGAAAGAATTAACTTACTCTCAAATTTTAAACCAAACTAAGGCAGTAAGCAGTTGGCTTCACAAGATAGGATTAAAGAAAGGAGATAGAGTAGCTGTTTACATGCCTATGATTCCAGAAATCGTTCCAACGTTTCTTGGCATAATAAGGGCAGGCATGATAGTGGTTCCTTTATTTTCTGGATTTGGTAAGGAACCAATTAAGACAAGAATTGACGATAGTAACGCTAAGCTAATCTTTGCTTCCGACATTACGATGAGGAAAGGAAAAGAGATAGACATGCTTCAGAACATAAAGGATATTCCAATAGAAAAAGTCATAGTGAAAAGAGGAGATGAAAAGGATTATCTGGATTTTAATGAGGTTCTTAAAACTCCTGGAGATTATGTCGAGGACACTTCTACAGAAGATCCTATTATGATCATTTACACTTCTGGCACTACAGGTAAACCTAAGGGATGTGTACATACACACGACGGATTTCCTCTTAAGGCTTCTGCAGATGTCTTCTTTAATTTCGATGCTAAGGAGGGAGAAACGATATCTTGGATTTCTGATATGGGGTGGATGATGGGACCTTGGTTTTTATTTGGTGGAATGTTATTAAATAATAAAATAGCCTTATTTGAGGGTTATCCAGATCAGAACACTTTATCTAGATTTGTTGATGAATTGAAAGTAAATATTCTAGGATTGTCTGCAAGTCTTGTGAGAGCATTAAGAGCTGAATCTGAGATATATAAACTCAATTTAAGAATAGTGGGAAACACTGGTGAACCTATAGATGTAGAGAGCTGGAAATGGCTATTAAAAGTTACAGATTCACCTATAATTAATTACTCTGGAGGAACAGAAATTTCAGGAGGAATTTTAGGAAATTATGTCATCAAGGACATAAAACCTTCATCATTTAACGGTTTTAGTCCAGGGATAAAAGCAGATGTATTTGACGAGGAAGGTAAGAGGGCAAATCCCAAAACTGAAGGAGAATTAGTGATCTTAAGCGTATGGCCTGGAATGACAAGAGGATTTTGGAATAATAAGGAGAGATATATTGAAACTTATTGGTCAAGATGGAAGGATGTGTGGGTACACGGGGATTTAGCTTATTACGATGAAGAAGGGTACTATTATATTGTAGGAAGGAGCGATGATACAATAAAAGTTTCAGGTAAAAGGGTAGGTCCAGCTGAAGTAGAGGCAGTAGTGAATTCTTATCCTGATGTTATTGAGTCTGCTTGTGTTGGAGTTCCTGATCCTTTGAAAGGCGAAAAGATAATTTGTTTCGTAGTTTCTAAAAATAAGGATGAAAATAAAATTCTAGAATATACTCAAAAAATGTTGGGTAAGGCGATTGCTCCATCTGAAATTAAAATAGTCAAGGAATTACCTAAGACCAGGAACGCGAAAATTATGAGGAGACTAATAAGAGCTATAATTTTAGGAAAGAATTTAGGCGACGTGTCTTCCTTAGATAATCCTTCATCTATAGAGGAAATAAAAAAGGCTATCCATAATCCTTAACAATTTTTTTAGCTATTGCATAATGAACGTTATCTATTAATTTGTCTTCAAGTCTTATAGCTCCTCTCCCTTCTTTTATTGCGTTTTCGTAAGCTTCTATTACTTTCTTAGCCCATTCTATTTCTTCCTTTGTTGGGGAGAATACGCTGTTAGATATCGGTATTTGTGAAGGATGTATAACTTGTTTACCTACATAACCTAACTTTTTGGCGTGAAGACATTCCTCTTCAAATCCTTTCAAATCTTTTAAATCGAAAAATACTTTATCTATTGGGTCTATTCCATAAGCTTTAGCGTACATTACTATCTTTGTTTTAACGTATTCATTATTTTCATAAGTTTTAACTTCTCCTCCAGTGCTTAATGAAATATCAGCAGCACCATAAGAAATTGAAACTATGCCTTCAGATCTTACTAAGTTTTCAATATCAATAAACCCCTTAGCAGTTTCAACTAAAGGTTCTATGTTCTTTCCAGTAGACCTATAAACAAAACTTAGATTTCCCTCTGCTTTAGGAATTACTATAGTATCAATTTCGATTTCTGATATTAAGACAAGATCTTTTAATCCCTCTTTTGTTCCTAAATTGTTTATTCTTACGCAGAGTTCTTTATTTTTCCATTGTAATTCCTCTAAAGATTTTCTAAGAATTTCCCTAGCCTTATCTTTATCCTCATATGGAACAGAATCCTCTAAATCGAATATTATTGAGTCCGCTTCTAATTCAGTACTTTTCCTTATCATTTTTTCGCTAATTGCTGGTACAAATAATTGAGATCTCCTTCTCATATACATTCATCCTTTATCAAGGAAAAAATTTTTTCCTTTTCATCGTCATTAATTTCCTTTCCAAGGATATAGGTAGAGGTTTCCTCTATCATTTCTCTTAGGTCTTCTAAGCTCGAACATACTCTTTCCTTATTTTGATCTATTGAAAATTGTTTCTTAATTTCCTCCTTGTAATCTTGAGATTGTAATATAATAGAGATAAAATTTCTTATGAGAGCCTGCCTATAAAAACTAGTTTCCATAACTTTTTATTATATCTTTAAATAATAAGTCTTATTATTTATCACGATAAATTTTCTTATATGGAAAGAAAGCTTGGTTTCATCTTTGATCATAATAAATGCATAATATGTAACGCTTGTGTAGATGCGTGTAATAAGGCTTACGGAATGAATTGGAGAAAGCTCCCAATTTTCGATATTAATGGGAATAAGACTGCACTTTCTATTTCCTGTAATCATTGTAGAGATCCTAAATGTATGGATGTTTGCCCTACTGGAGCTTTAAGGAAACTGGATAATGGAATAGTCTATGTTGAGAAGGAGAGATGTATAGGTTGTAATTATTGCACATGGGCTTGTCCTTATGAGGCTCTAACTATGGGAAATGATAGCATGACTAAGTGCCACTTATGCATGGACAAACTAGGTAAAGGAATGCCTTATTGTGTAGAAGCTTGTCCTACTGGTGCATTAGCCTTTGGTTGGTTAGAGAATAGTGACGCTAAAGTAGACTATTTACCTCCTTCCGATATAACAAAGCCTGACTTAAAAATTATTCAACCAGAGGGAGTAAAGGTTAAGGCTAATGTCATCAAAGAGAAGGAAGAAAAGAACTATTTGGGTTTATTAATTTTCACAATTTTTAGTGAAATCTCATTGACCTACTCTCTCCTTAGACTTCCATACTTCTTACCAGTTTCTATCGTTTTACTTCTCTCGTCTCTAATACTTTCGATCACTCATGCTAAATTCTTTTCAAGGGCACTAGCCATGATCTATGGAATTAAAAATTCGTGGTTAAGTAGGGAAGTAATTTTCGGCCTCATTTCTGTTCTGTTCTTCATTTTAACCTTTATTTATCCTCAATTTTTCTATCCTGCAGTGCTATTCCTTTGCTTATCTGTACTGTCTTCTATAATGATTTACATGTTAAAATCTAGACCTTCATGGTATAATCCAGATACCCCCATGTCTTTTATAGGAACTTGCTTTACTGTAGTGATGCCATTAGCTTTCTTCTTCACTTCTAACATTGCTTATATTATAATAGGTATAATCTTTGGAATTCTTGAAATCTTCACTGCGTATCGTAAAAGAGATCTAAAGGAGAGGAAATTCAATATAATACCTATAGTACTATTGGGAATCTCAACTATCTTCCTACCGGTTTCTATAATATCTTCTGCTTCTGCTCTTGTGATAGAGATAATTTATAGAAGAAAGTTTTTTAAAAAGGTTATATATTATGGCATTCCTAATATTTGAACTTTTCAGTAAAAACATTTATTAGTCTAAATACTTTAATTTATATATGGGTGATAATATCGCTTGAGATACGTTTTCACGGAAGAGGTGGACAAGGAGTTGTTACTTCAGCGGAACTATTGGCTACTGCCGCGGGAATTGACGGCTTGTGGGCCTCCGCTTTCCCAATCTACGGTGCGGAAAGAAGGGGAGCTGAGATTGAGGCATATTGTAGAATTTCTAAAAGCCAAATTAGAGAAACTTCTCCAATTAGTCGTCCGGACATAGTAGTCATTTTAGATCCTACACTTTTGAAGATTTCTAATCCTTTAAGGGGGTTAAAGGAATCAGGTAAGGTAATAATTAACTCTAAAGTTCCCCCTAGCGTGGATTTTGAAACGTATTATATTGATGCTACAAAGATAGCAATGGACAATAATCTTGTAAAATCTGGATGGCCTTTAGTTAACATTATAATGTTAGGAGCATTATTGAAAGTAATAGGCACAGTATCCTTGGAGAGCCTAAAGATAGCAATTGAGGATGAATTTGAAGGAAAAATAGCTGAATTAAATGAGAAAGCTGTTGAAATTGCTTATAATTCAGTTAAGGAGGTAGAGAAGATTGCAGTTTAATGACTATCAGTATTTCCCTATTTCCATGCCAGATAAGGGAGCTGGAGGAAAGACAGGAAACTGGAGAGTAATGAGGCCAGTAATAACTGAAAAATGTATAAAGTGCAAGGCATGTTATTTATGGTGCCCAGAAGCCACTATTCACATAGAAGATGGAGTAACAATAGACTATGAATATTGTAAGGGATGTGGAGTTTGCGCTTCCGTGTGTCCAATAAAAGCAATAAAAATGGTGAGTGAAACATGAGACAAAAAATAATTTCAGGAAATGAAGCAGTAGCTCTAGCCGTTAAATTGGCTAGAGTTGGTTTGGTAGGAATATATCCAATAACTCCTCAAACGTCTATAATAGAAAAATTAGCGGAAATGAAAGCTAATGGAGAACTTGAGGCGGAAATAGTTAGGGTAGAAAGCGAACATGCGGCAATGGCTTCAACTTTTGGTGCAGCAGTAGCAGGAGTTAGGGCATTTACTGCAACTGCCTCTCAAGGTCTTCTATACATGCATGAAATGACATGGTGGGCTTTAGGCAGTAGAGTCCCAATAGTTATGGTTGTAGCTAGTAGAGCCGTAGGAGCTCCTTGGAATATTTGGGATGAGAACACAGACTTTATGAGCGAAAGAGATAGCGGTTGGTTAATGGCTTTTGCAAGCAATCCTCAGGAAGCTTTAGATCTAACATTACAAGCTTTCAGAATTTCTGAAGATGAAAGAGTATTTTTGCCAATGATGGTAGGTATGGACGGATTTATACTTTCTCATATGAAGACTAACGTTTATATCCCTGCTGAGGAAGAAATTGACGCCTTCTTACCTCCAAGAAGGCAGCCGTATATACTTGATACTGAGAGTCCAGTAGGCATGGGAAACATTTTTCCACCAATAGAATATATGAAGTTGAGGCAATCAATACACGAGGCCTTAGTAAGATCTGAAGACGTAATAAGAGAAGTAGGGAAGGAATATGAAAAAATAAACCCATTAGGAAGTTATTCCACACTCAATGTTAAATATAAACTTGATACAGCGGATTACGCCGTAGTGCTTATGGGAGCATGGGCTGGAGATGCAATGGAAGCTATAGATCATCTGAGAGATAAAGGGATTAATGTAGGATTATATAGGATAAGATACGTAAGACCGTGGAGTGAAAAGGAAATTAGTGAGGCTTTGAAAGATAAGAAGGCTGTTCTTGTTATTGATAGGGCTACGGCAATGGGTAGGGGAAGTCCATTATATGAAGAAATAAAGGCTACCGTAAATCTAGACCAAATTTCTGGAGTCATATCTGGATTAGGAGGAGTTTTGCTTAATAAGGAAGATTTCGTGAACATTATTTCCCATTTCGTGGAAAAGGCAAAATTAGGAAAAGCCAATGGAATAAATTGGTATTATCCACAGGAGGGTGGTAAAGTTGAGCTTAGGACTCCGAAATCTATCGAAGAGTAATTCGTTACTCTCTGGAACTTCAGCATGTCCAGGCTGTCCAGAGAATATGGCTATGAGAATGGTGGGCATGGGATTGGGAAGTGACGTTGCGCTCATAGTCATTGCAGGATGCTCTTCAGTAATTCAAGGGATGGCTCCCAGAAATTCCTATAATTTCCCAGTACTAAACATAGCCTTTGCGGCAGGACCTCCAGCGGCTTCAGGGATGGCAAGGGCTTACAGACTGAGAAATAAAAATACTACCGTAGTTGTATGGGCAGGAGACGGCGGAACTGCAGATATAGGTTTCGCATCGTTGAGCGGTGCTGCTGAAAGAAATGAAAATTTCATATACATTTGTGTAGACAATGAGGCGTATATGAACTCTGGAGGACAAAGAAGTGGTTCAACGCCATTAGGTGCATCGACTTCCACTACTCCAGAAGGAAAAAAGGAGAATAAGAAGGAAATGATATTTATAATGATGGATCACAATATTCCTTATGCAGCTACAGCCTCTATAGGTTATCCGCATGACTTTGTTACAAAATTAAAGAAGGCTAAGAGTATTAACGGTTTCAAGTATTTACAAGTTCTTGCACCTGATCCATACGGTTGGATGTTCGATCCTGCTAAAACTCCAGAAGTCGGTAAATTAGCAGTTCAAACGTGTTACTGGCCATTAATAGAATACGAAAACGGCAAATTAACAGTCAATTCAGAATGTATGCATTGTCTAGATAAGAGTACTAGAAGACCATTAATAGATTTCATAAAAACTCAGGGAAGGTTTAAGAAGATAACTGAAGAAGAATACAAGAAGTTAGAAGAATATATTGATAGTATGTGGAAAAGAATAGAAAAAATGATGGAACTATAAAGCTATTGATACTAATTGTTTCTTTGTAAATTAAAACTGTGGCTCTGAGAAAAACTTTTTTGTCATCTATTTAGAATTAATAAGTGACTGCTTTGAGAATTAGCTGAAAATTCTTAAGCCTTAAGTTAGGAGAATATATTATTTTCCAATAATATTTGCTTTGTGACTCTCTTCAGAATTATATGATTAGTAGTTTACGAAAATTTCTCTTACTCAAATATTTTCATTCTATTATGTAACGAAATAAATCTTAGCTATTCTAGGCGAAAATATTTTAGGCTTTATGACAAATTATTTAACTTTTCTTCTATTATATTAAATTATTTTTAACGCTACGTAATACTGCAGGAGATTTTCTTATAAAGCCTACTCAGTGTATTTAATAATATGTACGTTGAAATGGAAAGAGTTTAATTTTTAAAATAATAATCTATTTTTCAAATAATAAGAATACTATTCAATTACCTTTTATGCCAGAACTAGACTTGTGTTCTGTTATTAAATTATATATAACACCTAAATTTTTTAAAACTTTTTATTACATACTGTTAATTTTACATTAATTTTTATTCTATTGCTAGATATGCTATAACTTTTTAATTATAAATATTTGAATTTAAGTCTTACGCTGTTACTATTAGGAATTAATAATTGTTAACGAATTTATTAACTATAGAGAACTATCTAGGCGCATATTAGAAAAATTTTTATTTTAGGTCTTTCTAGATTTTTTATGTATTCACGGTTATTAATGGGAACCATATTAATCATAACAGTTATTATAAGTGTTTGTCCGGATTTATTCTTGAGTTTTTCTAGTAATTCTAGAGACTTTTCTTATAATTATTATGCTTTTCCTCCTTTAGACGGTAATGTAACGTTAGCTGGAAAGTATCTTTCTGGAGGTATTAATGTTTATAGGTATTATTCTATTGAACCTGCTCCTATGGGAATAGGATTCTTCGGAATAGGCCCTGACGGTCCGTGTATTGTAAGAACGTCACAAGTTATGGCTAGAGTTTCAATAGGTAGTCTTGATATCTCTTCATCCTTATATTCTGGCGTTATGACTTATCAATTTAATTCTGTGATGGTTTATTCTTCTAGTGGGAAAAATTATTCTCTATGGGTTCAAAATGTTGCACGAATATACTCGGACAATAATAGTATAGAGTTCATTGATAACGTTTGGAATTTTACTTCTCCTAATGCTAACGTTACCGGATTAAGAGGAAACGGAAATATAATTAAGTTTTCTTCACAAACTTTCTACTATTATGTAGCATCTGATTTACCTGGTAGTATGGGAACATATTCATATCCTTTTACTTTTTACATGTTAAGTAATGTTACAATAAATTCTCTTGGTCAACCGGAAATATTACTTTGGTATAATGATGGACAAGGATGGATAAACTATGATAATATAACCGTTACAAACGTAGTGGACGCATCTAATGTAAGTTTTCTAATAGATGGATATGAATATGCAGATAATGGTCTATTTTATGATGAGGAATTGGTAATGGGAGGGCCTGGGGGAGGACTATGTACATACGTGTTTTCTGCAAATATTCAAATGTCAATATACTACTGGAATGGCAATAATTTCCAAGAACCTTTAAATACTTTTAATTTTGGATCTGATACAGCAGAAAAAGTTAATAACGTCAAAGATATTTTAGGTCAATCAGTTAATGGTCAACCTTATGCAGCTATTACTTCTGGTTCTACATCTTTGGGTTATTTATGGAATTCAGAAGACGTTTCTTCTGTTACTATTAATTCAGACGTATCAAACGGTAGTGCGCTTATATTTCCAGAGTCCGTATCTTATAAGGATACATTTGGAATTCCACCTCTAGGATACATTGGGGATAATTTTACTGTAGTTGTGTATCCGGAGAATTATTCAATTCTAATTTATAAGGATGGTGTATTGAGCGGTGAGAGTTTTGTTTGTGCAATAGCTGGTAAAACTGAATTAGAAAAGGCAGTTAATTTTTCAGTTTCTACATCCAATAATATTACAGTATTTCAAGGTTTTTCAAATTATTTAAACTTGACCGTTAATGCCGTTGGAATATTAAAAATCTATCTTTCTATACCGTCGTTTATTTCTTATACTCCTATTTATAGCTCTTTTGATCAAGGTACTGAAATTGTATCAATCTTGCTTCATGCTAGTAAAAATTCTCCTCCAGGATTATATAATGGAGTAGTGTATGTAAAGTTACAAGACGGACAGGAAATTGTTAAAAATATTGAAATTTCTATAGAACCGAGAATATTTACTGTGAACTTAGATTATATATTTAAAGGAAATAAACCTTCGCAGATTCCAGAGATCTCTCTCATTTTCCCTAATGGGACTAAAGAAAACGTTACTGAAGGTATCTATAAAGTGCCATATGGTACTGAGTATGAAATTTCACAAGAGATTCTAGATGGAAATATTAGATGGATAACTAACCATTCTATAGAAGGATACTTTACGTCTTCTAGTAGTTTAATAATAATTTATTATGAACAATATAAAGTAGATTTTGGTTTTAAGATAATGGGAGAATATACTAGTTATACTCCCCAAATAGTTTATTATTATCTAGGAAGACAGGAGGTTACAAACCCGGGTATTGTATGGGCAGATTATAATAGTTCATATACCTATTCTAAACTTCTTAACGGGTCAAATTCTACTGAGAGATGGATATCCTATAATAACTCAGGTTTTATAGACGGATTTAACGTAACTGCGGTGTATTATAATCAGTTTTACGTTAATGTTAATTCTCCAATTAAACTATATGCTAAGGTTAGCAATTCCAATATCTCTTTCGTATCCGGCTGGTATAATTATTCTGAAGCTATTAATGTTGAGAATATATCGTATTATATAACAAATACAGAGAGAATATTGATAATCAAAATGGTACCATCAAACTTTATTATAGTTAATAATTATACTCAGTTTTATGCTTACCCTATAATTCAATTCTACGTAAATATTTCACAGAATATTCCTCTTAAAGCATTGGTTAATGGGACTGAGACAATATTAACGTCCAATTGGTATAATAATGGTACAAGGGTTTTAATTGAGAATTCCACATATACTATGAATTTCGTAAGATTTTTAGTACTCGCAGTATATCCTTATAATTTTATTGTTAATAGAAGTATAAACGTTCATTTGAGTCTTTTGAAGCAATATTATGTAACAGTGAATAGTGGAGTTCCTTTGGAGGCCTATATAAATAGTACTAAAGAGCCAATAACTTCTGGGTGGTATAATTCAGGAACTACAATAGATGTAATTAATAATACATACTATTCCGATTCATATACTAGATTCGTTATATTAGATATAATAAATAGGAATATTACAGTTAATAATCCTTCTAACATAACAGTTATGACAGAAAAGGAATTTTTAGTAAATATTAATAATGTTTCTCAATGGTATCCAGCGTCAAGTAGGATTACGTTAAATGCTAACGTGCCTTTTTATGAAGTAGGTAGTTTTAAGGGAACATATAATGTTCCTATAGGATATACTATAACAGTTAATGGGCCTATTAAAGAAGAACTAGTAACTGGAATAAACATTCTTTTCGTATTAGGAATTATGGTAGCAGTATTAGCAATAATAGTGCTTATTATTATTAAAAGAAAATAATATTCTTTTTTTCTAAAATATATATTGATAAACCTAAAATTATCATTGCTATGCCCATAATTTCTATGGAGTTCTTATTATTGACTAGATTCATCTGAGTTATTTCTATTTTTATCATAGCTGGATAAATGGGACGTGTTGTGTTTATTTCCTTTAAGTTTGTCACAATTTTTTCTTGAGTCACGTTTCCGCAGGGAAGATGAACAGTCTCATTTACAGTCTGTCTGACTTTTTGAGTATAAGACTCTGAAAATATGGAGAATTCCCAATTTCCTGAAGTTAATTTTAATACTTTAGGTATTTTATAGATATTTACTCCGTTATGAATTACTCTTACTGTTAGACTAACATTACTGTCATTATTTATGAGAATAATATAACCTTTTGCTACGTTAGGTACAGACATTGAATATGGTTTCGTTATTAAAACTGTATGATTTACCGGAATGTTTATGTTAATCATTGAGAGCGAAAGTAAAACTATTCCTATAGAAAATATTAACATTCCTATTCTCATATTTCCAACCTCACGAACCTTATGTAAGAATAAAGTAAAGCAAAAGTTAAAATTAAGATTTCAATTAACAATCCACTCAAAAGAAAATTCAGCATATTCTTATTTTCCTCATATTGTGCTAAAAGGACTATAAAAGGATTAGAGAAAGAAGATAACAATAATAATGAAGAGTTAGAAATTATTAATTCATAATTTAAAATTCCTCCAAATATAAAAATTATTCCAGAAGTGAATATTGATAATAATGTAGATATTCCTTCACTCTTGAAAGTTAAGGAAATTAAATAAATTATATTTTCTATAAAGAAATATCCGCAAGTAAAAGTTATAATAATTATTGAAGGAACATATATTCCAGAAATTATTAAATAAAATTCTAAAGACGATAACCAAAGAATATAAGGAAAAATTACGTCGGAGAAATACGTCATAAAGAAAATTGCATTCCTCTTTATAGGTAACATAAGAAACGGTATTATAGATCCCCTATAGATATGATTTCCAGTGACGAAGATTATATTTCTCAAACCCAAAGCAAACGCTATAGTTTCTGATACACTAATAATAGGGAATAATGCTAAAACTATTGCATAAGTTTGGAAAAATCCCCTCTCCAAGAAGGCTGGAAGAAATATATTTGAGGCTATCATAAAAGGAAAGACTATTTCAATAGTGGGCTCTCTATATCTTTCTCTAAAAATAAGCCTAAATATTTGAAAATTTTTTGAAAGCTTCATCTAAAGATGACCTCCTTAAACTAATAATTTTTATGTTATTTTCATCAAGAATATCTACTATTTCCCTTACGTTACCTTTAACAATTATATATCCGCCATCAACTCTAGCATTTTTTAAGATACTCATCGCGGCTTTTTGATTATCTACAAGAATGTAAATTTCTTCTTCTTCAGAGTCATTGAGTGCTTCATTTATTTTTCCGCTAAAAACTATTTTTCCGTCGTTGATAAAGACGACTTCTGTAATTATTTTCTCTAATTCTGAAAGTATATGTGAGGATATAAAGAATGTAACTCCGTTTTTGTTAAGCCTTCTTACTTTATCATAGAATTCAGATCTAGCCTTAGGATCAAGATTAGCTGTAGGTTCGTCTGCAATAATGAGTTTAGGTTTTTTTAAAAGAGCAGAAACTAATTGAACTTTTTGAGACAAACCAGACGATAATTTTGATAGTTTTTTCTTGAGGTAAGGTGTTAAAGAGAATTCTTCTATAAATGGAGAAGGATCTACGCCATAGATATCAGAGAAACCTCTTAAATATTCTTCTACAGTGTTTTCTTGAGGATAAGTTAGGTTAGTGAAAATTACGGCTATTTTTCCTTTAACTTCTGGATTATCCCAAGGATCTTTTCCGAAAACCTTCACAATACCAGATGTAGGTCTAGCTAATCCGGATATTATTCTAATAGTGGTAGTTTTTCCAGCGCCGTTAGGACCTATGAAACCTGTAATAGAATGGTCATTAACTTTAAAATTTAAGCCCTTAAGAATTTCTTTTCTTCCGTAATTCTTTGTAAGATCTGTTACCTCTATCATTCATGTTATAATGAGGGATAATATTATATAGACTTATCTACTTTAGAGGAGCTCTTTTTATGTCTTCTTTTAGGTTTTCTCTCTCTTCTAATAGAAAATTCTGAAAAACTTAGCCAATGCATATAAAAGCCTATACCTAAGACTATGGCTATTGGAATTACTAAGATAAGTATAGCAATTTCTGGGAAATATTCGATATAAAAGGGCTGTGGAGGTACCTTTGTAGTAGTCGTTGTAACATAAATTATGTTCATCAGCCTATCATAACTGATTCATCTTAAAAAGTTTTTTCATTAACATAGAAGTGTTTAATAATTAGTTGGCCTAAAAAATCACTTCCTACTATAGTGTAAACTCCAGGAGAAAACTTCTTAAAAGAGCCATTTTCCCAATAACCATTTATAATAAATGTCGTCTTTCCATTCTCATAATAATTGTTAGCCTTTATTATACTGGAATGAGGTAATATTTCAAAAGAAAACTGTTTAGGATCATTTGTAGTAAAATTAAATATATTTAAAGGAACACCGTATGAAATATTATACTTAGTATAGTATCCTTTGAAAATAGCTAAATTAAAAGGTAATTTACTCTGATTAGGAAGGGGATAAAATATCTTAAGGTTTGATTCTCCACCTCGAATTATTGTGGATCCGTTATTGTAGAGAAAAACAGTTATCTTCAGGAATTGTCCAGGGTAAATTTTAGAATTATTAAGTATAACGTAGAAATTCACATCGTCTTTCTTAGTCTTTACATCTCCAGTTATTAGGGCTAGATAAGAAACATTTATTCCATTTATAAAAATATGAGCAAAAACCAAAGAATACATAGCTATAACAATTATTACAAGGCAAATATAAGCAGGTCTCATAAAATATGATTGGGAACGATCTCTAATAAATTTTTTTATAATATTTATAAATGTGAATTAACTAAAATTTTATCTTTTTTAATTAATTTAAAAAATTTCTAGTTTTCCAGAAGAATCTCTATTATGTTACAGTAAAATATTCCAGTACTGTTTGATTAAAGTAGCTAATTCCTTCTACTGTGTATATTCCCGGTGTAAATAATGTGAATTTGCCAGATAAAGGATTAGTATAATTTGTTATCCAATACCCATTAATAGAAATAGAAATTTCATTATGTACTGTACCTACAATTTTTCCGTTATATATCAATTGCATTTGATTAGAGAGAGGCAGTAGTTTATACTGAGTTGCTGCTAGGATTACAGGGCAAAAATATATTCCAGGTTTATAAAGATATAAAGGAGTTGCGTTAGATATATTTGAGGTAGTGTAGTATCCTTTGAAAATTTCTAGCCCTACTAATAGATTTTGACCACATGGATATGGAGATGGAAGACGAATATAATGTTTGCCTACATTAACATAATAAGGAGATTCTCCCATATAATATAATTCCGTTGTAATTTGTAATGATTGTCCAGGTTTTATACTAGTGGAATTAAGCTCTAGATCAAGCTTTAACAAATTTGGCGAAATTGTTTGGACACTGGAATTGCCAAATTGAGTACTAGAATATAATTCTATATGTAAAAATAAAAAAGTAAATATGGATCCAATAACTATAATTAAAATAGGATATGTTGCTCTCATCATTCTATACCTAATAATATAATATTTTAAGTATATTCCAAAATATTACATATGAAAGATTTGTCTGAGAGCAGAATCTCGTTATTTAATTAAACGTAATGTCTCAGCTAATTTAGAATATTTCAATTATATAATGAAAATTTTTATTATGTTACAGTAAAATATTCCAGTACTGTTTGATTAAAGTAGCTAATTCCTTCTACTGTGTATATTCCCGGTGTAAATAATGTGAATTTAGCAGGTGTAGCATAATATCCTTTAGGGAAAACAGCGATGTCATCTTTCCCTCTACCTATTGATTTTCCGTTATATGTCATTTGAATTTGATTAGACATTGGAAATATTTTATATTAATTTGGATGTATAATACATATACATGAAACTACCAGATTATTATAAATGGAGAGAGGTGTAGCGTTAGATATATTTGAGGTAGTGTAGTATCCTTTGAAAATTTCTAGCCCTACTAATAATGTATTGCCATACGGAAATGGAGACGGAAGATTTATACCATTTTTGCTTACGTTAAGGTAAAAGGGCGTCTTTCCGTTATAATATAGATTTACTGTAATGTTTATTGATTGTCCAGGTTTTAACTTGGTAGAATTGAGTGTTAGACTTAAACTGAACATATTCTTGGTTGTTGTTTTGGCTACTGGATAGGCATGGTATGATTCATTGTGCAAAAATAGGAACGCTAGAATAGATGCAATAATAATTATTAATAATATTTGGATATACTATTTTCATTTATTTTAATTAAAAGTATACTATTGAATTTTACATAAAACATTCATAATATTGCTCTAAAATTCAATAGTATTATATAGTAATAGAAACATTTATATATAAATTAATAGTAATATTTCATTATATCTCTGTATAATTAGATAAAAAGAGAGAATAAATACTTATCCTTTAAACTTATAATTTTACTTCCAAATAGTGGCATATGTGCTTAAGTAAAACAACATAATATATTAAAAAATGTTTAATATAAAAGGCAAAAATAGATGACGTTTTTAATTATTTTAAATTTATCCCTAAATATGAACTTTAATATATAAGTTTATCTGTAGATATACACATTTAACGAAAATTTTAAGAATTTGACAATAAAGTATATTTATATGGAAGAAGTTTTCGAGAGATTTAAGGAAAATCTTGAGAGATACAAGAAAATGGGATTAAATCCGTTGTCTTTAGCTACTGGTTGTGCAGTAAAAGTAGATTTAATAGATACAGTTTATCCAGCATTAGAAAAAATAAAAGAAAAGCTCATAGAAAATAACATAGAGGTCTTACCCAGGGAAGACGCAGATATTTTTGTAAGTAAGGAATTGATAGAAACAAAAAGAGTTATTGGTGAGGGAAGTTTTGATGCAGATAGAGCTATTAGTTTAATTCAAGTAAATCAAGAAACTGCTGGAAATCCAGAGAAATTCGCTAATTTTTTGTTAAGGGCTTATACTTCCATAAAAACTAACAGAAAATTAACAATAGGTAAGGGACACTCGATTGTAACTACAGTACCTAAAGCTGAAGTGGCAGTTATAGATTTAGTAAAATTAGAAGGAAAGGATACAAATTCCTATACACTAGCTAATAACGATACAATACAAATCGTAGATCCATTAGACGATCCTGGTTCTCAAATGCAAGTGGATGTTGCTATATCTAATTCATTAAATGATCTATTCACAAAGGGAGCTTTCCAGAATTTAAGAATGACGCCATTATATGATTCTCCAGATATTGATCTTAAGGAGAGGCTTAGAAAGAATTTTTATAATTTTTCTAAGAAATATAATATAGAGATAAACGATGATGTACAACCTAATACTGGAACGTTAATGATTGGTGCTACTGTGTTTGGAGAATCCGATCACGAATTACCAATATATTATAATAAAGTAGAGGAGGGTGACGTAATAATAGTTAGCAGAGAAATAGGAGAATTGACTCCAATAAATGTTTACATGTGGGTTTTAGCCGCACCAGAAATTTTAGATGTTATGGAAAGTAAAGGAATATCTTTTGAAAGACTAGAAAAAGCGAAAAAGAAGGCCTTAGATTTAATGAGAGTTCCTAATTTAGGAACTGCCAAAGTAATTTACAGTTATCTTCCAGAATTCAAGAAAGTCTTTGACAGGGAAAATCATATAACTATGACGACGGACGTAACTGGGCCAGGTATTTTCGTAATTAAGGAGTTTGCAGAAAAAGCAGGAGTTGATGTAAAACTTGAGGAAATCCCAGTAATTGATAAGGATATAGCAGAATTTGCAACAGAGAGCTTCATCATACCTAACTCTACTGCAGGTACAAATGGCGGAATAGTAATTTTCAGTAGTAAAAAAATTGCAGACGATATTGTAGAGGATCTTCATAAAGCTGGAATGAATCCTAAGATAATAGGAAAGGTATTACGAAAAGGAAGTGGGACAGTATACGTTAATAGTGAAATTGAAAAATTTATTCATAGAAAGAATATATTAAAATATTTTAAAATTATATGATACTAAAAGACAATAACTAATTATTTCTATAATTAATTGTTAATGTTACTGTTCGGAAAATGAACTGCTGAGAAAATTTAAATACTACAACCAAATAAAATAGTGATGATAGAGGTTTCAAATATTTCGAAGAAATATGGCAATTTTACTGCTTTGCAAGACGTTAAGTTTACCGTAAATAATGGAGAATTAGTAGGATATGTAGGCCTAAACGGTGCTGGTAAAACAACAACTATTGAAATAATTGCAGGTGTTTCGTATCCTAACAGCGGAGACGTCATAATTGATGGACATAGTATTATAAAAGAAAAAAAGGAAGCGTCAAAAAACGTTAGTTGGGTTCCAGAATTACCTATATTTGAGCAAGATGCTAAAGTTCTTGATTATTTTATTTATCTTGCAGGATATTACGGTATAGGTAAAGAAGAGGCTAAGAAGAAAGCAGAGGAATTATTTTCCTTAGTGGGCCTGCAAGGCAGAGAGAAGGATAAATTAAAAAATTACTCTCAGGGTATGAAAAAGAGATTCGCCCTAGCTGTGTCCTTACTTTCAGATCCAAATAATTTCTTATTTGATGAGGTTCTTAATGGACTCGATCCACAAGGGATAATGTTCTTTAGAGATCTTGCTGTGAAATTGAAAAGAGAAAACAAAGCTGTACTCTTCTCTTCCCACATTCTTACAGAAGTAGAAAATATAGCAGATAAAGTTATTTTTATACATAAAGGAAAAATAATAAGGCAAATGTCGATTGAAGAAATTAAAAGCTTTACCAAGACCAACATTTTCAGAGTAGTTTTGGGAAGGATTGATGGAGACGTAATTAAGATAGCAGAAAAATATGGTAATCCAAAACTTCAAGGAAATACAATTTTTATAGAGAATTTTAATGGAAATATTCCAGGACTCTCTTCTGATTTATTAAATTATAATGTAATAGAGATGGGCAAAGTAGAAGGTAACTTGGAGGAAGTTTTCTTTAAGTTAATTGGTGAGCAAAAATGAAACCAGTATTTTATGATTTTAAGAGAAGTTTTCTTAGATTATCTGTTATTCTTTTTATAGTAATATTTGCTGCAATAGGTATAGCAGTATCTTATGAAACTTATGCTACAAACGTTTCCTCTAATCCATACTATTTTCACAATCTTAACGTATTAGGCGTAAGTATCCAAAAAGATAATGGAGTTGAAGTCATAGGCTATGTATTTAATAACCATGGAATTCCTATAAACAACGCTCAAATTAACGTAAATGGAGCGTCCTATAGGACTAATACTTCTGGATACTTCGAACTTAATTTACCTCAATCCTATTTCGAACCTATTGCCGTGAGTTACAATAATCAGAAAATTGAGTTTATTCCACTTCCAGTATTCGAAAACGGTTCAAAATACTTATCAGCTGAAGGCATTGAAGAAGGATTCGGCTATGGAATTCAGAATAATGTCCAGAATAATACTGTAAAATACGCGTTTGCTGTCATTAATAATAATGGAAAAGGTACACTTATTTTAGCTATAGATACTCCAAATAATCAGAAAGTTTACGTTAGTTTCTTAAATAATTCTTTCAGTGTCACTATATCTATTACTTCTTTTAAATATGTTGGAAACGTTACTAGTTACATTAACTTTTATCATCTTCAAACTCCTAATTCAATAAAACTTTTATCAGTTGGAGTTAAATCCTCAAGTTCCTTTACATTTCCTACAACGGAATATTATCCAGACGGTTCCGCAATAAAATCATTAGTAGGTGGAATAAATGGAGTAATTGGAGGTTTTACTTTTATTTTCCCTGCCGTAATGCTGTATTTAGCCTATATTCTATTCTCAAAGCCGAGAGATACTGGAGCTTTGAAGTTCATACTAGCTAGACCTATAACCAGAAGAGAATTATACATTAACAGATATTTAGGAGGTGTTCTAACAGCTATAATATCTTCTTTCTTGCTCACTTTCCTATCTTATGCTACTCTTTCAATTCTAGTATCATCGTCAGGAATTTTATTACCTATAGATATTCCACTAATATTGTTTGTTTCGACTTCTGGAGCTCTTATTGGATTCTTTTCGTTAGTGTATATGTTACCATCTTTTATAAAATCAGGAGGTGCAATGTTAGGAATTTCGATATTTCTCTTCTTATTCTTTCAAATAGGATTAAGCACTATTGCTGGAATAATAGCCTTTACAACTGGACATATAAATGAAGTAACTCAGATGATCTATGGAATTTACTACTTTAATCCTCTTGGAGCAGAATCGTACGGTACCTATTACCTAGGAGTTCAATATGGAACAACGCCGACAGTAAGCTCAGTCCATTTACCTTTAGTAATATTATCGTCTATAGTATGGATAGCTATTCCGTTTATAATAGGTTTAATAAAGTTTAATAAGATAAATATTTGATTTTTTAATAATATACTTGACTAAGGTGAATTAACTTTTAAACTGCGTTAGAACTTTTTCGCTTATGGACACAAAAATTCTCGTTCTGTTCTATGGATATGGGTCTATAGTTGAGCTAGCTAAAGAAATAGCAAAGGGTGCAGAAGAAGAGGGTGCAGAAACTAGAATAAGGAAAGTTAGGGAAACTCTATATCCAGACTTAATAGAAAAATTCCATGTACCGCTTGATAGTACTAAGGATATTCAAGAAGTAAATTTAGAAGACCTTAAATGGGCAGACGGATTAGCAATAGGTTCACCAACAAGATATGGCAATATGGCGGGAGGAATGAAAACATTTCTTGATACTACTGCGCCTTTATGGAGATCTGGAGATCTCTATGGTAAACCAGTAACTTTCTTTACAGAGGCCTCAACAATTCACGGCGGACATGAAACGACTATCTTAACTATGACAACTTATGCTTTTCATTTTGGAATGATTATAGTACCTCTAGGTTATGCAATTCCAGAAATATCTTCTACTAATACTGGAGGAAGCCCTTATGGTTCTTCACATTTAAGCTCTAAAAAGGATTTAGATGAAAATGAAATAAAGATTGCAAGATTTCAAGGGAAGAGAATAGCTCAAGTAGCAAGAAAACTAAAAGGCTCATAAAATCCTTAATATTTATTTAAACTAATTTATCTATTAATTAAGAAATTTTCTAATAAAAAAGTAAATCATGACTCTCATTGAGGAATATTTTAGTTTCTTTTAGGCTATAGTGCAAACGAAATAAACCCTTATTTGTAAATTTATCATATAGAATGATAAATAATTTAATATTAATAATTAAAAAATAATTTAATAAATTCGCTATAAATCACAAAATCGGTAATACATTTGATAAAAAACTTTATATATTGTTAGTTAACTTCTTTAACTGAACATGAAAATTCTATATATTCTTTTGCTAATATTAGTTTTTACATCAGTTGTGGAGCCGTTTTTTGCTTCCTCTCTAGTATCTTATCAGCCGGTAACGCTTCCTCCTAAATATTATGAATATTATCCAATAAACGTCACTTCTGGACAATGTTTATTTTTTCACGTAAATACGTCTGCATTAGCTACAATAATGCTGTTTAACCAAAATCAGTTCAATATCTTTGAAAAGAATTCTTCAGGTACGCCTATTTTTTTTAACGTTAGTGATAATGTCAGCTATAAAGTGGGTCCGCTAAGCACTGATACGTATTATATTGTAGTTTTAAATAATGTAACTAATAATACAATAAATGTAAATACTGAATATTCACTTGTTCCGTACAACGTCTACAATGTTAGGTCTTCTCTTCCAGCACCAATAGGAATTGCTGACTATGGAGTGTATAATATCTCCAATACTTTAAAAGGAACTATAACAAAATATGATGAGGCAATAGGTTACGTAACAATATATAATATCTCTGCGTTTAACTCTACACCACCAGAAGGCGTAAACAGATCTGGTGCATCATTACAGTTAAATAGTGTATTACAAATCAATACAAACAATGGTAGTTATCAATTTTGGCTTCAAAACGTTATAGGTTTTATTACGTCAGAAAGAACATATTATGTAGAAGACAATATATGGAACTTTACCTCAAATGTCTCCTATTTAACAAATTCTAGCGTAAACGGTAAAGGCTCAGTTTTCCCTTATAAAAACGAGTTTTATTATGCATATGGAACTAATTATTATAACTATACCTTTCCTTTATCAATGATACTCTATATAAAGGTTGAAGGTATTTCAAGTGAAGGTGTTACGATTTCCTTTGGTTATAATAATGGTTCCGGTATACAGTGGTATGATAATGCAACAATTAATGTAGCTAATGTTAAGTCCACTTATTTGCTTATAGACGACTATAATGTTACTGGTAGTCAATTATATTATGATCTTGAGCTAGTATTTGCAGGACAAGCCAATGGAGAATATACTTATTTTAAATCCATGAATGCTAGCCTAGGATTACAGATTATATTACTTAATGGCACATTAATAACTCCAGAAAACTTTTACACTTTTGGTTCTGATACTGAAGAATCCGCTGATAACTTAATTACTATATTTAAGGAAAATCAATCATGGGTTCTTATTGGTAATGATAACTTCTATAATATTGGAAACACAAGTATACCTAAATTCTACTTACACCCATTATCAAACAAGAATATATCTAATGCCTCATCTAGTTACTCAAGAAGTATAATACCTTCAAATACACAACAATCGTCTAATGCCACGTCGAATTTTAGCATGTTAACCTATTTACTTTTATTTGTACTCTTTATATTGGTAGCATTAGGTATCAAAAGGTTGAGAAGACGCTAAAATTAAGTTATTTTTTAGGTTACTTTGTAACCTCTACAATGTAACCAAATCTTTATATTAAAATGATTTTATAGTTAATATTTTTAAGTATATAATTTTTAAAATATTCTACTGATATAAACTAAGTTTTAAATGAAGTAAAAAGATAGGTTAATGTGGAAATCGAAATTAACGGTATTAAAATTCAGTTAGTAAATTCGACTGAGAAAAACGTTAATGATTATTTAGAATTCGTTAATTCATTATCTAAAGATGAAGATAACTATACCTTAGTAAGATATAGTGAAGTTAATAAAAATCAAATAATTGAATGGTCTAAGAGCTGGGGAAAACAAACAATGATGATTTTAGCTTATCAGGGAGATAAAGATACTCTGAAAGTTGTAGGAAATATTCAATTAAATAAAGGTAGATATTTCGGATCAGAAAGACAATTTCATGTTGGTGAAATAGCTTATGCAGTAGATAAGTATTTCAGAGGAAAGGGTCTAATCTATGCTCTTTTTAGTTACTTACTAAGAAGTACTGATGTAAAGATACTTACGGCATGGGTAGATGAAAGAAATATTAAATCTCAAAAGATTTTGGAGAATTTAGGTTTTGAAAGACTTTGTAAAATTAATGAATTTATGTATTCACTTAAGGAAAAGACATTCGTTAACTTAATTTTTTATTCTGGAAGAACTGAAGTAGCCAGAGAACGTGTTGAAAAATATTTGGAAAAATTTAACTTAAAAATTAAATATTAGCTGTGTTATTTTTTTTAAATCTATTTTAATTTGATTCATATTAGGTTAATATGTAAATATAGTACTAAAAACAGAACATGTATATCTAATACTTAATTGTCGTTGACAACAGTTTCCGATAAGCCGTGAATTTTATGTCATTTGATATTATTTAACATTCCTAATCCTTTTAAGGCTATTAAGTAAGCTGAGGCTGTGTGTCTGTCAAATCCCTTCTCCCTCATCATCCTATCGTGATACTCAGAATTTGTAGTACCCTTTGGATTAACTAGAATAACGTTGAAACCCAACCTAAGTGCTTTAATAACACCGTGAATTAACAACTGCTTCTTAGCGAAACGTGAAACCTTCCTATTACCGCTCTTACTCCTAGTGAACCTCCTCCTCTTAACTAGGAACAAGTCCTCAAATACTACATAATCAACACCAACCCTTGATAGGAAATTGAGGGACTCTGATAGAGCATTCAAACGCAAAGCCATAGCTTTCCCTTTAGGAAAACCTGGTCTAGTAACATCTGAATACCAAAAAGTCTTAATGGCAATAACTTTACCATCCTTATTAACTACAACAACGTTCAACCTATCACTGTTCAAATCAAAACCGGCAATCAAACCGTAACCCACAGGTTTTGGTAAAGAGAAGTGCTTCAGATAAAGCCAGAGCGGTACTTGGAGGTGGATCATAGGGTAATGTTTAAAACTAATTACAGCACCGTAACCCTCCTCCTTCCTTTCTGCTAATTCCTCCAACTCATGGAGTAATGGTAAGTACTCCTTGCCTAAGTACGCTTTGCCGTGAACCCACTTACTCCATGGGTCTTTAACTCTAACTTCCACATGGTCTTGAAAAACGTGGAACTTCACATTCCTATTGCCCTTATCACTTTTATTCCCCCTACTACCAAACCAGAACCTCTTGACCTTAGCGTGCAAAATCTTATCCTTCTCTCTATCCAACAAACCATCAGTAATTGTCTTAGCTTGCTTTAAAGCAGTTTCGAGGTAAATATAGTTCGGTAAGATGCTGTAAAACTCCTTAGTTAACTCATCAACACTCTTCCCATCAAACAATGGCCTAATAGCACTCTTAACTACTTGTGAGTAAGCCCTAGCAATCCTAACTATCTTATCCTTATCTTCAAAAATTACCTTACCATTCACTGTAACGAATTGGAAGTTTTCGAGAGCTTCCCTAGAACAGATAATCCTATTCCTAATCATCTGGTAGGATAACAATTACTATCACCTCCTTTTCCAACAAGCCCTTAATCTTCTCATGAATGCTTTTAGGAACGTATATTGCGTATTTTGGATCTCCGTATTTGTCATGACCCATTGAGAATATTTTTGAATGGAATGTAACTTGAACCATAATTGATTATTTAAAGTAAAGCTTATAAGCTTTACTTACAAAAATTAATCGGAGGGTGCCACTATGAACTCGATGAGCAATGTGAGGGGGAGGAAGGTGCTCAATGAAACTCCCCATGTCCTTGAAGGGAGTGGTTTAACTACCGCTCCCGTAGACGGCATGGGGAGGGAAATAAGGGGCATGAGGACGAGAGGTTGAATACAAATTCATGAAACCTCAATGAAAGTCCGACCCCTAAATTATAAGATATTTTTAATAGCTTATTTAGTTAATAAAATCTGTCATTTCTTTTTATTTCTGCTTTATTTCGTTTATTATGTCTATAAAATTTTTATACTAAGATAGTTTTTTAAATATTAGTTAATACTTATTACACATGTCCTTTAGAGTGAAAATAGATGGTAAGGAATTAGACGTCAATAAGGGAGATACCATTCTAAAATTACTAGATAAAAACGGAATATATGTACCTCATATATGCTATAATCCATACTTAGGTCCTATAAGGACATGTGACACATGCGTTGTGGAAGTCAATGGAAAAATTGTGAGAGCGTGTGAAACATATGTTGAGGAAAATATGAACATAAGAACAAATACTGACAAAGTTAAGGTCGCTAGACAAAAAGCTTTCAATACTATCTTAAGAAATCATGATTTGTATTGTACATTTTGCGACAATAACGTTGATTGCGAATTGCACGATGCAGTATCTAGACTAGGGATTTATTCCCAACATTTTATTCCAAAACCTTATGAAGTAGACGATTCAAATCCTTTTTATGTTTACGATCCTAAACAATGTATTTTATGCGGGAGATGCGTAGAAGCATGTCAAGACATTGTAGTTAATGAAGTTATAAAGATAGACTGGAAATTAAATCCGCCAAGGGTAGTATGGAGTAATGGTAAATCTATAGACTATTCTTCTTGCGTGTCTTGTGGAACATGCGTTACAGTATGTCCAGTAAATGCGTTAATGGAAAAGTCAATCTTAGGTGAAGCAGGGTATTTTACTGGAATAAATAAGGAAATTAAGGAAAAACTTATCTTGGCAGCGAAAGCAGGAGAAAAGAACTTCGCTCCATTCATGTTAATAAGCGATATAGATAAGCAGATGAGGAATTCTATAATAAAGAAAACAAAAACCGTATGCACTTTCTGTGGTACAGGCTGCTCATTTGAAGTATGGACTAAAGGAAGAAAGATACTTAAAGTAGAACCTAAACCAGAATCTCCGGCTAACGGTATAGCTACATGTATAAAAGGAAAATTTGGTCTAAATTTCGTCAACAGTGAAAGATTAACTAAGCCATTAATAAGAGAAGGTGATAGATTTAGAGAAGCTACTTGGGATGAAGCTATCTCTCTAATAGCTAGTAAACTTACTGAAATTAAAGAAAAATATGGTCCAGATTCTATAGGAATAATAGCATCATGCACATCAACAAATGAGGAAGGTTATTTAGCTCAAAAATTTGCAAGGCAAGTAATCGGAACAAATAATGTAGATAATTGTGCCAGATATTGTCAATCTCCAGCCACTACGGGACTTATAAGAACTGTAGGATATGGAGCAGATAGCGGATCTTCAGATGATTTAGCTTGTGCGGATTTAATAATATTAATTGGCACAAATACTGCAGAAGCCCATCCTGTAATTGCAGGAAAAATAAAAAGAGCTCATAAGCTATATGGTAAAAAGCTTGTTGTAATAGACGTTAGAAAGCATGAAATGGCTGAAAGGGCTGACATATTCATTACTCCTAAAGTAGGAACGGATATAGTACTACTAAACGGAATAGCAAAATATATTATAGATCAAGGATGGGAAGATAAGAAATTCATAAGTGAAAGGACTGTAGGTTTTGAAGAGTTTAAGAAAAGCCTAGAAGAATTTTCTCTAGATTATGTAGAGAGAACCACTGGAATTAGTAAAGATATTATTATAAAGATAGCAGAAATGATCCATGAAAGTAAGGGTATAGCAATTGCTTGGGCTATGGGAATTACTCAACATCAAGACGGAAGCGAAACTTCTACTGCAATATCTAACCTTTTGTTATTGACTGGAAATTACGGTAAACCTTGTGCTGGAGCTTTCCCATTAAGAGGTCACGCAAACGTTCAAGGAGTAGGAGACGTTGGAGCGCTATACAACTTCCTCCCTGGATATCAATCGTTAAATGATGAGGAAGTAAGAAGAAAATTTGAGGAAGCATGGAATTGTAAGTTATCGAGGAATCCTGGAATTCCGAGCACGGAAATGGTAGATGCGATTTTAGAAGGGAAAATCCATGCTATGTATATAATGGGAGAAGACAAGGTCCTTGCTGATTCTGATCAAGCTAAAACAAGGGAAGCTTTAAGCAAGCTTGACTTTTTAGTAGTTCAAGATATGTTTATGACTGAAACTGCAAAATATGCTCATGTCATCTTACCTGCGGCAGCTTTCCTAGAGAAAGAAGGTACATTTACTAATACTGAGAGAAGAATCCAAAGATTATATAAAGTCATGGAACCTTTAGGAGAATCTAAAAGTGATGGAGAGGTTCTGCAAATGTTAGCAAATGCAATGGGTTACAATTGGAATTATTCAAATCCTTCTGAAATAATGAAAGAAATAGCCAAACTTGCACCTATATTTGCAGGAGTAACTTACGATAGACTAGAAGGATTCAAGAGTTTACTTTGGCCAGTTAAGGAAGATGGAACTGATTCCCCATATCTTTATAAAGATAGATTTCCATTCCCTGACGGTAAAGCTAGATTCTATCCTACAAGAATTATAAAACCTGTAGAGACGGATGAGGAGTATGATCTTTATTTAGTTAACGGAAGAATGTTAGAACAATTCCATTGGATGCATATGACTGGAAAAACTCCGGGAATAATGTATAAGGTTCCTGAGACTTTTTTAGAAGTTTCTCCAGAACTTGCAAGGAAATTAGAACTTAAGGATGGAGATACGGTAATGGTAAGATCTAAGACTGGAAAATTGAAGACTAAAGTAATGATTACAAATAGAGTCTCTGGAGATAGAGTATTTCTCTCAATTCATGATAGTAAAGATATGAACGTTAATTTGGTAACGTTAGATAATAAAGATCCTACTGCTAAAACTCCAGCTTATAAAGAAACTCCAGTAAAAATAGAAAAAATAGAGTCATGTTCTGTCTGTGAACCTCCGTTACCGAAATGGAATCCTAGAAATGCTGAGAGGACACCTCAAATAGGTGTTAAGGTAGAGGAAAAGTGGCAAAGAAAAGATTATATTAAGGTGACAGACCAATGACGCAAGAAGATGAAGAAGTTTTTGAACTAGTTAAGGAATTAAAGGATTCGGGTTTACTTGATATTTTAATGTCAGCATTAAAAAATAGAGAAGGAATACTATTGGAAATAGCTAATTGGTTACAAAATAATGAGAACGTTATGAAGAACCTTTCTACTTTTCTTGCAGCTTTAAGTAAGCTTAATCCTGATGAAATGAAAAAGGCAAGGAGCTTGACCGATGTTCTTAATATGGTTAAGGATCCAGACGTTCTTTCGGGATTATCTTTCTTTCTTAACCTAATGAAGGTAATAGGGGAAGTATTACGTGAGTGAAAAAATAAGAATATTAAGATATATAGAAGGAAAAACCTTTCCCGATAACGATGAGATAGTAATTGAAGAACCATTAAAATTGACTATATCATACAAGAATATTTCTAGAACGATATATATAATGAGAACTCCAATAGACGATAAGGAATTAGCAATTGGATTTTTATTTACTCAAGGGATTATAAAGAAGTTAGAAGACGTAGAGGATGTAATTCAAGATAAAAATTCAATAACAGTAATACTTAGGAATCCTTTTAGTTTTGAAAGAGAGCTTCTAGTAAATTCTAGCTGCGGTATTTGCGGTAATCCTACGCTCGTTAAAATACTATCTAGGAAATTTGATATTAAAGTAAATAGAGATATACTAATGCAGATTCCTAAGAAAATGATAAACCTACAAAAAATATTTTTAGAAACTGGAGGTCTACATGCGGCTGGAATATTTGATTCTAACGGTAATCCAATTTTCATAGAAGAAGACGTAGGGAGACATAATGCCGTAGATAAGGCTATAGGTAAACTACTATTGTCTAATATGGATTCCTCAAATTTAATACTCCAAGTAAGTGGTAGAGTAGGATATGAAATTGCTGAAAAAGCTGCAATTGTTGGTTTTCCTATTATTTCTGCGATTTCAGCTCCTACTACATCTGCCGTAGAACTATGTGATTTTGTTGGAATATCGTTAGTAGGTTTTGTAAGAGGAAATAAACTAAATATTTATACTCATCCAGAGAGAATAATATAAATACTTCTTGTCGGTTATATTTCTTTATCTTCATATTTAACTTAAACTTTTTGCAATAGTTTTGTAATGAGAAATACTTAAATTAGGATAAAAAGATAACACTATAATGTATCCACCAGAATTCGGCTATTTTAAGCCAAGCAGTGTAGACGAAGCTCTAGATTTTCTAGATAAGGAGGATGCCAGACCAATAGCTGGAGGACAAAGTTTAATACCTATGCTTAAACTAAGAGTAATTTCATTAAATTATGTAGTAGACTTAAATCCGCTAACTTCTCTATCATACATAAAAGATGAAGGGAATGAGGTAAGAATAGGTGCATTAACTAGACACGCAGAAATAGTTTCCAATACCTCATCGAAAGTTCCATTACTTTACGATGCTGCAAGACAAGTAGGAGATGTGCAAGTAAGAAACTTAGGCACAATAGGAGGAAGCATAAGCAATGCAGATCCCGCAGCTGACTATCCTTCAGTACTTTTAGCGTTAGATGCTAAAGTAGTAATTTCATCTAAATCAGGCGAAAGAGTAGTAAGCGCAAAGGACTTCTTTAAGGGACCTTTTACAACAGATCTAAAAAAGGGAGAAATCGTTAAGGAAATTGTATTCCCACGTCTAGAGGGATACAAAACAGCATATATTAAAGTTGTTAGAAGAGCAGGAGACTTTGCTCTAGCATCCTTAGCCATGGCTATAAAAGTTTCAAACGGTAATGTTGAAGACGTTAGATTAGCATATTCAGGAGTTTCAGATTCTCCATATAGAGCATATGAAGCTGAAAAAATCTTGATAGGTAACAGATTAACAGACGAAACAATACAAGAGGCAGCCGAAAAAGCTGCTGGAGGAGCTAATCCCCCAACAGATGTAAGGGGTAGTTCTTGGTATAGAAAAGAGGTAATGAAAGTTATTACAGTTAAAGGTTTAAGAGGTGTATGAAATGCGGGTTAAACCAGGAGATAAAGTTAGAATAAGAGTAAAAGTTAACGGAATATCGTATGAGAGAGAAGTAAGTCCACGAAAATTACTGGTGCATTTCCTTAGAGACGATTTAGGATTGACAGGAACTAAAATAGGATGCGATACTACGACATGCGGAGCATGTACTGTTCTTTTAAACGGTAAGTCAATAAAATCTTGTACTTACTTAGCTGTACAGGCTGACGGAACTGAAATAACTACAATAGAAGGATTAGGTAATGGCCAACTTCATCCTATTCAGGAAGCGTTTAAGAACAATTTCGCTTTGCAGTGCGGATTCTGTACTCCTGGCATGATAATGCAGACTTATTATCTTCTTAAAGAGAACAAGAATCCAACAGAAGAGGAAATAAGAGATTGGTTACACGGTAATATATGCAGGTGTACTGGGTACCAGAATATTATAAAAGCAGTTAAGGAGGCATCTGAGAAGGTGAGATTATGAGTTACGTAGGTAAGTCTATAAAAAGATTAAACGATAATAAATTCGTATCTGGAAAAAGCACGTACGTTGATGATATACAGATATCTTCGCTTTATGCAGGATTTGTTAGAAGTACTTACGCTCATGCTAAGATAAATTCGATTAATGTTTCTGACGCACTAAAGGTTAACGGTATAGTTGCAGTGTTTACTGGAAAAGATCTAAATCCTATGTTAAAAGACGGTATAGGACCTTGGGCAACTTACGTAAATCCTAAAGAATGGAAATATGTACCTAGGAAAGCTCTTGCAGAAGGAGAAGTGAAATACGTTGGAGAACCAGTAGCTATAGTCATAGGTACTGATAAATACGCAGTAAGAGACGCTATGGATAAGGTTAGTGTAGATTACGAGAAACTTCCAGCAGTAATAAATATGGAGGATGCGTTAAAAGGAGACGTATTAGTTCACAAGGAGCTGGGCAGTAACATTGGTTATAATAAAGATTTTAATGCAGGAAACGTAGAGTCTGCATTCAAATCTGCTGATAAGGTAATTCCAGTTGAGATTTCAAATAGTAGACTAATTCCTTCTCCAATGGAACCTAGAGGAATAATTTCTAGATATGAAGGAGGTACATTAACAATATGGTATTCTACTCAGATTCCCCACTTTGCTAGGGATGAATTCAGTAAAGACTTCGGAATTCCTTCTAGTAAAATAAGGGTTATAATGCCAGACGTTGGTGGAGCTTTTGGAAGTAAGGCACATCCTATTCCGGAAGAGTTAGCTGTAATAGCGTCGTCAATAAAGTTAGGTAGAACTGTAAGATGGACTGCAACAAGAAGTGAAGAATTAATATCATCTAATGCAAGACATAATGTATTTAAAGGAGAAGTCGCAGTTAAAAATGATGGCACAGTATTAGGAATTAGAGGCCAACTTTTAGTTGAGCTTGGAGCTTATTTAACTTATACTGAAGGTATTCAACCAGAGATAATTCCTCCAATGATTCCTGGACCTTACAGAATAAGAGATCTTGCAATAAATAGTGTTGCAGTTTATACTAATACTATTCCTATAACAATGTATAGAGGGGCAAGTAGACCTGAAGCAACGTTCATTATAGAGAGAATAATGAGTACGGTAGCGGATGAACTTCATATGGATGACCTAGAATTGAGAGAAAAGAACATGGTAAGGGCAGACGAAATGCCTTATAAGAACCCATTTGGTTTAACTTATGATTCTGGAGATTACATATCCTTCCTTAAGGAAGCTAAACAAAAATTAAAATATGAAGAAACATTAAGATGGGCAGAAGAAGAGAGGAAAAAAGGAAGAAGAGTAGGAGTTGGAACTGCGTTCTATCTCGAAATATCTGCCTTCGGTCCTTGGGAATATGGAGAAGTTAGAGTAGATGATAGGGGTAACGTTACAGTTATAACAGGTGCAACTCCTCATGGACAAGGAGCAGAAACAGGAATAGCCCAAGTAGTTGCAGATGAATTACAAATAGATATAGATAGAATAAATGTAATATGGGGAGACACTCAAATAGCAGCTGCAGGATTAGGAACTTACGGGTCCAGAACTATATCAATAGGAGGAAGTGCGGCGAAATCTGCAGCATCACAAGTTTTAGAGAAAATGAAGAAAGTTGCCGCAAGAATGCTTAAAGCAGACGTAGAAGAAATTGAGTATTCAAAAGGAGAATTTAGGCATAAGAAAGAAAATAAGAAAGTAACCTGGGAAGAAGTTGCGAATGAGGCATATAATGGAAAAGATCCTGGGTTATACTCTTCAGTAACTTTGGAGGGAGACGTTACTTTCCCATACGGCCTTCATTTAGCTATAGTGGAAGTAGACGATACGGGCATTGCCAGAGTTAAAGAATATAGAGCGTATGACGATATTGGAAAAGTAATAAATCCAGCATTAGCAGAAGGTCAGATACATGGTGGAGCTATGCAAGGAGTAGGCCAAGCACTTTATGAAGAAGCAAAATTAGACGAAAATGGTCAGTTGGCAGTTAGTTACGCTGAATATTTCGTTCCTACAATAGTTGAGAGTCCGGTATATACTTCATACTTTACTGAAAAGCCTCATTTATCGAATTACGCTACTGGAAGTAAAGGTGTAGGAGAAGCTGCACTTATAGTAGGTCCAGCAGCAATAGTGAGGGCAATAGAGAACGCTACTGGGAAAAAGTTTAATAAAACTCCTGTAACTCCTGAGGAGATATATAGGAGCCTACATTAAATTCTATAAATTTCCTTATTTTGTAAATAAGTTATATATTTTTATTTCTCCATTATTAACATGGGCATTAACTATGGAAGAAATAGAAGTTTCATTCATTTTTTCTCCGTTGATGTAAATTTTACCATTATTTACACTAGGGATAACATGTATTGAGTTATTTGCTAAGTTTATTTTTATTTCTCCATTATTTACTGACGCGCTAAGGAAATTCGCTTCAACATTCTCTAATTTTATTTCTCCATTACTTATGAATAACAGCCCATTAGAAAATGATACTGAATTTAGGTCTATAATCCCATTACTTATCTCAAGATTAGAGAGATTGGAGTAAATATTACATAAGGATATTTCTCCATTGGCCATGTTAATTGTTATATTATTATATGAATATTCTGGCAATTCTATTGAAATGTCTACGCTGTAAGTTTGATAGAAGCTATTGGGGTTACTTACGTATACATAAAGGCTGTTGTCTATAGTATAGTATGTTAATTTTATGTCATTTAAGGATGCAAACAGACCTTTAGCTACAAGATTGAAATGAAGAGATGAAACTTTGTCTCTAACTATACTAACATGACCATTAGTATCAACTATAGATATATTTTTTATCTTAACAAGGGCGTTCAGTAATAAATATTTCGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGCGATTTGGGGAGGATCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAACTATTCTAGCCAATTTCCTGGCTAAAGCAGTGTACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAAGTAGAACAAGCTGCGCAAATACTTATTACCCTTCTTCGATATTCCCTTACTTACAGTAGCTTTACCGCTCCTCTCAACTATTGGGTCTAAACCGCAGTAGGCTACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCCCCAACAATGCCTATTATTATTCCCGAAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTGATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTGTACTCTAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAAGCATTTCCTTGCTTATTTTTTCCTCGTCACTGACTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTTCAACTTTTAGGAAGATATATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTGTGCGTCGTAAAAATCTGTTTTCTTTCCTCTCAAGTCCTTCTCCTTCCATAGTATATTTGGGCTTACTTGTAGTATCTTGATCCCTTTTCCCTTGAAGTATTGACATGGTTTTATTGAGTATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGTTACTAGATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATAGCCCCCTTTGTAAAACTTATATACTTCTTTTTCAAATATTCTATTATGTCCGACGTAGGGTTACGCTTCAGAGCTTACGCTGACGAACAAACATTGAGGGCGTTAAAAGCCCAGTTGAGGTTAGCATCAGAAGTATACAACACTCTACGTTGGGCAGACATCTATTTTCATGAGAGAGACGGAAAAGGACTCACTAAGACGGAGTTGAGGCAACTAGCTCTCGATCTGAGAAAACAGGATGAACAATATCAACATCTATATTCCCAAACACTGCAGCAGATTGCAGACAGATTCTACGACGCTAGACAGAGGTTCTTCGATGGGTTAGCACGTTACCCAAAGGAAAAGAAAGCACACAAGTGGTACTCCCTCGTCTACCCTCAATCAGGTTGGAAAGTCCTGAAGGTGAGAGAAATAAGGACGAAGAGCAAGAAGAACAAGAAGAAGGTAATAACGCTTCAGCTGTCAAACCTAGGGATCTTCAACGTTATTGTTCATAGGGACTTCCCGCTAGACAAGGTAAAGAGGGTAGTAATCAAGTTAACACCATCAGGGAGAGTTTACATTACTTTCGTTGTGGATCAAGAGTATCCTCAACTCCCAAAGACAAACAAAGTTGTTGCTGTGGATGTTGGCGTAGAGAAACTTCTCACTACCTCTGACGGGGAATATGTGCCAAACATGAGGCCTTACGAGAAGGCACTCAACAAGATGAAGAAGCTTCATAAAGCTCTCTCACGGAAGAAGTTCTTGTCACACAACTGGTTTAAGGCAAAGATTCGTCTAGCGAGGGCTCACGAACACTTGAAGAACCTTAGGAAGGACATGTACATGAAACTTGGTAAGTATTTTGCTGAGCATTATGATGTTCTCGTAATGGAGGATATTCGCGTTAAGCAACTTGTTGGTAAGTCTCTCAGAAGGCTGAGGATGAGGTTACACGATGTTGCTATTCATGAGCTTAGGAGTATCATGAGATATCAACTTGGGAAGTACGGTAAGAAACTCACTCTAGTGGATCCTGCTTTTACTTCAATGACTTGTGCTAGGTGCGGACATGTTAAGAAAGATTTGACGTTGGCTGATCGTGTGTTTGTCTGTCCCAAGTGCGGTTGGGTCGCTGATCGTGATTATAATGCTTCCCTCAACATCCTAAGAAGATCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGTCCGTTAGGGCGTAGTAGTTCACCATAAAATAATTGTATAGTTTTCCCTTCTATTACCATGAATCGTTTCATATAAGAAAATAATTTAACAGATTAAAATTTCAATAGTTTCGATTATGGACTACTTTACCATTTTCATTTTAGTAGAATAGTTAATTTCTATATTATATTTCATTCTGACTATTTAAACGTAGTCATATATATTGTTTATATCCAGAATACTGGAATTGTCCTTAGAGGAAACTAGTGAATATTTCCTTTCTCCTATTTCAATTTTAAGTATTGAGCCTTCTTTATTTCCTTCGACTAATTTGCTTGAAAGGAATTCTTTTACTGTAATAGGGCCATATAGCTTACCTTCAATCATTAGGTACATATTCCATTCTTGAAAGTTCTTTAACATTTCGAGGTCATGAGTTACTATGAACCCTTCTTTTCCATATTTGTTTAGCCATTTCATCATTATATTTTTTCTGTTTTTATCTAAATTTTCGAAAGGTTCATCTATCATCACGATTTTAGGTTCAGATGATAATGCTAACGCTGTAAATACTATTGTTTTTTCTCCCATGGAAAGGGAAAAAGGATTTTTATCTAAGGGATTAATATTTACTTCTTTCATCATACTTTCAAAAAGATCTTTTTTGCATCCCTTAATTTCTGATAATATGGAAAGAATGTCTTTAACTTTCATTGCTATGTAATAAGCGTCTGGTATGTTAGTGGAGAGGGAAATATAATTAATATCCTTCAACTCGTTTCCGTCTATTTTTACACTTCCTTTATATCTATAAAATCCGCTTAGTGTTTTAAGCAACGTCGTTTTCCCAGACCCGTTGGGACCTAAAATTAAAGCTTTATTATTTAATCTAAAATTAATATTCTTTAGAATTATTTTTCCTCTAATCTCTAATGAAAGATTATTTGCTTCTATCATATGATTAAGTATACTAACTTTTAAAATAAGGGGACATGTTAGTTCGAAAATTGTACCTTTCATTTCTAATTAAGTATGTTCGATCACTAATGTATTCTATGGAGTACTTAAAATATGCATTAAAATCTCTCCTTAAAGATAAGAGAACATTAATATGGTCTTTATCTTTTTCTTTATTTCTTGATATTTTAATTATTTTCTATCTAAATCATATTGGAGGAGTAATTGATAAGCAAACAATTTCATTGGCGTCTGGAATAGTTTATGCCCTAATTGTAATGATGTCTATGAGTTTTGCGTCAATAGCTATTGGAAGATCCTTCGTTGAACAATCTAGGTCATTTGGTTATATTTTCAAATTTTCTAAAATGAATGGTAAAAGTTATTTAATACAATTAATTAGTGCAGTAGCTCTTATTTATTTCATAATTTCCTCAGTATTTCTAGTTATTACTTCTTATCTTTTTTATGCTAAATATGACATATTCGTTTTACCCTATAATACTGTCGAATTGCTCTTAATTTCTGTTATTGGTGGATTAACGTTAATGGGATTTGTATTGTTAACTAATGAGATTGTTCTAAGATTTCAAGGAAGAAAAAACATAAACTTCGTTCAGTTTGTTCCAGTTTATCTTTATTTTTCATTAGATTGGGCAATAGTGGAATCAGGAGTTCACGGATCTTTATATTATCTTTCTCCGTTTCTTTCAATAACATATCTAATGAGTTATTCATATGCAGGGACAACGTTGTTTCCATTTAACGACGTACCTTATCATTTTAATATAGAGCTAAGCATAATTTCTATTATTTCGTGGATTATAACACTTATTGGGTTAAGTAGTTTACTTATAAAGAAAATATATTTAAGCCCAGAAGAGGAGGAAAGAGTGCTTTAAAATGAGTGATTTCGATCCTTTAGAAAAATTCAAGGAAGGCGAAGAGTTTGCAAGGAAAGTTTACTTAAGAAAAACAAGGAAAACTATAGGCATTTTTTATTTATTAATTTCTACTTACATTCCATTATCTATTGGATTATCGGTAGCTTACTCCTATTTTCTCATTAACACACCTTTTAGCTATTTGAGAGTTGTTATTTATTCTCCATTAATTTATATATTTTATATAATATTTTCGTCAATTTTGTTGTTCAGACTAAGAAAGATTCCTGAAATAATGAAAAAAATTAGAGAGATAAATGTAAACAGATCAGGAATTAATAAGGCATTCTACTCAAAACCTTTCTACTTTTTCTTCTCTATAGGCACCATTCTGTTATTAAGTTACGGCACAATAGTATTGGGAGGAGAAGTAGGTAATATTTTAGGAATAATGGAGAACTTTATCATTCTTCTATTAATTATCAAATATTTTCACTCGGTCTTTTCCATGCTTAAAGTAGATAAGCCAAGCAAGGAAGATTACATTGCATTAATAGGTGCAATAATAGGATTTTCGTTCGGGACTCTTGTTACCCCTTATTTCTTCCTAGTTTTTTCAGCATCTTGGATGTATGCTGGACTAAGTATATTGAAGAAATATTGGTGAGTATTAATGCCAGAAGAATTTAAGGAGATTATTGATTTTATAAAATCGCCAGTATTCTCAAGCTCTGCTAGAATAGGTATTTTGCTTGTCTTATTGGGAGTTGATAAAATTACATTTACAGATCTTCTTAATTCGGTTGAAATGTCTAAGTCTTCCTTGTATTCCCATTTAAAGGTATTAGAGGAAAACGAAATGATAGTAATAAGAGACGTTTTTACTTTAACAAGACCGAGAACTATTATTCAAATAACGCCTAAGGGTAAGGCTATGGTGGAAAGATATTTACAACTTTTAGAAAATTATGTAAAGAAAAATAAGTAAGTTAATTTCAACTAGCTTTATTATCTATTACACTTTCAAATGTTAATTATGTTTATAGGGCATTTCGGAATTGCGTTTATTTTAAGTTATTTCTTCCCTTCAATACCGTTGTGGGTTTTCTTAACAGCAGTAAGTTTTCCAGATTTACTTTGGCCAATTTTAGTTTTAATAGGGAAAGAAAAGGTAATTGTAAATAAAAACAATCCTTTTATGAGCGATGTTAAATTTGAAAGCTATCCATATTCTCACTCTCTTATGTTGTCTTCATTGTTTTATTGTATATCTGCAGCAATTTTTTCTATAATTCTCGAAAATATATTAATATTTCCATTATTTTTAGTTGGTACAGCGTCTCATTGGTTTCTTGATTACCTTTACCATATGCACGATATGCCAGTTAAGGGTTTTGGTAAGGACAAGAAAGTAGGTCTAAGTATGTGGAAGAATGGACCCGTAGCGTTTTTCATAGAATTGATCTTTTATCTTATAACGGCAATCCTATTTCTTCCTAGTAGATTTGTTCTATCTGCCATAGAAATGGGTCTAATATTTCATTTAGCTAATTCAAACTCGTTTTTTGGATATATAAAGAAAAATTCTTTAGGTGGATACAAAACTAATGCAATAATGGTTTTTGTAGGCTATTTTCTCTTTATTGTATTAGGTGGAATATTGACTTGACCGATTACAACTATATTAGCAAAAACATCTTGATCTCCTATTCCGTATTATATTCTCATATTCATGAGGATATTCTTCTTTAAGATATTCTAATGGATAATAGTATATTGGTATAACATCTGCATTATTATTTCTATTATCTCGTTCTTTTAGAGATTTTAAGATGCTTTTTAAGTGCATCATAGGACGTATTAGTGATCTAACATACTTAATTAGAGACGAAAGGTACAATTTTCGAACTAACATATCTTATCACAAGTTTCTTAAGGTGAACTGTATAAATAAACGAATTCGTTTATAAAGTTTACAAACCGTGTAATTATAACGTGATCATAACGTTAATAAGCATAATTTATAAACTCTAAAGTTTATTATTATTCATGAATGAAACTTCCACGGAGAATAGGATAATCTTGTTTATTAAAGAGAAAGGTCCTGTAACACTTCAAGAGATAGCAGATAATTTAGGAATTACTAAGATGGGAGCATATAAACATGTAACGCAACTTGAACGTAAAGGATTAATTTCTAGGAAAGTCATAAAGAAGGAGGTAGGTAGGCCATCATATGTTTTTAATGTTACTGAAAGTGGCAAGCTATATTTTACTAATTCTGATTCTCTTATTCTATTAAAATTTTTAGATTATATTAAGAGGGAAGGAAAAGATGAATTAGTAATTAAATTTCTTAAGGACAGATTCAAATCTTTATATAATGAATACAAAGATAAACTGGATAAGAAGGATCTGGATGAAAAGGTAGAAATTTTAGGCAAATTGAGAACTTCTGAGGGATATATGGCAGAAGTTAAGAAATGTGGAAATTCCTTTGAACTGATGGAGCTAAATTGTCCAATTTATAGGATAGCGTCTCTATTTGGAGAGGCTTGTTCAATGGAAAGGGATTTATTTTCCAAGGTTTTGGACGCTGAAGTAGAAAATTCTCATAGACAAGTTGATAACTCTAATGTTTGTAGGTTTATAATAAGACCTAAAAGTAATATTCATTGAATAGCTTGTAAGTTAAACTATAAGTTTTAATAGTATTTAAAATAATAGAGAACATATGGAGGACGTAGTAAAAAACCTGGTGAATAATGCGGAATTTGTTAGTAAAGTTGCGGACGAAGTGGAAAAAAGAGTTACTATTAAGGAGTTGAAAGAAATTAACGAAAAAATTAGCTATCTAATAACTAACGTAAGCCAATTAGTGGACTCGATGAAATTAGTTTGGGAGAAATTCGAAGATTATGATAAGAAATTTAACATAATTCTTGAGCAGATATATAGAAATCAAGAAGATATAAAAAGATTGAATGAACGTTTAGATAAGCATGAGGAAGAGATTAAGAAGCTCAATGAACGTTTAGATAAGAACGAAGAAAAATTGGACAAAATGATTCAGAATCTAGGCAAGCATGAGGAAGAGATTAAGAAGCTCAATGAACGTTTAGATAAGAACGAAGAAAAATTGGACAAAATGATTCAGAATCTAGGCAAGCATGAGGAAGAGATTAAGAAGCTCAATGAACGTTTAGATAAGAACGAAGAAAAATTGGACAAAATGATAAAAAAACTAGATCAAGATTATAAAACAATAGCTAGAGTAGTAGGAAATACTGAAGAAGAGGCTTTAGATTATTTAACATGGAAATTTAAGAACGAATTTGGTAAAGACGTTGAGCTTTATAGGCTAGATATACCTCATGTTACTGAAATAGATATTTATGGAGAATTTGAAGATTATGTCATAATAGGAGAAACCAAAGAACGTGGAAGTATATCGGCATATAATGAACTTGCAAGGCATGTTAAGAAACTTCAAAAAATTAAACCTGAAATTAACAATAAGAAATTAATTCTAATAATTTATGCCTTGGCTCCAAGTAAAGATCTAATAGATCAGTGCAGGAAAGAAGGTATTTATCTTACTTCTGGATTTAGAGATTACAGCCAACTTAAATTAACATAAAAATTTTTCATAACAATAATTTGTATTTACAGTATATCTCTTCAATTTCTATAAAAATAAAATAAGAGAGGCTATGTATCTGGATTTATCATTTTCCTCAAGCAGTTTATGTGATATTTTGTACATAGGACCTATTCCATTTTTATTAAGATATGAAATGTAACTGCCTACATTTTCTCCCTTTATTATGGAATAAATTATTTTAGATTCTGCAAATTCTGGAATATTAATTAGTTCTTTAATATCTTTAATATTAATGTTTAATGATTCCACAACTCTCAAGAATTCGTCTATATTTTTTCCTGAAAACGCTTCAGCGGCTAGTGTTATTAAATGCGTATCTGAAGGTATTTTAATATTCTGTTTTAATGCGATTTTAGCTATTACTTGTGCATCAGATAAGCTAGGTGTATAATATTTTTCTGAAAAATCTATAAAATCACTTAAAATATTTTTATACTCATACGCGTTTCCTGATACTAGGGATTTTGCTAGGCGTATTTGTAAGGTATTAAATAGTAATTCGATTTCGTCTGGATACAAAAGTCTCTTAGAATTTTCTCTAATTAAATAATTATAATACGGTAATGATAAGAATTCTGCTAGTCTTAAGGTATCCTTTAGATCCTCATCTGGTGGAAGCATAGTATAATAGAATATTCCGATTTCCGAATTATATTTATCCTTATCAATTTCCATTCTTTTAATAGCAAAATCTAATGAACTTGCAAAGAAAGCAGTAGAAGCTACTTTAGCACCTTCGCCTTTATCTATTCTTTTTGCAATATTCTTCAATAAATTTAGATTTTTCTCAAATTTCTTGACAGTTTTTATAAAACCGTCTACATTCTCTTTCTCAAAAGCCTTCTCTGCAAGCATATCTAATGAAATAGTATTAGCAAAGATCTCTATTGGAGATTTACCTTTCCTCTTAGGCAACAGTAGGAGTGCATATGCTTTTGATATTGGAGACAATTCCGATATTTTCTTTATATGTTGTATATTTCTGTATTCTGATGTTAGAGATAAGGAAACGTAATGTCTAACAAGTTCTTCTTCCTTGAGATTCATTATTTTATCAAAAATGAATTTTTCCAGAACTCTGAAAGCTTTTTTCTCCCCATACAATGTGTACAGTATGAGTAATCTTAATGCCGTTATCAGACACTTTTTGTCGTTTGATTTTATAATTGTTTTTATTACATTTGAATAATCTTTATCTATACTCAAATAATATAGAAAGCTATACACAAAAAGCGAATTTATATCCTCATCAGATATTATATCTTTTTCCTCTAAGACCTTAAGCAAATCCATTTCTTTAGGAAGTTTTTCGCAACCATCAGTTAAATAATCCATTATGTCTTGAATTACATTTTTAAGAATTTTGTAACTTATGGGAGCTACTTCTTCTCCTGCTAGAAAATAATTGTCAAACTTTGTGTTTGATAAAACCAAAATATTCTTTAGAATTGTATGAGAATAATTAATAAGTAGATCATCAATTAGGTTTTTAGATTTTGCTTCATCAATAATAGTCTTTCTAAGAAATTCCAATATTTCTGAAGATTTTTCTTCAAAATTTTTTATATCTCCGCCTTCGTCTTTCTCCTTTATATTTGGGGGCAATTCAGAAGTTACTGAAAACCATTTTACTAGAATATCTCTCTTTTCAATTTTTCTTTGTGAATACTCTAAGATTTTTCTCGAAACACCTACAGGTAAAGGAAATCCATATTTAAGACCTACAGCTATTAATGGAGAATACCACTTAATTAGATTAGGATCTTCCTCGAAAATGACTTCATAAATATACTCAGTAAGGTCTTTTCTATAATTATTTTCTATTTCTTTTCTTATATCTGCTTCTTGACCTACTATGTTAGGGTTCTTGAGAGCATAATATGATAATTTAGGATCTGATATCTTATTTTTACTTCTATTCTTAACGAAATATTTAAATATATTAGTAGAATCTACTTCATATTTAGGTTCTGAGATATTTAAGGTTTCGGCTAGATCATCTGTTAAAATTATGAATTTATGTCCTTTTTTCCTTAAATAAGAACTAATATGCCTTAAATTCTCATAGTTTTCAGAATGATAATCTATTATAATTATTTTTTTATCACTCGTGGAATTTTCTGTAGGTAAAACTATAGAATAAGAATTATCCCTAGATAAAAGATTCTTTATAGCTTCGTTGCTTATTGTAGTCTTCCCAGTCTTTATAGCGCCTCTTAATACTACATTCTTATTATTAAGGAGCATAGTTGCTATATACTCAGCAGCTTCTAAGAATTCTGGAGTATAAGTATAATTCCATTTTTCCAATTTCGGTTCCTTCTCCTCTATTTTTTCAAGAAAATTCGAAATAACCTTCTTAGATTGGCCCGGCAAAATTCTTAGAGCAGAATCAATCCTATAAAAAATTAATTCCTTCCATGTATTGCTCAACTTTAACCATGCACCTTTCATTTCTTCAGGTGATGGAAAAAGTGAGAGTAAAGGGTATAATATTGCGTCCTCTCCATCAATCTCTCTGCTAGGAAATCTAGAATAAACCTCCTTAAATTTTACTACTATTGGAAGAATTTCGTCTAATTTTCCCTTCTTATATAATTCTTTTGCCTCGTCGACTAATTTAGGTATATAAGTAGAATAATTTGGCATGGTAATTAGGGAGTATTCTAGTATTTTAGTTAACTCTTCCCCATTAACTTCTTCTAATATATCCTGAGTATGGAAAGTTAGAGCGTTACCCTCTATATTTACGTGAGGATTTCTGAGAGACGGTTCCTTAAGTGTTACCTTTCCTAGGAATAATTCGACAATATAGTTTCTTCCCTCAACTACGATTTTCCTATCCTTATCTTTACTTAATTCACTTAACTTCTGTTTAAAGTCATTAAATTCGCCGAGATTATTTATTTCTTTTGGCAATTCAATGATTATATCATTCTCAGTAAGTAATTTCCTTAAAGTAGTAGTTTTACCTGAGAAAGGTAAGCCTGAAACTAGCACTAGGTCTTTTTCTGACAATCTTCTCGTAATAGATCTTTCTGTAATTTGATTAACCATGAACTAGTGTATAAGCTTTAAATTAAAAACTTAAATCCATTGTTTGAAGAATATTCCTATAAAATGATGAAATATTAAAATAATTCGTATATTTTCAACGTTTTTCTAATAAAATAAGCAATAAGACTTAACAAAGAAACTACGTAGCAGTTTATGGGAATTTCTCTTACTTAGGTATTTTCATTCTCTAACGCAGTGAACTCCTACGGTGATTTTCACGAACAATACTCCTAAACAAGAAGACAAGCCTTACAAGAGTGAGACTAAGAAGACTAGGTATAGGGGAGGAGGTGGTGAAGGCCCTCAAGTTGACCCCAATCAAGTAGTTCCTTCGGCTCTTCAAGCTATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTATCCATCTCCATGGAGTCTTCCGCCCCCTTAAACCCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGATCGACCCCTTGACTGAAGCAAAGTCTTCGAAAGGGAGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATGTGACGAGTGAGGGGAGGGTCTACGAGAACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCAAAACTATGGAAGGAGAAGGACTTGAGAGGAAAACAGATTTTTACTACAAAAACTAATAAACATGGTAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATACGTCTTCCTAAAAGTTGAAAGTAAAGTACAAGAACAGGGTAAAAAGAGCATCCTAAGTGACGAGGAAAAATAAGCAAGGAAATTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTGGAACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATCACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGAAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTATCTGCGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGGGAATCTCGAAGAAGGGTAATAAGTACTTGTGCAGCTTGTTTTCCTAGCTGAGATGAATTACTCTCGTAATCCTAAACTAAAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTCTGCTTTAGCCAGGAAATTGAGGATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGATCCTCCCCAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCCTGAATCTGATAAACATTGTGGTTTTAGCAATTAAGGGACCGTTATTTTTTGTTGTGGATCATAACAGAGTAGCACATATAAAGGGGTGTAACAATTGAGACCTCAGGGAATCCTCGCTCTCAGAGCGTGGAAGAGGTCAGAAAGGCTAACTATGAAAAGAGCATTCACTGTTATTTCTTTGAAATTAACGTTATCATAGGCTTTTAAACTTTATAATACCTTTTATAGTATTTTCACTCAGTAGGATAAGGAATATAGATTTTAAAAATTAAATTTATATTTAAAAGTGAATTCTAAGTAAAAATATTTTATATTATAACTAACAAATGTATCCTTATCAATATAAACTTAAAAATTTTCAAGTATATATTAATGAATATGAGCAAATCCATTCAAATCATAAAAGAGGATTCAAAATACCTTATGCAGTCTTTTAAGAGATGGTATCCCTTAGTTATAGATCATGCAAAAGGTTCCATAATTTATGACGTAGACGGGAAAGAATACATTGATATGAATTCCGGAATAGGAGTCATGGCATTGGGGCACGGAAATGAAAAAATAATTAATGCAATAAAAGAGCAAATGAGTAATTTCTTTCATTATAGTTTAACAGATTTTTATTATGAACTAGCAGTAGACGTAGCAAAAAAATTAACATCTTTTTTGCCTTTTTCATCAAAAGTGTTTTACACTAATAGTGGAACAGAGAGTGTAGAAGCTGCAATGAAGATAGCTCGATGGTACACAAAAAGACAGTATATTATAGGATTTATAAATTCTTTTCATGGAAGGACTTTAGGATCTCTCGGATTAACCTCGAGCAAAACTGTTCAAAGAAGAGGATTTTCTCCATTACTTCCTTCTACTCTTCTACTGCCATATCCTGATAGCAGGAATCCTTTATTGAAGGACGATCCTGTTAACCGTTTAATGGAATACATAGAGGATTGGATTTTTGAGAAAGTAGTAGACCCCAACGAAGTTGCGGCTATATTCTTTGAACCTATCCAAGGAGAGGGAGGAGTCATTATTCCTCCAGAAGATTTTGTAAAAGAATTAAGAAGAGTAACTTATAAACATGGAATACTCTTAGTTGTTGACGAAGTACAGACTGGTATTGGAAGAACTGGGAAAATGTTCGGTTTTGAGAATTTCGATATTATGCCAGATATTATATGTTTAGCAAAAGCCTTGGGAGGAGGTCTGCCTTTAGGAGCAGTTGTGGGTAGATCAGAAATTATGACTTTACCTTTAGGTTCTCATGCAAACACTTTCGGTGGTAATCCTTTAGCTTTAGCTGCTTCAAAGGTAGTCTTGGAAGAAGTACCAAAACTTCTTGATAGAGTAAATTACCTAGGAAAAGAAATAATTGATGAATTGAACAATTCAAAATCTCCATATGTCTACGATGTTAGAGGAAAGGGTCTTATGATAGGCGTAGAATTAAGAAAGAACGGAAAGGCTTTTGTTGATGGTTTGGAGAGAGTACTCATGTGTTCATTCAATAGGGGTGTATTACCTATAGGAGCAGGGGAATCAGTAGTTAGATTACTTCCACCATTAGTTATAGAAGAAGAACTTGCAAACAAGGGAACAAGAGTTATTAGGGAAGAGATAGATAAATTACGGTGATATAATATGGTCTTTCCTTTCCGAAGTTTAGAGGATTTCAAAATAGAAATAAATCAAGATCATGAGCTATTTAGAGAATCAATGAAAGAATTCATGGAAAAAGAAGTTAGGCAACATGTAGAAAAAGGAGAGAACTCTGGAGATATACCTAAGGAAATAAAGGAGAAATCAAAGGAATTAGGACTTTATGGATTAGATATGCCAGAAAAATATGGAGGACAGGGAGGAAATTATATTTATTTATTGATAGCTACTGAGGAAATGAGTAGAGTATGGCCGTCAATGGCTACTTTCTTTTTAATAAATTGGATGTTTTCAAACGCAATTAATAAATTTGGAAGTGAATATTTGAAAGAAAAATATATTCCTGACATAGTTTCTGGTAAAAAAGTAGCAGCTTTTGCTAATACTGAACCTGGCGCAGGTACGGATGTGGCTGGAATTCAGAGCGTAGCTAAGAAAATTGACGATCATTACGTTATTACTGGGAAAAAGATGTTTATTACGAATGGCGATATTGCTGACTATTATATAGTTACAGCAAGAACATCATCAGAAGAAAAAAGATGGAAAGGAATTTCAATGTTCGTTATAGAGAAGGATTTTCCAGGTTTTAAAGTTGAAAGCAGAATATCAACAACTGGACTGAAGGCTTCGCATACTGCCGAGTTATCACTAAATGAAGTAAAAGTTCCAAAAGAAAATTTGGTAGGAGAAGAAGGATTAGGATTTAAATATGCTGTAGCATCGTTTGATTATGCACGAACAATAGTTTCAGCACAAGCTGTGGGAATAGGTCAAGCAGCGTTGGAGAAATTATTGGAATATTCTCTGCAGAGAACTTCTTTTAATCAGAAATTAGCAAGTTTTCAAATGGTTCAACAGAAAATTTCTGAATCAATGGCTGATATATATTCTTCTAGGCTAATGACCTATTGGGCTGGAAATCTTTATGTAGAAGGTAAAGAAGACGATTATGTGAGTGTTGCTTCATTAGCTAAATTCTTTTCAACTGAGGCAGCAGAAAGAACTATATTGAGAGCAATGACCGTGCATGGAGGATATGGAGTATCTGTCTCTACGGGATTAGAAAGAATGCTTAGAGATATTCAAATACTAAAGACATATGAGGGAACAAACGATATACAGAGACTATCTGCGGCTAAATACATGTTAAAAAAAGTCTATGGATTTTCATAGCATATTTTTATTTTATCGTTTTAATACATTCTATTATGAGAATTCTAATAGCTGGTATAGGGAACATTTTCATGAGAGATGATGGATGTGGAAGTTTCCTGGCTGAAGCTCTTGAAGGAAAAGTAGAAGCGGATGTACAAGACTTCGGTACTGGAGGAATTTCTTTGGTTGATGAATTAGAAAAATACGATGTTATAATAATTTTAGATATAGCAGATATAAACGAAGATATTAAAGTTTTTGAAGTAAATGATATAAACGAAGATGATATTGTTCAAACAGTTCTCTCCATGTCATTTGGGGGATCCCATGGTTTGGGTATAGAAGATATTTTAACAATTTTAAAAAGTAAAGGAAGTAAAGTAAAAATAATTCTTTTAACATGTAAACCAAAAATACTAAATCCAGGAATAGGGTTAAGCGATGAGTGTTTAAAAAATGCATTTCTTGCTATTGACGAACTAGAGAAAATTCTGAAACAATTCAATGTCAAAGTAGATAGAAATGAAATTAAAGAAGCACTAATATCTAGAATCAGAAGAATTAGATAAATAACGTTTATTAAAAGTACACTCATATGCCTGCTTTTATCGGCAACGAAACTCTTAGAATATATTAAAATTAGAATATATATTAAAAAATAAGATTTCCGATAGTATTGTACAGTCTCTTACTGCCTACTCAAGTACTATAGTGTATCTCTACTAAAAATAAGAATCCAGTTCAGTTGTTTCATCCGTTTATGATTTTTTTAAGTATTCGTCTGTTTCTTTAAATTCTTCTAGTCCTTTGTCAGTTATATAAACTACCTTCTCTTCATCTTCTTCCATGATTTTAACCTTCTCTTCCATTATCAAATCCCTTAGATTTGCATAAAATGCACCATCAGAATTAACTATATCCTTTAACATTAGAGTTCTCTTTAATTCGCCAATTTTTATACCTAGTCTTTCTCTTGCTAACTCCTTCAGTATTGCATAGCGAATTAATCTCAATTTTGAACGTATTTTCATATAAGCCTTTCAAGCTCGTAGTATTAAAAGTTTAACTAACTCTAGTTAAACTCGAAAAATACAGAGAGTTGGAGATAAAAAAAGGTACTATAAGATAAAGAATGATTAATAAATGTTTTTATTATAAAAATAATCAAGATGAGAAAGAGTTATTAGTATCTTTGATAAATTATCTATTGATTAAAATGGAAGAAAAGAGAAAATTAGGCCTAGTATTTGCATCAGGAGCAGCAAATAGAATTTGTTGCATAGCTATATACGGTGGTGCAGCTCTCGCATCTGGATGGGAAGTAAAACTGCATCTAGTAAACGAAGGGGTTGTTGCTTTTAAAAAGGACGTATTACCTAAATTGAATTCTTTAGATATGGGAATGACTATACGGCCAGATTTTTACTTACCTTATACTGAACAATATTTAAAAAACGTTGAGTCTGCTGTAAAGAATGGTCAATTAAAAGATTGGTATTCATTTCTAAAACAATTAAAGACGGATTATCCGAACGATTTTAAAATCTATGCATGCCCAGTAGCTTCAGCGTTTTATAATATAAAAAAGGAAGATCTAGTCGAAATAGTGGATGAAATAAAAGGCGCAGAATCTTTCCTAGAAGAAATATATGGAGGAGTTGTAATGTATATTTAATCTTTAATTTTATTCAACATATTTTTTAATTCATTTTCTATATCTTCCTTTTTTACCTTCTTTATGGCATATCCTGCATGAACTAGAATATAATCGCCTTCTTTTGCTTCAATCAATCCTAATTCTATATCTCTTCTTATACCATTGAAATCTACTATCGCTGTACCGTCTTTTATTTCAATTATCCTTCCTATGTACGCCATATCATAAGGATCAAAGTTACTCATGATTTAACACCTGAGCAAGTTCTTGACTATAACGTACCATTTCATTATATTCTTCTTCGGTAATTTTTTCCATTATCATTCCATAGCTCACTACAACATAATCTCCAGGCTTTAAATCATCTACATTTGATATAACTGGTTCTATGACATTATTTCCGTAATCTACAAATACAATAAATTCTTGAACGCTGACTACCTTAGCAGGAAAACTTATGCACATTAATTTAACTTATTCTCCAATAATTAAAAACTTTGCTAATAAGGAATCTCTATTTAAAAGACAAAAGTTTAAAAGAAGATAGAATAAGTTATATTTCAGAATCATGTTATCTCCTTTAGATTTAGAAGTAATAGATTTAGCAATAGAAATAGAAGATGGTAAGGTAGTTAATACTAAATCATCAGGAAATAGACTCAGAGGATACGAAAAGGTGTTTATTGGGAAAAACCCTAAAGAATTGTACAGTATAATACCTCGTGTTCTTTCTACATGCGCTCAATCCCATGTTTTTGCATACGCTAAGGCGAGTATGAATTTAAGTGAAAATACGTCTAAGATTTTAGAGACTATGGTTATTTTAGAAATAATTGAAAGTCATATAAGGCATCCATACACTTATTGGTTTCCATATATCGGTGGAAGGGAATATGATTTTCCTTCTGGAGATAAGTTTAAGAAAATTTCGTTCATATCAAAGCAGATAAGAAATTTGATGGAAAGAATTGGAGGAAAATGGCCTAGTGTAGATTATTTTAATATTGGAAAGAAAATACAAATTGAACAGAACGAAATAAATAAAATAAGAGAAATGTGGGAAAAAGAAACTTTAGGAATGGGAGTAGAAGATTTCCTTGAGGTTGAGGAAATAGAAGAGCTTAAAGGAGATTTATCCTTATTCAAAAAAATTCCTTACTTTATATCAGGATTAAATAAATATTTGACAGTTGGTTTTCCGTTTAATGGAGATTTAAATTACAGTAAAATCCAAGATAATGGAATTGAGGTAAAATATGATGGAGAACTTGTGGAAGTAGGTCCTCTGGCTCAAGCTTTAACTTTTGATAAAATGGTTAGAAAGCTTCATGAAAAAATTGGTCCTTCCCCTATGCTGAGAGAATTAAGCAGAATGAAAATTGTAGCATATCTTTTAAATCAATTAAATGAAATAAATGAAGAAACAGATGGTTTCTCAATAAGAGGAGATGGAGTTGGTATTGTTGAGTCTATTAGAGGCTCATTAATCCATGATGTAAAGATTGATAGTAATATAAAAGGATATAAAATAATTCAACCTACTACATTTAACGCTTCCCCAAAAGGAGCTCTTGAGAAAGCTGTAAATGGAATTCCAGTAAGTGATCCTAAAAATCCTTGGGAGATCTCGTTGGCAGTAAGCTCATTAGATTCATGTTTTGTTACTGAAGTTAGAATATTCGAGAAAGGTAGTTTAATGAGTAAGAAAAGGATAGGAGGATTCTGTTAATGAGCTCTAGCCATTCTATCAGCTATACGTTGGGCTACTATCTTTATTCCCTCAAATGTTAAGTAAACATAATTATCCTTTATTTCAACTAATCCAGATTTTAAAAGATCTTCTAAATCTTTTACTTCTTTTACTTCTGTATTCTTATTGTATGACATATTCATGTAAATTTCTTGAAGAGTATCTAATATGCCGTATAATTGAGAAAGTCTTCTAATGCCATTTTCAGTGAGATATAAGAAACCATTTTCGTCTCTAATTAATCCTTTTGAAATTAATTCTTCTATATTTATTTCTCTCATTCTTAATTCGTCTCTTCTTCTAGGCGCAGATTCTATTTCTTCAAGAGCATACAATTCAGAAAGCATTTTACTCTATCCTTATATTCTTTTGAGAATGCTATAATTGTTATCCTTGCTTTAATACCGTTTATTTTCGCATTGAGTAGATAGTTCTCTAACTCTGTATAGCCTAAAACTCCCGGATATAATTCTTTTAATCCTATTATTAAAAATCTAAAATTTCTTGCTGAATCAACTATTATGACTTCGTCTTCTTCTTTTAAAAATTTTTCTAATTCTCCCAATTTTGGACCTAAAAATATTCCTCCATACTCTTCCACAATTTTTCCTTCATTATCTCCGAAAATTTCGTTTCCTATTCCTATAATTTTCAAAGTCTAAGCACCATTTTTTCTACATTTCCATCCAATACATGAACATTACATACCATGCAAGCATCGTGAGATCTTACTATATGCGCCAATTCTATAGGATTTTCAATGTCTTCAACTATAGTCCCAATGAGAGCCTTACTCATATGACTAATATTTCCGTATGAGTCTTCTGGTCCCATATTTATTTGAGTAGGAGTAACTACTTGGTAATTGAATATTTTATTGTCCTTTATTACTATCCAATGTCCAAGAGAACCTCTAGATGCCTCTACTAACCCATATCCTTTGGATTCAGCTATGTCTAAAGGTTTTTTATACGTTGGTTCTCCGAATCTAAATTTTTCTAATTCTTCTATAATTATTTCGCTTATAATTGCTAGTCTAACAAATCTCGCAATTTCCCTCAAAAGTACATTAGAACCCAATTTATTTAGGAGGTCGATAATAAGAGGATTATTATCGACTGCCATCATAGAAAGAGCACCTACTTCTGGTGCAATCAATTTTCCATTCAATTTATATCTAAATGTTTTTGTAAAAGTATACTTATCATTAGAGAATGGAGAAAGAGGATTAGTCTCGCCTTCAAAAGGATGAAGTCCTATATCTCCATTTGAATAAGAATAGAAAGATTTTGTAACAAATTCTAGCATATTTGCTTGATCTATAGAACTGAATTCCATAGTATCCAGATTCAATATACCTCTCTTGAACCTAAGCTTAGGATTCTCCGTAGTATAATCTTCAGCCGAAGGTACATGACCAAAGGACATTAGAAAATTGGATCCCTTCCCTATTTTATCCCACTTCATTTCTCTACCATAAATCCACAACTTCGAAATATCACCGTTAGGATAGTCTTGAGACCATTGATCCAAATCTTTGACGGATTTAAGTTGGAGGAACTGATCTAATGGGCCTCCAAGCATTACTTTTTCTATAAATTCTGAAGTAATCTCATTAATTATACCTCTTGCCTTTAAAATATCATTAGGATAAGGGTCTGCAGTTACTCCTCCGGGCACCATGGAAGAACCATGAGGCCATTGTCCTCCAAAAATAGCATATATTTCTGTATATCTTTTAGACCACTTAACTGCAGCTTTATAAGACGTACCATAAAAAGGTGCCCATCTGGTAACCATATCTTTATAAAAGTCCATTTTTTCATACTTTTTATTTACAGTATCTATCATGAACATTAGATAAGTATGTCTAACGTCGTTTTGTCCCATTTCAGCCAACGCCATTATGTTTCTTAGGAGAACAGCGTTAGGTGGAACTTCGGCCTTATATGCCATGTCTAACGCTTCTACCGCAGACATTAAATGAGATCCTCCACATATCCCACATATTCTAGGCGTAATAACTAAGGAATCCATGGGATATTTATTTTTAAGAATTATTTCTATACCTCTAAAAAGTCTTGACATTGGATATGCTTCTATTACCTTATTACCACGGAAGACTACCTTAAGGTCTAGATCTCCCTCTACCCTATTTAACGGGCTTATTATTTTTTCATTCAATCCAATCCCCTTTCTTCTTAATTAATGGTCTAACAAGAAATTGGGGTGCAGATCCCTTAGCTACTGCTGAAAAAGTTACATATGTTCCTCTGCTCATTCCTAAAGGAAGTCTTTTTGGTATTCCAGATCTGTTTTTTTCAGTATGAAAGAAATTAAATGTAGGAAAATCAAATTCAGTACATCCCATACATGGAGTTCCTACTCTGGTTTTACTACTCTGGTTATTCCATAATATACTATTACAAGGACTTTTAGTATAAGCACCCCTACAGCCTAGATCAAAATAAAGACATCCTTCTTTATGACCTAACTCCTTAGAACTTATTTTATAAGTGAAATATGGCTGTCTAGGGCAACCAAACTGCGTTGTAGTAGAATAAAATATCTTAGGTCTATTAAACTCATCAAGCATATCTTCTGTCATTTTGCCTTCTGAAATTAATGATATTGTAGTTAGAATCCAATCAGGATGTGCTGGACATCCTGAAATATTAATTATAGGCAAACCCGATTTAGTTCTAAAATTCTTACCTAGAAATCCTCCAATTTCTTTTTTAAAGAATTGTAATCCAGTAGATTGAGTAGGATTCGGATCTGCTGCAGGGATGCCCCCAAATGAGGCACAGTCTCCTACAGCTATTATATATTCGCTTAAAGGAGCTAAATATTTTACCCAATCTTTCATAGGTTTACCAGCAAACATGTTAAAAGTTCCAGAATTATTAGGTCCTAAAATTACTGATCCTTCAAAAACAAATATATTTAGGCGAATTTTTCCATTTATTATATCTTCCATGATTCTTTTAACACCAATACTATCTAATGATAATGAGGGATGCCAAAGTAACTTTATGTTATGTTGGCTAAAGAATTCAAATACGTCCGGATCTGATGCGTTGAGCAACGATAACGTGTTACCACTGCAAGCTCCTCCTTGTAACCAAAGTAAGTTTCTCATATAGATTATTTGATTTAAATAAGTTTTTTAAGCTTGTTTATATAAGTTAGTTATAGTCTGATTATACTTAAGTTTTTATTAGAAAAAAATAAAAATAATTACAATTATTGATAAAACTTTTATATATCTACGTTGATTTTTAATTAAGATGCAATATGAGTGTAGATAGAGACGAAGACTATATTGAGGGTATAAACAAGATTAAGGAAATAGTGATCTATCTTAATACTACAGGAGTTCTAGATAGTATATTGGACTTTGTAAAAGACGATAAGAAACTAAGAGCATTTTTACAATCTAAGAGTTTTAGAGCTATAATAGAAATGTTAGGTGATCTAAAAGAAATGATTGATAATGGTCAAGTCAGCTCAGAGGATTTCATTAACGGAACTATAGCAATTGCTAAACATATGGATAAGATAGGTAAAATACTCTCCACATTAGAGGCACACGGAGTTTTAGACGTTATGACTTCAGGATTATCTAAAGCTGCAGAAGCAATGGTGAATAATAATCAGTCCAATATAGTTGAATTATTGGCGTCCTTCGATGATCCTGACGTTAAGAAAACCCTAGCATATTTGAGATTCATGCTTAAAGAGTTAGGAAAAGCTTCTACACCAGTAATAAGAGACGGGGATCAAGCAAAATAATCCTTTTCGGTTGGGGATATCAAGTTTGTTAATTGTAAGAGCATAAGTATAGCGTTCTTAACTGCCTTTCCTTGAATAGTTATGCTATAATTGATTACAATAGGTCTATTGTTTACTATCTCCCTCTTTATTAATAATGATTCTTCCATTTCTTTCAATCTTATTGACAAAGATCTTTGGGTAATGCCATCTATTTTTCTCATGATTTCGTTAAATCTAAGAGCTCCGTATTTATCTAAAAGCAAAAGTATTGTAAGGGTATACTTTCTTGTTATCAATTCAAATATTTTTGGATTATATGTCATGCATAAATCTTTGTCTTCTCTTAAGGGGCAATCCATACTTTTATTACGAAAATTCCTTTAAAAAATTAATGTATATTTAAATGATCTCTTTATATTTTAAATGTATAATTAAGTATTTTGCTAATGATTTTTTCTAGGTCTACTAAGAATTCCTTATTGAAATCTCCTTCCATTAATAGCTTACTCATGTTATACAGTACTTTAAGATAAATCTCATAAAGCTCCGGATTTTCTCTTATAATTTTTATCATCTTATTTTGAGTATCTGGACTATAAACGTTATATCCTTCAGATTCAAGGAGAATATCCATTGCTATTTCTTCAATGCTTCTTAAAGCAAAAGAAAGGCAAATTATAGGATTAACAGTACTATAAGATATTTGAAAATATTTTATTGCTAAATCACGATGTTCACTCAATTTTAATCCCATTTAATATTTCATTAATTTCATTAGAAATATAATAATCTTCTAAAATGACTATAGCTTCTGGGTATTTGAATTTTATATCTAAGCCCATCTTTATTACCAAAATTACTGGTGTGAAAGGAGATGGAGGCCTATAATATATTATCAATTTTCCATGCTTATTTTCTTTTCTTGCTAATCCTAATCTAAATAATGAAACACCCGTTTCCGCGTCTACTATCTCATTTTCCAGATCTTCCACCAAACTTTACCGCCCTTATATATCTAGCTCCAGGTTTTCTAAGATCTTTTTGATCTAGTTTATATTTTATTCCTCCTAATACTTTAGCAGCAACATTAAATCTAGACCATTCCTCCATAATCTCAGCAAAAGCCCTAGCTTCATGAATACAAGCACCTACTGAAAGTATACCGTGGTTCATTAGTATAACTATCCTAGGAACTTTTGCTCCTTCACCTTTTACAGCATAGCCTACATTTTTTGCAAGTTCTATTGTACCAGGATGAGAATAAGGAATGATCTTTATATCTCCAAGTATAGCAGCTGCTTCCCCATGAGTTATTTCTAAAAATCCTGAAATAGCCATTCCCATAGTATATGGGGAATGCGCATGAATTACTGCGTTTACATCAGGCCTATTTTTATATACTTCCAAATGCATAAATGTTTCAATTGATGGTTTTAAGTCACCTTCTATAACGTTACCTTCCATGTCTATAGCTATTAGGTCTTCCGGCTCTAAACTAACTCTAGGATATCCTGAAGGTGTTATCCAGATTTTATTTGCCCCAGGTAATCTCGCGCTTTGATTTCCACCAGCATTACTAATCATACCTTTCCAATAAAGAGTTTTTACACTATTTACTATCTCCTTCTTTAACTGTTCTTCATCTGTTTGACACAATTTGCAGAAAGTATTTCCTATCATGTAAACCGTTTATCTCACCTCCTACATCTGGGGCTAACATTAACTAATTTATGCATTGCCCATATCCAACATGTTCCTTCTTGTGAAACCATTGGGGCACCTTTAGGATCTTCTGGTTTGCATGATTTCATATAAAGCGGACATTCTGGAGGATCTATTAACCCCATTACAACTTCCCCACATCTAGCTCCTGCTACATACTCATCTGAAGTTTTTGACCTATCTTTTAACCCATATTGTTCTCTGGCATTGATCTTATTGAAATCGTCTTTTAATCTAAATCCAGCTTTCGGAAACACAGCCACGCCTCTTACGTAACCGTCTTCTAAATCAAAAACTTTCTCCATTACTTCTTGGGCCTTTACATTTCCTTCCCAAGTTACTGACCTAGTATACTCATTTTCTATTTTTGGAGTGCCTTCTTCAATTTGCTTTAGGATCATATATATTGACATTAATACATCAATAGGTTCGAATCCTGTAGCTACCATTGGTTTTTTGGAATTTAAGAAATATCCATAATATGGCTTTAACCCAGTTATAGTTACAGAATGACCTGCCGAAATAAAGGCGTCTATTCCTAATACGTTGGACTCCATTACAGACCCTTGAATAGCTGGAGTATATCTATAAGATACTAAAAAACTGAGATTTTCTGGAACTCCCTTCAATATTTCAAAAGCGGTTGCAGGTGCCGTTGTATCCATTCCTACTGCAAAGAATAGGAATTGTTTATTTGGCTCCCTTCTTGCCATTTTTACTGCGTCTTGAACACCGTATATAACTCTAACATCTCCACCAAGTGCCTTAGCTTCTTCTAAAGACATTTTTGTTCCTCTAGCTCTACTCATATCTCCGTAGGTTGTCACTACAATACCGTCTAAAGCTAGTTTCACTGCATCGTCTATGTCAGTAGCCGGAGTTATACAAACTGGACATCCTGGTCCAGCTCTTACTTCTACATTATCTGGTAAAAGAGACCTAATACCGTAGTGAGTTATTGTCCACTCATGACTACCGCAGACATGCATTATCATTATTCCTTCATCGATTTTTTTAGCAATTTCATGAATCTTGATTCTTAAGGCTTTAGCTAGATGTGGATCTCTATAATATTTTAATAGAGAAAGATACTCACTCACGATTCTCCACCTACAACTTCATTAAAGTCCTGTTTCTTTTTCTCTTCTGGAAGATCATTAGTCATTTCGTTCCATAACTCTATAGACTTTCTGGCTTCCTCTTCATCTACTACTTGAATTGCATAACCTGCATGAACTAAAACATAGTCTCCTACTTTGGCATTAACTAAAGATAAAAGTATATTATCTCTTATAGTTCCATTTCCAAAATCTACTTTACCGAATTCATCGTTGATTTCTATTACCTTTCCGGGGAATGCTACACACATTTTTATTCACCATAAATTTTTCTCATTTCGTTCTTTTCATTTTCAGATAATTCATATACCGGATAATAATCTTCATCTACATAAAGCATTGGCACGTTACAATGCATGGGCATATATATTTCTTCTCCACAATCTTCACATCTTAAAATATCTATTTTTCTAAAGTTTCCTTTCTGATAATATTTCATTTCCTTTTGGCAGTGAATAGGGACTTTTTCTTCATGTCTACAAATCATGCAAACTAACTTAGCCATGGAAATTCACCTAACAAATTCTGGGTACTGGATCACCTAGAGGTCTCCCTATATATCTTTTACCTCCTATTACTGTTTCCATTACTACTCCTTCTACGTCTTTTGTAACTTCGCCTATTACTGCAGCGTCCTTTCCAAGCGGATTTGACCAAAGTTCGTTTAAAACGTCCTTTTCAAATTCTGGAGATACTGCAATTACAGCCTTTCCTTCATTTCCAAGTTCCATTATATCCATTCCCATGAATTCTACAGCAGATCTTACTTCGTCTCTTACTGGTATATTTTCTTCCTTTAAATAAATACCTAATTTTGATTTTTCAGACCAATCGTTTAATAAATCGGCTAAACCTCCACGTGTAGGATCTTTAGCGTCTGCTATTCCTCCTATTTCCATAATATCGTTCATAAGCTTATTTAATGGTGCTGCATCGGAGACAATGTTAGCTTGGAAGCCTATTCCCTCTCTAGAGGAAAGTATTGCAATTGCATGATCTCCTATACTCCCAGTTACTATTATTTTATCTCCTGGTCTTAGATTTAAAGGGACAAGCCATCTTAATGGTTCTCTAGTTTTTCTTAATGTCTCAATGTTATGATCTAATTGTCGTGATCTGAAGCCAATACCAGAAGTGTTTATAACTATTTTATCTATACTCCCTCTTTCCATTACTTTAGTATCTCCAGTTATTATGTGGACTCCGGCTTCGATTGAAGTATCCTTTATGCTTTTAACAATTTTCTCTAGATCTTCTTTTTTAAATCCTTCTTCAATAATTACTCCAAGACTTAGAGCTACAGGATCTCCACCCATCATAGCTATATCATTAACAGTTCCAGTAACACTAAGCCTTCCTATATCTCCTCCTTTGAAAAATATTGGCCTAACTATAAATGAGTCCGTAGTAAGAACTATATCGTTAACTATTGAACCATCGTCTAACATTCCTAAGTTAATTTCTCCAAATCCGTCATTGAGTTGGTAGAAAATTTCCTTAATTAACGAGTACATGTAAGATCCTCCAGCTCCATGGAGAAGAGTTATAACGTCCTTATTCATACTAATCATTTAATGTTTCTTTTTAAGGTTAATAAATTTATATTAGATAAATCATATGATTAACATGTTAAAAATACTAAATCGATTTTTTCAACCGACTATTACGGTTTTGACCATATTCAATACCTAAAAAGTATACTATAATATACCAGGATAAATTATTGCGTAAAAGATTAAAAACTTTCCCATAATTTATAATTTAGATTAAAATTGATTTCAAGTTTAGTATTAGCCTATATTATCTACGTGATTTTTATGACAGTCTTACTTTCAATAGCATTGGAGCTAGGAATTAAAGGAAATAATTTTTCCTTCATAATAATGATACTTACATACGTTAACACTGCGATATTTCTTGTTTTATTTTCTGGAACCTATGCATTGATAGCAATATCTATTTCTATAATTCTTATAATAATACCCATAGTAATTAAAAATCTAGGATTTAATATGTCTTCCTATATAGTTTTTCTTATATCTAATGAACTTATAATGAGTTTATTATATTATGTTATATTGAGAGGATTTGGAAACTCTATAATAGCGTTAAATTTTTACGGAACTGATATACCTACAGTGACTGTAAATTCTCCAATTCAGATTATTTATGCTTTGATCGAGCTTTCTAATTCGTTTATGTTTTTCTTAATGATATTTCCTGAAATAATATATTTTTCTTATAGAACTAAAAATCCATATTCACTATTTTTGAGCTCCTTAGCTTTAGGTGGGCCTAATATAGCTTCAGAAATGACTCATTCAATACTTCCCCTACCCTATGATCCTATAAAAGAAGCCTCAATTCTAGCTACAATACTATCTCTATTTTTTTCAATTTATTTATCTTTTAAATTCTTTAAAAGAGAACTTTCTTTGGATAAATATATAATTTTTATAATAGTTGATTTGTCTTTAAGTTTAAGTTCAGTCTATTATTCCCTTACAATAAACGAAATACCGTATGGTATAATCACACTTATTTCTATCTACTTATCACTTAGTGGACTTAAAATAAACATAAGACATTTTCCTAATATTCAACTATCTTTAATGATACCTCAGCTATTGTGGGGTTTTTCTATTGCAGTTTGGTATAATTTAATTCAATTTGAATATATATTAGGTATTTCCCTGGCACTATTATACGGATTGTCGCAATATGTCATGATTAAGTTAACATGAATTATATTTTCCTTCTAATTCTTTCCATTCTTATATCTTCTTCAAAATTTTTTAAAAAATCGTTAATCCATCTATTTATCAATGAGAAAGATACTCTTTCCATCCACCCCTCATATTCTAAAAATATTGATACTTTATTTGATTGAAGAGTAAACATTAGTTTTCCTGATCCAAAATCTTTTCCATGTCTCAAAGTAAATATACACGAAATTTCGTTTAATGAAGAATATACATTACCATTAAGCTCATGCTCTATTCCCATATACTTAGCTTTCCCATAAAAAGAAGATCCGTTTACTTTTAAATCTTTTATTGATTTAAATATTCTAGGTAATACAAAATTCGGATCAGAAAGTAATATCTTTAATGAATCCATAGTGTGTGAAGTATTTATCTCTGTGTGATATTTCACATTAAATAGAATAGTAATTAGGGCTAAAAAACTACTTATTAGCTACAGAATTTCACAAGATTAGTATTAGGACATTGGAAATAGTATGGGCTATTATACAAGGTAAAATTCCATATTTTCTAGAGACAAATCCTAACACTATACCAATTAAAATTGTATAAGCCACAAAAAACAGCCCGTCTAGAATATGATTAAACGACCATAAAATTGCTTGGATATATACATCATATTTACCGTCTTCTAAAATATATCCTCTATAAATACATTCTTCGCATATTCCTCCTATTATAGCAGGAAAAATCAATAATGGATAATTAAATATTATTGAATTATAAAGAGAATCGTAATATGGGAATATCATAATAAGAATAAGAATTATAGTTAGTAAAATACCTTTATTTATTGAGATATTTAACGAATTGTTTGTAATATTTTTAACTAATATTAATGAGATTATTTCTGCTAACGAGACTATTAATGCACCAAGGTATAATGATCTTTCAATGGAATATGCGTAAAATTCCCAAGGTATAGCAAGAATTGGTAGTATTATTCCTGAGAATAAGGATTCCATTCTCATATTAGTATTATTATAGTGTTTATATAAAAATATTATATAGATTAGTTAGGCATTGTTATTCTATAGCTTTTCAACTATTCTCCTGATAAGAATTCATTATTAGATATTTAAATTAAGTTTTAATCTAACATTCCAAAACAACATTATTCTAGAAATATTTTTATACAAGGTAAATAGCGAGTAATTTAATGGTAAGAATATTTATTGACCATATTCATACCAACAACGTAGAAAGTAAGGTGATAAGATGGATGGAATAGAATGGCTTAAGAGGGACGTTTTGCACATACTAGATTTGGTTCCGTTATCAACATCCAGTGTAGCACCTTCTTTTAGTATAGCCGCAGCTTATGGAAGCATGGTAGCTATAATGGGGCCTCAAGCTATAATGGCTGTAGTAGTTTCTTTCCCCTTTTTCCTTTTCGCCTCAATAATATTCCGAAAATTGAACAGAAAAGCTCCCCATTGTGGGGCGTCGTATCATTGGGGAACCAAATTCATAGGAAAGAAATATGGTTCATTTCAATTTTGGATTGTAACTTTAGCATATTTTCTTTCCTTACCTCCAATAATAATTCCTGCAGGAGAATATACTCTTGATCTACTTTTCAGACTTGGCCTAATTTCAAGGAGTATAGAACTTAGCGTATTTTGGGATTCTATTGTAGGAATAATCTGGGCAATTATAGCATCTGTACCTTTAATGCTTGGGGTTAAACCCACGGCAAGATTTACTGAAGTCTTCCTAATTATAGAACTAATTATTCTTAGTACTTTCATAGGAATAGGACTTTTGGCCTTACCCTCTCACGTAGTAAATTCTTTCAACTGGAACTGGTTTTTTAACGTAAAATGGTTCTCATCAAAGTTCTTTTTTGGATTAGCTGCAACTATGGTGATAGTTGCTACAATATTGGACGGTTGGGAAATAGATAGTTATGCAGCAGAAGAGTCTAAAAAACCTACTAGATGGCCTGGAACTTCAGGGATAATAGGCTTGATATCGGTTTTTATAATTTACATGATAACTATGCCTATAATGAATATAGAAACTCCAATAACATCTCTTTCTAGTGCAGTAGATCCTTTAGCAAGATGGTCCTCCTATGTGATTCCGCAATATGTATGGTTAATGGATATAGCTGTTATAACTTCTACCGCAAGTTCTCTGTGGTTAACTGCTTTCATATTAAGTAGAGCATGGTATTCTGGAGCTAGAGAAAATTTGATGCCTAAAATATTTGGCAAATTACATCCAAAATTTAAAAGTCCATGGATAAGCATTTTAATAATGACAGCCCTTGAAGTTTCTGTACAGACGCTGGAATTAACTTCTCCTACTGTCTCATCTTTCTTTGGTATTGTACTCACTGGTGCTGGAGCTTTTCTCTTAGTAGAGTTCGGAATAGATTCTATAACTGCGACTTATGTATGGTGGAAATCTCAAATTAACGACTATTCTGACATAATTCTAAGAATAATTTCTCCTATGACCGCTGTAGTAATGTTATCTACTGTATTTTTTGGAGTAATAGAAGCCGGTCCAGCATTCGGAATATCCACATTCTATTATGCTTTAACTATAGGTATAATGGCTTCATTTGGTATATTCTTCATTTTTAGATCTAAAAAAATGAATATAATTTCCCCTAAACTGGAGAGAGGAATCTCCTGAAATTCCCTAAATATACATTTTTTCCCATAATAGAGTTATCTAAGAAAACTATTTATTTATTAAAAATTATAGTACTTAACATGTCTAATATATCTCCGACAGGTATTTCTGAGAAAAAAATATCTTTTGAAGAAATAATATCAGAGTATTTAAAAATATGGAAAAATATTTACAACGAATTAGAGAAAAATAATATAAAGGCTCTTATTTACGGTTCAGTTGCCATCTATTATAAGTTAAGTAATTTGCCTGAAGCAATAGATTTAATTAAAAGCAATAGGAAGAATGGCCCTCAAGATCTTAATGTTATAGTACCTTTAAAATTCAGGGAGAAGTTTAAAGAGATTCTAATGAAAATGGAGTTTACGCCTTATTATCATCTAGAAGTCACTATGGGAAATCTAGCAAGTATGTTTCTATATAATCAATTCACAATTAAGGTATACTATATGGATAAAGCTGAATTTAATCATGATGTTGATATTGATTGGAATCAAGAATTTTCACTTAGTCTAACAGATTTATTGCTAACTAAGCTTCAGATTCATTATCCGACTGATAAAGATTCAGCTGATATTGCGGCTATCCTTCTAAAATACGATGAAATAGACAAGGAAAAGATATGCATTCAGACGTCAAAAGATTGGGGATTCTGGAAGGATGCTGTAGATAATCTAAATAATGCTAGAACCTATGTTTCAAGACTTCAGTCAAAGAGCGAGAAGCTAAAAAATATTATAACGGCCTCATTGAAGCTATATGGCCTGGTAAATAATTATCCTAAGCCTAATAATTGGAAACCTTTGAATGATGAAAAATATTGGAGAGATTTTTAAATGAAATATTTTCTAATATTCCTTGTATTAATTCCTTTTTTTGTTACTTATTCTCAAATAGGTTACATAGAATATACAATTTATTTAAATAATATGTCCACAGTCAGTGGTGTTACACCAAATTTTTTCTCTAGCATTTCCCCAACTTATATGGTAGTAGATTCTTCTGGATATGTGTTTGCTGCTGCAGTTAACGAAGTTTTCATCATAAATCCTTATGGTAAAGTAGTTGGAAAAATTGGGGTTCAAGGAGCAGAATATATATCGTATTGTAATGAAAATAATACTTTAATAGTTAGTAGTGGAACTTTACCTAATTTTACTATTTCATTTATATCTACAATTAATTTCACTATTATCAGGACTATAAATGTAAACGATTATCCTCTCTCGACATTGGAACACAATGGGAAAATATATGTAGGAACTTATGGGGGAGTAGGAATTTTAAACAATAGTAAGATAAACATTTTTGTAAATACTCCTGGACCCGTCGTTTCTTTAGCCTATTCTAATGGATATCTATATGCTGTAGGCTATAATTTTACTCAGAGTTATGGGTTCTTATTTATAATACATAATAATTCTGTCAAATCAATTATTCTTAGTACATTTCCTAATTTTATTTATGTATACAATAATAAGATTTACATTGCAGGAGACTTCAGTGTTATAATGATAAATCAAGAGAGTTTAAAAATACAGTATATAAATATTTCAGGAGAAAAATTTGAAGGAATAGTAGTAGATCCTAAAAATAATTTAACGTATGTAACTGCAGATAGTCTTTTCGGTCCTGATTATATTTTAGTTTTAAACGGTTCTAAGATATCTGGAGAGATTTATGGTGGAATAACTCCTATAGGAATAGTATTTGATAACGTTAGTAATTTTTTATTCATATCGAATTTCTTTGATGGAACAATATCGGTAATTTCTACTAATGGTTCTCAATATTATCAGGAAAATACTTATCAAATTCCAGTAAATCAGAATATTATAAGCAATAAGCCCAAGTTAGAATTTTATATTCAAGATATTATTTTCTTTGTGATAATTATTTTTATTATAGTTTTAACTTTGAGAAAGATAAGGAAATAGAATCAAGCATTAAGTGATTCTATTATCTCCTTTAAATCGCTTATTATCATTTTTTCTATTTTAGTGTTTAAATAATATCTGTAAATTGGTCTTCCTTTTTCTCCACTTCTTAATTTTTCCTTACTTACAAAACCGAGAGTTTCCAATATTTTTAAGGATCTAATAACTGTAGGCTTATTTTTATGAGTTTTATCTATAATATCTTTTATAGTAGCATTTTTCATTTCCTTTAAAGTTAGATATATTTCAATATCTGTATCATTTAGTCCATAAAGCATTCTTAATAATGAACTTATTGTCATTCTTTTACCAGACTTTGTTACAATCTCTTTTTTAATTTCTAGATTCTCCATAGTTGTATAATAATGTAAGTTTTTCCTTATAAATATTTTTCTTGCAATAGTTGAAATATAAGTTTATTATATTTAAGTTGCTATATAAATTTACAAAATATTTTTTTAGTAGTAATCAATCTTTGGGAATAATAAATAAATTATTTAAGAATAGAGTGAGAGACTTTAAATATGAAATTTAAAAAATGGAGAGACGTAATTAACGAAGGAACTCCTCTCAAATTATTATATTTCTATACTGATTGGTGTGAATATTGCGAAAAACAAAAAGAAATTCTAGATAAAATCCCAGATTGGGATAGTTTTTCCTATGCAGAAATAAATGCAGACGAGAGGCCAGATTTGGCTATAAGATATTCACCGCAGATTTATCCTTCAATTAGTATAATAACTGAAAATAACGTAGTAGGCGGACTATATGGTTACAACGATTCTCAACAAATTGAAGAAACTATGCTTATTGCTTTGGATCTTTATAATGGAGGTGGTAAACTATTTTCCGAAAAAAACCTAAAAAATGTATCAAAAAGGACTTATAATGTAACTGACGCAATAGATTTGATCAAGAGAAATTGTTTAGCATTTTTTGATATATATTATGGAGGATTCGAAAGAGAACCTAAATATTATCTTCCGAATGTTTTAAGATTTCTACTAAGAGATAAAAAAGATCCATATTCTCTTGAAGTTGTCAAATATACTGTTGACGCAGTTATATACAATTTATGGAACGAAGGATTTTATGCATACGCTAAAAAATATGATTGGAGCGAACCATCAAAGGAGAAACTCCTTGACATTAACGCAGAAATGGTAATAACTTTACTGGAAACTTATGAAAGAACTAAAGACGATTACTATTTAGGATATGCAATAGAAACAGGGAAATGGATTTTAAAAAATAGAGATAGAGAATTCTATCCTATAGCAGTAGGAGAAAATAAAGGAGGATATTATATGCCCGTTAATAGTGAAATAGGAGAAATGTTTTATTTACTTTATAAATATTCTAATATTTCGAAGTTTCTCGAAGAAAGTACAAGATTGGCTAAAATTCTCCCTGAAAAATTATCCCACAATCTAGAAAGTGATTCACCCTTATTTCTAATTGATATGGCATATTTACTAAGATTTTTATCATCAATGGGTAAAGGAATTGAACTAATACCAAAAATAAAAGATTTATTTTATGGCGGAGATGCTTTCTTTGACGTACCTCTTTCATTAGCCAGAGAAGAAAAAATTGGAAGATTTAAACTATTGACAGATAATTCAGTTCTAGCGCAAGCACTACTAAAATTAGGTGTTGTTAATGAAGCTACAAAAATAGCAAACTTCTTCCTTAAAAGTTTCTATAACTATACATATTTTTCTCAAGCAGAGTACGGTATGTTATTGGCGATGTTAAATGAAAATGTATAATATATATCTGAGTTTCGTCATAATAGGCCAAGTATTTTTTATTGCAGAATTAGCATCAATATTTCTATTATATCAGCTTTTTAACACAGAATACATTTATTTTGAAGCAATAAACTACTTTCTGCTATTTGCCATACAAATAATACTTATATTAACATTCTTGGTATATCTGAAAAATTCTAGACTTAAATTTACTTTACCAATATTACTTATCCCTGTTATAGGACAGATAATGGAAGGAATTTACGCCCTAATGATCACAAAAGGACAAAGAAAAATAAGACTTACTGTAATTTATTATGCATTATTCATTATTTCGGTTATAGCGTCAAGGTATGTTTACGTGCCTCCAGGTTTTCCGGCTCCGTTAAGTGCTCTTCAGACTTTTGGAATAACACTTGCAATATCAGACGTATTTAATGCATTACTTCTCATCTATCTATTCGTTCTTTTCAGAATCTGGGACAAGCAATAGTTCCTTTAACTTATTCTTCATCATGTCCTTACATTCCTTTCCCCATTCACTTAATGCGATTCCTTCTTCATTTTCAACTTCACATTCAATAATCTTAGTATCTTTAGGTAGAACGCCTAAAGAATTGGATGCTTTCAAAAAAGAATCCAAATCCATATAATAACCTCTTAAATTATTATATAAGTCCATAATAGACGACATTTTATCCTCTTCGATCTTAGGTGAATATATCCTTAATTCTTTCTTTCCTTTCTTATCACATGTTAGAATAATTAGCTTATCTGGTTGTAAAATCTGAAGTAAGGAAGCAGCTTTTAATGCACCTAAACTTAAATCCATAACTTCAATTCCTTCCTTTTTTAATTCGTCAATTAGAATTATAGGTATCGAATAATCTCCCTGATAGAGGTAACCTAGGGCTGCAATCAAATTTTAATCACCTATAATTTCCACAGAATCTAAAGCTCTTCTAAATTCGATAGAATTCATTATTTCATAAGCATTTAAAGTATTTTTGTCTGCACCCTTAAAGACTCCTATTTCCAACGTAATCGTTTTATTCATGTCCATGTATTTAAAACCATTTAATTTAGCTTGATGTTCCCACATTATTCCAGCTTCTACTTTTCTTTCTTTCAGCAAATAGTATATTTCTTTCAATTCATTGGTTGTTATAATTTTGTTTTCGTTCTTGCATCTTATTTGATAAATATCAATAAAAATACTACCTATCGTAAAATATTGTGGATTAGGAACTGCTATGCTATTTGGTTTACATATATCCTCCTTTTCTGTAGCCATAGACATTCTAAGTTTTGCGTAACTGCGTTTAAGTAAAAGCAAATCCCATTCCTTTAAAGCTTTCATCTGATTTGTTGGTAAAACAACTATTTTAGGTGATTTATTTATTATTAAATTACCTATTTTAATTTTTTCATTAAAAATCTGTTTAAATAATATTTCAGATGGAAAACTCTCTATAAAATATGAGATGTAATTATCATCAAATATTTTCACTAATTTAGGTAAAAATTCTTTTAATGAATTATCAAAGAATATTGTCAAGTTAGCATCTATATTTCCCCATATATCTTCTAAATTATTAGAACTTGAGGTTAAATCTATCATTATTTTCTAATTTATCTGTTAAGCTAATAAGCTTAAAATTAAAATGATCAATAAAAAGAATATTTATAAAATAATTGATTATCAAGAATATCAAGAAAATCCTAGTTATTAAGAACTTATATTAAAAAAATTTATAAATATGGTATCATAGAATATACCAGATAAATGGTGAGATAGTGGGATTAACAAGAAGGGAATTTTTAAAACTATCAGGAGTAACTGCATTAGGTACTACACTAGCGCTTAGTGGATTGTCATTAGACGAATTAAGAGCAAAGGCACAAGATTCAGACCAACCTATAAATATAATATGGACAGGAAATGGATGGTGCGGTGGAAACACTATAGCATTTATAGATGCTATGAATCCCTCTCTAGAAAACGTCTTCACTGGAGTATATTTCGATGATAAAGCAATAACATTAAGGCAACCTAGCATCTCAGATTTAGGCAATGTGAATTTAGTTTATCATCCTATTTTAATGCCTCAAGACAGCATGGCCTACGCTACAATGGAAATGGCATTAAATGGAGAGTTAGATCCATATGTCCTAGTAGTTGAAGGAACACTTTTTGATGAGTTCGCATTATATCCTAGAGATGTTTATAACGGAGTGCCATACACATATAAGAAAAATCAATTCTGGTGCTCTGCTGGAAGAAAACCTGATGGTAGTGTATTACTATGTGAAGAATTTGTATTTAACCTAATGAAGAAAGCTTACGCTGTCGCTGCAACTGGAGCATGTGCTACTTACGGAGGAATTCCGGCTACTACTAACGGATTAGGTAAAAGATCACCAACATATGCAATGGGGATGCTAGATGATCCTTATAGAGGTATATACGGATTCCCATATTATGCATATCAAGTTTATCAAAAAGACCTAGCTCCAGATATAATTGACGAAGATATATTTTCAGTTACAAATTCTACTGTAAATACCTCATGGCCAGGCCCTAGTTATCATTGGAAATCAGTAGGAGGATTACCAATTATTGCAATTGCTGCAGATCCTCCAGCAGGTGATTGGATAATGAAAACGTTACTTTCAATAGTACTTTACGCTAGAGGAATAGGTCCCAATCCAGCAGATGATTTAGATGTGTTTAACAGACCTAAATTCTTTTATGGAAACGAGACACATCAGAACTGTCCAAGAGCCGGATTCTTTTCTGAGGGAGTATTTGCGTATGAATTTGGTGATCCTCAGTGCACTTATAGTCTAGGATGTAAGGGAACAGAAGCTAATAGTCCTGCGCCTAGATTGGGATGGCTAGGAGGAGTTGGAGGCTGCACAAGAGGCGGAGCATGCATAGCTTGTACTGCACCAGGATTTCCAGATTTATATGAACCTTTCTACGCTCCACCTAACGCTCCTACGATCCCTAGTACTACATTATTTGCTGCAGCTGCTGCAGCAGGAATAATAGTAGGTGTAGGTAGTTATGCATTTTCTAGGAGAAGAAGAACTCCACCAGCATTAAAACAAACGGAGAAGAGGTGAGAAAAATGGCAACAACTCCCTATTATTTCACGTTTGATTGGACAAAGCCAGTATTAATAGAACCAATAGTTAGAATAAAACCAGAATTAGGAATTCAAGTTACTTATGATTTTTCTACAAATAGAGCAAACGACGCTTACGCTGCAGCAGGAATGTTTAGAGGATTTGAAATCTTCATGAGGAACAAACCTGGACCTGACGTTATCATGTTATCAAGTAGGGAATGTGGAATATGTGGCGAACATCATCAATATATAGAGAGAATAGCTCAGGAAATGGCTCAAGCAGGAAATGCACCTCCGCCTTTAGGATTGGAGGGAATAGTTTTAGGAATAGATGCTGCAATGACCTACGATGCTACTGCACACTTAACTGCATTAGGAGGACCAGACTGGAGTTCATTATTCTTCAAGATAGCAGGATACTTTCCAAAAGAGATATACGAAATAGCCCAACAGACACCATTAAGTAAGGTTGCACAATATTCTGAAGCATTTCCTATGGGAGCACCAACAGAACTAGAGATGGCTGGAGTTAAGATAAAGACTGTATCCGATATAATGGATGCTTTAGTTCCTATAATTGGAGCATATTTCTTGGAAGGTGCATATTCATGGAGAATACTCCATGAAGCTGAACTTCTATATTACCTAAGAATTCCGCATCCCATAACTATGGTTCCTGGAGGCATAGGAGTTCCACCAACGGTAGAAAACTTGCAGAGATACCTACAGAGAATGATCAATGGAACAGCATGGTTAATGAAACAAATGGCTGCATACGAATATTTAGATTTGTTCTTGGCAGATTATAATAACGTATTTGGAATTCAAGCTCTATATGATAAGCTAAATGGAACTTTAGGTTTTGCAGAAGAGGGAAATAGACCAGGGAACTTCGTATCATATGGACAAAGCGATGTTTCTGAGACTCCTTCAGTTACACCTTCAACTACTAAAGTAGCTCCTTATGATGCTACGTACGCAAATATGGGAGCATGGGGGAGAGCAAGAGTAGTAAAGCCTGGACTAGTTATTCAACAATCTGCTTCATCTCCTCCAACGTTAGTAACTAATGATCTTATAGACATTAACCTAGGAATAAGAGAGTTTGTAGAATCTTCTTGGTATAATCCTTGGTATAAGGATGGAAGTTTTGCTTCAGAAGTTCCCTCTGAAGTAGCAGGTATAGAAGAAGATCCTATAGGGAATAAGGTAAGCTATTATCATCCATGGAGAAAATGGACAATGCCAAGTCCTCAGCCTAGACCAATACCCATGGCATATCCTACTCCTTATTCATGGGCAGTATCACCTAGATTTGTACCTTATCAAGGATATAAGCCTATATCTAACTTGTACTATAATGTAGAAGCAGATCCTCAAGCTGTAATGTATGCTCAAGTTCTTCAACCTCAAGCTCCAACACCTATATATTCATCATATTATTCGGTAGCTGGCTTAGGTGCAGAATACAATAGTAATGAAATGAGCGTTAAATTCTATTTGCCTACAGTAAATACTGAAACTGTTAAGTTACCTCCAGAGTTTCAACAAGGAAAGGAAATAGAGTTCAAATACGTAGCTCCATATAAACTTTCTGGAGGAAAAATAGTAACAAATGCTATAGAGAGAATGAGAGCAAGAGCGTTTGAGGCAGGATTAGACGGAATGGGAATGTGGATAGCCTGGTTTACTGCAATGAAATGGTTAAGGGAAGGTAAAACGCAAGTTAGTAGTATGCCTCCATCAAGCTGGACGTACGTAAAGAACACTAATCAAGACGTGGCTATAGGTGTAGGTATGAAAGAAGCTCCAAGAGGAGCACAATATCATTCAGAAGTTTTTGCTACAGGTAAAGGAGTTACTGTGCCAACAATTAATCCTCAACAGATGCAGCCTACTACTGTAAATGCTGGTCCCAGAGTTAAATTAACATATGATGACGGTATACAAACTATAAAGCCAGCTTCTCCTACTCATGGTGCTGGAACTTTTGAAGAAACAATAATGGGAAATCCAGATTATAATATTCTAGGAACTCCAAGACTTACAATAATTCCTACTGATCAATGGGACGGATTCGAATTTGCTCAGACACTTAGATCTTTTGATCCTTGCTTCGTATGCGGTGTTCACATGGTTTTACCAAATGGTAGAGTAAGATTCCAAACATTAGGAGCTCCAGTAGATCTAAGTAACGTATTAAAAGTCTTCTACAGATATGCAGCACAATTAAGGTGAAGACAATGCTACCAATAGTATATGCTATAGGGGCATCTTACGGTTCAGACGCTCTTTATTGGTGGGCATTAAACGTTATTTTCCCTGTAAGTTTGCTTATTTTTGTCTTCGGCGTAATTTATAGAATATCAAGGTATTTTATAGGAAGAAGGACTATAACTTATGCGTCTGCAGGATTCGGTTCAGAAGTTAAGGAAGCAGTTAAGGGAATCCCAACTCCTTTTGCTGCTGCAGGTAAAAAAGATCCATTCCTTATAATAGAAACTATATTTTGGCATATCTTCGTTCTTGGAGTAATAATAATTGTTGGTATTCATATTATAGCATGGAATTATATCTTCGGAGCTATTTTCGGAGTCTCTAATCCACTCTGGTTCTTATTTAAAATATCAACACCAGAACAATTTACTTCGGCATATCAAATGGGTATTTTAGGGAGTAATGCATATTCTCATGGAGGAATACTTAATCCATTAGGTGCGTGGAATTCTGCAGAAGTAGCTACTTCAACTTTTGATCCGTGGGGATTTCTATCTGTTCTGGTTAATGGTACTATGATGGCGCTAATAGCTTTAGCGGGCTTAGTAGGATATTTAACTACTAGAATAGTTGAGGATATAAAGGGAGATAAGAGGTTAAGCTCCGTAGGAGATTATACATTCTTAATATTATTATTATTGATAATAATTAGTGGAATAGGCGCTATGTATGATTTCTCTATACCATACTTAGGAATTCCAAATCAAGCTAACTGGTACGGTCTTCATATAGCGCTAGTCGGGGCTTTCATAGCATATATTCCATTTAGCAAGGGCTGGCATATGTTCGGTTATTATATAGGCAAGGGATTCAGAGGCTATACCTATGGGAGAAAAAGAGAATAAAGTATGTGGGGGATTTAAGGTGGAAAAAGGAAAGGTTAAAATTCAAAGACCGTTAGTTTCAAGAATTTTCGATGAAATGTCTCATTACGATGTTTGGGGAATACAGGAATGTATGAGATGTGGAGTATGCAGATTTACATGTCCGTTCTGGCTAGTAACAAAGAAGGGTACTGATGTGCCCGCATGGAGAACTTATGAAATAAATAAGATGTTTTCAATGTTTTATACGGGTTATGGAACAGTTGCAAGATATTTAAGACTTAGGAGAATAAGCTCTAAAGAGTTTAAGAGTTGGGTCGATTCGGCGTATAATTGTACTGCTTGTGGAGGGTGTACTGAAACTTCTCCACTAGAAATACCAAACTGGTATACTGCGTTATTATTAAGAAGGGTTCTGCATTTCACTGGGTTTAATCTTCCTGAAGTAGAGACATGGGCAGAGAACACTAAGAAATTCGGAAACGCGTTTGGTTTGGAGAATGAAAAATGGGTAGAGATGGCTAATAATTACGGTCTTCCAACGGATTCTAAAGATTCTGAAGTCTTGTATGTTCCAAGTGCGTTAGAAATAGTACAAGGTTACATTAACGAAGTAGGAACTATCATGATGAGTATGAAAGGAAAATGGACAGTTAGTAGTAAATTAAGTGATATAGGATATTATGCATATTTTGCAGGAGATTTCGAAACTGCAAGGGGTCAATTTAGTAAAATATATGAAGAAGCTAAGAGACTGGGAGTCAAAAAGATTGTAACTTCTGATGGAGCAGGTTACTTTTTCCTTAGATGGCAAGCTCCTAAGAGTCTTGGTTATAAACTAGATTTACAAGTGGAGCATCTAACAGAAACAGTTTATAACGCCTATAAGGAAAGTAAGATAAAAATAGATAAAGCAGATTTTAATGACGAAATTACTGTTCATGATTCTGAATTCATGAGTAGGTTAGGAGGTCTAGAAAAACCACCTAGAGAATTACTTAAGTTATCCTTACCTAAATTTAAAGAACCTAAACCTTCTCCATCATCTTATAACTTATTCACTTGCGGCCATCATTTAGAACTTATAAGAGATAAACAGGATATAGTAAAGAAAATGAGAGCTTATGCAGCGTCACAGTTAGGTAATTGGGCTAAGTCAGTAGTAACGTTTGATCCTAATTGCAAATTATCAATAGATAATGCAATAAGAGATTCACAAGGCGTAGAAAAATCCTATTATTATACAAATATATTATCGAAGGCGATTAAGAGTTGAGCTTTCTTATTAGATATTTATTTAAACAGAGTGGAATAGAAGATACAATAAAGGAAGCAATGGAAGAGATTACTTCCGATAAGGATTTCTTAGATTTGATAATAATTAGACCGTCTCCTCCTTCTAATTCCAAAGAAGAATTAATGAAATTAATAAAGAATCTTGGTTTGGACATAGAAATAAGAGATTCAAAGAATACAATAGATCCAATAAGGAGATCAACGGCTATATCTGCTAATGTAACTCCACTAGATATAGAGAATCCTATTGAAGTTTTATGGAAAATTGGAGAACATTTTAAAGGGACTAAATTTGGAAATTCTTAAGAACTCAAATTCAATCATTTTTTCTAAACCTTTTCCTTTTCAATTCATTAGAGAGTATTTTAAAAATGATAGCGATTACTTTACTGCTGGAAACGTTGAAGTATTAATAGAAAAAGAAGAGAAAAGTGAGGATTATACAAAATCGATATTGTTTTCTTCAGAAGGAGAAAAATCTCAGGAAATCTTTGATATGTTCCTAAGGTGGTTATCACTAAGAACTAGAGTTAATGAGTTTGTCTGGGCATATCAAATAAATTGTATAATTAAGGAAAAAGTAAATTTAAAATTCAATTTTCCTTCAGTCTTACCAATGGTAGGTAACGTTATGTTAACAGGTTTGATTTTAGCTAACGTAAAAAACTTAGATATGAACCAAAGAAAATTTACTATCATACAAATAGATAATGATATAAAAATAGTGAAACGTGATGAGAAATATATAAGTATATCACAAGTAAAGGACGAACTGAAGAAATTACTTTACGTAATTAATACTTCTAATTTAGGATATAAAAGTTCTTAATATTCTCATTAATAATACGATTTATGAATGCTAATTAAAATAAGTGATACAATATTTTAACCATAAAGTAAATATCCTAACGCAGAAATACATCATTACTTTTAGTATTTTGTAAAAACAGACAATAGTTGAGTTTAGTTTTATATCTTTAGTGTATAAACTTTACATATGGAAGTAAGAAAGAGGAAAACTAAGATAATAGCAACTTTAGGCCCGTCTTCTGAGAATTTTATAGACGAATTACTTAGAAACGTTGACATAATTAGGATAAATCTAGCTCATACATCTTCTATAGAGAAATACGTTAATATGATAGAAGGAAGAGTTCCTATTCTCTTAGATCTTCCTGGATCTAAATTTAGAATATTAAATGATAATATAATAAGTGTAAAAAAAGGACAGAGGCTTACTTTCGGTAATGAAATAAAAGTAGATGATAGTTTTTATTCACTAGTTAATGATGGAGACTTATTGACTATTGGAGATGGAGACTTAAAAATAATGGTAAATAAAGTTGAGGACAAAATAATTGGAACAGCTCTAGAAAATGGAATCATATATCCACATCGAGGCATATCTTTACCTAAAGAGATGCCATATGGAGTTACTGATAATGACTTAAGGTTGCTAGATAGTATTATGAGATTCGATCCAGATTTTATAGGAATTTCATTTGTAACTTCTGAATTGGATATTAAGAAAGTTAAAAATGTTACCAATGAAAAAAGTTGGATAGTTTCGAAGATAGAAAGAAAAGAGTCTCTAAATAATTTAGTTAATATAGCTAAGCTCTCGGACGTTCTAATGATAGCTAGAGGAGATTTGGGACTAGAAGTAGGCCTAGAAAATATTCCATTTATACAAAAATATATTATAAAATTAGGGAAAAAGACGAAGAAACCAGTTATTTTAGCTACACAAGTACTTGAATCTATGGTTAATTCTCCAACTCCAGTAAGAGCAGAAGTTATAGACATAGCGAACTCGATTTCTCAAGGAGTTGACGCAATAATGCTCAGTGACGAAACTGCTATAGGAAAACATCCATTAGAAGCTACTCAAGTACTTAATAAACTAATTTTAGGTATTGAAGGAAATATTAAAATTAAAGTTCCTGTAAAAATAGGAAGCTTGGAGGATTCAATTTATTTTTCAGCAATTATGAGCCTAAAGCTTAGTAAGGCTAAAGCACTAGTAATTTATTCTCCTTCAGGTAACGGAGCCATTAGAATTTCTAAGTTGAGACCTAATGTACCAATTATAGCATTAGTAAACAAGAACATTGAAAGAAAATTATCCATAGCTTTTGGAATATACACCGTTAAAATTGATCCTATCAACAGTGTAGACGAACTTATAAAAATAAGCAGAATAATTTCTATAGATTCTGGTTTAGCTAAAAAAGGAGATTCGTTAGTTATAACTGCAGAAAATTCAACAAAAATTGGTAAATTTATAAAGATAGAAGATATTAGGTAATACAATTAACTATTGGCGCACTACTACCGTAAGCTTCATTGATAATCTCCTGTAAGTAGCTTGCAGCGTTTACTAGAGTAGTTATATTATACATGTTTTGCATAACGTAAGTTATACTGTCTCCTTTAAGAACATTTGGATTTACAAGAGGAGTAGTTAGAACGTATGTACCATTAGGACCTGTTATTATTAGACCAAAATTGAGATGAGGTGGACTAACTATGTATGCAGAGGCGTTATGATAGCCTTCAACTGGAACTTGAGTTTCATATTCTATAAATAGCTTAGAAATATTTTGAGGAAGACTCTCTTCAAGTTCTTTCTTTCCTACGCTTATAAGATTTTGTACTGAAACTGGAGTTCCAGTCGGTGTAGCATTAAGATATTCGTTATAAGTATAGACTACGTTAAATTCTAAACTTGAATTCGGTGTAAATCCTGTAAATATTATTCCTGGTATGTTTGCAGCCACTTTATCATAAGGATCAGAATAGTGAGTATAATAACTTACTTTCCCATAGTGAGAAATTATCATGTAAATAACCCACGATGCTGTAGCACCTACTGGACATCCTATCCAAGACTGTTCAAATATTTCAACTTTCCCTGGTGGAGCATAATCTACATTACTTACTTTGATAAATTTACCAAAAGGTACTGTTTCAGAGACAGATTGACTACTCGTTTTAGGAACTAGCTCATAATAACTAATTCCAGCTATAATCACAATTAAAGCAATTATTGCAATTATAGTTTTCTTCATCATTAACAGAGTATAAGAGAGAATTTAAAAACCTTTATATATAGAGAGTTGAAAAAAGATTTAGATTTATATAAAAGTCATAAGATATGCTTAAGCATGAAATTACTTTCGTTCTCACCCACACCCATTGAAGAAAAAAGAGTCGGAATATATAAGAACGGTAAAGTTATAGATCTAGTTAAGGCCTACCAAATAATATACGACGCTGAGCCTCCAAACTGGTTTTACGATATGAAGAAATTAATTGAAGGTGGAAATGGACCTCTATACTTAATAAATAAACTCATGGAGGAGAATGAAGAAAAGTTATCATTGGCTACCTTGGATGCGGATAAAATAATATATTATCCTCCCATAGATAATCCAGAAAAAATATTTCTTATGGCAGTAAATTATAAGGCGCACGGTCAAGAAACTAGTACTTCTCCACCAAAAGAACCATATTTATTTACAAAATTCAATAACACGTTAATAGGTCATAATCAGTCCGTAATAATTCCTAAGTCATCACATAAGGTAGATCACGAAATAGAGTTAGCAGTAATAATTGGTAAAAAAGGGAAGTATGTAAATTCTTCCGATGCTGAAAAATATATTTTCGGATATACTATTTTAAATGATATCAGCTTTAGGGATAAGCAATTTCCATCAGAAGGGCCATATGGAATGAGATGGGTACATGGAAAAGGTATGGATACTGCAGCTCCATTGGGTCCGTGGATAGTTACTAAGGATGAAATAGTAAATCCGCATAACCTAAAATTAACGTTAAAAGTAAATGGTGAAATTAGACAGGAAGGTTATACTGAAGATATGATTTTCAGAATTGATAAAATTATAGAGTATGTAACTGACGGGATAACACTTAAGCCTGGGGATATAATATCTACAGGAACGCCTCCAGGAGTAGGATTAGCTTCTGGGAAATATCTTAGGCCAGGGGATGTAATGGAAGCTGAAATATCTAACATAGGCGTACTTAGGAATTATGTAGCAGAAGAGAAATAAATTCACGAATCTTTTAGCTATAACCATCCTATTTTATGCAAGTATGCAGTTAGCATAATTGCCAAGAATACTAATGGGGTTAGGAAGTACAGCGTATCTACTGTAGAAAAGTTAGAGGGTAAAGACGAGTAAGAAACAGCATAAATACTTGCAATAGCAGTTACTGGCAAAAATATGAAAGATATGGAAGTTAGTTTCTTTATAATTATATTTAGTTCGTTTTGAACCTCAGTTAAATAAATATTATACAAATCCGATGATCTTGTAATTAATATTTCAGTTCTTTCATACGCAAACGCAATTTCGTCTTGAATATCTTTGCTTATATATTTAGATAATTTCTTAGATACGTAATAAAGCGATGAAGAATCTGAATATAATGTCTGAATCTCTTTTCTTAAGTTTTTTATTGACGTCAAATCCTTGAGTTTACCTTCAGTTATACTGTCGAAAAGTGCGTCAAATTTCTCAAAAAGCTTTGTTCTTGTAATTCCTAAAGAATAGACTACCTCATCTAATATGCACTCTACTAACTTGTTAGATTCACAATTATCGAAATCAATTTCCTTTATCATTTCATAAATCTGTTTTGAGTATACTGTTAAATTTCCATTTAACAAGGATAAATATTGCGGAACACCATTTATATCGATCCTAGCGTAAAACCCATTATCTAAAAATATTACTCTATATATGTTTAGGTCATCTACTGAAATTGTAGGAGGTAGTTCTTGGAACTTTACTTCGCATTTCATAGAATTTAATGCATATAAAAAATATTAAACGTTGATTCTTCGTTAGTATTATCAGTAATTGCTTATCTTATATTTTTTCTATCATTAATAAATGGAATTTTATGGAATAATTAATGTAGTTTTTCCCAACTAATTTTATGTACTTTATCTAGAATATTATCCTAATCTAGAATATTATCCCAAGACTAAGGATACAATTTTTTGGAGAAGTACGAAATTATTTCTAAGTAAATCTTCATGTGAAATCATACAAAACGTTTTTGTGAATCTAAATAAATCTCACAACACTTATAGTTAATTCTGATTCTAGGAACTCTAGAATAATAGTATTGCATAAGAAAACTTGGCTATTGAATATGATGTTTTATGTATACGGAATCTTTATATACGGAGCTTCCGTATATAATAATTATGTCAGACGTAATTAGTGTAAGAGTATCGAAAGAGCTAAAGAAGAGAGCACAGGAACTGGGAATTAATATTAGAGAAGTGGTGGAAAAAGCCTTAGATAACGCAATAAGGGAAAAAGAGAAGGAAGAAATTAAGGAAACTACAATGAAAATTAAAGAATTAATGAGAGATGTAAGCGAAGATGACTGGATAAGAGATATTAAGGAGAGCAGAAATGAAAGATAATGAGTTTCTTTTCGACGCTTCGGCTTTATATTCGCTCCTAGATTATTCAGATAAATTAGACTTTAAGAGAAGTCACATACTTACATTAACCCTTTATGAGGTAGGAAATGCTATATGGAAGGAGTATTATTTACATAAAAAGGTTAAGGACCCTATAACTCTTTCGACGCTTTTTTATAAGTTTATGACAAAATTTAACGTAATAGGTAACCTCTTATTTGAAGGAGTGATGAAAATTGCCGTAGAAGAAGGTTTAAGTTATTATGACGCGTCTTATGTATACGCCGCTAAATCTTTAGGACTTGTCTTAGTATCCAATGACAAAGATCTGATTAGAAAAGCAAATGCTATTTCTTTAAAAGATTTCATTAAACTTATATAATAATTATATAATGAACGTACATACATTAGTTAATAATTTTTCATTCTTATATAAAAAAATTAAATGCGATCCTTTATGTAATTTTTCACAACTAATATTCAAAGGATTAAATGAAGTAAAAATACAGTGAGATTTTCAAGATAGAAGTAAGGAATGATACATAGATTGTGAATATTTTGTAACATACGATAAAATATATAAATTAGAATGAGATAAAAAACATGATAAAAATGAGGAAAGTTTGGATAGGGATAGTAGGAATTATATTAATTACTATTGTTATTCTTCTCGTATATCCTTCCATTTCTTTCCATCAAAATCTTGTCCTAGGAAAATTTTTTAAAATAAGTAATAAAGACTATGCTCCAAAAGGTAAAATAGTAATATGGTTCGTCACGTGGGTAGGATGTCCGGTAGGCGCATCGGATAGTTGGATACTTTATAGTTTTCTTCACAAAAATAACGTTAACGTTAACATTACACTACACTATTCCGACCCTAACGATAAAATAGGTCCTTTACCTGGGATAGTTTTCAGTAACGGAATTCCTAACACTTGCGTTCCATATAATTACTCCTCTGGAAACATTATTTTTAGTGTATGCTATATGATGAACGAATATTTTAACGAAACACCAAATGGAATTCCAGTATTACCAAATAATATCCTAAATACTGAAATCAAAGAAATTAAAGACGTACTTCCTCAATGGGTCTATTCTTTAGTATATTATTATAATGTTAAGGCAACATATAATATTAACGGAAAGACAATTTCTCCATCATACTATGTTAACCCTCACCACATAATTTCCACAATAGTTATTTCAGGTAAAGGAGGAACGTGGATTATGGTAGGACCAATGTACAATCTAACAGTTCTAAAGGGATTAACATATGAATATGTAATGCATAATTTGTATAATTTTTCGTGGTATAGAACTTCGTATCAAGAATTTTCAGAAACCGTAAATAAAGCTCAAGAATAGCATTTTATTATGTACCCTTATTTTTTATCTTAACAACGGGTTCAAAGGGGGCGGAAGACTCCATCCGTGGAGATAGATAGCTCCCCTTGTAAGGCTTATATACGTCTTTTTCAAATACCCTATTAATGTCTGACGTAGGGTTACGCTTTAGAGCGTACTGACGAAGAAACGTTGAGGGCGTTAAAAGCCCAGTTGAGGTTATCATGTGAAGTGTACGACATCCTACGCTGAGCAGATGCGTATTTTCATGAAAGAGATGGAAAAGGACTCACTAAGACGGAGTTGAGGCAACTAGCCCTCGACTTGAGAAAACAGGATGAACAGTATCAACAAATATATTCCCAAACACTGCAACAGATCGCAGACAGGTTCTACGATGCAAGACAGAGGTTCTTCGAAGGGATAGCACGTTACCCAAAAGAAATCACACAAATGGTATTGGTAGTTGACTTTAGCTTAAATATAAAGATTAGTTAAAGATGTATTCTATCTAATATTTTCGTTTTTCAAATTCTTCATCAATGTATTTTATCTTAAATAATATAAAAAACGAATAATTTTGGGACGTCCAGTGCTATACTTTACACTTAAGTCAATTAGTGACAAAAGCTACACTTGATAGTGCATTATAGAGATGTGACTAATATGTTTTATATGAGCGATTAAGCGTACAACAAAGGAAAAATGATATATTCATAATAAAATATGTATTAGATAGCTACTTATTTTTATGTGCAAAAATTGCACATATAAACTAAGAATATAGCCTATGTCAACTATATTATGAATAGATGATATATGATCCCATTTAAAACAGACCCTACTTTTTATCCATCTCCTAAGTCAGCTATGAAATCGAAACCAGAAGATCTAGCTTATGTAGCGTGTCTATATGAGGGAACCAAATTAGATAGACCAGACTTTATAGCTGTAGTTGACGTAAATCCGCACTCTCAGACGTATTCAAAAGTTGTAGGAAAAGTAGAACTTCCTTATAAAGGAGATGAATTGCACCATTTTGGTTGGAATGCTTGTAGTTCTGCATTATGCCCTAATGGAATTCCTGGAATTGAGAGGAGATATTTAATAGTTCCCGGTTTAAGATCATCTAGGATTTATGTAATAGATACTAAAGAAAATCCTAGAAATCCAAAGATAACTAAAATAATTGAGCCAGAAGAAGTTAAGGAAAAATCAGGATATAGTAGACTTCATACTGTTCATTGCGGTCCTAATGGAATATATATCAGTGCTTTTGGTAACACTGCTGGTGAAGGCCCCGGAGGAATATTGGTTTTAGATCATTTTAGTTTTAATGTCTTAGGAAGATGGGAGATAGATAGGGGAGACCAGTATCTAGCATACGATTTCTGGTGGAATTTACCAAATGAAGTAATGGTTACAAGTGAATGGGGAGTTCCAAATACTATAGAAGACGGTTTAAAAATAGAACATTTAAAAGATAGATATGGAAATAGAATACATTTCTGGGATCTTGAAAAAAGGAGAAAAATACAATCTATTACCTTAGGTGACGAAAATAGAATGGCATTAGAATTAAGACCTTTCCATGACCCTACAAAGCTTATGGGATTCATAAATATGGTAGTAAGTCTAAAGGATTTGAGTAGTTCTATATGGCTATGGTATTATGAGGGAGGAAAATGGAATGCTGAAAAAGTTATAGAAATTGAAGCAGAAAAAAGCGATACTCAACTCCCTGAGATATTGAAGCCTTTTAATGCAGTTCCACCATTAGTTACTGACATAGATCTATCATTAGATGATAAGTATCTATATGTAAGCTGTTGGGGAACTGGAGAAGTTAGAAAATATGATGTAAGTAATCCATTTAAACCATCATTAGTAGGAAAGGTAAAACTTGGGGGGATTGGTTCAAAAGAATATCATCCTTCAGGAGTAGAACTGAGTGGAGGTCCTCAGATGTTAGAGGTAAGTAGAGATGGAAAGAGAATTTACGTAACGAATTCATTATATAGCACTTGGGATAATCAGTTTTATCCTGGCGGGATAAGAGGATGGATGGTTAAGTTAAATTCGGAAGATGGTTTGAGATTGGATAAAGAGTTCTTAGTTGATTTTGGAGAAGCTAGAGCTCATCAAACTAGATTGAGTGGAGGAGATGCAAGTTCAGATTCTTATTGCTATCCTTAGTTTTCTTTTAGGAATTACAGAAGGTCTTAATGTCTATAAAGGGCCTCTTTTTTCTTTATATTTGAGAAAATTTAATAGAAAAATTGAAAGTTACACATTACCGTTTTTTATGATAATTTTTATTTTGTGGACAATTATTTTCGCTAAATTCAGCATAACATCTGTTCTCATGGTAGGTATTTTTATTGTATTAACATATTTAATGAAACTTCTTATCTGGAAGTATCATCATTACACTGGAAGTTTTAGTCCTAGTCTTATGACTGCAATAAAATGGGTATTAATAAACTCTTTAATAAACATGGAATTTATTCTTCCTTTATTTCTGGTATTAATGAACGTTTTATATTATTTTATTTATATTATAGCAAATTTTTCACCTAAAATTGTCTTATCGATCTCTAACGAAGATGTTTTAAGAGGATTTGCCATGTTGAACATGGAAATAATTAATATAATACTTGGGATAGTATTAGGGCTAATTCTAATTTTAATGAAGTAGTAACTAGTGACTATTCTATGTGTTAAAAGTTAATTCCATAGAATACTCTGTTAATTGGACTTATATTTTAACTACTTAATAATGTATATTTTAAAACTGATGAAAAATTTTATATGTTTAGCATTCATATATATTTGTTTAGTTAGAGAATTTTCTCTCAATAGATACATTTTAACAATACAAACTTTTTTATGTTTAATTTATTCATAATATATTAGATTTAATAAAAAAAGACTGATTTTTTAGAAGGTATTTACCATGATTATGATTGTAAAGAATATACTTTTCATTCTACATAAAATCTTTACTGATTTTACTTAAATATGCTTTGTAACTTCTTACTTGATATATAATTACATTTTTTAATGATACATTTCATTAATCATTTTAATTTATATCATAACTTATCTAATACAAATATTTAAATAAAATAAGTCATGTTCTAATACATATTTTATTATACCTGTATCATATTTTCATACTGTAATATCAAAAGGTGAGAAAAATGATCCCGTATATTATATTTATATTATCATTAATTTTAGTATTAATAACATTTTTAATGAAGAAAAAATTATACGCAATATCGTTATCAATAATTGCGATAACTATTAATTCTTATTTTCTTTTAAAATCAGGATTATTTACTAACTTCTTTGTTGGAACAAGAATAGGATCTTTTGGATTTACCGTAAACAGTCTAAATTATCCATTCTTGATTACAATACTTATTGTCTCAATACTCACTCTAATTTTTTCTTCTAAATATTTTGAAGGCAGAAAAATCAATTGGGGATTGTTCTCTGGATTCTTTTCTCTTTCGTCTGTTACATTAATCTATACAGTATTATCTACAAATCTCTTAGAATTATTAATATTTTTAGAAGTTTCGATTATTTCAGTATTCTTCCTAATTCTTCTTTATGGAAAAGAGGACAAAGAGAGAGCTTCCAGCATGTTTATATTATGGTCACAGATAGGAATGAGCCTTTTATTAGCCTCAATAATACTCATAGGCATAGGATTAAACACAATGGATATATATAAAACATACGGAATTTTTAATAACTTCTCGTCTTTTGGTTATGCCGTTCTAGTTTTTATGTTAGCTACTATAGGGATGATGATTAAAAGTGCTCAAGTAGGAGCCAATACGTGGTTACCTAAAACATATAAGGAATCCCCTAGTTCAGTAATAATTCTAAATAGTCTAGTAACTGGTATAAGCTTGTATATAGTTATTCTTTATTTTTATCTTTTTAACTCATTATCTTACTTAGCACCTATCTTTATAGGATGGGCAATATTATCAATGATTTACGGTGGAATTAATACATTTTCTCAAAATAATATGAATAAATTCCTGGGGTATTCAAGCATATCACAATTAGGCTACATGTTATTGGGAGCATCAATATCCTTCTTTATCGGTTTAAACTCCAGTGTTACAATTATACCATTAGGTATTTTAGCCTCAATATTTATCTATATTTCTATAGCTTTTGGAAAAGGAATATTATTTATGAGTGTTGGAGGAATAGAAAAAGAAGTTGAATACAAAGAGGACGGATTATTTAAATCATCTCCAATATATACTGCATTTTCCTTTATAGGCGTATTAAATGTACTAGGCTTACCTCCTACGATAGGATTTATAGGAGAAATATTATTAATCTTATCTTCAGCAGAGTTAATACAGAAAGCCGGAATATTGTTTATCCCAATCATAATAGGAATCTTAATTTCCATAGCCATATCCTCTGGATACGCTGCCCTCTTCTTTAAGAAAATATACGGTGGGAAAAAATTAAGTGCCAATCTCGATAAAAGTCTGTACACAGTAACCATGGGAATACTTTCTATCCTTAGTGTGATTTTATCTCTGGATCCCGAGATACTTTCGTCTTCATTTAACAATTTCGTTACATTTACTTCAGGAAATTATTTTATTTTGCCGTTAATAGTCTTTCTTCCATCTTTAGGTTCGTTCTTGGCACTAATTACTCCGAGTTCTTTAAGTCAGAATTTAAGAGGCTATATTTCTTTAGCTACAATAGGAATAGCTTCAGCTTTGGGAATTTATAATTTAATTAACATATTATCTGTCCCTCATACATTCATTTCAACCGTATTTTCATTCGATCTTTTCAGTTATTTTGCCTTTAGTTCTTCTCTAATGCAATCTATTATTTCAGTATTTGTTTTAGTAATATCCTTCTTTATTGCATTATATAGTATTGACTATATGAAAGAAGATAAAGTTTTGAGAAGATATTGGGGATTCTTTGGATTCTTCATAACATCCATGTTAGCTGTCGTACTATCAAATAATTTAATATTATTTCTCTTAGGTTGGGAAGGTACTTCATTAGCCTCATTTGCTTTAATAAGTTACTACTTAGACGATACTGAAAAGAATATAGTTGGAGATCCTGGAAAAATATTCTTTGGTATCAGAAATGTTTCTACACCCAGCGTAAGTGGTATAAGGGCGTTAATATTCACGAGAATGGCAGACGTTGGATTAATAGCTGGACTAGGTTATTTATTATTTGAAACTACTTTTTCTCAGTATTCCGGAATATCTGCATTGTATCCTCCAGGTACATCGATATTTGGATCATTATCTACATTTACTTCTCCATTTTCTATGATCATCCTTATATTACTATATATAGGTGGTTTATGTAAGAGTGCCCAATTCCCATTTACTCAGTGGCTCATAACAGCCATGACTGGGCCTACACCAGTTAGTGCATTGATTCATGCTGCTACAATGGTTAATCTAGGGGCGATTTTTACATTCCTTACATATCCCTTCTTAGTAGGTAATTCTAGTTTGAATTTATATACTTTCTTTGAATTTATGATTGCTATATCAGCTTTTACTGCAATATATACAAGTTTGAATGCATTAGTATCTAATGAGCAAAAAGTAATTTTAGCCAATTCTACGGCAGATCAGATTTCATTAATGATACTTTCATCTTCGATAGGAGGAATACTAACTCTATATTTCCATTCTATAGCTTATCTTTACACTGGAATTTCTATAGGCATACTACAAATGATAGCTCACGGATTATATAAAGCATCGTTATTTATGAATGCGGGTTCTGTAATTCATTACACTGAAAGTAGGTACATTGGTGAATATCCTTCTCTATATAAGAGATTAAAAAGCGTATTTACGCTTCAACTATTAGCTTCTCTAAACTTAGCGAGTATTCCACCACTAATAGGCTTTTGGGCACATTCCTTTATTGCATATTTAGTGTCTTTTAATCCGTACTTGGTTACTTTGTACTTAATTTTAGAATTTGCAAGCGCGATTTACATTATTAGGTACCTGGTAAGAACTTTCTTATGGAGAGGCGAAAATATGATTGGTATTGATCTACTTTACAAACCTCCAAGATACAGCTATGCTACGTTCTCATACTCAAATCACGATTTGCATAACTATTCAAAAGATGAAAATAGGTTAGGTAAATTAATGATTATCTCTCCAGGGTTATTAGTTGCAATAACTATCATAACAGGGGCTCTAATAGTAGGAATAACTAGATTCATGTCCACTCAAATGTTTGCAATTAAGGGATTCCTATCATTTAGTCTCTCGGATGCACTTATTTCGTTATTAGGCATAGTAGTAGCATATTTAGTATTTACAAGGAATATTCATATAGAGAAACTGAATCCAGTAATGGACTTCTTATATTCCGGATTCTTCATATATCCATTATTAGATAAGCTAGGAATGTACTCCATGAAATTCTTTAATAAGACATACGAAACCATAGAATATAACGGTTTATATACTGCACTAAATGTAAAATTACCTTTAATGGTAAGGAAGTTTGGTGGTTGGGCTGTAACAAAAGTACAAACTGGAATACTGAGGAACTATGTGGGATTCTACATAGTTGGATTAATAATGGTACTAATAATATTGCTTATTATAATCTAATTTTTTAAAATTAATATATTAAAAAAAATCAAGTTTTTACACTTTCTAATTTCATAATTGCGTTCATAGCTTCCTTAACGTGATTTGAGGCATTCATTTGAGAAGAATAAATATGGGTAATTTTTCCTTCTTTATCTATAACGAATGTTATTCTAGGAGGAATGAGGAGACCCTTAGCACCGTATAATTCCCTTATCTTGTTATCTGGATCACTAAGAAGTTTGAAAGGTAAACCGTATTTTTCTTTGAATTTCTTATGCGAATTAATGTCGTCTCCACTTACTCCCAATACTACAACTCCCATTTTTGTTAATTCGTCCCATTTCTCCTTAAAACTCAGAGCTTCTGTTCTGCATCCAGGAGTATCATCCTTAGGATAGAAGTATAATACTACGTACTTTCCTAGAAAATCTGATAATTTAACTCTTTTACCTTCATCATCTTCAGCTTCAAAATCTGGAGCTTTATCTCCTACTTTGAGTTTCATATCTTCACTTCCATGGTTGACTTTTTAAATTCTTTTTATAAATACTTTCTAATTTTTCATCACTAATTGAAAGAAATAACTTAAAAATCTAGTGTCTAATAGTTAGAATATAAAATATTAAATATTTAAGGATCTATTTAAGTTTATGGAGTATAAGTGGGTTGCACTGAGCAATACTACTGTAGGAATTTTAATGGCGACAATAAATGGTACCATTACGATAATTTCTCTCCCTGCAATATTTAGAGGAATAGACATAAATCCGTTTACTTCGTTCCAATACTTATTGTGGATCTTAATGGGATATAATATAGTAACAGCTACTCTTCTAGTATCCTTTGGTAGACTTTCTGATATGTACGGAAGAGTTAGACTTTACAATTTAGGTTTTCTTATATTCACTATAGGTTCAATACTTTTATCAATAACTCCAAACACTGGAAGTCTAGGAGCGTTAGAACTAATATTTTTTAGAATTATACAAGGTGTTGGAGGAGCTTTTCTAATGGCAAATAGTACGGCAATCCTAACTGATGCTTTTCCTTATACTGAAAGAGGAAAGGCTTTGGGAATAAACCAAATTGCGGGATTGGCGGGATCTCTTGTAGGATTGATTTTGGGAGGAATACTTTCAGTAATAAATTGGAGATACGTATTTTTAGTAAGCGTCCCTGTAGGAATCTTCGGAACAATATGGAGTTATACTAAATTGAAGGAATTAAGTAAGCCCAGTAGAAACGAGGGATTAGATCCTATAGGAAATATAACTTTCGGTTTAGGTCTTATATTAATATTAATCGGCGTAACTTACGGATTAATGCCTTACGGAACATCTCAAACTGGATGGGAAGATCCTTGGGTAATAACTTCCATGGTTGTCGGTACTGGACTTTTGGTATCTTTCCTTTATGTAGAAAAGAAAGTTAAATATCCCATGTTTAGGTTAGAACTCTTTAAGATAAGAATGTTTGCCGCAGGCAATATAGCAAGCATGTTAAGATCGTTCGCTTATGGGGGATTGATGATAATGATAATAATTTTCCTTCAAGGAATATGGTTACCATTACATGGATACAGTTATTCTGAGACACCGTTCTGGGCCGGAATATATACAATACCTTTAATGCTAGGATTCGTAACTATGGGACCCATAAGCGGATGGTTATCAGATAAACATGGAGCAAGACTATTATCTACTTTGGGAATGGTGATAGTAGGTATTGGATTTTTAGCATTAACCACCCTTCCATATAACTTCAATTATCCAGAATTTGCGTTAATAATTTTTGTAATGGGATTAGGTAATGGAATGTTTGCGTCTCCAAATACTGCATCAATAATGAATAGCGTACCTTCAAAATATAGGGGAGTAGCATCAGGAATGAGAGCTACTTTACAGAATAGTGGACAAACTGCTAGTATAGCTTTATTTTTTACCATAGTCATAATATCTCTTGCAGCTACACTTCCTCATGCCTTAGCTCAATCCGTCACTCAAGCGGGAGCACCTCAATTAGCTCCTTTAGTTCAAAAGGTTCCAGTTACTGGAGCACTTTTTGCGGCTTTCTTAGGTTATGATCCAGTAAAATCCATATTGTCCACATTACCCCAAAATATATTGTCCACAATACCATCAACTGCTATTTCCACAATGGAACAAAGAACGTGGTTTCCCACAGCTATAGCCCCAGCCTTCATGAGTTCCTTAAGAGATGCATTTTACGTAGGTGCAGGGATGTCATTTATTGCAGCAATTACATCCGCTCTTAGGGGAAGAATTCAAATAGCAGAACTCGAAGAAAAGGTTGGTAGAAATGCAGATAAATGAGGAAGATATACAGATTTTCAGTACTATAGCTAAGATACATAGGGCCATGCAGAGAGAATTAAATAGACGTTTACAGAAGCTTAATATTACCTATTTAGATTTCCTCATTTTGAAGGCTACAAACGAAGGACCTACTACGATGGTGGGATTAGCTAAAAGATTTTATATAACTCAAGCAGCAATTACTTCAGCCGTAGATAGATTAGAGAAGTATTATTTAGTTGAGAGAAAAAGAAATTCTAAGGACAGAAGAATAATCGTTATATCGATAACTCCTGAAGGTAAAAGAACTTTTGAAGAAGGCGTTAAAATATATAAGGCGTTCGCATCAGAGATTCTTGAGGATATGGGAGAAATGACTGACGTATTAATAAAATTAAATAGAATTTTAGAAAAAATGAATAATATTGAAGAAAAATAGTTTTATTCTATCCCCATACGTACCCTGAACTTGAGGAACTACTGGATGTAGACGTCGATGTGTTAGTGGAAGTACTGTAAGATGTGGGCGCAGTAGTATGCGATGTATGAACTGGTACCATAGCTAAGAATACTCCTCCTATTACTATCACTATAATTGAAATCACTATTATTGCCAATTCTATTGCCTTAGGTATTTTCATAGTTAACCAATCCTTTTAATTACTTATAAATGTTTTCCCAATTCTTGTAATTAATATTATTTTCAAATTATCTTCTAGATCCTATCCACGTTACTGTAGTTAAAGCTATTAGAATAATGTCAATAATTATTACTGCTATTACGTAAACATTAATAACTGGTAATGGTTTGCCTAGAATAGGCGCCGGAAATACTCTAGATTCAGTGACTAAAAGATAATTTATCCAATTATAGACCAAGAGTGGAAGATAAAGAATTCTTAAATTTATAAATAGAATTATTGCTCCGACTATCGCGAGAATAGAATCAATAATGAAAAAGTAGCCTACTATCGGTAGCAGTTTAACTAGAGACGCTGAAAGATATAGATGTATTGCTGCCCATACTATAAGTAAAGCTCCAGATATTACTCTTAACGGAAAATATAGTTGTTTTACGAGGCTCATATTCTCACCTCAAATTAAGATTTATTAAACTTTTTCCCAAATCTTAAATTATTATTAATTATTAACATCACTAATATGAGAACCTCTATCTTTCTTAAAGCAGAAATTTGGAATATCTTTAGTTACCTTGGAAAATTGTTTAAGATGGTTTCAGATATTATTTTTTTGATGTCTTAAAATCATGGAACAGGAACTAGCTTACGATAATCTCAGGAATATTTAGAAATTCATAACATATTAGAACAAGTTAATTATATTGATTTAGATATCTTATGAATATATGAACAGAACGTTTTTATATGAACACTGCAGAAAAAGATTTATTTTCTTGATATCATATCATTTACTATGCTAAAAATTGATGTGCATGCACATTATTTTCCACTTGATATTATAAAGGAATTTAAAAACAAACTTAATTTCTCCTTTAATATAAATAGCAATAAAATCAAGGTTATTGTAGGAAAGAATTCTTGGGAAGGAAGTGCCTATAATGGATTTTTAAATGAGGAGAAATTGATAGAAGATCTCCATAACAGTGAAGTAGATATAAGAATACTTTCTTTGGCACCAATTTCGTATCTATACGATGTTGACATAAATATAGCGTTAAGTTTTTATAAAAAATTTAATGATAAATTATCCGAAATTAGCGAAAAAAGTAAAGGTAAGTTTATGGGGATTGCAGGGATTCCACTTCAAGAACCTAGTATAGCGGTGGAGGAATTAAAAAGGGCTGTTAACGATCTTGGTCTTAAGGGCGTATTAATAGGTACTCATATATTAAATTGGAATCTGGATGATAAGAAATTCGAAGAACTCTTTCAAAGTGTTAGTTCTCTGAATATACCTATCCTTATTCACCCACAAATTACCGATATTATATGTAGCGAAAATTTAAGAAACTATTATTTTACTAACTTATTAGGAGTACCTATCGAAGATACTATAGCCGTAGCTTCATTGATAATGTCTGGCATGATCGAGAAATATAATCTAAGAGTAATAGTACCTCAAGGTGGAGGGTTTCTTCCATATCAGATTGGGAGAATCGATCACGGATATAAAGTTAGGGGGAATTCGGCAGATCTAAATAAAATACCAAGCGATTTTTTAAAGAATATGTATTTTGATAATATAGTATTTAATACTAAAGTATTAGAATTTCTCATTAACTTCGTAGGAGAAGATCATGTAGTATTAGGAAGCGATTATCCATTTAAAATGGGCTACTATAAACCATATGAAATAATAGAGAAAATTAAAATTAGTGAAGAAGATAAAGATAAAATAGCAGAGAAAAATGCTAGATTATTATTTCACATATGATTTTATAAAATTCTATGTCTCTCATACCAATTTTTAAATTCCTTATATCTTCTATCAATTATTTCTGCCATATAACTTTTTGGATCTAAATTCTCTACCCTAAATTTTGGTCTAATAATGTCCTCTATCGTAACATTTTCTAAACTTTGTACTGTCTCCTTGCCATAGATTTCCTCTAGCATTGTTCTCCCCTCATTAGTAGCATAACTTAAATTCCACTTAACATTATAATCTGACATTACACTTACTTTATAATTAGGAAATTCTTTGGAAATTTTATATTTAGCTTGAATAGCTATCATATCAGCTAACGTGCAGCCCTTATTTGCTGTAAAAATAAGTCTAACAGTAATCTTATCTTCATCAATATTAATCTCTCTCACTAATCCTAGATCATATATATTTATAGGAATCTCTGGATCGTAAATTTCCTTCAAAATATCTATAATTTTTTCTATCATAATCCTAATCCCTTTAGGAATTCTTCATGACCATTTCGAATATCCTTTACTATATTATCATATTCTTGTTTAAACACGTCTTTGAATCCCTCAATAGAGCTATAAGTCTCTTCCTTCCAATCGTTTAGCCATGGTCTAACAACGTCTCTTAAAGACGGTTCTTTATTAAATGCGTAGTTAAACAATTCAGTAATTTGATGCCTATGCCTCAATGTATCATTATAAAATGAACTATGTATATGCTTCAAGATTTCATCTCCTCTTGAAGTACCTAAGCTTGATAATCCGTTTAATAGTAATTCATCATATACATATTTTACTGCTAAGTTAAACGCTGTTAACGCTTCTCCTGAATCATACGTAACTAACATTTTCTCTAGTAATTTTCTAGTAGGCTGAAATATCGAACTTCTTTCAAACTGATCTCTCCCTCGTGTACCGAATGCGTATGACGGATATACGAAATCGAGCATCTTTATCCTTTGGGCAATTCTTTGCACTCTTCTTAGATGATCCATTCCCATGAAAACAAATACGTTTGTAACGCTACTAGTAGGGCTCATACTAGCTAAGTACATGGACTCCATTTGAAATATATGCCATATATATTTTATTGGATCATAAACGTCTCTATAAAACTCCAATGATTCTTCACTTAAGTTCAAATCATATTTTGAACTAACTATTTCTTCATAAATTTTATCTAAAAATGTTTCATTATCGTCTGCCATATTATTATAATTCCAATACGTTAACTTGTAAGGATCCTCATAATCGTGCCATTGCCTTCTTTCAAATAATGGTTTAATAAATGGTGAATTATCCCTAAAATGTCTATACCATTTTTGTGTAAGATGATCAGTACCTAACTCAAAAGGTCCTTTATCATATATGTATGTAGGTGATTTAGGATCAGCCCAATAGGATAAAGCATAGGTAACTATTTGATATTCAGATGGCTTTTTCTTACCTATTTTTTTCTCTAGTAAAGGCCAAGTTGCCCATACTCTTTTATATCCTTTATATTCATAATCTCTGTAGAATTTATCTCCTTCACCAGATTTAAATGCACCGAAAAGTTCCTTATATCTTTTATACCATTCTAAATCTTCTAACTTAGTCATTTTCATCACCTCTCTAAATACCACATTATATGATCTCCTCTTACTTCTATCTTTCCTGCAAATGCACTCATTCTAACTTCTATCTCTCCTGGAAATCTAATCTCTTCTCCGGCTACACGTTCTAATGTATCTTTATTTAGGATTAGCTTTCTCTCTCCTACTACTCGTATATATGAACCTCTATCTATTACTCCGATAAAATTACTTGGATTATCTGCTGCTATAGCCTCTATAACTGCGAACGCTATCTCGTCTTTTGTGAGAACTGGGCCTACTATATCTGGCGGTAATTTATCTATAGTTAATTCATATTTATTTAAAATATTTTCTATAGTTAATTCTTCACTCATTTTTCCACCTCTGCTATTTTTTGAGATTCGGAATACATTTTAAACCACTTAACCTTGAACTCTAATTGAGGAATATTGGGAACTTTTACAAAAATTTCGTTCCCCTCAACTTTTACATCTAAAGGAAAAAGAGAACTTCCTTCAGGATTTATACTTTTACCAGAAACTGCGTCATATTCCCATAGGTGAACTGGACAAGTTATTCTGTCTTCACCATCAAAAGAATATGGCTCAAGCAGACCTAAGGCATGTGCGCATCTTCCATAGTATGCTTTAATATCACCTTTTACGTTCAATACAAGTACATCATATTTATTGATTTCGAATAATTTAGCTTCTCCCTCGAATATATCATCTATATTACAGACTTTAACAAATGTTCCAGGATAATTCAACATATTCACGCCCTTAACTTACCCTCTTTCTCAAGTCTTTTAATTATACTATATTTTTCTAATTCATCTCCAAAAATGTTTGCAGGAGATCTAGGAGCATTTTTAATTTCTGCTTCTGTTTCTTTAATTACTTGGAATATTTCGTCAGTTTGATTTTCTGGTTTCCAGAATTCCTCTTTTGGTGGCCACCATACTAACCAGAACACGTCATAAGGCTTTATGCAGTCCTTTACTTTAGCTTCATGTTCAAGAACTTGTCCAGAATGATAATTAACTAATCGCAGTTCTTTTTTCTTATCCCAGACTAACACATTTACTGTAAGGCTCCTTAGAATCTCTACTGCTTCTTTTACACTAATATTAGCAGGTAATATAGCTGGTAACCACACAGTACCTTCTTCTGGAACAAAAATTATAGGTAAAGCTTCTTCGCTCATATTTTATCCCTCTGTATATTTCTTTATTCTATTAAAGAAATCTGGATCTTTTTCTTTATATAGCAATCCATACCCTCCGTTTGTGGGATCTAATCCAGCTTCTCCTTCTTCAGTCAGTCCCATATCCCAAATAACTTCTTGGAGAAGTCTTTTAGGATCTTGATATGCTTCTTCTGTGAACTGTATTAATCCTTCCAATACTCTTTGAGTATATGTCCTACGTCCAGCATATCTCTCTGGTTCTTGTTCAAAAATCCATAAGCATGCTGGACTATCGAAAGTGTAAATTTTTCCTTTATACTCCTTCAAGTAAATTCTCAAATACTTACCATTGGTTGGTGCTTGAATAGGAACCATACATATGTTACATAGATGTACTGCAGTCAGTGGTAATGGATTCTCTCCATTAATTATCTTGTTAGCATAGAAATCCCAAACTCTACCAAAAAATTTTTCCCATTGGGGATATTTCTCGTTAAGCCATTTTCTTTCATCTGGAGAAGGTCCTCTAAAGCTAATGTTTAACGTCCTTCTCCATGTATATAAACCTATATCGAAGTCATGATGCCAATAGTCTAACTCAAGTTCGAACCATTTCCAATACCATGGCAGATTTACTCCGTAATCTTCTAGTAATCGTTTGAACTGAGCTCCTACCCATTCCATCATAAATTCCTTGTATGACATTATTCTTGCATCAAGCGGTGTTAAGTAATCCATGGAAACGCCTGTAAGAGCGCCTATAAGCCTTATAGATTCCCAAAAACCTTTAGCTACAAGATATTCACCCGCCTCTCTATAACCCTTACCTTTTTCGCCCAATTTTGCAGCATATTCTACTGTTTTTCTATATTGCTGCATCAAATTTGATGAAATAGTTTGAAGATTATTCTTAACTTCGTTCCTAGTTTTGCCTAATCCTTCTTGTTCCATATATCATCATTAAGGTTGTCTATATGTTATATACTTTTAAGTATTGTTCAAACTTGTTTGAGTAGTATGATCTACTAAAATATTCCATTATTACTTATACCATTAAATAAATTAAAAATGGCTTATACTGATATCTCATTATTATAAAAAATTTAAATATTAATACAATTAATCTTATGATATACGAATTTTAGTTAAGGTTAAAAATTAGTTTTGACTTGCAGATTAGTTTTAGACTTAAAATAAGCTATTGAATCTAATCCTATCTTCTCATCCTGTTCGCTTGTGCCTCCGCTGATTCCTATTCCTCCTATTACGTTACCATTTATTATGATAGGAAAACCACCTGGCAATATTGTAAATCTGCCCAAATTAGTAAATTGTAGACCGTAGTTAACTTTTCCTGGATATGTGGTTTCTCCTATAGTTCTTGTAGGCATTTTAACTGCCACTGCTGTATAGGCTTTCGATATTGAAATTTCTGTGCTTATAAGAAATGCATCATTCATTTTATGAAATAAAATAAGATCTCCGTTTTCATCACAGATAGATATACAGACCTTAATACCCATGTTATTTGCAGATTTTTCTGCACCTTCTGCAAGTATCTTAGCATCTTCTAGATCTAATCTTAAAGTATTCCTCATAAATAATAATACGTACTACTGATTTTAAATATTTCTATATTTCATTGAAGAGAAATATATAAATATTTTAGATTAAAAAAATTATGCCTTTTTAACTAAATCATCACTTAATTTTGTAATATCAGAAAATATTTTTAGAACTGGATGTCCTATCTGTGCATGCCTAGATTCGTCTGTTTGAATACTTTGCGTTGTAGTAGAGAATACGAAGTCATTTGTTTTATTAGCCATGGCAGCTAAAGCTACAAATTGCAAATTAGTAAATCCAGTTTCGAAAGCGAAAGTTGTCATTAACGCAAATTCTATTGCAGAAGTCCCAGTAATAGTATCATCGAAGAATGACCTAGCAGCTATCGGTAACCATCCATCAACATAAAACATTTTATGAGAAAATGCAAACTTAGGATCTACGGCTATATTATCATGTGATAATAGAATCTGAAGCTGAGTATGTCTTATTTCATCCATTGACCCGAACGTAGATAGATTTCTCCACTCACCACTTTTTCCGAATCTAGCCATCCTAGCTTCTGCTATAGATGCTGTATATTCTGGTATTGGTACTGCAGTTATATGAAAACAGAATGTCCCTTGATGATATGTTGGATCCAATTTTTTCAATAATTCCGATCTTAATCCGGCTTCTCTTACGGCGAAAAACCTTTGGTCTTTCTCTTTTTGATTCTTAACATATTCCCTATATGTTACCTTATATGGAGCATCATATAGTTCTTCCCAAACATCCATAGGTAAATTAGGTATTCCGCTCATATCTACTGGAAATAGTTCCTCTTCTGAGACATATTTAGGAGTCCATTCTAATTTAGTAGCAAGGTTATAATATTCGTCTCTTGACGGTAATTTAGGTTCTGAAGGAGTTGGTTTCATTTGCATTATATTTGAAGATACTTAATATAAACATTATTAGAACATGTTCTATACTTATTATATACGTTGTCAATACTTTAGTTATACTTAAATTACAAATATGTTAATTAATATTCCATAATTTACAGAGCATTGTTTAACTATTAAAAAGAAGCATATAAAAAATTTAACTTAATAATTTTTGTAAATCAAAACTTTCATCAACCAATGAGTTCTTCCTATTGCTTACATCAACTTTTTTCTCTATTATTTTGTTTAATGCTGCTATTTCTTTGACTTTCCTATTTATACTTAGATATCCTTTTACTATTCCTCCCTTTACATATATTACACTAAACGATGGTTTTTCGAAACTTCCACGTATTAGGTACTCATCATAATCCATAGTATCTCCTGCTGATTCTATATGTAAATCAAAAATATCCGACCAAACCGTTGATATAAAATTATAAGTTTCTTCCTTACCTAGCATGTTGTGCGCTACAAGTTTTCCAGTATACTCAGCATTATTCCAGTGTTCAATACGCTTTCTTTTATTCGCTATAGGTTCAAAGATGCTAGCAACATCCCCAGCTGCATATATGCCTAGAGCACTTGTTTCTAATTTTTCATTAACTGTTATCCCGTTATTTACATTTATTTTACTTCTTTCTGCAATTTCTGTATTAGGTATAATCCCAGCCGAAATTAGAACGAAATTAGTCTCAATTTTCTTTCCAGATTCAGTAATTACTCCATCTACTTTATCGCTACCATAAATTTCTTTAACTGATTCGTTAATAAGGAATCTTACTCCTTTATTTTCAAAATATTGTTGTATGAATTTTGAAATCTTTTCATCTACAAACGTGTTCCAAATATATGGCTTAACTTCAATCACTATAGGTCTTAATCCTAGAATAGTTAGACTCGATGCTACTTCCATGCCTATGAATCCTCCTCCTATAATTACAGGGGTCTTTGTTGAAATAACATCGTTTTTTATGGAATCTGCATCATCTAATGTTCTTAGATAATGAACTCCCTTCTTCTCCTCTCCTTGAATATTTAGTTTCCTAGGTCTTCCTCCAGTAGCTATTAGTGCTTTAGTAAATTCTATTTCAGTTCCGTCTGTTAAAATCGCTACCCTATCTCCTATATCTATTTTTAATACCTCTTTGTTTAACAAGATCTCTAAGTTATCTTTCTTATAGAAGTCTGGACTCTCATAAAATAACATTTCTTTATCGATTTTTCCTCTGAGATATTCTTTTGAGAGAGGTGGTCTGTCATAGGGATAATTTCTATCTTTAGAAACTAGTATTATCCTAGAATCTGGTCTGATGCTTAATAATTCCTTTAATGCGTTATAACCTGCTACTCCGCTCCCTATTATTAAATATTTACAAGTTTTTTCCAACTTTCCTCTATATACTAATATACTAGCATTAAAATATAAGTTTTACTTTTGGTATTTAATTTATTAATAATTAAATTTTCTACTTAATGTAGAATTCCGATTAAAACTTTCTGTTAATAAATTAATGATAGTATTTTGCCTACTACGTTCATAATTCATAATTATATTTAATAAGAAATCTTCAAACATGTTAGAAACATATAATTAAGTTCCTAAATAGAGTTAACAGATAATGAGGGTAGCTAGACTAGTAGGATTTATGAGTCCATTAAAAATAGAAGACATACCAGAACCTAAGATAGGTAAGGGAGATGTATTATTAAAAGTTGATACATGCGGAATATGTAGATCAGATTGGCATTTATGGCGAGGAGATCCATCTTTAGTCGCATATATGGAATGGTCAGGAGGAAAATTGCCAATAATTCAAGGACATGAGGTTTTTGGAAAAGTAGTAGAAGTAGGTGATAACGTGGAATCAGTAAAGATAGGAGATAACGTTGTAATGCCAGCTTCTTCTACTGGAGATTTTAGGACATGCCCATATTGTATGAATGGAAATTCTAACGTATGTGAACATCTAGTTATAGCAGGTTTCGGAATAGACGGATGTTTTGCAGAATATATGCTAGTTCCAGCCAGATCTGTCACAGATCTAGTTAAAGTTCCCAAAGGAATTAAACCAGAATGGGCCTCAATTACTGGTTGCGGTTTTGGAACTGCTTGGAACGGATTAGTACTTAAATCTAAAATAAAACCAGGCGATTTAATTCTGGTTATAGGCGCAGGCGGAATGGGATTAAGCGCTATTGCTATAGCTAGCGCAATAGGAGCAAGAACAATAGCTGTAGATATTAATACTGAAACTCTAAAAAAAGCTAGAGAATTGGGCAGTATTGGAGCATATAGATATTCTGGAAAAATCAACGAACTTAATTCTGTTCTAAACGAAATAAGCAAAGTATACGGAGTCGTAGATGTTATTTTTGATGGTAGTGGAAATCCAGACGCAGTAGCCGCGCTATTACCTGCTTTAAGACCTCAAGGAACTCTTATACTTGCTGGTTTAATGATGAAAGGAAAAGAAACAATACCTTTACCAGCAGATCTGATAGTAGCTCGTGAAATAAATATAAAAGGAGCATTAATGTTAGCCGCACAGCATTATGAAGGAATTTTTAAACTCATGTCGGAAGGAAAAATTAACTTAGATCCGATAATATATAAGGTAATAAGTATTGATGAGGTTAATGATGCGTATAATGAAATGAGTGAATATAAGAATTCAGGAAGATTTATTATAAAGAAATTTTAATTTTTTTTAAATAAAAATTATTTTTATACTTTAGCGCCTAATTTTTGCCTAGCTAACTCCTTTAATTCTTCACTTACTCTGGATGGCGGTATTGGGCTACCGTCCCAGAAAGCTTCTGTTACATGACCCCAATAATATAGCCATCTGTTTTCATCTTCTTTAGTATCCCATACTACTGGTTCCCAGTCTGGTACTACATTAGTATATCCCCCATGTAATAATTCTACAGTATTTCCACTAGGTTCTTTAACATATAATGAGTGACTATCAGTTATTCCATGTCTTAAAGGGCCTCCCACTATTTCTATTCCATATTCACTGAAAGTATCTGCAGCTCTCAATAAATCGTCTGCGTAATCTACATTATAAGTAAAGTGATTTAATCTTCCAGGAATACCAGATGGATCTACACTTATAGCTAGATCATGTGCAGTTCCGTTAACTGCCATCCAATATGCTATTGTATGATTACCCTCTTTAAGCATCTCATTTACTTTAAAAGAAAGTCTTTTTAATAGATCTACTGATTTAGCTAATGCTTGATCATTATATGCAAAAATAAAAACATGCGATAGATCTTTTGCTTGCACCCCTATTGTAGGTTTTTTCATTGGTCTAGCTTTAAATCCTGACCTGAGATTACCACTAGATTTAAACGTCTTCATTTCCCAAGTTATTCTACCTACTTGCCCGCTTGGTAAAAGAAATTTATATCCTTTACCAATTCCAAATTCTGAGTCTCCATTGTCCCAGCCTAATCCTAATCCGTATGATTCTATTATTTTTACTGCATCCAATAAATCCTGTTCACTATACGTTCTCCAGTTTATTTCAGCTACACCAGTAGTATCTGATTCGGTTATCTTTAGACTATAAGTATACCAATCTTCCCATCCTCTTAAATATATCGATCTGCCTTTTCTTCCTACTTCATGAAGTCCAATCAGATCTTTAAAAAACCATAAAGTATCGTCAACTTTTGGTGTCAATATCTCTACGCTTGTTAATTGTGAGAGAATTTTATTTACCATTTTTTATCATGTTGTTAATTTGGTTAATATATTTAAAAATATTAATCGAACAAGTTTGAGAGCTTAATATATGAAACATTATATATTATAATAAAAAATTAAGGTTAATAAGAATTTCTAATAGTATATTACCATTGTCTGCAATCCTTAGTTAAAAATACATGTGAAACTTTGTTATAATTAACAATATGGGCTCTTCTAAATTACAGTGCGATTTCATTAAATCTTAAAATAATTATTGAGGTTAACTACTCGATTATACAACATAAAATTTGCATCAAATAAATTATTATCTTTTCAATCTATTACTTGGAAATTCAATAATTCTGTTAAATTTAAACTTTATTATTAAAGACTATGGAACATCTATAACAAATTCTAAAAACTCTATATAATTAGCAGTGGTGTTTCACTAAATTATTTCTTATGAAAGATATAATATTAAGCCTTTCAATAAGAGACTGATATAAAGAAAGTTAATATGATATTCATAAAACAAAACATATTCAGATAATTTGAATCAAACATGGCGTGTAGAACTTCAAGAAATTGAAGATTTTTGAATTTTTATCACGTCGTAAAAAAGACGTGCATAGAGTACACTCAACAAATAGGAAATTTAGAGAAGCCTAACGAAAGAATCAAAGGATAAAGGCTTCCTACCTGGAGAAACAAAATTAAAGAACAAGTGATTCACGAGATTCCACGCAGAATCTAGGACGGTGTAATAAAGAAAAAGAAAGACCTTGTTCCCCCAACTTCCTAACATACCTTATCCTAGCCTTCCTGACCTTGAAGCCCTCCTCAACCACCTTAACCTATAAAGTTCAGCAAGTTCATAAGGATCACCAAGAAAATTCGAAACAAAAGTAAAATGCCTAGGTTTCTCCTTAACGTAAACAACATCATAATAATAAAGACCGTCAATCTCAACCATCCTATAAGCAACGTAAATCCTATCTTCAACCTTGAAGATCTTCTCAACAAGAGGAAGAGTAGAGAGTTCCTTAAAAGCCTTCAAGCTTGACTTACCCCTTATTATTGTCTTGACCGGCATTTCCTTCAACATGTTCAAACTCAAGAATCCCGCGTCTGCAAGCATGTAATCTATGGGAATGTGTTGTGAGACCTCTCTCACGCTTTGGAGTAGGAATTCTGATGGACTTTCGCTACTCAAGTCTGCGATCTCCACGAGGAGGGTTAACCTCAAGGGTATACGAGGTCTAGTGATCTTGCTTTTATTTCCTTCCTCTTCCAGTTATACAGTTAAGGTCATTTACCTTTTCTTGTTCGTTTTCTCCTATAGTTATTCCTGATTCGTCTGCAGCCAGTACGCTTGGCTTTCCTTTCACTTTTTCGTATAGTGGGTAGAACCTGAAGCTTCTCTTGTCTTGTAGTGCTTTTTGTCCTTGTCTTATTAAGTATAAGTATTCTTTTCCTCTGTTCCCTGTCATTGGTGGGGCTGTTTTTGCGAGTTTTTGTGGGATTTCTGGGGAGATAACGTTAAGTCCTTCTAATACAGATTGTATTGTGAGGGACTCCAACCCCGTTAAGGATAACGAGGATGTCATAATGGGGAAATGGAGTCCCTCGTTTTAACCTTTTCTTGTTCTTCTCATTCTTCTACCTTTCTTCTTCTTTTGATAATACTAAACACATAGTATTATCTTGAATATACAAACTCATTTTCATCTTCTTTTGTCGATTAATCTTAAATTTTTTGATAATTATGTTGAAATATGCCGACTTTTTCTATCTCTCTTGATATTTTTCTCTTCCATAGAAATTGTATCGTTCTTAGTAAAATTGATGAAACTTCACTGCTAAAGATATGATTTGATTTCGTACTTTTATATATATAATTGACGATATCTTTAAATTCTTTAAAGATTAAAAAAGTTTAATGACTTATACTAAAAATAGGCTAAACGAGGTGATATTTGCTGTTTCACATGAACATTGCTGGACTAGTTTAGTTGGAGATTATGTAGTTAAGACTATTAATTTACAAATTGACACTGAAAAAGATTATATTAGATCTATAATAACATTTAATAAGAAAAATAAGGATCTAATATATGAAATCAAAAAATCAAAAACTTATATTGGTAGCTCACTATTAAATGCTACAGATAACAAAATCTTATTTGATTTTAGAAAAAAATACTCAAATAGTGTTATAAATACCGTACTAAATTTGAATGGAGTAATTCTAAACGGATTCAAATATAACGGTAGAGAGTTTTGGAGAGTTCTCATATATGAAGATTATTTACATCAACTTTTTAACGAGTTGCAAAGTCGCGGTAAGGTGGATTATATAGCGCAACGTGAGTTTGATATAGAAGAAGATAATCTCTCAATGCATGAGTTAGATTCATTAACACTGGCATATAAATACGGATATTTGAACTTCCCTAGGAAGATAAAGTCTGATAAAATATCAAAAATTGCTAATCTGAGTAAGTCTACATTTACTTACCATTTAAGATCTGCTGAATATAAAGTAATAAAACAATTGATTAGAGAATTGGATTTCTATAATTTGCCCAATCATATAAAAAATAACAAGGAAGACTAAAAATTACCATCTTGTTATAATTACCTTTTTCTCCGTAAAGAATTCCACACTATCTATTTGACCGTGTAAAATTCCAAAGAACGAATCTTTTCTTCCACCAAATGGGAAAAATGCCATAGGTGCAGCTACTCCTATATTTATACCTATATTTCCTGCGATAACTTCTCTCTTAAACTTTCTAGCATTATAGCCCGACGTAGTAAAGATAGAGGCTGCATTCCCATAATTACTTTTGTTAACCATTTCTATTGCATCATCTAGATTTTTGGCGTATAATATAGAGGCTACTGGACCAAATATTTCTTCTCTCGCTATAGTCATATCAAGGTGAACGTTATCAAATATTGTCGGTCCAATAAAATAACCTTTAGGATATTCGCTCACGATAACATTTCTACCGTCTAGTAAAAGTTTTGCGCCTTCGGCATCTCCCTTTTCTATATATCCCGTGATTCTCTTTTTTGCGTCTTTAGTTACTACAGGACCCATATCTACTGTATCATCAAGACCGTATCCAAGCTTTAATTGTTTAGAAAGATTCACAAACTTTTTCTTGATATTATCATTATCTCCAACTAATAGTAGATTTGCTGCTGCTAAACATCTTTGTCCGGCGTTTCCGAAAAATGATGATACCAACGATGGAACTGTAATATTTGGATCAGCGTCTGGCATTACTACTATAAAATTTTTAGCACCTGCTTGTACTATGGACCTTTTACCATTTTTACTTGAATTCTCATAGACATATTTTCCAACTCTAGTAGATCCTACAAACGTTATACCTTGAATTAGCTTATTTTCCAAAAACTCGTCAACAACATCTTTTGCTCCATGTACGACATTAATGACTCCAGGAGGAAGTTTGATTTCGTTAAAAATCTTCGAAATAAAATCCATTGGTACTGGAGTAATTTCCGAAGGTTTTACTACTACAGTATTTCCCAATACTATTGCATAAGGTATGAACCAAAATGGAACCATGCTTGGGAAATTAAATGGTGTTATAACGCCAAATACTCCTAAAGGCTCTCTAGAAACCATTTCGTCAACGTCTTGGGAAACTTGATCTATATTTTCACCTTTTGCTAACGTATATGCAACTGCAATAGCTGATTCTACGTTTTCTATAGTTCTTCTCATATCTCCTCTGGATTCTTGGATAGTTTTACCGTGATTCTGTGTGATTATTCTTGCAATACTTTCCGAATATTCTTCTAGTTTATTTTTTAACTCAAATAGATACTGTATTCTGTTAGTTACTGGTAAATCCTTCCACTTTTCATATGCTTCTTGAGCTGCTTCTATAGCATTACTAACTTCTCGTCTAGTAGAAAATGGTACTTCTGCTATCTTCTCATCTTTTGCTGGATTATATATTGGAGAAAACGTTTCTGTTTCAGAATTAATATATTCTCCATTAACAAAAAGCTTAAGCTTTCCATAGTTGCTTTGAACCTCGTCTAGAATTGTCATGTGCAATCATAGTACTTTAATCATATTGATTTATATTCTATACTTGCAACATGTTCGAAACTTTACTACATATTCTTATATTTTTTTATACATATATTTCTTATAACGTCATATAAAATTTCTAATTATAACTTTACGTTGTTAAATGTTACTTAAATATACATACAATTAGTATATAAAATCATTATTCTTATTTTCCTTAGCTTTATTAATCCAATGTTCAACTGGCAGGAGTAATCTATCCTCTGTTATGCTTCTAATATCTACGAGACTAGGCGTATTTTTAAAAGATTCTGTCAAAACTGGTGCTATATCTGCGTTTTTTTCTATTATATAACTTTTTAATCCAAATCCTTCGCTTATTTTAGAATAATCTATAGGAGAGAAATCCGTATCGAAGTATTTTGAGTTATGATATAACATCATTTCGGCTCTTATCCATCCATATGAAGAATTATTAAACAATATTATTGTTACGTTTATATTATATCTTTTTATAGTTTCCAACTCTCCAACTGAGAAATTAAAGCTCCCATCTCCAGTAAGTACTATAATGTGCTTCCTTGATGCTAAATAAGCTCCTACTGATGCTGGGATCGAATATCCCAAACCTCCCATGCCATAATTGAATATTATGCGCCTACCGCTATATTTCGTCTTATAAAACGCAGCTGTCGAAATCGCACCTATCCCTGGATCTGCTATCAGTATATCATCTTTGATTAGTTTATCCATTTCGTCTATTAATTTTGGAATATTTATATAATTTGAATCTTTCTCTTTAAGTTCTTTAATATGGTTGAGAAACTTTTCCCTCCTTGCATTTACCTCATTTCTCCATGCGGTTCTTTGAATTTTTTTAGTATTTGCAATTATCTTTCTCAAGATGGCTTTTATATCTCCAACTACGTTAATACTTTTATACACATTACCTAAATCTTCAAAGCTTATATCAATATGAACTATTACTTTGTTTTTACTTGGAATAGTCCAATAATTTGTATTAGCAGAGTCCGTGTTGCTTCCTAAAAGAAATATTAAATCAGCATCATTAACTACACTATTGGAAAAACTTGATCCTCCTCTACCACCTACTACACCTATAGACAAAGGATGTAATTCGGAAATGCAGCCTTTCCCAGTTATTGTAGAACCTACTGGTATATCTAATAGTTCTGCTAATTCAGTTACTTCATTCCATGCTTGGGAATATAATACTCCTTGGCCACAAATTATTACTGGTTTTTCTGCCTTCATCAGCATTTCTGAGATTTCTTTAATTTTCTCTTCATCATCAACTATTCTAATTGCAGGATATTTTGAAAATTCATTTTGTGAATATATCTCTGGATCCTTAACATTATCTTCAAGAACATTTGAAGGTATTCTAATATTAACTGGGCCGGGTCTTCCACTAGTAGATATTCTAAATGCCTTCCTAATTATTAGTGGAAGATCAGAGATAGAATACACCGTATATGTGCTTTTAGTAATTTTTTGAAATATACCAGACTGATCAATAGATGTTAACACGTTTTTATACTCAGAACCTAATGGGGTATCTGTTGTTATAATTATTAAAGGAGTAGCAGATTTATATGCTTCTGCAATTCCTGGAAGCATGTATGTAGAACCTACACTAGGTCCCTCTACTATACCTGGCTGAAAAGCGATCTTTGCATATGCATCCGCCATATATACAGAATTTCTTTCATCTCTCACAAGGACATGTCTAATTTTTTCATTATACTTTTCCCATTCCTCATATAACGCAAGCGAAGTTTCTCCAGGTAATCCAAAAACATATTTAACGTTATATCTTTCAAGCATTTCCAAGAGTATATTAGCGCCATTCATTACAATCATATATTTTTGAATAAGAAATTTTTATAGTTAAATTAGTATAGTAATATAGTTGTATTAAAACATATTTAGAACGTATTTCGATGTATTTTCTGAGAATATTATAGATCTAATCTCGTCGAATTAATTATGAAATATTTTACATATAAAATTAAAATTTTCCAAGACTTTATTAACTTTTCAATTGAAAAAGTTTTGATATCCTTTATTATTAGTATAATAGCATCGTGATACATAAAACTTGTTTGATAAACACTTATTTAGAATCACATGAAGAAAATGGTTATGCTACAAAACTCAAATAACGGGTTCACTCTACCTTTAACCAAAAATGATAAATCACAAATAGTATTCCCACCACCTTGGTATTATGGTGTAACATATATATCTGCACATGTTAAGTTTACTAGAGAATCGGCAAATATGGTCTTGCCAGAGTTTCTTACTACTGATGGAGAAGGCTGGGTTTATATTGCAGATTTTATATCAACTTCCGAGAATAACTGGGATTACATGTATCAAGATCCTGATTTAGTGCAATATATGGAAGGGGCCATAGGGCTTAAAGTGAACTTTGAAGGTAAAAATTACCTATATTTTCCTTTCATGTGGGTAGATAAAGACTGGGCATTGGTAAGAGGTTGGTTAGACGGTTATCCAAAGAAAATAGCCAAAATATCAATGACAAAATTACATCCGCTACTTCCTAAATATAATAAAGCTGAAGCTGGACTAAAAATGGGAGGTTATGCCGTAAGAGGAGGTGGAGTGTTATTAAGATTGCAAGTAGAGTTAAAAGAAAAAGCAGATTCCGTGCCTTTAAGAAATTTTGGTCCGTTCCTAAATATCAGAAGATTTGCAAGTAGGGGAGATAATGAAGAAGATCTATATGAAGTAGTCAGTAGAGTCAGAGACGAAAGTATTTCTGGCGAAATATGGAAAGGAAAAGCCACAGTAGAACTAGGAGGATATGTTAATGATGAAGTAGATTTACTAAAAGTTGAGAATGTAATGGGGGGATATTACTATACTTTGTATTTTAAAGTTACTAAGACTCAACTATTGACTAAAAATATACAAAATGTAGTAAAAGTAACATAGATCTTTTTATTATCAATTTTCATATATACATCTTCATTTTTCGTTATGTTAACAATAAAACAAGTTTGAAGTCAAGTTTTAATCTAATCACGAGAAATAATGGCTAAATGTTGAAAGAAAATTATGAGGTAGTGTCAGGTAATACCACGTATGTAGACGATATTCATTTTGATAACGAAGTATATCTATATGTTATAAGATCAAATTACGCGAGGGCAAAAATTAAAAGCATAACGCCACCCTCTAGTTCATTATTATTTCTAACTGGAAAAGACTTTTATGCAGAAATGCCAGCTATTACTTTCCCTGGAACTAAAGTAGCAAGAATGCCGGTCTTAGCTAGAGAAAACGTAAATTTCTTTGGCCAACCAGTAGCTGCAGTAGTGACTGAAAACAGATATGATATGGAAGATATAGCTGACGAGGTAAGTATAGATTATGAGCCTGAGACACCCATTACAAACGTTTATGAGTCAATGAAGGATGAAGATATAATACATCCGAGTTTGCGAACTAATATCTCAACAGATAACGAAATTAAAGGAGGAAATATAAACTTAAAGGAAAAGGCAGAAGTTTTTGTAGATAGAGAAATAGCACAAAATAGAATAGTTTCTAACCCCATGGAGCCTAAAGGAATAATAGCATATTATAAAGACGGATCTCTTACACTCTATGCATCAGTTCAAGCTCCTTTCAGAATAAGGAATGATCTTCATGAAGTTCTTGGCATAAGTCCAGAAAATATTACTGTAATTGCTCCTAAAAATGTGGGAGGAGGATTCGGAAATAAAGTCCCCGGACATTCAGAATATGCATTAGCCTCATTGGCTTCAATAAAGTTAGGAAGACCAGTAAAATGGATAGAGACAAGAAAAGAACACTTAACAAATCCTACTCAAGGGAGAGGAGTTTATGGAAAAGTAAGATTATACGCAAATAAACAAGGCATAACGTTAGGAATTGAGGGAGAAATAATAGTCGATCTAGGAGCATATAATTACACAATTAATGCTACCACTCCGTCCTTTATAGCAAGATTATTGACAGGACCTTATAAAATGGAATTTATTTCCGTGAAGGCTAGAGGAGTATTCACTAATTTGCCTCCTACTGGACCGTACAGAGGAGCTGGAAGACCAGAAGCTACATTATTTCATGAAACACTGATGGAGGATCTTGCTAACGAACTAAAAATGGATCCAGTAGAATTGAGAGAAAAAAATCTCATTAATGGAGAATATGTAACTCCCTCAGGATTAAAAATTGATAAAGGAGGTTATAAGGAAGTATTTAATAGAGCAAAGGAAATTTATAGAAAGATACCACAAAAGGGGAAGTCATTGGTAGTATTCGCGGAACAAATTAGCGTACCTCCCGGAGAATCTGCTAGAGTTACTATAGGTAAAGGAAAGATTAAAATCATTGTTCCAAGCGGTCCTCATGGTCAAGCTCATCGTTCTACTTTTGCTAAACTAGCTTCGCAAGTTCTTAACGTTAATGAAGATAACATAGAAGTTATTACAGGAACTACAATCGGTGTAAAAGAGGGAGTTGGTAGTTTTGGTAGTAGAACTGCAGCTATTGCAGGCTCGGCAGTAGTGGAAGCTAGTAAAAAGATATTAGAAGATCTAAAATCTAGGGGTCTCACGATCGAAGAAGCAATAAAATCTAACGAAGAGTTCTCGTATGAAGTATTTTACAAAGCAGACGTAATATTTTCTCCAGGCGCACATATAGCGGTCGTAGACATTGACGAATATTATCGTCCTAAAGTTGTGGAATATTACGCTTTCGATGACGTTGGTAAGGCTATTATTAAAGAAGAGGTCGAAGGTCAAGTTATAGGTGGCGTTTTGCAAGGCGTATCTCAAGTTTTATGGGAGGAAGCTAAATACGACGAAAATGGAATTCCTTTAATATCTTCAATAGGAGATGAAGGAGTTCCAACTGCAAAGGAGGCTTCGTATAAGGTTATTACTAATATCGTAGAATTTCCTTCATCACTTCCTGACGGCGCCAGAGGAGTAGGTGAAGCTGGAACTACTGGATCCGTGGCAGCAGTGACCATAGCTCTAGAAAGACTTTTAGGCAAAAAAATTACTAGAACTCCCATAAGTCTAGATTTTGCTTTAGAATCTAACAAATAATAGATTTTATTCCAATCTCAACGCTTTAACAATATTCTAGCTGCTTATTTAAGGAAAACAACTAAATTTCTATAATATCACTTTGATTTAAACTCTTTCATTATGCATGTTTCTCTTCCATCTAATAATATTGCCAATTCCTTTATTACCTCAAGCCCTATTAGATTCTTGCCATCAAAGTCCCTAGATGTTAAGACATAAGTCTCTATTTTCTTATCACCAACATTCAGGATTGCTTTAGCAGTCCTCATTATTAAATATCCATTCAAAGTCTTAAACCTAAACCATAACGATTCTGGAATTTCTCCAATACTAAATTTAGCATACGTTGAAGTATCAAGCAATATGCTCCCATCAAAAACCAGTATCTATTCTTAAACTCACTTCTGACGAGTCTCCCCTTAGGTTTACTAACTTGACATTAATATATGGTTTTTCACCCTCAAAGCACTCTACTGTAACATACTTCCTGTTAGCCATTCTCCCTCACGTGGAAGATCTTTATCAATTTTGACAACTATTGCTTGTTTAACTTCTAAACCTCTCAATGCTTTAGACACGTCTTCTAAAGAATCGTAAGCCCCTAGAAATTTACCTTTTGCAATTGCAATATACTTATCTTTGGGTAATCTATCTTTTAATTCCTCAAATACTTTATTGTTTAACTCTCTTTCCTTCTCTACTTCAAAATCTTCTCCTTTAGTATTGCTTAACCATAAATCTATTGCTTGATTTATAGCCTCAGATAGAGTTAATCCTCTCTTTATGGCTTCAGCTTTAAATTCTCTAAGCTTTTTTTCATCAATCTTTTTTATAACCAAAGTCATCTAATTCACCTATATTATCTATTTCACCAAGGTATTTTAATATTAGTAAACTCTAAAGGCCTTATTCATTACGAGATAAGAAAAATTGAACACTAAGAATTTTCCGGAAATACTAATGAGAAGGCTTCTAATTAAAAATACTAATAGTTTCATAAAATTCTTATTCATTTAGATAGCGTAAAACAGGAAATAATAAGACAAAAACTTACTAAAGTACTAATGATAGTACCGTATATTCTACTAAAATTCTCATCCTGTATTATAATCTTAAAGTTTTTTATAATTTAGATGCACTTAACTTATGGAAGGATATTTAGACTATAAGAAAGACTCTAAAGCGTACATTTACGCTAAATTATACGATAGCTTAGTTGAGGGTAAATTAACTTTAGAAATGCTAGAAAGAGGGCTATTACAAAATGCTTCAGCAAAGGCCTTTCTGAGCGTTAAGTCGGCTATTAGTGCGCTTGTAGTAAAAAACCTTAATGAGATTATCAAGTCTAAAAACGAGAAGGAGAAGTACTGGTATGAGAGCGTTGGATATTCTGCTCCTATCACGGGATTAATAGGAATTTCAAAAGACCTCAAAAAGTTGGGCATTGATGCTGAAAACGCAGTTAGAATAGCTTTATCTCTACACAATGTAGTCAAGATCTTTATAGCGATAGAGGAATAGTAGGGTACTTAGATGGTAATGGAAACCTATACATAGATAAAGATAAATTTAGTTGGTGGACACGAGGATTAAGAAGTAGAAATCCTGCCGAACTATTATGCCCGTATGAAGGAGCCAGAAATAATGAAGATATAATTAGTCTAGGAATGATAATATATGAAAAATATGGAAAAGATTAGCGATATTATTAAGAGTCTTGAAGTTCTGAAGCATGATAATACTCTAAAAGTTCTTTTTTTAACTCAGCTATTACCAGTCAACCTTATACTTTATTACTTGCTAGTAGGTTATACTTATCTTTATTCTAGAAATTTAGTAGACATAGGAATAATTACAGCTACATCAATAAGCGGTATTCCTTCTTTTCTACTGCCTTTCTCTTCTACAATAAATAACTTGGTAAAAAACTTAAAGAGGTACGACATTACGATAATTTCAGCACAGGTTGTTACTCTAATATTTATTATTATCCTAGTGCTGACTAACTCTAGTTTCATTCCTCTTTACGGACTAGTTCAAGGAATCTTCATTTCCTTATCTATACTTAGGGAGCCAGTCAACTTGTACTTATTAAAAAGCGTAAACCTAGATTTTAACAAGCTAAGAAAGATTGAGGGAATCTTAAGTTCTTTACGCCAAGTGAATCAGACTGTTATAGTCATAACAATAATTATGCTGGAGAATATATACGGACTAATAATTTTTGACGTAGGATTCGCAATAGTGTTACTATTCATGTTAATTATCATTTTGCTTAAGCTGAGCTTACACTATCCTAAGGCAGAAAAATCCCTCACTTTCTTATTTATAGATCAGATCAAATCTCTACAGAAGATAAACACTACTGTAAAACTCTTCCTTATGAGTGATTACGTACTCTATCCAATTATTACAGCTGTATCTCCAATAATTTTCTATTTATTAGGAGTTACAAATATGTACAATATTAGCTACTCTATTTATCTAGTTCTCCTCTCAATATCAATGATTTTAGCAACATATATTTCTAACGTATTGAGCTTTGATACTTTCGGTAACTATGTGTTGTTCTACAGAGTTACAATAGCTATGGTAATCGTTTTACTATCCTTAACAGTCTCTCTCTTTCCTGTATTCATGCTAGGAGTATTTGCAATATTGGTACTGGAAAACTCTTCGTTTATTTATCTGAACTCTTTTCTAGTAACATCTATCGAAAAGGAGAAGATAAGAACTATAATACCTATTATGGAGTTCATCTTCTCATTAGTATATTCAGTAGCAGTAATTGTAATTTCAGAAATAGGTGCTGAGATTGGAGGGTTAAGTGTTCTAAAATATGTAGGGATTATTGGTGTAATAGTTTATGTAACATTGTTTTTTAAGACAAAGAATATTAGAGTAACTTTAAAATAGTCCTTAGTTTTGTGAAATAGAAAATTTGCCATAAATTTGCAGATATAAAGGTACTATATTTACTTTCTTTCCCATATAATCTTTTAAGTAGTTTTTCTTTAATTTCTGATTTGTGACATTGTTCAGTTTTTATCAATATTGATAAACAAATTTTCAATTAGACATTAAATTTAGAATAGCGGTTTACGGGAATTTATCAAGAGTGCTTAACATGAGGGTATCACAAATACAAATAGATCGGATATATTTGAGATAATTATGATTTTTACCAAGATTTGATAAGTAATTTTTCCAATAACATCGTTAGTATTTCCATAATGCTCTTATTCATTTAAATAGTGTAAGATAAGAAATACAAAAACTTTGGAAATATTAGTGAAAATCGCTATAGGAGTTCACTTATTTTTCAAGTCCATCCGTACTCACTATATATTTGTCCTTTCTTAAGACCTAGTTCTATTGCTTGCTTAACATAAGGTACTACATTATAGGGTAATTCTGAGAGCCTAACCCATTCTAATGCTCCCGCCTTGTTTGGCTCCATAATCACTGGTTCTCCCTTCCATTTATTTGCCTTAAAGAAAAAATCTACTCTTTCCTGATTTTCGAATCTATGCATTACATGAACTAGAACTAAGTCCTTTGAGTCTAACAATATTCCAGATTCTTCCTTAGCTTCTCTCATCATAGCATTTGTAGCAGACTCTTTAGCTTCTACGTGTCCTGCTATAACGCTCCAACAACCGTCTCTGTAACCAGTATTCTTCCTAAGTTGTAAGAGTATTTCATCATCTCTTAAAAGAAAGAGATGAACAGAAAGAATTTGAGGATATCTGGCCATAATTTAAGTGAAAGAAAAGAAGTAAAAAAGTTTCATATTCTCAAAATTGAATAACTTTTTACAAATATCTGTAATTAACTTAATACGATCCTATGATTTTCCCAATTATGATCTGTTTTTGTATTATACAAAATATATAATAATGTTCACAAAGAAAAGTTGTTTGTTCTAATTGTCATGAATAATCCTAAAACAGACAGTATAATTCCTATAAGGTAAGTTATAAGTCATTCAAGTGCATCGATAAACGATATAGATGCACTCCCATTATCTAGTAGCTTCACTTTCAGTCATTGATGCATGGATGATTATCAATGATTATGGAAAATAACGATAACGCTAGTATTTACTGAAAGTTCTTAGACTAGAATTTAACGGTAAATCCTTAAGATAAAAGCTATAGACTTTCTGAAAGTACTAGCGAACGACAAATCTTGCCTTTCATTATTGATTATAAGATTCCAAGTAATGATTCTCCAGAATCTATTACTATTACCTGGCCTGTAATAGTAGGTATTTTTAGAATAGTCGCAATAATTTCGGCTATTTCATCAGGCTCAACTATTCTTCCTAATAGAGTTTTCTCTTTGGAGAAATCTTCCTCACTTCTTTTATAAATATTGAGTAGACTATCTCCCATTTTGGTTTTTACTACTCCTGGCGCAATGGCATTAACTCTAACGGGAGAAAGTTCCACTGCCATGGATCTTGTTAAGGATATTATACCTGCTTTTGCTGCACCGTATATTGAAAGACCCCTTGCTGGTATCAAACCTGCTATTGAAGAGATATTAATTATGCTTCCTTCTTTATCCAACTCTTTCCCTATCTCTTGAGAGCAGAATATAACTGATTTTAATGTTACATCTAATTGCTTTTCTATCATCTTATCGTCTGCTTCAATAAAATAGGAATATAATCCTAGACCCGCATTATTTATCAAAATATCTATTTTTCCAAATTTTTTAATCGTATCTTCCTTTAGTTTTCTACAACCTTCTCTGGTAGATACGTCTGCAATAGAGATTTCTCCTTCTCCCCCAGTTTTTTCAATAAGCTCTAATGTTTCCTTAGCTTCCTCCACTCCCTTTTTTGCATTTACCATAACTTTAACGCCTTCTTTAGCTAACCTTATAGCTACACTTCTACCTATCCCTCTTCCAGATCCAGTTACGATAGCTACTTTACCAGATAGATCTAGAATCATATTAAACTCTCATTCAACAACAATATATTCTTTATTGAATTTCTAGTTTTTATTCATTCTTGGAGATGTATTCTAACTTTAGATAATCTCAGTTAAATGTTTAAAAAATAACCTTACTTTATGGAGTTTAGAGATTTCGGAAAAACAGGAGTAAAAGTATCAGTAATAGGTATGGGAACATATTACGATCCTCAATGGATAGTCCTTTCAAGAATTGGGATAACTCCTTCCAAGGAAAGAAGGATACAAGCATTAAGAACCGGATTGGAAGGTGGTATAAATTTTATAGATACTGCTGAGCTTTATAATACTGAAGATTTAGTTGCAGAAGCAATAAAGGATTACGATAGGGAAAAGTTGTTTATAGCGACTAAAGTTTGGCCTTCACATCTAAAATATAATTCACTGATTAAGGCTTCAAAAAATAGCCTAAAGAGACTGAAGACAAAATATATAGATCTTTATCAAATACATTTTCCTTCAAGAACAGTGCCTATAGAGGAATCAATGAGAGCTATGGAGAAACTAGTGGATGATGGCATAATTAGATTTATAGGAGTTAGTAATTTTAACTTGGAACAATTGAAAAAGGCACAGAATTCTCTTAAAAAATACGAAATATCGTCCATTCAAATGCCTTATAGTTTAGTTGATAGAAGAATAGAGAATGACATAATACCATATGCTAAAGAAAACAAAATCGCCGTTATATGTTATTATCCTCTTGGTCATGGAAGGTTAGCAAAACAGTTCCCTTCCGATGCAGTAGATCTAATAAGAAAGAATCACGGCGAAAGAACTTTTGCTCAAATAGCGCTAAATTGGATAATAAGTAAGCATGATAATACTTTTCCAATACCAAGGGCATCAAATCCCGTTCATGTAAAAGAAAATTTAGACGCAGTAGGATGGAGACTTTCTCCAGAGGAGATTGAAAATCTTGAGAAATATTTCTAAGTCTTTTTAGGAACCATAAAGGCTCTATCAAATTCTATAACCTTCTCCCCTTTTTGATTGTATCCTTCAGTTCTAATTTTTATGATACCGTATTGTGGCATGCTTTTTGATTCTCTAACTTCTATTACCTCTGCCTCGGAGTAGAGAGTATCTCCAGGGAAAACCGGATGCACAAATTTAACATTATCTATGCCTAACATGAATCCCATGCTACTTGTGTATTCTATGAGAAGACCTGCAGCTATTGCTAAAGTTAAGAAACCATTAACTACCAATTTTCCTTCAAATGGCTTTTCAGAATAAAATTTCTCCACATAATCTTTATTAAAATGAATTTGATTGTTATTATTTGTTAATAGAGTAAACCATATATTATCGACGTCTGTTATTGTTCTTCCTATTTTACTCTTAAATTTCATACCTACTTTAAAATCGTCAAAAAACGGTCCTGAAGGTGGTGGATCATTTTTCTTTTCTGGATTTGTTTTTTCTATATTTTCTAAGAGTTCTGTCCAAGCTAAAAAGCATTCTAGGCTCATGAAAGCCACCTGGAGAAGAATCTAATTGTCCTATTCCACGCATCTTCAGCAGCGTCTTTATTATAAACTGGACCCCTGTCATTAAAGAAAGCGTGTTGTGTTCCCGGATAAATCTTGAGTTCCAGGTCTTTCTTATATTCTATTATTGCCTTTAATAGATCCGGTAAACCTGAGTCGATGTTTCTATCCTCTCCTGCATAGATACCTAGTATTGGACCCTTTATTTTTGAAATTTTCTCTAAGGGATTGGGATTTGCTCCGTAAAATACTGTAACCGCATCTAATTCTACTTCCGTAGCTAACTCAAAAGCTAATCCTCCGCCCATACAGAATCCTATTGCTCCTATCTTCTTGTTTAATGTATTTTTTAGATTTGAATATACTGAAACTAAATCTTTTATCATCTGTTTCATAGTATTTTCTCTATTCATTACTAAAACGTCTATAATCTTTTTTTGAACGTCTGTAGAACTCTCATATACTTTTTGAATGTATATTTCGTCTCCCCTCTTTTCTGCAGGAATTGACCAGAATTTCGTCATTGTACTTTTAATATTTTCTTCATTCATAAAATCCTGGGAATAAAGATGTGGAGCTACAACATAATAGCCTTCTTTAGCAAATCTATTAACTATATCTTTTATGTTGTCATTTAATCCCCATATTTCATGAATAACTATTATACCTGCTTTGGGATTTTCTGGGCTAGCTACATATTCCTTAATTTCTCTATCTCCCCTTATTGCTACTTCTGAAGAAGTTATCTGTGACATATGAGACTTTTATTCTAATTTTTTTTAAACTTATCTACAATTTGTGAATATAAGTAAATATTTTTTATTTTTATTATTTTAGGAAAATACATATAATAAAAACTTAATAACCTAGAGACGCTTTATATAATATTATGACAGTTATGCAAGTGGATGATAGACATATTCCCCCTTTTATATTGTCAATGCCCATTAGGAAACTCTTTGAAAACCCTTACAGAACTTTAAGTCCTTTTGTGAAAAAAGGAATGACAGTTTTGGATCATGGTTGCGGTCCGGGGTTCTACACTATTCCTTTAGCATATTTAGTAGGTGAAAAAGGTATGGTTTATGCTGTAGATTCTGATAGAAAGTCAATTCAAGCTTTAGAAGATAAGTTAAAAAAGAAGGGTATAAAAAACGTTGAGACTTTTTTATCGAGAGATTTAAGCTTTATTCCTTCTTCATCTATAGATTTTTTACTTTCTAAGGACGTTCTTTGTTGCACTGTACTACATAAGGAATTGGCTAAGGAAATAGAAAGAGTTCTTAAGCCTGGAGGTAGAGCTTTAGTAACGATAAGAAGAGGTAGGGGAAAGGATCCTAGAGGTATTTCAGCAGAAGAATTTTTCTCATTATTTGAGTATATAGAAAAAAGAGGGGTTTCTAGATTTAGTGCATGGGTTGTATTAAACAAGCGTTAGATTTCTATTGTATTTGCTCTAACTTCTTTTCCTCTTATTGCTGAAAGTATTGCTGCAACTGCTAAAATTCCTATAGATACGAGGAAAGCTGCGTGCAAGCCTATAAGGAACTTAGATGCTACTCCTCCAATTAGATTGGAAGTTCCTAAGAATACCTCAAAAGCTACATATCTAGGTACGGCTAATGAGGCTACGGTTATCGTTATTACGTAACTTAGAAGTATTCCAGTATTTCCCAGGGTTCTTAGAATCCCTGAAATTCCTCCGTATAGTTTTTTAGGAGTGTTTGCCATAACTGCACTATTATTAGCTGGGAAAAACAACGATGAGCCTAAACCTCCCACTACGGAAATCAAGATAATGTCAATATAAGGCGTTACTAAGGTGAGTTGAGTCGCATAATACGCAGCTACTATGGCCATTAGACCTATTCCGAGCGTTGCTGGAATCCTAGCCCCTATCTTATCTGAAAGCCTTCCAGCAAAAGGTCCTACCATGCTCGCCAATATATATCCCGGTATTAGCAATAATGACGCATTAAATGGAGTAAGACCTCTTATTCCTTGTAAATACATTATGAGTAAAAAAGCAGTAGCTAAATATCCGGTACTTTGGAAAAATGATGCTAATAAAGACGAGGTTAAAACTCTATTTCTGAATACCTTTAGATCTATTAAAGGAAACTTAGTTTTTCTTTCTATAAGAACAAATGGAACAAGTAATAGAATCCCTATTATTATCATGAGTTCGTTCTTAAGAACCACTCCTTCTCCTGCTATATCAGCGCTTCCATAAGTTATTAGGGATAAAGAAGTTCCAAATAAGACTAATCCTGGAATGTCAACTTTGCTTTTAATTTTATTGACGTCTTTAACTACTCTTAGTCCTACTATTGCTGCAATTATACCAATAGGAACATTTATGTAAAATATGTATCTCCATCCTATGAAAGTAGTTATTATTCCTCCTAAAACTATTCCTAAAATTGCTCCAACGTTCCATCCGATGGACGTGAAACCAAATGCCCTTCCTCTTACGTTAGGAGGGAAATAGTCAGAAACTATGGCACCGCTATTTGCTTGCATCATTGAAGCTCCTACGGCTTGAATTCCTCTTGAGCCTATAAGGAAATAGGCTGTTGGTGAAGCTCCACACAATGCCGATCCTATTGTAAATACTATGAAACCTAGATTGTAAATTTTAGCTCTACCGTAAGAGTCTCCTAATCTACCTAACTGTGTAGTTAACACAGCTATTTCCAGAAGGTAAATCAGAATAATCCATATCATTGTAAATAAATTTGAATGAAGACTCTGTACTATTGTAGGCAAAGCTAATATGACAATTGTAGAATCTACGGCTCCCATTAATACACCCAGAACAACCACAGTTAGAACTAAGGATCTCTTATCCATATCCTTCTATTTTATAAACTCTAACTTAAATGTTTTTAATCAAAAAAATATAGATAGTTTTATATTTCTTACTATCGAAATCGATATTATGATGAGCTACCAAAAAGGTAGGTTAAAATTCCTTGTTCTCTGGCTTCTCAGTCAATCCCCAAAAAGGGGAATTGATATAATTGACGATATATCGAAAATGACGTGGGGTTGGTGGAAACCATCGCCCGGCTCAATATATCCTTTATTATCAACTTTGGAGAAGGATGGAGAAATAACAAGAAAAGAGAATGGAATTTATGAAATTACACAAAAAGGTATAGAGGAAATAAGTGATTTTCTTCCACCAAGATATAAGGGTAGTGTAGAAACTGGAGTAGAAGAATTAGAAAGCTTAATGGACTTCTTTGAAGATATGGGAAAGGATAACTTACTACCGTATAAAAATAGGCTAATCAAGGCAAAGGATAGGTTAGAGAGGCTGATAGAATGAGCGAAATTAAAGCAATAAATTTAACTAAAAAATTTGGAAATTTTACAGCAGTAGATCATATAAACTTTGATGTAGAAAAAGGAGAAATATTCGGATTTCTGGGCCCGAACGGAGCTGGAAAAAGCACAACAATAAAAATGTTAACAACAGTCTTAAAGCCTACTGAGGGAACGGCTATTGTTAACGGTTATGATATAATTAAAAATCCTTCTTTAGTAAGGCAATCCATAGGTGTCGTACCCCAAGAATATACTGCTGACGAAGATCTAACAGGGTGGGATAACATGATGTTTATGGCTGGAGTTTACGGCATACCTAACAGTGTTGCAAAAGAAAAAGCTGAAGAACTTCTTAAAATGGTAGAATTAACTCAAGCTGCAAAAAGAAAAGTTTCCAGTTATTCCGGTGGAATGAGAAGAAGATTAGAAATTGCTATGTCATTAATAAGCAGGCCTGCAGTACTTTTCCTGGATGAACCTACACTAGGCTTAGATGCTCAAACTAGAAACGCTATATGGACGTATGTTATGAAATTAAAGAAAGAATTTGACATGACTATCTTTGTAACTACTCATTACCTTGAAGAAGCCGATATGTATTGTGATAGAATTGCTATAATAGATAGAGGAAAGATAATAAAGATTGGAAGTCCTAAAGAACTTAAGGAGAGTATTGGAGGAGATATGGTTACAGTAGAGGTCAATGATATTGAAAAAGCAATTAAAACGCTCTCAGAAATAGACGGTATCCTGGAAATTAAAAATAGGGATTCACAAATAAGGATGAAGGTGAAAAACGGAGAGGAGATTGCTCCAAAAATAATGGAAACTTTAGTAAAGAATAATATAAAGGTTATTAGATTATCTATTTCCCAACCTACTATGGACGAAGTTTATATGGAATATACTGGAAAGAGCCTGAGAGACGAACAATCTAGTTCAGAAGAGGCTTTTGGATTAATGAGAACCATGAGGAGGGCGAGATCATGATGGAAGAAAAAATAGAGGAAGAAAAAAGAAATAAGTCGATATTTCATGGATTTTGGACATTAACTAATAGGGAACTTAAGAAATGGTATAAAGCTCCAGTAATACTACTATTATCATTAATTCAACCCATATTTTGGATAGTACTCTTCGGAAAATCCATGAATTTAGGAAAGATATTTACTGGAACAGCCATCTCAATACCAGGATTAGTAGTTCCTAAGGAAGTTCTAGATCAGATAGGCCAAGAAGTTCTAAAGGCGACTTTTGGAACTACTGATTACTTCTCTTTTCTAGCAGCTGGAATGTTATCTTTCATAACTTTATTTACATCAATGCAGAGCGGAATGTCAGTAGTCTGGGATAGGAGACTAGGATTTCTAGATAGATTACTAACAACTCCAATACCAAGAGGAAGTATAATTATGAGCAAAGTAATGTCCTCAGTTATAAGATCATTAGTTCAAGCTACTATAGTTTTAGTAGCCGCAACTTTACTAGGGATGACATTCGCTCCAGGGATAAATGTCATGGATTTCTTGGGAGCATATTCCGCATTGTTCTTAATGTCACTAGGTCTTTCAGCACTTTTCATAATGTTAGCAATAAGAGCTACCAGTTGGGAATCACAAATGGCTATAATGAACTTACTAAACTTACCTTTATTGTTCACAAGCAATGCATTCTATCCTATAAGCGCAATGCCAAGCTGGCTAAAACCAATAGCCGAAATAAATCCTCTTACCTACTCTAATGAAGCAATAAGAAATATGTTATTAGGGATACCAAGTAGTTTAACAATTGACTTTATTTACCTAGGAATGTTCGCAATTATACTATCAGCAATAGGTATAATATTATCCTGGAAATATCTTTCAGAATAGTCAGAATTCTTGACAAGTTTCTTCTATTATGTCCTTCCATGATGAATTAAGAAGATCTTTACAGTATTTTAAATACTGATATATCTCATCTTTATTTAAGTAAGGGAGTACTTGAGGTAAAGTAGAATACCAGGTTAAAGCTCTTACATCAATATTATCCGTAGTGAGCATTTGAAAAAGACATTGTTTGCTACTTTTTATATCATTTTCATTTATTATTTTCATTTCTATCATTTTTGGTACGAAATTCCATACTCTATATCTACTTCCTTCATCCTTATAACAAAGTAAATCTATTATGAGATTCTTATCTTTAATAACATTGTTTTCTATTAATTTCTGAAGAATTTCCCAGGCTTTATGCTTAACGTCTTTATCATTACTCGAAAGTAATTCTACTAGTTGAGTAATTAAATTGGGTTGGTCTTTTATTTTATCAATAACATCTGAACTGAAAATTTCCTTTGATAGATCCATTGAAAGATATTTATGGGCAATTAAAAATAAATTTAATTTTTGACTTTCAATTTTAGTAAATTTATCATAAAACTTAAATGAAAAATATAAAAGAACATCTGAGCTTCCTGGCCATCATTATATTTTTACTGTAATCTCTTTAGTACATTGCCAGCGGAAGTATAAATCAATATTATACCTATAAAATATAGAATAGAAGATATAAATACAAAGATTTGAGATAAACTGTTAAATAATGATAATACTAAAGCTATTATGAAAAGATAACCCGCAGTTTTAAATCCTTCCTCTCCGTATCTTTTACTTAAATTAAAGCTACCTACAATTGAATATAATATATCTCCTATCAAAGCCATTATTCCTGCTATAACAATTATTATTAATCCTAATGCAATAGACGGCAAAATATTAGAAGGAACAGTGTGTGGATGTTTTACAATAAGAGGAATTATTGGAACTATAGTTAATGCTAGAACTATTAAACCTAAGATAATCAGTGGAATAGCTATCAATATCAACGTTGTCCCAGTAAATGGGGGACTAAAATCAGAAGAGAGTGTTTTCAATATTCCATATCCTTTTCTTAGTTGTAATATGGATACAATACTAATTATAAGGAGTAGTATAGTTAGCCCAATTAAAATACCAATAATAGGTGTCAATAATACAACTAGATTGCTAGGAACTGCAGAAGATAGGAGTAAAGTGGGAATTATTGTTGCAATTAAGGCTATACTTCCAACTATACCTATTATTATTGTTACAATCTGCAGAAGTGCGTATAGTCTTATTTTGCTTAATGCTTCTCTATCTTTTTGATAATTATTCTGATTGTTTGGAAGATTTGGATTATTATAGCTCATAAATCTATTTCCAATCTCATATTTATATACTTTATCATAGTTTTTATGAACTTTCCTAGAACTTATTTTAATATAAGAGAATTTTTACTTTAGAAAGTTAGTCAGTTAGATTTTTATCCTTATGTCAGATATTTTTCAGTTATAATACGAAAAGATTTTTATTTCCCATATCCACAATATTTTTATGAAATCTTTAGTAAAATTAGGTCTTATACTATTGATAATTGGAGTAATAATAGGAAGTTTTGATTATCTTAATTTTTACGAATATGCAAGAAGCATTACTGCTTTTCCTTCAGATCTTCACCAAGCATATCTTGATCACAATTCATCAATTACATTAAAATATACTGCTAATGGTAGCGCTGTATGCATTTATTACACTAATGCTTCTTACCTTAAAATAGTTGGAATACCTTCTAATGCTCTTAATTCTACCATGTTCATAAAACCTTTTTCTAATAGCTCAATAAGAATAGTTTCTAGGTCATATACTTTCGTTCCGTCATACAGTGGAAATATAACAATCATAAATACTTATTCAAAGCCAATAATAGTTAATTATAAACTCGAATATTTACCTAGTAATGACGCTAATTTTTTCCACCTACTAATCGGTTCAGCTGTAAAGATCTTTATAATGGGAGTGCTTTTCCTCTTATCAATTTTATTAATCATAGCAGGTATAGTTTTGGCAATAGTAGGACATTTTAGACGAAAGTAGAATATGAATAATAGAGAAGGATAAATAAAGGTAGTTTATATATCAACATTAAAAATTCATATTCACGCAATAAGGAGAAATAAGCATTTTAGAGAGCAAAGCGTTGACTTATTTAACACTTATCTTAGATAATGCATTACATAAAGTAGAGGATGAATTGAGAGAAATGAAAAAGTTCTTATCAGTTGAATATGAAATTATTCTTCTGATTCTAACAGAATTGATTACTGCAAATAACGAAAAGATTATTAAATTAGAAACAAAATTGTTATCTTCACTTACTATGATTGGCCATTATCCTGAAGATCATAATACTTTGCAAGAATGACGCTAAACCAGCTAATACAAACATAACATAATATAAATGGAATTTTATCAACAACGAAAATAAAATAGAAGATAACGTTAAGAATACCATATCCGTCAAGTGGGAAAAAGCTGAAAGTTTAGTGTTAAAGCGCAATAATTTTACAACAGTTTCCTCTACTGCCGGTGCTCGTAGATAAGCTGTAGCATTGGCTAATAATATTATTGATAAAAATACGAAAATGGAAATGTTATAAAATACAGATAAGAGTAAAAACAGGAAGAACTCCATTATTGTCATAATAATATATACCTTATTGCTTATTTTATGCCCTATATAGAGAAACAAAATGAGAGGAATTTGAAAAAACGCTAAATAAAGGCTTATTTTTCCCGGAGGATAAGTTGAAAAAACTGAGAGGAGAATTAAAGGAATGTAACTTACTACTAAAACTCTCCTCATAGCAGCAAAGAATTTCAATGGAAATATGATCCATATTGATTTTAATCGAAATAATTCTCTTAAAGTTCCCTTTGGCTCTTCATATTTAATTTTAAGTGAGATTATTACATTTGAAATCAAAGCCAAAATCACTGCAAATAGAATAATATCGAAATTAATAAAAGATCTCAAGTAAAATAATCCTATTCCTAATATATTTAATAGCGAAGTTAATGTCATTAAGATAGAGTAATCCTTCCTCACGAAATCTTTTTGAAGTATTATAACAGACGAGAATATAGCGTTGGATACACCCATAAGTATTGCTGCTGAAAGAAAACTGTAAACATTCTTAAAAAAGAGTAAAGATAATCCTATTAATACTTCCATTATTGCTGAAACAACTATGTTTCTCCCTATTGAGAAAATAATAAGCACTATATAAGAAATCGATTGCGTTATCATTATTAAAGTTAATACGAGTCCTACTTGAAAGCTATTCAAACCGTAAATTTTCATCAAGGCAATAAATGAAAAACTCATAAATCCTGTAAAGAGGGAAAAGATTGATCTAAACACCATAACGCTACTTTTCTGATTAATGCTTAGCACCACATTTCTTCATAATATTTACATAATTGTCTACAAACTCTTTCGGATATTCTGCAGTATATTGAAGAAAAGGTTTCAAATATTTCTCATACAGTTCCTCAAAGCTCAGTTTTTTAACAAGCTCGTCTATTTGGTTAGGATCAATATTATAGTAATAATTTGTAGGATCTTCTATTTTAATGCTGTTAAATGCTCTTTTTCTAGATCTACAAGGAACGCAAAATCCGCAATGTATTTTTCCAGAGATTATGCAACTCCAAGTTTTTGAGAAATCTACATTTAATTCCGAACCTAATTTTATTACTTCAGCTTTACTCATTTCAGAAAATGGTGAAATTATACTCAATTTAAGACTGTGTGAAATTTCATCTACGACGGCTTTCCATCTTTCCCATTCCCCTTTTTACCAGCCCACAGCAACGGTATTAAAATTCGGATAAGCTGAAAAAGCAGCAAGAATTTCGATTAAATATTGATACCTTAACCTATAATTTATAGATGAAATAGGAGGTAAATCAAACGATTTAATGTACGAAGAAAAATCTATCACCGTAAGCTCTATGTCAATATTCTTTACTAAATCTTTCACTATTTCAATCTCTTTACGCTGAGGCGGATAATCATAGTAAATAAATACGGCATGTAATTGATATTTATCTTTTAGATAATACGCTAAAACTGTAGAATCTACACCACCTGTTAACTGAATGATTACGTCATTTACCATTTTTATCCTCACTAGACGGGTCTTTAGCAGGCATGTAATACGATATAGATTCAAATGAATCTATTCTTTTGTCATTGCTTATCTCATTAAAATTAATATCAAGATATTTAAAGATCATAATTTCATCAAATAGTAGTTTTTAATATTTATATTTTTAGCTAAAATAAATACCGATCAATGTTAATTCTAGAGAAAAAATGTCTCTATATTAATTAAACATTTTATATAAAATAACATCTATTTTTTATCCTTTTTAAATATTGTTAATGATAAAATATGTCAGAAATAATCTTTGGCACTTTTATACTATTCTTCGTAGTTTTGACATTAATCTAAGAGAGTTTATTGCATACTGTAGAATAGTCTAATGGCAATTTATGAAGATTCAATATAATTTACAGATAGATTCTACGAGGAGTTTTAGAAAAATTAATATATTATAATGCTGTAGTGGTTACTTTAATTTTTCCTCAGAAATAACGTTAAGCTTACTCTTAATTAAACGTCTTGTTTAGAATTTACTTTGATGTAGTGAGTCCAGTACCTAAGAAAATTCAACAGTCAACAACACAATATTATAATATAATTTTTATATTTTTATTACTAAAAATGAATCAATTAAATGATATTTTGAATATTAAAAATAATATAAATATTTCTGATATAATATAGTTTTATTCATATATATTATTTAATGTATTATTCTTAACAAATTCTTAAATTTATGAAAAACTTAAGTTTTTATGAGTTTTTCATAAACTTTTATCAAACCTTGAGTTCCCTTTTCTCCCATGCCTAGCGACACCATCGAATTATATAACTGTAAGGCTAAGGATGTTCCAGGCAATGGGAGAGATGCAGATGTTCCAGTATCCAGTGCGTATTTTAGATCTTTCTTTAAATGCGCTGCCTTAAATCCAGGTTCCAGATCTCCTTTCATGATTTTAGGTAAATAGTATTGGACTGTGAAAGAATTTCCTGCTCCTGTAGATAGAACTGAAAACAATTTCTCATCATCTATCCCTAAAGATCTAGCAAGCATAAGACTTTCGATTACTGCAACCATATCTAAAGATACTACTACTTGATTACATAATTTCAGTGCTTGGCCTGATCCAATTTCTCCAACATAAATAATATTTTTACCCATAGCTTGGAATATTGGTTCGACTTGTCTGAATATATTTTCCTTTCCTCCAACCATAATAGTTAGAGTGCCCTCTCTGGCACCCTTATCTCCACCCGTTACTGGAGCATCAAGAAACTCAATGCCGTATTCACTCAGTTTTTTAGCAGTCTTTTTTGCAAATTCAGGTGAATTTGTACTCATATCTATAAATATAAGTCCCTTTTTACCACTTTTCACTACTCCTTTTTCGCTAAACAAAACGTCTTCTACGTCTGGTGCGTCCGTAACCATTGAAATAACAACCTCTGAATTTTCTGCTACCTCTTTAGGAGAATATGCTACTTTAGCTCCACTTTTTCCTAGCTTCTCTGCCTTTTCTATTGTTCTATTATATACTGTAAGTTCGTATCCTGCCTTTAATAAGTTAGAAGCCATGGAATATCCCATAATACCTAAACCTATGAAACCTATTCTCATAATAGTGAGTAATCTCCTTCTGTATAAAACTTTTTGAGTTATAATATATCAGCGATTTCTAGGATAATAGGTCTTCTAAAATCTAACTATTAAGGTTCATCTAAATACGACGATAATTCTTCATTTCACAATTAACCTTATTCCTAAATAATAATTTCTAAATGTGAAATATGGAATAGTTTAACTGTTAATGCAAAAACTTAAGTTTATTATGAAAAAAGATAAATTCAGAATTTAATATAGATGGAGAAGATAACTCTGTTAAATAAATTATATCAATCCTTATTGCACAATTAATTTTGTATTAAAAGCTAATAAAAACGATAGAAAATTTTAAATTCAGCAACTATAAATACATTACTGATTATGGCCATGGGAAAGCTAACGTATCTAGCCATTATAATATCCATTATAGTCATAGCTTCCCTGGTTTGGGTCAACTTTCCATCAATATTCCCTCCTAGCATCAAAGAGATGAGAAATACTTTTACTGCAAGTGTTACAACACCTCGAGTTAACGCCTACGGAGTTAACAGCACATCTTTTAACCTAAGTTTTTCTATTAAGGTTAGAATTCCAGATTACTCTGGAAGAGTTCTTCTTGCTACTGGAGTTATTCCATTAGGGGCAAATCCTTGTACTTATCTTCCTCCTTCCTTCTCACCGAATATTACACCACAAGCAGTATATAGTGGATTCTCCTCCAAAACTTTCGTGGTAATGTTATTGAACTCAACAGTATATACGGAAAACAAAACTTTCATAGTAAGTTTAGACGCAGTGTCAACTCCCAACGATAACTGGGTGTTTTTAAGTCAAGGCTTTAACCTAAAAGAGACACCAGTAGTATGGATAATGGTATTTGAAGACCATCATGTTTACAGAATAGGAGTAATAGAATTCGAAAGAGTTGGAGAAGGTTTGCTTTACATGCCTAAGATAGAAAGATGTTAGAATGTTTAGCATTTTAAGAAATTTGAAAAGCACATAAAATATCATTCAATGAACACACTCCATTTCCATTACATTAATTGAAAGACATCTCAAAAAGTGCTATACAGTAGACCTAAAATCATCTACGTAAAAATAAAGTTTTTATCTATCATAGAGTATGACGACTCTTAGTGACTGTGAAGCTCCTCCCTCTGGCAAGATGAAGCTCTGAAGCAGGAAGCCACGTCACTAAGGGCGTGGTAGACTTTACATAGCGTAAATTGCTAGATGATAAGATAAGAACTTACAAGGCAATTAACGAATTTTCCAGAAACTTCTTTTGAAGAAAAATGTTTTAACTGGCTATGTCTCCAGTAACTGGAGATATCTCCTGTTATTCAACCCAAAGCCTAAAGAAGACCCGAAAGACCTTTTCGATAGGGAAAAGGAAATTGAAAAGTTAAGATTCGGAATAAATTATCCTATGACCCTTTTACTGGGAATAAGAAGGAGTGGAAAATCTTCATTAGTCAAGGTATTGATGAAGGAGGAGAAAGGAATTTGGTTATATCTTGATTTGAGAAAATTCGAGTCGTCTGCTTACATTAGTTATAAGGATATAATACAAGAATTAGAAAAGTCTATAAATACCTCTCTGCCGGAAAGATTAAAGAAAGTATTCGCTGGAGTGAAAGGCGTTAACTTTGTAGGAGTAAACGTAATATTTAACTGGGGAAAGGAGAGGATTAAATTAGCTCAGATACTAGATAAGCTCTCAGAAATTGCAGAAAAGGAAGGTGAACGGATTATAATAATCTTTGACGAATCACAAGAACTCAGAAAACTTAAGGGTGTTAATTTATTATATCCAATAGCTTACGCTTTCGATAATCTAAAGGTCAGATTCATATTTACAGGTAGCGAAATAGGAATGGTTTATGATTTTCTTAAGCTAGACAAGCCTGATTCACCCCTTTACGGAAGGGCTTATACAGAAGTTAATGTACCTCCTTTCAGTAAAGAGACTTCGCTAGAGTTCCTTAGAAAAGGATTTGAAGAATTTAAAATAAAAGTTGAGGAAAGGGAATTAGAAGATGCTGTAAACACTTTAGGAGGAATACCTGGCTGGCTTACATATTACGGATTTAACTATATTCAAGAAAAAGATCATGAAAAAGCACTTAACAAGACTGTTGAAACCGCAATTTCTTTAATAAAGAAAGAATTTAACAATTTCTTAAAAGGTAGAGAAGGGGCTAAAGAAAGGTATAAGACTATAATGACAGTGTATAAAAACGGATGTAAATGGAAAGAAGCTAAAATTGCCTTAGAGGCTAAGGAAGGAGTGAGAATTGATGATAAGAGGTTCACGCAACTGTTAAATAATCTTGTAAAGGCATCGTTTTTGATAAAAGAGGGAGAAATATATAAGCCTACTGATGTATTAATTGAAAAAGCCTTCTCGTAGTGTCAATATTACTATAGGAAAAAAGACAATTTAAGCGAAATTAGACATGTAATAAATTCTCTATTTAAGTAGAAATGGAATATTCTATGCATAATGAATTATTAAAAACTCTAACGGATTTGTAATAAAAATGGGTAGAGGAAAGTATGCACTACCTTCAGATCTATCTACTAAATTAGGTTTAAAGCATTCTGCTAAAAACTGGATAAAGAAAATGAAATATGACTTTCGGTATTTGAAGGTCATTAGATTCAATTTTATCCAGATCCAGATACTTTCTTTCCATAAGTTTACTAAATTCTCTATAGTTCATTTTAATAATAAAATATTTTCTAAAATACTAGTTTTACCCGGGCATTAAAGGATTTTTTATATTATTATTTAAAACACCAACAATCTTGATTCATATGAGACTGTGGTCAATACATCCCAAATATCTCGATTCTCAAGGACTTTTGGGCTTATGGAGAGAAAGTCTACTGGCTCAAAAAGTATTGTTAGGGCAAACAGTAGGTTACAAGAATCATCCCCAACTAATAAGATTCAAAAATACTAAGGATCCTATTCTTTATATAGGGACTTATCTATATTATGTTTACGTTGAGGGAGAAAGTAGAGGATATAACTTTGACAAAAATAAAATAATAAAATACGATTTAACGGTTAGGATGCCAGTAACTAAGGGACAAATACAATACGAATTCCAACATCTACTTGAAAAACTTAGAGTAAGGGATTCAAGTAAGTACGAAGAAGTAAAGGATGAAATTATCATCGAAACCAATCCCATATTTTACGTTACTGATGGAGATGTGGAAAAATGGGAAAAGATAAAGAGCAATTTAAGAATAAAAGTTTAGCCTTTTTTAAAATTTAGAACCAGACTTACTATAGATTTCAGATGAAAAGTTTTTGTTATATCAAATAAAAAAAAGACTTATTATAAAATATTCATCAATTTAAAATATATTAATGAATCTGGAACTATAATGAATTACAAAGCTTCATATTTCCTCTATCTATTGGAAAAATCTACTTCATATCAATATAATCTGTGAAATTTATTAACTATGATATAAATTCAATAACTTCATTAACTTATGTATATTTTTAGGCTTTTAACGCCGTAAAATAGACCGTTAGTTATTGGTTCTAATCTTTGATCAACTAATTCCATGTTTGAGAATCTTTCTAGAAGTGTGCTAAGAACGATTTTACCTTCTAGTCTAGCTAAAGGTGCTCCTAGACATGTATGCACGCCGCTTCCAAAAGCTAGATGAGGATTGGGACTCCTATCTATTATAAACTTGTCTGCATTAGGAAATTGATTTTCGTCCCTATTTGCAGATCCTATCCATGCTAATACCGCAGAACCTTTCTTAATTTTTTTACCAGAGAGTTCTACATCGTTTTTTGCTACTCTGAACATTCCTTGAACAGGAGATCTATACCTAAGGATCTCTTCTATAGTAGTAGTCATTTTTTGCTTATCTTTTTTAAGTTCATATAATGAATTTTTATTTTCTAATAAAGTCAATACTCCGTTTCCAATTAGATTAGTTGTAGTCTCGTTTCCTGCTATTAGAAGTAATACTATAAATCCTAATAACTGTTTTTCAGTTAGTTTTTCTCCATCAACAGTCGAACACAAAAGTAGCGATATTAGATCTTTTTTAGGTTCAGTTTTTCTCTCTGCTATAATTTCTGATAGATACTCAATCAATTCAGTAATTTTATCAGTAGAATAATCATTAACTCCTACGAGACTGTCAGTCCAATCTTTAAATTTCCATAAATCTTCTTCTCGAAGGCCAAGCAAATTAGCTATTACTCTTACTGGAACAGGTATTGCTAACTCACTTATTATATCTATTTCGTTACCTTTAACATTATTTAGAATTTCATTAACTATATCCTTTATCCTATTGCTTAATTGACCTACGTTATTCGGAGAAAAAGGATCAGAGACTAATGCTCTTAACTTATCGTGAGCTGGTGGATCTAAATTTATTATAGTTCCTTTTAATATTCCGTCCATTTCGAATTCCCATGAAAAATTCTTATAATCCCATAATACCTTTCTTACATCAGTATAAGAAAAAACGTTCCATATTTCAGACTTTTCATCAAAATATACTGGAGATCTTTTTCTCATAATACTATAAAAAGGAAAAGGGTTGAGTGGATCTAAATTAAATGGCATGTAATCTATTCTCTTTACCTTATTATAAATCCTCTTAACTAGTTCAATTCAGAAAAGTTTATAACTTAACTATTAACTATTTAATAGATCAAAATGGTTCAGTATAAATGGGTCGCACTTTCAAATACAACAATTGGAGTTCTAATGTCTTCAATAAACGGTACAATAATTCTAATTTCTCTTCCAGCAATTTTTAGAGGAATAAATATTAATCCAGTAGAACCTTCTTCTTTCCAATATCTGTTATGGATTCTAATGGGATATAACGTAATAACTGCAGCGTTTCTTGTGACTTTTGGTAGGCTTTCAGATATCTTCGGAAGGGTAAGGTTATACAATTTAGGCTTTGCAATATTTACTATAGGTTCTATATTGCTTTACATAACTCCTAATACTGGAGATCTTGGAGCTCTAGAGCTTATAATTTTCAGGCTTGTACAAGGAATAGGCGCGGCCTTTCTTTTTGCAAATAGTGCAGCAATAATAACTGACGCTTTCCCAGTGACGGAAAGAGGCAAGGCGTTAGGTATAAATCAAATAGCAGCGTTAGCTGGATCTCTAGTAGGTTTAATTTTAGGAGGAATTTTAGCTACTATAAATTGGAGATTCATATTTCTAGTAAGCGTTCCAGTAGGAATATTAGGTACAATATGGAGTTACTTCAAACTCAAGGAAACTGGAGGAACTGCAAAAGGAGAAGGAATAGATTGGATAGGCAATTTAATTTTTGCTGGTGGATTAATATTCTTACTACTAGGTGTAACATACGGATTAATGCCATACGGAACATCACAAATGGGTTGGACAAACCCCTATGTAATAGCGTCCCTAATAGCTGGTGCAGGACTTTTAGTAGCCTTCCCGTTTGTAGAGAAGAGAATGAAATATCCTATGTTCAGACTTGAACTATTCAAGATAAAGGCATTTCTAATGGGCGGAATTTCTCAGTTACTTTTCGCGTTCGCTTTCGGAGGTATAATGATAGTGCTAATAATTTTACTCCAAGGTATATGGTTACCACTACATGGATATAGCTATTCCTCTACTCCATTTTGGGCTGGAGTTTACATGATACCTATGATGGCAGGATTTGTATTAATGGGACCTATAAGTGGTGCATTATCGGATAGATATGGAGCAAGAACTTTAGCAACTATAGGATTAAGCATAGTAGGTGTTGCTTTTATAGCATTGAGTACATTGCCGTATAATTTTAACTATCCTGAATTTGCTACAATAATCTTTATTATGGGATTAGGTAGCGGTATGTTTGGAGCTCCAAACACTACTGCTATAATGAATAGCGTTCCAAGAATGCATAGAGGCGCAGCGTCAGGGATGAGAACTACACTTCAGAATTCAGCTCAAACTGCTAGCTTAGCGTTATTCTTTACTATAATAATAGGAGTACTAGCAGCTACATTGCCCACTGCTCTTTCAGACGCTGTTACGAATGCTGGAGCTCCTCAATTAGCTCCCATAATGTCAAAAATACCGGTCACAAGTGCTTTATTCTCGGCATTTCTAGGTTACAATCCAGTTGGAGCTATACTTTCAGCTTTACCTCATCAATTGACAGCGTCATTAAGTCCATCTACAGTTGCAACTTTAACAAGTAAACAGTGGTTCCCAGAGACCATTGCTCCACCTTTCATGCATGCACTTAAAATTTCGTTCTATATAGGCTCTGCAATGGCTTTCTTAGGTGCAATATTTTCAGCATTGAGAGGAGGAAGAACAATAGCTGAAGAAGAAATAACAAGAGTTAATTCACCAATTCAAAGGGGTGTAAAGGATGAAAGAGATAGAATCTAAGGAACTAGAAGTTCTAAGAATAATGTCAATAATATACAAAGAAATTAATAGAGAAGCGTTAAAGAGAATAGGAGAAGACCTTTCGCCATTAGATGTTGGAATAATAAAGGCGTTGAGTATTTCTCCTTATACTCCAGCTAAAATAGCTAGTATTTTAGGAGTTTCAAAGTCCGCTATGACTTACGCTGTAGATAGGTTAGAAAAATTAGGTTTAGTTGTGAGAACTAGGAGCGAAAAAGACAGGAGAGTCATACAATTGGAATTAACGGAGAAAGGTAAAGAAATCTTGCTGAAGGCTGAAAAAATATATTCTGAAGTTACTAGGGAAAAACTTAATGTATTGAGCGAAGAAGAGATCAGCACGTTAATACAAATACTTCAGAAACTAGTCTCACATTAGAGAATTTTTAATTGTGATAACAGTGAATAGTTTATTTAAATTTTGTTTAATATTTTTATTTCATTAGATAATGGAGTAAACTATGTTAAAATTTACGTTAATTTTTCGTAATTATGTTTAACTATTTAATTTTTATCATATTATTTTTAACGTAAGTCTACAGGAATTTTAGTACAAACTCTGACTGTGAACTACCGCGCCCTAACGGGCGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCAATATGGGACTGTTGAATGGAGCAGAGGCGTACCACATGGACCCTCGCTTTAACCAAGGCGTCTCAGTGACGCTTACTCCGTCAGTGACTGCCATTAATAGAATATTTGAAAAATACGTATTTAAATGTAACCACAAAGGGGGCTCCTACGGTGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCCTTACAAGAGTAAAACTTTTATAAAGAGAACAAGAAAATAACACAAGCCGAAAGTGGGCATGGGGATAAAACCCCGTTGGATAGGCTGGCTATACGTCCCCCGCGATCTAACATGTGGGACAACATCCCGAGTAGGAGCGTGCAAAAATTTAAGGGGACGTTCTCATACTTAGTTCGCACTATCTCCTAACAAAATTAACAATACAACGCGTATTATAGAAAAATTCAAGAATCAGAAAAAGAGTATTACACATACAAAGTGAAGATCCTAAAGTTAACCTCTATCGAGTGGTTTCCTCGGCTCTTCAAGCTATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTATCCATCTCCACCCTTACGGATGGAGTCTTCCGCCCCCTTTGAACCCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGGTCGACCCTTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATCTAGTAACGAGTGAGGGGAGGGTCTACGAGAACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATACTCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCCAAATATACTATGGAAGGAGAAGGACTTGAGAGGAAAGAAAACAGATTTTTACGACGCACAAAAACTAATAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATATATCTTCCTAAAAGTTGAAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAGTCAGTGACGAGGAAAAAATAAGCAAGGAAATGCTTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTAGAGTACACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATCACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGAAAACTTTCTTCGGGAATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGTGGTTTAGACCCAATAGTTGAGAGGAGCGGTAAAGCTACTGTAAGTAAGGGAATATCGAAGAAGGGTAATAAGTCCTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTACACTGCTTTAGCCAGGAAATTGGCTAGAATAGTTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGATCCTCCCCAAATCGCCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCAAAATATTTATTACTGAACGCCCTTGTTAAGATAAATTAAGTCAACTCATTTTCTTTATCCAGTTTTTAGCAGAATGCTTTAAACCTAGTTTAGTAGGTAGATCTGAAGGTAGCGAATATTTTCCTCTACCTATTTTTATTATAAATCCATAATTTATTAATGTACCCAATAATTCATGAAGTCTAGAATCCTCTATTTCTTCCTTAAATAAGGAGTTAACGCTCTCTCTAATTTCACTTAAACTACCCTTATTGCCTAACCTAGATATAGCTAAAATTGTCTCAGCATATCTCATTGGAGAATTTGATGACTTTAAAAATCTCGTAAAATCTCTCGAGACCTCCTTGGCAGCCTCTTTTAATATTATCTTTATATCTACCTGATGAGAATGCTTCATTGCATAGGAATAACTTCTTCCGAAAAGAGCTAACCATCCTGGTATACCGTCAAAAAGTCTAATTGCCTCCTCTAAAACCTTTTCGTTAACTTCAATTCCTTCTTCTGTAAACCCTGCCTTTAAGAATTCCTTAGATTTTTCTTCATTAAAACGGTCTAACTTAATTCTAAAGAACTTTCTTCCAAAAAACGGCTTCTCTTCTTCAACTTGATTTAATATTTCTTCGGTAACTCCTACGAAACTACCAGATACTACAATTATTGTATTGTTACACCATTCATAAATATCGTGAAGAAAAGAACCTAAATCAAATCCTCTAATCTTTTTAATATTCTGAACCTCGTCAATAAAAATCACTAGGTATTTTCCGTTATCTTTAGATATAGAATCTAATGCTCTAACAACCTCATTAACGTCGTGAGTATTAAATTCTCTCAATCTTATACTTATCTTAACCCAATTAAGCTCTAAAATATCAGTAGGATCTATACCGAGTCTATTTGCTATTATTTTAGAAACTTTTCCAGCAAACGTATTCTTTCTTAATACTTCAACAGAACCTTCTATAAAAATTCTAGAAAAAATCTCCATTGGATAAGATTTTTTATTACCAAGTTTACCCAGATTAATAGAGAGAGCCATATAATTCGAAAGTTCGTTAAGCGTCACTCTAACTAAGCTTGTTTTTCCAATTCTTCTTATACCTAAGACTGCGGCAAAATCTCTATGCGCTATTATATCCTTAAGTTCCTCTATTTCCTTTTCTCTATCAAAGAAATCTTTCTTCTCTGTTTTTGGTCTAGTATCAAAGAGAATTTCCGCCACCGAAAATATTCCGGTACCGGAATTTTTAAAGTTAAATCGCCTTCTACTAGATTAACCATTATTATGAAGATATATGGGTCAAGAGTACCTATAGAGTCACTTTCAATTAAACATAAATTAAATTTATGTAATGCCGATTATAGATAAATTATTCAGTAAAATAAAACATTTAATTTTAATTATATTAATAAGTTTTGTTGTACATTAAAATAGTACAATACTTTCTCCATTAATCTTTTGTCTTAAAATAAAGCGTTAATTATCTCTTATATTAAAAAATATAATTGTATTTTATTTTTAATTAATTATGATATTATATTACTAATACATCGTATTTATTCAATTATTTGTGCCTGGGACAGTACCTCAAGGTGTCCTAAAGGTATTTATCAATAAGTGTCAAGAAGATGTTTAAGAAAAACGTGAAAATGTTATCCAAAATGTGTCAACATCGTATTAGAAGGAGAATTAGAACGATCCATAATAACGCTTAAAGCTTCATAATATAATATTCTAAACATGGAGGAGCTAATTAAGAAAGCTAAGGAGTACGACATCGATATTAATGACCTAATAATAGACGCTATTTCAAGGAAAGATCCTAAAGAGGCAATTAACTTAAGAATAGAATTAGCAAAGAAATACATTATGGAAGCAGAGGACTATTTGAAGAGAGGTGATACCGTACAGGCTTCAGGGAAGGCTTACAAAGTTGCTGAAGAAATCGTTAAGGCCCTAGCAGAGAAATTCAACATTCCTGAGTATCAACAAGCATTGAAAGAAGGAAGGTGGTACACATATTGGTTAGCCTCCGCAGTTAATAGGTTAGCTAAGGATTTAGGTGATTGGATTTTAAATGGTTGGAATTCCGCTTATACTCTTCACGTGTGGGGTTTTCATGAAGCAAAACTTTCAACTGTAGATATTACTGAGCATCTAAGAAAAGTTAAGGAAATGTTAGATAATGCGGTAAAAGTAGTAGGGGAATAGTATTTGATAAGATAATTTTTAAAAATTTTCAAGATCTCGTTATACTGCAAGGATTTCCCAACAAAAAGCTATAAGAACTTTCAGTAAATATAACCTAGTATTTTTAAAATTTTATATTTTGGCTATTCTAATTCTATAGATAATATTTTTGGTTCTGTCATAGTCATTATTGTGTTTCTTACACCTTCTCTATTTCCTAATCCACTCATTCTAACTCCACCGAAGGGAAGAGCGTCCCATCTTAGTCTCGTACTATTGTTTATTATTACCGCGCCAAATTTCAATTCTTTAGATATCCTTAGTGCCTTATTAAGATCTTTAGTAAAAATGGCTGATTGTAGGCCATAGTCCGTTGAATTAGCTATATCTATCGCCTCATCAATTGAGGAGAATTTTACAATAGGTGCTAGGGGACCGAAAACTTCCTCCTTCATTACTTTCATATCCGGTGATGCATTAATAAGAACTGTTAATGGATAATAATATCCCTTTTGAATTCTGAGACCAGAATATATTTTAGCACCCTTGTTTTTAGCATCTTCAATAAAATCATTCATTGTATTTACTGCAGTATTAGAAATTATTGGACCTACGTCAGTATTTTCATCTAGAGGATCTCCTACCTTTAGTTTATTTACTGCGTCTATATACATTTTGGAGAATTTATCGTAAACGTCTTCATGAACAATAATTCTTTTTCCTGCATTACAATTCTGTCCTGCATATTCAAATCTAGCCTTAACGCTTACATTTACTGCCTTCTCTATATCGGCGTCGTTTAATACAATTATTGGATCGGAACCTCCCATCTCCATCATTAATCTCTTGCTAGTAAGTACAGCCTTGCTAGCTATACTTAATCCTACTTTAGTAGATCCAGTAAAGGTTATTCCTTGAATTTTCTTACTTGTTATCAATTCATCACCAATAACTGCAGAGTCTCCAATTAATACACTTAATACACCTCTAGGGAGACCAGCTTCATACATAATTTTTCCTAGTTCTAAAGCCGATAACGGAGTTGAGACAGAAGGTTTTACTATTACTGTGTTACCTGCAACAATATTTGGTGCCACTTTATGTGCAAAGCTATTTGCAGGAAAATTAAACGGTAATATGGCAGCTACTATCCCCAAAGGTTCTCTAACTTCCATGACAATTCTGTTTTGATTTCCTGGAGGATATTCATAAGCATCTACCCTATGTACCTTCCCTTCTAATACAAACCTTGCTTCTTCTGCCGCTATTTTAAATACTGAGATTGCTCTTAATATCTCAACTCTAGAATCCTTAATAGGTTTTCCAGATTCTAACGATAGAGTTTTTGCCAAATCTTCTTTTCTCATCTCCATTATTTCAGAAGCTTTCATCAGAATTTTCGATCTGTCTTTTAAAGGTAATTTTGAGAATTCTCTAAAAGAGTCTTCTGCCAAATCTATAGATCTTTTGATAAGATCTTTATCTTTGATTACGGAAACTTTTTCGAAAGGTTCTCCATTAGCTGGATTAACTATGCTTGAGTATTCTCCAGTATCTACTTCTTCTCCTCCGATTATAAGTGATTTCAAAGCATTCACCAAATAATTAATATTATTTACTATTAATAAATATTTTGTTTAAAATATATAAGTAATTAAATATAGAATATAAGTTTTTTAAATCTAACATACTGATGTAAAAGCAAAAAGTAAGACAATTCATAACTTATATATTAATAATAGAAGACTAGATAATATTTATGAAAAATTATTTTTTGACTTTCTTAATAAGTTCCTCAGCTTTTTCCGCATACTTATTTAGGGCGTTCCTAAGATCTTTAACACTTAGTTTTTTCTGTTTTTCTCTTATATTATCCATTTTATTAAGGAGTTCATTAAATTCCTTCTCTATATCATCTACCTTCTTACCTTCTTTCTTAGCCTTAGCAAGTTCGGAGTTTAAAGTACTATTAACAGAATAGTACAACTTATTTGTATCTTTCATTATTTTTTCCTTTGTATCATAAACTTTTTTCTTTATCTCCTCTACAAGTTTTAAAGTTTCTTCTGTAGTCATATGAAGAATTGAGAGAACTAGGTTAAAAATCTAATTTTATTTTATTTAGCTGTAATTAATTTTGATATATTAAAAATTATGAGATAAATAAAGTCATAAAACTAATTTTGAGAGTTATAAAAATACCACTTATATTATGTTTATCATTTGGGTTTGAAAGTATTTTTGCCTTTAATCCTTAAGTCGACATAAGATTTATTTAACTAAGTAAACAAATTAACTTTTGATGATAAAAGGATTTTACATCTCTCATGGATCTCCTACAATTCTAACTGAAAATAATAAATGGAAAGACACTCTTAGGAGTATTGGGAAAAGAATAAAGGATGAATTGAACCCTCAAACTGTTGTAGTAGTAAGTCCTCATTTCTTCTCTTGGTCCGGAACTTTTTTAGTAGAGACTCAAGAAAAATTAGAGTGTATTCAAGATTATTATGGATTTCCAGATGAATTGTATAAGTTTTGTTATTCTGCAGAAAATGATGTAAGTCTGGCATATAAAATAATTGAAAACGCTAAAAGAAAAGGAATAGATATAGCTGAAGATAATAAATGGGGATTGGATCATGGGGCGTGGATACCGCTAATGTATATGTTTCCCGAGGGAATAAGGGCTGTTACTTTATCAATAACAGACAAGTCTCCAGAAGTTCACTATAAGTTAGGTGAAGCTATTGCTCAATCTATAGATGAAAATGTATTAATCCTTGGTACCGGATCTCCAACACATATTTTAGAATTATTTTACTTTAACATAAAACCTAAACAAAGCAATTTTGATAGGAAATTGATCGATCTCCTTAACAAAGGAGATTTTGACTCAATAATGAATCTTGAGGAGACAAAGGAATGGAAACAAGCTCAGCCTGAGGGATTTTTAAGGCCAATGTATGTAGTTATGGGTGCTATAAAACCTAAGAAGGCTGAAGTAATAGATTATGCAGTACCTTGGCCAGGAGTAAGTATGTTAGCTTGTGAATTCAAATAATAATTGTGTATATTAAAAGCAGAATTTTCCAAAGACAAGATAATAAGCGAGCGTTATTTTTTATTTTCATATGCATATTTAGCTACTTTCTTCTTGATATTAGGATCATTTTTTCGTATTATTTTTTAATTCGTTAAGAAGCAGTTAGAATTTCAATATTTATAATTTTGTGCTAATTATGATTAGAATTAATAAAAATCAATATCCTTTCCACGTGTTTTTAACTACCCATACAGGCTCCTCTTCAACGTCTAAAGGTATTGGTTCAGCTTTAAGTTCGCTAATTAATTTTTCATTAACGTCTACTCCTATCCCTGGTTTTTCAGGAACCTTCACATAACCATCTTCTACTGGAGTTCCGTTATATACTAAATCTCTTTTCCATTGTGGGAACCAATCGTAAAAGTTTTCCAATATCAGTAAGTTAGGAATAACGGCGCTAAGTTGAACTGAAACTGCATTCTGAATTGAACCAAAAGCGTTATGGAAAGCTATTTCAACATCATTAGCTTCAGCAAGAGTTACAACTTTCCTTGCTATGGTTACTCCTCCAATGTTTGTAATATCTGGTTGTAAAACGTCAGCTAACCTATTATCTATATAAAACATTGCCTCCTTTAAACTTACTAATCTTTCTCCTAATGCTACGGTCGATTTAGTTGACGATCTGTATTTCTTATATCCTTCGATATCTTCGTGATGAACAGGCTCTTCCATAAAGAGGGGATTGTATTTTTCTAGAACATGAGCGATTTTTATTGCAGAATTAGCGTTAAATCTTCCGTGGTGTTCAATCATTATGCAAACGTCATCTCCTACAGCCTCTCTTACTGCTTTAACCCTTTCTTCAGCTTCTCTTAATCCTTTTTCGTCTATCCAATCGTAATACTGACCAAAAGGATCAAATTTTAAACCTTTATATCCATTCTTAACTACTTCCTTAGCCTTAGTAGCAAAATCGTCTGGAGTAACACAGTCCGAATACCATCCATTAGCATAAACAAGCACCTTATCTCTAAATTTTCCTCCTAAAAATTTGTAAATAGGTGAGCCTAGTTCTTTTCCTAAAATATCCCAAGAAGCTATGTCAATGGATGAAACAGCTGTAGCAGATTCAAAGGATCTAGCTAAATAAAAATCTTGTCTGTACCATTCGTGATAATTCTTTTCAATCTCCTCAACCTCCTTCCCTATAAAAGCCTTAGCTACTTGTTTTATTTCATTATACACTGAAATTACTCTTAATGTGGGTACAGCTTCTCCATAACCTACTTCGCCGTTAGATGTAGTCATCTTTACTAAAATCATTGTAGATGCCCAGGTAGCTCCTCCTTTTTCTTTTGATGTGAGAACTATCGGTTCTATTTCTTGGATTTTCATAGATAGTAATGTGAAATGATAATCTTAAACCTTTTCTTTCAATATGTATCTAATGAAAATTTTTATAACTGGAAATCCGGGAGTAGGAAAAACAACAACGTTAATGTACATAATTAATGAAGTTAAGAAGAGAGGAATAAGCGTCTCTGGATTCTACTGCCCAGAAGTAAGAGAAAATGGTAAGAGAATAGGATTCAAAATAATTGATATCTCTACTGGAAAGGAGAAATGGTTAGCTAAAGTTGGAGAAGGAAGAATAAGAGTTGGAAAATATGCTGTGCAACAAGTTGATGACATAGCCAACGAAATATATTCTTCTCTTTCTAATTCTAAAATTATAGCAATAGACGAAATAGGACCTATGGAGCTTTCAATTCCTTCAATAAAGAGAATTATAGATTATGCTTTAAAGACCGATAAACCTTTAATTGCAGTTGTTCATAGAAACATTAAGGAAGAAGGTAAAATATATACACTTACTTTGAGTAATAGGAATGTATTAAAAGAAGAGATTTTAAATGAGATATTAAATAATATAAGTTAATTTTTACAGCAGTTTTCCATATCTTATTTATCAAATCTTACAGACTCTTCGTCAATAAAAGAGACACATACAGCCTAAGGTGTAAGTATTGCTCTTCCTAGTATTCTTCCTTCAATTAAATCCTTTATTGCATTATTTACGTTTATTAACTCATATCTCTTGTATATAGGAATAATTTTTTGATCATGAATAAGATCAACTGCTTCAAGAACTTCTTTCCTAGTATAAGATGCAGAACCTATAATCCTTTGTTGTTTCATTATAGTTAAAGCCGGTCTCTTAAGAGAAATTTCTTTCCCACTAACGTTTCCTATTAGAACAAGCGTTCCATCTCTTGACAATGACCTTAAACTTTCATTAATAGTTTCACTACCTACTAACTCCATTACAACGTCTACTCCCTTAACGAGTCTAGAAAATTCCTTTTCAGTTATTACCTCATCAGAGAACTTTCCTACTTCTTCCTTTTTTGATTCAGAAGTTATAGAGATTACGTAAGCTCCTAAACTTTTTAGATATTGTATCATATGAATACCTACCCCTCCACCGGCACCAGTTACTAAAACTTCAGTATTCTGTCTTACATTGGCTAAACGAGAAGCATGAATAGAAGTAGCTATTGGGCATACTGACGCAGCATATTTTTCATAATCTTTATCTGGAAGGGAAAAAATGGAATCTTTTGGAGCATAAACGGATTCAGCATATCCTCCAGGTCTTCCTTCACCGAAAAATACGGAATTTTCGCATAGATTTTCCTTACCTTCTCTACAGTATCTACAATTACCGCATACAATAGTACCAAATACTCCTACGGGATTACCATTCAGTTCTCCAAAAATTTCATGCCCTAGTATTAAAGGTAACTTTAAGTTTCTAAATCCTCCTTTCCATATAACTATATCTCTTCCGCACATTCCTGAAGATTTTATGTTAACCAATACGTCGTTATCGTTTCCGCTCATATTAACGTCTTTTATTAATAGGGGTTTTCCGAATTCTTCCAGAACTGCGGCCTTCATTTATTCTCCCTTAAACTGGGGCTTTCTCCTTTCTATAAAGGCCTTAATTCCTTCCTCAAAATCCTTTGTACTGAATAAGATACCGAAAAAGGAGGATTCTAATGCTTCACCAGTCCATATATTTGTTTGATTACCAAGATTCACAGCGTATTTTGCTAAGGCTACTGCTAAGGGAGACTTTTCAGCTATTTTATTAGCTATCTTTTTACCTTCATTTTCTAATTCTGAAGGATCTACTACTTCATCTACAATTCCTAATTCTTCCGCTTCTTTTGCAGATATATTTTCTCCTGTAAGTATTAATTGGAGTGATTTTCTTTTAGATAATTTAGGCAATCTTTGTGTCCCTCCACCTCCAGGGATAATGCCCAAGTTTATCTCAGGCTGTCCTAATTGAGCGTTTGACGATGCTATTCTTATATCAGTGCTCATGGCCAATTCTAAACCTCCTCCTATAGCATAACCATTAATTAATGAAATTACTGGTTTTGTTAAAAACTGTATTTTATTGTATAATTCTTGTAATCTTCTTGAAGCTATCATTGCTTTTATTGGAGTCATCTTTAAGAACTCTGAGGTGTCAGCTCCTGCAGAAAAAGCCCTTCCACTTCCTTGGATTATAATTACTCTAATTTTATCGTCTTCCTCTATTTCATCTAGAAGTTCATTTAATTCTTTAACCATATCTTCGTTTATCGCATTAAGTTTCTCGGGTCTATTTAATGTTATAATCCCTATTTTTCCGTCAATTTCGTATTTAATTGTAGTAAAATTTCTTTTTCCGTATTCATAAAATCCATTTCCAGTCTTTTTTCCCAATCTTCCTTCATTTCTCATTGAAATTAGTAATGGATCTGGAGTAAAGTTTTCTAATTTTGTTTCGTTCTTTAATTCTTCTAAGGCATTTATTACTTCGTCTATTCCGAAGGAATCAGCATATTCAAATATTCCTTTTGGCCATCCTAATCCTAGTTTGCACCCTTTTTCTATATCTTCTTTAGAAGAAATTCCTTCCCTTAGTAAATAAGAGGCTTCGTTTATTGCAGAAGATAATAGAAGTATTGCGTTAACCTTCTTGGCTCCCTTAAATTCTGGCCTAACAAATTTGCCTGGAGCTGGATATGTATAGAAACCTTTCCCACTCTTTACTCCTAGTTCTTTGGATTTAAACTTCTCTTCGAACATTTTACATTCGTATGTTTTAAAACCTCTTTCTTCCATAGCTTTACCTACTAAATATCCTACGTCTAGACCAGTGTAGTCTTGGAGAAGAAAAATTCCCATTGGAAAGCCCAAATCAGTAATAGAAGTGTAATCTACGTCTTCTATGCTGGCTTTTCCAGATTCGACAAGCCAACAGGCTACTTCATTTACCCTAAATAATATTCTATTCACAAGGAAACCCGGTACATCTTTATTTACTACTACTGGATCTTTTCCTAGCCTTTTTGCTAAATTGTAAACTTCCTTTACGGTTTCTTCTGATGTCTTCTCCCCTTTTATAATTTCAACTAGAGGCATGATAACTGGAGGATTAAAGAAATGCATTCCTACTACTCTTTCTCCTTTTTTAACGTATTTGGCTATTTCTGATATAGGAATACTGCTAGTGTTTGATGCTAGTATAGCGTTATCCGAAGATAAGGCATCGGCTTTTGAAAACACTTTAGATTTTATGTTAATATCTTCTATTACTGCCTCCACCATGAAATCAGTGTCTTTAAGAGCTTCTTCCTGGTCAGTAGTTAAATGAATTCTTGACAATACTTCGTCCTTACTTTTTATTTGTCCTTTTTCCTCAAGTTTTGATAAACTCCAAGAAATTTTTTCTTTAGCGTTTTTTAAAATATCTTCGGTAACATCGTTTAACCATACTTCTAATCCTGAGATAGCTGCAACTTCAGCTATCCCGTGACCCATTGTTCCTGCTCCAATTACAGTAAATTTCCTTATCATACTCATCATCTCACATAATCTCTATATTTGTACCTAAAATTTTTCTTACTAGATCCCTTACTATTGTTAATCTTTGAATATCGTTTGCTCCTTCGTAAATTGTAGTAATTATGGCGTCTCTAAGATACCTTTCTACTCCGTTCTGTTGATCTACACCGGCTCCTCCATGTATTTTTATTGATAATGACGAAACTTTTTCTGCAACCTCTGTAGCCATCAACTTTGCCAAAGAGGACACCATTACTGCTTCCTTCCTATTTTTATCGTTCATATTAGCTGCCCAATAAGTTAGGAGTCTTGCAGCTTCCAATTCTACCAGCATATCAGCTAATTTAAACGCTATCCCTTCGTATGATATTAACGGCCTATCGAAAGTCTTCCTTGATAGTGAATAGTTAAATGCCTTCTCAAATGCGCCTTGAGCAATTCCCACTGCCTGAGCCGCAACACCTACTCTACCTTTATCGTAAGTTGTAACTGCTACTTTGAATCCTTCATCTACTTTACCTAGAATATTTTCCTCTGGAACTTCCACATTATCTAATATAACTTCATTGGGTTGTTCTCCTCTTAAACCTATTACATTTATTTTACTACCTATTTTTACACCTGGCATTTCTGTATCAACTATGAAAAACGTTATACCTCTCCATCTTTCTTTTGAAGGTGGACTGGTCCTAGCAGAGACTACTAGATATTTTGCCCTGTCAGCTCCAGTTATGAAGTATTTTCTTCCATTTATTATATATCTACTCCCTTCCTTCCTAGCAGTAGTCTTTATGCCTGCAACATCGCTTCCCGCTCCAGGCTCAGTATTAGCATGTGCAGCAAAGACTTCACCTTTAGCTACTGGAGGAACATATTTTTTCTTCTGTTCCTCTGTACCGAAAATAAGGAGAGGGGTAGTAAAAAGGTAATTAGCTCCTATAAGTGCAGCAAAAGCTGGACAAACTCTTGCTACTTCCTCATTAGTTATAGCAAGCATTAAAGAATCTCCACCTTGGCCTCCGTATTCTTGAGGTATTCCTATACCTAATAATCCTAATTCTTTTGCTTTAATTATAGCCTCGCTATCGTTGGGAATAGAATTTGTCTTTTCTATCTGCATTACGTTTTTAGCTAAAATTTCTTCAGAGAATTCTCTTACACTTCTTCTAAATAATTCGTGATCCTCACTTATCTTGATTTCGAAATCTTGCGCACTTTCAAACGGGAACAATTTTATTCATCAATAATTATAATTGTTAGCTAAAAAAGTAAACGATATATCTTTGGCAGAATTTTGTTTTTAATGAAACCTTATTATACTGCTTAAATATGTGTATTTATAAGAAATAATTTAACGTAAGAAAGAAGGTATTTTAGATATATCTAATTGGATTAGATTAAATTTTATTTAAAAGATATATAATATATTTACTTAATTTTAATGGCTACTTTTAAGTTTTAACATAAATTATAGAATATGAGCGAGAATTATAACTATCAGTTGACGGTAGATAAGGTTCTGGAATATGGAGAAAGAGTTTATCCAGACAGGGAGATAGTATATAGAGATAAAAGAAGATACACTTTTGAAAGTTTCGGAAGAAAGGTAAGAAACTTAGCCGGAGGTCTACAGAGACTTGGAGTTAAACCGGGAGATAAAGTGGGTGTAATAGACTGGGATACTGACGTATATTTAATGAGTTATTATGCAATACCTATGATGGGTGCAATGCTTCATACAGTCAATGTAAGATATCCGCCTGAACTCATAGTTAAAACAATTCTTCACGCTGAGGATAAATGGCTAATTGTAAGAGACGAATTTCTTCCATTAATAGAAAAAGCTGGAAATTATCTAAATAACGTTAAAATCATTGCTTACAGTGACGAAAATAAAGTAAAATATCCTGATGTTATGGAATTAATAAATAACGATGATAACCAATTTCAGCAACAGGAAATAAGTGAAAATACTCCTGCTACAATATTTTATACTTCTGGAACTACGGGTGAACCTAAGGGAGTATGGTTTACACATAGGGATTTAATACTTCACGCAATGTCTTGTTCCATAGCAGCTGCAAAACCTCCAATTAGCGCAACACCTGAAGACGTCTATTTAATTTTAGTACCATTGTTTCACGTTCATCAATGGGGATATCCTTATCTCTTCATGCTAGGAGGAAATAAATACGTGTTGCCGGGAAGATATGATCCAACAATAGAACTTAATTTGATGAAAAACGAAGGAGTAACGTTTTCAGCTATGGTACCAACTATACTTTACATGATTTTATCTCACCCTGACGCACCAAAGTATTCTGAAGTTTTTAAAAATTGGAGGGTTTTGATAGGAGGTGCAGCTTTACCTAAAGGACTAGCTGATACTGCAAGAAAATTTGGAATTACAGTAATGGCAGGATACGGTCTTTCAGAGACTGCCCCAGTATTAACTATATCGTATTATAATTCTAAAGTTGAAAAATTACCAGATGAAAAGAAATTTGAGCAACAAATAAAAACTGGAGTACCTATTCCATTAGTTGAATTAAGAGTAGTTGATCCTGAATTTAAAGATGTACCTCATGATGGTAACACAATTGGTGAAATAGTTGTTAGAGCTCCATGGCTAACTAGAGAATACTATAAAGATCCAGAAAAAACTAAGAGACTTTGGAGTGGAGGATGGTTACATACTGGTGATCTTGCAGTAGTAGACGAATATGGATACATAAGAATAGTTGATAGAGATAAAGACGCGATAAAGAGCGGAGGAGAATTTATACCGTCATTACTCTTAGAAGACGTAATATCATCTCATCCTAAGATAGGACAAGTTGCTGTTGTTGGTATGCCAGACGAAAAATGGGGAGAAAGACCCGTAGCGTTCATAGTATTAAAAGATAAAATGACTGAAGAAGAACTTAAAAATTATCTTATGCAAAAAGCTGAGGAAGGAAAAATAAGAAAATGGTGGATTCCAGATAAATTCGTTTTCCTTAGTGATTTGCCAAAAACATCTACAAATAAAATCGATAAGAAGAGTTTGCGAGACATAATCAAAGCAAAATAATTAGATTTCTCTTTTTTCTTTCATAATTAAAAAGAGTTAAATATCGAAAAGATATATCTTATCTTATGAGAAATGTAGCAATAATCGGAACAGGTCACAGTAAGTTTGGAGCTAGAACAGATGTAAATTTGCAAGAGCTAGCCTGGGAAGCCGTGAAACAAGCTTTAGAGGAAGCTAATATAGATCAAAAGGAAATTCAATATTTCTCTGTAGGAAATGCAGGTATGTGGAGTTCAGAAAATTTGCCTGCAATAGTTGTAGGAGAATATTGTGGATTGACTACAAAAGGAACAATGAGAGTAGAAGCAGCTTGTGCTTCAGGGAGTGCAGCACTAAGAGAGGCATATCTTGCAGTTAAATCAGGAGAAGTAGATGTAGCCATGGCCATAGGAGTAGAACAAATGCATCAATCTCCAAATCCAAATGTTGTGGAAATGATAGGCAGAGCAGGAAGTTATTTCTGGGAATTTGAGAACTTTGGTTTAACCTTCCCTGGATATTATGCGTTATACGCTACTGCATACATGGCCAAATACGGATTAAAAGAAGAAGACTTAGGGAAAATAGCAATAAAAGCGCATCATTACGGTTCGCTTAATCCTTATGCTCACTTCCAAAAAGAAATTTCAATGGAGGAATATATGAAATCCAAGCCAGTAGCTTGGCCTTTAAAAATTTACGACTCTTCACCTATAACTGACGGAGCAGCTGCAATAATTTTAGCTTCAGAAGATTTCGCTAGAAAAGTCACAGATTCTCCAGTATGGATAGTATCTCAAGGAGTTTCATCGGGTTTTGCTAATCTTTCAAGAAAAAGTGATTTTACAACAATAGAAGCTGCAAGAGAAGCCGCAGATATGGCTTACAAAAAAGCCGGAATAAATAGGGAAGACTCATGGAAAGTATTTGATGTAGCTGAAGTTCACGACTGCTTTACAATAGCTGAAATAATAGCTTATGAGGATCTTGGATTTGCAAGGAGAGGAGAAGGAGTTAATTTAGCAAGAGAGAATCAGACATATATAGGAGGAAGAATTCCAGTAAACGTTGACGGAGGATTAAAGGCTAAAGGACATCCGATAGGCGCTACTGGAGTTAGCATGGCAGTATCATTGGCTAGACAACTACTTTATAGAGCTCCAAATAAGGGAATGCAGGTCGAAGTCAAGAATGGTATGGCTTTAGCTCATAATGTTGGCGGAACTGGACATTACGGTTATGTTACAATATTTTCTACTAGGAGGCCATCGCAATGATGAGTATTAGAGATAACTTACAAAAACAAATAAATGATTCTATAAAACAGTTAGATTTTCTAGTAAAGCAGACAAAAATGCCTATAATCCAAGATAAGAGTGGAAATCCATTATGGGTTGACGTCAGAGAATTAGATTTAAGATATCAAATACCTGTAAAGAAAGTTCAGAAATTCTTTAATGGTCTAAAAGATGGTAAAATATTAGCTACAAAATGTCAAAAGTGTGGTACAGTATATTTTCCTCCTCAAGACGACTGTCCTTATTGCAAAACGTCTGGATTAGAATGGATAGAGTTACCTAAAGAAGGCAAATTAATAACTTATACTAAAATCTCTGTTAAACCTCCATCATTTTCGCATTATCAAGATTATATTGTAGGTATTGCTAAATTGAGTAACGGAGTTAATGTAACTGCTTGGGTAATAGGAAACTTAGAAAAACTTACTGTTGGTGTAGACGTTAAATTGGAAGTAAAGGAAAGAGAACCAGAAGGTTACATAACATATTATCTCGAATTAGAATAAATTTTTTTGAGTATTCTCAATGTAATCATCTTATTCTGGAGCTAAACGTGAAATTATTAGAACGACGAAAAATTACTTCTAGAACATTTATGTGCAAGAATTACGAGACTTTTGTAGATAGACAATGAATCTCGCAACCATTTCACAATACTTCTGATAGCAGTTTACTGGTTTCCCTTCCGTTTAAATAATTTTTTTTGATTCCTCCCCTCTTTGATAAATTCTCTTTATCGATCTAGAGAGCCTCTTAGCTCCTAGGGTTATTAGAGGCTGAGCATATAGAGCCCTCGTTTCTCTTGTTGAACTTTATGTAAATTGTAATTCAAAGGAGTCTTCTCTCTTGAACGAGGCTTACTTGAAGAGATTACAGAATATTAGAGAGAATTTTATATAATTTTATTAAATAATATCGAATAAGATGCTTGCATGACAACACTCCTAAATTTTTTAGCTATTTATTTGAGATTGATTTTAATTGAATATTTATAGACGACCCGTTATCTAAAGCTACTGTAACGAAATTTTCATTAACGTTGACCTTAGGAAACTTTAGTTCCATCGAATTAATTCCCAACATAATGTATGAAGGAAAAGTTACGGCTTGGTATATACCATTTAGCATTATATTTTTTACACTGCCTTGCACTTGAGAGTAGAATTTTAGCTTTGCTTCACCAGTACTTAAGAAAATTACATTGTTTGCAATATTTATACCTAATATTAGACCAACACCATAAAGTATATCACCAAAAATCAATACACATAATAAAGTATTTATAAAGCTCATCATTGAACTGCTCACGTGTATAACATTTACTAAAAAGAAATAAGCCATAAAATCGCTGATGATTCGAAGCATCACTCCTACAAATCCTATAATACTTGCTAGTTTATTAATGGTAAGAATTTTAATGAATATTATAATAAACGCTATAAGATTTAGTGTTGACTCCATGAAGCTTAAATGAAAATCAATTCCATTAGTCAATATAGACGAGGAATATACTGAGTAATAATATAATGACAAGATAAGATAGGTAAAATTACCAATTATTCCTATAATTCCACCTATTAATGTGACAAGCAATAACATAGAAAATAATATAATGTAAATTACTGAAATTGTAAGATCTGTATAAATTATGCTGAGGAAAAAGCCATGTGCGTTATCTCCAAAAAACTTAGTTAGCCAAACTACTATGTATCCTATCATAAAATTCATGATTGATATTATCAGAATTAATATTCCTGCAATTAACATATTCCTGGAAATTTTTAGCATAAAATGATCTATTACTCTTGTATTTTAAACTTGACTATTATACAGATTAATTGAAAATATTCTAATAAAAGAAACTTGAATAATTAGAATCTAAAAACATAGCAAAGTTTCATGAATTTCTCTTTATAATTAACCTAAAATTAAAATATTAAGGTATGATAAAATAGTAATCTTCATTAGAGTTAATCTTATAAAATAAAGAAGAATACAATAAATAGTTATCAAGCGTAGATTTCGTAAGTACTTTCAGATTGTATACTATTTACTATTAGTTCTCCATAAATCTCGTCTTCATCATTAATTAATTTGAAACCTAATTTTCTTCCCAATTTTATCATTGGCATGTTTTCGCTTAATGTGTAAAACTTTATTTTCTTAAGTCCCATCCTTTTACCTTCGTTAATCAAAGATTTGACTATCATACTTCCTATTCCGTATCTTCTAAATTCTGGGTGAACAACTAAAGAAAATTCTCCATCATTATAAATAGTCCCTTCACCTATTATTTTTCCATTATATTCGGCTAAAATGGTAATGTGATCGTTTTCGTTTGTTAGTTTCTTAACATCTTCCACTGTAGGCCTATAAAGATGAAAATATCTTAGGTATAAATCATCATCAGAAAGAGTAGAATAGAGCTCATATATCTTATTCCAATCTTCTTCCTTAGCTCTCCTTAAAGTTACTCCGGCAATATATTCACTCATAATTATATGTTAGTTAAGAAGTTTAAATATTTTGCCACATATTAAAGAAGACTATCTATTTCATAAAAATATATAAAGTACAAGTATGAATCAATAAATAAATAGATAGTTTTTAATTAATAACGGAATTATTCATCAACTAATCATTAACTAACATGAAAAAATATAACTTTTATACTAAAGTTATATGTTACAATTTTTATAAAAAAGGTTATAATAAGATAAAAGTAAATAACTTGAATTGAAAATTATCATTATAATCTTTTAGTGGAATATAACTTTCTGAAAGTAACATAAATATTAAGAAATAGGTATTTATAGATACTAGAAGGATTTATAGAATTAAATTTTTTATATTTAGATTCATATCTTACAATAGATGATATAAAATGGGAATTGATCCAAACTTCCGGACATCTAAACAAGTAGTAGGGGAACATGAAGGGCATAAGGTTTATGGTCCAGTAGAACCACCTAAAGTTTTAGGAATTCATGGTACTATAGTAGGCGTAGATTTTGATCTATGCACTGCGGATGGTTCCTGTTTAACGGCTTGCCCGGTTAACGTATTTCAATGGTATGATACACCTGGACATCCAGCTTCTGAGAAAAAGGCAGATCCAATAAATGAACAAGCTTGTATATTTTGTATGGCATGCGTTAACGTATGTCCAGTAGCAGCAATAGATGTAAAACCACCTTGATCTTTTCTTTTTAACTTTTTATATAACTACTAAATTTTATATTTATACATATTTAGTATTAATTTTACAAAGTTTTCTTTAAAGATTTTATAATTCTTTATATAATTTTACTAAAAATAATGAACTTCCCATAATCTTGGTAGATAAAGGGCCTTGTAAGTATGTAAGACATTCATCCTACACTGGAGCCTTCGTGGCAATTTTAGGATTATCCTTACTCGCTCACCCAATTCTTTCTATAGTAGTATCGATAATTACTTTTGTAGCCTACTATTTTAGAATAAAAAATGAAGAAAAACATTAATTTCTAATTTTGGAGACGAATATCTTAGAAGATTTGGTAAGAAGAAAAGACTCTTTCCCTGTATCTTTTAACTAGAAGATTAGAGCTTATTGACTTTAATTGAATAATAGAAGATCTCAAAACTTTTTCAATTGAAAAATTATATAACTTTATTCTTTTTCATTTAAATAAACAATAAATAAATTCCTCTATAAAACATTTGTAACGGTTTATAAGAAATAACTATAAACTATATTCATAACTCTTTAGGTAGGCATAAACTACAAACTTTTAATTTTTAGTTATCTATTTTTATTTATGAACATTGTGGTGGGTTTTAAAATAGTCCCTGATGATACACTAGTTAGGGCATCCGGAGAAAAACTTCTTTTGGATGTTCCGTTAAAGATAAGTACATATGACAAAAATGCTATAGAAGAAGGTATAGAACTCAAAGAAAAATTTGGAGGAAAAGTGGTAGGGATAACTGTAGGAAATAACGATAAAAAATCAATTAGAGAAGCATTGTCAATGGGAATAGACGAGGTTATTTCAGTATCATCACGTAACTTAGACGTTTATGGAACTGCAATGGCCATAGTTGAAAATATAAAAAATTTGAATCCCGATATCATAATATTTGGAGAGCAAACAGTAGATAGTGGAACTTCTGGAGTTCCCGGCTATGTTTCAGAACTTCTTAACTTACCGTATATATCTAACGTAAAATCACTAAAAATTGAAGGTAAAAAGGTAATAGCTGATAGAGGAATGGTTAGCTACGTTGAAACAGTAGAAAGTGAGCTTCCTTTAATAATCTCCGTAGGAGGAGAAATAAATACTCCAAGAATACCTACTGTTAGACAAATTATGGAATCTTCAAAGAAACCCGTAAAAGAAGTTACCTTTGAATTAGAACCAAAAGTTAAGGTAATAGAAACTAAACCTTTAGTTGTTAATAGGAAAAAGATAATAATAGAAGCAAACATGAATGAGGCTGTAGACAAATTATTAGAAAAATTGAAGGAGGATGGTGTTTTATGAAAGTAGTAGTCTTTTCAGAGAGTCCACCTCATTATAAAATGGCTTCAGCAATAGCTCAGAGCCTTAACCCTGATGAGTTAATAGGAATTTCTCCTCAACCATTTAAATTTACAACTCAGCTTTACGTTTACGAAAAACCAGATGAGGACGGGTTGGTGGACTTCATATCAAATCTTCACCCTGACCTATTACTTACAGGAAGTGTAAGAAGAGATAGAGTAATAGCGTCAAGAGTGGCAGGAAGGTTAAAAGCTGGATACATACCAGACGCTGTTAACTTAAAATTTGATAATAAATTAACTGTCAACAGGACATCTTATAGTGGAATAGGAATTTCTCAACTTGAATCATCGTTACCAGCTGTTGTCACAATTGCTGGTACTCAGTTACAACCTAAGGAAATAGAAAGTAAAATGGAAAAAATACAATTAAATCAGGGAAGGATAAAAATAGTAAATGTCAAGCCTACTACTTCTGGAGCAAACTTAGCTACAGCTCAGATAGTAATAGGCGTAGGAAGAGGGATAGGATCAAAAGAAAACGTGAAATATGCTGAGGAATTAGCTAATGCTATAGGAGGAGTAGTAGGAGGAAGTAGACCTGTAGCAGCAGAATTAAATTGGGTATCTGAAGATAGACAAATAGGACTGTCTGGACTCAGAATAAGGCCAAAGCTTTACATAGCATTAGGAATATCTGGACAGCCACAACATATTGCTGGAATAAGAGATTCCAAGATAATAGTTGCAGTAAATAAAGATAAGAACGCACCTATAATTGATAACGCTGATTACATGATTGTTGGAGACGCAGTAGAATTCTGTAAAGTAATGACAGGAAAACTAAAGAAATAAAATATTTTATACATTTAACTTAATAACAGATGAAAAATTTTGCACTAATTATAAAGAACTACATAATTAATGTAAAAGCAAATCTTTAGAATATATGAATATTTATTTCTAGCATCTATTAATATTATTACTTCCAGTAAGTTTTTGTCTTATTTCTTCTTATTTTACGTCATCTAAATTAAAAAGAACTTTCCAGAACTACTAATGTATTAATTTAATCAAGATACATATTTATTTTTAACAACTATATATTAGGTGATAACTAGGAGATTAGATGGTGAACTACCCAACCCTAACTAGTCTACCACAATTTCTAGTTCACAAATAAATTAAATTTGATATTATGTTATAAAGAATTATACTATATTAATATTACACTATTACATGGTCTTTAACTTAAATCTCTGAATTTTTCCGCTTTCTGTCTTAGGTAAGGAATCTACGAATTTTATTTCGTGCAAATGAACGTGCTTAGAATAGTTTTCTCTAACTAAATCAAGCAATTCTTTAGCTAGTTCATCACTTGGAGAATATCCTTGTTTAAGTACTACAAATGCTTTAAATACATGTCCTCTTACTGGATCATCTACGGGAACTACTGCTGTTTCTAAAACTGAAGGATGAGTTATTAATGCGCTTTCTATTTCAAATGGGCCTACTCTGTATCCTGAAACTTTAACTACGTCGTCTTGTCTTCCTATAAACCAGAAATATCCCTCATCATCGATTTTAGCCATATCCCCCGTTAAATACCAATCTCCCTTGAAGACATTTTTAGTTCTCTCTTCGTCAGCTAGATAACCTTTAAAACAGAACCCTTCACTCTTAGAGTTGACTGCTATCACTTCATCAATGGTTGTAATTTCATAGCCAGGTGCTGGCAATCCCATACTTCCAGGTTTTGTTTCTGCTTCATAACCCCAACCATTATAGACTACCATTCCTACTTCAGACTGACCGTAATGATCCTTTATAGTAATTCCGTAATTTGTATTAAACCATTTTATTATTTCTGGATTAAGGGGTTCTCCAGCTGAACTCGCTCTCCTTATTTTCAAGTTATATTTTTTAGGATCTCTAATTTTTCCAGCTATTATCCTATATGCAGTAGGGGCAAATGCTAGGTTAGTAATTTTATTATCTTCTAAAAATTTTAATGTATCTTCTGGATCAAAAGGTTTATCTAAGAAAAATATTGTCTTACCGAAAAGTAAAGGACCTATTAAACCATAATATAATCCATATGCCCAGCCTGGGTCTGCAGGATTCCAGAAAACGTCGTCTTCTTTTAATCCTATACCATATTTCATGTATACGTAAGTATTTAATAGTAATCGAAAGCTAACTAATGCGCCCTTAGGTTTACCAGTAGTTCCTGAAGTATATATTAAAATAGCAGTATCGTCAAGAGAGGGTCTATTAGGATTTTTTATTGGTTCGGATGATATTGCATCATCAAAACTTAATGAATTAGAAGTTTTACCAGGAAATGTTATTATGGTTAAATTAAATCTTTCGAGTTTTTGAATTTGATCTTCTTGTGCGAATATAATTTTAGGTTTAACATCCCTTGTCCTAATTTCTATAGCTAATGGTCCAAACGCTGTGAAAAGTGGTTGGTAAATTGCTCCTATCATCCATGTAGCTAAAAGTATTATTGGCTGTTCAGCTTTTTTAGAGGCTAAAACTGATATAACGTCTCCTTTTTTAACGCCCAATCCTTGCATAAAGCCTGCAAGTCTACTACTTTTATTATAAAGTTCATAAAACGAATAAGATATTTTATCATAATTCATGTCAAATCTTACTAACGCAGTATCTGAATTTTTTGGAAATGAAAGCAAATTATCCTTAAAATAGCTTAATGCCTCGTTCCAAGAAAATTCCTTTTTAAGCTCTTGATATTTCATAGTTTAATATTGTTTATACATTATATAAAGATCTTTCTGAAATGAAGTTATAATTTTATTCAAGTTTATGAGTCTCCATTTGACTTAATCCATTGTATTAAAGCGATTTAGTTTAAAAATTGATATAGGAATATAAATATTCACAAGGATATAGATATTACGTTTCTATACTACTATACTAAATAATGGTATCGGAATATATAGATTCGGAACTAAAAAGACTCGAAGATTATGCCTTAAGAAGAGTTAAAGGAATTCCAAATAATAGAAGGCTATGGGTTTTAACATGCATGGATGAGAGAGTTCATATTGAGCAGGCTTTAGGGATACAGCCAGACGATGCTCATATTTATAGGAACGCTGGCGGAATAGTAACAGATGATGCAATACGATCTGCTTCATTAACTACAAATTTCTTCGGTACAAAAGAGATAATTGTAGTTACACATACAGATTGCGGAATGTTAAGATTTACGGGAGAAGAAGTAGCTAAGTATTTTGAAAGTAAAGGTATAAAACCAACACAAATTCAACTGGATCCTTTATTACCAGCTTTTCGTATTTCATCTGAAGAAGATTTTATAAAATGGTTTAAGTTTTATGAGGATTTAGGCGTGAAGTCTCCTGATGAAATGGCACTTAAGGGCGTAGAGATTTTAAGAAATCATCCACTAATTCCTAAAGATATTAGAATAACTGGTTACGTATATGAGGTCGAAACTCATAGACTAAGGAAACCTAATCAGTTTATCTATAATGAAACCTCCAAATTTGAACATGGCACAGTAGTCAAGGAATAATTTTTTTATAAATTTATATCTGATAAGTATTTTATGGTAATTTTGCAAGAACATTTTCCATTTATTATCTCACTTCTACAGTTAGCGCATTTTTCAACTATTTTCTCTGGAGAATTTGTTATATTTATGGCGTATTTTATTAATTCTTTCCATCTATCTTCTATATTATGTAATCCGAGTTTGTTATATATTTCGCTTAAGGTATCTTCACTTAAGAATGTTATAGCTTGAAGTCCGCATGTGAATGCATATTTTTCCCAATCTCTTTGGTTATTAAGTGAAGCATTCCTAATCTTGTCAATACATTTCAACCATAGAATCTTTGCATAAAATAATGGCTTATAATATACCTTAATACCTTTAATTTCGTCAATTATTGCATATTTTATATTTTTTATCATCAATATATCTTCTGAGGAAATATCGGAGTATGATTTGCAAGAGACTACCAGCATAAGCATGCCTAAAGTTTTTAATAATACCCTTAGTTCATCATTTGTTGAGATTATAGAAAGTATTGCCTCAGAATTTTTGTTTTTTAGTATTCTCTTAGCATAAATATCAAATGGTAAATAGTCCCCTTCATAATATAACCACCTATAGAGTTCCTCTACTTTCCTAGCATATTCCTCACTATAATAATGTTTAATCTTATCTTCTATCATCTGTTTAATTAATTTTGAAGGAGAACTGTTAACAGATTCTGCAAAATCTTCTAGGAGCTTAAAAGTTGATGGATTTAACCATGTAGAAACAGTAGGCATTGATTATATTATATTCTCTGGATTTTAAAGCTTAATTTAATAAAGAAAGATTTTATACAATATTTTTGATTTTTCCAAGAAATACACATAATATAGAGTTTACATTAAATATCTAATATATTCTTATTAAACATATTTCATGAAAAACATATAAGACTAAAGTGAGTATTCTGATTTATGTCAGTATGTGAAATATTCCCAATAATAGCCGATTACACGTCTCAAGGTAAAAGAGTTATATTAGTTACAGAATATTCCAATATTCCTGTAAGAAGTGTATTCGTCGATGGAAAACTAATAATTGGAAACAAGAAGTACGAAGATTTGGCGCTAGAGGCAGAAAAGAGAGGAAACAAAATAGAAGTGGAAAAGAATGGAATAAAAATAGTTGCAGAAGTAATTGAACCTAGACCTTCTCTGGTTCTCGTAGGTTCTGGTACAATAGCAAAAGAGATCTTTAAGTTAGCAACCACTATGGGTTTTCTTGTTGAAGTAGTAGCAGAAGACGCTAAAGAGGAAGATTTTCCAGATGCTAAATTCTTTTCAAATACACTTCAAGTTATTGAGCAATTATCCAGTAATTCCTTTGTAATAGTTGCTAATGAAGGAGGAAAACCATACGATATTCCTGCAGCATTTTTAGCTTTAAAATCCAAAGCCAAGTATGTAGGATTCCTTTCAAGTCAAAAAAGAGCCGCTTATACGATTGCGCAATTAATAAAGATGGGAATTCCTCAAGAAGAGCTTAGAGAAAGATTTTATGGCCCAATGGGTCTTGATCTAAACGCTAAGACTGCAGAAGAGATAGCTTTAAGCGCTCTATCAGAATTAGTTCTAATAATGAGGAAAGGTAGTGGTAAACATCTTAGGGATGTAAAAGATCCTTATTTACTATTAAAAGATGCTATGGATGGCAAAATAACAGACGTATGTAATTTTACTCCGATAAAAATAAGCGAAAAATAAATCATATCTTCCTTCTTATTCTTTCTAATCTAATTTCTTCATTCAAATTTTTTGCAAAATTATCAAACCATTTTGACATAAAGAATGTTTTGGAAAATCTATTCATCCAACCCTCATATGAAAAAATTAGCTTAAGAACCTCGCTTTCTGAGTTTATCATTAATTTTCCATTTCCTAATCCACCGCCTGCTCTTAAGCTAAAGATAAATGTTATCAAATCTGTGCTTCTATAAATATTTCCTCTCATGGTAAAACGCATGCCAACGAACTTTCCTTCACATTCGAATGATTCCCCATTTCTATTAACCTTTTTTATTGGAGGAAATAATCTGGGTAAAGTGAAATAAGGATCTGACAGAATTTCTATTATAGCGTTCCATTCATGCGAAATACGAACGTCTTTTTCTACTAACATATGATATTATTAAGCAAAACTTATATTTTAAATTATATCTCGATATTAGGTAAAGTTAAGATAATAAATTATTTCACTTTTTCTATATATTTTAAGAATTATTATCTATAATATTTCTTATTTTTAGATTAATTCATGACATAATCCAAAACATTATCTAGCATATTATAACACTAGTCATTATATGTGCCTTTTTATTCTCTCTAATTGTATAATTTTATCAAAATTTTTAATCTGTTTATTCATTCTCTTTACTATGAAATTAACTATTGCTTTTTCTTTGTCACCTTCATAATCAATAGTTATTTCTATACTTCCTTGAGACATTGAAATAACTATTTTCCCATTACCCTTAGGCGAGACTCCTTTAAAACTTCTATCTATTAGATTATCGTAAGAACCTTGAATTAGTCCTGGTTGAACTATAAGTATGTACGTGATAACGTAGCTAGAAATATACTTCCTTACTCTAGCTTCTACATCAAAGGCTGAAAATAGAGAATAAAATTCTCCATATACATAAAAGACATTTTCACTCTCCTCATTAATTATAGTAAATGGGGTAAAATTCGCAAAGAAGAATTTTTGATCAGAAAATAATTTTAAGATTATATCCTTCTCAAATGGCGATGATATTGTTACTTTAGCTTGCACAAATATCTATCTTTTTAGTTCTATATATGCTTTACTTTCATAATTTACAAAAATCTCATCTTTTGCAATTCTATTAATATTTTCCATTTTACATGATATTGTGCTAAGATATCTATATGTTAAACAGATTATGGTAATCTATATTATCCACTTTATTCATATTTTTATAGTATGAATTCGCAACTATTGTATATAAAGGAAAAATATGATGAATTATTAAAAGCATATAATGCATGTAAAACATGTATAGATTGTGAAATGTGTGATAAAGCAGAAATAATTTCAGATGAATTAATAACATTGATAAATAAATGTAACATATCAGATTTAAGTCCAGAAGAGAGAAAAGAAATTAAGAGTATTATCTTCTCAATATCCTCTCTATCTAAAGATCTTAAAAAAACACTCTAACTTATTTGTTATTTGAACTCGTTTCCTATGGCTCTAACCAGAACAAATAATACGCCCAAACCTCTCTGTATAGTTGGATCAGCCATTAGCTTGATCAAATTACCTAAACTAACTTGAGGTGGATATTCTACTTCTTTTTTAACTTCTTCAGATGTTACCGCCTTAATTATCCTACTAGGTACATCGCTTAGGGCAACATTCAGAAACTTCATTGCTTTTGGATAAGCTTCTAAGAATTGAGACATATATGAAGAAATATGAGTTAAAGCGTCATCGTTTAACATATCTTTTAGTGTTTTTGCTGCATATGCCATATTCATTGCAGCATCTAATGCTCCAGTATTGTTTAATTCTTCTATCTTATCCAATACGTTATTTATTGTTCCCAATTTTTTCATGCTTAATTTTATTGACTGTAAAGTACCATAATCTAGTTCTCTCATTATTTCTAATAAATTAGATGTATAAGTTGCTATATTCTGTAAAGCATCGTCAGTTAACATATCTCTAAATGTCTTTACAGCATAAGCAGAATTAATTAAAGTATCTAAAGTTCCATCATTCTTCATAGTATCTAATCTACTTAAAACGTCTGAGAGCACTGGTGCTTTGTCTATTATTTGCTTAACTTGAGACGAATTCTTATTCAATTCTTTTAATAACTCTAAAGAGTTAGATAATGTACCTCCTATTGTTTCTATTGCGTCGTCATTAAGCATATCTTTTATAGTTTTTATGGAATATGACGCGTTTACTATAGCGTCAAAAGAACCATCTTTTTCCATCTCTTTTAGTTTCTTACTTAACTCTGCTATTGCACTAGAATTATCTATTATTACTTGAATATTATTGAAAATATCTTCTTTTGATATTTCCTTTCCAATGTTTAATAATGAAGATAATATGAGTCCAAAATTTTCTATTGCGTCGTCATTAAGCATATCCCTGAGTGTTCTTATTATGTAAGTTGAATTAATTACTGTATCCAGAGTTCCGCTACTTTCAAGCTCATTAATCTTTTTTAGTAGATCATTAAGGGTCGGAGTTAGATCTATTAATTGGCTTATTTCTTCCATCTTTTTCTCGTCTAACTTTGAAAGAAGTTTATCTATGGATTCCATAATTCTTCATACCACAGCCTTAGCTGTAACAGTCCAGTACATTTTATTATACATTATCTTTCCCCACCAGTGAATATATGATGGTGGAGGTGGACTTTCGTTCATAGTATAACTGAATCTAATGTAAGTAGCTTGATCAGTACCAGTTGCTATGTAGCATAATACGTCGCCGCCGTAATGCTTCACTCCTAGGTTCCCTTTGATATCATTGGCTATGTTATGCGCTACAACGTAAGATTCAAAATCTGCTGTAGATCCTGCCTTAGATACTGCTAAATCCGTAGTATCTCCCATAACATAAACGTTAGGATGATCCTTCATTCTTAGCGTAAACTTGTCAGTTGGGACCCATCTTCTTCTGTCTCCTATTCCAGAATCTTCTATAACTTTTGCACCCATATTAGGAGGAATTGAAATTAGCATATCGAATTTTAGTTTATCTCCCTCCTGAGATTCGGCTATTTTTTCTGTTGGGTCTACACTTTTTATTGTAAATGGAGAATGTACTTCTATTCCTCTCTGCTCGAATATATTCATTATAAACTTATTAGTAATAGGTCTACCGAAAACTCCCGGTACTGGATAGGTATATATAATCTTAGTTTTATCTCTAATTCCTCTTTTTCTTAAGTAATCGTCTAAAATAAGAGTAGTCTCTATTGGGGCTACTGGGCATCTATGAGGTAATCTTGCAGTATTTACTACGACAGTACCTCCAGAGAAAGATCCTAAAGCTTCCCTTAGCTTTAATGCAGATTCCATCTCATATGGAGTAAGTGAAGCTGCCCTATATCCTGGTACTTCGTCCCATGAATATTCCACTCCAGTAGTTATAACCAAATAATCATAATTGTGAGAGACTCCATCTGCAGTCTGTACTGAGTTATTAGCTACATCTATCTTGGTAATTGTACCTTTATCTCCATGCAAGAATTTTATTCTGGGATCTAACAGTTCTTTCTCTTTTTTAACTAATTCTCCAGGTATTTCAAGACCAAAAGCTGCTAATAGTTGTCCTGGCAAATAAGTGTGATCGTCTGATCTATTAAGGACTACTATCTCTACTTCTCCTTTATTTACTTCATCTTCCAACTTCTGAATTAATCTATTGGCAACAATTGTGCCAGCTATATTTCCTCCTGCAATTATGATTCTCTTCATCTTTTTTCACCTCGATATAACTAATACATACTTGGAATTATCTTTCACTTCAGTAACTAATTTTAATCCTTTTTTCTTAACCCAAGATTCTATAATTCTCTTTGTGTCTTCCATGCTTATAATTACTTTTATCGCCTCACCACTTTTTAACTCACTTACTATTCCACTTAGCTCCCCAATAGGTCCAGAGCATGACGATTCAGATAGATCTATTTCTTTAATTATATAACTCATACTTATCAAAAGATATGTAAGATTTGAAGATTATAAACATTTCTATTATATCAATTATTGAGAAAAATGTCATAAAGATTAGTAAATCCAATTTATATTATTTTGTGCAATTCTATTAAATTGTTATATTTACAAGATAATATTATTTAATAGATACAAAACAAAGATAGTTAATCATATATACTGCATAATGTAGAAAATACATATAATTTTTATATGATAATCAAAATCTTACTCTATTAAAAGATTTTTAGACAGTACCTTAAGTTTATATAATATTTTTATATAAAATGTTTTCGATTTTATACAGACTAAGTAGCTTTATTTATCTTAAGGAACTTCATTATTCTTAAATGAAATTATTGGAACCTTTTTCTATAAAGGACATAAAGTTAAAGAACAGAATAGTAATGTCGCCAATGATAACAAATTTAGCAACACCAGAAGGTTATCCAACAGAAGAACATATAAGATATTTTATAAGAAGATCGTCAGCAGGATTATTGATAACGGAATATACTTATGTAAATAATCTCGATTCAAGAGGTTCCCCCAATGAAATGGGACTCTATAGTGATGAATTAATACCTAAGTTTGCTAGACTCACTGAAGCAGTACATAATAACGATTCTAGAATTTTTGTGCAACTTGTCCACGCAGGAAGAAAAACTAGGAAATTATTAATATGGGGAAACTCTCCAATAGCTCCCTCTAATGTACCATTAATTGATCCGGTAAGAGAAATGAACGAGGATGATATAAATAGGGTAATAGACGATTTCGTAAAGGCTTCAGAAAGGGCAGAAAAAAGTGGTTTTGATGGTATTGAATTACATGGAGCGCACGGTTATTTGATAGCTCAATTTCTATCTCCTGCTACAAATAAAAGAGAAGATAAATATAAGGACGGAGTTTTATTTCTTGAGGAAATTCTAAAGGAGGTTAGAAGAGTAGTCTCCATACCAGTAGGAATGAGAATATCAGTTACAGAGTTTGATCCCAATGGATTAAATCCTGAATTAGTAGCTAAAATTGTGAAAAGAGTCGAACCACTTTTAGATTATGTTCACTTATCAGCTGGAAGAGATGGTCCTTTAGGCGGTTCCTCATCATTTTATTACAAAAAACCTAGCTACATCGATGAAGCGAGAATCGTAAGGAAAGAAGTCAGAATTCCACTATTTTTAGTAGGATCAGTAACAAGTGTAGAAGATGCTGAAAAAGTACTAGAAGTTGCAGATGTGGTTGTCTTAGCTAGACAAATTCTTGCTGATCCAGATTGGCCTATTAAAATAGGTAATAATCGACCTATAAGGCCGTGCATAAGATGCAATCAATTATGCAGATTACTATCAGTGAGAGAAGTTAGATGTGACGTTAATCCGGAATTAGGATGGGAGATCTTACCTCCTATGGAAAAAGGAGAAGGTGAAGTAAAAGTAGTTGGTGGAGGATTAATGGGAATGGAAATAGCTAGGGTGTTAAGTCTGAGGGGATTTGAAGTTACGCTCTATGAAAAAAACGATAGATTAGGAGGTCAGATAAACGAGATTAAAGATCCTTATAAGAAAAATGAGTTCTCCAAGTTAGTCGAGTATTATGAAAAAGAATTAATGAGATTGGGAGTAAAAATTATGTTAAATAGTGAGTCAAAAGATGGAATAATTGCCATACCAAAGGAGAGGCAGCCCATATTTAGAAATTACGAAAAAAAGAAAATTTTGGTAAATTCTAACTTATATGCATATCAGGATTATGTATTTGAATGGATAAAGAATAACGAAGTCTACGTTACACAAAATGTATTTAAGGGATTAGACAGGAATAGAGGATATCTTCTCGAAGAAAAATATAGGGAATTAGGGGTAAAAATTGTAAAAGAACCGATAAAAGCTGATATAGTAATTGACGATATTAGAGTGTCACAACCCTCAATAGGAGCATCTATTGCAAGAGGATATTGGATAGCTAGAAATTTCTCCAATGTTTAGCATGACTAGTAAAATTATACCTATATAATCTAAATTTTTGTAATTTAGTATATTATGAAGTTAAATCGCTTAGAAAATAATATTAATAATTTCAGAAAAATTCCTAGCTGATTCTTACATAAATATAGTGAGTTTCATATAATTCTTTAGTCGTCTTCCTCACATTGAAGTATCAAAGACAGTATCTTTCATACGACATAATTTAGTGGAACACCAGCGAAAGAATGTTAGAAATAATAAACTCTTACCTACTGTCTAAGGAGAAAGATGGGAATTTCATCTTTATTTAATATTATAACGTCTTTAGGATAAGACTTATGACTTCTGCTCTTTTTTATCTCTATTTTATAATTGTTTGTTATGATATCAATTTATACGGAATTCTTATAGTAGAATACCTTTCCTATTTTTCTCCTTAAATGCTCTTGAACGATATTTTCTAAAATTGCCGATTCATCAAATTCCTTATTAACCCATCAAGAAATTGCCCTAAGTATGAAAGAGTCTCTGAAAAATATTTTTTCTCCTTTCTTTTTATCTTAACAAGGGGCGTTCAGTAATAAATATTTCGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGCGATTTGGGGAGGATCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAACTATTCTAGCCAATTTCCTGGCTAAAGCAGTGTACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAGAACAAGCTGCGCAAGTACTTATTACCCTTCTTCGATATTCCCTTACTTACAGTAGCTTTACCGCTCCTCTCATTGGGTCTAAACCGCAGATACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCTCCAACAATGCCTATTATTATCCCCGAAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTGATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTTCCAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAAGCATTTCCTTGCTTATTTTTTCCTCGTCACTGACTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTTCAACTTTTAGGAAGACGTATAGTGTTACTAGTTCTTTCAATGAGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTGTGCGTCGTAAAAATCTGTTTTCTTTCCTCTCAAGTCCTTCTCCTTCCATAGTATATTTGGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGAGTATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGTTACTAGATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGAGATGGATAGGCTCCACATGCTTTGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGAAGGAGTTCACTATCTCATTTCCTGACTTTAAGTAGGCAACGTCAATTAGAAATATATCAGTCAAAAATTCAATATATTCAGAGACTGTATTATGAGAAATACCCAAATCTGAGGCTATAGAATTAAATGAAATAGATGAAGGTATTTTATCTAATAAAGAATGCTTATCTTTATCCTCCCAATTACTGTAAAACCACCATGGATTTATGTTATTAAATGTTTCCATAGTTGATACTCTATTTACCAAATATTTATAAACTATTGTCAGTTGAATGACAACATTGTAATGTAATAAAAACTGAATATCTACAGAAATAATTATATATTGAGTTTAGATCAAGGAATACAGTTATTGACTCCTTATTTAATGTATTTCTAGCTTTATGATAAAACTCTCATTCTATAAATATCGTTTTATTTTAAATCAATTTAACTATAACCTAGTTTAAATATTATAAAGAAAAAATTAATAAAATTAATTTCAACGTTGCGTCATGACTTAAACTTTTAAGATGCTACCTTCCTCTTAACTCTTAGCTTTATATTATCTGTAATATTTTAAACTCAGAAGTCAATTATAATAATTAAATAAGGAAACTCTCAGTAGAATGTATTAAAATTATTTAAGGAGTTTTGAGATCTTTATTTATGGAAATTATTACACCAATCTTAACTCCTTTTAAAAATAATGGAGATATCGATAAAGAAGCATTAAAAACGCATGTAAATAATTTAATTACAAAAGGTATAGATTTGATTTTCCTTAATGGATCCACTGGTTTAGGTCCTGCTCTTTCTAAAGATGAAAAATTATCTACATTAAAAACTATCTATGATATAACTGGAAAGATAATCTTCCAAGTAGGTGGCCTTAATATCAACGATGTAATAGAGTTACTTAAAGCATCAAAAGAATTTGATATAGTAGGTGTAGCGTCCTATTCTCCCTTCTATTTTCCTAGAATTCCTGAAAAAATGTTAATAAAATATTTTAAAACTATAGAAGAATATTCTCCACACCCTATTTACATTTATAATTATCCCTTAGCTACGGGTTATGATATTTCAGCAAAGACTCTAGAGAAATTTATGGACTCAAAGTTTGTAGGAATAAAAGACACCAACCAGGATTTATCTCACTCTCTTGAATATAAATCATTGAAAAACTTCAAAGTATATAATGGTTCTGATTCCTTAATATATTATTCACTTCTTTCTCTTGACGGTAGTGTAACTGCGGCTAGTAATTATTTGCCTGAAATAGTAGTAAAAATGAAGAACCTAATACAAAATGGAAAATTAAATGAAGCCTTAGAACTTCAGAAACTTATAATTTCTATTTTAGAAATATCAAGAAAATATGGTCAATTATCATCTAATTATATTCTTGTAAGAGAATTTCAAGGATATAATGTAGGAATACCTAGAGGTCCCATATTTCCGTTAGAAGATGAAGACGTAAAGGCTTTAATTCAAGAAATAAATCCTCTAAAAGACAAAATAAGGAAATTTTCTTCATAAAGATGATAACAAATGGCTAAAATGATCACTCTTTGCGAAATTTTGATAGAATTTAATGCTTTAACTTCTGGTCCACTAAGACACGTAACATATTTTGAAAAACACATAGCAGGTAGCGAAGCAAACTACTGTGTAGCATTTACGAAACAGGGTAATGAATGCGGAATAATAGCTAGACTAGGAGAAGACGAATTCGGATATAATGCTATGGAATGGTTAAGAGGAAAGGGAGTAGACGTTTCTCATATAAAATTCGATCCAGCACCTACTGGCATATTTTTTATTCAGCGACATTACCCTGTTCCGCATAAAAGTAACTTTATCTATTATAGAAAAGGTAGCGCAGGAAGTAAACTTTCTCCTGAAGATGTTGATGAGAATTATATTAGGTCAGCGGATCTTGTCCATTCTTCTGGAATAACTTTAGCTATATCCGATTCTGCTAAAAATGCAGTGATTAAAGCATTTAACAACGCCAAAGTGAGATCTCTCGATACAAATATAAGGTTAAAACTATGGTCAGCTGAACAAGCCAGGGAAATAATAATGGGTGTTCTGAAAGAGTATCCACTAAAATTTCTAATTACTGATATTGAAGATTCTAGAATTCTAGTTAGGGAATCTGATCCAGACGCTGCAGTTTCAAAACTTTCTAACTATGCAGAAATAGTAATAATGAAATTAGGCCCTAAAGGATCTACGGTATATTACGAAGGTAAAAAATATCATTCACCAGGCTATCAAGTTCCAGTTGAGGACGTGACTGGAGCAGGAGATGCATTAGGCGGAACTTTTCTTTCACTATATTATAAAGGCTTTAGTATAGAAAAAGCCCTTGATTATGCTGTGGTAGCATCTACGCTTTCTGTAATGGTAAGAGGAGATCACGAAAACATACCTTCGACTAGTGATATTGAATCATTCTTAGAAGAAATGAAAAGATAAAAAATCGTGAAAGTTTTAGTATTTAATATGGTAAGTTTAAATGAACTTTCAGAAGAGTTCAAAAGTATATACGTAATAGACAATGATGGAATTCCTTTATTTAAAACATATTTATTAGGAGAATGGGTCGATGCAAAAGACGTTCAGTACTTAAAATCTCCAATTGATCTTTCTGTCTATGCTAAGGTTCCAAAATTAAATCATGAAATGATTGATTCTACGCTAAGTGTTATGTATAAGGTTGGCAAATGGGAAATAAGGGACATACCAGGAGAAAAGAGATTGAAAATATATCATAAAATAGCAGATCTATTAGATAAATATAGAGACGACTTCATAAACGTCCTAATGATTGGAAATGGGAAAACTAAAGCTCAAGCTAACGGTGAAATCAATGCATCAATAGAAAGGTTAATAAGAGCAGATCTTGATGTGAGAAAACTATACGGTGAGTACGTTCCTGGAGACTGGAGCACCGAAAGTTTAGAATCAGAAGCTATAGTGAGGAGGGAGCCGCTAGGAATAGTGCTAGGTATAACTCCTTTTAATTATCCCCTCTTTGACGTAATTAATAAATTTGTATACTCTACAGTAGCAGGTAATGCATTTATTTTAAAACCAGCTAGTTCTACACCATTACCAGCAATAATGCTTGCTAAATTAGCGGAAATAGCAGAATTTCCCAAAAGAGCGTTATCAATAATAACAATACAAGGTAACGAGATGGATAAAATAATTTCAGATAAGAGAATTAATGTAATAACGTTTACTGGTAGTAGTGAATCTGGAGAACAAGTAATTAAATCTGGTGGATTAAAACAATACATAATGGAACTGGGTGGTGGTGACCCTGCTATAGTGTTGGGAGATGCGGATCCTAAGATAGCTGCTCAAAGAATAGCTTCTGGAATAACAAGTTATTCTGGACAAAGATGTGACTCTATAAAATTTATTTTCGCTGAGGCATCGATCTATGAGCAATTAAAAAATTATCTCATTGAAGAATTGAAGAAGATTAAAGTAGGAGATCCAAGAGAATCCAATACTGCTATGGGACCAATAATAGATCCAAATACTGTTCAAGAATTCGAATATGCAGTAAAGGACGCAGTAAATAAAGGTGCTACTATTCTTTATGGAGGTAACATTTTAGGTCCTACTTACATTGAACCAACTTTGCTAGAAGTAGATAAGAAAGTACTCAAAGAATTATATTTATTTAGAAAGGAAGTGTTTTTATCTATAGCTACGCTAACTAAAGTAGACAATATAGACGAGGCAATAGAACTGAATACTGAGAGAAGATATGGTCTAGATGCAGCAATATTTGGTAACGATATTTTTAAGATTAGGAAGGCACTAAGGAGACTAGAAGTTGGGGCAATATACATTAATGATTATCCAAAGCACGGAATAGGATATTTTCCCTTCGGAGGAAGAAAAGATTCAGGAACTGGTAGAGAAGGTATAGGGTACACAATAGAATACGTAACTTCTTATAAAACTTTAGTATATAACTATAAAGGAAAAGGTATTTGGGAATATATCTAGATAATCTTTTTTCTTACGTTATTAGTCTATGATTATATGGATATACAAAGATTATTAGAAGATAATGATAAAGTATACAAGTATATAGGAATTAAGCTTTTAGAACAAAAAGAAGGATACGTAAAACTTCAAATACCTTATAAAGAGGAACTTTGTAGAAGAGGAGGAGTATTAAACGGAGGAATAATAATGACGGCTATGGATTTTGCAGGCGGATTAGCTACTCTAACGGTTAATGATGGAATTGACCAAGTGACGCAGGAATTAAAAACGAATTTTTTAGAACCCATGTATAAGGGACCATTTACAGTAGAGGCTAATATAATAAGAAAAGGAAGAACTGCAGTAGTTGTAGAGATAAAATTTAAGGATAATGAAGGAAAAATAGGAGCAATAGGATTAGGAACTTGGTACATAATTAGAGACAGATTAATAACTACAAAATAAAGCTAAAACTATTTAATTCAAATAATAAAAATTTTTAACCTTTATACGCATGATAGTAATCTATGTCGAACATGAACCCAAATTACCCCGGCATTGATAAGTCAAGATCATGGTACTCACCATTAACTCCTCTCCTTTTTTTAGATAGAACATCCTATTTTAAGAATAAGACCGCTATAGTGTATAGAGACAAGAGATATACTTATGAGAAGTTCAAAGAGAATGTATTAATGCAAGCCAATGCATTTAAAGCTGAAGGACTTTCTAACGAAGATAAAGTAGCATTCATATCTAGAAATAGACCTCAATTCTTAGAATCTTTCTTTAGTGTTCCATTAGCTGGCGGAATTTTGGTACCAATAAATTTCAGATTGTCACCTAAAGAAATTTCTTACATTGTGAATCATTCAGAGTCTAATTTTCTCATAGTTGATGAACTATTCCTAGATCAACTAGTGAGCGTCAAAGACGAAATTAAAGCCAAAATTATACTTCTTGAGGATGAATTATCTCCGTCAACTGAGAATGCAAGAAAAATAGTATGGAAAACTTTTTCCGAGTTTATTAAATCTGGAACAACTCAACCAATTCAAATACAAGTTAAGGACGAATATTCAATGATAACCTTGTATTATACATCAGGGACAACTGGTTTACCAAAAGGCGTAATGCATCATCATAGAGGAGCTTATTTAAATGCGTTAACTGAAGCACTTGAACATCAGATGGGAATAAATTCAACTTATCTATGGACATTGCCAATGTTTCATGCTGCAGGTTGGGGATTTCCATGGGCTACTGTAGCTGTAGGTGCTACAAACGTTTGTCTAGATAAAGTAGATCCAGAAGTAATGTATAGATTAATAAAGGAAGAAAAGGTTACTCACATGTGCGGTGCTCCTACTGTTTATATAACATTAATAGACTATATGAAAAGAAATAAGCTAAGATTTGATAATATGGTTCACATGATAGTAGCTGGAGCCGCCCCTGCACCAGCTACATTAAGGGCAGTACAAGAACTAGGAGGATATATGGCCCACGTTTATGGACTTACAGAAACTTACGGTCCACATTCAATATGTGAATGGTTAGAAGAATGGAATAATCTCTCAATTGAGGAACAAGCTAAACTAAAGGCTAGACAAGGAATACCTTATGTAGGTTTTGAGATGAATGTATTTGATGAGAACGGAAATCCAGTACCTTGGGACGGGAAAACTATTGGTGAAGTAGTAATGAGAGGAAATAATGTTGCCTTAGGATATTATAAGAACGAAGAGAAAACAGCCGAATCCTTCAGAGACGGATGGTTCCATTCTGGCGATGCAGCTATAGTAGATCCTGATGGTTATATTCAAATAGTAGATAGATTTAAAGATTTAATAAATACTGGCGGAGAAAAAGTTTCGAGTATATTAGTAGAGAAGACTCTAATGGAAATCCCTGGCGTTAAGGCCGTAGCTGTATATGGGACTCCAGATCCAAAGTGGGGAGAGGCTGTTACAGCAAGAATAGAATTAAAAGAAGGAGTTAGTTTAACTGCTGATGAAGTTATAAAATTCTGTAAAGAAAGGCTTGCTCATTTCGAATGCCCTAAGATTGTAGAATTCGGATCTATTCCAATGACAGCTACTGGTAAAGTTCAAAAATATGTTCTAAGAAATTCTGCATTAAAGAAAATGAAGGAAGAAAATAATTTATAATTGAATTTCTTTTTTAGGAATTATTGAATTTATTAGTAAATCAAAATGTTCAGAAGCTTGAATAATACAGCCTCTACAAGAATCTATAATTATCTCGTCTCCTTCTTCGTTTTTATTGAATGTTACAAGTAAAGAATCATCAAAAATTATAAATCTTGATTGTATATCTTTAACCAGCTTAATTTTTGCATTTATATCTATATTTTGAGAAGTAATGAATGTTAAATCTCCCTTATATTGTTTAATCATTCTTACTAACCATTCTGGTGGTTTATCATAAACTATCTTTACTTTTCTGCTTTTTTCCATAAATTCCTTTATTATCTTAATTATTGTTCTTTTACCAGCAACATGGAGACTACGCTCTGTGTCTCCTTTCCTCTCTTTACTCCAGAACGAAATTATCTTAGAAATAGAATTATCAAATCTTGACATTATTTTGTCTTTATATGTTTTTAAAGCTATAGAAGGATCAATAATTTTTACTCTCTTAGGTTTTCCTTCTATAATTTTTATTAATCCTTTGTTCTCAAGTGATCTTGTAACTTCGTAAATTTTTTGATAAGGTACCTCGGATTTTTCTGATAGCTCCCTCATAGTAGCGCTGCACAACTGTAATAAAGACAGATATACTTTACTTTCATATAAAGATAGCCCTATGTCTTCTAAATTAGATCTCAATTCACTACTCATAGTGAATAATTGATTTTTATATTTTTAAACATATCTTTATTATGAATAGGCAATTTATTTTGTTTACCATTTTAGTCTTTTTTACAGGATTATATTTAGGAACATTAAGAATTGTCATCCCAGTAATAGAAAGACATTTAGATATTGCTGTAACTTTGTCTATATTTTTGCCACTGGTAATCTTTGGTTTTACTAAAGGAGGATTTAATTATTTAGCAGGTAAACTTTCTGATGACTTAGGTAGAAAATTGGTACTTATAATAGGTTGGATAGCAGCTTTATCTTCAATAATATTATTCTTTTATGTTAATATATATTCAATTATAATCATTACTGTGTTTTTAGCTATAAATCAAGCATTAACTTGGACAACAACAGTAACTTCGCAAATAGATATTAGTGGGAAAAGTAGAGCTGGATTAGCGTCTGGAATTAATGAAATGTCTGGATATTTCGGTGTTGCAGTAGGTAACCTTTTTGCCACTTATATTTTTCGTCTTAGTTACGTTTTTATTTTCACAGTTGCGATAGTAGCCCTTATTTCGTCAATCTTAGCAATAGATACAAAAAAATTATTAAAAGATACAATAATAGGAAAAACAAAAATCAATTATTCGTCTATAACGAAAACAAGTATAGCCGGATTACTAGAAAAATTTGTAGACTCGTCATTTTTCATATTAATACCAACATATTTACTACTGCTGCATTATAGTTTATTTTTAATAGGAGTTATAGTAGCAAGTTATACATTGACATGGGCGGTATTACAACCATTATTCGGGTATATAGCTGATATTTCTAACCAGAGAAGACTAATTATTACAATAGGTTTCTTTCTTATGTTCTTAGGCTTCTTTCACTACACTGTTTATCCTTTAGTATTTTCTATAATGGAAGGAATTGGAATGAGCATGATATACCCTAATCTAATAGCTTTGGTAAATGATGAAATACATGAATCAGTTAGAGGTAAAGCATTAGGGTACTATAGACTATACCGTGATAGTGGATACGGAGTTGCAGGCTTAATTTTGCCATTGCTTTACTCATTTTTTGGATTTAACTATGCACTATTAATTGTAGGTACATTTCAACTTATCTCCATATTTCTTATAATAGACGTTAACGTTTTCAAACATGTTACTAAGAATATGTAAATATAATTAACTATATATAGTTAATTAAGTTTATAAGTATTCATTTTATAGTAATTAACATGCCAGAACACCCTAAAAAAGAGCATTCAGAACATCCAACAAGAGAACACCCAGGTAAAGGTGTAAGTTTAGATAATATCGCTAAAACAGTTGAGGATTTCGTTAAAACGGATTCCCAACTAAAAGGAGGTCATTTTTCTATTTATGATCCAGTTTCGAATAAACCGTTAGCATTAGATCTGGAGAAAGTGCACAAAGATAGACTATCTAAAATTACAGAAAACGAATATTTTGTGTGTGCAGATTTTAAGTCTACTGAAGGAAAAATGTATGATCTAGACTTCTTTGTCAAAGAAGATAAAGGTAATCTAAAGGTGACTGAAATTTCTATACATAAGGAAGAGGGAAAACCAAGATATAATTGGGTAGAAGAAGGAGGTATATGGAAGAAAATTCCTACATAATTTTTTAAATCATTCCTTCTAGGTTTATTTTTATATTACGTTCAAATTCTGTTGACTTTTCTAAATTCATTTGATTTATTTGTTTTATAAATTCTTCCTTATTGTCAATCTTAAATAATTTATTAAATCTTTTTTCAAATCCTATAGTAGAGCTAGGTTTTCCGCTAATTCCTAGTCCACATACTGAACCAGATGTATGCGATGGATAAATTTCTACATAATCTGGGAACTTCTTAATTTTCTGAAGACTGTAATATAAATTCTCTTCTGAATTATCTTTGTTTATATCTATTCTACCTACAGAACCTACAAATAGAGTATCTCCAGTTAACATACTCCAGGGCTCTGTCCAACTATCATCTCTTCTCTTATCATATATTAATAAAGACATACTATCCGGTGTATGACCTGGAGTATAAACGGCTTTTATTTTTACATTCCCTGACTTTATCTCTTCACCGTCTTTTATTCTTTCAGAAGGGAATTTTATCTGAGAGTATTCACTATAATATATATTTGCGTTAGTTAAACTCTGCAATTTCCTTACTCCAGAAATATGATCTGCATGAGTATGAGTATCTATTATATAGGAAATTTTCATTCCAAGATCTTCGCTAAGTTTAATTATTTCGTTCAATACGTCATATTTTGGATCAACCACAAATAATTCACCTGCTTGAGTACAACCAAAAATATAGGTTAGACATCCTCCACTCTTACTCAATACATATCTGAATATCATAATTATTAATATACCAATTATAGTTTTAAGAGTTATTAACTTTTAATAGTGAAATAAACTTATGATAATAATATACGATAAATATATATCATAAATATTTAATATAGTATAAAAAGTTAAAAAGATATTATTTCATAGCCTTCTCTTACAAAATGCGCTACCCTTTCACTTGTAGGCATTAACGATATCCCTAGACTCTCTAAATTAGGCTTTATTTTCATATTCTCTGCTATTCCTATACATGCAGAATCTACAATCTTATTTTGTAATAATTCATGAAACATTGACTTTATATCGCCGTCTAACTGCGTTAATCTTTTTTGACTAGGTCCAAAAAATAATACCTTCATCTCATCATATCGCCTATTTTTAAAACTATTATAACTTATTCTAATTCCTAGATCGAATTTAGTATCGTCCGACATTATCAGAAATAATACTTTAGTCATATATTTCCGATACTGATGTATCTTAAAAAGGTATCTTAAAAATACGTTCCTAAATGTATAAATTTTTAGATATTTCAGGAAAAAATGTTATAGTAAAAAATATTACCTAACTATTCCAGTCAGGATATATTTGACTTAGAGGTATTGCAATAACCCATCCGTATGAATTTGTCAAGAATATTGTACCTCCAGATATTACTGGATCTACTATACCGAATCTTCCTCCGACATAATACATTGTTATGACTTTTCCAGAGTCAGGATTAAGTACATAGATATGACTTCCAGCAGCTACCCATAGTAGTCCATGATAATATACTGGAGCACCTCTAGGACCGCCAGGTAATGTTGGAGGAATTCCTAAATCTGGTAATCTTGTCTCCCATATTATTTTCCCTGTAGCTATAGATACTTTAGCGACACTTCCGAGCGAAGGTATTCCTACATATGCGTAGTTTCCATTAGCTAAAATCATTGATGCTTTAAAAGCTGGAGGAACGTAGCCTCTACCAAGATTAATAGCCCATAACACGTTTCCATTAGTAGCATTCACTGCAAACATTACAGTATCCACAGTGCCATTTCTGAAATTAGCTATAGTATCCTTTAATATTATTCCACTACTTTGAATTACAGTAGCAGGTGAATCTCCCATACCCGTATTAAATGGTACATATGTAGACGGTAATTGAGATTGCCATACTACTTTACCGTTTTCAGAGTTTACTGCTACTAGTATTCCATAAGGATATTTCAGAAGAGTAAATCCTGCTATAAAGAGTACTGTACCATTAGATCCTACGTAATAATTGAGACTACTCATGCTATCTATATAGCCAGGCAATTTTGTTATCCATAAAGTACTGCCGGTAGTAGCATTAAGTCCAACAAAGCATCCTGATCCAGTAGCGTACGCTAATATTCCATTATAAACTACGGGATCTGGCATATTTTCACCAAACGTAAACCTCATCCATAATAATTGACCATCACTAGCATTGAAAGCGTAAATTCCACCATAAACTGAACCTCTATATACTCCAGAAGATTCATTTCTTAGTGCATGCTCAAGAGCAGTAAATGTGAAACCTATATCACCTACAGGTACGTATACTATACCGTTCCATACTATTGGATCTTGCATAGCCATTGATGCTAAACCAGTAGCATACCATACAACGTTACCAGAAATTGGATTTACTGCTAATATAGTTCCTGGTCCACTATCCTCTTCTACAAATAGTAGGTTGTCAGCTAATGTAACTCCTAAAGGTTGTCCTACATCTTGAGTTAGGAACACTAGTGCGGCCTTCTCACCTAACGCACTAGCTCCAGGTAACATTGATGCCGGTGTAGAAAGAGGAATTGGAGTACCTCCTCCAAAAGAATCTGCCGGTAACTCCCAAGATACACCTTGTTGCAAATATGTGCAAGACGTCGGAACTACAGACTCAAACTCTTGATTATAATTCGTCACTATCCAATCTGAAGGAAATCCTAAATTAGAATTTGACATATTTCCAGGATAATAAGTAACCTTAACTTCATAGGGGAAATATGTACCATTATACTGAGTATAAACCGTAGTTATTGGTTGAAGAGGAGTTTGAGTTTGAACTTGATTCTGGAACGAATTGACTATAAAAAATGACACTGAAATAAGGAATAGGATTGCGGTTATAAGGCCGATAATTTTTAACTCCATTTTTGACCATTTATCATGCTGGATAAACTAAATTTAAGCATTAAGTCTTTATAAGTATCTTTTTTAATTTATTAGATAAAATTAAAAATAACACGAAATGTATAAATACGCTTCTATATATGTTAATTTACACTATAACGCTAAGCTATTCAATTACGTTATTGCATTTAACGTTCACTCTTCGTTAATTTAGATATATCTATTTATTAACTTGAGAAAGAAAATGTAACATATGTATGAATGGTTTGCAGAAATGAGGAAAAAGGATCCCGTGTATTATGATGGAAAGGTATGGCATGTATTCAAATATAAGCATGCAAAAGAAGTTTTGAATAATTTTTCTAAATTTTCTTCAGACCTTACAGAATATAATGAGAAAGTTAACGATCTCAGAAATGGTAAAATAAAATTGGATGTACCAACCAGGTATACAATGTTAACTTCTGATCCTCCGCTCCACGATGAATTAAGATCTATGACTGCAGATATTTTCTCTCCACCAAAATTACAAGTTCTCGAAAGTTTTATCAGAGATACTGCAAAATCTCTCCTAAATGCAGTTGATAAGGAGGACGATATAGTTAGGAAATTTGCAGTTCCATTGCCAATAATTGTTATATCGAAACTTTTAGGGCTTCCGATAGAAGATAAGGAAAAATTCAAGGAATGGTCTGATCTGATAGCGTTAAGATTAGGGAAGCCTGAGGAAATATTCATAGTTGGAAAGAAATATCTTGAACTCATAACGTACGTAAGAAATCATTTAAATCCTGATAATGAATTAGTAAGCAGAATTTTAAAATCGAACCTTTCGAACATAGAAAAACTTGGTTACATAATTCTCCTTTTAATAGCAGGTAATGAGACAACTACAAATCTAATATCTAATGCAATAGTAGATTTTACAAGGTTTAATATATGGGAAAAAATTAGAATAGAAAATCTGTATCTTAAGTCTATAGAAGAAGTATTAAGATACTCTCCACCAGTTATGAGAACAGTAAGAATAGCTAAGGAAAAAGTAACATTAGAAAATCTGACTATAAATGAGGGAGAATTTGTAAGAGTATGGATAGCCTCAGCTAATAGAGACGAGGAAGTATTTCATAATTCAGAAGAATTTATACCTGATAGAAGTCCAAATCCTCACCTAAGTTTTGGATCTGGAATACATCTATGCTTAGGAGCACCTTTAGCTAGATTAGAAGCAAGAATAGCTATTGAAGAATTTTCAAGGAAATTTAGGAATGTAGAAATTCTTGAAACTGAGAAAGTTCCTAACGAGATTCTAAATGGATATAGAAAGCTTATAGTCAGAGCTAAACCTATAACTTAAATCCATGATATAAACTTTATTTATTATATTAAAATATAGAACGTATGAGAGGTTTCAATACTAGAGCCGTGCATGAGGGAGAAATTATAGATAAAAGATTCGGAAATGTTGTAACTCCAATTTTTCAGACCTCTACATTTATCCATCCCAATGACGATCCTAACGCTTATCTAGATTCTAATACTGGGAAACCTTTTCTTTACACTAGACATGGTAATCCTACGGTGAACTCTCTAGAAATGAAATATGCCTCACTAGAAGAAGCAAAATTCAGTATATCATTTTCCTCAGGTATGGCTGCAATTTCCACTACATTAACAAGTTTAATTAAGAAAGGCGATAAAATACTTACAATAAATCAATTATATGGACAAACATACAGATTATTCCTAGATTTAATAGAAAGATATGAAATAGAAGTAGATTTTGCATCGATTAATGAAATAAACTCCTTAGATATTAATAAGGATTACAATATAATATACGTAGAATCAATAACTAATCCCACTCTTCAAATTGTAGACCTTATGGAATTAGGAAAATATTGTAATGAGAGAAATATCAAATTGGTAGTTGACGCTACTTTTGCGTCTCCCTTTAATCAGAGACCTTTAAAATTTGGAGCAGATATTTCTCTTCATAGTGGAACTAAATACATTTCTGGTCATAGTGACGTAGTAATTGGTCTAGTATCTACTAATAACAAAGAGATTCATAGTAAAATTTTTGATGGACGAAAAACGTATGGTGGTTCTGCAGATCCGTTAAGCGCATATTTAAGTTTAAGAGGTTTAAAAACGTTAGGTCTACGTATGGAAAGACATAATTCAAACGCTATGGAATTAGCTAAATTCCTTTCAGATAACGAAAAGGTTAGTAAAGTATTCTATCCAGGGATTCCAGAGTTTGAGTACTACGATATAGCGAAAAAGGTTCTAAAAGGATATGGAGGAATGGTTTCTTTTGAACCTAAGGGAGGATATGAGTGTTCTAAGAAGATAATAAAGTCATTAACACTTGCAACACCTGCTCCAAGTTTAGGTGGAGTAGAAACATTGGTTACCCTACCTAGAGAAACTAGTCACGCATCTCTATCTAGTGAAGAATTAAAAAAGATGGGAATCCCTGAAGGCCTGATAAGGGTATCCGTAGGAATAGAAGATATAGAAGACCTAATAGAAGACTTTAAAGAAGCTCTCTCAGTTTGTTGATTTATTATAAAAATATATTAGCAACTATATTTAAAATAAATGGATATTTATCAGAACTATTATAGGTAAAATGGAATTACTTCTTAAACACTTTAATGAACAATTAGACCTTATAATAACTCTTGAGAGACCGTGTAAATATTTTTATAGCTTTACCATTGACTTTGCCTCCTCATATATTTTTCTTACACTCGGAATCACAGTGCTCTCTAAAGGTTGTGAGAAAGGAATAGGTACATCAGGAACAGCTATTCTTCTTATTGGTTCCTTTAAATCTTTAAATGCGTCTTGATATATTATGAATCCTATCTCTCCAGTCATACCATAACTCATGTAATCTTCGTCTACAATAAGGACTCTCCCAGTTTTCTTGGCAGATTTTACAAGAGTTTCTCTATCTAGAGGTACTAAAGTTCTTGGATCTATAACCTCTGCAGATATTCCTTCTTTTTGCAAAAGTTCCGCAGCCTTCAAACTTCTCTGCAACATTAATGCTGTAGAGATAATTGTTATATCACTTCCTTCTCTTTTTATATCAGCTTTACCAAATTCAATAGTGTAAGGATAATCTGGAACATTTTCTTCTTCTCCTTCAAAAGGTAAGAACGGCATTCCAGTGAGGAGTTTATGCCCAAATATAACTACAGGATTCCTATCTCTTAGCGCAGTATGTGTTAATCCTTTAGCATCATATGCATTAGATGGAACTACTACTTTAAATCCAGGTAAGTGAGCGAACAAGGAGTAGAGAACTTGCGAATGTTGTGAAGAATCACCGTAACCTCCTCCTATCGCAGTAACTATAGTTATTGGCATTTCGAATTGTTCACCACTCATATAGAAGTTCTTTGCCATATGATTATACATCTGATCAAAGCCTGCGCCTAGAAAATCTACGAACATTAATGAAACTACTGGATGCATTCCGACTGAAGCCATACCGACTGCCATTCCCATAAAAGTCTGTTCTGTTATAGGAGTATCAACTATTCTGTCTCTACCGAATTTCTCAAACAGGCCTGCTGTAAATCCAAATACTGCTCCCCAATATGTTACGTCCTCACCTAAAACCACTATTTTATCATTACGTTCCATCTCTTGAGATATTGCGTTAGAAATTGCTGCCGCTATTCCTTTCATGCGAAAACACCTCTTAAGGCGTCCTCTTCTGAAGGATATGGACTGTTTTCTGCAAATTTTATGGCCTCATTTACTTCATTCTCTGCATCTTTTCTTATCTTATTTAATTCTTCATTTGAATAACCAAGTTTCATCATTCTATCTTCAAGGAATGATATAGGATCTATTTTCCTCCATAATTCAACTTCTTCCTTTGTTCTATATTCTTCACTATCTCCCTCAAAATGACCACGAAGTCTGTAAGTCACAGCTTCTATCACTGTTGGTCCGAAACCACTTCTAGCTTTTTTAATAGCATAATTTGCAACAGTGTACACTTCAATTACATCATTACCATTAATTAAAAATGACTGAATATTATTAGCCAAGGCTTTCTGATAGTGATGAGTTGTAGACATTACAAAGCTTTTGGGTGTAGAATCTGCATATAGGTTATCTTCAATAACAATAATTAATGGTAAGTTCCATGCAGAAGCTATATTTAAAGTCTCAGCAAAAGTTCCGTGATTCGCGGCTCCTTCACCGGCAAAGGCTACAGCAACATTATTAGTTCCAGTATAGTTAAAAGCGAAAGCTGCTCCTAAAGCTTGAGGGAAAGAAGCGCCTACAATTCCGCTACACGAAAATCTTTTTGATTTATCGAAAAGATGCATGTGACCACCTTTACCTTTACAAAGTCCCGTTGATTTTCCGAAAATTTCTGCAGCTAATTTCTTTAGATCTACTCCTTTAGCTATAGCATGATGATGAGGCCTATGAGTGCTTACTACAACATCGTCATCCTTTAAATTGTCTTCAACTCCTACAGCTATCGCTTCTTGACCTACTGCTAAGTGCATTTCTCCTCTTATAACTCCTGAGGCCATATTGAATTGAGGTACTTTCCCTTCATAATACTTTTTAGCTATTGATTCCTCGAAATAGCGTATAGTATACATTTTTCTATAAAAGGATAGTAATCTGTCTTTGTCTAATTCGTTTTTCCGTAAAATATAATTTAAATCTTTTATGGTATATTCTGGTCTCCACATCAATATAATAAAGCATGATTAGTTATTTAAAGATTCATTATTAAAATTATTTTATAGAAATACTTAAATTTATATATCTACGCAATACAAAAACCTATAGTCTAATAAGAATTTTAAGTTTTGTATATAGATCAAAATGTTTAATATAAGAACTAAAAGTGAATTGGTAAAATATAGCATTGTAGTATAATAAAGGCCAATAAAAATATCTTCCAATAAATTCTTTTTATGGTTATAGGCCTTATTACTAAACTCTACTTACTACGTCCTTCGAAACTAATACTAATCCCTTCCAATCCGGTTCGTCTTTAGATAGAGAATATTCATCATTCTCTTTTCCTATAAATCCCATGCTAACTAACCTAATCCTGCGTTGAGTTAAAAGTTAGCTATACGTTTCCTATTGAGAAAGACTAAAGAATTACACAAAGCACTAATAGCATATATCTTTATATTTAACTTTTAATAATAAAATACAGATGTAAATATGATTATTGAACGTTTCGTTAGCGGACCTCTTTCCACTAATACGTACGTATTAATTTATGGTAATGAAAGCTTAATTATAGACTCTGAAGGAGACATGACAGAGGTAATAAATTTTCTTAAATCAAGAAATATTATACCAAACCTATTCATAGCTACTCACGGACATTTCGATCATATTCTAGGAATTAATCGACTTAAATACGAATTTCCTTCTTTACGTTTTTTAATTAATAAAAAAGATCTAGAATTAGTCGCGAATGCAGAGTCTTTAGCAAAATATTTTGGAATAAGAATATCTCCAATAATTCTTCCAGACTGTTACGTGAAGGAGGGTGATAAAATAAAAATTGGAGAAGAAGAATTAGTAATAATTGAAACTCCCGGACATACTATGGGAAGTATCTGTATCTTGACTAATAATGCAATTTTTACTGGAGATACATTATTTAGTGGTACTGTTGGAAGAACTGACTTAGGTGGTTCTTTAGAACTTTTGAAAAATAGTTTAGAACGATTAAAGACATTGCCTGATGAACTTACAGTTTATCCTGGACACGGAAATTCTACACAATTAGGCTACGAAAAGATTAATAACCTATTCTTAACTGGAGAAGTAGACTTATAGTTTTGCTACTTTATGAAATTCTTCAATTTTCATCACAATATGGAGAAAATATTCCTCAATTACACATTAGATTTTGAATCTATGAAATTATGGAAAATCAATGACTAGGAAAAATAGATTACCGACAACTCAAATAGTTTTATACATCTTTCATAAATTCTTGTAAGATGTAGAAGATATTTTTTAGTCTGAAGAATAATGATACTTAATGTATGCATTAGTCTTTAATAAGAATGGTATGGAGAATCTAAAATACACAGAATATAAAGATCCTTCAGTCAATGACAATGAAGTTTTAATAAAAGTAAGGATTGCAGGCGTAAATCTTGTAGATTATTTTACTGTCGTGTCTATGAACGTAAATCCAATACCTCATATTCCTGGCGTAGAATTCGCTGGAGAAGTAATAAAGACAGGTAAAAATGTCAAGAGTGTTAAAGAGGGAGATAAAGTTACCATTTATGGTAGAATATTCGATGGAAATTGCGATATGTGTATGATGGGTTATGAGACCCTCTGTAGAAATGGTGGAAGAATAGGTGTAAACACTACCGGTGGGTTTGCAGAATATGTTTCAATAGAAGAGAAATACGTATTTAAGTTACCAGAAAATTATAGTTGGGAATTAGGTTCTAGTATGACTGTTGCAGCTTTAACTGCATATCATGCATTAAAGGAAGCTCAATTAAGGCTATCAGATACTCTGGTGGTTTTCGGAGCATCTGGAAATACTGGAATGTTCCTAGTTCAATTAGGGAAGAAATTCGGAGCTAAAGTAATAGCAGTAAGCAGGAAACAATGGCTTACAGACTTTGGAGCGGATATGATAGTAGGATATGAAGATGTTTACGAGAAGGTTAAGGATTTTACGAATGGAAAAATGGCAGACGTTATTATAAATTCTTTAGGTAAAGAATTTTGGGACAAAAGTTTCTCAGTAGTAGGAGTTAAGGGTAAAATAGTGACTTTTGGCACACTTACTGGAGCAGAAATCAAATTGAATTTAAACCAACTCTATAATAAACATATAAGTATCTTGGGCACTAATAGAGGAAACAGAAAAGATTTCTTAGAGCTTTTGGATGTTTGTAGAGACTGTAAGGTTAGAACATGGAAGAAATATAGCCTTGAGAACGGTATAGAAGCGTTAAATTCGTTGTCTGCCAATGATAGGGATGGTAGAATATTTATAGTGGTATAAAAAGATAATATCTTTTTCACTTTAATATTCACCTTCTAATAAAATAGAAATAGAGGTATATACCAAGATTTATTAAATAAGAAAATAAAATGAAAATATGATAAAAGAACATCGTCCTATAAATACAAGGAAGGTCTACATATATAGATGATATAGAACCTAGGAATATCAATTGTAACATTTAACGAAATAGTTAACTTCTCCAAGAGAGGGAATTAGGATAAACGTAAAAGGCGACGAAGTATATTATTATTTTCCTCTATTTCGGACTGTGGAGTACCTTCGCCAATTGAATCTCCACGGTATGCCGTTACAGATACTGTTGAGTATGTATCGAATTTACTATCAGGAAGTAGAGGAATAGGAGAAGCAGGAACTACTGACGCTTTATCAGATTTATAGCTTTAGAAAAATGTACCAAGAAAAATTATATGCTACTCCAATTAGACCTTGGTTTATAATATAAAAACATTTTTTCTAAATTATTAAAATAGATAAAGAGTTTATATATTATTTAATCTTTTTGCTTATGAATCTGACTAATATAAACTTAAACTAAATTTTATAATAAAAATATTTATTTAATTAATATGTATCATGTATCTATGGACTCTAATTGGTTTTCAATTTCACAAGAAAAAAGGACTGCAATAAAATATATTTCAGAAAATTTTTATCCAGCAAAATACATGAACAGATGGAGAGATTTCAAAGAAATTTCTTATAAATTATCAGAAATTGTTAAACTATATTCTTCTACACAAATAACTGAAGAAATAGAGCATTTTGAATTCTTTAAGCAATATTTTAATGAAGACACACTGGACTTACCGCTACCAGAATCTTACATCAAATGGTTTGATTCCATGCTTCTAGCGTTTAGGCACGGAAATATAGATGAAATAGCTTCACGTTTTCATATGATAACTGAAGGAATTTTAGCTACTGTAGGTTTAAAAATACTAAACGAAACGTCTATGGAATTACCAGAATTTAACTTTAATATAAAGAAAATAATAGAAGATGAGGCAAGACATATAAATTTTGGTTTTCAAATTATCATGAATCCAAATTATGCTGTAAATAGAATAGAAGAATTATATCCTTATGCTGAAGATATAATAAAGGATGGTATGAAATATTTAGAACCAATAGGATATTCTTGGTATGATTTACGTAAGCTTATGTTAGAATTGAAAGAAGCTAGGATAAACAAGTTAAAAAAGAAAATAATGTCTGCTAATTGAAATAAGTCATAAAACTCTTACAATATATTAAATTACGTTTGAACTTTCCTTTATATTAATATTATAATAAAATTTCTTATAAATATTAAATAATAAAATTTAATAGAAGGAGATTATAATTTATTGATTAGACTAAATACATTTATATTTATGCATTCATCATCTTGCAATTCACAGCTCTATTGTAGATTGAAATAATAGATTATGTAAGAGATATATTCAATTAAATTATTATACAAACAAAAACGTATTCAAGGACTTAGATTGAAACATTTTCTTTCAAATTATAAAAACAAAGTGAATTAACAAAGATAATCTGAATAGCCCATGTTTGTTAAGTAAGATTGATAATTATTGTAGCAAAATAATCTCTATTAAGATATTTAATTGAAAGAGTTATTATTCTATGAAACAATCACATATCATTTTGCGTATGAAACAAAAGTATAAATAGTATAATGATACTAACTGCTATAATTCCTAAAGTACCAGAAAAGTAAAACGCATATGACGGTTTTATTTCGAATAATATACCTATAACTATATTATAGAATATCTGAAATATATTAGTAAAAGTACTAATTAATGCAATTTGTGATCCACGAATTTCTGATCTAGTAACACTCTTACTAATATTCACACCCATTATATTTTGCATAGCAACAAGTAATGTCCAAAAATAAAATAATATAAATGTAATATAAATATTGTATACTAACGGAATAAGGAAAAATATGAATGATTCAGAAAATAATATAAGTGATAAGTTCTTAAAACTACTATAATTACTTAGAATAATTGAAAATAGTAGTGGTAAAAAGGCCATTATTATCGCGTATGTTGAATATATGACGCCAATCAATGTTAATGGTATTGATAGATATTTAACGAAATAAATTGTCACATAAAATACCTCTAGATTTAATCCTGAACTGAGTATAGAAGTTAAAATGTATAACAATAGAGTTTTATCTCTAATATGTTTAAAACTTAATTGCATTATTTTTCCTACTTTATAATTTTTGTTTTCTCCTTTAGGTAATTTAAGAAATCTTATCAAACTACTGATTCCAAATAATATTGAAATGAACACAAATAACAAAAGTGAAACACCGAAATACTGTAACAAAAAACCACCAGTTAAAATTCCTATAGATGCTAGGATGCTAGTTATAAGAGAAAATACACCAAAAGCTTTTCCAGCATCCCTATAATCAAGTATAAATTTATGGATACCTAGAGAATTAATCATTCTCACTATGGACTCAAAAATTATAAATGAAATTATAAAAAATACAGCGATACGCGTTCCCATTATAAGAAACAGAGGAACAGCAATTAATGCAGAGATAACAAGGGCATTTCTACTACCTATTTTATCAACTATAATGCCTAAAGGAAGATTTAAAATAACATATACAAAATTCGTTATACTATATATTGTACCAATAATAAATATATTAATATTAAAGAAAGTCATAATAATAGGAAAATAATACGCTAATAATGAATATGCAAAAGTAGAAATGCCAGAAGATAAAGAAAAATAAAATAATATTTTATCCCTTATAAGATAATAAATCTCCTTTAGCATAATTTTTCACTATAGGACACAAAGGATCTGGAGCTAGCAAGTCGTGACCTAATATATACGCGTTAAATCTGAAACCTCCTTTACAGATATTTTTAACAGTACAACTCTTACATGGTTCTTTAAGAAACGATAGTGTTCTTATAGCATTAAGCAATCTGTTGTTAGACCAAATTTCAATTAATGAGTGCGTCTTTAGATTACCTAGCTTTGCCAGAGGAATAGAAGTTGCTTCGGACCCAGGATAAACATCTCCATTCGGCGAAACGATTAGACCTATTTCACCCCAATTTGTAGGAATTGGTATCCTAGAATATAGAATATCAGTATCCACATAATTTTGTATAAAGTCTTCTCCATAGATTGATCTAAGTCTATTCAATTTGTCATGAATTTTTTTCTCGTCATTAGAATCTGGTACTACATACTTTTGATTAATATATCCGTGACCTACTTTTATAACAGGATTAATTTCTATCCAGTCTAAATTTGCTTTATATGCTAGATCCACAACTTCTTCTAAGTGGTCGAGATAATATTTAGTTAACACTATATTACCTCCAACAAGCTTTACTCCAAAATACTTAAATTTCTTAGCAATATTTGTTTTGTTTAATATTTCATTTTTAATATTCATGTCCAAAACTGATAGATCAGATAAATGCTTATGTGATGTGAGATTTATTCTAACTCTATCTAAACCACTTTCTACTAATTTTTTAATTCTATTATCAGAAACTGGTTCTCCACTAGTTAATAGTAAATATCTTAATTTTTGTCTTGAAATATAGGATAAGATTTCTTCTAAATCAGTTCTTAGCAGAGCTTCTCCTCCAGTAATTACAATATCCATAGCCCCTTCATAACTTTTATCCATATTTTTAATTTGATCAATTATTAATAACCATTCATTTACGTCTAATTCCTTTATTTCTATTGTAGATCTGAACTTTGGTTTTTCATTTGCTATATAAAAATTCCCTTCTTTAGGCGGATTATGGCAGTAAAAACATTGTTGACTGCATCTATAAGTTAGCTCCAATTCTATAAAAAAAGGTTTAGAGTTAATCACTTTAGTTCATCCTCTTTTTTAGAGTATTACCAACTCGTCATATAGTAACTAGGTGCATGAACTGTATAGTACATCGTATACTTTCTCTTTTGTATCTTTATCTCATTTTCAAACTTTTTTATTACATATTCTTCGTCTATTTCCATTCTTTACACCCCCTATTATCTAATATCTTTTGAACAGCTTTTTTTAACTCTCAATAATTGAGAAAACTTTTTAAATATGCCATAATTATTAAACTGTCATATTTTAACGTTTTTTAGACATTACCTACCGAATAAAGTAATATATACATTTATTTAATATACTCAGTAGTACTTCAAAGTACAACGACATCCCTTAAATTACACAAATACTTTATATATGTTAAGGAAAAGATATTGCCCTTTAAAGCCTCAGAAAGTACAAAAGTATTTTATTAAAATGGTTAATGCTTATATCATTCCTCCACATAACTAAAAATTGATCTCGTATCAAAAACAATGAAAGATTATTTAAAAACAAATACAAACATATTATGGTGATGAGTATTAATTAGGGGGTTATACCCAGGTAGATTTCAGCCATTTCATTACGGGCATCTGAGTGTAGTAAAATGGGCACTTGAGAAGGTTGACGAATTAATAATACTTATTGGAAGCGCTCAGGAAAGCCATACTTTAACTAATCCTTTTACTGCAGGTGAAAGAATTGAAATGATAAAAAATACATTATCAGAATACGATATACCGTCTAATAGGTTCTACATTATTCCTTTACCAGATATTTCAATGAACAGTATATGGGCCTATCATGTAAAATCATATGTTCCTAGATTTCATAAAGTTATAGGAAGGAATCCCCTAGTAATTAGACTATTTAAGGAGGCTGGAGTAGAAACTGAAAATCCTCCTGAATTTGATAGGATTAATTATAACTCCACATACATTAGAAAATTAATTATTGAAAATGATAGTAGATGGAAGAAGCTAGTGCCAAAGAGTGTAATTGAGGTCATAGAAGAAATTAAAGGAGATAAAAGACTCAGAGAAATTGTAGGTTAAAAAGCAATTTTGAAAAATAAAAATCATATATCAATTTTTAACTCTTGTTTTACCTTTTTCCAATCTATAGCCGATGAGATTGATTGGTATTCTATGAATTTTCCCTCATTACTTTTCCATTTATCAAAATTTTTCATTGCTGTAGAATGAGGTAAAGTACTAATGAAATCATGCATAGAATCTCTACTTTCCCAAACAGATACGGTAACATAATAAGATCTAGTGAAGTTAGCATATAATCCAAATGAAACTACTGGACTGTTCATTAATTTATTAATGATTTTTCCTGTTAATAATAGAAATTGAATAGTATATCGTCTTCTTAGAGGTAAATATGTAATCACTATTATGAACTCCTTTAAGTTAGAATTTTTAAGATATTTTTCATATTTCAAATTGCTCATGTAATTATTGATCATATGCTTATAAATGTCTACAATACTCTTACGTAACTATTAGTTATTTTAAATCGTTCTAATTCCCTTAACGCTTATATAGGAAGTACCTGTATACAAAGGCCAAATGAGACTTTTGTTAGATAATTACGAAACTTGGAATGAGTAAGTTACTTACTAGGGAGTAAGTAAAACGTTATTTAATCCTGAACAGAAAGATAATTTGAAAGATATTTTAGCAGAGAAACTGAAATCTCATCATTTCAAAATCACTAATTCAGTATTCTATTTTTATTGCGTTTTATTATCGTTAATCTGTTATTAATATAATCGATTTTCTCTATATAATCGTGTCCATATCTTAAAAATAAATATATTATAATTATACAATAAAAATATTAAATTGGAGACGGAGAAGAAACCCCTTCAATCTTTTTCATATATTCTTTATACATACATCTATCTTGAATAACAATTAATCCAGCCTTTCTTGCCTTTTCAGCAGCTTCGTCATTTCTTATTCCCTCTTGTAGCCATATTACTTTTACGTCTCCTTTTTGTTTTACCCTTTCTAAAACTTCATCTACTATTTTAGGAACTTCTGATGACGGTCTAAAAACTTCTACAACTTCAATTTTTTCAGGAACATCTAATATGGATTTATAGCTTTTTCTTCCTAAAATTTCATTAACTGTAGGATTTACTGGAATTACGTTATATCCTTTTGAAATTAGAAATTTAGGTACTTGATGCGAAGGTTTAGAAGGATCTTTAGAAAATCCTATTGTAGCTATATTCTTATATCCCTTAAGAACATTTAATATCTCATTTTCTTCGTTATCCATAATTATACTTTAATACCTATCTTTTTAAATCTATTTGCCTTATGTAACATAAAATTTAATATTAATATTATTAATTTATCAAATATTTTAAAAGGAGATTGATTAGTTAATAACAAGCATCACGGATATAAAACTTCCTTAAATCTTCAGTGGCCATATTTTAGATTCTTCCAATTTTTTATTTCCAGTATATCCACAAATTCCAACTCTCGGAGAATTAGGTATGTATTTATCCGAAGTACTGTATCTGGTTAAAGGATTATCATTTCTACCTAAAATATAGATGTATTTGTCCTTTATCTTTACACTGCTAATAACTTCTAGTTTAAGTTCAGTACTATTCCCATAATCGTACGTGTACTCGAAATAGAGACCCTTATTCAATATTTCTGAGAGTTTTGTCTTCATAGATTTCTTGCCGTCGTAATCTACAACAAAATCTGAAGGATATGTGATTTCATTTATTCTGAATTCGCTAGCGTGACCACAACAATCTACCCAAATATCTCTTATGAATTTATCTAAATCTTCTAAAGTATAATCTAAAGGAACTGCAACGTAAAGCCAATAATAAGCAGAATATTTATCCTTAATTTTTATAAGGTACGCGTCTATTTCTCCTTTTAGAACATCATTAACTTTACTGCATTTTGAGAAATGCTTAACGGCCATCGAAGTACTTATTTTAGTATTACAGAATATGCATTTTCCCCATGTAGATAGCATATTGTAATTATATATTTTCCATATTTATTCCTTGTCCATCTACAAGCTAGCTGCCACTAGTATTTTCCTAAATAGGAAGTACTAGTGATGATACGTCATAAGCTTATTAGTTAAATGTATGCTATTAATTTAAATAATGTCTAACATTAATCTTCTATCTGCAGCCGATTTATTAGTTAAGGAAGCTGATGAATTGCTTGAAAAGGGGACGTAGTGCAAGCGCCAGAAAAGTACTATAAGGCAGAAGAGGCAGTAAAACTGATGGTTAAGTTGTTAAACCTGAATGACATACTACAAAAAGTAAAGAAAGAAGATTATTGGGGTTTAGGAATTTTACATGATGCTGTAATTCAAATATCTCAAAAATTAGGTAATGAGAAAGTAATTGAACTTTGGAAGTCAGCTATAGCAATATTCACTGCTAACTTATCTAAAGATATCCTTAGTGTAGAAGCAGAAAAAGTGAAGGAACTTGTCGAACTCTCAGATAAGATCGCTAATCTTAAATTGGATTAAGGAAGCTGATGCTTAGTGGGCTACTTCAATTTTTATCAGAAATAACGTTCAACTTACTTTTAATCAAACGCTAGATTTAGAATTTATCTTGATCTAGTTCAAAACATAGTGAACTACTCCGCCCTAACGGACGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGATCTTCTTAGGATGTTGAGGGAAGCATTATAATCACGATCAGCGACCCAACCGCACTTGGGACAGACAAACACACGATCAGCCAAAGTTAAGTCCTTCTTAACATGTCCGCACCTAGCACAAGTCATTGAAGTAAAAGCAGGATCCACTAGAGTGAGTTTCTTACCGTACTTCCCAAGTTGATATCTCATGACACTCCTAAGCTCATGAATAGCAACATCGTGTAACCTCATCCTCAGCCTTCGAAGAGACTTACCAACAAGTTGCTTAACGCGAATGTCCTCCATTACGAGAACATCATAATGCTCAGCAAAATACTTACCAAGTTTCATGTACATGTCCTTCCTAAGGTTCTTCAAGTGTTCGTGAGCCCTCGCTAGACGAATCTTTGCCTTAAACCAGTTGCGTGACAAGAACTTCTTCCGTGAGAGAGCTTTATGAAGCCTCTTCATCTTATTGAGTGCCTTCTCATAAGGCCTCTGGTTGGGGACATATTCCCCGTCAGAGGTAGTGAGAAGTTTCTCTACGCCAACGTCCACAGCAACTACTTTGTTTGTCTTGGGGAGTTGAGGATACTCTTGATCCACAACGAAAGTAATGTAAACTCTCCCTGATGATGTTAACTTGATTACTACCCTCTTTACCTTGTCTAGCGGGAAGTCCCTATGGACAACGACGTTGAAGATCCCTAGGTTTGACAGCTGAAGCGTTATTACCTTCTTCTTGTTCTTCTTGCTTTTCGTCCTTATTTCTCTCACCTTCAGGACTTTCCAACCTGACTGAGGGTATACTAGTGAGTACCACTTGTGTGCTTTCTTTTCCTTTGGGTAACGTGCTAACCCATAGAAGAACCTCTGTCTAGCGTCGTAGAATCTGTCTGCAATCTGCTGCAGTGTTTGGGAATATAGATGTTGATATTGTTCATCCTGTTTTCTCAGATCGAGAGCTAGTTGCCTCAACTCCGTCTTAGTGAGTCCTTTTCCATCTCTTTCATGAAAATAGATGTCTGTCCAACGTAGGGTGTTGTATACTTCTGACGCTAACCTCAACTGGGCTTTTAACGCCCTCAATGTTTGTTCGTCAGTGTATGCTCTAAAGCGTAACCCTACGTCGGACATTAATAGGGTATTTGAAAAAGAAGTATATAAGCTTTACAAAGGGGGCTCCTACGGTGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCTTTACAAGAGTAAAACTTTTATAAAGAGAACAAGAAAATAACACAAGCCGAAAGTGAACATGGGGATAAAACCCCGTTGGATAGGCTGGCTATACGTCCCCGCGATCTAACATGTGGGACAACATCCCGAGTAGGAGCGTGCAAAAATTTAAGGGGACGTTCTCATAGTTAGTTCGCACTATCTCCTAACAAAATTAACAATACAACGCGTATTATAGAAAAATTCAAGAATCAGAAAAAGAGTATTACACATACAAAGTGAAGATCCTAAAGTTAACCTCTATCGAGTGGTTTCCTCGGCTCTTCAAGCTATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTATCCATCTCCACCCTTACGGATGGAGTCTTCCGCCCCCTTTGAACCCCTTGTTAAGATAAAATTCAACAGTCCACAAAGCACTTGAAAATGAATTATAATGAAAATTCTAAAATTAAGAAGAATTTATTATCATCAATTTCTGAAAATGGTAAATTTTATCTGAAAAATTGATAATCTTCTAGGCAATTCTTTATCTTACAATAAATCAGCAATATGAACTACTTTGCTGTATCTCATCATAGCCAAACTACATGATGGATTGGTTGAGATAACTGTATTTGCACCACTTTCCTTAACCTTCTCCTCTTTTACCTTCATTATTTTATCCGAAAGTTCTCCTTGAAAGACAAAATACGATCCCCCTGCACCGCATTCAAAAGAAGGATCTTCCATTTCCTTTATTTTTATGCCCATTCTATTTAATACTTCTCTATTATATTTTGTTATTCCTATAAGATTTGCGTGGCATGGATCATGAACAGTAACTTCTGAATTTATTTTAGGTAAAGGCATGTTATACTTTACAAGGAACTCTGAAAAATCGTATACGTTAATTCCCATCTCTTTCATGTGAGCAGTACAATTTGACGATAATGAAACTACTATTTTCCCTTTAAATTCTTCTTTTAATTTCTGAGCTATTTGTAAAGCTCTGTCTTTCTCTCCTTCTGCATAGTGAGGAAGACCGCAACATCCATTATAAATGCTTACTGTGAAATACTTTTTAAGATAATTGAACGCCTTCTCTACGGTTTTTCTAAAAACAACTGAAGTAATACATCCTGGGAAGAGTATAATTTGAGCGTTTTTATCGTTACTAATAAGTGGAGGAAAAGATTCTGGAATAAACTTTGATATTCTATACATTATCCCTTTATTTGAATGTTTAGCAATTTTTAGCGAGGTATATAAAAGATTCGAGTTTTCTAATATTCTATGAATTGTTTTCTTAAGGAAATCTGCTTTTCTCACTGAGGATATGGACTCACCGTATTCGACACCGCTAGGGCATGCAGCTTCACATCTCCTGCAGAATACGCAAGTCTCTATTCCCTCACTGGGTATTCCTAATTTAACTGCCAATATTCTTCCTCTCGGTGAATGAATTTCGGATCTTGTTATAACGTAAGTTGGACATGCTTCTAAGCAAAAGCCGCAATGAACGCACTTCTCTAATCCCATTCCCATAACCACTTTACAACTTGATTTTCAGGGGCGCATTTATTTTTTATTATTGACTTACATGGATTTAAAAGTCCTTTTGGATCAAAAGTTTTCCTGAGTCTATCCATAACTTCCATATCTGTTTCCGAGTAATATTTTTCTAGAAATTTGACTTTTTCAGTTCCTATCCCATGTTCACCAGAAGGTACTCCACCCATAAGTATGGCAAGCTCAGTTATTTCACTGCCAGCTTGAATTGCCCTTCTTAAACTATCTTTATCCTCTGGATCGTAAGGTATTAAAGGATGTAAGTTACCATCTCCAGCATGAAATACGTTTGCTATCATCACTCCCTTTTCTTTAGAAATTTTTCCAACTTTATTCATTATTTCCGGTAAGTCCTTTCTAGGTACATTACAATCTAACGTCAAGTAAGCTGGCGAAATAACTCCCATGGCTGGAAATGCTCCCTTCCTAGCATTCCAATATTTTCCATCGTCTTCAGGAGTCATGTATTCTCCCTCCAGATTTTTGATTACTGAAATAATTTTCTCATATTCTTCTTTAACGTCGTCCTCATTTCCGTCTAATTCAATTAATAAAACATTAGATATAGGTAATCCAGCCTTGTATTTACTCTTTTCTACAACTTCAACAGAATATTTATCCATCATTTCTAAAGCTGAAGGAATTACCCCAGACTTGAAAATGTTTATTACCGCTTCTGACGCATCTTCTACTGTTGAGAATATTCCTATAATTGTTTTCCTGGCTTTAGGTTTCGGAAATAATTTTAATCTAGCTCTTAGTACAGCACCTAAAGTTCCCTCAGCTCCTATAAATATTGACGTTGGATTAAAAAATGGCGAAGAATTGAAGTATTCCACTTTTCCATTGGGCAAAATAACTTTTACAGATACTACACTATTAAACGTTGGGCCGTACTTTATTACATGAATACCTCCAGAATCATGAGAAATGTTACCTCCTATAGATGATACAATGTAACTTGATGGGTCTGGTGCATAAAATAGATCTTGAGGAGAATTTCTTGTTACCATTATATTTGCAATCCCTGGTCCAACTTCTATCTCTAATCCTTGAATTCCATAAACTTTGTTTAGTCTAGACATAGATATAACTACTTCACCATTCAGAGGAATTGTAGCACCACTAAGGCTAGTCCCAGAACCTCTAACTATGAATTTTCGCTCTTTAGAAATAAGTAATCTAAATACTTCGATGGCTTCTTCCTCATTGCCTGGGAGAACAACCATTGACGGGTTTCCTGAAACTGCAGTAAAACCATCAAAGGAATAAAGGATTTTTTCGTTGTCAGTAATTACCCAACGATCTCCAACTATTTTTCTTAGTTCATCTTCCATAATTTATATAGAGAAAAAGAATAAATAAGAATTTCTTTAGAACTTACTTCCTTCTACTATTATTTCTTTATTTAGAGATATATTATTAAAGGAATATTTGCTTTTGGTAAAAACTCTACTGATAGTAGGTTATGCATTAAGGAACATAGGAGGAAATGTATCTTCTCCTTTCAAATTCTTCTGCTGGGATTACGAGAAAGCAACAACTTAATAAGTTACTTTCAATTAAGTTTAAATTTATAGTTCTCTTTAATGCAGATATAATCTTTTTTTACTAGTCCTATAAGACTAGTCTTATGAGACTATATATTAAGAGACGAGAAGAAAATAAGGAACATAAAGAACTGGACTTTAATTTATGGTAGAAGGAAAACTGGGAAAAGTACTTTAGTAAAGAAGAACTTACGAATGGATTATTATGTTTTGATTGGAGATTCAAATAATGCTATAACCATAGATGATAAACTGAAGGAAAATCTTAAACTACAATGTCATTATTACTTCTTATTCTTAGCCTCTTAGTAGTATTTACTACTAGTTGAATTTTTCTTCAGTAAACTGGGGAGTTTATTCTATCTCAGCAATCACTAAAACTTTCTTGCCTGCTAACTTTTCTCCAATCTCTTTAGGGATGACGGCACTATAGTAAGGAACTTTCTCTTCACCCTTCTTATAATACTCCATAGAAAACAGCTTAACATTATTTAACTCCAATTTATCCTCATCAGTTATTATCATTAAACTCTTCAACTCCTTATTTTCAAAGTCTTTAGAATATTCTATAGGAAAAGTTATAAAATAAAATCCTTAATTCCGTCTATTATACCGTTATCCCCAAAGGAGATAGTTAAGATATACCTCGTTAACGAATGATCTATAAAATCTTAACTTGCCGAAACCTAGGCTAGCTCCCCTTTCCTCGTTTATTCTAAAGTTCACGATTTCCATATCATTTCTCATCTTCATTGAAAGGTAAACGTCTTCATAACCGTTTATGAAAGTCTCGTCGAAAACTTTACCGTTTATCGCCCTTCTATTCAAAACCATGAAGCTTCCTCCGTTAACGAATGAGTCTTTCACCTCTCCAGCAAAGTTCCTCATTAATCCTATCATTGAGTCTATTATAGTAAGAGTTGTAACTCCCAGCTTTGCACCATATTTCGTCTGAAGGTAACTGTAAACTTCTGCAGGAGGTATTTTCATAAACTTTCCAATGAAGTTCATTCCCTTCAGAAAGTAGGGTTTCACTTTAATCAAAGAAACCTTATAGGAGTGGTATCTAGAAGGTTTAGCTAGAACCATTCCTTTGCTTGATGTAGAAAGTTCGTCTTTCAACTTCTTTAAGTTGTCTATACCATGAACGTCATCGTTAGAGATCACGACCCAACGAGGTGAACTTTCTAACGCAACAGACAACCCCTTGTTAACGCTCCTAGCGTAATTAAAGAAACTCCCTTTACTTTCAACCATCACGATCTTAGCTCCTGAGAATATTCTCATCGATTCCTTGGCGCGTTCACTTTCCACGTCAGCCGTGGGTATCACCACAGCTATATCATCGTTACCCGTTTGCCACACTTTCATTTGTGCTGTATCTCTTTTTCTCATCCATTCTATTATAGAATTCCTATCCAGAGAGTATATTTTCTCCACAATTGAAGGGTCTTCACTTGAAAACATGTCCTCAATCATGCGGAATTCCAAAACTTTACACCTTTTCTATAAAACACAGTATAGAAATTCATCATCGAAAAGGAGTATATTGCGTCCTCAATTGGAATTGTGAACATTCTAACCCCTAGAATTGAATGAGGACCATAAACAACCACCGGCAATGACGTCAGGAAATAGTCAAAGACAAAAAAAGGAATATATGTTAATCCAAGGAATATCCAATAGTTCCTGGATCTGAACATTTCAGGATCGAGGAACTCAACAAGCAGAATTGAGGATGATAAATAAATCAATACTATGAAGGTATATGAGTACTCCGTCAAAAATACATCTATTGCGAGAAGAAACAAAGCTATTAATATCATCAATTCTCTTGTAATCCAATTCACTTCCCTGTCACTTACCTTAGTTCTTACAAAATCGTATATTAAGAGGGTAGCAAAAGGCGTAACAATGAAGAAAAATACCTCCTCTATGGGAAGATCAACAATTCGAATACCTAAGATCCACTTAGGATTGAAACTCCAAGAGTCCTTAAGAGTAGCTAAGAAGTCCCATATTACGTAAAGAGGGGCAACTATCCCTATAGAGAATGCTAATGACTTATAATATCTTCTGACCTTGAAAAGGATTGATATTAGCAAGGTAGGGAAAAATATCATTGAATCAATTTCGACATAGGCTAAATGCGGTAGAAAGATATTAAATTCCAAATAGGTACACCCAAGAAATTATATAAACCTCGAGCTAGCACACTTCTCCTTTTAGGTTTTACCTTCATTCTATTGACCACACAAGGATCGGCCATTATCCTCCTTGCGGTCCACTTATACATATCGCCAGCAGTTTTTACTGCAATCAAATATCTACTAGGTATCATATGATATCCCCTTTCGGCTTCCTTTTGAAAGAAGAAATACCTTTTGAGGTTAAATCTCATGAATTCCTTGAAAGCTTCGTTGCACTCTAGCAGACTTGAAACCTTGAATTCCTTCATTTCGTTAACAGGCAAATATTGTCTTCCCATTTCCATGTCTTCTCTTACATCTCTAATGAAGTTTAGATATTGCATTGCTCTACCTAACATTCTAGCGTAGTATGTAGCTTCATCCCTTAAGTTAAGTATTTTCATCATCATAAGACCCACTACCTCTGCAGATCCCCACATGTAGCCTAAGGTCTCGTCTATTGTATAGTATACTTTCTTCTTTAAGTCACTCTCCATAGAGTTTAAGAATGCCTCAACCCATTCCTCTTTAAATCCTCTTCTCCTCATCATCTCAACGAAATTTGATAATACTACGTCTCCGCTAGAACCGTTATCAAGTTCCTTATAATATAATTCTCTGAGTGAGTAAAATTCTTTAACCTTTTGCGGAACGGAGTCAACTAGATCATCAAAAACTCGAACGAAAGCATAAAGTTTTGTCACATCTCTCCTAATCTCTCGAGGGAAAAGAAACGTGCTGTTATAGTAAGTTATGCTGCCCTTCTTGAAAATGCTGTTAAGCTGATCCTTCATAACTAAGAGTTTATTAAACATCTAGCAAAAATAATTGTGTAAAAAATTTCTTAATACTTGCTTTAAAGGGAAATTAAAATTCAATTAACATAACCTTTTATATCGTCTTTCACCTTTTATCCTATGTTAGAAACGTTAGAGCTCACTGCAATCGGAATCCTCTACTTCTTCGGAATGGAATTCTTAGCCAGATTTCTTCATAAGTATGTAATGCACGGAGCTCTTTGGTTCCTACACGAGGATCATCATAGAAAGAAACAAGCTGAACTTGAAAAGAACGATGCATTTGGAATAATTTTCGCGGGCATTGCAATACTCTTGATTGTTGAGTGGTTAAGAACTGGAAATCCGCTTCCTTTTGCAGTGGCTGTAGGAATGACAGCTTACGGTGCTGCTTACGTTTTTGTGCACGATATGATAATACACGACAGGCATTTACATTTACGTTCTTGGGGTTTAAGACACCAACCCTTTAGGGAGTTAATACTTGTTCATGACGTACATCATCGTGATGGGAGAGGAAATTGGGGTTTCCTTCTAGTAATAAGAGGAATAGATAAGATACCGGAGGAAGCGAGGCAAAAGGCATGAAAGTAGTAATAGTAGGAGCTGGAATAGGGGGACTTTCAACTGCCCTTTATTTAAGAAAGAAGGGAGAGGAAGTAACTATAATAGAAAAGTTGGATCAGCCAGGTGGAAGGGCTCGAAGCTTCTCACATGAGGAATTCTCATTTGACATGGGACCATCATGGTACTTAATGGCTGAAGTCTTCGAAAAATTCTTCCATGAGGTAGGAGAGGAACCCCCTCAAATAATGAAAGTTAACCCTTTATTTTCCTTATATACGGGAAAGTTAAACGTTCTAGAAAGAAGCGAGGAATTTAATCATGACCTTTCTCAGTTTAAGGACTTTGAAAGCTACTTGGAAGACACTCAATTCATGTATTCTCTGGCTATGGAGAAATTCCTATTTAAAGAGATGAAATTTTCGGATTTCCTCGATCCAGCAATAATAAGCAACTTAAAAAGGTTTCCAATATTTACCAGCTTGGATTCATTTAACAGGAGATATTTCTCCGACGATTTTCTATTGAAGGCTTTAGGTTTCTCCTCAGTTTTTCTTGGAGGTTCTCCTTTCAACACCCCAGCAGTTTATGCAATAGTAAATTATGCAATATACGGAAAGGGAGTTTACTACCCCAAAGGAGGATTTGCAGGATACGTAACTAAACTATTTGAAGCTTGTAAGAAGTCCGGAGTTCAATTCAAGTTCAATCATGAGGTAGATAAGATAGACGTAGATAACGATAAGGTCATTTCTGTTAGATCAGGTGAAGACGTGGAAAGAGGAGACGTGTTCATATTTAACATGGATTATCATTACGCTGATACTCTGCTCCCTATGGAATACACAATGAGGGGAGAATCCTACTGGGAGAGAAGAAAACTTTCTCCATCTGCAGTCTTAGCTTATGTTGGAGTTGAAGGAGAAGTTAATGCTCCACATCACGGAATCTTCATCAACGGAAATTGGAAATTACACTTTGATTCAATTTCTAAGGGAAATGAACCTGACCCTGAAAATATGTCTTACTACGTAAGTTATAGGAAAGCTACTGACAGCTCTTTGAAGGGAAAGGACTTGGTATTTCTTATACCAGTTTCTCCTGGACTTTTACTTCCAAATTATCAAGATTATGTCAGAAAAGTAATTGATGATTTCAAAGCAAAAACTAGAAGTAGCTTCCATATAAAATACGAAAAGGTATATAGAGCCGTGAACTTCGAAGAGGATTATAACGCATATAAGGGGTCTGCCTTCGGATTATCTCATACTTTAGATCAGACAGGTCCATTTAGACTTCCTATGAAAAACAGAAAACTATCTAATTTATTCTATGTTGGTCAATACACCCAGCCTGGAATAGGAGTTCCTATGGTAACTATATCTGCCATGATCGTAGGAGATAAAATATTAAACTGGTCTAAAAAATAGAAAATATAATCTTTTAATTTACTATATTTTTCATTACCGCCAATTTTAATAGGTTTATGGTCCATAGTTACTATTTTAGGAAACTTACTAGGAACACTAGCGCTTTCAGAAAGTTTATAGCCTTAGTCTTAAGGATTTTCATTTAAATCCTAATCTAAGAACTTTTCGAAAATACTAACGCATAGGTTATAAACGTAAGATTAATAAGGTTTTTCCCCTTATTCTTATTCCCGATATTTCAATTGTAATTTTTCTCTTTATGACAAACATTCAACTTCTACCTCTGGCCTATCTCGTTGTATTTTTAGGTTCAATACTAAGCGGTTTTATAGGATATTATTATTCATATGTAAAATACAGTTTAATTCCAAAAGAGACATTCGCAACAATTACCTCTATAATATCATCAATTTCTTCTCTTACAAACTCAATATTTATGATAGCTAGCGCCTTAATAATATTCATTATATCATATTAACTGCGCAGTATTGCTAGCGTTAGCCTTATTCGTTATTTTTAGATATTCAGTTCATTCCGTTTTTCTCAAAACTTAACTTGTTAAGAGACAAATTCGAATCTAAAGATAAAAGCTAAAGGAAAACATAGGGCAAACTTAAAGCAGCTACTTAATATCTTTCAAAATATTCTCAGATTTTATAAAATTGAATTCTAAAAACTAATAGTTATCGTAAATATAGTCGTAGAGATCTAACACTGACTTATCTAACTCTCCCCTCTTAACCTTATCTTCAATAATTTCCTTAAACGAGAATATACTGTCCATAACCTTTAATCTCCTTTCAGGATCAAGTGGGGATAGCACGAAAAGTATTTTTCCGCTATTCATTATGTACTTAGGATATAAGAACTGCTTCATTAATATTTCCATAATAACAGGAGCCATACTTCTATCAAATCTGGGAGCTAAGTTGATCAGTTCCTCTTCTATTTCTGATGGAGTAGCGTCAAGTAATTTACCTATTTTTTGTGCAGCCTCTTTAGCCGATATTTCCCTGAAAGGACCTGAACTATATGCCTTTGAAATTATGTTATATATCTCTTCAAGCTTATCGTTTTTACCAAAAGACTCCAGTATTCTCTTTGCTACTCTCATATCTTGTTCCTTATAGAATTCATATGTCCATTCAAAGTGCAATTTCCATAGGTCCTCGAATATGTCCCTAACCTTAGTGCCTCTAGTCATTTTCAAGACGTCGTTAGCCGGTATTACTCCGTCCCTAGTTAATTTTGGACCCTTAATATATCCGTCCTTAGTTACGGTTGCATCTCTATTCATTAGACTCCAAAGCCAAGCAGTAAATATCCTGTATGTAGCTAAATCGTTCATAAACCTTTGTTTAACCTCATAATCATCTATCGCTGCAGCTAAGTTACCGTTCAATAGCTGAAAACCGTAATTAGCTGCCATATAAAATGCATGCTGAACATGTTCAGGTGTAATATCTCCTTCTGGGACATCATACAATGCGTGCCATAATTCCTTTCCTCCCCATAGATCCTTATTATACAGTAATTTTTCTGGTGTATCAATCATGTCCTTACTTATAACCCAAGGAGTAATTTTTCCATGTTCATCTATCAAACCTAGTTTTTGAAATAATATTCTCTCTTCCGGTGTTAAACCACTATCAACTGTTGGTAATTTAGTACCTTCTATAGTGACATATTGAACTGGGGCATCTATTAATTTCTGTAATTCTTCAAGAGAAGCTCTTAACGGCTTATTTCCTGCCTCAACGTATGCTTCTTCCTTAGTTGCCACCCAACTCTGTCTAAACATGTCATACAGTTTTCCTTTAACTTTTCCTTGGATAATATCGTCCAATGTAACTTTACTAGCTTTATCAGTTATAAAGATCAGTCCTATTAATCTCTCCCTTAGTTTGTCTAATTTTATTCCTCTTAATGCTTTTACATTATACTTATGCCTTTCGAAGGGATCTGTTTGTGGGTAAAGCATCACTGCAGCCATACCACCTACAGGGGCAGCGTCGGCTTCACCGTCTTTCATTCCTGATAACAACATCATTAAAGCGTTGTATTTCTGGTATGCCATCATATTGGGAGACGTCATTGTAATGTTCTGTGGATCTGGAAGTACCTTGTCTTGTAACCACATTTCAATCAAACTGCCCAGATAATCCCATCTACCATTATTTGATTTGACTAACCTTTCTCTGAAAATCCATAATATTACTGGTAAATATCTTCCAGCATTGACTTCTTCATAAAGTAGGGCTAATTTCAATGTTCCTATTTTTAACCCTAATTTGCCTTCTATTCTCCTTAATATTTTCTCAACTAAAAGGGCTTCTTCTGGTGTCTGTGTCTTGGGCAAATAAAAGTATACTCCCGAACCGGCACTCTTTAAACTATTGTAGTTATTTAGTGTATAGATTACTGCAGACGATATTATTGCTGGTATTGGCTTTCCATCTAAAGTTATATCGAAATCAAGAATATGCAAACCGGGTAGCCTATGAAAAACTGTAGGCCATTTATCTCTGCTTTTGTTTATACTGTAAGTTTTGCCCTTTTCATAGTATGGATTTGGTGCCTTTCCTGAGAGAAATAGTTTTACATTTTTTCTACCCTCCCATACGTCAGCTACAGTTTTTCCAGATGCGTAAGGAACATACCATGCAGGCGAGGCATCTTCTTCATCTTCCATTGCTGATATTACATCTGTATTTATTTGATGGTAAGCTCTACTTAAGGGATACCATGGACCCGTAATCTCCAATCCAGGATTCTTAAGTGGATGTGCGTCATTAGGTATTGGCACATTATCGTTTAGTCTCCACCTTAATTTAGATTCTACTTCTAGAGCATTATCTATCATACCTTGAACAATTTCCCTAAAAGTTCTCTTATTTCCGTCAGCATCAATAAATATTTCGTCCCACGAAGGAAATGAACCCTTTAGCTCAACTGATTCTTTTGACTCTAACCATTTTCTTCTTTTACTTATAACACTCTTTATCTCTTCTGAGAATTCGAGTGAAAGCTCTTCGATGAGTTTTTCGACATTAATTGTTCTATCATTTATTATTTTTTCTCCGAAAAGATCTTTATACTTCTCATATATTTCCTCTGGAATCCTTATTATAGATGACAATTTAACATCAATATCATATCCATTTACATGTTTTTAAAGTTTGATAATATGGTTTTGATTATTAATATAAATTATTAAATATTATGGCACAGGGAAATATTAGCTATTAGAAAGAAAAACTAGACAATAGGAAATTTTATGCTGATAATAACTTATACAAACAGTATAAAGAAGTTGACCTTGGTCCGATTATCAAAAAATCTAAAAAATTTAAAAGTGTTCATACATTAATGGATTGGGTAGATGAAGTAGGGAAAATCAGCGAAACAAGAGAAGGTTCATCGTCAAACGTAATAACTAGAATTAACGTTTTTCCTTCTTCATATGAGGAAGTATCTGAAATTATTAAATTTGCAATAAAAAACAACTTAAAAATATATCCTTTTGGTAAGAATAGTAACCATATAGGTCCTAATGTGAATGCGGATATTGGTCTTTCTACTGAAAAATTGAACAGGATTATTGATATTTCTGAGGAGGATCTTTATGTTACTGCTCAAGCTGGAGTTGATTTTCAGTATCTTTCTAACGTTCTAAAGTCTCATGGATTACAGATTCCATTTTTATATAGCGGGACAACAGGTGGATTCGCTTCCACTAACCTACCTTCCATTTTAACTTGGTACGGTTATCCTAAAGACTGGTTATTGGGAGCTAAAATAGCTACAGGATTAGGAGAAATAATAAAAAGTGGAAGTAAAACTACAAAATTTTCAAGCGGATATAAAATATGGAAAGCTCTCTCTGGAGCTTTAGGATGGTTGGGGATTTATCTAGAAATCAATATAAGACTTATACCTTATCAAAATTTTCATTTTGAAGAGATCAAAAATTACGAGGAATATTTTAAAAGGAGACCTTTAGGTATTATAAGTGTAAAGGAAGGTAATAATATAAAAATATATGCAGTAATAAGAGGAGAAGGTAAGATATTCGAGATCCCAAAAAAATATGACGCCTCCATAGTTACAGTTAGAGGTAAGGAAATTGATGTATTAAAAGAAATTGAAGGAGATTATTGTGTTGCGTATTACGGTAATGGATTGATAAGGTGTAATGGAATAGATGTAGAAGGCCTCAGAAGCCAATTTGTGGTAATAAAGGAGAGAAATTGTGCTAGTAATTGCTTTGGTTATAATTATGAAGCTATTTCAATGCTTAAAAATAGTTTAGACCCTAATGGTATATTTTTCAATATTTTTCAATAATTCTATAATAATTACTACATTTACATGCTATGAATGTTAATTTTATATACAGTTTTAGAGAAAAAAGGAGTTATGGACGATAAAAGAGGTTTGGAGAAAAACGCTGTTGGATTTTGGTCACTGCTTGGTCAGTCCGTAGCATTAATAGCGCCATTAGGTGCAGTAGCAGCTACTTTAACTGGAAGTGCTGCATTCGCATTAGCTTCATTACCATTAGCTTATCTTGTGGCTATATTCGGAGTACTAACGTGGATTAACGTACCATATCAATTTTCAAAGAAAATAGCTAATGCAGGAGGATTCTATACTTTCGCTTTAAGAGGAATGGGACCTAGATATGGATTAGTAACTGGATTACTATATTTATTCTCTTATTTCAATGTAATAACAAATGCTATAATATTTACTGGAGGGGTATTCATACCTTCCATCCTTTCAGAATTCTTAGGGATCTCGTTACCCTCGTGGTTTTGGATAATATTCCTTATAATCTTCCTATCATCATTCACTATCCTAGCCTATCTAGGAATTAAGCCCTCTTTGAAATATTCCTTTATTACTTCATTAATAGAAATATCGCTTTTAATATGGTTAGCTATTACAATTATAATAAAAGTAGGACCTCACAACACATTAGCTCCTTTTACTCCTATAGCTCCAGGTGGATGGATAGCAGTATTCGAAGGAATGATATTGGGGTTTGGGCTTCATTGAATTTTCATGAATTTGTATCCAATCCTCAGCCCTTGGGCTTCACCAGAGTCACGGGGCATTGCCCCGTTCATACCCCTCCGCCCCTTTAGCGGGATAACCCCGACCCACCTACTCCCAGTGGGAGTAAAAAAGAGGTGGGGGAACCCGCACATCCTGAGGTATATGTTTAGAGATGCGTTCAGTTGCCTATCCAGAGTGAACCCGCACCTCTCACACCTAAAAGTCCTGCCGACCTTTCGGGAAACCCATCCACATCTGGGGCAGGACTTAGATGTGAGGTACGGGCTCACCTCCTTAACAAAGGAACCGTAAAGTGAGGCTTTATATTTTAGAACGCGGTGAATACTCCTCCATACAGTCCTCGAAATCTTCTTAGACAATCTATCGCTCGCATCTTGGAACATCTCTTTTTTATTCAACTTCTCGACAGCAAACATAGTGAGAGGATACATTCCCAACAGTTTGTTCACAAACTTGTGAACATAATCAAGCACGCGGTTCCTTTCACGGTGGGAGTACTTTCTCATCAGCAATTTCCCTTTTCTACCGTGCTTAGAGGCGAAGGACTGTATTTTACTCCTCTTCAACTCCATACCGAACTTAAGGCTATACAACTCCTTAATTGAAAATGTGACAAACTTATCACCATCATAAGCGTCCAGAGTGTATAAGTTACTGTCAATTGAAAGGAAATCGATAGGACTATTCCATGGTAGTTTATAACGGAATGGCAAATACACTTTATCCTCCTTAATTATGGGCTCACCTAATTCTAGCCCTTCAACCCTCCTTGAAAACCAAGTGTGAGACCAAGAGAAGGTAATATATTCGTAAGGTATTACAGTAATCCTAACTTCTTCGCCCTTAACTTTCCTAAGAGTAGACTTAACCCTAACGTAAACCTTCCTTAATGTCGGTTTCCTTAATGACGCTTGTCCTTTTTCAGCCCTCCTCCTCCAACTATTCAAGATTGAGTAAGCGTCGCTTATTGCCTTATCAACATAATGGGAAGCCAACTTGTTAACTTTCTCAAGCTCATCCCTTAACGTCTTGTAAACCTCCTTCTTCTTAGGCAGAGTTATTTTAATCTTCGTTAGGACTTTCTTACCTTTCTTTACTTCCTTCCTCTCTATCTTAACTCTTTCCCATAACCAGTCTAAAGCCTTCTGTAGTAGGACTCTGTAGTTCTCCAGTAGTATTTTCGTCTCCTCCTTCTTATCGTTCTTTAGGGAGTAAGTTAGGTAAACGTATTCCTCCTCCGGTTGGAATGATTTAAGCCTTAAGCTCTTCGACACATTTCTTCACCTTCTCATATTTATGGCTCCTCATACCATACAACTTTCCGCTAAATGATACCAGTATAGAGATCAAATCTTCGATTAGTTCCTGCTCTGGTGTTTTGTCCTCCTTATTTAATACCACGAGCTCGCTGTTGTGTGCTTTGCATACTTCTTCAATTATCTCGAAACCGAACCTAACTAGTCTGTCTGGGTAGGCTATGACAACTTTCGATACTTCGTTGTTTAGTATCATTCTCAATAGCTTGAGGAATCCTTTCCTCTTCATGTTTAATCCAGAACCAACGTCAGTTATTACTTGGTCGTAGTCCTTAACGTTCTCCTCCAGGTATTTTACTTGGTTTATTAAGTCGTCTTTCTGTGTGTTTGATGATACCCTAGCGTATAATACTACTTTCCTCTTCCTAACAATCCCCATGAGTCTTTCGACATCCTCTTCTTTAAACCTCCATTTTCCACTCTGTAGTATCACGGGTTTTATGTAACCCTTCTTAACATAGCTCTGTAGTGTGCGGTATGATATTCCTAGTTTTTGGCACACTTCCTTAGGTTTCAGCATTATAGTTAAACTTACATACAAAGTATATAAACTTCACGGTTTATCGGAAACTGTTGACTACGGCAATATTTTCTATGTCTGGCTCAAGTGGTGCAGTTTATATTGCAGAAGAAGCACAACAACCTAGAAGAAACATTAGATTAGCAGTATTGATAAGTTTTCTAATAACTGGTATAGTTTTCGTTTTGGTTTCTTATGCCTTTACTGTAGGCTGGGGAATAAGTAATATGTCAAATTTTGCATCTTCCGGAATACCTGGATTAATATTAGCCGATAAATACATAGGACTACCCGCAGTGGTTTTAATCTTCATTTTCATAGTAAATAGTTTATTTGCAGGTTCATTAGCTCCGTTGAATTCTTCAGCAAGACTACTTTATGCCTTAGGTAGAGATCAAGTACTGCCATCATTTTTTAGTAGAGTGCATCCTAAATACAGAACTCCCGCAAATTCAATATTATTCCTATCAATGCTTTCTGCCATAGTATCAATTACCGCCGGACTCGTGATGGGACCTTATTATGGTTTCTTATATCTTGTTCTAGCGTCTTCAATAGCTACTTTTATAGGGCATATTTTAGGAGACGTGGCTCTACCATTTTTCTATAATAAAATTAAGAATTTCAATATTATATTACACGGTATAGTTCCAGCAATTTCCTTTGTTATCTTAGCTTTAGGAATATATTACAGCTTTTATCCACCCACATATCCTATAAATATCGCAGCGATAACTACATCCGTATTTGCCATAATAGTGATAATTTATGCTTTAGTAAATAAGAGCGCTAGAAAATTAAGTAATTTGAATGTAGAAGAATCTGAAGATAAAGTATGATTTAACAAAAATATTTTTTATTATTGTGATATTGAAATTAATTATACAAGTATTTTGAAATCATTCAAGTTATATCAAACTATTTTTATGTTATAAAACCTAGCTAAATTCTTTATAAATACTAGACTTATTTTTAACTATACTTCTTTAATAATACAAAAATCAATATAGCCATAAAAACAAAATTTATAAAGGAGAAGAGGCAGTGTTGACGTTATTGTTTACTAAGTTCTGCTTTAAATTCTTGTATTGCCTTCCTTATTTCGTCTACTGACGCTTCATCTTCAAGAGTAGTTATATCTCCTACTTCACTATTCATTGTAACTGCTCTAACTACTCTTCTCATTATCTTTCCGCTTCTAGTTTTAGGAAGTTTGCTAACGAAATAGAGCTTATCTATAGTAGCTATTGGACCTACTTTCTCTCTAACGGTGTTTATAATCTCTTTTACCAAATTATCGTCTGCGTTATATCCCTGCTTTAAAATTACGAATGCTACCGGTACTTCACCTTTAATAGGATCGCTAACTCCAACTACTGCGGCCTCGGCTACAGAAGGATGCTCAATTAATGCGGATTCCAATTCATAAGTTCCGAGTCTGTGACCTGAAACCTTTATTACTTCATCAGCTCTACCCAATATCCAGAAATATCCATCTCTATCTTTTACCGCATAATCGCCTGCATAGAAAATACCAGGGAACTTACTCCAATATACTTTAACATATCTTTCTGGGTCTTTATATATGGTTAAAGGCATTCCTGGCCACGGATTCTTTAAAACTAGGTATCCTCTCTCTTCCAATTTGGCTGGGTTACCGTTATCGTCTAAAACGTCTGCTTCTAAACCAGGAATTGGCATTCCATTACTCCCAGGCTTCATTGGAATCATTAAATAACCAGGGAGGTTTGATATCATTATCCCTCCTGTTTCTGTCATCCACCATGTAGAACCGAAAGGTATCTCATTCCTTCCTACTTGATTATAAAACCATTCGAAGGCTTCTGGATTAATGGGTTCTCCTACTGAATGCATTAGTCTTACGCTCGTCATATCATGTTTCTTTACCCATTCTTCACCATACTTCATAAAAGATCTGATTGCTGTGGGAGATGTATAAAGAATACTTACCTTATATCTTTCAATTATTGAGGCCCACCTATCTGGCTGAGGATAATCAACAGCACCTTCATAAATTATCCCTGTCACTCCTTCCATTAATGGACCAAATACTATGTAAGAATGTCCGGTAACCCAGCCGATGTCTGCTGTGCACCAATATACATCTTCGTCTCTAACGTCGAATACCCATTTCATTGTTCCATGAAGTAAAGTCATATAACCCCCAATATCATGAACAATGCCTTTAGGTTTACCTGTTGTTCCAGAAGTGTACAAAATATAGAGCGGATCCTCAGATTTTAGTCTTTCTGGTTCCACGTAGGCGTTATGCGGAATATCGCTCATTATTTCATCATAATATATATCCCTCCCTTCGTTCATTCTAACTCCGTTGCCTATCCTCCTTACAACTATAACTTTCTTTATAGACGGAGTTTTCTCTAGAGCTTTATCTGCAATCCCCTTAAGATCTATTACCTTGCCTCTTCTCCATCCTCCGTCCGCTGTTATTAGCACTTTAGCTTCTGCATCGTTCATTCTTGTAGCTAAAGCGTCGGAACTAAATCCTGAAAATACTACAGTAAATACTATGCCTAGTCTAGCTGCTGCAAGCATAAATATAGGTAATTCAGGAATCATAGGAAGATAAATTGTAATCGTATCCCCCTTTCTAAGTCCCAATTTCTCCTTTAACATATAAGATACTCTATTTACTTCTCTATAGAGATCAGAATATGTTAGTTGTTTAACTTCTTTAGGATTTCCTTTCTCATCTACAGGCTCTCCTTCCCATATTATAGCAACCTTATTTCTTCTCCAAGAATTATAATGCCTATCAAGAGTTAAATAGGAGGCATTAATCTCTCCACCCACAAACCACTTATAGAAAGGGGGACTCGATTCGTCCAATACCTTATCCCAATGCCTAAACCACTCAAGTTGTGAAGCTACTTCTTCCCAAAATTCCTTATAATTTTTTACAGTTTTTTCATGAATCTCAGAATAAGTTTTCTCATCTATTACGTTATTTTCTCCTATCTTAGGTTTAATTTTCTTATCGAATGGTAAAGCCCATGTTACTGACATATTTAATATAATAGTTAGCTATAATTTTAAACATTACTTATGTTTATATATTATAAAAAGATTTTTAACTTTAATAGATGAGAGAATTTATCATGACAGAAGAAAAAAGAGCAAACGCAGCACCTCTAGGCCTCTCGGGATTTGCATTAACTACACTGGTTCTAAGCGTGTTTAATGCTGGATTATTGTCATCTCAGGGTGTAGGAGCAGTATTAGGCTTAGCTGCCTTCTATGGTGGACTAGCACAGCTACTTGCAGGGATTTTAGAGTGGAGAGCTGGAAATACATTCGGCTATGTAGCCTTCTTCACTTATGGAGCATTTTGGGAATGGTACTTCTTAACGGCTCTTGGAATTTTTGGAGACGTAACAGCTGCAGGAATAGGACTTGTCTTAGTAGGTTTCGGAATATTTACACTGGTAATGTGATTTGGTACGTTTAAGAGTAATCTAGGTTTATTCATAACGTTTTTACTTCTATGGATAACGTTCTTCCTACTAGGCATAGGCTCAATGATTAGTAGTACTCCGCTAATTCATGCAGGAGGTTATGTCGGAATATTAACTGCAATAGCGGCATGGTACACAGGCTTAGCTACCGTAGTTGCGGAAAACCTAGGAATAAAAGCACCTCTAGGAAAAGCTCCTATGGCATAATTTTTTATAAAATTTAAGCCGTTTACCAATTTTCCAAGAATTTTTATTTTCAACATTTTCTTTTTTTTAGTATTAATGTATTAATGGAATAAACATTGAGTTATGATAGCAGTTTTACGTAAATTTCTCTCTTAAATATTTTCATTTCCTTATGCAATAAGTGTAATTTGTTTGAGGCAATGATATTGTAGGCTTTACAGTGAACTATTAACTTATCTATGGTACTGAATTATTTTTAACGCTACGTAATGCTGAAAGGATTTTCCGATAAAAGTTATTAGAGTTACTTATAACGCTACTACTTCCAGTAAATTTTTATCCTTATTATTATCCAATTCTCAGATCATTTAATAAGAATTTATAGGGGTACTAACGTTAACATTAATGGAGTTTTATATTTGAGTTTAGCCAGATTAATTTTGGTAAAGTAGGTTTGACTCTAAGAATCGAAGTAGGTAAAAAAGGTTATATAATAATTCCAAAAAATATTAGGGATCTTATAGGAATTAAGGAAGGAGATACCATAATTCTAAATGTCGAAAATGGAAGAATAATTTTGGAACCAGAGAGAAAAGTAAATATTAATGATATTATTAGGAAACTTAACGAACATGAGGATAAAATATCTTATGCTAAGAAAATAAAGTTGGGTGATTTAGCTCAAACAAGCTTAGAAGAGGAGTTTGAATAATATTTTTAGATGCAAATTTTCTCATATACTTAAACTTAGGTGTAAAGGAGATAGAAGAAGTCTATCTTAAACTATTAAGGGAAGAGAGCTTAGCCTTAGATCCTTTAGTGTTAGATGAAGTTATCTATGTTTCTAGAAAGAAATATAATGTTAAATTTAAAGATACTATAGAATTTCTTGATGAAATAGTGCTACAGAATTCAATACTCTTCTCAATAACTTCTAACGAATATAAAAGAGCCAAAGATTTCATGATAAATTATTCTTTAAAACCTTCCGATTCTCTTCATGTAGCTGTTATGTTAAATAATTCTATTAAAAAGATTTTAACTGAGGATAAAGATTTTGATAAAATTAAGTAAATAGAAAAAATTTGGATATAAAGCCGCAGTTTTTGCTTTGTGGATTTATTGAATTTTTGCAGATCTTGATCTTCTTAGAACTTGATAAATTCTAAATTTAATGTCTAATTGAAAATTGATCTTAACAAGGGGTTCAAAAGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGATAGCCCCCTTTGTAGTTACATTTAAATACGTATTTTTCAAATATTCTATTAATGGCAGTCACTGACGGAGTAAGCGTCACCGCCTTGGTTAAAGCGAGGGTCTATGTGGTACGCCTCTGCTCCAATCAATAGTTCCATATTGAGACACCGTAGGTTCACATTAGTGCTCGGGGTGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCCACGCCCGTTAGGGCGTGGTAGGCTCCACATGCTTTGCCTCTAACATGGCTAGGCGATGGCTTGAAGAGCCGAAGGAACTACTTGATTGGGGTCAACTTGAGGACCTTCACCACCTCCTCCCCTATACCTAGTCTTCTTAGTCTCACCCTTGTATTCCCCATCCTTGAGTACGTGATAAACTATCCTACATATCTTGTTGGCCAAGGCTAATGTAGCCTTTTTGGAATTGCTTGTCCTCTTCAACAAGGCTTGATAGAAGCCATTAAATTGGGCCGTGTTCTTAGCGGACCTTGCAACAAGGAATAGAACGCGGGATAAGTGCTTATTCCCCTTGATGAGACCGTTGTGAAATTCGGTCTTCCCGCTCTGCTTAGTCCTTGGAGAAACTCCAGCATAAGAAGCAGCTTGTTTCGAAGACTCAAACCTGCTCACGTCTCCAAGCTCAGCGTAAATTGTGGCTGCAGAGATTGGGCCTATTCCGGGTATCTTAGTCAACTCTACTGCTTCCTCGGGTAGGAACTTCATTATCTCGTTCTCCACTTCCTTGATTTGTTCTTCTATAATGTTCAGTAGGTCCAGGAGTTGTTTTAGGATGAACGCTTCTATTCTAGTTAATTTTCTTCCCAATAATTTGGAGTACTCCTTGATCTCTTCGTCAGTTAGCTTCTCATCAGTGGCTAGTTTTCTCACTATTTCCTTTGTCTTCTTTTCGAAGGTAGCTTGTATCCTGCTGTTTCTAGAACTTTCCTTATCTCGTTCTTTACTTGTGTCTTTCTCTCTACTAGTCCTTCTCTGTGTCTTGTCATTTCTCTTAGTTCTTGCATTTCTCCCGTTGGTACGATCCTTTTACTGTGCCTGCAGCGTAGGCTATTGCGAGTCTTATGGAGTCGTTCTTGTCTGTCTTCTTGCCTAGGACTTCAACTGTTTGGACAGGGTTTATCACGTTTACTTTTAGTCCCTTGTCTCTCAGTACGTTGTATACGTGGTAGAAGTATACTCCTGTTGCTTCCATTATTCCTTCTTCGTATCCTTCTAGGAATTTTATAAGTTCTTTGAGTCCTTCCTCGTTGTATTTGAATTCTCTCGTATCAGCTTCTTTTACTGTGTTGTTGTTTATTTCCATCTTGGTTGCAACAAGTCTTGATTCCCCCACATCTATTGCAAATACTTTAGGCTTTATCTTCCTTTCCATGTGTAATACTCTTTTTCTAATTCTTGAATTTTTCTATAATACGCGTTGTATTGTTAATTTTGTTAGGAGATAGTGCGAACTAACTATGAGAACGTCCCCTTAAATTTTTGCACACTCCTACTCGGGATATTGTCCCACATGTTAGATCGCGGGGGACGTATAGCCAGCCTACCACATGGGGTTTTATCCCCATGTTCACTTTCGGCTTGTGTTATTTTCTTGTTCTCTTTATAAAAGTTTTACTCTTGTAAGGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGTTCACAAGTAGGGATAATAAAAACCGAACAATTCCACAAGGCATGTAACTGGTACTTCCGTAAAGTTCTTAGCCATTTAGAGACTAAAATGAGTAATGATAGAACAAAGACTTGCTAGAAGTACTAACGAAATTATTTTTACTTTGTTTAGAAAAATTATTATGTATCCGCTTTAGACAACGTAAGTATATAAGGCAATATCCAAGATTTTCTAGTAACGTTCAATACTGCTAATTCCTGCTATTAAAAATTATTTTATTTAATATATTTCTTATAGAAACAATATCACTTTTTAATAATCTTATTAATAACTAAGTTATTGGGAATATCATTAATTCTTTTATCTTTTATATCATCCTCATTATTATGGAAACAAAATATTCTGATGGAAAAATACTGTTAAAAAAGGATGGGAAAATAGCAGAAGTAATTCTCAATAGACCAGAAAAACTTAATACTATAACTTTACAGATGAGACGTGATTTAGGAAAAATATTTGAGGATTTAGATAAAGATCCAGAAACTTCTGTCATAATAGTTAGAGGAGAAGGAGATAAGGCTTTCAGTAGCGGAGGAGATATAAGCGAATTTCTAAATACTTCTCCAGAAGATTTACTAGATTGGGGAAAAACTATAGAGACTATAGAAAATGTTAGTAAACCAACTATCGCAGTACTTAAAGGATATATTTTAGGTGCGGGAACAGAACTTGCATTAGCGTGTGATATAAGAGTAGCTTCACCAGAGACTGAAATAGGATTACCCGAAATAAGATTAGGAATGATACCTGCTAGTGGAGGATTAACAAAAATGGTAAAATCTCTAGGGCCTCTTAAGGCTAAATATTACCTTCTTCTAGGAAAAAGGATAAAAGCACAAGAAGCTCAACAGTTGGGATTAATTCATGAGATTGCAGAAAATCCATATGATAGAGCGTTAGAAATATCTAAGGACTTAATTTCATTATCACCATTAGCAATAAAAGCTATGAAATCTGCAATAAATCTTATAATGGACTCTCCTATACAAGTAGGTTACGATATAGAAAGGAAAACTTTTGGCTTACTAAGGTTTTCAGAAGATTTCAAAGAAGGTATTGACGCATTTCTTCAAAAAAGAAAACCACAATTTAACGGAAAATAGTGTCACTCTAAAGTACTTAAATCTCCAACATCTTGACCTAATTCCTTAGCTCTAAGATATCTTCTTAATATTTTTCCACTCATTGTATGCGGTAAAGAATCTACAAATTCTATATATTTTGGAACATCATGAGCGGCTAGATTTTTCCTTACCCAATCTTGTATTTCATTTTTAATTTGTTCACTAGGACTTATCCCCTTCTTTAAAACTATAAAAGCCTTTATCGCGTTTCCCCTTTCCTCATCTGGAATTCCTATAACTGCAACTTCTGCAACGTTAGGATTTTCAGCAATTACGGATTCTATTTCAGCAGGCCCTACTCTATATCCAGAAACTTTAATCACATCATCTGCTCTACCTAAATACCAGAAATACCCATCTTTATCCATATAAGCAAGATCTCCAGTTAAATAGTAACCTCCTTTGAAATATTCCTTATATCTATCTTCATTACCCCAAATTCCTATAAATAATCCAGGGAATCCAGGCTTAAATGCTAAAATTCCTTGAGAATTTGGAGGTAAAGGATTTCCTTTTTCATCCACAATCAAGGCTTCTATTCCAGGCAGAGGCTTTCCTATAGAACCAACCTTTATTGGTAAGGAAATTATATTGCAAATAACATAAGTAGCAGTTTCGCTCTGCCCGTAAGCTTCATGTAATGGAACTCCAAAAGTATCCTTAGTCCAAGTAACTAAATCTGGTCCTACATATTCTCCTCCTGCGTGAATAAATCGTAAGGAAGAAACATCGTTTTTAATATAACGTAGTTCTTTTTTAAGAAGTCTTAAAGCAGTAGGAGCAGTACTCCAAACTGACACTTTAAATTCTTCAATAATACTCAACCATTTTTCTGCATTAAATTTCGATTCTAAGGTTACTACAGGTACTCTTCTAAGCCAGCCTGTCCATACTGAAGCATAACCTGCTACCCATGCAGGATCACCGGTAGGCCAAAATACATCGTCTTGAAGATCAAAATGATACATCCCGGAAATGTAATATAAAGCAATAGTGTTTTGAGCTTGAACTATTCCTTTAGGTCTGCCTGTAGACCCAGAAGTATATATTATAAACCATGGATCCTTTGTTCTTTTTCTTTCAACATATAACTTTTGCGTAGATTTTAAATCTTCAAAAGAATATTCATTATTATTTGAATTTCCATCAATTACTATGATCTTAACATTTAATCCAGACGTAGCATCTCTTACTCTACCTAACAATTCTTCATGAGTTAAGATAAAATGGGCTCCACTATTTTCTATTCTATATTTAAGAGCTTCAGTTCCGAATGATTGGAATACTGGAACTAATATCCCTCCAGCTAAAGTTGCCCCTATCATAGTAAAATATAATTCAGGAACTTTTCTGGAGAACAATATTATTCTATCTCCGTTCTTAAATCCTAAATCTTTTAGCGAATTAGCAATTTTACTTCCATTTAAAGCAAGGTCATGATAAGAAATTTTCCTTACTTCATCTTTTTTACCTACCCATATTAATCCTACTTTATTTTCATTTTTCTCAATATTTTGGTAAATTGAAAAATATGCAGGATTTATAGTCCCATCTGAAAACGTTAATTCTCGTTCAACTGAATCCCAATTGAACTCTTTTCTTACCTTATCGTAATCATTTAAAATAGGAGATATCTTATTATTCTTTTCCCTTATTTCTATGTTCATCTTAAATATTAATCTATTTCCGTATTTTTAACTTAATTATCTTACTCTAAAAAAGAATTAGCACTTTACGTTCCAGATAATCCTTTAAAAATAGGTATTTTTCTTCCATTTTCCTCTATAAATTCAACTGTAACTTTATCGCCTATCTCTAAACTATTCTTAATATTACTGTAAATTCTAAAACCTTCATCCATTTCCACAATGCCATAATATGTATCTCCTTTTTTGCCCTGAAACTTAGTAATTGAGAAAACCTTTCCATCACCTTTACTCACTTTAACCTCAAGATTTTTAGAATTACATTTAGGACAGTAATCTCTAGGATAGAAAAATACATTTCCGCACGATTTGCACTTAATATAAGGTAGTTTTTCATTGTTCATTAAATTTATATATTCCTTTTTTATTTCATCGAACATATTACTCACCTAAAACCATAGTTACTGCATGACCTCTATTCCATCCTCCTATTCCATTGACTAACACTCTATTAGCGCCCTCTACTTGGTGCCCTTTTGCCATACCATTAAGTTGTGAAAGAGCTTCTTCTAAAATGACTCCTCCACTCATAAACGCAGGTTGTCCTACGTTTAAGGATCCTCCCCCAGTATTTATAGGTATTTCGCCTTTGAACGTAGTATCTTTTTCCTCCACAAATTTTCCTCCTTTCCCTTTCTCAGTTAACCCTATATCTTCTATTTCCAGCAATACGGTTATTGTAAACGAGTCGTATAATTCAAATGCGTCTATTTTCTCTAAACTTACTCCTTTACTGCTTTCTATTGTAGGAGTGTACACTATATCTGGAAGTTCTGGAGGCATTTCGGCCCAGTGAGCTTCTCCATAAAAATGTATTTTAAGAGGTCTTAAATTGGAATTTCTTTGATGTTTACTAACTATAAATGCATGAAATCCATCTACAGGATATACAATTTCAAGTAATCTTAATGGATCGCTAACTAATCTCGATGAGATAACGTCTTTTACCGATAGAGGAGACTTATATAATGATTTTTCATTATTTATTGCATTTTTTCTTTGATTTACAGCTATCATTGCTCTCTGTTCATCAGTAGTGCCAAAAAGTTTTTGATGTCTTTTAGCTACTAAGGCATAATCTGTTACTGGATTCATATCCTCATAAACTCTAAAAAACTCATCGAAAGGAGTTAAACTTATGTTATAGAATTTATCCACAGAATCCGCAGTAACTTTATTTTCCCTTAAAAAAGAACCTTTTCCTCCTACTATGCAAAGTGCAGTATCTATTTCCCCTGAATTTACAAGTTTCTCAGCTCTGTATACCATAGTAAGAGCTGAAGGCCCACCGTAATCTACTATATCTATATATCTTGGTTTTATCCCCAAAAAGGCTGGGATTTGAAAAGAAGGAAAATGAATGTTTGCCTTACCATCGAATGTTCCAGAGAGCATTGTGAAAAACAATCCGTCTATATCATTTGAGTTAACTGAAGCCATTTCCATTGCATTATAAACTACATCAGAAAGTAATTGAAATGTTGAGCCTTCAAATTTTTTATAAGTTAATCCTGCGAAACCAGTTATCATTTTTCCACCTTATATTTCTCTAAGTATTCCTCTTTTAAAGAAATCCCCAAACCTGGCTTTTGCGGTGGGATAAATTCTCCGCCTTCATATCTTATCTCCCCTACTAGTCCTTCTCTTAAAGGATTATATCTTAGATGATACTCAATCATTGGTGAATTAGTAGCTAAAGCTGTATGAAGGCTTGCTATAAATCCTATTCCTCCAGCAGAATAATGAGGTATGAGAGGAAGACCGAACGCTCTGGCAAAATTCCCTATTCTCAGCATTTCCGTAATTCCTCCGTTCCATGCAGCATCTGCTTGAACTATATCAACTGCATGATTTAAGATAATATCTCTAAATTCATATAATGTAAATGCAGTCTCGTATCCTGCTATAGACAAATCTAATTCTTTAGCTAGCTCTGCACTCAAAGAAGGAAAATCTGTAGGTATTGGTTCCTCAAAAAACATAATTCCTAATTTTTCAAGTTCTCTTCCAACTCTTAATGCCGTATTAAAATCATATACATTATTTGCATCGACTGCAATGCTCACATTTTCGAATTCTTCTCTTATTGCTTTCAATCTCTTTAGATCATCTTCAATTTTTAGTCCTCCTATTTTTATTTTAACAGTATCAAATCCCTTATCTACATAACTTTTTACTTCCTCTAATAGCTTTTCTATGTCCTTATCTTGTCTATAGTACCCTCCTGTGATATATCCTTTTATCCTCTTATTTGTAGCTCCAAGAATTGAATAGATTGGAGATCCAAATTCTTTACCTAAAATATCCCATAACGCAATATCTACACCGCTTATTGCAGAAATCATTATTCCTCTCCTTCCTAGCCTAAATGTAGCTTTATACATCTTATCCCATAAACTTATTGGAGCAACTTCCTCGTCCAGTATTATGGACTTAAGGACTTTTTCTATAGTAGTTGATACTGCATCTAAAGCTCCATACGCTATGGATTCTCCGTATCCTATTTCTCCATTTTCAGTCACTATTTTTATAACTAAAACGTCCATGTAATGCTCTGCTCCTTCTTTCACTGCTAAAGCGTCCTTTTCGTAGAATTCTTTTGAAGATAATTTGATTACCTCTAAATCACGTATTTTCATTTCTAAATACCCTCCTCATTATCTTTCCAGAAGGAGTTTTTGGAATCTCATCAACAAAATTTAATACTTTTGGAACTTTATATGGAGCTAGATTATTTTTACAGAAAGTTATAATATCTTCCTTAAGTTCCTCGCTTGCTTTGTAACCATTTTTAAGTTTTATAAAAGCCGCTACGGTCTCTCCCCTATACTCATCTGGTAGACCAACTACTGCTACCTCGCTTACTGCAGGATGCATGTAAATAACTTCTTCTACTTCTCTAGGCATTATCTTAAAACCAGAAGCATCAATTATGTCCTTTTTTCTGTCAATAATATAAATCCAACCATCAACTATTTTACCGACATCTCCAGTAGGTAACCATCCATCTTTGAACTTATCCATCTTCCAATATCCGGATACGACTTGAGGTCCCCTTACTAATACTTCCCCGTCTTCTGCTACCTTGATTTCTGTATTATATACAGGAATTCCAGAACTTACTATTCCAGTTTCCTTATCTACTGGGAGTTTACCATTATAAGGATAAGGCCATAAAGTTGCCGGGGAAGTAGTTTCTGTTAAACCCCAGGCCATGTAAATCCATTGCCCTATTCTTTCCTTCCATTCTAATTCTAGTGCTCTAGGCATTGGCATTCCTCCAGATGACCATAGCCTCATACTCGATAAATCCTCATTATCATATACGTTAAGCATTGCCCTATATGCTGTAGCGACGCTCATTGTAACAGTAGTTTTCTTTTCTTCAACATCTCTGAGCGCAAGCGAAGGATCAAATCTATAGGAAATATCTATTTCACTTCCTGAAAGTATTGCAGTGGTTATGTGAAAAATTTGACCAGTTACATGAAAGAAAGGAGCAATACCTAAAACTTTATCTTTTTCAGAAAAATTAAACCATTTTTTATAGATCATTGATGAAGCGAAAATATTTGAATGAGTTATTGGAACACCTTTAGGCTTACCAGTAGTCCCAGAAGTATAAATTAATAAAGCTAAATCGTCAGGATAAACTAATCTTTCTTCACTAGAAGAAGACTTAAAGTCAAGTTGTTCTTCGCAATCTATCAACTTCCATTTAGTCTTTAGCTCATTAGGTATCTCGTGAAATGACTCTGGATTAGTAGTTATATTTTCTATTTTTTTGCTACTTATAGCTTCACACGATCTTATCATTAATTTAGCTCCAGAATTTTCTATAATAAAGTTCAATTCTCTTTCTGAATAAGAAGGATTTATAGGTAGCACGATTCCGCCTTTTTTCCATACAGCAAATTCAGAGATTACGAACTGAGGAATATTTTGCATAGAAATTATAACAATATCTCCATTTTGTATATTTAGTTGCGATGATACTGAATTTATCATTGAGTTTAATTTTCTAAAAGATATTTTTTCACCAAAGTAGTCCAACGCTATTGTATCTGAAGTATTAGAACTAATAATCTCTGTCATCGCCTTAGGGTTTTTTAGTTCGTCAAATTCTTCGCCTTTCTCATAAATCACAATACCAGTCCTCCTGTTACATCTATTATATCTCCAGTTAGGTAAGAAGCTTCATCTGAACAAAGGAATGAAATAACGTTGGCTACATCTTCTGGAGTACCCATTTTTCCTAGTGGGATTCTGTCAATTATAATTTTTTTAACTTTATCGGGCACTGACGCGGTCATGGGCGTATCGATAAAGCCTGGAACTATAGCGTTTACAGTTATTCCATACTTACCTAATTCTCGAGCAAGAGTTTTAGTAAAACCGATTATTCCTGCTTTTGCTGCAGAATAATTCGCTTGACCTATATTACCTTGCCAACTCGCTGACGACATATTTATTATTCTTCCCCATTTTTGTTTTATCATGCCATCAATGACTTGTTTAGTACAATTAAAAGTTCCATAAAGATGAACTTTTATAACTTGATCCCATTGCTCTGGAGTCATCTTTACAAATAACGCGTCTCTTATAATTCCTGCATTATTTACCAATATATCAACGTGATCTATGTTAAGTCCTTTTAATATATTTTCATAAAACTCTTTACATGAATTCCAATCTGAAACGTCCACAGTCAAACCTAGTGTTCTAGATTTAGTTAACGACGCAACTTTTTCTGCTTTATCAACAACATCCTTAGATATGTCTCCCATTACTACTGTGTATCCTTTCGATGCTAATTTTATAGAAGTTGCATAACCTATTCCACTACCTGCTCCAGTTACAATTGCTACTTTCATATTATCACCTTTAAAAAATAATATAAACCTATATTATTAATATATTCTTTCCTCTTAATAGTATCTCTATAACACGGAAAATAATTTATATTATCCATTAAACTATCTTCACATAATTCGTTTTTATATAATCATGTTTACATATAAAGTAGCTATTTCATTGGTGCCTTCAAAAAGTTTCTAGCCTTTATCTAAGGATTTTTCACAAATCTTAGTTTAAGAACTTTCTGAAAATACTAACGGGTTAGTCTTATTTAACTTAAAATTTTCAGTATATATAAAATCTTGTTAATTCTTATATAAGAGAATATAAAAAATAACTATTTATAGAAATAATCCAAACAAATATATAAATATACTAGATCGCCATTGTCAGTCTAATATAAAAATATTGCTATTTATATTTAAAGTTGGCATCACTTAAAAACTAAGTCTAAAGCCTAGATAATGTAAACATGTAAAAGAAAGAATATTAAAGATCGAGAATAATAAGAAAAATTAATGAGTTCTTCACCAGGGAAAGATCAGATACAAAACGGTATAAAAGAAATTTATAATACTGTACTGTCAACAAAAAATATTACTGCTAGATATATAGCTATACTAGCGTTAGCGTCTCTATGGTTAGACGCATACGATTTTGCCTCGATGTCTTTCGCCACTGCTTCTTTAGAAAATACTTTTCCTAATGTATCCTCATTACTAATCTCCTTCTCTATAGGAGTTATTGATCTAGGAGCTCTTTTTGGTGCAATAATTGGAGGATGGTTAAATGATAGAATAGGCAGAAGAGATATGTTCATACTTAACATGATACTATTTATATTCATGGCTGTTCTAGGCGGTTTTTCTACTAACATATACGAATTAACGGTATTTAGGGGTCTATTAGGCTTTGCTCTGGGAGCTGATACTGCTACAGGATTTACATATATCTTTGAATATTTAGAAAGAGAACAGAGACTTTTCTGGAGTAATTTATGGCAACTTCAATGGTATATAATGTATCTTGTTACTATTGGTTTCATCCTTTTACCATTTTATTTCATAGAACATAGTCTTACAACACCTATATTATGGAGAGTTATAATGATAGTAGGTGGAGTTATAGCTGCCGTAATTTTAGGTTTTAGAAGTAAAATACCAGAGTCGGTATTATGGTTAGCATATCAAGGAAAACTAGCTACTGCTAAGAAAATAATTAAAAAGACCTATGGAATAGATTTACCTAATGTTCCTGATGTAGATGTTTTTATAAGACCTGTAGGTAAGGGCGTAAAGAGCGCATTTAGTATTTTCAAAGCTAGTAAGTGGAGAGAGTTAGTATATAGCTTTAATGGCAATTTTGAACAAGGATTTATTTTCTATACATTTGGATTTTACATTCCATACATCTTATTGGCACTAAAATTAGTAGGCCCATTAGCTAGTTTAGAAGCTTTATCAATCTTATATGCTGGAGGAATTATAGGAGGATATTTAACTGCATGGCTAACTCCAAGAATTGGTACTAAATCCCAATATGTAATAGGAGCAGTAGGAGAAGGCACTTCAGTAGGTTTAATAGCACTTACATATATTCTTCATTTACCTCTTCAGTATTTCGTATTCTTCTCCTTCCTATTCTTCTTCTTCCATGTAATAGGACCTGCTAGCCAAGGAATGACCTCAATAAATACATTCTTCGGTACGGCTGAAAGAGGTACTGCTGCAGGATGGGGATATTCATGGGTGAAACTAGCAGCAATAATAGGATTACTTATAGGACTTGCTGGGGTCAAAGTAAATCCAATTGGAATGACATTAGGACTTGCAGCGTACGGAATAGCCACCGGAATCTTAGGCTTATTTATAGGATATGACACAAGAAAATACAAACTTGAGGACGTCGCAGAATTAACTGAAAAACCTCAAAAGGTTTAATTTTTATAAAATATCAAGCAATTTTTTTATTGTATTTCTTAGTAGTAGCGAAGCTCCCATTTTACTAATTCCAAATTCTTCTGCTAGATCTTCCAAATCTATATTTCTAGGCACGTTAAAATAACCTAGATCCTTAGCTCTTTTTATTATAGCCTTCTGTTTTTCAGTTAACATTACATCCGTCACCCCTCTAGATAATAATTTCATTATTATCTCATTGTTAATTTTCATATAGCTTAGGCTTATTATTTTAACGTTATCGCTAGCGAAACTACTCCTTATGTTATTGGCAGTTTCTTTAGAGGATATAAATTCATATGTTTCTATACCATCCAAAATTTTACTAGAAAGAAGATTTATATCTAAGTTCATTAGTTTTGAGAGAACAGTTCTCTCCTCCTTCTGCACCATTTCTATAGAAAATATTTTCATTCTGTTGGAATCTGAGAGATTATCTATTTCATAGTCAATTATACTATCATCCTTACTAAGAACGTTCTTTATAACTTTCTTAGGTTCATTATCAGTTATTATTGCTAATCTTTTAGCTTTCAATATTCCTAGACCGTTCTGCTCACTTAATAAGAAATCGGAATAGGAAAAAGGAGTATGAGTACTCCAACAGTCAAGATGTTTAAGCTTAATTGAAAAATAATATTTTAACTTATCCATATGTTTTACTAATGTATAAGCTTTATATGTTTTTATAAAAAGAAAATTGATTAGAATTATCAAATCCTCTTAACATAATTTATACAAGTCATACGCCTAACCTTAAATTAAAATATAGAATCTTAGATTTATCTAGCTGGACTGCTTATAGGTATTAACGAAATTAATCCTCCATCAATCACAATACAAGTGCCGTCTATAAATGAAGCTAAGTCTGAGAGAAGAAAAGCTGTTAGGTATCCTATATCTTCAGAATTTCCTACTCTTCCCATCGGATAAACTTCTCCCCATTCTCTTATTTTATCTTCAATATGTTCTTTTCCAACCTCCTTTTCTGCTGCCCATTCTAACAATGGTGTTCTTATTGACCCGGAACATATTGCTACACATCTGATTTGAGGAGCGTAGTCTACTGCTATACTTCTAGTCAGTCCTAACAACGCATGCTTACTTGTAGCATATGCAGCTACTCTTTTCTGTACAGCCATACTCTGTATTGATGCTATATTGATTATCACACCTTTACCCTGCTTTTTCATATAAGGTATAGAATATTTAGCCATAAGAAAAGCTCCCTTTACATTAACATTCATTATATTGTCCCAATCTTCTTCACTAGTTTCATCGACAGCACCATAACTTTCAATACCAGCATTATTTATAATTGAATCTATTCTTCCATATTTTGAGACAACATATTCTATTCCTTTGATGACTTCTTCCTTCTTAGATACGTCTACCTTAAAGTAATCTATTTCATAATCTGGGTTTTTAACGTCAAAATCAACTACTCTAACGCCTTCTTTCAGTAAAATCTTGATTATACCTTTGCCTATTCCTTGGGAACCGCCAGTAACAATAGCTACTGTACCTTTTAACCCTAAATCCATCATATCACACTTTTCATTAATCCATTAAAGTATTATAGTTTACGTATTCCTAGAAACGAAATTCTAAGGTCCTGTTTTGCAATTTTATCCTTTGATAGAGATTGATAGTCTTCCCACAATTTGGTCCTAATGAAACTAGGAGTTATGCTGAGAGAATACAACAGCGAACTATTTTTAGTTTGTGTGATAGTAAGCTGATGGTAGTATTTCTATTTTTGTCTCCCAAGATCTATAGCGAGTACAAGGTCCTCTAGCTCATACTTTCTTGGCTTAAGATTTCATAGAATCAGAAGTGATTGTGAAAGGATTATAAGGTTCAATTCGGTAGACCCAAAATCTGATTAGTAAAAATAATTTTTATTCATTATTAGTTATTTATGTGAATTTAATGAAATTAAACAATTGATTCTATAATTTTTTTAGAAATTTTTAAGTGTTGTATTAGATCTTTTATATTTCTGAAAGTAAACTGAGGAATATTATTATAATATTAGAAAATGATGAGATGTGTATGATAGAATCCGTTTTATTTACATTGATTATTTAATACATTATCCTTAATGTTCCTGATTATGAGTATAATGAAATATGTTCCTCATGAAGAAAAAATATGAGGTTTAATATTGAATTTGTATTTGTAAAACTATTTTGGGTCTACAGAGAAAGTCAGTATGTAGAGGAAAAATAGAACTGGTAAACGAAAATGCTTGGTTATATGTTAAATTCATAACTTCCAATATACTTAAAATGTTAAGGTATTAGTTTTTCACTTTTAATAGTATAGCCTATTACAATAGTTAATAGTATAGCTATTAGCAGTATTGTTATACCTGCATATAACATAAGATTTTGAATTCCTATGGCAGATTTAATTATAGTCCCTGAGTATATATACGAAAGAAGTATAGTAAAGCCTATATATGTTCCTAATGGAGACCTGGAAGATCCAGCTATCTTCTGCAGATATGAAAGATATAAAGAAGGCGGTATAATCATCCAAGAAATTCCTATAGAGTTAATTAAAATTAATATCATATAATATAAATTGCTAACAAGTAACCCCAAAATTATTGAAACTATCACTGTAATGGGAATTGAAATTAAAAGAAATGCAAGAACATATTCATTATATATTTTTCTAGATTTTATTCCTTCTGCAATAAAGAATTCTAGGAGGCCGTTTTGTCTATCGTCTATGAATAAAGATACTGTAAGAGAAGAGAACATTATTCCGAAGAAAGAAGGACTCATTAATAGCGATATCAATATAAATGGAAGTATAATTTTTATTGTAACTATTTCATAAATATTGATAATAAGAAGAATAATTGAGGCTATCAAAAAATATATTGTTGTACTATAACTTCTTTTTATCATTCTTTTTAGGAATAGGAACGAAATCATTTCTTCACCTCAAAAGATCTTCTAGGGGATTTCTCATTTCTTTAATTTCAAATATATTGATATTCCTTCTCATTAGCTCTTGGATTATAGAATTAACTTCTGCAGGATCATTAAGATTTATTACAAAATAGTCTCCTTGATATTTACCCTTAAGAATTTTAGACAAATCTTCTGATGCTCTAATCCCTATTGTATATTCTCTTAATTTTATTTCGTTTATAGGTTTGAATAATGAAATACTTCCTTTGTCTATAACTATAACATAATTTCCTATTTCTCTAGCTTCATACAGATTGTGGGAAGTATATATTATAATCTTGCTCTTGGATAAAGATACTATCAATTTTCTTATTTCTGAAGCTAAGATAGGGTCTAGATTTTCTGTAGGTTCGTCTAAAAGATATATATTATAATCTTTAAGAAATACCTTAGCTAATGACAATTTCTTCTTCTGACCTTGGGATAAACTCGATATTCTCTTATCCAATATATCTTCCAAATGGAATCTACCTATAACGTTATTCGGATCTCCTCCAATTATTTGAGAGAAAAATTCTAACGATTCCTTTACTGACATTTCTTGAGGCAAAGCAAAAGAATGAGAAAGATACCCTATGTTGCCTTCCTTCTTTATCTTACCTTTAAAAGGTGGAAGAACACCAGCTATCACCCTCAAAGTAGTCGTCTTACCTGCTCCGTTCCTACCAAGAAGTATATAGATTCCATTCTCCTTTATTTCAAAAGATACGTCGTGTAAAACCTCAGTTTTCCCATATCCTGCACTAACCTCATACAGACCTAACATATTACCACCTTCTTCTTCTAGGAAAGAAAACTAAGGAAAAAACTGAGACAAAAAATCCTATATAAAATAGTGCAGGCTTTCCTAGAATAAAACTTAATATGATTAAAAATATTGCAATAGCTAATAGGGAAAAACCTATTACTAAATTAGATTTAATTTTTACAATATATACTAACAATATTATAAAAACTAAGAGAACTAATGGAAAAATAACATAAAAATCTGATGTAATTGACATTTATAACACCTATCCTAACATAGAATCTCACACGCTGAAGCTGCAGCTGCTTCCGCTGCACATTTTTCTCCACAAGTAAATGAGTCGGTTAAAACTCTACATGGATCTCCAGCGCATTGCAAGTTTATGCATGCATCAAATACTTCAAGGTCTAATTCTGGCAAACTCAACTCACCTTCTCTATTTTTAAGAATGATAGTCCTTCATTTTTTATTTTTTCTGCTAATGATTCAACGGTAAGCTTCTGTCGTGGTACTTTATATCTTCCATCTAATACCTTGTTAATAATTTTTCCATGGCTAGACACTAATATCACTTTCATATCTGTTTCTATATGGTCTGGCTTCTTCAACGAATTCGAGAATTTTTCTATTACTGTGATAAAATCTTTTTGGGTATTTATCGATAGCACAACATAATGAACACCGTTACCCGCATCTATTGTAATTTCATATCCTTCTATATTATTTGTCTTCATATAGCCTATTTGAAATTCATCAATAGTAGTATTTCCATGTTCTAAAATTTTTATTTCTCTTGGTGGTTTAGGAAAATTTTCCTGGTTTTTCTCGAATACGTTATCTTTTGTAGGATCAAATAACAGGGGATATCCCCAGTAACTGGAGAGATAGCTAGTTAAAATAACTTTCTTTAAGAGCATTTTATCTAGATGCGATTCTCTATATATAGTAGACAACTACTATTACCTAACTTACTTGCTATTTAATAGCCACTTCCACAAAGGTATTGCTTTAAATCCGTCCACCTCTCCTTCATAATCCCAAGTTATTATTATTCCCTCATCAGCTTTCAAAGACGAGCTTGCCTCTTTAAGTCCTTCCATCTCCCTTTCCTCTATCTTATCCATAGCGTAGGTTACTTGAATTAAAATCTTAGGTTCAAAATTTTTAGATACAACGAAGTCAACTTCTCTCCTTTTACCTTTCCAGTAAAATACTTCCTTGCATCCCCTTCTCAATAACTCAAGATATACTACGTTCTCCATTGCCCTAGAAATTGAGAATTCGTAACCCAAAGCTGTTGGGTAACCAGTATCGATTATATAGAGCTTTTTAGGATTAGCTCTTCTTTTACTTTCGCTCTTTTCAAATTCCTCAACTAGGAATGAAAAGTAAGTCTCTTTAGCCTTTGAAAACAGTTCCAGAATAGTATCTTTACCTATTTTAATTCCCAACCCTTTCATATAATTATAAACTCTATTCACGGTAATAGGATTGGAGTAATTTGCTATAAGAAAACTTGCAAAGACTTCAGTAATATTAGGTTTAACTATAGAAAGATCTCTGACTATTACTGAATCGAAATATGACCTCAATAGTTGAACCTTATCTTTCTCAATTACAACGGCAGGATAAGAACCGAACTGCAAATATTCCTTCAGAAAGGAGAGTATTTTTCCTCTTTGCAGAGTATAGTCCATCAAGGGATTATAAATAAACCCTTTAAACCTAAGGAATTCCTTAAAAGATAAAGGGTAAACTTCATAATTAACACTTCTTCCCCTAAGTTCATTAGCTATATTTAAAGGCGTTAGTTGTGAAGACGAGCCTGAGAGAAATATCCTAGCGTTTAACCTCTTCCTAAACCAACTACCGTAATCCTTTACATCTTGAATCTCATCAAAGAAAATATACTTAGGAGTTTTGCCGATAAGTTCTTCAAAGGACAAAATTATCTTATCCAAATCGTTAACAGTCATGTTTTTTAACCTATAATCGTCAAAGTCAACGTATAAGATTTCGTCATGGGAAGCTAACCCTCCTTCAATTATTTTCTTTATTGTCTGATAGAGAAGGAAAGTTTTGCCACTTCTTCTCCCACCGGTTACTGTAATTACGTAATCCTTGTCTAGAGGTAAGGATAAGTCCCTTTCTATTATATTAGGTAATGCTGAAGTAAGCCATTCTGCTATGAAGCTCTTTATTCCTTCTTCCATAAGAATGATGATAATTGCAAGTTTAAGTCTTTTTCCGACCAGTTTTACGTAATAATTGGTCTCTAAGAGACCAGTTTAATTTCATTAATGCGATTTTAACATCTATGAAAATATTGTGCGTCTAAGATAATTTTTATTTTTTACAATTTAATTCTGTTAGCAAAATCTCTCTTTATCAATCTTCTAGGTAGCGGAGTGAACTACTCCCCCATCACCGGTAGACCCAAAATCATATTACAAATATAAATTCAATATTAAACCTCATATTTTTTCTTAATAAATAAAAGAATATATTTCATTATACTCATAATCAAGAGCATTAAGAATAATGTATTAAATAATCAATGTAAATAAAACAGATTCTATCATACGCATCTCATCATTTTCTAATATTATAATAATATTCCTCAGTTAATTGTGTGGAAATATAAAAAATCTAATATGGTACTTGGAAATTTATAAAAATTATCATATAATTATCTAACTAATTACATTAAATCGTTACGAACTACTAATAATGAATAAAAATTATTTTTACTAATAAGATTTTGGGTCTACCGTACTAGGCGTGGTCATCCTGCTAGGCGTAAGGCTGTGCGCGAGTTCAAGAAGTTGGGTTATGAACGTTGGCGGGATGAGAAGGGTTAGTTAAGGTGGTTGGTTGAGTCCTTGTTCTCTGCTGTTAAGCATTTGGTGAGTCTGTTAGGGCTACGAGTTTTGCTGGTCAAGTTGTTGAGGCTAAGCTAGTTTGGCTTATGCTTGGATGACATGGCTAACCTTGTTGTTGATCGAGCTAAGGGAGTTGAAGTTAAGTCTTAGTATAGTAAATTGGAAGATTTATTATTTTCTACAGAAAGCACATTTTTACTGTATCATTCTAATGAAATATATTGAACGAACCCACAAAGCAATGAGAAGCAAAAAAGTTAAAAATCTATATTATGTTGGACACTACACTCATCCAGGAGTAGGCGTTCCCATGGTTCTAATTTCAGCAGAAATATTAGCAAATATTATTACTATAAATCAATAAGTCCAAATTCAGCTCTAGATACCCAAACCCCTTCCTAGGAATCTAAATTACGTTCTAAACTTGATCGATTTCTAGATTAAGATCTCTAAAATTAATTAGAGTTTGCTATATAGCACTATTTTTTAGTTTACTTCAATCTTCATTGAAGCTAACGCTAAAGATTTAATCTGACTTTTGATTTCGAATTTAAGAAAAACAAGAGGCTTAATATCTAAGATTTAAGAATTCCACAAAGCACTATAGTACTTATTCTTTATAGCTTATTTTATCCTCAATCTGTTAATTCTCTTCTTTACTTAACTCATTCCCATTATTTCCTCTACAAAATATTCATAAAATCTAATACTTTTAATGAATATTATTGTTGTAATCTTTATTAACATTTAAAAAGATCAATTAACTATCAAACCATTAACTATATTTATGATGAAAGCTAATAATTATATTTATGAAGGTGGATGAAATGAGAGTAAATGAACTATTAGATATAAAATTCAGCGATATGCTTAAGAAACAGACATTAATGATTGATACTAATTCCAGTATAGCGGATGCTGCCAGTGAAATGATTAGGAATAACATCAACTCTTTATTAGTTGCCGAAAAAGGTAAACTTGTAGGTATAGTTACTGATAAGGATATTGTTAAGGCAGTAGCAAATAAACTCGATCCGTCATCAAATATTCAAAAAATAATGACTAGAACAGTTATAACAATAAATGGAGACGAAGATGTTTTAGAAGTTTTAGATACCATGCTAAATAATGAGATAAGGCACTTAGTAATTCGAAAGAATGGAAATATCGTGGGAACTATAACTAGAAGAGATATTATTAGTTACATTCTACTTTTCTCTAAAGAATGGCCTAGTTCCTGGAGATAAGCTGTATAATAACTAAGGAAAAAGTAAGAATAAAGACTATAATGTGTTAATTAAATTTAAGGAAATATTGATTAAATAAGATCTATATATTTCATATTAATTATTAATTTCTTTTTTTTAAAATATATTGACTAATGTATGAAACAGTTCTAATGATAATAAATCAATGTCAGTATTTTGTAATATGATTTAGTTTTGAATTTGTATCTTCAAATTAGCTTCAATTATATGCTTAGAATTCTAGTAATATGCCCCAATAATTATATTATATCTAATTATTTAATCTACTAATCGAAAACTTTAAATTCTGACTTAAATATGAATTATTATGAGTTTTGCAGAAAATCAAATTCTAGTTACTAATGCAGAAGAATTACCTGGATATAAGATAGTTGAAGTTAGAGGATTAGTAATAGGGATAACAGTAAGATCCAGAGGTTTGGGAGGTAATATAGTAGCCTCATTAAGAAGCCTAGTTGGAGGTGAAATCAAAGAATATATAGAATTAGCTGAACAAGCTAGATTACAAGCACTACAAAGAATGATTGATAACGCTAGAACTCTTGGAGCAAATGCAGTTATAAATGTTAGGTTCGACTCTAACGAACTAGCTCAAAACATGGATGAGATAATAGCTTATGGAACTGCAGTAATTGTAACTAAAAACAGTTAAATCTAGAATAAAAAACTAAATGGTTAATACATTAGGATTTTCAGAACTATTCTATTTTTTAGACTATTTATTTTAACATAAATACAGTTTAAAGCTAAATCAATAAGACTATTACTTCCAGTAAGTTTTTAATTATCATTTACCATATTTTTAATTTATAACTGGTAACAATCTCTTCTACTTAATAAGGAATCTTAAATTAAAATTTTGAACTTACTAGTCAAAAATTTCCAAATTAAAAGTACAAATTATCTATTAGTTAGAATATGCTTATTAATCAGAAAAATATTAATGGAAAGAATAAGGGGCAATTCGCTGATCCATTGTGAATAGCGATTTTATGCCTTTTATGTGATACAAATCTACTACATTAACGCTAAGTTTCACCATAATTTTTAGCTAATTATTCTAAAAAGAGTTAAATTAGGCGAATTCACAAAAGAAATCTGAATCTCCCATAGCTCTACATTAGTTACTTCAAATACTAAACATTTTTCAATGATAGAAGGATTGAAGATTAAGAACTGGAAAGAAAGTTTACAGATCTAATCTTTTTCTGTCCCGGAAATAATCTAAGGTAATTGAGAGAACCATAAAGTTCATTAAACTAAAACTATTTTCTTAAGTATTGTTGAATTCTATAGTTTTCTTCGATGTTAAACCAATTGTCTTTTCAAATTCTAAATCTAGTGTTAGACCAAAATTAAGTTTAACATTAGCTTTGATAAAAATTGAAGTAACTTATAAAGCAGAGAATCCATTAGGAAAACTTTATTTTACTGTATACCTACCCAGTAACTAGTGGTATACCCTGTTATTCGATATAAAACCTAAGGAGGATCCTAAAGATTTATTCGATAGAGAGGAAGAGCTTCAAAAGCTTAAAAATGGAATAAATTATCCTGTTTCACTCTTATTAGGTTTAAGGAGGAGCGGTAAGTCTTCTTTGGTCAAGGTTTTAATGAAGGAAGAGGATGCTATATGGATATACTTAGATTTGAGGAAATACGAAACTAAAACTTTTATAACTTATAAGGATGTAATAATAGAACTTGAAAAAGCATTAAATAGATTTCCTCAAAGAATAAAGAAATTACTTGAAGGAATAAAGGGGATCAATGTTGCTGGTTTAGAAATAAAACTGAATTGGGGAAAACAAAAGGTAGAAATATCTGAAATATTTGATAAACTTTCTGAAATAAGTGAAAAAGAAGATAAAAAGGTTATAATAGTGTTTGATGAATCTCAGGAACTTAGAAAGCTAAAAGGATATAATTTACTTAATCCGTTAGCCTATGCTTATGATAATCTAAAAATTAGGTTCTTATTTACTGGAAGCGAAATAGGCATGGTATATAGATTTTTAAAAATTAAAGATCCTAATTCGCCGCTTTTCGGTAGGGCAATGACGGAAATTACTATACATCCCTTCACTAAGGAAAAGGCTATAGAATTTTTAAAAAAAGGATTTGAAGAAGTGAAGATTAATCTCGATGAGAAATTACTTGAAGATGTATATAATAATATAGGAGGAATTCCAGGTTGGTTAACATATTACGGTTTTAATTACATTCAAGAAAAGGATCACGAGGAAGCCTTAAATAAAACTATAGAGTTAGCTGTTTCTTTAATAAAGAAAGAATTTAGGAATTTTCTAAAAGGAAGAGAGGAGGCTAAGGAAAGATATTATACAATAATGGGCGTTTGTAAAAAAGGTTGTAGATGGAGTGAATCTAAAAGAGCTATAGAAGCTAAGGAAGGGGTTAGAATTGACGATAAGAAATTAACTGAATTATTACAAAACTTAATTGACGCTTCTTTTCTAATTAAGGAAAATGAAATATATAGGCCTGCGGATATCTTAATAGAGAAAGCATTTTAGCTACCTAGTAATGTTTCCACTATATATCGAATTATATACACTTCTTGATTAAAATATAAATATAATAAAGCTACGTTAATTTATAAACATAATATCACTGAAATTATTGTAATAATATAAAAATGAATTCGCTAGAGTGCAATGCAATATATAGTCTAGTGCTTTGTGGACTAATTGAATTTTCTTAGGTCTTGAACTCACTAGATCAAGATAAATTCTAAACCAGACGTTTGATTAAAAGTAAGTTTAACATTATTTCTGAGAAAAACTGAAGTAACCAACAAAGCGTCTGCTCAGAGTAAGCTTATTAATCAGAATAATCAGAAAAAGATTTATGGAAAGAATAATAAGAGTTGGGAAAAGGAACGCTATCTATATTCCAAAAGATATAGCCGAGAGTATAAACTTGAAGGAGGGAGACAAAATAGAGCTAATTGTGAAGGAGGGAGACAAAATAGAGCTAATACCCCTTAGAAAGCCGACTAAGTATTGGGCAGAAATAGACGTAAATGAGGTAGAAGAGATTGGAGAAGAAATTAGTAAATCTCTCGGAATTAATAGTTGATACATCATTTTTACTTCCATTAGCAGGAATTAAGGTTAAAGGTATTGAGAATGATCTATTAGATGGAAAAACCATATATTATCCATCACTTATGTTAACAGAACTTATAGCTGTAATCATTAAAGAAGCAAAGAAGCTAAAATTAAGTCAAATACCAGAAGATGCAATGAAAGGTTTATCGTACATCATAAGTAATGTTAGATTAATCTCACTGGGACAACAAGATTTGGGAATAATATATGAGATTATAAACAATGGATGGAACGATATATTTGACGCAACCTTATATTCTGCCTACAAAAGTACTGGAGTTCCTTTAATTACAATGGATAAATCGTTTTACGAATTCTTAAACAGAAAAGGATTAGATACTAATAAAATCATATTAATTTAGATTATACAGTTTTAATATATAGATCAATTAATATCGATTAAAATACTATGATTCTCTTTAACTACTTGATCATATTATAGCATATAATGAAAGTCCCCCTTGATTAAATGAGGCTAAATTTTGACTTATTTTAAAATATATAATATCTTTATGCTTAATATTATTATATTATTTTGAATTAAAATAAAGTAAATGATTATAATGTCTGGAATTACTTTCCTAAAGCTTTAAACTTCTCTAAATTATTTAAATATTTATAATTTAAGTAGTTACTAACTATTCTAGTTAGTAATATCATTATCTATTACTAACCATTCGAATATATCACATAAGATATTCTTCTTTAATTATACAATAATAGCAATTTCTTTCCCCTTCACACGGATCAACTACTATCAAATTTATCATATAGAATATACATTAATCTGACCTTCTATTTCTTATATTACACTGGCTATTTCATACCCTAAAGATATAAGCAAATTTGCACTAAAAATCTTTGATTCCTAGAGACACCAATTTTTATAAAATTCTACATTAGTTTCATCAATGCATGAGGAGGAACAAGAATGGTTACAAGCAGCCAAACTAGGATTAGGTTATATGGGATGGCCTGGACATCCGTTCGGGAACTATTATCCTCCTTGGGTTAAATCAACAGACCCCTCTAAGTCTGTAAGTTCTGAAAACTCTACTGCAGTAACCCCACTAGTACTATTGTTATTGCCAGTATTATTAGTTCCAGAAGTATTTCAGAGTAAGATATATTTAATTAAGTCATAATTTTTTAATATCCTTTTAAGCTCTATATACATTTTTAATAATATTATTATGAAGGTTTATTAGACTATAATATAAAATATCATGATTAAATATGGCTAAAAAAGAGGAGATAGGCAAAAATCTGGAAAAAGATGGTCCAGCTTCTTTTGGTAAGGATACAGCAAAGGCTGTAGGATCTCAGTTTTTAGGATTTCTCCTTGATGCGTACGACCTAACAATGATATTAACAATAGCTCCAGTTTTGGCTGTTGTACTTCTCCCACCTTCATCTCCTTTACTAGCAGCATTTAGCGTTATATTAGCATATTCCTTGACTATAATATTTAGACCTGTGGGATCAGCAATTTTTGGGCATTTTGGAGACAAGTTAGGTAGAAGGACCGATCTGATTATAACAGTATTAGGTCTAGGAGTTACTAGTGCACTAACTGCAGCGTTACCGACTTATGCTCAAGTAGGAATATTATCTTTTATTCTATTTGTTATAATAAGAATAGGAGTAGGAATATTTGCAGGAGGAGAATATGCTGCTGGACATCCTTTTGCAATGGAATGGACTCCATATAAATGGAGAGGTTTAATGAGCGGTCTGGTTCAAGGTGGTTTCTCTTTCGGCGCTGCATTAGCTGCTGCTGTGTTAGCTCTCTTTATCTCAATTTTCGGTCAAAAGGCTCTTGAGATCTATGCATGGAGATATCTTTTTCTCACTGCTTTAATTCCAGCAGTTATAGCTCTAGCAGTTAGATTATTCATGAGGGATACTCCAATTTTTTCTAACTTAAAGGCAAACAATAAAATAAGGAAAAGTCCTTTTACTGATCTCTTTAGGAAACCTTACAGGAGAGATTTCTTTCAAGTTATGCTTTACATGACTGGAATGTTCTTCTTTGCCTATGCCCTATTCGCTTTTGTACCTACAATCTTGGAACATAAACCTTCTGTATTTCCGCTAGGCACGGCAGATGATATTTACACTATATCTACAATAGCTGCGTTTTTTGGTGCATTATCTTTTGGTGCATTATCTCAAATAGTTGGGAGAAGAAAACTAACGTTAATATGGGCTATAGCTACTGCTATAATCGCAATTCCTATTTACTACATGTTAATGTACGGTGCTACTATAGACAGTGTAGCAATAGCAATGATAGCAGGAATAATTATAGGGGTAATCACTCAAGGACCTTGGGGAATAATACCAATTTATCTTTCTGAAAGATTTAAAGCATCAATGAGGTCTTCTGGAGTTGGTTTCGGATATTCTTCGGGGATATTTCTAGGTGGATGGTTCAGTATATATGTACCTTTAATGCACGAATATCTATTCAAATCTATAGATACTCCTACAAATATATGGTTCTCTACTGCCGTTCTTCTGCTAATAGGAGCTATAATTGTAGGTATAGGGCAATATTTAGGACCAGAAACACTTGGAGAAGGCCTTTCTGAGTGAACCTTTATTATAAAAAATCTAAGATATAACATTTTTATACCGCTTAAACATTCTCTACTTATGAGTTCTACATTATGGAAAAAGAGGGTAATCCATATTATAGTTTTTGTGCTAGTATTATACCTAATTAATTTCCTAGATAGAGTAAATATTTCTTATGCAATAGACGCTGGAATGTTTAACGATCTAGGGTTGAGCTCTGCTACAGCTACAGTGGCTGCATCATTAGCTTCTTCTCTATTCTTCGTAGGATACTTTATTCCTCAAATATTCTCAAATTTACAGATTAATAGGATAGGAGTTAGGAAAGTTTTTGCTCTAGCTTTCCTATTCTGGGGCATTATTACTGTTTTAACAGGGTTATCTACTTCAGTTACTGAAGTGTACGTACTAAGATTTTTATTAGGAATTGCAGAAGCTCCATTTTACGCTGGCGTAATATTTTACTTGAGTTTATGGTTTACCAAAAAAGAGAGGGCTACAGCAAATAGCTTATTTAATGCAGCAATACCTATTTCTGGAATTATAGGAGGATTAATAGCGGGAACAATATTTTCGGTTTATGGTAATGATCCTGGGTGGAGATACTTATTCTTTTATGAGGGGGGCCTAGCTATAGCGTCAGTAATATTCATTTATACATTAATGAGTGACTTCCCTAAAGATGCGAAATGGCTATCAACAGAGGAGAAAAATCTTCTAGTTTCGGAAATAGAAACTTCACCAACTGTTCACACTAGATGGACCAGAGCCTTAGCGGACCCCGACGTAATAAAACTAGCTATTGTGTACTTCCTTGGAGTCACCAGCCTATATGGTTATACCATATGGCTTCCTTCAATAATTTCAAGCTTTTCTGGAATCTCGGCGTCCTTATCAAGTTTTCTTAGTGTTATACCTTACGTCATAGCTTCCATAAGTCTAATATTTATAGCTAGATATTCTGATAAAAAACAAACACATAAATGGGTTACTTTTTACGTATTTCTAATAGCTGGTGTCGGATTAGCTGCAAGTGCCGCAGTTCTAGGAATATCGGCTGCAATATCTTTCATATTTTTCGTGGTAGCTGCAATAGGTATATTCAGTTTCCTATCACCGTTCTGGGCAATACCTACAAAATTCTTAAAAGGTGAATCTTCTGCAGCATCAATAGGAATGATAAATGCCGTAGGAAATCTTGGAGGAATATCTGGACCTATAATAGTGGGAGTTTTAAAGGCTTACACTAACTCTTTTTTACCAGGGATTTACGCTATGGCAGCTTTCGCTTTCATAGCAGGAATAGTGGTTCTACTAATAAAGAAAGATGTAAAACAAATCATATAACCTAGTATTCTTTTTTACTATAATATTAAGACTTATATTTTTCTAAGATTAATCATATTCTTCTATTTGAGTTTAGACAATTCTTACCTTTCTTAATAATATTCCCTAATGAGAAATCCGCTTTAAGTAATGATAATCTAAAATATTTTTCACTTTATATTTAAATAAACTTATTTTTAGTCAATGGTAAAAATATATAATATATCATATAATAAACATTTAATGTTGGATAGATTTGTAATAATATTTATATCTTTCGTTTTGTAACGTATACATTAATCTAGTAAATATAATTATACTTTTACATGTTTATATTATAGAAAAAGATTTAAAAATGATGATTTAGATAATATTCTATGATGTTTAATGTCATCCCAATCAGCATTACAACAAATTCTAGACCAAATAGACACTAGGAAAGTAACTAGATTCTATTGGATAATAACGATCTTAGCTGCGATAGGAGGTTTTCTATTTGGTTACGATACTGAAGTTATAGGTATTGCATCTGTTTTTGTCCCATATCATTTTACTGGATTTGTTTACGGATACGAAATAGCCAGCGCATCATTGGGCGCAGCTATAGGTGCCATAATAGCTTATTTTTACACGGATAGATACGGAAGAAAATCGTTATTGATTGCAGACGCAGCTATTTACACTGCTGCCGCTATCCTCTCAGCTCTTACAATAAATGGGGCAATGCTTCTTATAATGAGGACAATCATAGGCATAGCTATAGGTGCAGATTCTGCAGTAGCTACTGCCTACATAACGGAATACGCTCCAAAGGACAGAAGAGGATCACTTGCAATAATGCAACAATGGATGATAACAATAGGTATTTTGGGATCTTATTTTGTTGGATCTGCAGTTTTGTTAATAGCTCCGTCTTTAGCCTACGCTGTAGGATGGAGATTAATATTAGGATTAGCCGCAATTCCTGCTTTAATAGGTTTAATATTCAGATTCATGATGCCTGAATCTCCAAGATGGTTGTTACTATCTGGACAAATTGATAGATTAAAGAGGGACTTAAAGAAGTTCGGATTAGAGGTTAGCGATTCACTCATTCAAAAAGCTACGCAAGAAGTTAAGGCTGAAGCTTTGGCAAAGTTTGATACGCCCACAAAGAGAGCTCTCCTAGTAGTAGGATTATGGATAGTTTTCCAACAAATAACTGGAATAAACGTTCCATTCTATTACGGTCCCACTATAATTCTTGGATTGCATTTATTTGCTAGCTCAACAAATCCAGTATATACTGAGATTGACTCAGTCTTGGCAGCATCAATACTTGCTGTAATAAACGTAGCAGCCACTTACATTGCCTTTAAGTATATTGATAGGATAGGAAGAAGGAACTTAGGAATTTCTGCATATGCAGGAATGCTAGTTTTCGATTTAATAGGAGGAATACTTGTAATGGAAGGTATATTAATAGGAGCCCTCATAGCGTTTGCAGGATTCATAATATTCTTCGCATATGGTGTAGGAGGTACTGGATGGTTAATTCAAGCTGAATATTTCAAGACTGCAATTAGGGGTAGAATGGCTGCAATAATAGCGTTAATAGATTGGTTAGCAAATTTCGCAATAATTGAAGTCTTCCCTGTAATGTTGTCGTCCATAGGATTAGCGGGATCAATGTTCGTATTTACGGCATTGGACGCTATAGCGTTAGGTGTCATATACTTCTTACTACCAGAAACTAAAGGATTATCGCTAGAGCAAGTAGTCAAAATGTTTGGAGAAACACCTACATCACAATTGAGGAAAGGAAGAGAAATCGTAATGAAAGAAGAGAAAAAAGAAAAACTTGTTCCAGAATCTAAATAACTTTTTTTAATATAACTATTTTATATTTGTCTAAATTCTCATCATATATTTCTGATACTATATCTACATTTTTTAACTGTAGCTTATAAAAGAATAAATCTCCTAAAAGTATAAATCCATATGGCTTCAGGATACGTACTAATTCCTGCAATGCTACATCTCTATCTTTTATATTATGATAGACTAAATTTGATACTATAACATCAAAGGAATTATCCCTGAATGGGATACCAGTTAGATCTGAAGATATTATGTAGAATCTTTTATCAAAACCTAAAATTGAAATATTTTTTCTCAACTTCTCTATGCTGTTATCCTTTAGGCTAGTATCTTGAAAATTATCAACGCCGTACACAATAGTATTTTTAAAATAATCCATTACTACGCTTGATAAAAATCCTAGTCCACATCCTGCATCCAATACTTTAGAAGGATCTTGTATGACTGAGCTAAACGCTTTCTTAAAAAGTTCTGATATTCTTTTCCTAAAGTTCTCCGATTCTTGTTTGGTAGAATGATGATAAGTGCCGAAATCTATTTCCATAATATCTACTTAATAGATTACGTTTAAATCTACCTAAATACCAAATAGGAAAACTAGAATTTTACGTCTTAAGATTATTCAGAAAAATCACTAGTATTTCCTAATATAAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCCCGTTAAGTTAAAGTTTAGCGTTACACGAAGTTATAGAATCTCTCTATAAAGTCTATTCCAATTTTTTATATAACTTGAAAATTAATAGAAATATCTAATTACTTAACGTTCTCTAAGCAATGGAGTAATTTATTTAAGTGGAAAAAAGATAATTAAATATATGCAAATCCTAAGAACGTCTGCCGACATATATCTAGAGGAAGCTGATGAATTACTTTCAAAAAACGACATAATTCAAGCAAGCGAAAAATACTACAGAGCAGCAGAAGAAGCAATAAAAATACTTTCCAGCGTGATTCTTGAAAAAAATATAATTTCTGAAGTTATAAGCAAGAACTGGAACACGGAAATAATTAATAAAGCAGTGTTTCAGCTATCGTCAGTACTTGGAAATTGGATAATTGAAAGCTGGGGCTCTGCAGTTGTATTAATAACAGTAAATCTTGATCTTCTACAAGTAAAAAAATATAGGGAAAATATAGTTAAGTTAATTCAGATTGCTGACGAAAGATTTAATAGAAAAATTATTGAAAGAGGCTGATGAATTACTTTCAAAAAACGACATAATTCAAGCAAGCGAAAAATACTACAAAGCAGCAGAAGAAGCAATAAAAATACTTTCCTTTAATAATTCAATAAAAATTATTTCCAAAGTAAACCAGATAGGTCACTGGAATTCAAAGCTTTACTTTAATGCTATTGATGAACTTGATAACATTTATCCCAATATAAGGTCATTATGGATATCTGCCTGGATATTACATGTAGAAGGATTTCATGAGGCTAGATTAACTCAAGAAAATGTTAAGCTTCTTAAAAATGATATAGAAAAAATAATAAAATTAATATAATAAGACCAATAGTCATAATTAGCAGTTTACGGAAATTTTTCTTGCTAAAATATTTTCATTCTATCTCGTAATAAAATAAATTTTATCCATTCTAGGCAAAGATATTTTAGGTATTACAGTAAATTATTTAACTTCTATTCCATTATATTAAATTATTTTTAACGCTACGTAATACTACAAGGATTTTTGTAGAAAGTCTACAGGAAATTCTTATCCTTTAATATTGTATAAAAAAGACGATAAAATAGGAAATTACTGGCGTTCAGTAATAAATATTTCGGTTGAACTTCAAGCATAATGTCAACTAAGGTTGCCACGTGAATCCTTTCAATTCACGTGGCGATTTAGGGTCACTTAGGCTCATAAGGCTTATTATTATACCAAACGCTCCACACAACCTTAGCCAACTTTCTCGCCAAAGCAGTGTACAACTTCCTACCGTGAAGCTTATCCTTATGAGACTCGTAAACAACAAGGTCGGGTTCTTTGAGTAGTTAATCTGCGCAAGAAAGTAGAAAAGGCTGCGCAAGTACTTATTACCCCTCCTTGAGATTCCCTTACTTACCACCGCCTTACCGCTCCTCTCCACAACAGGGTCCAGGCCGCAATAAGCTACGAAAGACTCAGGCTTAGGAAAGCGCCTAATATCACCTACAACAATGGTTATACCGACTGCAAGCTTCCCAACTCCCGGTATTGTAGGATGTGGTCTTCCGATACTTGACTCTCGATCATCTCCTTGACCTCTTTTAACTTCTCCTGCGTCTCAAAGAGGGCCTTAGCCAGTATTTTTACCTCTTCAAGTACTATTGGCGTGTATTCAAGTTGGTAGAGTACTTCTTGTGTTCTCCGCTTGCTAGTCTTTCCAACCTCTCCTTGTTTGTCGTTGTCGCTTACTAGGAATAGTGCTCTCTTTAGCCTGTTCTTGTGCTTTACTTCCATGTCCTTTAAGAACAGGTATAGAGTTACGAGTTCTCTAAGGGCGTTATACTCGTACTCCTTAGCCCTGTCTGCCATGTTTTCTAATTTTTCTGCGTCGTAAAAATCTGTTTTCCCGAAGTCCTTTTCCCTTGATAGCACGTTAGGGCTTACTTGTAGTACTCTTATTCCTTTTTCCTTGAAGTATTGGGAGGGCTTTATGGAGTATACTCAGGTGGGCTCCAGGACTATCGTGCAAGGCTTCATCTCGAGGATTTTTTCATAGCCTTTTAAGTTGTTCTCATATTTCCCTCCCCTGTTCGTGATTAAATTGTCTTTTGATATATCTATCCCTATGGGGTATTACTCTTTACTCCCTAGAGCTAATAAAACCTATATAGGAAGTATTAGCGATGTTTTCTGTTCGTACTCTTCCGCTATCATGGAACAAGTTTTATAACTTGGGAGGGGATAAGTAACTTATGAGGGGGTAAGTTTCACGTTATTTGATCCTAGACCTAAAGATAAATTGAAAGATATATTTGACAGAGAAAAAGAAATTAACGTATTAAGAAATTCCCTTGATTCTCCATTGACTGTCATTTTAGGCTTAAGAAGAACGGGCAAAACGTCGTTAGTTAAGTCGGTTCTTAATAACATAAGAGCCACTTACGTATTCTTGGACATGAGAAGATTTGAAAACAAGGAATACATAGTTTACAAGGATTTTCTAAGTGTATTGGAGAGAGAAGTTAACTCAATTACTAGAAAATATAAAGGATTAGTTGACTATTTCAAGACAGTTAAAGGAGTGAATTTTGCAGGTCTTTCTTTAAGCTTTAGTTGGGGAAAAGAAAGGACAGAGCTTTCTGACGTACTTTCTTCGTTAAATGAGTGGGCTGAGGATAATGGTAATAACGTAATCTTGGTTTTAGATGAGGCTCAAGAACTGATAAAGCTTAAGGGATATGACATACTACCGTCAATAGCTTATACCTTTGATAATTTAAGAAACTTGAGTTTCATAGTAACTGGTTCAGAAATAAGGGTAAAATCAAAGTTCTTAAGGTTTGACAATGAGAACTCTCCACTTTACGGTAGAGCTTACGTAGAAATTAACGTTAACCCTTTTGATAAGGATACATCAATTAAATTCCTTGAGAAGGGTTTTGAGGAACAAGGAATTAAATTCAGTAGAGCGGAAGAGGTTTACGAAGAACTGGGAGGTAACCCTGGTTGGCTAACCTATTATGGTTACGTTTATATTAAGAAAAGAGACACGGACGTAATGGAAGGAACTAAAAAATACGCTAAGAAGTTGTTATCTACTGAATTCTGTAATTTCCTAATTGAAGGCAATAGATTACAGTCAAAGGAAAGATATCTTAAAGTTCTAGAAACGTGCAAATTCGGTTGTTCATGGAAGGACATAAAGAATGCATTAGAGGCGTTGGAAGGAAGAGAAATAAACGATGATACATTGTACACTATACTTCATAATTTATTAGAGTATTCGTTTCTAATCAAGGAGAACAGAAAATACTTTTTAGCTGATCCCATTTTAAAGGAGATAAGTAATGTAAAGTGTTAAGTCCTTGAGTAATATGCCGTTGTCAGCAGTTTCCGAGAAGCCGTGAAGTTTAACCGTTTTGATATTATTTAACATTCCTAACCCTTTTAATTCTATTAAGTAAGCTGAAGCCATGTGTCTATTAAATCCCTTTTCCTTCATCACCTTCTTATGATCCTCAGAATTAGTAGTACCCTTAGGATTAACTAGGATGACGTTAAAACCCGACCTTAACGATTTAATAACACCGTGGATTAAAAACTGCTTCTTAGCAAATCTACTAATCCTTCTGTTACCAATCCTACTCTTAGTAAAAATTCCTCCTCTTTATTAGGAATAAATCCTCAAAGACAATGTGGTCAACACAAATCCTCGAAAGGGAATTAATGGCTCATGACAAAGCATTCAATCGCAAGCCTTAGCAAGCTTCTTACTGAAAAACAAAAACAAGATAATCAATATAGAAAATTAGAAAGTCTTATATATCTCTTGTAGTAGAGAAAATTATATGATACCAGAATATTTAGGTGGATTAATTTTCATATTGATTATAATTGGAATGTTATCATTAGTAGTTTACGCTGTATTGAATATTTTTTATCCAAAATCTCCCAGAAAGCTTAAAATTGAAGCCTCGGTAATTCTAGGTTTCATAATACTCGCATTATTTTCGTCTTTCACATCTTTCATTCTTTTAATAGTTATTCTAGCTTTGGGTTTAGGTTTAATATATGGATTTAAGAAAATATAATCTTTATTATTAAAATTTTTATATTTTCTTACATTTTAATAATTATAAAGGAGGATATAACTAATTATACTCATGTTAAACATTCCATTAGATTGTACTCATCTCATTCTGGGCATTTCTAAGTATTATTATAAATGCTTCATAATTTCCTCTTATGGGAAGTGAGAGTGGGAAAGACTTAATTATCAGCTTACCTTAAATTTTTATTTATGGAAATGAGAAAAGCAGACAGTAAAGGCAGAATTTATTTTGGTAATGAATACGCTGGAAAGAATTTTTACGTAGTGAAAATATTTGACGGTATACTTTTGCTTGATAACGAGATCAAAGCTAAGGAAATTGAAGAAAAGAAGGAGGAATTCTTAAAAGGAAATATAGAGAAATTATTAGAATTTTTAGGTGAACCTACAGAAGAAGAAATAAAGGAGGTAGTTGAAAGATCGAGGAAAAGAAGATTATCGTAGATACAAACATAATAATAAGTAAAAAATTCTTAGATCTTAATAATGTAATAGTAACTGAGAGTGTGGTTCAAGAACTTGCGGAATTTATATTTCAAAAATATCTAGATTATATGAATTCTTCACAACAAGAGAGAGCTAATGGATACATAAAACTCTTCAAATATTTGATCGAATACTTGTCTAAATATCCTTTACTGAGTCATTCCTTCAAGGATTATATTCAAGCTATAGATCTCTCTACTAGTAGGAATATCGATGTTACAGACGCTCTTTTAGTAATAACTGCTCTCAAACTGAATACAGTAATAATGACTAAGGATAAGGATTTTGAGAGAGTTAAGGATCTAGTAAAAATAAAATATTTGTGAATAAAAACATTTTATGCTATTAAAAATTTTCCTGTTGACATGCTTTGTGGATCTGTTCAATTTTTCTAAGAGACTACATTAAACTTACTTTTAATTCTACTGCTGATTTAGAATTTATACTGAAGAAGTGAGTCTAGAGCCTAAGAAAATTCAACTAGTCCACAAAACACTGTTGACAGTATTTTTCAAATATCTGTTTACATCTTGAAGAGTTTTATGCTTGGTTATAGAACTAAAGTTAATCGATATATTTAACAAACTAGCTTAAATAAATATTTTTAAATATTTAATGCTATAATCATACAGTGATATGTCTTGATTATTGTTGAAAGTAATGGAAAAAGAGAGGAAATTCCTGTAATAGATTATCATGTCCATGTTTGGAAAGCAAATGAAGATAATTGGCTGAGACCAGAATTAGCTAAAGGTTGGATAGACTGTTTTTATGATTATCATAAATCCTTAACTCCAGAAGAGTACCTCATGAATTATGAGACTTTTAAGTATTATGGAGCAGATAAAATGATAGAAGACGTAATGGTAAATGGATATGTAGACGTAGCAATAACGCAACCTCAATATCTGCAATACTTCTATAGAGAACCATTTGGGAATACTGATGAATTTGGGAAGCTAGTTCTTTCTAATCCATATAGGTTCGTTATAGGTACTAGGTGGGATCCTAGAGACGGCGAAGAAGGAAAAAAGAGATTAGAAGAAGACGTAAGAAAATATAGGGTGAAACCATGGCAGATGAAACATGTCAAATTGTATACTGCAGAATGGAAAGATATTAACGGAAATTTGTCGAGAGGATGGAGGCTTGACTCAAAGGAAGCATTTGATTTTATAGAATTTAGTAAATCTTTAGGAATTGACATTTTAGTGGCACATAAGGGACCTACTGTATGGCCATTGGATAAGGACGCTTTCGATATAAAAGACGTTGACTCTGCAGCCTCTTCTTTTCCTGAGATGAAATTCGTTGTAACTCATATAGGATTACCAAGATTAGAAGATTTTGTATGGACTGCAGTACAAGATAAGAATATCTATGCAGGATTAGCCGTTGCGTCAGCGTTTGTCCATAAAAGACCGAAATATTTTGCGCAGATAATGGCTGAATTGCTCTTCTGGTTAGGCCCTGACAGAATACTCATGGGAACAGATTATGCCATATGGAATCCTAAATGGATATTGGAAGATTTCATTAAGTTTGAACTTCCAGAGGACGTTAAAAGGGAATATGGAGTAGAATTAACTCTAGATGTAAAAAAGAAGATTTTATATGAAAACGCATCGAAATTGTGGGGAATCAACGTTAATGATGTAAAGAGAAGAGAGGATGAAATAAGTAAAAAAGCTAAAGTTCTTAAGGTGAATCTATGAGTGTAGAAAATGTACTTAAATCCATAATTGATCCTGAAACAAATTATTCAATTACCGAACTGGGATTTATTAAAAAAATTGAGAAGGAGCATATAGTTTTGTCTCCCCCTACTTACTGGTGTCCTCCAATGTTCCTCTATATGATTATGGAAGAAATAAAAGTCAAATTGCCTAACATTACCATTGAGGTTAGCGATCATCACGATGCAAAAAGATTAACAGAATGTATAAATTCCAGGAAAAGTTTTTCAGAATGTTATTCCAGTGAGGTTTCAGGAAATGAATATAACGAGATAAAAGAGAAATTCATCACGAAGAGGATGAAAAAAGACAGATTAACTAACCTATCTTTTAATATAAATGGGGAAATGTGCAAACTCCTTTCTGAGGCTAGAAGAAAATGAAAGCTTTCAGAATTCATGACTATAATAAACCCTTAGTAATGGATAACGTTCCTGAACCTAAAATAAGCGAACCGTACGATATCATAGTTAGAATAAAGGGGGCTGGAGTATGCAGAACTGATCTTCATATCCAAGAAGGAGTATGGAAAGATGTATTTAATCCTAAACTTCCGTTTACTATAGGCCATGAGAACGTTGGAATAGTAGAAGAAGTTGGAAGTGCAGTAGACTGGATAGAAAGAGGCGATTCAGTTATTCTTCACCCTTATATTACATGCAGACATTGTAGAGCATGTAGAGCAGGAAACGATATGCATTGTCCTTATGGAAAGTTCCCTGGATTAGATGGTACTGATGGAGGATATGCAGAATATCTTAAAACGTCTGCATTCTCTGCAATAAAAATACCTAAAGGGATAGATATAGCTCCTATGGCTCCTTTAGCAGACGCAGGAATTACTGCTTATCATGCAGTCAAAAAATTGTCTTCCTATTTTTATCCCGGATCAACGGCTGTTGTAATAGGAGTAGGAGGTTTAGGACACATAGGAATCCAAGTTTTAAAAGCGATAACTCCTGCAAAGGTTATAGCCATTGACGTAAATGAAGAAAAAATAAAATTAGCTAAAGAACTCGGTGCTGATGAGACTATCATTGCAGATAAGGATGGCGGAGTATCTGATGTGTTGAAGATCACTGATGGTGGAGCAGACGTTGTAATAGATTTTGTTGGAGAATACTCTACGCCATCTAACTCCTTAAAGATGATAAGAAAAGGAGGAATCTATTCTATTGTAGGATATGGAGGAGAAGTTTCAGACAAGACATTGGATTTCATAAGTAGGGAGATAAGTATAGTTGGAAATCTTGTAGGTACCTATAACGAACTCTCTGAATTAGTCAATCTTTATTCTCAAGGAAAAGTAAAATTGAAAGTAAAAACTTTCTCGCTGGAAGAAGCTAATGAAGCATTAGAAGAGTTAAAACATGGAAAAATATTGGGAAGAGGAGTTCTAGTAACATGAAAACGTAAGTAGTTCACAAATCTTTATGTTAAATTTTTATTAATAATAAAAACTTACCAGAAATACTGATTACATACTTTGTAGAATTCCTCAATTTTTTGAATAATTAGCTCATAGAGTTTTCTTAAATTCAAAATCTAACGTTAGATTAATAGTAAGTTTAATGATCCATTAATAAAATTTTAAAGTAACCCACAAAGCAATACATTTAACACTTTATTTGATAAAGAAATATTAGATCCGATATTAAGACCATTTTATATCATTAAAAAAGATAAGATACAATCTGACTTGCATAAATTAAAGATAGAAAATTATTATAATATAAAATATTAGCATGACATACGTAATTAAAATAGATGATAACTAAACTGTCTCTAGAGTTAGAACATTATGGAGATTGGACTGTATTTTCGGAAAACTTTGATAAACTCACTGCTGATAGTGTATATTTTTTTACTAATCCGTCTAGCAGACTGAATTATGAAATATTTCATGTAATGTCTTCAAAACAAGACAACATAGTAGATTTTATTAGAATGATAAGGAGATCAAAAGATATAAGAGTTATAAAATATATTTTTATTTCAAAAAATTTAGCAGAAATTCATTTGACTGGATCTTATGACTCTTCCATTAGGAAAATTTTTATGGAACGAATGAGTATAGTAAAGAATTTATCAGTTAAAGACGGTTTTGAGAATTATATTATATATATAGTAAACGGAGATCGGGATTTGATAAGGGAACTATATGAAGATTTAAAACATGTAGCTAAAATAAAAAGTTTCATCATAGAAGAATATGCAAAAGATAGTAACTATGTATTTTCAAGTCCCTTATTATCAAAAAGAGAAAAAACGATATTATTAGAAGCTTATAAGGAAGGATATTTCAATTATCCTAGAAATATTACACTTGAAAAATTATCCAATAGGCTAGGTATATCTAAAGCCGTAACGAATTATTATCTTAGAAATGGTATAAGGAAAATCATAAGAAATTATCTTATTCAAGATCAGGAATATTGTTAATATTTCCTAATCTAACTTATATAAGGATATTTCGCCTTCTTTCTTAATCTTAACATTATTTCCAAAGTATTTAATTAATGCTTCAGATGTTATAAAGGCTTGAGGATATATCTGTTTAACATTGAAAGCCTTTAATAATCTCTCTGTAAACTCTCCTAATGAGAGAAAATCTGATGAGAGAAGATCATACGCACTAGAAATAAGTTTAACTACAGTCTCGATTGATGCATTTAGGAACCTATCTACTTCTGAGCCTTCTATTATTCTTTTATTAGATGGCAGATAATTATGCCCAGGAATTATTATTTCAGGATTCATTTTAATAACTTTTTGAAGAGTTACTAAATATTTTTTAATATCAGATATTTGTGGAATAGCGTTAGTTTTGGAAGATCCTATTATGCCTTCACCTTGAATGCCATCACTTGTAAATAATATATTCCTAATACGAAATAGCAGAGTACCAGCTACGTGACCTTCTCCTTCAACAACTTCAACAATGTCGTGTATATCATCAAAATTTGTACTATGAATTTTAGGATATCCTAGTTCAGTTCTAATATATCTATAATATTCTTTGGTATACTTAGTACTTAAGAACTTTGCATATTTATGTGGAAAAAAGCTATATATAGACGTATATGTTGAAGAGAGAAGGCTTTTAGTTATAGGATGAGATCTTATCTCTACACCGAGATTAGCTAGCTTCCCACTACCACCTGCATGATCATAGTGACTGTGAGAGACTAATGCGATTTTAGGTAACCTAATACCTTGTACTAGTTCTTCGATTTCTGAAGTATATGAAGTATCTAGAAGAATGGGTATTCTTTTATCTATATATAACAAGTTTAAATCTACGTCTTGTAGATATGTAGCTAATAATAATATATCTTTATCTATCTCTTTAATTTCGAAGTTCATATTTTATTTCACTCCGTTCTTGATTTCTGAACTTCTTTCTGAGACTCTAAGAAATCTAGAGATTTGCCTTTAATTTCTAGACCGAGTAATGCTAAGCCTATCGCAAATACTGCATATCCTATCATCTGCGATATAAATATAGGAGCCCAATTATGAACACTAACTAATCCTCCGAAAATATATGCACTCAATGAGTAAAATACTCCATAAGTTATAGCCCATACTAAACCTACTGCAGTATGTCTAATTCTAGTAGGATACACAGCTGGTAAATACGCTGGCATGAATCCCCATGCAGTCTGGAAAAAGAACGCTACTATAAATAATATGGTAAAATCTAGGTATACTGAAATATTAATTGGAATAAACCACATTAATAATACTGCAGGAATAAGTCCTAATGGAATTAAAACTGCTTTTCTAGCACCTATTTTATCCATTATAAAACCCTCAACTAGATTGGCTACAAATTGTCCTATGGCGAAACCAATAAAAGCGAAAGTTATGGCTGATGCCGAAATTGATACACCAGTAATTCCTCCTTGATAATACCATGAAGGATAATAGAAATCTTTTGGTGACGTAGCAAACATCATAAAAGCAAACGTTACTAGTATAAGTACGGTTGGGAATAAATATTGTCTCTTAAACATTTCAGATATTGCCTGCCTATTAGAAGCTTTTTCTGCTAGCTCTTTTTGAAACTCATTTTTTATTGTACTAGCAACTTTCTGCCAGTATGGAGACTCTCTAATACCAACTCTAATACCAAAAATTATCAGTGCGAATAATGCAGATCCTATATAGGCCCATCTCCAGCCTAAGGCTGTCGCGCTAGCAAAAGTTCCACTAAATACTGCTGCTAACGCATATCCTAATGAGATCCCTCCCTGAGATATAGAAAGAAATGTACTTCTAATGTTATTTGGAATACTTTCAGCTAGTATAACCCATCCTGCAGTCATTTCTCCTCCAGTAAATATACCAGCTAAAAATCTTATGCTAGAATACATTGCCCAATTTATTGAAGTTGCACTTAATCCAGTCATTATCATAGTACCTAAAATGGTCATCATAAAGGTTAGTTTTCTTCCCCATAATCTATCATTTATTAGCCCAAAAATGAAAGCTCCTATTCCATCGCCTATTCCAAAAAGTAATGATGGTTCTGATAATGATGAAACACGAAATGTTGAATAGAGCTGTGGAGCTAAGAAACCAGTCAGAGTTACATCTAAACCTACAGCTGCCCAACCTCCAAAAACAGCTATTAATAATATTATACTGTAAAATTTATCATTATACGACATATGTATTCCCAGATAGAATTTATCAAATGTTATTTATAATGTTTGATTAATACATGTATAAAGCGTAAGAGATTAGTATATATAATATTAAAATATACAGAATATTGCAATTATTACAATATATATTATTATTTTAAAATGAGTCTAACTCCTTCTCTTTACTTATATGTTATATACAATCAATATAAGTCCCAAAAGTACAAAATGTACTATGGAACTTAAAATAAGCGATATAAAAGTTATCACAGTTCAAGCTAATTTTCAATGGACATTCGTTAGAATTTATTCTAAGGACATTTATGGAACTGGTGAAGCAGGCCCAGCTCCAGGGCTTAAAGGAATGGAATCAGATTTTAAAAAGTTACTTTTAGGAGAAGACGCTTTTAAGATAAAAAGAATAGAAGATAAGATGCGATATGCAACATTATATTCAGGAACAACTACTCATCATCTAATAGCAGGTATTATAAATGCTATTTATGACCTTATAGGTAAATATCTTAATATTCCAGTATATAAGCTTCTAGGCGGAGATAGAGATGTAATTAGACTTTACGTAGATGCACATGGAGGGAAAGGATTAGAGGCAATGAATTCAGTTTTGCTTCCAGAAAATCCAGAATTCTTAAAAAACGCAAACGTAGAAAAGAATAGACTACAGAGTACAAATAATCCAATACACGGAAGATTATCTCAGGAAAAATGGAATGAAGATTATACGCCAGAATCTTATTCTCAGAGAGCTAAGCAGTTAATAGTTGAAGGATATACGGCAATAAAGTTCGACTTAGATATTCCTACACCTTTTTCTAACGAATATAATATAAGATCTGGCGACCTTAATAATAAGGATATAGACTATATAGCTAGTATAATGAAATCAGTAAGAGAAACAGTAGGAGATGACATAGACCTTATGGTAGATCTTCACTGGAGATATAATATTAATACTGCAATTAGACTATGTAAGGCATTAGAGCCATTAAGACTAAGATGGATCGAAGATCCTACTCCTGCGCAAACATCCATAAGTAATCTAGAGGAGTTTAGGCTTATTACATCATATTGTAGCACACCTATAGAAACCGGAGAAAACATGTATAGTGTATATCAATTTAAGGATTTAATTAAGGAAGGTATAAGAGTTTGGGCACCAGATATAGCAAAAACTGGTATCAAGGAGGGCATAAAAATAGCCGAATTAGCTGAAATGTATGATATAGAGTTTTCTCCACATAATATAGGATCTCCAATAGCAACGTTAGCTAATGCTCATGTATGTTCAGCATCAGGAACTTTTGGAGTACTAGAGTTTCATGGACATGATCTTCCTATATGGCAACAACTTATAAAAGGAAATTTAAAGATGGAAAAAGGTTTCATAATCTTAAGTGATAAACCTGGACTTGGCATTGATTTGGATGAGAATGTAATCAAAAAGTATTGGAATATTGAATTATAATATTATATTTCTATTAAATTATGTCTTTTATTTGTAAATTTTCTATTATGGAAATTAATATAACTATATTTCTCATGTATTAATAGCATTTCTTTTAATATAATTCGACTTATTCTAACATCTGTTGTGGCCAAAATATTAGAACGAATTACATATTTTATGGAATTGACAAAAATACTTTTCATCGCTCTTCGTTTTAAATTTTCTATAATTCAGTTATTTGATTAGCCATTTTTTGTTTTATTTATATTTTTCTAGATTTAATTTAAGTTTAATAGTCAGTGATGCTCGAGAGAGTGTCCCAAGTGCAAATAATTGAATAAATCTATGTAAAGGTTTATAGATAATAATTCAAAAGATATTGTGAATTACTGAGAAATTTTGAATTTTCGCTTGAAGCAAAAAGTCGCGTAATACTTAAAGGGAACCGGGACGATGTAGTACCGATTCACATGAAGCATTGGATAGAACACTACAACGGCCCGGTCCCCTATGAACATTTATCAGCAAGGCATAAAACACTTGTGAAAATGAACTACATGCTGATCACGTCTGAAGTGCTGTCGCGTCTCTCTGACCTCTTCATATTGAGAGCGTTAATAGTTATGATTGTGTGGACGTGCTCCTACAGGGACGTGCGAAGCTACTACGAGTCAGACGTGGTGGTAAGGTGGTTCCTAGGCGAGTACAAGTCTAAGTCGGAGATCCATAGGAGGGCAAAGAAATTTAGGGGAGAGGTAAAGACTCTGTTCAAGGAGTACGCCAAGGAGTTGGAGGGGAAGATGAGTAGACTTGCTGACTACTTACCTAGCAGTGCGTTATACGGAAAGGTTGGAAAGCTGTGGATCGTGGATTCCTTCCTAATCGAGGTACCCTTCGGGAAGAGGAACAAGGAAACATTGAAGAAGAAGTTTGAGCTAGACCTAAGGCAGAGGAAGTACAGGGAGGCGGCTAACACGCTCTTCTTTTACATTAAGTGCAAAGTGAGGAGGAGGTTCAAGGGAGAGTTTACAAAGAAGAGGAACAGGAGTTCGGCTTCAAGGTCTTCAACCTCATGTCGCCTACAATGATAGTTCACGAGATTCAAGTGGAACTGGGCCAATTTTCCGGACAATAAGGTTGGCTTCTCTCGCAGCGGTTATAAGGTAGTGGATAGGGGCTTCGTGGGGAAGTCCTCGACCTGGTTGATAGGTTTCTCTAGTTTCAGGAGTGGAGTTCTTTGGGATCTTCTTGAGGAGGTATTGGAGGCCTTACGCTACTGAAAAGGGTATGGTCGAGTTCTTTGTCTACGTTATCGCGTTGATTTACAACTCCTACATCTACACTTCTGTGTTATCGCGTGTTCCGGAGAGTCAACTCGCCCACTAACTTGTACCGCGAGAGTTGATCAAGGTAGTGTGGACTATGTTGGAAATTCTGTTTTTCTCTATACTTGATTATTTTCCATTACAATATAAGCTTAATCTCTCGTTATACTGAAAGATATAATTATATTTTATTCTTAATTAATTATAAAATTGTTTTTCTATCATACTATATTTATTCAATTATTTGCGCTTGGGACACTCTCTTAAGAGGTTCTATGGTGATAAGGCTTACGATACTAACGAGATTTATAATCTTGGTGTTGATGTTGTTGTTCCTCCTAGGAAGAACGCTTCTACTAGGCGTGGTCATTCCTGCTAGGAGAAGGAATGTTCGTGAGTTCTTGAGATTGGGTTATGAACGTTGGCGGGATGAGAAGGGTTAGTTAAGGTGGTTGGTTGAATCCTTGTTCTCAGCGGTTAAGCGTACTTTTGGTGAGTCTGTTAGGGCTACGAGTTTTGCTGGTCAAGTTGTTGAGGCTAAGCTAGTTTGGCTTATGCTTGGATGATGTACATGGCCAACCTTGTTGTTGGTCGAGCTAAGGGCTTTGAGGTCAAGGAGTAGTATAGTAAATTATTTAGGAGAGATATTATTTTCTATAGAAAACATATTTTTACTGTATCATCCTATTGAAATATATTGAACTAACCCACAAAGCACATTCTTAAGACTCATTCTAGTATTTTCTACATTGCTTAAAAAATTTTTACATTTTTCTGGAATCTTCTTGACAAATATATGATAATGAACATGAGCATCAATAACTTTTATCATAAATAGAAAAATGTTAAAACAGAATATAAGATTTATTACTTAGAACGCTATGCTCGTTATTTAAATATTATTTCATAAAATATTCTAAATAGAATAATATATTTAATTATATTAATAATTATTTTTTTAGTAATTTTTTAAGATAATTTTTATAATATATAAAGTTTTAATTTAATATATTAAATCGAACTATATATGCACTACAAAAAGACTCGAAACCACGTTAAAGTAGCAATAGAATATTATAGGTAAGGTATTACTAACCTTTGTCTATTTCTAGTAATCCCACAAAAGTTCTTATTCATTAAAGAGATCTAAAAATTAGATATGAACAATAAAAGATTATTAGAAATGCTAACGTTGTAAGCTAGAAGTACATATACGATAGAGAGTTATAATTTCTACTATATGTAACACTTGACGAACTTCTAGGTTTATATAAGACTAGTTAAGGACATTAGGTTAATAGAAACTGGAGAATGGTTGATTATAGTCTTGTCGAACTATATGCACCCTTAAATCTTTTAAATGGAAAACTCCAATAAATGAGATTTACTTAAGAAGAATACAGTATATTAGAGATAATCTGATATAATTTTACTAATATGTATAAAATAGGACACTCGTACGATAACATCTGTTAGTTTAAATTAATGTAATAGTTTCATCTACTGTGTAATAGATATCTGTAAGTAAAAAATATCTCAAATTAATATAAAATTATCATTTTAATATAAGATTTTTAAACTATTGTTGAATATGATGATAAAATGTTATCTATAGATGAGTTGGATCTTAAAATATTAAAGCGGATTCAGAAAGATGGAAGATATAATTTACAAGATCTCAGTAATGAATTTAGGATTCCTAAATCTACCATACTATATAGAATAAGGAGAATGGAAAAAGATGGTATAATAACTGGTTATTATACTGGAATAAATGTAAGAAAATTAGGATATGATTATTTGGTAATAACACTTATTAAATCCAAATATGGGAAAGAACATTATGATAACGTAGCAAAAGAGCTATCTAAGCTACCTGGAGTTTGGGGAGTGTACTTTGTTCTTGGTAACATTGATTTTATAGTTATGGCCAGATTTAAGAATAGAGAAGATTTTATGACAAATTATTTAAATAAAATAACAACAATTAAAGGTATTCAGAGTTCTAATACTCATATAATTCTCGATATTGCAAAAGATAATTTTTATGAAATATTTTAAAAAAATTAAATTTTTATTTGATTAGAAAGTTTTATAGTCTCTTCAAATTTTTCCAATCCTCTATCTATTAATAGCTTAGGGATTGTTAATGGCGCCATATATCTTAGCACATTATCATATATCCCAGATTTGTACATAATTATTCCTTTTTTCAAAAGAATATCTATAAAGGGTTTAACACTTATTGGATCTTTGCGTTCATTTGAGAATTCTATTCCTATCATAAAACCTAATCCTCTCACATCATACTTTCCTTGCTTATAGTTGTCTTCCATGATTTCATCAAATCTTTTCTTAGTAAAATCACCTAACGTTATTACTCTCTCTAAAAGATTAGAATTCATTATGTAATTTAATGTAGCATTTCCTACTGCCATTCCTATCGGGTTTCCTCTGTAAGTACCTAAATGAAAGGCTTGTGGTAGTTTATCAAGGTCCTTATTAAATGCAACTAACGAAATTGGGATTCCTTCTCCGATACCCTTGGAAATTGTAACTATATCTGGCTTTATTCCTTCCCATTCATATGCCCAAATTTTACCAGTTCTTCCTACTCCAGTCTGTATTTCGTCGATTATTAGTGGGACATTATATTCAGTAGTTATCTCTCTTAATCCCTTTAAGAACCCCTTTGGAGGGACTATGTAGCCACCTTCTCCTGCTACTGGTTCAACTATAATTCCTGCCACATCGTTATTCTTCATTTCATAATCTACTAATGAGAGAACTTCATTTAAACAGTCTTTAAATGGACATCTGTATTCATAGGGATATGGAAGTCTTATTACGTTATTATCGTAATATGGTTGAAACTTTCTATGATTGAGCATATTACTTAGTCCTATAGTTGCTGCTGAAACTCCATGGTATGCTTCATTAAATGCTATGATATATCTTTTACCACTATTCCATCTTGCTATCTTTACTGCAGCTTCTACAGCGTCTGCCCCTGTAGTAGTGAATAAGAATTTAGCGTCGAAATTTAGCGTTCTCCTTAATGTTTTCATAAATTCTATCCTTATTTCAGTAGGAATTTCCATGTAATGCCATATTTTATCTAATTGCGAATCTACTGCTTGTCTTATTATGGGATTATTATGGCCTAAATTAACTACTGCTATTCCAGCAAACCAATCAATATAGACATTATTATCTACATCGACTATTGTAGATCCTTTAGCCTCCTTTACCGCTATACTGAAATACTTGGGATAATTTAAAGCAGATGTTTCCAGTTCCTCTTGTTGTTTTAATATTTCTGCTGATCTGGGTCCTGGGGGAGTAACTACTATTTTAGGGGCATCTAAAATGCTATTATCTAGTATCTCTTCCATGGACTATCTATTTATTTGCATGGAATAAAAGTATTATATAGATATATTTGTATGTTGTTCAAGTAATATTTATTGCGAATAAAAGTCTCTTTTTATCCTCTTATAGTATTATATGTCTATAGTATTTGTACATTGATCATTAGTACGTAGTAAAAATTTTTATGTCATATAAATAAGATATCGACTTATATGAGTGAGGAAAATAAGAAAATGGAAGAACATACTCTAAAAAAGGGAGAAGTAGGATTATGGCATGGAGTCTTTCAATCATTTTCGTTTGTAGCACCTGCTGGTGACGTAGCTATACTATTAGTAGGAACAGTAGCATTTGCTGGTGAATATACTGCTATTTCTGTATTATTAGCATGGCTAATCTATGGTCTTTTCATGATAACACCTTATGAATTCTCAAAGATAAAAGCTAATGCTGGGAGTTATTATGCATATTCTGCAGAGGGAGCTAAGTGGTTGGCTCCCATAGCATTATTTTCATGGATGGGAGAAAATTTGACTGGACCCGCATTTAGTCTGTTGGGATTATCTGGTTTCATTTTCCTACTATCTTCGACATTGAGTTCAATACCATTTCTATGGATAGTATTCTTGATAATAGTAGGCATATATATGGGATTATTGCCTTATCTAGGAATAAAACCTTCATTAAATTATGTTATGTATACAGGATTTGCTGAAGCATTATTTTTAATGTTATCGTCTATTATAATTATTATAAAACTAGGATCTTCCAATACTATAATACCTTTTACTATTTCTATACCATATATTCCAGCAATATTTTTTGGTGCCATATTTTCAATCTTAGATTTTACCGGTTTAGGTACTGTTACAACTATTTCTGAAGAGATAAAAGAATCTAAAAAAGTCGTTAAAAAAGCCCTAATATATGCATATGTGCTCTCGGGTATTTCATTAATATTGCCTGCATATGCTCTGACAGTAGGCTGGGGCCTTAGTAAAATTTCTAGTTACGCTATATCTCCAGACCCTGGATTAATAGTTTTCAAACAATTTCTAGGAATAGTAGGATTCGCACTCTTAGCTGCTTTCACTATTAATAGTTACTTATCATACAGTGTAGCAAAGACTAATGCAGATAGTAGAATATGGTTTTCTGCAGCTAGAGATGGAATAATACTACCTAAATGGATAGCTTATGTTCATCCTAAATATAAAACTCCGTCTCACGCTATAATATTCTGGTTAGGTTTGTCCGTAATAGTTAGTTTAATTTTCGGAATATTGTTTGGACCAGTTAACGGTGGTCTAGTTTTATTAGACATGGCTGGTGTAGCAATACTTTCAGTCCATATAGTTACTAATTCGGCGTTATCGATATATAAGAGGAGATCATCTCATCATTATTCCATTATCGAGATAGCTAAGTATTTTTTAGCTCCTTCTATGGCAAGTATTCTTGGAATAACAATTATATACTTTAGTTTACAATCAACTATAGCACAAGTAATATCTCAACCTACGCCTCTAAATTTTGCATACTTTGGAGCTACATTAGGAGGTGTATTGTGGTGCCTGGTAGGGTTTATAATTTCATTTTATTATATTAGGAAAAAACCAGATATTTTAGCAAAAGCAGGTAATTATGACGCTGAGGGAGAATTAAAATGAGTGAGTTAATAAAAATTTCTTCTAATTTAGTAGCAGGAATAGGTTCATTACATAAAATAGCACAATATCTGGACGATCTTAAATACCCTAGGTCTATATTAATTCTAACAGGCGAAAATACATATAAAATAGCAGGAAAGATAGTCTATGATAATTTAAATTCAAACGGATATGATGTGAATATAAAAATACTAGATATGAAGGGATATTTATCGCAAGTAAAGCAATTAGCCTTAGATCTTAGGAATTTTTCTAAGTCGGTCTTAGTTGCAGTTGGAGGAGGAAGTATAGCAGATATTGCAAAATATGTATCAAACGAGATAAACTCGTTATTAGTAATAATACCTACTACATTATCAAGTGATGCATTTTCTACTAGTTATAGTATATTTTGGAATAATAATGAAAAACAAGCTATAAAAACAAAATCTCCAAATTTGATAGTAGGAGATTATGATATACTTAAGAATCAACCTAAAAGATTTTTAGGTGCTGGCATAGGTGACATGCTTTCTAAGCTAACAGCAATACCAGATTGGAGATTAGCATTTTGGTTTGCTGAAGAACAGTATAATGATTTTGCAGCTAAAATAGCTATGGCAGAAACTAAATTACTTATAAGAAGGATAGATGATATAGCAAAGGCTAATTACATTGGAATAAAGACTTTATTTCATGCTGAGGTACTAGATGGATATCTTATGGAAATTTCTGGTACAACTAGAGTAGCTGCAGGTGCGGAACATTTGATTAGTTTTGTATTAGAAAATATGTCAGATAATGGTCTTCATGGAGAATATTGCGGAATAGGTACTATATTAATAAGCTATTTACAGCGTGGTTATAATTATAGTAAAAAAATAACTAAATTGTTAGAAAAAGTTAACGCACCTACTACCGCTAACCAACTAGATCTTACTAAATCACAACTAATTAAAGCACTTACTACTGCACATAAGATGAGAAATTGGTATACTATACTAGGTAATGGTTTAAGTGAAAATTCTGCAGAAAGATTACTAAGATATACTCATATAATTTAAATTACGTTAAAAATCTATTTTAGTTTTATATAGTAAACTAGGAGATATTAACAAGTCTGCATTATTTTGAATAATTTTAATACTGCTTTGTAGAGGAGAATATAATAGATTATCAAGTAAAGGGTCTATCCATATTAACAGGTTGCTCTTTCTTCTTATAATTTTCATTTCTCTCTCTAAAAGTCGCAAATCACCTAAATCCCATCCATCACTGAAGACGATGAGATTAACTTTCCTATTAATAAAATCACCATGTTTTCTTCTAAACGTATATAATGTCTCCCCTATTTTAGTTCCGCTACCGTATGACGTAATGGAAACTAATTTTCTTAGGTTTATACTATTAATACTAGTTACTTGAAATAAGTTAGTTACTCTCCTTAAGTCTGTGCTAAAGTAAAAAATCTCGGTTTTTGGGATTATCCTCTTAGTAAAGAAAGACAGTAATAAGCTATCTTTAAAAAAATCTTTCATGGAACCAGATACGTCACACAGTAAGACTATATTTGATTTATTAATTTTTTTAATTGATTTTATAAGATATGGCGATTCGCATGCATAACGTGGCTCATTTTTAATTATTCTCTTAATGTCTAAATTACCATTATTTTTAGGTTTACTTCTATGGCCTGCGGCGCTAAGTGCAATTAATTTTATTCTATTAGCTATTTTCTTCCATCTAATCTGATCTCTCATACTAATCTTCAAGTTATCCATTTTAATTCTAGACTCTTCTGGACTGTAAATAAGAAGATTGGACGATATATATTGGTTCTGGGTTATTTTACCTGTAACACTGTATTTATTCTCATTTTTGCTAATAGTTCTATGTAGAGAATTATCATAAGAAAAATCTTTTATTAATGTAGTCTCAAGTATAGCTTTTATAGTATTAAAGTCTCTTTCCTTTATAATTTTTATTGAATTTATAGCATCTATGGTCTCATTAATGCCTACATTTTTACCTAATCTCCTTAAAATATTTACGAACTTAATTATTATCTCTTCTTCCATTTTTATTACCTAAAAAATGTTTTATATCCTCCTCATCCTTTAGAAGCGTTATTATAAGGCTTTCTAGATCGTCTAATGAATTGACATTCAAAACATTTAATGCGGAAATAAAATCTATAGTCTCTGCTGTACCAGGCTTGTGTACTATTTCCTCATCTTGTCTTAATTCATTTACTATTTTAATGGCTTTCTTTGCGACTTCGTCATTAACATCCTTTACCTTTCTTTTTACTATTTCTAATTCCTTTTCCTCGTTAGGGTAGGATAAGTTTAAATATAAACATCGTCTTTTAATGGCGTCAGAAAGATCTCTAGTTTTATTAGATGTTATAAATACAAATGGCCTATTCTTAGCCCTTATTGTACCTAGCTCTGGAATTGTAACTTGAAACTCCCCTAGAAATTCTAATAGAAATCCTTCAAATTCTGGATCAGCTCTATCTATTTCATCTATTAGAAGTACTGCTTTTGTGTCAGACTTTATAGCCTTTAGTAATGGTCTTTCTATTAAAAACTCATCACTATATATCCTTTCTCTTATTTCTTTTTCATTAGTTTGCTGTAAAATTCTAATTTCCAATAATTGCCTAGGATAATCCCACTCATAGACGGCATGAGAGTAATCTAACCCTTCGTAGCATTGTAATCTTATTAAATCTAGATTTAGTGCGTTGGCAACGGCTTTGGCTAATTCAGTCTTACCACATCCTGGAGGACCCTCAATTAATAATGGTTTTTCTAATTTTAGTGAAAGAAAAACAGCTATGGCTGACTTTTTATCTATTATGTAATCTTTTTCTGCTAATAACTTAATTAATGTATCTATATTATCTATCATTTTATTCACATAAAAAATATTTAAGATTATTCGTTTGATGATACCCCTTTATCTTTAAGAATTTCCCAGACCTTCCATGGTAGTATAGGCATTTCCACATGTTTAACGCCTAAATGTGATAATGCGTCAACAGTAGCGTTTACAAAAGCTGCAGGAGATCCTACAGTAGCAGATTCTCCAACGCCTTTAGCGCCTAATGGATGATGAGGTGACGGAGTTACAGTTTTATCCAATTCCCATCTCGGAGTTTCTACTGCAGTAGGTATTAAATATTCAGCAAAACTTCCACCGTAAATATTTCCGTTTTCATCGTATCGTATTTCTTCCATAAAAGAAGTACCAAATCCCATAGTTAATGCACCCATGATTTGACCATCTACTATAACTGGATTTATAATGTTTCCACAATCATCTACAGCTACAAATCTTCTTACCTTAACTTGTCCAGTACCCTTATCTATATCTACTACACATATGTATGCCCCGAATGGAAATGTCATATTTGGAGGATTATAATATGTTATAGCTTCCAATCCTGCCTCCATATTTGGAGGAGGATTAGTATATGCAGCGAATGCAACTTCTTGAATTGACTTAAATTTATCTGGATATCCTCTAACATAAAATCTTCCTTTATCGAATTCTATATCTTCTTCTCTCGCTTCAAGCAAATGTGCCGCAATTTTTTTAGCTTTATCCAAGATCTTTCTAGAGGATACTGCAGCCGCTGCACCTGCAGTTGGAGTACTACGACTGGCATATGTACCTAAGCCATATGGACATGTATCAGTGTCGCCTTCTTCGACTATTATGTCTTCTACAGGGATTCCTAAAATCTCTGATATTATCTGAGCATAAGTAGTTTCATGACCTTGTCCTTGTGCTCTAGTTCCGAATCTTGCTATTACCTTACCAGTGGGATGTATTCTAATTTCTGCACTATCAAACATTTTAATTCCTACTATATCAAATAAATCTGCAGGCCCAGCTCCCACAATCTCAACGAAAGTGCTTATACCTATTCCCATAAGTTCTCCCTTTTTCCTTTTTTCTTCTTGCTCCTTTCTTAGCTCATAATATCCTATCTTTTCCATAGCCTTTTTCAGGGCGGCAGCGTAATTTCCACTATCATAGGTCCAACCTAAGACAGACTTATATGGGAATTTTTCAGGAGGGATAAAATTCTTTAGTCTTAATTCTGCTGGATCCATATGTAACTCATGAGCTAATATATCTACTAATCTTTCTATCGTATATACAGCTTCGGTAACCCTGAACGAACATCTATACGCTATTCCACCTGCAGGCTTGTTTGTATATGCACCAGTTACTTCTACATATGCAGCTTTTATATCATAAGCTCCAGTGCAAATGCTAAATAATCCTGCAGGAAACTTACTGGGATTCGCATCCCCATAGAATGCTCCATGATCACTTATAACATTAATTCGCAATCCTAAGATAGTCCCATCTTTCTTTGCAGCTAATTCACCATGAATATGAAAATCTCGAGCAAAAGCTGTACTTTTCATATCTTCTGACCTAGTATTTATCCATTTAATGGGTCTACCTAACTTTATTGCAGCATATGTAGATACTACATACCCCGGATAAACGTAAACCTTACCTCCGAATCCTCCCCCTATATCTGGCGAAACTATTCTTATTTTGTTTTCGGGTATTTTAGTTACCAATGAGAATACGGTTCTAACTACATGTGGAGCTTGAGTAGTCATCCATAATGTTAACTTTCCAGAAACGGGTTCATATTGAGCTACAGAACCTACTGGTTCCATATATGCCACATGTAAGCGCTGATAATAGAAATCTTGACTTACCGTAACTTCAGCTTCTTTAAATATCTTGTCTGTAAGATCGCGATCTCCAGCTTCCCATTTGAATACTAAGTTGGAATTTTTATCTGGCCTTACTAACGGAGAATTTGCCTCTAAAGCTTTCCTTGGATCTACTACTGGTTCTAAAGGCTCATACTCTATTTCTACTTGATTTGCTGCATCTGTAGCAATGTATTTATCTTCTGCTATTACAGCTACTACTTCTTGACCTTGAAATACTACTTTATCAATAGGTAATACCATCATCTTATCTCCCATTAATGTAGGTATCCATGAGAGTCCTGCCTTATCTAATTCTTCACCAGTTATTATATCAATAACTCCTGGTATCGATTTAGCTTTCTCCAAGTTTATTTTCTTTATTTTTGCATGAGCATATGGACTTCTAACGAAAACTAAATATGCCATTCCAGGTAATTTTATATCATCTACATACATTCCCTTGCCTTGCAAAAATCTAGTATCTTCCTTGCGTCTAATCTTATGTCCCATCCCATGTATTCCTTCAGGAATTAGGGTTTCTTCAATAGCCATTTAAATTTCACCCTTCATTTTTTCTGAAGCGTATTTTATTGCCTCTACTATATTCTGATATCCTGTACACCTGCAAAGATTTCCAGAAATTCCTATCCTTATCTCCTCTTCTGAAGGATTAGGATTCTTTTTAAGTAATTGATAAGCAGCCATTATCATTCCAGGAGTACAATAACCGCATTGTAGCCCATGCTTTACCCAGAAACCTTCTTGTATTGGATGTAGCTTGCCATCTTTAGCTAAACCTTCTATAGTAATAACATCTTTTCCATTTGCTTGTACTGCAAACATAGTACACGATTTGACTGCTTTACCATTTAGTATTACCGTACAAGCACCACAGTTTGTAGTATCACAGCCTATATGAGTACCAGTTAAACCTGCTATATCTCTTATAAAGTGCACTAACAATAATCTAGGTTCTATTTCGGCTTCGTATGGCTTTTCGTTAATATTTATTTTTACATGTACTTTTTGCATTTATCTCATCCAATTATATTTTTTAAACTTTGTTTAATTGCCCTAATGGTTAACACTCCTGCCATTGCTTTTTTATAATCTACTGGTGGACCAAAAGGTTCTTCCACTGGCTCAATAACGTCACTTACTATTTTTCCAACTTCTCTAATCAACTCATCGTTTATCTTGCTTCCTACTAATGCTTCTTCTGCCTTAACTATCTTTACTGGGTTATTAGTTGCTCCTCCTATGGCAATTCCTGCTTCCTTAACTGTACCATCATAATTTAAAGATAGATTAACTGCAGTTGAGACTATTGCAAAATCACCTGTTCTCTTAGCTAGTTTAATGAAATATCCACTATTTTTTGGTTGCGGAATAGGTATCTGAATTTCAGTTAGTATTTCATCTTCTTTTAGAGATGTTTGAAGGGGACCCAAGAAGAAGTCTTTAGCGCTAATAGTTCTACTTCCAGATAAATTTCTAACTATAAATCTAGCATTATAGGCTAACATTACTGCAGGTAAGTTATTACCAGGAAAATTATAGCATATGTTTCCTCCAATAGTGCCCCAATTTCTAACTATGGGATCTGCTATATTTTTAACTGCTTCATAAAGTAGTGGATACTTAGTTTTAATTAGATCTGAGTCTTCCAAATCTACGTATCTAGTTAACGCGCCAATTTTTAGATATCCGTCTGATTCATTAATAAATGATAAACTCGGAATATTATTTATATCTATAACATATTTTGGTGATATAATTCTTAATTTCATTGCAATTATTAAACTCTGTCCTCCAGCCAGAATCTTAGCTCCGTCCTTATAATATTTAGATAAGAGCTCTAATACTTCATCCATATTTAATGGAGAAAAATATTCAAAAGATGCAGGATACATAATAGTCATTTATAATTTACTAATTAAGGTAAAAAAGATAATTATGTTTTATTATACATATTTCATTATTTGATATATATTTGTGGATTAGCTTCAAATTTATCTTTACAGAATTTACTACAGAAGTAATAAGTTTTTTCACCAACAGTAGAATAATAAGGAACAGATTTAGAAACTGTCATTCCACATACTACATCAATCTCCCCTTCCTCTACTTTCTCGATCTTATTTTCTTTTGAAATTTTAGTAATCTCTGATAAAATACTTAATGCAATCTCCTCTGGAGATTTGGCATTTATATCTAATCCAGCTGGAACTTTTATTCTGTCTAATATATCGTCTTTGTAGCCCTTATTATGTAAAAACGATATTAGATCTTCTCCTCTCTTCTTTCCAGCAATAACTCCTATATATCTTATGTTAGTGTTTAACAGTGCCTCAATATACTCGTGATCTTGCTCTCCCATGGTAGCTACAACAGCGAATGTATTTCTATTTATTTTTATTTTATCTATATCTATTATCTTATTAATAACTATTATATTAAATCCTATATTCTGTCCTAAATTTTCAAGATAGTATATTATCGGATTATCTCCAATTAAAATTAGCTTCTTCCTTGGTAACATAGGATCAATATATAGGTAAAGCAAACCACCATGACAGGTTTTTAAATACAAAAATCTCGGTACTCCGTCTCTTATAACCTCTAAAGAATTATTTATTATCTCATCTTTAGTACAGAATCCTCCTATCCAACCTTCAAACGAACCATCTTTTTTAACAATCAACTTATTACCAGTTTTTAGGGCAGTGGGTCCCTCAGTTTTAATTACCTCTACTATAGCAAAGTCTTCTTCATTTTCTAATAGTTCTTTGACTCTATCTATAAAATCGGAAACATGAACAAAATAAGTATATCTAACTTTGCTATCTGTCATTATAAAATAGTTCTATTATATTATATTTAAACTTAGTGAGAATATTTAGCGAGAGAACTGAATCCCTTTACATGTTAACAGAAACGTTTTATATTTATCTATGCTCAATTTTTATTAATAAAAGATGACCCTCACAGTGATATAGGCTATGCCCAAAAGGATGAAAGTGATAGTAAGAATGTGAATCCCTGTACCATTGGGCTAGACTGAGTCTCATTATCTACGTACAAGACAGTTGAGGGTTAAGTCCTTACACTAGATCAAGATTGAATATAAAATGACTGAAATTAAGGTGTAGGGACAAACGGTAAGTATAAGAATAATGCAGTTTATGAATTGGAAAGTGTCATTATTAAGCTACAAATTTCGTTATTGTTTAGAAGACATATGGAAACATTATTTCAGCTGTTTCGTCAAATTATCTCGCGTGGAGATATAATCTTATATCTTTCAATGAGAGAAAGATATGGACTAAATTAAGAAATATAGTGAAATTCGTCATGTTTGAATAAAATTTAACAAACATAGCAAGAAAAACTCGAGATAACGTAGTAATTCTGAATTTATCTCACACATCTAAAAGAACGTTAGTGCTTTTATTAAGTTTTTGTCTTATCATTTCTTATTTTGCACTCTATTAAACGATAAAAATTTTCTGAAACTGCTGATCTATCTTAATGAGTTAATTCTTTTTATCTAAACTTATAAGCAGCTCGTTAATGAATATTAAGATATAAAGTTTTATCTTAAAAACCATGGCAATTATTTTTTGTTATAGAACGTCCCAGAAAATGCAATGTAAAATTGCTATTAAGTTTGCTACTAAATAAATTTAGGAATGTATAGCGTATAATGAATATTTTAAAAATTATCCGGCACATGAGTATAAGAAAACTATTAATAGTCTATTTTTGAATAAGGCAATAGTATGAGCAAATTCTTATTTGTAATCTTAAATGATCCAACTAATCTAGCTGAATCAATTAAAGCAGCCCACGCTCTTCATTATGCAGTAGAATTAAAAGAGAAAGGTCACGAAGTTTACGTTTATTTTGACGGATTAGGAACTAAAATACCTATAACCGATAGTCCGTACAAGGGTTTAAAGCTGACCTATGAGAAAGCTACAAATAAGGGTTTAATACTAGGAGCCTGCGGGTATTGTGCATCTCCCCCTCATCTTAACATTAAGGATAAATTGCCTAAAAGTATAAAGCTAATTGGAGATGAGGAACACCATTATGCTTTTACTGACCTAGTTGATATGGGATTTCAAATCATCATGTCATAAAATTTTGTCGACACTTTTAACTATTCTTTATATTAATTTAATTAATTTAAGTATTTTGTGAATTGGGTCATTAGCAAATCCAGTAAGTTAATAACTTGCTAGCACTATAATTCTACAGAAGAATTAGCTAAAAATTTTATGGAATTATTAATGTTATGTAATATTAATTTTAAATTTATATAAATATGGAATTGACTTATGATATTAAGAATCTAACTTTAGAAAACTGAAGTTATAGCTTAGCAGTTTCAGATAAATCATAAACTATATAATTTAAATGTTAATTTTGATAATCTGCATGCAAATGTGTTCCAATGAGCTTTTTGTATTGATTTTTTATTTCCAGATCTTTTAATGAACAAGAACTTTTATGGAATTTAGTATATACCGAGAAGTTACCGTAGTAGTTCCATGAAATTCATATTCTTTAACAAGGTGTAAAAATAAGGATAATATAAAACCTATATAGGAAATACTAGGGTTAGTAGTAAAGATAGGCCGTTTCACTATCTCTTAAGAACAAGTAATATGGTTATTAGTAAAGATATAAAGTGTACTAATTGAGCAACGATTCTAGTAAAGCCCAAGCCATAATCCTGATTCATAAAAGTGTCATTTAAGAATCTATTCTTTATTCCACTTCTCTTTTTCTAACGTTAGTGGTACATACTAGCAGAAGAAAACATTAATCTGTTCTTAATAACTACTCTCTTATATTTAACCTCAAACTTGGAATAAGTTATAATTATGAAAACGTAGAGTTCTTTATTATTCATGGCAATGTTCTTCCTCATGCTTAATAAATTTATAAGAAAGTCATAATAACTGTATATCCATTTTATCCGCTAAGTAGATCTAATATGATATAGAGTTTTTGTTACATAAGTTTATAGGTGTAGGATTTTCGTTCTAAGAAAGACTCAATTATCAATAAAGTCTATGATAAAAATAGCTATAGATGTTCATATTATAGGGAATGTAGATAGACTGAATAACTGAAAATAAATTTATTATAAATTATATTAACGGCTAATATTAGAAAATTTAGAATCAAAAGTTTATATTTATTCGTAATAAAATTTAACTTATGCCCATATGTCCATCATGTGAATATAGAGCGTCAGAATGGAAGAATATAGCCTCGCATATGTATCTTATGGCTAGGAATAGTGATCCTTCGCACGTTATGTGGATGAATAGGAATTTGACTATGAAAGAAGTTGACGTAGACAATCTTTCGATAATGTTAGAAAATTTCTTTTCAATTAAGGATAACTTAAGTTTCTGGATAAGGGAGAAGTTTATTCAGAAATTCTACGGCGAATCTCCTCATCCATTTATTTTGGCTATGCAAAATCCTACTAGAGGAGTCTTATTAGGATATGTCATAGAACACCAACATTTTCTCAAAAATTGGGTAAAAGTACTGTCCGAGATAATCTTTAAAACGGACGTGGAAGAGGTAATAAAATATGAATTAGAGAATATAAATGTTGAATATTTTGGATATAATGGAAGACCTTCTCATTACGAGTTATTAATAAGAATGGGAGAAAGCTTAGGAATGCCTAGAGAAAAAATCTTAAGTTATAAGCCTTTACCTTCTACTCAGTCTGCAATAAATACTTGGAGAAAGATTGCGTTTGAAAGCAATTGGGTTGAAATAATGGCAGCTATGCATAGTTTAGAACTAGTTGCAGATAAGACATTAAGGAAATATGGAGCTAAGATGCATTATTTCAACGAGACTATATTAAGTAGTAATGATTTTCCTAAAGAAGTTAAGGATTTCTTAAGAGAAGGTTATGAAGCAGACCAGACTCATGCGGGAGAAGCGCTAAAGCTTGTAGATAAATATGCTGAGGATCCTGAAAAAATTCAAGTTACTGTGTTAAGGTCTTTTGATGCTTTTGCAAAATATTTAACTGCAAGATTAGAAAGAGGTATGGAATTCGATAAAAATTTGATAAAGGTGGTTCTATGAAAATCCAGGTAAACGGGAGTAAGGCAGGAGATAAGGAAAATGGTTGTGCTTTATGCGGAGCAACTTGGGGAGATTATTATGAGGAGATCGATGGAGAGAAATTATTCTTTTGTTGTGATGTATGCGCTACAGAATTCAAGAATATGATTGAGGAAATAAAGAGAAGAACAGGATGGAAAAAGATCGACGAGTTATCAATAGAAGGTAATTACTATAAGGGAAGAAATTGTGTAGCTAAGACAGAGGGAAGAGAATACAAGTTCTACGTAAAATTTGGTGATGATGCTGAAATAGAGACCTTTAAGGAAATTGAATGAGCGTTATTAAATATTAAATAGAAATACTTTCAATTCAATAATACTTGCGGAACTGCTCAGTTTTTATCACAAAAATGAACTAATTTCAATTAGACATTTAATTCTGAATTTATCAAATTCTAAGAAGATCAAGGTCTATAAAAATTCAACAACTCCACAAAGCAATTTAATAATAAATCTATAAATGGAAGATTTAAGAGTTATAACTACATGATTTATAAACTTTATAAACGGTCTTATTTATTTATACTGTTAACTTAAGTAACTTGTGATAAGAGATGGAAGATTTAAGAATCATAACTGTACCTCTGAAAGAGGTAAAAGATAAAGGAACGGTAGTGGTAAATAAAAACGGAATTAATGTCCTAATAATTTACGATAAGGGAAATGTATACGCATGCGATATAAGATGTCCACATATGGGATATCCATTATCTAAAGGAACAATAAGAGATGGGATACTTATTTGCCATTGGCATCATGCTAGATTTAATTTAGAGGACGGTGGAACATTCGATTTATGGGCAGACGATCTCACGACTTATGAAACTAAGATAGTTAACGATAAAGTAATAGTAAATTTTAAGGAAAGAGACGTTAAAGCTCATGCAGTTAAAAGATTAAGAAAAGGAATAGATCATGATATAGATCTTGTTATAGCAAAATCTATTATAGACTTATTAAATAATGGAATTTCTTTAAATGACTTAGCTAAAGAAGTTTCTATTCACGTACTTAGAGATCATGAATGGAATAGCGGTCTAAATATTTTTACAATAATACTTAATTTGCTTAATTATGACCTTGAATTAGAATGGAAGATCTTGGGCCTTTTACATGGTATTAAAAACGTCTCTTCACAAATTTTCGAAAGGCCAAAAGTAATCTATCCAGAACCATTAGAAAATGCTGATAATTTAAAAAACTGGTTTAGAGATTTTATAGAAGGAAGGGAAGTTAATCCTGCTAGAAGAGCAATAATTAGCATGAGAAGCGAAGATGGACTTGACGCCATGGTAGCGTCAGTTACTGATCACTTTTTCTTAGACGAAGGACATATATTAGATCATTTAAATAAGGAAACTGAATTGTTAGATAAGATAGGATGGGATAATTCCAGGTTAATTTTTGCATCTTTAATTAGTCAATTGGCTAATGCTATGAGACATGAAGAAGATCCAAAATGGAGGATACCGGACGATCTTGTGAGTATAATAAACAGTGAAATAAGTAAAGCACAGGACATGAAAATAGGGAAAGAAAGGCTCGATCAAAAGGAGATGGATAATCTTGTAAATTGTTTATTGCAAGACGATCCAAAGAAACCCTTTGAATGTGTAACTCAAGCTATCGCCTCTAACGTTTCCCCTAAATATTTATCCTTAGCCTTGGGTTTAGCTTCCGCATATAGAGAAGCTAGATTTCATACTCAAAATGATTTCTCAGATTGGGAAACAGTACATCATCAATTCGTATATTCTAACGCTTTATATAGACTCTTTGAGAGAAAAGAGAGTTTTTACCTGATTAGAGGAATTTATCATGGTGTAGGAAATCTTTACTTAACAAGGTTTCTCAATATTCCTCCAGCAAGACTCCCTAAGGAAAGGACGTCAAGAAATGAAGAAGAAATAATAAAATCGCTGAGTGAAGCTATAGGTTCTAAAAGAATCGAAGAGGCATCTCTAGATGTTTATGATTATTTAGTTAGAGAATTCCCAGAAGATACGCTAATAAAAACCATTATTAGGTCTTTATTTATAGAAGATGTTAGTTTTCATACTGCTCAGACAGTGGATGCTGGAATATCGTTATTTAATGCCCTAAAAGGATACGATGAGAATTACGTTCCCCTAATAGCTACAGTAAGATATTTATCAGCACATAGTCCTACTAATAGGAGGAGTAAGATAACTGTAGACGTAGCTATAAAACTATCTAAAGGTGAGGCTTTATATACGTAGAAAATTATAATACCTTAACTCTGCGTGTCATTGGTATATCTACTATTTTTCTAAAATTTAGATTCTTTATATTTATTTCATAAAACGATGTAGTTGAATATACTATATTTTCATCATCTACTTTAGCTATAGCATTAGTTCCAAAAGTTGGTCTAGGTAATTTTATTCCCATTCTTGTCAACTTTCCGTCCTCATACATCATTAATGGGAATTCACTCATCTCTTGGGCAATAATTGCATTTCCTAAATCCTCTATGCCATGAAAATATCCTTTTTCAATTAGAGTATAATTTATTAGATCGTCAGTCAAATAAAGTCCGTAAGCTGTAGCTATGTAAAGGTGATCTTTAACAAGAAGATTATGAGAATCATTAAAGAAATCTAAAGGTTTTAGAGAAGTTATATCGCCAAAAAGTAAATTACCTTCTTCTACACTCGCTATTATTTTTCCATTATATTGAGCAAAATCTGTTATATGTGCGTATTCTGAATGAGGAAAACTCCAGCCTCTTTTCTTTCCCTCATCTCTTAGATCTATTAATTCCTTTATTCGCTCCTTATTAATAAGGTAAAGTTTAGGACCTTCTACTGATGCAATAAGTTGACCGTCAAGTTCATAAAATTTCCAGCAACTCTCATTAAGTATAGTTTTACCATTTAATATAACCCCACTTTCTGTAGAACATATGTAAAAATCATTATTCTTTAAAGTAAAATCGTAAACATCTTCCTTATCACATAGTAAGTCAGCTTCCTTATCTATTTTATATAATCCTTTACTTGTTCCGACTAGGTACATAAATTAACATTTATTTCCGAACATAATAACGTTTCTTATGATTATAAAAAAGGAAAGATATCTTATTTGCTTTTCATTGTCTTTATAAAATCTTCTACGCTCATTGCTAAGAACGTATTTGTCCTTACAGTTCCTCTGCTATTTAAATTTATTAATCCTTTTAGAAATTTTTCTGGATCATTAACTTCTACTACGTTTACGAAATCGTACTCTCCAAACATCGCATATTGATAAAGTACTTTTGCACCGTAATTCTCCAGCTCCTTATTAACCTCTAAGATCCTCTCTGGTTTTTCCCAGACGGTTTTTGCTCCTTCATCGGTTAGTCTTGAAAGTACTATAAATAGAGACATTCTATTTTATACTTAAGTTTACTAGGTAATATTCCTTATTACTATAAAATTATCATAATATAGAATAACTTGTTTGAAAGATAAATAACCTTATTATTTTACAAAATGATATCAATATTTATGTGGAATCATTTAAAGGGATGGAATAGATGTGATGACTGCTGGCTTGCGTATGAAAGAGGAATACAGCATCCTAATTCTCTTTCATGTTATAAGGTTGGTATTCCCATATCATCTCTCAACGTTCCAGTCAGTACTTTTATAGAAGAAATAAAAAAGAGAGATTATGTGGCTAAATACGGATTCTTTCCTTTTCCAGTAAATTTAGTATCAAAAGGAGTTATAATACTATATTTTACAAATAGAGAAGATATGTTGAAATCTATAGAAGATCTTAAGAAATTTGTTAAAGAACCTAACAATAGGGAAAAATTCTTCTTTAATAATTTTGTTAATGTGGAGTGGATAGAGGGATTCAATTATAGGAGAGGATGCCCAGAATATGATAAGAAATTCGGAGATTGGAGAAGATGGAGTTCCGAATAGAAACTTTCTTATCCTAATCTTTAGTTTTTCAGATGATGCTAATTTTCCCAACTATATTATAACTTTATCACTAACTTTCAATCCCTCGCTTAAACCTAGCTTAAAAGCTTTTACATTATTTTCGCCTCTAAGAGTAGTTAGAAAGCTTTCTTCCTTTATCATTTTAAATATTCCTAAACCATAAGCGAAACCTAAAATTGCAGAATTTACTACTCTCTTATCCCCTACCAAAGATGCTATATTATTGGCATTAATTTTGAAAATTCTAAAGTTGGAAAGTCTCTTTATTATTTCTTCAACGCTATTTTCCCTAACTTTAGGAAGAACGGGTTTAAGAGTATATTCGTTAAAAACGATGATTGAGTTTCTGTTTGCATAGTCTAAATTCCTGAGAATTTCGTTGGCTTCTAGTCCTATCAAACAATCTGCTCCATGTTTAGCTATAGTAGGAGAATAGACGTCGCCTATTCTAACGTGAATATTAACAGCTCCTCCCCTTTGCGCTAATCCGTGAGTCTCAGCTACAAGAACTTTTATACCTTCTTTTTCACAAGCGTTGGCTATCATTTTCCCCATTGTTATTATTCCCTGTCCTCCTACACCCGCTATTAGAATATTTAACTTAGCCATGCGTCATCCCAACCTTTTGGTTTGTCTCCTTTCATTGATATTGCCTTAAATGGGCATATGGGAACACAAGCCCCACAGCCTATACATTGAGAGAGATCTATAGATGCTTTCTTATTAGGTAAAGGAATGATGGCTGGACAAGTAAAATAATCATAGCAGATTGTGCATCCGGTACATTTATTCATATCTACTTCTGCTACTGGCAACCTATCCTCTATTTTATCTAAAGCGTCTAGTGCGCACGCTCTCTTAGATATAAGTACTGCCGGTTTCAAGTTTTTCTTTACCCATTCAGCAGTTTCTTTAATTATTCTTGTCGAAGTATTATAATCAAAGGGATCAAACGCCTTAACATACTCTATTCCCATTCCTTTTGCAACATTGGCTATATCTATATATTTGGAAGGACTTGGTTGTTGTCCAGTCATTGCAGTAGATCTGTTGTCTAGGACCAGTAGAATCATAGGAGTCTTATTATATACTGCATTAGCTAAACCTGGTAATCCGGTATGAAAGAAAGTTGAATCTCCTATTATTGCTATAGGAATAACTCCAGTACTTCTATAGACCCCGTTTGCTATCCCTAAACTACCTCCCATTTCTATTAAACTGTCCTGTTCATTAAAAGGTGGAAGAACTCCAAGAGAATAACATCCTATATCACCGGAGAAAAATGTATCTTTTATTCCCGCTAAGGCTAAACCTTTTTTAAGATCTATAAAAGATGACCTATGAGGACAACCTGGACATAAAGCCGGAGGTCTTGGAACAACATCAAATGCTATATCATCTATTTTATCAACTTCCTTACCAAGGAATTTACCTACTGCGTAATTAACTTTTTCTAACGTTAGTTCTCCAGTTCTATCTACAAGATCTTTGCCATGTATTTTTAACATAATGCCTTCGGACATCATTAGATCCTTAACTTGCATCTCGACTATTGGTTCTAACTCTTCTACAACTAGAACTTCTTCTGAATCTTCAAGAGCCTTTAAAGTAAGTTCCTTAGGAATAGGAAAAGGAGTTGAAAGTTTTAGAATCTTCACTTTTGAATTTTCAACTACTTCTTTAACAAACGCGTATGCTATCCCAGACGCAATTACTAGTTTTTTGCCATCTCCTTCTATTGAATTCAGCTCTTCTACTTTCTTCTGTATTATCTCCCATCTTCTCAACTGTTCTTTTCTATTCCTTCTAGCATTTTCAGGGACTAATGCATATCTAGAAGGATTTTTCGATAGTCTACCCATGACTGGAGGTTTAATATCCTTCATATCAACCTGGGATCTTACATGATTTATTCTTGTATTACTCCTAAAAATAACTGGATGCTTAACTTCTGAACTAAACTCAAATGCGCTCATAATTAAGTCGTAGGCGCTTTGAGGATCATAAGGCTCAATTACTGGAATTAAGGCCATCATTCCATAATATCTGTTATCTTGCTCATTTTGAGAAGACCACATTGACGGATCGTCTGCAGATACTAGAACTAGAGAGCCTTCTACTCCAGTGTAGGATGAACTCATTAACGCATCTGCTGCTACGTTAACCCCTACATGCTTCATTGTAGCTAGAGCTCTTGCGCCCATCATTGCTGCTCCATAAGCTGTTTCGAAAGCTACTTTCTCGTTGGAACTCCACTCTGCATAAACTTTATCCCCATATTTCATTATAGTCTCTATTATTTCTGAAGAAGGAGTCCCAGGATATCCAGCAGCTACTGCTACTCCAGAAGATAATGCACCAAAAGCTATTGCCTCATTTCCTAGAACTATTCTTTTTGACATAATTTGTCATTATGTTTTAAACTTTAAAAATCTAGTTATGTAAATTTTAAAAGTTTACTATATTGATATAGTAGTGATAGTTGTAAGAAAAATAATATTGTAATTATTCGTGAAATTCTATAAAGATAAGTGACAGTTAATGGCAAATAATGTTATGCTATATTTATCAATATATACTAAATTTGGAGACGAATCCAATTATTCCCAATATGACATTTTACCAAAAGAGATTAGGAGCACCTAGCCTTATGATTTTGGCTTTTAGAGAAATAGAGAAATGGAGATTATCAGTAAATATAAGGCTATTCTGACGGACTAGTTTAACTTAATGGGAAAACTGTTTTGATCAAGATCGATAGAAAGAAGACCATCAGAAAGAATTTTTAAAGAGAAGAAGATTCAGTTGCTGAGAGTTCAGATTTGATTTCTTCTATATCGTTGGCTGAAAAATGAGTTTACGTAACTATTAGGCACGGATTCTACGTGTATGACATTAAAGAGAAGATGCTAATATTTCCTATAAATTCTTATGCTTTCTTAGACCTGAAAGTATAAGATTACATTAGGATAATCTGCATTCAACTACATTAAACAGTTTCCTTGACTTTTAGAGTCTAAGGAAGCATAATCTGTTAGTAGAGAGTAGACTGGGAAGATATAATACAAGAACTTTTTAAAGTACTAGTGATTTGATATTCTTGTATGGGTCTCTAAATTTGTAACTTAAAAGCTACGTAGTGAGTTTATAAGTTTTTTAACTTAACTTCTCTATTGGATATCTACCTTTCTTGACAGCAACGGTAACCATACTAATAAATCTATCATAGAGAATAGACTGAGAGACAATATACTAATTAGAGGGAAGAATAAGGAAACATAGCCATCCGCAATTAAAGATGATAAATCTGTTAAGGTAATTAAAATACCACTCTCTACTACTGGGAATTTCGACTTAGAAACTATTTTACCTATTAATACCGGCCATACTAACGAATTACCTACTTGCGATAATATTCCGTAAATTATCAAAAGGTAGAGGAAAGGAGTTAAAGGAAATAGGAACTCCGTAATAACAGCTAGAAATGTACCTAACGCCAAGGATAGGAGTATTTTGTTTTTCGGAAAATAAATAGGAACTAAAGAACCTACAATATTGGCTAAGATAAAGGATATACTAAACCAACCAGCATTAATCTTGTTGAAAATTAAAGGTTCAATTAGTCCTCCTACAGAAGCTAAGGACATACTAAGTATGAATGATATAAGGAGGAGTGGAGAGACTAAGAAGAGAGACTCCTTGACTTTCCTTAAACCGGACTTTTTTACTTCTGTTTTCTCTATGCTTAGAGAGAAAACTAACGGGATTGAGGATAACCAAAATATTGAAGCTATTATAAATAAATCAGCTATGTTAAAAAGGAAAAGTACGATAGCAGATATTATACTCCCTATTGTATAACCGATAAACTTGGAAGATATGAAAAAATTTGCGCTTCTATATCTAGAGCTGAAAGTAGGCTCAGAATATGAGAAGTAAACTGCGTTAAGAAATAGGATTAAGGAAGATGCTATTCCATAAAGTATACCTAAAATAAGCACTAGTTTTAAATTGAGAGGTACCTTTAGATATAGAATGAGATAGAATATACTCTGAAAGGAGAAGGCCATAATTATATTCAGTTTAACAAAATTTTTTAATATTTGAGCTATGAAAGGTGCTAAAAATGCTCTTAATATGACCGCAATAGTGACAAGCACGAAAGCCAGTTCAGTATCATTATATATTTTTTCGAAATATACTGGCAAGTAAAATTGTTGTGATGAAGCAGTTGAAACTAAAATTAATAAAAAATAAATTTTACTTTCAGTTATCTTCATCCTTTTATACCATTAAATAGATTATATTTGCTTTAATCTAAAATCTTTCCTTTCTCTATGAAATATATTATTCTGCTAAGAGAAATTAATCCCCATAATTTTTGCCTTAATGTTAGTTTATTAATCCCTATAGTGTTTAGATATTCTTGGTAGTATTTATATAATTTTATAGTACCATTCAAATATTTTATATTTTTTGTAGCAGCAAATACAGTGAATTCCTTAGATGAAGCTAACATTGGAATAATTTGAAGCGAATCCATGTACTCTGGAATGTTTGGTTTATTGCCTATGAACTCAAATAGAGGAACGAAATATTTGTCATCATAGTATTTAATTTTCTCTATTAAACCTGGATCTTCCCTATAATTGATATTTATTAGAGAGAGTCCTTTTAGTGATCCCATACCTATTTCTACATCAGTTTCACTTTTTATTCCGTTTTGTCTTTCTATATTCTCTAGTTTATTTAGCATTATTTCCGTTGACTTTTTGACAATTTCGGGATTTTGTGTTATATATGATAATTTAGCTAATGCTAGTAAGTCTTCTCCCCAGTATTCGTCTAATTTAAATATTTTATCAGATACTCTTGTGAGGATTAATTTATCTTTAGTAATATCATACAGTTTTAACTGAAAGAGAGAGGAATGTATAGTTGCCCTCTTTGATAATAACTCATTAACTACTTCATATGATTCATTATTTCCAGTAACAAAATATGAGTCTATAAGAGACCATATATATAAATTGTAATCTCTATCTGCTAGGCTAAGAGCATTTATAGCAAGTATGTCTTTATTGAGTGAGTGTATAAGATTTATAGTTATACTCGTAGATATCTTTTCCTTCTGTACCTCTTCTTTGACATATCTTTTTAAATCTGGATCCTTATCTAATACAGGATTTAGATCTAATTCGACCCACATTGCTATCTAAATAAATAATACTTTTAAACAGCTTTTTTTTTTAACTGTAATAAAGTCTAAAAAGCTGTCTTAGATTTGAAGTTTATTTTATGATGATAAATATCTACTTTTCAGATTATAAGTTAATTCAAGTAAACTTCTTTTATCAATTCTTTATAGTGTGAATATTAATAATTAATAAAAATATCTAAGTAACGAATAATAGGAAAAATCTTATAAGTAAGTTATTTATTTAGCATTATAAAATGTTCTCTTCCTATATTGTTTAACATTTGCTTAGTTGCCAAAAATATTAATAGATGTTCTTTATTAGGACCTATAACTAATTTTTGAATTTACTACTTTTAAAAAGTTATTTTATTTTAGGCCATCCAATTGTAGAATCTCAGAACAACTATCATCTTAAGAAATTTTTTATTTTATATACAACCCTTAATGTTATGAAGAAAATTTCTAACTTAAAAATCAAGATATTAAGCGATAATTTTGTTTCAACAGTTGTTCCTCCTCTACTTGGAGAATGGGGATTTTCTGCTCTAATTGAGGCAGATGATGTAAAAATACTTTACGATGTAGGTAATTCAGGATATCCTGTGCTATACAATTCCGAAAAAATGGGAATAGATTTAACAAAAGTAGATTACGTAGTGTTAAGCCATGGACATATAGATCACACCGGCGGATTAGGAAATTCGGAATTGGTTAAAAAACTTGAGGGAAAAATTGTAGTAGCTCATCCTTCAATATTTGAGAAGAAGTTGATGAAATGGTCTAATAAGTTAGAATACATTGGAATTCCAATGAGTATGGATGAGATGGAAAAACATTTCCATTTAATATTAACTTCTAAACCTCTACAAATAACTGAAGGAATAGTTTTTAGCGGTGAAATTAAGCGATATGGTTTTAATGAATATACTAAAGGTCTATATACGGCAAGAGATTTTTCTTTGGTTGATGATCACATGATTGACGATACTGCATTGTTTTTGAGCACTGAAAATGGATTGGTTGTATTAACTGGTTGTGGACATTCTGGAATTCTTAACATACTTAACTACGCTAAAGAATCTTTAGGTGAAAATGTGTATGCTGCGCTTGGTGGTTTTCATCTTCTATTTTCTCCTAGAAATGAAGTTGAGAATGTATCTAAAGAGTTACTTAAATTAGAGAAAATAGGCCCAGCCCATTGTAGTGGAAATACTATTAAAAGCATAATAGCTGAAGGAAAAGATAAGTTCCTTGACGCAGGAGTAGGCCAGATAATAACGTTTTAAGATTAGAAGTAACGTTTCATTTCATGTACCACGTACCTAATGCTTTAGCTCCTAATTTACCTTTTGAATCATAAAATTCTATTGATACTATAGCTACGTCGTCATTGCTTTTAATTACTTCACCCTTAGAGTAAAATGGACCGTCCTTCATTGGTTCTAAAAAATTAATTTTCAACTCTTGAGTAACTTGATTTCTTCTCTTGTTTATGCTTAGCACTGCCATAGCGCCAGCATAGTCTAGGAGAGTCATTATTATTCCACCGTGAAGTATATTTCCGAGCCTAGTAAATTCCTTTTTAAATGGTATCATAATTTCGCAATAGCCGTTTTCTATTTTGAGAATTTTAATATCTAAAAACGAAAATAAATATTCGTTATCTTTAAGGATATTTTCGACTTGGTTTATTTCCATATGAATATTTGACACAAAAGAGATTAAGAAAGTTCTCAACTTGATAATAGCTTTTCTTAATAAATATATATCAGTAAAAATGCTATAGAATATTTAAAATAGTAATGAAATATCATTACTGAAGTGTTGTGGTGAATGCTTCTCCCTAGTAAATGCTTATTAGACACTAAGGAATTTTATACTTATGAGCATAGAGTTAGTTAAAAAGTATGAAGGTAAGATTGAAATATACCCTAAGATTCCGGTACGTTCTTATACAGATTTTTCCCTGATTTATACTCCTGGAGTGGCAGAAGTTTCGAGAGAGATAGCAAAAAATAAGGATAAAAGTTTTGAGTTAACTAGTAGATGGAATTCAGTAGCAATAGTTACAGATGGAACGAGAGTCCTAGGTCTAGGAAATATAGGACCTGAAGCAGCTATGCCTGTTATGGAAGGGAAGGCAGTTTTATTCAAGTATTTGGGTGGAGTTGATGCGTTTCCATTGCCTATAAATGTTAGATCCGCGGATGATTTTGTAAAGGTAGTGAAATCCATGGAACCGTCTTTTGGAGGAATAAACTTAGAGGATATAGAAAGTCCTAAATGTTTTTATATTCTGGAGACTCTTCAGCAATCATTAGATATACCAGTATGGCATGATGATCAGCAGGGTACTGCAGCAGCAATATTGGCTGGATTAATAAACTCTATGATATTAACAAATAGAACTCCAGAAGAGTCTAAAGTAGTATTATTTGGCGCCGGAGCTGCAAACATTGCTACTGCAAGGATATTATCAAGTTATGGATTTAAACTTGGAAATATGATAATAATAGATTCTAAAGGTCCAATTTACTCTGAAAGGGAGGACGTTGATCATTTCATGTATCATCATAGATGGAAATACGATCTTGCTGTAAAGACCAATAAATTTAATGCTAAGGAAATTGAAGAGGCGTTTAAAGACGCTGATATAGTGATTGCAGCTTCTTCGCCTGGACCAGATGTTATTAAGAAAAAATGGATAAGTTTAATGAAGAGTAATCCAATAGTTTTTGCTTTGGCTAATCCTGTACCAGAAATCTTACCTCAAGACGCTATAGAGGCTGGAGCTGGAATTGTGGCAACTGGGAGAAGTGACTTTCCAAACCAAGTAAATAATTCATTAGTGTTTCCTGGAGTGTTTAGAGGAGTTTTAGATAGCAGAGCTAGGAAGGTAACTGATGAAATGACCATAGCTGCTTCAGAAACATTAGCGGAATACGCTAGAAGTAAAGGATTAAGGAAAGATTATATAATACCTAGAATGGACGAATGGGAAGTATATTACAAGGTGGCTTCTTCTGTTGCAACAAAGGCAGTAGAATTAGGATTAGCTAGAATTAAGATGAGTAAGGAAGAGTTCGAAAATATTGCTAAAAAAAGAATCCTAAGAAGTAGAAAAATAATGAGTCTTATTGATTCTGATAATGAATAATCTTTATTTTTATCTAAAAATAATTTAAATAGAAGATAAAGTATACTAGAGCACATGGAAAAAGAAATTAATAAAGAAAATCAAGAGAGAAAAGTAAAATGGATTACTTTAAGGGGATTATTAGCTCTTGTAATTCCCATTTCTGGATTTATAACTGCATATCTATTAAATAATCTTGTCTTATTAGATTACGTTCATGTTATGTCTGGTTTATTGTGGACTGGTATAGATATTTTTATGGGATTCGTATTAACCTTTGTATTGAGGTCGTTAGATTTCAAGGAGAGAGCTGACGTGGCTAGAGGTCTAACTCCGACTATGCTCTTCCTTATGCCAAGTATAGCATCTGTAGCTGTAACAAGCGGATATTTTCTATCTAGTGAACTAGGATTGTTTAGCTTAACTTCTCCACTAATAATATCTTCTGGAATAATTATAGTTATATTAACTATACAAGGTTTTGGAATATTCTTACCGAATAACGTTAGAGTATTAATAGAATTAAATAAAGATAAACCTAATTATGGGAAAATTTCTAAGTTAATGATGATAAACTTTAGACTTTCTGGAATACAAGGGATACTTCAATTAATCCTAGTTTTCATTATGGCCCATTTAGCTATTTTATAACTCAATATTTTAGTTTTTTAGAGATAGATCTCAAATCTTCATAACAAAAATTTAAAAAGTAAAGTATTTTCATAATAATATGAAACGTGAAATAGTATATATTTCAATAATAGTTCTGATCTTATCAATGTATGCACAGTATTCAACACTAGCAGGATCCGGATATTATTATGTACAGACTAATTCTCCTCAATACTCTATTCTACCAGATTCAATATTCGTACAAAGTTTACCTTCTAATTATACTTTACCATTTGCAGTCCTACTTAATTTCACTAATTATGGAAGTTTAATGAAATATACTTATTCCATTGTAGGTAAGTCATCACAATATATTTCTCCTAGTAGCTTTAGAGAAAAATATTATCCGTCTAATTCTTATATTAATTCATTAGTTAAGTATCTCAAGACTTATGGAATAAAGTTTACAGGAAATTATGGTTTAATCCTAACCTTTAATGGTACAGTAGGAGAAATAGAGCAAGCATTTCACACATACATTAATATTTACTATTATCCACTAAGGAATATTTATTGGTTCGGATTAGTTGGAATAACAAATGTAGGTCCTTTCTATTATTTTACAAATAATGTAACTCCGTCATTGCCTTATAATGTAGGAAAGCATGTCTTAGGTATTGTAGGAATAGACAGTATTGATCCACATGTATATCCAGCTATACAACAGACATGGAAAGTTAAGATGAATTCGACTTCAGATTCTTCTTTAGTATCTAAAGTTCTTGTAACGCCAACAGTAATAGCTAACTACTTTAATTTCACAAAACTATACAACCTAGGGTATCTTGGACATGGAGAAACAATAGGAATAGAAGGTGTTCCAGAGTCTTTCGTTAATTCCAGCGATATTTATTCCTTCTGGAATAAATTCGCAATAGTTCCCAGAACTGGAGGTCTTCAAGTTATTGCTTTCGGTACTGACACTTCTTCAGGTCAATCTGGTGAGAATGAACTAGATGCCGAATGGTCTGGGGTATTTGCTCCTGCATCTCAAGTTGATATAGTGTTTTCTGACGGTTATGTAGGAGGTACTGCCTTAGTTAACAATCTATTAAATTACTATTACGAACTTTACTACATGATAAACTATATTAATCCAAATGTAATATCAATATCAGTAACTATTCCAGAATCATACCTTGCAGCGTATTACCCAGCTATGCTTTATATGATTCATAACATAATGATTCAAGCAGCTGATGAAGGAATTTCGGTATTAGCGGCTTCAGGAGATTGGGGATTTGAAAGCAATCACCCTCCTCCTAATTTTATAATAGGAACATATAATACCATATGGTATCCAGAAAGTGATCCCTTCGTTACTGCCGTAGGAGGAATATTCATTAGAGTAAACCAAAACGATACAGTAATTTCGATAAGCGGTTGGGATTATAGTACTGGTGGACTAAGTGTAGTATTTCCTGGCCAAGAATATGAGTTAACATCGCTTATTCCTTTAACTCCGCCAACTCCCAGAACATATCCTGATATCGCATTTATATCTGCGGGCGGATATAATATTCCTGAATTCGGCTTCGGATTACCTCTTATATTCCAAGCACAACTATTCGTATGGTATGGAACTAGTGGAGCATCACCGATGACTGCTGCAATGGTAGCTTTAACCGGTGTTAGATTAGGAGCACTAAATTATGAGCTATATCACATATCTTATAATGGAAATATATTAACTTCTAAAGGAATTATACAAGGTCTTCCAGCATGGATTCCAATTACTACAGGAGCTAATCCTACGCCTGCTCACTATGGATGGAATTTTGTTACTGGTCCAGGAAGTTATAATGCCTACAATATGGTATATGATTTAAGAATATATTATCAAAACCTATTATAAATCTTTTTTATTAAACTAAGTCTAATTCTTATCTAAATTTAAAAAGTTCTTATATAATAGCGTAAAGTTTTATAAAGTATTTATAAATATAAATCATTTTCAATGTATATTACATTTAAAATTTTTGTGTTAATTTTCATATATTTTTGTACTTTTTGAATAATATGATTGTACTATCTACTACTCTAATCATGAAATACTTATAAACATTCATGTAAGAAGTAAGATTTCTATAGTATATTTGAGAATATTCATAAAAAAGCCTAAATTTTTAAATTCTGACAGCCAATTATTAATTATGGCAGAGGAAGAGATAAAGAAAGTCCTAATGCAAAATCCATCGATACTAATAGATGTATTGACTGCAAAACCAGAAATCATTTATGAAGCACTAGCAAGGTTAACTCCTTGGCAAAATTTACCTACCAAGGATGATATAAGGAGAATTGAGGACAAGATGGTTACTAAGGACGAAGCAAAAAACTTCGCAACAAAAGATGACCTAAAGGTACTAGAAGCTAAGATGGTTACTAAGGACGAAGCAAAAAACTTCGCAACAAAAGATGACCTAAAGGTACTAGAAGCTAAGATGGTTACTAAGGACGAAGCAAAAAACTTCGCAACAAAAGATGACCTAAAGGTACTAGAAGCTAAGATGGTTACTAAGGACGAAGCAAAAAACTTCGCAACAAAAGATGACCTCAATAAGGCAATTAGAAAAATTGAAACTACTATAACGGCACTAGGTGCTAGATGGGGACTTTTAAACGAAAATACCTTCAGAATAGGTATTAACGACATTCTTAAGGATTTAGGTTGGAAAGTCTCAGAAGAAGTCTTGTATGATAAAACGGGATACATCTATGGAGAACCGTCTGATGTAGAAATTGATGTTACAGTAAGAGACGGTCAAACGATTATTATTGAAATAACTTCTGCAATAAAAAGAGGCGATTTACCTATAATATTGAGGAAAAGGGAATTTTATGAGAAAGAAAAGAAAATAAAAGTTGATAGAGTTATTGTCATAACTCCATTCATTCATGATAAGTATCCAGATAGAGTAAAGGCTATGGCAAAGGACATGGGAATTGAAATCTTATATCCAGAATAACATATAAGCTAATTCTTAGTGTTATACAATTAACCCTTATTAGCTTTACATTTTGCTACTTATCCCAAAAGTTTCTTATTCATTTAGATAGCATAAAATAGGAAGCAATAAGACAAAAATTTACTGATTACTGTAATTAACTCCTAAATTATTATATCTTAATTTTATTAAAAATTTTAATATATTCTCTATATTTGCCCCAATGACATATTTTCTTATATCCATAAGTACTTTATTATACTTCCTAATACTTTAAAGAGAAAGGTGGAATTGCAAGAGTCATAACAAATTATGCACTATAAACTAATAGATATAAATAAGATCAGATCTTTAGATTTTAAAGCATAGGGTATTTATTATTTATAAAAAATGGGTTAATTATAATACAAAGTAGTATTGAGAAGCGTTCTATTTTTTCTTTATAAGAAAAAGAATATAGTTTATTATACTCATAATCAGGAACAGTAAGAATAATGCATTAAATAATTGATACAAATAAAGCAGATTTCATTATTCATGTCTTTATCATTTTCTAATATTATAATAATATTCCTCAGTTTACTTTCAGAAATATAAAAGATCTAATATAACACTTAAAAATTTCCTAAAAATATTGCAAAATCAATTATCTAAATTACATTAAATTCACATGAATCACTAATAATAAATAAAAATTATTTTTACTAATCAGATTTTGGGTCTACCGTAAAAAGGCGAGGTTTGTCGTTCGTTTTATCATTATTGTATTCAATATTCCATGCTTCAACATTTATTATAAAACTAGATTTTTATTAAACAATATCATTTTACTCTATAGTATTTAATAATAAGAGATTTTTCTTATAAGGATCTGCATACATTATCTTCTATGATAGTTGATGATCCTTCTGTTAAATGTTCCTTTGATTTACACAATATTTTACCGTTTTCGACTTTAACTAAATTGATATAATAGCTCTCTTCAAGTCCCTCCGGCGTAACATTCAATTTCCAACTTTCTAGTACTGTACCTTTATTTACATGAAATTCTGCCATGCATGATCCACAGACTGGACATCGTATTCTTTTCCAAGAAGTTAGAAAACCACATTTTGCACATTTCATCAATATTCATCACCATAAATAATTACTGTGGAAGAATTACCAAACCCTGCCATGCTTAGACTTAGACCAGTCTTAGCGTTTTTAACTTGTCTATTTCCAGCTTCGTTTCTAATTTGGTAAAAAGCTTCTATTGCTTGAGCTATTCCACTAACACCTATTGGATGCCCTTTTGAATTTAAACCTCCACTAGTATTCAACGGTATATCTCCATTTATTTCAGTAGTTCCATTGATTACTGCCTTCCAACCTTCGCCCTTCTTGAAAAATCCTAGTTCCTCTGATTGGATTATTTCTAAGATAGTTGCCATATCATGTAATTCAGCAAAATCTATCCTTTCTACATGAGATTTTTTTATAGCGATTTCTCCAGCTTTTCTGACAGATGGAAGTTCAGTAAAGTTTTCTCTGTCAGCAATGAAGGAAGTATAACTAGAAAATCCTACTCCTTTAATGAAAACTGGTTTATTAGTGTAACTTAATGCGTCTTCATTTCTTACCATAAGTAAAGCTGCGGCACCGTCGCTTATTGGAGTAAATTCAAAAAGTCTTAGAGGTTCTGAAATTATTGGTGAATTAAGAACCTCATCTAACGTAACTCTCTTCTGTATATGTGCATAAGGATTAAGTGATCCATTATAGTGATTTTTGACAGCTACTTGAGCTATACTTTCCCTAGTAGCGTCGTATTTTTTCATGTACTCAATAGTAGCTAATGAAGCTAAAGAAGGTAATGAAGATACTCTTTCACTCTCAGGAAGTAAGGATGATATTATTTTAGTAACTTGTCTAGTTTTCTTTTCTGACATTTTTTCTGCACCTAGCACTAGAACTGCGTTAGCTTCCTTAGATTCTAATAACGACTTAGCTACAAGTATTGCTGAACCACCACTTCCACTCGTATTATCCACCCTAATTGACGGTACATTATCTAATGAGAGATACGTCGAAATGAGATTATTCAATCCAGATATTTCGTTAAATTCTCCAGAATATGAGTTTGAAAGTACAATAAAGTCTATAGGATATTTCAAAAGATTTCTGGTAGCTTCTCCTACAAGTTCAAATATGCTTTCCACTCTTTTTCCGAACCTCGTGATTCCTACGTCAACTATTGCAACCATAAAACTACGCTATATTCTTGAATTTAAAAATTTTCTTTGAAGTACTATATTCTTGAAGATTAATTAAAAAATATTTTTATTTATTTATATTTTAAGAAGAATGACTAAGTATTCGATTTCTTGTAATCATACCGTAGTATATAATCAGAGATATAAGAAAATAAAAACTAATCTCCATTCTAGACTTTGTTTTTAGTTATGGAAAACCAAGAAGCCATTAGATAGAAAAAACATGAACATAAAATTTGTTAATTATTTTGGAGATTTAGGATATATAATAAATTCAACTCTCTACGTTTTGAGAAATATGAAACTTGATCTGAAAGAAATTATGGAAAAAGATTTCGTAGTAAATAAATCATCAAAGGTTTATTATAAACTACATTAGCGAAGAAGTTTTTGTTGAAGATATAACATATCTAGAATTAGAGTGTTTGAAAATGCTAGAAAATAAATTTAACTCAAAATTAATTAAAAATAGGAATTTATAACATAGCTAAAGAACTACATATTATGAAAGATTCTCTAACTGGAGACTTTAACATAATTATCATTGCTAAACATAACTAAGGTAAAAGAGTTTCTAGTTAAATTATAGATTTTTATTTTACATATGAATTTTCTTTATTTAAGAATTTTATTATTTTAAAAGAAAATATGGATTATTATGAATTTTTCTTCTGTTAAGATTCATATATTCGTTAGGATATTCAATTTTCAAAAATGTTTCAGGGTATTTGTCTAACGGTATCTGAGAAATGTCTTCGTGAGTTTTAAGAAGATATGATTTAATTTGTGTAATATATCTCATAATTTACCATCTTTTTTGGAATTTTTATAGATATTGAATTATAACTTATTATGTATGTAATGTTCGTTATAACTCTTAATTTTTCAGTAATTAATAGATCTCCTCGAGAGAGTGTCCCAAGCGCAAATAATTGAATAAATATAGTATGATAGAAAAACAATTTTATAATTAATTAAGAATAAAATATAATTATATCTTTCAGTATAACGAGAGATTAAGCTTATATTGTAATGGAAAATAATCAAGTATAGAGAAAAACAGAATTTCCAACATAGTCCACACTACCTTGATCAACTCTCGCGGTACAAGTTAGTGGGCGAGTTGACTCTCCGGAACACGCGATAACACAGAAGTGTAGATGTAGGAGTTGTAAATCAACGCGATAACGTAGACAAAGAGCTCGACCATACCCTTTTCAGTAGCGTAAGGCCTCCAATACCTCCTCAAGAAGATCCCAAAGAACTCCACTCCTGAAACTAGAGAAACCTATCAACCAGGTCGAGGACTTCCCCCACGAAGCCCCTATCCACTACCTTATAACCGCTGCGAGAGAAGCCAACCTTATTGTCCGGAAAATTGGCCAGTTCCACTTGAATCTCGTGAACTATCATTGTAGGCGACATGAGGTTGAAGACCTTGAAGCCGAACTCCTGTTCCTCTTCTTTGTAAACTCTCCCTTGAACCTCCTCCTCACTTTGCACTTAATGTAAAAGAAGAGCGTGTTAGCCGCCTCCCTGTACTTCCTCTGCCTTAGCTCTAGCTCAAACTTCTTCTTCAATGTTTCCTTGTTCCTCTTCCCGAAGGGTACCTCGATTAGGAAGGAATCCACGATCCACAGCTTTCCAACCTTTCCGTATAACGCACTGCTAGGTAAGTAGTCAGCAAGTCTACTCATCTTCCCCTCCAACTCCTTGGCGTACTCCTTGAACAGAGTCTTTACCTCTCCCCTAAATTTCTTTGCCCTCCTATGGATCTCCGACTTAGACTTGTACTCGCCTAGGAACCACCTTACCACCACGTCTGACTCGTAGTAGCTCCGCACGTCCCTGTAGGAGCACGTCCACACAATCATAACTATTAACGCTCTCAATATGAAGAGGTCAGAGAGACGCGACAGCACTTCAGACGTGATCAGCATGTAGTTCATTTTCACAAGTGTTTTATGCCTTGCTGATAAATGTTCATAGGGGACCGGGCCGTTGTAGTATTCTATCCAATGCTTCATGTGAATCGGTACTACATCGTCCCGTTTCCCTTTAAGTATTACGCGACTTTTTGCTTCAAGCGAAAATTCAAAATTTCTCAGTAATTCACGATATCTTTTGAATTATTATCTATAAACCTTTACATAGATTTATTCAATTATTTGCACTTGGGACACTCTCTCGAGAAATAATTTTATGCGCGTTTTCTAGGCTTGCACATATGAAATTCCTTTTAATCATTTTTCCCACTTTTACACAACATACATAATGTAAATTAATATTAGTTTGTTTAACAGATAATCTAATTCTTATTATTTTTACAAAAATTAATAATCATCATATATCATTATTAGTACATTATCGTAGTCTATGAATTCCATTAATTTATAGAAGGAAATTCTAACAATTCTTTAATATGATTTAAAAAAGATTTGTAGATGGAAAGGTTGTATAACAAGATGAACATAAAATGATTAGGAGATGGAAACATAGACCTACATAAATTACATTAATCTTAACAAAAGAAGGAAATATCGGTAATTTTAACAAACATTTTATAGCACTAATTATAAATAAATTAAAAATAAATATATTTTAGCTATTCTGATCTTACAAGTATTCAAAATGAAAAGTAAAATATAATTATCTTTCGTCAGTTATGTAATTATGGGGTACGTAGATTCTCATACACACGTATGGTTTAGGGAAGCTATAACAGAAGAAATGAGAAAAAGAAGTGAAATAGTAGGTTACAGAATACCAGAGTTTTCTCTAGATTATATAATTAAGGAAATGGATAATGCACAATTGGATTATATTACAATAATAGCCTATCCTTCTAGAGAACTTTGGGGCATAAAAGAGGATTTTCCTTTAAAGATAATAGATGTTTGTAAGAAGTATCCAGATAGATTCGCAGTTATTGGAGGTGTTGAAGTAAATAAATTAAGTGTTCAGGAAACTAAAATATGGTTAGAAAAACAATATGAGGCAGGAATTTCAGGTTTTAAACTACATCCTCCGCATATGTGGATTAAGCCAAACGATTATAGAGAAGAAGAAAAAGGAATGAAACAACTTGAAATACTATACGAATTTTCTCAAGATAATAAATTACCTGTAGTAATACATACTGGAACTAGTTTTTTCCTAACTGCAAGAAATAAATACGCTGACCCGATCTTCGTTGATGACGTAGCAGTTGATTTTCCAAGATTAAGAATAATAATGGCACATGCTGGTAGACCTAACTGGGTAAATACTGCTTTCCAGTTAATAAGAATAAGGAAGAATATATACACAGATCTGTCAAGTATACCTCCAAAGAGAGTTCTAGAATATTTACCTAGATTAGAAGAAATAAATGAAAAAGCTCTTTACGGTAGTGATTTTGGCGGTCCCGGAACAAAAGGTTTAGGAGATAACCTTAGAGAATTCCTCAATATTCCATTGTCTTTACTTGCTATGGAGAATATAACTAAAAATAATCCAAGAAAATTAATCAAGACTTTAGGTTAAATTTTTCCTTAATGTTCTTCCTTACAGTTTTTTTGTCTAGTTTTCCAGTGCTTGTCTTTGGAATTGAATTTACAAAGATTATTTTGTCTGGCAACCACCATCTAGGAAATTTATTCAGTGACATTAGATAATTCCTGATATCTTCCTCTTTAACCTTATATCCTGATTTTGGGACTACCAAGGCCACTGGTCTTTCTCCCCATTTTTCATCAGGAATACCTACTACTACTGCCTCCAATACTGGTTCAAATGACATTATAGCGTTTTCTAGATCTACTGAAGATATCCATTCTCCCCCACTCTTTATAAGGTCTTTTGCCCTATCGACTATCTTTATATTACCGTCAGGGTAGATAACTGCAATATCTCCAGTCTTAAACCACTTTTTACCATTTACATTAACTATGCTCTCAAACGTTTTTTCTGGCGAATTAAAGTACTCTTGAGTTACCCAAGCTCCTCTTATTATGAGTTCTCCTATACTTTTACCATCCCAAGGTAACTCGGTTAAATCTGGGGATATTAATCCTATTTCTATACCAGGCATAGGAATGCCTTGCTTACTTAGCTTTTCTACGTCGTCTTTAATATTTACTGTAGTTATTGCTTCAGTTTCAGTCATTCCCCATGCATGATAAGTCCTTATTCCCATCTCTTTAAAGGACTTTATTAGACCTTTTGGTGGTTCAGCTCCTCCAGTTATAGCTATCTTAAGAGACGATATGTCTATTTTTTCTCTTTTTATATAATCTAAGAAAGATATCCACACTGTCGGAGCTGCTGACGCAACTGTAACCTTTTCCTTAGAAATAAGCTCTGCTAAATCTTCTGGACCGGGCTTAGGACCTGGTAATACAAGTTTGGCCCCAGTCATTAATACAGCATAAGGTAGATCCCAAGCTGATATATGGAACATGGGAACTACAGGCATTACAACATCGTCTGAGGATATTCCTATAACATCTTTTGCTAAAAGCTCTACGGAATGAATAAAAATACTTCTATGACTATAAACAACTCCTTTAGGATGACCAGTGGTACCGGAAGTGAAACACATTACTGCTCCGCTTTTCTCATCTACGTTATCGAAAGAATATATAGGATCAAAACTATCAATGAGTGTGTCAAGATCATTAGACATTATAAAAAACCTGGAATTTACTCCATTTTTTAACTCTTCAGTAATTCCTTTAAGATCTTCATCGATGAATACTATTTTATCGTTTGCAAAGTTTATTACATACTCTATCTCGTTTGGCATAAATCTTACATTTATTGTGTGAAGTACTGAGCCTATTAGTGGTACGGCAAAGTAAAGTTCTAAATGTCTTCTAGTGTTCCATGCTATTGATCCAACAACACTTTCTCTAGTTACTCCCTGTTCTAACAAAAATCTAGATAATTTCCTAACCCTTTTAGCGAAGTCTCCGTAAGTAATTTTCTCAATATCATTCTTATTTCTGGAGACTATTGTTTTCTCTTTATATAATCTTTCTATTCTCCAGAAGATATTGTTTACATTAAGATCAAAATCCATAATAGTGGATTTCATAAAATCTTTACCGAAAAGAAACTTATTAACCTTACTTTTAAGTAATATAAAAAAATCAAATATAATTCAAATATTTCCATATTCATAATTTGTCGAATACTATTTAATATTCGCTGAGACTATACAATAGTTATGTGGGAAATACAGTTTTACAATGAAAAAGTACTCTTCGGTAACAAATCTATAGAAAAATTAAAAGAATTAGAAATCAAACATCCTATCATAGTAACTACAAAATCTCTCATAAATTCGGAGTTGATATTAAAAATAAATGAATATATTAAAGCTGATAAAATTATTCAAGGGCCTTCTCAACATACTCCAGAAAACGAACTCGAGGAACTTGAAACTTTGATTACGTCAAAATCGGTAATAAGTATAGGCGGAGGAAGTGTTATAGACGCTGTAAAATTGGCAAATCCATATCTTCATATAGCTATTCCTACTACTCTTTCAGGAGCCGAACACACTGCCATAGCTGGATTTACGAAAGAAGGAATAAAAGTGTCTAGTAAAGTAAAACCTCCAGATATAATAATTTTAGACCCAGAAGTTATAAAATACACTCCTGAATGGCTCCTTAACAGTACTGCTTTTAGAGCTCTGGATCATGCTATAGAAGCAATATACTCAACTAGGGCCTCGCCTTTCACCGATGCGCTATCAATTGAAGGATATAAATATATGATTAATTGTTTAGAAAAAAAGGATTTACTTCAATGTCAAATTGGAGTTTGGTTATCGTCTTTGGCTTTTATGTACGCAGGACGTGGACTAAGTCATGTATTTGGATATATTTTTGGCCCAGCTTTTAACATTCCACATGGAATCACGTCATGTATTTCGCTTCCAAAAGCTATAGAATTTAACATAGAACAAGCTAAAGGAAAACTATCATTATTAGACAATGACGTTAAAGAACGCATAATAGGCTTAATGAAGAAGGTTAATCTTATGGAAAAATTATCTAAATATGCTTCTCTAGAAAACGCTTTAAAATTTTCTACTTTATTAGCAAATTTAACTAATAATAGTGAAAATCCTAGAAAGATAAGTGTTAAAGATGCAGAAATGTTTATCAAATCTCTCTTTTAAATTTATATTCTTGAATAACTATAATTAATTATGTTATTTCTACTTTGGTTTAAAGTAAAACAGCCAGAAAGTTTATCTCAAAAAAGATTAATGGAAATCTGGGAGAAAGAAGCTGAAGCTACTATGTCTGCAGTAAAATCTGGAAAGATAAATAGTAGAAGCTCTATCAATAATTATAGTTCAAAATTCATAGTCTATATAATAATTTAATATAAAAATAAATAGAACTATAAGCAATAATAAAATATCTATCATTTTAGTAATTATTCAACTCATACTCCAAGGCGAGCAAAAACACTCCTTATATAATAATTTGAAAACTTTTTCCACTAATCATATTGATTAGACGTGCTAAAGCACAAAAACTATACATTTTCTAGTTATTTTATTTCTATATTATAATATTCCTTAAATTTCAATCTAACAAAATTGAACATAAATATAATCGAGCCGATTAATAGGTAAGTTCCTCCTATTCCTAGAATTTCTATTAAAATACCACCTACTGGACCAGAAAGTGCAAAGATTCCCTTAGATATTACTTGTATGAATCCCGACGCCCTTCCCCAATACTCTTTATTTATATATCTTAACTGAGTGACAGAACCTAAGGTTGAGGTTATTCCTGATAAAAATGAAATAAGAAAGGTTGGAATTATAGCAATGAATACATAATGAATTAAGTCATAAGATGCTATACATATCGACATTATCGCTATAAGTGTAAATTGATAAAAGCCTAATTTACCTTTATTTATCCTTAAGGCAAAGATTGAACCAACTAACAATCCCACTTGTGCAGTAATTATCAAGATACTATAGTAAATCGGCCCTAAATGTAAAAAGTCTTGCACGTAAAATATCATAAGTAATTCTAAAATTCCAAAGAATAGATTCTCTAACGTAAGAATACTTATCTGTGTAAGTACTTTATTCTTCCTTACATAATTAAACCCGTCTATAAGACTTTCCTTGAAAGTAATTCCTTTTTCTCCTTCATTAAATCTATCCTTTATATTTACTGGTAAGGATAGGAAAATTGCCATGGCCAAAATAACCAGAGTAGGGATTATTGAGAATCTAAAAATGAAGGTAAGAATTATACCTACTAAAGCATTAGCTAAGAACCCTAATCCTCTAAGAATAATTCTACCTATAGATATAATCTTTTTGTATTCTTTCTCATCTACATTTTGTTTAGTCCATATACTAAATATAGTATCAGTTATATTGGCAGTGAAACCAAATACTATTGCTGACAAATAGAACAGTAAAATCATGAAGAAGAGGTTATCAGCTAATAATGCGATTTGAGATAAGAGTAAGATCATGAAAACTATTAGTGATAACATTAAAAGTATTAACTTCTTCTTTCTCGATAAATCTATGACCGTTCCAGTGAAGTAACTGAAGAAGTACGGTATCGAAGGAAGGCTTAGTAATATTCCCGTGAGTAAGCTGGAGTCGGTAAGCTTTGATATGACCCATCCTGCTAAGAGTATGAAGAAACCCTCATCAACTATTATCAGATAAGTTGGAAGTAAATTATATGTCGCCCACCAAATGGTTTTCTTCATCTTTCATATCCTCTATATCTTTCATTTTTCTTAGTTGATGTTTAAATTTTTCCCATAGTATATCATCAGCTATAATATCATTTAATGCAGCTAAAATACCTTCATATAGTCCTAGATTATAATTACAAGTGTAATTATCTACTGTAATCTTTCCGTTTTTAGCAAAATCTATGTGGCCAAGACACGCATTACAGATTTTCATTATATCGCACATCTTGCATTGATCTATTTTAGTCTTTATATTAATATCCTTGAGGAAATTCCTTACCCCAATTGTTTTTGTATTAATTAATCCTTCCTTTATATTACCCATGTAGAATCTGTTATCGTATGATAACATATAGCAAGGATATATATCGCCATTAGGCATGATAGTTACATTATTAAACCCTGCAGTGCAATGAGAATTTAAGGATCGTTTATTGATAATAATTTTTTTTATAAAATTATATATCTCCATAATTTTTGCTCCTTCTGCAAACAGATATGCCATATATCTTCCTAATTCGAAAGCCATGTCGTATATTTTCTCTTCATATAAACGTAGCAAGTCATCTGAAAACATTTTTAGAAATTCATTTCCTTGACCCACTTTGGTAAGTGGACTAATGGCCACATTGTATATACCATATTTATTGTAGAAAAATTTATAAATAAAAAGCATACTTATATTTTGTTCAAGATGTATAGGTGAATAAACGGCCTCAATAGTAATATGATCTATATCTATATCCTTTATTAATTTCTGTAGATTCTTATCAATTATTTTAAAAGTTCCTAAATTATTTCGAAATATTCTAGCTTTATCATTTATATTTTCAGGACCGTCTAAACTAACTACAATATCAAACTTATTTTTATTTAAAAATTTTATTATCTTATCATTAACTAAGGTTAAATTAGTTATTATAATATATTTAGGTAAGTACTTAATTTTATTATTTTCTTTTAACTCTTTAAAGTAATTTACGACTTTTTCAATCAACTTAAAATTGAGTATAGGTTCTCCTCCAAAAAATTTTACTAATAATCTAGAATCATTATAATTGTATTTATTAATAATTTCGTCTATTGCTTTCTTAGTATCTTCGAAATTCATATTTTCTAATTTACTATAACTATAATGACCTGCTGACGCGAAGCAATATCTACATGCTAGATTGCAATCACTGGATACATTAAGTGTTATTTCTGTAATATATACGATAGAAGTATTCAAAAAATCTAATTTAATATCTTTTGTTAGATAATAAAAAAGCTTAGTAGCTTCTTTAGTCCTAAACTTAGGCATTACTCTATGCACCTAAATTATAGTTATCCTTACCCCCATCCGCATAGTCCAATACTGCATTTGATTAACGATTCTATATTCTCTTGAGGCAATATAGCCCTTAGTTCATTTAATCTTTTTTCTCTTTTTGATTCTAATATGTTTATACTCATTTTTTCTCCCTTATTACAGTTTTCGTTAAACGTGTTTTTTTTTAACTACTGATTACCATAAACGTTTTTCATTAGTAACATTATTATTGATTAAGTTAGATTAAACATTTTTATAATTTCTATCTTATTTTAATGAAGACTATAAAATTAATTATAATTTAAGATACGATAAATTACTAGCAATCCGTATTTATAAAGACCATTTTGAATATATTAAAACAGGTATCTAGTCCTATTTTGATTTTATTTTGATTAATGCCGAATGGAATCTCTTAAGGATATAATCTTCAAAATTTCATTTAGAAAATATTTCAAAATTTTAAAATTTATTTATATAATTTAGTTTTTATTTATAATACTTAAATATGATAATATAACCCATACGTCTATAGCTGAAATTCCCCACGCCTCAATAGTTGCAGCAGAAGGCCATGGAACTACTATTGCTACTAAAGTAGCAATTATGAATAAGAGTATCATAGAAATACCTAGTTTCTTTATCTTCATTAATAGTCCTATTCCATACGTTAAAATTGCTATGTCAAATTGAATGAAAAACCATGTGGAAACAAAAACATGAGGATATGTTCCCTCATGATATATTCCTATTAAGGAAAGAAAAATTGCTGCGACCATAACGAATGATGAGCCTACAATTTCCACTTTTCCTTCATTAACAATCACTAAATATATACCATATAGGAAAGTAAATATCGCAACTATTATAAGTCCATAGTTGTATAACCACGGATCTTTAGCTATAGGTCCTCCTAGATCACTAAATGCGTTTCGAGTAAAAACAAACCATGGATTAATAAATATACTAAGAAATATGACTAGCCATGCTAATATGGCAGCTATAATACCAGAGTATTTTAAGAAGTTTATATTCATATGAAGATTTTCTCTTGATTTGTATTTATACTATTCTCCACTAAATTTTGGCTCTCTCTTTTCCTTAAATGAAGATATTCCTTCTTTATGATCCTTAGTCTTCCCTAAATAGCCTTGAATTAAAGATTCGTATTCTAAGAACTCGTTAAGGTCTGAGAAAAGCACCTTATTAACAAGTTTCTTTCCTGCTACATAAGATTGGTAAGGTCCATTAACTATGTTTTCTGCTAGTTTTATAGAATCTTGAATAGGATCATCTACAACTTTGAGTAAACCCCAATTTTCAGCATCTACCGCAGTAAATTCTCCGCCTAATATTAAAAGTGGAACTGCTTTAGGGCCTAAAAATTTACTCAGGAAATAAGCTACACCAGTATCTGAAGTTAAACCGATTCTCTGAAAAGCGGTAACAAATCTTACTTCTTTTTTGGCAAATCTAAAGTCTGAGGCTAATGTTATTCCTATACAAGCTCCTGCAGTAACTCCGTTTATTGCTGCAATGTATATCTTGTCAGAGAATCTGATTTCTGTAATAATTGGATAGAAAGTCTCTCTTAGATCTTTTGTTATATCTTGAGGAATTTCATTGACGTCAGCTCCAACACAAAATCCCTTACCCTCTCCAGTAATTATAACAGCCCTAACTTTAGGGTCCGAGTTAATTTTCTTAAGAGTTGAAATAAAATCTACCCTAGCCTCAAGATTTAATGCGTTAAGTTTTTCTGGCCTATTTAGTTTAATTATTGAATATCCTTGATGATTTTCAACTATCATTTTCCCACTTTGGTTTTCTTCTTTCAATAAAAGCCTTCATTCCTTCTTTAGCACTTTCTGAAGATAAACTAACATAAAAATCTCTTCTTTCTACGTCTAACCCTTGCTGTAATGTAGTTTCTAAGGCTCTAGTTACTGCGTCTTTTGCAAGAACTATAGATAAAAGAGGCTTAGATGCTATATCCTCAGCTATCCTAAACGCTTCGTCCATTAAAGATGCGTCTGGAACTACTTTAGCTACCAAACCCATTTTTTCTGCTTCCCAAGCAGAAATTAATTTTCCTGTTAATACCATTTCCATAGCCTTGTATTTTCCTATAGTTCTAGTTAATCTTTGAGTACCTCCTGCTCCAGGTATTATGCCTAGATTTATTTCTGGCTGCCCAAGTTTTGCACTTTCTGAAGCTATTATGATATCGCATGCCATAGCTAATTCTAGCCCTCCTCCCGCAGTTATTCCGTTTAATGCTGCAATTATAGGTTTTTTGAAACTTCTCATTCTATCCCATAATGGCATATGTCCTTTCATTATTATGTCATTTAATGGCGTTTCATACATTTCTTTGACGTCAGCGCCTGCTGAAAATGCTCTCCCATTGCCAGTTATTATTACTACCTTATTTTTGCTATCTTCTATTTTATTGAAAGCATCGACAAGTTCGTTCACCATCTTAAAATTAATTGCATTAAGCTTATCTGGTCTATTAAGCCTTAATATCCCTATTTTTCCCTTATCTTCAAACTGGATAGTTTCGTACATTTTTCATTCACCTTCAAATATAGGAATATAATGAAAGTTTATATTATTTGGTACAATATTAATCATAATGAAAGTTGCAATAATAGGAGTAGGGAATTCAAAATTTGGTAAAAGAGACGATGTAAGCGTTCAAGAGTTAGCCTGGGAATCTATAAGAGAAGCTTTTAACGATGCGGGAATAACTCAAAAAGACATAGACTATACTGTTGTTGGAAGCACCGCTTACAGAGGGGTTGAACTTTATCCTGCTCCACTAGTTGCGGAATATTCAGGGATTACCAATGTTCCTATGAGAGTAGAGGCTATGTGTGCTACTGGATTAGCTGCGGCTCTCTCTGCATATACTGCTGTAGCGTCGGGATTAGCAGATATAGCTATGGCAGTGGGAGTAGACAAAATGACTGAAGTAGATACTGCAACTTCATTGGCAATAGGAGGAAGAGGAGGAAATTATCAATGGGAATATAATTTTTACGGCACAACTTTCCCTACATACTATGCTCTCTACGCTACTCGTCACATGGCTGTTTATGGTACTACTGAAGAACAAATGGCGATGGTTGCAGTTAAAGCTCATGAAAATGCTTCGTTGAATCCTAAGGCTCATTTTCAAAAGAAGGTCAGTATAGAAGAAGTTCTAAAATCTAGAGTAATTTCCTGGCCTATAAAGCTTCTGGATTCGTCCCCAATAACAGATGGCTCTGCTACAGCAATATTTGCATCAGAATCTAAAGTTAAGGAGTTAAAAATAGAGACACCAATTTGGGTTACTGGAATAGGCTATGCTAACGACTATGCCTACGTAGCTAAAAGAGGAGAATGGACAGGATTTAAGGCTACAGTAGACGCTTCTAGACAAGCGTACAAAATGGCTAAAATATCCCCAAAAGATGTCGAAGTTGCTACTGTACACGACGCATTCACAATAGCTGAAATTATGGGATATGAAGATTTAGGATTCGTAGAAAAAGGTCAAGGAGGAAAATTTGTAGAAGAAGGTCAAAGCAAGAAAGGAGGCAAAATAGGAGTAAATCTTTATGGAGGTTTAAAAGCTAAAGGGCATCCTCTGGGAGCAACTGGTCTTTCAATGATTTACGAAATAACTAAAGAATTAAGAGATGAGTCAGGAAATTTACAGCATCCGTTAAAGAATTACATAGGTTTAGTGCATAATGTAGGTGGAACCGGACACTATGCATATGTAATGGTTATGAGGAGATGAGAAAAATGAAAATAGACGCCATACCTTTAAATCTGAATTATAAAATAAATTATCCTGATGAGTTTTTAAATAAATTGAAAGAAGGGGAAATAGTAGCTAGTAAGTGTAATAATTGTGGAGCGATATATTTTCCTCCTCAAAAAGATTGTTATAATTGCGGTAAAAGTGAGATGAGCAGTATCATATTGCCGAAAGAAGGGGAAATAATGACGTTTAGTAAAGTTGTTCAGAAGCCCCAAGGATTTGAGAAATATCCTGATTATGTTATTGGAATAATAAAAGTCGGAGACGTTAATTTGATGGCTTGGATAGTAGGAGAACCTAAAGTAGGTAAAAAAGTCAAGATAACTACCGACGGTATTAGAGTAATTGGTAAGGTGATAGAATGATAGCCTATGATGAAACTGATCCTAAATCTTTGAATTTAGATGAAATAAAGGAAGTTCAAGTATATAGATTAAGACAAGTAGTAAAGAGAGCATATGAAAATTCGCGTTATTATAGAAAAATTTTCAAAGAAAAAGGGATAACACCAGAAGATATAAGATCTCCACAAGATCTAACAAGATTGCCTTTTACTACTAAAGATAGTTTAAGAGAGAACGCTTATCCTCATGGTGGTGATTTTCTAGCAGTACCTTTCGATGAAATTGTAGGTTGGCATATGACTTCTGGAACAACTGGAATTCCTACAGTAAATGCGTATACAAGAAAAGATATAGAAACGTGGTCACAGTTAGTTGCAAGATGTTTAAGGGCAGCTGGGGTAAATAAAAACGACATAGTTATGAATATTTACGGATATGGACTTTTTACTGGAGGAATAGGACTTCATCAAGGTATACAGAGACTTGGAGCTAAGGTTATTCCATGGAGTGTTGGAAGAACCGAAGCTTTAGTAAAGGCATTAAAAGATTTCGAGGCAACTGTTATTACCGGAACTCCCTCTTATGAGTTATTAATAGCTGAAACTATGAAGAAACTTAATGTAGATCCAGATAGTTTAAAATTAAGACTAGCTATTCCGGGAGCAGAAGCCATGAACAATGAAACGCTTGAAAGAATAGAAGAAGAATTTATGCTTAAAAATAAAGGGGGAGGAGCTAGAGAAATTTACGGTCTAACAGAAGCTTTAGGACCAGGTGTAGCTCAAGAATGTCCTTATGATAATCATTATTGGATGCATATTTGGACTGATCATTATCTAGTAGAAATAATTGATCCAGATACTGGAGAAGTCCTTGATAATGGAGAAGAAGGAGAAATGGTTATTACGACGCTTACAAAAGAGGGAATGCCTTTAATACGGTATAGGACTAGGGATATAACTTCAATGATAGAAAGTGATGATGAAATTCCTTACCCTAAAATAAAAATAATAAAAGGGAGGGTAGATGATGTTATTTTCTATAAAGGTGTGAAGCTTTATCCTAATGCAATAAGCTCAGTCATAATGGGGCATCCAGAAATATATGAGTTTCAAATAGTGATAGATAGGAGAGAAAGAAACCATAGGCTACTTTTAAGAATAGAAGTTGATCAACCGTCTGATACCATAAAGAAAAAATTGATAGAGGAAATAAGGACAGTGTCTTTCGTGACTCCAGAAATAGAGTTTGTTAAGATAGGAACGTTACCTAGATTTGAAGGTAAGAGTAAAAGAGTTATTAAGCTGGAGTAAAAGTAACACTCAGCCGTTTTTCTCTTTTTATACAAATTACGAAAAATATATCTTAGGTATGCAATATCTTGTAGTTAACATTAATTTATGAGTAGACTTTATTAGGAAAATCCTTACATTTTCTCCTAGCGTTAAAAATACTTTAATGTTTTAGAAGGTAAGTTAAAAAATTATAGAAGAGCCTAAAGATCACCAATATTGAATAGAAAATCTCTAGTTTAATGTATAAAAAATTAGCTATATTTCAGACGATGAAATTTACGTAAAACTGTTATACTAGATTAATTAATACATTTAATAAGAGATTTCTATAACATAATTGTATTTTAGAGTTCTTAAAAATTTAATATAATTAAAAGATTTACAATATATTCTTTTCATTTTATTTTCTGTGAGTTTTAAGTATAGATAAGAAACTTTCTAATTCCAATAAATACTATTAACTAATACTTTTAGCTTACTTAAAAATTGAGTGAATATTTTTCATGTGTTTTTTATCTATTGTTGCAAAAATTATTGCGCCTTAATTATTACATATCGTTTCTAATTAGATAAATTGTGAAAATAATAGAAATATTTAAATTTCCAAAATCTAAAGGATTATTGGTGATAAAAATATTTAAGAAGATATTAGTTGGTTTTGATGGCTCAGAACACTCAAAAAAGGCATTAGAAACTGCAATTCTTTTAGCCAAAATACATGACGCTAAGATTAAGGTAATAGAGGCTATAGACCATCCTCCACCTGCAGTAGAGGTTTATGTAAAAGACGATATAAGGGATAGAGAAAGAATAATAAAACATAAGGAAATGATAGGAATATTATCCCAAGAGAGAGGAGTTGATATTGAGTACCAAGCTATGAGAGGAGATCCAGCTACTGTTATTTCAAAACTTGCAGAAACAGAAAACTTCGATTTGATTGTTGTCGGAAATAGAGGAATAAAGGGATTCAAAAAATTATTTATTGAAAGTGTTTCTTCAAAAGTTGTTCAAAATTCCAATAGATCCATTTTAGTTGTTAAAAACTGATTTTAAAATATCGGCACAAAATCGTCCTCATTTATATCTTTTATTTCCTCTCCAGTTATTCCTAATTCTGGCATAGCTGGCATTGAAATTCCATATCTTTTTAACGATGCTCCAACTCTTAGTACGGCTTGTCTCCAAGCTTCTTCTTTTTCTTTCTCATTAGGTATATAAAATCCTGCATTTCTTGCAATATCTTCCATTTTTTCATGCACTTCCGTGAACCATGGGGGCAATTTCCAAAAATCTTTAGGAGGTTTATAAGTTATTAATGAGAGAAATACAAATCCTGCTCGTATTTGTTTGGTAACTAACTTTCTTTTTTCCTCATTCATGTTTTTCGCACTGTCAATCATAATCAGATGAGTAAACGCGTAATGTCTTGTCTCATCAACCGCTGTATTTTTAAATACTTTGGAAAATTCTTCATTCTTTGCTCCTTTGCTCATAGTGGTAAATACAGTAGTAGCTGCGGCTTCTCCCATCATAAAGGAAGTAAATAATACATCAAACGTATACTTTTTGTATGCTTCTAGATATGCATTCCAATATCTTGAACCATTCCACCACACCCACTGAGCATTTAACATTGCTTTTCTCTCTAAATCGTCTTGTGGCTTCAGATCTAACGGAAAACCAGGAAGAGTGTTTTGTATTGATAATCCGCATACCATATTATGTCTATTTTCATCATACGTTATTGTTGTAAGAATTCCTCTCACTGCAGTATCTAAGTGAAATTCAAAAGATTTTATTACTGCATAAGCAAAAACAGGCGTTGCATTATCAAAACAAGAAAGTAAGCTAAACCAATAAGCTATAGCCATTCTTTCCTTTCTATCTAAACCAGATGCCCATTCTTTTACTTTATCCCACGATATCTGATCTTCGTCCCATTGCTCTCTTTTAGCTCTTCTATAGATCTGCCACGCTTTATCGTTATCAAAATTCCATTTTGGAGGATAAACGTTTACTTCTGGAAATTGAGGAGATTCGTTAAAATTTAAGTTAGAATACTTATCCATTGTCATCATTATATTATTTATTTTTAAACTTTATAAATCTTTATCAAGATACTTATCTTTCGTTTGATTTATTTAAATGTATATTAAAGTGTTTAAATTAAAGATTTTTTTCTATTTCTACAGGATTACTCAATTTTCCGATTTTTTCAACTTCGACTTCCATTAATCCGTTTATAGCATCAATCTTATATTCTGATGCCTCAGAAGCTTCCCTATAACCTACAGTACCGGTACTTACTATTGAAAATTTAGGAATTGTAACTATTTTAGAAAGCTCAGAAATTATCTCTTCGATAGAAAACACAAATTCGTCAGTAGTACCTTCTTGAATAACATTACCTGCATAGTAACTTCTCATTTTTAACCCTTCTATTTTCACGTCTTCCGGAGTAACTATAATAGATCCCAATGGAGCGAAGGTATCCCTGTTCTTATTTCTAAAGTGATTTCCTCTTATTAACATCTTCTTGATTTCACCGTCATTTGGATCTCTTCTCTTAGCATAATACCAATCCTTCTTAAATTCGCCTGGAGCTGTAACGTCGTTAAACACTACATAACCTAAAATATAGTCTTTAACTTGATTTTTATCTATATTCTTGGTATTTTCTTTTATTACGACACCTATTTCTACTTCTGGCCTAATACCGCTTTTAGGAGCATATATCGTATCTTTATTTCCTATTACTATTGATGGTAACTTTAAGAAGAACTTTGGTGAACCTAACATTTCTCTAGCTTCCTCTTTACTTTCTGCCCCAGTCATAATGTAAGAATTTGTAAGCGTACATATAATAGCTGAGGGAAGAAATGGTACTTGCTTTATCTCATTTATCTGATAGCTTTCCCCTTTTGGTTCAGAGAAATAATTCTCCATCTCTGTTACATAGTCACCTATGACCTCGCCTATTTTTCTCTTTCCATTTACTTCAAAATGAATAATTTTCAATCTTTTTCACCAATTTAGTTCCAATAGTTTTGAAATAATAATCATATGAGTATCCAGCTACTACCTTTTTTGGAATGAAGAATTCTAATTCATCATTTATACCTTCCCTAATATTTACTTCAGCATCGCCTTCCCAAATATCATCTATCCTTGAATCTACTTTCTCTATAGTAACCAATTCATTTATCTCTCCCTCTTTTTCTCCAGTTTTCGGGAAATATCTAATTGTGAGTGTCTTTCCGAAATTACTTAATGGAATACTACTCACTTTTTTCTTTAATGTTACTCTTAACTCAATTAATTTACTATCTCTAAGTAAATATCCACCTAATGTTAAATTTTCTTTTCTAGTGTTATATTCTGGAAGAAGTTTATTAAGCTTAGTTAAATAAATGGTGGCTAGTTTCTTAGGATATCCATTTATCCAACCCCTGACTAAAGCCCAATCCTTATCTACCCACATAAATGGAAAATATAGAAAATTCTGACCTTCGAAATTTACTTTAAGCGCAATTGCGGCTTCTTTATACTGAGTAAAGCTAGGATCTTCATACATCAAATTCCACTTGTCATTGCTAACTGTCACAAAATCCGCTAGGTATATCCATCCTTCTCCATCAGTATTAAGAAAACTTGGCAATATACCTTTCAATTTCTCATTATCAAAATATACATGTGCTCCTAAGTATTCTACGCCATAGTAATAGGGAGGTGGTGGAACTATTTGCGAATTCCCAGATTTGGAAAAAGGATGTGAATACAAGAAAATCACTTTCTCGGATCTGGCATTTGATCTAAAATATCTTTTACTAACTTTATATATTGTTCTTTCTTTTCCTTGAATACCTCAGAATACATTTGAGCCCATCTTAATGTAGGATCTCCTCTACTAAACCTATCATACTGTTCATATCTTATTCCACTTTCTGAACCTATTACATCCCACAGTAAATTAAATAGTTTAACTCTATCTAAGGCAGACAATCCTTTAGATGCCATATATTTATCTAACATTTTCCTTTCCTCTGGATTTTCAAAGTCTTTTATACCAGCAGGAATAGGAATTGATGATCCTCCAGGTATAAGTCGCAATAATTCATGAATTCTAGGTAGTGCATGCATGTTAAAGTTACTAGCAGCTATAGATATGAAAGGATTAGGTCTATATATATTAGGCAAACTTTCGCCAGCTTCTTCTGCTCCTATAAGCGCGCCTTCGTTCATAGATAGATACAATAAAATTTCGCCAAGCTTTTCCTGAACATTTATGAAGTTATTAATTCCTACAGCTTCTGCCATAGCCATGGCTAATCCTGCATAAAACTTCATCCTACAATAATGTTGAATTACAAAATGCCAATTAAACCATGTTCTTAATTGGACTTTATGCCACATAAAGTCTTCTATTTCTTCAGGTTTCTTGTAAAATATTATCCTATCCCAAGGTATTAGAACATCATCAAATATAAGTATAGAGTCAGATTCTTCAAATTTTGAACTTATGGGATATTCAAACTCACTATATTCCTTGGGATAAAATCCTCTTCTAGCTATAAACTTAACACCTTTAGTATTAGTAGGTATTGAGAAATAGATGGCATACCTAGGATCAGTATCTCTCCTAATATTTGGCATATACCAAAGCATTTCCGCATACGGACCTGCCGTACATATCATGGCGGCTCCCTTAACTATAACGCCTTCAGGAGTTTCCTTAACTACACCTACCTGAATATACGGATCTTCCCATTGAGACGGTGGCCTTGATCTATCATACATGGGCGCTACTATTGCATGGGTATAGAAATGATCTTTTGAAGTAGATTCCTTATATATGTTTATTACATTCTCCATAATTTTGTTTCCAAAAGCTTTTCCAAAATAGTCTTCAGAATGCGCATAAAATACTGTTGTCCATAAATTAAGATAGTCTGGACTCCTTCCAAAATATCCATGATAATAGTCATAAATCTTTACTAGTCCTTCTCTTAATTTTCTAAGATCTTCCTTACTTTTTGGTCTAAAAAAGCTAATACTAGTCTCTTGACCAACATCTGTGTTATAAACTCTTAATGTGTCTTCTTTCCAATGAAGATCATAATAATTAGCTACAGTTCTTATTGGTACTTTAAACGCTGGATGATCAACTAAGTCTTCAACTTTCTCTCCATTATAATACACTTCTCCATGATTTCCTTCTTTTAGACTTTTAATATAGTCTGATCCTTTTCTTATCATTTAACTCCACCCCCTTAATTTACCCGTGGCTACATCCTCCACGGGAACCCATTCCTTTAACCAAGATTCTGGTATAGGTCTTCCCCAGAAGTCGCTTCTAAACCTAAGCTGATCATAAGTCCAGGTCTTAACATTCCATTTATCTTGATCAAGAACTATATAATCTGCAGTGAAAAATTCGATTCTGTTTTTATCTAAGTCTCTGAGATATATATAGAGTCCCTGAGTTACACCGTGTCTACCTGGGCCTCTCTCAATTGAATCCCAAAGTTCGGCTGAAGCTAATATGTCAGCAGCACGTATTATATCTCTGACATCGTGAACGTAATAAGTTTCATGATGGAAACCTGGAACTTTAGAACTAGATCTGGCTATCGCAATATCGTGTGACTGGCCTATTCTAGTCATCCATATAACTGAAAGTTTACCATCCTTATCCAAGAACTGTTCTGTTTCATAAAATCCTAAGCGTTTATAGAATTCTATTTCATTTTCTAGATTTTTAACCATTAAATTTACATGAGCTAATCTAACTGGAGACACTCCCTTATGCATGTAGAACTTCATCCTAATATCGTCTACATATTCCATATTAGTATAGTATAATGTAGGAATACCCTCAGGATCATTAAATATTACTGCGTCCTCAACTCCCTCTTCTTTAAATTTTAATGCGTGTATTCCCAAGGATTCTAATTCTTCCTTTGCCTTATCTAGATCTTTTACTCTATAAGCTATATAAGCTAGCCCAGGAGAACCAGCTTTTTTCAGTATTAGACTATGATGTTGTAGCTCTTCATTACCTCTCAAATAAAGATAGTCTCCTTTTTTATCACTTTCTTTAAATCCTAGGAGGTCTTCATAAAAATAAGAAGCCTTCTCTATATCAGTAACTCTTACACATACATGTGAAAGTCTTAATACATCCATATATAAATGTTTGCAACTATATAGAAAAACAATAAATTAAACAAGTTATAGATACTTCATTACCCTAATGATCTACGATATCCTTAAATTATCTGATGAAATTATTTAAAAATAACAAAATGCTATCTAACCTTCTATTCCTACGGTAACTTAACTACTATTAGTATTTTCATTGAGAAGAAATATCTTATATTTTCTTAGACATTAAAGTGCAAGGACGTTCAATGTGATAACCATCTACAATGGGCTATATTAGATATCGTCTCTTGACCTTTAGAGTCTAGGGAAGCATAGCAAAATGATTGCAATATCATATAATGTAGCACCGTTTTGTTAAAAATATATCTAAAATTATCTTTAGGTTAAGGACTGAATAACGTTTTACTTATCTCCTCCTATGCTAACTATTTTTGCCTAATACATGATTAGTTGTAATTTTATAGCTAACTTCACTATTAAATTATAAAATATATAGATTTAAATGATAATTTCTAATAAACGCAGTTAATAACGAGAATTAGGTAAATATACAAGCTAATATGATAACATTTAAAGATTTAATAATGAATGACTTAAACTACAAAACTATATATTAAACAATATACTTAATACCGTTTTATCATGATCAGGGGTTCAAAGGGGGCGGAAGACTCCATGGAGATGGATAGCCCCCCTTTGTAAGGCTTATATACTTCTTTTTCAAATATTCTATTATGCCCGACGTAGGGTTACGCTTCAGAGCTTACGCTGACGAACAAACATTGAGGGCGTTAAAAGCCCAGTTGAGGTTATCATGTGAAGCATATAATACCCTACGTTGAGCAGATGCGTATTTTCATGAAAGAGACGGAAAAGGACTCACTAAGACGGAGTTGAGGCAACTATCCCTTGACTTGAGAAAACAGGATGAACAGTATCAACAAATATATTCCCAAACATTGCAACAGATCGCAGACAGATTCTACGACGCTAGACAGAGGTTCTTCGATGGGTTAGCACGTTACCCAAAAGAAAGCACACAAGTGGTACTCCCTAGTGTATCCCCAGTCAGGTTGGAAAATCATGAAAGTGAAGGAGATCAGGACGAAAAGCAAGAAGAACAAGAAGAAGGTAATGACGTTAAAACTGTCAAACCTAGGGATCTTCAACGTTATTGTTCATAGGGATTTCCCGCTGGAAAAAGTAAAGAGGGTAGTAATCAAGTTAACACCATCAGGGAGAGTGTACATTACTTTCGTCGTGGATCAAGAGTACCCTCAACTCCCAAAGACAAACAAAGTAGTTGCTGTGGACGTTGGTGTAGAGAAACTTCTCACTACCTCTGACGGGGAATATGTCCCCAACCAGAGGCCTTATGAGAAGGCGCTCAATAAGACAAGGAGACTTCATAAAGCTCTTTCAAGGAAGAAGTTCTTGTCACACAACTGGTTTAAGGCAAAGATTAAGCTTGCAAGGGCTTATGAGCACTTGAAGAACCTTAGGATGGACATGTATATGAAACTGGGGAAGTATTTTGCTGAGCATTATGACGTCTTGGTCATGGAGGACATTCGCGTTAAGCAAATTGTTGGTAAGTCTCTTCGAAGGCTGAGGATGAGGCTTCATGATGTTGCTTTTCATGAGCTTAGAAGTGTCATGGAGTATCAACTTGGGAAATATGGTAAGGAGATTCGTTTTGTTAATCCTGCTTTTACTTCAATGACTTGTGCTAGGTGCGGGCATGTTAAGAAGGACTTAACTTTGGCTGATCGTGTATTTGTCCTAATTGTGGTTGGACTGTAGATCGTGACTATAATGCTTCTCTCAACATCCTGAAGAGATCGGGGTCGGAACGACCCTCACTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTATGAAGCAGGAAGCCACGTCTGTTAGGGCGTGGCAGTTCATCTTTTCTCTATCGATAATTCTCTCTATCGATAATTTGAATTAATTCGTCCTTAGTTATACTTCCATTATAGTACATTTCTATAGCATTTATAATATCGTCCGGTAAATACTTACTTGATCTACGTCTAGTTGCGAAATAGACTGGAATAATAAGTCCCCAGCCTAACACTAGTATTCCTCCTATTATTTCGCCATAGATATCGGTGATATTCATAACACCTTCAAATACTAGTTTACCCTCGATGATGGAGAAGTATAGTCCAAGAATAATAATCGCTATGAATACAGAAATTAGTATAGAGAGAAGTATTAAGATAACCCGAATTAAAGGATCTTTAATTGCATAACTCATGTTTAATCAATAGTCTATCCTAAGTAATAAGATAAAGAATCCGTTCATTCTATGAACTCGATATATCTAAAAATTATTGTTATTATACTATGATTTACTTAATCTTATTTTTATAAATCTTAATATTTCCAGAATAATTCCAATAAATATAATAATTATTGAGAAATTAATATAGGTTTTGTTATAAAATATTTTTAAACCAGTAAAAGTTACGGTAGCATTTCCCTTTCCTACTAAAGTAAAATTATTAAGAGAAATACTCTGACCTTTTGTTAAGTTTTGCAAATCTACAAATAAATCAGAAATATTGGAATAGACAGAGAAGTTTCCTTTGTTTACATAAATTTTACCTAAAGTAAACCATGGCGGAGAAGTAAAATTTGATTTTACAGTAATAGTAGTAGTGAAGGGGAAAGTTATTTCACCTAATACTAGAATCAAAATTCCTATTGATAGTAAAATTAGACCGAGTCTCATACTGAAGCACCTTTGAATGAATAATAACTTATGGCTAGAAGAATGATATCAGATAATAATAAAACAGGATAATTAAATATGCCCATAAATTCTAGACCCAAAAATAGTAAGATGATAACTACTGAAAGGAAGAAGGCTCTAAATGGTCTCTTTGTTAGAATTGTAATAATATAGGAAATATTGCATAAAAATAAGTATGATGATAAAAATTCCAGAATCCAAACTAAATTTGTATTAAAAGATGCCAGATAAAATATTATAAGAGAGGAGAATATAAAGAAAATTCCAGGCAAAATTACGTCCACAACATATGAGTAAAAGAAAACCTTTTTCCTACCTTTCATTTGTAGGAAAGTAATTATTGTACCGTCATAAAAATCTTGTCCAATACCAAAAGGTATATTTCTTAATACCAATACTACTAAGATTATTGATACTAAAGTTATTGTTAAGTTGAATACAAATTGTTGCCTAGGAAGAATAACGTTCCTCGTTGCTGGAAAAAATATGTTATAAGATAGTACTATTCCTATACTTAGAGCGAATTCCAAATCTAAATAAGTTAAAAGACCATATACTCCATATCTGTGTTTTATTAATAAGCCAACTAACCCCAACCTATTTCCCCTTGCACGCTTTTATCCAGCAAAGAATTTCTAATGTAGAATATTCTGATTCCTTCCTTGATTAACTCTGAAACTATTTCCATCAAGTTACCTCTTACTTTCAATTGGTTCCCAGAGACTTCTATAGTGAAAGATCGTAAAACCGAAACAGCTCTTTCTACATTATCTACGACAATATAGAATTCTTCTAAGAGATCTTTTCTTATCATTTTTGATACTTCGCCGTTATATCTTAATATACCATTGTTTATCCCAAGAAGATGCGTAGATATTGCTATTAATTCAGGGGCTATATGCGAAGATATTAAAATCGTAGTATTCATTTTTTTTCTTAACTTTAAAAATATATTATATACCTCAAATCTAGAAACTATATCAAGATTTGCGGTGGGTTCGTCTGCTACAATAATTTCTGGATTCTTTATGAGAGAAAATATTATTTGAACCTTTTGCCTAGTTCCAGTTGACAAATCTTTAACTTTATTCTTAATAAAATATGATAAATTGAGTTCATCCATAAGCGATATGGCATCGGAGAAGCTAGAGTTAAACTCTAAGACAGTTTCTTTTATTATATCTTCTATTGTAAGAAAAGGAGGTAAGAAAGGCTTATCTAAAATAACAGATAATTTTCTTGGTAAATATTCGCTTTTCCAAGGATCTTCACCCATCACAAGAATTTTCCCTGAAGTCCTATTTATCAATCCAGAAATTATTCTTAGCAATGTGGATTTTCCTGCACCGTTTGGACCAACAATAGCCGTTATACTACCTTCCTCTATTGAAAAACTTAAACCATGTAAAGCCTCAAAATCTCCAAACCGTTTAGTTAAATTCCTTGCCTCAATAACAATCATTGCTAAGCTATAATCTAAGATAGTATCATTAAAAATTTTTGAACATATTGAACATATATTAGTGATCTAAGACTCTTGTTTAATCATTTCCTCGTTTTCGTCAATAATCATGACCTCATCGTTAATTCTTGTATATTTAACCTTCTTAGCAGTTACAAGTAAAATGATTTTTCTCCGAGAATCGATATTATATGGCAATTTTTCTCTAGAGAAGCATTAACTTGGAAAATATATTACATATTCTTTTGACATATTTTCTATTTCTTCATCACTATAACCTAAGTTACTTAGTATTTCTCTAGTATTCTCTCCAACTTTAGGCTCTCTCTTTCCTTCCAAAGAACCTATTAATGGTAACTTAGGGATTAAAATGTTATTGAGTTTCTCCCATTCTACTAATTCAGAATTAATTAAATTTGGTATACTATTTACTTCTGAAACAGGTATATCATTCTCTCTAAGTAATTTGACTATATCATTTATCTTCATCTTGCTAAATTTATCTTGCAATATTTTATGTAAAATATCCCTATTCCCAACTCTATCAGCATTATTTTTAAACATATTATCATTTAAGAGGTTCTCCATTCCTATTGCCTTGCATAATCTAATCCATTTATTGTTATCATTTACCGCTAAGTAGAACTCTTTCCCCTCAGAACTAACAAATAGTTCGTAAGGGGACCAAAAAGGTAATTCATCCTTTCCTCCTTCAAATATTTTACCGTACTTCTGATAAGCAATTAAATAGTATCCTAACCAAGCCAGATCAGCTTGAACTATATTTATTCTGTAATGTCCAGGTTTTTTAGTTAGCAATGCCCATAGTATTGTAATTACACAGTAAGTCGATGCGTTCATGTCAGTTATTGAGGCTGGCAATCTGGCTTTACCGTTAGCTTCCATAATTCCACTTACTGCCTCAATTATTGTTCCAAAAGCAGGTGAATTTTCATACTTACCTTTAGGATATCCTTTTATTGAGCAGTATACCAATGACGGATTTACGGAAAATATTACATTATCGCTAAATCCTAATTTATCCATAGTATTGGGCGATAAGTTCTCAATAAGAACATTAGATTCTCTTATAAGTCTTAAAAGTATTTCCTTCCCCTTATTTTTCTTCAGATCTATTGCGATTGATTTTTTTCCTCTATTATTAAATAGAAACATGGAATCCCCCATAATGTCATCTATTCTAGTAGGATCTCCTTGTATAGGCTCTATCTTTATAACGTCTAAACCTAAATGAGCTAAAATTTCTCCAGCATAGGGTGCAGAAATTATATGTCCTATTTCAATTGCTCGATACATTGTATTAATAGTTATTAATAACTATTAAAAGTTTAATCAGTTAAATTTCAAAAGAAACAAAGTTTATTAAAACATTAGACCATGATATTTTTATGGAAATAGATTTAAGAGAGCTTCAATTTTCAACATATGAGGAACTGATAAACAAATTCAATTGGAATATACCGCAAAACTTTAACATAGGAGAAGCTATACTGGACAGGAACAACGAAGATAGTACCGCAATATATTATGAAGACGAAGAAGGAAATAAAGCCTCTTATACCTTTAAGGAATTAAAGTCCTTCTCTGATTCATTAATTAAATTACTTACAGAAAAAATAGGGATAAAAAAAGGAGATGTATTAGGAGTTTTCCTACAACCAAGAGTCGAGACAATATTAACAATTCTTTCAATATATAGGCTTGGAGGAATTACATTATCTATTTCTCCATTGATGGGAACTGAAGCTGTAGAATATAGGATTAAACATAGTGAGGCTAAGGCTATTGTGATGGAAGGTTCAAAAAAGGATATTAGAGAAAAATTAAATAATATTAAAATTATTCTAGTTAATGATGAAGCTAAGCGGGACAATGAAATAGAATTTGACGAAATAAAAAGAGAAGCCGGAAATTATAGTGCTGTAAAGACAAAAAGTGATGATCCGGCTCAGTTATTCTATACCTCTGGTAGCACTGGGGCTCCTAAAGGTGTACTGCATGCTCATAGATTTCTTTTAGGACATATTCCAGCATATCAGCTTTATTTCGAAATGGCACCAAAAGATAATGATGTATTTTATACTCCTGCAGATTGGGGTTGGATAGGAGCTATAGGTGACGTAATTCTTCCTAGTTTATATTTCAAGAAGCCTATTGTTGCTTATAGAAGAGAAGGAAAATTTGATCCTAGCAGTAACCTTTCAATTATGCAGAAGTATAGGGTAACATGTAGTTTTATTCCGCCTACTGCATTAAGGATAATAAGGAGGGAGATTGAACATCCTGCAAAAGAATACAATTTAAGTTTAAGGGCTATTAGCGCTGCTGGGGAAGCAGTAGGAGAAGACTTAATTAATTGGGCTATGAAAGAATTGAGTCCTAACGTAAATGAGTTTTATGGATGTACTGAGGCCAATTTAGTTACTGTAAATAATTCCCTCTGGCGTAAAATAGGTTCCTTAGGCAAACCATCAGCAGGACATAAGGTAGCGGTAATAGATGAAGACGGTAAGATAATAATTGGCAAGATTGGAGAAATAGCTGTTAAGATTAAAGATCCAGTAGTATTTTTAGGTTACTGGAAAAACCCAGAAGCTACTGAGAGAAAATTTAGAGGAGAGTGGTTCTTAATGGGAGATCTTGGAATAATGGATGAAAATGGATATATCTGGTTTAAAGGTAGAGCAGACGATGTGATTAAAGTCTCTGGCTATAGATTGGGACCGGAAGAAATAGAGAAAATAATATTACAACATCCTTCTGTGCAAGACGTCGCAGTTATAGGAAAACCAGATAAGGTAAGAGGAAATATAATTAAAGCTTTCATAGTTCTAAAACCCGGTTATCATCCTTCAAATGAATTGAAAAACCAGATACAACAGTTAGTTAAGAATAAATTAGCATCTTATGCTTATCCTAGGGAGATAGAATTCGTTAATGAGCTCCCTAGAACTGAAACAGGAAAATTAAAAAGATTTGAATTGAGAAAAAAAGAAGAAATAAGATCTTAGTCTAGCTTTATTCCTACCTTATCTGGAGGAGATAACAGTACAATAATTCCTCCAATTATAGCAGCTAAAACGTCAAATGCAGATATACCAATAACTGGATTGTTAAACAAGATTCCTAGAGCAGTTACTATGTAAGGTGCAAAAGACGAAAATGCTACACCTAAATTTATGGAAAAGGCTATATACGAATACCTAACATTCGTTGATATATTTTCTGATAGCCATGCAGGAAATAGCGAATATTGAAATGCAAATAGAAAACCTAATAATAACCCTGCAAATATTGCGAAAACATACGATCCACTGTATAATAAATATACCATAGGATAAACTAAAATACCTATTATGAAGCCCGTTATTGCTATTAACTTTTTTCTAGCCTTAGTAACGTCACTTAGATATCCAGTTAATGGAGAAAGAAATAACCAAATTAAATTAGTAGCTAGTACAACATCATCTATTTCGTACGCTGTTAAATCTGTGTGAAGTTCCAAAAATGTAGGCATGTAGGCTATAATTCCGTAATAAATTGATCCACTAGCAAAAAGAACTATTGTTGCAATAATTACTAGCTTCCAATATTTTTTAAAAACAGTAATTATAGGAACTTTTTCTGGCTTATTGGCTACTTTAGATAACCATTCTACACTTTCACCCACTTTCCATCTCACAGTTAAAGCTATTATTAGAGGTATCGCACCAAACCAGAACATAATTCTCCAGCCTAAAGTTCCGAAGGCATTACCAGGAGCTAGGCTTAACGCTACTTCATTAGCTATTACTGCGAATATTAGGCCTAAAGCGGCTCCTCCTTGTTGAATTCCGCCAAATAGTCCCCTAAGACCGTCTGGAGAAAATTCTGAAACCAAAGTCATTCCTCCACCCCATTCTCCGGCTAAAAAGAAACCTTGCAGCATTCTTAACAATACTAATAACGCAGTAGCCAATACACCTATTTGATAGTAAGTAGGTAAAAATCCCATCATAATAGTGCCTATGCCCATGCCTAATAACGAAATAAACCATAACCTTTTCCTCCCTATTTTATCTCCAAAATGTCCGAAAAATAGGCCACCTATAGGTCTAGCAAAATAGCCTATTACTATGGTTAATAGGAAAAGCAGTAAACTCGCTATTCTACTCGACGAAGGGAAAAATAGCGGTGCTATTGTATTAGCCACATATAAATAAACTACTAAATCAAATAGCTCAAATCCCCATCCTAAATTGGCAGATAATGCAACCTTTAATGCAGTATTCTTATCTTTTCCACCATTATTTGCCATATCAATATAAGTAAAGAGATCTTATTAATAAATATTATTATATTATACTTTACGTAATACCTTTAATAAAATATCTGATTAAAATATTCAATAAATATCTTAGTTTAAAGCCTCAAAATCTCCAAACCGTTTAGTTAAATTCCTTGCCTCAATAACAATCATTGCTAAGCTATAATCTAAGATAGTATCATTAAAAATTTTTGAACATATTATCTTGCTTAATAGAGTTCATATCTTGTACCTCTTGACTTATTTCACTTAAACCTATTTGCGGAATTTAAACTGCTTAAAATAATAGAAAAATATATTTTCTTAAATATAATATAGATAACGATGTTATCCTTTGACAAAATATAAATAACGGTATATTATATCATTTTTATGCATAAAATGCATGGCAAACAAGTATACCTTGCTATCATAATTTCCATAATAGTAATATTGACAATAATTTACTATCCAGAAATCAATATTATAGTACAACAAAACGTTACGCTACCTAACTTCATAAAAATCTTCCTATACTCAAATGGAAAGCTAATAACAAATGGAAGTATAACAGTATTCGTATTCTACCCAACAGAACAAGGTACAGTATTTAAAAGAATATTCAATTCCTCACGACAAGAATACTATCAATTTCCTGTAAAAGATTTATTAAATTGGGCAAAAAATTGGTTAGCATATGATACTCAACACCGTACTTTAATATATCCTTCAATAATAGTTTTTGCATCTTATAGTATAAAAAATGAAACAACAATAGAAACATTAACGCAATCATTTTCTACATCATTAAACATTTCACAAATAATTAGAGGAATAGGAGGAAGAGATATACAAGTAATATTCAATCATCCAATAATAAAATATATCAAAACTAAAGATTTACAACAAAAAATAGACGTTGACACTACTACAATAACTACTACAATAACATCAACTATCAGACCAGGATACGAAACTATAACACTTAATCCTCATATACTAGGATGGTATCCTAGCAATTCATCAGTAGGTCCAATATCAATAGGAACAATAATAGGACCGACAAATATTACCGAATATCGTGCAAGTCTTTTTGAGGAGATAATTAATAAAGTAACGTCCTCAGAGAACGTTGGATTTTACATTTCTCAACCGCTATTAAAGCAACTTCCAGTAAGGGTTACTCTTCCAGGTCCCTCTTTAACGCTATACGATACTAACGACCTAGTAAAGTCTTATAATACTACTCCAATAGGTTCCAGTACTCCTTACGACGTTGGGCAATTATACATTATCGGTCAAGTAGCTTGGGTTAATTGGACTGAAATTTGTTATTATCCAAAGTTCGGTATAGAGCATGTTAATCATTTCATTCAAGTTATAATGACGTCAGTAGTAGCAGAGGAAAATGGTGACGCTTTTGCACCAAAAATAGATTCCCATTGCGTATATTCTATTTGTAATTCGTATAATGATTTGCCTAGAAACTCTTATTCATATTCTAAATCTTCTGTTCGCATTAAGGGAGGTGGTGGAGGCTTAGGGCTCATTGCTCCTGTTTACTTTAATAATTTAACTAACATTGGGTCTTCAAGTAATTTTCAACCATTCAGGTATGATACTCTTAATATTATTGGTGTTAATAACGACTATCAGATTGGAGTTAACGTTGGTGCTTTACTTTCTATTGCAATGCCAGAAGCTTCGCCAGAATTACTCGCTACTCTCGGCATGGTCAATATAGGAGTTACTTGGGAAAATAGTCAACTTTCGTTAACCCAAGCTACTGTATGTGCAGATAATTCCCTTATTACACCTCTCAATGTTTATTACTCAAATTATAGTGCTTTGTATTACATTAATGGTCAATATTATATTATACCTGATAATGTTTATTATTTGAATTATAGTTAATATTTATTGTGCATGAGCAATAATATAGTTCTTAAGAATTGGAGTTAGAGTTACCCATTACGATAATATTTTTATCTCACAAGATAATAAGGAGATTAGGGTGTTACAAGCAATTAGTGTATCAAAACGATATCATAAAGATTACGTGCTAAAAAATATTAACTTAACGTTAAATTCAGGAGATAAAGTTGGTATAGTTGGTTTGCACAATTCTGGTAAGACTGTACTTATGAAATTATTAGCAGGTGATGAAAAACCGTCTTCTGGGAAGATCCTCATAGATGGAAATAAGCTAGATAAAAGAAAGATTGCATATATTCCTCAAATTCCTCTCTTTGATCCTATACTTAAAGCTAAAGATATAATAAGGTATGTAGGTGATGAGGAATACTTGGAAAAAGTAAATATAGATAAGGAAAAAAAGATAAAAAACATGTCCCTTGGAGAAAAGAAGCGATTGTCACTAGCTTTGTCTTTATCGTTTTCGCCAGAGTATCTTTTAATCGATGATATCACGATGGACGAAGAGTCAAAAGAATTTTTTCTAGATTTTATTAGAAAATTTCACGGAGGAGTAGCAGTTTCTTACCATAATTTGAAGGACGTATGGGAAGTTATAGATAAGATTATAATACTCTCTAAAGGATCTATATCATTTATAGGGAAAAAAGATGATATAAAATTCAAAATAATTAAGATAAGAAATTCAGCCGATGTTCTAAGATTTTTTACTAAATACTATATGAAAGAAGGAGAGTATGTAGAAATATGGGAAGAATTTAGTGATAATAGCGTAGAAGAAAAACTAAAGGCTTTAGGAATAAATTACGATACCATAGAGGCTTCTCCAGATGAGATTTTTCTCCGTTTTTTCGCTTGAAATTAAAAGACTGTTTTCACTATTTTTTCTTATAGCAATCTCTATATTAGTTGCTGTAAGTCTTGCTCAGTTACATTCTCCATCATTTAATATAGTTGGAGTAATTGCATGCTCTTCTGATGGCGTAGAAATAGTTGGATACGGATTTAACTTTGACGGACAAGGAGTTCCATTAACAGTAAATATTTCTATAGACGGTATACAAAAAACTGTAGTGAGCAATAATGGTACTTTTTTAACTTTTATTCCAATTTTTTTCCCAAATGGATCTAATATTACAATACATATTCATTCAAACAATGAAACCTACGTTATATCTAAAATATTATCAAATAACTTTACGACATTTGCGGAAACTTCAATAGATTATTCAAAACTCGAATATAATAATATTTCTATGGTTTATGTTAAAGGGATTACTGTTATTGCTGCTTCTCCTTCAATAAAATATGTTTATGTAAATGGAGAAAAAATGAACGTGAATTCAAACATATTTACTGTAGGTTCAGATAACGTTAAACCTCCATTTGGAAAAATGGATAACTTAAAAGATTCTCAGATAATTGGAAAAAATATATATTATATTTTATCTATTATTGGAACTAACATGGGTCTTGTTTCAATTATCGCATACTTCTATTTATCAGTATTTCCCCGTAGGCAATTGGATTTAATATTTAGAGTTGCTGGAGTTAGCAAAATTTATTTGAGTAAGCTGTTTTCGATGTTAATATTAACACTCTTGATATCGTTACCTTCAATAGCTATTTTCGCTGAGATTAAAGGGATATTTTTATCTTCAATAACACCATATTTGTTTATTATGATCATGTACTCTTTGGCAGTTTACGGTATTTCTCCTTTAATGAAAAGCAAGGAATTAGTATACACCACCGTTATAATTGCTGCATATTTATTAAATTTGGTATTTTATAATGCTGAAATTTTAAGTACAGTAGCCTTAATACTTCCGTTGATAGGCTTCATTAAACTATGGTGGGGGCACAAGTGAACAAGCTATCACTACTTATCATGGTAATATTTATATTATCAATAACAACTTACGTTCAAGGTCAATCAACAGAAATTCAATCGTCTGGTGCTGAAGATACAACCACTATCCATTACTCTATTATCACTCAAATAACATACGTTCCACTAAATAATACTTACGCCGTAATAGTTGAGAAGTATCTAAATAACGGAACGATTATAACAATATATGAAAACGGAAATTCTATTAGTTTATATTGTGAAAATATAAGTATTGGAAATATAACACACATAACGTTTCCTCAATTTAAATACGTATCAAATGCATCATCTATGGTTATTAATATTCACACTAAATTATTCGAATATAACCTACCTCCTATAGGAATATTTGTATATAAAGACTATATTATTGTAGAATTTTCACCATATTCTAGTTATTTTAAGTTCTATGTATTTAACTCTAAATTAATTGAGATAAATCAATTTACACTATTTACAAAAAATAATATAAAAAACGAGGGAATACTAGGAATATCTGGAAAATATCTTCTATATTATAAAGGGAAAATAACTTATAAGAATATTACGATAGAGGGAAATAATACAGGAAGTTTCTTAAATTCATTACTTTTACCACAAATAATATTTTTTACAACTAAAAACACTACATCCCTAATAGCAACTATCCCAGAAATATCAAACATAACTGTCTATATGTATAATTTGTTAAATGGAAATATTGAAAATAATATATACTTAAGAAATGTTACTATCTACGAGTATCCATCCCTTGTCTTAGTACATAATATCTCTGCTATTACTGCTAATGGAGTTTTTTTATATACTAGCCAAGAACTAATTCCTGCTATTGTTCAAGGAGTAATGTCTGTTAATGGAGAAACATTAAATTGTACATTAACTACATCTCTTTCAGATTTTATATATAAGGAAAAAATATTAGATTTAGAAACGTTATGCTACAATAATTTCAGTATTGTAAATAAGAGATTTTACGTTGTAAATCTTTATAACGGTAAAGTTAACTTGTCTCCAAAATATAATATATTAGAACAAATTATATATTGTAATGATTTAATAGTAGTAAAAAAGAATATTATTTACTTTTTCCCATTTAGCATTTATAAAAATACATATTTATATACACCTAATTTTACGTTTTTAGGAAAAACTAGCTTCATCCCAGCACAACCTATAAACACTATTTTTATAAATATGCCTCCTTCTTATATGGTACCTTATATTGTACCAAGAATATCGCAAATATTTTCGTCTTATAATCCTGAAACAAATTATATCTACTATCATGGATATATTTACTTAAGTAATTACTTAGATACGCTAATTATACATAATAATCGATCTATTCAATTAAATAATACTATGTTATATTTCTTTGGAAAGCCTATATTAATTGAGAAGGAATTAGGAGGATACAAAGTAATGGAACTTAACGGAGACAAAATCTTAAAATACGTATATGTGAAGGCAAACAATTTTTCTACATGGAATACAATTACAATCAATAAAGGAGAGATTATAAATCAGAATGAAAATAGTACTACAAATGTTACTTATTTTACAGATACTGTATTTTTAGGAGTAGGAGATTTTATAATATTTCACGACAATAACACGAATATATTACTTGAACTGTCTAATCTAACCGCTATTAATTTATTTAACACTAACCTTATAGGAGTTTATAAAACGAATCTTATTTTAGTTAACGAAAAGAATCTTCAATTAGCTAATAACTATAGTCTCACTAATAATTTAATCTATAATAATATTAACATTAATATTAAAACATTTTCAGATTTGACAAATTATTCATTATTTCTAATTCCTCTATCAGTGGCAATTATTATTATAGGACTTTTAAGGCTAAGGAAAATATTATGATATGAAATACTCATTTTCACTTTTTTCTCCCTTCTTCCGTCTTTCTTCTTCCATTTTTCTTAATTCGTTTCTCCTTATCTTACCGCTAATAGTTTTAGGTAACTCTGGAACAAATTCTATTATTCTAGGCGCTTTATACACCATTAGGAGTTTTTTGACGTGATTAGAGAGTTCTAAGGCTAATTCGTACGATGGTTTATATCCTTCTTTCAATACTACAAAAGCCTTTACAATTTGCCACCTATTAGGATCTGGAGATCCAACAACTGCTGCCTCAGCTACAGCTGGATGCTCTAGGAGAGCGCTTTCAACTTCGAATGGACCTACTCTATAATCTGAAGTTTTTATTATATCGTCAGCCCTTCCTACAAAATACCATCCTTTTTCAGTATAAAATGCCTTGTCTCCAGTATAGTAGTAGCCGTTTCTAAATGAAGCTTTATTTTTCTCATTGTCCGAATAACCCTTAAAAAGTCCTATAGGCCTTCTATCTAATTTGACTGCTATATGACCTACTAACCCTTCCTTCACTTCTTTACCTTCGTCATCCAATAATCTAACATCATACATGGGGGAAGGTTTTCCCATAGAACCTGGTTCGCTAGTATCCCAAGGAAAGTTCCCTATCATTGCAGTAGTTTCAGTTTGGCCGTAGAAATCTCTTATAGTCTTGCCAAATTTATCTTTCCATATTTTTATTACTTCAGGATTCAAAGGTTCTCCCGCAGACACAACTTCTCTTAATTTATCAAATTTATAATCCAGTTTTAATGTTATAAATTGTCTCCATGCAGTTGGAGGAGCACAAAAGGTATTTACTCCAAAACTTTCAATAGTATCTAAATATTTTTTAGGATCTAATTTACCGGAATAATTTATACCTAAAACAGTAGCTCCCATTATAAACGGAGAAAAGAACGAACTCCAGGCAAATTTAGCCCAACCAGGTGCACTTAGGTTAGCATGTATATCGTTGCTCTTAATGCCTATAAAAGACGCAGTAGATAAAGATCCTACTGGATAACTAACTGCTGTATGTATTACCCTCTTAGGTAAACCTGTAGTTCCAGAGGTAAAGTAATTCAAAATTTCATCATCAGGATAAGTAAGTTCTGGATATGCACTATCACTTTCGTCTAAAATGGAATCATAACTTATCCAACCTCCTTTTTTACCTATTACTATCTTTAAAGTGTCCACATTAATCTTTGTAGCACTAACTTCGTCTGCAATTATTGCTTTCGGTCTTAGGTCTTTGAATCTATAATTAAGCTCGTATTCTGTTAAGTTAATTGCTGTAGGAACACCTATGAATCCTCCTTTAATTACTGCCAATAATGAAATCCATTGCTCTGGAATTATAGGAGTCATTATATATACTGGATCTCCCTTTTTTAAACCTTCTTTTCTAAGAAAATTCAATAATTTATTAGTTTGAAGAGACAAATCTCTATAAGTTAATTTCTTTTCCTCGTTCTTATCCATATCCACCCAAATTAACGCAGTCTTTTCCTCAGTCTTTTCGAAGACTTCTGATACCCAATTAAAGTACTTCGGATTAAAGTTGTTTGCCTCACTAAGTATGGAATATATCTTTCCTATATCTCTTTCATTCATCGCTTTCCTAAACTCGTCGAAAAGATGTATCATAATATAAAATTGATTAATCATATAAATAAGCTTTTTTTAATAATTTATCAAATTAATTAAAATTAACTTTAAATATCTTCATAAAATTATCTCTCATAATTCCACTATCATAACCTAAAGAGGAAATTACCATTTTTGCATGACCTAATAATGTTTGACCCTTATAATTGGGAAAATCACTTCCATAAATAACCCTATCCCTAATTTCCTTTATGCCAGGTAAATAAGAAAGTATTTTTAATGGAGGTATCGATGAAATTTCAAGATATACGTTTGCATAATTTCTTGCCATGAAATAGGCGTTAGAGGTCCATAAAGGCCTTCCAGAATGGGCTAAAACTATTTTTAATCTAGGAAAATCCTTAATAACATCATCAATATATATGGGATCGCCGTATTTATTTCTGGACATCGATGTATTGCTTGTACCCGTATGAAAAACAATGGGTAATTTCATGTCTTCTGCAAAAGAATATATAATTTCAAGATTTTTCAAATTCCCTTCTTCTTGTCTATAGGCATTAGGCTTAAAATAATGATGAACTGGATGAAGCTTTATTCCAATTATGCCCTTAGAATATTGATTTTCCAATTCTTTCTTAACATCTATATTACAATTTGGATTTATAGTTCCCATCTGTAAATATACTGAACTAGTTTTCCTCAATTTAAGCTGAGAATAAAATCCATCGGTGCAGGATTTATTCCCACAAGGGAAAGAAGGAATTAATACTATATAATCAAGCTCTATTTCCTCATCAGCAATTATTACTTTTGGTTCATTTTCTAATCCTATACTTTTAAGAAAGTCGTAACAGTGCGAAGGCATATTTCCCATACCTAAATGAACATGAGAGTCAATAACATGATACATAGTAATCACTTCCTAATCTTCTATAGACTAAAACTCATTGCGTCTAAGAATTAAATATTTAACGTGTAAACTTTAATATTATTAATATATTTCTCTTTTTATGGATTACCGTTTAAGGACTTATATTATAGGGAATGGTTTCGGATCTTTTGGAATGCCATTAATGGATATGACATTATTATGGTTATTATACGAAATATTGAAAAATCCTATACTTTATATTCCAATTGCATCTGCTAGACCTATAGCCATTATTTTATTTTCTTCAATTTCTGGTTATATTTCAGATAAACTTGATAGAAGAATTATATTATTGGTATTTGGACTTTTGAATAGAATATTTGTAATAGCTACATTAATTTCCATTATTTTCAACCAACCTATACTTTCTATAGTATTTTTCTTAATAAGAACTATAGGTCAAGTTAATACTCAATTGGCAGGTTCTGCGGCGTTTTTGCAAATATTACCCAAAGATTACGTCCAAAGGGGAATGTTTTTTAATAGACTAGTAAAAGAGAGTTTAACAATAATAGGAATATTAATATGGCCTTTCGTTTTTTATAATATTGGCGGATTAGTAGCCGTAATAGGAGTAGTAGTTTCATTAATTAGGTCTATTAATTCAAATAAGAATAGATCTAGGCGGTAGAGGAAAAGAAATTCACTTTAGAGACGGTTTCATAGAATATTTAAAAAAGAAGAACATATTCTTCATAAGTATAGTAACTGCAATAACTCAAGGTGCTTTATCAATGGTTTATCTATATCCAGCAGCTTTAATTCAGATAATGCACGGTACTACTTTTCAATATACTATAGTTCAAATAGGATTTTATGGTTCATGGTTAGTAGGTAGTTGGATAATGATGAAATACAAAAGTCCAGTTAAGATAATTATTACTTCAATGTTCCTTAACTTTCTAGTATTTATTCTTCTAATTCCATTTAATCCATGGTTAATAGCACTTAGTGTAGCTTCAGTAGGTTTAGGAGACTCTATCCATGAATTATTATGGATTAAAATCTTCAGAACCGCCTCTGAAAAACTTCTCGGAAGTGTTTATGGCGTAGATGAATTTGTAACTAACTTATTCAGATTAGGTTACGATTCTATTGCGGGATATTTCTATACTGTAGATTTTACTATAGTACCTATAATTGGATTATTGACAATAACCGCCGTGAGTATTTCTTATGCGTTTTCAAAAAGTTGGAGAATAAAAATATGAGTAATTGCTAATTATTAATATGCTCTTAAACGTGATATTAATTTTTTTGTATTAAGAATGAATTCCACTAAAATAGAAATTAAAAATATAAATATATTCAGATTATTGTAGTTCGTCATCTAAGTAATCTAAATAAAATTCAATTAATTTTCTTTCTGCAGCTCTTAAATGATATAGAAAAGTTATTTTACTTATATTTAATTTTTTAGCCAATTCCTCAGCGTCCATTATTCTAGGATAATCCAAATACCCATTACTTAGGGCATATCTTAATACTTTCAATTGAGATGAAGATAATTGAGGAATAAGTCTTGGACAATCCTTTATTTTTACGTCAACTATTTTACCCATGGAACTGAGTCCATTTATTATCTCATTAACCTTATTTTTAGTTGTAATAAAATCCCAGGTCTCCTTACCATTTCCTATCATATTCCCTAGGAAAAGAACTTCATTATCATAAAGGTAACCAGCTATCGAATCTTTATAAGTATTAAGAAAATCCACAAGTATTGTAGAATCAACAGAATGTATATGATTTATTTTCTTTATACTATCATAATTTTTCATTTTAAGAACTTCTTTCCTTAAACCTTTAGGAACTATAATTCTTGATCTTAAATATCCCTTTTCTGGATATACATTATAATTTATAGTATATATATCCCTAAGACTCGGTAAATTTGTCCAACAACCTTCATGAATAATCGTAACTTTAACTCTGTTTAAAAGATTCATATAATAATATACTGTAATATTTATAAAATATTTTTCGTATAAATTTCTAATTAAACATAAAAAAAATTTTTATATTCTAAATTTCATGGAGAAATCTCGTCCAATCTCTTTCCTGTAGTCATAAATCCTAATGCTAAGGCTATTATAGCGGCAATAACTAGAAAGCTAGCTATAACTACAAAAAGATCGAGAACAGGCAGAATTGTTGCAAGTATAGTTACTCCTACTACACCTAATCCTCCACCTAAATGTCCTAAACCGTCATTAAGTGCAAAACCACTTGTTCTAGCCCTTGTTGGAAAACTTTCCATAGTCCATGTATAGGCTATTGGAATCCATACATTAAAACCAAAGAAAAGAATTATAGCGCCTATAATATCTATAAACATGTTAGGAGTTAATGCTACTATCATTCCTCCAAACACAGTAAGTAATGCCCCGATTCCTAACCATATCTTTCTAGAAAAATGATCGCCGAAAATTGACGCGATGGGACCAACCAAGATAAAACCAATTACTCCCATAGCTGATATAATACCTGCTTCTGATACTCCATAACCTTCTGCAGTTAAAAGGGAAGTAAGACCTGAAGCAATACTATATACAGTAGTATAAGCTAAAAACCACATTGGAAGTAGAACAGCTAGTCTTTTCAGATACAATTTATTTGTCAATATCTCAGAGTAGGGTACAGATACTGATTTAGTAATTTGTGGTAAGACATTAGGAAGTGGAGGTAATTTCAAGCCTTTGCTAGTTACTTTTTCTTCCATTTTCTTTACAATATTTTCAGCATCAGATAATCTACCTTTAGAAATTAACCATCTTGGAGATTCTGGTAAATTAATCCTTAGAATTATACCAATAAAGGCCAATAATGCTCCTATAGCATACATTATTCTCCATCCTGCTGAGGCGAAAATTCCAGAAGCTCCTAATGCTATTGGCAGACCGTTTGGAAAAGGAGCTGGAGGAGTAGTTAAAAGGAGCCCAACCCATATCCCTAGGAATGCCCCTATGGTCGAGAAAATAAAAACTAAAGAAACATATCGGGCTCTATATTTAGTAGGAGCTACTTCTCCAATGTATGTATTTACTATAGCTAAATCTGCACCTATTCCTATTCCGGTTATTACCCTAGCTGCGAGAAAACTTAAGTAATTGAATGCTACTGCATTAAATGCTGAACCTATGGCTGTTATTAGCATTGTTATCACTAGCATGTCTCGCCTTCCTATTTTATCGGATAATGGAGATAAGGATAACGAACCTATTACATAACCTATTAGGTTCCCTAAAACTACTGGCCCCAATAGCGGTGCTGCTTGAGATGGAGTTACATGGAAAAGTGTTACAGCTGTTTGTACAAAACTTACATTTATATTGAAAATATCGAAAAAAGTAAATAATTCTCCTATTCCTATTATCCCTAAAAATATATAATTTAGTGCCCAGGTAGGAATTCTATCCATTCTTGCTATGATCTCTCCTGCTTTTAATTCACTTTCAGTCATAAAATTATGGTAAATATACGGGATTAAATAGAGAATATTAAACTAGTTAAAAAACTTAAGTTAATGATTCTTAGGTAAATTTACAGCTATAGTTTTTACATCAAAAAATCAGGATAATTCCTTTATTTTTTCTTCTATTTCACTATATGGTGGTTCTTTTCCAGGATCGTCTGATACCCATTTATAAGCTACTTTACCATCTTTGTCAATTATAAATACCGATCTTTTAGCTAATATATAACCTTTTAGATTAGGAAATTCCCAATCAATTCCTAGCTTTCTTACTGCCTCTCTATTGTAGTCACTTAAAATAGGGAAATTGATCTTATTATAGTCTTTGAAAGCTTTATTGCTAAATGGAGGGTCGACACTAACTCCTAAGACTACCGCGTTTATATCATTAAATTTTGCTAGGGAATCTCTAAACGTACACATTTCTTTTGTACATACTGAAGTAAATGCGGCAGGATAAAAAGCTAATACTACAACTTTTCCCTTAAAATCTGATATTTTAACTTTTTTCAAATCGGTATCTACTAATTCTAAATCAGGTATTTTTTCGCCTATTTCTACCATGATTATATAATAAGAAAGAGAAGCTATTTAAACTAAAGTATAATTTTATATAAACTTTATAAGTTTGTCATAACATTTTTATTAGATTATATTATTTAAAAAACTAAAACTGCCTTAGAATCAGAGCTTTTAAAAGCAAACTCTGAGACTCCACTAATCTTTACATTAGGTAAAAGATCACTTTCATAAATACCCTTTACCTTCATACCGAATTCGCAAGCAGCTAATTCCACTTCGCTTTCACCTAATTCTAGCAAATTGTCAATATAGTATTTTAATGGTTTAGCGTTCTGAAGTACTAATTTTTCCGATTCCTTCGTTACTCCCTTCAATGCATCCATTGTAAAGAACATGTATACCTTACTTCCAGCAGACACATACCCTATTGCAGTAATGAAACCCATATACAATTTTTCTAAATCTCCAGATATCATAAAGAAAGAATATTGGTCAGACAACGTTTTTCACCCTTACATATTTTACTAACGAATACCAAAACCACATTAGGCATGAACATACTGAAGCGTAACCAGCTAACCTAATAGGAATATTTCCGCCTATTATTGTGTTTCCTAGGAGAAATAGCACTATTATCTCAACAGCTATAACTATTGGAGAAACAACGTCTACAATACCATATGTTGGTTTAACGTTTTCCAATTGCTGAACAATTTTAACTAAATTATACCAAAATACTGATAATCCAGCAAATACTAGGAAATAACATATCCATAATGTAGCAGTTAAATAACCTTCTAATTGTTGAGGTACAACATAGACGGCATAATTACCGTGTGATAAGGCTATACTGTCTGAATTTACTAAGTATATTTTACTAAATTCATACCAACCTATTGCAAATAATGATAGGATTATTGGAGCTAAAAGTTTTCTTATATATACTGATTGCATCATTATAACCTCTCTTGTACTTTTACTGCAAGATACACTCCACCTAGCATACCAAACAAGAATATTATTCCGTCATACCCTATTTGCGCAAAGTTGGTCCACATTAAGCCTACATTGCAGCCTAATGCCATTCTTACGCCTATACCAACTAGAATTCCTCCTATAAATCCTATAAGGAGTCTTTTTCTTTCCTTAGGGATCCTTATCTTAAAGTCTCCACTAAGGTAAGATGAGAAGAAGGCTCCAACACATAGCATTACTACCATTAGCGTACTAGTGTCTACAATGGGTAAAGAATCGTTAAACCAAGGAGTAGTTATAAATAGATTTTGTCCAGCCATCATCATTATGTATTCAAAAAACCTGCCACCGTCTGAAGAAGTTATTACTAAGTAATTAAAAGTATAACCTGCACCAACAATGAAGACTAATAACATGTCCAAAGCTAGGATTACTGTCGTAAGGTTAGTTCCATAGGGTTTCTTTAGTAGTATAAGGTCTTTGGCTTCTTGACTCAGTTTAATTTTATTAGGAACAGAAGTTGGAGAAGGTAAATTTCCTCCTCCAAAAGATTTTACTGCAGATATTTTTGGTGCTAATGAGAAAAATGAACCAGAAGCTTTGTTCCATTTTTTCTTAGTATAATGCTGAAGATATAATCCTATACCTATTAATGGAAGAGAATAGATCAACGTAGTAACAAGAACTGAAGAATCTGAGACGTTATGAAAGAGTAAATAAGGTATATATTCAATGTAACCTCCTGACGTAGTGGACAAAATCCCTTTCTCCATTGTATAAAGCTGGAAAGGCCAAATTCCAATTGCAAATATGTAAGTACCTATCATCATACCAAATAATTCTATCCAGTTTTGTACGTAGCCTGAAGCTGCTCTATAAAGCATTGAAAGATTACATCCACCAGCTAACGCAGCTCCAAAACCGAAAATAAATGAGCCAACTAAAATATACCAACCGCCAAAGTAATTAAAATAATACTGATCGCTAGCAGGTATTATACCCAAACCTACCAATAGCCCAGCACCTAGAGCTGAAAGCCCAAAGAGTATCAATAGAGCACCGAATCTTTCAAAACTTCTAACGGTAAATATGGATGTCATTGCATTGACGAAACAGTAGTTTCCTCTTTGGGCAGACCAACCTAATATAAATCCAGAAAGACCAAAAACGGAAAAAACAATTGGCCAGCTATAGGAAAAAACTGGCTGTAATACCATAGCTGGCATTAACTCACCTTCATTATTCGAAACTTATATACTTCCCCATCCTTTAATATCTCAAATGGATACCCATGGGATTTACATAATGATGGTAACGTTACATCTACTGCTGGTTGATGATCCGTTAACACTTCTAAAATTTGACCAGTCTTCATTTTTTTGAGCTTTTTACTAGCCATCATTTCTGGAACTGGACAAGATTCCCCTCTTACATCAAGAGTTTCGTCTGGATTTCTTGTTTTTAGTTCCTCACTCATTTTTTACGCACCTATTCTAATAAACGAAAATTATTATATTTAAGACTTAACTCTTTATAAACCCTTTATAAAATTTTTCATAAATATTCTAAATAAAATAATATAAGTAAAATATTAACTTTCTATCTCCTGATTATGTAGATAGAGACTTCGCCACGTTCTGTTCTTTCTGAGCTGCATCCGAAGTAATTTAAGACTCTTACCACGTCAGCTTCTTGCGAGCTACCTTTTTCTACTATTATTTCCAAAATATCGCCTCTATTCATTTTTTTCAATTTTGAATATACAAGCATTTGTGGAACTGAGCAGCAAAGTCCTGTAAGATCTAACTTTGTCTGCATATTTTTCATTTAATACTTTAAGTTATAATCTTTTGCTTAATTATAAAAAAGATTAAATATATCATTATAAAATATCTTATGTGAGATGCTAGCTAAACTTAAGATAGAAAGCTTTGAACCATTACTTAATTTGGAAAAATTTGGAAGAATTTATTTATTGAAAGATGTTAAAAAACTTGATTATGGCTATTTGGCTAAATTGAGATGGGTTAAGAATGATTTTGAAGTTCTAATTAGAGTTAAAAGTAATACGATGGAAATAATAGACGAAAATGGAAAATTTTCAATTTTAATATGTTTCGAGAATAGAAATGCAGAAGTAACACTTAAATGTAGTTCTATTCATAAAATGCTATTTACTCCCCTTGCATGGAAAATAGTAAAAAATCTCGAGAGTTATTCGGAATATATTTCAAAAATTTCTTTAAAAACGTCAACTTACTCGAACTCATCTATTCTCGAATTATTTAGAACAAAACCTACAGTAACACTAGACTTGAGAGGAGTCACTTGCCCTATTCCTGAGATAGAATCAAAAAAGGCTATTCTACAGGCAAAACCATTTGATGCTATAGAAGTTTTAGTAGATCATCCTGCAGCTATATTATACACATTGCCGGAAGTTGCTAAATCTTTCAATTGCAGATATGAGATTATAAATAGAGGAGACTATGCATCTTTCGTATTTATAATAGGAAGAAAAGAGCATGAGGAGAATTTGAATTTAAATGAGATAAATAATATCATAAGAGATGAGAGAGAAATTGCCAAATTATATATTTATTTTGATAAAATAATAAAAGAATTAAAGATAGAAAAATTTTCTCCGGATATGTTATATGGTGAGGGTTTAACGTTAATAGTAGCATCACCAGAAGGAAGAGGATGGCTACTTACAGCGCTAGTTGAGAATGAAAAATTAATTTCTGCAAGATTAGACTTAGGAAATACGAAACTTTATGATTATGATGCAGTTAATGTTATAACTGATTTTAATGGTCTAATGAATGTTTATTATTTAAAGCATTAAAATTTATAAATAGCATTTTCTTAAAATATTACTATGCAAGATCAATGTGGTTGCGTAATAGAAAGAAAATATGCCTCTGATTTTCTTACAAGAAGAATATTCAATATCAATAAAATTCCTAAAGGATTTTCCAAGATAGGAGAGACCGTTGTAGACGGCCGAAAGATTGAACTCTTCTACAATAAGAATGACAATTTTCCTTTAAGATATAAAAGTACAGAATGTCCAATTTCAATAATAACGCTTGAAGTACTTTGCGAAGAATTTTACAATTCAAGGGAATTAACTACTGAAAGTGCTTTGTCCGCATTAAAGAAAGTTAAGGGGTTAACAATTAATAATATATCTAAAAATATAGCTGAAGAAGTAGTGAAAATAATTGAAAAGAGTGGCATATATAGTTGAGTCATCATTAGGAAATTACATTTTAGGACAAATGATAGTTCCTCAAATAGAAGAAGATAGACATAGTGTTGAAGTAAAGGGAATGTTCTTTATAGATAATAACGTATATCTTCTAATGAAAGGAAATCCTTTAGCTGAAAGATTGGCCAAGTTAAATAAAGAAAAAGGAATATATTTACAGGCATGCGACCAATGTGTGTATATGAGAAATTTAGAAGGAGCCCTAATAGACGAGGCAAAAATAGGCTGTTTTCCAGACTTTTATAAAGCAATAATTAACGAAGTTGACTTTATTATAACTATATAAATTAAGTATTACATAAAAGAAAAGAAGGGTTTAAAAAGAGATTAGATTTTTATACGTAATTTAAGTAAGCAAATTTATGAATTATAAATTAATCCTTTTGGCTGGATTTGTAGTAATTCTTGCAATAGGTTTTGGTGCATCATATCTTATGTTAAGAACGCCATCTACAACTACCAGTACCACTACTCCCATCTCTGTACCACCTTCAACATCAAGTAAGATTAACAATGATTTTTATTTTCTAGTATTTACGCAAAAAGGAATATCAATGGTCATAAATCCCTTCTCTACTTCAGCTAGCTTCTTAGGGTTCCAACATGTAGCCAATATCTCATTAAGTGTGCCATCTCAAGTATTCTACTGGGAACAATTACCTTATAATTCAATGGTGAAATTAGGGCAAAATATGTTTATGCCTTTAAATAACGGTACAGTATATGCTGTAAATTCGTCTACAATGAAAATAGTAAAAACGTTCGAAGTCGGAAATTCCACTGGATTTATAGGAGTAGCGTATTCGCCAAATATGCAGTACGTAGCAATAGCTGATGGTCCATCAGGCATAGTAGAAGTCATAAATACACAAACATTACAAGTAGTATGGAAGGATACTTTCGTTTCACCTACAGGGAGAACATATTACCCATGCGACGTAAGATGGGATCCCAATGGACAGTTTTTATTAGTTCCTATGAGATTTAATAATAGTATAGACGAAATTAGTTCTTCAAATGGACAAGTAATCAAAGTATTAGCTTCTTCTCCTGGATCAGAACCATACATGTTAAGTCCTAATATTCAAGGAAATATGTTAGCTGTAGAATTCTCAGGAAATAATTCAGTAGGTTTCTATTCTCTTCCAAATTTAGTCCTACAAGGAATAGTCAAAATGCCGTCAAACTTAGTACCGCAAAGGGGAGTATTTACTCCAAATGGACAATATTACTTAGAAGCTCCTGGTAATGCTAACGACGTAGTAATTATCTCTACGTCTAACTTCAGTGTAGTAAAAACTATAGCGTTGCCTTCTACTGCTGCGCCAGGACTTAGCGAAATTCAACTAACCCCTGGTGGAAGCTATGCATATACTGTTATTCATGGTAATGTTAAAACAGGAGGAATGATAGTTCTAATATCCTTAAGTTCTATGAGCATAGCTTATGAGGTTCCTCTTACTACCGCTCCTGCAGTAGTAGTTCCACTACAGACTAACGCAGGAACGTATTTAGTAGATAATGTATTATTGCCACCAGTGACTGGACTACATTGTTAGGTGAAAAAATGAAGGTAATTAATCCTCTTTTTTACTTTTTCATTTTTCTTTATGCTACTGTGATTGTCCCTATAGTAGTGAATGGTTTTCGTATAGTAAGTCTATGGTATAGCCCACTTTCAGATACTGGTCAGATTTCGTTTATCTCTCCATTTCTTACTTTTATCGTATTTATTTTCTTATTTTCAATATCAGTAGGTTATATTCTATATAAAAGGAAGAATAATAGATTCATACTAGTTAGAGGACCTATGAGAATAAGAAGTGTAATAAAAGCTATAATTAAGGATAGAATAGGAAGATTATTAGTTATAATATATTCAGTTTTATATATAATCTCATACATGATTACTTCAGGGATCTTACTTGTTCCTGGAATAAATATAGATTCGTATTTCGTTAAATTGACTATAATTACCTATGAAGGAAGTGGAATTCAAGTACTCAGACTAGGAAGTCTCTATTTTATTACAAATTACTTTATGCTTCTATTTGGCATATTGATAGATGCTCTCTTAACTATTTCACTTATCCTGTCATATTATATAGTTTCATTAATTTACGTATCTTACAACATATACTCATTTTCAGTTCCTAAAAGCTTTAGACTTTACGGAATGAGCACAGTAGGAGGATTTCTGACAGCTTCTGTGCCTTCTCTTGGAACTATAGCGGGAATATGTTGTTTAACACCTACTGCGCTAAATTCTCTCCTCTACTTAGCGTCAGGATCACTTCCTCTAACTAAAGGCATAGCATGGAAGTATGGAACATTCATATTAGGCGCATGGACTGGAGGAGTATTACAGATATTAAGTCTTGCATCTCCCATAATATTAGGAAGTATAATTACTGGAATTTCCATTTATTATATTTATTTAGTTTCTAAGAGAATTAATAAGGTGATGATAAGTGAGTAGAATTAATCAAAACAATTTCTGGACAGTTGTTCTTAGATTAATTACAGCATCAATATGGATAAACGCAGGAGTTTTTGGAAAACTTCTTAATTCTGGATTTTTAAATCCCAACTCTAACGCGTATGTGGGATTTACTATTTTATATTTCTCTCAAGGATCGCCAATAAGAGGTTTCTTATATGCAGTAGCTTTTCCTCATCCAATATTAACTGGAATCCTTGTAATGATAGGAGAGATATCATTTGGTATACTTCTTTTTTTAGGCTTAGGAGTTAGGTTAGCTTCTACTGCAGCCTTTTATACTAATCTTATATACTTCCTTTCTGCAGCATGGACTGGAGCTGAAGAGTATGGTATAAATCTTCTTATGATGACTATAGATCTTTATTTCATAATTTATGGTTCAAATTATTTCTCTATAGACTCAATAATTAGAAAGAAAACATCTATAATGGATAATAAAAAGATATGGATTACAGTTGCAACGTTAATATATCTAGGTGTAATATTTTTCCTATATATAAAAGGGTTATAGTTAATATTCATTTTATATATTCATTAAATTATGGAAATTTATAAATCCCTGATAAGCTTTCATATAAGGAAAAACTATAGTGAATTTAGGTATAATTCTTGTTTTTGTTGTTGAAATTTAAAAATTTATATTTTTATTTAGAAAACTGATATAAAAAGCTATATTAGTCTATTGATTAGCATTATTTGCCTTATATATTATCGCATAATAAGATTATTAAAAATATAGAAAATTATAAAAAATATTTGAGAATATTTTAGCAAAAACTAATATTAATTAGAGGTATGTTTATATATGTGGGAAATAATATGGGTAAATATGAAGAGAGAATTGATAATTACTATGGATGAAAGAGGCAGAGTTACCATACCTAAAGAAATTAGAGAAAAAATTAAGACTAAAAAATTAAGACTAAAAATTGAAGGGGATAAGATAATTTTGGAACCTGTAAATCCTGATATTGAAAAGTATTATGGAATATTTAAAAACAACGTAGGCAATGTAGATATTGATGAAGTTTTAGAAAAATCGCTTACTGAAGTGTTAAAAAATGACTGCTAGATATTTTGATGTTAATGTCTTAGTATATTATTTAACTGGAGACAAAACTTATGGTCCTATAGCCAAACAGTGGTTACGCGAAACTGATGAAAAATACACGTCGTGTATAACACCTTTCTTGATAGCAGTTATATTAGGTAGGTTAAACAATAAACATTTGCGAGATTATAATTTCGTTAAGGATATACTTAATGTATTAGAATATATAGGTATAGAATATTTGAATCTTCCTCCTTGGGATAGAATTATCGAAGTTATGAACAAGTATAAAATAGATCTTGAAGACGCAATACATGTAGCTATAGCTACTGAAAACAAACTAGAAATAGTGAGTAATGATGAGGAGTTAAAGAAGAAAGTAAATGCTATCTTTTAAAATATATTACTCTAAAACTAATTTATACATAATTATAAATAATATCAATATAAAATCACTTAGAGAATATCTAAACTAAGATAAAAGCATAAATTAAATATACGTCCAAAATAAATATAAAAATTTCAATTATTAGATAATTCGCAAAAATAATAGAATCTTATAATAGCCTTATTTATAGTATAGTAAAGTAAAACTTAATATAAGTAAAGTTGATAAACGATATGGATAAAAATGGAGCTAAAACATGAAATTAGGTCAAATTTCAATATAAACGAGAACACTGAATTTTCAGAGGTAGCAAATTACAAGGATGGAATACTAATGAGTATCCTTGATACGTTAACCTTCAATACTGATAACTCTAGAATAGGGATTTCTGTTTCAAGAGATGAAAACAATAATTTGAAACTTACAGTATTTAATATAATAAAGGATATTAAACAGGAAGGCAAAATAACTGAAAGAGAAGCAATTTCATTCATTATCGATACTCAAGGAAGAAGGATTACATATACTGAAGCAACATTTAAAAATCCTAAAAACCAATCTGTCCCTAAGAGTATTGAAGAAAAATTAGAAAACGTAGATAAGATAATTGAAAAATCTATGAGTGAAAGAGAAAATTATATGAAAAGCCTATTTAACGAAATCAAAATCAATACAAAGGTGTTTAACATTGACACCGGCTCAGAGGAAAATATTGGAATTAACAAAGAAGCCTAAATCATTTTCAGAACTAAAAAAGGATACGGGTTTGACTGATGGAGGACTATACAAGGCTCTTCAATCTCTAGAAAAAAATGGATATATTACAAAGACTGATTTAGGCTACTTGATAACTACTAAAGGAATTAAAATAATAGAAGAAAAGAAAATGTTTACACAAGGAGGTATTACAATTATATATGAAGGTATATCTGAAGAGAAAGTAAAGGAAATATATAAAATACTAAGCAATGAGAACAATTTTTATATTCATGCTTTTAGAGAAAGTGATCATGAATTAGATAAAATTTTAAGCCTATCAATTCTAATTCCAGAATTATTTGATAATAAATAGAAAATTTTCTAAATAATATTTTTAAGTATAACTATAGCATGAATAATTTTTTATCTTAACAAGGGGTTCAAAGGGGGCGGAAGACTCCATCCGTAAGGGTGGAGATGGGTAGCCCCCTTTGTAAAACTTATATACTTCTTTTTCAAATATTCTATTATGTCCGACGTAGGGTTACGCTTCAGAGCATACACTGACGAACAAACATTGAGGGCGTTAAAAGCCCAGTTGAGGTTAGCGTCAGAAGTGTACAACACTCTACGTTGGGCAGACATCTATTTTCATGAAAGAGATGGAAAAGGACTCACTAAGACGGAGTTGAGGCAACTAGCTCTCGATCTGAGAAAACAGGATGAACAATATCAACATCTATATTCCCAAACACTGCAGCAGATTGCAGACAGATTCTACGACGCTAGACAGAGGTTCTTCGATGGGTTAGCACGTTACCCCAGGGAGAAGAAAGCACATAAGTGGTACTCCCTCGTCTACCCTCAATCAGGTTGGAAAGTCTTGAAGGTGAGAGAAATAAGGACGAAGAGCAAGAAGAACAAGAAGAAGGTAATAACGCTTCAGCTGTCAAACCTAGGGATCTTCAACGTCGTTGTCCATAGGGACTTCCCGCTGGAAAAAGTAAAGAGGGTAGTAATCAAGTTAACATCATCAGGGAGAGTGTACATTACTTTCGTTGTGGATCAAGAGTATCCTCAACTCCCCAAGACAAACAAAGTTGTTGCTGTGGACGTTGGTGTAGAGAAACTTCTCACTACCTCTGACGGGGAATACGTCCCCAACCAGAGACCTTATGAGAAGGCACTCAACAAGATGAAGAGGCTTCATAAAGCTCTCTCACGGAAGAAGTTCTTGTCACACAACTGGTTTAAGGCAAAGATTCGTCTAGCGAGGGCTCACGAACACTTGAAGAACCTTAGGATGGACATGTACATGAAACTCGGTAAGTATTTTGCTGAGCATTATGATGTTCTCGTAATGGAGGATATTCACGTTAAGCAAATTGTTGGTAAGTCTCTCAGAAGGCTTAGGATGAGGTTACACGATGTTGCTTTTCATGAGCTTAGGAGTATCATGGAGTATCAACTTGGGAAGTATGGTAAGAAACTCACTCTAGTGGATCCTGCTTTTACTTCAATGACTTGTGCTAGGTGCGGACATGTTAAGAAAGATTTGACGTTGGCTGATCGTGTGTTTGTCTGTCCCAAGTGCGGTTGGGTCGCTGATCGTGATTATAATGCTTCCCTCAACATCCTAAGAAGATCGGGGTCGGAACGACCCTTAGTGCCTGTGGAGCTGAGACCTCTACCTTTGGCAAGCCTCGGCTTTGAAGCAGGAAGCTCCGTCCGTTAGGGCAGGGTAGTTCACTCCTTAATTTTAAGTAAGAGTACATTAGGTGATGAAATATTTTTCTCTTAATAGTTTTTTAGTATAAAAAGTTAAATCTGTTTAATAAGATGAGGGTATTACTAAACAATTTAAATAGATTATATTTAAATCCCAAATATTACATTCAATAAAAAACTAAAAAAACTTTTTATGTTTGGATAACTAATAGTAAATTATGGAAGAACAGATAAGTAAAGAACAGATAAATAACGATAAATGGCATAACATTAAATGCTGTTATAGACTCAGCGAAACTGAGATTTCTTGTTTTATAAAATTACTAGAATTAAATAGACCAGTAACTTCTATAGAATTAGCAGGGCTCATGAAATTTAGTAAGACTACTGTTGAAACTGCATTAAGGAAATTAACTGACGTGGGACTAGTGACTAGACAAAAATTAGAGGGAGCAAGAATAGGGAGACCAAAATACGTATATTCGCTACCAGAATATATATGGGGGAAAATAGAAAAAGATCTTAATAAATGCGGAGAAGCTATGAAAAACACGAAGCTATAATTTTTTAATATCCTATTTTTTAATATTATCGGTGATTTTTTGAATAATAAGATATTATATGAGAAGGAGAATAATATATCCTGGATAATATTTAACAGAGAAGATAAGCTTAATGCTTTAGATTTCGATACGTGGTCACAATTGAGAGATTCATTAATAAAAGCAGATAATGATGATACTAACGTTATAGTATTAACTGGTAAAGGTAGAGCATTTAGTGCAGGCGACGATATATATTCAATGTACAACTTAAGCAATCCACAAGAATCTGAACTATTTTTTGAAAACTTATTTGCTGCTATAGATGCCATATTAAATTTATCTAAACCACTAATCTCTGCTGTTAACGGCTTAGCATATGGAGGAGGCTGTGAAATTCTTCTACTCTCTGATATAGTAATAGCTGTTAACGATGCTAAGTTTTCCATATCTGAGGGAAAATTAGGCTTAATCCCCCCAATGGCCTCTGCAATAGGATATAAAGCTCTAGGTAGAAGGATAATGAGATTATTATTAACCGCTGAGGAAATAGATGCTAAAGAAGCTAAGGAAATAGGTATAGTAGATTATATAGTCCCTAAAGAAGAACTTAACTCTAAAATTTTAGAAATAGTCAAATTAATTAATAATTTAGATAAAAATTCCATCAAATCAATAAAAAATTGGACAAGAATAGATAGAAAAATGATTGAAAAAGCTGTTAGAGAACTTTCGTTTATGTGTCTTACTTCACCAGCTAAGGAAAGAATGAGAAAATTTATAGAAAAAAGAAATAAATTAACTTAGAAGACTGTTCCAGAAAGAAAGCTCATAGGCCTGAATAGTCTTAGCAATTTCTAAATATCTTCCTTTATATCTTGAAATGATCTTTTCTGCTGAGGTTTCATCCACTTTAGATTCTGCAAATAACTCAAGGAACCTTGTATCTATCCTTCCTTTAAAAACTTCTGATAGTTTTTTACAATTTTTACTCCATATTGGAAGATTTACTACTAATGCTAAAACTTGTTCTCCTGGATTTGCGTAATTTGCTAACCAAGCCAAATAATGAGTATACGCTACAGCATAGGGTATAGGCTCTACATTTTTATTAGCTACTTCTCTTAAAATTTTCAGACCTTCATAATCTCCTTCCATGGCTTGCATAAAGAAATCTAACTCATCTTGATTTATGGCCCTGCTAAACATTATCGATATAGATCTAACGTCGTGGTTAACTATATACCATTGTTGCGAATATAAGAGTTCTATTTTTTCTACAGGAATCTTACCTTCTTCTGAAAGAGATATAAATTTATGATTCAAAATTTTTTCATTAATGTCTTTTATCTCATTTCTAATTTCTTCAAGCATATAAGTTATAGGAAATAAGCTCTTATAAATTAATTTATAACTTTCTAATATTGTATAATTATAAAAAAATTAATAACTTGATTCTTCTGCCATAAGAAGAGTTATAGTATTCATAACATCCCTCATTGAAACTACTCCTATATCCTTATTGCATTCTCTTACCACTAAATGCCTTACTTTATTAAGAGACATCAGATCCAATGCCTCATATATATCTTTACTTGAGTCAATTCTTATGATGTTTTTTGTAGCCAAATCAATTGCAGGCTCTGAACAACTTTTTCCATCCGCAACAGCTCGGGTTATATCTCTTTCAGTAATTATACCTATTATTTTATCTCCGTCCATAATTAAAACAGAACTAACATTATTTTCCTTCATTTTGAGTGCAGCGTCTCGTATGGAAGAATCTTTACTAATAGTAACTAAACTTTTAGGCATAATTTGCTTTATATTCATTAATATAATATACTGACAGCATAATTAAAAAATTTATATTACTTATATCATCCATATCTTAGGGCAATACCTAATCCGTATCTAGGATATTTCCATATTATATTGTTAAATGGACAAGCAATTTTACACGCTCCACATTCTACACAATTCTCATACGAAATCACTATTTTTCCTTCAACCCAAGAGTAAACGTTGGCTGGACAGACAGTAATACACGGTTGAGGAACTCCGTATTTTAATTCACATTCTTTGCATTTATTTTGATCTTTGATTTCTAAATGCGATACATCGTCCCTCTTATATCTTAATGTGTATAATTTTTCCTCTACTTTCAAGCTATTCCACCCCATAATAATAAAACATGTTTCAAAAGTGTAGGTATAATTTCCTTATATTGAGTAAGTTCTGAAAGATCTCCTGAAGCCCAAGATTCTGCAATATTTGTTAGGAATTCATCATAAACCGAAAGATAACCTTTACCTAAAAGTTCTTTAACTAAAGGTCTAAGTTTAGATATTTCTCTTATCTCCTTAACATTCATAAGTTCAAGCGCAAATTTTCTGCAGTCCCAGTTTTCTACCGATGCCTTACCTGCAAGACTTCCAGAGATTATCGCAGGGCCTATTCCATTAAAAACTAAAGGATTTATAAGGCCTATAGCATCACCGGAAGAATATATTCCATCCATACACGATTTCCATTCTGGAAATCCTTGCTCAGGAATTATTTTTGCCGAATATTCCCTAAGCGATCCTCCCTTAACTAATTCGTTAATCCCAAACTTCTTTTCAAATGAATCCAAGACCTCGTAAGGTCTCATTTTTTTGTCTATTAGAGTCTGCATAGGAACACCTACTCCTATAGAAACTGAATCTTTATACACATAAAGGAAACCTGCATATGGTACTGGATCACTAGCTATAACTCTCCAGGATTCTCCTTCAGTATCTCCTTGCAGTTGAAAACGTTTATTTACCTCGTCTTTGCCTAATGTATAAACTTCTTTTACAGCCTGCACAGTGTTAGTTGGGGAAAATTCTGGTCTTATACCTATATTCATTGAAACTAGCGCATTGGCACCTTCTGCTAGAACTACTTTATCTCCTTCTATCTCTCCTCTATCAGTTATTACCCTATAATATTCTCCTTCCTTTTTAATTCCAAGCGCAGTAGTTTTGGTAATTAATAAAGTTCCCGCGTTTTCAGCTTGTTGTGAAAGGTATTTATCAAACTTTAGCCTACTGACGTTAAGTAGTTTAGTTTTTGGATACGTGTCAATTCTTATATCACCCTTTTCTGATGATAATAATAATCTCACTCTCTTAACCTCTCTTTCAAATGGAACTCCGTTTACGTCGAATACCTTAGCTACTTCTGACAATCTAACCATAGCTCCAGATACGTTTTTAGAACCAGGTTCTGGACCTCTTTCCAGCGTAAGTACTTTCATTCCTGCTTTTGCCGCAGTTAATGATGCAGCGCTTCCAGAAGGTCCTGCTCCTACTACAATTACATCAAATTTCATTTTCCCAACCTCTTTATGAGTTCTGGAACCACCTCAAATAGATCTCCAATAACTCCATAATCACAGTTATTAAATATAGGAGCTTCAGGATCAATATTTATAGCGATGATTTTTCTAGCTCCTGAGATTCCTACTAAATGTTGCACTGCTCCAGAAATTCCTAAAGCTATGTATAGTTTTGGCCTTATAGTATTACCAGTTTGTCCAACTTGCCTATCCTTTGGATACCAACCCATATCTGCAAGTGGCTTACTTACACCAACTACGCCTCCCAACACGTCTGCCAATTCTTCTGCTATTTTTATATTCTCGGGACTTTTTATTCCTCTACCTACACCTATTACTATATCAGATTCCGTAAGAACATTTCTTTTTTCCTTCCTCCTATAATCTAGTATTTTGTATCTAGAAAACTCATCATCTAATTTTTCTTCTACTATTTCTCCTTTTTTATGATTATGAATAGGTTTGAATACTCCAGATCTTACTGTCATCATAACAGGTCTATGATTAGGACATATTATAGTAGACATTTCTTTTCCTCCGAAATCTGGTCTAGTTGCGTAAAGTATTCCCTTACTATCCACGTCGAAACTAGTACAATCGGCTATCAAACCTGTGTTAATTTCAATAGCGCTAGTAGATGCTAATTCTCTGGAACTCTTTGTACCGGGGAAAAATATTGCCTCTGGTTTATATTTCTTTGCCACTATGGATAGAGCTCTTGTATATATATCATTATCATATCTTTTAACATTGGATTTGACTAAATATACTTTATCAGCGCCATATTCAAAAGCATCCTCAACTAGATTATCCGCTCCTATAATTACTGCTGATAAAGTAGTTGAAAGTAAATCGGCAATCCTTCTTGCCTCACTCATAATCTCCCAAGACGTTTCGTTCGGTTCTTCGTTTATATGATCAACATAGACCCAAAGCTCTCCATTAACTTTAGCTACTGGTTCTGGTTTTTTATATTCAATTTTCTCTTGTGTTTGAGAAAGTGAAATCTTTATTTTTTCTGTTAGCCATTCTGCAGCACCTTTAGGATCTTTTTCTTTATATAATTCTGGATTTCTAGTCTTTGGCGGAGGATGGACTTTTATAACTTTAGTAGGAGAACCAGCTAAACCTATTTTATTAGGCTCAGCCCCTATATCGTCCTTAGTTAACTTATGAATCTTTGCAGATCTGGACTTTATAATGCTTAATATGTCTGGTTGTCTAGGAGTATTAATATCTTCATTAACAGTTATGGTAGCAGGAAGAGGAACCTCTACAGTTTCTTCGTCAAATTCAGTTGATCTTATTACACTTAGAGTATTATTTTCTTTATCCACCCTTTCAACTTTACTTACATATCCAACAATTGGAATTCCGAGCCATTTTGCAGTTTGTGGTCCAACTTGTTCTGTTTCTCCATCCACAGCCCTCCTTCCGAAAATATATAGATCGGCATCACCTATTTTCTTTATTGCTTTAAAGACTGTATATGAAGTAGCCCAAGTATCTGCTCCTGCCATAGCTCTATCAGTTATAAGATAAGTTTCGTCAGCTCCCATAGCTATAGCTTCTCTTAAGGATATTTCTGCTTGCGGTGGACCCATTGTTATGACAATGACTTCTCCGCCATATCTTTCTTTGAGCCTAACAGCTTCTTCAATAGCATGAAGATCTGGAGGGTTTATTACTGCCGGAACACCTTCCCTGACCAAGGTATTAGTTACTGGATCCACTCTTAGATCGTCGGCATCTGGAACTTGTTTAATTGAGACTATTATTCGAACCATAATCCCTGTTTATAATTAAGAATTCATTGTATATAAACTCAATTTCAGTATTTTATATTTTAAAACGTAGTCTTCAAACTTTGTTATAACATTCATAAATATTATAAAAAATTTTCTTATGAAATTTGAGAAATATTCACAAATAGATATTTAAGCTCAAAAATCAAAAGTGTATTTATGAATACCGAAATATTTTCTTTAGATAAAATAAAAAGACTTTCAGAAGAAGCAAGAAATAATCCAGAAAGGTTCTGGGCGCATAAAACAAAATATATAGACTGGTTCAAAAAGCCAAGAACAATACTTGAGGGAAAACCACCTAATGATAGATGGTTTGTTGATGGATTATTGAATATATCTTATAACGCAGTAGATAGACACTATAAAACAAACCCAGAAAATGTAGCATTTTATTGGATAAATGAAAAAGGAGAAACAAGAACAATATCCTATAGAGATCTTTATTGTGAAGTAAATAGGGCAGCTTACGTGCTGAAAGAGCTCGGTATAAAAAGAGGTGATTCCGTTTCCTTACTCATGCCAAGTATACCAGAGGCATTGTACTTCTCGTTGGCAGTACATAGATTAGGAGCAGTTTTGGTAATACACTATCTAGGTCTTAGTGAAGATACCTTAGCCTACAGATTAAAAGACAGCAAATCAAGAATAATGATATTAGCCTCTTCCTCTTTGAGGAATGGAAAAGAGATTAACATAAAAAAAATGTTTGACAATGTATTAGAAAAATTCAATGTACCAATAGAAAAAGTTTTAGTGATAAAAAGAGGCGAAGTTGAAACAACTAATAGAGACTTGATTTACAATGATGTAAGGCCTAAAGGTAGAGTATATATAGAACCTGAAGCAGTAGAGTCTAATGAGCCAGCCACTATATATTATACTTCTGGAACTACAGGGAGACCTAAAGGTCTATATCATTCAAATGGAGGATATATAATAGCATTGAATTGGGCATTTGATTCATTACTAGGACCTAAAAAAGGGGACGTATGGTGGACTATTTCTGAATTAGGATGGCCAGTATGGCCTATGGCAAATCTCTATACTATACCTATAATGGGGTTAACTGGAGTTCTATTCGAAGGTTATATAGGCTACCAACCCGATCTCTTTTCTAGAATAGTAGAACGATTCGGAGTTAATTTAGTATGGAGTTCTACAACTACGCTTTATACTTTGAAAAGCCTTGGAGAAGAATCTATAAATTCTGGAGATGTCTCCAGCTTAAGAATTATTTTAAACACTGGAGAACCTTTAAACACAGGAGCTAGAAAGTGGCTTAGAGAGCAATTAAAAGATGTATATATAGCCGACGCATATTGGATGACAGAACACTTATTGCCAATAGCCGCAACGCCTGCTGGATTAGGCGAAATACCATACAAAGAAGGATCTGCTGGTATAGTATTCCCTGGATCTAGCTTTAACATTGTCGATGATGATGGAAATCCCTTACCTCCAAGGAAAAAAGGATATATTGTACTCAATTCTGTAAATCCGGCTATGGCAAAAATGGTAAATGATACTAATAACGAGAAAATGACAAAAACGTACTGGTCTAGATTCCCTGGATATTTCTACACTGGCGATTACGGATATGTCGATGAGGATGGGTATTTATATGTAGTAGGTAGAGCAGATGATATAATTACAAAAGAAGGAGAAAGAGTTGGTACTATGGAAATAGAAAGCATTGTAGCTAATCATCCATCAGTTGCTGAAGCCTCGGCTATAGGATATACTGATAATGATGGAACTACAAAAATATTAGTTTTAGCTGTTCCTAGAGCTGGATTCGAAAGAAGCGAAAGACTTGAACAGGATATTAAAACATTTCTAAGAAATTCTGGAATTTTTGTAGATAATGTTATTCTAGTCTCTAGATTACCTAAGACAAAAAGCGGTAAGATAATGAGAAGATTAATAAGATCAATAATTAAAAACGAGGAAATAGGAGATATATCAACTTTAGATAATCCTGACATACTATACGAGCTAAGAAATTCTCTTTCTAAAAAGTAAATATTTAGGTTTTTATGATCTCTTAAATTTTTTCTCAGAGAGGCTATCAAACCATATTTTAATCTAGCGCTAGATTTAGAATTTATCATGATTAGGGCGTTCAGTAATAAATATTTTGGTTGAACTTCAAGCATAATGTCAACTAAGATTGCCACGTGTACCTTTCAATCCACGTGGCGATTTGGGGAGGATCACTTAGGCTCATAAGGCTTATTATTATACCAAACACTCCAAACTATTCTAGCCAATTTCCTGGCTAAAGCAGTGTACAACTTCTTTCCCTTCAACTTTTCCTTATGGTTCTCGTAAAATTCTAGTAATGTAGGATTACGAGAGTAATTCATCTCAGCGAGGAAGTAGAACAAGCTGCGCAAGTACTTATTACCCTTCTTCGATATTCCCTTACTTACAGTAGCTTTACCGCTCCTCTCATTGGGTCTAAACCACAGTAGGCTACGAAGGACTCAGGGTTAGGAAAGCGTTTAATGTCTCCAACAATGCCTATTATTATCCAGAAAGTTTTCCTATTCCCGGTATAGTTAATAGAACGTGATTTTCAGACTGTGATTGTATCATTTTCTCTACTTCTTTTATTTTCTCGCTTGTTTCCAGTAGTGCTTTAGATAATACTTCGATTTCTTCAAGTACGATCTTTGTGTACTCTAAGTTGTATAATTGTATTTTGAAGTTTCCTTTAGAGAATTCTTCAAGCATTTCCTTGCTTATTTTTTCCTCGTCACTGACTAGGAATAGTGCTCTTTTTACCCTGTTCTTGTACTTTACTTCAAGGTCTTTTAGGAAGATATATAGTGTTACTAGTTCTTTCAATGGGTTGTAGTTGTACTCCTTTGCCTTGTTTGCCATGTTTATTAGTTTTTGTGCGTCGTAAAAATCTGTTTTCTTTCCTCTCAAGTCCTTCTCCTTCCATAGTATATTTGGGCTTACTTGTAGTATCTTGATCCCTTTTTCCTTGAAGTATTGACATGGTTTTATTGAGTATGCTCCTGTCGGTTCGACCACTATTGTGTTTAGTTTCACTTTTAGTATTTCTTCATAACCCTTCTTGTTGTTCTCGTAGACCCTCCCCTCACTCGATACTAGATGATCTTTTGATATGTCTATTCCTAGGATCCCTACCTCTTTATCACACCTATATCCGTGCATATTATCACAATGTTCAGTCCGATGGTAGGGGTTTGTCACGCCCCCGTTCGAAGACTTTGCTTCAGTCAAAGGGTCGACCATGTTTCCCAGTTGGAGAGTATTACTCTCCCCAACTAATTAATCTATATAGGGTTCAAAGGGGCTGAAGACTCCATCCGTGGAGATGGATAGGCTCCACATGCTTTGCCTCTAACATGGCTAGGCGATAGCTTGAAGAGCCGAAGGAACTACTTGATTGGGGTCAACTTGAGGGCCTTCACCACCTCCTCCCCTATACCTAGTCTTCTTAGTCTCACCCTTGTATTCCCCATCCTTGAGTACGTGATAAACTATCCTACATATCTTGTTGGCCAAGGCTAATGTAGCCTTTTTGGAATTGCTTGTCCTCTTCAACAAGGCTTGATAGAAGCCATTAAATTGGACCGTGTTCTTAGCGGACCTTGCAACAAGGAATAGAACGCGGGATAAGTGCTTATTCCCCTTGATGAGACCGTTGTGAAATTCGGTCTTCCCGCTCTGCTTAGTCCAGAAACTCCAGCATAAGAAGCAGCTTGTTTCGAAGACTCAAACCTGCTCACGTCTCCAAGCTCAGCGTAAATTGTGGCTGCAGAGATTGGGCCTATTCCGGGTATCTTAGTCACTACTGCTTCCTCGGGTAGGAACTTCATTATCTCGTTCTCCACTTCCTTGATTTGTTCTTCTATAATGTTCAGTAGGTCCAGGAGTTGTTTTAGGATGAACGCTTCTATTCTAGTTAATTTTCTTCCCAATAATTTGGAGTACTCCTTGATCTCTTCGTCAGTTAGCTTCTCCTCATTTAGTTTTCTCACTATTTCCTTTGTCTTCTTTTCGAAGGTAGCTTGTATCCTGCTGTTTCTAGAACTTTCCTTATCTCGTTCTTTACTTGTGTCTTTCTCTCTACTAGTCCTTCTCTGTGTCTTGACATTTCTCTTAGTTCTTGCATTTCTCCCGTTGGTACGATCCTTTTACTGTGCCTGCAGCGTAGGCTATTGCGAGTCTTATGGAGTCGTTCTTGTCTGTCTTCTTGCCTAGGACTTCAACTGTTTGGACAGGGTTTATCACGTTTACTTTTAGTCCCTTGTCTCTCAGTACGTTGTATACGTGGTAGAAGTATACTCCTGTTGCTTCCATTATTCCTTCTTCGTATCCTTCTAGGAATTTTATAAGTTCTTTGAGTCCTTCCTCGTTGTATTTGAATTCTCTCGTATCAGCTTCTTTTACTGTGTTGTTGTTTATTTCCATCTTGGTTGCAACAAGTCTTGATTCCCCCACATCTATTGCAAATACTTTAGGCTTTATCTTCCTTTCCATGTGTAATACTCTTTTTCTAATTCTTGAATTTTTCTATAATACGCGTTGTATTGTTAATTTTGTTAGGAGATAGTGCGAACTAACTATGAGAACGTCCCCTTAAATTTTTGCACACTCCTACTCGGGATATTGTCCCACATGTTAGATCGCGGGGGACGTATAGCCAGCCTACCCCATGGGGTTTTATCCCCATGTTCACTTTCGGCTTGTGTTATTTTCTTGTTCTCTTTATAAAAGTTTTACTCTTGTAAGGCTTGTCTTCTTGTTTAGGAGTGTTGTTCGTGAAAATCGCCGTAGGAGTTCACAAAACTCCGACTAATTTGAGACCTAGGGAAATTCGACTAGACCACACAATAATATTCAGGACAACTTTTTCATTATCTTTTATAAGATTAAATAATATTTATATAAATATTCTAAATTTAATATTAGGTTTTTAGTAAAGGAATCAAGAACAATTTACTCTAAGATATAAGGAGTTTAAAATTTATGTATTTTCCTAAGGACATAGGTTTCGAAAATAAGAACTGGCTTTAAGATCTTGTTATGGAATAATTTTTTAACAGACAAGATAAAAATTAGATTCAATTATTACAAGGCGAAAAAATGGAAGAGAAGAAGATAAGTATATTGAAATACGCTACCATAATATCGATCTTCATAATTATACCTCTGATTGTACTATCATTTTTAGTATATTTTCTTGCGTTATACTTTACTAAATCGTCTACAATATCTTCAGAAGTCACTACAGTAACTACAATACCTATTCTTTTGGGAGGAATATCAGCAATGAGATGGTATATGGAAAAAAACGAATTAATATCACCATTTCATAAAAATATTGTAGTCTATAATCTAGATTCTAACGATAATGTGGAAATACCAGAAGAGCTAATTAGAACTTATGAAACTAGAATGCTATACTTTCTTGAAAATAATTTATATAATGAATATTTGAAAACTCTCAGTTTTGTAGTAAGTTTCTATCTTAAGAACGCTATTGTTAATAACGACGTTCGTAGCTTTTTGAAGGCTAAGGATCTTATAAAAAAGGGAGACTGCATAGTTAAAGAAAAGAAGATAAAAAATAATGTTATAGAATTATTTCAATTAGTGAGAAAAAAAGTCGAAGATTATAGTAAAAAATTCGAATAACTTTTAATGTTTTAAATTCTCCTTAAGAGGCTCTTGAGACGTTTCTTCTAAAGGTACCATATTAGTATCGTAACCTTTCACAAACCACATAAATGATCCTCCTGCACCAAGTAACCATAGTATTAAATTAAAAATTACAAATTGTATTTCAGAAAAAGAGCTAGTAAGTTGTATAGATGCAGCATAAGAAAGCATTGGAGCAACTCTTACTAAACCTATATAAAACGCTCTGGCTTTTATTGGCATTAACGTAGGTTCGAAAATTGTCCTTACAGCCCAACCGAATTCGCTAAAGAACATATTTGCAGTTAATAAAGCATAGAAAATTCCTATAGAAAACGGAATAATTGAAGTGACTAAAAATAGAATAGGAATCATAGTCAATGTTCCACCAGAGAATGCTGCTAATGCAAACTTTCTTGATCCTAATCTTCCTGCTATCATTGCAGCTATAAATCCAGCAACTGACGCACCTAAGTTTGCTACAAATATTATTAGGTCAACCGTTGCTCCTTTAAAATAATAATCTGCTATTATGTAAGCCATTAACCCATAGGTTAGATATTGGGATACGCTTATTATAACTAGAAACAAAAATCGCGTTAGAAATGATGTCTTTTTAGGAACATGCCATATTCCACTAACGTTCTTTGGTACAAAAAACTTCTTAGCTTCTTTTTCTGCATCTTTTTCTTTACCTGCTTTAACTAGCCATCTTACACTTTCTGGTGTCATATATCTCATTACTAGTGCTATACCTACAAGAACTATAGCTAGTAATCCTAGAGTTCTTAGCTCAATTAGATAGGAATCTGAAAGCGAGTAGGTAAAATATGAAATTAAAGCAGCAACCATAGCACCTACATTGTCAAAGTTAGGTAGAAGAACTAACATTGATTCTCTCAATTTCAATGGCATAGTTTCTGCAGCATACGATAAAGACGTTGGAACTTCTCCTTCTATTCCAAAATCGGCAAGTATTATTCCTAAGACTATTATGGCTAAGAACGTAATAGATGAGGACGATATTAATGAGGCAGAAGCTAGACTAGAAGTAATAAAAATTATTAATGAACCGGTTCCATAAAGGCCCATAGTTATAAAGAAAGTTCCTCTTCTTCCTAGTTTCATATCTGAAAGAGCAGAAATACCTAAGTCTCCAGCCAGTTGAGCTAAGATAGGGATTATAAGGAACCATACAGCATTTACCGATGGATAAAATATTGGTGCAATACTTGCTATAACCCCCCACATGAAAAAGCCTATTAGCAAAGATGAGAATAATGACCAGTGAGCTTTTGACCATTTCGAGAAATCTACGTCTTTTATTGAATCATCCATATTTTTATCTAATTATTAATAGCTTATAAACTTAGTTATAGGATTTTTAGATGCTAGAATATATTTTTGATTTTATATAGAAAATAAGATATAAACTAATAATTTAGATAAAATGATATATAAGTTATAACATTCCATTAATTTAGCTATACAAAGCATTTAAATTTCCTCTTTGATACTGTAAAGATTTGATTAACTTCGAAAAATTCATTTATAAATTACATTAATAATGATTCAATAATATTCATAATAGGATAGATTTTTTTCTTTTCATTCGCACTATATTTATGCCTTTAGATCCGCAAATTAAGGAAATGCTCAACAAAATATCTTTACCTAAAATAGATTTATCCAAGATCTCTATAGAGGATTTTAGAAAATCTTCTAATCAACTTTTTAATGATCCTATTCAAGAGCCTATAGGTAAAACTCAAGATATGGAAATAAATGGAAGCAATGGCAAAATAAGAATTAGAATATATTTCCCTACTGAATACAAGAAAAAATATCCAATTATTATGTACTATCATGGCGGAGGATTTGTTTTTGGAAACATAGAAACACACGACAATATATGCCGACTACTTTCAAATATGTCAGGTTTCGCAGTAATATCAGTGGATTATAGACTGGCTCCAGAATATAAGTTTCCTACTGCAGTAATAGATTCCTACGATGCTGTAAGATGGGTAGCTGATAACGGGGATAAATTAGATCTAGATACATCAAAAATTGCTGTGGCAGGAGATAGCGCAGGAGGAAATATCTCTGCATCAATTAGCTTAATGGATAGAGATAAGGGAGAAAATATAATAAAATATCAAGCTTTAATTTATCCTGCAACGAATATGGTAGATAATTCCCCTTCTATAAATGAATTTGGAGAAGGATATTTTCTTACTTATGAATTGATGAGATTCTTCGGATTGTCGTATTTTAAAGAAGCCAAGGACGCTCTAAATCCCTACGCATCGCCTATATTTGGTAATTTAGATAAGCTACCTCCTTCCATAGTAATAACCGCAGAATACGATCCGTTGAGAGATCAAGGAGAATTATATTCCTATTTATTAAGAAAAAATGGCAATATATCTACATGCACCAGATATAAAGGAATGATACATGGATTCTTGAGCTTTTATAGATACGTAGATGCAGGAAAAGACGCTATGGCACAAATCGCTGGAGTACTTCGTTATAAGCTATAAAGAGAACGCTAATCATTCAAATTTGTCTAATGAATTCATTATGTAATTCTCTGAAACCTTTTTTAGTATAAAACGACGTAGAGATGATGTTCTTTGATGGAAATAATGCAAGAATTACACTAATATCATTTTTCTTCAATTCTGAATATAAGTAATCTAATAATTTTTCTCCGACATTTCTCCTTCTATATGCGGGATATACATAAATTTCTTGAATTATACCGACCTTTTCAGGAATGTAAAAATCTCTGTTAGCTATTACTACTCTAGCACTTCCTATTACCTTTCCGTTTTCTTCAGCCACTGCTAGTATAACGTTATCCTTTTTGAAATCTTCTTTCAATATTTTTTGGATCTTTTCTTCTAAATTGTCCGGAACTTGAAGTAATGGATCAAATTCACTATTTAGTCTATACATCCTTGAAAACATATCTACCAAATAATCTATTTCTTCTTCTTTTGCTCTTCGCACATTCATATTGAACACCTAAAACTAAATAACTTTATAATATAATTAATTTTTACTAACATAGTTTAGATAGGATTCGTTATTATAGTTAAATATTTATGGAACAGATTTTTTCTCTTCTTTTACAATACTGCATGAGAGTATAGACTTACTGTAATTACTTACATGATTAGTAGCCAACATTATTAAATCTCTTATCTCTTTACCATTAATGGAATAATATGAGAATTTTCCATCTCTCCTTGTTTTTACTATACCACAATTCTTGAGACATGCTAAATGATGAGATATAGACGATTGTGATTTACCTAGTTCCTGAGATATTTCTTGCACACTTTTTTCTCCGTTTAATAATAAGAATACTATCTGCAGTCGTGTCTTATCTGACAGAGCTTGAAACAGAAATTCTAGCTCGTTTAACAGAGATTCCATATTTTTCATATAATATTTTGTTATAAGAGTTAATATATCTTATAGAATATCATATGAACATTTGTTCATATGAATTTATATATAGGGATCCAATATATGTTTATGTGAACAAAAATGAAAATGCGTATAGGTATTAAAGACGAGGGACTAAAATGTGAACACTGTGGAGCTCCGATAACTGAGGAAGATATGTACATAAGGGAAATAAACGGAACTAAACACTATTTCTGTTGTTCTCATTGTGCCGATGCATATGAGAGGGAAAAATAATGGAAGAATTGACAATTATAGGATATGGAGCAGCAGGATTTGCTGCAACAATAAGGGCTAATGAACTAGGAATAACTCCAACACTTATAGGATATGGTCCCTTAGGAGGAACATGCGTAAACGTAGGTTGTGTTCCTTCAAAAAAAGTTTTACGAATCGGTGAAGAATATTATTTAGGAAAGAAAAGATGTAAGTGTAATGAAGATTTTTTGGAGGCATTCAAAGAAGAGAAGAAACTAGTTGAGGAAATGAGAAAAGCTAAATATGAAGATGTGCTTTCTTCATATGACGTAAAATTAATTGAAGGAAAAGCTCATTTTTTATCACCTAATTCAATCAAAATAGGAGATAAGATAATCGAATCTAAAAAGTTTATTATATCTACTGGTTCGTCACCTTTTATTCCAGAAATAAAGGGATTAAAGGAATTAGGTTACTGGACTAACGTAGAAGCTCTAAATCCTGATAGGAAAATTGATTCTTTAGTAATAATAGGAGGTAGAGCCCAAGCTTTAGAATTTTCTCAAATGTATAAAAGATTAGGAGTTGACGTAGCTATATTACAAAGAAGCAAAACACTAATTCCTGATTGGGAACCAGAAATCGCATTAGAAATGAAAAAGATATTAGAAGAAGAAGGTATCATTGTAGTTACTGATGTCAAAATAAAGGAAGTTAAAAAGGGAAATAACAAAGTAATTATAACAGATAAGGGAGAAATAGAAGCAGATGAGATACTTATAGCGACTGGAAGAAAACCTAATACAGACCTAAATTTAGAAGTAGCGGGTGTAAAAATTGGTAATAATGGAGGAATACTAGTAAATGAAGAACTTATGACATCTAATCCAAATATTTACGCAGCAGGCGATGTAGTAGGTGGACCAATGCTAGAGGCATTAGCTGGTAAGGAAGGTTCAGTTGCCGCAGAAAATGCAATTCTTGGATCTCACAAAAAAATAGATATGTTAAGTGTACCACAAGCTATATTTACTCAACCAAATGCTGCTAAAGTAGGATTAACTAGTTTTGAGGCAAAAAATTTTGATAGTAGAATAGTAAAAATGAAAGATGTAGCGAAAGCAAACATTATTGACAGTAAGGGTTTGATAAAAATGATTATTGACAAGAACAATAAAAAGATTCTAGGCGTTCATATATTAAGTGATAACGCAGCAGAAGTTATAAATGAAGCAGCATTGAGCATAAAGATGAGGGCAACAGTGGACGATATAATAGATACTGTTCATGTATTTCCAACAATGAGTGAATCGTTAAAGCTTACCGCTCTATCTTTCAATAGAGATATAACTAAAATGAGCTGCTGTGTGGATTAACTTCTAATCTTTTTCTCTATCAATGGAATAATAACAGCAATGATAGGAGGTATTATACTATCGTAAAAATATATGCCATGAAAAGTTGTAATTGAACTATAAATTCCGTATATCATCAGCCCACCATTAATGATAGATAATAAATAACCTATTCCTTTTTTATAGAATGAAAATAGTATTGATGGGATAAACAAACTGATAAATAACGCAGTATCAGAAGGGGCTATGGTACTCAAGTAAAATATGTTATAATTTAATAAGCTTAATACTGATAGAAGTACTATAGAGCTAGGAAGAATATATGAAGATATGGATCTAGTTATTCCAATAAAATCAAATAAATTACGTAATGCAGTATATTCTGCTAAAATTAAAGAAAAATCTCCTATAGACGATAATTCCAAAATTATCCTTGGAGGAATAAAGAAATCTCCTATTATTAGAAGGGCCGCAGATATGCTAAAACCGTAAATTACTACGTTAGCATATTTCTTATCTCCATCAATATAAGCGATTAAAGTTATACATGCAAGAAGAATTGAAGATGAAAGAATGTTTATAAAAAGAGAGTTAAAAGGTTCTGGTTTTAGATTTACTGAAAATCTCCACATTATGGGTAATGAAAGCAATACTTGTATAACTGCTGTTCCTATTAATGCAAAATAGACTAAACCGCTGAACACTAAAATTGACGCTGCAATTGGTAGTACTATAGTTAAAGTATCTGCTATAGTATTAGGTAAGTTAAGAATATAAAAATCAATATAGTCTATAGTATATATAATATAAAGAAAATAACTTAAAATCCATGTATATAATTGCATCTTACCTAGAAGTGTGGAAATCTTTTTTGAATAACTATAAAATCCTCCTTTTGTCCACTCTATTTGTAAATAATAATATACCATCATTGTTAAAGCAATCATAGGTAATAAGGAAAGTATCGAAGTAAGTGGGTTCTCATGCGTCATAGCTAGGATTAAAGGAGCAGCTGAGTTTATAGCAAAACCAAGTAGTATTGCTCTACTCTTTATCACAAACGAAGATGATAACATTCTAGTTAAAAACTTTTGCCATATTTTAGAAAATAGAAATAAGAACTTAATAGGAAAATTAACTAATTTTAATTAATATTCTACCATTTCTTGAAGGATCAAACAATGCCTTCAACGCATCTTGACCTTGATCTAGAGAATAAGTTTTCCATATCTTAACCTTACAGTCCTCACATATATTTAGAATTTCAATTAAATCAAGTCTTCTACCTCCAGTAGTTCCAATAATCGTCACGTGATTACTATATATTTGAGAGAGATTTAATTTAACGTCAGATCCAGTGATTCCTCCGAAAAATACAATCCTCCCAGTTACCCCTAAAGATTGAAGACTAGAATCCCATACAGAAGATCCCACGGAATTTACAACAACGTCCGCCATTCTACCTTTTGTTATCCTTGAAATCTCTTCTCTTACGTTATCATAACCTATAATATAGTTAGCACCAAAATCTTTTAGCCATTCTTTTTTACTTACTGCAATAACTATTGCACCCATTTTTTTAGCAAATTGAACCGCAAATTGGCCAGTGTTCCCAGAAGCGCCGAATATTACTACAGTATCCGTAGCTTTAACCTCGGCAGTCTTTAATGCGTGATATGCAGTAAGTGCGGAAACTGGAATACTTGTAGCTAATTCATCACTCATGTAATCTGGGACTTTAAAAACGTTCTTATCAGGTACTGTTAGATATTCCGCATAACCTCCATTAGTTATTACACTCATTATGCCCCCATTTCTGCATAGCATCTCCATTGATGATAAACACATATCACAAGTTCCGTCAAAAATTCTATTATATACTATTACTCTATCTCCGCTCCTTACGTTTTTTACATGCTCTCCGATCATGTCGACTTCTCCATAAACTTCGGCTCCAGCTATATGAGGCATGGGTTTTACTGGAAGAGCATTAACCACAAAATAATCTATAGGATTCACTCCTGCCATCTTTACTTTTATTCTAACATCGTGAGCTCCTACTTCAGGCTTTGGAACATCTGCTACTTTAAGATTATCTATTCCACTTTTTTCAAACAATAAGGCTTTCATTATATAATATTTCTATTGAATATTAAAAAAATTAACTTAATATAAGTAAAGTTACTTACTTTCTCTCTATTTTTTACCTACAAAGAATGTTCTACCGTCCTTCAGAACTATTTTAAGGCATTTTTCACCAGGATGAATATTGTAGTAGGAAGTTTTACCATCTATTGTAGTCCCTGCCAATATTACTCCTTTTTGCGAGAAGTTCATAAAAGCTCGGCATATTTCGTCTGGAGGAGAAGCTTCTTCCATTTTTACTATCTGATCCTTCATTATTCTTATTGGGGGAGAGAGATTTGGCATCTCTATTATTATCTCTTTTTCTGTTTCCTTTAGTCCCATATATATTTGTGTAATAAACTATACTAATAAATTTTTCTAAAATAAGCATTAGATTTACTTCCATAACTATTTTTCAAAGAATCTTTAATATAAACGTTCTTATCTCAAGATATAGTAAAGAAATATTAAAAAATAAAAAAAGTTTAAACTCTTTGATCTGGCGGTAGTTCCTCGTACTTCTTATATACTAAATACCAAGATTTAGCATTAGGTAGTTTCATTCTTAACTCTGCCTCGTTAAGTGTTGTAGCAGTAGGAACTATAACGTCGTCTCCTGGTTGCCAATCTACCGGTAAAGATACTTTTGCCTTATAGTTGACTATAGCGGCTTTAGTTATTCTCAGTAACTCATCTATCTTTCTGCCATACTCTATTGGATAATATGCCATGAATCTTATAGTACCTTCAGGGTTAACAAGGAATACTGCTCTAATTGTAACGCCAGAAGCTTCATCGACAATGTCTAGAAGCCTTGCCAGTTTTTTATCCGGGTCTGCAATTAACGGGAATGGGACTTTAATTCCAAACCTATTCTCAATATCGCTTAACCATGCAATATGAGAATAAATACTATCAACACTCATTCCTATTAGTTCTACATTAAGTTTCTTAAATTCTTCATAGGCCTTAGAAAAAGCTACAAATTCGGTAGTGCATACTGGAGTAAAATCTGCTGGATGAGCAAACAGAAATAACCATTTTCCCTTTCCAAAAACATCTTTATAAAAATCTATTGGACCTAGAGTAGTTAATACTTGTGTATCAGGGAATTTTTGATATAGCTTCATTTTCTCACTATAACATATCTTGAAGTTGTGATTAAAAACAAATTTATTTGTGCAATTTTTGCATAGTTCATATAAAACCTTCGGTATATAATATATAGTATACTTCCTAGGTAAATGCAAGTGAAAAATTTTTAGATGTACATACATATTGGGTAATAATAGAAAAATACATTTTAAAAGTAAATCTTAAAACCTAAATTCAATAACTTATCATTATGTATAATCATAAATTCCTTAGACTTCCTTGTTCCGCAAAACTAGTTTATAAAATCTTGGAAATAAAACAGTCAGCTACTTTCCAAGAAATAAAAAGTGAGACTGGATTACCAGATAGGACAATTAGAGAGGCTATAAAAAAATTAAAGGAGGAAGGTTTAATAAAAACAGGAATATGCCTGGATGATACAAGATCTAGAGTATATATCATATCTGAATGTTTAAAAATAGAATAGCTAAGTATAATTAAAATATTTTTGTTATATATAAAGATATTAAATATAATATAAAGGTTCACTAAGGTTAAATTATTCTACCGAATTTAGTGTTATGGATTTCGAATTTTCTGAGGAAGAAACTCTATTTAGAGAAGAGATAAGAGAGTATCTAACTAAAAACTTAAGGCCTATGGTTCCTAAGATAGACGAAAGTGGTATACCCAGATCTTTTGTAAAAGATGCGTCAAAATTAGGTATATGGGCAATGCCAGTATCTAAAGATGTTGGAGGACAAGAAGCTTCCTTCATTATGTCATCAATAGCTGCTGAAGAAATAGCAAGAGCTGACTTTAGTATGGCAACAGTAGTTATGTTCTTATTAGAAAGTGGGTGGGGCTATGTTTTAGATAAATATGGATCTAAAAGTATTAGAGAAGAAGTGTTACCTAGAGTTACATCAGGAGATTGGTTCTTAGGAATTGCATCGACAGAACCTTCTGGAGGAAGCGATATTGGAAATATAAAGACAAGAGCAATAAGAGAAAATGATAAATATGTAATAAATGGAGAAAAATCCTATATTAGTGGAGTACTAGAAGCTAAAGATTGGGGAGGAGGTCATTTAACGTTAGTTAGAACGTCTCCTAATGGAAATAAAGGAATTTCAATGATTTACGTTCCAATAAATGAAGAAGGAATTGAAATCGCTAAGATAAATAATATGGGTAGAATGGGCATATCATCTGCCATTATAAGATACAATAATGTAAAAATTCCAGCAAAAAATATAGTAGGTGAAGAAAATAAAGGATTCTATCAAGCAATGGATGGTTTTAACCATGCTAGGGTTCTAGTTTCTGCTGCTTGTATAGGCGCATCAGAAGCTATTTTTGATATTGGAATAGAGTATCTAAAAAATAGAGAAGCATTTGGAAAGAAATTGAAAGATTTCCAATCCATAGCTTTTGAAGCAGCAGATTTGAAGACAAGAATTGAAATGGCACGATTGCTAACATACAAAGCAGCATGGGCTTTAGATCACGAGGAAAAATATAAATCAGAAATACCTTCCTTGGTTGCTATGACAAAAATGGTTGGACCTCAAGTGGCTTTTGATGTGGTAAAATCAGTAATGATGTGGATGGGAGCTTACGGATATTCAAAAGATGCATTAATAGAAATTGCTTTTAGAGGAATAGTATCTTATATTGTAGGGGCAGAAGGAGCATTAAACATTATGAGAATTATTATCTCTAAGGGAATTTTTGGATAGTTCTTTTGATGCGTCTTTTATTGCTTTTATTATATTAATGTATCCAGTACATCTACAAATATTCTTTATAGAATTCTTCATTATTTCGTTATCAGCACTTTGATCTATGTTATTTAGATAATCATAAACAGTCATCATAAATCCATGAGTGCAATATCCGCACTGCATTGCATAATTTTCTAAGAAGGATTTCTGAATATAACCCGGATCATTCAGACCTTTTATGGTTCTTATATCTTTATTTAACACTTGAATTGCTAGAATATTACATGATTTTATAGCTTTACCATTTACTATAACAGTACATGCACCACATTTTCCTTCGTCACAACCTCTTTTAACTTCAGTAAATCCATTATTTCTCAAAAAATCTAAAAGTAGGGTTCTACCTTCTACATTTCCAGTTATCTCTTCGTTATTGACTTTTAATTTTATGCTATATATGTCCTGCGCTTTAATACTTTCTCCAGTTTTCCAGGTTATGGCTATATCCCTTTGAGGAACTCTGATTTCATTATTACCTCTTAACGTTTCCATTAACAAATTTCTCACTAACCTAATTCTATAATCCTTAGAGGCATGAATATCATTTAAAACATCTAGGCTAACACTATCAATAAGTTTTTTTGTAAAATTATCCAAATCAATTTTTCTAATATCCGAAATTTTATTTCCTATTAATTCATCTTTAAATAGCACTGGTTTTGAGAATACTCCTCCAATAGCTATCCTAGAAGAAACTATTTTTTCTTCATTATCGATCTTAAAGGATACTGCGACTAGAGCTTCTGGATATGCAGAACCACCTCTTTTTATAACTCCAAAGTTAGTTACTCTTTCGTCATTTGGTATTATTATTGACTCCAATATCTCTCCTTCATTTAGCTCAGTAGAATATGGTCCCTTAACAAAATCCTCTAGCTTTATTTGTTTCCTGCATTTTCCAACAATAGAAACTTCTGCATCAAGTGTTAATAACACAGGGAAATAATTTCCTGAGGGATCTGCATAAGAAATTGATCCTCCTATAGTTCCCCTATTTCTTACCTGTAGATCACCTATAGTCCATGCTGCCTTAGTCAACGATGGAAACTTTTCTTGAAGAGTCTTGTTTAACGCTATCTCATTGTGAGTTAATAATGCTCCTATCCTTATAGAATCTCCAAGTTTGATGTATCTTAATTCCTGTAATTCGTTTAAATCTATTACCTCATCTATATCTACGACTCTAAGCTTAAGCATAGGAATAAGACTTTGTCCTCCAGCTATAGGTTTAGCCCTTGTGTTCTCTTGAAGTAAATCTATAGCGTCAGTTATTGACAAAGGTCTTTCATATTTGAAACTTTTCGGTATTCCGAGAGCGAACACCATTAATCACCTTTTATAATTTTCATGATTTTTTCAGGGGATATGGGAATTTGAGTTATTCTCTTGCCTATAGCATTGGAAATAGCATTAAGTATTGTAGATGGAACTCCCATTATAGGACCTTCTCCGGCCCCAAAAGCTTTTGACGGTAAATAATCGGTTATTGTTTCAAAATGTTTAATTTCAACATCAATTCCAAGGGCTTCTGAAAAAGTAGGAGTCTCATATGAATCAAAAGTAGTCACAATTGGATTTCCGTTATCATCATAAGCAATTTTTTCGTACAAAGCCATATCAATTCCGTGAAAGAGACTGCCTAAAACTTGGCCTTCAAGAAGTTCTTTTTTTAAAATCTTACCTACATCATGAATTATTATGAATTTCTCAATTTTGACGTCATAAGTTAAAGGATCTATCTTTACAATTGCCATCTGAGCTTGAATACCATAAGCTAAAGAGGAGTTTATCCTGTCGTTATCTGGAGGTCTCAAAAACGGAGAGCTATAATACATTACAACTGATAGATTTCCTTGAGCAGAATAAGGATCCCAATGAAATGCGGAAGCTAATGTTTTAAGGTCTACTACTTTACTAGGATTTTGAATATCAGAAAATTTGCCTTCAGAAAAACTTACATCTTTGGCTTCAAGGTATTTTTTAGCAATATCCTTAAGTCTATTCTTTAGTTCTTCAGATGCTTTAATTACTGCACTCATAACTATTGGAGCAAATCTACTTGAATAACTTCCACTAGACAGTGTCCATGGAATAGAAGTGTCTATTCTAACTTCAACCTTTATTTTCTCAGGGTCTATACAAAATTCTCTGGCTACCGTCTCAGCTATAACTGTCTCATGTCCTAGGCCCTCATTTGTACCGTTTACAAATACGCTAATTGTACCGTCATAGTTAACACTCATTATTACGTAATCGCCTGAAGCTGAATGAGTATGCCTTCGCTTTGATCCTTCTACAGAAAGATCGACATAACCTAAATTTGTGCCACTAGGTTCAACAAATACAGATATACCTATACCAACATAGGGCTCTTTTTTAAATTTTCTATATTCTTCTTCAAGAGTGTTAATGACTCTCTCATAATCCTGCTTTGGATAAAGACCGCCAGTTGAAGTTTCGTAAAAATAATCATTACCAATTTTTTTATCAAATACTTTAATCAAATTTCTTTTCCTTATTTCTAAAGGATCCATCTTTAACTCGTCAGCTAACTTATCTACTGCAGTTTCCAATGCGAAATAGAACTGCGGAGCTCCATATCCTCTATTTAGTCCAGTAGGTGATTTATTTGTTAAAACGACAACATATTCTGCTTGAATATTTCTTATGTCATATGCGCCATTCAGATTACCTTGAACTCTAAATAATGCTCCAGGCTCTGGAGGTCTAGGATAAGCACCTACGTCCTCATAAAATTTGTATTTTATACCTTTAATTTTACCAGTTCTATCGCTAGCTAATTCTACATAACCTTCTCTATCTCCACTTGCGGAACTAGAGATAAAATTCTCAGTTCTACTCTCGATCCATCTTATTGGATGTCCAGAAAGTATTGATGCAGCAGCTGCTATCGTCATATATGGATATAATGAATATTTTATACCAAAGCTACCTCCTATATCTCTAGGAGTAAGAAGCCTAATTTGATTCTCTGGAATCCCTAATGCTCTGCTAATAAAATGGACTTGTAACATTGGGCCTTGAAAATTTGCAATAATATTAAGTAAATCAGATTTGTAAGCTAGAATTCCATAAGTTTCCAATGGTGCTGAAGAATGGCGTGCTATTTTGAAATCATTTCTTATTATAATATTATTTGAAAATGTCTCTTCCACATCTCCAAAAGTCATTTTTCTTGACATTGCAATATTACTCCCTAGCTCCTCATGAATTAATGCCTTCTTTTCTAAAGCGTCTTGTATATTGATCACAGGGATAATTGGCTCCAAATCTGCATTAACATATTCAAGTAAATCAATGGCCTTATAATAATCTCTTGAAAGAACTATAGCTAGAGGTTCTCCTACAAATCTAACTTTCTTATTCGCTACAGGATAATAATTTATAGGAGAATTTAGGGCTAATGGGAAAGGATTCTTTATTATTCTTAAAAGATCAGTATTAGTGAAAGCTATTCCCCCATGATTAAAGACTTCGCTTACGTCAACTTTTTTAATAATACCATGAGGCAAATAACTTCTATAAATTGCCATGTACATTGTCCCAGGAGGATTAGGAATATCGGAAATATATTCCCCAGATCCATTTACTGCCCTCAATCCTTCAATGTAATGGGTAGACATTTATATATAAAATAGTTAAACAGCCTTAAAAAGAAACATAAACATTTATTACAAAAAAATTATATTAAAATTATTCTAACCGATAGCTATATTTGCTCTTTGATAGTGCCAACATAAAGATTCCTATAAGCAATATGATTGTTGGAGCATAAAGACGTGGTTCTGGGGCAAAATAGTCTAGGTAATTAGTAAATATTGCCAAATAATACATAATAATGGAAAGGACTGTCAGAACAATGCCTCCAACTAACCAAGATTTAATGAATGTATACTTAACAAACAACTCTTCCCAATCAGCTTTTTTGGTATCTACCAATACAGCTTCGTTCTTCATAAAGGCTAGACTCTTTTGTGATCCAAACATTGCAAATCCATTAATCTTTGAAAATCCTAGCTCCTTTGCTTCTTCGTTTCCCTTTTGTATATTATTTCTAAGAATTTCTGCAACATCCTTTGCATTTTCTATATCTGATTCTTTAACGTTTCCTTGGTTATCCACTTTTACGTGACCTAGATAGCCTTTTATCTTCATACGCTGATCACCCCCTTTTCTAATTCCTTAACAACTTTTGACCAATTAGTCTTAACTGCGTCAACTAGAATTATTGTATTATTTAAATATGCTATTCCAAGATTATCTAATATCATTGCGAATCCCATAAAAGATCCAAGACCTATTTTTCGTGATTCTTCTTCTCCTATTCTCATGTTTTCCATTAAGATATTCAATAATTTTTCAGAATTTAGTTTTAGATCTTGCCCATACACCTTTGTAATCGTACTTCCGGAAATTTTGTAAACACCTATTAATCCTGGTATATCTTCATATGACATTATTCATCAATATATATATTTGTATGAATTAGTTTATAAATGTTTTCTTAGAAAGTTTAGAGTTATATAAAAAATAATTTTTTATTTTTAGTATAAAAAAATTTTTAAGTTAGAAGATCATTGCATTGTAGCTTTATAGTATTATTAGCTATTTTAAAATATAAAATCTAAATAAGATATAAAAATAAAATAGTATTTGATCATGTTACTCTAAATAGTAAGATGGAAAAACGCGATAAATATTGAAAACAAGTTAACATAATTGCTTAAATTGTTATCTTATTGATCATATATTATTTTATATTTAATCGTTGTATCCAAATGGATCTACCTACAATATCTTTCACACTAAGAAGCAATACATTATCATTGCTTACCACTATAGCATGTCTATTGTTCTTCTCTATTATCCAGGGTATAAGGCTATTTAATTCGTCGTCTGCTCTAAATATTTTTACGTCAAATCTCCCCTCTATGAAATCATCAAAGTTCTTATCTTGCGCTATCATTTTTATAGCGTCTCTATAAGTGAATATACCTAATTTATTAGATTTTTTAAGAATCAAGGCTCTCATTCGATTTTTCATCATAATATCAATAGCCTCCCTTAATGTTAGTGTATAATCTAGGACATCCACACTTTCAGCTATATTCAATAATTTAATTTTATTATTTGCTTGAATATATGTATATCTGTCATCTTTAATTATACTACTCCTGGCATTAGCTCTTAATATATCTCTAAAAGAAATCATACCTACAATTCTGTCATTCGAAACAACAGGTAAATGCGAAATTTGATAATAAGTCATCGTTTCTAATGCTTTATAAATTTCACATAGACCGTCTATACAAATAGCTTCTTTAGCTATATACTTTAGTTCCTTATTTAGGTCGTCTGAACTAAGGATATCTGATTCTGTCACTATAGAATTATTTACTATTAAGGAAGCTATATTATGAGATACCATTATTTTTGCTCCTTCCCTTATAGTATGATCTTCTTCTACAGTTATTACTGGAGATCGCATAAATCGCTTAACTCTAGAGATTACTATCTTAGCCCTTAATAACGGATCCATATAATTTATCACAGAAATACAGTTGTAAGGACAAGATCTTTCACATGCCATACATCCCGTGCAATCATTTGGATCTATCACTTCAGCGATATTAGTAAAATTATTAATTTGTATACATTTAGCTAATGCACATGCTCTTTGACACATATAGCAGCCTACGCATCTATCTACGTCTATTATAACGTTTGGCACATAATTATCGTTACATTTGATTATCATGTTTTCACCTAAAATGGCGGATCGGCGTTGAGCGGATTATATATTAAATTCCCAAGATACTTATTGTAGAAAGGATAAATTGAACTGTCTGGTGAACTCATCCAGTATGTTATTAATATAAACAGTAATGAAATAATAGCATCACAGACTAGATAATAGGATAGTGGTATTCCATCTTTCTTTGACAATTCTTTTGATATCCTAAAAGATAACCATGAGCCGAAGATTAGTACAGCTTCCATAACTATTAAAACCCACCATTCCGCTGTAGCGCTACTAGGATGACTACCTAAACGTTCCAGGAAAGTATACCAAATGCCATGATAACTTTTAACATCTAAATAAGGAACTTCATTAAATATTAGTAAAGCTCCACCTAGTAATTTTGGTAAATTCCTTGCAAGTATACTTGAAGCAAAGATAGGTATCATGGAATACGAAACTGAAGTTAATATAGCCTTAGATGGAACATCGTCATTTTTCCTTATATTAGATACAATATATACGATAATAAGGGGAACAGATGTTAAAATTATATAATCCAGTGGCATAGGATATCCGTATGTAGTAAATCCATACTTGGAGATACCTGGTGTTAAAATTCGTGCTATGTCATTCCAACCAGTAGCGTAACTAAGCCATTTGTCTATCATTGTATATAAAGGAAGCGCATTAAAAAATTGAAAGAATACCACACCAGTTAAAATAAGTACAGATAACGCTATATCTAGCCTTTTCCTATTATTACCTATAACATCATCAATCCAAGGGAATCTCTTAACTTTCCAGTCTATATTATCATGAGGACATGCTCTATAACAGTCTGATGCTAAACCACAAAACGGAGATGTTTCTACACTACCAGGGGAAGCAAACCATGGGCATCCAAAATGTTTATCGTTTCCTTTCATACAATCTTTAGTACTACAAGATTTGCAAACTTCTTTATCTTTAGCTCTAAAAGTACCTAATGGAGATATCATAGTATTTACTGCCAATGGCGCGCTTAATGGACACAAGGTTCTACAAAATGTTCTATCTTGAAAAATTAATGCTATAGCTAATTCTAGTAATGCTATATAAATCAAAACCACTGAGGTCAGCTCAGGAATACCTGGACCACCGATATTATAAAACTCTTCCACCCATGTTAAAACTGAAAATCCAATAGCAGAATAAAGTATAGTAGAATATTTTATAGGCCATCGTAAATTTAGACCTAATTTCTTAGAACTCTTTCTCCATAAATGCATTCTTTGAATCCATTCAGCTTGTCCGCTAAATGGACATGTCTGGCACCACATTCTACCATTAGCCAACCATGTTAATAGCCATAACAAGGGAAACCAAAATAACCAGCTAATATCTGGGGCAAAGTTAACTAAACTTAGCCCAACTGAGTTGAGTTTTTGATAACCAATTATTCCTATAACCATCACTATATAAAAAACGATGAAACTAGGCATTATTATGGCACTATGTATCCAGTTTTTCTTAAATATTTTAGACAGAAAACCCTCTAATATAGATGGCTTATGCGAACAAATATTTTCCTGATATTTAGCATAATTTAGTTTATAATTTACATATATCCAAGAATTTGTATTTCCCTTATGAATAAAATCTATAAAAAAATTAATAAACAGTATTGTACCCAATGTTGTAAAAATAAGAATATTAGATTCTACAAATAATATATTTCTACTTAAAATCGAAATAAAAGTAGTTATACCAGAAATTACAAAAAGAATTGCAGTTAAAAAATTAAATCTCTTTTCATTAATTTTTATTCTATACGTATTTTTTATCTGAGTATTATACTCTTCCACGTTCTCACCCTGTTTATAATTATAGATTTTTATATGTATTTACACATAGCAAAATACTTTTGTTTATATTGTATAAAAAATTATCTTCAATTTGTACAATTAAATAGATATACACAAAAAAACTAATTATTATAAAAAGTTTTTAATAATTAGATTATAGGTTTCTACATTATCTTAAAAAAGTAGCCAATAGTCACTATATCTAATAATTAAAATACTTTGATATGCTACGAACCAAAAGATAACCTAAGTACAAAGAGACTCCTACTGCTATGAATAGAATCAAATAAAAGAGAATACCATTCTTAATATAAAGTATATCAAATAAATATATAAATACAAAAATAAACACAATTTCCACACTATACACTAAACTTCTAAAGCCTTCTGTTGTCATTAATCTCGCCTCATTTTTCCTGAAAATATTACAACTAGATATGGTATAGATTCAAAACTTAAAATTATTCCATAGGGATTAAGCACAAAGGATTCTAAAACTCCAGTAAATATTGAATATAATGTAATAATAAATATTAATCTTAATTCTATTTTGGAGATTGAATAGAGATTTAATGATTCTACAATATCGTTTTCTGCAATTCCTAATAATACAAGAGTCATTACACCAGCCAAAACCAGAGAAAATGCCATTAAGCCAAAAATAGCATAAATTTCAAGCATATCCACTTTGCCTCATTTTCTCTCTAAAACTCTGGTAATATGTTAGCATTGACTGAGTCAATGTAGGTCTTATTGATTTAATTGCGTTCTCAAGATCTTCTTGAGTTAATTTAGGTTTTTCAGCTGTAATCATACCTCTTCTAATAGCTAAAAGTACTGCTCTATTAACTATACCATTTATATCTGCAGGCGTATAGAAATTTGTTGCCTTAGCTAAATAATCATAGTCAATTTTATCGTCATGTATATGTTTAGAAATAAGATGCAAAAACAAAGCTTTCCTACCGTTTAAATCAGGAGGAGGTACATAAATCAATTTCTCTAATCTACCAGGCCTAAGAAGCGCTGGATCTAAAATATCTGGTCTATTGGTAGCAGAAATTACTGTAACTCTCTCATTTCTTTTACTTATACCGTCCATTTCCGTAAGAAGTTGACTTACAATCCTTTCCGTAACTCTATTAGGATCTGTCCCTCTAGCTACTGCAAGTGAATCTATTTCATCAAAAAAGACAATTGTAGGAGAAGCTTGTCTCGCCTTCTTAAATACCTCTCTTACGGCTCTCTCACTCTCTCCAACCCACATGTTTAAAAGTTCTGGTCCATTAACTGCTATAAAATTAGCACCACTCTCATGAGCTACCGCTCTTGCTAAGAGTGTTTTACCGGTTCCAGGAGGACCATAAAGAAGAATACCACTAGGTATCTCAGCCTTCATATATTCATATAATTCTGGTTTCTTTAATGGCCATTCTACTACTTCTTTAAGTTCTAACTTTACATCATCTAATCCTATAACGTCTTCCCACGTGGTGTTAGGTATTTCAATTCTAAATTCCCTTAACGCCGAAGGCTGAATTCTCTTCATAGCGTCAGTAAAATCTGACATGGTAACTAAGATATCTTCATAATTTGATGTTCTTTTTAATGCGTCTAAAGCTGCTTCTCTTACTAAAGCCTCTAAATCTGCTCCAACGAATCCATGAGTTATTTCCGCTATTTTTTCCAGATCAACGTCACTAGATAATTTTAATCTTCTGGTATGAATTTTGAGAATTTCTAATCTTTCCTTTTTGCCAGGTACTGGAATCTCTATCTCTCTATCAAATCTACCTGGACGTCTTAAAGCTGGATCAATTGCGTTGGGCCTATTTGTAGCACCTATTATTAAAATTCCGCTCCTTGACGTCACTCCATCCATTAATGTTAGCAATTGCGCTACTATCCTTCTATCAGCTTCTGACGCTGCGGAATCTCTACTCGGAGCTATTGCGTCTATTTCGTCTATAAAAACTATAGACGGCGAATCTTTGGTAGCCTGTTCAAAAATTTCCCTTAATTTTTTTTCGCTTTCACCATAATACTTTGAAGCAATTTCTGGTCCACTTATGTAAAAGAAATTAGCCATCACCGAATTAGCTAACGCTTTAGCCAGCAATGTTTTACCAGTTCCTGGAGGACCATAAAGAAGAACACCCTTAGGAGCTCTAAGCCCGAAGAGTCTTGGAATTTCAGGTTTTAATAAAGAAATCTCTGCTATTTCCATTAATGTCTGTATTTGCTCTAATAGTCCTCCAACGTCCTCTAAAGTCACATATGGTATATCCTTTTGAGCTATCTTAACACTAGAATAAGCTATATTAATTGAAGTCTCGCCTCCTATAATTCCTACTTCTGCTTGTGGAGACAATGATACAACGACGAATTCACCTTCCTTAGTAAAAATAGGTAAACGCTTCATCACCGGTTTTCCCCTCAGCTCAAGGCTAATTTTTCTTTCATCATATTGCTTTTGAACTGATGGAGCTAAAGTGATTGAATTTAATTGAATATAATTTGCTTTTTTAAAAGTAATTTTTTCTCCATTTCTAACTCCTAACCATCTTAAATCATCTTCTGAAACTACTATTCCCCGTTCGTTCTCCCTATTTTCTTGAACAGTAAAAGGAGCAATTTTATCACCATAAATTATTATTATATCACCAGGCAATATCTTACATTCTGTCATCAATCCGTTATCTAGAAACGCTAAATATCTCTGTTTTATCTTTCTATTTCCAGAGATCGTAGCTATATGTAAATCTCCACTCATACTATAAAATTAGAACAAAAGCTTTTTAGATTTTCCTTCTAAGATTATTAAACATATAAAAAAATTATAATAAAAAATTATTTGACTTTTCCCAAATCATTATTTATCTTAGTTTCTGAAGAAAGATTTATTTTTTCGTCATTGTTGGCAGCTTTAATATTACTCATAGAAACTCCTGACGCTGAACCTTCAGAAGAGGCAGTTCTACCGTTTTCAGTAACTAATCTTATCATTCCGTCTGCCGGTAGTGCTATTGGCATCTCTTCCTCTTTATATCCTTCTCTTCTCATACCTAATCTTTCTAGAGCTATAGTCTGAACAGCCCACATTGGCAAATCAGTTTGTTTAATTTTTTGGCCATATAACAATGTAAGAATTAAGTTATATGCGAATATTATTGTTGCAAATCCTGCTAACCATCCACCAATCATAGCTAATTGATAATAGACCTCATAAAATGCTGGCCATGCTACCTCTCTTCTTATTGCGCCGTAAAATCCACCTATTGCAAAAGCAGTAACAAGCATTCCCATTCCTGCTTCCCATCCCCAGAAATGTAACCAACCTAATCTTTCACTATACCATTTTCTTCCCCATAGATCTGGCCCTACAACATATAATGCTCCTAGAAGCCCTCCTACAGAATATAAAGCTAACATTATGTGGAAATGACTAGGTAACCATAAGGTATTATGAACAGTAGGATCGACACTGGGCGTTGGTTGTGTAGGTTCCGCCTGTATTCCGCCTATTATATTCCATACTGCAGCAGCAAAAATAAATGCAAGCCCTACATCCCACTTTAATTTTCTTGGATCGCCTAAGGTTATGAAGAAGAGTAACCATAATGCCGCAAAAGGTATTGCTATTAATGCCGTTGAGGTTTGGGCAAAAATATCTCTAAGCACTAAAGGCCAAGGATCATCTACTAGATGATGAACGTAAACGCTAGCTCCTAAAACGAATAATACTGGTATAAGCCATCTCGCAAATCTCACGCTATATACTGGTCTTTTTGCGTAAAGAGGAATTATAGCTATTATAGCTCCAGTTAACGTATATGGTGCAAAATATACTAATGGATGATCTGCAAACCAGAATAATCCTTTCCATATTTCAGCATTAGGTACGCCAAATATATAGACTCCTAAACCTCCTATAGGAGATAATAAACTCCATATAGTATCAATGAATACAGAGATATTTGCTAATGCCATCATTATCATATCCATTACTATAAACCCTATAGCAGTGGGTACTAATTTACCCTGTACTCTACCCAAAAATGATGTACCTAATACCGATACCATTTCCATCCATTCGCCTACTACCATCGCAGCATATCCAATATACCAGGTAGGAGAAGCTCTTAACGGATTTAAGAAAGTAAACAGATATTGATTTTCAACTCCGCCTAAATTCATCATAAATAGTCCAATTGTCGCTATCCATAAGCCTGCATTAGCTATTTTAGGCCATTTAATTAGTCTGGATCCATTAAGAGCTGGTATCATGTAGAATGACACTGCAAAAACTGTGGAAAATACTGCACCAAATATCATATCCATGACGTGATTAGTCATGGCTTGGAAGTAATATTGTGGAGATACTACTACTGGCACGCCAGTAGAAGTTAAACCTGCTTGACTTCTTAAAAATAACGCAAAAGCTCCTCCTACAAAAAGCCATACTACAGCGAACAAAATATTCTTTAATGCTAGCATTTTATACTCTTCCGTATAAAATACTTTTACAATAGCTGATCTTTTGCTTTCCCTATCTTTAACTTCTTCATATTCCTGAGCCCATTCAGATAATTTTTCGAGATCTCGCCTTCTAATCTCTTCTCTAGATGCCATACTATCATACTTTTATAAAAATCCGATATTTAAAGTTTAATCTCTAATAAGGTAAAAAAATATTCATTAAAATTAAAAAAATGATTCTTTTATTTAGATACTTTCTTACTTTTTAAAATCTATTTCACAATATGATCTATTTCTCCTTAAAGTGAATATAAGAGTCAAAAATAATGCTACATCTGCAGAAAATGATATAATTAATTGATTAGATAGACTAAAAAGAAGAGAAGCACCTAAAGAGGCTGATATAAGTCCTAACACATATGTAGATAGGAAACACGCAGGGCATATACCAAGCGCTCCCAAACTTAATGCATAAGCGTTTTTCCTATAATTTGATGATGCTCTAATCAGAGAAATTAAATAGCCTCCTATTAGTGATACGGCAATCATTTGCATAAATTCTAAAGGATCAATGTAAATGCCTATATATGGAGGAAAATAAAGCAGAACTGAAGGATCCATCATAGGCATCCCGAACATAAATAAATAAACGTGTGGATAAGGGAATCCGCTTACATTGAAATGTATTATTCCACCTAATACGGATATTAACAAACCATAAATTGTTGAAAAGATCGCATAATCTTTTCTATTAATTTTAGGTAATGTGAATTTAGATTTTATTGACTCATAAATTCCATACCCAACAGCTACAGATCCAAATAACATAACAAGTGTAGAGGTTATAGTCATTGTTACTAAGAAGTTATAATCAAAACCATTATAATCTACAAAGTAACCCTCGTGAGTTATAAAAAACAGTATTTGTAAAATTATAGCGAAAGATCCTATTAATATCCATTTAATTCCTGAAAATTCAGTAGTTGGAGAAAATCTTATTCTAGAAAAGTTTATTTCAGACATAGAATCTCTTAAATATTGCAAGTAGTATATCCCAGCAAACCATGCAATCGGAGTTCCTGCTATCCATGTAAATATCCACAATTGATAGAGTTCTCCAGGAGAAAAATTGAAGAAAGGTAATGGATAACCCAGAATAAGCGATATTGGTCCGGGCATTATCATAGTCCAAGCTATAACATGCATAATACCCAATTTTACCCATTTCTTCATATCCTTTAATCCTAAACTCCCAAAAAATCCAGTTAATAGAGAAACTGGAATAAGTAGAAAAGAGCTGTAAAATATATCGTAAAATGATATAATTAGGACAGTTAACGTAATAGATACATAGAATAGAACCTTTGACTTACTACTTAAAAGAGTACCTATAATTCCTCCTGCAAGTATATCTAAAATTATCTTTAAAAGAGAGAAAGAAACAGATGTTGGAAGTATAATTGAGATAAAAATTAGTATAGCGCCCATAAAAATTTTCCTATAACTATCTAGATTTATTGATAATGGTTTTCTATTATTTATTTCGTTATATAGCACATAAGTAGAAAAAGATAGAAGAAATATTGCTAATAATACTAAAGTTTCTGATAATCTATCCATGAATGATATTGAAAATAAAAATGGTAATGATGAAGTGGCAGAACCTATTAATGCAGTAAAAAGCTCGCATGAACATGAGAGCGATGTCGCTATTAAGCCTAATGAACCTACTATTCCTTTCTTAGCTCCAGTTTTTAAAAATCTATAATATATTAAATAAAGTACAACATTAGTAGACACTAATAGTGAAAGAATAAAAGAAATTGAAAGGGAAATAGGCGTTATTGCCCACGTAAAAAAAGGTGTAGTTACAGACAGAAATGGACCCCATAATGGAAAAGGCATTTGCGAAGGATTCACAGGCGGAGAAGTACTTAATATTAAATCAACCGGAGTAATTATATGTACAAATAATAATAATCTATCAGCATACTGAAAGAAAATAAAATAAATGGAAAAAATAGCTAAAAAAATATATTTATATGGCTTTTGCTTTAATATATCTATTATTTCCATGTCATTCCCCGCTTTCTTGCTTAGCTACTTGAAGCGGATCTACTTGCGGATCTTTATCTGCCTTTATTATAAGTAATATGAACCATATTGGATATATTAATGCCATCAGTAAAAAACCGAAAAGCCATAGATCCGCCTCACTTTCGAAGATAGCCATTTACATCACTTAAAAGAAAATAAAGAAATAATCATTAAAAAATCTATCTTAAAAAAGTTTTGACTTAAAAGAGATTTAAATCTTTTAACCATTTTACCATATAGAACGTTGAAGGTGCAAATGCCATTGCGAATAGAAAATACGCTGTATCAACGAACTGTGTAGTGCTGTATGCTGGGTACAAATTAGTTTCGTAATATGTACCCATCTCTAAATATATTTCCGCCATAGAGGCCATCATACTAAAAATAGTAAACATCGAAATACTTTTCCATACATTAGTCATTCCATACCACCCTATTCCTCCTATAATACCAGCAATTATAAACGATAAAATTTGCAAAAATCTGATGCTACTACTAATTACTGACATGTCAAACGGCCCTGGAAAATACCAATAGCACGTTAAGCTTCCTGCTATCCCCCATGCTAAAACTAGTCCTCTAGTAGTGAAATTAAATGATAACAATGATTTCGCAATTCCTTTTAAAAACATGTAGTCGGCCAACCATATTCCTATTAAACCTGCTCCCCACACTAACATCATATCAAAAGAAACTCTAATTATCTCTAGAATATTGGCTAAATATAGAGAAAAAGGATTTATTGACGCTATAATCATTGCAAACCCTATAAATAAATAGGGCTTCTTATCTTTCAATTCCATAACCCCAGTAGTAAACCTCCTACTACAAGTATTAGCCCAGATATTGGCACCAATGCTACTAAGGTATCGTCTTCGTATAGTGAGTAAGGTAATGTGAATACTAACATTAAATCTGCTATCCACATTGAAACTCCTATTGCTGCTATTACAGAACCTAAGACCCTCCTAGCAAATTTTACTCCAGCCATATTCTCAATAGTTTCTTTTTTACTATGATTTAAAAATTTTTCGATAGTTTAGATCTTTGAAGTATTTAACTTTGCATTATAATTTATAATATTAGTACTTTTATAGTGTAAATATTAGGACTAGCGATTCATGGAATTTTCTTTTTCTTTTCTAATTCTTGCCTCCATAAAAAGAACACGATAAAAGTATACCATAGATATAGCAATTCCTAATCCAAAAAATATATTTATATTAAAAAGTATTGGAATTAGTGTTATTATTAAAATAGCATACAAAATTTTCCATATTAACTTAGATTTCATAATACCATATATAGTTAAGAAAATATCTATTGCTAACGTCGAATATATCCATACGTTAAAATTTAAGACAGTAGGAGGAAATGCTGCAATACCTATAAGAGGTATCACATAATATACGTAATCTCCTATTTGATTGGAATTCACTATACCTATTACGAGAGTAAATAGCATTTCGACCATCATTGGGTAAAAAAACCATATGCTATTAAGTGATGTGGTCATATCTTCTGTTATAGAAGAGAAATAACTCTTACCGAACTCAGCTAATGAAAAAGTAGTTCCCATAAGAGCTTCATTTAACACAAGTAACGATGCCAACGAATATAATATCTTGGATGAAAGTATAACTTGCTTTGAGAGATTTTCTGCTACAGAAAAGAAAAATGCCAAAATAATTATCATTGATATCATATTTATTGCTACAGCAATACCTAAAGTTACATTAGAAGGAGAATATAGATAAATTATGGCTCCAACCAACATTAATGCCATCATAATGAGAATAAAATACGAAAAAAACAAGTGAATATATGTATTTAGTTTATTTTCAATATAATAAATAGTGCCTATAATAGCAGTAACCATTACAGATGCTAAAAACACTAATAGCAATAAAGATACCATAAATATATCTTTAATTACCCCTAGATTAAAATCTAACTTATAGTTACTGAAAAGAAATTTCCATTAGTGAATAATATAGTATAAGTACCTGGCGAAAGATGTATGGGTATAAGAAGTGTGTCCTCCCCTATATATATTTCAGAAGAATTAACATATGCCGTGGTTACATCACCGTTATTTAATACAACAGATTCCTTAATAAAGATATAACGCACCTCATAAGTGTTAGTAGAGTTTTGAACGTATGTAATACCCAGTTTCTCCTGGTCTATATTATTTATAACAAGCATTACACCAGTTACATTACGTTTAAATAAGCTAAGATTACTTTGATTGTATATCATAACGGAATAGTTACCGTAAGATTCTTTATATATTGGAATTTGAGAGGTTGGAGAGAAAATTGAGGAAATAACGGGATAAGAAACCATAATAATCCCAATTATCACTATAATTGTTAATAAAAAAAATACTATCTTATTCATTTTTTTAACGCGCCTCCAATCATAATCAGTGCTAGTCCTACTATAGACAACATTATTCCCAGATAGTCAGTACTACTATAAGAAAACGCAAATGCTGCAGGATTCACCATAAATCCGTACCCATATATTACCATCACTATGATAGAGACAGCATCTATCACTGCACCGGCCAATATTAATCCCCACATTTTTACGTTCATATCAAAATATTCGTTTTAACTATTACTTATAAATTTTTCTTGACTATAATTAAGCGCTACCAGTATCGAAATTAATTAGTAAACAATATGAATTATACCGTATTATTATAAAATATTTAAATTATGATATTAATACTAATTATATGTAAATCAGAATTCAATAATAATGTAATATAAGATAATTGTAATATGCAAATTTACAATTCAATCAGTAATAAGGAGTTTACCCATATAAAACACTATATCTAATTTTAATAGACATATTACATCAACGTTAGTAGTTCCAGTAAGTCTTTGTCCTATTATCTCTCATTTGCACTCTTTAATGGCTAAGAACTTTCATAGGAGTACTAGTTATCTAGACAAAATGACGAGAGATACTTATATTCTAATAAGCTTTTAATCATAATGATAAATATCTAAGAAATAGATTTGTTTGAAAATAGTAATGTATAAAATCCGAGTACTAGAATCTTTAATAAAATAGTAATAACATTATTAATGGTAGGATTAAAAACATCGCTATTTCTTGTAATATAGTATATCAATATTTCTAATTATACTGATTTACGCCATATCGTAATTTGAGAAAGTCTATACAGTCTAAATATGCAATAAAAACTTTCTTTAATATATCATTAAAATTAATATATTAAACAAAACGTAATAAAGTATAAATTATTTATGACATTTTTAAAGAATGTTATACAACTCTGTTAAAGTAAATAAGTCTTAATTTATAATTAACAATTACTAGTACATGGGTATTTACAGATTCTATATCATATTAATTTTTCATCTATTAGAAAATTGTTATGTAATTAAAAAATGTTAAATCTTTTATTATTTAATAATAAAGTTATATGGATAGTTATTGCAACAAACGTAAAACTTTTAAATAAATTTTACAATCACATATTACAGTGAAAAAGAAGTGAAGAGAGGAACTGTTATAGCTCTATTCTTCATCTTAGTTATAGTTGCAGCTCTTTCTTTAGAAATTCAATATAGTTCATATGACTATATAGGCTATAATCCACATAATAATGCTGGAGAAGGTGTAGTACACGCAGCCTATTCAAACGCATTAGGATCATATAAGGGACCATATGTAATAATTTATGTTACAGGACAACAATGGCATTGGGATTTTGGTCCTCATGATAAAGTATGGACAAACTTAACAGTAGTACCAGTAGACGAGCCAGTATTATTTATAATACATAGCGTAGATGTATTTCACGAGTTCTTTATACAATCAGCGGCAAGCAATTTCTCGCTAGGATTTAATTTTGGTGCAGAAGCAGTACCAGGGTACTACTCATATATAGTTCTTGTATTTCCTAAACCTGGCTATTATCATGTAGCTTGTGCTGAGTACTGTGGAACTGCTGGAGTTGGATTAGGGCATTCATGGCTTGTTGGAACAATTTTAGCTACTCCTAATGCCACATTAGCAAAAGAGATAACTGGCGGTGTATTGCCTCAAGGTACATGGGATCCATACGTAGTTAATGGGACGGTGTGAAAAATGGCTAAAACACTTATTTATATAACAGGAATTCTTATAATAATTGGAATTTTATTGATGGCATTCGGAACAACAAAGTATGTTTACCCTAGAGAACAATTTTCTATTAATGGAATGTATGAAATTACTGGAAATACAACACCTAATTATTTCATCAACTTTTTTGGTTTAGCAATATTTCTTTTTGGAATTGGAGGGCTTTTATCTTATTTTGAAATAAATAAGAAAGGTGTAAAATCAAATAATAAGGGTGATATAAATGGCTAATGGATATATGAAAATATTTGTATTAGGATTAATAATAGTATTAGCTATATTAGCAGCCACATATGGAGCAGATTATGCTCTAAATTCCGCTTCACAAGCAACAAGCACAGTAACTGCATACTATGTACCTAATGCAGAACCAAATCTCGGTGACCCTGGTTCAGAACTATTCTGGAGCACGATACCTTGGACTACTGTACCATTAGTTCCAACGATACCTGTTCCTGGAGGAGCATCAGGACATACACAGTTCGTTTATGTTAAAGCTGCCTGGACGTATATAAATGGTACGCCATACATATTTATACTAATGAAGGCTAGAAATCATGGATTTATCTCTTGGAATGCATGTCCTGAAAGAACCCCAGATGGGCAGTTATGGCAACCATTCTCTCCAGTTCATACAGGCTGGTGGGTAGTTAATGTATCATACTCAAGCACTAATCAATCTTTAGCTTCTGTATATTATATACCTCAAAGCGAGCAAATACAATATCCGCCTGGATACAATCTTGGAAATCCCATTCAGATAATAGTTTTAAATGAAAGTGGACATCTAGTAGGGGAAATACTTAATGCGATTAATCCTCAGGGTGTTCCGCTGAATAAAGGACAGCCAATCATAATAAAATCTTTATACCTTAATTATAGTGGGCATATTATAACTGCACTTAGCCAATTCTTAGCTATGGGCTTAAACGATACAACATGGTCTCAATCAGCATACAACGAATTCTATCCAGAAGATACTGCAGAATATGTATCACTATTTTATAATTCTACTTATACTTATCCAGAAAGATTTGCAATACTATGGTCTTTAGGTGGAGTGCCTAGTGACTGGTATCAAGTAGCGTATACACCTCACATGATGCCTGGAACATCAGGGGCAATTTCTGCGGGTCAAGATGAGTTATGGATACTAAATAATAACCCAAGAGCTAACAATACTCAAGATTTCGGATACCCTGGCAACACATTATTTAGTAGAAATTCCACTCCTCCATACTATCATTATCCACAGTATAAGGATCCCCTTAATTTAGGCTATTTAGAAAACCAAGGCTTAATAGCTGATGCTTATGTTAATGGTTCATCGATATATTATATTGGAGGTATGCCATTCATAGGATTTCCATCTATTAACAATCCTCATTATAACGCATGGGATCTCATGAATGGTTTATATAACAGCTCACAACTATGGGATCCATCAATAGTCGCTACTGGACTAAAGTATGTACATACACAGACTGGCGTATATTGGTATGCTGAATTCGTTAGAACTTTTACAACTATGGGTGTATCTGGAGGACAAGGAATGTCGCATTATCAAGTTCAATTATACCCTGGACATAGCTACCACGTAGCTTTTGCAGTCTTCCAAGGAGGTGCTGGAGAATCAGTAGACTTCAAATCTATATCATTCTGGTATACTATATATATACAACCGGCTCCAGGAAGCTCCTCTATGCTCGTACCCGCAATATTTATTATAAACAGTATTGCAGCTCCGATAATATTTATAACATTTTTCAATAAATTCAATATTATAAAGGAATTAGATGCTATGTCCATAAAACTGAGTCAAAACATAATAAAAATATTAAAGGTGAATAGAAGTGAAAATAGATAGAGATATTAAGTTAATTCATTTTTTATATTTATATATTTTTGCTCAGTTTTTTGAATTATTTTTCAATAGAGAATTTTTAGTTTCCGTCTTACCTTTTGGGCTTGCCGGAATTTCTGTAACTAAAATTGAGCCTTATTTAAAGGCTTTTTATATAATTGGAGGGACAGCCTACACTCTCATGCTTATTCTTCAACCCATACTTCTTATTTTAGTTATAATAAAAGTGAAAAATAATCTAAGTAGAGGATTATTATCTGCTATTCTATATTTGACTTTACTTGCTGATGCTATACATATAGCTTACGGAGTCAATAACACAACACTTCAAATACCCGCTATATTTTCGATAATATATGCTATACTATTGGCAATAACTCCATTATATCTTATGATAAGACAAAATAAGAAGATACTGTTGGCAATATTTATACCAGACGTATTGGCCTATTGCTTCTTGATTTCAACATGGTTAACTAATGCCCTAGGAAATTCTTCCATAGGTATAGTATCTGGATATAGTGGATTTCTTATGGCGTATGCAGTATTATTCTCCGGAATAGCTTTTATCACATATTCTATACTAAAGAAAATTAATTTAATTAAGATCCTTCCATTCATGACTGTAGGACTTTTTGTAGCTATAGCGTCCGCATTTAATTTAATTCCAGGTTGGGATTTTGCTATAGGAGTTACTTTCCCATATATATTTGGTATTTTAGGCATTAGAGACTGGATGCCACCAATATTTTTCCTTATAGCAGCTATTACATTCGGTTGTGCAATAGAAATGAGAAAAATAGATAAACCGTTAGCTTTGTCAGTACTATCAATCTTAGCTTCCACATTAATTTTTGATTCAGTTCCAATAACTACGTATTTAATAGCTCCTTTAGTTGGTACAACGTTCTTATATTTGATTCAAACAAATAAGGTAGAGACTCTCAAGAAATAAAAATTTTAATTTATTTTTCTTTTTTATTTTGTATAATATTAATTTAGGTTCATGGCTAGTAGTTTATAAAATCGCCATGTTATAGTATTCTATGCAGATATTTACACTACCATGTTATACTTACTTAGACTCTAAAATCCAAGGAAACGATCTGATATATTTGATGCAGATTATTGACCTATTATGGAACTTTACACTTTAAGGTTCAAGAAAGTATAAGATAATAATGAAGTATATCATAAAATATTTTAGATTTACATCTTATCAGTTAGACTTAAAATAAATAGATAAAATTACTAATAATATATACATATCTTAAATCTTGAAATTATGTTTTGACTACCTAAACTCTATATTAAAAACTTTTTAACAATATAAATAATTTTAATAATAGATTATTCAATTATCCCATTTTCACTTTCAATTAACTATAGGATTAGATGTTGTAGCATTACTATGGTGCTATTTATCATAAAAGCATAGAAATTTAGGTATATATTTAAGAATGGCACTATCGTTCATTATGAAATACGAATATTGCCAATATGACTCAAGTGAATCATTTATAAAATACTGCTGAAATCTTCATTTCTATTATTTTATGTATTAAACTATGTTTAAATGTATAGCAGATATATATAAAATGATTACACTAATATAGAATATATATATTATTTATATTTAATTTGTAATAAACATGATATAGAATGATTAGTTTTTTAATATTTGTGATAAGATTATATAATATTATTTGAGAATACCAGTATATTATTTCGTATTATACATATACGTAGCTTAATGTTTAGTTTAAACAGTAAAATTATATTGTTTAATATCAAGTAACTTTCAATTGCCAGAGCAGATGGATCTTGCTCTAGATGTGATTTTATATTTCTTGCTCTATCTCTCATTGTTCATAAAGTTCACAGTTGCGCTCTATAATAAATTACTATTAATTTTTAAACACTTCAAAACTCAATAACCTAAGGTAAGTATGACATTAGAAAGAGAAAATAATAACATCTACCTAATATGACAGTATATTAAAATAATCTAATAATTTTTTAGGACTCAAAAATCTTATCAACTTAATTATATTAGTAAAAAAATTAATTTCTTGAGCTTAAAGGTATAAAATCTCTTTTTATGGGTCCAACATAAAGTGCTCTTGGCCTTATTAGTCTATGTTGATCTTCTACATATTCTATTATATGCGCAAGCCAACCTAACACTCTAGATAACGCGAATAGTGAAGTAAACATGTATACTGGAAATCCTATCGAATAAAATACTATTCCAGAATAAAAGTCAGTATTTGGATAGATCTTTTTCTCACCAAAATTCTTTATTCCAATATCTTCTAAACGCTCTGCTATATCTAGAATTTTCTTAGATTCAGGAGTTCTAGCTAATTCCTCTGCATATCTCTTAAATAGTTTCGCTCTTGGATCATACGTTTTATAAACTCTATGTCCAAATCCCATTAGTCTCTTCTTTTCTTTAATCACATTTTCGTTAAACCATTCCTCCACGTTTGATGGATCCTTTATCTCTAGGAATTGAGAAAATGCTGCTTCAGCTGCTCCACCATGGAGAGGACCTTTAAGGGCAGCTAGTGCTGAGACGATGCATGAATACATATCTGATAATGTAGATGATGTTACTAGCGCTGCTGTAGTAGATGCTGGAACTTCGTGATCAGTATAAAGTATTAGTGCGGCATTCATAGCATCAACTTCTTCTTCTGAAGGTTCTCTTGAAAATGTGGCTCTTAGGAAGCTTTTTGCATAGCTTTCTGATGGTTCTGGAATTTCTGGTTTTTGTCCTTCTTTTAATCTATATACATTAGCTACTATAGTGGACGCTTTTGCTATTATTTCAAGGGCTCTTTCCTTATTTTCTCCTTTTTTCCAAGGATAATTATAGTAGGAAGCTAATGCACTAAACGCGGTTTCCATCATAGCTATAGCGTCTGCATCATGAGGTAGTTCTTCCATAATACGAATTACTGGAGGTGGAACGTTATAACTCTCGTTTATTCTTTCTTTAACCTTCTTTAACTGCTCTGAGTTTGGAAGATCACCATAAAGCATTAGGTGAATAACTTCTTCAAAACTACAATTTCTTACTAGATCTTCTATATTATAGCCTCCGTATCTTAATATTCCTTTTTCTCCATCAATATAAGTCAATGATGTAGCTTTTATAAATACGTTTTCTAGACCTCTACTTATTTCACTCATCTTTAATCACTTCCTACGAATTCTTCCTCAGAGATGGAAGAAAGCGCCTTTAAAACATGAGATTCTCTTATCATGTCCCTCATAGATATAACGCCCTTAAATTTACCTTCAGTATCTAAAACTATGAGATGCCTTATGTTATGCTTTGACATTTTCTCTGCTGCTACGTAAATACTATCTTCCTCGGTTACTGTTATTAGATTTCCTACTGTTCCCAATTTTTCAACAGGTTCATTAATAGATAATCCCTTAGCGAGGGCTCTAATAATGTCTCTTTCTGTAATAATTCCCACAACATTTCCATGATCAGTAATAATAACTGACCCCATGTTTAGTGAAGCCATAGTTTTTACTGCATCTAATGTTGAAGTTCCTTTCTCTATTGTTACAGGTGACCTACTTATTAAATCTTTTACTTTACTTGTCATAATATGTATTATACATTTCGATAATTATAAAAGTTTCTCAAGTTCTTTATCTAACTTTTCATAGAATGAATAATTTATAATGTCATATTGCTCTTTCCTTGTCATCATCTTCTCCATTAACGATCTTTGGCTTCCCTCATTTTTCAAAATCTCTAGTGCGTCTTTCATTGCTTTGGCTGCTACTCTAAAAATAGTAACTGGGAATATAACATATCTGTATCCCATGGATTTAAATTCCTCTGCAGAAATTAAAGGGGTTTTACCAAATTCTGTCATATTTGCCAATAATGGAGCTTTAACTTCTTTAGAAAATCTTTCAAACTCTTCTTTCGAATGAAGAGCTTCTGGAAAAATTATATCTGCTCCAGCTTCTACGTATTCCTTAGCCCTTTCTATAGCGTCTTCTATACTAATTACATCCCGTGAGTCTACTCTCGCAATTATTAAAGCGTTTTTCCTTGCTTTTAATGCAGCCTTTATCTTAGATAACATAGTATCTTTATCTACCACTTCTTTACCATCTAAATGTCCGCATTTTTTTGGCATTTTCTGATCTTCTATTTGTATAGCATCTGCTCCAGAACTTTCCAAGATTTTTACTGTTCTATATACATTTATAGCCTCGCCAAATCCAGTATCTGCATCAACTATCATTGGTATACTAGATACTTCCCTTATCTTTCTTACCATATAGGACAACTCGTCAAGGCTTATTAACCCAATGTCAGGAATTCCAAATGATGATGTCAATGCTCCACCAGATAAATATACTGCCTTAAAACCAACTTTTTCAGCTAATAACGCAGTAAAAGGATTAAAAACTCCAGGAACTATCATGAAATCTTCTTTAAGGATTGACAATTTCTTCCACCTTCATATTATCAATTTCCCATAACTTACTTATTTGCTTTTCATTCATGCCGAGTTTTATTGCTTTTTCTTCAACTTCCTTATCTGTCATTGGATTGTTATAATATCCTCTTGGCGACCTAATTTCCTTTTCAAATCTTCCTTTATCGGTTATAATAATCAATTTTATGGGTAATTCTCTAGGATAGACTTTAGTGTATTCCTCTTTTTCCATGACTTCTATCTTGTCCATCAATTCTCTAATTTGATTATCGCCAATCATTGAATAGTTCTCTAACCACATTTTTTTAGTTAGAAGAGTTGAGGCTACTATAAATGGTAAACTGTGATCTGCTGTTTCTTTATTATCAGGATTCCATTTTTCTTTATCAGCTAAGATTGAAACTCCTGCTTCATAAGTTTGAATATATATTTTCCTGATTTCGCCTTGATATTCTATACTTAAAGCAGCTTCTACTGCGGCCTCACCGTGATATTCTACTGGATATTTCTTTAAACTTGTCTCAAGAATTTTCGACGTACTCATTCTTTCAAAATTTGAGATATCTATATCAGCTATTAATTTGAATCCCATGTTTCCAGAGAAAGGATTTACTGGTCCAGTAAATCCTTTACTAGCTAAAAGCGTTGAGAATACTGCATTTCTTACAGCTTCTGCTGCAGCTCCTGCTTTCCACATTGATAATTTACCACTACGCGTCTGCCTTAAAGCTATATGAGGAATTAAAGCTATTGAAATAGCGTTATATATAGCCTCTTTTTTCAAATTAAGAAGTTTGCTTGCGGCAGCAGTTGCAGCAACTTCTAGAAAATTAACATGATCAAATCCTCTCTTTCTTAATGATGTAGAATCGCATAATCTTGTCCCTATTTCATATCCAACAACTATTGATAAGATAATATCTTTACCGAGTTTTCCTTTACCTAACGCAAGTAAACCTCCTATCATATCACTAGGATGTAAGGGCTCTAAGGATAGATACGTATCGTTAAAATCTAGGTATCTTATTAATAGGGTATTATAAAACGAAGCAATATCTGGAGAAGCATTTCCTCCCCATAATAACAGAAAGTCTCCAGGATAACTGGGGAGTAGAGTCCTTACTATCTTTGCTGGTTCTGAGTTAATTGACGCTTTAGCTACTGCTAAAGAGTCTATTATTCTTCTTTTAGCCTCATGAATTTCCTTTTCTTTTAAGTCGTCATAATTTACAGACGACACATATTCGGCTAAAATTTCTGCTAGCTCCATAATATTGGTTTAGAAACAATCCAATATAAACTTTATAAGAAAAGTTTAAATAAATTCTTGAATATATTTATCATGTGAAATTATGACTAAGATAGCCTTCGTTGGGCTAGGAAAAATAGGTCAAACAATAACTTACTCTTCAGTAATAGACGGAATATTTGAAGAAGTAATGTTATATGATATAATACCAGAATTACCTGAAAAATTCGAACATGAATTAAGACATGCGTTTGCTACTAAAAGTATTAAAACCGAAATTATTTCTTCCAATAATATAGACGATATAGCTGGTGCAGATATTGTAGTAATAACTGCTGGAAAACCAAGAAAACCAGGAATGAGTAGAAGGGATTTGTTTAAGGATAACGCAAAAATAATGATTGATCTAGCTAGCAAGTTACCTAGTAAAAATCCAGGTGCAATATACGTAATGGTAACTAATCCAGTAGATATGATGGCATCTGTATTTGCTAAATATTCTAAGGAAATGACTATAAGCACTGGAGATCAAGTAGAGACAATGAGAATGAGATCTTTTATAGCAAAGAAACTTCATGTGCCAGTTAACGAAGTTAATGGATACGTAGGAGGAGAACATGGTGAAGACGCTGTAGTTTTATGGAGTACTGTATCAGTTAAAGGAAAACCAATAGACCAGTTTAATATAGATAAAGAAGAGGTCTCTAATTACGTTAAGCAGATTGCAGGAGAAATAATTAGAGTAATGGGCGGAACAACTTGGGGTCCAGGGACAATTATAGGTGACGTGATAAGAGCTATAGCATTAAATGAGAATAAGTTAATGAGCATAGCAACTCCCAGAGTCTTTGAAGGGGAAATAATTCATATAAGTGTACCAGTAATTGTTGGTAGAACAATAGGACCTTCCATAGAGTCATTACTAGATGAAAAAGATAAATGGCACCTAACTACTGCAACTAAAGACTTTTACGATGTATATAAGGAAATGCTTAGCTCTCTAGGAGAAGTTACATTATCTAAGTAATTTTTACTGTGATATACTCATTATATGCTAATTATTTTTTATTTTATATAAAAACTACTTTTAATTTAAGTACTAGATCAGTTTGTGAATACAGACATTATCAGTGAACTACTCCGCCCTAACGGGCGTGGCTTCCTGCTTCAAAGCCGAGGCTTGCCAAAGGTAGAGGTCTCAGCTCCACAGGCACTAAGGGTCGTTCCGACCCCGAGCACTAATGTGAACCCACAGTATCCCAATATGGGACTGTTGAATGGAGCAGAGGCGTACCACATAGACCCTCGCTTTAACCAAGGCGTCTCAGTGACGCTTACTCCGTCAGTGACTGCCATTAAGAGAATATTTGAAAAATACGTATTTAAATGTAACTACAAAGGGGGCTCCTACGGTGATTTTCACGAACAACACTCCTAAACAAGAAGACAAGCTTTACAAGAGTGAGACTAAGAAGACTAGGTATAGGAGAGGAGGTGGTGAAGGCCCTCAAGTTAACCCCAATCAAGTAGTTCCTTCGGCTCTTCAAGCTATCGCCTAGCCATGTTAGAGGCAAAGCATGTGGAGCCTATCCATCTCCACCCTTACGGATGGAGTCTTCCACCCCCTTTGAACCCTATATAGATTAATTAGTTGGGGAGAGTAATACTCTCCAACTGGGAAACATGGTCGACCCTTTGACTGAAGCAAAGTCTTCGAACGGGGGCGTGACAAACCCCTACCATCGGACTGAACATTGTGATAATATGCACGGATATAGGTGTGATAAAGAGGTAGGGATCCTAGGAATAGACATATCAAAAGATCATGTGACGAGTGAGGGGAGGGTCTACGAGAACAACAAGAAGGGTTATGAAGAAATACTAAAAGTGAAACTAAACACAATAGTGGTCGAACCGACAGGAGCATACTCAATAAAACCATGTCAATACTTCAAGGAAAAAGGGATCAAGATACTACAAGTAAGCCCAAATATACTATGGAAGGAGAAGGACTTGAGAGGAAAACAGATTTTTACTACAAAAACTAGTAAACATGGCAAACAAGGCAAAGGAGTACAACTACAACCCATTGAAAGAACTAGTAACACTATACGTCTTCCTAAAAGTTGAAAGTAAAGTACAAGAACAGGGTAAAAAGAGCACTATTCCTAAGTGACGAGGAAAAATAAGCAAGGAAATTGAAGAATTCTCTAAAGGAAACTTCAAAATACAATTATACAACTTGGAACAAAGATCGTACTTGAAGAAATCGAAGTATTATCTAAAGCACTACTGGAAACAAGCGAGAAAATAAAAGAAGTAGAGAAAATGATACAATCACAGTCTGAAAATCACGTTCTATTAACTATACCGGGAATAGGAAAACTTTCTGGATAATAATAGGCATTGTTGGAGACATTAAACGCTTTCCTAACCCTGAGTCCTTCGTAGCCTACTGCGGTTTAGACCCAATGAGAGGAGCGGTAAAGCTACTGTAAGTAAGGGAATATCGAAGAAGGGTAATAAGTACTTGCGCAGCTTGTTCTACTTCCTCGCTGAGATGAATTACTCTCGTAATCCTACATTACTAGAATTTTACGAGAACCATAAGGAAAAGTTGAAGGGAAAGAAGTTGTACACTGCTTTAGCCAGGAAATTGGCTAGAATAATTTGGAGTGTTTGGTATAATAATAAGCCTTATGAGCCTAAGTGATCCTCCCCAAATCACCACGTGGATTGAAAGGTACACGTGGCAATCTTAGTTGACATTATGCTTGAAGTTCAACCGAAATATTTATTACTGAACGCCCCTTGT