##gff-version 3
sequence01	MetaGeneAnnotator	CDS	159	629	.	-	0	ID=MGA_1;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKATSCYANAKSGNLVSITGDGGNAWGFYGPAYKKMSPRLYLWQYYDQNPDNLSEEELIDWYIEEFYDLRLKGLDANDLLNTLKEKFGEDIILLCHELPGSKINKEHFCHRRLLADWIELETGIIIPEVSIDSTGNIKNEEVYDLKSKIKKLIK;locus_tag=LOCUS_0010;note=MGA_1
sequence01	MetaGeneAnnotator	CDS	746	1258	.	-	0	ID=MGA_2;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERIIINEENLKENQIDKINIKVRALLVLKKQLLICNYGGVVMLPGGKTDKGETNLQGLIRELHEETGILYSENELNELFLLEYFQPNYPTRENTVLNRLSKTYFYYGTFRGIDNGNKQMTEKEKKDNFSLELVDIEEISKHLCDKSNPRSGFFDREITEAVKVYKKLLK;locus_tag=LOCUS_0020;note=MGA_2
sequence01	MetaGeneAnnotator	CDS	1457	1672	.	-	0	ID=MGA_3;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYEPLWKYIKENNKDEYKLSFEEVKKIVGFEFDHAFLTYKKELLNYGYEFKKLSLKEKWIWIVKKQSED;locus_tag=LOCUS_0030;note=MGA_3
sequence01	MetaGeneAnnotator	CDS	1729	2496	.	-	0	ID=MGA_4;product=alpha/beta hydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005786111.1;translation=METDKVKIHSKALNKEMNIAVYVPENYKEVNLPVLYFIHGRSGNEEILQLLKIDDTVSKLIKDNIIKPMIVVCPNIDNSRGINSSNEYKEVQGKYGIVNLGLYEDYFIEEVIPYIDRNYKTIPNRENRYIGGISSGGYAALHNGLRHQDLFSKIGGHMPAIDLSYLDEDECYFANEEMWNKYDPITIAENNNIDRLKIYLDDGKEDEGKFYVACEKLFNILNNKNVEVKYNLFEGHHNAEYIKSNLEKYLKFYNS;locus_tag=LOCUS_0040;note=WP_005786111.1 alpha/beta hydrolase family protein (Bacteroides) [pid:25.0%25%2C q_cov:98.4%25%2C s_cov:89.3%25%2C Eval:1.1e-17],MGA_4
sequence01	MetaGeneAnnotator	CDS	2532	2699	.	-	0	ID=MGA_5;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVDQSHIKTICSLSTVHSHRKPYGFRKERCLKDIFFNRKIVILRSIKIKKMWYN;locus_tag=LOCUS_0050;note=MGA_5
sequence01	MetaGeneAnnotator	CDS	2800	3450	.	-	0	ID=MGA_6;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNNKLVLVFLIVMVLLSFTNLLNIKIDGEVLKLSGISVIVGVIAYFVTRKTNKTKYEGFNIKTIFKDFKNNPRALLFAILPFVTCILSTVIANKFIPEFNEHVNNRASFAISDNLMKTILTMAVLTLGEEIAWRGFFQKQTTKIIKFVPSIILTSLLFALGHFSTGSFVVVAYDLLFVFIDSTIFSLIFKETDNAWCSWIPHFLADILGVLLII;locus_tag=LOCUS_0060;note=MGA_6
sequence01	MetaGeneAnnotator	CDS	3508	4710	.	-	0	ID=MGA_7;product=23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001147865.1;translation=MEVKVLRLNNEGEGIASIDGKLVFIKGALPNEEVDITITEDKGNYFIGNLNSIITKSPLRVIPKCKYYDKCGGCELMHLSYPNTLEFKKEKVKGIFKKICNIDINPSINSYNELNYRNKVTLKVNNNNLGYYEEKTHNIVDIDSCLLLDNSINEVITKLRSFIQDKNHNISEIMIRTISNEIMISFDNLNELYKEELLNIFPSCSIYINGELITGNKSLIETIEEYKFMVSPNSFFQVNTKCFKELYKYVINNLNGNGNALDLYSGTGTISILMSKSFDKVYGVEVSHSSIMDANKNIELNNISNVEFIEGKVEDKIDELKKLDIDTIIMDPPRSGSDNKSLNSILEINPNKIIYISCNPVTLARDINVLNEKYNIKSIELFDMFPQTSHIESLMVLERK;locus_tag=LOCUS_0070;gene=rlmD;EC_number=2.1.1.190;note=WP_001147865.1 23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD (Staphylococcus) [pid:33.4%25%2C q_cov:99.0%25%2C s_cov:97.1%25%2C Eval:1.3e-65],MGA_7
sequence01	MetaGeneAnnotator	CDS	4720	5463	.	-	0	ID=MGA_8;product=hemolysin III family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680231.1;translation=MTLEKQLKKKYNINEENAKEIISLVEKYRGEKENKINIRIPKYTLKEELMNSISHGLAALGAIAMLVLMVIKAKGALAETTVALFGSAMVILYTLSCIYHALSPSLEGKKILRVLDHCNVFVLVFGTYIPVALLGVEGPFGWALFGVVAAITTLGIVLTSINIDKFQVLEVICHLINGWSILFGISILLESMGVHGVLFLLGGGIIYTIGSVLYGVGSKKKYMHSLFHVFCILGTLCHFFAIYLYLL;locus_tag=LOCUS_0080;note=WP_002680231.1 hemolysin III family protein (Treponema denticola) [pid:38.7%25%2C q_cov:87.0%25%2C s_cov:99.5%25%2C Eval:1.5e-38],MGA_8
sequence01	MetaGeneAnnotator	CDS	5464	6288	.	-	0	ID=MGA_9;product=DNA-3-methyladenine glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965994.1;translation=MTIKLNNYFDLDSTITCGQIFRYDIEEDNSYTVILPDRVINVKKVNDELIVESSNNDNLEEVILEYFDLKEDYESINKEILKKDNSIKDIIEFSKGLKIINEPRFEAIISYMLSTNNSVPNIKSALDHISKRYGKKVLFRGKEYYLFPDRKDLMNASTTDLREVKCGFRDQYIYDLIHSELDVDSIENMTTKDAIDYLTSYKGIGIKVASCILLFSYKKRDVFPVDTWVKKYMKNKYNLEGINNINNYIYEKYAEYSGVVLQYIFNYNRNKEVK;locus_tag=LOCUS_0090;note=WP_010965994.1 DNA-3-methyladenine glycosylase (Clostridium) [pid:34.6%25%2C q_cov:97.1%25%2C s_cov:92.8%25%2C Eval:5.9e-47],MGA_9
sequence01	MetaGeneAnnotator	CDS	6330	6737	.	-	0	ID=MGA_10;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011072183.1;translation=MEFNPIIDEKTILVVDDSNITRNLIEHVYKDKYKVMMASDGKQAMDIVDVMPEGTIMAILLDLNMPNVDGFGVLDYFQGKGILEKIPVCIITGEEAPEIIGKVRTYNVAAILLKPFSVKQIEDVVTKAIELRKNS;locus_tag=LOCUS_0100;note=WP_011072183.1 response regulator (Shewanella oneidensis) [pid:27.3%25%2C q_cov:88.9%25%2C s_cov:97.5%25%2C Eval:1.5e-09],MGA_10
sequence01	MetaGeneAnnotator	CDS	6740	7096	.	-	0	ID=MGA_11;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTSILTNNGVDINRGLELLGDMEFYNETLNSFLDTIEENKNKLLEYKTNNDFENYGILSHSIKSDSKYLGFVSLIDIALSNEMAGKESNKEFIDNNFDIFINEINKFEEIGKRYLGR;locus_tag=LOCUS_0110;note=MGA_11
sequence01	MetaGeneAnnotator	CDS	7185	7547	.	-	0	ID=MGA_12;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDIKQKYKEAKKELFVAKTKSIIASTSLIVALNLPILFCAPVAGTLGHFYRNEKDESTKRKYFIAGLSTALITATAYGILWSNSEELANKLEVREKAIDAEFNKIYVKSLKRRIKEEE;locus_tag=LOCUS_0120;note=MGA_12
sequence01	Aragorn:1.2.38	tRNA	7640	7716	.	-	.	ID=Aragorn_1;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0010;note=Aragorn_1
sequence01	MetaGeneAnnotator	CDS	7741	8655	.	-	0	ID=MGA_13;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISEKDVLVNMINSRLRNKFPELSSLSAEEINKIISLYEEAIKEPGFELYGDGPWHYLYFGDAIIIEECIYNVIKLESKYEVLANRIVDSYKQELDLKLERTVYSYGEPTDETYKAPYSELPKYSLTLLEMCTRRMDNTLTSHTVYNNEVLFALQKDVAIYEQVKDDLTKKDIKTPVSYEDVYKDAKEIIGLIEDSIKRRNADESFNVQEDVKTEQEQELYDSNYRVFPDIYKQINRLQDEETKKKEEIVNQIIMSINPKELEYAPLPDLKRRLMDLSPEHLNIILNEFAPQADTMQGSGGPQM;locus_tag=LOCUS_0130;note=MGA_13
sequence01	MetaGeneAnnotator	CDS	8690	9400	.	-	0	ID=MGA_14;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEELYDVFTRDGEYLGTRPITDHNHYNNDNPEFYFKIVWILLLNENNEILIQKRSNNLKVHPGKWELSSSGHVNSGENELDAALRETKEEVGVSLDKNNIRLIKTYIHKDAITYTYIARIRNNTNLTLQKEEVDEVKWISLYEFKNLIYTDDFVPRNREYYEFLLNYLIVDLKIDDRNIIKRNNIEGLSKSMDQIEKDNNVKEGIELDSSLKIIDFVIAVLIILLIGIVVYCILKM;locus_tag=LOCUS_0140;note=WP_004454674.1 NUDIX domain-containing protein (Clostridioides difficile) [pid:33.1%25%2C q_cov:68.6%25%2C s_cov:93.5%25%2C Eval:2.0e-18%2C partial hit],MGA_14
sequence01	MetaGeneAnnotator	CDS	9402	10118	.	-	0	ID=MGA_15;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183561.1;translation=MFGHINANKEDISNLVLICGDPLRVKAIAKKYLNNYKEVCNTRNMLGYTGYYKGVRVSIMSHGMGIPSAGIYTYELFNNYDVDYMIRLGTAGSFVKDIKVRDIVLTKESFSTSNYAYEYNKDTSKIMKSNEELDNIIKEEASNKGINLIESRTFTSDCFYGETNNIDLIRDKFNCTTVEMESFVIFYNAKLFNKKASCLLTIVDSYAGDNTVLSDEEKESGLNDMIKLALDSIIKVGN;locus_tag=LOCUS_0150;gene=deoD;EC_number=2.4.2.1;note=WP_011183561.1 purine-nucleoside phosphorylase (Mesoplasma florum) [pid:42.6%25%2C q_cov:98.7%25%2C s_cov:99.1%25%2C Eval:4.7e-47],MGA_15
sequence01	MetaGeneAnnotator	CDS	10142	10741	.	-	0	ID=MGA_16;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKRTTNIVIFALIFALYFISFLMLFDSFRERKLASLEKKALDEFDKTVKIEEKAPEEVKKTSSSVSYSGFTILGKIEIPKTGFNSVIIKENTSKAMNVGVVKTYGEAEINEEGGFVLSAHNFRGNDVFFYNIKNLKSGDIIRITDTSGLQLEYTVYETLRNVNPEETSYLNKFDGIHATLVTCENGGKARIVVKARVN;locus_tag=LOCUS_0160;note=MGA_16
sequence01	MetaGeneAnnotator	CDS	10754	11197	.	-	0	ID=MGA_17;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRIKRLLSISLLLFLVVMVSACSKNYNSITYKRFQEKMGDELNYAITDKTLTYEDIYQRYYSAINNDIIFTFYEFKDEDSAKKFVEKNYNKRKYYSYKSTDDYSEVKSTKAGYFRLIQVDNIIISASSEKSSDKSEINKAFEKLGY;locus_tag=LOCUS_0170;note=MGA_17
sequence01	MetaGeneAnnotator	CDS	11247	12374	.	-	0	ID=MGA_18;product=phosphoglycerate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002357094.1;translation=MKRLEDISIDNKRVIIRCDLNVPIENGIIKDDTRIEKALKTIKYCLEKASKVIVLSHLGRIKTPEDMANNSLKIVCNRLSELLNIDVAFCKYEDDIKSIIDNNKIVMFENTRFFDLDNNKESNENEELSKYFASFGDIFVNEAFSCSHRECSSITGISKILPSVNGFQVCIEIDNLSKLLNDYEKPYTICLGGKKVSDKIGLIDNLINKVDYILVSGLMAYTFLKAKGYNTGNNFVEEEKIDYCKDLLDKYSDKIILSVDAYTSNKEYKLVSELNDNDECLDIGEKTVDLFKTYLEKSKTIFINGPFGLFENDDFSKGSKSMCEVFKSLNSSIYAGGGETTYMLNKFNVGNVFMSTGGGATLTYLSTGKLIGIIE;locus_tag=LOCUS_0180;note=WP_002357094.1 phosphoglycerate kinase (Enterococcus) [pid:42.6%25%2C q_cov:99.2%25%2C s_cov:97.7%25%2C Eval:1.1e-79],MGA_18
sequence01	MetaGeneAnnotator	CDS	12424	13779	.	-	0	ID=MGA_19;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVEKFWTKFKLIVLGVIIGIIAIIFGIVMLYRSSMRKKYIMLESQINNSASNYLDIEDIELEKDEYRKIDINLIKEKKLVTNSNIKDCKGYVIAKNSKGKELKEEYDYKTYLACKNIYKTVGYGSETTGTENKTITQTENDTKAPEIKLLGSETMTIAIGEEFKDPGATAYDKVDGDITKKIKAKGEVDVNTIGEYLITYTVSDKAGNNASKERKVIVKEGEIEDDKDTNPPVITFINPNSYQKVCLGDKVDISTTGTYGFTAYDDKDGNITGNVVISGDTGLQSKTGTYTINYSVFDQAKNATTASRTYSVVDCRQPDPTPTPTPTPSGGGNSGGNSGGGSSGGSGGGSSSSSSSSSGGTTRPDVNITVNVTSISCVDSITLNVGASQNLNASVLPSNATNKTLSYRSLNAGVASVDGNGTVRGVSRGETRIIITSSNNVQKAVYIVVK;locus_tag=LOCUS_0190;note=WP_010989464.1 LapB repeat-containing protein (Listeria monocytogenes) [pid:39.6%25%2C q_cov:18.6%25%2C s_cov:4.4%25%2C Eval:1.9e-07%2C partial hit],MGA_19
sequence01	MetaGeneAnnotator	CDS	13788	14270	.	-	0	ID=MGA_20;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLKEKLIFMFKGTTPGDSNSNVPKEPKQKKVREKKITRLQLILAGIVLLTVLVVFIVINVKISNKNKVYQEYEKELVNAANLYYRKMDYKIKDGTSERISVKKLISTNFLNTDSKLVDKCDGYVESTSEKDYDSGKYVVTRKAYIKCGSKYKTVNYTSY;locus_tag=LOCUS_0200;note=MGA_20
sequence01	MetaGeneAnnotator	CDS	14267	15268	.	-	0	ID=MGA_21;product=type I glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016560.1;translation=MIKVAINGFGRIGRLALRKMINDPFFDVVAINDLTDSKSLSYLFKYDTAHRVFDGDVTYSEDSITINNKTIKILKEPNPENLPWKELGIDIVLECTGLFKTREKAGMHINAGAKKVLISAPSDKDITTIVYGVNEDKMTGEESIYSAASCTTNAIAPVLKLLNDNYKVLVGYMNTVHAYTNDQSLLDLPNKKGDLRRGRAAASNIVPTTTGAAKAIGIVIPELDGKLIGSALRVPTVSGSIAELILRLEKTPTVDEINTLFKNKANESMGYVEDEIVSSDIISSTAGSIFDSTLTEIIQNGDESLVKVCAWYDNEMGYTSQLIRVLKYLGERL;locus_tag=LOCUS_0210;gene=gap;note=WP_011016560.1 type I glyceraldehyde-3-phosphate dehydrogenase (Fusobacterium nucleatum) [pid:59.5%25%2C q_cov:97.9%25%2C s_cov:97.3%25%2C Eval:1.9e-109],MGA_21
sequence01	MetaGeneAnnotator	CDS	15281	16912	.	-	0	ID=MGA_22;product=nucleoside kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963991.1;translation=MLSIQVKYNDNKYTFSKGTTLLEISKSFQKDFKDKIIIGEINGILTELNTPVMNSCDIRFYDRNSSTGNKVYELGLVFILVKIFKDRFNKDLKIIHALDKGIYIRCNDVTEKDLELASKEMNRLIELDLPIDKLLVNRKEAIKYYANQGAKDKVELLKYNTNTNINLYKFDNMYDYYFYNLPISTGYLKDFKLHYLNENSFVLLFRSIYNPRLTYKHHEKMFDEFERYYEWCSNMGITSISNLNRAIIDNKINDIIMLSELHQNNELFEIAKDVYNKKSRIVLISGPSSSGKTTTCKKLGLYLKSFGLTPKSLSIDDYFISREETPKREDGSYDFECLGAVDTKLFNKHLEKLLNGEKIKTPTYNFITGKPEYITDPIELKENEILLIEGLHALNDELTKNISDKYKYKIYISPLPILTLDNHNRIKMTDVRLLRRIVRDNESRGYNASDTLSHWPSVREGEEKNVFPFQEEADVVFNTTLIYELSVLKTYAEPLLYAVDESDVNYKDVVRLLNLLKLVLPISSENIPRDSVIREFIGNSIFK;locus_tag=LOCUS_0220;note=WP_010963991.1 nucleoside kinase (Clostridium) [pid:37.6%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:1.4e-105],MGA_22
sequence01	MetaGeneAnnotator	CDS	16990	21513	.	-	0	ID=MGA_23;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFIKKNKLFLVAIVLLLASIIFFVYNIKADSDDNKIGISYAEMTGIKTGTSSFDSSDGLNYGDTSNLHATSGYTAGKDASEDNAIVRSFDKITYNFELQIKNKDEFNQTSSLTAYSNKKILIKATISEDASKYVSFTENGKPGQTTYTYEINNVNEINGSRITSDISMYVLGAPNGVIIDPKFEIQESTNTDSEYVVTLGKKDNSTHYYSYDALRDTNYSSAADFYNYMPTVVSSSNTLNLNLELIEGESQKATYDSKIGRYMNYVLALTTTDSLKGKVMPKDDIVLNATFSQTGHERPILTEDFVRLFNGQQVLDINGFTLDAPYSATTLISRDKYTRNPGSVTVNNLTNNTFSLKISDYGMGYTYPTAYSNGNSIPSGKSYIGTYAITLFSPRVPEDGGSNIDVTLSFASTNVTLTSGTTSLNAVSKTSSNEAYEVKDYSLVTGLYEMDETKIAEANGEGAKSRGSEIQYITEFNYLSTSSNDGLKETIKIDPIAYRFMPYTSKEDIDIEVYCGNNRCQNINADDFEYKFVAGDFNASNYTAINHTTVDSKIKSEEANVIKNGCTTVKNNLANYNSDQIMNLYGGPCISENNPVYYDNISSAATADNEEIVLTKLIVQTKNGVNLPDNSKVVIKTKLRIRNVTDITKKYQVTAIATSSDYDNKITYYSPRVVNTSSSEDSVLNPNNYNKEFDNSLFGDSLTILSFEAKQNITVTNRRKDGQMKDNFNVVDNETIHFKVSTNLKDYALNVGADDAWYIKDLVFSVFIPDTLTYIPTNNTVNPEIVEPIMGGTLLQYRIPYTKPNFEIPDVYFDAILSSDLTGNGNEIVISSQVFCYNINDEVVDYLSSSASLKIYGNGINNMIITLTNDSANRVEKDSEFSYYINAYNNTDSRIEDYMILNVLPANNDERGSTFSGDYKVHLDATSLNGANVLCTTEDYKNINKDVLDTETLFTDCSDIFNEGVYKEVSAIKITNLSADANTSINPIKVTIKPSENKFSDTYKVSAVGGSRTFMPINSNELSFEVINRKISGRVYIDVDEDGVKHGNEKPLQNISVSLYKIIDELNQELVDETQTLESGVYTFENLEKGFYRVRLAYDNENYDLTLRYATEDTDKDSDAYKISEGLAEISNKHDPSKVDGIDLYNNIEANNMDMGLINRRPFSMAIKKYITRIDLNYNGITNTKLYENSSKVLLSYKNSLKASLKVYYGFEITNDSQVKGYVDNIFEDIPEGLYYDSTEPYNEGWVLVDNKLQNTSYQNQVLAPGESIYVQLVLNMPTREEAGTFLNRVSLDIRMAEEEVEPTEAGYTNGTSYAVGEYVEYAGLGWHVINSTPSGDEELVTLLLDSEYATTSGTLGSDVYKPSNIDIAVSDRLSRASSIFEDNVICDDASGLDKGSYGGTLKGGSCISNQYVTRKIRLLTESEFNSLRRSLSDISWLVGNKNFYLQNSVNIPNDYDDHGEVIRTYVDNVRFVDANIVAVGPTKITPVNKYFRYVITINSKYIVNN;locus_tag=LOCUS_0230;note=MGA_23
sequence01	MetaGeneAnnotator	CDS	21581	23593	.	-	0	ID=MGA_24;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRETYNEKFERIKTEVIKCLMLSNKVLHEQELYNKLGITKSKEKKALKKILNKLVLEDSVIYSKKQGFIRLKTTEYEIGEVILNGINDFAVQFKDKRLSVRSKNLKGAYVGDKVLFSNKDKKVKSVLKKENNPRIFECIRVNDSIQIIPFNSRDDANYKYIFDKPISLSGDEILSAYVTYNEKEDYYECRIKEIIGSRTESSIYGKIVLASNGIDINFSEKALKEAELIPDRVLDIELKDRVDLRSLLTYSIDGNKRMVTIDDAISIEEKDNGNIKVYLHVIDVPHYIKPGSALFNEARKRSKKIYMHSYRYNHDMIPPKLSEGICSLKAGEDRLCKTFILEFDKYGKFLNYDFCNSVVNVNKNYSHEEANKEYLDVLYSSDDPNSFISLESIFFNSLHKANIAINRTLFKNETYALLELSSSIMTNIIKIVNENVAHNFLTLPFIYKTFKYPSKKDIINKVKEKPIFYFDDAYWNFTRLDTVEEILAYYDLPRTVEYRDAVLELLSRGNYFFSTRNNGHFGLATPRYAKINSPARSFINLVDLTLFDLYSTEYDTDESYISRLEQELETICDEYNRNNEKYKKLEELSPNVALDERPSLDGLIVGKVIEKKGDLLTINVKNGEIFKSHYREQDVEIGSSVIVKKIETPENIKSNKVKVLRHINTNDNI;locus_tag=LOCUS_0240;note=WP_000654897.1 ribonuclease R (Streptococcus pneumoniae) [pid:25.9%25%2C q_cov:78.5%25%2C s_cov:69.5%25%2C Eval:1.3e-37%2C partial hit],MGA_24
sequence01	MetaGeneAnnotator	CDS	23656	24207	.	-	0	ID=MGA_25;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARVKTAKITKARHKKILKNAKGYFGSKHRLYKTAKEQLMHSGVYAYRDRRQKKRDFRKLWIVRINAECRNNEISYSKFIDGLNKAGISINRKMLAELAVSDTKAFAALVKEAKDALNGKVAKTTKEAPKKEEKKETPKKETKKEEKVDLSKLTVAELKDLAKAKKIEGYTSMKKAELIDALK;locus_tag=LOCUS_0250;note=WP_001138360.1 50S ribosomal protein L20 (Bacteria) [pid:66.7%25%2C q_cov:63.9%25%2C s_cov:99.2%25%2C Eval:1.9e-38%2C partial hit],MGA_25
sequence01	MetaGeneAnnotator	CDS	24218	24424	.	-	0	ID=MGA_26;product=50S ribosomal protein L35;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002895038.1;translation=MAKNKIKTHKASAKKFMVRNSGSVTFKRAGANHNTTGYSTKRMRHLREAGQLSGSDSKRLKRIIDTLK;locus_tag=LOCUS_0260;gene=rpmI;note=WP_002895038.1 50S ribosomal protein L35 (Streptococcus) [pid:43.8%25%2C q_cov:94.1%25%2C s_cov:97.0%25%2C Eval:1.8e-07],MGA_26
sequence01	MetaGeneAnnotator	CDS	24427	24906	.	-	0	ID=MGA_27;product=translation initiation factor IF-3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886591.1;translation=MVIGPGGEQLGVKNIEDALTLANAAGFDLVQMNGNSDKPVCKLMDYNKFKYERNKKQKEALKKQKSTAAELKEIRLSVKIDIHDFNTRVNQTNKFLEKGHKIKAVVRFKGREMAHPELGKDVLDRFVEAVKDYGTKTSEPTMEFRSMYVNISPNKKEGN;locus_tag=LOCUS_0270;gene=infC;note=WP_010886591.1 translation initiation factor IF-3 (Bacillus) [pid:47.4%25%2C q_cov:98.1%25%2C s_cov:89.0%25%2C Eval:7.3e-37],MGA_27
sequence01	MetaGeneAnnotator	CDS	25143	25850	.	-	0	ID=MGA_28;product=zinc metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583790.1;translation=MGVDYNTSTGLIYNSTGMILFYVAAAITLLASLILRAVHKKYAGVENNKHITGREVAEKILASNGLTNIKVGQISGSLTDYYNNSTQEIRLSESVYDDTSIAAIAVAAHECGHAIQYKDGYGPIKARNAVAKVASIGNTIGYISLVIGLLASITGFIYIGVALMFFALSFQLVTLPVEYNASNRARKELLRLGIIGEDEVPAVKKMLNAAAFTYVAGLLSSVLQIIRLLSYARKK;locus_tag=LOCUS_0280;note=WP_012583790.1 zinc metallopeptidase (Dictyoglomus turgidum) [pid:41.0%25%2C q_cov:92.3%25%2C s_cov:94.8%25%2C Eval:1.4e-43],MGA_28
sequence01	MetaGeneAnnotator	CDS	25841	27232	.	-	0	ID=MGA_29;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584040.1;translation=MKIYNTLSRTVEDFIPYNGNNVNMYTCGPTVYHYAHIGNLRTYIFEDILEKTLNYVGYNVKRCMNITDVGHLSSDSDSGEDKMLSGAKREHKTVLEIADYYTECFKKDLNRLNIKWPEIVSKATDNIDFYFVMIEKLLDEGYAYISGGNVYFDTSKLDDYYKLTNHKEDEMVVGVREGVEEDSSKRNQADFVLWFTKSKFEDQELKWESPWGYGYPGWHIECSGISIKNLGEHLDIHCGGVDNIFPHHTNEIAQSESYLGHKWCNYWVHGEHLNDETGKMSKSKGEFLTLDLLISKGYNPLSYRFMCLNSHYRKQLVFSYDALDQSEDTLNKLKTRISNIIDDNNYSEEDFNKYNELFKEAISNDLNTANAITILYDVLKDNEISNSTKIALVKSFDKVFSLDLIKEKEIDKELEDKINKLIEERNNYKVNKDYENADRIRSEIEALGVTIKDTREGTIIIWE;locus_tag=LOCUS_0290;gene=cysS;EC_number=6.1.1.16;note=WP_012584040.1 cysteine--tRNA ligase (Dictyoglomus turgidum) [pid:48.1%25%2C q_cov:98.3%25%2C s_cov:96.8%25%2C Eval:4.2e-119],MGA_29
sequence01	MetaGeneAnnotator	CDS	27308	28789	.	-	0	ID=MGA_30;product=YfcC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001290378.1;translation=MKKYNLYKILGIVILFTVIISYFVPGTTISYGSVSKDTIIPVTIADTFFNGLTSLSVFMSTIVYLLSVGLFYAILGKTEKYDEYITCVARKFARRKSLYIVLTVFVLGLMSALTGNMYAALFALPFFISVIRKLGYGKTASIAATVGATIIGSASSLYTYYSNQMLNLTVTDNLLYKIVLLLVLLLALIAFILVFNKRPEKVDLGKEKCSNVLTLKIVMIVLLVLVVLGFVPWTQYFGFDGFTRFLEFMQSKDIKGVSIFNALVGSEIAAFGTFELYHFALVLVVASIFIAIMYKVKVNTFIAAVGSGLRKSIPYIVILLVANIVFINLYTSGVYYTFVTAFSEKMNLFTGSVISSVTSLFYPDYTYATQFALSGISYTTKTTGFEASIAIIFQAIYSLVLLVSPTSILVFFGLRYTDVSYKDWIKYIWKFFVIVFLVSLVILSIATKGFGLFAIIGTILVIALVILALLDHNKKLIKEVKEETKKETKKSNK;locus_tag=LOCUS_0300;note=WP_001290378.1 YfcC family protein (Streptococcus pneumoniae) [pid:18.9%25%2C q_cov:89.5%25%2C s_cov:96.2%25%2C Eval:2.7e-15],MGA_30
sequence01	MetaGeneAnnotator	CDS	28905	30365	.	-	0	ID=MGA_31;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989378.1;translation=MRELSEQEVVRREKLKLVERPYPDKYETTHTIKEARELADGTTDVSIAGRIGFMRKMGKLSFIKIKNIEANIQLQIRADVLGEEKYEEFKKIFDSGDFIGAKGDIITTQTGEKSLEVKDFTFLGKALRPLPEKFHGLQDTEIKYRERYVDLIMNEDSRELFLGRSKFYFFLRKFMGENGFLEVETPIVQTAVSGASAKPFFTHHNALDIDCNLRIAPECYLKECNAAGFERVYEVAKCFRNEGMDPQHLQEFTQIEWYASYWNFEDNIKFFKEFMRSTAMFLKGTTEVTVGDKTIDLGKEWNRVNYVEALTDALGFAFINIEDPEELRTKIIESGKFTKTDLEECNSLAQLIDFCYKRLVRANIFEPTIMWNYPAVLKPLARRNDDDNKVVDVFQVIIAGAEICNAYSELVNPEVQRANFEDQLKAKAQGDDETMDLDEDYLLAMEQGMPPISGLGVGVDRLMMLLYNAASVRDVVLFPIMRPREK;locus_tag=LOCUS_0310;gene=lysS;EC_number=6.1.1.6;note=WP_010989378.1 lysine--tRNA ligase (Listeria monocytogenes) [pid:41.1%25%2C q_cov:99.4%25%2C s_cov:98.6%25%2C Eval:4.2e-109],MGA_31
sequence01	MetaGeneAnnotator	CDS	30391	31365	.	-	0	ID=MGA_32;product=tRNA dihydrouridine synthase DusB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000912262.1;translation=MFKIGNVNIENNICLAPMAGVCDSAFRRMCRELGAGIVFAEMVSDKAIMYGDKKTFSMLKMDEKERPIAQQIFGSDKESFVIAAKKVYEIMKPDIIDINMGCPVPKVAVRAQAGSALLKNPEKIKEIVKAVVEAVPCPVTVKIRSGWDKTSINAVEVAKIIEEAGASAITIHPRTRSQGYEGLADWSIIKQVKEAVNIPVIGNGDIKTVDDAIRMQKETGCDAVMIGRGALGNPFIFKELDYYYKTGKKLESISDIDKIDLCLKHMNYLLEIKPEGQAILQMRTHAAWYLKGMKGSASVKNAIFQSKTKEELEKILINYKESML;locus_tag=LOCUS_0320;gene=dusB;EC_number=1.3.1.-;note=WP_000912262.1 tRNA dihydrouridine synthase DusB (Bacteria) [pid:54.1%25%2C q_cov:97.5%25%2C s_cov:94.9%25%2C Eval:2.1e-92],MGA_32
sequence01	MetaGeneAnnotator	CDS	31388	31876	.	-	0	ID=MGA_33;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKRIIKILLFVSVFILFIPSYNKYKLDKKIDDVIISKSNNITSLYEGYIYIPKFNYKNLIKKGDKALDENLVSMHRLSDPIGGSNIILSGHNNKYVFHKLYNLDIGDEIIISDFNIDKRYIVNEIKKVSIDDSYIFNIDGLKLITCTNNNQVRLVVICIEK;locus_tag=LOCUS_0330;note=MGA_33
sequence01	MetaGeneAnnotator	CDS	31857	33539	.	-	0	ID=MGA_34;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLKKIIFLLVIILIGIKGIKAASLDTNISKSYIDNVWSFHYRNGRVFSYGQLKLNYANGKLAYCIQPETSINFDSYNSYDNWSISGYSEDAKYKMELYSYYGYGFKNHNSIEYYMATQELIWRLSKDEDIVWHTGNTSSTPVIDISNEKNEILRLVNNHGRMPAFNNTVNSTYVNRELIVNDSNNVLDNYEIVSNLDFKREGTSLIFKPDKIGSYEVYIKKVNHGYDKTIVYDREDSPTQDLATFKMPNINEGKFIINVTRVPITIYKRDKDTNEIIKDKGNKILINDREYEFIDGVINVTLEKGNYTIKEISASNGYYINNEEISFTIEDGSTSKEINFYNEKVKGKIELKKTNEDGELLENIYFEIYDEFGEKIDEIITSSKEYNSSIILPLGRYTLKEVKTLNGYELDNKVYNVSLNYVNDKDPLVIKKIDLINKKILCEVTFISSDELGNKINVTYEVLDSNKNVIYKGNTKDGVAKLNLNYGKYYIRETSVENGYKLNDRLLEFEVSDDFCIENLTISNDKTIYPVTSTKSDIWILVVIIFDTFGMIYVKKNN;locus_tag=LOCUS_0340;note=WP_211477941.1 SpaA isopeptide-forming pilin-related protein (Bacillus cereus) [pid:24.6%25%2C q_cov:62.1%25%2C s_cov:26.2%25%2C Eval:2.0e-17%2C partial hit],MGA_34
sequence01	MetaGeneAnnotator	CDS	33612	34460	.	-	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEILRRKNFLSGILGEYIDLGIDTGLFDTDNIDSVLSRIQFTEIKEDNSIPGYYESGFKNGRFVITINRELCLQNCGERYIDRIIFNQLTHFANEIFRDLSVYKSHQILGFKDRYSILVKGNDSVSNPECGMMMLDKELCAYVAQLMVSKKYNTEPLIKKDREISFDRLKSIMRRPTTDYPDSTTFSEIFAKTIYKNDSMFRLSKDALSDRFLDNMFCKYGLRDDGMKTLYELLGYMGNIMISSTMIELGLDKINSDDNRKLVLRSMNEVINKTEKIVKEN;locus_tag=LOCUS_0350;note=MGA_35
sequence01	MetaGeneAnnotator	CDS	34521	35096	.	-	0	ID=MGA_36;product=epoxyqueuosine reductase QueH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583959.1;translation=MKLLMHACCGPCSIYCIDSLRNEGIEPDIYWFNPNIHPYKEYENRLNALKELSNIMNFNLIIEDNYGLDEFCKNVSNRIESRCIEYCYPVRLRRLFEYAKENGYDAVSTTLLYSIYQKHDFIKMYCEKLSKEYGIDFLYRDFRVGFYKGKEKAKEYGIYIQKYCGCIFSEEDRYVKKTKDPLSIPESGFIE;locus_tag=LOCUS_0360;note=WP_012583959.1 epoxyqueuosine reductase QueH (Dictyoglomus turgidum) [pid:50.6%25%2C q_cov:93.2%25%2C s_cov:97.3%25%2C Eval:3.7e-48],MGA_36
sequence01	MetaGeneAnnotator	CDS	35383	36066	.	+	0	ID=MGA_37;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966783.1;translation=MERILIVDDNIDIAELESYILKEEGYETVITHSGEEALEVINKEKFDLILMDIMMDGISGIELCAKVRDKVDCSIIFVTAKANLVDKMIGFEIGGDDYITKPFENQELVSRVKAHLRKDKRNKNTNKGNIISIGEIKINKENYEVKKNDKKINLSTKEFEILLYLMENAGLVLSKEQIYENVWKSSYGDIGSVAVHIKNLRDKIDKEEKYIITVWGFGYKFTKDINE;locus_tag=LOCUS_0370;note=WP_010966783.1 response regulator transcription factor (Clostridium) [pid:41.7%25%2C q_cov:96.9%25%2C s_cov:97.4%25%2C Eval:1.6e-49],MGA_37
sequence01	MetaGeneAnnotator	CDS	36059	37366	.	+	0	ID=MGA_38;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNINTKKSFIVFFVIFLITNFIFLGIWFKFGVQSSIKEGYASLEKEIKEDIFSNIEKSIRGDQVDVMDLFGKISNKYNLLLIVKDDNNNIIFNNTEEISDVEYLMPFMININGKNYLLSVGKTNEFNIVSISKKFMIFEIIFTLVITMLALIISNEILLKPIDDTITDIKNYKFGIKPKKRKVSTEIGYIQNEFVDLTNNLEKEHEEQNRIISAISHDIKTPLTAILGYSEILNKKKLSIAERKSLEEKIFLKAQDMKAITSDFDDYLLSNKDRTYTFTKINIKDYLDRLKLEYKDDLKDKKIKFEIIDKVRIQSFNIDIGKMNRVFANLVSNSIRHLDKNGKITITCKNDNEYVYFEFKDNGTGVSDENISKIFDPLFTTNKSRKISGLGLSISKEIIEMHGGKISAVSNTNEKDNTKKDGLTINFSIKQNNN;locus_tag=LOCUS_0380;note=WP_010963640.1 HAMP domain-containing sensor histidine kinase (Clostridium) [pid:29.9%25%2C q_cov:77.9%25%2C s_cov:71.3%25%2C Eval:3.5e-27%2C partial hit],MGA_38
sequence01	Aragorn:1.2.38	tRNA	37418	37491	.	+	.	ID=Aragorn_2;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0020;note=Aragorn_2
sequence01	MetaGeneAnnotator	CDS	37532	38074	.	-	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKRKKNSFNSKRNIVIVLIATIVVLGAIILLFFNKDTVPGKHFSEKKYYVIDKTGTGLGGGTSYMFFNVNGEFEYFTSVMFSPSGSVGHYKIEKNKVYMTEEYGYLVCDKSLVGYIGGFDLIVLKFDNKSLNYTDLDNYVFKEISVSEYKEARNKWGKTYSEAKRIYKNNPRLWPNICD;locus_tag=LOCUS_0390;note=MGA_39
sequence01	MetaGeneAnnotator	CDS	38150	38839	.	-	0	ID=MGA_40;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFDKKKMDLLKNKIEAIKQKEEQRGAFSLFHSKIVEDFINKATNYKGMKYAFDLIDSYTGKYNLPYNFGISLEDFINRDDLVVCIHRTNMGLDADKPGIPKSDVLESIMKDGLRNFGHSNATGGTAISDKLPDLTLTTTSINNLGGYINLITNYHENDTTVIMGFPTTLVNKSGNIIDGKGKEIYNTDSGIPTIKPEYIMGALLKKNNGFDEFYLKDEILKAQETMVM;locus_tag=LOCUS_0400;note=MGA_40
sequence01	MetaGeneAnnotator	CDS	38958	39374	.	-	0	ID=MGA_41;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYYTTDYSNYYNTTTKAATAGFGAAFIVYLIICLAIAAVMIVSLWKVFTKAGRPGWAAIVPFYNMWTLFEIGGQKGAYIFFIFIPFVGSIIYLVFEIKALLEIAKRFGKDTTFGVLSIFFPFVTFPILAFSDAKYTE;locus_tag=LOCUS_0410;note=MGA_41
sequence01	MetaGeneAnnotator	CDS	39450	40355	.	-	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSNNELYQLAKDIYTNIASFVDSKKGNDATYYGSAYVNMQDGRVIRYHMENDLCREGLLEMYKYTYADNQVVGSETINMIRQDDGELSCTISLHDGSLIRCIGNLTNLEGIPKEDIDRFKDYLTRMKELTSEDLLVYDTESVHKVDNLTQEAVTLYKKELFQSELDKSTIYLGSKKVLPSIHKGVDYLVRRMTGRLSESQKPDTISYFTDLYTANLKEGKPVYINICTSDTFEGIVIYTSGYPKKPTPRRECIAIDVDCAYVDEYDNDRLYLYKADQDKSIDSIIRKTYKPKEEIKTDN;locus_tag=LOCUS_0420;note=MGA_42
sequence01	MetaGeneAnnotator	CDS	40426	41298	.	-	0	ID=MGA_43;product=thioredoxin-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003434033.1;translation=MYDIIIIGAGIAGLTSAIYAARANKKVLIIEKQNYGGRIINAMHVRNYPGFIDISGADLATNLYVQATSLGAELIYEDALSIKNGINKKVITDKNEYKCKAIIIATGLERRHLNIPGEKELVGKGVSYCATCDGNFYKDKVVGVVGGGKSAIEDAIYLSDIASKVYLISRKDLDEKVDKDNIEVITNYSVDNINYNNKIESIDIKSSDDSKNIKLDGLFISIGYESSNEEFESIIDLDDHGFIISKNTYTNIDGIFAAGDCVQKDLRQLVTAASDGAIAATEAIKYLSER;locus_tag=LOCUS_0430;gene=trxB;EC_number=1.8.1.9;note=WP_003434033.1 thioredoxin-disulfide reductase (Clostridioides difficile) [pid:42.0%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:7.1e-62],MGA_43
sequence01	MetaGeneAnnotator	CDS	41300	41599	.	-	0	ID=MGA_44;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016136.1;translation=MIIEGNKEIFEKEVLNYEGKVLVDFNATWCGPCRMLKPVLDEIAKDKKIIAIDVDQNEELAITYGIQSIPCLILFENGKEIKRSVGLIPKADIESLFED;locus_tag=LOCUS_0440;gene=trxA;note=WP_011016136.1 thioredoxin (Fusobacterium nucleatum) [pid:46.5%25%2C q_cov:97.0%25%2C s_cov:96.1%25%2C Eval:2.9e-21],MGA_44
sequence01	MetaGeneAnnotator	CDS	41616	42425	.	-	0	ID=MGA_45;product=metal ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943613.1;translation=MNNIIEIFSYSFMIKALIVGVLISLCASLIGVSTVLRRNSMIGDGLSHVAFMTFAMATILNFSPLYFSIPIVIVVSFLILRLNSSNKVHGDSMIALASASSLAIGTFMISITKGVNIDINNYLFGSILSVDNIDIIVSIILTLVVLFIYIIFYNKIFAITFDETFSKSIGIKTNIYNAIFAILCSLVVVVGMRLMGSLLISSLIIFPALSSMQLFKKFKSVVISSVFISIISFIIGLILSYIFSTPTGATIVIVNLIVFIILKIISMLK;locus_tag=LOCUS_0450;note=WP_010943613.1 metal ABC transporter permease (Geobacter sulfurreducens) [pid:30.1%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:2.1e-36],MGA_45
sequence01	MetaGeneAnnotator	CDS	42418	43083	.	-	0	ID=MGA_46;product=metal ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001059661.1;translation=MIKVRDLKIGYEGHIVLDNVNFDIDDGEFVVVVGSNGAGKTTLIKSILGLLKPISGTITFDGIKQNYIGYMPQETKVDSNFPASSLEIVLSGTLNKTNFYTKKEKKLALNNLKLLGIDKIKDKSFSELSGGQRQKVLLARSLCSTDKLLILDEPSNNLDIESKKDLYRIIKELNEKKGITIIMITHDLDHGNLIGNKVISINDGTTLSESLEDFVRRVHHE;locus_tag=LOCUS_0460;note=WP_001059661.1 metal ABC transporter ATP-binding protein (Bacillus cereus) [pid:36.9%25%2C q_cov:85.1%25%2C s_cov:77.3%25%2C Eval:1.5e-33],MGA_46
sequence01	MetaGeneAnnotator	CDS	43080	43469	.	-	0	ID=MGA_47;product=Fur family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013228384.1;translation=MSYNTKQKDIILNKISRLNKEFTIKELYNLLNKEVGLTTIYRLINKLEEDNCITKINNDNEAIYQYTGKCNRKNHFYLKCNICGKLYHVDCDYADKLSKHILEDHNFITSEEHIIINGKCKSCIKGVRV;locus_tag=LOCUS_0470;note=WP_013228384.1 Fur family transcriptional regulator (Amycolatopsis mediterranei) [pid:28.1%25%2C q_cov:90.7%25%2C s_cov:86.1%25%2C Eval:6.8e-10],MGA_47
sequence01	MetaGeneAnnotator	CDS	43544	44155	.	-	0	ID=MGA_48;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVYNVEKFDGVTRVSIEHEEKVLSFELDLFDGACNIICEMDDPSGTIKYDEEFSLNMHITRENEAVFNAFRLLFINTEIMDIDCNSDKGLCTDISKLLSNGNKRFTWYSDNFDRSVANYFTVDDMDDYFLVGFHTQKPKLGIEKQQGSSVHIPVVVNNSNTVKNHSNYYPFNICLTTLYNRLKEIAPSNDKTLSFVPNKKTE;locus_tag=LOCUS_0480;note=MGA_48
sequence01	MetaGeneAnnotator	CDS	44190	45806	.	-	0	ID=MGA_49;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000036818.1;translation=MKKLRSLLKACMTSDMNIFRIKNKKKGKAGLVLPIVLSLYLMFTIFGLSTMLFMQLSENHTQYVLLSILSFGICLFTFIEGIYKSGPLIFNCKDDDLLLSLPIKKSTVVFIRIFKFYVFEFIFNSIFLFPVILAYLRWNEGSTISFIILGIIMLIMLPIIPIALSCIIGVIVSSIANRFKSKNAIQIVLSMILLVGVFIISMNSNKFLNYLLDNASIINDKIIKYYYPAGIFGKLANEFNTISLLIFVGINIIIFLLTILMISKVYFRINTRAKSVIKKGKSGNVVIKSRSKTSSLIKKELSTFFNTPVFIVNSGFGLVLFIVFTALAIIKFDAFASIITKSNYGMGLTKESLLNNTSILIFVLITITSFLTSITNSVISLEGRKINILKSLPVKVKTILMSKVYACLIITTPVLLLGDIALFIKFKTNILEAILLLILSILMPLISHFLGILINLKYPKLDAENNAEVVKQSTSSFVAVMIGMVLMILNVGLGIGFLGKINSIIVLSIFVVIFIIFNLLLYLILNTWGTKKFNSLNI;locus_tag=LOCUS_0490;note=WP_000036818.1 hypothetical protein (Streptococcus mitis) [pid:25.3%25%2C q_cov:91.3%25%2C s_cov:92.9%25%2C Eval:1.0e-34],MGA_49
sequence01	MetaGeneAnnotator	CDS	45803	46513	.	-	0	ID=MGA_50;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000889773.1;translation=MIEIKNVTKKYGNKVAVDNVSFTVNDGDIFAFIGHNGAGKTTLIKSIVGIHDFDEGDILIDGISIKKNPVECKKLMAYVPDNPETYEHMKAIDYINFICDMYDVDNETREKNIIKYAKLFEMDTKLGDTIDSFSHGMKQKVVLISALAHDPKILIMDEPFVGLDPKAVFDIKEVLNEMVKEGKTVFYSTHILDVAEKLCSRVAIIKNGKLIKSGSMKEIKGDKSLENVFMELEDKE;locus_tag=LOCUS_0500;note=WP_000889773.1 ABC transporter ATP-binding protein (Bacillota) [pid:60.6%25%2C q_cov:100.0%25%2C s_cov:97.5%25%2C Eval:4.7e-84],MGA_50
sequence01	MetaGeneAnnotator	CDS	46560	46763	.	-	0	ID=MGA_51;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESIFKKKLIFVIIGTILLIAGIVFLVMSFKNGTSIKYLALALGFTFAANLCIVLANILFRPKKNKD;locus_tag=LOCUS_0510;note=MGA_51
sequence01	MetaGeneAnnotator	CDS	46811	48283	.	-	0	ID=MGA_52;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNQFSENLKRIRKEQNLSQEELADQLGVSRQAISKWESGQAYPEMDKIIALCNKFNVNIDDLLHNDIKEVKGEEESKNKVNSAVTGFLKYITNTVNMFSNMTFKSKIKCLFEQAVIAGILLIISLVIVGALSALFTSIFSFMPARAVSIIYNIITSILVILCVGLSIVIMTHVFKKRYLDYYEKMDTVEETTSEETNEKDSNVKLDKKERKIVIRDPKHSEYRFFNLILRMIVIMIKFFALFFALYLAIMLVGIFCAFILSFLVIKTGLFFIGLIIAILASAIIVGDILLLVLNFVFNRKSNKKNMIWSFLIGLILFGIGFGLSFMGGLKFDTLETNDSMSKVITKEHDMNNELILAGLGYDSIVYIESDINNIKVEYKINKYCNVDESEHENILHAYAVCHNPMKVAREVIKNLNDKKIIAFDQYIEEVTVYANKQNIDILKNNTENYFKEQSEYQSTLEQYEHEINRLTEENDTLRIKLEEMQDYED;locus_tag=LOCUS_0520;note=WP_035213450.1 helix-turn-helix transcriptional regulator (Desulfitobacterium hafniense) [pid:55.7%25%2C q_cov:16.1%25%2C s_cov:57.3%25%2C Eval:1.1e-16%2C partial hit],MGA_52
sequence01	MetaGeneAnnotator	CDS	48441	49862	.	-	0	ID=MGA_53;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001040960.1;translation=MKNNAITPRNEDFAKWYTDVVMAAHLASYTSVKGCIAIEPNGYAIWEKMQEILDKKFKELGHVNVQMPVLIPESLLKKEGELVEGFAPEVAWITHGGSKELEERLCFRPTSETMFCDYYKDHVSSYRDLPKLYNQWCNVIRWEKETRPFLRSREFLWQEGHTIHSTEEEAIKETNQMIEVYKWFHNDILAIPSITGTKTEKEKFAGAEYTLTNEALMYNGVALQVGTSHYFGQKFAKAYDVKFLNKENNLEYVYQTSWGTTTRMIGALIMVHSDDKGLVLPPKIAPKQVVIIPIGDDDKVNTLSEEINSKLNEKGITCYIDKTEKSPGFKFAEAEVNGIPVRIEVGKRDLENNKITFVRRDTSEKYNEDKDIDVVTYVNNLLDTIQNDMYKRAVERRNSLTFTAKDYEEMRNILNTQPGFIHADWCGNTECELKIKELNGCKSRCILDEELITGKCVCCGKEAKHHVLWGLQY;locus_tag=LOCUS_0530;gene=proS;EC_number=6.1.1.15;note=WP_001040960.1 proline--tRNA ligase (Bacillus) [pid:54.4%25%2C q_cov:99.2%25%2C s_cov:98.5%25%2C Eval:1.8e-149],MGA_53
sequence01	MetaGeneAnnotator	CDS	50113	51552	.	-	0	ID=MGA_54;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393793.1;translation=MKYDLIVVGMGPSAAFLAYELIKLGSNKKVLLIDQGKNIKKRACPIEKTGKCMKCKPFCNITCGFSGAGAFSDGKVLSYHMSSLGNSDDMYLGGNGGGYIKEYFSEKEIKDLLTYTDNIYLEFGADTHLEGLEYQKEIKELQKKAASVNLGLVSCPIRHLGTEKAHVLYTKIQDYLEEHGIDMMYETEVKDLIIENNKAKGLIIKHNNYNEEETIYGEEIVLAVGRKGASWLSNMCSKHNIETKIGAVDIGIRYELPDEVMKDINKYMYEGKFIGRLDPYKDKVRTFCQNPSGFVSAEVYDNELVLVNGHSYKDKKSTNTNLAILVTHHFTTPFDKPIEFGESVAKNLNSLAAGHVMVQRLGDIKRGGRSHVSSIENNSVVPTLKDAVPGDLTYSLGYRTLTDILNFIEAIDKVAPGFANDDNLLYGPEIKFYSNEVVLNNRLETSIKGLYSIGDGGGLTTGLMMASASGVLLARILNK;locus_tag=LOCUS_0540;note=WP_011393793.1 NAD(P)/FAD-dependent oxidoreductase (Moorella thermoacetica) [pid:40.7%25%2C q_cov:99.2%25%2C s_cov:97.4%25%2C Eval:5.3e-101],MGA_54
sequence01	MetaGeneAnnotator	CDS	51593	52072	.	-	0	ID=MGA_55;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYANEEIIFNGCPGCAFSNHEFDLPCGRAFENDNFVINQDWELPIEGMFIISPKRHIEKMTELTEQERNEMFSLINKVIKILQDNNICDRFDIICEEKENNHFHIWMFPRHKWMIDMYKDIIGNIRNIFEYAKSNLRNEETYNRINEINNIVKERLD;locus_tag=LOCUS_0550;note=MGA_55
sequence01	MetaGeneAnnotator	CDS	52074	52784	.	-	0	ID=MGA_56;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLIHGWNYDNYYGRVNEEAWNNRIKFINELEKNYIVKRPDLPGFGLQKEPNVKEYSLEDFADYIHDYIVKNDFNPDYILGYSFGGAVAVTYLKKYGNVKLILVSPALIRNQDKSKKFIKTPRIFNPIRKALRNFYLVHKVKVPEMVYGTKFLRNTYQSIVRVELADTLKEFNPRDYILIYGDKDTMVDPNRMLNIVDPSIKERIHLIENGGHDIANTHTKEVIDIINEFDRG;locus_tag=LOCUS_0560;note=WP_003091085.1 alpha/beta fold hydrolase (Pseudomonas) [pid:23.2%25%2C q_cov:90.3%25%2C s_cov:70.5%25%2C Eval:3.6e-07%2C partial hit],MGA_56
sequence01	MetaGeneAnnotator	CDS	52781	54124	.	-	0	ID=MGA_57;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHNLLSYADLEKIITITKTINVDKNTVYNYFKTLKYINEPKNSNVLYFPIYVDKADDLGGWYPRKSDTRNTIDELIKKYPEYTYVLDEKTYNRINNNNLKVIIVPDIMKCIDELFNYYISNRKFKTILVTGSVGKTTTAGLIKDVIKDNVLRIYAKRITPIVLKTNLINYLTEDIEYLVLEASLFYKHHVKYFSEILKPFISICLNILPEHIGIDGIKSVEDITKCKMEVFKYSKYALINMEDNELSKIKFDNHKLIYKDYEMESNVEELYDISKLNSKINIYLKTYISKVEYSSAYYVGIILGIPEDIVIDRLNKAIPVEYRVNKNYIFNKEIIFDGDVSGVARFSKFTNHFYNRAILIIRYLTTSGEEDEDYSKYPQYYDRFEKVYLFNDIECLDVLKNDKAIIVSNHDFIKDIDNDVQIFYHYGSYYRKFDEFNIDNLGRVDI;locus_tag=LOCUS_0570;note=WP_011861626.1 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase (Clostridioides difficile) [pid:25.9%25%2C q_cov:52.3%25%2C s_cov:48.4%25%2C Eval:7.2e-12%2C partial hit],MGA_57
sequence01	MetaGeneAnnotator	CDS	54183	54578	.	-	0	ID=MGA_58;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLCLVIIIVGVLTITGCGNKESYKSIIISNVDKDTRWEAITNYDITLEFENGKCISENYRLEFMKESNAIVYGMNMEGQTYIEDYKQEGNVVTYKRTGINNEFYDNTFDEAYNNAQILYSNATITKK;locus_tag=LOCUS_0580;note=MGA_58
sequence01	MetaGeneAnnotator	CDS	54693	57323	.	-	0	ID=MGA_59;product=pyruvate%2C phosphate dikinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047993.1;translation=MKYVYLFTEGNASMRNLLGGKGANLAEMTNIGLPVPQGFTITTEACTKYYEDGREINDEIKSQIDEYIIKMEEITGKKFGDKENPLLVSVRSGARASMPGMMDTILNLGLNEEVVNVLAEKSNNPRWAWDCYRRFIQMYSDVVMEVGKKYFEELIDKMKEAKGVKQDVELSADDLKELANEFKAEYKSKIGTDFPNDPKEQLMGAIKAVFRSWDNPRANVYRRDNDIPYSWGTAVNVQSMAFGNMGDDCGTGVAFTRDPATGEKGLFGEFLTNAQGEDVVAGVRTPMHITEMEEKFPEAFKQFKDVCKTLEEHYRDMQDMEFTVEHGKLYMLQTRNGKRTAKAALKIACDLVDEGMRSEEEAVEMIDPRNLDTLLHPQFDAVKLKDAKQLGKGLGASPGAACGQIVFTAEDAVKWKENGKKVVLVRLETSPEDITGMKAAQGILTVRGGMTSHAAVVARGMGTCCVSGCGDIAMDEENKQFTLAGKTFHEGDEISIDGTTGAIYDGIVPTVDATISGEFGRVMEWADKFRTLKVRTNADTPRDAKKAHELGAEGIGLCRTEHMFFEEDRIAAFREMICSDTVEEREAALEKILPYQQGDFEELYEALEGDSVVVRYLDPPLHEFVPTEEADIEKLAKAQGKSVERIKEIIASLHEFNPMMGHRGCRLAVTYPEIAKMQTKAVIRAAINVQKKHADWNITPEIMIPLTGEVKELKYVKDIVVATADEEIKNAGVDMKYQVGTMIEIPRAALTADEIAKEAEFFSFGTNDLTQMTFGFSRDDAGKFLPAYYEKKIYEEDPFKTLDQKGVGQLIKMAAEKGRSTRSELHLGVCGETGGDPKSIEFYHNAGLDYVSCSPFRVPVARLAAAQAAIKAKKNN;locus_tag=LOCUS_0590;gene=ppdK;EC_number=2.7.9.1;note=WP_012047993.1 pyruvate%2C phosphate dikinase (Clostridium botulinum) [pid:64.8%25%2C q_cov:98.1%25%2C s_cov:97.8%25%2C Eval:0.0e+00],MGA_59
sequence01	MetaGeneAnnotator	CDS	57412	57912	.	-	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRLNELLNDEKSIFVFDVDGVLAKMEFGDNNHYYNEDSSIDSDEQFRDAVVGGRNFYTDDLVNDTMKKFLDKLDSNRIYVLSRVLSTEEQDIKDDFLLRNYNVKKENIMYVRDFKDKLEALNLVKKLNPDTDDEHIIMVDDNVDEVLNYVMNNSKYTTMHISSFM;locus_tag=LOCUS_0600;note=MGA_60
sequence01	MetaGeneAnnotator	CDS	57905	60043	.	-	0	ID=MGA_61;product=Tex family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001832739.1;translation=MNDEIINSIALEQNITTDQVSKTLSLLEEGNTIPFIARYRKEFTGGLDEDKIKSISLVYEYECNLLKRKEDVIRLIDEKGLLTDELKDSILKCKKLVDVEDIYRPYKEKKKTKATDAINNGLEPLAKIILSFPDTLYVDKFLNDKVKTEEDAIQGAKYIIAEYISDNAYYRKYIRDNTFNHGTITSKLKKNAEDPKKTYEMYYDFEEEIKKIKPHRVLALNRGEKENVLTVSIKSSKEYIIKFLESKMIKKENKCAEYVRNVIEDSYTRLIEPSIEREIRSELSEVAGDEAIENFGKNLESLLMQPPIKNQRVLGFDPGYSNGCKLAVLDETSKYLYSCVINPFASSNNGLITSKNTLVKLIKDYKIDIISIGNGTASRESEKLVSELIKEYNLTCKYIITNEAGASIYSTEPIAQEEFPNLTPNERSAVSIGRRLQDPLAELVKIPPDGIGVGLYQHDVPDSKLKDRLDFVVEKTVNQVGVNINTASGSILKYISGLTKRSIDKLIKYREDKGKIKSREEISKLLTDKTYEQAIGFIRIVDGDNILDKTSIHPESYDVTKKLLSSLDLTLEDIGTDKLINKLESVNKDELVKDLNIDIYTLEGIIESLEKPNRDPRDELPRPILKSDVLTIDDLKEGMELEGTVRNVAPFGAFIDIGLHNDGLVHISEISDSYIKHPSDVLSVGDIVKVYVKEIFKDKEKVALTMKGGSND;locus_tag=LOCUS_0610;note=WP_001832739.1 Tex family protein (Staphylococcus) [pid:53.4%25%2C q_cov:99.2%25%2C s_cov:99.3%25%2C Eval:3.2e-204],MGA_61
sequence01	MetaGeneAnnotator	CDS	60092	60382	.	-	0	ID=MGA_62;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKERIISPEEIDSGKIFDEIREKGKFEALIGPMSDVSKATSVLSIVSQIGNAREPGVDCELEVIEKDGLNFLQASLKKSKLYDNFPHDDFGGKGGK;locus_tag=LOCUS_0620;note=MGA_62
sequence01	MetaGeneAnnotator	CDS	60394	61047	.	-	0	ID=MGA_63;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKNIILTGILFIIFGVYTYLVKTINVKAIGPQKSKVGFAVVNKWFKNVIGKNMTIYKVTEYLGYALLLIVVVFAIIGLIQLIKRKNPLKVDKEILSLGALYACMAIVYVGFEKVIINYRPILIDKVLEASYPSSHTVLAMCVAISFCMVSDKYFGKYSKFLKVIVLTLLTLVIAGRIISGVHWASDILGGVIISCALISMFNTLIDTKSTKKSKK;locus_tag=LOCUS_0630;note=MGA_63
sequence01	MetaGeneAnnotator	CDS	61103	61762	.	-	0	ID=MGA_64;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRELNNFIIESDIKIDYFDDIVNYVLENEKRIFEFFELDNLPDKITIRIMSYDGFMEYAKEKNHKILGYERGFSDYSMTIKLLNIDDQKKYTTHKNANLDEFKGTLLHEIIHKCQLLVKKFPRECIWFSEGLATNLSNQSQYSTCNLNECDFNELVNNFNPSTIKLKYSYAYTIGNYILNNYDKEEITRFIKDPNYLMEKANILFEEAKEWTKNIIKK;locus_tag=LOCUS_0640;note=MGA_64
sequence01	MetaGeneAnnotator	CDS	61811	62623	.	-	0	ID=MGA_65;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKVNIGDTITKFINIMGYLDDDHVLGCFFYGSFLTGYNNKYSDLDLHIIYDDEEPDRLIRGNTIIDGIRVEYFEKPISDMYESIDNDFNNQNSALFAIVGRARIIFDKHGDLHELKEYAIDKFSKPLPKLDEETSKEYVSIINNRMEKLKIAFENNGPQFIHLYHLTIEKIRKFYHKLNGITQIATSKVFRVYTDEAYGDLLCRGNLPDEEFRRLYLDAALDTTSDISTKYQKVVDLWNYSKRDIKFDENNYRILIKSRNKMPKPDFND;locus_tag=LOCUS_0650;note=MGA_65
sequence01	MetaGeneAnnotator	CDS	62633	63133	.	-	0	ID=MGA_66;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYKERVEELMEATIMNAMRDVQLSKMICLTKDGKPYSLIAEEYIRNMSKYKDLCKEDKVDSWTHDIRQFLYASGNPETDYLIAVRLSAYEDAAQIMECISKGMPWEEVKDVACNQGNNGVFLDFMCDVLLEYFPDSQTVITNLFGETQYENIKRLVYESKKHIS;locus_tag=LOCUS_0660;note=MGA_66
sequence01	Aragorn:1.2.38	tRNA	63198	63274	.	-	.	ID=Aragorn_3;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0030;note=Aragorn_3
sequence01	Aragorn:1.2.38	tRNA	63290	63366	.	-	.	ID=Aragorn_4;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0040;note=Aragorn_4
sequence01	MetaGeneAnnotator	CDS	63454	64971	.	-	0	ID=MGA_67;product=DUF853 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015704217.1;translation=MYKNEGLLIGKNEKKEVYLLPKMANRHGLITGASGTGKTITSKVMAESLSDLGVPVFMADVKGDLAGTACPGENNENIQKRVDKLKLDGFDVKEFPVRFWDVYGKAGHPIRFKVSTVGPNILSIMLGLSEAQEGVLNIVFKVAEDESLDLDDLEDLKKALNFIGQNRNKYTTSYGNVTTQSVGVILRSLNVLENQGLDNFFGEPELDIHDFVSVNNEGKGIVNILDAVELYKNPDLYSAVMLCLLTNLYDSMPEVGDLDKPKIVFFFDEAHFLFREMPTYRLKQIEKIVKLIRSKGIGLYFISQSTRDIPSTIIEQLGNRVQHNLRAYTPAEQKIVRAAADSFRPNPNFKTFETILELGTGEAVVSFQNEKGEPEVCERVIILPPQSRIGVISDSERLRIINNSPLAGKYDERTNDESASEKIDKITEEEVARKAEEQRIKEEEKAKKAEEKRIREEEKAKKAEEKKKNNTYPRKLGKRLVSRAEGRVISKILTAVEKVLFKRKK;locus_tag=LOCUS_0670;note=WP_015704217.1 DUF853 domain-containing protein (Klebsiella aerogenes) [pid:51.8%25%2C q_cov:83.0%25%2C s_cov:83.8%25%2C Eval:6.7e-126],MGA_67
sequence01	MetaGeneAnnotator	CDS	64981	65400	.	-	0	ID=MGA_68;product=iron-sulfur cluster assembly scaffold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183146.1;translation=MDSNIKRELILDNFNYPNNKGLTNDPSYIKKSDKNPSCIDHFDIELKLEDGVVKDIRFDGEACAIATSSLSIAIHRFIGKSKEEVLNIIDNYKKMVNEEEYDKTILEDLLAFDEIWKQESRKTCATLGINIIEDILNNN;locus_tag=LOCUS_0680;note=WP_011183146.1 iron-sulfur cluster assembly scaffold protein (Mesoplasma florum) [pid:39.0%25%2C q_cov:97.1%25%2C s_cov:95.8%25%2C Eval:8.7e-21],MGA_68
sequence01	MetaGeneAnnotator	CDS	65402	66586	.	-	0	ID=MGA_69;product=cysteine desulfurase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_172824500.1;translation=MHREDFNLLNTDIIYFDNGATSLKPKAVIDSILKYYEEYPMNAHRGDYKLSLLTSNLYEETRVKVKDFINANKKEEIVFTSGSTESLNMIINGYFKDKLSSNDEVILSKSEHASLILPFMELGVKIKYANLDEDYKLTLDNISKEVTPNTKVIGLSHISNVIGDKRDIKSIIEFAHKNNILVVVDAAQSLGHTLVDVQDMDIDFFAGSAHKMCGPMGVGILYAKEELMREIKPVYTGGGVTVSFNEDEIVYKDIPYNLESGTRNVPGVIAFSKAIDLINLIGVNNIEEYITDLKKYLINKLSKLDNLEILNSNVEGSTIIFNVKGVFAQDTSLYLDKKNICVRSGDHCDKMLHEVTGVKNTVRVSIYFYNTIEECDKLVEALDNPNILEESLGI;locus_tag=LOCUS_0690;note=WP_172824500.1 cysteine desulfurase (Ligilactobacillus salivarius) [pid:42.1%25%2C q_cov:96.4%25%2C s_cov:96.1%25%2C Eval:1.4e-88],MGA_69
sequence01	MetaGeneAnnotator	CDS	66654	67037	.	+	0	ID=MGA_70;product=HIT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979519.1;translation=MDNCIFCKIVKGEIPSYTIYEDEIVKCFLDINPVNDGHALIIPKKHYTNLDDIDLNTLNHIMKVAKDIKKKLDEKLNMGGLRLFQNNGSVQEVKHFHLHLVPSNGNDIELITNTNKKDVKEVFDLLK;locus_tag=LOCUS_0700;note=WP_010979519.1 HIT family protein (Sulfurisphaera) [pid:43.0%25%2C q_cov:96.1%25%2C s_cov:90.1%25%2C Eval:2.2e-24],MGA_70
sequence01	MetaGeneAnnotator	CDS	67078	68031	.	+	0	ID=MGA_71;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000823423.1;translation=MKNKILLSVGITMGAVLLLTGCGKADLKNGSEVAIKVNGEKLSADDIYKILKEKYSKQVIVDEIDKIIFNTMYKDDEEIEKQVEEQIEYYKAQYSTNWEDTLKSAGYESEDELKDEMRLSYQRDKAVKDYLKDNLSENEINTYYKDEISGEISAKHILISTSDREESEAESLAKDIIKKLDKGEKFEDLAKEYSDDTGSKDSGGDLGYFGKGEMVSEFEDAAYGLKVDEYTKEPVKTTYGYHIILKTGEKEKQELKDIKDTVKEKLVEKKLSDDKTLKVTTLQDIRKDYGLKIKDSVLKSKYNEYIEEEIEYYNSAN;locus_tag=LOCUS_0710;EC_number=5.2.1.8;note=WP_000823423.1 peptidylprolyl isomerase (Bacillus cereus group) [pid:35.1%25%2C q_cov:94.3%25%2C s_cov:97.1%25%2C Eval:1.2e-41],MGA_71
sequence01	MetaGeneAnnotator	CDS	68041	68787	.	-	0	ID=MGA_72;product=recombination regulator RecX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002318634.1;translation=MKIIKYEKQRGNKYKVYLDNNENITLYEDVILNNNLLLSKEINDLTSIKEDNLEYEAYDKAVKYISTKMRSKKEIKTYLSKIYEDNIVNKIIDKLLKNGLINDSNYVIAYYQDKINLSNDGPNKIKDNLLKLGINEDIINKNITVDNTVIFDKLNHLIDKKIKITKGYSGNVLKQRLLSYFINLGYDKDMIIEILNSKNLVNIEDGIKEYNKLLNKYKNKYDDYKLEAFIRSKLYSKGFDLDEIKRNI;locus_tag=LOCUS_0720;gene=recX;note=WP_002318634.1 recombination regulator RecX (Enterococcus) [pid:26.3%25%2C q_cov:100.0%25%2C s_cov:96.6%25%2C Eval:1.2e-16],MGA_72
sequence01	MetaGeneAnnotator	CDS	68816	69007	.	-	0	ID=MGA_73;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYSIDKILSTVNSKYQLVYVAAKRATQMDETKHYQMKEKDYKSKKSLDRALEEVQNGLIHVK;locus_tag=LOCUS_0730;note=MGA_73
sequence01	MetaGeneAnnotator	CDS	69010	69735	.	-	0	ID=MGA_74;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAISENSSKDLLEKEIEGKVFIDYIVDDVLLAYYRDILQPEGIEDYTLFLDYKKSQVHKLTEGKDKLLLKDIMRYFSCPLDVESEEDITNFGLYVPDSHPTNGRLNMILSEQLLNAALDYDPKDTDEEVTLINVNDIIGHNASGLLENVSLLFHLFITGRGKEFTQLFGDTALLIKMEGASDNGRSDIRLVESDFKKKEYKSPKEEFDSDFKRLYAEDLKLINEKLKVKLVPKTNIMVKGA;locus_tag=LOCUS_0740;note=MGA_74
sequence01	MetaGeneAnnotator	CDS	69797	71104	.	-	0	ID=MGA_75;product=signal recognition particle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003232020.1;translation=MFESLSDRLDSAIGKIRGYGSITEENIQDVLREVRLALLEADVNYTVVKEFTNKVKEKALGEEIRKSLKPDEVFLKILKDELLELLGSDKADIYTKGNPSILMLVGLQGSGKTTTIGKLANLLRKKYNKKPLLVAADIYRPAAINQLQTLGKSLNIPVFEEGTKDPVQIARDSIAYAKENGLDYVLIDTAGRLQIDEKLMDELENINNEVKPNEVMLVIDSMMGQDAINVITGFNDKLPLTGTILTKLDGDTRGGVALSAKYLTGIPIKFIGTSEKLDGLDEFDPERMVSRILGMGDIMSLIEKAESVMDEEESLSTYKKMKKGKYDLEDFLKQFKQIKKMGSIESILKMIPGAKKMGLSNIQIDPKQIARIEAIVLSMTPGERKDPDIIKASRKERIAKGSGTSVQEVNKLLKQFEESKKMMKMMSNGNMKLPF;locus_tag=LOCUS_0750;gene=ffh;note=WP_003232020.1 signal recognition particle protein (Bacillus) [pid:56.4%25%2C q_cov:99.8%25%2C s_cov:99.3%25%2C Eval:1.4e-137],MGA_75
sequence01	MetaGeneAnnotator	CDS	71114	71413	.	-	0	ID=MGA_76;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELQDRLIILFDYYGELLTDSQKNYFIDYYFHNLTLSEIAENNGVSKNAVSKDLKLATSKLEDFDFKLKLIDKDKKITKLIKETGNEELLEKINKILDL;locus_tag=LOCUS_0760;note=MGA_76
sequence01	MetaGeneAnnotator	CDS	71414	72400	.	-	0	ID=MGA_77;product=signal recognition particle-docking protein FtsY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000007650.1;translation=MGLFSKIKEKFSGNKEVNKVDKKETEIYEKGLEKTRKDFSDKLNKLNKKYSKVNQEYFEELEEILIMADIGVNTVIKFMDRLVDRAKKEKIDDPEELKELIVDELFIIYVNDEVLVNKINYRDNGPTVILFVGVNGVGKTTTIAKIAKKEKDLGKKVLLVAADTFRAGAVEQLTEWSKRLKVDIVNGEEGVDPASVVYTGMEKSKDYDLVLIDTAGRLQNKVNLMNELEKIKKVINNHQEGSPEETLLVIDATTGQNGISQAKAFKEITDVTGIVLTKLDGSAKGGIVLAIKEEVNIPVKYVGMGEKEEDLRTFDIEKYIYGLFKEMM;locus_tag=LOCUS_0770;gene=ftsY;note=WP_000007650.1 signal recognition particle-docking protein FtsY (Bacillus) [pid:54.5%25%2C q_cov:100.0%25%2C s_cov:98.5%25%2C Eval:2.1e-97],MGA_77
sequence01	MetaGeneAnnotator	CDS	72467	73639	.	-	0	ID=MGA_78;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSISKPKSKLRTKAVGLFGRVKDKFKDGYNNAKEKNQERREQKEQEEKFNETLKCINNNLNVIGSDEYILGKMKKALNEDWVETLKKDPEGLSQMVYDFALIKGYHDFAKKDPKYTDEAFEGIFNDICDLLDDCPSKQAELFFDIKNNDIKDNQIEYLKNKIDEIKKGITNNNTSNVVGGEITNKKRRKTSYGGFTVGTLSNNGGSSSTGGTSNDTPIEKPVEVPNPTVEKEKARLEEINKKYNEEKMRLYNELDDYEKAFIDDSKAEGLEPGDPEFEQMLNERAINIDKIILYFDSLYDIDQKKAFEELDDYGKMFIEDANSEWIEPGDPEFDQMINERTVNKQIILDYYKTIASVKSKKSKIDQFYKKYDNNNMFTTIDEDISSGRSM;locus_tag=LOCUS_0780;note=MGA_78
sequence01	MetaGeneAnnotator	CDS	73728	75257	.	-	0	ID=MGA_79;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYSSERDFKKLIQEIARLNPDYRFAYKGNDLVLDTKEDIDPEDLIVPGGYIINSRMKTFKVEPKSGSIINSRYNRPIGLLYVDDMKNTKKEDIYNDFIPVEIPTMKQRLSNIKNAIKHNNITNRISYTFSKRAEVEPKENTVKTKENNNGGIGSIKKIKKNKTNVFSNLKNKVQYSLSKNLKLEPKDTETKSKNGGIGTFKKIKKTKTSLNLKNRLSYLFSKREKVEDDKINKIVTPTIPTTPTTSTKPINTLITVPTEPTVTPTVTPVEPTVTPVEPTEPTAEDIQHDETVNKYNELKKAEYAKLGKYEKMFIDDALAECLEPTDNEFEQMLNERTVDKNAIYEYYKTLNNLDLDMNKELLTNKYNNFKLGVKNAYARLGEYERMFIDDAFAEGLDIYDPEFEQMLNERTVNDVQIWAFMMIYDVALLEQKKVIDEYSKLTGTEPKDYSLYTINELRREAAENKNMLTGAELEKHKVSAFTKAELVEILNRIDSKKQEKEIIKRLTL;locus_tag=LOCUS_0790;note=MGA_79
sequence01	MetaGeneAnnotator	CDS	75401	77086	.	+	0	ID=MGA_80;product=ribonuclease J1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245660.1;translation=MKFFENNTDTKVFALGGLGEVGKNMYCIMHGNELVIVDSGVLFPEADLLGIDYVIPDFSFLKENENKIKGLFITHGHEDHIGSIPFLLQTVNIPAIYAPNQAANLIKKKLADRNIRFDNIIVYNEKDKYKFKNIEVEFIATTHSIPDSYAIVIRTPDGVIVESGDYKFDMTPIGPMANLQKMAKIGSEGVTLLMNESTNVEREGVSLSESKVDEALSDLFRRQTGRIIVATFASNVFRLKHIIETAKRNNRKVVLFGRSMVNQVEIAIESGIIENNGTIISPEESNNLKPEEVCLLCTGTQGEPLAALSRMANGTHKQIKLVPSDIVIFSSSPIPGNGEAVAITLNKLALNGIKTYTNAILGDIHSSGHGNQEELKLMIRLLKPKYLMPIHGDYRYLRKHEEIAIACKMPKNHIFPMMNGEILSIKNGVCKRAGSFPCYDIYVDGNRIGDVGGAVIKDRKIMSNDGILVLVCNLDIKGKKLLGKVNQATRGFVLVNENEELLSQIENKAEEVIKRELNNKKFNIADLKNKIITDVNDFIIEKTGRKPIIMPVIMDIKSSDK;locus_tag=LOCUS_0800;gene=rnjA;EC_number=3.1.-.-;note=WP_003245660.1 ribonuclease J1 (Bacillus) [pid:47.8%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:8.0e-152],MGA_80
sequence01	MetaGeneAnnotator	CDS	77119	79287	.	-	0	ID=MGA_81;product=polyribonucleotide nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002378800.1;translation=MSKKTFEMDFRGRKLIVENGEYAKQAHGSVLVRYGDTVILSTVVVSPNANVLSDFFPLMVLYQEKLYSVGKIPGGFIKREGRPTDAATLAARMIDRPMRPMFPEDFRNEVQVVNTVLSVDPDYSPELTAMFGSSLCTSISKIPFDGPIAGVKVGRVNGEFVINPTPAELEVSDIDLTVAGTKEAINMVEAGSKEVSEEDMLDALMFGHEAVKELCEFQEKIISEIGGEKMEYEHLEISDELRNEIKELASDKLDAALRIKEKLAKYEAIDNVKAEVVAKYEEENADLDKEELVTLITKVKLVLESIEYDLFRSITVNEKSRSDGRKMDEIRPLSTEIDVLPRTHGSAVFTRGETQALAVTTLGALNEYQALDGLSLEAEKHFMLHYNFPQFSVGETGRYGSPGRREIGHGALGERCLKQVMPSEEEFPYTVRVVSEILESNGSSSQATICAGCMSLMAAGVPIKAPVAGIAMGLITSADGKDYTILTDIQGMEDHLGDMDFKVGGTRKGICSLQMDIKIKGITKQILKEALAQAKKARFEILDVMEKQIPAPREDVSKYAPKTDTFMINPSRIKDVIGKGGEMITKIILEASNVNSVSDINAVKVDIDDDGRVIIYHTDRDVINKTKDMILNCVKEVEIGKIYEGTVVKVEDYGCFVNLWEGLDGFVHVSQLANERVEKPSDVVSVGDEILVKATGFDKRGKLNLSRKEALNPETKDKKDSE;locus_tag=LOCUS_0810;gene=pnp;EC_number=2.7.7.8;note=WP_002378800.1 polyribonucleotide nucleotidyltransferase (Enterococcus) [pid:58.9%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:1.5e-238],MGA_81
sequence01	MetaGeneAnnotator	CDS	79380	79649	.	-	0	ID=MGA_82;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003639022.1;translation=MALKADKKLELIKKYGINDKDTGSAEVQIALLTEEINTLTEHLKVNIHDFHSKRGLLKKVGRRRRLLEYLKRTDVNRYREIIKKLGLRK;locus_tag=LOCUS_0820;gene=rpsO;note=WP_003639022.1 30S ribosomal protein S15 (Lactiplantibacillus) [pid:59.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-25],MGA_82
sequence01	MetaGeneAnnotator	CDS	79752	80303	.	-	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTWCKYCIDRGSCITTCYKCIISGKEEDVPYTYDKYYCYDEIRAYANCPLVKEYGWYIVNAVSNILTIDKNDSFYTSLMSLKDVFDKNENYNRFMSAYNATGPVIAEKLMDSDDNYLRAMMIYPRLEKIADLVNSGKKDLASKRYVMLTLRLVSEYGLQGMYRTARDTSKKGDNKKTLKPLDL;locus_tag=LOCUS_0830;note=MGA_83
sequence01	MetaGeneAnnotator	CDS	80362	80709	.	-	0	ID=MGA_84;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYCTECGKALNEAGICDACEKNKTKKIIVTREKKVMGFAISFPVFIDGEKLDNLGNGKSLEKVVSPGKHVVEFRCVEKTITQEVTLDKNDTVEITCKASMGLIAAIASITDIEYK;locus_tag=LOCUS_0840;note=MGA_84
sequence01	MetaGeneAnnotator	CDS	80754	81068	.	-	0	ID=MGA_85;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVNLIVFIIVVLIIVFLFRRFSSFVYAVCSLDILYRLLHFLVSNIHVKELSNLVNKYIPESVVSMISKYTGTGGLLYTLVIWFMFLMYACLLFYIVRILIKRK;locus_tag=LOCUS_0850;note=MGA_85
sequence01	MetaGeneAnnotator	CDS	81091	81966	.	-	0	ID=MGA_86;product=tRNA pseudouridine(55) synthase TruB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016546.1;translation=MNGLIIVNKDKNLTSRDVVNEMCHIFNTKKVGHTGTLDPLATGVLVIAIGKALKIVDHITSLDKEYIAKVKLGIKTDTLDITGKVLDTKEVNITNEDIDKVLSSFPHDYDMEVPLYSAVKVNGKKLYEYARNNIPVELPHHKVTVYSLERISDIKDNSFYIKCHVSKGTYIRSLINDICKNLGTIGVMEELNRTKQGKYSIEDSYTLEDIKEGNYKLIPIIDALDIPKVEIDNEILLKRVINGNKLENIYNYPEFIFTYNHDVIAIYKQDNNLVKPVKVFNSDIDIDSNSN;locus_tag=LOCUS_0860;gene=truB;EC_number=5.4.99.25;note=WP_011016546.1 tRNA pseudouridine(55) synthase TruB (Fusobacterium nucleatum) [pid:38.6%25%2C q_cov:96.2%25%2C s_cov:100.0%25%2C Eval:1.3e-50],MGA_86
sequence01	MetaGeneAnnotator	CDS	81963	82748	.	-	0	ID=MGA_87;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKVFSDDLKFKVVEKPFITKTGIIYYKTKDNQVAKIFSPKILDAKGEEIEKRVSNPIDLNGVVLPKKIVIDDGKFIGYTMDYVKRMDKESNDKDRLDLYKLADRYLQLEGIVKGAGEDIVFPHLLDTSIIVDKEGKVHITDYEDIQIGDQVTSEIPFILGGMSERLVKYGEHGHYTKQLDMLSLTHYYLRSLFGRFTNRNARALKFFGLDDDMIDRVLCADNDQIDNEYLGEKVLEIADKYELKEIPYDSESTIKKLVLK;locus_tag=LOCUS_0870;note=MGA_87
sequence01	MetaGeneAnnotator	CDS	82807	83928	.	-	0	ID=MGA_88;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNSGKNSKFITICIIGLFLILSYSLVKSFFNDGTSKGVAFSKDGSFNFIYDVSLLSKENLEAKYDSNRTNEVVINMNYSKTTGDNYKGKLLLNPSNIDYFFINSVDNPKYYKLSLKDIKYLNLYSLNQKDNVISFAILGSDLKYYTMNIYVGLKDDKMDLSDKEWKENGKSNLSIYPNAFYKVIDDKVAIHLELPSVYNESKITESIYEELKNKIMNSISVEETKEFNTNYANLDNKNIKLNDNATLLVKDANIIQYYSTTDKTSGLSFTTATYIKDNSLISFSELDDKDKFESYIKSKNYKLKDYNYNGISTMLIYDDNSVSSDGIKYDSFVFNINDTYYLIGSLTNKETINDNDIDTWISNIINGILKIK;locus_tag=LOCUS_0880;note=MGA_88
sequence01	MetaGeneAnnotator	CDS	83978	84592	.	-	0	ID=MGA_89;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLVKHLNKRIIIVFTICMVFLTSLAVVLGSIDTNEIALLKADLSNSKELVLDTSEMSKDSNLEVRKIVYDGMTLKELGEKLDRSMGSSIDGYGEFFASYCLEKGVDPYLALGIVLLETGCKWGCSSLARNCYNLGGIKGTPSCGGGSYRKFDSMEDGITKFIDNLAGYYAKGLNTPELMNPRYAESNTWAMKVRNYMAQIRAK;locus_tag=LOCUS_0890;note=MGA_89
sequence01	MetaGeneAnnotator	CDS	84671	85549	.	-	0	ID=MGA_90;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAISKESIKNKKHIYIPNYYSSESELFILPDDKLYKCFKGPLMHENRHRVNYLTKKMQFAEHMPSGLVVPKLAVLDNKGLLNGYTMDKVDGINIDQYENECSSFDKTDLYRYREIYYGLKEFIQKAGDNIVFPNLLDLRNVFLTKNGMSFVCFDDMQIGNVEGYIASDIECNYGGPILRTEKYYKDGLYTKNMDIRSLIYIYFLLALNFNLSYFSSFEEGELEHQIQKSLYALGIKDDNITHIGEKIRLLFDEYEDNEYIDDFVDYITEEGNLIYYYDFILGKNRKNLILK;locus_tag=LOCUS_0900;note=MGA_90
sequence01	MetaGeneAnnotator	CDS	85621	86589	.	-	0	ID=MGA_91;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYFKNIGISYTGDYIIQGSNIDKCMKSEKLSAKYTELVVRKDGKELDLESLNKIYHGTLLFHLPTLRYDLTNLKQITNFIYILVKYGVKYAVIDLSNLPLDVYDWSTMEEQQDYIKTISNGLAQLISNGITLYIENVKDENNVSYFGKRVENLSDVLMYTKNTLIRNYDYSREKADESIGVSLNITKLYENINEYTKWFNILGNNLKLLKVTDVDNAVSIFDGVLSKSIENNIDPIVLLQTDKEIEEVKKKYRKFEYLINQKRNNQLMSLDNYTEINEKDTEEEYDFSTSNQSGYSSIVIISMIVITIIIAIIMLYFKFRD;locus_tag=LOCUS_0910;note=MGA_91
sequence01	MetaGeneAnnotator	CDS	86668	87300	.	-	0	ID=MGA_92;product=DnaD domain protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003706143.1;translation=MKDKILKDVLKINNNIIIPDYLLKYRDKLDLELDEFILLVFLINQKDLVMFDINSLSSKLYMESNRVLELISSLNEKNYISIEMKKTNGVIEEFISTELFFNKIESIIMSSNEESDNNDVYSLFESEFGRTLSPTETQIIGNWIESDIPEVLIKEALKEAVLSGVHSMRYIDKILFEWTKKGYKEVSDIKRKPEKDEKIEEIYDYDWLNE;locus_tag=LOCUS_0920;note=WP_003706143.1 DnaD domain protein (Ligilactobacillus salivarius) [pid:31.0%25%2C q_cov:94.8%25%2C s_cov:88.9%25%2C Eval:2.2e-18],MGA_92
sequence01	MetaGeneAnnotator	CDS	87334	88122	.	-	0	ID=MGA_93;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEMGLEILNKLFFNGFRGYIVGGYPRDKYIGKYSNDIDITTNAKYDDLVRIFDNVKENGYMSYIVDYKSYKYQITTFRKDISYIDNRKPDIQETVDTIEEDLKRRDFIINTLCINKDGKYLDILGAKNDIDNKIIRTVKNPNISFKEDSLRILRCIRFASILNFNIDDEVSKAIHNNKELIRNLSFFRKKEELDKIFSNINYQRGIDLIKEYGLEEALSIKIGNNIYGDNYLKVWSKIEYDDNYPFTREEKRILKSYIDNE;locus_tag=LOCUS_0930;note=WP_003230647.1 CCA tRNA nucleotidyltransferase (Bacillus) [pid:38.0%25%2C q_cov:81.7%25%2C s_cov:54.4%25%2C Eval:2.0e-36%2C partial hit],MGA_93
sequence01	MetaGeneAnnotator	CDS	88185	88460	.	-	0	ID=MGA_94;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931854.1;translation=MNKSEIVEAIAKEAGITKADAERALNAFQSVVAKALKGGKKITLTGFGTYAVSTRKARSGRNPRTGETVKIPARKAVTFKVGSKLKEAVNK;locus_tag=LOCUS_0940;note=WP_010931854.1 HU family DNA-binding protein (Chlorobaculum tepidum) [pid:55.1%25%2C q_cov:97.8%25%2C s_cov:97.8%25%2C Eval:5.8e-22],MGA_94
sequence01	MetaGeneAnnotator	CDS	88578	89531	.	-	0	ID=MGA_95;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEVKEELIEEIKEETPVYVLEDSIPDILALNELQEEIDKTTKEKEAKEEEVDKAVENKRNKSEEIGIINTGDQIEKVTYNLKILSELNAELDKLKVELEDIYGELRNLEEDKTALEATAKKMVEEFTKAYDELVKKQVKAVDSYLFESKQSDLEEANKLADEIKKYKKYASFEDILKQNEIKTEKIEETKEIKEEAKQEEIKEPIVEEQKVEAPIEEKTEEVKVEEAPIELSEVKVDEIESKEEVNEVPTIETPVNESIPSFDNITIVEPKVEIKPLLTSKLDKIADSNNKGITSTINVFNSKKTEQEDKKLALVA;locus_tag=LOCUS_0950;note=MGA_95
sequence01	MetaGeneAnnotator	CDS	89541	89849	.	-	0	ID=MGA_96;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRELETFKVIDEKGNELVATVVTRLEIKGTDKRYLIYSIDDVEDTRDVPEEEKKVFIMAARIDLDENGNEKLSNLTDDAEKKTVYNAFAESYKELVSQNQG;locus_tag=LOCUS_0960;note=MGA_96
sequence01	MetaGeneAnnotator	CDS	89922	91232	.	-	0	ID=MGA_97;product=ribosome biogenesis GTPase Der;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000165530.1;translation=MKLPTIALVGRPNVGKSTIFNRLMGKKISIIEDTPGVTRDRIYGVGHYEDYKFNVIDTGGIDLSNETFNEQIKMQAELAIDESDVVIFVVDGIEGINQNDIEVRNILYKSNKKVIVAVNKMDAKASKDNLYDFYELGFEKVIGISAEHGTGFNELFKEVVSDFSKQDNFEWDEDKIKFCVIGRPNVGKSSLVNAILKEERVIVSNEAGTTRDSIDTPFNYDHKEYIIIDTAGMRKKGRVYENVEKYSLLRAMKSIVRADVCALVINAEEGIVEHDKHIASYALDEGKPLVIVVNKIDTIPNFDKKEFEKKVRAEFQFLSYIPIVYLSALKGTRLHTLMPEIIRVYENSRKELKTSVLNNVIRDAYESNIPPSYKGRRLKIYYCTQTGVAPIRIDMFVNDKGLVHFSYLRYLENQLRANFDLEGTPIEFNFKNRSEE;locus_tag=LOCUS_0970;gene=der;EC_number=3.6.5.-;note=WP_000165530.1 ribosome biogenesis GTPase Der (Staphylococcus) [pid:55.3%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:2.9e-135],MGA_97
sequence01	MetaGeneAnnotator	CDS	91271	91864	.	-	0	ID=MGA_98;product=ribosome biogenesis GTP-binding protein YihA/YsxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229621.1;translation=MKIISVSEPIVAVRQSQYPEDKKPEFLLVGRSNVGKSSFINAIVERKDIARVSSNPGKTQTLNFYNVNNDFYIVDVPGYGYANVSKEMQQKFGLMIEEYLANRDNLERVYMLVDFRIKPTNDDMLMYNFLKYHELPVTIVMTKVDKVSRNDREKQINLIKSTLNVFEEDNMVLFSNKTKLGKSEIHNELEKIVYNKE;locus_tag=LOCUS_0980;gene=yihA;note=WP_003229621.1 ribosome biogenesis GTP-binding protein YihA/YsxC (Bacillus) [pid:48.7%25%2C q_cov:98.0%25%2C s_cov:99.0%25%2C Eval:7.7e-52],MGA_98
sequence01	MetaGeneAnnotator	CDS	91916	92872	.	-	0	ID=MGA_99;product=bifunctional oligoribonuclease/PAP phosphatase NrnA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000545149.1;translation=MKEKILEKIKEFDTIVISRHIGADPDALGASIGLKHLILDNFPKKKVYVIGVYASKFKSMGKLDNIDNLDTSNALLFVLDTPNLIRIDGISNINDFKYVIKIDHHPTIDKFGDISWVDTKESSVCQMILSFAYDNNLKVGKEAAEKFFTGIVSDTGRFLYDYTTPKTYELVSRLLSDHKINTTEIFNMLYSRSLEEVRLQGYIEENMTVTDNGFAYIILTDDIIKKYGDDTSYPGDIVSNLNNIDEVIVWSIFTYDVKNDLVKVNVRSRGPVISHILENYGGGGHALASGVRLKDDSKVKNIIKDLDKVCMEYNKAND;locus_tag=LOCUS_0990;note=WP_000545149.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Bacillus) [pid:40.3%25%2C q_cov:97.5%25%2C s_cov:99.7%25%2C Eval:2.4e-61],MGA_99
sequence01	MetaGeneAnnotator	CDS	92886	94073	.	-	0	ID=MGA_100;product=acetate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003223511.1;translation=MKVLSVNAGSSSLKFKCYEMPEEKVLASGVFERIGISGGIYTIKFNGEKREKKCELPDHKKAFSKLMEELLQLNIISSFDEIKAVGHRIVQGADHYKSSVIATDEVVKDILDLASLAPLHNKAAVQGIKGAKEVIKSAVHVCVFDTAFHQTIDKERYLYALPLNWYTEYHVRKYGAHGTSHKYITEHMKEVLGSNKKLIICHIGSGGSVSAVKDGKCVDTSMGFTPNAGLIMGTRCGDIDVSIIPYIMSKKGYSKDDIAMLINKESGLVGLTGESDMRDVRKLADEGSNIARTALNMYVNRIVDFIAKYYFELKGVDAIVLTAGVGENNIATRKEILERLDFLGVKIDNNANNEIAGFKEKHEGLITTSDSSIPVYVIPTDEEVMIGRDAYDFAK;locus_tag=LOCUS_1000;note=WP_003223511.1 acetate kinase (Bacillus) [pid:48.0%25%2C q_cov:99.7%25%2C s_cov:99.5%25%2C Eval:6.6e-107],MGA_100
sequence01	MetaGeneAnnotator	CDS	94130	94903	.	-	0	ID=MGA_101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFKSLPEARDFYDNKLNDSAKVFLFDRIGWETTRMSRTATIDGFIRFFFTAYPDIKDFTVDELNRITSEESYKSFLKSKGIQVNDDFIRQEKEYVKNNIEIPNNQNITGYNQRDVKDNEYKPGEKPHMIQLAEEYITNPPESKVTKSDNVPEVDLGKYKDSPDMLTNTGYTQVISKGPITEESIKIVEEKIPEPPKTGIVETATPVITEAPNIAPQTKKLVPKTNEKESGIADAIIISVIVIVYIAIIVNLVIRIK;locus_tag=LOCUS_1010;note=MGA_101
sequence01	MetaGeneAnnotator	CDS	94991	95851	.	-	0	ID=MGA_102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKNLFYVINEDGTPVDAKALIKFKLNDNDYLVYTYNEINENDMIKIYVTGIASDSYKEIVSDEEWNNVKDALKVFAKDSSPLGDNFISNIKVLGEEISIRKAKKLLVSQKFANTLASKYGEEVSAPVVPETPVAPVVESKVSEPVVSNISDNELKLEKTIKIPTFEELQARSKTIQNAMNTVTSEEPVKPVSEPKPVVNNSSVNSRDYEEQFKKDVEPVLLDVYAKQQKRIEELEEELSKTKFDLFEKQKETLSLNNEKAALQEKIDSVNKKMDGILSVINGENK;locus_tag=LOCUS_1020;note=MGA_102
sequence01	MetaGeneAnnotator	CDS	95889	96161	.	-	0	ID=MGA_103;product=YutD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722426.1;translation=MKIKVENTEYEIIKDYRDAFDKEEFLNRYTDYFEGYDYIVGDYAYSKLRLKGFYNDKNPKSNNINKYSLLDKYIEENCAYGCKYFIAKKL;locus_tag=LOCUS_1030;note=WP_003722426.1 YutD family protein (Listeria) [pid:51.1%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:1.3e-21],MGA_103
sequence01	MetaGeneAnnotator	CDS	96203	96967	.	-	0	ID=MGA_104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSRVEKYSKNATNTSRQARNRQLYDDLYSDTSYSNSVVLDESKEIDLNKIKEILEKEKKYKEKKTYNPTNDLYADLEDLSKTTDINRVYDINEVLKSAKSSRDILEDANEKRKIKSNYSSHIDIQKELDKAKNAYVDLKHEETELLELMNTLTNATKEDLAMDIFSDLTENAIKKEHTIEIQQIEDDTDNKDKSQEYNSSTFMFDTKDFDREMVSDEYDDLKKSNTLAKTLIIIFVILFIAATIFFIKNYILK;locus_tag=LOCUS_1040;note=MGA_104
sequence01	MetaGeneAnnotator	CDS	97079	97291	.	+	0	ID=MGA_105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLRIDNDRCLRCGMCTGIEPDVFEFNDAGDIEIKEDKITEENKKLVEEAKNTCPVKAIEEVEEEKVDTE;locus_tag=LOCUS_1050;note=MGA_105
sequence01	MetaGeneAnnotator	CDS	97295	98011	.	-	0	ID=MGA_106;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001222207.1;translation=MERLQKVIAASGYCSRRKAEELITQGKVIVNGEVVKELGTKVNSSDIIVVEGHSISYEEKEYYMLNKPREVISSASDDKGRRTVVEYIDTDKRIYPIGRLDYDTTGLILLTNDGDFANKMMKPSSNIIKTYLAKLDSILTKEDIDKLLGGIVIDKVKCTPNKVKIKEIDKKNNKCLVEISIHEGRNHEVRKIFEKLGYDCLKLTRISYGNLRLGTLRSGEYRPLSKQEINDLLMLIKK;locus_tag=LOCUS_1060;note=WP_001222207.1 pseudouridine synthase (Streptococcus) [pid:53.7%25%2C q_cov:96.6%25%2C s_cov:96.2%25%2C Eval:5.5e-64],MGA_106
sequence01	MetaGeneAnnotator	CDS	98066	100762	.	-	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKKILFALSLLLIIVIPVTIIFGNISGSSILRKLSGAVTTDPGYTYNKVKKTTSFVFGKSKLPYFRVASASDSAHLESSSWYFHEATKGGKYYSGYCLHISLKANERYEGDLTAYTFDDNFSGEYIKNKYGVGLNDHQIQLLQALLASGYHFDEQNSRSIENMSVEEAQKMAAMQILVWEIVESGRTQFTSYAPDYNPSDTSAYSVVVTQNDNVFAYYKSFVDAARDYLNKKDSAGDSPIFGQTYTMKWNSNEKRFTTGAKTGLGNFTSCTSSNADVGVSVDAVNKTVTVYTTKTNQSATITCKLVTGNGSNKWTYYKFVNLPSCANNWQDCWQDIVNGTAGTTITRTFNVVSEGSSVKVIKLASGGGPLSGAVFDLVTPGGKRIYLDGNGAASTITQSGRYLLEEYTVPAGYDRVPATILEFDLSNHTVSCNNGRVENGSVICQGGKISIKYVNNTFEITAYDTLKPLLINKVDPQDNAITGAQFKMYTGNNYSTQVNFVSFQNGFGCGYAYATSGVGLTDTLSGVECSTYSISKLPEGKYKIVEISVPSPYVMPTSEADRTIYIYVDKDSNIHTCTDSTCNSRILTDQNSIKAVNHTTTVSVKKIGNGGNSLPGVKFVLFNSDKTKYIKSTQTGGVYKYNSIVNSLSDATVYVTGSNGMFTVNGLPTGTYYFKEIETVPPYVLPEGDDAFTKVTITMTKAGQKVTIDDGKENMSLIQITNATKVFNFYKVDENGNYLAGGKFKLQKYNADKAKYEDIKVKSVANDGTYPAEADIFKEDANGKVQFTLSHGIATFIDMAANSTYRVVELEAPKGFELTGIENAAVIKIDANGYAKGSATIINQKRSLEGSTAQVELIIEIQTGQTVIRYGLIITGVLIAITGLMGALIFISKKRK;locus_tag=LOCUS_1070;note=WP_010905155.1 SpaA isopeptide-forming pilin-related protein (Lactococcus lactis) [pid:25.4%25%2C q_cov:53.7%25%2C s_cov:18.7%25%2C Eval:7.4e-12%2C partial hit],MGA_107
sequence01	MetaGeneAnnotator	CDS	100764	104801	.	-	0	ID=MGA_108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVKSGLWKTIELVYKHKFISFFVAIGIATSLILFNVLANDDEFANKLVVKNAAITSIEDGGLYEFDSTTGNGKDSAGDNGIVRNFDSVTYRASYNLELKEADPEVTQVEGRNVIVDVILPNTIKASLGSSNSQSDEFISPVALDANNDYYEFVLDNVTTTSSEPNIFDFILYNANTKVVDASFTPIILIKEVTDENYKAISEMSDSEKESFISNLTNNRVACDPNTIECSTTFTGIYDYDVTLYQGVYFNSTNTNLNKNYPIGIEIKIPRNGLGIYIPNTVSFDVAYATTDTDITVSYVADSFVNYKDPNKNYAIYYTEATGELVDVPNVVSYDSGVITVGNLKAGSSVIGTAAFEINSVRDSATTDSSITVTVSNLKANDTLVKQTGDEIVVTDYAHKMVGAFNASVDIVKGQAEGYETAGNVFLNYGEQFAIVEQVEYATNGVGDTLDELHNYIKIDSDAFIISREGNSVSEPTAIMRYGYGEWNSNYFELTGESGCPTNISSLTKENLMNLFGGPCLRAKNTVKWNEDEDTTLPLIIVDTVFGDASDETLNFNEGTIATVSLNATVRNNASLRNTSHQVVSSSVGTFNGNKFYMSSAINDNNVSAAKNKDSYIKTVYDFNNKLISRDYSNLCHAAKCAINGNTIHVIAYTVNQPEVHAYHNDIERTVFYDYPIEWRIDANATTSDDSIVFDKATVVVAIPKKLNYLYAETMVDGKRVNKTGTKVEGSSYDTYTYVFNQNEINNNMINTLSIFTDIYLDTKSGTQTGIIVTVDFEGSKIDGTNIIRLSDPRDDAYKYNSNIVTLYNGSSITTYSNVDHRYIETNSPYVFTMKSYNNSSIGEGTGYSYSGAALYYVLPYIEDSNYRIYDKTFTNSKFKIKLLSALNAGYTAYYTTDDGKNVSSDIYNSTNSDTTTVWKPWNNPSDELEGATAIKIVKNDNWNIDTYFLNENGVVVSVTPVNNEQADAYYNGFTVTVNRPDNYIEACVGDPEDCSTTPSAKLYYQSSKSLVEVYSRKISGFVFEDYNYSNMYEGGEDQLQDIVVELYKLNNSEYTNESDSKNPNAYVNPEVDELIATKSTSSTGAYSFAGLKAGYYYVLYRYDGAKYTPSDKYGGEATGVTNANAINSKAVALNGVDDAAVSDIITLSESSSANERYINLGLRIRKEFAVEINKYITKIVQTSNQGTKTYEYDKATKVNIDIKNLKNTKFRVTYSFDISNTKYFPGYIGVIMDLMPEGATFDNTLEENGDWVLMDNILYYKGLQNILLLPGEKHYFNLVLDIDTNKGGTYVNIVAAQLPSLMGDDVVPFNPGDVSMGVGDNESGGFGATDDDVGGTTNTGEGD;locus_tag=LOCUS_1080;note=MGA_108
sequence01	MetaGeneAnnotator	CDS	104879	105940	.	-	0	ID=MGA_109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYIIIGLLVLVVILTVISLFKNINEGRITDKVNDMHVNLTKELGDFKSDINRNFNEDFTKMNERIENRLNQIDTKVNERIDVNFEKTNKTFNSVLERLGKIDEAQKKIDSLSSDIVSLQGILTDKKSRGIYGEVNLNHILSSVFGDKNDKVYQTQFSFDNNTIADAVVFAPEPLGLVAIDSKFPLENYRIMVDKNFDKASRETAAKLFKSDVKKHIDAIASKYIIPGVTSDQAIMFLPAEAIFAELNAYHADIIEYAYKKRVWITSPTTLMSTLTTIEVIIKNSERDKYAKVIQSELTKLSIEFGRYKERWDKLSRSIETVSRDVEDIHITTDKISKRFDSINGVEIEKIED;locus_tag=LOCUS_1090;note=WP_010958086.1 DNA recombination protein RmuC (Coxiella burnetii) [pid:40.9%25%2C q_cov:83.9%25%2C s_cov:68.8%25%2C Eval:2.9e-66%2C partial hit],MGA_109
sequence01	MetaGeneAnnotator	CDS	105942	106517	.	-	0	ID=MGA_110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITKFSNFIQIITDYFSKFGPLGGLLIIIINSIYPIAVPLGVYMAFNVHAYGLILGTIISYIGTIIGCIISFILFKKFDSKFKKFNEREKIKKIKGKMNNITIPSLATVTALPFFPAYLINIAAGLSRVDTKKFIIGICFGKVPLVLFWCIIGKSFMDSVTDYKTILIIIGMLVFTYVISKVLTKIFKWEV;locus_tag=LOCUS_1100;note=MGA_110
sequence01	MetaGeneAnnotator	CDS	106578	106973	.	-	0	ID=MGA_111;product=Hsp20/alpha crystallin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948529.1;translation=MMLPDRFFDDIFDLDAPRMHPSKERMDCDIYEEDGKYVVEASVYGFNKEDIKIETEDGSIIITAEKNEDFKDNDNKKYLRRERHSSSRVQRAFYLGDIDESSIKANFNNGVLKIEASKKEIESNRKQIDIQ;locus_tag=LOCUS_1110;note=WP_011948529.1 Hsp20/alpha crystallin family protein (Clostridium botulinum) [pid:36.8%25%2C q_cov:94.7%25%2C s_cov:81.5%25%2C Eval:1.3e-13],MGA_111
sequence01	MetaGeneAnnotator	CDS	107066	108130	.	-	0	ID=MGA_112;product=DUF2974 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808364.1;translation=MNIFDYLNYYGKYTFDDKPFNEIDNAIFSELAYVDFNGIVSNDSKHKIRLKDAAKAYLDSKGNIITNDIITVKESLKLLIAAKDTDRFKDILLYNYKNNITDKCQFSCLTFEINKRLVYVSFEGTDKVISGWIENAKMSYEYPVLAHSYAINYLNKYFKHTYKRIIVGGHSKGGNLALVSALGCKKSIYKRIINIYSNDGQGLRKEETNLKRYNDLLKKFIHIVPYNSIVGMLLYHDMYYLSVDSDKKPGVSHLMTNWKIDYDHFKTREISKFSKVIDEGVNTWIDKYDNDSKREFVNSLGQVLKKNGVITLIDFISNKRLILDVLKSVKDVDPLVKNMTLDLIKIIGKLNITN;locus_tag=LOCUS_1120;note=WP_005808364.1 DUF2974 domain-containing protein (Desulfitobacterium) [pid:35.1%25%2C q_cov:97.5%25%2C s_cov:91.0%25%2C Eval:9.0e-52],MGA_112
sequence01	MetaGeneAnnotator	CDS	108139	108819	.	-	0	ID=MGA_113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLYLLSVFIFFLGSVVGWILELVYRRILHGKLVNPGFLVGPYLPIYGFGLLSLTILHILLTRLNLYPVVIILLMGIVMTLIELIGGLFALSQKVRLWDYSKNWLNFKGIICPYYSAMWLFIGTIYYFFLYDPLMYAVNWFNENISFSYVIGILSGFLIIDFVYSTKLYIKIRKYAKENNVTVMYEKLKIHIKDVQKNAKEKYSFLFPFTQTKKLIDYLGSYIDKK;locus_tag=LOCUS_1130;note=WP_004454079.1 putative ABC transporter permease (Clostridioides difficile) [pid:26.4%25%2C q_cov:99.1%25%2C s_cov:74.3%25%2C Eval:7.4e-15%2C partial hit],MGA_113
sequence01	MetaGeneAnnotator	CDS	108888	109235	.	-	0	ID=MGA_114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKFCGQCGSMLEDNKCPKCDVKEVKKVENNETKTGTNALAITGFVLSLTTLLLGVLSAIPGLILSIVGLNQIKKTGEEGRGLAIAGIIISSVLLGFIIIFLFFLVLALITASYY;locus_tag=LOCUS_1140;note=MGA_114
sequence01	MetaGeneAnnotator	CDS	109286	110086	.	-	0	ID=MGA_115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLINTLDNELKEKHLSDLEKMRYIYLRFCELFHFDSKWSAADIIEDKKLEDSIFYRKIDLENIDDFSIICRSGAYEVISPLIRELTNLHTNIISLGNHFYTEVTDDYNNRWKLDPMYGDMPRVKLGILPTGMYYVKKRGVRLEEYDFDFRYMDPDLGYRFIKRSEYETKIMSPSQYGAAKEVGELLDTTEVNKHFTDASYFIHIFPQLMSIPFEDIVDKDLVFHRIVNIEDECVQFELTKEKGLYTFKEITPERYEEVAKRLVYR;locus_tag=LOCUS_1150;note=MGA_115
sequence01	MetaGeneAnnotator	CDS	110089	110844	.	-	0	ID=MGA_116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKIQIDSMYDIIKSPIPIGSGFCAHCYRCKDGNVFKKFKNNEEGQKIVNRKDLEVIMEALCKSSNESIVGPKTLVYQDKKFVGYIYEYINGIEVASVSRFTRIDTLFKNIGILFDDIKSLTENRVDLFDIHGKNILVDGSFHVIDMDKSNMAKEKDTPEDLEKFNKQELLKTILNVIYRFKPWNEGVYTGVDIHEFLYRKDINADTLRELKEEFERVCRKKNPMLYEIRRKTLHEKRINSYSSYVRNMEE;locus_tag=LOCUS_1160;note=MGA_116
sequence01	MetaGeneAnnotator	CDS	110920	111222	.	-	0	ID=MGA_117;product=MazG-like family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003565490.1;translation=MRDLKDLQKEVIQNKINHGFNTTDINFEFCLAYGELGEAYMAYLKKKEDLGEELADVAIYLLGISELLGFDLGKEIENKMLKNSKRIYKEINGVMQKIEG;locus_tag=LOCUS_1170;note=WP_003565490.1 MazG-like family protein (Lacticaseibacillus) [pid:47.1%25%2C q_cov:84.0%25%2C s_cov:82.5%25%2C Eval:1.4e-15],MGA_117
sequence01	MetaGeneAnnotator	CDS	111219	111632	.	-	0	ID=MGA_118;product=8-oxo-dGTP diphosphatase MutT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681243.1;translation=MKVVEVVAAVIKKDNKILGTARGYGHFKGMWEFPGGKPEEGETKEEALVREIKEELNADIKVDDYICTVEYDYKDPDFHLTMHTYFCSLLNDHMELVYHDEEKLEHEAMKWLSKEELDTVEWLGADIEIVNKLKELL;locus_tag=LOCUS_1180;gene=mutT;note=WP_002681243.1 8-oxo-dGTP diphosphatase MutT (Treponema denticola) [pid:46.2%25%2C q_cov:96.4%25%2C s_cov:88.5%25%2C Eval:2.9e-29],MGA_118
sequence01	MetaGeneAnnotator	CDS	111641	112288	.	-	0	ID=MGA_119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNINVLTYKGLTREELRNVFDSLNIYGMESLASVIEAWQYEYEEDGTILKEVFDSVKEEKERNLSNRDRNPISDREELRRSLSALSDKEFDFIGDLLELDPDEVFMHNPMEEYYGVEYVEDACEEEYDEEPYIIFKGIYSDLAEERVVKKFINSKPTKGAKLMKESEALFNQRFNKSLETAKKEKMAPKDPFTKRYTKSLTAQKKKDGFRPYSL;locus_tag=LOCUS_1190;note=MGA_119
sequence01	MetaGeneAnnotator	CDS	112304	112900	.	-	0	ID=MGA_120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANKTSAINIQVDSDVKKDATLVLTDLGLSMSSAINLFLKQVVKKNGLPFEVTNVVDNKKILDVVCALIMKDGKCLIARRNKNDHLNGRWEFPGGRRQGLEDEKKTLERAFNEIFKMKVDIKDYLTHSICEYPGHIVDLKIYECDYVSGEFKLDIHSEYKWVSIEELLDYDLADADVILSKFLIKRALEESRNNSIID;locus_tag=LOCUS_1200;note=WP_011459573.1 8-oxo-dGTP diphosphatase MutT (Desulfitobacterium hafniense) [pid:34.7%25%2C q_cov:61.1%25%2C s_cov:93.8%25%2C Eval:1.2e-17%2C partial hit],MGA_120
sequence01	MetaGeneAnnotator	CDS	113011	114246	.	-	0	ID=MGA_121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIIKKRNYDEELEILKSTRNYYEERMNLITKDHNQREVGYIQGYIDETNKKIRRLLLEKEIFGLVLPYFESIGIKFDMESQDISYAFKLAKYEDKKYIEYYMQNFHESEDEDELNEICGKLIFDDKGELLLDLDTSNNFYLNFQDLDDFVEISPDNIFVTKDDVIINLGSIWIPKYAHYKFNGKKYVEKHEFTSADSTSKKVDDNEYATYKKLQLGDGELGVCYGRLYSVSKGDFVNDLEFDNIIDYTYPVIKTPYMGVLLDEAWIGIKRTLEENNLLIGTTTIRLDKEDKITTAVYLDKEGNIVSKLFYYPYFFRYDKKKRMESDLLCMDTSNETYITDLGKVEEESKNYIKSAIDSELFMEERERKLNQMRRERMLRIMTTVDLTKSDCGPESKKYTMKPKENPKKEA;locus_tag=LOCUS_1210;note=MGA_121
sequence01	Aragorn:1.2.38	tRNA	114323	114398	.	-	.	ID=Aragorn_5;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0050;note=Aragorn_5
sequence01	MetaGeneAnnotator	CDS	114479	115039	.	+	0	ID=MGA_122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFNINKFNEYILLFFVSCFIGWAWEVLWEFLKEGNLINSGTMRGPWLPIYGTGTVLIYLLLYEYKEKKWMIFIGSFVICTISEYLTSLYLEYTYGMSWWNYTDKPFNINGRICLPYSIVFGFTGLIVIYLIVPFIKKFIEKHNKKVLFVVCLILLSIFTFDFVFSTINPYVSKKIQVINMDKFK;locus_tag=LOCUS_1220;note=WP_009931856.1 membrane protein (Listeria monocytogenes) [pid:36.8%25%2C q_cov:71.5%25%2C s_cov:49.3%25%2C Eval:1.8e-25%2C partial hit],MGA_122
sequence01	MetaGeneAnnotator	CDS	115067	115729	.	-	0	ID=MGA_123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNKFDYNEEEVMKILSDATKTDEQKKAAFDSYKETLLSERKTEIINRLNACAKDNPTITQEVYISMLKKYSNDNLEIPFDSIINDIDAFDKEMKAKYEEMERAKAVEVPTPAPIPETPTPAPIPETPVASVEPEITITETPAVEEAPVNIEINAADEEITPDVTPFSNTVEANPLFDDNQMEISPDEADSQKGNANAIIISIITIIIGIVIMYSIIRLK;locus_tag=LOCUS_1230;note=MGA_123
sequence01	MetaGeneAnnotator	CDS	115819	117042	.	-	0	ID=MGA_124;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_150048584.1;translation=MKRITKFLVFTILLFIPIFVHAKTVDIYLFYGDGCPHCAAEEKFLESYLKSNEDVVLHKYEVWYNEDNVKLLQDVGDLLGVNPNGVPYTVIGDDVVSGFMSNDTTGEQIRSYINIYRNKEYTDRVKVFLETGEKIEKKEIVEPKKEDKKEEKDTKVSFKLFGKKRTIDTKKVSIPVIAVLLGLVDGFNPCAMWILIFLITMLFNMKNRKKMWILGITFILTSGLVYLAFMLTWLNLTSFVTKLQYIRLFVAIIALGAGILNLNNYIKSLSKDDGCEVVDDKKRKKIIKRIIKITSNKKFIIALLGIMLLAASVNIIELMCSIGIPMIFTQILSMNDLSTFRYMIYMLIYIFFFLIDDIIIFAISMKTLKVTGISTKYTKYSHLIGGILMIIIGILLLLKPELLMFNF;locus_tag=LOCUS_1240;note=WP_150048584.1 hypothetical protein (Methylomonas rhizoryzae) [pid:32.3%25%2C q_cov:93.6%25%2C s_cov:91.3%25%2C Eval:1.1e-56],MGA_124
sequence01	MetaGeneAnnotator	CDS	117026	117286	.	-	0	ID=MGA_125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYIIISALWCPACIITNNAMDKLIEEKNLDVTRLDYDFDDIEKYNVGRTLPVIIVFNNDTEVGRIIGEKNYKELTEEIDKYEKNN;locus_tag=LOCUS_1250;note=MGA_125
sequence01	MetaGeneAnnotator	CDS	117358	117768	.	-	0	ID=MGA_126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKKIGIIVGAAVVVIGIVVALVLLLGGNNEKELTSNLNKLGKQFYEEFYYPSQEKSQEDVKEFIKKFEKTGIKVNLENIAKVSKVDQDLVKTMVNSKTKKDCDKTASYVIIKPKKPYGKTDYTIEVTLECGFTK;locus_tag=LOCUS_1260;note=MGA_126
sequence01	MetaGeneAnnotator	CDS	117816	119990	.	-	0	ID=MGA_127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKKIISCLIITFIVLFAYNSKVLAAGSATMSLTSSDTVVKGSNITVTLNVTNISGVSDGKVSGIEAFINFDPAYLQYVSTTLSDTDNWSKTVTTANVSTGKLGKIVAYDSTGSAGRSGAILKVVFKSLQSGSTSLTITGAEASDKAANLLTMTTQGKTITINDPAPVLDSDSKLKSLGVTGYSLNPVFSATTKAYTVTVPEGTENVTITAQCNSSKATLDSSTVGQKALTGDATSFTVKCTAENGTSTNYTITVNREKHTEPEPEPTKSSDSSLKSLGMSGYSYSPKFNPKTLTYSMTVANGIKGLYVQAVPNDPKATVDIEGDSKWDVGKNTVKITVTAEDGSKTVYKVNVTRESEKKKSSDTNVDFKIYSPHTIEPQFANDKNDYEVVVPYDVTKLDLSVVPYDTNAKVSISGNEKFSTEDTNKVTIKVTAEDGTVRTITLNVKRSEYKANTDLLDLKVKDYEMSPVFKASTTNYKVTVPHKVRKVTVLVKAPEGAKYTITGNKNLQVGKNVVLVKVSDEKGFTKYYQIDVTRKKGFNFFGLGLIPFLIILFLLLILLLLLLLLLRRRKQKKERRAALIAKESSDDDVVKQEAPVHIDFKPEFNFNSKNGTDDDVVYSNGAMINGMDEKKLLDNQETVVDAKYDIYDDVVTKDELVDALNEGIRTKNVDKLQMLLDQENLNRKKKRMKKREEEKINSEDDLDDDYVPEHSEDNYDDYDEE;locus_tag=LOCUS_1270;note=MGA_127
sequence01	MetaGeneAnnotator	CDS	120005	125557	.	-	0	ID=MGA_128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKRGKKLSVLLTLLAVIGLSFFIGIPKAYAAGEHEFTFKFYTCDLDEEALWDQYDPDTYRVTTSAEIVCNGGLTEIAAGSKVDVGSYVVAAVHYKPGTPVDYAMQFKFNYDTDSFEPTIFHKWSRSKREYSTEFAYEIGEDLLLDYNWDSGASNPTAGRITATLMDEDGSAGDPLTDEMDLMLFYFKVLDDGEKNTDILFEFDRTYGTGIAMANKSAYVATDGVLQVKGFESPDNTLGTLTVKNGSTNYALTPTFTPGDKTNKTYTTYVPSNITSVDIAATPNEEHAIVSGTGTKTNLQYGNNSYSINVLSQSGDPETYTVNVYRINSENTLSALALSNVDFGTFSSNTTSYTATVPYTTDKTNVTATATAGNKATVTGTGNDKTLNVGSNTVSVTVSPESCKSQYSEVPGNTCTEKTYTVTVTREPASTVSTLNDLLVDGNRVPGFTPGDPTSTYTLTDVGYTKANIIISYDKGEDHETVTGDGTKTLNVGNNSFDVVVTAQDGTTKTTYTINVYRKSNNANLGTLNVTSSKTGSLDKPFNANTTTYTYNTDADETDVDITYTKADSNATVVTTPADLTNINPRTTSSVTIEVTPEDTTQAKKTYTINFAVAKSTNGNLSTITVDGDEIDNFQPGTKEYELTVPSNTESIIIGAELEDDRGEITGGTGVQTLDYGENEIEITVQPEDPNAAPVVYTVTVTREKENVSTLNDLLANGTRVKGFNPGDGTNTYTLDAVGYSTSTLNITYVKGESHETITGDGEKTLNVGNNSFDVVVTAHNGTDKTTYTINVYRKSNNANLGTLNVTSSKTGSLDKPFNANTTTYTYNTDADETDVDITYTKADSNATVVTTPADLTNINPRTTSSVTIEVTPEDTTQAKKTYTINFAIAKSTNGNLSTITVDGDEIDNFQPGTKEYEITVSSTTESIIIGAELEDDRGEITGGTGVQTLDYGENEIEITVQPEDPNAEPVVYTLTVTREYKTNADLTDLRADNVTVPNFHSGDPDGTEYNVGTVASTKTTINIAATLADPSPNGATVTGTGDISLNVGDNRLPVVVTAHDGTTKKTYYVLVKRLNSAKNLETLTITSVPTGTWDKQFDPEETTYTYTTDPDETEVIINATVPEGSGSTVVSGPGTYNPATTPEVTIVVKAEDNTEKHYIINLVRGESSNADLSDLTIDGETINGFAPNTTEYTVSVPSDTDKITIGAELADDRAELTGDGEKTLDFGPNNQFTITVTAEDGTPKVYTINVTREYKHIDTLTTLTVDGVEVPNFHSNDPDGTEYDLGKVNSDKESILIEAVLGDIDASIVGTGTKALSIGDNSFPVTITAQDGTTSRTYTIKVRRRNNDSTLTGIEVIADTQGTLSPAFQPDETEYTYTSDPDEDEITIVVTTPDGAEATIVGHPDGKVNPQDGDEDIEIIVTAEDGSITNYIIHVERGRATDATLDELGVIGYELNEEFKPEDDHYTVTVPADVDKVIITAHATDAPRAQVDGTGEVDVDFGSNPFIITVTADDNTITKPYYLTIERELSDDVKLSDLKVEGVTVENFDPDTPSYTYGPIGHDVNSLEVVATPENSHATARVTGNDNLQTGVNTITIEVEAQNGQKGYYTIEVTKEGNDDNTLSGLEVEGYTLDPEFDPTKDDDHFTVTVPSDVDSVVVNATPNDEDNATVTVEGNENLQPGENTITVTVTAENGDEKVYTITVTKEEEPEEDEKITSQIYTIADGMIKNVVYKTLPGLLKDNCDNDNDLLFVYDSEDQNEIDNNQQLGTGMIIKLIKNNRENDRDTIVVKGEVTGDGLIKINDVVKVVSHVAEVETLEGIWFEAGDFSSDGQIKINDVVAIVNIVAEE;locus_tag=LOCUS_1280;note=WP_099258551.1 cadherin domain-containing protein (Rhodopirellula bahusiensis) [pid:21.4%25%2C q_cov:66.3%25%2C s_cov:64.6%25%2C Eval:3.2e-20%2C partial hit],MGA_128
sequence01	MetaGeneAnnotator	CDS	125701	126225	.	-	0	ID=MGA_129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKENTKKGTSTKKKVTTKKTNTPKKEIKVEQIKAEKKKNIFTKKNIIIVSSAFVVLILLIVGLIIFFSPKNIVSRKVKSLGKEYYSEYLWEVIAENRSKEELGKVLSNYKEIGIKANLNTLSLSFEGKYKKDIEKKIIKKYNCDSKNTKAVIYPKNPYGKGNYKIKIELDCEF;locus_tag=LOCUS_1290;note=MGA_129
sequence01	MetaGeneAnnotator	CDS	126301	127992	.	-	0	ID=MGA_130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFDIKNNKILIFKKLVFILILFAFFNTKVYAATISFESHGGPDVASYDISTDTLGTLPSPTMDGYVLDGWYKESTYENKVSSKTEVTGNMTLHAKWVVNQFPYVYSYHENPYVCTGSNYIDTGVKLYTGDTATEEGTWTKDYEIGFIIEEYDPDIQTEEQAVFMNTKYESQAAGWPGLVVRRAVQKIEITQTVNSGKVQRYISDLTFPMQIKIIRKNNTVYYQVNGGNLYTVQSMGNFTKYFDVPVYFCAADDGNNGTQRHLIGTISNYYVRMGTYENTTEHTVTYPDGSVEVHGHKELVDIGSNDGPADIEETVVTFKYNNGDSDTTSMKTKTTVHNGFYVDSVHYDSDASLLLDDDKVVELDDDVTITGSIEFPDDPVKDYYRFDGWYDENDVQYTSYNGDSDLTLYAHWTLDVSDELESNTYSVETVSNDKIVVGSEPGVIVGTYKSNMSNPTTFIKIYESNSELSNNIVVKTGLTIKLVTEGTIYDTATIVVRGDIDGDGYSNITDSLAIKDHLEGTTLINDNIRYVAANVEQDIAIRESDHEIINNYIREDINSLN;locus_tag=LOCUS_1300;note=MGA_130
sequence01	MetaGeneAnnotator	CDS	128133	134135	.	-	0	ID=MGA_131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKITSINNLYNRIKKLVFVLILFALFFGFSKTAYALTEATFLPSSYNLGAGQSFNYKLRELDPISFRKATIVEYNSALPNLSSDNIVSTADSDYPIYLWLDANDTALYYSEADKIYANANSERMFFEVEHLVDADVTGFDTSRVTNMSQMFFNSDALISLDLSSWDTSNVTDMSAMFEQSYGLVSIDFTGWDVRNVESFSRMFCDCSVTSLDLSGFVTSSATRMEQMFANAANLSSLNISNFDTSNVTNMFAMFENISVEELDVTSFDVSKVTDMSRMFNSCDKLRTLDLSSFEPKSAVYMSQMFNYCLKLTTIYVDPVKWGTPRPRYSNQMFGADYRIMGQNGTTYVGSDDGTFNLSRARVDDPENDKPGYLTDVALKGQLYHSITYPDGRVFIVEHNAGLDLEPNETTNGTYQSGEITFIYHNGVTEPTTTSQTVTMVGDGYTADGIHYYDNGISWNNSFWVRATKDITLEYAYKPEVLPGQDFPVATKEGKIFTGWYTEEDGGTKVTSYSETEPLTLHAHYDNRTSFLKEGYNISSKIGDITNYSDSLNTFRKATESEYNNIKDGLTEDNIVSTEDSHFPTYMWYDGENVLYYSEADYIYINDYAGNMFSSTSFISIDLSGLYTNNVNYMANMFAYNERLQEVYFGDNFDTSNVTDMSYMFYDCSSLNNIDFYNIDMSSVTTTSEMFYNCSSLTYIDFKRKPLRSLEYAYEMFYGCSSLTYLDLTMFDNSNLYDFGTMFNNMPNLETIYVSDLWNEDNYYYEQYNVFTYSTKLVGGAGTTYDENHDTSEYARVDDPNNDKPGYFTYREFRPIIYHPNNNWSVDYGSSYTFEDNYQRDNTHVATVTLNKNYDGSEDDYAYVDIQFTLTKWQVEKNEYDFGDTIIVDQDIYLDPIGVETIIGADLSPAYRENYKFTGWYTEPEGGELVERYDTEEDITLYAHWTEATTVPVTTPDGIVYVPYGEEYNLGVNDLYQFYAEAEYVYLDYNLGDDSDPPMTVMTEFLKGNGWLVDGVHYDDNSIITVTDPITVERDNIIDKPPYVLPHPTNGNKYFAGWYAWGNFDTEPYEIYYGGGDVTLVARWIDDPVNLTIDGKTKVVERGSEYVVPSGQIADDEYITIHVSDWLREMEQDVKIGYGKTVNYQNINGTNYEPGYKYIVNEDTTVITNTNNDKTVVMDPYIEKVTTIEKDGTLYVFNGWLFDNWDYVDPMDITTDIYAIKPTDTDLNGQGLFAEYSNYDPETQALIHYKDEYTGIDFTKVVDKGYEFILEDKSTEENVSITLVDNIDHSRSRGTITINATLDHYLINNNEYEPSDESYIVNEDTEIEVVRVISSSNNIGGYGFLIDVDPPTRVNDYIADNYLFMGIFTNSNGEGERLYIRENIETHKFYEVTDRSFMGYIYFLEDPNIILSVDDEASVITKGMGVIPEAKEKADEVIPITLVYQDNETPNGVANMTYKHEFEGYKKQNYWRVYNPGEEYDYQEDTYFYSSYNNEWIFDELPYIDDDHFKGWWTEPEGGERVDELEYMRWYYEDYGYDTLYAHWGEPTVEICHGKGDCEEIVKGTTVTLERPEPTVVTAHFTLDYNTEEPGYDPKNVTTTRTETVEYYMINNERYDFGETYTFNENVDMYGVTTYTYTSDFVGYYNDNWDHGLNINGYELRGWCATTDGRYCRYYDEDEDIVQPDGLTLYATYYSSDGDTVRVTVDWDTQYDWPKGESILIPDDIVENIAFAEPQSYSREIDFDLNDGSGETLSGSIAVNEVFSHFRVGNDDIKKYQQHDLYTFYRDIHIQSQFVDEYGEIDFPEMNEPTFKGWYTKPEGGRRIKNTEDFVKYMDLYNSFTLYAHYGEISEELESVLYVVANKTNEDQSVTRFIVGADAGTLISEFKENMDNPNEYIKIYDLDNNEVSDDDIIKTGLTIKLVIDGNIYDEATMVVRGDMDGDGIVNITDLLQVKNHIQELTLIEDPIRFIAANVVTDDILNVSDQLKLSNYLNENIDTLNE;locus_tag=LOCUS_1310;note=WP_011109529.1 BspA family leucine-rich repeat surface protein (Enterococcus faecalis) [pid:43.7%25%2C q_cov:10.6%25%2C s_cov:21.0%25%2C Eval:5.8e-39%2C partial hit],MGA_131
sequence01	MetaGeneAnnotator	CDS	134267	157408	.	-	0	ID=MGA_132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIGKGKILLFALFIILMQIFIFNGRVEAYWRVSTTSYENNKNSINKYGCKNSPKIHLIVRGREIEPEDILFDGNEPNYREVVHSYSHSVNPVLCDSYLLPDDDTVTNVHKLTNKINYVEHKYTPIWNVDGYGIIAWYDNPEFEGEPVKSVYMSRRNDYSNEDRYYYAKTGKIIDIYYNGIKRQVVVGKLYSPIYLDLEYDAIAGTYSNAEYNVGFSQYTEDIPYDVSVKAKIAYYSDDNYFTRYGNKYFRNVAYTQHESRIKLETGSHIYIDSTDSLPFIDVDSMRYDSFKEGTQKYTQATIIDVETGEHADMSELHVTEHEPIKVTFELPNYHEYLGALDQNGNEYPAVIEMKQEYEGKVFTPVIGSDEVCTDYTVEYPPHAGLPGYYGYDNIHRLGVQLLTDFDNRYMPTLLSTTPETTLKEGYTISHISSCTPYDVYTKVHLYIDPSLLPDYAIVLNNKEITRVTRNTVYKLPEEAETKPAEVFTVKLKYQDGTTADETLAYTKTYTPTGFVIDGVHYDFGEEILVTRNLYIETDYEEEITGPELPSPTRNKYTFKGWFDMTVGGYRVYEIKDKTYKTLYAQWADKDYVIVTRPDGISIELERGSEYIIPEVPEKEDEAYSRVKFVYNDGTERSEVAQGIKHYEKNGIVCKETGQHYDVGQKIIVNENMTLQGNYIEHYYGVKFPVDPEWTDHTFLGWFDQIEDGFRYTMYSGRKDITLYAQWTDDTEDVTIYYADGNNYSPFAPYTDRVKRGDPYRLLNGYYRINNSLATFIYQDGITPDYVTHFSSDAWTARWIIDGKYYDMGETIIADSDKVIHADFVKTYSPVEFPEDPVRVGYTFLGWFDDPVNGTKYTKVDNRDNDIKLYAHWQRLDEEYTLPEIPAKNPETVATVTLKFQDNLTKDKQKYVKKNYIAVDYTVNGSGYNNEHFNVGDTINLTDDVTITPNYREEIVPVELYSATRDGYFFIGWYDTAEEEGGTKYTTYSGTSDITLYARWTTEIISTLCKRATTLHTDSKGVPYGNIPEAGILKVGDAFDCDVNGDGVYDAETERFYYVNDFYDVDTGEYDHNIAALIYYTDYMGRPITDLNDQTFTKWNNSDIPNEGPTAARSYLPTTEDWPNAHLYKTMRYPGGKSNKVGPIDELDYSGYSARMLSKKEVTDSGCVFNYNIKQKRQYFNFNHSCDFLGENIRYNNSGKQPAERGYWLDNHGGYCKGTEGCEDPRPYAWNLIMNNRQSYGLNGEFWDGLHIQMRETYYERGVRPVIDVPRNQIEDNPAENVMHTITFPEGTVQDVIHGGTFMFGNVNTSSTVNENLATVTFKYQDGETADTTSAVKKTKIPTAYKIGNTRYDQGSLLLVLQDYQLEYIYVDTIQPAKFPSDPTRAGYTFKGWYDSQAGGNKYTSYSDDEDITLYARWEGGSSEGYYTITYPNGDTEQVLAGTEWTFPVDNSTKDDGIFTVTFKYHNELEDTTSNVIAQYIANGWKIDEDHYNDGDVITVNHDITLEYDYIVTTIPAEFPSFNYNSDEYIFEGWFTAAAGGNKVTSYDKPEDITLHAHWSEVNPSQPELYNLGFNTETKPDEIISTVTFKYHNDSPDTTGNVIKYYVPNGWLVDGERYPNNTNIMKTSKTVIEPCFDDFIKPVSFPTNPTKQGYEFVGWFTSDSYGEQVTVYKGTQDITLHAQYTNNYALLITGRNFYSKVSSLISSYTYSAPGLTFRKANQNEYDSVSSSLTSNNIISLDDSPNEVYVWLSGTDILYYSTADVIYMNSNSSRMFDGLNKIGVIDLSGFNSSKVTDMWKMFNNCTRLTSLNLGNFDTSNVRDMSYMFYSCRALTGLGLSNFNTSNVTNMSYMFYGCEKITSLDLSNFDTSKVTNMSNMFYNCKVLASLDVSNFDTSNVTDLSYMFYNCQILTNIDVSSFDTSEVTTTDSMFYACKKLASLDLSSFNTSKVTDMTAMFYDCESLTSLDVSHFDTSKVTDMDLMFTSCLKVPTLDLSSFDTSSVTKMGSMFFNCFELETIYVSERWNVDAVTTSTNMFSGTTKIVGQKGTTYDRNHIDKTYAIIDDAPEHPGYLTYKSALPPAPAAYTITYPDGYVEIVSEGTEWIFPDLPESKSVTVTFDYNYKGTTPYVTEFHKGNIYNAWLIDVENGNSYNAGDTYIVNSNIVLSYDIEENTGSVEFPEDPTREDYEFKGWYDTNAAAGGNKYTEYDGEEDITLYARWKKNSSVNILCKKATTLHTIDCDNTNSYCNAHGVNSITYGNIGTGDTLRTGDAFTCDVNGDRNFDEEYERFYYVSDYYDTHEKAFNNDYAALVSAYNYIDGSTTGGHNYNLDGINVDGPSSRTYLPSTSDWSNTTLLESNRVIHIKTDSYHPDAYPEFDYEGRAARLLTFEEVRNGCGVAVSTPGYLDNCLFLLENTTFGKDEQDISGSIMTDLDKYSSVYLENNNVEYSDTYVYALDSDTRAVNTMMVSSWYGGIRPTIDVPKSRIGESDVTYTITYPDGTTEEVPAGTEFVFPTNSSTKEKTPSAVVTFKYNDGVTPDYISYVGMDYTAAGWKIGTDHYNDGDIYIVNSDITLAYDYVEIQSGAEFPSNPTREGYTFKGWYDSPAGGDKYTSYNEAIDITLYAHWDGESVQEDVLCKRATTLHTKTCESSYCSNEAINGIVTYGNLGQNGILSQGDAFDCDVNGDGYFDEYDERFYYVSDYFDTHTKQFDDSYAALIYSHYVLDGEIYDGTDWIVGYNNNNYYEGPTIMATHLPTTENWSNVTLKETTRSIINNLSQSSNPHEFSYDGYAARLLTVQEIFNSTSVSNDTIHNSGDYITERIYLYENSSYDTHVDNYFTSTALETFSNDRNTWDSSQYGGVLVVRPDSEHRNITIETPFNEEFGSVRPVIDVPKNRIEGSGYPKTYTITYPDGSTEVVPAGTEFKFPSNVPEKDVETIATVTFKLQNGSDDIVLHIEKQFTPNGWKIGTTHYDSGSTYIVNSDITLAYDYVETQSSIEFPSDPTRAEYTFLGWFTEETEGEQVTSYDGEEDITLYAHWQINTGCRYLGVNDIPKDDTTYTVTFKFENGQSDVIREGTVSYLPQGWVRKRTGYKDTYFKDKQYICIESGYDVFPYYSALSEKIEYPEDPTKEGYTFDGWYDSLTGGKKYDYYNGTEDITLYAHWKGMEKYVLPVNNQTKASEVISTVTFKYHNGAADTTSNVLRTYKPNGWLVDGKHYANGETIYKNDSTVIEPYFESYVANAVFPTNPTKSGYEFVGWFTEEEGGNRVTVLRSENDLVLHAQYTDDYSILKNAGLNGYLGLHFEWILEHVEPEFTDGILRFATREEFEAADPNDENTFFLEVSTTDSPKPTYMWYGGDGKVLVYSEAKVVFANKDMSYAYQRFVGASVSTFDLSWLNTTKVTNMSNMFYYQGPYIKEIIFGDFDTHNVTNMSALFNSTYNYKIPSEDLQKFDTSKVTNMRQMFRYHANKIDTSEEEYTLDLSSFDTRNVTTMEEMFYGCETLTGLNLSSFDTGKVTTMKNMFYQDKALKELDITNFNTSKVTDMGYMFYYLKLPSLDVSHLDTSSVKNMSYMFGNCFYLESLDVSNFDTSKVENMQGMFKSIKLETLDLSSFDTSSVTKMSYMFQSCSSLIELDLSSFDTHNVTTMEEMFSSDSKLTTIYVSDKWNTDSVTSHNQMFGYDYNLTGQKGTKCWSNDNPTDKTFARVDDAPETPGYLTYYATYDIVYPLQTIKENKNTYHTVRENTMTKNVNNSFTITFNPQNGDDNTVVNASSSYLPAGWIDSKTNIHYNEGDRFIVNEDVIFYPDFVEMVSGADFPADPIMEGKVFAGWFTDPTDGELVKSITEAKDITLYAHWIDNESGEINLGVNNIPKEDTTSLVTFRYQDNVTPDAKVTIVKQYIPNGWLVDGQHKDDNTVITYEEGMVIEPDYVETVVSGEWPTDPTWTNYTFQGWFDSVAGGNKYTINDIKESITLYAHWYFDGHDTVLCRRRSNATGYTEGIINTGDEFECDVDGDGNYEGTFYYVSDYYDTHTNSFVNEYAAMIYSSNIDGDQPVSPDYGHDALCYATATGWNCGAVSNGPTEVIGDLPTISQWSNTSLYQVNRNILTVDGSLVVENFSYNGYAARLLTVQEINEGCGLGITSDDYDKYTYAGGCGFLSDHLQDYVGPTDSVEITYYLENPIDGQLSSVNPLMVNQNSITDDPDMGAGARPVIDVPKERIFENVKPANTYTVTYADGHKETVPAGTDITIPENKTTKPDVNGAKVTFKPENGGSDIIRYVTKKTVGDGYTISNTHYDSGSTYTVNSDITLVYDYRNEYVNVKYPENIIKAGYDLEGWYTEAEGQGTKVSSYNGTEDKTLYANWTKKTSGEYTLPENTIGKDPEDVATVTFVYLNGRANTTSKVVATYTPNGWLVDGQPKKAGDVITMTPDTVLEPAYIRTVSPAAFPANPTRTDFVFKGWVDVEDYNSTNDYNYYISYDGEDDLTLYAKWETDANHCSITYSDGEIKVVTCGTSVSVPSTINTDSETITFNYMTYWYDDMMDYTETYSTSFNRTFYTKASVESYKVGNTTYNPGESFTVDDDIYVERTLGNATYDDEPFEEPDEAYNFVAWFTDWYNGVQVKSYYDYKSKGLTGELYGHYTNDENSYEVTVDGSKVGTYDDGYSYTAPDGTNKDEDLATVTLINGETTNTYKVHRTGSFSNYKVEKNYGSGLEDEGTVDAGSTVTINAHTFLTSQYDPDTVTGVELPVLEDTNTMTFKGWYKNQNGSGARYSGTYTDEVDITLYAYYEGKSANVTYYSDRTESASVLAQETYKYGDTVNTNSITSNITVPGNGKVHLVLQNGTTEGDEYVQLEVTKEIDHWLDNDENSYNKIYTVDFVGSRAFTPVYGNGTVTSYTLPTPASDTYPGYSFAGWYTEPQGGSRITKITEDRDITVYAHWTGNNDPVCIYTDGHTEVCNPGDVITVPSNYIKTVSKVYEVANGIDTYRDYIYNTISVEKYYIVDYYVIDGTKYYPGDTYTIESNTTNIETHYDEGTIPPVSLDEYVDDYEIDEWFNNDGVERLFTGWYTERTGGNFVTKYAGEEDLFVYGHYEEDIPSNQFYEVTFIDLYNNYTYYSMLKGTPITLEPEELREGGSFYLDPANGDDIIVEHLYASVTLSDIDVNGVLYHPGDTVIVNSDLTITAIMPEVELTYSPEITNPVKEGYVFTGWYNNDDRIDIDSLDFNNAGQLIGTTLVAHYEEYNPQTDVIVDFDGEIRVVPKGTTENLPTTGSKTNDTFTITLNSLRGETDSAIVSREYTLTGFTVNGELHGVGSEVTYIVDTTIRSQYDINYDYAGNYPVEYPDLPDISSIFSDFIGWYDAVTGGNEYEDASEITDTITLYARYTPKYNLTVDGVTTIVPEGYVYTVPEGTITGDYITFDLDYDYDDIVKTVKVGRGKGVKYQTINGVRYDANATYTVYSDTTVVTVNNSSNMVVMDPYIETPTRDGYVFIEWRYNGDGVNIYSITPDDVYFDGATLEARWDEFDPETQVYVRCIDKFLNIETTDILPKGTTRTLQNIPANDSFNATISNNLDDTVINATFTTVAPVSYLTLNGEVHYPGEQYTYNENTVGEVFRDVTTTTECDGGECPSILYQKPNTEVNGYLFKGLFSTQNLDKPVDFSKIYAKYGTNMNDFYSEMILMYQSMDDSIILTVDDEVSIIPKGMGTIPEAKTKASDIYKVTYDYNDGTSRKVYDNIVARYTFDHYNVVGKGEYEAGAAYNYLENTTMNSVFTKSVEFPEIKTIKTENFIGWFTEPHGGVEVTTLEGIERDITLYARYNNEHVTIYIDNVANPVLYGEEFTLPAGTSKSDKSITFTLDYNYDNRIEDYTISTSYEFTGYEMDGNNYEAGYTFEATEDKYVTSKYNLTNEFTPEYTEPDREGYVFNGWFDGNEKVNVSGLTADSEEIDGKTLIASWTEVSANDVIITYDGETRVVPIGTKLSELGDSPIKPSAETFTVYIDRNNGSFIIDEYEITKSYSLDKVYINDEELNENDYTFNEDATVTTTYTANYEPNIFEGLSSDISGIFTEAVGGVKVENYDNVNDGDTLYYQYGETHTITVDGEVIATVPHGAEYSLPVNSKPKAIENIAEVTFDYGDDRDPYVTYVRKRYNANGWSINGEPYSNNEKIIVNEDIVLDREYYETVQGVDFPRTPKRSNYRFDGWYYNNEVITSYNGDEDITINANWIKQIVITYLDDGTVDIVDTGTTMVFDPKEDKEEEFHNITFKYNYEGCPEDKVVRISSHDHFIGWLVNSTDEYDDGDEITFVNNSTVKARYEKVISNKNLPEDPVRDGYDFLGWYDGKNIENSNKVDITKVAKTMTVYGQYKVSGEHVVFFDGTRYTYTDATSVDTESEGFISDTKENVVTLTLDYQNPSIDNESIAYTISSEFVNWTDENGETYGKVVDLTNVPDGMHFTSNYVTDEFTPVDLNEFNPDVNDFIGWFTDRVEGEQVVTYDGESNATYYAHYGEIKQVVVTIDNEVTVYSVGETFNLPASKSKADDEIVITFDPQNGEESFTRSIVTSYTFTGFRLVSDNVLYAGETQFTANEDMTFNSEYTSSTVGATWPEDPEKENYAFLGWYTHQEDGMEVFNFDGITSNTSLYAHYTTDDESFVTLTNTVTGESLKVQKSTDWLFNESKFNKDNKEKLGTITYKFNSTGYPDEVKDYYRTSTPTGYYIEGDDTLYNIDEAHQFTSDTNITPYYGNVITDSHVGIDQFDYEVTNGNKQARCFSKIDQNPEDTHDDEVYTCYENYDENDGNVTVYLHWRELGQVQVTDPDGFVTIHTEGDEYDLGTNNKPKNGISYTVTFDYQDGRENTTGTYSETYTNNGFLVNGTHYDDGTVLTLTEDIVIERDYTYSQTTITLPEPERQDYTFIKWNSETDGSGTTYTSSNINKLTSDTTAYAIWASEDITLSFVTDGDEQVSDITVAYDTPIGDVLPTSSKANERTTVGEENIITGYIFDGWYREDTYENKVSSASKFTEDTTLYAKFIEDNFPYVYPKHEESFVCTGSNYIDTGIKLYTDTNNDYLKDYEVGFTIESYTPSGQAKQVTFFNAKWENQTEQWPGVAFRRYNQTNSLEVSQSNNKVRVGQEIPNYTLPLEVRIYRINNVIYYSVDGGATKNAVQDITGFDQFFDINAYFCAGDNGSGGVQRYVKATISNYYINMGKYQGTVDNQTTHTVTYPDSTVETYYHNSIVELEANEESKASDNGAQVTFDYNDGVTASEIRYVTRNYTPNGFMVNGTTHYDDYSTLVVDEDKVLTNDYITENVQVEFPSNPTREHYTFDGWYDEDGNEVRYYDGDDNITLYAHWTGALVPIITPLGREDVEYGTDYTIPNDIDKNDDVVATVTFKYHNGDDDTTSDVVKSYTQTGWKDLDDVSYESGQVITVTHPLELSPVYEESITGATWPADPTRENADFLGWFTEQSGGVAINEYAGTSDITVHAQWDIALPTDFDLDADDLVIVKGETHQIEVTFIPDESSDTLTYTSSDDDIATVSDEGLITAVEKGVITIIVSADNADIDKVITVTVVSDKLESDEYEVRDDEFESDTYRIVIGAEALTTIGEFKDNMLNDNEYIKIYDLDNNELTDDDIVMTGLIIKLEINGVVHDEATMVVRGDVDGDGIINVSDLLGLINHIRENTLITEYPKFAAANVDEDEILNVSDQLKLNNYLRENIDSLNE;locus_tag=LOCUS_1320;note=WP_011109529.1 BspA family leucine-rich repeat surface protein (Enterococcus faecalis) [pid:37.1%25%2C q_cov:5.7%25%2C s_cov:43.9%25%2C Eval:1.2e-71%2C partial hit],MGA_132
sequence01	MetaGeneAnnotator	CDS	157841	158548	.	+	0	ID=MGA_133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSIFTGALITLLCIPSYAYAKGVGTVRFEGNRNITVGDEFKVNMVIDNISEAEGGVVAFSGYISYDKDLLEIVDAKSVNEYFDVLRNKNIDKIVGLDYSLANGISDKETVYEITFRGLNEGNTTITLRDAELCDKKAELLNVNTNGLNININKKEEVIEEKPIEKVVKITYKEEKVETQESVIQEDIENKEELVVKETVKKTKKAVKNTAKGNKFTNFFKNLFNKIFKKTTDK;locus_tag=LOCUS_1330;note=MGA_133
sequence01	MetaGeneAnnotator	CDS	158564	160552	.	-	0	ID=MGA_134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELEYLSKILEAKKEDYSKQNNLKKFYKETLTEEEYKNFEKLLKTKKGEITELETIYKKMNSYSDQYAYERIMAMTEIEFDAIKDREIEAKKDVIRKHNKDIDEQNKSINEEINALLEENTELKKELEEMTAAIGETGKYTKDSVARAKTIKEKIKSNNERIEELKKSILDNDKKIITNGEISLDFDTYKAEKLAELSSKRYAETIHEVPVMDELLCKMQKMGKTPEEIEEALNTFKKAYVGGYEKEGYEYFDPIYRNDFDALDEFDKNAEDATELLERYFEVTEKGKDIFLGKGIIERNMKVAYNTNKKHNISEITKVTLLNELVSGLPFYNNTKDNAVLTNGCFINLKDRIITQKERINRVIAWKNSDSKINTYAKVATHIGNYRELSASRELEEINLDEIEKIFSKLRNYFEEEAFDECNEAIEFTTLYDELASSCDKLVELSDEKDKLESKKVVISKKELENSVNDYIDKIEDQKDYIKEIHKRMKIDLDGVFAFVEDILKEPERIMYPEITEEETVENIFSVIHRKDESVEFSIQNEEEYLYELESDFKNTIMLLEKYEETKKKNRKDAINKLCEDLGIKSISDSAMEVLYEEKDKPGEFKASDISKRINEARINLYLREQKEKAIADSTKAKSEILGAVLNSVNLEDTKTDIFAAI;locus_tag=LOCUS_1340;note=MGA_134
sequence01	MetaGeneAnnotator	CDS	160564	161148	.	-	0	ID=MGA_135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYSKKKKITIAVISVLCFLFVAFIIFKGINDSRKLTDDTSNDVSKPNVTANVSLVDKVKKKFSKKKDTKKEKTTEKKSKIAKSAKDEVEVEKEEVKEDEVGTNLTGYYTITSLKLGDKKYSNDEIKKLKANGYSLELSIKKDGTANLSVLYIDKVLSYDSEYFTDGDNKIKYTSTKNKIKFKLDDAEMVFKKE;locus_tag=LOCUS_1350;note=MGA_135
sequence01	Aragorn:1.2.38	tRNA	161252	161328	.	-	.	ID=Aragorn_6;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0060;note=Aragorn_6
sequence01	MetaGeneAnnotator	CDS	161350	161994	.	-	0	ID=MGA_136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKYLLVAAIILLFSFVASAKDKVNVYIFRGEGCPHCEEALEFFDELSKDEEYSKMYNLKTYEVWYDEDNSALMKDVAEALEEEVSGVPYIVIGTKTFAGYAASMSGQVKDAIKAAYEDDDYKDVVKEVEAGTYTKEKYEFPIVPVAIVAGVVILAVIGMVIFTSEKEEDVVETKKEVKEVKKEEPKKVETKKAPAKKAPAKKSPAKKTSKK;locus_tag=LOCUS_1360;note=WP_039644929.1 membrane protein (Geobacter soli) [pid:33.0%25%2C q_cov:45.8%25%2C s_cov:22.8%25%2C Eval:1.0e-07%2C partial hit],MGA_136
sequence01	MetaGeneAnnotator	CDS	162017	163513	.	-	0	ID=MGA_137;product=DUF2779 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000846383.1;translation=MNDVITKSLYCSLLFCDRCAWLSRNKPEKYVEKKKEDVLQNGKEVGEYAKELFGNYVNIEFNKNINVMIERTQECVERNTPVITEASFRYENMFCSVDILKNYPDGVEVYEVKSSTEVQDIYLDDIAFQTHIIRSLGYNVKSANIVYLNSNYVRNGDLELDKLFIIEDVTDEIIPREDKVSINVRRILSSLRSPKEVTNDIDSYCFKPYECPFLEYCSKDLPKPNIFDVKIMKITEKLKYYKAGKISFEDLINEDINEKYLQQIDFELNDKEDYINVNNVKKFLKTIKYPLYFLDFETYQQAIPLYDGVSPYMQIPFQYSLHYMEKEGKELKHKEFLAKEGTDPRRKLAESLVNDIPLKGTVLAYNMSFEKTVIKNLAKIYPDLSKKLMKIHDNIIDLMVPFYNRDYYTKDMRGSYSIKYVLPALFPGDPSLNYHNLEQIHNGGEAMNAFSNLVNYSEEERLTIRKNLLEYCKLDTFAMVKIWQKLNEKCGKNINISI;locus_tag=LOCUS_1370;note=WP_000846383.1 DUF2779 domain-containing protein (Leptospira) [pid:30.0%25%2C q_cov:77.5%25%2C s_cov:95.8%25%2C Eval:3.4e-50],MGA_137
sequence01	MetaGeneAnnotator	CDS	163518	164642	.	-	0	ID=MGA_138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNESLQRYLDALERTNNQEYLMTEAEKQEFAALFREHPELDQLRTDLLNQDNPEFRRTMVKDYMDILSSSKDLTGQMNDLGFNLKDTKDITLNNGERIIVMYKQNSDVPIVLHVDSNVNIVSELKERMTSDPKYQGSDLSSNAEALLDDYARDNNAYQPIQEISKYDPTTSKYAMDLEKQKVIAELIKKAAEKNVLLSGQDKFMYIDEDNNYIMTGTGKVLEAEIDTLTGNITVGTAADAAEYKNEGIDVSSDGSTSSDGSRASEETEKDSEYSSSEIDYVYEEVFAKGGADPSKKDETVEKLNEIANNPDEIYNMSKEEQEWYQTAYNMLISKRKTLTYAPKDNQSGVSNYLYIAIFVLLVAFAVLMYFVFKR;locus_tag=LOCUS_1380;note=MGA_138
sequence01	MetaGeneAnnotator	CDS	164740	165447	.	+	0	ID=MGA_139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNRICHKNGDNFNENRFIRLINVGKKSSVYSDEFEHVAFKRYHFTTSKDDKLSERVFKELQDINCPALPILGECLYYGKRSLLNKELAGYTMDFVKNDHTDILTMDSKDFTDKIVDKFDLVADNLGERNIIMTGTPDHSGVILSSDGITITGIDSFERRTNMPKWECVIFNKKMAICYLRLLLAECAMYRHDLGDKSQDIAKIFDFSISATTNISSKTLVNLEHGQVIKSLKK;locus_tag=LOCUS_1390;note=MGA_139
sequence01	MetaGeneAnnotator	CDS	165461	166222	.	-	0	ID=MGA_140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKQIGRLLREHKNEELDKKFINDAFEAMVSHDKLEEYASELTFDDDDRYGLYDGNNKTININIKRINGLERSNYCKRLNALLILRHEIEHAKNLRKTITSEGIESAILQLSMFVAVKDEDASISASKPLITGKSELYGLNANERIADIRSTKFMVNLLKNDRNSDALIQSRVFLYNSYVKGYRDNGTIIDCPTYLYLLKSGFIRYYFNLVKLISDHEPYSLDTRVLCGLPITREEKDLVLLNKAGLKEIPKK;locus_tag=LOCUS_1400;note=MGA_140
sequence01	MetaGeneAnnotator	CDS	166293	167360	.	-	0	ID=MGA_141;product=beta-N-acetylhexosaminidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005813606.1;translation=MDKYTKQELIGQKLLVGFEGKEIDNYVVDLIQKYKVGGFILYRRNYDTYSEFITIIKKLKELNRVNRIPLLICVDQENGIVNRLPDEFHRIKNALASSKCNNDVLKEVGDITAEILYKSGVNVNLAPTVDIYDDKISKSIGNRCFGRTSDDVIKNTRIIIEEHKKNNVIPFIKHFPGLRKIKVDTHILLPRIKHIDEEDLKPFITHINENVPGILVGHILVKDLDKLPVSLSRKTSSLIKDTYNYKGITMTDDIKMRSVRYRYGRIKAAKLALKSGNDIIMFNYPHNKEIRVINEFNKLYDLYSSDINESAMRIIKLKESFKINDNDFKELSIDEINKYNERIDKVNSIIIKENK;locus_tag=LOCUS_1410;gene=nagZ;EC_number=3.2.1.52;note=WP_005813606.1 beta-N-acetylhexosaminidase (Desulfitobacterium hafniense) [pid:32.2%25%2C q_cov:96.1%25%2C s_cov:82.4%25%2C Eval:6.7e-47],MGA_141
sequence01	MetaGeneAnnotator	CDS	167471	167806	.	+	0	ID=MGA_142;product=inorganic diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010890780.1;translation=MENKEYIGKLLSIKIDRQFGSKHPKHGFIYPVNYGYVPNTISGDGEELDAYLLGVFEPVEEFEGECIAIIHRTNDNDDKLVVVPKGKKYSDDAINALTEFQEQYFEHVIIR;locus_tag=LOCUS_1420;note=WP_010890780.1 inorganic diphosphatase (Clostridium) [pid:57.1%25%2C q_cov:94.6%25%2C s_cov:95.5%25%2C Eval:1.8e-31],MGA_142
sequence01	MetaGeneAnnotator	CDS	167832	168329	.	-	0	ID=MGA_143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENYICKIASIEDIIKMYDEEIYNCSNKEKMIEWKNMTIERVKNGFTIIYIGLLDDLIISECSVTLNPTLVNNSENLVNDKTAYLHAFNTKEEYQNKGYFSKLFRFMIDDLKNRGYKKVTLGVDKKNKKNKDIYTKYGFKEHIKDVHEEYYDGTTADIEYYGKEI;locus_tag=LOCUS_1430;note=MGA_143
sequence01	Aragorn:1.2.38	tRNA	168392	168465	.	-	.	ID=Aragorn_7;product=tRNA-Trp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0070;note=Aragorn_7
sequence01	MetaGeneAnnotator	CDS	168511	169650	.	-	0	ID=MGA_144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRVELPNKNGCNFRINPDSILPISEEIEEFITLEPSLKKIKFKNQIPKDIQSNNIIEGIDNDLEAIRRIIVRKIIYDISRDSSDKEKKVLNLYKAYKYILEKKEINKENLRTLYRLISDGLILPRDQECMGDYYREDEVCISNLAYFDERIMGIPFKDVSKYVDYLMEYVKNAKAENYTDNFIISQIIHFYLIFIHPYFDCNGRTSRTVAMWYLLNNNANAFLNFNRAIPFTKSKYNKSINSSRDTSDLTYFIKYMLEMEMKQLEKEYLISSVERSRGKNFTDDEYLLLEYFLSNKQNQSLKSLTDLFTTVNGSKMKVSEVASKLEPFMKSGLIIQIGSTKTLLNDGTPNPILRLNADMFDFNRDRVKTLDLSNYLNK;locus_tag=LOCUS_1440;note=WP_048065247.1 Fic family protein (Methanosarcina acetivorans) [pid:27.9%25%2C q_cov:54.1%25%2C s_cov:49.5%25%2C Eval:9.0e-13%2C partial hit],MGA_144
sequence01	MetaGeneAnnotator	CDS	169712	170719	.	-	0	ID=MGA_145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKKFGKGLAILLLIILIPFMGYLLYTKFYGGTKEDKIEKKLLKMGTMFYEEYYYDALVEQKGSEDNAISYLSQFADKGLKISFDNLKTYFDKNSLMNYTELMDCDVDRTRVVIYPKSPYGKKDYDIKTDLSCDLIKATADSKKFKQEYEELNGDDGKLKVSIDEKNQIIYSSLEEINKKIKNSDSFVIFLGSPYFNESRVSISTFLEVSKDYNIKEIYYVDIIPGGKEENDIRTTYGLNENNEVYKVKEGSSEYNDFISYAKDILPNPSEDFIKGTDYEGEKTILNSAYIYVEKGVPISYTDGRPSEVQDYKLVTTERLTEIFKEFYGKKKAN;locus_tag=LOCUS_1450;note=MGA_145
sequence01	MetaGeneAnnotator	CDS	170721	171791	.	-	0	ID=MGA_146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTKKTILICFIFFVITVITSVAAVILYVKFYPIESKIVTENINRTEVIESAISDSIEQVFDSVVTVKSFYNGKQYGTGSGFVYKVEGDKGYILTNNHVIDYANSVTVLLQNGEEVEASILGKDEYSDLAVLSIAKDKVLKVATLGDSDKIYLGETVFTVGSPMGEEYSGSITKGIISAKERTVETESVVTKVIQTDAAINPGNSGGPLVSLSGEVIGITSMKLSDEQIEGMGFAIPINEAKMYASYLEKGESVSRPYLGVSLIDVNDTYKLYYYRLNVDRNITEGVVVAAIDSNSNAAKAGLQLGDAILKINNDKITSVSKLRYYLYQYKIGDEVEISINRAGKEKTIKVTLEGK;locus_tag=LOCUS_1460;note=WP_015613276.1 trypsin-like peptidase domain-containing protein (Lactobacillus acidophilus) [pid:48.4%25%2C q_cov:78.7%25%2C s_cov:69.2%25%2C Eval:3.1e-68%2C partial hit],MGA_146
sequence01	MetaGeneAnnotator	CDS	171803	172720	.	-	0	ID=MGA_147;product=Abi family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023905931.1;translation=MNKKEFRTLDEQIDILRNKGLTINNEEQTKEVLLKENYFFINGYRNILYTKDRKFIKGTTFEELYSVFLFDRTFRNILFKNLLIIENNIKSVISYQLSKKYGYKEADYLKPSNFNQNFTDSRRVIDVINKMKRQIRVNGDKHTATLHYMSKYGYVPLWILVKVLSFGLINELYGILKEEDKKEIADIYNLDPETLKVYLSLLANYRNLCAHEDIVYEHRTQVSIPDTKYHSDLKIPKVDNEYIYGKNDIFAIVIIFKVMLSNTKFSDFMGEVNRAIKVFDKNIGIIENNVLLERMGFPSNYEEIL;locus_tag=LOCUS_1470;note=WP_023905931.1 Abi family protein (Mycoplasma mycoides) [pid:33.2%25%2C q_cov:96.1%25%2C s_cov:95.9%25%2C Eval:5.2e-42],MGA_147
sequence01	MetaGeneAnnotator	CDS	172729	173664	.	-	0	ID=MGA_148;product=DNA-binding protein WhiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000006551.1;translation=MTFSYKIKEEISKLECSKIEHISELSGILCTSSDMKLYSIRVQTENINAANRIFDIIQNTYSVTSNIAVKKNYNFKKNEMYVIEVKKDVPEILKDLGLITDNSFKIRNYPIDEIVDDEELKAAFIRGCFLIGGSVNDPKTSRYHLEFIINNEEFAEFLKDVLNSYDLNAKTLRRAKGYMVYIKESEKISDLLRIIKAYNAVLYYEDIRVLREKQNMNNRINNCEQANVEKSMASSNKQIEDINFIKVEDAYELLDEKVRKVADYRLKYPESSLIELSNIISVETGEKITKSCVNHRLRKIRELAERLRESK;locus_tag=LOCUS_1480;gene=whiA;note=WP_000006551.1 DNA-binding protein WhiA (Staphylococcus) [pid:39.6%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:4.6e-62],MGA_148
sequence01	MetaGeneAnnotator	CDS	173661	174452	.	-	0	ID=MGA_149;product=prolipoprotein diacylglyceryl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000513305.1;translation=MLNSFNIFGLTIHFYSLCILLGIIVAYIVIRKEGHDQRLNKDYIFNVVFYGLIIGILGARLHYVLFNLDYYLSYPSEIIKIWHGGLAIHGGIIAAAIFVYFYSTKVQKTSFLRSLDVILPGVIIAQAIGRWGNFFNQEAYGIVVSKGLLQKLLIPNFVIKGMYIDGSYHLPTFYIESILCLIGFIIILLIRNHRNVRVGYVTAFYLIWYGIIRFIIELFRTDSLMLFNIKIACVISVIFILLGVWLFYYTTYKKNLRYRRTML;locus_tag=LOCUS_1490;gene=lgt;EC_number=2.5.1.145;note=WP_000513305.1 prolipoprotein diacylglyceryl transferase (Staphylococcus) [pid:41.5%25%2C q_cov:95.8%25%2C s_cov:89.6%25%2C Eval:2.0e-52],MGA_149
sequence01	MetaGeneAnnotator	misc_feature	174580	177278	.	-	.	ID=MGA_150;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_000045572.1:excinuclease ABC subunit UvrA,WP_000045572.1 excinuclease ABC subunit UvrA (Bacillus cereus) [pid:61.0%25%2C q_cov:100.0%25%2C s_cov:93.8%25%2C Eval:0.0e+00],MGA_150;locus_tag=LOCUS_1500
sequence02	MetaGeneAnnotator	CDS	72	620	.	-	0	ID=MGA_152;product=peptide deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245474.1;translation=MLKTKDIIDEFDPRIRLVSKDVTFPLDDKTKKVIADSIEMLRLSQIEEYSKKYDLRPGMGLSLIQLGITKRIFVIVYEYEEGKFETYTVINPKILSESEEKIYVSEGEGCLSVNRPVEGIVPRSARISVEYYDIDGNKINTRFREELAIVFQHEYDHLNGILFCDRIDKKNPFKYKDVYRGI;locus_tag=LOCUS_1510;gene=def;EC_number=3.5.1.88;note=WP_003245474.1 peptide deformylase (Bacillus) [pid:45.4%25%2C q_cov:95.6%25%2C s_cov:94.6%25%2C Eval:5.3e-38],MGA_152
sequence02	MetaGeneAnnotator	CDS	755	1897	.	+	0	ID=MGA_153;product=cell division protein FtsW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009967159.1;translation=MTRLLNKLDKVLLLFSFIMFVFGLFMIFDASSMKSYLLTGSNTTYFYKQLIILVISLIATIIIIQIPTSRYKRYILPGAIALIAFLGLLLLVGGESNGAKSWFYVFGFGFQPSEFAKVGIIIFMSVYYKLTYKRVGTLLTTSIPIIIGALMTFLTFLQPDAGTGLILFVIVASLYYMAPVLKKYKFYITMFGLGLIFILAIVVLIFKDSMLTRTQLDRFNFLKPCTRYQENTGYQVCNGYIAINSGKLFSVSPGNSKQKYLYLPEAYTDFIFPIIVEEFGLITGIVLILIYLLIIYRIILIGKNSSNIQNQMLCFGVAVFIFSHVVINLVGVLGLLPLTGVPLPFLSYGGSFALTVSIGLAIVQRVSIENYDERKRKVLD;locus_tag=LOCUS_1520;gene=ftsW;note=WP_009967159.1 cell division protein FtsW (Bacillus) [pid:26.1%25%2C q_cov:96.1%25%2C s_cov:92.1%25%2C Eval:1.5e-39],MGA_153
sequence02	MetaGeneAnnotator	CDS	1948	2562	.	+	0	ID=MGA_154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKLLIIIIALIIITLASLYNPKYVKAEETSISNYFVDIKGEINNPGVYEVEPDKRIIDVINMAGGLTDKADTSILNLSKKIKDEMYIIVYSNDQIKEYKEKLLPSKEIIKKVEEKIICPDTSNDACAKNNIIKEESNITGKININTASKEELMTLTGIGESKADKIIEYRKNNKFNTIEDIKNISGIGDSIFEKIKDNIIAE;locus_tag=LOCUS_1530;note=WP_010990138.1 helix-hairpin-helix domain-containing protein (Listeria monocytogenes) [pid:43.4%25%2C q_cov:83.8%25%2C s_cov:72.5%25%2C Eval:1.4e-27%2C partial hit],MGA_154
sequence02	MetaGeneAnnotator	CDS	2528	4504	.	+	0	ID=MGA_155;product=DNA internalization-related competence protein ComEC/Rec2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010990137.1;translation=MKRLKIILLQNKILILFFLIIIIYSFIYIRVFNPKSISNTHLEGYITSIKYKDDKLTLIIKSNKKTVVNYYLKSVINLEYGDYISLDGEYTSINENTNFNLFNYKRYLYSNRVYYMFNAKSIKVIKKNNNILFNIKNKIVKRIEKCTYSKKYLYIFLLSNKSYLEDNIYDSYKDLGLVHLICISGMHISCIILLLNKLFNKKIINYIFLIVYLFLLEFSISILRCFLFYLFKNIKDKYNLKISNIKLLLIIMMILILSNPFIIYNIAFQFSFIISLGLNISKEYINNSITKTSLIAFLYSIPILINNYFKINFITVLVNILFIPLISYIIFPFTCLVFLFNFLDRYLYYLTSFVDKIVLKISEIKIFTFSFSKQNIILIIIYYLLLILFIRNRKYFIGIITLIVIFYFNNYYLINPRVYFIDVGQGDSSLIRINNKNYLIDTGGNYNYDLGSNVLIPFLNSVGVKKIDYLILSHGDFDHIGEASTLINNYKVDKIIFNCGPLNELEKELIDMNISYEICINKLDNLYFLQTKEYDNENDNSNVIYTNINGYKFLFMGDASYITEKEILKKYNISNIDVLKVGHHGSKTSSSKEFIDIIRPKYSIISVGKNNRYGHPNKEILINLENSKIYRTDQDGSIMFKIKNNKLEIETNTLTEKK;locus_tag=LOCUS_1540;note=WP_010990137.1 DNA internalization-related competence protein ComEC/Rec2 (Listeria monocytogenes) [pid:26.8%25%2C q_cov:94.1%25%2C s_cov:92.7%25%2C Eval:4.1e-65],MGA_155
sequence02	MetaGeneAnnotator	CDS	4542	5606	.	+	0	ID=MGA_156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKDLCFEIIEKCLNNCKFCSSNSNCNKTQIIRFEDFKRVIDYFITTGGIEELSLSGGEPFLHPDIIKMVEYAKSRNIRVVIFTSGVVNGQELNEDHKNAIISEMNDRLKEIEQNEPENEFLKAKVRTYYNQLLEKKEYYSIGRGVLHELKTTGLDKIVFDMQAYESETDSYIMGRNEQARQALLKSLIDTSFEELDIDVHFVPMKPNYKEIIDILELLEIVEVGQISLLNFLPQGRGRINSNDLMMTFEEKQEFFKLLEEGRKKFSGNIRIGIPLQGDDAHKCNAGLEKLDIKFNGDVLPCPAFKEITPEECGKFGIKIPNIYRNLEDVSIPGNGKRVKQLCKQVYSARTKIN;locus_tag=LOCUS_1550;note=MGA_156
sequence02	MetaGeneAnnotator	CDS	5822	6811	.	+	0	ID=MGA_157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSELNNKPSRIYLTEEQLAGDITSLYLFLKENPNTSVVIFDYDDVLLFDRLLPRNIPNNVYLINDGKRIDRSYIDIDSITGFKLIVPLSYLSWGIKFDDYIDTYLVHEYDEKSSNIRPLRYSKSFYTVDDQIILMNKIKELAALAHRCNDKEKVMLVSDYIQSSIQYIVSIETHSHKGIYVTPYVELYNTHESSFSVALNKHYGVCSAISQLSMLLLNNPYMDIESEVMRGNGHAWNKVNVDGKNYYFDNTWSITRNDHQLYGSLMASSFTDKYLLFGSKTANEIEMHSSKNIPIYKGSIEEEDATKPEYKSKFTYSFKPVYYSYKKED;locus_tag=LOCUS_1560;note=MGA_157
sequence02	MetaGeneAnnotator	CDS	6825	7436	.	-	0	ID=MGA_158;product=transcriptional repressor LexA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000413738.1;translation=MEKLTVKQNLVLDYLKRSIAKNGYPPTVREIGKALDLSSPATVQAHLNTLEAKGYIKRGNSKNRAIELLINNDYIESDTVDVPLLGKVTAGNPIEAIEMPDEFFTLPASMIPTKKEVFTLKVSGTSMINAGVHDGDIVIVQRQATAENGDMVVAMTEDNEVTLKTFYKEDGYFRLQPENDTMAPIILDKVYIVGKAIGLYRKF;locus_tag=LOCUS_1570;gene=lexA;EC_number=3.4.21.88;note=WP_000413738.1 transcriptional repressor LexA (Bacillus) [pid:53.4%25%2C q_cov:99.0%25%2C s_cov:98.5%25%2C Eval:1.7e-57],MGA_158
sequence02	MetaGeneAnnotator	CDS	7556	7717	.	+	0	ID=MGA_159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLFKNILKVIVAYAICMLFAYVLVLRVKQVNERDSRILQEYNYEEYYVYENK;locus_tag=LOCUS_1580;note=MGA_159
sequence02	MetaGeneAnnotator	CDS	7784	9760	.	+	0	ID=MGA_160;product=transketolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000067891.1;translation=MDQKAINVIKNLTLDMIQNSGCEGNYGICFSSAPILYTLFTKHLNVNPSIPDWINRDRFVLSASHASALLYATMFLSGYPLMIDDIKSFKKFGSKTPAYPSINTMGVDISTGPLGEGFASAVGMALAEKKLEALYNQTGKSKLPKLFNYNVYTLVSDGDLMKGISYEAASFAGSLGLDNLIVLYDSNEVSSDGEVKNTFSESVLSRFSAMGWSTFYVKNGNSSSEISKAIEKAKKTKTPSIIQIKTIIGDGLLNQGKNITHSQLLEKNDIDQFKQKAGVGTVPFTVLKEPASYIRDTVVQRSIKIYSDWEKLYNDYKKVLNPNQVTEINNINQNLVNIDLIRANLPIDYNNKELMRESNHRVLNIIADSVYNFIGGSADLSNITRVRLDNHEDIVYGKYTGKNINYGVRDNFMGACMNGLALSGFRPFGSSLLVYSDDMRESIRATALMNLPVTYIFTHDSVTNSFDGPAHQPVEQLSNLRSIPNLYVFRPADIKEILGTWNVILNNKIPAVISLPRTEVKAEQGTSAGYVNKGAYVAGPEKNKLDAIIIATGSEVQLAKSLQVKLLQEKNIDVRIVSMPCMELYSIQSEDYKESIIPTGSKIFVLEYGSSFGWEKFVPSSDYLLTVDSFGASGSKDDVLSYLDIDSDNIITRIENLL;locus_tag=LOCUS_1590;gene=tkt;EC_number=2.2.1.1;note=WP_000067891.1 transketolase (Streptococcus mitis) [pid:40.4%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:2.3e-132],MGA_160
sequence02	MetaGeneAnnotator	CDS	9825	10034	.	+	0	ID=MGA_161;product=YneF family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003221221.1;translation=MWHDILMVVIGLVPGLVIGFFLSKIFMEKYLKKNPPINEQMVKAMMSQMGRTPTQKQVNQVMKAMNNAK;locus_tag=LOCUS_1600;note=WP_003221221.1 YneF family protein (Bacillus) [pid:55.2%25%2C q_cov:97.1%25%2C s_cov:93.1%25%2C Eval:3.3e-17],MGA_161
sequence02	MetaGeneAnnotator	CDS	10676	11194	.	+	0	ID=MGA_162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965378.1;translation=MKKQFGWLMTVLIMSFILSIGMSFLSEGLIPKINVYFGILIILIFIFISVIFDMIGVAITAQDETPFNAMASKKIKGSSHSVKLIKNSDKLASICCDVVGDVCGVVSGSAGMMVAASLMNKVKINPSLLVLLVTAIIASLTITSKAFGKTIAIKNSKSITEKVGKVIHIFKK;locus_tag=LOCUS_1610;note=WP_010965378.1 hypothetical protein (Clostridium) [pid:39.1%25%2C q_cov:96.5%25%2C s_cov:91.4%25%2C Eval:3.3e-31],MGA_162
sequence02	MetaGeneAnnotator	CDS	11279	13099	.	+	0	ID=MGA_163;product=translational GTPase TypA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000182654.1;translation=MEIRNVAIIAHVDHGKTTLVDKLLKESNTFRENEVVAERAMDSNDIERERGITILAKPTSVKYKDYKINILDTPGHADFGGEVERIMHMVDGAILLVDAYEGVMPQTKFVLKKALDANLKIIVVVNKVDKPTSRINEVVEEVLELLMELGATDEQLDFKVAYASAVNGTCSLNPDITTQKETMEPIFDLIVNEVPAPKVEEGAFRFQPALLDYNDYVGRIGIGTINRGSVKVNEMVSCVRLDGSIKKFRIQKLFSYYGLKRLEVEEAHAGDVIAIAGLADIEVGETICAEGHEEALPKLRIDEPTLQMTFGVNSSPFVGKEGKFVTATKIRERLYKQAESDVALKIRDNDQESFIVSGRGELHLSILIENMRREGFELEVSKPEVIIKEINGVECEPYEDVSIECPEDTVGSIIEALGLRGGTMETMTNLPGVVKLNYTVPSRGLIGFTTDFMTMTKGYGILNHTFKEYLPKQSQTVGERKLGVLVSMENGAATAYALGQLEDRGIMFIEPGTDVYEGMIVGEANKDADLAVNVVKGKNLTNTRSAGKDHTVVLKRPKVLSLESALEYINNDELVEITPVSFRLRKKILNTEERKKYDARIRNEQK;locus_tag=LOCUS_1620;gene=typA;note=WP_000182654.1 translational GTPase TypA (Staphylococcus) [pid:61.8%25%2C q_cov:99.2%25%2C s_cov:97.9%25%2C Eval:3.0e-216],MGA_163
sequence02	MetaGeneAnnotator	CDS	13169	14062	.	+	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMVKKIYDLKNSEIDSFIKKRLSELSNNESVTVGINSDNYMYSGFFDENVRINTTMRVKGKGSKTVLKLGGICINDINIYKYLVCACKIVNNPYLAVSMALDKYLYLSDPVRDRLGSEGIEFYRSRIMNFFLGKNKCAPINLLRKTKVSLCSEISAVAQNMFRFLDIESDFVTGISDNIHHAYNIVYPRGRQKDAILFEGNHAIDCDPLFFYLNQKNKTKLYMGEPVEFTEEDHYKGFKYLFGERIDDYEPFKLSYSIHKVTFVSDGFEYSKKEDMNKGKLVFRNYYKGKQKIEKK;locus_tag=LOCUS_1630;note=MGA_164
sequence02	MetaGeneAnnotator	CDS	14126	17506	.	+	0	ID=MGA_165;product=pyruvate:ferredoxin (flavodoxin) oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016958.1;translation=MSEYKVIDGNYACSHISYLFTEVAGIYPITPSSKMPELIEKWAIEGRLNLFDNKVKLKEMQSEAGAAALIHGSLLSGSLSSTYTSSQGLLLMIPEMYKIAGELLPCVINVASRTVATHALSIFGDHSDIYAVRSTGFAIMASSSVNDVQYMTLLSYLSSIEGSVPFVNFFDGFRTSHELNKVKLLDYEEIKPLINYEKIEGFKNETLLSSKIIKGTAQNEDIYFQNLEVRNDYYEDLPDIVNSKMKEVNKAFNTDYKPFNYYGDPNAKRVIVAMGSVCDTIKEAIKYSEEKLGLIEVHLFRPFSEKYFLDVLPKTCTRIVVLERYKETTSREAMYLDINNIIKNNKLDIEVVGGRYGISSKNTNINDILSVYDNLGSSNIKDDFTIGILDDVSNKSLPKNNSIIPNSNIEMIIYGYGSDGMNTASKNLVTLVGENTELYVQEYGLYDSRKSGGVTREHIRIGKEEIKSPYYIENPHIVVCSNDSYLKQYDVLSNIKENGIFILNTSKTIDEIDDNTKAAILKKKLRFFTIDASKIAKDNNIPGKISYIMEAAIIKIIKIYPYEKALEEIIKSIESNLSSKGEDIVNSNISSIMMVDTSINTLEIESCDSIYEEKSYEGLINNVLHLKGDTLPVSEFLIHDNGTYDINTSKIEKRDVSSILPCWNSDKCISCNKCSLVCPHGVIKPKLLTEDELRNNPNIKYRPVPGKDLYFAMEFSYEDCLGCSLCSSVCPTKAIEMNSKNGFNRVNEKISKVTKKNVFPKYSSMQIAYNKPLFKYSGACAGCGEAPYIKLLTQVVGEGMVIANATGCSSIYGGSSPTSPYSVSWANSLFEDNAEFGLGIRVAEDINRKKIIKIMKDNMDNVSTKNKELFRRYIDDPNNYKNSVIIKDNIDYDEVKELLPLKEYIPNKSVWIIGGDGWSYDIGFSGIDHVIASNENVNILVLDNELYSNTGGQTSKSSNKASISKFSSKGKKTSKKDLAKIFMNYDNVYVAQVCLGANIESTISAFKEANEHNGPSIIIAYAPCILHGIKGGMKNSLEEEKLIVKSGYFPIFRYNKSKNEFKLDYKNVDFNLYTEVLKNETRYKMIAEVNPKNAKRLLIDNINSARERFNYYLDLENKLTEEVIED;locus_tag=LOCUS_1640;gene=nifJ;note=WP_011016958.1 pyruvate:ferredoxin (flavodoxin) oxidoreductase (Fusobacterium nucleatum) [pid:44.3%25%2C q_cov:98.4%25%2C s_cov:98.3%25%2C Eval:3.5e-280],MGA_165
sequence02	MetaGeneAnnotator	CDS	17509	18309	.	+	0	ID=MGA_166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYYIYKTSREKEDILKEIYNVRRFIYNDDDVSCLDGRIKLIPFSEVQEDRSLITSIKKNYGEVITRFDQGITYFKCYDDIKETAINFFKESLLFNIMYYNSGDNNSLDFPIFYSYIYSLIESKYLEKSRSDSFSNSLAELGIFAFSTDYDKNINNDLVNAALYNRNSIKDIYEDTMGKNTYDRFSDLCKKFSLELDYPSSMEDNHFYSIIEALKKFFYLRVDNMKHLSLNERNSMIIQFNDEYSKLVNKFEEEKDAFRNQKPIQL;locus_tag=LOCUS_1650;note=MGA_166
sequence02	MetaGeneAnnotator	CDS	18335	19513	.	-	0	ID=MGA_167;product=acetate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583303.1;translation=MNILVLNAGSSSLKFQVIDTNTKEVLGSGNFERIGDEAQSFLGIKYDGNKEKFEHPAKNHTEALEFIIEKLNELVLKGEKEINAVGHRIVHGGSKFIKPQLVTEEVVNGLKDVIHLAPLHNPAAIAGIEAVNEILPGTPSVVCFDTGFHQTMKETQYIYPIPYEYYEKYGIRKYGAHGISHEYVSKRIAEIKGNNDLKVINCHLGQGASLCAIDKGVCVDTSMGFTPAAGIPMGSRTGDIDPSVITFIMKEENLTPEEMNVIINKESGKKGISMLSADDRDLEEAMASGNTQAKLALDIFHYKVAQYIASYMVALGGCDVITFAGGIGERGNYSREEICKYLSCFGVKLDLEKNKIKAEEEKISSDDSAIEVWVVPTNEELMIALETEKLTK;locus_tag=LOCUS_1660;note=WP_012583303.1 acetate kinase (Dictyoglomus turgidum) [pid:50.6%25%2C q_cov:99.5%25%2C s_cov:97.5%25%2C Eval:4.1e-109],MGA_167
sequence02	MetaGeneAnnotator	CDS	19621	20865	.	+	0	ID=MGA_168;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000027084.1;translation=MIQRPKGTYDVYGSLAKKQDYVKRMFGAVCESYNFGYIETPIFERSELFHRGVGETTDIVTKETYDFQDKGGRDITLRPEGTASVARCVIEDKLYTELPRKFYYIGQMFRYERPQKGRYRELRQMGVELYGSSEPIADAEVISLGKNFLDELGIETKVIINYLGGVETRKKYREALIKHFEANIDEFCEDCKERLYKNPLRILDCKVDNNNSLMESAPSILDYLSEEESENFVKIQEYLRYLNIDFEVDTRLVRGLDYYNNIVFEFKTLDDEFGSVGAGGRYDGLTASLDGPSVPSVGFAFGLDRLVDVMNRDNIEVENSNIDLYIMNVTENELMYSYNLAQDLRMCGFKVDIDLLNKSMKSKFKEVDKLNPKYLIIIGEEEVKSGILTVKDNLTKEEQKIDSTELLDFLNVNL;locus_tag=LOCUS_1670;gene=hisS;EC_number=6.1.1.21;note=WP_000027084.1 histidine--tRNA ligase (Bacillus) [pid:46.2%25%2C q_cov:96.6%25%2C s_cov:96.2%25%2C Eval:3.9e-105],MGA_168
sequence02	MetaGeneAnnotator	CDS	20923	21657	.	+	0	ID=MGA_169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFKSLIFILILTLFVTGCGSTIKEAKCESSAESIALNYLKTKYNIDANVISTNVKMKNQSTFWDGTHIGGEPSGEVTVYTEYDGKYIDVKVNCYDNTVLEDDLYSDFSLDDYSNCYMLDGIYFCDKVSRNLTPNIEVTSINYNGMNLDYEIEKNNSRQLLGTYQLEHTSNSSSYLIIFIPAYKLNTDMLSNTRILMDKYYEISGKSEIDEIQLDLTKDNNYYAGYYQFGSGVTTTTFTVIK;locus_tag=LOCUS_1680;note=MGA_169
sequence02	MetaGeneAnnotator	CDS	21962	22639	.	+	0	ID=MGA_170;product=tRNA threonylcarbamoyladenosine dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004454770.1;translation=MFDRLIGLIGQEKVDLIKSKKVLIVGVGGVGGIALETLIRNGIENIIVVDKDRIDKTNKNRQIIALDSTIDMYKAEAFKNRIVDINKNAKVTVINEFLDTSNIDEIFKLDFDYVIDTCDTVDTKILLIKYALKHSKRIISSMGMGNKLDITKVSIMPIKKTSYDPLAKVIRRKLREEGIEDNIMVVSSIEETKKSEKIYSYSPVTNYAGLLIADYIIKDIIKEDN;locus_tag=LOCUS_1690;note=WP_004454770.1 tRNA threonylcarbamoyladenosine dehydratase (Clostridioides difficile) [pid:40.5%25%2C q_cov:95.1%25%2C s_cov:94.5%25%2C Eval:6.2e-38],MGA_170
sequence02	MetaGeneAnnotator	CDS	22636	23862	.	-	0	ID=MGA_171;product=replication-associated recombination protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000812946.1;translation=MDKPLAIKLRPTKLNDIIGQDHLTSKDAPIYNLVHNGKVFSMILYGEPGTGKTSIANVIAENTKNKYRFLNAVTSNKKDIEVVVEEAKMYDGLILIMDEIHRLNKDKQDLLLPHLESGLIVLIGLTTSNPYFRINPAIRSRCQIFKLNTLKKEDIVKGLNKAVKSEYLKDIKIKKDAIEYIAELSSFDLRYAYNLLELCYYSTSDKNITIDVIKKINNKPVIISDSDESGHYDLLSAFQKSIRGSDVNAALYYLARLITIGDLDSIYRRMTVIAYEDIGLANPSIGPKVDAAINACERVGMPEGRIPLSVVITEMALSPKSNSAHVALDEALKDAESGLNYEIPDTIKITSTTYKYPHDYPGSYVKQQYMPKELEGRKYYKAKLTSKYEKSLNEIYQKIEKINKKEDN;locus_tag=LOCUS_1700;note=WP_000812946.1 replication-associated recombination protein A (Bacillus) [pid:50.2%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:2.9e-113],MGA_171
sequence02	MetaGeneAnnotator	CDS	23971	24849	.	+	0	ID=MGA_172;product=site-specific tyrosine recombinase XerD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000390080.1;translation=MDIEKEIYDYMNYLIIERQLSSNTIDAYKRDLYSFFNYVNKGYKSVNKNDVINYITSLDMNPKSINRHIVTLKNYFNFLEKNSMLSINPMEDIQGLKTKKSIPRVLSEEDIDKLLDIEPTNAFEFRNKAMLELMYSSGLRVSELLNLNVNDIDFDMNIVRIFGKGSKERIMPINEIATSYLYEYINVYRKTLLKNKINDILFLNSRGESLSRQGFFKILKEIARDKGITKEISPHTLRHSFATHLLNHGADLRSIQTMLGHENIETTQIYTHVSNNMVKEEYENAHPRSKKE;locus_tag=LOCUS_1710;gene=xerD;note=WP_000390080.1 site-specific tyrosine recombinase XerD (Bacillus) [pid:43.9%25%2C q_cov:98.3%25%2C s_cov:100.0%25%2C Eval:9.4e-70],MGA_172
sequence02	MetaGeneAnnotator	CDS	24853	26445	.	+	0	ID=MGA_173;product=phospho-sugar mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965634.1;translation=MYKENFEKWLEFISTEDKEIMLNMSEEEKKDCFEKTLSFGTAGIRGIMGIGTNRLNIYNIGMIMKGYASYLLNKSEKPTIVIGYDTRNNSYKFAMECALVLNYEGIKTYLFNDIASTPIVSYAVKHLNLDGGIVITSSHNEYIYNGLKIYNLFGGQLTTLESSEVSKYINDVTDYKSVKKAPQNNELFGYLDEIIYDEFDKENEKVFINKDLLEYAKDLKVTYTSLHGTGINVVPNILEKYNIKYNLVGEQCVIDSMFTYAPKPNPEIIDVWNLPIEYAKKNNSDVIIATDPDSDRIGIMYKEDNEYILLNGNMTGIIFLYYLINNTNYFKKYVVRSIVTTDLVNKICREHRIRVKEVLTGCKNIANLKITDSDNYLFGFEESLGYMFNIDVNDKNAFSSINMLLEILCYLKKNNMNLNDYINEIFTKYGYYLFKTIDIKPKDKDLFMDRLRSDNLIICEKKIDYLKEEENITNALKFIINDNEYFMMRPSGTENKIKVYYFVNDSTKELSENRLNNLINNTNNIFDKII;locus_tag=LOCUS_1720;note=WP_010965634.1 phospho-sugar mutase (Clostridium) [pid:37.8%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:4.6e-93],MGA_173
sequence02	MetaGeneAnnotator	CDS	26485	28005	.	+	0	ID=MGA_174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQFPKDRYHDMDKQRTLSLISTSDIDIPIERSDYSYFVANKTFLSLIRKFEDEVCDIYTECELKERFRKKLRLHILPNYSKESSHSENYCLVYSPKEIIDNIFDILDIDAKTLIGKHIDYNSSLEEYYEAEKHVKNVLSSVIGYLDTNKTMLEYEVSTVTSDSMYFQLQNRIDIIEEKLKFARMSLDGLDKIFTLYRDRRLTDVKYYDGKDSYIVWRNLAQYIAITSLRKYEKTGNLDYLEYPYKFYEKCSKPTPEGYQMKYVSSLLLEDDKLDSTFVRYNGLCGETFTKKPEIVEFLLNHKDNDKTKVFVTIKPSKEMLSSDDFGSYLELKTKDYFSRVGKLSVEDLNTQKQLISKIKFYAYNEDFNSHLKTRVFSSDNETGVVGFVLDNDYIVLEKFFDEDKNGYSIPSKDSAIYILPLDMYYYGFDCDSLKVRKHKRDYPEDIRIQRKYHKYGDLYQDAVLDIFKYGSISSLSADDFIKLRKQNLVSIVDSKNLKKKPNKKD;locus_tag=LOCUS_1730;note=MGA_174
sequence02	MetaGeneAnnotator	CDS	28075	28551	.	+	0	ID=MGA_175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLFRKSATITTSNNDKYVIESGRYFIMPKRSKNRRIKHKYGNAYTITKVESTDETLKPNDISFIGEIYSFENNRLRFLENTYKDVHAFDTELHDNGKELPITVIETYGDRTQTISSIGDIIKFDSDIKEQSYALDIKVLRLLLKAKKDKEGSKKDL;locus_tag=LOCUS_1740;note=MGA_175
sequence02	MetaGeneAnnotator	CDS	28617	29384	.	-	0	ID=MGA_176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRLNEILSEIGVSKVKLAKYLGVSRQMVYNYLEMDSVSDWPLEKKMKLFNLLNIKSQDEIDSIEVDSDFIKHANNLINDSTYFSTLQEKGRISFNDLNNNDQKLLNDIISLLKEKIDDDEINGRNMLRYLYYFLEVSDNNDTINYLLAYVAKTTGFINANEYVFNEDEQFAFESILYSAMVMYQSKSASRNKLIEVHKKFEDEIKEKHEEILSRTQELVSAQEQALKELGYSEITQENSTEVYEKMAEIQSRNI;locus_tag=LOCUS_1750;note=MGA_176
sequence02	MetaGeneAnnotator	CDS	29463	30569	.	-	0	ID=MGA_177;product=tRNA 2-thiouridine(34) synthase MnmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183311.1;translation=MKKVIVGISGGVDSIVAAYLLQKEGYDVEGLFMRNWDSSVNNDIKGNPSLNGDICTQEQDFNDAQDVCNKLGIKLHRIDFVKEYWDYVFTYFLDELKKGRTPNPDIMCNKYIKFDMFKKEADKLGADYIATGHYARMIDGHLYKGIDDNKDQSYFLSQVSIDKFSNVLFPVGDLKKEEVRKIAEELNLSVADKKDSTGICFIGERNFKEFLTNYLPNTPGDIIDIDTNEKVGEHIGLMYYTIGQRRGLDIGGNDKRLYVVGKNLDKNVLYVSLGDDTKYLQSTSCIVEDINYLSGKRPTSANAKFRYRQKDIPVTIEYLEDGNIEVFYDNVKSVTPGQACVIYDGDECIIGGIIKEVRKDGKKLEYLL;locus_tag=LOCUS_1760;gene=mnmA;EC_number=2.8.1.13;note=WP_011183311.1 tRNA 2-thiouridine(34) synthase MnmA (Mesoplasma florum) [pid:57.3%25%2C q_cov:95.9%25%2C s_cov:98.4%25%2C Eval:1.4e-116],MGA_177
sequence02	MetaGeneAnnotator	CDS	30614	31969	.	-	0	ID=MGA_178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINGQEIRINRKNAVISEVDTAYCELLQYILDNGVRTNNRTGIDTIAIANWQHIFDLSKGFPIMETKKVNAKNFASEIQWIHQVQSNEVQWLKDRDNPVWNQWVVDEDGIYRIYEQGENAIDDPDRKVICKKQEFDPKTGEIIKVPYLDENGSEILVKPFTEVDEKGKRLTIREAIYFGKEYAGTIGEAYGFINNLYKMPQCVEYRLKNNPTDRRMIINLWQNAHLPKAVLPSCVFLDIFKTTPDRKLHSNVTQRSADVPLGVPFNIPQYALIQCMFAKANGYEVGTMAWNIQDTHIYVNQLEGIKKQLQRYKYMRYYSDLIQKRSDEAIEKEYNILIDNYQKEIKQIKALFGEDIVEKKMVEQVKEIKKVTPDLAKEYEETFERKLSFEHMLTRETPVLELAEHDSFFDYSTDYVKKGDPYLEENPIGNKELVLKNYHPTPFISMPIAQ;locus_tag=LOCUS_1770;note=WP_000679609.1 thymidylate synthase (Bacillus) [pid:30.4%25%2C q_cov:65.6%25%2C s_cov:86.8%25%2C Eval:9.8e-33%2C partial hit],MGA_178
sequence02	MetaGeneAnnotator	CDS	31993	32676	.	-	0	ID=MGA_179;product=DNA repair protein RadC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003246034.1;translation=MNNILVKDIPILDRPRERLLKYGVINLSNEELLSIVLKNGTKNESVMSLSYNILKSINNITDLKNISINNLTKINGIGEVKAITLLAAIELGRRVYKENNSIKVLLNDSKLVYDYLKEDLINKKQEYFVALYLDNKKYLIEKKILFIGTINYSTVHPREIFKYAYLYSSSSIILVHNHPSGDTLPSKEDISLTNNLKEIGKLNGIPILDHIIMGNNNYFSFYKNNML;locus_tag=LOCUS_1780;gene=radC;note=WP_003246034.1 DNA repair protein RadC (Bacillus) [pid:46.4%25%2C q_cov:97.8%25%2C s_cov:96.1%25%2C Eval:1.0e-51],MGA_179
sequence02	MetaGeneAnnotator	CDS	32727	34433	.	-	0	ID=MGA_180;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966455.1;translation=MKLKNSYFFTIRENIKDEDSVSGNLLVRAGMLKKTSSGIYMFLPMGYKVLDNIQKIIREEMNNAGASELLMPALIQADYYAKSNRLDAFGKDMFRLNDRFDKNYCLGPTHEELFTIAAKAKVNSYTDLPFTLYQIQTKFRDEPRPRYGLIRVREFLMKDAYSFDKDEESLDKSYTAMFNAYKKIFGRLGIDYKIVRSDVGTMGGSLSEEFQAITDIGEDTLVLCDRCDFASNMDVCECIHVEDRSNETPLEKDLVLTKDATTREKLIECLPEAKTKEVKTLIYKTEEDKYYAVMLKEDSVVNESKLCKLLNTKSVELAEKEVVEKKLNTFIGFVGPIGLKVPVILDNEVTNMVNFVVGANKKDYHYKNVNLSDFEVAITGDIRNVKESDVCPKCEGKLTFKKGIEIGNTFKLGTKYSESLDLMYQDSENNLKPVVMGCYGIGVGRCLASIVEQRNDENGIIWPMNIAPYKVAIVVIDTLNVDQMDAANHLYQELTDLGIETILDDRDVRPGVKFNDMDLIGIPIRITIGKKIVDHIVEMKRRNSDEVKEVSIFDVVYNMQDIIEEENI;locus_tag=LOCUS_1790;EC_number=6.1.1.15;note=WP_010966455.1 proline--tRNA ligase (Clostridium) [pid:46.0%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:7.2e-148],MGA_180
sequence02	MetaGeneAnnotator	CDS	34503	36848	.	-	0	ID=MGA_181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYCTECGNKIKQNSNFCTNCGKEIKKNVVKTTKKEEPKVVEKKEINVNNLILYVGVSLVILATFIFAICTWENMTGLFKISFLTFESLLFFIISFTFAKIKNNGLSKAFYMMAVLMIPIILYTIPVYNLLGDYLSYKGAGIFVYLAISNAICAGIYLMSYFLLKFKPFAYISYLFIYAFLVNVFLAFEKSITFFLLASLVYVLLVIIINFINHKNNYFKKSITFFTSILFSAISLYLPIGILSEFQLSYTFNIYLILIVVLFFVNAFVFIYQNRKSFYTYFSPYVMVPVILAVLDVTIQNENLFAGLFVISIIAVYVLYLLFKNKYLKISFKIIAYTSLYIALLVAFVCVIDLNMYLMLAIISAGILVFNIINRFTEKFRLMSDILIPLSCLFMVIGLVNFLVDISGIFIMLLVSSIYLVVYMITRTVNSKVNKIYYGYTLGALILSMLMCVYGTSAIYVLFLNVLLILLFIFVSFMEKSIGINITTFIILAFSLLKINYILEIDIRIVFACISLIAISVGIIVKELSKGLSKFYLFFGQILALLLSIFISPYTQVIVILLIAILFMVNFTSICLYNNYKAFRIIAEVVGLILIYNIVNSFVNITLFSSIITLFIYMVILVILGLTGKEKGGTIIILSTACLIPYYDFVCNYYTGIGNQLVILPAIIYLFTLAFFFKMKYDTRMHVIIWPLILFSMIAINTTTIGIIVSLGLALTYVFIGLIKKYQYMITFGIIYIFVIIVFELFRLFNNLALIIAVLLIGLALIIYVVINEVYKSKKNK;locus_tag=LOCUS_1800;note=MGA_181
sequence02	MetaGeneAnnotator	CDS	36906	39437	.	-	0	ID=MGA_182;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000072244.1;translation=MLDKKYNHLEVEKDKYNLWKENGYFKADNESKKPAYCIVIPPPNVTGKLHIGHAYDTSIQDAIIRYKRMKGFDALWLPGMDHAAIATEAKVVKKLKDMGIDKYEFGRENFLEACWDWTHEYGDNIRNQWAGLGLSVDYSRERFTLDEDLNYAVRKVFVDYYNKGLIYKGEKIINWDPAAKTALSNEEVEYSEEKSAFYHLKYQLEGSDKYLDVATTRPETLFGDTAVAVNEKDERYKDFVGKNVILPIMNKPIPVITDEHADMEKGTGCVKITPAHDPNDFEVGNRHSLERIIIMNDDATMNENVPEKYQGMTREECREEVLKDLKEQGLLLEVEPLVHEVGHSQRTGVMVEPMVKKQWFVKMAPLAENVLKFQDDKDKKINFVPKRFEKILRHWMNISYDWCISRQLWWGHRIPAWYKGDEIYVGMEAPEGEEWIQDEDVLDTWFSSALWPFSTLGWPNNTKDLERYFPTDCLVTGYDIIFFWVARMAFQSEYLTGYRPFKDCVIHGLIRDEHGTKMSKSLGNTVDPFEMIDKYGADSLRYYLTTEGSMGLDLNFSEIKLTATWNFINKVWNASRFVLMNIEDLKEIKLDNLSSIDKWILTKYENTLKSVTKHMDKYEFNLAGTEIYEFTWNYFCDYYIEMAKYSIDNESTKSTLCYILTGIMKMLHPFMPFVTEEIYQMIPVKDTESIMISSYPEYDKKLLFNDEELMVDDQIDFMKKFRNIKQENNMTKDLKILFEDSIYNDLVIKVLRLNENLINEPLNIKSYPVNSNNIKATIYFEKEETSEDIENKQKQIEDLKASIERREKLLSNENYINKAPANIVEMDRIKLQEEKNKLEELLK;locus_tag=LOCUS_1810;gene=valS;EC_number=6.1.1.9;note=WP_000072244.1 valine--tRNA ligase (Bacillus cereus) [pid:52.2%25%2C q_cov:98.1%25%2C s_cov:96.7%25%2C Eval:4.8e-263],MGA_182
sequence02	MetaGeneAnnotator	CDS	39452	40369	.	-	0	ID=MGA_183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIENIIQKHGYNEELSNFIRSVYPLLVKYYNNEEIVYESLMSTPIKLTNNVYDCLIDNGFLRDTPTNNEMVSLETLKFCSGAYHCEPVIKYDKARDKYELENTNRIIAINASSLELDTVKATLIHEICHLIKSYNGEHTIREDTLIEKSGFISKTFQLNEVNGVVKRTVCFETGVGLEEGFNAVAEEQITSELIGKPFTTKGYQLMRSLANNVLSYNIPNLHEVLKEAEIYHDNTRVDAILGETYYKLLAFGDKLYPMLVDLLNPSNNLVKMKEISSNINSVIDAEYEPIRKELETIGNKSIGY;locus_tag=LOCUS_1820;note=MGA_183
sequence02	MetaGeneAnnotator	CDS	40369	41076	.	-	0	ID=MGA_184;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065531.1;translation=MKEDLKIFNEYYEKYNNSEYGTYMKYDHTFKVIDYAKEIAKSLNLSEEDIDLASRCALWHDIARFNQWKEYKTFNDYHSFDHGKEGTIILKELGIKNDIIEKSTYYHNKYKIDDSLDDRTKLFCNITRDADKIAIIVDHKIECSDKELILTDDIINCFKEHKQLKNEYVIENSTFHCLLRLIAFIFDLNFQKSFKIIKEQDLINKKFDLVLNKFDDERVKELRDICNEYVNEGCI;locus_tag=LOCUS_1830;note=WP_048065531.1 HD domain-containing protein (Methanosarcina acetivorans) [pid:30.1%25%2C q_cov:97.9%25%2C s_cov:94.5%25%2C Eval:2.0e-18],MGA_184
sequence02	MetaGeneAnnotator	CDS	41335	43254	.	-	0	ID=MGA_185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKIKNSINLTKASLYLEKINTGTVKQKDNAYEKLKKIPLTEDIALRIIENASYKYDKVYESMNINSMILLLLFNDYRKEYSEPLMENYDNYDKETQLDLLSYLANANNIDATILWKYLIINKFEPEDNKLPIGTLSNNKDNYDVLYPDLYDAFKSDNKKYSLIILLNNFINLGIVPIDDLKKHKKDLIKHISMPIEELLKFKFMPGEDIMLNKEYLGLRYVVESTLNIEFYCNNPKTKTYLEKLFKHKDNQLKLFVLESYIKKKKSIKKLNLNPIAKDLRSRSLLYNLLIYYNKSDVMPKKYKDEISIAESDFYNMYSSIYNYEREPKSIKFYKQIDRNGNPYYLFKFKAKKEYNEIVRDFATDYLLKNNGLDKYITDVYEDNLGIIGGRTNDDPLISYSDITKYYDVFNKQKSLNCLIDEFFRKEEVVVPEIKSEPEEKVIKHPILRKIFNITNLYILQLVVILLLVVILVLYVKGYNIFNIKMGMYKQTYITYKKTNINKLEDFNEINGHDIYKIDDGIYYVLIFKKKDESEYYTFFKTLIENEYKVYYIDMSKEENQFLLGPNETGHIIKSNRFVKVNDRDFEYYIDGKENILKELKDETNEVIKNNTLKKIEEENEKLLEEEKQKEVENASNE;locus_tag=LOCUS_1840;note=MGA_185
sequence02	MetaGeneAnnotator	CDS	43332	43580	.	-	0	ID=MGA_186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLNEHIGETVTCTYTISSEVDTIIGMLKAATDSTVLIKNICLPLNGEHIKVNKIASISGVTYYDRYLDSKPLKKTYLKNK;locus_tag=LOCUS_1850;note=MGA_186
sequence02	MetaGeneAnnotator	CDS	43583	45886	.	-	0	ID=MGA_187;product=endopeptidase La;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229618.1;translation=MIKTKLPVIILRNMVLLPLGELKLEIENEEDKNIIYNAVNKHNGYCLLVTPKYITNENLNTNELPNIGIIGKITSNIVLPNEHIRINIRGINRAHIFEYIQKEDILDAIIGPVKIEEIKEEENDASLRVIKREFANYVNVMPNISNMIVSKINEEQSLEKITDIIVNILPLNFQNKYQFLMTTNPIIRGNYLIDLLVKEEKVERLEKNIDEDLQKELDKTQKEFILREKLNVIKKELGEKDSKEEDIDLIREKISKLEAPSNIIDRLTKEVNRFETIPFTSPEYTITKNYIDTLMSIPFGVYTKDEESLDKIKKVLDDNHNGLENIKERILEYISVKKLTNSLTSPIICLVGPPGTGKTSLAYSIAKALNRNFVKISVGGVSDENEIIGHRKTYVGAMPGRIISSIIKAKSMNPLFLIDEIDKMGKGIQGDPAAAMLEVLDKEQNKTFSDNYIEEGIDLSNVMFVLTANNIEEIPYALQDRLEIIELSSYTEFEKIDIVKNHLFSILLEEHGLTNDITISDSAIKYLISNYTKEAGVRELRRVLSTILRKLAKEQVNNKKKVNITSKEIKKYLGKEKFTEVNNDEHDPGVVNGLGYTPFGGVLLSIETSFYDGTGKIILTGSLGDVMKESANVALGYVKCNYKEFKINKTLLEKNDLHINALEGATKKDGPSAGVTLTTAIISSLTGIKVSHKIAMTGEITLKGKVLKIGGLKEKVIGAYNQGVNTIFIPKTNENDLEEIPNEIKKKVKFILVDNYKEIYDNIFKGE;locus_tag=LOCUS_1860;gene=lon;EC_number=3.4.21.53;note=WP_003229618.1 endopeptidase La (Bacillus) [pid:43.8%25%2C q_cov:99.9%25%2C s_cov:99.2%25%2C Eval:3.0e-184],MGA_187
sequence02	MetaGeneAnnotator	CDS	45975	46730	.	-	0	ID=MGA_188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLVKKIIIIVGALLVVGLGILLIIKLTSPKDKGKEDKKQESKILYTFTDPLNNKINIVYKEILDEKYMGVDLSRFDDKEDELRKEIKEYVYKDSDVKTLNLSEDYNEAYDKLLRKIRGRNGSGFSLEGVKNAIVKEGITSEAAEYVVNNANIDYNDQALMVVYKRLETGHSKESIKNKLIDELFTEEEIEYAMNEIKDVDFYEQALADACYYRFYKKYDKAQAARYLRLEKFTEEENEYAVNIVYEKIK;locus_tag=LOCUS_1870;note=MGA_188
sequence02	MetaGeneAnnotator	CDS	46779	48023	.	-	0	ID=MGA_189;product=trigger factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229611.1;translation=MAKNIHEIEVEIKGKKWEDAIDAAFNTAKLKVNIPGFRKGKVTKEVFIKKYGVESLYYDAINDLLQTEYPKVLKDNKLEPIINPNIDVLEVCDHCCKIKFTITTRPEVKIKKYKDLKVKKDAVKVTNEEIDEEVKNLQARMADIVIKEGKIENGDIAIIDFEGFKDGVAFEGGKGENYSLTIGSNSFIPGFEEGLVGLKSGDEKDLELTFPENYHAEELKGQKVVFKVKVHEVKTKKLPELNEDFFLDLGMEGVKDEKSLKEVIKDQITARKDYEADNKYIDALLEEISKNTEVEIPDELVEEEIDKMVEEYSRNLQMQGMSLDAFYKYTNSTEEQLREQMRNDATIRVKYRFMLEEIVKLEDIKVSAKEVKEEMEKAAKAYNIPVEEFEHHVASKDMIEYELQMRKAIEVIKD;locus_tag=LOCUS_1880;gene=tig;EC_number=5.2.1.8;note=WP_003229611.1 trigger factor (Bacillus) [pid:42.9%25%2C q_cov:97.8%25%2C s_cov:95.8%25%2C Eval:1.7e-92],MGA_189
sequence02	MetaGeneAnnotator	CDS	48033	48503	.	-	0	ID=MGA_190;product=transcription elongation factor GreA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011475971.1;translation=MNEKKEIFLTKEGLNELQEELKDLKDNKRPEVIIQIKEARAQGDLSENAEYHAAKDKQGQIEARIKELEYLIDNATIISSTKSNSIKIGSTVEIEYVDDKEKDTYQIVGSTEADPFENKISNESPIAVAIMGKKVGDTVSIESPNGNYDVKIISIK;locus_tag=LOCUS_1890;gene=greA;note=WP_011475971.1 transcription elongation factor GreA (Ligilactobacillus salivarius) [pid:49.7%25%2C q_cov:98.1%25%2C s_cov:98.7%25%2C Eval:2.2e-35],MGA_190
sequence02	MetaGeneAnnotator	CDS	48630	51065	.	-	0	ID=MGA_191;product=ABC transporter ATP-binding protein/permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948591.1;translation=MIKLVNVNKYFNRFKSNQIHVINNTNLELPETGLVALLGESGCGKTTLLNAIGGLDKINSGSIYINGKKMPRGTTYTKDKLRTLNIGYIFQNFNLLDNMTVFDNIAISLKMIGIKNKKEIENRVYYVLEKTNMYRFRNRLCSDLSGGQRQRVAIARALVKNPSVIIADEPTGNLDSKNTIEVMNIIKNISNSKLVILVTHEKDIAYFYASRIIKLEDGKIISNEENTNNDQLDLRMDNRIYLKDYKIQDKIQKNGYNFNIYSNSEINIDLDIAIKNGNIYIKSSNRNVEVVDESSNIEFINDNYKAITKEDYEKNNFDLSMLDNSKSKIRYSSIYNLFSGLKLGFSKVKSYSVLKKILLIGFVFSIMFIFYALSNIFGILDIKDSQFVEYNKNYYSISSSKKNLDLYNKLISLESVDYVLPGDSTIYFSIESDLYQFKYQGTSYASSMASINMLKEKDIIAGRLPENNSEVVIDKFLYEKFKDNMTSPLNQFNILKYEDFVNQKIKIGNDIYTVSGVVDLSSPSLYISNSEFIKVLYTNKNMNDYYGEVDYTTTNSYKNYETANLNIKKGRLPQNDYEVVINYSNYNEYDNTYKLDKEINAKINDRKLVLVGFYESNRNESTYYVNENMINVLNISKYKNFTVYPKDEKAFINEIKDMEIKYKNTYEESKEKYKTQQLKQTRSSIIIACVLLGISFLEIYLMIRSSFMSRIKEVGTMRAIGVKKTDIYKMFSNEIVAITIISSIPGIWLMYNILKTLADLEFFKNNYMLNYRVAILSVLVFLIFNLIVGLLPVRNTIKKSPANILARNDVD;locus_tag=LOCUS_1900;note=WP_011948591.1 ABC transporter ATP-binding protein/permease (Clostridium botulinum) [pid:26.0%25%2C q_cov:98.8%25%2C s_cov:99.1%25%2C Eval:2.2e-55],MGA_191
sequence02	MetaGeneAnnotator	CDS	51065	53305	.	-	0	ID=MGA_192;product=ABC transporter ATP-binding protein/permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002360456.1;translation=MSLLKLINVSKFYHNKKNVSTGFNKVNLSLDQGEFVVITGESGSGKSTLLNVISGLDSYEEGELYINGEETSHYTEKDYEDYRRKYIGNIFQNFNLVNSYTVYQNIELVLLLNGEKKRNIKKKVLEVIELVKLTKFKNTKASKLSGGQKQRVAIARALVKNTPIIVADEPTGNIDIASAKEITKLLYEISKNKLVVVVTHNYEQFSEYATRQIIMHDGRIMLDKKLKETEEVIDEPPKYKNITLLNKLRIAFRNVFNIKIKFFLLILVYFILTVSVFSNYTSLNMATYNNQMFKTSYVFNDSSEKRIIINKKDKSPFSEEEIEEMKKISNVKEVVKDDILIDSISILECASAKIWDSVITNNIANVKKVKYGRLPNEEDTSNVAIIKIIGTVSKNEAEKYLNNTFSYTTNNGEVVTRDLKIIGIIEEKDNAELIYNNTLYVSNDILSSARTDINLFYSDIEVTLNNKIYSSYDSSLYFNIKPHDAVSPGNAIVSEDFNMYCKDYNCLKKNIGINIKNNYYATGKELYIIDNFKEKTINKKLGFTKEQYYEYNNTIFMNPDEYKQLFNENTYQMSIYVNDERKIDNVTKELDKYNVNIYKMVDMTSNIFGSILGFVTLFGKIRFIVSIIVLFFICYFIIKIILKSRNTYFSTIRTLGGNKKVLNDLLNIELLVDINIAYILFTTILILIRHKIILKVSYLYQLSTFFELKDYIIIYIVLIVMSILIANRYSNKLFGGSVMSNYRENE;locus_tag=LOCUS_1910;note=WP_002360456.1 ABC transporter ATP-binding protein/permease (Enterococcus) [pid:26.5%25%2C q_cov:89.8%25%2C s_cov:90.4%25%2C Eval:2.5e-50],MGA_192
sequence02	MetaGeneAnnotator	CDS	53362	54558	.	-	0	ID=MGA_193;product=U32 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229802.1;translation=MIKPELLAPAGDLERLKWAIDYGADAVYLGGKEYSLRSNAKNFSLSEIKKGVEYAHKRGKKVYVTVNILFHQKDIKGLIKYLKKLEEYKVDAIISSDLFIIDLLKKEKINIDYHLSTQKSCINSEASKFYLENNVKRIVLGRECSLDDIKSIKKNTNADIEVFIHGAMCMGYSGRCALSNYLTNRDSNRGACAQICRWVFDLYDEDNKISDETKFSFSPKDQQLLVHIKDLMKAGVNSFKIEGRMKSIYYLATILSVYRRVIDEIYDGKYKYNKNDDIILRRCANRESLPQYINRFPSINEQYYIGREEKTNQDFLGVVLSYDKKNKEIVLEERNYFSIGDKINIFGPNNRNISIEVKYIKNKDGELVEYANHPREILRIPCEIEVYKNDLIRVDFIN;locus_tag=LOCUS_1920;note=WP_003229802.1 U32 family peptidase (Bacillus) [pid:42.9%25%2C q_cov:98.2%25%2C s_cov:94.5%25%2C Eval:5.5e-93],MGA_193
sequence02	MetaGeneAnnotator	CDS	54551	55375	.	-	0	ID=MGA_194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYYITNPDNIDRYIDLNVSGFIYGIEKFSSEFNSYLSLDKISLICNKVKNNNKDIIIFLNRLYFEHELKDLKKVLVKLSKLDVIIGFTDDAVLNILNDIGFKGQKLLISNHTGTNSYTLDFYLNRGVKNAYICTELTLNEINDIKNNTKSNIFVKGYGHLNMATSSRKLLTNYFKFIGKKKSKKVYTFKDFITSKEFKIVEDFNTNFYTGDIFNIIEYLPKLDNLNIILDNYLIDNDVFYNEVSNFLNNNVTKDNYIGFLDKETVYRVTDYD;locus_tag=LOCUS_1930;note=MGA_194
sequence02	MetaGeneAnnotator	CDS	55368	55967	.	-	0	ID=MGA_195;product=O-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000389090.1;translation=MYKDIIKQMEKYAEEENIPIMEKRGIDFLCKFIEKNNIKSILELGTAIGYSSIRMALVSDDIKITSVERNQDRYMMALKNIKACDLDKRITLICGDALDIDITEKYDLIFIDAAKAQNINFFNKYKNNLNKYGVIVTDNISFHGFVESKEEIENKNLRGLVMKIRDYIEFLKNHDEYETKFYKVGDGIAITYKKDEINE;locus_tag=LOCUS_1940;note=WP_000389090.1 O-methyltransferase (Bacillus) [pid:45.4%25%2C q_cov:95.5%25%2C s_cov:91.1%25%2C Eval:5.9e-44],MGA_195
sequence02	MetaGeneAnnotator	CDS	55972	56226	.	-	0	ID=MGA_196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDVITFMNNNGELVNARILYAYEKTGGKIGIVYTDDTKLKNGSIKTYATVFNPKNNKLEKITKKEEWEFISKLLESLDKKGK;locus_tag=LOCUS_1950;note=MGA_196
sequence02	MetaGeneAnnotator	CDS	56234	56653	.	-	0	ID=MGA_197;product=Holliday junction resolvase RuvX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229795.1;translation=MRYLGLDLGTKTLGIAKSDAMGIIASSYKLLKFENEDYNSLIEPLKEIIINEKIDKIVLGLPKNMDNSMGFASERSLNFKKLIEDNINIEVILQDERLSSVEANNLMISNGTRRDKRKEKVDSLAATIILQRYLDQRKD;locus_tag=LOCUS_1960;gene=ruvX;EC_number=3.1.21.10;note=WP_003229795.1 Holliday junction resolvase RuvX (Bacillus) [pid:44.4%25%2C q_cov:97.1%25%2C s_cov:97.8%25%2C Eval:3.4e-25],MGA_197
sequence02	MetaGeneAnnotator	CDS	56653	56898	.	-	0	ID=MGA_198;product=IreB family regulatory phosphoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003564007.1;translation=MTEETNVFDPKDVNNSLVKDTLEDVKEALEERGYNSVNQLVGYLISGDPGYISNYKESRQKITKIDRTDIIECLLRYYLNK;locus_tag=LOCUS_1970;note=WP_003564007.1 IreB family regulatory phosphoprotein (Lacticaseibacillus) [pid:54.4%25%2C q_cov:97.5%25%2C s_cov:91.9%25%2C Eval:7.3e-17],MGA_198
sequence02	MetaGeneAnnotator	CDS	56967	58073	.	-	0	ID=MGA_199;product=endolytic transglycosylase MltG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000572132.1;translation=MKKRFLLPLITIIIVGALVAGCYYMTTPVQGETEEVEFKVSEGEGARTIVKNLKKAGLIRNEYFALIYVKLNNTEKHPIVFKKGEYILDKSVSLKDIIGDLNDPTAAIDKDSIRIRFADAGTFEDVAQVIATKKNMDVNDVIAKLDDATFVTSMVNKYTIVTNDVFKEGIRHHLEGYLLGDTYDFRKDATVEEIAEKLISTLNDKMLEMYKKNNFTWTNYHDVITLASIVEHEGPGKGTSNYEKELQGVAQVFLNRMNVGMTLGSDVTTYYSAHKKIGTDTLYASDFKICDGYNTRGSCVKALPVGPISSCSIDSIEAVVKGLVTPLDEYKDYYYFVADKNTNIHFSKTDADQQKVIKDLKNKGLWLE;locus_tag=LOCUS_1980;gene=mltG;note=WP_000572132.1 endolytic transglycosylase MltG (Bacillus cereus) [pid:28.0%25%2C q_cov:94.6%25%2C s_cov:88.5%25%2C Eval:9.8e-33],MGA_199
sequence02	MetaGeneAnnotator	CDS	58086	59819	.	-	0	ID=MGA_200;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002679355.1;translation=MNLKKLYIDFFISKGHKQIPSAPLVPENDPSVLFNTAGMQPLIPYLMGQTHPYGTKLCDYQKCLRTNDLDNIGDSYHHTFFEMLGNWSLGDYFKEESISWSYEFLTKVLNIPNERLAVTVYAGSDGIPFDKEAYDLWIKMGIPEERIAKTVDDNFWIAGETGPCGPDTEIFYFRSDEEIPKEFDPEDNRWVEIWNNVFMQYEKHEDGTFTELPKKNVDTGMGVERTTAILEGKTDNYTSSIFMPYINILENLSNKSYNDYSKEMRIIADHIRSSVFIIADPSKIVPSNTDQGYILRRLIRRIIRYIRKLDIDINTNWEESLIDLVIDNYKEFYSELDNRDYILEVFRNEKTKFNRTLEKGLKEFEKISNTDIDGEHAFHLYDTYGFPIELTIELANEKGIKVDEKGFEEFFKKHQELSRSASAGKFKGGLASSGEMETKYHTATHLLNAALKITVNPDSHQRGSNITSERMRFDFNCDHKLTDEEIKNTEDLVNKWINEGLTVTKTEMPKLEAVEKGAECMFIEKYPDIVTVYSIGDVSIEICGGPHVSNTNELGHFKIVKEEASSAGIRRIKAILE;locus_tag=LOCUS_1990;EC_number=6.1.1.7;note=WP_002679355.1 alanine--tRNA ligase (Treponema denticola) [pid:50.8%25%2C q_cov:99.7%25%2C s_cov:98.3%25%2C Eval:1.2e-158],MGA_200
sequence02	MetaGeneAnnotator	CDS	59816	60457	.	-	0	ID=MGA_201;product=(d)CMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000361264.1;translation=MIIAIDGPAGSGKGTISKILAERLGYVYIDTGSMYRSLTYLVLRDNIDIDNEKAIYEAFSNCKMEITKDCRNLLDGEDISDRIRTQEINTNISKISGYPSIRELMRLKQREFANDHSIVMEGRDITTEVFPDADYKFYLDASIEERTKRRVKQNEEKGLESDYNEIYESIKNRDLADMSREYGALKRTDDQIYIDSSNMTIEEVVLYMLEVIK;locus_tag=LOCUS_2000;gene=cmk;EC_number=2.7.4.25;note=WP_000361264.1 (d)CMP kinase (Bacillus) [pid:41.8%25%2C q_cov:98.6%25%2C s_cov:94.7%25%2C Eval:3.2e-46],MGA_201
sequence02	MetaGeneAnnotator	CDS	60662	61786	.	-	0	ID=MGA_202;product=AI-2E family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003643221.1;translation=MKKIVEKNDELKFYGIKVLKVLLFLLFVIAIYSIILINKQLRLTNILITILSVISPLFIGVLIAYLLNPLITSMSKSKMNRFVATAIVYLIILGILYLSCSYLFPSLGKELSELFKYIPNVLNNISKVASGLFKKLNLSEEVSKSIVSSIKDFSTGYMLKLTKEVPEHAITIATSIVTKIGTILISLIISFYLLIDFDKATENIYVFVPRRYRENVHKLLSTISEQLFSFVKGTGLIAILVFIVSCVAFMVSGLKGAVFFALWNAITNIIPYIGPWIGGIPIVVFAFSTDFRLGIIVLIIVIIIQILESYILHPIVMSKTMKLHPVTIIIGLLIFGHFFGIIGMLLATPITAILKTIALYLNEKYKLIDRLKIK;locus_tag=LOCUS_2010;note=WP_003643221.1 AI-2E family transporter (Lactiplantibacillus) [pid:24.0%25%2C q_cov:83.7%25%2C s_cov:80.6%25%2C Eval:9.7e-28],MGA_202
sequence02	MetaGeneAnnotator	CDS	61833	62444	.	-	0	ID=MGA_203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIEEYKKKKEELLYKLSNGLVSCENDCIKPEWCSECMGGCCKSFPCTFSPEDFIDITNINYMKKLLETGVIVIAPLNIMHDLYCIRVKGEKDLDSVVTGYTQKLNSCLLYTEKGCMLEYVFRPSEGLLLVPGSESVYNPCDQLYDMEDLKKDWSHYQKELKRLMVECKNMIISSEDISQNQVDCYKKLFLNPNVNKNKKGAK;locus_tag=LOCUS_2020;note=MGA_203
sequence02	MetaGeneAnnotator	CDS	62496	62687	.	-	0	ID=MGA_204;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001984764.1;translation=MAVPFRKVSKTSGRMRRTHYKLEATSTVKCPNCGAAIKAHRACKECGYYNGKEVVKKSEKETK;locus_tag=LOCUS_2030;gene=rpmF;note=WP_001984764.1 50S ribosomal protein L32 (Bacillus) [pid:60.8%25%2C q_cov:81.0%25%2C s_cov:89.5%25%2C Eval:1.9e-12],MGA_204
sequence02	MetaGeneAnnotator	CDS	62703	63146	.	-	0	ID=MGA_205;product=DUF177 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003702323.1;translation=MNISLIKLFSHSTDRIDINEEINIPSEYYTFDIEEISPVMLNGYLYLNEIDELSINLNVKCNLKLKSSINLDVIDYPIDIDITELDFDDENNNKITNSIDLLPIIWQNILLEIPIRVSNSSDSIDEKYIAKKEFDERLSKLKDFLDE;locus_tag=LOCUS_2040;note=WP_003702323.1 DUF177 domain-containing protein (Ligilactobacillus salivarius) [pid:25.6%25%2C q_cov:93.2%25%2C s_cov:90.1%25%2C Eval:6.3e-07],MGA_205
sequence02	MetaGeneAnnotator	CDS	63186	66287	.	-	0	ID=MGA_206;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004454939.1;translation=MEFKKLDKRENYVKEAEQVEKWKKQNILELTTKHREGKEDFVFYDGPIYANAKPGIHHVLAKTIKDSFCKYKIMKGYRVLRKIGLDTHGLPIEVNVEKKLGFKSKADIEKFGVENFCVECNKATATNIDEINKVTDMMGQFIDCENPYITCTNDYIESEWYIIKQMHEKGLLYHGNKVLWYCPRCGTELSANEVSQGYEETSVNTVIVPLKKTDEDVYFLAWTTTPWTLMANVAICVNPELTYIKAESMGYKFIVAEPLANKVLGDEYKVLETYKGKDLVGLKYEPLMTFATYEGKCHEVIADNYVTAEDGTGIVHIAPAYGEDDNRVCKENGIGFTNPVSLDGTYNCGPWEGRLVTDPELEIDIIKWLKDNDKLFKKIKITHDYPHCWRCHSPLISYPKPAWYVKTTALKDKIIAANKKINWFPDYVGEKRFNNWLENMVDWGISRNRYWGCPLPVWTNEETGEIYVVGSKEELKKLNATKIDIDKLEFHRPYIDEVKIKSPVTGDILTRVTDVLDVWFDSGAMPYCQFHYPFENKELFENQFPADFIAEGVDQTRGWFYVLLVISVIISGESSFKNVVVNDMVLDAKGKKMSKSTGNVVDPVEELKKYGADEVRWYMLYASPVWIPLKYDSEGIKEAHSKFFNPLKNTYSFFETYANIDKIDINECNVAYEDREEIDKWLLSKYNKLVRDVTNAYESYDLNIVTKLITNFVSEDLSNWYIRRNRDRFWGSAIDNSKKAVYITTYEVLVGLCKLIAPVAPFTSEEIYNNLGFETSVHLEDFPETNEDYINDEIEEKMDLVRDLISLGRNAREEAKIKVRQPISKIVLDGNKEEILGDLKLLIKEELNVKEIEFTKELDKYMTFEIKPNFKVCGKEFGPSIKELQDKLLNLSDEDKSKVVNNETITLNIAGEDKDITPEMVDVRINAKEGFDAAFMNNNFVIIDTVLTDELINEGIVRELISKVQNLRKEKDFNVVDRIKLIYSGDIAYIIDNYKEIIMKETLANEIEVNDKLTKEYDLNGKIVKLDVKKIDF;locus_tag=LOCUS_2050;gene=ileS;EC_number=6.1.1.5;note=WP_004454939.1 isoleucine--tRNA ligase (Clostridioides difficile) [pid:49.8%25%2C q_cov:99.6%25%2C s_cov:99.7%25%2C Eval:6.3e-313],MGA_206
sequence02	MetaGeneAnnotator	CDS	66511	66861	.	-	0	ID=MGA_207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIKKSLFGYNTDDVNKFIDDIIENVEKIIKSNKEKEEKIKRLEKELSDIKNNPSKNIVKSEEELSKTLSNGILLTKNTKETIDKVEKERISVIKEKLINNINEQIRLLEELDKK;locus_tag=LOCUS_2060;note=MGA_207
sequence02	MetaGeneAnnotator	CDS	66919	67320	.	-	0	ID=MGA_208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIFDKLIGEKPENVDNVEDAFYINTVEEAYKDKNAEGNKMILLEPRAYSESQQIADHLKKRNTVVVNLKRVTSEQAKRIIDFLSGTLYAIGGKMQKLGPGIFLCTPKNINVQGTMTEEEAKKTKSKEDEDEE;locus_tag=LOCUS_2070;note=WP_003244791.1 cell division protein SepF (Bacillus) [pid:61.2%25%2C q_cov:60.2%25%2C s_cov:53.0%25%2C Eval:1.3e-24%2C partial hit],MGA_208
sequence02	MetaGeneAnnotator	CDS	67409	68782	.	-	0	ID=MGA_209;product=glycine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048370.1;translation=MKEVTMEKIVNMCKQYGFVFPGSDIYDGFANTWDFGPVGVELKNNVKKAWWKRFVQEDKSTYGVDAGILMNPRVWEASGHVASFSDPKMDCKKCKQRFRADNMIEEFSKGEVAAEGMTNEEMEKYIEDNNIKCPHCGSHEWSEIKQFKLMFETSRGTVEGAKDTVYLRPETCQGEYVNFLNVQRTTRAKIPFAIAQIGKSFRNEITPGNFLFRTIEFEQMELQMFCKDSDSMNIYNNYKERALNFVNDIGLPSDKLRFHDHDKLAHYAKAACDIQYKFPIGWEELNGIHHRGTWDLSRHSEFSGKSLEYLDPETNEKYIPTVIEYSIGADRLTLALLCEAFEEQELENGETREVMHFNPAIAPYKCAILPLIKKNHTDKATEVYNMLSKYFMCTYDDSGSIGKRYRRNDAIGTPYSITIDDETVNNNTVTIRDRDTMEQITLPLDEVVNYINEKILF;locus_tag=LOCUS_2080;EC_number=6.1.1.14;note=WP_012048370.1 glycine--tRNA ligase (Clostridium botulinum) [pid:56.6%25%2C q_cov:99.1%25%2C s_cov:98.9%25%2C Eval:1.4e-156],MGA_209
sequence02	MetaGeneAnnotator	CDS	68952	69689	.	-	0	ID=MGA_210;product=DNA repair protein RecO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002986719.1;translation=MEITKVRGIIASEKPYNESSKLLYVITKEYGYISLIAKGAKSLKSKLRSVTTKLSYCDFQINYKEGKLSTLIDADIVDPFNNIKSDLVKISYASYLVELSTQVMKENYNENIFDLLILSLEKIESGLDSKSITNILELKYLSYLGISPELNECAICQSKNILTLSSEKGGFICNKHHTNEKIVDPKTLKMIRMLYYVDLDKLSKIDISDKIGREIDEFITEYYDRYSGMYLNTKMFLNKIKNVYI;locus_tag=LOCUS_2090;gene=recO;note=WP_002986719.1 DNA repair protein RecO (Streptococcus pyogenes) [pid:27.8%25%2C q_cov:98.0%25%2C s_cov:96.8%25%2C Eval:2.8e-26],MGA_210
sequence02	MetaGeneAnnotator	CDS	69691	70575	.	-	0	ID=MGA_211;product=GTPase Era;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001080241.1;translation=MKVGFVSIVGRPNVGKSTLTNALIGLKVAITSDKPQTTRNNIRGIYNDEDSQIVFLDTPGIHKPKSKLGKILNKSSYSSLDEADLVLFMVNAKEKLGSGDEFVLEKIKEANKKVFLIINKVDLIKKEDLIGIINEYNELYKFDEIIPVSALKEKNIEELIKTIKEYLPEGERIYDEDEYVDKSTRFLVGELIREKVLRKTNEEVPHAVTVVVENYEENKTSVHINALVIVERESLKKILVGHNGSMIKDIGIDARKDIENLVNKRVYLDLLVKTVNNWRDRDKYLTEFGLKEEE;locus_tag=LOCUS_2100;gene=era;note=WP_001080241.1 GTPase Era (Bacillus) [pid:51.7%25%2C q_cov:99.7%25%2C s_cov:97.7%25%2C Eval:1.1e-86],MGA_211
sequence02	MetaGeneAnnotator	CDS	70577	71020	.	-	0	ID=MGA_212;product=rRNA maturation RNase YbeY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001831142.1;translation=MITITNLTNEEIKELNTLEKLSKYLPKYLKEKNISYDVIIVDEDKIKELNKNYRGKDSITDVISFALEDNESIEMPERCLGEIYICLNRAKEQANEYGHSLKRELCFLLTHGFLHLNGYDHMNIEDEEVMFSLQDEILNSFGVTRED;locus_tag=LOCUS_2110;gene=ybeY;note=WP_001831142.1 rRNA maturation RNase YbeY (Staphylococcus) [pid:48.4%25%2C q_cov:98.6%25%2C s_cov:99.4%25%2C Eval:2.8e-31],MGA_212
sequence02	MetaGeneAnnotator	CDS	71017	71631	.	-	0	ID=MGA_213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQDTLLSAIKANYPMMIIFTIVIISIRLAYLIVNRKEFVFYKELFLFAFIVYSLCLFYVVTFEDNNYGTNNFIPFREITRYQVFSSYFIHNVVGNILLFVPFGYFVSTILKSKKPFAIIIISIIASLTIEITQYLIGRTFDIDDIILNLGGCILGYLIFLVVYILEHKFAIFQKNYIKNILVIVFIIILGILYFKTSLWGILR;locus_tag=LOCUS_2120;note=WP_010964147.1 VanZ family protein (Clostridium) [pid:30.4%25%2C q_cov:80.4%25%2C s_cov:57.5%25%2C Eval:2.6e-13%2C partial hit],MGA_213
sequence02	MetaGeneAnnotator	CDS	71692	71886	.	-	0	ID=MGA_214;product=30S ribosomal protein S21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003129844.1;translation=MTKVVVKNGNVDGALKKFKQKVAKSGLPSEFKKREHYSKPGIQRREAKKAGIKNSRKRQARERD;locus_tag=LOCUS_2130;gene=rpsU;note=WP_003129844.1 30S ribosomal protein S21 (Lactococcus) [pid:42.1%25%2C q_cov:87.5%25%2C s_cov:98.3%25%2C Eval:5.4e-07],MGA_214
sequence02	MetaGeneAnnotator	CDS	71945	73240	.	-	0	ID=MGA_215;product=tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase MtaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003230017.1;translation=MKAAFYTLGCKVNSYETEVNIEMFKNNGYEIVPFNEKADVYVINTCSVTNTADSKSRKMIREAVKRGENAIVIVMGCYSQIKYLEVSKIPGVSIVIGTNNKSKILDLIEEYKTNKKQIVRVFDLKDIKFEDMNLDKFENHTRAFVKIQDGCNNYCTYCIIPYSRGNVRSKPKNLVIKEITTLAYNGYKEVVLTGIHTGHYGKDLDNYDFSDLLSEIEKIDGLERIRISSIEIVELDDKFMNVLKNSKKIVNHIHIPLQSGSNTILKAMNRRYNMDEFINKINEIRSIRPGIAITTDVIVGFPGETDELFNETVESIKKIGFTELHVFPYSPREGTPAAKMDNQVPEQIKKERVKTLIELSNKLKYSYYSSLVGSEEYLLTETIIDNYIYGHLTNYGFARIKLDGNSTNEIYKVKLISYNNEYFEVEKIKKC;locus_tag=LOCUS_2140;gene=mtaB;note=WP_003230017.1 tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase MtaB (Bacillus) [pid:46.2%25%2C q_cov:98.8%25%2C s_cov:96.0%25%2C Eval:1.8e-108],MGA_215
sequence02	MetaGeneAnnotator	CDS	73288	73821	.	-	0	ID=MGA_216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRELFKYFLIALFIIILVLYAFNALENYFIKSVDVINENLDAKEIVFFVETIEDNEIRGKYLTNDGTIYTYNYVSYGDKTYDEKLDDIKNSTSNKIEKITKKDKGYLNMFIGNLKDKYYRRTVKTERPSKYLYYVNYEKEELMPLLSSGKDVIKNRGMSSSRIISILKKYSIRVD;locus_tag=LOCUS_2150;note=MGA_216
sequence02	MetaGeneAnnotator	CDS	73844	74497	.	-	0	ID=MGA_217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIIYMYSNLDRSNKLLIIIILVIIALLIIIGLYNLVMNIISKIKAKKHYRKIDKEINEEFIKQEKEEVKKVDPVIEKTETKEEIIENYNTSVKEEMEEIETLDESVSDIDEILVEMMNIGSQEEFDLTDFEREQEENAIISYGELCKKAGVQQVVYPKKEVNKEIEKKIEEKVYNNGKFRPSTFVSPIYGVEKEEKEEDTENEFLGRLKEFRSGL;locus_tag=LOCUS_2160;note=MGA_217
sequence02	MetaGeneAnnotator	CDS	74638	75642	.	+	0	ID=MGA_218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNENFSDDFFEANNDNIFNEESVEIKEDKKVSLSILDNYSDELTAKTYVTNPAISREEQLKSMILILLSPEKSVVLTGPAGVGKTSLVEGLALKIQNNEVPNVLQNFKIYKINTSSLLGNYEHDGVVESKLQLLINEVIDRKNTILFIDEVHTLVTAARNGGGVDFLNMLKPCLDRGDLKIIGATTTKEYEEFLLKDKAFIRRFEKVELPEPDEETTIKIVMGTKKKIELSTGVIFPYSDYLLEQIAKFIVNITSKYKRRAETGSNYPDIALSLFSSCFTYARFDNAKQVNFKYIYDAIKNTRLIYPDVVQKALPEFKNTFKDWIEKEGTELE;locus_tag=LOCUS_2170;note=WP_010881091.1 ATP-dependent Clp protease ATP-binding subunit (Aquifex aeolicus) [pid:44.0%25%2C q_cov:61.7%25%2C s_cov:20.5%25%2C Eval:3.6e-39%2C partial hit],MGA_218
sequence02	MetaGeneAnnotator	CDS	75667	76797	.	-	0	ID=MGA_219;product=chaperone protein DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000043938.1;translation=MAKRDYYDVLGVDRSASEAEIKSAFRKKAKEYHPDLNKAPDAAEKFKEVQEAYDVLSNESKRKTYDQFGHAAFDQQTGSGFGGNYQGGFNSSSFGFDDIDLGDIFSNMFGQGFGFGGRKSNKPSKGKDILYRTTIDLEDVIFGGEQDIRIEMYDICDECKGKGGDKPKTCPECGGSGRVTKVQNTMFGAIQTTVTCDECSGTGKTFEHKCTSCKGTGSVWTKKTISVNIPKGVDTGSRVRIKGKGEPGKNGGENGDIYVEFVVREHDIYKRDGNDLYMEVPITIADAALGSDIDVEIPGSVISLTIPEGTQNGDKLRVKGKGIPYISSSKVGDLYIIVNVVVPTKLNRKQKELFKELSNTELDNDGIIKKFLKMFK;locus_tag=LOCUS_2180;gene=dnaJ;note=WP_000043938.1 chaperone protein DnaJ (Bacillus) [pid:44.1%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:4.0e-90],MGA_219
sequence02	MetaGeneAnnotator	CDS	76797	78590	.	-	0	ID=MGA_220;product=oligoendopeptidase F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009967010.1;translation=MKRTEIDNKYKWDLTTIYNTEEDFLVELNNIKNKISNISKYEELIKKDLSCLFDMIYTYYDIVYFINKLFLYAHLLFDTDTKNEKYQEYVGKVSNLDEDFSKLSSYMIPALLKYDYSDILNQINNDNRLKEYAFTLEKIFREKEHVLSEKEEKLISNLGKAFDSSSDLFEIITDSDLKYGTIKDENGNDIELNDSNYNLYMASSDRRVRKDAYNCLYSMYKQFKNTLSKTLSNHIEAYNTISKVRNYNSALEASLFEDNISKDVFDTLIDTVSNNLEPLYKYYRLRKKVLNVDTLEFYDLHAPIVKEFNKEYTFEEAKEIVLNALSPLGEEYISIAKDGFNNRWFDVYYTEGKRSGGYSTGIKGTLPFILINYEGKLNDVSTVAHELGHSMHSYYSNKNCTFQDSFYTIYCGEVTSTVNELLLANYIINNSNDDNEKLYVLNHLLDVYKSTLFRQTMFQEFEKNIYELSSKGEILNSDLLSNEYSKVCKKYFGDTINYNDNYSYEYARVPHFYCNFYVFTYATGIIYATKIVNDILNNKEESKEKYIEFLKTGGSMYPEDELKVAGIDVHDKDVYLSAINYYSKLVDEFEKLIEKVK;locus_tag=LOCUS_2190;gene=pepF;note=WP_009967010.1 oligoendopeptidase F (Bacillus subtilis) [pid:39.6%25%2C q_cov:99.7%25%2C s_cov:88.8%25%2C Eval:1.9e-135],MGA_220
sequence02	MetaGeneAnnotator	misc_feature	78642	79192	.	-	.	ID=MGA_221;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011837493.1:molecular chaperone DnaK,WP_011837493.1 molecular chaperone DnaK (Streptococcus sanguinis) [pid:50.3%25%2C q_cov:100.0%25%2C s_cov:30.4%25%2C Eval:1.1e-43%2C partial hit],MGA_221;locus_tag=LOCUS_2200
sequence03	MetaGeneAnnotator	CDS	89	934	.	+	0	ID=MGA_222;product=ribosome biogenesis GTPase YlqF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000236706.1;translation=MNEKTNINWFPGHMAKTRREIGEKLDLIDVVFEVVDARIPFSSKIKDIDDLIKDKPKIIIMSKKDLCDESKTSKWVKYYEEKGYKVLMFDLMKDNINKLYTVTDELLNDLNQKRLEKGLKVRKYRALVMGIPNVGKSTLINKLTGRRSAGVGNKPGVTKVISWIRINDKLELLDTPGILWPKIDDKGVAYKLASFSAIKDEILPKDEVACFIIEYMFNNYRSALEERYGVTNIDDYSDVYDVIGRRRGCVIRGNEVDYDKVSNLVIKDLQEGYLGRVTFDE;locus_tag=LOCUS_2210;gene=ylqF;note=WP_000236706.1 ribosome biogenesis GTPase YlqF (Bacillus thuringiensis) [pid:42.4%25%2C q_cov:97.5%25%2C s_cov:93.2%25%2C Eval:1.7e-65],MGA_222
sequence03	MetaGeneAnnotator	CDS	927	1556	.	+	0	ID=MGA_223;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001194268.1;translation=MNEYENKYYKQGYKVIAGTDEAGRGPLVGPVVAACVVLPKGYTNPEINDSKKLTEKKREKLYDVIMKDALAVEVCEISAKEIDEINILEASRKAMKTAYEKVNKKIKVDVLLTDAMKIPLDIPVEDIIKGDAKSITIAAASIVAKVTRDRILFELDKKYPEYEFAKHKGYPTKKHLEIIEKYGILNEYRRTYKPVKNIIDKGIINSDRQ;locus_tag=LOCUS_2220;EC_number=3.1.26.4;note=WP_001194268.1 ribonuclease HII (Bacillus cereus) [pid:53.2%25%2C q_cov:96.2%25%2C s_cov:77.4%25%2C Eval:2.7e-53],MGA_223
sequence03	MetaGeneAnnotator	CDS	1579	3600	.	+	0	ID=MGA_224;product=type I DNA topoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011836973.1;translation=MNLVIVESPAKSKTIEKYLGSDFKVVSSKGHIRDLATKGKFGLGVDVDNDFAPTYIPIKGKNKDIAMLKKEVKASDKIYLATDPDREGEAISWHLKDALDIKEDKYERIVFNEITKDAILNSFDKARKIDDLMVRSQETRRILDRIIGFRLSKLMQSKTGGKSAGRVQSVALKLICDREEEIKNFISEEYWTIDALFPDFKASLFKYKNDKIEIKNEIEANKIKDALSNTYEIEGIEEKDKKKQSKPPYITSTLQQDAINKLNFSSKKTMQIAQKLYEGVNIGSETVGLITYMRTDSIRLSNEFISATYKYIEENFGKEYVGSVKVSKKTDNVQDAHEAIRPSSILREPDKIKEYLSTDEYKLYSLIYNRALASLMKEAKQKVTTLTLNNNDYKFKATGTVTVFDGYLKVYNDEEKEEKLPDFKSYKSSVLVTDKLDLKQHFTEPPARYTEAKLIKEMEDLGIGRPSTYAQTMSTLTQRGYAKLIEKKFHPTEIGIETNNKLQEFFSNLINVKYTAQMETDLDEIADGKIIWNELLKEFYKEFEPMVEEAFDKMEKKEPEKTGEKCPECGNDLVIRKGKFGEFVSCAGYPECKYIKKEQKAPAIEVCDCIKCGHKIVERKTKKGTTFYGCSNFPKCKEAYWDKPVGRNCPECNSMLVEKDNEIKCSGCDYKEV;locus_tag=LOCUS_2230;gene=topA;EC_number=5.6.2.1;note=WP_011836973.1 type I DNA topoisomerase (Streptococcus sanguinis) [pid:45.9%25%2C q_cov:99.7%25%2C s_cov:97.1%25%2C Eval:6.0e-173],MGA_224
sequence03	MetaGeneAnnotator	CDS	3674	3859	.	+	0	ID=MGA_225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYMATKKTTTKKPATKKATTKKVAAKKTTSKKWNESTISTFILAFFLIAIIVLLAMYIFFN;locus_tag=LOCUS_2240;note=MGA_225
sequence03	MetaGeneAnnotator	CDS	4101	4391	.	+	0	ID=MGA_226;product=DUF1653 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861742.1;translation=MERTFKRGDIVKHFKRETLSEEELKDNPNKYLYEIIGTSRHTETKEELMIYKPLYETECTEGVDYAARPLEMFMSEVDHNKYPNIKQKYRFEKEGE;locus_tag=LOCUS_2250;note=WP_011861742.1 DUF1653 domain-containing protein (Clostridioides difficile) [pid:33.3%25%2C q_cov:96.9%25%2C s_cov:98.4%25%2C Eval:3.7e-08],MGA_226
sequence03	MetaGeneAnnotator	CDS	4393	5682	.	+	0	ID=MGA_227;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948259.1;translation=MIDIKLIRENKDLVKENIKKKFQDQKLPLVDEVYELDIKVREVQTKADNLKAEKNKLSSEIGKLMSQGLKDEAEKIKSEVSKSNEEIASLEVEQESLTKQIKEIMMKIPNIIADDVPIGEDDSKNVEEQRFGEAKVPTFEIPYHSDIMATFNGLDKDAAGRVSGNGFYYLMGDIARLHSAVLAYARDFMINKGFTYCIPPYMIRSDAVDGVMSFTEKENMMYKIEGEDLYLIGTSEHSMIAKFKDQILKEEDLPITMTSYSPCFRKEVGAHGIEERGVYRIHQFEKQEMIVVCKPEDSEDWYNKMWNYSVELFRTLDIPVRKLVCCSGDLADLKYRSCDIEAWSPRQQSYFEVCSCSNLTDAQARRLGIRYKDSNGNKVFAHTLNNTVIAPPRMLIAFLENNLQEDGTVLIPEVLRPYMGGTEKLIPKK;locus_tag=LOCUS_2260;gene=serS;EC_number=6.1.1.11;note=WP_011948259.1 serine--tRNA ligase (Clostridium botulinum) [pid:68.6%25%2C q_cov:98.1%25%2C s_cov:98.8%25%2C Eval:2.3e-169],MGA_227
sequence03	MetaGeneAnnotator	CDS	5728	6774	.	+	0	ID=MGA_228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLTKEEQKLLDKASSYKSIVKKYEYIYDTVCDYLDSKYIGCNYCDFKDDVCKYFRKTDKNHKMGCCYSDKRGGLCPNLKKDGSCNIKSISCKLYACPMLRNEKLYFKINDIPLLKYNFNLKQKYYIKQSFFKTKEETLIKLYENKNIYEVIDNNLEIFVTENNKKKIFRKLKNIVKYCDKHNYTITINSFLDNIMNRELHIIEKGINIKDKKKRYSFVYDEVCKILDEKISMNYCEFKNNTCYRDRQKNNGHKNGCCECEGRGKCKFLINGNCTMKSCIACKLFTCSALRKKGINEKASKYLPLKVFFTSKQIDILSYSYWVPKDVVIKRLLDNKFVMPKNYDDEFK;locus_tag=LOCUS_2270;note=MGA_228
sequence03	MetaGeneAnnotator	CDS	6809	8233	.	+	0	ID=MGA_229;product=tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244831.1;translation=MKKSLPDYKEARRRTKEEVKVLTDAYIIDNELSKLGINMKYHIVTYGCQANVRDSETISAIMEDMSFTRVDDMKDADVVIFNTCAIRENAHNKVFGNLGIIKNLKEKKNVITMFCGCMAQEESVIKMLTEKYKWIDVIFGTHNIHNLPKLLSEAMDKNEQVVEVFSKEGDIVENLPVRRDNKYKAFVNIMYGCDKFCTYCIVPYTRGKQRSRRIEDILKEVNALIADGYKEVTLIGQNVNAYGKDMENYPTMANLLEEVAKTGIERIRFVTSHPWDFTDEMIDVIAKYDNIMPYFHLPVQAGSNRILKLMGRRYTKESYLELFNKIKEKVPNASITTDIIVGFPGETNEEFEETLDIVNTCKYDGAFTFIYSPRENTPAAAMEDNISLKEKEDRLQELNKLVNKYYKENNEKLLGRVVPVLIEGPSEKNDNLFSGYTDTMKLVNVECDPSDIGTIINVEITEAKTWSLDGKKVK;locus_tag=LOCUS_2280;gene=miaB;EC_number=2.8.4.3;note=WP_003244831.1 tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB (Bacillus) [pid:54.3%25%2C q_cov:98.7%25%2C s_cov:92.1%25%2C Eval:6.4e-147],MGA_229
sequence03	MetaGeneAnnotator	CDS	8214	8543	.	+	0	ID=MGA_230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKLSNLDSSIKALKDEIFSSKEYKEYSKSKEVLDNNKEIKDIIKRITSTQKKIVSGKSNLDEELDTLYEKLYSYQEYNEYIEASTKLNILISDTAKELENYFNSLMK;locus_tag=LOCUS_2290;note=MGA_230
sequence03	MetaGeneAnnotator	CDS	8648	9367	.	+	0	ID=MGA_231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVYIDSLKDSEKQITSLEAQKRELEERLHRLTEKTSTGDSMYVGNDLDVHGGNTGEKYKGSIEEIKELNNKISAIQREIEGIRFNASKVANEAVQNDIEEKEYQEQKELRDEEIARMREVERINTFKSIKRAYYKTKGHGLERVFIAISGRTPKWKEIKNYSQEELNYLRKTYSGNLLGAFKTSLDSTVKRMESKKESIEKIEKYKSDKAWRTFTSLLGSKQRLDSAVAYETNSGRHI;locus_tag=LOCUS_2300;note=MGA_231
sequence03	MetaGeneAnnotator	CDS	9379	9660	.	+	0	ID=MGA_232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYNEIINEYKSFSTEEKRKLLSDEVAELVLIIKKLKEDTNLSDEDPNNDILKKLYSSDSSEDEYLVGMYENILKLKEDLGGYLTLVVENIYE;locus_tag=LOCUS_2310;note=MGA_232
sequence03	MetaGeneAnnotator	CDS	9675	10685	.	-	0	ID=MGA_233;product=DUF368 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865064.1;translation=MKLFKKIDEDIKEGRVGKKKKHLSKAKKQKIRLKKKEEKLLKKENKVINEKRFDLSPLFGGIFVGIANIIPGVSGGTMLVIFNLFDKLMFAISDIFKRKTDTRKKSLLFVLEVIIGAGIGIVGFAKLLGITLTYLEAETIFWFMGLILFSIPVVIKNEMEDERFNIIFFVIGLLIIGVLQYFNMKNPINNVDTTINLKNGLMLSGLGIIGGISMIFPGLSGSMVMLVLGKYETIRSLIDNLTTFKMNVIIQLAIFGIGALIGIIIAAKVLSKLLKKYKGKIMSLILGFITASALILPLNLSHRIHWTTPKTCSILIAFIFGGIVIYYINKLKNRNS;locus_tag=LOCUS_2320;note=WP_010865064.1 DUF368 domain-containing protein (Thermotoga) [pid:26.6%25%2C q_cov:81.2%25%2C s_cov:95.5%25%2C Eval:6.6e-25],MGA_233
sequence03	MetaGeneAnnotator	CDS	10704	11354	.	-	0	ID=MGA_234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEVIEFIKQNKEFYPEYFINNRLEKCNYGYTCDVDQIYCYLNKVNIKTTIYNTFYNITKKYFDLKNKRILEVGCGKIPILSGLFKDNNINIDAIDSNILINNYKDITTIKYDLQKEYDISKYDLIIGLRPCNITENIIDMCFKYKKDFIIYLCPCIHKSKNNNIFNTYEEWISYLKDKISNNKEYSFEFIYSNNLPDNCPIIIGKYNGNIFNKVI;locus_tag=LOCUS_2330;note=MGA_234
sequence03	MetaGeneAnnotator	CDS	11640	12668	.	+	0	ID=MGA_235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIINSLKPFYVDKENKLIRMGNFKDTAKEIEFEDDSLIILFNNVLNPISKEDLINKTMKDTGLSKEDINGAIEYLLEEKFIINYDDYEKLLNSDLNRQNMYFSMCSDEFKEWNIDIQPRILVLGLGGVGSNVSLLLSRAGFKRFTFVDCDVVEKSNLIRQLPYSYSDIGKNKTDVLSKLLSNEENTIDTYNKKILNESDIEDKIVNSDFVICTLDKPSRIIRRIINKLCIKHNKPVIFSGFSEHVAMIGPFIEPNKTACLMCIEKHMNEEPMNNVINTPSYGPLCMLISSIVSNEIINYYYKFNSNNLLGKTMMINMLTYEQSIINWNKKEDCEVCHNDSK;locus_tag=LOCUS_2340;note=WP_011260915.1 HesA/MoeB/ThiF family protein (Aliivibrio fischeri) [pid:27.5%25%2C q_cov:50.3%25%2C s_cov:62.8%25%2C Eval:1.1e-09%2C partial hit],MGA_235
sequence03	MetaGeneAnnotator	CDS	12655	14262	.	+	0	ID=MGA_236;product=ABC-F family ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460094.1;translation=MIVNNLKKQMGNKEVLNGVSFTLSDTEKIGLVGINGSGKSTLLKVLSGEIKMDSGDIKLGSQTVSYLKQEIPFEYNEYTIIDYIKAATGFDKLEERLHQLENNLNDENMNEYSDVLEAFLAIDGYSFEDNLKNILSGLNLNEELDSKIGTLSGGEKIKVLLAVVLLENADILLLDEPTNNLDLEAIKWLEKELKSSDKKMIIVSHDEVFLNNIVNKIYELSNGIIKEYNLSYKDYLKQKDIEYNQLKEKYESAQEQKDKLKKQVQKAKEWANKGTNKKAHNDNDKLANNYAKERTNSGNVSRLSRELESIEIPKFEEKRPIKVFFNFENSKGNKDILLSHLVCGYDSFTTPEINLLIPFGTRLNVTGGNGSGKTTLIKTILGQIDPLSGEVRIGNDARIGYISQNTLDSQTSDSIYTYLTKEKEDVDKSYIFVLLDKFNIGYDDKDKAYSSLSPGERTRVNLAKLALDNINVIVLDEVTNHLDKEALDLIYELVRDYEGTIISISHNRKYNEQLDANVELDVKTGIVIQKSLTKK;locus_tag=LOCUS_2350;note=WP_011460094.1 ABC-F family ATP-binding cassette domain-containing protein (Desulfitobacterium hafniense) [pid:34.4%25%2C q_cov:95.7%25%2C s_cov:80.0%25%2C Eval:8.1e-77],MGA_236
sequence03	MetaGeneAnnotator	CDS	14310	14738	.	+	0	ID=MGA_237;product=large-conductance mechanosensitive channel protein MscL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003701438.1;translation=MKNEKIKNVAGKSKGFIGEFKAFVLRGNVMDMAIGVIIGGAFATIVTALTDDFINPLINSIGGAELKGQIKIWGGQYLNWGHFVTAVINFLIMAFILFLMLKGVNKLMEVGKKKKEEEAAAPIKTDETILLEEIRDILKKNK;locus_tag=LOCUS_2360;gene=mscL;note=WP_003701438.1 large-conductance mechanosensitive channel protein MscL (Ligilactobacillus) [pid:46.3%25%2C q_cov:85.9%25%2C s_cov:95.2%25%2C Eval:1.2e-20],MGA_237
sequence03	Aragorn:1.2.38	tRNA	14808	14884	.	+	.	ID=Aragorn_8;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0080;note=Aragorn_8
sequence03	MetaGeneAnnotator	CDS	14956	15384	.	+	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIINIIDEYVELKYQYDFNKFFVELYNERPDLEIIKKQAKESQTKMDEIKPELDKRYEEYESEIKLLSKEGLSSLCEQLTTKWHNLCERRNFLDDKSVKLYEQGQDLDQKENFELQKIGVTIHTYSSFIFDINQMIGFGTK;locus_tag=LOCUS_2370;note=MGA_238
sequence03	MetaGeneAnnotator	CDS	15439	16245	.	+	0	ID=MGA_239;product=metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000037684.1;translation=MIYIIIIASILVILALIYIYYENFRVKETKYNIKSDKVNGKFKIIQISDFHNERNKWLHKQLINTIKKEKPNIIVITGDLIDTYKNESVKVLLEEITPYASIYYVSGNHEYEHGGYNRLKKILLKHKVNILENDCINLDNNITLYGIMDPKFAEKEDEYKVIKGCLDNFKIKSNRYNILLSHRPEHFELYTEYSFNLVFTGHAHGGQFIFPILGPLFAPHQGVLPKYAKDNHKKRNTNMIVSRGVGNSLFARIRINNRPELIIVSLSK;locus_tag=LOCUS_2380;note=WP_000037684.1 metallophosphoesterase (Bacillus cereus) [pid:42.7%25%2C q_cov:93.7%25%2C s_cov:93.2%25%2C Eval:1.8e-48],MGA_239
sequence03	MetaGeneAnnotator	CDS	16290	18485	.	+	0	ID=MGA_240;product=ABC transporter ATP-binding protein/permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948591.1;translation=MLELKNICKSYNNDGNHQVVLKNINLKLSDKGIVSIVGKSGSGKTTLLNIIGSLDKSDFGEIIVDNKNIREFSEEEYDSYRNKYIGFIFQNYNLLDHRSALDNIKLKLIISSEDESKITSLSEDSLKKVGLYDYKDKLTCNLSGGEKQRVAIARVIASNSKIILCDEPTGALDNKTSTEILNILKELSKDRLIIMVTHNMEIAKKYSNRIITMQDGEIINDTLNKEIVSSNEELKLSKTKLDIKTIFDLALNNLKIKKKRNILLSLTASIGIIGISIILSISNGFNDSLNDYKKYISNKIPIVISSYKNNKDNKKYINSKVIRINKEDNSNYINNNFITHYKNINKEYISYSKYYYLIKLNLIQYSDKYYEVDDSIFKTMPTNNIRDSYDVLEGRLPSKYNELLLEINSDNSFSKEISKALNINDNDSLDSVIGRDIKLVLNDNYYIKVDDYYNKREINKEVYDNKNNISLKIVGIIKVRKDKKEEVTSNNVIYYKDSLVDYIINKNKTSNIVNDQKNKNYNLLTRESLIDNDKNDLLCLLGKEKCISSIFIYPSSYESKDKIINSINKYNNDYISNKVSIIDESKIMYDMSIKIIDIITIVLICFSSISLIVSSIMIGIITYISVLERKKEIGILRSMGSSKKDIKFLFIMENVLLGFSSGIVGIFISIMSSPIINTIFKRLLETESIFLMKFSNNIMLILLSISLSVLGAYIPSKKASDENIITSLESI;locus_tag=LOCUS_2390;note=WP_011948591.1 ABC transporter ATP-binding protein/permease (Clostridium botulinum) [pid:31.7%25%2C q_cov:99.9%25%2C s_cov:99.9%25%2C Eval:8.8e-109],MGA_240
sequence03	MetaGeneAnnotator	CDS	18548	19600	.	+	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKITKVSFLPDSNEIEAILDNILYNVADYMNASNDTALFGELNQRFIRETGLIKSKSDKFYLINGIHRVFKRFKSKISMKEKLFQRMSNIETVEKILERSTFKVGNFEWKVVVHGADDYHERDLLANCLSDYDTFLNALDAGVIEIINTINIHDEIKMDTSELNSTILEGLEEKKFSFYRNPIILKYNDEELSSLIKGYKEVTSEDSDYAYDHNNPDGLNNIYNYFIIEYLQELRDIAFRLYCIYSNFLISGISILNMDDEGEEIFHKLYHFINLEDLEESIDKKDDYLKQYDNLSHFYKMYIHNLKIALLDALNKCNCKDSDTSKRVNTDPDYSELTLKLIYSLKNNKN;locus_tag=LOCUS_2400;note=MGA_241
sequence03	MetaGeneAnnotator	CDS	19641	20189	.	+	0	ID=MGA_242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMYNDFADILEYADKHGLDIEAAFYSKYASETKEKRIELLKEFSTIFDELRSEIKKEGLTPTPKLLIARARKFILKEDIIQVDKEGNEKKVGEMKFETDRLPHGEFGGITLEDHNNDLLYGDKKPKTDTFGGIVIPEEKPKEDTFGGIVIPKEDSDSKTLLFGDPDDPRNKKSDDQGGGPKF;locus_tag=LOCUS_2410;note=MGA_242
sequence03	MetaGeneAnnotator	CDS	20218	21408	.	-	0	ID=MGA_243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRIILLMGVFLLCACSYDKYEMPKDAYINTNEVEAKVYSSESKIYDLIGDNNVEILTKNKKLDTSETGEKEIEISYKYGKRDYRYKLKYKVIDDESPIIISSYASIVHVLGDDFDLCDDINYIDNYDRSPWCEVIGEYDIHTAKDYPLKYKISDKSGNFVEEDVTLKMVTEKPKSNSSSPSKKTNISFKEELKKHKNENTMVGIDVSRWQEDIDFNKVKEAGCEFVIMRIGINSDIDKDISKDVYYDKYIKSAKEAGLKVGVYVFTSAINEDMAKEHAEETIKYLDNVELDFPVAYDFENWSKIRSYGINTYDLEKSLNMFAKTLKDAGYDTMLYSSKWYLEHIWINEKNYPVWLAHYTSETNYAGEYILWQRTNIGKIDGIGADVDIDIYYIK;locus_tag=LOCUS_2420;note=WP_001297420.1 glycoside hydrolase family 25 protein (Enterobacteriaceae) [pid:24.9%25%2C q_cov:48.7%25%2C s_cov:69.9%25%2C Eval:1.4e-08%2C partial hit],MGA_243
sequence03	MetaGeneAnnotator	CDS	21472	22647	.	+	0	ID=MGA_244;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048436.1;translation=MKRIIIIGAGASGLMCAINSKTNLNEVIVLEKNSTPGKKILMSGNGRCNFYNDDQSINRYHSNSSKINKIFNDTSRVLDYFNSIGIKYTTKNGYYYPYSNKSETISNVLINEANKKGVNIICDYEVNTISKEGNEFIINNDLRCDVLVLSTGSMSGINYDIFYGYDFLDSFNLEIVRPLPSLTKLICEGSFFNKWNGIRTKAIVSSFDNDTLLKEEEGEILLTDYGISGICVFNISRDIVKLLDDGKTPKVKINFMEDFSIEDLFNNNDLTIKETLDRVLDEKLVDVILNKYHIPKDKKYDDLNNEEKNNVRHGLYAFELNVIDYKDFKSSQVTQGGLSLDEVNDNFETIKVPNLYVIGELLDIDGDCGGYNLTSAFLTALKASDKIKDLK;locus_tag=LOCUS_2430;note=WP_012048436.1 NAD(P)/FAD-dependent oxidoreductase (Clostridium botulinum) [pid:33.0%25%2C q_cov:98.0%25%2C s_cov:99.0%25%2C Eval:6.7e-51],MGA_244
sequence03	MetaGeneAnnotator	CDS	22644	24227	.	+	0	ID=MGA_245;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048336.1;translation=MIRVCQIKVSILNDLEDTLINKLTKILRVNKEDIISYEIDKKSIDSRDKNNIIYVYNLDVNVKNEDIVLSRIDDNNVRKVNETKYEFKVTGEEIISSRPVIVGAGPAGLTLGYILSKYGYKPIIIEKGKRVEERKEDVYRFWEEEILDETSNVQFGEGGAGTFSDGKLNTLVKDKYGRNKYVFDLLVKMGAPKEIIYDSKPHVGTDNLEKVVINFRNEIISNGGEFLYSTSLEDITVDNNKLTKIITNKGEIVTNYLFLCIGNSARDTFKMLYENGLDMRSKPFAVGIRIIHDKEYIDKINHGKYFDKLPASTYKLTYNNDDRAVYSFCMCPGGYVVNASSEKEKLVVNGMSNYLRDSKSSNSAIVVSVTPNDYGHDLFDGVNFQRELENKAYNLCNGRIPLQRYIDFKNNKPSEVIGSITPETKGKYSLSNVRSIFPSFIVDSLIEGIDSFDNKIEGFNMDDALICGVETRTSSPITILRDESFESNIKGIYPVGEGAGYSGGITTSMMDALKVAEGFASRYKGGE;locus_tag=LOCUS_2440;note=WP_012048336.1 FAD-dependent oxidoreductase (Clostridium botulinum) [pid:47.0%25%2C q_cov:99.1%25%2C s_cov:98.9%25%2C Eval:8.9e-129],MGA_245
sequence03	MetaGeneAnnotator	CDS	24227	24979	.	+	0	ID=MGA_246;product=exodeoxyribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903557.1;translation=MKIVSWNVAGFRAVLKKGFDEFFDNTNADVYCIQESKVLEDQFDYRKDGYEMILNPAEKKGYSGTLVFTRVKPLSVTFGIGIEEHDHEGRVITMEFDKYYLVNVYVPNVKRDLSRLDYRMVWEDDFKSYLKSLEETKPVIVCGDFNVAHTEQDIKNAKANIGNAGFTYEERGKFTDLLASGFVDIFRELYPDKVQYSWWSYMGSARANNIGWRIDYFITSKSNLKNIKDIKILDTVMGSDHCPLLLETKN;locus_tag=LOCUS_2450;note=WP_005903557.1 exodeoxyribonuclease III (Fusobacterium nucleatum) [pid:61.1%25%2C q_cov:98.4%25%2C s_cov:97.6%25%2C Eval:4.1e-89],MGA_246
sequence03	MetaGeneAnnotator	CDS	24993	25607	.	-	0	ID=MGA_247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNREAEEHSRLHLLERHSISEIQYKNAKLKKQYSEKLRMTHDKPRIDVGLNGEEVYYIYFEDALGNLLITLYSNGIKPTTIPLERISEYGQSVANYLNSHGIKTYTVESIIQIASFIHDDKEKRFTDNTEYRWKIQDFEKAKEIKININGELDISELKREFRNNMPIKMKEAFMDEEINEKAVKEFKQDKHCLTLKPNKKNEQ;locus_tag=LOCUS_2460;note=MGA_247
sequence03	MetaGeneAnnotator	CDS	25600	26373	.	-	0	ID=MGA_248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDILMNFNPEDIEKWNNWKWKSRLIKKEGLKSGRLLFYDNDLLAKLRNIYSEGIPASITLLCNYLTNGKCFESAFLLSRVFLNDNDTKDVNLVQAQVDSIKLNPVYKLKFGNDNCDYSRHTVVERILNDGRVLIYDTTAGFAIDYDLWEELENPTVVNVKGKKWIEDVVKKEEMECPEFFKPFPIAAAITIPEIESYYDDPDEEFAGETGWLQHEVELFKKLINYEEFCKQHEEEIKIKRLQMKEKIEEKEDEENV;locus_tag=LOCUS_2470;note=MGA_248
sequence03	MetaGeneAnnotator	CDS	26442	27122	.	-	0	ID=MGA_249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKQFKNWKDYKKYKNQHDIFGMYLGYISTYDDELIERLRNIYYGGIPASVCLLSHDFASRKPAQMTKLLSRAFLDDENTRDVRILTVVNNSSMNSPKANNYSVLERTTINGITLIYDTTAGLVYDKDAYLRLEEPIVVKEEEKDSIEKTIEEDKEKHPTDYDINPCALTIVLPMIEDAYNNTNERYSQNDSKLLQREVKLCKDKMKKSIKQRRLIPKTKKETEQK;locus_tag=LOCUS_2480;note=MGA_249
sequence03	Aragorn:1.2.38	tRNA	27223	27309	.	-	.	ID=Aragorn_9;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0090;note=Aragorn_9
sequence03	MetaGeneAnnotator	CDS	27363	27536	.	-	0	ID=MGA_250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEKTYERKCTKVINQINDLIIELNKLQDKEEHGLVLASKTKKLRKKQRRLRSLAEK;locus_tag=LOCUS_2490;note=MGA_250
sequence03	MetaGeneAnnotator	CDS	27633	29249	.	+	0	ID=MGA_251;product=putative manganese-dependent inorganic diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003434813.1;translation=MDKVYIFGHQRPDTDSVTSAISLAYLKTKLGLNAEARVLGDINEETKFALDYFHVEVPKYLNDVRLQIKDVTYHKGLLINYKATIRETYNYILDNNVTGVPVVDDEGICLGIITVKDIAKNLILGDFTELDSTYDNILKTINGEVITKFNEEIDGTVIVASYKSETFFNDIKLTSDDVVIAGDRPQIHKHAINNRVRLLIVTDNSNISEENITLAKENNVNIIRTNLDAFHTSRIISQANEIKILKTRDLVTFKETDYYDDFLSITKKYKHNNYPVVDSKGKCLGLIRVTDVNDKNKKKVILVDHQEFDQSASGIEDANIIEIVDHHKISNISTKMPINFRNMAVGSSNTIIYEMYKESGIEIPNNIAGIMLAGILSDTLILQSPTTTVLDKEAVDRLSERLSINYVRFALDMFKKGTSLKGLTKEEIITKDFKLFDSNGKKFGIGQIITLDIESIRNDLDAFINELELYKNKMNLEYVSLFITDIVRNGSYVIYTENMKEILERGYKIDNFKELTFLQDVVSRKKQIVPVIMNEIES;locus_tag=LOCUS_2500;EC_number=3.6.1.1;note=WP_003434813.1 putative manganese-dependent inorganic diphosphatase (Clostridioides difficile) [pid:43.8%25%2C q_cov:99.1%25%2C s_cov:98.9%25%2C Eval:2.8e-125],MGA_251
sequence03	MetaGeneAnnotator	CDS	29233	29787	.	+	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKVSIFLDYGLNIKKSISVIFLTMIFGGVFGFIYELIFYKFDKGIFINRGSTYGPWIPVYAFGAFFICVLLYRLRKKPWLVILLSAVITFLMEYLTGWYFLTYRGVRLWDYNIEILNFGNINGFVCLRSVLLFTFASVASIYMVIPMFIKLAKKVNKNTLFIISSLLFIIFILDIIIWGILH;locus_tag=LOCUS_2510;note=MGA_252
sequence03	MetaGeneAnnotator	CDS	29921	31834	.	+	0	ID=MGA_253;product=DNA topoisomerase IV subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_138821006.1;translation=MPAKYDESSIKVLEGLEAVRKRPGMYIGSTDKRGLHHLVWEIVDNSIDEVMNGYGDTIKITINADGSITIEDNGRGVPVGKHETGKSTVEVIYTMLHAGGKFEEGNYKVSGGLHGVGASVVNALSSYMIVNSKRDGKEYSITFKNGGEVDSKLKEIGKTNKTGTTVTFLPNKDLFSVTDFSYSTICERMQESAFLLKGLTVEVNDNRNDRHDKYHYDNGIKSFVEYINEDKTPINNIHHFKGTKDGIEVEIAMQYTDSYNENIISFVNNVKTSDGGTHEVGFKSGLTKTFNDYARKNNFLKAKDKNFEGADVREGLTAIISLKVPEALLQFEGQTKGKLGTPIAKTVVEQITSENLGFYLEENKDGAVNIINKALKGKMARDAARKARDDARKSTGTKKEKNISDKLAPAARHDNTKNELFIVEGDSAGGSAKSGRDRTYQAILPLRGKVLNTEKASLDDAYKNAEINTLIYTIGAGVGGDFNVDSCNYDKVIIMTDADVDGCHIQVLLITFFYRYMKPLIEAGKLYIACPPLYKVKFSKNEEIYVYSDEELKEVTAGKKVEDLQRYKGLGEMDASQLWETTMDPATRTLIRVNLTDAVLAEKRVSVLMGEKVEPRKVWIEENVEFSLEDDYKINGE;locus_tag=LOCUS_2520;gene=parE;EC_number=5.6.2.2;note=WP_138821006.1 DNA topoisomerase IV subunit B (Enterococcus faecium) [pid:61.3%25%2C q_cov:99.1%25%2C s_cov:93.8%25%2C Eval:7.3e-229],MGA_253
sequence03	MetaGeneAnnotator	CDS	31844	34456	.	+	0	ID=MGA_254;product=DNA topoisomerase IV subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003231550.1;translation=MAKKKQTEEIIQKINDYALEEIMGDRFGRYAKEIIQDRAIPDVRDGLKPVQRRILYGMYKSKNTYDNKYRKSARAVGEIMGKYHPHGDSSIYDAMVRMSQDWKMLTPYVDMHGNNGSMDGDGAAAMRYTEVRLSKIAGELLKDIEKDTVEMAPNYDDTELEPTVLPCKFPNLLVNGTTGISAGYATDIPPHNLGEIIDATILRIDKPKCTLDDILEIVQGPDFPTGGTVEGKDEIRKALECGKGRIIVKSKYTIVNEKGKNQIIITEIPYEVNKANLVKKINDIRIEKKIDGINEVIDSSSRGELIITIDLKKDANSELILNYLLKNTDMQVGYSYNMVAIVNRRPKEVGIIDILDAYIAHQKEVVTRRSKFDLAHAKARFHIVEGLIKAISILDDVIKTIRASKNRQDATENLVKEYAFTFEQADAIVKLQLYRLTNTDVAILKEELEKLKALIEELEALLSDEKKLMKQIKKELTEVRKEYAEDRKTLIVDEITEIKIDQDALIAKEDVIVVVTKEGYVKRTSLRSYSASEADDLALKENDYVIGMYEMNTKDTLLIFTDLGNFLSVPVHMLPDLKWKDMGKHISNIITIKDEEKVITSMPIYDFDKKEYITIFTKNGMTKRTNLIDYKILSRRPSVCMKLKGDDKVVSVIKKNMDNVFVCTSDNYGLIYHLNEIPVLGLKASGVKSIKLGKDKVVSADIYDDAEYITLFTENSAKRIKLEELEVSARARRGSLLIRLIKTNPQNIIKAFVTDTKELFGVLSIKEIFELKNSEIKLADRHAAPSSISKQRIMDIFRIAEIEKDTKSIPKVIEEPEETIEELELFTEEEAPIVEAPKKEEKKEKKKEVSLQEIDDEILTIDDFLNDFKI;locus_tag=LOCUS_2530;gene=parC;EC_number=5.6.2.2;note=WP_003231550.1 DNA topoisomerase IV subunit A (Bacillus) [pid:52.9%25%2C q_cov:88.4%25%2C s_cov:96.2%25%2C Eval:5.0e-239],MGA_254
sequence03	MetaGeneAnnotator	CDS	34518	35078	.	+	0	ID=MGA_255;product=LemA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022624.1;translation=MIWIIGGIALLVLLVLWFIGVANKLVRKKAEVDNAFADIDVYLTKRFDLIPNLVNTVKGYTKHEKETFEDVVNARSKGLSAQTINEKVEADEQLTSALGRLIAVAEAYPELKADTSFIKLQESLNEIETELVGARRYYNAAVKAYNILIHTIPSNIVASILGYRDLKMYEATEEQRKNVKVDFSEE;locus_tag=LOCUS_2540;note=WP_011022624.1 LemA family protein (Methanosarcina acetivorans) [pid:46.6%25%2C q_cov:93.5%25%2C s_cov:95.6%25%2C Eval:4.1e-41],MGA_255
sequence03	MetaGeneAnnotator	CDS	35098	36849	.	+	0	ID=MGA_256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKLLIFVSFFLLLIPFTAKASIDGFTITNYDVNIIVSEKNTLDITEKITVVYDQLYKHGIIREIPLKYKYSGTVNGKEVTVRQRPKIKNVTVDYDYSKSKEEENLNLKIGKSYEYCEVGKEYTYTIKYTYDFGDDNIEDYDMVYFNIIGTDWTAKIENVSFSITMPKDFDSNKINFTTGYYGNAYNKATNYTVEGNTIKGYLEEKFDGVALNEREGLTVKIELPEGYFTHERKNIDLTLPILLGSISLMLLALLNGFRIFIKNGLRRKTVSVVQYSAPDGMDPAMCGYIYNGYAKGDHIVSLITYLATKGYLKIIDDKGSKFKLQYLKPLDGNEPNYIVTTYNGLFKKANEEGIVTKKDLTNKFYTSLNKAISQLTKSRKLYDPKRDGVIAYSIFLLIISLMCSFLPAFFTYRATLFYRPLLIVFILTIVVSAISYIIFAALSKKRTVEEEKVYANVAGFREFIDKVDVEKINTLVEDDPELFYKVLPYAYVFNLTNKWIKKFESIKLQPPKWYEGNIYDVNTGKFRYDKLTSGLNSVTASAKTTMSSRPYESYSSGGHGGFSGGGGFSGGGGGGGGGHSW;locus_tag=LOCUS_2550;note=MGA_256
sequence03	MetaGeneAnnotator	CDS	36833	37111	.	+	0	ID=MGA_257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIAGNLIKEIDNTEEVRRFKELTKIIKSNKEYMSLIDKLNNSNSNEEIIVLRKELFKIPEIKEYISLESDIRLFAKKISKEISGIVEKHTC;locus_tag=LOCUS_2560;note=MGA_257
sequence03	MetaGeneAnnotator	CDS	37150	37689	.	+	0	ID=MGA_258;product=16S rRNA (guanine(966)-N(2))-methyltransferase RsmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003431108.1;translation=MKVISGLLKGRNIEGFDIEGTRPTMDRVKESIFSTIQFSIKNSIVLDLFAGSGNLGIEAISNGANKCYFVDNNKVAINTINKNIKTFNIEDSSIVIKNDFMEALHSLKNIKFDIVFLDPPYKDNFIDSSIKYLLDNNMLNEDALIICEYNKDIKIDYSNLDEKKTKKYGDKFVTIFKKI;locus_tag=LOCUS_2570;gene=rsmD;EC_number=2.1.1.171;note=WP_003431108.1 16S rRNA (guanine(966)-N(2))-methyltransferase RsmD (Clostridioides difficile) [pid:43.1%25%2C q_cov:98.9%25%2C s_cov:98.4%25%2C Eval:1.7e-33],MGA_258
sequence03	Aragorn:1.2.38	tRNA	37691	37765	.	+	.	ID=Aragorn_10;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0100;note=Aragorn_10
sequence03	MetaGeneAnnotator	CDS	37860	38855	.	+	0	ID=MGA_259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEDFNSINNDVNNELNSGLNSEVNNDFNNGLNNDINNNMNNEINTTPIDHPINQPIERPEEPVVSEPPVNNKKGKNGLKAIIVLLVLLVLGAVGYVLYSNGAFDKIIKETKTTETKVKNEEKKTNTEKEENQLIKVDTSKYNDNEVVELGTLKIGETEYKISYKRWNCKVGGGEGPDACYDHDYLTAFYVGDSEYNASKLSILYDGGLTEVAVLDNRYIFLNTGEVGDRQNGTYSMVLYDSQNEFKSVEDNSIYRAYDGYIEDNGKGKTVTRNIGYVDNNTFIYGTFEEISSGTECSQRYIEYTVKVKDGSFTKEKTFTKDGVQCSAQCS;locus_tag=LOCUS_2580;note=MGA_259
sequence03	MetaGeneAnnotator	CDS	38959	39621	.	+	0	ID=MGA_260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKNNKKENKKKKKYFYRFVKRFFDIFCSIFGIIFMIPVMIFVKICYLCIGDTKSIFYTHNRIGKNGKIIKLIKFRSMIWNADEVLHNVLLKQKKYKEEWDKYQKLNDDPRITKVGKLLRKTSLDELPQFINVLKGDMSLIGPRPLIEGELDAHKGNHEIYESVRPGISGWWAANGRSATDYEKRLELEYYYCENCSLLLDIRCIFKTIKVVLFRDGAK;locus_tag=LOCUS_2590;note=WP_013097853.1 undecaprenyl-phosphate galactose phosphotransferase WbaP (Enterobacteriaceae) [pid:46.3%25%2C q_cov:91.4%25%2C s_cov:41.6%25%2C Eval:3.8e-45%2C partial hit],MGA_260
sequence03	MetaGeneAnnotator	CDS	39686	40693	.	+	0	ID=MGA_261;product=UDP-glucose 4-epimerase GalE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244356.1;translation=MRNILVTGGTGYIGSHTVVELLERGDNVIIVDNLSNSKIEVLDAIKEITNKDAKFYNINYLDREALEKVFEENKIDAVINFAGYKAVGESVKKPLEYYENNVSGAIVLLETMQKYGVKEFVFSSSATIYGEQEVTKYVETMKRGIPSSPYGVTKVMIEEILESLYKADPEWKISILRYFNPVGAHPSGLIGEDPDGIPNNLMPYIQRVANKQLAELTIFGNDYPTPDGTCLRDYLHVVDLAKGHLKALDYLDKSDNGIYIHNLGTGNPKSVLDIVNAFIKVNNIDVPYKFGPRREGDLPEFYADPSKAERELGWKAEKSLEDMCRDSWNYQKNKQ;locus_tag=LOCUS_2600;gene=galE;EC_number=5.1.3.2;note=WP_003244356.1 UDP-glucose 4-epimerase GalE (Bacillus) [pid:58.8%25%2C q_cov:98.5%25%2C s_cov:96.8%25%2C Eval:2.1e-111],MGA_261
sequence03	MetaGeneAnnotator	CDS	40781	42844	.	+	0	ID=MGA_262;product=LTA synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987152.1;translation=MKKKVQKVKKNLIQSIKEINFKKILHDCIHFIKYNRVFLSYVILSLISCKLLRLFTIEDGINIKAFLFDLAFILILGSFGYFFKPKNQFKYWLIILGFFTIINTINGMYYMFFTSFASFSLLETFAQTFTVSDSVVAKLSYKTFVYIILLLIFIIHREVLKKKKYYYTVEKVEKRKKILPGVLITGAVVLFISIGMLNKTDLSRLRKQWNREYIVERYGILVYQENDLVQTIKTKLDATFGKDKAAEEFINYFNENTRPKSNNEYTNKLEGYNVIVIHLESMMDFLIGLEINGQEVTPNLNKLTKESMYFDNFYSQVSVGTSSDAEFTLNTSLLPAQSGTVAVSYYNRNYVSLEKLLNEKKYYTFSMHGNKATMWNRQNLHNSLGYERFYSQDDYDIDEVIGLGLSDKSFFRQSEEKLLEISNMVNDSDKYNNYFGTILMLSNHTPFEDPYYLEGENAFDVRYHTGRYDEEGNEIIYDYLLDENMETLGRYIRSAHYADEALGEYMEYVKTHDEYNKTVFVMYGDHAAQIGKSEFGYYHNYNFETGEYYTKDDENYVDYDYYSNEVFKKVPLIIYTKDNSIKPDKISYPMGMIDVLPTIGNMIGIYNKYALGNDIFELKDDNVVVFPNSNFLTKDVYYYATSDNYKILNPDAQLSADYVEEKKDYAELIIKESNDLILYNLIEYTKE;locus_tag=LOCUS_2610;note=WP_011987152.1 LTA synthase family protein (Clostridium botulinum) [pid:29.5%25%2C q_cov:89.8%25%2C s_cov:92.2%25%2C Eval:2.6e-70],MGA_262
sequence03	MetaGeneAnnotator	CDS	42924	43256	.	+	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEFICYFMPSFISLKVYNYLNKKELKLKDYFIYYGIFTVLNNIIVLSIICFKNYNEILYFDRVGITYLFKYLVMMIVSSIITPFIVSIIESNIKLRLEVKKSEKPKKNK;locus_tag=LOCUS_2620;note=MGA_263
sequence03	MetaGeneAnnotator	CDS	43231	44748	.	+	0	ID=MGA_264;product=LTA synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680980.1;translation=MKNLKKISKILLYVLLAILIVLNILIIFELDWVQKNVGFVSFDEIIFHLRVPLKGTSSDIVKDNIIKCFLPTFVISGIILFILYKINRYKSYIYISFKKKEYKLRIKYIFLVGCLILSTVFLSIRLSYIDEMFNVSSYLKARSEQSDFFEKNYVDPRDVKLEFPEEKRNLIYIYIESMESSFQDVNLDGEDVNIIPKLTELAKDNINFSDTDDVGGFYNMFGTNWTASAMIAQSMGIHYNTPIQDNKYVEYNSVMASLTNIGDILKDNGYYQEIIMGSDSSFAAKNVFFEKHGKFVIKDLNSLKKEKIITKDYDVNWGFEDSILFNYAKDELKKISEKDEPFNLTLLTSNSHFPDGYVEDDCDTISDDNSYANSVYCSQQQLYDFVSWIKKQDFYKNTTVILVGDHLTMASNDMLKEKYEDRRVYNVIINSATTSDTYKNRKFTAFDMFPTTLASMGVKIENNKLGLGVNLFSDKKTLLEKNDYDYVYTELSKKSDYYEKFIYNN;locus_tag=LOCUS_2630;note=WP_002680980.1 LTA synthase family protein (Treponema denticola) [pid:33.3%25%2C q_cov:95.2%25%2C s_cov:94.0%25%2C Eval:2.0e-74],MGA_264
sequence03	MetaGeneAnnotator	CDS	44834	45622	.	+	0	ID=MGA_265;product=DUF4422 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011476440.1;translation=MKKISVIVATHKKYQMPTDSLYIPVQVGAEGKDDLGYTRDNTGDNISTKNPFFCELTGLYWAWKNLDADYIGLAHYRRHFGLKKKKYKRVEDTLDHVLTRKQAKELLKDTDVILPKKRRYYIENLYNHYKHTMHIETLDETRNIIEEKYPEYLPEFDRLHKRTSMHAFNMMIMKKDILDGYCKWLFDILFELEKRIDATKYDAFHARFYGRVSERLLDVYLNTNNIKYKEIPFIEVEHINWIKKGFGFLFAKFFGKKYGKSC;locus_tag=LOCUS_2640;note=WP_011476440.1 DUF4422 domain-containing protein (Ligilactobacillus salivarius) [pid:55.0%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:2.0e-81],MGA_265
sequence03	MetaGeneAnnotator	CDS	45606	46607	.	+	0	ID=MGA_266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKAVKPLISIIIPAYNVEKYIDRCIESIVSQTYNNIEVIVVDDGSTDKTLDKLNEWSKKDSRIKIIPKKNGGVSSARNVGLDKATGEYVSFVDSDDFIADTYCEDMLNTLLSNNADYISCGYNRVYQDGHFETFNADNELKIIDSKEYFNNVLDVIPGYGFVHMKMVRRDLIGDIRFNEKLKAGEDALFNAELCDKIGKIVIYNKPLYNYYFNENSIVRKYDENYVQKYFDSMEAMFNYASKKDDSNRVYNYIAFHILLICVNYCYHPNNKDQMKSLKEVCNIPLFKEAIKKAQADNWSKVRKITLFTLKHRLYFMTSMICKYRQSQFKRKA;locus_tag=LOCUS_2650;note=WP_000444659.1 glycosyltransferase family 2 protein (Streptococcus mitis) [pid:39.6%25%2C q_cov:63.4%25%2C s_cov:74.8%25%2C Eval:3.3e-37%2C partial hit],MGA_266
sequence03	MetaGeneAnnotator	CDS	46613	47725	.	+	0	ID=MGA_267;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011101307.1;translation=MKRILVGYLTNGNNSGINKYLFNFIKQISSKKDYEIDVISSDVGDILKENLKDYKCKLYEIPKLKHPYKRYKAICKIIKDNKYDVVYSNISESFNCCTVLAAHKNKVKRIVVHSHATGSSEENTFKRFIRVTLNKLFRIALHNSANVFVACSKEAGKWLFLKKDYKSKKFHVINNTIDFNEYTFDEKKREKIRKDLNISNNDVVLGNVGNFEYSKNQMFILQTLKELLKRNNNYKFILVGDGRLKDEFKEYVKNEGLTKNVIFTGIITNVNEILNAMDIFVFPSVIEGFGIVALESQVNGLPTIISDKVPNKVIISKNIYQLPLEMSDWCDMISDLSSYKRTKAKLLDNAYQYDNSNIEQFKYIIGDDIK;locus_tag=LOCUS_2660;EC_number=2.4.-.-;note=WP_011101307.1 glycosyltransferase (Lactiplantibacillus plantarum) [pid:30.3%25%2C q_cov:92.4%25%2C s_cov:93.0%25%2C Eval:3.7e-40],MGA_267
sequence03	MetaGeneAnnotator	CDS	47722	48717	.	+	0	ID=MGA_268;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003549884.1;translation=MSKKILSVSVASYNVEKFIEQALDSYVNCKCKEKLEILIVNDGSTDSTADIVEKYSKKYPGIINLVNQKNAGPGSTVNTGLKNATGKYFRMIDGDDWVNTEDMDSYIEYLENNDVDMVITNYTKVDDKTMKEERQSLNVDVEYNKVYKFDDICKDLHLDMHNVTYRTDLVKGKLKIDNCFYTDTEYLLFPTEYVKDVVFLENYIYMYRVSLDTQSVNINSLQKHCDMHEMVLDHLMTFFKKNKKSFSESRTNYVARRIANMVGTQLYIYLSYEASDEYKNKIKQMLNDLKINNSEIYKIIGKTKTVKLLSLTRYAAYKLLSKKARKEKQKQ;locus_tag=LOCUS_2670;note=WP_003549884.1 glycosyltransferase family 2 protein (Lactobacillus acidophilus) [pid:32.4%25%2C q_cov:94.6%25%2C s_cov:93.6%25%2C Eval:8.7e-46],MGA_268
sequence03	MetaGeneAnnotator	CDS	48729	50099	.	+	0	ID=MGA_269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISYIILICLITFLLILSFFLFRRDYLSPSFLSCGMFDICAILAVIGKNSWNNEIKLSINTIAIIILGLSAFILGEFLLKRYMQNKPKADKVSQLNVIKVSTLKYVLLFTFVITTVLLVYFEIRRICIHYDFTSRWLPDMLNFYRQKSILYDNILMRDGTDINFIVKQMQKFCSIICCFGIFIFINNFFAHDKRRNYVKLLALIILCFLASLLSSGRAILMQYFIFSVFLFMYYYKSYSKKKNYKKMIIYLALFFVFITLVFYFIAPLVGRGTRNNIVNYVSFYFGTSIPSLNRFVVNVPKHDKYIGNETFSGVYESLNRYNVINYERDSAYGWQMFGEQGSNIYTSFRSYYFDFGIIGIFVFPFIFGFLINWFYKKAKRNYFWLIIYSYYSYIFIEQIRAEQFFRLLSSTTVSYVLYFAMVYIFLFYLTKERYLDIKKEGIKSALLMKITPIEEM;locus_tag=LOCUS_2680;note=MGA_269
sequence03	MetaGeneAnnotator	CDS	50101	51549	.	+	0	ID=MGA_270;product=polysaccharide biosynthesis C-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011101282.1;translation=MKKKSVRKNYFYNLIYQLFVLILPIVTTPYVSRVLGAKNIGIYGYTLSISAYFVLFGVLGTNLYGQREIAYYQKDKKKYTKIFYEILLLKLIVMALAMGVFYITFAKGSGGYSLFYKILMLELFANGIDVSWFFQGLEDFKKTSIRNFIVKIISIILIFVLVKEKSDLNLYFIIYVLSILVGNLTLWISLPKYLDKLNLKELKIFNHFIPTFIMFVPQAAIQVYTVLDRTMIGKIIHDKTEVGYYTQAEKIVKLLLTIVSSLGIVMLPRLASKFAAGDNEGIKKYIYKSFRFTSLLSFPIIMGIVACSDYFVPVFFGEGYDRVSIVMKMLCPIILFIGVSGIIGYQYFLATKHQKEYTASVIIGSIINFIINIIMIPKYGAVGAAIGTIAAEFSVAFVQIILTWKFLNYKRIILDNLTYVVGSGIMYIGCISVNRYIHYTNMTNLIIIVSTGVIIYGFYLIIIRDSFVFEVINKILKKVRKQ;locus_tag=LOCUS_2690;note=WP_011101282.1 polysaccharide biosynthesis C-terminal domain-containing protein (Lactiplantibacillus) [pid:38.4%25%2C q_cov:98.3%25%2C s_cov:99.2%25%2C Eval:1.4e-93],MGA_270
sequence03	MetaGeneAnnotator	CDS	51546	52505	.	+	0	ID=MGA_271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKETIKKILKKIGLYEKVKYQVKDKKKISKKYVFEDRKKDYKKVCFILAGYKDFVYDQVFGRIKEFIPKDVEVCILSSGKYSDLLSKIAKDNDWSYLSTSINNVSLIQNVANKVFDKAEYIYKLDEDVFVTKNYFDMLYKTYKECEENGDYKVGFVAPTIPINGFGHMLILKRFNLEKTYEKMFEKPLYAAGADRMIENNPDVAKFMWGYEDYLPNIDEISNTLSKDKFEYVVCPIRFSIGAILYKRELWEEMGMFDVSKGSGLGLDEENICSLAIKKSYAMIVSKNTAVGHLSFGTQNGPMKEYFENNKEVFNIHKVK;locus_tag=LOCUS_2700;note=WP_011460784.1 hypothetical protein (Desulfitobacterium hafniense) [pid:40.4%25%2C q_cov:88.4%25%2C s_cov:56.0%25%2C Eval:5.9e-60%2C partial hit],MGA_271
sequence03	MetaGeneAnnotator	CDS	52516	53613	.	+	0	ID=MGA_272;product=UDP-galactopyranose mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986979.1;translation=MKYDYLIVGAGLFGATCANLLNKKGKKVLVIDRRDHIAGNVYTEKVEGINVHKYGAHIFHTDYKDVWDYVNSFVEFNRYTNSPIARIGNEVYNMPFNMNTFSKIWDDVFTPEDAMRHINEEKKEITGEPKNLEEQAISLVGRSIYEKLIKGYTEKQWNRDCKDLPAFIIKRLPVRLIYDNNYFNDRYQGIPMGGYTLLVEKMLEGVEVRLNTNFFDNREELTSLADKVIYTGPLDEFFDYSLGKLEYRSLKFDTKILDEVNYQGNAVVNYTGHEVDYTRVIEHKHFEFDTTSPKTVVTFEYPSDYEEGMEKYYTINDDKNNALAEKYRELASKEENTIFGGRLAEYKYYDMDDVIKSAFDCIEKL;locus_tag=LOCUS_2710;gene=glf;EC_number=5.4.99.9;note=WP_011986979.1 UDP-galactopyranose mutase (Clostridium botulinum) [pid:63.6%25%2C q_cov:99.2%25%2C s_cov:98.6%25%2C Eval:1.4e-137],MGA_272
sequence03	MetaGeneAnnotator	CDS	53649	54710	.	+	0	ID=MGA_273;product=acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_212366851.1;translation=MVQEKRIIKSLYTIRFLLFILIFLRHTIGLVKMEWLAQSGLAVTGFIILSGFLNGYMYNSKYDKITIKNIIDFVYKRIKKLYPLHIITLLIAIGMYPPFNEFIFHQIEYIKIFLMNLFLIQTWVNDSNYYFSFNGVSWFLSTYLFLTIITIPILYVIGKINKKKYSAIIFAVFIVIIYSALLLLTHYIQIKGLNSEFWINVFPPSRALEYTIGILSGCIISKIKINFKYDKIVFTFAELFSLILICVFVKYVPLNTWLTYWGSKWVVPLVLIFSIFIYEKGYISKLFGIKPLVMIGSSTMVMYFIHSELIYYIVHATGYTMHPRYLALYIFILSVLLGVIITNLMNNKKKDKC;locus_tag=LOCUS_2720;note=WP_212366851.1 acyltransferase (Acetobacter okinawensis) [pid:24.8%25%2C q_cov:85.0%25%2C s_cov:81.4%25%2C Eval:7.6e-11],MGA_273
sequence03	MetaGeneAnnotator	CDS	54790	55839	.	+	0	ID=MGA_274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRKINKRKIFTLMLILLLVIGLGAFGIYKFVLGDKASIKKGKKLEAKIEAKVDIIDVDSKTRPLAISINNTPVAVKVQTGLNKAYLLYEIPTEGYTARLIAFFKDVEDTKVGTIRSARHNMLDYSYESDAIFVAFGWSHYAQDDMQNKKLIDYVQGIVGEGGMWRDNPAHLDSEHTVYLQTQKVIDYAKDRKGYSMESDDTVLLNYNVVDIDLSNRSDAKVANKVTIPYGSVTNVFEYNSETGMYTRIVNDRRTTDYYTGEEFTAKNLIVQKITYNRTDDGYYWNLHTSGSGDGYYITNGYAIPIKWSKENRKAKTKFTYTDGDEIEVSDGRTYIEVQITDKLTTIE;locus_tag=LOCUS_2730;note=MGA_274
sequence03	MetaGeneAnnotator	CDS	55851	57395	.	+	0	ID=MGA_275;product=LCP family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000064987.1;translation=MEKKKKTKSKKTKNKNKTSKKIVSRIINVLSIVAVTLFLWYSYHINIIPMKYYRIAALSLVGFEIIYTLLCINKKKSGIILKLFNVLALLFIIGCGVGYWYLNKTVAFIEENFKKNYTYDEYYILTNKDSSFNTIKDIKGKTIYYNVDTDYYAEIKTELKKKTTAKISKVDSLSDSLGVLAEPDTLILLSSGLYDSISTYDEGYINHIKIVDTIRIIVPRVQEEKEKEIDLTNTPFIIYLSGIDTRTETLVKKSLSDVNMFIVVNPNTKTILLVSIPRDSYVALHGYNGKKDKLTHAGSLGGLELSKATSEDVLDIHADYYARVNFRAVVNLVDAVGGVVVQEEPYITKRFSCWTNRKCWIEPGENYLTGECALAFARERYHYYDGDMQRNKNQQKVLQALFNKLSSSTYMVAHYDKFLNAVAGTFETDMTPDEIKKLIKFQLNDMSPWTFESQNVIGGTGRTTTYSSGSTELSVVYPNQKSINEAKEAIRKVLAGESLHPEENTTTEGENAAQ;locus_tag=LOCUS_2740;note=WP_000064987.1 LCP family protein (Streptococcus) [pid:30.1%25%2C q_cov:91.4%25%2C s_cov:96.1%25%2C Eval:3.8e-44],MGA_275
sequence03	MetaGeneAnnotator	CDS	57469	58629	.	+	0	ID=MGA_276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKNKLFDKFIMIFLIISPILDFFAYVQKEYIKFPISISLIIRGLFLLIIFIYLIRKQDNRKILLFFLIYFILALGSYLLRKVNIYYEIVNLLKIFYLPIMMLFFSKYSNSKIDDKFILKVYIVYIITFVIMHILKLDTQYIPIISAILVGLLPVTLNYVMESKNYILKVVFYLLLGLITYLIGTRLLVTGFLVVFFGVYVMRYKLEFIYNNFKRRFTIILSFIGFLVVFGIIVRFTPFYGIMKDTITSLNIHSLRDVYRFNTIDQLIFSGGLSQFADIMKNFIKGGYDTIMYGLGWNGVETLTKIDPFDILVTTGIFGSAIFIIMFTYVNFRTELKKEHYYSYVMFLAIAVFAGRTLLYPSVSLFIAVLYLVSANSIKIEKKKYS;locus_tag=LOCUS_2750;note=MGA_276
sequence03	MetaGeneAnnotator	CDS	58905	59699	.	+	0	ID=MGA_277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAHTNDIIDDREKDLKYIRKTRRYISFADKVVVPSEYFKNIIRDNYYYDESKIVIYPSGGVDTSIFKDADKKEALERLNLKSKYKYVGFASRIEANKGYDIYLRFIKELEKDKKIANYRFLIVGTGSEENKLNSLIKDLSLEKYVEVRSMLELKELVDFYNSLDVFIFPTYRRSESLGLVGLEAMSCGCFVIASDNYGPSSYIKNNKNGFTFKSKDPIDLKNRFIEYTNLNNEKLNKIISKAIETAKEYDKNSTKDIILKVFE;locus_tag=LOCUS_2760;note=WP_002936352.1 glycosyltransferase family 4 protein (Streptococcus suis) [pid:29.3%25%2C q_cov:84.5%25%2C s_cov:57.4%25%2C Eval:5.7e-15%2C partial hit],MGA_277
sequence03	MetaGeneAnnotator	CDS	59768	60922	.	+	0	ID=MGA_278;product=glycosyltransferase family 1 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_039851544.1;translation=MKNIIIIGSKGYECNYGGWETFVSNLINNYKDDDIRFFVPELSFKMNSNIEIRNGVICKQVFIPKHGYFTMFSFVIKALLYYTKLIRKERMKNVIIYMLGCRGGLIIPFIKKKLTRMGVKIITNPGSIDWKIESKPWIIRKLSKISEKKMINVSNLVVCDSKMVENYIKENYDVQTKYIPMGSRLNEVKDIDKKTRIFMEKKNIRKREYYLVIGRFVPKNNIELIIKEFMLSDTKKDLVIVSDIEKNKYYDRLLKTTNFNKDKRIKFVGPIYDKNIITRLRVYAKANIYGHKEGGINPSLIENLSTTDINIVYENEYNKEVGKESCIYFTDEAFMLRDILDKVDNFKTREYEEYGNKAKERIKEEYNLDSIMNKYKKIFNNLLK;locus_tag=LOCUS_2770;note=WP_039851544.1 glycosyltransferase family 1 protein (Haemophilus paraphrohaemolyticus) [pid:36.5%25%2C q_cov:98.7%25%2C s_cov:99.2%25%2C Eval:1.8e-72],MGA_278
sequence03	MetaGeneAnnotator	CDS	60936	61685	.	+	0	ID=MGA_279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTVIYAYKTKNNNYEEVFENGICFFNTSLDLNKSFVRITDGNNDDFLLGLKNGEVAYFITIPEKYLEVKESDDKRISPYPILFERAMTDPEEGVMDIFPVIVPCLISGMYDSKLDYIENPDYRINFDPRGLKFTKEQLSSIKCYMPEEVRETLVNRNNRDSLELFQEELNEEPKTIKDKEGNTRIIDWIWKPLMKQHKIESVTPPFAKKGNLLSIKFTEKNEKTKKLKQGKGKKGKKNNRTFDMEEDY;locus_tag=LOCUS_2780;note=MGA_279
sequence03	MetaGeneAnnotator	CDS	61757	62875	.	+	0	ID=MGA_280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKKIINFIIFSFIIGFIIYYSIFENRKEEKEVIIKKPKVVEETEKLVYLIDKNNSNIEELLKEEVIIKYETVYICEEQEEIEEEILEEKEEIEEIPKEGLLEEEDGTYYYVNNERQKGIINNMYFDDNYKLRNEFKVIDNKVYYDNNKGLYLVDGIRYYFDFNDGHLIRSSVKSVIDISSWQGDIDFDKLKESNVVDAVIVRVGYGTSINSKCGLDKKFERNISELNRLGIPYGIYIYGYAQNEYAANIEANFVYDMIQKYNVKLYYPVFYDAEIRTYNGVNYTKSLYTKVINAFSNDLENKGIKTGVYGNLYMLTKGSLNDLSIRNKPIWVAQYYNKCQYDSGYIGWQYSSKGSIPGVNGRVDVNIFNY;locus_tag=LOCUS_2790;note=WP_010976587.1 choline binding-anchored murein hydrolase LytC (Streptococcus pneumoniae) [pid:36.2%25%2C q_cov:60.2%25%2C s_cov:45.3%25%2C Eval:4.2e-31%2C partial hit],MGA_280
sequence03	MetaGeneAnnotator	CDS	62952	63656	.	+	0	ID=MGA_281;product=SGNH/GDSL hydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000895132.1;translation=MKKLDQIVLFIVFALLIGIIVLMTLMFVQKGRITFGRIVVKENVIEEKKVMSENIVFLGDSITEGYDIDKYFEKHYHVQSGINGNYTEDVLNDLEKRVYQYNPSKVFIMLGINNFVWGDSSAEDVANDIKKICEKIEERNPYTEIYIESIFPYSAKWKEEHDHAHDADYVVSRINDTNKILKKYAVEKDYKYIDLYSLLVDADGKYDLKYTDDGLHPNEEGYKVVTAELLKYMK;locus_tag=LOCUS_2800;note=WP_000895132.1 SGNH/GDSL hydrolase family protein (Streptococcus) [pid:36.1%25%2C q_cov:80.8%25%2C s_cov:89.7%25%2C Eval:4.7e-20],MGA_281
sequence03	MetaGeneAnnotator	CDS	63721	64209	.	+	0	ID=MGA_282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIYDFIGISKQSIIGIKNPGLVIEGICLKKDATFIVMADGDEIPFLLYDTDEENGFGISAPLSTDMKYIKAYVVDGNRRLLIFSSKMSVFNRIGLKVEILVGNIYVFFKVFFPILGKGISYLWKKHHLLVPFKLWGKYFKEFKNKVKDSYEENVKDVNVLD;locus_tag=LOCUS_2810;note=MGA_282
sequence03	MetaGeneAnnotator	CDS	64231	65352	.	+	0	ID=MGA_283;product=acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003129606.1;translation=MKEKDIRQSNFELMRIISMVFIALWHFFLHGKIFDRTTGVDHFIVVIITALIAVHVNSFVLLSGYFNYDKRFKLSKIIKLSNTLWFYKFIWILIAIFGFSMTFSKAYLLENLSFIPRIENCWFIVVYMVFYLFTPVLNIVIKNIDKSKHKSIIVALLVVTLFCYITLDRFISINRGYSVFSFITLYFIGSYLHKYPIDKSKHSKKKIISLAFLVYIVFALINVGIHYLGISHLNSSHEILRNYSYLMKMGFFEYFNPFVIICTIAYFIIFSQLEFKSRIINLYAKYILGVYLMTDNLLARAIIYKNIGFNLKSYTLKHVLLAFIISIGMVLVLPVIEFIRSKVYKFFYNRKLAKKNRVFIQNTINKLGLSVKW;locus_tag=LOCUS_2820;note=WP_003129606.1 acyltransferase (Lactococcus) [pid:20.7%25%2C q_cov:93.6%25%2C s_cov:98.8%25%2C Eval:1.2e-09],MGA_283
sequence03	MetaGeneAnnotator	CDS	65364	66458	.	-	0	ID=MGA_284;product=nucleotidyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902445.1;translation=MTKVGIICEYNPFHNGHKYHIDKIKEMFPDSIIILAMSPSFTQRGDVSIINKWDKTRIALENNIDLVVEIPTKFVIQSADTFSKAIDILNYLDVDYLVFGSESDDIDKLKYISKIQSESKYNNEVKKLMDNGISYKNALHKALKIYNIEDIESNDILGISYIKEINNIKSRMIPLTINRTNDYNSNNLDSDIISANAIRNNINNIDIKKYVPKNAIVDYYTPSYFNLLKYKIISDNELYKYNLVDEGIENRLKKCITECNTLEELIDKVKTKRYTVNKLKRMFISILLSFKKEDNDKDIKYIRVLGFNTNGQKYLNSIKKSIKIPIYTKFNKDLEYEYNVSKIYSLIVNDPELIKKELTNLIRL;locus_tag=LOCUS_2830;note=WP_005902445.1 nucleotidyltransferase family protein (Fusobacterium nucleatum) [pid:34.5%25%2C q_cov:98.4%25%2C s_cov:91.7%25%2C Eval:1.9e-52],MGA_284
sequence03	MetaGeneAnnotator	CDS	66597	67625	.	+	0	ID=MGA_285;product=23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002293986.1;translation=MQSIYNMTKKKLEEYFESINDKKYRATQVYEWLYRSKVKSFDEMTNLKKDLIEKLKEDYFFDDIKLVIKQEDELTNKYLFELNDNHRIEAVLMKHDYGNSICISSQIGCNMGCAFCQSGRLKKIRDLTVSEMLLQVIKVEEDLGERISHVVIMGIGEPFDNYDNVIDFVRIINDPYALAIGVRHITVSTCGIVPKIYALADENLDINLAISLHAPNNELRSKIMRINNAYPLEEVMKAVKDYISKTNRRVTFEYIMLKGVNDSIKCALELVSLVKGLNAYVNLIPYNETENIEFKRSEYSQISAFYDILKKNNVTSTIRKEFGSNVSAACGQLRAENIEGEI;locus_tag=LOCUS_2840;gene=rlmN;EC_number=2.1.1.192;note=WP_002293986.1 23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN (Enterococcus) [pid:53.9%25%2C q_cov:98.8%25%2C s_cov:97.7%25%2C Eval:1.3e-103],MGA_285
sequence03	MetaGeneAnnotator	CDS	67626	68366	.	+	0	ID=MGA_286;product=Stp1/IreP family PP2C-type Ser/Thr phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000648699.1;translation=MESYFLTDTGKVREHNEDSVTILKNKKEEYLLAVADGMGGHKAGEIASSMAINHLTESFNKLDSMGDKKECVEWIRTNVNEINEEIFEYTKNHPESKGMGSTLVMAIYTKDYLLFANIGDSSGFVIKKDELFKITKDHTLVNMLVNNGELTESQAANHPKKNILMRALGANNPIEVDIFSVEEEVSGIVLSSDGLTSMLTKAQIERVLANKELSLSEKVIRLIRKSNIRGGLDNISVACLMMGSDK;locus_tag=LOCUS_2850;note=WP_000648699.1 Stp1/IreP family PP2C-type Ser/Thr phosphatase (Bacillus) [pid:42.7%25%2C q_cov:97.6%25%2C s_cov:96.0%25%2C Eval:2.0e-51],MGA_286
sequence04	MetaGeneAnnotator	CDS	255	2384	.	+	0	ID=MGA_289;product=ribonuclease R;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000391086.1;translation=MRDKILDILKNSEKALTSIELLEALNMSEVSELTSLYEVLNDLEDEALIYKTRKDKYMLFENSHLRIGRLSVNKKGFGFVTVPGLEDDIYIDEDNLNGALDGDTVIIEDIKSVKSKKDEARVVKILKKSNSYVVGTFDIVKGKPSFKPDNDKLKMNIIIDKADLDDLVPGHKLRVKIEKELPNHRYLAKVDKIIGHKNDPGVDILSIVYDYGINDVFPEEVMNEVDKLPSEVKKEETLERVDLTNECIFTIDGDDTKDIDDAISIKKDGENYILGVHIADVSYYVKEGTKLYEEAKDRGTSVYLVDRVIPMLPHKLSNGICSLNPGVERLAISCVMTIDPRGKIISHDIFESVVKSRKQMTYKNVNKVFDGETPEDYKEYESDLKLMLELSEILRKEKLSRGYLDFDTNEAKILVDESGKPYDIVLRERGKGENLIEDFMIAANETVASHIFYMGYPFVYRVHEVPDDDKVNEFISSLSASGLNIKGARHYDNPKVMQGILDIITNKEGYDIFSNLLLRCMRKAEYKDQNLGHYGLGSKCYTHFTSPIRRFPDTTVHNLLRKYLFNKPNEHELNELIGYYEMKLPEICEHSSKKERDSIDCERDVEKMKMAEYMESHIGEEFDGIISSCLNFGMFVQLPNMVEGLIHVSDIKGDYFNYNEELNALIGQRTKKMYKLGDKVHIKVINASKETSTIDFELVEKGDKHGNTK;locus_tag=LOCUS_2860;gene=rnr;note=WP_000391086.1 ribonuclease R (Bacillus cereus) [pid:43.9%25%2C q_cov:98.3%25%2C s_cov:87.0%25%2C Eval:2.4e-167],MGA_289
sequence04	MetaGeneAnnotator	CDS	2368	2805	.	+	0	ID=MGA_290;product=SsrA-binding protein SmpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545050.1;translation=MEILNKKARFDYEILEKYEVGIVLTGNEIKSIRKGSCNLKDSYVLVKNGEVFVLNMHISNYDKGVSNLDETRTRKLLLNRNEINKLQGIVEIKGYTIIPVRLYLKGNIAKLEIAVAKGKHTYDKKEAIKKRDTERETARALKNYR;locus_tag=LOCUS_2870;gene=smpB;note=WP_012545050.1 SsrA-binding protein SmpB (Thermodesulfovibrio) [pid:53.6%25%2C q_cov:95.9%25%2C s_cov:94.0%25%2C Eval:1.5e-37],MGA_290
sequence04	MetaGeneAnnotator	CDS	3299	3484	.	+	0	ID=MGA_291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLKKFDNKCVRIIDIDDIVFEGNCTYNDKVHNDRLMLCLKDNIDKFDDKDRINKLIEKRN;locus_tag=LOCUS_2880;note=MGA_291
sequence04	MetaGeneAnnotator	CDS	3551	4105	.	+	0	ID=MGA_292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKRVRVKLKYNNDESQSGKIIIKQGLKKKIEFGIRQRILFIRFHEPISESNPIVITKKDGKVLFNNLNWFLDQQYKGKSKELDKQYKDDTKFEYLSDIESPLGVEGTPRIIIERDKDSVSISERIPALNQRVNISGGQVVVDTRCSILEESNKKTVQSIKSDFFDSIKCTMCKCFIYRPNKRR;locus_tag=LOCUS_2890;note=MGA_292
sequence04	MetaGeneAnnotator	CDS	4146	4496	.	+	0	ID=MGA_293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546268.1;translation=MKLLKKYSLYLIRWQLSTPILAIVLKLLSNMNTLTATIIANLIGGLIFFWVDKFIFKKRSDVPLWEIKDNVECFDCHNKTKGYRIVEWGNYDRSEDKNPQYRCKDCSIKKMKTINK;locus_tag=LOCUS_2900;note=WP_012546268.1 hypothetical protein (Thermodesulfovibrio yellowstonii) [pid:36.1%25%2C q_cov:97.4%25%2C s_cov:96.1%25%2C Eval:9.6e-17],MGA_293
sequence04	MetaGeneAnnotator	CDS	4530	5036	.	+	0	ID=MGA_294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILVCLLAVLSLFILTGCKKDNEPKKVVKKEKLKYIETKVEDYDIVLSVDTKFNELSYKAPENANIGNVGTYSIMDIMNNDSLVVRVAMYYFEGKYDYEVMKDSPLERVGTYESNKIVWTKYTGYQDDKYLITLVNQYNNSTYTITFLSDYDIEEFIDKFTGTIEF;locus_tag=LOCUS_2910;note=MGA_294
sequence04	MetaGeneAnnotator	CDS	5103	6269	.	+	0	ID=MGA_295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLILVLFFICINVKALDINSRNAILVNLNTNRVVYEKEKDEKVSIASLQKILTAIVAIENIEDLNEKVIIDRSKISDIAYDVYTIGLKDNEELTYYDLLEMTILKSAGDAAKYLALSVSSSEDEFANLVNEKVKELGLENTVFKDPIGLERDGQYSTASDVEKVLEYALKNKDFKEIFTTSKYKTTDNEFEFNGPREAFKDMDASYIIGAKTGYTSKAGNCLASYIINGKEEFILVTLNARENKSQHFVDQKTMMDYYIENYTLKKILRKNDLFVKVTSTFKEEINIVNEEDIYYYVKKDSKISYKYKGINKVNTKHKNGDLLGKYYVYEDDSIIYEKDIYLNKDIGIYIPVKIRYILFGTALVIIILLFLRVINKKRFLYKKY;locus_tag=LOCUS_2920;note=WP_011459514.1 D-alanyl-D-alanine carboxypeptidase (Desulfitobacterium hafniense) [pid:36.6%25%2C q_cov:58.2%25%2C s_cov:72.5%25%2C Eval:9.5e-34%2C partial hit],MGA_295
sequence04	MetaGeneAnnotator	CDS	6320	6802	.	+	0	ID=MGA_296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKETLVKVTNFVNENTMLLIGICAFLILVLIIYLIDNSIKTKKMQKALKEMDTVEDKVVETKEDTVVESNFNNEETPTFDSISLIGDEEEKEEPIVETPVKEELNTIEETPVVNNTPDVPKEKFTNKKSLSEILSKKKESINENDADKTLEETTEFNNTF;locus_tag=LOCUS_2930;note=MGA_296
sequence04	MetaGeneAnnotator	CDS	6869	7576	.	+	0	ID=MGA_297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYIKRILFILFLVIMISGCSVDYKIKINKDLSISDSVIVTENTDRMKSRTNLDVTKSVKYLYDIYKFRNMGENDYTIVSSGLTTKVSAHNSYKNLDEFSKNFKSDLFETPIVNIGKEQVYFELDQMKTIDSKASTRPVYDSIKLTIEVPYKVTYHTATEVNGNKYSWNIKADDNNLQRMILVFNQEKEDKKVSVGFGDTKVHIGYEYLAIAIIIILIGLAVFFTYMKNKKVNKM;locus_tag=LOCUS_2940;note=MGA_297
sequence04	MetaGeneAnnotator	CDS	7585	8409	.	+	0	ID=MGA_298;product=diadenylate cyclase CdaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001829928.1;translation=MSLDSIISIVKKIVDICLVWLLLYYLLKNVRKNVKFSLLLKGIVIIVLIKLISDYFGLVTIGLLFEYVISWAPIALIIIFQPEIRSALEQLGKTKLLGSHKTLSLSERERMVTEIGASLEYLKKNRIGALIVIERDTSLLSYIEKAKKIYADISNELLCSIFFPDNPLHDGGVIIQGNKITCAGAVFPTTVDMKFSKRLGTRHRAAIGISEESDAIAIIVSEETGRISVAIEGKLNYNLSIDEVKSIILEELMPKSETFVVEKEEEEDDIDEIN;locus_tag=LOCUS_2950;gene=cdaA;EC_number=2.7.7.85;note=WP_001829928.1 diadenylate cyclase CdaA (Bacilli) [pid:43.9%25%2C q_cov:89.1%25%2C s_cov:90.3%25%2C Eval:5.2e-51],MGA_298
sequence04	MetaGeneAnnotator	CDS	8396	9727	.	+	0	ID=MGA_299;product=CdaA regulatory protein CdaR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003234947.1;translation=MRLIKKIIKFFDRNIIVPITRFFVSIGKKLKIINKPLELILRTKRSLIILSLLFAIIIFFVIDRASTTLVETEAEVLYNQPVTANYNDEEYVVEGLPETVDITMIGTKANLYLAKQLPSQNVTVDLSDLAPGVHEVKLNYKQAITAVEYKLDPSTVTVVVSTKQSATKDISYEILNLSSLDSKMSVKNIDLDVNNVIAKGTEEKLNKIATIKALINLDNLGDPTVGENTIKDNKVVAYDENGKILDIELVPSKVNATVDIESPSKTVPLKVVPVGLDKIVFGKSVESITSSVSEVTIYGSESALSKVDSIDVKVDVSDIKTNKKYTKTIKKPAGIREISTKTVTIEVSLGDESSTRLSDVRLSYINLDDSYTITSADTTTISVILKGVESVIKKVSAADINAYIDLNNLGEGEHEVDVIVKGNDEKVQYQPQTTKVKVQIAKK;locus_tag=LOCUS_2960;gene=cdaR;note=WP_003234947.1 CdaA regulatory protein CdaR (Bacillus) [pid:29.9%25%2C q_cov:84.0%25%2C s_cov:76.0%25%2C Eval:4.9e-45],MGA_299
sequence04	MetaGeneAnnotator	CDS	9885	10316	.	+	0	ID=MGA_300;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001260793.1;translation=MDTFMAKKSDVKRNWYVIDAAGKNLGRVATKAATILRGKHKAIYTPHVDCGDYVIIINAEKVNLTGNKLDQKMYYNHSGYPGGLRERNAKEMIENYPEEMMERAIKGMLPKGRLGRAMGKKLFVYRGSEHKHEAQKPITMELK;locus_tag=LOCUS_2970;gene=rplM;note=WP_001260793.1 50S ribosomal protein L13 (Bacteria) [pid:63.8%25%2C q_cov:98.6%25%2C s_cov:97.2%25%2C Eval:5.6e-50],MGA_300
sequence04	MetaGeneAnnotator	CDS	10326	10739	.	+	0	ID=MGA_301;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003549055.1;translation=MATKFTGTGHRKTSIAKVVMVSGKGKITVNGKDVNEYFELPTLVLDLKQPLEATNTVDKFDIEIIVSGGGKSGQAGAARHGITKALLEYDKNTDPNSDTSFRKILKAKGFITRDSRIKERKKPGLKKARKAPQFSKR;locus_tag=LOCUS_2980;gene=rpsI;note=WP_003549055.1 30S ribosomal protein S9 (Lactobacillus acidophilus) [pid:59.4%25%2C q_cov:97.1%25%2C s_cov:95.4%25%2C Eval:3.2e-36],MGA_301
sequence04	MetaGeneAnnotator	CDS	10806	11909	.	+	0	ID=MGA_302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIFRLGNKEFNCINVDLNQEQGFNFPFRILIPNNLKQNPELIYAWTLSLGGPYGAELLEKHASFERIQQEANNEVSSIDPIMLHLLEEGNLMIIPAIPRFSGFRPSFLGSDVYNNDFSKYDGSWYKDYLEKYKDLPDQIKNMISYSISLLREKSINVPDKVIMAGYSEGAKGTSHFALLHPEMIKAIVVGGTSGLMPVPLKDLEGYTLKYPIGIANIPNFDYDSYKNIKFFYYTGENDLSDPGLPNFKEYHYINEKGEDCILKDECGNLTPHLDENGNAEFLLDENGNYTAKFRLFTNEEVNILNKIYGTKVIDRFKKQERVISELGLDVECHIYPGNHRTVFENKKQIFSDIDSFISNRLSKKEL;locus_tag=LOCUS_2990;note=MGA_302
sequence04	MetaGeneAnnotator	CDS	11922	12512	.	+	0	ID=MGA_303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELVLVDKINYLKAIEIQRDIFPNENGTLNILASLGRDMFMNLTGLSYVDDHVRYYLAKEGNEYIGITGIYHYDDEDAWLAWFGILKNYRRKGYGEELLLKTMDIAKSMNFKNMRIYTDYVELHDACLLYEKNGFIGEKYTAEELPYDCRIYSKSLIGKEVELWNNKNLGLSYQSELEGISEDRINEILEIYKNIL;locus_tag=LOCUS_3000;note=MGA_303
sequence04	MetaGeneAnnotator	CDS	12621	13406	.	+	0	ID=MGA_304;product=sporulation initiation inhibitor protein Soj;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000516114.1;translation=MMGKIISLVNQKGGVGKTTTSINLASSLGLLGKKVLLVDIDPQGNATTGVGIEKGGLSSTLYEALLDEKTINESIVKTKFKNLEVLPSSINLVGIENSFINKQREDPTFAKYTQLKRLLNEVRDNYDYILIDCPPSLSVLTTNALAASDSVLIPVQCEFYALEGIMQLLNTVRMARKNLNPNLDIEGVVLTMLDSRTLLGLEVVENIRSYFKEKVYDTIIPRLVVLAEAPSHGKPIANYNYKSRGTTAYINLAKEVIERNE;locus_tag=LOCUS_3010;gene=soj;note=WP_000516114.1 sporulation initiation inhibitor protein Soj (Bacteria) [pid:59.0%25%2C q_cov:98.1%25%2C s_cov:98.8%25%2C Eval:1.2e-81],MGA_304
sequence04	MetaGeneAnnotator	CDS	13390	14283	.	+	0	ID=MGA_305;product=ParB/RepB/Spo0J family partition protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003549701.1;translation=MREMSEKRNALGRGLEQLFSDDSITFEELEETIVDEAKRNDEIVELDLNELRPNPYQPRKKFDEEALKELAESIKEHGVFQPIIVKKSIKGYEIVAGERRYRASKMLGLEKIPAIIKDFTDDEMMQISLLENLQRENLTSIEEAKAYKAIIDASNLTQEELAKKVGKSRSYITNILGLLTLPNSIQNLILDNKISMGHARTLSKIEDEDKIKELANKVISDNLSVRELEDLVKDDKVEKRVKIVRSTPSNEYKDVERKLKEKLGSDVKVSNNKITIKFSSVQDLNRILDIIDCNLED;locus_tag=LOCUS_3020;note=WP_003549701.1 ParB/RepB/Spo0J family partition protein (Lactobacillus acidophilus) [pid:48.0%25%2C q_cov:98.3%25%2C s_cov:96.6%25%2C Eval:3.9e-71],MGA_305
sequence04	MetaGeneAnnotator	CDS	14294	15091	.	+	0	ID=MGA_306;product=mechanosensitive ion channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001832526.1;translation=MDIFGFHIPKNIFVSGIVVIVSILLYIIAAIIIGKITRREKKKGNKRRTTLLILVRKIIKYVILVLCIVTILNVFKINTTALVTSIGAVSLVIGLAFQDLLKDMLVGMAIIFEEQFNIGDIIEVGGFKGEVVEFTLKSTRIKSLTGEVKIIANREINSVINYSVNKNTIVTKINVAYEEDNSKVEEILKKVCDTMTKETEGKLEYSLIDGIEALDDSSVVYMIKVLANVEDALTIKRNILKHVKEEFDKEEIKIPYMQIEVHNEK;locus_tag=LOCUS_3030;note=WP_001832526.1 mechanosensitive ion channel family protein (Staphylococcus) [pid:29.9%25%2C q_cov:86.0%25%2C s_cov:80.4%25%2C Eval:2.8e-30],MGA_306
sequence04	MetaGeneAnnotator	CDS	15081	15266	.	+	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNSYKLGSKVVMKKDHPCGSNLWTITRVGVDIKIKCDKCGREIMLDRIEFEKKLKKVVEE;locus_tag=LOCUS_3040;note=WP_010966985.1 DUF951 domain-containing protein (Clostridium) [pid:60.4%25%2C q_cov:78.7%25%2C s_cov:73.8%25%2C Eval:1.4e-10%2C partial hit],MGA_307
sequence04	MetaGeneAnnotator	CDS	15266	16777	.	+	0	ID=MGA_308;product=AbgT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011970122.1;translation=MDEVKKKSLHPVWFFILLCIGTIVGSFILSLLNFHGTVYNVSSSLKSSTSLVTVNNLLSSDGIRFMFGQATNNFVTFLPLGSLLVGLIGVGVATKSRLLESVFDKMAKKVPRVVAFFLFSLLCIIMGFSTDMAFVIMIPVSIVLFTSYRRNQLYGMAFAFASIAAGSNINLFMTSLDYSIIELSKNAVLEVNKGYTYGYFGNLYFGAFSSLVLAAALAGLTEFITKKKPVRINEAEEDIDAKLDKKAIKRVLVTFIAMVLLFAYEIIPGLPFSGVLLDNTQIFYVNKLFGANSPFVNGILYIVVFALVVCSIIYAASTKQIQNNKSVIKLFTNSLNGIGEILILIFFASQFIALFKYSNIGNVICAILFGLIRSMNLSLVLLVIVSILFIMIANLFVSSTASKWQTFAPANISLFMKSNITPEFTGAIYRLTSSATNMITPVFPYFSVFMGYVGLYNKNDFTVRKCYSVIMPYLVTVFILVLFIVFGWYLLNIPIGPKTLPNI;locus_tag=LOCUS_3050;note=WP_011970122.1 AbgT family transporter (Sinorhizobium medicae) [pid:26.1%25%2C q_cov:96.8%25%2C s_cov:94.6%25%2C Eval:1.5e-53],MGA_308
sequence04	MetaGeneAnnotator	CDS	16726	17892	.	+	0	ID=MGA_309;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722138.1;translation=MVFIKYSNWTKDTSKYLVRGEIKIGLTAGIVGLPNVGKSTLFNAITKKNILAANYPFATIDPNVGMVTVPDERLTVLEEREQPERVVPATYEFTDIAGLVKGASKGEGLGNKFLSHIRECDAICEVVRCFEDENITHVEGGIDPIRDIEIINLELIMSDLEIAENRIGKIEKKATTTKDKEALAEVAVLKKTIDALEQNIPLRRIEYTEEEEKILKNFHFLTKKPIIYMANVSENDILTGNEYVEKVKEYASKETARVIMLSAKIESELSELEDEDRKMFLEDLGLSGSGLDKLVYATYDLLGLQTFFTAGKDECRAWTFKKGMKAPECAGIIHTDFEKGFIKAEVTSYEDYLKYGSEKAAKEAGKMRLEGKDYVMQDGDIVYFRFNV;locus_tag=LOCUS_3060;gene=ychF;note=WP_003722138.1 redox-regulated ATPase YchF (Listeria) [pid:63.2%25%2C q_cov:94.1%25%2C s_cov:100.0%25%2C Eval:1.1e-130],MGA_309
sequence04	MetaGeneAnnotator	CDS	17906	18190	.	-	0	ID=MGA_310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKSSKKGGLFIWFIIIIIIVAVAGVILGVSQFRKNSELKLSNANNSLNNVATDIGLVDKSEGSFYITLYVTAGLIVIIGVGVFIYIYKKADE;locus_tag=LOCUS_3070;note=MGA_310
sequence04	MetaGeneAnnotator	CDS	18377	18658	.	+	0	ID=MGA_311;product=30S ribosomal protein S6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001233779.1;translation=MAKYEIMFIVRPDLEKEATAKVAKDFEKVLTDNKANILSSKEIGGQELAYEIKGHKTGYYYLINVEADNAAINEFNRLATLSEDVIRHIVIKL;locus_tag=LOCUS_3080;gene=rpsF;note=WP_001233779.1 30S ribosomal protein S6 (Bacillus) [pid:51.1%25%2C q_cov:98.9%25%2C s_cov:95.8%25%2C Eval:3.0e-21],MGA_311
sequence04	MetaGeneAnnotator	CDS	18678	19133	.	+	0	ID=MGA_312;product=single-stranded DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000981967.1;translation=MNRVELIGRLTRDPELRYTGNNIPNARFTLAVNRTFQSQSGEQGTDFINIVVWNKQAENVKKYMTKGSLVAVTGRIQTGSYEKDGRTIYTTDVVADNVQFLETKAQSANRDNVSISDFETGDSSNTGSDMSDEVFANFGDSIEISDDDIAF;locus_tag=LOCUS_3090;gene=ssb;note=WP_000981967.1 single-stranded DNA-binding protein (Bacillus) [pid:47.1%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:4.9e-37],MGA_312
sequence04	MetaGeneAnnotator	CDS	19154	19372	.	+	0	ID=MGA_313;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869404.1;translation=MAEFRPKRRKKVCAMCEGHVLDYKNAEDLKKYINEKGKILPRRVTGTCAKHQREVAKEIKRARMIALLPFTK;locus_tag=LOCUS_3100;gene=rpsR;note=WP_012869404.1 30S ribosomal protein S18 (Thermanaerovibrio acidaminovorans) [pid:62.3%25%2C q_cov:93.1%25%2C s_cov:85.2%25%2C Eval:1.1e-18],MGA_313
sequence04	MetaGeneAnnotator	CDS	19446	19886	.	+	0	ID=MGA_314;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000864228.1;translation=MKVIFLKDVKGQGKKDEIKEVKDGYAENFLIKNGYAIKYSSRSKEILDNQIEDRNEKEKALIKECEEIKKKLESKPYTFKVKSGKEGKVFGSVSSKQISDELNKLGYKIDKKKILMDDALTTLGHHNVKIELHKKVIAEIKIIMED;locus_tag=LOCUS_3110;gene=rplI;note=WP_000864228.1 50S ribosomal protein L9 (Bacillus) [pid:45.5%25%2C q_cov:97.3%25%2C s_cov:96.6%25%2C Eval:5.9e-29],MGA_314
sequence04	MetaGeneAnnotator	CDS	19888	21231	.	+	0	ID=MGA_315;product=replicative DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003226923.1;translation=MERREVPYSKEAEQSVLGSAFLSKDALTKICDDLNEDDFYLDSHKIIYSVLKDLHDEGIPVDITIVTDRLESSGDLAKIGNVDYLVEIANFVPTASNLEYYINIVHDKSVLRKLIEVSNEISAESYVFDGPINNALDSAESKIFNIVNKRKTSEFRNIQDVVYKAQSDLEKLSENSNEITGVATGFYDLDKLTSGFHENELIIIAARPGMGKTAFALNIATNVAKNTKKNVAIFNFEMSAEQLVNRMLSSLGQINFSKFRNGNFDNDDWKKLGEGVSILADTNIQIDDTAGSTISDIRSKCRRLASSKEGLAMVVIDYLQLINGTNKSNQNNRQQEVSDISRGLKMMAMELHVPVIALAQLSRAVEGRPDKRPLMSDLRESGSIEQDADMVGFLYRDDYYNKEAMNKDVSISEFIIGKNRNGPTKTIEFLFKGSTVTFANYEGNKGE;locus_tag=LOCUS_3120;gene=dnaB;EC_number=3.6.4.12;note=WP_003226923.1 replicative DNA helicase (Bacillus) [pid:51.8%25%2C q_cov:97.5%25%2C s_cov:95.2%25%2C Eval:1.8e-119],MGA_315
sequence04	MetaGeneAnnotator	CDS	21237	22832	.	+	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIKTTTGVIVSILISLAIIVLLSITHLLLNDNKVNEVYDVYIDGDLVGTIKSKSKLEKYIDSEQSDLKKEYGVNKVYIPNGIDIQKVMRYDNKLVSEKEIYKEIKSKKSFSIKGYVVTISPKKSEEEQNEETPNEELALDETGHIQNDDIVLYILHESDFDKAVKNVLYVFENKEKVSKYVNKKQEKIITTGSTIDNIYIDQDVTIKEAFISTDEQIFNDASELTKYLLFGSLNSKEEYTVKLGDTIESIAYDHKLNVDEFLIVNPEFTSKNNLLTIGQTVNVALISPIVKIVVEKTIVEDVDKPYETISENDNTMYIGNSKVKTEGVNGIQRITSKTQYVNGQEQPSYIMNATVIKEPVNKVVLVGTKAKNYYEGGVPAVTTGIWGWPTISPYKITSPFGYRWGRFHQGIDISGTGFGSPIYAIGEGTVLDVYSGCPDQGYYGSSCGSGYGNHIWIKHNENVYVVYSHIAGKVLVSVGQTVHKGQQVGFMANSGSSTGTHLHFGTYYGGTQYGKYGGGKAFNPLELYK;locus_tag=LOCUS_3130;note=WP_011393899.1 peptidoglycan DD-metalloendopeptidase family protein (Moorella thermoacetica) [pid:34.9%25%2C q_cov:55.2%25%2C s_cov:56.6%25%2C Eval:5.6e-30%2C partial hit],MGA_316
sequence04	MetaGeneAnnotator	CDS	22832	23587	.	+	0	ID=MGA_317;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048403.1;translation=MKICVLSSGSKGNSSVIFNEKTKILIDDGLNLPYIEDSLKELNISIKDLDGILITHEHDDHIKGLKKLISKYDPLLYVDSKLYETLSHSLKDFRYVLYDENIVINDIKIDVLKMSHDSVICNGFIFKDKRKELVYITDTGYINRKHLETISNKDMYVIESNHDIEMLENGPYPYFLKQRVISDRGHLSNMQTSKYLKKVIGPKTKNIMFIHLSEKNNKPELVIETFNKYNEFNNENITISKQNEVSKVIEV;locus_tag=LOCUS_3140;note=WP_012048403.1 MBL fold metallo-hydrolase (Clostridium botulinum) [pid:38.8%25%2C q_cov:98.0%25%2C s_cov:95.0%25%2C Eval:7.7e-43],MGA_317
sequence04	MetaGeneAnnotator	CDS	23584	24036	.	+	0	ID=MGA_318;product=23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966801.1;translation=MIKIICVGKIKEKYLEDAIQEYEKRIGKYCKLEIIEVKDEAFDEVKTLLKERDSIIKYISDKDYIITMEIEGNQISSEEFASKIDSIQTNNSNITFIIGGSYGLHPDIKERSNYKLSFSKMTFPHQLFRVVLLEQIYRAFKINNNETYHK;locus_tag=LOCUS_3150;gene=rlmH;EC_number=2.1.1.177;note=WP_010966801.1 23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH (Clostridium) [pid:52.2%25%2C q_cov:99.3%25%2C s_cov:98.7%25%2C Eval:2.7e-40],MGA_318
sequence04	MetaGeneAnnotator	CDS	24045	24695	.	+	0	ID=MGA_319;product=uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003416528.1;translation=MFNNDWDNILNEEINKDYFKNIINTVDNLYKEKEIYPKKENIFNAFKIPYKDVKVVILGQDPYHGEGEAHGYAFSCLKTPIPPSLKNIYKELYSDLGIEKDMLNGDLTPWANQGVMLLNATLTVEKDKPNSHKDLGWNKFTDSVISKLNEREDPIVFILWGNFAREKAKLINNPQHLVIESPHPSPFSARNGFFGSKPFSKTNNFLNKNNKKPINW;locus_tag=LOCUS_3160;EC_number=3.2.2.27;note=WP_003416528.1 uracil-DNA glycosylase (Clostridioides difficile) [pid:54.4%25%2C q_cov:98.6%25%2C s_cov:95.5%25%2C Eval:3.3e-62],MGA_319
sequence04	MetaGeneAnnotator	CDS	24706	25224	.	-	0	ID=MGA_320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIVYIILIVIVLLFLIYLFFNITHYKLNNYSIKIELVEEKINTILDNKLDNIMKIDTIIKEKIKTEKEIIDDLSTLKNEDKCKSEIDSALSDALTKIEYIKDQYDELENEEELNTLFDNVNKDDESLNAYKKYYDENVNKYNNLISKFPYSITAGIFKYKVKKLFEFIPEE;locus_tag=LOCUS_3170;note=MGA_320
sequence04	MetaGeneAnnotator	CDS	25302	25811	.	+	0	ID=MGA_321;product=tRNA (uridine(34)/cytosine(34)/5-carboxymethylaminomethyluridine(34)-2'-O)-methyltransferase TrmL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886453.1;translation=MINIVLYEPEIPGNTGNIMRTCVATESKLHLIKPLGFSLDEKYLKRSSANYLEFLDYEVYENWDDFKSKNNGTYYYFTRYGKKPHTDFDFSNKDENIYLVFGKESTGIPKEILRNDLDRCIRMPMSDKVRALNLSNTAAIAVYEVLRQQDYNNLLRTEHFKSEDFITED;locus_tag=LOCUS_3180;gene=trmL;EC_number=2.1.1.207;note=WP_010886453.1 tRNA (uridine(34)/cytosine(34)/5-carboxymethylaminomethyluridine(34)-2'-O)-methyltransferase TrmL (Bacillus) [pid:51.3%25%2C q_cov:90.5%25%2C s_cov:96.2%25%2C Eval:3.1e-47],MGA_321
sequence04	MetaGeneAnnotator	CDS	25893	26264	.	+	0	ID=MGA_322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIINFLGIGDGSEACAGIASIVYYGVYVVKVIQIIVPIALIIWGSIDLLKSIISGDEKKISAARKPFIQRLISALIVFLLPWIVNLVIGFASEDGNNDWKACWKKAWNGGQRTSVSGPNLWD;locus_tag=LOCUS_3190;note=MGA_322
sequence04	MetaGeneAnnotator	CDS	26331	26933	.	+	0	ID=MGA_323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKLFLIIALMLLVIPISVKKVSNRIYLEKNTVYAAKSTKGGATYDEETAKKSIIVSGAKTGSEVGTKVGGKTTNELGDGKADCAGIAAIVYYGVYVVKVIQIIVPIILIIWGSIDLIKSIISGDEKKISAARKPFIQRLISAVIVFLLPWIVNFFVGSISSSANDDWKACWKAAWNGGNKVDISPDQDDLDLWSPPAE;locus_tag=LOCUS_3200;note=MGA_323
sequence04	MetaGeneAnnotator	CDS	27005	27940	.	+	0	ID=MGA_324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKLIFLLVITLLLLVPIKFNKVYAADSIPDDLRKYCESEAEKYVKTLPPSSEETKQIEAQKKYKECIAIEKERWESNSKPSDNIKSMIKKVCDELTATFTEHPLYSKEQINSTCMNYLIGSYKDHKCQTVDCLKKEICKEKLMENTYYCTGKKPDPKKEVDPDPDAGVGGGKDAGKGLGEGLGKKPTPGGSLGTTIDTPCAGMDAVVYYAVYVVKILHIVIPILLILWASIDLLRSVISGDEKKISAARKPVIQRFVSALIVFLLPWLVNLMVSSLTGQNEDKTDWSKCWRKAWNGGEKDDSIFNIRNW;locus_tag=LOCUS_3210;note=MGA_324
sequence04	MetaGeneAnnotator	CDS	27971	29290	.	+	0	ID=MGA_325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIFIMLILTLLLAPIKFNKGILINKVLADPKEEAKAVCEQAASGIKTSTGNLKKEDLISICTEKLLATDCKTEQCFKSKFCSDNTYAPLTTYCDNYSSVLKKVCDNAAAGYNEELQIFSKSKLLEYCMTALPILAPNCTTADCYKKALCDSQYGSSTSYCDKDISILKGVCQEAVSGLKWEQNGTSKEELLEECIKRLQTTSCKTRDCYIKVLCDNEKYSKLTTLCGSSDDPGEDSKVDPIEEPENPVDYDQYDAANCYGFGEVVYYISLVIKIFQIAAPILLIIWASVDLVKSIISSDEKKIIEKRKPIIQRFVAAGVIFLVPWIVETIVNGFSINGDEDSWYTCWENNHFKYSSTTEDEKKIEILKKYDNLCTTYCKNKKAADIEDCNKTCRASFHNEDCNKKNLNSNQLDSCVRDHVAAWYKDYFDEYLIQPK;locus_tag=LOCUS_3220;note=MGA_325
sequence04	MetaGeneAnnotator	CDS	29433	31757	.	+	0	ID=MGA_326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNLINKLLLWLCTQVFEGIEGIYRLFYGLATTRLFSEKAIQEVSNNIYILVSIVILFAFAVKLIEAIVNPDLLTDSKKGVTGVLKRTIIGLVLVATVPSIFNLAYKIATEVISTSLVEKVILGYTEASTDSNSTAGVLTSSIIRGFIYPIDENGITIDENSLCGENSGCNFADELANYNMTYQNYISIIGANPNYEEFSDINVEAEWENGNKMYHMSLFFLLIVGIYVWYQVVILCFDAALRLVNLGILEIMAPLVIVAYMGGGTDYLSKWFKIVLEKFLSVFVRIAALAFLALGLRLMFDKESIFFNQSTTFLFRLLIIIGLLRLVKDLPNIIGKIFGVDIKDAGGIKGRLGEMAGIGKLAQNAWSGLGGLAKGIGATAGVAAAHGAKNLGKKFDTKVLGGKAGRFINNRKQSGLARYGRVLKAGVKSKGKGTGKAFEEAYGKEFSAEEYAMKQEYKKLEGKKNSSRFSKASKKANSNSFLHVDDNGGIKFTGNSTEAMQNRDTIAQIGARNTVGNVVNNLDGISSTQREKINKYNTAKSDYSRDQVELERQQRRKSHQQELISRINQMKDSASNAATQERLDSIIRRIQNGDIDHMSQIESEFINGGMSFSDKSISSNLLSDMISSTQSEAARQQITAIKAKWDSGQIQDAQSLEAALRAIPGLSNEVVSAVVSAANTTSDDLGNQLFQSIQSMGNYIASDDDLERAILHAQNDLDNSKESLEKSSKAFDEMVDAMNDNDETKNMIKGVKKLTDEAHNEELRQTRMNEIGR;locus_tag=LOCUS_3230;note=MGA_326
sequence04	MetaGeneAnnotator	CDS	31782	32087	.	+	0	ID=MGA_327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIIPANVNNGKLIFNIFLPIDLIIAASGVIVTILMLLIVSPNGMVGAIICLIPGLICTGLVIPVPNYHNIRTVIKECFNFFSKRRNYKWEGWCYLNEFKG;locus_tag=LOCUS_3240;note=MGA_327
sequence04	MetaGeneAnnotator	CDS	32071	32616	.	+	0	ID=MGA_328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKDSSLTENWIQVKSINNGMIFLDDGYIVSGIKISPRNIFIMTEGEQNRMISSLKDFYNLINYEFWLVIADRPVDINLYVSQLELQLSNEMSPARRKLLTDDIEKAEMFSLNNVVDTEYYFFVKDKNSEELTKKIRGLINNMAGTGLIASQTSNEDLRSVLDNFLNGGVTFNSGSVITE;locus_tag=LOCUS_3250;note=MGA_328
sequence04	MetaGeneAnnotator	CDS	32613	34403	.	+	0	ID=MGA_329;product=DUF87 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272739.1;translation=MSIKSELAPKGITFNTSDFYMSDKYSTILTVVSYPGSIEPGYLANLSTGISGVRVVAKHIPIAFSVLAKMLNKQLVDIQEKYQKERDVTVQEKLRNDYDSLNDFISMLSRDQSKVFNFQLHIMIVADTKEDLESKKVQVKNLMEGMLMRAIPLRFEQEKVFKSCLPIFEKQDIEDRIGTPIPSPTLAAMYPFIFDSIKDPGLSCLLGVDFSGGVVLFNQFLYQTRKEHNRNNANMIILGSSGSGKSTAAKLMLRTHIRNNYKIVAIDPEGEYEDMTKQFGGDFINLGLGGEYGMINPLEVVADGIDDTTGRGVGYSILTNTLQTLKAFMRYYDPSIEEDVLNLFNEVVMETYQRFNVNVNTDFTTFRKEDYPTFSDVYETVRGKILSYGEATSERSIMERLEMKLRPLVSGGLEYYFNGHTTIEPQSNFIVFNIRELMNAEVNIKNALFFNILKHAWGLCLDPNENTVMMVDEAHMLLGQNNTLGADFLANVQRRARKYNTGTIVITQQPSDFTDDNVITQGKAIFDNSSYYLIMGLKKQAAEDLAKLLDINENEIESIKAYNQGEALFICGSKRLQISVVVTQAELDSFGSKGGL;locus_tag=LOCUS_3260;note=WP_041272739.1 DUF87 domain-containing protein (Desulfitobacterium hafniense) [pid:25.2%25%2C q_cov:98.8%25%2C s_cov:96.1%25%2C Eval:1.3e-46],MGA_329
sequence04	MetaGeneAnnotator	CDS	34440	39029	.	+	0	ID=MGA_330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKDDEFEMLDSEEFDDEEELKNELVDEDDTIDGPVFEPSFDVDEEEIPFEEDSISDSEELSDISDDNDIKNETSNEIPSRKKDNMVSSEMSNNEKDSKDKKDTSNDNKIGESNNKDESSGNEKKDDNIIPDKKEEKKDPGEKTLDKNKDNKDKDNLNKKDSKNGDKNSNVKDLPKDKATNAGKVAGAAKDKAKDAAASKAKDAAGGLSKKAPKGASKISDKKDIADNTKNAIKKGPKGLVGSSGVRAALAASENTNAYSKAAATVIKVMDNIIGKDRVDWILDKFGERTLKHTMVALIIGLIHAFMPFLLLLIGIYLFFAPLLDVLMAIDTQVRNLANTAEKFKNLVRNGMYADSKEAFNEEFDRLSIIFGEDLDQPLLLSSTFYADLKNGYQTRYDNIGDIIADKITEGEKENMLGIFSSIIGEEIDSIVKESNETYDPDTGLTYTVGKVYRLRQLAEHMFGDEVNGKRMLLADWYEKTKIRKDAVLEETIYKMAARLGWCALGVAAGLVLTALGVALVVGVGVPIVGSIIAVVGLALTFLSAREGFRAASDIIKDVKMLMKFSYMGMMSTDTILFGDSDCDGEVSDKEAEALEKAVNTEFGKIDEYEIELESDQDGYDDFMDKVGDLEEFLINNTSIMYYSPKYDETKYKNYLREVYIPQNPDFEPFYSYDENGNPTQASIDRIVNEIYEYSDYFKQLFYPDEVDIAEKYSEQCLGAIDKRLAAALEMPVDINTTNCIDFSGDNGYGYRSNGLLHNGIEINAKSTGNVEGDKVYAVLDNGTVVSSSADDTPMTCVGGCIEIQYSYLASGYPFDFSIVYKGLHKESVTLKSGDKVTKRQQVGTIGTADESEDMGISSLYIEFRTVGGMAIDPTNMIVKCNGSGIVNYEGGNMVNIPQAFQQTTFHTVTCFGDKRKDVDVGFYKSCSYDNPRNWGTGEGQKMIYELWVKQGKQYKNGIAVINVDGTDRYLVAVTRVLGTVGTVINATFGGDNETVTVPMLVMDEKDQDDCNVWKDSEGKGWGHATCNKGTLDVSNKKCNQSDKGELVCDPAKDPINVIEAEVDIETYKKYSNVKTSKWGVEWDTSKPLISVKKFGRILTDDNKSYSTDFDLSGSGSGNSELASEENYIASNGLQLCYPVGTSSKIDQYLSKAMEYANDDKIGWDSSKRDLNPNVDCSSFVYYSLLNSGVIQAESSAFDTTGMGKVLVKNGFEEYDYNESELQRGDIIVDPRAGNDGHTVIYLGDGKEIAAHSNRDGKDGDSDGKEVCISDFNPSSHKYTKYYRVKYDPEEDEEGSVPGVSHGVSAGTEIISYKNEKYVAIKTTYPGSGGKTGVLGYADMLEKNNINQKYKYCKGEKCEAPNWKGCCLGFAQTAACGLYYGREVTLNDKVNGKKLESLYDGQCNSNPTPCAGNFRTKCFATEAEMTTYIETRIQLGKPILVLVSTGNISGVSKKEFNKKTNVDRHWVTVVGFKDGSMGTDSLDLIYIDSYDSTFHKIGEKRYILKNTNASYHDNACTDEKPYIIVDFE;locus_tag=LOCUS_3270;note=MGA_330
sequence04	MetaGeneAnnotator	CDS	39101	41317	.	+	0	ID=MGA_331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKFVAEKRDVVIFAVLCFFLLFLIAIVISNVKNIVEYGTPAGINFLIAFYPSNILVTLLVWIVIIAALFGTTSSYFFDREKGFGFSDEKKTNGYSKWFKDKDIIAQRGVLEVPYNVSKIDGGGVPLVYGKDSAYVDNGESHTLVIGATGSGKTSGFVDPTMVHLMKGRESMIITDPKGEIYEHHSAKLKELGYQIIILNFREPQKGNCWNPYDLPYAYHKEGNFDKANELLNDLATNIVVDGQGDDPFWQNAAADYLTGIGLALFQDAPKEAININSVNLMINQGEERIGPKTYMQEYFNMQDPTSPISVNMGAVVNTAQDTKAGVLTVLQQKVKTLAVTRNLSEMLSKSDFDMASIGEKPTAVFMIIQDEKTTYHSLATIFIKQCYESLITVAHKHGGALPVRTNFIVDEFANMPKFKDITTMVTAARSRRIRFTFIIQNFAQINKTYGKEEAETIRGNCGNMIYLLTGELQALEEISKLCGDKIIRVGKDKKEETRPLITVTELQTMPFGTFILIKQRCSPYKGKIKQGFDTDFGFGKGADYFGKNVVYPQREMNEIPVFSIKEFVQAKKAENKPRIDFGPQGGGNPFMNNPFANNNSIPNNTPNPFAGGQMPSESELDDIIKKIDAQIAALEKEEAEEKAKQAESNNNVEQVSIPVPEVKEEVTIQPEVKTDIEVKEATHIEEGGPKTTEVVHSNMVDFDNFNLKDNNDNTGKEVKEEKEDYDDFFDDFFDEE;locus_tag=LOCUS_3280;note=WP_010965270.1 type IV secretory system conjugative DNA transfer family protein (Clostridium) [pid:24.3%25%2C q_cov:64.1%25%2C s_cov:80.4%25%2C Eval:2.5e-34%2C partial hit],MGA_331
sequence05	MetaGeneAnnotator	CDS	409	1212	.	-	0	ID=MGA_334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKGIGREYNKLKDMAYSTGVTMEEYKEIKNLLELLKERKTDEPRVQNLINELKCLRDKIYETGLTKKFSPSTEQYIRTRSDVLPLAFSHSIPNKITKMRGNNSFAIPFKFTPSDPDDNLLIVMDLNNRFNCTQCDKRGDAVELLMAIENLNEGQALEVLCHIYGYSIPFYHDRMHGISLEYREALKSEDYGNMLFDAEQRLYDKGILVYEGEYVEDLYTRKQEAVQRAFQGIQDPNFKYEEPPQRVILTPNRGFNPFYPHRKNKK;locus_tag=LOCUS_3290;note=MGA_334
sequence05	MetaGeneAnnotator	CDS	1271	2203	.	-	0	ID=MGA_335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIIAIISLLLLVTITGCNTTKKDNKLTILTTNFPSYDFARAITKEVPNTSVEMLLKPGTEMHNYEPTPKDIIKISKSDIFIYVGGESDEWITDLLDNIDTKNTKVIKLMDLVDTVEEETVEGMETEEDEEEVEYDEHVWTSPSNAITILEELNDIITNMDPSNESLYNINTSIYINEINNIDNSIKNIVDNSSRKELVFGDRFPFRYFVDEYNLSYYAAFPGCSSETEASAKTISFLINKVKEDNIPVILTIEFSNKKIANTISKETGAKVLELNSAHNISEEDFNNGKTYIDIMKENVEVLRQALQ;locus_tag=LOCUS_3300;note=WP_000724074.1 zinc ABC transporter substrate-binding lipoprotein AdcA (Streptococcus pneumoniae) [pid:30.7%25%2C q_cov:96.1%25%2C s_cov:59.1%25%2C Eval:8.8e-37%2C partial hit],MGA_335
sequence05	MetaGeneAnnotator	CDS	2298	7022	.	-	0	ID=MGA_336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKERKNILNINRFLSLMITIMAIVSFGVIINTVTAASNLLKIDSVSIKEKSTTVNGSVTNYNNDEIDNSFTFHNVGDYVIYRIIIKNVKNDVVTINTITDDNSSPYIEYEYDKHENEDISANGSLEFLVKATYKNAVANVSERTQASNVKFIFDLTYNGKDDSSSIDINPKTGDNIVVMILLLSFSLIGLVTCVLINRKSKVSKTLVVIGILFTPLIIKAASYSYDFLLVSQYGLYDKEVVTYTIDGVTDTKTVSYNEICDLPDIPSRTGYTSGWVTDSGYNFDPSTPITEDIKITATYTIINYNINYTLNDGVVTGTNPTTYNVETGEIVLKNPTKAGYTFDGWSGTGLSGNNNTTVTIPSGATGDRSYEAHFTMVEYDINYSGVTPAETASLGNPLKYTVETNTFSLANPSKVGYKFDGWTGSNGSTPSTNVSITKGTTGELNFTANFSIIDYSLSYELNGGTVSGTNPPTYNIETGVITLINPTKDGYTFTGWSGTDLTGENNTTVTIPSGATGNRSYEAHYSIIQYDINYSGITPAEAEALGNPLKYSAESSTFTLINPTKDGYTFTGWTGSNGSTPSLNVTILSGSTGELNFTANFTLIDYDIDYELHNGIVSGTNPITYNIETGVITLINPTKANYTFTGWSGTDLTGNDNMNVTIPSGSFGDREYEAHYTPTNYDITYLGITPTEAAALGNLLQYNVETASFDLINPTKNGYTFDGWTGSNGANPELLVTVQTGTTGHLSFTANFTPIDYDIGYELHGGSVSGTNPITYNIESGAITLINPTLSGYDFTGWSGTGLTGSDNTSVTIPTGSTGNRTYEAHYGPISYSINYSGITPAEAQALGNPLQYNAETATFSLINPAKAGYNFDGWTGSNGTTPEFTVTITQGTTGNLNFTANFTPIDYDIDYELNGGSVSGTNPITYNAETGVIVLINPTKNGYEFTGWSGTDLTGNDNTTVTIPAGAIGDRSYEAHYSLIQYNINYSGITPAEATALGNPLQYNIESNTFSLINPTKTGYNFDGWTGSNGTTPEFTVTIDHGTTGVLNYTANFTPIDYDIDYELNGGSVSGTNPITYNIESNSITLINPTKTGYTFTGWSGTDLTGNDNMSVTIPANSIGDRSYEAHFVANKYYVEFNSNATDAVGNMSNQEFTYDVSGQLTDNAYTRDGYIFDGWNTSDDGNGTPYANMTNVTNLATSGTITLYAQWHEDLVTVTFNANGGDSVNPISIRRNTPLGVLTTPTNNDSHKIFVGWFINLTDVTPIDGTYAPSADITLIAKWRNDTDVCEMNGVYYATVQDAVNAAPASETSNPADATQVTINLLTDIHMTTGQNYVLDMFNDKDLRDNVDYKNTLKNIVLDMHGYGFYQPTGSGVNNYIMRTKGYLEMKNGYVESNSKKGAVEADGNKSRLTLNNMHIEAKNSTAGNKRQAVYNDGGTIYIIGGSELIAGAPISNDYPRGTLHTLNGGTTYLLDATVITNNSTGYAISAEGGTTVLGTKDNNYDTSKITVTGGAYGIWIKSSASVKIYDGMILNPTSPVISDETRIIDKENGYEITTDNDGTYYRTYYTITP;locus_tag=LOCUS_3310;note=WP_027390899.1 InlB B-repeat-containing protein (Chrysiogenes arsenatis) [pid:25.8%25%2C q_cov:60.6%25%2C s_cov:13.2%25%2C Eval:6.6e-75%2C partial hit],MGA_336
sequence05	MetaGeneAnnotator	CDS	7149	7541	.	-	0	ID=MGA_337;product=pyridoxamine 5'-phosphate oxidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005814175.1;translation=MEEVLKFLKDCGYYFIATIDGDKPRVRPFGTAEIFEGKLYIQTGKKKNVSKQIEANSNVEICAFKDGKWIRISGNLVRDERIEAKKYMLDQNPDLRSMYNENDDNTEVLYFEKGTAVISSFTEEPKIINF;locus_tag=LOCUS_3320;note=WP_005814175.1 pyridoxamine 5'-phosphate oxidase family protein (Desulfitobacterium hafniense) [pid:59.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-40],MGA_337
sequence05	MetaGeneAnnotator	CDS	7549	9114	.	-	0	ID=MGA_338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKKEEIVEKQEEINEEKKKPSKTLVVIFIIFMSLVLLGIGGIIIYNALNGGSTSVKPTLEPLPKAEADPSRGDFGVDKNINIDTIDKYLGRSDTVYRDMRMLEDPAIYENLGGNRYLNGYIKGFEVIPLPYIIPVNGLPVEVGQTYEGITLFYEQDGKYIANYEESMEILEKYFPKDKNIFLMCGGGGYAFMMKNFLIAMGWDADKIYNIGGYWYYKGENNVDLTRDNGTYDFDSAPYIEINFNELTKSAAYKDSGIRVTSVSLSSDTIELEERLTYNLFAYVLPNLASNKEVTWSSSNEKVATVSETGVVKGVKEGSAIITVTTKDGGFTASCTVTITKRIENKINADDVSSENKEFSNVGVHEIELKYNKLFYGDDNILKYDYNDPTYIKLRDQRIAELEPAITKEATILKKLVDNKKSFIIIYNREMCGDRPYNIYERAPEVLKSNNYSFIDVEDDIYLDSGSLLDKVGFDKELINDGSLIVVKEGQVIASLNPDFTVINNEADFKAWITKYIDLK;locus_tag=LOCUS_3330;note=WP_011459271.1 Ig-like domain-containing protein (Desulfitobacterium hafniense) [pid:33.1%25%2C q_cov:27.6%25%2C s_cov:30.0%25%2C Eval:5.7e-11%2C partial hit],MGA_338
sequence05	MetaGeneAnnotator	CDS	9179	10450	.	-	0	ID=MGA_339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEIIDVNESTSSGEKKTNKKFVEVEPMKEPKRKIKTESNTESYFDGTFFELLAYNYLMIFLSVFTLGVGAPWGICLYNKYIYSHMVISGKRLKFDATGDTLFAKYFKWAFFNVITFGIYSIWIPTRMKEWEVSYLYFEDEKLITGDSYFTGNVGEYFGIRLLCLLITVVSFGLLSPVAEVIRLRWELNHYVINRKVVVFKGTPGAFFVKKLVWVLLSIITFGIYALFIPLKTLRWETSNTFLAREGEVDTKVYAKAASEKSSGKGMNKGLLFAIIGVFAVAIIIGIVKLVSILGPIDQDYAIQMENIMDNTYNELKNGGSSTAKDSNYKRNAKELNLESINDFIEEGGKAKYENYAYESSDKFAVQLTLRKKTTYCTGNISSNYGVYHVVCRSIKNEIKSRLGFNGNGMLESETKRDYDYEY;locus_tag=LOCUS_3340;note=WP_002360604.1 DUF898 family protein (Enterococcus) [pid:43.8%25%2C q_cov:21.0%25%2C s_cov:88.1%25%2C Eval:1.4e-17%2C partial hit],MGA_339
sequence05	MetaGeneAnnotator	CDS	10516	11112	.	-	0	ID=MGA_340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVLINFKICDNAKECGGIEVCPTGALSWDEKNETIKIDNDKCISCGACERNCPIGAIKVARTLEEFEKIKEEIDNDPRTVKDLFVDRYGAAPLSEFFMINEDEIESKLTDVIVLVELYNDDSIECLLKSIPIKEITSNMPSDTLFYKAEVSNNKYNVSDFPSLLIFKNKKLKGIVNGYYTNNQKEELINEIKKILKD;locus_tag=LOCUS_3350;note=WP_011020483.1 4Fe-4S binding protein (Methanosarcina) [pid:45.3%25%2C q_cov:24.7%25%2C s_cov:88.3%25%2C Eval:2.6e-07%2C partial hit],MGA_340
sequence05	MetaGeneAnnotator	CDS	11114	12250	.	-	0	ID=MGA_341;product=cysteine desulfurase NifS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010937967.1;translation=MINKIYLDNNATTKVDEEVLNAMLPYLKEEYGNPSSAYSIGRNVKEEVTKARDSVAKLLGAAPKDIIFTSCGSESNVTAIMNAVRNNPDKKHVITTKVEHASIMETMRYLEKTGYKVTYVGVDSLGRLNIDELKNSITEDTCLITVMYANNEIGNIYPIKEISKIAHENNIYFHVDAVQAAGKIKIDVKDLDVDSLSISGHKINAPKGIGVLYIKDSSKFIPLVFGHQEDNRRGGTENTAYIIGLGKAAEMINEDNFSKEKEIEELRNYLEEEVKKNIEDIKIYGDLDNRTPNTTSIAFKGVKADELMLLLESFDIFVSTGSACNSVISLPSYVLAACKADLNNYSPIRISLGKYNTKDEIDVFVKILSNAVNTLRRK;locus_tag=LOCUS_3360;gene=nifS;EC_number=2.8.1.7;note=WP_010937967.1 cysteine desulfurase NifS (Desulfovibrio vulgaris) [pid:46.5%25%2C q_cov:98.4%25%2C s_cov:94.9%25%2C Eval:5.7e-92],MGA_341
sequence05	MetaGeneAnnotator	CDS	12352	12714	.	-	0	ID=MGA_342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIERINRKPLDYIEDESGERRNFDHSFPNPDQDVDKSELIWAENFRGCLDYEEPEDKEYSAEEFEELANKAMLADSMQESLARLEKLKEVAEKQRERDRERIKFVSAFGEPFKNNNMNR;locus_tag=LOCUS_3370;note=MGA_342
sequence05	MetaGeneAnnotator	CDS	12717	15209	.	-	0	ID=MGA_343;product=preprotein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000579368.1;translation=MSIFKKMLDTEYKELKRFMKIADQIDAKSEEYSKLTDKQLQNKTKEFKELLEEGKTLEDILVDAFATAREASKRVIGEYPYYVQILGALAIHYGNIAEMKTGEGKTLTSVMPAYLNALEGKGVHIVTVNEYLADRDANWMGKIYEFLGLTVGINARELSAEEKQAAYNADITYSTNNEIGFDYLRDNMVVRKEDRVQRPLNFAIVDEVDSVLIDEARTPLIISGGSMHTSNQYMDAQRFVQNLKENEDFTIDEKTKSISLTDVGSKKCEQFYKIDNMYDVNYSALVHHVNNALRANFIMHNEVDYIVQEGEVIIVDPFTGRLMHGRQFSEGLHQALEAKEGVKINEETKTLATITFQNLFRMYNKLAGMTGTAKTEEEEFREIYNMYVIEIPTNKPVIRQDMADLIFAAKADKYRAIIEEIKERHKTGQPVLVGTIAVETSELISGMLSKEHIKHEVLNAKNHAREAEIIAKAGEKGSVTIATNMAGRGTDIKLGDGVKELGGLCVIGTERHESRRIDNQLRGRAGRQGDPGYSQFYVSFEDELMVRFGTDRFKTILQAAGLGTTINLRSKTMTRNVESAQKRVEGNNYDIRKSLLQYDDVMAKQREIMYERRNEILDRDSIHDSILNLIREHIEEVVRGHLITSGELTENDVDEIAEYVNENLLRKNSLKVSEIINKRSEEVIDTVYEVVTKEYEEKINELPEDIVDSFEKVIALRVIDTHWMDHINTMDHLKEGIGLRSYAQTNPLVAYTKEGFDLFDQMISIINKETTIYLLKAEVKQNLERKQVEKPIKDNGGKEANKIQRKSNKVGRNEPCICGSGKKYKNCCGK;locus_tag=LOCUS_3380;gene=secA;note=WP_000579368.1 preprotein translocase subunit SecA (Bacillus) [pid:57.9%25%2C q_cov:99.9%25%2C s_cov:99.5%25%2C Eval:6.9e-283],MGA_343
sequence05	MetaGeneAnnotator	CDS	15273	15917	.	-	0	ID=MGA_344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKVLILLIAIILISGCSGTYNLTIDKDLSVEEKMNIVLEGKAEDYDKVVSLFTSNNIDSEKYKIITEEDNLNIEYKDVYNSVEEYLLNSFLYKQLFDSISFNTDRKQFSLEASNIFNNTSGKLNYSNKINKLKINVITPFEVIDNNADSIKDNKYTWVIDNNTKEKDAYIVFNVKGKILSFGTILIICSFALVIIILISMVIKKMFNSRKI;locus_tag=LOCUS_3390;note=MGA_344
sequence05	MetaGeneAnnotator	CDS	15917	16795	.	-	0	ID=MGA_345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTLCILFFIIKILVIIVFPILLFIFRNKIAKSYIYTEIVFIVIISVLYLIGFPYMVDSNLSNISNIKLLNNSNESILSNYIDELNSAEIVKSMEPDDTYRTHRNDKVYYYNGFEKSLSIKKIKCDNDYDYLKYYSDIIVSTSSLLSSYFNKKIDPIEVYNKAYTHGLVKCGEPINKDNFFYMIYQEYKVNFTLIKPEELENYILNGKIVLLESKGNGFLSCNQSYFLVYNIDNNGKYLLLDPNNKSYSYICPDDSTGFGNILKPNYNELSFDRSSLLMDTSRLIVIGGTR;locus_tag=LOCUS_3400;note=MGA_345
sequence05	MetaGeneAnnotator	CDS	16807	17526	.	-	0	ID=MGA_346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRIIIPLLIFIIIVIIVTFINSKTVYLGNQTRVYLLGNKIIKTNKNKKVLLKKINVYKNGNILKGYLKSAKVSNEYDYYAVSKSNNKYDLDDLIVSGTLTKIDVVLCDKSLKINDSTLLEINQLLDTNISLDSIQNYRMISKDIDNDSTKEKIIYISYTEDDSIYTNIFVVDNSEVTNIIDFSVSFDDLGKSYSLVGIIDFNKDKNYEVIVSRVDGDSQPTYYDIYKYDNNSIKEIK;locus_tag=LOCUS_3410;note=MGA_346
sequence05	MetaGeneAnnotator	CDS	17538	18764	.	-	0	ID=MGA_347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRIISITILLFFIFFIYNVKASVRYTATSVNTNYETYKNAMNEMANLKCDDTLYNQVTVDKCNSLALKKSTSLSHLFNAKNNDESLINDEINKVLEDNSTECNTVFSTEIQDILKKAFLLFYIAGPILLMLYGSLDMINAIIAGDEKKRKSLFTRFVKRCIALVLLFASPVIVSLLVHLFGADKYTANVYSCVYEEKKVTISYTPVVSKKKGKESEEKASSSAAEGIIKGAEELKKVTSEKKWTYACKGATTVLKNYRSNVTSTVCCADGVAAALVLGGVYDENTIANTKTLTKDKCGNYGGNNESATGLQAFLITQGWIRIENPSDLEPGDVVFFNPQSDKNFECIEKEGTSRAGHVEIYAGDGKTYNWGGNTSIQSQGAQNRVFPTSGKNSFIAGYRAPEGLGE;locus_tag=LOCUS_3420;note=MGA_347
sequence05	MetaGeneAnnotator	CDS	18825	19346	.	-	0	ID=MGA_348;product=ribosome-associated translation inhibitor RaiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000671190.1;translation=MKYLIRGDKYENTESIKEYIEAKLSRLDKYIKDSDDIEAVVLTKKEGRRYKIEVTIPTKDFTLRNEVTDDDLYAAIDLVIDKLERQVRKNKEKLNKKKKVIEDFEIDIEDNFMEEEVIVKRKSIELKPIDEEEAILQMELLGHNFFVYKDSDTDKICVLYKRKNGNYGIIETK;locus_tag=LOCUS_3430;gene=raiA;note=WP_000671190.1 ribosome-associated translation inhibitor RaiA (Bacillus) [pid:46.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-37],MGA_348
sequence05	MetaGeneAnnotator	CDS	19428	19859	.	-	0	ID=MGA_349;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966164.1;translation=MKIAIASDHNGYELKKYIIKHMKGIEFIDFGSDGKESTDDYVDYALKVGEYCVKNNIKGILICGSGIGMSIAANKVKGVRCGRVTSIKDVIATRNDNDANIISFAGYLNKERVLRIIETFINTPASNDERHLRRVNKISKYEK;locus_tag=LOCUS_3440;gene=rpiB;EC_number=5.3.1.6;note=WP_010966164.1 ribose 5-phosphate isomerase B (Clostridium) [pid:47.6%25%2C q_cov:100.0%25%2C s_cov:95.4%25%2C Eval:7.4e-26],MGA_349
sequence05	MetaGeneAnnotator	CDS	19907	20122	.	-	0	ID=MGA_350;product=50S ribosomal protein L31;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003421397.1;translation=MAKEKKEIYKDCKVVCACGATFDTQSTKDEIHVEVCSECHPFYTGAQVRTSKSSNVDKFNRRAAQAKKENK;locus_tag=LOCUS_3450;gene=rpmE;note=WP_003421397.1 50S ribosomal protein L31 (Clostridioides) [pid:56.5%25%2C q_cov:87.3%25%2C s_cov:93.9%25%2C Eval:3.5e-14],MGA_350
sequence05	MetaGeneAnnotator	CDS	20216	21463	.	-	0	ID=MGA_351;product=UDP-N-acetylglucosamine 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003732525.1;translation=MHIVKIKGGKTLSGEIVVSGAKNSIVGLMPAAVLCDEDVNIYNVPHLSDVDNLIDILEYLNVGVESKEDYMKIIPTNLCNKPIHSEFSKKLRASYYFMGALLGKYGHVEISFPGGCVIGARPIDLHLKGFKALGATITENGDTMIIDADELIGTNIYLDFASVGATINLMLAAVKAKGKTVIENAAKEPEIVNIATFLNSMGANISGAGTNKIKIEGVEYLSSCFHEVIPDRIEAGTFIIMGAALGDHLKVSNLIPEHVYSLTEKLREMGVPLEIGPDYVIVSKPEKYNPVDVQTLVYPGFVTDHQQLIASLMVLANGTSSIEETIYENRFQNLYELSKMGARIKVEGKKAYIYGPTKLTGTTVMATDLRAGAGLVIAGLMATGETEIQNADYILRGYENIVEKLSNIGAELELI;locus_tag=LOCUS_3460;EC_number=2.5.1.7;note=WP_003732525.1 UDP-N-acetylglucosamine 1-carboxyvinyltransferase (Listeria monocytogenes) [pid:53.3%25%2C q_cov:98.1%25%2C s_cov:96.2%25%2C Eval:2.8e-119],MGA_351
sequence05	MetaGeneAnnotator	CDS	21526	22629	.	-	0	ID=MGA_352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINELLKLNKKQLGALVLAFTMAGSISACKKNNKTVATTTTAETKSTIETTVPTTKETTVVETTTTTVDYKDEATSFYEANEAFFINEYGNDKEYAINELNDIILVLTNNSETITNEDLRNAFYAMDNMFMPTNVIQAAGNYITEEPIEHVENVPNLGRYIQDDQAKKIINENTAIVNNFINAMNNGTDEEKANAKTLLLQRVATIEENLDEYYYLGELSNGDELALNMSMKGLVNLAGSLVENGVLNYTDVNGNGQIIFLIPDARGAAIINTFAFAEEDGIPYDTKEITENGEKVLVNGRYVEFLGANGFERQFVPVAERNTILDTLAITKYNEATEYLENDLSRLSSEYYSLNGDCDTKTLSK;locus_tag=LOCUS_3470;note=MGA_352
sequence05	MetaGeneAnnotator	CDS	22640	23785	.	-	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKDRLWYEKKYISKLEKMNALKNDDELEEARDDLNEFKNNGFYASSKAGSLSKEEFFESENNKNYRKFVTKNASHMDEVIDGNKSAEKEVKRVKRKIVFRRFVKVVGGIAIVGLIAYGVHSCSKNKNNTKVIAIGETTPTTTYATEGETTSTVVTETASVVTENTEPNEPTTSYDESGVIPSISGDMSGIVIGEPTTTNETTIPTTNGTTTPTTNGTTTPTTKPTEGTEPTYTTLPTEPSIPSETTIPTTKPTEPTTNPSYEPGPSGMPVDPTGEPEPTTTYTTFPTEPTIVEPSEPTTKPSDETGPSGMPIETGGPTETTETYFTIPGTSTNVEAPSEGLYYDGMIIDEVSYYGYRTEIPFKTKTNPLNTKRLVLTRK;locus_tag=LOCUS_3480;note=MGA_353
sequence05	MetaGeneAnnotator	CDS	23887	24684	.	-	0	ID=MGA_354;product=16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000651548.1;translation=MSDISNFEFKKKFGQNFLKDNNVLNNIVEKSDIEDDTLVIEIGVGAGYLTKYIASKAKYVVGFEIDESLKAIIYNNLKDFNNVEIVYEDFLKANVTEILKKYDYKHVYVIANLPYYITTPIIEKIIDLNIAERLVVMVQKEVGDRFNAKMGTKDYNSLTLYLNYYFKISKVMDVSRNSFIPKPNVDSAVIRFDRYYRNDAKSENRLFTLIRDSFQFKRKNLRNNLKNYNLERIENTLKKYGKDLTVRAENISLEEFIDISNNLEG;locus_tag=LOCUS_3490;gene=rsmA;EC_number=2.1.1.182;note=WP_000651548.1 16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA (Bacillus) [pid:43.7%25%2C q_cov:97.0%25%2C s_cov:91.8%25%2C Eval:2.2e-51],MGA_354
sequence05	MetaGeneAnnotator	CDS	24686	25447	.	-	0	ID=MGA_355;product=TatD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435866.1;translation=MKLIDTHCHIYPSEMENAVDIIKECASNNIDVILNGVDIASNNEIIELSKKYDNVYAAIGLNYDGIDTFTDEDLILLEEQIKNNKVVALGEIGIDFYWTKENSDKQIYFFKKQLELAKKYDLPVIVHAREASQKVFDIIKESNVRKGSMHCYSGSTELAKEYIKLGFYIGIDGPVTYPNNKKGIDLITNIPVKNLLLETDSPYLSPESKRGQVNTPLNLKEIAEKVSEVKEISIKEIIDITYNNAKKLFNLEE;locus_tag=LOCUS_3500;note=WP_003435866.1 TatD family hydrolase (Clostridioides difficile) [pid:40.4%25%2C q_cov:98.8%25%2C s_cov:99.6%25%2C Eval:1.1e-49],MGA_355
sequence05	MetaGeneAnnotator	CDS	25485	27047	.	-	0	ID=MGA_356;product=methionine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002289325.1;translation=MNKFYITTPIYYPSGKYHIGTTYTEVLVDSLKKYHKMLGEDSFMLTGADEHGQKIENIAKEKGITPKEHVDEMAKMAKDLWALMKIDYDKFIRTTDDYHEKVVQDIFEKFLANGDIYLGEYEGLYCTPCESFWTESQLVDGKCPDCGREVKPAKEEAYFFNMKKYQDRLLEYYESHPDFIKPDYRKQEMLNNFIKPGLEDLCVSRTSFTWGIPVPSNPKHVVYVWLDALTNYITALGYGQENDDLFNKYWPCDMHVIGKDIARFHLIYWPIFLMALDLPLPKTIFVHNWINMKDGKMSKSKGNVIYPEDLISRYGLDALKFYLLVSMPSSTDGIFTPEDFVERYNSHLCNDLGNLVNRTISMINKYFEGNIPDYKGHINEVDETFENNVNSYIKEAKRYLDNCEFSQCVSTIFSIVSRTNKYIDETAPWALYKEEKMEELASCMNHLAYGIKTIAILIRPFMEETSDNILRQMGLDNNVTIEDLKNCKNFDGIKVIEKGEPIFVRLEDQVEIDYIKGLMS;locus_tag=LOCUS_3510;gene=metG;EC_number=6.1.1.10;note=WP_002289325.1 methionine--tRNA ligase (Enterococcus) [pid:56.8%25%2C q_cov:99.4%25%2C s_cov:79.1%25%2C Eval:8.6e-177],MGA_356
sequence05	MetaGeneAnnotator	CDS	27049	27531	.	-	0	ID=MGA_357;product=dUTP diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002939955.1;translation=MRKFELVTKEEYLKNVEEMDHLEYDDLMCPVRGTKHSAGYDFRSPISFTLKPKEIIKVPTGIKASMESDEYLALLVRSSMGFKYNMRLCNQVGIVDSDYYNNPDNEGHIFIKIQNEGEKDIVINKGDRFAQGIFSKYLLVDDDSSDSERAGGFGSTGKGD;locus_tag=LOCUS_3520;EC_number=3.6.1.23;note=WP_002939955.1 dUTP diphosphatase (Streptococcus) [pid:47.8%25%2C q_cov:83.8%25%2C s_cov:91.2%25%2C Eval:2.1e-31],MGA_357
sequence05	MetaGeneAnnotator	CDS	27565	30849	.	-	0	ID=MGA_358;product=transcription-repair coupling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011476305.1;translation=MIEDLIRIDEFDNIGITGLTKQLTSFCVVEIKKNSNRDIVLLTNSIYEGNMLYRAISKLYKNTFFFPMDDFITEESISISPDLLSIRLGTLDGLINNKGNILITNLNGLLRYMPSKEVWAKSIINITKEERNKDDLERDLSNIGYERSPFVTKTGEYSSRGFVLDIFPYNFENPIRIEFWGDEIDSIREFDIDSQRSIKDIDKVEIYPVSEFINSKNIDIEPKQKNIPQVLDDYVSIFDYLDNPITIYDDYGTIRKSYDRLSEDIINLNNELKRYDKYMFNLEDINIKEEIYLLKIDNLIEGKKLDHIYNLKGREVDRFNSNINYINEYLTNALFKKKIVIISIKDDNKVKNLEKFLDVPLYKTTVDNIDNTRINIIKTDYDYGFEVDNLILLTEYELFSSNERPNTYKNKFKVGTKIGNINNLSIGDYVVHINHGIGVYNGLKTIKKGDINKDYLEILYHGKDKLYIPVDKIDLITKYASSDSYVPKLNKLSDTEWQKTKLRIKNKVKDIAGKLLEISAKRKLKEGFAFEKDNEEQIRFESEFEYEPTKDQLIAIDKIKECMERKYPMDMLLCGDVGYGKTEVAFRAIFKAILSGKQVAYLCPTTILSSQQYKSAVERFKNYGVEIALLNRFTTAKDERIIKEKLKEGKVDLLIGTHKLLNKSIEYKDLGLLVVDEEQRFGVMHKERIKEYKENIDILTLSATPIPRTLQMSLVGLRDLALIETPPAARYSVQTYVIEESDQILKEAIYKEMSRGGQVFVLFNNIKHIEQKYHDIKRIAPDAEIRIIHGQMSKEEIEDTMLAFVNNEFDILLCTTIIETGIDIPNVNTLIVFDSDRFGLSQLYQIRGRVGRSDKIAYAYLTYKRNKSLTETSVKRLNALKEFTNLGSGFQIAMKDLSIRGAGDILGSEQAGFIDSVGYDLYTRILNDEVERLKGNMVKEVKEIEDEKPLVDVDNHIKNEYIKDESTKIEVHKLISTINSLDTLGVVKEEIEDRFGKIDEELEIYMYSKLYESMAKENDIDPLIKTNLYVEFVLKNPDIINIDKLFMDSYNITDKFKFENRNNGLHIKLFTHSLDKHYIYYLIDFLKLYEKCLK;locus_tag=LOCUS_3530;gene=mfd;note=WP_011476305.1 transcription-repair coupling factor (Ligilactobacillus salivarius) [pid:38.6%25%2C q_cov:96.3%25%2C s_cov:94.8%25%2C Eval:1.1e-222],MGA_358
sequence05	MetaGeneAnnotator	CDS	30854	31414	.	-	0	ID=MGA_359;product=aminoacyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966493.1;translation=MKLIVGLGNPGKEYEHTRHNVGFDVIDFFASKVGATIDKDKFQGLYTKGKVDGEDIILLKPQKFINLSGDVMRKYADYFKVNERDILVIHDDLDLEVGKIKLKERSSSGGHNGMKNIEANFKNNEYKQLKIGISNNKESDTKDYVLGKFSKDDREKIEEAIKKSYDIIIDYINLDFNELQNKYNKR;locus_tag=LOCUS_3540;gene=pth;EC_number=3.1.1.29;note=WP_010966493.1 aminoacyl-tRNA hydrolase (Clostridium) [pid:52.8%25%2C q_cov:85.5%25%2C s_cov:84.5%25%2C Eval:2.7e-45],MGA_359
sequence05	MetaGeneAnnotator	CDS	31411	32253	.	-	0	ID=MGA_360;product=16S rRNA (cytidine(1402)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000267808.1;translation=MSQKSYDNTPTLYLVPTPIGNLEDITFRAINVLKEAEVIFSEDTRETKKLLNYYNIDKKLIASHKFNENESSKKILEYLKNGYNVAVVSDRGTPSICDPGFEPSYQAIENGFNVVCLPGATAFTPALAMSGLNPNKFLFYGFLDSKKSAKKKELENLKNEKYTIIVYESPYRVEETLTLIKEIMGDRNISVAREISKKHEEVYRGKVDTIIEELGEPKGEFVILIEENKEQENYDEIDIISHVDKLISEGESEKEAIKKVAKMHGLIKNDVYIEYKEAKK;locus_tag=LOCUS_3550;gene=rsmI;EC_number=2.1.1.198;note=WP_000267808.1 16S rRNA (cytidine(1402)-2'-O)-methyltransferase (Bacillus) [pid:45.5%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:2.0e-61],MGA_360
sequence05	MetaGeneAnnotator	CDS	32234	32977	.	-	0	ID=MGA_361;product=tRNA1(Val) (adenine(37)-N6)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244526.1;translation=MKVVNDLLNINDMKIVQDTDYFNFSLDSVILSDYVTPRKGDKIIDFCSGNCPVPMILSTKTKDKIYAVELQKEIYKLGLESIKLNKLEKQIELFNMDVKDLCDKFETDTFDIITCNPPYFKINEQTKQNDNEIKRIARHEIYLNLDDIFKVCKKLLKNNGKVVMIHRPERLEEIMKSMTDNNITPKIIKFIYPKEGQNSNMIIIEGRKNARKGIKVLPPLIVHSKDNEYRDEIKKMFGGDRNESKEL;locus_tag=LOCUS_3560;note=WP_003244526.1 tRNA1(Val) (adenine(37)-N6)-methyltransferase (Bacillus) [pid:46.2%25%2C q_cov:95.5%25%2C s_cov:96.0%25%2C Eval:9.8e-59],MGA_361
sequence05	MetaGeneAnnotator	CDS	32964	33758	.	-	0	ID=MGA_362;product=stage 0 sporulation family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003427637.1;translation=MNIDVYGVTFKKFGRKYYFTPGKLDIKCGMNVIVETERGFQYAEVVTDRVSINKKTLLSPVKSIVRVSTKEDDIIYQNNLKDAEIAAKKCNELIEKFNLEMRLIDTSYNFERTHLYFTYLSSDRVDFRELAKELAKIFKVRIELRQVGPRDKAKEIGGIGPCGRPLCCSEFLYSFNNITINMAKNQNISLNPTKINGLCNRLLCCLDYEDETYTILKKDLPKVGTIKNYDDKKGKVISVDPISMTYKVQFEDGEITDMRRNEGR;locus_tag=LOCUS_3570;note=WP_003427637.1 stage 0 sporulation family protein (Clostridioides difficile) [pid:45.8%25%2C q_cov:98.5%25%2C s_cov:87.5%25%2C Eval:1.2e-65],MGA_362
sequence05	MetaGeneAnnotator	CDS	33760	34665	.	-	0	ID=MGA_363;product=DNA polymerase III subunit delta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000169577.1;translation=MLEDYLNEQKLVTKILLDSLNNDKLVQAYLFTCNDLDYLEKYAISFSKKILSSDNNEKICKQIDEGNYPDLTILYPDGKNIKKEQLSELQKEFQNKPIISNKKVYIITECEKMNAASANSILKFLEEPSDDIIAILLTTNQNIVIPTILSRCQILNLNNIATNKDVYEIFNERFTELEREDTFDTYFSKLLEFTTDIDSMKKKFFIKYKEYVDYFSNKEDIKIVVDFMLFFYYDILNLKFERDPIYFLKYIDFLEKVEKNNSKESINYKLEVLERTKLRLTSNSNIKMVLDKLIIELGKEI;locus_tag=LOCUS_3580;gene=holB;EC_number=2.7.7.7;note=WP_000169577.1 DNA polymerase III subunit delta' (Bacillus) [pid:29.8%25%2C q_cov:96.0%25%2C s_cov:95.7%25%2C Eval:3.9e-34],MGA_363
sequence05	MetaGeneAnnotator	CDS	34678	35280	.	-	0	ID=MGA_364;product=recombination mediator RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003421618.1;translation=MKFPKSLEDLIENFKLLPGIGEKNAERLSFAVLKFNEEQIENFSNSILNVSKKIKKCKKCNNLTEDSNLCTICEDESRDGSILCVVESTKDLILFEKSNAFKGKYHVLEGLISPLEGINPDDIKINELINRVKEEKIKEIILALNLSMEGETTSLYIIKMLEGMDVSITKIAAGIPVGADMEYLDSLTIQKALEGRIKVE;locus_tag=LOCUS_3590;gene=recR;note=WP_003421618.1 recombination mediator RecR (Clostridioides difficile) [pid:46.3%25%2C q_cov:95.0%25%2C s_cov:95.0%25%2C Eval:7.3e-50],MGA_364
sequence05	MetaGeneAnnotator	CDS	35280	35573	.	-	0	ID=MGA_365;product=YbaB/EbfC family nucleoid-associated protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002292337.1;translation=MNIQALMKQAQNMQKEIQKAQEEVGKMEFTSKKELVEVTVNGNKQVLSVKIDENIEKDDIEVLQDMILIATNDAINQANAEMEKRLGKYSQAMPGLF;locus_tag=LOCUS_3600;note=WP_002292337.1 YbaB/EbfC family nucleoid-associated protein (Enterococcus) [pid:47.4%25%2C q_cov:96.9%25%2C s_cov:93.3%25%2C Eval:1.2e-19],MGA_365
sequence05	MetaGeneAnnotator	CDS	35577	37214	.	-	0	ID=MGA_366;product=DNA polymerase III subunit gamma/tau;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001109040.1;translation=MIYKALYRKYRPKTFNDVCGQEIIVQTLKNMIISDKLTHAYLFVGPRGTGKTSIAKIFAKTLNCENPKDGCSCEKCSICEASNNNENIDIIEMDAASNNGVDEIRNIKNHVTLLPTISKYKIYIIDEVHMLSMGAFNALLKTLEEPPKHVIFILATTEPQKVPLTILSRCQMFEFKPISASKIEENLSNICKKEKIKIEDEALKQICEYSNGGMRDAIGLLDQLNAYTNGNIKLNDVILLNGRLSIEEITNFFDLVIDNKTEELFKFSDFIDVEGKNYISICEDFIKYLRNNLIDYQINSSNDVVKKFGKDNITKMIFTITDYISQMKLSSDKKIYFDLLIIRLLDIFDKKEDNVPRGTSKEEVNETKKESKKTEELVKVEKENNVPRGTLEDNPLYKQYDELMNIRINNILIKADKKSLTDYKNILTSDSEQYNLDELRFKNILSDCEIKAASPNGIVIVTSDDSIRYEMYDNFDLIEKCVQDKLKNEVLVCIYDEEKWNTTSESYRTRLRKKEVIDEIDESSVLINIKSSNKSEFDDLLEIGE;locus_tag=LOCUS_3610;gene=dnaX;EC_number=2.7.7.7;note=WP_001109040.1 DNA polymerase III subunit gamma/tau (Staphylococcus) [pid:35.5%25%2C q_cov:98.9%25%2C s_cov:98.4%25%2C Eval:1.5e-86],MGA_366
sequence05	MetaGeneAnnotator	CDS	37310	37714	.	-	0	ID=MGA_367;product=nucleoside deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583589.1;translation=MNQLIYDELNKLVDKAIKKDEVPVAALIVKEGKIIAKAYNKTNTSNNVLDHAEIICINKASKRLHNWRLNDCELYVTLEPCSMCKEVIKKSRVGKVYYILNQNEYETESNLSYIKLVDNINIEGKLKQFFKDKR;locus_tag=LOCUS_3620;EC_number=3.5.4.33;note=WP_012583589.1 nucleoside deaminase (Dictyoglomus turgidum) [pid:37.9%25%2C q_cov:100.0%25%2C s_cov:92.9%25%2C Eval:2.0e-22],MGA_367
sequence06	MetaGeneAnnotator	CDS	607	1110	.	-	0	ID=MGA_369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKKLKFGRKNKDAGSKPRRKFKIDLSVIIFIAIILIVGIIVFYLTIGQRGNKYGDRLRGIEKISFTKKDKSKFVDALKNNEAVKSASIDIQGRIIYVIVDFNESISIDDARNIVSDSLSNLSDEVKGYYDINALITKSDEKPNEDGKTQFPRSGYKKKTSGSIVW;locus_tag=LOCUS_3630;note=MGA_369
sequence06	MetaGeneAnnotator	CDS	1121	1645	.	-	0	ID=MGA_370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEEKNMTPKANKSWVNPSIGQESNSNLKSIVDNNTNEINSLKKEINKINEELSKLTNNEFVPIKEEKVNVEVDMPFASPFTESVETNEEIEVNDDTSTNEILDSVKEEVKEEVVPEETPIIEIPLEDTKDRIAVVVNRYNNDIVASTKGKGAKFISLTESEQSKLLSGKINEN;locus_tag=LOCUS_3640;note=MGA_370
sequence06	MetaGeneAnnotator	CDS	1647	1904	.	-	0	ID=MGA_371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRTITITNDQGQKVVADIVSIVNISSLNNEYIIYTFNKKDEAGNIKDYISRIKQDGENFILEQIEDLEEWNKVKEMITNSVKEA;locus_tag=LOCUS_3650;note=MGA_371
sequence06	MetaGeneAnnotator	CDS	2005	2979	.	-	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDNLTKEQINNIINENNRLRTLIKIFIIVLLVLLIFLFYFKKNIVDVNFKLNGSDTVVVNVFEEYKEEGVSAVIHGVDKSKEVIIDSNEVNTNKLGTYKVTYKLNIGILNIYKKLTRKVEVVDIIPPEISVESDTIYLDVGEELAIPDATAKDNYDGDLTENIEVSNNIDINNTGEYKITYKVTDSSKNESVKDVNVYVRTHKENCKIVITISEQKLRYYEKGKVVFETDTVTGINNGTPRGTYSILNKARNVELVGDDYVSRVRYWMPFIGRSYGIHDASWRSRFGGTIYKYNGSHGCVNISTKAAETLYNMVEIGTPVIVE;locus_tag=LOCUS_3660;note=WP_009898068.1 L%2CD-transpeptidase family protein (Clostridioides difficile) [pid:37.1%25%2C q_cov:57.4%25%2C s_cov:39.9%25%2C Eval:6.3e-25%2C partial hit],MGA_372
sequence06	MetaGeneAnnotator	CDS	3037	4503	.	-	0	ID=MGA_373;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880264.1;translation=MGYKLMVGLEMHCEISETNTKVFSGARNSYSVTPNENIRAIDMAFPGILPVVNKEAVKMALQASMVLNCKQPEYMYFERKNYYYPDLPKGFQLTQETKPIPVGIYGYVDYECNGEVKRVRVNNIHLEEDAASSDHLYDTTVIDYNRAGVPLLELVTEPDISSAEEAVAFLEHMKTVYQYLGISEADSKKGQIRCDVNVSIIDETLDMEDPSNWGTKVEIKNVNSFGGVRDAINYEYKRQVSAKENGTYDTEIIQQTRRWDEESGTTIGMRSKADAIDYKYFVEPNIPKFKLTKEWLDEIRTSIPELAYDRKQRYMNEYDLSEYDSNILVKEKKVSDFFDDTVKLGTNPKEACNWVNGMILSYLNTNLITIDEIYMTPDMLHDLIKLIDDKTISSKQAKDVFTKCLEEKKEPMSIVKDEGMMQITDESSIEAIVDEVLSEQAEAIKTYDPENPKALDFFIGQVMKKTRGKANPSIAYKMMKEKLDNITK;locus_tag=LOCUS_3670;gene=gatB;note=WP_010880264.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Aquifex aeolicus) [pid:42.5%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:1.3e-115],MGA_373
sequence06	MetaGeneAnnotator	CDS	4505	5962	.	-	0	ID=MGA_374;product=amidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183059.1;translation=MYMNKSIEELHELLKSGEVTSKELIEESLKLSHEIEEKYNAFVTIIDDAKEIPITDNLLSGIPCGIKDNYSTKGILSTGSSNTLKDYIPFFDATAYSKLKEAGAVMVNKTAMDEFGMGGTGTTCHTGIVLNPWDKTRMCAGSSAGSACAVAAGVYPYATGTDTGDSIRKPAAYCGIVGYKPTYGMISRYGVFPFASSLDHLGVLTRSVKDAAIVVDNMKGIDKNDMTSWDSSNIHLYDSLDGNVKGKKLCYIKEICDINEYDNPSNELKEHFNNFFKALDKAKELGIEVEEVSINRTLLNALASVYVVISCAEATSNMSNLTGIIFGPRSEGFNNWIDMVKDYRTKGFSSLIKRRFVIGSYVLQSENQDRYFRNAQRVRRLLVDAWKDLFKTYDGVILPVSSGPAKKFDGDTDMLTKETVTLEEHLQIGNFGGFPSITIPDGFIDGLPVGLNITGNCFDDINVLNIAYALESAMDYKNQIAKEAE;locus_tag=LOCUS_3680;note=WP_011183059.1 amidase family protein (Mesoplasma florum) [pid:38.1%25%2C q_cov:99.4%25%2C s_cov:99.6%25%2C Eval:2.6e-87],MGA_374
sequence06	MetaGeneAnnotator	CDS	5964	6263	.	-	0	ID=MGA_375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKFTKEIVDDLADKLLIGLTPEENKMVLDEFDIIDEQINIINDIPGIDKVEPMTHTLDDFEYELREDIVEESVPIDDLLSNCDNVSGREVEVPKVVG;locus_tag=LOCUS_3690;note=MGA_375
sequence06	MetaGeneAnnotator	CDS	6287	7654	.	-	0	ID=MGA_376;product=asparagine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_110460183.1;translation=MDLIDVFKTKKIGDEVVLEGWVRNNRDQKEFGFIDLYDGTSINTLQIVYDNSMSNFDEITKIHVGSSIKVEGKLVESNGKQEYEVKPTKIEVIGDCPSDYPIQPKRHTMEFLRSQAYLRPRTKTFQAVFKVRSVAAQAIHEYFQSNNYVYVHTPLLTTADCEGSDQMFKVTTLDLNNVPKVDGEVDYSKDLFNKQTFITGTGQLHGETFAMAFKKIYTFGPTFRTENSNTKTHANEFWMIEPEMAFMHLDDLMNVEEEMLKYVVNYVMDKCKDELEFLDQFVSNGLIEKLSKVVNNNFVRITHKEAIDLLLNSGEKWEFTPDYESDIAKEHEKWITDHFNSPVFIYNWPKDIKAWYMKLNDDGKTVAAVDLEVPGSGELMGGSEREIDLDKLDELIKVHNVDRESIEWYLNLRKFGGCYHSGFGMGFERLIMYLTGIENIRDVIPYPRTPGNCDY;locus_tag=LOCUS_3700;gene=asnS;EC_number=6.1.1.22;note=WP_110460183.1 asparagine--tRNA ligase (Ruminiclostridium sufflavum) [pid:53.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-148],MGA_376
sequence06	MetaGeneAnnotator	CDS	7664	8950	.	-	0	ID=MGA_377;product=aspartate--tRNA(Asn) ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868079.1;translation=MKRILINELVENEESKISGFASKIRDTKYMIFVILKDRTGSIQVSLDKGTQEELCKSLDGVIAGSVIEFEGKMVLSEYVKQGGKEFIPSKVNVLSKAEASPLEENANIDTRMDYRWIDLRTEKNQLMLNVQSTFVEGMREHCYKEGFTEIHTPKLIGAASESGSDVFEVKYFDRKAYLAQSPQFYKQMALASGLERVFEVAPCFRAENSNTNRHATEFTSFDIEFAYIDSFEDVMDFEEDLIIAGLSKVKERYGDKIKELFDKEVIVPTKPFPRIKLEDLYKELEKRYNYQIPEFDVGDMNAEAEGLAYKYAMEEFGHEFIFITDFKKTKRAFYHMRKNDIPQGFDLIWRGAEITSGAQREHRYEELKKQCDEKGLTKDVEFYLQFFKYGCPPHGGFAIGVDRFNMLLLGLSIKEEMFIFRGPNRLEP;locus_tag=LOCUS_3710;gene=aspS;EC_number=6.1.1.23;note=WP_010868079.1 aspartate--tRNA(Asn) ligase (Pyrococcus abyssi) [pid:39.9%25%2C q_cov:98.8%25%2C s_cov:97.9%25%2C Eval:3.2e-78],MGA_377
sequence06	Aragorn:1.2.38	tRNA	9286	9361	.	-	.	ID=Aragorn_11;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0110;note=Aragorn_11
sequence06	MetaGeneAnnotator	CDS	9499	10665	.	+	0	ID=MGA_378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGDSYRKIPKEDKKLFNDSLKLVTNFMTNDNDDKKRYRIKLISAIEQFIRSNPEELDEKEREKLKTVAGICIPSENRNIIFRKLNLFPLKKSHKCKVAINKALALKKFEELLVLVHEINHADTMQYEKTKKFVVLFSGLRRFVFEDINTTKIYGTGLNEIINELYAQIQVYSVLPDMFTNISSLDELIYSFKIPEYKVGFIGSGLPYRRMGIISKLLLIASDNDLTTSYESLKNSKNKFIEKPVLLNGQYCVKNDLLYAGKQNAREYGERFDQLCEKTGSFVHLLKGFDILLSAERKKEPYNIKAIANIIGIIDKYKDAKYNAFINNGLWDQEKKEIHEYAYSTYRDFLCKQYGIDPNSIQNESQDITPKELETTDEPLETINIKSK;locus_tag=LOCUS_3720;note=MGA_378
sequence06	MetaGeneAnnotator	CDS	10690	13104	.	-	0	ID=MGA_379;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001830785.1;translation=MYSHKEVEKKWQEYWLKNKTFKTDIRDFSKPKFYVLDMFPYPSGVGLHAGHVEGYTASDIVSRYKRMQGFNVLHPMGYDSFGLPAEQYAVQTGNHPSGFTEKNIETFSKQLIELGFDYDWDRCISTSDPKYYKWTQWIFKQLYNDGYAKYIDMPVNWCEELGTVLSNDEVIDGKSERGGYPVIRKNMKQLCIDQPKFAERLLEGLDEIDWPLSTKEIQRNWIGKSTGVEMDVEIKDGGKFSIFTTCIETVYGITFFVIAPDGKLIEELMPRVENKEEVKAYIDETAKKSAMDRTELNKGKSGVEVKGVKAINPINGEEVPIFLGDFVLGDYGTGAVMAVPAHDQRDFEYAKEHNLDIIEVIEGGNIEEKAFEKYDYLGKNCKLINSEEFTGLIVEEAKEKITDKLVSQGIARRTVNYKFREWIFARQRYWGEPVPIVHMDNGEDYILPDEELPLELPVLDDYQGHNGKAPLENAEEWKNYDKNGIKGIRETSTMPGSAGSSWYFLRYIDPHNDDVFADYELLKHWMPVDLYLGGPEHAVGHLIYSRIWNNFLYDKGLVPVKEPFKKLVHQGMILGSNGIKMGKRFPEYCVNPSDVVREYGADTIRLYEMFMGPLEASKPWSDQGAEGARKFLDRVYRAIVELGYVTDEEVSNLDTPYNKMVKNITEDYDNLSFNTAISEMMIFMNAVYKEEKLPKKYAEGFVKVLNPVAPHITEEMWEKLGHDNTIAYEKWPTYDESKLVEDTFEMVVQVNGKVRGKLEVTEDMSEEEIKSKAKEIENVKRFIEGQTIVKEIVIPKKLVSIVVK;locus_tag=LOCUS_3730;gene=leuS;EC_number=6.1.1.4;note=WP_001830785.1 leucine--tRNA ligase (Staphylococcus) [pid:54.9%25%2C q_cov:99.9%25%2C s_cov:99.6%25%2C Eval:5.1e-267],MGA_379
sequence06	MetaGeneAnnotator	CDS	13097	13483	.	-	0	ID=MGA_380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYKKILELLIVFAAFFIIVYFGYYGLIRRPFIRATKKQKEKKMPADLSIMKHYYKIDVEKIGYNKCLSLLNFVNALLIAIMMMIVIGFKYYVLQMIIAAALVIPTVWFSYALVARILRKKERKVNNV;locus_tag=LOCUS_3740;note=MGA_380
sequence06	MetaGeneAnnotator	CDS	13757	14683	.	+	0	ID=MGA_381;product=TIGR01212 family radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861205.1;translation=MFKYTLDNKRYYTLNYYNQMKYGCKVMKISLNAGFTCPNIDGTKGTGGCIFCLGGSNKNTEKDLVKQFYEVRDIMAKKWPDAKYIGYFQANTNTYAPISELKEKYESILELPNVIGLNIATRPDSISDEIFDYLEELSHRTNLVIELGLQTINDKTVELINRGSTLKEFDDCLEKLNKRNIDVVVHIINGLPYETKEDMINTVKYLSNKKILGIKIHMLHVLKGTKLYKLYEKEHFHILTKEEYVDIVCEQLEYLREDIVINRITGDPDIEDLIEPEWLVKKFGVLNEIDKEMVKRNIYQGDKYKRMD;locus_tag=LOCUS_3750;note=WP_011861205.1 TIGR01212 family radical SAM protein (Clostridioides difficile) [pid:52.8%25%2C q_cov:98.4%25%2C s_cov:98.7%25%2C Eval:2.7e-91],MGA_381
sequence06	MetaGeneAnnotator	CDS	14680	15228	.	-	0	ID=MGA_382;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002289118.1;translation=MNIKCISVGRLQANCYILEKDGKVLIVDPGDEFERIDSNINGDVVGILITHNHFDHVGALKEFISKYKPILYYYNINDEVSYDKLIDLKEETYKIGNFEFNVIYFPGHRNDLCAFYFKENNIMFDGDFVFENGIGRVDLPHGNISELKSSLEKLMKYDDSITLYPGHGNKTNLGIEKEWIIG;locus_tag=LOCUS_3760;note=WP_002289118.1 MBL fold metallo-hydrolase (Enterococcus) [pid:31.2%25%2C q_cov:97.3%25%2C s_cov:96.2%25%2C Eval:9.8e-24],MGA_382
sequence06	MetaGeneAnnotator	CDS	15228	15725	.	-	0	ID=MGA_383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLYIDFDGVILDTITPVYDLARKLNIEPKTQTKEVGLLYSKIDWETLIDESPALNDSINAIKKLKNSKKFNISILTHVNSLKEAKSKIEFINSLFNDLTIIPVPKSCSKTMMTQTKNAILVDDYSGNLKEWKEAEGISVKFSKEKEETEFIDITSLEELLNIF;locus_tag=LOCUS_3770;note=MGA_383
sequence06	MetaGeneAnnotator	CDS	15722	16384	.	-	0	ID=MGA_384;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009892161.1;translation=MNNLKVLYEDNHIIVVVKEPNIIVQEDDTKDKDLLTMVKEYVKVKYNKPGNVYIGLVHRLDRPVGGVMVFARTSKAASRLSDSIRKKEVKKTYLAIVHGKTKDSERLVDYISKDEKTNTTYLDKNGKEAILTYETLYYDERNDRSLIKVNLETGRHHQIRFQLSNIDHPIVGDNRYGKMEHENIKLFSYSLEFIHPVTKENMVFKEIPNWSIIENVKELL;locus_tag=LOCUS_3780;note=WP_009892161.1 RluA family pseudouridine synthase (Clostridioides difficile) [pid:55.5%25%2C q_cov:91.4%25%2C s_cov:93.7%25%2C Eval:2.3e-58],MGA_384
sequence06	MetaGeneAnnotator	CDS	16377	17252	.	-	0	ID=MGA_385;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003434910.1;translation=MSNLKIFNDFDEYKILDMAHGEKLESWNGVILRRPDPQVIWSDESFPELWDKADAVYHRSNTGGGAWEKKTNIKDEWQIHCKDLTFNLKLMGFKHTGLFPEQAYNWKFMIDKIKNSGRKIKVLNLFAYTGGATVACAYAGADVVHVDASKGMIDVAKENIKSSGLEDKYVRFIVDDVIKFVEREIRRGNKYDAIIMDPPSFGRGANKEVWRFEENLYDLVKLCMQVLSDNPLFFLINSYTTGISSEVLRNILLLNFKDKGIVTHGEVGLSMENSRLNLPCGIYGRWEKEDE;locus_tag=LOCUS_3790;EC_number=2.1.1.-;note=WP_003434910.1 class I SAM-dependent methyltransferase (Clostridioides difficile) [pid:61.2%25%2C q_cov:98.3%25%2C s_cov:99.7%25%2C Eval:1.9e-99],MGA_385
sequence06	MetaGeneAnnotator	CDS	17279	18145	.	-	0	ID=MGA_386;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008765521.1;translation=MKREFIVLEKEELLSFLRNNLTSKSKNNLKSLLAKEMVLVNGKVQTKFNFILFKGDKVEIRDTKIKTDNNYKKEIKIIYEDEDIIVVNKPAGLLIISTDKEKEYTLYHMVSSYLKTKNKNNKVFIIHRLDRETSGLVMFAKNQKAKNLFQSNWDKMFIKRGYFAVVEGTPVDKEKTLVSYLNENEGHMVYETIKTKGKYACTQYRVISENNKYTLLDVNIKTGRKNQIRVQLKENGNVIVGDKKYGSNIDPLKRMALHAYKLEFNDPRTNKRVNIEIDLPYAFSKLVK;locus_tag=LOCUS_3800;note=WP_008765521.1 RluA family pseudouridine synthase (Bacteroides) [pid:39.4%25%2C q_cov:97.9%25%2C s_cov:92.5%25%2C Eval:1.3e-52],MGA_386
sequence06	MetaGeneAnnotator	CDS	18183	18854	.	-	0	ID=MGA_387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIFNGKMYHFRYHDSFDDIWKPGNTIQVGPNFNAPKQIDVAGVATGVKINGTSIVRPVTDLIDYTMCDVNDILDKASKKNIDYKELLAVINRLSSLLKGCRRIIDDTQKSIIERALEEVRRQNYDFYPSRLNSLSVSDKEHIKYWASVYPDSDLFELNLLGNIFKTSAELIPQEGLSLSVTKMMSFPYWDPKFDSAEVEEKTEYLFNGSARVLRKVDKKEFE;locus_tag=LOCUS_3810;note=MGA_387
sequence06	MetaGeneAnnotator	CDS	18869	19270	.	-	0	ID=MGA_388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRYDDIINLSRPESTHPKRPMSARAGQFASFKSLHGYEDDIKEQGRYVDNKIEIVEDKKESLDEILNTIRSNLSFKVRVKYFKKDKYKDGGKYLYKVGLIKKIDEINKRIIFDNKEIIDICDIINVEIYEEI;locus_tag=LOCUS_3820;note=MGA_388
sequence06	MetaGeneAnnotator	CDS	19263	20744	.	-	0	ID=MGA_389;product=Y-family DNA polymerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007057658.1;translation=MDRIYMCIDLKSFYASVECVERGLNPLDTNLVVADKSRTDKTVCLAISPTLKQYGLSGRARLYEVVAKVKEVNKERKKNNNYRPFKNKSYINSDLQKDKSLELDYITATPRLRLYMKYSTDIYNIYQKYISKDDILVYSIDEVFCDITTYLKLYHLTPEELVTKMIMDVYNTTGITATAGIGTNMYLAKIAMDISAKHMEANEYGVRLAYLDEQKYKETLWEHEPLTDFWMVGRGTAKKLIANKMYTMGDVARMSLENENLLFKLFGVGAEFLIDHAWGYEPCSMKDAKSYRPSTSSLSTGQVLHVPYNAKDAKLITKEMMDGLILDMVRNHQLTNQIALTINYDIKNMENDTYKGEVIIDHYGRRVPKYSHGVSNLDHYTSSTKIITDTISKLYDDIVNEELYIRKITVGVNDLIFDDDSKKDLVMKQLDLFTTETEVVKDEKEEIREKEVQEAIIKIQNKYGKNSILKGTSLDKKSTAKRRNGEVGGHKGE;locus_tag=LOCUS_3830;note=WP_007057658.1 Y-family DNA polymerase (Bifidobacterium) [pid:42.7%25%2C q_cov:99.4%25%2C s_cov:97.9%25%2C Eval:1.5e-117],MGA_389
sequence06	MetaGeneAnnotator	CDS	20809	21294	.	-	0	ID=MGA_390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRKKILVYFLILALIGLASVVVFNTLKSKHRRFNLENEYYNDKGLTDVSVKELEDMLEYEESFILFVYNDFCSFSVPCDSVFDEASKKLNMQILQIPYKEFKKSSLKRKIKYAPSVIIFNKGKIVKYLDAEKDEDKERYQNKFKFQNWVTDNVYQRKEKN;locus_tag=LOCUS_3840;note=MGA_390
sequence06	MetaGeneAnnotator	CDS	21287	21961	.	-	0	ID=MGA_391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIIYGAICVALVLIFILGIKIVFRPSLPKPEVTTGQRGELGIDKNINEETIDKYLFRKDSVYRDVRMLDDPGNYEAIGGDSKLSGFVKGFEVISLPYIMPVNNLPKEVGDTYIGDTLFSKNDKGNYEPNYEESLEILEYYFPKDKNIFIMCGGGGYAGMMKNLLIDLGWDEDKIYNVGGYWYYDGKYNIDVKETKNGITKYNFWKVNYHEIDFDSLSKIDG;locus_tag=LOCUS_3850;note=MGA_391
sequence06	MetaGeneAnnotator	CDS	22012	23202	.	-	0	ID=MGA_392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDTEREEVKKIVDEAMTEKNEKIKKEKKSKKKILIIGGIIIAVLLALATLFFFLFIFKPKYEVTIKTGGGKLIKGIVIEDNVVKEMPEVEAPEGKTLVTWINKNNEAVRAGITLEDDDEWEPVYRNPEEETVTLKFETGTDEKIADIIIPKGSGLIVPVKPNNYSNWKFLYWVDKNEYVAIVGTKVMEDTTYYAYWWKPGTGGTKEQTCTVSFDTGTDEKIDSINLIKGSKYIFMTPQEPNGNKVFGGWLDDKGNLLNAESVVEKDITLKAKWLEYTCPENCIQSEEDPLKCTRTTTVNVEEKEVCKGTEYKGYCIDTAHIAELDCARQCSDGYPFGDTEVSYPVKSRYLPSIDAYSEICCVKKINRVKEKVCPEGYTQDGDTCTLIENLECTLN;locus_tag=LOCUS_3860;note=MGA_392
sequence06	MetaGeneAnnotator	CDS	23286	23528	.	-	0	ID=MGA_393;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKVFELEKRLEKLERKEKIRKTIAFIKVGAVILLLSIVFITGYRFYKKVNDTIKPIKDIIETKENAENKIDKIKNIFK;locus_tag=LOCUS_3870;note=MGA_393
sequence06	MetaGeneAnnotator	CDS	23536	23958	.	-	0	ID=MGA_394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRILVICSKKFYQKIEEVKSYLESKNIEIFLPNCYDDPTAEAKAWEQGRKAQQEFKARMYKQSEEVISNMDAVLVLNFDKEKDGQVFKNYIGGATFLEMYDAFRLGKKIYLYNDIPDGMLYDEIEGFDPIIINGNLDLIG;locus_tag=LOCUS_3880;note=MGA_394
sequence06	MetaGeneAnnotator	CDS	23962	24618	.	-	0	ID=MGA_395;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064970.1;translation=MNDGYVGMWDSWAKKRSSLPVYDLWLDEYKDILEKNKDSEILDLGCGNGANTLYLSERGYNVLSCDFSKEALANIEKYIPNTKTIYLDMRNTFPIEDNKYSLVIADLCLHYFDNETTIKIMNEIKRILKDGGILLARVATVNDYNFGAGQGKMLEENYYLTDDNDGTGGYTKRFFTLEDVNRYFGIIGKVEAKETSMLRDEEEYSKPKVLYQIKVEKE;locus_tag=LOCUS_3890;note=WP_048064970.1 class I SAM-dependent methyltransferase (Methanosarcina acetivorans) [pid:26.3%25%2C q_cov:85.3%25%2C s_cov:77.9%25%2C Eval:8.7e-10],MGA_395
sequence06	MetaGeneAnnotator	CDS	24620	25297	.	-	0	ID=MGA_396;product=DNA alkylation repair protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002678782.1;translation=MNIQNELFKLQDKKYREIQVKTITNINPDTIIGVRSPELRKMAKELYKSNNYKEFLNDLPHKYFDENQLHAFIIGEIKDYDECLDYVKKFLPYIDNWATCDQSTPKSFLKNTDKLINEIKKWIKSKETYTIRFGIGMLMRSYLDDNFKEEYLEWVSKIRSNEYYVNMMIAWFFATALAKQYDSTIKYIEEKKLDTWTHNKTIQKAIESYRITNEQKEFLRGLKRK;locus_tag=LOCUS_3900;note=WP_002678782.1 DNA alkylation repair protein (Treponema denticola) [pid:57.3%25%2C q_cov:99.1%25%2C s_cov:96.6%25%2C Eval:1.2e-73],MGA_396
sequence06	MetaGeneAnnotator	CDS	25281	25724	.	-	0	ID=MGA_397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNKYDNKCIKLYTKDGLAYEGICTYHNKDYIEHEYGFPYDALMMSSVLFYNDEINKIEVIDEFTDKYGLLEKTVVEAGVELVEDVLESEEDISIYRLLLCLEDNLNDYSAEDIEELIPYFESLIKYNKDEKIVELSRRLKDEYTK;locus_tag=LOCUS_3910;note=MGA_397
sequence06	MetaGeneAnnotator	CDS	25767	28256	.	-	0	ID=MGA_398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRILAIVMVVALMISVILPIAKVFAVAGTEKLTVSFRTESLGKGKVEYSLDDGDNWIEVTGNLTETSITTTGTNFMIKIVPGDDYDIDYAGIELTLDGNNVPDLSSTGIAGDIGYIVASSVKNVKLMNVEFTDKQGTPDPSTKVTSKVTLSLSGEELEYNNDWSDDASDFSFAVNNALMKRFSKDEVVFTEQNNQITGLITKEDYDMEYDYDGSGNVTFHIRTQWDDVITSLLINGDPFETPDSKEELEAAFENGGIAFDVTVPYSTRYDIVAEGRKQSAEEKIMGNFGWTYDENTNQYSDDDKILHGRLEFVSAEFNNVTYNSVEAVNNAGGVFNWYEHDPYGEAAFPSGTVLTLKLIPDAGYQLIALTLNGAPFEPGNEPGVYTFTIGGGNWHLGANFSEVGNELNTSATSVRDGNINLNLANDNSFRNGTAKLEVSDIASMSPSREADFVSKAEESGYEINSYIDMSLFNTIYKGGKTDANGNMEAWDTQVDNIVNDASISLELNEDMTDKEIVLIHETHNGNTITGYEIIETDYNANDNTISFTTNSFSNYAIATKAGAQTPVMHTVEFDSNGGSAVAAAVVEHDGILERPIEPTKEGYTFGGWYIDPELNYSFDFEGPVQGDFTLYARWIDDNNLKDYTVTDDAGNSISFTDEEGHTYKFTLFDILSLSKEEIMAMDPELTDETYNQMMDLLNSLAKPTGTLLKLYEIEVYEDNAVTGDTTSLHEGPFKIKIKITDDMKAYNTFKLVYLKNDFTTGEVINLTVEGDYLVGTIPHLSTYMLTGSVTTNPKTGDNVLIYMGILVVSIIALFGFGFYSISNKKTR;locus_tag=LOCUS_3920;note=WP_015942796.1 InlB B-repeat-containing protein (Desulfitobacterium hafniense) [pid:30.0%25%2C q_cov:21.4%25%2C s_cov:12.9%25%2C Eval:3.0e-07%2C partial hit],MGA_398
sequence06	MetaGeneAnnotator	CDS	28488	28961	.	-	0	ID=MGA_399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLFDKEMNEKKYDIANYQIEVFPLDNFSPFGLIMNGLYFPTSEHAFQYLKFIDTNKDIADKIRKALSPDDARNIAHENKEYRPNNWSNIKYEKMEEVLRLKVNQNPRVKEVLLNTKDLIIAECCIDEDTDWGIDNNNQGNNHLGNIWIKIREDFL;locus_tag=LOCUS_3930;note=MGA_399
sequence06	MetaGeneAnnotator	CDS	28982	29503	.	-	0	ID=MGA_400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLINCSNREKNCFKILNDIKTSNDKLISLSGKDMMFCLGCGACHENLEKHCVLDDFITNYLYDEIINANDIVIASPMYMSNINAIFKNLLDRLNPFYQHDLLNGKNLYLIMTGGSSKEDNEEEINGVIKYFEGISEWMHFNFEFLDYFEGYNAIEEIAYENKINVIKEKLNK;locus_tag=LOCUS_3940;note=WP_003434284.1 flavodoxin family protein (Clostridioides difficile) [pid:28.9%25%2C q_cov:76.9%25%2C s_cov:71.5%25%2C Eval:6.1e-09%2C partial hit],MGA_400
sequence06	MetaGeneAnnotator	CDS	29662	30555	.	-	0	ID=MGA_401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKRFAIIEIGSYNTKTHVYEQGKIIYEDNTTIKLKSNYKDNNRIRDNDINMLINIIKKALTFTKNVHVYGCSIFRNITSEELEEVNNKIFTACNLKIEVVSQEDEAYYTALGCYSNVDYDSNICVFIGGGGSIELIFVNNKKIIDKKLYNFGVVDVTNKFESLKDDIPMCTFDDVYEYVSELITDINVKADVLILAGGDHFYWYNNAGYELLDNTIYEDDNQEKMITIEMSDKYDKDALVTSLEKIRNNSDNPSWFDGSRAMKVITNYISHQVDAKYIIPTKINMEDGIKTTLNNN;locus_tag=LOCUS_3950;note=MGA_401
sequence06	MetaGeneAnnotator	CDS	30685	31083	.	-	0	ID=MGA_402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDWDLNKRREIAREILHKISEKAFAYGAFCEEKVVGFILVSNEFFGSSNQYIELLLYQVSEPYRNRGIGKELFKLACKKAKEIGSKKLYISAHSSKESQAAYRRLGCIEATEINRVLAEKEPYDIQMEYVL;locus_tag=LOCUS_3960;note=MGA_402
sequence07	MetaGeneAnnotator	misc_feature	1	836	.	+	.	ID=MGA_403;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_000435143.1:threonine--tRNA ligase,WP_000435143.1 threonine--tRNA ligase (Staphylococcus aureus) [pid:51.6%25%2C q_cov:99.3%25%2C s_cov:42.6%25%2C Eval:6.8e-83%2C partial hit],MGA_403;locus_tag=LOCUS_3970
sequence07	MetaGeneAnnotator	CDS	899	6898	.	+	0	ID=MGA_404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKSNKNKRSFVKSIIPALSIIMIITAILLVVYTLDSKKFNKGRVVYDSDYTMHVMYLVMDKAEVPKDITIDKTFDPAYSEFPIGILSTSSSIVPLTKKGDYLYVDLDKFTNPELLKNETDYIFTKTNINGEVIDGCEYDKKENVIKVPASYFEENKTIPIQMELQTLMDYSVYENLETKVNVKKFITNKVKAKNNALAFQTSVYLGKNGPGELQNKNVHVYVNNSKIELEDDRYEINNNTLTVFLPPLQISELDVKVDYTLSSAKAVACLNNSQKDCDDSQQGFNDNWRGIKVSQPIDYTSWGKSSLPVVEEYPRQNNPKAEESNPPQRWTKIITLSTGYGNPGDQYDVVYCSNTKSASGCIDSYNNEIVFPATAANWAYTYVPYVTDNWPSDTPSGTIYNVYNYSVNSNNKINSYLETLYTYKIKLTSLLDGIQSGLSTDGTFDPVHEGYNTSWLAFYCTHHSTSYDYGNVSETNPMRMAVMVMQESTNSIIVKFQSINTYDSQAAGAYMRFYWDQAQVNAGLRVKKTDNSSPTGLPIKGVRITIQNRADSSDIHTDTTGADGIVTFSGLPLGAKYNIYEDCSNYSITYPGNSSDPEDTGTFASLGLSCDYPSTSPYTNNGNGVAAVEDYTSGSTGLYSISNARKPYGLRIKKTDDSATPIPIKGLQITIKNKTTGATITKTTNDAGIATFDNLPVGSKYTVTENCSSTISYNGHNNTTLDAEDIACSYDSSNPYAGTDGTGVAAVENYTSGSTGLYEISNAKYRHCAYVKKVKGPNKKVEPNARFQLIIPANVCRNYASGTTLTQTTNLNGIAEFNGLGNCSGAKFVNAKLVDQEHLASLIGSDTQQVELRRTTIYVTKNSGIDYKGKHYAKNSQVIISDRDWNTYKNDVEEICVGTVYPSSSSSGATEFVDKGYVLLWNKINKTHRTNVSDRGPAMANIKFSVKDSHNNTIRVLSSKANYTDIESVTKNCYTYTDQTGSGTQDFVVSDANGMVCISNLPNEEQFTITEETTSFYNNSYIRINSSEKFSTFTSTDYNNNEYVIDWVKKEYNNGKTSNSDGSLKQTTFTVVDSSNVTIKTKPNKEEVLDTNGVKKNCYVIDIDTPLNNTNEYFVTDNDGYVCIVGTKSGMTYTITESTPPTYYSASDTNTQTTTSKLTFMDANTKRFNNCPTEVEISKTTTEYSNASAEYKALIKEELKKLTFNIYDSENHLLFFTYNSESKHYEYTTAINALTGNTYIGAPELRLNDDLKILVDYLPEGSYVLKEASSVSCASNGGAANGSNCTCSNNTTSGGGTPAETACSNMGYAKIADINFSVTKNNHGGSSTCNMTDTSVKIPITNKPTKVSFTKSDMYGYFSGTDTVTFENEDEIKAFDNIIFRVRKQSTINSSGTTSEANSNFEWFYKTANGEYRYDALHVCTREGDIVAGYRCTQNLFTNRGSMTIRHLCKCETYLIEEYEVPEGTVFILPKAENNTCEAGYLKVDKGGKIECHPIKTVKICDCDDDNPESSPPVLIEDKPTKQVFIKKDLKYNTIITDQNTTFEVFLTKEEAANAGRKCNPYDATSKANDCIQIYFEKNKILDPDETERVYAYRIAKDGTSANNKTKELHVDENTGKLILRYLPSYISREYVLYETKAPKGYDLPKGEKAVTRFTVVNDTINVEITNVPNKPTKVIVSKYDKATGKLIPGFKFKVYKVNNYDPNLSAMKQSMSSALEFKTIRDGSYEYREVFDTDLITTCTDRAGSPCSSISSTLVDSEFSSTPMGENNITIREGQALIQYLDSDSYYVIEEVEAPEGYKLPDKESERYTLFHIDETEETSVISRIYNTENYFTYYKYDDYNRLIDGAVFKLQKLNKDKVYEDVPLEEIESEDAKIYKVSSTSDNYEMTTLNGQATIYRLTEGQYRVLEISAPEGYELPKKTYNVVTFFVDKNGSIYGSNIIANKKTTDRKFTVPTSEAELVVTIQTGQVVIKYGLIITGILGLIGLLIFIRKKISK;locus_tag=LOCUS_3980;note=MGA_404
sequence07	MetaGeneAnnotator	CDS	6910	7569	.	+	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNKMKIAKKDLKILLSIIVLVFLIFLILYVRNFRNFAEVKLGTNKKNIFTIADLKIDDLKYSSTEKEVIKSLGKAKKVEELSANGFKYKILRYKDLNITLREYYDDYILVGVESTSRSYKMGRGLRVGSNINRVFNKYRIDNKSGNYLYGNYNYEEMMDKTITDNIYMGIRTKSKVSYYNMDPRSKDDTFPLNSISKIEFEYKNGTVTKITWSYDYE;locus_tag=LOCUS_3990;note=MGA_405
sequence07	Aragorn:1.2.38	tRNA	7639	7722	.	-	.	ID=Aragorn_12;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0120;note=Aragorn_12
sequence07	Aragorn:1.2.38	tRNA	7733	7809	.	-	.	ID=Aragorn_13;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0130;note=Aragorn_13
sequence07	MetaGeneAnnotator	CDS	7892	8881	.	+	0	ID=MGA_406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIKFLIKAILKLNYKEMFRVARKISTEHGRLTLLTFFDIIYCGLRYGAGYMDYLEFEFYLLNGKQRKTYLTRAKNNEIVRKYNNKEYNHFLNNKIEFNNMFKDYLDRDFIDLSHATKKDFKQFCKGKKYVIAKEVDNCGGEGVTKEFVQDTNRLYEKLKKNKQYLVEEVLVQNSKVSKLYPDAVNTLRLFTFMDDNGKVHVLNQIFKIGNKGFVDNFASGGMYTFLDEDGEVICPAINKKDERFTVHPETKEQIIGFKVPNYDKAIELVKEASLLIPEIRYIGWDVAITEKGACLIEGNEFPGVFQIKPSYMDEPEGILPKYSKYMK;locus_tag=LOCUS_4000;note=WP_011108543.1 NeuD/PglB/VioB family sugar acetyltransferase (Bacteroides thetaiotaomicron) [pid:34.1%25%2C q_cov:81.2%25%2C s_cov:50.0%25%2C Eval:4.1e-40%2C partial hit],MGA_406
sequence07	MetaGeneAnnotator	CDS	8892	9482	.	+	0	ID=MGA_407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKIKVFKPEIDQIKDERLRNNLEIIINSLPDYFFIIPASSTGKHHPAFDLGDGGLVRHSKVAVRVGSELLNTQTFGDEFTDNEKDLLLISILVHDGLKKGKEEEQYTRFDHPVLMAEYIKELKGKMTLTDEEINFISDVISSHMGEWNTNKYSKLVLPKPETKYQKFVHLCDYIASRKFLNFTFEDNNLIDREDY;locus_tag=LOCUS_4010;note=MGA_407
sequence07	MetaGeneAnnotator	CDS	9485	10396	.	+	0	ID=MGA_408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIKKSYYTIFPALLMIFVALIPLMSILSDVVKLTSLLFFIIKILYVVVLFLLLIVNVVLLFHLLKEIVKCNDISKGKKTVLFILLVLFSLIVMPYIYHKYILKDIVKPNSLIIYFIAIVFLAFVFAFGYRVYNKKINEEIQRQKELESKRVTYVEKNNKFSFDFKTSYKQKEVGEYDLYVKDKKRNIVFTTFTYDTSRYEQKTIEEYLLKGVADIEATKENTKIYKEKKLTELEDRKVYEIVYEGKAEKSDLCIYRISVIQFNSNPELIEYVVTVSLKEDYPSLEKEINEIINSVKIIQNE;locus_tag=LOCUS_4020;note=MGA_408
sequence07	MetaGeneAnnotator	CDS	10444	12246	.	+	0	ID=MGA_409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFRFVKQSNLKDCASSCIYNLIRYYKGNVNYNNITKKLNITEKGSSIYNVVKTLKHYNFTSDAYKCNYDNLITINHPFIAYLKIEDYYHYVIIKRIKNKKIYIFDPIRGDLIYTKNQFILEWQNIIIDVISNNDIVKEKNSYKRYLYTLIGDNKLLLSVIFIFAIFFTISNLTSTYLLKYIIDELDFKKVIFLIIIFESIKRIFSYIYGRLIIKANIKLNNKIRTNMYNKIFNLPNTKEVKTINFIYRIDDLSCISDFIFNFPELLIDILYILIIFIYFIYIGYLYPYIILLFIIIILIYHLSIRKRIINLFDKERNYYSKLTGSLIEKINLLPIINKLNVNKQTIYTEINNYNDYLFHHKKLNNNMLNYNFILNILFLFLYIVLLIISFWYNSLDLISLGDFYINYSLIIMLTASIDNILNYDRLFLSSKNAFKRIVDLYDYDFNEEGNHNKKIIFNKSTFIYDKYNSFKDKLINFNNSIFIYKDENILNESIDDNISFQRNISTEDLNKVKRICLIDETSNKEKIILARSLLSNKNLILVNLFSDINPKEERIILKNILTEYNKKIILISNRKDNSDLFKNLARIKGGKCEKVRYL;locus_tag=LOCUS_4030;note=WP_002681955.1 peptidase domain-containing ABC transporter (Treponema denticola) [pid:21.3%25%2C q_cov:41.5%25%2C s_cov:37.0%25%2C Eval:5.7e-10%2C partial hit],MGA_409
sequence07	MetaGeneAnnotator	CDS	12224	12364	.	+	0	ID=MGA_410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLDICETKNMYGGGFRIGIAALIGAGISFVIGAFDGWTRMFRCR;locus_tag=LOCUS_4040;note=MGA_410
sequence07	MetaGeneAnnotator	CDS	12366	12527	.	+	0	ID=MGA_411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKLSIKSQKKLYAGGISATLVSALLRGINIFTDLGRYFGSSMRRLATKNICK;locus_tag=LOCUS_4050;note=MGA_411
sequence07	MetaGeneAnnotator	CDS	12602	13942	.	+	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMKKDRNIAITLIFLLMITIGLLVINYLNNLPPTIVKVTYANFYNEDRSRGVTLKIKRHNTKPIYCIFKHGDDISEKVLVKKNKCSYNVVTDNYEVELDYNQNNKVTYDRKFNIDGVLGVKFNNKKLYMALNETFNLETNLDKVGNVDYLVKYNSSNEDIISIDQNGNLIGKEIGTSTITVTVEDIKETWDITVSNLIRPMELNNKKSIVPCNKYTNDQINELDRILASRVEVAGVGTRAAAVAVSRFLTLEFPYKVPYFYENGRISTTGVDGEGRYYRKGLYLGVDKQREITKVMAGPASWGCPLTNYEDNEYRKPNVRYPNGLDCSGYVSWILVNSGQDLGDIGAGFSHKFNYTQVGELNKNTYELLHSGKVRPGDLIGWDGHIAMIGGMTDTKIYVTESLLPGVIMDEYDYSSPSSSFYRRYDHIIDMSNVYKGDGNLRNMW;locus_tag=LOCUS_4060;note=MGA_412
sequence07	MetaGeneAnnotator	CDS	13947	16124	.	+	0	ID=MGA_413;product=ATP-dependent RecD-like DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398511.1;translation=MYIKGTLKKFIFKSNNGYVVALFRVKESSNELNDLVNRTITITGYFHELSIDENYIMNGELVDNPKYGKQFNVTSYDRYMPSSKEGIIEFLSGGLFKGVGEKTAKGIVDTLGDDTLKLIEEDYSNLLLVPGLKESKAKSIHETLLKYNESYNVIVYLNEIGFNSSDSLKIYNEFKDKTMDIINENVYLIIDFISDINFLKIEKIRKNLGIKDDDKNRIIYLIEYVIKNYLFNTGDTYFYKEDIYKEVTSYLSFDFSLDDLEIYLDELVSLSKIIIKDNKYYLFEYYFAEDNISNFITYLCNKTNNIKKIDKEIENVEEHFNIKYNDMQKKAIKESLITNFNIISGGPGTGKTTIIKGILELYKRVNHYTYLDMLSKVILLAPTGRAAKRMSESATFKSSTIHRFLKWDKDNDRFMINEENKSNIELVIIDEVSMIDTLLLNNLFLGLNRNVNIVMIGDYNQLESVSPGKVLKDLIDSDMVSVTFLNELYRQEENSYIATLAKEIRDNDLSDDFLLKRDDYNFIECTKDNLLEYTKKLVLKAIEKGYNSSDIQVLAPMYKGINGIDNLNVMLEKIFNPDDKPSIRHFDTIYKVDDKVLKLENDPDNNVFNGDIGYISDIVDDEVHINFDGTVVIYKYKDLSTIKHAYAISIHKSQGSEFNLVIMPIISSYKIMLYKKLIYTGITRAKHSLTLIGEKNAFMYAVNNNNSYERRTGLKDKIISSQNNA;locus_tag=LOCUS_4070;note=WP_004398511.1 ATP-dependent RecD-like DNA helicase (Bacillus) [pid:35.3%25%2C q_cov:98.9%25%2C s_cov:92.9%25%2C Eval:4.3e-132],MGA_413
sequence07	MetaGeneAnnotator	CDS	16181	16588	.	+	0	ID=MGA_414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANKKYVAISVKDYNELEANEVLSDIPEKSIKNNSGSILLKCTKAEAKYMKELLKEDCEPDFTLVCGKISYYVEENAALDILAYQHEIMANVDKAYREYMKSWRNYGIDSEITINAENEYDKLRKAASKKNDGLY;locus_tag=LOCUS_4080;note=MGA_414
sequence07	MetaGeneAnnotator	CDS	16572	16928	.	+	0	ID=MGA_415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMDYIEKNHRGDISPYAFVNLYHLVSYEGSYYGSCEEVDICDEFNKYRSFAKGDIDYKDFVSKLEELGYIDRIHSKVPSISDPIKFMRDSLQSGSTSYFGFAIPHTPKALKRRGRTSK;locus_tag=LOCUS_4090;note=MGA_415
sequence07	MetaGeneAnnotator	CDS	17018	17842	.	+	0	ID=MGA_416;product=PrsW family intramembrane metalloprotease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009901989.1;translation=MNMFVGLTIAQVITVIAITVLPSIFLFSLIMYSDRKSKEPKTMILLALLSGLFTICISLLIDKYILRSNFFNELFSTYNVLNLTRISILALVEEFAKLTALYVFISHNKAYDDIYDGFVYSSIIALSFALIETFLYVIKEDTYTMMSSLALLRNFTTIPLHITCGIVMGYYVSISKFSRNKEKKYTLLLKGLLIPMIVHTTYNIFFSVISETNSAMMYNLIIISLFVLSIYLIGILYIVKINDLNKIFINNRIYPKKFRFLMNKREYILKGLNK;locus_tag=LOCUS_4100;note=WP_009901989.1 PrsW family intramembrane metalloprotease (Clostridioides difficile) [pid:26.0%25%2C q_cov:89.4%25%2C s_cov:98.7%25%2C Eval:9.5e-21],MGA_416
sequence07	MetaGeneAnnotator	CDS	17839	18351	.	+	0	ID=MGA_417;product=YqeG family HAD IIIA-type phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583237.1;translation=MRPDAYYKNIYEIDYKELKEIGIKNIFFDVDNTIIPYTLDKVSSREIELFNKLKKDFNLVIASNSNSNRVNSIINDLGITGYTSCMKPSNKVYKKIKKEYNIEESIFIGDQFMTDVWGAHKNGFKVILVDRINNIEPFTTKFWRLCEHFVIKKLKRKKEFEKGNYYKIKK;locus_tag=LOCUS_4110;note=WP_012583237.1 YqeG family HAD IIIA-type phosphatase (Dictyoglomus turgidum) [pid:28.0%25%2C q_cov:95.9%25%2C s_cov:97.1%25%2C Eval:1.3e-11],MGA_417
sequence07	MetaGeneAnnotator	CDS	18367	18537	.	-	0	ID=MGA_418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATKITLQKPNFGNSRSHAKNQGNKIQKLNFQTITVNGVKVKVTAREKRTLEKGNK;locus_tag=LOCUS_4120;note=MGA_418
sequence07	MetaGeneAnnotator	CDS	18642	21443	.	+	0	ID=MGA_419;product=DNA polymerase III subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000673740.1;translation=MFIPLGIKTDYEILGSLIKLPVLVSYLKDKNIRAVGICDNNLSYVMEFVTLCEKEDIKPIVGLEVSIDDLKLYLYAKNYNGYKELCKLYNNDISLSNINKCKDIFVIVPNESIIIYDGINIEKYHDEELSFKTVRCLQKDDEKYLEYLYLIKSGKTLKESEYELEDSYLEIGEDSPIFEKIYNEVDIKMEKNDLLPKYDLEGKYTSFDYLKSLCEKGLSKRLDGKVSKEYADRLYYELDVIKKMGFEDYFLVVWDYVKFAKKNSILVGPGRGSAAGSLVSYTLGITDIDPLKYNLYFERFLNPDRVTMPDIDVDFDSKRKNEVIEYVKNKYGEKRTLGIVTYSTLKSKMVLRDVSRIFENANTENFIKLFDSKLTLKENLENKNIKSRIDSDPLLSKIFNISLKLEGLKRQTSIHAAGVVIASKNLDSYIPIIKNEDIDLSGYQMDYLERLGLLKMDFLSLDNLTFIDNLTTKLGINIKDIPLDDKDTFEIFNNANTDGIFQFESMGIKDVLKKFKVTSFSDIVALIALYRPGPMDNIDSYIKRKEGKEKIDYIDPSLESILKETYGIIIYQEQIMMIASTMANYSMAEADLLRRIMSKKKEEAMIDEKDKFISKAIENGYSKEVSSKVFDLIHKFSSYGFNKSHSVAYSIISYWMAYLKAHYRKEFMLEMLNSVIKNDIKTKDYISDLRKYNIEVIKPDINKSTNEYILSNNKILLPLTCIKNISELSVKKLLEKRDDKEKDFFDYVRIFTNIGFTRKEITALIDASAFDYTNVNHRTLIENMDNAINYAKLSNDLDDDSIEKPVINNFDEYSKEELLEKELNAFGLYLFNHPVLRYKDNDINTKDISNYFNKNITMYLLVNKKKQIETKEKKAMAFINAEDEFGSVEVVVFPKVFEKNVNIDKGNIIKVSGTVERRNSDYQLIANNIEKII;locus_tag=LOCUS_4130;gene=dnaE;note=WP_000673740.1 DNA polymerase III subunit alpha (Bacillus cereus group) [pid:35.5%25%2C q_cov:99.5%25%2C s_cov:91.9%25%2C Eval:5.7e-164],MGA_419
sequence07	MetaGeneAnnotator	CDS	21491	22900	.	+	0	ID=MGA_420;product=pyruvate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048303.1;translation=MNKTKMISTVGPSSLDKEIIRGLIKSGSDVIRINMSHSNFDEARKIIGYVREINYEEKLLTGIMIDTKGPEIRIGALEEKKLYLEKDKIIRVSESEIVGNKDIISISIHGIISHVDIGGYVYLDSGKVKLEIIEKGQDVILCKILNDGIINQYSKVNIPNLDYDMKFLSNYDMESIKFACENKVDYIALSYVKDHLDVLDVNDELISLNNNNIQIISKIENQSAIDDIDEIIKASDGIMVSRGDLGLDTEIEKIPSIQRKIVDLTKEQDKVIIIATEMLASMKDNVRPTRAEVSDVAAAVNDQVDALMLSSETAIGKYPVITVETMKKIIESTEKEIDYLHFLKNSINKGNTISKAISYSAVSSANNICADAIVCSTTSGLTAKLISSYRPACPVVAISPNEYVARGLSINYGIIPVYTRVMSSTEELIELSKKAYRVMLKKDKGVIVIVGSFPLSVNYTNYMKIEEIK;locus_tag=LOCUS_4140;gene=pyk;EC_number=2.7.1.40;note=WP_012048303.1 pyruvate kinase (Clostridium botulinum) [pid:38.7%25%2C q_cov:99.1%25%2C s_cov:80.2%25%2C Eval:5.0e-88],MGA_420
sequence07	MetaGeneAnnotator	CDS	22976	23749	.	+	0	ID=MGA_421;product=phosphatidate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000868413.1;translation=MKKRIIGIALMLLICVPLLILGGVYYSVLIGIVSVLGLWELNNLYKQDKKLHIILEIFSYLCLLMIIFSYDYLIYAIGLTILVFLTASMVTGKEFTFKNACFVLVCIIFMGVSFYIIKDIRLESIHHFVYVLLIPILTDTFAFVGGSLFGKHKLIERVSPNKTIEGAIIGAIFGTIIPVFYYLYMVDPGCDVLIISLITFALSIVGEVGDLVFSSIKREFGIKDYSNLIIGHGGILDRFDSLIFVSIMFWIIKAIIL;locus_tag=LOCUS_4150;note=WP_000868413.1 phosphatidate cytidylyltransferase (Staphylococcus) [pid:34.5%25%2C q_cov:95.3%25%2C s_cov:95.8%25%2C Eval:6.8e-34],MGA_421
sequence07	MetaGeneAnnotator	CDS	23759	24844	.	+	0	ID=MGA_422;product=RIP metalloprotease RseP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003384669.1;translation=MSHLITLLIFLAILGLIVLIHEFGHFITAKLNKVYVHEFSLGFGPKLFSFKRKNDETEYMIKALPLGGYVMLAGEEYEDEEDDKKKKKKDDKPKVKVPEDQKLYNKKFHQKFMIMVAGVFNNFVLGLILLFIMGLVYGCDFSSNKLTHLSKDLPLYEAGARNGDKLISINGHKVKNDDDIILWVAINGTEKPINVEIEKKDSKKIEKYKIKAKKLEDGNKYFGISVSTKEEKGFIPSVKYAFSKLVSIFKQLIIVIISLFTGKLGFNAVSGPVGIYSVVGMAKGSMLLLLYLTAYLSINVGFMNLLPFPAFDGGRAFLLIIEKITRKKVPLKVESIINGIGFILLMILMVVITIKDIINLF;locus_tag=LOCUS_4160;gene=rseP;note=WP_003384669.1 RIP metalloprotease RseP (Clostridium botulinum) [pid:34.9%25%2C q_cov:97.5%25%2C s_cov:98.5%25%2C Eval:9.8e-46],MGA_422
sequence07	MetaGeneAnnotator	CDS	24855	25784	.	+	0	ID=MGA_423;product=methionyl-tRNA formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003232070.1;translation=MRIVYMGTPEFAVGPLKKLDDNYEVVLVVTQPDKEVGRKKEIKFSPVKEYALEKGIPVFQPDKIRNDYEEILSYNPDVIVTCAYGQIIPKELLEFPKYKCINIHASLLPKLRGGAPIHWSIINGDSKTGITIMYMNEKMDEGDILYQKEIDILDTDNVESLHDKLCTLGSNMIIEFLPKLESGDINPIKQNNEEATYGYNVSREDEHLDFNKTSKEVFNKIRGLNPWPVAYTSLDGKVFKVYNSRISDSKPDGTNGEITNIYPDGIGIKTSDGEIIITEIKEEGKNRIQVKDYLNGIHDKDSLKHKIFS;locus_tag=LOCUS_4170;gene=fmt;EC_number=2.1.2.9;note=WP_003232070.1 methionyl-tRNA formyltransferase (Bacillus) [pid:51.2%25%2C q_cov:96.1%25%2C s_cov:95.0%25%2C Eval:3.3e-84],MGA_423
sequence07	MetaGeneAnnotator	CDS	25796	26737	.	+	0	ID=MGA_424;product=DNA polymerase III subunit delta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002362655.1;translation=MNNIFLIYGNEDYLINKNLNEILKSINSNDNISRYNLDTDSIESVLIDASTVSMFDDKKVIICDNSTFLTSEGKLENDENFLRYIENAFKDVYLIFIVRNEKLDERKKIVKSLKKVSKVIVCNKIENYDLSNYVYEYIKENGFKIDRKDIETILKRSLYNLSIITNELNKLFVYKKNNKNITSEDIDKVITSNINDNIFDLTNMVVNGEKEKLIDTYNNLIRMGEDPFKLMVTLSNQYRLILEVKLMVKNGYKDDEIISKLKEHPYRIKLAKNSLVSIEESIKKLEQLADLNYNIVTGKVDSNFGFEMFLLNL;locus_tag=LOCUS_4180;gene=holA;EC_number=2.7.7.7;note=WP_002362655.1 DNA polymerase III subunit delta (Enterococcus) [pid:31.6%25%2C q_cov:99.0%25%2C s_cov:93.6%25%2C Eval:1.2e-44],MGA_424
sequence07	MetaGeneAnnotator	CDS	26747	27214	.	+	0	ID=MGA_425;product=lipoprotein signal peptidase LspA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000642181.1;translation=MKKKISIFCTLSFLIVIIDRVVKLLVNKYISLDKTIKVLKNIIYLTNVHNKGAAFSIMFGQRIILILISLIFLGLIIYYVKKHNKYNIEFSFIIGGLIGNLIDRVLFGYVIDYIGIKIFNYYFPIFNIADSFIVIGALLLIIKKDRVGEKHENNS;locus_tag=LOCUS_4190;gene=lspA;EC_number=3.4.23.36;note=WP_000642181.1 lipoprotein signal peptidase LspA (Bacillus) [pid:35.8%25%2C q_cov:92.9%25%2C s_cov:97.4%25%2C Eval:1.1e-23],MGA_425
sequence07	MetaGeneAnnotator	CDS	27198	28088	.	+	0	ID=MGA_426;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011475978.1;translation=MKIIVSDSNNERLDKYIFDNEDMDLTRSKIQSLIKTGNVLVNGKESKNSYIVSDGDEIDITIVEENMHVEAEDIPIDIVYEDDDVIVINKKSGMVVHPGNGNHSGTLVNALMNHSKLSTINGEYRPGIVHRIDKDTSGLLIVAKNDKAHLILAEELKKKEIKRKYIALVKGVIPHDTGTIDAPIGRDKNDRKKMCVTPDNSKEAITHFKVLERFKEATLLECILDTGRTHQIRVHMKYIGHPIINDPVYLGGKNIDNYGQMLHAYSITFIHPTTKEEMTFKVDPEDEFNKILDMYR;locus_tag=LOCUS_4200;note=WP_011475978.1 RluA family pseudouridine synthase (Ligilactobacillus salivarius) [pid:52.7%25%2C q_cov:95.3%25%2C s_cov:94.3%25%2C Eval:9.0e-76],MGA_426
sequence07	MetaGeneAnnotator	CDS	28097	29251	.	+	0	ID=MGA_427;product=rhomboid family intramembrane serine protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964272.1;translation=MRRVKSQDILSMKLMHYFIVNRNYKPIIINGIENEIWLENNDENYKIIRIVLNKIINIEQYNLDLLKTQSILSQIKKKTLSLSMKVLSFYMYMDEDLVIEDNPENKFKYIRVEKEKDIYENEIVKKEYTDIQDNMVYEEKDTELFAKIASDISDKNIKESEKSNNMFSKKNDKIMTIIFAVINLIVFALMYIIGNGSENKATLLKFGANMGMLTKNGDYYRLITCAFLHIGVVHLLCNLYSLFIIGQNIEYFFGKLKFVLIYFYSAITASLFVLIFQSDNTITAGASGAIFGLMGALLYFGYTYRGYIGNKIISSALTVIAINLAYGFVHPGISNAAHIGGLVGGLAISYMLGIKNNENKASKISGTVIVFALTGFLVYMAFFR;locus_tag=LOCUS_4210;note=WP_010964272.1 rhomboid family intramembrane serine protease (Clostridium) [pid:33.6%25%2C q_cov:76.8%25%2C s_cov:97.0%25%2C Eval:7.0e-37],MGA_427
sequence07	MetaGeneAnnotator	misc_feature	29262	30092	.	-	.	ID=MGA_428;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_000071591.1:ribonuclease HIII,WP_000071591.1 ribonuclease HIII (Bacillus cereus) [pid:42.0%25%2C q_cov:99.6%25%2C s_cov:88.1%25%2C Eval:1.3e-54],MGA_428;locus_tag=LOCUS_4220
sequence08	MetaGeneAnnotator	CDS	189	869	.	-	0	ID=MGA_430;product=30S ribosomal protein S3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000529877.1;translation=MGQKVSPIGMRIGINKDWSSKWYAEKKDFAGKLGNDIKIRKYLSKRLKDAAVAQIEINRTTKKTEVIIHTAKPGVVIGHGGEEIEKIKNELNKLTKENINVSIFEIKNPDMVAVLVAENIAKQIENRGSYKMASKRAVRNTMKAGAKGIKVLASGRLNGVDIARAESQHEGTTPLQTLRADIDYGEAEADTTFGKIGIKVWIYKGEVLAKKNKKGGNIDGSNSKKN;locus_tag=LOCUS_4230;gene=rpsC;note=WP_000529877.1 30S ribosomal protein S3 (Staphylococcus) [pid:55.6%25%2C q_cov:95.6%25%2C s_cov:99.1%25%2C Eval:1.1e-66],MGA_430
sequence08	MetaGeneAnnotator	CDS	884	1336	.	-	0	ID=MGA_431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAKATARTVLVVPRKTRLVTRLIQGKSVEDATNMLSNMNKKSARLVNKVLLSATANAENNLKLDRNNLYVKSAYVNDGPILKRHRFGSRSHIDRHDKKTSHITVIVAEKAVKAKATKPVKETKKEEKVVKKETTKKVATKKATKTKKEN;locus_tag=LOCUS_4240;note=WP_002288657.1 50S ribosomal protein L22 (Enterococcus) [pid:53.8%25%2C q_cov:69.3%25%2C s_cov:90.4%25%2C Eval:1.5e-22%2C partial hit],MGA_431
sequence08	MetaGeneAnnotator	CDS	1361	1627	.	-	0	ID=MGA_432;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_006583236.1;translation=MARSLKKGPYVFDRLLKKVQEMNENGKKEVVKTWSRRSTIFPEFIGHTFAVHNGKEFIPVYVTEDMVGHKLGEFAPTRKFGGHGNKDK;locus_tag=LOCUS_4250;gene=rpsS;note=WP_006583236.1 30S ribosomal protein S19 (Thermanaerovibrio) [pid:67.0%25%2C q_cov:100.0%25%2C s_cov:94.6%25%2C Eval:5.6e-33],MGA_432
sequence08	MetaGeneAnnotator	CDS	1647	2474	.	-	0	ID=MGA_433;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001829788.1;translation=MAIKHFRPVTPGQRKKSTLVNTELTKTAPEKSLLKIAKKNAGRNNTGKITVRHQGGGVKRKYRIIDFKRNKFDIVGTVATIEYDPNRSANIALINYSDGEKRYILAPKGLKVGDKIVSGEKVDIKVGNACPLMNIPVGTVIHNVELTLGKGGQLARSAGQSAQILGREDKYVMIRLSSGETRKVLGTCMATVGEVGNEDYSLVRLGKAGRTRYLGIRPTVRGSVMNPNDHPHGGGEGRTPVGHKQPMTPWGKPALGLKTRNNKKSSTKLIVTRRK;locus_tag=LOCUS_4260;gene=rplB;note=WP_001829788.1 50S ribosomal protein L2 (Staphylococcus) [pid:68.0%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:6.0e-108],MGA_433
sequence08	MetaGeneAnnotator	CDS	2489	2770	.	-	0	ID=MGA_434;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003129966.1;translation=MIGDYRDIILAPVITEKAAMIAEAGNKMVFKVKPSANKVQIKQAIEKIYNVKVTNVNTINVKPKKKRVGRYTGKTSAYKKAIITLAEGSKIEI;locus_tag=LOCUS_4270;note=WP_003129966.1 50S ribosomal protein L23 (Lactococcus) [pid:55.7%25%2C q_cov:93.5%25%2C s_cov:89.7%25%2C Eval:2.2e-16],MGA_434
sequence08	MetaGeneAnnotator	CDS	2770	3393	.	-	0	ID=MGA_435;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183021.1;translation=MPKVALLNLKGEKVKDIKLNDEIFGIEPNNQVIYDAVVRKGASLRQGTHSVKTRSEVSGGGIKPWRQKGTGRARQGSIRAPHWYHGGVVFGPTTERNYEKKQNRKESRLALRSALSYKANNKGITVVEKFDVKDSKTKGFIKLLNTLKLEGKTLVVVKELTDELILASRNLKDVKVIESHEINTYDVLNYKNIVMTEEVVKMLEEVL;locus_tag=LOCUS_4280;gene=rplD;note=WP_011183021.1 50S ribosomal protein L4 (Mesoplasma) [pid:49.3%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:1.5e-53],MGA_435
sequence08	MetaGeneAnnotator	CDS	3441	4247	.	-	0	ID=MGA_436;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000160207.1;translation=MRKGILGRKIGMTQVFAKNGKLIPVTVIEVEPNYVSQIKTVETDGYNAVQLAYSDAKEKNTSKAELGHLKKANVSPKRFIKEIRNADVSAYTLGGEVKADIFAVGEMVDVSGMSKGKGFQGVIKRHNQSRGPMGHGSQYHRGVGSLGTMRPMRVLKGKKLPGHMGYKLITVQNLEVIEINLDKNIILVKGNVPGPKKSLVIIKSAIKHEGQVNELDELVTYATAEETPVVEETTTEEAPVEETTVEETPAEETTEETEAPAAEESSQE;locus_tag=LOCUS_4290;gene=rplC;note=WP_000160207.1 50S ribosomal protein L3 (Bacillales) [pid:64.7%25%2C q_cov:77.2%25%2C s_cov:98.6%25%2C Eval:1.3e-75],MGA_436
sequence08	MetaGeneAnnotator	CDS	4275	4577	.	-	0	ID=MGA_437;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003156464.1;translation=MANKIQINLKAYEHKVIDKAAAKIVETVKRTGGEVSGPIPLPTKIEKVTILRAVHKYKDSREQFEMRTHKRLIVINNPSKDTIEALTRLDLPSGVEISIK;locus_tag=LOCUS_4300;gene=rpsJ;note=WP_003156464.1 30S ribosomal protein S10 (Bacteria) [pid:71.1%25%2C q_cov:97.0%25%2C s_cov:95.1%25%2C Eval:6.6e-34],MGA_437
sequence08	MetaGeneAnnotator	CDS	4788	5597	.	-	0	ID=MGA_438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRFIYWIVLIVLIFILAYFIFSSSIFSNINNKASLSEANEASLLQDVKTYVTNNIDKYKDEEIVIFTKKDLVVNSIIKEDNDLDEDSRVYVSINNGYVVDAYIKNRSINNYIMNDYKSDNFIIKDNNYYFVGNEVSNYISFNNELYRIIKVDSEGNLHIIKNDKEDTVTKDKIDIQIQIFKNKKYYNYINNVTLINISDYNNTIKDGKTFLESNYKYFVNTSDGYTIINGISEDEEEAALKLVIEINKDASYEKGVGTIVDPIIISE;locus_tag=LOCUS_4310;note=MGA_438
sequence08	MetaGeneAnnotator	CDS	5612	7564	.	-	0	ID=MGA_439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEKIEELESVEENAIEMPFTEDTDDIFEENEVVETPVKEEVPEVLEEVKQEIEPIIDERISSNPIYEKKNVSDELEDRVGSGLSLSDNSNMILDDRIKNNPAYQNVSFPNVDSRVVASANEKEFIEKDNKSLFEKNIFAIKHKSILLPVIAFIFASVVGIYLFISSSKAETINLIKINESNKVGYMDSDGTIVVKSKYLSGSDYYNGLAIVKNDNNLYCVLNGKGVFEVPCGTYTYIGLYDGKYIASKITNQGLKQAILDKKLNNITKYKYDNISYINNGIYTFKRDETVGLLNGEGKEIYSFKVDEVDDKNISVEVSNSKSSIKYAKIKVNDSTTIINLESGKEIYKYTLNEVKVLDNNIFSIKDITKDNNTYIYIDDDEVKYKTDNYKFVRVEDYNSNIAICIKSDSKIDYINLTNGEKINSNENNEYFYNDGYVLEKTHDFNLNADVYNIIDYSGKVGSFTSLEPVDGLFSNQLLMISVFENRYNFVNTKGKTISNKSYEYAEKFSKNGYAVVANNEKYGILDTKANEVVSLSYNNIEQLDSSMFKTLKNKYGLELFIFTGDNNKKGLVTSKNKEYIEAIYSSFEVLDDDYPFLKAYYGNEPVLLNVVNKKEIDIKEDDDIQIKENYVIVNNKYYNYNGKLIYTAK;locus_tag=LOCUS_4320;note=MGA_439
sequence08	MetaGeneAnnotator	CDS	7640	9841	.	-	0	ID=MGA_440;product=DNA translocase FtsK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010990110.1;translation=MAKRGRPRKSSTRRRKKSNLSFILIGFILVLAGVLGLLGYKANIFGTFCRGIGMFLMGSFYYIPLILFIILGLYLLFKNKFPKVFTFTKCGIYLVLIGLLSFFNIEHLTSKATIKEEMISAFETFKIAISEQTNFSGGGLIGTFFSAVLDKYCGHIGSIIIICVLIFIGAILITGLSLSDLFDDLSDKMNKDKDGNGIPDNEDEEDDKGYLHSEDLEQTKVKITLPNHNDNEPKEKVDYTPTYNTQLYKNYEPPYPNHVDEILNKKVSAKDKAKENEMEIKKNIPLLEKVLREFEVVAKVREVHVGPSVTQYELEIKSGTKMNKVKSLSSEIALAMAAKDVRIEAPIPGKSTVGIEIPNKVNSAVPFREIIDAFPKEKMSNKLLVALGKDIMGTPRYCEINKTPHLLVAGATGSGKSVCVNCIIGSILMRAKPDEVKMVMIDPKKVEFSGYNGLPHLLMPVVTDPRKASVALQKIVEEMEDRYRKFEEAKAKNIEMYNGMLEKKNAKMAEESKYPLLPYIVVIIDELADLMVVAKKEVEDSIVRITQMARAAGIHLIVATQRPSTDVITGLVKANIPSRISFAVSSQIDSRTILDMGGAEKLLGKGDMLFLPMGESVPQRIQGAFIDEAEVEKLVDYCCKGHKASYDDKFNLDKVSESASSNRADVDNDDPLYNEVVKFVCTSKKASASLLQRRFKIGYNRAANLIDKLEERGIVGPEQGSKPREVLVELDEE;locus_tag=LOCUS_4330;note=WP_010990110.1 DNA translocase FtsK (Listeria monocytogenes) [pid:43.4%25%2C q_cov:98.8%25%2C s_cov:98.0%25%2C Eval:4.9e-160],MGA_440
sequence08	MetaGeneAnnotator	CDS	9918	11564	.	-	0	ID=MGA_441;product=ribonuclease J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003721939.1;translation=MSKIKIFSLGGLNENGKNMYVVTVDKDIFIFDAGLKYANEKMLGVDYIIPDYDFIKKNKKDIKGIFITHGHDENMGAVIDIIKEVKDIDIYSCKFTCDIIRRNLEDEGMTFNKLHEILPHKSISFGKNSVFPVLLTHSIPDNVGYVLNTEDGAIVYTGNYIFDSSLDGSYKTDIGKLAYIGKQGVLCLLNESEYADRPGFSVPRNRISSKVRDILMHNEGRIIVTVFTAHISRIQELLTEIESTQRRVVIMGKKLQQMINYVIDNGYVIFNKDRIGTLNNISDKDAVILISNENEKPFTNLERIVNGYDKYIKILPTDTVFYLDPVSVNNERIAVKLSDDIAKLGSKVESLSSKDYLLNHASEEDLKLMINLLNPKYYFPVSGEYRHMVNNADIANNMGIDKENIILKQNGEVAIFENGVLSNETEKISINELLIDGNSTKDIGELVLKDREMLSENGIVIVCATLDKKTRKVLAGPEILTRGFIYVKDNIEFINQIKDMSSEIINKNISNNYVDYNKIKTDLRDVLGNFFYNETECKPMVITVINEI;locus_tag=LOCUS_4340;note=WP_003721939.1 ribonuclease J (Listeria monocytogenes) [pid:35.9%25%2C q_cov:99.5%25%2C s_cov:98.6%25%2C Eval:1.6e-107],MGA_441
sequence08	MetaGeneAnnotator	CDS	11664	13481	.	-	0	ID=MGA_442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESTIIAICALIFLAIIMIVFFTKQKAKKVENTLFSSLLVVNFIGLVTQIVIYYITLKNPDFSESLLYVYILKVLFLVYFSFEVFFGLYVWAISFDINAKENLNFKKKQTIVYLVASILVAIIMFMSPMDIEEVNGYYYPTGASFFTMFIGMLVGTVFMIYCLFRNYKRVKSSKYLPLFAYVILSTVGIISQMINPTYLLIAPFETLVITLMYFTIENPDMRMVEELSKAKEEADKANKTKSQFLNSMSHEIRTPLNSIVGLSEDIGSYGDTLPEGVREDAKDLIEASTSLLEVVDNILDINKIESTNIPIVETPYLFKEEMVKLCKLNSTRIKGRQINFKVEFQQGLPYELIGDRVHVKEIVNNLLSNAFKYTSVGEVKLTVKYIILNDICNLIIMVSDTGVGISKEDQTKIFEVKSSDKVDSEVVGLSVAKKLVELMKGKISVQSTLGEGSTFMVELPQKISKMEEPAVEEQPVVETTNNVGFTGKKVLIVDDNKLNIKVAEKALSFLEVNSESALSAREALEKVKDNKYDLILMDIMMPEMSGDKCLLKLREEGYKMPVIALTADAVSGSKEKYLSIGFDDYIAKPFTKDEIKEKLEKAFKS;locus_tag=LOCUS_4350;note=WP_011461064.1 PAS domain S-box protein (Desulfitobacterium hafniense) [pid:34.4%25%2C q_cov:63.8%25%2C s_cov:44.1%25%2C Eval:7.2e-53%2C partial hit],MGA_442
sequence08	MetaGeneAnnotator	CDS	13513	15231	.	-	0	ID=MGA_443;product=septation ring formation regulator EzrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000377302.1;translation=MKGTLLYVTIYVVVISILVGIFFLINANRKKKLKSQIALLEKEKNLIISAPILSELGKVESLVKDDKLKIKYNGWQDKFENLRKNELPKISDMLLEADGLLEKKNYKDLRKLLVEIELDIYRLRERTDNILTEIQCLTQSEEKNRERIVELKSKYRTIKAEYEKNKEAYGDIVEQIDVEFENIEKRFSEFEITMEQKDYDEINYIVKGIDEMIDHSDYVVKEVPAILIMCNELIPNKISDISNLYIDMTRDMYQLDYLNVEYNIEETNKKLKDIIDRVKVLNLEDVVFELKTILNYFDSLYTDFENEKSAKKKFDSNMKSFKTKLTKTDKTVKNIKSQINELKTNYELSNENIERINVIDKEVTNIKNSYNELTDFSKNHSFPFTKLVKELDLLIIKLSKIDENLDYDVHTIGSMKDDEVRAREQLDNIKRLVKKTKNRIRCYNIPVIPNNYYVEIEDANEAIKEINKELNRKPITIEVLNIRVDTARDLAFKVYNTVNNLIKSVMMAEETIVYGNRYRGIKTQIDQGLDKAESLFKEGEYKKSLETTMNAIDYIEPGIHNKILKAFEDKEQ;locus_tag=LOCUS_4360;gene=ezrA;note=WP_000377302.1 septation ring formation regulator EzrA (Bacillus cereus) [pid:22.5%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:9.1e-50],MGA_443
sequence08	MetaGeneAnnotator	CDS	15501	16100	.	+	0	ID=MGA_444;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229304.1;translation=MSRYTGSAYKKSRRVSFSTLENGKDLARRPYRPGAHGQDRIKPSNYSAQLTEKQKVRFTYGMNEKQFHTLFLKAGKMEGIHGENFLKLLESRLDNVVYRMGLATTRRAARQVVNHGHILVNDKKVDIPSYNVKPGDKISVKEASKDHKAILASLESINSIPAYVTFDKKNMEGTYVRYPERNELSADINEAFIVEFYNR;locus_tag=LOCUS_4370;gene=rpsD;note=WP_003229304.1 30S ribosomal protein S4 (Bacillus) [pid:59.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-62],MGA_444
sequence08	MetaGeneAnnotator	CDS	16134	17366	.	-	0	ID=MGA_445;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000546885.1;translation=MKLYEDLMYRGLIKDVASEDLEKVLDGEPISFYWGTDPTADSLHLGHYSSLVTAKRLANAGHHPILLVGGATGLIGDPRPTAEREIISKDIIDQNVESIKKQVLDIFDGNAEIVNNYDWFKDISWIDFLRDVGKYINVNYMLAKDIINRRLETGITFTEFAYTLMQGYDYLYLNETKNVTLECAGSDQWGNITTGIDLINKKIGKSLNAFTMPLIVDSTGKKFGKSEGNALWLDESKTSSYELYQYLINTDDAKVEEYLKVFTFLSKEEIDDVMKRHNEAPEQRIGQKELAKQIITDLHGNESFEKALKITEALFSGDIKSLDEDELKAALNGVETSTISEEVNVVDMLVNTGILSSKREAREFLTNGSISLNGERITDLELTITKDTCLYNKYLVVRRGKKKYHLVIFE;locus_tag=LOCUS_4380;gene=tyrS;EC_number=6.1.1.1;note=WP_000546885.1 tyrosine--tRNA ligase (Streptococcus) [pid:50.7%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:3.0e-118],MGA_445
sequence08	MetaGeneAnnotator	CDS	17620	18435	.	-	0	ID=MGA_446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFVDKVKNFFYEDVDDEENIKIKPEKRIKPDKIKEEKPKKEKREFFKSNDEVSEKTQKISIEYEDEAPNAQLSELELFRSERTFNFPVDMDDDATETFTEKEKDEFFGPTSRLRFDEEPVQRQEVKNESSKTKFRPSPVISPVYGILDRDYNVDDVEEINKGDDHSLNKKIKSYDEVRNKAYKEMDDELEKTLNKSKSIFYNLDEKEEDIPISYGEDNEEAKEVEIHETRSKKNKKVVESSEESEEKADTSDLFNLLDNVTSEEYDDDDE;locus_tag=LOCUS_4390;note=MGA_446
sequence08	MetaGeneAnnotator	CDS	18445	19131	.	-	0	ID=MGA_447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKKIVLLVLCVTLLSGCSFVRINTNSYDTNIYNVLKRKNYKVNTNSVGYQYYLLNGITKKEGNEFNQVLKSSNGIYYMYVDLVSYYHKISKDYNTNDDLYISKKINYKDNIGYLEVSDEKDYYYVKAMYNYSKIEAHINKKKLNDALVEIFYTLSSIKYNDTIVEDILGNDKYDLSENKEYNLFNIDNDDGESNYLEEIKKYDVYDAEEDAQSLIEHEEVNTSIDE;locus_tag=LOCUS_4400;note=MGA_447
sequence08	MetaGeneAnnotator	CDS	19189	19815	.	-	0	ID=MGA_448;product=tRNA (guanosine(46)-N7)-methyltransferase TrmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002983387.1;translation=MRLRNNKNAKNIINNSSYVVLNPKEHISKWNKVFNNSNPIHIEIGMGKGDFIIGMALKYPDINFIGIEMYDSVLMHAVKKLDELDIPNLRLIRMDANEIDEVFKKEIDLLYLNFSDPWPKNRNAKRRLTHERLLSKYDKIFKKDKVIFMKTDNIKLFAFSIESLSEYGYTIKNITLDLHNEDIDNVETEYEKKFSSKGIKINRLEAYK;locus_tag=LOCUS_4410;gene=trmB;EC_number=2.1.1.33;note=WP_002983387.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB (Streptococcus pyogenes) [pid:49.2%25%2C q_cov:94.7%25%2C s_cov:94.3%25%2C Eval:2.5e-51],MGA_448
sequence08	MetaGeneAnnotator	CDS	19799	21460	.	-	0	ID=MGA_449;product=polysaccharide biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000107883.1;translation=MGKMKRSSFKQGAFIATFAIILTKIIGIVYVIPFYKVIGEKGGALYGYAYTIYATFLSISTVGIPLAISKLISEYNAKGYYHTRERVYKQGRRVLALFALIVFTLLFVFAKPIAMQIIGDIEGGNTIEDIVYVIRVIATAILIIPSLSVSRGYLQGNKYITESSISQVIEQLFRVAIVVFGSYFAMKLSHDVKTSVAVACFGATIGGLFAFLYLRLKIRNNKDIFLVDIKEKEEEKSISTKEIWIKIIKYAVPFIVIDAVGNACTLINMFTVNKILVYHTGYTIAKAETVMSTLTTWGIKLNQIIIAIATGLVTSLLPHVTSSYVKGDMDTVQNRINEAYIMLLYFGIPMTVGLSFLAKPVWQLFYSNHGLAASVFSIFVFAAIASSLYTVTLFIMQSVNKYKVVFIALAVELVLKAGLQFPLMVFAYKIGLPPYAGTISATLISLSSTYIISIIYMIKKMKISMKDTFKSLFFIMAGTTAMLASLFVLRMFINPVVDSKKAAIIVVSIYTLVGMIFYFIFTYKHVFKKVIGKELIVKFEKILKRRRKDEIKE;locus_tag=LOCUS_4420;note=WP_000107883.1 polysaccharide biosynthesis protein (Bacillus) [pid:29.9%25%2C q_cov:93.7%25%2C s_cov:95.2%25%2C Eval:8.7e-66],MGA_449
sequence08	MetaGeneAnnotator	CDS	21473	22024	.	-	0	ID=MGA_450;product=SMC-Scp complex subunit ScpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965360.1;translation=MISALESILFAVGEEGLKLEEIEGILDIDEETALKLIDDLRNEYSKKERGLDIKVLGNSYKLITKEENKDYLKKISLEVSNNLSEAALETLAIIAYNEPITRVAIDEIRGVNSSQMVRNLIAKGLIMNSGKSDLPGRPNLYKTTDYFLDYFNLPDLSKLPVIDRDEVEILDDKDLYESKYTEV;locus_tag=LOCUS_4430;gene=scpB;note=WP_010965360.1 SMC-Scp complex subunit ScpB (Clostridium) [pid:41.7%25%2C q_cov:91.3%25%2C s_cov:82.7%25%2C Eval:3.5e-29],MGA_450
sequence08	MetaGeneAnnotator	CDS	22017	22739	.	-	0	ID=MGA_451;product=segregation/condensation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723598.1;translation=MEANFVINDFEGPLDLLLHLIKTSKMDIYDIKIEEITKQYLDFINKMQELNLDVASEYLVMASELTLIKSKMLLPRQDEEEEEEDPRENLVNRLVEYQKYKDMIDEFKSLEKERKDIFTKDPMNLLEYSDPIKNDGDITLENLVDALNKFFQRKEDEKPLETKIARKELLVSDRTIEIRNILKKKKKISFFDLFEVRTKEYVVVTFLSILEMAKKGEITITQDNNFNNITVNVKEGEELD;locus_tag=LOCUS_4440;note=WP_003723598.1 segregation/condensation protein A (Listeria) [pid:46.0%25%2C q_cov:99.6%25%2C s_cov:99.2%25%2C Eval:4.5e-53],MGA_451
sequence08	MetaGeneAnnotator	CDS	22825	23124	.	+	0	ID=MGA_452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRFNMIDEEFICEHCGKEVKKLEYSARDHCPYCLYSKHVDINPGDRTNTCKGLLKPIGIEKFKDTYKIVYKCEKCKMEHKNIMAIDDNYDVILEISKN;locus_tag=LOCUS_4450;note=MGA_452
sequence08	MetaGeneAnnotator	CDS	23202	24290	.	+	0	ID=MGA_453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKKKPNYKLRRTIAKTILIILILTPIIYFNRIRIIHVPLQIKYHKYSDVVNSLFDAKYTNKEASNTLDKLIKKEKINSFTDDYIVSLKDKGYSKNTISYVLINFKPGDIKSLINSKYDKDIETMIKISYFDYNNYDRYLNYRKDTEDIKRTVLKVQLDLDKDSYSDTVEETNPDSLTALISKHRYINEDYEPSDLVDMSDDYANNYYRQMQLRTEAYESFKKMVDAAREERLNFYAESGYRTFKFQKQLYNNYVNNNGYAKANLYAARAGFSEHQLGTAVDLANIYTIDETDAEYEWIMNNGYKYGWIFRYTEEWTDLTGFAKEPWHIRYVGVDVATKMRDEKISFEEYWIKYINKKEAK;locus_tag=LOCUS_4460;note=WP_004399387.1 LD-carboxypeptidase LdcB (Bacillus) [pid:36.1%25%2C q_cov:53.9%25%2C s_cov:73.3%25%2C Eval:5.8e-30%2C partial hit],MGA_453
sequence08	MetaGeneAnnotator	CDS	24300	24881	.	-	0	ID=MGA_454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKLFVGVICLLMLFTFTGCGSKKGDVNTKNGKGEVKEKIKGNCTVFECIKTIEPTDTLEQVNEKMGFDGSLDKDEESYKIYKWEVTKDTSVEVNFPNSGKSTIKINFDEKTIANDKLDLSQFDEMKSIINKGEMTLEKFNEMVGNVEGTLIEKSAYSVKYEWYKSSSDYLKGSFSTTSNKCTFVSGLRSQQ;locus_tag=LOCUS_4470;note=MGA_454
sequence08	MetaGeneAnnotator	CDS	25082	25411	.	+	0	ID=MGA_455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNQIVIIGRLVRNPEIKESEGGKKYTNITLAVPRNFKNANGEYESDFIDCKLWNGIAENASEYCHKGDLLGVKGRVETRSYEKDEQKKYVTEVIAEKITFLSSKKADE;locus_tag=LOCUS_4480;note=WP_184663868.1 single-stranded DNA-binding protein (Texcoconibacillus texcoconensis) [pid:49.1%25%2C q_cov:100.0%25%2C s_cov:72.4%25%2C Eval:2.7e-27%2C partial hit],MGA_455
sequence08	MetaGeneAnnotator	CDS	25481	26263	.	+	0	ID=MGA_456;product=slipin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404464.1;translation=MIIVVGVIIFVVFILLISIRQISEYERGIKFRFGKFKKIMNPGWKLVLPIIESYKKVDIRTKAVDVPEQDAITKDNVSIRINAVIYYKVFDASKCILAVEKYQYAVGQLAQTTMRNAVGAVSLDELLSERDKISTEICNVIDEATDPWGIKVENVELKDIKLPDEMQRVIAKVAEAEREKQAVITKSKGEKEAADNLAKAAEVLSAAPGALHLRTLSTLNDLSSDQSNTIIFAVPIEVLRAFDGTNVVETVKKIKEVNKK;locus_tag=LOCUS_4490;note=WP_011404464.1 slipin family protein (Salinibacter ruber) [pid:58.6%25%2C q_cov:89.2%25%2C s_cov:91.3%25%2C Eval:3.7e-72],MGA_456
sequence08	MetaGeneAnnotator	CDS	26285	26833	.	-	0	ID=MGA_457;product=rubrerythrin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003418513.1;translation=MDYNKLKGTKTEENLKTAFAGESQARNKYTYFASKAKKDGYEQIAAIFEETAGNEKEHAKLWFKYLNNGEVPSTVDNLKAAADGENYEWTDMYETFAKEAEEEGFTELAIKFRQVGEIEKHHEERYRKLLKNIDDEVVFSKDEDKIWICRNCGHIVVGKKAPDVCPVCNHPQSFFEVKSENY;locus_tag=LOCUS_4500;note=WP_003418513.1 rubrerythrin family protein (Clostridioides) [pid:66.7%25%2C q_cov:97.3%25%2C s_cov:98.9%25%2C Eval:2.0e-69],MGA_457
sequence08	MetaGeneAnnotator	CDS	26844	27773	.	-	0	ID=MGA_458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLCKKCGANLLDTDTICSSCGTLVSNEIETGINNLNDVVFSSPSYTTNTSYSSPSYKKGIDKKYIIIGVIIIAIIGAFFIINKIFAPKTKTIVCTSDKGNISLKYSEEKIVSYKVTDGITFDKKDQNETYKDIGSDSYIEQFYAWFKGATSGKCTIDGEEAPISTTSSHTVPKDVITVGDDVNGFIKVPSNWTKVDGGLNSVTYAYEDNSIVLETIKDSSFTLDSYVASYYNTKYYDDSCIGVTKIEKIIGSYSGYEVYMYNVDTDRFIFTYWFKTDDNNIHFMSLEGPAGESAGVIEYLFIPESYILE;locus_tag=LOCUS_4510;note=MGA_458
sequence08	MetaGeneAnnotator	CDS	27802	28239	.	-	0	ID=MGA_459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIVFKSSNYVANVKNNSELAKKIKSANGDEIEISKMILDSVDEKCKRVEHVRNTFINFMAWGILLSAVKASGHYESNLLDSFDPFIYGFTAVCSAIGLGSIVVSKVFDKKYYKILNVYNKALTQKGEKSDNNDKEDEISNKKML;locus_tag=LOCUS_4520;note=MGA_459
sequence08	MetaGeneAnnotator	CDS	28239	28514	.	-	0	ID=MGA_460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYLDKYDIITYDNNKEYIVINSVIIEDSNFVYLVNKDDPKEHLFAMVEKDNNKIKVNEIDLEAKDNKELLVKLLEELGVDMYKEILERSS;locus_tag=LOCUS_4530;note=MGA_460
sequence08	MetaGeneAnnotator	CDS	28648	29100	.	+	0	ID=MGA_461;product=NUDIX hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000540491.1;translation=MGYISDIRKFVGHSPIMATAALGIIYDEDKKLILFEKRSDTGEWCIPGGCLEFGETGEQGLTREVKEETNLDISNPVLFDVKPNMYTKYPNGDEVYYTDIVYVVKDFTGELKPDKESTELKWFNENSLPDNITPNETEYILKFTNKKTSR;locus_tag=LOCUS_4540;note=WP_000540491.1 NUDIX hydrolase (Bacillus) [pid:44.5%25%2C q_cov:89.3%25%2C s_cov:88.9%25%2C Eval:4.2e-25],MGA_461
sequence08	MetaGeneAnnotator	CDS	29102	29683	.	-	0	ID=MGA_462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIGITGSSGSGKSTVSNYIEEKLNNAKLITVDDIMKSNVRVKYRKEIQEAFNQDELDPIALFQNIDTVNKWLDICKDNMDLEIEELVDEYSKTYDYVLADYVFLPMLGVWDKCDMTINVKADKNIQFNRLKQRLIDSHHTHNWTGDDTIRKRIECSVLDEYGYNAQHTVYNNGTLDELLNQVDNILIEIKEN;locus_tag=LOCUS_4550;note=MGA_462
sequence09	MetaGeneAnnotator	misc_feature	1	524	.	+	.	ID=MGA_463;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_000344449.1:Holliday junction branch migration DNA helicase RuvB,WP_000344449.1 Holliday junction branch migration DNA helicase RuvB (Bacillus sp. (in: firmicutes)) [pid:59.9%25%2C q_cov:96.5%25%2C s_cov:50.2%25%2C Eval:3.1e-53%2C partial hit],MGA_463;locus_tag=LOCUS_4560
sequence09	MetaGeneAnnotator	CDS	587	1615	.	+	0	ID=MGA_464;product=tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048087.1;translation=MKTSDFDYYLPEELIAQTPLKERDEARLLVLHKKTGEIEHKVFKDIIDYLEEGDALVINDTKVIPARIIGTKEDTGAVIELLLLKDKGEDTWECLSKPQKRLKEGTIITFGDGSLKAQVVKLDNDGITIVKMLYNGILLEILERLGTMPLPPYIHEKLEDGNMYQTVYAKDYGSAAAPTAGLHFTDELLGKIREKGIIVVPVTLHVGLGTFRPVMVDDVTNHKMHTESYIFPSDSAEILNKVKESGKKIFVVGTTSTRVLETNLSRYPKFTPEVSETDIFIYPGYEFKAVDNLITNFHLPKSTLVMLVSALAGKDNIMKAYKEAVDEKYRFFSFGDAMLIID;locus_tag=LOCUS_4570;gene=queA;EC_number=2.4.99.17;note=WP_012048087.1 tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA (Clostridium botulinum) [pid:62.6%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:6.2e-119],MGA_464
sequence09	MetaGeneAnnotator	CDS	1624	2733	.	+	0	ID=MGA_465;product=tRNA guanosine(34) transglycosylase Tgt;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723534.1;translation=MKIKYELLKKEKNTKARHGKLHTNHGTFETPMFMPVGTQGTVKTLSVEELYDVNAGIILANTYHLWLRPGEDIVNKAGGLHKFMNYKGPILTDSGGFQVFSLAKPKDITEEGVMFKNHLNGDKLLLTPEKSIEIQNKLDSDIAMSFDECVGFPHTRKYVEESVERTLRWAKRGKDVHSNENQSLFGIVQGAEYEDLRKHCAEELIKMDFDGYSIGGTAVGEPKDVQYEQVEYSCKYLPEDKVRYLMGVGDPIDIIENVIRGVDIFDCVMPTRLARHGHAYTKYGKINLKNKQFEEDFTPVDETCDCYACKSYTRGYIHHLIKAEETLGARLLSIHNIRYLTRLTEDLRKAIDEDKILEYKEEFLKNYKF;locus_tag=LOCUS_4580;gene=tgt;EC_number=2.4.2.29;note=WP_003723534.1 tRNA guanosine(34) transglycosylase Tgt (Listeria) [pid:60.6%25%2C q_cov:99.5%25%2C s_cov:97.1%25%2C Eval:6.4e-133],MGA_465
sequence09	MetaGeneAnnotator	CDS	2815	5541	.	+	0	ID=MGA_466;product=protein translocase subunit SecDF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001119070.1;translation=MNTLIICGIILAVYLVYSFAISKLLRKVNQKWYLGYIPVINFIKLLELADYKWYNIFKFIIPLGVLAICYFGGFKEQFIYLIEGFSALCFIWYLIMLKYRLSKKFNKGLLFTIIFAIIPLFPFVLLSFDNSKYDYKLEFTSVRAKFLTVFLTVFSLVVGFTILIPTVFDNITKGLDLAGGFEILYKISPAEEGVELTSSMVEDTYRTMVRRIDALGVSEPEITIEGKDKIRVKLAGISDVDTARNYITLAGELTFRDSSDKKLMGKEVLSSSMAAKVSKDDSGRPAVLLNVKDTDTFYNVTTDISKSNDRLIVIWLDYDSATDSYKTANCGNFENLVDAKCLSAATVSQGFSSNVIIQGNFTEEQVENLVDLINSGSNNVKFKEISSQTVGSAFGENSLDKTKIAGVIGIALIIAFMVFVYNFNGFISSSVILVYAFFTFLIYYLIDGVLTLPGIAALVLGVGMAVDANVITAERIKEELRKGKTLKDAYKNGVKNSFSSILDSNVTTFIVAVILFMFGTSSVKGFATMLMINIAMTMLIVVLVTRIITYAFINTGFFNNRIKLFINQSKKEIVKSTERVDSRFEKKVKFNFTNNFKKLIILPIILLLVGVSFAVFKGFNFGIDFTGGTDITVTAKDASLKDINKTVKGLGYTIIESSEADDNYYVKVSEILTEDKVTNTKNTISEKYKASVDISVVSNMVKKDLIKNAIKALLIALIGIILYITIRYKFSYALAAILALLHDSIMVIMLFSIFRVEINSIFVAAILTIIGYSINNTIVIFDRLRENIKKYYMSKEFDETKLREIANRSIKETLLRSINTTLTTLLPIICLIVFGSREIIEFNIAITMGLIVGLFSSVFLSCSIMIIIERMITKNKIKKAKKVPKKDTKKKKETKRKVQELSVKGINA;locus_tag=LOCUS_4590;gene=secDF;note=WP_001119070.1 protein translocase subunit SecDF (Bacillus cereus) [pid:40.2%25%2C q_cov:77.0%25%2C s_cov:92.8%25%2C Eval:6.8e-138],MGA_466
sequence09	MetaGeneAnnotator	CDS	5569	7719	.	+	0	ID=MGA_467;product=GTP diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229747.1;translation=MDTKLEIDNISELITAVKEYIDDESEIENIKKAYEYASVIHKNDIRLSGEEYMHHPLNVAYNLTKLNADSDTLCASLLHDTIYIGNASLDDIRAKFGDDIADLVDGITKINKLNLSADSEDHIKYYKKIIVGLSEDVRIIIIKLAERCQNMRTLWAIPEDKRREKSKETLEILVPIAHRLGLGELKTELEVLSLKYYKPNEFISVEEQLDNTEEERQAIVDNMIEEVSKLLDENDIDYEIKGRAKSIYSIYNKLCKGKKFSEIYDIYALRIIVNTIPECYQVMGIIHSVFKPMPKRIKDYIANPKTNMYQSIHTTVFGPYDKLYEIQIRTYEMDRIAEKGIASHWSYKEKGKSIQDSMEQKLQMFRNIMEISEENESANEFVNRVKDEVLSDSIYVYTPRGDVFELPKGSTPIDFAYKVHSGVGETMVGALVNDSIAKMDQILESGDIVKIITNKNATPSIEWLNMAKTSQARSKIKAYFTKMDKEEAIIKGKDLFLKEIRRRKESINEIMDRLDNILTSLNLENEDDLYYSIGIGKYTSVQAVNSAFKEEESKEDFVLDKILNKNRPVEDHKNDILVSGIKDIKVTLAKGCNPIKGDPIIGYISRGNGVIVHHKECKNILQIEDRMIDVKWNENINKKFETKVHIVASNNENTLVDIINIASSNNISVSKINTIYNMDTNTFELTIKVSDIDTLNKFFANLRRNNNIKLVERIFV;locus_tag=LOCUS_4600;gene=relA;EC_number=2.7.6.5;note=WP_003229747.1 GTP diphosphokinase (Bacillus) [pid:37.6%25%2C q_cov:98.2%25%2C s_cov:98.4%25%2C Eval:4.8e-152],MGA_467
sequence09	MetaGeneAnnotator	CDS	7716	8171	.	+	0	ID=MGA_468;product=D-aminoacyl-tRNA deacylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002289097.1;translation=MRVVIQRVDNASVLVNSKYTNSINKGYMILLGICTTDTEEDVDYLVNKIEKLRVFEDDNNKMNLSIKDVNGEILLISQFTLYANTKEGNRPSFTDSMKFDDANNMYELFKDSLFKTNIPFKTGEFGADMKVSLINDGPVTIIIDSKDRNVK;locus_tag=LOCUS_4610;gene=dtd;EC_number=3.1.1.96;note=WP_002289097.1 D-aminoacyl-tRNA deacylase (Bacteria) [pid:54.7%25%2C q_cov:98.0%25%2C s_cov:100.0%25%2C Eval:1.1e-41],MGA_468
sequence09	MetaGeneAnnotator	CDS	8237	8695	.	+	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKETITGISKQYEPILVYLISLLGLIFSFMKDDVDKEARWVYNQAGALFIVNASVGVVCSMSIIIPIVGILVGIIGWMVSVACLVFAIIAIIKAYNGEHYEIPVIANIAKAIWKYEDTPKSSAKKDTKTVKEVEVKAEKKTAKKTAKKED;locus_tag=LOCUS_4620;note=MGA_469
sequence09	MetaGeneAnnotator	CDS	8742	9824	.	+	0	ID=MGA_470;product=undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011181833.1;translation=MKIIITAGGTGGHIYPALAIIDKIKKEDKNSEFLYIGTTNRMEKDIIPEMGIPFYGIEVYGIKRQITFKNILFNIKAVIKYLKGNKLVKKKIKEFNPDIVIGVGGYVSAPVIKQAKKLGYKTLVHEQNSILGLSNKMNLKYTDTLCTSFKDMKVDKVHYVYTGNPTSDNAKNIKKTELKELGITNNKKTVLIVMGSLGSQTVSNVLKNSLNKFSDDYNTIIVTGKDYYDSYLDIEKGNNVYLFPYINGLPSIMKSCDLMVTRAGASTISEIVSLNTPAIFIPSPFVTENHQYKNAMSLVSEGAASLLEEKDLSPDTLVGSINEIINDDNKIKDIKKNLSKFEIDGSQDRIYKEIVKLVKE;locus_tag=LOCUS_4630;gene=murG;EC_number=2.4.1.227;note=WP_011181833.1 undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase (Bacillus thuringiensis) [pid:39.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.8e-71],MGA_470
sequence09	MetaGeneAnnotator	CDS	9827	10723	.	+	0	ID=MGA_471;product=UDP-N-acetylmuramate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003232182.1;translation=MDKIISKLDSSYKILDNESLSKYTTYNVGGIAKYIIYPSSIDKLVELVKILRNNNIKFKVIGNGSNLIFSSKTYDGVIIKLNYLNKVIYEDNILTVEAGYPVIKLAIETANKGLSGLEFASGIPGVISGLTYMNAGAYNKDMASIVEEVKVLDENNNIVKLSNKNMNFSYRYSILKDKNYIVLTVKIKLEYGNKEEILALIEDRKKRRMESQPLNYPSAGSVFRNPEGLSSWKLIDDLNLKGYSIGGAKVSEKHANFIINSDNASPEDIRNLIFYIKEKVKEKYDIDLIIEQEFVNWE;locus_tag=LOCUS_4640;gene=murB;EC_number=1.3.1.98;note=WP_003232182.1 UDP-N-acetylmuramate dehydrogenase (Bacillus) [pid:41.5%25%2C q_cov:99.0%25%2C s_cov:98.7%25%2C Eval:4.3e-62],MGA_471
sequence09	MetaGeneAnnotator	CDS	10726	11391	.	+	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKKKKRKLKKVFIVIFFILIISLVGFLLSLVKTRGFYVLDNNYVDEDTVLDTCGLDENTSFFFTWSIFINNKCNNNSMIKKVKVDHTKTFEIKLHVEEYKVIFKYNNYAINELGKKVNPVYEDAPTLVNKIENKEVYANFIKKMNKVDNQILSIISEIKYDPNEVDNERFLFYMNDGNMVYITLSKITKINSYPSIIKTIENKKGVLYLDYGNYFVPKE;locus_tag=LOCUS_4650;note=WP_003724089.1 cell division protein FtsQ/DivIB (Listeria monocytogenes) [pid:25.0%25%2C q_cov:86.0%25%2C s_cov:74.1%25%2C Eval:8.1e-11%2C partial hit],MGA_472
sequence09	MetaGeneAnnotator	CDS	11452	12693	.	+	0	ID=MGA_473;product=cell division protein FtsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047886.1;translation=MRKIYTAIDIGSDTIKVIVLEKLDNKLNVLASNIYPSLGVKNGVVIDEDLVLATIKESLKKINSTLNININKALINVPMDDANYRIVDGYTTITGEDSIVTRDDILNTLQASIYNKIPEDEELVTVMPIKYVLDDRTEVKNPRGLKASKLSALVMMVTAPKASLYKHLALFDKVGIEVVDILFGNIGDYHAYKEDEFDKGVTAVIDIGLNKTDISIFNKGIISASKVLKIGSFNIDEDLSYVYNIPLDKARKLKEMFINLDKSKASKDEFYDIKDKSNIKVSINQKEASEIVYNNLLEIIKKAKKELNNLTKKEIHYIIITGGISNIPGFDKLCIEVYNDIVPTKMNKIGIRDNTYSSAYGTIKYFINKLELRGREYSMFNEDEISKMVSNAIKNEDTKIFGRFFSRLFDKED;locus_tag=LOCUS_4660;gene=ftsA;note=WP_012047886.1 cell division protein FtsA (Clostridium botulinum) [pid:24.3%25%2C q_cov:87.7%25%2C s_cov:88.7%25%2C Eval:1.3e-31],MGA_473
sequence09	MetaGeneAnnotator	CDS	12696	13757	.	+	0	ID=MGA_474;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003232167.1;translation=MALEIDQLAKIKVIGVGGGGNNAVNRMIESGIKGVEFIVANTDSQALRNSKADIKVQLGKSGLGAGANPEVGRQAAEESKDDLKEILKGADMVFVTCGMGGGTGTGAAPIVAEIAQSLGALTVGIVTKPFSWEGNKRLLNADEGLEKLKEHVDTLIIVPNDRLKDIIDKNTPMIAAFKEVDNVLRLGVQSISDLIAVNGLVNLDFADVKAVMENKGDALIGIGVATGENRAIEAARQSVSSPLLETDIRGATDAIVNITGSNNLSLTEVQEAVEVIRQSAQTDINIIFGAVINESLGDDVIVTVVATGFDKVGDAYLDTFHEQVIEMNNPVASDEDDDDGWDIPDFIRNRKNI;locus_tag=LOCUS_4670;gene=ftsZ;note=WP_003232167.1 cell division protein FtsZ (Bacillus) [pid:55.5%25%2C q_cov:98.0%25%2C s_cov:97.1%25%2C Eval:9.4e-110],MGA_474
sequence09	MetaGeneAnnotator	CDS	13875	14303	.	+	0	ID=MGA_475;product=division/cell wall cluster transcriptional repressor MraZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000480800.1;translation=MLMGEYHHNLDDKNRLIIPSKFRYELGSKFIITRGLEKCLFAYSVDEWNKIIEKLNSLPFTSKDARTFMRMFLSGATECELDNNGRICITGPLMNYASLNKECVIIGVGERIEIWDQDMFNNFFNENIDNFSDVAENLFNAY;locus_tag=LOCUS_4680;gene=mraZ;note=WP_000480800.1 division/cell wall cluster transcriptional repressor MraZ (Staphylococcus) [pid:59.3%25%2C q_cov:98.6%25%2C s_cov:97.9%25%2C Eval:3.1e-45],MGA_475
sequence09	MetaGeneAnnotator	CDS	14293	15207	.	+	0	ID=MGA_476;product=16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003731975.1;translation=MHISVLLNECIENLNIKEDGIYVDATLGYAGHSSQILKRIARGCLFAFDQDGEAIEYSTKILDQINDNYEIINNNFVNIKEELEKRNIKGVDGILFDLGVSSPQLDEAERGFSFHNDAKLDMRMNQNQKLSAYEVVNTYPKEKLIKIFYEYGEEKFSKSIAEAICKYRETKSIETTLELTEIIKNSVPEKYRRLHHPARKVFQAIRIEVNNELNVLEKALHDSLELLNPGGRICVITFHSLEDRIVKNIFKEATKENELYKGMPNIPDEYKTKYKLIGKYKPTKEELENNNRSRSAILRVIERI;locus_tag=LOCUS_4690;gene=rsmH;EC_number=2.1.1.199;note=WP_003731975.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Listeria monocytogenes) [pid:56.7%25%2C q_cov:99.7%25%2C s_cov:98.4%25%2C Eval:4.0e-87],MGA_476
sequence09	MetaGeneAnnotator	CDS	15219	15512	.	+	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKVRSKKKNIERNFINFGAVILLCLWAVSFFAKISLSSLNIEVEKIKSSVKNQSETNQALSMKINELASLENVNEVANGSGLAYNNGNIRIVNNR;locus_tag=LOCUS_4700;note=MGA_477
sequence09	MetaGeneAnnotator	CDS	15524	17626	.	+	0	ID=MGA_478;product=penicillin-binding protein 2B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009968930.1;translation=MKQKVQNKIHVNKFVILFGLFLFAIIIARLVYLNISPKIDGINLSKFAKNRNTVKRTLNANRGTIYDSNEEVLAETVDSYTVVAFLDKSRSKNSTKPKHVVDVEETAKALSPLINMSEERLIELMSQKGLYQVELGPGGKGLTELQKEEIEKLELPGIGFIPTQKRYYPNLDFASYVIGYVREYDDGKTVGEMGIEAKFNSELTGVNGSVTYQQDANGYKLINSPEIRIEKEDGYDIYLTIDSNVQLMTERALNDAFSRSGASKAIFIVAEAKTGKIIASATKPSFDPNVKNITNYLDPLVSYSYEPGSTMKTFTYMATIEKGNYNGQDTYHSGTMKIDEYTIKDWNTYGWGDISYDYGYAQSSNLGVANLTQKYLTGQELKDYLKKLGFGSKTGIELPGEVSGKVDFTYKIEVATASFGQGITITPVQMIKALTAISNDGYVLNPTIVEKIVSPDTGEIIYQNKPQKGTKVASQETVNKIKSLMNDVVTIGTGTSYNMDGYDIIGKTGTAEVYNANTGRYYKTTYRNIRSFAGMYPKDNPKYVMYIAFENAASSSQMADAVKSLIQDIEAYYNLTNVRATTNYAYKVGNYSNKKVVDVKTELDNNGISYELIGDGDIIIDQYPTKDNYVDGKILLKTNGNIGDTDLRGFSSKSLRNYCRLINAECNLNGSGYVTDHNFEKDETGKIIKVNAELYLPSAE;locus_tag=LOCUS_4710;gene=pbpB;EC_number=3.4.16.4;note=WP_009968930.1 penicillin-binding protein 2B (Bacillus) [pid:35.8%25%2C q_cov:95.4%25%2C s_cov:95.7%25%2C Eval:8.4e-125],MGA_478
sequence09	MetaGeneAnnotator	CDS	17857	19806	.	+	0	ID=MGA_479;product=ATP-dependent DNA helicase RecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244692.1;translation=MFGLDNIKGIGPSTINKLNKLDIYNMEDLINYFPYKYHILKKTSLNEEKVVVSGKILSIPTVSFFKKMNRLSFTMEIDNRILNVTIFNRLFLKDKLTINKVVTVVGKLEKNTITASDIYLYDIGDNINIIPVYHLVKGLTSKNITKYINEAINTSYIYDYIPEILSNKYNFISKKDAIYKVNNPLSMEDIDISRDRLRYEELFIYSLKMNYLKSKKDNNGTSLITNKTKLNEFILSLSYSLTKDQLHALEDIFKDMESTSRMNRLIEGDVGSGKTIVALITMYAYFLNGYQSSLMAPTEILAIQHYNNMINLFKDFNVNIALITSSTKKSEKNKIYEGISNGSINMVIGTHSLLNEDLEFNNLGLVVTDEQHRFGVNQRKNLRNKGNNVDVLYLSATPIPRTYALTLFGDMDISIIESKISGRKEITTKVFKNNQTDEYLNMIYKELKEGHQVYIVSPLIESEDETLDIKKLKEKFSLAFKNYNIDILHGKMKSKEKDEIMNKYKNHEIDILISTTVIEVGVDVKNATMIAIFDAERFGLATLHQLRGRVGRNDLESYCLLISNKETERLKLMESIHDGFKLSEEDFRLRGSGDLFGTRQHGDMNFKVAKLPRDIDVLKHTSDDSKEILKNIDNYSLLQGIIKDIRKKD;locus_tag=LOCUS_4720;gene=recG;EC_number=3.6.4.12;note=WP_003244692.1 ATP-dependent DNA helicase RecG (Bacillus) [pid:42.2%25%2C q_cov:96.1%25%2C s_cov:94.1%25%2C Eval:8.7e-145],MGA_479
sequence09	MetaGeneAnnotator	CDS	19815	20918	.	+	0	ID=MGA_480;product=beta-N-acetylhexosaminidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005813606.1;translation=MKEQFLLDKLSKMSLQTKIGQMLLIDYRNEDGFKMTVDLEKVLTTYSPGGFILFRSNLSDYKNTQKLLHSIKEIGDISPFIAADHEGGIVQKLSDVGLTRIPSMEEVAKTMSEEDVFNLGKKMGEELKSIGVDMDMAPVLDVLSNPNNVGIQSRSFGSDPEVVKRLSMAIANGLKEEKVISVGKHFPGHGGVITNSHEDLPVIDKNLEELKVLELIPFIEAIKQNVPGIMVGHLAVPKVTGDKTPASLSKVLVNDILRDDLGYNGLSLPDALKRMGALTKYFDEREIYLRCINAGNDMLLMPQNINIAYDTIYRAVNEGTITEERINEAVYRILSTKFDYGFFDKEYNEYVLNNQNQQYVNTQYKHR;locus_tag=LOCUS_4730;gene=nagZ;EC_number=3.2.1.52;note=WP_005813606.1 beta-N-acetylhexosaminidase (Desulfitobacterium hafniense) [pid:36.3%25%2C q_cov:92.6%25%2C s_cov:79.8%25%2C Eval:1.1e-57],MGA_480
sequence10	MetaGeneAnnotator	CDS	1090	1590	.	-	0	ID=MGA_483;product=nucleotide exchange factor GrpE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000392710.1;translation=MEQEEIKETKKEKKNKEKELIEALNLKVKELEDKNLRISAEMINSLRRKDEDNARVMKYANESLIIDLLTTIDNFERALNIETSNEDITNYQKGMKMIYDSLINTLSKYEVSIIDALDKEFDPTYHQAVMTEKVEGKNSGIVIEVLQKGYIYKDKVIRPAMVKVSE;locus_tag=LOCUS_4740;gene=grpE;note=WP_000392710.1 nucleotide exchange factor GrpE (Bacillus) [pid:40.3%25%2C q_cov:89.8%25%2C s_cov:79.3%25%2C Eval:1.2e-27],MGA_483
sequence10	MetaGeneAnnotator	CDS	1593	2567	.	-	0	ID=MGA_484;product=heat-inducible transcriptional repressor HrcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003246126.1;translation=MLDTRKENILKLIVEEYIKNIRPVGSKSICDTLNVSSATIRNEMMALENEGYLEKTHTSSGRVPSEKGYRYYVDNIMKPKDITGEDMLKLQTIFNNNQLALSNTIEKSLSIISEMTNYTAVVLENKGVNDDLKEVSILPISEEKVVALVVTSSGHVENKTIDIKNTNLDDVKKIVELINKLIVGTPINEVSSKLEFEIKPIIGQYIMNYEMVYSAFYNAFNDFKDNKDEVIIKGRDKILQLPEFNNVNDLKKVITALDEDKIKHLKEESEDINIYIGKENELDENLSVIKTKIGDSTLAIVGPKRMDYDFVVGLMEYIKNNIER;locus_tag=LOCUS_4750;gene=hrcA;note=WP_003246126.1 heat-inducible transcriptional repressor HrcA (Bacillus) [pid:36.7%25%2C q_cov:100.0%25%2C s_cov:97.7%25%2C Eval:6.5e-62],MGA_484
sequence10	MetaGeneAnnotator	CDS	2649	3002	.	-	0	ID=MGA_485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNLENSDKNISLPFDALETDEEIEVLEDPRRSAKEVIKDTASSIQNKASEIKENIQNQDIYETNIDIPIIKATEKPKKKMEKVLKIQIALIVLWVVLTLSLYLFGYELFEPFIPIN;locus_tag=LOCUS_4760;note=MGA_485
sequence10	MetaGeneAnnotator	CDS	3037	4098	.	-	0	ID=MGA_486;product=radical SAM family heme chaperone HemW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002352330.1;translation=MIKSCYIHIPFCKNICSYCDFCKIYYNELFINKYLNSLENEINTFYKGDTLNTIYIGGGTPSSLSINELNRLFDILNKLNRSNSIEFTIECNIEDISKDKLQLFKSNGINRLSIGVESFNEDNLKFMERPSIDINKINLAKKYFNNINIDLIYALPNETLDILNNDLDKVLSLDVKHISIYSLIVEPNTKIKDIKPINEDIDYEMYKLICNRLKDFNHYEISNFAKEGYESKHNLTYWNNEEYYGFGLGASGYINNIRYTNTKSINHYIKNNYNRDEEVLLKEDKEKYELILGFRKLKGINLIVYKNKYNKDLLDNQKINKLLNENKLVIRDNHICICEDYIYLQNSLLIELI;locus_tag=LOCUS_4770;gene=hemW;note=WP_002352330.1 radical SAM family heme chaperone HemW (Streptococcus mutans) [pid:38.5%25%2C q_cov:99.2%25%2C s_cov:97.4%25%2C Eval:4.0e-68],MGA_486
sequence10	MetaGeneAnnotator	CDS	4091	5854	.	-	0	ID=MGA_487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSKEVILDNAKNYLNTLLDDIKTEYDNIREFINNYVDNNNEEDDVDSIYTPQIKRKLDKIKEFEEKGQKSLGQIYKTLEREEIAIGRVLGYNPLMGEAKGFVPLMQSVCLIDPKKSYETILIVSKISGLDYPFSQSDFIKYNDAVVKAFAAQQDALTYDETDYISNVDHVKIMRSVQDALKKYDFDTFFDKNFNFVEKAIAIIEDKKTDYTRSIQDERVNQLNIRKQEKENELKEYNERVIFLDNKRKQAKETLNLISEYETSLDPDLYKTIIHNLLELDAISYRQAKINTYEQNSMENINDTDDVNNIIDNLDITIKAPSEAKELLEKPAKELDADYFRNPDAENIICFLGETGDTIIEDLYRHFDNSTRKPVLKELISLFESLSVGKEHSSQLGSYPKETTENRKTTTLLKAPFRFQYRRYGVSKDDYRIHAITKRSSILQELGYGNGNIIFFGSIGYNDDKKKSFSYSRVGARAIESFPASGEKAILKSNFNDIEHILRRYIPVNLLCDEDKTKFERGKFRGVNKKLNKDRSIERNQYVLFDELENQSKENVRLYLNKYFIEQTNIMFKIIEDYKRRDNTLD;locus_tag=LOCUS_4780;note=MGA_487
sequence10	MetaGeneAnnotator	CDS	5874	7592	.	-	0	ID=MGA_488;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINKKDNIIEVEGQKTGKNYSYEYVLPTLEVINKRVSNFINNHKGMSDIDIVGFTSLGYPLNEIKIGNGPKDLFIVGGTHSNEIIAVDVISQFLEHFDEFDSSLLNDVTIHIIPIQNPEGYRVLDSLMTEVNGYIERNALDLEEFCHDYYINYRTDDLIFKSFKEMNKFMTDENFIVHYRDYIINNEAYGRLHENNALPRLNKQFPYLQEDGEALMLTFDQAILRIDPTLPLDKYLYNVRTIIMDTINKLDLNNKHDIALKIYLEMLSSSLVKPLTLINLNAITKLHQNQLKQVSMNAYNTLKNEIEEEVKDDPKLKIDFEKSYLFTCTEKQAHTIMVQFASNIIDGVNLNGNTPYSPGIDAIRSGNEVYDSRGPLSNIRNYSKEGPLGSSIPDERKAFGIINEENIDFVNENKILLSLLNKSMESDTYGGCILCHGTGGLLYYKPNEELTKNNYLNIIESNEDLVDSMQNAIDGSIEDLDPERYEMLMLKGKHYYSKRQEADKTGFGDFLRSKFPKVIMYENSVMGGNPFSPYGDKENYVRTVNCFLKAIEAACKNISLVKKNTDEVLTK;locus_tag=LOCUS_4790;note=MGA_488
sequence10	MetaGeneAnnotator	CDS	7579	9051	.	-	0	ID=MGA_489;product=UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949035.1;translation=MRLEKVLNNVDYELLQGSLDKEINDIKYDSREVVNGDLFVCLTGFYSDGHDYIETAIEKGATALLVEREVNVPDEITVIKVDNTRRKLNIVSKNFFENPDEELIKIGITGTKGKTTTTYMIKSILEKAGNKVGMFGTVGIFVGDKKYKTVNTTPESYLIYKYMREMVNEGCKFVVMEVSSLGLKHGRVDNIMFDYGVFTNLSLDHVSPDSGREHPTYEDYANSKKKLFNICKVGIFNKDNDEYKRMVEDATCEIISFGKKDADVIINKITKASRVDKIHTSFELTGRVNGTFDLNLPGDFNVYNATVATIVTKLIGIEDKYIEEGLLSTVVDGRCQLFNVGNKFNVMIDFAHNLVSIESIINTMREYNPNRIITIFGVGGGKGETQRKNMGKLVGELSDFAIITMDNPRLDDINVINSQIESGIKETNCKYKIITDRKEAINYALSNAEENDIILIVGKGHEKYQDIQGVQYPFSEEDIIKEFIDNYENK;locus_tag=LOCUS_4800;EC_number=6.3.2.13;note=WP_011949035.1 UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase (Clostridium botulinum) [pid:37.5%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:1.6e-87],MGA_489
sequence10	MetaGeneAnnotator	CDS	9053	10840	.	-	0	ID=MGA_490;product=translation elongation factor 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002262717.1;translation=MNQDKIRNFAIIAHIDHGKSTLADRMLELSGNVSKREMTDQILDNMELEKERGITIKMNAVRLNYKGYEFNLIDTPGHVDFSYEVSRSLAACEGAILLVDATQGIEAQTLANYYLALENDLEIIPVINKIDLPNSDVDKVSNELINTFGFKKEEIILTSGKTGEGVDKLLDAVIDRVPSPKGDKNAKLKALIFDSVFDSYKGVIVHVRIVDGTLNKKDIIRFMSNNSSYDVTEIGYTTPKIVNVDSLSAGDVGYLCASIKNISDIKIGDTITLDKDPCNEPLKGYSEVKPMVYSGIFPVETREYDLLKDALEKLAINDASLTFTPETSKALGFGFRCGFLGLLHMDIIKERLQREFNLNIILTAPSVIYNVYLTNGEMVSISNPSDMPPMEKLSYIEEPYIKTNIFTPSEYIGPIMELCENKRGTFINMEYINETRVNIHYELPLSEIIYDFFDKLKSATRGYASFDYELIGYRQNKLVKMDILLNGEKVDALSMIVHKDFAYNIGKNMVNKLREIIPRQLFEVPVQAFINNKAIARETIKSMRKNVLAKCYGGDITRKKKLLEKQKEGKKKMKMIGSVEVPPEAFLEILNIKGD;locus_tag=LOCUS_4810;gene=lepA;EC_number=3.6.5.n1;note=WP_002262717.1 translation elongation factor 4 (Streptococcus mutans) [pid:60.9%25%2C q_cov:99.7%25%2C s_cov:97.9%25%2C Eval:4.8e-219],MGA_490
sequence10	MetaGeneAnnotator	CDS	10949	11185	.	+	0	ID=MGA_491;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001274000.1;translation=MANIKSAKKRILVTDRQSEENVPIKSRMKTAIKKALENPTEETVNEANKRIDKAVAKNIITKNKAAREKSRVNKKLNK;locus_tag=LOCUS_4820;gene=rpsT;note=WP_001274000.1 30S ribosomal protein S20 (Streptococcus) [pid:51.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.0e-13],MGA_491
sequence10	MetaGeneAnnotator	CDS	11238	12137	.	+	0	ID=MGA_492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRILIILAIFIIGISFSYLYINTSLYDFINPLEYNIINNELYYKKENTKDNYSSYISYLDKDTISNKDELYSMYYTILNNGYDIYTFSCSYDCFNDINNIDSLKLSLINQLVSTKNAYKEIKTTYSTDRKITLNITKKYSDEDLIRIDEEIDKIIRDTKINNYSSVYDKIKVFHDYIANKSKYDSKMANDGESEYHSNSAIGPLFEGHAICDGYSDALAFYLDKIGIENIKITNDEHVWNAIKLNDKWYHIDLTWDDPVYTNGKDLTIHDYFMITTNELKIKEDKDHVFDENIYDFIK;locus_tag=LOCUS_4830;note=WP_011948155.1 DUF5050 domain-containing protein (Clostridium botulinum) [pid:31.7%25%2C q_cov:46.2%25%2C s_cov:26.8%25%2C Eval:3.1e-15%2C partial hit],MGA_492
sequence10	MetaGeneAnnotator	CDS	12148	13017	.	-	0	ID=MGA_493;product=tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245569.1;translation=MIIVITGPTGVGKTKLSIELAKKYNAEIINYDSVQIYKGMDIASAKVTKEEAEGIPHHLIDFKDYRDDYSVYDYQIAARNKIKELQDKNKNIIFVGGTGLYIKAALYDYKFESDDEVPDINLDTKELLYAIHEMNPDSKVDPNNRRRLIREYINLKSGVDNKKGNNLLYDNVYFIGLETDRDTLYDRINNRVDIMTQNGLIEEAKYFFKKKPTKAIMTPIGYKELFKYFRNEISLDEALDLIKKNSRHYAKRQFTFFKNQMDIKWFNVDFNNFDNTIKEVEDYIEKRDN;locus_tag=LOCUS_4840;gene=miaA;EC_number=2.5.1.75;note=WP_003245569.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Bacillus) [pid:45.6%25%2C q_cov:92.4%25%2C s_cov:90.4%25%2C Eval:1.6e-61],MGA_493
sequence10	MetaGeneAnnotator	CDS	13022	13672	.	-	0	ID=MGA_494;product=triose-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880184.1;translation=MKLVVGNWKQNNIGIDYKEYINKLEDITDKEVVIVPPYIYLPLIETKNVKLGAQDVSIFNGGSNTGEISCDMLKEFNCEYVIIGHNERRTKLNESNEYINKKVLNTLNNGLKVILCITCIEELVESIKDVTNFDNLLIAFEPKEFIGKSETISREGLIDFIAKINEVTNKKCKVLYGGGIKADNISNLSNIDGLDGLLVGKASLDIDAFLNIITTW;locus_tag=LOCUS_4850;gene=tpiA;EC_number=5.3.1.1;note=WP_010880184.1 triose-phosphate isomerase (Aquifex aeolicus) [pid:33.2%25%2C q_cov:98.1%25%2C s_cov:98.0%25%2C Eval:6.3e-29],MGA_494
sequence10	MetaGeneAnnotator	CDS	13673	15424	.	-	0	ID=MGA_495;product=DNA mismatch repair endonuclease MutL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003732291.1;translation=MHKINVMNDDLVNKIAAGEVIEKCASVVKELVENSIDAGSNDIKIDLLESGTKEIKVTDNGSGMSEEDAYICFTPHATSKIYDEDDLYNINTLGFRGEALPSIASVSKVNIKTCDGKEGISFDLINIEIKNKESYLRKGTIITVDDLFYNTPARRKYLSSLPSELSSIVGLINRLSLSHPGIRFTLTNDKKDILKTSGSGNLLKTINEVYGSTVAKKMIEINCESDDYEVTGYISKPDENRSNKNHMITMVNGRVVKNNDLLRCINDSYHKYKPDGKYPIVILNINVDPSLIDVNIHPSKHDIKFSKMDELKELISSNIEKLLDNNFLGVDISTKEVKITNIVSEIETNNNEVKELVMDFSEISIKEEETPYEYQDTSVEETKPEEEVKPFPKLFVIGQVLGTYIVCHNEKGMYLIDQHAAEERVNYEKYKKYMTDFNGDTIDMLFPIVLEYPKDEYMTIKEKIDIIRNIGINIEEFGDNTYIIKSHPTWFKEGIEEEFIREIIDKILFEGKNFDLERFNDSISASLACHASVKANTPLSIEEMENIIEKLSKCKNPYNCAHGRPSIIHYSTYELEKLFKRVM;locus_tag=LOCUS_4860;gene=mutL;note=WP_003732291.1 DNA mismatch repair endonuclease MutL (Listeria monocytogenes) [pid:43.4%25%2C q_cov:99.0%25%2C s_cov:98.8%25%2C Eval:2.6e-137],MGA_495
sequence10	MetaGeneAnnotator	CDS	15468	17237	.	-	0	ID=MGA_496;product=excinuclease ABC subunit UvrC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001830175.1;translation=MDTKSLIKRKLELLPLKPGCYLMKDNTGKVIYVGKAKKLKNRVSSYFNGTKTGKTKVLVDNIVDFEYIVTSSEKEALLLEINLIKKYDPKYNIIFRDDKQYPYIALDYDKYPKLSVLRPSKKYKNKNVKLFGPYPNSGYAKKIVEVLNRIYPLQKCKNFKSDVCLYYHIGECLGYCKLDIPKEVTDNITNEITNFLNGDYSNVIEKLTKKMEMYSSRLDFENAKEIKELIDYIKVILSKQKIDLNDNINRDIFNYYVNDDFISVQVLHYRKGNLVERKSNIYEINSDEIDEFTNYIISFYEDNTLPKEIFVPSSVDIDLLSDTLNVKVITPLKGTKKKLLDMAYDNAKIGLKEKEELVKRNISLTVKANEELSTLIGKTIHRIESFDNSHLFGDASVSAMVVYIDGKKAPKEYRKYKIKSNSKDDYHMMQEVLERRYSRVLIDNLIVPDLILVDGGIIQVHAAEEILDNLGLDILVLGMQKNDKHKISFLVDTNGVSYEIEKNSNIFHLLENISEEVHRFVISFHRDLRSKGSLSSILDNIEDIGPTRRNKLIKKYKTINNIKEAPIEELETLIGKKGAKNIKDALKEN;locus_tag=LOCUS_4870;gene=uvrC;note=WP_001830175.1 excinuclease ABC subunit UvrC (Staphylococcus) [pid:46.9%25%2C q_cov:98.6%25%2C s_cov:98.5%25%2C Eval:1.3e-147],MGA_496
sequence10	MetaGeneAnnotator	CDS	17316	17696	.	-	0	ID=MGA_497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKREEYIKWVEKNHPAHMTTEEYLEKYPPHEDMDPNEMEDILMRGPRTEEEMQKLSWYHESWIEPEDRVQKRSFLMKFIKPEGSVQKRSFIMRFIKPEDRTQKKAALMEAKEQLEEMKSSSKGKSK;locus_tag=LOCUS_4880;note=MGA_497
sequence10	MetaGeneAnnotator	CDS	17792	18151	.	+	0	ID=MGA_498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITNEIEIKKSRFITYLYELDDESKVLDIIKSIKEEHKKARHVVYVYKINNTGKINDDGEPKGTAGMPIFNVLEKNDLNNVLIVVVRYFGGIKLGAGGLFRAYSNSASEIVKMYKEKTD;locus_tag=LOCUS_4890;note=WP_164919770.1 YigZ family protein (Mesoplasma florum) [pid:52.7%25%2C q_cov:89.9%25%2C s_cov:58.1%25%2C Eval:4.4e-25%2C partial hit],MGA_498
sequence10	MetaGeneAnnotator	CDS	18161	18946	.	-	0	ID=MGA_499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDSIKKPESNFDLQGSNNAPSYLQKLFEYNAQLLEEQDLETSYSDMFFKYFKVIERSTLCDVDNFDAIRDQNATNYDAWIKRRKDLLKVYINFLRFCNLSPNRFKEPSIELSKGVFDSLKSEYSKNIIVYSKYANTLGSAKGVELHDITIRDGVPCFKLQNFEGRPPIILPLNINVYDRYYIHNPYSDKEAKTYEKLVANPDLTVIYGLYGFSKDEGIDEKIEELKYLKSYIPKSQFFELRGETQKIGEYHVGLIYKPKK;locus_tag=LOCUS_4900;note=MGA_499
sequence10	MetaGeneAnnotator	misc_feature	19009	21495	.	-	.	ID=MGA_500;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011183129.1:AAA family ATPase,WP_011183129.1 AAA family ATPase (Mesoplasma florum) [pid:30.2%25%2C q_cov:99.5%25%2C s_cov:83.0%25%2C Eval:4.3e-107],MGA_500;locus_tag=LOCUS_4910
sequence11	MetaGeneAnnotator	CDS	60	2423	.	-	0	ID=MGA_501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKEYKYDAFISYRHSELDKFVAEKLHKELETYKIPKNIKDNLNIKEDSIKRVFRDQEELPLSSNLEDPIVEALKESKYLIVICSPRLKDSLWCKKEIETFKKLRGRKNIFCVLIEGEPKDSFPKELLYDEKEKINVEPLAADVRGSSKKEVLKKIKEEKLRLIAPMFDLNYDDLKQRHKQREHKRKMMIIGSIALFFILFSLYSSIMLIKINSQKNKLRLNQAYNLASSANDYLKTDSRYNAIKASYEALTKYDSVKMPYTSEAEYSLVESLGVYDTGFSYKAKTELETKGVVDYIKSNYDGKYSAIYDESGELTLFDSSNLNIIKKYEVNDAYTTLQSFSFSGNNLLLFSNKDGNISVVNTKDGKEITEIKRGDKAFIGAKGDSKESIISYTDGDKLYIYSIKDKKVISSFSNDQKVLKEIYYVNDDKYIVTFTTSRTVSVNDDQEITMHILDSSNGKEKNSFTFNAGYINGITEKDDNLYLIYSNNSITDTISSVLSYNYNEGKENFTKSYRDKWFSYITRSYPEGSNNIAVASYDLLIVLDASSGNEVSAYNFKSKIIGLYSYLNNEIYLVFQESGNVGFVNMERKNSVEYVGKYELNVDKYTAVTPSEDGFLFIPYNENRIISYERLINKDAKKIDIEIETPNNEIAPSKYDKLKKSYKVKNKNLVNNMFYNDKKDLLFVSYTNQDLVIYNVKDKAILGTFTDIDRPEYYFGKDIYGRIYLGNLTNSYIIDKNYNKVGHIKRLRKVDKDKVIISNDNSEYYQVKIYTLDELIKLAKDYLKR;locus_tag=LOCUS_4920;note=WP_011016607.1 TIR domain-containing protein (Fusobacterium nucleatum) [pid:26.8%25%2C q_cov:64.3%25%2C s_cov:47.5%25%2C Eval:5.8e-37%2C partial hit],MGA_501
sequence11	MetaGeneAnnotator	CDS	2480	3280	.	-	0	ID=MGA_502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIQLKDIDCKSLKPLENQGNTSSIYIYDGECYKFLDKLDVSLKPGLYEKISDIEGMEVDGIILPKKIIEDNGNFVGYVTDYFSQSATLYDYFTKKRYEDANDILVATKKASIILKNAHKSGIVLQDVSFDNFLIDENGNVRLCDIDSCKFKEKYGHYISGPLKDYYLHMHRLPEINENLDRQSLFFSMLLTMYHKRVLSLSTYDELSQEIKTLKELRNIMFSLLITTNTWVPYLDEVIIDNDHYTIDRNTQVSKEKALKNDYSL;locus_tag=LOCUS_4930;note=MGA_502
sequence11	MetaGeneAnnotator	CDS	3377	3856	.	-	0	ID=MGA_503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKTIIIGVIILLVIYVVVVILSSFLKKDEKINKLNSLRFTYSTGYHINAYVIYEISLVEGKYIASIKPTDLPDEDKKEYELSKEEVNTIIKKLNEYKIVSWNGFRKTDKHVLDGNSFSMYIIYDGDKTISASGYMMWPNNYRNVRDYLDEKLGGLYK;locus_tag=LOCUS_4940;note=MGA_503
sequence11	MetaGeneAnnotator	CDS	3890	4510	.	-	0	ID=MGA_504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSNTNIFKLLFCKDINFLNRYVFMKAPSNIDLNSHYDIAIVFGCANYDILYKRADAAIELYKNKTVDKLFLTGGIGILSKNRKNPEAIVMKEYLLSKGVKEEDIVVECSSKYTEKNIINTLKLIDSIYNRKLNIVVVTSSFHMKRTKNIIENKCDHNIYTYAANDNICDIDKWMNSKVSKRLIKFEALSLYLNVKDKTIKDIEI;locus_tag=LOCUS_4950;note=WP_000662215.1 YdcF family protein (Bacillus) [pid:29.9%25%2C q_cov:76.7%25%2C s_cov:74.8%25%2C Eval:3.2e-11%2C partial hit],MGA_504
sequence11	MetaGeneAnnotator	CDS	4512	4943	.	-	0	ID=MGA_505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKLVRSTNNDIERLIEYKKETILDYAGNIDKEEYNKIYNYIINNVKENIDNYYNIIINDNIAGCLLLSKKDDGMLLDEIFLEEQYRNKGIGTDILKNTVNEYNIVYLWVYKENKRAISLYKRLGFNIIDETETRYYMKYIRG;locus_tag=LOCUS_4960;note=MGA_505
sequence11	MetaGeneAnnotator	CDS	5004	5318	.	-	0	ID=MGA_506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKFCGNCGNKMDSDATFCTNCGTSNSGVVKSTSSSDGSYVNGFAIAGFICSFFFAFVGLILSIVGLSKANENDGSGKGLAIAGIVIAAVNMFLGFILAIARVL;locus_tag=LOCUS_4970;note=WP_013582958.1 DUF4854 domain-containing protein (Bifidobacterium longum) [pid:54.0%25%2C q_cov:60.6%25%2C s_cov:15.7%25%2C Eval:1.6e-11%2C partial hit],MGA_506
sequence11	MetaGeneAnnotator	CDS	5383	6333	.	-	0	ID=MGA_507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKLSIILIVLLTILLAFVVGIMIFLFKGGEDKLNFNFKSFAIVTSGNSTKLVDSKEVTNNKKLNVEFDVADVEVVPSDTDSIKVELYSDDPGEYEITESETEIKVVLKQKENVKFSFRRKFNKIKLYVPYNYVSTFTINGTTGDLVMDEYSSATLNATIKTGDIKIKEINMAEIKVTTGDIEVDAASLLNTTFTTGDVEVGTVRFLTANGTTGDIDAKEVDRVQIKVTTGDIDIYKVNEYLSLEATTGDIDIDTAAIKDNSKIKVTTGDIKIKHATGYYVSGEAKIGDVNIKGVDRKSDLELTIEAKVGDIRVN;locus_tag=LOCUS_4980;note=MGA_507
sequence11	MetaGeneAnnotator	CDS	6326	6967	.	-	0	ID=MGA_508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIGERLYNLRKEKNISQEELANALDVSRQTVSKWETGESMPDFNKIQPICDYFGITTDELITGSQNIVEQKKEDKRNKFARNLAISVGLYILSLVAIILFSASFNQPIVGVCLFFTIIAIATGIIIYSGIVYGKDKEEVKTKEEKKKENISKQLTDIVGLIGVIVYLLVSFLTGAWHITWIIFIAVALVNAIVKLICGMKSTEEEKEEEDDE;locus_tag=LOCUS_4990;note=WP_011948333.1 helix-turn-helix transcriptional regulator (Clostridium botulinum) [pid:50.0%25%2C q_cov:29.1%25%2C s_cov:47.7%25%2C Eval:2.3e-12%2C partial hit],MGA_508
sequence11	MetaGeneAnnotator	CDS	7131	7376	.	+	0	ID=MGA_509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKDLINEEVTILVATKGDIVLEYNGTLELETDNEIELKDATISTMLMNVQRSVFGSNMTKYREDIDKVVVNKKFIISCIK;locus_tag=LOCUS_5000;note=MGA_509
sequence11	MetaGeneAnnotator	CDS	7399	7944	.	-	0	ID=MGA_510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNILDFYFSVIDLKTIKRSGWIELGIDNPESIMDHIGGTVLLAMSINEEKGLNLDMSKVYEMFVIKELKKTTKSPEELLNKLSNNSRLLEVYKEYKERTSREALFAYMVCKLESDIQAKKYELDGLLSIEAAKADIEDYPEEIKSRLTNISKASDGWLEYNRQYYDDMFLELSSDIQDK;locus_tag=LOCUS_5010;note=MGA_510
sequence11	MetaGeneAnnotator	CDS	7937	8659	.	-	0	ID=MGA_511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKYDKDSNVSYTLGTTLTLELLNKKVSFCNRVYIHSKQLQNDTLNKILDICKNNNIEVIYSDKIINKLSDKENCYIVGEFTKFDCDINYNENSICLVNPSNAGNLGTIIRTCAGFNIKNLIIIEPAVDIFNPKVVRASMGAIFNINFKYFKSFEDYKKLTNNAFYPFMLKGSTNLHVVDKKNPYTLIFGNEATGLDDSYLNIGTPVRINHTNNIDSLNLDNAVSIAVYEFTKEEVNKNE;locus_tag=LOCUS_5020;note=WP_005898090.1 RNA methyltransferase (Fusobacterium nucleatum) [pid:33.2%25%2C q_cov:74.2%25%2C s_cov:71.9%25%2C Eval:4.2e-19%2C partial hit],MGA_511
sequence11	MetaGeneAnnotator	CDS	8714	9373	.	-	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNENIVFEDEIFLKIKPTDYTKEVEKAKKNYPLLKNIVEKEGNRLNNQSHVNVSELGQYVELYNLMKHYEEVSKMSPISTVEMGFIYVLSLANSKLTLKSIRLDPYMPIIMRGFTSMETMLKEYRSLPDIIEKEPFIGKKVVDKLPNSSYGLYVLYELENVLLLAMADEEKGRTIVTSGIKGSEYNRHYIDDGVPGIEEPSKIYSLIYKQRFDGEKLM;locus_tag=LOCUS_5030;note=MGA_512
sequence11	MetaGeneAnnotator	CDS	9444	10769	.	-	0	ID=MGA_513;product=UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949036.1;translation=MKLTIKKILEITNGKLICGNEEEVVEKYSKDTRTINQGECYVGIMGDNFDGNKFYKDAFKLGAKACILDHFGATDEEMGNIVLVDDSVKAVQQIASYLVDNVDAKVVAVTGSAGKTGTKDMIYSVLSKKYKVLKSPGNFNNAIGMPFALLNYINEDIIVLEMGMNGFGEIDTLSKIAKPDVAVITNVGTAHIGKLGSRENILKAKLEILNGMSNDGVLVINNDNDMLQTVNGINQRILRFGINTPSDYNASNINMKNGKTFFEINNKEYNVPVLGNVFAYNALCAYSVGKLFDLTDEEIHEGLENVILTGNRMQIIEENNYTIINDTYNANKEAMISSIDTLSSFENRKVAILGDMLELGEFEEDIHREVGKYLNGKVDILITIGNLSKYINDEFNGTKYHFDNKGDAINDLKDIIKENDVILVKASQGMKLIEIVDFLRN;locus_tag=LOCUS_5040;note=WP_011949036.1 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase (Clostridium botulinum) [pid:38.5%25%2C q_cov:99.3%25%2C s_cov:98.3%25%2C Eval:2.3e-87],MGA_513
sequence11	MetaGeneAnnotator	CDS	10855	11598	.	+	0	ID=MGA_514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTKEQVYKLGDKFVYSLFTKSAAQLDLDRGRDMLVCGHCYYFADAMLNLLTESSYEDNLGPRIASFDCRHYFLEYDGNYFDGLGIIKHDNDTITLWDYENEPHYKFPPETRNLKDIYYEGTNKDIDECHYTTITKEKSEIWKVYHIGVDPIIDEFRVKLMEASKISEEAFDKTIKEFHDKAVSIIKAEKHRDPNNIGKVDQVLIERKQRIKEEEDKFKREHEKRLQELDVVWKTLTLKPVNTKKED;locus_tag=LOCUS_5050;note=MGA_514
sequence11	MetaGeneAnnotator	CDS	11609	12154	.	-	0	ID=MGA_515;product=signal peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002358039.1;translation=MERDYKPIIKDVISYALIILAVILIRIFIFDPVRVDGPSMDDTLLDGQVLIINKIGYKKSNIKRYDIVVADVCIDGKLDYENCKKERVVKRVIGLPNETIYAKDGKVYVNDKEVDSSFTKGVTEDFTLDGFTKLEGDSYFLMGDNREISLDSRGFGPVKKNQIKGKASIRIWPINKIKVIK;locus_tag=LOCUS_5060;gene=lepB;EC_number=3.4.21.89;note=WP_002358039.1 signal peptidase I (Enterococcus) [pid:38.0%25%2C q_cov:94.5%25%2C s_cov:91.8%25%2C Eval:1.3e-23],MGA_515
sequence11	MetaGeneAnnotator	CDS	12195	12539	.	-	0	ID=MGA_516;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003728425.1;translation=MNIIDEITSKQLNPNVPEFRVGDTLKVDVKIIEGNKERIQVFEGICIGRKGSGVSETFTVRKMSAGIGVERIFPVHSPKIAKITVVRKGKARRAKLNFLRGRVAAYRFKERNDK;locus_tag=LOCUS_5070;gene=rplS;note=WP_003728425.1 50S ribosomal protein L19 (Listeria) [pid:62.4%25%2C q_cov:94.7%25%2C s_cov:95.6%25%2C Eval:5.1e-34],MGA_516
sequence11	MetaGeneAnnotator	CDS	12640	13617	.	-	0	ID=MGA_517;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000110984.1;translation=MRILTGLKPTGNLTLGSYLGSIKQIVDMQDEGEIFLFIADLHALTIYQDPEELKSKIRDFISVYLACGVDPNKCTIYLQSENEYIPCISYLLECTTYYGEASRMIQFKEKSKGKDNFSVGLLTYPVLMAADILYCDTDIVPVGIDQKQHVELARNIAERFNSKYGETFKIPDCKLSSTGTKINDLKDPTKKMSKSDENQTGVIDLLDDIDVVRSKIMKATTDSDNEIRFDMENKPGISNLLNIASAIKEVSIDSIIEECKDMNYGTFKSYVADIVCDRLTTIQNKYNEIKNSPELEKVLDKGISKSRELAKAKYEVMKKNMGIVR;locus_tag=LOCUS_5080;gene=trpS;EC_number=6.1.1.2;note=WP_000110984.1 tryptophan--tRNA ligase (Bacillus) [pid:44.3%25%2C q_cov:99.4%25%2C s_cov:98.2%25%2C Eval:2.1e-81],MGA_517
sequence11	MetaGeneAnnotator	CDS	13619	14737	.	-	0	ID=MGA_518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKFDVLTLFPNMFDGFLSESIIKRAIEDKLIKVDITNFRDYSDLKNNQVDDTPYGGGEGMVLMCDPIVKAIEEKKKKNSKIILMSPQGKRFDQKMAMDLSKESHLILVCGHYEGFDERIKSFIDEEISIGDYVLTGGELPSMVLIDSISRLVPGVITEGSYENDSFMDNLLDYPTYTKPREYRGMKVPDVLLSGDHKKIDEWRKEKQIESTKEKRPDLYKEKVIKEIGKYSLIDDNSNKSLVSINIEDSYNFLPNNKIKKSDLASISKVMIVEPTFIDKIARQNVEKKIAILMKQANIVLNDETDDEGAMYVLGEIDRMQGLLLTQYAKYLGMEYVSLMQIKLEALKNGINTKMMAKMNIQNFETKRGRGR;locus_tag=LOCUS_5090;note=WP_011183438.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Mesoplasma florum) [pid:55.7%25%2C q_cov:61.0%25%2C s_cov:93.8%25%2C Eval:6.4e-72%2C partial hit],MGA_518
sequence11	MetaGeneAnnotator	CDS	14734	15207	.	-	0	ID=MGA_519;product=ribosome maturation factor RimM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000170268.1;translation=MELVNIGRIVNTHGIKGELRILSDFRYKDKVFVKGVKLYVGKKKEEFVINTYRHHKVFDMVTFDGYTNINEVLYLKGLNVYVDIDQIDLGNEIYPEKLIGYEVYFENELIGNVTEALNEPASFVLRINEKILIPYVDNFIDKIEDNKIYVKNVRGLL;locus_tag=LOCUS_5100;gene=rimM;note=WP_000170268.1 ribosome maturation factor RimM (Bacillus) [pid:36.7%25%2C q_cov:97.5%25%2C s_cov:97.1%25%2C Eval:1.3e-19],MGA_519
sequence11	MetaGeneAnnotator	CDS	15217	15942	.	-	0	ID=MGA_520;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003246182.1;translation=MIIESTSNNKIKDIRKLNEKKYRDESKKYIIEGEHLVLEAYKSGNLDEVILCDRDIDLGVPKTYVTESVMKTISMLPSSSNVIGICSMKENDIDLNENILILDGVQDPGNLGTILRSSVAFNLKNVVLSDDTVDLYNTKSLRSAQGMNFYLNIKRTNLEDYITFLKDNGYKILGTDVTNGIDVKSVSKNEKYAIIMGNEGNGMSSKVRELCDQNIYINMNDNCESLNVGVSASIIMYELNK;locus_tag=LOCUS_5110;note=WP_003246182.1 RNA methyltransferase (Bacillus) [pid:39.1%25%2C q_cov:98.3%25%2C s_cov:98.0%25%2C Eval:1.1e-46],MGA_520
sequence11	MetaGeneAnnotator	CDS	15939	16574	.	-	0	ID=MGA_521;product=M48 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948163.1;translation=MYIEIDGIRYDIIVEKKHIKNMYLRVKEDLNIYVTCNTFTPDIMVKKFVNSNIKYIKKAVDKQEKRLEKKLDYYYFGNKIEIYKDEAFKTPYFEDNTLYVRNTSDIEKWYKKEIKRVFKERLDYIYNNYSRSIPYPSLTIRKMSTRWGVCNTKLKKVTLNSELVYKDMKCLDYVIVHELSHLIEANHSSRFWALVEENCPNYKSIRKEVQE;locus_tag=LOCUS_5120;note=WP_011948163.1 M48 family metallopeptidase (Clostridium botulinum) [pid:29.9%25%2C q_cov:97.2%25%2C s_cov:93.9%25%2C Eval:5.5e-22],MGA_521
sequence11	MetaGeneAnnotator	CDS	16645	16992	.	-	0	ID=MGA_522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLATVVLLAMMCVFAGCGNKKGSDEIVLDQVGGYIYTWKCEIKNEEILISAGEEYESEPIEGGNVTVHFNYTGVKKGSTTITCNYSSGNDIDKTQKYKAVVDKDLNVTIYEK;locus_tag=LOCUS_5130;note=MGA_522
sequence11	MetaGeneAnnotator	misc_feature	17079	18490	.	-	.	ID=MGA_523;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_003245843.1:PolC-type DNA polymerase III,WP_003245843.1 PolC-type DNA polymerase III (Bacillus) [pid:57.9%25%2C q_cov:99.8%25%2C s_cov:32.2%25%2C Eval:2.1e-158%2C partial hit],MGA_523;locus_tag=LOCUS_5140
sequence12	MetaGeneAnnotator	CDS	141	1760	.	+	0	ID=MGA_524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLLRLLPVFIVSFVLSFMMIIYEPTLLFISSSEDFWFTFGMMLKMNIVLFLIAFILLSLFGIGLYYLGKKINKEWIINIYLILLSSGFLFFYIQGNYFSSKLPILDGSPIEWGSFKLESIISVLLVIFALGLNIVLYKKKKDIYNKIVSYIAVIIFVLLLTGLIPSIIKNKSALNSTVKCTSSLENINKLSSNKNFLILVVDMLDSRTFAKVLKEENKEDLFKDFTYYPDTLSAYSYTRESIPFMMSGKWYELDGEYSDYYNDSFDNSPLLKRLRKEDYDINIYEQDMQWTSKKCLDVNNMNMSSYKVSLFSFAKQESKYLIFKYFPYPLKRFSKILTMNFNSIRENTFEADNKVVFNTLDDIELQDNNYFQFIHIDGGHYPWNMDENFNIVENSTYEDKIKASIKVIDKYLTRIKDSGQYDNTAIIVLADHGTNGWEYTGRQNPSLYIKGINEHHDSMIISDKKVSQVDLVDSIYNDLLDGKTSEELLKNIGTDRVRRHLWYKDMTYDKYFEQTTDGNAWDTDNLKNTGTIYERK;locus_tag=LOCUS_5150;note=MGA_524
sequence12	MetaGeneAnnotator	CDS	1769	3820	.	+	0	ID=MGA_525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLVDILGKIMRFCYNIFNNYGLAIILFTFISKIVLLPISIWVQKNSIKMVKMQPEINKIKIKYFGDKDKIADETSKLYKKEKYNALVSLIPLFIQILLLMGLVSVINHPLDYILNFKDESTTRAVETMMNNHKEVDKDSSSKELVVVNDIKTNNIDYSKDLTTKEIDKVKDLKMNFSKFDLSWVAVQKKGIAWLIPLIAGLSALILCIGQNMMNVLQKEQGALNKYGMLALSVGLSLYLGMFVPAGVALYWTASNIFAVIQQWLLNIFINPKKYVDYEALETTSKELKEMNSSTKVKRTSEMIKKEKQDYKRFFSVVNKHLVFYSESNGFYKYYKGVIEYLLKNTNMTIHYITSDYNDNIFNLEKENNQIKAYYIGERKLITLMMKMDADVVVMTMPDLETYHIKRSYIRKDVHYVYYPHGQGSTNLTLRYKATFNYDTIFTTGKGQQDEEEIFNKKYKLNRVLFKFGYPLLDDMISSYKEKKESKKKTILIAPSWQKDNIVDLCLEDILDNIKDEDYNVIVRPHPQQVRHKKEYFEQMKEKYSNNENIEIQTDFSKTNTVFDSDLVITDWSDIGFEYAFTTKKPVLYINTPMKVMNPNYKDIDIVPLNVWARDKIGKSLDVKDLNKTKDTIRELLKDKDKYSKIITKVMNEYVYNIGNSSEVGANYIIDLIQKKIKEKKDK;locus_tag=LOCUS_5160;note=WP_002679056.1 CDP-glycerol glycerophosphotransferase family protein (Treponema denticola) [pid:26.1%25%2C q_cov:46.7%25%2C s_cov:78.2%25%2C Eval:6.2e-24%2C partial hit],MGA_525
sequence12	MetaGeneAnnotator	CDS	3817	4014	.	+	0	ID=MGA_526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMNTLYIDPSVMTYAIQAIAGIVIAIGATVGIIWRKSKKKVSKTLGIDENKNKEVESDEIIVKKD;locus_tag=LOCUS_5170;note=MGA_526
sequence12	MetaGeneAnnotator	CDS	4094	6049	.	+	0	ID=MGA_527;product=RNA polymerase recycling motor HelD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948433.1;translation=MRLSNSEIEREKNYLCGVERIINGEINDMNLDVQKKMEEVNTAKREIYEAKTEDYLDGQDSVRDVYAVESKVDYINKKIDKIELFKRSASIPYFGKITCDLNSDKEDVYIGITSIEKDNQFYVYDWRSPISSLFYNYELGPASYKIDSKEIKCNIDRKLQFKIKDGVLIRCFDSSINIDDEYLQEMLSNTNDKKLTSIISTIQKEQNQIIRNEDDKNLLVQGFAGSGKTVVALHRIAYLLYRDAKLESKNILIISPNEIFSDYISDVLPELGEKNTKCFTLTSYLESYLGKYRIEPYVKYISRIEDGNLKEISKKINISKELKRFLKKYYSSFNFTRKFTIGTEKFTAKDINDMFNEKYKRLCISDRFRRISEFICNKVGTHNKKYYAMIKKYLIDNSNVSLDIYEVYKEFLKSKKLSTVFLNNKEIKYEDAINLINVSFFINGVKKDLSLRHVVIDEAQDYTLNEIEIIKKMFPEASFTILGDDNQNINLCDKSKIIDYSELFKTYKYIELNKTYRSTENIVEFSNKILGLNNVCAVRNTSGEEVEIKKLSIDNLKKCIDNNKDKYKKIAIITDTMDNAKKLYKELNNKDIQLIDFSTDVFEKNIFVIPSYLAKGLEFEYVIVYKEKEYNNKNLYYVAVTRAQHKLTILE;locus_tag=LOCUS_5180;gene=helD;note=WP_011948433.1 RNA polymerase recycling motor HelD (Clostridium botulinum) [pid:33.4%25%2C q_cov:99.4%25%2C s_cov:97.3%25%2C Eval:3.4e-88],MGA_527
sequence12	MetaGeneAnnotator	CDS	6067	6471	.	-	0	ID=MGA_528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADINKKMELTLTSLTHNQALIAGLSKYNLRLFLSKDSLYVAAPTLGSNGYEDKYIPCYIHTKRKNVIDYVTTDTPAFTMSINLAKQGKEATYSQIDYYDKSASKQSTTTNKDITPNNGIINRFKKLVFKPSKK;locus_tag=LOCUS_5190;note=MGA_528
sequence12	MetaGeneAnnotator	CDS	6571	6996	.	+	0	ID=MGA_529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNTYGTYGYGNYNYNTTAASAAAGVVGVALVFLVIFYILLFAAAVVELIGMWKAFEKMGKKGYEALIPGHNYVVLFEKAGMPLWYFFLMLIPVCNIVFLILVSIEIAKKFGKSSGFGVLLALFGFVCWPILGFGKATFKD;locus_tag=LOCUS_5200;note=MGA_529
sequence12	MetaGeneAnnotator	CDS	7065	7457	.	+	0	ID=MGA_530;product=Rrf2 family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003391911.1;translation=MRISSKGKYALELMVYLGRNYGKGSISISEITGDSFSIKYMEKIASLLNKAKLIKSERGVEGGYKLVKDPKDYSIFEILNAVEDNMAPIKCIIDSDACKVKINCKTYPIWDELYEIESEFLKNKRLTDIL;locus_tag=LOCUS_5210;note=WP_003391911.1 Rrf2 family transcriptional regulator (Clostridium) [pid:35.1%25%2C q_cov:100.0%25%2C s_cov:88.5%25%2C Eval:1.7e-16],MGA_530
sequence12	MetaGeneAnnotator	CDS	7467	8201	.	+	0	ID=MGA_531;product=Fe-S cluster assembly ATPase SufC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966562.1;translation=MELLKIENLHTIASDDESMNILKGLNLTINKGEIHVIMGPNGAGKSTLANTILNSPKYIVKEGNIYFEGNNINDLKTNERASLGIFMSFQSPVEIPGISVSNFIKSALNNKEKVNLYEYIKELESTMKELDIEEGKEHRDLNVGFSGGEKKKNEILQMLMMKPKLAILDEIDSGLDIDAIKTVSKGINMFKNDDNAILMITHSTKILEGLDNYIVHVLIDGKIVDTGDKSLAIEIDKNGYNKYL;locus_tag=LOCUS_5220;gene=sufC;note=WP_010966562.1 Fe-S cluster assembly ATPase SufC (Clostridium) [pid:58.9%25%2C q_cov:98.0%25%2C s_cov:96.0%25%2C Eval:4.0e-73],MGA_531
sequence12	MetaGeneAnnotator	CDS	8211	9605	.	+	0	ID=MGA_532;product=Fe-S cluster assembly protein SufB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966563.1;translation=MKTYVEESDRNIYDIVTKNETEKEIIGLNENTIREISKLKGEPDWILDIRLKALKFFNETSNPTWGPDLSDLDLNKISMYVKPKAELSDKWEDVPEEIKDVFNKLGIPEAEKKSLSGASAQFDSEVVYHNVNHKLEGTGAIYLDFDSAVKKYPELIKEYFSKAVPLNDHKYISLHYALFSGGSFVYIPKGVKLEFPLQSYFRLNSRGSGQFEHTLIIVDEDASLEFIEGCSAPGYNENNLHAGCVELFVKKNAYLKFSTIENWSKNMYNLNTKKCYVEENGKIEWVMGSFGSKISMLYPMNILNGKGAKCEFTGISFAGKGQNLDTGIKIIHNAENTSSVVNSKSISKDGGICTFRSNTWIRKNAKNSKVVFDCASLMLDSESRSDTIPVDRIENSEVTYSHEASVGKLSDEEIFYIMSRGFTEEEAKSLIVRGFAEPISKSFPVEYAVEMNRLIDLELEGAIG;locus_tag=LOCUS_5230;gene=sufB;note=WP_010966563.1 Fe-S cluster assembly protein SufB (Clostridium) [pid:57.0%25%2C q_cov:99.1%25%2C s_cov:98.9%25%2C Eval:3.5e-158],MGA_532
sequence12	MetaGeneAnnotator	CDS	9602	10606	.	+	0	ID=MGA_533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYILNETPIRTSNNFRINDIKLDLELPTKSNFKEFKLTNLDSNKTIIQYKYGLNVKSNLGINLPDTCDATINISKSLDKPLILEYDSNDVMLSIKIGTKDNVNADVIIKTKGNKYNMLVINSYTGNNSKLTINYINMNEGNSLVSFNKSSGSNSNTTYNIYDLCGELRIYNYENYDNEPNIKENINNMYITKNEDVLDMNYYIKHTGIESYSDICVLGCIKDKSKKSFKGTIDFKEGSKKSIGRVNEKVISLSDEAISTSLPMILCHEEDVEGSHGVSNGKIDEDILFYLETRGFSKEEAIKYILTTKFDSYINLLNDNTLKEEIREYIKKEL;locus_tag=LOCUS_5240;note=WP_016194301.1 Fe-S cluster assembly protein SufD (Arcticibacter svalbardensis) [pid:26.7%25%2C q_cov:44.9%25%2C s_cov:34.0%25%2C Eval:4.1e-11%2C partial hit],MGA_533
sequence12	MetaGeneAnnotator	CDS	10618	11247	.	-	0	ID=MGA_534;product=Crp/Fnr family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_022619212.1;translation=MTKPFENISEKNKQKLFNMFHTDIITYKAGEDLSNMLLDKNSIGIIIEGYIQIIKENLNGSKIVIDELYEDDVLSIKTIYVQDSEYEVLVKEQTKIVFFDLEALSTYPNNEKGYYNMFIKNLFLILNDKINEKNERIQILSKKTIRNRLLEYFSIVKVKNGSNNIYLPFSFMALADYLGVDRSAMSRELSYLKEEGFIEIKGKRIKLTF;locus_tag=LOCUS_5250;note=WP_022619212.1 Crp/Fnr family transcriptional regulator (Clostridioides difficile) [pid:24.6%25%2C q_cov:98.1%25%2C s_cov:87.0%25%2C Eval:3.1e-17],MGA_534
sequence12	MetaGeneAnnotator	CDS	11360	13552	.	+	0	ID=MGA_535;product=anaerobic ribonucleoside-triphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010905257.1;translation=MKIIKRDGHIVDYCPEKIEIAIKKANRDVPEDEQVSDTQIKNIIKHIEGLKKKRMLVEDIQDIIEMRLMALGKYQLAKAYITYRYTRELVRKSNTTDKSIKELINGENEYWNTENSHKNAMVVTTQRDYLAGVTSTDITRRFLLTEDIVKAHDEGIIHFHDADYFAQNALHNCDLINLDDMLQNGTVLNGVMIEKPHKFLTAMTIATQIILVVTGSQYGGCTISLTHLAPFVRQSYKKYVKKYEDRGLSKKDVEKFAKEDLKKEIADGVQTFQYQVNSMDNINGQIPFLSVNMYLGETDEYKEELAMIIEEFLKQRLEGMKNEQGVYITPAFPKLLYVLEEDNINPKSKYYYLTKLAAKCTAKRMVPDYISEKIMKELKKNEYGEGECYPCMGCRSFLTPDRSISLGNIAKAKNYVEGKGKYYGRFNQGVVTLNLPDIALSSGKDMDLFWQIFDERLDLCHRALQIRHKRLSRATSDVAPILWQHGALARLEKGESIHELLHHGYSTISLGYAGLYECVKYMTGHSHTDNGIGKEFGLKVMKHMNDMCKKWREEEDIDYSVYGTPIESTTYKFAKCLRERFGKIKGITDRDYVTNSYHVPVFEEIDAFTKLKLESEFQQLSPGGAISYVETPNLENNLDTVMELIKFIYNNIMYAELNTKSDYCGKCGFTGEILINDDLEWYCPNCGNKDHNTLNVARRTCGYIGNNFWNKGRTQEIKDRVLHVDNKECN;locus_tag=LOCUS_5260;gene=nrdD;EC_number=1.17.4.2;note=WP_010905257.1 anaerobic ribonucleoside-triphosphate reductase (Lactococcus) [pid:36.4%25%2C q_cov:99.3%25%2C s_cov:94.4%25%2C Eval:5.5e-119],MGA_535
sequence12	MetaGeneAnnotator	CDS	13552	14052	.	+	0	ID=MGA_536;product=anaerobic ribonucleoside-triphosphate reductase activating protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901774.1;translation=MRYNRIRKMDISNGPGVRVSIFVQGCEFHCKDCFNPETWDFKCGEEFTDETIEKVLDLCNYDHITGLTILGGEPMHHNNIEGTTKLAKEFKKRYPDKTLWVWTGFLYEGIKDNEVFNYIDVLVDGQFKTNLFSPLLRWRGSSNQRVIDIKETKEKGEIIIYKDEEY;locus_tag=LOCUS_5270;gene=nrdG;note=WP_005901774.1 anaerobic ribonucleoside-triphosphate reductase activating protein (Fusobacterium nucleatum) [pid:40.1%25%2C q_cov:97.0%25%2C s_cov:99.4%25%2C Eval:2.4e-33],MGA_536
sequence12	MetaGeneAnnotator	CDS	14135	14410	.	+	0	ID=MGA_537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEDIITNQDPLEIEMESEEGEKVRVRIVRLFEDGDKSYVVADNLDNEEESYIFEIIPHDDGDELVSIETEEEFNRLCEVLNKQLEEEEEE;locus_tag=LOCUS_5280;note=MGA_537
sequence12	Aragorn:1.2.38	tRNA	14493	14568	.	+	.	ID=Aragorn_14;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0140;note=Aragorn_14
sequence12	MetaGeneAnnotator	CDS	14645	15121	.	+	0	ID=MGA_538;product=nucleoside deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003569926.1;translation=MNKFMDVAIDLSDDNFEKNYGGPFGACIVKDGKIIGKGINRVIKDNDPTAHAEVVAIRNACKELGTHDLTGCEIYTSCYPCPMCLSAIIWSNIKKVYYANTKEDAANIGFRDDFIYDYLDKLSNGINDNNVLKLKSMNREEAIEVFKRYEEDKDKIVY;locus_tag=LOCUS_5290;note=WP_003569926.1 nucleoside deaminase (Lacticaseibacillus) [pid:50.6%25%2C q_cov:97.5%25%2C s_cov:96.8%25%2C Eval:7.7e-39],MGA_538
sequence12	MetaGeneAnnotator	CDS	15160	15483	.	+	0	ID=MGA_539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQYWIQYIIIGAILIFILLIVLKATKKDFHVEANKLVDYLGGKDNIISMEVNMSRFKVTLRDVSIVNKEGIQKMGAKGIVEIDNQLKIILGPNAKTLEKYIDDLKK;locus_tag=LOCUS_5300;note=WP_002213085.1 PTS glucose transporter subunit IIBC (Yersinia pestis) [pid:35.3%25%2C q_cov:63.6%25%2C s_cov:14.3%25%2C Eval:4.1e-07%2C partial hit],MGA_539
sequence12	MetaGeneAnnotator	CDS	15507	15857	.	-	0	ID=MGA_540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIINIIQSLILTLLIELTISIVLGIRGKDLLRITFINIITNVTLNIIVNLLYLVMNNYIVFYIIVPILEIFVFLIEGTYFKKLNKSIISPYKLSLLLNGFSYGYCFVYLLVKLLLK;locus_tag=LOCUS_5310;note=MGA_540
sequence12	MetaGeneAnnotator	CDS	15854	15973	.	-	0	ID=MGA_541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLDVAPIQETNPTPIIIIAISVVVIVSGIVTFLIKNRK;locus_tag=LOCUS_5320;note=MGA_541
sequence12	MetaGeneAnnotator	CDS	15984	16139	.	-	0	ID=MGA_542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMRFLDIAGYPHPTIKEPVSTTNVTPIIIASIVVVLIALTVTLIIVNKKKK;locus_tag=LOCUS_5330;note=MGA_542
sequence12	MetaGeneAnnotator	CDS	16136	16294	.	-	0	ID=MGA_543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYFLDEPVEPLYTVKNSFNNSTVIGAIAIAVTIVVLVAIITTVLIKKGKRK;locus_tag=LOCUS_5340;note=MGA_543
sequence12	MetaGeneAnnotator	CDS	16297	17322	.	-	0	ID=MGA_544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKYLIGFIFFLVHFILEVTCFYTLAAYTNNNMFPIIALMYDLIAFVPQGLIGAITDKYRKINVGVIGIVLTTIALICLKYSLPIIVIFGFLTVGNALTHVEGAEATLRTSRGKMFPSALFVSGGAFGIITGRLLYQNNVNVLFIIIANIISLLLVILFSKYRDTEDKDLKDYNYDNKKMGLTVIILLAVFVVAVRSFSSYGIPTAWNKTIFQSILLFCFMGTGKALGGLLIDKTNIKITSIISTLLALPFLLFGNQNMYLSLIGVMLFSMTMPVTLAILVSRLKKNPGIAFGLTTIALFVGSFPAFFFTIDSLLINGIVFTILTILCTIILVKIESKEV;locus_tag=LOCUS_5350;note=MGA_544
sequence13	MetaGeneAnnotator	misc_feature	1	698	.	+	.	ID=MGA_546;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_005464874.1:YebC/PmpR family DNA-binding transcriptional regulator,WP_005464874.1 YebC/PmpR family DNA-binding transcriptional regulator (Vibrio) [pid:45.9%25%2C q_cov:100.0%25%2C s_cov:97.1%25%2C Eval:2.3e-56],MGA_546;locus_tag=LOCUS_5360
sequence13	MetaGeneAnnotator	CDS	767	2143	.	+	0	ID=MGA_547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKRRKRIRIDRILICLVFLVALIFLIRFIIYIIFGFKVLGEAKKGNTIKLYHDNANVWKKTVKYINENMDEVNIKYKNYTITMDSSYFKRNMNIKPDITTKKINSGEFYKQKGIYIDNNNIMSIATSIKFKLPHYIYKNGYVDLYGITDDGTYVLLESRKKVDKYYTLNVYDNYKDYFVTYVKLDSIKTTQSYTLEEGETKEIKLEFNPSNATNKKVVYTGYDKEVISIENGLIKALKAGKTTIKIKGDDMSIAKVKIVVNKKKEEPKKTEKIEVKSKVTKGEDGIYYIDGIMIVNKSYPLPETYDPGKLLPEFMNAYNEMLADATSDGIKLWIQSGYRSYDYQVGLYDMYVKQDGRAKADTYSARPGYSEHQSGLAADINNPSSSFNGTKEAKWLKENCYKYGFIIRFPEGEEEYTGYKYESWHIRYVGKVISNKIHEAGDISLEHYYDIESKYSN;locus_tag=LOCUS_5370;note=WP_011082532.1 M15 family metallopeptidase (Staphylococcus epidermidis) [pid:45.5%25%2C q_cov:37.1%25%2C s_cov:76.7%25%2C Eval:9.3e-39%2C partial hit],MGA_547
sequence13	MetaGeneAnnotator	CDS	2222	2428	.	+	0	ID=MGA_548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILNIVPIVELLIFLTVLICIVLLIKMLINRKKMVKLDEELSHIRNINNIIKDEKYIEMTLPFSPFI;locus_tag=LOCUS_5380;note=MGA_548
sequence13	MetaGeneAnnotator	CDS	2489	3481	.	+	0	ID=MGA_549;product=phospho-N-acetylmuramoyl-pentapeptide-transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003232192.1;translation=MYILAKSVLALTAGFLVAIVLGAVIVPFLRKKKMGQVTSKFVEEHASKAGTPVMGGIIFILSTLMVLALLVVLKKIDYTSNLTIVLFVFLSYALLGFIDDYRIIKYKSNEKGLTRLQKFIGQVIIAIGFFLLYIRNGMDPTIEIYLFHIKLNLGMFYVVFILFMLVGSSNAVNLTDGLDGLAGGLCVIAFIVYGMIAWNTGWIQGYDNLALFCFILVGGLLGFLVFNGYPAKVFMGDTGALSLGATLATIAILTHRELSLVIVGGVFIIETLSVIIQIASVKLRGKRVFPKTPIHHSFQIKGWQEPNIVKAFYVAGFLLGIVGILYGVWF;locus_tag=LOCUS_5390;gene=mraY;EC_number=2.7.8.13;note=WP_003232192.1 phospho-N-acetylmuramoyl-pentapeptide-transferase (Bacillus) [pid:44.0%25%2C q_cov:97.6%25%2C s_cov:97.8%25%2C Eval:2.4e-72],MGA_549
sequence13	MetaGeneAnnotator	CDS	3497	4267	.	+	0	ID=MGA_550;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEEKKKIQKEVKEEVKEKLTDIKEDVKEDFTQEKMSKKEIKAKAEAGMTLDEIKKENKRIKRRSSTNRFFATFFLLILFYIFGVVSGVYVADKYNVTLFVKEEKKENKVNPANEECTIINCEKITFSGVYTGNVNDKDDGTGSMLSVSLDLDENGYASLTSTLNGEVVEVSSGTYDVKDNKLTYSRVYAKGGNDQKNNTYFIKIGASSNGSYRYSDLFDNSRTEETFVINENGFTLNNYAKAILSVDKFIELSK;locus_tag=LOCUS_5400;note=MGA_550
sequence13	MetaGeneAnnotator	CDS	4362	5618	.	+	0	ID=MGA_551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFKTYIFIMLLALVLIPFKVLAANEVKFSASGANVKVGQGFSITVKEEGASDTNTLHSYTVTVEFDSNIIKYENGSSPNKSNISQNGNIITISYNQQISSTTDIATLNFTAIKAGNSTIKVTNECNINGETGTCASNGGNAKVDALGRDASLSGLSIPNTTLSPAFNKNTYDYTADLKDVKSVEVKATASDPNAKVQISDNYKNLQKGENTISVVVTSEDGSKKLTYKIKVNLELTPTEEELKLADASLTSLEIKDQKIEFNPEEVKYYLEVPYNITSLEITPKTTNENATFEISGNDKFIVGKNTVNIKVTAEDGTTTKTYSIIVTRLQQNKKIVQTCPDTTSLKEWIIFSVGLLLTFTLGIFLGYVLCKKGIIQKIFKKKEVEDEAVELQTLSDTIDLSDVVEEIKDDEDVKKA;locus_tag=LOCUS_5410;note=MGA_551
sequence13	MetaGeneAnnotator	CDS	5696	7429	.	+	0	ID=MGA_552;product=DNA primase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964611.1;translation=MNKITFEEVLSIQRKVNIVDVIKNYISLTPRGKNYFGVCPFHDDHNPSMSVSEEKQMYKCFVCGASGNVFNFVKEYEKIPYYAAVKKIADQIGVNFEYHEKKEFIDESLKKMYDIYDYASKYYQNNLNTNLGKEAKEYLSKRSIDEDIINTFGIGLSFDDDKLSNLLLKKYIENDLVDSGISIRSTNKVYDIFKNRIMFPLWDINGKVVGFSGRVYNNTSESKYINSKESKIFKKGSLLYNYHNTREYAIKEDNIIIVEGFMDVIRLYSIGIKNVVATMGTAITKEHVSLIKRLSNNVTLLFDGDSAGEKATNACITMMKDSNLNIKVVRLEEDLDPDDYILKKGKDKMLSHLSHAKSLIDYKSDIYKSKLNFNDSNDLSKYLSLVKEDLEKMNDDTARMIEIDKISKETGINKDIIMSTIKVEKKEIVKPVEIKKEIKLNKYEKASEFILFHMVKNSNVIQYYFNNLSYLPNELDRELASKIVLYYKKYKNFNLSDFISYLEDNNELIKRVMYIDELKYSENYTLEEIDAYFNAIREYIKKEEIRKLQKQMKEETNEVVKRELASRIIELKVKGEE;locus_tag=LOCUS_5420;gene=dnaG;note=WP_010964611.1 DNA primase (Clostridium) [pid:31.7%25%2C q_cov:96.9%25%2C s_cov:97.5%25%2C Eval:1.0e-85],MGA_552
sequence13	MetaGeneAnnotator	CDS	7429	8733	.	+	0	ID=MGA_553;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002440071.1;translation=MGEILEKEKKNLLKINKKKGYITADDLNKIFENEDISAEEIDNIYQFISDNNIDIVEEEMDEPKMPKGKKKVDEYHEIKTLEDRKKDLLELGTSVGYLTFEQLATALKGLEMDAESLDDLYNFLRDNNIEVIEEGEEDEDPEGGDSLSLDEDDLPKNLNINDPVRMYLKEIGKISLLSLDEELELSKRIEEGDEEAKKRLAESNLRLVVSIAKRYVGRNLSFLDLIQEGNIGLMKAVDKFDSSKGYKFSTYATWWIRQAITRAIADQAKTIRVPVHMVETINKLKKVQRQLTLELNREPTEKELAQKLHITEDKVREIIQISLDPLSLETPIGEEEDSHLGDFVSDKNNLTPEEYAINEVLKDEIQEVLLTLTEREEQVLKLRFGLIDGTCRTLEEVGTIFGVTRERIRQIEAKALRKLRHPSRSKKLKDYLVD;locus_tag=LOCUS_5430;gene=rpoD;note=WP_002440071.1 RNA polymerase sigma factor RpoD (Staphylococcus) [pid:57.7%25%2C q_cov:88.7%25%2C s_cov:99.7%25%2C Eval:4.8e-122],MGA_553
sequence13	MetaGeneAnnotator	CDS	8735	9403	.	+	0	ID=MGA_554;product=tRNA (adenine(22)-N(1))-methyltransferase TrmK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964614.1;translation=MKLSNRLSAITEYVAPEDKIIDIGCDHALLDVYIAKEMGKRLIASDIHEGAVNNAAKNIEKYDALSMIDLRLGNGLNIVNPEEINTIIIAGMGFHTIKDILSNSEKLTNVNKIIVQSNTDIIKLRKFVISLGFMINREQLVKDGDIIYTVIEFLKGEEKYTYEEIYFGPKILENKDELFKEYYSKKLLKYENLLLQLPSHELRSMLHHKKLIKIIKKELDIE;locus_tag=LOCUS_5440;note=WP_010964614.1 tRNA (adenine(22)-N(1))-methyltransferase TrmK (Clostridium) [pid:32.2%25%2C q_cov:92.3%25%2C s_cov:91.3%25%2C Eval:2.5e-23],MGA_554
sequence13	MetaGeneAnnotator	CDS	9479	10288	.	+	0	ID=MGA_555;product=A24 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583389.1;translation=MIVVYISILFILGLLCGNLYTKIGITLGKKESISQVNFGCDFCHHGLRFSEKLYIFRYLFNKGRCSYCNEKIYTSSVFFELLTGFLFALSYYVNRNSETIILSTLLYILVFSILVIIMVSDYHHMIIPDTMLIVLAFIIIVFKLLIGFYSEEITSIMDAGYMIIFMLLEGLIMFIIMFILQKIGNLIFKSNSLGFGDVKLMGVLALILGYKMALVCLFISCFMALPIAIYNLQKKDKKLLPFGPYLAFGTILILLLNINIDIIIDFIKR;locus_tag=LOCUS_5450;note=WP_012583389.1 A24 family peptidase (Dictyoglomus turgidum) [pid:31.3%25%2C q_cov:89.2%25%2C s_cov:88.6%25%2C Eval:6.9e-24],MGA_555
sequence13	MetaGeneAnnotator	CDS	10342	12888	.	+	0	ID=MGA_556;product=DNA mismatch repair protein MutS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244841.1;translation=MHIDDVDLTKISPMMKQYIDIKKENLDNILFFRLGDFYEMFFEDAILVSNLLELTLTGKNCGLEERVPMCGIPFHAAEVYINKLLDLGYKIAICEQVEDPKLAKGLVKRDIIQVVSSGTKMTLESLDEKENNYIGYILDLGYAYSISYSDITTGELNAFVIEKDEEKLRNEIIWRNIKEIVIKSDFDRLILDKLRKTYNLTISIFNNENLENDYSNLYSDIEDERIIKTVKCLFSYLESTQKRSLDYFRKVNIVNENSFMQMDINTKRNLELTENIRTKERRYSLLWLLDKTKTAMGSRKLKSFILNPLTDKTEIEKRYDKIEVLMKEFLLKDELRENLSSIYDLERLVGRIGFSSANARDLLWLKTSLSVLPDINDILKKLGFEEINTFKDLYELLDKSIYEDAPISLKEGYLIKEGYNSELDEIKDARKNNKDFISKLENEERQRTGIKTLKLGFNKVFGYYIEVSKGAIKDIKEEYGYERKQTLANAERFVTPLLKEKEALILGAEEKIINMEYEMFIEIRNKVKEYIPALQDLSSVLSEIDVLSSLALVSEENNYVRPTLNDNHVIDIKEGRHPVIEKVLDSEFISNDIYFNEDDLVMLITGPNMAGKSTYMRQMAIISIMAQMGCYVPTTSANIPIFDKIFTRIGASDDLVSGESTFMVEMSEANRALKNATKNSLILFDELGRGTATFDGMSLAAAIIEYIHNNVKAKTFFSTHYHELTDLENHLPHLKNVHVSASLENGNLVFLHKIKEGSIDKSYGIHVAKLAHLPESLIDRANEILKTYEDNDKTNSIKPSQLELNLEFNQESKIEEEIKNMDILKLTPIDALNELYRMKKELEDEKNN;locus_tag=LOCUS_5460;gene=mutS;note=WP_003244841.1 DNA mismatch repair protein MutS (Bacillus) [pid:51.3%25%2C q_cov:98.0%25%2C s_cov:99.4%25%2C Eval:4.5e-245],MGA_556
sequence13	MetaGeneAnnotator	CDS	12872	13384	.	+	0	ID=MGA_557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIINILLYVLTIIFLVLSLKENPYINDLYNKKEIVSKKTFNKYYNKQRFVCIDLKDSEMTRFKEEKTDSIVYISSYGDTNFMSVLTKGTSLSDKVCGIIKNKDSMSNELTKSIEEENDIKLNSRYFTNYNLKKEKLPYQVLAISMVVLIGFFILGIIANIVSIIRKEF;locus_tag=LOCUS_5470;note=MGA_557
sequence13	MetaGeneAnnotator	CDS	13438	13842	.	+	0	ID=MGA_558;product=transcription antitermination factor NusB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003230256.1;translation=MNRTELRKKIMTILYQIFLYQEDKIDYDIKTVIKESMEIENEFVNEMVYGVLDNINDIDKIANKNLKDWTIDRFSNIDKAILRMGIYELVYTDTPEIVSINEAVELAKEYSDEKVKNMINAVLDSIYHEDNKNE;locus_tag=LOCUS_5480;gene=nusB;note=WP_003230256.1 transcription antitermination factor NusB (Bacillus) [pid:37.2%25%2C q_cov:94.0%25%2C s_cov:94.7%25%2C Eval:1.7e-18],MGA_558
sequence13	MetaGeneAnnotator	CDS	13835	15031	.	+	0	ID=MGA_559;product=exodeoxyribonuclease VII large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000415260.1;translation=MNDYITVGALTRYIKYRLDNDPNLQEVCLKGEISNFKKHTRGHFYFTIKDEESRISAIMFASNASKVNFEVQDGMKVLVKGKVTVFEQTGNYQIYVSEIKEDGIGNLFELYEKLKKDLEKEGLFKVEHKKPIPKIPNRIGVITAPTGAAVRDIMSTINRRYPLCEVILFPSLVQGKDAKDDIVKNIKLADTYNLDVIICGRGGGSIEDLWAFNEEIVARAIYECNTPIISAVGHEIDFTIADFVADKRAETPTAAAEMCAPSKADLINLLKQMELRLNKNINSLITNNKLVLHKLMDSYILKNPMSMYEVKEEKLSNDIERLNGFIKIVLDKKNDRYNHLVEKLEVLNPLNTLKRGYTITKKEGKVISSIKGIKSNDVLEINLNDGSIITNVKEVKEN;locus_tag=LOCUS_5490;gene=xseA;EC_number=3.1.11.6;note=WP_000415260.1 exodeoxyribonuclease VII large subunit (Bacillus) [pid:45.6%25%2C q_cov:99.0%25%2C s_cov:97.6%25%2C Eval:4.7e-100],MGA_559
sequence13	MetaGeneAnnotator	CDS	15033	15260	.	+	0	ID=MGA_560;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEKNFEEKLEELETIVRELENGDVNLDDAINKYTEAMKLAKECSTKLDNATKAVNKILKENGELEDFKPLEEE;locus_tag=LOCUS_5500;note=WP_002896137.1 exodeoxyribonuclease VII small subunit (Streptococcus) [pid:46.3%25%2C q_cov:72.0%25%2C s_cov:77.1%25%2C Eval:1.8e-07%2C partial hit],MGA_560
sequence14	MetaGeneAnnotator	CDS	102	1205	.	+	0	ID=MGA_562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLRENIVKILLVFGILIIAIVILIACSGKGTGGKATSYAKMEENFKNDATRYLSKHKDLLPKEEGKLVKVNMDTIYSEGQMKKMTAIDDSSVRCDGYVNVSFRVDKNEDKIYRAVPHIKCGDKYETEDLYVHILKNEDLVQEYDGLYKVGDEYIYRGENPNNYVKIGENLYRIVSIDSDGYIKLITTKASILNSVWDDRYNIDTGKYNGINDYYVSRIRTNLSEVFESDDYFTDSERSVFVKKDICVGKRSEANILINKTEECATTSDEDYLSLPLLYDYYIASIDPNCKNITDVACNNYNYLHLLGSMYTMTGSKETSYLVYSISETAEASRADRTRRVSIISYISNVSYTSGKGTLDNPYIIN;locus_tag=LOCUS_5510;note=MGA_562
sequence14	MetaGeneAnnotator	CDS	1284	1526	.	+	0	ID=MGA_563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKKLYTVEELKRMGTDIDVSTVMEGQLTIFKPREEEIQEIDNKPIEGQITLSSLLPNNPRKKAHKQLAYAYCAKKRNR;locus_tag=LOCUS_5520;note=MGA_563
sequence14	MetaGeneAnnotator	CDS	1495	2406	.	+	0	ID=MGA_564;product=tyrosine recombinase XerC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011110333.1;translation=MHIVLKKEIDSFIDYLKKQRNYSDYTINNYYKDLIDYSLFLDNNNLKYDEMDYKKCVEYLRYLDEKDLKKTSISRKLSSLRTFYKYLVLNDKCKNNPFMLVSSPKKEKRIPKFINYENIEEIFNYPDIKTPEGQREKVILEILYSSGVRVSELVSIKLKDIDFGEKTILICGKGNKERVVSFGEYAYDILNTYINDGRKELLGDINSDYLIVGHNKECLTTRRIEQIIDTIIKHTSIKLNITPHVFRHTFATHLLDQGCDLIVVQELLGHTSLSSTEIYTHISNEQIRNVYLNSHPRSKRNLK;locus_tag=LOCUS_5530;gene=xerC;note=WP_011110333.1 tyrosine recombinase XerC (Bacillus cereus) [pid:45.9%25%2C q_cov:94.7%25%2C s_cov:98.6%25%2C Eval:1.1e-71],MGA_564
sequence14	MetaGeneAnnotator	CDS	2403	2657	.	+	0	ID=MGA_565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFDKLYPSIDLHGEDKVSATLRTKEFINDSVFLNRTKIIIIHGKGTGVVKDAVFKELKSNKNVEDFHLNMNLGSTTVILKKKE;locus_tag=LOCUS_5540;note=MGA_565
sequence14	MetaGeneAnnotator	CDS	2763	4943	.	+	0	ID=MGA_566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERRSTFIRDLLVKILLIAIFLFLLMYLFPMPNLTPFYSAIFNNNIQTMKDAAEDYYTVKMMPTEDGKSVKMTLKEMEEKKLIIPFVDKDGKTCNKTKSYVKVTKDGDEYVLKVSLTCSDESNYIVERIGCHNFCPNGTCDENKTIAEVVPKEEDKKVVCETDDEGVITVKVPTGEYITEYEYKKVTDNSKWVTGEWTNTKVTENETTKLESTRTQYTGQKKVTANTTLYEQIAYGYNDKWTIGNWQDNKETETSTKKLHDTRTLYTGQKKVVTSETLYKHVKYGVKENWTIGNWVNEKEKETDTHKLYSSRNLYTGDKLEKVNVTKYQFTKTKYTLEKTVTNKSKTCTDWIKDTNWYTSKPASTDSKEYGSSYNSRSTSTWTLIQSSYKSYSVMPTYVTTNGVRYKYELVSKQENPNCGSNCSTNKIIYFYNVYKENVKTEYQYYYRNCSVASSISVDTKVVYKAADANTYITQGYKLVSKVVEDTIWQESTTAPTNYEYTGKTETKSTDKYVSLGKWVLSKAALGEYTYNMRTAVQYKYADLTRTKYIIDTKWTKSKTPETGYEYTGETKTNTSTSYVDLGKWVTSKTALGEYTYNIKTKTQYRYKTLTRTRYIKDTIWTTENVARSGYELTGNKKTTTKTTYVDLGYYVNSKSELKDYTYNVTTRTQYRYKYLQKDSSVEYKWVKEKENAGEGWTKTGKTRKTFVQTGYKTETRTTRRNSQKY;locus_tag=LOCUS_5550;note=MGA_566
sequence14	MetaGeneAnnotator	CDS	5009	7156	.	+	0	ID=MGA_567;product=primosomal protein N';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047882.1;translation=MVISVLVEINIDKVFDYNVPDNLKDNICLGKRVLVPFGKQVLEGFIIDIKNKSNYELKDIISIVDNESILNDELLSLGKEISKSNVCNLTSVYQSMLPVGLKASKNRKVSIRKNTYIRLISDDVIEFISNTRSLKQKEIVSYLLKNKNALTTTFDSLSINALIKKGIIEKYSEEYYRLNDNNSIEDLVTLNEYQIKAYNEIKESSKDVILLNGVTGSGKTEIYMHLIKDALDNKKSAILLVPEISLTPQIIGRFKKHFNNIAVLHSGLSQGEKYDEYRKILNKEVNIVIGARSAIFAPLNDLGVIIIDEEHSQTYKQDHNPRYNAIDVAIIRGKTHNCKVILGSATPMVEDYARAKKGYYELVKLDKRANNASLPLINIVDMTKENKKGNKIFSEELLLSIEDRLNKHEQIMLLLNKRGYSNYLMCPNCGEVKKCPNCDITLTYHKTSNMNRCHYCGYADNNKEICSKCNTKLVNMGLGTEKVEEEINKLFPDAKVLRMDIDTTGNKGSHQKIIDKFMNHEADILVGTQMISKGLDFPLVTLVGVINADTILNLPDFRSSERTYDLISQVSGRAGRSNLKGKVVIQTYNPDNYAIKLVSSNNYEDFYNEEITIRKKLYYPPYSFIALIKVGGKDFNSTIKEANKIGDYLRRNVDKEIVLGPSVASLSKINNIYYFEIIIKYRDKDNIVNILNDVRKITLSNSKINVQFDINPISL;locus_tag=LOCUS_5560;gene=priA;EC_number=3.6.1.-;note=WP_012047882.1 primosomal protein N' (Clostridium botulinum) [pid:44.0%25%2C q_cov:98.9%25%2C s_cov:98.1%25%2C Eval:1.5e-161],MGA_567
sequence14	MetaGeneAnnotator	CDS	7196	8035	.	+	0	ID=MGA_568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFCGKCGKKIEENTKFCPGCGEKVEAKKVEKAEVVKTTKKEESKESNGLGIAGLVMGIISFLLSFVLTLIILIVPVVGLILSCCSKGNKGIKITAIILNALAIVSCIVMFLIYIVTLGSIVGGFIDDNQDIISDITNEVQTEVKSAYPYGTWTCVPYSSGSTSYDYNNISSNDKADLTVLKLNKDNSYQYGPYVDSYKNYYKGTFTYEIETDKNEQYKSQGYSFIMVKGPITDAMVDGVKKDTTSESRIELEMELWNTYNNDKALIMFTNTYNMYFCER;locus_tag=LOCUS_5570;note=MGA_568
sequence14	MetaGeneAnnotator	CDS	8215	9303	.	+	0	ID=MGA_569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVVSMSYLLEAGVHFGHQTKRWNPKMKEYIYTSRDDIYIIDLQKTVKKIEEAYDALKKIAEDGGKVIFVGTKKQAQEAAKEEALRSESYYMVERWLGGTLTNFRTIKRRINRIEQIEKMEENGTFEMLPKKEVIKIKKEYDKLKLYFEGVRTMKKMPDAMIIVDPKKEFNAIREARKLNIPVFGIVDTNCDPDLVDYVIPANDDAVRSIKVVLGVLNNAICEATNKELVDYVTEDDKVNMADIVEDIKVEEKEDKVVEEKPVKKTVKKEVKEEKVEEVKEEKKATKKATKKEETKEEKPAKKETKKAEVKEEKKETKKTTKKEEKVDLSKLTVAELKEMAKAKGVEGYTKLKKAELIDALK;locus_tag=LOCUS_5580;note=WP_001832557.1 30S ribosomal protein S2 (Staphylococcus) [pid:61.7%25%2C q_cov:67.1%25%2C s_cov:92.7%25%2C Eval:6.7e-87%2C partial hit],MGA_569
sequence14	MetaGeneAnnotator	CDS	9321	10187	.	+	0	ID=MGA_570;product=translation elongation factor Ts;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003699817.1;translation=MDASLVKKLKDMTNAGLMDCKKALEENNENIDEAVKWLREKGIAKAAKKQDRIAAEGLSTVLINGNNAVILEVNCETDFVAKNERFTGLLDKIANALVNSDATTMEEALAVATDDGTINDSVINITATLGEKISFRRFTKLTKSDDQVFGKYIHMGGKISALTVVNGSDETVANDVAMHLAAMNPKYISKDLVPEKDIEEEKEVLKEKAINEGKPAEIADKIVMGGISKFFKENCIVEQEYVKDPSKTVGVYLSSNNSSLVNMVRYEVGEGIEKREENFAEEVMAQMK;locus_tag=LOCUS_5590;gene=tsf;note=WP_003699817.1 translation elongation factor Ts (Ligilactobacillus) [pid:53.1%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:3.8e-84],MGA_570
sequence14	MetaGeneAnnotator	CDS	10261	10815	.	+	0	ID=MGA_571;product=L%2CD-transpeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_092733832.1;translation=MSDNIVHIKRENGKIILQYNDLKVPAYIGKNGFTNDKKEGDLKTLVGEFDLGTAFGKHERDEIDIKEDIPYFKIKDSHYWVDDINSDNYNKLIESEEKPSVSSEHLADYKDNAYEYAISIKANPENIKGKGSAIFLHINRFGYTSGCIAISKGDMLKLISMIDSKTRIKIDESLVDNEHKKEMM;locus_tag=LOCUS_5600;note=WP_092733832.1 L%2CD-transpeptidase (Agrobacterium fabrum) [pid:30.6%25%2C q_cov:85.3%25%2C s_cov:93.4%25%2C Eval:8.0e-13],MGA_571
sequence14	MetaGeneAnnotator	CDS	10881	11390	.	+	0	ID=MGA_572;product=YgjV family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011074508.1;translation=MVILGNAVSLVASLFMVYSGLLKKKSQILLCQCIEFILFVITNIILGGIPGAIINFICMIGVILGYNKRLNIVTKTILALLASILIIKFNNMGLLGYLPLIAMVLYLWVIDIKDVFIFKTFLLIVMLLWVTYDFSIKSYVSLLFNIFTIITTIIAMIQLKKTKKRRKVK;locus_tag=LOCUS_5610;note=WP_011074508.1 YgjV family protein (Streptococcus mutans) [pid:29.5%25%2C q_cov:87.6%25%2C s_cov:91.4%25%2C Eval:2.9e-13],MGA_572
sequence14	MetaGeneAnnotator	CDS	11444	11989	.	+	0	ID=MGA_573;product=ribosome recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003231927.1;translation=MIEEILLETEDKMIKSIDSLKDRLTNIRAGRANPSMLDGVKVEYYGAETPLNNIANISVPEARKLQIKPFDKNALSDIEKAIYEADLGFTPNNNGECIFITIPELTEDRRKEFVKQAKKLGEEAKIALRNIRQDANNDIKKLELNEDEEKYGQNEVQELINKYNKQVDDIIDEKEKELMTI;locus_tag=LOCUS_5620;gene=frr;note=WP_003231927.1 ribosome recycling factor (Bacillus) [pid:54.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-51],MGA_573
sequence14	MetaGeneAnnotator	CDS	12001	13176	.	+	0	ID=MGA_574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNCNKCGKKVETGIKYCDNCGNKIEEVKKTSKKVEVKEETNNESGSFGWIVLGFFFPLVGLILFLVWMNTKKKSSKAAGLGALIGFCTSLLLTIISVVFFVIYLGNIDYDYDPDPSIDNPIVEPKKDDVPDKNIETKPIDITSINTDNKLPAVSYKPTLMDEFENKEYDYKDKELKITRNYNQLVIKDSYSGSILFNYDNVKHAYYTYHDCNGLEFVLVETNDKVYLINTRVHEVSNMKAVELKGKYTGFYKASNHAYTCGGSNIILGKGEDGTYYDLNSEDGIELDKLFYYDSTNSYIGITRGYKIAGKTGSAKLIIQSSETDIVLGLIDVNNYAYTYGYDNGGSEETVKLELINQSPVKEVEYSSEDNIVILTFENDEQYSFEYASVVY;locus_tag=LOCUS_5630;note=MGA_574
sequence14	MetaGeneAnnotator	CDS	13178	13711	.	+	0	ID=MGA_575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKFCQNCGFEFNRETKYCPGCGIKLEKEVINTPAKEEKVNVNELQVSAKIGYYSRYVTTVLLIITFLIFIIGTFTGHFGSISSGNSDADGYGILAMIFLAPVMLIGLFIYFISIIPALYVVPTFWIHKKKKVDSLIEVLRIFLLIVLYIIFLIPVIIYLVSGWTGVFDLLFFWMN;locus_tag=LOCUS_5640;note=MGA_575
sequence15	MetaGeneAnnotator	CDS	133	795	.	+	0	ID=MGA_578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKDIEDKLLNVNSIEEATSFAAGRILTLDKETKETTVGIGYDTSIRDYISSKVRFISGKYNNKDYPSLLFNDLKPYAIFIRRLSLGIDISDYDKLYYQISLAVDSYFSNSLLNASKEGINIMRTKIIAYNVLNNVDQISIRKLASEGLGSPLEKAALIHNILRILDIDSELYFTSNEDIYNIIYPYGYDSEQCLAFPFKDKGFNGISSGVKRLEYINK;locus_tag=LOCUS_5650;note=MGA_578
sequence15	MetaGeneAnnotator	CDS	806	1600	.	+	0	ID=MGA_579;product=phosphatidylserine decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964117.1;translation=MKFLYKTFLGRIILKIFVVNRFTTKIGGFFLGTRISSLWIKRFIKKYNINMEEYENRKYKSFNDFFTRNINLEYRPISNNKSDLISPCDSKLSVYRITNDLKLNIKNSVYTLNDLVNNEYDLSSYKDGYALVFRLCINNYHHYYFIDDGNIVKSNEIKGKFYTVRPISDGLNVFTKNNRIYSVLSTQNIGDLLYIEVGATMVGKIVNRNITSFKRGEEKGYFKMGGSTIVLLIQNNKIELNKNISLDKETDVKCLETIGKIKKI;locus_tag=LOCUS_5660;note=WP_010964117.1 phosphatidylserine decarboxylase (Clostridium) [pid:49.1%25%2C q_cov:98.5%25%2C s_cov:91.1%25%2C Eval:2.3e-64],MGA_579
sequence15	MetaGeneAnnotator	CDS	1619	4810	.	-	0	ID=MGA_580;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGINYVKKDLKSIKRIDPSEIDNLYNSDSRIKLKKKLEGLEKKVSEMRQQVPNIRLMDEMFGDNRLKKHFEQIEEIKEKINELKEQVKEIEDRRPDTDLNVERIYPSREVRNQIVEGNLYLCEAIAKKYYNKWDHKVSYDDLYQTACLGLISAARYYVPSNIAKFSTYASTCIENKLIRVYKPKKKENIPYNELLVELDILLDFLQLMKTGKYWQAAQYIKANNKKMFLMGLPKYSINKKACNKKEAQKLVWDYFTKLYNKVAKSMRLSLTITNEERNFISLDISHANLEGTKKRCFTLDYYIKYYMRKLSNALLYNKVIKELLEEDKPITDEEIIKTANKLIRRDKTKFNKIKKHLFNFNGIGLSDDVRIWNEYIEIYSRVYGIDKIWHDPKQVKRNWKREYYRFDDSPKPYEAELNDIYDEDEYYDDRNIVIEAVNHISYHLENEDRYEIMEELDNILASIKLITIVNPKLTEEFINSIYDIEDDDEFLERYKNELHPKLLRISELLNEEFIREKYIYQLNHKIEEFKESVENLNSKFEIASETDQAIKDACIEIITTLKSEQLYEILDEYAGGQISRLVKLDSWKLRNLYSELSNISNKIIEEIDKLKEEGDYAYRNAPRSSIWGNDELNYNLLKIVNRLNPEDNKEFDEYLIANFKEAYDLVKDLKTHKITNSDFLDKFSQEPLNTLNAKAIELTGKEDITANEQELKRIIKTINESTEICINFIKRRKKDERIVETSIFRILDLIHSRDIAKCIKPGYDISKKTFKKAGIESPLGFYDDVMRGVNKTFKETKKKIEVAETAIKTENDLIKDSSIQKIVDILNWNSSYNDRNNNDLLDYMKKDFPELYELIDRFESKKISKRDFFLKFREEPYQKLLQVNEAYQAKENTFRSRYAEKVMKERKKHVRKLTKEITSGIFEENREFFNLSLFEKLGIKKWNEATLEEIKTFYQSQVEVDSEFLESITSKKEYQLKQTLEEEVETKLFLDDYSRCLSELTEVERKVLTMYLDENGIRSYTPKEISKELNIPVREVTKIKTKALRKIRKNPIMQKYKDSLLD;locus_tag=LOCUS_5670;note=MGA_580
sequence15	MetaGeneAnnotator	CDS	4941	5456	.	+	0	ID=MGA_581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQLEKKDMPLVFQFVSKDVENNRKKSEENGIFIFKDALDFLEIDGFDITQKGTEYIAKFIDVLYHEKELLLLCFNRRGEIDGFWKDFWNLNDRNNPHYTLYGDSNIIIPEMRKSIKSSLYESDDTNLNELIYQITDTQIDRRGYFSKELPGHEYAHNVSYRKILLGINEK;locus_tag=LOCUS_5680;note=MGA_581
sequence15	MetaGeneAnnotator	CDS	5539	6279	.	+	0	ID=MGA_582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKTKLKLLTTIFIIVSFFVLKAMDVDDRVLASLGIFDSFYGDIVVTDNISMDNIPPYEGYSYITINNNEPFFTESEITSESFELYYPLDSLGRPTKAESSIGKDLMPKEKRGDIGSVRPPGFQFSKYDFVDNKYLYNRCHLIAYMLTGENANKRNLITCTRSANVKGMLPFENMVSNYVRATKNHVMYRVTPIYEGSNLVASGILMEAYSVEDNGETIKFNVYIYNVEDGVKIDYSNGNNKLDK;locus_tag=LOCUS_5690;note=WP_003547408.1 DNA/RNA non-specific endonuclease (Lactobacillus acidophilus) [pid:43.9%25%2C q_cov:74.8%25%2C s_cov:64.4%25%2C Eval:1.2e-37%2C partial hit],MGA_582
sequence15	MetaGeneAnnotator	CDS	6320	6970	.	+	0	ID=MGA_583;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINKFNEFSKNFLIRLSSIIKYIITGLIFIVIGLMVALPIILKNTSFKGDDIVIFNKTIDIISVEGKVNIKMFDNYANTGISYNVYNDYSTNFNKKGLFKKTAIVEINTLFILFELIFLYFIMTNIIKLFIEKEDNEYDLYVNKRSFTINALSFLIFSFIRRFIYRNTIFANFNIDIVVIYLFAIISFIFVYKIFEMDKIDIKKVIQNEKYKKNK;locus_tag=LOCUS_5700;note=MGA_583
sequence15	MetaGeneAnnotator	CDS	6945	7652	.	+	0	ID=MGA_584;product=class B sortase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001086126.1;translation=MKNIKRISKLIIELLLFCVIIFSLYMIIKWFINTNSNKKIIEEVNSRIDIEDIHDGKSNIDFNYLLKINSDTVGYLSIDNTDINYPVVRTTDNNYYLNHSFDKTKNVAGWIFMDSNNKDIKTDKNTVIYGHNMKDGSMFGKLKLLKRNNSNTIYYYDSNNKYEYRIFSIYEINEEDYYINTVFNSDKDYLKFIQTIAKRSMYDYEFDIDVNDNIITLSTCTSGSKRLVVHAYRVN;locus_tag=LOCUS_5710;gene=srtB;EC_number=3.4.22.71;note=WP_001086126.1 class B sortase (Bacillus cereus) [pid:36.1%25%2C q_cov:94.0%25%2C s_cov:91.7%25%2C Eval:8.1e-36],MGA_584
sequence15	MetaGeneAnnotator	CDS	7662	8027	.	+	0	ID=MGA_585;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIYNDIDLDNTSLSFTERDNGIEFYIEGFDEDRKISIDFIVSLKIDDLKTMELDYEYDLSDQLLDDETYLGINNDFGKTSIEVTLMKDLDEKYYLRVVNDDIDAQVNFVLEEKEEEEENV;locus_tag=LOCUS_5720;note=MGA_585
sequence15	MetaGeneAnnotator	CDS	8020	8709	.	+	0	ID=MGA_586;product=2%2C3-diphosphoglycerate-dependent phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966028.1;translation=MYKLVLLRHGESIWNKENRFTGWTDVDLSNNGINEAKEAGIKLKENNITFDIAYTSVLKRAIDTLNYCLLEMDLFNKIDIIKSYKLNERHYGALQGMNKDEARSIYGEDQVHIWRRSYITRPPLLEYTDIRFPGNDDRYKDVPLKDLPLSESLEDVYKRVIPYYEENILPSIKSGKKVLICAHGNSLRALIKYLDNISDSDIENIEMKTGSPIVYELDDNFKVIKHYYL;locus_tag=LOCUS_5730;gene=gpmA;EC_number=5.4.2.11;note=WP_010966028.1 2%2C3-diphosphoglycerate-dependent phosphoglycerate mutase (Clostridium) [pid:62.4%25%2C q_cov:100.0%25%2C s_cov:93.8%25%2C Eval:2.8e-78],MGA_586
sequence15	MetaGeneAnnotator	CDS	8750	9577	.	+	0	ID=MGA_587;product=tRNA 2-thiocytidine(32) synthetase TtcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003362794.1;translation=MEEYKQIERSIITKYRKDIWSKFVKAVKEYKLINENDNIMICISGGKDSFLMAKCIEELKKHGDFDFGVRYVCMNPGYNKENVELIKENAKRLNIDLEIFESDIFEVLDRVAKDNPCYLCAKMRRGCLYSKAKELGCNKIALAHHFNDVIETSLLNMFYASQIKTMLPKLHSDNFEGLELIRPMYLINEESIKSWAKYNKLSFLNCACKFTADSKIDENLSKRRVMKKLIKELKEDNPNIDNNIFTAFTNVNTDCVIGYIKDGEKYSFLDEYDRK;locus_tag=LOCUS_5740;note=WP_003362794.1 tRNA 2-thiocytidine(32) synthetase TtcA (Clostridium botulinum) [pid:56.1%25%2C q_cov:97.8%25%2C s_cov:92.0%25%2C Eval:2.1e-84],MGA_587
sequence15	MetaGeneAnnotator	CDS	9586	11505	.	+	0	ID=MGA_588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITFFIWLLIMIFVFTSISKRSVPSKTRNIGNIFAYIITGIFLFIMIFPVIKSSIKYDESKEATPADGFVINKYTVKLDVKEDNKVDVEEDVTVNWTEYGHHGIYKFTPEWFKYTSKNGKTIRRKSELSNLRTEVPPYTYNPDFEYNYGYGVDYTTDESLVESYYNSSYNFTTDVVKDKPRIKIGSSMVTLGKGEKDYIIKYTYDMGSDPYDGYDEFIFHAYGDYWGTTINNPSIEVTMPKSIEGMNVHFFKDKYRKEDVTNKVSYTITDNKLVASYNGNDLYKSLTVDIELPDNYFINGSNNYGNASLVCIILCLINLFIIFILWLFFGKDYHKKAEMVSYLPPRDLCAAELGYMASNGYSKKLVIATIIELASKGLISIREEKKKAYIKSLKPDEKNKSATKKYDDLVESLSDYERIVLNEFIDETKEKELKEYKTLYTVFSKVEKALDKDLRWSINEKVGFVLKYLGLALTCISALLMFLAYSSFEDLPQKIYSMYYVGFISVFVMVFLCVIMTRRSHFGEDIKVEINGFKKFLVNVEKNKLEELVEEIPHYFFKILPYTYVLNISKKWIEKFNDISIPESDIPMRDFSLLDSMSSDIYVPAPSYGSSGGSGCSSCGGGCSSCGGGCSSCGGGGSW;locus_tag=LOCUS_5750;note=MGA_588
sequence15	MetaGeneAnnotator	CDS	11499	12482	.	+	0	ID=MGA_589;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080828.1;translation=MVGTFILQWHLSENCNLKCLHCYQEDHRPVCISYNKLEHIYNEFINLIDKLNMKGHINITGGEPLCNPHLFKLLDLIKKDDKVTFSILSNGTLINDEVALKLKEYNPYYVQVSLEGGKKVNDFIRGKGTYKQIGKGIKSLKKAGIFTSISFTSNHLNYKEFPKVVRYGKRLKVDNIWSDRYIPLGGSMDKDLTLSKEETRDYLDIMHKEKVKLGKKSKTHISMNRALQFTRTNDYAYGCTCGDTLLTVMENGDLVPCRRMPIVVGNVLAESMYNLYMNNEILKDLRKKTIPKECMNCDNADRCRGGLKCLTYAITGNYNLKDVGCDL;locus_tag=LOCUS_5760;note=WP_004080828.1 radical SAM protein (Thermotoga maritima) [pid:28.4%25%2C q_cov:98.8%25%2C s_cov:96.0%25%2C Eval:5.7e-26],MGA_589
sequence15	MetaGeneAnnotator	CDS	12479	13183	.	+	0	ID=MGA_590;product=glycerophosphodiester phosphodiesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862528.1;translation=MKNLDFITNNMIMHRGFFDNERIVENTIKAFKKANSNNHPYEFDVRLTKDEKVIVFHDDTLKRLSGINKKVSDMTYDELKDIKLLNIGSIPLLEDVLKLDNKNGIMIEIKNDDNNMLIVDKVLELLKDYKGKYSIISFNKNTLKYIRTKNKDIVLGLLIGLRKEKPFEGFSNKFFIKTFKPDFLSVNKRNIDYKYIKKYKKNNPVLIWTIKTREDFTKYKDKGTSLVLENINMI;locus_tag=LOCUS_5770;note=WP_020862528.1 glycerophosphodiester phosphodiesterase family protein (Mycoplasma mycoides) [pid:31.8%25%2C q_cov:87.6%25%2C s_cov:88.0%25%2C Eval:3.6e-12],MGA_590
sequence16	Aragorn:1.2.38	tRNA	7	83	.	+	.	ID=Aragorn_15;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0150;note=Aragorn_15
sequence16	MetaGeneAnnotator	CDS	154	708	.	+	0	ID=MGA_592;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELNCIIETIDKCVILKKEVAEYEATITTTENVKDKIVTKIEKAKADNEIELIDRLTKYSQTLNTFIQRAATGINSIKPTLDKTQKLYQDSMNSLNKEDKQELLGMLRSKVSVLEDKASELSNSINTAVRNGNKAYKQLDFIKEGRYNDIVSDKALELVNLKSTLDQYYTFIKDIENRISFGGK;locus_tag=LOCUS_5780;note=MGA_592
sequence16	MetaGeneAnnotator	CDS	789	1319	.	+	0	ID=MGA_593;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFNKDGKVYVHKQDVMYLFDAEMGIPLCLLDKMGMLTGVTIVDNSNRFELLEFKEEKDIKTVNEVETFVDFNEIKHLSVDDLKRLIEKRQEELKKTREMYFSLTDATEKSVMSKKFNRLALQLFSLRDFLLYKCGEINMEIPKGIEIERDTPKGKGSILDGLKMIFKKKNKKDNN;locus_tag=LOCUS_5790;note=MGA_593
sequence16	MetaGeneAnnotator	CDS	1316	2095	.	-	0	ID=MGA_594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKDRITFNKNLQNEKEYKAFIDHDGNFETINVPYDIDNPEGAFNTEDTITQMEDYMRKSMKLLSRNGIPFDKVALTTDVGFLCKKSFVDRITTISKRLNVLRGYLPREEEEQKEIENLQEDIYYLIYSSLVSSFDKVYVPVDFRLNLEKSSFSSEGQDDIGKDYTKTYQEIDDFIKNNSVEGIVDLRRFIDILTKYGYLVRSNDRRNNGHFRNVENYLLSYIRGYDKNSCKTSTKLTVVADLSTDKRLTYKSKEKDNN;locus_tag=LOCUS_5800;note=MGA_594
sequence16	MetaGeneAnnotator	CDS	2301	4049	.	+	0	ID=MGA_595;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKYFMSQYDYLLECNKNYMDYIALSFGDRKITYEELHDRIDKYARLLYKKGIRAGDIIGFSSYNTPEAVYLLWALKKIGAVVAGFNPLEQTKSSKKQTKSDLLSVKPKMVITVDKNFSNFKQWEKALDFSTILFSPLESVPDTKETSKLKKGYRLQQIALGNFKLSKENNLKSLLERDYSDVVVPTPEYSKGKLGDIIFTGGSTGTHKGVDLAEESFNAVVEGMNSIFPAKPGMIHLGNIPFCSMAYGRSILNFSLCNNMEYALTLKAMPSDFVSELERTHANAAVGGPVHWVTLIEEKDGKYVPSSQLKPGSLVDLHYATSGGEAKKAATVNAIDAALAYCGSDAKLGDGLGSTETAASIMINNGKIHHQNTVGVPISTVNVKLFKPGTKEEVKKGEDGELITCGDTVMLGYHGNKEETDKVLYYDENGTRCLRSGDLLRLNEYNEYEYIGRLKRNFVSGCDNIYSEALEELLMTLPEIKEVVVTPISDPMVQYVPRYHISLSHSDIDITSLEKKIEKLVLSKYNINWLPGSIAYYDKPLVRMSNSKINIGYYKEKDAKDFEEGKIDISTAKELRLSLI;locus_tag=LOCUS_5810;note=WP_010930009.1 class I adenylate-forming enzyme family protein (Bordetella pertussis) [pid:24.2%25%2C q_cov:60.7%25%2C s_cov:64.7%25%2C Eval:9.1e-13%2C partial hit],MGA_595
sequence16	MetaGeneAnnotator	CDS	4119	5933	.	+	0	ID=MGA_596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVGFYFSISTFIIIGIITIIFCLKQRVDNIETKIYGQILVITLLGIFLEIGTCICYRLGVNLNNNIYQYACKLTASYYMIWSSLFVNYLISITNAKKSFKRGFNIINIICFALIMILPIYYNRTDTGVIPGGPSIILTYSVCFVYAIIDAVITIKYRKTITRAKFTPVYSLLCLGGLDIVIGIFFPQLFLIGYIYSLIVIIMYFTIENPDVRLVQQLNAAKNQAEKANRAKTDFLSSMSHEIRTPLNAIVGLSEDNLEYKDKCPPEVIENSNDIVSASQTLLEIVGNILDINKIEANKMELVNNPYNFVEEITQMCKVTETRIGDKPIKFNLSFAPDIPYELNGDKGKVKEIVNNILSNAIKYTNEGEVNLYFKCINNIEKKDCILIITCQDTGIGIKAEQIDRLFNKFDRLDVEKNTTTEGTGLGLAITKRLVGMMGGKINVQSQYGKGSIFMIQIHQEISKMEAPTVDTNITQTYEEKDFGHKRILVVDDNKLNIKVARKSLSAFNFEIDECYDGVECLNKINSGEHYDLILMDIMMPNMNGEVALSELKKIPGFSTPIIALTADAIAGSQEKYISDGFTDYIAKPFNRDQIKSKLDRIFR;locus_tag=LOCUS_5820;note=WP_011263834.1 response regulator (Aliivibrio fischeri) [pid:37.2%25%2C q_cov:62.9%25%2C s_cov:50.3%25%2C Eval:3.4e-63%2C partial hit],MGA_596
sequence16	MetaGeneAnnotator	CDS	5945	6325	.	+	0	ID=MGA_597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKKRIIIGLIAVIIAIIVCAFIMNYFRNRKNNNEIVLSTNGGSVYKWECDIENSNIASISDASYKRVDDLEGGEVLVYFTITGNKKGTTKASCKYINPSNNSSIDSSNYKIYVDKDLNVTIQNSN;locus_tag=LOCUS_5830;note=MGA_597
sequence16	MetaGeneAnnotator	CDS	6377	7642	.	+	0	ID=MGA_598;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHIKDIKKMNNNTYYYYDDSGVDFVINNTFVFDTSRINSLKAEILSDYLTTINKKYDSVKKVYNKKRELFSPVLSMFSMSYSNKSLFTINYRMIDPKIVKEDYFDDSLEFLHDMIFNPLFIDGKLDSDRVSIIKKDIYDRFINTVKDFYYEVNTKFDKTVLKGYSNNLLIYDTKEELKKELDSITDKDIIDFYNEIINNHYKTLLFGKINKEQINKVLKTIKLKGTNNSKIEKREYIDLQSEYNEYISKEYTQSVLHITYNIKNVDKYTTRPYITVLNTFINGLEGLLYQTLRYKYGLVYNCGGYMLFRKSNVIVFDASIDKKNKDKTIEAIKEVIEGYKDIKKVEERLDITKKKIKQNAYLADEFSYNIFDKVYNYLYNEGLSDKKYIEMINKITAKDIVEFFSSLDKENIFFYVGDKDE;locus_tag=LOCUS_5840;note=MGA_598
sequence16	MetaGeneAnnotator	CDS	7635	8894	.	+	0	ID=MGA_599;product=pitrilysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861628.1;translation=MNKRFTKIVLDNGIRLYVHGDKTMKKHLVSYAVNYGSSGIYSKFNYDGKDYEVLPGCAHFLEHILLENSKYGNLYTYFRDLKYISNAYTGDIITKFYFSGVGNIKSSIKKLIDTLENPVFNENDVKDASHAIEEETKRGLDDPYWCALYLLYRNLYKNMDYTHETLNSIGTEETTKKIDYNMLRLCHNAFYNDENKIITITGPFDETEMINYIKKIYSKIPRHENKVKLFIPDNITEIRKKEDILVRKSVEDDYLFIGYNNNLKDFSWFEKNNYISYISTVKFSSKTEFYERLKKDNILVTGYGSNCDNVFNDGNSSFNFVFIVKDKDKFLKEFEKELKNIDFDEKDFELFKKGLISNHIYSLENKYYDYDYLPDQIFRFNEETDYVDRVRNLSFDRFIKFYNSIDFNNRSIVLLTKEG;locus_tag=LOCUS_5850;note=WP_011861628.1 pitrilysin family protein (Clostridioides difficile) [pid:23.3%25%2C q_cov:92.4%25%2C s_cov:90.7%25%2C Eval:2.5e-27],MGA_599
sequence16	MetaGeneAnnotator	CDS	8896	9582	.	+	0	ID=MGA_600;product=thymidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009892113.1;translation=MEKGKLIVIEGACDSVGKSTQSEYLIKRLEKDGKRVFNHHFPTYDENGIAVDSEVRKLLDKDDPAYKNCTPYEANKVFANDRKTIWEERFEPVFNNPDNYLLFDRYTTSSFIYQSSKMSNPEDIKRFINDVSHYEFDELGLPRPDLVIFLCPSYDLAMRLMAEREKDRSVKKDVFEADPEGMRRIYNNALFVAEYLKWNMVKCDNDGEMRSREDIHEEIYRLVKKMDK;locus_tag=LOCUS_5860;note=WP_009892113.1 thymidylate kinase (Clostridioides difficile) [pid:37.7%25%2C q_cov:96.9%25%2C s_cov:95.6%25%2C Eval:1.2e-33],MGA_600
sequence16	MetaGeneAnnotator	CDS	9610	10230	.	-	0	ID=MGA_601;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964974.1;translation=MRYKYQCIDEFEVLDLYKNNPDFDSWYGIVSNILNSDEFQKRRLFLHHENESVWSHSIKVSFNSYVFAKNNGFNMYNCAIAGLLHDFYTRAWQDSEELSQLDDKYREKFIHPRKLKLFEKHGFTHPIEALENSREYFPEYMNKNIENAIVTHMFPLSLFTDYKMPNCTESFVIMYIDKKVSWTFDVEPKRLVKYVGVTAKQKELNN;locus_tag=LOCUS_5870;note=WP_010964974.1 HD domain-containing protein (Clostridium) [pid:29.8%25%2C q_cov:78.2%25%2C s_cov:78.6%25%2C Eval:6.9e-14],MGA_601
sequence16	MetaGeneAnnotator	CDS	10271	11047	.	-	0	ID=MGA_602;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_043943610.1;translation=MNEENLIKYYNKFNEDKRLNTKHGNIEFKTALYYIDKYIKPNNKILDIGAGTGKYSIYYSDKGYNVTAVELVKHNLKVIEKNNKDIKCILGNAIDLSMIKDNTYDITLLFGPMYHLISYEDKLKALNEAKRVTKNNGYIFISYCMNEYALITHGFIDNNIISEIDNKRVNNDYKITSKEDDLYSFVRLDDINKLLENSNLSRVTILSQDGPTEYIKKSVNKMDNKTLDIFFDYHLKTCEKMELLGAGRHVLDILQKFE;locus_tag=LOCUS_5880;note=WP_043943610.1 class I SAM-dependent methyltransferase (Clostridium) [pid:51.8%25%2C q_cov:97.3%25%2C s_cov:98.1%25%2C Eval:8.5e-77],MGA_602
sequence17	MetaGeneAnnotator	misc_feature	1	506	.	+	.	ID=MGA_603;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_000453255.1:peptide chain release factor 2,WP_000453255.1 peptide chain release factor 2 (Leptospira) [pid:62.8%25%2C q_cov:98.2%25%2C s_cov:44.7%25%2C Eval:3.1e-52%2C partial hit],MGA_603;locus_tag=LOCUS_5890
sequence17	MetaGeneAnnotator	CDS	508	1404	.	+	0	ID=MGA_604;product=YitT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903458.1;translation=MDRAKKILNLVERKDLIRRYFIFVIGLLIMAFAYNLFFLRTGLMLGGSGGIAIIFKDTVDPAITILCISIIGLIIGAIFLGKDFAINSIAGALLYPLFVKLTADFVINIPTDDVMLVAICGAVLIGIGNGLTAKTGFSSGGIDAIIHVLHRKKHISHGTLYALINGIIIISGGFILGYRVVLYAIVQLYIISLITDKVMLGISSNKTFFIVTNHEEEVKEYISKYLSRGVTVIEGKGGFTRKEKEVLMAVIPTVEYFKAKEGILEIDPNAFVTICDSYQVYGEYSDEKQNNKKKESDK;locus_tag=LOCUS_5900;note=WP_005903458.1 YitT family protein (Fusobacterium nucleatum) [pid:31.1%25%2C q_cov:89.9%25%2C s_cov:95.7%25%2C Eval:5.0e-34],MGA_604
sequence17	MetaGeneAnnotator	CDS	1404	2114	.	+	0	ID=MGA_605;product=cell division ATP-binding protein FtsE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005815584.1;translation=MDFITLTNVTKTYPTGVTAVCGLDLKIRKGDFAFIIGASGSGKSTLIKMLYREEKPTSGEILIGGVKVEKLKNRKVYKLRRKLGIVFQDFKLLPKLTAYENVAFALEMYGLPKEEIRNKTLKALELVGLKEKAKSFPDELSGGEQQRVSIARAIVNNPKLLICDEPTGNLDPNMSMEVMKVLEVINELGTTILVVTHDRDIVNKMKKRVITLDQGRVVSDSEKGTYTVNEKLKNNR;locus_tag=LOCUS_5910;gene=ftsE;note=WP_005815584.1 cell division ATP-binding protein FtsE (Desulfitobacterium) [pid:57.0%25%2C q_cov:94.5%25%2C s_cov:97.8%25%2C Eval:2.7e-71],MGA_605
sequence17	MetaGeneAnnotator	CDS	2089	2988	.	+	0	ID=MGA_606;product=permease-like cell division protein FtsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009968247.1;translation=MKNLRIIGRNFRDGFKNVFRNFSLSFASISCITITLIVVAVALVGSLNVENFTKQISDDFTIVAFVKNDADKEAEEKIEAKLDKIGNIDTVTFVSKKDTKQEMMDSSETFKNIMSAWDEDENPLSDAYQIKVKDIEKIEKTAEKIKAIENIEIVKYGEGMVDSMVSIFNLVKKILIVLVIALVVVTAFLIVNTIKITIFSRQQDIEIKRLVGASNFSIKQPFVIEGLLIGLLGSIIPIIVTIYGYNYLYNYTGGVIFSQFIRLIKPFPFVFYASVVLLVIGVVVGMIGSNRAVKKYLKI;locus_tag=LOCUS_5920;gene=ftsX;note=WP_009968247.1 permease-like cell division protein FtsX (Bacillus) [pid:33.1%25%2C q_cov:99.0%25%2C s_cov:99.7%25%2C Eval:6.3e-45],MGA_606
sequence17	MetaGeneAnnotator	CDS	2988	4175	.	+	0	ID=MGA_607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKYILSVLLLLVLIFPINTNAKTLGQYRNELNELEKKYKENKDKIQYNESQIAAAKARINEIYNEIEAGEKEMIELNKQIAQLNEDIIQKREEIKSILKYNQVSKGESAYLEYLFKAKSITDFIYRATVSEQMSNYNKELINEMNAMIKQNEENIKKLQEKEKELTAKREELNQKIAILNSQNISLTDETISEEEEIKASKEVIAFYEKAGCKDGDEVTTCAAKQLPPGTKFYRPLIKGYVTSEYGYRIHPINGGANNHSGLDMSTYKSCSSCHEILSVAAGKVAYVGYNSSMGNYIVIHHNISGGYYSSMYMHLSSTRVRKGDIVSKDTVIGIMGNTGSSTATHLHLTMFACLYLSDSRCKYPGSTVNPRNYINFPSQHYYDFTDRNRYYD;locus_tag=LOCUS_5930;note=WP_010773625.1 peptidoglycan DD-metalloendopeptidase family protein (Enterococcus) [pid:39.1%25%2C q_cov:27.8%25%2C s_cov:11.1%25%2C Eval:1.9e-13%2C partial hit],MGA_607
sequence17	MetaGeneAnnotator	CDS	4244	4966	.	+	0	ID=MGA_608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEIRIKDVIFSFRHLYLENNRKLNKRLGKHISNKSIFIDDIALYVTSNPSHKKTVNIKYIFKKGTPGDIYLRLNELINRNTELDNPASIKCNDNGEYYIDSKYNIRLKDQRIAKDMECMFKEEFYQNIQSRVSNEKMDITFSETEITFSTNDFIIWYNCLGDVILSYSGKPFSLEDALNTSVPIELLSDYHKGIIKSEKKPISSEKKEYLDTPGDYSIKERDSDYSLRLISKKKINRYI;locus_tag=LOCUS_5940;note=MGA_608
sequence17	MetaGeneAnnotator	CDS	5006	5356	.	+	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLINFDKYELDKDVSREKLLDYGFVETIGVNPNRFCYLTTLKKGVVLAIEILEINGELVFDQYYGAPVFKSNLRSLYGPFYEDKKQKGYDYTLRKYNSKLNDLAKAHILAKRPKKK;locus_tag=LOCUS_5950;note=MGA_609
sequence17	MetaGeneAnnotator	CDS	5403	6395	.	+	0	ID=MGA_610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLLSFALKGSYKRYWNNLKDLEKETGKKPLFLFIDTAISTIVTGSGLQDYLNYKFYNKTWKERKEYATIGFQAKFYKKTASIEYAPFFSNKINFHKNFKKFVKRDHVSYEDGFDKVKEFISNNKAVVVKPISGLGGGGVRKVDTKDIKDIKKFYEDLKINDEFVEELVVQNKEWDKLNPGSINTIRVYTYALNGKSRILYACSRIGSSDAIVDNFHSGGVGVLVDIEKGCLVGKAINKANEVSDVTPRTKVKVDGYKIPMWDEVKKMALEAALVNDKVNIVGWDVALSDKGPLLIEGNRGPGWDLPQVLINRGVRKELEQIVKEVKSSK;locus_tag=LOCUS_5960;note=WP_011108543.1 NeuD/PglB/VioB family sugar acetyltransferase (Bacteroides thetaiotaomicron) [pid:29.8%25%2C q_cov:82.7%25%2C s_cov:50.5%25%2C Eval:1.0e-22%2C partial hit],MGA_610
sequence17	MetaGeneAnnotator	CDS	6461	8416	.	+	0	ID=MGA_611;product=excinuclease ABC subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000441064.1;translation=MDKFKLVSKYKPSGDQPEAIDALVDGINTGKKSQVLLGATGTGKTFTIANVIERVNKPTLVLAHNKTLAGQLYSELKELFPENRVEYFVSYYDYYQPEAYVPSSDTYIEKDASINDEIDELRHSATSALVSRNDVIVVASVSCIYSLGEKEEYEHQTLTLHTGDRIERDDILKKLVDMLYERNNLDLTRGTFRTRGDTIEIMPSYTSSYAYRVELFGDEIENIIQFDTVTGAVIERKITITLFAASHFVTSNEKIKLACANIRKELEDRLKYFKENNKYLEYERLSQRTNYDLELMEETGFCKGIENYSRHLAFRKAGETPCTLIDFFPKDFLLVVDESHVTLPQVRAMFNGDRARKQILVDYGFRLPSALDNRPLTFDEFNSKLNDVIYVSATPGDYEIEASNNRVVEQIIRPTGLLDPTIDVRPSENQIEDLINEIDDRIKKNERVLVTTLTIRMSEELTDYLKERGIKVAYLHNEIKTLERIEIVRDLRLGKYDVIVGVNLLREGIDIPEVSLIAILDADKQGFLRSTRSLIQTIGRAARNANGKVIMYADMISDSMKEAIDETNRRRSIQEAYNEKNGITPTTIVKPIADIIRNKAKDSSEKDFKYSKKEKEKLMKEIEKEMLEAAKELDFERATELRDILFEMRVE;locus_tag=LOCUS_5970;gene=uvrB;note=WP_000441064.1 excinuclease ABC subunit B (Bacillus cereus) [pid:66.3%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:3.4e-250],MGA_611
sequence17	MetaGeneAnnotator	CDS	8775	8933	.	-	0	ID=MGA_612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKSKALIISANIKYERIIIKVNKYDCLYDCLLLSGENAGKKTATTKANIQF;locus_tag=LOCUS_5980;note=MGA_612
sequence17	MetaGeneAnnotator	CDS	8935	9546	.	+	0	ID=MGA_613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPLKQNMQNIIFFVNNIVSFFAIVLFAVTYTKNSESKEIELIKKANFDELTGIYNRHGIHTIEQTLLNDKKEYSIAILDIDFFKVVNDTYGHKSGDMVLKEIGNILESYISNDITVGRWGGEEFLIIANSKVKYNDFINVLESIRIEISNTKFIIKNKKKIDVTVSIGSKYIKDKETIENSVSKADKNLYKAKETGRNKVIS;locus_tag=LOCUS_5990;note=WP_010956680.1 sensor domain-containing diguanylate cyclase (Treponema denticola) [pid:37.9%25%2C q_cov:92.1%25%2C s_cov:49.1%25%2C Eval:2.1e-23%2C partial hit],MGA_613
sequence17	MetaGeneAnnotator	CDS	9568	9840	.	+	0	ID=MGA_614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSGILGTITWLYGIIVIILAILSLFAGKVALIDSIANILKIVTMFGSIPFIIIGIIAIIIDSNRNRAINGLIFIGIAYLIPIVVGLFK;locus_tag=LOCUS_6000;note=MGA_614
sequence17	MetaGeneAnnotator	CDS	9926	10408	.	+	0	ID=MGA_615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARFDYLDDSPIEELLSTYIDLDSDIKFMTMKIEQGRVKSYERTEYEEDDIPTYSKKMDYIKNIFLKMPEEKILSAERDYIERLHDIDEQFECFQVTAEELDLIKNRARKYGEYISFLKEIIKERNIEDVTSFNNDDYKDFPTPEDIAQFDNDSSPFGGK;locus_tag=LOCUS_6010;note=MGA_615
sequence18	MetaGeneAnnotator	misc_feature	1	1218	.	+	.	ID=MGA_617;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_003232062.1:serine/threonine protein kinase PrkC,WP_003232062.1 serine/threonine protein kinase PrkC (Bacillus) [pid:31.8%25%2C q_cov:95.8%25%2C s_cov:58.5%25%2C Eval:2.6e-50%2C partial hit],MGA_617;locus_tag=LOCUS_6020
sequence18	MetaGeneAnnotator	CDS	1181	2017	.	+	0	ID=MGA_618;product=ribosome small subunit-dependent GTPase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002378814.1;translation=MKTQMNRIIKIISNDYTVEFDNKEKRVCKARGVFRNKNITPLAGDFCLVNSDNIIEEILDRKNSLNRPPVANIDIAMVVTSIVNPDFSSKLLDKLLTVIEYNNIEPVICFTKLDLSDLDITSLKNYYESIGYKVVTNEELDKIKEIIKGKTVILTGQSGAGKSSLLNRLDSSLDLKTDEISKALNRGKHTTRNIEFYELCDSYVADTPGFSKLDFADMTKENIRDSFVEFNNYECKYSDCMHIKEEGCKVKEAVDNKEIIMSRYENYISFINEKENER;locus_tag=LOCUS_6030;gene=rsgA;note=WP_002378814.1 ribosome small subunit-dependent GTPase A (Enterococcus) [pid:46.7%25%2C q_cov:97.8%25%2C s_cov:95.6%25%2C Eval:2.1e-63],MGA_618
sequence18	MetaGeneAnnotator	CDS	2014	2640	.	+	0	ID=MGA_619;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986839.1;translation=MKVSVSILKEKDNIENVIKKINLTDADYIHIDVQNNTYTENYSFPVEDFKNINDYNTKKLDIHLMCTEPLDLIEDYSKLNPEYITFHIEAVNDPYKYIKLIKSYGIKVGIALNPETDVNKITEYLPYIDMVLVMSVTPGKGGQSFLDNTSYKMEELYNLKDRYNYIISADGGINDKTINIVNKYLDMVVSGSFITNNEDFQKQINLLK;locus_tag=LOCUS_6040;gene=rpe;EC_number=5.1.3.1;note=WP_011986839.1 ribulose-phosphate 3-epimerase (Clostridium botulinum) [pid:37.7%25%2C q_cov:100.0%25%2C s_cov:98.1%25%2C Eval:1.2e-32],MGA_619
sequence18	MetaGeneAnnotator	CDS	2686	4680	.	+	0	ID=MGA_620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKETVIDSDIKEVKTEKVKAEKVQKTKTKKEKKKLVINKKLVTIIAAGIIVVIALLLFLFRTKVDTITKVKKVAATKYYNVECLTSTCDYIVAEKGNKLGKSKVYVYDAKGNEVVSFKDKYNAKKDYVLSVYDVSKNFVLFKKLNKLTSKTEGYIIANTKGKNKYSTGNTLYKINENLISEFDQKDNKYLILNKKGKVIYDGVTDINKYNNGKIIALNLKGNDVLINENGENILGGYVVAKEVTSSDGDTLYLILSDSKANAYYYYNVDSNKIMGESFNGYVSSDKEGELIITKRINNSDVKYSLSPSGKQTKISDETLNERITFIKEKVGSDYALYVSSVIKADQRYVFVNKIKDSSFGVYDVDSGKYTKLYNYSSDEKSTSIYNLESNDNGIYMQATCAKGYCDKTILYVYNLATNKELFKSDDESKIPQKYAEYTGGYKVIRYSTSSENENYKGKYVLYDEKGKELVNSSNIVVPLGEENLFGEVSSSRALILYSTKEKRVLNSDNYLGSKINVSGTYIYKFSDSETTYLYNIKGKKMVSIKTSDARLIYSDETIVYILNGKINIIDPTTGRVRKYRLKSEERINDISGETIAPYRNSLYINNPDKKYVKVVNVKGRTIKKIKKAEIKSVVKNEKSNNVIIIVRNIKNNNNLYGLYIAK;locus_tag=LOCUS_6050;note=MGA_620
sequence18	MetaGeneAnnotator	CDS	4758	6041	.	+	0	ID=MGA_621;product=replication initiation membrane attachment protein DnaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229464.1;translation=MRSLLPADTYVVINKTILNDSDRKVLTMLYQPIIGSISANLYNTLCLNLDKNEFMSDEFTHHSLMVNNKISLEDILSAREKLEGIGLLKTFVKEKEDSNSYVYELYSPLSASEFFAHPILNIVLYNNVGKKEYERLVLYFKIPRVNLNGYEDITKSFNDVFSSVPSSSFVNNIVDIKEISKVGLCLNYSFDYDMLITSFPKETINEKTFTKENKELIENLSYIYNLDTLEIKDLIINSLNDRLMIDKVELRKNARNYYQYQNNGKLPTLIYQNQPEYLRSPVGKDSKRAKMIYTFETVSPYNFLKGKYNGSKPTSRDLKLIEDLMVDVGLKPGVVNVLIDYALRVNNNKLNKNFIETIAGQWKRLNIETAEGAMNRASKESKNKKVKETIYKKKDVTLPEWFDKENTKEEISKEEEDEVKNLLKDFS;locus_tag=LOCUS_6060;gene=dnaB;note=WP_003229464.1 replication initiation membrane attachment protein DnaB (Bacillus) [pid:34.3%25%2C q_cov:93.7%25%2C s_cov:90.0%25%2C Eval:3.0e-68],MGA_621
sequence18	MetaGeneAnnotator	CDS	6051	6956	.	+	0	ID=MGA_622;product=primosomal protein DnaI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000808621.1;translation=MKDINKMNIKTGKINLEAEYLKAKKDPNFIKIITSLDLDDKELMKYTSKLMQCAKELDNYGDKSDKSFSNNEIPGFILTPYLVDGVLNFKYVACKEKEEELENAEYIKNGYRFEVSKDIRNAKMKDIYTDDKNRVPLIKWVTSFIKDYKSGKKVKGLYLSGNFGSGKSYIVSAMLNELVKDGYKAAMIYYPEFLRILKSSFKTDFDEEYDYARKVDLLLLDDIGAENITSWSRDEILGPILQYRMDNNLPTFFTSNLDLKELEVHLSESKNEVDKLKAKRIIERIKYLTEDLTLISENKRK;locus_tag=LOCUS_6070;gene=dnaI;note=WP_000808621.1 primosomal protein DnaI (Staphylococcus) [pid:40.2%25%2C q_cov:76.4%25%2C s_cov:75.5%25%2C Eval:1.0e-42],MGA_622
sequence18	MetaGeneAnnotator	CDS	7040	8092	.	+	0	ID=MGA_623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNHLKKLLDILKRERVNEAIYKKCSEYVDELDDDDLYVGKLHSYVKALIVDDFLKLSEKGQKDTLSLLSCGFIDSKYVCIAIRNINMLFVDSGSLMYPPRRSLLRGLEQYKDDPVLDEDLISNDELIKKIICKRNHIYPIDDIEKGKYSLIHNYRLDESEISEIKKVTYITDILIRRVHELYDEDQGEFNKTVCNYDAIEDEAIRKLIPHTYRKNPPVQVLLSNGSIVDYYKGDIKIKPYRMMDFINLVKLVYVKKRHESSLMEEYEPEILEERNSEMAYLEERLCLTEEEKERLEELRELYLFKRQIKDIVDEVSEEIDGLDQVYSKRMKDMSKQKVDMMDSLVLKYDL;locus_tag=LOCUS_6080;note=MGA_623
sequence18	MetaGeneAnnotator	CDS	8102	9121	.	+	0	ID=MGA_624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLRVFYNLLNSRLITDSMIEYHIEHSDSLKAKWKDESEFVRYLKAFLIDKFNEVPDEIKDHLINELRDGIVNTYLVETFVEIIRGEQANVNEYIDGITLSDFSDLLVYKDDEIFKRLSSNNEWIRGLTKENNNFISIIELENGNYFLPGNYRLSKDEINTIKCSKMLAPIIGMVHSKYDEMCYDENGVSEERTICNYDVIKEETIKSLVPHTDKNNPDIEILFNDGTIVNYYKGDIRILPFNFKQLVEYIKLMFVYNYYNGSNNPLLAFYLETEDGVSLDTDFDDMNLEEIEILLGYAISMATDVVRSLSQRYSERMIEQSKEKVAYLLKLANKYKL;locus_tag=LOCUS_6090;note=MGA_624
sequence19	MetaGeneAnnotator	CDS	395	769	.	+	0	ID=MGA_626;product=Mini-ribonuclease 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003700685.1;translation=MDLNSINILVYAYIGDSIYELMIREYLINKGYNKVNKLQTLALNYVTAKNQAKFITYLLDNNILMDDEIDIVKRGRNAKVYSHPKNTDILTYKHATSLECLFGYLYLKQDMNRINELIRIITEV;locus_tag=LOCUS_6100;note=WP_003700685.1 Mini-ribonuclease 3 (Ligilactobacillus) [pid:46.2%25%2C q_cov:94.4%25%2C s_cov:86.7%25%2C Eval:2.5e-25],MGA_626
sequence19	MetaGeneAnnotator	CDS	771	1463	.	+	0	ID=MGA_627;product=23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966431.1;translation=MIVYGKNVFKETINSDKEIKTIYLSNNFDDKGILEDIANNNIRVIKMDKREMDRKFEGNHQGIVLEIEDFKYKSIKDILEKNFVVMLDHLEDPHNLGAIIRTAESAGVDAIIIPNKRSVSITGTVMKVSAGALSNIDVVEVSNLANAIDTLKDNGFWVYSSCMDGEDYTKVKYDSKTCLIIGNEGAGVSKLVKDKSDFIIGIPMKGKVNSLNASVAAGILIYEVVKQKGE;locus_tag=LOCUS_6110;gene=rlmB;note=WP_010966431.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Clostridium) [pid:43.5%25%2C q_cov:98.7%25%2C s_cov:94.8%25%2C Eval:1.5e-47],MGA_627
sequence19	MetaGeneAnnotator	CDS	1466	2077	.	+	0	ID=MGA_628;product=RNA polymerase sporulation sigma factor SigH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000387199.1;translation=MYKENDNELLYLISENNEDAKDIFYDRYKDIIEIKAKKYASFLNSKGYELGDLVQEGMIGLSQAIVDYKEQKNVQFSTFANICIDRQMYSFIRNITRDKHRILNDSISIDTTTDTNGRPLIDLLFDDKNINPEDSFIEMEEKNELFNQVKEVLTESEYNVFELRMQGFTYKEIAALLNITPKAVDGSISRIKNKVQNILKNNE;locus_tag=LOCUS_6120;note=WP_000387199.1 RNA polymerase sporulation sigma factor SigH (Bacillus) [pid:34.0%25%2C q_cov:97.5%25%2C s_cov:89.9%25%2C Eval:2.1e-28],MGA_628
sequence19	MetaGeneAnnotator	CDS	2357	2569	.	+	0	ID=MGA_629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKVKDLFLDLKTEAKRIRWSKGKDLVNNVIVTLVTVIFFALFFMGIQLLISLVKGIDYSSIINAIKGWF;locus_tag=LOCUS_6130;note=MGA_629
sequence19	MetaGeneAnnotator	CDS	2571	3113	.	+	0	ID=MGA_630;product=transcription termination/antitermination protein NusG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001832303.1;translation=MEEEKQWYVVNTYSGHESKVAEKLDMRIQSMNMQDYIFRVIVPEVTETEIKDGKKKEKVKKLFPGYVLVEMIMTDEAWYVVRNTPGVTGFLGSSGKGAKPFPLKKSDIDNIFKIMGISDKKVTVDLNEGDKVKITDGPFKLMLGKVLEIDKENSKATVSIDLFGQETTVEVSLTDVELDK;locus_tag=LOCUS_6140;gene=nusG;note=WP_001832303.1 transcription termination/antitermination protein NusG (Staphylococcus) [pid:51.7%25%2C q_cov:98.3%25%2C s_cov:98.9%25%2C Eval:1.7e-49],MGA_630
sequence19	MetaGeneAnnotator	CDS	3240	3665	.	+	0	ID=MGA_631;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081512.1;translation=MAKEMINKIKLQIPAGKATAAPPVGTALGPAGIALPDFINRFNDATKDKMGDILPVEVYVYDDRSFDFKVKTPPAAFLIKKAAGVSKASATGSKSIAGSITRDQLRQIAETKMPDLNANDIEGAMRIIEGTAKNMGIEIKD;locus_tag=LOCUS_6150;gene=rplK;note=WP_004081512.1 50S ribosomal protein L11 (Thermotoga) [pid:60.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-44],MGA_631
sequence19	MetaGeneAnnotator	CDS	3720	4424	.	+	0	ID=MGA_632;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003235040.1;translation=MKKGKKYIKALELVDKSKLYTKEEAVDLVKKTSTSKFDASVEIAFNLNLDTKKTDQQLRGAIVLPNGTGKSKKVLVLTKNSALKDAAKEAGAEFIGDDDLVAKIEKENWLDYDVIIASPEMMPALGKLGKVLGPRGLMPNPKTGTVTTDIKKAVEDVKKGRIEYRTDSYGNIHAVIGKVSFDNDKLLENLVAIVTVIVKSKPQTVKGAFVKNISISSTMGPGIKIDLGSFDKLN;locus_tag=LOCUS_6160;gene=rplA;note=WP_003235040.1 50S ribosomal protein L1 (Bacillus) [pid:56.5%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:3.6e-76],MGA_632
sequence19	MetaGeneAnnotator	CDS	4587	5081	.	+	0	ID=MGA_633;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000048716.1;translation=MANSKILEAKQEVINEITEVVKNNASFILFDYRGLTAEETTLLRKKLRENNASYKVWKNTLTKRAVDSLDINLDSCLEGPSAMAYSNDSVAPIKVLSEFKKEHPALEIKGGLVDGKVATLEEIKQLATLPSREGLLTMLASGLIGTVKDLSIALNLLSEKKENE;locus_tag=LOCUS_6170;gene=rplJ;note=WP_000048716.1 50S ribosomal protein L10 (Bacillales) [pid:49.7%25%2C q_cov:98.2%25%2C s_cov:98.2%25%2C Eval:1.3e-39],MGA_633
sequence19	MetaGeneAnnotator	CDS	5100	5471	.	+	0	ID=MGA_634;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723031.1;translation=MAKLNAKDFIASLNEMSLLEIKELVDAMKEEYGIDPTAVAVAAAPAAGDAAADENATVTVTLKEAGATKVQVIKVIRDITGLGLMESKAIADNGGAIKENISKDEANDIKAKLEEAGATVEIA;locus_tag=LOCUS_6180;gene=rplL;note=WP_003723031.1 50S ribosomal protein L7/L12 (Listeria monocytogenes) [pid:50.8%25%2C q_cov:96.7%25%2C s_cov:97.5%25%2C Eval:8.2e-24],MGA_634
sequence19	MetaGeneAnnotator	CDS	5539	5766	.	+	0	ID=MGA_635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFLKDLFKEDKKTKEDNDMLFEDKIDKPEYTDEELDDYGLMDWEKEEVKKGNQNPWDFEEEDKEDDDYYSEDDD;locus_tag=LOCUS_6190;note=MGA_635
sequence19	MetaGeneAnnotator	CDS	5800	6012	.	+	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISITKAEMRKIAYDFGDVGLVYNPAARSLRRQCLELGKRTQYVSLGRAKSYKMKSKNNCGRYPKNIRII;locus_tag=LOCUS_6200;note=MGA_636
sequence19	MetaGeneAnnotator	CDS	6084	6260	.	+	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKLDSISDRLTKIENRITIKTAIFDVAYYQLVKDYPQYFFGPKTLKPRKSKKVKKQ;locus_tag=LOCUS_6210;note=MGA_637
sequence19	MetaGeneAnnotator	CDS	6257	6844	.	+	0	ID=MGA_638;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002262218.1;translation=MSQYFENDEKVKSNITIKEAEVRGIKYYFYTDNGIFNKSGLDYGTRLLLNNLDLSNKSSFLDIGCGAGVVGIFLKKLNRDFTVDMCDINKRAVDITNKGLKKNNLVDNAFVSDAYSNIESKYDCIISNPPIHAGKEKVYEIIRGASTHLTPSGELWIVMRKDQGALSMMNDNKDLYNFEIITKDKGFLIIKARVI;locus_tag=LOCUS_6220;note=WP_002262218.1 class I SAM-dependent methyltransferase (Streptococcus mutans) [pid:38.0%25%2C q_cov:97.9%25%2C s_cov:96.5%25%2C Eval:8.3e-35],MGA_638
sequence20	MetaGeneAnnotator	CDS	17	1582	.	+	0	ID=MGA_640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRIFIVISCLLVFFTLTNSVNAQKEYFPSNIFEDDEQGYDSCIKSGYSARECIERCKKQSYNLVFDWDDLVPGLKSNDIAHIEKVHINSLTGDKDFDDDDIEDLVEKAAKEASVDEDEVICDNYDPDDEIVLLDFLCGDLRAITWKKGMDQGKAQKGLLRKPGERYHYFIWYGEGKKNLLHCQDKNDDFDFECDMRGSANDFVLYLGNEKIGPLRKFDKIYDPEKKSGWLDAVIQKIADYGEKKDKAFEKEIKVCVDPNSVNLEDIFDLKKKQKWIDNHSVTINGKTKKGCINLGTVSFEKEKNPKAETTTTPRCYSFLHPETSFKPFYNTTVWTDTNLNNRCGFKSETWSRSNCKNSDLHEVHSVAFGRSVTSSKDCTKAETYDPDDKKCYRTINITYSGYNGVADYYEALGTNKENFDPQCENFQGLHIIYRVIVIAAPILVIFFVSFDLVRTIIAGDEKQMSKFRSSLVKRIVALILLILIPVIVRVLVGTLTSKSKYNNANKPNLIRCMVIGNNN;locus_tag=LOCUS_6230;note=MGA_640
sequence20	MetaGeneAnnotator	CDS	1676	2473	.	+	0	ID=MGA_641;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIRDELIDTSDLEIKELKDYYDVFDNVDSKIENGEKEANSNIEEIKKENEQRLQKAEEEAKKIENTKNEIENLKESYKISLKQIYDSYQDKLEAINKAIEACSTNEALKGALEEEKGHMTKELDEKSSSIKSKIAELTSFLGTTEEVKETTNEVETKEDEESDEEIEKIIKSIQEKINNLEEESKVKETSDEDDLEAIIRRIDEKINALKDDIKNEEETSINNIPVNEESSPNEIVEKNPVDEEQIKDILLSEEVNDNINGYLG;locus_tag=LOCUS_6240;note=MGA_641
sequence20	MetaGeneAnnotator	CDS	2482	2736	.	+	0	ID=MGA_642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIKYNIVTLKNGNSYFVLEEVSDNFDTYNLILNVEDEKDIKIVMQEVKNGKTVLTEVRDLLNLSSLKVLFKNKIEESREALR;locus_tag=LOCUS_6250;note=MGA_642
sequence20	MetaGeneAnnotator	CDS	2816	3604	.	+	0	ID=MGA_643;product=energy-coupling factor ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002941820.1;translation=MNILEVYNLNFSYDDKVIFNNINLKIKEGSFVNVYGRNSSGKSTLLKLLSGSIITESDIKVDKVKINKFNMDVINNKISFISSNNKLFSKTVLDELLLEKNDITNMDISMARKLLDDFNLSDIENISPLDLSYAENEIVQVIKFMIKKPRILFIDNAFSRFDFDKKTEILLFIKKYALKNKITVIYATNNLEDIYLFDRVIVLKNKEIYLDTDPKTILNDDSILNVTKKLPFIEELSRKLMMYNLISKKYDDINELAEDLLK;locus_tag=LOCUS_6260;note=WP_002941820.1 energy-coupling factor ABC transporter ATP-binding protein (Streptococcus) [pid:25.9%25%2C q_cov:99.2%25%2C s_cov:97.1%25%2C Eval:2.0e-20],MGA_643
sequence20	MetaGeneAnnotator	CDS	3601	4272	.	+	0	ID=MGA_644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYENKIIAVLGNSGSGKSSYIKSLKINKKVGIINDDTIKCNRVKDQLLYYVNKYKYRLDILDDRFNEIIKMLNISESILDKDVFDISESEYYKVLIGSVLLYNPEVIIFDDILCFFDEENKQKLFKLSNKLKKFFNKTIIFVTSDIDSVYEYIDIAIVIDNAKVLLEGPKEDVYKEYNILKKNRIRIPNIMEFIKLMRDNNINIDYVDSINELIKTIYREIG;locus_tag=LOCUS_6270;note=WP_004082907.1 energy-coupling factor ABC transporter ATP-binding protein EcfA2 (Thermotoga maritima) [pid:23.4%25%2C q_cov:78.9%25%2C s_cov:74.8%25%2C Eval:3.1e-10%2C partial hit],MGA_644
sequence20	MetaGeneAnnotator	CDS	4278	5006	.	+	0	ID=MGA_645;product=tRNA pseudouridine(38-40) synthase TruA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003733032.1;translation=MRYLIRFSYDGTSYNGFQKQKRDKNTIQGKIEEALKYINNGKDTKLTASGRTDKGVHAMDQCAHTDIDVNITPYKLKRALNSLLEDDIHIISVEEVNNEFHARYMVKKKTYMYIINTGEYNPVNRNSVYQLCKKLDINKMNSTIKDFIGKHDFSSFCSNEDKKEDCNKEIYDAYIKEEGDLIFIYFTGNGFLKYMVRTMVGYLIEIGLNKRDNDIKERFKLSKREKIRTANPEGLYLYKVEY;locus_tag=LOCUS_6280;gene=truA;EC_number=5.4.99.12;note=WP_003733032.1 tRNA pseudouridine(38-40) synthase TruA (Listeria monocytogenes) [pid:39.4%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:2.5e-43],MGA_645
sequence20	MetaGeneAnnotator	CDS	5041	5586	.	+	0	ID=MGA_646;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNRKQMLKNLKKEKKLRNSHIEDNENIIGRFIGTIFGVLLFLVVGYLLVGIFFTKTIKFGKEEKEKTEVTIDNSTILIGNSLKQKEEEYIVVIYDINNSDDKTISNWLSLYKTNHSDATVYSVDSKNKMNSKYIVEKDSNKEAKSLEELKVIAPTVLKVNNGSITEYYEGETSVKEMLKK;locus_tag=LOCUS_6290;note=MGA_646
sequence20	MetaGeneAnnotator	CDS	5641	6825	.	+	0	ID=MGA_647;product=carboxy-terminal processing protease CtpA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003231186.1;translation=MEDDNSKIINLSKYAIVSLISLLVGALLMYLYFNSGYTRVLTNNNKYRILDEVTDILNKNYYKEIDQDKLIDGAISGLVDSIGDKHTSYFTPKEAKDFKESLSDSYYGIGAVIFKSKDEEITVKRVFDDSPAKKAGIQIGDVILSIDGKSTEGMKVDEVANTLKSNKASKATLKIRRNGEELTLEITKSTVPLKSVSYEMLDGNIGYVIVDMFGESTYAEFTSALNDLESKGMKSLIIDLRDNGGGYLSTVLYMASEFMDSSKVILQTRESEDVEPKLYHSINNNTKNYKVVVLINENSASASEIMTAALKEQYGATIVGKKSYGKGTVQLTKDLSNGGMIKYTTEEWLTSNGNSINDVGIEPDVEVDLGEEYLNDPLDKNNDAQLQKAIEVIK;locus_tag=LOCUS_6300;gene=ctpA;EC_number=3.4.21.102;note=WP_003231186.1 carboxy-terminal processing protease CtpA (Bacillus) [pid:36.1%25%2C q_cov:91.1%25%2C s_cov:77.5%25%2C Eval:9.0e-64],MGA_647
sequence21	MetaGeneAnnotator	CDS	569	1276	.	-	0	ID=MGA_650;product=16S rRNA (guanine(527)-N(7))-methyltransferase RsmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001019628.1;translation=MTIDKLRELLSEIGITLTKNQGKKLHRYYELVIEENEKINLTRITEREDFYLKHFYDSLTLIKAIDLNQELSVLDFGTGAGFPGIVLKICFPNLKITLVDALEKRCNFLNKVIKELELTDIEVIHTRGEDYAKRHREKYDLVVSRAVSKLNTLVEICMPMVKVNGYFVAMKANLDDEVKDSTKAIELLESRLEDVISFELPIENSIRNLVKIKKLGKNKRIYPRNFDQIKKRPLK;locus_tag=LOCUS_6310;gene=rsmG;EC_number=2.1.1.170;note=WP_001019628.1 16S rRNA (guanine(527)-N(7))-methyltransferase RsmG (Bacillus) [pid:45.4%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:1.1e-56],MGA_650
sequence21	MetaGeneAnnotator	CDS	1263	3086	.	-	0	ID=MGA_651;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000541039.1;translation=MDYEVIVVGGGHAGCEAAFASANKGHKTLLVTGSIDKIAMMPCNPHIGGSAKGIVVREIDALGGVMGKVADKTLLQMKMLNFSKGPAVRSLRAQADKVAYPKLMQEELKKHKNIDIVEDLVEDLIVEDNTIKAVKLSNGDIINAKAVILTTGTYMKANILVGDTRTVSGPAGTRPSLFLSDNLEKLGFKILRLKTGTPPRIRRDTIDFSKTKMEPGDDKYYTFSFDDKPYYKLDEQEPCYLTYTTGETHKIIMDNLDKSSMYGAIQEKLGTGPRYCPSIEDKVVRFKDKERHQLFLEPESRYFDDIYVQGFSTSMPHDVQEKMVHSLPGLENAKILRYAYAIEYDAIDPRDLYPSLETKIIENLYTAGQINGTSGYEEAACQGLMAGINASLKIENKEPLILGRDEAYIGVLIDDLVTKGVRDPYRLLTSRAEYRLLLRSDNADLRLRKHGYEVGLINKRQYNKLVKKEENINKIIEELKELTIKADKKMTAFDYVKRVENSIFEIEDKLSTKYDYLELEQAEIIIKYEGYIKKARKEAEKMRKLEDKKIPENINYDDVPNLASEARIKLKEVRPLSLGQALRISGVNPSDISILSVYMKRYFNDNR;locus_tag=LOCUS_6320;gene=mnmG;note=WP_000541039.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Bacillus) [pid:54.1%25%2C q_cov:98.7%25%2C s_cov:97.5%25%2C Eval:1.0e-184],MGA_651
sequence21	MetaGeneAnnotator	CDS	3169	3690	.	-	0	ID=MGA_652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILVILGILLLVTGCSLTNSKNKEKTYKLDNYGSFSISENYMMREDHSTKEKPFFVDKKDEHSSRPNNISVNGGTNYYSIDQVDTFKNAIMQQMAYQAKAYNATLTSSGSTTTNGYPLLRFNMEAKDQKAIQYYIMGDHKYVMIYATIFESEYEDSVIEAAEYIANSFVWE;locus_tag=LOCUS_6330;note=MGA_652
sequence21	MetaGeneAnnotator	CDS	3700	4641	.	-	0	ID=MGA_653;product=NAD(P)H-dependent glycerol-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002289572.1;translation=MSRVAVIGSGSFGCVLANLIKENGHEVKIWSFSEEEKEAINEYHYCRYIQGHINEDVKCTTSIEEAIKDTDLILIVTPSFAVRNTCKEIAQTIGNQQVIIASKGLEGDKVLSEVAKEELNREIGVISGPSHAEQIYVEKPTYFDYYGPEEYKRVFQNNYITLEDCNDPLGMQLGAALKNIIAIGYGKAHGLNQDTNTTSAYLSKAFREMISIGTALGAKPETFLGFSGLGDLLTTVGSLDSRNLKCGILLGKGKKLEEIKNEVGMTIEGLNALDSAYKVIEEHNLDCPEITSLYYQIHQDDVYKNDKSLNKIF;locus_tag=LOCUS_6340;EC_number=1.1.1.94;note=WP_002289572.1 NAD(P)H-dependent glycerol-3-phosphate dehydrogenase (Enterococcus) [pid:36.4%25%2C q_cov:96.5%25%2C s_cov:92.7%25%2C Eval:9.8e-52],MGA_653
sequence21	MetaGeneAnnotator	CDS	4647	5984	.	-	0	ID=MGA_654;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002379284.1;translation=MNDTICAISTAVGVGAISIVRVSGEDAISIVNKIFDRDLTKMDSHTINYGHIVDGNEIIDEVMVSIMKAPKTFTKEDIVEINCHGGISSTNKILELLLTNGARLAEPGEFTKRAFLNGRIDLVEAESVMDMIDAKTENARKLAMNGIEGKISNLIHEIVDKLYDINSNIEVNIDYPEYEDIEVMTESQIQEVSKFIDEKLKKLLTESENGKIIKEGINTLILGRPNVGKSSILNKLINEDKAIVTDIAGTTRDIVEGQIRVGGVLLNIIDTAGIRETEDVVEKIGVEKSLNLIKDANLIILVLNNNEPLTEEDKKLLEITKDKKRIIVVNKIDLETKLDTTGLDVVKVSATKDIDILKDKISDLYNLEELNNKELTYLSNSRQISLVKKAISINNHLMESFNSGIPIDILEIDIKEICETLNEIIGESYDDKLIDRLFANFCLGK;locus_tag=LOCUS_6350;gene=mnmE;note=WP_002379284.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE (Enterococcus) [pid:52.1%25%2C q_cov:99.6%25%2C s_cov:98.3%25%2C Eval:1.4e-132],MGA_654
sequence22	Aragorn:1.2.38	tRNA	33	108	.	+	.	ID=Aragorn_16;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0160;note=Aragorn_16
sequence22	Aragorn:1.2.38	tRNA	185	261	.	+	.	ID=Aragorn_17;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0170;note=Aragorn_17
sequence22	Aragorn:1.2.38	tRNA	271	347	.	+	.	ID=Aragorn_18;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0180;note=Aragorn_18
sequence22	Aragorn:1.2.38	tRNA	425	515	.	+	.	ID=Aragorn_19;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0190;note=Aragorn_19
sequence22	MetaGeneAnnotator	CDS	568	1431	.	-	0	ID=MGA_656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLSVGLLITGLLITGCSQINNMDNITIYTSSYPIEFVTNKLYGDHSKIFNMYPQGIDSNKYKLTDKQVSDYAESDLIIYNGLSNEQKYIVKMINKNNKLKIIDSTSKIEYTSSIDEIWINPSNLLKISKNIKDGLNEYITSTLVSEEINENYESLKVEISTIDAELKEMVENSNDKVMVTSTDKLNFLSKYGLTVYSLDEKTLNDKTLSDAKKAISGGSVKYIYMFKGEEKSETVKKLLEDNSSLTVVEIDNLSNISTEDKNDGKDYISIMNENIDKFKQELY;locus_tag=LOCUS_6360;note=WP_011921705.1 zinc ABC transporter substrate-binding protein AdcA (Streptococcus suis) [pid:21.2%25%2C q_cov:97.2%25%2C s_cov:59.8%25%2C Eval:4.6e-13%2C partial hit],MGA_656
sequence22	MetaGeneAnnotator	CDS	1428	1652	.	-	0	ID=MGA_657;product=membrane protein insertion efficiency factor YidD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016065.1;translation=MKHVMIGLINIYQKIPGNFHNSCRFTPTCSEYSKISYERFGFFKGTYLTIKRLFRCTPWNKKFGYDPVPNKEEK;locus_tag=LOCUS_6370;gene=yidD;note=WP_011016065.1 membrane protein insertion efficiency factor YidD (Fusobacterium nucleatum) [pid:46.7%25%2C q_cov:100.0%25%2C s_cov:90.2%25%2C Eval:2.5e-12],MGA_657
sequence22	MetaGeneAnnotator	CDS	1747	3681	.	+	0	ID=MGA_658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNDGLTTGKKAVIISLLSVIAVLLLVVAIVLPTSSKRRVVNSRTIMIFMAGNNLETNNAIASSDLSKIIPESIDLDKTKVLLYTGGTKRWHNFVSSEEEAIYELTNNGFVKLQTFTKSNMGYDAALAQFLNYSYNYSKTDGYDLIFWDHGLGALGSISDENTNDFLDLSEIKTAFERSPFNENNKLETVVFRTCLNATLEVASTIYPYADYMVASEETTIGANGYGVLDFINNVTVDNDGLEYGKTFIASYQNQIEALKFYGETVSSYSVVDLSKIPELLNEVDDFFGTIDVNSNYNELARMRSSMYQYGESEPGVSDYDTVDLYELIDNLKKYNTKGAEKIQKTLKNDVVVFNWATTEHSNGLSIYYPFSGRTTAKALHFALYDKINVSNNYKKFITDFDNGQTSSSYTFSFDLSKNETSHKGDEFKLKLNKEQIENFGSASYIIFKKNDDGTFTNIYVGKDAKLDDDGYVTTNISNNLITIVDDNDKSKSYPIVWQAESASKDYREYIIPVTLNRTNDEGWPILENANIHLKVDKKNKAHISEVLLQEKGDDINKASGTHVDLKNYSSIDFYLFRYNILDSNGNYTSEWTSNNTLYMFEVNDNKYHFEVTSIDNKEDYYCVFVIKDVQNKGYYSNLISMK;locus_tag=LOCUS_6380;note=WP_011023898.1 clostripain-related cysteine peptidase (Methanosarcina acetivorans) [pid:26.1%25%2C q_cov:64.0%25%2C s_cov:63.2%25%2C Eval:1.5e-24%2C partial hit],MGA_658
sequence22	MetaGeneAnnotator	CDS	3694	4734	.	+	0	ID=MGA_659;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFCKNCGNELNNNDKFCKNCGSTNDQYVETPVVEEPTDNTFMNTQPFSIDEVAQKVEENKEAEMSTPVVETPTVEEPIAATSVEPAVEVPTEPVVEAPAPTISSTPIEPVINTPQKKSNVGFIIILITLIVIILGLGGFIGYKLFSGKTDTPTVTPSNNNQNNNNNNQNNNQNNNQNNNNNNNTQKDETYSTVGYTFTIPTGYSKIDEGGSIRVGDSKFQFRVMTTITQYTYANYKSDLEASANEIKKVWGADGASYISSSEQTYNGKNFLIFSFVYQGTYNDAILTELPDGTLLCVVAYYNDLSSKTEGYNNLAKFVKSAVKDTNSSFSGDSKVEFKSSSIEKID;locus_tag=LOCUS_6390;note=MGA_659
sequence22	MetaGeneAnnotator	CDS	4798	5451	.	+	0	ID=MGA_660;product=ribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287896.1;translation=MNTFEKYNIDINNKLYEQAFTHSSYANENDTVDYERLEFLGDKILDFIVSEYLYVNENLEEGEMTKLRASYVCENALNEYSKELGLDEYLKLGKGEESTGGRSKPSIIADLFEAFLAATYLNYGLDKVKEIVYDIVIPFIEGNHHEFLKDYKSILQEYVQTDKKSTVYEVINEEGPANEKIFTVTVKVDDIVLGTGTASSKKEAEQLAAKDALNKAN;locus_tag=LOCUS_6400;gene=rnc;EC_number=3.1.26.3;note=WP_002287896.1 ribonuclease III (Enterococcus) [pid:47.0%25%2C q_cov:96.3%25%2C s_cov:94.3%25%2C Eval:1.0e-47],MGA_660
sequence23	MetaGeneAnnotator	CDS	1384	2565	.	-	0	ID=MGA_663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADTYTVKNKKQGFFGKMGNSFASIPLGIVIVIFGCMMLWNNEKKNVINIKDVKEMRENIKTISSEEVNSDYEGKLIATYGKLNYGDSYLVDSTFGISVKTPILKRTVEMYEWIETSETKDEETTYSYSKEWSEKVVDSSNFKKSSDHTNPTYMPYDSEKYLVDSLKVGAYDLASVFKGKLSAEKDLLNLEPGVALPEGYTVNGKYITNSKDVENPEVGDIRISFTYGEYDDVTVLGKQTGSKIGEYTTKKNSTIVRLEKGEHDGNYLINSIESGNKFSKWMWRILGAILVCMGMSMILSPLTTLIGYIPFLGKIVNGAIGVVSSTVGIAISLVVIAIAWLVYRPVIGVALIVVSVGLIILAKKYVSKKDDGKKPETKEEVKEEKEEENKEEN;locus_tag=LOCUS_6410;note=MGA_663
sequence23	MetaGeneAnnotator	CDS	2632	4614	.	-	0	ID=MGA_664;product=NAD-dependent DNA ligase LigA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003233916.1;translation=MDKYKQRIDELIKKINKASYEYYVLDNPTITDQEYDDIYMELLALEKEYPELKREDSPTNRVGGEALDSFKKVTHKTPMLSFDDIFNEEEIESFDERIRKQISNPCYTLEPKMDGLSGSLIYEKGILVRAATRGDGVTGEDITLNVKTIKSVPLRLTKDIDIEVRGEIYMSKASFEKLNKKNEAEGIKLFANPRNAAAGSVRQLDSKITATRDLDFMAYFIPNPEDYDIKTQKETMEFLRDLGFVTNIKLNGYASSSKEIFKYIEELGKKRESLPFAIDGVVIKVDSLEDEDILGFTARVPRWGIAYKFPAVQVLTTLNEIKYTVGRTGKVTPNAIFNPVHVDGSLVSKATLHNFDYIEAKDIRVGDIISIRKAGDVIPEVVEVVLDRRENNLPKTVMIDTCPICGSKLVKKDANHYCVNEHCSARHIESIEHFVSRDAMNIDGFGERIVEDFYNEGFIKDVTDLYHLDKHKKDLMSMEGFGEKSITNLLDSIENSKSNSLERLLFALGIRYVGKKTAKILAIHYKTLDSLKEALYDELKDINDVGDIIAKSIVDYFSDEKNITIINKLKDIGVNTNYLGKEVNTKSKVFGKTFVITGTLSKPRDEYKEVLESLGANVTGSVTKKTDYVLVGENPGSKYDKAKELGITIISEEEYNDLIL;locus_tag=LOCUS_6420;gene=ligA;EC_number=6.5.1.2;note=WP_003233916.1 NAD-dependent DNA ligase LigA (Bacillus) [pid:49.1%25%2C q_cov:99.1%25%2C s_cov:99.0%25%2C Eval:3.2e-179],MGA_664
sequence23	MetaGeneAnnotator	CDS	4680	5579	.	-	0	ID=MGA_665;product=nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011203586.1;translation=MQLLIMAAGMGSRFGGLKQIAPMGPNEEFIIDYSIYDAIKAGFSKVVFIIKEENYEVFKDTIGKRVEGKIPVEYAFQRMDDIPENVQIPKERVKPWGTAQAIYAARNNITEDFLVINADDFYGRDAFMTASDFLKSDSECKYATVGYEAKNTMTENGSVKRGVIESENGNLIDIIESKLEFEDDGQILASPLDGSTPFHIEGSRLVSMNMLTLDTSIFPLLKERMEKFFEDNKDNLEKCEFLIPTELGEAVKRGEKEVKVLRTSAKWHGVTYKEDTEEVRNAIKKLVLTNEYPNNLWNE;locus_tag=LOCUS_6430;note=WP_011203586.1 nucleotidyltransferase (Bacteroides fragilis) [pid:43.0%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:2.0e-59],MGA_665
sequence24	MetaGeneAnnotator	misc_feature	1	2195	.	+	.	ID=MGA_666;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_002678883.1:ribonucleoside triphosphate reductase,WP_002678883.1 ribonucleoside triphosphate reductase (Treponema denticola) [pid:64.1%25%2C q_cov:81.6%25%2C s_cov:83.6%25%2C Eval:8.2e-232],MGA_666;locus_tag=LOCUS_6440
sequence24	MetaGeneAnnotator	CDS	2197	3099	.	+	0	ID=MGA_667;product=thioredoxin-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003434033.1;translation=MIYDAIIIGGGPAGLTSALYLLRDGRKVLIIEKETVGGTASSTPLIENYPGFKAISGSDLTSIMFDQVDELGVDFEIEEVIDINVDGDIKEVITEDNTYKTKTIIIASGSSYRTLNLPHEEELIGHGIHFCVACDGPFYKDKNIAIVGGGNSACINAYSMSNIAKHVTILQNLDKLTCEQDLANKLEKCKNVDIKYNCSVKEYLYDGDTLTGLKVEVDGKEETLTLDGVFLNIGLVPQSKFVNGKLELDKRGYIVSEDSTTKVPGVFVAGDSRTKKYAQITIATADGTIAALDAINYLNK;locus_tag=LOCUS_6450;gene=trxB;EC_number=1.8.1.9;note=WP_003434033.1 thioredoxin-disulfide reductase (Clostridioides difficile) [pid:40.8%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:2.7e-59],MGA_667
sequence24	MetaGeneAnnotator	CDS	3454	5559	.	+	0	ID=MGA_668;product=DNA helicase PcrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002457083.1;translation=MGTLENLNNKQIEAVKELDGPMLILAGAGSGKTRVLTTKIAYLLDARDISPTNILAITFTNKAAKEMKERIYDLIGREAFRLQISTFHSFGLKLLKENYDRLGLDKNFNVLDSDDSLTLVKKIMKNFDLDTTKFSPKAIRNIISSNKNEMISPEEYHKFVYTDFDEIAEKVYTEYEKNLRRSSVVDFDDLLILPIKLFDQNKDILMKYQEQYKYVFIDEYQDTNRPQYILSKMISAKYKNITVVGDADQAIFTWRGADYKNILNFEKDYPNSKMVVLDENYRSTKKILEAANRVIVNNKMRKEKDLWTSNEEGENIVYYRAFDEMDESNYVIKEVKNLLDKGVSPKEICILYRANAQSRNVEDAFLRNNISYRVVGSFAFYSRKEIKDLVAYLKLINNPKDDVSLLRIINYPKRGIGLKSIENLELEASNTNKSLFECISSGKELAFKNIIEDLIKAKETMSLTDFIDLVLNKSGIKEDLENEKTLEADIRLENLEEFKSITKSVEDNDGIVSLSDFLDELSLVSDVNDQKNDVNDDKVSLMTIHSVKGLEFDYVFIVGVEEGLFPHINSMESKDELEEERRLAYVAITRAKKKLYIINARSRLIYGKVDSNVPSRFIAEMGDDLIDSIKKDGIIKDTKGKNENRCVEKDNDLKPGDVITHEKYGMGVVIDIEGPIATISFAKDGVKKILKNHKSISKINN;locus_tag=LOCUS_6460;gene=pcrA;EC_number=3.6.4.12;note=WP_002457083.1 DNA helicase PcrA (Staphylococcus) [pid:43.5%25%2C q_cov:99.1%25%2C s_cov:98.9%25%2C Eval:4.1e-172],MGA_668
sequence25	MetaGeneAnnotator	CDS	366	1487	.	+	0	ID=MGA_670;product=DNA polymerase III subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003242509.1;translation=MKFSIKKEILLESLNIVSHAISSKNIIPVLGGIKFDLKKDGLYLEASDNEIDIKTFIDKKMIDSIEKEGSIVVQGKYLLDIVRKLPDVLINIEVVDGLKILIYTNNSKFNLNGIDSDEFPDIKIEKSSNPISISKKLIKQLVNQTIFATSSQETRPILTGINFKIDKDVMEVVATDSYRLAKKTIKLDKAVDNVINIVVPSKNIGELIKIIDDSDDEIKIHIFTNKILFEINDIYFQSRLLNGNFPDINRLIPTEYKIVVKASTSDLYDVVDRASLLTSEKEKNVIKFEINDNELIVTSNTPEIGKVEERLNISNETGNDLSISFSAKYMLEALRTISSNNVKISLNGEINPIILTNEENDDLIQLLLPIKTY;locus_tag=LOCUS_6470;gene=dnaN;EC_number=2.7.7.7;note=WP_003242509.1 DNA polymerase III subunit beta (Bacillus) [pid:40.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-79],MGA_670
sequence25	MetaGeneAnnotator	CDS	1574	2023	.	+	0	ID=MGA_671;product=competence transcription factor ComK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245329.1;translation=MNIYEINKNTLAIIPIGYNRSKVIEKDNEFVVNMEPLSIIKYSCEYFGSTYEGRHAGTKSIMNITHKSPIIIEESHNLICFPTTSPRLTGCSWIILNNIKSFNGNHESTDIIFDNNYVLNIGISINSFENQVHRSYMLESLLRKRIENY;locus_tag=LOCUS_6480;gene=comK;note=WP_003245329.1 competence transcription factor ComK (Bacillus) [pid:41.6%25%2C q_cov:97.3%25%2C s_cov:77.6%25%2C Eval:5.2e-28],MGA_671
sequence25	MetaGeneAnnotator	CDS	2171	3262	.	+	0	ID=MGA_672;product=DNA replication/repair protein RecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002288363.1;translation=MFLRKIELKNFRNYEDLKLEFNKNINIFIGNNAQGKTNILESIYFLAVTKSHRCNKDNYLIKNDCIFSKIVGEVENNDRKNTYEIVINNEGKRVSINNNVFKRISDYLSNINVVMFCPDDLEIIKGTPSDRRKFLNIEIGQISNEYIIYLTKFNKVLKTRNEYLKNEHNIDFNYLDILTDELIDLNIKLYKYRKEFINDLNNYIVNIYKKISLKEDIYVKYESFIDNEEDIVEDLREKYLRVRDSELNQKTTLIGVHRDNFSIYIDGKEINNYGSQGQHRVAILCLKLAEIEIYKQKYNIKPIILLDDIFSELDKKKKINIIKYIDKDLQIFITSTDLHSISKRITKNADIFYIEEGKVKLGE;locus_tag=LOCUS_6490;gene=recF;note=WP_002288363.1 DNA replication/repair protein RecF (Enterococcus) [pid:38.5%25%2C q_cov:99.2%25%2C s_cov:98.7%25%2C Eval:2.5e-73],MGA_672
sequence25	MetaGeneAnnotator	CDS	3264	5183	.	+	0	ID=MGA_673;product=DNA topoisomerase (ATP-hydrolyzing) subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000435982.1;translation=MAQDKYDASDIQVLEGLEAVRKRPGMYIGTTDVKGLHHLVWEIVDNSIDEALAGFCNHIEITINKDNSVTVQDNGRGIPVGIHAKTGISTVETVYTVLHAGGKFGGGGYKVSGGLHGVGASVVNALSSWVDVQVKRDGKIYECKFENGGKTKQALTEVGTCDAEDTGTKVTFKPDASIFDSEIYDYETLRVRSRELAFLNKELRITLTDERVEPAKQDTFMYEGGIIEYVKYLNKNKTPIHENVIHLEGEEDGVMFEVAMQYNSGYNTDSIYSFVNNINTHDGGTHEEGVRRALTRIINNYAKKNGFLKDKDESLTGDDVKEGLTMIISCKHPNPQFEGQTKGRLGNSEVRKLADSVFSEGFERFLLENPEEAKIIVDKAMTASRARVAAKKARELTRRKSDLDVVNFGGKLVDCKEKDPSVCEIFLVEGDSAGGSAIKGRNSMTQAILPLKGKILNVEKARLDKALSNEEIRTIITAFGTGIGNEFDLSKLRYDKIIIMTDADVDGSHIRVLLLTLFYRFFRPIVEAGHVYAAQPPLFRITHGKTRKYVLNEEERDTYLASLPENTRPEIARMKGLGEMDAEELEETTMDINQRILRKITVDDLTEADAAFSKIMGEEVEPRRQFIEENAVYVENLDI;locus_tag=LOCUS_6500;gene=gyrB;EC_number=5.6.2.2;note=WP_000435982.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Bacillus cereus) [pid:60.5%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:7.3e-221],MGA_673
sequence26	MetaGeneAnnotator	CDS	1374	1745	.	-	0	ID=MGA_676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFENFIYNGQLLPEYCDSIGIHIQIIKHFYRKLRRTLKYKKKSNEELLTYILDNLDDLIKKMKYKLWYHNMPLMIWCQINTKYSYDTLVAIISIEQEKDPSRTVDDILDEFFANEHRRSIRD;locus_tag=LOCUS_6510;note=MGA_676
sequence26	MetaGeneAnnotator	CDS	1747	2361	.	-	0	ID=MGA_677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFVNIEATIILSKVIIDNLPLPEYCVEHKYDFNKIVEGYVRQRKFRSLDNRDEKELALRLMKNQDCKRKHSPECRIKVHGMTTAEFAELKGVPVGTLRKSLTTGHLYYPEKSYDQLADEFVIRYKFNKSRFLYRGLTLTEVYSSTGVYIPLKDVIKMYTEEYDGNDNRPFQVITDEIVDRVLGMSIKKRILEKKKEAFAEVVA;locus_tag=LOCUS_6520;note=MGA_677
sequence26	Aragorn:1.2.38	tRNA	2464	2540	.	-	.	ID=Aragorn_20;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0200;note=Aragorn_20
sequence26	MetaGeneAnnotator	CDS	2601	3161	.	-	0	ID=MGA_678;product=elongation factor P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003699839.1;translation=MMIDINDIKNGMTVIIDGQIYQIVDFLHVKPGKGSAFMKMKLKNLRAGTTLEKTMNTNIKLEKANITKVQMSYLYSTGDEYVFMDMNTYEQVTLPEKQIEDEAKFLKENLEVELVYFNDELLGVNLPDKIDYKVVSTTDAVKGNTSTNAQKDAELENGLTIKVPLFINIDDEVVVSTSDGKYVSRK;locus_tag=LOCUS_6530;gene=efp;note=WP_003699839.1 elongation factor P (Ligilactobacillus) [pid:49.5%25%2C q_cov:98.9%25%2C s_cov:99.5%25%2C Eval:5.2e-52],MGA_678
sequence26	MetaGeneAnnotator	CDS	3164	4066	.	-	0	ID=MGA_679;product=L-lactate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003234685.1;translation=MKKVAIVGLGNVGTGYLNALITEPNLVNEIVLIDTNKDKLEGEFLDVSDSIAVINSSIKVYIGSYADVKDADILVICAGKNQDKGETRLDLLNINAKIVKSITENAILNGFKGIFVIATNPVDVMSYLVYKVSNMSPNRVIGSGTILDTSRLKNIIKEKTNMSTNDININVIGEHGDNLVILWSKGTVNMIPINEIFSDIEIGIMDEKLRNSAYEIINRKGYTSQGISLSLLEITKAILNNENKVLNISTYYKGIYIGMPSLVNIDGVKGVVNFDCSEKEKNDIERSISVLKNAIDDMEV;locus_tag=LOCUS_6540;EC_number=1.1.1.27;note=WP_003234685.1 L-lactate dehydrogenase (Bacillus) [pid:41.0%25%2C q_cov:98.3%25%2C s_cov:95.3%25%2C Eval:1.5e-65],MGA_679
sequence26	MetaGeneAnnotator	CDS	4086	4274	.	-	0	ID=MGA_680;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008630505.1;translation=MASKSKDARRYVALECSECKKRDNVSRENFFVQKNTHNTTDKLNLSKYCPVCKKHTEHIEKK;locus_tag=LOCUS_6550;gene=rpmG;note=WP_008630505.1 50S ribosomal protein L33 (Thermus) [pid:46.6%25%2C q_cov:93.5%25%2C s_cov:96.3%25%2C Eval:1.3e-08],MGA_680
sequence26	MetaGeneAnnotator	misc_feature	4350	5079	.	-	.	ID=MGA_681;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_000449069.1:protein-ADP-ribose hydrolase,WP_000449069.1 protein-ADP-ribose hydrolase (Staphylococcus) [pid:40.7%25%2C q_cov:97.1%25%2C s_cov:90.6%25%2C Eval:9.5e-43],MGA_681;locus_tag=LOCUS_6560
sequence27	MetaGeneAnnotator	CDS	175	1734	.	-	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKYLLIALLLMIPITSKAAVYHCSAPGQVVSGQNFTVRFYGSLSSNSATWSGTVFSEGNARYVSGGTSIWYDGANFSKSVTYTATNPGTARFYVGNIDVSDENQEYSGSDSCTVTIVAASSSNTSSSRVQGNVSQNKKSNDPKKSSDNALKKLEVEGVTLDPEFGADTLEYTATVEGAKDKINIITETNDSKANVDGDGEVELVEGFNEIIVTVYAENGDAREYKLKITREELNPIEVMVNGKKYRVVKKEVEDNIPEGFEKETITINEQEVVAYSNGKITLVLLVDEEGNTSFFKYDAKKSSYSEYAVFNSEVIKIILSDPKKEDIPYGYKRITFTIDGKKVTGYYYKAKDKFRLVYGINESDGKGGFYLYDMDQKTFQRFYDTQTKEYLVYLRYGMYIAAGVALLILILFISIISLVRKNHKLKKNIKPEIKEEVKKTEVKKEEPRPLTRAERLKLKEEAKAKEVKEEKKEDKQETEVFKEEDIKPVKEDTREAKRLQKEEEKKRKEEANNFLK;locus_tag=LOCUS_6570;note=MGA_682
sequence27	MetaGeneAnnotator	CDS	1745	3709	.	-	0	ID=MGA_683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTVKIIMSLIILFSVFTPFINTSKAMAERYTYAYINATDLSVRACPSTDCERIKHDEGKTIWLDRPRVVEVLATSGDWSQIRFNYWGFTYTGYVMNKYLGNKQTYTLNQDYANELRRKGFPESYVEALCKMHAVHPNWNFEVSRVDATLDEATNGEYSPINKNLISTTNKAQLSTDPGAYSNGVYTQFEPGWYAPSWETLRYYLDARNFLDDNSIFMFEQLSFNETQNASVVQNILNGSFMAGTYTYNGTQKSYAETFVEAGRTYGVSPVHLAARVLQEQGYKGSATTEMDGGDGKKYYNYFNFGASGSTLEQIVQGALTYAKNRNWDSPYASIMGGAKGIANGYITSGQDTVFYEKFNLVGSSRYWHQYMANIQAPYRECYTTYISYWKAGLTDLAFTFKIPVYKDMSAGTVIPTKSNNANLKELNYNTGILYPAFDSSITEYTLEVSSNTNSVDITGVKDDDKARVDGNGTVTLNGNETVKEIIVTAEDDTERKYTITIKKKSASEETTEDIIRYSGLSTKESNISGFEIGTSVENIINSIKNKNINVTVKLYDSSNKEITSGTISTGQKITINLNGLVKTFDVIVYGDTSGDGRISTLDYSKVKAHIQNTKALEGVFLTAADTSKDGRISTLDYSKIKAHIQNTQSLVQ;locus_tag=LOCUS_6580;note=WP_001830727.1 N-acetylglucosaminidase (Staphylococcus) [pid:26.1%25%2C q_cov:40.8%25%2C s_cov:82.7%25%2C Eval:2.0e-11%2C partial hit],MGA_683
sequence27	MetaGeneAnnotator	CDS	3826	4200	.	-	0	ID=MGA_684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIISNNSVKIFNFIKWPISIIVIYFTLKVIYVLAPNKSINSKSVTKGALFTTVLWIIFTTIYSLYSMNISPYTTYFGSASSIVVLMIWIYAMAFIFVVGMIINAVEEKHNYVDLEKTLTSIIR;locus_tag=LOCUS_6590;note=WP_003242564.1 YihY family inner membrane protein (Bacillus) [pid:35.6%25%2C q_cov:81.5%25%2C s_cov:36.7%25%2C Eval:2.1e-16%2C partial hit],MGA_684
sequence27	MetaGeneAnnotator	CDS	4157	4597	.	+	0	ID=MGA_685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNILTLLFEIIVILGSSDNISKNLLPTIKIIIKNTNKNNNIIVIKIDLIIFLYRLVLTLYIFEATIIIAFVPHDIKYNADINRNTILILSAFPEKSGITNSLVLAGNEILRKSIKLAIENENVLAAIPINNIIGIAESRKKKAR;locus_tag=LOCUS_6600;note=MGA_685
sequence28	Aragorn:1.2.38	tRNA	59	135	.	-	.	ID=Aragorn_21;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0210;note=Aragorn_21
sequence28	MetaGeneAnnotator	CDS	206	547	.	-	0	ID=MGA_687;product=CvfD/Ygs/GSP13 family RNA-binding post-transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287231.1;translation=MKVNEIVKVEVTSIKPYGAFIKSGNYTGLIHVSMINGNYIKNINDYFYVGQELYAKVTEVDDKSKHISLSLKELGLHLNEKENKLYETKKGFATLEKMLPDWIEETLEELENK;locus_tag=LOCUS_6610;note=WP_002287231.1 CvfD/Ygs/GSP13 family RNA-binding post-transcriptional regulator (Enterococcus) [pid:44.4%25%2C q_cov:99.1%25%2C s_cov:94.4%25%2C Eval:1.0e-18],MGA_687
sequence28	MetaGeneAnnotator	CDS	637	879	.	+	0	ID=MGA_688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIIDHIKYIIEKIRPYMIGDGGDVQFVKYEDGIVYIKISGACADCALADTEITDTVETILTSEIPEVIAVEVVKEKKED;locus_tag=LOCUS_6620;note=MGA_688
sequence28	MetaGeneAnnotator	CDS	889	2436	.	-	0	ID=MGA_689;product=ribonuclease Y;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003721904.1;translation=MDKEFLISSIIGLLIGVVITAIVCFIISRINNKKSDKIIDKAKKEAEKYKRDAVLELKEEQHRLKQEFEKELKDKKEEAKEIEDRLQQRENGIERRDQLLQDREKMLSDKENGLIQRQKEIQKLEDKANEIVKEELQRLEEVSGLSKSDAKKMIMDKVKETMSKEIASYIKEEENKAKLDVDRKAKDLLVSTMEKFSSDVTNEATVSVITLPNDEMKGRLIGREGRNIRTIEAVTGVDLIIDDTPEAIVISSFDPLRREIAKVTIEALIKDGRIHPGRIEELYDKTCEDFKTKIREKGEEALFKLKLGTMDPELVYTVGRLHYRTSYGQNVLQHSIEVANLCGIMAGEIGENVTLAKRAGLLHDIGKAIDFEVEGSHVDIGADLAKKYKEDPVVLNAIMSHHGDCAQTSIISALVQIADSISSSRPGARNDSLENYIKRLEQLEEIANSHDGIDKTYAVQAGRELRVVVKPEKIDELGSVTLARTIKDEIEEKLQYPGTIKVIIIRETRAIEEAK;locus_tag=LOCUS_6630;gene=rny;note=WP_003721904.1 ribonuclease Y (Listeria) [pid:52.5%25%2C q_cov:95.3%25%2C s_cov:94.4%25%2C Eval:4.4e-149],MGA_689
sequence28	MetaGeneAnnotator	CDS	2538	3548	.	-	0	ID=MGA_690;product=recombinase RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001283860.1;translation=MAKEINKDQEQILSQVMADIEKQFGKGSIMRLGGDAKMEIDTVSSGSLALDIALGVGGYPKGRIIEIFGPESSGKTTFALHAIAEVQKLGGRAAFIDAEHALDPVYAKNLGVNIDELLLSQPDTGEQALEICDALVKSAAINIIVIDSVAALVPQAEIEGEMGDSHVGLQARLMSQALRKLAGTINKTNTIAIFINQLREKVGVLFGNPETTTGGRALKFYSTIRMDVRKAEAIKMGENIVGNYTKVKIVKNKVAPPFKSANIEIMYGTGVSKEGEIIDIATEDGILEKSGSWYSYNGEKLGQGRESVKAVLKENTKLRDELENKIRAKHDLKPKK;locus_tag=LOCUS_6640;gene=recA;note=WP_001283860.1 recombinase RecA (Bacillus cereus) [pid:72.9%25%2C q_cov:96.7%25%2C s_cov:94.8%25%2C Eval:4.6e-135],MGA_690
sequence28	MetaGeneAnnotator	CDS	3710	4318	.	-	0	ID=MGA_691;product=CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002365382.1;translation=MSKAPSPKLPNRLTIFRLILAVVVIILFLFPYDMIGYNFPKYLINGVAILDVKLVICAVLFIVASITDFFDGKIARKYNYVTNFGKLMDPIADKMLVNSLLIILAGEGYIATIIPVIIISRDIVVDGVRMLLTEQGEVLPAGKLGKFKTAFLMIGITLKLVGNLPFSLWNLPVADFLIITATVLSLISGIGYYMGAKKFITK;locus_tag=LOCUS_6650;gene=pgsA;EC_number=2.7.8.5;note=WP_002365382.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Enterococcus) [pid:38.9%25%2C q_cov:91.6%25%2C s_cov:93.2%25%2C Eval:3.5e-31],MGA_691
sequence28	MetaGeneAnnotator	CDS	4315	4797	.	-	0	ID=MGA_692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIGEELREKRESMGLSLEEAASDIDYKASQLKAIEEGNFKDFKDKFLLKTIIVDYAKYLGLETEDIIDEFNDFVFESTSKIPLNEIAKASKKLEKMDNGKIASPYTNTEANRKNYIKYIVIGLLAILFLCAAIFIINMIVDNNSNSNFDVSYVERINL;locus_tag=LOCUS_6660;note=MGA_692
sequence29	MetaGeneAnnotator	CDS	274	987	.	+	0	ID=MGA_694;product=3-oxoacyl-ACP reductase FabG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868772.1;translation=MVVLVTGSSRGIGRATILKYAKEGYDIVINYIDSLEDAKKVEEEAKKYGVNTLIVKCDISNEEEVINMMNTIKDKYGKIDVLVNNAGIAIDTTFEDKTVENFRKTINVNLIGTFIVSKHVRSIMDKGVIINIASTNGIDTTYPESLDYDASKAGVISLTHNLAMQYAPDIRVNAICPGWVNTDMNKDLDPELIEEETKKIKLGRFAEPEDIAEAVYNISISKYINDAIIRVDGGEVA;locus_tag=LOCUS_6670;note=WP_010868772.1 3-oxoacyl-ACP reductase FabG (Pyrococcus abyssi) [pid:45.2%25%2C q_cov:99.2%25%2C s_cov:96.7%25%2C Eval:1.7e-44],MGA_694
sequence29	MetaGeneAnnotator	CDS	980	2209	.	+	0	ID=MGA_695;product=methionine gamma-lyase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435270.1;translation=MLDFETIVSNEEYELRDIYEKIDNICLFNSNKVLKAFKDNNVSENCFNSTTGYGYGDIGRETIEKVYASIFKAEDALVRSQFISGSHTLTVCLFALLRPNDLLLSISGTPYDTLHEVIGIKKNDSSLMSYGVKYDQIELINDDFDYDKIKEYLINNKIKVIEIQRSKGYSTRKSISVDKIEKVTKLIKEISPETIIMVDNCYCEFVNKKEVIEVGVDIACGSLIKNLGAGIAPNGGYIVGKKDLIKLCAERLTLPGEGKEVGPTLGNNKAILQGLFLAPSVVRNALKTAILTAKVMESYGYEVEPKYNEERVDIVQNIIFHDRDKLIKWCQGIQKGSPIDSNVIPVPAYMPGYDDDVIMASGSFTQGSSIELSCDGPLREPFSAYQQGAMTYEYGKLGLISALMELENE;locus_tag=LOCUS_6680;note=WP_003435270.1 methionine gamma-lyase family protein (Clostridioides difficile) [pid:48.6%25%2C q_cov:98.3%25%2C s_cov:94.8%25%2C Eval:9.3e-112],MGA_695
sequence29	MetaGeneAnnotator	CDS	2202	2453	.	+	0	ID=MGA_696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEIDRIIQDVFEENQLEKINDKLYLTKRQIDILKRNDIEYKSKSIDQLIFELEDILNYEENEELDRLSSELSEFNYYHNTNK;locus_tag=LOCUS_6690;note=MGA_696
sequence29	MetaGeneAnnotator	CDS	2463	3023	.	+	0	ID=MGA_697;product=guanylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003699957.1;translation=MRGKLIVVSGPSGVGKDTVVSEYIKRNNNTYLSISCTSRPIRDGEQDGVNYIFLSREEFEERINNGDLLEYAEYNDNYYGTPKYKMEEELNKGKDVILIIEVQGALKVMDIYPDALFIFILPPSMDELEERLINRGTDSIESINKRLETAKKEIEISPKYDYRIINDNLDRAVLELETIIQKEKTE;locus_tag=LOCUS_6700;gene=gmk;EC_number=2.7.4.8;note=WP_003699957.1 guanylate kinase (Ligilactobacillus) [pid:51.6%25%2C q_cov:98.4%25%2C s_cov:89.8%25%2C Eval:9.1e-49],MGA_697
sequence29	MetaGeneAnnotator	misc_feature	3034	4302	.	-	.	ID=MGA_698;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_004398589.1:PBP1A family penicillin-binding protein,WP_004398589.1 PBP1A family penicillin-binding protein (Bacillus) [pid:38.5%25%2C q_cov:51.7%25%2C s_cov:24.5%25%2C Eval:6.2e-34%2C partial hit],MGA_698;locus_tag=LOCUS_6710
sequence30	MetaGeneAnnotator	CDS	923	1360	.	-	0	ID=MGA_700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLKEKTIEELEQMSYTDIAYEVIKEKGKKFNTPNLFKEVCKLLKLDDAEFEEKIGDFFTALTTDGRFILINSSLWDLKENHKANIVVDDEEEETEDVEKSEEDEDDVVSDDLEDDYSDEATDDSDNDEDDFNELTIIDEEDLDE;locus_tag=LOCUS_6720;note=WP_003658743.1 DNA-directed RNA polymerase subunit delta (Lacticaseibacillus paracasei) [pid:31.6%25%2C q_cov:54.5%25%2C s_cov:35.4%25%2C Eval:8.1e-07%2C partial hit],MGA_700
sequence30	MetaGeneAnnotator	CDS	1370	3061	.	-	0	ID=MGA_701;product=arginine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003436885.1;translation=MIDIKQIISSLIEKEINIDVYDYIKEIEDSSKGDYAFPCFSLSKEMHKSPVDIANELVEKIKDERIDKIESVNGYLNFFINREYLAKFVLSEYDNDKENYGREKHSETVLIEYSSPNVCKPFHIGHMRTTLIGHALYNIFKYMGYNTISINHLGDYGTQFGKLIEGYKLWGSEYDLSTDSMDKLVEIYVRINDLCANDESVLERCRENFRKLEDKDPECVALYEQFKELSLKEFKKTYDMLGIHFDSIRGEASYVDSIDEVINMLEAKNKLQISEGATIVDLTDEGIKAPCIVKKSDGSSIYASRDLAAILYRARTYDFDKCIYVTGYEQDLHFKQVFAVAKYLDLDKKYVDGLEHVSYGLYSLKEGKMSTRKGNFIKLEDVINESISRAKEVILEKNPELEDIDETAKKVGIGAVIFSDLYNSRIKDEVFDLDTMLNFQGETSPYIQYMYVRIQSILKKTNDEVLLNNVSYDKLTDDLSYALIKTIYSYNSVLNEVINKKEPYLLSRYLIKLANEYSSFYSNNKVLDDNDEIRKTRLYLISMVGEILKSGMNLLGIEMPNKM;locus_tag=LOCUS_6730;gene=argS;EC_number=6.1.1.19;note=WP_003436885.1 arginine--tRNA ligase (Clostridioides difficile) [pid:43.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-137],MGA_701
sequence30	MetaGeneAnnotator	CDS	3065	3421	.	-	0	ID=MGA_702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDLFIKNNDGLTEFKGINYTKKGNKLSFNTDEDNYEFIIDKTIKMNKENKESKISILFDKDNKSNGLYEIKEMNTTFNLNIITNSLEITEKSVIIDYGLYIESEYTGNFEIKIIIKE;locus_tag=LOCUS_6740;note=MGA_702
sequence31	MetaGeneAnnotator	CDS	145	1803	.	+	0	ID=MGA_704;product=glutamate--tRNA ligase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013225984.1;translation=MTNKEYADFLLPNVKHTWEEYEAMYPERNLPEGAIVTRYAPSPTGLPHMGNLFQNFMSMVFANQTNGVFFLRIEDTDTSRTVENGIEKILDAIRPFGINFTEGAISETEYKGEYGPYIQTQREDIYKAYAKKLIEEEKAYASFLSKEELEEIRLKQSANKERLGIYGRYAKDRNLSKEETIERINNGESYIIRIKSPGSFFNKVRFNDLIKGTIEMPENDIDEVIIKSDGLPTYHFAHVIDDHLMHTTHVIRGDEWVSSVPKHLQLFEMLGFEPVKYAHLAPLTKNDNGTVRKLSKRLDPEATLAFYPENGIPTEAIMLYLATITNSNFEGWLDQNPNGKISDFKFDFKKCSSSAGTLYDLPKLYNISKNYISRLTKDEVYDAALDYAKNYDEELKDILEKYPDYSKEIFNIEREQKKPRKDYEKYSDVKGQIWYMYDELFEKYRDDAGYDFGSITDKDEIRNIINTYIDKYYNDNDDKETWFSNIQKLCDELGYASNMKDYKENPDNYKGNVADVSTVIRVSLTTRSMTPDLYELLKLIGKEKIKERFNLI;locus_tag=LOCUS_6750;note=WP_013225984.1 glutamate--tRNA ligase family protein (Amycolatopsis mediterranei) [pid:36.3%25%2C q_cov:99.3%25%2C s_cov:98.9%25%2C Eval:8.3e-101],MGA_704
sequence31	MetaGeneAnnotator	CDS	1837	2355	.	+	0	ID=MGA_705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEVVFNKSRLKPDEITEVLDKARIVLRNTSGEFVLCRFNRVYFLPGGKMEQGETPKDTIIREVKEETNIDVVLDSDEPFLLVKNYLRDYDIVDGTIQNRLVNTYYFTGVTRSDDIEYFHQTKLEKQDSLRGFFIDMEEAIELLKEYDEDDEKAKYLAIETLEVLNRCKRGN;locus_tag=LOCUS_6760;note=MGA_705
sequence31	MetaGeneAnnotator	CDS	2357	2866	.	+	0	ID=MGA_706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNVYKLADDFLSKYSFTIAWRIKQHAKIMEKHLNSDEEIFYLFAAQKNPNPFDIFSTCLVALTNKRIMVAQKRVIFGYNLKSVTPDLFNDFSVYKGIIFGKVYIDTVKEFIALSNIDPKALPEIETNLSEYLLRIKEKYGKKNYTEAEETTLSYSFDQEEEKPYKDE;locus_tag=LOCUS_6770;note=MGA_706
sequence31	Aragorn:1.2.38	tRNA	2914	2987	.	+	.	ID=Aragorn_22;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0220;note=Aragorn_22
sequence31	Aragorn:1.2.38	tRNA	2994	3068	.	+	.	ID=Aragorn_23;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0230;note=Aragorn_23
sequence31	MetaGeneAnnotator	CDS	3159	3440	.	+	0	ID=MGA_707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNIIKEKLDLSPDLKKKINWAKNYTSTSITLEKGHLIRLEPSNLAYVDPHKVKINNYTFLFFNGVNTFYVNNLNEQHNLSELEKFFKLAKCS;locus_tag=LOCUS_6780;note=MGA_707
sequence32	MetaGeneAnnotator	CDS	142	780	.	+	0	ID=MGA_709;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879642.1;translation=MNLDNIIVNTQSSIKLNLSKIIYFDPYKIDKEYNDADIIFITHNHYDHMDEESIMKVKNDNTIIVAPKSMEDVIKKIDFKEYVFLEPFENKELDGISINAIPAYNIDKPFHPRSNNWLGYIINIDNITYYVAGDTDATPEIEDVKCDIAFIPIGGHFTMDVNEATELIKKMNTKIVIPIHYGSIIGNITDGKDLINNLSDYNIDVIEKLKFN;locus_tag=LOCUS_6790;note=WP_010879642.1 MBL fold metallo-hydrolase (Archaeoglobus fulgidus) [pid:39.8%25%2C q_cov:81.6%25%2C s_cov:79.8%25%2C Eval:6.2e-37],MGA_709
sequence32	MetaGeneAnnotator	CDS	790	1839	.	+	0	ID=MGA_710;product=phenylalanine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398818.1;translation=MKEKVESIRESLNTDIKEVKTIQDVVDIKAKYIGKTGLISELTKGMAELSIEEKKEFGMIINELKNEANNLIFGKEEEINNVLLNEKLNKEAIDITLPSKKIKRGSLNPMTRITEEFEDLFVSMGYTVFEGPELETDENCFRKLNLPIGHPARDAQDTFYLKDEVDEYLLRSQTSTAQVHAMEDNVEKGPIRIVCPGKVYRRDEDATHSHQFMQIEGLVIDKNISMADLKGTLETMMKHVLGEKTEVRFRPSYFPFTEPSVEVDVTCFKCGGKGCNLCKDTGWIEVLGAGMVHPDVLTMSGYDPKVYQGFAFGTGLDRMAMFKYGIPDIRTIYGNDLRFINQFDRKDEE;locus_tag=LOCUS_6800;gene=pheS;EC_number=6.1.1.20;note=WP_004398818.1 phenylalanine--tRNA ligase subunit alpha (Bacillus) [pid:55.8%25%2C q_cov:98.3%25%2C s_cov:99.1%25%2C Eval:7.5e-112],MGA_710
sequence33	MetaGeneAnnotator	CDS	235	912	.	-	0	ID=MGA_713;product=anaerobic ribonucleoside-triphosphate reductase activating protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392958.1;translation=MKIGGLNKLTTQDFPGNLACIIFTSGCNFNCDYCYNRDLVESNTADISLDEVFSYLEERKNMLDGVVISGGEPTIWNDLIPFIERIKEYGFKIKLDTNGYKPEVLKEIIDKNLVDYIAMDIKAVFNNYYKIINKKIDTNKIIESIKLINESKIDHEFRTTIIKGMHTKEDLDKIVKLVNGSPYYLQNFKMEDTVINKKMEGFTEDELNDLKNHFKNKPNVTVRYI;locus_tag=LOCUS_6810;note=WP_011392958.1 anaerobic ribonucleoside-triphosphate reductase activating protein (Moorella thermoacetica) [pid:39.6%25%2C q_cov:86.2%25%2C s_cov:84.2%25%2C Eval:1.1e-34],MGA_713
sequence33	MetaGeneAnnotator	CDS	1078	2079	.	-	0	ID=MGA_714;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244138.1;translation=MKDTYILGIESSCDETSVSIVKNGNEEIATTVLSQIDIHKKFGGVVPEIASRSHVESVTMVIDDCLKKANMSLDEIDAIAVTKGPGLAGSLLVGVEAAKSLALAFNKPLIGVNHLVGHIYANRLVSDFHFPLISLIISGGHTELIYMDKDLSFKKIGATIDDSVGEAFDKVARVIGVPYPGGPIIDKYSTEGSITYSLPIPLDDDSYNFSFSGIKSAVINLVHNEKQRGNDIREKDLCASFEDAVIKSLTKKTMKALKEYNAKELLIAGGVSANSGIRNEFTKLCNEEGINLVIPELKYCTDNAAMIAAAGYFMFKEEMFDDYSLGINPSLDL;locus_tag=LOCUS_6820;gene=tsaD;EC_number=2.3.1.234;note=WP_003244138.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Bacillus) [pid:57.5%25%2C q_cov:99.7%25%2C s_cov:96.5%25%2C Eval:6.8e-107],MGA_714
sequence33	MetaGeneAnnotator	CDS	2080	2469	.	-	0	ID=MGA_715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKEVSYNDILSLFNEYKEDYIISMSNNSKYYAYELNNEYIGFICILDLDTELEIIDVFVLPNYQGNGYGDKLLKYILDNYSNRNFFLEVNVNNEKAINLYKKNGFNILTTRKHYYKDEDAFVMSKGGE;locus_tag=LOCUS_6830;note=WP_010880336.1 ribosomal protein S18-alanine N-acetyltransferase (Aquifex aeolicus) [pid:35.4%25%2C q_cov:74.4%25%2C s_cov:64.3%25%2C Eval:1.2e-11%2C partial hit],MGA_715
sequence33	MetaGeneAnnotator	CDS	2466	3086	.	-	0	ID=MGA_716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISLFLDTSSKKLVVGLVKNDEVISLVEKETVNDHSKYLVPIIDEELNKNNLTIKDINKIYVISGPGSFTGTRIAVTVAKTLSYALNIPVKSISALKQYVFEYENNDYYAVILNERNDKAYFGLYDSEYNEVIPEEYTSLDKINERLSSITSKLLIITDMEYPYSNRTTETKLNLIKLINYYKDKEDNSFNIKPSYLKKIDVEDKL;locus_tag=LOCUS_6840;note=WP_001086737.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB (Staphylococcus) [pid:31.1%25%2C q_cov:76.2%25%2C s_cov:73.2%25%2C Eval:1.4e-19%2C partial hit],MGA_716
sequence33	MetaGeneAnnotator	CDS	3083	3538	.	-	0	ID=MGA_717;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000049629.1;translation=MDYKYTSKSEADTIVLAQNIESEKFENMVICLNGELGTGKTVFTKGFADALEIDETVTSPTFSIIKEYLSGQMPLYHMDMYRLEGNIKSTGILDYFDRDGIVIIEWADMIKDYLPEERLDIYFKAIDEDTRIIKLEPHGTKYEDLCEDILS;locus_tag=LOCUS_6850;gene=tsaE;note=WP_000049629.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE (Bacillus) [pid:46.6%25%2C q_cov:98.0%25%2C s_cov:93.6%25%2C Eval:4.0e-31],MGA_717
sequence34	MetaGeneAnnotator	CDS	231	473	.	+	0	ID=MGA_719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLVELTEMIIKSLVSDPDSVSVKEFDEEDGLLIEVVVNEDEAGAIIGKSGKIANSIRTIVQASSNLKDRKKVKINITTL;locus_tag=LOCUS_6860;note=MGA_719
sequence34	MetaGeneAnnotator	CDS	552	986	.	+	0	ID=MGA_720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKRMYDYVSFIPFGIAISAFLLYLRYAMPIKLHEKIAVTGLLLGYANRFRNIAIFSCLVGIVIYIITSLIYYSTGNQEYISYKPTMLDIKLMLIKAKANISKAVNLITILLCIILILLLGIQINKQSNINKQNMNIKTVELFN;locus_tag=LOCUS_6870;note=MGA_720
sequence34	MetaGeneAnnotator	CDS	975	1643	.	-	0	ID=MGA_721;product=type 1 glutamine amidotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964279.1;translation=MNIGYIYYDLLNLYGDDGNIKALKQRLTNQGVKVNIDYISLGDTINFNNYDIVYFGSSTDNNLLIALEYLKPYKNDIKRYINNNKFLLSTGNSIELFGKYIQKGDNKIEALDILNYYTEYNENRIVNDINYNCTIHNKNIIGFENHRGHIISKEKNFLYKGDNKYGVVYNNFIGTYLIGPLLIRNPYFLEDYIKRLLNKEDIKEDNYYLEIESYKKAVELIE;locus_tag=LOCUS_6880;note=WP_010964279.1 type 1 glutamine amidotransferase (Clostridium) [pid:36.3%25%2C q_cov:91.9%25%2C s_cov:88.5%25%2C Eval:8.7e-29],MGA_721
sequence34	MetaGeneAnnotator	CDS	1643	2956	.	-	0	ID=MGA_722;product=Mur ligase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948178.1;translation=MIGTMLGKAIIFVEKIFKFNASSFPGRVVLKLFPNYLKKLKYPNLVIMVTGSSGKGSTTKYIADLLRKNNMKVCHNVYGSNLIDGVTTAIISNTKGKKVNVDALVLEIDERYIKFVTKYIRANVITINNITRDQPPRQGNFEEVFEEICKGLNTDMMVLNADDPLLKRFEDRFDGKIIYYGIDKNQYSFKELNDIKNTAYCPKCNTKLVYDYYHYSSVGDFECPNCDFDRGKINYQITSIKDNVITINEDIKINIDNDTLFNLYNIISAYSVCRTIGLKEEDIVKGLNADKTLKKLFNEYTVKNRKYTVLNCKAENNSTYNLNLLHVLKDEEKKTLVIGLRQISRRYNHFDLSWLWDINFEILKDNNVDKIICAGPYRYDIAVRIKYAGFDEKNIIIMENTNGMKEIIENQTSGNVYGILNFDYVEPFIKETKGGNK;locus_tag=LOCUS_6890;note=WP_011948178.1 Mur ligase family protein (Clostridium botulinum) [pid:27.1%25%2C q_cov:97.5%25%2C s_cov:94.7%25%2C Eval:1.4e-52],MGA_722
sequence35	MetaGeneAnnotator	CDS	269	862	.	-	0	ID=MGA_725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYIDSKLKSMFRTSIIVSLALILVGIFLIMYPETTLSFLSYGAGIILLVTGLIPTINFFISKENQKYLDISFLFGIVCIIVGVVIIINPKIVGSIVPLLIGIWMIINGVIKLYYSILVNKVIKSIASIIVALFILACGLLLVLNPFSGAVALTVIIGIFLVVYSLLDLAECIIIYVFNRKSKKEDNVKEAKYIEKE;locus_tag=LOCUS_6900;note=MGA_725
sequence35	MetaGeneAnnotator	CDS	903	1799	.	-	0	ID=MGA_726;product=cation diffusion facilitator family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948895.1;translation=MKNEFKRVANKVSIISIIGNILLAVFKLLAGIFSHSSAMISDAIHSASDVFSSFVVIIGIKLSSKEPDKEHPYGHERLECVAAMILSVILFLTGSGIFYSALKNILDGNTGSITIPGVFALIAALVSIAVKESMYWYTRYNAKKIDSSALMADAWHHRSDALSSVGALIGIFFARIGYPIMDSVASIVIFIFIVKASIDIFMDATNKVVDHSCDEEFEKEIYDYVKKNKDVKEIDLLRTRLFGSKVYIDLEICLDENLTLREAHDIAETIHDKLEKKYDKVKHVMVHVNPVSKKDIKK;locus_tag=LOCUS_6910;note=WP_011948895.1 cation diffusion facilitator family transporter (Clostridium botulinum) [pid:51.2%25%2C q_cov:97.3%25%2C s_cov:99.0%25%2C Eval:5.6e-78],MGA_726
sequence35	MetaGeneAnnotator	CDS	1967	2674	.	-	0	ID=MGA_727;product=peptide chain release factor N(5)-glutamine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010990011.1;translation=MTDIECLKKYYDGNLEEALERLNNGEPVQYIVGNVDFMGNIINVNHSVLIPRFETEELVSETIKRIKSTFNTKIDILDLCTGSGCIAISLAKEIDSNVFASDISKDALEVAKNNSKLNNTNITFINTDLYTGIDNKFDVIISNPPYISKDEEIMDIVYKNEPSIALYADNDGLEFYERILKDIKTILKDKYIIAFEIGMTQYDRIKSLKDLYLPEASIECKKDMQGRDRMVFIYN;locus_tag=LOCUS_6920;gene=prmC;EC_number=2.1.1.297;note=WP_010990011.1 peptide chain release factor N(5)-glutamine methyltransferase (Listeria monocytogenes) [pid:42.1%25%2C q_cov:97.4%25%2C s_cov:82.3%25%2C Eval:2.4e-40],MGA_727
sequence36	MetaGeneAnnotator	misc_feature	506	2539	.	-	.	ID=MGA_730;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_012027320.1:DNA polymerase I,WP_012027320.1 DNA polymerase I (Streptococcus suis) [pid:45.6%25%2C q_cov:100.0%25%2C s_cov:79.4%25%2C Eval:6.1e-165],MGA_730;locus_tag=LOCUS_6930
##FASTA
>sequence01
ATAAGTTATTTTCTTCACATTAATACCTCTCTAATAAACACACACATTCTACATGCCTAGTATGGAGATGACGAACATGTCATTTTTATCGCTTTGGAGATAAAGAACATATCAATTCATCTCCATTGTTGCACTTCGTACTGCGTATAAAGAACATGTTATTTTATTAATTTCTTAATCTTAGATTTAAGATCATATACTTCTTCATTTTTTATATTACCAGTTGAATCAATTGATACTTCTGGAATTATAATTCCTGTTTCTAATTCAATCCAATCGGCTAATAATCTTCTATGGCAAAAATGTTCTTTATTAATTTTGGAACCTGGGAGTTCATGACATAATAATATTATATCTTCTCCAAATTTTTCTTTTAGAGTATTTAATAAGTCATTAGCGTCTAATCCCTTTAATCTTAAATCATAGAATTCTTCTATATACCAATCTATCAATTCTTCTTCTGATAAATTATCTGGATTCTGATCATAGTATTGCCACAAGTATAATCTTGGTGACATTTTTTTATATGCTGGGCCATAAAATCCCCATGCATTTCCACCATCTCCGGTAATAGATACTAGATTACCACTTTTAGCGTTTGCATAACAACTTGTTGCCTTTATAATCATAAACCTCACCCATTTAATTATACCATAAAAAAACTCGTTTTTTTACGAGTTTCTTCTTTCTAAAACCATGAGGCTTTCGATGTGCCTAGTATGCGGTCAACGAACATATCATTTTTTTATTTTAATAATTTTTTATATACTTTTACCGCTTCAGTTATTTCTCTATCAAAAAAACCTGATCTAGGATTGGATTTATCACATAAATGTTTACTTATCTCTTCTATATCTACTAATTCAAGTGAAAAATTATCTTTTTTTTCTTTCTCAGTCATTTGTTTATTGCCATTATCTATTCCCCTAAATGTGCCATAGTAAAAATAAGTCTTGCTCAATCTATTTAAAACTGTATTTTCTCTTGTTGGATAATTAGGTTGAAAGTATTCTAGTAAAAACAACTCATTTAATTCATTCTCACTATATAGAATTCCTGTTTCCTCATGTAATTCTCTTATTAATCCTTGTAAATTTGTTTCGCCTTTATCAGTTTTTCCTCCTGGAAGCATAACTACTCCTCCATAATTACATATTAACAATTGTTTTTTTAAAACTAATAACGCTCTTACCTTTATGTTTATTTTATCTATTTGATTCTCTTTTAAATTTTCTTCATTAATAATTATTCTTTCCATATTACACACTCCCTGATTTATTTAATTATAGCATAGAATTATATAATTAATTCTTCCTTTCTAAAACCATGAGGCTTTCGATGTGCCTAGTTTGGAGATGACGAACATGTCATTCTCATCGTTGTGGAGATAAAGAACATATCCTTTACACTCCATTGTTACACGTAAGAACTAATATTACGAACATATCGTAATATCTTAATCTTCCGATTGTTTTTTTACTATCCATATCCATTTTTCTTTTAAGGATAATTTTTTAAATTCATATCCATAATTGAGTAATTCTTTTTTATAAGTTAAAAATGCATGATCAAATTCAAATCCTACTATTTTCTTAACTTCTTCAAAAGATAATTTATATTCATCTTTATTATTTTCTTTTATATATTTCCATAATGGTTCATATTTACTCATATAATCTCTCCTAATATCTTAATCTTGCGAACTAATCTATAAATTGTAATTTGTCGTTAAGAATTGTAAAATTTTAAGTACTTCTCTAAATTTGATTTTATATATTCTGCATTATGATGTCCTTCAAATAAGTTATACTTTACTTCAACATTTTTATTATTTAATATATTAAATAATTTTTCACATGCTACATAAAATTTACCTTCATCCTCTTTTCCATCATCTAAATATATTTTCAACCTATCTATATTATTATTTTCAGCAATAGTAATTGGATCATATTTATTCCACATTTCTTCATTTGCAAAATAACATTCATCCTCATCTAAATAACTTAAATCTATTGCTGGCATGTGTCCTCCAATTTTGGAAAACAAATCTTGATGTCTTAGTCCATTGTGTAATGCAGCATATCCACCAGATGATATTCCTCCAATATATCTATTCTCTCTATTAGGTATAGTTTTATAATTTCTATCAATATATGGAATCACTTCTTCGATAAAATAATCTTCATATAAACCTAGATTTACAATTCCATATTTGCCTTGAACTTCTTTATATTCATTAGACGAGTTAATTCCTCTACTATTATCTATATTAGGACATACTACAATCATAGGCTTAATTATATTGTCTTTTATTAGTTTTGAAACTGTATCATCAATTTTAAGAAGTTGCAAGATTTCTTCGTTTCCACTTCTTCCATGTATAAAATATAGTACAGGTAAATTAACTTCTTTATAGTTTTCAGGAACATATACTGCTATATTCATTTCTTTATTTAATGCTTTACTATGTATTTTAACTTTATCAGTTTCCAATTTTATGCCTCCTCTACAACTTACTATTTGTCTTTCTAATTATACCACATTTTTTTAATTTTAATTGAGCGTAATATTACTATTTTACGATTAAAAAAGATGTCTTTTAAACATCTTTCTTTTCTAAAACCATAAGGCTTTCGATGTGAGTGTACTGTACTCAACGAACATATCGTTTTTATATGACTTTGGTCAACGAACATATCTATTCATCCACAGTTTTACACTTCGCACTGCGGATAAAGAACATATTATTTCATATTTTCATTTGAATGATTGAAAAAAGTAAATTTTTCCAAATGGTTAGATTATTAATAATACTCCTAAAATATCAGCTAAAAAATGTGGAATCCAACTACACCATGCATTATCTGTTTCTTTAAATATTAAACTAAATATTGTTGAATCAATAAATACAAATAGTAAATCATATGCTACTACTACAAAACTTCCTGTGCTAAAATGACCTAATGCAAATAATAATGAAGTTAAAATAATTGATGGAACAAATTTAATTATTTTAGTTGTTTGTTTTTGAAAAAAACCTCTCCATGCAATTTCTTCACCTAATGTTAATACTGCCATAGTTAATATAGTTTTCATTAAATTATCTGATATAGCAAAACTTGCTCTATTATTTACATGCTCATTAAATTCAGGAATAAATTTATTAGCAATTACAGTAGATAATATACATGTTACAAAAGGTAATATTGCAAATAATAATGCTCTAGGATTATTTTTAAAATCTTTAAATATTGTTTTAATATTAAATCCTTCATATTTAGTTTTATTTGTTTTTCTAGTTACAAAATAAGCAATTACTCCAACTATTACAGAAATACCTGATAATTTTAATACCTCTCCATCAATTTTAATATTTAATAAATTTGTAAATGATAATAAAACCATTACTATCAAAAATACTAATACTAGTTTATTGTTCTTTTTCATATTTTAAACACCTCTATAATACATTATACCACAAAAAAAGATATCATTATGATATCTTTACTTCCTTTCTAAAACCATGAGGCTTTCGATGTGTGAAGTCTGTGGAAACATATCAAATAATTCTATACTTTTTATATTATATTTTTCATTTAATACATTTATGTCTCTTGCTAATGTTACTGGATTACAAGATATATAAATAATCTTATTAGGATTTATTTCAAGTATTGAATTTAAACTCTTGTTATCACTACCACTTCTTGGTGGATCCATAATAATAGTATCTATATCTAATTTTTTTAGTTCATCTATTTTATCTTCAACTTTACCTTCAATAAACTCTACATTAGATATATTATTTAATTCTATATTCTTATTAGCATCCATAATAGATGAATGACTAACTTCAACGCCATATACTTTATCAAAACTCTTAGACATAAGTATTGATATAGTACCTGTTCCAGAGTATAAATCAAGTGCATTACCATTTCCATTTAAATTATTAATAACATATTTATATAACTCCTTGAAGCATTTAGTATTTACTTGGAAGAAGGAATTTGGTGAAACCATAAACTTATATTCTTCAATAGTTTCTATTAAACTCTTGTTACCGGTAATTAGTTCTCCATTAATATAAATACTGCATGAAGGAAATATATTTAATAATTCTTCTTTATATAATTCATTTAAATTATCAAATGAAATCATTATCTCATTTGAAATAGTTCTAATCATTATTTCAGATATATTATGATTCTTATCTTGAATAAAACTTCTTAATTTAGTTATTACTTCATTAATTGAGTTATCTAATAATAAACAAGAATCTATATCTACGATATTATGAGTTTTTTCTTCATAGTAACCTAAGTTATTATTATTTACTTTTAAAGTAACTTTATTTCTATAATTTAATTCATTATAAGAATTAATGCTAGGATTAATATCTATATTACATATCTTTTTAAAGATACCCTTTACTTTTTCTTTTTTAAACTCTAATGTATTTGGATAAGATAAATGCATTAATTCACATCCACCACATTTATCATAATACTTACATTTAGGAATAACTCTTAAAGGAGACTTTGTAATAATACTATTTAAATTTCCTATAAAATAATTCCCTTTATCTTCAGTAATAGTTATATCTACTTCTTCATTAGGAAGTGCACCTTTTATAAACACTAGTTTTCCATCAATAGATGCTATACCTTCTCCTTCATTATTTAATCTTAATACTTTTACTTCCATAGTAACCTCTTATAATAAATATAAATATATTGCAAAGAAATGGCATAGAGTTCCTAAGATACAAAATACATGAAATAATGAATGCATATATTTTTTCTTAGAACCTACTCCATATAATACAGAACCAATAGTATATATTATTCCTCCTCCTAAAAGAAATAATACTCCGTGTACTCCCATACTTTCTAATAATATAGATATACCAAATAATATAGACCATCCATTTATTAAATGACAAATAACTTCTAAAACTTGGAATTTATCTATATTAATTGAAGTTAGAACTATACCTAAAGTAGTAATAGCTGCTACTACTCCAAATAATGCCCATCCAAATGGACCTTCTACTCCTAGTAATGCTACTGGTATATAAGTACCAAATACTAATACAAATACATTACAATGATCTAATACTCTTAGTATTTTTTTACCTTCTAATGAAGGAGATAAAGCGTGATATATACAAGATAACGTATATAAAATTACCATAGCAGATCCAAATAAAGCAACTGTTGTTTCTGCTAAAGCACCTTTAGCCTTAATAACCATTAATACAAGCATAGCTATAGCACCTAATGCTGCTAAACCATGTGATATAGAATTCATTAATTCTTCTTTTAATGTATATTTAGGAATTCTAATATTAATTTTATTTTCCTTTTCTCCTCTATATTTTTCTACTAAAGAAATAATCTCTTTAGCATTTTCTTCGTTTATGTTGTATTTCTTTTTTAATTGTTTTTCTAACGTCATTTATTTAACCTCTTTATTTCTATTATAATTAAATATATACTGAAGTACTACTCCAGAGTATTCAGCATACTTTTCATAAATATAATTATTGATATTATTTATACCCTCTAAATTATATTTATTTTTCATATATTTTTTTACCCATGTATCCACAGGAAAAACATCCCTTTTTTTATAACTAAATAATAATATACAAGAAGCTACTTTAATACCTATACCTTTATAACTAGTTAAATAATCTATTGCATCTTTAGTAGTCATGTTTTCTATAGAATCTACATCTAACTCACTATGAATTAAATCATATATATACTGATCTCTAAACCCACATTTAACTTCTCTTAAATCAGTAGTAGATGCATTCATTAAATCTTTTCTATCTGGAAATAAATAGTATTCTTTACCTCTAAATAATACTTTCTTTCCATATCTTTTAGATATATGATCTAGAGCACTTTTTATATTTGGAACACTATTATTAGTAGATAACATATAACTAATAATTGCCTCAAATCTTGGTTCATTAATAATCTTTAACCCCTTAGAAAATTCTATAATATCTTTAATAGAATTATCTTTCTTTAATATTTCTTTATTAATAGATTCATAGTCTTCTTTTAAGTCAAAGTACTCTAAGATAACTTCTTCTAAATTATCATTATTAGATGATTCTACTATTAACTCATCATTTACTTTTTTAACATTAATTACTCTATCAGGTAATATTACTGTGTAAGAATTATCTTCCTCAATATCATATCTAAATATTTGACCACATGTAATAGTACTATCTAAATCAAAGTAGTTATTAAGTTTAATTGTCATAGATAATCACCTAATAATATTTTACCATAAAAAAAAGAATATTAACTATTCTTTCTTAGTTCTATTGCTTTTGTTACTACATCTTCTATTTGTTTAACAGAGAATGGTTTTAAAAGTATAGCAGCTACATTATATGTTCTAACCTTTCCAATTATTTCAGGAGCTTCTTCTCCAGTAATAATACATACTGGTATTTTTTCTAAGATTCCTTTTCCTTGGAAATAATCAAGTACTCCAAATCCATCTACATTTGGCATATTAAGATCTAGTAATATTGCCATAATAGTTCCTTCAGGCATAACATCTACTATATCCATAGCTTGTTTACCATCAGAAGCCATCATTACTTTATATTTATCTTTATATACATGTTCTATTAAATTTCTTGTTATATTAGAGTCATCTACTACTAATATAGTTTTTTCATCAATTATAGGATTAAATTCCATAGTTACCTCCCTAAGTATCTCTTTCCGATTTCTTCAAATTTATTTATTTCATTTATAAATATATCAAAATTATTATCTATAAATTCTTTATTACTTTCTTTACCAGCCATTTCATTAGATAATGCTATATCTATTAAAGATACAAATCCTAAATATTTAGAATCACTTTTAATGGAATGTGATAATATTCCATAATTCTCAAAATCATTATTAGTTTTATATTCTAATAGTTTATTTTTATTTTCTTCTATAGTATCTAAAAATGAATTTAATGTTTCATTATAGAATTCCATATCTCCAAGTAGTTCTAAACCTCTATTAATATCTACACCATTATTTGTTAGTATACTTGTATCCATATATACCTCCACTACTATAAATATTTTATCATAATAAATTATAATACAAGTAATAATTTACAAATAATATACAAATAAAAAGAAGAGTTTATTCCTCTTCTTTTATTCTACGCTTTAATGATTTTACATATATTTTATTAAACTCTGCATCAATTGCTTTTTCTCGTACTTCTAATTTATTAGCTAATTCTTCTGAATTACTCCAAAGTATACCATATGCAGTTGCAGTAATAAGAGCTGTTGATAACCCAGCTATAAAATATTTTCTCTTAGTAGATTCATCTTTTTCGTTTCTATAAAAATGTCCAAGAGTACCTGCTACTGGAGCACAAAACAATATTGGAAGATTTAGAGCAACAATAAGCGAAGTAGAAGCAATTATACTTTTTGTTTTTGCAACAAATAATTCTTTTTTTGCTTCTTTGTATTTTTGTTTTATATCTTTTTTCATTATATTTCTCCCTTTGAAAATTAGCAATAGTATACCATAATTGACCTATTTAGTCAAAAAACTCCTATCATATGATAGGAGTTAATTACTAATGGCGTCCCTGGGCAGAATCGAACTGCCGACCTATTGCTTAGGAGGCAATTGCTCTATCCTACTGAGCTACAAGGACAAAGGTGATGCCATAGGCATCATATTACATTTGTGGTCCACCACTACCTTGCATAGTATCTGCTTGTGGTGCAAATTCATTTAATATAATATTTAAATGTTCAGGACTTAAATCCATTAATCTTCTTTTTAAATCTGGAAGTGGTGCATATTCTAATTCTTTTGGATTAATACTCATGATTATTTGGTTTACTATTTCTTCTTTTTTCTTAGTCTCTTCATCTTGAAGTCTATTTATTTGTTTATATATATCTGGGAATACTCTATAATTACTATCATATAATTCTTGTTCTTGTTCAGTTTTTACATCCTCTTGTACATTAAAAGATTCGTCTGCATTTCTTCTTTTAATGCTATCTTCTATTAAACCAATTATTTCTTTAGCATCCTTATATACATCTTCATATGAAACTGGAGTTTTAATATCTTTTTTAGTTAAATCATCTTTTACTTGTTCATAAATAGCTACATCTTTTTGAAGAGCAAATAATACTTCATTATTATATACTGTATGAGAAGTCAATGTATTATCCATTCTTCTTGTACACATTTCAAGTAAAGTTAAACTATATTTAGGTAATTCTGAATATGGTGCTTTATATGTTTCATCAGTAGGTTCTCCATAAGAATAAACTGTTCTTTCTAATTTTAAATCTAATTCTTGTTTATATGAATCTACTATTCTATTTGCTAATACTTCATATTTTGATTCTAATTTAATAACATTATAAATGCATTCTTCTATTATAATAGCATCTCCAAAATATAAATAATGCCATGGCCCATCACCATATAATTCAAAACCAGGTTCTTTAATTGCTTCTTCATATAAAGAAATTATTTTATTAATTTCTTCAGCAGATAAAGAAGATAATTCAGGAAATTTATTTCTTAGTCTACTATTAATCATATTAACTAAAACATCTTTTTCACTAATCATATTTATATCACCATTCCCTTTTAAATATAACATATTACATTTTCAATATGCAATATACTACTATACCAATTAATAAGATAATTAAAACTGCTATAACAAAATCAATTATCTTTAAACTACTATCTAATTCTATTCCTTCTTTTACATTATTATCTTTTTCTATTTGATCCATAGATTTAGATAAACCTTCAATATTATTTCTTTTAATAATATTTCTATCATCTATTTTTAGGTCTACTATTAAATAGTTTAATAAGAATTCATAATATTCTCTATTTCTTGGAACAAAATCATCAGTATATATTAGATTCTTAAATTCATATAAAGATATCCATTTTACTTCATCTACTTCTTCTTTTTGAAGAGTTAAATTAGTATTATTTCTAATTCTTGCTATATAAGTATATGTAATAGCATCCTTATGAATATATGTCTTTATTAATCTAATATTATTTTTATCAAGAGATACTCCTACTTCTTCTTTAGTTTCTCTTAAAGCAGCATCTAATTCGTTTTCTCCTGAATTTACATGTCCTGAAGAAGATAATTCCCATTTACCAGGATGTACTTTTAAATTATTACTTCTTTTTTGAATTAATATTTCATTATTTTCATTTAATAATAATATCCATACTATTTTAAAATAAAACTCTGGATTATCATTATTATAATGATTATGATCTGTGATAGGTCTAGTTCCTAGGTATTCTCCATCCCTTGTAAATACATCATATAATTCTTCCATATTAATTACCTACTTTAATAATAGAATCTAATGCTAGTTTAATCATATCATTTAAACCACTTTCTTTTTCTTCATCAGATAATACTGTATTATCACCTGCATAAGAATCTACTATTGTTAATAAACAAGAAGCTTTTTTATTAAATAATTTAGCATTATAAAATATAACAAAACTTTCCATTTCTACAGTAGTACAATTAAATTTATCTCTAATTAAATCTATATTATTAGTTTCTCCATAAAAACAATCAGATGTAAAAGTTCTTGATTCAATTAAATTAATACCTTTATTACTTGCTTCTTCTTTTATTATATTATCTAATTCTTCATTTGATTTCATTATCTTAGAAGTATCTTTATTATATTCATATGCATAATTAGATGTAGAAAAACTTTCTTTTGTTAAAACAATATCTCTTACTTTAATGTCTTTTACAAAAGATCCCGCAGTACCTAATCTAATCATATAATCTACATCATAATTATTAAATAATTCATAAGTATAAATGCCTGCTGAAGGAATACCCATTCCATGAGACATAATAGATACTCTAACACCTTTATAATATCCTGTGTATCCAAGCATATTTCTAGTATTACATACTTCTTTATAATTATTTAAATACTTTTTCGCAATTGCTTTTACTCTTAAAGGATCTCCACATATTAACACTAAATTAGATATATCTTCTTTATTTGCATTTATATGTCCAAACATATTATACCTCCTAAAAATAAAAGCTAGTTAACTCTAGCTTTTACTACTATTCTTGCTTTACCACCATTTTCACATGTAACTAAAGTAGCATGAATACCATCAAATTTATTTAAATAACTTGTTTCTTCAGGATTAACATTTCTAAGTGTTTCATATACTGTATATTCTAATTGTAATCCTGATGTATCAGTTATTCTTATAATATCTCCTGATTTTAAATTCTTAATATTATAAAAGAATACATCATTACCTCTAAAGTTATGAGCAGATAATACAAATCCACCTTCTTCATTTATTTCGGCTTCTCCATATGTCTTAACTACTCCAACATTCATTGCTTTAGATGTATTTTCTTTTATAATAACAGAATTAAATCCTGTTTTAGGTATTTCTATTTTACCTAATATAGTAAATCCAGAATAACTAACACTACTAGAAGTCTTTTTTACTTCTTCAGGTGCTTTTTCTTCTATTTTTACAGTCTTATCAAATTCATCTAATGCTTTCTTTTCTAAAGATGCTAGTTTTCTTTCTCTAAAGGAATCAAATAACATAAGAAATGAAATAAAATATAAAGCAAATATTAAAGCAAATATTACTATATTCGTAGTTCTCTTAAACATTTTTGAGTCCTCTTAATAACCTAATTTTTCAAATGCTTTATTTATTTCACTCTTATCACTAGATTTTTCACTACTAGCAGATATTATTATATTATCAACTTGAATTAATCTAAAATATCCAGCTTTAGTTGATTTAACTTCTGAATAATCATCTGTACTTTTATAACTATAATATTTTCTCTTATTATAATTCTTTTCTACAAACTTTTTAGCACTATCTTCATCTTTAAACTCATAGAATGTAAAAATAATATCATTATTTATAGCACTATAATATCTTTGATATATATCTTCATATGTTAAAGTTTTATCTGTAATAGCATAATTCAATTCATCGCCCATTTTTTCTTGGAATCTTTTGTATGTAATTGAATTATAATTTTTTGAACAAGCAGATACCATAACTACTAAAAATAATAATAAACTGATTGATAATAATCTTTTTATTCTTTTCATATAAACACCTCTATTATATAAATATAATAACATATTTTTTAAAATAATACTACTCTATAATACCAATTAATTTACCAGTAGATAAATAAGTTAAAGTAGCTCCTCCACCAGTAGACATAAATACATTTCCTACATTAAATTTATTAAGCATATATGTAGTTTCTCCTCCACCAGCATATATACTAGAATTAAGAGATTTAAATACCTCACACATACTCTTAGATCCTTTAGAAAAATCATCATTTTCAAATAAACCAAATGGTCCATTTATAAATATAGTTTTAGATTTTTCTAAATATGTTTTAAATAAATCTACTGTTTTTTCTCCTATATCTAAGCACTCATCATTATCATTTAATTCGCTTACTAATTTATATTCTTTATTAGATGTATAAGCATCTACTGAAAGAATAATCTTATCACTATATTTATCTAATAAATCTTTACAATAATCTATTTTTTCTTCTTCTACAAAGTTATTACCAGTATTATATCCTTTAGCTTTTAAGAATGTATAAGCCATTAAACCAGATACTAATATATAATCTACTTTATTTATTAAATTATCTATTAAACCTATCTTATCAGATACTTTTTTACCACCTAAACAAATAGTATATGGTTTTTCATAATCATTTAATAACTTAGATAAATTATCTATTTCTATGCATACCTGAAATCCATTAACAGATGGTAATATCTTAGATATACCTGTAATTGATGAACACTCTCTATGAGAACATGAGAATGCTTCATTAACAAAGATATCTCCAAAAGATGCAAAGTATTTAGATAATTCTTCATTTTCATTACTTTCTTTATTATTATCTAAATCAAAGAATCTAGTATTTTCAAACATTACTATTTTATTATTATCTATAATACTTTTTATATCATCTTCATATTTACAAAATGCTACATCTATATTTAATAATTCACTTAATCTATTACATACTATTTTTAGACTATTATTAGCCATATCTTCAGGAGTTTTTATTCTTCCTAAATGAGATAATACTATTACTTTAGAAGCTTTTTCTAAACAATATTTAATAGTCTTTAAAGCTTTTTCTATTCTCGTATCATCTTTTATTATTCCATTTTCTATTGGAACATTTAAATCACATCTAATAATAACTCTTTTGTTATCTATAGAGATATCCTCTAATCTTTTCATATTATCACCTATATAAATTATAGCATAAAAAAAGGGAATAATTATTCCCTTATTTTACAACTATGTAAACAGCTTTTTGTACATTATTACTAGATGTAATAATTATTCTTGTTTCTCCTCTAGAAACACCTCTTACTGTACCATTTCCATCTACAGAAGCAACTCCTGCATTTAGTGATCTATAAGATAATGTTTTATTAGTAGCATTACTTGGTAATACTGATGCATTAAGATTTTGACTAGCACCAACATTTAAAGTAATACTATCAACACAAGAAATACTTGTTACATTAACAGTAATATTTACATCTGGTCTTGTAGTTCCACCTGAAGATGATGATGATGAAGATGAACTTCCACCACCAGAACCTCCACTTGAACCTCCACCTGAGTTACCTCCTGAATTTCCACCACCAGATGGTGTTGGAGTTGGAGTTGGTGTAGGATCAGGTTGTCTACAATCTACAACGCTATAAGTTCTACTAGCAGTAGTAGCATTCTTAGCTTGGTCAAATACAGAATAATTAATTGTATAAGTACCTGTTTTACTTTGTAAACCAGTATCCCCAGATATAACTACATTACCTGTTATATTACCATCTTTATCATCATATGCAGTAAATCCATAAGTTCCTGTAGTACTAATATCTACTTTATCACCAAGACATACTTTTTGATATGAATTTGGATTTATAAATGTTATTACTGGAGGATTAGTATCTTTATCGTCTTCTATTTCTCCTTCTTTAACAATTACTTTTCTCTCTTTAGAAGCATTATTTCCTGCCTTATCACTAACAGTATACGTAATTAGATATTCGCCTATTGTATTAACATCTACTTCACCTTTAGCTTTAATCTTCTTAGTTATATCTCCATCAACTTTATCATATGCTGTAGCTCCTGGATCTTTAAATTCCTCTCCAATTGCTATAGTCATAGTTTCAGATCCAAGTAATTTAATTTCAGGTGCTTTAGTATCATTTTCTGTTTGAGTAATAGTTTTATTTTCAGTACCTGTTGTTTCACTACCATAACCTACAGTTTTATATATGTTTTTACATGCTAAATATGTTTTATAATCATATTCTTCTTTTAATTCTTTACCTTTAGAATTCTTTGCAATAACATATCCTTTACAATCTTTAATATTAGAATTTGTAACTAATTTTTTTTCTTTAATTAAATTAATATCTATTTTTCTATATTCATCTTTTTCAAGTTCTATATCTTCTATATCTAAATAGTTTGATGCAGAGTTATTAATTTGAGATTCAAGCATTATATATTTTTTTCTCATAGAACTTCTATAAAGCATTACTATTCCAAATATAATGGCAATAATACCTATGATAACTCCTAGAACTATTAATTTAAATTTCGTCCAGAATTTCTCTACTTCCATATTACCTCCTAATAACTAGTATAATTAACTGTTTTATATTTACTTCCACATTTAATATATGCTTTTCTTGTTACTACATACTTACCACTATCATAATCTTTTTCACTAGTTGATTCAACATATCCATCACACTTATCTACAAGTTTACTATCAGTATTTAAGAAGTTAGTTGATATTAACTTTTTAACACTAATTCTTTCAGATGTACCATCTTTAATCTTATAATCCATCTTTCTATAATATAAATTAGCAGCATTTACTAACTCTTTTTCATACTCTTGATATACTTTGTTCTTATTAGAAATTTTAACATTTATAACTATAAATACTACTAGAACAGTTAATAATACTATTCCTGCTAGTATTAATTGTAATCTAGTAATCTTTTTTTCTCTTACTTTCTTTTGTTTAGGTTCTTTAGGAACATTACTATTACTATCACCAGGAGTAGTTCCTTTAAACATAAATATTAACTTTTCTTTTAAAGTCATAATCTTTCACCTAGATATTTAAGAACTCTAATTAATTGTGATGTATATCCCATTTCATTATCATACCAAGCACATACTTTAACAAGACTTTCATCACCGTTTTGAATTATTTCAGTTAATGTAGAATCAAATATAGAGCCTGCTGTAGAAGAAATAATATCAGATGATACAATTTCATCTTCTACATATCCCATTGATTCATTAGCTTTATTTTTAAATAGAGTATTAATTTCATCTACTGTTGGAGTCTTTTCTAATCTAAGAATTAATTCTGCTATTGAACCAGATACTGTTGGTACTCTAAGAGCACTACCAATTAATTTTCCATCTAATTCAGGAATAACTATTCCAATTGCTTTAGCAGCTCCAGTAGTAGTTGGTACTATATTAGAAGCAGCAGCTCTACCTCTTCTAAGATCACCTTTCTTATTAGGTAAATCTAATAAACTTTGATCATTAGTATAAGCATGAACTGTATTCATATAACCTACTAATACTTTATAATTATCATTTAATAATTTTAATACAGGAGCTATTGCATTTGTAGTACAACTAGCAGCAGAATAAATACTTTCTTCACCAGTCATTTTATCTTCATTAACACCATATACTATAGTAGTAATATCTTTATCTGAAGGAGCAGATATTAATACTTTTTTAGCACCAGCATTAATATGCATACCAGCTTTTTCTCTTGTTTTAAATAATCCTGTACATTCAAGTACTATATCTATACCAAGTTCTTTCCATGGTAAGTTTTCTGGATTTGGTTCTTTAAGTATTTTAATAGTTTTATTATTAATAGTAATACTATCTTCACTATAAGTTACATCTCCATCAAATACTCTATGTGCAGTATCATATTTAAATAAATAAGATAACGATTTAGAATCAGTTAAATCATTTATAGCAACCACATCAAAAAATGGATCATTTATCATCTTTCTAAGAGCCAATCTTCCTATTCTTCCAAAACCATTAATAGCAACTTTAATCATAACAATACCTCCCTATTTAAAAATGCTATTTCCAATGAATTCTCTTATAACAGAGTCCCTTGGAATATTCTCACTAGATATTGGTAGTACTAATTTAAGTAAATTAAGTAATCTAACAACATCTTTATAATTAACATCGCTTTCATCCACAGCATATAAAAGTGGTTCGGCATATGTTTTTAACACACTTAATTCATATATTAATGTTGTATTAAATACAACATCTGCTTCTTCTTGGAAAGGGAACACATTCTTTTCTTCTCCCTCTCTAACAGAAGGCCAATGAGATAAAGTATCAGAAGCATTATATCCTCTAGATTCATTATCTCTTACTATTCTTCTAAGTAATCTAACATCAGTCATCTTAATTCTATTATGATTATCTAATGTTAATATTGGAAGTGGTGAAATATATATTTTATATTTATATTTATCACTTATATTCTTAGTTAACTCATCATTTAATGCATGAAGTCCTTCGATTAAAAGTATTTCATTTTCTTTTAATTCTATTGGATCAGTAATATATTCTGGTTTACCAGTAATAAAATTATATGTAGGAGTTTTTATCTTTTCTCCATTTAATAATTTTTCTAAATGTTTATTAAATAATTTAGTATCTACTGCTCCAAGACATTCAAAATCATAACTACCATCTTCTCTTTTAGGAGTTTCTTCTCTTGAAATAAAATAATCATCTATAGATAAAGACTTTGGTGTTAAACCAAATGATTTTAAATATAAACCTAATTTCTTACAAGTAGTAGTTTTACCTGATGAAGAAGGTCCAGATATTAATACTATTCTAGATTTTTTATTATACACATCTTTAGCTATTTCAAATAACTCATTATTTTGATGAAGTTCAGATAACATAATGATATCATTTATTTTATTATCTATTATTGCCCTATTTAGATTACTAATACTAGTAATACCCATATTAGAACACCATTCATAATATCTTTCAAATTCATCAAACATCTTTTCATGATGTTTATAAGTTAATCTAGGATTATAAATACTTCTAAATAATAGAACAAAGCTATTTTCATTTAGATAATGTAATTTAAAATCTTTTAAATATCCTGTGGATATAGGTAAATTATAAAAATAGTAATCATACATATTATCAAATTTATATAAATTAATATTAGTATTAGTATTATATTTTAATAACTCAACTTTATCTTTAGCACCTTGATTTGCATAATACTTAATAGCTTCTTTTCTATTAACTAATAACTTATCTATAGGTAAATCTAATTCAATAAGTCTATTCATTTCTTTAGATGCTAATTCTAAATCTTTTTCAGTAACATCATTACATCTTATATAAATACCTTTATCTAATGCATGAATTATTTTAAGATCTTTATTAAATCTATCTTTAAAGATTTTAACTAGAATGAATACAAGTCCTAGTTCATAAACTTTATTACCTGTGCTAGAATTTCTATCATAGAATCTAATATCACAAGAATTCATAACAGGAGTATTTAACTCAGTTAAAATACCATTTATTTCTCCTATTATAATCTTATCTTTAAAGTCTTTTTGAAACGATTTAGATATTTCAAGTAAAGTTGTTCCCTTACTAAAGGTATACTTATTATCATTATATTTAACTTGAATACTTAACATGTTACCACTACCTTTTTACCCTACTATCATTTTAACACAAATTAGTCAAAATAAAAAGGTATTATAAATAATACCTTTTAATTATTAACTATATATTTACTATTAATAGTAATTACATATCTAAAGTATTTATTAACTGGAGTAATCTTAGTAGGACCTACTGCAACAATGTTAGCATCAACAAATCTTACATTGTCTACATAAGTTCTAATTACTTCACCATGATCATCATAATCATTTGGAATATTTACAGAATTTTGTAAATAGAAGTTCTTATTTCCTACTAACCATGATATATCACTTAGACTTCTTCTTAGTGAATTAAATTCACTCTCAGTTAATAATCTTATCTTTCTAGTTACATATTGATTAGATATACAGCTTCCACCTTTAAGTGTTCCACCATATGATCCTTTATCTAAACCAGATGCATCATCACAAATAACATTGTCTTCAAATATAGAAGATGCTCTAGATAATCTATCACTAACAGCTATATCAATATTACTTGGTTTATAAACATCAGATCCTAATGTACCACTTGTTGTAGCATATTCAGAATCAAGCAATAATGTAACTAATTCTTCATCTCCACTTGGAGTACTATTTATTACATGCCATCCTAAACCAGCATATTCTACATATTCACCAACAGCATAAGATGTACCATTTGTATAACCAGCTTCGGTTGGTTCAACTTCTTCTTCAGCCATTCTTATATCAAGACTAACTCTATTTAAGAATGTTCCTGCTTCTTCCCTTGTTGGCATATTTAATACAAGTTGAACATATATACTTTCTCCAGGAGCTAATACTTGATTTTGATATGAAGTATTTTGTAATTTATTATCTACTAATACCCACCCTTCATTATATGGTTCAGTTGAATCATAATATAATCCTTCAGGAATATCTTCAAATATATTATCAACATATCCTTTTACTTGAGAATCATTAGTAATTTCAAATCCATAATATACTTTTAAACTAGCTTTTAAACTATTCTTGTAACTTAATAATACTTTTGATGAATTCTCATATAATTTAGTATTAGTAATACCATTATAATTTAAATCAATTCTAGTAATATATTTCTTTATTGCCATAGAGAAAGGTCTTCTATTAATTAATCCCATATCCATATTATTAGCTTCAATATTGTTATATAAATCAATACCATCCACTTTACTAGGATCATGTTTATTAGATATTTCTGCAAGCCCTTCACTAATCTTATATGCATCTGAATCTTTATCAGTATCTTCAGTAGCATATCTAAGAGTTAAATCATAATTTTCATTATCATATGCAAGTCTTACTCTATAGAATCCTTTTTCTAAGTTTTCAAATGTATAAACTCCAGATTCTAATGTTTGAGTTTCATCAACTAATTCTTGATTTAATTCATCAATTATTTTATATAAACTTACTGATATATTTTGAAGTGGTTTTTCATTACCATGCTTTACACCATCTTCATCTACATCTATATATACTCTTCCAGATATTTTTCTGTTAATTACTTCAAACGATAATTCATTAGAATTAATAGGCATAAATGTTCTAGAACCACCAACAGCACTTACCTTATATGTATCACTAAATTTATTTTCACTAGGTTTAATAGTTACTTTTATAGGGTTAATAGAAGTATTTGCATCAGCAGATAAATTAGTAATCTTAATAGCACTTACTTCTTTATATACACCTTCATTAAATATATCAGAACAATCAGTAAATAATGTTTCTGTATCTAACACATCTTTATTAATATTCTTGTAGTCTTCTGTAGTACAAAGAACATTAGCACCATTAAGACTTGTTGCATCTAAATGTACTTTATAATCACCACTAAATGTTGAACCTCTTTCATCATTATTAGCAGGTAATACATTTAATATCATATAGTCTTCAATTCTAGAATCTGTATTATTGTATGCATTAATGTAATACGAGAATTCACTATCTTTTTCGACTCTATTTGCGCTATCATTTGTTAATGTAATAATCATATTATTAATACCATTACCATAAATCTTTAATGAAGCACTACTAGATAAATAATCAACTACTTCATCATTTATGTTGTAACAGAATACTTGTGAACTAATTACTATTTCATTACCATTTCCTGTTAAATCAGATGATAATATTGCATCAAAATATACATCTGGAATCTCAAAGTTTGGTTTAGTATATGGAATTCTGTATTGTAATAGAGTTCCACCCATAATTGGTTCTACTATTTCTGGATTAACAGTATTGTTTGTTGGAATATAAGTTAAAGTATCTGGAATAAATACTGAGAATACTAAATCTTTAATATACCAAGCATCATCCGCTCCAACATTTAAAGCATAATCTTTTAAGTTTGTAGATACTTTAAAGTGAATTGTTTCATTATCAACTACATTAAAGTTATCTTTCATTTGTCCATCTTTTCTTCTATTTGTAACAGTAATATTTTGTTTAGCTTCAAAACTTAATATAGTTAATGAATCACCAAATAAACTATTATCAAATTCTTTATTATAGTTATTTGGATTTAATACTGAATCTTCAGAAGAAGATGTATTAACTACTCTTGGACTATAATATGTAATTTTATTATCATAATCAGAAGATGTAGCAATAGCAGTTACTTGATATTTCTTAGTTATATCAGTAACATTTCTAATTCTTAGTTTTGTTTTAATTACTACTTTAGAATTATCTGGTAAATTAACACCATTCTTAGTTTGAACAATTAATTTAGTTAATACTATTTCTTCATTATCTGCAGTAGCTGCTGAAGAAATATTATCATAATAAACAGGATTATTTTCACTAATACATGGGCCACCATATAAATTCATTATTTGATCACTATTATAATTTGCTAAATTATTTTTAACAGTTGTACAACCATTTTTAATAACATTAGCTTCTTCAGATTTAATTTTTGAATCTACAGTAGTATGATTAATTGCTGTATAATTAGAAGCATTAAAATCACCTGCTACAAATTTATATTCAAAATCATCTGCATTAATATTTTGACATCTATTGTTTCCACAGTATACTTCAATATCAATATCTTCTTTAGAAGTATATGGCATAAATCTGTATGCAATTGGATCTATTTTAATTGTTTCTTTTAATCCATCATTTGAAGATGTAGATAAATAATTAAATTCTGTAATATATTGGATTTCAGAACCTCTAGATTTAGCTCCTTCACCATTTGCTTCAGCTATCTTAGTTTCATCCATCTCATATAGACCTGTAACTAAACTATAATCTTTAACTTCATATGCTTCATTAGAACTTGTTTTAGAAACAGCATTTAATGAAGTTGTTCCACTTGTTAATGTTACATTAGTAGATGCAAAACTTAATGTTACATCTATATTACTTCCACCATCTTCTGGAACTCTTGGTGAAAATAGTGTAATTGCATATGTTCCAATATAACTCTTTCCAGAAGGAATAGAATTACCATTAGAATATGCTGTAGGATAAGTATATCCCATTCCATAATCACTAATTTTTAAACTAAATGTATTATTTGTTAAATTATTAACAGTTACACTTCCTGGATTTCTTGTATATTTATCTCTACTTATAAGAGTAGTTGCACTATATGGTGCATCTAAAGTAAATCCATTAATATCTAATACTTGTTGACCATTAAATAATCTTACAAAGTCTTCTGTTAATATTGGTCTTTCATGACCTGTTTGACTAAATGTTGCATTTAATACAATATCATCTTTTGGCATTACTTTACCTTTTAACGAATCAGTTGTAGTTAATGCTAATACATAATTCATATATCTACCTATTTTAGAATCATAAGTAGCTTTTTGAGATTCACCTTCAATTAATTCTAAATTAAGATTTAATGTATTAGAACTAGATACTACTGTTGGCATATAGTTATAAAAATCAGCAGCACTACTATAATTAGTATCTCTTAAAGCATCATATGAATAATAATGTGTACTATTATCTTTCTTACCCAAAGTAACAACGTATTCTGAATCAGTATTAGTAGACTCCTGTATTTCAAATTTAGGATCAATTATAACTCCATTAGGTGCACCAAGTACATACATAGAAATATCACTTGTAATTCTACTACCATTTATTTCATTTACATTGTTTATTTCATATGTATATGTAGTTTGTCCAGGTTTACCATTTTCAGTAAATGATACATATTTTGAAGCATCTTCTGAAATAGTAGCCTTTATTAAGATTTTCTTATTTGAGTATGCTGTTAATGAAGATGTTTGATTAAACTCATCTTTATTCTTTATTTGAAGTTCAAAATTATAAGTAATCTTATCAAAAGATCTTACAATAGCATTATCTTCACTAGCATCCTTGCCTGCTGTATAACCAGAAGTAGCATGTAGATTAGATGTATCTCCATAATTAAGTCCATCACTACTATCAAATGAACTAGTACCAGTTTTAATACCTGTCATTTCAGCATAGCTAATACCAATTTTATTATCATCACTATCAGCTTTAATATTGTAAACAAAGAATATAATACTAGCTAATAATAACACTATAGCTACTAAGAATAATTTATTCTTTTTAATAAATTTCATACGCGTCACCTATTTTCTAATATACTAACTTAATTATAACAAAAAAAAATATCTAATTCAACAAAAATTAGATATTATCATTAGTATTTATATGTCTCAATACTTTCACTTTATTAGACTTAATATTTTCAGGAGTTTCTATCTTTTTTACTATAACAGAACTACCAATTTCAACATCTTGTTCACGGTAATGACTTTTAAATATTTCACCATTTTTAACATTAATAGTTAATAAATCTCCCTTTTTTTCTATTACCTTTCCGACTATTAGACCATCTAAACTTGGTCTTTCATCTAATGCCACATTTGGAGATAATTCCTCTAGTTTTTTATATTTTTCATTATTTCTATTATACTCATCACATATAGTTTCTAATTCCTGTTCAAGTCTTGAAATATAAGATTCATCTGTATCATATTCAGTACTGTATAAGTCAAATAATGTTAGATCAACAAGATTAATAAATGATCTTGCTGGAGAATTAATCTTGGCATATCTTGGAGTAGCTAATCCAAAATGTCCATTATTTCTTGTAGAGAAGAAATAATTACCTCTAGATAATAATTCTAATACAGCATCTCTATACTCCACTGTTCTAGGTAAATCATAGTATGCTAATATTTCTTCAACAGTATCCAATCTAGTAAAGTTCCAATAAGCATCATCAAAATAAAATATTGGTTTTTCTTTAACCTTATTAATAATATCTTTTTTAGATGGATATTTAAATGTTTTATATATAAAAGGTAATGTTAAAAAATTATGTGCTACATTTTCATTAACTATTTTAATAATATTAGTCATAATACTACTAGATAGTTCTAATAATGCATAAGTTTCATTTTTAAAAAGAGTCCTATTTATAGCAATATTTGCTTTATGTAATGAATTAAAGAAAATACTCTCTAAAGATATAAATGAATTTGGGTCATCAGAAGAATATAACACATCTAAGTATTCTTTATTTGCCTCTTCATGACTATAGTTTTTATTTACATTAACTACACTATTACAAAAATCATAGTTTAAGAATTTACCATATTTATCGAATTCTAGAATAAATGTTTTACATAATCTGTCTTCTCCAGCTTTTAAAGAACATATTCCTTCAGATAACTTTGGAGGTATCATATCATGATTATATCTATAACTATGCATATATATTTTTTTAGATCTTTTTCTAGCTTCATTAAATAAAGCAGATCCTGGTTTAATATAATGTGGTACATCTATTACATGTAAATAAACCTTTATATTTCCATTATCTTTTTCCTCAATAGATATAGCATCATCTATTGTTACCATTCTTTTATTGCCATCAATACTATATGTAAGTAAACTTCTTAAATCAACTCTATCCTTTAATTCTATATCTAATACCCTATCTGGAATTAATTCAGCTTCTTTTAATGCTTTCTCTGAAAAATTAATATCAATTCCATTAGAAGCTAGTACTATTTTCCCATATATAGAACTTTCTGTTCTACTACCTATTATTTCTTTTATCCTGCATTCATAGTAATCTTCTTTTTCATTATATGTTACATATGCACTAAGTATTTCATCACCACTAAGTGATATTGGTTTATCAAATATATACTTATAATTAGCGTCATCTCTTGAATTGAATGGAATTATTTGAATGGAATCATTTACTCTAATACATTCAAATATTCTAGGATTATTCTCTTTTTTAAGTACACTTTTAACTTTTTTATCTTTATTTGAGAATAATACTTTATCTCCTACATAAGCACCTTTAAGATTCTTACTTCTAACGCTTAATCTTTTGTCTTTAAATTGGACAGCAAAATCATTTATACCGTTTAAAATTACTTCTCCAATTTCATATTCAGTTGTTTTAAGCCTAATAAACCCTTGTTTTTTAGAATATATTACACTATCTTCCAAAACGAGTTTATTTAAAATTTTCTTTAATGCTTTCTTTTCTTTTGATTTAGTAATACCAAGCTTATTATATAATTCTTGTTCATGAAGAACTTTATTAGAAAGCATTAAACACTTAATAACCTCAGTTTTGATTCTTTCAAACTTTTCGTTATAAGTCTCTCTAACCATAGCCCGCCTCTATTAATTTTAATATATCACTGCATAAAAAAATTACAATATAAATTGTAATTTTATTTTAAAGCATCAATTAATTCTGCTTTTTTCATTGAAGTATAACCTTCAATTTTTTTAGCTTTAGCTAAATCTTTAAGTTCAGCTACTGTTAGTTTAGATAAATCTACTTTTTCTTCTTTTTTAGTTTCTTTCTTTGGTGTTTCTTTCTTTTCTTCTTTCTTTGGTGCTTCTTTTGTAGTTTTAGCAACTTTTCCATTTAATGCATCTTTAGCTTCTTTAACTAATGCTGCAAAAGCTTTAGTATCAGAAACAGCTAATTCAGCAAGCATTTTTCTATTAATAGAAATACCTGCTTTATTAAGACCATCTATGAATTTAGAATAACTAATTTCGTTATTTCTACATTCAGCATTAATACGAACAATCCATAATTTACGGAAATCTCTTTTCTTTTGTCTTCTATCTCTATAAGCATATACTCCAGAATGCATTAATTGTTCTTTAGCAGTTTTATATAATCTGTGTTTAGAACCAAAATAACCTTTAGCATTCTTAAGAATCTTTTTATGTCTAGCTTTAGTAATTTTTGCTGTCTTAACTCTTGCCATGATTTACCTCCTACTTTAATGTGTCAATTATTCTCTTTAATCTCTTTGAATCAGAGCCTGATAATTGACCTGCCTCTCTTAAGTGTCTCATTCTCTTAGTTGAATATCCAGTTGTATTGTGGTTAGCTCCAGCTCTCTTAAATGTAACAGAACCACTATTTCTAACCATAAATTTCTTAGCTGATGCTTTATGTGTTTTAATTTTATTCTTTGCCATAATTAATTACCTTCCTTCTTATTTGGTGAAATATTTACATACATAGATCTAAATTCCATAGTAGGTTCACTAGTCTTTGTACCATAATCTTTCACAGCTTCTACGAATCTATCTAGTACATCTTTACCAAGTTCAGGATGAGCCATTTCTCTTCCTTTAAATCTAACTACTGCTTTAATCTTATGACCTTTTTCTAAGAATTTATTTGTTTGATTAACTCTTGTATTAAAGTCATGAATATCAATTTTAACAGATAATCTGATTTCTTTTAATTCAGCTGCTGTACTCTTTTGTTTCTTTAAAGCTTCCTTTTGTTTTTTATTTCTTTCATATTTAAACTTATTGTAATCCATAAGTTTACATACTGGTTTATCACTATTTCCATTCATTTGAACTAGATCAAATCCAGCAGCATTTGCTAGTGTAAGAGCATCCTCGATATTCTTAACACCAAGTTGTTCTCCACCAGGTCCAATAACCATAACTTCTTTTGCAGTTATTTTTTCATTGATTAATAAATCACTATTCTTTGATATAACAAAGCACCTCCAATAAAAAAGTAGATACATCTGTATCTACATAAAAAGCACTATAATATATATTACTTGGCCTTTTACCTATCGCTTACTCGCAATCAGGTGAGATACAAATCTTCTTTCCTTTTTTCAAAACTACGTGAATATTATATATTATATATATTTATTTGTAAAGTATTTTTTTATTTTTTTCTAGCATATGACAAAAGTCTAATAATTTGTAAAACTGATGATAATAAACCAGCTACATAAGTAAATGCAGCAGCATTTAACATTTTTTTAACAGCAGGCACTTCATCTTCACCAATAATACCTAATCTAAGTAATTCTTTTCTTGCTCTATTTGATGCATTATATTCTACTGGTAAAGTAACAAGTTGGAATGATAATGCAAAGAACATAAGAGCAACTCCTATATATATAAAACCTGTAATAGATGCAAGTAAACCTATTACTAATGAAATGTAACCAATAGTATTTCCAATACTAGCTACTTTTGCAACAGCATTTCTAGCTTTTATTGGACCATATCCATCTTTATATTGAATAGCATGTCCACATTCATGAGCTGCTACTGCAATAGCAGCTATACTTGTATCATCATATACACTTTCAGATAATCTTATTTCCTGAGTACTATTATTATAATAATCAGTTAAAGATCCACTTATTTGACCTACTTTAATATTAGTAAGACCATTACTAGCAAGTATCTTTTCTGCTACTTCTCTTCCTGTTATATGTTTATTATTTTCTACTCCAGCATATTTTTTATGAACTGCTCTAAGTATTAAACTAGCAAGTAATGTAATAGCAGCTGCTACATAAAATAATATCATTCCTGTACTATTATATATTAATCCAGTACTTGTATTATAGTCTACTCCCATATTATTATAGTTCCTTCCCTAGTATCTTTAATAGTTACTCCAAGAGCTTCTATTTCAGATCTAATTCTATCAGCATTTTCATAATCTTTATTTACTTTATAATTATTTCTTTCTTCAATTAATTTATTTATTTTATCTTCTAATTCTTTATCTATTTCTTTTTCTTTAATTAAATCTAAAGAAAATACTTTATCAAATGATTTAACTAATGCTATCTTAGTAGAATTAGATATTTCATTATCTTTTAATACATCATATAGAATTGTAATTGCATTAGCAGTATTTAAATCATTACTAATTGCTTCTTTAAATAATTCATTATATTTATTAAAGTCTTCTTCACTATAATTATTATCATCAATTATATTACTAATTCTAGTTTTTAATTTGTTTAATGTATCTTCTGATTGATCTAAAGCATCATATGAAAATACTAATTGTTTTCTATAATGAGAATTTAAACACATAAATCTATAACTAAGAGGATTATATCCTTTAGATATTAATAAATCGAGTGTTAAGAATTCTCCTTTAGATTTACTCATCTTACCAGTTTCATCATTTAAATGTTCTCCGTGTACCCAATAGTTACACCATTTATGTCCTAAATAACTTTCACTTTGAGCTATTTCATTTGTATGATGAGGGAATATATTATCTACTCCTCCACAGTGAATATCAAGATGTTCTCCTAAATTCTTAATACTAATACCAGAACATTCAATATGCCATCCTGGATATCCATATCCCCATGGAGATTCCCATTTAAGTTCTTGATCTTCAAATTTAGATTTAGTAAACCAAAGAACAAAGTCTGCTTGATTTCTCTTAGATGAATCTTCTTCTACACCTTCTCTTACACCTACTACCATTTCATCTTCTTTATGATTAGTAAGTTTATAATAATCATCTAGTTTAGATGTATCAAAATATACATTTCCACCAGATATATATGCATAACCTTCATCTAATAATTTCTCAATCATAACAAAATAGAAATCTATATTATCAGTAGCTTTAGATACTATTTCTGGCCATTTAATATTTAATCTATTTAAATCTTTTTTAAAGCATTCTGTATAATAATCTGCTATTTCTAAAACAGTTTTATGTTCTCTTTTAGCACCACTAAGCATTTTATCTTCTCCAGAATCCGAATCAGATGATAAATGTCCAACATCAGTTATATTCATACATCTTTTAACATTATAACCAACATAATTTAATGTTTTTTCTAAGATGTCTTCAAATATATATGTTCTAAGATTACCTATATGAGCATAATGATATACTGTAGGTCCACAAGTATACATATTAACATTATTACCATTATATGGAATAAAGTCTTCTACTGTTCTTGATAATGTATTATATATTTTCATATGTAATCACCTTCTTTATTAATTTTATCATAATTATACAAAAAAAAGAACACTTATGTGTTCTTTTAAAATCTATTATTTATTAGATTTTTTAGTTTCCTTTTTAGTTTCTTCTTTAACTTCTTTAATTAGTTTTTTATTATGATCTAATAAAGCTAAGATTACTAGAGCAATTACTAGAATAGTTCCAATAATAGCAAATAATCCAAATCCTTTAGTAGCTATAGATAAAATTACTAAACTAACTAAGAATACAATAACGAAGAATTTCCAAATATATTTAATCCAATCTTTATAAGATACATCTGTATATCTTAATCCGAAGAATACAAGTATACTTGTTGGTGAAACTAATAAAACTAAACTATAAATTGCTTGGAATATAATTGCTATTGAAGCTTCAAATCCAGTTGTCTTAGTTGTATAACTAATTCCTGATAATGCGAATTGAGTAGCATATGTATAATCAGGGTAGAATAATGAAGTTACTGAAGATATAACTGAACCAGTAAATAGATTCATCTTTTCACTAAATGCAGTTACAAATGTATAGTATACTCCAGATGTGTATAGATTAATAAATACTATATTAGCAACTAATAGAATTACTATATATGGTATTGATTTTCTAAGACCTGAACCAACAGCAGCTATAAATGTATTTACTTTTACCTTATACATAATAGCAATAAATATTGAAGCTACTACTAGAACTAATGCAAAATGATATAATTCAAAAGTTCCAAATGCAGCTATTTCACTACCAACTAATGCATTAAATATAGATACTCCTTTAATATCTTTACTTTGCATAAATTCAAGGAATCTAGTAAATCCATCAAAACCAAAATATTGAGTCCATGGAACAAAGCCAAGAACAACTAATACTAGAAGAACAATCATTACAATTTTTAATGTTAAAACATTTGAACATTTTTCTTTACCAAGATCAACTTTTTCAGGTCTCTTGTTAAATACTAAAATAAATGCTATTAAAGCAAGTAATAAAACCAATAATAAAACTATTTTATATAATAAATTATCAGTTACAGTTAAGTTTAGCATTTGATTACTATAATATGTATATAGTGAACTAGCACTACCAATAATAGTAGCACCAACTGTAGCAGCTATAGATGCAGTTTTTCCATATCCAAGTTTTCTAATAACAGAAATAAAGAATGGAAGTGCAAATAATGCAGCATACATATTTCCAGTAAGAGCTGACATAAGACCAAGTACAAATACAGTTAATACTATATATAAAGATTTACGTCTTGCAAATTTTCTAGCAACACATGTAATGTATTCGTCATATTTTTCAGTTTTTCCTAATATTGCATAGAATAGTCCAACAGATAATAAATACACAATAGTTGACATAAATACACTTAATGAAGTTAATCCATTAAAGAATGTATCTGCTATTGTAACAGGTATAATAGTATCTTTTGAAACTGATCCATAACTAATAGTAGTTCCTGGAACAAAATAACTAATAATAACTGTAAATAATATTACAATTCCTAAAATTTTGTATAAATTATATTTTTTCATAAATATCTCCTCCTATTTTAAGATCTCTAGTATTACTATTTTAGTTATTCACCTTTAATCCTCCTATTAAGAATTATAGCACCATTTAATAATAAAAAAAAGTAATTTTTAAAAATTACTTTTCTCTTGGTCTCATTATTGGGAATAAAACTACATCTCTTACACTAGCTGCATTATATAAAAGCATCATTAATCTATCTACTCCAACACCAAGTCCACTTATTGGTGGCATACCTTGTTCCATCGCAAGTAAATAATCTTCATCAAGATCCATAGTTTCATCATCACCTTGAGCTTTAGCTTTTAATTGATCTTCAAAATTAGCTCTTTGAACTTCTGGATTAACAAGTTCTGAATATGCATTACATATTTCTGCACCTGCAATAATTACTTGGAATACATCAACAACTTTATTATCATCATCATTTCTTCTAGCAAGTGGTTTTAATACAGCTGGATAATTCCACATAATAGTTGGTTCAAATATATTTGCTCTAACTAATCTCTTATAACAAAAATCTATTAATTGAGCTAATGAATTACATTCTTCAAGATCAGTTTTAGTAAATTTACCAGATTCAATAATCTTAGTTCTAAGTTCTTCTGGATCTTCTATATTAATAAAGGCAAATCCTAAAGCATCAGTTAATGCTTCAACATAATTAACTCTATTCCATTCTTTTCCTAAATCTATAGTTTTATCTCCTACTGTTACTTCTGTAGTTCCTTTTAAGAACATAGCTGTACTTCTCATAAATTCTTTAAAGAATTTAATATTATCTTCAAAATTCCAATAAGAAGCATACCATTCTATTTGAGTAAATTCTTGTAAATGTTGAGGATCCATTCCTTCATTTCTAAAACATTTAGCAACTTCATATACTCTTTCAAATCCTGCTGCATTGCATTCCTTTAAATAACATTCTGGTGCTATTCTTAAGTTACAATCAATATCTAATGCATTATGATGTGTAAAGAATGGTTTAGCAGAAGCTCCAGAAACTGCTGTTTGAACAATTGGGGTTTCAACTTCTAAGAATCCATTTTCACCCATAAATTTTCTAAGGAAGAAATAGAATTTACTTCTACCTAAGAATAACTCTCTAGAATCTTCATTCATAATTAAATCTACATATCTTTCACGATATTTAATTTCAGTATCTTGAAGTCCATGGAATTTTTCAGGAAGTGGTCTTAGTGCCTTACCTAGGAATGTAAAATCTTTTACCTCAAGTGATTTTTCACCTGTTTGAGTAGTAATAATATCTCCTTTAGCACCTATAAAATCTCCTGAATCAAATATTTTCTTAAACTCTTCATATTTTTCTTCACCAAGTACATCTGCTCTAATTTGCAATTGAATATTAGCTTCTATATTTTTAATCTTAATAAAAGATAATTTACCCATCTTTCTCATAAAGCCAATTCTACCAGCTATAGAAACATCAGTTGTACCATCAGCAAGTTCTCTTGCTTCTTTAATTGTATGAGTAGTTTCATATTTATCTGGATAAGGTCTTTCTACTAATTTTAATTTTTCTCTTCTAACAACTTCTTGTTCAGATAATTCTCTCATTTTTTCCACCTCTTTAATAATAAAATTATAACATACTTTCTTTATAATTTATTAGTATTTTTTCAAGTTCTTCTTTTGTTTTACTTTGAAATATAGCATTTTTTACAGATGCAGAACCTTTCATGCCTTTTAAATACCATGCAGCATGTGTTCTCATTTGAAGTATTGCTTGTCCTTCAGGTTTTATTTCAAGTAAATAATTCATATGTTTTAAACATAAATCTATTTTATCAATATCTGAAATACTTTCTAATTTTTTTCCTGTTTTATAATAGTAATCCAATTCCTTAAAAATAAATGGATTACCAAGAGCACCTCTTCCTATCATAACAGCATCGCATCCAGTTTCTTTCTGCATTCTTATTGCATCATCAACTGTTTTAATATCTCCATTACCAATAACAGGTATATTTACTGCTTCTTTAACTTGTTTTATTATAGACCAATCAGCAAGTCCTTCATATCCTTGAGATCTAGTTCTTGGATGAATAGTTATAGCAGATGCTCCTGCTTCTTCAATAATTTTTGCTACTTCAACAGCATTTATGCTTGTTTTATCCCATCCACTTCTAATCTTAACTGTAACAGGACAAGGAACAGCTTCTACTACTGCTTTAACTATTTCCTTAATCTTTTCAGGATTCTTTAATAAAGCAGATCCTGCTTGTGCTCTAACAGCTACTTTAGGAACAGGACAACCCATATTTATATCTATAATATCTGGTTTCATTATTTCATATACTTTTTTAGCAGCTATAACAAAACTTTCTTTATCAGATCCAAATATTTGTTGTGCTATTGGTCTTTCTTTTTCATCCATTTTAAGCATAGAAAAAGTTTTTTTATCTCCATACATAATAGCTTTATCAGAAACCATTTCTGCAAAAACTATGCCTGCCCCTAATTCTCTACACATTCTTCTAAATGCACTATCACATACACCAGCCATTGGAGCTAAACAAATATTATTCTCTATGTTTACATTTCCAATTTTAAACATTTCTTTCACCGGTAATATAATACTATTTTTCTATGCAAATTACAACTAATCTTACTTGATTATTATTAGTACATGTAATTAGTTTTAATCCATCTATATTAAATATATAACTATCATCAATACTCACTTTCTTTATTTCATTAACTATATATCTTTTATCTATATTAAAGTCACTAATAATTATTTCATCTCCTATATCTAAATTATACAATTTATGAAATACATATTTATTATTATGACCAGATAAAATTATATTAGAGCCTCCTATTGGATCAGATAACCTATGCATAGATACTAGATTTTCATCTAATGCCTTGTCTCCCTTTTTAATTAAATTCTTATAATTAAACTTTGGTATATAAATATAACCTTCATATAAAGAGGTAATATTATTACTTTTAGAGATAATTACATCATCTATTTTCTTATCTAATTTATACTTATTATAAGATGGAATAAATAATATAAATACTGATACAAATAATAATATCTTAATTATTCTTTTTAACATATATCATTCCAAAAGTATCAAATATTATTACTACTAATATCCATATATCACTTTTTGTACTTGTAACAGGATAAATAGTTTTATCATTAGAAATAGTTAAATTTTCTATGCAAAAATCATCACTTACTTCAAATTCCAATAATCTATCATTTAATTTATATCCATTTTCTACAGAGGTTTCTCTAATATAATATTTACCATAATTAAGATTTAACTTAGCTACTCCATCTTTAGTATTACCTTTATATATTACATTCTTATTAGAATCTAATACTTCATATGTTACATTTATCTTATTACCAAGTTCATCAGATGATATAAAAGTTACTTCACATAATATCTTTTTATTTATTAAATCTATTTTCTTTATTACTAAAGGATCTTTATCATTAACATAATTTAGACTTACATTATAAACTTTATTATCTAATTCATATCCATTTAGAGTTTTAACTTCTTTTAGAGTGTATCTTCCTAAAGGAAGAATAATAGATGAATTATATTCTTTACTGGATGTTATTATTTCATCTATCTTTTCACCAAATTCATCATATATTTCAAAGTATATGTTTTCTAAAAGTTCTCCATCTTCATTAGTTTTCTTTAATTCTATTTTACCTTTTACTTTTTCATTATAGAAGTTTATTTCTTTTGAAGTAGAACCATCCTCTATAGTAAATGATATCTCCTCATTATTAATATAATATCCATTAGAAGCACTAATCTCTTTAATAGTATAATTACCTTTTTCTAAAGTAACATTAATTACTCCATCTATAAATTCATATTCTCTATCATTAATAAGTATTTTATTACCTTTATCCTTTATTATCTCATTAGTATCTTTATCTCTTTTATAAATAGTTATAGGTACTCTAGTTACATTAATAATAAATTTGCCTTCATTAATATTAGGCATCTTAAATGTAGCTAAATCTTGTGTTGGACTATCTTCTCTATCATATACTATTGTCTTATCATAACCATGGTTTACTTTTTTAATATATACTTCATAAGAACCTATCTTATCTGGTTTAAATATTAAAGAAGTTCCTTCTCTTTTAAAGTCTAAATTAGATACTATTTCATAGTTATCTAATACATTATTAGAATCATTTACTATGAGTTCTCTATTTACATAAGTAGAATTAACAGTATTATTAAATGCTGGCATCCTTCCATGATTATTAACTAATCTTAGTATTTCATTCTTTTCATTAGATATATCTATTACAGGAGTACTAGATGTATTTCCAGTATGCCATACTATATCTTCATCTTTAGATAGTCTCCATATTAATTCTTGAGTAGCCATATAGTACTCTATACTATTATGATTTTTAAAACCATATCCATAATATGAATATAGTTCCATCTTGTATTTAGCATCTTCTGAATAACCTGAAATACTCCAATTATCATAAGAGTTATAACTATCAAAATTAATACTAGTTTCTGGTTGTATACAATAAGCTAATTTACCATTAGCATAATTCAATTTTAATTGTCCATAAGAGAATACTCTTCCATTTCTATAATGAAATGACCATACATTATCTATATAACTTTTAGATATATTAGTGTCTAAACTAGCTGCCTTTATCCCCTTTATTCCAATTAGTATTATAACTAATAAAAATATTATCTTTTTTAATCTTTTCATATTACACCTCAAATATAATATTGACTAAAAAAAGTAATATTCCACTAAAAAAAGGATTATTTAATAATCCTTTTAATTTTCTTTTACTATTTTTTCTGTTTTATTAATAACTTCGTTCATAGAACGTAATACTAATTTTCTATTATCATCAGAATTGATTTTATCTAAACCTAATTCTATCATAGTACTAGATATCATTATATTACCCATATATCCTAATAATTCATATAATGTTTTCATTCCATCATCTCTTAAACCATATTTACAAAACATATTATCTAAGAAACGATCACTTAGAGCATCTTTTGATAATCTAAACATTGAATCATTTTTATAAATAGTTTTAGCAAATATTTCTGAGAAAGTAGTACTATCAGGATAATCAGTAGTAGGTCTTCTCATAATAGATTTTAATCTATCAAAAGATATTTCTCTATCTTTTTTAATTAAAGGTTCAGTATTATATTTTTTAGATACCATTAATTGAGCTACATAAGCACATAGTTCTTTATCTAGCATCATCATACCACATTCAGGATTTGATACACTATCATTACCTTTAACTAATATAGAATATCTATCTTTAAAGCCTAATATTTGATGACTTTTATATACAGATAAATCTCTAAATATTTCATTTGCAAAATGTGTTAATTGATTAAATATAATTCTATCAATATATCTTTCACCACAGTTTTGTAAACATAATTCTCTATTTATAGTAATTACAAATCTACCATTTTTAAATCCAGATTCATAATATCCTGGTATAGAATTATCTTCTTTTATCTCTGTAAATTGTATTCTTGATAAAACAGAATCTATATTATCAGTATCAAATAAACCTGTATCAATACCAAGATCTATATATTCACCAAGTATTCCTGATAAAAAGTTTTTACGTCTTAAAATTTCTTTCATAATAATCCCCCTTTTTTAAGGTAGTAATAATATACTATTAATGCCTTAAAAAGTCAAATATTATTCAATAAATCCAGATTCTGGAATAGATAATGGATCTTTAGTTTTTTTAACATATCTATCTTCTTCTGAGAATATACATCCACAGTATTTTTGAATATATATTCCATACTCTTTAGCTTTCTCTTTTCCTTTATAGAAACCTACTCTAAAATCTCTATACAAGAAATCTATACCATACTCTTTACTTAGTTTTTCGCAGTACATCTTAATAAAATCATGCTTTTGATAAATACTATATAAAAGAGTTGTACTAACAGCATCATATCCATTCTCTTTAGCATATTCAAATAGTCTTCTTAAACGTACTGGATAACAATACTCTATACATCTAGATTCTATTCTATTAGATACATTCTTACAAAATTCATCTAATCCATAATTATCCTCTATTATTAGATTAAAATTCATAATATTAGATAACTCTTTTAAAGCATTTAATCTATTTTCATATTCTTTATATGGATGTATATTTGGATTAAACCAATATATATCTGGTTCTATACCTTCGTTTCTTAATGAATCTATACAGTATATAGAACAAGGACCACAACAAGCATGCATTAATAATTTCATATAAATCACCTACCCGAATATTATAACATATTTACGTCTTAATAATTCTTAATAATTTCTTTATTTCAAATTAATATTTGTTTTATATAATGAAATTGTAGTAAGGAGGATGATAACTAAGAAAGAAAGGAAAATCAAAAAACATAACTGTAAAATTAATTAGAGTTTTCCCTACTCTAATATACTAATAAATTAATAAATACTAAACCCCTATTAAACTTTTTAGAAAAACCAAGTAATTGGTTTTTTCTTTATATTAATGTATAATTATTAAAGGAGATATATTATGGAAAGAATATTAATAGTAGATGATAATATAGATATTGCAGAGTTAGAAAGTTATATTTTAAAAGAAGAAGGATATGAAACTGTTATTACTCATTCTGGAGAAGAAGCTCTAGAAGTAATAAATAAAGAGAAGTTTGATCTTATTCTTATGGATATAATGATGGATGGAATATCTGGTATTGAATTATGTGCTAAAGTTAGAGATAAAGTAGATTGTTCTATTATATTTGTAACTGCTAAAGCTAATTTAGTAGATAAAATGATAGGATTTGAAATTGGTGGAGATGATTATATTACTAAACCATTTGAGAATCAAGAACTAGTATCTAGAGTTAAAGCACATTTAAGAAAAGATAAAAGAAATAAAAATACTAATAAAGGTAATATTATTTCAATTGGTGAAATAAAAATAAATAAAGAAAACTATGAAGTAAAAAAGAATGATAAAAAGATAAACTTATCTACTAAAGAGTTTGAAATACTTCTTTATCTTATGGAAAACGCAGGATTAGTTTTATCTAAAGAACAAATATATGAAAATGTATGGAAAAGTTCTTATGGAGATATAGGTTCTGTAGCAGTCCATATAAAAAATCTAAGAGATAAAATAGATAAGGAGGAAAAGTATATTATAACTGTTTGGGGATTTGGTTATAAGTTTACTAAAGATATAAATGAGTAATATTAATACTAAAAAGAGTTTTATAGTTTTCTTTGTAATATTTTTAATAACTAATTTTATATTCCTTGGAATATGGTTTAAATTTGGAGTACAGTCCTCTATTAAAGAGGGATATGCATCATTAGAAAAAGAAATAAAAGAAGATATTTTCTCTAATATAGAAAAATCTATAAGAGGAGATCAAGTAGATGTAATGGATCTATTTGGAAAAATATCTAATAAATATAATCTACTACTAATAGTTAAAGATGATAATAATAATATAATATTTAATAATACTGAGGAAATAAGTGATGTAGAATATTTAATGCCATTTATGATTAATATTAATGGTAAAAACTATTTACTTAGTGTTGGTAAAACAAATGAATTTAATATAGTATCTATATCTAAAAAGTTTATGATATTTGAAATAATATTTACATTAGTTATTACAATGCTTGCATTAATTATTTCAAATGAAATACTACTTAAACCTATAGATGATACTATTACTGATATTAAAAATTATAAGTTTGGTATTAAACCAAAGAAAAGAAAAGTATCTACTGAAATAGGATATATTCAAAATGAATTCGTGGATTTAACTAATAACTTAGAGAAAGAACATGAAGAACAAAATAGAATTATATCTGCTATTTCACATGATATTAAGACTCCTTTAACAGCTATACTTGGTTATAGTGAAATATTAAATAAAAAGAAATTATCTATAGCAGAAAGAAAATCTTTAGAAGAAAAAATCTTCTTAAAGGCACAAGATATGAAAGCTATTACATCTGACTTTGATGATTATTTATTATCTAATAAAGATAGAACTTATACATTTACTAAAATTAATATTAAAGATTATTTAGATAGATTAAAACTAGAATATAAAGATGATTTAAAAGATAAAAAGATTAAATTTGAAATAATAGATAAAGTAAGAATACAATCATTTAATATAGATATAGGTAAAATGAATAGAGTTTTTGCTAATCTAGTATCTAATAGTATTAGGCATTTAGATAAGAATGGTAAAATAACTATTACATGTAAGAATGATAATGAATATGTTTATTTTGAATTTAAAGATAATGGAACAGGAGTATCTGATGAAAATATATCTAAGATATTTGATCCATTATTTACTACTAATAAATCTAGAAAAATAAGTGGTCTTGGGCTATCTATTAGTAAAGAAATAATAGAAATGCATGGTGGTAAAATAAGCGCAGTATCTAATACTAATGAAAAAGACAATACTAAAAAAGATGGTTTAACTATTAATTTTTCTATTAAACAAAATAATAATTAACTATTGACATACAATATAAAAACAAGTATACTTAAATAGTACTTGTTTGATGCAGGTGTAGTTTAATGGTAGAACTTCAGCCCTCCAAGCTGACTACGGGAGTTCGATTCTCCTCACCTGCTCCATAAAAAAATAAAACTAGCTATAAGCTAGTTTTTTTATATTCTAATCGCATATATTTGGCCATAATCTAGGATTGTTCTTATATATTCTTTTAGCTTCTGAATATGTTTTTCCCCATTTATTTCTTGCTTCTTTATATTCAGATACTGATATTTCTTTAAATACATAATTATCAAGATCAGTATAATTAAGAGATTTATTGTCAAATTTTAAAACAATTAAATCAAAACCACCAATATATCCTACTAATGATTTATCACATACAAGATAACCATATTCCTCTGTCATATAAACTTTATTCTTTTCTATCTTATAATGACCTACAGATCCGCTTGGAGAAAACATCACAGAAGTAAAGTATTCAAATTCTCCATTAACATTGAAGAACATATATGATGTTCCTCCTCCTAAACCAGTGCCTGTTTTATCTATCACATAATATTTCTTTTCAGAAAAATGCTTACCTGGAACGGTATCCTTGTTGAAAAATAATAATATAATTGCTCCTAATACTACTATGGTTGCAATAAGTACTATTACAATATTTCTTTTCGAATTAAAACTATTCTTTTTTCTTTTACTCATAATAAACTCCTATTCTTATTATCATTATATAGTATACATTAGTATTTATATGAATAAATGTATACTTATTTACAATTACATTACCATTGTTTCTTGGGCTTTTAATATTTCATCTTTTAAATAGAATTCATCAAAACCATTATTCTTTTTTAATAAGGCTCCCATTATATATTCTGGTTTTATTGTTGGAATACCAGAATCAGTATTATATATTTCTTTTCCTTTACCATCTATAATATTACCAGATTTATTTACTAGTGTAGTTGGAAACCCCATTATAACAGTAGTATCATTTTCATGATAATTTGTTATTAAATTAATATATCCACCTAAATTATTAATAGAAGTCGTAGTTAATGTTAAATCAGGCAATTTATCTGAAATAGCAGTTCCGCCGGTAGCATTACTATGTCCGAAGTTTCTTAAACCATCTTTCATAATACTTTCTAATACATCTGATTTAGGAATACCTGGTTTATCCGCATCTAAACCCATATTAGTTCTATGAATACATACTACTAAATCATCTCTATTAATAAAGTCTTCTAATGATATACCAAAATTATATGGTAAATTATATTTACCTGTATAAGAATCTATTAAATCAAAAGCATATTTCATTCCTTTATAATTAGTGGCTTTATTAATAAAGTCCTCTACTATTTTAGAATGAAATAAAGAAAAGGCTCCTCTTTGTTCTTCTTTTTGTTTAATGGCTTCTATCTTATTCTTTAATAGGTCCATTTTTTTCTTATCAAATATCATAGCAAACCTCCTATATAGTATTACCATATTATATGTATATTATAACACTTTTTTAGATATAAAAAAAAGAAATAGTAAACTATTTCTCTTTTTTTAATATTAAATACTTCTATTCGAACTATTCAGTATATTTAGCATCAGAGAATGCTAAAATTGGGAATGTTACGAATGGGAAGAAGATACTTAATACACCAAATGTAGTATCTTTACCAAATCTCTTAGCAATTTCAAGTAATGCTTTGATTTCAAATACTAAATAAATTATTGATCCAACAAATGGAATAAAAATAAAGAAAATGTATGCACCTTTTTGTCCACCAATTTCAAATAAAGTCCACATGTTGTAGAATGGAACTATAGCAGCCCATCCTGGTCTACCAGCTTTTGTAAATACTTTCCATAAAGAAACTATCATAACAGCAGCGATAGCTAAACAAATGATTAAATAAACTATAAAAGCAGCTCCAAATCCAGCTGTAGCAGCTTTAGTAGTAGTATTATAATAATTTGAATAATCAGTAGTATAATAATTCATTTTCCCTAGACTCCTTTCTATATATAATTATACAATAATATAAAATTTTTTAAAAGTATATAAAATAAAAACAGATTAATTATCTGTTTTTATTTCTTCTTTAGGTTTATAAGTTTTTCTTATAATACTATCTATACTTTTATCTTGATCAGCTTTATATAAATATAATCTATCATTATCATATTCATCTACATAAGCACAATCTACATCAATTGCTATACATTCTCTTCTTGGAGTAGGTTTTTTAGGATATCCACTTGTATATATTACAATTCCCTCAAATGTATCACTAGTACAAATATTTATATAAACAGGTTTTCCTTCCTTTAAATTTGCTGTATATAAATCAGTAAAATAACTAATAGTATCTGGTTTTTGCGATTCTGATAACCTACCTGTCATTCTTCTAACTAAGTAATCAACACCTTTATGAATAGATGGTAATACTTTTTTAGAACCTAAATATATAGTAGATTTATCTAATTCACTTTGGAATAATTCTTTCTTATATAAAGTTACTGCTTCTTGAGTTAAGTTATCTACTTTATGAACAGATTCTGTATCATATACTAACAAATCTTCACTAGTTAATTCTTTCATACGAGTTAAATAATCTTTAAATCTATCTATGTCTTCTTTAGGAATACCTTCTAGATTAGTTAAATTCCCTATACATCTAATTAAAGATCCATCATGTAAAGAGATAGTACATGATAGTTCACCATCATCTTGTCTAATCATATTAATAGTTTCACTACCTACTACTTGGTTATCAGCATATGTATATTTATACATTTCTAATAATCCTTCTCGGCATAAATCGTTTTCCATATGATATCTTATTACTCTTCCATCTTGCATATTTACATATGCACTACCATAATAAGTAGCATCATTACCTTTTTTAGAATCTACAAAAGATGCTATATTAGTATAAATATCTTTTGCTAATTGATATAATTCATTATTAGATTTTTCCATGTTAATCCCCCAAAATATGACATATATTATGCCATATATAGATATAATTGTCAAAAAAAGATAGATTTATCTATCTTTCACTTAAATATTTAATTGCCTCTGTAGCAGCTATTGCTCCGTCTGAAGCAGCAGTAACTAATTGTCTTAAATCTTTTTGCACACAGTCTCCTGCAGCAAATATACCATCTATATTAGTATAAGTATTTTTTGAAATAATAAATCCATGATCATCTAAATCTATTATAGATTCAAATTCTTCATTAGAAGATTCATATCCAATAGATATAAATAAACCATCTAATTTAATATTTTTTGAATCATCAGAACTCTTTATATCAATACTTTCTATTTTATTATTATAATTAATATTATCTACTGAGTAATTAGTTATAACTTCTATATTATCTTTATCTACTTTTTCATCTAAATCTTTTCTAGATATTAAATATACTTTAGAAGCTATATCTGATAAATAAATAGCATCTTCTATAGCAGATTTTCCTCCGCCTACGACTCCAACTACTTTATCTTTATAAAAATTACCATCACAAGTAGCACAGTAAGATACTCCTTTACCTACTAATTCTTTTTCTCCCGGAATATTTAAATGTCTTCTTTCTAAACCAGTAGCTATAATAATAGCTTTACATTTATATTCATTTTTATCTGTTATTACTTTTTTATTAATACCATTTTTAATACTTAATGCATCTTCATATATAAGTTCTGCTCCTAAAGAAGTTGCTTGAACATATAAATTAGTTGCTAGATCTGCTCCAGATATATCTATAAAACCTGGATAGTTTCTTACATGCATTGCATTTATTATTCTTCCTCCATAGTTTTGTTTTTCTATAATTAATACTTTTTTATTAGCTCTTGCTGCATATATAGCAGATGTTAAACCTGCTATACCAGCTCCTATTATAATAATATCGTACATATTAATCCTCAAATAAACTTTCTATATCAGCTTTAGGTATTAATCCTACACTTCTTTTAATCTCTTTCCCGTTTTCAAATAATATTAAACATGGTATAGATTGAATACCATAAGTAATAGCTAGTTCCTCATTTTGATCTACATCTATAGCTATTATTTTTTTATCTTTAGCTATTTCATCTAGAACTGGTTTAAGCATTCTACAAGGACCACACCAAGTAGCATTAAAGTCTACTAATACTTTCCCTTCATAGTTTAATACTTCTTTTTCAAATATTTCTTTATTACCTTCTATTATCATAATAACCTCCATATAATTATTTTAACATACTTATTATTTTTAATATTATAAATACTATTAAATTTACAATTACTATAGTAGCTCCTGTAGGAGTACTAAATATATAAGAAAGAATTAATCCTATTATAAAAGATATAATAGATATAAATACACTAGATATTACTACACTCTTAAACTTCTTAAATAATTGCATTGATGATAAAGCAGGAAATATTATTAAACTAGATATTAATAATGATCCCATTAATCTCATGCCTACTACTACCACTAAAGAACATAATATTGCAAATATAGCATTATAAATATTTGTTTTTATTCCAATTGATTTAGAAAATGTTTCATCAAATGTAATAGCAAATATTTTATTATAAAATATTATATATATAAATAATACTACTAATGTAAGAATAATACTTACTATTATATCTATATTATCTACACTAAGAATAGATCCAAATAAATAGTTATTTATATCTATATTAACTCCTTTAGTAATAGATATCATGAATGTACCTATTGCTAAAGAAGATGCAGATGCAAGTGCTATCATAGAATCTCCATGTACTTTATTACTGCTATTTAATCTTAGTATTAAAAATGATACTACTATAACAATAGGTATTGAAAAATATAATGGAGAAAAATTAAGAATAGTTGCCATAGCAAAAGTCATAAATGCTACATGAGAAAGTCCATCACCTATCATAGAGTTTCTTCTTAATACTGTTGAAACTCCTATTAAAGATGCACATAATGAAATAAGTACACCTACTATTAAAGCTTTTATCATAAATGAATATGAAAAGATTTCTATTATATTATTCATGGTGTACCCTCCTTACAAAATCTTCTAATGATTCTGAAAGAGTAGTACCATCATTAATAGATATAACTTTATTACCTATTAGATTACCATGATCTAAATCATGAGTAATCATTATAATAGTAATACCCTTTTTTTCATTTAATTCTTTTATTATTCTATATAAATCTTTCTTTGATTCAATATCTAAATTATTAGATGGTTCATCTAATATAAGTAATTTATCAGTAGAACATAAACTTCTTGCTAATAATACTTTTTGCCTTTGTCCACCAGATAATTCAGAAAAAGATTTATCTTTAATTTTATCTATTCCTAAAAGTTTAAGATTATTTAATGCTAATTTCTTTTCCTTTTTAGTATAAAAATTAGTTTTATTAAGAGTACCTGATAAAACTATTTCTAAAGATGATGCTGGAAAATTAGAATCTACTTTTGTTTCTTGTGGCATATATCCAATATAGTTTTGTTTTATACCATCAAATGTAATTGTTCCTGAAATAGGTTTAAGTAATCCTAATATTGATTTAATTAAAGTAGTTTTACCTGCTCCATTAGATCCTACTACTACAACAAATTCTCCATCATCTATATCAAAATTTACATTATCTAGAACTATATGTCCTTCATAACCAATCTTTAAATCTCTTACTTTAATCATACTCTAACCCCTTTTATACATGATTTACATTTACCATTAATAATTATATGTTCCTCACTAGTTATAAAATTATGATCCTCTAAAATATGTTTAGATAACTTATCAGCATAATCACAATCTACATGATATAGTTTTCCACATATATTACATTTTAAATAGAAATGATTCTTTCTATTACATTTACCAGTATACTGATATATAGCCTCATTATCATTGTTTATCTTTGTAATACAATTATCTTCCTCTAATTTATTAATTAATCTATAAATGGTTGTTAATCCAACTTCTTTATTTAATAAATTATATAATTCTTTAATAGTAAATTCTTTATTTAATCTACTTATTTTATTTAATATAATATCTTTTTGTTTAGTATTATAAGACATATAATCACCCCAATTTGAAAACAATTTTCAATTTTATTATATCATTATTATATATAAAATCAATAAAAAAAGACTTATTCAGTCTTTTTATTTGGAACAAATGAAAGTGTTTTATCATTTGAAGGAGCTATTTCTTTTAACCTATTATATAAAGTTGTTAAACATATATTAAACGGATAATAATTACTATGATTCTTTACTGTGTTACTATTATTAACTACTACAGGTATATGTACTGAAGAACCTTGTTGTTTTTCTATTCCTAGTTTTGGTTTTTGTGTATGGAAACCTACTAAGAAATAATCATCCATATCGTCTACTGTAAAGTAATTTGCTACACTTCTATCAAAATTATCAGAATACCATGTAAATCTTTTATTACCATTACTTAATAACTTGCTTATATCTGTACATAATCCTTTATCAGAATTACAATCTATATCCATTATTTCTGTATTTATAAATAATAATCTAAATGCATTAAATACAGCTTCATTCTCTCTTGTTATATGCATATTAAGTGAAAATTCTTCATCATACTTAATAGTACCAGATGGATCATCCATTTCACATATTATATTACATGCTCCATCAAATAAATCTAACTCAAAGCTTAATACTTTTTCTTCATGTTCTATTGATACTCTTGTTACTCCATCAAACTTTTCTACGTTATAAACCTTCATAAACCCTCCTGATTAAAATAATTATATCACATAATTATATATTTAAACTATTAAATTTTTTAGTTCCCCAAGTATTTAATATTAAATATAATAATAAATTAAATATAATAAATATAACTACAAATATAGATAAAACTATTATAGAATTTATTTTTCCAAGGAACCCTATTCCAAGTCCTACATTTAATATCATTAATACCATACCTATCATGACTGCTACAAATGAACTAGTACTTTGTTTTACTACTTCAGCATTATTTTCAGCATCTAATTTTGGATATTTAAGATTAATTAATATACCTAAAAAATGAGATATTAATGGCATTAAAATAGATAATATAAGAAGTAAAATGGCTTCTAATATATTAGTTTTAAACTTAATAAATAATGCAATATCTCCAAGTAATAAAACAGGTGTTGTTATTATTAAACAAGCATATACTTTAGACATTAATATAGTTTTAACTTTTACTGGAAGAGATTTTAAAATATTTATTTTTCTTCCTTCTAAACTAATTACTGAATTAGTAATAGATGTTAAAAATGAAGTAATAGTAATTAAAACAAATATTAATATTGAAGTATTATTAAGTAAAGATTCTTTTGTTAAACCCATACCATAATTACTCTTAGTTATTATTGATGCAAAAGCATCAAATTTAATAATAGCTAATGCTGTAAATACTATAAATAATACTAATCCAAATCCAGAATTAACTATAAATACAGGTGTATTAAAGAATGTAGATAATTCTTTTTTTATTAATGAAGAAGTCTTACTTCTAGATTTAATAACTACATTTCCTGATTTACCCTTTTTAATTACACTTTTAGCTCTAGTATTAATTCTAAAATATACTTTACTAATCATTAATATAGTCAATAAGAAAATAATAATATTTATTCCTACAAATATTAATAAACTAATAGTATTAAATTCATTTGCTAATTTACCAAATATACCTGCGGGATAATAATATTTAATAATCTTATCATTTATTATAGATGCATTATCTAATAAATAGTTTAAAAACTTATTAGAATTCATAGATATTATAAAAACACCTACTAATAAAATCATAGATAATACTATTTGAATAGCATTCTTAGATTTAAATCTATTTGCTATAGAGGATACTATAACTCCTATAATACAAGATAATGCTATTGGTATAATAGGAAGCATTATAAGCATAATTATACCTAATATTATAAAAGATATTGTAGATCCTTCATTCCATCTTAGATATGCTAATATTACTGGAAATAAGAATATAGAATTAAATATAAATTCAAATACATAGAATTTAAATATTCTTATAAATACAACAGTACTTTTTTTAATTGGTAAAGATAATAATAAATCATCATCTTTACAATTAAATATTAGAGGTCCTGATTTATATATACCCTCTATAAAAGTAAATAAGCATATTCCAAAGGATAGAATAGATAATAATACATATTGAGTATGATTTTCTGATAATTGCATAAATAACATTGTTGATAAACCAAATATAGTAAACATTAGATATAAAGATAAAACTATTGGAAGAACAAGGCCTGCTTTTCCTTTTTTCTTATTCTTTATTCTAAATATGTTCATATCAGAAGTCATACATGCTTTTAATAATGAACGTAATTTTTTCATTCTTTATCCTCTAATTCCATAAATACATTTTCTAGAGATTTATCTCCTTTAATCTCTTTCATGCTTCCACTCTTAATTAATTTACCATTTTTAATAATAGCTACTCTAGAACATAATTTTTCTGCAACATCCAATATATGAGTAGAATAGAATACTGTTTTACCCTCTTTAACCATTTCATTTAATACTTCTTTTATATCAAATACAGCTTTAGGATCTAAACCTACAAATGGTTCATCCATTATAAGTATTTTAGGGTCATGTGCTAAAGCAGATATTAATACTACTTTCTGTTTCATACCATGTGAAAAACTATCTATAGTATCTCCTAATTTAGTATCCATTTCAAATAACTTAGCATATTTTATAATATTCTTTTCTCTTGTTTCATTATCTACATCATACATATCACAAATAAAATTAATATAATCTATTGCTTTCATATGTTCATATGTTTCTGGATTATCAGGTACATATGCCATTAATTTTTTACATTCTACAGGATTCTTTTTAATAGATATACCATCTATTAATATATCTCCTTCATCAAAATCATGAATACCTACTATAGATTTAATAAGAGTAGTTTTACCTGCTCCATTATGACCTATAAAAGCAAATATATCCCCATCATTAACTGTAAATGATACATTATCTACAGCAACTTTATTTCCATATTTTTTAGTTACATTTTTTATTTCTATCATAATAACCTCCTAATAATAATTATATCACAAAAAAAGACTACTATATTTAGTCTTTATTCTTTTTTGGTCTAAATAATATATTAGCTAACACTATACATAAATTAGCAGCAAAAGTAAATCCTAATGCTAATGCTAAATACTTAATACTAGTTCCATTTTTAAAACTCATTACTAAAAATACAATACCTGCAATTAATAATATTGTTCCAATTATTACAAATATTAATTTCTTTTTAAAAATACTTTCCATTCTTATAACCTCACTAGAATAATTATAACAAAAAAGACTAGATTATTCTAGTCTTCATAATCTTGCATTTCCTCTAATTTTATTCTTAAAGTATCATTTTCTTCTGTTAATCTATTTATTTCATGTTCATACTGTTCCAAAGTTGATTGATATTCGCTTTGTTCTTTAAAATAATTTTCAGTATTATTTTTTAATATATCAATATTTTGTTTATTAGCATAAACAGTTACTTCTTCTATATATTGATCAAATGCAATAATCTTCTTATCATTTAAGTTTTTAATAACTTCTCTTGCAACTTTCATAGGATTATGACATACAGCATAAGCATGTAATATATTTTCATGTTCACTTTCATCCACATTACAATATTTATTGATTTTATATTCAACCTTAATATTATTAATATCAGATTCAATATATACAATACTATCATAACCTAATCCAGCAAGAATTAATTCATTATTCATATCATGTTCTTTAGTAATAACTTTAGACATACTATCATTAGTTTCTAAAGTATCAAATTTTAATCCACCCATAAATGATAAACCAAATCCAATACCAAATAGAATAAGTCCTATTAAGAAACTCCAAATCATATTTTTCTTATTTGATTTTCTATTAAACACAAAATTTAATACTAATAATAAAATGTCTCCTACTATAATAGCAGATGCTAATATAGCAATAATTAAACCTATAAAGAATAAACCAGTTTTAATAACTAGGAATGATAATATAAATGCACAGAAAATTCCAACAAGCATAATAGCTAAATATAATGCAAAGAATAATGCAAAGAATTTAATCATAATTACTATCATTCTTAATATTAAATTAAAGAATCTATATTCACTATGTTTAGGATCTCTAATAACTATTTTTCTTTCCTTTTTATCTAATTTAACATTACTATCTTTTTCATTAGTTTCTTCGCTAGTAGTTTCTTCTACAGTATCCATCTTCTCATAATAATCAAGATATCTCTTTTTAAATACATGAGTCATTATTACTATAGATAAACCAACACATAATATAACTAATATTGAAGTAATAATATTATATATAATAGATACTGCTCTAGCAGGCATAAAACTAAATATACTTGTAAATAGTGCACTAAGAGCTCCTACTATAACTAAAGATATTATTAATAAAATACCAGCTATAACAGCTTGTTCAAATAGACATTTAATTTTACTTTTAAAAGTCATATTACTAAACATATTAACTGTATTAGTAATATACTTTAAAAACCCTGTTACTGCAGAATTAACTTTATTTTTACTTTCCTCTTCTCCTTTTACTTCTTTAATATCATTATGTAATAAATCATCAATATTAACATTAAACTTATTACATAGTGCTATTATTTTATCCATTTCTGGATAAGCTTGTCCTGATTCCCATTTTGAAATAGCTTGTCTAGATACTCCTAATTGATCTGCAAGTTCTTCTTGTGAAAGGTTTTGTTCCTTTCTAATTCTTTTTAGATTTTCTGAAAATTGATTATTCATATTTTCTCCTCCTTACATACTAATTTTATAATTTTCTACCAGTTGCGAACTACCAACTTTCGGTTGTTTTTTGTAAAATATTGGTTGCATATTTAATATTTTATCATATTTTTAAGCAATTTTTCTTTTACATAATAAAAAAGACTATAAATAGTCTTTAATATTGTAATCCCCATAAAACATGATGCTTAGCTTCTTTTCCACAGCATACACATTTACCAGTTATTAATTCTTCATCAAGAATACATCTTGATTTACATCCATTAAGTTCTTTAATCTTTAATTCACATTCAGTATTACCACACCAATCTGCATGTATAAATCCTGGTTGAGTATTTAATATATTTCTCATTTCTTCATAATCTTTAGCAGTGAATGTAAGACTATTTCTTCTTTCTACTGCTCTTTTATACATATCATTTTGGATAGTATCTAATAGATTATTAACATATGTCACTACATCTATATCTTTATCTTCATTATATTTTTCTGAAGTATCTCTTCTTACAAATGTAATCTTATTATTTTCTAAATCTCTTTTACCTACTTCTATTCTTACTGGAATACCATTTACTTCTGCTTCAGCAAATTTAAATCCTGGAGATTTTTCAGTTTTATCTATATAACATGTAATACCTTTTTCATTTAACTTAGAATTTATTTCTTCTGATAAAGTATTTACTTTATCATCATCTCCTATTGGAATAATAACTACTTGTTTAGGAGCTATTTTAGGAGGTAACACTAATCCTTTATCATCAGAGTGAACCATTATTAGAGCACCTATCATTCTAGTAGTAGTTCCCCAAGAAGTTTGATATACATATTCTAAATTATTTTCTTTATTTAAGAATTTAACATCATATGCTTTAGCAAACTTTTGACCAAAATAATGACTAGTCCCTACTTGAAGTGCTACACCATTATACATAAGAGCTTCATTAGTTAATGTATATTCTGCTCCTGCAAATTTTTCTTTTTCAGTTTTAGTTCCAGTAATAGATGGAATAGCTAGTATATCATTATGAAACCATTTATATACCTCTATCATTTGATTAGTTTCTTTAATAGCTTCTTCTTCAGTAGAATGAATAGTATGTCCTTCTTGCCATAAGAATTCTCTACTTCTTAAGAAAGGTCTAGTTTCTTTTTCCCATCTAATTACATTACACCATTGATTATATAATTTAGGTAAATCTCTATAAGAAGAAACATGATCTTTATAATAATCACAGAACATAGTTTCAGATGTAGGTCTAAAACATAATCTTTCTTCTAATTCTTTAGATCCTCCATGAGTAATCCATGCTACTTCTGGAGCAAAACCTTCTACTAATTCTCCTTCTTTCTTTAATAAAGATTCTGGAATTAATACAGGCATTTGTACATTTACATGTCCTAGTTCCTTAAATTTCTTATCTAATATTTCTTGCATCTTTTCCCATATAGCATAACCATTAGGTTCAATAGCAATACATCCTTTAACAGAAGTATAACTAGCTAAATGTGCAGCCATAACTACATCAGTATACCATTTAGCAAAGTCTTCATTTCTTGGTGTAATAGCATTATTTTTCATATTATCATTCCTTTCAATAAAAAAAGATGGTACTAAGGAGTCATTAAGACGGTACCATCCTCTATTTAACTTAATTTAATAACGGTTTAACCCGGAAATGTTTACATTTCACTTAGAAGTAGGAATCTATATATCATTATATTAGTTTACACCAACCACTAACTCTCTTTAATAATAAGTATATAAATCATGTCTTCATCAACGTTTTACAACTAGATATTATCATATTTTTAATTATATGTCAAAGTAGTTATTTATTTAATATTCTTGCAAGTAATACTCCAGAAGCTGATGCCATCATTAATCCTGTTGTTAATCCTCCTCCATCTCCTATAGAGTATAATCCTTTAATACTTGTTTCTAATCTATTATTTAATACTACTTCATTACTATAGAATTTTATTTCAGGTCCATATAATAAATTATCATCATTTGCAAAACCAGGTGCCACTTTATCTATAGCTTCAATAAAGTTTAATATATCAGTCAAAGTTCTATAGCCTAAACTATATGTTAAATCTCCAGGAACAGCATCTTTTAAAGTTGGAACTACAGAATTATTTTCTATTGAAGATACATGTGATCTTCCACCTCTTTTAATGTCTCCTAATCTTTGAACCATTACATGTCCTGCTGCTAAACTATTTAAATTCTTGGCAACACTTTCACCAAACTCTATAGGTTTATCAAATGGTGTTGTAAAATGATGAGTTACAAGTATAGCTAAGTTAGTATTAGTACTCTTTTTATCTTTATATGAATGACCATTAACTAATACTAGTTCATTATCATATACTTCAGCAGATACAAATCCACTTGGATTTTGACAAAAAGTTCTAACTTTATCTTTATATGGATCTAATCTTCCTATAAACTTTCCTTCATACATATATTTATTAATATCTTTCATTACTTCATCAGGAAGTTCATATCTTATACCTATATCGACTGCTCCTATCTTAGTTTCTATATTATGTTTAGAACACATATTACTAAGCCATGAAGCGCCTTTTCTACCAACTGCTAAAACTATTTCTTCTCCATATATAGTTTCTTCTTCGTTATAATTATTATGTTTAATAATTAATCCTTTAGCTTTATTATTTTCTATTATTAAATCTTTAACTTCAGTTTCATACATCATATCTATACCATGTTCTTCAAGATAATCTTGTATCTTAGTATATAATACATGAGCTTTTTCAGTACCTAAATGTCTAATAGGACAAGATACTAAACCAAGGTTAACAGATGCAGCTTTCTTTTGTAATTCTTTAATCTCTTTTTGATACTCTAATCCTTCTAAATGAGTATCTGCTCCAAATTCTAAATATATATTATCAGTGTATGTAAGTAAGTCTTTTATTTCTTTTTCACTAAAATATTCTTTAATGTATCCTCCACCATTACCACCTAAATACATATCATCAGAATTACCTAAAGAGGACATATGATAAGAAAGAACTTTACCATCACTAAATGCACCTGCTCCACTAAATCCACAAGTAATATTACAAAATGGTTTACATTTCATACACTTACCTGTTTTTTCTATAGGACAAGCTCTCTTTTTAATATTCTTTCCTTGATCAATTAATAATACCTTTTTATTACTTCCTAGTTTTATTAATTCATATGCTAAGAATGCTGCACTAGGACCCATTCCTACAACTATTAAATCATATTTCATATACCTCACCCATTTTAATTATAACATAAAAAAAACTAGATTAATCTAGTCTTTCTTTAACAATATTATTTATTTCATTTATTCTATTATATGTTTCTTCATTTCTTAAATTAGATTTAGCATACTCAAATATATTTCTAATATTACCTATTATATCCTTATACATATCTATCATCCATTTATGTCTCGGAAACATCCATATATGGAAATGATTATTTTCTTTTTCTTCACATATAATATCAAATCTATCACATATATTATTATCTTGTAATATTTTAATAACTTTATTAATTAAACTAAACATTTCATTTCTTTCTTGTTCAGTTAATTCAGTCATTTTTTCAATATGTCTTTTAGGGGATATTATAAACATACCCTCTATAGGTAATTCCCAGTCTTGATTAATTACAAAGTTATCATTTTCAAATGCTCTTCCACATGGTAAATCAAATTCATGATTACTAAAAGCACATCCAGGGCAACCATTAAATATTATTTCTTCATTAGCATAGTTTTTCATATTAACCTCTATCAAATTCATTAATAATATCTATTACTTCTTTAGTATGAGTATTAGCTATATCATGTCCACCATTTTCTATTAAATGAATTCTTTCTTTAATACTAGGATCAACTATATTAAGCATTCTATTTGGATCTACCATAGTATCTTTATCCCCATATATTAATATATAATCTCTAGGATTAAATTCTTTTAAAGTATCAGCAAGTTCTACTCTTACTATAGATTGATATGTATTTCTTAAGAACTTAGTTCCATATACCATTTCAGGTACTTTTACTTTATGTACTAAATAAAAGTTTCTTAGAGCTTTTCTTATAGGATTAAATATCCTAGGAGTCTTGATAAACTTCTTTGATTTATCTTGGTTTCTTATTAAAGCTGGAGATACTAATATTAATTTTACATTTCCATATTTCTTTAAATAAGTAACTGCTACTGCTCCACCAAAAGAATAACCAAGTATATAATCTGGATTAAAATCATTCTTAACTATATAATCATGTATATAATCTGCAAAGTCTTCTAAAGAATATTCTTTTACATTAGGTTCTTTTTGTAAACCAAATCCTGGTAAATCAGGTCTTTTTACTATATAATTCTTTTCTAATTCATTTATAAATTTAATTCTATTATTCCAAGCTTCTTCATTTACTCTTCCATAATAATTGTCATAATTCCATCCGTGTATTAATAATATTTTTTTCATATATCTACCCTACCTAAATTATCTATATTAAATTCATCAAATTTTCTATAATAACTACCATAATGATAAAAGATTTGTACATCATTATCAATATCTTTTATAAAATCATGATTAGATACTATTATAGCTTTATCATTCTTTAATACATCTAAACATTCTATATCATTAAATAAATAAACTTTTTCAAATCTATCATAATATTGTGGATATTTACTATAATCCTCATCTTCTTCTCCACTAGTAGTTAAATATCTAATTATTAATATAGCTCTATTATAGAAATGATTAGTAAATTTACTAAATCTAGCTACTCCAGAAACATCTCCATCAAATATAATTTCTTTATTAAATATATAATTCTTATTTACTCTATATTCTACTGGAATAGCTTTATTTAATCTATCTATTACAATATCTTCTGGAATACCAAGTATTATACCTACATAATATGCAGAACTATATTCAACCTTAGAAATATATGTTTTTAAATATATATTAATTTTAGAATTTAATTTAGATATATCATATAATTCTTCTACATTAGATTCCATTTCATAATCTTTATATATTAATTTATGATTATCAAATTTTATCTTAGATAATTCATTATCTTCCATATTAATTAGAGCATATTTGGAATACTTAAATACTTCCATTTTACATTTAGTTATGTCTTCTACACTCTTTATTCCATCTATACCAATATGCTCTGGTAATATATTTAAACATATACTTATAAATGGTTTTAGGATTTCACTAAAATACTTTACATGATGTTTATAAAATAAACTAGCTTCTAATACTAGGTATTCTATATCTTCTGTTAAATAATTTATTAAATTAGTTTTTAATACTATTGGAGTAATTCTTTTAGCATATATTCTAAGAACATTATCTTTTATAACATCCTTTATTAAACCAGCAGTAGTAGTCTTACCTACACTACCAGTTACTAATATAGTTTTAAATTTTCTATTACTAATATAATAATTAAATAATTCATCTATACATTTCATAATATCAGGTACTATTATTACTTTAAGATTATTATTATTTATTCTATTATATGTTTTTTCATCTAATACATAAGTATATTCAGGATATTTTTTAATTAATTCATCTATAGTATTTCTAGTATCTGATTTTCTAGGATACCATCCACCTAAATCATCTGCTTTATCTACATATATTGGAAAATATAAAACATTACTATTTTTTGGTTCATTAATGTACTTAAGTGTCTTAAAATAATTATAAACTGTATTCTTATCAACATTTATAGTTTTAGTAATGGTAATTATTTTTTCTAAATCTGCATAACTAAGTAAATTATGTTTCATAATTTCACCAACCTATATATAGATTATATCATAAAAAAAGACTAGAAAATCTAGTCTTTTATTTTTTTGTTATTGTCGCATTTGAATACAATATTTGTGCATTATTATATGCTTCATCAAATGTATTGTCATAGAATTCATTATTTATTCCTGTACGCTTATAAGTAACCACATTACCTTCTTGTTTATAATCCTCTATATAAGTTTGACCTTCCATATTCATACCATAAACAATAGCATTACTTTCCTTCATAAACTCTAGTCTATAGTTTTCTGAAATACATTTACCATTTTCAAATTCTAATGTTATATCATAATTTGTTATAGCTTCCCATCTTGTATCTTTATCTACATTTGAAATAATTATACTTTTATAAGATTCTTTATTACCACAACCAGTTATAGTTAATACTCCTACTATAATTATTACTAAACATAATAATATTTTTTTCATTAATTATCACTCCTTATGATAATTATAGCATTATAGATTAAACATATCAATTAATCATAATTCTTGTTTACACATATACTTTTATAATAAAAAAGACTCTAATGAGTCTTTTTATTAATTATTTTTCTTTGCTTTAATAGCAGCTTGAGCAGCAGCTAGTCTAGCAACTGGAACTCTAAATGGTGAACATGATACATAATCAAGTCCTGCATTATGATAGAATTCAATTGATTTAGGATCTCCACCAGTTTCACCGCAAACTCCTAAATGAAGTTCTGATCTAGTAGATCTACCTTTTTCAGCAGCCATTTTAATAAGTTGACCAACACCTTTTTGATCAAGTGTCTTAAATGGATCTTCTTCATAAATTTTCTTTTCATAGTATGCAGGTAAGAATTTACCAGCATCATCTCTAGAGAATCCAAATGTCATTTGAGTTAAGTCATTTGTACCAAATGAGAAGAATTCAGCTTCTTTAGCTATTTCATCAGCAGTTAAGGCAGCTCTTGGAATTTCAATCATAGTACCAACTTGATACTTCATATCTACTCCAGCATTCTTAATTTCTTCATCAGCTGTAGCAACAACTATATCTTTAACATATTTTAATTCTTTTACTTCACCAGTTAATGGAATCATAATTTCTGGAGTAATATTCCAGTCAGCATGTTTCTTTTGAACGTTAATAGCAGCTCTAATAACTGCCTTAGTTTGCATCTTAGCTATTTCTGGATAAGTAACAGCTAGTCTACAACCTCTATGACCCATCATTGGATTAAATTCATGTAATGAAGCAATAATTTCTTTAATTCTTTCAACTGATTTACCTTGAGCTTTAGCAAGCTTTTCGATATCAGCTTCTTCAGTAGGAACGAATTCATGTAGTGGAGGATCTAAGTATCTAACTACCACAGAATCACCTTCTAATGCTTCATATAATTCTTCGAAATCACCTTGTTGATATGGAAGAATCTTTTCTAGAGCAGCTTCTCTTTCTTCTACAGTGTCAGAACAAATCATTTCTCTAAATGCAGCTATTCTGTCTTCTTCGAAGAACATGTGCTCAGTTCTACATAAACCAATACCTTCAGCTCCTAATTCATGTGCTTTTTTAGCATCTCTTGGAGTATCAGCATTAGTTCTAACTTTTAATGTTCTAAATTTATCAGCCCATTCCATAACTCTACCAAATTCACCTGAAATAGTAGCGTCAACAGTTGGAACAATACCATCATAAATAGCACCAGTAGTACCATCAATAGAGATTTCATCTCCTTCATGGAATGTTTTACCAGCTAATGTAAATTGTTTATTTTCTTCGTCCATTGCGATATCACCACAACCAGATACGCAGCAAGTTCCCATACCTCTAGCAACTACTGCAGCATGTGAAGTCATACCACCTCTAACTGTAAGAATACCTTGAGCAGCTTTCATACCAGTTATATCTTCTGGAGAAGTTTCTAGTCTAACTAAAACAACTTTCTTACCATTTTCTTTCCACTTAACAGCGTCTTCAGCAGTAAATACTATTTGACCACAAGCAGCTCCTGGAGAAGCTCCAAGACCTTTTCCTAATTGTTTAGCATCTTTTAATTTAACTGCATCAAATTGTGGATGTAATAATGTATCTAAGTTTCTTGGATCAATCATTTCAACTGCTTCTTCTTCTGAACGCATTCCTTCATCAACTAAATCACAAGCAATTTTTAAAGCAGCTTTAGCAGTTCTTTTACCATTTCTAGTTTGAAGCATATATAATTTACCATGTTCAACAGTAAATTCCATATCTTGCATATCTCTATAATGTTCTTCTAGAGTTTTACATACATCTTTAAATTGTTTAAATGCTTCTGGGAATTTTTCTTCCATTTCAGTTATATGCATTGGAGTTCTAACACCAGCAACAACGTCTTCACCTTGTGCATTAGTTAAGAATTCACCAAATAAACCTTTTTCACCAGTAGCTGGGTCTCTTGTGAATGCAACACCTGTACCACAATCATCACCCATGTTACCAAATGCCATAGATTGAACGTTAACAGCAGTTCCCCATGAATAAGGAATATCGTTATCTCTTCTATAAACATTAGCTCTTGGATTATCCCATGATCTAAATACAGCTTTAATAGCTCCCATTAATTGTTCTTTTGGATCATTAGGGAAATCTGTACCTATTTTAGATTTATATTCAGCTTTAAACTCATTAGCTAATTCTTTTAAATCATCAGCAGATAATTCTACGTCTTGTTTAACTCCCTTAGCTTCTTTCATCTTATCAATTAATTCTTCAAAGTATTTCTTTCCAACTTCCATAACAACATCAGAATACATTTGAATAAATCTTCTATAACAATCCCAAGCCCATCTTGGATTATTAGATTTTTCTGCAAGTACATTAACAACTTCTTCATTTAATCCAAGGTTTAAAATAGTATCCATCATACCTGGCATAGAAGCTCTAGCACCTGATCTAACTGATACTAATAATGGATTTTCTTTATCTCCAAATTTCTTACCAGTAATTTCTTCCATCTTGATGATATATTCATCAATTTGAGATTTAATTTCATCATTAATTTCTCTACCATCTTCATAATACTTAGTACAAGCTTCTGTAGTAATAGTAAATCCTTGAGGAACTGGTAAACCAATGTTAGTCATTTCTGCTAAGTTGGCACCTTTACCACCAAGAAGATTTCTCATACTAGCATTACCTTCGGTAAATAAGTATACGTATTTCATACTTTCATCCTCCTAATACAATGAATATTATATAAAATATAAGAGTTTCATTCAAGAGATATTTACATAAAAAAACAAAAAGTAGTTTCTACATGAAACTACTTATATGCATAGTTGTATATTTAGAATTATTCATAACATAATTTAGTACTTCATCAACATTATCATCTACCATAATAATATGTTCATCATCAGTATCAGGATTAAGTTTTTTAACTAAATTTAATGCCTCTAATTTATCTTTAAAATCTCTAACATACATTATATTTTCTTTTTTTACATTATAATTTCTAAGAAGAAAATCATCTTTAATATCTTGCTCTTCAGTAGATAATACTCTAGATAATACATATATCCTATTAGAATCTAATTTATCTAGAAATTTCTTCATAGTATCATTTACCAAATCATCAGTATAAAAGTTTCTTCCTCCTACTACAGCATCTCTAAATTGTTCATCACTATCAATACTTGAATCCTCATTATAATAGTGATTATTATCTCCAAATTCCATTTTAGCTAGAACTCCATCAACATCAAATACAAATATACTTTTTTCATCATTTAATAATTCATTTAATCTAGTCATTACTTCCTCCTTTCATAGTCAAAGCTACCTTTTCTTTATCTTTAAATATTTCTTTTACATATACTTTTACTATATCTCCTACTGACAATACATCAGATGGATGTTTAATATAACTATCAGATATTTCAGATATATGAACTAGTCCATCATTATGAAGACCTATATCTATAAAGGCTCCAAAAGGTGCTACATTTCTAACTGTACCTTCTAGTTCCATACCCTCTTTTAAATCATCAATAGTTAGTACATCACTCTTTAAAATAGGTCTAGGTAACTCATCTCTTGGATCTCTATTTGGTTTTTCTAGAGATTCTATAATACCTTCTAAAGTATATATATCTATATTTAAATCTTTAACTAATTCATCTTTATTAACACTTTCTAGTTTATTAATTAATTTATCAGTACCAATATCTTCTAAAGTTAAATCTAAACTAGATAGTAATTTCTTAGTAACATCATAACTTTCTGGATGGATAGATGTTTTATCTAAGATATTATCTCCATCTACTATTCTAATAAAACCAATAGCTTGTTCATAAGTTTTATCTGTTAATAATTTAGAAATTTCTTCTCTAGATTTTATTTTACCTTTATCTTCTCTATATTTAATTAATTTATCTATACTTCTTTTTGTTAGTCCTGAAATATATTTAAGAATAGACCCTGATGCTGTATTAATATTAACACCTACTTGGTTAACAGTTTTTTCTACTACGAAGTCTAATCTATCTTTTAATTTACTATCAGGTACATCATGTTGATATAGACCTACTCCTATTCCATCAGGTGGAATCTTAACTAGTTCTGCTAATGGATCTTGAAGTCTTCTTCCAATAGATACTGCACTTCTTTCATTTGGTGTAAGATTTGGAAACTCTTCTTGTGCAATTGGTTCAGTACTATAAATAGATGCCCCAGCTTCATTAGTAATAATATATTTGCAGGTCAAGTTATATTCTTTAATAAGCTCTGAAACTAGTTTTTCAGACTCTCTAGAGGCTGTTCCATTACCAATAGATATAATATCTATCTTATAGTCTTTTATTAATTTAACTAGTGTATTCTTTGATGTAATTAATCCATTATTAGAGGATGCAAATGGATTAATTACACATGAATATAAATACTTACTAGTTTCATCTAAAACTGCTAATTTACATCCGTTAGAGTATCCAGGATCAAAACCTAATACTCTTTGATTTTTAATTGGAGGTTGCATTAATAAACTTTCTAAATTCTTACCAAAGTTCTCTATAGCTTCATCCCCTGCTACTTCAGATAACTCACTTCTTATTTCTCTTTCTATACTAGGTTCTATTAATCTAGTATAAGAGTCCTCTATAACATTTCTAACATACTCTGCACATTTATTTTCTTTCTTAATCATTTTAGATTCTAAAAACTTAATAATATATTCTTTAGAAGACTTAATTGATACTGTTAATACATTTTCTTTTTCTCCTCTATTAAGAGCTAATACTCTATGAGGTTTAATCTTCTTAATCTCTTCTTCAAAGTCATAATACATTTCATATGTCTTTTTAGGATCTTCAGCATTCTTTTTTAATTTAGAAGTAATAGTTCCATGATTAAATGTATTATCTCTAATATATTTTCTATAATATGCATTATCTGAGATATACTCTGCAATTATATATTTAGCACCTTGAATAGCATCTTCTTCAGTCTTAACTTTATCATTTAAAAACTTATCTACATATAAAGTATCTGGAAAAGATAATATAATTTTAGCTAGAGGCTCTAATCCATTATTAATAGCATCCGTAGCCTTAGTCTTTTTCTTTTCTTTATATGGTCTATAAATGTCTTCTACATCTACTAACTTTTTACATTTAAGAATACTATCTTTAAGTTCATCAGTAAGAAGACCTTTTTCATCTATTAATCTAATTACATCTTCTTTTCTTTTTAAAAGATTGCATTCATATTCATATACTAAAGAAATAGACTTTATCTTGTCCTCATCTAATCCTCCAGTAAACTCTTTTCTATATCTTGCTATAAAAGGAATAGTATTTCCTTCTTCTAATAAAGACAAAGTCTTACTTACTTGATCTGTTGTTATATTTTGTTCTAATGCAATACTGTTGATTATTTCGTCATTCATTTTATTCACCCTAAAATAATTATATCATAAAGCAAATAAAAAAGAAGACTATTTGCCTCCTTTACCTCCAAAATCATCATGCGGAAAATTATCATACAATTTTGATTTTTTTAGACTTGCTTGTAAAAAATTTAAACCATCTTTTTCAATAACTTCTAATTCACAGTCTACACCAGGTTCTCTAGCATTTCCAATTTGAGACACAATAGATAAAACGCTAGTTGCCTTACTAACGTCACTCATTGGACCAATTAAAGCTTCAAATTTTCCTTTTTCTCTTATTTCATCAAATATTTTTCCTGAATCTATTTCTTCAGGACTTATAATTCTTTCTTTCATATTTATCACTCCTATTTTTTAGATTTCTTAGTACTTTTAGTATCTATTAATGTATTAAACATAGATATTAGTGCACAAGATATAATTACTCCTCCTAGAATATCACTAGCCCAGTGTACACCAGAAATAATTCTACCTGCTATTACTAATGTTAATAATGTTAATACAATTACTTTTAAAAATTTAGAATATTTACCAAAATATTTATCTGATACCATACAGAAACTAATTGCTACACACATTGCAAGTACAGTATGACTTGATGGATAAGAAGCTTCTAATACTTTATCTATAAGTATTGGTCTATAATTTATTATTACTTTTTCAAAACCAACATATACTATTGCCATACATGCATATAGAGCTCCAAGAGATAAAATTTCTTTATCAACCTTTAATGGATTCTTTCTTTTTATTAATTGAATTAAACCTATAATAGCAAATACTACAACTATTAATAATAAAGCATAACCAAGATATTCAGTTACTTTATATATAGTCATATTCTTTCCTATTACATTTTTAAACCATTTGTTTACTACTGCAAATCCAACTTTTGATTTTTGTGGACCAATAGCTTTAACATTAATAGTTTTAACTAAATATGTATATACCCCAAATATTATAAAGAGTATACCTGTTAATATAATATTCTTCTTTTTCATATTTAAACCTCTCTACTATATATAATTATAACACAATTTATAACATGATTCAATTTTATTTCTTTATAATATTTTTAGTCCATTCTTTTGCTTCTTCAAATAATATATTTGCTTTTTCCATTAAATAATTAGGATCCTTTATAAATCTAGTTATTTCTTCTTTATCATAATTATTTAATATATAATTTCCAATCGTATAAGCATATGAATATTTTAATTTTATAGTTGATGGATTAAAATTATTAACTAATTCATTAAAATCGCATTCATTTAAATTACATGTTGAATACTGAGATTGATTAGATAAATTAGTAGCTAATCCTTCACTAAACCATATACATTCTCTTGGAAATTTCTTTACTAATAACTGACATTTATGAATTATTTCATGTAAGAGAGTCCCCTTAAATTCATCAAGATTAGCATTTTTATGAGTAGTATATTTTTTTTGATCATCTATATTTAATAATTTAATAGTCATTGAATAATCTGAAAAACCTCGTTCATAACCTAGAATCTTATGATTTTTTTCCTTAGCATATTCCATAAAACCATCATAACTCATAATTCTAATAGTAATCTTATCAGGTAAATTATCTAATTCAAAAAATTCAAATATTCTTTTTTCATTTTCTAAAACATAATTAACTATATCATCAAAATAATCTATCTTAATATCACTTTCAATTATAAAATTATTTAACTCTCTTCTCATATATTTCTCCTAAAAAAATTATAACATAAAAAAAGAGAATAATTCTCTTTAATCATTAAAATCAGGCTTAGGCATTTTATTTCTTGATTTAATTAATATACGATAATTATTCTCATCAAATTTAATATCTCTTTTTGAATAGTTCCATAAATCTACCACTTTTTGGTATTTAGTACTAATATCTGAAGTTGTATCTAATGCAGCATCTAAATACAGTCTTCTAAATTCTTCATCAGGAAGATTTCCTCTACAAAGAAGATCACCATATGCTTCATCAGTATATACTCTAAATACTTTACTAGTAGCTATTTGAGTTATACCATTTAATTTATGATAAAACTTTCTTATCTTTTCAATTGTTAAATGATATAAATGGATAAATTGTGGGCCATTATTTTCAAATGCTATTTTTAATTTTTCCATTCTATTATTTATTATAGAAACATATTCTTTAGATGTTTCTTCATCTAATTTAGGTAATGGTTTAGAGAACTTATCAATAGCATATTCTTTTAATTCATGTAAATCACCATGTTTATCAAATATAATTCTTGCTCTTCCAACAATTGCAAATAAAGCACTATTTTGATTATTAAAATCATTATCTATTGATTCATACATATCACTAATAGGCTTTTCAAAATACTCAACTCTTATACCATCAATAATAGTATTACCTCTAATTAATCTATCAGGTTCTTCATCATCATATATTATATGTAAATCTAAATCTGAGTATTTATTATTATAACCAGTTAAAAAACTTCCATAAAAGAAACATCCAAGTACATGATCATCATCTAGATATCCCATTATATTAATAAATTTAGTAATTGTATCGCCTATATTAACTTTTTCCATATATACTCCTTAACTTATATGTTTTTTACTTTCATATACTAGTCTTTTTATATTTTCGTATTGTGTTTCACCAAATAGATTTGTAATAACAGTTTGAGAATCAGGAAAATATTCTAATAAAACATCACACATAAAATCTAAAAATACTCCATTATTTCCTTGATTACAAGCAACATCTTTTACTTCTTCCCAAGGCATTCCTTTAGATATACATTCCATTATTTGAGCAGCATCCTCATATGCAGATAGTCTTACTGCTATTAAATAATCTGTTTCAGGATTTCCAGATGCATAAAGAAATTGTCTTATATCATGAGTCCAAGAATCTACTTTATCCTCTTTACATAAATCTTTATATTTAGACATATTTCTAATATATTCTTCTGCTATTAAACTATATGGTTTCCCATCCTTAGTTAAACATATCATTTTAGAAAGTTGAACATCTCTCATAGCGTTCATAATAGTAGCTTCCATTAGTTCTTCTACTCTTTCTTTATATTTTTTCATATATACCCCCAAAAAGCATAATTATTATAACAAAAAAACTAGTCAAAGACTAGTATTTTTTAAATGGTCGGGAAGACAGGATTTGAACCTGCAACCTCTTGGTCCCAAACCAAGCGCACTGCCAAGTTGTGCTACTTCCCGATATAATTTTAAAAATGGTGCGCTCTAAGGGATTCGAACCCCTGACCTTTTGGTTCGTAGCCAAACGCTCTATCCAGCTGAGCTAAGAGCGCATACGCACTTCAAAGAACATATAAATAATATCATTTTATTTATTTAAAGTCAATAATAATAAAAAAAATAAAGAATTTTTACATTCTTTATTTTTTTCTCTTAAATAACACTTTCTCAACAGCAGTTAAAATCTTACTAATAACTCTGCCTTCAGCTCTTGACACTAACCTCTTTCCAAGTTTTCTTGGATAAGTATTATTCTTTTTCTTTTCTTCAGCTTTTTTTGCTTTTTCTTCTTCTCTTATTCTCTTTTCTTCTGCCTTCTTGGCTTTTTCTTCCTCTTTAATTCTTTGCTCTTCAGCTTTTCTAGCAACTTCTTCTTCAGTTATTTTATCTATTTTTTCAGAAGCTGATTCATCATTAGTTCTTTCATCATATTTACCTGCAAGCGGACTATTATTAATAATTCTAAGTCTTTCAGAATCACTAATAACACCTATTCTACTTTGTGGAGGAAGTATAATCACTCTTTCACAAACCTCAGGTTCACCTTTTTCATTTTGGAAACTTACTACTGCTTCACCAGTTCCAAGTTCAAGTATTGTTTCAAAAGTCTTAAAATTAGGATTTGGTCTAAAAGAGTCAGCAGCAGCTCTAACAATTTTTTGTTCTGCTGGTGTATATGCTCTTAAGTTATGTTGAACTCTATTACCTAATTGTTCAATAATAGTTGAAGGAATATCTCTAGTACTTTGTGATATGAAATATAAACCAATTCCTTTAGATCTAATTAATTTAACTATCTTTTCAATTTGCTTTAATCTATATGTTGGCATTTCTCTAAATAAGAAATGTGCTTCATCAAAGAAGAATACAATCTTTGGTTTATCTAAATCTCCAACTTCAGGCATCGAATCATAAAGATTTGTTAATAAGCATAACATAACAGCAGAATATAAATCTGGATTTTTATATAACTCTACTGCATCAAGTATATTTACAATACCTTTACCTTCATTATTAACTGAAACAAAATCATGAATATCTAATTCTGGTTCTCCAAAGAAATTATCTAAACCTTGATTCTCTAATACATTTAAACTTCTAAGTATAACACCAACACTTTGAGTAGTTACATTACCATAACTTGTTGTATATTTATTTCTATTTTGACCAATAAAATTTAATGCTTTCTTTAAATCTTCTAAATCATCTAAATCTAATGATTCATCTTCAGCAACTTTAAATACTATATTTAGTACTCCTTCTTGCGCTTCAGAAAGACCTAACATAATTGATAAAATATTGGGTCCTACTGTAGATACCTTAAATCTAATTGGATGTCCTGCTTTACCATATACATCCCAAAATCTAACTGGAAATTCTTTTACATCAAATCCATCTAGTTTTAATTTATCAACTCTTTTTTGAATGTTTTCATTGTTTTCTCCAGGACAAGCTGTTCCAGCTAAATCACCTTTAACATCTGCCATAAATACTGGTACTCCTAAATCAGATAAACTTTCCGCCATTACTTTAGATGTAATAGTTTTACCAGTTCCTGATGCTCCAGTTATTAGACCATGTCTATTTGCCATTTTAGGAAGTAAATAAACTTCCTTCTTTTCATTCTTTCCTATTAGTAATCCTTCATTCTTATACATATTATCCTCCTAATTATTATTAAGTATATCCTCTATTATATTAATACCTAGTGTTGCACATGTTTTTCTAGATTCTTGTTTCCATATTTCATCAAATGCAAGTAAATCTTCTAAAATAGTTTTATCATATTCTTCTTCATTAACCATCTTTTTATAGTTATCTATAATATTTAAAACTTCTTCTTTTGATTTACCTATAAATCTATGAATAGCTATTGATAAAGAAGATGTTGCTATAGCACATGCTTCACCATCAAATCTAATGTCTTTTACTACTCCATCTTCTAACTTAAGTTCTATATCAAAATGATCTATACAAGATGGATTCTTATCACTTTTTTTAATATAACTTGGATCATTAGTTAATCCTTTATTATTTGGATAATTAAAATTGTCTAATATTAATTCTCTTTTTATATTACTATCCATATTAAATACCTAAACTTTCTTCTAATATATTTGGATTATCTAATGCTTCTACTAATTTATCGCATTCTTCTATAGTGTTATAGAAGTATATACTAACTCTAACAGTATTTTTAACTCCTGTTACTTCATGAAGCATCTTATCACAATGATCACCAGATCTAACACATATGTTTTTCTTATCTAAATATAAAGATGTATCCTGAGCAAATACTCCTTTTACATTAAATATAATTGTAGATCCTTCTACATTAGAATTTAATATTTCTAAATTATCTAATTTAGATAATTTATTTATTAAATATTTCTTTAAATCAGTAATATATTCTTCTATATTATTAACTCCAATTAAATTAATAAGGTCTATTGCTTTACTAAATGCAATTACTCCAGGAACATTTCTAGTACCTGATTCTAAATTATATGGAATATCTTTATATACTATTTCATCTTCATTAAATGAAACTGTTACTCCACCACCAGTATAAACAGGTTTAATTTCTCTCATTAATTCTTCTTTAGCATATAGAATACCTACTCCCATAGGTCCACACATTTTATGAGCAGAGCCAGCAAAAAAGTCTATATCCATATCTTGTACATCTACCAAAGTATGTCCTAAACTTTGAGCAGCATCAACAACTACTAAAATATTATTTTTATGAGCAAATTCTATAATAGATTTAATATCTCTTTTATCACCTATTACATTAGATATATGAGAAAGTCCTATTACTTTAGTATTTGGAGTTACTTCCTTCGAAATATTATCTAGTGTTAATTTATAGTCCTCATCAAGGTTAGCATATTTTATTTTTACTCCTAATTCCATAAATGGAAGTATTAAAGAAGCATGTTCACTTTTAGATAGTATTACTTCATCATTAGATGATAACTTATCTTTAAAGTAACCATTTATAATCATATTTAAACTTTCAGTAGAACCACTAGTGAATACTATTTCTTCTTTTTTATTAGCATTAATAAAATCTTTTACTTTAACTCTTGTTTCTTCATATAGATTACTAGTAAGTAAACTAAGTTTATAATCTCCTCTATGAGCATTCATAGGATACTCTTCATAATACTTAAGTATAGAATCTATTACTGCTTTAGGTTTTAAACTAGTTGCACCGTTATCAAAATATATAATATCAGTATTTAATAAATTAAAATCCTCTCTATGCATCTTGCACCTCTTTTTATACTGTAATTATATCACATTTGTGATAAAATATATATGGGAGATGAAATAAATGGACAATTGTATTTTTTGTAAAATAGTAAAAGGAGAAATACCTTCATATACTATATATGAAGATGAAATAGTTAAATGTTTTTTAGATATTAATCCTGTTAATGATGGACATGCATTAATAATACCTAAGAAGCATTATACAAATTTAGATGATATTGATTTAAATACTCTAAATCATATTATGAAAGTTGCTAAAGATATTAAAAAGAAATTAGATGAAAAATTAAATATGGGAGGACTTAGACTTTTTCAAAATAATGGATCAGTTCAAGAAGTTAAACACTTTCATTTACATTTAGTACCATCTAATGGAAATGATATTGAATTAATAACAAACACTAATAAAAAGGATGTTAAAGAAGTGTTTGATTTATTAAAGTAATTTTGTTATTATATATTTATACGTTTATAGGAGGATAAAGATGAAAAACAAAATATTATTAAGCGTAGGAATAACTATGGGTGCAGTATTATTACTTACTGGTTGTGGTAAAGCAGATTTAAAAAATGGATCCGAAGTAGCTATTAAAGTTAATGGAGAAAAATTATCTGCAGATGATATCTATAAGATATTAAAAGAAAAATATTCTAAACAAGTTATAGTAGATGAAATTGATAAAATTATTTTTAATACTATGTATAAAGATGATGAAGAAATAGAAAAACAAGTTGAAGAACAAATAGAATATTATAAAGCTCAATACTCTACTAATTGGGAAGACACTTTAAAGAGTGCTGGTTATGAATCAGAAGATGAATTAAAAGATGAAATGAGATTATCTTACCAAAGAGATAAAGCTGTTAAAGATTATTTAAAAGATAACCTAAGCGAAAATGAAATTAATACTTATTATAAAGATGAAATATCTGGCGAAATATCTGCTAAGCATATTTTAATATCTACTAGTGATAGAGAAGAATCAGAAGCTGAAAGTTTAGCTAAAGATATAATTAAAAAGTTAGATAAAGGTGAAAAGTTTGAAGACCTAGCAAAAGAATATTCAGATGATACTGGTTCTAAAGACAGTGGTGGTGATCTTGGATATTTTGGTAAAGGTGAAATGGTATCAGAATTTGAAGATGCTGCATATGGTTTAAAAGTTGATGAATATACTAAAGAACCTGTTAAAACTACTTATGGATATCATATTATTTTAAAAACTGGTGAAAAAGAAAAACAAGAATTAAAAGATATTAAAGATACTGTTAAAGAAAAACTTGTTGAAAAGAAATTATCTGATGATAAAACTTTAAAAGTTACTACTCTTCAAGATATTAGAAAAGATTATGGATTAAAGATTAAAGATTCAGTTTTAAAAAGTAAATATAATGAATATATTGAAGAAGAAATAGAATACTACAATAGTGCAAATTAAAAAGGAATATTAAATATTCCTTTTTATTTCGTCCAAATCAAATCCTTTAGAATATAATTTACTTCTTATAAAAGCTTCTAATTTATAATCATCATATTTATTCTTATATTTATTTAATAATTTATTATATTCTTTTATACCATCCTCTATATTAACTAAGTTTTTAGAGTTTAATATTTCTATAATCATATCTTTATCATATCCTAGATTAATAAAATAACTTAATAATCTTTGTTTAAGTACATTACCAGAATAACCTTTGGTAATTTTTATTTTTTTATCTATCAAATGATTTAATTTATCAAATATTACTGTGTTATCTACAGTAATATTCTTATTTATTATATCTTCATTAATACCCAGTTTTAATAAATTATCTTTTATTTTATTAGGACCATCATTAGATAAATTAATCTTATCTTGATAATATGCTATTACGTAATTAGAGTCATTTATAAGACCATTTTTAAGTAGTTTATCTATTATCTTGTTAACTATATTATCTTCATATATTTTGCTTAAATAAGTCTTTATTTCTTTTTTGGAACGCATTTTAGTACTAATATATTTAACTGCTTTATCATATGCTTCATATTCTAAATTATCTTCTTTAATAGATGTTAAATCATTTATTTCTTTGCTTAAAAGTAAATTATTATTTAATATAACATCTTCATATAAAGTAATATTTTCATTATTATCTAAATATACTTTATATTTATTACCTCTTTGTTTTTCATATTTAATTATTTTCATATATCACCTTATAAAAAAACTTAATACATTATTTAACATGTATTAAGCCATTTTGAACTTCTTCTAATGCTCTATCTAAACTCTTCTTAGATTTATAATCTTTTTCTTTCATTTGATAATGTTTTGTTTCATCCATTTGAGTAGCTCTTTTAGCTGCTACATAAACAAGTTGATATTTAGAATTAACAGTACTAAGAATTTTATCAATAGAATAATTCATAATTATGCCCCCTTAACCATTATATTAGTTTTTGGTACTAATTTTACCTTTAATTTTTCATTAATTAATTTTAAATCTTCAGCATATAATCTCTTGAAATCAGAATCAAATTCTTCTTTTGGTGATTTATATTCTTTTTTCTTAAAATCACTTTCAACAAGTCTTATATCTGATCTACCATTATCTGAAGCACCTTCCATTTTTATAAGAAGAGCTGTGTCTCCAAATAATTGAGTAAACTCTTTTCCTCTTCCAGTTATAAATAAATGAAATAGTAAACTAACATTTTCTAATAATCCTGATGCATTATGTCCAATAATATCATTTACATTTATTAATGTTACCTCTTCATCAGTATCTTTTGGATCATAATCTAAAGCAGCATTTAATAATTGTTCAGATAATATCATATTTAGTCTTCCATTAGTTGGATGACTATCAGGAACATATAATCCAAAATTAGTTATATCTTCTTCAGATTCAACATCTAATGGACATGAAAAATATCTCATTATATCTTTTAATAAAAGTTTATCTTTACCTTCAGTTAATTTATGTACTTGCGATTTTTTATAATCTAGGAATAGTGTATAGTCTTCGATACCTTCAGGTTGAAGAATATCTCTATAGTATGCTAGTAATACATCATCTACTATATAATCTATAAATACTTTTCCTTCAATTTCTTTTTCTAGTAAATCTTTAGAACTGTTTTCACTTATAGCCATATCACTACTCTCCTATTACATAATTCATTATAACATATTTTTAAAAAATATTTAATATTTTTTAAAAAGGTAATTTCATATTTCCATTACTCATCATTTTCATCATCTTTTTAGATTCTTCAAATTGTTTAAGTAATTTATTTACCTCTTGTACAGAGGTACCTGATCCTTTAGCTATTCTTTCTTTTCTAGAAGCTTTAATTATATCAGGATCTTTTCTTTCTCCTGGTGTCATAGATAAAACTATAGCTTCTATTCTAGCTATTTGTTTAGGATCTATTTGTATATTACTAAGTCCCATCTTTTTAGCACCTGGTATCATTTTTAAAATACTTTCAATAGAACCCATCTTCTTAATTTGTTTAAATTGTTTTAAGAAATCTTCTAGGTCATATTTACCTTTTTTCATCTTTTTATATGTGCTTAATGATTCTTCCTCATCCATTACAGATTCAGCTTTTTCAATAAGAGACATTATATCTCCCATACCAAGAATTCTACTAACCATTCTTTCTGGATCAAATTCATCAAGTCCATCTAATTTTTCAGATGTACCTATAAACTTAATTGGTATACCAGTTAAATATTTAGCAGATAATGCTACACCACCTCTAGTATCACCATCTAACTTAGTTAAAATAGTACCTGTAAGTGGTAACTTATCATTAAAACCAGTAATAACATTTATTGCATCTTGACCCATCATACTATCTATTACTAACATTACTTCATTAGGTTTAACTTCATTATTAATGTTCTCTAATTCATCCATTAGTTTTTCATCTATTTGAAGTCTTCCTGCAGTATCTATTAATACATAGTCTAAACCATTTTCTTTAGCATAAGCAATTGAGTCTCTAGCTATTTGAACAGGATCTTTAGTACCCTCTTCAAATACTGGTATATTTAAACTCTTACCAAGTGTTTGCAATTGATTAATAGCAGCTGGTCTATATATATCTGCTGCTACTAATAATGGTTTTTTATTATATTTTTTTCTAAGTAAATTAGCTAGTTTACCTATAGTAGTAGTTTTACCTGAACCTTGTAGACCTACTAACATAAGAATACTAGGATTACCCTTAGTATAAATATCTGCTTTATCACTACCAAGAAGTTCTAATAATTCATCTTTTAATATCTTTAGGAATACTTCATCAGGTTTTAAACTTTTTCTTATTTCTTCTCCTAAAGCTTTTTCTTTTACTTTGTTAGTAAACTCTTTAACAACTGTATAGTTAACATCTGCCTCTAACAAAGCAAGTCTTACTTCTCTTAAAACATCTTGTATATTTTCTTCAGTAATAGATCCATATCCTCTAATTTTACCTATAGCGCTATCTAATCTATCTGATAAACTTTCAAACATAGTTGCCTCCTATAAATCTAGTATTTTATTTATTTTTTCTAATAATTCTTCATTTCCTGTTTCTTTGATTAATTTAGTTATTTTTTTATCTTTATCAATTAGTTTAAGTTTAAAATCAAAGTCTTCAAGTTTACTAGTAGCTAACTTTAAATCCTTTGAAACTGCATTCTTACTAACACCATTATTTTCTGCTATTTCACTTAAAGTTAAATTATGAAAATAATAATCAATAAAATAATTCTTTTGAGAATCAGTAAGTAATTCTCCATAATAATCAAATAATATTATTAATCTATCTTGTAATTCCATTTACATCATTTCCTTAAATAATCCATATATATATTTTTCAATATCAAATGTTCTTAAATCTTCTTCTTTTTCTCCCATACCTACATATTTAACAGGTATATTAACCTCTTCTTTAATAGCTAAAACTATTCCACCTTTAGCAGATCCATCTAACTTAGTTAGTACTATTCCTGTAACATCAGTTATTTCTTTAAAAGCTTTTGCTTGAGATATACCATTTTGACCAGTAGTAGCATCAATAACTAATAAAGTTTCTTCTGGAGAACCTTCTTGATGATTATTAATTACCTTTTTAATCTTCTCTAACTCATTCATTAAGTTAACTTTATTTTGAAGTCTTCCTGCAGTATCAATAAGTACTAAATCATAATCTTTAGACTTTTCCATACCAGTATAAACTACTGAAGCAGGATCTACTCCTTCTTCACCATTAACTATATCTACTTTTAATCTCTTTGACCATTCAGTTAATTGTTCTACTGCGCCTGCTCTAAATGTATCTGCAGCTACAAGTAATACTTTTTTACCTAAATCTTTCTCTTTCTTAGCAATTTTAGCTATAGTAGTAGTTTTACCTACTCCATTAACTCCAACAAATAGAATAACTGTAGGTCCATTATCTCTATAATTAATCTTATTTACTAATACTTCATCATTAACATAGATAATAAATAATTCATCAACGATTAATTCTTTTAATTCTTCTGGATCATCAATCTTTTCTTTCTTAGCTCTATCTACTAATCTATCCATAAATTTAATAACAGTATTAACACCAATATCTGCCATTATAAGTATTTCCTCTAATTCTTCAAAATATTCCTGATTAACTTTAGAATATTTCTTGTTCAACTTATTTAATTTATCTGAGAAATCTTTTCTAGTTTTTTCTAGACCTTTTTCATATATTTCAGTTTCTTTTTTATCAACTTTATTAACTTCTTTATTACCAGAAAATTTTTCTTTTATTTTGCTAAATAATCCCATGTTTATCACCTAATAAATATTATATCATATAATAAAAAAAACTACATCAATTGATGTAGTTTTTAATTACATAGATCTTCCTGAAGAAATATCTTCATCTATTGTAGTAAACATATTGTTGTTATCATATTTTTTATAAAATTGATCTATTTTAGATTTTTTAGATTTTACACTAGCTATAGTTTTATAATAATCTAAAATAATTTGTTTATTAACAGTTCTCTCATTTATCATTTGATCAAATTCTGGATCTCCTGGTTCTATCCATTCTGAATTAGCATCTTCTATAAACATCTTTCCGTAGTCATCTAATTCTTCAAATGCTTTCTTTTGATCTATATCATATAATGAATCAAAGTATAAAATAATCTTATCAATATTAATTGCTCTTTCATTAAGCATTTGTTCAAACTCAGGATCTCCTGGTTCTAATCCTTCAGCTTTACTATCATCTATAAATGCTTTTTCATAATCATCTAATTCATTATATAATCTCATTTTTTCTTCATTATATTTTTTATTGATTTCTTCTAATCTAGCTTTTTCCTTTTCAACAGTTGGATTAGGTACCTCTACAGGTTTTTCTATAGGAGTATCATTACTTGTTCCTCCAGTAGATGATGAACCACCATTATTACTTAATGTACCTACAGTAAATCCTCCATAAGAAGTTTTTCTTCTCTTTTTATTAGTAATTTCACCACCAACTACATTAGAAGTATTATTATTAGTAATACCCTTCTTTATTTCATCAATCTTATTTTTTAAATACTCTATTTGATTATCTTTTATATCGTTATTTTTAATATCAAAAAATAATTCAGCTTGTTTAGAAGGACAATCATCTAATAAATCACAAATATCATTAAAAATGCCTTCAAAAGCTTCATCAGTATATTTTGGATCTTTCTTGGCAAAATCATGATATCCTTTTATTAAAGCAAAATCATAAACCATTTGAGATAATCCTTCAGGATCTTTCTTTAATGTTTCTACCCAATCTTCATTTAATGCTTTTTTCATTTTACCTAAAATATATTCATCAGATCCTATTACATTTAAATTATTATTAATACATTTTAGAGTTTCATTAAACTTTTCTTCTTGTTCTTTTTGCTCTCTTCTTTCTTGGTTCTTTTCTTTTGCGTTATTGTATCCGTCTTTAAACTTATCTTTTACTCTTCCAAATAATCCTACTGCTTTTGTTCTTAATTTTGATTTAGGTTTACTTATACTCATTTATAATACACACCTCTATTCTATATATATTATATCATATAATGAATAGATAGCAAAAAAGATGTCAAATATGACATCTTTTTTTACATTATAAAGTTAATCTTTTAATAATCTCTTTTTCTTGTTTTTTAGAATCTATTCTATTTAAAATTTCAACAAGTTCTGCTTTTGTAAAAGCACTTACCTTATGTTTTTCAAGTTCAGCACCTGTTAACATATTTTTGTTTTCAGCAGCTTCTCTTCTTAATTCATTAATAGTATATAAACTATAATCTTTTGGTTCAGTACCAGTTAATTTAGAGTATTCATCAATTACTTTCTTTTGTTCTAATAAAGCAACATCATAAATCATCATAAATGCCCATATTTGTACATCATTAACTGTTCTTTCGTTTAACATTTGTTCAAATTCAGGATCATATATATCTAGACCTTCTGCAAAAGCATCATCTATAAACATTCTTTCATATTCACCTAAACGAGCATATGCGTTTTTAACACCTAATTTAAAATTATTATATTTATTTGTTAATAATTCTTTATTCATATCTAAATCTAGATTATTTAATGTTTTATAGTATTCATATATAGCGTTCTTATCAACTGTTCTTTCATTTAACATTTGTTCAAATTCATTATCAGTTGGCTCTAAACATTCAGCTAATGCATCATCTATAAACATTTTTTCATATTTACCTAATTTAGCATATTCAGCTTTTTTAAGTTCATTATATTTATTAACAGTTTCATCATGTTGAATATCTTCTGCAGTAGGTTCTGTTGGTTCCACTGGTGTTACTGTTGGTTCCACTGGTGTTACTGTTGGAGTAACTGTTGGTTCTGTTGGAACTGTAATTAATGTATTTATTGGTTTAGTTGAAGTTGTTGGAGTTGTTGGAATTGTTGGAGTAACTATTTTATTAATTTTATCATCTTCAACTTTTTCTCTCTTACTAAATAAATAAGATAATCTATTTTTTAGATTTAAACTTGTTTTAGTTTTTTTAATCTTTTTAAATGTCCCAATTCCACCATTCTTAGATTTAGTCTCAGTATCTTTTGGTTCAAGTTTAAGATTTTTACTTAATGAATATTGAACTTTATTCTTTAAGTTACTAAATACATTAGTTTTATTCTTTTTAATCTTTTTAATAGATCCTATACCGCCATTATTATTCTCTTTAGTTTTAACAGTATTTTCTTTTGGTTCAACTTCTGCTCTCTTACTAAATGTATAAGATATTCTATTAGTAATATTATTATGTTTAATAGCATTTTTAATATTACTTAGTCTTTGTTTCATTGTTGGTATTTCAACAGGAATAAAGTCATTATAAATATCTTCTTTTTTAGTGTTTTTCATATCGTCTACATATAGTAAACCAATAGGTCTATTATATCTACTATTAATTATACTTCCTGACTTTGGTTCAACTTTAAAAGTTTTCATTCTAGAATTAATAATATATCCTCCAGGAACAATTAAGTCTTCTGGATCTATATCTTCTTTAGTATCTAAAACTAGATCATTTCCTTTATATGCAAACCTATAATCTGGATTAAGTCTAGCTATTTCTTGTATTAATTTTTTAAAATCTCTTTCACTAGAATAATTCATTATAATTTCCCCCTTTGAAAATATGCGCTATATGATACCACCAAGGCCTTTTTTTGTCAAATAATTTGCCCTTTTTTTAAAAGAGTAGTATAATCTTATTTGTGAAACGCATTAACTTTATATTTTGGTAGAAAGGAAAGAATATGAAATTTTTTGAAAATAATACTGATACTAAAGTATTTGCGCTTGGAGGTCTTGGAGAAGTCGGAAAAAACATGTATTGTATAATGCATGGTAATGAACTTGTTATCGTTGATTCTGGAGTACTATTTCCGGAAGCTGATTTATTAGGTATTGATTATGTAATACCAGACTTCTCATTTTTAAAAGAAAACGAGAATAAAATTAAGGGATTATTTATTACACACGGTCATGAAGATCATATTGGAAGTATACCTTTTTTACTTCAAACAGTGAATATTCCTGCGATTTATGCGCCTAATCAAGCTGCAAATCTTATCAAAAAGAAATTAGCAGACAGAAATATTAGATTTGATAATATTATTGTTTATAATGAAAAAGACAAATATAAGTTTAAAAATATAGAAGTAGAATTTATTGCAACTACTCACTCTATTCCAGATAGTTATGCTATTGTTATTAGAACACCAGATGGTGTAATAGTAGAATCAGGAGACTATAAATTTGATATGACTCCTATTGGACCTATGGCTAACTTACAAAAGATGGCTAAAATAGGATCTGAAGGTGTTACTCTACTTATGAATGAAAGTACTAATGTAGAAAGAGAAGGAGTTTCTCTTTCAGAATCTAAAGTAGACGAAGCTTTATCTGATTTATTTAGAAGACAAACTGGAAGAATAATTGTTGCTACATTTGCATCTAATGTATTTAGATTAAAACATATTATAGAAACTGCTAAAAGAAATAATAGAAAAGTAGTACTATTTGGAAGAAGTATGGTTAACCAAGTAGAAATAGCTATAGAATCTGGAATAATAGAAAATAATGGTACTATTATTTCTCCAGAAGAATCTAATAACTTAAAACCAGAAGAAGTATGTTTACTTTGTACTGGTACTCAAGGAGAACCTTTAGCAGCCTTATCTAGAATGGCAAATGGTACTCATAAACAAATAAAACTAGTTCCAAGCGATATAGTTATATTCTCATCATCACCTATTCCTGGTAATGGTGAAGCAGTAGCTATTACTCTTAATAAACTAGCTTTAAATGGAATTAAAACATACACAAATGCAATTTTAGGAGACATTCATTCATCAGGACATGGTAATCAAGAAGAATTAAAGTTAATGATAAGATTATTAAAACCAAAATACTTAATGCCTATCCACGGTGATTATAGATACCTAAGAAAACATGAAGAAATAGCTATAGCATGTAAAATGCCAAAGAACCATATATTCCCTATGATGAATGGTGAAATATTATCTATTAAAAATGGTGTATGTAAAAGAGCAGGATCATTTCCTTGCTATGACATATATGTAGATGGTAATAGAATTGGTGATGTTGGCGGAGCTGTTATTAAAGATAGAAAAATAATGTCTAATGATGGAATACTAGTTCTAGTATGTAATCTAGATATTAAAGGTAAGAAACTTCTTGGAAAAGTTAATCAAGCAACAAGAGGATTTGTTTTAGTAAATGAAAATGAGGAATTACTTTCTCAAATAGAAAATAAAGCTGAAGAAGTTATTAAAAGAGAACTTAATAATAAGAAGTTTAATATAGCTGATTTAAAAAATAAAATAATAACTGATGTTAATGATTTCATAATAGAAAAAACAGGCAGAAAACCTATTATTATGCCTGTTATTATGGATATAAAAAGTAGTGATAAATAATCACTACTTTTTTTAAAAATAAAAGATAGTGATTACTCACTATCTTTTTTATCTTTTGTTTCAGGATTTAAAGCTTCTTTTCTAGATAAGTTAAGTTTACCTCTCTTATCAAAACCAGTAGCTTTAACTAAGATTTCATCTCCTACAGAAACTACATCAGATGGTTTTTCAACTCTTTCATTTGCAAGTTGTGAAACATGTACAAATCCATCTAATCCTTCCCATAAGTTAACAAAGCATCCATAGTCTTCAACTTTAACTACAGTACCCTCATAAATCTTACCTATTTCAACTTCTTTTACACAGTTTAAGATCATATCTTTAGTTTTATTAATAACATCTCTATCAGTATGATAAATAATTACTCTTCCATCATCATCTATATCTACTTTAACAGCATTTATATCACTAACAGAATTTACATTAGAAGCTTCTAATATAATCTTAGTAATCATTTCTCCGCCTTTACCAATAACATCTTTAATTCTTGATGGATTAATCATAAATGTATCAGTCTTAGGAGCATACTTAGAAACATCTTCTCTAGGTGCTGGAATTTGTTTTTCCATAACATCTAAGATTTCAAATCTAGCTTTCTTAGCTTGTGCTAAAGCTTCTTTTAATATTTGTTTTGTAATACCTTTAATCTTGATATCCATTTGTAGAGAACAAATACCTTTTCTTGTTCCACCTACTTTAAAGTCCATATCACCAAGGTGATCTTCCATACCTTGGATATCAGTTAAGATTGTATAGTCTTTTCCATCAGCAGATGTAATAAGACCCATAGCAATACCAGCAACTGGAGCTTTAATTGGAACACCAGCAGCCATTAATGACATACAACCAGCACAGATAGTAGCTTGTGAACTAGAACCATTAGATTCTAATATTTCAGAAACTACTCTAACTGTATATGGGAACTCTTCTTCAGATGGCATAACTTGTTTTAAACATCTTTCACCAAGAGCACCATGTCCAATTTCTCTTCTTCCTGGACTACCATATCTTCCTGTTTCTCCAACTGAGAATTGTGGGAAGTTATAATGAAGCATAAAATGTTTTTCAGCTTCTAGGCTTAATCCATCCAATGCTTGATATTCATTTAATGCACCAAGAGTAGTAACAGCAAGAGCTTGAGTTTCTCCTCTTGTAAATACAGCAGATCCATGAGTTCTAGGTAGTACATCTATTTCAGTAGATAGAGGTCTAATTTCATCCATCTTTCTACCATCTGATCTACTCTTTTCATTAACTGTAATAGATCTAAATAAATCATATTCAATTGATTCAAGTACTAATTTAACTTTAGTAATTAAAGTAACTAATTCTTCTTTATCTAAATCAGCATTTTCTTCTTCATATTTAGCTACTACTTCAGCTTTTACATTATCAATAGCTTCATATTTAGCTAATTTTTCTTTTATTCTAAGAGCTGCATCTAATTTATCAGAAGCTAACTCTTTAATTTCATTTCTAAGTTCATCAGATATTTCAAGATGTTCATATTCCATCTTTTCCCCACCAATTTCACTAATAATCTTTTCTTGGAATTCACATAATTCTTTAACAGCTTCATGTCCAAACATTAATGCATCTAACATATCTTCTTCAGATACTTCTTTAGAACCAGCTTCAACCATGTTGATAGCTTCTTTTGTACCAGCAACTGTTAAATCAATATCAGATACTTCTAGTTCAGCAGGAGTTGGGTTAATAACAAATTCTCCATTAACTCTACCTACTTTAACACCAGCTATTGGTCCATCAAATGGAATCTTAGATATTGATGTACAAAGTGAAGATCCAAACATAGCAGTTAATTCTGGTGAATAATCAGGATCAACTGATAATACAGTATTAACTACTTGTACTTCATTTCTGAAGTCTTCTGGGAACATAGGTCTCATTGGTCTATCAATCATACGTGCAGCAAGTGTTGCAGCGTCAGTTGGTCTACCTTCCCTCTTAATAAATCCACCAGGTATTTTACCTACTGAATATAATTTTTCTTGGTATAAAACCATTAATGGAAAGAAATCACTAAGTACATTAGCATTTGGAGATACTACTACTGTAGAAAGTATTACAGTATCACCATATCTAACTAAAACACTACCATGTGCTTGTTTAGCATACTCTCCATTTTCAACTATTAATTTTCTTCCACGAAAATCCATTTCAAATGTTTTCTTACTCATCTTTTTTCCTCTTTCTTAAAATCCTCTTTCTTTTTTCCTCTTACAAAGACTATTCTATCACAAAACAAAAGAAAAAACACTATAAAAGTGTTTTATTTTCTTAAACCTAATTTCTTAATTATTTCTCTATATCTGTTTACATCAGTTCTCTTAAGATATTCTAGAAGTCTTCTACGTCTTCCAACTTTCTTAAGTAAACCTCTTTTAGAATGGAAATCATGAATATTAACTTTTAAATGTTCAGTTAAAGTATTAATTTCTTCAGTTAATAAAGCAATTTGTACTTCTGCAGAACCAGTATCTTTATCATTAATACCATATTTCTTAATTAATTCTAATTTCTTATCTGCTTTTAAAGCCATAATTTAGTTCTCCTTTCTTAATAATTCGCCTTTGTACTGAGTATTGGTTGGAGTTTCCAAATACCAAGAACAAGGTACGTAATAAATTATATCATAAAACTCTTATAAATCAAGAGGTTTTAATGTTTTTTTGTTATCTCCTTTTTTACTAGTATCTCTTGCAGTTCTATACATTCCTTGAAGACCATACTCTGAAACTAGTCTTAATGTTAACATCACATATCTTTTAGATGCCAAATCTTTTTTACCACTATTAACTAAATCTGCTATTTTTTCTAGTCTTGGATATATCATCATTGCTCTTAAATAATTATCATCTGAATCCATTAATTTTTCAGCAATTACTGGCCCAGTAGCATTATAAGCACTCATAAATCTATTATAATTTTCATTTTTATCAAATACATCTTTTAAACTCATTAAACTAGTATAAAAAGAATCATTTTTATCAATTGTTAATATATTACTTACTGCATTTACTATATACCAACCATATTCTTTTACAAGAGGACAATTAGCATATGCTCTTATTTCATCATAACAATAATATTTATCATAAGTATAAGGAACATCTTCCTCTTTACCTGATATTATGCATTTATAACATGTAGTAATGCAAGAACCTCTATCTATACAATATTTACACCAAGTCATAAAAAATCACCCTTTTCTTGAGTGATTATATTATACTAAATCATATATATAGTCAATATTATTTATATTCTATATCAGTAATACTTGCAATAGCAGCTATTAAACCCATAGATGCTTTACATGTAATTTCTACTGTATCATTCTTATCTAATGTTACTTCTTGAGTAATAGTTTTTTCAACACATCTAAATTCAACTACGTGTTTTCCTGGAGATACTACTTTTTCTAATGACTTACCATTACCAAGATTATCTAATTTTTCTCCATCAATAAATACTGGAAATGAAATGGCAAATCCCATTACTTTCTTTTCTCTAGTTACTATTATCTTTTTAGTTTTATTCTTTTCACAAGCATCACATATACCTGCTTCATTTAATGCTTTTCCACATTCTGTACAATACATATTATTCACCTCTATTTAATTATATAAAAAAAATAGACATAAGTCTATTTTCTTTTTATAAGAATTCTCACTATATAAAATAATAAACAAGCATACATTAAGAACATAAACCATATAACAAGAGTATATAAAAGTCCTCCAGTACCAGTATATTTACTGATCATAGATACTACTGATTCTGGTATATACTTATTTACTAGATTAGATAATTCTTTAACATGAATATTACTTACTAGAAAATGAAGTAATCTATATAAAATATCTAAACTACATACTGCATATACAAATGACGAAAATCTTCTAAATAAGAATACTATTATTAATACTACTATTATAAATACAATTAAATTAACTAACATACACACTACCTCTAATTATATTTTAATTAGAATTAGAATCAATATCAATATCACTGTTAAATACCTTTACAGGTTTTACGAGATTATTATCCTGTTTATAAATAGCTATCACATCATGGTTATATGTAAATATAAACTCTGGATAATTATATATGTTTTCTAGTTTATTACCATTTATAACTCTTTTTAAGAGTATTTCATTATCTATTTCTACTTTAGGTATATCTAGTGCATCTATTATAGGAATAAGCTTATAATTGCCTTCTTTTATGTCTTCTAGAGTATATGAATCCTCTATAGAATATTTACCTTGTTTAGTTCTATTTAGTTCTTCCATAACTCCAATAGTACCTAGATTCTTACATATATCATTTATTAAACTTCTTATATAAGTACCTTTACTAACATGGCACTTAATATAAAAACTATTATCTTTTATATCTGATATTCTTTCTAATGAATACACTGTTACTTTATGATGAGGTAATTCCACAGGAATATTATTTCTTGCATATTCATATAATTTTTTACCATTAACTTTTACGGCGCTATATAATGGTACTTCCATATCATAATCATGTGGAAAACTAGATAATACTTTATCTATATCTTCATTAGTAATATTTACTTCTTTAGTATCTAATACTTTTCCTGTAATATCTAAAGTATCTGTTTTAATGCCTAGTTTTACCTTAGCAATATATTCTTTATCTAAAGATGTAATATGATCTACTATCTTTAATGCTTTACCTATAGCAATTACTAATACTCCAGTAGCAAGTGGATCTAACGTTCCAGTATGGCCTACTTTCTTAGTATTAAATATATGACACATTTCATTTACTACATCTCTACTAGTTAAATTTTTATCTTTATTTACTATTATTAATCCATTCATTTTAATACAAGTTTTTTTATTGTAGATTCAGAATCATATGGAATTTCCTTTAATTCATATTTATCTGCTATCTCCAATACTTTCTCCCCTAAATATTCATTATCTATTTGATCATTATCAGCACATAAAACTCTATCTATCATATCATCATCTAAACCAAAGAATTTTAATGCTCTAGCATTTCTATTTGTAAATCTTCCAAACAAAGATCTTAAATAATAATGAGTTAATGATAACATATCTAATTGCTTTGTATAATGACCATGTTCACCATATTTAACTAATCTTTCTGACATTCCTCCTAATATAAAAGGTATTTCAGAAGTTACTTGATCACCTATTTGAATATCTTCATAATCAGTTATATGTACTTTTCCTTCTTTATCTACAATAATAGAAGTATCTAATAAATGTGGAAATACTATATCCTCTCCTGCACCTTTAACTATTCCTTCTAATTGTAAATATCTATCTGCTAGTTTATATAAATCTAATCTATCTTTATCATTAGATTCCTTATCCATTCTTTTTACATAGTCCATAGTATAACCAATAAACTTACCATCATCAATTACTATTTTTTTTGGAAGAACTACACCATTTAAATCTATAGGATTAGATACTCTTTTTTCTATTTCTTCTCCCTTAGCATCTAATATCTTTGGAGAAAAAATCTTAGCTACTTGATTATCCTTAGTTTTATAATATATAATTCCCGTTTTAGTAATAAAAGGTTTTTCTACAACTTTAAATTTTAAATCATCTGAAAATACTTTTTCCATAAAACCCTCCTGCACTTTTAATATAACACAGCATAATAAAAAGAGCAATTGAATTGCTCTACTTTATTTTTAAAATACCATTAATTATATTACTAATCCATGTATCTATATCATTATCATTAATAGTTTCTTTATTAGTAAGAGATCCTATTAAATAATAAGTATCATTTATATTAAATACAAATGAATCATATTTTATTCCATCAGATGATACACTGTTATCATCATATATAAGCATAGTACTTATACCATTATAATTATAATCTTTTAACTTATAATTCTTACTTTTAATATATGACTCAAATTTATCTTTATCATCTAATTCAGAGAATGATATTAATGAATTATCTTTAATATATGTTGCAGTTGTAAATGATAAGCCACTTGTTTTATCAGTTGTAGAATAATATTGAATTATATTTGCATCTTTTACTAAAAGAGTCGCATTATCATTTAATTTAATATTTTTATTATCTAAATTAGCATAATTAGTATTAAATTCTTTTGTTTCTTCTACTGATATAGAATTCATTATTTTATTCTTTAGTTCTTCATAAATAGATTCAGTTATTTTAGATTCATTATATACAGATGGTAATTCTAAATGAATAGCTACTTTATCATCTATTACTTTATAGAATGCATTAGGATAAATAGATAAATTAGATTTTCCATTTTCTTTCCATTCTTTGTCTGATAAATCCATTTTATCATCTTTTAATCCAACATAAATATTCATAGTATAATACTTTAAATCACTACCTAATATTGCAAAACTTATTACGTTATCTTTTTGATTTAAACTATATAAATTTAAATATTTAATATCTTTTAAAGATAATTTATAATACTTTGGATTATCAACAGAATTAATAAAAAAATAATCAATATTTGATGGATTAAGTAATAATTTACCTTTATAATTGTCTCCTGTAGTTTTAGAGTAATTCATATTAATTACTACTTCATTAGTTCTATTACTATCATATTTAGCTTCTAAATTTTCTTTACTTAATAAACTAACATCATATATAAAATTAAATGAACCGTCTTTACTGAATGCTACTCCTTTACTAGTACCATCATTAAAGAAACTCTTTACAAGAGAATAAGATAATATTAAAAACAATCCAATTATACAAATTGTTATAAATTTACTATTCTTTCCCGAGTTATTCATATTATCACCTAAAATAATTATACCATGAAAATAAAAAAATAAGAGCAAATTATTTTGCTCTTATTTGTGCCATATAGTTTCTAACTTTCATAGCCCAAGTATTAGATTCTGCATATCTTGGATTCATTAATTCTGGTGTATTTAAACCTTTAGCATAGTATCCTGCTAAGTTATCTATAAACTTAGTAATACCATCTTCCATAGAATCAAATTTTCTATATGATCCACCACCACAACTTGGAGTACCTTTTATACCACCTAAGTTATAACAGTTTCTAGCTAATGAACTACATCCCCATTTACATCCTGTTTCAAGTAATACTATACCTAATGCAAGATATGGGTCAACACCTTTTTCTAAACAGTATGATGCAAAGAATTCACCATAACCATCTATAGAAGATCCCATAGATCTATCTAGTTTTTCACCAAGCTCTTTTAAAGTCATACCATCATATACGATTTTACGAACTTCTAGATTAGAATCTTTACTCATCTCGGATGTATCTAATACTAATTCTTTAGAATTAGATAAATCTGCTTTTAATAAAGCTATTTCATTAGTATCAATGCTTCCTAGCACTACTGCTAATGAAGTTAAAAAAACCATGCAAATAGTAAAAACAATAATAATTCTCTTATTTAAATGTTTTACTAATTTCATAGATATTCACCTACTTTTCGCCTTTTTCAAAGCTACTTTATAATACCATAAATAAGGGCTTTAGTCAAATAAAGAACCTTATTTAAGTATAAGGTTCTTTCTATTTTTTCCTAGTATAAAATCATAATAATATATTAGATTTCCTTCTTCTGTAATATAGTCTACAAAGTCATCTATATATTCATTATCTTCATATTCATCAAATAATAATCTTATTTTTTCTCCTATATGAGTTATATTATCATCTTTAATACCAAGAGCATATAAAGACTTTTGAATTTGATGCTCTAATTCTCCTTCTTCAAAAGATGAGAAATAACTTAAATTAAAGTTTAATGCTAATAAAAAGTAAATATATATTAAACTTCTTATATCCATATTCTTAGTATATAATCCATCTTTATAATACTTTTCTGTTCTTAATATTGGTCCACCATAATTACATTCTATATCAGAGGCAATATATCCCTCTACATTACCTATTTGCATATCATCAAAACATACAAACGACATTCCATTTTTAGTTAAGAATACATTTCTTAAATCTAATAAATTTGGAAATACTATATTGTCTCCTGCTTTTTGAATAAATTCTTTTAAACCATAATATATTTCTCTATATCTATATAAATCTGTTTTATCAAAAGAAGAACATTCATTCTCATATTGATCTATATTAATTCCATCTACTTTATCCATAGTATAACCATTTAATAATCCTTTATTATCTAAAACAGCTAATTTAGGAACTACAAGACCTGATGGCATATGTTCAGCAAATTGCATTTTTTTAGTTAAGTAATTTACTCTATGCCTATTTTCATGCATTAATGGTCCTTTAAAACATTTATATAGTTTATCATCAGGTAATATAAATAGTTCTGATTCAGATGAATAATAATTAGGTATATATATATGTTTTTTATTCTTAATACTTTCCTTACTAATTGCTTTCATAATAACACCTCTAAAGCAAGATGTATTATATCATAAATATAAATATATGCAAATAAAAAGACCCTAAAGGGTCAATCTCTAAATTTAAAATATAACATAATAATAGCTATTATAATAGTTATTACTATCATAGAAATAATAACTATAGAAGAATATCCACTTTGATTAGATGTACTAAAGTCATATTCTTCTTCAGTATCTTTTTCATTAATCTCAGTATAATTATCTAATGACATTAATTGATTATTTCTTTTTTGATTTATTAAATATTCAAATTTTCTATATTTCTTTTTTACTTCTTCTATTTCTTTATCTGTTTGTAATAATACTATTGGATCTATATTATTCTCTATAGATTTAGATAATACTCCATCAAATATAGATACTGCATTATCTACATCTGTTACTTTTAATAATTTTAAATTATTACCTAAAATATTAAACCATTTAGTATATTCATTTATATTTTCATATAATTTAGTAATATTAAGAGAGACTCCTATAGACTCATCTGCTTTCTCTCTAGAATAATCATAATTTCTTATTAATGTATTTTTAGTATACATTAATACATCTGACAGATTCTCTACTCTTTTTCCAAAATAAGATACATTATTTTCATCTTTAACATTTTCTATATACAAAGTAATACCATTAGATATTAATTGAGCTAGTCCATTAGAAATTGTTTTTATATAATCCTGTTGTTCTTCCATTGTAGACCAATCATATACATCAAGAGGTAAATTAGATAGATCTATAACAGCATATTTAACTCCATATTTTACAAGTATATAAATAAAATTAGTTATTTGTTTTAAATTAGTTAAATCATATCTTAATGTAGGTAAATGAAATAATAATGTTCCATGATATATTTTATTTAATGACTCTAAATCTAATTCTTTTCCATCTTTTCTTACTACTAATTCAGTATATTTAGCAGATAACTTTTCAGATTTCATGCATTTATCTATATTACTTCCTTGAATAATATAATCCCCAGTATAAGAAATACCTATATTCTTAAAATAGTCCATGAAATCACCACCTACTATATAACTATATTATATTATAAAATATAATTCATTTCAATTAAAAAATAGACAGATATCTGTCTATTCATTTAACCAATCATAATCATATATTTCTTCGATTTTTTCATCTTTTTCTGGTTTTCTTTTTATATCACTTACTTCTTTATATCCTTTTTTAGTCCATTCAAATAATATTTTATCTATATATCTCATACTATGAACACCAGATAATACAGCTTCTTTTAGAGCTTCTTTTATTAAAACCTCTGGTATATCACTTTCTATCCAATTACCTATTATTTGAGTTTCTGTTGGACTAAGAGTTCTACCAAATTCTGATTCAAATAGTGAATATACATCATTATTATCAGATTCTTCATTTGAAGACATAATAATACTTTCTATTTTATTAAAGAATAATTCAGTAGATATAAATTCTTCAATTACTCCATTAGTCTTTTTCATTTCTATAGAAATATAATTCTTTTCATTAAGAGAACTAATTAATTCTAGCACTCTATTACTTTCCATATATAATTTAGAGGATAAACTATTAATATCAAACATAACTAAATCTTTTTGATTAATTAAAAATACAAGTAATATAAATTCATCTAGTTCTAGATCTAATTTATCTCTATATTTTAATAAATAATCTGGAATAATAATATTATTATTTATTTTTAATACATCTTTTAATATCTTATCTTTCATATTATCCTCCTTTAAGAGCATTATAACATATTTTTATTCATTATCTATATATGACTTTAAAATTCTCTTTTCTTCTCTAGTAAACGGATAATTATCATCATATTCTATTTTAGACCATACTTTTAAATAATTATCTCCATATATATTATTACCTATTTTAATAGATAAAGCCTCTTCTAAACCATATTCTTTTATTAAATCTATACCTCTTTGATAATTTATATTAGAAAATATTTTATCTAATTCTTCTTTTTTTCTAAAGAAAGATAAATTTCTTATTAATTCTTTATTATTATGTATTGCTTTAGATACTTCATCATCTATATTAAAATTCAATATAGAAGCAAATCTAATACATCTAAGAATTCTTAGAGAATCTTCCTTAAATGATATATTTGGATTTTTAACTGTTCTAATAATTTTATTATCAATATCATTTTTAGCACCAAGTATATCTAAGTATTTACCATCTTTATTAATACATAAAGTATTAATAATAAAATCTCTTCTTTTTAAATCTTCTTCAATAGTATCTACAGTTTCTTGAATATCAGGTTTTCTATTATCTATATAAGATATATCTTTTCTAAAAGTAGTTATTTGATATTTATATGATTTATAGTCTACTATATATGACATATAACCATTTTCTTTAACATTATCAAATATTCTTACTAGATCATCATATTTAGCATTAGTAGTAATATCTATATCATTACTATATTTACCAATATATTTATCTCTAGGATAACCACCTACTATATAGCCTCTAAACCCATTAAAGAATAATTTGTTTAAAATTTCTAACCCCATTTCGTACATAGTATCACCACAATTATATTATAACATATAAAAAAAGACATTAATAATGTCTTTTTTCTCTATTATTTATTAACAGCTTCTTTTAATTTAGAACCAACTTTGAAAGTAACAGCTTTTCTTGCAGGAATCTTAACTGTTTCACCAGTTCTTGGATTTCTACCACTTCTAGCTTTTCTAGTTGATACTGCGTATGTACCAAATCCTGTTAAAGTAATTTTTTTACCACCTTTTAATGCTTTTGCAACAACTGATTGGAATGCATTTAAAGCTCTTTCAGCATCAGCTTTAGTAATTCCAGCTTCTTTAGCAATTGCTTCTACGATTTCTGATTTGTTCATATTCAAATTCCTCCTATTTTGAAATCATAAGCACATCTATGCTTACAAGTTAAATATACCATTTTTTTGTTATAAAATCAACGTTTTTAAAGAAAAAAATGTGTTTTTAACACATTTTTATGCTACTAAAGCTAGTTTTTTATCTTCTTGCTCAGTTTTTTTAGAATTAAATACATTAATTGTAGAAGTTATACCTTTATTATTAGAGTCTGCAATCTTATCAAGTTTACTTGTTAATAATGGTTTTATTTCAACTTTTGGTTCTACAATTGTTATATTATCAAATGATGGAATAGATTCATTTACTGGAGTTTCTATAGTAGGAACTTCATTAACTTCTTCTTTAGATTCTATTTCATCTACTTTTACTTCACTAAGTTCAATAGGAGCTTCTTCTACCTTTACTTCTTCAGTTTTTTCTTCTATTGGAGCTTCAACCTTTTGTTCTTCAACTATAGGTTCTTTAATCTCCTCTTGTTTAGCTTCTTCTTTTATTTCTTTAGTTTCTTCTATCTTTTCAGTTTTAATTTCATTTTGTTTTAATATATCTTCGAAACTAGCATATTTTTTATATTTTTTAATTTCATCAGCTAATTTATTTGCTTCTTCTAAATCAGATTGTTTAGATTCAAATAAATAACTATCAACTGCTTTAACTTGTTTTTTTACTAATTCATCATATGCTTTAGTAAATTCTTCTACCATCTTTTTAGCAGTTGCTTCTAAAGCAGTTTTATCTTCTTCAAGATTTCTTAGTTCTCCATATATATCTTCTAATTCAACTTTTAGTTTATCTAATTCAGCATTTAATTCACTAAGTATCTTAAGATTATAAGTTACTTTTTCAATCTGATCCCCAGTATTAATAATACCTATTTCTTCAGATTTATTTCTTTTATTTTCTACTGCCTTATCTACTTCTTCTTCCTTAGCTTCTTTTTCTTTTGTAGTTTTATCTATTTCTTCTTGTAATTCATTTAAAGCTAATATATCTGGGATAGAATCTTCTAAAACATATACAGGAGTCTCTTCTTTAATTTCTTCAATTAATTCTTCTTTTACTTCTTCCATAGTAACCTCCTATCCTTGATTTTGGCTAACTAATTCTTTATAACTTTCAGCAAATGCATTATATACAGTTTTCTTTTCTGCATCATCTGTTAAGTTAGAAAGTTTTTCATTACCATTTTCATCTAAATCAATTCTTGCAGCCATGATAAATACTTTCTTTTCTTCTTCTGGAACATCTCTAGTATCTTCTACATCATCAATAGAATATATTAAATATCTTTTATCAGTTCCTTTGATTTCAAGTCTAGTAACAACTGTTGCTACAAGTTCATTTCCTTTTTCATCAATTACTTTAAATGTTTCTAACTCTCTATCCATTTTTATTCTCTCCTATTATGTATATATAATAACATTTTTTATAATAAAAAACAACCATTTTTGGTTGTTTTATTATTCTTCAGATCTGTTTTTGAAGTTAAATTCTATTGGAGTCCCCTCTAAATCAAAATTAGCTCTTAACTGATTCTCTAAATATCTTAAATAAGAGAAATGAACTAATCCTTTATCATTAACAAACATATCTATTCTAATAGGAGCCACTCCTGTTTGAGTACAATAATATATCTTTAATCTTCTTCCTTTATATGAAGGAGGTATATTACTTTCATAAGCATCTCTAATTACATTATTTAAAACACTTGTTTTAAGTTCTTTTCTAGAATTTTCATATACTCTGATTATTTCAGGCATTAAAGTATGTAATCTAGTTCCTTTTAATGCACTTAAATATACTATTGGAATATAACTTAAGAATTGGAACTCAGCTCTAACTTTCTTTTCAAACTCTTTTTTATCAAAATTAGGAATAGTATCTATTTTATTAACTACTATTACTAATGGTTTACCTTCATCTAATGCATATGAAGCAATATGTTTATCATGTTCTACTATTCCTTCTTCTGCATTAATTACTAATGCACATACATCAGCTCTAACTATTGATTTCATTGCTCTAAGTAAACTATATTTTTCTACATTTTCATATACTCTACCTTTTTTTCTCATACCTGCTGTATCAATAATTATATATTCTTTGTGATCATAATTAAATGGAGTGTCTATAGAGTCTCTTGTAGTACCAGCTTCATTAGATACTATTACTCTCTCTTCTTTTAAAATAGCATTGACAAGTGAACTCTTACCAACATTAGGTCTACCTATTACGCAAAATTTAATCTTATCTTCATCCCATTCAAAGTTATCTTGCTTACTAAAATCTGATACTACTTCTTTAAATAGTTCATTAAATCCAGTACCATGTTCTGCACTAATACCAATTACTTTTTCAAATCCTAATTCATAGAAATCATATAGATTATCTTTAGATGCTTTAGCATCCATTTTATTAACAGCTACTATAACCTTCTTATTAGATTTATATAATATATTTCTAACTTCTATATCATTTTGGTTAATACCCTCTATACCATCTACTACAAATATAACCACATCAGATTCATCTATAGCAAGTTCTGCTTGCATTTTAATTTGTTCATTAAATGTTTCATTAGATAAATCTATTCCACCAGTATCTATTACATTAAATTTATAGTCTTCATAATGACCTACCCCATATATTCTATCTCTAGTAACACCCGGAGTATCTTCTATAATAGATATCTTTTTACCCATAAGTCTATTAAATATAGTAGATTTTCCTACATTAGGTCTACCTACTAATGCAATTGTTGGTAACTTCATATAATTCACCTCCCTTTTACTTAAAAAAAGAATAGTAACTATTCTTTATTATAAACTATTTTTTCTAGTTCATTATGTATTTCACTCTTACCAAGTTTAGTCTTGTTTGAGAATAATACCATATTATCTTCTTCAAATACATTTAAAGTACTCTTTATAAGATTAATTTGTTTTTCTCTATCATTTCTAGATACCTTATCTACTTTAGTCATAACTATAGTAACAGGTAATTCGTGATACTTTAAGAAATTGTACATAAGCATATCATCATTTGTTGGTTTAATTCTAAAGTCTACTAACATATATACTCTTTCTAAATTATCCCTATTTGCTAAATATTCTTCAATCATTAATCCAAATTTTTGTTGCATTTCCTTAGATACATTTGCATATCCATAACCAGGAACATCAACAATATAGAAATCATTATTAACATTATAAAAGTTTAATGTTTGAGTTTTACCTGGATTAGAAGATACTCTTGCAATATCTTTCCTTTCCACTATTGCGTTGATAAAACTGCTTTTCCCTACATTACTTCTACCAACCAATAAAAACTCAGGTTTCTTATCTTCTGGATATTGACTTTGTCTAACAGCCACTATCGGCTCAGATACACTAATAATTTTCATACTAATCTCCTGTGTGCAATAATTATAACAAATAATAAAAAATAAAGCAAATTAGTCATTTGCTTTATTATATTCCATACATACTTTATCTAAATCTTTAATTATATTTTTTACTTTAGAATCATCTTTTAGTCTAACACCAGAAGCTAGAGCATGTCCTCCTCCACCATAATTTTCAAGTATATGGCTTATAACAGGTCCTCTACTTCTTACATTTACTTTAACTAAATCATTTTTTACATCATAAGTAAATATAGACCATACTATTACTTCATCTATATTATTTAAATTACTTACTATATCACCAGGATATGATGTATCATCACCATATTTCTTAATAATATCATCAGTAAGAATTATATATGCAAATCCATTATCAGTAACAGTCATATTTTCTTCTATATAACCTTGAAGTCTTACTTCTTCTAAAGATCTTGAATATAACATATTAAATATTTCTGTTGTATTAATTTTATGATCACTAAGTAATCTAGATACTAATTCATATGTCTTTGGAGTAGTATAGTCATAAAGAAATCTTCCTGTATCAGATACTATTCCTGTAAAGAACTTTTCTGCAGCTTCTTTACCTACTTTAAGATTATTATCATATGCAAATGATAATATCATTTGACATACTGAAGACTCTTTAGTATCTACCCAAGATATATCTCCAAATTTATCTATTGTTGGATGATGATCTATTTTAATAACATATTTAAAATCATTTATATTACTAATACCATCTATTCTAATTAAATTTGGAGTATCTAATACAAATAATAATGCATTAGATGTATCTAAGTTATCTATATTATCTAATTTACCCATAGATTTAAATTTAGAAGCATAAACTCCTATTACATAAACTTTCTTCTTAGGAAAATTATCTAATATTAGATGTTTTAATCCTATTGAAGCACCAAGAGCATCTGGATCGGCTCCTATATGTCTTGATATAACAATAGTATCAAATTCCTTTATTTTTTCTAATATTTTTTCTTTCATTTTATTCTCTTTTCTATTTTGCAAAATCATAGGCGTCTCTTCCAATCATTACTTCTTCATCTGTTGGAATAACATAAACTGGTATACTAGAATCACTAGTAGTTATTAATCCTTCATGTTTTTCTTTAAAACCTGCGATTTCGTTATTGGCATTATTATCTATTTTTACTCCTAAAAAGTCAAGTCTTTCAAGTATTTCTTTTCTAGTAGCTATATTATTTTCTCCAACACCAGCAGTAAGAACTATAGCATCTACTCCCTTTAATTCAAAATAATATTTAGCAATAAAATCTACTATTCTATTAACATACATATTAAGAGCAGTTCTAGCTATATTAGAACCTTCATCTGCTAGTTTTCTTACATCTCTCATATCAGATTCACCAGTTAATCCAACTAAACCTGATTCTTTATTTATAAGCATAGCTATATCATCTTTAGAATAACCTTTTTTACTCATTATATAAGGAATAATAGATACATCTATATCGCCACATCTAGTACCCATTATAAGACCTGCATTTGGAGTAAATCCCATAGAAGTATCTACACATTTACCATCTTTAACAGCAGATACAGAACCACCTGAACCTATATGACAAATAATTAATTTCTTATTAGATCCTAATACTTCTTTCATGTGTTCAGTTATATATTTATGTGATGTTCCATGAGCACCATATTTTCTTACATGATATTCAGTATACCAATTAAGTGGTAATGCATATAAATATCTTTCTTTATCTATTGTTTGATGGAATGCAGTATCAAATACACATACATGTACAGCACTTTTTATTACTTCTTTAGCTCCTTTTATACCTTGTACAGCAGCTTTATTATGTAGAGGTGCTAAAGATGCTAAATCAAGAATATCTTTTACTACTTCATCAGTAGCTATAACAGATGATTTATAATGATCTGCTCCTTGTACTATTCTATGACCTACTGCTTTTATTTCATCAAATGATGAAATAATATTTAATTGTAATAATTCTTCCATTAATTTAGAAAATGCTTTCTTATGATCAGGAAGTTCACATTTCTTTTCTCTTTTTTCTCCATTAAACTTAATAGTATATATACCTCCAGATATACCTATTCTTTCAAATACTCCAGAAGCTAATACTTTTTCTTCAGGCATTTCATAACATTTAAATTTTAATGATGAACTACCAGCATTTACAGATAATACTTTCATAAAATACCTCCTACATAACTTTATTATACAATAAAAAAAACATATATAAAATATGTTTATTTTATTCTTATTACTAAATTTACTATTATTGCAATATAAACTATTACAATTACAGAAATTATAATAGCATCTGCAATACCAGATTCTTTTTCATTAGTTTTAGGAACTAATTTTTTAGTTTGTGGAGCTATATTAGGAGCCTCAGTTATAACAGGAGTTGCTGTTTCAACTATTCCTGTTTTAGGAGGTTCTGGAATCTTTTCTTCCACAATTTTAATACTTTCTTCTGTAATAGGGCCTTTACTAATAACTTGTGTATATCCAGTATTAGTAAGCATATCAGGAGAATCTTTATATTTACCTAAATCTACTTCAGGAACATTATCTGATTTGGTTACTTTTGATTCTGGTGGGTTAGTTATATATTCTTCAGCAAGTTGAATCATATGTGGTTTTTCACCAGGTTTATATTCATTATCTTTAACATCTCTTTGATTATAACCAGTTATATTTTGATTATTAGGAATCTCAATATTATTTTTAACATATTCTTTTTCTTGTCTTATAAAATCATCATTAACTTGGATACCTTTTGATTTAAGAAATGATTTATATGATTCTTCGCTAGTAATACGATTTAACTCATCAACAGTAAAGTCCTTAATATCAGGATAAGCAGTAAAGAAAAATCTAATGAAGCCATCTATTGTTGCAGTTCTACTCATTCTAGTTGTTTCCCAACCTATTCGATCAAACAAAAATACTTTTGCAGAATCATTTAATTTATTATCATAAAAATCCCTTGCTTCAGGTAAACTTTTAAAAAGCATCCTAACCACCTACTTTTCTACTATAACATTATTATATCATAAGTATAGAAGAAAATAAATAAAAAAAATAACTAGTTACACTAGTTATTATTTGTTTTCTCCGTTAATAACACTTAGGATTCCATCCATCTTTTTATTAACACTATCAATTTTTTCTTGAAGAGCAGCTTTTTCATTATTTAATGATAAAGTTTCTTTTTGCTTTTCAAATAAATCAAATTTAGTTTTAGAAAGTTCTTCTTCTAATTCTTCTATTCTCTTTTGTTGTTTAGCATATACATCTAAAAGAACTGGTTCAACATCTTTCTTAAATTGTTCTTCATAATCTCTACTATTAACACTAGAATTATTAACAACTGGTTTTGGTTCAGAAACAGGTTTTACTGGTTCTTCGCTAGTAACAGTATTCATAGCATTTTGAATAGTTTTAGATCTTGCTTGTAATTCTTCAAATGTAGGTATCTTGATTGTTTTTTCAAGTTTTAATTCATTATCAGATATATTACTTACAACTGGTTCAGATACTTTTGACTCTACTACTGGAGCTACTGGAGTTTCAGGAACTACAGGAGCACTAACTTCTTCTCCATATTTAGAAGCTAATGTATTAGCAAACTTTTGAGATACTAATAATTTTTTAGCTTTTCTAATAGAGATCTCTTCTCCTAATACTTTTATATTAGAAATAAAGTTATCTCCAAGAGGACTAGAATCTTTAGCAAATACCTTTAAAGCATCTTTAACATTATTCCATTCTTCATCACTAACTATTTCTTTATATGAATCAGATGCAATACCAGTTACATATATTTTAATCATATCATTCTCATTGATTTCATTATATGTATATACTAAATAATCATTATCATTTAATTTAAATTTAATTAACGCTTTAGCATCTACTGGAGTTCCATCTTCATTAATTACGTAAAATAAATTCTTATCCATTTATAACACCTACCTACTATAATAAATTATATCATGTTTATAGCTTTTTAGCAATAAAATATTTGCATCCATAAGCACAGTTTTCTTCTATATATTTATCTAATAAACTATACTTATTTATATTATTTGATTTAGGATTCTTATCATTATAGAAACCTTTTAATCTAAGTTTACTATATGCATAGTCACCTACTATATAATCATAACCTTCAAAATAATCAGTATATCTATTTAAGAATTCTTCTTTATCAAATGCATCTCTATAATCTTTAATAATTTCATATTCTGTATTTTCTACTTTAATCTTCATATTATCACCAATTTAATTATAACAAAAAAATAGTCATATGACTATTTTAATATATAATTTTTAATAAAGAATATAGTGGCTGCTATAAATAATATAACAAATATTATTATTAAAGTTTTAGCTAAAGTATTAGATTTTTTAAGATCATCGTATTCATCACTAACCATTTCTCTATCAAAGTCTTTAGTATCAAACATAAATGTACTAGAATTATATTCTTGAGATTTATCCTTATTATCAGTATCATCTTCTATTTGTTGTATTTCTATAGTATGTTCCTTCTTAATAGCATTCTCAGTTAAATCACTAAATATATCCATAGCTAAGTCTTCCTTAGTAGCATTAGTTAATGTATTCATAAGTTCTAATAATTCAGTTTCTTCATGTTTTAAATCAACATATGCATTCTTAGCTTTATCTAATTCTTTTTGAATATCTATATGACTAGAATAATTACTTTTTATTTTTCTCTTTTCATTAGCGTCTTCTAATATATCACGACTGCTTTTAGCACTCTTTAAAACCTCATTTATATCATATACTCTATTTATATCAGTAGTCTTAGAAAGGTCCTCTAAATCGGCATATAAATCGTTTGTAGGGTTATATGTTTTCTTTTCTTTATACTTTTTTTCTTTTTCAAGTATTTCTTTAATTTTATTAAGATCTATTTCTTTAGATTCATCTAAAACTACAGAGTTAGAATAACTAGTATCACTATATAAATCATCGTATAATTGTCTATTTCTAGCTTGTCTACTAGTATTAGTAGCATTTTTAGAATATTTCTCTACTCTAGAACTCATATATAATCACCTACTTTACTATATAAAATAATAACATATTTTTTAAATATTTACAAATTAGATTTAATCTACTATAATTTAATTAAAGGAGAATAATAATGCAAGATTAATATGGGATTAAGAATAGATAACGATAGATGTTTAAGATGTGGAATGTGTACTGGTATAGAACCAGATGTATTTGAATTTAATGATGCTGGAGATATTGAAATAAAAGAAGACAAAATAACAGAAGAAAACAAAAAATTAGTTGAAGAAGCTAAAAACACATGTCCAGTTAAAGCTATTGAAGAAGTAGAAGAAGAAAAAGTAGATACTGAATAGTATCTACTTTTTTATTAACATTAATAAATCATTAATTTCTTGTTTAGATAGAGGTCTATATTCTCCAGATCTAAGAGTACCTAATCTTAAATTACCATAAGATATTCTAGTTAATTTTAAACAATCATAACCTAATTTCTCAAATATTTTTCTAACTTCATGATTTCTACCTTCATGAATAGAAATTTCCACTAAACATTTGTTATTCTTTTTATCTATTTCTTTTATTTTAACTTTATTAGGAGTACATTTAACTTTATCTATAACTATTCCACCAAGTAATTTATCTATATCTTCTTTAGTTAAAATAGAATCCAATTTAGCTAAATAAGTCTTAATAATATTACTACTTGGTTTCATCATTTTATTAGCAAAATCACCATCATTAGTAAGAAGTATTAAACCAGTTGTATCATAGTCTAATCTACCTATTGGATAAATTCTTTTATCAGTATCAATATATTCTACTACTGTTCTTCTTCCTTTATCATCAGAGGCTGATGAAATAACTTCTCTTGGTTTATTTAACATATAGTATTCTTTTTCTTCATAAGAAATAGAATGACCTTCTACTACAATAATATCTGATGAATTAACTTTAGTACCTAGTTCTTTTACTACTTCACCATTTACTATTACTTTTCCTTGAGTTATTAATTCTTCTGCTTTTCTTCTAGAACAGTATCCAGAAGCAGCAATAACCTTTTGTAATCTTTCCATAATATACTCCCCTTTGCGATAAAGATTATAACATATAAATAAAAAAAAGAGAAATTATTTTCTCTTTTTTGATATAAATATTAAAGCACCCATTAAACCAGTAATTGCTATTAATACTCCAGTAATAATTAAACCATATCTAATAACAGTTTGACCTGTTTGAATTTCTATTATTAATTCAACTTGTGCTGTTGAACCTTCTAAAGATCTCTTTTGGTTTATTATAGTTGCAGATCCTTTAGCATAACCATTAGCATCTATTTTAATTACTGCAGCATTTTCAATACCTGTAAGTTCAAATCCTTTTGGAGCTTCTAATTCAACTACTCTATATGTAGAGTTAGCAGCCATATCTATAAATGTAGCAATACCATGAGATAAAGTAAATTGTACTTTACCATTAGCATCTTCTTTAAAGATATCAGCTTCTGCAGGATAAGTACCATCATTAGCTACTGATTTAACTTTAATATCTTCATATTTAGCTTTATCAGCATTATATTTTTGTAGTTTAAATTTACCACCAGCTAAATAATTACCATTTTCATCTACTTTATAGAAATTAAATACTTTTGTAGCATTAGTTATTTGGATTAATGACATGTTTTCTTTGCCATCATCTATTGTTACTTTTTGACCTGCCTTAGTCATTGTAATTGTAACTTTAGTAAATGCATCATCACCTTCTGGAAGTACATATGGAGGTACAGTTTCAATTTCTTTGAAATAATAAGTACCAGTTGGTAAACCATTTACTGTAAACATTCCATTGCTTCCTGTTACATAAACAGTAGCATCAGAAAGACTATTTACAATACTATTATATTTATATACTCCGCCAGTTTGAGTTGATTTAATATATTTTGTTTTATCACTATTAAATAATACAAATTTTACTCCAGGAAGTGAATTACCACCATTACCAATTTTCTTAACACTAACTGTTGTAGTATGGTTAACAGCCTTAATAGAATTTTGGTCTGTTAGTATTCTACTATTACATGTAGAATCTGTACATGTATGTATATTAGAATCTTTATCTACATATATATAAATTGTTCTATCAGCTTCTGATGTAGGCATTACATATGGAGATGGTACAGAAATCTCAACTATTTTATATTTTCCTTCTGGAAGTTTAGAAATAGAATAAGTAGAACATTCAACTCCTGATAAAGTATCAGTTAATCCTACTCCACTAGTAGCATAAGCATAACCGCAACCAAATCCATTTTGAAAACTTACAAAATTAACTTGAGTACTGTAATTGTTTCCAGTATACATTTTAAATTGTGCTCCAGTTATTGCATTATCTTGAGGATCAACTTTATTAATTAATAATGGTTTAAGTGTATCATAAGCAGTTATTTCAAATGTATTATTTACATATTTAATACTTATTTTACCACCTTGACAAATAACTGAACCATTTTCTACTCTACCATTATTACAACTAACTGTATGATTTGATAAATCAAATTCTAGAATTGTCGCAGGTACACGATCATATCCAGCAGGAACAGTATATTCCTCTAATAGATATCTTCCTGATTGAGTTATAGTACTCGCTGCTCCATTACCATCTAAATAAATTCTTTTACCCCCTGGTGTTACAAGATCAAAAACTGCACCACTTAATGGACCACCACCACTGGCTAATTTTATAACTTTAACACTAGATCCTTCTGAAACTACATTAAATGTTCTAGTAATTGTAGTACCAGCAGTACCATTAACTATATCTTGCCAACAATCTTGCCAGTTATTTGCACAAGATGGAAGATTTACAAACTTATAATATGTCCATTTGTTACTACCATTACCTGTAACAAGTTTACATGTAATAGTTGCTGATTGATTAGTTTTTGTTGTATAAACAGTAACAGTTTTATTTACTGCATCAACTGATACTCCCACATCGGCATTAGAACTTGTACATGAAGTAAAGTTTCCAAGACCAGTTTTAGCACCAGTAGTGAAACGTTTTTCATTTGAATTCCATTTCATTGTATATGTTTGTCCAAATATTGGACTATCACCAGCTGAATCTTTTTTATTTAAATAATCTCTAGCAGCATCTACAAATGATTTGTAATATGCAAACACATTATCATTTTGTGTTACTACTACACTATATGCACTAGTATCTGATGGATTATAATCAGGTGCATATGAGGTAAATTGTGTTCTACCACTTTCAACAATTTCCCAAACTAGAATTTGCATAGCAGCCATTTTTTGAGCTTCTTCAACTGACATATTTTCAATTGATCTAGAATTTTGCTCATCAAAATGATATCCAGATGCAAGTAAAGCTTGTAATAATTGTATTTGATGATCATTTAATCCTACACCATATTTATTCTTAATATATTCTCCAGAAAAATTATCATCAAATGTATAAGCAGTTAAATCTCCTTCATATCTTTCATTAGCTTTTAAAGAAATATGTAAGCAATATCCAGAATAGTATTTACCACCTTTAGTAGCTTCATGGAAATACCAACTAGATGACTCTAAGTGAGCAGAGTCACTAGCAGAAGCTACTCTAAAGTATGGTAATTTACTTTTTCCAAATACAAATGAAGTAGTTTTTTTAACTTTGTTATATGTATATCCAGGATCAGTAGTTACTGCACCAGATAGTTTTCTTAATATAGAACTACCTGATATATTTCCAAATATTATAGTTACAGGAATAACAATAATTAATAATAATGATAATGCAAATAAAATCTTTTTCTTCTTCATATTAATCACCTTCTCCTGTATTAGTAGTGCCTCCGACATCATCATCTGTAGCTCCGAAGCCTCCAGATTCATTATCTCCAACACCCATAGAAACATCTCCTGGATTAAATGGAACTACATCATCACCCATTAATGAAGGTAATTGAGCGGCTACTATATTTACATATGTACCACCTTTATTAGTATCTATATCAAGTACTAAATTAAAGTAGTGTTTTTCTCCAGGTAATAATAATATGTTTTGTAATCCTTTATAATATAGAATATTATCCATTAATACCCAATCACCATTTTCTTCAAGTGTATTATCAAATGTTGCTCCTTCAGGCATTAAATCCATTATTACACCAATATATCCTGGGAAATATTTAGTATTAGAAATATCAAAACTATAAGTAACTCTAAACTTAGTATTTTTTAAGTTTTTAATATCTATATTTACTTTTGTAGCTTTATCATATTCATATGTCTTAGTTCCTTGATTAGATGTTTGAACTATTTTTGTAATATATTTATTAATTTCAACAGCAAATTCTTTTCTAATTCTAAGGCCTAAATTAATGTATCTTTCATTTGCGGAAGAACTTTCAGATAAAGTAATAATATCTGATACTGCAGCATCATCAACTCCATTTAAAGCTACTGCTTTGGAGTTAATAGCATTCGCATTAGTAACTCCTGTTGCTTCTCCACCATATTTATCTGATGGTGTATATTTAGCTCCATCATATCTATATAAAACATAATAATAACCAGCTTTTAATCCTGCAAATGAATATGCTCCAGTTGATGATGTAGATTTAGTTGCAATTAACTCGTCTACTTCTGGATTAACATAAGCATTTGGATTCTTACTATCAGATTCATTAGTATATTCACTATTATTTAATTTATATAATTCAACAACTATATCTTGTAATTGGTCTTCTCCACCTTCATACATATTACTATAGTTATAATCTTCAAATACAAATCCAGATATTTTTCTACTATAAACTTCTACTAAAGACTTAGATGATTGATAGTATAATTTTGCACTAGGAGTTGTACTACAATCTTCAGGATCACCAACACATGCTTCAATATAATTATCTGGTCTATTAACAGTTACAGTAAATCCATTATAATAAGCATCAGCTTGTTCATTATTAACAGGAGTTACACTAACTACTACTCCATTCTCATTTAAGAAATATGTATCAATATTCCAATTATCATTTTTAACTATCTTAATAGCAGTTGCTCCTTCTAATTCATCAGATGGATTATTCCAAGGTTTCCATACTGTTGTAGTATCTGAATTAGTACTATTATAAATATCACTAGATACATTCTTACCATCATCTGTTGTATAGTATGCTGTATATCCAGCATTTAATGCACTTAATAATTTGATTTTAAACTTACTATTAGTAAATGTCTTATCATAAATTCTATAATTAGAATCTTCTATATAAGGAAGAACATAATATAATGCAGCTCCACTATAAGAATAACCTGTTCCTTCACCTATACTTGAGTTATTATATGATTTCATAGTAAATACATAAGGTGAATTTGTTTCTATATATCTGTGATCAACATTACTATAAGTTGTAATTGATGATCCATTATATAGAGTTACTATATTTGAATTATATTTATAAGCATCATCTCTTGGATCACTTAATCTTATAATATTTGTTCCATCAATTTTACTTCCTTCAAAATCTACAGTTACTATAATACCAGTTTGAGTACCAGATTTAGTATCTAAATAAATATCTGTAAATATTGATAAAGTATTTATCATATTATTATTTATTTCATTTTGATTAAATACATATGTGTAAGTATCATATGATGAACCTTCTACTTTAGTACCAGTTTTATTAACTCTTTTACCATCTACCATAGTTTCAGCATATAAATAATTTAATTTTTTTGGAATAGCTACAACTACAGTTGCTTTATCAAATACAATTGAATCATCTGATGTAGTAGCATTAGCATCAATTCTCCATTCAATTGGATAATCATAGAATACAGTTCTTTCAATATCATTATGATATGCATGGACTTCTGGTTGATTAACTGTATATGCTATTACATGAATTGTATTACCATTAATAGCACATTTTGCTGCATGACATAGATTTGAATAATCTCTAGATATTAATTTATTATTAAAATCATATACTGTTTTAATATAACTATCTTTATTCTTAGCAGCACTAACATTATTATCATTAATAGCACTAGACATATAGAATTTATTACCATTAAATGTTCCTACTGAAGAAGAAACAACTTGATGTGATGTATTTCTTAATGAAGCATTATTTCTTACAGTAGCATTCAATGAAACAGTAGCTATTGTTCCTTCATTAAAGTTTAATGTTTCATCTGAAGCATCACCAAAAACTGTATCAACAATTATTAAAGGTAATGTAGTATCTTCATCTTCGTTCCATTTAACAGTGTTCTTTGCTCTTAAACATGGCCCACCAAATAGATTCATAAGATTTTCTTTTGTTAAACTACTTATATTAGTAGGACAACCAGATTCTCCAGTTAATTCAAAATAATTTGAATTCCATTCACCATAACCATATCTCATAATAGCAGTTGGTTCTGATACTGAATTACCTTCTCTACTTATTATAAATGCATCTGAATCAATTTTAATATAGTTATGTAATTCATCTAATGTATCTCCAACACCATTAGTAGCATATTCAACTTGCTCAACTATAGCAAATTGTTCACCATAATTTAAGAATACATTCCCAGCAGTTTCATAGCCTTCAGCTTGACCTTTAACTATATCAACACTTGCATTGAAGGCACCTACCATTTTATGAGCATAATCTGTAACAACTATTTCATCACCAGTTTGTTTAACTAATGTATCATTAGCTTTTAAATTAGAAACTGTAACAGTAATACTACTATCAGTAGTAGCACTATCTCTTACACTATTAATTTCAAATGCAGCAGTACCAATAACTGAACTACCAGCTTTTAAATTACCTACAGTTATTACTCCACTATCATATGATACAACGTTAGGAACATCTACAAGTTCACCTGTAGCTTCAGTATAATAAATTGCATAATTCTTATTAGGATCTTTATAATTAACAAATGAATCAGCAACATATGATACTGTAATATCTGTATCAGTAGTAGCATAAGCAACATCAAATGATACAGTATTTGGAATATATATACCTAATCCATTTCTTGGTATCTTTATTTCAATACCTATTGGATAATTCTTATTTAAATTTGTATTAGTAGAATTAAAATATACACCTTGGTATAAAGTTACATCATAATCATAAATACCAGTAAATGTAGTCGAACACTCAATTGTATTTGGATCACAAGCTACTCTATTATTAGTTAAATTACTTATAAATGATTCTTTTTCTGAATCACTCATTTCAGAGATTGCTTTATAATTCTCATCAGTAACTTCTTTAATTAAAATAATAGGAGTAAATGATGCATCAACTACTTTTGTATTAGCGTTATATAAAATAAAATCAAAAATATTTGGTTCACTTGATGTAGTAGTAACGTTATCTAAAACAAATTCATAATAGTCATTATTAGCATCTAATGCTACTGGACTAATAAATTCATCACTTTGAGAATTACTACTTCCAAGACTTGCTTTAATTGTATTTGGAAGTATTACGTCTACTATTACATTTCTTCCTTCAACTTGAGTTACTTCAGGATCAGCTTCTTTTAATTCAAGATTATAAGACGCTCTATAAGTAACACTATCGAAGTTTCTTACTATACCATTATCTCCAGCAGAATCCTTACCATTTCCAGTAGTAGAATCAAATTCATATAAACCACCATCTTCAATAGATGTTATAGCAGCATTCTTAACTACTAACTTATTTGCAAATTCATCATCATTAGCTAAAACATTAAATAATATTAATGATGTAGCAATTCCAATAGCAACAAAAAACGATATAAACTTATGTTTATATACTAATTCTATTGTTTTCCATAAACCACTTTTAACTTTTTTCATATGGGCACACTCCTAGTATCATATTCTATATATAATTAAACCATTTTTTATGAAAATATGCAATAAAAAAGAGGATATTAATCCTCAATTTTTTCTATTTCAACTCCATTAATACTATCAAATCTCTTTGATATTTTATCTGTAGTTATATGAATATCCTCAACATCTCTTGATACTGTTTCAATACTTCTAGATAGTTTATCCCATCTTTCTTTATATCTACCAAACTCTATAGATAGTTTTGTAAGTTCAGATTGAATAACTTTAGCATACTTATCTCTTTCACTATTTTTAATAATTACTTCTATCGTAGTTAGAGTACTCATTAAAGTAGTTGGAGATGTAATCCATACTCTTTTTTTATAAGCGTATTCTATTATATCTGCATGATATGCATTAAGTTCTGCAAATATAGCTTCAGCAGGTAAAAACATTATTGCTTGATCGGATGTAACACCAGGTATTATATATTTACTAGCAATAGCATCTATATGCTTTTTAACATCTGATTTAAATAATTTAGCAGCTGTTTCTCTAGATGCTTTATCAAAGTTCTTATCTACCATAATTCTATAGTTTTCTAAAGGAAACTTAGAATCTATTGCTACCAAACCTAGAGGCTCTGGAGCAAATACTACAGCATCAGCGATAGTGTTATTATCAAAAGAGAATTGTGTTTGATATACTTTATCATTTTTATCTCCAAATACAGAAGATAATATATGATTTAGATTAACTTCGCCATAAATACCTCTACTCTTTTTATCAGTCAAAATTCCTTGAAGAGATACTATATCAGATGATAAACTATCTATTTTCTTTTGAGCTTCATCAATCTTACCAAGTCTTTCTAATACACTATTAAATGTTTTATTAGTCTTTTCAAAATTAACATCTATTCTTTCATTTACTTTAGTATCTATCTGATTTAATCTATTTTCTATTCTTTCATTCATCTTAGTAAAATCTTCATTAAAATTTCTATTAATATCAGATTTAAAATCTCCTAGTTCCTTAGTTAAATTAACATGCATATCATTTACTTTATCAGTTATTCTACCTTCATTTATATTCTTAAATAAAGATATTACTGTTAATATAACTACTAAAACTAATAAACCTATTATTATATATTCCATGTTATACCTCCCATTTAAATATCTTAGTTAATACTTTACTTATAACATAAGTAAAAACTAGCATACCTATAATTATTAATATAGTTTTATAATCAGTTACACTATCCATAAAACTCTTTCCTATAATACACCAGAATAGTACTAAAGGAACCTTACCAAAGCATATTCCAATAATAAACTTTTTGGTATCTACTCTAGAAAGACCTGCTGCTATATTTATTAAATATGCAGGAAAGAATGGTAGTGCAGTTACAGTAGCTAAAGATGGTATAGTAATATTATTCATCTTGCCTTTAATCTTTTTTATTTTTTCTCTTTCATTAAATTTCTTAAATTTACTATCAAATTTTTTAAATAATATAAAAGAAATTATACATCCAATAATAGTCCCTATATAAGATATTATAGTTCCTAGTATTAAACCATATGCATGAACATTAAACGCCATATAAACACCTAATGGGACTGCTATAGGATATATAGAATTAATTATAATTATTAATAATCCTCCAAGAGGACCAAATTTAGAAAAATAATCTGTTATTATTTGTATAAAGTTTGAAAATTTTGTAATCATAATAATGTCCTCTATTCATAGGAATATTATAACATAAAAAAAACAGGTTTTAACCTGTTTTTATTGAATATCTATTTGTTTTCTATTAGATTCAATTTCTTTCTTAGAAGCTTCTATTTTAAGAACACCATTATTAAAGTTTGCTTTAATAGATGATTCATCTATATCTCCTAAATAGAATGCTCTTTGTACTCTAGAAGATGAATGTCTTTCTCTTCTTAGATATTTTTTATTATCATTATCTTTGAAGTCTTCATTCTTTTCAGCAGTAATAATAATAGATCCATCTTCAGTTTCTATTTTAATATCTTCTTTATTAAAACCATATACTGAAGCTTCTACTACATACTTACCATCCTCTTCATAGATATCACAATCCATTCTTTCTTTTGATGGATGCATTCTAGGAGCATCTAAATCAAAAATATCATCAAAAAATCTATCTGGTAACATCATATAACATCTCTCCTTTCGTTACACGGATAATATAATTATTACCTCCATGATTAAAGTATAGCACTATAATTAGCACTTGTCAATAGAGAGTGCTAATTTGTTATATTTAATTTACCTATAATCTTAATAAGATCTAATGTCATATTTTTAACTAAAGGATCAACATCCTTAACAGATTTTAAAACATCTAATATAAGTCTTTTGTTACTAATAAAATCTATTAAAGTAATAACTCCATTCTTCTTTAATACTTGTCCTAAACTATTAACAAATTCTCTTTTAGAATCATTATCATATTTATCTATCCAAGTATTAACTCCTTCATCTATTACTTTACTAAATTTACTAATTTCTCTTGTTTTAAAATGATCATAATCTATTTTCCAATTAGTCATTAAATGAGATACACCTGGTTTTTTATCAGAATCTACACTTAAGTAATACATATCATGATATAAAAGCATTCCTACAATGGAATTATATGGAACTATATGAATAAACTTCTTTAATAAATCATTATATCTTTTTAAATTTGTTTCTTCTTTTCTTAAACCTTGTCCATCATTACTATATATATTTATTATTCTTTTATATATACTTTTTTTGCATCCTAAAGCAGATACTAATGCTAGATTACCACCTTTAGAATGACCACCCACAATAATTCTTTTATAAGTATGTTTAAAATATTTATTCAAGTAATTAATAGCATAACTATGTGCTAAAACAGGATATTCATAAGACATTTTTGCATTTTCTATCCATCCACTTATTACTTTATCTGTTCCCTCAAAAGATACATAAACTAGCCTCTTGTTAATTTCAAATGTTAAACAAGAAAACTGACATTTATCGGTTATATTATTCTTGTAATTATATAATAGTATATCTTTAAATCTATCTGTATCTTTAGCAGCTATTAAAAGTTTTAATGATTCTTTAACAGTAATAATATCATTAGTAATAATATTACCTTTAGAATCTAAATATGCTTTAGCAGCATCTTTTAATCTAATTTTATGTTTACTATCATTTGATACAATTCCATTAAAATCTACATAAGCAAGTTCTGAAAATATAGCATTATCTATTTCGTTAAATGGTTTATCATCAAATGTATATTTTCCGTAATAATTTAAATAATCAAATATATTCATAATATCACCTATTTCTTATCTATATAACTGCCTAAATAATCAATAAGTTTTTTTGTTTGAGTAAATGGAAATAAAAACGAATATTTTTCTTTAGCATTCTTTTGAACATCTTTTATATGTATTTTAAGTTTTTCATACATAACAGTGACATTATTCTCTTTAGCATATTTTCTAATTTTAATATATAGTTTAGTAGAATAAACAAAGTCTATTATTAGAAAACCTGATAAAATACCTATTACATAAGAAAAAGATATATTTTCATTAAACCAATTTACTGCATACATAAGAGGATCATATAAGAAGAAATAATATATAGTTCCTATAAATAACCACATAGCAGAATAATAAGGACATATTATTCCTTTAAAGTTTAACCAGTTCTTACTATAATCCCATAATCTTACTTTTTGAGATAATGCAAATAAACCTCCAATTAACTCTATTAAAGTCATAACTATACCCATTAATAATATAATTACCACTGGATATAAATTTAATCTTGTTAATAGTATATGAAGTATAGTTAATGATAATAAACCAAATCCATATATAGGTAAATATGGGCCAACTAAAAAACCAGGATTAACTAATTTGCCATGAAGAATTCTTCTATAAACTAGTTCTAAAATCCAACCAACTACACTCCCTAGGAAAAAAATAAATACTGATAATAAATATAAATTCATATAACCACCCATTTTATTATAATATAAAAAAAGTGTAATCACTTATGTGATTACATCTTTTTTACATATTAATAATATGATGCTGTAATTAAAGCTAATACTAAGAAGAATAAGAATATTATAATAAATCCTAATAAAACTGAACTAATTATAATACCTGCTATAGCAAGACCTCTTCCTTCTTCTCCAGTTTTTTTAATTTGATTTAAACCTACAATTGAAAGTATCAAACCTGGAATAGCACTTAATACTCCAAGAAGAAGTGTTGTTAAAGATAATACAAATCCTGTAATAGCTAAAGCATTAGTACCAGTTTTAGTTTCATTGTTTTCTACTTTTTTTACTTCTTTAACATCACATTTTGGACATTTATTATCTTCAAGCATACTTCCACATTGTCCACAAAACTTTGCCATAATAGTCCTCCTTAAATATATTTTATCAAATAATAATTATTACTTCAATATTATCTGTAAACCAATCTTTTAGCAACCTCTTCATATCTTTCAGGAGTTATTTCCTTAAATGTATATAAACCTTTTTCTTTAGTTAACTCAAATTGAACACATTCGTCTTCTATATTTACTATCCTATGGAATACTAAATCTTTATCTACAATATCTTCAAATGGTATACTCATTAGTTGTGGAAATATATGTATAAAATATGATGCATCTGTAAAATGTTTATTTACTTCAGTAGTATCTAATAACTCTCCTACTTCTTTAGCAGCACCATATTGAGAAGGACTCATGATTTTAGTTTCATATTCTGATCTCTTAATAAAACGATATCCTAGATCAGGATCCATATATCTAAAATCAAAATCATATTCCTCAAGTCTTACTCCTCTTTTTTTTACATAATACATACCTGTTGGTAATATACCTAATTTTACTCTTGGCATATCTCCATACATTGGATCTAATTTCCATCTATTGTTATAATCATCTGTTACTTCAGTATAGAAATGATTTCCAAGAGAAATAATATTAGTATGTAAATTAGTTAATTCTCTAATTAAAGGAGATATAACTTCATAAGCTCCTGAACGACATATTATAGAAAAATCATCTATATTCTCTAAATCTATTTTTCTATAAAAAATTGAGTCTTCTAATTTTTTGTCTTCTATTATATCTGCAGCAGACCATTTAGAATCAAAATGAAATAATTCACAAAATCTTAAGTAAATATATCTCATTTTTTCTAAATCAGATAAATGCTTCTCTTTTAATTCATTATCTAATGTATTAATTAAATCCATTTTTATTCCTCCATATTTCTTACATAAGAAGAATAACTATTTATACGTTTTTCATGAAGAGTCTTTCTTCTTATTTCATAAAGCATAGGATTCTTCTTTCTACATACTCTTTCAAATTCTTCTTTTAATTCTCTTAAAGTATCCGCATTTATATCTTTACGGTATAAAAACTCATGAATATCAACACCTGTATATACTCCTTCATTCCAAGGTTTAAATCTATATATTACATTTAAAATAGTCTTTAATAATTCTTGTTTATTAAACTTTTCTAAGTCTTCAGGTGTATCCTTTTCTTTAGCCATATTACTTTTATCCATATCTATTACATGAAAAGAACCATCTACAAGAATATTCTTTCCATGAATATCAAATAAATCTACTCTATTTTCTGTTAAAGATTTAATGTCATCAAATAAAATACCTATATTTTTAAATAAAGTATCTATTCTAGTAAATCTACTAACACTTGCTACTTCTATTCCATTTATATATTCATATATATAACCTACAAACTTTTTGTCTTGATATACTAAAGTTTTAGGCCCTACAATAGATTCATTTGATGATTTACATAAAGCTTCCATAATTACTTCTAAATCTTTTCTATTTACTATTTTTTGTCCTTCTTCATTATTTTTAAATTTCTTAAAAACATTACCATCTTTACATCTATAACAGTGCGCACAAAAACCACTGCCTATAGGAATAGGAGATTTAATAATATCATACATACTATCAATTTGTATTTTTTGCATATAAATCACCGTGAAAATATAATACCACAATTATATTATATGTCAAAAAAAAGACCTATATTGGTCTTTTTATTATTAGCCTTCTATTTTTTGCATTACTCCATTTATTTCTTTATAGATTCTTTTACTATTCTTTAACATCTTGTTTTCTATTTCTTTACCAAGATCAAATCCTAGTAATTCTGATATTCCAAGAAGATATATAGCTACATCTGCAAGTTCTTCTCCTAAATCCTCTTTCTTTTTTAAATAAGCCATATAAGCTTCTCCAAGTTCACCATATGCTAAACAAAATTCAAAATTAATATCAGTAGTATTAAAACCATGATTAATCTTATTTTGAATAACTTCTTTTTGTAAATCTTTTAAGTCTCTCATAATAACTCCTTTAGTTTATTAACTATTTCTATGTCTGCTCCTAACCACTCTACTGTATCTAATTCTTCTTTAGAAAGCCATTTCATAGCTTCATGTTCTAGTTTTTCTTCATCATGATATACAAGTTCCATATGATCATTTAATAAAGAACAAAAATAAGTATGCATAGTTAGATGAAAATCTGGATCTTTATAGTCATATTCTACAGTACATATATAATCATCTACTTTAATATCAGCATTTAATTCTTCTTTTATTTCTCTAACTAGAGCTTCTTCTTTAGTTTCTCCTTCTTCAGGTTTTCCACCAGGAAATTCCCACATTCCTTTGAAATGTCCATATCCTCTAGCAGTTCCAAGTATTTTGTTATCCTTTTTAATAACTGCTGCTACTACTTCTACTACTTTCATAATTTCTCCTATAATGAATAAGGTCTAAATCCATCTTTCTTTTTTTGTGCAGTTAAAGATTTAGTATATCTTTTAGTAAATGGATCTTTTGGAGCCATTTTTTCTTTTTTAGCAGTCTCTAAAGATTTATTAAATCTTTGATTAAATAAAGCTTCAGATTCTTTCATTAATTTAGCTCCTTTTGTTGGCTTAGAATTAATAAACTTCTTAACAACTCTTTCTTCAGCTAAATCAGAATAAATACCTTTAAATATTATATATGGTTCTTCATCATATTCTTCTTCACAAGCATCTTCTACATACTCAACGCCATAATATTCTTCCATTGGATTATGCATAAATACTTCATCTGGATCTAATTCTAATAGGTCTCCTATAAAATCAAACTCTTTATCACTTAATGCACTTAATGATCTTCTTAATTCTTCTCTATCAGATATAGGATTTCTATCTCTATTACTTAAATTTCTTTCCTTTTCTTCTTTTACAGAATCAAATACCTCTTTAAGTATTGTTCCATCTTCTTCATATTCATATTGCCATGCTTCTATTACTGAAGCTAATGATTCCATCCCATAAATATTTAAACTATCAAAAACGTTTCTTAATTCTTCCCTAGTTAATCCTTTATATGTTAATACATTAATATTATTCATTTTAAACCTCCTATATTAATCAATAATACTATTATTTCTTGATTCTTCTAATGCTCTTTTTATTAAGAACTTAGATAAAATAACATCAGCATCTGCTAAATCATAATCTAATAATTCTTCAATACTAACCCATTTATATTCAGAGTGGATATCTAACTTGAATTCTCCGCTTACATAATCACATTCATATATTTTCAGATCTACTATATGACCTGGATATTCACATATACTATGAGTTAAATAATCTTTAATATCTACTTTCATCTTAAATATTTCATTAAATGCTCTTTCTAGAGTTTTCTTTTCATCTTCAAGACCTTGTCTTCTTCCTCCAGGAAATTCCCATCTACCATTTAAATGGTCGTTTTTGTTTCTTCTAGCTATTAAACATTTACCATCTTTCATAATTAATGCGCATACAACATCAAGTATCTTTTTGTTATCTACTACATTAGTTACTTCAAATGGAAGACCATTTTTCTTAACTACTTGTTTTAAGAATAAATTAATAGCAGAACTCATAGATAAGCCAAGATCTGTTAAAACTAAAGTAGCATCTTTTTTAACATCACTATCAACTTGTATGTTAATAGCACTTGTTTTATTAGCCATTATCTTCACCTCTTGATTAGATAATAACACTATAAAAAATGCTTGTCAATAGAAAACTACAAAAATACTACAATTTTACTACATTTTCTTTTTTATATAAAAAAGAAGCATTAAGCTTCTTTTTTTGGATTTTCTTTAGGCTTCATCGTATATTTTTTTGATTCTGGACCACAATCACTTTTTGTTAAATCAACTGTAGTCATTATACGAAGCATTCTTTCTCGTCTCATTTGATTTAACTTTCTTTCTCTTTCTTCCATAAATAATTCAGAATCAATAGCACTCTTAATATAATTCTTAGATTCTTCTTCTACTTTACCTAAATCAGTAATATAAGTTTCATTAGAAGTATCCATACATAATAAGTCACTTTCCATTCTTTTTTTCTTATCATATCTAAAGAAATATGGGTAATAAAATAACTTACTTACTATATTTCCTTCTTTATCTAAATATACTGCTGTAGTTATTTTATCCTCTTTATCTAATCTAATTGTAGTAGTTCCTATTAATAAATTATTTTCTTCTAGAGTTCTTTTAATTCCTATCCATGCTTCATCTAATAAGACTCCCATATATGGAGTTTTAATAACAGGATAAGTATAGTCAATTATATTATCAAATTCTAAATCATTTACAAAATCACCTTTTGAAACACTATATAGTCTTCCATAGCATACTCCAAGTTCACCATCACCTAATTGTAATTTTTTATATGTGGCATATTCATTATCATCTACTTTTTTACTGGTACTATCTGCACTAGTAAATTCATGTTTTTCCACATATTTTTTTCCATTAAATTTATAATGAGCATATTTAGGAATCCATATACTACCTAAATTAATAATAACATCATCTTTTGTAACAAATATATTATCAGGACTTATTTCTACAAAATCATCAAGATCTTGAAAGTTTAGATAAAAATTATTTGATGTATCTAAATCTAATAATAGTTCTCCTTTATCATCAAATATAAGTTTTCCACATATTTCATTTAATTCATCTTCATCTTCTGATTCATGAAAGTTTTGCATATAATACTCTATATATTTTTTATCTTCATATTTAGCTAATTTAAATGCATAAGAAATATCCTGAGATTCCATATCAAATTTTATTCCTATTGATTCAAAATATGGTAAAACTAAACCAAATATTTCTTTTTCTAATAATAATCTTCTTATTTTTTTATTAGTTTCATCAATATATCCTTGAATATAACCTACTTCTCTTTGATTATGATCCTTTGTAATTAAATTCATTCTTTCTTCATAATAATTACGTGTACTTTTTAGTATTTCTAATTCTTCATCATAGTTTCTTTTTTTAATAATTGCCATATAAACCTCCTGAAATATAAAACTATTATAACATAATAATAAAAAAACGAACTTAAAAAAGTTCGATTTTTTCAAATGGGGCGAAATAAGGGAGTCGAACCCTTGCATAATAGAGCCACAATCTACCGTGTTAACCACTTCACCAATTCCGCCATGAAATTACTTAATAAATATATCACATATTTTTTAAATATACAAGTAATTTATGATATAATTTATTTAAGGTGGTTGTATGAAAAAATTCAATATAAATAAATTTAATGAATATATACTACTATTCTTTGTTTCATGTTTTATCGGATGGGCTTGGGAAGTTCTATGGGAATTTCTTAAAGAAGGTAATCTAATAAATAGTGGTACTATGAGAGGACCATGGTTACCAATATATGGAACAGGAACTGTATTAATATATTTATTATTATATGAATATAAAGAAAAGAAATGGATGATATTTATAGGATCCTTTGTTATATGTACTATATCAGAATACTTAACAAGTTTATACCTAGAATATACATATGGCATGTCTTGGTGGAATTATACTGATAAACCATTTAATATTAACGGAAGAATTTGTTTACCATATTCAATAGTATTTGGTTTTACAGGATTAATAGTTATATATTTAATAGTTCCATTTATAAAAAAATTTATAGAAAAACATAATAAAAAAGTATTATTTGTTGTATGTTTAATACTTTTATCAATATTCACATTTGATTTTGTATTTTCTACTATTAACCCTTATGTATCTAAAAAGATTCAAGTAATTAATATGGATAAATTTAAATAATAAAAAAAACTATCATATGATAGTTTTTTATTTTAATCTAATAATTGAATACATTATTACAATACCAATTATTATTGTAATAATACTTATTATAATTGCATTTGCGTTTCCTTTTTGACTATCAGCTTCATCTGGACTAATTTCCATTTGATTATCATCAAATAAAGGATTAGCTTCTACTGTGTTAGAGAATGGTGTAACATCAGGAGTTATTTCTTCATCTGCTGCATTAATTTCAATATTAACTGGAGCTTCTTCAACTGCAGGAGTTTCAGTAATAGTTATTTCTGGTTCTACTGAAGCTACTGGAGTTTCAGGAATTGGAGCAGGAGTAGGAGTTTCAGGAATTGGAGCAGGAGTAGGAACTTCTACTGCTTTAGCTCTTTCCATCTCTTCATACTTTGCTTTCATTTCTTTATCAAATGCATCTATATCATTAATAATAGAATCAAATGGTATTTCAAGATTATCATTACTATATTTCTTAAGCATAGAAATATATACTTCTTGAGTAATAGTAGGATTATCTTTAGCACATGCATTTAATCTATTTATGATTTCAGTTTTTCTTTCAGATAGTAAGGTTTCTTTATAAGAATCAAATGCTGCCTTTTTTTGTTCATCAGTCTTAGTTGCGTCACTTAAGATCTTCATTACTTCTTCTTCATTGTAATCGAATTTGTTTCCCATAATCATCGTCTCCTATCTTATATATTCATTATACTAGTTTTATCCTTATTTTGTAAAGCATTTTACGAATTTTTTTTAATTATTTTTTATTAAAAATTAAACATTAATAATTCAGGTTTTAATAATAAAAGTATTCCTATTATTATCATTAATATGCCTCCAATTAAATGAGAGTACTTAGTATACTTAGTAGATATTCCTGTTACTTTTAAAGTCTTCATAGATATAGCAAATATAATAATATCATCTATTAAGAAGAAGAATATATATATAAGCATATATATCATATATCTAAATGTACTTAGATCATTCATAGAAAGAATTTGAGTAAATATCATAGGTATACCTATAGAACACATAAGTTCTATTATATTTACTGAAGCTGCTAAAAGCATTATACCTAATAATGCTATTATAAACTTCTTATTAGATGTTATCTTTATAATTCTTTTAATAATCTTTTTTCTTTTCTTATCATCTACTACTTCACAACCATCATCCTTAGATAAAGATTTAATATAATTATTTAAGTTTAATATACCTGCTCCAAGGGCTATTATAGCCACAAATAAGCGTATATATTGAAGCTTAGTAACAAATGATGTAAGATTTAACCAAGTAAGCATAAATGCCAAATAAACTAGTCCAGAAGTCAATATAAATGTAATACCAAGTATCCACATTTTCTTTCTATTTTTCATATTAAATAACATTGTTATTAAGAATATAAGTATCCACATAGCACATGGATTAAAACCATCTACAAGACCTAATAGGACTGCTATTACAGGTATAGATACTTTCTTAGTATCTATAGTTCTTTTTTTACCAAATAACTTAAATGATACTTTAGTATCTTTCTCTTCTTTTTTATCTTCTTTCTTAGGTTCTACTATTTCTTTTTTCTCTATTTTTTCTCCAGTTTCAAGAAATACTTTTACCCTATCAGTATATTCTTTATTCCTATATATATTTATATAAGATCTTATTTGTTCTCCTGTTGTATCATTAGACATAAAACCACTAACAACATCGTCTCCTATTACAGTATAAGGAACACCATTAGGATTAACTCCAAGAAGATCTCCTACATCTTGTAATAGTTTTACATTATCTTCGTTATACCATACTTCATATTTATGTAATACTACATCCTCATTTGATTTAAGGTATGATTCTAAGAACTTTTCTTCTGCTGCACAATGAGGACATCCATCACCATAAAATAGATAAATATCCACTGTTTTAGCATGTACAAATATAGGAATAAATAAAAGTATAGTAAAAACTAAAAATTTAGTTATTCTTTTCATATTTATCTATCTCCTCAGTTAATTCTTTATAATTCTTTTCTCCAATAATTCTACCTACTTCAGTATCATTATTAAATACTATTATTACAGGTAATGTTCTTCCTACATTATACTTTTCTATATCATCAAAATCATAATCTAATCTAGTTACATCTAAGTTCTTTTCTTCGATTAATTTATCCATAGCATTATTAGTAATAATACAAGCTGGACACCAAAGTGCACTAATTATAATGTATTTCATTTATATCACCTTTATAAATTATAACATTTAAATAAAAAAAACGATAGGCATTACCTATCATTTTTTATTAATTATTTTGTGAAACCACATTCAAGAGTAACTTCAATTGTGTAATCAGTTTTACCATATGGTTTTTTTGGTTTAATAATTACATATGAAGCAGTTTTATCGCAGTCTTTTTTAGTTTTACTGTTAACCATAGTTTTAACTAAATCTTGATCAACTTTACTAACTTTAGCAATATTTTCTAAGTTAACCTTAATACCAGTCTTTTCGAATTTCTTAATGAATTCTTTAACATCTTCTTGAGATTTTTCTTGACTTGGATAATAAAATTCTTCATAGAATTGTTTTCCTAACTTATTTAAATTAGAAGTTAACTCTTTTTCATTGTTTCCGCCTAGTAAAAGTACTAATGCAACAACTATGCCAATAACAACAACAGCAGCCCCTACGATTATCCCTATTTTCTTTTTACTCATATTAGCCTCCTATAATTAAATTATACCATATTTCCTATAAATTACAACTATTCTTCGTCATAATCATCATAATTATCTTCAGAATGTTCAGGTACATAATCATCATCTAAATCATCTTCGCTATTTATCTTTTCTTCTTCTCTTTTCTTCATTCTTTTCTTCTTACGATTTAGATTTTCTTGATCTAATAGCATTTGTAATTTATCAACATTTTTAGTTCTAATACCTTCATTTAATGCATCTACTAATTCATCTTTAGTAACTACATCATCATAGATATCATATTTAGCATCTACAACAGTTTCTTGATTATCTAGTAGTTTCTTTTCATCCATGCCATTTATCATAGCACCATTAGAATAAACTACGTCATCATCAGTTCCATTTTTAGAATTGAAGTTAAATTCAGGTTTAAAATCAATATGAACTGGAGCTTCTTGTTTAACTACATCATCATCAGATGATTCTTTAGCTATTAAAGCAGCTCTTCTTTCCTTCTTTTGTTTTCTTCTTCTTAGAAGTAATAAAAGAAGTAATAATAATATTAATAATAAGAATAATATAATTAAGAATGGTATTAAACCAAGTCCAAAGAAATTAAATCCTTTCTTTCTAGTAACATCAATTTGATAATACTTAGTGAATCCTTTTTCATCACTAACCTTAACTAATACTACATTCTTACCTACTTGTAAGTTCTTATTACCAGTTATTGTATATTTAGCACCTTCTGGAGCTTTAACTAATACTGTTACTTTTCTTACTTTATGAGGAACTGTAACTTTATAGTTAGTTGTACTAGCTTTAAATACAGGACTCATTTCATAATCTTTAACTTTTAAATCTAATAAATCAGTATTTGCTTTATATTCTGATCTTTTAACATTTAAAGTTATAGTTCTAACAGTACCATCTTCTGCAGTAACTTTAATAGTTACTTTATTAGTATCTTCAGTAGAGAATTTTTCATTACCACTAATAGATACTTTAGCATTTGTATCATATGGAACTACACTTAAATCAAGTTTAGTTACATCATATGGAACAACTACTTCATAATCATTTTTATCATTTGCAAATTGAGGTTCAATTGTATGTGGAGAATAAATCTTGAAATCTACATTTGTATCGCTAGATTTCTTCTTTTCTGATTCTCTTGTTACATTAACCTTATAAACAGTTTTACTACCATCTTCTGCAGTAACTGTTATCTTTACTGTATTCTTTCCAACATCCCATTTACTATCACCTTCAATATCTACTGTTGCTTTTGGATCATTAGGTACAGCTTGTACATATAATCCCTTAATACCATTAGCAACTGTCATTGAATAAGTTAAAGTTTTAGGATTAAATTTAGGACTATAACTATAACCAGACATTCCTAAACTCTTTAATGAAGAATCACTACTCTTAGTAGGTTCTGGTTCTGGTTCAGTATGTTTTTCTCTATTAACTGTAATAGTATAATTTGTTGATGTACCATTTTCAGCAGTACATTTAACAGTAAATGATGTTGCATCTCCTGTTAAAGCTTTTTGACCAACAGTACTAGAATCTAATGTTGCTTTTGAACTATTACATTGAGCAGTAATAGTAACATTTTCAGTTCCTTCTGGAACAGTTACAGTATAAGCTTTAGTAGTTGCACTAAAGACTGGATTAAGTGAATATCCAGTAACACCTAAACTCTTTAATTTAGAATCACTATCTAAAACAGGAGCAGGATCATTAATTGTAATTGTTTTTCCTTGAGTTGTCATTGTAAGTAAATTAGCAGCTTTATCTGATGCTTCAGCACCAGTAATTGTTAAAGAAGTACTTCCAGATTGTAATGACTTAAATACCACTTTAAGAATAGCTCCAGATCTACCAGCAGATCCAGTACTATCATAAGCAACTATCTTACCAAGTTTACCAGTACTTACATTAGCAGTAGTAACTGTTTTAGACCAGTTATCAGTATCACTAAGTGTAGTACTTACATATTGTAAATATGCTGGATCAAAGTTTATAAATGCTTCGATACCAGATACTTTACCATCTGATACACCTGAAATGTTAGTAACATTAAGTGTAACAGTTATATTGCTTCCTTTAACAACAGTATCACTACTGGTTAGCGACATAGTCGCAGAACCAGCAGCTAATACTTTTGAATTATAAGCAAATAATACAATGAATGTTATTATTAAACAACTAATTATTTTTTTAAGTTTCATTTTCATTTCCCTTTCTATTCTTCTGCTACGATGTTAACTATAGCAACAACATCGTTTATCTTAATTTGACCATCTGATGAGAAGTCACCAGCTTCAAACCAAATACCCTCTAAAGTTTCAACTTCAGCTACATGGCTAACTACTTTAACTACGTCGTTAATCTTAATTAAACCATCACCAGTTACTTCACCTTTAACTACTATAGTATCTCTATCGTTTTCTCTATTATTCTTAATTAATTTAATAATCATTCCTGTACCAAGTTGTTGATTATTATCAATCTCATTTTGATCTTCACTATCATAAACAAATAGTAAATCATTATCATTATCACAGTTATCTTTTAATAAACCAGGTAATGTCTTATAAACTACATTCTTAATCATACCATCAGCGATTGTATATATTTGAGAAGTAATCTTTTCATCTTCCTCAGGTTCTTCTTCTTTTGTTACTGTAATTGTATAAACTTTTTCATCACCATTTTCAGCTGTAACTGTAACAGTAATTGTATTTTCACCAGGTTGTAAGTTTTCATTTCCTTCAACTGTTACTGTAGCATTATCTTCATCATTTGGAGTAGCATTAACTACTACGCTATCAACATCTGATGGAACAGTTACTGTGAAATGGTCATCATCTTTTGTAGGATCAAATTCAGGATCTAATGTATATCCTTCAACTTCTAATCCAGATAATGTATTATCATCGTTACCTTCTTTAGTAACTTCTATTGTATAGTAACCTTTTTGACCATTTTGTGCTTCTACTTCAATAGTTATAGTATTAACACCAGTTTGAAGGTTATCATTTCCTGTAACCCTAGCAGTTGCATGACTATTTTCTGGAGTAGCTACAACTTCTAATGAGTTAACATCATGTCCTATAGGACCATATGTATATGATGGAGTATCAGGATCAAAGTTTTCTACTGTTACTCCTTCAACTTTTAAGTCTGATAATTTAACATCATCACTTAATTCTCTTTCGATTGTTAAGTAATATGGTTTAGTTATTGTATTATCATCTGCAGTTACTGTAATAATAAATGGATTAGAACCAAAGTCTACATCTACTTCTCCAGTTCCATCTACTTGAGCTCTTGGAGCATCAGTAGCATGTGCAGTAATAATTACTTTATCAACATCTGCTGGAACAGTTACAGTGTAATGATCATCTTCAGGTTTAAATTCTTCATTTAATTCATATCCTATTACACCAAGTTCATCTAATGTTGCATCAGTAGCTCTACCTCTTTCAACATGGATTATATAGTTTGTAATTGATCCATCTTCAGCAGTAACTATAATTTCTATATCTTCATCTCCATCTTGTGGATTAACTTTTCCATCTGGATGTCCAACTATTGTAGCTTCAGCACCATCAGGAGTAGTTACTACGATAGTAATTTCATCCTCATCTGGATCAGAAGTATAAGTATATTCAGTTTCATCTGGTTGGAATGCTGGACTTAATGTTCCTTGAGTATCAGCTATAACTTCAATACCAGTTAAAGTAGAATCATTATTTCTTCTTCTAACTTTAATTGTATATGTTCTAGATGTTGTACCATCTTGAGCAGTTATTGTTACTGGGAATGAGTTATCACCAATACTTAATGCTTTAGTACCAGTTCCAACTATTGAAGCATCTATATCACCAAGAACTGCTTCAATTAAAATTGATTCTTTATCACTATTTACTTTACCTAAATCATATTCTGTACCATCTGGGTCATTAGAATGGAAGTTAGGTACTTCTACACCATCAACTGTTAAAGTTGTTAGTGTATCAATATGTTTATATTCTCTTGTTACATTAATTGTATATACTTTTGGAGTTCCATCTTCAGCAGTAACTGTAATAGTAAATTGATTATTTGGACCAAAGTCTAAAGTCTTTTCTCCATCACCAGTTAATTCTGCTCTATCATCAGCAAGTTCTGCTCCGATAGTAATTTTATCAGTATCGCTTGGAACTGAAACAGTATATTCAGTTGTATTAGGAGCAAATCCATTAATTGTTTCACCATCTATAGTTAAATCACTAAGATCAGCGTTACTAGATTCTCCTCTAACTAAATTAATAATGTAATGTTTTTCTGTATTATCTTCAGCCTTAACAACAATTGTTACTTCTGGAGTAGTTGCAGGATTATAAGTACCAGGTCCAGAAACAACTGTTGAACCACTTCCTTCTGGAACAGTAGCATTAATAATTACTTCTGTTTCATCTGGGTCAGTAGTATATGTATAAGTAGTTTCTTCTGGATCAAATTGTTTATCCCAAGTTCCAGTAGGAACACTTGTTATTGTTAAAGTCTCTAAGTTCTTAGCACTATTTAATCTCTTAACTAGTACATAATATGTTTTCTTAGTAGTTCCATCATGTGCTGTAACAACTACTGGTAATCTGTTATCACCAACATTTAATGATATATCACCAGTTCCAGTTACTGTAGCACCATTTGGACTAGGATCTGCTAAAGTAGCAGCTATATTAATTGTAGTCTTAGTACTTGCAACAGTACCAACATTATATTCAGTTCCATCAGGATCTCCACTATGGAAGTTAGGAACTGTAACATTATCTGCTCTTAAATCAGTTAAGTCAGCATTTGTTTTATATTCTCTTGTAACAGTTAATGTATAAACAACTGGTTCAGCATTTGGATCTTCAGGTTGAACTGTTATTTCAATTTCATTTTCACCATAGTCTAGTGTTTGAACACCAGTACCACCAGTTATTTCTCCTCTATCATCTTCAAGTTCTGCACCAATAATAATTGATTCTGTTGTACTTGAAACTGTTATTTCATATTCTTTAGTTCCAGGTTGGAAATTATCAATTTCATCACCGTCTACTGTAATAGTACTTAAGTTACCATTTGTACTCTTAGCAATAGCAAAGTTAATTGTATAAGTTTTCTTAGCTTGAGTAGTATCTTCTGGAGTAACTTCAATTGTTACTGAAGAAGTAGTTCTAGGATTAATATTTGTTAAATCAGCAGGAGTAGTTACTACTGTAGCATTACTATCAGCTTTTGTATAAGTAATATCTACATCAGTTTCATCAGCATCTGTATTGTATGTATAAGTTGTTGTATTAGCATTAAATGGTTTATCTAATGAACCCGTCTTACTTGATGTTACATTTAATGTACCTAAATTAGCATTATTACTCTTTCTATAAACATTAATAGTATATGTAGTCTTATCTGTTCCATTATGAGCAGTTACTACTACATCAAATGAGTTATTACCAACATTTAATGTCTTTTCTCCATCACCAGTTATAGTTTCATGAGATTCACCTTTAACATAAGTGATATTTAAAGTTGAAGTACTATAACCAACAGCATCTAAAGTATAAGTATTAGTTCCATCACCAGGATTAAATCCTTTTACTCTAGTACCATTTGCTAATAAATCATTTAATGTTGATACATTTTCTTTTTCTCTTGTAACAGTTACTGTATAAACAACAGGAGCTGCATTTGGATCTTCAGGTTGAACTGTTATTTCAATTTCATTTTCACCATAGTCTAGTGTTTGAACACCAGTACCACCAGTTATTTCTCCTCTATCATCTTCAAGTTCTGCACCAATAATAATTGATTCAGTATTACTTGGAACTGTTAATTCATATTCTTTAGTTCCAGGTTGGAAATTATCAATTTCATCACCATCTACTGTAATAGTACTTAAGTTACCATTTGTACTCTTAGCAACAGCAAAGTTAATTGTATAAGTTTTCTTAGCTTGAGTTGTATCTTCTGGAGTAACTTCAATTGTTACTGAAGAAGTAGTTCTAGGATTAATATTTGTTAAATCAGCAGGAGTAGTTACTACTGTAGCATTACTATCAGCTTTTGTATAAGTAATATCTACATCAGTTTCATCAGCATCTGTATTGTATGTATAAGTTGTTGTATTAGCATTAAATGGTTTATCTAATGAACCAGTCTTACTTGATGTCACATTTAATGTACCTAAATTAGCATTATTACTCTTTCTATAAACATTGATTGTATAAGTAGTCTTTGTAGTACCATCTTGTGCAGTTACTACTACATCAAATGAATTATTACCAACATTTAATGTCTTAGTACCATCACCAGTTACAGTTTCATGGTCTTCACCTTTATCATAGCTAATTATAATATTTGCTTTAGTATAACCAACATCTGTTAATGTATAAGTACTAGTTGGATCACCAGGAGTAAATCCAGGAACTCTATTTCCATCTACTAATAAATCATTTAATGTAGATACTGTAGAAGCAGGTTCTCTAGTTACTGTTACTGTATAAGTTTTTTCTGTACAAGTATTACCAGGTACTTCACTATATTGACTCTTACAACTTTCAGGGCTAACTGTTACTGAAACTGTATTAGAACCAACATTTAATGTTTTATCATTACCTGTTCCAGTTACTGTAGCTTTATTACCAGCTGTAGCTGTAGCAGTTACATTAGTTTTATCTGTTGTATATGGAACTGTTGCAGTATAACTTGTTGTATTTGAACTAAATGTTCCAAAATCAACATTTGATAAAGCTAAAGCACTTAATGTATTTTCAGAATTAATTCTATAAACATTTACTGTATATGTCTCAGGATCACCAGATTGTGATAAGACATTTATTGAATAACTATTATTACCGTATTGTAAATTTGTTTTTGTTCCTGTTCCAGATACTATAGCATGTTCTTCATTAGGAGTAGCAGCTATATCTACTGAAGTAATATTACTAGGAACATAAGTAGTATATGTTTTATTTGTTTTATCTCCAGGAGTGAATGTTGGAGTTAAAGCATAATTTGTACTACCATTTTTTACTGTTAAAGTTCCAAGTGTATTATCAGGAGATTCAAAACCTTTAACTTGTAAAACACCGTCTGTTGCAACATATGCTGATTTATTAGCCATTGCTATACCAGTACCATATGTTCTATCAAATTCAAATAATATATCTGTATTTTTTTCACCGTCATCTAAAACTTTAAAGTAGAATAACATAAGATCCATTTCATCAGTTAAAGGATCACCTGCAGAACCATCTTCATCCATTAATGTTGCTGTTATTCTTCCAGCAGTAGGATTAGATGCACCAGAATCCCAGTTATAATCTAATAACAAGTCTTCACCTATTTCATAAGCAAACTCAGTTGAATATTCTCTTTTTGATCTACTCCATTTATGAAATATTGTTGGTTCAAATGAATCTGTATCATAATTGAATTTGAATTGCATTGCATAGTCTACTGGAGTTCCAGGTTTATAATGGACAGCGGCTACAACATAACTTCCAACGTCAACCTTGGAACCAGCTGCTATTTCAGTCAATCCACCATTACATACAATTTCAGCTGAAGTTGTAACTCTATATGTATCTGGATCATATTGATCCCATAAAGCTTCTTCATCTAGATCACATGTATAAAATTTAAAAGTAAATTCATGTTCTCCTGCAGCATATGCTTTTGGTATTCCAATAAAGAACGACAAGCCTATTACTGCTAAAAGCGTAAGAAGTACGCTTAATTTCTTCCCTCTTTTGTTCATTTTTTCACTCCTATCAGTAAGGTATATTTAATACCCTATACACCTATTCTATTATATATTAATATGATACAATTTTTTGAGGGTAAATGTCAATAAAAAGAGACTATAAATAAATAAAAAAATCAGTTATTTTTAACTGATTTTTAAAACTCACAATCTAGTTCAATTTTTATCTTATAATTACCTTTGCCATATGGATTTTTTGGATATATAACTGCTTTAGTATTTTTAGAATCACAATTATATTTTTTAATGATTTTTTTCTCTATGTCTTTCTTATATTTTCCTTCAAAAGATAAAGATAAAGTATTAAGATTTGCTTTAATACCAATCTCTTTGTAATTAGATAATACTTTACCTAATTCTTCTTTAGATCTATTTTCTGCTATTACTTCCCATAAGTATTCAGAATAATATTCTTTACCCAAACTTTTTACTTTTCTAGATACAATATTTTTAGGACTAAAGAAAATTATTAAACCTACGATTAATAATATTAGAACTACAAATGCAGAAGAAACAATTATAATATTCTTTTTAGTAAATATATTCTTCTTTTTTTCTGCTTTAATTTGCTCTACTTTAATCTCTTTCTTAGGTGTATTAGTTTTCTTAGTAGTTACTTTCTTTTTTGTACTTGTTCCCTTTTTAGTATTCTCTTTTGCCATGGATACCACTTCCCTTACTATTTATACTTAAATTATATATTAAATTCCTTGCTAAATCAACATATAAAAAAGATATTAATTTAATGAATTAATATCTTCTCTTATGTAATTATTAATTATTTCATGATCTGATTCTCTAATAGCTATATCTTGTTCAACATTAGCAGCTACATATCTTATATTATCATTTATTAAAGTTGTACCCTCTAAATGATCCTTTATAGCTAAGGAATCAGTAATATTACTATATCCATCACCATCTATATCTCCTCTTACTACTATAGTAGCAGTATCATAGATAGTTCCTTCAGTAACAAGTTTAATAGTTAATCCGGTTTTAACAACTATATTATTTGATAATTCACTATTTGATTCATATATTTTGATAAATGTAGTTGGATTAGACATATTACTTTTATATGTTCCAACTATTACTCCAGGTTCTGAACCAACAACTATTTTATCATTACTTACAGTTTCAACAGAATAAGTATTAGATTCAAGTTCATCACTAACATCTAAAGTCCAGTGGGCATATAATGTTAAATCACTATCTCCATTATAAGAGGTATACTGAACATCATTTTCATCATACCAACCATCAAATCTATAATAGTCTTTTACTGGATCATCAGGAAATTCAATTGAACCAGTAATAGTTACATCATCATCTAATTCTACTACTTTATCATCATCTAAGAGTAAAGATGCATCACTATCATAGTGAACACTATCTACATAGAATCCATTATGAACAGTAGTCTTTGTTTTCATACTTGTAGTATCAGAATCACCATTATTATATTTAAATGTTACAACAGTTTCTTCAATATCGGCAGGTCCATCATTGCTACCAATATCTACTAATTCTTTATGTCCATGTACTTCTACAGAACCATCAGGATAAGTAACAGTATGTTCAGTAGTATTTTCATAAGTACCCATTCTAACATAATAATTAGAAATAGTTCCTATTAAATGTCTTTGAGTACCATTATTACCATCATCAGCTGCGCAGAAGTATACTGGTACATCAAAGTATTTAGTAAAATTACCCATACTTTGAACAGTATATAAGTTTCCACCATTTACTTGATAATAAACTGTATTATTTTTTCTAATAATTTTAATTTGCATTGGAAATGTTAGATCCGAAATATATCTTTGTACTTTACCACTATTAACAGTTTGAGTTATTTCTATTTTTTGAACAGCTCTTCTTACTACTAAACCTGGCCATCCAGCAGCTTGACTTTCATATTTAGTATTCATAAATACTGCTTGCTCCTCAGTTTGAATATCAGGATCATATTCTTCGATTATAAAACCTATTTCATAATCTTTAGTCCAAGTACCTTCTTCAGTAGCAGTATCACCAGTATATAATTTAACACCTGTATCTATATAATTTGATCCTGTACATACATAAGGATTTTCATGATATGAATAAACATATGGGAATTGATTTACTACCCATTTAGCATGAAGAGTCATATTGCCAGTAACTTCTGTTTTACTAGAAACTTTATTTTCATATGTACTTTCTTTATACCATCCATCAAGTACATATCCATCCATAGTAGGACTAGGAAGTGTACCTAGAGTATCAGTACTAATATCATAACTAGCTACATCAGGTCCTCCATGAGACTCAAAAGATATAGTTGCAGCATATACTTTAGTATTAAAGAACGCAAAAAGAATTAGTATGAATACTAACTTTTTAAATATTAAAATTTTGTTATTTTTAATATCAAAATTCTTCATAATAATCCCTTCCTATATTCTTTATTAGAGGTCCAAATTATAGTCCTCCATAATATAAAAATTATACTCCTAATCAAGTGTTATAGTCAAGATTTCAAAATTTCAAGATAGCAAAAAAAGAAGGTTAAACCTTCTTTTTTTTATTCATTAAGTGTATCTATATTTTCATTTAAATAATTAGATAATTTTAATTGATCAGATACATTTAATATATCATCAGTTACAACATTTGCTGCTATAAATCTAATAGGATCTTCAATTAAAGTAAGTTCTTGAATATGATTCTTAACTTGAAGTAAATCTGTAATATTTACAATTCCATCTCCATCCATATCTCCTCTAACAACCATAGTTGCTTCATCATAAATATTACCATCAATTACAAGTTTAATAGTTAATCCAGTCTTAATTATATCATCATCGCTAACTTCATTATTATCTAAGTCATATATCTTGATATATTCATTAGGATTATCCATATTTTCTTTAAATTCACTTATTAAAGTACCAGCATCTGCACCTACTATAAATCTAGTTACAGATTGATCTTCATTAGTTTTATTAGCTACAACATATAAAACTGATTCTAATTCTTCACTTATTTCTCCATAATGAGCATATAAAGTAAAGCTATTATATAAGTCCATATATTTAACAAAGTCTTCAGTATTCTTTATTCTTCTACCACCTTCAGGTTTAGTATACCAACCTTTAAATGTAGGTTCGTTCATTTCAGGAAAATCAATTTCTCCATATTCATCTACAAATTGACTTTGAATATGAATATCTCTATAGAAGGTATATAAATCATGTTGTTGATATTTTTTAATATCATCATTACCTACTCTAAAGTGGCTAAATACTTCATTAACAGCAATACTTCCAGATAGTGTTTCTCCTGATCCATCATTTAGATCAAAATCAATTTCTCTAGAATAGCTTTGTGGTTCAGCGAATGCTATATTTTCTACAATATCATCTGGAATTAATATGCTTTCTCCTTTAGGCCAATCATATTGTGTATCCCAGTCTACAGTAACTCTTACTGTATCACCGTCACTTGAATAGTATGTTGCATATAATGTTAAACCATCAGGTTGAACTATATCTTCATCTTCATCATAGTAACGACAGTATCTTCCATCAGTAGTAGCACACCATCCTCGTAATTCATAACCATTAATATTTAAACCGTGATCCCAGTTATCATTATAATAACCTACGAAATCAGATGTATAAGTATATGTAGTAACTCCATACATATCAACATTTTCATTAAATGTATAAGTTTCACCAAAGTCATATCTTTCATTGTTGATCATATAGTATTCAACTGTTTCAGTTCTAGTTGTAGTAACATTCTTAGGATCATATCCAGGTTCTTCAGTATTATAGTCAAGAGTGAAATGCGCAGTAACTACTGTAGGTTCTGGTCTTTCTAATGTAACAGTAGTTCCTTTAACTATTTCTTCACAATCACCTTTACCATGACAAATTTCTACTGTTGGTTCTCCCCAGTGAGCATATAAAGTATCATAACCATAATCTTCATAATACCATCTCATATATTCAAGTTCGTCTACTCTTTCTCCACCTTCTGGTTCAGTCCACCAACCTTTAAAGTGATCATCATCTATATATGGTAATTCATCAAAAATCCATTCGTTATTATAGCTACTATAGAAATATGTATCTTCTTGATAATCATATTCTTCACCTGGATTATATACTCTCCAGTAATTTTGTTTTTTATAACCTTCAAACTCATGTTTATAAGTCATATTTGCTACTCCATTTGGAGTTTCATTATCTTGATAAACAAGTGTTATAGGAATAACCTCATCTGCTTTTTCTTTAGCTTCAGGTATAACACCCATTCCTTTAGTAATAACAGAAGCTTCATCATCAACAGATAAAATTATATTAGGGTCTTCTAAGAAATAAATATATCCCATAAAGCTTCTATCAGTTACTTCATAGAATTTATGAGTTTCGATATTTTCTCTTATATATAATCTCTCTCCTTCACCATTTGAGTTAGTGAATATACCCATAAATAAATAATTATCAGCTATATAATCGTTTACTCTTGTAGGAGGATCTACATCTATTAAAAATCCATAACCACCTATATTATTTGATGAAGAAATTACTCTAACTACTTCAATTTCAGTATCTTCATTTACTATATAAGATTCATCACTTGGTTCATATTCATTATTATTTATTAAATAATGATCTAAAGTAGCATTTATTGTAATGGTTCCTCTTGACCTTGAATGATCAATATTATCAACTAAAGTAATAGAAACATTTTCTTCTGTTGATTTATCTTCTAAGATAAATTCATAGCCTTTATCGACTACCTTAGTAAAATCAATACCTGTATATTCATCTTTATAATGAATTAAAGCTTGAGTTTCAGGATCATAGTTTGAATATTCTGCAAATAAACCTTGACCATTTAAATCAGTATCTGTTGGTTTAATTGCATATATATCAGTAGTAATATCCATTGGGTCAACATAATCCCAATTATCAAATAACCAACCATTAAATACATATAAAGTTCCATCTTTTTCTATTGTAGTTACTTTTTCTATATAAGGATCCATCACTACAGTTTTATCATTATTAGTATTAGTAATAACAGTAGTATCCTCATTAACTATATATTTATATCCCGGTTCATAATTAGTACCATTAATATTCTGATAATTAACAGTTTTACCATATCCTATTTTAACATCTTGTTCCATTTCTCTTAACCAGTCACTAACATGAATAGTTATATATTCATCATCTGCTATTTGACCACTTGGAACTACATATTCAGAACCTCTTTCAACTACTTTAGTTTTACCATCAATAGTTAAATTAACTGGATCATCAATCCATCTAGCAACTAATGTTACATCTCCACCACCATAATATATTTCATATGGTTCAGTATCAAAATTACCCCATGCATACCAACCAGCAAAATATTTATTACCATTTGTTGGATGTGGTAATACATATGGAGGTTTATCAATTATATTATCTCTTTCAACAGTAATAGGATCAGTTACAGTAATAATACTATTGTCATCGTAATGAACTCCATCAACAAGCCATCCATTACCCTTTAAGAATTCAGTCATTACAGTCATAGGAGGATCACTATCATCACCTAGATTATAATCAAGATAAACATATTCAGCTTCAGCATAGAATTGATATAAATCATTAACTCCTAGGTTATATTCTTCTCCATATGGAACATATACTATTCCATCTGGTGTAGTTACAGGTACAGTAGTAGCTTCTGTCCAATGAGCATATAAAGTTATATCTTCTTCAGTATCATATCTCTCAACTAATTCTCCACCTTCAGGTTCAGTATACCATCCAGTAAATTTATAGTTTTCTCTATAAGCAGGAGATAAATCAGCACCTATTATAGTTTCAACTCCTATTGGATCAAGATATATATCTTGATCAACTATAATAGTATCTCCAAAATCATATTCATTCTTTTCAACTTGCCACTTAGTTAATGTGAATTGTATATCAACATATGCATAATCGTCTTCTGAACCATCATAATTTTTATTAAGTGTTACAGTTGCTACATGAGTATTATCTCTTTGATAATTGTCTTCAAAAGTATATGAAGAACCATAATCTACACTCCAATTATTATTTGGATGATAAATTATTGGCCTAAATTCTCTATATGTGAAATAACCAGGTTTATCATTATTTGGATCATCTACTCTAGCATATTCACTAGTATCATGGTTTTCATCATATGTTGTACCTGCTCCTCCAACTAGTTTTGTTGAATAAGTAAATACATTGTATTGTTCATAATAATAATTATCTTCATTCCATAAGTCTGATACATAAATTGTTTCAAGATTAGGCATATTATTAAACATAGTCCCAAAATCATATAAATTACTATTATCAAACATAGTTAAATCTAAATATGTTAATGATGAACAACCATAAAACATTTCATATGCATATTCCAAACTTCTTAGTGGTTTTCTTTTAAAATCAATATAAGTTAATGATGAACAATTATAAAACATTTCACTAGTAGTTGTAACACTACTCATATCAATATTATAAAAATCTATATTATTTAAAGAACTACAATCATAGAACATATAGCTCATATCAGTTACATTACTTGTATCAAAATTATCACCAAAATATACTTCTTGTAATCTTTCATTATAAGCAAACATATTTGCCATATAGTTAACATTATTTGTATATAATCCACTTAAATCAATAGAAATAAATGATGTTGAAGAAAACATATTTCCAGCATAATCATTAATATAAATATAATCTGCTTCAGAATAATATAATACGTTTTCTCCGTCATACCACATATAAGTAGGAAAATGAGAATCTTCAGTAGAGACAATATTATCTTCAGTTAGACCATCTTTAATATTATTATATTCAGATTCTGTAGCTTTTCTAAATGTATTTAATGAATCAGAATAATTAGTTATGTCACCAATTTTACTACTAATATTGTATCCTTCTTTAAGGAAAGAAGTTCTATTATCATAATGAGCATGTAATGTTAAAGGTTCAGTTTCTGAATAACTAGTAACCTTTGTTCCACCATCTTCCTCTGTATACCATCCAGTAAATATCTTACCTTCTTTAGTAGCAACTGGAAAATCTTGACCTGGTAAAACTTCTGGTTTGTAAGCATATTCTAAAGTTATATCTTTAGTTGCCCTAACCCAAAAACTATTATTCCAACTAATACCATTATCATAATAATGGATACCATCAGCAGTATAACCATCTCCAACCATAGTAACAGTTTGAGAAGTTGTTGTGGGTTCAGTAACTCCATTATGATAAATAAATGTTATTTCACCTGATTGATAAGTTCCATTTGTAGTTTCATTTGGTTCTAAGTCTAATCCTGCGTTATGTTCTACAATAAATACTCTTCCATCAGGATAAGTAATAGAATGATATAGTTGACCCTTTAATGCAACATCAGTAAGATATCCTGGCTTATCATTCTCAGGATCATCTACTCTAGCACGAGAAAGATTAAATGTTCCATCATCAGATCCAACATAAGTTGTTCCATTTTGACCCATAATTCTATAATCAGCGCCAAACATTTGATTAGAATAACGTGGTCTTGGAGTTCCCCATTTAACTGGATCAACATATATTGTAGTTAATTTTAAGCAATAATTGAACATTTGTGACATATAAACGGCACTTTTTGGTTCAAATGAACTTAAATCAAGAGTTCTTAATTTATCACAACTATTAAACATTCTAGACATATCAGTAACTTTACTTACATCAAAGCTAGTTACATCAAGTTCTTCTACGCTTATGTTTTCAAACATGGCAAACATATTTGTAACATTACTTGTATCAAAATTACTTATATTTAGTGATGATAAATTAGCAGCATTTGCAAACATTTGCTCCATTCTAGTAGCACTAGAAGTAACGAAACCACTTAAATCTAACGAAGTTACTGAGCAATCGCAAAACATTCTTGAAAAAGATTCTACATTTCTAACATCCCAACCAGTAAAATCTATAGATACTAATCCATAACTTTGTTCAAACATTGCACTCATATCAGTTACATTACTTGTATCCCAGGAACTTAAATCAAGTGATATTAGTGCATCACTGTTAAAAAACATTTGGCTCATATTTGTAACACGGCTTGTATCAAATCCAGTAACATCAGCATCAACAAGATGTTCAACTTCAAAAAACATTCTTTCAGAATTTGCATTAGCATATATTTTATCTGCTTCTGAATAATATAATGCAGTATCATTTGCATCAAGCCATAAGTATATAGGATAATCTGAATCTGCTGTAGAAACAATATTATCAGAAGATAAATTTGGTAATGCACTATTATATTCGACTATAGTAGCTTTTCTAAATGAAATTGGATCAAGTTCTCTTAATTTGTAATTAAATGATTGACCTGCACCTAAATTATATGAACTAGGTAAAAAAGTAGCCTCTGTTAAAGCATACGCTGTTTTAGAAAAACCAAAGAATAACGCAAAAAGAATTAGTACGAATACTAATTTTTTAATTCTATTATATAAGTTATTTATGCTTGTAATCTTCATAAGCAACCCTATACCTTTTTATTAGAGTACTATCTCTATACTAGTCCTCTATTATATAAAAATTATACTCTTTATGAAGTCTATTAGTCAAGACTATACACAATAAAAAAAGAAGGTTAAACCTTCTTTTTTTACTCATTAAGTGAATCTATATTTTCTCTTAGATAGTTATTAAGTTTTAATTGATCTGATACGTTTAATATCTCGTCTTCGTCAACATTAGCTGCTGCGAATTTAGGATATTCTGTAATTAATGTATTTTCTCTAATATGGTTAATTAATCCAAGTAAGTCTGAAACATTGATTATTCCATCTCCGTCTACATCTCCTCTAACAACCATAGTTGCCTCATCATGAACAACACCATTAATTTCAAGTTTAATAATTAAACCTGTCATAACAATATCATCATCAGTTAATTCATTATTATCTAAGTCATATATCTTGATATATTCATTATCATTCAACATGTTATCTTTAAATTCACCTATAGTTGTAAGAGCTTCTGCTCCTATAACTATTCTATAAGTATCTGATTCAAATTCGTCATCTCTAACTTCATATTCATCAGATTCTAGTTTGTCAGATACTACTGTTACTGTAATAACTTTATCAATATCAGCATTATCTGCACTAACTATTATAGTAATAACTCCTTTTTCTACAGCAGTTATTAATCCTTCATCAGATACTGTAGCAATATCATCATCAGAACTTGTATAAGTTAAAGTATCACTTGATTCATCTGGAATAAATGTTACTTCTATTTGATGAGTTTCACCTTTAACTATTACTAAATCATCAGCGTCTAAGTCAAAGTCTGTTGGTAATGCTATATCCCATTGAGCATGAACAGTAATATCACTTGTTCCTGCATACTCATTGATTGCTACTCCACCAGATTGTTCAGTGAACCATCCAAGGAAGTCAGCATTTTCTCTAGTTGGATCAGCTGGCCATGTAGCACCAGTAATACTTTCTTCATAAACTGGAGATAACTCTAGAGGATGAGTAACAGTAATTACTTGTCCACTTTCATAGCTTACATCATCAAGATCTTTCCAACCTGTTTGAGTATATGATTTAACAACATCTGAAGTAGTATCATCATCACCATTATGATATTTGAATGTTACTGTAGCAACTACATCATCATTCTTATCAATATCATTTGGAATTGTATAATCAGTACCATATTCTACATCTTCTCTTCCAAGAGGAGTAATAATAGGAACTAATGCACCAGTCCAATGAGCATATAATGTAATATTATCATCACCGTCATAGTATCTTACTTCATTGCCATCTTCATCATACCAACCATCAAATGTATAGTGTTCTCTAGTAGGATTACTTGGGAACTCTACTTGAACATTTTCTGTAATATAATCATTTGTTAATACTTTATCTTCATCTACTACTAAAGTAGAATAGTCGTCATAATGAGTAGTACCATTAACCATAAATCCGTTAGGAGTATAGTTTCTAGTTACATATCTAATTTCACTAGCAGTTACTCCATCATTATAATCAAATGTTACTTGTGCTCCATTATCACTTGCTTTAGATTCTTCATTAGCTTCTAATTCAACAATACTATTATGATAATATGTTTCTACTGTACTATCTGGATAAGTTACTGTATGAGTAGTTTGATTATCAACAGTACCTTGATATTTACCCATATTAATATAGTAATTAGAAATAGTAGCTTTAACATATCTTTGTACTCCACCACTTCCATTATCACCAGCACAGAAGTATGCATTTATATCAAAGAATTGGTCGAATCCTGTTATATCTTGAACCGCATTCTTAGTTGCGCCACCATCTACTGAATAATAAATAACATTATTTATTCTGTAAATTCTAACTTCTAATGGTAAAGTATAATTTGGAATTTCTTGACCTACTCTTACTTTATTATTAGATTGAGAAACTTCTAAGCTATTAGTTTGGTTATATCTTCTAAATGCAACACCTGGCCATTGCTCTGTTTGGTTTTCCCATTTAGCATTGAAGAATGTAACTTGTTTAGCTTGACCAGATGGAGTATAAGATTCAATAGTAAATCCTACTTCATAATCCTTTAAGTAATCATTGTTAGTATCAGTATATAACTTGATTCCAGTATCAATATAATTAGAACCAGTACATACAAAGCTTTCCTCATGTTTTGGATATACATATGGGAAATTGTCTTCTATGAACTTAGCATATAGAGTTGTATCTTCAGTAAATTTACTTGCAGATGATACTTTATTTTCATAAGTATCTTCTCTATACCATCCATCGAATATGTAACCAGTAATTATGTTTTCTTCACCTACAGTTGTTCTTTCATTTGCTTTAGAACTTGTTGGAAGAACATCTCCTATTGGAGTATCGTAAGCAACTGTTATATCACTTACTTGTTCATCACCATCAGTTACGAATGAAAGTGTTATATCTTCACTAGCCCAAATAGCATAAGCAGTAGTATCAGAAGTTAACTTATTAATATTACTACTTGTATATGTAGTTCCAGATCCATCAGTTTCAGAATTCCATTTAATAAATGTATAATCTTGTCTTTCAGGTTCTGGTAATGTAATTGTAGTTTGACTATAAGTATAGTCTCTTTCAATTACTATATCTTCAGTTAGAGTTAATACAGTACCATCATCATAGTGAGTACCATTTACTAAGAATCCATTGTTAGTATATGTTTCACTATAAGTTCCTGTAGTATTTTCTCTACCATCTTGATAATCAAATGTTACTGTGTATGAAATACCATTCTTAGGTTTATTATTAGTTCCTAAATCGTATTCATCACCTTCAGTATGGATTGTTACAAATCCATCTGGATCAGTAACTTGAACTTGTCCTAATTCTCTCCAATGTAGATATACAGTTACATTACCATCATTTTCATCATAGTTTTCATAACATGTATATACTTCATCATCGTGAGTATCTTCAGGATTTTGATCTATCTTACTGAAGCATCTAGCTTGTTTATTACCGTTAGTTACTTCGTAATCAAATTGATCAATTCCTACATGAGAATCAGTTATTACATTACCATAGTATGGAGTAATGTTAGTATCACTAGTAAATTGATGAGCTTCATCAATATTATATAGTGTATCATCACCCTCTATATAGTATCCTGTTGGAGTACTTGTTCTATAGTAATCTTTAACTTCATCTGGATATCCAGTTGAATTAAACTTATAAGTAATTGTACCTAATTTTTCTTTATTATCTTTATTGAATTTAGATTCATTAAATAACCAATCTGTACTCTTTTGAACTTTTAATGATTCACCAGTTACAGTATTTGTTAATGTAACAAAGCTTTCATCATCAGTAGTATAGTGAGCATATAACGAAGTATTAGATGTAATACCATCAAAGTTAAATACTTCCATTCCATCCTCTTGATGTGTATACCAACCAAGGAATGCATAATTTTCCTTTTCTGGATCTTCTGGCCAAGTAGCGCCTACTGTACTTGAAGTATATTCACTATTAAATGTCATATCTTCATTAGCAGTAAACTGTGTTTCACCAGCATATAATACATTATCACTAACTAATCTAAATCCTGTGAATGTATAACTTGTAACAATTGATCTAGTAAATGATTCCTCTCCATTTTGTGGATCAAATGTAATTACTATTTCATCATCAGCTTTAGACTTAGATGCTGGTAAATTGAATGTTTCACCTACACTATATACAGTTACTTCGTTATCAATAGTTACAACAACTTGTTTGATTTCACCATAATGAGCATAGTATGTAGCATTAGATTCACCATCATAAGTTACAACTTGTTCTCCTTCAACTCTATCAGTAAACCAACCTATAAAGTCATTTACATCAGGATTGAACTCATTTAAATCAACTGGAGTAAATTCATCAGTTACATAATTAGATGTAAAATGCATTCCATCAGGAACATTAGTTAAATCTACAACTTTACCATAAGTTTCTCCATTTTCATCTGTCCAATTAACAAATTCAGAAGAAATTGTATAAGCAATAGATTCGTTATCTATAGATGGATTTTGATAGTCTAAAGTTAATGTTACTACATTTTCTTTAGTATCACTTATAAATCCTTCGCTTTCAGTATCAACTGAAGTAGCATCAGTATAAGTATATCTAGTACCATCGAAGAATACGACATGTTCACCAGAAACTTTATATTGACCATAAACAGTCATTGTCTTAGCAACCTTAGTAATATCTACTTTGTTAGAGTTTTCAATATTCTTGCCATCATACCAACCAAGGAAGTCATAACCATCTCTTACAGGATCTTCTGGTAAATTCTTATTACTTATTACTTTTTCATATCTAGCTTTAACTGTACTATTATTAACAAATGTAATTTCATCACCATCATCATATTCATCAGTACTGTTAACAAGCCATCCAATGAAGTGATCATGTGAAGATATTCTAACTACTTTATCTTCTGGACATCCTTCATAGTTATACTTGAATGTAATATTATGGAATTCTTCTTCTTTATCCTCTTTAGGATCAAATACCATAGTAGTACCAGTATCAACTATATCAACTGTACCATCATCTAAGTAAGTTATAACTATTTGTTTAATCCAGTTAGCATTAATAGTAATGTCCTCATCACCATTATATGATGTGATAACTTCATTATTATAGTACCAACCATCAAATCTATAGTTAGATCTCTTTGGTGTTCTTGGGAAGTCTACTCCTTGAACAGTTTCATAGTATTCTCTATCAAGAACTATATCCTCATTAACAATAATCTTTTCATTATTACTATAAGGTTCACCATTTATAGACCAACCATTAGCATTATATCTCTTTCTTACATATGTTACATATGGATCTCTATCATCACCATAATCAAATGTAACTTCAGCAATATTTTCTATTGCTTTAGGTTTACTATTAACTGGTAATGAATATTCAGCTCCATGAGGAACAGTAGCTATTACTTCACCGTCTACTGTAATAGTATGAGTTTCACCATATTGATAATATAATGTGTCTCCATCATTAACATTATCATAGTTTTCTACTTTAACACCACCCACGGCTTCAGTAAAGATTCCACTTATATCTGAAGATAATCCTTCAAATATATTTGGTTCATAATTTGCAGTATATGTAGTAGTAACAGTAGCATCTTCATTAAATGTATAATCATTTTCATTTAATTCTTCATCATTAATATATACTTTATCTAAGCTATAAGACTTAGTTATTTCATATTCATCAATAATGAATGATCCATTGTTTCTATCAATATATACTGTGAATGTTTCAGCACTTGGTTTAATTGGACTATCACCAAGTTCAGATAACTTAGTTCCAATTGGAACAACTCTAGTTTCTCCATCGTATGTAATTATTACATCATTTGCAGAAACTTCTGTCCAAGAAGCTATTAATGTCTTACCATCAATTTCTTCTGAGTCAGCTGTTAATCCACTAACATTTACTTTTTCGTTTCCATCAAACCATCCATTGAAGACATAGCCTTCTCTATCTGGTTCAGTGTATTCTGGAGTAAATTCATTAGTTAAGTTATATTTACTTGTTACATATTTATCTTCAGTAGCTTCAAATGTATAACCAGCTTCATAGTTATTACCATCCATTTCATAACCAGTAAATTCATATGAAGTACTAATAGTGTAGTCTTCAATTCTATTATCATAGTTATAATCTAGAGTAAATGTAATAGACTTATCTGATTTACTTGTACCAGCTGGTAAAGTAAATTCTTCACCATATAATACTGGATTAGCTACATTATCAATATAAATAGTAACGTGTTCATTATTATATCTAGCATATAATGTTATATCTCTTTCAATTCCTTCAAGAGTAGTAACTTCTACTCCACCATGTGGTTCAGTGAACCATCCAATGAAGTTTTCAGTCTTAATAGTCTTGATTTCTGGGAATTCTACAGATTTAGTAAATACACTATTCATTGTAGTATTTTCTAAGTAGTTATATGCAGCACCAGCTTCATATTCACCCTTACCTACTACATTGTAATGATCAAATGTATATCTAGCAACGATATTATCATATACTTTTCTACTAGTTCCATCATTGTAATCATAAGTTACTTTGTAAATATCACTAGCTTTAGTCTTAGCTTCAGGTATAGTACCCATTCCTTTAGGAATTATAGATACTTCATCATCTACTGTAAGAATAATTGAATCATCCATACTTTGATACATTAATATCATTTCACTATAGAAATCATTCATATTTGTACCATACTTAGCATAGATCTTAGAGAAATCTACAGGTTTATCTAAGTTTTGAGTTGAGAATAAACCTTTGAATAAGTAACCATTAACTTCAGTATTTGGTTTTTGATATAGAATGCTTGGACATTCTCCACCATCACATTCAGTAGTAGTAGTTACATCTCTAAATACTTCTCCTACAGTATTTTCGTTATAAGTATATTGTTCACCTGGATAATGTACTTCACCATTTAATGTTAAGTATGACACAGGAGCAACTGTAGTAAATGTAGCATTGATTACTGTATCATCTAAGTTATTAGAAATAGTAGCATTAAATGAATCATTAGCAGGTATATTTTGAAGAGTTCTTGTTGTTCCTTTTGGAAGAATATCAGTAGTTTCTATATTTAAGAATTTATCAATACAACGAACATAAACTTGAGTTTCAGGATCAAATTCATCCCATCTAGCTTCTAATGTAGCTCCATCAAAGTAAACATCATCTGGAGTTATTGAATAGATGTTAACTCCATCACCGTTATATCTCCATTCTATAAATACATAACCATCTCTTGTAGGAGTTTCAATATATGGATCCATTACTACCATGTTACTACTATTATTAACAGTAACAACTGTAGTATCTGAATAAACTGTATATGTAGCATTAGCATCATATCTAACACCATTAATAGTTTGATACTTAACTCCTTTACCTCTTCCTACTTTAACAGTCTTAACTATATCATCATAATCATAATCTAAATCAAATGTAATATAATCACCTGTTATAGTACCTTCTGGAACTGTATAAACATATCCTTCAGGAACTATAGTAGTAACACCATCAACAGTTAAATTATATTTTGGTGTATATCTAGCATATAAAGTAATTGTATCAGTTATTTCTGATGCATCTTCATATTCATTTCCACCAGTAACAGCATCATACCAACCAATGAAGTCACTAAATATGGATGATATATCAGGTAAATCTGGATATTCAACAGGATAGTTACCAGCATAATCATAATTAATATCATATTGACTTCTAATAGTTGTATCAACTATATAAGTTACTTCACTACCTACACCATGTAATTCACCATTAACAGTGAATCCTGTTAATGTGTATTCTCTAGATACAATAGCAGAATCAGTTTCTCCTCTTAATGAATTAAGTGTAATAGTAAATGTATCATTAGTTTTAGAACCAGTTGTTGGCAAGTTTTCAGTTGTTCCTTTAGGAACTACTCTAATCTCACCATCAAAGTCTACTATTACGTCAGTTTGAGGATTATATTCTTCATAATGAGCAACTAATGTTGTACCAATTAATTGACCAGCATTATTGAAATCTAATGAATCAATATCAATTCTATCATCATTGTTGTACCAACCAGTGAATACATATCCTTCCTTAACTGGGTTAGTTATTTCTGGACTATATGTAAGTTCAACCTCTGGCATTATAGCTGTAATAGTTAAATCTGAGTTAACAATTACAGTATCACCAGGATGATATAAAACTCCGTTAACATCTATATCACTTAATGTAACAGATGCATATAAGTGTTCAACAATTATATCATCACCATTAGCTGGATCTAAATAGAATGATCCACCCTCTCTCAATTCTTCAGGTTCTAATGTTATTGGAGTACCTTTAAGCATTGAGTAATAAGTGTAATTATTATATAAATCAATAAATGTTACTTCATAGAATTGATTACTTGGAATATCTTCTTCATAATGTCCGTATACAAATAAGTCTTCCTCACCAGCATACTTAGTTACAAAGTTACCACCAGTTCTTTCTGTATACCAACCAGTGAATAATCTTTCTACTCCATCATTATTAAACCATTCATCAATTTCATAATCATCAACATATTCATCTAATGATACTGGAGGAATTGTTCCTTCATCATAATGAGTTTCAATATTTGTTGTATTACTTTCTATTGTATATGTATCACCAGGATAGTACTTAGTTCCATCAATTACATAGTAATCAACTATATAATATTTTTCTACCGAAATAGTATTGTAAATATAATCTCTATAAGTATCAATACCATTAGCTACTTCATAAACTTTAGAAACAGTCTTTATATAATTTGATGGAACAGTTATTACATCACCAGGATTACATACTTCAGTATGTCCATCTGTATATATACATACAGGATCATTATTTCCAGTCCAGTGTGCATATACAGTTATGTCTCTATCTTCAGTAATCTTAGTTATTCTAGATCCACCTTGTGGTTCAGTATACCAACCAGCAAAGCTATATCCTGGATAAGTATCACTAGCAGGTGTTGGTAATGTATAAGAAGTTACAGTACCATTACCATATACTGGAGTGAATGCTCTAGAACCAACAAAATCAACTGTATAAATCTTGTTATAAGAATTTTCATCATTATCTAACCAATGATCAATTTCCTTAGTTACTTCTAATTGAACATATTCATCGCCCTCAGTAGTACCATTTTGTAATACTAAGTGTACTTTACCGTTTCCAGGAACAGTTATATTAGATGTAATACTATTAGTATTAACAGTATCACCATATTTATATGTTTCTTGAGCAAGTACACTTGCAGATTCAGTTCTATCGCTATAGTAAGTTACATTAGCACTCTTACCTTCATAGTAAGCATATAATGTTATATCTACTTCATCAGTATATGTACCAGAGTATCTAGCTCCAGAACCATTTTGGTTCTTATACCAACCTTTGAATGTCATAGTATTAGTGTCTTCTAATACTGGTAATTCAACGCCAGTTACAGTATCTGGATCATACTGACTAGTTAAGAATGTATGAGCATTAATAGTTACTGTACTTCCAGCATCTACTGTACCCTCATCTTCAAGTCCAGAACCATAGTTCTTTTCAACTTTATAGTTACTGAACGATCCAGTTCTATGAACTTTATAAGTATTAGTAGTTTCACCATTAATTAATGTTACTGTAGCAAGATCTTCATCCTTATTTGTTCCATCAGGAGCAGTATAAGAATATCCATCATCATATGTACCTACTTTAGAACCATCTACTGTAACTTCATAACTATTTTCATCATTAGTATAATGACCATATAATTCTCCAGTTAAACCTTTTGATTTATAGTCATAATAACTCTTAACTTGAACACCATTATACCAATCAGTGAACCAAGCAACAAAGTTATATGCTTCATCTGGTTCTTCAAATGGTTCATCATCATATGTAGCATTACCAAGAGTTCTTTCAACATATATATCATCATCAACAGTAAATGATTCTCCAGGATTATATGTAGTGTTTCCTACTTTATAACTTTCAACACTTGCTTTAGTATAGAATGTTCTATTAAATGATGTTGAATATGTTTCTGTATAATCCATCATGTCATCATACCAATAAGTCATATAGTTGAATGTTATAGTTTCTGAATCAGTATTAATTGTACTTGGTACACTTACACTTGTACCACAAGTAACAACTTTAATTTCACCATCACTATAAGTGATTGAACAATGATTAGCATCAGTTTCCCACTTAGCGTATAATGTTAAATCATCTTCACCATCATATGAAATGTAATAATTATAATCATTTGTACTATTGTAATCTTCTACATCTACCCAACCTTTAAATACAAAGTCTGTTCTAGTTGGATTAGCTGGGAATGCAGCAGGACTAACTGTTCTAATATAAGCTGGTTCAAGGACAGTATCTGGAGTCATAGTAATTACGTCACCAGCTTTTTTAGGTTGTCCATCTACTAACCAACCATTTGGAGTATAAGTAGCAACTACTTTACTAGTAGTATTAGCTCTACCATTTAAGTATACAAATGTAACAGTAGCTACATCTTCTGGATCTTTTCCTATAGTATTTTCAGGTAAAGTATACTCACCACTTGTCTTCTTAGTCCAATTAGCATATAAAGTTTTATCTTCAGTTCCATTATAAGAACTTACTTTTGTACCTTGACCTTCGGCTTCAGTATACCAACCTTCAAGGTCATATCCAGCTTTAATAATATTTTCTGGATACTTAACATTAACATATTCATTTCTATAATCATATACTAATGTTATATCACTATTAACTGTATATGTAGATCCACTATCATAATGAGTATTACTAATAGTATATCCATCACCTACAGTCTTCTTAGTTACATATCTGATAATATCACTACCACCATTTTCTGGTTTAAATGTTACTTTAGCACCGTTAACATCTGGTTTAGTAGTTTTATTTTCAGGTATTGTTATATCTGTTCCAGCAGGAACAGTTTCTTTATGTCCGTCTGCATAAGTTACTGTATAAGTATTTGCAGGTTTAACATTTTCAAATATTCTTTCTTTTGGAACATCTATTACTGGTCTTGCACCAGCTCCCATATCAGGATCATCAGTTATACTATTTTGATTAACCATTAATGGATTAACACTAGATAATTGTCCATCAATTGGGTTTTCTAAGTAATATGTAATTTCAACACTGTCTGTTGGCCCTACATAATCTTGTAAATGGTCACTTAAGAAGCCACAACCACCAGCATATGTATATTTATCATAATCATCAGAAGTAATGCCTAATCCACATCCTTCATTGATTTCTTGAACTGTTAATAATCTAGCAGCATAGCCATTATAACTAAAGTTTTCTACAACAAGTGAACCATCAACAGTAAGAATATTTCTATTTACTTGATATAGACTTGTATTTGACCATTGAGAAATTGTTGGTAAATCACCTATAACCTCAGTTGGACCATTACTTACAGCACCGCAGTTCCAACCTGTAGCAGTTGCATAACAAAGTGCATCATGTCCATAATCAGGAGATACAGGTTGATCCCCATCAATATTACTACTATATATCATAGCAGCATATTCATTAACAAATGAATTTGTATGAGTATCATAGTAATCACTTACATAATAGAATGTACCTTCATAATTACCATCACCATCAACATCACACTCGAATTCATCACCTGTATTAATAATACCTTCAGTATAACCTGTTGCATTACTACGTCTTCTACATAATACTGTATCATGTCCATCGAAATACCAGTGAGCATATAAAGTAATAGATTCTTTAATATCATTAATTGTGTATTTATTACCGCCAGCTACACTATCAAACCATCCTTGGAATGTATAGTTAGTCCATGTTGGATCAGTTGGCCATTCACCAGATACTACAGTTTCAACATAGTCAGGTTCAATAACCATACCTTCTTCATAAGTAATAACTGTATTATCATCTTTATGTTGTCCATCTACTAACCATCCATTTGGAATATATTGTTTAACAATAGTTACTTTAGCATCAGGAGTAACATTATCTTGATATCTAAATGTTACTAATGATGTAGTATCTTCTTTAGGAATATTATTAACTCCTAAATTAATTTCACCACTTTCATTATCAATCCAATGAGCATATAGAGTTATATCTTTAGCTTCAGTAATTGATTTAACCAATTCACCATCTGTTGGATCAGTAAACCAACCAGCAAATACTTTTCCTTCCATTATAGGATCAGCAGGGAAATCAGCACCTGAAACCATTTCAACAAAATCAGGATAGAATATTACATCCTCATTTACTATAAATCTATCTCCCTCGTTATAATGAATATTTGTTTTAGAATCAATCCAGCCAGCTGGTAAATAACTACTACTAGCATTTACTACTGTATTATCATCACCGTTTTGAGGATTAAATGTAATAGTAAATGAATTATTAACATTCTTAGTCATTGTATTTTCTCTAACAGTATGATATGTATTTTTATTTTCTTTTATTGTTTGTAATGGATAAACAATATCATATGTTGCATAGTAAGTTAAATATCCTGGTGTTTCTGGAGCATCATCAACTCTAGCAAACGTTTTATCTGTTGGATTGTCGTTAGACCAACATTTTGTTCCTTTTTGTCCTGTTAAATTATAATCATAACCAAACATCTGATTGTGACTAGTTACTGAATCAGTGTTCCACTTATCAGAAACGTAAATTGTAGTTAATTTACTATCAGAGGAAAACATTTCTTCCATAGTTGTAACATTATGTGTATCAAATGAACTTAAATCTAATTCTATTAATGAACTACAACTTTGAAACATATAAGACATTTTAGTTACACTGCTTGTATCAAAACTACTCAAATCCAATGTTTCAAGTTTAATGGATTTAAACATACCTTGCATATTTTCAACTTTGCTTGTATCAAAATTTGAAACATCAAGGCTTTCAAGATAAAAACAATTACCAAACATATAGCTCATATTTTTAACACTGCTTGTATCAAGATGACTTACATCTAATGAAGGAAGTTTTAAATAATAGAACATATATCCCATATCAGTTACTTTACTTGTATTAAAATTTGTTATATCTAATTCTTTTAAAGCTTTGTCTTGATAGAACATATTTTTCATTGTAGTAACTTTACCTGTGTCAAATGAACTTAAATTTAATCCTGTTAAAGTTTCACAACCATAAAACATTTCTTCCATAGTTGTAACATTACGAGTATCAAATGAACTTAAATCAAGTGTATATTCTTCTTCTGATGTATCTATTTTGTTAGCATGATATCTAAACATTTGTCTCATATTTGTAACTTTACTTGTGTCGAATTTTTGAAGATCTTCACTAGGGATTTTATAATTGTATGTACTATTAAACAAAGCCGACATATTTGTTACATTATGTGTATCAAAGTCTCCAAAAATTATTTCTTTAATATATGGACCTTGATAGTAGAACATGTTTGACATATTAGTTACTTTTGTTGTATTAAGCCATGATAAGTCAAAAGTAGATACTGACGCACCAACAAATCTTTGATATGCATATGACATATCTTTGTTTGCAAACACAACTTTTGCTTCTGAATAAACAAGTACTTTACCATCTCCACCATACCACATATAAGTAGGTTTTGGTGAATCAGTTGTTGATACTTCTAGGAAGAATGTATTTTCATCATTTGGATCAGCAGCCTCAAACTCTTCACGTGTAGCAAATCTAAGAATACCATCAGTAAATTCAGGTTCAACATGTTCAAGTATCCACTCAAAGTGAAGACCAAGATAACCATTTAATCCAGCATTTTTTAATATAGAATAATCATCTGTATATTGAGCATGAAGTACTAAATCATTCTCACTTCTTAATACAGTTACTCTATTTCCACCTTCTTCTTCAGTAAACCATCCAACAAATTCATAACCAGATTTAGTAGGATTTGTTGGGAAGACAGCATTAGCAACATATGATTCAAAATATGGTTCAATTACTGTTGAATCATTTTTATAAATTGTTTCACCATTAGCATAATGTTTACCATCTACTAACCAACCGTTTGGTTTATAAGTTCTTAATACATTGCTTGTAGTATCAGCAGCTCCATTATGATATTTGAATGTTACTGTAGAAATAACTTCTGATGCCTTAGTTTGATTATTAACAGGTAATACATATTTTTCCATACCTTTCCAATGAGCATATAAAGTTATATCCTCTGTTCCGTTATAGTAATCATATTTTTTACCACCAGTTAATGAGTCATACCATCCATCAAATGTATATCCCTCTTTAGTTGGATCTTCTGGATATTCAATCTTTTCACTTAAAGCAGAATAATATGGGAATACATCATACCCACTTTCAATACAAATATATTGTTTATCCTTAAAATATGTATCTTTATAACCAGTACGTTTACGAACCCATCCTTGAGGAAGATATGAAACTGTACCCTCTCTAATTACATCACTTTGTCCATTTTCAAACTTAAATGTTACTGTATATGTAGTATCATCTTTAGGAATATCATTAACACCTAAATATCTACATCCTGTATTTATTTGCCAATGAGCATATAATGTTATATCTTCTTCGCCATCATATGATGTAACTTGTTCTCCCTCAGTTTCTTCAGTAAACCATCCAAGGAATGTATATTCAGCTCTTGTAGGATCACTTGGGAATTCTATTGAACTTTGAGTTTCAACATAATCATAAGCTAATGTTATATCACTATTAACTATATAAGTAGATCCACTATCATAATGAGTAGTTCCTATTTTCCAACCATTTGGAGTAAATTGTTTTTCAATATGTAAAACTATATCATCTGAACCATTTTGTAATTTAAATGTTACAGTAGCAATAGTTTCCACATCCTTCTCAGGAACATTACTTGGGAACTTAAATTCAGTTCCAGCAGGTACTACTTCAGTACTTCCATCCGGATAAGTAATTGTATAAGTTTTAGGATATCCAGAACCTTCTATTCTATTTTTAGGGACATCTATTACAGGCCTTACTGACCCGAATTCTTCGTTAAATGGAGTTTCAATAGTAATATTTCTATGTTCAGAATCTGGTCTTACAACTAATACTCCACCATATTGTGAAGAATCCCAAGTATTTCTATCATTGCTAAATGTTTCAAGAGCTGTACTTGTAAAATAATTATCGACGTGTGTATCATATGAAGAATTTTCATACAAATATATTCTTTCAGTAATATAATCTCCTGAATTATGTATAGTATCATTACTTACACTTGTACTATTAAAGATTTCTTGAACTGTTAATAATCTGGCAGCATATCCATCATAACTAAATTCATGTGGATTACTTGATTGTGATAGATTATTTATGATGCTTCTTGTTGTTTCTTTTAATGTTACGTTTGACCAATTTTCTGTTGTTGGCAAATGTGTAGCCATAATAGTTGGTCCTTCATAATAGTTGTTGTTATTATATCCAACAATCCAATCAGTTCCATCATAAATTTCACCATCTAAGACATAATGTGAATATATTAATGCTGCATAGCTATCGTCAAATTGTTTAGTATGAGTATCAAAATAATCGCTTACATAATAAAATCTTTCGTCATATTCATCAAAATATCCATCGCCATTAACATCACAATCGAATGCATCTCCTTGACTTAATATTCCATTTTGCCCAAGGTTACCATAAGTTACTATCCCATTAATAGCTTCGTTTGAACAATATGAAGATTCACAAGTTTTAGTATGCAATGTAGTTGCCCTCTTACATAGAACATCTTCTTGAACAGACTCTCCGTCCCAATGAGCATATAATGTTATATCTATAGCTTCATTATATGAAGTATATTTATCTCCACCAGCTGGTGAATCATACCAACCTTTAAATGTATAACCCTCTCTAGTTGGATTACTTGGGAATTCAGCTCCACTTTGAATTTCTACATAATCATAAGCTAGTGTTATATCACTATTAACTATATAGATATCACCATCGTTATAATGGTCAGTTCCTATCTTCCAACCAGCTGCAGTATAATCCATTCCTACATAACTAATATAATCAGGTGTTACACCATCATTATATTTAAATGTTACAACTGCACTTGGTGTTTTTTCTTTAGTAGAACTATTTGTTGGGAATACAAATTCAGTTCCTGCTGGAACTTCTTCAGTAGTTCCATCTGGATATGTAATTGTATAAGTTACATCTGATTCACCAATTCTAGATTTAGGTACATCAATAGTAGGTCTAATACCTCCATACCATGATGACACCATCATAGTATTTACAGCTCTAGTATCTGAGTCTAATGCATATACATATGTATCACTATATTCAACATTATTATTTTCTAGATATACTGATGAATATTTATCTAAATCAGTCATTATAGAACCACTAATATCTTGTTCATCTTTACCAAATGTAGTGTTTTCTAATAAGAATAAACAATTATCTAAATATCCTGGAGTAGAAACTGCAACTCCACAGCCATTTCTTACTTCTTCGAAAGTAAGTAATCTAGCTGCTCTACCTTCATAATCAAATTCAGGATAAGCATCAGGATGATAACTATCAGTTTTAATATGAATTACTCTGTTACTTTCTAATAATGTTGTATTTGACCAATCACTAGTAGAAGGTAAATATGTTCTACTTGATGGTCCATCAACATTAATACCATCTAAGTTATAATTATGTCCTCCAGTAGTTGATCCATCTATATAGTTATATGCTGAAACTAATGCAGCATAATCATTATTAAATGCTTTTTCATGAGTATCATAGTAATCACTTACATAATAGAATCTTTCATATTCTTCATCAAAGTTTCTATCACCGTTAACATCACAAGTGAATGCATCTCCAGTACGAAGTGTATCACCTGTACCAATATTACCGTAAGTAATTGAATTAACACCATGAGCATTACAATATGAATTTGTATTATCGCAATCAATTGTATGAAGAGTAGTTGCTTTCTTACATAGAATGTTAACTGAACTATTCTTCTTCCATCTAGCATATAATGTTATATCTTCTTCGCCATCATATTCAGTATACTTATTACCTCCTGCTGCAGCGTTTGTATCATACCAACCTTTGAATTCATAATCTTCTCTTGTTGGATCTTCTGGGAATTCTACAGAGCCTGTATTTTCCTCTATATCATAAGATAATACTATATTACTATTTACTATGTATGTATCTCCAGCATTATAACTGTTTCCATTTTCTACATCTATTAACCACGCATTATAAATATTTCCTTTATGAAATTCAGTAACATAAGGTGTTGTTCCTTTATAATTATAATCAAACGTTACTGTAACAGATTTACTTTCAGGTAAGTCAGGAAATATCCATTCAGTGCCTTCACTAACTATTTCTACGTATCCATCTGGGTATGTAATTGTATAAGCAGCTGGTGCAGGTGGTAGAGCAGATTTATAAGTAAGATATCCTGGATGTTCAGGGGCATCATCAATAATAGCATATGTTTTATCAATATGATTTCTATCATATGTTGTTCCTTTTTGTCCAACTATTTTTGTAGTACCAGAAAACATATTTGTTGAAGTTGTAACTGCATCTACATTCCATCTTTCTGATACATATATAGTTTCTAGTTCAAAACAGTTAAAGAACATAGATCCCATTTTTGTAACACTACTTGTATCAAAACTACTTAAATCTAAAGTTGGTACTTTCAAGCAAGAAGTGAACATTAGATCCATATCTGTTACTTTACTTGTATCAAAATGGCTTACATCTAGACTTGTTAAACTTTCACAGTCATAGAACATAGCAGTCATATCTGTAACCTTGCTTGTATTAAAACTACTTAAATCTAGACTTGCTAGTTTTTTACAAGCATAGAACATAGAATCCGTAGTTGTTACTTCGCTTGTATCAAAGCTGCTTACATCTATATTTGTTAGGATTTGGCAATTATAGAACATATAACTCAAGTCTGTTACATTACTTGTATCAAAATTGCTTACATCTAAACTAGCTAGAACTTTACAATTATAGAACATATTGCTCATATTTGTTACTTTACTTGTATCAAAATTACTTAAATCTAAGCTTGTTATTTTTTCACAGCCATAGAACATATAGGACATATTTGTTACATTACTTGTATTAAAATTACTTAAACCTAGGCCAGTTAGAGCTCTACAACTATAGAACATATAGCTCATATCTCTTACATTACTTGTATCAAAATTACCTAAATTTAGGCTTGTTAGTCTTGTACAGTTATTGAACATTTTCCACATATCTGTAACTTTGCTTGAATTAAATCCTGAAAGGTCTATTACTCCAATTTTATTTAAGCCATCAAACATTCTAGAACTATTTGAATTCATATATATTACATCTGCAGTTGAATAATATAATATATCAGTTCCTGATAACCACACATATACTTCATTAGGTGAATCATCTAATGAAATAATATTATTACTTGTTAAAGAACTTGAAACTGAATCATATTCATTTTGATTTGCTTTTCTAAATGTTAATCCTGGTGCTGAATATGTATACGAAGAAATTAAACTAGATACTTTTGAATAGAAATTTCTACCAGTAATTAATAGTGCATAATTATTTGTATACTGTGCATGTAGTGTTATGTCTTGTGTTCCTTTATAAACTGTAACTTGTTCTCCATAACTATCAGAAGTAAACCAACCAACAAATTCATATCCTTGTTTAGTAGGATTTGTTGGGAATGAAACAGGTTTTATAAAATCATCAAAGCATGGTTCTATGACAGTTTTTGATGTTTTCATTATATTTGTATTATTTGGATAACGTTCACCATCAACAAGCCATCCATTTGGAACATAATATTTAATAACATTACCAGTTGTATCTGGACTATCATTATGATATTTAAATGTTACTGTTGATATAATTTCATCTGGTTTTGTTTCAGTATTAAAACCTAAATTATATAGTTCCGGTTGTGAAGGATTAACTTCTGACCAATGAGCATGTAATGTAATATCTTCTGGTTTATCATATGATGTAACTTTATTACCTCCTGCTGCTGCAGTAAACCATCCTTCAAATATATATTCATCACTATTATAATTAAAACTTGGAAATTCTGCAGGTATTGTAGTTACTATATAATCATATTCTAATGTTATATCATGATTAACAGTTATAACATCACCATCATTATAATGATCTTCATCTATTTTCCAACCATTAGCAATATATTGTGCTATTACATTAGAAGTAGTATCTTCTAATTCATTATGATATTTGAATGTTACTGTAAATATTCCATCATCCTTAGTTGAATTATCCACAGGGAATGTCCATTCAGTTCCTGCCAATACTTGTTCAGTATCACCATTTGGATAAGTAATAGTATAGTATCCTTCAGAGGAACCTCCTTCCCATCTAGCATATAAAGTTATATCTTCATCATCAGAGTATGAAGTATATTTATTACCTCCTGCCTGTGAATCATACCATCCTTTAAATGTATATCCTGCTCTTGTAGGATCACTTGGGAATTTAGCAGGTTGAATAGTATCAACATAAATATATTCTAATTGATAATCTTGTAATACTAATAATAAAGAACCTTGATCATATCTAGTATTACCAATCTTATAAGCAGTTGGTATTTTAGTCTTCTTAACTGCAGAAGTAGTATCAGCAGTTTCACCATCTTGATATTTAAATGTTACAGTAGCTAAGTTTTCATTAACTGTTGATGATGTATTAACATTACCAAACATGAATGTTCCACCATGAATAACATCTTGAACAGTTCCTTCAGGAAATGTAATAGTATGCATTACATTTTCTGCAGGATTATCTTCAATTTGGTTTCTTGGAACATCAATAACTGGTCTTACTCCTCTTTCATAGTAAGTTTCTCTCATTTGGATATGTAATCCATCCCAGAATTCTCCATTTAATCCATAAGATTGACGATTATTCATTATTAGATTCCATGCGTATGGTCTTGGATCTTCGCAACCTTCAGTTCCTTTACAATAACCACCATGGTTATCTAACCAATAACCTCTTTCAGCTGGTTGTTTACCAGAATTGTTATATCTAATATTTTCTCCTAAGAAATCACAACTATGGTTAAAGTTAAAATATTGTCTTTTTTGTTTAATGTTGTAGTTAAATACACAACCACTATCTGTTACTTCTTTCTTAGAAAGCATTCTAGCAGAATAACCAGAATAATCTAATTCATCTATTGGTCCAACTTTATTAGATTTTCCACCAGGATATCTCATTGTTTTATATAAATGAGCATTTGGCCAATCTTCAGTAGTTGGTAAATAAGATCTAGCAGCAGTTGGTCCTTCATTTGGAATATCAGAGTTATTCCATTTAGTAAATGTTTGATCGTTAAGATCTGTTATCGGTCTTCCCATATAGTCAGTATAGTAAATTAAAGCAGCTATATTGTGATCATATTCCCCTGTATCAACATCATAGAAATCATTTACATAGTAGAATCTTTCAGTTTCCGCATCATATACACCGTCACCATTAACATCACAGTCGAACGCATCTCCAACTTTTAATATTCCTGCTTCAGGAATATTACCATATGGAACACCTTTAGAATCAGTATGAAGAGTAGTAGCTCTCTTACATAAAGTACTAATAATTTCAGTAGTCCATCTAGCATATAAAGTTATATCTGAAGTACCACTATATGTTGTATATTTAGTACCGCCTTCTTCTTCAGCAGTATCATACCATCCAATAAAGAAATATCCATCTCTAGTAGCAGAATATAATTCTACAGGAACTATTTCTTCTCTATAATTAGGAGTTATAGTTACATCATCAGTAAGATTAATTGTATCTCCAACATTAAAGTGTTCATTATTGTAACCGCTACCATTAACAGTATAGTCAACAGCAATATAGTTTTTCTTAACATATTTTTGTTTATCTTTTGTTAAATTATCTTGGAATTTAAGTGTTACTGTAGCAACAGTCTCAGGATTCTTAGCAGGTATTTCAGGAAGAGTATATTCTTCATCCAGTCTTTGCCAATGAGCATATAATTTTATATCATTATCTCTGTTATCAACTTTTGTATATTTAGTTCCATTAACAGGGTCATCAAACCATCCTAAGAATGTGTATCCTACTCTTACAGGATCTTCTGGGAATTCAACAGGACTATATGTTTTGACAAAATCAGCATGAATTACTTTATCAGAATCCGCTATTATAGTTTCACCCATATCATAATATTTTCCATCAATAATCCATCTTGCTGTCCACGCATCAGATGAAAAATGGGTAACATAATCTGGTGTAATACCATCTTGGTATATAAATGTTGCTAAACTATTATTAATTCTATAATAACCGTTTAACAACCTATAAGGGTCTCCTCTTTTTACTCTATCAGTATAAGGTGCAAAAGGAGAATAATTGTTTCCATCAGCATAATAAATTGTTACATCTTCAGTATCATCAGTCCACTGAGCATATAAAGTTATATCCTTACGTCCAGAATACATAGTATATCTAAAGCCATCCTCGATTTGATCAAACCAACCAAGGAATGTATGATCTGTCCATTCTGGATCTACTGGGAATTTTACTCCATAATAGTGTTCAATATAATTACCCTGTAGAGTCATATTCTCATTTACTATAATTTTTTGACCTACATCATAATGTTGTCCTGTTTCTTTACATACTATTCCATTTTTTTCATAATGTTTTATACCTTGAGCAACTTCTGATCTTTCAGTTCCATCATTATATACAAATTTAACTCTTGAATAAGCTTCATCTTCTTTTTCTGGAACTTCTGGAATTATATATTCTGATCCTCTTTCTAATTCAATTGATATTCCATCAGGTCTTGTTACAATAACATAATCTTTATCTGCCCATTGTGCATATAGAGTTTTATATGTTTTATCTTTTATTTCATATACTCTATATCCACCGACAGTCATATCAAACCAACCTTTAAATGTATATTTATTTCTTGTTGGTGAAGGAAGTTCTGGGCCAGTTATTTCCTCTTCGTAATCTGTTTCGATATATAAATTTCTAGTTACTAATATTTCTTCACCAAAATCATAATGTACCCCGTCAATAACAAAGCCTGTAGGAGTATAAGTCTTTGTGTATGCTAAAGTTTCATCAGCAGTAGTACCATCTTGATATTTAAGTTTAACTGTAAATACCTCTGCCGGTTTAGTCTCTGCTTCCTCTGGAAGCTTATAAACAGTATTTCTAGTAACTCTTGTAATTTCTTTATTATTTAGAACAATAGCATAATCAGGTAATAAAGAAGGGTCTATATATAAATGAACTTTTGTATATACATCGTATGGAGTACAAGAACTTATATGGCTAATAGTATAACCTTCTTTTAGCGTAGTTTCAGGTGTAGTACTTAATAATGTTGGCATATATCTATTATCAAAATCTGTAAGTAGTTGAACTCCTAATCTGTGAATATTATCATATCCATAGTAACCTGGAAGTCCAGCATGTGGTGGATATTCTACTGTGTAGTCTGTACATACTTCATCAGAACCAATAACTGGTGTAAATACCTTTCCTTCGTATTCTTGTTTCATTTCTATAACTGCAGGATACTCATTACCATTTTGGTCTAAAGCTCCTAAATACTCATGATAATTAGGTAATTCAAAAGTTACTTTTATTGGTTCGTGTTCAGTAACATGCAATTCAGACATATCAGCATGTTCGCCTGTTTCAACATCAATTATAGTTGCTTGCGTATACTTTTGTGTTCCTTCCTTGAATGAATCATAGCGCATTGAATCAACGTCAATAAATGGAAGTGAATCAGTCGAGTCAATATATATGTGTGATCCTGTTTCAAGTTTGATTCTGCTCTCGTGTTGAGTATAAGCAACGTTTCTAAAGTATTTATTACCATATCTAGTAAAATAATTATCATCAGAATAATAAGCTATTTTAGCTTTTACGCTAACATCATATGGAATATCCTCTGTATATTGTGAAAAACCAACATTATATTCTGCATTTGAATAAGTACCTGCAATTGCATCGTATTCTAAATCTAAGTATATTGGACTATATAATTTGCCAACAACAACTTGTCTTTTAATACCGTTATAGTAAATATCAATTATTTTTCCAGTTTTTGCATAATAGTATCTGTCTTCATTAGAATAGTCATTACGGCGAGACATATAAACAGATTTAACAGGTTCTCCTTCAAATTCTGGATTGTCATACCAAGCTATTATTCCGTAACCATCTACATTCCAAATAGGAGTATATTTGTGTTCTACGTAGTTAATTTTATTTGTTAATTTATGAACATTAGTTACAGTATCATCGTCAGGTAATAGATAGCTATCACATAAAACTGGGTTAACACTGTGGCTATAAGAGTGAACAACTTCTCTGTAGTTAGGCTCATTACCATCAAATAAAATATCTTCAGGTTCTATTTCTCTTCCTCTAACAATTAAATGAATCTTTGGACTATTTTTACATCCATATTTATTAATGGAATTTTTGTTATTTTCATAACTAGTCGTCGAAACTCTCCAATACGCTTCAACCCTTCCGTTAAAAATAAAAATTTGCATTAAAATTATAAATAATGCAAATAATAAGATTTTTCCTTTACCTATTTTTTTCATAATACACCTCTATATCTTCCCTAACTACACTCTTTTCCCTTTATTTTTCTAGTTAGAACAATAGGATTTGTATTAGTAATAAAGAGGATTACCCACTACTCTTTATACTATCCTATTATATGTTATAATTGTACCATTTTTTTAGGTAAAAAGTCAACGCTTTTTAGTATGTTTTTTTGTTGATTTTAAAGGCAAACACCCGGAATTGTTACCCTGTGGAAAAGTAGTGTTTTCCACAAGATTTTTAAAAATTACAAAAACACATGAATTTTAAAATTTACGTAATTTTGACAAAAAAGTGTAATTTCATGTGGATAAACTAGTTAACGTAAACCATGATAAATAATTTGCATTATTTTGACTTCAATGTTATAATAGCAAGCAAATTTATGTAGAGAGATACTATGGCATAAATTTTAGGGGGTATAAATTATGAAAAAAAGTATATTTACGGGAGCTTTAATTACATTACTATGTATTCCATCTTATGCATATGCTAAAGGTGTAGGTACAGTAAGATTCGAAGGTAATAGAAATATTACTGTAGGCGATGAATTTAAAGTTAACATGGTAATTGATAATATATCAGAAGCAGAAGGCGGAGTAGTAGCATTCAGTGGATATATTTCATATGATAAAGATTTACTTGAAATAGTTGACGCTAAAAGTGTTAATGAATACTTTGATGTACTTAGAAATAAAAACATTGATAAGATCGTTGGATTAGATTATTCACTAGCTAATGGTATTAGTGATAAAGAAACAGTATATGAAATTACATTTAGAGGTTTAAACGAAGGTAATACTACTATCACTTTAAGAGATGCTGAATTATGTGATAAGAAAGCCGAATTATTAAATGTTAATACTAATGGATTAAATATTAATATTAATAAAAAAGAAGAAGTAATAGAAGAAAAACCTATTGAAAAAGTAGTTAAAATTACTTATAAAGAAGAAAAAGTAGAAACACAAGAAAGTGTTATACAAGAAGATATTGAAAATAAAGAAGAACTAGTAGTTAAAGAAACAGTTAAAAAGACTAAAAAAGCAGTAAAAAACACTGCTAAAGGTAATAAATTTACTAATTTCTTTAAAAATTTATTTAATAAAATATTTAAAAAAACAACTGATAAATAATCAGTTGTTTTTATTTTATATAGCAGCAAATATATCTGTCTTAGTATCCTCTAGATTAACACTATTTAATACAGCTCCAAGGATTTCAGATTTTGCTTTAGTAGAGTCAGCAATGGCTTTTTCTTTTTGTTCTCTTAAGTATAAATTAATTCTAGCTTCATTTATACGTTTAGATATATCTGATGCTTTAAATTCACCTGGTTTATCCTTTTCTTCATATAATACTTCCATTGCGCTATCAGATATAGATTTTATACCTAGATCTTCACATAACTTATTAATAGCATCTTTTCTATTCTTTTTCTTAGTTTCTTCATATTTTTCAAGTAACATAATAGTATTCTTGAAATCAGATTCTAATTCATATAAGTATTCTTCCTCGTTTTGAATTGAGAATTCAACAGATTCATCTTTTCTATGAATAACACTAAATATATTTTCAACAGTTTCTTCTTCAGTTATTTCAGGATACATAATCCTTTCTGGTTCCTTTAATATATCCTCTACAAAGGCAAATACTCCATCTAAATCTATCTTCATTCTCTTGTGGATTTCTTTTATGTAATCCTTTTGGTCTTCTATTTTATCAATATAATCATTAACACTATTTTCTAATTCTTTCTTACTAATTACTACTTTTTTAGACTCTAATTTATCTTTTTCATCTGATAATTCTACTAATTTATCACATGATGAAGCAAGTTCATCATATAAAGTAGTAAATTCTATAGCTTCATTACATTCATCAAAAGCTTCTTCTTCAAAGTAATTTCTAAGTTTAGAGAATATTTTCTCTATTTCATCTAAATTAATTTCTTCTAATTCACGTGAAGCAGATAACTCCCTATAATTACCAATGTGAGTAGCTACTTTAGCATATGTATTAATCTTAGAATCAGAATTTTTCCATGCAATAACTCTATTAATTCTTTCTTTTTGAGTAATAATTCTATCTTTTAAATTAATAAAACATCCATTAGTTAATACAGCATTATCCTTTGTATTATTATAAAAAGGTAATCCTGAAACTAATTCATTTAATAAAGTAACCTTAGTTATTTCAGAAATATTATGTTTTTTATTAGTATTATAAGCAACTTTCATATTTCTTTCTATAATACCTTTACCTAAGAAAATATCTTTTCCTTTTTCAGTTACTTCAAAATATCTTTCTAGTAATTCTGTTGCATCTTCAGCATTTTTATCAAATTCATCTAATGCATCAAAGTCATTTCTATATATTGGATCAAAGTATTCATATCCTTCTTTTTCATATCCACCAACATATGCTTTTTTAAATGTATTTAAAGCTTCTTCTATTTCTTCTGGAGTTTTACCCATCTTTTGCATCTTACATAGAAGTTCATCCATTACAGGTACTTCATGAATAGTCTCAGCATACCTTTTACTTGATAGTTCTGCTAATTTCTCAGCTTTATATGTATCAAAATCAAGAGATATTTCTCCATTAGTTATAATCTTTTTATCATTATCTAATATAGATTTCTTAAGTTCTTCTATTCTTTCATTATTAGATTTAATCTTTTCTTTTATAGTCTTAGCTCTAGCTACAGAATCCTTAGTATATTTACCTGTTTCTCCTATAGCAGCAGTCATCTCTTCTAATTCTTTCTTAAGTTCTGTATTCTCTTCTAAAAGGGCATTAATCTCTTCATTAATAGATTTATTTTGTTCATCTATATCTTTATTATGTTTTCTAATAACATCCTTTTTAGCCTCTATTTCTCTATCTTTAATAGCATCAAATTCTATCTCAGTCATAGCCATTATTCTTTCATATGCATATTGATCAGAATATGAATTCATTTTCTTATAAATAGTTTCTAATTCAGTTATTTCACCCTTCTTAGTTTTAAGTAATTTTTCAAAGTTTTTATATTCTTCTTCTGTTAAGGTTTCTTTATAAAACTTTTTAAGATTATTTTGTTTACTATAATCTTCTTTTTTAGCTTCTAGTATCTTAGATAAATATTCCAACTCCATAATTACACCTCTTATTCTTTTTTAAATACCATTTCGGCATCATCTAATTTAAATTTTATTTTATTCTTTGTACTTGTATATTTAATCTTATTATCACCATCAGTAAAATATTCACTATCATATGATAATACTTTATCTATATATAAAACAGATAAATTAGCTGTTCCATCTTTCTTAATAGATAGTTCTAATGAATAACCATTAGCTTTTAATTTCTTTATTTCATCATTAGAATACTTTTTATCTCCTAGTTTTAAACTTGTAATAGTATAATAACCAGTTAAATTAGTACCTACTTCATCTTCTTTTACTTCTTCTTTTTCAACTTCTACTTCATCTTTTGCACTTTTTGCTATTTTTGACTTTTTCTCAGTAGTTTTTTCTTTTTTAGTATCTTTTTTCTTACTAAATTTCTTTTTAACTTTATCAACTAAACTAACATTAGCAGTTACATTAGGTTTAGAAACATCATTAGATGTATCATCTGTTAGTTTTCTTGAATCATTAATTCCTTTAAATATTATAAAAGCAACAAATAGAAAACAAAGTACACTTATAACAGCTATTGTTATTTTCTTTTTCTTACTATATCTCATTATTTATCCACCCACCTATTTTCTATATAATTATAACATACCTATTATTTTTTATCTATAACAAATCACAAAAAAACTAACCTTTCGGTTAGTAATAATCTAATGGTGACCCGTACGGGATTTGAACCCATGAATGTCGCCTTGAGAGGGCGATGTGTTAAACCACTTCACCAACGGGCCAAAAAAAAGACTTAAGTCTTTTTATTTTTTGCTAGTTTTCTTTGCTGGAGATTTCTTTGCTGGAGCCTTTTTAGCAGGAGCCTTTTTAGTTTCTACTTTTTTAGGTTCTTCTTTTTTTACTTCTTTTACTTCTTTTTTTGTTTCTACTACATCTTCTTCTTTTTCAGAAGTAAATATAACCATACCAATAACAGCAAGTATTACAACACCAGCTACTATAGCAACTGGTACTATTGGAAATTCATATTTTTCTTTAGTATATGTTCCAGCTTCTACTTCTTTAACAACATCTTTATAATCATCATCTTCATAAGCTGCTTTAATAGCATCTTTTACTTGTCCAGACATACTAGCAGCATAGCCAGCAAATGTTTTAGTACCAATAACTATATATGGAACTCCTGATACTTCTTCTTCTAAAGCTTCAGCAACATCTTTCATTAATGCTGAATTATCTTCATCATACCAAACTTCATAAGTTTTTAAATTATACATTTTACTGTATTCTTCATCTTTAGATAATTCATCAAAAAATTCTAAAGCTTCTTCACAGTGAGGACAACCTTCTCCTCTAAAAATATAGACATTTACTTTGTCTTTTGCAGATGCTACAAATGAAAATAATAATATAATAGCAGCTACTAATAAATATTTTAACTTCTTCATAATTACCTTCTTTCTTAATCAATTATATACTAATATTAATGTTTTTTCCACACTTTTCATTTAATTTTTGCCATATTTTAACCATAGCAAACGTATCTAACTTACAATACTCAAGTAAGTTCTTTCTAATAGTTAGTCTTTCTTCTTCACTATAATTAACAAGGTTGCTAAATGCATTCATAGCTTCGCCACCATTATGAATTTGTTCTAGATTATGATAATTAAGTGATGGATCTCCTGGAAATAAAGCAGGAAGTACATATTTAATTGAATAAGATCCTCTCATATCTTTTGTATAATAGTCTCTATTATAGAAAGGAACCATTAAATCAATAATATTATCATGTATTTTCATTAGTTTCTTACTTAAATCAGGATATATTTTAGCAAGATTCTTAATAACTGTTTTTTCAAAAGACATATTATATGCAAGAACTGTTCCTTTTAATGGAATATCATTAACTAAAGATTCTGCAAGTTTTCTTCTTGGATCAGTTCCTTCTTTAGCTAAAAACTCTTTATGCTTTAGTTCTTTTCCTTCTTTTTCCATATAATGAAGAGAATATTGGAAAGGTATTTGCATATAAGGACTAACTCCGTCATATAAAGGAATTGCTTGCTGATATGTCTCAAAATCTAAGAAATATAAAGGATATTTAATAGTTTTTAAGAACTTTTTAACATTATTAACATTGATATAATCTTCTTTATCATTTAATTCAAAATCTATTTGTTGTAAATATTTTTCGTTTATATCTTCATTTATTAAGTCTTCAAAAGAAATCTTACCAGCCTTATAATACTTGAGTTTTTCAGTTATTTTCATGATTTTAACATCAAATATATTTGGTTTTGGTAAATCTTTTGAACAATACTCTAAAAATGGACATTCATATGGTTTGAAACAATATGAATCAATATCATTAGTAACTTCTTTTGGACTTCTTAAACTAGATAATATTCTTCTTACATTAATACTTACTTTATCTTCTCTTGGAATTATTTCATCAGTTACGTCTTCAATAATAAATAACTTATCTAATTCTAGGTCTCCATTTCTAACATAATTAGAATTTAAATAAACTATATTAGCACTTTTAACATTGTATCCAAGACTTCTAATTATATGTGTTTGAAATGCTATATCATCTAAGTATATATCTTGTACTTCAGTAGAACTTTTTACTTCATAAACCTCTACTCCATCAGGATAATTCTTTAAAATATCTACTGAGCAAAACATATTTTCATATCTAAAAGAAGCTTCAGTAATTACAGGGGTATTTCTTTCAACACATTCTTGTGTTCTCTCTATCATAACGTTAATATTTTTATTAAATTCAATATTTACATAGTTACCAAATAATTCTTTAGCATACTCCCCTACTTCTTTACCATTTTGAAGTACATCTTCTTTTTTCTTTTCTACATATTTCTCTGGTTTATTTCTACTAAGCCATGCACATCTATCACAAAAAAGAAGACTACAATATAGGGATTTTGTAATCACATCATTCATAGTCTTACCTTTTAAATACAAAGTACATTAGTACTGCAAAAGCTACTAATAATACAAATATAGCAATATATAAATAATTTGATACTCCAGATTGATTATCTTTAGGAGCATAAGTTAATGTTTTTCTTTTAGAAATTAACATATTATATGCTGTTTGATACCATTCTTGTTCTTCTTTAGACATATTATAGATTTCATCAGGATTATTAGCTATTTCGTTTAATTTTTCAACAGTTTCATCCTTTTTAGATGGATCCGCTCCACCTTTAGCAAATACTTCTTCATATACATAATCTATTTCACTACTTGAATATTCACTATCTTTTTCAGTTTCTTCTGATGCTCTTGAACCATCTGATGAAGTTGAACCATCAGAAGAAACATCTATACCTTCATTTTTATATTCTGCAGCATCAGCAGCAGTACCAACAGTTATATTACCTGTTAATGTATCTATTTCTGCTTCTAAAACCTTTCCAGTACCAGTCATAATATAGTTATTATCTTCATCAATATACATAAATTTGTCTTGTCCAGATAATAATACATTTTTTTCAGCAGCTTTTTTTATTAGTTCTGCTATAACTTTTTGTTTTTCTAAATCCATAGCATATTTACTTGTAGTAGGATCATATTTTGAAATCTCCTGAATTGGTTGATATGCATTATTATCCCTAGCATAATCATCTAATAATGCCTCAGCATTACTAGATAAATCACTTCCTTGATACTTTGGATCAGAAGTCATTCTTTCCTTTAATTCACTTACTATATTTACATTAGAATCTACATGTAATACTATTGGAACATCAGAATTTTGTTTATACATAACAATAATTCTTTCACCATTATTTAAAGTTATATCTTTAGTATCCTTTAGATTAAATCCAAGATCATTCATTTGACCAGTTAAATCTTTACTAGAACTTAATATATCCATATAATCTTTTACCATAGTTCTTCTAAATTCAGGATTATCTTGATTTAAAAGATCAGTTCTTAATTGATCTAATTCTGGATGTTCTCTAAATAAAGCAGCAAATTCTTGTTTTTCCGCTTCAGTCATAAGATATTCTTGATTATTAGTTCTTTCTAATGCATCTAAATATCTTTGTAATGATTCATTCATATTATTTACCTCTCTATTATAATTATAACATTATTATTTAAAACTTGATATTTTTTTTGATATGATATATAATACCTTAATACAAATGGGGGATACTATGGAAAAAAATAGAATATGTCATAAAAATGGTGATAATTTTAATGAAAATCGTTTTATAAGATTAATAAACGTAGGTAAAAAATCTTCAGTATATTCTGATGAATTTGAACATGTAGCATTCAAAAGATATCATTTTACAACTTCTAAAGATGACAAATTATCTGAAAGAGTATTTAAAGAATTACAAGATATTAATTGCCCAGCACTTCCAATATTAGGAGAATGTCTTTATTATGGTAAAAGATCTTTATTAAATAAAGAACTAGCTGGATATACAATGGATTTTGTGAAAAATGACCATACTGATATTTTAACAATGGACTCAAAAGATTTTACTGATAAGATTGTAGACAAATTTGATTTAGTAGCAGATAATTTAGGAGAAAGAAATATTATAATGACAGGTACGCCAGACCATAGCGGTGTAATATTATCAAGTGATGGTATTACTATTACTGGTATAGATTCTTTTGAAAGAAGAACTAATATGCCTAAATGGGAATGTGTTATATTTAATAAGAAGATGGCTATTTGTTACCTTAGATTACTTTTAGCAGAATGCGCTATGTATAGACATGATTTGGGAGATAAAAGTCAAGATATAGCAAAAATATTTGATTTTTCTATATCAGCTACTACTAATATAAGTAGTAAAACACTAGTTAATCTTGAACATGGGCAAGTAATTAAGAGTTTAAAAAAATAACATGCAATGCATGTTATTTTTTTGGGATTTCTTTTAAACCAGCTTTATTTAATAATACTAGATCTTTTTCTTCTCTTGTAATAGGAAGACCACATAATACTCTAGTATCTAAAGAATATGGTTCATGATCTGAAATTAATTTAACAAGATTAAAATAATATCTAATAAAACCAGATTTCAATAAATATAAATATGTAGGACAATCTATTATAGTACCGTTATCACGATACCCTTTTACATAAGAATTATATAAGAATACTCTAGATTGAATTAACGCATCAGAATTTCTATCATTTTTTAATAAATTAACCATAAATTTAGTTGATCTTATATCTGCTATTCTTTCATTAGCATTAAGTCCATATAATTCTGATTTTCCTGTAATCAATGGTTTAGATGCACTAATTGAAGCATCTTCATCTTTTACAGCAACAAACATAGATAATTGTAATATTGCAGACTCTATTCCTTCACTAGTTATAGTCTTTCTTAGATTCTTAGCATGTTCTATTTCATGTCTCAGTATAAGTAAAGCATTAAGTCTTTTACAATAATTACTTCTTTCTAAACCATTTATACGTTTTATATTAATATTTATAGTTTTATTATTTCCATCATATAAACCATAACGATCATCATCATCAAATGTTAATTCACTAGCATATTCCTCTAATTTATCATGAGAAACCATTGCTTCAAAAGCATCATTAATAAACTTTTTATCTAATTCCTCATTTTTATGTTCTCTTAAAAGACGTCCTATTTGTTTATACATAATTTAACCCACCTAATAAGATTATATTAACATATTATTAATTAAAAAAGAAGATATTAAATATCTTCTTTTATTTATTTTCTTTAATAATAATACTATTTACTTTATCTATTCTTTCATTATATTTATTTATTTCATCTATAGATAATTCTTTAAAATCATTATCATTTATTTTAAATGATTCTTTTAGTTTAATTATTCTCATAGCACTTTCATTAATATCAGAACTATATAAATCATATAACTTATTAAACTCATTTATAACCCTTATTTCTTTATTATGAGGATAATTAAACATAATTATATCATTACCTGATTTTAATGCTAATTTGGCTGCTTTAATGCGTCCATATCTATATCTAACAGATCTCATTTTAATATCATCTGTCATAGTGATACCTTTATAATTATAAGTATCTTTAATTAAACTACTAGTTTTTCTAGATAAGCTTACAGGTAATTTATCTAAATCTTTTACTAATATATGTCCAACAAGTATTCCTGGAACATTCTCATTTATATGAGTAATAAATGGTTTTAGATCTTCTTCATCTATATGTTTAATCCTAGGTAATAATATATGAGTATCTACTTTTATCTTTCTTAAACCAGGAAAATGTTTTATAAATGGTATTACATTATTCTTTTTATGTTCTTCTATTATAATTCTAGTATTCTTTATTACATCATCACTAGTTCTACCAAAACATCTATTACCTATAGATTTAGATATTTTATCATCATATATATCTACAGTAGGAGCTAAGTTAACATTTACCCCTGATTTATATAGAATTTCAGCTGTAATGTCTCCTACTTCTTTTAATACATCATTATTACATTTAGAAGATGCTAAAGCATTCTTAATTCTATGAAATTCATCAGGTAATCTATTAACAATACCATTTTCTTGATCAACACATATTAATAAAGGTATTCTATTAACTCTATTTAATTCTTTTAATTTTTTTATAATAGTAATGAATTCAGAATATGTATCATAGTTTCTTCTATATAAAATAAATCCACCTACTTTATATTTTTGAATTAAATCTACTACATAATTATCTATTTCTTTTCCTTCAAAACCTACTAATAATTTTTGACCAATTAATTCTTGTTTAGTATATTTATCCATTTTTATCATTTCCAATCAAACATATTTTATCATATAAATTATAATAATACTATAAGAAATAATGAAATAATATTATATATAATATATAATAATATTAAGGAGGTAATTCTATGGAAAATAAAGAATATATCGGAAAATTATTAAGCATTAAAATTGATCGACAATTTGGAAGTAAACATCCTAAACATGGATTTATATATCCAGTAAATTATGGATATGTTCCAAATACTATAAGTGGTGATGGAGAAGAATTAGATGCATATTTACTAGGAGTATTTGAACCAGTAGAAGAATTTGAGGGAGAATGCATAGCTATAATACATAGAACTAATGATAATGATGATAAATTAGTGGTTGTACCAAAAGGAAAGAAATACTCTGATGATGCAATTAACGCATTAACAGAGTTTCAAGAACAATACTTTGAACATGTTATCATAAGATAAAAGCACTAACAATTGTTAGTGCTTTTTATATTTCTTTACCATAATATTCAATATCAGCTGTAGTACCATCATAATACTCTTCGTGTACATCTTTTATATGTTCTTTAAAACCATACTTAGTATATATATCTTTATTCTTTTTATTTTTTTTATCGACACCTAATGTAACTTTTTTATAACCTCTATTCTTTAAATCATCTATCATAAATCTAAATAATTTGGAAAAATATCCTTTGTTTTGATATTCTTCTTTTGTATTAAATGCATGTAGATAAGCAGTTTTATCATTAACTAAGTTTTCACTATTATTTACTAATGTTGGATTTAATGTAACTGAACATTCACTTATTATTAAATCATCTAATAAACCTATATAAATAATAGTAAAACCATTTTTAACTCTTTCTATAGTCATATTTTTCCATTCAATCATCTTTTCTTTATTGCTACAATTATATATTTCTTCATCATACATTTTTATAATATCTTCTATAGAGGCTATTTTACAAATATAATTTTCCATAGTATCACTCCATCTAATATTATAATACAAAAAAAGTAGCAGATGCTACTTAAAAATCTAAATGGCAGGGGATGAGAGAATCGAACTCCCAACAGTGGTTTTGGAGACCATTATTATACCATTTAACTAATCCCCTATAAAAGGACAAATAAATAATAACATATTATTTGTCCTTTTTCAATTATTTATTAAGATAATTTGATAAATCTAGAGTTTTAACTCTATCTCTATTAAAATCAAACATATCAGCATTTAATCTTAGAATTGGATTTGGTGTTCCATCATTAAGAAGTGTTTTAGTAGATCCAATTTGAATAATTAAACCACTTTTCATAAATGGTTCTAGTTTAGAAGCTACTTCACTTACTTTCATTTTACTACCATTAACAGTAGTAAATAAGTCAGTTAAAGATTTTAATGATTGATTTTGTTTATTACTTAAGAAGTATTCAAGTAATAAATATTCATCATCAGTAAAATTCTTTCCTCTACTTCTTTCAACGGATGATATTAAGTATTCTTTTTCTAATTGTTTCATTTCCATTTCTAACATATATTTAATAAAATATGTTAAATCAGATGTATCCCTTGATGAGTTTATAGATTTATTATATTTACTCTTTGTAAATGGTATAGCTCTGTTAAAGTTTAAGAATGCATTAGCATTATTATTTAATAAATACCACATAGCAACTGTTCTAGATGTTCTACCATTACAATCAAAGTATGGATGAATAAATATTAAATAAAAGTGTATTATTTGAGAAATTATGAAATTATCAGTATAATTCTCTGCTTTTGCATTTTTAACATATTCCATTAAATAATCAACATATTTACTTACATCTTTAAATGGAATTCCCATAATTCTTTCATCAAAATAAGCTAAGTTTGAAATACATACTTCATCTTCTCTATAGTAGTCTCCCATGCATTCTTGATCTCTTGGAAGTATTAATCCATCACTTATTAATCTATATAGAGTTCTTAAATTTTCTTTATTAATCTCTTTTTTCTCTAATATATATTTATAAGCTTTATATAAGTTTAATACTTTTTTCTCTTTATCACTTGAATCTCTAGATATATCATATATTATTTTTCTAACTATAATTCTTCTTATGGCTTCTAAATCATTATCAATACCTTCAATTATATTGTTAGATTGTATATCTTTTGGGATTTGATTTTTAAATTTTATCTTTTTTAAAGATGGTTCTAGTGTTATGAATTCTTCAATTTCCTCAGAAATCGGAAGAATAGAATCTGGATTAATTCTAAAGTTACATCCATTTTTATTAGGTAATTCTACTCTTTTCATAATAACCCCCCTTTTTTTTGAAAACTCCTATATATTATCATATAAATTAAAAAAAGACAAATTAATTTGCCTTTTTCTTTCCATAGAATTCTTTAAAGATTTCTGTTAATCTTTCTGTAGTTACAAGTTTATAATCTTGTACTTCAGATGGTCTACCATCAGTATAACTAATTGGTACTCCTTTTTCTACATAAATATATGCAGAATTTAGAATAGTTTTTTCTCCTTCATAATCTGTTCCTTTAATGAAATCTTCACTTGGATTTGGAAGAATATCTTTAGCATAAGATATAAAATCATTATATTCAGAAGATCCTTCTTTAACTTTATATACTTCATTATTTTCGTTTAATCCATATGTAGTTCTTATATCATTTTCTTCTTTACCACCAGGTATAATATCTACATAATATATTTCTTTTATATTATAGTCTTTAGATACTTCTAAGAAAGTAGATATAGATACTCTAGATTCATTAAAGTATGGACTACCTAAAAATATTACAAAAGAATCACTATTTTTTATTTTTTTATTTATTTCTTCTAAAGAAGAATATATTATTTGATTCTTTTCATCTATAGATACTTTTAGTTTTCCATCATCACCATTTAATTCTTCATATTCTTGTTTAAACTTTTTAGAATCAGCTGTTGCTTTTATTAAATCGCAAGATAAATCTGTTTTAATATCATAATCTTTTTTACCATATGGAGATTTAGGATAAATAACTACTCTTGTTCTATCAACATCACAATCCATTAATTCAGTATAATTCATTAATGAGTTCTTATCAAAATAAGTTTTTAAGTTATCAAAACTTATTTTAAGACCTTTATCAGCAAATTGAGATAAATAAGATATAGCATTATCTTCTGAGCCTTTTTGTTCTACTAAAGCATCATAATAATACTCTTCATAGAACATAGTTCCCATTTTTAATAGTTTCTTTTCTATTTTATCTTCTTTAGTTCCACCATAAAATTTTGTATATAATAAATACCCCATAAATGGAATTAATATTATTAATAATAATATAGCTAAACCTTTACCAAACTTTTTTCTCTTCATCCTATTTTCCCTCCAAAGTAACCTTTATTGTCTTTTCTTTTCCTGCTCTATTAATAGATATTTCTACTTCATCACCAATTTTATATTGGTATAAATAATATCTAAGTTTAGATACGCTTGTTATTTTATCATTATTTATTTTTAGAATTGCGTCTCCTAGTTGTAATCCTGCTTTAGCAGCATTACTATTACTATCAATAGCTGCTACTACCACACCTTCAGTAATATTTCTATCTACATTTAATCTATAATAATATAGTTTATATGTATCATTAACATCTATTAAAGAAACTCCTAGATATGGTCTAGATACGCTTTCTCCTTTTTCTAAGTAAGAAGCATACATTTTAGCCTCATTTATAGGAATTGCAAATCCCATACCTTCTATTTGTTCATCACTTAATTTCATAGAAGTAATACCAATTACTTCGCCAGATAAACTTACTAGTGGTCCACCACTATTACCTGGGTTAATAGCAGCATCTGTTTGAATAACTTTAGTTACTACACTTTCAGTTTCTACAGTTCTTTCTTTAGCTGAGATTATACCTTTAGTAATAGAACCAGAATATTCTTCACCCATAGGACTTCCTACAGTAAATACTGTTTCTCCAAGGTATATTTTATCACTATCTCCAAGAGTTGCTACCTTTAACACTTTATCTTTAGCTATAGATAATACTGCTAAATCAGAGTATTCATCTTTACCAAGGATAGAAGCTTCTACTTCTTCTCCATTTTGAAGTAATACAGTTACACTATTAGCATAATCAATAACATGATTATTAGTTAATATATAACCTTTGTCTCCTTCGACTTTATAAACAAATCCTGATCCTGTACCATATTGTTTTCCATTATAGAAACTCTTAACAGTAACAACAGAATCAAATACTTGTTCTATTGAATCACTTATTGCACTTTCTATTACTTCAGTTCTATTTATGTTTTCTGTAACTATTTTAGATTCTATTGGGTAAAATTTAACATATAGTATAACAGCTGCTACTGATGTAATAACTGTTATAACAAAAAATATAAAACATATTAATATTGTTTTTTTAGTATTCATATAATCATCTCCTATAATATTTCTTCGTAATTACTTGGGAATCCCATTCTCTCAAGTAATACATTATTTTCTATTATCCCTATATTTTTATCAAATACTTTAATTGCCCTATTAACTTCACCCATAAAATCAGAAAACTTTGTATTAGAAAGCATTACTTTAAATATTATAACAATTGCAAATATATCATTTTTACCATAAATGTATTCATTATCTACTTTAGGTATTTTTAAATCACTATGATACTTAGTATCAGGTATACTAACCTGTGTTCTATGTTCATAAACTATATCTTCATGAGCACATAGATTTCTATAATTAGCAAGTAAACTTAAATATACTTTAAGTGTTTCAGGATCTAAGTTATAAATATCTGCTATTTCTTTCTTATCCTCTTCTTTTAATATGCCATATAACTCATTTATAAGCCCAAATGAGAGAACTTTTACTAAAATCCATAGAGGAACATATCCATACTTAGACATATAGTGTAATGTAGCTGTATGTTTATCTCCATTAACTCTAATTTGTCTCTTCATTTTATTAATGACATCTATAACTCTTCTACTATCAGTAAAATTCTGATTAAAGTTAGATGGTTTTAAATAATCTGCTTCTTTATAACCATATTTCTTACTTAATTGATAACTAATAACACTCTTGATATTATTTTCTATTATTAACAAATTCTTAAATAATATATTTCTAAATGTTCTATCAAATAAGAAAACTGAATATAACTCTTCAAAAGTAGTTCCTTTAATAAACTTTCTATCTTTTGTATATAGTATATTTCTATATCCATTAATAAAGAAATAATTTTCTTTTAAAAGTACTTCTTTTGTTTGCTCTTCATTATTTATAGTTAATCCTTTATTTCTAAGGATATCAATTTGTTCATCTAATGTTCTAAATTCCTTTTTATTCATAAGTTCACCTACTTACTTTCTCTAAGTCTTTCAGCAAGCTCTCTTATTTTTCTTAATCTATGATTAACACATGACTTAGTAATCTTTTCTCCAGTTTCTACTGATATTATATTACTAAGTTCTATTAATGAACTTTCAGGATATTTAAGTCTATAATCAGCTACTTTTCTAACCTTTTCATCAAGTAATTCATAAGCATCTTCAACTTTAATAAAATTAATATCTTCTATTTGTTTATTTGATGATGCCATAGATTTTTCAACATTAGCTTGTTCACAGTTATTAATACGATTATTCATATTTTGCTTTTCTCTTAGAACTCTTATATCTTCATAATATAAAACTGCATTATAAGCTTTAATAATTCTAAGTAAATCACTAATCTTTTCAGATTCTTTAATATAAACCATATATCCTTTTGCTCTTCTTAATGTTTTAGCATTTAAATCATAAGAATTAAGTACATCTTTTAAGAATTCAGCAAATTCTTCATTATTAATAATAAACTCTAAATGATATCTAGATGTTTTTGGATCATTAACTGAACCTCCAATTAAGAAACAACCTCTAATAAAAGCTGCTTTTAATTCTTCATCATCTACTATTTCATCTATAGGATAATTTCTAATCTTAAAACTATTATCTGTTATTAAACCTAAATCTTTTAATATCTCAGGAACATCTTTTTTAACTTCAATAACATACATTTCATTCTTTTTAAAGTTGTAATTCTTTTTAACAGCTATATTACTTGTTACCGAATAAGTATTTTGAATAATATCAAAGATCCTGTTGGCGGCATTAATATTTTCTGTTTGAACTCTAATTGAATATAACTTCATATCTGATGAAGTACATAATATACCAGATAATTCAGATATATGTTCTATTTTAGAACACTCTAATTTAGATATTTCTTCTTTAATCTTATATGAAAATGTCATAACATAGTCCTCCTATATCTTAGATTTTTCTTATATGTAGTATAGTAAAATAACCATACACCTAAAAGTATAAATATAACTGAAATAACGCATGCTATTTTAATATTAAATAACATTAAACTATCAGTTCTAAATAATTCTATTATAAATCTTATTATTCCATACCAAATTAGATAAAAAGCAGTTACATAACCTACTCTTACATTTCTATGATTTCTAATTAGTAATATTATTATAAAACCTATTAAACATAATATAGATTCTATATAGAATGTAGGTAAATGATATGAACCGTCTATATACATTCCTTTAATAACAAAGTTTGGTATTAATAGTTTTTGAAGTAATCCTTTAGAAACTACTATTCCATAAGCTTCTTGGTTAAAGAAATTACCCCATCTCCCAATAGCTTGAGCTATTATTACACCAGGAAGTATTACATCTAAACTTCTTAAAAAACTAGTTTTTTGTACTTTTGTTGAATAAAAATATACAAATATAGCAGCTGCTATTATTCCACCATGTATAGCAAGTCCTCCATGCCATATTTTTATTATTTCAGATGGATAACTTAAATAATAATCTAAGTTAAATAATACATAATGAAGTCTAGCTCCTAATATACCAATAATTAATCCATAGAAGACCACATTAAATATATAATCTTTATTAAGTCTTTGATCATGGCCTTCTTTTCTAATTACTATATAGGCAACTATAATACCTAGTAATATACATAATGAATAAAAATGAATTGTTAAACCAAAAATATTAAAACTATTTAGCATAATTACCTACCTTTATACCCCATTTAATTATAGCATTTAATCAAAAAATAAGGAAGATATTTTATAAAATATCTTCCTATTTTTTTCTTTTTATTATATAAGTGTTCTTTACAATCATTCCTAGTGTTTACATTATCTTTTTTAAGTATTCGCCAGTATAACTAGATTTATCTTTAATTATCTCTTCAGGAGTACCTGTAAAGATAACAGTTCCACCTTTATCTCCACCTTCAGGACCTAAATCTATAATATGATCGGCAGTCTTAATTATATCTAAATTATGTTCTATAACAACAACTGTATCACCATTATCTACTATTCTATTTAAGATATCTAAAAGTTTCTTAACATCATGAATATGTAGACCTGTAGATGGTTCATCTAGGATAAATACACTCTTGCCTGTAGGTTTCTTTTGAAGTTCTTTAGCTAGTTTAACTCTAGCTGCTTCTCCGCCAGAAAGTTCAGTAGCACTTTGTCCTAGTTTAATGTAACCAAGACCTACATCATGTAATGTTTCTAGTTTATGTTTAATCTTAGGGAAGTTTTCAAAGAAAGTAAGTGCTTCATCTACTCTCATATCTAGAACTTCAGCAATATTCTTACCTTTATACTTAATTTGAAGAGTTTCACTATTATATCTAGTACCATGACATACTTCACAAGGTACATAAACATCTGGTAAGAAGTGCATTTCTATTCTTTTTACACCGTCTCCCCAACAATCTTCACATCTTCCACCTTTAACATTAAATGAGAATCTACCTTTTTCATAACCTCTAATCTTAGATTCTTTAGTTAAAGCAAATACATCTCTTATATCATCAAATACTCCAATATAAGTAGCAGGATTACTTCTAGGACTTCTTCCTATTGGATCTTGTGATATAAGAACTACTTTATCTATATCATCTATACCTGTAATAGACTTATATTTACCAGGGTTCTCTTTACTCTTATATACTTTATTCTTTAATGCTTTATATAATATTTCATTAACTAAAGTACTTTTACCAGATCCGGATACACCTGTTACACAAACAAATTTACCTAATGGGAACTTAACATTAATATTCTTTAAGTTATTCTCAGATGCACCTTTTATTTCAATTGATTTACCATTACCTTTTCTTCTTTTTTTAGGTATTTCAATACTATATTCACCATTTAAGTATTTAGCAGTTATACTATCTTTATTCTTAATTACTTCTTCTGGAGTACCTTCAGCAATAACAATACCGCCATTATCACCAGCACCAGGTCCAATATCCACAAGATAATCTGATTCTCTCATAGTATCTAAATCATGTTCTACTACTATTAATGTATTACCAAGGTCTCTCATTTGTTTTAATGAGTTAATTAATCTATCATTATCTCTTTGATGTAGACCAATACTTGGTTCATCTAATACATATAATATTCCAGATAATCTAGAACCTATTTGAGTAGCTAGTCTAATTCTTTGACTTTCTCCACCAGATAATGTTGAAGCAGTTCTACCTAGAGTTAAATAGTCTAGACCTACATTTATTAAGAATGAAAGTCTATCTTTAATATCTTTAACTATTAATCTAGATATTTCTTCTTCCTCTTTAGTAAGTTTAAGATTACATACAAATTCATATAATTTTTCAATACTCATATGACATACATCATTAATATTCTTTTTATTAATAAATATATTAAGCACTCCAGGTTGTAATCTAGAACCATGACATGTAGGACATTCCATTTGAACTACATAGTTTTTAAGCCATTCTCTAACAAAATCACTAGTAGTTTCCATATATCTTCTCTCTAAATATCCAAGAACTCCAATATTTTCTTCAAAGTTATTCATTACATTACCACTTCTAGTTTTAAAGTTATAATGAATTACTTCACCATTACCATTCATAACTATATCTAATTCTTTTTTAGAAAGCTTTGATACTGGTTTATTCATATCTATACCATAATGCTTACATAATATTTCTAGTTTTTGAATATTAATATTTGCTTCATCCATATTCTTAAATGGAAGTATAGCTCCATCATTTAATGATTTATCTTTATCTAAAACTAAATCTCCATTCATTTTATCTTTAAAACCTAAACCCTTACAATCAGGACAAGCTCCAAATGGAGCATTAAATGAAAATATTCTTGGTTCTAATTCACTTAATGAATAATCACAATATGGACAAGCATAGTTTTCACTATAGATTAGTTCTTCTCCACCTACTACATCTATTATTACTTTACCTTTACTAAGCTTAGTAGCTACTTCTAAGTCTTCAAATAAACGACTTCTAATGCCATCTTTAATAATAAGTCTATCTACTACTACATCTATAATATGTTTTTTATTCTTTTCTAGAGTAATATCTTCAGATAAATCTAATATTTTACCATCTACTCTTACTCTAGAATATCCTTCTTTTCTTAAATAATCTAAAGTATCTTTATGAGTACCTTTATCTCCTTTTATAACAGGAGACATAATCATTATCTTAGTATCAACATCTAATTTAAGTATTTTATTAGTCATCTCTTCAATAGATTGACTCTTTATAGGAATATTATGTTCTGGACAGTATGGAGTACCAATTCTAGCAAATAATAGTCTAAAATAGTCATATATTTCAGTTATAGTACCTACTGTAGATCTAGGATTGTTATTTGTAGTCTTTTGATCAATACTAATTGATGGAGATAAGCCCTCAATAGAATCTACATCAGGTTTTTCTTGAACTCCTAAAAATTGTCTAGCATAACTAGATAAACTATCTACATATCTTCTTTGACCTTCAGCATATATAGTATCAAACGCTAAAGAAGATT
>sequence02
GTTAGTGAAGAATCTATTGAATATTTAGAGTCTCATGGAAAAATAAAAAGATGTGATTAATCACATCTTTTTTATATACCTCTATAAACATCTTTATATTTAAATGGATTCTTTTTATCAATTCTATCACAGAATAATATACCATTTAAATGATCATATTCATGTTGGAATACTATTGCTAGTTCTTCTCTAAATCTAGTATTAATCTTATTACCATCTATATCATAGTATTCAACACTTATTCTAGCACTTCTTGGAACTATACCTTCAACTGGTCTATTAACAGATAAACATCCTTCTCCTTCAGATACATATATCTTTTCTTCAGATTCAGATAATATCTTAGGATTTATTACGGTATAAGTTTCAAATTTGCCTTCTTCATACTCATAAACTATAACAAATATTCTTTTAGTGATACCTAGTTGGATTAAAGATAGTCCCATACCAGGTCTTAAATCATATTTTTTAGAGTATTCTTCAATTTGACTTAGTCTAAGCATTTCAATAGAGTCAGCTATTACTTTTTTAGTTTTATCATCTAATGGAAAAGTAACATCTTTACTTACTAATCTTATCCTAGGATCAAATTCATCAATAATATCCTTTGTTTTAAGCATAGTTTCACCCCTTAACACACAAGTATTATATCAAATTATTTAAAAAAATCAAATTTTTAAACATGTGTAAACATAATGTTATACTGAGGTTTTATGTATAAATTCTATGATATTATTATATTAGAGGTAAGAATATGACTAGATTATTAAATAAGTTAGATAAAGTTTTATTATTATTTAGTTTTATTATGTTTGTATTTGGTTTATTTATGATCTTTGATGCATCATCAATGAAGTCATATTTATTAACAGGTAGTAATACAACATATTTTTATAAACAATTAATAATACTTGTTATATCTTTAATAGCTACAATTATTATTATACAAATACCAACATCCAGATATAAAAGATATATATTACCAGGCGCAATTGCGTTAATAGCATTCTTAGGACTTCTTCTTTTAGTAGGAGGAGAAAGTAATGGTGCTAAGAGTTGGTTCTATGTATTTGGATTTGGGTTTCAACCATCAGAGTTTGCTAAAGTAGGTATTATTATATTTATGAGTGTTTATTATAAATTGACCTATAAGAGAGTAGGAACTCTTTTAACAACATCTATTCCAATAATAATTGGAGCCTTAATGACTTTTCTTACATTCCTTCAACCAGATGCTGGTACTGGATTAATACTATTTGTAATAGTAGCTTCTTTATATTATATGGCTCCAGTATTAAAAAAATATAAGTTTTATATAACTATGTTTGGACTAGGTTTAATATTTATTCTTGCTATAGTAGTACTAATATTTAAAGATAGTATGTTAACAAGAACTCAATTAGATAGATTTAATTTCTTAAAACCATGTACTAGATATCAAGAGAATACTGGATATCAAGTATGTAATGGTTATATAGCTATTAATAGTGGTAAATTATTTTCTGTATCTCCTGGTAATAGTAAACAAAAATATTTATATTTACCAGAAGCATATACAGACTTTATATTCCCAATTATAGTAGAAGAATTTGGTTTAATAACAGGTATAGTTTTAATACTAATATATTTATTAATTATATATAGAATTATATTAATAGGTAAGAATAGTAGTAATATCCAAAATCAAATGTTATGTTTTGGAGTAGCAGTATTTATATTCTCTCATGTAGTAATAAATTTAGTTGGTGTACTTGGATTACTTCCTTTAACAGGAGTTCCACTTCCATTTCTTAGTTATGGTGGATCATTTGCATTAACAGTTTCTATAGGACTTGCTATAGTACAAAGAGTATCTATAGAAAACTATGATGAAAGAAAAAGAAAAGTATTAGATTAAAGGAATAATGCCTCTTAATAGATAATATATCTATTAGGAGGTGTTTTTATTTGAAAAATAAATTATTAATTATTATAATAGCATTAATTATAATTACATTAGCTTCTTTATATAATCCAAAATATGTAAAAGCAGAAGAAACATCTATTAGTAATTACTTTGTAGATATAAAAGGAGAAATAAATAATCCTGGGGTATATGAAGTAGAACCAGATAAAAGAATAATAGATGTTATTAATATGGCGGGAGGTCTAACTGATAAAGCAGATACATCTATATTAAATCTTAGCAAAAAAATAAAAGATGAAATGTATATTATTGTTTATTCTAATGATCAAATAAAAGAATATAAAGAAAAATTATTACCATCTAAAGAGATAATTAAAAAGGTAGAAGAAAAAATAATATGTCCAGATACTTCTAATGATGCTTGCGCTAAGAATAATATTATTAAAGAAGAGAGTAATATTACAGGCAAAATAAATATTAATACTGCTTCTAAAGAAGAATTAATGACTTTAACAGGTATTGGTGAATCTAAAGCAGATAAGATAATAGAATATAGAAAAAATAATAAGTTTAATACTATTGAAGACATAAAGAATATATCTGGTATAGGAGACTCTATATTTGAAAAGATTAAAGATAATATTATTGCAGAATAAGATATTAATCTTATTCTTTTTAATTATAATTATCTATTCTTTTATTTATATAAGAGTATTTAATCCTAAAAGTATATCTAATACTCATTTAGAGGGCTATATAACAAGTATTAAATATAAAGATGATAAGTTAACTCTAATTATTAAAAGTAATAAAAAAACGGTAGTAAATTATTATTTAAAAAGTGTTATAAATTTGGAATATGGAGACTATATATCTTTAGATGGAGAATATACTTCTATAAATGAAAATACGAATTTTAATTTATTTAATTATAAAAGATATTTATATAGTAATAGAGTCTATTATATGTTTAATGCTAAAAGTATAAAAGTAATTAAAAAGAATAATAATATTCTTTTTAATATAAAAAATAAAATAGTAAAAAGAATAGAAAAGTGTACTTACTCTAAAAAGTATTTATATATATTTTTATTATCTAATAAATCTTATTTAGAAGATAATATATATGATTCTTATAAAGATCTAGGTTTAGTTCATTTAATATGTATTTCAGGTATGCATATATCTTGTATAATTTTATTACTTAATAAGCTATTTAATAAAAAGATAATTAATTATATATTCTTAATAGTATATTTATTCTTATTAGAGTTCTCTATATCTATTCTTAGATGTTTCTTATTTTATTTATTTAAAAATATTAAAGATAAATATAATTTAAAAATATCTAATATAAAACTATTACTAATTATTATGATGATCTTAATTCTTAGTAATCCATTTATTATTTATAATATAGCTTTTCAGTTTTCGTTTATTATTTCTTTAGGATTAAATATTTCAAAAGAATATATTAATAATTCTATTACTAAAACTTCTTTAATAGCATTTCTTTATTCTATTCCAATTCTAATAAATAATTACTTTAAAATAAACTTTATAACAGTCTTAGTTAATATATTATTTATACCATTAATAAGTTATATTATATTCCCATTTACATGCCTAGTATTCTTATTTAATTTCTTAGATAGATATCTTTATTATCTAACTAGTTTTGTTGATAAAATAGTCCTTAAAATAAGTGAAATTAAGATATTTACATTTTCTTTTTCTAAGCAGAATATAATTCTTATAATAATCTATTATTTATTACTAATTTTATTTATAAGAAATAGAAAATACTTTATAGGTATAATCACTTTAATAGTAATATTTTACTTTAATAATTATTATTTAATTAATCCAAGAGTATACTTTATTGATGTGGGTCAAGGAGATTCGTCTTTAATTAGAATTAATAATAAAAACTATTTAATAGATACTGGAGGTAATTATAACTATGACCTTGGTAGTAATGTTTTAATACCTTTCTTAAATAGTGTAGGAGTTAAGAAAATAGATTATTTAATATTATCTCATGGAGACTTTGATCATATAGGGGAAGCTAGTACTCTAATTAATAATTATAAAGTAGATAAAATTATATTTAACTGTGGCCCTCTTAATGAACTAGAAAAAGAATTAATAGATATGAATATTTCTTATGAAATATGTATAAATAAATTAGATAATTTATATTTTTTACAAACAAAAGAGTATGATAATGAGAATGATAACTCTAATGTTATTTATACTAATATAAATGGATATAAGTTTCTTTTTATGGGTGATGCCTCCTATATAACAGAAAAAGAAATATTAAAGAAGTATAACATATCAAATATAGATGTATTAAAAGTAGGCCATCATGGTTCTAAAACTAGTTCTAGTAAAGAGTTTATAGATATAATTAGACCAAAGTATTCAATTATATCAGTAGGTAAGAATAATAGATATGGGCATCCAAATAAAGAAATACTAATCAATTTAGAAAATTCAAAAATATATAGAACGGATCAAGATGGAAGCATTATGTTTAAGATTAAGAATAATAAATTAGAAATAGAAACTAATACACTAACCGAAAAAAAGTAATCTATGATATAATATTTACTCAAGGAGGAGGAATATTATGGTTAAAGATCTATGTTTTGAAATAATTGAAAAATGTCTAAACAATTGTAAATTTTGTTCCTCTAACTCAAATTGTAATAAAACTCAAATTATAAGATTTGAAGACTTCAAAAGAGTAATAGATTATTTTATAACAACTGGCGGAATTGAAGAATTATCACTATCTGGAGGAGAACCATTTTTGCATCCTGATATAATTAAAATGGTTGAGTATGCTAAATCACGAAATATAAGAGTAGTTATTTTTACAAGTGGTGTTGTAAATGGACAAGAATTAAATGAAGATCATAAGAATGCTATCATATCAGAAATGAATGATAGATTAAAGGAAATAGAACAAAATGAACCTGAAAATGAATTCTTAAAGGCAAAGGTAAGAACTTATTATAATCAATTGTTAGAGAAGAAAGAATATTATTCAATTGGTAGAGGAGTTTTACATGAATTAAAAACAACAGGCCTAGATAAAATAGTATTCGATATGCAAGCATATGAATCAGAAACTGACAGTTATATTATGGGAAGAAATGAACAAGCAAGACAAGCTTTGTTAAAATCATTAATAGATACATCTTTTGAAGAACTAGACATAGACGTTCACTTTGTACCTATGAAACCAAACTATAAAGAAATAATTGACATATTAGAACTACTAGAAATCGTTGAAGTAGGACAAATAAGTTTACTTAATTTTTTACCACAAGGTAGAGGGAGGATTAATTCAAACGACTTAATGATGACTTTTGAAGAAAAACAAGAGTTCTTTAAATTATTAGAAGAAGGAAGAAAAAAATTTTCTGGAAATATAAGAATTGGAATTCCTTTACAAGGTGATGATGCACATAAATGTAATGCTGGTTTAGAAAAATTAGATATCAAATTTAATGGTGATGTACTACCTTGTCCAGCATTTAAAGAAATCACTCCTGAAGAATGTGGGAAGTTTGGAATAAAAATACCAAACATATATAGGAATTTAGAAGATGTTTCCATTCCAGGAAATGGTAAGCGAGTCAAACAATTATGTAAGCAAGTTTATTCTGCAAGAACTAAAATAAATTAGTTCTTTTTATATGTACTAACCACTTAATATCTGTAGGTAAGAATAATAGATATGGGCATCCAAATAAAGAAGTATTAAATATTTTAGATAATTCAAAAATATATAGAACAGATCAAGATGGAAGTATTATATTTATTATAAGAAATAAATACATTGATGTATTTGACTAATATATTAAAAAAATATATAATATTTGCTTGAAAAGAGGGGATATTATGTCTGAATTAAATAATAAACCTAGTAGAATTTATTTAACTGAAGAACAATTAGCAGGCGATATAACATCCCTATATTTGTTTTTAAAAGAGAATCCTAATACTAGTGTAGTGATATTTGATTATGATGATGTATTATTATTTGATAGATTATTACCAAGAAATATACCAAATAATGTATATTTAATAAATGACGGTAAAAGAATAGATAGAAGCTATATAGATATAGATTCTATTACAGGATTTAAATTAATAGTACCATTATCTTATTTATCATGGGGTATTAAATTTGATGATTATATTGATACATATTTAGTTCATGAATATGATGAGAAATCATCTAATATAAGACCACTTAGATATAGTAAAAGTTTTTATACAGTTGATGATCAAATTATTTTAATGAATAAAATAAAAGAACTTGCAGCATTAGCTCATAGATGTAATGATAAAGAAAAAGTAATGCTTGTTTCTGATTATATACAAAGTTCTATTCAATATATAGTTAGTATTGAGACTCACAGTCATAAAGGAATATATGTTACTCCATATGTAGAACTATATAATACTCATGAATCTTCATTTAGTGTTGCTTTAAATAAACATTATGGGGTATGCTCTGCCATTTCACAATTATCAATGCTTTTATTAAATAATCCATACATGGATATTGAATCTGAAGTTATGAGAGGTAATGGTCATGCATGGAATAAAGTAAATGTTGATGGTAAAAATTATTATTTTGATAATACTTGGAGTATAACAAGAAATGATCATCAGTTATATGGCTCATTAATGGCATCTTCATTTACAGATAAGTACTTATTATTTGGTAGTAAAACTGCTAATGAAATAGAAATGCATAGTTCAAAAAATATACCTATATATAAAGGTAGTATAGAGGAAGAAGATGCTACTAAACCTGAATATAAATCTAAATTCACATATAGTTTTAAACCAGTTTATTATTCATACAAAAAAGAAGACTAATTAGTCTTCTTTTTTAGAACTTTCTATATAATCCTATTGCTTTACCAACTATATATACTTTATCAAGTATAATAGGGGCCATAGTATCATTTTCAGGTTGTAATCTAAAATATCCGTCTTCTTTATAAAATGTTTTAAGCGTTACTTCGTTATCCTCAGTCATAGCAACAACCATATCACCATTTTCTGCTGTAGCTTGTCTTTGAACTATAACTATATCTCCGTCATGTACACCAGCATTGATCATTGATGTACCACTAACTTTTAAAGTGAATACTTCTTTTTTAGTTGGTATCATAGATGCTGGTAATGTAAAGAATTCATCTGGCATTTCTATAGCTTCTATTGGATTACCTGCAGTAACTTTACCTAGAAGTGGAACATCTACAGTATCAGATTCTATATAATCATTATTTATTAATAATTCTATAGCTCTATTTTTAGAGTTTCCTCTTTTAATATATCCTTTAGCTTCTAATGTATTTAAATGTGCTTGAACAGTTGCTGGACTAGATAAATCTAATGCTTTACCAATTTCTCTTACAGTAGGTGGGTAACCATTCTTAGCAATACTTCTTTTTAAATAATCTAAAACAAGATTTTGTTTTACAGTTAGTTTCTCCATATTATTCTCCTTTACTAAAATAATATTATCATAAAAAATGTAAAATGTCAAACATTTGTTTGAAAGTATATTGACACATACACTTGTTCGGTATAAAATGAAGACAAGAGGTGAGAAAAATGAAATTATTTAAAAATATTTTAAAGGTTATAGTTGCTTATGCTATATGCATGTTATTTGCATATGTTTTAGTTCTTAGAGTTAAACAAGTTAATGAAAGGGATAGTAGAATTCTTCAAGAATATAATTATGAGGAATATTACGTATATGAGAATAAATAATTAATATTTATTTTTTTTTATTTTTTTGATATAATTATAAAAGAATAAAGGGCTAGGGTGATAGTTATGGATCAAAAGGCAATAAATGTAATTAAAAATCTTACTTTAGATATGATTCAAAACTCAGGTTGTGAAGGAAATTATGGTATTTGTTTTAGTTCGGCTCCAATATTATATACGCTTTTTACAAAGCATTTAAATGTTAATCCTTCAATTCCTGATTGGATAAATAGAGATAGATTTGTATTAAGTGCATCTCATGCATCTGCATTATTATATGCAACAATGTTTTTATCTGGATATCCATTAATGATAGATGATATTAAAAGTTTTAAAAAATTTGGTTCTAAAACACCTGCATATCCTAGTATTAATACAATGGGAGTAGATATATCTACAGGCCCTTTAGGTGAAGGTTTTGCATCTGCTGTAGGTATGGCTCTTGCAGAAAAGAAATTAGAAGCTTTATATAATCAAACGGGTAAATCAAAGTTACCAAAATTATTTAATTATAATGTATATACTCTTGTATCTGATGGAGATCTTATGAAAGGTATTTCATATGAGGCCGCTTCATTTGCAGGTTCACTAGGATTAGATAATTTAATAGTATTATATGATTCTAATGAAGTATCTTCTGATGGAGAAGTAAAGAATACATTTAGCGAAAGTGTATTATCTAGATTTTCTGCTATGGGATGGAGTACTTTTTATGTAAAGAATGGTAATTCATCATCTGAAATAAGTAAAGCAATAGAAAAAGCTAAAAAAACTAAAACTCCATCAATTATTCAAATAAAAACTATTATTGGTGATGGATTACTTAACCAAGGAAAAAATATAACTCACTCGCAATTACTAGAAAAGAACGATATAGATCAATTTAAACAAAAGGCTGGAGTAGGTACTGTTCCTTTTACTGTATTAAAGGAACCTGCTAGTTATATTAGAGATACTGTAGTTCAAAGATCTATTAAGATATATAGTGATTGGGAAAAACTATATAATGATTATAAAAAGGTATTAAATCCTAACCAAGTAACTGAAATTAATAATATTAATCAAAATCTAGTAAATATAGATTTAATAAGAGCAAATCTACCTATAGATTATAATAATAAAGAATTAATGAGAGAAAGTAATCATAGAGTATTAAATATAATAGCAGATAGTGTTTATAATTTTATTGGAGGGTCTGCTGATTTATCTAATATAACAAGAGTTCGTTTAGATAATCATGAAGATATAGTATATGGTAAATATACCGGTAAAAATATTAATTATGGTGTAAGAGATAATTTTATGGGTGCTTGTATGAATGGTCTTGCTTTATCTGGATTTAGACCGTTTGGTTCTTCATTATTAGTATATAGTGATGATATGAGAGAATCTATTAGAGCTACTGCTTTAATGAATTTACCTGTAACATATATATTTACTCATGATTCTGTAACTAATTCATTTGATGGGCCTGCTCATCAACCAGTTGAACAATTATCTAATTTAAGATCTATTCCAAATTTATATGTATTTAGGCCTGCTGATATTAAAGAAATACTTGGAACTTGGAATGTTATACTAAATAATAAAATACCTGCTGTTATATCGCTTCCAAGAACAGAAGTAAAAGCAGAACAAGGTACTTCTGCTGGATATGTTAATAAAGGTGCTTATGTAGCAGGACCTGAAAAGAATAAATTAGATGCAATCATTATTGCAACTGGTTCTGAAGTACAACTTGCTAAATCACTTCAAGTTAAATTACTTCAAGAAAAGAATATAGATGTAAGAATAGTATCTATGCCATGTATGGAATTATATAGTATACAATCAGAAGATTATAAGGAATCTATTATTCCTACAGGAAGTAAAATATTTGTATTAGAATATGGATCATCATTTGGATGGGAAAAATTTGTTCCTAGTTCAGATTATTTATTAACAGTTGATTCATTTGGAGCTTCAGGCTCTAAAGATGATGTACTTTCATATTTAGATATAGATAGTGATAATATAATTACAAGAATAGAGAACTTATTATAATAAGTTCTTTTATTTTATTTAAAAATAATATATAATATATTATGTATTTAAGGAGGAAATAATTATGTGGCATGATATATTAATGGTAGTAATTGGATTAGTACCTGGTCTAGTAATTGGTTTCTTTTTATCTAAAATATTTATGGAAAAATATTTAAAGAAGAACCCACCAATAAATGAACAAATGGTAAAAGCAATGATGAGTCAAATGGGTAGAACACCAACTCAAAAGCAAGTAAATCAAGTTATGAAAGCCATGAACAATGCTAAGTAGCATTGTTTTTATTTAGTCAATGAAAATTTGACTATTTTACGTAAATATGGTATAATTTTTCTCGTATGAAGGGTGCAGTATCCTAGTTGATACATCTATTATGAAGACGAGCCTAAAAATTCGTTAAATAGCATACAAGCAAACTTTGTATAGATGCTTGGCTTGCCCAAAGCTGGGTGTTTATATAAATGTAAGTTTTATGGGATGCCTATAATGGCATATAGGCTAAACCCATTTAACGCATGCACATAAATAAAGTAGCTAATCTTGAGTGAATATATGGGAATTATAGGAATATCTAAATATTAATGGCCAAAATATCTAGGTATTTATATCTTATATGAAACTATATTTGCAAAAAAGACTAATAATAGAAAGATCAGGGAGGAAATCTCCTAGGCTGTATACTATCATAGGTTTGCAGTGCGTACTAAGTGGTAATCAAGTCGTATACTTAGGTGACGGTATATATATTTAAGTAAAGGGGAACCGCCTTTTGGTAACGAAAGGTTTAAATATGAGAAACTTCTACTTGACCTATGACGCAAAGTTAATTATGGTAGTACCAGTCATATGTTTCTAAATATAAATCATCTTTTAATAAGATGATTTTTTTGTTATAATTAATATGGTGATAAAATATGAAAAAACAATTTGGTTGGTTAATGACAGTTCTTATTATGTCATTTATATTATCTATAGGTATGTCCTTTTTATCTGAAGGTTTAATACCTAAAATAAATGTATATTTTGGAATATTAATAATACTTATATTTATATTTATAAGTGTAATATTTGATATGATTGGAGTTGCTATAACAGCACAAGATGAGACACCATTTAATGCTATGGCATCAAAGAAAATAAAAGGGTCTAGTCATTCAGTTAAGTTAATTAAAAACTCTGATAAATTGGCCTCTATTTGCTGTGATGTAGTAGGTGATGTATGCGGTGTTGTTTCTGGATCTGCCGGTATGATGGTAGCAGCTTCTTTAATGAATAAAGTAAAGATAAATCCATCGTTATTAGTATTACTAGTAACTGCTATAATAGCATCTTTAACTATTACTTCAAAAGCATTTGGTAAAACAATTGCTATTAAGAATTCTAAGTCAATTACAGAGAAAGTTGGAAAGGTTATTCATATATTTAAAAAATAAAGAAGTTTTACTTCTTTTTTTATTTGCAAAATGTTAAAAAAGTGCTATAATATCATAGACTTTGAAAAAAGGGGATGTGTATTTATGGAAATTAGAAATGTTGCAATTATTGCGCACGTTGACCATGGTAAAACAACTTTAGTAGATAAATTATTAAAAGAATCTAATACATTTAGAGAAAACGAAGTAGTAGCAGAAAGAGCTATGGATTCTAATGATATTGAAAGAGAAAGAGGAATAACTATATTAGCTAAACCTACATCAGTTAAGTATAAAGATTATAAAATAAATATTCTTGATACTCCTGGACATGCTGATTTTGGTGGTGAAGTAGAAAGAATAATGCATATGGTAGATGGTGCTATTCTTTTAGTTGATGCTTATGAAGGTGTTATGCCTCAAACTAAGTTCGTATTAAAGAAGGCATTAGATGCTAACTTAAAGATTATAGTAGTTGTTAATAAAGTAGATAAACCAACTTCAAGAATTAATGAAGTAGTAGAAGAAGTATTAGAACTTCTAATGGAATTAGGCGCTACTGATGAACAATTAGACTTTAAAGTAGCTTATGCTTCTGCTGTTAATGGAACTTGTTCATTAAATCCAGATATAACTACTCAAAAAGAAACTATGGAACCTATATTTGATTTAATAGTAAATGAAGTACCTGCTCCAAAAGTAGAAGAAGGTGCATTTAGATTCCAACCTGCATTACTTGATTATAATGACTATGTAGGAAGAATTGGTATTGGTACTATTAATAGAGGTTCTGTTAAAGTTAATGAAATGGTTTCTTGTGTTAGATTAGATGGATCTATTAAAAAATTTAGAATCCAAAAATTATTTAGTTATTATGGTTTAAAAAGATTAGAAGTTGAAGAAGCTCATGCTGGTGATGTAATTGCTATAGCAGGTCTTGCTGACATAGAAGTTGGAGAAACTATATGTGCCGAAGGTCATGAAGAAGCTTTACCTAAACTAAGAATTGATGAGCCAACACTTCAAATGACATTTGGAGTTAATTCATCACCATTTGTAGGTAAAGAAGGTAAGTTTGTAACTGCTACTAAGATTAGAGAAAGATTATATAAACAAGCAGAATCTGACGTTGCTTTAAAAATAAGAGACAACGATCAAGAAAGTTTTATAGTATCAGGAAGAGGAGAACTTCATTTATCTATTCTTATTGAAAATATGAGAAGAGAAGGCTTTGAACTTGAAGTATCTAAACCAGAAGTTATTATAAAAGAAATAAATGGCGTTGAATGTGAACCATATGAAGATGTTTCTATTGAATGTCCTGAAGATACTGTAGGTTCCATTATTGAAGCTTTAGGTCTTAGAGGTGGAACTATGGAAACAATGACTAATTTACCTGGAGTAGTTAAACTAAATTATACTGTTCCATCTAGAGGGTTAATTGGTTTTACAACAGACTTTATGACTATGACTAAAGGATATGGTATTTTAAATCATACATTTAAAGAATATCTTCCAAAACAATCTCAAACAGTAGGAGAAAGAAAACTTGGAGTATTAGTTTCTATGGAAAATGGTGCTGCAACTGCATATGCTCTTGGTCAATTAGAAGATAGAGGTATTATGTTTATTGAACCTGGTACTGATGTTTATGAAGGTATGATAGTAGGAGAAGCTAATAAAGATGCAGATCTTGCTGTAAATGTTGTTAAAGGTAAGAACTTAACTAACACAAGAAGTGCTGGTAAAGATCATACAGTAGTTTTAAAAAGACCTAAGGTATTATCTTTAGAATCTGCACTTGAATATATTAATAACGATGAACTAGTTGAAATAACTCCAGTAAGCTTTAGATTAAGAAAGAAAATCCTTAATACTGAAGAAAGAAAGAAATATGATGCTAGAATAAGAAATGAGCAAAAATAATGCTCATTTTTTTGACAATAATATTGTTATAGTGTATTATAAATCTGCTTTTAAAAAGAGGGATATATTATGAATATGGTAAAAAAAATCTATGATTTAAAAAATAGTGAAATAGATTCATTTATTAAAAAAAGATTATCAGAACTTAGTAATAATGAAAGTGTAACTGTTGGTATTAATTCTGATAATTATATGTATAGTGGTTTTTTTGATGAAAATGTTAGAATTAATACTACTATGCGTGTAAAGGGGAAAGGCAGTAAAACAGTATTAAAGTTAGGTGGAATTTGTATAAATGATATTAATATATATAAATACTTAGTTTGTGCATGTAAAATAGTTAATAATCCATATCTAGCAGTCTCTATGGCTTTAGATAAGTATTTATATTTAAGTGATCCTGTTAGAGATAGATTAGGTTCTGAAGGAATAGAATTCTATAGATCAAGAATTATGAATTTCTTTTTAGGTAAAAATAAGTGTGCTCCAATAAATCTATTAAGAAAAACAAAAGTTAGTTTATGTTCTGAAATATCTGCTGTAGCACAAAATATGTTTAGATTTTTAGATATTGAATCAGATTTTGTAACTGGAATATCTGATAATATTCATCACGCATATAATATAGTTTATCCAAGAGGAAGACAAAAAGATGCTATTCTATTTGAAGGAAATCATGCAATTGATTGTGATCCGTTATTCTTTTATTTAAATCAAAAAAATAAAACAAAATTATATATGGGTGAACCTGTTGAATTTACTGAAGAAGATCATTATAAGGGATTTAAATATTTATTTGGAGAAAGAATAGATGACTATGAACCATTTAAATTAAGTTATAGTATTCATAAAGTAACTTTTGTTTCTGATGGATTTGAGTATTCTAAGAAAGAAGATATGAATAAAGGTAAACTTGTTTTTAGAAATTATTATAAAGGAAAACAAAAAATAGAAAAGAAATAGAACTAATTAAAATAACTAGTAAAACTAGTTATTTTTTTGTTATAATTATAGTAGGTGATTGTGATGAGTGAATATAAAGTAATTGATGGTAATTATGCTTGTTCTCATATTTCATATTTGTTTACTGAAGTAGCAGGTATATATCCTATAACTCCTTCATCTAAAATGCCTGAATTAATAGAAAAATGGGCTATAGAGGGAAGACTTAATTTATTTGATAATAAAGTTAAATTAAAAGAAATGCAAAGTGAAGCGGGAGCTGCTGCACTTATTCATGGGTCTTTATTATCTGGATCACTATCAAGTACTTATACATCATCACAAGGTCTTTTATTAATGATTCCAGAAATGTATAAAATAGCAGGAGAATTACTTCCTTGCGTAATAAATGTAGCTTCTAGAACAGTAGCTACTCATGCACTTTCTATTTTTGGAGATCACTCAGATATATATGCTGTTAGAAGTACTGGTTTTGCTATTATGGCATCTTCTTCAGTTAATGATGTTCAATATATGACATTATTATCTTATTTAAGTTCTATAGAGGGTTCAGTTCCATTTGTTAATTTCTTTGATGGATTTAGAACTTCTCATGAACTTAACAAAGTTAAATTATTAGATTATGAAGAAATAAAACCTCTAATTAATTATGAAAAGATAGAAGGTTTTAAAAATGAAACATTATTATCTTCTAAAATTATTAAGGGAACTGCTCAAAATGAAGATATATATTTTCAAAATTTAGAAGTTAGAAATGATTATTATGAAGATTTACCTGATATAGTAAATAGTAAAATGAAAGAGGTCAATAAAGCATTTAATACTGATTATAAACCATTTAATTATTATGGAGATCCAAATGCTAAAAGAGTAATAGTAGCTATGGGATCTGTATGCGATACTATTAAAGAAGCAATTAAATATTCTGAAGAAAAATTAGGTTTAATAGAAGTTCATTTATTTAGACCATTTTCTGAAAAATATTTCTTAGATGTACTTCCTAAAACATGCACAAGAATAGTAGTTCTAGAAAGATACAAAGAAACTACTTCTAGAGAAGCTATGTATCTTGATATTAATAATATTATTAAAAATAATAAATTAGATATAGAAGTAGTTGGAGGAAGATATGGAATATCCTCTAAAAATACTAATATAAATGATATATTGTCTGTATATGATAATTTAGGATCTAGTAATATAAAAGATGACTTTACTATAGGTATATTAGATGATGTATCTAATAAGAGTTTACCTAAGAATAATTCTATTATTCCAAATTCTAATATAGAAATGATTATATATGGATATGGTTCTGATGGAATGAATACTGCTTCTAAAAATTTAGTCACTTTAGTTGGAGAAAATACTGAATTATATGTTCAAGAATATGGATTATATGATTCAAGAAAGAGTGGAGGAGTAACTAGAGAACATATTAGAATTGGTAAAGAAGAAATAAAGAGTCCATATTATATAGAGAATCCCCATATAGTAGTATGTTCTAATGATAGTTATTTAAAACAATATGATGTTTTAAGTAATATTAAAGAAAACGGTATATTTATATTAAATACATCTAAAACTATAGATGAAATAGATGATAATACTAAGGCTGCTATTTTAAAGAAGAAACTTAGATTCTTTACTATAGATGCATCTAAGATTGCTAAAGATAATAATATACCAGGTAAGATTAGTTATATTATGGAAGCTGCTATTATAAAGATAATTAAGATATATCCTTATGAAAAAGCTTTAGAAGAAATAATTAAATCTATAGAAAGTAATTTATCTTCTAAAGGAGAAGATATAGTTAATAGTAATATATCTTCTATTATGATGGTAGATACTTCTATTAATACATTAGAAATAGAATCATGTGATTCTATATATGAAGAAAAGAGTTATGAAGGATTAATTAATAATGTTCTTCATTTAAAAGGAGATACTTTACCTGTGTCAGAATTCCTTATACATGATAATGGTACTTATGATATTAATACATCTAAAATAGAAAAAAGAGATGTTTCTAGTATTTTGCCTTGTTGGAATTCAGATAAGTGTATATCATGTAATAAATGTTCTTTAGTGTGTCCTCATGGAGTAATTAAACCTAAATTACTTACAGAAGATGAACTTAGAAATAATCCTAATATTAAATATAGACCTGTTCCAGGAAAAGATTTATATTTTGCAATGGAATTTAGTTATGAAGACTGTCTTGGATGTTCTCTTTGTTCATCAGTATGTCCTACTAAAGCAATAGAAATGAACTCTAAGAATGGATTTAATAGGGTAAATGAGAAGATTTCTAAAGTAACTAAGAAGAATGTATTTCCTAAATATTCTTCTATGCAAATAGCCTATAATAAGCCTTTATTTAAATATAGTGGAGCTTGTGCTGGATGCGGAGAAGCACCATATATTAAATTACTAACTCAAGTAGTAGGTGAAGGTATGGTTATTGCTAATGCTACTGGATGTTCTTCTATATATGGAGGATCATCTCCAACTAGTCCTTATAGTGTTTCTTGGGCTAATTCTTTATTTGAAGATAATGCTGAGTTTGGTCTTGGTATTAGAGTAGCAGAAGACATTAATAGAAAAAAGATTATTAAAATTATGAAAGATAATATGGATAATGTTTCTACTAAGAATAAAGAATTATTTAGAAGATATATAGATGATCCAAATAACTATAAAAATAGTGTAATTATAAAAGATAATATAGATTATGATGAAGTTAAAGAATTACTTCCATTAAAGGAATATATTCCAAATAAGAGTGTTTGGATTATTGGCGGAGATGGATGGAGTTATGATATTGGATTCTCTGGAATAGATCATGTAATAGCATCTAATGAGAATGTAAATATATTAGTATTAGATAATGAATTATATTCTAATACTGGAGGTCAAACATCTAAGTCATCTAATAAAGCATCTATTAGTAAATTTAGTTCTAAAGGAAAGAAAACAAGTAAAAAAGATCTTGCTAAAATATTTATGAACTATGATAATGTATATGTTGCACAAGTATGTTTAGGAGCTAATATAGAAAGTACTATAAGTGCATTTAAAGAAGCAAATGAACATAATGGACCATCTATTATCATTGCTTATGCTCCATGTATATTACATGGTATTAAGGGTGGTATGAAGAACTCTTTAGAAGAAGAAAAACTAATAGTTAAATCAGGATATTTTCCTATATTTAGATATAATAAATCTAAAAATGAATTTAAACTAGATTATAAAAACGTAGACTTTAATCTATATACTGAAGTATTAAAGAATGAAACTAGATATAAGATGATAGCAGAAGTAAATCCTAAGAATGCAAAAAGACTATTAATAGATAATATTAATAGTGCTAGAGAAAGATTTAATTATTATTTAGATTTAGAAAATAAATTAACCGAAGAGGTAATAGAGGACTAATTATGGAATATTATATTTATAAGACTTCTAGAGAAAAAGAAGATATTTTAAAAGAAATATATAACGTAAGAAGATTTATATATAATGATGATGATGTTTCTTGTTTAGATGGTAGAATTAAACTTATTCCTTTTTCAGAAGTACAAGAAGATAGAAGTTTAATAACATCTATTAAAAAGAATTATGGTGAGGTTATTACTCGTTTTGACCAAGGAATAACATATTTTAAATGTTATGATGATATAAAAGAAACTGCTATTAATTTTTTTAAAGAATCATTATTATTTAATATAATGTATTATAATTCAGGAGATAATAATTCTTTAGATTTTCCAATATTTTATAGTTATATATATTCATTAATAGAAAGTAAATATCTAGAAAAAAGTAGAAGTGATTCTTTTTCTAATTCTTTAGCAGAACTAGGTATATTTGCTTTTTCTACCGACTATGATAAGAATATTAATAATGATTTAGTTAATGCTGCATTATATAATAGAAATAGTATAAAAGATATATATGAAGATACTATGGGTAAGAATACTTATGATAGATTTAGTGATTTATGTAAAAAGTTTTCACTAGAATTAGATTATCCATCAAGTATGGAAGATAATCATTTTTATAGTATTATAGAAGCATTAAAGAAATTCTTTTACTTAAGAGTTGATAATATGAAACATCTTTCATTAAATGAAAGAAACTCTATGATTATTCAATTTAATGATGAATATAGTAAACTAGTAAATAAATTTGAAGAAGAAAAAGATGCATTTAGAAATCAAAAACCAATTCAGTTATAAAAAAAAGAAGACTTATGTCTTCTTTTTATTTTGTTAATTTTTCAGTTTCTAATGCAATCATTAATTCTTCATTAGTAGGAACTACCCAAACTTCAATAGCAGAATCATCAGATGAAATCTTTTCTTCTTCAGCTTTAATTTTATTCTTTTCTAAATCTAGTTTAACACCAAAGCAAGATAAGTATTTACAAATTTCTTCTCTTGAATAGTTTCCTCTTTCGCCAATACCACCAGCGAATGTGATTACATCACATCCTCCAAGTGCTACCATATAAGATGCTATATATTGAGCAACTTTATAATGGAATATATCTAAAGCAAGTTTAGCTTGAGTATTACCGCTAGCCATAGCTTCTTCTAAGTCTCTATCATCTGCACTAAGCATTGATATACCTTTTTTACCAGATTCTTTATTAATAATAACATTCATTTCTTCTGGAGTAAGATTTTCTTCTTTCATAATAAATGTTATAACTGATGGATCTATATCACCAGTTCTAGATCCCATTGGAATACCAGCAGCTGGAGTAAATCCCATAGATGTATCAACACATACACCTTTATCAATAGCACATAATGAAGCTCCTTGACCTAAGTGACAGTTAATAACTTTTAAATCATTATTTCCTTTAATTTCTGCAATTCTTTTTGAAACATATTCATGTGAAATACCATGAGCACCATATTTTCTAATACCATATTTTTCATAATATTCATATGGAATAGGGTATATGTATTGAGTTTCTTTCATTGTTTGATGGAAACCAGTATCAAAACATACTACTGATGGAGTTCCAGGAAGTATTTCATTAACAGCTTCAATACCAGCTATAGCAGCAGGATTATGAAGTGGTGCTAAATGAATAACATCCTTTAAACCATTAACTACTTCTTCAGTAACAAGTTGAGGTTTAATAAATTTGCTTCCACCATGAACTATTCTATGTCCAACAGCGTTTATTTCTTTTTCTCCCTTTAAAACAAGTTCATTTAACTTTTCAATAATGAACTCTAAAGCTTCAGTATGATTTTTAGCAGGATGTTCAAACTTTTCCTTATTACCGTCATACTTAATTCCTAAAAATGATTGTGCTTCATCACCAATTCTTTCAAAATTTCCAGATCCTAATACTTCTTTAGTATTTGTATCAATAACTTGGAACTTTAAAGAAGATGAACCAGCATTTAATACTAATATATTCATAATTTCCTCCTAATAACTCCCATATTTTAGCATATATTTACAACGTTTACAATAAATATGTAAAACTATTTATATTTATGTTATAATTATTAAAGGAAGTGATTTAAATGATTCAAAGACCAAAAGGTACATATGATGTATATGGTTCTTTAGCTAAAAAACAAGACTACGTAAAAAGAATGTTTGGAGCAGTTTGTGAAAGTTATAACTTTGGTTATATTGAAACTCCAATATTTGAAAGATCTGAATTATTCCATAGAGGTGTTGGTGAAACTACCGATATAGTTACTAAAGAAACATATGACTTTCAAGATAAAGGTGGAAGAGATATAACACTTAGACCAGAAGGAACTGCTTCTGTTGCTAGATGTGTTATTGAAGATAAATTATATACTGAACTACCTAGAAAGTTTTATTATATAGGTCAAATGTTTAGATATGAAAGACCTCAAAAAGGTAGATATAGAGAACTTAGACAAATGGGAGTAGAGTTATATGGTTCTTCTGAACCTATAGCAGATGCTGAAGTTATCTCACTAGGAAAGAATTTCTTAGATGAACTAGGAATTGAAACTAAAGTAATTATTAATTATCTTGGTGGAGTAGAAACTAGAAAGAAATATAGAGAAGCTTTAATAAAACACTTTGAAGCAAATATAGATGAATTTTGTGAAGACTGCAAGGAAAGACTTTATAAGAATCCTTTAAGAATACTTGATTGTAAAGTAGATAATAATAACTCTTTAATGGAAAGTGCTCCAAGTATATTAGATTACTTATCAGAAGAAGAATCTGAAAACTTTGTTAAGATTCAAGAATATCTAAGATATTTAAATATAGACTTTGAAGTAGATACAAGACTAGTTAGAGGACTTGATTATTATAATAATATAGTATTTGAATTTAAGACTTTAGATGATGAATTTGGATCTGTTGGAGCAGGTGGTAGATATGATGGGCTTACTGCTTCACTTGATGGTCCTAGCGTTCCATCTGTAGGATTTGCATTTGGTTTAGATAGACTTGTAGATGTAATGAATAGAGATAATATAGAAGTAGAAAATAGTAATATAGATTTATATATTATGAATGTTACTGAAAATGAATTAATGTATTCATATAATTTAGCACAAGATCTTAGAATGTGTGGTTTTAAAGTAGATATAGATTTATTAAATAAGAGTATGAAATCTAAATTTAAAGAGGTAGATAAATTAAATCCAAAATATTTAATTATTATTGGAGAAGAAGAAGTTAAATCTGGTATTCTTACAGTTAAAGATAATTTAACTAAAGAAGAACAAAAGATAGATTCTACTGAATTACTAGATTTTCTTAATGTAAACTTATAAAATCATAGATAAATAATCTATGATTTTTTTGTTATAATTATTTTAGAAGGTGAATTTATGAAAAAAATATTTAAAAGTTTAATTTTTATACTAATATTAACTTTATTTGTTACAGGATGTGGATCAACTATTAAAGAAGCTAAATGTGAAAGTTCTGCAGAATCTATAGCATTAAATTATTTAAAAACAAAATATAATATTGATGCTAATGTTATATCTACAAATGTTAAAATGAAGAATCAATCAACATTTTGGGATGGTACTCATATAGGTGGTGAACCTAGTGGAGAAGTTACAGTATATACAGAATATGATGGTAAATATATAGATGTAAAAGTTAACTGTTATGACAATACTGTTTTAGAAGATGATCTATATTCAGATTTTTCTTTAGATGATTATTCAAACTGTTATATGCTTGATGGAATTTATTTTTGTGATAAAGTATCAAGAAATTTAACTCCAAATATTGAAGTAACATCTATTAACTATAATGGAATGAATTTAGATTATGAAATAGAAAAAAATAATTCTAGACAATTACTTGGTACATATCAACTAGAACATACTTCAAATAGTAGTTCATATCTAATAATATTTATACCAGCATATAAATTAAATACTGATATGTTATCTAATACAAGAATACTTATGGATAAATATTATGAAATTAGTGGTAAATCTGAAATAGATGAAATTCAATTAGATTTAACTAAAGACAATAATTATTATGCTGGATATTATCAATTTGGTAGTGGAGTAACAACAACTACATTCACAGTAATTAAATAAAAAAAGAGAACTAATTAATAGTTCTCTTTTATTTTTGTCCCAATTGTTAAACTCATTATATCATATTTTTAAGGTAATTTCAAGAATTGACTTTTAGTGAAAATGAGCATTATAATTAAATTGGATATAGGAAACTGGGAAGTGTATTTAACCGACTAAATTATATATAAGGGAGCCGGGAATGATACATGGTGTGAATGCCCTTAACTTGGGAATCCTAAAGTGTATCACAGGGCACCCACCTGCACATACGTGTAGGTTTAACGTTGCCGGTTTCCTGTATTCATTTTTTATGGGGTAAATTATGTTTGATAGATTAATAGGATTAATAGGACAAGAAAAAGTTGATTTAATTAAAAGCAAGAAAGTTTTAATAGTTGGAGTAGGTGGTGTTGGAGGAATAGCTCTTGAAACACTTATTCGTAATGGTATAGAAAATATTATAGTAGTAGATAAAGATAGAATAGATAAAACTAATAAAAATAGACAAATAATTGCATTAGATTCTACTATCGATATGTATAAAGCTGAAGCTTTTAAAAATAGAATAGTAGACATTAACAAGAATGCTAAAGTAACTGTTATTAATGAGTTTTTAGATACATCTAATATAGATGAAATATTTAAATTAGACTTTGATTATGTAATAGATACATGTGATACAGTAGATACTAAAATATTACTTATTAAATACGCATTAAAACATAGTAAAAGAATAATTTCTTCTATGGGTATGGGTAATAAACTAGATATTACAAAAGTCTCTATAATGCCTATTAAAAAGACATCTTATGATCCTTTAGCTAAGGTTATTAGAAGAAAGCTTAGAGAAGAAGGAATAGAAGATAATATAATGGTAGTATCTTCTATTGAAGAAACTAAGAAAAGTGAAAAGATTTATTCTTATAGTCCTGTAACAAACTATGCTGGTTTATTAATAGCAGACTATATAATAAAAGACATAATAAAAGAAGATAACTAATTATCTTCTTTTTTATTTATCTTTTCTATTTTTTGATATATTTCATTTAATGACTTTTCATATTTACTAGTTAGTTTTGCTTTATAGTATTTTCTTCCTTCTAATTCTTTAGGCATATATTGTTGTTTAACATATGATCCTGGATAATCATGAGGATACTTATAAGTAGTACTAGTAATCTTAATAGTATCTGGTATTTCATAATTTAAACCTGATTCTGCATCCTTTAGAGCTTCATCTAATGCAACATGAGCAGAATTACTTTTTGGAGAAAGAGCCATTTCAGTAATAACTACAGATAGAGGTATTCTTCCTTCTGGCATACCAACTCTTTCGCATGCATTAATGGCAGCATCTACTTTAGGTCCAATAGATGGATTAGCTAGTCCTATATCTTCATAAGCTATAACTGTCATTCTTCTATAGATTGAGTCTAAATCACCAATAGTTATTAATCTTGCTAAATAATATAGAGCAGCATTAACATCTGATCCTCTAATAGATTTTTGAAAAGCAGATAATAAATCGTAATGACCAGATTCATCTGAATCAGATATTATTACTGGTTTATTATTTATTTTTTTAATTACATCTATTGTTATATTTTTATCTGAAGTAGAGTAGTAACATAGTTCTAATAAATTATAAGCATATCTTAAATCAAATGAAGATAGTTCTGCAATATATTCTATTGCATCTTTTTTAATCTTAATATCTTTTAGATATTCTGACTTAACTGCTTTATTTAATCCTTTAACTATATCTTCTTTTTTTAGAGTATTTAGTTTAAATATTTGACATCTACTTCTTATAGCAGGATTAATTCTAAAATATGGATTAGATGTTGTTAATCCTATTAAAACTATTAAACCTGATTCTAAGTGTGGTAGTAATAAATCTTGTTTATCTTTATTAAGTCTATGTATTTCATCCATTATAAGAATTAGACCATCATACATTTTAGCTTCTTCAACTACAACTTCTATATCTTTTTTATTACTAGTAACAGCATTTAAAAATCTATATTTATTTTTAGTGTTTTCTGCAATAACATTAGCAATACTTGTTTTGCCGGTACCAGGTTCACCATATAATATCATGGAAAAAACTTTACCGTTATGTACTAAATTGTATATAGGAGCATCTTTACTAGTTAAATGATCTTGACCAATAATATCATTTAGTTTAGTAGGTCTAAGTTTTATTGCTAGTGGTTTATCCATAATATCACTTCCTTTACTAATTATAACATATATGAATGTTAAATAGAAATATACTTAGTTTACATAATTCTTATAGTAATATATAATTATATTAGAGGATATATAAATATGGACATAGAAAAAGAGATATATGATTATATGAATTATCTTATAATTGAAAGACAACTAAGTTCTAATACAATAGATGCATATAAAAGAGATTTATATAGCTTTTTTAACTATGTTAATAAGGGTTATAAGAGTGTTAATAAGAATGATGTAATAAATTATATTACTAGTCTAGATATGAACCCTAAAAGCATTAATAGACATATAGTTACACTAAAAAATTATTTTAATTTTTTAGAAAAAAACTCTATGCTAAGTATTAATCCAATGGAGGACATACAAGGATTAAAAACTAAGAAAAGTATTCCAAGAGTATTATCAGAAGAGGATATAGATAAACTACTTGATATTGAACCTACTAATGCATTTGAGTTTAGAAATAAAGCTATGTTAGAACTCATGTATTCATCAGGTCTTAGAGTATCAGAACTATTAAATCTAAATGTAAATGATATAGATTTTGATATGAATATAGTTAGAATATTTGGTAAAGGATCTAAAGAAAGAATAATGCCTATTAATGAAATAGCAACTAGTTATTTATATGAATATATAAATGTATATAGAAAAACATTATTAAAAAATAAAATAAATGATATATTATTTTTAAATAGTAGAGGAGAATCTCTTAGTAGACAAGGTTTTTTTAAAATACTTAAAGAAATTGCAAGAGATAAAGGTATTACTAAAGAAATATCTCCTCATACATTAAGACATTCATTTGCAACACATTTATTAAATCATGGAGCAGATCTAAGAAGTATTCAAACTATGCTTGGCCATGAAAATATAGAGACTACTCAGATATATACTCATGTATCTAATAATATGGTTAAAGAAGAATATGAAAATGCTCATCCAAGGAGTAAAAAGGAGTAAATTATGTATAAAGAAAATTTTGAAAAATGGTTAGAATTTATTTCAACAGAAGATAAAGAAATAATGCTAAATATGTCAGAAGAAGAAAAGAAAGATTGTTTTGAGAAAACATTATCTTTTGGTACTGCTGGTATAAGAGGGATAATGGGTATTGGTACTAATAGACTAAATATTTATAATATTGGTATGATTATGAAAGGTTATGCCTCATATTTACTTAATAAGAGTGAAAAACCTACTATTGTAATCGGTTATGATACAAGAAATAATTCTTATAAATTTGCAATGGAATGCGCTTTAGTACTTAATTATGAAGGTATTAAAACATATTTATTTAATGATATAGCTAGTACTCCAATAGTTTCTTATGCAGTTAAACATTTAAATTTAGATGGTGGCATAGTTATTACTTCATCTCATAATGAATATATTTATAATGGGCTTAAAATATATAACTTATTTGGAGGCCAATTAACCACATTAGAATCGAGTGAAGTGTCTAAATATATAAATGATGTAACTGATTATAAAAGTGTTAAAAAAGCCCCTCAAAACAATGAATTATTTGGTTATTTAGATGAAATTATATATGATGAATTTGATAAAGAAAATGAAAAGGTATTTATTAATAAAGATTTATTAGAGTATGCTAAAGATTTAAAAGTAACTTATACTTCTTTACATGGAACTGGTATTAATGTAGTTCCTAATATATTAGAAAAATATAATATTAAATATAATCTAGTAGGAGAACAATGTGTAATAGATTCTATGTTTACCTATGCTCCTAAGCCAAATCCTGAAATTATAGATGTATGGAATTTACCAATAGAATATGCTAAAAAGAATAATAGTGATGTAATTATAGCTACTGATCCTGATTCTGATAGAATAGGTATAATGTATAAAGAAGATAATGAATATATATTGCTTAATGGTAATATGACAGGAATTATATTTTTATATTATTTAATTAATAATACTAATTATTTTAAGAAATATGTAGTAAGAAGTATTGTTACTACTGATTTGGTAAATAAAATATGTAGGGAACATAGAATTAGAGTAAAAGAAGTTCTTACTGGTTGTAAAAATATAGCAAATTTAAAGATAACAGATAGTGATAATTATTTGTTTGGATTTGAAGAATCTTTAGGTTATATGTTTAATATAGACGTTAATGATAAGAATGCATTTTCATCTATTAATATGTTATTAGAAATATTATGCTATTTAAAGAAAAATAATATGAATTTAAATGATTATATAAATGAAATATTTACTAAATACGGATATTATTTATTTAAAACTATAGATATTAAACCAAAAGATAAAGATTTGTTTATGGATAGACTTAGATCTGATAATCTAATTATATGTGAAAAGAAAATAGATTATTTAAAAGAGGAAGAAAATATTACTAATGCATTAAAGTTTATTATTAATGATAATGAATACTTTATGATGAGGCCATCAGGAACAGAAAATAAAATAAAAGTATATTATTTTGTTAATGATAGTACTAAAGAATTATCTGAAAATAGATTAAATAATTTAATTAATAATACAAATAATATATTTGACAAAATAATATAATAAAGTATAATAAATACAATTTACTTTGGGGGTATAATTATGTATCAATTTCCAAAAGATAGATACCATGATATGGATAAACAAAGAACATTAAGTTTAATATCTACATCTGATATAGATATTCCAATAGAACGTTCTGATTATAGTTATTTTGTAGCAAATAAAACTTTTTTAAGTCTTATTAGAAAATTTGAAGATGAAGTATGTGATATATATACAGAATGTGAATTAAAAGAAAGATTTAGAAAAAAATTAAGACTACATATTTTACCAAATTATAGTAAAGAATCATCTCATAGCGAAAATTATTGTTTAGTTTATTCTCCAAAAGAGATAATTGATAATATATTTGATATATTAGATATTGATGCTAAAACATTAATTGGTAAACATATAGATTATAATTCTTCTTTGGAAGAATACTATGAAGCAGAAAAACATGTTAAAAATGTGCTTTCTTCTGTTATAGGTTATTTAGATACTAATAAAACAATGCTTGAATATGAAGTATCTACTGTTACAAGTGATTCAATGTATTTTCAATTACAAAATAGAATAGATATCATAGAAGAAAAATTAAAGTTTGCTAGAATGTCTTTAGATGGTTTAGATAAAATATTTACTCTTTATCGTGATAGAAGACTTACTGACGTTAAATATTATGATGGTAAAGATAGTTATATTGTATGGAGAAATCTAGCTCAATATATTGCTATAACTTCTTTAAGAAAATATGAAAAAACAGGTAATTTAGATTATTTAGAGTATCCTTATAAATTCTATGAAAAATGTTCTAAACCAACTCCTGAGGGATATCAAATGAAATATGTATCTAGTTTATTATTAGAAGACGATAAATTAGATTCTACATTTGTTAGATATAACGGTTTATGTGGGGAAACATTTACTAAGAAACCTGAAATAGTAGAATTCTTATTAAATCATAAAGATAATGATAAAACTAAAGTATTTGTAACTATTAAACCTAGTAAAGAAATGCTTTCTTCTGATGATTTTGGTTCTTATTTAGAACTTAAAACTAAAGATTATTTTAGTAGAGTAGGGAAGCTTTCAGTAGAGGATTTAAATACTCAAAAACAATTAATATCTAAAATTAAATTTTATGCATATAATGAAGATTTTAATAGTCATTTAAAGACAAGAGTTTTTAGTTCAGATAATGAAACTGGTGTTGTTGGATTTGTTTTAGATAATGACTATATAGTATTAGAAAAATTCTTTGATGAAGATAAAAATGGATATTCTATTCCATCTAAGGACTCAGCAATATATATATTACCATTAGACATGTATTATTATGGTTTTGATTGTGATTCATTAAAAGTTAGAAAACATAAAAGAGATTATCCAGAAGATATAAGAATTCAAAGAAAATATCATAAATATGGTGATTTATATCAAGATGCTGTATTAGATATATTTAAATATGGATCTATATCTAGTTTAAGTGCAGATGATTTTATTAAATTACGTAAACAAAATTTAGTATCTATTGTAGATAGTAAAAATCTAAAGAAAAAGCCTAATAAAAAAGATTAATTTAATTGACAAATTAGTCTTTTTTATTATATAATAATATCTTCATTAGAGAAGAGTGGGGGAAGTTTTATGAATAAACTATTTAGAAAAAGTGCAACAATTACTACTTCAAATAATGATAAATACGTGATTGAATCAGGTAGATATTTTATAATGCCTAAAAGAAGTAAAAATCGTAGAATTAAACATAAATATGGTAATGCATATACTATTACTAAAGTAGAATCTACTGATGAAACATTAAAACCAAATGATATTAGTTTTATTGGAGAAATCTATTCATTTGAGAATAATAGATTAAGATTCTTAGAAAATACATATAAAGATGTACATGCATTTGATACAGAATTACATGATAATGGTAAAGAATTACCTATTACTGTAATAGAAACATATGGTGATAGAACTCAAACTATTTCTAGTATTGGTGATATTATTAAGTTTGATAGTGATATAAAAGAACAATCATATGCATTAGATATAAAAGTATTAAGATTATTATTAAAAGCTAAAAAGGATAAAGAGGGTAGTAAAAAAGATCTATAATTAATAGATCTTTTTATTTTAGATTTATACTAGTTAACATAATAATTATTATATGAAATTATATGTTATATATTTCTAGATTGAATTTCAGCCATCTTTTCATATACTTCTGTACTATTTTCTTGTGTTATTTCAGAGTATCCAAGTTCTTTTAAAGCTTGTTCTTGAGCTGATACTAACTCTTGTGTTCTAGATAGTATTTCTTCATGTTTTTCTTTTATTTCGTCTTCAAACTTCTTATGTACTTCAATTAACTTATTTCTAGAGGCACTCTTAGATTGATACATAACCATAGCTGAATATAGTATTGATTCAAATGCAAATTGTTCGTCTTCATTGAATACATATTCATTAGCATTAATAAATCCTGTAGTCTTAGCTACATATGCTAATAAATAATTAATTGTATCATTATTATCAGAAACTTCTAGGAAATAATATAAATATCTAAGCATATTTCTGCCATTAATTTCATCATCATCAATCTTTTCCTTAAGTAGGCTAATAATATCATTTAATAGTTTTTGATCATTATTATTAAGGTCATTAAATGATATCCTCCCCTTCTCTTGTAAAGTAGAGAAGTAAGTAGAATCATTAATTAAATTATTAGCATGTTTAATAAAATCTGAATCTACTTCTATAGAATCTATTTCATCTTGAGATTTAATATTTAATAAATTAAATAATTTCATTTTTTTCTCAAGTGGCCAATCACTTACACTATCCATTTCTAAATAGTTATATACCATTTGTCTAGATACTCCAAGGTATTTAGCTAGTTTTACTTTACTTACCCCTATCTCTGATAATATTTCATTTAGTCTGTCCATTTACATACCCTCCTATTATTAATTTCATTTTACACTAGTAAAGTGTAAATGTCAAGTAAAAGTAAATAAAAAAGAATACTATAATAAGTATTCTAATTTTTTCCCATCTTTTCTAACTTCTTTTATAATTCCACCAATGATACATTCATCTCCATCATATATAACACAAGCTTGACCTGGAGTTACTGATTTTACGTTGTCGTAAAATACTTCAATATTACCATCTTCTAAGTACTCTATAGTAACAGGTATATCTTTTTGTCTATATCTAAATTTGGCGTTTGCAGATGTAGGTCTCTTGCCTGATAAATAGTTTATATCTTCAACTATACATGATGTAGATTGTAGATATTTAGTATCGTCTCCTAAAGATACATATAATACGTTTTTATCTAAGTTTTTACCAACAACATATAATCTTTTATCATTACCACCAATATCTAGTCCTCTTCTTTGACCAATAGTGTAGTACATAAGTCCTATATGCTCCCCTACTTTTTCATTAGTATCTATATCAATGATGTCTCCTGGAGTATTTGGTAAATAATTAGTTAAAAATTCTTTAAAATTTCTTTCACCGATAAAACATATACCAGTAGAATCTTTTTTATCTGCTACTGATAGATTTAATTCTTCAGCTATCTTTCTTACTTCTTCTTTCTTTAAGTCCCCTACTGGAAATAATACATTAGAGAACTTATCAATTGATACTTGAGATAAGAAATATGATTGATCTTTATTGTCATCAATACCTTTATATAAATGACCATCAATCATTCTAGCATAGTGACCAGTAGCTATATAATCTGCTCCTAGTTTATCAGCTTCTTTTTTAAACATATCAAATTTAATATATTTGTTACACATAATATCTGGATTAGGAGTTCTACCTTTTTTTAGTTCATCTAAAAAGTAAGTAAATACATAGTCCCAATATTCTTTTACAAAGTCTATTCTATGAAGTTTAATACCTAGTTTATTACATACATCTTGAGCATCATTAAAATCTTGCTCCTGAGTACATATATCACCATTTAAACTTGGATTACCTTTAATATCATTATTAACAGATGAATCCCAGTTTCTCATAAATAGACCTTCTACATCATATCCTTCTTTTTGAAGTAGATATGCTGCTACTATTGAGTCTACACCACCAGATATACCAACTATAACCTTTTTCATCTTTTTCACCACCAAAACTGCATAGTATTATACTATTTTTATAATTATTGTGCAATAGGCATACTTATAAATGGAGTTGGATGATAATTCTTAAGTACTAATTCTTTATTTCCAATTGGGTTTTCTTCTAAATATGGATCACCCTTTTTAACATAATCAGTAGAATAATCAAAGAAACTATCATGTTCTGCAAGTTCTAATACTGGAGTTTCTCTAGTAAGCATATGTTCAAAGCTTAGTTTTCTTTCAAATGTTTCTTCATATTCTTTAGCTAAATCAGGAGTAACCTTTTTGATTTCCTTTACTTGTTCTACCATTTTTTTCTCAACAATATCTTCTCCAAATAAAGCTTTTATTTGTTTAATTTCCTTTTGGTAATTATCTATTAAGATATTATATTCTTTTTCAATTGCTTCATCACTTCTTTTTTGAATTAAATCTGAGTAATAACGCATATATTTATATCTTTGTAATTGTTTTTTAATACCTTCTAATTGGTTAACATATATATGTGTATCTTGGATATTCCATGCCATAGTTCCAACTTCATATCCATTTGCTTTTGCAAACATACATTGTATTAATGCATATTGTGGAATATTAAATGGAACTCCTAGAGGAACATCAGCACTTCTTTGAGTAACATTTGAATGAAGTTTTCTATCTGGCGTAGTCTTAAATATATCTAAGAAAACACAGCTTGGTAATACTGCCTTTGGTAAATGTGCATTTTGCCATAAGTTTATTATCATTCTTCTATCTGTTGGATTATTCTTAAGTCTATATTCAACACATTGAGGCATTTTATATAGATTATTTATAAAACCATATGCTTCTCCTATAGTACCAGCATATTCTTTTCCAAAATAGATAGCTTCTCTAATTGTTAATCTTTTTCCTTTTTCATCAACCTCAGTAAATGGTTTAACAAGTATTTCACTACCATTTTCATCTAAATATGGAACTTTAATAATTTCACCAGTTTTAGGATCAAATTCTTGTTTTTTACAAATAACTTTTCTATCAGGATCATCTATTGCATTTTCACCTTGTTCATAAATTCTATAGATACCATCTTCATCTACAACCCATTGATTCCATACTGGATTATCTCTATCCTTTAACCATTGTACTTCATTTGATTGAACTTGATGTATCCATTGAATTTCTGAAGCAAAGTTTTTAGCATTTACCTTTTTTGTTTCCATTATTGGAAACCCTTTAGATAAATCAAAAATATGTTGCCAGTTAGCAATTGCTATTGTATCAATACCAGTTCTATTGTTAGTTCTTACACCATTATCTAAAATATATTGTAATAACTCACAATAAGCAGTATCTACTTCAGATATAACTGCATTTTTCCTATTTATTCTTATTTCTTGTCCGTTAATTTTCATAACCTAACCTCCCTACTATTTCATTATAACATATTATTTTTATAAAAACTAAAATAATTGTTATTTCCCATAATAATATGATCTAATATGGGTATTCCATTAAGTTTTCCTATTTCTTTTAGGTTATTTGTAAGAGAAATATCTTCTTTTGACGGAAGAGTGTCTCCTGAGGGATGATTATGAACTAGTATAATAGATGAACTAGAATATAAATAAGCATATTTAAATATTTCTCTTGGATGTACGGTAGAATAGTTTATAGTACCAATAAATAGTATTTTCTTTTCTATTAAATATTTTTTATTATCTAGATAAAGTGCTACAAAGTACTCTTGCTTTTTATTAATTAGATCCTCTTTAAGGTAATCATATACTAACTTTGAATCATTTAATAATACTTTAATAGAATTATTCTCTTTATATACTCTTCTACCTAGTTCTATAGCTGCGAGTAAAGTAATAGCCTTTACTTCCCCTATTCCATTTATTTTAGTTAGATTATTTATAGAAATATTTTTTAAATCTGTAATGTTATTTATACTTTTTAAAATATTATAAGAAAGAGACATAACAGATTCATTTTTAGTACCATTTTTAAGCACTATAGAGAGTAATTCTTCATTAGATAGATTAATTACACCATATTTAAGTAATCTTTCTCTAGGCCTATCTAAAATGGGGATGTCTTTTACTAATATATTATTCATAATTATATTATTATCTGTTTATTTATAAATTCCATTAAAAAAGAAGAAAATTAAATATTTTCTTCTTCTATTATATCTTGCATATTATATACTACATCAAATATAGAAACTTCTTTAACTTCATCAGAATTTCTTCTTTTCATTTCTACTATATGATCTACTATTTTCTTACCAATAGTAATTCTAATTGGAATACCAATTAAATCCATATCATTAAATTTAACACCAGGTCTAACATCTCTATCATCTAAGATAGTTTCTATGCCTAAATCTGTTAATTCTTGATATAAATGATTAGCAGCATCCATTTGATCTACATTTAATGTATCTATGACTACTATAGCTACTTTATATGGAGCTATATTCATAGGCCATATAATACCATTTTCATCATTTCTTTGTTCTACTATAGATGCAAGGCATCTACCAACACCTATACCATAACAACCCATTACTACAGGTTTTAAATTATTTTCACTATCTTGATACATTAAATCTAAGCTTTCAGAGTATTTTGTACCAAGCTTAAATGTATTACCTATTTCTATACCTTTTTTAAATGTTAATTTACCTTCACATTTAGGACATACATCTGATTCTTTAACATTTCTAATGTCTCCTGTAATAGCTACTTCAAAATCACTTAAATTAACATTCTTATAGTGATAATCTTTCTTATTAGCTCCTACTACAAAGTTAACCATATTAGTTACTTCATTATCTAGTATTACAGGAACTTTTAATCCTATAGGTCCAACAAAACCTATAAATGTATTTAATTTCTTTTCTACTACTTCTTTTTCTGCTAGTTCTACTGACTTAGTATTAAGTAACTTACATAATTTACTTTCATTTACTACTGAATCTTCTTTAAGCATAACAGCATAATATTTATCTTCTTCTGTTTTATATATTAGTGTTTTAACTTCTTTAGTTTTAGCTTCTGGAAGACATTCTATTAACTTTTCTCTAGTAGTTGCATCCTTAGTTAATACTAAATCTTTTTCTAATGGAGTTTCATTAGATCTATCTTCTACATGTATACATTCACATACATCCATATTAGATGCAAAATCACATCTATCACAAAGAACTAATGTATCTTCTCCTATATCAGTTATTGCTTGGAATTCTTCTGATAAAGATCCTCCCATAGTACCTACATCAGATCTAACTATTTTATAATCAATACCTAGCCTTCCAAATATTTTCTTATATGCATTAAACATAGCAGTATAACTCTTATCAAGTGATTCTTCATCTTTATCAAATGAATATGCATCTTTCATTAAAAATTCTCTTACTCTAATAAGTCCATATCTAGGTCTTGGTTCATCTCTAAATTTAGTCTGTATTTGATATAAAGTAAATGGTAAATCTGTATAAGAATTAACTTTTGCTTTAGCTGCTATAGTAAATAATTCTTCATGAGTTGGTCCTAAACAATAATTCTTATCAAATCTATCATTTAATCTAAACATATCTTTACCAAAAGCATCTAATCTATTACTTTTAGCATAATAATCAGCTTGTATTAAAGCTGGCATTAATAATTCAGATGCACCGGCATTATTCATTTCTTCTCTTATTATTTTTTGAATATTATCTAGTACTTTATATCCCATAGGTAAAAACATATATATACCAGATGATGTTTTTTTTAGCATGCCTGCTCTAACTAATAAGTTACCAGATACACTATCTTCATCTTTAATATTCTCTCTAATTGTAAAGAAATAACTATTTTTTAATTTCATTAATAAATCACTTCCATGTAAAAATTATATCAAATATATATATTTAATTCAAATAAAAAAGAATAAGCATTACTTATTCTTTTTAGATTTATATACTTCATTAATTACTACATATATTATTAAAGCTAATCCAATTAATAATACTGCAATTATTAAAGCCAAGTTATTAAATAATCTAAATAATTCAAATACTATTATTACGAAGATATATATAATACCAAATGTAATCATATATTGATATTTTTTAATTAGACCTATAAATACATAAGTTAATGCTAATCCTAAAGAAACTATAATACCTATAGTAGTAGTATTAATAGCTATCATTGAGAATAATATTAAAGGCCATATAATTACATGCATTCTTGTATCATATTTCATCTTAAAGAAGAATGCTAATGTAAATAGATATATTATTGCAGGTAATATAACTAATTGGTTACCAATACCTGTATAATAATTACATACAAAATCATAATATGGTATTAAACATGCAGTAGATAGAATTATTATAGTTCCACCTTTTTCTTTACCTGTTAGTCCAAGTATTACTAATATTACCATATATATGAATAATGTAATAATTGAACTAAATAATGTAATATTAACAAATGAATTAACTATATTATATATAAGTATTAATCCAACAACTTCTGCAATTATTCTAAATGCTTTGTAGTTATTATATAAGCATATAGAAGTAAAGTTAACCATAAATAGTATTGCAATTAAAAGTATTACAATAACTTGAGTATATGGTGATATAAATATTGATAATAGAAGTGCTAATATTTGTCCAAAGAATAAGTAGAATTTACTTAAACCTTTACTTAATTCCTTAACTATTATACCTACTGATATAGCAATTAGAGAAATACAAGCAAATACAATTCTTATATCTATTTCTAATATATAATTGATTTTTAATAATGAGAATGCAAGTATTATAAATGTTGTTATATTTATACCTATACTCTTTTCCATAAATGAAACAAATATAAATAATAATATTAATAATACATTTAGGAATAATACATATATAGCACTAGTTCCATATACACACATAAGCATAGATAATATTAATGCTCCAAGTGTATATCCATAATATATTTTATTTACTTTACTATTAACTGTTCTAGTGATCATATACACTACTAAGTATATAGATGAAACTAATAACATTATAAATATTCCGGATATATCTACTAAGAAATTAACTAATCCTATTACCATAAATAAACAAGATAGTGGAATTAGTATATCACTCATTAATCTAAATTTCTCTGTGAATCTATTAATTATATTGAACACTAGTATTCCTGCACTTATAATTGCAAGCATTAAATACATATTTAGATCTATAACACATACAAACGCTACTAATAATGCAATATATAATGATGTATATGCAATTATTTTAAATGATATTTTCAAGTATTTATTCTTAAATAATAAATATAATACATATACTGCAATTATTGAAATTACAAATAAACCTGCAAATAGATTTTCATTTTGAATAGTAACATCTAATACAGCAAGTATTACAGGTACCATAACATATGGCGAAAAATATGTATAGAATGATTTTCTGTTTTGATATATAAATACAAATGCATTTACAAAGAATAGAACTACTATAAGAATTAAATATATATTAAATGTATAGCTTAATTGGAATTCACTTAGAATACCTATAGGTAAATATAAACTTATTGCAGAGAATAATATACTTGTAAAGAATGTAATTGATTTTTTAAAGTAATTATTCTTATGATTAATAAAGTTGATTATTATTACTAATAATACATATACTAAACTAGCAAGTAAGAAGAATGTAATACTCTTTTCAAATGCTAAGAATACATTAACTAAGAATGCATATATAAATAAATATGAAATATATGCGAATGGTTTAAATTTAAGTAAGAAATAAGACATTAAATAGATACCAGCACATATTGCATTTGATATTGCTAAATATACAAATATACCTGCTCCTTTATATGATAAATAATCACCAAGTAAATTATATACTGGTATAGTATATAAAATAATTGGAATCATTAATACTGCCATCATATAAAATGCTTTAGATAATCCATTATTCTTTATTTTTGCAAATGTAAATGAAATTATAAAGAATAACAATGATTCAAATGTTAAAAATGATATTTTAAATAATCCTGTCATATTTTCCCATGTACATATAGCAAATATAAATGTTGCTAGTATTACAAGAGATACACCAACATATAATATTAGATTATTAACATTAATCTCTTTCTTTTCTACAACTTTTGGTTCTTCTTTTTTAGTAGTTTTAACTACATTTTTTTTAATTTCTTTACCACAATTAGTACAGAAATTACTATTTTGTTTAATCTTATTACCACATTCAGTGCAATAATTCATATTTATCCCTACTTTCACTCATAATTATAACATAATTAAAAAGAAAAAACTAGAAGATTATTTTAATAATTCTTCTAGTTTATTTTTTTCTTCTTGAAGTTTAATCCTATCCATTTCTACAATATTAGCAGGTGCTTTATTAATATAGTTTTCATTAGATAATAGTTTTTCTCTTCTTTCTATAGATGCTTTTAAATCTTCTATTTGTTTTTGTTTATTTTCTATATCTTCGCTAGTTTCTTCTTTTTCAAAGTATATAGTAGCTTTAATATTATTACTATTTACTGGATATGATTTAATATTTAATGGTTCATTTATTAAGTTTTCATTTAGTCTTAATACTTTTATTACTAAATCATTATAGATACTATCTTCAAATAATATTTTAAGATCTTTTGTCATATTATTTTCTTGTTTAATATTTCTAAATTTCTTCATAAAATCTATTTGATCATCTACCATTAATTCTTCATCATTAAATAATAATTTCTTATCATATTCTGGATATGAAGAAATCATAATACTTTCTGTATCTTTTACAGGAATCATTTGATATATTTCTTCAGTAACAAATGGCATAAAAGGATGAAGCATCTTCATTATACCTGTTAATATATAACATAAAGTACTCTTAGTAGATTCATTATCTATAGAATATTTAGCCATTTCTATATAATAATCGCAGAAATAATTCCATGTGAATTCATATATTTCTGTACCTGCTAAATTAAATTCATATTTATCCATGTGTTTAGTAACACTTTTTAATGTATTTTCATACTTAGTAAGAATCCATTTATCGATTGATGATAAATTATCTAATTTAATCTCTTTTAGGTCTTCTATGTTCATTAAAACGAATCTAGAAGCATTCCATACTTTATTTATAAAATTCCATGTAGCAGTTAATTTTATTTCACTAAAGTTAAGATCTAATCCCATAGATCCTTCAGTAGTTAAATAATATCTAAGAGAATCTGCTCCATACTTATCTATCATTTCAAATGGATCTACTGTATTTCCTAAAGATTTACTCATTTTGGTACCGTGTTCATCTCTAATTAGTCCATGAATAACACAATCTTTAAATGGTCTATAACCAGTTAAATATTCTGATTGGAAAGCCATTCTGGCAACCCAGAAGAATATAATATCATAACCAGTAACTAAACAATCAGTTGGGAAATATCTTTCTAAGTCTTTAGTATTATTTGGCCAACCTAGTGTAGAAAATGGCCATAATGCAGATGAGAACCAAGTATCAAGTACATCTTCATCTTGAATCCATTCTTCTCCTTCTGGAGCTTCCATTCCTACATATATTTCATCACCCTTGTACCAAGCAGGTATTCTATGACCCCACCAAAGTTGTCTAGATATACACCAGTCATAAGATATATTCATCCAGTGTCTAAGTATCTTTTCAAATCTCTTTGGTACAAAGTTTATTTTTTTATCTTTATCATCTTGGAATTTTAATACATTTTCAGCTAGTGGTGCCATCTTAACAAACCATTGCTTTTTAACCATTGGTTCAACCATAACACCTGTTCTTTGAGAGTGACCTACTTCATGTACTAGAGGTTCAACTTCTAGAAGTAATCCTTGTTCTTTTAAGTCTTTTAATACTTCTTCTCTGCATTCCTCTCTAGTCATTCCTTGATACTTTTCTGGAACATTTTCATTCATAGTAGCATCATCATTCATTATGATAATTCTCTCTAAACTATGTCTGTTTCCTACTTCAAAGTCGTTAGGATCATGAGCAGGTGTAATTTTAACACAACCAGTACCCTTTTCCATATCAGCATGTTCATCTGTTATAACTGGTATAGGTTTATTCATAATTGGAAGAATAACATTCTTACCAACAAAATCTTTATATCTTTCATCTTTTTCATTAACTGCAACAGCTGTATCACCAAATAATGTTTCTGGTCTAGTTGTAGCTACATCTAAGTATTTATCAGAACCTTCTAATTGATATTTTAAATGATAGAAAGCACTCTTTTCTTCTGAGTATTCTACTTCTTCATTAGAAAGTGCTGTTTTAGCAGCAGGATCCCAGTTAATTATCTTTTCACCTTTATAAATTAAACCTTTATTATAATAGTCTACGAATACTTTTCTAACTGCATAATTAAGGTCTTCATCTAATGTAAATCTTTCTCTAGAATAGTCTACTGATAAACCTAAACCAGCCCATTGATTTCTAATATTGTCTCCATATTCATGAGTCCAGTCCCAACAAGCTTCTAGGAAGTTTTCTCTTCCAAACTCATATTTATCAATACCCATATCTTTTAGTTTCTTAACTACTTTAGCTTCTGTTGCTATTGCTGCATGATCCATACCAGGAAGCCATAAAGCATCAAAACCTTTCATTCTTTTATATCTTATAATTGCATCTTGTATTGAAGTATCATAAGCATGTCCAATATGTAATTTACCTGTTACATTTGGAGGTGGTATAACTATACAATACGCTGGTTTCTTTGATTCATTATCTGCTTTAAAGTAACCATTTTCTTTCCATAAGTTATATTTATCTTTTTCTACTTCTAAATGATTATATTTCTTATCTAACATTTTTATTCTCCTTTCTAATAACCTATTGATTTATTACCAATAGTTTCTAATTCTTTTCTTATTGGTTCATATTCAGCATCTATAACTGAATTTATATTAGAACTAATTTCTTTCATTTTAACTAAATTATTACTTGGATTTAATAAATCTACTAGCATTGGATATAATTTATCTCCAAACGCTAATAATTTATAATAAGTTTCACCAAGTATAGCATCTACTCTTGTATTATCATGATATATTTCTGCTTCTTTTAATACTTCATGTAAATTTGGAATATTATATGATAATACATTATTTGCTAAACTTCTCATTAATTGATATCCCTTAGTAGTAAATGGTTTACCTATTAATTCTGAAGTAATTTGTTCTTCTGCAACAGCATTAAAACCTTCTTCTAAACCAACTCCTGTTTCAAAGCAAACAGTTCTTTTAACAACACCATTAACTTCATTTAATTGGAAAGTCTTACTAATAAAACCAGATTTTTCTATTAAAGTGTCTTCTCTAATAGTATGTTCTCCATTATATGATTTTATTAAATGACATATTTCATGAATTAAAGTAGCTTTAACTGTATCTAATTCTAAAGATGATGCATTAATAGCAATTATTCTATTAGTATTTTCTAATTCATATTTATCTCTTGCTTTATCATATTTTATAACTGGTTCACAATGATATGCTCCAGAACAAAATTTTAATGTTTCTAAAGATACCATTTCGTTATTTGTTGGAGTATCTCTCAAGAAACCATTATCAATTAAGCAATCATATACATTATTTGTTAATTTTATTGGAGTACTCATAAGAGATTCATATACTATTTCTTCATTATTATAATATTTAACTAGTAATGGATATACACTTCTAATAAAATTAGATAATTCTTCATTATATCCATGTTTTTGTATAATGTTTTCTATATCCATTAAATACACCCCTCATTTACATATTCATTACATATATCTCTTAATTCTTTGACTCGTTCATCATCAAATTTATTTAAAACTAAATCAAACTTCTTATTAATTAAATCTTGTTCTTTTATTATTTTAAATGATTTTTGAAAATTTAAATCAAAGATAAACGCTATTAATCTAAGTAAGCAATGAAATGTTGAATTTTCTATAACATATTCATTCTTTAATTGTTTGTGTTCTTTAAAACAATTAATAATATCATCTGTTAATATTAGTTCTTTATCAGAACATTCTATTTTATGATCTACAATAATAGCTATTTTATCAGCATCCCTAGTTATATTACAGAATAATTTAGTTCTATCATCTAATGAATCATCTATTTTATATTTATTATGATAGTATGTACTTTTTTCAATAATATCATTTTTAATACCTAATTCTTTTAATATTATAGTACCTTCTTTACCATGATCAAATGAATGATAATCATTAAATGTCTTATATTCTTTCCATTGATTAAATCTAGCTATATCATGCCATAAAGCACATCTAGAAGCTAAATCTATATCTTCTTCTGATAGATTTAAACTCTTTGCTATTTCTTTTGCATAATCTATAACTTTAAATGTATGATCATATTTCATATAAGTACCATATTCACTATTATTATATTTTTCATAATATTCATTAAATATTTTTAAATCTTCTTTCATAAATACTCCTTTAAACAAAAAAGACTAGTCATCCAAAAGGACGATCTAGTCGTGGTACCACCTTAATTCGTTATATTACTATAACCTCTAACCTATAACGTTGGTAACGTATTAATTTACTATAATTCAACTAATAAGCTCCTAAGCTACCTTCAATTACTTTTTATTAAGAAAAGCTTTCAGCCGGTGACTTTTCATCTCTTGTAATTACTAAGTAATTTACTCCTCTTATTCATCGCTTTTTCTAATGGTATTATATCATTCATTTGATGCATTTTCAACTTCTTTTTGTTTTTCTTCTTCAAGTAATTTTTCGTTTTCTTCCTCTATTTTCTTTAGAGTATTATTCTTAATTACTTCATTTGTTTCATCTTTTAATTCTTTTAATATATTTTCTTTACCATCTATATAGTATTCAAAATCTCTATCATTTACTTTAACAAATCTATTAGATTTAATAATATGCCCTGTTTCATTTGGCCCTAATAAAAATTGATTTTCTTCTTTAGACATGTCGATATAATATACTTTATATTCATTTTCAATTAATGTTTTAAAGAAAGTATAATACTCACTTTCATCTTTTTTCTTAAATATTAATACATAATAGATTCCATCATCTATTTTATATATATCATGCCCATTTATTTCATTAAAGTCTTCTAATTTATTAATATTGGTCTTCTTATATGTAATATATGTTTGTTTATACATACCCATTTTTATATTAAAAATATTATAACCTTTTACATATAATACTAAGATAACTACTAATAATAGAATTACTACTAATTGTAAAATATACAAGTTAGTTATATTAAATATTTTTCTTAATATAGGATGTTTAATTACTTTTTCTTCAGGTTCTGATTTAATTTCAGGTACTACTACTTCTTCTTTTCTAAAGAATTCATCTATTAAACAATTTAAACTCTTTTGTTTATTAAATACATCATAGTATTTAGTTATATCACTATAACTAATTAGAGGATCATCATTAGTTCTTCCTCCAATAATACCTAGATTATCTTCATAAACATCAGTTATATATTTATCTAAACCATTATTCTTTAATAAATAGTCTGTTGCAAAGTCTCTAACTATTTCGTTATATTCTTTTTTTGCTTTAAATTTAAATAAATAATACGGATTTCCATTTCTATCTATTTGTTTATAGAACTTAATTGATTTAGGTTCTCTTTCATAGTTATATATAGATGAATACATATTATAGAAATCTGATTCTGCTATTGATATTTCATCTTTATACTTTTTAGGCATAACATCAGATTTATTATAATAAATTAATAAATTATATAATAAAGATCTACTTCTTAAATCTTTAGCTATTGGGTTAAGATTTAATTTCTTAATACTCTTTTTCTTTTTAATGTATGATTCTAAAACAAATAATTTTAATTGATTATCTTTATGTTTGAATAATTTTTCTAAATATGTTTTTGTTTTAGGATTATTACAATAAAATTCTATATTTAAAGTACTTTCTACTACATATCTAAGACCTAAATACTCTTTATTAAGCATTATGTCTTCTCCAGGCATAAACTTAAATTTTAATAGTTCTTCTATAGGCATAGATATATGTTTAATTAAGTCTTTTTTATGTTTTTTTAGATCATCTATTGGAACTATTCCTAAATTAATAAAATTATTTAATAAAATTATTAATGAATATTTTTTATTATCAGATTTGAATGCATCATATAAATCAGGATATAATACATCATAATTATCTTTGTTATTACTTAGAGTACCTATTGGTAATTTATTATCTTCTGGTTCAAATTTGTTTATTATTAAATACTTCCATAATATTGTAGCATCTATATTATTAGCATTTGCTAAATATGATAATAAATCTAACTGTGTTTCTTTATCATAATTATCATAGTTTTCCATTAATGGTTCACTATATTCTTTTCTATAATCATTGAATAAAAGTAATAATATCATTGAATTAATATTCATACTTTCATACACTTTGTCATACTTATATGAAGCGTTCTCTATTATTCTTAATGCTATGTCTTCTGTTAAAGGTATTTTCTTTAATTTTTCATATGCATTATCTTTTTGCTTTACTGTTCCAGTATTTATTTTTTCAAGGTATAAAGATGCCTTTGTTAAGTTAATACTATTCTTAATTTTATTAAACATCTTTATCACCACCTACAAAAATAATTATATCAAAAAAATATAAAAAAAGAAGATATTATTTAAAAATAATATCTTATTTACTTATTTTTTAAGTATGTCTTCTTTAATGGTTTAGAATCTAAATATCTGTCATAATAAGTTACACCTGAAATAGATGCTATTTTATTTACTTTTATATGTTCGCCATTAAGTGGAAGACAAATATTTTTTATTAAAACAGTTGAATCAGTAGCAGCCTTTAACATACCTATAATTGTATCTACTTCACTAGATATTGTATATGTACATGTAACTGTTTCTCCTATATGTTCATTTAATTTATTCATTTTTATTCACCTTTAAATATATTATCATATATTTCTTTATAATTGTCTACTAAAATGAATTTAACTTTCTTTTTTATTTCGTTTGGTATTTCTTCTAAGTCGTTTTCATTAGTTTTTGGAATAAAAATAGTATTTACTCCTTGATTATAAGCTCCTATTACTTTTTCTTTTAGACCACCTATTTTAAGTACTTTACCTTTTAAAGTTATTTCTCCTGTCATAGCTATCTTATGAGACACTTTAATGCCTGTTAAAGAAGAGATTATTGCTGTAGTAAGCGTAACACCTGCTGATGGACCATCTTTCTTTGTAGCACCTTCTAATGCGTTTATATGTAGATCATTTTTTTCTAATAAAGTTTTATTAATTTTAAACTCTTTATAATTACATTTAACGTAACCTAAAGCTACATTAGCACTTTCTTTCATTACGTCTCCTAAAGAACCTGTAAGTATTATTTTACCTGTTCCATCATAGAATGATGTTTCTATAGAAAGAAGAACTCCTCCAAAAGGAGTATATCCAAGACCATTAACTACTCCTGGATCATGTTCATCATTATTTACTTCTGTAAATTTCTCTTTACCAAGATATTTCTTTATTTCTTTAGATGTAATATTTACTTTCTTTTTATTATTTACTTGTTCTTTAGCTAATTTTCTTAAAATAGTTGATAGAACTCTTCTAAGTTCCCTAACACCTGCTTCTTTAGTATAATTACTGATCAAATACTTAATAGCAGAGTCAGATATAGTTATATCATTTGTTAAACCATGTTCTTCTAGTAATATACTAAATAAATGATTTTTAACTATATCTATTTTTTCAAATTCCGTATAAGAAGATAATTCTATTATTTCTAGTCTATCTTGAAGAGCATATGGTATTTCTTCTATGTTATTAGCAGTTAATACAAACATTACATTAGATAAATCTATTCCTTCTTCTATATAATTATCACTGAATGTTTTATTTTGTTCTTTATCTAATACCTCTAGCATAGCTGCTGCAGGATCTCCTTGAATACCCTTACCCATTTTATCTATTTCATCTATTAAGAATAATGGATTCATACTTTTAGCTTTAATAATAGATGAAATAATTCTACCAGGCATAGCTCCTACATATGTTTTTCTATGTCCAATTATTTCATTTTCGTCAGATACTCCTCCAACAGAAATCTTAACAAAGTTTCTATTTAATGCTTTAGCTATAGAGTATGCTAGTGATGTTTTACCAGTTCCTGGAGGACCTACTAAACATATTATTGGACTAGTTAATGAATTAGTTAATTTCTTGACTGATATATACTCTAATATTCTTTCTTTAATATTTTCTAGTCCATTATGATTATCATCTAATACTTTTTTAATTTTATCTAGAGACTCTTCATCTTTAGTATATACTCCAAACGGTATAGACATTAATGTATCTATATAGTTTTTAGTAATAGTATATTCAGGTGAAGTAAATGGAATTGTTTCAAATCTATTTACTTCTTTAGTAAGCCTATCAATTATATTACTAGGAGCCTCTAATTTACTTATTTTTTCTCTTATTAAATCTATATCTTCTTCTTTGGAGTCTTTTTCTCCTAATTCTTTTTTAATTACATTAAGTTTTTCTCTTAAAATAAATTCTTTTTGAGTTTTATCTAATTCTTTTTGAAGATCTTCATCTATATTCTTTTCTAATCTTTCTACTTTTTCTTCTTTAACTAATAGATCTATTAAGTAGTTACCTCTAATAATAGGATTAGTAGTCATTAAGAATTGATATTTATTTTGAAAGTTTAATGGAAGTATATTTACTATTATATCTGTTATTTTTTCTAATGATTGTTCTTCATTTATTTTAGAAACTATCATATTAGATATATTAGGCATTACATTCACATAGTTAGCAAATTCTCTTTTTATAACTCTTAATGATGCATCATTTTCTTCTTCTTTTATTTCTTCTATTTTAACAGGACCTATAATAGCATCTAATATATCTTCTTTTTGTATATATTCAAATATATGAGCTCTATTAATACCTCTGATATTAATTCTAATATGTTCATTTGGAAGTACTATATTACTTGTTATTTTACCTATAATACCTATATTAGGAAGTTCATTAGTATTAAGATTTTCATTAGTAATATATTTAGGAGTTACAAGAAGGCAATAACCATTATGTTTATTAACCGCATTATAAATTATATTTTTATCTTCTTCATTTTCTATTTCTAATTTAAGTTCACCAAGAGGTAAAAGAACCATGTTTCTTAAGATGATAACTGGCAATTTTGTCTTTATCATGGAATACTACCTCCTTTATTTACAAACATTGTTTATTATAAATTATTACAAAAAAATGTCAATAAAAAAAGAACCATTTTGGTTCTTTTTATTTAATTTTTTCATATACAATATTAACTGCATATTCATTTTCTTCTTCTGTAAATTTTTCTAATCTTAAATATCTTGCTGCTTGAGCCTTATCATATTTTTTATAGAATCTATAATAACATGCATCTGCTAATGCTTGTTCATAGAAGTCTACATCTTTTATTTCATTCATAGCATACTCAATTTCTTCTTCAGTAAATAATTCATCAATTAGTTTATTTTTAATACTTTCTTTTGAATGACCAGTTTCTAATCTTTTATAAACTACCATTAATGCTTGATCATTATAATCAATATTTGCATTATTAACTACATATTCTGCAGCTTCAGAAGTTATGCCTTCTTTTACTATTGCATTTTTAACACCTTCTAATGAGAAACCGCTACCATTTCTACCTCTAATTTTTCTAAGTAGTTTGTCATATGCTTCATTATAATCTTCTGATAAATTTAAAGTTTTAACATCAGAATCTTTATATACATATTCTTTAATTTCTTTTCTTAATTCATCTTCTTTATCATCAAATCTAGATAAATCTACACCCATATATTTTTCATCAAGTATTTCTTTATAAACTATATTTATTTTATTGTTTAATGGGTCTGTAAAAGTATATAGTATTTTACTTTCTTGTTTTTTATCTTCTTTTCCTTTATCTTTTGGTGATGTAAGTTTAATTATTAAAAGTATGCCTAAACCTACTACTAATAATGCTCCTACTATTATTATAATTTTCTTTACTAGTTTATTCATATTATTTATCTCCTCATAAATAATAATAACATAAAAAGACTAGTATATCTAGTCTTTAATTACTTCAATAGCTTTTCTCATTTGAAGTTCATATTCAATCATATCTTTAGAAGCTACATGATGTTCAAATTCTTCTACTGGAATATTATATGCTTTAGCAGCTTTTTCCATTTCTTCTTTAACTTCTTTAGCAGATACTTTGATGTCTTCTAATTTAACTATTTCTTCTAACATAAATCTATATTTAACTCTAATAGTTGCATCATTTCTCATTTGTTCTCTTAGTTGTTCTTCAGTACTATTAGTATATTTATAGAATGCATCAAGGCTCATTCCTTGCATTTGAAGATTTCTTGAATATTCTTCAACCATCTTATCAATTTCTTCTTCAACTAATTCATCAGGAATTTCAACTTCAGTGTTTTTAGATATTTCTTCTAATAAAGCATCAATATATTTATTATCAGCTTCATAATCTTTTCTAGCAGTTATTTGATCTTTAATAACTTCTTTTAAAGATTTTTCATCTTTAACACCTTCCATACCTAAATCTAAGAAGAAATCTTCATTTAATTCAGGTAATTTCTTAGTTTTAACTTCATGAACTTTTACTTTAAATACAACTTTTTGTCCTTTTAATTCTTCTGCATGATAATTTTCTGGGAAAGTTAATTCTAAATCTTTTTCATCTCCAGATTTTAAACCAACTAAACCTTCTTCAAAACCAGGTATAAATGAATTAGATCCGATAGTTAATGAATAGTTTTCACCTTTACCACCTTCAAATGCTACACCATCTTTGAATCCTTCAAAGTCAATTATAGCAATATCTCCGTTTTCAATCTTACCTTCTTTAATAACTATATCAGCCATTCTAGCTTGTAAGTTCTTAACTTCTTCATCTATTTCTTCATTAGTTACTTTAACAGCATCTTTCTTAACTTTTAAGTCTTTATATTTCTTAATCTTAACTTCTGGTCTAGTAGTAATAGTGAATTTAATTTTACAACAATGATCACATACTTCTAAAACATCTATATTAGGATTAATAATAGGTTCCAATTTATTATCTTTTAATACTTTTGGATATTCAGTTTGAAGTAAATCATTAATTGCATCATAGTATAAACTTTCTACTCCATATTTTTTAATAAATACTTCTTTAGTTACTTTACCTTTTCTAAATCCAGGAATATTAACTTTTAATTTAGCTGTATTGAAAGCTGCATCAATTGCATCTTCCCACTTTTTACCTTTAATTTCTACTTCTATTTCATGTATATTCTTAGCCATAGTAACCTCCTACTTAATAGATATGATTTTTACATCATAATTTCCGTTTGGACTTTCAATTGAAACTGTATCTCCAACCTTCTTACCCATAATAGCAACTGCTATAGGAGATTCATTAGAAATCTTATTTTCAAATGGATCAGCTTCTGTTGAACCAACTATTTGATATGTATCTTTTTCTTTATCATCAACGTATTCAATTTCTACTGTAGAACCAATCTTAATAGAATTAGATTTTGTACTAGATATAATTGTAGCGTTATCAATTAAATATTCAAGTTCTTTAATTCTAGCTTCAATTTGACCTTGTTTATCTTTAGCAGCATGATATTCAGCATTTTCAGATAAGTCTCCTTGAGCTCTAGCTTCTTTTATTTGAATAATTACTTCAGGTCTCTTATTATCTTTTAGATCCTTAAGTTCCTCTTGTAATTCATTTAAACCCTCTTTTGTTAAGAAAATTTCTTTCTTTTCGTTCATTGTAATCACTCCTTATGTAATATGCATCAAACGTCTCAAATTATATTATAAATTACATCAAATGTCAATGTAATTAGGATAATTAATTATAAAAAAATACAACCAAAAACATGGTTGTATTTTTAATTAATCTACATCATTTCTTGCAAGTATATTAGCAGGAGACTTTTTAATAGTATTTCTAACTGGTAATAAGCCTACTATTAAGTTAAATATTAGGAATACTAATACAGATAGTATGGCTACTCTATAATTAAGCATATAATTATTCTTAAAGAACTCTAGATCTGCTAATGTTTTTAAAATATTATACATAAGCCATATACCAGGAATAGATGAAATAATAGTTATAGCTACTATTTCATTAGAAAACATCTTATAAATATCTGTTTTCTTAACTCCTATAGCTCTCATAGTACCTACTTCTTTAATTCTAGACATAAATGATGATCTAATCATTAAATATATTTCAAGGAATGATATTCCAAGAAGAACACATGCAATAATAATTGAAGATCTAGTTTGTTTTAATTGTTGAGTCTTATACTTTTCTTTACTTTCTTCATATGTATTCTTATATTTAATTTCCATATCTTTTATTTCATTAATAAATGCTTTTTCATCTTTAGGATATACAGTAAAGTTTTTATATTTAGAAATATTAAGAACATTTATCATATTTTCATTAACATAGTAAGTACTTTCATTTCTATTTGATTCATAAAATCCTACTAATACTAGTTTTCTATCATTTATTTTAGCATTTATCTCTTTATCCAATTTATATGTATTATCATATTCATTATAATTAGAATAATTAATAACTACTTCATAATCATTTTGAGGAAGTCTTCCTTTTTTAATATTTAAATTAGCAGTTTCATAATTCTTATATGAATTAGTAGTTGTATAATCAACTTCACCATAATAATCATTCATATTTTTATTAGTATATAGAACTTTTATAAATTCGCTATTACTAATATATAATGATGGACTACTTAAATCTACTACACCGCTAACAGTATATATATCATTACCAATTTTAATTTTTTGATTAACAAAGTCTTCATATTTTAATATATTAAATTGATTTAAAGGACTTGTCATATTATCTTTAAATTTTTCATATAGGAATTTATCTATTACTACTTCAGAATTATTTTCTGGTAGTCTACCAGCTATTATATCTTTTTCTTTTAACATATTAATTGATGCCATAGAAGATGCATAACTAGTTCCTTGATATTTAAACTGATATAAATCACTTTCAATACTAAAGTATATAGTAGAATCTCCAGGTAATACATAATCTACTGATTCTAAAGAAATAAGTTTATTATATAAATCCAAATTCTTCTTAGATGATGAAATACTATAATAATTCTTATTATATTCTACAAATTGTGAATCTTTTATATCTAATATTCCAAATATATTACTTAGAGCATAGAATATAAACATTATAGAGAATACAAATCCAATTAATAGTATTTTCTTTAAAACTGAATATGATTTTACTTTAGAAAATCCTAGTTTTAAGCCACTAAATAGATTATATATAGATGAATATCTAATCTTACTCTTAGAATTATCTAACATAGATAAATCAAAGTTATTCTTTTCATAATCTTCTTTAGTAATAGCTTTATAATTATCATTTATAAACTCTATATTAGAGCTCTCATCTACTACTTCTACATTTCTATTACTAGATTTTATATAGATATTACCATTTTTAATAGCTATATCTAAATCTATATTTATTTCACTATTAGAATAAATATTAAAATTATATCCATTCTTTTGAATTTTATCTTGTATCTTATAGTCTTTTAAATAGATTCTATTATCCATTCTAAGATCTAATTGATCATTATTAGTATTTTCTTCATTAGATATTATTTTTCCATCTTCTAGTTTAATTATTCTAGATGCATAGAAGTATGCTATATCTTTTTCATGAGTAACTAATATTACTAGTTTAGAGTTAGATATATTTTTAATAATATTCATAACTTCTATTGTATTTTTAGAGTCTAAGTTACCAGTTGGTTCATCTGCAATAATAACAGATGGATTTTTAACTAGAGCTCTTGCTATTGCTACTCTTTGTCTTTGACCACCTGATAGATCAGAACATAGTCTATTTCTAAATCTATACATATTAGTCTTCTCTAAGACATAATATACTCTATTTTCTATTTCTTTTTTGTTTTTAATACCAATCATCTTTAGTGATATTGCGATATTATCAAAAACAGTCATATTATCAAGTAAATTAAAGTTTTGGAATATATATCCAATATTTAAAGTTCTTAGTTTATCTTTTGTATAAGTAGTGCCTCTTGGCATCTTTTTACCATTAATATAGATAGATCCAGAATTAATTTTATCTAGACCTCCTATCGCATTTAAAAGTGTGGTTTTACCGCATCCACTCTCCCCTAAAAGCGCTACTAATCCTGTTTCAGGTAATTCTAAATTAGTATTATTTATTACATGTATTTGATTGCTTTTAAATCTATTAAAATATTTATTTACATTAACTAACTTTATCATTATTCATTCTCCCTATAATTAGACATTACAGAACCACCAAATAGTTTATTAGAGTATCTATTAGCAATCAAAATAGACATTACTATTAAAACTATATATATAATTATGTAGTCTTTTAGTTCAAAGAAAGTACTTAATTGATATAAATAACTTACCTTTAATATTATCTTATGTCTTATTAATATTAGAATTGTAGTAAATAATATATAAGCTATGTTTATATCTACTAATAATTCTATATTTAGAAGGTCATTTAAGACCTTTTTATTACCTCCTAAGGTTCTTATAGTAGAAAAGTAAGTATTTCTTGATTTAAGTATTATTTTTATAATGAAATAACATATAAAGAATAGAACTATTATAGAAACAATAAATCTAATCTTACCAAATAATGTAACGAATCCTAAGATAGATCCAAATATATTAGAAGTCATATCCACCATTTTATAGATATTTACATTATATTTATCTAATTCCTTAGTAACATTATCTATTTTTCTTTCATCATTAACATAAATACTCATTTGATATGTATTTTCATTAAATAATTGTTTATATTCATCAGGATTCATAAATATTGTATTGTTATATTCATAATATTGTTCTTTTGTGAATCCTAATTTCTTATTTATAGTCTTTTCTTTAAAATTATCTATAATATATAATTCTTTACCTGTAGCATAATAATTATTCTTAATATTAATACCTATATTCTTTTTAAGACAGTTATAATCTTTACAATACATATTAAAGTCTTCTGATACTATAGCATTTCCAGGTGATACTGCATCATGAGGTTTAATATTAAAGTATAGAGATGAATCATAAGATGAATAAATCTTATTATTTAAAGTAACCTCTATATCACTATAGAATAAATTAATATCTGTTCTAGCACTAGATAATATATCATTAGATACATATAAAGTATTATTATATATTAATTCTGCATTATCTTTTTCTTCTATAATACCTATTATTTTTAAATCTCTAGTTACTACTTCACCATTATTAGTAGTATAACTAAATGTATTATTTAAATACTTTTCTGCTTCATTTTTAGATACTGTACCAATAATTTTAATAATTGCTACATTAGAAGTATCTTCTTCGTTTGGAAGTCTTCCGTATTTAACCTTTTTTACATTAGCAATATTATTAGTAATAACAGAATCCCATATCTTAGCAGATGCACATTCTAAAATAGATATACTATCAATAAGAATATCATCTTTTACTACTTCTTTTACATTACTAATCTTTTTCATTTCTTCTATTTCTTCTTCAGAAAATGGAGATTTATCTTTTTTATTAATAATAATTCTTTTTTCACTAGAATCATTAAATACATAACTAGTTTTAAACATTTGATTATTATATGTAGCCATATTTAATGATGTATAGTTAGAAAATACTGATACTGTAAGTATAAAGTACACTAATATAAGTAAAAAGAACTTAATTTTAATATTAAATACATTTCTAAAAGCTATTCTAAGCTTATTTAATAATGTAATATTCTTGTATTTTGGAGGTTCATCTATTACTTCCTCTGTTTCTTTTAATTTTTTATCTAGCATAATTCTTCCATCATGCATAATAATTTGCCTTGTTGCGTATTCAGAGAATTGTTCATAGTTATGAGTAACAACTACTACTAGTTTATTTTTAGATATTTCATAAAGAAGTTTAGTTATCTCTTTAGCAGATGCTATATCTATATTACCAGTTGGTTCATCTGCAACTATTATTGGAGTATTTTTAACTAATGCTCTTGCAATAGCTACTCTTTGTTTTTGACCTCCAGATAATTTAGATGCTTTAGTATTCTTAAACTTAGTTAATTTAACTAACTCTATTACTTCTAATACTTTCTTTTTAATATTTCTTTTCTTTTCACCATTAAGAAGTAATACAAGTTCTATATTTTGATAAACTGTATAACTATTAACTAAGTTAAAGTTTTGGAATATATTTCCTATATATTTTCTTCTATAGTCTTCATAATCTTTTTCTGTATAATGAGATGTTTCTTCACCATTAATATATAATTCTCCTTCTTCATAAGAATCTAAACCAGAGATTACATTTAATAAAGTACTCTTACCAGAACCAGATTCACCTGTAATAACTACAAATTCACCTTGATCAAGTGATAAATTAACTTTATTAAAACCAGTTGAAACATTCTTTTTATTATGATAAAACTTAGAAACATTTATTAATTTTAATAAACTCATTTCTCATCCTCCTTATTATTCACTATTAAGAATTATACTACAAAAAAGAGACTTTATCAATTGATAAAGTCTACCCTTATTAAATCATTTTTATATACTTCTATTTCACAAGGAATTCTTAGAATTTCTCTTGGATGATTAGCATATTCTACTAATTCTCCATCTTTATTTTTAATATATTTTACTTCTATAGATATATTTCTATTATTAGGACCAAATATATTAATTTTATCTCCTATAGAGAAGTAATTTCTTTCTTCTAGAACTATTTCTTTATTCTTTTTATCATATGATAGAACTACTCCAAGAAAATCTTGATTTGTTTTTTCTTCTCTACCTATATAATATTGCTCATTTATAGATGGAAATCTATTAATATATTGAGGTAAAGACTCTCTATTAGCACATCTTCTTAAAATAATATCATCATTTTTATTATATTTATATTTACCATCATATATTTCATCTATAACTCTTCTATAAACTGATAATATAGTTGCTAAATAATATATAGATTTCATTCTACCTTCTATTTTAAATGAATTTACTCCTGCTTTCATTAGATCTTTAATATGAACTAATAATTGTTGATCTTTAGGAGAAAATGAAAACTTAGTTTCATCAGATATCTTATTATCTTCATCATATAAATCAAATACCCATCTACATATTTGTGCGCATGCTCCTCTATTTGAATCTCTATTAGTTAAATAATTAGAAAGAGCACATCTTCCTGAATAACCCATACACATAGCACCATGTATAAATACTTCTATATCAGCATTAGTATTCTTTTTAATAGATTTAATATCATCTAATGAACATTCTCTTCCTAATACTATTCTTTTTACATTATTTTCTAAATAGAACTTAGATGCTTCACTATTAATACATGATTTTTGAGTACTTAAATGATAATCTATATTAATTTTTTCTTTCTTTAATAGATCTATAATAAATAAATCACTAGATATAATTGCATCTACTTTATATTCTTCTAGCTTTTTAAGGTATTTTATAAGGCCTTTTATATCTTTTTGATGAAATAGTATATTAACTGTTACATATACTTTTTTACCTCTTTTATGGGCATATTCTACGCCTTTTTTTATCTCAGATAAAGAAAAGTTTTTAGCATTAGATCTAAGAGAATACTCTTTACCTCCAAGGTATACAGCATCTGCACCATAGTCTATTGCCCATTTTAATCTTTCTAAGTCTCCTGCTGGAGCTAATAACTCTGGTTTAATCATAATCTGTCACCCTATATACTGTTTCTTTATCAAGAAAACCTATATAATTATCCTTTGTTACATTATTATTTAAGAAATTACTAACTTCATTATAAAATACATCATTATCTATTAAATAATTATCTAAAATAATATTTAAATTATCTAATTTAGGAAGATATTCTATTATATTAAATATATCTCCAGTATAGAAATTAGTATTAAAGTCTTCTACTATTTTAAATTCTTTAGATGTAATAAAGTCCTTAAATGTATATACTTTTTTACTTTTTTTCTTACCTATAAACTTAAAATAATTAGTTAATAGTTTTCTAGATGATGTAGCCATATTTAAATGACCATATCCTTTTACAAATATATTAGATTTAGTATTATTTTTAATATCATTTATTTCATTAAGAGTAAGTTCTGTGCATATATAGGCATTTTTAACCCCTCTATTCAAATAAAAATCTAATGTATATGAATTTGTACCTGTATGGTTAGAAATAAGCAATTTTTGCCCTTTAAAACCTATATCATTTAATATATTAAGTACTGCATCATCTGTAAATCCAATAATTACATCTAACTTAGATAATTTAACTAATACTTTCTTTAAATCTTTTAATTCATGTTCAAAATATAATCTGTTTAAAAAAATAATAATATCCTTATTATTATTTTTTACTTTATTACATATTAAAGAAATTTTATCTAAAGATAAATAACTATTAAATTCACTACTAAATTTTTCAATACCATAAATAAATCCTGATACATTTAAATCAATATATCTATCAATATTATCTGGATTAGTAATGTAATATTTATTCATTTATTTCATCCTTTTTATAAGTTATAGCAATGCCATCTCCAACTTTATAGAATTTAGTCTCATATTCATCATGATTCTTAAGAAATTCTATATAATCTCTAATCTTCATAACAAGACCTCTAAGATTCTTATTTTCTATTTCTTCTTTAGATTCTACAAAACCATGAAATGATATATTATCTGTAACTATAACACCATATTTATTTAAATTATTCTTATATTTATTAAAGAAATTAATATTTTGTGCTTTAGCAGCATCTATAAATATTAAGTCATACTTTTCAGTTATATCTATATCTAAAGCATCACCACATATTAAAGTAATTCTCTTATCTAGATCACATGCTTTAATATTTTTAAGAGCCATCATATATCTATCTTGGTTTCTTTCTACTGAAGTAATCTTAATATCATCAGATACTAAAGCCATTCTAATAGAAGAATATCCAATAGCAGTACCAAGTTCTAATATAGACTTAATATTATTCTTTTCAATAAATTTACATAAGAAGTCTATTCCTCTTTTTTCCATTATTGGAATATTCTCTTCTTCTGCATATTTTTCCATTTGTTTAATTATGTCTTTATACATAATATCACTTCCCCTTTTTATCTAAACTTTCTAGTAGTTTAGAAATGAATTCCCATTCTTCTTTTTTAGTTATTTTTTCTAATTTATTATTTTTTGGATTAAATACCGTAGCATATGTTTTAATTGAACCGTTTTTAAGTTTAGTATCATCTGTATATACGATACCTATCTTACCACCAGTTTTTTCATATGCATAAAGAATTCTAGCATTAACAAGTTCCCCATTATTATTCATGAATGTGATAACATCTTTTTTCATGATGATATTAATCCTTTCTTTGATCTAAATATCTTTGAAGTATAATTGTAGCTGCTAAGCTATCAACTTTTTCCTTTCTTTTATCTCTTCTAGTACCATTACTTATCATTAAGTTATTAGCTTCTACAGAAGATAATCTTTCATCTTGAAGAATTACTTCTATATTTATATTATCTTCTATTAATTTCTTAAAGTTTAAACTTCTTTCAGATGCAAATCCCATAGAATTATCCATATTCTTTGGTAATCCTAGTACTATTTTATCTATTTTCTCATTAATAATTATCTCTTTTAGAGGTTCTATTAATGAATTATAGTCTTCATTTTCAAACTTTAATAGTTTATAAGAAGAAGCAATAATACCCATAGCATCACTTTTAGCTATACCTAATGTTTTAGTACCTAAATCTAACCCCAAATATCTCATTATTTATTTAAATAATATCTAAGTAAACATTCAATTATATCAGTTCTATCAATCTTAGTTATCTTTTGTCTACTTTCTTTGTAGTTTGATATATAACCAGGATCACCACTAATTAAATAACCTACTAATTGGTTTACTGAATTATATCCTCTTTCTTCTAGAGCTTCTTTTACGTCTTCTAAAGTATCCTTTACAAGACTATTATTTACGTCCTTCGGATCAAATACATTTGTCTCTTCAGTCATAATTTCACCTCTTTAACGATTAATATTATATCACATATAAAAGAAAAAACCTACAGTTTTTTGTAGGTTTATTCAAGCCATAATCCTTTATTTTTTAAATCTTTTATTACTTTTTGTTGATCAGCATCAGTTTTTGAAAAATGTATATTAGTATTTTTATCTGCTACAAAGTAATAATAATCTTTATATTCATCTAATGGAGTTACTAATCCTTTAACAACAGCTTCTATAGAATCAATTGAACATGATGATATTGGACCAACTGGAAGAGCTTTAACACATGATCCTCTTGTATTATATCCATCACATATTTTAAAGTCTGATGCATATAAAGTATCAGTTCCTATTTTCTTATGAGCAGAATAATATGTTGTAACATCAGATCCAAGTGTCATACCAACATTCATTCTATTTAAGAATACTTGAGCAACACCTTGTAATTCTTTCTCATAATTAGATGTCCCCTTACCAGGTCCTTCATGTTCTACAATAGATGCTAAAGTAATTACATCATGATAATTAGTCCAAGTAAAATTATTCTTTTTGTACATTTCAAGCATTTTATCATTTAATGTACTAATTAATTTTTCAGCTATTTCTTCTACAGTTGCATCTTTTCTAAAATCATATGTATCTCCAAGAAGATATCCTTCTAAATGATGTCTAATACCTTCTTTAAACACATCATTTGTAACTATAGTATATTTATTTACCATACTAGTTACAAAAGTAGCATCATCTAATTTAGCAATAACATCATTTACATCCATATTCTTTTTAGTAGCTATTACCTGAGCCACATCTTCAAATGTACCTGCATCAGCAAACCTAATTCTAATAGAATCTTTATCAATTGCAGCTGTAGGGTCATTTAAATCTCCAATTATATCTTTTAATGAAACTGATTTATCTAATATGTATTCTCCTTTTTTAAATACTATAGGGTGTTTTTCAGTATTATTTAATTTAACATATATTAAAGCAAAATACTCATTTCTTATTAGTCCTGCCTTTTTAAGATTTTTAACAATTGTTCTTGCACCTTCGCCTTCGCTTACTTTAAATTCTACTTCTTCAGTTTCTCCTTGTACAGGTGTTGTCATATAATAACAACCTGCAACTAGTGCACCAACTATAATAATTGTTATTAATGGTAATAAAAATCTTTTTTTCATATATTCTCCTTTTTATTCAAGAATAGCTTTAATTCTTCTTATACCAGCAGAAGAAGCTTCTTCTTTTACTATTTTAAAGTGACCTAATTCATTAGTATTACTAACATGAGGACCACCGCATATTTCTATTGATACGTCTCCTATAGAATAAACAGTAACTATATCAGGATATTTTTCAATAAACATACATTCTGCACCTTTTTCAACGGCTTCTAACTTAGGCATTTCAGTTTTAGTAACTGTAAGACCTTCATTAATCCATTTATTAACTAAATCTTCAGTATTTTTAATTTCTTCATCAGTTAATTTATGATCACAATTAAAGTCAAATCTCATTCTTTCAGATGTTATATTAGATCCTCTTTGATGCGAATCAGGATTAACAGTAATCTTTAATGCAGCATTTAATAAATGAGTTGCTGTATGATATTTTGTTTCCATTTCACCAGAAGAAGCAAGTCCTCCTTTAAATTTACCAGCAGATGCACTTCTAGATAATTCTTGATGTTTCTTAAAGAATTCTTCAAATCCTTTTTCATCTACTTTAATACCTTTTTCATTTGCTAATTCAATAGTTAATTCAATTGGGAATCCATAAGTATCATATAAATGGAATGCATGTTCTCCATCTATATCAGTATTACTTATCTTTTCAAATTCTTTTAATCCTTTTTCTAGAGTTCTATTAAATTTAGTTTTTTCATTTCTAAATACTTCTAGAATATAGTCTCTATTATCAAGTTCACTATAGAATTCTTTATAGTTATCTATTACTAAATCAATTAAAGATTCTTCCCAATTAGTATTAATATCAATATCTAATTTTCTTATATATCTTATAATTCTTCTTATTAGTCTTCTTAAAATATATCCTTGATCTGTATTAGATGGAACTATCTTTGAAGGATCAGCAATTATAAATACAGAAGATCTAATATGATCTGCTATAATACGCATCTCCTTACTATAATCATTATAACTTTTATTAGATAGATTTTCAAGAATATTTATATATGGCATAAAGATACTTGATGTATAGTTGTCAGTTTTTCCTTCAAGTATAGCAGTTGTTCTTTCAACTCCCATTCCTGTATCTACATTTTTCTTTGGAAGTTCAGTAAAAGTACCATCTTCATGCTTTTCATATTGCATAAATACATTATTCCATATTTCTACCCATCTATTATCTTCTGGATCAAATTCTTTAGGTATTTCTTCATCTGATCTAAAATAGAATATTTCAGTATCAGGACCACAAGGACCTGTTTCTCCTGCTATCCAAAAATTATCATCAACTGTTTTAGCAATTCTTTCTTCTGGTATACCCATTTTAATCCACAAATCATAAGCTTCTTTATCAAAAGGAATACCATCTGATCCAGCATATACAGTAACTGCTAATCTTTCATTTGGTATATTTAATACTTTTGTTAAAAATTCATAACTCCAAGATATTGACTCTTCTTTAAAATAGTCTCCAAGTGACCAGTTACCAAGCATTTCAAAGAATGTATGATGATAACTGTCTCCTATATTATCTAAATCATTAGTTCTAAGGCATTTTTGATAATCACATAACTTAGTACCATATGGATGTGTTTGTCCCATTAAATAAGGTATTAATGGTTGCATACCAGCAGTATTAAATAATACTGAAGGATCATTTTCTGGAACTAAAGGAGCACTTGGTATTTGTTTATGTCCTTTAGAAATAAAGAAATCTATATATAATTTTTTTAAATTCATTTAATTACCTCCAACATATATAAAACTACTTCTTCAATAGTCATATTACTTGAATCTATATATATTTGATCATCAGTTCTCTTAAGAGCACCATATTCTCTAGACATATCTGCTAGATCTCTATTTTTTATACTCTCATATATTTCATTATAATCTGATTCAAGCCCTTTTTCTTCATTTTGTTTAACTCTTCTTTTGGTTCTTTCTTCAATAGACGCATCTAGATAAAATTTATAATCTGCATCAGGAAATACTTCGGTTGTAATATCTCTTCCTTCCATTACAATACTATGATCATTAGCAAATTCTCTTTGTTTTAATCTCATTAATTCTCTAATAGATGGATATCCTGATATTTTAGATATATTAGTGTTTATTTCTTGAGTTCTAATTCTATCAGATATATCTTCACCATCTAAAAGATTTCTACAATCTTTAGTAATTTCCATCTTACAATTAGAAAATGCTTCATAAATTGCTTTTTCATTATCAATATCAATATTATCTCTTAATACTAGATAAGTAAGGCTTCTATACATAGAACCTGTATCTATATATACATATCCTAATCTTTCTGCTAGTATTTTTGAAATAGTTCCTTTACCAGATCCTGCTGGTCCATCAATTGCAATTATCATATTTTACCTCCTAAAAAAAAGAATGGTATTCCTTATGTAAGGAGCCATATATGGCGGTACCATCCTTTATTATACTTAATTATTATAACGGATACCCGGCATGTTTTCATGCATAAATAATAGTAGCTTTCATTAATCACAATTATTATCTTACACCAACCGATAACTCTCTTTAAATTAATAATTAATTACTTTTCTATTATATTATTTTATCTTTAATCGATCTATTAATTTATACTTCTCATTTAAGTATAATGCTATTGTTTTTAAAATAGCAGTTATAGGTGTTGCTAAAAGCATACCTATTATACCAAAGAAGTGACCAAATATCAATAATCCAATAATTATAGTTACTGGATGAAGTTTCATTGTCTTACTCATTACAATTGGATGTAATATATAACTTTCTAATATTTGAATTATTATTACAATAATTAATACTATTATACCTAATCTAAAGTCTGTAGAGAATGCAAATACTACTATTGGAATACCACCAATCCAAGGCCCAATATATGGAATAATATTAGTTATAGCATTCCATAATGCAAAGAATACAGCACCTTTTAAACCAGATACCATAAATGCAACACAAGATACTATAAATACAAGTATTGCTATTAAACCAGTTCCTTTTACAAATGAGAATAATTGTTCTGAAATAGTACTAAGTAATTTATGAACATTTTCTCTATATCTTCTTGGAACAAATACATATATGTTCTCAGTAGCTTTATCAAAGTCTATTAATAAATAGAAACTAATAATTAAACTGATTAAAATAGTACCTATCTTAGTTACAATAGAAGTTGCTATTGTAATAGCATGTTCAGGAACTTCTTTAGTAAGTTTTAACATATAACCAGTAGAAAAATCTTTAATACTAGATACTATTGATTTAGATACTTCTTCACTTAAATTTAACTTTTTAAATAATCCAGAAGCAACTTTAGATATATTATTAAGTACATTTGGAATATATTTAAATAATTCTGATAATTCTTTTCCAAGTGATGGAAATAAATAAGAGCAAGATAAATATAATATTCCAAGAATAATTAAATAAACAATTGCAGTTGCTACAAATCTATTCATTTTACTTTTAGACATAGATGTAATTAATGGATTCAATAAATAAGCTATTAAAACACCTATAAATAATGGTGAAATAACAGATAAAATAGTTATAAGAATATTTGTAAGTCTTAATTGTTTATTAATTAAAATAATAGAATAAATTGCTATTACAAATAGTAAAAATAATAATACCTTTAAAACCTTAATACCATAAAATTTTAGTTCATCATTTTTCTCTACTATCTTTTTCATACTATCACCTTAATAATATAATAATATAAATAAATAAAAAGAGCAATTATTTTGCTCCTTTTTTGTTTTTGTTTACATTAGGATTAAGAAATAATTTTTTATAACAATCTACTTGATTTTGACTAATATCCTCTGATGATATAATCATATTTTTACATTCTACCATTAGTCTTTTTAGCTCTTTTTGATAATGAGACCAGTCTTTTTTTAAATCTTCCATATCATATAATTGATCACAAGGATTATAAACAGATTCAGAACCAGGAACTAATAATAATCCCTCAGATGGTCTAAATACATATTCTAACATACATCCCTTTTCAGTATATAAAAGGCAACTATTAAGTTTTTGAGTATAACCTGTTACTACTGAATCTAAATCTTTTTCTCCCTTTACTCTAATACAATATAAATCATGCATAATATTTAATGGCGCTATAACAATAACCCCCGTTTCAAGTAGCTTTTTCATATAATTTATATTAGTTATATCAATAAAATCTTCAGGTGAAAAAGTACATGGAAAAGATTTACAACAACCACCCATACATTCTGAACACCATTCTGGTTTTATACAATCATTTTCACAACTTACTAAACCATTCGATAATTTATATAATAATTCTTCTTTTTTCTTTTTATATTCTTCTATTGTCATATTTACCTCATTTAATGAGCTATATTATAACATAAAATAAAAAAGAAACAATTATTTTGTTTCTTTTTCACTCTTTTTAACAACTTCTTTTCCGTTATAATATCCACATTCCTTACATGCTCTATGTGCTTTAATAGCTGCACCACAATTTGGACATTTAACTGTACTTGTAGCTTCTAATTTATAATGAGTTCTTCTCATTCTTCCACTAGTTTTAGATACTTTTCTAAATGGAACTGCCATAATATCACTCCTTCCTTATTCATCTAAGAAATCTTTTAACTTAGATAATCTTTCATCAAATTCTTTTTTAGCAATATATTTTTCATCAATACTATCTGATGAATTTGATACCCTAATTGGGATCTCTAGTAATATATTTTGCCATATTATTGGTAATAAATCAATAGAATTAGTTATTTTATTATTATTTTCATCATCAAAATCAAGTTCTGTAATATCTATATCTATTGGATAATCAATTACATCAAGATTAATAGAAGATTTAAGTTTTAAATTACATTTAACATTTAAATTAATAGATAATTCATCAATTTCATTTAAATATAAATATCCATTTAACATAACAGGACTTATTTCTTCGATATCAAAAGTATAATATTCGCTAGGAATATTTATTTCTTCATTAATATCAATTCTATCAGTGCTATGTGAAAATAATTTTATTAAACTTATATTCATAATTTTTCTCCAGCAAGTAAGATTATATATTATTATTTATTAAAAATCAATCTTTTTAACATCTAATTTAACGATCTTACCATTTAAATCATATTCTTTAGTTAACTTATCATTAACTTCTATTTCATTAGCTAATGTTTCTTTCATAATTATTTCTTTATAATTATCAATTATATAAGCTATATCTCCAGAATAGATTAATTTAATTCTATCTACTACATTAAAGTCTTTTTCTTTTCTAAGATTTTGTACTTTAGAGATTAATTCTCTAACTATTCCTTCATTAATTAATTCATCAGTAAGAACTGTATCTATTATAACGAAGTTATTATTCATAAATGCAGCATCGAATCCTTCTTTAGCATTTATTCTTACATCTACCATTTCAGGTGTTATATCTTTATCTTCTCCAGCTATATTTAGAGTAATTGTTTCATTATTTACTACTTTAGATTTATCTTCATCAGATAGATTTAATAATTTATCTTGTAATTCTTTAATAGATGGCCCAAATTCTTTACCACATACTTTAAAGTTAGGTTTTATTTCAAATGTCATATATTTATCTAGTTCTTTAGTAAACTCAATTTCTTTAACATTTAATTCTTCTTTTATAAGTAGTTTAAGGTCTCCTAGAATTTCTTCTTTATTACCATCAAGAACTATTTTACTAATTGGTTGTCTAACCTTAATTTTAGCCTCTTCTCTAGCATTTCTACCAAGACTGATTAAATCCCTTACTAGATCCATTTTTTCTTCAATTTCGTCATTTATATAGTCTTCATTAGTCTCTGGGAAATCTTCTAAATGAACAGAAGTTTCAAATCCAAGGTTATTATAAATTTCTTCTGATGTAAATGGTGCTACTGGAGCAATTAATTTACATAGACCAACTAGAACTTCATAAGTAGTTATATATACTGCTTTTTTAGAGTTATCTATAGCGGATCCCCAGAATCTATCTCTATTTCTTCTTATATACCAGTTAGATAAATCTTCTGATACAAAGTTAGTTATTAATTTAGTTACTATATTTAAATCATATGATTCATAAGCATTAGTTACATCTCTAACTAATTTATTATATTTAGAAAGTAACCATTTATCTATTTCTTCTCTATCTTCATATGCTACATTACATTCATTTATATCAATCTTATCGATATTAGCATATGTTTCAAAGAATGAATATGTATTCTTTAATGGATTAAAGAACTTAGAATGTGCTTCTTTTATACCTTCTGAATCATATTTTAATGGAATCCATACTGGTGATGCATATAACATATACCATCTAACTTCATCAGCACCGTATTTCTTTAATTCTTCAACTGGATCTACTACATTACCAGTAGATTTACTCATTTTCTTACCTTTAGCATCAAGTACCATATCATTTACAACAACATTTTTAAATGAACTTTCACCTGAGATAATTACTGAGATAACAAGTAATACATAGAACCATCCTCTAGTTTGGTCAACACCTTCTGCTATAAAATCAGCTGGGAATTGATTTTCAAATAATTCTTTATTTTCAAATGGATAATGAAATTGACAATAAGGCATAGCACCTGAATCAAACCATACATCAAGTACATCTGTAACTCTAGTAAGAATATCTCCAGTAACTGGTGATTTAATCTTAACTTCATCAATATATGGTCTATGAAATTCTAATTTATCAATATCTATCTTAGTAGCATTTAATTTCTTTAATTCTTCTTTAGAACCAACAACATAGATTTCACCAGTTTCTTCATTAGTCCATACAGGAAGTGGACATCCCCAATATCTATTTCTAGAAATACCCCAGTCAACCATATTTTCAAGCCAGTTATTAAATCTCTTTTCTCCAACATAATCTGGGAACCAATTAATTTTCTTATTAGCAGCTATAATCTTATCTTTTAAGGCAGTTGTTTTAACATACCAAGCTGGTTTTGGATAAGAAATTAATGGTGAATGACATCTCCAACAATGAGGATAATCATGTGTTATCTTTATTTTCTTAAATAATTTATCATTATCTTTTAACCATTTAATAATATCTATTTCAAGTTCTGGATCAGTAACTAATCTGCCTTCCCATGGACCACAGTTATATGTACCATCAAGTGATACTGGATTAGTAAATCCAATACCATTTTCTTTACAAACTCTATTATCATCTTCACCATAAGCAGGAGCTATATGAACTATACCAGTACCATCTTCTGCTGTAACATAATTATCAGCAATTACTTCATGACATTTTCCTTCATAAGTAGCAAAAGTCATTAATGGTTCATATTTTAATCCAACTAAATCTTTACCTTTATATGTTTCAAGAACTTTATATTCATCCCCTAATACTTTATTTGCTAGTGGTTCAGCTACAATAAATTTATAACCCATAGATTCAGCTTTAATATAAGTAAGTTCTGGGTTAACACAAATAGCTACGTTAGCCATTAAAGTCCAAGGTGTTGTTGTCCATGCTAAGAAATATACATCTTCATCAGTTTTCTTAAGCGGAACAATAACTGTATTAACTGAAGTTTCTTCATATCCTTGAGATACTTCATTAGCAGATAATTCTGTACCACATCTAGGACAATACCAAAGTACTTTATTACCGTGATATAAAAGCCCTTTTTCGTGCATTTGCTTTATAATATACCATTCTGATTCAATATAATCATTTGTACATGTAATATATGGATTTTCACAATCAATAAATTGTCCCATCATATCAGTTACTTTATTAATTTCATCTATATTAGTAGCAGTTGCTTTATTACATTCTACACAAAAGTTTTCAACACCAAACTTTTCAATATCTGCTTTACTCTTAAATCCAAGTTTCTTTTCTACATTAACTTCAATTGGTAAACCATGAGTATCTAATCCTATTTTTCTTAGAACTCTATATCCTTTCATAATTTTATATTTACAGAATGAATCCTTGATAGTCTTAGCAAGTACATGGTGAATACCAGGTTTAGCATTAGCATAAATTGGTCCATCATAAAATACAAAATCTTCTTTACCTTCTCTATGTTTAGTAGTAAGTTCTAGAATATTTTGTTTTTTCCATTTTTCTACTTGTTCAGCTTCTTTAACATAATTTTCTCTTTTGTCTAATTTCTTAAACTCCATTTTTTTACCTCCTTAAAATTAAAAAATATCCATGATGTAAGGACTATTTATAGCGGTACCACCTTACTTCATAGATATCTATGCTCTTAATTACTTAACGCGTTTAACGCCCTATTCTATTTACTTAAACAGGGATATCAGAAGTGATCTAATATTTATATAGTATTACCTTTCACCAAACGATAACTCTCTAAAAACATCTATAAATATCCGTCTTCATCATTTATTTTTTATCTAATTCTTCTAGAAGTCTTATTTGTTCATTAATATTATTAATTAATTTTTCTTTAATAACACTAATTCTTTCTTTTTCAACTTTATCTATTGTTTCTTTGGTATTTTTAGTCAAAAGGATTCCGTTACTAAGTGTTTTACTTAATTCTTCTTCACTTTTAACGATATTCTTACTTGGATTATTTTTAATATCTGACAGTTCTTTTTCAAGCCTTTTTATTTTCTCTTCTTTTTCTTTATTAGACTTTATTATTTTTTCTACATTTTCAATAATATCATCTATAAACTTATTAACATCATCAGTATTATATCCAAATAAGCTTTTTTTAATCTTATTCATAATACCACTTCCAAGAATTGAGATATATAATATCACTAATTTATTTATAAATCAATATTATTCTTCGTCTTCGTCTTCTTTTGACTTAGTTTTCTTTGCTTCTTCTTCTGTCATTGTTCCTTGAACATTTATATTCTTTGGAGTACAAAGAAATATACCAGGTCCAAGTTTTTGCATCTTACCACCAATAGCATATAGAGTTCCAGATAAGAAATCTATTATTCTTTTAGCTTGTTCAGATGTAACTCTTTTTAAGTTAACAACAACCGTATTTCTTTTCTTTAAATGATCTGCTATTTGTTGACTTTCTGAATATGCTCTAGGTTCAAGTAAAATCATTTTATTACCTTCAGCATTCTTATCTTTATATGCTTCCTCTACTGTATTAATATAAAATGCATCTTCTACATTATCTACATTTTCAGGTTTTTCACCAATTAATTTATCAAATATTCCCATAATTTATCCTCCGTTACTATATACATAGTAGCATATTTTTATTTAAAAATAAAGAATAATGTATATATTATTGTAAATAAAAAAGATACTAGAATAGTATCTTTTCATTTATATAGTTAACTACTTCATCTAAAGGTAATGTTATTTGTTCCATTGTATCTCTATCTCTTATAGTTACAGTATTATTATTAACAGTTTCATCGTCTATTGTAATAGAATATGGAGTACCAATTGCATCATTTCTTCTATATCTTTTACCAATAGAACCAGAATCATCATAAGTACACATAAAGTACTTAGAAAGCATATTATATACTTCAGTAGCTTTATCTGTATGATTTTTCTTAATTAATGGTAATATTGCACATTTATATGGAGCTATAGCAGGATTAAAATGCATAACTTCTCTTGTTTCACCATTTTCAAGTTCTTGTTCTTCAAATGCTTCACAAAGAAGTGCTAATGTTAATCTATCTGCTCCAATAGAATATTCAATAACTGTAGGAATATATTTTTCATTAGTTTCTGGATCTAAATATTCAAGTGATTTACCACTAAATTCAGAATGTCTTGATAAATCCCAAGTTCCTCTATGATGGATACCATTTAATTCTTCCCATCCAATTGGGAATTTATATTGAATATCACATGCTGCTTTAGCATAGTGAGCTAACTTATCATGATCATGAAATCTTAGTTTATCACTAGGTAAACCAATATCATTTACAAAGTTTAATGCTCTTTCTTTATAGTTATTATATATATTCATAGAATCTGAGTCTTTACAAAACATTTGAAGTTCCATTTGTTCAAATTCTATAGTTCTAAATAAAAAGTTCCCTGGAGTAATTTCATTTCTAAATGATTTACCTATTTGAGCTATAGCAAATGGTATTTTAGCTCTTGTAGTTCTTTGAACATTTAAGAAATTAACATATTCTCCTTGACATGTTTCAGGTCTTAGATAAACTGTATCTTTAGCGCCTTCAACAGTTCCCCTACTAGTTTCAAACATTAATTTAAATTGTTTTATTTCAGACCATTCATGAGAACCACAATGAGGGCATTTAATATTATTGTCTTCAATGTATTTTTCCATTTCTTCATTAGTCATACCTTCAGCAGCTACTTCTCCTTTAGAGAATTCTTCTATCATATTGTCTGCTCTAAATCTTTGTTTACATTTTTTACAATCCATTTTTGGATCTGAAAATGATGCTACATGTCCAGATGCTTCCCATACTCTTGGATTCATAAGAATTCCTGCATCTACTCCATATGTGCTTTTATCTTCTTGAACAAATCTCTTCCACCAAGCTTTTTTTACGTTATTTTTTAGTTCTACACCTACTGGGCCAAAATCCCAAGTGTTTGCAAATCCATCATAAATGTCACTTCCTGGAAATACAAACCCATATTGTTTACACATATTAACAATTTTTTCCATAGTTACTTCTTTCATTTTTATTCCTCCTTTTAAACAAAAAAGATAATTCTATTATATGTAAGGACGAGTATAACCCGCGGTTCCACCTTACTTATTCTATAAAAGAATCATCTTTAAGTATATAGCTCTTAGGGTTCCAACCTAGTCATCGCTTTCATTACAATTAAATTATATCATAAATTTTTTAAATGTATACATTTTTAATTTTATTTAAAAACATTTTAGTATTTAAATACATACCAGAATATCTATCATAATATTCAGTTATAAATTCATCTATTTCCCTGCCTATTTTATCAGATATATCTATTTTAGATAATTTATCCAAATCTACATAATATAGCATTCTTATCATCTTTAATGTTTTAGGGTCTACTATTTTCTCGTTAGTATGATGTTTATTACATATAAAGCCACCTTTTTCAGAAGATAATGTAAGTATATTCTTACTTTGACAAATAGCACATTCATTTAATTCAGGTGATATTCCTAGATAAGATAAATATTTAAGTTCTAATATATTAGTAATAGATTTAGAATCTAAACCAGATTCTATCTTTTCTAATGATAATATAAGTAAATCAAATATATTTTCATTATAGTTTTCTTTCATAACCTGCGTAGATAATTCTACTAAGTATGAAGCATAACTTATTTTAACTAAATCTGATTTTATATTATTAAATGGGTCTACTATATCAGCGTCTATTAAAGTACTAAGTTTACCTTCTTTATAGTTTATTTGAAAATCACAATAACTAAGTTTAGTTGTTACTGATCTTAGTTTGCTTTTAAGTGATTTAGCTCCTTTAGCTATTAAAGATATATAACCATATTCTTTAGTAATTACATAAAGTAATTTACTAGATTCATTATATGGTTTTTCTGAAGCTATTATTCCTCTTACTTTAGTAATTTCCATATTACTCTTCTTCTTTTAAACCAAACTCAGTTAAATATTTATCTCTATCTCTCCAGTTATTTACAGTTTTAACTAAAAGATCAAGATAAACTCTTTTATTAACTAGGTTTTCTATATCTTTTCTCGCATCTATTCCAATATCTTTTATCATAGATCCATTATGACCTACAAGTATTTTCTTTAAAGATTCTCTTTCTACTATAACTAATGCATTAATATGCACGCTAGTTTTATTTTCTTCATAATTTTCTACTACTACAGTAACTGCATGAGGAACTTCTTCATTTGTTTTTCTAAGAACTTTTTCTCTTATTAATTCCCCAACTAAGAATCTAGTAGATTTATCTACATATTCATCTTCATCATATATTCTTTCGCCTTCAGGTAAGTATTCCTTTATAGTTTTTATTAATTCCTCTATATTCTTCTCTTTTAAGGCCGATACAGGAATGATTTCATCAAACTTATATAATTCATTATATTCATTAATTATGCCTATTAAATCCTCTTTTTTAATTAGATCTACTTTGTTAATAATTAAGAATACTTTTTTATTAGCTTCTTTAATTTTTTCTAATACAAATTCATCTCCAGAACCTAGTTTTTCTTTAGCATTTACCATAAATAATACTAAATCTGCTTCATCAAGTGATGAATAACTAGATTTATTAAGTATTTTACCTAACTTAGATTTAGGTTTATGAATACCAGGAGTATCTAAGAATACTATTTGACTATCTTCATCATTATAGATACCTCTTATGTTATTTCTAGTAGTTTGAGGTTTATCTGATGTAATAGCTACTTTTAACCCAATTAAAGCATTAGTTAAAGTAGATTTACCGACATTTGGTCTACCTACTATTGATACAAATCCTACCTTCATATTAATCCTCTCTTGTTACTCCAAAACTATTTAATATTTCATCTTGAAGTGAAAACATTACTTCTTCATCTTCTATATTCATATGATCATAACCATTTAAATGAAGAAAACCATGAGTTAATAAGAAACATAATTCTCTTTTTAAACTATGGCCATATTCATTTGCTTGTTCTTTAGCTCTATTTAAGCAAATATAGATTTCTCCTAAACATCTTTCAGGCATTTCTATAGATTCATTATCCTCTAAAGCAAATGATATAACATCAGTAATAGAATCTTTTCCTCTATAGTTTTTATTCAATTCTTTTATTTTATCTTCATCAACTATTATTACATCATAAGAAATATTCTTTTCTTTTAAATATTTGGGCAAATATTTAGATAATTTTTCTAAAGTATTTAATTCCTTTATTTCTTCATTAGTTAAATTAGTAATTGTAATCATCTTAAAATCCCCCATAGACTTGTTTTAAAGTATAATATTCCAAGAATTATTATAAAAACAATAACTAATATATTCTTTATATAATTCTTTTGAAATATAGCAAATTTATGTTCCAAAATGTATACTACTAAAAATATTAAATAACCAAGAATACAACCACCTAGATTAAGGATAATATCATCTATATCAAATGTTCTTCCTATTAAATATTGAGTTATTTCGATAGTTAAAGAAGCTATTATTGATATTATTATAATTGCAAATGGTTTTTTAGATTTAAGTATAGTAGATACAAAATATCCAAAAGGAACAAATAATAATATATTACCTACTACATTATGAATAAAATATGATGAAAAAACTTGATATCTAGTTATTTCTCTAAATGGAATAAAATTATTAGTCCCATAATTATTATCTTCAAATGTAACCACATAAAATAAACATAATGAATATACTATAAATGCAAATAAAAATAATTCTTTATAAAACACAAATTCTTTTCTATTTACAATTAAATATGCAAGTCTAATAGATATAATAACTATTGTAAATATTATCATCATTGGATAATTTGCTTTTATAGCACTTAATAATGTATCTTGTATCATATTATTTTCCCTTTTCTTCTAATATTATTTTATCACAATTTAAGCATTAAAAAAAGAGAATTAATCTCTTTCTCTTGCTTGTCTTTTTCTACTATTCTTAATACCAGCTTTTTTAGCTTCTCTTCTTTGAATACCTGGTTTAGAATAATGTTCTCTCTTTTTAAATTCTGAAGGAAGTCCACTTTTAGCAACTTTTTGTTTGAATTTCTTTAGTGCACCATCAACATTGCCATTTTTTACTACTACTTTTGTCAATTTTGTCCCTCCCTTCATTCAAGAACTACACTGATTATATCACTATAATATTGTAATTTCAACATTTTTTTATTTTTTCTACTTCAAAATACTCATTATTATAACTAATTAACTTAACTTTATATATTTCATTAGTAGAATTTCCATCTAATTTAATTCTAGCAAACCCATAATTAGTCAAATGACCATATATATAATTATCTATTATAGTTTCTGTTAATAGATATTCCTCTGATCCTACTAGGGAAGAATAATAAGAGTACTTTAATTTATTTGATAACTCTATTAGAGTTTTAACTCTTTCTTTTTTTATTTGTTCTGGTACTTGATTATCCATTTTAGCAGCAGGAGTACCTTCTCTAGGAGAATATGGAAATACATGTAATTCGGTAAAACCTATTTTTTTAATGGATTCTACTGTTTCATTAAATAATTCATCAGTTTCTCCAGGGAAACCTACTATTACATCAGTAGTAATAGCTATACCAGGTCTAATAGATCTAATTTCATTTATTTTATTAATAAACTCATCCATGTTATATCTTCTATTCATGGCTTTTAAAATAGTATTAGAACCACTTTGAAGAGGTATATGAATATGATTAACTATTTTCTTTGAGTTCTTTAAAACATTCATAAATTTATCATCTAATTCAACTATTTCAATTGATGATATTCTAATTCTTTCTAGTCCATCTATCTTTTCTATTTCAGAAAGTAAATCACTAAAATCATAGTTATCTAAATCTTTACCATAATGGCCTGTATGAATACCAGTTAAAACAACTTCTTTATATCCATTATAAGCTAAAGTAGTTATTTCTTTTATAACTAAATTCTTAGGTTTAGATCTAACATTACCTCTAGAGTATGGAATAATACAATATGTACAATAGTTATTACATCCATCTTGAATCTTTACAAATGCTCTTGTATGATTCTCAAATTTATCTAGATTCATATCTTCAAACTTAATATCTTTTAAATCAAATACTCTAACTATTTGTTTTTTATTAGTTTTATATTCCTCAATTAGATCTAATATTTTAGATTTATTATTAGTACCTATAACAATAGATACTCCAGGTATTTTAGAGACTTCTAAATACTTTATTTGAGAATAACAACCCATTACTATTACAATAGCATTTTCTCCTCTTTTAACAGCTTCTCTAATCATTTTTCTACTTTTAGAATCAGCTGTATTAGTAACAGAGCAAGTATTAATTACATATACATCTGCTTTTTCATTAAAAGGTACTATTTCATAACCATTATTCTTAAACATTTCTATATTTACTTCAGTTTCATAACTATTTACTTTACAACCTAAAGTATAAAAAGCTGCTTTCATAATAACTCCTTTTTTCATAAAAAAATATTCTATATATTTTAGAATATTTAGTCAACTCTAATAGAATATTTTTTTAATATAGATATAATTCTAGAAGAAGACATACCTCTATTCTTTATTACATCTTTACCAGATGATAATAAAGGCATTAATTCTTCTTTTTCATAATTAACATAGTATAAATATTTAGAAGGTCTTTCTGTTTTTACAGTTCTTCTATAGTATTTATCTTTTAGATTACCAATAAACATATTTAGATAACCTTTATCTTTTTTAGTTATTTTTTCAATCTTATTTGATGTACTGTTCTTAATATCATCTAATTTTTCATCATAAGTTTTATCACCATATGATACATAATTATATGTATAAATAGTTCCATCATTAGTTAAATATTTACCACGAATTTCATTGTCTTCAATTGTTTCTACAAAGAAAACAATTTCTTTGGCATCTAAATTTTCATTAATAACATCAACACTTTTAATAAAATAATTTTCTAATGCATTAAATGCATATAAAACTAATATTATTATAAATAATGCTATTAAAAAGTATTTAAATAACTCTCTTTTTTTCATAATTACTCCTAAAAAAGTGATCTTATAGACCACTTCTAAATTCTTTAAGTCTTCCTAAAAATTCATTTTCTGTATCTTCTTCTTTTTCTTCTTTTTCTACACCATATATAGGAGATACAAATGTAGAAGGTCTAAACTTACCATTATTATATACTTTTTCTTCTATTTTCTTTTCTATTTCTTTATTAACTTCTTTTTTTGGATAAACTACTTGTTGAACACCTGCTTTTTTACATAATTCACCATAACTAATAATAGCATTCTCTTCTTGTTCTCTTTCAAAATCAGTTAAATCAAATTCTTCTTGTGAACCTATATTCATCATTTCTACTAATATCTCATCTATATCAGATACCGATTCATCTAAAGTTTCTATTTCTTCCATTTCTTCTTTAACAGATGTATTATAATTTTCAATTATTTCTTCCTTAGTCTCAGTTTTTTCTATAACAGGATCTACTTTCTTAACTTCTTCTTTTTCTTGTTTAATAAATTCTTCATTTATTTCTTTATCTATTTTTCTATAATGCTTTTTAGCCTTTATTTTAGATATTATATTCATTACTAAATTATATAAACCTATTATAATTAATAAGGCAATTATGACTAAAATAATTATTATTAATAATTTGTTGCTTCTATCTAAATTTGAATACATGTAAATAATATTTTTCATAAGTTCACCCTCTATTAATATGTCTAAACTAATAATATCATAATTTATAAAAAAAATACTATAAATTTTACATTTTTTGTAAAAATATTTAATTTACTTATGTAAAGCATATATGATATAATCAATTTAGGTGATAAATAATGAATAACGAAAACTTTTCAGATGATTTTTTTGAAGCAAATAATGATAATATTTTTAATGAAGAAAGTGTAGAAATAAAAGAAGATAAAAAAGTATCATTAAGTATATTAGATAATTATTCTGATGAATTAACTGCTAAAACTTATGTTACTAATCCTGCTATTTCTAGAGAAGAGCAACTTAAGAGTATGATACTTATACTACTTTCTCCAGAAAAATCAGTAGTACTTACAGGACCTGCTGGTGTTGGTAAAACTTCTTTAGTAGAAGGTCTAGCATTAAAGATTCAAAATAATGAAGTACCTAATGTATTACAAAATTTTAAGATTTATAAAATAAATACTTCTTCATTACTTGGTAATTATGAACATGATGGTGTTGTAGAATCTAAATTACAATTATTAATTAATGAGGTTATTGATAGAAAAAATACTATTCTATTTATAGATGAGGTTCATACTTTAGTAACAGCTGCTAGAAATGGTGGCGGTGTAGACTTCTTAAATATGTTAAAACCTTGTTTAGATAGAGGTGATCTTAAAATAATAGGAGCTACTACTACTAAAGAATATGAAGAATTCTTGTTAAAAGATAAAGCATTTATTCGTAGATTTGAAAAAGTAGAACTTCCTGAACCAGATGAAGAAACAACTATTAAAATAGTTATGGGTACTAAAAAGAAAATAGAATTATCTACTGGAGTTATATTCCCATATAGTGATTACTTATTAGAACAAATAGCAAAGTTTATAGTTAATATTACTTCTAAATACAAAAGAAGAGCAGAAACAGGATCTAATTATCCAGATATAGCATTATCCCTATTCTCTTCATGTTTTACATATGCAAGATTTGATAATGCTAAACAAGTAAATTTTAAGTATATTTATGACGCAATAAAGAATACTAGACTAATTTATCCAGATGTTGTACAAAAGGCTCTTCCTGAGTTTAAAAATACCTTTAAAGATTGGATAGAAAAAGAAGGAACTGAATTAGAATAAAAAAAGATATCATTTGATATCTTTTTATTTAAACATTTTTAAAAACTTCTTAATAATACCATCATTATCTAATTCAGTATTAGAAAGTTCTTTAAATAATTCTTTTTGTTTTCTATTTAATTTAGTTGGTACAACTACATTTACTATTATATAAAGGTCTCCTACTTTACTAGATGATATATATGGAATACCTTTACCTTTAACTCTTAACTTATCTCCATTTTGAGTTCCTTCAGGAATAGTTAATGAAATAACAGAACCAGGTATTTCAACATCTATATCAGATCCTAAAGCAGCATCTGCTATTGTAATAGGAACTTCCATATATAAATCATTACCATCTCTTTTATAGATATCATGTTCTCTTACTACAAATTCAACATAGATATCTCCATTCTCACCACCATTTTTACCAGGCTCACCTTTACCTTTAATCCTTACTCTAGAACCTGTATCAACACCTTTAGGAATATTAACAGATATAGTCTTTTTAGTCCATACAGAACCAGTTCCTTTACAAGATGTACATTTATGTTCAAATGTTTTACCAGTACCAGAACATTCATCACATGTAACAGTTGTTTGAATTGCTCCAAACATAGTATTTTGAACTTTAGTTACTCTACCTGAGCCACCACATTCTGGACATGTTTTAGGTTTATCTCCACCTTTGCCTTTACATTCATCACATATATCATACATTTCAATTCTAATATCTTGTTCACCACCAAATATAACATCTTCAAGATCAATAGTAGTTCTATATAAAATATCTTTACCTTTAGATGGTTTATTTGATTTTCTACCTCCAAAACCAAATCCTTGTCCAAACATATTAGAAAATATATCTCCAAGATCAATATCATCAAAACCAAATGATGATGAATTAAATCCTCCTTGATAATTACCTCCAAATCCAGAACCAGTTTGTTGATCAAATGCTGCATGTCCAAATTGATCATATGTCTTTCTTTTGCTTTCATTAGAAAGCACATCATAAGCTTCTTGAACTTCTTTAAATTTTTCAGCAGCATCAGGAGCTTTATTTAAATCTGGATGGTATTCTTTAGCTTTTTTTCTAAAAGCAGATTTTATTTCTGCTTCAGAAGCAGATCTATCAACACCAAGGACATCATAATAATCTCTTTTTGCCATTACTTCACCTTCTCTATAAGTTTTTCAAACTCATCTACTAACTTACTATAATAATTAATAGCACTTAAATATACATCTTTATCATGTACATCTATTCCTGCTACTTTAAGTTCATCTTCAGGATACATAGATCCACCTGTTTTTAAGAACTCTATATATTTTTCTTTAGATTCTTCTTTATTATTTAAAATATCATTTACTATTTTAGTAGCATATATAATACCTGTAGCATAAGTAAATACATAAAAATTACAATAGAAATGAGGAACTCTAGCATATTCATAACTATAATTATCATTATAGTTAATTGTATCCCCAAAATACTTTTTACATACTTTAGAATATTCATTACTTAATAAATCACTATTAAGAATTTCACCTTTACTAGATAATTCATATATATTTTTTTCAAATTCTTGAAACATTGTTTGTCTAAATAATGTTGATTTATAAACATCTAATAAATGATTTAATACATATAATTTTTCATTATCATCATTAGAATTATTAATTATATAATTAGCTAATAATAATTCATTTACAGTAGAAGTTACTTCACCACAATATATAGTATAGAAAGAATCCTGGAAAGTACAATTCTTATTTGAATAATATGAATGCATAGAATGACCAAGTTCATGAGCAACAGTACTTACATCATTTAATTTACCTTCATAATTAATTAATATAAAAGGGAGAGTTCCTTTTATACCAGTAGAATAACCTCCAGATCTTTTTCCTTCAGTATAATAGACATCAAACCATCTATTATTAAATCCATCTTTAGCAATAGATATATATTCTTCACCTAGAGGACTTAATGCATTCAATACTATTTCTTTTGCTTCTTCAAATGTATATTCTTTATTAAACTCTTTAACAATTGGAGCATGTAAATCATAGAATTCTAAAGTATCTACATTTAATACTTTCTTTCTTAATCTATAATATTTATATAATGGTTCTAGATTATTTGATACAGTATCTATTAATGTATCAAATACATCTTTACTAATATTATCTTCAAATAAAGAAGCTTCTAAAGCACTATTATAATTTCTAACTTTAGAAATAGTATTATAAGCTTCAATATGATTTGATAATGTTTTACTTAAAGTATTTTTAAATTGTTTATACATACTATATAAGCAGTTATAAGCATCTTTTCTAACTCTTCTATCAGATGAAGCCATATATAAATTATAATTACTATCATTTAATTCTATATCATTACCATTTTCATCTTTAATAGTTCCATATTTTAAATCAGAATCAGTTATTATTTCAAATAAATCTGATGAAGAATCAAATGCTTTTCCTAAATTAGATATTAATTTTTCTTCTTTTTCAGATAATACATGTTCTTTTTCTCTAAATATCTTTTCTAAAGTAAAAGCATATTCTTTTAATCTATTATCATTATTAATTTGATTAAGTATATCACTATAATCATATTTTAATAACGCTGGAATCATATATGAGGATAATTTAGAAAAATCTTCATCTAAATTTGATACTTTTCCTACATATTCTTGATACTTTTCATTTTTAGTATCTGTATCAAATAATAAATGAGCATATAAGAATAATTTATTAATAAAATACACTATATCATAATATGTATATATCATATCAAATAAACATGATAAATCTTTTTTAATTAATTCTTCATATTTAGATATATTACTTATTTTATTCTTTATGTTATTTAATTCTACTAAAAAATCTTCTTCAGTATTATATATTGTTGTTAAATCCCATTTATATTTATTATCTATTTCAGTTCTTTTCATATATGACTCCTTAACATAGAAAAGGAAGTTCTAGCTTACTAGAACTTTCTTTTATTTTTCTTCGTATTCAGCTTCTTGAACGTTATCTTTTGCTTCTTCTTTTGTTTCTTCTGAAGCACCTTCAGCATTTTGATTTGCTTTAGCAGCTTCTTCATAAACTTTCTTACCTAATTCCATAGCTTTATCATTTAGGTTTTCTTTAGCTTTATTTAATTTATCTATATCTTCAGATTCTAATGCTTCTTTAGCTTCTTTAATAGCTTCTTCAGCAGCATCTTTATCTTTTGAATCTACTTTATCACCAAGGTCTTTAATAGCCTTTTCAGTAGCATAAATTAATTGTTCTATTTCATTTTTAGTATCAGCTAATTCTTTTCTTCTCTTATCTTCTTCTTTATTAGCTTCTGCTTCTTTTACCATCTTATCAATTTCTTCATCAGAAAGTGTTGTATTAGATGTAATAGTAATAGATTGTTCTTTATTAGTAGCCATATCTTTAGCTTTAACATTAACAATACCATTAGCATCTATATCAAATGTAACTTCTATTTGAGGAACTCCTCTTGGAGCTGGTGCAATATTTCCTAATTGGAAATTACCTA
>sequence03
TTTCATCTGATGGTAATCTTTCAGATGATTTAGATGATATGAAAAAGAAAAAATAACCAAAAAATATTAAAAAAAGGAGTTGATCCAAATGAATGAAAAAACTAATATAAATTGGTTCCCTGGTCATATGGCCAAAACCAGAAGGGAAATTGGAGAAAAATTAGATTTAATAGATGTAGTATTTGAAGTGGTAGATGCAAGAATTCCTTTTTCATCTAAAATAAAAGATATAGATGATTTAATTAAAGATAAACCAAAAATAATCATTATGTCTAAAAAAGATTTATGTGATGAAAGTAAGACATCTAAATGGGTTAAATACTATGAAGAAAAAGGATATAAAGTATTAATGTTTGATTTAATGAAAGATAATATTAATAAGTTATATACTGTTACTGATGAACTATTAAATGATTTAAATCAAAAAAGATTAGAAAAAGGTCTTAAAGTTAGAAAATATAGAGCATTAGTTATGGGTATTCCAAATGTAGGTAAATCGACATTAATTAATAAACTAACTGGAAGAAGATCAGCTGGTGTAGGTAATAAACCAGGTGTTACTAAAGTAATTAGTTGGATTCGTATTAATGATAAATTAGAGTTATTAGATACTCCAGGTATTTTATGGCCTAAGATAGATGATAAAGGTGTAGCTTATAAACTAGCTTCTTTCTCTGCTATTAAAGATGAAATACTTCCAAAAGATGAAGTAGCATGTTTTATAATTGAGTACATGTTTAATAATTATAGATCTGCCCTTGAAGAAAGATACGGTGTTACAAATATAGATGACTATAGTGATGTATATGACGTTATCGGTAGAAGAAGAGGTTGTGTTATACGAGGTAATGAAGTAGATTATGATAAAGTATCTAATCTAGTTATTAAAGATTTACAAGAAGGTTATTTAGGTAGGGTAACATTTGATGAATGAGTACGAGAATAAATATTATAAACAAGGATATAAAGTAATAGCAGGTACAGATGAAGCTGGTAGAGGTCCATTAGTTGGTCCTGTTGTTGCAGCTTGCGTAGTGCTTCCAAAAGGATATACTAATCCTGAAATAAATGATTCAAAGAAATTAACTGAGAAAAAAAGAGAAAAACTTTATGATGTAATTATGAAAGATGCATTAGCGGTTGAAGTATGTGAAATAAGTGCTAAGGAAATAGATGAAATAAATATTTTAGAAGCATCACGTAAAGCTATGAAGACTGCTTATGAAAAAGTAAATAAGAAAATTAAAGTAGATGTACTTTTAACAGATGCTATGAAAATACCTCTAGATATTCCTGTTGAAGATATAATAAAAGGGGATGCAAAAAGTATTACTATAGCAGCAGCTTCTATAGTTGCTAAAGTAACAAGAGACCGCATTTTATTTGAACTAGATAAGAAATATCCAGAGTATGAATTTGCTAAGCATAAAGGGTATCCTACTAAGAAACATCTTGAAATTATAGAAAAGTATGGTATACTTAACGAGTACAGAAGGACATATAAGCCTGTTAAAAATATTATTGATAAGGGAATAATTAATTCTGATAGACAATAATATATAAGAAAGGAATTTAAATATGAATTTAGTAATAGTGGAATCACCAGCTAAAAGTAAAACAATTGAAAAATATTTAGGTAGTGATTTTAAAGTAGTATCTTCTAAAGGTCATATTAGAGATTTAGCTACTAAAGGTAAATTTGGTTTAGGAGTAGACGTAGATAATGATTTTGCTCCAACTTATATTCCTATTAAGGGTAAGAATAAAGATATAGCTATGCTTAAAAAAGAAGTTAAAGCTTCTGATAAAATATATCTAGCAACCGACCCTGACCGTGAAGGAGAAGCTATCTCTTGGCATTTAAAAGATGCTTTAGATATTAAAGAAGATAAATATGAAAGAATAGTATTTAATGAAATAACAAAAGATGCTATTTTAAATTCATTTGATAAAGCAAGAAAAATAGATGACTTAATGGTAAGAAGCCAAGAAACCAGAAGAATTCTAGATAGAATTATTGGTTTTAGATTAAGTAAATTGATGCAATCTAAAACTGGTGGAAAATCTGCAGGTAGAGTACAATCAGTTGCATTAAAATTAATTTGTGATAGAGAAGAAGAAATAAAGAACTTTATTTCTGAAGAATATTGGACTATAGATGCATTATTTCCTGATTTCAAAGCCTCATTATTTAAATATAAGAATGATAAAATTGAAATTAAAAATGAAATAGAAGCTAATAAGATTAAAGATGCACTAAGTAATACATATGAAATTGAAGGCATTGAAGAAAAAGATAAGAAGAAACAAAGTAAACCTCCATATATAACTAGTACACTTCAACAAGATGCAATTAATAAACTTAATTTCTCATCTAAGAAGACTATGCAAATAGCACAAAAGTTATATGAAGGTGTTAATATTGGCTCTGAAACTGTCGGACTTATTACTTACATGAGAACTGATTCTATTAGACTTTCTAATGAATTTATATCAGCAACATATAAATATATTGAAGAAAACTTTGGTAAAGAATATGTTGGATCTGTAAAGGTTAGTAAAAAGACTGATAATGTACAAGATGCTCATGAAGCTATTAGACCATCTAGTATATTAAGAGAACCTGATAAGATTAAAGAATATTTATCTACTGATGAATATAAATTATATAGTTTAATTTATAATAGAGCTTTAGCATCTTTAATGAAAGAAGCTAAACAAAAAGTTACTACTTTAACTTTAAATAATAATGATTACAAATTTAAAGCTACAGGTACAGTAACAGTATTTGATGGTTATTTAAAAGTATATAATGATGAAGAAAAGGAAGAAAAGCTACCTGATTTTAAATCTTATAAATCAAGTGTATTAGTAACTGATAAATTAGATTTAAAACAACACTTTACTGAACCTCCAGCAAGATATACTGAAGCTAAGTTAATTAAAGAAATGGAAGACCTAGGAATAGGTAGACCATCTACATATGCTCAAACAATGAGTACTTTAACTCAAAGAGGATATGCTAAATTAATAGAAAAGAAATTTCATCCAACTGAAATTGGAATTGAAACTAATAATAAATTACAAGAATTCTTTAGTAATTTAATTAATGTTAAATATACTGCTCAAATGGAAACTGATTTAGATGAAATAGCAGATGGTAAAATAATATGGAATGAATTATTAAAAGAATTTTATAAGGAGTTTGAACCTATGGTAGAAGAAGCATTTGATAAAATGGAAAAGAAAGAACCTGAAAAAACTGGAGAAAAATGCCCTGAATGTGGAAATGATCTAGTTATTAGAAAAGGAAAGTTTGGTGAATTTGTATCATGTGCTGGATATCCAGAATGTAAATATATCAAAAAAGAACAAAAAGCACCTGCTATAGAAGTATGTGATTGTATTAAATGTGGTCATAAAATAGTTGAAAGAAAAACTAAAAAAGGAACTACATTCTATGGATGTTCTAATTTCCCTAAGTGTAAGGAAGCATATTGGGATAAACCAGTAGGTAGAAATTGTCCTGAATGTAATTCAATGCTTGTTGAAAAAGATAATGAGATTAAATGCTCTGGTTGTGATTATAAAGAAGTGTAAAATATAATTTTACACTTTTTTTTATTTGTATTTTATGATAAAATTAAATAAAGGATAGAAAAGAAAGGGGCGCATGTATATGGCAACTAAAAAAACTACTACTAAAAAACCAGCTACTAAAAAAGCTACTACTAAGAAAGTTGCAGCTAAAAAAACAACTAGTAAAAAGTGGAATGAATCTACTATTTCAACATTTATATTAGCATTCTTCTTAATTGCTATTATTGTTTTATTAGCTATGTATATTTTCTTTAACTAATTGACATTATAATAAAAAAGGTATAATATACCTTTAAAGCGATGAAATAAGATTAGTAATATAATGGTACTTATAAAGAGAGTTCTTGGTTGGTGTAAAAGAACAAGTGAGTTATATGAATCTACTTATGAGTGTTGTAATAACAGCCGGTAATACCGTTATATTAATTAAGTAAAACAAAGGATGGTACCGCCTTATTAGGCTCCTTATACCATTCTTTTTTTATTTATATGGAGGATATATGGAAAGAACATTTAAAAGAGGAGATATAGTTAAACACTTTAAAAGAGAAACTTTATCTGAAGAAGAATTAAAGGATAATCCTAATAAGTATTTATATGAGATAATAGGAACCTCGAGACACACAGAAACAAAAGAAGAATTAATGATTTATAAACCATTATATGAAACTGAATGTACAGAAGGTGTAGACTATGCAGCTAGACCACTTGAGATGTTTATGTCTGAAGTAGATCATAATAAATATCCAAATATAAAACAAAAATATAGATTTGAGAAAGAAGGAGAATAACATGATAGATATTAAATTAATAAGAGAAAATAAAGATTTAGTAAAAGAAAACATTAAAAAGAAATTTCAAGATCAAAAATTACCTTTAGTAGATGAAGTATATGAATTAGATATTAAAGTAAGAGAAGTTCAAACTAAAGCAGATAATCTTAAAGCTGAAAAGAATAAATTAAGTTCTGAAATAGGTAAACTTATGTCTCAAGGACTTAAAGATGAAGCAGAAAAGATTAAATCAGAAGTATCTAAGAGTAATGAAGAAATAGCTTCTTTAGAAGTAGAACAAGAATCATTAACTAAACAAATAAAAGAAATAATGATGAAAATCCCAAATATAATAGCTGATGATGTTCCAATAGGAGAAGATGATTCTAAGAATGTAGAAGAACAAAGATTTGGAGAAGCCAAAGTACCTACATTTGAAATACCATATCATTCAGATATTATGGCTACATTTAATGGACTAGATAAGGATGCAGCAGGAAGAGTATCTGGTAATGGTTTCTATTATTTAATGGGTGATATAGCTAGACTTCATTCAGCAGTACTTGCTTATGCAAGAGATTTTATGATTAATAAAGGATTTACTTATTGTATTCCTCCATATATGATTAGATCTGATGCTGTTGATGGAGTAATGAGTTTTACAGAAAAAGAAAATATGATGTACAAAATTGAAGGAGAAGACTTATATCTAATTGGTACTTCAGAACACTCAATGATAGCTAAATTTAAAGATCAAATTCTAAAAGAAGAAGATCTTCCTATAACTATGACTTCTTATTCTCCATGTTTTAGAAAAGAAGTAGGAGCTCATGGTATAGAAGAAAGAGGAGTTTATAGAATACATCAATTTGAAAAACAAGAAATGATAGTAGTTTGTAAACCAGAAGATTCAGAAGATTGGTATAACAAAATGTGGAATTATAGTGTTGAATTATTTAGAACACTAGATATTCCAGTTAGAAAATTAGTATGTTGTTCAGGTGATTTAGCAGATCTTAAATATAGATCATGTGATATAGAAGCTTGGTCACCAAGACAACAATCTTATTTTGAAGTATGTTCATGTTCTAATTTAACTGATGCTCAAGCAAGAAGACTTGGTATTAGATATAAAGATAGTAATGGTAATAAAGTGTTTGCACATACTTTAAATAATACTGTTATAGCTCCACCAAGAATGCTTATAGCTTTTCTTGAAAATAATCTTCAGGAAGATGGAACTGTATTAATTCCAGAAGTTCTAAGACCATATATGGGTGGAACTGAAAAACTTATTCCAAAGAAGTAAGAAATTACTTCTTTTTTTATGTTATAATTATTTATAGGTGATTATATGAAACTAACTAAAGAAGAACAAAAATTATTAGATAAAGCTTCTTCATATAAATCTATAGTAAAAAAATATGAGTATATATATGATACTGTTTGTGATTATCTAGATAGTAAATATATAGGTTGTAACTATTGTGATTTTAAAGATGATGTATGTAAGTATTTCAGGAAAACAGATAAGAATCATAAAATGGGATGTTGTTACTCTGATAAAAGAGGAGGCCTTTGTCCTAATCTTAAAAAAGATGGATCATGTAATATAAAATCTATATCATGTAAATTATATGCTTGTCCAATGCTTAGAAATGAAAAATTATATTTTAAAATAAATGATATACCTTTATTAAAATATAATTTTAATTTAAAACAAAAATACTATATAAAACAATCTTTCTTTAAAACTAAAGAAGAAACTTTAATAAAATTATATGAGAATAAGAATATATATGAAGTAATAGATAATAATTTAGAAATATTTGTAACAGAAAATAATAAAAAAAAGATATTTAGAAAATTAAAAAATATAGTTAAATATTGTGATAAACATAATTATACTATTACTATTAATTCATTCTTAGATAATATTATGAATAGAGAATTACATATTATAGAAAAGGGAATAAATATAAAAGATAAGAAAAAAAGGTATTCTTTTGTATATGATGAAGTATGTAAAATATTAGATGAAAAAATAAGCATGAATTATTGTGAATTTAAAAATAATACTTGTTATAGAGATAGACAAAAGAATAATGGTCATAAAAATGGATGCTGTGAATGTGAAGGAAGAGGTAAATGCAAGTTTTTAATTAATGGAAACTGTACTATGAAATCATGTATTGCATGTAAATTATTTACTTGTTCTGCATTAAGAAAAAAAGGTATAAATGAAAAAGCATCTAAGTATTTACCATTAAAAGTATTCTTTACAAGTAAACAAATAGACATTTTATCTTATAGTTATTGGGTACCAAAAGATGTAGTAATAAAAAGACTATTAGATAATAAATTTGTTATGCCAAAAAATTATGATGATGAATTTAAATAATATGATATAATAGGTTTTGTTTTGAGGTGATACTATGAAAAAAAGTTTACCAGATTATAAAGAAGCTAGAAGAAGAACAAAAGAAGAAGTAAAAGTTCTAACTGATGCTTATATAATAGATAATGAATTAAGTAAACTAGGTATTAATATGAAATATCATATAGTTACTTATGGATGCCAAGCTAATGTAAGAGATAGTGAAACTATAAGTGCTATTATGGAAGATATGTCATTTACTAGAGTAGATGACATGAAAGATGCTGATGTAGTAATATTTAATACATGTGCTATTAGAGAAAATGCTCATAATAAAGTATTTGGTAATTTAGGTATAATTAAAAACTTAAAAGAAAAGAAAAATGTTATAACTATGTTTTGCGGTTGTATGGCTCAAGAAGAATCTGTTATAAAAATGTTAACTGAAAAGTATAAGTGGATTGATGTAATATTTGGTACTCATAATATTCATAATTTACCAAAACTTCTTAGTGAAGCGATGGATAAAAATGAACAAGTAGTAGAAGTCTTTTCTAAAGAAGGAGATATAGTAGAAAACCTACCTGTAAGAAGAGATAATAAATATAAAGCTTTTGTTAATATTATGTATGGATGTGATAAGTTCTGTACTTACTGCATTGTTCCATATACTAGAGGTAAGCAAAGAAGTAGAAGAATCGAAGATATTCTAAAGGAAGTTAATGCTCTTATTGCTGATGGTTATAAAGAAGTAACTTTAATAGGTCAAAATGTTAATGCTTATGGTAAAGATATGGAAAATTATCCTACTATGGCTAACTTACTTGAAGAAGTTGCTAAAACAGGCATTGAAAGAATTAGATTTGTAACATCTCATCCTTGGGACTTTACTGATGAAATGATAGATGTAATAGCTAAATATGATAATATAATGCCTTATTTCCATTTACCAGTACAAGCAGGATCTAATAGAATTCTTAAATTAATGGGAAGAAGATATACTAAAGAATCTTACTTAGAATTATTTAATAAGATTAAAGAAAAGGTTCCAAATGCATCTATTACTACAGATATAATTGTAGGATTCCCAGGAGAAACAAATGAAGAATTTGAGGAAACTTTAGATATAGTTAATACTTGTAAATATGATGGAGCATTTACTTTTATATATTCTCCAAGAGAAAATACTCCTGCTGCAGCTATGGAAGATAATATTTCTTTAAAAGAAAAAGAAGATAGACTTCAAGAATTAAATAAACTAGTAAATAAATATTATAAAGAAAATAATGAAAAGTTATTAGGAAGGGTAGTTCCTGTATTAATCGAAGGCCCATCAGAAAAGAATGATAATTTATTTTCTGGATATACTGATACTATGAAATTAGTAAATGTAGAATGTGACCCATCTGATATAGGAACTATTATAAATGTAGAAATAACTGAAGCTAAAACATGGAGTTTAGATGGAAAAAAAGTTAAGTAATTTAGATTCTAGTATTAAAGCATTAAAAGATGAAATATTTTCATCTAAAGAATACAAAGAATATTCTAAATCAAAAGAAGTATTAGATAATAATAAAGAAATAAAAGATATTATTAAAAGAATAACTAGTACTCAAAAGAAAATAGTTTCAGGTAAAAGTAACCTTGATGAGGAACTAGATACTCTATACGAAAAACTATATTCGTATCAAGAGTATAATGAATACATCGAGGCATCTACTAAACTAAATATATTAATTAGTGATACTGCTAAAGAGCTAGAAAATTATTTTAATAGTTTAATGAAATAAAATTCAGATTATTATCTGAATTTTTTGTTTACAGTTATATTACATCTATAATAGTATAGTATACATGTATTATGCTATAATTAAATTAATAATAGGAGGTATATATGTCAGTATATATTGATTCTTTAAAAGATTCAGAAAAACAAATAACTAGTTTAGAAGCACAAAAAAGGGAATTAGAGGAAAGATTACATAGATTAACAGAAAAAACATCAACAGGAGACTCTATGTACGTAGGAAATGATTTAGATGTACATGGTGGTAATACTGGTGAAAAGTATAAAGGATCTATAGAAGAAATAAAAGAATTAAATAATAAAATTAGTGCTATTCAAAGAGAAATAGAAGGTATTAGATTTAATGCGTCTAAAGTAGCTAATGAAGCAGTCCAAAACGATATAGAAGAAAAAGAATACCAAGAACAAAAAGAACTAAGAGATGAAGAAATAGCTAGGATGAGAGAAGTCGAAAGAATAAATACATTTAAAAGTATAAAAAGAGCATACTATAAAACAAAAGGTCATGGACTAGAAAGAGTATTTATAGCTATATCTGGAAGAACTCCTAAATGGAAAGAAATAAAGAATTATAGTCAAGAAGAATTAAATTATTTAAGAAAAACATATAGTGGTAATCTTTTAGGTGCTTTTAAGACATCATTAGATTCTACTGTTAAAAGAATGGAATCAAAAAAAGAGAGCATAGAAAAAATTGAAAAATATAAAAGCGACAAAGCATGGAGAACATTTACTAGTTTACTTGGTAGTAAACAAAGATTAGATAGTGCTGTAGCATACGAAACCAACTCGGGAAGACATATATAAGGAGAATAAACATGGAATATAATGAAATAATAAATGAATATAAATCTTTTTCAACAGAAGAAAAAAGAAAACTACTTTCTGATGAAGTGGCTGAATTAGTTTTAATCATTAAAAAATTAAAAGAGGATACTAATCTTAGTGATGAAGATCCTAATAATGATATATTAAAAAAGTTATATTCATCAGATAGTTCAGAAGATGAATATCTAGTAGGTATGTACGAAAACATATTAAAACTAAAAGAAGACTTAGGTGGATATTTAACTTTAGTAGTAGAAAACATATATGAATAAAAAAATAGAAATTCTTATGAATTTCTATTTTTTAATTTATTTATATAGTAAATAACTATACCACCAAATATGAATGCTATTAATATAGAACATGTTTTTGGTGTAGTCCAATGAATTCTATGACTTAGATTTAATGGAAGTATTAAAGCACTAGCAGTTATAAATCCAAGTATTAAACTCATTATTTTACCTTTATATTTCTTTAATAGTTTACTTAGTACTTTAGCAGCTATAATGATTCCAATCAAAGCTCCTATACCAAATATAGCTAGTTGAATTATTACATTCATTTTGAATGTAGTTAAATTATCTATAAGACTTCTTATTGTCTCATATTTTCCGAGTACAAGCATTACCATTGATCCAGATAATCCTGGGAATATCATAGAGATACCTCCAATAATACCTAGACCACTTAACATTAATCCATTTTTCAAATTAATTGTTGTATCAACATTATTAATTGGATTTTTCATATTAAAGTATTGTAATACTCCAATAATTAATAATCCTATTACAAAGAATATAATATTAAATCTTTCATCTTCCATTTCATTTTTAATTACTACTGGAATACTAAATAATATTAATCCCATAAACCAGAATATAGTTTCTGCTTCTAAATAAGTAAGAGTAATACCAAGTAATTTGGCAAATCCTACAATACCAATACCGGCTCCTATTATTACTTCTAAAACAAATAATAAACTTTTCTTTCTAGTATCTGTTTTTCTCTTAAATATATCACTAATAGCAAACATTAATTTATCAAATAAATTAAATATAACAAGCATTGTTCCACCAGATACTCCAGGAATAATATTTGCTATACCAACAAATATACCTCCAAATAAAGGACTTAAATCAAATCTTTTTTCATTAATTACTTTATTTTCTTTTTTTAATAGTTTTTCTTCTTTCTTTTTAAGCCTTATTTTTTGCTTTTTAGCTTTTGATAAATGTTTTTTCTTTTTTCCAACTCTTCCTTCTTTTATATCTTCATCTATTTTCTTAAACAGTTTCATATCCATCCTCCAATAAAATTATATCACTTTATTAAATATATTTCCATTATATTTTCCTATAATAATAGGACAATTATCTGGTAAATTATTGCTGTATATAAATTCAAATGAATATTCTTTATTATTTGATATTTTATCCTTTAAATATGAAATCCATTCTTCATAAGTATTAAATATATTATTATTTTTAGATTTATGAATGCAAGGACATAAATATATAATAAAGTCTTTTTTATATTTAAAACACATATCAATTATATTTTCAGTAATATTACATGGTCTAAGCCCTATAATTAAATCATATTTTGAAATATCATATTCCTTTTGCAAATCATATTTAATAGTAGTTATATCTTTATAATTATTAATTAAAATATTTGAATCTATTGCATCTATATTTATGTTATTATCTTTAAATAATCCAGATAAAATTGGTATTTTTCCACATCCGACTTCTAATATTCTTTTATTCTTTAAATCAAAATATTTCTTGGTAATATTATAAAATGTATTATAAATAGTAGTTTTAATATTTACTTTATTTAGATAACAATATATTTGATCTACATCACATGTATATCCATAATTACATTTTTCTAATCTATTATTTATAAAATACTCAGGATAAAATTCTTTGTTTTGTTTTATAAATTCTATAACTTCATTCATATTATTCACCTGTAATGTATTATATTATTGTTTTTTTGAATAATCTAGTATCATTTTAAAAATATTGACATTTTTAACTTAATTGATATAATAAAACTGAAAGTTAGGAAACTATTGCTTTCAAATTTTAAAGGAGGATTAACTATGAAATTTACTGTTAGAAAAATTAAAACTAATAAGTTTGCTTGTCATGTTGATCAAAACTGCTAGTTATAGTAAAAACTATTAACTTGAGTGGTAAAGGACTCTACTTGAGTCCTTTGCTATCCTTTAGGAGGATTAAAAATGTTAATTATAAATTCATTAAAACCATTCTATGTAGATAAAGAAAATAAATTAATAAGAATGGGTAATTTTAAAGATACAGCTAAAGAAATAGAATTTGAAGATGATAGTTTAATTATCCTGTTTAATAATGTACTTAATCCAATTTCTAAAGAAGATTTAATTAATAAAACAATGAAAGATACTGGATTATCAAAAGAAGATATTAATGGAGCTATAGAATATCTTTTAGAAGAAAAGTTTATTATTAATTATGATGATTATGAAAAACTATTAAATAGTGATTTAAATAGACAAAATATGTATTTTTCTATGTGTAGTGATGAATTTAAAGAATGGAATATAGATATTCAACCAAGAATATTAGTATTAGGCCTTGGCGGAGTTGGATCAAATGTTTCTTTATTATTATCAAGAGCAGGTTTTAAAAGATTTACTTTTGTTGATTGTGATGTTGTAGAAAAATCAAATTTAATTAGACAATTACCATATTCATATTCTGATATTGGAAAAAATAAAACTGATGTATTATCTAAATTATTATCTAACGAAGAAAATACTATTGATACTTATAATAAAAAAATTTTAAATGAATCTGATATAGAAGACAAAATAGTTAATTCTGATTTTGTAATATGTACTTTAGATAAACCTTCTAGAATAATTAGAAGGATTATTAATAAATTATGTATTAAACATAATAAACCTGTTATATTTTCAGGTTTTTCTGAACATGTTGCTATGATAGGACCTTTTATAGAACCAAATAAAACTGCATGTTTAATGTGTATAGAAAAACATATGAATGAAGAACCAATGAATAATGTTATAAATACTCCTTCATATGGACCTTTATGTATGTTAATATCTAGTATTGTTTCTAATGAAATTATTAATTATTATTATAAATTTAATAGTAATAATTTATTAGGAAAAACAATGATGATAAATATGCTTACATATGAACAGAGCATAATCAATTGGAATAAAAAAGAAGATTGTGAGGTGTGTCATAATGATAGTAAATAATTTAAAGAAGCAAATGGGTAACAAAGAAGTTTTAAATGGAGTTTCTTTTACATTATCTGATACCGAAAAAATTGGTTTAGTAGGTATTAATGGATCTGGTAAATCTACATTATTAAAAGTATTATCAGGAGAGATAAAAATGGATTCTGGTGATATTAAATTAGGTAGTCAAACAGTATCATATTTAAAACAAGAAATACCATTTGAATATAATGAATATACTATTATTGATTATATTAAGGCTGCCACAGGTTTTGATAAATTAGAAGAAAGATTACATCAATTAGAAAATAACCTTAATGATGAAAATATGAATGAATATAGTGATGTTCTTGAAGCATTTCTTGCAATAGACGGATATTCATTTGAAGATAATTTAAAAAACATATTATCTGGTTTAAATTTGAACGAAGAATTAGACTCAAAGATAGGTACTTTATCTGGAGGAGAAAAGATAAAAGTATTATTAGCTGTTGTTCTTCTTGAAAATGCAGATATTTTATTACTAGATGAACCAACTAACAACTTAGATTTAGAAGCTATTAAATGGTTAGAAAAAGAATTAAAGTCATCAGATAAAAAAATGATTATTGTTTCCCATGATGAAGTATTCTTAAATAATATAGTTAATAAAATATATGAATTATCTAATGGTATTATTAAAGAGTATAATTTGTCATATAAAGATTATTTAAAACAAAAGGATATTGAATATAATCAATTAAAAGAAAAATATGAAAGTGCTCAAGAACAAAAAGATAAACTAAAAAAACAAGTTCAAAAAGCTAAAGAATGGGCTAATAAAGGTACAAATAAGAAAGCACATAATGATAATGATAAATTAGCTAATAATTATGCTAAAGAAAGAACTAATTCTGGGAATGTATCTAGATTATCAAGAGAATTAGAAAGTATTGAAATACCTAAATTTGAAGAAAAAAGACCTATTAAAGTATTCTTTAATTTTGAAAATTCTAAAGGTAATAAAGATATTTTATTAAGTCATTTAGTATGTGGTTATGATTCCTTTACTACTCCAGAAATAAATTTATTAATTCCATTTGGAACAAGATTAAATGTTACTGGTGGAAATGGTTCAGGTAAAACAACATTAATAAAAACAATTCTAGGACAAATAGATCCATTATCAGGAGAAGTAAGAATAGGTAATGATGCTAGAATTGGTTATATTTCTCAAAACACTTTAGATAGTCAAACATCTGATAGTATTTATACATATTTAACAAAAGAAAAAGAAGATGTTGATAAATCATATATATTTGTTTTATTAGATAAATTTAATATTGGGTATGATGATAAAGATAAAGCGTATTCATCATTATCACCAGGAGAAAGAACAAGAGTTAATTTAGCAAAATTAGCATTAGATAATATAAATGTTATAGTACTTGATGAAGTTACTAATCATTTAGATAAAGAAGCATTAGATTTAATATATGAATTAGTTAGAGATTATGAGGGAACTATTATAAGTATTTCTCATAATAGAAAATATAATGAACAATTAGACGCTAATGTTGAATTAGATGTTAAAACTGGAATAGTAATTCAAAAGAGTTTAACTAAAAAGTAATAACAATAATATAATATGTGGTATTATATATTTGAAAGGAGTTTCTTATGAAAAACGAAAAAATAAAAAATGTAGCTGGTAAAAGTAAAGGATTTATTGGAGAATTCAAGGCATTTGTTCTAAGAGGAAATGTAATGGATATGGCTATCGGTGTAATTATTGGTGGTGCTTTTGCTACTATAGTTACAGCTTTAACTGATGATTTTATAAATCCTCTAATTAATTCTATAGGAGGAGCTGAACTTAAAGGACAAATTAAGATTTGGGGTGGACAATATCTTAATTGGGGTCATTTTGTAACAGCAGTTATTAACTTCTTAATAATGGCATTTATTCTATTCTTAATGCTTAAAGGTGTTAATAAATTAATGGAAGTTGGAAAGAAGAAGAAAGAAGAAGAAGCAGCAGCTCCAATTAAAACTGATGAAACTATTTTATTAGAAGAAATTAGAGATATTTTAAAGAAAAATAAATAATAAAAAATGATATACAAATACTTGTATATCTTTTTTATTTTATGTTATAATTTATTTGCAATGTTTTTTGGCGATGTAGCTCAGTTGGCTAGAGCGTCCGGTTCATACCCGGAAGGTCGTGGGTTCGACCCCCTCCGTCGCTACCAATGTAAATAAAGAGAATCATTTGATTCTCTTTTTTATTGTTATAGTGTATAATATTTATAGAGGTGTAAATATGGATATTATTAATATAATTGATGAATATGTTGAACTTAAGTATCAATATGATTTTAATAAGTTTTTTGTTGAACTTTATAATGAAAGACCAGATTTAGAAATAATAAAAAAGCAAGCAAAAGAATCCCAAACTAAAATGGATGAAATAAAACCTGAACTAGATAAAAGGTATGAAGAATATGAAAGTGAAATTAAATTGTTATCAAAAGAGGGTTTGAGTTCATTATGTGAACAATTAACTACTAAATGGCATAATCTATGCGAAAGAAGAAATTTTTTAGATGATAAGTCTGTAAAGTTATATGAGCAAGGACAAGATCTTGATCAAAAAGAAAATTTTGAACTACAAAAAATTGGTGTAACTATACATACATATAGTTCCTTTATTTTTGATATAAATCAAATGATTGGATTTGGTACTAAATAAAAAGACTAAAATAATTAGTCTTTTTTTATGTTATAATTTTTATAGGTGATATTAATGATATACATAATAATTATTGCATCTATATTAGTTATATTAGCCTTAATATATATTTATTATGAAAACTTTAGAGTTAAAGAAACAAAATATAATATTAAATCTGATAAAGTAAATGGTAAATTTAAAATAATTCAAATCTCTGATTTTCATAATGAAAGAAATAAATGGTTACATAAACAATTGATAAATACTATTAAAAAAGAAAAACCAAATATTATAGTTATAACTGGTGATTTAATAGATACTTATAAGAATGAAAGCGTTAAAGTCTTATTAGAAGAAATAACTCCATATGCTTCTATATATTATGTATCTGGTAATCATGAATATGAACATGGTGGATATAATAGATTAAAGAAGATTCTTTTAAAACATAAAGTAAATATATTAGAAAATGATTGTATTAATCTAGATAATAATATTACTTTATATGGAATTATGGATCCAAAATTTGCAGAAAAAGAAGATGAATATAAAGTAATAAAAGGTTGCCTAGATAATTTTAAAATTAAAAGTAATAGATATAATATTCTTTTATCACATAGACCAGAACATTTTGAATTATATACTGAATATAGTTTTAATTTGGTATTCACAGGTCATGCTCATGGAGGACAATTTATTTTTCCTATATTAGGTCCTTTATTTGCTCCTCATCAAGGAGTATTACCTAAGTATGCTAAAGACAATCATAAAAAAAGAAATACTAATATGATTGTAAGTAGAGGAGTAGGTAATTCTTTATTCGCTAGAATAAGAATAAATAATAGACCAGAATTAATAATAGTTTCACTATCTAAATAGTGGAACTTTTTATTTTATATCTAATATAATATATAGGTGTTATTATGTTAGAATTAAAAAATATATGTAAAAGTTATAATAATGATGGTAATCATCAAGTAGTATTAAAAAATATTAATTTAAAATTATCCGACAAGGGGATAGTGTCTATAGTAGGTAAGTCAGGATCCGGTAAAACAACACTTCTAAATATAATAGGGAGTCTAGATAAAAGTGATTTTGGTGAAATAATAGTAGACAATAAAAACATTAGAGAATTTAGTGAAGAAGAATATGATAGTTATAGAAATAAATATATTGGATTTATATTTCAAAACTATAATTTATTAGATCATAGAAGTGCTCTAGATAATATAAAATTAAAGTTAATTATTTCATCTGAAGATGAAAGTAAAATTACTTCTTTATCAGAAGATTCTCTTAAAAAAGTAGGTTTATATGATTATAAAGATAAACTTACATGTAATTTATCTGGTGGAGAAAAACAAAGAGTAGCTATAGCTAGAGTAATAGCATCTAATTCTAAAATAATACTTTGTGATGAACCAACAGGAGCCTTAGACAATAAAACAAGCACAGAAATATTAAATATTTTAAAAGAGTTATCTAAAGATAGATTAATTATTATGGTTACACATAATATGGAAATCGCTAAAAAGTATTCTAATAGAATTATTACAATGCAAGATGGTGAAATAATAAATGACACTTTAAATAAAGAAATAGTATCTAGTAATGAAGAGTTAAAATTATCTAAAACAAAATTAGATATTAAAACTATATTTGATTTAGCATTAAATAATTTAAAAATAAAAAAGAAAAGAAATATATTACTTTCTTTAACGGCCTCTATAGGAATAATAGGTATATCTATAATATTATCTATTTCTAATGGATTTAATGATAGTTTAAATGATTATAAGAAGTATATATCTAATAAGATACCAATAGTAATATCATCATATAAAAATAATAAGGATAATAAGAAATATATAAATTCTAAAGTAATAAGGATTAATAAAGAAGATAATTCAAATTATATTAATAATAATTTTATTACACATTATAAAAATATAAATAAAGAATATATTTCTTATTCTAAATATTATTATTTAATTAAATTAAATCTAATTCAATATAGTGATAAATATTATGAAGTAGATGATAGTATTTTTAAAACTATGCCCACAAATAATATTAGAGATAGTTATGATGTTTTAGAAGGTAGACTTCCATCTAAATATAATGAATTATTATTAGAAATTAATTCTGATAATAGTTTTTCTAAAGAAATATCTAAAGCATTAAATATTAATGATAATGATTCTTTAGATAGTGTTATAGGAAGAGATATAAAACTTGTTTTAAATGATAATTATTATATAAAAGTAGATGATTACTATAATAAAAGAGAGATTAATAAAGAAGTATATGATAATAAAAATAATATTTCTTTAAAAATAGTAGGCATTATAAAAGTTAGAAAAGATAAAAAAGAAGAAGTGACTTCTAATAATGTTATTTATTATAAAGATTCTTTGGTAGATTATATTATTAATAAGAATAAGACTTCTAATATAGTAAATGATCAAAAGAATAAGAATTATAATCTGTTAACTAGAGAATCTTTAATAGATAATGATAAAAATGATTTATTATGTTTACTTGGAAAAGAAAAATGTATATCAAGTATATTTATTTATCCGTCATCTTATGAATCAAAAGATAAAATAATAAATAGTATTAATAAATATAATAATGATTATATAAGTAATAAAGTATCTATAATAGATGAATCTAAAATAATGTATGATATGTCTATTAAGATAATAGATATTATAACAATAGTTCTTATATGTTTTTCATCTATTTCTTTAATAGTATCTTCTATTATGATTGGAATAATAACTTATATATCAGTACTCGAAAGAAAAAAAGAAATAGGAATACTTAGAAGTATGGGTTCTAGTAAAAAAGATATTAAATTTTTATTTATTATGGAAAATGTTTTACTTGGATTTTCATCTGGTATAGTAGGTATATTTATATCCATTATGTCTTCTCCAATAATAAATACTATATTTAAAAGATTATTAGAAACTGAGTCTATATTTTTAATGAAGTTTTCAAACAATATAATGTTAATACTATTAAGTATATCTCTTAGTGTTTTAGGGGCTTATATACCCTCTAAAAAAGCTTCTGATGAGAATATAATTACTTCACTAGAAAGTATATAATTATTGATTTTTTATATTAATTAATATAAAATATTTACTTAATAAGTAGGGGGTAATATGATATGAAAATAACTAAAGTATCTTTTTTACCAGATTCTAATGAAATTGAAGCAATATTGGATAACATTTTATATAATGTTGCTGATTATATGAATGCATCAAATGATACTGCTTTATTTGGAGAATTAAATCAAAGATTTATAAGAGAAACAGGACTAATTAAATCAAAAAGTGATAAATTTTATTTAATAAATGGTATTCATAGAGTATTTAAAAGGTTTAAATCAAAAATAAGCATGAAAGAAAAATTGTTTCAAAGAATGTCTAATATTGAAACAGTAGAAAAAATTTTAGAAAGATCAACTTTTAAAGTAGGTAATTTTGAATGGAAAGTAGTTGTTCATGGAGCAGATGATTATCATGAAAGAGATTTACTTGCTAATTGTTTATCAGACTATGATACATTTTTAAATGCCTTAGATGCTGGTGTAATTGAGATTATTAATACTATAAATATACATGATGAAATAAAGATGGATACTTCCGAATTAAACTCAACAATACTTGAGGGACTTGAAGAAAAGAAGTTTAGTTTTTATAGAAATCCTATAATACTTAAATATAATGATGAAGAATTGTCTAGTTTAATTAAAGGATATAAAGAAGTAACTTCTGAAGATTCAGATTATGCTTATGATCATAATAATCCAGATGGATTAAATAATATTTATAATTACTTTATTATAGAATATTTACAGGAATTAAGAGATATAGCATTTAGATTATATTGCATTTATAGTAATTTTTTAATTTCTGGAATAAGTATTTTAAATATGGATGATGAAGGAGAGGAAATCTTCCATAAATTATATCATTTTATTAATTTAGAGGATTTAGAAGAATCAATAGACAAGAAAGATGATTATTTAAAACAATATGATAATTTATCACATTTTTATAAAATGTATATTCATAATCTTAAAATTGCTTTATTAGATGCTTTAAATAAATGTAATTGTAAGGACTCAGATACATCAAAAAGAGTAAATACTGATCCTGATTATAGTGAGTTAACATTAAAACTAATATATTCATTAAAAAATAATAAAAATTAAGAATAGTATGCTATAATATTATTATAGAGGTGATTGTAATATGATGTATAATGATTTCGCTGATATTTTAGAATATGCTGATAAGCATGGTCTTGATATTGAAGCAGCATTTTATTCTAAATATGCATCAGAAACTAAAGAAAAGAGAATAGAGTTATTAAAAGAATTTAGTACTATATTCGATGAATTAAGATCTGAGATAAAAAAGGAAGGATTAACACCAACTCCAAAATTACTTATTGCAAGAGCAAGAAAGTTTATTCTTAAAGAAGATATAATCCAAGTAGATAAAGAAGGAAATGAAAAGAAAGTTGGAGAAATGAAATTTGAAACTGATAGACTTCCACATGGAGAATTTGGAGGAATAACATTAGAAGACCATAATAATGATTTATTATATGGAGATAAAAAACCAAAAACTGATACTTTTGGTGGTATAGTTATTCCTGAAGAAAAACCAAAAGAAGATACTTTTGGAGGAATAGTAATTCCAAAAGAAGATTCTGATTCTAAAACATTATTATTTGGTGATCCAGATGATCCAAGAAATAAGAAATCTGATGATCAAGGTGGAGGGCCTAAATTCTAAAATAAAAAAGACTTATTAAAGTCTTTTTTTATTTTATATAGTATATATCTATATCTACATCAGCACCTATACCATCTATTTTACCAATATTAGTTCTTTGCCATAATATATATTCACCTGCATAATTAGTTTCAGAAGTATAATGAGCAAGCCATACAGGATAATTTTTTTCATTTATCCAAATATGTTCTAAATACCATTTAGATGAATAAAGCATAGTATCATATCCAGCATCTTTTAATGTTTTAGCAAACATATTTAATGACTTTTCTAAATCATAAGTGTTTATACCATATGATCTAATTTTAGACCAATTCTCAAAGTCATATGCTACTGGAAAATCTAATTCAACATTATCTAGGTATTTAATTGTTTCCTCGGCATGTTCTTTTGCCATATCTTCATTAATAGCACTAGTAAACACATATACTCCAACTTTTAATCCAGCTTCCTTAGCACTTTTAATATATTTATCATAATATACATCTTTAGATATATCTTTATCTATATCACTGTTTATTCCAATTCTCATAATAACAAATTCACAACCAGCTTCTTTTACTTTATTAAAATCTATATCTTCTTGCCATCTACTTACATCAATACCTACCATAGTATTCTCATTCTTATGTTTTTTTAATTCTTCTTTAAATGATATATTAGTCTTTTTAGAAGGTGAACTAGAATTAGATTTTGGTTTTTCAGTAACCATTTTTAAAGTTACATCTTCTTCTACAAAATTACCACTTTTATCACTTATTTTATATTTTAAAGGATAATCTTTAGCAGTATGTATATCATATTCTCCAATAACTTCACACCAAGGACTTCTATCATAATTATCAATATAATTAATATCATCACATAAATCAAAATCATCACCAAGAACATGAACTATACTAGCATAAGAACTAATTATAATAGGAGATTCATCATCTATTACTTTATATTTAAGTTTATATCTATAATCTCTTTTACCGTACTTATAACTAATTTCTATTTCTTTTTCACCAGTTTCACTAGTATCTAGTTTTTTATTTTTAGTAAGTATTTCTACATTATTATCTCCAATTAAATCATATATCTTAGATTCACTACTATATACTTTAGCTTCTACTTCATTAGTATTTATATAAGCATCTTTAGGCATTTCATATTTATCATATGAACAAGCACAAAGTAAAAATACACCCATTAACAATATTATTCTTTTTTTCATATTATCACCTATAATTCATTATAACAAATATGTTATAATATATCTAGTTTGAAGGTGATTTCTATGAAAAGAATTATTATTATAGGAGCTGGAGCATCTGGTTTAATGTGTGCTATTAATTCTAAAACCAACCTTAATGAGGTAATAGTTTTAGAAAAGAATTCTACTCCTGGCAAAAAGATATTAATGTCTGGTAATGGAAGATGTAACTTTTATAATGATGATCAAAGTATAAATAGATATCATTCTAATAGTAGTAAGATTAATAAAATTTTTAATGACACTAGTAGAGTATTAGATTATTTTAATAGTATTGGTATTAAATATACTACTAAGAATGGATATTATTATCCATATTCAAATAAAAGTGAAACTATTAGTAATGTACTTATAAATGAAGCTAATAAAAAGGGTGTAAATATTATATGTGATTATGAAGTTAATACTATTTCTAAAGAAGGTAATGAGTTTATAATTAATAATGATTTAAGATGTGATGTATTAGTATTATCTACAGGAAGTATGTCTGGTATTAATTATGATATCTTTTATGGATATGATTTCTTAGATAGTTTTAATTTAGAAATAGTAAGACCACTTCCATCACTTACTAAACTTATTTGTGAAGGCTCATTCTTTAATAAATGGAATGGTATTAGAACAAAAGCAATAGTATCTTCATTTGATAATGATACTTTATTAAAAGAAGAAGAAGGAGAAATTCTTTTAACAGATTATGGTATTTCTGGTATATGTGTATTTAATATATCAAGAGATATAGTAAAACTATTAGATGATGGTAAGACTCCTAAAGTAAAGATTAATTTTATGGAAGACTTTTCAATAGAAGATTTATTTAATAATAATGATTTAACTATTAAAGAAACATTAGATAGAGTATTAGATGAAAAATTAGTAGATGTAATTTTAAATAAATATCATATTCCCAAAGATAAAAAATATGATGATTTAAATAATGAAGAAAAGAATAATGTAAGACATGGTTTATATGCATTTGAATTAAATGTAATAGATTATAAAGATTTTAAATCATCACAAGTAACACAAGGTGGATTATCACTTGATGAAGTTAATGATAATTTTGAAACTATAAAAGTTCCTAATTTATATGTAATAGGAGAACTTCTTGATATAGATGGTGATTGTGGTGGATATAATCTTACATCAGCATTTTTAACTGCTTTAAAAGCATCTGATAAGATAAAGGATTTAAAATGATTAGAGTATGTCAAATAAAAGTAAGTATTTTAAATGATTTGGAAGATACTTTAATTAATAAATTAACTAAGATATTAAGAGTAAATAAAGAAGATATTATTTCTTATGAAATAGATAAAAAATCAATAGATTCTAGAGATAAAAATAATATAATTTATGTTTATAATTTAGATGTAAATGTAAAGAATGAAGATATTGTATTATCTAGAATAGATGATAATAATGTTAGAAAAGTAAATGAAACTAAATATGAATTTAAAGTAACTGGAGAAGAAATAATATCTAGTAGACCAGTTATAGTAGGAGCAGGTCCTGCAGGACTTACTTTAGGATATATTCTTTCTAAATATGGTTATAAACCAATTATTATAGAAAAAGGTAAAAGAGTAGAAGAAAGAAAAGAAGATGTATATAGATTCTGGGAAGAAGAAATCCTAGATGAAACATCAAATGTACAGTTTGGAGAAGGTGGAGCAGGAACTTTCTCTGATGGTAAATTAAATACACTTGTAAAAGATAAATATGGAAGAAATAAATATGTATTTGATTTATTAGTTAAAATGGGTGCTCCAAAAGAAATAATTTATGATAGTAAACCACATGTAGGAACAGATAATTTAGAAAAAGTAGTTATAAATTTTAGAAATGAAATAATTAGTAATGGTGGAGAATTCTTATATTCTACTTCTTTAGAAGATATTACTGTGGATAATAATAAATTAACTAAGATAATAACTAATAAGGGTGAAATAGTAACTAATTATTTATTCTTATGCATAGGTAATAGTGCTAGAGATACATTTAAAATGCTTTATGAGAATGGTCTTGATATGAGATCTAAACCATTTGCAGTAGGCATAAGAATAATACATGATAAAGAATATATAGATAAAATAAATCATGGTAAATATTTTGATAAGTTACCAGCATCTACTTATAAATTAACTTATAATAATGATGATAGAGCTGTTTATTCATTTTGTATGTGTCCTGGAGGATATGTAGTTAATGCTTCATCTGAAAAAGAGAAGTTAGTAGTTAATGGAATGAGTAATTATTTAAGAGATTCTAAATCATCCAATAGTGCAATAGTAGTTAGTGTGACTCCTAATGACTATGGGCATGATTTATTTGATGGGGTTAATTTTCAAAGAGAATTAGAAAACAAAGCATATAATTTATGTAATGGAAGAATACCACTTCAAAGATATATAGATTTTAAGAATAATAAACCATCAGAAGTAATAGGAAGTATTACTCCTGAAACTAAAGGTAAATATTCATTATCAAATGTAAGAAGTATATTCCCAAGTTTTATAGTAGATAGTTTAATTGAGGGTATAGATTCATTTGATAATAAAATAGAAGGATTTAATATGGATGATGCATTAATTTGCGGAGTAGAAACTAGAACTAGTTCACCAATAACTATTCTAAGAGATGAAAGTTTTGAATCTAATATTAAAGGTATTTATCCAGTAGGAGAGGGAGCTGGTTATTCTGGTGGAATAACTACCTCTATGATGGATGCATTAAAAGTAGCAGAAGGTTTTGCTTCTAGATATAAAGGAGGAGAATAATGAAAATAGTAAGTTGGAATGTAGCAGGTTTTAGAGCTGTTCTTAAAAAAGGATTTGATGAATTCTTTGATAATACAAATGCAGATGTATATTGTATTCAAGAATCAAAAGTATTAGAAGACCAATTTGATTATAGAAAAGATGGTTATGAAATGATTCTTAATCCTGCAGAAAAGAAAGGTTATTCTGGTACTTTAGTATTTACTAGAGTAAAACCATTATCAGTTACATTTGGTATTGGAATAGAAGAACATGATCATGAGGGTAGAGTAATTACTATGGAATTTGATAAATACTATTTAGTAAATGTATATGTTCCAAATGTAAAAAGAGATCTTAGTAGATTAGATTATAGGATGGTTTGGGAAGATGATTTTAAATCTTATTTGAAATCATTAGAAGAAACTAAACCTGTAATAGTATGCGGTGACTTTAATGTAGCTCATACAGAACAAGATATTAAGAATGCTAAAGCTAATATTGGTAATGCTGGATTTACTTATGAAGAAAGAGGCAAGTTTACAGATTTATTAGCATCTGGATTTGTAGATATATTTAGAGAGTTATATCCAGATAAAGTTCAATATTCTTGGTGGAGCTATATGGGTTCTGCTAGAGCAAATAATATTGGTTGGAGAATTGATTACTTTATTACATCTAAATCTAATTTAAAGAATATAAAAGATATTAAAATATTAGATACTGTAATGGGTTCAGATCATTGCCCATTATTACTTGAAACAAAGAATTAAAAAAGAATGAACATTATTGTTCATTCTTTTTATTTGGTTTAAGTGTTAAGCAATGTTTATCTTGCTTAAATTCTTTTACTGCTTTTTCATTTATTTCTTCATCCATAAATGCTTCTTTCATTTTAATAGGCATATTATTTCTAAATTCTCTTTTTAATTCAGATATATCTAATTCACCATTAATATTAATTTTTATTTCTTTTGCTTTTTCAAAATCTTGTATTTTCCATCTATATTCAGTATTATCAGTAAATCTTTTTTCTTTATCATCATGAATAAAACTTGCAATCTGAATAATTGATTCAACAGTATAAGTTTTTATACCATGACTATTTAGGTAATTAGCAACACTTTGTCCATATTCACTTATTCTTTCTAATGGAATAGTAGTAGGTTTAATACCATTACTATATAGAGTTATTAATAAATTACCTAATGCATCTTCGAAATATATATAATATACTTCTTCACCATTTAAACCAACATCTATTCTTGGTTTATCATGAGTCATTCTTAATTTTTCGGAGTATTGTTTTTTAAGTTTTGCATTTTTATATTGTATTTCTGATATACTATGGCGTTCTAATAAGTGTAATCTAGAATGTTCTTCTGCTTCTCTATTATACATTTTCTTCATCTTCCTTTTCTTCTATTTTTTCTTTCATTTGAAGTCTTTTAATTTTTATTTCTTCTTCATGTTGTTTACAAAATTCTTCATAATTAATTAATTTTTTAAATAATTCTACTTCGTGTTGTAACCATCCAGTTTCTCCTGCAAATTCTTCATCAGGATCATCATAATAGCTTTCTATTTCTGGAATAGTTATTGCAGCTGCTATTGGAAAGGGTTTAAAGAATTCTGGACATTCCATTTCTTCTTTTTTAACTACATCTTCAATCCATTTTTTCCCTTTAACGTTAACAACAGTTGGATTTTCTAATTCTTCCCATAAATCATAATCAATAGCAAAACCTGCTGTTGTATCATATATTAAAACTCTTCCATCATTTAAGATTCTTTCTACAACAGTATGTCTTGAGTAATCACAATTATCATTACCAAATTTTAATTTATATACTGGGTTTAATTTAATACTATCAACTTGTGCTTGTACTAAATTAACATCCTTTGTATCATTATCATTTAGGAATACCCTTGATAATAAAAATGCACTTTCAAAACATTTACCGTTAGTTAAATAATTACATAATAATGTAATAGAGGCAGGAATACCTTCACTATATATATTCCTTAATTTTGCTAATAAATCATTATCATAGAATAATAATCTTCCACTTTTTAATCCTTCTTTTTTTATAAGTCTACTTTTCCATTTCCAGTTATTCCATTTTTCTATATCTTCAGGATTAAAATTCATAAGAATATCGGACATATACATACCCCTTTTCAAGTAGTAGTATATTATCAAAAATATTATTTTTTGTCAAAGAAAAAACTGAACTATTTTTGTTCAGTTTCTTTCTTTGTTTTTGGAATAAGTCTACGTTGTTTAATAGATTTTTTCATTTTATCTTTACAAAGTTTAACTTCTCTTTGTAATAATTTTGAATCATTTTGTGAATATCTCTCATTAGTATTATTATAAGCATCTTCAATCATAGGTAATACTATTGTTAAAGCACATGGATTAATATCATAATCAGTAGGATGTTTTTCTTTATCTTCTTCAATAGTTTTTTCGATAGAATCTTTTTCTTCTTCTTTTACTACAATAGGTTCTTCTAAACGTAAATAAGCATCTTTATCATATACTAAACCAGCTGTAGTATCATATATAAGAGTAATACCATTAATAGTAGTTCTTTCTAATACAGAATAATTATTTGCTTTTGGACTATTCATAGAACTATTATTAACAACAGTTAATATTCTTACATCTCTAGTATTTTCATCATCTAGGAATGCTCTTGATAATAATTTAGTCATTTGAGCAGGTTTTCTACTTGCAAAATCATGTGATAATAAACATACTGATGCAGGAATTCCACCATAATATATATTTCTTAATCTTTCAATTAATTCATCATCATATGTAGATATATATCCTAAATACATACCAAATATATCATGTTGATTCTTATATTTCTTATAGTCTTTCCAATTCTTAAATTGTTTATTCATTTATATCTCTCCCTTTTTTCAAAAAGTGATATTCATTGTATCAAATATTTTTAGTTTTGTCAAAAAAAGATGCATATAGCATCTTCTTTAATATTATATATGGTGCTCGAAAAGGGACTCGAACCCTTAAGGTATTGCTACCAGCAGATTTTGAGTCTGCCGCGTCTACCAATTTCGCCATTCGAGCAACTAACAAAATTATAACACTAATAAAATAAAAATAAAAGAACTCTTGTTCTTTTATTTTTCTGCTAAAGATCTAAGTCTTCTTTGTTTTTTTCTTAGTTTTTTAGTTTTACTAGCTAATACTAAGCCATGTTCTTCTTTATCTTGTAATTTATTTAATTCTATTATTAAATCATTTATTTGATTTATTACTTTAGTACATTTTCTTTCATATGTTTTTTCACTCATATTTTTCACCTGGTAAAAAGTATTATAACACTGTATATTCTTGTTTGCAACTTTCTATTTTAATGATATAATTAAATAAGAATAGAGGGTGGCTAAATGGATAAAGTATATATTTTTGGACATCAAAGACCTGATACAGATTCAGTTACATCTGCTATAAGTTTAGCTTATTTAAAGACTAAATTAGGATTAAATGCAGAAGCAAGAGTATTAGGGGATATAAATGAAGAAACTAAATTTGCTTTAGATTACTTTCATGTAGAAGTACCTAAATACTTAAATGATGTAAGACTTCAAATAAAAGATGTAACTTATCATAAAGGTTTATTAATAAACTATAAAGCTACTATTAGAGAAACATATAATTATATATTAGATAATAATGTAACAGGCGTTCCAGTAGTAGATGATGAAGGTATATGTCTTGGAATAATAACTGTTAAAGACATAGCTAAGAATTTAATACTTGGAGACTTTACTGAATTAGATAGTACTTATGATAATATTTTAAAGACTATTAATGGTGAAGTAATAACTAAGTTTAATGAAGAAATAGATGGTACTGTAATAGTAGCCTCTTATAAGAGTGAAACTTTTTTTAATGATATTAAACTTACATCAGATGATGTAGTAATAGCAGGTGATAGACCTCAAATACATAAACATGCTATTAATAATAGAGTTAGGCTTCTTATAGTAACTGATAACTCTAATATATCAGAGGAAAATATTACTCTTGCTAAAGAGAATAATGTTAATATTATAAGAACTAATTTAGATGCATTTCATACATCTAGAATAATTAGTCAAGCTAATGAAATAAAGATACTTAAAACAAGAGATCTAGTTACTTTTAAAGAGACAGATTATTATGATGATTTCTTATCTATTACTAAAAAGTATAAACATAATAACTATCCAGTAGTAGATTCTAAAGGTAAATGTCTTGGATTAATTAGAGTAACAGATGTTAATGATAAAAATAAGAAAAAAGTTATATTAGTAGATCATCAAGAATTTGATCAAAGTGCTTCTGGTATAGAAGATGCTAATATAATAGAAATAGTAGATCATCATAAAATTAGTAATATATCTACTAAAATGCCTATTAATTTTAGAAATATGGCTGTAGGATCATCTAATACTATTATTTATGAAATGTATAAAGAAAGTGGTATAGAAATACCAAATAATATAGCAGGTATAATGCTAGCAGGTATTCTATCAGATACTTTAATACTTCAAAGTCCAACTACAACAGTATTAGATAAAGAAGCAGTAGATAGATTATCTGAAAGATTATCTATTAACTATGTTAGATTTGCTTTAGATATGTTTAAGAAGGGTACTTCACTAAAAGGACTTACTAAAGAAGAAATTATTACTAAAGACTTTAAATTATTTGATTCTAATGGTAAGAAGTTTGGTATAGGTCAAATAATTACTCTAGATATAGAGTCTATTAGAAATGATTTAGATGCTTTTATAAATGAACTTGAATTATATAAAAATAAAATGAATCTAGAATATGTATCTTTATTTATTACAGATATAGTTAGAAATGGTTCTTATGTTATATATACAGAAAACATGAAAGAAATATTAGAAAGAGGTTACAAGATAGATAACTTTAAAGAGTTAACATTCCTTCAAGATGTAGTATCTAGAAAGAAACAAATTGTACCGGTAATAATGAATGAAATCGAAAGTTAGTATTTTTTTAGATTATGGTTTAAATATAAAGAAAAGTATTAGTGTTATATTTTTAACAATGATATTTGGTGGTGTATTTGGATTCATATATGAATTAATATTCTATAAGTTTGATAAAGGAATATTTATTAATAGAGGATCTACTTATGGACCATGGATACCAGTATATGCATTTGGTGCTTTCTTTATATGTGTACTTCTATATAGATTAAGAAAGAAACCTTGGTTAGTAATTCTTCTTAGTGCAGTTATAACATTCTTAATGGAATATTTAACTGGATGGTATTTCTTAACTTATAGAGGAGTTAGACTATGGGATTATAATATAGAAATACTTAACTTTGGTAATATAAATGGATTTGTATGTTTAAGATCTGTATTATTATTTACTTTTGCTTCTGTAGCATCTATTTATATGGTAATACCAATGTTTATTAAATTAGCTAAAAAAGTAAATAAGAACACATTATTTATAATATCTTCTTTATTATTTATAATATTTATATTAGATATAATTATTTGGGGGATATTACATTAATAATGTGGTATAATATTATTAAGAATAAAAAGGAAAATGAAGTGTAATTTTTACATATCATTTTCCTTTTTGCTTGTAATACAAGTAAAATATTGCTATAATTCATAATGTGTGAAACTAAAGGAGGATGTATATGCCTGCAAAATATGATGAAAGTTCGATAAAAGTATTAGAAGGTTTAGAAGCAGTTAGAAAAAGACCAGGTATGTATATTGGGTCTACTGATAAAAGAGGATTACATCATTTAGTATGGGAAATAGTAGATAACTCTATAGACGAAGTAATGAATGGATATGGAGATACTATTAAGATTACTATTAATGCTGATGGATCTATTACTATAGAAGATAATGGTAGAGGTGTACCAGTAGGTAAACATGAAACTGGTAAGAGTACTGTTGAAGTAATATATACTATGCTTCATGCTGGTGGTAAATTTGAAGAAGGTAACTATAAAGTTTCTGGAGGATTACATGGTGTTGGTGCATCTGTTGTTAATGCTTTATCTAGTTATATGATAGTTAACTCTAAAAGAGATGGTAAAGAATACTCTATTACATTTAAAAATGGTGGAGAAGTAGATTCTAAATTAAAAGAAATAGGTAAAACTAATAAGACAGGAACTACTGTTACATTCTTACCTAATAAAGATCTATTTAGTGTTACAGATTTCTCTTATAGTACTATATGTGAAAGAATGCAAGAATCAGCATTCTTACTAAAAGGACTAACAGTAGAAGTTAATGATAATAGAAATGATAGACATGATAAATATCATTATGATAATGGTATTAAATCATTCGTAGAATATATAAATGAAGATAAAACTCCAATAAATAATATTCATCATTTTAAAGGAACTAAAGATGGTATAGAAGTAGAAATAGCTATGCAATATACTGATTCTTATAATGAAAATATTATTTCATTTGTTAACAATGTTAAAACAAGTGATGGTGGAACTCATGAAGTAGGATTTAAGAGTGGTTTAACTAAAACATTTAATGATTATGCAAGAAAAAATAATTTCTTAAAAGCAAAAGATAAAAATTTTGAAGGTGCAGATGTAAGAGAAGGTTTAACTGCTATTATATCTTTAAAAGTACCTGAAGCACTTCTTCAATTTGAAGGACAAACTAAAGGAAAACTAGGTACTCCTATAGCTAAAACTGTAGTAGAACAAATTACATCTGAGAATTTAGGGTTTTATTTAGAAGAAAATAAAGATGGTGCAGTTAATATTATTAATAAAGCACTTAAAGGTAAAATGGCTAGAGATGCTGCTAGAAAAGCAAGAGATGACGCTAGAAAAAGTACAGGAACTAAGAAAGAAAAGAATATATCAGATAAATTAGCTCCAGCAGCTAGACATGATAATACTAAGAATGAATTATTCATAGTAGAGGGAGATTCTGCTGGTGGATCTGCGAAATCTGGAAGAGATAGAACATATCAAGCAATACTTCCTTTAAGAGGTAAAGTATTAAATACTGAAAAAGCATCACTTGATGATGCATATAAAAATGCTGAAATAAATACTTTAATATATACAATTGGTGCAGGTGTAGGAGGAGACTTTAATGTAGATAGTTGTAACTATGATAAAGTTATTATAATGACAGATGCCGATGTTGATGGATGTCATATACAAGTATTATTAATTACTTTCTTCTATAGATATATGAAACCTCTTATAGAAGCCGGTAAATTATATATTGCTTGTCCACCGCTTTATAAAGTTAAATTTAGTAAAAATGAAGAAATATATGTATATTCTGATGAAGAATTAAAAGAAGTTACTGCTGGTAAAAAAGTAGAAGACCTTCAAAGATATAAAGGACTTGGTGAAATGGATGCTTCTCAACTTTGGGAAACAACTATGGACCCTGCTACTAGAACTTTAATTAGAGTAAATCTAACAGATGCAGTACTAGCTGAAAAAAGAGTATCTGTATTAATGGGTGAAAAAGTAGAACCAAGAAAAGTATGGATTGAAGAAAACGTAGAATTCTCATTAGAAGATGACTATAAGATAAATGGGGAGTAGGTGATTAATATGGCAAAGAAGAAACAAACTGAAGAAATAATACAAAAGATTAATGACTATGCTCTAGAAGAAATTATGGGTGATAGATTTGGTAGATATGCTAAAGAAATTATCCAAGATAGAGCTATCCCTGATGTAAGAGATGGTTTAAAGCCTGTTCAAAGAAGAATTTTATATGGTATGTATAAGAGTAAAAATACATATGATAATAAATATAGAAAGTCTGCTAGAGCAGTCGGAGAAATTATGGGAAAATACCATCCACATGGTGATTCATCTATATATGATGCAATGGTACGTATGAGTCAAGATTGGAAAATGCTTACTCCATATGTAGATATGCATGGTAATAATGGATCTATGGATGGTGATGGTGCTGCTGCTATGCGTTATACAGAAGTTAGACTTTCTAAAATAGCAGGAGAACTATTAAAAGATATAGAAAAAGATACTGTAGAAATGGCTCCTAACTATGATGATACAGAACTTGAACCTACAGTACTTCCTTGTAAATTCCCTAACTTATTAGTTAATGGTACAACAGGAATCTCAGCAGGATATGCAACTGATATTCCACCTCATAACTTAGGTGAAATAATAGATGCTACTATTCTTAGAATAGATAAACCAAAATGTACATTAGATGACATACTTGAAATAGTACAAGGACCAGATTTCCCTACAGGTGGAACTGTAGAAGGTAAAGATGAAATAAGAAAAGCTTTAGAATGTGGTAAAGGAAGAATAATAGTTAAATCTAAATATACTATTGTTAATGAAAAAGGTAAGAATCAAATAATTATTACTGAAATACCATATGAAGTTAATAAAGCTAATCTTGTTAAGAAAATAAATGATATTAGAATAGAAAAGAAAATAGATGGTATTAATGAAGTAATAGACTCTTCATCTAGAGGAGAATTAATTATTACTATAGATCTTAAAAAAGATGCTAATTCAGAGTTAATACTAAATTATTTACTTAAGAATACTGATATGCAAGTAGGTTATAGTTACAACATGGTAGCTATAGTAAATAGAAGACCTAAAGAAGTAGGTATTATAGATATATTAGATGCTTATATTGCACATCAAAAAGAAGTAGTAACTAGAAGATCTAAATTTGATTTAGCACATGCTAAAGCAAGATTTCATATAGTAGAAGGTCTAATAAAAGCTATTTCTATATTAGATGATGTAATTAAGACAATTAGAGCTTCTAAGAATAGACAAGATGCAACAGAAAACTTAGTTAAAGAATATGCATTTACTTTTGAACAAGCAGATGCAATTGTTAAATTACAATTATATAGATTAACTAATACAGACGTTGCTATATTAAAAGAAGAATTAGAAAAATTAAAAGCATTAATTGAAGAACTTGAAGCACTTCTTTCAGATGAAAAGAAATTAATGAAACAAATTAAGAAAGAACTTACTGAAGTAAGAAAAGAATATGCTGAAGATAGAAAAACTCTTATAGTAGATGAAATAACAGAAATTAAGATAGATCAAGATGCATTAATTGCTAAAGAAGATGTAATAGTAGTAGTAACTAAAGAAGGTTATGTAAAGAGAACATCACTTAGAAGTTATTCAGCTTCTGAAGCAGATGATCTTGCATTAAAAGAAAATGATTATGTTATTGGTATGTATGAAATGAATACTAAAGATACATTACTAATATTTACAGATCTAGGTAATTTCTTATCAGTACCTGTTCATATGCTTCCAGATTTAAAATGGAAAGATATGGGTAAACATATTAGTAATATTATTACTATTAAAGATGAAGAAAAAGTAATAACATCTATGCCTATATATGATTTTGATAAGAAAGAATATATAACTATATTTACAAAGAATGGTATGACTAAGAGAACTAATCTAATAGATTATAAAATCTTAAGTAGAAGACCATCAGTATGTATGAAATTAAAAGGTGATGATAAAGTAGTTAGTGTTATTAAGAAGAATATGGATAATGTATTTGTATGTACTTCTGATAACTATGGACTTATTTATCATTTAAATGAAATACCTGTTTTAGGACTTAAAGCATCAGGAGTTAAATCTATTAAACTAGGTAAAGATAAAGTAGTATCTGCTGATATCTATGATGATGCAGAATATATTACATTATTTACAGAAAACTCCGCTAAGAGGATAAAACTAGAAGAATTAGAAGTAAGTGCTAGGGCAAGGAGAGGATCTCTATTAATTAGATTAATCAAAACAAATCCTCAAAACATTATTAAAGCCTTTGTTACAGATACTAAAGAGTTATTTGGAGTACTTTCTATTAAAGAAATATTTGAACTAAAGAATAGTGAAATAAAACTTGCAGATAGACATGCTGCTCCTAGTAGTATTTCTAAACAAAGAATAATGGATATATTTAGAATTGCTGAAATAGAAAAAGATACTAAATCTATCCCAAAAGTTATAGAAGAACCAGAAGAAACTATAGAAGAACTAGAACTATTTACTGAAGAAGAAGCTCCTATAGTAGAAGCACCAAAGAAAGAAGAAAAGAAAGAAAAGAAAAAAGAAGTATCACTTCAAGAAATAGATGATGAGATACTTACAATAGATGACTTTTTGAATGACTTTAAGATCTAGATATCTTGAAAAAAAGTTAAAAATATGGTATAATACCATTTAGTAAAGGAGAAAAGAAAATATGATTTGGATTATTGGCGGAATTGCCTTATTAGTACTATTAGTACTATGGTTTATTGGAGTTGCAAATAAACTAGTTAGAAAGAAAGCTGAAGTAGATAATGCTTTTGCTGATATCGATGTTTATCTAACTAAGAGATTTGATTTAATTCCAAATTTAGTTAACACTGTTAAAGGTTATACTAAACATGAAAAAGAAACATTTGAAGATGTTGTTAATGCTAGATCTAAAGGATTAAGTGCACAAACAATTAATGAAAAAGTTGAAGCTGACGAACAATTAACTTCTGCTTTAGGTAGATTAATTGCTGTTGCTGAAGCTTATCCAGAATTAAAAGCTGATACAAGTTTTATTAAATTACAAGAATCTTTAAATGAAATCGAAACAGAATTAGTTGGAGCTAGAAGATATTATAATGCTGCTGTTAAAGCGTATAACATTTTAATTCATACTATTCCATCTAATATCGTTGCTTCTATTTTAGGATATAGAGATCTTAAGATGTATGAAGCTACTGAAGAACAAAGAAAAAATGTTAAAGTAGATTTTTCAGAAGAATAATTATAGAAAGGAAAAGGATATGAAAAAGAAATTATTAATTTTTGTATCTTTTTTTCTTTTGCTTATACCATTTACTGCTAAGGCATCAATCGATGGATTTACAATAACTAATTATGATGTAAATATCATAGTAAGTGAAAAAAACACTTTGGATATTACTGAAAAAATAACTGTTGTATATGATCAATTATATAAACATGGAATTATTAGAGAAATACCATTAAAGTATAAATATAGTGGAACTGTTAATGGTAAAGAAGTAACAGTAAGACAAAGACCTAAGATTAAAAATGTAACTGTTGATTATGACTATAGTAAATCAAAAGAAGAAGAGAATTTAAATTTAAAAATTGGAAAATCTTATGAATACTGTGAAGTAGGTAAAGAATATACTTATACAATTAAATATACATATGATTTTGGTGATGATAATATTGAAGACTATGATATGGTATATTTTAATATTATAGGTACTGATTGGACTGCTAAAATAGAAAATGTATCATTTTCTATTACTATGCCAAAAGACTTTGATAGTAACAAAATAAACTTTACTACAGGTTATTATGGTAATGCTTATAATAAAGCAACTAATTATACTGTAGAAGGTAATACTATTAAAGGATATCTAGAAGAAAAGTTTGATGGTGTTGCTCTTAATGAAAGAGAAGGCCTAACAGTTAAAATAGAACTTCCAGAAGGATATTTTACTCATGAAAGAAAAAATATAGACTTAACTTTACCAATATTACTTGGATCTATTTCTTTAATGCTTTTAGCATTATTAAATGGATTTAGAATATTTATAAAAAATGGTTTAAGAAGAAAGACTGTATCAGTAGTTCAATATAGTGCTCCTGATGGAATGGATCCTGCTATGTGTGGATACATATATAATGGATATGCTAAAGGAGATCATATAGTATCTTTAATAACTTATTTAGCTACTAAAGGATATTTAAAAATAATAGATGATAAAGGTAGTAAGTTTAAATTACAATACTTAAAACCATTAGATGGTAATGAACCAAATTATATAGTAACTACATATAATGGATTATTTAAGAAAGCTAATGAAGAAGGTATAGTAACTAAGAAGGATTTAACTAATAAATTCTATACTTCATTAAATAAAGCTATATCTCAATTAACTAAATCAAGAAAGTTATATGACCCAAAAAGAGATGGAGTTATAGCTTATAGTATATTCTTATTAATAATATCTCTTATGTGTTCATTTTTACCTGCATTCTTTACTTATAGAGCTACTTTATTTTATAGACCATTATTAATAGTATTTATATTAACTATAGTAGTTAGTGCAATATCTTATATAATATTTGCAGCATTAAGTAAGAAAAGAACAGTAGAAGAGGAAAAGGTATATGCTAATGTAGCAGGCTTTAGAGAATTTATTGATAAAGTAGATGTTGAAAAAATAAATACTTTAGTAGAAGATGATCCAGAATTATTCTATAAAGTACTTCCATATGCATATGTATTTAATTTAACTAATAAATGGATTAAGAAGTTTGAATCTATTAAGTTGCAACCTCCAAAATGGTATGAAGGTAATATATATGATGTTAATACAGGAAAATTTAGATATGATAAATTAACTTCTGGATTAAATTCAGTTACTGCTTCAGCTAAAACAACTATGTCTAGTAGACCATATGAATCTTATTCATCTGGAGGACATGGTGGATTCTCTGGTGGTGGAGGCTTCTCTGGTGGAGGAGGAGGCGGTGGCGGTGGCCATAGCTGGTAATCTAATCAAAGAGATAGATAATACTGAAGAAGTAAGAAGATTTAAAGAATTAACAAAGATAATTAAATCTAATAAAGAATATATGTCATTAATAGATAAATTAAATAATTCTAATAGTAATGAAGAAATAATTGTATTAAGAAAAGAATTATTTAAAATACCTGAAATAAAAGAATATATATCTTTAGAAAGTGATATAAGATTATTTGCTAAGAAAATTAGTAAAGAAATATCAGGAATAGTAGAAAAACATACTTGTTAAGGTATGTTTTTTTTACTATAATATTTCTAGGTGAAGACATGAAAGTAATTAGTGGATTATTAAAAGGAAGAAATATAGAAGGATTTGATATAGAAGGCACTAGACCTACTATGGATAGAGTAAAAGAATCCATTTTTAGTACTATTCAATTTAGTATAAAGAATTCTATAGTATTAGATTTATTTGCTGGTTCAGGTAACCTTGGTATAGAAGCTATATCTAATGGTGCAAATAAGTGTTATTTTGTAGATAATAATAAAGTAGCTATTAATACTATTAATAAGAATATTAAAACATTTAATATAGAGGACTCTTCTATAGTAATAAAAAATGATTTTATGGAAGCACTTCATTCACTAAAGAATATTAAATTTGATATAGTATTCTTAGATCCACCATATAAAGATAACTTTATAGATTCATCCATTAAATATTTATTAGATAATAATATGTTAAATGAGGATGCATTAATTATCTGTGAATATAATAAAGATATTAAAATAGATTATTCAAACCTAGATGAGAAGAAAACTAAAAAGTATGGAGATAAGTTCGTAACAATCTTTAAAAAGATTTAATTGCCCCATAGCCAAGTGGTAAGGCTCCGGACTCTGACTCCGGCACGCGTAAGTTCGAATCTTACTGGGGCAGCCATATGTAAAGCAGACATTTGTAAACCAAATGTCTTTTATATTGCAAGTAAATGTAAATAGTAATAGAATTATAATTGAAAGAAGGGAATTTAATAATGAATGAAGATTTTAATTCAATTAATAATGATGTAAATAATGAATTAAATAGTGGGTTAAATAGTGAAGTAAATAATGATTTCAATAACGGATTAAATAACGATATAAATAATAATATGAATAATGAAATCAATACTACTCCTATTGATCATCCAATTAATCAACCAATAGAAAGGCCAGAAGAACCAGTGGTTAGTGAACCACCAGTAAACAATAAGAAAGGTAAAAATGGTTTAAAAGCAATTATAGTTTTATTAGTATTACTAGTACTTGGAGCAGTTGGATATGTTTTATATTCAAATGGTGCATTTGATAAAATCATAAAAGAAACTAAAACAACTGAAACTAAAGTAAAGAATGAAGAAAAGAAAACTAATACTGAAAAAGAAGAAAATCAATTAATTAAAGTTGATACTAGTAAATATAATGATAATGAAGTAGTTGAATTAGGAACATTAAAAATAGGAGAAACTGAATATAAGATTTCTTATAAAAGATGGAATTGTAAAGTAGGTGGAGGAGAAGGTCCAGATGCATGCTATGATCATGATTATTTAACTGCTTTCTATGTAGGAGATAGTGAATATAATGCATCAAAATTATCTATATTATATGATGGCGGATTAACTGAAGTTGCAGTTTTAGATAATAGATATATATTCTTAAATACTGGTGAAGTTGGCGATAGACAAAATGGTACTTATTCAATGGTATTATATGATTCACAAAATGAATTTAAATCAGTTGAAGATAATAGTATATATAGAGCTTATGATGGATATATAGAGGATAATGGAAAAGGTAAAACAGTAACTAGAAATATAGGCTATGTTGATAACAATACATTTATATATGGTACATTTGAAGAAATAAGTTCAGGTACTGAATGTTCACAAAGATACATTGAATATACTGTTAAAGTAAAAGATGGTAGTTTTACTAAAGAAAAAACATTTACTAAAGACGGAGTTCAATGCTCAGCTCAATGTAGTTAATAAAATAAACACGTAAGTGTTTATTTTTTTTGTTTTAAGTGTTATAATGTATTTACAGTAAAAAAGATAAAAGGTTGTATTATATATTTTAGGAGTATTTATTATGGCAAAGAAAAATAATAAAAAAGAGAATAAAAAGAAGAAAAAGTATTTTTATAGATTTGTAAAAAGATTCTTTGATATATTCTGTTCAATATTTGGAATTATATTTATGATACCTGTAATGATATTTGTAAAGATATGCTATTTATGTATAGGAGATACTAAATCTATATTCTATACTCATAATAGAATTGGTAAAAATGGTAAAATCATTAAATTAATTAAGTTTAGAAGTATGATATGGAATGCTGATGAAGTATTACATAATGTTCTTTTAAAACAAAAGAAGTATAAAGAAGAATGGGATAAATATCAAAAATTAAATGATGATCCTAGAATTACTAAAGTAGGTAAATTACTTAGAAAAACATCACTTGATGAACTTCCTCAATTCATTAATGTATTAAAAGGAGATATGTCTCTAATTGGACCTAGACCTTTAATAGAAGGAGAATTAGATGCTCATAAAGGTAATCATGAAATATATGAAAGTGTAAGACCTGGAATATCTGGTTGGTGGGCTGCTAATGGAAGAAGTGCAACAGACTATGAAAAGAGATTAGAACTTGAATATTATTACTGTGAAAATTGTAGTTTACTTCTTGATATAAGATGTATATTTAAAACAATTAAAGTAGTACTATTTAGAGATGGAGCAAAATAATAAACACGTAAGTGTTTATTTTTTTTATATTTTCTAGTATAATGAAATTAGTATAGGAGGATGAATGAGAAATATACTAGTAACTGGTGGAACTGGATATATTGGTTCACACACAGTAGTCGAATTACTCGAAAGAGGAGATAATGTTATTATTGTTGATAACTTATCAAATAGTAAGATAGAGGTTTTAGATGCTATAAAGGAGATAACTAATAAAGATGCTAAATTCTATAATATTAATTATTTAGATAGAGAAGCATTAGAAAAAGTATTTGAAGAGAATAAAATAGACGCTGTTATTAATTTTGCTGGATATAAAGCAGTAGGGGAATCAGTTAAAAAACCATTGGAGTATTATGAAAATAATGTTTCAGGTGCTATAGTTTTACTTGAAACTATGCAAAAATATGGAGTTAAGGAATTTGTATTTAGTTCATCTGCAACTATATATGGAGAACAAGAAGTAACTAAATATGTAGAAACTATGAAAAGAGGTATTCCATCTAGTCCATATGGTGTTACTAAAGTAATGATTGAAGAAATCTTAGAAAGTTTATATAAAGCAGATCCTGAATGGAAAATATCTATTCTTAGATATTTTAATCCAGTAGGTGCTCATCCAAGTGGACTTATTGGAGAAGACCCAGATGGTATACCAAATAATTTAATGCCATATATTCAAAGAGTAGCTAATAAACAATTAGCAGAACTAACAATATTTGGTAATGATTATCCAACACCAGATGGTACTTGTCTAAGAGATTACCTACATGTAGTAGATTTAGCTAAAGGTCATTTAAAAGCATTAGATTATTTAGATAAATCAGATAATGGAATATATATTCATAATCTTGGCACTGGAAATCCAAAGAGTGTACTTGATATAGTTAATGCATTTATTAAAGTTAATAATATAGATGTACCATATAAATTTGGACCAAGAAGAGAAGGAGATTTACCTGAATTCTATGCAGATCCATCTAAAGCAGAAAGAGAACTTGGTTGGAAAGCAGAAAAATCATTAGAAGACATGTGTAGAGATTCTTGGAATTATCAAAAGAATAAACAATAATATATTATGTTAGTTTACATTAAACAGTAAATATACTATAATATTTATTGTTTTTTTATTATATAATTGTATTAGAGGTTGGAATATATGAAAAAGAAAGTACAAAAAGTTAAGAAAAATCTTATTCAATCTATTAAAGAAATAAATTTTAAAAAGATTCTTCATGATTGTATACACTTTATTAAATATAATAGAGTCTTTTTATCATATGTTATTTTATCTTTAATTAGTTGTAAATTACTGAGATTGTTTACTATAGAAGATGGTATTAATATAAAAGCATTCCTATTTGATTTAGCTTTTATTTTAATACTTGGTAGTTTTGGTTATTTCTTTAAACCAAAAAATCAATTTAAGTATTGGCTTATTATATTAGGGTTCTTTACTATTATAAATACTATAAATGGAATGTATTATATGTTCTTTACATCTTTTGCATCTTTTTCATTGTTAGAAACTTTTGCACAAACATTTACTGTTAGTGATTCAGTAGTAGCAAAACTTTCATATAAGACATTTGTATATATAATACTTTTATTAATATTTATTATTCATAGAGAAGTTCTTAAAAAGAAAAAGTATTATTATACTGTTGAAAAAGTTGAAAAAAGAAAAAAGATATTACCTGGAGTATTAATAACAGGAGCAGTTGTTTTATTTATAAGTATTGGTATGCTTAATAAAACAGATTTATCAAGATTAAGAAAACAATGGAATAGAGAATATATTGTTGAAAGATATGGTATTCTTGTATATCAAGAAAATGATTTAGTACAAACAATTAAAACTAAATTAGATGCTACTTTTGGTAAAGATAAAGCAGCAGAGGAATTCATTAATTATTTCAATGAAAATACAAGACCAAAAAGTAATAATGAATATACTAATAAATTAGAGGGTTATAATGTAATAGTTATTCATTTAGAAAGTATGATGGATTTCTTAATAGGCCTTGAAATAAATGGTCAAGAAGTAACTCCAAATCTAAATAAGCTAACAAAAGAATCTATGTATTTTGATAATTTTTATTCACAAGTAAGTGTAGGAACTTCATCAGATGCAGAATTTACTTTAAATACAAGTTTACTTCCTGCACAATCAGGTACTGTAGCAGTTTCTTATTATAATAGAAACTATGTTTCATTAGAAAAATTATTAAATGAAAAGAAATATTATACTTTCTCTATGCATGGTAATAAAGCTACTATGTGGAATAGACAAAACTTACATAATTCTCTAGGATATGAAAGATTCTATAGTCAAGATGATTATGATATAGATGAGGTAATAGGACTTGGTTTATCAGATAAATCATTCTTTAGACAATCAGAAGAAAAATTACTTGAAATAAGTAATATGGTAAATGATTCTGATAAATATAATAATTATTTTGGAACTATATTAATGCTTTCTAATCATACTCCATTTGAAGATCCATATTATCTAGAGGGAGAAAACGCATTTGACGTTAGATATCATACTGGAAGATATGATGAAGAAGGTAATGAAATAATATATGATTATTTACTTGATGAAAATATGGAAACATTAGGTAGATATATAAGAAGTGCTCACTATGCTGATGAAGCTCTTGGAGAATACATGGAATATGTTAAAACTCATGATGAATATAATAAAACAGTATTTGTTATGTATGGTGATCATGCTGCACAAATAGGTAAGAGTGAATTTGGTTATTATCATAATTATAATTTTGAAACAGGAGAGTATTATACAAAAGATGATGAAAATTATGTAGATTATGACTATTATTCAAATGAAGTTTTTAAAAAGGTTCCATTAATTATATATACTAAAGATAATTCTATTAAACCAGATAAGATATCTTATCCAATGGGTATGATAGATGTATTACCAACTATTGGTAATATGATTGGTATATATAATAAATATGCTTTAGGAAATGATATATTTGAGTTAAAAGATGACAATGTAGTAGTATTCCCAAATAGTAATTTCTTAACAAAAGATGTTTATTACTATGCTACTTCAGATAATTATAAAATATTAAATCCAGATGCACAATTAAGTGCAGATTATGTAGAAGAAAAGAAAGATTATGCAGAATTAATAATTAAAGAATCAAATGATCTAATATTATATAATTTAATAGAATATACTAAAGAATAAGGAAATTATATTTATAATTTCCTTTTTTTATTTTAAATATAAGGCTTTTTTGTTATAATTATATTACAGGGAGGAAATTATGTTAGAATTTATTTGTTATTTTATGCCATCTTTTATATCATTAAAAGTATATAATTATTTAAATAAAAAAGAATTAAAATTAAAAGATTATTTTATTTATTATGGCATTTTTACAGTACTTAATAATATAATTGTATTATCTATTATATGCTTTAAAAATTATAATGAAATATTATATTTTGATAGAGTAGGAATTACTTACTTATTTAAATATTTAGTTATGATGATTGTATCATCAATTATTACACCATTTATTGTATCTATTATTGAATCTAATATTAAACTTAGACTAGAGGTTAAAAAAAGTGAAAAACCTAAAAAAAATAAGTAAGATACTATTATATGTTTTATTAGCAATCTTAATAGTATTAAATATACTTATTATATTTGAATTAGATTGGGTTCAAAAAAATGTAGGATTTGTTTCTTTTGATGAAATAATATTTCATTTAAGAGTACCTCTAAAAGGAACAAGTTCTGATATAGTAAAAGATAATATTATTAAATGCTTTTTACCAACATTTGTTATTTCGGGAATAATATTATTTATATTATATAAAATAAATAGATACAAATCTTATATATATATTAGTTTTAAAAAGAAGGAATATAAGTTAAGAATAAAATATATATTCTTAGTAGGATGTCTTATATTAAGTACAGTATTCCTTAGTATTAGATTATCTTATATAGATGAGATGTTTAATGTTAGTTCATATCTAAAAGCAAGAAGTGAACAATCAGATTTCTTTGAAAAAAATTATGTAGATCCAAGAGATGTAAAACTTGAATTTCCAGAAGAAAAAAGAAATCTAATATATATCTATATTGAATCAATGGAATCAAGTTTCCAAGATGTTAATCTTGATGGTGAAGATGTTAATATTATTCCAAAATTAACTGAATTAGCAAAAGATAATATTAATTTTTCAGATACTGATGATGTTGGTGGATTTTATAATATGTTTGGAACAAACTGGACAGCTAGTGCTATGATTGCACAATCTATGGGAATTCATTATAATACACCAATACAAGATAACAAATATGTTGAATATAATTCTGTTATGGCCTCACTAACTAATATTGGTGATATTTTAAAAGACAATGGATATTATCAAGAAATAATAATGGGCTCTGATTCATCTTTTGCAGCTAAAAATGTTTTTTTTGAAAAACATGGGAAATTTGTAATTAAAGATTTAAATTCTTTAAAAAAAGAAAAAATAATTACAAAAGATTATGATGTTAACTGGGGATTTGAAGATAGTATTTTATTTAATTATGCAAAAGATGAATTAAAAAAAATATCTGAAAAAGATGAACCATTCAATTTGACTTTATTAACTAGTAATTCTCATTTCCCAGATGGATATGTAGAAGATGATTGTGATACTATTAGTGATGATAATAGTTATGCAAATAGTGTATATTGTTCGCAACAACAATTATATGATTTTGTTTCATGGATTAAAAAGCAAGATTTTTATAAAAATACAACAGTTATTTTAGTTGGAGATCATTTAACTATGGCAAGTAATGATATGCTTAAAGAAAAATATGAAGATAGAAGAGTTTATAATGTAATTATTAATTCAGCTACAACTTCAGATACTTATAAAAACAGAAAATTTACTGCGTTTGATATGTTTCCAACAACTCTAGCAAGTATGGGAGTTAAAATTGAAAATAATAAACTTGGTTTAGGTGTAAATTTATTTAGTGATAAAAAAACATTACTTGAAAAAAATGATTATGATTATGTTTATACTGAGTTATCTAAAAAATCTGATTATTATGAGAAATTTATCTATAATAATTAGATTTTTTTCTTTGTAATGTTTGACCTAAAGCGTTAATTATTATATAATATATATACATAGAACATAGTTAGGGAGGTTATTTGTTATGAAGAAAATATCAGTAATTGTAGCAACACATAAAAAATATCAAATGCCAACAGATAGTTTATATATTCCAGTACAAGTAGGTGCTGAAGGTAAGGATGATTTGGGATACACAAGAGACAATACAGGCGATAATATTTCTACAAAGAATCCTTTTTTTTGTGAACTAACAGGATTATACTGGGCATGGAAAAATCTAGATGCAGATTATATTGGACTTGCTCACTATAGAAGACATTTTGGTTTAAAAAAGAAAAAATATAAAAGAGTAGAAGATACTTTAGATCATGTTTTAACTAGAAAACAAGCTAAAGAATTATTAAAAGATACAGATGTAATACTTCCTAAGAAAAGAAGATATTATATTGAAAATTTATATAATCATTATAAACATACAATGCATATTGAAACTCTTGATGAAACAAGAAATATAATTGAGGAAAAATATCCTGAATATTTACCAGAGTTTGATAGGTTACATAAAAGAACTTCAATGCATGCATTTAATATGATGATTATGAAAAAAGATATATTAGATGGTTATTGCAAATGGTTATTTGATATATTATTTGAATTAGAAAAAAGAATAGATGCTACTAAATATGATGCATTCCATGCAAGATTCTATGGAAGAGTATCTGAGAGACTTTTAGATGTTTATTTAAATACAAATAATATTAAATATAAAGAAATACCATTTATTGAAGTAGAACATATAAATTGGATAAAGAAAGGATTTGGCTTCTTATTTGCTAAATTTTTTGGTAAGAAATATGGAAAAAGCTGTTAAACCATTAATTTCAATAATTATTCCAGCATATAATGTTGAAAAGTATATAGATAGATGTATTGAAAGTATTGTTTCTCAAACATATAACAATATTGAAGTTATTGTTGTGGATGATGGTTCAACTGATAAAACATTAGATAAACTAAATGAATGGTCAAAAAAAGATAGTAGAATTAAAATAATACCTAAAAAAAATGGTGGCGTTTCTTCTGCTAGAAATGTAGGACTTGATAAAGCTACTGGAGAATATGTATCATTTGTAGACTCAGATGATTTTATTGCAGATACTTACTGCGAAGATATGCTTAATACTTTATTAAGTAATAATGCAGATTATATTTCATGCGGATACAATAGAGTATATCAAGATGGGCATTTTGAAACATTTAATGCAGATAATGAATTAAAAATAATTGATTCTAAAGAATATTTTAATAATGTATTAGATGTTATACCTGGATATGGTTTTGTTCATATGAAAATGGTTAGAAGAGATCTAATTGGAGACATTAGATTTAATGAAAAACTAAAAGCAGGTGAGGATGCGTTATTTAATGCTGAACTATGTGATAAGATAGGTAAAATAGTGATATATAATAAACCATTATATAATTATTATTTTAATGAGAATTCTATAGTTAGAAAATATGATGAGAACTATGTTCAAAAGTATTTTGATTCTATGGAAGCAATGTTTAATTATGCATCTAAAAAAGATGATAGTAATAGAGTATATAATTATATAGCATTTCATATATTATTAATATGTGTTAATTATTGTTATCATCCAAATAATAAAGATCAAATGAAGTCATTAAAAGAAGTATGTAATATACCTTTATTCAAAGAAGCAATTAAAAAAGCACAAGCTGATAATTGGTCGAAGGTTAGAAAAATAACTTTATTTACATTAAAGCATAGATTATACTTTATGACTTCTATGATATGTAAATATAGACAAAGTCAATTTAAAAGAAAGGCGTGATTATCTTGAAGAGGATTTTAGTTGGGTACCTAACAAATGGTAATAACAGTGGTATCAATAAATATCTATTTAATTTCATTAAACAGATATCATCTAAAAAAGATTATGAGATTGATGTAATTAGTTCTGATGTAGGAGATATCCTTAAAGAAAACCTTAAAGATTATAAATGTAAACTTTATGAAATACCTAAACTAAAACATCCATATAAAAGATATAAAGCCATATGTAAAATAATAAAAGATAATAAATATGATGTTGTATATAGCAACATTTCAGAATCATTTAACTGTTGTACTGTTTTAGCAGCACATAAGAATAAAGTAAAAAGAATAGTAGTTCATAGTCATGCTACTGGATCTTCTGAAGAAAATACATTTAAAAGATTTATTAGAGTTACACTAAATAAACTGTTTAGAATAGCATTACATAACTCAGCAAATGTATTTGTTGCTTGTTCAAAAGAAGCTGGTAAATGGTTATTTCTTAAAAAAGATTATAAATCTAAAAAGTTTCATGTTATAAACAATACAATTGATTTTAATGAATATACATTTGATGAAAAGAAAAGAGAAAAAATAAGAAAAGATTTAAATATTTCTAATAATGATGTTGTTCTTGGAAATGTAGGAAACTTTGAATATTCTAAAAATCAAATGTTTATTTTACAGACTCTAAAAGAATTACTTAAAAGAAATAATAACTATAAATTTATACTTGTTGGTGATGGTAGACTTAAAGATGAATTCAAAGAATATGTTAAGAATGAGGGATTAACAAAAAATGTAATATTCACAGGTATTATTACAAATGTTAATGAAATACTTAATGCTATGGATATATTTGTTTTTCCATCAGTAATTGAGGGATTTGGAATTGTAGCCTTAGAATCTCAAGTAAATGGGCTTCCTACTATAATTAGTGATAAAGTTCCAAATAAAGTAATTATTAGTAAGAATATATATCAATTACCACTTGAAATGAGTGATTGGTGTGATATGATTAGTGATTTATCAAGTTATAAAAGGACTAAAGCAAAATTATTAGATAATGCATATCAATATGATAATTCAAATATTGAGCAATTTAAATATATAATAGGAGATGATATAAAATGAGTAAAAAAATACTTTCAGTATCTGTTGCTTCATATAATGTAGAAAAATTTATAGAGCAAGCATTAGATTCATATGTTAATTGTAAATGTAAAGAAAAATTAGAAATTTTAATAGTAAATGATGGTTCTACTGATTCTACAGCAGACATAGTAGAAAAATATAGTAAAAAATATCCTGGTATTATTAATTTAGTTAATCAAAAAAATGCTGGGCCTGGATCTACTGTTAACACAGGATTAAAGAATGCTACAGGTAAGTATTTTAGAATGATTGATGGTGATGATTGGGTTAATACTGAAGATATGGATAGTTATATTGAATATCTTGAAAATAATGATGTTGATATGGTTATAACTAACTATACAAAAGTTGATGATAAAACTATGAAGGAAGAAAGACAATCATTAAATGTAGATGTAGAATATAATAAAGTATATAAATTTGATGATATATGTAAAGATTTACATCTAGATATGCATAATGTTACATATAGAACAGATTTAGTTAAAGGAAAACTTAAAATAGATAATTGTTTCTATACAGATACTGAATATCTATTATTTCCTACAGAATATGTAAAAGATGTAGTATTCTTAGAAAACTATATTTATATGTATAGAGTTTCTTTAGATACTCAAAGTGTAAATATAAATAGTTTACAAAAACATTGTGATATGCATGAAATGGTTTTAGATCATTTAATGACATTCTTTAAGAAAAACAAGAAATCATTTAGTGAATCTAGAACAAATTATGTTGCAAGAAGAATTGCTAATATGGTAGGTACTCAATTATATATATATTTATCATATGAAGCTAGTGATGAATATAAAAACAAGATTAAACAAATGTTGAATGATTTAAAAATTAATAATTCAGAAATATATAAAATAATTGGTAAAACTAAAACCGTTAAGTTGTTATCTTTAACAAGATATGCAGCTTATAAATTATTAAGTAAGAAAGCAAGAAAAGAAAAACAAAAACAATAAGGAGGAAGAAAATGATAAGTTATATTATACTAATTTGTCTGATTACATTTTTATTAATTTTATCATTTTTCTTATTTAGGAGAGACTATTTATCTCCTTCCTTTTTATCTTGTGGAATGTTTGATATATGTGCTATTTTAGCAGTAATTGGTAAGAATAGTTGGAATAATGAAATTAAATTATCAATTAATACTATAGCAATAATTATACTAGGTTTAAGTGCATTTATTCTTGGGGAATTTCTTTTAAAAAGGTATATGCAAAATAAACCTAAAGCTGATAAGGTAAGTCAATTAAATGTTATTAAAGTTAGTACATTAAAATATGTATTATTATTTACATTTGTAATTACAACTGTTTTATTAGTATATTTTGAAATAAGAAGAATATGTATTCATTATGATTTTACGTCTAGATGGCTTCCAGATATGTTAAACTTTTATAGACAAAAATCTATTTTATATGACAATATTTTAATGAGAGATGGAACAGATATTAATTTTATAGTTAAACAAATGCAAAAATTCTGTTCAATTATTTGCTGTTTTGGTATATTCATTTTTATTAATAATTTCTTTGCTCATGATAAGAGGAGAAACTATGTTAAATTATTAGCATTAATAATTTTATGTTTCTTAGCTTCTTTATTAAGTTCTGGAAGAGCTATATTAATGCAATATTTTATTTTTTCTGTATTTCTTTTTATGTATTATTACAAATCATATTCAAAGAAAAAAAATTATAAAAAGATGATAATTTATTTAGCATTATTCTTTGTATTTATAACATTAGTTTTCTATTTTATAGCACCTCTTGTTGGGCGTGGTACAAGAAATAATATAGTAAACTATGTTTCATTCTATTTTGGAACTTCAATTCCTTCATTAAATAGATTTGTAGTTAATGTACCTAAACATGATAAGTATATTGGTAATGAAACTTTTAGTGGAGTATATGAATCACTAAATAGATATAATGTAATAAATTATGAACGTGATAGTGCTTATGGATGGCAAATGTTTGGAGAGCAAGGAAGTAACATTTATACATCCTTTAGATCTTATTATTTTGATTTTGGAATAATTGGTATTTTTGTATTCCCATTTATATTTGGTTTCTTAATTAATTGGTTTTATAAGAAAGCAAAAAGAAATTATTTTTGGTTAATTATATATTCATATTATTCATATATATTTATTGAACAAATAAGAGCAGAACAATTCTTTAGATTATTATCAAGTACAACAGTATCTTATGTATTATATTTTGCAATGGTATATATATTCTTATTTTATCTTACAAAAGAAAGATATCTTGATATTAAAAAAGAAGGAATTAAAAGTGCACTTCTTATGAAGATCACTCCGATTGAGGAGATGTAATATGAAAAAGAAATCAGTTAGAAAGAATTATTTTTATAATTTAATATATCAATTATTTGTTTTAATATTACCAATTGTAACGACTCCGTATGTTTCTAGAGTACTTGGCGCTAAGAATATTGGAATATATGGATATACATTATCTATATCAGCGTATTTTGTATTATTTGGTGTTCTTGGTACAAATTTATATGGGCAAAGAGAAATAGCTTATTATCAAAAGGATAAGAAAAAATATACAAAGATTTTTTATGAAATCCTTTTATTAAAATTAATTGTTATGGCTTTAGCTATGGGAGTATTTTATATTACTTTTGCTAAGGGTTCTGGAGGATATTCATTATTCTATAAAATATTAATGCTTGAATTATTTGCAAATGGAATAGATGTCAGTTGGTTTTTTCAGGGACTTGAAGATTTTAAAAAGACATCTATTAGAAATTTTATAGTTAAGATAATAAGTATTATTTTAATATTTGTATTAGTTAAAGAAAAAAGTGATTTAAATTTATATTTTATTATATATGTTTTATCAATTCTTGTTGGTAATCTAACACTTTGGATTAGTTTACCTAAGTATTTAGATAAATTAAATTTAAAGGAATTAAAGATATTTAATCATTTTATTCCAACGTTTATTATGTTTGTTCCACAGGCTGCTATTCAAGTATATACAGTACTTGATAGAACTATGATTGGTAAGATTATTCATGATAAGACTGAGGTTGGGTATTATACTCAAGCAGAAAAAATAGTAAAATTATTGCTTACTATTGTTTCATCCCTTGGTATTGTAATGCTTCCTAGATTAGCTAGTAAGTTTGCTGCTGGTGACAATGAAGGAATAAAGAAATATATTTATAAATCATTTAGATTTACATCTTTATTATCATTTCCAATTATTATGGGTATAGTTGCTTGTTCTGATTATTTTGTTCCAGTATTCTTTGGAGAAGGATATGATAGAGTATCAATAGTTATGAAAATGTTGTGCCCAATAATATTATTTATTGGTGTAAGTGGAATAATAGGATATCAATATTTTCTTGCTACTAAACATCAAAAAGAATATACTGCATCAGTTATTATTGGGTCTATTATTAATTTTATAATAAACATTATTATGATTCCAAAATATGGGGCAGTAGGAGCTGCAATTGGTACTATTGCTGCTGAATTCTCCGTAGCGTTTGTGCAGATAATATTAACATGGAAATTCTTAAATTATAAAAGAATTATATTAGATAATTTAACTTATGTTGTTGGTAGTGGAATCATGTATATAGGCTGTATATCAGTTAATAGATATATTCATTATACAAATATGACTAATTTGATTATTATAGTATCTACTGGAGTAATAATATATGGATTCTATTTAATAATTATTAGAGATAGTTTTGTATTTGAAGTGATTAATAAAATATTAAAGAAAGTGAGAAAACAATGAAAGAAACAATTAAAAAAATTTTAAAAAAGATAGGTTTATATGAAAAGGTAAAATATCAAGTAAAGGATAAAAAGAAAATATCAAAAAAATATGTATTTGAAGATAGAAAAAAAGATTATAAAAAGGTTTGTTTTATCCTAGCAGGATATAAAGATTTTGTATATGATCAAGTATTTGGAAGAATAAAAGAATTTATTCCAAAAGATGTAGAAGTATGTATTTTATCTAGTGGAAAATATAGTGATTTATTATCTAAAATTGCAAAAGATAATGATTGGTCATATTTATCTACATCTATTAATAATGTTTCATTAATTCAAAATGTTGCAAATAAAGTATTTGATAAAGCAGAATATATCTATAAATTAGATGAAGATGTATTTGTTACAAAAAATTATTTTGATATGCTTTATAAAACATATAAAGAATGTGAAGAAAATGGAGATTATAAAGTTGGTTTTGTTGCTCCAACTATTCCAATAAATGGTTTTGGTCATATGCTTATATTAAAAAGATTTAATCTTGAAAAAACATATGAAAAGATGTTTGAAAAACCATTGTATGCTGCAGGAGCAGATAGGATGATAGAAAATAATCCTGATGTAGCTAAATTTATGTGGGGTTATGAAGATTATTTACCAAATATTGATGAAATAAGTAATACACTTTCAAAAGATAAATTTGAATATGTTGTTTGTCCAATAAGATTTAGTATTGGAGCAATTCTTTATAAAAGAGAATTATGGGAAGAAATGGGAATGTTTGATGTATCAAAAGGTTCAGGTCTTGGATTGGATGAAGAAAATATTTGCTCACTTGCTATAAAAAAATCATATGCTATGATTGTTTCTAAGAATACAGCTGTTGGCCATTTATCATTTGGTACTCAAAATGGACCTATGAAAGAATATTTTGAAAATAATAAAGAAGTATTTAATATTCATAAAGTGAAATAGGAGGTAATTTATGAAATATGATTATTTAATTGTTGGAGCAGGATTATTTGGTGCTACATGCGCAAATCTTCTTAATAAGAAGGGTAAAAAGGTTTTAGTAATTGATCGTAGAGATCATATTGCTGGTAATGTTTATACTGAAAAAGTAGAAGGCATTAATGTTCATAAATATGGTGCTCATATATTCCATACAGATTATAAAGATGTTTGGGATTATGTTAATTCATTTGTTGAATTTAATAGATATACTAATTCACCAATAGCAAGAATTGGTAATGAAGTATATAACATGCCATTTAATATGAATACATTCTCTAAAATATGGGATGATGTATTTACTCCAGAAGATGCAATGAGACATATCAATGAAGAAAAGAAAGAAATAACTGGAGAACCAAAAAATCTTGAAGAACAAGCTATATCTTTAGTTGGTAGATCTATTTATGAAAAATTAATTAAGGGATATACAGAAAAGCAATGGAATAGAGATTGTAAAGATCTTCCTGCATTTATTATTAAGAGATTACCTGTTAGATTAATATATGATAACAATTACTTTAATGATAGATATCAAGGTATTCCAATGGGAGGATATACTCTTTTAGTAGAAAAAATGCTAGAAGGAGTAGAAGTAAGACTTAATACCAATTTCTTTGATAATAGAGAAGAACTTACTTCATTAGCAGATAAAGTTATTTATACTGGGCCTTTAGATGAATTCTTTGATTATTCACTTGGAAAATTAGAATATAGATCACTTAAGTTTGATACTAAAATACTTGATGAAGTTAATTATCAAGGAAACGCAGTAGTAAATTATACTGGTCATGAAGTCGATTATACAAGAGTAATTGAACATAAACATTTTGAATTTGATACTACTAGTCCAAAAACAGTAGTAACATTTGAATATCCATCTGACTATGAAGAAGGAATGGAAAAGTATTATACAATTAATGATGATAAGAATAATGCTTTAGCAGAAAAGTATAGAGAATTAGCTTCTAAAGAAGAAAATACTATATTTGGTGGTAGACTTGCTGAATATAAGTATTATGATATGGATGATGTTATTAAATCAGCTTTTGATTGTATTGAAAAACTATAATAAAATATTATGTAAAAGTATAATAGGTGAATAATATGGTACAAGAAAAGAGAATAATTAAATCATTATATACAATACGTTTTCTTTTATTTATATTAATCTTTTTAAGGCATACTATTGGTCTTGTTAAAATGGAATGGTTAGCTCAATCAGGACTTGCTGTTACAGGTTTTATAATTCTAAGTGGTTTCTTAAATGGATATATGTATAATAGTAAATATGATAAGATAACCATAAAAAATATAATTGATTTTGTATATAAAAGAATAAAAAAACTATATCCACTACATATAATAACTTTGTTAATCGCAATAGGTATGTATCCACCGTTTAATGAGTTTATTTTTCATCAAATAGAATATATAAAAATATTTTTAATGAATTTATTTTTAATTCAAACTTGGGTTAATGATAGTAATTATTATTTCTCATTTAATGGAGTTTCATGGTTTTTAAGTACTTATTTATTCTTAACAATTATTACTATTCCAATTTTATATGTTATAGGAAAGATTAATAAGAAAAAGTATTCAGCAATTATATTTGCAGTATTTATAGTTATAATTTATTCTGCACTATTATTATTAACTCATTATATTCAAATTAAAGGATTGAATTCTGAATTTTGGATTAATGTATTTCCTCCATCAAGAGCATTAGAATATACAATTGGAATATTATCTGGATGTATAATAAGTAAAATAAAGATTAATTTTAAATATGATAAAATTGTGTTTACATTTGCCGAATTATTTTCTTTAATACTAATCTGTGTTTTTGTAAAATATGTTCCATTAAATACATGGTTAACATATTGGGGAAGTAAATGGGTAGTACCTTTAGTTCTAATATTTAGTATATTTATATATGAAAAAGGTTATATTAGTAAATTATTTGGAATAAAACCATTAGTAATGATTGGATCTTCTACTATGGTAATGTATTTTATTCATTCAGAACTTATATATTATATTGTTCATGCAACAGGATATACTATGCATCCACGTTACCTTGCACTATATATATTCATATTATCTGTTTTATTAGGAGTTATAATTACAAATCTTATGAATAATAAGAAAAAAGATAAGTGTTAAATATTCGCCAAACTAAAAGTTAAAACTTTTAGTTTTTTACTTTTTATGCTATAATGAAAAATAGGAAAGTTGGTGTTAAATGAAAAAGAGAAAAATTAATAAGAGAAAAATTTTTACTTTGATGTTAATACTACTACTTGTGATTGGATTAGGTGCATTTGGTATTTATAAATTTGTTTTAGGTGATAAAGCATCAATAAAAAAGGGTAAAAAATTAGAAGCTAAAATTGAAGCAAAAGTTGATATAATTGATGTTGATTCTAAAACTAGACCTTTAGCAATATCAATTAATAATACTCCTGTTGCAGTAAAAGTACAAACAGGTTTAAATAAAGCATATTTATTATATGAAATTCCAACAGAAGGATATACAGCAAGATTAATTGCTTTCTTTAAAGATGTCGAAGATACTAAAGTAGGTACTATTAGAAGTGCTAGACATAATATGCTTGATTATTCATATGAATCAGATGCAATATTTGTTGCTTTTGGATGGAGTCATTATGCTCAAGATGATATGCAAAATAAGAAATTAATTGATTATGTTCAAGGTATAGTAGGTGAAGGTGGAATGTGGAGAGATAATCCTGCACACCTAGATTCTGAACATACTGTTTATTTACAAACACAAAAAGTAATTGATTATGCTAAAGATAGAAAAGGATATTCTATGGAAAGCGATGATACAGTACTTTTAAATTATAATGTTGTAGATATAGATTTAAGCAATAGATCAGATGCAAAAGTAGCAAATAAAGTTACAATCCCATATGGATCTGTTACAAATGTATTTGAGTATAATTCTGAAACAGGAATGTATACTAGAATAGTAAATGATAGAAGAACTACAGATTATTATACTGGAGAAGAATTTACTGCTAAGAATTTAATTGTTCAAAAAATAACATATAATAGAACAGATGATGGTTATTATTGGAATTTACATACATCTGGTTCTGGTGATGGATATTACATTACTAATGGTTATGCTATTCCAATTAAATGGAGTAAAGAAAATAGAAAAGCTAAAACAAAATTTACATACACTGATGGTGATGAAATAGAAGTATCAGACGGAAGAACTTATATAGAGGTTCAAATAACTGATAAACTTACAACAATAGAATAGAGGAGAATAAAATGGAAAAGAAGAAAAAAACAAAATCTAAAAAAACTAAGAATAAAAATAAAACTAGTAAAAAGATTGTTAGTAGAATTATAAACGTACTATCCATTGTAGCAGTTACATTATTCTTATGGTATTCATATCATATAAACATTATTCCAATGAAATACTATAGAATAGCTGCTTTATCATTAGTAGGTTTTGAAATTATTTATACATTATTATGTATTAATAAGAAGAAATCCGGAATAATATTAAAACTATTTAATGTATTAGCTCTTTTATTCATTATTGGATGTGGAGTTGGATATTGGTATTTAAATAAAACTGTTGCCTTTATAGAAGAAAACTTTAAGAAGAATTATACATATGATGAATATTATATTCTTACAAATAAGGATTCATCATTTAATACTATTAAAGATATTAAAGGTAAAACAATATATTATAATGTTGATACAGATTACTATGCTGAAATTAAAACTGAATTGAAAAAGAAAACAACTGCTAAAATATCAAAAGTTGATTCTTTATCAGATTCACTTGGAGTTTTAGCTGAACCAGATACTTTAATTCTATTAAGTTCTGGATTATATGATTCAATTTCAACATATGATGAGGGATATATAAATCATATAAAAATAGTTGATACTATAAGAATAATAGTGCCAAGAGTACAAGAAGAAAAAGAAAAAGAAATTGATTTAACAAATACGCCATTTATTATTTATTTAAGTGGTATAGATACTAGAACTGAAACATTAGTTAAAAAGAGTCTTAGTGACGTTAATATGTTTATAGTTGTTAATCCTAATACTAAAACAATATTACTTGTTAGTATTCCAAGAGATTCTTATGTGGCTCTTCATGGATATAATGGTAAGAAAGATAAATTAACTCATGCTGGATCTTTAGGCGGTCTAGAATTATCAAAAGCAACAAGTGAAGATGTATTAGACATCCATGCTGACTATTATGCAAGAGTAAACTTTAGGGCAGTTGTTAATTTAGTTGATGCTGTTGGTGGCGTAGTAGTACAAGAAGAACCATATATAACAAAGAGATTTTCTTGTTGGACAAATAGAAAGTGTTGGATAGAACCAGGTGAAAACTATTTAACAGGTGAATGTGCATTAGCATTTGCAAGAGAAAGATATCATTATTATGATGGTGATATGCAAAGAAATAAGAACCAACAAAAAGTATTACAAGCGTTATTTAATAAGTTATCATCAAGTACTTATATGGTTGCCCATTATGATAAATTCTTAAATGCTGTAGCAGGTACTTTTGAAACTGATATGACTCCAGATGAAATTAAGAAGTTAATTAAGTTCCAATTAAATGATATGTCTCCATGGACATTTGAATCACAAAATGTTATTGGTGGTACAGGTAGAACAACTACTTATTCATCAGGATCTACTGAATTATCAGTTGTTTATCCAAATCAAAAGTCTATAAATGAAGCTAAAGAAGCTATTAGAAAAGTATTAGCTGGTGAATCACTTCATCCAGAAGAAAATACTACTACTGAAGGTGAAAATGCTGCACAATAAGTTTTGCTAAAAAGCAAAACTTTTTTATTTAAATAAAATAATACATGTTATAATATTGTTAGGAGGTATTACTATGGATAAAAACAAATTATTTGATAAATTTATAATGATATTTTTAATAATTAGTCCTATATTAGATTTCTTTGCATATGTTCAAAAAGAATATATTAAATTTCCAATATCGATAAGTCTAATTATTAGAGGATTATTCTTGTTAATAATATTTATATATTTAATTAGAAAACAAGATAATAGAAAAATATTATTATTCTTTTTAATATATTTTATATTAGCACTTGGTTCATATTTATTAAGAAAAGTAAATATATATTATGAAATAGTTAATCTTTTAAAGATATTCTATTTACCTATAATGATGTTGTTCTTTTCAAAATATAGTAATTCTAAAATAGACGATAAATTTATATTAAAAGTATATATAGTTTATATTATTACTTTTGTTATAATGCATATATTAAAGTTAGACACTCAATATATTCCTATTATTAGTGCTATATTAGTAGGATTATTACCTGTAACATTAAATTATGTAATGGAATCAAAGAATTATATATTAAAGGTAGTATTTTATTTACTATTGGGGTTAATAACATATTTAATTGGTACTAGATTATTAGTTACTGGATTTTTAGTTGTATTCTTTGGAGTATATGTTATGAGATACAAACTAGAATTTATTTATAATAATTTTAAAAGAAGATTTACTATTATTCTTTCGTTTATTGGATTCCTAGTAGTATTTGGAATAATAGTTAGATTTACTCCTTTCTACGGAATAATGAAAGATACTATAACATCTTTAAATATCCATTCATTAAGAGATGTTTATAGATTTAATACAATAGATCAATTGATTTTTTCTGGTGGTCTTTCACAATTTGCAGATATTATGAAGAACTTCATAAAAGGTGGATATGACACAATAATGTATGGTCTTGGTTGGAATGGTGTAGAAACTCTAACTAAAATAGATCCTTTTGATATATTAGTTACTACAGGTATTTTTGGTAGTGCTATATTTATAATAATGTTTACTTATGTTAACTTTAGAACTGAGTTAAAAAAAGAGCATTATTATTCATATGTTATGTTCCTAGCAATAGCGGTATTTGCTGGAAGAACATTATTATATCCATCAGTATCATTATTTATAGCAGTTCTTTATTTAGTGTCTGCTAATTCAATTAAAATCGAAAAAAAAAAATACTCCTAGTATCTAATTTATACCCATCAAAAAAATATGAGTATTATGGAGTATATATTAAGAATGTTAAAGAAATATTAGATATAAAGTATGATGTTGAATTAATAGTAGTTCATAAAGAAGAAAAAATAGTAAAGAAATTATTATCTTATATTTATTTACATACTAGAGTAATTCTTAAAGGTATATTTAATAATTATGATTATATTTATGTTCATAATATAGCAAGGACTTCATTTGGTGCAGTTTTAATTAAGTTAACATCAAAGAATACAAAACTTATTATGAATGCTCATACAAATGATATTATTGATGATAGAGAAAAAGATTTAAAATATATTAGAAAAACTAGAAGATATATAAGTTTTGCTGATAAAGTTGTTGTTCCATCTGAATATTTTAAAAATATTATAAGAGATAATTATTATTATGATGAATCAAAAATAGTTATATATCCATCTGGTGGAGTAGACACTAGTATTTTTAAAGATGCTGATAAAAAAGAGGCACTTGAAAGATTAAATCTTAAAAGTAAATATAAATATGTGGGATTTGCATCTAGAATAGAAGCAAATAAAGGATATGATATTTATCTTAGATTTATAAAAGAATTAGAAAAAGATAAAAAAATAGCTAATTATAGATTCTTAATTGTAGGTACAGGTTCTGAAGAAAATAAACTAAACAGTTTAATTAAAGATTTATCCTTAGAAAAATATGTAGAAGTTAGAAGTATGCTTGAATTAAAAGAATTGGTAGACTTCTATAATTCTTTAGATGTATTTATTTTTCCAACTTATAGAAGAAGTGAAAGTCTTGGGCTTGTTGGACTTGAAGCTATGTCATGTGGTTGTTTTGTAATAGCATCCGATAACTATGGACCTAGTAGTTATATTAAGAATAATAAAAATGGATTTACTTTTAAAAGTAAAGATCCAATAGATTTAAAAAATAGATTTATAGAATATACAAATCTAAATAATGAAAAATTGAATAAAATCATTTCTAAAGCTATAGAGACTGCTAAAGAATATGATAAAAATAGTACAAAAGACATTATTTTAAAAGTTTTTGAATAAAACACTATATTTATTTCTATATTTTTGATAGAATATATATCTATATTCTTTTAATGACGGAGGAATAAATGAAAAATATTATTATAATTGGTTCAAAAGGATATGAATGTAATTATGGTGGATGGGAGACATTTGTTTCCAATTTAATTAATAATTATAAAGATGATGATATTAGATTCTTTGTTCCAGAATTATCATTTAAAATGAATAGTAATATAGAAATAAGAAATGGTGTAATATGCAAACAAGTATTTATACCTAAACATGGTTATTTTACCATGTTTAGTTTTGTTATTAAGGCACTTCTTTATTACACTAAACTTATTAGAAAAGAAAGAATGAAGAATGTAATCATATATATGCTTGGTTGCAGGGGTGGATTAATTATTCCATTTATTAAAAAGAAATTAACTAGAATGGGTGTTAAGATAATTACAAATCCTGGTAGTATTGATTGGAAGATTGAGTCAAAACCTTGGATTATTAGAAAACTATCAAAAATATCTGAAAAGAAAATGATAAATGTATCTAATTTAGTAGTTTGTGATAGTAAAATGGTAGAAAACTATATTAAAGAAAACTATGATGTTCAAACTAAATATATTCCTATGGGTTCTAGATTAAATGAAGTAAAAGATATTGATAAAAAAACAAGAATATTCATGGAAAAAAAGAATATTAGAAAAAGAGAATATTATTTAGTTATTGGAAGATTTGTCCCTAAGAATAATATTGAATTAATAATTAAAGAATTCATGCTTAGTGATACTAAAAAAGATTTAGTAATTGTATCTGATATAGAAAAGAATAAATACTATGATAGATTATTAAAAACTACAAACTTTAATAAGGATAAAAGAATTAAATTTGTAGGGCCTATATATGATAAAAATATTATTACTAGACTAAGAGTATATGCTAAAGCAAATATTTATGGACATAAAGAGGGAGGTATTAATCCATCTTTAATAGAGAACTTATCAACAACAGATATTAATATAGTTTATGAGAATGAATATAATAAAGAGGTTGGAAAAGAATCTTGTATATACTTTACTGATGAAGCATTTATGTTAAGAGATATTTTAGATAAAGTAGATAACTTTAAAACAAGAGAATATGAAGAGTATGGTAACAAAGCAAAAGAAAGAATAAAGGAAGAGTATAATCTTGATTCTATAATGAACAAGTATAAAAAAATATTTAATAATTTATTGAAGTAACAAGGAGATTATAATGAGAACAGTTATATATGCATATAAAACAAAAAATAATAATTATGAAGAAGTATTTGAAAATGGAATTTGTTTTTTTAATACATCATTAGATTTAAATAAATCTTTTGTAAGAATAACAGACGGAAACAATGATGATTTTCTTTTAGGATTAAAAAATGGAGAAGTAGCTTATTTTATTACTATTCCAGAAAAATATTTAGAGGTTAAAGAATCTGATGATAAGAGAATTTCACCATATCCAATATTATTTGAAAGAGCAATGACAGATCCTGAAGAAGGAGTAATGGATATATTCCCAGTAATTGTTCCATGCTTAATATCAGGTATGTATGATTCAAAATTAGACTATATTGAAAACCCAGACTATAGAATAAACTTTGATCCTCGTGGTTTAAAGTTTACTAAAGAACAATTAAGTAGTATTAAATGTTATATGCCTGAAGAAGTAAGAGAAACACTAGTAAATAGAAATAATAGAGATTCATTAGAATTATTCCAAGAAGAATTAAATGAAGAACCTAAAACTATAAAAGATAAAGAAGGAAATACTAGAATAATAGATTGGATTTGGAAACCATTAATGAAACAACATAAAATTGAAAGTGTAACTCCACCATTTGCTAAAAAAGGGAATCTACTAAGTATTAAATTTACTGAAAAGAATGAAAAAACAAAAAAATTAAAACAAGGAAAAGGAAAAAAGGGTAAAAAGAACAATAGAACATTTGATATGGAAGAAGATTATTAAAATCATTCATAAGAATGATTTTTTTAATGGAATAATCATTTATAAAAGAAAATATAATATTTAAGGGGGTATTGATTATAAAAAAAATAATTAATTTTATTATATTTTCTTTTATTATTGGGTTTATTATTTATTATTCTATATTTGAAAATAGAAAAGAAGAAAAAGAAGTAATTATTAAAAAACCAAAGGTAGTAGAAGAAACAGAAAAACTAGTATATCTAATAGATAAAAATAACTCTAATATAGAAGAACTTTTAAAAGAAGAAGTAATTATTAAATATGAAACTGTATATATATGTGAAGAGCAAGAAGAAATAGAAGAGGAAATATTAGAAGAAAAAGAAGAAATAGAAGAAATTCCAAAAGAAGGTTTATTAGAGGAAGAAGATGGAACATATTATTATGTTAATAATGAAAGACAAAAAGGTATTATAAATAATATGTATTTTGATGATAATTATAAACTAAGAAATGAATTTAAAGTAATAGATAACAAGGTATATTATGATAATAATAAAGGTTTATATTTAGTAGATGGAATAAGATATTATTTTGATTTTAATGATGGACATTTAATTAGGTCCTCAGTTAAAAGTGTAATAGATATATCATCATGGCAAGGGGATATAGATTTTGATAAATTAAAAGAAAGTAATGTAGTAGATGCTGTTATAGTAAGAGTAGGCTATGGAACAAGTATTAATTCTAAATGTGGACTAGATAAAAAGTTTGAAAGAAATATATCTGAATTAAATAGACTTGGTATTCCATATGGAATATATATTTATGGATATGCTCAAAATGAATATGCTGCTAATATCGAAGCAAACTTTGTTTATGATATGATTCAAAAATATAATGTTAAACTATATTATCCAGTATTCTATGATGCTGAAATAAGGACTTATAATGGTGTAAATTACACTAAAAGCTTATATACTAAGGTAATTAATGCATTTAGTAATGATCTTGAAAATAAAGGCATAAAAACAGGCGTATATGGTAACTTATATATGCTTACTAAAGGTTCTTTAAATGATTTATCTATTAGAAATAAACCTATATGGGTAGCTCAATATTATAATAAATGTCAATATGATTCTGGTTATATAGGATGGCAATATTCTTCTAAAGGAAGTATACCAGGTGTAAACGGAAGAGTAGATGTAAATATTTTTAATTATTAGTGTAAACTTTTTAAAAACCAATTATTTTTATACATATTTATGATATTATATATATGTTAGCAAGGTGGTTGAAAAAATGAAAAAATTAGATCAAATAGTATTATTTATAGTATTTGCTTTATTAATAGGCATAATTGTATTGATGACATTAATGTTTGTACAAAAGGGTAGAATTACTTTTGGAAGAATAGTAGTTAAAGAGAATGTTATAGAAGAAAAGAAAGTAATGAGTGAAAATATTGTATTCTTAGGAGACTCTATTACTGAAGGTTATGATATAGATAAATACTTTGAAAAACATTATCATGTACAAAGTGGAATAAATGGTAACTATACTGAAGATGTATTAAATGATTTAGAAAAAAGAGTATATCAATATAATCCATCAAAGGTATTTATAATGCTAGGTATAAATAATTTTGTATGGGGAGATTCTTCTGCAGAAGATGTTGCAAATGATATTAAAAAGATCTGTGAAAAAATAGAAGAAAGAAATCCATATACAGAGATTTATATAGAGTCTATATTCCCTTATTCTGCTAAATGGAAAGAAGAACATGATCATGCTCATGATGCGGATTATGTAGTTAGTAGAATAAATGATACTAATAAGATTTTAAAGAAATATGCTGTGGAAAAAGACTATAAATATATAGATTTATATTCACTTTTAGTGGATGCAGATGGTAAATATGATTTAAAATATACTGATGATGGTCTTCATCCAAACGAAGAAGGATATAAAGTAGTAACAGCAGAATTATTAAAATATATGAAATAGAGTTTTATTTAAACTCTTTTTTTGTTATAATTAATTTGTTAGATAGAAAATATGGAGGTTTATTATGCAAATATATGACTTTATTGGTATAAGTAAACAATCTATTATTGGTATAAAGAATCCTGGTTTAGTTATAGAAGGAATCTGTCTTAAAAAGGATGCAACATTTATTGTGATGGCTGATGGAGATGAAATCCCATTTCTTTTATATGATACAGATGAAGAGAATGGATTTGGTATATCAGCACCTTTAAGTACTGATATGAAATATATAAAAGCATATGTAGTAGATGGAAATAGAAGACTATTAATCTTTTCAAGTAAAATGAGTGTATTTAATAGAATAGGCCTTAAAGTAGAAATATTAGTAGGTAATATATATGTTTTCTTTAAAGTGTTCTTTCCAATTCTAGGTAAAGGAATATCATATTTATGGAAGAAACATCATTTATTAGTTCCATTTAAACTATGGGGTAAATACTTTAAAGAATTTAAAAATAAAGTAAAAGATAGTTATGAAGAAAACGTTAAAGATGTTAATGTTTTAGACTAGTAATGTAATCAGGAGGGTAAAATGAAAGAAAAAGATATCAGACAATCAAATTTTGAATTAATGAGAATTATTTCAATGGTTTTTATAGCTTTATGGCATTTCTTTTTACATGGCAAAATATTTGATAGAACTACAGGCGTAGATCATTTTATAGTTGTTATTATAACAGCTCTAATAGCGGTCCATGTAAATTCATTTGTATTATTATCAGGTTATTTTAACTATGACAAGAGGTTTAAATTATCAAAAATAATAAAATTAAGTAACACATTATGGTTTTACAAATTTATTTGGATTCTTATAGCAATATTTGGCTTTTCAATGACTTTTTCAAAAGCATATTTATTAGAAAATTTATCCTTTATTCCAAGAATAGAAAATTGTTGGTTTATAGTAGTTTATATGGTGTTCTATTTATTTACACCTGTATTAAATATTGTTATAAAGAATATAGATAAATCAAAACACAAATCTATCATAGTAGCTTTGTTAGTGGTTACATTATTTTGTTATATAACATTAGATAGATTTATTAGTATTAATAGAGGATACTCAGTTTTTTCATTTATTACTTTATATTTTATAGGTTCTTATTTACATAAGTATCCTATAGATAAAAGTAAGCATTCTAAGAAAAAGATTATATCATTAGCTTTTCTTGTATATATTGTTTTTGCATTAATTAATGTAGGTATTCACTATTTAGGAATTAGTCATTTAAACTCATCTCATGAGATTTTAAGAAATTATTCATATTTAATGAAAATGGGTTTCTTTGAATACTTTAATCCATTTGTAATAATTTGTACTATTGCATACTTTATAATCTTTAGTCAGTTAGAATTTAAGAGTAGAATTATAAATCTATATGCTAAATATATTTTAGGTGTTTATCTAATGACAGATAATTTACTTGCTAGAGCAATAATATATAAAAATATTGGTTTCAATCTAAAATCTTATACTCTTAAACATGTATTATTAGCATTCATAATATCTATTGGTATGGTATTAGTACTGCCTGTAATAGAGTTTATAAGATCTAAAGTATATAAATTCTTCTATAACAGAAAACTAGCTAAAAAGAATAGAGTATTTATTCAAAACACAATAAATAAACTTGGATTAAGTGTTAAATGGTAAATAAAAAAGAGTTATAATCTTATAAGATTTGTTAACTCTTTTTTTATTAATTCAGGATCATTTACTATTAATGAATATATTTTAGAAACATTATATTCATACTCTAAATCTTTATTAAATTTAGTATATATAGGTATTTTTATACTCTTTTTAATACTATTTAAATACTTTTGTCCATTAGTATTAAATCCTAGTACTCTTATATATTTAATGTCTTTATCATTATCTTCTTTTTTAAATGAAAGAAGTATAGATATAAACATTCTTTTTAATTTATTAACTGTATATCTTTTAGTTTTAACTTTATCTATTAATTCTTCTAATGTATTACATTCTGTAATACATTTTTTTAATCTATTTTCTATACCTTCATCTACTAAGTTATATTTATATAATTCATTATCAGATATTATTTTATATTTTAATAAATTAAAATATGATGGTGTATAGTAATCAACTATAGCATTTTTTGGAACATATTTCTTAATATCTATATTATTAATATTATTTCTAATAGCATTAGCACTTATAATATCACTATCTAAATTATTAGAATTATAATCATTAGTTCTATTTATAGTTAATGGTATCATTCTAGATTTAATATTATTAATTTCTTTTATATATGAAATACCAAGTATATCATTGGATTCTATATCTTCTATATTATATATTTTTAATGCTTTATGTAAGGCATTTTTATAACTAATACCATTATCCATTAATTTCTTAACTTCATTATTATATTTAGACTCTGATTGTATTTTACTAATATACTTTAATTTATCTATATCATCAGATTCAGATCCAAATACAAGATAATCAACATCTAAATAATTAAGTATATCTATTGCTTTAGAAAAAGTATCAGCAGACTGAATAACAAACTTAGTAGGTATTTCTACTACTAAATCTATATTGTTTTCTAAAGCTATTCTAGTTTTATCCCATTTATTAATTATGGAAACATCTCCTCTTTGAGTAAAAGAAGGGGACATAGCTAAAATAATAATAGAATCCGGAAACATTTCTTTAATTTTATCTATATGATATTTATGTCCATTATGAAATGGATTATATTCACATATTATTCCAACCTTAGTCATAGTATTTCTCCTTGATAAGTATTTTATCACATGTAAAGGTAAAATGTAAACACATGGGAAAATGTTCGTAAATATAGTGTAATCCTTTAATTATATTAATATAAATGGTATAATTTATAGTGGAAAAGAAGTGATAAAATGCAAAGTATATATAATATGACTAAGAAGAAATTAGAAGAATATTTTGAGTCTATTAATGATAAAAAATATAGGGCTACTCAAGTATATGAATGGCTTTATAGATCTAAGGTTAAGTCGTTTGATGAAATGACTAATTTAAAAAAAGATTTAATAGAAAAACTAAAAGAAGATTATTTCTTTGATGATATTAAATTAGTTATTAAACAAGAAGATGAATTAACTAATAAATATTTATTTGAATTAAATGATAATCATAGAATAGAAGCAGTTTTAATGAAACATGATTATGGTAATAGTATTTGTATATCATCTCAAATTGGTTGTAATATGGGATGCGCATTTTGTCAAAGTGGAAGACTTAAAAAGATTAGAGATTTAACAGTATCTGAGATGCTACTTCAAGTTATTAAAGTAGAGGAAGATCTAGGAGAAAGAATTAGTCATGTAGTTATAATGGGTATTGGTGAACCATTTGATAACTATGATAATGTTATAGACTTTGTAAGAATAATTAATGATCCATATGCTTTAGCAATTGGGGTTAGACATATAACAGTTTCAACTTGTGGAATAGTTCCTAAAATATATGCTTTAGCAGATGAAAATTTAGATATTAATCTTGCTATATCACTTCATGCTCCAAATAATGAATTAAGAAGTAAAATAATGAGAATTAATAATGCTTATCCATTAGAAGAAGTAATGAAGGCAGTAAAAGATTATATTTCTAAAACTAATAGAAGAGTTACTTTTGAATATATTATGCTTAAAGGAGTTAATGATTCTATTAAATGTGCTTTAGAGCTTGTTAGTTTAGTAAAAGGATTAAATGCATATGTTAATTTAATACCATATAATGAAACAGAAAATATTGAATTTAAACGTTCAGAATATTCACAAATTAGTGCATTTTATGATATACTAAAGAAGAATAATGTAACATCAACAATAAGAAAAGAGTTTGGATCTAATGTATCTGCAGCATGTGGACAACTTAGAGCTGAAAATATAGAAGGAGAGATATAAATGGAAAGTTATTTTTTAACTGATACAGGAAAAGTTAGAGAACATAATGAAGATAGTGTTACTATATTAAAAAATAAAAAAGAAGAATATTTACTTGCTGTTGCAGATGGCATGGGTGGTCATAAAGCAGGAGAAATAGCCTCTTCTATGGCAATTAATCATTTAACAGAGAGTTTTAACAAATTAGATTCTATGGGTGATAAAAAAGAATGTGTAGAATGGATTAGAACTAATGTAAATGAAATTAATGAAGAAATATTTGAATATACTAAGAATCATCCTGAAAGTAAAGGAATGGGTTCTACTTTAGTTATGGCTATTTATACTAAAGATTATTTATTATTTGCTAATATTGGAGATTCATCAGGATTTGTAATTAAGAAAGATGAACTATTTAAAATAACTAAAGATCATACTTTAGTTAATATGCTTGTTAATAATGGTGAATTAACAGAAAGTCAAGCTGCTAATCATCCAAAGAAGAATATTTTAATGAGAGCACTTGGAGCAAATAATCCAATAGAAGTAGATATATTCTCAGTAGAAGAAGAAGTATCTGGAATAGTACTTTCATCTGATGGACTAACTTCTATGCTTACAAAAGCTCAAATAGAAAGAGTTCTTGCAAATAAAGAACTTAGTCTATCTGAAAAAGTAATTAGATTAATAAGAAAGAGTAATATAAGAGGTGGGCTAGATAATATATCAGTCGCATGTTTAATGATGGGAAGTGATAAATAGTGATAGCAAAGGGTCAAAAGATTAATGATAGATATGAAGTTAAAGCTTTAATTGGTGAAGGTGGAATGGCCAATGTGTACCTTGGTTATGACACTATTTTAGGTAGAGATGTTGCAATTAAAGTTTTAAGAGGAGACCTAGCAGATGATGAAAAGTTTGTTAGAAGATTTAGAAGAGAAGCTCAAAGCGCATCTTTATTAAATCATCCAAATATAGTTCAAATATATGATGTAGGAGAAGATGATGGAAACTTCTATATAGTAATGGAATATATTAATGGACAAACTTTAAAACAAATAATTAAAAAAAGAAAAAGATTATCTATCTCTGAGACAATTGATATTATGTGTCAATTAACTGATGGACTTTCATCAGCACATGATTCATATATAATTCATAGAGATATTAAACCACAAAATATAATGATACTTGATGATGGTATGGTTAAAATAACAGACTTTGGTATAGCAATGGCTGTTAATGCATCTGATTTAACACAAACTAATTCAGTTATGGGATCAGTTCATTATTTACCTCCAGAACAAGCATCAGGTAGAGGTAGTACTATTAAAAGTGATATTTATTCACTTGGTATTATGCTTTATGAAATGCTTGCAGGTACTATGC
>sequence04
AGTTATATCAATTTTATTAATAACAGTAGTTTTATTACAAAGCGACAAAGCAGAAAGTGCTTCAAATATATTACTAGGAGCTTCTTCTGAATTATTTGCAGAAAGAAAGGAAAGAGGACCTGAATTATTTATAAGTAGACTTACTTTAGTATTAGGTATCCTATTCTTTGTAATTTGTCTAGTAATGTCAGTTTTAAAATAAAAAGACTTTTATTAAAAGTCTTTTTATTTTATAATAAATTTAAGGTGAAACTATGAGAGATAAGATATTAGATATACTTAAAAACTCGGAAAAAGCATTGACTTCTATTGAATTATTAGAGGCTCTTAATATGAGTGAAGTAAGTGAACTTACTTCTCTTTATGAGGTTTTAAATGATTTAGAAGATGAAGCTTTAATATATAAGACTAGAAAAGATAAATATATGCTTTTTGAGAATAGTCATCTAAGAATAGGTAGATTATCAGTTAATAAAAAGGGATTTGGATTTGTAACAGTCCCTGGTTTAGAAGATGATATATATATTGATGAAGATAATCTAAATGGTGCCCTTGACGGGGATACAGTAATAATAGAGGATATTAAATCGGTAAAAAGCAAAAAAGATGAAGCAAGAGTAGTTAAAATACTTAAAAAGAGTAATAGTTATGTAGTTGGTACTTTTGATATAGTTAAAGGTAAACCTTCATTTAAACCAGATAATGATAAGTTAAAAATGAATATTATTATTGATAAAGCTGATTTAGATGATTTAGTTCCTGGGCATAAGCTTAGAGTTAAAATTGAAAAAGAACTTCCAAACCATAGATATTTGGCAAAAGTAGATAAAATAATAGGTCATAAGAATGATCCTGGAGTAGATATACTATCAATAGTATATGACTATGGAATCAATGATGTTTTCCCAGAAGAAGTAATGAATGAAGTAGATAAATTACCTTCAGAAGTAAAAAAAGAAGAAACACTAGAGAGAGTTGACCTAACTAATGAATGTATATTTACTATAGATGGTGATGATACTAAAGATATAGATGATGCTATATCTATTAAAAAAGACGGTGAAAACTATATTTTAGGTGTTCATATAGCAGATGTTTCTTATTATGTAAAAGAAGGAACTAAACTTTATGAAGAAGCAAAAGATAGAGGAACCTCAGTATACCTAGTAGATAGAGTTATTCCAATGCTTCCACATAAACTTAGTAATGGTATATGTTCACTTAATCCTGGAGTAGAAAGATTAGCTATTTCATGCGTAATGACAATAGATCCAAGAGGTAAAATAATTAGCCATGATATATTTGAATCTGTTGTTAAATCTAGAAAACAAATGACTTATAAGAATGTTAATAAGGTATTTGATGGTGAAACTCCAGAAGACTATAAAGAGTATGAATCTGATTTAAAACTAATGTTAGAACTATCAGAAATACTTAGAAAAGAGAAATTATCTAGAGGATACCTAGACTTTGATACTAATGAAGCTAAGATATTAGTAGATGAATCAGGTAAACCATATGATATAGTACTAAGAGAAAGAGGAAAAGGAGAAAATCTAATAGAAGACTTTATGATAGCGGCTAATGAAACTGTTGCTAGTCATATATTCTATATGGGATATCCATTTGTATATAGAGTCCATGAAGTACCAGATGATGATAAAGTAAATGAATTTATTAGTTCTTTATCTGCATCAGGTCTTAATATAAAAGGTGCTAGACATTATGATAATCCTAAAGTGATGCAAGGAATACTTGATATTATTACTAATAAAGAAGGTTATGATATATTCTCTAATCTACTTCTTAGATGTATGAGAAAAGCTGAATATAAAGATCAAAACTTAGGACACTATGGTCTTGGTTCTAAATGTTATACACATTTTACTTCTCCAATTAGAAGATTCCCAGATACTACAGTTCATAATTTACTTAGAAAGTACTTATTTAATAAACCAAATGAACATGAATTAAACGAATTAATAGGTTATTATGAAATGAAATTACCTGAAATATGTGAACATTCATCTAAGAAAGAAAGAGATTCTATTGATTGTGAAAGAGATGTAGAAAAGATGAAGATGGCTGAATATATGGAATCCCATATAGGTGAAGAATTTGATGGTATTATTAGTTCTTGTCTTAACTTTGGTATGTTTGTACAATTACCAAATATGGTAGAAGGTCTAATACATGTATCAGATATTAAAGGAGATTACTTTAACTATAACGAAGAATTAAATGCTCTAATAGGACAAAGAACAAAAAAAATGTATAAATTAGGAGATAAAGTTCATATTAAAGTAATTAATGCATCTAAAGAAACAAGTACAATAGATTTTGAATTAGTAGAAAAAGGTGATAAACATGGAAATACTAAATAAGAAAGCAAGATTTGATTATGAAATACTAGAAAAGTATGAAGTTGGTATTGTTTTAACAGGTAATGAAATCAAATCTATTAGAAAAGGATCATGTAATCTAAAAGATAGTTATGTATTAGTTAAAAATGGTGAAGTATTTGTTTTAAACATGCATATATCTAACTATGATAAAGGTGTTAGTAATCTTGATGAAACTAGAACTAGAAAGTTACTTCTTAATAGAAATGAAATAAATAAACTACAAGGAATAGTAGAAATCAAAGGATATACTATTATTCCAGTAAGACTATATTTAAAAGGAAATATAGCAAAATTAGAAATAGCAGTTGCTAAAGGTAAACATACTTATGATAAGAAAGAAGCAATAAAGAAAAGAGATACTGAAAGAGAAACTGCTAGAGCACTTAAAAATTATAGGTAAAAATTTGACAATTTCCTTATTTTGCCTATAATTTTTATACATGGGGCTGTATTTGGCTTCGACAATTTGCTTAGTATTATAGGTGCAGGCCGGAGTGACACGTTAAGTCTTTGATAAAATAATTTCAAACAAAGTTAAAAACGCATTCGCATCACTATTCAGAGTTAATAGTGCTGCTTTAGCTTAATAATTAGTGAGTGCACTTTCTACTATCTATTTTCTGCGTAGATTTTAGAAGGTTCGATTTAGCAGAATATATTATTATTTAGTCTAGAAATAATAAAGAATCTTATAGACTTACTAAACTAGATGATGTTAGTTTCTTACTAGTATAGGAATATTAATAACTAACTAAGTCTGTAGTACCTAAATATGAACCATTTTGGACAGGGGTTCGATTCCCCTCAGCTCCACCAAATGTAAACGAGGCGAACCCTGCCATATATTATGGTATAGGGTTCTTTTTATGTTATACTTTTTATAGGTGATAATAATGGATTTAAAGAAGTTTGATAATAAATGTGTAAGAATAATAGATATAGATGATATAGTATTTGAAGGTAATTGTACTTATAATGATAAAGTACATAATGATAGATTAATGTTATGTTTAAAAGATAATATAGATAAGTTTGATGATAAAGATAGGATTAATAAACTAATAGAAAAAAGGAACTAATAAGTTCTTTTTTATTGATTTTATAATATTAGAAATGTATAATATGTATCTATCAGGAGCAATATTATGTTAAAAAGAGTAAGAGTAAAATTAAAATATAATAATGATGAAAGTCAAAGTGGAAAAATTATTATAAAGCAAGGACTTAAAAAGAAAATAGAATTTGGAATAAGACAAAGAATTCTTTTTATAAGATTCCATGAACCTATATCTGAATCTAATCCTATTGTTATAACAAAAAAAGACGGTAAAGTTTTATTTAATAATTTAAATTGGTTTTTAGATCAACAATATAAAGGAAAATCAAAAGAATTGGATAAGCAATATAAAGATGATACTAAATTTGAATATTTATCAGATATAGAATCTCCTCTTGGTGTAGAAGGTACTCCTCGTATTATAATTGAGAGAGATAAAGATTCTGTTTCAATAAGTGAAAGAATACCTGCTTTAAATCAAAGGGTAAATATATCTGGTGGACAAGTAGTAGTAGATACTAGATGTTCAATTCTTGAGGAATCTAATAAAAAAACAGTACAAAGTATTAAATCAGATTTCTTTGATTCAATTAAATGTACTATGTGTAAATGTTTTATATATAGACCTAATAAAAGAAGATAATATCTTCTTTTTTTATGCTATAATTTAAATAGGTGATAATATGAAACTATTAAAGAAATATAGTCTATATTTAATAAGATGGCAACTAAGTACTCCAATATTAGCAATAGTATTAAAATTACTATCAAATATGAATACTTTAACTGCTACTATAATAGCTAATTTAATTGGAGGTTTAATTTTCTTTTGGGTAGATAAATTTATATTTAAAAAGAGATCTGATGTTCCATTATGGGAAATAAAAGATAATGTAGAATGCTTTGATTGCCATAATAAAACTAAAGGTTATAGAATAGTAGAATGGGGTAATTATGATAGATCAGAGGATAAAAACCCACAGTATAGATGTAAAGATTGTAGTATTAAAAAAATGAAGACAATAAACAAATAAGATGTTATAATGAATAATAGAGGAGATATAAAAATGAAAAAAATATTAGTGTGTTTATTAGCGGTTTTATCTTTATTTATATTAACAGGCTGTAAAAAAGATAATGAACCAAAAAAAGTTGTAAAAAAAGAAAAATTAAAGTATATAGAAACAAAAGTAGAAGACTATGATATAGTATTATCTGTTGATACTAAATTTAATGAATTATCTTATAAAGCACCTGAGAATGCCAATATAGGTAATGTTGGAACATATAGTATTATGGATATAATGAATAATGATAGTTTAGTAGTAAGAGTAGCTATGTACTATTTTGAAGGCAAATATGATTATGAAGTAATGAAAGATAGTCCATTAGAAAGAGTAGGAACATATGAATCAAATAAAATAGTATGGACAAAATATACTGGATATCAAGATGATAAATACTTAATTACATTAGTAAATCAATATAATAATTCAACTTATACTATTACATTCTTATCAGATTATGATATCGAAGAATTTATAGATAAATTTACAGGTACAATAGAATTTTAATAAAAATAACAATTCTTATAGAATTGTTTTTTTATTTATGATATAAATTATAATGTGGTGAATAAAATGAAAAAAATATTATTAATATTAGTATTATTTTTTATATGTATAAATGTTAAAGCATTAGATATTAATTCTAGAAATGCAATATTAGTTAATTTAAATACTAATAGAGTTGTATATGAAAAAGAAAAAGATGAAAAAGTATCTATTGCATCCCTTCAAAAAATATTAACTGCTATAGTAGCCATAGAAAATATAGAGGATCTAAATGAAAAAGTAATAATAGATAGATCAAAGATTTCTGATATAGCATATGATGTATATACTATAGGTCTAAAAGATAATGAAGAATTAACTTATTATGATTTACTTGAAATGACTATATTAAAGTCTGCTGGGGATGCAGCTAAGTATTTAGCTTTATCAGTATCTTCTTCAGAAGATGAATTTGCAAATCTAGTAAATGAAAAAGTAAAAGAATTAGGATTAGAAAACACAGTATTTAAAGATCCTATAGGATTAGAAAGAGATGGTCAATATTCAACTGCCTCTGATGTAGAAAAAGTCTTAGAATACGCACTTAAAAATAAAGATTTCAAAGAAATATTTACTACAAGTAAATATAAAACTACAGATAATGAATTTGAATTTAATGGACCAAGAGAAGCATTTAAAGATATGGATGCATCTTATATAATAGGAGCTAAAACAGGATATACTTCTAAAGCAGGTAATTGTTTAGCAAGTTATATTATTAATGGTAAAGAAGAATTTATATTAGTAACCTTAAATGCAAGAGAGAATAAATCTCAACACTTCGTAGATCAAAAAACTATGATGGATTATTATATAGAGAATTATACTTTAAAAAAGATACTTAGAAAAAATGATTTGTTCGTAAAAGTAACTTCTACTTTTAAAGAAGAAATAAATATAGTAAATGAAGAAGATATTTATTATTATGTAAAAAAAGATTCCAAAATATCATATAAATATAAGGGTATTAATAAAGTTAATACTAAACATAAAAATGGAGATTTATTAGGTAAATACTATGTTTATGAAGATGATTCTATTATTTATGAAAAAGATATTTATTTAAATAAAGATATAGGTATTTATATACCAGTTAAAATAAGATATATTTTATTTGGAACAGCATTAGTTATCATAATTTTATTATTTTTAAGAGTAATTAATAAAAAACGTTTTTTATATAAAAAATATTGAAAAATAATAATTTAAATGCTAAAATTATTCTAGAATAGGAAGAGGGTATTATGAAAGAAACATTAGTTAAAGTTACAAATTTTGTTAATGAAAACACAATGCTTTTAATAGGTATATGTGCGTTTCTTATATTAGTATTAATAATATATTTAATTGATAATAGTATTAAAACTAAAAAAATGCAAAAAGCTCTAAAAGAAATGGATACAGTTGAAGATAAAGTAGTAGAAACAAAAGAGGATACAGTAGTTGAATCAAATTTTAATAATGAAGAAACTCCTACTTTTGATAGTATATCTTTAATTGGTGATGAAGAGGAAAAAGAAGAACCTATAGTAGAGACTCCTGTTAAGGAAGAACTTAATACTATAGAGGAAACTCCAGTAGTTAATAATACTCCTGATGTTCCTAAAGAGAAATTCACTAATAAAAAATCTTTATCTGAAATACTATCAAAGAAAAAAGAATCTATTAATGAAAATGATGCTGATAAAACATTAGAAGAAACAACAGAATTTAATAATACATTTTAATATATAGCATTCATGCTATATATTTTTTTATAGAAATATGATATAATTTATGGTACGGAGAAAATTATGAGATATATAAAAAGAATATTATTTATATTATTTTTAGTTATAATGATTTCTGGTTGTAGTGTAGACTACAAGATTAAGATTAATAAAGATTTATCTATTAGTGATAGTGTAATTGTTACAGAAAATACTGATAGAATGAAATCTAGAACTAATCTTGATGTTACTAAATCAGTTAAATATTTATATGATATTTATAAATTTAGAAATATGGGAGAAAATGATTATACAATAGTATCATCAGGACTTACTACTAAAGTATCTGCACATAACAGTTATAAGAACTTAGATGAGTTTTCAAAAAATTTTAAATCTGATTTATTTGAAACTCCAATAGTAAATATTGGGAAAGAACAAGTATACTTTGAATTAGATCAAATGAAGACTATTGATTCTAAGGCATCAACTAGACCTGTATATGATAGTATTAAACTTACTATAGAAGTTCCATATAAAGTAACATATCATACTGCCACAGAAGTAAATGGAAATAAATATTCATGGAATATAAAAGCAGATGATAATAATTTACAAAGAATGATATTAGTTTTTAACCAAGAAAAAGAAGATAAGAAGGTATCCGTTGGTTTTGGAGATACTAAAGTACATATTGGATATGAGTATTTAGCTATTGCTATAATTATAATTTTAATTGGATTAGCAGTATTCTTTACATATATGAAAAATAAAAAGGTTAATAAGATGTAGGAGGACATATGAGTTTAGACAGTATAATATCGATTGTTAAAAAAATAGTAGATATATGTTTAGTATGGTTACTATTATATTATCTATTAAAAAATGTTAGAAAAAATGTTAAATTTTCTTTATTATTAAAAGGAATAGTAATAATTGTTTTAATAAAATTAATTAGTGATTATTTTGGATTAGTTACTATTGGTTTATTATTTGAATATGTTATTTCATGGGCACCAATTGCTTTAATAATAATATTCCAACCAGAGATAAGATCTGCATTAGAGCAACTAGGTAAAACAAAACTACTTGGTAGTCATAAAACATTATCTTTAAGTGAAAGAGAAAGAATGGTTACTGAAATAGGTGCATCTTTAGAATATTTAAAGAAAAATAGAATAGGAGCCCTAATAGTTATAGAAAGAGATACTTCATTACTTTCCTATATAGAAAAAGCTAAGAAAATATATGCTGATATATCTAATGAATTATTATGTTCTATTTTCTTCCCAGATAATCCACTTCATGATGGTGGTGTAATTATTCAAGGAAATAAAATAACATGTGCTGGAGCAGTATTCCCAACTACAGTAGATATGAAGTTTAGTAAGAGACTAGGTACTCGTCATAGAGCTGCCATTGGAATATCTGAAGAAAGTGATGCTATTGCAATTATTGTTTCTGAAGAAACTGGTAGAATATCAGTTGCTATTGAGGGTAAATTAAACTATAACTTATCCATAGACGAAGTTAAATCTATCATCTTAGAAGAGTTAATGCCAAAATCTGAAACTTTTGTTGTAGAAAAAGAAGAAGAGGAGGATGACATAGATGAGATTAATTAAGAAGATAATTAAGTTTTTTGATAGAAATATAATTGTTCCTATAACTAGATTCTTTGTATCTATTGGAAAAAAACTTAAAATAATAAATAAACCTCTAGAATTAATATTAAGAACTAAAAGAAGTTTAATAATACTATCATTATTATTTGCTATTATCATATTCTTTGTAATAGATAGAGCAAGTACTACATTAGTAGAAACAGAAGCTGAAGTATTATATAATCAACCTGTAACTGCTAATTATAATGATGAAGAATATGTTGTTGAAGGTCTTCCTGAAACAGTAGATATAACAATGATTGGTACTAAAGCTAATTTATATTTAGCTAAACAATTACCATCTCAAAATGTAACAGTAGACTTAAGTGATTTAGCTCCTGGTGTACATGAAGTTAAATTAAATTATAAACAAGCTATAACTGCTGTTGAATATAAACTAGATCCATCAACAGTTACAGTAGTTGTAAGTACTAAACAATCTGCTACTAAAGATATATCTTATGAAATATTAAACTTATCTTCTTTAGATAGTAAGATGTCTGTTAAAAATATAGATTTAGATGTTAATAATGTTATTGCTAAAGGTACAGAAGAAAAATTAAATAAAATAGCTACTATTAAAGCATTAATTAATTTAGATAATTTAGGTGATCCAACTGTTGGAGAAAATACTATTAAAGATAATAAAGTAGTTGCTTATGATGAAAATGGTAAAATTCTAGATATAGAATTAGTACCAAGTAAGGTAAATGCTACTGTAGATATTGAATCTCCAAGTAAGACTGTACCATTAAAGGTAGTTCCTGTTGGACTTGATAAGATTGTATTTGGTAAATCAGTAGAGTCTATTACAAGTTCAGTTAGCGAAGTAACTATATATGGTTCTGAAAGTGCCTTATCTAAGGTAGATTCAATAGATGTAAAAGTAGATGTATCTGATATTAAGACTAATAAGAAGTATACTAAGACAATAAAGAAACCTGCTGGTATTAGAGAAATATCTACTAAGACAGTTACTATTGAAGTATCTTTGGGAGATGAATCTTCAACAAGATTATCTGATGTTAGATTAAGTTATATTAATCTTGATGATAGTTATACTATTACTAGTGCTGATACAACTACAATTTCAGTAATATTAAAAGGTGTAGAATCAGTAATTAAGAAAGTATCTGCAGCAGATATTAATGCTTATATTGACCTTAATAATTTAGGTGAAGGTGAGCATGAAGTAGATGTAATAGTTAAAGGTAACGATGAAAAAGTTCAATATCAACCTCAAACTACTAAAGTAAAAGTGCAAATTGCTAAAAAATAGCAATTTGCTTTTTTATTTATAAATGTAAAAAAACTGTTATAATTATTGACTTTTTTGCTGTTTTTTAGTAGAATTACTACTGGTACATTTAAAAAACCCACAAATATTAAATTAACTGTGGGAAGGTTAATTTAAGATTTAAGAAAGGGAAATATTTATGGACACATTTATGGCTAAGAAGTCAGATGTAAAACGTAATTGGTACGTTATTGATGCTGCAGGTAAAAATTTAGGACGTGTAGCAACTAAAGCTGCTACTATATTACGTGGAAAACATAAGGCAATTTATACACCTCATGTTGATTGTGGTGATTATGTAATAATAATCAACGCTGAAAAAGTTAATTTAACTGGTAATAAGTTAGATCAAAAAATGTATTATAATCATAGTGGATATCCAGGTGGATTAAGAGAAAGAAATGCTAAAGAAATGATTGAAAACTATCCAGAAGAAATGATGGAAAGAGCAATCAAAGGAATGCTTCCAAAAGGTAGATTAGGTAGAGCAATGGGTAAAAAACTATTCGTATATCGTGGTAGTGAACATAAACATGAAGCTCAAAAACCTATCACTATGGAACTTAAGTAGGAGGTTTAAATGGCAACTAAATTTACAGGTACAGGTCATAGAAAAACATCTATAGCTAAAGTAGTTATGGTATCTGGTAAAGGTAAAATAACTGTTAATGGTAAAGATGTTAATGAATATTTTGAACTTCCAACATTAGTTTTAGATTTAAAACAACCATTAGAAGCTACTAATACAGTTGATAAGTTTGACATTGAAATCATCGTTAGTGGTGGTGGAAAATCAGGACAAGCTGGTGCAGCTAGACATGGTATTACAAAAGCATTACTTGAATATGATAAAAATACAGATCCTAACTCAGATACTTCTTTCAGAAAAATTCTAAAGGCTAAAGGATTTATTACTAGAGATTCTAGAATCAAAGAAAGAAAGAAACCAGGATTAAAGAAAGCAAGAAAAGCTCCACAATTCTCAAAGAGATAATATGCTTTATTGAAGACCTATTTAATAGGTCTTTTTTCTATGCTATAATTGTTTTAGGTGGTAATAATGGATATATTTAGATTAGGAAATAAAGAATTTAATTGTATAAATGTTGATTTAAATCAAGAACAGGGTTTTAATTTTCCGTTTAGAATACTTATTCCAAACAATTTGAAACAAAATCCAGAATTAATATATGCTTGGACTTTATCACTTGGAGGTCCATATGGAGCAGAATTACTTGAAAAACATGCTAGTTTTGAAAGGATACAACAGGAAGCAAATAATGAGGTTAGTAGTATTGATCCTATAATGCTTCATTTATTAGAAGAAGGTAATCTTATGATAATTCCAGCAATACCAAGATTTTCTGGATTTAGACCTAGCTTTTTAGGTAGTGATGTTTATAATAATGACTTTTCTAAGTATGATGGTTCATGGTATAAAGATTATTTAGAAAAGTATAAAGATTTACCTGATCAAATTAAAAATATGATTAGTTATTCTATAAGTTTACTTAGAGAAAAAAGCATAAATGTTCCTGATAAAGTTATTATGGCAGGGTATTCTGAAGGGGCTAAAGGAACATCTCATTTTGCACTATTACATCCAGAAATGATTAAAGCAATAGTAGTAGGTGGAACGTCTGGCTTAATGCCTGTTCCATTAAAAGATTTAGAAGGTTATACTTTAAAATACCCAATAGGTATTGCTAATATACCAAATTTTGATTATGATTCCTATAAGAACATAAAATTCTTTTATTACACAGGAGAAAATGATTTAAGTGATCCTGGATTACCTAATTTTAAGGAATATCATTATATAAATGAAAAAGGTGAGGATTGTATTTTAAAAGATGAATGTGGTAATCTAACTCCTCATTTAGATGAAAACGGTAATGCAGAGTTTCTATTAGATGAAAATGGAAATTATACTGCTAAATTTAGATTATTTACTAATGAAGAAGTAAATATTTTAAACAAAATATATGGCACAAAAGTAATTGATAGATTTAAAAAACAAGAAAGAGTAATTAGTGAACTAGGATTAGATGTAGAGTGTCATATATACCCTGGAAATCATAGAACAGTATTTGAGAACAAAAAACAAATATTTAGTGATATAGATAGTTTTATAAGCAATAGATTATCAAAGAAAGAATTATAATGGAGATTATATATGGAATTAGTATTAGTTGATAAGATAAATTATTTAAAAGCAATTGAAATCCAAAGAGATATTTTTCCTAACGAAAATGGAACATTAAATATACTTGCATCATTAGGAAGAGATATGTTTATGAATTTAACAGGATTATCATATGTAGATGATCACGTTAGATATTATTTAGCTAAAGAGGGTAATGAATATATTGGTATAACTGGAATATATCATTATGATGATGAAGATGCTTGGCTTGCCTGGTTTGGTATATTAAAGAATTATAGAAGAAAAGGTTATGGAGAAGAATTGTTGTTAAAAACTATGGATATAGCTAAATCTATGAATTTTAAAAATATGAGAATATATACTGATTATGTAGAATTACATGATGCATGTTTACTTTATGAAAAGAATGGATTTATAGGTGAAAAATATACTGCTGAAGAATTACCATATGATTGTAGAATTTATTCTAAAAGTTTGATTGGTAAAGAAGTAGAACTATGGAATAATAAGAATTTAGGATTATCTTATCAATCTGAATTAGAAGGAATAAGCGAAGATAGAATAAATGAAATATTAGAAATATATAAAAATATTTTATGATAATAAAAAACTCTAGAATAATCTTGAGTTTTTTTCGTAATTATCTTCTATTTTTTAGTATTTTTTGGTAAAATAATTTATAGCAATTGAGTATAAAAGGAAGTGTTAATGATGGGCAAAATTATATCTTTAGTTAATCAAAAAGGTGGAGTAGGTAAAACAACAACAAGTATTAATTTAGCTTCATCATTAGGATTACTTGGTAAGAAAGTTTTATTAGTAGATATAGATCCTCAAGGTAATGCTACTACTGGTGTAGGAATAGAAAAGGGTGGACTAAGTAGCACTTTATATGAAGCATTACTTGATGAAAAAACTATTAATGAATCTATTGTTAAAACTAAGTTTAAAAACTTAGAAGTTTTACCATCAAGTATTAATTTAGTTGGAATAGAGAATAGTTTTATTAATAAACAAAGAGAAGATCCAACATTTGCTAAATATACTCAATTAAAAAGATTGCTTAATGAAGTTAGAGATAATTATGATTATATATTAATTGATTGTCCTCCTTCATTATCAGTATTAACTACTAATGCATTAGCTGCTAGTGATTCAGTACTTATTCCAGTACAATGTGAATTCTATGCGCTAGAAGGTATTATGCAACTTTTAAATACTGTTAGAATGGCTAGAAAGAATTTAAATCCTAATCTTGATATTGAGGGTGTTGTTCTTACTATGTTAGATTCAAGAACTCTTTTAGGATTAGAAGTTGTAGAAAACATTAGAAGTTACTTTAAAGAAAAAGTTTATGATACTATTATTCCAAGACTTGTAGTTCTTGCAGAAGCACCAAGTCATGGTAAACCAATAGCTAATTATAATTATAAAAGTAGAGGAACTACTGCTTATATTAACCTAGCAAAGGAGGTTATTGAGAGAAATGAGTGAGAAGAGAAATGCACTTGGTAGAGGATTAGAACAATTATTCTCTGATGATTCTATTACATTTGAAGAATTAGAAGAAACAATTGTAGATGAAGCTAAGAGAAATGATGAAATAGTTGAATTAGATCTTAATGAACTTAGACCTAATCCATACCAACCTAGAAAGAAATTTGATGAAGAAGCTTTAAAAGAACTTGCTGAATCTATTAAAGAACATGGTGTGTTCCAACCAATAATAGTTAAGAAATCTATTAAAGGATATGAAATAGTAGCAGGTGAAAGAAGATATAGAGCATCTAAAATGTTAGGACTTGAAAAGATTCCTGCAATAATTAAAGATTTCACTGATGATGAAATGATGCAAATTTCTTTACTTGAAAATCTTCAAAGAGAAAATTTAACTTCAATAGAAGAAGCGAAAGCATATAAAGCAATTATTGATGCATCAAATTTAACTCAAGAAGAACTTGCTAAGAAAGTAGGTAAAAGTAGAAGTTATATTACAAATATACTTGGACTTTTAACACTTCCTAATAGTATTCAAAATCTTATATTAGATAATAAAATATCTATGGGTCATGCAAGAACATTAAGTAAAATAGAAGATGAAGATAAAATTAAAGAATTAGCTAATAAAGTTATAAGTGATAATCTATCAGTTAGAGAACTCGAAGATCTTGTTAAGGATGATAAAGTTGAAAAGAGAGTAAAAATAGTTAGAAGTACTCCAAGTAATGAGTATAAAGACGTTGAAAGAAAATTAAAAGAAAAATTAGGTAGTGATGTAAAAGTATCTAATAATAAAATAACTATTAAATTTTCTTCTGTACAAGATTTAAATAGAATTCTAGATATAATAGATTGTAATTTAGAAGATTAGGAGTGATATTATGGATATATTTGGATTTCATATTCCAAAAAATATATTCGTTTCTGGTATCGTAGTAATTGTTAGTATTTTATTATATATAATAGCTGCTATAATTATTGGAAAAATAACTAGAAGAGAAAAGAAAAAAGGTAATAAGAGAAGAACAACTCTGCTTATTCTAGTTAGAAAAATAATTAAATATGTGATATTAGTATTATGTATTGTTACTATCTTAAATGTATTTAAGATTAATACAACTGCATTAGTTACTAGTATTGGAGCAGTATCTTTAGTTATAGGTCTTGCATTTCAAGATTTACTTAAGGATATGCTTGTAGGAATGGCAATTATATTTGAAGAACAATTTAATATAGGAGATATAATTGAAGTTGGTGGTTTTAAAGGAGAAGTGGTTGAATTTACTTTAAAATCTACTAGAATTAAATCTTTAACTGGTGAAGTTAAAATAATTGCTAATAGAGAAATTAATTCTGTTATTAATTATAGTGTTAATAAGAATACTATAGTTACTAAGATAAATGTTGCATACGAAGAAGATAATTCTAAAGTAGAAGAAATACTTAAAAAAGTATGTGATACAATGACTAAAGAAACAGAAGGTAAGTTAGAATATAGTTTAATAGATGGTATTGAAGCTTTAGATGATTCTTCAGTAGTATATATGATTAAAGTTCTTGCTAATGTGGAAGATGCTTTAACTATTAAAAGAAATATATTAAAACATGTTAAAGAAGAATTTGATAAAGAGGAAATTAAGATACCATATATGCAGATTGAGGTGCATAATGAAAAATAGTTATAAATTAGGAAGCAAGGTTGTAATGAAGAAAGATCATCCTTGCGGAAGCAATCTATGGACAATTACAAGAGTTGGAGTAGATATTAAAATTAAATGTGATAAATGTGGTCGTGAGATTATGCTTGATAGAATAGAATTTGAAAAGAAATTAAAAAAGGTGGTGGAAGAATAATGGATGAAGTTAAAAAGAAAAGTTTGCATCCAGTATGGTTTTTTATATTACTATGTATTGGAACAATTGTAGGTAGTTTTATACTATCATTATTAAACTTCCATGGAACAGTATATAATGTTTCATCAAGTTTAAAATCATCTACATCATTAGTAACAGTTAATAATTTACTTAGTTCTGATGGTATTAGATTTATGTTTGGACAAGCTACTAATAACTTTGTTACATTCTTACCACTAGGATCATTATTAGTTGGTCTAATAGGAGTAGGAGTAGCTACTAAATCAAGATTACTTGAAAGTGTATTTGATAAGATGGCTAAGAAAGTGCCTAGAGTAGTAGCATTCTTCTTATTCTCATTACTATGTATAATAATGGGATTTAGTACTGATATGGCATTTGTTATTATGATTCCTGTATCAATAGTACTATTTACTTCTTATAGAAGAAATCAATTATATGGTATGGCTTTCGCTTTTGCATCTATTGCAGCAGGTTCAAATATAAACTTATTTATGACATCACTTGATTATAGTATTATAGAACTTTCTAAGAATGCTGTATTAGAAGTTAATAAAGGTTATACTTATGGATATTTTGGTAATTTATACTTTGGTGCATTTTCATCATTAGTATTAGCTGCTGCACTTGCAGGATTAACTGAGTTTATTACTAAAAAGAAACCTGTTAGAATTAATGAAGCAGAAGAAGATATAGATGCTAAATTAGATAAGAAAGCAATAAAGAGAGTATTAGTTACATTTATAGCAATGGTATTATTATTTGCATATGAAATAATACCAGGTTTACCATTCTCAGGAGTTTTATTAGATAATACTCAAATATTCTATGTTAATAAGTTATTTGGAGCTAATTCTCCATTTGTTAATGGTATTTTATATATAGTTGTATTTGCTCTTGTAGTTTGTAGTATTATATATGCTGCTAGTACAAAACAAATTCAAAATAATAAATCTGTTATTAAATTATTTACTAATAGTTTAAATGGTATTGGAGAAATATTAATACTTATATTCTTTGCATCACAATTTATAGCATTATTTAAGTATTCAAATATAGGTAATGTTATTTGTGCAATACTATTTGGATTAATAAGAAGTATGAATTTATCATTAGTACTTCTTGTAATAGTATCAATATTATTTATTATGATAGCAAATCTATTTGTTTCATCAACTGCATCTAAATGGCAAACATTTGCACCGGCAAATATAAGCTTATTTATGAAATCTAATATTACTCCTGAATTTACAGGAGCTATATATAGACTTACATCTAGTGCAACAAATATGATTACTCCAGTATTCCCTTATTTCTCAGTATTTATGGGATATGTTGGATTATATAATAAGAATGATTTCACAGTTAGAAAGTGTTATAGTGTTATTATGCCATACTTAGTAACTGTATTCATACTAGTATTATTTATAGTATTTGGATGGTATTTATTAAATATTCCAATTGGACCAAAGACACTTCCAAATATTTAGTTAGGGGGGAGATTAAAATAGGATTAACAGCAGGTATAGTAGGACTTCCAAATGTAGGGAAGTCTACTTTATTTAATGCAATTACTAAAAAGAATATATTAGCTGCTAATTATCCATTTGCTACAATAGATCCTAATGTAGGAATGGTTACAGTACCTGATGAAAGATTAACTGTTTTAGAAGAAAGAGAACAACCTGAAAGAGTAGTACCTGCTACATATGAATTTACTGATATAGCAGGGCTAGTTAAAGGAGCTTCTAAAGGTGAAGGTTTAGGTAATAAATTCTTATCTCATATAAGAGAATGCGATGCTATATGTGAAGTAGTTAGATGTTTTGAAGATGAAAACATAACTCACGTAGAAGGTGGTATAGATCCTATAAGAGATATAGAAATTATTAATCTAGAACTTATTATGTCTGACTTAGAAATTGCAGAAAATAGAATAGGTAAAATAGAGAAAAAAGCTACCACTACTAAAGATAAAGAAGCTTTAGCAGAAGTCGCTGTATTAAAGAAAACAATAGATGCTTTAGAACAAAATATTCCTTTAAGAAGAATAGAATATACTGAAGAAGAAGAAAAGATACTAAAGAACTTTCATTTTCTAACTAAGAAACCAATTATTTATATGGCTAATGTATCTGAAAATGATATATTAACGGGTAATGAATATGTAGAAAAAGTTAAAGAATATGCTAGTAAGGAAACTGCTAGAGTTATTATGCTATCTGCAAAAATAGAAAGTGAACTTAGTGAACTTGAAGATGAAGATAGGAAGATGTTCTTAGAAGACTTAGGCCTTAGTGGTTCAGGACTAGATAAACTAGTATATGCCACATATGATTTACTTGGTCTTCAAACATTCTTTACAGCAGGTAAAGATGAATGTAGAGCATGGACATTTAAAAAGGGTATGAAAGCTCCTGAATGTGCTGGTATAATACATACAGACTTTGAGAAAGGATTCATAAAAGCAGAAGTAACTTCATATGAAGATTATTTAAAGTATGGATCTGAAAAAGCTGCTAAAGAAGCAGGCAAAATGAGACTTGAAGGTAAAGATTATGTTATGCAAGATGGAGATATAGTTTATTTTAGATTTAATGTATAAAAAAACAGATGAATTATTCATCTGCTTTTTTGTATATATAAATAAATACTCCAACACCAATTATTACTATAAGACCTGCAGTAACATATAGTGTTATATAAAATGATCCTTCACTTTTATCTACTAAACCAATATCAGTTGCTACATTATTTAATGAATTATTAGCATTACTAAGTTTTAATTCGCTATTCTTTCTGAATTGTGAAACTCCTAGAATTACTCCAGCAACTGCTACAATTATAATTATTATAATGAACCAAATAAATAGCCCACCTTTTTTACTACTTTTTTTACTCAATTTAATCACCTAAATACATTATAGATTTTTTTAAAAATAAAATCAATATACCCTTTAATAATACTATGTAAAATATACAAAAAACCGTTTACAATTAAATATATGTTTGTTATAATACTTCCTAGAGAATTTAATTCTCCTTGTCTATATTTATATAGACCTTATGTCCAAAGGGAGGTGCAAAGAATGGCTAAGTATGAAATAATGTTCATAGTAAGACCAGACCTAGAAAAAGAAGCAACAGCTAAAGTTGCAAAAGATTTTGAAAAGGTATTAACTGATAATAAGGCTAATATCCTATCATCTAAAGAAATAGGTGGTCAAGAACTTGCTTATGAAATTAAAGGTCATAAGACTGGATATTATTATTTAATCAATGTTGAAGCTGATAATGCTGCTATTAACGAATTTAATCGTTTAGCAACTTTAAGTGAAGACGTTATAAGACATATCGTAATCAAACTATAATGAAAGGATAAATAATAATATGAATAGAGTAGAACTAATCGGAAGATTAACAAGAGATCCAGAATTAAGATATACAGGAAACAATATTCCAAATGCTAGATTTACTTTAGCAGTTAATAGAACTTTCCAATCACAAAGTGGTGAACAAGGAACTGATTTTATAAATATTGTTGTATGGAATAAGCAAGCTGAAAATGTTAAAAAATATATGACTAAAGGTAGTTTAGTTGCTGTTACTGGAAGAATTCAAACAGGTAGTTATGAAAAAGATGGAAGAACTATTTATACAACTGATGTAGTAGCAGATAATGTTCAATTCCTAGAAACTAAAGCACAAAGTGCTAATAGAGATAATGTATCTATTTCTGATTTTGAAACTGGTGACTCATCTAATACTGGTAGTGATATGTCAGATGAAGTATTTGCTAATTTTGGTGACTCTATAGAAATAAGCGATGATGATATCGCATTTTAATAATAAAGGAGGAATAGAAAATGGCAGAATTTAGACCAAAAAGAAGAAAAAAAGTATGTGCTATGTGTGAAGGACATGTACTTGATTATAAAAATGCAGAAGATTTAAAGAAATATATAAATGAAAAAGGTAAAATTTTACCTAGAAGAGTAACTGGTACTTGTGCTAAACATCAAAGAGAAGTAGCTAAAGAAATTAAAAGAGCACGTATGATAGCTTTATTACCATTTACAAAATAAAAAGTACTTATTAAAGTGCTTTTTTTTATGTATAAATTATAGTATAATATATAGTGAGAAAGAAGGTACGCATATGAAGGTTATTTTCTTAAAAGATGTAAAAGGGCAAGGCAAAAAAGACGAAATTAAAGAAGTAAAAGATGGATATGCAGAAAATTTCTTAATTAAGAATGGATATGCTATTAAATATAGTAGTAGAAGTAAAGAAATTCTTGATAATCAAATAGAAGATAGAAATGAAAAAGAAAAAGCATTAATTAAAGAATGTGAAGAAATTAAAAAGAAATTAGAAAGTAAACCATATACTTTTAAAGTTAAATCTGGTAAAGAAGGAAAAGTATTTGGATCTGTATCTTCTAAACAAATAAGTGATGAACTTAATAAATTAGGTTATAAAATAGATAAAAAGAAAATTTTAATGGATGATGCATTAACTACTTTAGGTCATCATAATGTTAAGATAGAATTACATAAAAAAGTAATTGCTGAAATAAAAATAATTATGGAGGATTAAAATGGAAAGAAGAGAAGTACCATACAGCAAAGAAGCTGAACAATCAGTACTTGGATCTGCTTTTTTATCAAAAGATGCTTTAACTAAAATCTGTGATGATTTAAATGAAGATGATTTCTATTTAGATTCTCATAAGATTATTTATAGTGTATTAAAGGATCTTCATGATGAAGGTATTCCAGTAGATATAACAATAGTAACTGATAGATTAGAAAGTTCCGGAGATTTAGCTAAAATTGGTAATGTAGATTATTTAGTTGAAATAGCTAACTTTGTACCTACAGCATCTAATCTAGAATACTATATTAATATTGTTCATGATAAATCTGTTCTAAGAAAATTAATTGAGGTTTCTAATGAAATAAGTGCTGAATCATATGTATTTGATGGACCTATTAATAATGCTTTGGATAGTGCTGAATCAAAGATATTTAATATTGTTAATAAAAGAAAAACATCTGAATTTAGAAATATTCAGGATGTTGTATATAAAGCACAAAGTGATTTAGAAAAACTAAGTGAAAATAGTAATGAAATTACTGGAGTAGCTACTGGTTTTTATGATTTAGACAAATTAACTAGTGGATTTCATGAAAACGAATTAATAATAATAGCAGCTCGTCCTGGTATGGGTAAAACTGCATTTGCATTAAATATTGCTACTAATGTAGCTAAAAATACTAAAAAGAATGTGGCTATATTCAACTTCGAAATGAGTGCTGAACAATTAGTAAATAGAATGCTTTCATCACTTGGCCAAATAAACTTTTCTAAATTTAGAAATGGTAATTTTGATAATGATGATTGGAAGAAACTTGGAGAAGGCGTTAGTATTTTAGCAGATACTAATATTCAAATAGATGATACTGCTGGATCTACTATTTCTGATATCAGAAGTAAATGTAGAAGACTTGCTAGTTCTAAAGAAGGACTTGCAATGGTAGTAATCGATTACTTACAGTTGATTAATGGTACTAATAAGTCTAATCAAAATAATAGACAACAAGAAGTATCAGATATATCTAGAGGTCTTAAAATGATGGCTATGGAATTACATGTTCCAGTTATAGCTTTAGCACAATTATCTCGTGCTGTTGAAGGTAGACCTGATAAAAGACCACTTATGAGTGACTTAAGAGAATCAGGATCAATAGAACAAGATGCTGATATGGTAGGATTCCTATATAGAGATGATTACTATAATAAAGAAGCAATGAATAAAGATGTAAGTATCTCAGAATTTATTATAGGTAAAAACAGAAACGGTCCAACTAAAACAATAGAATTCCTATTTAAAGGAAGTACTGTTACATTTGCAAATTACGAAGGAAATAAAGGGGAGTAATTTAAATGAGTAAAATAAAAACAACAACGGGTGTTATTGTTTCTATTTTAATATCATTAGCTATTATAGTATTACTATCAATTACGCATTTATTATTAAATGATAATAAAGTAAATGAAGTATATGACGTATATATAGATGGTGATTTAGTAGGAACTATAAAATCCAAATCAAAACTAGAAAAATATATAGATAGTGAACAATCAGATCTTAAAAAAGAATATGGTGTTAATAAAGTATATATTCCTAATGGTATAGATATTCAAAAAGTAATGAGATATGATAATAAACTAGTATCTGAAAAAGAAATATATAAAGAAATTAAATCTAAAAAGAGTTTCTCTATTAAAGGATATGTAGTTACTATATCTCCTAAAAAGAGTGAAGAGGAACAAAATGAAGAAACACCTAATGAAGAATTAGCTCTTGATGAAACTGGTCATATTCAAAATGATGATATTGTTTTATATATATTACATGAAAGTGACTTTGATAAAGCTGTTAAAAATGTTCTTTATGTATTTGAAAACAAAGAAAAAGTTAGTAAATATGTTAATAAAAAACAAGAAAAGATTATTACAACTGGATCTACTATAGATAATATATATATAGATCAAGATGTAACTATTAAAGAAGCATTTATATCTACTGACGAACAAATATTTAATGATGCATCTGAATTAACTAAATATTTATTATTTGGTAGTTTAAACTCTAAAGAAGAATATACAGTTAAACTAGGTGATACTATTGAATCAATAGCGTATGATCATAAATTAAATGTAGATGAATTTTTAATAGTTAATCCTGAATTTACAAGTAAGAATAATTTACTTACTATAGGTCAAACAGTAAACGTAGCATTAATTTCACCAATTGTAAAAATAGTAGTTGAAAAAACTATAGTTGAAGATGTAGATAAACCATATGAAACTATTAGTGAAAATGATAATACTATGTATATCGGTAATTCTAAAGTTAAAACTGAAGGTGTTAATGGTATTCAAAGAATTACTTCTAAAACACAATATGTTAATGGACAAGAACAACCTTCATATATTATGAATGCTACGGTTATTAAAGAACCTGTTAATAAAGTAGTATTAGTTGGTACTAAAGCAAAGAACTACTATGAAGGTGGTGTTCCAGCAGTTACTACTGGTATTTGGGGATGGCCAACAATATCTCCATATAAGATTACATCTCCATTTGGTTATCGTTGGGGACGTTTCCACCAAGGTATAGATATATCTGGTACAGGTTTTGGTTCTCCTATATATGCTATAGGCGAAGGTACAGTATTAGATGTATATTCTGGATGCCCAGACCAAGGATATTATGGAAGTAGTTGCGGTTCTGGTTATGGTAATCATATTTGGATAAAACATAATGAAAATGTTTATGTTGTTTATTCACATATAGCTGGTAAAGTTTTAGTTAGTGTTGGTCAGACAGTTCATAAAGGTCAACAAGTAGGTTTCATGGCAAACTCTGGATCATCAACTGGTACACACTTACACTTTGGTACATATTATGGTGGAACTCAATACGGAAAGTATGGTGGAGGTAAAGCGTTTAATCCACTAGAGTTATATAAATAATGAAAATATGTGTATTATCATCTGGATCTAAAGGAAATTCATCTGTTATATTTAATGAAAAAACTAAAATATTAATAGACGACGGACTTAATCTTCCATATATAGAAGATTCTTTAAAAGAATTAAATATCTCTATAAAAGACTTAGATGGAATACTAATTACACATGAACATGATGATCATATTAAGGGGTTAAAGAAGTTAATCTCTAAATATGATCCTCTTTTATATGTAGATAGTAAATTATATGAAACATTAAGTCATTCCCTAAAAGATTTTAGATATGTATTATATGATGAAAATATAGTTATTAATGATATAAAAATAGATGTTCTTAAAATGAGTCATGATTCTGTTATATGTAATGGATTTATATTTAAAGATAAAAGAAAAGAATTAGTATATATAACAGATACAGGGTATATAAACAGAAAACATTTAGAAACCATTAGTAACAAAGATATGTATGTAATAGAAAGTAACCATGATATAGAAATGTTAGAAAATGGACCTTATCCATATTTCTTAAAACAAAGAGTAATATCTGATAGAGGTCATTTATCTAATATGCAAACAAGTAAGTATTTAAAGAAGGTAATTGGACCTAAAACTAAGAATATTATGTTTATTCACTTAAGTGAAAAGAATAATAAACCAGAATTAGTAATAGAAACTTTTAATAAATATAATGAGTTTAATAATGAAAATATTACTATTTCAAAACAAAATGAAGTATCTAAGGTGATAGAAGTATGATTAAAATAATATGTGTAGGTAAAATAAAAGAGAAATACCTAGAAGATGCAATTCAAGAATATGAGAAAAGAATCGGCAAATACTGTAAATTAGAAATAATAGAGGTAAAAGATGAAGCTTTTGATGAAGTTAAGACCTTATTAAAAGAAAGAGATAGTATTATAAAATATATATCTGATAAAGACTATATTATTACTATGGAAATAGAAGGTAATCAAATCTCTTCAGAAGAATTTGCTAGTAAAATAGATTCTATTCAAACTAATAATAGTAATATTACTTTTATAATAGGAGGTTCTTATGGACTTCATCCTGATATAAAAGAAAGAAGTAATTATAAGTTATCTTTTTCTAAGATGACTTTTCCACATCAATTATTTAGAGTAGTACTTCTAGAACAAATCTATAGAGCATTTAAAATAAATAATAATGAAACTTATCATAAGTAGGTGATTATATGTTTAATAATGATTGGGATAATATTTTAAATGAAGAAATTAATAAAGATTATTTTAAAAATATAATTAATACTGTGGATAATCTTTATAAAGAAAAAGAAATATATCCTAAAAAAGAAAATATATTTAATGCATTTAAAATACCATATAAAGATGTAAAAGTAGTTATACTTGGACAGGATCCTTATCACGGAGAAGGAGAAGCTCATGGATATGCTTTTTCTTGTTTAAAAACACCAATTCCTCCATCACTTAAAAATATATATAAAGAATTATATAGTGATTTAGGAATAGAGAAAGATATGCTTAATGGAGATTTAACTCCTTGGGCTAATCAGGGTGTAATGCTTTTAAATGCTACTTTAACTGTGGAAAAGGATAAACCTAATTCTCATAAAGATTTAGGATGGAATAAGTTTACTGATTCAGTTATTAGTAAATTAAATGAAAGAGAAGATCCAATAGTATTTATATTGTGGGGAAATTTTGCTAGAGAAAAAGCAAAGTTAATAAATAATCCACAGCATTTAGTAATTGAGTCTCCTCATCCATCTCCTTTTTCTGCTAGAAATGGATTCTTTGGAAGTAAACCTTTTTCTAAAACAAATAATTTTCTAAATAAAAATAATAAAAAACCTATCAATTGGTGATAGGTTTTTATTATTCTTCAGGAATAAATTCAAATAACTTTTTAACTTTATATTTAAATATACCTGCAGTTATAGAATATGGAAATTTAGATATTAAATTATTATATTTATTTACATTTTCATCATAATATTTTTTATATGCATTTAATGATTCATCATCTTTATTAACATTATCAAATAAAGTATTAAGTTCTTCTTCATTCTCTAATTCATCATATTGATCTTTAATATATTCTATTTTAGTTAATGCATCAGATAATGCAGAATCTATTTCAGATTTACATTTATCTTCATTTTTTAATGTTGATAAATCATCTATTATTTCTTTTTCAGTTTTAATTTTTTCTTTTATAATAGTATCTATTTTCATTATATTATCTAATTTATTATCTAATATAGTATTTATTTTTTCTTCAACTAATTCAATTTTTATAGAATAATTATTTAATTTATAATGAGTTATATTAAAGAATAAATAAATTAAAAATAATAATACAATCACAATTAATATTATATAAACTATATTCATATATCTTACCTCTATTTTAAATTATATCATATTGTTAAAAAGAATAAAACATAATATAATATATCTTGGTGATAAAAATGATTAATATTGTATTATATGAACCAGAAATACCTGGTAATACTGGAAATATAATGAGGACTTGTGTAGCTACAGAATCAAAGTTACATTTAATAAAACCACTTGGTTTTTCTCTAGATGAAAAGTATTTAAAAAGAAGTTCTGCTAATTATTTAGAATTCTTAGATTATGAAGTATATGAAAATTGGGATGATTTTAAATCTAAAAATAATGGAACTTATTATTATTTTACTAGATATGGAAAGAAACCTCATACTGATTTTGACTTTTCAAATAAAGATGAAAATATATATTTGGTATTTGGAAAAGAATCCACAGGAATACCTAAAGAAATACTTAGAAATGATTTAGATAGGTGTATACGAATGCCTATGAGTGATAAGGTTAGAGCACTTAACTTATCTAATACTGCTGCAATAGCAGTTTATGAGGTTTTAAGACAACAAGATTATAATAATTTGCTTAGAACTGAGCATTTTAAATCAGAAGATTTTATTACTGAAGATTAAGTGTAAACTATTTTAAAACTATTGACACAAATGTAAAATAATAGTATCATAAAACTATAATATTAAAGGAGGAAAAGAGTAATGGGTATAATTAATTTTTTAGGTATTGGTGACGGAAGCGAAGCTTGCGCAGGTATTGCTTCAATCGTTTATTATGGAGTATATGTTGTTAAAGTTATTCAAATAATTGTTCCAATTGCATTAATTATTTGGGGATCAATTGACTTATTAAAATCAATTATTTCAGGTGATGAAAAGAAAATTTCTGCAGCTAGAAAACCATTCATTCAAAGACTTATATCAGCATTAATAGTATTCCTATTACCATGGATTGTTAACCTAGTAATTGGATTTGCATCAGAAGATGGTAATAATGACTGGAAAGCTTGCTGGAAAAAAGCTTGGAATGGTGGACAAAGAACAAGCGTTTCTGGACCAAATTTATGGGATTAAAAATCAACTTAAAGTTGATTTTTTTTATTACTATGTTATAATAATCTTAGAATAGGGAGTGAGATTATGAAGAAGAAATTATTTCTAATTATTGCATTAATGCTTTTAGTAATTCCAATTAGTGTAAAAAAGGTATCTAATAGAATTTATTTAGAAAAAAATACTGTATATGCTGCTAAGTCCACTAAAGGTGGTGCTACATATGATGAAGAAACTGCTAAAAAGAGCATAATTGTTTCAGGAGCAAAGACTGGATCAGAAGTTGGTACTAAGGTTGGTGGAAAGACTACTAATGAATTAGGTGATGGTAAAGCTGATTGTGCAGGGATAGCAGCAATTGTATACTACGGAGTATATGTTGTTAAAGTTATTCAAATAATAGTACCAATTATATTAATTATTTGGGGATCAATTGATTTAATCAAATCAATTATATCAGGTGATGAAAAGAAAATTTCTGCTGCAAGAAAACCATTTATTCAAAGACTTATATCAGCGGTAATAGTATTTTTATTACCATGGATTGTTAATTTCTTTGTTGGTTCTATATCAAGTTCAGCTAATGATGATTGGAAGGCTTGTTGGAAAGCTGCTTGGAATGGTGGAAATAAAGTAGATATTAGTCCAGATCAAGATGATTTAGATTTATGGAGTCCACCAGCAGAATAAAAATCAACTAATCAGTTGATTTTTTATTTTGTATAATGATATAATTATTTCATATGATAGTAGGTGTTTATATGAAGAAAAAACTTATATTTTTATTAGTAATTACATTACTATTACTTGTGCCAATTAAATTTAATAAAGTTTATGCAGCTGATTCTATACCTGATGATTTAAGAAAATATTGTGAATCTGAGGCTGAAAAATATGTTAAAACGCTTCCACCTAGCAGCGAGGAAACAAAACAAATAGAAGCGCAAAAAAAATATAAAGAGTGTATAGCTATAGAAAAAGAAAGATGGGAAAGTAATTCAAAACCTAGTGATAATATTAAATCTATGATAAAAAAAGTATGTGATGAATTAACCGCAACATTTACTGAACATCCTTTATATTCAAAGGAACAAATTAATTCAACTTGTATGAATTATTTAATAGGTAGTTATAAAGATCATAAATGTCAAACTGTGGATTGTTTAAAGAAAGAAATATGCAAAGAAAAATTAATGGAAAATACATATTATTGTACTGGGAAGAAACCTGATCCAAAAAAAGAAGTTGATCCAGATCCAGATGCAGGCGTAGGTGGTGGAAAAGATGCAGGTAAAGGTTTAGGAGAAGGTCTAGGAAAAAAACCTACTCCTGGTGGTAGTTTAGGTACTACAATTGATACTCCATGCGCTGGTATGGATGCAGTAGTATATTATGCGGTATATGTTGTTAAAATATTACATATTGTTATTCCTATTTTATTAATCTTATGGGCTTCTATAGACTTATTAAGATCAGTAATTTCTGGTGACGAGAAGAAAATATCTGCAGCAAGGAAACCAGTTATTCAAAGATTTGTCTCAGCGTTAATAGTATTCTTATTACCATGGCTTGTTAATCTTATGGTTTCAAGTTTAACTGGTCAAAATGAAGATAAAACTGACTGGAGTAAATGTTGGAGAAAAGCTTGGAATGGCGGAGAAAAAGATGACAGTATATTTAACATTAGAAACTGGTAATTTTAGTTTAATCTGTTAGAAGGTGATTATATGAAGAAAAAAATATTTATTATGTTAATATTAACGCTATTATTAGCGCCTATAAAATTTAATAAAGGTATACTTATAAACAAAGTTTTAGCAGATCCAAAAGAGGAAGCTAAAGCTGTTTGTGAACAAGCTGCTTCAGGAATTAAAACATCAACAGGAAATTTAAAAAAAGAAGATTTAATATCTATTTGTACTGAAAAGTTATTAGCGACAGATTGTAAAACTGAGCAGTGTTTTAAAAGCAAGTTTTGTTCTGATAATACATATGCTCCTCTTACAACATATTGCGATAATTATAGTTCGGTATTAAAAAAAGTTTGTGATAATGCTGCAGCAGGTTATAACGAAGAATTACAAATATTTTCAAAGTCAAAATTATTGGAATATTGTATGACTGCGTTACCTATTTTAGCCCCAAATTGTACTACTGCTGATTGTTATAAAAAAGCATTATGTGATAGTCAATATGGATCATCTACATCATATTGTGATAAGGATATTTCAATTTTAAAAGGAGTTTGTCAAGAGGCTGTTTCTGGTCTTAAGTGGGAACAAAATGGAACTTCTAAAGAAGAATTATTAGAAGAATGTATCAAAAGGTTACAAACAACAAGTTGTAAGACAAGAGATTGCTATATAAAAGTGCTTTGTGATAATGAAAAATATTCTAAACTTACAACACTTTGTGGTAGTAGTGATGATCCAGGAGAAGATTCAAAAGTTGATCCTATAGAAGAACCAGAAAATCCTGTAGATTATGATCAATATGATGCTGCAAATTGTTATGGATTCGGTGAGGTAGTTTATTATATTTCCCTAGTTATAAAAATATTTCAAATAGCTGCTCCAATATTATTAATAATTTGGGCTTCAGTAGATCTTGTAAAATCTATTATTTCAAGCGATGAAAAGAAAATAATTGAAAAAAGAAAACCTATTATTCAAAGATTTGTGGCAGCTGGAGTAATATTCTTGGTTCCATGGATTGTTGAAACAATTGTAAATGGATTTTCAATTAATGGTGATGAAGATTCATGGTATACTTGCTGGGAAAATAATCACTTTAAATATTCATCTACAACAGAAGATGAAAAAAAGATAGAAATATTAAAGAAATATGATAATTTGTGTACCACTTATTGCAAAAATAAAAAAGCTGCAGATATTGAAGATTGTAATAAAACATGTAGAGCAAGTTTTCATAATGAAGATTGTAATAAAAAAAATTTAAATTCTAATCAATTGGATAGTTGTGTACGTGATCATGTAGCGGCTTGGTATAAAGATTATTTTGATGAATATTTAATACAACCAAAATAGTATAAAAATATTAAAACATAATATAAAAATATATTATGTTTTTTTTATGTTTTATTGAAAATAATATGGATAGATGATATAATTATATTTATGATAGTGGGGTATTATAAATATACGTTATTAAACAAAAGGAGAACTGTTTATGGGTAATTTGATAAATAAACTTTTATTATGGCTATGTACTCAAGTATTTGAGGGTATTGAAGGTATTTATAGATTATTTTATGGCTTAGCAACAACAAGATTATTTAGTGAAAAAGCTATTCAAGAAGTTTCAAATAATATTTATATTCTTGTAAGTATAGTTATTTTATTTGCTTTTGCAGTTAAATTAATTGAAGCAATAGTAAACCCTGACTTGTTAACTGATTCTAAGAAGGGTGTTACAGGAGTTCTTAAGAGAACTATTATTGGATTAGTACTTGTTGCTACTGTTCCAAGTATATTTAACCTTGCATATAAGATTGCAACAGAGGTTATATCAACTAGTTTAGTTGAAAAAGTAATTCTAGGCTATACAGAAGCCTCAACTGATTCAAATAGTACTGCTGGAGTTTTAACTTCTTCTATAATAAGAGGTTTTATATATCCAATTGACGAAAATGGTATTACTATAGATGAAAATTCATTGTGTGGAGAAAATAGTGGCTGTAATTTTGCTGATGAATTAGCAAATTATAATATGACTTATCAAAATTATATTTCTATTATTGGTGCTAATCCAAACTATGAAGAATTTAGTGATATAAACGTTGAAGCAGAATGGGAAAATGGTAATAAAATGTATCATATGTCATTGTTCTTCCTATTGATTGTTGGTATATATGTATGGTATCAAGTTGTTATACTATGTTTTGATGCTGCACTTAGATTAGTTAATCTTGGAATACTTGAAATAATGGCTCCGCTTGTTATAGTGGCTTATATGGGTGGTGGAACTGACTATTTATCAAAATGGTTTAAAATTGTTTTAGAAAAATTCTTAAGTGTATTTGTAAGAATAGCTGCTTTAGCTTTTCTAGCTTTAGGATTAAGATTAATGTTTGATAAAGAGAGTATATTCTTTAACCAAAGTACAACATTCCTATTTAGATTATTAATTATAATTGGATTATTAAGATTAGTTAAAGATTTACCTAATATTATTGGTAAGATATTTGGCGTAGATATTAAAGATGCTGGTGGTATCAAAGGTAGACTTGGTGAAATGGCTGGTATCGGAAAATTAGCCCAAAATGCATGGTCTGGTTTAGGTGGACTTGCTAAGGGAATCGGGGCTACAGCAGGAGTTGCTGCAGCACATGGAGCAAAAAATCTTGGAAAAAAATTTGATACTAAAGTTCTTGGTGGAAAAGCAGGAAGATTTATCAATAATAGAAAACAATCGGGACTTGCTAGATATGGTAGAGTATTAAAGGCAGGTGTAAAAAGTAAAGGAAAAGGGACTGGTAAAGCATTTGAAGAAGCTTATGGTAAGGAATTTAGCGCTGAAGAATATGCTATGAAACAAGAATATAAAAAATTGGAAGGTAAGAAAAATAGTAGTAGATTTTCTAAGGCATCCAAAAAAGCAAATAGTAATAGCTTCCTTCATGTGGATGATAATGGTGGAATAAAATTTACTGGTAATAGTACAGAAGCAATGCAAAATAGAGATACTATTGCACAAATAGGTGCTAGAAATACTGTTGGCAATGTTGTTAATAATCTTGATGGAATATCTAGCACGCAAAGGGAAAAAATCAATAAATATAATACAGCAAAATCTGATTATAGTAGAGATCAAGTTGAACTTGAAAGACAACAAAGAAGAAAAAGTCATCAACAAGAACTAATATCAAGAATTAATCAAATGAAAGATAGTGCTTCAAATGCAGCAACTCAAGAAAGACTAGATAGTATTATTAGACGTATTCAAAATGGTGATATTGATCATATGAGTCAAATTGAAAGCGAATTTATAAATGGTGGTATGAGTTTTTCTGATAAAAGTATTTCATCAAATCTACTTTCAGATATGATTTCTTCAACTCAATCAGAAGCAGCTAGACAACAAATAACTGCGATAAAGGCAAAATGGGATTCGGGTCAAATTCAAGATGCACAATCTTTAGAGGCTGCTTTAAGAGCTATTCCTGGCTTATCTAATGAAGTGGTTTCAGCAGTTGTTTCAGCGGCAAATACTACATCTGATGATTTAGGTAATCAATTATTTCAATCAATTCAATCAATGGGTAATTATATTGCGTCAGATGATGACCTAGAAAGGGCTATTCTTCATGCTCAAAACGATTTAGATAATTCTAAGGAATCTCTTGAAAAGAGTTCGAAAGCATTTGATGAAATGGTTGATGCAATGAATGATAATGATGAAACTAAAAATATGATAAAAGGTGTTAAAAAACTTACTGATGAAGCACATAATGAAGAATTAAGACAAACTAGAATGAATGAGATAGGAAGATAAAAAATAAAAGGAGTGTGATATTAGATGTATATAATACCTGCAAATGTTAATAATGGTAAATTAATATTTAATATATTTTTACCAATCGATTTAATAATTGCTGCTTCTGGAGTAATAGTAACCATATTAATGCTTTTAATTGTTTCCCCAAATGGAATGGTTGGAGCCATAATATGTTTAATTCCAGGACTTATATGTACAGGCTTAGTTATTCCTGTTCCTAATTATCATAATATTAGGACTGTAATAAAAGAATGTTTTAATTTCTTTTCTAAAAGAAGAAATTATAAGTGGGAAGGATGGTGTTATCTAAATGAATTCAAAGGATAGTTCATTAACAGAAAATTGGATACAAGTTAAAAGTATTAATAATGGTATGATTTTCCTAGATGACGGATATATAGTATCAGGTATTAAAATTAGCCCTAGAAATATATTTATCATGACAGAAGGAGAACAAAATAGAATGATTAGTTCTCTAAAGGATTTCTATAATCTAATTAATTATGAATTCTGGCTTGTAATTGCAGATAGACCAGTTGATATCAATTTATATGTTTCACAACTAGAACTTCAATTATCAAATGAAATGAGTCCTGCAAGAAGAAAACTTTTAACAGATGATATTGAAAAGGCAGAAATGTTTTCATTAAATAACGTAGTTGATACTGAGTATTACTTCTTTGTTAAAGATAAGAATAGTGAAGAATTAACAAAGAAAATTAGAGGATTAATTAATAATATGGCTGGAACTGGTTTAATTGCTTCACAAACTTCAAATGAAGATTTAAGATCAGTTTTAGATAACTTCTTAAATGGAGGGGTAACATTTAATAGTGGGAGTGTGATTACAGAATGAGTATAAAAAGTGAATTAGCTCCAAAGGGCATTACATTTAATACTAGTGATTTCTATATGAGTGATAAGTATTCTACTATTTTAACTGTAGTATCATATCCTGGCTCAATAGAACCTGGTTATTTAGCTAATTTATCTACTGGTATATCTGGTGTTAGAGTAGTAGCTAAACATATTCCAATTGCATTCTCAGTTCTTGCTAAAATGCTTAATAAGCAATTAGTAGATATTCAAGAAAAATACCAAAAAGAAAGAGATGTTACTGTTCAAGAAAAATTAAGAAATGATTATGATTCATTAAATGATTTTATATCAATGCTTTCAAGAGACCAATCTAAAGTATTTAACTTTCAATTACATATTATGATAGTTGCTGATACTAAAGAAGATCTTGAAAGTAAAAAAGTTCAAGTTAAAAACTTAATGGAAGGAATGCTTATGAGAGCTATACCATTAAGATTTGAACAAGAAAAAGTATTTAAATCTTGTTTACCTATATTTGAAAAACAAGATATAGAAGATAGAATAGGTACTCCTATACCATCTCCAACACTTGCTGCAATGTATCCATTTATCTTTGATAGTATTAAAGATCCTGGATTATCATGCCTACTTGGTGTTGACTTCTCAGGTGGTGTAGTATTATTTAACCAATTCTTATATCAAACTAGAAAAGAACATAATAGAAATAATGCTAATATGATTATATTAGGTTCATCTGGATCTGGTAAATCAACAGCTGCTAAGTTAATGCTTAGAACTCATATTAGAAATAACTATAAAATAGTTGCTATTGACCCTGAAGGTGAATATGAAGATATGACTAAACAATTTGGTGGAGATTTTATTAACCTAGGTCTTGGTGGAGAATATGGTATGATAAACCCACTAGAAGTTGTGGCAGATGGAATAGATGATACAACAGGAAGAGGAGTAGGTTATTCAATTTTAACTAATACTCTTCAAACATTAAAAGCATTTATGAGATATTATGATCCTTCTATAGAAGAAGATGTATTAAATTTATTTAATGAAGTTGTTATGGAAACATATCAAAGATTTAATGTTAATGTTAATACAGACTTTACTACATTTAGGAAAGAGGATTATCCTACATTCTCAGATGTATATGAAACAGTAAGAGGTAAAATACTTTCTTATGGTGAAGCTACTTCTGAAAGAAGTATAATGGAAAGACTTGAAATGAAACTTAGACCTTTAGTATCTGGAGGACTAGAGTATTATTTCAATGGACATACAACAATTGAACCTCAATCAAACTTTATAGTATTCAATATAAGAGAACTTATGAATGCTGAGGTAAATATTAAAAATGCTTTATTTTTTAACATTTTAAAACATGCTTGGGGATTATGTCTTGATCCTAACGAAAATACTGTTATGATGGTTGATGAAGCACATATGCTTCTAGGTCAAAATAATACTTTAGGAGCTGATTTCTTAGCAAATGTTCAAAGAAGAGCAAGAAAATATAATACAGGTACAATTGTTATTACACAACAACCATCAGACTTTACTGATGATAATGTAATAACTCAAGGAAAAGCAATATTTGATAACTCGTCTTATTATTTAATAATGGGACTTAAAAAACAAGCTGCTGAAGATTTAGCTAAATTACTTGATATTAATGAAAATGAAATAGAAAGTATTAAAGCATATAATCAAGGTGAAGCATTATTTATTTGTGGTAGTAAGAGACTACAAATTAGTGTAGTAGTTACGCAAGCAGAACTTGATTCATTTGGATCAAAAGGCGGCTTATAATATTTAATAAATAATTAGCGGAAGGTGGTGATGACATTGGACAATAAAGATGATGAATTTGAAATGTTAGACTCTGAAGAATTTGATGATGAAGAAGAACTTAAAAATGAGCTAGTTGATGAAGATGATACTATCGATGGTCCAGTGTTTGAACCATCTTTTGACGTTGATGAAGAAGAAATTCCTTTTGAGGAAGATTCTATATCTGATAGTGAAGAATTATCAGATATTTCAGATGATAATGATATAAAAAATGAGACATCAAATGAAATACCATCAAGAAAAAAAGATAATATGGTATCATCTGAAATGTCTAATAATGAAAAAGATTCTAAAGATAAAAAAGATACTTCAAATGATAATAAAATTGGAGAATCAAACAATAAAGATGAATCATCAGGTAATGAGAAAAAAGATGATAATATAATTCCTGATAAAAAAGAAGAAAAAAAGGATCCAGGAGAAAAAACTCTTGATAAGAATAAAGATAATAAGGATAAAGACAATTTAAATAAAAAAGATTCTAAAAATGGGGATAAGAATAGTAATGTAAAAGATCTTCCTAAAGACAAGGCTACTAATGCCGGTAAAGTAGCTGGTGCTGCTAAAGATAAAGCAAAAGATGCAGCTGCCAGTAAGGCAAAGGATGCTGCTGGAGGATTATCAAAGAAAGCACCAAAGGGTGCAAGTAAAATATCTGATAAAAAAGATATAGCAGATAATACAAAAAATGCCATAAAAAAGGGTCCAAAAGGACTAGTAGGTTCTTCTGGAGTAAGAGCTGCCTTAGCAGCTTCAGAAAATACTAATGCCTATTCTAAGGCAGCTGCTACTGTTATTAAGGTAATGGATAATATTATTGGTAAAGATAGAGTAGACTGGATTTTAGATAAATTTGGTGAAAGGACTCTTAAACATACCATGGTTGCTCTAATAATTGGATTAATTCATGCTTTTATGCCATTTTTACTTTTATTAATAGGTATATATTTATTCTTTGCACCTTTATTAGATGTATTAATGGCAATTGACACACAAGTACGTAATCTTGCAAATACTGCTGAAAAGTTCAAAAACTTAGTTAGAAATGGAATGTATGCAGATTCAAAAGAGGCATTTAATGAAGAGTTTGATAGATTGTCAATAATATTTGGTGAGGATTTAGACCAACCGTTATTACTATCATCAACTTTCTATGCAGACTTAAAAAATGGTTATCAAACTAGATATGATAATATTGGAGATATAATTGCCGATAAAATTACTGAAGGTGAAAAAGAAAATATGCTAGGTATTTTTTCATCTATTATTGGTGAAGAAATAGATAGTATTGTTAAGGAGTCAAATGAAACATATGATCCTGATACGGGACTAACGTATACAGTTGGAAAAGTATACCGACTTCGACAACTTGCGGAGCATATGTTTGGTGATGAAGTAAATGGTAAAAGAATGCTATTAGCTGATTGGTATGAAAAAACCAAAATTAGAAAAGACGCAGTTTTAGAAGAAACAATATATAAAATGGCAGCAAGGCTTGGATGGTGTGCTCTTGGAGTAGCTGCTGGTTTAGTATTAACAGCTTTAGGTGTAGCATTAGTAGTTGGCGTTGGTGTTCCTATAGTTGGTTCAATAATAGCTGTCGTCGGACTTGCACTTACATTTTTGAGTGCTAGAGAAGGATTTAGAGCGGCATCAGATATTATTAAAGATGTGAAAATGTTGATGAAGTTTTCTTATATGGGTATGATGTCAACAGATACTATTTTATTTGGTGACTCCGACTGCGATGGAGAAGTATCTGATAAAGAAGCAGAAGCACTTGAAAAAGCAGTAAATACTGAATTTGGTAAAATTGATGAGTATGAAATAGAATTAGAATCTGACCAAGATGGTTATGATGATTTTATGGATAAAGTTGGTGATTTAGAAGAATTCCTAATAAATAACACTTCAATAATGTATTATTCACCTAAATATGACGAAACTAAGTATAAAAATTATTTAAGAGAAGTATATATTCCTCAAAATCCTGATTTTGAACCATTTTATAGTTATGATGAAAATGGAAACCCAACTCAAGCATCAATAGATAGAATAGTAAATGAAATTTATGAGTATTCTGATTATTTTAAACAGTTATTTTATCCAGATGAAGTTGATATTGCAGAAAAATATTCTGAACAATGTTTAGGTGCTATAGATAAGAGATTGGCAGCAGCATTAGAGATGCCAGTTGATATTAATACAACTAATTGTATAGATTTCTCTGGTGATAATGGTTATGGTTATAGATCAAATGGTCTACTTCATAATGGTATTGAAATCAATGCTAAATCTACTGGAAATGTAGAAGGCGATAAAGTATATGCTGTATTAGATAATGGTACAGTAGTAAGTTCTTCTGCAGATGATACACCTATGACTTGTGTAGGTGGTTGTATAGAAATACAATATTCTTATTTAGCATCTGGTTATCCTTTTGATTTTTCAATTGTTTATAAAGGTTTACACAAAGAAAGTGTTACTTTAAAAAGTGGAGATAAAGTCACGAAGCGGCAGCAGGTAGGAACTATAGGAACTGCTGATGAATCTGAAGATATGGGAATATCATCTTTATACATAGAATTTAGAACAGTTGGAGGTATGGCTATTGATCCAACAAATATGATAGTCAAATGTAATGGATCTGGCATTGTTAATTATGAGGGTGGTAACATGGTAAATATCCCTCAAGCATTTCAACAAACAACATTCCATACTGTTACGTGTTTTGGTGATAAGAGGAAAGATGTTGATGTTGGATTTTATAAAAGTTGTTCATATGATAATCCAAGAAACTGGGGCACAGGTGAAGGTCAAAAAATGATTTATGAACTTTGGGTTAAACAAGGAAAACAGTATAAAAATGGTATTGCCGTTATTAATGTTGATGGTACAGATAGATACCTTGTTGCTGTTACTCGAGTATTAGGGACAGTTGGAACAGTTATTAATGCAACTTTTGGCGGAGATAATGAAACCGTTACAGTGCCAATGTTAGTTATGGATGAAAAAGATCAAGATGATTGTAATGTTTGGAAGGATAGTGAAGGTAAAGGTTGGGGACATGCTACTTGTAATAAAGGTACGCTAGATGTATCAAATAAAAAATGTAATCAATCAGATAAAGGAGAATTAGTATGTGATCCAGCTAAAGACCCTATTAATGTAATTGAAGCTGAAGTAGATATTGAAACATACAAAAAATATAGTAATGTTAAAACATCAAAATGGGGTGTAGAATGGGATACTAGTAAACCTCTAATTAGTGTTAAAAAATTTGGACGTATATTAACTGATGATAACAAGAGTTATAGTACAGATTTTGATTTATCTGGTTCTGGTTCAGGTAATAGCGAATTGGCTTCTGAAGAAAATTACATTGCATCTAATGGATTACAATTATGTTATCCAGTAGGAACAAGTTCTAAAATAGACCAATATCTATCAAAAGCTATGGAATATGCTAATGATGATAAAATTGGATGGGATAGTTCTAAAAGAGATCTTAATCCAAATGTAGATTGTTCTTCGTTTGTATATTACAGTTTACTTAATTCAGGTGTCATACAGGCTGAGTCAAGTGCATTTGATACTACTGGAATGGGTAAAGTACTTGTTAAAAATGGCTTTGAGGAATATGATTATAATGAATCAGAATTACAAAGAGGAGATATAATTGTAGATCCTAGAGCTGGAAATGATGGACATACTGTTATCTATTTAGGTGATGGCAAAGAAATAGCAGCTCATAGTAACCGTGATGGTAAAGATGGTGATAGTGATGGAAAAGAAGTTTGCATATCTGATTTTAATCCATCATCTCATAAATATACTAAATATTATAGGGTTAAATATGATCCTGAAGAAGATGAAGAAGGAAGTGTTCCTGGAGTATCTCATGGTGTAAGTGCAGGAACTGAAATTATATCTTATAAAAATGAAAAATATGTAGCAATTAAAACAACTTATCCTGGAAGTGGTGGAAAAACCGGAGTATTAGGATATGCAGATATGTTAGAGAAAAATAACATTAATCAGAAATATAAATACTGTAAAGGTGAAAAGTGTGAGGCTCCTAACTGGAAAGGATGCTGTTTGGGATTTGCTCAAACTGCAGCATGTGGATTATATTATGGAAGAGAAGTAACTTTAAATGATAAAGTTAATGGTAAAAAACTAGAAAGTCTATATGATGGACAATGTAATAGTAATCCTACTCCATGTGCAGGTAACTTTAGGACAAAATGTTTTGCAACAGAGGCAGAGATGACAACATATATAGAAACAAGAATACAATTAGGTAAACCTATCTTAGTATTAGTATCTACTGGAAATATTTCTGGTGTTTCTAAAAAAGAGTTTAATAAAAAAACAAATGTAGATAGACACTGGGTTACAGTTGTTGGATTTAAAGATGGTTCTATGGGAACTGACTCTTTAGATTTAATATATATTGACAGTTATGATTCAACATTCCATAAAATTGGTGAAAAAAGATATATATTAAAGAATACAAATGCATCATATCATGATAATGCTTGTACTGATGAAAAGCCATACATTATAGTTGACTTTGAATAAACAAATAAAAAAGGTATTTAAAAAATACCTTTTTTTTGATATAATTATAGTGATTATACGGAGATGAAAATATGAAATTAAAATTCGTTGCTGAGAAACGAGATGTTGTTATTTTTGCTGTACTTTGTTTCTTTTTATTATTTTTAATTGCAATTGTTATTTCTAATGTAAAAAATATTGTTGAATATGGTACTCCAGCTGGAATTAACTTTTTAATTGCTTTCTATCCAAGTAATATATTAGTTACATTACTAGTATGGATAGTTATAATAGCAGCTTTATTTGGTACTACATCTTCATACTTTTTTGATAGAGAAAAGGGATTTGGTTTCTCTGATGAAAAGAAAACTAATGGATATTCTAAATGGTTTAAAGATAAAGATATAATTGCTCAAAGAGGAGTTTTAGAGGTACCTTATAATGTATCTAAAATAGATGGTGGTGGTGTTCCACTTGTATATGGAAAAGATTCTGCCTATGTAGATAATGGTGAAAGTCATACATTAGTTATAGGTGCTACAGGATCAGGTAAAACATCTGGTTTCGTAGATCCTACTATGGTTCACTTAATGAAGGGTAGAGAATCTATGATTATAACAGACCCTAAAGGTGAAATATATGAACACCATTCAGCTAAATTAAAAGAACTTGGTTATCAAATAATTATTCTAAACTTCCGTGAACCTCAAAAAGGTAATTGTTGGAATCCATATGATTTACCTTATGCATATCATAAAGAAGGTAATTTTGATAAAGCAAATGAGTTATTAAATGACTTAGCTACTAATATAGTTGTTGATGGTCAAGGAGATGATCCTTTCTGGCAAAATGCAGCTGCTGACTATTTAACAGGTATTGGATTAGCATTATTTCAAGATGCTCCAAAAGAAGCAATTAATATTAATTCAGTTAATTTAATGATTAATCAAGGTGAAGAAAGAATAGGGCCTAAAACATATATGCAAGAATACTTTAATATGCAAGATCCTACATCACCTATATCAGTTAATATGGGAGCAGTTGTTAATACTGCTCAAGATACAAAAGCTGGTGTATTAACAGTATTACAACAAAAAGTTAAAACATTAGCAGTTACAAGAAATCTATCTGAAATGCTTTCTAAGAGTGATTTTGATATGGCATCTATTGGTGAAAAACCAACAGCAGTTTTTATGATAATTCAGGATGAAAAAACAACATATCACTCATTAGCAACAATATTTATTAAACAATGTTATGAATCATTAATAACAGTTGCTCATAAACATGGAGGAGCTCTTCCTGTTAGAACTAACTTTATTGTAGATGAGTTTGCTAATATGCCAAAGTTTAAAGATATAACTACAATGGTTACTGCTGCTCGTTCTAGAAGAATTAGATTTACTTTTATTATTCAAAACTTTGCACAAATTAATAAAACATATGGTAAAGAAGAAGCAGAAACTATTAGAGGTAACTGTGGTAATATGATTTATTTACTTACTGGAGAATTACAAGCCTTAGAAGAAATTTCTAAATTGTGTGGTGATAAGATTATTAGAGTAGGTAAAGATAAGAAAGAAGAAACTAGACCATTAATTACTGTTACAGAACTTCAAACAATGCCATTTGGTACATTTATACTTATTAAGCAAAGATGTTCTCCATATAAAGGTAAGATTAAACAAGGTTTTGATACAGATTTTGGATTTGGTAAAGGTGCAGATTACTTTGGTAAGAATGTAGTATATCCTCAAAGAGAAATGAATGAAATACCTGTATTTAGTATTAAAGAATTTGTTCAAGCAAAGAAAGCAGAGAATAAACCAAGAATAGATTTTGGACCTCAAGGTGGAGGAAATCCATTCATGAATAATCCTTTTGCAAATAATAATTCTATTCCAAATAATACTCCTAATCCATTCGCAGGTGGTCAAATGCCTTCTGAATCTGAATTAGATGATATTATTAAGAAGATAGATGCTCAAATAGCTGCTTTAGAGAAAGAAGAAGCAGAGGAGAAAGCTAAACAAGCAGAATCTAATAATAATGTAGAACAGGTATCTATACCAGTTCCTGAAGTAAAAGAAGAGGTAACAATTCAACCAGAAGTTAAAACTGATATTGAAGTTAAAGAGGCTACTCATATTGAAGAAGGTGGACCTAAGACTACTGAAGTTGTTCATAGTAATATGGTTGACTTTGATAACTTTAATCTTAAAGATAATAATGATAACACTGGTAAAGAAGTTAAAGAAGAAAAAGAAGACTATGATGATTTCTTTGATGATTTCTTTGATGAAGAATAAAAAATATAGTTCATTGAACTATATTTTTTTATACTTTTATAGTATAATTATTTTAGAATAGGAAGGGATTATTATGGGATATCTTACAGATAAAGAACTTAATATTATTAATAGATATTTTAATGCAGCTAATTATTTATCTGTAGGACAATTATATCTTATAGATAATCCATTACTTAAAAGACCTTTAACTCTTAATGATATTAAACCTAGAATAGTAGGACACTATGGTACAGTAGTAGGGCAAAACTTTATATATACTCATTTAAATAGAATAATTACTAAATATGATTTAGATATGATGTATATAGAGGGACCAGGTCATGGTGGTAATGCATTTACTTCCAACACTTATTTAGAGGGTTCTTATACAGAAATGTATCCTGAAATAACTATGAACGAAGAAGGAATGAAAAAGTTCTTTAAGAGATTCTCGTTCCCAGGAGGAGTTTCTTCTCATGCATCGCCTGAAGTACCAGGATCTATTCATGAAGGAGGAGAACTAGGATATAGTTTAGTACATGCTTATGGAGCAATATTAGATAATCCTAATTTAATATGTGCGTGTGTTATTGGTGATGGAGAAGCTGAAACAGGACCTTTAGCTACATCTTGGCATTTAAATAAATTTATTAATAAAAAAAGTGATGGAGTAGTATTACCAATCCTTCATTTAAATGGATATAAGATTAATAGTCCAACTATTTTATCTAGAATGCCTCATGATGAATTAATTAAATTATTTGAAGGCTATGGATATGAAGTGTTCTATATAGAAGGTACTGAACCATTAGATATGCATAATAGAATGGCAGAATTAATGGATAAAGTAGTAAAAAGAATATATGAATATAAAAATGGAAATAATAATAAATTACCATTAATTATAATGAAGACTCCTAAAGGATGGACAGGGCCTAAATTAGTAGATGGTAAACAAATAGAGGACTCATTTAGATCTCATCAAGTTCCTCTTAAAATAGATAGAAATAATCCTGAAAACTTAGTTAGTTTAAATATATGGCTTAATAGTTATAATCCTAAAGAATTATTTAATGATAATGGAGAACTATTAGAAGATATAAAAGAAATAATACCTAAAGGTAATAAAAGAATGGGCATGAATATAAATAGTAATCCAGGTATTATAAAAAGACTTAATTTACCTGATTATAAAGAATATTTATATGACTTTTTACCTGGTACATTAGTAAAACAAGATATGTTAGAATTATCTAGATATTTAAGAGATGTAATAATTCTTAATAGAGATAATTTTAGATTATTTTCACCAGACGAAAATAATTCTAATAGATTAAATTATGTATTTGAAGCTACAGATAGAAAATGGAATAGTGAAATACTTCCTACAGATGAGAATTTATCTCCTGATGGAATGGTATTTGATTCATATCTATCAGAGCATATATGTGAAGGTTTACTAGAGGGTTATTTACTTACTGGTAGGCATGGTTTAATGGACTCATATGAGTCATTTATAAGGGTAGTAGACTCAATGGTTTCAGAACATGCAAAATGGCTTAAAATGGCCTCTGAAATACCTTGGAGAAAAGAAATATCATCTCTTAACTTTATACTTACATCACATGTATGGCAACAAGATCATAATGGATTTACTCATCAAGATCCAGGATTCTTAAATCACTTAGTAACTAAGAAATCTGATATGGTAGGTATATATTTACCACCAGATACTAATACATTAATAAACTGTACTAATAAAGTATTAGAGTCACAAAATATGATAAATGCAATTATCGCATCTAAACATCCAAGAATGCAATGGTTTTCTAAAGAATTATCTATTAAACTATGCGAAGAAGGTATTATGATTGTACCATTTGCATCTGATGATAATCCTGATGTAATATTATGTGCTTCGGGAGATACTCCAACACTTGAAGTATTTGCAGCTTATCAATTACTAAAAGAACATACTGATCTAAGAGTTAGAGTAGTTAATGTAGTAGATCTTATGAAACTATCTCCTAAATATAAATTTGGTCTTAGTGAAACTAAATTTGAAGAAATATTTACTAAAGATACCCCAGTTATATTTGCATTCCATGGATATCCTAATTTAATACATGAATTAGTATATAAAAGATGTAATGACTTCCATGTACATGGATATTTAGAAGAAGGTTCTATTACAACTCCATTTGATATGAGGGTTCTAAATAAAATAGATAGAT
>sequence05
ATAACATTTTAATAGTATCCATAGAATCATTTCCTCCAATATAGAAGAAATATTCTATTTCAAGTTCATCTAATTTATTAAATATTTTTTCATAAACTTCTTTATCTTTTTCAAATGGTGGAAGTTTATATCTACAAGAACCTAAATATGCTGATGGAGTTCTCTTTAGTAATTCTACTTTTTCTTCATCTAATACATCTTTTAGATCTATATATTCTCCTTTTAAGAAACCTTCTATACCATGTACCATACCATAAATATGAGTACTTCCTAATTCTTTAGCAGCTTCATAAACACCTACTACAGATGAATTAATAACTGCTGTTGGACCACCAGATTGTCCTACTATAATGTTTTTCATATTATTACCTCCAATTAATATTATACAATAAAAAAATAGTCATATGACTATTTTTTGTTCTTTCTATGTGGATAAAAAGGATTGAAGCCTCTGTTTGGTGTTAGAATTACCCTTTGAGGAGGTTCCTCATATTTAAAATTAGGATCTTGAATTCCTTGGAATGCTCTTTGAACAGCTTCTTGTTTTCTTGTGTATAAGTCTTCTACATATTCACCTTCATACACTAGAATACCTTTATCATATAATCTTTGTTCTGCATCAAATAACATATTTCCATAGTCTTCAGATTTTAAAGCTTCCCTATATTCTAAAGATATACCATGCATTCTATCATGATAAAATGGTATAGAATATCCATATATATGACATAATACTTCTAAAGCTTGTCCTTCATTTAAATTTTCAATAGCCATTAATAATTCAACGGCATCTCCTCTTTTATCACATTGTGTACAATTAAATCTATTATTTAAATCCATTACAATAAGTAAATTATCATCTGGATCTGATGGAGTAAATTTAAAAGGAATTGCAAAACTATTATTCCCTCTCATTTTTGTAATTTTATTTGGGATGCTATGTGAAAAAGCTAAAGGTAAAACATCAGAACGAGTTCTAATATACTGTTCTGTACTAGGAGAAAACTTCTTAGTTAAACCTGTTTCATATATTTTATCTCTAAGACATTTTAATTCATTAATTAAATTTTGAACTCTAGGTTCATCTGTCTTTCTTTCTTTTAGAAGTTCTAATAAATTCTTTATTTCTTTATATTCCTCCATAGTAACTCCAGTACTATAGGCCATATCTTTTAATTTATTATATTCTCTTCCTATACCTTTTATATCCATATAATCCCCCATATTTATGCATATATTATAGCATACAAATAAAAAAAGACAAGTTTTATTATTGTAATGCTTGTCTTAATACTTCTACATTTTCTTTCATAATATCAATATATGTTTTTCCATTATTAAAGTCTTCTTCTGATATATTATGAGCAGAATTTAATTCTAATACTTTAGCACCTGTTTCTTTAGATATAGTATTAGCTATTTTTTTATTAGAAAACTCTATAGTTAAAATAACAGGTATATTATCTTCTTTTACTTTATTTATTAAAAAAGATATTGTTTTAGCACTAGCCTCAGTTTCTGAGGAACAACCAGGAAAAGCAGCATAATAACTAAGATTATATTCATCCACAAAATATCTAAAAGGGAATCTGTCTCCAAATACTAATTCTTTTCTTGATGAATTATCAACTATATTTTTAATACTATTATCTATATTATTTATTTCATTTATATAAATAGATGTATTAATATTATATAGACTCTCATTTGATGGATCCATATTTGTAATTATATCGTTTAATTCTTCAAGTATAGTAATAGCATTAGAAGGACTAGTCCATACATGTTCATCATATTCTACTTCTTCTTCATCTTCTTCTGTTTCCATACCTTCTACTGTTTCTTCTTCCACAGTATCTACTAAATCCATTAGCTTTATTACTTTAGTATTTTTAGTATCTATATTATCTAATAAATCAGTTATCCATTCATCTGATTCTCCACCTACATATATAAATATATCTGATTTAGATATCTTTATAATATCTTTAGGTGTAGGTTCATAATTATGCATCTCTGTACCAGGTTTTAAAAGCATTTCTACGGAAGTATTTGGTACTTCTTTAGTAATTGCCCTAGCAAAGTCATAACTAGGAAAATTAGTGGTTAAAATGGTTAATTTATTGTCTTTTTTGGTAGTATTACAACCAGTTATAGTTACTAGTAATAATAAAGAAATAATTGCTATAATTATCTTTTTCATAATTCCTCCAATATGAAAATCATTTTCATATTTATATTATACTCTAAATATATATAAAAGCAAGAAAAAAGACTAGAAATTCTAGTCTTTTATATTATGGTGTAATAGTATAATATGTTCTATAATATGTGCCATCGTTATCTGTAGTTATTTCATAGCCATTTTCTTTATCTATAATTCTAGTTTCATCGCTAATAACGGGTGAAGTAGGATTTAATATCATACCATCATATATCTTGACACTTGCACTAGATTTAATCCAAATACCATATGCTCCACCAGTAACTGTTATTTTAGAAGTATCATAATTATTATCTTTAGTACCAAGAACTGTAGTACCACCTTCAGCTGATATTGCATATCCAGTAGAATTATTAGTTATTACTGTAGCATCTAGTAAATATGTTGTTCCACCATTTAATGTATGAAGAGTACCACGAGGATAATCATTTGAAATAGGAGCACCAGCTATTAACTCAGATCCACCTATAATATAAATAGTTCCACCATCATTATATACAGCTTGTCTTTTATTACCTGCTGTACTATTTTTAGCTTCAATATGCATATTATTTAATGTAAGTCTTGATTTGTTTCCATCTGCCTCAACAGCACCTTTTTTACTATTTGATTCTACATAACCATTCTTCATTTCAAGATAGCCTTTTGTTCTCATAATATAATTATTAACTCCAGAACCAGTTGGTTGATAGAATCCGTATCCATGCATATCTAAAACAATATTTTTCAAAGTATTCTTATAATCAACATTATCTCTTAAATCTTTATCATTAAACATATCTAAAACATAATTTTGACCAGTAGTCATATGAATATCTGTTAATAGATTAATAGTTACTTGAGTAGCATCAGCAGGATTACTAGTTTCTGAAGCAGGAGCAGCATTGACAGCATCTTGAACAGTAGCATAATATACACCATTCATTTCACAAACATCTGTGTCATTTCTCCATTTAGCTATTAAAGTAATATCAGCAGATGGAGCATAAGTTCCATCAATTGGAGTAACATCAGTTAAATTTATGAACCAACCAACAAATATTTTATGTGAATCATTATTTGTAGGAGTTGTTAATACTCCAAGTGGAGTATTTCTTCTAATACTTATTGGATTAACACTATCTCCACCATTTGCATTAAATGTAACTGTAACTAAATCTTCATGCCATTGTGCATATAAAGTAATTGTACCAGAAGTTGCTAAATTAGTTACATTAGTCATATTTGCATATGGAGTACCATTTCCATCATCGCTAGTATTCCAACCATCAAATATATATCCATCTCTTGTATATGCATTATCAGTTAATTGACCAGAAACATCATAAGTAAATTCTTGATTACTCATATTACCTACTGCATCTGTTGCATTACTATTGAACTCTACATAATACTTATTAGCAACAAAGTGTGCTTCATATGATCTATCACCTATTGAATTAGCAGGTATAGTTACTGACATATTATCATTTCCTGTAAGATCAGTTCCTGACCATCCAGTAAATGTATAACCTGTCTTAGTAGGATTAATTAATGTAATTGAATTACTTTCAATATTATATGTTATAGGATTTGTTCCACTTACAGAACCACCATTTAATTCATAATCTATATCATAATCAATTGGAGTAAAGTTTGCAGTATAATTTAAGACTCCAGTTGTACCATGATCTATTGTAACAGTGAATTCTGGAGTAGTTCCATTTGAACCAGTCCATCCATCAAAGTTATATCCTGTCTTAGTTGGATTTATTAAACTAAATGTATTACTTTCAATATTATATTGTAATGGATTTCCTAAAGCAGTTGCTTCTGCTGGAGTTATTCCAGAATAATTAATATTATATTGAATTAAAGAATAATGTGCTTCATATGATCTATCACCTATAGCACCAGCAGGTATTGTTACTGTAGTATTATCGTTTCCTGTAAGATCAGTTCCCGACCATCCAGTAAATTCATATCCATTCTTTGTAGGATTAATTAATACTATAACACCAGTTTCTGCATTATAAGTTATAGGGTTTGTTCCGCTTACTGAACCACCATTTAATTCATAATCTATATCATAATCAATTGGAGTAAAGTTTGCAGTAAAGTTTAAGTTTCCTGTTGTACCTTGAGTAATTGTAACAGTGAATTCAGGAGTAGTTCCATTTGAACCTGTCCATCCATCAAAATTATATCCAGCTTTAGCAGGATTAATTAAACTAAATGTTGCAGTTTCTGCATTATATTGTAATGGATTTCCTAAAGCCTGTGCTTCTGCTGGAGTTATTCCTGAATAATTAATACTATAACTTATTGGACCATAATGTGCTTCATATGTTCTATTTCCAGTTGATCCAGTTGGTATAGTTACTGAAGTATTATCACTTCCTGTAAGACCAGTACCAGACCATCCAGTAAAGTCATATCCGCTTAAAGTTGGATTAATTAAAGTAATTGCACCTGATTCAATGTTATATGTTATTGGATTAGTTCCAGATACTGAACCACCATGTAATTCATAACCTATATCATAATCGATTGGAGTAAAGTTTGCTGTGAAACTTAAATGTCCTGTTGTTCCAGTTTGAACTGTTACTAATAATTCTGGGTTTGCTCCATTTGAACCAGTCCATCCATCAAATGTATATCCGTTCTTAGTAGGATTTATTAAATCAAATGATGCAGTTTCAACATTATATTGTAATAGATTTCCTAATGCAGCAGCCTCAGTAGGAGTAATTCCTAAATAAGTAATATCGTAATTTGTTGGAGTATAATGTGCTTCATATTCTCTATCCCCGAACGATCCAGAAGGTATTGTTACATTCATATTATCATTTCCTGTAAGGTCAGTTCCTGACCAACCAGTAAATGTATAATTTGCTTTTGTTGGATTTATTAATGTTATTACTCCAGTTTCAATATTATATGTAATTGGATTAGTACCACTAACTATTCCATTATGTAATTCATAATCTATATCATAATCAATTAAAGTAAAGTTTGCTGTGAAGTTTAATTCTCCAGTTGAACCACTTAGAATTGTTACATTAAGTGATGGAGTACTACCATTAGAACCAGTCCATCCAGTAAATGTATATCCATCTTTTGTTGGATTTATTAAAGTAAATGTTGAAGATTCAGCGCTATACTTTAATGGATTTCCTAAAGCTTCGGCTTCAGCAGGTGTAATACCTGAATAATTAATATCATATTGAATTATAGAATAATGTGCTTCATATGATCTGTTTCCTGTAGCACCTGATGGAATAGTTACTGTTGTATTATTTTCACCAGTAAGATCTGTACCAGACCATCCAGTAAATGTATATCCATCTTTTGTTGGATTTATTAATGTTATTACTCCAGTCTCTATATTATAAGTAGGAGGATTAGTACCACTTACAGTACCACCATTTAACTCATAAGATAAACTATAATCAATAATTGAGAAGTTTGCTGTGAAATTTAATTCTCCAGTTGTTCCTTTAGTAATTGATACATTAGTTGATGGAGTACTTCCATTCGAACCAGTCCATCCATCAAATTTATAACCAACTTTACTTGGATTAGCTAAACTAAATGTATTAGTCTCAACTGTATACTTTAATGGATTTCCAAGAGAAGCAGTTTCTGCTGGAGTTACGCCACTATAATTGATATCATATTCAACCATAGTAAAATGTGCTTCATATGATCTATCACCTGTAGCACCTGATGGAATAGTTACTGTAGTATTATTGTTTCCTGATAAACCAGTTCCAGACCAACCATCAAATGTATATCCGGCTTTTGTAGGATTCTTTAAAACTATTTCACCAGTTTCAACATTATATGTTGTCGGATTAGTACCAGTAACAACGCCATCATTTAAAGTATAATTTATATTGTAATTAATAATTGTATAAGTTGCTGTAATTTTAATATCTTCAGTTATAGGAGTACTAGGATCAAAATTATATCCACTATCAGTTACCCATCCACTTGTATAACCAGTTCTAGATGGTATATCAGGTAAATCACATATTTCATTATATGAAACTGTTTTAGTATCAGTAACACCATCAATAGTATATGTAACAACCTCTTTATCATATAAACCATATTGAGATACTAGTAAGAAATCATACGAATAAGAAGCTGCTTTAATAATTAATGGTGTAAATAAAATACCAATTACTACTAAAGTTTTAGACACCTTACTTTTTCTATTTATTAATACACATGTTACTAATCCAATTAATGAGAACGATAATAATAAAATCATTACAACTATATTATCTCCAGTCTTTGGATTAATATCAATTGATGAAGAATCATCTTTTCCATTGTAAGTTAAATCAAATATAAATTTAACATTTGATGCTTGAGTTCTTTCACTTACATTAGCTACTGCATTCTTATAAGTAGCTTTTACTAAGAATTCTAAAGAACCATTAGCACTTATATCTTCATTTTCATGTTTATCATATTCATATTCAATGTAAGGACTACTGTTATCATCAGTTATAGTATTAATTGTTACTACATCATTTTTTACATTTTTAATAATAATTCTATAAATTACATAATCTCCTACATTATGGAATGTGAAACTATTATCAATTTCATCATTGTTATAATTTGTAACACTTCCATTAACAGTAGTTGACTTTTCTTTTATAGAAACTGAATCAATCTTTAATAGATTAGAAGCAGCAGTAACAGTATTTATAATAACGCCAAAAGACACTATAGCCATTATAGTGATCATAAGTGATAAAAATCTATTAATATTTAATATATTTTTACGCTCTTTTTTAGCCATATGTATGCTACCCTTTCTATTATTAGATTATATCAATTATATTATATCATTTTGTATATGTATGCACAATAAAAAAAGCCATTCTTAATGACTTTTTTTACCATATATTTACATATAATATTCTTATTAAAAATTAATAATTTTTGGTTCTTCAGTAAATGATGAAATAACGGCAGTTCCTTTTTCAAAATAAAGGACCTCTGTATTATCATCATTTTCATTATACATACTTCTTAAATCAGGATTTTGATCTAGCATATATTTTTTTGCTTCTATTCTTTCATCTCTAACAAGATTTCCTGATATTCTAATCCATTTTCCATCTTTAAAAGCACATATTTCAACATTTGAATTAGCCTCTATTTGTTTAGAAACATTCTTCTTTTTGCCGGTTTGGATATATAATTTTCCTTCAAAAATTTCAGCAGTTCCAAAAGGTCTAACTCTTGGCTTATCACCATCAATTGTAGCTATAAAATAATATCCACAATCTTTTAAAAACTTTAATACTTCTTCCATAATTCTCCTATTTCAAATCAATGTATTTAGTTATCCATGCTTTAAAATCAGCTTCGTTATTTATAACAGTAAAATCTGGATTTAAGCTTGCAATAACTTGGCCCTCTTTAACTACTATAAGAGATCCGTCATTAATTAGTTCTTTATCAAATCCTACTTTATCTAGTAGACTACCACTATCTAAATATATATCATCTTCTACATCTATAAATGAATAATTATTACTTTTTAAAACCTCAGGAGCTCTTTCATAAATGTTATATGGTCTATCACCACACATTTCTCTGTTATAAATAATAATAAATGATTTTTTATTATCTACTAATTTCTTTAATATAGTAGCTTCTTTAGTAATAGCAGGTTCTAATTCTGCTATTCTTTGATCCCTTAGTTTAATATAAGTAGGATCATTATAATCATATTTTAATATATTATCATCACCATAAAATAATTTGTTATATTTTAATTCTATTTCATGAACTCCAACATTACTAAATTCTTTATTTTCAGATGATACATCATCAGCATTAATTTTATTTTCAATTCTTTTTGTAATAGTTACAGTACAACTAGCAGTAAAACCTCCATCTTTTGTAGTAACAGTAATTATAGCACTTCCTTCTTTAACACCCTTTACTACACCAGTCTCTGATACTGTAGCAACTTTTTCATTTGAACTAGACCAAGTTACTTCTTTATTTGAAGCAAGATTTGGTAAAACATATGCAAATAAATTGTATGTTAATCTTTCTTCTAATTCAATAGTATCTGAACTAAGGCTTACACTTGTTACCCTAATACCAGAATCTTTATAAGCAGCACTCTTAGTTAATTCATTAAAATTAATTTCTATATAAGGAGCACTATCAAAATCATAAGTGCCATTATCTCTTGTTAAATCAACATTATTTTCACCCTTATAATACCAATATCCTCCAATATTATAAATCTTATCTGCATCCCAACCCATAGCAATTAAGAAGTTCTTCATCATGAAGGCATATCCTCCACCTCCACACATTAAGAATATGTTCTTGTCTTTTGGAAAATATTTTTCTAAGATTTCCATAGATTCTTCATAATTAGCAATATATTTTCCATCTTGTTCATAGAATAGTGTTATTCCTTCATAAGTTTGACCTACTTCTACAGGTAAACCATTAACAGGAATAATATATGGTAATGGAATAACCTCAAATCCTTTAATATATCCGTTTAAATATCTATTACCACCTAGATTTTCATATATAGCTGGGTCTTCTAACATTCTCATATCTCTATAAACAGTATCACTTCTACCTAAATACTTATCAATAGTATCAATATTAATGTTTTTATCTACTCCAAAATCTCCTCTAGATGGGTCTGCTTCAGCTTTTGGTAATGGTTCAAGTGTAGGTTTAACTGAAGTACTACCACCGTTAAGAGCATTATAAATAATAATGCCACCTATTCCAAGTAACACTAAACTCATAAAAATAATAAATATTACTACTAAAGTCTTACTAGGTTTCTTCTTTTCTTCATTGATTTCTTCTTGTTTTTCAACAATTTCTTCTTTTTTCTTATCCATAATTATTCTCCTTATATTAGTATTATATCACTAATTAAAATAAAAAGAATCCTAAATTGGATTCTTAATATTCATAATCATAATCTCTTTTTGTTTCGGATTCTAGCATACCATTTCCATTAAAACCAAGTCTTGACTTAATCTCATTTTTAATAGATCTACATACAACATGATATACACCATAATTTGAACTAATATTTCCAGTACAATAAGTAGTTTTCTTTCTTAAAGTTAATTGAACTGCAAACTTATCACTAGATTCATAAGCATAATTTTCATATTTTGCTTTACCACCTTCCTCAATAAAATCATTTATTGATTCTAGATTTAATTCTTTAGCATTACGCTTATAATTACTATCTTTAGCAGTGCTAGATCCTCCATTTTTTAGTTCATTATATGTATTATCCATAATGTTTTCCATTTGAATAGCATAATCTTGATCTATTGGTCCAAGTATAGATACTAATTTTACTATACCAATTATTATTGCAACAGCAAAAACACCAATAATAGCAAATAATAATCCTTTATTCATTCCTTTACCACTAGATTTTTCAGAAGCAGCTTTAGCATATACTTTAGTATCTACTTCTCCTTCTCTAGCTAAGAATGTATTACTTGTTTCCCATCTAAGAGTCTTTAATGGTATAAATAAAGCATATATACCAAATGTAATAATACTTAATAATACCCATACAAGTTTCTTAACAAAGAAAGCTCCTGGAGTACCTTTAAATACTACCACTTTTCTATTAATAACATAATGATTTAATTCCCATCTTAATCTGATTACTTCTGCTACTGGACTAAGTAATCCAAAAGAAACTACTGTTATTAATAAACATAATAATCTAATACCAAAGTATTCTCCTACATTTCCAGTAAAATAACTATCTCCAGTAATTAATTTTTCATCTTCAAAATATAAATAAGATACTTCCCATTCTTTCATTCTTGTTGGAATCCAAATAGAATAAATTCCAAAAGTAATAACATTAAAGAATGCCCATTTAAAATATTTAGCAAATAGAGTATCACCAGTTGCATCAAACTTTAATCTCTTTCCACTAATAACCATATGAGAATATATATATTTATTATATAAACATATTCCCCAAGGTGCACCTACTCCTAAAGTAAATACACTTAAAAATATCATTAAGTAGTTATAAGCCAATAATTCAAAAAAGGTACCATCAAAATATGACTCTGTATTAGATTCTGTTTTAATTTTCCTTTTTGGTTCTTTCATTGGTTCTACTTCTACAAACTTTTTGTTTGTCTTCTTCTCACCACTAGATGTACTTTCATTAACATCAATGATTTCTTCCATTCCCTACTCTCCTTTAATTTAATTATATTAAAGTAATATTTATTTGTAAATAAAAAAGATTATTTCTAATCTTTTAATATTTTTTTAATTTCATTAATTAATTCTTCTTTTTGATTATTAGTATAATATCCATTTACTATACCTTTTAATTTTTTATTTTTAAATATTAATAATGAAGGAAAATCACTTACATTATATTTATTATTAGATACTTCTGCTTTATAAAATAAAGTATCCGAAGGCATATTACTAGTAATTTCTTTTATAGGAATAGACTTTAATAAACATTCAATAGAATCATCATTATATAATTCTACTAATACTATTACGTCAGTTAATTTACTTTCTATTTCATCTTCGTTAATCATAAAGAATTCTGATAATGGAGCAGCTCCATATCTATCTACAAACAAATCTTTAACTGTTCTTGGATCATTATCTATTTCTTCTTTTATTTTTTCAAATTCTTCTAAAGTTCTTGCAACTTTAATTGCACCAATAGGGCAATTTCTTTCACATGCACCACAAGAAATACATTTATCATTGTCTATTTTAATAGTTTCGTTTTTTTCATCCCATGATAATGCTCCTGTAGGGCATACTTCAATTCCACCACATTCTTTAGCATTATCACATATTTTAAAATTAATTAGTACTGACATATTATTTTCTCCTTAATGTATTAACAGCATTACTAAGAATTTTAACAAATACATCTATTTCATCTTTAGTATTATATTTACCCAAACTAATTCTTATAGGACTATAGTTATTTAAATCTGCTTTGCAGGCTGCTAAAACATATGATGGTAATGATATAACTGAATTACATGCAGATCCAGTAGATACAAATATATCAAAAGATTCAAGTAAAAGCATTAATTCATCAGCTTTTACTCCTTTAAATGCAATACTAGTAGTATTAGGAGTTCTATTATCTAAATCTCCATATATTTTAATATCTTCTATATTCTTTTTAACTTCTTCTTCTAAATAATTTCTTAGTTCTTCTATTTCTTTTTCTTTAGAGAAGTTGTCTTCATTAATCATTTCTGCTGCTTTACCAAGTCCAATAATATAGGCAGTATTTTCAGTTCCACCTCTTCTATTATCTTCTTGATGACCAAATACTAAAGGTATAAACTTAGAACTATCTTTTATATATAGTACTCCAATACCTTTAGGAGCATTTATTTTATGACCTGATATAGATAAAGAATCTACGTCTAAATCTTTAACATCTATTTTAATTTTACCTGCTGCTTGTACAGCATCAACATGGAAATAAATATTATTTTCATGAGCTATTTTAGATATTTCTTTAATTGGATATATATTACCTATTTCATTATTAGCATACATAACTGTTATTAAACAAGTATCCTCTGTAATAGAATTCTTTAATTCGTCTATATTTAATCTACCTAAAGAGTCTACTCCTACATATGTTACTTTATAACCAGTCTTTTCTAAATATCTCATAGTTTCCATAATAGATGCATGTTCTACTTTAGTAGTAATAACATGTTTTTTATCAGGATTATTTCTAACAGCATTCATAATTGCAGTTACATTACTTTCTGAACCACAACTAGTAAATATTATATCTTTAGGAGCAGCTCCTAAAAGCTTAGCAACACTATCTCTTGCTTTAGTAACTTCTTCTTTAACATTTCTTCCTATACTATAAGCACTACTAGGATTACCATATTCTTCTTTTAAATATGGAAGCATAGCATTTAATACTTCTTCATCAACTTTAGTAGTTGCATTATTGTCTAAATATATTTTGTTTATCATAAAATCACCTACTAAAAACATTATAACAAAAAAACTCACATTATTGTGAGTTTATTTAACAATATAAAAAGTTTTATTTCCGATAGTTTATTCTTTTACATTTATCTATTCATATTATTATTTTTAAAAGGTTCCCCAAATGCTGAAACAAACTTAATTCTTTCTCGGTCTCTTTCCCTTTGTTTTTCAGCAACTTCTTTAAGTTTTTCTAGTCTTGCTAATGATTCCTGCATAGAATCAGCCAACATTGCTTTATTAGCTAATTCCTCAAATTCTTCTGCAGAATACTCTTTATCTTCAGGCTCTTCATAATCTAAACAACCTCTAAAGTTTTCTGCCCATATTAATTCAGATTTATCTACATCTTGATCTGGATTTGGAAAACTATGATCAAAATTTCTTCTTTCTCCAGATTCGTCTTCTATATAATCTAAAGGTTTTCTATTAATTCTTTCTATTCCCATAATTATTTACCACAGCAATTCTTATATTTTTTACCAGAACCACAAATGCATGGTTCATTTCTACCTACTTTATTAGACTTTCTTTGAATCTTATTAGCTTCTTTTCCACCATTATCTTTAATAGGTTTTTCAACTTGTTTTCTTTCTAAGTTTTGTTTAACTTCTGCTTTTAATAAATAAATTGTTGTTTCTTTATTAATAATAGAAATCATTTGATCAAATAAATCAAAACCTTCTTTAGTATAAGCTACTAACGGATTAGTTTGAGCATAACTTCTAAGACCAATACCTTCTTTTAAATGGTCCATAGTATTGATATGATCCATCCAGTGAGTATCAATAACTCTTAAAGCTATAACCTTTTCAAAACTATCTACTATATCTTCAGGTAATTCATTTATTTTTTCTTCATACTCTTTAGTTACTACTTCATAAACTGTATCTATTACTTCCTCAGATCTCTTATTTATTATTTCAGATACCTTTAATGAATTCTTTCTAAGAAGATTTTCATTAACATATTCTGCTATTTCATCAACATCATTTTCTGTTAATTCTCCAGATGTAATTAAATGTCCTCTTACTACTTCTTCTATATGTTCTCTAATAAGATTTAATATTGAATCATGTATTGAATCTCTATCAAGTATTTCATTTCTTCTTTCATACATAATTTCTCTTTGTTTAGCCATAACATCATCATATTGAAGTAAGCTCTTTCTTATATCGTAGTTGTTACCTTCAACTCTCTTTTGAGCAGATTCAACATTTCTAGTCATAGTTTTACTTCTTAAATTAATAGTAGTACCTAAACCTGCTGCTTGAAGTATTGTTTTAAATCTATCTGTACCAAATCTAACCATTAATTCATCTTCAAATGATACATAGAATTGAGAATATCCTGGATCACCTTGTCTACCAGCACGTCCTCTTAACTGATTATCTATACGTCTAGATTCATGTCTTTCAGTACCAATTACACATAAACCACCAAGTTCTTTAACACCATCACCTAACTTAATGTCGGTACCACGACCAGCCATGTTAGTAGCTATTGTTACAGAACCTTTTTCACCAGCTTTAGCAATGATTTCAGCTTCTCTAGCATGGTTTTTTGCGTTTAATACTTCATGTTTAATATGTTCTTTAGAAAGCATACCACTGATTAATTCTGAAGTTTCAACAGCAATAGTACCTACTAATACTGGTTGACCTGTTTTATGTCTTTCTTTGATTTCTTCTATAATTGCTCTATATTTATCTGCTTTAGCAGCAAATATAAGATCAGCCATATCTTGTCTAATAACTGGTTTGTTTGTTGGAATTTCAATAACATACATGTTATAGATTTCTCTAAACTCTTCTTCTTCAGTCTTAGCAGTTCCTGTCATACCAGCTAATTTATTATACATTCTAAATAAATTTTGGAATGTAATAGTAGCTAAAGTCTTAGTTTCTTCATTAATCTTAACTCCTTCTTTAGCTTCTAATGCTTGATGTAATCCTTCTGAGAATTGTCTACCATGCATTAAACGTCCAGTAAATGGATCTACGATTATAACTTCACCTTCTTGAACGATATAATCTACTTCATTATGCATAATAAAATTTGCTCTTAAAGCGTTATTAACATGATGTACTAATGCAGAATAGTTAACATCATACATGTTATCTATTTTATAAAATTGTTCACATTTCTTACTACCAACATCAGTTAAACTAATACTCTTAGTTTTTTCATCTATAGTAAAATCTTCATTTTCTTTAAGATTTTGAACAAATCTTTGAGCATCCATATATTGATTAGATGTATGCATAGATCCACCAGATATAATAAGTGGAGTTCTAGCTTCATCGATAAGTACAGAGTCTACTTCGTCTACTATAGCAAAGTTAAGAGGTCTTTGTACTCTATCTTCTTTTCTAACAACCATGTTATCTCTTAAGTAGTCAAACCCAATTTCATTATTAGTAGAATAAGTAATATCAGCATTATAAGCTGCTTGTTTTTCTTCAGCAGATAATTCTCTAGCATTAATACCAACTGTTAATCCTAAGAATTCATAAATCTTACCCATCCAGTTAGCGTCACGATCAGCTAGGTATTCGTTAACAGTTACAATATGTACACCTTTACCTTCTAATGCATTTAAATAAGCAGGCATAACTGATGTTAATGTTTTACCTTCACCAGTTTTCATTTCAGCTATATTACCATAATGAATAGCTAATGCACCAAGAATTTGAACATAGTATGGATATTCTCCAATAACCCTTTTAGAAGCTTCTCTTGCTGTTGCAAAAGCATCTACTAAGATGTCTTCTAAAGTTTTACCTTCTTCTAACAATTCTTTAAATTCTTTAGTTTTATTTTGTAATTGCTTATCAGTTAATTTGCTATATTCTTCACTTTTTGCATCTATTTGATCAGCAATTTTCATAAACCTTTTTAATTCTTTATATTCTGTGTCTAACATCTTTTTAAATATACTCATCTTTTTTATCCACCTTTATACCATTATACCATTATTTTGCGCAAAATAAAAGACCATTAGGTCTTATATTTTCCTTGAATTAAACATTTTCTTTATTACCATACTAATAAGAATAATAATAACTAATGCAAACGAACAAATTATTAAAATAGTACCAAAAGATAGTATTTTACCTTTAACATTAAATACAATGTAGGCATCTTTTTCTTTTGTATTATTATCAATAACCCATGTATATTTATTATCTTTAATTGAATCCGCATTATTATCTATTACTTCAAAAGGAGTTATTACATTAATCTTCAATTTATTTATCTTATTAGAGTAATTTAATTTACCACTAGTATTATTAAAAATATTACTAGCCTCTAAAGAAAATTGTTTTCTATCAGTATTAAATGAAATACTATCAAATAATTGTTTATATAAAAAACTATTTAATAAATATTCTTCAACACTATTATATACGTCTTTATATTCTATATTTAAATTATCTTCCTCAGTTATAATTTTATACTTTTCACTATCTATATTATTACTTGTAAATAAACTAACTACTTTATCATAGTCTTCAGCTTTACCTTCTAGAACTATATTCATTTTTTCTTCTACAGATAGGTCTTTATCAATTGTTAAATTATAAGTTCCAGAACATCCGCTTATTAATATTATTGCTATTAATAGGATTAATACTTTTATCTTTTTCATTATCTAGTACCTCCTATTACGATTAATCTACTTGTATCCATTAATAAACTTGAACGATCAAATGATAATTCATTATAGTTTGGTTTTAATATATTACCAAAACCAGTCGAATCATCAGGGCATATATAACTATAAGATTTATTGTTTGGATCTAGTAATAAATATTTTCCATTATTATCAATGTTATATACTAAAAAATAACTTTGATTACAAGAAAGAAATCCATTTCCTTTAGATTCAAGTAAAACTATTTTCCCGTTAAGAATATAATTTTCTAATTCTTCAGGTTTAATAAGAGTAAAGTTAACCTTATATTCTTGATAAATCATATAAAAGAAATTATCTTTATTTATAGGTTCTCCGCACTTAACTAATCCGTGTGTATATGCCTTATTGTATACTTCAATTGGATCTATTTTTTTATTAAAATAACTAGATAATAAAGATGATGTAGAAACTATAATATCTGAATAATATTTCAAATAATCATAATCATTATCACACTTTATCTTCTTTATAGATAATGATTTTTCAAAGCCATTATAATAATACACTTTATCATTTCTATGAGTTCTATATGTATCATCTGGTTCCATAGATTTAACTATTTCGGCACTATTTAATTCATCAATATAATTAGATAGAATACTTTCGTTAGAATTATTTAATAATTTTATATTTGAAATATTTGATAAATTTGAATCGACCATATATGGAAAACCAATTAAATATAAAACAGATATTATTACTATAAATACTATTTCAGTATATATATATGATTTAGCAATCTTATTTCTAAATATAAATAGAAGTATAGGAAAAACAATAATAACTAAAATTTTTATTATAAAAAACAATATACATAAAGTTTTATCCATTATATTACCTCCTATTTTATTTCTTTTATACTATTATTATCATATTTATATATATCATAATATGTTGGTTGAGAATCGCCATCAACTCTAGATACTATTACTTCATAATTTTTATCTTTATTAAAATCAATAATTCCAACTAAAGAATATGATTTTCCTAGATCATCAAAGCTAACTGAAAAATCAATAATATTTGTTACCTCAGAATTATCTACTACAAATATATTTGTATAAATAGAATCATCTTCTGTATAACTTATATAAATGATTTTTTCTTTAGTAGAATCATTATCAATGTCTTTTGAAATCATTCTATAATTTTGAATACTATCTAAACTAATATTAGTATCTAATAATTGATTAATCTCTAATAGAGTACTATCATTAATTTTTAAAGATTTATCACACAATACTACATCAATCTTAGTTAATGTTCCTGATACTATTAAGTCATCTAAATCATATTTATTATTTGATTTAGAAACAGCATAATAATCATATTCATTACTTACCTTTGCTGATTTTAAATAACCCTTTAGTATATTACCATTCTTATATACATTAATCTTTTTTAATAAAACCTTTTTATTTTTATTAGTCTTTATAATCTTATTACCTAATAAATATACTCTAGTTTGATTACCTAAATATACTGTTTTTGAATTTATAAATGTAACAATTATAACAATAATTATAAATATTAATAATGGTATTATTATTCTTTTTTTCATATTAACCTCCATTATTCTCCTAAACCTTCTGGTGCTCTATAACCTGCTATAAATGAATTTTTTCCTGAAGTTGGAAATACACGATTTTGCGCTCCTTGGCTTTGAATAGATGTATTACCACCCCAATTATATGTTTTACCATCTCCAGCATATATTTCAACGTGTCCAGCTCTACTTGTACCCTCTTTTTCAATACATTCAAAGTTTTTGTCACTCTGAGGATTAAAGAAAACTACATCCCCTGGTTCTAGATCACTTGGATTTTCTATTCTAATCCATCCTTGAGTAATTAAAAACGCTTGTAAACCTGTAGCAGATTCATTATTACCACCATAATTACCACATTTATCTTTTGTTAGTGTTTTTGTGTTAGCAATAGTATTTTCATCATAAACTCCACCTAAAACTAATGCAGCTGCAACACCATCTGCACAACAAACTGTACTAGTTACATTACTTCTATAATTTTTTAAAACTGTAGTTGCACCCTTACAAGCATAAGTCCATTTCTTTTCAGAAGTAACCTTTTTTAGTTCTTCCGCCCCTTTAATTATACCTTCAGCAGCACTAGAACTAGCCTTTTCTTCAGATTCTTTTCCCTTTTTCTTTGATACAACAGGAGTATATGAAATAGTAACTTTTTTTTCTTCATAAACACATGAATAAACATTTGCTGTATATTTATCTGCTCCAAACAAATGAACAAGAAGACTTACTATTACAGGTGATGCAAATAATAATACTAAAGCAATACATCTTTTTACAAATCTAGTAAATAATGATTTTCTTTTCTTTTCATCACCAGCTATAATAGCGTTTATCATATCTAATGAACCATAAAGCATTAATAAAATTGGACCAGCAATATAGAACAATAAGAACGCTTTCTTTAATATATCTTGTATTTCAGTAGAAAATACAGTGTTACATTCAGTACTATTGTCCTCTAAAACTTTGTTTATTTCATCGTTAATTAAACTTTCATCATTATTCTTTGCATTAAATAAATGAGATAATGATGTAGATTTTTTTAAAGCTAAAGAGTTACACTTATCAACAGTTACCTGGTTATATAAAGTATCATCACATTTTAAATTTGCCATTTCATTCATAGCATTTTTATATGTTTCATAGTTTGTATTAACTGATGTAGCAGTATATCTAACTGATGCTTTTACGTTATAAATAAAGAATATAAAAAATAATAAAATTGTTATACTAATTATTCTTTTTTTCATAGTTACCTCTACGATAAAATTATACTAAAAATAATAAAAAAAATAAAGTCCAAAAGGACTTTATTTTGTTTCAATTATACCATAGTTTCCATTCTTTCTTTTATAAAGAACACATATCTTATCAGTATCAGAATCTTTATATACAAAGAAATTATGACCAAGTAATTCCATTTGAAGAATAGCTTCTTCTTCATCTATTGGTTTTAATTCAATAGATTTTCTTTTAACAATAACTTCTTCCTCCATGAAATTATCTTCTATATCTATTTCAAAGTCTTCGATGACTTTCTTCTTTTTATTTAGTTTTTCTTTATTCTTTCTAACTTGCCTTTCTAGTTTATCAATAACTAGATCAATTGCTGCATATAAGTCATCATCTGTAACTTCATTTCTTAAAGTAAAATCTTTTGTTGGGATAGTAACCTCTATTTTATATCTTCTTCCTTCTTTTTTTGTTAAAACTACAGCCTCTATATCATCGGAGTCTTTAATATATTTATCAAGTCTAGATAATTTAGCTTCAATATACTCCTTTATAGATTCTGTGTTTTCATATTTGTCTCCACGAATCAAATATTTCATTTCACCATCTCCTCAATATCATTATAACAGCAAAATAAAAATATTTGTCAAGTTTAACAAATATTTTACATATATTTTACATTATTTTTCGTATTTAGATATCTTGTTAACTCTTCTTAGATGTCTTTCGTCATTACTAGCAGGTGTATTAATAAATGTTTCTATAATACGTAGCACCCTTTCTTTATTTAAATATCCTGCGAATGAAATAATATTAGCATCATTATCATTTCTAGTAGCTATTACATCTTTAATACTAGTTACTCTACCACACCTAACACCCTTAACTTTATTAGCTGCTATAGACATACCGATACCAGATCCACATATAAGAATACCTTTAATATTATTTTTAACACAGTATTCTCCTACTTTTAAAGCATAATCAACATAATCATCAGTAGATTCTTTACCATCAGAACCAAAATCAATGAATTCAATACCTTTCATATGCTTAATAATATACTTTTTTAATTCATAACCATTATGATCTGAAGCTATTGCTATTTTCATTTTCTATCACCAATTTTATTATACAAAAAAATTAGACATAAGTCTAATTATTTGTTTTCTTTTTTAGCTTGAGCAGCTCTTCTATTAAATTTATCTACGTTACTTGATTTACTTGTTCTAACTTGAGCTCCTGTATAGAATGGATGACATTCTGAACAAACTTCAACGTGGATTTCATCTTTTGTAGATTGTGTATCAAATGTTGCACCACAAGCACAAACAACTTTACAATCTTTATAGATTTCTTTCTTTTCTTTTGCCATTTTTGTTCTCCTTTCGCCATAACTTTTTTAGTTATAGAATTCCTAAAAATCTATTATATTTTAACAAAAATATTGTGAATATGCAACATTTTTTTATATTAGTTCTAATTCGGCACCAATATTTGACAGTTTTTCTACAATATTTTCATATCCTCTAAGAATATAGTCAGCATTTTGTATCTCAGTTTCTCCTGTTGCCATTAGACCAGCTATTACTAATCCTGCACCTGCTCTAAGGTCTGTAGCCATAACAGTAGTACCAGTTAATTTAGTAGGTCCATATATATATGCTTTTTTACCTTCAACCTTTATTCTAGCTCCCATCTTAGATAATTCATACAAGTTTTGGAATCTGTTTTCATATATTGTTTCTTCAATACTACTAGTTCCATTTGCAAGTACCATTAAAGAAGCAATTAATTGTTGATGATCTGTTACAAATCCTGGATAAACTAGAGTTTGAACATCTACTGGATTATACTTCTCTGGTTTAGATACAATTACATAATCAGGGCCTATTTCTAATGGAACCCCCATTTCTCTTAATTTTTCAGTTAAAGAATAAACGTGTTCTGGAATTAAATTAGAAACCTTTAAATGATCTCCTAAAGCAGCTCCCATTATAATAAAAGTTCCGGCTTCAATTCTATCAGGAATAACTTCATGAAAACATGAACTTAAATATTCTACACCCTCAATTTTTATCTTATTTGTACCGGCACCACTTATATTTGCTCCCATACTATTTAAAAATGTAGCTATATTAACTATTTCTGGTTCTTTAGCAGCATTTTCAATTACTGTCTTACCTTTAGCTTTAACAGCAGCTAACATTAAATTAATAGTAGCTCCTACTGATGCAAAATCCAAATATATATTAGTACCTATTAATTCATCTGCATCAATAATCATTGTATCTCCATTTTCAGTTATGGTAGCACCTAATGCTTTAAATCCTTTTAAATGGAGATCTATTGGTCTAGCTCCAATTACACATCCACCTGGAAAAGATATTTCAACATGTCCATATTTTCCTAATAATGCCCCCATAAAGTAATAAGATGCTCTTAATTTCTTACTAAACTCACTATGTATTGGTTTATTACATAAATTAGTAGGAATAATCTTCATATAATCTTCTTTAGATTCAACTCCAACATTTAAATACTCTAAAATATCTATTAGGTTATCAACGTCAGATAAATGAGGAACATTATATATATTAACATCTTCATCACATAATACAGCAGCAGGCATAAGTCCAACAATACTGTTCTTAGCACCACTTACTACTATTTCACCACTTAAAGTCTTACCACCTTTTATTTTAACTATATGCATATTATCACCTAAACTAATTTTATCATAATTAGACAATAAAAAAAAGGTAGTAAAACTACCTTTTATTTTGATAAAGTTTTTGTATCACAATCACCATTTAATGAATAATATTCAGAAGATAATCTAGATAAATCATTTTCTAAGTATTCTGTAGCTTCATTATATTTTGTGATTGCTAAAGTATCTAATATTGTATTTCTTTCTGCTACTGGAACAAATTGTCTTTCAAATCCATTAGCGCCTAAAAATTCAACATATCTACCATTAACAAGTACTTTTTCACCATTTTCAGTTATTTCTTTTGTATCATATGGAATACCATCTTCTTCTGCAAAAGCAAATGTATTAATAATAGCAGCCCCTCTAGCATCTGGAATTAAGAAAATTATTTGTCCATTACCATTAACGTCTGTATAATTTAATACTCCATTTTCTACAAGTGAACCAGCTAAATTTACTAACCCCTTCATACTCATATTTAAAGCAAGTTCATCACCATTTGATAATTCACCTAAATAATAATATTCATCTAGGTTTTCTTCAATAGTAGCAACTCTTTGAAGTAATAATGTTTTAGCATTAGCTTTTTCTTCATCAGTACCATTGTTCATAGCATTAATAAAATTATTAACTATTGCTGTATTTTCATTAATTATTTTCTTTGCTTGATCATCTTGAATATATCTTCCTAAATTTGGAACATTTTCAACATGTTCAATTGGTTCTTCAGTAATATAATTACCTGCTGCTTGAATAACATTTGTTGGCATAAACATATTATCCATAGCATAGAAAGCATTTCTTAAATCTTCATTAGTAATAGTTTCACTATTATTAGTTAAAACTAAAATAATGTCATTTAATTCATTAATAGCATATTCTTTATCATTTCCATATTCATTAATAAAGAATGCTTCGTTAGCTTCATAAAAACTTGTTGCTTCATCTTTATAATCAACTGTAGTAGTTGTAGTTTCAACAACTGTAGTTTCTTTAGTAGTAGGAACTGTAGTTTCTATTGTAGATTTAGTTTCAGCTGTGGTAGTTGTAGCTACAGTTTTGTTATTCTTTTTACAAGCTGATATTGAACCAGCCATTGTAAATGCTAATACTAAAGCTCCTAATTGTTTCTTATTTAATTTTAATAATTCATTTATTTTTTTCATTATTAACACCTTACTTTCTAGTTAAAACTAATCTCTTAGTATTAAGAGGATTTGTTTTTGTTTTAAATGGTATTTCTGTTCTATAACCATAATATGATACTTCATCAATTATCATTCCATCATAATATAAACCTTCTGATGGAGCTTCTACATTTGTAGAAGTACCTGGAATAGTGAAATATGTTTCAGTTGTTTCTGTTGGCCCACCAGTTTCAATAGGCATTCCACTTGGTCCTGTTTCATCACTAGGTTTTGTTGTTGGTTCTGATGGTTCAACAATTGTAGGTTCAGTTGGGAATGTAGTATATGTTGTTGTAGGTTCTGGTTCACCAGTTGGATCTACAGGCATTCCACTTGGTCCAGGTTCATAACTTGGATTTGTTGTAGGTTCTGTAGGTTTTGTTGTTGGAATTGTTGTTTCAGATGGAATTGATGGTTCAGTAGGTAATGTAGTATATGTTGGTTCAGTTCCTTCTGTAGGTTTTGTTGTTGGAGTTGTTGTACCATTTGTTGTTGGAGTTGTTGTACCATTTGTTGTTGGAATTGTTGTTTCGTTAGTTGTTGTAGGTTCTCCAATAACTATACCAGACATATCACCAGATATTGAAGGTATAACACCACTTTCATCATAACTAGTTGTTGGTTCATTTGGTTCAGTGTTTTCAGTTACTACTGAAGCAGTTTCTGTAACAACAGTTGAAGTTGTTTCACCCTCTGTAGCATAAGTTGTTGTTGGAGTTGTTTCTCCAATAGCTATTACTTTAGTATTATTCTTGTTTTTACTACAAGAATGAACACCATAAGCAATTAAACCAACTATTGCTATACCACCAACTACTTTTACAAATCTTCTAAATACGATTTTTCTTTTAACTCTTTTTACTTCTTTTTCTGCAGATTTATTACCATCAATAACTTCATCCATATGTGAAGCATTTTTAGTAACGAATTTTCTATAATTTTTATTATTTTCTGATTCAAAGAATTCTTCTTTGCTTAATGATCCCGCTTTAGATGAAGCATAAAAACCATTGTTTTTAAATTCGTTTAAATCATCTCTTGCTTCTTCTAATTCATCATCATTTTTTAAAGCATTCATTTTTTCAAGTTTAGATATGTATTTCTTTTCATACCATAATCTATCTTTCTTTTCCATAATGTTATTCCCCCTTTGAAATAAACGTGCTCTATAATACCACAAGACTAATTATATGTCAAATAATTTGACCTTTTTTAAAATACAAAAAAGAAGGCTTTTTAGCCTTCCAAATTATTACTAATATCTATGAATTCTTCTAGAGAGATATTTTCTGCTCTAACAGTTAAATCCTTACCATATTTCTTAAGAGTATTCTCTATTCTTTCTAAGTTGTAATTCTTAAGATTATTTCTTAAATTCTTCCTTTTAAATTGAAATGAATCTCTAATTAAAGTAAATAGCCTATTTTCGCTTTTAGCATCATTTCTATAATATCTATCAAATCTAATAACAGCAGAATCTACATTAGGTTTAGGTATAAATGAGTTTCTAGATACATCCATTACCTTAGATATCTTAAAGTAATAGTTTAAATATAATGTAAGAGAGTTATAGTCTTTAGTACCCATTTTAGCATTAAATCTATCTCCTACTTCTTTTTGTACCATTACTACTAATCTTTCTGCAATATTAAGATCTATTATCTTTTCTATGATTGGAGTAGTTATATAATATGGAAGATTAGCTATAACATATACATGTTTATAATCATATTTCTTAAGTATTTCAGTTACATTAGCCTTTAAAAAGTCCTCATATACTATTTCTACATTATTAAAGTCTTTTAAATTATTATAAATAATAGCCTTTAAGCTCTCATCTATTTCAAAACCAACTACATATTTAGCTTTAGATGCAATATATTTAGTAAGATAACCAGCACCTACACCTATTTCTATAACTAAAGTATCATCTTCTATATCACTTTTTTCCACAATATTATTTAAAACATTGTTATCTTTTAAAAAGTTTTGACCAAACTTCTTCTTAAATTCAAAATTTGATATATCACTCATATTATTCCTCCAAATTAAACAATTTTTTAGCATTATTATATGTTATATCTATTATTTCTTTAATAGAAATTTCTTTTACCTCAGATACTTTTTCAGCAATCTCTTTTAAATTTAATGGGGTATTTACTTGCCCTCTTTTACTTTCAGGTGATAAATAAGGACTATCTGTCTCTAATAATAGATTTTTCACAGGAATATTAGTAATTAAATCTATTCCTTTTTTATTATTTGGATATGTAACAGGTCCATCAATTCCTATATAGAAACCTAATTTTATATATTCTTTAGCTAATTCAGTACTTCCAGAATAGCAATGCATAGATCCTTTTCTAACATTAGATTCTTTAATAATATCAAATACTTTCTGAGAAGCCTCCCTTGCGTGCACAATCACTGGTAGGTCATATTTTTTCGCTAATTCTAATTGCTTTTTAAAGAAATATATTTGTTTATCACTATTTTCTTTAGTCCAATAAAAATCTATACCTATTTCTCCTAAAGCTACTACTTTATTATTCTTAATTTGTTCTTCTAATAGTATTAAATCCTCATCTGTAAATGTATCTATCCCATCATAATTTAATCCAATAGCAGCATAAACATTATCATATTTCTTAGATAACTCGATTATTTCATTATTACTAGCTATATCTACACCATTAAGTATTACATCTATATTATTACTAGCACATTCTTTAATAATATCCACAGCATTTTCCATTTCACTAGGATATATATGGCAATGTGTATCAATTAATTTCATTTAAATCACCTACAAAAATTATAACATAAAAAAGAGATTAACTCATTAATCCCTTTATATAATCTATTTCTACTTGATCTTCTAATCTAACAAATATAGGTTCACCTTTTTCAATAACCTTTATACCATCAAAGTTCTTACAATTCTTTAGATCTTCAATAGTAACATTATTATCTAATCCCATTTGTCTTAAGATATTATCAGATGTTTCCTCCATAAATGGTCTAATTAGAATAGCTATAGTTTTAATTCCATAAGCTAAATGGTTCATACAAGAAGCAAGTTCTTCCATCTTTTCTTCTTTATATAAAGCCCATGGAGCAGTTTCATCAATATATTTATTAGTTCTAGATACTATAGAGAATATAGTAGATACACATTGTGAGAATTCACAGTTATCTAAATATCTCTTAGCTTCCTTAATATAACTATTAACATTATTTTCAAATGTTTCATCAACCTCATTAATATGTCCTTTATAATCAGGAATATTTCCTTCAAAGTACTTATTAATCATTGAAATAGTTCTATTAACTAGGTTACCTAAATCATTACATAGATGTGAATTATATCTTTCAACAAAGTCTTCTGGAGTAAATATACCATCAGTAGAAGAAGGCATACTTACAAGTAGATAGAACTTTAATGCATCAAGACCATATCTACTAATTAAATCTTCTGGATAAATTACATTACCCTTTGATTTACTCATCTTACCATCTTTCATGTTAATCCAGTTATGAACAAATATAGTCTTTGGTAATGGTAAATCTAATGCCATTAAGAATATTGGCCAATATATTAAATGGAATCTAGCAATATCTTTACCAATTACATGCATATCACATGGCCAATATTTATTAAATAAATCATCATTTTCTTGTCCATATCCTAAAGCAGTTATATAGTTTGTTAGAGCATCTAACCATACATATACAACATGTTTTGGATTTGATGGAACAGGAATACCCCAAGTAAATGAAGTTCTACTAACACATAGATCTTCAAGACCTGGTTTAATAAAGTTATTTAACATTTCTTGTTTTCTATAATCTGGTTTAATAAAATCTGGATGAGATTCATAATATTCAAGTAATCTATCTTGATATTTTTTCATATTAAAGAAATAAGCTTCTTCTTTAGCAGGTTTAACTTCTCTTCCACAATCAGGACATTTACCATCAACTAATTGACTTTCTGTCCAGAATGATTCACATGGAGTACAATATAGACCTTCATATTCACCTAGATAAATATCACCATTTGCTAAGAACTTTTCAAAGATATCTTGAACAACTTTTTCATGATAATCATCAGTAGTTCTAATAAACTTATCATAATCAATCTTCATTAAAGCCCATAAATCTTTAGCCATTTTAGCCATTTCATCAACATGTTCTTTTGGTGTAATACCTTTTTCTTTAGCTATATTTTCAATCTTTTGTCCATGTTCATCAGCACCAGTAAGCATAAATGAATCTTCACCAAGCATCTTATGATACTTCTTTAAACTATCTACTAATACTTCCGTATATGTTGTACCAATATGATACTTACCACTAGGGTAATATATTGGTGTTGTTATATAAAATTTATTCAAATTAATCACCCTTTCCTGTAGATCCAAATCCACCGGCTCTTTCGCTATCAGATGAATCATCATCTACAAGTAAATATTTACTAAATATTCCTTGAGCAAATCTATCACCTTTATTGATAACTATGTCTTTTTCACCTTCATTTTGGATCTTTATAAATATATGTCCTTCATTATCAGGATTATTATAGTAATCACTATCTACTATTCCAACTTGATTACATAGTCTCATGTTATATTTAAATCCCATAGAACTTCTAACTAATAATGCTAGATATTCATCACTTTCCATTGAAGCTTTAATACCAGTTGGAACTTTAATAATTTCTTTTGGTTTTAAAGTAAATGAGATAGGACTTCTAAAATCATATCCTGCACTATGTTTTGTGCCCCTTACTGGGCACATTAGATCATCATATTCTAAATGATCCATTTCTTCTACATTCTTTAAATATTCTTCTTTTGTTACTAATTCAAATTTTCTCATAGTTATCACTCCAAATCTATAAAGTATTATATATCATTTTAAACATTTTTCATATAGTTTTAAGAAATCTATTAAATAATATATATAATGTTTGTCTAATGAATGAGTAAATAATTTAATATGTAATCCATTATTTCTATTTTCGAATTTAAACTTATCTGTAATATTATATGAATCCATAAATAACTTATCTATGTTAATAATATCTGGATTCTTAAGTACAAATTCTACATATAAATTAGTTTTAATTAGAGGATCTATATCATTTTCTTTAGCCATACTTTCATATAACTTACTATACATATAGATTTCAAGTTCTTCATCGATTTTACCAAATCTATCCTCAATTTCCTCTTTAACTACTCCAAGTGTATCAAGAGAGTTAATTGTACTAATTAACTTATGAACTTCAATCTTAGTACTCTCATCTTTAATATATTCATTCTTAATATGGTTATCTACATCAACTAATGGTTTTTCATCTTCGATTTCTTTGACTTCTTTAACCATATTACCTTTTAATCTTTCAACTTCATCATTAAGAATTCTTGTGTATAAATCATATCCAACTGAATCTATAAATCCAGCTTGTTCTGATCCTAAGATATCTCCAGCACCTCTAATAGATAGATCCTTCATAGCTATTTGGAATCCACTTCCTAAGTTAGTAAATTCTTTTAAAGCATTAAGTCTCTTAACAGAAGTCTCAGTCAAACTCTTATTTCTCTTATATGTTAGATAAGCGTATGCTATCTTATCAGATCTACCAACTCTACCTCTAATTTGGTATAGCTGTGATAAACCAAATCTATCAGAATCAAATACTATTAATGTATTAACATTAGGTATATCTATACCAGTTTCTATAATAGTTGTACATAGTAATATATCAAACTCATTATTAACAAATGCAAGCATAGTGTCTTCTATTTCTTCTTTAGACATTTGTCCATGAATTATCCTAATCTCTGCATCAGGAGCAATTCTCTTAATATCATGATACTTTTGCTCTATATGTTTAATATTATTAAATAATACAAATACTTGTCCACCACGAGACATCTCTTTATATATTGCTTCTTTAAGTATTTGATCTGATTCTTCTATTACATAAGTTTGAACACTATATCTAGCAGCAGGTGGTGTTTCTATTAATGCTAAATCTCTTAAACCAACTAAAGACATTTGAAGTGTTCTAGGTATTGGAGTTGCACTTAAAGTAAGAATATCTATATTTTCTTTATATTCTTTAATTCTTTCTTTATGCATAACACCAAATCTTTGTTCTTCATCTACTACAAGTAGTCCTAAATCCTTGTATTCTATTGATTTATTAAGTAATTTATGTGTTCCTATAAGAAGGTCTACTTTACCTTCTTTTAGTTTTTCTTTAATAATTCTTTCATCTTTTGCTGTAGTAAATCTGTTTAATAATGCTATTTCTACTCCATAATTCTTAAATCTTTCCACAGCAGATTTATATTGTTGAGATGAAAGTATAGTTGTAGGACATAAATAAGCTACTTGCTTACCAGAAAGTATAGCTTTAAATATAGCTCTAAAAGCAACTTCAGTTTTACCATACCCAACATCGCCGCAAAGAAGCATATCCATTGGATACTTTCTTTCCATACATTCTTTTATTTTATCTATAGCAATTAATTGATCTTTAGTAGGTTCATATTCAAATTCAGATTCAAATCTTATTTGTTCTTCATTATCTTTTTCAAAAGCAAAACCTTCTTTAAGTTTTCTTTTTGCACTTATTTCAAGAAGTTTACCTGCTATATCTTTAACTTTATTCTTAATTCTAAGTTTAGTTTTTTGCCATTCAGTATCACTTAGTTTATTTAACTTAGGTACATAACTATCACTAGATGCATACTTAGTTATTAAATCTATCTTATCCACAGGAATATATAGTTTATCTTTACCATGATATAAGATTTCTAGGTAATCTTTATTAATATCACCCTTTTTAATAGTCTTTAAACCATTATAAACACCAATACCATGATTAATATGAACTACATAGTCTCCAATAGATAAGTTATTTATGTTACCAATCTTAGTACCTACTTTAAACTTATTCTTATATGTATTAGGTCTTTCATTACTTGAGAATAACTCATATTCTGTTAAAAGAATTAGATTATCTACTTCAAAACCATAGTCATAATCAGTTTTAATAATATTTATTCTAGTATTATCTATATTATCCACAGTAGTTTTATATAGTGGAACATCTAGGAATTTCTCTAAGTTCTTAACTTTATTATCATCTTTAATAGATATAATAACTATTTTCTTCTTAAATAAAGCATTAGTTAAGTATTCATTAATATAATTAATATTAGAATTAAATCTATCTACTTCTCTACCTTTTAGGTTATAGATATGATCTAGTTTTTTTCCTTCTATAAGATTATCTATCTTTAATAAATATATTTCTTCCTTAATATTAATATCTTCAAGATTAAACATATATTTATCATATCTTTTTAATTCATTATTAAGGTTTATTATATCCTCAGATAATCTATCATATGACTTTCTAATAGTTCCATAGTCATCATATATAGTAATAGGATTATCTAAATAATCAAAAATAGAGACATAATCATCTAAAACCTGCGGAATATTCTTTTGTTTAGGTTCTATATCTATATTTTTACTGTTGATAAATTCACTAACTGGGTATATCTCTACTTTATCTATATCTTTTATAGATCTTTGAGAGTCTATATCAAACTCTCTAATTGAATCTATCTCATCTCCCCAGAACTCTATTCTTATTGGATTCTCAAAATTATATGGGAATATATCAAGTACGAATCCCCTTGATGAGTATTCACCTGTTTTAGTAACAAAAGGACTTCTTTCATAACCAATGTTAGATAAATCTCTTTCTAAATCATCTTTGTTACGTTCCTCTTTTGTTATATTTATTATACTTTTTGCCCATACTTCTTTTGATGGCATATATCTTAGTAACCCGTTAAGGTTAGTAATTAAGATATTTCCTTTATTATTAATTAAACCATCTAGAGTACCTAATCTAATAGATAATAAATCTGGAGATATAGATATTGATTCTTCTGTTATAAAGTCATCCATTGGGAAGAAGAAAGTATTCTTATATAACTTAGATATAGCTCTATATAACATATTTCCTTCATATATAGAATTAGTTAATAATACTATATCTCTATTAGAATTCTTTTTTATCTCTACAACGCAAAAAGAGGTTAATTGTTTAGTTAACCCCGTGATACCTATATTATCAAATTCATCTATTCTGATTAAATCCTCTATCATAATATCATCTCTTATTATATTTATTTTGTAATTCATTAAAGTCTAAATTTATATAATCAATAATAATATCGTATGATTTTTTAATAGCTTCTTCAATCTTTTCTCTATCATCTTTACTAAATTTACCAAGTACATAGTCTTTAGTATCAGATTCTTTATTATTTGATATACCAATTTTTAATTGTTTATATTCATTATTCTTGAAATTAGCTTCAATATTTTTCATACCATTATGACCACCAGAAGAAGATCTTTCTTTTAATTTGATCTTACCTACTTCTAAATCCAGATCATCATGAATAACTAATATATCTCTTTCATTTACTTTAAAGTAGTCTGCATATTTTCTCATTACATCACCACTTAAGTTAATAAACTTTTGTGGTTTAAGAAGAATGATATCTTCTCCATCTACTTTTCCTTTAGTATATAATCCTTGAAACTTATCTTTATCGATAGTAGCTCCTACTTTAGAAGCAAAAAAATCAATAACATCAAAACCAACATTGTGGCGAGTATGTTCATACTCTTTTCCAGGATTACCTAGTCCAACGATTAATTTCATTTCTTTGCCTCCTTATATTCTATATATACATCATTCTTAATAAGCCCGTGCATCTTAGCTACTTTTTTAATAGCTTCTTTTTCAGATTCACCTTCACTTATTAATTTATCAACATGAGAAATAATATCTATTTCATCATAGTTTTCTTGTTCTTTATTTTCTTCAATTAGGATTACAAATTCACCTTTTGGTTCTCCTAATTCTTCAATAATAGTATCTACTTTACCTCTATAAACTTCTTCGTGCTTCTTAGATATCTCTCTTGCAACACTAATATTTCTATCACCCATTATCTCTTTTATTAACGTAAGTGTCTCTTCAACTCTGTATGGTGATTCATATACTATTATTGTATATTTTTCGTTCTTTAAATTCTCTAATTCTTTCTTTTTAGCACTCTTTTTACTATCAAGAAATCCATAGAATAAAAATTTATTTGGATTAAGACCGCTCATAGCTAAAGCAGGTGTAAAAGCAGTTGCACCAGGAAGGCACACTACATTAAATCCATTCTCTATAGCTTGGTAACTTGGTTCAAATCCAGGATCACATATACTTGGAGTTCCTCTATCAGATACTACTGCTACATTATATCCGTTCTTTAAATATTCAAGTATCTTTTTAGAAGATTCATTCTCATTAAATTTATGTGATGCGATTAATTTCTTATCAATATTATAATAATTTAATAGTTTCTTAGTTTCACGTGTATCTTCAGAAAATATTACTTCAGCTTCTTTTAAAACATTAATTGCTCTAAAAGTTATATCTTCTAGATTACCAATTGGAGTTGGTACAAGATATAAAGTTGGAGTATTATCATAACTCTTTTGACTCATTTCTATCGCCCCCAAACATCTTTTTTATTTCATCTCTATATTCATTATCTTTACTGTGGACAATTAACGGAGGTAAAACTTTAATACCTTTTCTAGCATTCTTTCTACCTTCAATAATAATCATATTAGAATTTTGTCCTTCTTTTGGATAAATGAATTTTATTATTTTTGGTGTAATGTTATTATCAGTCATAGACTTCATAATTTCTTCTAGTCTTTCTGGTCTATGAATCATAACAACCTTACCATTATTCTTAAGTAACTTCTTACAAACTTTAAATATATCATCTAAATTAAGATATATTTCATGTCTTGCAATCCTCTTTATTTCATTATCATTTTGTTTAGTTTGTTCATTAATCTTAAAATATGGTGGATTACAAGTAATTATGTCGAATGTATCTGTTTCAAACTTATCACATAAGTCTTTAACATCCATGTTAAATAATTCTATTTGTTTTTCTAGTTTATTTAACTTAATTGATTCAAGTCCAAGCTTATATATTTCCTTTTGAAGTTCCACAGCATATATCTTATCTTTAGTTTTAGTAGATAATATCATAGGAACAGGACAGTTACCTGAACAAAAATCAATTATTTTATCTCCTTTTCTTGGAGTAACATAATCAGAAAGTATTACTGAATCTAATGAAAAGTTAAAATAGTCAGTATCCTGAACTATTTTCATATCATTAATATTTAATAAATCATTAACGACCTTCATTACGTCTCATATCTGTAATTTCTCCATCTTCAAATTGGACTTTATAAGTCATACTTATAGGATCAACAGATATAACCTTTCCTTTTTTATCATCATAATTCTTGATTGTACCTACTTTAGGTAAATCTTTCTTTAATATAGTATATGTTTCGTCTTCATAGTCTAAACAACATAGAAGTCTATTACATAAACCATTAATCTTAGTAGGATTTAAAGAAATATTTTGATTCTTAGCCATGTTTATAGTGATGTTATTAAATGAATATAAGAATTCAGAACAACAAAGTGGTCTTCCACAAGGACCAATACCACCAATTTCTTTAGCTTTGTCTCTTGGACCCACCTGGCGTAGTTCTATTCTAACCTTAAATATCTTAGCAAGTTCTTTAGCAAGTTCTCTAAAGTCAACTCTATCACTAGATAAATAAGTGAAATATAAATGTGTTCTTTCAAAATTATATGAAGTATCTATTAATCTCATTTCAAGATTAAACTTTTCAATTAATTCATTACATTTTTTTGCAGCTATTTCTGCATCTTTTAGATTATTCTGATATATAATGTCATCTTCTTTAGTAGATACTCTAACTATACTCTTTACTGGAGATAGTAATGTTTTTTTATTAATACTTACTCTATCAGTAACTACTTCAGCATATTGGAAACCTCTTTCAGTTTCAACAATGACATTCATACCACATTTAATATCTAATTTACCTGGAGTAAAATAATATTTTCTTCCAAACTTTTTAAATGTAACACCATAAACATCTATATTCATACTATATTTCCTTTCCAAGTTCTATGATCAACTTATCTAATACCATCTTAATATTAGAATTAGAAGTTAATCTAAGCTTAGTTCTTTCTAAGACTTCTAACTTATAATTAATACTTTCCTTAGAATTATTCTTTTCAACCTTTTCTAAGAAGTCTATATATTTTAAAAAATATATAGGGTCCCTCTCAAATTTAAGGTTTAATATATCATAATAGAAGAAAAGCATAAAATCAACAACTATTTTAATATCTTCTTTGTTACTAAAATAATCTACATACTCTTTATATTTGATAAAAAACTTCTTTTTCATAGAATCTATATCTGTAGTAAACTCTAAAAGTTTACTAAAATATGTATCAAAAGTATCTTCTCTTTCAAGTTCAGTAAATCTTTCATTAAAGATTTCATATACATCTTTATTAGTAGCTATATTATTTAGATTTAAGATCTGACATCTAGATAATATAGTTGGTATAACAATATTTTGATTAGTTGTAAGCAGTATAGCTATAATATCATCTGATGGTTCTTCTAAGAATTTAAGTATAGAATTAGCTGATGCTGCATTCATTTTCTCACATTCAGTAATTATATATACTTTTTTATTAGAAATAATAGGTTTATTTTGGAACTCTTTTTGGAGTTCGGATAGTTGTTCCTTCTTAATATTTTTACCATCAGGATATAAAATAGTTAAATCAGGATAGTTTCCTTCATCTATTTGCTTACATATTTTCTCATTATTATCAGAAGATAGTATCTTTTTAGAGAATGATATAGCATATTTTTCTAAATAGTCTAAATCATTGCATGTAAATAAATATGCTTGAACTAATTTATCATTATTCAAACTATCTAATAAGATCTTAGTAACTAATTTTTGTTCATTTAAATAATCTTCAAGCATATCTATCACCACCTATTCTACTTTTATTCTGCCCTCTAACGCTTTTTGAATTGTTAATGAATCTAAATATTCCATATCTGCACCTACTGGTATACCAGCTGCAATCTTAGTAATAGATACATCCATACCTTCTAGCATCTTAATTATATAAAGGGAAGTAGTTTCACCTTCCATACTTAAGTTTAAAGCAAGAATAATTTCTTTTATTTTTTCTTCTTTTACTCTATTTATTAATTCATTTATCTTAATATCGTCAGGATTTATACCTTCAAGTGGAGATATTAGTCCCTCTAATACATGATATTTACCTTTAAAGGCATTTGATTTTTCAAATAAGATTAAATCTTTTGTACTTTCTACTACGCATAATATACTTCCATCTCTAGATTCATCTTCACAAATAGTACATAAATTAGAATCTTCAGTTAAGTTATTACACTTTTTACACTTTTTAATCTTCTTTGATACATTTAATATTGAATTGGAAAAGTTTTCTATTTGTTCTTCATTAAACTTTAAAACTGCAAAACTTAATCGTTCTGCATTCTTTTCACCTATACCAGGTAATAATTTAAAATTTTCTATTAAATCTTCTAAACTTTTAGGAAATTTCATTAGAATAATCCTGGCATAGCTTGGCTATACTTTCCTAATCTCTTTTCCATTTCTGCATTTGCTTGGTTAATAGCATCATTAGTAGCAATTAAAATCATATCTTGTAGTACTTCAATATCATCTTTTTCTATATTTTCATCGATTTTAACACTTAATACTTGTTTATTACCATTAACAGTAACTTCTACTAATTCTTTTTTAGAAGTAAATTCCATCTTACCTACTTCTTCTTGTGCCTTTTGTATTTCTTTTTGCATATTTTGCGCTTGTTTCATTAATGCTTGTATATTCATTTTCTACTCTCCTATCTCTAATAAGTCATCAAATTCGCTTTTATTTGAACTTTTTATATTAATTAATACACTTGATTCATCTATTTCATCAATTACTTCTTTTTTTCTTAATCTAGTTCTATATGATTCACTAGTAGTATTCCACTTTTCTTCATCATATATACATACTAATACTTCATTTTTAAGTTTATCTTGTACACATTTTTCTATTAGATCAAAATTATCATACATTTCATATCTAATACTATCATCTGAAGTAACAATAACTATTCCATTTGGACTAGCAGCTTTAATTTCACAGTCAGATAATATATTTTTAAACCTTAATTCATCTAAATTATATTGTTCTGAATCGCTAGTTAATATATTTTTATAGTCTGTAAGAGATTTTTTATCAGCTTTTATTAATATATTGTTAATTCTTATATTCATTAGTTCATCATATTGCTTATATAACGGATTATCTTCCAATGTTCCACGTGGAACATTGTTCTCTTTTTCTACTTTAACTAGTTCTTCAGTCTTTTTAGATTCTTTTTTAGTTTCATTTACTTCTTCTTTTGATGTTCCACGTGGAACATTATCTTCTTTTTTATCAAATATATCTAATAATCTAATAATTAATAGATCAAAATATATCTTCTTATCACTTGATAGCTTCATTTGACTAATATAATCAGTTATTGTGAATATCATCTTAGTTATATTATCTTTACCAAACTTCTTAACTACATCATTTGAACTATTTATTTGATAATCTATTAAATTATTTCTTAGATATTTAATAAAATCTTCGCAAATTGATATATAGTTTTTACCTTCTACATCAATAAAATCACTAAATTTAAATAATTCTTCTGTTTTATTATCAATAACTAAATCAAAGAAGTTAGTTATTTCTTCTATACTTAATCTACCATTTAATAGAATTACATCATTTAATTTAATATTACCGTTTGTGTAAGCATTTAATTGATCTAGTAATCCAATAGCATCTCTCATACCACCATTAGAATACTCACATATTTGTTTTAATGCTTCATCTTCTATCTTTATTTTTTCTTTTTTACATATATTACTTAAGTTTTCCTCTATTTTAGATGCAGATATTGGTTTAAATTCAAACATTTGGCATCTAGATAGTATAGTTAAAGGAACTTTTTGTGGTTCTGTAGTAGCTAATATAAAGATTACATGTTTAGGAGGTTCTTCTAATGTCTTTAATAATGCATTAAAAGCTCCCATAGATAGCATATGTACTTCATCAATTATATATATCTTATATTTAGATATAGTTGGAAGTAATGTAACATGGTTCTTTATATTTCTTATTTCATCTACACCATTATTTGATGCAGCATCCATTTCAATAATATCTATATTTTCATTATTATTACTTGCTTCACAGATAGAACATTTTTCACAAGAACAACCATCTTTAGGATTCTCACAGTTTAAAGTCTTAGCAAATATCTTAGCTATACTTGTTTTTCCTGTTCCTCTAGGACCTACAAATAAGTAGGCATGAGTTAATTTATCACTAATGATCATGTTCTTTAATGTTTGTACAATTATTTCTTGTCCACATACATCATTAAATGTTTTAGGTCTATATTTTCTATACAATGCTTTATATATCATGTCATCACCTTTTTCTCTAATAATTATAACATATTTTACACTATATTATATATTATTTTTGTAAATAAAAATCAATGTTCCACGTGGAACATTGATTATCTTTTATCTTTGAAAAATTGTTTTAATTTCCCTTCAATATTTATATTATCAACTAGTTTAATATATGATAGATTACTCTCTGTTTCATATTCATTTTGATTAAGAATATAGTATACTTTACCTACTCTAGATTTCTTAATTACTTCTTTGCACATAGAACAAGGTTCTAATGTAACATATAATTCGCAATCATTAAGCCTCCAGTTATGTAATCTCTTTGATGCTTTATTAATACATATAATTTCTGCATGATCTAATACATTATTTGATGTATTAGTTTTGTTATATGCTTTAGCTATTATCTTACCCTCTTTTACTATTAGGGCTGCTACTGGAACCTCATCTTTTTTAATAGCTTTATCTACTAATTTATTTAATTCATCATATATTAATTGATTCATAGTGTTTCTCCAATAAAAAAGCACACACGAGAAGGAACTGTTATGGCTGCTACATCTCT
>sequence06
TTGGAATAATAGCATATAAAATACCATTATTATTCATAGCTTCTACTAAAGAATCTATATTAGTATATGTATTATATATAATTGATGCATTATCATCTAAATAATCTTTAATTTTATTTAAATCAGTATCTAATGCACCAATAGTAGCATTATTTAAATTAGATAAATTCTTAATACTAGCATTATCTTTACTAATTAAAACATAATTATCAGTAAAGAATACCACTTCATTATCTGCTACTCTAGTATTATTACTAGTAATAAATGCATAATTCTTTAAACCATCTGGACTAGAAACTCTATATGGAACCATATTAAATTTAATACCAGTTTCATCAGTAAAGTCTTCTAAGAAACTAAAGAATACACCAGATCCTTCATATCCAAATATAGGAACATCATTAAGAATTGAAACATCTACTACTTCAGATGAATTCTTTTCAATCCATCTTTGTTCTAAAACAGAAAATACACCATTATTCTTATTATTTCTATTAATAATAAAAGCAACTATACCAATTAATAATATTAATCCAATTATTATGGATGTTACTATTATTCTTTTCCTTTTTAAATATTTTTTTCTTTTCATATATATCTCCTATATTACCAAACTATAGAACCAGATGTTTTCTTCTTATATCCTGATCTTGGAAATTGTGTTTTTCCATCTTCATTTGGTTTTTCATCACTCTTAGTAATAAGAGCATTTATATCATAATATCCTTTTACTTCATCTGATAAATTAGAAAGTGAATCACTTACTATATTTCTAGCATCATCAATTGAAATAGATTCATTGAAATCTACTATTACGTATATTATTCTTCCTTGAATATCAATTGATGCACTCTTAACAGCTTCATTATTCTTTAATGCATCAACAAATTTACTCTTATCTTTTTTAGTAAATGATATTTTTTCTATACCTCTAAGTCTATCACCATATTTGTTACCTCTTTGGCCTATAGTTAAATAGAAAACTATAATTCCAACGATTAAAATAATTGCAATAAATATAATTACTGATAAATCTATTTTAAATTTTCTTCTTGGTTTAGAACCAGCATCTTTATTTTTTCTACCAAATTTAAGTTTCTTTAATTTCATTTTTACACCTCTAGTTTTCATTTATCTTGCCAGATAATAATTTACTTTGCTCACTTTCAGTAAGTGAAATAAATTTAGCTCCTTTACCTTTAGTAGAAGCTACTATGTCATTATTATATCTATTAACAACAACTGCTATTCTATCTTTAGTATCTTCTAAAGGAATTTCTATTATAGGAGTCTCTTCAGGAACTACTTCCTCTTTTACTTCTTCTTTAACAGAATCTAAAATTTCATTTGTACTAGTATCATCATTTACTTCAATTTCCTCATTAGTTTCTACTGACTCAGTAAATGGTGATGCAAAAGGCATATCTACTTCTACGTTTACTTTTTCTTCTTTTATAGGAACAAATTCATTATTAGTTAATTTAGATAATTCTTCATTAATCTTATTTATTTCTTTTTTTAATGAATTAATTTCATTTGTATTATTATCTACAATACTTTTTAAATTACTATTTGATTCTTGTCCAATTGAAGGGTTAACCCATGATTTATTAGCTTTAGGAGTCATATTCTTTTCTTCTTTCATATTATGCCTCCTTAACAGAATTAGTAATCATTTCTTTTACTTTATTCCATTCCTCTAAATCTTCTATTTGCTCTAAAATAAAGTTTTCTCCATCTTGTTTTATTCTAGATATATAATCTTTTATGTTACCTGCTTCATCCTTTTTATTGAACGTATAAATAATATATTCATTATTTAAAGAACTAATATTAACGATTGAAACAATATCTGCAACTACCTTTTGACCTTGATCATTAGTAATAGTAATAGTTCTGTTCATATTACTACTCCCCTTTCAATTCTTATTCTATATTCTAGTATATCATTTTTTATATCTATAATCAAGGAAATAACAAAAAAAGCACTTATTAAAGTGCTTATTATTCTACTATTACTGGAGTACCTATTTCTACCATATTATATAATGTTTCAGCGGCTTTAGTACTGATATTTACACAACCATGAGATCCATTATATTTATAAATAGTTCCACCAAATCTACTTCTCCAAGATGCATCATGAATACCATAACTTCTTCCTATAAATGGCATCCAATATCTAACTCTACTTACATAATCGTCTCCAACTAATTCAACATTTCTAGCTTTATTTAAAATAGAATATGTTCCTCTTGGAGTACCATTATTAATACCTGTAACAGTATCTGTTTCAAATACTACTTTTCCTTTTTCATAGTATCTTAATTTTTGTTCACTAATAGTAATAACTATCTTACAATTTTCTTTATGAGTTCTAACATATACATTAACGTCTTTAACAGATTCATTTTTAGATGAATCTGTTACTTTATATGTTATTTTATATTCACCAGTATTATTAATATCTATATTATTAGATACTTCTATATTCTCAGTTAAATCGCCATCATAATTATCTTTAGCAGTAGCATCTGGAATAGCTAATTCTTCCCCAACATCTAAATAAATAGTATCACTTTCTACACTTATTTCAGGTGGAATAATATCTACTACCTCTACTTTTCTAGTTAATTTCTTATATATATTTAATATACCAATATTTAATTTATAAGTTACTTTATAAGTACCTAATTTATTAGTATTAACTTCATTAGAATCTATAATAACTTCTTTTGACTTATCTACTCCATGTATTACTGCAGATACTCCCTCTTCTTTATATTCCTCAAATACATTAACAACTACAGTATCAGAGCCATTTAATTTAAAATTAACATCTACTATATTCTTTTTAAAATAAAATAAGAATATTAATAATACTAACAAAACAATAATAAATATTTTAATTAGAGTTCTTAATCTATTATTCTCATTAATAATATTATTAATTTGCTCCTTTGTTAAATTATCATTCATAATACGCACCCTTTTTTACTACAAAAATTATAACAAAAAAGACTAGTTTTTACTAGTCTATTTTGTTATATTATCTAATTTTTCTTTCATCATCTTATATGCAATAGATGGATTAGCTTTACCTCTTGTCTTTTTCATTACTTGTCCTATAAAGAAATCTAATGCTTTTGGATTCTCTGGATCATAAGTTTTAATAGCTTCTGCTTGTTCACTTAATACTTCATCTACTATTGCTTCAATAGATGATTCATCAGTTATTTGCATCATACCTTCATCTTTAACAATAGACATAGGTTCTTTCTTTTCTTCTAAACATTTAGTAAATACATCTTTTGCCTGTTTAGATGATATAGTTTTATCATCAATTAATTTTATTAAATCATGAAGCATATCTGGTGTCATATATATTTCATCAATTGTAATTAAATTAGTATTTAAATATGAAAGAATCATACCATTAACCCAGTTACAAGCTTCTTTTGGATTAGTTCCAAGTTTAACTGTATCATCAAAGAAATCTGATACTTTCTTTTCTTTAACTAAAATATTTGAATCATATTCAGAAAGATCATACTCATTCATATATCTTTGTTTTCTATCATATGCAAGTTCTGGAATAGAAGTTCTTATTTCATCTAACCATTCTTTTGTTAATTTAAACTTAGGAATATTTGGTTCTACAAAGTATTTATAATCTATAGCATCTGCTTTTGATCTCATACCAATAGTAGTACCACTTTCTTCATCCCATCTTCTTGTTTGCTGAATTATTTCAGTATCATAAGTACCATTTTCTTTAGCACTAACTTGTCTTTTATATTCATAGTTAATAGCATCTCTAACACCACCAAATGAGTTAACATTCTTTATTTCTACTTTAGTTCCCCAATTAGATGGATCTTCCATATCTAATGTTTCATCAATAATAGATACATTAACATCACATCTTATTTGACCTTTTTTAGAATCAGCTTCAGATATACCTAAATATTGATAAACTGTTTTCATATGTTCTAAGAAAGCTACTGCTTCCTCAGCTGAACTTATATCAGGCTCAGTAACAAGTTCTAAAAGTGGTACACCCGCTCTATTATAATCAATTACAGTTGTATCATATAAATGATCTGATGATGCAGCATCTTCTTCTAAGTGAATATTATTAACTCTTACCCTTTTTACTTCTCCATTACATTCATAATCTACATAACCATAAATACCTACTGGTATAGGTTTAGTTTCTTGTGTTAATTGGAAACCTTTTGGAAGATCAGGATAATAATAATTCTTCCTTTCAAAATACATATATTCTGGTTGTTTACAATTTAAAACCATAGATGCTTGCAATGCCATCTTAACAGCTTCTTTATTAACAACTGGAAGTATACCAGGAAATGCCATATCAATGGCTCTTATATTTTCATTAGGAGTTACTGAATAACTATTTCTTGCACCAGAAAACACTTTAGTATTAGTTTCAGATATTTCACAGTGCATTTCTAATCCTACCATTAATTTATATCCCATATTACTCAGCCTCCTTTGCTATTTGATTTTTATAATCCATAGCACTTTCTAAAGCATAAGCAATATTAAGTACATTAATATCATCAAAACAATTACCAGTAATATTTAATCCTACTGGAAGGCCATCTATAAATCCATCAGGAATAGTAATTGATGGGAATCCTCCAAAGTTTCCTATTTGAAGATGTTCTTCTAATGTAACAGTTTCTTTAGTAAGCATATCGGTATCACCATCAAACTTTTTAGCTGGTCCACTAGATACTGGAAGTATTACTCCATCATAAGTCTTAAATAAATCTTTCCAAGCATCAACAAGTAATCTTCTTACTCTTTGCGCATTTCTAAAATATCTATCTTGATTCTCTGATTGAAGTACATAAGAACCAATTACAAATCTTCTTTTAATTAATGAAGAAAATCCTTTAGTTCTATAATCTTTAACCATATCTATCCAGTTATTAAATCCTTCAGATCTAGGTCCAAAAATAATACCTGTTAAATTAGACATATTAGATGTAGCTTCTGCACATGATATTACTACATATACAGATGCTAAAGCATTAAGAAGAGTTCTATTAATAGAAACTTCTTCTACTTCTATACCTAGTTCTTTAGCTTTATCTAATGCCTTAAAGAAATTATTAAAATGTTCTTTTAATTCATTACTAGGATTATCATATTCATTAATATCACATATTTCTTTTATGTAACATAATTTTTTACCTTTAACATTTCCATCTAATGAATCATATAAATGAATATTAGATGAATCCCATGAAGTCATATCATTTTTATCAATACCCTTCATGTTATCAACTACTATTGCAGCATCTTTAACTGATCTTGTTAATACACCTAAATGATCTAAAGATGATGCAAAAGGAAATACTCCATATCTAGATATCATTCCATATGTAGGTTTATATCCTACTATTCCACAGTATGCTGCAGGTTTTCTAATAGAGTCTCCTGTATCAGTTCCTGTTGCATATGGATATACACCAGCAGCCACAGCACAAGCAGAACCAGCAGATGAACCAGCACACATTCTTGTTTTATCCCATGGATTTAGAACAATTCCTGTATGACAAGTAGTCCCAGTACCACCCATACCAAATTCATCCATAGCAGTCTTATTAACCATTACTGCTCCTGCTTCTTTTAATTTTGAATATGCAGTAGCATCAAAGAATGGAATATAATCTTTTAATGTGTTAGATGATCCTGTGGATAATATTCCTTTAGTAGAATAATTATCTTTTATTCCACAAGGAATACCTGATAATAAATTATCAGTAATAGGTATCTCTTTAGCATCATCTATTATAGTTACAAATGCATTATATTTTTCTTCTATTTCATGTGATAGTTTAAGAGATTCTTCTATTAATTCTTTAGAAGTAACTTCTCCACTTTTAAGTAATTCATGAAGTTCTTCAATACTCTTATTCATATACATCTTAACCCACCACCTTTGGTACTTCTACTTCTCTACCACTAACATTATCACAGTTAGATAGTAAATCATCTATAGGTACAGATTCTTCTACTATATCTTCTCTAAGTTCATATTCAAAATCATCTAATGTATGAGTCATAGGTTCTACCTTATCTATTCCAGGTATATCATTAATAATATTAATTTGTTCATCAATAATATCAAACTCATCTAGAACCATTTTGTTTTCTTCAGGAGTTAACCCAATAAGTAATTTATCAGCTAAGTCATCAACTATTTCTTTTGTAAATTTTGATTCCATTATTTTTCCTCCTTTTTTATCTATTAATAATCACAGTTACCTGGTGTTCTTGGATAAGGAATTACATCTCTAATATTTTCTATACCTGTAAGGTACATAATTAATCTTTCAAATCCCATACCAAATCCAGAGTGGTAACAACCTCCAAACTTTCTAAGATTTAAATACCATTCAATAGATTCTCTATCAACATTATGAACTTTAATAAGTTCATCTAATTTATCTAAATCTATCTCTCTTTCAGATCCACCCATTAATTCTCCGGAACCTGGTACTTCAAGATCTACAGCAGCTACTGTTTTTCCATCATCATTTAATTTCATGTACCATGCTTTAATATCTTTAGGCCAGTTATAAATAAATACTGGTGAATTAAAATGATCTGTAATCCATTTTTCATGTTCTTTTGCTATATCAGATTCATAATCTGGAGTAAATTCCCATTTTTCGCCAGAGTTTAATAATAAATCAATAGCTTCTTTATGAGTAATTCTAACAAAGTTATTATTTACTACTTTACTAAGTTTTTCTATAAGACCATTTGATACAAATTGATCTAAAAATTCTAATTCATCTTTACATTTATCCATTACATAATTAACTACATACTTAAGCATTTCTTCTTCAACATTCATAAGATCATCTAAATGCATAAATGCCATTTCAGGTTCTATCATCCAGAACTCATTAGCATGTGTTTTAGTATTAGAGTTTTCTGTTCTAAATGTAGGTCCAAAAGTATATATCTTTTTAAATGCCATAGCAAATGTTTCACCATGTAATTGACCAGTTCCTGTTATAAATGTTTGTTTATTAAATAAATCTTTAGAATAATCTACTTCTCCATCTACTTTAGGTACATTATTTAAATCTAAAGTAGTTACTTTAAACATTTGATCTGAACCTTCACAATCAGCAGTAGTTAATAATGGTGTATGTACATATACATAGTTATTACTTTGGAAGTATTCATGAATAGCTTGTGCTGCAACACTTCTTACTTTAAATACTGCTTGGAATGTTTTAGTTCTAGGTCTTAAGTAAGCTTGACTTCTTAAGAATTCCATTGTATGTCTTTTTGGTTGAATTGGATAGTCTGAAGGACAATCTCCAATAACTTCTATTTTAGTAGGTTTAACTTCATATTCTTGCTTGCCATTAGATTCAACTAATTTACCTTCTACTTTAATAGAAGAACCAACATGAATCTTAGTTATTTCATCAAAGTTAGACATACTGTTATCATATACTATTTGAAGTGTATTAATAGAAGTCCCATCATATAAATCTATAAATCCAAATTCTTTTTGGTCTCTATTATTTCTAACCCAACCTTCTAAAACAACTTCATCACCAATTTTTTTAGTTTTAAATACATCTATTAAATCCATAATTACCTCCTATGGTTCTAATCTATTTGGACCTCTAAAGATAAACATTTCTTCTTTAATAGAAAGTCCAAGTAATAACATATTAAATCTATCTACACCTATAGCAAATCCACCATGAGGAGGACATCCATATTTAAAGAATTGTAAATAGAATTCTACGTCTTTAGTTAATCCTTTTTCATCACATTGTTTTTTAAGTTCTTCATATCTATGTTCTCTTTGCGCTCCAGATGTAATTTCAGCACCTCTCCAGATTAAGTCAAATCCTTGAGGAATATCATTCTTTCTCATATGATAGAAAGCTCTCTTTGTTTTCTTAAAGTCTGTTATAAATATAAACTCATGTCCAAATTCTTCCATAGCATATTTATAAGCAAGACCTTCTGCTTCAGCATTCATATCTCCAACATCAAATTCAGGAATTTGATAGTTATATCTCTTTTCTAATTCTTTATATAAGTCTTCTAATTTAATTCTTGGAAATGGTTTAGTTGGAACAATTACTTCCTTATCAAATAGTTCTTTTATTTTATCCCCATATCTTTCTTTTACTTTAGAAAGTCCAGCAATAATTAAATCTTCTTCAAAATCCATAACATCTTCAAAAGAATCTATATATGCAAATTCAATATCAAATGAAGTAAATTCAGTAGCATGTCTATTTGTATTTGAATTTTCTGCTCTAAAACATGGTGCTACTTCAAATACTCTTTCTAATCCTGATGCTAATGCCATTTGTTTATAGAATTGAGGACTTTGAGCTAAGTACGCTTTTCTATCAAAGTATTTAACTTCAAATACATCAGAGCCTGATTCTGAAGCTGCTCCTATTAATTTTGGAGTATGTATTTCAGTAAATCCTTCTTTATAACAATGCTCTCTCATACCTTCAACAAAAGTACTTTGAACATTAAGCATTAATTGATTCTTTTCAGTTCTTAAATCTATCCATCTATAATCCATTCTAGTATCAATATTAGCATTTTCTTCTAATGGAGATGCTTCAGCTTTAGAAAGTACATTTACTTTTGATGGAATAAATTCTTTACCACCTTGTTTAACATACTCTGATAAAACCATCTTACCTTCAAATTCAATAACAGATCCTGCAATAACCCCATCTAAAGATTTACAAAGTTCTTCTTGAGTACCTTTATCAAGTGAAACTTGAATAGATCCAGTTCTATCTTTTAAGATTACAAATATCATATATTTAGTATCTCTTATTTTAGATGCGAAACCAGATATCTTACTTTCTTCATTTTCTACTAATTCATTGATTAATATTCTTTTCATTTTATCCTCCTTAAAAAGCAAAAAAGACTAGTCATCCAAAAGGACGATCTAGTCGTGGTGCCACCTTAATTCATCATATATAAATATGACCTTATACTTTAACGCAGTTAACGTATTAACCTACTACTACTTCAATTAATAAGCTCCAAGGTGTTCGTTCATAACTCTATCATAATCCCTTTTCACCAACTGGGACTCTCTATATATTTAGTAGTTATTACTTCTCCTCTTCCTTGCCTCTTTTATGCAATAATATTAACATATTTTAACATTTAAAGTCAATTAATATAACAATTATTTACAAAAAAAAGAACCCTAAGGTTCTAATTTTTAAATGGCGCTCGATACAGGACTCGGACCTGTGACATCTTGATTAACAGTCAAGCGCTCTACCGACTGAGCTAATCGAGCATCTCGTTGACAATTAAAATAATATCATTAAGAAAATAGTTTGTCAACCAAATAAATAAAAAAAATAGTTTTATTAATAAAACAAAATAATAATGTTATAATTATATCAGTTAATACATATATTTAGAGGTGAAAATATGACAGGAGATTCTTATAGAAAAATACCTAAAGAAGACAAAAAATTATTCAATGACTCATTAAAATTAGTAACTAATTTTATGACAAATGATAATGATGATAAAAAAAGGTATAGGATTAAATTAATATCTGCTATAGAACAATTCATTAGAAGTAATCCTGAAGAATTAGATGAAAAAGAAAGAGAAAAATTAAAAACTGTTGCAGGTATATGTATACCTAGTGAAAATAGAAATATAATATTTAGAAAACTTAATCTATTTCCATTAAAGAAATCTCATAAATGTAAGGTTGCTATTAATAAAGCATTAGCATTAAAGAAATTTGAAGAATTATTAGTTTTAGTTCATGAAATAAATCATGCTGATACTATGCAATATGAAAAAACTAAAAAGTTTGTAGTATTATTTAGTGGTTTAAGAAGATTTGTTTTTGAAGATATAAATACTACTAAAATATATGGTACTGGATTAAACGAAATTATAAATGAGTTATATGCTCAAATACAAGTATATAGTGTATTACCAGATATGTTTACTAATATATCTAGTTTAGATGAATTAATATATAGCTTTAAAATACCTGAATATAAAGTTGGATTTATAGGATCTGGTTTACCATATAGAAGAATGGGAATAATATCTAAATTATTATTAATAGCATCTGATAATGATTTAACTACTTCATATGAATCATTAAAAAATTCAAAAAATAAATTTATAGAAAAACCAGTTTTACTAAATGGACAATACTGTGTAAAAAATGATTTGTTATATGCTGGTAAACAAAATGCAAGAGAATATGGTGAAAGATTTGATCAACTATGTGAAAAAACAGGTTCATTTGTTCATTTATTAAAAGGTTTTGATATCTTATTATCAGCAGAAAGAAAAAAAGAACCATATAATATTAAAGCAATTGCAAACATAATAGGAATAATTGATAAATATAAAGATGCTAAATATAATGCCTTTATTAATAATGGTTTATGGGATCAAGAGAAGAAAGAAATACATGAATATGCTTATTCAACTTATAGAGATTTCTTATGTAAACAATATGGTATTGATCCAAATAGTATTCAAAATGAATCACAAGATATAACTCCTAAAGAACTAGAAACTACTGATGAACCATTAGAAACTATAAATATAAAAAGCAAATAAAAAACAAGTAGAAACTACTTGTTTTTATTTTACTACTATACTGACTAATTTCTTAGGTATAACTATTTCTTTTACTATAGTTTGTCCTTCTATAAATCTTTTAACATTTTCTATTTCTTTTGCTTTAGATTTAATTTCTTCTTCAGACATATCTTCAGTAACTTCTAGTTTACCTCTTACTTTACCATTTACTTGAACTACCATTTCAAATGTATCCTCTACTAATTTAGATTCATCATATGTAGGCCATTTTTCATAAGCAATAGTATTATCATGTCCAAGTTTTTCCCACATTTCTTCAGTTATATGTGGAGCTACTGGATTTAATACTTTAACAAAACCCTCAGCATACTTTTTTGGTAATTTTTCTTCTTTATATACTGCATTCATAAATATCATCATTTCAGATATAGCAGTATTAAATGATAAATTATCATAGTCTTCAGTTATATTTTTAACCATCTTATTATATGGAGTATCTAAGTTAGAAACTTCTTCATCAGTTACATATCCAAGTTCTACAATTGCTCTATATACTCTATCCAAGAACTTTCTAGCTCCTTCTGCTCCTTGATCACTCCAAGGTTTAGATGCTTCAAGAGGTCCCATAAACATTTCATATAAGCGAATTGTATCAGCACCATATTCTCTTACTACATCTGATGGGTTAACACAATATTCAGGGAATCTTTTACCCATCTTAATACCATTTGATCCTAAAATCATTCCTTGATGTACTAATTTCTTAAATGGTTCTTTTACAGGAACTAGTCCTTTATCATATAAGAAATTATTCCAAATTCTAGAATATATTAAGTGTCCTACTGCATGTTCTGGTCCACCTAAATACAAATCAACTGGCATCCAATGTTTTAATAATTCATAATCTGCAAATACATCATCATTATGTGGATCAATATATCTTAAGAAATACCATGATGATCCAGCAGATCCAGGCATAGTAGATGTTTCTCTAATACCTTTAATACCATTCTTATCATAGTTCTTCCACTCTTCTGCATTTTCAAGTGGAGCTTTTCCATTATGACCTTGATAATCATCAAGTACTGGTAATTCTAATGGTAATTCTTCATCTGGAAGAATATAATCTTCACCATTATCCATATGAACTATAGGAACTGGTTCTCCCCAATATCTTTGTCTAGCAAAAATCCATTCTCTAAACTTATAATTAACTGTTCTTCTTGCAATACCTTGACTAACTAATTTATCAGTTATTTTTTCTTTAGCTTCTTCTACTATTAAACCAGTAAATTCTTCACTATTAATAAGTTTACAATTCTTTCCTAAATAATCATATTTTTCAAAGGCTTTTTCTTCTATATTTCCTCCTTCAATAACTTCAATTATATCTAGGTTATGTTCTTTAGCATATTCAAAATCTCTTTGATCATGTGCAGGTACTGCCATAACAGCTCCTGTACCATAATCACCAAGTACAAAGTCTCCTAAGAAAATAGGTACTTCTTCTCCGTTAATTGGATTTATAGCTTTAACACCTTTAACTTCTACTCCAGATTTACCTTTATTAAGTTCAGTTCTATCCATAGCAGACTTCTTAGCAGTCTCATCTATATATGCTTTTACTTCTTCTTTATTCTCTACTCTAGGCATTAATTCTTCAATTAATTTACCATCTGGTGCAATAACAAAGAAAGTAATTCCATATACAGTTTCAATGCATGTAGTAAATATAGAAAATTTACCTCCATCCTTTATTTCTACATCCATTTCAACACCAGTAGATTTACCTATCCAGTTTCTTTGAATTTCTTTAGTTGATAAAGGCCAATCTATTTCATCTAAACCTTCTAGTAATCTTTCTGCAAATTTAGGTTGATCAATACATAATTGTTTCATATTCTTTCTGATAACAGGATATCCTCCTCTTTCAGATTTACCATCAATTACTTCATCATTAGATAAAACAGTCCCCAATTCTTCACACCAGTTAACAGGCATATCTATATATTTAGCATACCCATCATTATATAATTGTTTAAATATCCATTGTGTCCATTTATAATACTTTGGATCTGATGTAGAAATACATCTATCCCAATCATAATCAAAACCTAATTCTATTAATTGTTTAGAAAATGTTTCAATATTTTTTTCAGTAAATCCACTTGGATGATTACCTGTTTGTACAGCATATTGTTCTGCTGGTAAACCAAATGAATCATATCCCATTGGGTGTAATACATTAAAACCTTGCATTCTTTTATATCTTGATACTATATCACTAGCAGTATAACCTTCTACATGCCCTGCATGAAGACCTACTCCTGATGGATATGGAAACATATCAAGAACATAAAACTTTGGTTTAGAAAAATCTCTAATATCTGTTTTAAATGTTTTATTTTTTAACCAATATTCTTGCCATTTCTTTTCTACTTCTTTATGACTATACATTGTTTACCTTCCTTTCTTTTTTTCTAAGTATTCTAGCTACTAAAGCATATGAAAACCATACTGTTGGTATAACTAAAGCAGCAGCTATAATCATTTGTAATACATAATATTTAAATCCTATAACTATCATCATCATAATTGCTATTAATAATGCATTAACAAAATTCAGTAGACTTAAACATTTATTGTATCCTATTTTTTCAACATCTATTTTATAATAATGTTTCATAATACTAAGATCTGCTGGCATTTTCTTTTCTTTTTGTTTTTTAGTTGCTCTAATAAATGGTCTTCTAATTAACCCATAATATCCAAAATATACTATTATAAAAAATGCAGCAAATACAATTAATAATTCTAATATTTTTTTATAATCCATTTTTATCCTCCAAAAAAATAAAACCTATGATGTAAGGACTATTACTAGCGGTACCACCTTACTTCATAGATTTTCTATGCTCTTTAATTCTTAACGCGAATAACGATTTAACTCCAGAACAAGTTCATAAACTTTCTATTATTAGTTTACACCAAACACTAACTCTCTATGAATAGATTATTTACTACTACTTTCCTTCAACATCAATTAAGTCAATTATAAAATATTTTAACTAAAAAAGCAATATGATATAATATTTCTTAGGTGATATTTATGTTTAAATATACATTAGATAACAAAAGATATTATACTTTAAACTACTATAATCAAATGAAATATGGATGTAAAGTAATGAAGATTAGCTTAAATGCTGGTTTTACTTGTCCAAATATAGATGGAACCAAAGGTACTGGTGGATGTATATTTTGTCTTGGAGGATCTAATAAGAATACTGAAAAAGATTTAGTAAAACAGTTTTACGAAGTAAGAGATATTATGGCAAAAAAATGGCCTGATGCAAAATATATAGGTTATTTTCAAGCAAATACCAATACATATGCTCCTATAAGTGAATTAAAAGAGAAATATGAATCTATATTAGAATTACCTAATGTTATAGGTTTAAATATAGCTACAAGACCTGATAGTATATCAGATGAAATATTTGATTATTTAGAAGAACTCTCTCATAGAACTAATCTAGTTATAGAATTAGGATTACAAACTATAAATGATAAAACTGTAGAGCTTATTAATAGAGGTTCTACTCTAAAAGAGTTTGATGATTGTTTAGAAAAGTTGAATAAAAGAAATATAGATGTTGTAGTTCATATAATAAATGGACTTCCATATGAAACAAAAGAAGATATGATTAATACTGTTAAATATTTATCTAATAAAAAGATACTTGGTATTAAAATACATATGCTTCATGTTTTAAAAGGTACTAAATTATATAAATTATATGAGAAAGAACATTTCCATATACTAACTAAAGAAGAATATGTAGATATAGTATGTGAACAGTTAGAATACCTAAGAGAAGATATAGTAATAAATAGAATTACTGGAGACCCAGATATAGAAGACCTAATAGAACCTGAATGGTTAGTTAAGAAATTTGGTGTTCTTAATGAAATAGATAAAGAAATGGTAAAAAGAAACATATATCAAGGAGACAAATATAAAAGAATGGATTAACCAATAATCCATTCTTTTTCTATTCCTAAATTAGTTTTATTACCATGTCCAGGATATAATGTAATACTATCATCATATTTCATTAGTTTTTCTAATGAACTTTTTAACTCTGATATATTACCATGTGGAAGATCTACTCTACCTATACCATTTTCAAATACAAAGTCTCCATCAAACATGATATTATTTTCTTTAAAATAAAATGCACATAAATCATTTCTATGTCCTGGAAAATATATAACATTAAATTCAAAGTTACCAATCTTATAAGTTTCTTCTTTTAAATCAATCAACTTGTCATATGATACTTCATCATTAATATTATAGTAATAAAGTATTGGTTTATACTTACTAATAAATTCTTTTAAGGCTCCTACATGGTCGAAATGATTATGAGTTATTAAGATACCCACTACATCTCCATTAATATTAGAATCTATTCTTTCAAATTCATCTCCAGGGTCTACTATTAAGACTTTTCCATCTTTTTCAAGAATATAACAATTAGCCTGAAGTCTTCCTACACTAATACATTTAATATTCATTAAAATATATTTAGAAGTTCTTCTAAAGAAGTAATATCTATAAATTCAGTTTCTTCTTTTTCTTTACTAAATTTAACTGATATTCCTTCTGCTTCTTTCCATTCTTTTAAATTACCAGAATAATCATCTACTAAAATGGCATTCTTAGTTTGAGTCATCATTGTTTTAGAACATGATTTTGGAACAGGTATAATTGTTAAATCATTAAATAAACTATTTATAAATTCTATTTTAGATTTTGCTTCTTTTAGAGAATTTACATGAGTTAATATACTAATATTAAACTTCTTTGAATTCTTTAATTTTTTAATAGCATTAATACTATCATTTAATGCAGGACTTTCATCTATTAAAGTTTCCCAATCTATTTTAGAATATAATAATCCTACTTCTTTAGTTTGAGTTTTAGGTTCTATATTAAGTTTTCTAGCTAAATCATATACTGGAGTAATTGTATCTAATATAACTCCATCAAAGTCTATATATAAGTTCTTCATAATAACTCCTTTACATTTTCTATTATACTCCAGTTAGGTATTTCTTTAAATACCATATTTTCTTTAGTAACTGGATGTATAAACTCTAATGAATATGAAAATAATTTAATATTTTCATGTTCCATTTTTCCATATCTATTATCTCCGACAATTGGATGATCTATATTACTAAGTTGAAATCTTATTTGATGATGTCTTCCAGTTTCTAGATTAACTTTAATAAGTGATCTATCATTTCTTTCATCATAGTATAAAGTCTCATAAGTAAGAATAGCTTCTTTACCATTCTTATCTAAATAAGTAGTATTTGTTTTTTCATCTTTAGAGATATAGTCTACTAACCTTTCACTATCTTTTGTTTTACCATGTACAATAGCAAGATATGTTTTCTTAACTTCTTTTTTTCTAATACTATCTGATAATCTTGATGCTGCTTTAGAAGTTCTAGCAAATACCATAACTCCTCCAACAGGTCTATCTAATCTATGTACTAAACCAATATATACATTACCAGGTTTATTATATTTAACTTTTACATATTCTTTAACCATAGTAAGTAAATCTTTATCTTTAGTATCATCTTCTTGAACTATTATATTAGGTTCTTTAACTACTACTATAATATGATTATCTTCATATAATACTTTTAGATTATTCATCTTCTTTTTCCCATCTACCATATATTCCACAAGGTAAATTAAGTCTACTATTTTCCATAGATAAACCTACTTCACCATGAGTAACAATTCCTTTATCTTTAAAGTTAAGAAGTAATATATTTCTAAGCACTTCAGAACTTATACCTGTAGTATATGAATTAATTAAAAAGAATAATGGATTATCACTTAATACTTGCATACATAATTTAACTAAGTCATAAAGATTTTCTTCAAATCTCCATACTTCTTTATTAGCTCCTCTACCAAATGAAGGAGGATCCATTATAATAGCATCGTATTTATTTCCTCTTCTTATTTCTCTTTCAACAAACTTAATTACATCATCTACTATAAATCTAACATATTTATCTTCTAAACCAGATGATTTAATATTTTCTTTAGCTACATCTATCATACCTTTTGAAGCATCAACGTGTACTACATCTGCTCCTGCATAAGCACAAGCAACTGTTGCTCCACCAGTATATGCAAATAAGTTTAATACTTTTATTTTTCTTCCAGAATTTTTTATTTTATCAATCATAAACTTCCAGTTATAAGCTTGTTCTGGAAAAAGGCCTGTATGTTTAAAACCCATTAATTTAAGATTAAATGTTAAATCCTTACAATGTATTTGCCATTCATCTTTTATATTAGTTTTCTTTTCCCAAGCTCCTCCACCAGTATTACTTCTATGGTATACAGCATCTGCTTTATCCCATAGTTCTGGAAATGATTCATCACTCCATATTACTTGTGGATCAGGTCTTCTAAGGATTACTCCATTCCAACTTTCTAATTTTTCTCCGTGAGCCATATCTAATATTTTATATTCATCAAAATCATTAAATATTTTTAAATTACTCATTTATATCACCTAACCTTATTATACCATTACTTTACTAATTTAGAAAAAGCATATGGTAAATCTATTTCTATGTTTACTCTTTTATTTGTTCTTGGATCATTAAACTCTAATTTATATGCATGTAATGCCATTCTCTTTAATGGATCTATATTACTTCCATACTTTTTATCTCCAACTATAACATTACCATTTTCTTTTAATTGAACCCTAATTTGATTTTTTCTACCTGTTTTAATATTTACATCTAATAAAGTATATTTATTATTTTCAGATATTACTCTATATTGTGTACAAGCATACTTTCCTTTTGTTTTAATAGTCTCATATACCATATGACCTTCATTCTCATTTAAGTATGAAACTAATGTCTTTTCTTTATCCACAGGAGTACCTTCTACTACAGCAAAGTAACCTCTTTTAATAAACATCTTATCCCAGTTACTTTGAAATAAATTCTTTGCTTTTTGATTCTTAGCAAACATAACTAGTCCTGATGTTTCTCTATCTAATCTATGAATAATAAATACTTTATTATTTTTATTCTTAGTTTTTAAATAAGAGGAAACCATATGATATAAAGTATATTCTTTTTCTTTATCAGTAGATATTATTAATAAACCAGCAGGTTTATTAACTACTATTATATCTTCATCTTCATATATTATTTTAATTTCTTTTTTATAATTATTATCAGTCTTAATTTTAGTATCTCTTATTTCTACTTTATCTCCCTTAAATAATATAAAGTTAAACTTAGTTTGAACTTTTCCATTAACTAATACCATTTCTTTAGCTAATAAAGACTTTAAATTATTTTTAGATTTACTAGTTAAATTATTTCTTAAAAAAGATAATAGTTCTTCTTTTTCTAAAACTATAAACTCCCTTTTCATTTAAATCACCGCCTATATTATATATAATAAAAAAGAATTATTCAAATTCTTTTTTATCAACTTTTCTAAGTACTCTAGCAGAACCATTAAATAAGTATTCAGTTTTTTCTTCTACTTCAGCAGAATCAAACTTTGGATCCCAATATGGAAAAGACATCATTTTTGTAACAGATAAACTTAATCCTTCTTGTGGTATTAATTCTGCACTTGTTTTAAAAATATTTCCTAATAGATTTAATTCAAATAAATCAGAATCAGGATATACACTAGCCCAATACTTAATATGTTCTTTATCAGAAACTGATAAAGAATTAAGTCTACTAGGATAAAAATCATAGTTTTGTCTTCTTACTTCTTCTAGTGCTCTTTCAATTATTGATTTTTGAGTATCATCTATTATTCTTCTACATCCTTTAAGAAGAGAAGAAAGTCTATTTATTACAGCTAATAACTCTTTATAATCAATATTTTTTTTACTTGCTTTATCTAATATATCATTAACATCACACATAGTATAATCAATCAAATCTGTTACAGGTCTAACTATACTTGTACCATTAATTTTAACTCCTGTAGCTACTCCAGCAACATCTATTTGTTTAGGTGCATTAAAATTTGGTCCTACTTGTATTGTATTACCTGGTTTCCAAATATCATCAAATGAATCATGATATCTAAAATGATACATCTTTCCATTGAATATTAACATAAACCCTCCTGAAGTTAAATTTCTTCATAAATTTCTACATTTATTATATCACATATATCTATTATTTCTTTATTATCAAATATTATACGTTTATTTATTTCATCTATTTTCTTAATAAGACCTACTTTATAAAGATATTTTCCTCCATCTTTATATTTATCTTTTTTAAAATATTTAACTCTTACTTTAAAGGATAAATTACTTCTAATAGTATTAAGAATTTCATCTAAAGATTCCTTCTTATCTTCTACTATTTCTATTTTATTATCTACATATCTACCTTGTTCTTTAATATCATCTTCATAACCATGAAGAGATTTAAATGAAGCAAACTGACCTGCTCTCGCAGACATTGGTCTTTTTGGATGCGTAGACTCAGGTCTACTTAAATTAATAATATCATCATATCTACTCACCTTTATGACCTCCTACTTCACCGTTTCTTCTTTTAGCAGTACTCTTTTTATCTAAACTGGTCCCTTTAAGTATAGAGTTCTTACCATATTTATTTTGTATCTTAATTATTGCTTCTTGAACTTCTTTTTCTCTTATTTCTTCTTTTTCATCTTTTACTACTTCTGTTTCAGTAGTAAATAAATCTAGTTGCTTCATAACTAAGTCTTTTTTAGAGTCATCATCAAATATTAAATCATTTACTCCAACAGTTATCTTTCTAATATATAATTCTTCATTAACTATATCATCATATAGTTTAGAAATTGTATCAGTTATTATTTTAGTAGATGAAGTATAATGATCTAAATTACTAACACCATGAGAATACTTTGGAACTCTTCTTCCATAATGATCTATTATTACTTCACCTTTATATGTATCATTTTCCATATTTTTAATATCATAATTAATTGTTAATGCTATTTGATTAGTTAATTGATGATTTCTAACCATATCTAATATTAGTCCATCCATCATTTCTTTAGTTATTAATTTGGCATCTTTAGCATTATATGGAACATGAAGTACTTGTCCTGTTGATAAACTAGATGTACTAGGTCTATAACTCTTAGCATCCTTCATACTACATGGTTCATATCCCCATGCATGATCTATTAAAAACTCTGCGCCTACTCCAAATAATTTAAATAGTAGATTTTCATTTTCTAGGGACATTCTAGCAACATCACCCATGGTATACATTTTATTAGCAATTAACTTTTTAGCAGTTCCTCTTCCAACCATCCAAAAGTCTGTTAGAGGTTCATGTTCCCATAGAGTTTCTTTATATTTTTGTTCATCAAGGTAAGCAAGTCTAACACCATATTCATTAGCTTCCATATGTTTAGCAGATATATCCATAGCAATCTTAGCTAAATACATATTAGTTCCTATACCTGCGGTAGCAGTAATCCCAGTAGTATTATAAACATCCATAATCATCTTAGTAACTAATTCTTCTGGAGTTAAATGATATAATTTTAAATAAGTAGTTATATCACAAAATACTTCATCTATTGAATAAACTAATATATCATCTTTAGAAATATATTTTTGATATATGTTATATATATCTGTACTATACTTCATATATAATCTAAGTCTAGGCGTTGCCGTAATATAATCTAATTCTAGACTTTTATCCTTCTGAAGGTCTGAATTTATATAAGACTTATTTTTAAATGGTCTATAGTTATTATTCTTTTTTCTTTCTTTATTTACTTCTTTTACTTTAGCTACTACTTCATATAGTCTAGCTCTACCACTTAAACCATATTGTTTTAATGTAGGAGATATAGCTAAACAAACTGTTTTATCTGTTCTTGATTTATCTGCTACAACTAAATTAGTATCTAGAGGATTTAATCCTCTTTCAACACATTCTACGGATGCATAAAATGACTTTAAATCTATACACATATAAATTCTATCCATATTATCACATCCCTTAAGTACATTTTAACACACAAACACTTGTTTGTATATAAAAAGAGAAGAATTAATTCTTCTCTTTTCTTTGATATACATTATCAGTTACCCAATTTTGAAATTTAAATTTATTTTGATATCTTTCTTTATCTTCATCTTTTTCAGCATCTAAGTATTTAACTATTTTACCTTTATTAAAAATAATTACACTTGGAGCATACTTAATCTTTCTTTTTAAAGATGATTTTTTAAACTCTTTATATGGTATTTGAAGTATTTGCATATTTAATTTTTTTGATGCTTCATCAAATACACTATCACATGGAACACTAAATGAACAAAAATCATTATATACAAATAATATAAATGATTCTTCATATTCTAACATATCTTCTAGTTCTTTAACTGATACATCAGTTAAACCTTTATCATTATAATATTCATTTTCTAAATTAAACCTTCTATGTTTACTCTTAAGTGTATTAAATACAACCACTGAAGCTAAACCTATTAGTGCTAATATTAAAAAATAAACTAATATCTTTTTTCTACCCATCTATCTTACTCAAACTATCAAAATCTATTTCATGATAGTTAACCTTCCAAAAATTATATTTAGTGATTCCATTCTTTGTTTCTTTTACATCGATATTATATTTACCATCATAATACCAATATCCACCTACATTATAAATCTTATCTTCATCCCAACCTAGATCTATTAATAAGTTCTTCATCATACCAGCGTATCCACCGCCACCACACATAATAAATATGTTTTTATCTTTTGGAAAATAGTATTCTAATATTTCTAAAGATTCTTCATAATTTGGTTCATAATTCCCTTTATCATTTTTACTAAATAAAGTATCTCCTATATAAGTATCTCCTACTTCTTTAGGTAAATTATTAACAGGCATAATATATGGAAGTGATATTACTTCAAAGCCTTTAACAAATCCAGACAATTTAGAATCTCCTCCAATAGCTTCATAATTACCAGGATCATCTAACATTCTTACATCTCTATATACAGAATCTTTTCTAAATAAATATTTATCTATTGTTTCTTCATTAATGTTTTTATCAATTCCAAGTTCTCCTCTTTGACCAGTTGTTACTTCAGGTTTAGGTAAACTTGGTCTAAATACTATCTTTATTCCCAATATAAATATAAGTACTAATGCCACACATATAGCACCATATATTATTTTCTTTTTCATTATTATCACCTTAATACAATTATAACATAAAAAAGATTCAAATGAATCTTTTAATTAAGTGTACATTCTAAGTTTTCAATTAGAGTACATGTATCTCCATCTTGAGTATAACCCTCAGGACATACTTTTTCTTTTACTCTATTTATTTTCTTAACACAACATATTTCAGAATATGCATCAATTGAAGGTAAATATCTACTCTTAACTGGATATGAAACTTCTGTATCACCAAATGGATATCCATCTGAACATTGTCTTGCACAATCTAATTCAGCTATATGAGCAGTATCTATACAATATCCTTTATATTCTGTTCCTTTACATACTTCTTTTTCTTCAACATTAACAGTAGTTGTTCTAGTACATTTAAGCGGATCTTCTTCTGATTGAATACAATTTTCAGGACAAGTATATTCTAACCATTTAGCTTTTAATGTAATATCTTTTTCTACTACAGATTCTGCATTTAAAAGATTACCTTTATCATCTAACCATCCACCAAATACTTTATTACCATTTGGTTCTTGTGGAGTCATAAATATATATTTACTACCCTTTATTAAGTTAATAGAATCTATTTTTTCATCTGTTCCTGTATCAAATGAAACAGTACAAGTTTGTTCTTTTGTTCCACCTGTTCCTGGTTTCCACCAATATGCATAATATGTTGTATCTTCCATAACTTTAGTACCTACAATAGCAACATATTCATTTTTATCTACCCAATATAAGAATTTCCAATTACTATAATTATTTGGTTTAACTGGAACAATTAATCCAGATCCCTTTGGAATAATTATGTCTGCTATTTTTTCATCTGTTCCTGTTTCAAACTTTAATGTAACTGTTTCTTCTTCAGGATTTCTATATACTGGTTCCCATTCATCATCGTCTTCTAGAGTTATACCTGCTCTAACTGCTTCATTATTTTTATTAATCCATGTAACTAATGTCTTACCTTCTGGTGCTTCTACTTCAGGCATTTCTTTAACTACATTATCTTCAATAACTATTCCTTTAATAAGTTTTCCTCCACCAGTTTTAATAGTTACTTCATATTTAGGTTTAAATATAAATAAGAAAAAGAATAATGTAGCTAGTGCTAATAAAACTGCTATTATAATTCCACCAATAATAAGAATCTTTTTCTTACTTTTTTTCTCCTTTTTAATTTTTTCGTTCTTTTCAGTCATAGCTTCATCAACTATTTTTTTGACTTCTTCCCTTTCAGTATCTTTCATAAATACCTCCTATTCTAATTTTATTATAACATAACATAAAAAAATACATAGTTTTTTAAACTATGTATTTGTAAAAATGTAAACTATTTAAAAATATTTTTAATCTTATCTATTTTGTTTTCTGCATTTTCTTTTGTTTCAATTATATCTTTAATAGGTTTAATAGTATCATTTACTTTCTTATAGAATCTATAACCAGTTATAAATACAATAGATAAAAGTAATATAACAGCACCTACTTTAATAAATGCTATAGTTTTTCTAATCTTTTCTTTTCTTTCTAATTTTTCTAATCTTTTTTCTAATTCAAACACTTTTTCTTCCATATTACCTCTATCCTATTAAATCTAGATTTCCATTAATAATAATTGGATCAAATCCTTCTATTTCGTCATATAACATTCCATCAGGTATATCATTATATAAATAAATCTTTTTACCTAATCTAAATGCATCATACATTTCTAGGAATGTAGCTCCTCCAATATAATTTTTAAATACTTGTCCATCTTTTTCTTTATCAAAATTAAGAACTAATACTGCATCCATATTGGAAATAACTTCTTCACTTTGTTTATACATTCTTGCTTTAAACTCTTGCTGGGCTTTTCTGCCTTGTTCCCATGCTTTAGCTTCCGCAGTAGGATCATCATAACAATTAGGTAAAAATATTTCTATATTTTTACTTTCCAAATAAGACTTAACCTCTTCAATTTTTTGATAAAACTTTTTACTACATATAACTAATATCCTCATAATCTATTCCTTTTCTACTTTTATTTGATATAAAACTTTTGGTTTAGAATATTCTTCTTCGTCTCTTAACATACTTGTTTCTTTAGCTTCTACTTTACCAATAATACCAAAATATCTATTAACGTCTTCTAATGTAAAGAATCTTTTTGTATAACCACCAGTACCATCATTATCATCCGTTAGATAATAGTTTTCTTCTAACATCTTTCCTTGACCAGCACCAAAGTTATAATCATTTACAGTAGCTACTCTAGCAAGAAGTATTCCACCATCTTTTAGTATTCTTTTTATTTCATTCATTATTTTGATTGTTGTTTCATTATCAAAATAATGAAGGCATAAATCTGCAATAACAAGTGAATATTTATTGTCTTCTATTGGAAATGTATTTCTCATATCTAAGTATATAGTTTTAGTATTTGGAATATACTTTTCAATATTTGCTAATGCTTCTTTTGAAAAATCACAAGATAATACATTATAACCTCTTTCAGAAAGATATAAAGTATTAGCACCATTCCCACATCCTAAATCTAGTATTTCACTATCTTTATTCTTTTCAAGAATATCTTTATATTCATCTAACCATAAATCATATACAGGTAAGCTACTTCTTTTCTTAGCCCAGCTATCCCACATTCCTACATAACCATCATTCATATTATTTCCTCTTTAAACCTCTTAAAAATTCTTTTTGTTCATTTGTAATTCTATAGCTTTCAATTGCTTTTTGAATAGTTTTATTATGTGTCCAAGTATCCAATTTCTTTTCTTCTATATATTTAATAGTACTATCATATTGTTTAGCAAGTGCAGTAGCAAAGAACCATGCTATCATCATATTAACATAATACTCGTTAGATCTAATCTTAGATACCCACTCTAAATACTCTTCCTTGAAATTATCATCTAAATAACTTCTCATAAGCATACCTATACCAAATCTAATAGTATAAGTTTCTTTTGATTTAATCCATTTCTTTATTTCGTTTATTAATTTATCAGTATTCTTTAAAAATGATTTTGGAGTACTTTGATCACAAGTTGCCCAGTTATCAATATATGGTAAAAACTTTTTTACATAGTCTAAACATTCATCATAGTCTTTTATTTCTCCAATTATAAATGCATGTAATTGATTCTCATCAAAGTACTTGTGAGGTAAATCATTTAAAAACTCTTTATAGTTATTACTCTTATATAATTCTTTAGCCATTTTTCTTAGTTCTGGAGATCTAACACCAATAATAGTATCAGGATTAATATTAGTAATAGTTTTTACTTGTATCTCTCTATACTTCTTATCTTGTAATTTAAATAATTCATTTTGTATATTCATCTTTTAATCTCCTTGACAACTCCACTATTTTTTCATCTTTATTATATTTAATTAATGACTCAAAATATGGAATTAATTCTTCTATATCTTCAGCAGAATAATCATTTAAATTATCTTCTAAACATAATAGTAATCTATATATACTTATATCTTCTTCTGATTCTAATACATCCTCTACTAATTCTACTCCAGCTTCTACTACTGTTTTCTCTAATAATCCATATTTATCTGTAAACTCATCTATTACTTCTATCTTATTAATTTCATCATTATAGAATAATACACTAGACATCATAAGAGCATCATATGGAAAACCATATTCATGTTCTATATAATCTTTATTATGATATGTACATATTCCTTCATATGCTAATCCATCTTTTGTATATAACTTAATACATTTATTATCATACTTATTTAGTTTCATACATATCACCTATAACAATTATATCATAAAAAAAGACTAGATTTATCTAGTCTTTTTATTACTTATTGAATAGAATCCAAAACCAAATAAAGCAATAATACTTACTACTAATATTCCCATATAAATTAGAACATTATCACCAGTTTTTGGATTAGTAGTAACACTTCCAGTTAACATATATGTACTTAAATGAGGAATAGTACCTACTAAATAATCACCTTCTACAGTTAAATTAATAACTTCACCTGTAGTAAAATCATTCTTTAAATATACTAATTTAAATGTATTGTATGCTTTCATATCATCAGTGATTTTGATTTTAATTTTAAATGGTCCTTCATGAAGTGATGTTGTATCTCCAGTAACAGCATTGTCTTCATATACTTCTATTTCATATAATTTTAATAATGTTCCTGTTGGTTTAGCTAAACTATTTAATAAATCCATCATTTGATTATATGTTTCGTCAGTTAATTCAGGATCCATTGCCATTATTTCTTCTTTACTTAATGAAAGAATATCAAATAAAGTAAATTTATAAGTATGTCCTTCTTCATCAGTAAATGAAATAGAATTACCAGCATCATCAGTTACTGTATAATCTTTTAAATTATTATCATCTATCCATCTAGCATATAAAGTGAAGTCTCCTTGTACAGGTCCTTCAAAATCAAATGAATAGTTTAATTCAGGATCAATATACCAACCACCAAATGTATATCCTTCTTTAGTTGGTTCTATTGGTCTTTCTAATATACCATCATGTTCTACCACTGCTGCAGCTACAGCACTTCCACCATTTGAATCAAATTCTACAGTATGCATAACTGGAGTTTGAGCACCTGCTTTTGTAGCTATTGCATAGTTAGAGAAACTATTAGTAGTAAATGAAATAGTATTATCATTTGCATTATAATCAGTTTCTATTATTTCATAACCAGTTATAGTATTACCATTATGAGTTTCATGAATTAATACTATTTCCTTATCTGTCATATCTTCATTTAATTCTAAAGATATTGATGCATCATTAACAATATTATCTACTTGTGTATCCCAAGCCTCCATATTACCATTAGCATCTGTTTTACCACCTTTATAAATAGTATTAAATAATGACATATCTATATAACTATTTATTTCATATCCACTTTCTTCAGCCTTACTAACAAAGTCTGCTTCTCTTGAAGGAGACATACTTGCTATATCTGAAACTTCTAATTTAGCAGTACCATTTCTAAATGAATTATCATTAGCTAAATTTAGATTAATATTACCATCTCTAACACTTGTAGCAGAAGTATTTAATTCATTTCCTACTTCTGAGAAATTAGCACCTAAATGCCAGTTTCCACCACCAATAGTAAATGTATATACTCCAGGTTCATTACCTGGTTCAAAAGGAGCACCATTAAGAGTTAATGCTATTAATTGATATCCTGCATCAGGTATTAATTTAAGTGTTAATACTGTCCCTGATGGGAAAGCAGCTTCTCCATATGGATCATGTTCATACCAATTAAATACTCCACCTGCATTATTTACAGCTTCAACTGAATTATAAGTTACATTATTAAATTCAGCACTAACAAATTCTAATCTACCATGAAGTATTTTATCATCATCAGAATACTGATTAGTATTTTCATCATAAGTCCATCCAAAGTTACCCATTATTTTTTCTTCAGCAGATTGTTTTCTACCTTCAGCAACTATATCATATCTAGTACTATATGGTACAGTTACATCAAATGCTATTCCTCCATTTTCAAAAGCAGCTTCTAATTCTTCTTTAGAATCAGGAGTTTCAAATGGATCTCCATTAATTAATAATGATGTAATAACATCATCCCATTGTGTTCTAATATGGAATGTAACATTTCCAGATCCATCATAATCGTATTCCATATCATAATCTTCTTTAGTTATTAAACCAGTTATTTGATTATTTTGCTCAGTAAATACTACTTCATCTTTTGAAAATCTTTTCATTAATGCATTATTTACTGCAAACGAAAAATCTGAAGCATCATCTGACCAATCATTATTATATTCTAATTCTTCACCAGATAAACTTAACGTTACTTTACTAGTTACTTTAGTACTTGGGTCAGGTGTTCCTTGTTTATCAGTAAATTCAACATTCATTAATTTAACATTTTTAACTGATGAAGCAACAATATAACCTATATCACCTGCTATACCAGTAGATGATAAATCTGGAACATTATTACCATCTAAAGTTAATTCTATACCAGCATAATCAATATCATAATCATCACCAGGAACAATCTTAATCATAAAATTAGTTCCAGTTGTTGTAATACTTGTTTCAGTTAGATTTCCAGTTACTTCTATCCAATTATCACCATCATCTAAACTGTATTCCACCTTTCCTTTTCCCAAACTTTCAGTTCTAAAAGATACTGTTAGTTTTTCTGTTCCTGCAACTGCAAAAACTTTTGCTATTGGTAAAATAACACTAATCATCAATGCTACTACCATAACTATAGCTAATATTCTTTTTTTCATATTAACACTCCTCTATTATCTTCATTATAACATAATAAATAAAAAAGATGCTATTAAACATCTTTTTTATTTACATTATTATTTTTTTTATTCTTATTCTTCTTAGTTAATACATTTGATTTAGTTGAATTATAGCTAGTTGAATCATAAAAAGTTGGAAATTCTTTTTATTCCATTTTTAAATAATATAGTTCATCGTCTTCTGAAAATTTCATATTTATCTCCTTCGTATTATAAAAAATCTTCTCTTATTTTTATCCATATATTTCCAAGATGATTATTACCCTGATTATTATTATCAATTCCCCAATCTGTATCTTCATCTATACAGCATTCAGCTATTATTAAATCTTTAGTATTTAATAATACTTCTTTTACTCTAGGATTTTGATTAACTTTTAATCTTAATACTTCTTCCATCTTTTCATACTTAATATTTGACCAATTATTTGGACGATATTCTTTATTTTCATGAGCGATATTTCTTGCATCATCTGGTGACAATGCCTTTCTTATTTTATCTGCTATATCTTTATTAGTATCTATAAACTTTAAATATTGAAAAGCATGTTCACTAGTAGGAAAATATAAACCATTCATAATTAATCCAAATGGTGAAAAATTATCTAATGGAAATACTTCTATTTGATAATTAGCTATATCATACTTTTTCTCATTCATTTCTTTATCAAATAATTTAATCATAGTTGTTCCTTTCTATAAGATTATTTATTTAATTTTTCCTTAATTACATTTATTTTATTTTCATAAGCTATTTCTTCAATAGCATTATAACCTTCAAAATAATCTAAGAATTCAAAATTAAAATGCATCCATTCACTAATACCTTCAAAATATTTAATTACTCCATTTATTTCTTCTTCATTATCTTCCTTTGAAGAACCACCTGTCATAATTAAATATAAATTTTTACCATTTAATAAATCATGTTGATAAAATGGATTTAATCTATCTAATAAATTTTTAAATATTGCATTTATATTACTCATATACATTGGAGATGCTATAACTATATCATTAGCATTAATTATTTCATCATATAAATAATTAGTTATAAAATCATCTAAAACACAATGCTTTTCAAGATTTTCATGACAAGCACCGCACCCTAAACAAAACATCATATCTTTACCAGATAAAGATATTAATTTATCATTACTAGTTTTAATATCATTTAATATTTTAAAACAATTTTTTTCTCTATTAGAACAATTAATTAATAACATACTATATCTTCCTTTCTAAAATACATACTGTTTCAACATGAGTTGTATCAGTATCAGTGCTAAGTACTTTAACCGTGTTTACATATCAAGAATAATACCTGGATATGAAACTATCCTAGTTGTATGCGTATTAGTACTAAGCCAATTTATAATTCATATCAGTTGTTGTTCAATGTAGTTTTTATTCCATCCTCCATATTTATTTTTGTAGGAATTATATATTTAGCATCTACTTGATGTGAAATATAATTTGTGATTACTTTCATTGCTCTTGAGCCATCAAACCAACTTGGATTATCACTATTATTTCTAATTTTTTCTAACGAAGTAACCAAAGCATCTTTATCATATTTATCACTCATCTCTATAGTAATCATTTTCTCTTGATTATCATCTTCATAAATTGTATTATCTAACAATTCGTATCCCGCATTATTGTACCAGTAAAAATGATCACCACCTGCAAGTATTAAAACATCAGCCTTTACATTGATATCCGTTATTAGTTCACTAACATATTCATATACATCATCAAATGTACACATTGGAATATCATCTTTTAAACTTTCAAATTTATTTGTAACATCAACGACACCAAAATTATATAATTTTTTATCTATTATCTTCTTATTATTAACAAAAATAAGTTCTATAGATCCACCACCACCGATGAATACACAAATATTACTATCATAATCAACATTAGAATAACAACCAAGGGCTGTATAATATGCTTCATCTTCTTGAGAAACTACTTCAATTTTCAAATTACATGCAGTAAAAATCTTATTATTAACTTCTTCTAATTCTTCAGAAGTTATATTTCTAAATATACTGCAACCATATACATGAACATTTTTGGTAAATGTTAATGCTTTTTTTATGATATTAATAAGCATGTTTATATCATTATCTCTAATTCTATTATTATCTTTATAATTTGATTTGAGTTTTATAGTTGTATTATCTTCATATATAATCTTTCCTTGCTCATAAACATGGGTTTTAGTGTTATAACTACCAATTTCAATAATTGCAAATCTTTTTTGCATTTTTATTATTCCCTTCTTTCTAAAATACATACTGTTTCTATATGCCTAGTATGCAGATAACGAACATGTCATTCTCATCGTTATGGAGATAAAGAACATATCATAACATCTTAATCTTTTGTAATTGTGTTATAAAACATACTCCATTTGTATATCATATGGTTCTTTTTCTGCTAATACTCTGTTGATTTCTGTTGCCTCTATACAACCTAATCTTCTATAAGCTGCTTGGCTTTCTTTAGAAGAATGTGCTGAAATATATAACTTCTTTGAACCAATCTCTTTTGCTTTTTTACAAGCCAACTTAAAAAGTTCTTTTCCAATACCACGATTTCGATATGGTTCTGACACTTGATATAAAAGTAACTCTATATATTGATTACTGCTTCCAAAAAACTCATTAGATACTAAAATAAATCCAACAACTTTTTCTTCACAGAACGCACCATATGCAAAAGCTTTTTCTGAAATTTTATGCAGAATTTCTCGTGCTATTTCTCTTCGTTTATTTAAGTCCCAATCTTCCACATACTCGTTTGTTACTAAGACATACTCATTATTACTATTTTTTTCTCCAACACTCTTTTACCTCTTGGTATCTTAAAAAATCATCTAATGAATCTTCATTAAAATTTTTTTCTGTTAATAATAAATAAGTTATTTTCTTCACATTAATACCTCTCTAATAAACACACACATTCTACATG
>sequence07
CTTCTGGTTCATTAAAAGGTATTGAAAGAGTTAGAACATTCTGTCAAAATGATTCTCATATATTCTGTACTCCAGATCAAATTGAATCTGAATTTAAAGATGTAGTAGATTTAATACTTGAAGTTTATAAAGAAATGAATATTACTGATTATAGATTTGAATTAGCTTTAAGAGATCCAAAAGATAAAGTTAAATATCATCAAGATGATGAAATGTGGAATTTAGCAGAGGATAGACTTAGAAAAGTATTAGATGATATTGGTATTCCTTATGAAGAAAAAATAGGGGATGCAGCATTCTATGGGCCTAAATTAGATGTACAAGTTAAACCTGCTGTAGGTAATGAATTCTCTTTATCAACTTGCCAATTAGATTTCTGTTTACCAGCTAAATTTAATTTAACTTATATTGATAAAGATGGTTCTAAGAAGACTCCAGTAGTTCTTCATAGAGCAGTATTTGGTTCAATTGATAGAACTATTGCATATTACTTAGAACAAACTAAAGGAATACTTCCTTTATGGCTTTCTCCAGTACAAGTAAATATAGTTCCTGTTAATATGGAATATCATGAAGTATATGCTAAAGAAGTATATAATGAATTATTAAATAATGGTGTAAGATGTAAAGTTGATTTAAGAGATGAAAAGATGAATTATAAATTAAGAGAATCTATTATTCATAAATATCCTATTACTTTAATCCTTGGAGATAAAGAAAAAGATAATGAAAATATCTCTTATAGAAGATATGGTTCTGAAGAGACAATTACTGCCTCTAAAGAGGACTTTATAAAACTACTTTTAAATGAAATAAATAGCAAAAAAGTACTTTAAAAAGTACTTTTTTTATGTTATACTTTTATTATAGTGTAATAGTATAGGAAGGTAGGGTATATATGAATAATAAATCAAATAAAAACAAAAGAAGTTTTGTTAAATCTATAATCCCAGCATTATCTATAATAATGATAATAACTGCTATTTTATTAGTAGTTTATACATTAGATAGTAAGAAATTTAATAAAGGAAGAGTAGTCTATGATTCAGACTATACGATGCATGTAATGTATCTAGTTATGGATAAAGCGGAGGTCCCTAAAGATATTACTATAGATAAGACATTTGATCCTGCCTATAGCGAGTTCCCAATAGGCATTTTATCAACTTCTAGTTCTATTGTTCCTTTAACTAAAAAAGGTGATTATTTATATGTAGATCTTGATAAATTTACTAATCCAGAACTTTTAAAAAATGAAACTGATTACATATTTACTAAAACAAATATTAATGGTGAAGTTATTGATGGATGTGAATATGATAAAAAAGAAAATGTAATAAAAGTCCCTGCATCATATTTTGAAGAGAACAAAACAATTCCTATACAGATGGAACTTCAAACATTAATGGATTATTCAGTTTATGAAAATCTTGAAACAAAAGTTAATGTTAAAAAATTTATTACTAATAAAGTTAAAGCAAAGAATAATGCATTGGCATTTCAAACAAGTGTTTATTTAGGTAAAAACGGACCTGGAGAACTCCAAAATAAAAATGTGCATGTGTATGTTAATAATTCTAAAATAGAATTAGAAGACGATAGATATGAAATCAATAATAATACACTTACTGTATTTTTACCACCACTTCAAATAAGTGAACTTGATGTAAAAGTAGATTATACGTTAAGTAGTGCAAAAGCAGTAGCATGTTTAAATAATTCACAAAAAGATTGTGATGATTCACAACAAGGATTTAATGATAATTGGAGAGGTATTAAAGTTTCTCAACCAATTGATTATACTTCATGGGGTAAGAGTTCATTACCTGTTGTTGAAGAATATCCAAGACAAAATAATCCAAAAGCGGAAGAAAGTAATCCACCACAAAGATGGACTAAAATCATCACTTTAAGTACAGGATATGGTAATCCTGGTGATCAATATGATGTTGTTTATTGTAGTAATACAAAGAGTGCTTCTGGGTGTATTGATTCATATAATAATGAAATAGTATTTCCTGCTACAGCTGCAAACTGGGCATATACTTATGTTCCTTATGTAACTGATAATTGGCCAAGTGATACTCCATCTGGAACAATATATAACGTATATAATTATAGTGTTAATTCTAATAATAAAATTAATTCATATTTAGAAACACTTTATACCTATAAAATAAAATTAACATCTTTATTGGACGGTATTCAATCAGGTTTAAGTACTGATGGTACATTTGATCCTGTCCATGAAGGATATAATACTTCTTGGCTTGCATTCTATTGTACACATCATAGTACTAGTTATGATTATGGAAATGTTTCAGAAACAAATCCTATGAGAATGGCCGTTATGGTTATGCAAGAATCTACAAATTCAATAATTGTAAAATTTCAATCAATAAATACATATGATTCTCAAGCTGCAGGAGCTTACATGAGATTCTATTGGGATCAAGCTCAAGTAAATGCTGGATTAAGAGTTAAGAAAACTGATAATTCAAGTCCAACTGGACTTCCAATTAAAGGTGTAAGAATAACAATTCAAAATAGAGCAGATTCATCTGATATTCATACTGATACAACTGGTGCAGATGGTATTGTGACATTCTCTGGTTTACCTCTTGGTGCTAAATATAATATATACGAAGATTGTTCAAACTATTCTATAACTTATCCGGGAAATAGTTCTGATCCAGAAGATACAGGAACGTTTGCTAGTTTAGGTTTGAGTTGTGATTATCCATCAACATCACCATATACAAATAATGGTAATGGTGTTGCAGCAGTAGAAGATTATACTTCTGGATCAACTGGATTATACTCAATATCTAATGCTAGAAAACCATATGGCTTAAGAATCAAGAAAACTGATGATTCAGCAACACCTATACCAATTAAAGGATTGCAAATTACAATAAAAAATAAAACTACAGGTGCTACTATTACAAAAACTACAAATGATGCTGGTATTGCAACATTTGATAATTTACCTGTAGGATCTAAATATACAGTAACTGAAAATTGTAGTTCAACAATTTCATATAATGGACATAATAATACAACATTAGATGCAGAAGATATTGCTTGTTCATATGATTCATCTAATCCATATGCTGGAACTGATGGAACTGGTGTTGCAGCAGTAGAGAATTATACTTCTGGATCAACTGGTTTATATGAAATAAGTAATGCAAAATATAGACACTGTGCATATGTTAAGAAGGTTAAAGGTCCAAATAAAAAAGTAGAGCCTAATGCTAGATTCCAATTAATAATACCTGCTAATGTATGTAGAAATTATGCTTCAGGTACAACACTTACTCAAACTACTAATTTAAATGGTATTGCTGAATTTAATGGACTTGGAAACTGTAGTGGTGCAAAATTTGTAAATGCTAAACTAGTAGACCAAGAACATTTAGCTTCATTAATAGGTTCTGATACTCAACAAGTAGAACTTAGACGTACAACAATCTATGTTACTAAGAATTCTGGTATTGATTATAAAGGTAAACATTATGCAAAAAATTCACAAGTTATTATTTCAGATAGAGATTGGAATACATATAAAAATGATGTAGAAGAAATCTGTGTTGGAACTGTATATCCATCATCTAGTAGTTCTGGAGCTACAGAATTTGTAGATAAAGGATATGTTCTATTATGGAATAAAATTAATAAAACACATAGAACTAATGTTAGTGATCGTGGTCCAGCAATGGCTAATATTAAATTTAGTGTTAAAGATAGTCATAATAATACTATAAGAGTATTATCCTCTAAAGCAAATTATACGGATATTGAAAGTGTTACTAAGAATTGTTATACATATACAGATCAAACAGGAAGTGGTACTCAAGATTTTGTTGTTTCAGATGCAAATGGTATGGTTTGTATTTCAAATCTACCAAATGAAGAACAATTTACTATAACTGAAGAAACTACAAGTTTCTATAATAATTCATATATACGTATAAATTCTAGTGAAAAGTTTAGTACATTTACTTCAACTGATTATAATAATAATGAATATGTTATAGATTGGGTTAAGAAAGAATATAATAATGGTAAAACATCTAATAGTGATGGAAGTTTAAAACAAACTACATTTACTGTAGTTGATTCTAGTAATGTAACTATTAAGACTAAACCAAATAAAGAAGAAGTATTAGATACTAATGGTGTTAAAAAGAATTGTTATGTAATAGATATAGATACACCTCTAAATAATACTAATGAATACTTTGTAACTGATAATGATGGTTATGTATGTATTGTTGGAACTAAATCAGGAATGACTTATACTATTACAGAGTCTACACCTCCAACATATTACTCTGCTAGTGATACTAATACTCAAACAACAACTTCTAAGTTAACTTTTATGGATGCAAATACTAAGAGATTTAATAACTGTCCAACAGAAGTAGAAATTTCTAAAACTACTACTGAATACAGTAATGCATCTGCTGAATATAAAGCATTAATTAAAGAAGAATTAAAGAAATTAACATTCAATATTTATGATAGTGAAAATCATTTATTATTCTTTACTTACAATTCAGAATCAAAGCATTATGAATATACAACTGCAATTAATGCATTAACTGGTAATACATATATTGGTGCACCAGAATTAAGATTAAATGATGATTTAAAGATTTTAGTTGATTATTTACCTGAAGGTAGTTATGTATTAAAAGAAGCAAGTTCTGTATCTTGTGCATCTAATGGTGGTGCTGCTAATGGAAGTAATTGTACTTGCTCAAATAATACAACAAGTGGTGGAGGTACTCCAGCTGAAACTGCATGTTCTAATATGGGATATGCTAAGATAGCAGATATTAACTTTAGTGTAACTAAGAATAATCATGGAGGAAGTTCAACATGTAATATGACTGATACTTCAGTTAAGATACCTATTACTAATAAGCCTACAAAAGTAAGCTTTACTAAGAGTGATATGTATGGATACTTTAGTGGTACAGATACTGTTACATTTGAAAATGAAGATGAAATTAAAGCATTTGATAATATTATTTTTAGAGTAAGAAAACAAAGTACTATTAATTCATCTGGAACTACTTCAGAAGCTAATAGTAACTTTGAATGGTTTTATAAAACTGCTAATGGAGAATATAGATATGATGCACTTCATGTATGTACTAGAGAAGGAGATATTGTAGCAGGTTATAGATGTACACAAAACTTATTTACTAATCGTGGTAGTATGACAATTAGACATTTATGTAAATGTGAAACATATTTAATAGAAGAATATGAAGTTCCAGAAGGAACAGTATTCATATTACCAAAAGCTGAAAATAATACATGTGAAGCTGGATATCTAAAAGTAGATAAAGGTGGAAAGATAGAATGCCATCCAATTAAAACTGTTAAGATATGTGATTGTGATGATGATAATCCTGAATCATCTCCACCAGTATTAATTGAAGATAAACCAACTAAACAAGTATTTATAAAGAAAGATTTAAAATATAATACAATTATTACTGATCAAAATACTACATTTGAAGTATTCTTAACTAAAGAAGAAGCAGCAAATGCTGGAAGAAAATGTAATCCTTATGATGCAACATCTAAGGCAAATGACTGTATTCAAATATATTTTGAAAAGAATAAAATATTAGATCCAGATGAAACAGAAAGAGTATATGCTTATAGAATTGCTAAAGATGGAACATCTGCTAATAATAAGACTAAAGAATTACATGTCGATGAAAATACAGGTAAATTAATTCTTAGATATTTACCTTCATATATTTCAAGAGAATATGTATTATATGAAACTAAAGCTCCTAAAGGATATGATTTACCAAAAGGAGAAAAAGCAGTAACAAGATTTACAGTAGTAAATGATACTATTAATGTAGAAATTACTAATGTTCCAAATAAACCTACAAAGGTTATTGTTAGTAAATATGATAAAGCTACTGGTAAATTAATACCTGGATTTAAGTTTAAAGTTTATAAAGTAAATAATTATGATCCTAACTTAAGTGCTATGAAACAATCAATGAGTTCAGCATTAGAGTTTAAGACTATTAGAGATGGTTCTTATGAGTATAGAGAAGTGTTTGATACTGATTTAATTACTACTTGTACTGATAGAGCAGGTTCTCCTTGCAGTAGTATTAGTAGTACTCTAGTAGATAGTGAATTTAGTAGTACTCCTATGGGAGAAAATAATATTACTATTAGAGAAGGTCAAGCATTAATTCAATACTTAGATAGTGATTCATACTATGTAATAGAGGAAGTAGAAGCTCCTGAAGGATATAAACTTCCTGATAAAGAGAGTGAAAGATATACTTTATTCCACATAGATGAAACAGAGGAAACATCTGTTATATCTAGAATTTATAATACTGAGAACTATTTCACATATTATAAATATGATGACTATAATAGATTAATTGATGGTGCTGTATTTAAACTTCAAAAACTTAATAAAGATAAAGTTTATGAAGATGTTCCATTAGAAGAAATAGAATCTGAAGATGCTAAGATATATAAAGTATCTTCTACATCTGATAATTATGAGATGACTACATTAAATGGACAAGCAACCATTTATAGACTTACTGAAGGACAATATAGAGTACTTGAAATAAGTGCTCCAGAAGGATATGAACTTCCTAAGAAAACATATAATGTTGTAACATTCTTTGTAGATAAAAATGGTAGTATTTATGGTTCTAATATAATTGCTAATAAGAAAACTACTGATAGGAAATTTACTGTTCCAACTTCAGAAGCTGAATTAGTAGTTACAATACAAACTGGTCAAGTTGTAATTAAATATGGTCTTATAATAACAGGAATACTTGGACTAATAGGACTTCTAATATTTATTAGAAAAAAGATTAGTAAGTAGGAGGTAATAATATGAAAAAGAATAAAATGAAAATAGCTAAAAAAGATTTAAAAATATTATTATCAATAATAGTCCTAGTTTTCCTTATCTTCTTAATTTTATATGTTAGAAACTTTAGAAATTTTGCTGAGGTAAAACTTGGTACAAATAAAAAGAATATATTTACTATTGCTGATTTAAAGATAGATGATTTAAAATATTCATCTACTGAAAAAGAAGTAATAAAATCACTTGGTAAAGCAAAAAAAGTAGAGGAACTAAGTGCTAATGGTTTCAAATATAAAATACTTAGATATAAGGATTTAAATATTACTTTAAGAGAATATTATGATGATTATATTTTAGTAGGAGTAGAATCTACTTCTAGAAGTTATAAAATGGGAAGAGGTCTTAGAGTAGGTTCTAATATTAATAGAGTATTTAATAAATATAGAATTGATAACAAGTCTGGAAATTATTTATATGGTAATTATAATTATGAAGAAATGATGGATAAGACTATTACTGATAATATTTATATGGGTATTAGAACTAAATCTAAAGTATCATATTATAATATGGATCCAAGATCTAAAGATGATACATTTCCTTTAAATTCAATTTCTAAAATAGAGTTTGAATATAAAAATGGAACTGTAACTAAGATAACTTGGAGTTATGATTATGAATAATAAAAAAGTATAGCTAAGCTATACTTTTTTTATATTAAAAAAAAAGACTTAAAGTCTTAATATTATAAGTGGTGCAGGTGAAGGGATTTGAACCCCCACTCCATAGGAACTAGATCCTAAGTCTAGCGCGTCTGCCAATTTCGCCACACCTGCAAAATAAAAGTGGTGGACCCTGTAGGACTCGAACCTACGACCGCCCGGTTATGAGCCGGATGCTCTAACCAACTGAGCTAAGGGTCCACATGAAAATATTAACACAAATATACTTGTTTTTCAATCTTTTTTTGTAAAAATATGGTAAAATATTTATGTAGGTGTTAGTATGAATAAAATAAAATTTTTAATTAAGGCAATTTTAAAATTAAATTATAAAGAAATGTTTAGAGTTGCTAGAAAAATTTCTACTGAACATGGTAGATTAACATTATTAACTTTCTTTGATATTATATACTGCGGTCTTAGATATGGCGCAGGATATATGGATTATTTAGAGTTTGAATTTTACTTATTAAATGGTAAACAAAGAAAGACTTATTTAACTAGAGCAAAGAATAATGAAATAGTTAGAAAGTATAATAACAAAGAATATAATCATTTCTTAAATAATAAAATTGAATTTAATAATATGTTTAAAGATTATTTAGATAGAGACTTTATTGATTTATCGCATGCTACTAAGAAAGACTTTAAGCAATTCTGTAAAGGTAAAAAATATGTAATTGCTAAGGAAGTAGATAATTGTGGTGGAGAAGGAGTTACAAAAGAATTTGTTCAAGATACTAATAGATTATATGAAAAACTAAAGAAGAATAAACAATATTTAGTTGAAGAAGTATTAGTTCAAAATTCTAAAGTATCTAAGTTATATCCTGATGCAGTTAATACTTTAAGATTATTTACTTTTATGGATGATAATGGTAAAGTACATGTTTTAAATCAAATATTTAAAATAGGTAATAAAGGATTCGTTGATAATTTTGCATCTGGTGGTATGTATACTTTCTTAGATGAAGATGGAGAAGTAATTTGTCCAGCTATTAATAAAAAGGATGAAAGATTTACAGTACATCCAGAAACAAAAGAACAAATAATAGGATTTAAAGTACCTAATTATGATAAAGCAATAGAATTAGTAAAAGAAGCATCTTTACTTATTCCTGAAATAAGATATATTGGATGGGATGTAGCCATTACTGAAAAAGGTGCTTGTTTAATTGAAGGTAATGAATTCCCTGGTGTATTCCAAATTAAACCTAGTTATATGGATGAACCAGAGGGAATACTTCCTAAATATAGCAAATATATGAAGTAGGAGGTATAAAATGGATAAAATTAAAGTATTTAAACCTGAAATAGATCAAATAAAAGATGAAAGATTAAGAAATAATCTTGAGATTATAATTAATAGTCTTCCTGATTATTTCTTTATTATTCCAGCATCATCAACTGGTAAACATCATCCAGCATTTGATTTAGGTGATGGAGGACTTGTTAGACATAGTAAAGTAGCTGTTAGAGTAGGTAGTGAATTACTTAATACTCAAACTTTTGGTGATGAGTTTACTGATAATGAAAAAGACTTATTACTTATATCTATATTGGTTCATGATGGATTAAAAAAAGGTAAAGAGGAAGAGCAATATACAAGATTTGATCATCCTGTATTAATGGCTGAATATATTAAAGAATTAAAGGGAAAGATGACATTAACAGATGAAGAAATTAACTTTATAAGTGATGTTATATCTTCACATATGGGAGAATGGAATACAAATAAATATAGTAAACTTGTATTACCTAAACCTGAAACAAAATATCAAAAGTTTGTACATTTATGTGATTATATTGCTTCTAGAAAATTTCTTAATTTCACATTTGAAGATAACAATCTAATAGATAGAGAGGACTATTAACAATGGAAAATATAAAAAAATCATATTACACTATATTTCCTGCATTATTAATGATATTTGTAGCATTAATTCCATTAATGTCTATATTATCTGATGTAGTCAAATTAACTAGTTTATTATTCTTTATAATAAAAATATTATATGTAGTTGTATTATTCTTATTATTAATAGTAAATGTAGTTTTATTATTTCATTTATTAAAAGAAATAGTAAAGTGTAATGATATATCAAAAGGCAAAAAAACAGTATTATTTATACTTTTAGTATTATTTAGTTTAATTGTTATGCCATATATTTATCATAAATATATTTTAAAGGATATAGTTAAACCAAATTCATTAATAATATATTTTATAGCTATTGTATTCTTAGCATTTGTATTTGCTTTTGGTTATAGAGTTTATAATAAGAAAATAAATGAAGAAATACAAAGACAAAAAGAATTAGAATCTAAAAGAGTAACATATGTAGAAAAGAATAATAAGTTTAGTTTTGATTTTAAAACAAGTTATAAACAAAAAGAAGTTGGAGAATATGATTTATATGTAAAAGATAAAAAAAGAAATATAGTATTTACTACATTTACATATGATACTTCTAGATATGAACAAAAAACTATAGAGGAATATCTTTTAAAAGGTGTAGCTGATATAGAAGCTACTAAAGAAAATACTAAAATATATAAAGAAAAGAAATTAACTGAATTAGAGGATAGAAAAGTATACGAAATAGTATATGAGGGTAAAGCAGAAAAATCAGATCTATGTATTTATAGAATATCTGTTATTCAGTTTAATTCTAATCCTGAATTAATCGAATATGTGGTAACTGTATCTTTAAAAGAGGACTATCCTTCATTAGAAAAAGAAATTAATGAAATAATTAATTCAGTAAAAATTATTCAAAATGAATAAACTCCTAAGGGAGTTTATTTTTTTATGGTTAATAAAATATATGGGAGGTGAAAATATTTAGATTTGTAAAACAATCAAACCTCAAGGATTGTGCATCATCTTGTATATATAATTTAATTAGATATTATAAGGGAAATGTAAATTATAATAATATTACCAAAAAACTAAACATTACAGAGAAAGGATCTTCAATATATAATGTAGTTAAAACCCTAAAACATTATAATTTTACATCTGATGCTTATAAATGTAACTATGATAATTTAATTACTATTAATCATCCGTTTATTGCTTATCTAAAAATAGAAGATTATTATCACTATGTAATTATTAAAAGGATTAAAAACAAAAAAATATATATATTTGATCCTATTAGAGGAGATCTTATATATACTAAAAACCAATTCATTTTAGAGTGGCAAAATATAATAATAGATGTAATTAGTAATAATGATATTGTTAAAGAGAAAAACTCCTATAAAAGGTATTTATATACCCTTATAGGAGACAATAAACTATTATTATCAGTTATATTTATATTTGCAATCTTTTTTACAATTTCTAATCTAACTAGTACATATTTACTTAAATATATTATTGATGAATTAGATTTTAAAAAAGTAATATTTCTTATAATTATATTTGAATCTATAAAAAGAATATTTTCTTATATTTATGGAAGACTTATAATAAAAGCTAATATTAAATTAAATAATAAAATAAGAACTAATATGTATAACAAAATATTTAATCTCCCAAATACAAAAGAGGTTAAAACAATTAATTTTATTTATAGAATAGACGATCTATCGTGTATAAGTGATTTTATTTTTAATTTTCCTGAATTACTTATAGATATATTGTATATTCTTATTATATTTATTTACTTTATTTATATAGGATATCTTTATCCTTATATAATCTTACTATTTATTATAATTATATTAATCTATCACTTATCTATCAGAAAAAGAATAATAAATCTATTTGATAAAGAAAGAAATTATTATTCAAAATTAACTGGAAGTTTAATTGAAAAAATAAATTTATTACCCATTATTAATAAATTAAATGTTAACAAACAAACCATATATACTGAAATAAATAATTATAATGATTATTTATTTCACCATAAAAAATTAAATAATAATATGTTAAATTATAATTTCATCCTTAATATTTTGTTTTTGTTTTTATATATAGTATTACTAATTATCTCGTTTTGGTATAATTCTCTAGATTTAATCTCTCTTGGAGATTTTTATATAAATTATTCATTGATCATAATGCTTACTGCTTCAATAGATAATATATTAAATTATGATAGATTATTTTTATCATCTAAAAATGCTTTTAAAAGAATAGTAGACCTCTATGATTATGATTTTAATGAAGAAGGAAATCATAATAAAAAAATAATATTTAACAAAAGTACTTTTATATATGATAAATATAATTCTTTTAAAGATAAATTAATAAATTTTAATAATAGTATCTTTATTTATAAAGATGAAAATATTCTAAATGAATCTATAGATGATAATATTTCTTTTCAGAGAAATATATCTACAGAAGACCTAAATAAAGTAAAAAGAATATGTTTAATTGATGAAACCTCTAATAAAGAAAAGATAATTTTAGCAAGATCTCTTTTATCTAATAAGAATCTTATATTAGTTAATCTATTTAGTGATATTAATCCTAAAGAAGAAAGAATAATCCTTAAAAATATATTAACTGAATACAACAAAAAGATTATTCTTATTTCAAATAGGAAAGACAACTCTGATTTATTTAAGAATCTTGCTAGAATAAAAGGAGGAAAGTGTGAAAAAGTTAGATATTTGTGAAACTAAGAATATGTATGGTGGTGGATTTAGAATAGGTATAGCTGCTCTTATAGGAGCTGGTATATCATTTGTAATAGGAGCCTTTGATGGTTGGACTAGAATGTTTAGATGCCGCTAACATGACAAAGTTAAGTATTAAAAGCCAAAAAAAATTATATGCTGGAGGAATAAGTGCTACTTTAGTAAGTGCTTTATTAAGAGGCATAAATATATTTACTGATTTAGGAAGATATTTTGGTTCATCAATGAGAAGACTAGCCACTAAAAACATATGTAAGTAATAAAATAAGCTTTTTTAAAGCTTATTTTATTTATTAAAAAATATTTATATGATATACTTTAGTTATAGGAAAGTATGCTTATGAAAAAGGATAGAAATATTGCTATAACTCTTATTTTTTTATTAATGATTACTATAGGTTTACTAGTAATAAATTACTTAAATAATTTGCCTCCAACTATAGTAAAAGTTACTTATGCTAATTTCTATAATGAAGATAGATCAAGAGGAGTAACTCTTAAAATAAAGAGGCATAATACTAAACCAATATATTGTATTTTTAAACATGGTGATGATATATCTGAGAAGGTTTTAGTTAAAAAGAATAAATGCTCTTATAATGTAGTAACAGATAATTATGAAGTTGAGTTAGATTATAATCAAAATAATAAAGTTACATATGATAGAAAGTTTAATATTGATGGAGTTCTAGGAGTTAAATTTAATAATAAGAAACTATATATGGCATTAAATGAAACATTTAATCTAGAAACTAACTTAGATAAAGTAGGAAATGTAGATTATTTAGTTAAATATAATTCTTCAAATGAAGATATTATTTCTATAGATCAAAATGGTAACTTAATAGGTAAAGAAATTGGTACATCTACTATAACAGTTACAGTAGAGGATATAAAAGAAACTTGGGATATTACAGTATCTAATTTAATTAGACCCATGGAATTAAACAATAAAAAGAGTATTGTTCCATGTAATAAGTATACTAATGATCAAATAAATGAATTAGATAGAATACTTGCATCTAGAGTAGAAGTTGCAGGGGTAGGTACTAGAGCAGCTGCTGTAGCAGTATCTAGATTCTTAACATTAGAGTTTCCATATAAAGTACCATACTTTTATGAAAATGGAAGAATATCTACTACCGGAGTAGATGGAGAAGGTAGATATTATAGAAAAGGTCTTTATCTTGGAGTAGATAAACAAAGAGAAATAACTAAAGTAATGGCAGGTCCTGCATCATGGGGATGTCCTTTAACTAATTATGAAGATAATGAATATAGAAAACCAAATGTAAGGTATCCTAATGGTTTAGACTGTTCTGGATATGTATCTTGGATATTAGTTAATTCTGGTCAAGATTTAGGAGACATAGGAGCAGGTTTTTCTCATAAATTTAATTATACTCAAGTTGGAGAATTAAATAAAAATACATATGAACTTCTCCATTCGGGTAAAGTTAGACCAGGCGATTTAATTGGTTGGGATGGTCATATAGCTATGATAGGTGGAATGACAGATACTAAAATATATGTAACAGAAAGTTTACTACCAGGAGTTATTATGGATGAGTATGATTATTCATCTCCAAGTAGTAGTTTCTATAGAAGATATGATCATATAATTGATATGTCTAATGTATATAAAGGTGACGGAAATTTAAGAAACATGTGGTGATAATATGTATATAAAAGGTACATTAAAAAAGTTTATATTTAAATCTAATAATGGCTACGTAGTAGCCCTTTTTAGAGTGAAAGAATCATCAAATGAATTAAATGACTTAGTAAATAGAACTATCACTATAACAGGTTATTTTCATGAATTATCTATAGATGAAAATTATATTATGAATGGCGAATTAGTAGATAATCCAAAATATGGTAAACAATTTAATGTTACTAGTTATGATAGATATATGCCATCTTCAAAAGAAGGTATTATAGAGTTTTTATCTGGTGGTTTATTTAAAGGAGTAGGTGAAAAAACTGCTAAAGGGATAGTAGATACTTTAGGAGATGATACTTTAAAACTAATAGAAGAAGATTATTCTAATTTATTATTAGTACCTGGTTTAAAAGAATCTAAAGCAAAAAGTATACATGAAACTCTTCTAAAATATAATGAAAGTTATAATGTAATAGTTTATTTAAATGAAATAGGATTTAATTCTTCAGATTCACTTAAAATATATAATGAATTTAAAGATAAAACTATGGATATTATTAATGAAAATGTATATTTAATAATAGACTTTATTTCTGATATTAATTTCTTAAAAATAGAGAAAATAAGAAAGAATTTAGGTATAAAAGATGATGATAAAAATAGAATTATATATTTAATAGAATATGTAATTAAAAACTATTTATTTAATACAGGAGACACTTATTTTTATAAAGAAGATATTTATAAAGAAGTAACTAGTTATTTATCATTTGATTTTTCTTTAGATGATTTAGAAATATATTTAGATGAATTAGTTTCTTTAAGTAAAATAATTATTAAAGATAATAAATATTATTTATTTGAATATTATTTTGCAGAAGACAATATATCTAATTTTATTACTTATTTATGTAATAAAACTAATAATATTAAAAAGATAGATAAAGAAATAGAAAATGTAGAAGAGCATTTTAATATTAAATATAATGATATGCAAAAGAAGGCTATTAAAGAGTCTTTAATAACTAACTTTAATATTATATCTGGTGGACCTGGAACAGGTAAAACTACTATTATTAAAGGTATATTAGAGTTATATAAAAGAGTTAATCATTATACTTATCTAGATATGTTAAGTAAAGTAATACTACTTGCTCCAACAGGTAGAGCAGCTAAAAGAATGAGTGAATCTGCAACATTTAAATCATCTACTATTCATAGATTCTTAAAGTGGGATAAAGATAATGATAGATTTATGATAAATGAAGAAAATAAATCTAATATAGAACTAGTTATAATAGATGAGGTATCTATGATAGATACATTACTTTTAAATAACTTATTTTTAGGTTTAAATAGAAATGTAAATATAGTTATGATAGGAGACTATAATCAATTAGAATCTGTTTCTCCAGGTAAAGTATTAAAAGATTTAATAGATTCTGATATGGTTAGTGTTACCTTCTTAAATGAACTATATAGACAAGAAGAAAACTCTTATATCGCAACATTAGCTAAAGAAATAAGAGATAATGATTTATCAGATGATTTTCTTCTTAAAAGAGATGATTATAACTTTATAGAGTGTACTAAAGATAATTTATTAGAGTATACTAAAAAACTAGTATTAAAAGCTATAGAAAAAGGATATAATTCATCTGATATACAAGTACTAGCTCCTATGTATAAAGGAATTAATGGAATAGATAATTTAAATGTTATGTTAGAAAAGATATTTAATCCAGATGATAAACCTAGTATTAGACATTTCGATACTATTTATAAAGTGGATGATAAAGTATTAAAACTAGAAAATGATCCTGATAATAATGTATTTAATGGTGATATTGGTTATATAAGTGATATAGTAGATGATGAAGTACATATTAACTTTGATGGTACTGTAGTAATATATAAATATAAAGATTTATCTACTATTAAACATGCTTATGCTATATCTATACATAAATCACAAGGTAGTGAATTTAATCTAGTTATTATGCCTATTATTAGTTCTTATAAGATTATGTTATATAAGAAATTAATATATACTGGAATAACAAGAGCAAAGCATTCATTAACTTTAATAGGAGAAAAGAATGCATTTATGTATGCTGTAAATAATAACAATTCATATGAAAGAAGAACTGGTTTAAAAGATAAAATAATATCAAGTCAAAATAATGCATAAAAATTTGCATTATTTTTAATTATAGTGTATTATATTTTCACTCAAAGGGGGATATTATGGCTAATAAAAAATATGTAGCAATATCTGTAAAGGACTATAATGAGTTAGAAGCTAATGAGGTTCTTAGTGACATTCCAGAAAAAAGTATAAAAAATAATTCTGGGAGTATATTACTTAAGTGTACTAAAGCAGAAGCAAAATATATGAAAGAATTATTAAAAGAAGATTGTGAACCAGATTTTACACTTGTTTGTGGTAAAATTTCATACTATGTAGAAGAAAACGCTGCTTTAGATATATTAGCATATCAACATGAAATAATGGCTAACGTAGATAAAGCTTATCGTGAATATATGAAATCTTGGCGTAATTATGGTATTGATTCAGAGATAACAATTAATGCCGAAAACGAATATGATAAATTAAGAAAAGCAGCTTCAAAAAAAAATGATGGACTATATTGAAAAAAATCATAGGGGAGACATTTCACCTTATGCGTTTGTAAATTTATATCATCTAGTTAGTTATGAGGGATCATATTATGGTAGTTGTGAGGAAGTTGATATTTGCGATGAATTTAATAAATATAGATCATTTGCAAAAGGAGACATTGATTATAAAGACTTTGTATCAAAATTAGAAGAACTTGGATATATAGATCGTATTCATTCTAAAGTTCCATCTATAAGTGATCCAATTAAGTTTATGAGAGATAGCCTTCAAAGTGGAAGTACATCATATTTTGGATTTGCTATTCCACATACACCTAAAGCTTTAAAAAGAAGAGGAAGAACAAGTAAATAAATACTTGTTTTTTTATTGTAAAAAATAGTCCAATTAAATATTTTATTTGTTTATATATGCTATAATTATTATAGTAGGAGTTGATTAATATGAATATGTTTGTAGGATTAACTATAGCACAAGTAATAACTGTTATTGCTATAACTGTATTACCAAGTATATTCTTATTTTCATTAATAATGTATTCTGATAGAAAATCAAAAGAGCCTAAAACAATGATATTACTAGCATTACTTTCAGGTTTATTTACTATATGTATATCATTATTAATAGATAAATATATTCTTAGATCAAACTTCTTTAATGAATTATTTTCTACTTATAATGTACTTAATTTAACAAGAATATCAATACTTGCTTTAGTAGAGGAATTTGCTAAATTAACTGCTTTATATGTATTTATATCTCATAATAAAGCATATGATGATATATATGATGGATTTGTATATTCATCTATTATAGCTTTATCATTTGCTCTTATAGAGACATTCCTTTATGTAATAAAAGAGGATACTTATACTATGATGTCTTCTTTAGCATTACTAAGAAACTTTACTACAATTCCACTTCATATTACATGTGGTATAGTAATGGGTTATTATGTATCTATTTCTAAATTTTCAAGAAATAAAGAAAAGAAATATACATTATTACTTAAAGGATTATTAATACCAATGATAGTACATACTACATATAATATATTCTTTTCAGTTATATCTGAAACAAATAGTGCTATGATGTATAATTTAATAATTATATCTTTATTTGTACTTAGTATTTATCTAATAGGAATATTATATATAGTTAAAATAAATGATTTAAATAAGATATTTATAAATAATAGAATTTATCCTAAAAAGTTTAGATTTTTAATGAATAAAAGGGAATATATTTTGAAAGGATTAAATAAATGAGACCTGATGCATATTATAAAAACATCTATGAAATAGATTATAAAGAATTAAAAGAAATAGGTATAAAGAATATATTCTTTGATGTAGATAATACTATTATTCCGTATACTTTAGATAAAGTATCTAGTAGAGAAATAGAGTTATTTAATAAATTAAAAAAAGATTTTAATCTAGTTATAGCATCTAATTCTAATAGTAATAGAGTTAATTCTATTATTAATGATTTAGGTATTACTGGTTATACTTCTTGTATGAAACCTTCTAATAAAGTATATAAAAAGATTAAAAAAGAATATAATATAGAAGAATCTATATTTATTGGAGATCAATTTATGACTGATGTATGGGGAGCTCATAAGAATGGTTTTAAAGTTATTCTAGTAGATAGAATTAATAATATAGAACCATTTACTACTAAGTTTTGGAGACTATGTGAACATTTTGTTATAAAAAAACTTAAAAGAAAAAAAGAATTTGAAAAAGGTAATTATTATAAAATAAAAAAATAGGCTAATGCCTATTTTTTATTTATTTCCTTTTTCTAAAGTTCTTTTTTCTCTAGCAGTAACTTTAACTTTAACTCCGTTTACTGTTATTGTTTGAAAGTTTAATTTTTGTATTTTATTACCTTGGTTTTTAGCATGTGATCTACTATTACCAAAATTTGGTTTTTGTAATGTAATTTTAGTTGCCATATATATAATTCCTCCTTCAAAATTTGTCTACAACTAACTATAACATATTGTTTAATTTTAGTCAATTATTTGTTATAATTTAATTAAAGAAAGGGTAGTTTTATATGTTTATACCATTAGGAATAAAAACTGATTATGAAATACTTGGTAGCTTAATAAAACTACCTGTTTTAGTGTCTTATTTAAAAGATAAAAATATTAGGGCAGTAGGTATCTGTGATAATAATTTATCTTATGTAATGGAATTTGTTACTTTGTGTGAAAAAGAAGATATTAAACCAATAGTAGGTCTAGAAGTATCTATTGATGATTTAAAACTTTATTTATATGCTAAAAATTATAATGGTTATAAAGAATTATGTAAGCTTTATAATAATGATATTAGTTTATCAAATATTAATAAATGCAAAGATATATTTGTAATAGTTCCAAATGAATCTATTATTATTTATGATGGAATAAATATAGAAAAATACCATGATGAGGAACTATCTTTTAAAACTGTTAGATGTTTGCAAAAAGATGATGAAAAATATTTAGAGTACTTATATTTAATTAAATCAGGTAAAACTCTAAAAGAGAGTGAATATGAATTAGAAGATAGTTATTTAGAAATAGGGGAAGATAGTCCTATATTTGAAAAAATATATAATGAAGTAGATATAAAGATGGAAAAGAATGATTTACTTCCTAAATATGATTTAGAAGGTAAATATACATCTTTTGATTATTTAAAATCTTTATGTGAAAAGGGTTTAAGTAAAAGATTAGATGGCAAAGTAAGTAAAGAGTATGCTGATAGATTATATTATGAACTTGATGTAATTAAGAAGATGGGATTTGAGGATTATTTCTTAGTAGTTTGGGATTATGTTAAGTTTGCTAAGAAAAATAGTATATTAGTAGGTCCTGGAAGAGGATCTGCAGCAGGTTCTTTAGTATCATATACTCTTGGTATAACAGATATAGATCCTTTAAAATACAATTTATACTTTGAAAGATTCTTAAATCCTGATAGAGTAACTATGCCAGATATTGATGTAGACTTTGATTCAAAAAGAAAGAATGAAGTAATAGAGTATGTTAAGAATAAATACGGAGAAAAAAGAACTTTAGGAATAGTTACATATTCTACTTTAAAAAGCAAAATGGTACTTAGAGATGTTTCTAGAATATTTGAGAATGCTAATACTGAAAACTTTATTAAGTTATTTGATTCTAAATTAACTTTAAAAGAAAACTTAGAAAATAAGAATATTAAATCTAGAATAGATAGTGATCCTCTTTTATCAAAGATATTTAATATATCACTTAAATTAGAAGGATTAAAAAGACAAACATCTATTCACGCAGCAGGTGTAGTAATAGCATCTAAAAATCTTGATTCTTATATACCAATTATTAAAAACGAAGATATAGATTTATCTGGATATCAAATGGATTATCTAGAAAGATTAGGTCTTCTTAAGATGGACTTCTTATCATTAGATAATCTTACTTTTATAGATAATTTAACTACAAAATTAGGTATAAATATTAAAGATATTCCTCTAGATGATAAAGATACCTTTGAGATATTTAATAACGCTAATACAGACGGTATATTCCAATTTGAAAGCATGGGTATAAAAGATGTTTTAAAGAAATTTAAAGTAACATCATTTAGTGATATAGTAGCTTTAATTGCTCTATATAGACCAGGACCTATGGATAATATAGATTCTTATATTAAAAGAAAAGAAGGTAAAGAAAAGATTGATTATATAGATCCTTCTTTAGAAAGTATATTAAAAGAAACTTATGGAATAATTATTTATCAGGAACAAATTATGATGATAGCATCTACTATGGCTAATTATTCTATGGCTGAAGCAGATCTTCTTCGTAGAATCATGTCTAAGAAAAAAGAAGAAGCTATGATTGATGAAAAAGACAAGTTTATTTCTAAAGCAATAGAGAATGGATACTCTAAAGAAGTATCTTCAAAAGTATTTGATTTAATTCATAAATTTTCATCATATGGTTTTAATAAATCACACTCTGTAGCATATTCAATAATATCTTATTGGATGGCATATTTAAAAGCACATTATAGAAAAGAATTTATGCTTGAAATGCTTAATTCTGTTATTAAAAATGATATTAAAACTAAAGATTATATTAGTGATCTAAGAAAGTATAATATAGAAGTTATTAAACCAGATATTAATAAGAGTACTAATGAATATATCTTATCTAACAATAAAATATTATTGCCTCTTACATGTATTAAAAATATATCTGAATTAAGTGTTAAAAAGCTTCTTGAAAAAAGAGATGATAAAGAAAAAGATTTCTTTGATTATGTTAGAATTTTTACTAATATAGGATTCACTAGAAAAGAAATAACTGCTTTAATTGATGCATCAGCATTTGATTATACTAATGTTAATCATAGAACTTTAATTGAAAATATGGATAATGCTATTAACTATGCTAAACTATCTAATGATTTAGATGATGATTCAATAGAAAAACCAGTAATAAATAATTTTGATGAATATTCAAAAGAAGAACTTTTAGAAAAAGAACTTAATGCATTTGGATTATATTTATTTAATCATCCAGTTCTTAGATATAAAGATAATGATATTAATACTAAAGATATATCTAATTATTTTAATAAAAATATTACTATGTACTTACTAGTTAATAAGAAAAAGCAAATAGAAACTAAAGAAAAGAAAGCAATGGCATTTATTAATGCTGAGGATGAATTTGGATCTGTTGAAGTAGTAGTATTTCCTAAAGTATTTGAGAAAAATGTTAATATTGATAAAGGAAATATAATAAAAGTTAGTGGAACAGTAGAAAGAAGAAATAGTGATTATCAATTAATCGCAAATAATATAGAAAAGATAATTTAGTCTTTTCTATTTTTATTTATTTTGATATAATGATAATAGGTGATACTATGAACAAGACTAAGATGATTTCTACAGTCGGGCCTAGTTCATTAGATAAAGAGATTATAAGGGGTTTAATCAAGAGTGGAAGTGATGTAATTAGAATAAATATGTCACATTCTAATTTTGATGAGGCTAGGAAGATAATAGGCTATGTTAGAGAAATCAATTATGAAGAAAAATTATTAACGGGTATTATGATAGATACTAAGGGACCTGAAATTAGAATAGGTGCCTTAGAAGAAAAGAAACTTTATCTTGAAAAAGATAAAATTATAAGAGTATCTGAAAGTGAAATAGTAGGTAACAAAGATATTATTTCTATTAGTATACATGGTATTATTTCACATGTAGATATTGGAGGTTATGTTTACTTAGACTCTGGTAAAGTTAAACTAGAAATTATAGAAAAGGGTCAAGATGTAATTCTATGTAAGATTTTAAATGACGGTATAATAAATCAATATTCAAAGGTTAATATTCCTAACTTAGATTATGATATGAAATTCTTATCAAACTATGATATGGAATCTATAAAATTTGCATGTGAAAATAAAGTAGATTATATTGCATTATCATATGTAAAAGATCATCTAGATGTATTAGATGTTAATGATGAATTAATTTCTTTAAATAATAACAATATTCAAATTATTTCTAAAATAGAAAATCAAAGTGCAATAGATGATATTGATGAAATAATAAAAGCTAGTGATGGAATAATGGTTTCAAGAGGAGATCTTGGATTAGATACTGAAATAGAAAAGATTCCATCTATTCAAAGAAAAATAGTAGATTTAACAAAAGAACAAGATAAAGTAATTATTATTGCTACCGAAATGCTTGCATCAATGAAAGATAATGTTAGGCCAACAAGAGCAGAAGTATCAGATGTAGCAGCAGCAGTTAATGATCAAGTAGATGCATTAATGTTATCTTCTGAAACTGCTATTGGAAAGTATCCTGTTATAACAGTTGAAACTATGAAAAAGATAATAGAATCTACAGAAAAAGAAATAGATTATTTACATTTCTTAAAAAATTCAATTAATAAAGGAAATACTATTTCAAAAGCTATTTCATATTCTGCAGTATCATCTGCTAATAATATATGTGCTGATGCAATAGTATGTTCTACAACATCAGGATTAACTGCTAAATTAATTAGTAGCTATAGACCTGCATGTCCAGTAGTAGCTATTAGTCCTAATGAATATGTTGCTAGAGGATTAAGTATAAATTATGGAATTATACCTGTTTATACAAGAGTTATGTCTTCTACTGAAGAATTAATAGAATTATCTAAAAAAGCATATAGAGTTATGCTTAAAAAAGATAAAGGTGTAATAGTAATAGTGGGAAGTTTTCCATTATCTGTTAATTATACTAATTACATGAAAATAGAAGAAATAAAGTAAAAAAGTATTAGAGAATTCTAATACTTTTATTGTTTAATAAATATAAAAATGTTATAATTATAAAGGTGATAATGAATGAAAAAGAGAATAATAGGTATAGCACTAATGCTATTAATATGTGTACCACTTTTAATACTTGGAGGCGTTTATTATAGTGTTCTTATAGGAATAGTTTCTGTTCTTGGATTATGGGAATTAAATAATTTATATAAACAAGATAAGAAATTACATATTATATTAGAAATATTTAGTTATCTATGTTTATTAATGATTATATTTAGTTATGATTATTTAATATATGCTATAGGATTAACTATATTAGTATTTTTAACAGCTTCTATGGTTACAGGGAAAGAATTTACTTTTAAGAATGCTTGTTTTGTTCTTGTATGTATTATATTTATGGGGGTATCTTTTTATATTATAAAAGATATAAGATTAGAAAGTATTCATCATTTTGTATATGTTTTATTAATACCAATATTAACTGATACATTTGCATTTGTTGGTGGTTCTTTATTTGGTAAACATAAATTAATAGAAAGAGTGTCTCCAAATAAAACAATAGAAGGTGCTATTATAGGAGCAATATTTGGTACTATTATTCCAGTATTTTATTATTTATATATGGTAGATCCTGGATGTGATGTATTAATTATTTCATTAATTACTTTTGCTTTATCTATAGTAGGTGAAGTAGGAGACTTAGTATTTAGTTCTATTAAAAGAGAATTTGGTATTAAAGATTATAGTAATTTAATAATAGGACATGGAGGAATATTAGATAGATTCGATAGTTTAATATTTGTATCTATTATGTTTTGGATCATAAAAGCAATAATTTTATAGGAGGATGTAATGAGCCATTTAATAACACTTTTAATATTTTTAGCAATATTAGGATTAATAGTATTAATTCATGAATTTGGTCATTTTATAACTGCAAAGTTAAATAAAGTATATGTTCATGAATTTTCACTTGGATTTGGTCCAAAACTTTTTTCTTTTAAAAGAAAGAATGATGAGACTGAATATATGATTAAAGCTTTACCTTTAGGTGGATATGTAATGCTTGCAGGTGAAGAATATGAAGATGAAGAAGATGACAAGAAAAAGAAGAAAAAAGATGATAAACCTAAAGTAAAAGTACCTGAAGATCAAAAACTATATAATAAGAAATTTCATCAAAAGTTTATGATTATGGTAGCAGGTGTATTTAATAACTTTGTTTTAGGATTAATTCTATTATTTATAATGGGTTTAGTTTATGGATGTGATTTTAGTAGTAATAAATTAACTCATTTATCAAAAGATTTACCATTATATGAAGCAGGCGCTAGAAATGGTGATAAACTTATTTCTATTAATGGGCATAAAGTAAAAAATGATGATGATATTATTTTATGGGTAGCTATTAATGGTACTGAAAAACCTATCAATGTAGAAATTGAAAAGAAAGATTCTAAAAAGATAGAAAAGTATAAAATTAAAGCAAAGAAACTAGAAGATGGTAATAAATACTTTGGTATATCTGTTAGTACTAAGGAAGAAAAAGGATTTATTCCATCAGTTAAATATGCATTTAGTAAGTTAGTATCAATATTTAAACAATTAATTATAGTTATTATAAGTTTATTTACTGGTAAACTAGGATTTAATGCTGTATCTGGTCCAGTAGGTATATATTCTGTAGTAGGTATGGCTAAAGGAAGTATGTTATTACTTTTATATTTAACTGCATACTTATCTATAAATGTTGGATTTATGAATTTACTTCCATTCCCTGCATTTGATGGAGGAAGAGCATTCCTTCTTATAATTGAAAAAATAACTAGAAAAAAAGTTCCACTAAAAGTAGAAAGTATTATTAATGGAATTGGATTTATATTATTAATGATTTTAATGGTAGTAATTACTATTAAAGACATTATTAATTTATTTTAGGGGGGTAATTATGAGAATAGTTTATATGGGCACACCAGAGTTTGCTGTAGGGCCTTTAAAAAAATTAGATGATAATTATGAAGTAGTACTAGTTGTTACTCAACCTGATAAAGAAGTAGGTAGAAAAAAAGAAATTAAGTTTTCTCCTGTTAAGGAATATGCATTAGAAAAAGGTATCCCTGTATTTCAACCAGATAAAATAAGAAATGATTATGAAGAAATTCTTTCTTATAATCCTGATGTAATAGTTACATGTGCATATGGTCAAATAATACCAAAAGAATTATTAGAGTTTCCTAAATATAAATGTATAAATATACATGCATCACTTTTACCTAAACTAAGAGGAGGTGCTCCAATACATTGGTCTATTATTAATGGTGATTCTAAAACAGGAATTACTATTATGTATATGAATGAAAAGATGGATGAAGGAGATATTCTTTATCAAAAAGAAATAGATATATTAGATACTGATAATGTAGAAAGTCTTCATGATAAATTATGCACTCTTGGATCTAATATGATAATAGAGTTTCTTCCAAAATTAGAAAGTGGAGATATTAATCCAATTAAGCAAAATAATGAAGAAGCAACATATGGTTATAATGTATCTAGAGAAGATGAACATCTAGATTTTAATAAGACATCAAAAGAAGTATTTAATAAGATTAGAGGTCTTAATCCTTGGCCTGTAGCTTACACTTCATTAGATGGAAAAGTATTTAAAGTATATAATTCTAGAATATCAGATAGTAAACCAGATGGAACTAATGGTGAAATTACTAATATATATCCTGATGGAATAGGAATTAAAACATCTGATGGAGAAATAATTATTACTGAAATAAAAGAAGAGGGGAAAAATAGAATACAAGTTAAAGATTATTTAAATGGTATTCATGATAAAGATAGTTTAAAGCACAAAATATTTAGTTAGGACTGATATAAATGAATAATATTTTCTTGATATATGGTAATGAAGATTATTTAATTAATAAGAATCTAAATGAAATACTAAAGAGTATTAATTCAAACGATAACATTAGTAGATATAATTTAGATACTGATTCAATAGAATCTGTTTTAATAGATGCTTCTACTGTAAGTATGTTTGATGATAAAAAAGTAATCATTTGTGATAATTCTACATTTTTAACTTCTGAAGGAAAATTAGAAAATGATGAGAATTTCTTAAGATATATAGAAAATGCTTTTAAAGATGTTTATTTAATTTTTATTGTTAGAAATGAAAAATTAGATGAAAGAAAGAAGATAGTTAAATCTCTTAAAAAAGTTAGTAAAGTAATAGTATGTAATAAAATAGAAAACTATGATTTAAGTAATTATGTATATGAATATATTAAAGAAAATGGATTTAAAATAGATAGAAAAGATATAGAAACTATCCTTAAAAGATCTTTATATAATCTATCTATAATAACAAATGAACTAAATAAATTATTTGTGTATAAAAAAAATAATAAAAATATTACAAGTGAAGATATTGATAAAGTAATAACATCTAATATAAATGATAATATATTTGATTTAACTAATATGGTTGTTAATGGTGAAAAAGAAAAACTAATAGATACATATAATAATCTTATTAGAATGGGTGAAGATCCATTTAAATTAATGGTTACATTATCAAATCAATATAGACTTATATTAGAAGTCAAATTAATGGTTAAAAATGGATATAAAGATGATGAAATAATATCTAAATTAAAAGAACATCCATATAGAATTAAACTTGCTAAGAATTCTTTAGTATCTATAGAAGAGTCTATTAAGAAACTAGAACAATTAGCAGATTTAAACTATAATATAGTAACTGGAAAAGTAGATTCAAACTTTGGATTTGAAATGTTTTTATTAAATTTATAAGGAGCTTTTATGAAAAAGAAGATTAGTATATTTTGCACATTAAGTTTTCTTATAGTAATAATAGATAGAGTAGTTAAATTGTTAGTTAATAAATATATTTCTTTAGATAAAACTATTAAAGTTTTAAAGAATATCATTTATTTAACTAATGTTCATAATAAAGGTGCTGCTTTTTCTATTATGTTTGGTCAAAGAATAATTCTTATACTAATTAGTTTAATATTCCTAGGATTAATTATTTATTATGTTAAAAAACATAATAAATATAATATAGAGTTTTCTTTTATAATAGGAGGCCTTATAGGAAACTTAATAGATAGAGTTTTATTTGGATATGTTATAGATTATATTGGAATTAAAATATTTAATTATTATTTTCCAATTTTTAATATAGCTGATTCCTTTATTGTAATAGGAGCCCTTTTATTAATAATTAAAAAAGATAGAGTTGGTGAAAAACATGAAAATAATAGTTAGTGATTCTAATAATGAAAGATTAGACAAATATATATTTGATAATGAAGATATGGATCTTACTAGATCTAAGATTCAGAGTTTAATTAAAACAGGTAATGTTTTAGTTAATGGTAAAGAATCTAAGAATTCATATATAGTATCTGATGGTGATGAAATAGATATTACTATAGTAGAAGAAAATATGCATGTAGAAGCTGAAGATATTCCTATAGATATAGTATATGAAGATGATGATGTAATAGTTATTAATAAGAAAAGTGGAATGGTAGTACATCCTGGTAATGGAAATCATTCTGGAACTTTAGTTAATGCTCTTATGAATCATAGTAAATTAAGCACTATTAATGGTGAATATAGACCTGGTATAGTTCATAGAATAGATAAAGATACATCAGGACTTCTAATAGTAGCTAAAAATGATAAAGCACATTTAATATTAGCTGAAGAACTTAAGAAAAAAGAGATAAAAAGAAAATATATTGCTTTAGTAAAAGGAGTTATACCTCATGATACTGGAACTATAGATGCTCCTATAGGAAGAGATAAAAATGATAGAAAGAAGATGTGCGTTACTCCTGATAATTCTAAAGAAGCAATAACTCATTTTAAAGTACTTGAAAGATTTAAAGAAGCCACATTATTAGAATGTATTCTTGATACTGGTAGAACTCATCAAATTAGAGTTCATATGAAATATATAGGGCATCCTATTATAAATGATCCTGTATATTTGGGTGGTAAGAATATAGATAATTATGGGCAAATGCTTCATGCATATTCAATTACATTTATTCATCCTACTACTAAAGAAGAAATGACATTTAAAGTAGATCCAGAAGATGAATTTAATAAAATATTAGATATGTATAGGTAGGAGGATTTATGAGAAGAGTAAAAAGTCAAGATATCTTATCTATGAAATTAATGCATTATTTTATAGTTAATAGAAATTATAAACCAATAATAATTAATGGTATAGAAAATGAAATATGGCTTGAGAATAATGATGAAAACTATAAAATAATTAGAATAGTATTAAATAAAATTATTAATATAGAACAATATAATTTAGATTTATTAAAGACTCAAAGTATTTTAAGTCAAATAAAGAAAAAGACATTATCTCTTTCTATGAAAGTATTATCTTTTTATATGTATATGGATGAAGATCTTGTTATAGAAGATAATCCTGAAAATAAATTTAAATATATAAGAGTAGAAAAAGAAAAAGATATATATGAAAATGAAATAGTTAAAAAAGAATATACAGATATTCAAGATAATATGGTATATGAAGAAAAAGATACTGAATTATTTGCTAAGATAGCATCTGATATTAGTGATAAAAATATAAAAGAAAGTGAGAAGAGTAATAATATGTTTAGTAAAAAGAATGATAAAATTATGACTATTATATTTGCTGTAATAAATCTTATCGTATTTGCATTAATGTATATAATAGGTAATGGTTCTGAAAATAAAGCAACACTTCTTAAATTTGGTGCTAATATGGGTATGCTTACTAAGAATGGTGATTATTATAGATTAATAACTTGTGCATTTCTTCATATTGGAGTAGTTCATTTGTTATGTAATTTATATTCATTATTTATAATTGGTCAAAATATAGAATATTTCTTTGGTAAATTAAAGTTTGTATTAATATACTTTTATAGTGCTATTACAGCATCATTATTTGTATTAATATTCCAAAGTGATAATACTATTACTGCTGGAGCATCTGGTGCTATATTTGGTTTAATGGGTGCATTATTATACTTTGGTTATACTTATAGAGGTTATATTGGAAATAAAATTATTTCATCAGCATTAACTGTTATAGCTATTAACTTAGCATATGGATTTGTTCATCCTGGTATTAGTAACGCTGCTCATATAGGTGGGTTAGTAGGAGGACTTGCAATAAGTTATATGCTTGGTATTAAAAATAATGAAAATAAAGCATCTAAAATATCTGGAACTGTTATAGTATTTGCTTTAACAGGATTCCTAGTTTATATGGCATTTTTTAGATAATAAAAAGATCCTAGTTTAGGATCTTTTCTGTATTCTTAAAGTTTAACTTAGCGATCTCGTTAAGTTTTTCTTTTCCGTATTTTTCTACTATTTTCTTACCAGTTTCATCTACTACAGTAGAAGCTCCAAGAGGAAGAGATATATTAACTTTCTTAGATAACTTTTCCATTTCTTTTAAAAACATATATCTACTTATAATAGAGGATACTCCAACTGATAAACATTTATCTTCTGCTTTAGTAGTAAATGTTATTTTTCTAAATACGTTAGCTTCATCTTTTAAATATCCATAATAATTTCTTTTTGGTGTAAATTGATCTATAACAACCATATCATATGAGAAGTTATTTTCTTTTAATAAACCAAGTATACATTTATTATGAAGTATTGATTTTATTTTATTCATATTATTACCAGAATCTTGCATCTTATTATATTCTTCATTAGTTAATATATATGAATAATGAGGAATCTTTTCAATAAGAGTAGGGGCAATCTTTTCTATTTTTTCATCAGTAACTTTTTTAGAATCTCTAACTCCTAGTTCTTCTAAGAATGTAATATCTTTTCTATCTACAAAGGAAGCTGTAACTATAATAGGTCCAAAATAATCTCCTGTACCAACTTCATCTGATCCAATAGATGAGATAAAGTAGTAATCAGTATTATCTATTTCTTCCTTCTTTTCTTTTTTTTCTTTTTCTTCTGGATAAGAACCAGTAAGTATCTTTTCAGTTTCTTTCCAATAATTAGCATCTACATCAGCTGATACACCTTGAAATACTACTTTACCAGATTCATAAAGAGTAACTACTGTATCTTCTTCATCTGCTTGAAATAT
>sequence08
GTGGGAAGATGTTAGTATAAACTTTTCCTCCTCTTTTCATATAACGAGTCATAGCTACTCTTGCTGCTTCGATTTGTTGTTGAGTAATCCAAGCACCTTCTTTAGCTTGTAATCCAAAACTTCCATAATGAAGCTCTAGATTTCCTTTAGCTTTACCATCATGGTAAACTCTATGAGGTTTTCTATATTTAGTTCTTTTTGGAATTAGAGCCATCTATATTACCTCCTTTTTTATTTTTCTTAGCAAGTACTTCACCTTTATAAATCCATACTTTAATACCAATTTTACCGAATGTAGTATCAGCTTCTGCTTCACCATAATCGATATCTGCTCTTAAAGTTTGAAGAGGAGTAGTACCTTCATGTTGACTTTCTGCTCTAGCTATATCAACACCATTTAATCTTCCTGATGCTAAAACTTTAATACCTTTAGCTCCAGCTTTCATAGTGTTTCTAACAGCTCTTTTAGAAGCCATTTTATAAGATCCACGGTTTTCAATTTGTTTAGCAATATTTTCAGCAACTAAAACTGCAACCATGTCTGGATTCTTAATTTCAAATATTGATACATTAATATTTTCTTTTGTTAATTTATTAAGTTCGTTTTTAATTTTTTCGATTTCTTCTCCACCGTGTCCAATAACAACACCTGGTTTTGCAGTATGAATAATAACTTCTGTTTTCTTAGTTGTTCTATTGATTTCAATTTGAGCAACAGCAGCATCTTTTAATCTCTTTGATAAATATTTTCTGATTTTAATATCATTACCTAATTTACCAGCAAAATCTTTCTTTTCTGCATACCATTTAGAAGACCAATCTTTGTTTATTCCAATTCTCATTCCAATTGGACTTACTTTTTGTCCCATAAATTAACCTCCTTCTAGTTTTCCTTCTTAGTTTTAGTAGCTTTCTTAGTTGCTACTTTCTTAGTAGTTTCTTTTTTAACCACTTTTTCTTCTTTTTTAGTTTCTTTAACTGGTTTAGTAGCTTTAGCTTTAACAGCTTTTTCTGCTACTATAACAGTTATATGACTTGTTTTCTTGTCATGTCTATCAATATGAGAACGAGATCCAAATCTATGTCTTTTTAAAATAGGACCATCATTAACATAAGCAGACTTAACATATAAATTATTTCTATCTAATTTTAGATTATTCTCAGCATTAGCTGTAGCAGATAATAATACCTTATTTACTAAACGTGCTGATTTTTTATTCATATTACTTAACATATTAGTTGCATCTTCAACACTTTTACCTTGAATTAAGCGAGTAACTAAACGTGTTTTTCTTGGAACAACTAAAACTGTTCTAGCAGTTGCTTTTGCTTCCATTATTTATCTCCTTTCAAGTTCAAACTATTTATCTTTATTTCCATGTCCACCAAATTTTCTTGTTGGAGCAAATTCACCTAATTTATGTCCTACCATATCTTCAGTAACATAAACTGGAATAAATTCTTTACCATTGTGAACAGCAAATGTATGTCCAATAAATTCAGGGAAAATAGTTGAACGTCTTGACCATGTTTTTACAACTTCTTTTTTACCATTTTCATTCATTTCTTGAACCTTTTTTAATAATCTATCGAATACATAAGGTCCCTTTTTTAAACTTCTAGCCATTTATTTCTTTTCCTTTCCTTTATTTACGACGAGTAACAATTAATTTTGTTGAACTCTTTTTATTATTACGAGTTTTAAGTCCAAGTGCAGGTTTACCCCAAGGAGTCATTGGTTGTTTATGACCAACTGGAGTTCTACCTTCACCACCACCATGAGGGTGATCGTTAGGGTTCATAACAGATCCTCTAACTGTAGGTCTAATACCAAGATATCTTGTTCTACCAGCTTTACCAAGTCTAACTAATGAGTAATCTTCATTACCAACTTCTCCAACTGTAGCCATACAAGTTCCAAGTACTTTTCTAGTTTCACCAGAACTTAATCTTATCATTACATATTTATCTTCTCTTCCAAGAATTTGAGCACTTTGACCAGCACTTCTAGCAAGTTGTCCACCTTTACCTAAAGTAAGTTCTACGTTATGAATAACAGTACCTACTGGAATATTCATAAGTGGGCAAGCATTACCAACTTTAATATCTACTTTTTCACCAGATACAATTTTATCTCCTACTTTTAATCCTTTTGGAGCTAATATATATCTTTTTTCACCATCTGAATAGTTAATTAAAGCTATATTAGCAGATCTATTTGGATCATATTCAATAGTAGCAACTGTACCTACTATATCGAATTTATTTCTTTTGAAATCAATAATACGATATTTTCTTTTAACTCCGCCACCTTGATGACGAACTGTAATTTTACCAGTATTATTTCTACCAGCATTTTTCTTAGCAATCTTTAGTAAACTTTTTTCAGGAGCAGTTTTAGTTAGCTCTGTATTTACTAATGTGCTTTTCTTTCTTTGTCCAGGAGTAACTGGGCGAAAATGTTTAATAGCCATATTCTAAAACCTCCTTAAATTTCTATTTTGCTTCCTTCAGCTAAAGTAATAATTGCTTTCTTATAAGCTGAAGTCTTTCCTGTATAACGTCCAACTCTCTTTTTCTTAGGTTTAACGTTAATTGTATTTACATTTGTAACTTTTACATTATATATTTTTTCAATTGCTTGTTTAATTTGAACCTTGTTTGCACTAGGTTTAACTTTAAACACCATCTTGTTTCCAGCTTCTGCTATCATAGCAGCTTTTTCAGTAATAACTGGAGCAAGAATAATATCTCTATAATCTCCTATCATTATAGTACCTCCTCAAGCATTTTAACTACTTCTTCTGTCATAACTATATTTTTATAGTTAAGTACATCATAAGTGTTGATTTCATGAGATTCAATTACTTTAACATCTTTTAAATTACGAGAAGCTAAAATTAGTTCATCAGTTAATTCTTTAACTACTACTAAAGTTTTACCTTCTAACTTAAGAGTATTAAGTAGTTTAATAAATCCTTTAGTTTTAGAATCTTTAACATCAAATTTTTCTACAACTGTAATTCCTTTATTATTTGCTTTATAAGATAAAGCTGATCTTAAAGCTAATCTACTTTCTTTTCTATTTTGTTTCTTTTCATAATTTCTTTCAGTAGTTGGTCCGAATACTACACCACCATGATACCAATGAGGTGCTCTAATAGAACCTTGTCTAGCTCTACCAGTTCCTTTTTGTCTCCATGGTTTGATTCCTCCACCACTTACTTCACTTCTAGTTTTAACACTATGTGTTCCTTGTCTTAGTGATGCACCTTTTCTAACAACTGCATCATATATTACTTGGTTATTTGGTTCAATACCAAATATTTCGTCATTTAGTTTTATATCTTTTACTTTTTCACCTTTTAAATTTAAAAGTGCTACCTTAGGCATATTTAATTCCTCCTTTCATCACATTAACATTATTATTAAATAGTTAACTATTCTTGTGATGATTCTTCAGCTGCAGGAGCTTCAGTTTCTTCAGTAGTTTCTTCTGCTGGAGTTTCTTCTACAGTTGTTTCTTCAACTGGAGCTTCTTCTGTAGTAGTTTCTTCAACTACTGGAGTTTCTTCAGCAGTAGCATAAGTAACAAGTTCATCTAATTCATTAACTTGTCCTTCATGCTTAATAGCAGATTTAATAATAACTAATGACTTTTTAGGACCTGGAACATTACCTTTAACTAAAATAATATTTTTATCTAAATTAATTTCAATTACTTCTAAGTTTTGAACTGTAATTAATTTATAACCCATATGTCCTGGTAATTTTTTACCTTTTAAAACACGCATTGGTCTCATAGTACCAAGTGATCCAACACCTCTATGGTATTGTGAACCATGTCCCATAGGACCTCTACTTTGATTGTGGCGTTTAATAACACCTTGGAAGCCTTTACCTTTACTCATACCAGAAACATCTACCATTTCTCCAACAGCAAAGATGTCAGCTTTAACTTCTCCACCTAATGTGTATGCGCTAACATCAGCATTTCTGATTTCTTTAATGAAGCGCTTAGGTGAAACATTTGCTTTCTTTAGATGACCAAGTTCAGCTTTAGAAGTATTTTTTTCTTTAGCGTCACTGTATGCTAATTGAACAGCATTGTATCCATCAGTTTCAACAGTTTTAATTTGTGAAACATAATTTGGTTCAACTTCAATAACAGTAACTGGAATAAGTTTACCATTCTTAGCGAAAACTTGAGTCATCCCGATCTTACGACCTAAGATTCCTTTTCTCATTTTTTCCTCCTATAAAATCTTAATAAATTATTTAATACTAATCTCAACACCACTTGGTAAGTCCAAACGAGTTAGTGCCTCGATTGTGTCTTTACTTGGGTTATTGATGACAATTAATCTCTTGTGAGTTCTCATTTCGAATTGTTCACGAGAATCTTTATATTTATGAACAGCTCTTAAGATTGTAACTTTTTCAATCTTAGTTGGTAGTGGAATTGGACCACTAACTTCTCCACCTGTTCTTTTAACAGTTTCTACAATCTTAGCAGCAGCTTTATCAATTACTTTGTGTTCATATGCTTTAAGATTGATTTGGATTTTGTTTGCCATAATATCCTCCTTTCGCCTATATCTTGTATAGACTTGCTCCGTGCAAAAACCTGATAAACAGTCATTTTTCGTTATTATTAAATAACAACTTAACCCGGTGTATCAGCAACCTTGCATATCATCGCCAGTCACACATAATTCATTTTAACACCTTTTTTCCTTTATTTCAAGCACTTTTTTTACTTTTTTTAAATAAAAAAAATAAGCGAATTATTCGCTTATTATTATAGGATCAACAATTGTACCTACACCTTTTTCATATGAAGCATCTTTATTAATCTCTATAACTAGTTTTAAAGCTGCTTCTTCTTCGTCTTCAGATATACCATTTATAATAGTATATCCATCAGACGTATTAACAAAATATTTATAATTTGATTCTAAGAATGTTTTACCATCTTTAATAGTGTTATTATAATCACTTATATTAATTAATGTTACATTATTAATATAGTTATAATATTTTTTGTTTTTAAATATTTGTATTTGTATATCTATCTTATCTTTAGTAACAGTATCTTCTTTATCATTTTTTATTATATGTAAATTACCTTCACTATCTACTTTAATAATTCTATATAATTCATTATTAAATGATATATAATTTGATACTTCATTACCTACAAAGTAATAATTATTATCTTTTATTATAAAGTTATCACTTTTATAATCATTCATAATATAGTTATTAATACTTCTATTTTTAATATATGCATCAACTACATAACCATTATTAATACTAACATATACTCTTGAGTCTTCATCTAAATCATTATCTTCTTTAATAATTGAATTAACAACAAGATCTTTTTTTGTAAATATTACTATTTCTTCATCTTTATACTTATCTATATTATTAGTAACATATGTTTTAACATCCTGAAGCAATGATGCCTCATTTGCTTCAGATAAAGAAGCTTTATTATTAATATTACTAAATATACTAGATGAGAATATAAAATATGCAAGTATAAAAATAAGTACTATTAATACTATCCAATAAATAAATCTTTTTTTCATAAAACCACCCTTTACTACTTAGCAGTATATATTAGTTTACCATTATAATTGTAATATTTATTATTAACAATTACATAGTTTTCTTTTATTTGAATATCGTCATCCTCTTTTATATCTATTTCTTTCTTGTTTACAACATTTAAAAGTACTGGTTCATTACCATAATATGCTTTTAAGAATGGATAATCATCATCTAGTACTTCAAACGAACTATATATGGCCTCTATATATTCTTTATTCTTACTAGTTACTAATCCTTTTTTATTATTATCACCAGTAAATATAAATAACTCTAAACCATATTTATTCTTTAATGTTTTAAACATACTACTATCTAATTGTTCTATATTATTATAACTTAATGATACAACTTCATTTGCTTTAGTATCTAGGATACCATATTTTTCATTATTTGCAACTACAGCATATCCATTTTTACTAAATTTCTCAGCATACTCATACGACTTATTACTAATAGTTTTACCTTTAGTATTTACAAAGTTATATCTATTTTCAAATACACTAATCATTAATAATTGATTACTAAATAATCCATCTACTGGTTCTAATGATGTAAATGAACCTACTTTACCACTATAATCAATAATATTATATACATCAGCATTTAAATTAAAATCATGTGTTTTTTCAAGTACATATCCATCATTATAGAAATATTCATTATTTTCATTACTATTAATCTTTTCACCATTAGTAAGATTAATATAATCAATCTTAGAATCACTCTTAATACATATTGCTATATTTGAGTTATAATCTTCTACTCTAACAAACTTATAATTATCTGTTTTATATTTTACTTCATCATCATCTATATAAATATATGTATTATTATCTTTTGTAATATCTTTAATTGAGAATATATTATTATCTAATACTTTAACTTCATTTAAAGTATACTTATATATTTCTTTACCTGATTCTAAATTAATAATAGTAGTAGAATCATTAACTTTTATCTTAGCATATTTAATAGATGATTTAGAATTAGAGACTTCCACTGATATGTTTTTATCATCTACCTCATCTACTTTAAATGAATATATTTCTTTTCCTTCACCATTTAAAAGACCTACTGTTTCATCTCTTTTAAAAGTATATATACCATTATTTATATATGAAATATTATCATATTTATATTTAGTAATATTATTTAATTTCTTATCTAAAATAGCTTGTTTTAAACCTTGATTAGTAATTTTAGATGCTATATATTTACCATCATATAAACCTATATATGTATATGTTCCACAAGGTACTTCAAATACGCCTTTACCATTTAATACACAGTATAAATTATTATCGTTTTTAACTATAGCAAGGCCATTATAATAGTCAGATCCAGATAGATATTTAGATTTAACTACTATAGTTCCATCACTATCCATGTACCCTACTTTATTTGATTCATTTATTTTTATTAAATTAATTGTTTCTGCTTTAGAAGAAGATATAAATAAATATATACCTACAACTGATGCAAAAATGAATGCTATAACTGGTAATAAAATAGACTTATGTTTTATAGCAAATATATTCTTTTCAAATAAACTTTTATTATCTTTTTCTATAAATTCTTTTTCATTAGCAGATGCTACTACTCTACTATCTACATTAGGAAATGATACATTTTGATATGCAGGATTATTTTTAATTCTATCATCTAGTATCATATTACTATTATCAGATAATGATAAACCAGATCCTACTCTATCTTCTAGTTCATCTGATACATTCTTTTTTTCATATATTGGATTACTAGATATTCTTTCATCTATTATAGGTTCAATTTCCTGTTTTACTTCTTCTAATACTTCTGGTACTTCTTCTTTAACAGGAGTCTCTACTACTTCATTTTCTTCAAAAATATCGTCAGTATCCTCAGTAAAAGGCATTTCTATGGCGTTCTCTTCTACAGATTCTAATTCTTCAATTTTTTCATCCATAAAAATCCCTCCTATTCTTACATATACTATAATATCATATTTTTTGTAAAATAAAAAGATATATTTCTATATCTTTTATTCTTCATCTAGTTCTACTAAAACTTCTCTAGGTTTAGATCCTTGTTCAGGTCCAACTATACCTCTTTCTTCAAGTTTATCTATTAAATTAGCTGCTCTATTATAACCAATTTTAAATCTTCTTTGAAGAAGTGATGCTGATGCTTTTTTACTTGTACATACAAATTTAACAACTTCATTATATAGAGGATCATCATTATCTACATCTGCTCTATTAGAAGATGCACTTTCAGATACTTTATCTAAATTAAATTTGTCATCATAAGATGCCTTATGACCCTTACAACAATAATCTACTAGTTTTTCTACTTCAGCCTCATCAATGAATGCACCTTGTATTCTTTGAGGAACACTTTCACCCATTGGAAGGAATAACATATCACCTTTACCAAGAAGTTTTTCTGCTCCACCCATATCTAGAATAGTTCTAGAATCTATTTGAGATGAAACTGCAAATGATATTCTAGATGGAATATTAGCTTTAACTAAACCTGTAATAACATCTGTTGATGGTCTTTGAGTAGCTACTATTAAATGAATACCAGCAGCTCTAGCCATTTGAGTTATTCTTACAATTGAGTCTTCAACTTCTTTCTTAGCTACAACCATAAGATCTGCTAACTCATCTATTATTACTACTATATATGGAAGAAGTGGATATTTTGATTCTTCTGCCATTTTAGCATTTTTCTTTTCTAACATTCCATTATACATTTCAATGTTTTTAGCTTTAGCTTCTTCAAATTTTCTATATCTATCTTCCATTTCTTCAACTATTTTTTGAAGAGCTACAGAAGCTTTTCTTGGATCAGTTACAACTGGCATAAGTAAATGTGGAAGTCCATTATATCCAGAGAATTCTACTTTCTTTGGATCTATCATAACCATTTTTACTTCATCTGGTTTAGCTCTCATTAATATAGAACCAATAATACAATTTACACAAACTGATTTACCAGATCCAGTAGCACCTGCTACTAATAAGTGAGGAGTTTTATTAATCTCACAATATCTTGGAGTACCCATTATATCTTTACCTAAAGCTACTAATAACTTATTAGACATTTTTTCTTTAGGGAAAGCATCTATTATTTCTCTAAATGGTACTGCTGAATTAACTTTATTTGGTATTTCTATACCAACAGTACTCTTTCCTGGAATAGGAGCTTCAATTCTAACATCTTTAGCAGCCATAGCTAATGCTATTTCAGATGATAAACTCTTTACTTTATTCATCTTAGTTCCAGATTTTATTTCTAATTCATATTGAGTAACAGATGGTCCTACATGAACTTCTCTTACCTTTGCAACTACTTCAAATTCTCTAAGTACTTTTTCTAGAAGTGGAATATTCTTCTTAATTTCCATTTCATTTTCTTTTGCTTTATCTTTAGCAGATACTTTTTTATTTAATATTTCATCCACATGATTAGGATATGGAGGTTCATAGTTTTTATATAATTGTGTATTATATGTAGGAGTATAATCAACCTTTTCTTTTGGTTCATTATCATTATGATTTGGTAAAGTAATTTTTACCTTAGTTTGTTCAAGATCTTCTGAATGTAAATATCCCTTATCATCTTCTTCATCTTCATTATCTGGAATACCATTACCATCTTTATCTTTATTCATTTTATCTGATAAATCATCAAATAAATCTGATAAAGATAAGCCAGTTATTAAAATAGCTCCAATAAATATAAGTACACAGATAATAATTATAGAACCTATATGTCCACAGTATTTATCTAACACTGCTGAAAAGAATGTTCCAATAAGTCCTCCACCAGAAAAATTAGTTTGTTCTGAAATTGCAATTTTAAATGTTTCAAATGCACTAATCATTTCTTCTTTAATAGTAGCCTTACTAGTTAAATGTTCTATATTAAAGAAAGATAATAAACCTATTAAAACAAGATATATACCACATTTAGTAAATGTAAATACTTTTGGAAATTTATTCTTAAATAATAAATATAATCCTAGAATAATAAATAATATTAATGGAATATAATAAAATGATCCCATTAAGAACATACCTATTCCTCTGCAGAATGTGCCAAAAATGTTTGCTTTATAACCTAGCAAACCAAGAACACCCGCTAAAACTAATATAAATCCAATTAATATAAAAGATAAATTACTTTTCTTTCTTCTTCTAGTTGATGATTTTCTAGGTCTTCCTCTTTTAGCCATAATTAATACCTCGCATTATTACTTTTATTATATCATAAAACAAATAAAAAAAGATGCTTTTGCATCTTCTTTTACATTATATTTCATTTATTACTGTAATAACCATTGGTTTACATTCTGTTTCATTATAAAAGAAATTACCAAGAACATCCCTTAAATCAGTTTTAATCTTGTTATAATCTACATAATTATTAGATATATTCTTATTAATTATTTCAGATGACATATCTTTTATTTGATTAATAAATTCTATATTATCTTTAACATATATGAAACCTCTAGTAAGTATTTCTGGACCTGCTAAAACTTTTCTTGTTTTCTTATCTAATGTTGCACATACTATAACAATACCATTCTCACTAAGCATTTCTCTATCTTTTAAAACAAGTTCTCCAATATCTTTAGTAGAATTACCATCAATTAATAATTCATTTATAGATATTTTTTCAGTTTCATTTGATAATACACCATTTTCAAATATAGCAACTTCACCATTTTGCTTTAGAATAATATTTTCTTTATCTATACCCATATTATTTGCTATATCAGCATTATTTACCATATGTCTATATTCTCCTGAAACAGGAAAATAATACTTTGGATTAAGTAAATTAATCATTAATTTAAGATCTTCTTCTGAAGCATGATTAAGTAAATAATCTTTTGATGATAAACTTTCTACTTTAGAACCAAGTTTAGCAATATCATCACTTAATTTAACTGCTATTCTTTCATTATTAACAGATACTGGATCTAAATAGAATACAGTATCTGTAGGAAGTATCTTAATATACTTATCATATCCATTAACTATTCTTTCTAGGTTAGTAAATGGTTTTTCGTTTTCATTAGATATAAGTATTACAGCATCTTTATCAGATATGTTATTAAGTGTTCCTATTCTATCTTTGTTAAATATTACATATCCATTATCAATTACATAATTAATCATTTGTTGTAATTTTTTACCCATTATAACTACTCTTCTTTGAGTAGATTCTATTTCTGTTAATAATTCTTGAATTCTACTTATATGAGCAGTAAATACTGTTACTATAATTCTACCTTCATTATGCATAAGTATATCTCTTACTTTAGAAGATATTCTATTTCTTGGAACTGAGAATCCAGGTCTATCCGCATATTCAGATTCATTTAGTAAACAAAGTACTCCTTGTTTACCTATATAAGCTAATTTTCCAATATCAGTTTTATAACTACCATCTAAACTAGAATCAAATATATAATTACCTGTATAAACAATAGCTCCATCTTCAGTATTAAGTACATAACCCACATTATCTGGTATTGAATGTGTTAATAAAACAGGAAATACACTATTCTTACCAAAAGATATACTCTTATGAGGTAATATTTCATGTAATTTATTAAATGTCATACCTTCATCTTCTAGATTTCTTCTTATAATATCGCAAGTGAATTTACATGAATATATATCTATATCTTTTACTTCCTTAATAATATCTATTACTGCGCCCATATTTTCATCATGACCATGCGTAATAAATATACCTTTAATATCTTTTTTATTTTTCTTAATAAAATCATAATCTGGAATAATATAATCTACTCCAAGCATCTTTTCATTAGCATACTTTAATCCCGCATCAAAAATAAATATGTCTTTGTCTACAGTAACAACATACATATTTTTACCGTTTTCATTTAGTCCACCGAGACTAAATATTTTAATTTTACTCATTTTTTCTCCTTTCATAAAAATTTAAATAGAAACACGCATAAACAATTATAGCAAATAATTTAAAAAATTAAAAGTAAATGCTAAAAAAGTTAACTTTTGTTAACTTTTAAATGCTTTTTCTAATTTTTCTTTTATTTCATCTTTTGTAAATGGTTTTGCTATATAATCATCAAATCCTATAGATAAATATTTTTCTTTAGAACCTGATACTGCATCTGCTGTTAAAGCAATTACAGGCATCTTATAACCTTCTTCTCTTAATTTAAGAAGACATTTATCACCACTCATTTCAGGCATCATAATATCCATAAGAATTAAATCATATTTATTATCTTTTACTTTTTCTAAAGCTTCTCTTGCACTAAGTGCACTTTCAGAATTAACTTCTAAGAAGGATAATGCTTTTTCAGCAACTTTAATATTTAATTTATTATCATCTACTATTAATACTTTTTTACCTGTAAATCCTACATTATTAGTAGTTTCTACTACTGGTTGTTCTTCTACTGCTGGTTCTTCCATTTTACTTATTTTTTGTGGTAATTCTACCATAAATGTAGAACCTTCTCCTAAAGTACTTTGAACACTTATTTTACCTTTCATTAGTTCTACTAACTTCTTAGCAACTGATAATCCAACTACTTCACTATCTACTTTATCAGATGATTTAACTTCAAATATCTTAGTTTGATCTTCTTTACTGATACCTACTCCAGTATCAGATACCATTATTATTAAATTACATATATCATTTAATATTATATACTTAACAGTTAATTTTACTTCTCCAACAGATGTATATTTAAATGCATTACTAAGTAAATTATTAACTATTTCTTTTACATGTACTCTGTCTCCTATTAACTCATATGGAAGACCTTGTTGAAATTCTACTTTAAAATTAATTTGTCTACCCTTAATTCTAGTAGAATTTAATTTACATAGTTTAACCATTTCTTCTTTAAATAGATATGGTGTTTCTACTATAGGTATATTAGTAGATTCAATTTTATTAATATCTAATATATTATCTACTACTTCAAGAAGAGATGTAGATGCTTCTATTAAATCTTTAGCATCTTCTCTAACACCTTCAGGAAGAGTATCTCCATAACTACCTATATCTTCTGATAAACCAACTATAGAGTTTAATGGCGTTCTTATTTCATGAGACATAGAATTAAGAAATTGAGATTTAGTTTTATTTGCTTTATCTGCTTCTTCTTTTGCTTTAGATAATTCTTCTACCATTCTCATATCAGGATTCTCTATAGTAAAGTACATAAGAGTAATAACTAATGTTTCAAATGGTGCAATTAATAAATATGTAGGATTAATCATTTGAGATATTATTCCTACTGTTGATAATATTACATATGCAAATAAAGGTAAATATTTAGATGATTTAACTCTTTTATAATTTCTAAATAAACAATAAATCATAAAAACAGTTCCTACAAGCATACCTATAAACATAGTAAAGAATGATGCTCCAGTAGGATAATAGTACCCATTAACTTCTTCTATATCCATTGGACTCATAAACATAATTATAGCCACTAAAATAGATGCTACTAAATATACTATAGTTTGTTTCTTTTTAAAATTAAGATTCTCTTTTGCATTTATATCAAATGATATAGCCCATACATATAATCCAAAGAATACTTCAAATGAAAAGTACACTAAGAATAATACTTTTAATATATATACATATAATAAGCTTTCTGAAAAATCAGGATTCTTTAATGTAATATAATAAATAACTATTTGGGTTACTAAACCAATAAAATTAACAACTAAAAGAGATGAAAACAATGTGTTTTCAACTTTTTTTGCTTTTTGCTTAGTAAAAAATACTATCATTATAATTGCTAAAAATATAAGTGCGCATATTGCAATAATTGTACTTTCCATAGTCTTTCTTCCTTCCCCTTCTTATTAATTATTATTGTTCTTTATCTTCAAAGGCTTTTAATATTTTATTATGAATACCAGGTTCTATATAATCAATTGCATTCATAGTAGTTTCTAAAGACTTTTTATATTCTCCTTCTTTAAATAGACTTTCTGCTTTATCTAAACCTTGATCTATTTGTGTTTTAATACCTCTATATCTATTACCATATACAATTGTTTCTTCTGCCATCATAACAGACTTTATTAAATTATTAACAGTATTATATACTTTAAAAGCTAAATCTCTAGCAGTATCTACTCTTATATTTAATACTTCTATAGTAATAGGTTTTCTATTTAATTCTTTATTAATTTCTTTAATAGCTTCATTAGCATCTTCAATTTCAACATAGTAATTATTTGGTATAACAGGTATGTTATAACATCTAATTCTATTTTTAGTCTTTTTAACTAATCTCTTAATATTATCTAATTGTTCTCTTGCTCTTACTTCATCATCTTTCATACTACCTATAGTATGTACATCATAATCAAGATTTTCATCTATCTTAGATAATTTAATTATTAATAAATCTAATTCCTTTACTAACTTAGTAAACGGAAATGAATGATTCTTACTAAAATCAGTTAATTCATTATAACTATTTTTAATATTAGTTACTTCTTTATCAATTACATTTATTCTTTCAATGTTTTCATTTGATAATTCATAATTTGTTTTTAATTCATTAATTTGAGATTTAATATTCTTAACAGTTTTATCTGTTTTAGTAAGTTTAGTTTTAAATGATTTCATATTTGAATCAAATTTCTTTTTAGCGCTCTTTTCGTTTTCAAAATCAGTATATAACGAATCAAAATAATTAAGAATAGTCTTAAGTTCAAATACTACGTCTTCTAAATTAAGTACCTTAACTCTATCTATAATATCTTTTAATTTCTTATTAGTTTCTTCTATATTATATTCAACATTTAAATAATCTAATTGATACATATCACGTGTCATATCTATATATAAATTAGATATATCTGATATCTTATTAGGTATTAATTCATTACACATAATAAGTATTGCTGGAACTTCTTTAACTACATAATCAGAATGATCAATCATTTCATCTATACCTTTTACAATATAGTTGATTTCATCATAGTCTTTTTGTTCCATAGTTATTTCAAATTCAGAGAATCTTTTTTCTATATTTTCAAATTCTACATCAATTTGTTCTACTATATCACCATATGCTTCTTTATTTTTTTCATATTCTGCTTTAATAGTTCTATATTTAGATTTTAGTTCTACTATTCTTTCTCTATTCTTTTCCTCACTTTGAGTTAAGCATTGAATTTCAGTTAAAATATTATCAGTTCTTTCTCTTAATCTATATATATCTAATTCTATTTCTACTAATAATTTTCTTAAATCTTTATAATTCTTCTTTTCAAGTAAACCATCTGCTTCAAGAAGCATATCAGATATTTTTGGAAGTTCATTCTTTCTTAAATTTTCAAATTTGTCTTGCCAACCATTATATTTGATTTTTAATTTATCATCTTTTACAAGTGACTCTACTTTACCTAATTCACTTAATATAGGAGCACTTATAATAAGGTTCTTTTCTTTTTCTAATAAAGCAATTTGACTTTTTAGTTTCTTTTTTCTATTAGCATTAATAAGAAAAAAGATACCTACCAAAATAGAAATTACTACTACATAAATTGTTACATATAATAGTGTACCCTTCATATTTATACTCCTCCATATTATATATAACATTATATCACAGGTAAGTATAAAATTATATAGTTTTTAAAAAAATGTTGACTATTCCTTTATTTTTAGGTATTATTATACATGCAAACAAATTGTGCGGATTTTATCTATATAATGTGTTATATTGCATTTGTTTTACGATTAATATGTCCTTTAAGCACACATATGAAAGTATTAAAATATACACCCTATATATATAAGGTCTTACTTAAGTTTGAAATTTAAGTAAAGGAGGAAAAAATATGTCAAGATATACTGGATCTGCTTATAAGAAAAGTAGAAGAGTTTCATTCTCAACATTAGAAAATGGTAAAGATTTAGCTAGAAGACCATATAGACCTGGTGCTCATGGTCAAGATAGAATTAAACCATCTAACTATTCTGCTCAATTAACTGAAAAACAAAAAGTTAGATTTACTTATGGAATGAATGAAAAACAATTCCACACATTATTCTTAAAAGCTGGTAAGATGGAAGGTATTCATGGTGAAAACTTCTTAAAACTATTAGAATCTAGATTAGATAACGTAGTTTATAGAATGGGACTTGCTACTACTAGAAGAGCTGCTAGACAAGTTGTTAACCATGGTCACATTCTTGTTAATGACAAGAAAGTTGATATTCCATCATACAATGTAAAACCTGGAGATAAGATTTCTGTTAAAGAAGCTTCTAAAGATCATAAAGCAATTCTTGCTTCATTAGAAAGTATTAACAGTATTCCTGCTTATGTAACTTTCGATAAGAAAAATATGGAAGGTACATATGTTAGATATCCAGAAAGAAATGAATTAAGTGCTGATATTAATGAAGCATTTATCGTTGAATTCTATAATAGATAATAATAAAAACTAGTCATTTGACTAGTTTTTTTATTATTCAAATATAACTAAATGATATTTCTTTTTACCTCTTCTAACTACTAGGTATTTGTTATATAAACAAGTATCTTTAGTAATTGTAAGTTCTAGGTCAGTAATTCTTTCACCATTTAAACTAATAGATCCATTAGTTAGAAATTCTCTAGCTTCTCTTTTACTAGAAAGTATTCCAGTATTAACAAGCATATCTACTACATTTACTTCTTCTGAAATAGTAGAAGTTTCTACACCGTTAAGTGCAGCTTTTAATTCATCTTCATCTAAAGACTTAATATCTCCAGAAAATAATGCTTCAGTTATCTTAAGAGCTTTTTCAAAACTTTCATTACCATGTAAATCAGTTATTATTTGTTTAGCTAATTCTTTTTGACCTATTCTTTGTTCAGGTGCTTCATTATGTCTCTTCATCACATCATCTATTTCTTCCTTAGAAAGGAATGTAAATACTTTTAAATATTCCTCTACTTTTGCATCATCAGTATTAATTAGATATTGATATAATTCATAACTAGATGTTTTTGATTCATCAAGCCATAAAGCATTACCTTCACTCTTTCCAAATTTCTTACCTGTTGAGTCTACTATTAAAGGCATAGTAAATGCATTAAGTGATTTACCAATTTTCTTATTAATTAAATCTATACCTGTTGTTATATTACCCCATTGATCAGAACCTGCACATTCTAAAGTTACATTCTTAGTTTCATTTAAATATAAGTAATCATAACCTTGCATTAAAGTATAAGCAAACTCAGTAAATGTAATACCAGTTTCTAATCTTCGATTAATAATATCTTTAGCAAGCATATAATTAACATTAATATATTTACCTACATCTCTTAAGAAATCTATCCAAGATATATCTTTAAACCAATCATAATTATTTACTATTTCAGCATTACCATCAAATATATCTAATACTTGTTTTTTAATTGATTCTACATTTTGGTCAATTATATCTTTAGATATTATTTCTCTTTCTGCTGTTGGTCTTGGGTCTCCAATTAAACCAGTAGCCCCACCAACTAATAGTATTGGATGATGTCCTGCATTAGCAAGTCTTTTAGCAGTCACTAAACTAGAATAATGTCCTAAATGTAGGCTATCTGCTGTTGGATCAGTTCCCCAATAAAATGATATTGGTTCTCCATCTAATACTTTTTCTAGGTCTTCTGATGCTACATCTTTAATAAGACCTCTATACATTAAATCTTCATATAATTTCATTTTTTTACCTCCTATAAACAAAAAATACCTATGATGTAGGGACTAATAATAGCGGTACCACCCTACTTCATAGATATTACTATGCTCTTTAATTCTTAACGCGAATCACGATTTAATTCATAACAATGTATCTTCATATTTTACTTGTATAAGTTTCCACCACACCTATATCTCTATATTTCAAATAAAACACTACTTGGTTGTTAATCAATATTAATTACTTGTATTTTATTATAATAATTGACTATTTCAATTATTCATCGTCATCATCATATTCTTCTGAAGTAACATTATCAAGTAAATTAAATAAATCACTTGTGTCTGCTTTTTCTTCAGATTCTTCTGATGATTCTACTACTTTTTTATTCTTTTTAGATCTTGTTTCATGTATTTCTACTTCTTTAGCTTCCTCATTATCTTCACCATAAGAAATAGGAATATCTTCTTCTTTCTCATCTAGATTATAGAATATAGATTTACTTTTATTTAAAGTTTTTTCTAATTCATCATCCATTTCTTTGTAAGCTTTATTTCTTACTTCATCATAGCTTTTAATTTTTTTATTTAAACTATGATCATCACCTTTATTTATTTCTTCTACATCATCAACATTATAATCTCTATCTAGGATACCATATACTGGAGAAATAACAGGACTAGGTCTAAATTTTGTTTTTGATGATTCATTTTTTACTTCTTGTCTTTGAACAGGTTCTTCATCAAATCTTAATCTAGAAGTTGGACCAAAGAATTCATCTTTTTCTTTTTCAGTAAAAGTTTCAGTAGCATCATCATCCATATCAACAGGAAAATTAAATGTACGTTCAGATCTAAATAATTCTAATTCACTTAATTGTGCATTAGGAGCTTCATCTTCATACTCTATTGATATTTTTTGAGTTTTTTCACTAACTTCATCATTTGACTTAAAGAATTCTCTCTTTTCTTTTTTAGGTTTTTCTTCCTTTATTTTATCAGGTTTAATTCTTTTTTCAGGTTTTATTTTGATATTTTCTTCATCATCAACATCTTCATAGAAAAAATTCTTAACCTTATCTACAAATCCCATATGTCCTCCTTACTCATCTATAGAAGTATTTACTTCTTCATGCTCAATTAGACTTTGTGCATCTTCTTCAGCATCATAGACATCATATTTTTTTATTTCCTCTAGATAATTACTTTCCCCATCATCATTATCTATATTAAATAAATTATACTCTTTATTTTCACTTAAATCATATTTATCATTACCTAGAATATCTTCTACTATTGTATCATTATATTTAATCGAAGACAAAGTATAAAAGATTTCTACTAAAGCATCATTTAATTTCTTTTTATTAATATGAGCCTCTATTTTAGAATAATTATACATTGCTTTAACATAATAATAATCTTTTTCATCAGATACTTCAAGATAACCTATATTATCTTTGTAATTAATCTTTTTAGATATATATAAATCATCATTTGTATTATAATCTTTACTTATTTTATGATAATAACTAACTAAATCAACATACATATAATATATTCCATTAGAACTCTTTAATACTTGATTAAATTCATTTCCTTCTTTTTTAGTTATACCATTAAGTAAATAATATTGATAACCAACAGAATTAGTATTAACTTTATAATTCTTTCTTTTTAATACATTATATATATTTGTATCATAACTATTAGTATTTATTCTTACAAAAGAACATCCGCTTAATAGTGTTACACATAATACAAGTAAAACAATCTTTTTTAATTTCATTTTACTACCTACTTTGCTACTTTATTATACCAAAAATTATCTAATAATTAAAGTGTTTTATTTATATGCTTCTAATCTATTTATTTTGATTCCTTTAGAACTAAACTTTTTCTCATATTCAGTTTCTACATTATCTATATCTTCATTATGAAGATCTAAAGTTATATTTTTAATTGTATAACCATATTCAGATAAAGACTCTATAGAAAATGCAAATAATTTAATATTATCTGTTTTCATAAAAATAACTTTGTCTTTCTTAAAAATCTTATCATATTTACTAAGAAGTCTTTCATGAGTAAGTCTTCTTTTTGCATTTCTATTCTTAGGCCATGGATCAGAAAAATTAAGATATAATAAATCTATTTCTTTTTTAAAAACTTCATCTATTTCATTGGCATCCATTCTTATAAGTCTAAGATTTGGAATATCAAGTTCATCTAATTTCTTAACAGCATGCATAAGAACACTATCATACATTTCAATTCCAATAAAGTTTATATCAGGGTATTTTAAAGCCATTCCTATAATGAAATCTCCTTTACCCATACCTATTTCTATATGAATAGGATTACTATTATTAAAAACTTTATTCCATTTAGATATATGTTCCTTTGGATTTAATACTACATAACTAGAATTATTAATTATATTCTTAGCATTTTTATTATTCCTTAATCTCATCTTTTCTCCTGCGTTTTAATATTTTTTCAAACTTAACTATTAATTCTTTACCTATAACTTTTTTAAATACATGTTTATATGTAAATATGAAGTAGAATATCATTCCTACTAAAGTATAAATACTTACAACTATAATAGCAGCCTTTTTGGAATCAACTACTGGATTTATAAACATTCTTAATACAAATAAAGATGCAAGCATTGCAGTAGTTCCTGCCATTATAAAGAATAATGATTTAAATGTATCTTTCATGCTTATCTTCATCTTCTTTATCATATATATTATTGAAATAATATATGTAGATGAAAGTGATATTAATGTAGCAGATATAGTACCAGCATATGGAGGTAAACCTATTTTATATGCAAATACCATTAATGGGAATTGTAACCCTGCTTTAAGAACTAATTCAACAGCAAGAGCAATAAATACTACTTTATATTTATTAACTGATTGCATTATAAATAATGTAACTGTATATAATGAAGATGCTATAGCAGCAAATACAAATATACTAAATACTGATGCTGCAAGTCCATGATTTGAATAGAATAATTGCCATACAGGTTTTGCTAAAAATGATAAACCAACAGTCATTGGTATTCCAAAATATAAAAGCATTATATAAGCTTCATTAATTCTATTTTGAACAGTATCCATATCACCTTTTACATAACTAGATGTAACGTGTGGAAGTAAACTAGTAACTAAACCTGTAGCAATAGCTATAATAATTTGGTTTAATTTAATACCCCAAGTAGTAAGTGTACTCATAACAGTTTCTGCTTTAGCTATAGTATATCCTGTATGATATACAAGTATCTTATTAACAGTAAACATATTTATTAATGTACACGCATTACCTACTGCATCAATTACTATAAATGGTACTGCATATTTAATAATCTTAATCCATATTTCTTTAGTAGAAATACTTTTTTCTTCTTCTTTTTCTTTTATATCTACTAAGAATATATCTTTATTATTTCTAATTTTTAGTCTTAAATATAAGAATGCAAATAATCCACCAATTGTAGCACCAAAACATGCTACTGCAACAGATGTTTTAACATCATGAGATAATTTCATTGCAAAATAGCTACCAAATACTACTATTGCTACTCTAAATAATTGTTCTATTACTTGGCTTATTGATGATTCTGTTATATATTTATTACCTTGTAAATAACCTCTAGATACAGATAAAGAAGGAATAATTAATATAGCAGTAGCTATAACTCTAATAACATATACTATATCCTCTATAGTATTTCCACCTTCTATATCTCCAATTATTTGCATTGCTATAGGTTTAGCAAATACAAATAATAATGTAAATACTATAAGAGCAAATAACGCAAGAACTCTTCTTCCTTGTTTATATACTCTTTCTCTTGTATGATAATATCCTTTTGCATTATATTCACTAATTAATTTTGATATTGCTAAAGGTATTCCTACTGTAGATATAGATAAGAAAGTGGCATATATAGTATAAGCATAACCATATAGAGCTCCTCCTTTTTCTCCTATAACTTTATAGAAAGGAATAACATATACTATACCTATAATCTTAGTTAATATAATTGCAAATGTTGCTATAAAGGCTCCTTGTTTAAAGGAACTTCTTTTCATTTTTCCCATTTGGATCCTCCATTATACTTCTGTATATTTAGATTCATATAAATCTTTATCATCTAATATTTCTACTTCATCTCTATCTATTACAGGTAATTTAGATAAATCTGGCAAATTAAAATAATCTAAAAAATAATCTGTTGTTTTATATAAATTAGGTCTACCTGGTAAATCAGATTTACCTGAATTCATAATAAGACCCTTAGCTATTAAATTTCTAACCATTTGAGAAGAATTAACTCCTCTAATTTCATCTATAGCTACTCTAGTAATTGGTTCATTATAAGCTATAATAGCAAGAGTCTCTAGGGCAGCTTCAGATAAATTATTACTAACTTCTAAAGATATTTTCTTTAAGTAATCTTTATTTTCTTCTTTAGTAATAAGTTTATATGAATTACCAAGAACTTTTATATCTAGTCCTCTTTCTTTTTTACTATATTCATTTCTTAAATCATCAATTAGTTTTAATGCAGTTTCTTCATCAATATCTAGAATGCCTTCTATTTCTTCTAATTTAAGACCCTCTTCACCAACTGCAAATAAAATACTTTCTAAAGCACTAATCAAGTTCTTCACCTTCTTTAACATTAACTGTTATATTATTAAAATTATTATCTTGAGTAATTGTTATTTCCCCTTTTTTAGCCATTTCTAATATTGATAAAAATGTTACTACTACATATTCTTTAGTTCTTACTTCAAATAAATCAAAGAAAGAAATTTTTTTCTTTTTCTTTAATATATTTCTTATTTCTATAGTTCTATCACTAACTAATAATTCTTTTCTTGCAATTTTAGTTTCAAGAGGTTTTTCATCCTCTTTTCTTTGAAAGAATTTATTTAATGCATCAACTAAATTTTCTAATGTAATATCTCCATCATTTTTAATTGGATCACTATACTCTAATAAGTTCATAGGATCTTTAGTAAATATATCTTTTCTTTCTTTTTCTAAAGATTTAAATTCATCAATCATATCTTTATATTTTTGATATTCTACTAATCTATTAACTAAGTTTTCTCTTGGATCTTCTTCCTCTTCTTCTTCATCTTGCCTTGGAAGAAGCATTTTTGATTTTATTAATGTAAGTTCAGAAGCCATAACTAAATATTCTGAAGCTACATCAAGATTTAATTCTTGCATTTTATTAATAAAATCTAAGTATTGTTTTGTTATTTCTTCTATCTTAATGTCATATATATCCATCTTAGATGTCTTTATTAAATGAAGTAATAAATCTAATGGACCTTCGAAGTCATTAATTACAAAATTTGCTTCCATTTTTTCACCCACATATCATAATAATTATATCATTTTTTTATATATAATAAAAGCATTTATGGTATAATTTTCTTAGAGGTTATATATGAAAAGATTTAATATGATTGATGAAGAATTTATATGTGAACATTGTGGTAAAGAAGTTAAAAAACTTGAATATTCTGCTAGAGATCATTGTCCTTATTGTTTATATTCTAAACATGTAGATATTAATCCTGGTGATAGAACTAATACTTGTAAAGGATTACTTAAACCTATTGGAATAGAAAAGTTTAAGGACACATATAAAATTGTTTATAAATGTGAAAAATGTAAGATGGAACATAAAAATATAATGGCTATAGATGACAATTATGATGTTATATTAGAAATATCAAAAAACTAGTAAAATACTAGTTTTTTTATTTACATATTGGTATCAATAGATATTATAGATGATATAATTATATTAGAGGTAAGGATATGAAAAAGAAGAAAAAACCTAATTATAAACTTAGGCGTACTATAGCTAAAACTATTCTTATAATTCTTATACTAACCCCTATTATATATTTTAATAGGATTAGAATTATTCATGTACCTTTACAAATTAAATATCATAAATATAGTGATGTAGTTAATTCTTTATTTGATGCTAAATATACTAATAAAGAAGCTAGTAATACATTAGATAAACTGATTAAAAAAGAAAAAATAAATAGTTTTACTGATGACTATATAGTTAGTTTAAAAGATAAAGGTTATAGTAAGAATACTATTAGTTATGTACTTATAAATTTTAAACCCGGTGATATAAAGTCTTTAATTAATTCAAAATATGATAAAGATATAGAAACTATGATTAAAATATCATATTTTGATTATAATAATTATGATAGATATCTTAATTATAGAAAAGATACCGAAGATATAAAAAGAACTGTTTTAAAAGTTCAATTAGATTTAGATAAAGATAGTTACTCTGATACTGTAGAAGAAACTAATCCCGATTCACTTACTGCTCTTATTAGTAAACATAGATATATTAATGAAGACTATGAACCTAGTGATTTAGTAGATATGAGTGATGATTATGCTAATAACTATTATAGACAGATGCAACTAAGAACTGAGGCATATGAATCATTTAAAAAAATGGTAGATGCTGCTAGAGAAGAAAGATTAAACTTCTATGCAGAATCTGGTTATAGAACATTTAAATTTCAAAAACAATTATATAATAATTACGTAAATAATAATGGATATGCTAAAGCTAATTTATATGCTGCAAGAGCAGGTTTTTCAGAGCATCAATTAGGAACTGCAGTAGACTTAGCGAATATATATACAATTGATGAAACTGATGCAGAATATGAATGGATTATGAATAATGGATATAAATATGGATGGATATTTAGATATACTGAAGAATGGACAGATCTTACAGGATTTGCAAAAGAACCATGGCATATAAGATATGTTGGTGTAGATGTAGCTACTAAGATGCGTGATGAAAAAATATCCTTTGAAGAATATTGGATAAAATATATAAATAAAAAAGAAGCTAAATAGCTTCTTTTTTTATTGTTGACTTCTAAGTCCAGAAACGAATGTACATTTATTAGATGTTGTACTGAATGATCCTTTTAAATAATCTGAAGATGATTTATACCATTCATATTTAACACTGTATGCACTTTTTTCAATAAGAGTACCTTCTACATTTCCAACCATTTCATTGAATTTTTCTAAAGTCATTTCACCTTTGTTTATTATTGATTTCATTTCATCAAATTGAGATAAATCTAACTTATCATTAGCAATTGTTTTTTCATCAAAATTAATTTTAATAGTTGATTTACCACTATTAGGAAAATTAACTTCAACACTAGTATCTTTAGTTACTTCCCATTTATAGATTTTATAACTTTCTTCATCTTTATCTAAAGATCCATCAAATCCCATTTTTTCATTTACTTGTTCAAGTGTATCTGTAGGTTCAATAGTTTTAATACATTCAAATACAGTGCAGTTTCCTTTAATTTTTTCTTTTACTTCACCTTTACCATTTTTAGTATTAACATCACCTTTTTTAGATCCACATCCAGTAAATGTAAATAACATTAATAAACAAATAACTCCAACGAATAATTTCTTCTTCATTTTTTCCTCCTTAGAAATATTATATCACAAAAAATATTAATTTATTCATTTTTTATTCTTAAATAATTTAATTAATCAAAAATGTGTTTTTTAATAAAATAAAATATATTTTTAGAGTAAATTTATCCTCTATTATATGATTTTACTAATTTGTATTATTAATATATTTGAATAATATATATCCTGAAAGGAGAAAAAAGATGTTAAATCAAATTGTTATTATTGGAAGACTTGTTAGAAATCCAGAAATTAAAGAATCTGAAGGAGGAAAAAAATATACTAATATTACGTTAGCTGTTCCAAGAAATTTTAAAAACGCTAATGGAGAATATGAATCAGATTTTATTGATTGTAAATTATGGAATGGGATTGCAGAAAATGCCTCAGAATATTGTCATAAAGGAGATCTTCTTGGTGTTAAGGGAAGAGTTGAAACAAGAAGTTATGAAAAAGATGAACAAAAGAAATATGTAACTGAAGTTATAGCTGAGAAAATAACATTCTTATCAAGTAAAAAAGCAGATGAATAATCTGCTTTTTTAATGATATTGACCTCCAATTTAAAATAATATATAATATTTCTCTAGAAGGAGGAGTTTATGATTATTGTAGTAGGTGTAATTATTTTTGTAGTATTTATACTACTTATATCAATTAGACAAATCTCTGAATATGAAAGAGGAATCAAATTCAGATTTGGTAAGTTTAAGAAAATAATGAACCCTGGTTGGAAACTTGTATTACCTATAATAGAATCATATAAAAAGGTTGATATAAGAACTAAAGCAGTTGACGTTCCAGAACAAGATGCTATAACTAAAGATAATGTATCTATTAGAATTAATGCAGTTATATACTATAAAGTATTTGATGCATCTAAATGTATCTTAGCTGTTGAAAAATATCAATATGCTGTTGGTCAACTAGCACAAACAACTATGCGTAATGCTGTTGGTGCTGTTTCATTAGATGAACTACTATCTGAAAGAGATAAGATTTCTACAGAAATTTGTAATGTAATTGATGAAGCAACTGATCCATGGGGAATTAAAGTTGAAAATGTTGAATTAAAAGACATTAAACTTCCTGATGAAATGCAAAGAGTTATTGCAAAAGTTGCTGAAGCCGAGAGAGAAAAACAAGCTGTTATTACTAAGTCTAAAGGTGAAAAAGAAGCTGCTGATAACTTAGCTAAAGCTGCTGAAGTTTTAAGTGCTGCACCTGGTGCACTTCACTTAAGAACTCTATCGACTCTTAATGATTTATCTTCAGATCAATCTAATACAATTATATTTGCAGTTCCAATCGAAGTACTTAGAGCCTTTGATGGAACTAATGTAGTTGAAACAGTAAAAAAGATCAAAGAAGTAAATAAAAAATAGGCATAAGCCTATTTTTTTATTTTAATAATTTTCAGATTTAACTTCAAAGAAGCTTTGTGGATGATTACATACTGGACATACATCAGGTGCTTTCTTACCTACTACTATATGGCCACAGTTTCTACAAATCCAAATCTTATCTTCATCTTTAGAGAATACTACTTCATCATCTATATTCTTAAGTAATTTTCTATATCTTTCTTCGTGATGTTTTTCTATTTCTCCTACTTGTCTAAATTTAATAGCAAGTTCAGTAAATCCTTCTTCTTCTGCTTCTTTAGCAAAAGTTTCATACATATCTGTCCACTCATAGTTTTCACCATCAGCAGCTGCTTTTAAATTATCCACAGTAGAAGGTACTTCTCCATTATTTAAATATTTAAACCATAATTTAGCATGTTCTTTTTCATTACCTGCTGTTTCTTCAAATATAGCAGCTATTTGTTCATATCCATCTTTTTTAGCTTTAGATGCAAAATAAGTATATTTATTTCTTGCTTGAGATTCTCCTGCAAAAGCAGTCTTTAAATTTTCTTCAGTTTTTGTTCCTTTTAACTTATTATAATCCATAATAACCTCCCTACTCTAATATATAACTTTCTGGTATAAATAAGTATTCTATTACACCTGCCGATTCACCAGCAGGTCCTTCAAGTGACATAAAATGTATATTATTATCATCTGTTTTAAACCAATATGTAAATATAAACCTATCTGTATCTACATTATACATATATACTTCATATCCAGAATAACTACCAATTATTTTTTCTATTTTAGTAACTCCAATACAACTATCATCATAATACTTAGTATTATAATATGAAGCAACATAACTATCTAAAGTAAAACTACTATCTTTTATGGTTTCTAATACTATACTATTATCTTCATATGCATATGTTACTGAATTAAGGCCACCATCTACTTTAGTCCAATTACTTGGAACTTTTATAAATCCATTAACATCATCGCCTACTGTGATTACATCCTTAGGTACTGTGTGACTACTAGTAGTACTTATAGGTGCTTCTTCACCATCTATTGTACATTTTCCAGAAGTTGCTCCTTTAAACCAAGCATAAAATTGTTCAATATAACTATCAGAACCAATATCTTTATATGTTTCATTTTGGTCTTTTTTATCAAAAGTAATACCATCTGTTACTTTATAACTAACTATTTTTTCTTCACTATATTTAAGACTAATATTTCCTTTATCGGAAGTACATACTATTGTCTTTGTTTTTGGAGCAAATATCTTATTTATTATAAAGAATGCTCCTATAATAGCAATAATTATTACTCCAATTATTATATACTTCTTATCAATTCCCTTTTTATAAGATGGTGAACTATAAGATGTATTAGTAGTATAACTTGGAGAACTAAAAACAACATCATTCAAATTATTAATGCCTGTCTCAATTTCATTAGATACTAATGTTCCACATGATGAACATATTGTATCAGTATCTAACAAATTAGCACCACATTTTTTACATAACATAATTAATAACCCTTTCTACTATAATTAATTATAACATTTTTTTATTAGATATTTCATCTTCTTTATCATTATTGTCACTTTTTTCTCCTTTTTGAGTAAGTGCCTTATTATATACATTTAATATTTTATAATATTTTTTATCAAATACTTTTGAAACTACTATAGATCCTAATCCTATAGCACTACATACTGCAGTAAAACCATAAATAAAAGGATCAAAACTATCTAACAAATTAGATTCATAATGACCACTTGCTTTAACAGCAGATAATAGAATACCCCATGCCATAAAATTTATAAATGTATTTCTAACATGTTCTACTCTCTTACATTTTTCATCCACTGAATCTAATATCATCTTAGATATTTCTATTTCATCACCATTAGCAGATTTAATCTTTTTAGCAAGTTCTGAATTATTTTTTACATTAGCAACATAATTACTACTTTTAAATACTATCTTCACTATGAACTCCTTTCTAGAATCTCTTTGTACATATCTACACCAAGTTCCTCAAGAAGTTTTACTAATAATTCTTTATTATCTTTAGCTTCCAAATCTATTTCATTTACTTTTATTTTATTATTATCTTTTTCAACCATTGCAAAAAGATGCTCTTTTGGATCATCTTTATTTACTAAATATACAAAATTAGAGTCTTCTATAATAACACTATTTATAACTATATATTCTTTATTATTATCATATGTTATTATGTCATATTTATCTAAATATCTCATATGGTTTCTCCTATTACAATCATTATACAATTTATATTCTTTTCTAACAATATTTTTACTTAAATTCAAATATGATATAATTATATTGGGGTATGTATTTATTAATTCTTTATATTAAAGGAGTGATAAATATATGGGTTATATTTCAGATATAAGAAAGTTTGTTGGTCATAGTCCAATAATGGCCACAGCAGCCTTAGGTATAATATATGATGAAGATAAGAAATTAATCTTATTTGAGAAAAGATCAGATACTGGAGAATGGTGTATTCCAGGTGGATGCCTTGAATTTGGAGAAACAGGAGAACAAGGTTTAACAAGAGAAGTTAAAGAAGAAACTAATTTAGATATTTCAAATCCAGTATTATTCGATGTTAAACCTAATATGTATACGAAGTATCCAAATGGAGATGAAGTCTACTATACAGATATAGTATATGTAGTAAAAGATTTTACTGGAGAACTAAAACCAGACAAAGAAAGTACTGAATTAAAATGGTTTAATGAAAATAGTCTTCCAGATAATATAACACCTAATGAAACTGAATATATTTTGAAATTTACAAATAAAAAAACTAGTCGTTAGACTAGTTTTCTTTTATTTCTATTAATATATTATCAACCTGATTTAATAATTCATCTAGTGTACCATTATTATATACGGTATGTTGCGCGTTATATCCATATTCATCTAATACTGAGCACTCTATTCTCTTTCTTATTGTATCGTCACCTGTCCAATTATGTGTATGATGTGAATCAATTAATCTTTGTTTTAATCTATTGAATTGAATATTTTTATCCGCTTTTACATTAATAGTCATATCACATTTATCCCATACGCCAAGCATTGGTAAAAATACATAATCTGCTAATACATAATCATATGTTTTAGAATACTCATCAACTAATTCTTCTATTTCTAAATCCATATTATCTTTACATATATCTAACCATTTATTAACAGTATCTATGTTTTGAAATAATGCTATAGGATCTAATTCATCTTGATTAAAAGCTTCTTGTATTTCTTTTCTATATTTAACTCTAACATTACTCTTCATAATATCATCTACAGTAATTAATTTTGCATTATTTAATTTTTCTTCTATATAATTTGAAACCGTAGATTTACCAGATCCAGAACTACCAGTTATACCTATTAACATAAATAGCCACCTCGTGTATATATAATACATTATAGTAAAAAATAAGTAAATAAAAACTTACGATATAAATCGTAAGCTTATATTTACATGGAGCAATTGTGTATCTCGTTTGAGAAACATCAATCGACAAATGTAACTGA
>sequence09
TATCATCTCCACTTAGAGATAGATTTGGAATAATATCTAAATTAGATTATTATTCAATTAATGATTTATGTACAATAGTTAAAAGAACTGCATCTGTATTTGATATAGAAATAGAAGATGATGCTGCATATGAAATAGCTAAAAGAAGTAGAGGTACTCCAAGAATAGCTAATAGATTACTTAAAAGAGTTAGAGACTTTGCTTTAGTAGAAGGAACTGGTAAAATAGATTTAGAAATAACTGAAAGTTCACTTAGAAAACTTAAAGTAGACTCTGAAGGATTAGATGTAACAGATCATAATCTTTTAAAATCTATTATTTATAAATTTAATGGTGGTCCTGTAGGAATAGATGCTTTAGCATCTTCTATAGGAGAAGAAGTAACTACTATTGAAGATGTATATGAACCATATTTACTTCAAAATGGTTATTTAAAGAGAACTTCTAGAGGAAGAGTAGTAACAGAAAAAGCATATAAACAACTAGGAATAGACTTCCAAAAGAATTTATTTGATGAAGAATAAAAAACATATATTTATATATGTTTTTTTAGTCTTTTATAGTATAATATCTTTGGTGATTTTAAATGAAAACTTCAGATTTTGATTACTATTTACCAGAAGAGTTAATTGCTCAAACTCCATTAAAAGAAAGAGATGAAGCAAGACTACTCGTACTTCATAAAAAGACTGGTGAAATAGAACATAAAGTTTTTAAAGATATAATAGATTATTTAGAAGAAGGAGATGCTTTAGTTATTAATGATACTAAAGTTATACCTGCTAGAATTATTGGTACTAAGGAAGATACAGGTGCTGTTATAGAATTACTTCTTTTAAAAGATAAAGGAGAGGATACATGGGAATGTTTATCTAAACCTCAAAAGAGATTAAAAGAAGGAACTATTATTACTTTTGGAGATGGTTCTTTAAAGGCACAAGTAGTTAAGTTAGATAACGATGGAATAACTATTGTTAAAATGTTATATAATGGTATTCTTTTAGAAATACTAGAAAGACTAGGCACTATGCCTCTTCCTCCATATATACATGAGAAATTAGAAGATGGTAATATGTATCAAACTGTATATGCTAAAGATTATGGTAGTGCAGCTGCTCCAACAGCGGGCCTACATTTTACAGATGAATTATTGGGTAAAATTAGAGAAAAAGGAATAATAGTAGTACCAGTTACATTGCATGTAGGACTTGGTACATTTAGACCTGTAATGGTAGATGATGTAACTAATCATAAAATGCATACTGAAAGTTACATATTCCCAAGTGATTCTGCTGAAATATTAAACAAAGTAAAAGAATCAGGTAAGAAAATATTTGTAGTAGGTACTACATCAACAAGAGTACTAGAAACTAATTTAAGTAGATATCCTAAGTTTACTCCAGAAGTATCAGAAACAGATATATTTATTTATCCTGGATATGAATTTAAAGCAGTAGATAATCTAATTACTAATTTCCATTTACCAAAGAGTACTTTAGTAATGCTAGTTAGTGCTTTAGCAGGTAAAGATAATATTATGAAAGCATACAAAGAAGCCGTAGATGAAAAATATAGATTCTTTTCATTTGGTGATGCTATGCTAATAATAGATTAGAGGTCAATATGAAAATAAAATATGAATTATTAAAGAAAGAAAAAAATACTAAAGCAAGGCATGGTAAATTACATACTAATCATGGTACTTTTGAAACACCTATGTTTATGCCTGTTGGGACGCAGGGCACAGTTAAAACTTTATCAGTAGAGGAACTATATGATGTTAATGCAGGAATAATACTTGCTAATACTTATCACTTATGGCTAAGACCTGGTGAAGATATAGTTAATAAAGCAGGTGGACTACATAAGTTTATGAATTATAAAGGTCCAATACTTACAGACTCAGGTGGATTTCAAGTATTTAGTTTAGCTAAACCAAAAGATATTACTGAAGAAGGAGTTATGTTTAAGAACCATTTAAATGGTGATAAGTTATTACTTACTCCTGAAAAATCTATAGAGATTCAAAATAAATTAGATAGTGATATAGCAATGAGTTTTGATGAATGTGTAGGTTTTCCTCATACTAGAAAATATGTTGAAGAGTCAGTTGAAAGAACTCTTAGATGGGCCAAAAGAGGAAAAGATGTTCATAGTAACGAAAACCAAAGTTTATTTGGTATAGTACAAGGTGCTGAATATGAAGACCTTAGAAAACACTGTGCTGAAGAACTTATCAAAATGGACTTTGATGGTTATTCAATTGGTGGAACTGCTGTTGGTGAACCAAAAGATGTACAATACGAGCAAGTAGAATATTCTTGTAAATATTTACCTGAAGATAAAGTTAGATATTTAATGGGAGTAGGAGATCCAATAGATATAATAGAGAACGTTATCAGAGGTGTTGATATATTTGACTGCGTTATGCCTACAAGACTTGCAAGACATGGTCATGCATATACTAAATATGGTAAAATCAACTTAAAAAATAAACAGTTTGAAGAAGATTTTACTCCTGTAGATGAAACATGTGACTGTTATGCATGTAAGAGTTATACGAGAGGCTATATACATCATTTAATTAAAGCAGAAGAAACCTTAGGAGCTAGACTTTTATCAATTCACAACATTAGATATTTAACAAGATTAACAGAAGACCTAAGAAAAGCTATTGATGAGGATAAAATCCTTGAATATAAAGAAGAATTCTTAAAAAATTACAAGTTTTAGGTTTTAAAACTTGTATTTTTTTTGTATAATTATTATTAGAGAAAAGAATATTAAAGGAATATAGAAGTAGGAGATGGATTTATGAACACTTTAATTATTTGCGGAATTATATTAGCAGTTTATTTAGTATATTCTTTTGCAATTTCAAAACTATTAAGAAAGGTTAATCAAAAATGGTATTTAGGATATATACCAGTTATTAATTTTATTAAACTATTAGAATTAGCAGATTATAAATGGTATAACATTTTTAAATTTATTATACCTTTAGGAGTTCTTGCTATATGTTATTTTGGCGGCTTTAAAGAACAATTTATTTATTTAATAGAAGGTTTTTCTGCATTATGTTTTATTTGGTATCTAATAATGCTTAAATATAGACTTTCAAAGAAATTTAATAAAGGATTATTATTTACAATTATATTTGCTATTATTCCTTTATTTCCATTTGTTTTATTATCATTTGATAATAGTAAATATGATTATAAATTAGAATTTACATCTGTAAGAGCTAAATTCTTAACAGTATTTTTAACAGTATTTTCTTTAGTAGTAGGATTTACTATTTTAATACCTACAGTATTTGATAATATTACTAAAGGATTAGATTTAGCTGGTGGATTTGAAATACTTTATAAGATATCACCTGCTGAAGAAGGTGTTGAACTTACTAGTTCAATGGTAGAAGATACTTATAGAACAATGGTTAGAAGAATAGATGCACTAGGTGTATCTGAACCTGAAATTACTATTGAGGGTAAAGATAAGATAAGAGTTAAACTTGCTGGTATTTCTGATGTAGATACTGCAAGAAACTATATTACATTAGCTGGTGAATTAACATTTAGAGATTCATCTGATAAAAAATTAATGGGTAAAGAAGTACTTAGTAGTTCTATGGCTGCTAAAGTATCAAAAGATGATAGTGGTAGACCAGCAGTATTATTAAATGTTAAAGATACTGATACATTCTATAATGTAACTACTGATATATCTAAATCAAATGATAGACTTATTGTTATTTGGCTAGATTATGATTCTGCTACAGATAGTTATAAGACAGCTAATTGTGGTAACTTTGAAAATCTAGTAGATGCTAAATGTTTATCAGCAGCTACAGTATCACAAGGATTTAGTAGTAATGTTATTATTCAAGGTAACTTTACTGAAGAACAAGTTGAAAACTTAGTTGATTTAATTAACTCAGGATCAAATAATGTTAAGTTTAAAGAGATTTCTTCACAAACAGTTGGTTCTGCCTTTGGAGAAAATTCATTAGATAAAACTAAGATTGCTGGAGTTATTGGTATAGCTTTAATAATTGCATTTATGGTATTTGTTTATAACTTTAATGGATTTATATCATCAAGTGTTATTCTTGTATATGCATTCTTTACATTCTTAATCTATTACTTAATAGATGGAGTACTTACATTACCTGGTATTGCAGCCTTAGTACTTGGTGTTGGTATGGCAGTAGACGCTAATGTTATTACAGCAGAAAGAATTAAAGAAGAATTAAGAAAAGGTAAAACTTTAAAAGATGCATATAAGAATGGTGTTAAGAATTCATTTAGTTCAATATTAGATTCAAACGTAACTACATTTATTGTAGCAGTTATATTATTTATGTTTGGTACAAGTTCTGTTAAAGGATTTGCTACAATGTTAATGATTAATATTGCTATGACAATGCTTATAGTAGTATTAGTTACAAGAATTATTACTTATGCATTTATAAATACAGGATTCTTTAATAATAGAATTAAATTATTTATTAATCAAAGTAAGAAAGAAATAGTTAAATCTACTGAAAGGGTAGATTCTAGATTTGAAAAGAAAGTTAAGTTTAACTTTACTAATAACTTTAAGAAATTAATTATACTTCCAATTATATTATTATTAGTTGGTGTATCATTTGCAGTATTTAAAGGATTCAATTTTGGTATAGACTTTACTGGTGGTACAGATATTACTGTAACTGCTAAAGACGCTTCTTTAAAAGATATTAATAAGACTGTTAAAGGTCTTGGATATACAATAATAGAATCTAGTGAAGCAGATGATAATTATTATGTTAAAGTATCTGAAATACTTACTGAAGATAAAGTTACTAATACTAAGAATACTATTAGTGAAAAATATAAAGCATCAGTTGATATTTCAGTAGTATCTAATATGGTTAAGAAAGACCTTATTAAGAATGCTATTAAAGCTTTATTAATAGCTTTAATAGGTATAATCCTATATATTACTATTAGATATAAGTTTAGTTATGCTTTAGCAGCTATTCTTGCGTTATTACATGATTCTATTATGGTAATTATGTTATTCTCAATATTTAGAGTAGAAATTAATTCTATCTTTGTAGCAGCTATCTTAACTATAATTGGTTATTCAATCAATAATACAATAGTTATATTTGATAGATTAAGAGAAAATATTAAGAAGTATTATATGTCTAAGGAGTTTGATGAAACTAAACTTAGAGAAATAGCTAATAGAAGTATTAAAGAAACATTACTTAGATCTATTAATACAACACTTACAACATTACTTCCAATTATATGTTTAATAGTATTTGGATCTAGAGAAATAATTGAATTTAATATAGCTATTACTATGGGATTAATAGTAGGTTTATTCTCATCAGTATTCTTATCTTGTTCAATAATGATTATTATTGAAAGAATGATTACTAAGAATAAGATTAAGAAAGCAAAGAAAGTACCTAAGAAAGATACTAAAAAGAAAAAAGAAACTAAAAGAAAGGTTCAAGAATTAAGCGTAAAAGGAATTAATGCTTAATTCTTTTTTCTCAGGAAGGAGAATAAAATGGATACAAAACTCGAAATAGATAATATTTCTGAGCTTATAACTGCAGTTAAAGAATATATTGATGATGAATCAGAAATAGAAAATATTAAGAAAGCATATGAATATGCTTCAGTTATTCATAAAAATGATATTAGACTTAGTGGAGAAGAATATATGCATCACCCACTTAATGTTGCATATAATTTAACTAAATTGAATGCTGATTCTGATACATTATGTGCATCTTTATTACATGATACTATTTATATAGGTAATGCTTCATTAGATGACATTAGAGCTAAGTTTGGTGATGATATAGCAGATCTAGTAGATGGTATTACTAAGATTAATAAACTAAATTTATCAGCTGATTCAGAAGATCATATTAAATACTATAAAAAGATTATAGTAGGTCTTTCTGAAGATGTACGTATAATAATTATTAAACTTGCTGAAAGATGTCAAAATATGAGAACTCTTTGGGCAATACCAGAAGATAAACGTAGAGAAAAATCTAAAGAAACTTTAGAAATATTAGTTCCTATAGCTCATAGATTAGGACTTGGAGAACTCAAAACAGAACTTGAAGTATTATCTCTAAAGTATTATAAGCCAAATGAATTTATATCAGTTGAAGAACAATTAGATAATACTGAAGAAGAAAGACAAGCAATAGTAGACAATATGATTGAAGAAGTTTCTAAACTTCTAGATGAAAATGATATAGACTATGAAATAAAGGGTAGAGCTAAGAGTATTTACTCAATATATAATAAACTATGTAAGGGTAAGAAATTTTCTGAAATATACGATATTTATGCTCTTAGAATAATTGTTAATACAATTCCTGAATGTTATCAAGTAATGGGTATTATTCATTCAGTGTTTAAACCAATGCCAAAGAGAATTAAAGACTATATAGCTAATCCAAAAACAAATATGTATCAATCTATTCATACAACAGTATTTGGACCATATGATAAGTTATACGAGATTCAAATAAGAACATATGAAATGGATAGAATAGCAGAAAAAGGAATAGCATCTCATTGGTCTTATAAAGAAAAAGGTAAAAGTATTCAAGACTCTATGGAACAAAAACTTCAAATGTTTAGAAATATTATGGAGATTAGTGAAGAAAATGAGTCTGCTAATGAATTTGTTAATAGAGTTAAAGATGAAGTGTTAAGTGATAGTATATATGTATATACTCCTAGAGGAGATGTATTTGAACTTCCTAAAGGAAGTACTCCAATAGATTTTGCTTATAAAGTTCATTCTGGTGTAGGTGAAACTATGGTAGGAGCTCTAGTAAATGATTCTATTGCTAAGATGGATCAAATATTAGAATCAGGAGATATAGTTAAAATAATAACTAATAAGAATGCAACTCCATCTATAGAATGGCTTAATATGGCTAAAACTTCTCAAGCAAGAAGTAAAATAAAAGCATATTTTACTAAAATGGATAAAGAAGAAGCTATTATTAAAGGTAAAGATTTATTCTTAAAGGAGATTAGAAGAAGAAAAGAATCTATTAATGAAATAATGGATAGATTAGATAATATTTTAACTAGTTTAAATCTTGAAAATGAAGATGATTTATATTATTCAATTGGTATAGGTAAATATACTTCTGTACAAGCAGTTAATAGTGCATTTAAGGAAGAGGAATCTAAAGAAGACTTTGTTTTAGATAAAATACTTAATAAAAATAGACCTGTTGAAGATCATAAGAATGATATATTAGTTAGTGGTATTAAAGATATTAAGGTAACACTTGCTAAGGGATGTAATCCTATTAAAGGAGATCCAATAATAGGCTATATTTCAAGAGGAAATGGTGTAATAGTACATCATAAAGAATGTAAGAATATACTTCAAATAGAAGATAGAATGATAGATGTTAAATGGAATGAAAATATTAATAAGAAGTTTGAAACTAAAGTACATATTGTAGCAAGTAATAATGAGAATACTTTAGTAGATATTATTAATATTGCGTCTTCAAATAATATATCTGTTTCAAAAATTAATACTATATATAATATGGATACAAATACATTTGAATTAACTATTAAAGTAAGTGATATTGATACATTAAATAAATTTTTTGCTAATTTAAGAAGAAATAATAATATTAAATTAGTAGAAAGGATATTTGTATGAGAGTAGTTATTCAAAGAGTAGATAATGCATCTGTATTAGTTAATTCTAAATATACAAATAGTATTAATAAAGGGTATATGATATTACTTGGTATATGTACAACTGATACTGAAGAAGATGTAGATTACTTAGTTAATAAAATAGAAAAACTAAGAGTATTTGAAGATGATAATAATAAAATGAATCTCAGTATTAAAGATGTTAATGGAGAAATATTATTAATAAGTCAATTTACTTTATATGCAAATACTAAAGAGGGCAATAGACCATCATTTACGGATTCAATGAAATTTGATGATGCAAATAATATGTATGAATTATTTAAAGATAGTTTATTTAAAACAAATATACCGTTTAAAACTGGTGAATTTGGAGCAGATATGAAGGTTAGTCTTATAAATGATGGACCTGTTACTATCATAATAGATTCTAAAGATAGAAATGTAAAATAGTATATATTTTATAGACTTTTAAGGTAAAAATGATATAATTATATTACAAGAAGGGAATAAATATTATGAATAAAAAAGAAACAATTACAGGTATTAGTAAACAATATGAACCAATATTAGTATATTTAATTAGTTTACTTGGTTTAATATTTTCATTTATGAAAGATGATGTAGATAAGGAAGCAAGATGGGTATACAATCAAGCAGGAGCTTTATTTATTGTTAATGCTTCTGTTGGTGTTGTATGTTCTATGTCTATTATTATTCCAATAGTTGGTATTTTAGTAGGTATAATTGGATGGATGGTTAGTGTAGCTTGTTTAGTATTTGCTATTATAGCAATTATTAAAGCATATAATGGTGAACACTATGAAATACCAGTTATTGCTAATATAGCTAAAGCTATATGGAAATATGAAGATACACCTAAATCTAGTGCTAAAAAAGATACTAAAACTGTAAAAGAAGTAGAAGTTAAAGCAGAAAAGAAAACTGCAAAGAAAACTGCAAAGAAAGAAGATTAATCTATCTTCTTTTTTTATGCTATGATATAATTAAAGTGGTGATAATATGAAAATTATAATAACTGCTGGAGGTACAGGAGGTCATATATATCCTGCACTTGCAATAATAGATAAAATAAAGAAAGAAGATAAGAATTCTGAATTTTTATATATTGGTACAACTAATAGAATGGAAAAAGATATTATTCCTGAAATGGGAATACCTTTCTATGGAATAGAAGTATATGGTATAAAAAGACAAATTACTTTTAAAAATATTTTATTTAATATAAAAGCAGTAATTAAGTATTTAAAAGGTAATAAACTTGTTAAAAAGAAAATAAAAGAATTTAATCCAGATATAGTTATTGGTGTAGGAGGATATGTAAGTGCTCCTGTTATTAAACAAGCTAAGAAATTAGGATATAAAACTCTAGTACATGAACAAAATAGTATACTAGGTTTATCTAATAAAATGAATTTAAAATATACTGATACTTTATGTACATCATTTAAAGATATGAAAGTAGATAAAGTACATTATGTATATACTGGTAATCCTACTTCTGATAATGCTAAAAACATTAAGAAAACAGAATTAAAAGAACTAGGTATTACTAATAATAAAAAGACTGTATTAATAGTAATGGGATCTTTAGGTTCTCAAACAGTTAGTAATGTATTAAAGAACTCATTAAATAAATTTAGTGATGATTATAATACTATTATAGTTACTGGGAAAGATTATTATGATTCTTATTTAGACATAGAAAAAGGCAATAATGTATATTTATTTCCATATATAAATGGACTTCCATCTATTATGAAATCATGCGATTTAATGGTAACTAGAGCAGGTGCATCTACTATTTCTGAAATAGTATCTTTAAATACGCCAGCTATATTTATACCAAGCCCATTTGTAACTGAAAATCATCAATATAAGAATGCTATGTCATTAGTTTCAGAAGGAGCAGCTTCTTTACTAGAAGAAAAAGATTTATCTCCAGATACTTTAGTTGGGTCAATTAATGAAATAATAAATGATGATAATAAAATTAAAGATATTAAAAAGAATTTATCTAAGTTTGAAATAGATGGTTCTCAAGATAGAATCTATAAAGAGATTGTTAAATTAGTAAAGGAATAATTATGGATAAAATCATTTCTAAATTAGATAGTTCATATAAAATTTTAGATAATGAATCTCTTAGCAAATATACTACATATAATGTAGGAGGTATTGCTAAATATATTATTTATCCTAGTAGTATTGATAAACTAGTAGAACTAGTTAAGATATTAAGAAATAATAATATTAAGTTTAAAGTAATTGGTAATGGTTCTAATTTAATATTTTCATCTAAAACATATGATGGAGTTATTATTAAACTAAATTACTTAAATAAAGTAATATATGAAGATAATATATTAACTGTAGAAGCAGGATATCCAGTTATTAAACTTGCTATAGAAACAGCAAATAAAGGTTTATCTGGATTAGAATTTGCATCTGGTATTCCAGGAGTTATTTCTGGTCTTACATATATGAATGCTGGAGCATATAATAAAGATATGGCCTCTATAGTAGAAGAAGTAAAAGTATTAGATGAAAACAATAATATAGTTAAACTTTCTAATAAAAATATGAATTTTTCGTATAGATATAGTATTTTAAAAGATAAAAACTATATAGTTTTAACTGTAAAGATTAAGTTGGAATATGGTAATAAAGAAGAAATACTTGCTTTAATAGAGGATAGAAAGAAAAGAAGAATGGAATCTCAACCATTAAATTATCCATCAGCAGGATCAGTATTTAGAAATCCTGAAGGATTATCTTCTTGGAAATTAATAGATGATTTGAATTTAAAAGGTTATTCTATAGGAGGAGCTAAAGTATCAGAAAAACATGCTAATTTTATTATAAATAGTGATAATGCTTCTCCAGAAGATATAAGAAATCTTATATTTTATATAAAAGAAAAAGTAAAAGAAAAATATGATATAGATTTAATTATTGAACAAGAATTTGTTAATTGGGAGTAATTATGAAAAAGAAAAAGAAGAAAAGGAAATTAAAAAAAGTATTTATAGTTATCTTTTTCATTTTGATTATTTCTTTGGTTGGATTCCTTTTATCTTTGGTTAAGACAAGAGGTTTCTATGTATTAGATAATAATTATGTAGATGAAGATACTGTATTAGATACTTGTGGTCTTGATGAAAATACATCATTCTTTTTTACATGGTCAATATTTATAAATAATAAATGCAATAATAATAGTATGATTAAAAAAGTTAAAGTAGATCATACTAAAACATTTGAAATAAAATTACATGTAGAAGAATATAAAGTTATATTTAAATATAATAATTATGCTATTAATGAGTTAGGTAAGAAAGTAAATCCTGTATATGAAGATGCCCCAACACTTGTTAATAAGATTGAAAACAAAGAAGTATATGCTAATTTTATTAAGAAAATGAATAAAGTAGATAATCAAATATTATCTATAATCTCTGAAATAAAATATGATCCAAATGAAGTAGATAATGAAAGATTTTTATTTTATATGAATGATGGTAATATGGTATATATTACTCTTAGTAAAATAACTAAAATTAATTCTTATCCTTCAATTATTAAAACCATTGAAAATAAAAAAGGAGTTTTATATCTTGATTACGGGAATTATTTTGTTCCTAAAGAATAAAATTCTTTTTTTTTAGTCTAAATAATGGTATAATATTATTAATAATAGAGAGGTATCTATATGAGAAAAATATATACTGCAATTGATATTGGTTCTGATACAATTAAAGTTATAGTACTTGAAAAATTAGATAATAAATTAAATGTACTAGCATCTAATATATATCCATCTTTAGGTGTTAAAAATGGTGTTGTAATAGATGAAGATTTAGTATTAGCTACTATAAAAGAATCTCTAAAGAAGATTAATAGTACATTAAATATTAATATAAATAAAGCATTAATTAATGTTCCTATGGATGATGCTAATTATAGAATAGTAGATGGTTATACTACTATTACAGGTGAAGACTCTATAGTAACTAGAGATGATATATTAAATACACTTCAAGCATCTATTTATAATAAAATACCAGAAGATGAAGAATTAGTTACTGTAATGCCTATAAAGTATGTTTTAGATGATAGAACTGAAGTTAAAAATCCTAGAGGATTAAAAGCAAGTAAATTAAGTGCTCTTGTTATGATGGTAACTGCTCCAAAAGCAAGTTTATATAAGCATTTGGCTTTATTTGATAAAGTAGGTATAGAAGTAGTAGATATCTTGTTTGGTAATATTGGAGATTATCATGCATATAAAGAAGATGAATTTGATAAAGGTGTAACAGCTGTTATAGATATTGGTTTAAATAAGACTGATATTTCTATATTTAATAAAGGAATAATATCGGCTTCTAAAGTATTAAAAATCGGATCATTTAATATAGATGAAGATTTATCATATGTATATAATATTCCATTAGATAAAGCTAGAAAACTAAAAGAAATGTTTATTAATCTAGATAAATCTAAAGCCTCTAAAGATGAGTTTTATGATATAAAAGATAAATCTAATATAAAAGTTAGTATAAATCAAAAAGAAGCTAGTGAAATAGTTTATAATAATTTATTAGAAATAATAAAAAAAGCAAAAAAAGAGCTAAATAACTTAACAAAAAAAGAAATTCATTATATAATTATAACAGGTGGAATAAGCAATATTCCTGGTTTTGATAAGTTATGTATAGAAGTATATAATGATATAGTACCTACTAAAATGAATAAAATAGGTATTAGAGATAATACATATTCTTCTGCATATGGTACTATTAAGTATTTCATTAATAAACTAGAACTAAGAGGTAGAGAATATTCTATGTTTAATGAGGATGAAATAAGTAAAATGGTTAGCAATGCGATTAAAAATGAAGATACAAAAATTTTTGGTAGATTCTTTAGTCGCTTATTCGATAAGGAGGATTAATAATGGCATTAGAAATTGATCAATTAGCAAAAATTAAAGTTATTGGTGTTGGTGGCGGTGGTAATAACGCTGTTAATAGAATGATTGAATCTGGTATTAAAGGTGTTGAATTTATTGTTGCTAATACTGATTCTCAAGCACTTAGAAATTCAAAAGCAGATATAAAAGTTCAACTTGGTAAGTCTGGACTTGGAGCAGGAGCTAATCCTGAAGTAGGAAGACAAGCTGCTGAAGAAAGTAAAGATGATTTAAAAGAAATTCTTAAAGGTGCTGACATGGTATTTGTTACATGTGGTATGGGAGGAGGAACTGGTACAGGAGCTGCTCCTATAGTTGCTGAGATAGCACAAAGTCTTGGTGCTTTAACAGTAGGTATTGTTACTAAACCATTTTCATGGGAAGGTAATAAAAGACTTTTAAATGCAGATGAAGGATTAGAAAAATTAAAAGAACATGTTGATACTTTAATTATTGTTCCAAATGATAGATTAAAAGATATTATAGATAAGAATACTCCAATGATTGCAGCGTTTAAAGAAGTAGATAATGTACTTAGATTAGGTGTTCAATCAATATCTGATTTAATTGCAGTTAATGGATTAGTTAACCTAGACTTTGCAGATGTTAAAGCTGTAATGGAAAATAAAGGCGATGCATTAATTGGTATAGGTGTTGCTACAGGTGAAAATAGAGCTATAGAAGCTGCTAGACAATCTGTTAGTTCACCACTTCTAGAAACAGATATTAGAGGTGCTACAGATGCTATTGTTAATATTACAGGATCTAATAACTTATCTTTAACAGAAGTTCAAGAAGCAGTAGAAGTTATAAGACAATCTGCTCAAACAGATATAAATATTATATTTGGTGCTGTTATTAATGAATCTCTTGGAGATGATGTAATAGTTACAGTAGTAGCTACTGGGTTTGATAAAGTAGGGGATGCATACTTAGATACATTCCATGAACAAGTAATAGAAATGAATAATCCTGTTGCATCAGATGAAGACGATGATGACGGATGGGATATCCCAGATTTCATTAGAAATAGGAAAAATATTTAAATGTAAAAAAGAAGTGTAAACTTCTTTTTTTTTGTCTAAAAATATAGACTTTTTTAATATATAATTATATAATTGAATTAACCAGTGGGAGAAAGTGGTTGAATGTGGGGGATGTCTATGTTAATGGGAGAATATCATCACAATTTAGACGATAAGAATAGACTTATTATTCCATCTAAGTTTAGATATGAACTTGGTTCTAAGTTTATTATCACTAGAGGACTAGAAAAGTGTCTATTTGCTTATTCTGTTGATGAATGGAACAAGATTATAGAAAAACTTAATTCACTTCCATTTACTAGTAAAGATGCTCGTACATTCATGAGGATGTTCTTATCAGGGGCCACTGAGTGTGAACTTGATAATAATGGAAGGATTTGTATCACAGGACCTTTAATGAATTATGCTTCTTTAAATAAAGAATGTGTAATTATAGGTGTTGGTGAAAGAATCGAAATTTGGGATCAAGATATGTTTAATAACTTCTTTAATGAAAACATTGATAACTTCAGTGATGTAGCGGAGAATCTATTTAATGCATATTAGTGTATTACTTAATGAATGTATAGAGAATCTAAATATTAAAGAAGATGGAATATATGTTGATGCTACTTTAGGATACGCTGGTCATAGTTCACAAATTTTAAAACGAATAGCAAGGGGTTGCTTATTCGCCTTTGATCAAGATGGGGAAGCTATCGAATATAGTACAAAGATTCTTGATCAAATTAATGATAATTACGAGATTATAAATAATAATTTTGTAAATATAAAAGAAGAACTAGAAAAAAGAAATATTAAGGGTGTTGATGGGATCTTATTTGATTTAGGAGTTTCATCACCTCAATTAGATGAAGCAGAAAGAGGATTTAGTTTTCATAATGATGCTAAACTTGATATGAGAATGAATCAAAATCAAAAATTATCTGCTTATGAAGTAGTTAATACTTATCCAAAAGAAAAACTCATAAAGATATTTTATGAGTATGGAGAAGAAAAGTTCTCTAAATCTATAGCAGAAGCAATATGTAAATATAGAGAAACTAAATCTATAGAAACTACTTTAGAGTTAACAGAGATAATTAAAAACTCAGTACCAGAAAAGTATAGAAGACTTCATCATCCTGCTAGAAAAGTATTTCAAGCAATAAGAATTGAAGTTAATAATGAATTAAATGTTTTAGAAAAAGCATTACATGATTCATTAGAATTACTTAATCCTGGTGGAAGAATATGTGTTATAACATTCCATTCATTAGAAGATAGAATAGTTAAAAACATATTTAAAGAAGCTACTAAAGAAAATGAACTTTATAAAGGAATGCCTAATATTCCTGATGAATATAAAACAAAATATAAATTAATAGGTAAATATAAACCTACAAAAGAAGAACTTGAAAATAACAATAGATCTAGAAGTGCAATTCTAAGAGTTATTGAAAGAATATAAAGGAGAGAATTATGGGAAAGAAAGTTAGAAGTAAAAAGAAAAACATTGAAAGAAATTTTATTAATTTTGGCGCAGTAATATTACTTTGTTTATGGGCAGTATCTTTCTTTGCCAAAATTAGTTTATCTTCATTAAACATAGAAGTTGAAAAGATTAAATCATCAGTTAAAAATCAATCTGAAACTAATCAAGCATTATCTATGAAAATTAATGAACTTGCATCCTTAGAAAATGTAAACGAGGTTGCAAATGGAAGCGGATTGGCTTATAATAATGGTAACATTAGAATAGTTAATAATAGATAGGAGAATATCAAATGAAACAAAAAGTTCAAAATAAAATACATGTTAATAAATTTGTTATTTTATTTGGACTTTTTTTATTTGCAATAATAATAGCTAGATTAGTATATTTAAATATATCTCCTAAAATAGATGGTATTAATCTATCTAAATTTGCCAAGAATAGAAATACTGTTAAAAGAACTTTAAATGCTAATAGAGGTACTATATATGACTCAAATGAAGAGGTTTTAGCAGAAACAGTAGATTCATATACTGTAGTAGCATTCTTAGATAAATCAAGAAGTAAAAATAGCACTAAACCAAAACATGTAGTTGATGTAGAAGAAACTGCCAAAGCATTATCTCCACTTATTAATATGAGTGAAGAAAGACTTATAGAACTTATGAGTCAAAAAGGATTATATCAAGTAGAATTAGGCCCTGGAGGTAAAGGATTAACAGAACTTCAAAAAGAAGAAATAGAAAAACTAGAATTACCTGGTATAGGATTTATTCCTACGCAAAAGAGATATTATCCTAATCTAGATTTTGCATCATATGTAATAGGTTATGTAAGAGAATATGATGATGGTAAAACAGTTGGAGAAATGGGTATAGAAGCTAAGTTTAATAGTGAACTTACTGGTGTTAATGGATCTGTTACATATCAGCAAGATGCTAATGGATATAAACTTATTAATTCTCCAGAAATTAGAATAGAAAAAGAAGATGGATATGATATATATTTAACAATAGATTCTAATGTACAATTAATGACAGAAAGAGCATTAAATGATGCATTTAGTAGATCAGGTGCATCTAAAGCAATATTTATAGTAGCAGAAGCTAAAACAGGTAAGATTATTGCTTCTGCAACTAAACCTAGTTTTGATCCAAATGTAAAGAATATTACTAACTATCTTGATCCATTAGTATCTTATTCATATGAACCTGGATCTACTATGAAAACATTTACATATATGGCTACTATTGAAAAAGGTAACTATAATGGACAAGATACTTATCATTCCGGTACTATGAAAATAGATGAGTATACTATTAAAGACTGGAATACTTATGGATGGGGAGATATTTCATATGACTATGGATATGCTCAAAGTTCTAACTTAGGAGTAGCTAATTTAACTCAAAAGTATTTAACTGGTCAGGAATTAAAAGATTATTTAAAGAAACTAGGATTTGGTTCTAAAACAGGTATAGAACTTCCAGGTGAAGTTTCTGGTAAAGTAGATTTTACATATAAAATAGAGGTTGCTACAGCATCTTTTGGACAAGGAATAACTATTACACCAGTTCAAATGATTAAAGCTTTAACAGCTATCTCAAATGATGGTTATGTTTTAAATCCAACAATAGTAGAAAAAATAGTATCTCCTGATACTGGAGAAATAATATATCAAAATAAACCTCAAAAGGGTACTAAAGTTGCATCACAAGAGACAGTTAATAAGATTAAATCTTTAATGAATGATGTAGTTACTATAGGAACAGGTACTAGTTATAATATGGATGGCTATGATATTATAGGTAAAACTGGTACAGCAGAGGTATATAACGCAAATACTGGTAGATATTATAAAACTACATATAGAAATATAAGATCTTTTGCGGGTATGTATCCTAAAGATAATCCTAAATATGTAATGTATATAGCATTTGAAAATGCTGCATCATCTTCTCAAATGGCAGATGCTGTTAAATCATTAATTCAAGATATAGAAGCTTATTATAATCTAACTAATGTTAGGGCTACTACTAACTATGCATATAAAGTAGGTAATTATTCTAATAAGAAAGTAGTAGATGTAAAAACAGAATTAGATAATAATGGTATATCATATGAGTTAATAGGAGACGGAGATATTATAATAGATCAATATCCTACTAAAGATAATTATGTAGATGGTAAGATTTTATTAAAGACTAATGGTAATATAGGAGATACTGATTTAAGAGGATTCTCTTCTAAGTCTTTAAGAAATTATTGTAGACTTATAAATGCAGAATGTAATTTAAATGGTTCTGGTTATGTAACAGATCATAATTTTGAAAAAGATGAAACTGGTAAAATAATAAAAGTTAATGCAGAATTATATTTACCAAGTGCAGAATAATAAAAAAACAGATGATTAAATCATCTGTTTTATTTTACAATTCGAAGGCGCCCCCCTGAAGTTGCGCCTTCTTAAAAAAGAATAAAAAGGGGTTGGCTAGTGTGATACTAGCAGCCAATTCGCCATTCGGGAATTGGTATCAATTATATTAATGATTTTAGGTACTTTTGTCAACCTAAAATGTAAAAAAAGTTTAAAAAATATGATATAATTTATTTAGGTGATAACATATGTTTGGTTTAGATAATATAAAAGGTATTGGACCTTCTACAATTAATAAATTAAATAAGTTAGATATATATAATATGGAGGACTTAATTAATTATTTTCCGTATAAATATCATATATTAAAAAAGACTTCATTAAATGAAGAAAAAGTAGTAGTATCAGGTAAAATATTATCTATTCCTACAGTCTCTTTTTTTAAGAAGATGAATAGATTATCTTTTACTATGGAAATAGATAATCGAATACTTAATGTAACTATTTTTAATAGATTATTCTTAAAAGATAAATTAACTATTAATAAAGTAGTAACAGTAGTAGGTAAACTAGAAAAAAATACTATTACTGCATCAGATATATATTTATATGATATAGGAGATAATATAAATATTATTCCAGTATATCATTTAGTAAAGGGATTAACATCTAAAAATATAACTAAATATATAAACGAAGCAATAAATACATCATATATTTATGATTATATTCCTGAAATATTATCTAATAAATATAACTTTATATCTAAAAAGGATGCTATATATAAAGTAAATAATCCATTATCTATGGAAGACATAGATATATCAAGAGATAGACTAAGATATGAAGAACTATTTATTTATTCTTTAAAGATGAATTATTTAAAATCTAAAAAAGATAATAATGGAACATCTCTTATTACAAATAAAACTAAATTAAATGAATTTATTTTATCTTTGAGTTATTCATTAACAAAAGACCAATTACATGCTTTAGAAGATATCTTTAAAGACATGGAATCAACTTCTAGAATGAATAGATTAATAGAGGGTGATGTAGGTTCTGGTAAAACTATAGTAGCCCTTATAACTATGTATGCTTACTTTTTAAATGGATATCAATCTTCTTTAATGGCTCCAACTGAAATATTAGCTATTCAGCATTATAATAATATGATTAATTTATTTAAAGACTTTAATGTAAATATAGCATTAATTACATCATCTACTAAAAAAAGTGAAAAGAATAAGATATATGAAGGAATTAGTAATGGATCTATTAATATGGTAATAGGTACTCATTCTCTTTTAAATGAGGATTTAGAGTTTAATAATTTAGGTCTAGTAGTAACAGATGAACAACATAGATTTGGAGTTAATCAAAGAAAGAATCTAAGAAATAAAGGTAATAATGTAGATGTTTTATATCTTTCTGCGACACCTATACCTAGGACGTATGCTTTAACTCTTTTCGGTGATATGGATATATCTATTATTGAAAGTAAGATATCTGGTAGAAAAGAAATAACTACTAAAGTATTTAAAAATAATCAAACTGATGAATATTTAAATATGATATATAAAGAATTAAAGGAAGGTCATCAAGTATATATAGTATCTCCTTTAATAGAGTCAGAAGATGAAACTCTAGATATTAAAAAGTTAAAAGAAAAGTTCTCTTTAGCATTTAAAAACTATAATATAGATATTCTTCATGGTAAGATGAAATCTAAAGAAAAAGATGAAATAATGAATAAATATAAAAATCATGAAATAGATATTTTAATATCTACGACAGTTATAGAAGTTGGAGTAGACGTTAAGAATGCTACTATGATAGCTATATTTGATGCTGAAAGATTTGGATTAGCAACTCTTCACCAACTTAGAGGAAGAGTTGGAAGAAATGATTTAGAGTCTTATTGTTTACTTATATCTAATAAAGAAACAGAAAGACTAAAACTAATGGAATCTATCCATGATGGGTTTAAACTTTCAGAAGAAGACTTTAGACTTCGTGGATCAGGAGATTTGTTTGGAACAAGACAACATGGAGATATGAACTTTAAAGTGGCAAAACTACCTAGAGATATTGATGTATTAAAACATACAAGTGACGATTCAAAAGAAATATTAAAAAATATTGATAATTATTCTTTACTTCAAGGTATAATTAAAGATATAAGAAAAAAAGATTAGGAGGAATAATGAAAGAACAGTTTTTATTAGATAAATTATCTAAGATGTCTCTTCAAACTAAAATTGGTCAAATGTTACTAATTGATTATAGGAATGAAGATGGCTTTAAAATGACAGTAGATTTAGAAAAAGTATTAACTACTTATTCTCCAGGTGGTTTTATACTTTTTAGAAGCAATTTAAGTGATTATAAAAATACTCAAAAACTATTGCATAGTATTAAAGAAATAGGAGATATTAGTCCCTTTATAGCAGCTGATCATGAAGGTGGAATAGTTCAAAAACTATCAGATGTTGGTTTAACTAGAATTCCATCTATGGAAGAAGTTGCTAAAACTATGTCAGAAGAAGATGTATTTAATCTTGGTAAAAAAATGGGTGAAGAATTAAAATCAATAGGAGTAGATATGGATATGGCTCCAGTACTAGATGTTTTATCTAATCCTAATAATGTTGGTATACAATCAAGATCATTTGGTAGTGATCCAGAGGTAGTAAAAAGACTATCTATGGCAATTGCAAATGGATTAAAAGAAGAAAAAGTAATCTCAGTTGGAAAACACTTTCCAGGTCATGGAGGAGTTATAACTAATTCTCATGAAGATTTACCTGTTATAGATAAAAATTTAGAGGAATTAAAAGTATTAGAATTAATTCCATTTATAGAAGCTATTAAACAAAATGTACCGGGTATAATGGTAGGTCATTTGGCTGTTCCAAAAGTTACAGGAGATAAAACTCCTGCTAGTTTATCAAAAGTATTAGTAAATGATATTTTAAGAGATGATCTTGGATATAATGGTTTATCATTACCAGATGCTCTAAAAAGAATGGGTGCATTAACTAAATATTTTGATGAAAGAGAAATTTATTTAAGATGTATTAATGCAGGTAATGATATGTTATTAATGCCTCAAAATATTAATATTGCATATGATACTATATACAGAGCAGTTAATGAAGGAACTATTACTGAAGAAAGAATAAATGAAGCGGTTTATAGAATTCTTTCTACTAAATTTGATTATGGATTTTTTGATAAAGAGTATAATGAATATGTATTAAATAATCAAAATCAACAATATGTAAATACTCAATATAAACATAGATAAACAAATTGACAAAAGACATAAAATGTTTTACTATAAATATAGCATAACAAGATATTTGTTATGTGCACTTATACTGGATTTTGTATAAGTGAACCAAACCCCCTGAAGGAGCCTTATGGCTCCGTTTTTTTTTACTTTACATTTTTATTGAATCTATTAAAAATATTTATTATACTAAAAGTAACATAGTATGTTAGAAAGGGAAAAAAATGGGAAAAGAAGTTAAAGAAGAAGTTAAAACAGAAAAAAAGAGTAAAAAAGGTTTAGTTATTACTCTTATAATAGTTGGAATACTATTATTAGTAGGTATTGGTATATTATTATTCTTTTTATTAGGAAGTAAAGATATAACAATATCATTTGATCCAGATGGAGGATCTATTGTAGAAAAGATTACATTTAAGAAAGGAAAAACAGTTTTATTACCTAGTTCTGATAAAGATGGTTATCAATTTGTTGGTTGGTATGTTGGTGATAATGAATTAAAATCAGAGGATACACCTAAATTAAAAGATAGTATTATAGTTAAAGCTAAATGGGAATTATTAAATCCTGATTCAAAAGAAGTAACAATTACATTTGATTCTAAAGGTGGATCTAAAGTGGAACCAATTAAGTTAATTTGTGCAGATGATGATTCTATTACAATTGAATCATTTCCTGCTAATCCTACTCAAAAAGATGCTACATTTATAAGTTGGGTAGATCAACATGAAACTCCAATTTTAGCAGGTGCTAAATTAACATGTGATGATATAACATTATATGCTAATTGGGAATTTGAAGGACCAACAGCAAATCCTGAAACTCCAACTACTACTACAGTAGTTAATGAAAAGAAATATAAATGTCCAGATGGATATGAGTTAAAAGATACAAATAGATGTGTAAAACTTGCAGATGCTGAAAATTATTGTGAAAGTGGATATACTGAAGTAAATGGCACATGTGTTAATAAATCTTCACGTAATGATGGTACAAGAACATGTAAGAAAGAATATGTAGATGGAGCATATAGAACTGGTACTTATATTCAAACAACAGGAAGTCCAGCATATTGTGGTTATATGGAATTACCTTCATATACTGGTACTAGATCTGGATGTGAAAACGCTAATGGTACTTATTCATCTATTAATAATCGTTGCTATAAGGTATTAAAAATAAATAATTATGAAACAACTTGTGCTTCAGGAGAAAATTATTTTGCTGCTCAAGCATTAGGTGGTGGATCAAATCCTGGATGTTATAAAGTTCAATCATTAAAGAAAAAATGCCCAGATGGTTATACAAGTACTAGTACATATGGTGCTTGTGCTAAAGTAATTGATGCTACATATG
>sequence10
TATCATTAACTTCACCAGTTAATACTCCACCTTGAATAGCAGCACCCATAGCAACTACTTCATCAGGGTTAACTTCTTTACTTGGTTCTTTACCAAGTTCATTCTTAATTAAATCTGCAACCATAGGAATTCTTGTTGAACCACCAACAAAGATTACTTTATCAATATCATTTTTAGTCATATCAGCATCTTTTAATGCTTTTCTAACTGGATCTAATGTAGATTCAACTAAATCTCTAATTAAATCTTCAAATTTAGCTCTAGTTAAATTCATTTCTAAGTGTAATGGACCTGATTCTCCTTGAGATATAAATGGTAAACTAATTTGAGTAGAAGTTACACCACTTAAATCTTTCTTAGCTTTTTCAGAAGCATCTTTAATTCTTTGCATAGCCATTTTATCTTTTGATAAATCTACGCCATTTTCTTTTTTGAATTCAGATACTAAATAATCAGAAATTCTATTATCAAAGTCATCTCCTCCAAGTTTATTATTACCTGCAGTAGATTTAACTTCATATACACCATCACCTAGTTCTAGAATAGATACATCGAATGTACCACCACCAAGGTCATATACTAAAACAGTATGTGCATCATTTTGTTTATCAATACCATATGCTAAAGATGCAGCAGTTGGTTCATTAATAATTCTTTCTACTTCTAATCCTGCTATTTTACCAGCATTCTTAGTAGCTTGTCTTTGTGCATCATTAAAGTATGCAGGAACTGTAATAACAGCCTTAGTAACTTTTTCTCCTAAATAACTTTCAGCATAATCTTTAATATATCCTAAGATCATAGCAGATATTTCTTCTGGAGTATATTCTTTACCATTTGCTTTAACTTTTTCAGATGATCCCATTAATCTCTTAATAGAATAAATTGTATCTGGATTTGTTACCATTTGTCTTTTAGCAGCATCTCCAACAATTATTTCTCCATTTTTAAATGCTACTACAGATGGAGTTGTTCTTCCTCCTTCTGGGTTAGCAATAACCTTTGATTCTTTACCTTCTAAAACTGCAACGCAGCTATTTGTTGTACCTAAGTCGATACCTATAATTTTACTCATATTTCATTTCTCCTTTACTCACTAACTTTAACCATTGCTGGTCTAATTACTTTATCTTTATAAATATATCCTTTTTGAAGTACTTCTATTACGATACCTGAATTCTTTCCCTCTACCTTTTCAGTCATTACTGCTTGATGATATGTAGGATCAAATTCTTTATCAAGCGCATCTATAATAGATACTTCATATTTACTTAATGTATTAATTAAACTATCATAAATCATTTTCATACCTTTTTGATAGTTAGTAATATCTTCATTAGAAGTTTCTATATTTAAAGCTCTTTCAAAGTTATCTATAGTAGTTAATAAATCAATTATTAATGATTCATTAGCATACTTCATAACTCTAGCATTATCTTCATCTTTTCTTCTTAAAGAATTAATCATTTCAGCACTTATTCTTAGGTTTTTATCTTCTAATTCTTTTACTTTTAGGTTTAGTGCTTCAATTAATTCTTTTTCTTTGTTTTTCTTTTCTTTTTTAGTTTCTTTTATTTCTTCTTGTTCCATTATTACCTCTCAATATTATTCTTAATGTATTCCATAAGACCTACAACAAAGTCATAATCCATTCTCTTTGGACCTACTATAGCTAGAGTACTATCACCTATTTTTGTTTTAATAACAGATAAATTTTCATCTAATTCATTCTCTTTACCAATATAAATATTTATATCTTCAGATTCTTCTTTTAGATGTTTAATTTTATCTTCATCTAAAGCAGTAATTACTTTCTTTAGATCATTTACATTATTAAATTCAGGTAATTGAAGTATTTTATCTCTACCTTTAATTATAACTTCATCTTTGTTATCTTTAAAATCATTAAATGCATTATAGAACGCAGAATAAACCATTTCATAGTTCATAATATATTGACCAATAATTGGTTTAATTTCAAACTCTAATTTACTAGATACTTCATTTATTGGAGTACCAACAATTAATTTATTAATAAGTTCTACAATCTTTTTAACGTCATCTAAATTAGTATTTTTAATATCTATAGTCTTATTTTCTACATGTCCTGATGATGTAACTACTAAGGCAACTACTTTTTCTTCACTAATAGGAAGAATAGATACCTCTTTAAGATCATCATTAACACCTTTATTTTCTAAAACAACTGCTGTATAGTTAGTCATTTCAGATATTATACTTAAACTTTTTTCTATTGTATTTGATAATGCTAATTGATTATTATTAAAGATTGTTTGAAGTTTTAACATATCTTCACCAGTTATATCTTTTGGTTTCATAATATTATCTACATAATATCTATAACCCTTTTCAGATGGAACTCTACCAGAAGATGTATGTGTTTTTTCTAAGTAGCCTTCATTTTCTAGTGCCATCATTTCATTTCTAATAGTAGCAGATGAAACATTTAATGTATCACATATACTCTTAGATCCTACTGGTCTAATATTCTTGATATACTCTTCAACTATAAGCTTTAATATATTCTCTTTTCTAGTATCAAGCATTAAATCACCTCTAACACAATTACAATTATAAAATAAAAAATTAGCACTGTCAATAGTTAAGTGCTAATTTACATTTTCTTACTAATTTATTGGTATAAATGGTTCAAATAATTCATAACCAAATAGGTATAAGCTAAGTGTTAATACAACCCATAATACTATTAGTGCTATTTGAATCTTTAAAACTTTTTCCATTTTCTTTTTAGGTTTTTCTGTTGCCTTTATTATAGGTATATCTATATTAGTTTCATATATATCTTGATTTTGAATATTCTCCTTTATTTCAGATGCTTTATTTTGAATACTAGAAGCAGTATCCTTTATAACTTCTTTAGCAGACCTTCTAGGATCCTCTAAAACTTCTATTTCTTCATCAGTTTCTAAAGCATCAAAAGGTAGTGATATATTCTTATCACTATTTTCTAAATTGTCCAAATATATCACCCTCTATTCTTTTTATAATTATACATTATATAAGTTCTATTAGTAAAGAGTTTTGTAAATAAATATAATCTTCACAAATACATATATGATTATCTCTTATAACTAATTTATTCTCATTTAGCAGTTTATTTATTTTTTGATTATCTAATAAATCTTTATTATATTTATTCTTATAAACTATTAAATTAATGCCCTTAAGTTTCCTAAAACCAAGTATTAATTCATATTTTTCTTTATCTTCTTTTAAAAGTACTTCTTCATCTCTATTATAATTATTCTTTATATAATGATTAATACTCTTAGTATTAGTATATCTAATATTATTAATATAACCAGAGGCCCCTAGACCAAAACCGTAATACTCTTCGTTATTCCAATATGTTAGATTATGTTTAGATTCATAACCCTCTTTTGCAAAATTACTTATTTCATAATGATTAAAATCTTTTAATCTATTACAAATAAGTTTATACATTTCATAATCAATATCTTCATTAATAGGTTTAATATCTTTTATTTTAGTATTAGGTTCTACTATTAAAGAATATATAGATATATGTTTAACATCTAAAGATAATACTTTATCTAAATCATTATTTAATATATCTAATGTTTCATTTGGAAGAGCATATATTAAATCTATATTAATATTATTAAAATACTTCTTAGCTAAATTTATTTTATTTATATCTATAGATGGTCTTTCCATAAACTTAAGATTATCTTCATTAAAGGATTCAACTCCAATACTTAATCTGTTTATTCCATTAGATTTAAATAATTGAAGTTTATCTTTTGAAATATCTTCTATATTGCACTCAATTGTAAACTCAATACTATTACTTCTATTTAATTTATTTAATATATCAAATAATCTATTAAGTTCATTAATACTAAGTGATGATGGGGTTCCTCCACCTATATAAATAGTATTTAATGTATCTCCTTTATAAAAAGTATTTATTTCATTTTCTAAAGAATTTAAATATTTATTTATAAATAATTCATTATAATATATCTTACAAAAATCACAATATGAACATATATTTTTACAAAAAGGAATATGTATATAACATGACTTAATCAAGAGTATTATCCCTTCTTTTGTAGTCTTCTATTATTTTAAACATAATATTTGTTTGTTCTATAAAATATTTATTTAAATATAGTCTAACATTCTCTTTACTTTGGTTTTCTAATTCATCAAATAAAACATATTGATTACGTTCTATTGATCTATCTTTATTTAATTTTTTATTTACTCCTCTAAATTTGCCACGTTCAAATTTTGTTTTATCTTCATCGCATAATAAATTTACAGGAATATATCTTCTTAATATATGTTCAATATCATTAAAATTTGATTTTAATATAGCTTTTTCACCAGAAGCAGGAAATGATTCAATTGCTCTTGCACCAACTCTACTATATGAAAAACTCTTTTTCTTATCATCATTATATCCAATAGAACCAAAGAATATAATATTACCATTACCATATCCTAATTCTTGAAGTATTGAGGATCTTTTAGTAATAGCATGTATTCTATAATCATCTTTACTTACACCATATCTTCTATATTGGAATCTAAATGGTGCTTTTAGTAAAGTAGTTGTTTTTCTATTTTCAGTTGTTTCTTTTGGATAACTTCCTAGTTGACTCGAATGTTCTTTACCAACAGATAAACTTTCAAATAAGCTTATTAATTCTTTTAATACTGGTTTTCTAGTTGAATTATCAAAGTGTCTATAAAGATCTTCAATAATAGTATCTCCAGTTTCTCCAAGAAAACAAATAATATTTTCTGCATCAGGATTTCTAAAATAATCTGCATCTAATTCTTTAGCAGGTTTTTCTAATAATTCTTTTGCTTCACTTGGTGCTTTGATTGTAATATCTAAATTATCAATAATATTATTTACATCATCTGTGTCATTAATATTTTCCATTGAATTTTGTTCATATGTATTTATTTTAGCCTGTCTATAACTAATAGCATCCAATTCTAATAAATTATGAATTATAGTTTTATACAAATCTGGATCCAAAGAAGTTTCATATTCAGATATAAGATTAAGAGTTTCTTTTGCTTGTTTTCTTTTATTATCTAAAAAGATTACTCTTTCATTATATTCTTTTAGTTCATTTTCTTTTTCTTGCTTTCTTATATTTAATTGATTTACTCTTTCATCTTGAATGGATCTAGTATAATCTGTTTTTTTATCTTCAATAATTGCTATAGCTTTCTCTACAAAATTGAAATTCTTATCAAAAAATGTATCAAAATCATACTTTTTAAGGGCATCTTGAACACTTCTCATTATTTTAACATGATCCACATTTGAAATATAATCTGTTTCATCATAAGTTAATGCATCTTGCTGAGCAGCAAAAGCTTTTACTACTGCATCATTATACTTTATAAAATCTGATTGACTAAATGGATAATCTAATCCTGAAATCTTACTAACAATTAAAATAGTCTCATATGATTTTTTTGGATCTATCAAGCATACACTTTGCATCAATGGAACAAATCCTTTAGCTTCTCCCATTAAAGGATTGTATCCTAGTACCCTACCAATAGCAATTTCTTCTCTTTCTAACGTTTTATATATTTGACCTAATGATTTTTGACCTTTTTCTTCAAATTCCTTTATTTTATCTAATTTTCTTTTTATTTGAGGAGTATAAATGGAATCAACATCATCTTCTTCATTATTATTATCAACATAATTATTTATAAATTCTCTAATATTATCGTATTCTGTTTTAATATCATCAAGTAAAGTATTCAAATAATTTTTAGCGTTATCTAAAATAACCTCTTTTGATTTTTCCATTTTATCACCTCATTTCTATTTATTTTGTTAATACCTCATCTGTATTCTTTTTAACTAAACTAATATTCTTACATGCAGCCTCTATTGCTTTTAAGAAGCAATTTACAGTTCTTACATAGTTTTCTTTATCTCCATATGGAGAAAATGGATTACCACCCATAACAGAGTTTTCATACATTATTACTTTTGGAAACTTAGATCTTAAAAAATCTCCAAAACCTGTTTTATCGGCTTCTTGTCTTTTAGAATAATAATGCTTACCTTTAAGCATTAACATTTCATATCTTTCTGGATCTAAGTCTTCAATAGAACCATCTATAGCATTTTGCATTGAGTCTACTAAATCTTCATTTGATTCTATAATGTTTAAATAATTATTTTTAGTTAATTCTTCGTTTGGTTTATAGTATAAAAGCCCACCTGTACCATGGCATAAAATACATCCACCATATGTATCGGATTCCATAGATTTATTTAATAAACTAAGTAATATTTTGTTTTCATTCACAAAATCTATATTTTCTTCATTTATTATTCCAAATGCTTTTCTTTCATCTGGAATAGAACTACCAAGAGGTCCCTCTTTAGAATAATTTCTAATATTTGATAATGGTCCTCTTGAATCATATACTTCATTACCACTTCTAATAGCGTCTATACCAGGACTATATGGAGTATTACCATTTAAATTAACTCCATCAATAATATTAGATGCAAATTGTACCATAATAGTATGAGCTTGCTTTTCAGTACAAGTAAATAAATAACTCTTTTCAAAATCTATTTTTAATTTAGGATCATCTTTTACTTCTTCTTCTATTTCATTTTTTAAAGTATTATAAGCATTCATAGATACTTGTTTTAATTGATTTTGATGTAATTTAGTAATTGCATTTAAATTAATTAATGTAAGTGGTTTAACAAGTGATGATGAAAGCATTTCTAAATATATTTTTAATGCAATATCATGTTTATTATTTAAATCAAGTTTATTAATAGTATCCATAATAATAGTTCTTACATTATATAAATATTTATCTAATGGTAATGTTGGATCTATTCTTAATATAGCTTGATCAAATGTAAGCATTAGAGCTTCTCCATCTTCTTGAAGATATGGAAATTGTTTATTTAATCTTGGAAGTGCATTATTTTCATGAAGTCTTCCATAAGCTTCATTATTAATTATATAATCTCTATAGTGAACAATAAAGTTCTCATCTGTCATAAACTTATTCATTTCTTTGAATGATTTAAATATTAAATCATCAGTTCTATAATTAATATAATAATCATGACAGAATTCTTCTAAATCTAAAGCATTTCTCTCTATATAACCATTTACTTCAGTCATTAGAGAATCTAAAACTCTATATCCCTCAGGATTTTGAATTGGAATAATATGAATAGTTACATCATTTAATAATGAACTATCAAATTCATCAAAATGTTCTAAGAACTGTGAAATAACATCAACTGCTATTATTTCATTACTATGGGTTCCTCCAACTATAAATAAATCTTTTGGTCCATTACCTATTTTTATTTCATTTAGAGGATATCCAAGAGAAGTAAACCCTACTATATCTATATCAGACATACCTTTATGATTATTAATAAAATTACTTACTCTTTTATTTATTACCTCTAAAGTTGGAAGTACATATTCATAACTATAATTCTTACCAGTCTTTTGTCCTTCAACTTCTATAATATTATCTTTCTTATTTATTTTCATAGTTATCTATAAACTCCTTTATAATATCTTCTTCACTAAAAGGATATTGAACACCTTGAATATCTTGGTATTTTTCATGTCCTTTACCTACTATTAATATTATATCATTTTCTTCAGCATTTGATAAAGCATAGTTTATAGCTTCTTTTCTATCAGTAATTATTTTATATTTACAGTTAGTTTCTTTAATACCAGATTCTATTTGAGAATTAATAACATTTATATCATCTAATCTAGGATTATCCATTGTAATAATAGCAAAATCAGAAAGTTCACCAACTAATTTACCCATATTCTTTCTTTGGGTTTCTCCCTTTCCTCCACCTACTCCAAATATAGTTATAATTCTATTTGGATTATATTCTCTCATAGTATTAATAATACTTTCAATGCTTACTAAATTATGAGCAAAATCTATCATTACATTAAATTTATTACCTACATTAAATAATTGGCATCTACCATCAACTACAGTTGAAAGTAAACCTTCTTCTATATATTTATCTTCAATACCAATTAATTTAGTAACTATAGTTGCTACAGTAGCATTATACACATTAAAATCACCAGGTAAATTAAGATCAAATGTCCCATTAACTCTTCCGGTTAATTCAAATGAAGTATGTATTTTATCTACTCTAGATGCTTTAGTAATCTTATTAATTATTACATCTGCATCTTTTTTACCAAAAGAAATTATTTCACAAGTAGCATCTTCTACCATTCTTTTATATTCATCATTATCTTTATTAAATATACCTACTTTACATATATTAAATAATTTCTTTTTACTATTAGCATAATCTTCATATGTAGGATGTTCTCTACCACTATCAGGAGACACATGATCTAATGATAAATTAGTAAACACACCATAATCAAACATAATATTATCTACTCTACCATGTTTAAGTCCTAATGAAGAAACTTCCATAACAACGAATTTACATCCTTCATTAACCATTTCTCTCATGTATTTATATATTAAATATGATTCAGGAGTAGTATTAACTGTTTTATATTTTTTATCTCCTACAAATATACCAACAGTACCAAACATACCTACTTTATTACCAGCCTTTTCTAAGATACTTTTAATCATATATGTAGTAGTAGTTTTACCTTTAGTACCAGTAATACCTATCTTTATTAATTCTTCATCTGGGTTCTCAAAGAAGTTTTTACTAACAATATTTAATTTTCTTCTAGTATTATCTACCTTAATAACAGTTATTTCATCAGGAACATTAACTTCTCTTTCTACTAATAAAGCAGTTGCTCCTTTTTCAATAGCAGTCTCTATATAATCATGTCCATCAGAATAAAAACCTGTAAGGCATACAAATAAGTCTCCATTAACTACTTCCCTAGAATCATATTTTATATCATTAATTTCTTTGTCTAGAGAACCTTGTAATAATTCATAATCTACATTATTTAATACTTTTTCTAATCTCATACTAATCTCCTTTTATATTTAATATTTCTAAAAATGCTTCTGGTGGAACTTCTACAGATCCAATCATCTTCATTTTCTTTTTACCCTCTTTTTGCTTTTCTAATAATTTTTTCTTTCTAGTTATATCTCCACCATAACATTTAGCAAGTACATTTTTTCTCATAGACTTAATAGTTTCTCTTGCTATAGCTTTATTATTTATAAAAGCTTGTACTGGTACTTCAAATAACTGTCTTGGAATTATTTCTCTTAATTTATTAACCATATTCTTACCAATATTATAAGCAAAATCTTTATGAACTATCATAGATAAAGCATCTACTTTTTCACCATTAAGAAGAATATCCATTTTAACTAGTTTATTTTGTCTATATCCAATTAATTCATAATCAAATGAAGCATAACCTCTAGTGGCACTCTTTAATTTATCAAAGAAATCATATATTATTTCAGAAAGTGGTAATTCATAATGAATATTAACTCTAGTTTCATTAATATATTCCATATTTATAAATGTACCTCTTTTATTTTCACATAGTTCCATTATTGGTCCTATATATTCACTTGGAGTAAATATATTAGTTTTAATATATGGCTCTTCTATATAAGATAATTTCTCCATTGGAGGCATATCTGATGGATTTGATATACTAACCATTTCTCCATTAGTTAGATATACATTATATATAACTGAAGGTGCAGTTAGAATAATATTTAAATTAAATTCTCTTTGAAGTCTTTCTTTAATAATATCCATATGAAGTAGACCTAAGAATCCACATCTAAAACCAAATCCTAATGCTTTTGATGTTTCTGGAGTAAACGTTAAAGATGCATCATTAATAGCTAATTTTTCTAAAGCATCTTTAAGAAGATCATATTCTCTTGTTTCTACTGGAAATATTCCAGAATATACCATTGGTTTTACTTCAGAATAACCTTTTAATGGTTCATTACAAGGATCTTTATCTAAAGTAATAGTGTCTCCTATTTTAATATCAGATATGTTTTTAATAGATGCACATAAATAACCAACATCTCCAGCAGATAAACTATCTACATTAACTATTTTAGGAGTCGTATAACCAATTTCAGTTACATCATAAGAAGAATTATTAGACATAAATCTAATAATATCTTTTTTATTTAATGTTCCATCTACTATTCTTACATGTACTATTACACCTTTATAGCTATCAAAAACTGAATCAAATATTAATGCTTTTAATTTAGCATTCTTATCACCTTTAGGAGATGGTACTCTATCTATTACAGCATCTAATAATTTATCTACACCCTCTCCTGTTTTACCAGATGTAAGTATTATTTCTTCTTTTTTAAATCCAAATGTATTAATTAATTCATTAGAAACTTTATCTACATCTGAGTTAGGTAAATCAATCTTATTAATAACAGGTATAATTTCTAAATCATTTTCTAAAGCAAGATAATAATTAGCTAAAGTTTGTGCTTCTATACCTTGAGTTGCATCAACTAAAAGAATAGCACCTTCACAAGCTGCTAAAGATCTACTAACTTCATAAGAAAAGTCTACATGTCCAGGAGTATCTATTAGATTAAACTCATAACCTTTATAATTTAACCTAACAGCATTCATCTTAATAGTAATTCCTCTTTCTTTTTCAAGTTCCATATTATCTAAGATTTGATCTGTCATTTCTCTTTTAGAAACATTACCGCTTAGTTCTAGCATTCTATCTGCTAATGTACTTTTACCATGATCTATGTGAGCAATAATTGCAAAGTTTCTAATTTTATCTTGATTCATTTTATTTCACCTAAAAATATTATACTATATTTTTTAAGGTTTTTATTGCTTTTTTAAATAATATTTGTTAAAATTAATAAAGTCAAACAACCAATTGGAGGTGAAATTATGGCAAATATTAAAAGTGCTAAAAAAAGAATTTTAGTTACAGATAGACAAAGTGAAGAAAATGTTCCAATTAAATCTAGAATGAAAACTGCTATAAAGAAAGCATTAGAAAACCCAACAGAAGAAACAGTAAACGAAGCAAACAAGAGAATTGATAAAGCAGTTGCTAAAAATATTATAACTAAAAATAAAGCTGCAAGAGAAAAATCACGTGTAAACAAAAAATTAAATAAATAATATCTTTTAATAAGATATTTTTTTTATGCTATAATTCTATTAGAGGTAAAATATGAAGAGAATATTAATAATATTAGCAATATTTATTATAGGTATATCTTTTAGTTATTTATATATTAATACTTCATTATATGATTTTATTAATCCTTTAGAATACAATATTATTAATAATGAATTATATTATAAAAAAGAAAATACTAAAGATAATTATAGTAGTTATATATCATATTTAGATAAAGATACTATAAGTAATAAAGATGAATTATATTCTATGTACTATACTATTTTAAATAATGGTTATGATATATATACTTTTAGTTGTTCTTATGATTGCTTTAATGATATAAATAATATTGATTCATTAAAACTAAGTTTAATAAATCAATTAGTAAGCACTAAAAATGCATATAAAGAAATAAAGACTACATACTCAACTGATAGAAAAATTACTTTAAATATAACTAAGAAATATTCAGATGAAGATTTAATTAGAATAGATGAAGAAATAGATAAAATTATCAGAGATACAAAAATAAATAATTATTCTAGTGTATATGACAAGATAAAAGTATTTCATGATTATATAGCAAATAAAAGTAAATATGATAGTAAAATGGCAAATGATGGAGAATCTGAATATCATTCTAATAGTGCTATTGGTCCTCTATTCGAAGGACATGCTATATGTGATGGATATTCTGATGCTTTAGCATTTTATTTAGATAAAATAGGAATAGAAAATATTAAAATAACTAATGATGAACATGTATGGAATGCTATTAAATTAAATGATAAATGGTATCATATAGATCTTACTTGGGATGATCCTGTATATACTAATGGTAAAGATTTAACTATACATGATTATTTTATGATAACTACTAATGAATTAAAGATTAAAGAAGATAAAGATCATGTATTCGATGAGAATATATATGATTTTATAAAATAAAAAGAGATAATTAATTATCTCTTTTTTCTATATAATCTTCTACTTCTTTAATAGTATTATCAAAATTATTAAAATCTACATTAAACCATTTAATATCCATTTGATTCTTAAAGAAAGTAAATTGTCTTTTAGCATAATGTCTACTATTCTTTTTTATTAGATCTAATGCCTCATCTAATGATATTTCATTTCTAAAATACTTAAATAATTCTTTATATCCTATAGGAGTCATAATAGCTTTGGTAGGTTTCTTCTTAAAAAAGTATTTAGCTTCCTCTATAAGACCATTTTGAGTCATTATATCTACTCTATTATTGATTCTATCATATAGAGTATCTCTATCAGTTTCTAAGCCTATAAAGTATACATTATCGTATAATAAATTATTACCCTTTTTATTATCTACTCCTGACTTTAAATTAATATATTCTCTAATAAGTCTTCTTCTATTATTAGGATCTACTTTACTATCAGGATTCATTTCATGAATCGCATATAATAATTCTTTAGTATCTAGATTAATATCAGGTACTTCATCATCAGATTCAAACTTATAATCATATAAAGCTGCTTTAATATAAAGACCTGTACCCCCTACAAAAATAATATTTTTATTCTTGTCTTGTAGTTCTTTTATTTTATTTCTAGCTGCTATTTGATAATCATATACTGAATAATCATCTCTATAATCTTTAAAATCTATTAAATGATGAGGAATACCTTCTGCTTCTTCTTTAGTTACTTTAGCAGATGCTATATCCATACCTTTATATATTTGAACTGAATCATAATTAATTATTTCAGCATTATATTTTTTAGCTAATTCTATACTAAGTTTTGTTTTACCTACTCCAGTAGGACCTGTAATTACAATAATCATCCAATCACCAAGTAGTTATTATATTAAGAAATGCATCAATGTCAAGAGATGCTTTACCAACAAGTAATCCATCAAGACCATCTATATTAGATAAATTACTAATATTATCAGCTTTTATTCCACCACCATAAAGAACTTTACATTTCTTATTAGTTACTTCATTAATCTTAGCAATAAAGTCTATTAAACCTTCTCTAGATATAGTTTCTGATTTACCAATAAATTCTTTTGGTTCAAAAGCAATTAATAAATTATCAAAGTTAGTAACATCTTTAATACTTTCTACTAATTCTTCAATACATGTAATACATAATATTACTTTTAAACCATTATTTAATGTATTTAATACTTTCTTATTAATATATTCATTTGATTCATTTAATTTAGTTCTTCTTTCATTATGACCTATAATTACATACTCGCAATTAAATTCTTTTAACATATCACATGATATTTCTCCAGTATTAGATCCACCATTAAATATAGATACATCTTGAGCGCCAAGTTTTACATTCTTAGTTTCAATTAATGGTAAATAAATATATGGAGGAACAATAACTACTTCCTTATCTGTGATATCTTCTAATTTATTTATATATTCTTTATAATCAATACCAATATTATTTTGTTTCCAATTACCTACTACTAATTTCATTTACATCACCCTCTTAAATAATTTTTCTAACTCATATGTAGAATAATGAATAATTGATGGTCTACCATGAGCACAGTTATATGGATTCTTACATTTAGATAATTTTTCTATAATGTTTTCCATTTCTTCTATTGATAATGGAGTATTTGCTTTAACAGAAGCATGACATGCAAGTGAAGCACTAATACTATCATTAAATCTTTCAAGATCAAAGTTCTTACCTTCAAATAATATCTTATCTATTATTTCTCTAATGAACTCTTCCTCTATTCCTTCTTTAAACCACGTTGGATGAGATTTAATAATATAAGTATTATCTCCAAACTCTTCTATATTTATTCCAATATTACGAATAATATCTATCTTTTCTTTAATAGTCATATATTCATCTTTAGGATATTCAAGTACTATTGGAAATAACATATCAATAGTGTCTCCATTAAAGTCTGTCATATATTTCTTATACTTTTCATAATTAACTCTTTCTTCAGCAGCATGTTGATCTATTAAATACATACCTTTTTCATTATGACAAACTATATATGTTCCAAGTACTTGTCCAATAACAAATAACTTAGGAAATGGCTTTACTTCTTCTTCAGGTTTTGTTTCCTCTACTGAAGTATCTTGATATTCATATGGAGTTTCTTCTTCCTTAATAGATATCTCAGAGAAATCCATTACTAATTCTTTTACTTCATTATTATTAGTTTCTATTTCACTAACTATATTAGTTATTTTAACTTCTTTAGTAGATATATCTACTCCAAGAAAATTATTATCTAATAATTTTTCTATATTACTTGATATAAGTTCTTTTAGTTCATCCATTTTACTAAATTTAATATCATGTTTAGATGGATGAATATTAACATCTATTAAACTAGGATCTACATTAATATTTAATATAACTATTGGATATTTACCATCAGGTTTATATTTATGATATGAATCATTAATGCATCTTAGTAAATCATTATTCTTAACTACTCTACCATTTACCATAGTTATCATATGATTCTTATTAGATCTATTTTCATCTGGTTTTGATATATAACCTGTCACTTCATAATCATCTGATTCACAATTTATTTCAATCATCTTTTTAGCAACAGTAGAACCATATACTTCATTAATGGTTTTAAGTAAATTACCAGATCCACTTGTTTTAAGTATATCTTTTTTATCATTAGTTAAAGTAAATCTAATACCTGGATGAGATAATGATAATCTATTAATTAATCCTACTATAGAACTAAGTTCTGATGGAAGTGATGATAAATACTTTCTTCTAGCAGGAGTATTATAAAATAGATCATCTACTGTAATAATAGTTCCTTTTCTTAAATAAGATTCTTTGTTTTTTATTTCAATATTAATTAAATCAAATGAAATACCTTCTTTTCCATCACAAGTTTTAATATTAACTTTAGAAACAGACGCTATAGATGGAAGAGCTTCACCTCTAAATCCAAGAGTATTTATATTATATAAATCATCTTCATCATATATCTTACTAGTAGCATGAGGAGTAAAACAAATATAAGCATCTTCCTCGCTCATACCTGATCCATTATCTGTTACTTTTATTTCTTTAGTACCTGATTCTAATAAATCTATTTTAATATCATTTGAACCAGCATCTATACTATTTTCTACTAATTCTTTAACAACAGAAGCACATTTTTCAATTACTTCTCCAGCGGCAATTTTATTAACTAAATCATCATTCATTACATTTATCTTATGCATTATTATCACCTAAATAAATTATATCAAAAAAAGAAAACTAATACTAGTTTTCTTTTAGTGCATCTTTTATATTTTTAGCTCCCTTTTTACCAATAAGAGTTTCTAACTCTTCTATAGGAGCCTCTTTAATGTTATTAATAGTTTTATATTTTTTAATTAGTTTATTTCTTCTTGTTGGGCCTATATCTTCTATGTTATCTAATATAGATGATAAAGAACCTTTAGATCTTAAATCTCTATGGAATGATATAACAAATCTATGTACTTCCTCAGATATATTTTCTAGTAAATGAAATATATTACTATTCTTTTCTATTTCATAACTAACTCCATTAGTATCTACTAAAAATGATATTTTATGTTTATCATTCTTTTGCATACCAAGAACTAATATATCTAACCCTAGATTATCTAAGATTTCTTCTGCAGCATGTACTTGAATAATACCACCATCTACAAGTATTAAATCAGGCACTATAAGATTATCTATTAATACTCTTGAATATCTTCTTTCAAGCACTTCTTGCATCATATGATAATCATCTTTAGAATTAGATTTAATTTTATATTTTCTATATTCTTTTGGAGCTTTTTTACCATCAATATAAACTACCATAGCAGATACAGAAGCATCTCCAAACAAATGAGAATTATCAAATGATTCAATTCTATGAATAGTTTTACCTATAAGAGTACTTAATTCTTCATTAGCTTTAACAGTAAGAGATATATTTCTCTTAACTAATTCTTCTTTTTCTTTTAGACCTATTTTAGCATTATCGTATGCCATATCTAATAGTTTCTTTTTAGTTCCCTTTAGAGGAGTTATAACTTTTACATTTAAAGTATCACTAAGAAGATCAATATCTACACTACTTGGAACAAATATTTCTTTAGGTAAAGTATTATCTTCATAGAAAGAAATAATATAGTTAGTAAATTCATCTATTTCATCACTATTTATTTCATATATATTACTTTTTCTTTCTACTAGATTACCTTTTCTATAATGAAGTACTTGTACAGAAATAAAATCATCATTTACATAGTAATTAAATATATCTCTATTTATATTATCATTTAGATCTATTTTTTGTTTAGATAATATTACTTTAATATAATCTATTAATTCTTTTATTTCTTTAGCGTTTTCAAAATCTAATCTAGAAGAATACATTTCCATCTTTTTAGTTAGTTTCTCTATTACATTAGAATAATCTCCATTTAAAAAGTTAGTTATTTCATTAGTTATATTATCTGTTACTTCTTTAGGTATATCTAATTTACAATATCCTAAACATTCACCTATATGATAATAAAGACATACATCACTTTTAAAATTCTTACATTTTTGAAGAGGATATATTCTATTTAAGACTTCTACTATCTTTTTTGCATATCCACTATTAGGATATGGTCCAAATAATTTAACATTCTTATTTTTATATTTTTTACTAGGTCTAAGTACACTTAATTTAGGATATTTATCATAATCTAATGCAATATATGGATATTGTTTATCATCTCTAAAAATAATATTATATTTTGGATCATATTTCTTTATTAAATTTATTTCAAGTAAAAGAGCTTCTTTCTCAGAAGAAGTTACAATATATTCAAAATCAACAATATTGTCTACTAATACTTTAGTCTTACCTGTTTTAGTTCCATTAAAATAACTAGAAACTCTATTTTTTAGTTTTTTAGCTTTACCTACATAGATTACTTTACCAGTATTATCTTTCATTAAATAACAACCTGGTTTTAATGGAAGTAATTCAAGTTTTCTTTTGATTAAACTCTTTGTATCCATATACTATTTCCTTTTCAATTGTATTTTAATATAAAACTATATAATAATCAAATTAAAAAGTGAAGATATACTTCACTTTTATTTACTTTTTCCTTTTGAAGAAGACTTCATTTCTTCTAATTGTTCTTTTGCTTCCATTAATGCTGCTTTCTTTTGAGTTCTATCTTCAGGTTTAATAAATCTCATTATAAATGATCTTTTTTGAACACTACCTTCTGGTTTAATAAATTTCATTAGAAATGATCTTTTTTGAACTCTATCTTCAGGTTCAATCCAAGATTCATGATACCAAGATAATTTTTGCATTTCTTCTTCAGTTCTTGGTCCACGCATTAAAATATCTTCCATTTCATTTGGATCCATATCTTCATGTGGAGGATATTTTTCTAAATATTCTTCAGTAGTCATATGAGCAGGATGATTCTTTTCTACCCATTTAATGTATTCTTCTCTTTTCATAATTAGTCTCCTTATCTTATATAATAATTATATCATGAATATTTATATATAAACAATATAAGTGTAAATATGATATAATTTAATTGGTGATAACTATGATTACAAATGAAATAGAAATTAAAAAATCTAGATTTATAACATATCTTTATGAATTAGATGATGAATCTAAAGTATTAGATATTATTAAATCTATTAAAGAAGAACATAAAAAAGCAAGACATGTAGTATATGTATATAAAATAAATAATACTGGTAAAATAAATGATGATGGAGAACCTAAAGGAACTGCAGGTATGCCTATATTTAATGTACTTGAAAAGAATGATTTAAATAATGTTTTAATAGTAGTTGTAAGGTACTTTGGAGGTATTAAATTAGGTGCTGGTGGTTTATTTAGAGCATACTCTAACTCAGCATCTGAAATAGTTAAAATGTACAAAGAAAAAACAGACTAATGTCTGTTTTTATTTTTTAGGTTTATATATTAAACCAACGTGGTATTCACCAATCTTTTGAGTTTCTCCTCTTAATTCAAAGAATTGAGATTTTGGTATATATGATTTTAAATATTTTAATTCTTCTATTTTTTCGTCTATTCCTTCATCTTTAGAAAAACCATATAATCCATAAATAACAGTTAAATCTGGATTTGCTACTAACTTTTCATAAGTCTTTGCTTCCTTATCACTATATGGATTATGAATATAATATCTATCATATACATTAATATTTAGAGGAAGTATTATAGGTGGACGTCCTTCAAAGTTTTGTAATTTAAAACAAGGAACCCCATCTCTAATTGTTATATCATGTAATTCTACACCTTTAGCGGATCCTAAAGTATTAGCATACTTAGAATAAACAATTATATTCTTACTATATTCTGATTTTAAAGAATCAAATACTCCTTTAGATAATTCTATAGAGGGTTCTTTAAATCTATTTGGACTTAGATTACAGAATCTTAAGAAATTAATATATACTTTTAAAAGATCTTTTCTACGTTTAATCCATGCATCATAGTTAGTAGCATTTTGATCACGTATTGCATCAAAATTATCTACATCACATAAAGTAGATCGTTCAATAACTTTAAAATACTTAAAAAACATATCTGAATAACTTGTTTCAAGGTCTTGTTCTTCTAATAACTGAGCATTATATTCAAATAATTTTTGAAGATATGATGGTGCATTATTAGAACCTTGTAAATCAAAATTAGATTCAGGTTTCTTTATTGAATCTGACATATTCCCCCTCCTTTAATGCCCTATATATTAACATAAAAGACGTTTTCTGTCAAAAAAACGTCTTAGTTTTTGATATCCTCTAATTTAACAGAAACTAGTTTAGAAACACCAGATTCTTGCATTGTTATACCATATAAAACATCTACATATTCCATAGTCTTCTTTTTATGAGTAATAACAATAAATTGAGTTTTATCTTTTAAACTACTTAAATATTTACCAAAATTATCTACATTTACTTCATCTAAAGCAGCTTCTACCTCATCTAGGATAGCAAATGGAACTGGTCTTATCTTTAATATTGAGAATAGTAATGCAATAGCAGTTAAAGTCTTTTCACCACCAGAAAGTAAAGAAATATGTTGTAATTTCTTTCCTGGAGGTAAAGCAGTTATTTCTACTCCAGTATTTAATATATCAGATGGATCAGTTAATGATAAAGAAGCATCTCCACCATTAAATAACTCTTTAAATGTCTTAGAGAATGATTCTTTTACTAAATCAAATGTTTCTTTAAATCTTTCTATCATTACTTCATCCATTTGTTTAATAATATCCATAAGCATATCTTCTGCTTTTAATAAATCTTCTTTTTGACTATTTAAGAATGTATATCTCTTATTTACTTCTTCATATTCTTCAATAGATGAAACATTAACATCTCCAAGAGATCTTATTTCACTCTTTAACTTATTTACTTTCTTTCTTGCTTCATCTTCATCTATTTCTAGAATATATTCAGATTTAGCTTTTTCATATGTAATAGTATAATCACTTTCTAAGTTAGAAAGTAATGTATCTAATTTAACATCTAATCTACTCTCTTTTATTTCATTCTTCTTTAATTCATCTAGATAATTGTTATAATCATTATTATCTATCTTTAAACTTGTCTCTAAATGAGTTAAATTGTCTTTTTCTTTACCTATCTTAGATACTAGATTCTCTATTTCTAGTTTTAGACTATCTACTTTATTCTTTTCTTCATAATACTTATTAATAATAGCTTCTTCATCTTTAGAAATAACATTATTAACTACATTTTCATTATTACTTAATTCTAGAATAATACTTTCTTTTCTAATATCTAATTCAGATTTTTTATTCTCTTTTTCTTTTAATAAATCACTCTTTATATTAATAGTAGACAATATTTTATTCTTTTCTTCATTTATATTAGAGTACTCAGTATCTATGGAGTTTATCTTATCCTCAACAATAGATAAATCGTTTTGTTTCTTAGTAATATCTTTTAAGATATTCTCTAATTCATATTTTTCAGAAATAATAGATGTTTTAGATTTAATAGAACCTCCTGTAAGAGATCCTCCCACATTTACTACATTTCCATCTAAAGATACTACTTTATATCTATTATTAATCTCTTTAGATATCATAGTACCTGCTTCTATATCAGTAGATATAATTACATTACCTAAAAGATTATGCATAACATTTTTATATTTATTATCATATTTAATTAAATTAGATGCTATATCTACAAAACCATTAATCTTTTTAACTGTATTATATGAATCTATATCTATATTTCTTGGTTTAATAACATCTAGTGGATAGAATGTTGCTCTACCTAAATTATTATTTTTTAAATAACTAATAGCTTCTTTAGCATCTCTATCATTTTCACAAATAATATAGTTTATAGCAGCTCCTAAAGATATTTCTATAGCAGTAGCATAACTTTCTTCTGTTTCAAATAGTTTTCCTACTGTTCCATACATATTAGATAATTTAGGATTATCTAATACACTCTTAACAGGAGTTGGAATAGCTAGATTATTTTCTATAGAATTAGCAAGTACTTCTTTTTTATGATTTAAAGAAGTTATTTCTCTAACCAAATTAGATGATTCATTTAATAAATCATTCTTACTCTTTTCTAGTTTATTCAATTCATTAACACTATTAGTTAAAGAAGTTTGAAGTCCTTTATTTTCTAATTCTTGTACTTTTAATTCTTTATTTAACAAATCAAGTTCATTATCTAAATTAAGTAAATTTTCTTTAAGTAATATGATATTATCATGTAATTTCATATCATCAGAATTATATTTACTTCTTTCATTAATAAGATTCTTTTCTCCTTGGTATTTTTGCATTAAAGAAGTAGATTCTACTAATAATTGTTGCTTAGCATATAATTCATCATTTAATTTATTAATTTCAACTTTTAAGTTTTCTATCTTACTAGATTCAAGTGAAGAACTAGATAATAATTCAGATATTTTATCATTTAATTTAACTATATTATCTTTAGCTTCCTTATATTCTATATTAAATTTATCTATATCATTTACTATTAGAGCAACTTCTACTTGTTCTAATTCTTTTTTATCTTGAACATATATTTTAGCCTTTTCAGAAGCCTCTTTTAAAGGACCTACTCTTTCTTCTAATTCTCCAATAATATCATTAACTCTATTTAAATTATTATTTGTTTGAAGTATTTTTCTTTCAGCTTCTTCTTTTCTCTTTTTATATTTAAGTACTCCTGCTGCATCTTCAAATATAATTCTTCTATCTTCAGG
>sequence11
TTCAAAATCTCTCATATTATCACCAATTTAATTATAACATAAAAAAGATAGGAATAATCCTATCTTTTTAAATAATCTTTAGCTAATTTTATTAGTTCATCTAATGTATATATTTTAACTTGATAATATTCAGAGTTATCATTAGATATAATAACTTTATCTTTATCTACTTTTCTTAATCTCTTTATATGACCAACTTTATTATAATTCTTATCTATAATATAAGAATTAGTTAAATTGCCTAAATAAATTCTTCCATAAATATCTTTTCCAAAATAATATTCAGGTCTATCTATATCAGTAAAAGTACCTAATATAGCTTTATCTTTAACATTATATATAACTAGATCCTGATTAGTATAACTAACAAATAATAAGTCTTTTTTGTCATTATAGAACATATTATTAACTAGGTTTTTATTTTTTACTTTATAACTCTTTTTTAATTTATCATATTTTGAAGGTGCTATTTCATTATTTGGAGTCTCTATTTCTATATCAATCTTTTTAGCATCTTTATTTATTAATCTTTCATATGAAATAATTCTGTTTTCATTGTATGGAATAAATAAGAAACCATCTTCACTTGGAGTTACAGCAGTATACTTATCTACATTTAATTCATATTTACCTACATATTCAACACTGTTTTTTCTTTCCATATTAACAAATCCAACATTACCACTTTCTTGGAATACTAGATATATTTCATTATTTAAATAAGAATATAAACCTATTATTTTACTTTTAAAATTATAAGCACTTACTTCGTTACCTGAAGATGCATCTAAAACAATTAATAAATCATAACTAGCAACTGCTATATTGTTAGATCCTTCTGGATAAGATCTTGTTATATAAGAAAACCATTTATCTCTATAAGATTTAGTGAAGTTTTCCTTTCCTTCATTATAATTATATGATAATACTGATGATATAGTATCTGTAATAGAATTATTACTATATATTAAATATAAATTATCATCTTTTTCAGTTATGCCATTAATATAACCAGCATTAAATGTAAAACTATTTTTTTCTTTTCCGTTACTAGAATCTAATATATGCATAGTTATTTCTTGATCATCATTTACAGAAACAGTTCTTGAAGTAGTAAATGTAACTATATATTTATCATCATTTACATAATAGATTTCTTTTAAAACCTTTTGATCATTAGAAAAAGAACTAATAACTTTTTTATCTTTTATACTATAAATATATAATTTGTCTCCATCAGTATATGAAATAATACTTTCTTTAGAGTCTCCCTTGGCTCCAATAAATGCTTTATCTCCTCTTTTTATTTCTGTTATTTCTTTTCCATCTTTAGTATTAACAACACTTATATTACCATCTTTATTAGAGAATAATAATAGATTATTACCAGAGAATGAAAATGATTGAAGAGTTGTATATGCATCATTTACTTCATATTTTTTTATTATATTTAGATTAGATGAATCAAATAAAGTTAATTCTCCAGATTCATCATATATAGCAGAGTATTTACCATCATAATTACTCTTTATATAATCTACTACACCTTTAGTTTCTAATTCAGTTTTTGCTTTATATGAGAACCCTGTATCATAAACACCTAAAGACTCTACTAAAGAATATTCTGCTTCTGATGTATATGGCATCTTAACAGAATCATATTTAGTTAATGCTTCATAAGAAGCTTTAATAGCATTATATCTACTATCAGTTTTTAAATAATCATTAGCACTAGATGCTAAGTTATATGCTTGATTTAGTCTTAATTTATTTTTTTGACTATTTATTTTAATTAACATAATAGATGAATATAAAGAGAATAATATAAAGAATAAAGCAATAGATCCTATTATCATCATTTTTCTTTTATGTTCTCTTTGTTTATGTCTTTGTTTTAAATCATCATAGTTTAAATCAAACATAGGGGCTATTAATCTAAGTTTTTCTTCTTTTATTTTCTTTAATACTTCTTTTTTAGAAGATCCTCTTACATCTGCTGCTAAAGGTTCTACATTTATTTTTTCTTTTTCATCATACAATAATTCTTTTGGGAAAGAATCTTTTGGTTCTCCTTCTATAAGAACACAAAATATATTTTTTCTTCCTCTTAATTTTTTAAAAGTCTCTATTTCTTTTTTACACCATAAAGAATCTTTTAATCTAGGAGAACATATTACTATTAAGTATTTAGATTCTTTTAGAGCTTCTACTATAGGATCCTCTAAATTACTAGAAAGAGGTAATTCTTCTTGATCTCTAAATACTCTTTTAATAGAATCCTCTTTAATATTTAAATTATCTTTGATATTTTTTGGTATCTTATATGTCTCTAATTCTTTATGTAGTTTTTCTGCTACAAACTTATCTAATTCAGAATGTCTATAGCTAATAAACGCATCATATTTATATTCTTTTTTTTCCATAAAATCTCCTATAAACTAATAAAATTATAACATAAAAACAGGATTATATCCTGTTTTTATAAACTATAGTCATTTTTTAACGCTTTTTCTTTAGATACTTGCGTATTTCTATCTATTGTATAATGATCATTATCTATTATAACTTCATCTAAATATGGAACCCATGTATTAGTAGTTATTAATAGAGAAAACATTATATTTCTTAGTTCTTTTAATGTTTTTATTTCTTGAGATAATTCATCATATGTAGATAAACTTAAAACTCTTTTATGATACATAGTTAAAAGCATTGAAAAGAATAAACTTTGTCTATCTAAATTTTCATTTATTTCAGGTAATCTATGCATATGAAGATAATAATCTTTTAATGGACCAGATATATAATGACCATATTTTTCTTTAAATTTACAACTATCAATATCACATAATCTTACATTACCATTTTCATCTATTAAAAAGTTATCAAAAGATACATCTTGAAGAACAATTCCACTTTTATGAGCATTTTTTAATATAATAGATGCTTTTTTAGTAGCCACTAATATATCATTAGCATCCTCATATCTTTTTTTAGTAAAATAATCATATAAAGTTGCTGATTGTGAAAAATAATCAGTTACATATCCAACAAAATTACCATTATCTTCAATAATCTTTTTTGGAAGAATTATACCATCTACTTCCATACCTTCTATATCAGATATTTTTTCATATAATCCTGGTTTTAAAGATACATCTAATTTATCTAAAAATTTATAACATTCTCCATCATATATATAAATTGAACTTGTATTACCTTGATTCTCTAATGGTTTTAATGACTTGCAATCTATATCCTTTAACTGTATTTTTTCCATCATGTATCTCCTTTGGAATAGGATAATCTTATATCAATTAAATTAATATGTCAATTGTTTAATAATAAAAAGAACAGAAAATCTGTTCTTTTTTTATTATTTGTATAAACCACCTAGTTTTTCATCTAAATAATCTCTTACATTTCTATAATTATTAGGCCACATCATATAACCACTTGCACTAATAGTTTTATCTCCATCATATATAATATACATACTAAATGAATTACCATCTAATACATGTTTATCTGTCTTTCTAAATCCATTCCATGATACTATCTTGTACTCATTTAATTTTTTAATAATAGTATTAACTTCTTCTTTAGATAATTCATATTCTTTTTTATCTTCGTCAGGAAGATCAGTTGGTTTAATACTTGCAATATATTTACCTTCTACTAAAGATATTTCATATATAACATAAGCATTTATATGATATCCTGTGGAATATGTAAATCTTAAACTATTTAGTTTATTTATCTTTTCATCCTTTTTTAAAAAAGATGAAAGAATAACTACTACTACATATATTACTAATAATATTATTACTCCAATAATAATAGTTTTTATTTTCATTTAAATCACCTTTTTCATTATAACATATAACTATTATATTTCTATATCTTTAATAGTTTTATCTTTAACATTTAAGTATAAAGATAATGCTTCAAATTTTATTAATCTTTTAGATACTTTACTATTCATCCATTTATCTATATCACAAATATTATCATTTGCAGCATATGTATATATATTATGATCACATTTATTTTCTATAATATTTTTTGTTCTTTTCATATGAAAAGATGAAGTGACTACTACAATATTTAATTTTCTATTATAAATAGAATCTATTAGTTTTAATGTATTAATAATATTCTTTTCAGTATATTTTGAACTACATTCAACAACTATATCTTCTTCTTTTACACCCTTTGATAAAAGATATTCTTTCATAACTATTGCTTCTGGATTTTTTCTATTTTTACTTAGAATACCTATACCACCAGTTAAAAATAATTTGTCCACAGTTTTATTTTTGTATAATTCAATAGCAGCATCTGCTCTTTTATACAAAATATCATAATTAGCACATCCAAATACTATAGCTATATCATAATGACTATTTAAATCAATATTAGAAGGCGCTTTCATAAATACATATCTGTTAAGAAAATTGATATCTTTACAAAATAATAGTTTAAATATATTTGTATTTGATAATTTCATATTAACCTCTTATATATTTCATATAGTATCTTGTTTCAGTTTCATCAATTATATTAAAACCTAATCTCTTATATAAAGATATAGCTCTTTTATTCTCTTTATATACCCATAGATATACTATATTATATTCATTTACAGTATTTTTTAAAATATCAGTACCAATTCCTTTATTTCTATATTGTTCTTCTAAAAAGATTTCATCTAATAGCATACCATCATCTTTTTTAGATAATAATAAACATCCAGCAATATTATCATTAATAATAATATTATAATAATTATCTATATTTTCTTTTACATTATTAATAATATAATTATATATTTTATTATATTCTTCTTTATCTATATTACCTGCATAATCTAATATAGTTTCTTTTTTATATTCAATTAATCTTTCTATATCATTATTAGTAGATCTAACTAATTTATACATAAAATCACCTAATAATATAATAACATAAAAAAAGATTAAGAATAATCTTAATCTTTTATTTTACAATACTCTTGCTATAGCTAAAATGAAACCAAGGAACATATTAACTGCAGCTATTACAATACCTGCTATTGCAAGTCCTTTTCCAGAACCATCATTTTCATTTGCTTTACTTAGACCTACTATTGAAAGAATTAATCCAACAAAAGCAAAAAAGAAAGAGCAAATAAATCCAGCTATTGCAAAACCATTAACATAACTTCCATCAGATGAACTAGTTGACTTAACTACACCACTATTAGATGTACCACAGTTAGTACAAAAAGTAGCATCACTGTCCATTTTATTTCCACAATTTCCACAAAACTTTGCCATATATACCTCCTATTTATACTTAAATAATACCATATTAAAATACTTCATACAATAAAAAGAGATATTAGTTTACTCTAATATCTCCTACTTTTGCTTCAATAGTTAATTCTAAATCACTTTTTCTATCTACTCCCTTAATATTAACATCACCTATCTTTGCTTCACCTGAAACATAGTATCCAGTAGCATGTTTAATCTTTATGTCTCCTGTTGTAACTTTAATCTTAGAATTATCTTTTATAGCAGCTGTATCTATATCAATGTCTCCTGTTGTAGCTTCTAAACTAAGATATTCATTTACTTTATAAATATCAATATCTCCTGTTGTAACTTTAATTTGAACTCTATCAACTTCTTTAGCATCTATATCACCTGTTGTACCATTTGCAGTTAAGAATCTAACAGTTCCAACTTCAACGTCACCTGTTGTAAATGTTGTATTTAATAATGAAGCTGCATCAACTTCAATATCTCCTGTTGTAACCTTAATTTCTGCCATATTAATTTCTTTAATTTTAATATCACCTGTTTTGATAGTAGCATTTAATGTTGCAGATGAATATTCATCCATAACTAAATCACCTGTTGTACCATTAATAGTAAATGTACTTACATAATTATATGGAACATATAATTTAATTTTATTAAATTTTCTTCTAAATGAAAATTTAACATTTTCTTTTTGTTTTAAAACAACTTTAATTTCAGTTTCTGATTCAGTTATTTCATATTCTCCTGGATCATCTGAATATAATTCTACTTTAATAGAATCTGTATCACTAGGAACTACTTCTACATCAGCTACATCGAATTCTACATTTAATTTTTTATTATTAGTTACCTCTTTTGAATCAACTAATTTAGTACTATTACCACTAGTTACAATGGCAAAAGATTTAAAATTGAAATTTAATTTATCTTCTCCACCCTTAAATAGGAAAATCATAATTCCTACTACAAAGGCTAATAATATAGTTAATAAAACTATTAATATAATCGATAATTTCTTACTCATCGTCTTCCTCTTCCTTTTCTTCTTCAGTAGATTTCATACCACATATTAATTTAACAATAGCATTTACTAAAGCGACTGCTATAAATATGATCCAAGTTATATGCCAAGCACCAGTTAAGAAACTAACTAGTAAATAAACAATAACTCCAATTAAACCAACAATGTCAGTTAATTGTTTAGAAATATTTTCTTTCTTCTTTTCTTCTTTTGTTTTTACTTCTTCTTTATCTTTTCCATATACAATACCTGAATAAATAATTATTCCAGTTGCTATAGCTATTATAGTAAAGAATAAACAAACTCCTACTATAGGTTGATTAAATGATGCAGAAAATAAAATTATTGCTACTAATGATAGGATATATAATCCCACAGATATAGCTAAGTTTCTAGCAAACTTATTTCTTTTATCTTCTTTCTTTTGTTCAACTATATTTTGACTTCCAGTGATTAATTCATCAGTTGTTATACCAAAGTAATCACAGATTGGTTGAATCTTATTGAAGTCAGGCATTGATTCACCAGTCTCCCACTTTGATACTGTTTGTCTTGAAACATCAAGAGCATTTGCAAGTTCTTCTTGCGAAATATTTTTTTCCTTTCTTAAGTTATACAATCTTTCTCCGATTGTCATACTTCTCACCTCTTTCACGAATAATTTTACTCTTTCTAGTGGTTGCGCACCACCAAGTTGACATTGAAATTTAGCAACTAGCACGTGCATTTCACTTAAATTATAACATATTTTGCCCTTTTTTTAACTATTATGCTATAATTTATGTAAAGGAGATATGACAATGTATAAAGATTTAATTAATGAAGAAGTAACTATTTTAGTAGCTACTAAAGGTGATATTGTTTTAGAATATAATGGTACCTTAGAATTAGAAACTGATAATGAAATTGAATTAAAAGATGCTACTATATCTACTATGCTTATGAATGTTCAAAGATCTGTTTTTGGATCTAATATGACTAAGTATAGAGAAGATATAGATAAAGTTGTAGTTAATAAAAAGTTTATTATTTCTTGTATAAAATAAAAAAGACTCTAACGAGTCTTTTTTATTTGTCTTGAATATCACTAGATAATTCTAAGAACATGTCATCATAATATTGTCTATTGTATTCTAACCATCCATCAGATGCTTTAGAAATATTAGTTAATCTTGATTTAATCTCTTCTGGATAATCTTCAATATCTGCTTTTGCAGCTTCTATAGATAATAATCCATCTAATTCATATTTTTTAGCTTGTATATCAGATTCTAATTTACAAACCATATATGCAAATAGAGCTTCTCTTGAAGTGCGTTCTTTATATTCTTTATATACTTCTAAAAGTCTACTATTATTAGATAATTTATTTAATAATTCTTCTGGAGACTTTGTTGTTTTCTTTAATTCTTTAATAACAAACATTTCATAAACTTTAGACATATCTAAGTTTAATCCTTTTTCTTCATTGATAGACATTGCAAGAAGAACTGTTCCTCCAATATGATCCATAATAGATTCTGGATTATCAATACCTAATTCTATCCATCCAGATCTTTTAATAGTTTTTAAATCAATTACACTAAAATAAAAATCTAATATATTATTATTCATTTTTATTTACCTCCTCTTTTGTAAATTCATAAACTGCAATAGATACAGCATTATCTAAATTTAAACTATCTATATTATTTGTATGATTAATTCTAACAGGTGTTCCTATATTTAAATAAGAATCATCTAATCCTGTCGCTTCATTACCAAATATTAATGTATATGGGTTCTTTTTATCTACTACATGTAAATTAGTACTTCCTTTTAACATAAATGGATAAAAAGCATTATTTGTTAATTTCTTATAGTCCTCAAATGATTTAAAATATTTAAAATTTATATTAAATATAGCTCCCATAGAGGCTCTTACTACTTTAGGATTAAATATATCTACTGCTGGTTCTATAATAATTAAGTTCTTTATATTAAAACCTGCACATGTTCTAATAATAGTTCCTAAGTTACCTGCATTAGAGGGATTTACTAAACAAATAGAGTTCTCATTATAATTAATATCACAATCAAATTTTGTAAATTCTCCAACTATATAACAGTTTTCTTTATCAGATAATTTATTTATTATTTTATCTGAATAAATAACCTCTATATTATTATTTTTACATATATCTAATATCTTATTTAAAGTATCATTTTGTAGTTGTTTAGAGTGTATATATACTCTATTACAAAAACTAACTTTTTTATTTAATAATTCTAAAGTTAATGTAGTACCAAGAGTATAACTTACATTACTATCTTTATCATATTTAGTCATTTAATCACCCTTTATTCTATATATTATTATAATTTAAATATAATAATATTTCAATTACATTAATTTTTCTCCATCAAATCTTTGTTTATATATTAAGCTATATATTTTAGATGGTTCTTCTATACCAGGTACACCATCATCTATATAATGTCTATTATATTCAGACCCTTTTATACCTGAAGTAACAATAGTTCTTCCTTTTTCTTCATCAGCCATAGCTAATAAAAGAACATTTTCTAATTCATATAATACATATAATCCATATGAAGAATTAGGTAGTTTATCTACTACTTTTTTTCCTATAAATGGTTCTTTTTCTATAATATCAGGTAAACTTCTATATTCTTTTAACATAGTTTCCATAGATGTAAAACCTCTCATAATAATAGGCATATATGGATCTAATCTAATAGATTTTAAAGTTAATTTACTATTAGCAAGAGATAATACATATATGAATCCCATTTCTACAGTTGATATAGGAGACATTTTAGATACTTCTTCATAATGTTTCATTAGATTATAAAGTTCTACATATTGACCTAATTCACTTACATTTACATGACTTTGATTATTTAGACGATTTCCTTCTTTTTCTACAATATTTTTTAAAAGAGGATAATTTTTTTTTGCTTTTTCTACTTCTTTTGTATAGTCAGTAGGTTTAATTTTTAAAAAGATTTCGTCTTCAAATACTATATTTTCATTACTCATGTAATCACCCTTTTTCTAGTGAATTATATTATCATATTTATTATATTTGGTCAAATAAAAGAAACTATTTCTAGTTTCTTAAAAAGTCTACTATTTCAATTAATTTCATTCCTTGAGAGGCTTTTACTAATATAACATCATTTTCTTTAATAATGTCCTTTAAATCATTAATAGCATCCCCTTTATTATCAAAATGATATTTAGTGCCATTAAATTCATCATTTATATATTTACTTAGGTTTCCTATAGTAATAAGTATATCTACTTTACCATTAAGATATTTACCTACTTCTCTATGAATATCTTCTTCAAATTCACCAAGTTCTAACATATCTCCAAGTATAGCTACTTTTCTATTTTCAAATGAAGATAAAGTATCTATAGAAGAAATCATAGCTTCTTTATTAGCATTATAAGTATCATTTATAATAGTATAGTTATTTTCTTCAATTATTTGCATTCTATTACCTGTTAAAATAACATTTTCTAATCCTTCATGAATTTCTTCATCTGTTAAATCAAATAATTTACCTACAGAATATGCACATAGCGCATTATATGCAAATACATTTCCTAATACAGGTACATTATATTCTTTATTATTTATTTCAAAGAATGTTTTACCATTTTTCATATTTATATTAGATGCATTATAATCTGATGGTGTATTAATACCAAATCTTAATATTCTTTGATTAATACCATTTACTGTTTGAAGCATATCATTATCATTATTAATAACTAATACTCCATCATTACTCATACCATTTAGGATTTCTAATTTAGCTTTTAATATATTTTCTCTAGATCCTAACTTACCTATATGAGCAGTTCCTACATTTGTAATAACTGCTACATCAGGTTTAGCAATTTTAGATAAAGTATCTATTTCACCAAATCCATTCATACCCATTTCTAAAACTATTATATCTTCATTAATATAGTTTAATAATGCAAATGGCATACCTATTGCATTATTAAAATTACCAGGTGATTTAAGGACTTTATACTTCTTAGATAATACTGAATAAATCATATCTTTAGTACCTGTTTTACCAGCAGATCCTGTAACTGCTACTACTTTAGCATCTACATTATCAACTAAATAACTAGCTATTTGTTGTACTGCTTTTACACTATCATCTACTAATACAATATTACCCATTTCTTCATCAGTTGCTCCAAAATGGTCTAAAATACATGCTTTAGCTCCTAATTTAAATGCATCTTTATAGAATTTATTACCATCAAAGTTATCACCCATTATGCCAACATAACATTCACCTTGATTAATTGTTCTTGTGTCTTTAGAATACTTTTCTACTACTTCTTCTTCATTACCACATATAAGTTTTCCATTTGTTATTTCTAATATCTTTTTAATTGTTAATTTCATCTTTTATCACCACATATTAATTATACTATAAATTTGACAATTTTGAAGGTTTTTTATAGAATATATTCGTAAATGAGGTGGAAATATGCTTACAAAAGAGCAAGTATATAAACTTGGAGATAAATTTGTATATTCTCTATTTACAAAGAGTGCTGCTCAATTAGACCTTGATAGAGGTAGAGATATGTTAGTATGTGGACATTGTTATTACTTTGCTGATGCAATGTTAAATTTATTAACAGAATCCTCTTATGAAGATAATTTAGGTCCAAGAATAGCAAGTTTTGATTGTAGACACTATTTTTTAGAATATGATGGTAATTATTTTGATGGATTAGGTATTATTAAACATGATAATGATACTATTACATTATGGGATTATGAAAATGAACCTCATTATAAATTTCCACCAGAAACTAGAAATCTAAAAGATATATATTATGAAGGAACAAATAAAGATATAGATGAATGTCATTATACAACTATAACAAAAGAAAAAAGTGAAATTTGGAAAGTATATCATATAGGTGTGGATCCAATTATAGATGAGTTTAGAGTTAAATTAATGGAAGCATCTAAAATAAGTGAAGAAGCATTTGATAAAACAATAAAAGAATTTCATGATAAAGCTGTATCAATTATAAAAGCTGAAAAACATAGAGATCCAAATAATATAGGAAAAGTTGATCAAGTTTTAATTGAAAGAAAACAAAGAATAAAAGAAGAGGAAGATAAATTTAAGAGAGAGCATGAAAAAAGACTACAAGAACTTGATGTAGTTTGGAAAACATTAACTCTTAAACCTGTAAACACAAAAAAAGAAGACTAAGTCTTCTTTTTTATTTTATTACTTTAATCTTATTAATAGGCCAAATTCTAATAGATGCTTTACCTTTAATTTGATTCTTTTTAACAGGCCCAAATCCTCTACTATCTAAGGATATTTCTCTATTATCTCCCATTAAGAAATAAGAATCACCTTCAAGTTTAGTAAATCCATCTAAAGTAAAGTCTTCAGTAACCCCTTTAGTAAAAGAACTATCTACTTCTTTATCATTAACATATACTTTACCATCTTTAGCATATATAGTTTCATTTGGTAAACCTATTACTCTTTTAACTACTCTTTCTTTTTTACAGTTTTCATAATCTAATTTACCATCTATACATACATCAGCTACTACTATATCATATCTTTTTATATTTGATTTCTTATAACCTATTTTATTAATTATTAATACTTGTCCATCTAATAAAGTATCATCCATAGAAGGCCCATCTACTCTAACTGGATCAAATATAAATATTCTTATTAATATTACAGCAAGTATTATTAATGCATAACTAATAACATCTTTTATTATTGGTTTATAATCCCTTTCCATCTTAACCTCCATAAACGAAAATAAGACTCATATTAGAGCCTTATTTATCATTTCTTTCTTTAAATCTGTAAGCAGCTACTCTTCCTCTTAAGAAGTTTAATTTAGCTCTTCTTGCTTTACCTTTTCTAACAACTGTAATCTTAGCAATTTTTGGAGAATGTACTGGGAATATTCTTTCAACACCAATACCAGCAGACATTTTTCTAACTGTAAATGTTTCAGATACTCCAGATCCTTTTCTTCCAATACAAATTCCTTCAAATACTTGGATTCTTTCTTTATTACCTTCGATGATTTTAACATCTACTTTTAAAGTATCTCCAACTCTGAATTCAGGAACATTAGGATTAAGTTGTTTTGAAGTAATTTCATCAATAATGTTCATCTTTCTCTTTCCTTTCTAACCAGCAATCATTATCACGGTAAGCGGATTGCCTTTTTACAACGTTATTAATAATAACATATATTCATTTAAAAATCAATAATTATCTTACAATACCCATATTTTTTTTCATAACTTCATATTTGGCTTTTGCAAGTTCTCTTGATTTAGAAATTCCCTTATCTAATACTTTCTCTAGTTCAGGACTATTTTTAATCTCATTATACTTATTTTGAATAGTAGTAAGTCTATCACATACTATATCTGCAACATATGATTTAAATGTTCCATAATTCATATCTTTACATTCTTCTATAATAGAATCTATACTAACTTCTTTAATAGCAGATGCTATATTAAGTAAATTAGATATACCAGGTTTATTTTCCATATCAAATCTAATTTCATTATCAGAATCAGTAGTAGCCTTCATAATCTTACTTCTAACTACATCTATATCATCTAATAAATCTATAACACCAGTTTGATTTTCATCAGATTTACTCATCTTCTTAGTTGGATCTTTTAAATCATTTATTTTAGTTCCTGTAGATGATAATTTACAATCAGGAATCTTAAATGTTTCTCCATATTTACTATTAAATCTTTCAGCAATATTTCTAGCAAGTTCTACATGTTGTTTTTGATCTATTCCAACAGGAACTATATCAGTATCACAATAAAGGATATCTGCTGCCATTAATACTGGATAAGTAAGTAATCCTACTGAGAAATTATCTTTACCTTTACTCTTTTCTTTAAATTGAATCATTCTAGATGCTTCACCATAATATGTAGTACATTCAAGTAAATAAGATATACAAGGTATATATTCATTTTCAGATTGTAAATAAATAGTACATTTATTAGGATCTACCCCACAAGCTAAATATACTGAAATAAAATCTCTAATCTTACTTTTTAATTCTTCAGGATCTTGATAAATAGTTAATGCATGAAGATCAGCTATAAATAAGAAAATTTCTCCTTCATCTTGCATATCTACTATTTGTTTAATAGATCCAAGGTAACTACCTAAAGTTAAATTACCTGTAGGTTTTAAACCAGTTAATATTCTCATATTATCTTCCCCTTCCTCTTTTAGTTTCAAAATTTTGAATATTCATTTTAGCCATCATTTTAGTATTAATACCATTCTTTAAGGCTTCTAATTTTATTTGCATTAATGAAACATATTCCATGCCTAAATACTTAGCATATTGAGTTAATAATAACCCTTGCATTCTATCTATTTCTCCAAGAACATACATAGCACCTTCATCATCAGTTTCATCATTTAAAACTATATTTGCTTGTTTCATTAATATTGCTATTTTCTTTTCTACATTTTGCCTAGCTATTTTATCTATAAAAGTAGGTTCTACTATCATAACCTTACTAATAGATGCAAGGTCTGATTTCTTAATCTTATTATTAGGTAAAAAGTTATAAGAGTCTTCTATATTAATACTAACTAAACTCTTATTACTATTATCATCTATTAAGGAGTATTTACCTATTTCTTTAATTACCTTTTCTTTATATAAATCAGGTCTTTTTTCTTTAGTAGACTCTATTTGTTTTTCTTTTCGCCATTCATCTATTTTTTTATGATCACCAGATAAAAGAACATCTGGAACTTTCATTCCTCTATACTCTCTTGGTTTTGTATATGTAGGATAATCAAGTAAGTTATCCATAAATGAATCATTTTCATAACTACCTTCAGTTATAACTCCTGGTACTAATCTTGATATACTATCAATTAATACCATTGATGGAAGTTCTCCTCCAGTAAGTACATAATCTCCAATAGATATTTCTTCATCTATAAAGCTTTTAATTCTTTCATCAAAACCTTCATAATGACCACATACTAATATTAAGTGACTTTCTTTAGATAAATCCATAGCCATCTTTTGATCAAATCTTTTTCCTTGTGGAGACATAAGAATTATTTTAGAGTTCTTTTTCTTTTTTTCTTCAATTGCTTTAACAATTGGATCACACATAAGAACCATACCTTCTCCACCACCATATGGAGTATCATCTACTTGATTGTTTTTAAGATCTGAATAATCTCTAAAATTAGTAATATCTACTTTTATTAATTTATCTTCTATTGCCCTTTTAATAATTGATTCACTAAGAAATCCATCAAACATATTAGGGAATAAAGTTAATACATCAAATTTAATCATAGTAGCCCCCTAACATTTTTAACATAGATTTTATTATCTTCAATTTTATCTATAAAATTATCAACATATGGAATTAATATTTTTTCATTTATTCTAAGAACAAATGATGCAGGTTCATTAAGTGCTTCAGTTACATTTCCAATTAATTCATTTTCAAAATATACTTCATATCCTATTAATTTCTCAGGATATATTTCATTTCCTAAATCAATCTGATCAATATCAACATAAACATTTAGTCCTTTTAAATAAAGAACCTCATTTATATTTGTATATCCATCAAATGTAACCATATCAAATACTTTATGATGTCTATAAGTATTGATAACAAATTCTTCTTTCTTTTTACCTACATATAGTTTAACACCCTTAACGAAGACTTTATCTTTATATCTAAAATCAGATAATATTCTAAGTTCTCCTTTAATACCATGAGTGTTAACTATTCTTCCAATATTTACTAATTCCATGTTAATCACCTATTTATTTAATTCATACATAATTATGGAAGCTGAAACACCAACATTTAAACTTTCACAATTATCATTCATATTAATATATATGTTTTGATCACAAAGTTCTCTAACTTTTGATGACATTCCGTTTCCTTCATTGCCCATTATTATAGCATATTTTTCGTTTTTTGAAACACTTTTTACATCTATTCCATTAGTAACATCTGTACCTAATATTTTGTATCCATTATCCTTTAAAAAAGTAATATAATCTTCTAAGTTAGTACGTTTAATATTTAGGTAAAAATTCATACCTTGAGCACTTCTTAAAGACTTAGTATTATATAAATCTACTGTATCATCACTAAGTACTACATTTTTTAAATTAAATGCTACTGAGCTTCTTAAAATAGTTCCTAAGTTACCTGGATCTTGTACTCCATCAAGAATTAATATATTTTCATTTAAATCTATATCATTTTCTTTCATAGAACATATTCCAATAACATTAGAACTAGATGGAAGCATACTAATAGTTTTCATAACACTTTCTGTTACATATGTTTTAGGAACACCAAGATCTATATCTCTATCACATAGTATAACCTCATCAAGGTTACCAGATTTATATGCTTCAAGTACTAGATGTTCTCCCTCGATAATATATTTCTTAGATTCATCTCTATACTTCTTTTCATTTAATTTTCTAATATCTTTTATTTTATTATTAGATGTAGATTCTATTATCATTCTTGTACTTCCTTTCTAATAGATTTATAGTTTGGACAGTTTTCCTCAACTAATGCCCAAAACCTAGAACTATGATTAGCTTCTATTAAATGAGATAATTCATGAACTATTACATAGTCTAAACATTTCATATCTTTATATACTAATTCTGAATTAAGTGTTACTTTTTTTAGTTTAGTATTACATACTCCCCATCTAGTAGACATTTTTCTAATAGTTAATGATGGATATGGAATACTTCTTGAATAATTATTATATATATAATCTAATCTCTCTTTAAATACCCTTTTTATCTCTTTTTTATACCATTTTTCTATATCACTAGTATTTCTTACATATAAAGTATTATCTTCGAAATAAGGGGTTTTAAATGCTTCATCTTTATATATTTCTATTTTATTACCAAAGTAATAATAATCTAATTTCTTTTCTAAACGTTTTTCTTGTTTATCTACAGCTTTTTTAATATATTTTATATTACTATTAACAAACTTTTTTACCATTATATCTGGAGTAAAAGTATTACATGTTACATATATATTTAAATCCTCTTTTACTCTTAAATACATATTCTTAATATGTTTCTTTTCTACTATAATGTCATATCTTATTCCATCAATTTCTATGTACATAATTCATCACTACTAATATTTTACCATTTTTATCAATAATAAAAAAGGATTATACTAATCCTTTTTTACATTATTTTTCATATATTGTAACATTTAAATCTTTATCTACAACTGCCTTATATTTTTGTGTTTTATCTATATCATTACCTGATGAATAATTACATGTAATAGTGGTACTTCCTTTTTTAACTCCAGTATAGTTAAAATGTACTGTTACATTTCCACCTTCAATTGGTTCTGATTCATATTCTTCTCCTGCACTTATAAGAATTTCTTCATTCTTAATTTCGCACTTCCAAGTATAAATATAACCTCCTACTTGATCTAAAACTATTTCATCAGATCCTTTTTTATTTCCACATCCAGCAAATACACACATCATTGCTAATAATACTACTGTTGCTAATACTTTTTTCATATTGAGTCCTCCTATAATAATATTATACTAATTAATATTATTATGTATAATTTATTTAATTTATAACTGTATATATACTGTAAACATTAAAATAAACTTAATTGATTAGATTCATCCATATTATCAAGAATATGCATATTTCTCATTATTTCAATTAATGTATCTGATATCTTACATCTATTTTGTAATTCTTCAATAGATAAGAAAGGTCTCTTATTTCTTTCTTCTACTATCTTACGAGCTACTACATCACCTAGTCCATCTATTGCAGAGAATGGAGGTATTATTTCATTATCACTATTAACTACATATGTAGTAGATTCTGATTTATAAAGATCTACATTTAGGAATTTAATATCTCTTGCTGTAGCTTCTAAGCATACATGAAGAGATTCATATGTACCTATTTCTTTATTAGTAGCCTCTTTACCTTTATTATCAATTTCTATCATTTTATTCTTAACTGCTTCATATCCACCAATCATAGAAATAACATCAACATCAGTAGCTTTACAAGAAAGCCATGATGCATAGAAATATACTGGCATATGTACTTTATACCAAGCAATTCTAAAGGCTGAAGTAACATATGCTGAAGCATGTGCTTTAGGGAACATGTATTTTATCTTACGACAACTATCAATGTACCACTCTGCTATACCAGCATCTCTAAGCTTAGCCTCAAATTCTTTCCATTTTTCAGGATCTTTAGATGCTTTACCTTTACGAACAAATTCCATAATCTTAAATGCATCTATTGGTTTTAATCCATTATACATTAGATATACCATTATGTCGTCACGGCACCCAATAACCTCTGAGAATGGAACTACATTATTTCTAATTAATTCTTGTGCATTACCAAGCCATACGTCAGTACCATGAGATAATCCTGATATTTTAATAAGTTCACCAAATGTAGTTGGTTTAGTGTCTTCAACCATTTGAATAGTAAACTTAGTACCAAATTCTGGAATACCAAGAGTACCAGTATTACACATTATTTGTTCCTTAGTAACACCAAGTACTTCAGGTCCACTAAATATACTCATTGTATCTTTATCATCAAGTGGCACCGCTGCAACATCAGTTCCTGTCATATCTTTAATCATACGAAGTTGTGTTGGATCTGAGTGACCTAATATATCAAGTTTTAATACATCGTCTTCAATTTTATGATAATCAAAGTGAGTAGTTCTCCAAGCAGAATTTGGATCATCTGCTGGGAATTGATATGGAGTAAAATCATATACATCCATATAGTCTGGTATAACTACTATACCTCCTGGGTGTTGTCCAGTAGTTCTTTTAACTCCTGTACATCCCATAGAAAGTCTTTCTACTTCTAGACTTCTCTTATCTATATTATGTTCTTCAAAATAACCTTTAACATAACCAAACGCAGTTTTATCTGCTACAGTACCAATAGTACCTGCTCTATATACATTATCTACACCAAATAATACTTTAGTATATTCATGTATTGCTGCTTGGTTTA
>sequence12
CACAGGACTGAAAATCCTGGTGTCGGTGGTTCGATCCCACCTGGAGCCACCATTTAATAAATAAACTAGATTTTTATCTAGTTTTTTTATTTTTTATATAATAAATATGTTATAATTATTTGTGTTAGTAGAGGTTAAATATGAAAAAAGTATTATTAAGATTATTACCAGTTTTTATTGTGTCATTTGTTTTATCATTTATGATGATAATATACGAACCAACATTATTATTTATATCTAGTTCTGAAGATTTTTGGTTTACTTTTGGAATGATGTTAAAAATGAATATAGTATTATTTTTAATAGCATTTATTTTATTATCTTTATTTGGTATTGGATTATATTACCTAGGTAAGAAGATTAATAAAGAATGGATTATAAATATTTATTTAATCTTATTATCTTCAGGATTCTTATTCTTTTATATACAAGGAAATTATTTTTCAAGTAAACTACCAATATTAGATGGGTCTCCAATTGAATGGGGTAGTTTTAAACTAGAATCTATTATTTCAGTTTTATTAGTTATTTTTGCTCTTGGTTTAAATATAGTTTTATATAAAAAGAAAAAAGATATTTATAATAAGATTGTATCTTATATAGCAGTAATAATTTTTGTATTATTATTAACAGGTTTAATACCATCTATTATTAAGAATAAAAGTGCTTTAAATAGTACAGTTAAATGTACTTCATCACTTGAAAATATTAATAAATTGTCTTCTAATAAGAACTTTTTAATACTTGTTGTTGATATGTTAGATTCAAGAACATTTGCAAAAGTATTAAAGGAAGAGAATAAAGAAGATTTATTTAAAGACTTTACTTATTATCCTGATACTTTATCAGCATATTCTTATACAAGAGAATCCATTCCATTTATGATGTCTGGAAAATGGTATGAATTAGATGGAGAATACTCTGATTATTATAATGATTCATTTGATAATTCACCTTTATTAAAAAGATTAAGAAAAGAAGATTATGATATTAATATTTATGAACAAGATATGCAATGGACAAGTAAGAAATGTTTAGATGTTAATAATATGAATATGTCTTCATATAAAGTTAGTTTATTTTCATTTGCAAAACAAGAATCTAAATATTTAATATTTAAATATTTTCCATATCCTTTAAAAAGATTTTCTAAAATATTAACTATGAATTTTAATTCTATTAGAGAAAATACTTTTGAAGCTGATAATAAAGTAGTATTTAATACATTAGATGATATTGAATTACAAGATAACAATTATTTCCAATTTATTCATATTGATGGAGGACATTATCCATGGAATATGGATGAAAACTTTAATATTGTTGAAAATAGTACTTATGAAGATAAGATTAAGGCTTCTATTAAAGTAATAGATAAATATTTAACAAGAATTAAAGATAGTGGTCAATATGATAATACTGCTATTATAGTATTAGCAGACCATGGTACAAATGGTTGGGAATACACAGGAAGACAGAATCCATCATTATATATTAAAGGAATTAATGAACATCATGATAGTATGATTATATCTGATAAGAAAGTATCACAAGTGGATCTTGTAGATAGTATTTATAATGATTTACTTGATGGAAAAACTAGTGAAGAGTTATTGAAAAATATAGGTACAGATAGAGTAAGAAGACATCTTTGGTATAAAGATATGACTTATGATAAATACTTTGAACAAACAACTGATGGAAATGCTTGGGATACAGATAATCTTAAAAATACAGGCACAATATACGAAAGAAAATAGGTGAGATTATGTTTTTGGTAGACATTTTAGGAAAGATAATGAGATTTTGCTATAACATATTTAATAATTATGGATTAGCAATTATCTTATTCACATTTATAAGCAAGATTGTATTATTACCAATTTCAATTTGGGTTCAAAAGAATTCAATTAAGATGGTAAAAATGCAACCAGAAATTAATAAGATTAAAATAAAATATTTTGGAGATAAAGATAAGATAGCAGATGAAACATCTAAATTATATAAGAAAGAAAAGTATAATGCATTAGTATCTTTAATACCTTTATTTATTCAAATACTATTATTAATGGGATTAGTTAGTGTAATAAATCATCCATTAGATTATATTTTAAACTTTAAAGATGAATCTACTACAAGAGCAGTTGAAACAATGATGAATAATCATAAAGAAGTAGATAAAGATTCATCATCAAAGGAATTAGTAGTAGTTAATGATATTAAAACAAATAATATTGATTATAGTAAAGATTTAACTACTAAAGAAATAGATAAAGTTAAAGATTTAAAAATGAATTTTTCAAAGTTTGATTTAAGTTGGGTAGCTGTTCAAAAGAAAGGTATAGCATGGCTTATTCCTTTAATAGCAGGCTTAAGTGCACTAATACTTTGTATTGGTCAAAATATGATGAATGTTCTTCAAAAAGAACAAGGAGCATTAAATAAATATGGTATGCTTGCTTTATCTGTTGGATTATCTTTATATTTAGGTATGTTTGTACCAGCAGGAGTAGCCCTATATTGGACTGCATCAAATATATTTGCAGTTATTCAACAATGGCTATTAAACATATTTATTAATCCAAAAAAATATGTAGATTATGAAGCATTAGAAACAACAAGTAAAGAATTAAAAGAAATGAATTCTTCTACTAAAGTTAAAAGAACTAGTGAAATGATAAAGAAAGAAAAACAAGATTATAAGAGATTCTTTTCTGTTGTTAATAAACATTTAGTATTCTATTCAGAATCTAATGGTTTTTATAAATATTATAAAGGTGTAATTGAATACCTATTAAAGAATACAAATATGACTATTCACTATATAACAAGTGATTATAATGATAATATCTTTAATTTAGAAAAAGAGAATAATCAAATAAAAGCATATTATATAGGAGAAAGAAAATTAATTACTCTTATGATGAAAATGGATGCTGATGTAGTTGTTATGACTATGCCAGATCTTGAAACATATCATATTAAGAGGAGTTATATTAGAAAAGATGTTCATTATGTATATTATCCTCATGGTCAAGGAAGTACTAATTTAACACTTAGATATAAAGCAACATTTAATTATGATACTATATTTACAACAGGTAAAGGTCAACAAGATGAAGAAGAGATATTCAATAAAAAGTATAAATTAAATAGAGTATTATTTAAATTTGGTTATCCTTTATTAGATGATATGATTTCTAGTTATAAAGAAAAGAAAGAATCTAAAAAGAAAACTATTCTTATTGCACCATCATGGCAAAAAGATAATATAGTAGACCTATGCTTAGAAGATATATTAGATAATATAAAAGATGAAGACTATAATGTTATAGTTAGACCTCATCCACAACAAGTAAGACATAAAAAAGAATACTTTGAACAAATGAAAGAAAAGTATTCCAATAATGAAAATATTGAAATTCAAACAGATTTTTCAAAAACAAATACAGTATTTGATTCTGATTTAGTTATTACAGACTGGTCTGATATTGGTTTTGAATATGCTTTTACAACTAAAAAACCAGTATTATATATTAATACTCCAATGAAAGTAATGAATCCAAATTATAAGGATATTGATATAGTTCCATTAAATGTATGGGCGAGAGATAAGATAGGAAAATCATTAGATGTAAAAGATTTAAATAAAACAAAAGATACAATTAGAGAACTATTGAAAGATAAAGATAAATATAGTAAAATTATTACGAAAGTAATGAATGAATATGTATACAATATAGGAAATAGTTCTGAAGTTGGTGCAAATTATATCATTGATTTAATTCAAAAGAAGATAAAGGAGAAGAAAGATAAATGATGAATACATTATATATTGATCCATCTGTTATGACATATGCTATTCAAGCAATTGCAGGTATAGTTATAGCTATTGGTGCAACTGTTGGAATAATATGGAGAAAATCAAAAAAGAAAGTTTCTAAAACTCTTGGAATTGATGAAAATAAGAATAAAGAAGTAGAATCAGATGAAATAATAGTTAAAAAAGACTAATCAATAGTCTTTTTTTATTGCTTATTATTGTTATTTCATTGTATAATATATAATGGTTTTAAAAAACGGGGTGGTAAAAATGAGACTTTCAAATAGTGAAATTGAAAGAGAAAAGAATTATCTTTGTGGTGTTGAGAGAATTATAAACGGTGAAATAAATGATATGAACTTAGATGTTCAAAAGAAAATGGAAGAAGTAAACACTGCTAAAAGAGAAATATATGAAGCTAAAACAGAGGATTATTTAGATGGTCAAGATTCTGTTAGAGATGTATATGCTGTTGAATCTAAAGTAGATTATATTAATAAAAAAATAGATAAAATAGAATTATTTAAAAGATCAGCTTCAATACCATATTTTGGTAAAATAACCTGTGATCTTAATAGTGATAAAGAAGATGTATATATAGGTATTACATCTATTGAAAAAGATAATCAATTTTATGTATATGATTGGAGAAGCCCTATATCCTCATTATTCTATAATTATGAATTAGGACCTGCTTCTTATAAGATTGATTCTAAAGAAATAAAATGCAATATTGATAGAAAATTACAATTTAAAATAAAAGATGGAGTACTTATTAGATGTTTTGATTCTTCTATAAATATAGATGATGAATATTTACAAGAAATGCTTTCTAATACTAATGATAAAAAATTAACTAGTATTATTAGTACTATTCAAAAAGAACAAAATCAAATAATAAGAAATGAAGATGATAAGAATCTTCTTGTTCAAGGATTTGCTGGTTCAGGTAAAACAGTAGTAGCCCTTCATAGAATTGCTTATCTATTATATAGAGATGCAAAACTTGAATCTAAAAACATATTAATTATATCTCCTAATGAGATATTCTCTGATTATATATCTGATGTACTTCCAGAACTTGGAGAAAAGAATACTAAATGTTTTACTTTAACTTCTTATTTAGAAAGTTATTTAGGTAAATATAGAATAGAACCATATGTTAAGTATATATCTAGAATAGAAGATGGTAATCTAAAAGAAATAAGTAAAAAAATAAATATATCAAAGGAATTAAAAAGATTCTTAAAAAAATATTATTCTAGCTTTAATTTTACTAGAAAGTTTACTATTGGAACCGAGAAATTTACTGCAAAAGATATTAATGATATGTTTAATGAGAAATATAAAAGACTATGTATAAGTGATAGATTTAGAAGAATATCTGAATTCATTTGTAATAAAGTTGGAACTCATAATAAAAAATATTATGCTATGATTAAAAAATATCTAATCGATAATAGTAATGTAAGTTTAGATATATATGAAGTATATAAAGAGTTTTTAAAATCAAAAAAATTATCTACAGTATTTTTAAATAATAAAGAAATAAAGTATGAGGATGCTATTAATCTAATAAATGTAAGTTTCTTTATTAATGGAGTAAAAAAAGATTTATCTTTAAGACATGTTGTAATAGATGAAGCACAAGATTATACTCTAAATGAAATTGAAATAATAAAGAAAATGTTCCCAGAAGCATCATTTACTATTCTAGGAGATGACAATCAAAATATTAATCTTTGTGATAAGAGTAAAATAATTGATTATAGTGAATTATTTAAAACATATAAATATATTGAATTAAACAAAACTTATAGATCTACTGAAAACATAGTAGAGTTCTCAAATAAAATACTTGGATTAAATAATGTATGTGCTGTTAGAAATACTTCTGGTGAAGAAGTAGAAATAAAAAAACTATCTATAGATAATTTAAAGAAATGTATAGATAATAATAAAGATAAATATAAGAAGATTGCAATAATAACAGACACTATGGATAATGCTAAGAAGTTATATAAAGAATTAAATAATAAAGATATTCAGTTAATAGACTTTAGTACTGATGTATTTGAAAAGAATATATTTGTTATTCCATCATATTTAGCTAAAGGTTTAGAATTTGAATATGTAATAGTATATAAAGAAAAAGAATATAACAATAAGAATCTATATTATGTAGCTGTTACTAGAGCTCAACATAAATTAACTATTTTAGAATAAAAAATAGACCATATGGTCTATTTTTTTGATGGTTTAAATACAAGTTTCTTGAATCTATTAATAATTCCATTATTAGGAGTTATATCTTTATTAGTTGTTGTACTTTGTTTAGAAGCACTCTTGTCATAATAATCTATTTGAGAATATGTTGCTTCTTTTCCTTGTTTTGCTAAGTTAATTGACATAGTAAATGCTGGTGTATCAGTTGTTACATAATCAATTACGTTTTTTCTTTTTGTATGAATATAACAAGGTATATATTTGTCTTCATAACCATTAGATCCAAGAGTAGGAGCAGCTACATATAATGAATCTTTTGAAAGAAATAATCTTAAATTATATTTAGATAAACCTGCTATTAAAGCTTGGTTATGAGTTAATGATGTAAGTGTTAATTCCATCTTTTTATTAATGTCTGCCATAATTTCACCTCAGTAGTAATATTATATCAAATATTACAAAAAATACTATATTTTTTTTGCAAAATATAGTATACTTAATTTAGAAAGGAGATAGGGAGAATGTATAATACATATGGTACTTATGGATACGGTAACTACAACTATAATACAACAGCAGCTAGCGCAGCTGCAGGAGTAGTTGGTGTTGCTCTTGTATTCTTAGTAATTTTCTATATTCTATTATTTGCTGCAGCAGTCGTAGAATTAATTGGTATGTGGAAAGCATTTGAAAAAATGGGTAAAAAAGGTTATGAAGCTTTAATACCAGGACACAACTATGTTGTTCTATTTGAAAAAGCTGGAATGCCTCTTTGGTATTTCTTCTTAATGCTAATACCAGTATGTAATATTGTATTCCTAATTCTAGTATCTATCGAAATTGCTAAGAAATTCGGTAAATCTTCTGGATTTGGTGTACTTCTTGCATTATTCGGATTTGTTTGCTGGCCAATTCTTGGATTTGGAAAAGCAACTTTCAAAGACTAATTTATTAGTCTTTTTATTTTACTTGTAATTCCTACTAAAATGGTATAGAATATATCTAGGTGATTGAAATGAGAATATCTTCAAAAGGAAAATATGCATTAGAATTAATGGTTTATTTAGGAAGAAACTATGGAAAGGGTAGTATTTCTATTAGTGAAATAACTGGTGATTCTTTTTCTATTAAGTATATGGAAAAGATAGCAAGTTTACTTAATAAAGCAAAACTAATTAAAAGTGAAAGAGGAGTAGAGGGTGGATATAAACTAGTAAAAGATCCAAAAGATTACTCTATATTTGAAATACTTAATGCTGTGGAAGATAATATGGCACCAATTAAATGCATAATAGACAGTGATGCTTGTAAAGTAAAGATTAATTGTAAAACTTATCCTATATGGGATGAGTTATATGAAATAGAATCAGAATTCTTAAAGAATAAAAGATTAACTGATATATTATAAGGAGGACATATGGAATTACTTAAAATAGAAAACTTACATACTATAGCATCTGATGATGAAAGTATGAATATATTAAAGGGATTAAATTTAACTATAAATAAAGGTGAAATACATGTAATAATGGGACCTAATGGAGCAGGCAAATCTACATTAGCTAATACTATATTAAATAGTCCTAAATACATAGTAAAAGAGGGTAATATATACTTTGAAGGGAATAATATAAATGATTTAAAAACTAATGAAAGAGCTTCTTTAGGTATATTTATGTCTTTCCAATCTCCAGTAGAAATACCTGGTATATCAGTTTCTAACTTTATAAAGAGTGCTCTTAATAATAAAGAAAAAGTAAACTTATATGAATATATAAAAGAGTTAGAGTCTACTATGAAAGAATTAGATATTGAAGAAGGTAAAGAACATAGAGATTTAAATGTAGGCTTTTCCGGTGGAGAAAAGAAAAAGAATGAAATACTTCAAATGCTTATGATGAAACCAAAATTAGCTATATTAGATGAAATAGATTCAGGACTAGATATAGATGCTATTAAAACTGTTTCTAAGGGCATTAATATGTTTAAAAATGATGATAATGCTATTCTTATGATTACTCATTCTACTAAGATATTAGAGGGTCTAGATAACTATATAGTACATGTTTTAATAGACGGTAAAATAGTTGATACTGGTGATAAGTCATTAGCTATAGAAATAGATAAAAACGGATATAATAAATACTTATAGGAGGTAACTATGAAAACATATGTAGAAGAATCAGATAGAAACATATATGATATAGTTACCAAGAATGAAACTGAAAAAGAAATAATAGGTTTAAATGAAAATACTATTAGAGAAATATCTAAATTAAAAGGAGAACCTGATTGGATACTAGATATTAGATTAAAGGCATTAAAGTTCTTTAATGAGACTTCTAATCCTACTTGGGGACCTGATTTATCAGATTTAGATTTAAATAAGATTAGTATGTATGTTAAACCAAAAGCAGAACTATCAGATAAATGGGAAGATGTACCAGAAGAAATAAAAGATGTATTTAATAAACTAGGTATTCCTGAAGCAGAAAAGAAATCTTTATCTGGAGCATCTGCTCAATTTGATAGTGAAGTAGTATATCATAATGTTAATCATAAATTAGAGGGTACAGGTGCTATTTATTTAGACTTTGATAGTGCTGTTAAAAAGTATCCTGAACTAATTAAGGAATATTTTTCTAAAGCAGTACCACTTAATGATCATAAATATATATCATTACACTATGCTTTATTTAGTGGTGGTTCATTTGTATATATTCCAAAAGGAGTAAAACTAGAATTTCCACTTCAATCATACTTTAGACTTAATTCTAGAGGAAGTGGACAATTTGAACATACATTAATAATAGTAGATGAAGATGCCTCTTTAGAATTTATTGAGGGATGTTCTGCTCCTGGATATAATGAAAATAATTTACATGCAGGATGTGTAGAACTATTTGTTAAAAAGAATGCATATTTAAAATTTTCTACTATTGAAAATTGGTCTAAAAATATGTATAACTTAAATACTAAAAAATGTTATGTAGAAGAAAATGGAAAGATAGAGTGGGTAATGGGATCATTTGGATCTAAAATATCTATGCTATATCCTATGAATATATTAAATGGTAAAGGAGCTAAATGTGAATTTACTGGTATATCTTTCGCGGGTAAAGGACAAAACTTAGATACTGGTATTAAGATTATTCATAATGCAGAAAACACGTCATCTGTAGTAAATTCTAAATCAATATCTAAAGATGGGGGAATATGTACATTTAGATCTAATACTTGGATTAGAAAGAATGCTAAAAACTCTAAAGTAGTATTTGATTGTGCATCACTTATGTTAGATAGTGAATCTAGAAGTGATACTATTCCTGTGGATAGAATTGAAAATAGTGAGGTAACATATTCTCATGAAGCATCTGTAGGTAAACTTTCTGATGAAGAAATATTCTATATTATGTCTAGAGGATTTACTGAAGAAGAAGCTAAATCTTTAATAGTTAGAGGTTTTGCAGAACCAATATCTAAATCATTTCCTGTTGAATATGCAGTAGAAATGAATAGACTAATAGATTTAGAATTAGAGGGGGCAATAGGATGAAATATATATTAAATGAGACTCCTATTAGGACTTCTAACAACTTTAGAATTAATGATATTAAACTAGATTTAGAATTACCTACTAAATCTAACTTTAAAGAGTTTAAATTAACTAATTTGGATAGTAATAAAACTATTATTCAATATAAGTATGGTTTAAATGTAAAAAGTAATTTAGGTATTAATTTACCAGATACTTGTGATGCTACTATTAACATAAGTAAATCATTAGATAAACCATTAATACTTGAATATGATTCTAATGATGTAATGCTTTCTATTAAAATAGGAACTAAGGATAATGTTAATGCTGATGTAATTATTAAAACTAAAGGTAATAAATATAATATGTTAGTAATTAATTCCTATACTGGTAATAATAGTAAATTAACTATTAATTATATTAATATGAATGAAGGTAATTCTTTAGTATCTTTTAATAAGTCTTCTGGAAGTAATTCAAATACTACATACAATATATATGATTTATGTGGTGAGCTTAGAATATATAATTATGAAAACTATGACAACGAACCTAATATAAAAGAAAATATTAATAATATGTATATAACTAAGAATGAAGATGTATTAGATATGAATTATTATATTAAACATACAGGTATTGAATCTTATAGTGATATATGTGTACTTGGATGTATTAAAGATAAATCAAAAAAATCATTTAAAGGAACAATTGATTTTAAAGAAGGATCTAAGAAATCTATTGGAAGAGTAAATGAAAAAGTAATATCTTTATCTGATGAAGCTATTTCTACATCATTACCTATGATTCTATGTCATGAAGAAGATGTAGAAGGTTCTCATGGAGTATCTAATGGTAAGATAGATGAAGATATATTATTCTATTTAGAAACTAGGGGATTCTCTAAAGAAGAAGCTATTAAATATATATTAACTACTAAATTTGATAGTTATATTAATTTATTAAATGATAATACTTTAAAAGAAGAAATAAGAGAATATATAAAAAAAGAACTATAAAGTTCTTTTTTTTAAAACGTTAATTTAATTCTTTTACCCTTTATTTCTATAAAACCTTCTTCTTTTAAGTAACTAAGTTCTCTACTCATAGCAGATCTATCTACTCCAAGATAATCTGCTAGGGCCATAAAACTAAATGGAAGATATATATTATTAGAACCATTCTTTACTTTAACAATAGAGAAGTACTCTAATAATCTATTTCTAATAGTCTTTTTAGATAGTATTTGTATTCTTTCATTCTTTTCGTTTATCTTATCATTAAGTATTAAAAATAGATTTTTAATAAACATGTTATAGTATCCCTTTTCATTATTTGGATAAGTAGATAAAGCTTCTAAATCAAAGAATACAATTTTAGTTTGTTCTTTTACTAATACTTCATATTCTGAATCTTGTACATAAATAGTTTTAATACTTAATACATCATCTTCATATAATTCATCTATAACTATTTTACTTCCATTAAGATTTTCTTTTATTATTTGTATATAGCCTTCTATAATAATACCAATAGAATTCTTGTCTAATAACATGTTAGATAAGTCTTCTCCTGCTTTATAAGTAATTATATCAGTATGGAACATATTAAATAGCTTTTGTTTATTCTTTTCTGATATATTTTCGAATGGTTTTGTCATGTTCGTCAACTCCTATGTAAAATTTTATCATATTTTTGAATTTGTTGCAACTGCAACATAACACGTATTTTATATTATGCTAAAATTGAATTAGAACATAGGAGGATAAGACATGAAAATTATAAAAAGAGATGGACATATAGTAGACTATTGTCCAGAAAAAATTGAAATAGCAATTAAAAAAGCAAATAGAGATGTTCCTGAAGATGAACAAGTAAGTGATACTCAAATAAAGAACATTATTAAACATATAGAAGGTCTTAAAAAGAAAAGAATGCTAGTAGAAGACATTCAAGATATTATTGAAATGAGACTTATGGCTTTAGGTAAATATCAATTAGCTAAAGCATATATTACATATAGATATACAAGAGAATTAGTAAGAAAGAGTAATACTACTGATAAATCTATTAAAGAATTAATTAATGGAGAAAATGAATACTGGAATACAGAAAATTCTCATAAGAATGCAATGGTAGTAACTACTCAAAGAGATTACTTAGCAGGTGTAACTTCTACAGATATAACAAGAAGATTCCTTTTAACAGAGGATATAGTAAAAGCTCATGATGAAGGTATTATTCATTTCCATGATGCTGATTATTTTGCACAAAATGCACTTCATAACTGTGATTTAATTAATTTAGATGATATGCTTCAAAATGGAACAGTTTTAAATGGAGTAATGATAGAAAAACCTCATAAGTTTTTAACTGCTATGACTATAGCTACTCAAATAATATTAGTAGTTACAGGTAGTCAATATGGTGGTTGTACTATTTCTTTAACTCACTTAGCTCCTTTCGTTAGACAAAGTTATAAAAAATATGTAAAGAAATATGAAGATAGAGGACTATCTAAAAAAGATGTTGAAAAGTTTGCTAAAGAAGATCTTAAAAAAGAAATAGCAGATGGAGTACAAACTTTCCAATATCAAGTTAACTCTATGGATAATATTAATGGTCAAATACCTTTCTTAAGTGTAAATATGTATCTTGGAGAAACTGATGAATATAAAGAAGAACTTGCTATGATTATAGAAGAATTCTTAAAACAAAGACTAGAAGGTATGAAAAATGAGCAAGGTGTTTATATAACTCCTGCATTTCCTAAATTATTATATGTTCTAGAAGAAGATAATATTAATCCTAAGAGTAAATATTATTACTTAACTAAATTAGCAGCTAAATGTACTGCTAAGAGAATGGTTCCTGATTATATATCAGAGAAAATAATGAAAGAACTAAAGAAAAATGAATATGGTGAAGGAGAATGTTATCCATGTATGGGATGTAGATCATTCTTAACACCAGATAGATCTATTAGTTTAGGTAATATAGCTAAAGCTAAAAACTATGTAGAGGGTAAAGGTAAATACTATGGTAGATTTAATCAAGGAGTAGTAACTCTTAATTTACCAGATATAGCATTATCTTCTGGAAAAGATATGGATTTATTCTGGCAAATATTTGATGAAAGACTAGATTTATGTCATAGAGCACTTCAAATAAGACATAAAAGATTATCTAGAGCAACATCTGATGTAGCGCCTATATTATGGCAACATGGAGCACTTGCTAGACTTGAAAAAGGTGAATCTATTCATGAACTATTACATCATGGGTATTCAACTATATCTTTAGGATATGCAGGTCTATATGAATGCGTTAAATATATGACTGGCCATTCTCATACTGATAATGGTATTGGTAAAGAATTTGGATTAAAAGTAATGAAGCATATGAATGATATGTGTAAGAAATGGAGAGAGGAAGAAGATATAGATTATTCTGTATATGGAACTCCAATTGAATCTACTACATATAAATTTGCTAAATGTTTAAGAGAAAGATTTGGTAAGATTAAAGGTATAACAGATAGAGATTATGTAACTAATTCATATCATGTACCTGTATTTGAAGAAATAGATGCATTTACTAAATTAAAGTTAGAAAGTGAATTTCAACAATTATCTCCAGGAGGAGCCATTTCATATGTTGAAACTCCTAATCTAGAAAATAATTTAGATACAGTAATGGAATTAATTAAGTTTATATATAATAATATTATGTATGCTGAATTAAATACTAAATCAGATTATTGTGGTAAATGTGGTTTTACTGGAGAAATATTAATAAATGATGATTTAGAATGGTATTGTCCTAATTGTGGAAATAAAGACCATAATACATTAAATGTTGCAAGAAGAACTTGTGGCTATATAGGAAACAATTTTTGGAATAAAGGAAGAACCCAAGAAATAAAAGATAGAGTATTACACGTAGATAATAAAGAGTGTAACTAATGAGATATAATCGAATTAGAAAAATGGATATTTCTAATGGACCTGGTGTTAGAGTATCTATATTTGTTCAAGGATGTGAATTTCATTGTAAAGACTGTTTTAATCCTGAAACATGGGATTTTAAATGTGGAGAAGAATTTACTGATGAAACTATAGAAAAAGTACTTGATTTATGTAATTATGATCATATAACAGGTCTTACTATATTAGGTGGTGAACCAATGCATCATAATAATATAGAGGGTACCACTAAACTAGCTAAAGAGTTTAAAAAGAGATATCCAGATAAAACACTTTGGGTTTGGACTGGATTTCTATATGAAGGTATAAAGGATAATGAAGTCTTTAATTATATAGATGTTTTAGTAGATGGACAATTTAAAACTAATTTATTTTCACCTTTACTTAGATGGAGAGGATCCTCTAATCAAAGAGTAATAGATATTAAAGAAACAAAAGAAAAAGGTGAAATAATAATATATAAGGACGAGGAATACTAATAGTATTCTTTTTTGTATAGTTAATGTAATAGTAATTGAATAACTAATAATAGTTTGTTAAAATAAAGAAAAGGAGTATTGTATGAAAGAAGATATTATAACAAATCAAGATCCTCTTGAAATTGAAATGGAATCTGAAGAAGGGGAAAAAGTAAGAGTAAGAATAGTTAGATTATTTGAAGATGGAGATAAAAGTTATGTAGTAGCAGATAATCTAGATAATGAAGAAGAATCATATATTTTTGAAATTATACCTCATGATGATGGTGATGAACTTGTAAGTATAGAAACAGAAGAAGAGTTTAATAGATTATGTGAAGTACTTAATAAACAACTTGAAGAAGAGGAGGAAGAATAAAGACATTAGTCTTTATTTTTTGTTATAAATATGTTGACTTTTAAAAATATGCTGTGTTATAATTTATTTGCTTATTTGAAATGGGCCCTTAGCTCAGCTGGTAGAGCATCTCGCTTGCACCGAGAAGGTCAGGAGTTCGAACCCCCTAGGGTCCACCATTTGAAATGTAAAGAACCTAATGGTTCTTTTTTTTTATTTTATATATACATGTTATAATTATTATAGGTGATATATATGAATAAGTTTATGGATGTAGCAATTGATTTGTCAGATGACAATTTCGAAAAGAATTATGGAGGTCCTTTTGGAGCTTGTATAGTTAAAGATGGGAAAATAATAGGTAAGGGTATTAATAGAGTAATCAAAGATAATGATCCAACTGCACATGCAGAAGTAGTAGCTATTAGAAATGCATGTAAAGAATTAGGAACTCATGATTTAACAGGATGTGAAATATATACCTCTTGTTATCCTTGTCCTATGTGTTTATCTGCTATTATATGGTCTAATATTAAAAAAGTATATTATGCTAATACTAAAGAAGATGCAGCAAATATAGGATTTAGAGATGATTTTATATATGATTATTTAGATAAATTATCTAATGGTATAAATGATAATAATGTTCTTAAATTAAAATCTATGAATAGAGAAGAAGCTATAGAAGTCTTTAAAAGATATGAAGAAGATAAAGATAAAATAGTTTACTAATATTATTCTATAGTGTATAATTTATTTAGGTGATAGAGATGAGTCAATATTGGATTCAATATATTATAATAGGAGCTATACTAATATTTATATTATTAATAGTATTAAAAGCTACTAAAAAAGACTTCCATGTAGAAGCAAATAAATTAGTAGATTACCTTGGTGGTAAAGATAATATTATTAGTATGGAAGTAAATATGTCTAGATTTAAAGTAACTTTAAGAGATGTGTCTATTGTTAATAAAGAAGGTATTCAAAAGATGGGTGCTAAAGGTATAGTAGAAATAGATAATCAATTAAAGATAATACTTGGTCCTAATGCTAAAACATTAGAAAAATATATAGATGATTTAAAAAAATAAAAATACATCAAATGATGTATTTTTTATTTTAATAATAATTTAACAAGTAAATATACAAAACAATATCCATATGAAAAACCATTTAGTAAAAGTGATAATTTATATGGAGATATTATACTCTTATTAAGTTTTTTAAAATAAGTACCTTCTATTAAGAATACAAATATTTCTAATATAGGAACTATTATATAAAATACTATATAATTATTCATTACTAAGTATAGTAGATTTACAATAATATTTAATGTTACATTAGTTATTATATTAATAAATGTAATTCTAAGAAGATCTTTTCCTCTAATTCCTAATACTATTGATATTGTTAATTCTATTAATAGAGTAAGTATTAAACTTTGAATAATATTAATTATCATTTTCTATTCTTTATTAAGAAAGTAACTATTCCACTAACAATTACTACAACAGATATTGCAATAATAATTATTGGTGTAGGATTTGTTTCTTGTATTGGGGCTACATCTAAAAACATAATATACCTCCTATTTCTTTTTTTTGTTAACTATTATTAAAGTTACAGTTAATGCAATTAATACAACTACTATTGATGCTATTATTATTGGTGTAACATTTGTAGTGCTAACAGGTTCTTTAATTGTTGGATGTGGATATCCAGCTATATCTAGAAATCTCATCATTTTCTTTTTCCTTTCTTAATTAATACTGTTGTTATAATTGCTACTAAAACAACAATTGTAACAGCAATAGCTATTGCACCAATTACAGTAGAATTATTAAATGAGTTCTTAACTGTATATAATGGTTCAACTGGTTCATCTAGAAAATAAAACATATTTATACCTCCTTACTTTCTATCTTTACTAATATTATTGTACAAAGAATTGTTAAAATAGTAAATACTATACCATTTATAAGTAGTGAATCAATTGTAAAGAAGAATGCTGGAAATGAACCTACAAATAAAGCTATTGTTGTAAGACCAAATGCTATTCCAGGATTCTTTTTTAATCTTGATACTAGTATAGCAAGTGTTACTGGCATAGTCATACTAAATAACATAACTCCAATTAATGATAGATACATATTTTGATTACCAAATAATAAGAATGGTAATGCAAGAAGAGTACTAATAATAGATGTAATCTTAATATTTGTTTTATCTATTAATAGACCTCCAAGTGCTTTACCTGTACCCATAAAACAAAATAGTAATATACTTTGAAATATTGTTTTATTCCATGCAGTAGGTATACCATAACTAGAAAATGATCTTACTGCTACTACAAAAACTGCTAATAATATAATTACAGTTAATCCCATTTTTTTATTATCATAATTATAATCTTTTAAATCTTTATCTTCTGTATCTCTATATTTGCTAAATAATATAACTAATAATAAACTAATAATATTAGCAATTATAATAAATAAAACATTAACGTTATTTTGATATAATAATCTTCCTGTTATTATTCCAAAAGCACCACCAGAAACAAATAGTGCACTAGGAAACATTTTACCTCTTGATGTTCTAAGAGTAGCTTCTGCTCCCTCTACATGTGTTAAAGCATTACCAACAGTTAAGAATCCAAATATTACTATTATAGGTAAACTATACTTCAAACATATAAGAGCAATAGTAGTTAATACAATACCTATAACTCCAACATTAATCTTTCTATATTTATCTGTAATAGCACCTATTAAACCTTGTGGAACAAATGCTATTAAGTCATACATTAATGCTATTATAGGAAACATATTATTATTAGTATAAGCTGCTAAAGTATAAAAACAAGTTACTTCTAATATAAAATGTACTAGAAAAAATATAAATCCTATTAAATACTTATTTTTCATATTACCTCCTAATTATATTATATCAAAAAAATACATCACTTAGATGTATTTTTAATTTTATATACGTTAATAGATGGAATACTATTAATTCTAAATTTAAACTTATCTGTTCCTAAACCATTAGATATAAATAAATTAGTTTTATTCATTTTATAATGTTCTTTATAATATAATCTAGAACCATTTTTTAATAATAGTTTATCTATTCCTGGTATATTAATTTGATTATATAAAGAATGACCAGCAAACACATAATTATAATTTAAATGATCTATCTTATCCATAGTATCTGGAGTATGCATTATATTAATTTTAAATCCTTCATAATTAATATCATCTAGAAATTTTAAATCTGATTTATATTTAGT
>sequence13
TAAGAAAAGCTGCTATTCAAAAAAATGGAGCTGCTAAAGCTAAAATTTATTCAAACTTTGCAAAAGAAATTTATATAGCTGCTAAATCAGGTGGTACTAGTATAGAGGCTAATGATAAACTTAAACAATTAGTTGAAAAGGCAAAAAGAAATCAAGTACCAAGTGATATTATAAATAGAGCAATAGATAAAGTTAATGCTGGTGTAGATGAAAACTATCAAAGTTTAAGATATGAAGGTTTTGGACCTGGTGCATCTAATTTAATAGTAGACTGTTTAACAGATAATGTTAATAGAACTGTTGGAATGGTTAGACCTGCTTTTACTAAATGTAATGGTAAATTAGGTGTTGAAAACTCAGTATCACACTTCTATGAAAACTTAGCTATATTTGCTGTTAAAGGATATACTGAAGAAGAAATGTTAGATCTACTTATGGAACAAGGAGTAGATATTAAAGATATTGAATCTGATGGTGAGGATGTAATAATAACTGGAGATGCTAAAGAATATAATAATATTAAGAAAGCATTACTTGCTATTAATCCAAATATAGAATTAGATGTAGATGAAGTATCTATGGTATCACTTGATAAAGTTAAACTTGAAGGTGAAGACCTAGAAATGTTTAATAAATTATTAAATATGTTAGATGAAATAGAAGATGTACAAAATGTATATCACAATGTAGAATTATAGGAAGATTTATCTTCCTTTTTATTTTTTTTAAAATGTGTTATAATGCTAATAGTAGAGGAATAAGAAAAATGGGAAAAAGAAGAAAGAGAATTAGAATTGATCGTATTCTTATTTGTTTAGTTTTTTTAGTCGCGCTTATTTTTCTTATTAGATTTATTATATACATTATATTTGGATTTAAAGTTTTAGGAGAAGCCAAAAAAGGAAATACTATTAAGCTTTATCATGATAATGCTAATGTGTGGAAAAAGACTGTTAAATATATTAATGAGAATATGGATGAAGTAAATATTAAATATAAGAATTATACTATTACTATGGATTCATCATATTTTAAAAGAAATATGAATATTAAACCAGATATTACTACTAAGAAGATTAACAGTGGTGAATTTTATAAACAAAAAGGTATATATATAGACAATAATAATATTATGTCTATAGCTACTAGTATTAAGTTTAAATTACCACATTATATATATAAGAATGGTTATGTAGATTTATATGGTATTACAGATGATGGAACTTATGTACTTTTAGAGTCTAGAAAGAAAGTAGATAAGTATTATACTTTAAATGTATATGATAATTATAAAGATTATTTTGTTACATATGTTAAATTAGATAGTATTAAGACTACTCAAAGTTATACTTTAGAAGAAGGAGAAACTAAAGAAATAAAACTTGAGTTTAATCCATCAAATGCTACTAATAAGAAGGTTGTTTATACTGGATATGATAAAGAAGTCATATCTATAGAAAACGGTCTAATAAAGGCCTTAAAAGCAGGTAAAACTACTATTAAAATAAAAGGCGATGATATGTCTATTGCTAAAGTTAAAATAGTAGTTAATAAAAAGAAAGAAGAACCTAAAAAGACTGAGAAAATAGAGGTTAAATCAAAAGTAACTAAGGGTGAAGATGGAATCTATTATATAGATGGAATAATGATTGTTAATAAATCATATCCATTACCAGAAACTTATGATCCAGGTAAATTACTTCCAGAATTTATGAATGCATATAATGAAATGCTCGCAGATGCTACTAGTGATGGAATTAAGCTGTGGATTCAATCAGGATATAGATCTTATGATTATCAAGTAGGTTTATATGATATGTATGTTAAACAAGATGGTAGAGCTAAAGCAGATACATATTCTGCAAGACCAGGTTATTCAGAACATCAATCAGGATTAGCTGCAGATATTAATAATCCATCTAGTTCATTTAATGGTACTAAAGAAGCTAAATGGTTAAAAGAAAACTGCTATAAATATGGTTTTATTATTAGATTCCCAGAAGGTGAAGAAGAATATACTGGATATAAATATGAATCATGGCATATAAGATATGTAGGTAAAGTAATATCAAATAAAATCCATGAAGCTGGAGATATATCTTTAGAACATTATTATGATATAGAAAGTAAATATTCTAATTAATGTAAACTCTTGTCAAAAAGAAAATCATTAAATTGATTTTCTTTTTTTTACATTTTACAATTAAAATAGGTGATAGAAATGAATATATTAAATATTGTTCCAATTGTAGAATTATTAATCTTTTTAACAGTATTAATATGTATTGTTTTATTAATTAAAATGTTAATTAATAGGAAAAAAATGGTTAAATTAGATGAAGAACTATCACATATAAGAAATATAAATAATATTATTAAAGATGAAAAATATATAGAAATGACTTTACCATTTAGTCCATTTATTTAAAAGTAATTGTTGTAGTTACTTTTTTTTATGTTATAATCTTATTATAGAGGTGAATAAACAATGTATATACTTGCTAAATCAGTATTAGCATTAACAGCTGGATTCTTAGTAGCTATTGTTTTAGGAGCAGTTATAGTTCCATTTTTAAGAAAAAAGAAAATGGGTCAAGTAACTAGTAAATTTGTAGAAGAACATGCATCTAAAGCAGGAACACCAGTTATGGGAGGTATTATTTTTATATTATCTACTCTTATGGTTCTAGCTTTATTAGTAGTTCTAAAAAAGATAGATTATACATCTAATTTAACTATAGTATTATTTGTATTTTTATCTTATGCTTTATTAGGTTTTATAGATGATTATAGAATTATTAAATATAAATCTAATGAAAAAGGATTAACTAGACTTCAAAAGTTTATAGGACAAGTAATTATTGCAATAGGATTCTTCTTATTATATATAAGAAATGGAATGGATCCTACCATAGAAATATATTTATTCCATATTAAATTAAATCTTGGAATGTTCTATGTAGTATTTATATTATTTATGTTAGTAGGTTCATCAAATGCTGTTAATTTAACAGATGGATTAGATGGTCTTGCTGGAGGATTATGTGTTATAGCATTTATAGTATATGGTATGATTGCATGGAATACAGGATGGATTCAAGGTTATGATAATTTAGCATTATTCTGTTTTATATTAGTAGGAGGTCTTTTAGGATTCTTAGTATTTAATGGATATCCTGCTAAAGTATTTATGGGTGATACAGGTGCTTTATCACTTGGAGCAACACTTGCTACTATAGCAATACTTACTCATAGAGAATTATCTTTAGTAATAGTAGGTGGAGTATTTATTATAGAAACATTATCTGTTATAATACAAATAGCATCTGTTAAATTAAGAGGTAAAAGAGTATTTCCAAAGACTCCAATACATCATTCATTCCAAATAAAAGGATGGCAAGAACCAAATATAGTAAAAGCATTTTATGTAGCTGGATTCCTTCTTGGAATAGTTGGTATATTATATGGAGTATGGTTTTAATAAAGGAGAACTAAAATGAAAAAAGAAGAAAAAAAGAAAATTCAAAAAGAAGTTAAAGAAGAAGTAAAAGAAAAATTAACTGATATCAAAGAGGATGTAAAAGAAGATTTTACTCAAGAAAAAATGTCTAAAAAAGAAATAAAAGCTAAAGCTGAAGCAGGTATGACATTAGATGAAATTAAAAAAGAAAATAAAAGAATTAAAAGAAGAAGTTCTACTAATAGATTCTTTGCTACTTTCTTCTTATTAATACTATTCTATATATTTGGTGTTGTATCTGGAGTATATGTAGCAGATAAATATAATGTTACTTTATTTGTTAAAGAAGAAAAGAAAGAAAATAAAGTTAATCCTGCTAATGAAGAATGTACTATTATTAATTGTGAAAAAATTACATTCTCAGGAGTATATACAGGAAATGTTAATGATAAAGATGATGGTACAGGAAGCATGTTATCAGTATCTTTAGATTTGGATGAAAATGGATATGCTTCACTTACATCTACTTTAAACGGTGAGGTAGTAGAAGTTAGTAGTGGTACTTATGATGTTAAAGATAATAAATTAACTTATTCAAGAGTATATGCTAAAGGTGGAAATGATCAAAAGAATAATACATATTTCATTAAGATAGGTGCTTCATCAAATGGCTCATATAGATATAGTGATTTATTTGATAATAGTAGAACAGAAGAAACATTTGTTATTAATGAAAATGGATTTACATTAAATAATTATGCTAAAGCAATATTATCTGTTGATAAATTTATAGAATTAAGTAAATAATCTGGTTATACCAGATTTTTTATTTACTTTTTTATTTTATTTTGATATAATTTATCTATGATAGAGGGGTACCCAGAAAGAAGGATAAGAAGGTATGAAAAAATTTAAAACGTATATATTTATAATGCTATTGGCCTTGGTATTAATACCATTTAAAGTATTAGCTGCTAATGAAGTTAAGTTTTCTGCTTCAGGAGCAAATGTAAAAGTTGGGCAAGGATTTTCAATTACAGTAAAAGAAGAAGGTGCATCAGATACTAATACACTTCATAGTTATACTGTAACGGTTGAATTTGATTCAAATATTATTAAATATGAAAATGGTTCTTCTCCAAACAAATCAAATATATCTCAAAATGGTAATATAATAACTATTTCATATAATCAACAAATATCATCTACAACTGATATAGCTACTTTAAACTTCACTGCTATTAAAGCAGGTAATTCAACTATTAAAGTAACTAATGAATGTAATATTAATGGTGAAACTGGTACTTGTGCTTCTAATGGTGGAAATGCAAAAGTTGATGCTTTAGGAAGAGATGCTTCACTTAGTGGATTATCTATTCCAAATACTACATTAAGTCCAGCATTTAATAAAAACACATATGATTATACAGCAGATTTAAAAGATGTTAAATCAGTAGAAGTTAAAGCAACTGCTAGTGATCCAAATGCTAAAGTTCAAATAAGTGATAATTATAAGAATCTTCAAAAAGGAGAAAATACTATTAGTGTAGTTGTTACTTCAGAAGATGGTTCTAAGAAGTTAACTTATAAAATAAAAGTTAATCTTGAACTTACTCCAACAGAAGAAGAATTAAAATTAGCTGATGCTTCACTTACTTCTTTAGAAATAAAAGATCAAAAAATAGAATTTAATCCAGAAGAAGTTAAATATTATTTAGAAGTTCCATATAATATAACTAGTTTAGAAATAACTCCAAAGACTACTAATGAAAATGCTACTTTTGAAATATCTGGTAATGATAAATTTATAGTAGGTAAGAATACTGTTAATATTAAAGTAACAGCAGAAGATGGAACTACTACTAAAACATATTCAATTATAGTAACTAGACTTCAACAAAATAAAAAAATAGTTCAAACTTGTCCAGATACAACAAGTTTAAAAGAATGGATAATATTCTCAGTAGGATTACTACTAACATTTACTCTTGGTATTTTCCTTGGATATGTACTTTGTAAAAAAGGTATTATTCAAAAAATATTTAAGAAAAAAGAAGTAGAAGATGAAGCAGTAGAACTACAAACTTTATCTGATACAATTGACTTAAGTGATGTTGTAGAAGAGATAAAAGATGATGAAGATGTAAAAAAAGCTTAAAAAATTAAGCTTTTTTTCTATTTTTAGGGGAATTTCCTCTTTTTTTGTCGAATAATATAGTTGTCGGGAGTTTTTTTATGAATAAAATAACATTTGAAGAAGTACTTAGTATTCAAAGAAAAGTAAATATTGTAGATGTTATTAAGAATTATATTTCACTTACTCCAAGAGGAAAGAATTATTTTGGAGTATGTCCTTTTCATGATGATCATAATCCATCAATGAGTGTATCTGAAGAAAAGCAAATGTATAAGTGCTTTGTATGCGGTGCATCTGGTAATGTATTTAACTTTGTTAAAGAATATGAAAAGATACCGTATTATGCAGCAGTAAAAAAAATAGCAGATCAAATAGGCGTTAATTTTGAATATCATGAAAAGAAAGAATTTATAGATGAATCACTTAAGAAGATGTATGACATATATGATTATGCATCTAAGTATTATCAAAATAATTTAAATACTAATTTAGGTAAAGAAGCTAAAGAGTATTTAAGTAAAAGATCTATAGATGAAGATATAATTAATACATTTGGAATTGGACTTTCTTTTGATGATGATAAACTATCTAATTTACTATTAAAGAAATATATAGAAAATGATTTAGTAGATTCAGGTATAAGCATAAGAAGTACTAATAAAGTTTATGATATTTTTAAAAATAGAATAATGTTTCCTTTATGGGATATAAATGGTAAAGTAGTAGGATTCTCTGGAAGAGTATATAATAATACTTCTGAAAGTAAATATATTAACTCTAAAGAATCTAAGATATTTAAAAAAGGATCTTTATTATATAACTATCATAATACAAGGGAATATGCTATTAAAGAAGATAATATTATAATAGTTGAAGGATTCATGGATGTAATAAGATTATATTCTATAGGTATAAAGAATGTAGTAGCTACTATGGGAACTGCAATAACTAAAGAACATGTATCTCTAATCAAAAGACTTAGTAATAATGTAACTCTATTATTTGATGGAGATTCAGCTGGTGAAAAGGCTACTAATGCATGTATTACTATGATGAAGGACTCTAACTTAAATATTAAAGTAGTTAGATTAGAAGAAGACCTTGATCCTGATGATTATATTCTTAAAAAAGGTAAAGATAAGATGCTTAGTCATTTATCACATGCTAAATCATTAATAGACTATAAGAGTGATATATATAAATCTAAATTAAACTTTAATGATAGTAATGATTTATCAAAGTATTTATCACTTGTTAAAGAAGATTTAGAAAAGATGAATGATGATACTGCAAGAATGATTGAAATAGATAAAATATCTAAAGAAACTGGTATTAATAAAGATATTATTATGTCTACGATTAAAGTAGAAAAGAAAGAAATAGTTAAACCAGTAGAAATAAAAAAAGAAATAAAATTAAATAAGTATGAAAAGGCTTCTGAATTTATATTATTTCATATGGTAAAGAATAGTAATGTAATACAGTATTATTTTAATAATTTAAGTTATTTACCAAATGAACTAGATAGGGAATTAGCTAGTAAAATAGTTTTATATTATAAGAAATATAAGAACTTTAATTTATCAGATTTCATTAGTTATCTAGAAGATAATAATGAACTAATAAAAAGAGTTATGTATATAGATGAACTAAAATATAGTGAGAATTATACTTTAGAAGAAATAGATGCATATTTTAATGCTATTAGAGAATATATTAAAAAAGAAGAAATAAGAAAATTACAAAAACAAATGAAAGAAGAAACTAATGAAGTTGTTAAAAGAGAATTAGCTTCTAGAATTATAGAATTGAAAGTAAAGGGAGAAGAGTAATGGGAGAAATATTAGAAAAAGAAAAGAAAAATTTACTTAAAATAAATAAGAAAAAGGGATATATAACTGCAGATGATTTAAATAAAATATTTGAAAATGAAGATATATCTGCTGAAGAAATAGATAATATTTATCAATTCATATCTGATAATAATATAGATATAGTGGAAGAAGAAATGGATGAACCAAAGATGCCTAAGGGTAAGAAAAAAGTAGATGAATATCATGAAATAAAGACTTTAGAAGATAGAAAGAAAGACTTACTTGAACTTGGTACATCTGTAGGATATTTAACATTTGAACAATTAGCTACAGCTTTAAAAGGCTTAGAAATGGACGCTGAAAGCTTAGATGATTTATATAATTTCTTAAGAGACAATAATATTGAAGTTATTGAAGAAGGAGAAGAAGATGAAGATCCTGAAGGAGGAGATTCATTATCACTTGATGAAGATGATTTACCTAAGAATTTAAATATTAATGACCCAGTTAGAATGTATCTTAAAGAAATAGGTAAAATATCACTTCTTTCATTAGATGAAGAATTAGAATTATCTAAAAGAATAGAAGAAGGAGATGAAGAAGCTAAGAAGAGATTAGCCGAATCAAACCTTCGTCTAGTTGTATCTATTGCTAAAAGATATGTAGGAAGAAACTTATCATTCCTTGATTTAATTCAAGAAGGTAATATAGGTTTAATGAAGGCTGTTGATAAATTTGATTCATCTAAAGGATATAAATTTTCAACATATGCTACATGGTGGATTAGACAAGCAATAACAAGAGCTATTGCTGACCAAGCTAAAACTATCAGGGTACCAGTTCATATGGTTGAAACTATTAATAAATTAAAGAAAGTTCAAAGACAATTAACTCTAGAACTTAATAGAGAACCAACTGAAAAAGAATTAGCTCAAAAATTACATATAACTGAAGATAAAGTTAGAGAAATAATTCAAATCTCATTAGATCCTCTTTCATTAGAGACTCCAATAGGTGAAGAAGAAGATTCTCATTTAGGAGATTTCGTATCTGACAAGAATAATCTAACACCTGAAGAATATGCTATTAATGAAGTATTAAAAGATGAAATCCAAGAAGTACTTCTTACTCTTACAGAAAGAGAAGAACAAGTACTTAAACTTAGATTTGGTTTAATTGATGGAACTTGTAGAACTCTAGAAGAAGTAGGTACTATATTTGGAGTAACAAGAGAAAGAATTAGACAAATAGAAGCTAAAGCTTTAAGAAAACTTAGACACCCATCTAGAAGTAAAAAGCTTAAGGATTATTTAGTAGACTAATATGAAGTTATCAAATAGACTTAGTGCAATAACGGAGTACGTCGCCCCGGAGGACAAAATAATTGATATTGGGTGTGATCATGCCCTCCTAGATGTATATATTGCAAAAGAAATGGGAAAAAGATTAATCGCTTCTGATATACATGAAGGAGCTGTTAATAACGCTGCTAAAAATATAGAAAAGTATGATGCATTATCTATGATAGATTTAAGATTAGGTAATGGTTTAAATATTGTAAATCCTGAAGAAATAAATACTATTATTATTGCAGGTATGGGATTTCATACTATTAAAGATATACTTTCTAATAGTGAGAAATTAACTAATGTTAATAAAATAATAGTTCAATCTAATACAGATATTATTAAATTAAGAAAATTTGTTATTAGTTTAGGATTTATGATAAATAGAGAACAGTTAGTAAAAGATGGAGATATTATATATACTGTAATAGAATTTCTAAAAGGTGAAGAAAAATATACTTATGAAGAAATATATTTTGGACCTAAAATATTAGAGAATAAAGATGAATTATTTAAAGAATATTATTCTAAAAAACTTCTTAAATATGAAAATTTATTATTACAACTTCCATCTCATGAACTAAGAAGTATGCTTCATCATAAAAAATTAATTAAAATAATTAAAAAAGAATTAGACATTGAATAATGTCTTTTTTTTGTAAATAAATATTCTTTAAATAATATATAAATGATATAATTTAGATAATAGGAGATGAGGGGTATGATAGTAGTATACATAAGCATATTATTTATACTTGGTTTATTATGTGGTAATTTGTATACTAAAATAGGAATTACCCTAGGAAAGAAAGAATCTATATCACAAGTTAATTTTGGGTGTGATTTTTGCCATCATGGATTAAGGTTCTCTGAGAAATTATATATATTTAGATATTTATTTAATAAAGGTAGATGTTCTTATTGTAATGAAAAGATATATACTAGTAGTGTATTCTTTGAGTTATTAACAGGGTTTCTTTTTGCATTATCTTATTACGTAAATAGAAATAGTGAAACTATTATACTTAGTACACTACTATATATATTAGTGTTTTCTATATTAGTAATTATAATGGTTAGTGATTATCATCATATGATAATACCTGATACTATGCTTATAGTATTAGCATTTATAATAATTGTGTTTAAACTATTAATAGGCTTTTATTCAGAAGAAATAACATCTATAATGGATGCAGGATATATGATTATATTTATGCTTTTAGAAGGCTTAATAATGTTTATAATTATGTTTATACTTCAAAAGATAGGTAATCTTATATTTAAGTCTAATTCTCTAGGTTTTGGAGATGTTAAATTAATGGGAGTCCTAGCATTAATCCTAGGTTATAAGATGGCCTTAGTATGCTTGTTTATATCATGTTTTATGGCACTTCCTATAGCTATATATAATCTTCAAAAGAAAGATAAGAAACTTCTACCATTTGGTCCTTATTTAGCTTTTGGAACTATACTTATATTATTATTAAATATAAATATAGATATAATAATAGATTTTATAAAAAGATAAGCATTAACAAAATGCTTTTTTTTATGCTATAATAAATTTTAAGGTGAATAGGTATGCATATAGATGATGTAGATTTAACAAAGATATCTCCTATGATGAAACAGTATATAGATATCAAAAAAGAGAATCTAGATAATATACTTTTCTTTAGATTAGGGGACTTTTATGAAATGTTCTTTGAAGATGCAATTCTTGTTTCTAATTTATTAGAACTAACTTTAACAGGAAAGAATTGTGGATTAGAGGAAAGAGTACCAATGTGTGGTATTCCATTTCATGCTGCCGAAGTATATATAAATAAACTATTAGATCTTGGTTATAAAATTGCTATATGTGAACAAGTAGAGGACCCTAAATTAGCCAAAGGTTTAGTTAAAAGGGATATTATTCAAGTTGTATCATCTGGTACTAAAATGACTTTAGAATCTCTAGATGAAAAAGAAAATAATTATATAGGTTATATATTAGATTTAGGTTATGCTTATTCAATTAGTTACTCTGATATTACAACTGGAGAACTAAATGCATTTGTAATAGAAAAAGATGAAGAAAAATTAAGAAATGAAATTATCTGGAGGAATATAAAAGAGATAGTAATTAAATCTGATTTTGATAGATTAATTTTAGATAAGTTAAGAAAAACATATAACTTAACTATATCTATTTTTAATAATGAGAACTTAGAAAATGATTATTCTAATTTATATTCTGATATAGAAGATGAAAGAATAATTAAAACAGTTAAATGTTTATTTAGTTATTTAGAATCTACTCAAAAAAGATCTCTAGACTATTTTAGAAAAGTAAATATAGTAAATGAAAATTCATTTATGCAGATGGATATAAATACTAAAAGAAATCTAGAATTAACAGAAAATATTAGAACTAAAGAAAGAAGATATTCACTTTTATGGTTACTTGATAAAACTAAGACTGCTATGGGTTCTAGAAAACTAAAGAGTTTTATATTAAATCCATTAACAGATAAAACTGAAATAGAAAAAAGATATGATAAGATTGAAGTTCTTATGAAGGAATTTCTTCTTAAAGATGAATTAAGAGAAAATCTATCATCTATTTATGACTTAGAGAGATTAGTAGGTAGAATAGGTTTTTCGTCTGCTAATGCAAGAGATCTACTTTGGCTTAAGACTTCTTTATCAGTATTACCAGATATAAATGATATTTTAAAGAAACTTGGTTTTGAAGAAATAAATACATTTAAAGATCTTTATGAATTATTAGATAAATCTATTTATGAAGATGCACCTATATCACTAAAAGAAGGTTATTTAATAAAAGAGGGTTATAACTCTGAATTAGATGAAATAAAAGATGCAAGAAAAAATAATAAAGATTTTATATCTAAGTTAGAAAATGAAGAAAGACAAAGAACAGGTATTAAGACACTTAAACTTGGATTTAATAAAGTATTTGGATACTATATAGAAGTATCTAAAGGTGCTATTAAAGATATTAAAGAAGAATATGGTTATGAAAGAAAACAAACTTTAGCTAATGCTGAAAGATTTGTTACACCTTTATTAAAAGAAAAAGAAGCTTTAATACTTGGAGCAGAAGAAAAGATTATAAACATGGAATATGAAATGTTTATAGAAATAAGAAATAAAGTAAAAGAATATATTCCTGCTCTTCAAGATTTATCTTCAGTATTATCTGAAATAGATGTATTATCATCATTAGCATTAGTATCTGAAGAAAATAATTATGTAAGACCAACTCTTAATGATAATCATGTAATAGATATTAAAGAAGGTAGACATCCAGTAATAGAAAAAGTATTAGATAGTGAATTTATATCTAATGATATATACTTTAATGAAGATGATTTAGTTATGCTTATAACAGGTCCTAATATGGCTGGTAAATCAACTTATATGAGACAAATGGCTATTATATCTATAATGGCTCAAATGGGATGTTATGTGCCTACTACTAGTGCTAATATTCCAATATTTGATAAGATATTTACTAGAATAGGAGCATCAGATGATTTAGTATCTGGAGAATCTACATTCATGGTAGAAATGAGTGAAGCAAACAGGGCATTAAAGAATGCTACTAAAAATAGTTTAATTCTATTTGATGAACTAGGAAGAGGAACTGCTACATTTGATGGTATGTCTTTAGCAGCCGCTATAATAGAATATATCCATAATAATGTAAAAGCAAAAACATTTTTCTCAACACATTATCATGAGTTAACTGATTTAGAAAATCATCTACCACATTTAAAGAATGTACATGTATCTGCTTCTTTAGAAAATGGTAATCTAGTATTCCTTCATAAGATAAAAGAGGGATCAATAGATAAATCATATGGTATACATGTAGCTAAACTTGCTCATTTACCTGAGTCTTTAATAGATAGAGCAAATGAAATACTTAAAACATATGAAGATAATGATAAAACTAATTCAATTAAACCATCACAGTTAGAACTTAATTTAGAATTTAATCAAGAATCTAAAATAGAAGAAGAAATAAAGAATATGGATATTCTTAAATTAACACCTATAGATGCTTTAAATGAATTATATAGAATGAAAAAGGAGTTAGAAGATGAGAAAAATAATTAATATATTATTATATGTTTTAACTATTATATTTTTAGTTCTTTCTTTAAAAGAAAATCCCTATATAAATGATTTATATAATAAAAAAGAAATAGTTAGTAAGAAGACATTTAATAAATACTATAATAAACAAAGATTTGTGTGTATAGATTTAAAAGACTCTGAAATGACTAGATTTAAAGAAGAAAAAACTGATTCTATAGTATATATTTCATCTTATGGAGACACTAATTTTATGTCAGTTTTAACTAAAGGTACTTCTTTATCAGATAAAGTATGTGGAATTATTAAAAATAAAGATAGTATGTCTAATGAACTTACAAAATCTATAGAAGAAGAAAATGATATTAAATTAAATTCTAGATATTTTACAAACTATAATCTAAAAAAAGAAAAACTTCCATATCAAGTACTTGCTATTTCGATGGTAGTATTAATAGGTTTCTTTATTTTAGGAATTATAGCAAATATTGTTTCAATAATAAGAAAAGAATTCTAATAATATAGAATTTTTTTTCTTTATATGATAAAATCTTTTTAGGTGATGAAAAAATGAATAGAACAGAATTAAGGAAAAAAATAATGACTATTTTATATCAAATATTCTTGTATCAAGAAGATAAAATAGATTATGATATAAAAACTGTTATTAAAGAAAGTATGGAAATAGAAAATGAATTTGTAAACGAAATGGTTTATGGAGTTCTAGATAATATAAATGATATTGATAAAATAGCTAATAAGAACTTAAAAGATTGGACTATCGATAGATTTTCTAATATAGATAAAGCTATTCTAAGAATGGGTATATATGAACTAGTTTATACTGATACTCCTGAAATAGTATCTATTAATGAAGCAGTAGAACTTGCTAAAGAATATTCTGATGAAAAAGTAAAGAATATGATTAATGCTGTTCTTGATAGTATTTACCACGAGGATAATAAAAATGAATGATTATATAACAGTTGGTGCATTAACTCGTTATATTAAATATAGATTAGATAATGATCCAAATCTTCAAGAAGTATGTTTAAAAGGTGAAATATCTAACTTTAAAAAACATACTAGGGGTCATTTTTATTTTACTATTAAAGATGAAGAATCTAGAATAAGTGCTATTATGTTTGCATCTAATGCATCGAAAGTAAATTTTGAAGTTCAAGATGGAATGAAAGTACTTGTAAAAGGTAAAGTTACTGTTTTTGAACAAACTGGTAATTACCAAATATATGTTAGTGAAATAAAAGAAGATGGAATTGGTAATCTATTCGAGTTATATGAAAAACTAAAAAAAGATTTAGAAAAAGAAGGATTATTTAAAGTAGAACATAAAAAACCTATTCCAAAGATTCCTAATAGAATAGGTGTTATAACTGCTCCTACTGGTGCTGCAGTAAGAGATATAATGTCTACTATTAATAGAAGATATCCTCTATGTGAAGTAATATTATTTCCGTCATTAGTACAAGGTAAAGATGCTAAAGATGATATAGTTAAAAATATTAAATTAGCAGATACATATAACTTAGATGTAATAATATGCGGTAGAGGAGGAGGTTCTATTGAAGATCTTTGGGCATTTAATGAAGAAATAGTTGCAAGAGCAATATATGAATGTAATACACCAATTATTAGTGCAGTAGGTCATGAAATAGATTTTACTATAGCAGACTTTGTAGCAGACAAAAGAGCAGAGACTCCAACAGCAGCTGCTGAAATGTGTGCTCCATCAAAAGCAGATCTAATAAATCTACTTAAACAAATGGAACTAAGATTAAATAAGAATATTAATTCATTAATAACTAATAATAAATTAGTACTTCATAAATTAATGGATAGTTATATATTAAAGAATCCTATGTCTATGTATGAAGTTAAAGAAGAAAAACTATCTAATGATATAGAAAGACTTAATGGATTTATAAAAATAGTATTAGATAAAAAGAATGATAGATATAATCATTTAGTAGAAAAACTAGAAGTATTAAATCCTCTAAATACACTTAAAAGAGGTTATACTATAACTAAAAAAGAAGGTAAAGTAATATCATCTATTAAAGGTATTAAATCTAATGATGTATTAGAAATTAATCTTAATGATGGATCTATAATTACTAATGTTAAAGAAGTAAAGGAGAACTAAAATGGCTAAAGAAAAGAATTTTGAAGAAAAATTAGAAGAACTAGAAACTATCGTTAGAGAACTAGAAAACGGCGATGTTAATCTAGACGATGCTATTAATAAATATACAGAAGCTATGAAACTTGCTAAAGAATGTAGTACTAAGTTAGATAATGCTACTAAAGCAGTAAATAAGATACTTAAAGAGAATGGTGAATTAGAGGATTTTAAACCTCTAGAAGAAGAATAATCACTATTCTTTTTTTGTGTAAAATCCGTTGACAATAAAGGAAATTAATGATAAAATTACTAATGTTTGTAATGACTTCCTTCGTTACAACCGCACGAATATGGTTTTAAAGCTTTGC
>sequence14
GATCAGTAAAGAAAATGCTGAGAAAGATAAGTTTAAGATTGATTTATTAAATATGCTTAACGGTAATAAATAGTGTTATAATTAAATAGGGAGATTTGAGTATGAAATTTTTAAGAGAAAATATAGTTAAAATATTACTTGTTTTTGGAATACTAATAATAGCTATAGTAATTCTAATAGCATGTTCAGGAAAAGGAACTGGTGGTAAAGCCACTTCATATGCTAAGATGGAAGAAAACTTTAAAAATGATGCTACTAGATATTTATCAAAACATAAAGATTTATTACCTAAAGAAGAAGGTAAACTTGTTAAAGTAAATATGGATACTATTTATTCAGAAGGTCAAATGAAGAAAATGACTGCTATTGATGATTCTTCAGTTAGATGTGATGGATATGTTAATGTATCATTTAGAGTTGATAAAAATGAAGATAAGATATATAGAGCAGTTCCTCATATTAAATGTGGAGATAAATATGAAACAGAAGATTTATATGTTCATATTTTAAAGAATGAAGATTTAGTTCAAGAATATGATGGACTATATAAAGTTGGAGATGAATATATCTATAGAGGAGAGAATCCTAACAACTATGTTAAGATTGGTGAAAATTTATATAGAATAGTATCTATAGATTCTGATGGATATATTAAGTTAATTACTACTAAGGCTTCTATATTAAATTCTGTTTGGGATGATAGATATAATATTGATACTGGAAAATATAATGGTATTAATGATTATTATGTTAGTAGAATTAGAACAAATTTAAGTGAAGTATTTGAAAGTGATGATTATTTTACAGATTCAGAAAGAAGTGTTTTTGTTAAGAAAGATATATGTGTTGGTAAAAGAAGTGAAGCAAATATTTTAATTAACAAAACTGAAGAATGTGCAACAACTTCTGATGAAGATTATTTATCATTACCACTATTGTATGATTACTATATTGCAAGTATAGATCCAAATTGTAAGAACATAACAGATGTTGCTTGTAATAATTATAATTATCTACACTTACTTGGTTCAATGTATACAATGACAGGTTCAAAAGAAACATCTTACTTAGTATATTCAATAAGTGAAACAGCTGAAGCTTCAAGAGCAGATCGCACTAGAAGGGTTTCAATAATATCATATATATCTAATGTATCTTATACATCAGGAAAAGGAACACTAGATAATCCATATATTATTAATTAAGAATAAAAGGGATGTTTAAAAATATTTTTTAAGCATCTTTTTTTGGTAAAAATAGTTTTTTGATAGGGAGGAATAAGAATGAAAACAAAAAAACTTTACACAGTAGAAGAATTAAAAAGAATGGGAACTGATATTGATGTATCAACAGTAATGGAAGGACAATTAACTATTTTTAAACCGAGAGAAGAGGAAATCCAAGAAATAGATAATAAACCAATTGAAGGACAAATTACTCTTTCTTCTTTATTACCAAATAATCCTAGAAAGAAAGCTCATAAACAATTAGCTTATGCATATTGTGCTAAAAAAAGAAATAGATAGTTTTATTGATTATCTAAAAAAACAAAGAAATTATTCGGACTATACAATTAATAACTACTATAAGGATTTAATTGATTATAGTCTTTTTTTAGATAACAATAACTTAAAATATGATGAAATGGATTATAAAAAGTGTGTAGAATATTTAAGATATTTAGATGAAAAAGATTTAAAGAAAACAAGTATATCTAGAAAACTTAGTTCTCTTAGAACTTTTTATAAGTATCTTGTACTAAATGATAAATGTAAGAATAATCCATTTATGCTTGTTTCATCTCCTAAAAAGGAAAAAAGAATTCCAAAGTTTATTAATTATGAAAACATAGAGGAAATCTTTAATTATCCAGACATTAAGACTCCTGAAGGTCAAAGAGAAAAAGTAATACTTGAAATACTTTATTCATCAGGTGTTAGAGTATCTGAACTAGTTAGTATTAAATTAAAAGATATTGATTTTGGAGAGAAAACAATACTTATTTGTGGTAAAGGAAATAAAGAAAGAGTAGTATCATTTGGAGAATATGCTTATGATATTCTTAATACATATATAAATGATGGTAGAAAAGAATTACTTGGAGATATTAATAGTGATTATTTAATAGTAGGACATAATAAAGAATGTTTAACTACAAGAAGAATAGAACAAATAATAGATACTATTATTAAACATACTAGTATTAAATTAAATATTACACCTCACGTATTTAGACATACTTTTGCTACACATTTATTAGATCAAGGATGTGATTTAATAGTAGTCCAAGAATTACTTGGACATACATCTCTTTCTAGTACAGAAATATATACTCATATTAGTAATGAACAAATAAGAAATGTATATTTAAATTCTCATCCAAGAAGTAAGAGGAACCTAAAATGAATTTTGATAAATTATATCCATCAATAGATCTTCATGGAGAAGATAAAGTTAGTGCAACTTTAAGAACAAAAGAGTTTATAAATGACTCAGTTTTTCTTAATAGAACTAAGATAATTATTATCCATGGAAAAGGGACTGGAGTAGTAAAAGATGCAGTATTTAAAGAGTTGAAATCTAATAAAAATGTAGAGGATTTTCATTTAAATATGAACCTTGGGTCTACTACTGTAATTTTAAAGAAAAAAGAATAACCGAAAGGTTATTTTTATTATTTTCTAAAAAGCCAAAAAAAATTGACAAATATGATGCCTTGTGGTACTATAGAGAACGTTTATTTCAAAGGGGGAAGAAATAAAATGGAAAGAAGAAGTACTTTTATTAGAGATTTATTGGTAAAAATATTATTAATAGCTATTTTCCTATTCCTATTAATGTATTTATTTCCAATGCCAAATTTAACACCTTTTTATAGTGCAATCTTTAATAACAATATCCAAACAATGAAGGATGCAGCTGAAGATTATTACACAGTAAAAATGATGCCAACTGAAGATGGTAAATCTGTTAAGATGACATTAAAAGAAATGGAAGAAAAGAAATTAATAATTCCATTCGTAGACAAAGATGGTAAAACATGTAATAAGACTAAGTCTTATGTAAAAGTAACTAAAGACGGAGATGAATATGTATTAAAGGTATCTTTAACATGTTCTGATGAATCTAATTACATAGTTGAAAGAATAGGATGTCATAATTTCTGTCCAAATGGAACTTGTGATGAAAATAAAACAATCGCAGAAGTAGTTCCTAAGGAAGAAGATAAAAAAGTAGTATGTGAAACAGATGATGAAGGTGTTATCACTGTTAAAGTACCTACTGGAGAATATATAACTGAATATGAGTATAAGAAAGTTACTGATAATTCAAAATGGGTTACTGGTGAGTGGACTAATACTAAGGTTACTGAAAATGAAACTACTAAGTTAGAATCTACTAGAACTCAATATACAGGTCAAAAGAAAGTAACAGCTAATACTACATTATATGAACAAATTGCATATGGTTATAATGATAAGTGGACTATAGGTAATTGGCAAGATAATAAAGAAACTGAAACTTCTACTAAGAAGTTACATGATACAAGAACTCTTTATACTGGTCAAAAGAAAGTAGTTACTTCTGAAACATTATATAAACATGTTAAATATGGTGTTAAAGAAAACTGGACTATAGGAAACTGGGTAAATGAAAAAGAAAAGGAAACAGATACTCATAAATTATATTCATCAAGAAATTTATATACTGGTGATAAATTAGAAAAAGTAAATGTTACTAAATATCAATTTACTAAAACAAAATATACATTAGAAAAAACTGTAACTAACAAGAGTAAAACATGTACAGATTGGATTAAGGATACTAATTGGTATACAAGTAAACCAGCTTCTACAGATTCAAAAGAATATGGAAGTTCTTATAATTCAAGATCTACATCTACATGGACTTTAATTCAAAGTTCATATAAATCATATAGTGTAATGCCAACATACGTTACAACTAATGGTGTTAGATATAAATATGAATTAGTAAGTAAACAAGAAAATCCAAACTGTGGATCTAACTGTTCTACTAATAAGATTATATATTTCTATAATGTATATAAAGAAAATGTTAAGACAGAATATCAATATTATTATAGAAACTGTTCTGTAGCATCATCTATAAGTGTAGATACTAAAGTAGTATATAAAGCTGCTGATGCTAATACATATATTACTCAAGGATATAAATTAGTATCTAAAGTAGTAGAAGATACTATATGGCAAGAAAGTACTACAGCTCCAACAAATTATGAGTATACAGGAAAAACTGAAACTAAATCTACTGATAAATATGTATCATTAGGTAAATGGGTTTTAAGTAAAGCTGCTCTTGGAGAATATACTTATAATATGAGAACTGCAGTTCAATATAAATATGCAGATTTAACTAGAACAAAATATATTATAGATACTAAATGGACTAAATCTAAGACTCCAGAAACAGGATATGAATATACTGGAGAAACTAAAACTAATACTTCAACAAGTTATGTAGATTTAGGTAAATGGGTAACTAGTAAAACTGCTCTAGGAGAATATACATATAATATTAAGACTAAGACTCAATATAGATATAAAACATTAACTAGAACAAGATATATTAAAGATACTATTTGGACTACTGAAAATGTAGCTAGAAGTGGTTATGAATTAACTGGTAATAAGAAAACAACTACTAAGACAACTTATGTTGATTTAGGATACTATGTTAATAGTAAATCTGAATTAAAAGATTATACTTATAATGTAACTACTAGAACTCAATATAGATATAAATATCTACAAAAAGATAGTTCAGTTGAATATAAATGGGTTAAAGAAAAAGAAAACGCAGGAGAAGGATGGACAAAGACTGGTAAAACTAGAAAGACATTTGTTCAAACTGGATATAAGACTGAAACTAGAACTACTAGAAGAAATAGTCAAAAGTATTAATGTACACAAATAAAAGTAAGAGAAATCTTACTTTTTTTGTTGTATAATATAACTAGGAGGCAAATATGGTTATATCAGTTTTAGTAGAAATAAATATAGATAAAGTATTTGATTATAATGTACCTGATAATTTAAAAGATAATATTTGCCTAGGTAAAAGGGTATTAGTTCCTTTTGGTAAACAAGTATTAGAAGGTTTTATAATAGATATTAAAAATAAAAGTAATTATGAATTAAAAGATATTATATCTATAGTAGATAATGAATCTATATTAAATGATGAATTATTATCTTTAGGGAAAGAAATAAGTAAAAGTAATGTATGTAATTTAACTTCTGTATATCAAAGTATGTTACCAGTTGGATTAAAGGCCTCTAAAAATAGAAAAGTATCTATTAGAAAGAATACATATATTAGATTAATAAGTGATGATGTAATAGAGTTTATATCTAATACAAGATCTCTAAAGCAAAAAGAAATAGTATCTTATTTATTAAAGAATAAAAATGCATTAACTACTACGTTTGATAGTTTATCTATTAATGCATTAATTAAAAAAGGTATTATAGAAAAATACTCGGAAGAATACTATAGATTAAATGATAATAACTCTATAGAGGACTTAGTTACTTTAAATGAATATCAAATAAAAGCATATAATGAAATAAAAGAATCCTCCAAGGATGTAATACTTTTAAATGGAGTAACAGGATCCGGTAAAACGGAAATATATATGCATCTTATTAAAGATGCATTAGATAATAAAAAGAGTGCTATACTATTAGTTCCTGAAATAAGCTTAACTCCTCAAATTATAGGTAGATTTAAGAAACATTTTAATAATATAGCAGTCCTTCATAGTGGACTATCTCAAGGGGAAAAATATGACGAATATAGAAAGATTTTAAATAAAGAAGTAAATATAGTCATAGGAGCTAGATCTGCTATATTTGCCCCTTTAAATGACCTAGGAGTAATAATAATAGATGAAGAACATTCACAAACATATAAACAAGATCATAATCCTAGATATAATGCTATAGATGTAGCTATTATTAGAGGTAAAACTCACAATTGCAAAGTAATACTTGGTAGTGCTACTCCTATGGTAGAAGACTATGCTAGGGCTAAAAAAGGATACTATGAATTAGTTAAATTAGATAAGAGAGCTAATAATGCTTCTCTTCCATTAATTAATATAGTAGATATGACTAAAGAAAATAAAAAAGGTAATAAGATATTCTCTGAAGAATTATTATTATCTATAGAAGATAGATTAAATAAACATGAACAAATAATGCTTCTTTTAAATAAAAGAGGATACTCTAATTATTTAATGTGTCCTAATTGTGGTGAAGTAAAGAAGTGTCCTAATTGTGATATAACTCTTACTTATCATAAAACTTCTAATATGAATAGATGTCATTATTGTGGATATGCTGATAATAATAAAGAAATATGTTCTAAATGTAATACTAAATTAGTAAATATGGGATTAGGTACTGAAAAAGTAGAAGAGGAAATAAATAAATTATTTCCTGATGCAAAAGTACTTCGTATGGATATAGATACTACAGGTAATAAAGGATCTCATCAAAAAATAATAGATAAGTTTATGAATCATGAAGCAGATATATTAGTAGGAACTCAAATGATATCTAAAGGTCTAGATTTTCCGTTAGTTACTTTAGTAGGTGTTATAAATGCTGATACTATTCTTAATTTGCCTGATTTTAGATCATCAGAAAGAACATATGATTTAATTAGTCAAGTATCTGGTAGAGCAGGTAGATCTAATTTAAAAGGTAAAGTAGTTATTCAAACTTATAATCCTGATAATTATGCTATTAAATTAGTATCATCTAATAATTATGAAGACTTCTATAATGAAGAAATAACTATTAGAAAGAAATTATATTATCCACCATATTCTTTTATTGCTCTTATTAAAGTAGGTGGAAAAGATTTTAACAGTACTATTAAGGAAGCCAATAAAATAGGAGACTATTTAAGAAGAAATGTAGATAAAGAAATAGTGCTAGGTCCTTCAGTAGCATCTTTATCAAAAATAAATAATATTTATTATTTTGAAATTATAATTAAATATAGAGATAAAGATAATATAGTTAATATATTAAATGATGTTAGAAAGATAACTTTATCTAATAGTAAAATTAACGTACAATTTGATATAAACCCTATATCATTATAAAGATATATGGTATTATATATATGCAAATAGGAGGTATTTATGTTTTGCGGTAAATGTGGTAAAAAAATAGAAGAAAACACAAAGTTTTGCCCTGGTTGTGGTGAAAAAGTTGAAGCTAAAAAAGTAGAAAAAGCTGAAGTAGTTAAAACTACTAAGAAAGAAGAAAGTAAAGAATCTAATGGACTTGGAATAGCTGGTTTAGTAATGGGTATTATTTCATTCCTATTATCATTTGTTCTAACACTAATTATTCTAATTGTTCCAGTAGTAGGTCTTATTTTATCTTGCTGTTCTAAAGGAAATAAAGGTATTAAGATAACTGCTATTATTCTTAATGCACTTGCTATTGTAAGTTGTATTGTTATGTTCCTAATTTATATAGTTACACTTGGAAGTATTGTTGGTGGATTTATTGATGATAACCAAGATATTATTAGTGATATAACTAATGAAGTTCAAACAGAAGTAAAGAGTGCATATCCATATGGTACATGGACTTGCGTTCCATATAGTTCAGGTTCAACATCATATGACTATAATAATATATCATCAAATGATAAAGCTGATTTAACAGTATTAAAATTAAATAAAGATAATTCATATCAATATGGACCATATGTAGATAGTTATAAGAATTATTATAAAGGAACATTTACATATGAAATTGAAACAGATAAGAATGAACAATATAAATCTCAAGGATATTCATTTATTATGGTAAAAGGTCCTATTACTGATGCAATGGTTGATGGTGTTAAAAAAGATACAACTTCTGAAAGTAGAATAGAATTAGAAATGGAATTATGGAATACTTATAATAACGATAAAGCTTTAATAATGTTTACTAATACATATAACATGTATTTCTGTGAAAGATAAGAAGGTTAAAACCTTCTTTTTTTATGTAAAATACCCTTGTCAAATAAAGAAAATGTGTGCTATAATATCCTTGCTTTTAGAAAAAAATGCACAAATATTGATTTATGAACCATGTGCCATTTATGGTGGGGAGTAAAGAAGAGATATTTGGAAGATGAAACAAAAGGAGGAATTTATTTATGACAGTAGTTTCAATGAGCTATTTATTAGAAGCAGGTGTTCATTTTGGACATCAAACTAAAAGATGGAATCCTAAGATGAAGGAATACATCTATACATCTAGAGATGACATTTATATTATTGATCTTCAAAAAACAGTTAAGAAGATTGAAGAAGCATATGATGCTTTAAAGAAAATTGCAGAAGATGGTGGAAAAGTTATCTTTGTTGGTACAAAGAAACAAGCACAAGAAGCTGCTAAAGAAGAAGCTTTAAGATCAGAAAGCTATTATATGGTAGAAAGATGGTTAGGAGGTACTCTTACTAACTTTAGAACTATCAAAAGAAGAATTAATAGAATTGAACAAATCGAAAAGATGGAAGAAAATGGTACTTTCGAAATGTTACCTAAGAAAGAAGTTATTAAAATTAAGAAAGAATATGATAAGTTAAAACTTTATTTCGAAGGTGTTAGAACAATGAAGAAAATGCCAGATGCAATGATTATTGTTGATCCTAAGAAAGAATTCAATGCTATTAGAGAAGCTAGAAAATTAAATATACCAGTATTTGGTATAGTAGACACTAACTGTGATCCAGATTTAGTAGATTATGTTATACCTGCTAATGATGATGCAGTAAGATCTATTAAAGTAGTACTTGGAGTACTTAATAATGCTATTTGTGAAGCAACAAACAAAGAATTAGTAGACTATGTTACTGAAGATGATAAAGTTAATATGGCTGATATAGTTGAAGACATTAAAGTTGAAGAAAAAGAAGATAAAGTAGTTGAAGAAAAACCTGTTAAGAAAACAGTTAAAAAAGAAGTTAAAGAAGAAAAAGTAGAAGAAGTAAAAGAAGAAAAGAAAGCAACAAAGAAAGCTACAAAGAAAGAAGAAACTAAAGAAGAAAAACCAGCTAAGAAAGAAACTAAAAAAGCTGAAGTTAAAGAAGAAAAGAAAGAAACTAAAAAGACTACTAAAAAAGAAGAAAAAGTTGATTTATCTAAATTAACTGTTGCTGAATTAAAAGAAATGGCTAAAGCTAAAGGTGTTGAAGGATACACTAAATTAAAAAAAGCTGAATTAATTGATGCTTTAAAATAATAAAAGGAGAATAAAAAATGGATGCAAGTTTAGTAAAAAAATTAAAAGATATGACTAATGCTGGTTTAATGGATTGTAAAAAAGCATTAGAAGAAAACAACGAAAATATAGATGAAGCTGTTAAATGGCTTCGTGAAAAAGGTATTGCTAAGGCTGCTAAGAAACAAGATAGAATAGCTGCTGAAGGATTATCTACAGTATTAATTAATGGTAATAATGCTGTTATCTTAGAAGTTAACTGTGAAACTGATTTTGTTGCTAAAAACGAAAGATTTACAGGTCTTTTAGATAAGATTGCTAACGCATTAGTTAATAGTGATGCTACTACTATGGAAGAAGCATTAGCTGTTGCTACTGATGATGGAACTATTAATGATTCAGTTATTAATATAACTGCTACATTAGGAGAAAAAATCTCATTCAGAAGATTTACTAAATTAACTAAATCTGATGATCAAGTATTTGGTAAATATATTCATATGGGTGGTAAAATATCTGCATTAACAGTTGTTAATGGTTCAGATGAAACTGTAGCTAATGATGTTGCTATGCATTTAGCTGCTATGAATCCAAAATATATTTCTAAAGATTTAGTTCCAGAAAAAGATATAGAAGAAGAAAAAGAAGTATTAAAAGAAAAAGCAATTAATGAAGGTAAACCTGCTGAAATTGCTGATAAGATTGTTATGGGTGGTATTTCTAAGTTCTTTAAAGAAAACTGTATAGTTGAACAAGAATATGTTAAAGATCCATCTAAGACAGTTGGAGTATACCTATCATCTAATAATTCTTCATTAGTTAACATGGTTAGATATGAAGTTGGAGAAGGTATCGAAAAGAGAGAAGAAAACTTCGCTGAAGAAGTTATGGCTCAAATGAAGTAATGATTTAATCATTACTTTTTTTATTCATAAAGAATAATCATATGTGATATAATATTTTTAGAGGAAAATAATTATGTCAGATAATATTGTTCATATTAAAAGAGAAAATGGAAAGATAATTTTACAGTATAATGATTTAAAGGTACCTGCTTATATTGGTAAAAATGGTTTTACTAATGATAAAAAAGAAGGCGACTTAAAAACATTAGTTGGAGAATTTGATTTAGGAACTGCATTTGGAAAACATGAACGTGATGAAATAGATATTAAAGAAGATATCCCTTATTTTAAGATTAAAGATAGTCATTATTGGGTTGATGATATTAACTCCGATAATTATAATAAATTAATAGAATCAGAAGAAAAGCCATCTGTTAGTAGTGAACATTTAGCGGATTATAAAGATAACGCATATGAATATGCAATTAGTATAAAAGCAAATCCTGAAAATATAAAGGGTAAAGGTAGTGCAATATTTTTACATATTAATAGATTTGGATATACTTCAGGATGTATAGCTATCTCAAAAGGAGATATGTTAAAACTAATTAGTATGATTGATTCAAAAACAAGAATTAAAATAGATGAATCTTTAGTTGATAATGAACATAAAAAAGAAATGATGTAAAATCATTTTCTTTTTATTTTGCTATCTAATATTTTCTTTGTATAATTATACTAGAGGGTGATAGCATGGTAATACTAGGTAATGCAGTTTCATTAGTAGCATCTTTATTTATGGTATACTCTGGTTTATTAAAAAAGAAGAGTCAAATATTATTATGCCAATGTATAGAATTTATTTTGTTTGTTATTACTAATATTATATTAGGAGGTATACCTGGAGCTATTATTAATTTTATTTGTATGATAGGAGTAATACTTGGATACAATAAAAGATTAAATATAGTAACTAAAACAATACTTGCTTTATTAGCATCTATCCTTATAATAAAATTCAATAATATGGGTTTACTTGGATATTTACCACTTATAGCTATGGTTCTTTATTTATGGGTAATAGATATAAAAGATGTATTTATATTTAAAACTTTTTTATTAATAGTAATGTTGCTATGGGTAACATATGATTTTTCAATAAAATCATATGTATCTTTACTATTTAATATTTTTACTATAATAACTACTATTATAGCTATGATTCAATTAAAGAAAACGAAAAAAAGAAGAAAAGTAAAATAATACTATATTAATAATATTTATGATATAATTATATTTAGAAATGAGGTATGTATATGATAGAAGAAATCTTATTAGAAACAGAAGATAAAATGATTAAGTCTATTGATAGTTTAAAAGATAGACTTACTAATATTAGAGCAGGTAGAGCTAATCCATCAATGCTTGATGGTGTTAAGGTAGAATATTATGGTGCAGAAACTCCACTTAATAATATAGCTAATATATCTGTACCAGAAGCAAGAAAACTTCAAATTAAACCATTTGATAAGAATGCTTTATCTGATATAGAAAAAGCTATATATGAAGCAGATCTTGGATTTACTCCTAATAACAATGGAGAATGTATTTTTATTACTATTCCAGAGTTAACAGAAGATAGAAGAAAAGAGTTTGTTAAACAAGCTAAGAAATTAGGAGAAGAAGCTAAAATAGCTTTAAGAAATATTAGACAAGATGCTAATAATGATATTAAGAAATTAGAACTTAATGAAGATGAAGAAAAATATGGACAAAATGAAGTTCAAGAATTAATCAATAAATATAATAAACAAGTAGATGATATTATTGATGAAAAAGAAAAAGAATTAATGACTATATAAGGAGAATAAAAATGAATTGTAATAAGTGTGGTAAAAAAGTAGAAACTGGTATTAAATACTGTGATAATTGTGGTAATAAAATAGAGGAAGTAAAAAAGACTTCTAAAAAAGTAGAAGTAAAAGAAGAAACTAATAATGAAAGTGGAAGTTTTGGTTGGATTGTTTTAGGATTCTTCTTTCCTTTAGTAGGTTTAATTTTATTCCTAGTATGGATGAATACTAAAAAGAAATCTTCTAAAGCAGCAGGCCTTGGAGCTTTAATAGGATTCTGTACATCCCTTTTATTGACTATTATATCTGTTGTATTCTTTGTGATTTATCTTGGAAATATAGATTATGATTATGATCCAGATCCTTCAATTGATAATCCAATTGTAGAACCAAAAAAGGATGATGTTCCTGATAAAAATATTGAAACTAAACCTATAGATATTACATCTATAAATACAGATAATAAATTACCAGCTGTATCATATAAACCAACTTTAATGGATGAGTTTGAAAACAAAGAATATGATTATAAAGATAAAGAACTTAAAATAACTCGTAATTATAATCAATTAGTTATAAAAGATAGTTATTCTGGTTCAATATTATTTAACTATGATAATGTAAAACATGCATATTATACTTATCATGATTGTAATGGTCTAGAATTTGTATTAGTAGAAACTAATGATAAAGTATATTTAATAAATACAAGAGTACATGAAGTAAGTAATATGAAAGCAGTAGAACTAAAAGGAAAATATACTGGATTCTATAAGGCTAGTAATCATGCATATACTTGTGGTGGTTCTAATATTATTCTAGGTAAAGGTGAAGATGGTACATACTATGATCTAAATAGTGAAGATGGAATAGAATTAGATAAATTATTCTATTATGATAGTACAAATAGTTATATAGGTATTACTAGAGGATATAAAATAGCAGGTAAAACTGGATCTGCTAAGTTAATTATTCAATCTAGTGAAACAGATATAGTTTTAGGACTTATTGATGTAAATAATTATGCATATACATATGGTTATGATAATGGTGGTTCAGAAGAAACTGTTAAACTAGAATTAATTAATCAAAGTCCTGTAAAAGAAGTAGAATATAGTTCAGAAGATAATATAGTTATTCTTACATTTGAAAACGATGAACAATATTCATTTGAATATGCAAGTGTAGTTTATTAATATGAATAATAAATTTTGTCAAAATTGTGGGTTTGAGTTTAATAGAGAAACCAAGTACTGTCCAGGGTGCGGCATTAAACTAGAAAAAGAAGTTATAAATACTCCAGCAAAAGAAGAAAAGGTAAATGTTAATGAGTTACAAGTATCTGCTAAAATAGGATATTATTCTAGATATGTAACAACAGTATTATTAATTATAACTTTTCTAATATTTATTATTGGAACATTTACTGGTCATTTTGGAAGTATTAGTTCTGGTAATAGTGATGCAGATGGTTATGGAATATTAGCTATGATATTCTTAGCACCTGTAATGCTAATAGGTCTATTTATATATTTTATATCAATTATACCTGCATTATATGTTGTTCCAACATTCTGGATTCATAAAAAAAAGAAAGTTGATTCTTTAATAGAGGTTTTAAGAATTTTTCTTCTTATAGTTTTATATATTATATTCTTAATACCAGTTATAATATATTTAGTATCTGGTTGGACAGGAGTATTTGATCTATTATTTTTCTGGATGAATTAATAAACTAATGACAAATGTCATTAGTTTTTATTTAGCAATGATGAAGAACATACCTTTAATGATGTTAAATACGATTATTAATATAAATGTCAACTAAAAAGGTTGACATTTATTTTTATTTATTATATTATATATACAGTTAAAAAAGGAGGACATTATGGCTGTTAAGATTAGATTAAAAAGAATGGGTGCTAAAAAGAGACCATTTTATAGATTAGTAGCTGCTGATTCAAGAAGTCCTAGAGATGGTAAATTTATTGAAA
>sequence15
TATACAAGTACTAGTACATATGGTGCTTGTGCTAAAGTAATTGATGCTACATATGAATAATAAAAAGACTAGATAACTAGTCTTTTTTTATGCTATACTTATTATAGGGTACAAAATACAAGAGGTTTGGTTATGTTTAAGAAAGATATAGAGGACAAATTATTAAATGTAAATTCAATTGAAGAAGCTACATCATTTGCTGCAGGTAGAATATTAACTTTAGATAAAGAAACTAAAGAAACAACTGTAGGAATAGGTTATGATACTTCTATTAGAGATTATATTTCTTCTAAAGTAAGATTTATATCTGGTAAATATAATAATAAAGATTATCCATCTTTATTATTTAATGATTTAAAACCATATGCTATATTTATTAGAAGACTTTCTTTAGGTATAGATATTTCTGATTATGATAAATTATATTATCAAATATCATTAGCAGTTGATTCTTATTTTTCTAATTCATTATTAAATGCTTCTAAAGAAGGTATTAATATAATGAGAACTAAAATTATTGCATATAATGTATTAAATAATGTTGATCAAATATCTATTAGAAAACTTGCTTCTGAGGGATTAGGATCTCCTCTTGAAAAAGCAGCATTAATACATAATATTCTTAGAATATTAGATATAGACTCGGAATTATATTTTACTAGTAATGAGGATATATATAATATTATTTATCCATATGGATATGATAGTGAACAATGTTTAGCGTTTCCATTTAAAGATAAAGGCTTTAATGGAATATCTTCGGGTGTTAAAAGATTAGAATATATTAATAAATAATGGTGATAATATGAAATTTTTATATAAAACTTTTTTAGGAAGAATAATATTAAAAATATTTGTGGTAAATAGATTTACTACTAAAATAGGTGGTTTCTTTCTTGGTACTAGGATTAGTTCTTTATGGATTAAAAGATTTATAAAAAAATATAATATTAATATGGAAGAATATGAGAATAGAAAGTATAAATCATTTAATGATTTCTTTACTAGAAATATTAATTTAGAATATAGACCAATATCTAATAATAAAAGTGATTTAATATCTCCTTGTGATAGTAAATTATCAGTTTATAGAATTACTAATGATTTAAAACTAAATATTAAAAATAGTGTATATACATTAAATGATTTAGTAAATAATGAATATGATTTATCTAGTTATAAAGATGGATATGCTTTAGTATTTAGACTATGTATAAATAATTATCACCATTATTATTTTATAGATGATGGTAATATAGTTAAATCAAATGAAATAAAGGGTAAATTTTACACAGTTAGACCTATATCTGATGGATTAAACGTTTTTACTAAAAACAATCGAATATACAGTGTTTTAAGTACTCAAAATATAGGAGATCTTTTATATATTGAAGTAGGGGCTACTATGGTAGGTAAAATAGTTAATAGAAATATAACTTCATTTAAAAGAGGGGAAGAAAAAGGCTATTTTAAAATGGGAGGATCTACTATAGTATTGTTAATTCAAAATAATAAAATAGAGTTAAATAAGAATATAAGTTTAGATAAAGAAACTGATGTTAAATGTTTAGAAACCATTGGTAAAATAAAAAAGATTTAGATATATCTAAATCTTTTTTTAATCTAATAAACTATCTTTATACTTTTGCATTATTGGATTCTTTCTAATCTTTCTAAGTGCCTTAGTTTTAATCTTAGTAACTTCTCTTACTGGAATATTTAATTCTTTAGATATTTCTTTAGGAGTATAAGATCTTATACCATTTTCATCAAGATACATAGTTAATACTTTTCTTTCTACTTCTGTTAATTCTGACAAACATCTAGAATAATCATCTAAGAATAGTTTAGTTTCTACTTCTTCTTCCAAAGTTTGTTTTAGTTGATATTCTTTTTTAGATGTAATTGATTCTAAGAATTCACTATCTACTTCTACTTGAGATTGATAGAAAGTTTTTATTTCTTCTAAAGTAGCTTCATTCCATTTTTTAATACCTAATTTTTCAAATAGACTTAGATTAAAGAATTCTCTATTTTCTTCAAAGATACCTGATGTAATTTCTTTTGTAAGTTTTCTTACATGTTTTTTTCTTTCTTTCATTACTTTCTCAGCATATCTAGATCTAAATGTATTCTCTTTTGCTTGATAAGCTTCATTTACTTGTAATAATTTTTGATAAGGTTCTTCTCTAAATTTTAAGAAGAAATCTCTTTTAGATATTTTTTTAGATTCAAATCTATCAATTAATTCATATAATTCTGGGAAGTCTTTTTTCATGTAATCTAATAAATCGTTATTATTTCTATCATTATAAGAAGAATTCCAATTTAATATATCAACTATTTTTTGAATAGAACTATCTTTAATTAAATCGTTTTCTGTTTTAATTGCAGTTTCTGCAACTTCTATTTTTTTCTTTGTTTCTTTAAATGTTTTATTAACACCCCTCATAACATCATCATAAAAACCTAATGGAGATTCTATTCCTGCTTTTTTAAATGTTTTCTTTGATATATCATATCCTGGTTTTATACATTTAGCTATGTCTCTTGAATGAATTAAATCAAGTATTCTAAATATAGATGTTTCTACAATTCTTTCATCTTTTTTTCTTCTTTTAATAAAGTTTATACATATTTCAGTTGATTCATTTATTGTTTTAATAATTCTTTTTAATTCTTGTTCATTAGCAGTTATATCTTCTTTACCAGTTAATTCTATTGCCTTAGCATTTAATGTATTTAATGGTTCTTGACTAAATTTATCTAAGAAATCAGAATTTGTAATTTTATGTGTTTTTAAATCTTTTACTAAATCATAGGCTTCTTTAAAGTTAGCTATTAGATATTCATCAAACTCTTTATTATCTTCTGGATTAAGTCTGTTTACTATTTTTAGAAGATTATAATTTAATTCGTCATTACCCCATATACTACTTCTTGGAGCATTTCTATATGCATAATCTCCTTCTTCTTTAAGTTTATCTATTTCTTCAATAATCTTATTTGATATGTTTGATAATTCACTATATAAGTTTCTTAGTTTCCATGAATCTAATTTTACTAATCTAGATATTTGACCTCCGGCATATTCATCTAATATTTCATATAACTGTTCACTCTTTAGAGTAGTAATGATTTCTATACAAGCATCTTTAATTGCTTGATCAGTTTCACTAGCTATTTCAAATTTACTATTAAGGTTTTCAACGCTTTCTTTAAATTCTTCTATCTTATGATTTAATTGATATATATACTTTTCTCTTATAAATTCTTCATTAAGAAGTTCACTTATTCTTAATAATTTTGGATGTAATTCATTTTTATATCTTTCTAAGAATTCATCATCATCTTCTATATCATAAATTGAATTAATAAATTCCTCGGTTAATTTAGGGTTAACAATAGTAATTAGTTTAATACTAGCAAGTATATTATCTAATTCTTCCATTATTTCATAGCGGTCTTCATTTTCTAAGTGATATGATATATGATTAACAGCTTCTATAACGATATTTCTATCATCATAATATTCATCTTCATCATAGATATCATTTAGTTCTGCCTCATATGGTTTAGGACTATCATCAAATCTATAGTATTCTCGTTTCCAATTCCTTTTGACTTGTTTTGGATCATGCCATATTTTATCTATTCCATATACTCTAGAATATATTTCAATATATTCATTCCATATTCTTACATCATCAGATAATCCAATTCCATTAAAGTTAAATAAATGTTTTTTTATTTTATTAAACTTTGTTTTATCTCTTCTTATTAATTTATTAGCAGTCTTTATTATTTCTTCGTCTGTTATAGGCTTATCTTCTTCTAATAATTCTTTTATTACTTTATTATATAGTAATGCATTACTTAGTTTTCTCATATAATACTTAATATAATAATCTAAAGTAAAACATCTTTTTTTAGTACCTTCTAAATTAGCATGTGATATATCTAATGAAATAAAATTTCTTTCTTCATTAGTAATAGTTAATGATAATCTCATAGATTTAGCTACTTTATTATATAGTTTAGTAAAGTAATCCCATACTAGTTTTTGAGCTTCTTTTTTATTACATGCTTTTTTATTAATAGAGTATTTAGGAAGACCCATTAAAAACATTTTTTTATTATTTGCTTTTATATATTGCGCTGCCTGCCAGTATTTACCAGTTTTCATTAATTGAAGGAAATCTAATAGAATATCTAGTTCTACTAATAATTCATTATATGGAATATTTTCTTTCTTTTTAGGTTTATATACTCTAATAAGTTTATTTTCAATACATGTACTAGCATAAGTAGAGAACTTAGCTATATTAGATGGAACATAGTATCTAGCAGCACTTATTAAACCTAAACATGCTGTTTGATATAAATCATCATATGATACTTTATGATCCCATTTATTATAATATTTTTTAGCAATAGCTTCACATAAATACAAATTGCCTTCTACTATTTGGTTTCTTACTTCTCTTGATGGATAAATTCTTTCAACATTAAGATCAGTATCAGGTCTTCTATCTTCTATTTCTTTTACTTGTTCTTTTAATTCATTTATTTTTTCTTTAATTTCTTCTATTTGTTCGAAATGTTTTTTTAGTCTATTATCACCAAACATTTCATCCATTAATCTAATATTTGGTACTTGTTGTCGCATTTCAGATACTTTCTTTTCTAATCCTTCAAGTTTCTTTTTTAATTTAATTCTTGAATCACTATTATAAAGATTATCTATTTCACTAGGATCTATTCTTTTAATTGATTTAAGATCCTTTTTAACGTAGTTAATTCCTTCCATATGATTTTCCCCCTAAAAGACTAAGTATTTTTTATTATATTATAATTATATTTATTATTCAATAAAAAGTATTGACTAAAATAATTATAATGTTAAAATATAAAACATATTTATTAAAGGAAGAGATAATATGAGTCAATTAGAAAAAAAAGATATGCCATTAGTATTTCAATTTGTTTCTAAAGATGTAGAAAATAATAGAAAGAAATCTGAAGAAAATGGAATATTTATATTTAAAGATGCTTTAGATTTTTTAGAAATAGATGGATTTGATATAACTCAAAAAGGAACTGAATATATAGCTAAGTTTATTGATGTTTTATATCATGAAAAAGAATTATTATTACTTTGCTTCAACAGAAGAGGAGAAATAGATGGTTTCTGGAAAGATTTTTGGAATCTAAATGATAGAAATAATCCTCATTATACATTATATGGAGATTCAAATATTATTATTCCTGAAATGAGAAAATCTATTAAAAGTTCTTTATATGAATCTGATGATACTAATTTAAATGAATTAATATATCAAATAACTGATACTCAAATAGATAGAAGAGGATATTTTAGTAAAGAATTACCAGGGCATGAGTATGCTCATAATGTAAGTTATAGAAAAATATTACTTGGTATTAATGAAAAATAAAAAGAGAAATTATTTCTCTTTTTTTATTAGCCTTTATATTATAATTATAAAATATGATATAATAATTATAGAGGATAAGCTAATGAAGGATAAAACTAAGTTAAAATTATTAACTACAATTTTTATTATAGTATCTTTCTTTGTACTTAAAGCTATGGATGTAGATGATAGAGTACTAGCATCTTTAGGTATATTTGATAGTTTTTATGGAGATATAGTAGTAACAGATAATATATCTATGGATAATATACCTCCTTATGAAGGATATAGTTATATAACTATTAATAATAATGAACCATTCTTTACTGAAAGTGAAATAACTAGTGAGAGTTTTGAATTATATTATCCATTAGATTCTTTAGGAAGACCTACTAAAGCTGAAAGCTCTATAGGTAAAGATTTAATGCCTAAAGAAAAAAGAGGAGACATAGGATCTGTTAGACCACCTGGATTTCAGTTTTCTAAATATGATTTCGTAGATAATAAGTATTTATATAATAGATGTCATTTAATAGCATATATGTTAACAGGAGAGAATGCTAATAAAAGAAACTTAATTACATGTACTAGGTCTGCTAATGTAAAAGGTATGCTTCCTTTTGAAAATATGGTTTCTAATTATGTTAGGGCTACAAAGAATCATGTTATGTATAGAGTAACTCCAATATATGAAGGAAGTAATTTAGTAGCATCTGGAATATTAATGGAAGCTTATTCAGTAGAAGATAATGGTGAAACTATAAAGTTTAATGTATATATTTATAATGTAGAGGATGGAGTAAAAATAGATTATTCTAATGGTAATAATAAATTAGATAAATAGTTTAATTTATGATATAATTTTTTTATAGGAGACTAATAATATGAATATAAACAAGTTTAATGAATTTTCAAAGAATTTTTTAATTAGATTATCTAGTATAATTAAATATATTATAACTGGATTAATATTTATAGTTATAGGTTTAATGGTAGCATTACCTATAATACTTAAGAATACATCATTTAAAGGTGATGATATAGTTATATTTAATAAAACTATAGATATTATTTCAGTAGAAGGTAAAGTAAATATTAAAATGTTTGATAATTATGCTAATACGGGTATTTCATATAATGTATATAATGATTATTCTACTAATTTTAATAAAAAAGGATTATTTAAGAAAACTGCTATAGTAGAAATAAATACATTATTTATATTATTTGAGTTAATATTCTTATATTTTATAATGACTAATATAATTAAATTATTTATAGAAAAAGAAGATAATGAATATGATTTATATGTTAATAAAAGATCTTTTACTATTAATGCACTTAGTTTTCTTATATTTAGCTTTATAAGAAGATTTATATATAGAAATACTATATTTGCTAATTTTAATATAGATATAGTAGTTATATATTTATTTGCAATAATATCATTTATATTTGTATATAAAATATTTGAAATGGATAAAATAGATATAAAGAAGGTAATTCAAAATGAAAAATATAAAAAGAATAAGTAAACTTATAATTGAATTACTTCTTTTTTGTGTAATTATATTTTCTCTTTATATGATAATTAAATGGTTTATAAATACTAATTCTAATAAGAAAATAATAGAAGAAGTAAATTCTAGAATAGATATAGAAGATATTCATGATGGTAAAAGTAATATAGATTTTAATTATTTATTAAAGATTAATAGTGATACAGTAGGTTATTTATCTATAGATAATACTGATATTAATTATCCAGTAGTTAGAACTACTGATAATAATTATTATTTAAATCATTCTTTTGATAAAACTAAGAATGTAGCAGGTTGGATATTTATGGATTCTAATAATAAAGATATAAAAACTGACAAGAATACAGTTATATATGGTCATAATATGAAAGATGGTTCTATGTTTGGTAAATTAAAACTATTAAAGAGGAATAATAGTAATACTATTTATTATTATGATAGTAATAATAAATATGAATATAGAATATTTTCTATATATGAAATAAATGAAGAAGATTATTATATAAATACTGTATTTAATAGTGATAAAGATTATTTAAAGTTTATTCAAACAATTGCAAAAAGAAGTATGTATGATTATGAATTTGATATTGATGTTAATGATAATATTATTACTTTATCTACATGTACATCTGGATCAAAGAGATTAGTAGTACATGCATATAGAGTTAATTAAGGAGGCCCTATGTTTATATATAATGATATAGATTTAGATAATACTTCTTTATCTTTTACAGAAAGAGATAATGGAATAGAATTCTATATAGAAGGTTTTGATGAAGATAGAAAAATAAGTATAGATTTTATAGTTTCATTAAAAATAGATGATTTAAAAACTATGGAACTAGATTATGAATATGATTTATCAGATCAACTCCTAGATGATGAAACATATTTAGGAATTAATAATGACTTTGGTAAAACGAGTATTGAAGTTACTCTTATGAAAGATTTAGATGAAAAGTATTATTTAAGAGTAGTTAATGATGATATAGATGCACAAGTTAATTTTGTGTTAGAAGAAAAAGAAGAAGAGGAAGAAAATGTATAAATTAGTTTTACTTAGACATGGAGAAAGTATTTGGAATAAAGAAAATAGATTTACAGGATGGACAGATGTTGATTTATCTAATAATGGTATTAATGAAGCTAAAGAGGCTGGAATAAAACTAAAAGAGAATAATATTACATTTGATATAGCATATACTTCTGTTTTAAAGAGAGCTATTGATACATTAAATTATTGTCTTCTTGAAATGGATTTATTTAATAAAATAGATATTATTAAATCATACAAATTAAATGAAAGACATTATGGTGCTCTTCAAGGAATGAATAAAGATGAAGCAAGAAGTATATATGGAGAAGATCAAGTTCATATATGGAGAAGATCTTATATAACAAGACCTCCATTGTTAGAATATACTGATATTAGATTTCCTGGTAATGATGATAGATATAAAGATGTACCTTTAAAAGATTTACCTTTATCAGAGTCTTTAGAAGACGTTTATAAGAGGGTTATTCCTTATTATGAAGAAAATATATTACCTAGTATAAAATCTGGTAAAAAAGTACTTATATGTGCTCATGGTAATAGCCTAAGAGCTTTAATAAAATATTTAGATAATATAAGTGATTCAGATATAGAAAATATTGAAATGAAAACAGGATCTCCAATAGTTTACGAATTAGATGATAATTTTAAAGTTATAAAGCATTATTACTTATAATGCTTTATTTTTTATGTTATAATTTTTATAGGTGGAATCAATGGAAGAATATAAACAAATAGAAAGATCTATAATTACAAAATATAGAAAAGATATCTGGAGTAAATTTGTTAAAGCTGTTAAAGAATATAAATTAATAAATGAAAATGATAATATTATGATTTGTATATCTGGTGGTAAAGATTCATTTTTAATGGCCAAATGTATAGAAGAACTAAAAAAACATGGAGACTTTGATTTTGGAGTTAGATATGTTTGTATGAATCCTGGATATAATAAAGAAAATGTAGAACTTATTAAAGAGAATGCTAAGAGATTAAATATAGATTTAGAAATATTTGAAAGTGATATATTTGAAGTATTAGATAGGGTAGCTAAAGATAATCCTTGTTATCTATGTGCAAAGATGAGAAGAGGTTGTCTATATTCTAAAGCTAAAGAACTAGGATGTAATAAAATTGCTTTAGCTCATCACTTTAATGATGTAATAGAAACAAGTTTACTTAATATGTTTTATGCATCACAAATAAAAACAATGCTTCCAAAGTTACATAGTGATAATTTTGAAGGATTAGAACTTATTAGACCTATGTATTTAATAAATGAAGAATCTATTAAATCTTGGGCAAAATATAATAAACTTTCTTTCTTAAACTGTGCATGTAAATTTACTGCAGATTCTAAAATAGATGAAAATTTAAGTAAAAGAAGAGTTATGAAGAAACTAATTAAAGAATTAAAAGAGGATAATCCTAATATAGATAATAATATATTTACAGCATTTACTAACGTAAATACTGATTGTGTTATAGGTTATATTAAAGATGGGGAAAAGTATTCATTCTTAGATGAATATGATAGAAAGTAGAGGTATATATGATAACATTTTTTATATGGTTATTAATTATGATTTTTGTTTTTACATCAATTTCAAAAAGAAGTGTTCCTTCTAAAACAAGAAATATTGGTAATATATTTGCATATATAATAACAGGTATATTCTTATTTATTATGATATTTCCTGTTATAAAAAGTAGTATTAAATATGATGAATCAAAAGAAGCTACTCCTGCAGATGGATTTGTTATTAATAAATATACAGTTAAATTAGATGTTAAAGAAGATAATAAGGTAGATGTAGAAGAAGATGTAACAGTTAATTGGACAGAATATGGTCATCATGGAATATATAAGTTTACTCCAGAATGGTTTAAGTATACATCTAAGAATGGTAAAACTATAAGAAGAAAATCTGAGTTATCTAATTTAAGAACAGAAGTGCCTCCATATACTTATAATCCTGATTTTGAATATAATTATGGATATGGAGTTGATTATACTACTGACGAAAGTCTAGTAGAGTCTTATTATAATAGTTCTTATAATTTTACAACTGATGTAGTTAAAGATAAACCAAGAATTAAAATAGGTAGTTCTATGGTTACTCTTGGTAAAGGAGAAAAAGACTATATAATTAAATATACATATGATATGGGATCTGATCCATATGATGGTTATGATGAATTTATATTTCATGCTTATGGAGATTATTGGGGAACTACAATTAATAATCCTAGTATAGAAGTAACTATGCCAAAATCTATAGAAGGCATGAATGTTCATTTCTTTAAAGATAAATATAGAAAAGAAGATGTAACTAATAAAGTTAGTTATACTATTACTGATAATAAATTAGTTGCTTCTTATAATGGTAATGATTTGTATAAATCATTAACTGTTGATATAGAATTACCTGATAATTATTTTATAAATGGATCTAATAATTATGGTAATGCTTCATTAGTATGTATAATTCTATGCTTAATTAATTTATTTATAATATTTATTTTATGGTTATTCTTTGGTAAAGATTATCATAAGAAAGCAGAAATGGTTAGTTATTTACCTCCAAGAGATTTATGTGCTGCTGAACTTGGTTATATGGCTTCTAATGGATATAGTAAAAAGTTAGTAATAGCTACTATTATAGAACTTGCTTCTAAGGGATTAATATCTATTAGAGAAGAAAAGAAAAAAGCATATATTAAGAGTTTAAAACCTGATGAAAAGAATAAGAGTGCTACTAAAAAATATGATGATTTAGTAGAAAGTTTAAGTGATTATGAAAGAATAGTACTTAATGAATTTATAGATGAAACAAAAGAAAAAGAATTAAAAGAATATAAAACTTTATATACAGTATTTAGTAAAGTAGAAAAAGCATTAGATAAAGATTTAAGATGGTCTATTAATGAAAAAGTTGGATTTGTTCTTAAATATTTAGGGCTTGCATTAACTTGTATTTCAGCATTATTAATGTTCTTAGCATATAGTTCATTTGAAGATCTTCCTCAAAAGATATATTCAATGTATTATGTAGGATTTATATCAGTATTTGTTATGGTATTCTTATGTGTTATTATGACTAGAAGAAGTCATTTTGGAGAAGATATAAAAGTAGAAATAAATGGATTTAAGAAGTTCTTAGTTAATGTTGAAAAGAATAAATTAGAAGAATTAGTAGAAGAAATTCCTCATTATTTCTTTAAGATACTTCCATATACTTATGTACTTAATATTTCTAAAAAATGGATAGAAAAGTTTAATGATATAAGTATTCCAGAAAGTGATATACCAATGAGAGATTTCTCATTATTAGATTCAATGTCATCAGATATTTATGTACCTGCTCCATCATATGGTAGTAGTGGTGGTTCTGGTTGTTCATCATGCGGTGGTGGATGTTCATCATGTGGTGGTGGATGTTCATCTTGTGGAGGTGGAGGTTCATGGTAGGAACCTTCATCCTTCAATGGCATTTATCTGAAAACTGTAATTTAAAATGTTTACATTGTTATCAAGAAGATCATAGACCTGTATGTATTTCTTATAACAAGTTAGAACATATTTATAATGAGTTTATTAATCTAATAGATAAACTAAATATGAAAGGACATATTAATATAACAGGAGGAGAACCTCTTTGTAATCCTCATTTATTTAAACTATTAGATTTAATAAAAAAAGATGATAAAGTAACGTTTTCTATTTTATCTAATGGAACTCTAATTAATGATGAAGTAGCCTTAAAACTTAAAGAATATAATCCATATTATGTTCAAGTAAGTTTAGAAGGTGGTAAAAAAGTAAATGATTTTATTAGAGGCAAAGGTACTTATAAACAAATAGGTAAAGGTATTAAGTCTCTAAAGAAAGCAGGTATATTTACATCAATTAGTTTTACTTCTAATCATTTAAATTATAAAGAGTTTCCAAAAGTAGTTAGATATGGAAAAAGATTAAAAGTAGATAATATATGGTCAGACAGATATATACCTCTTGGTGGATCTATGGATAAAGATTTAACTTTATCTAAAGAAGAAACTAGAGATTATTTAGATATTATGCATAAAGAAAAAGTAAAACTTGGTAAAAAAAGTAAAACTCATATATCTATGAATAGAGCTCTTCAGTTTACTAGAACTAATGATTATGCATATGGTTGTACTTGTGGTGATACATTACTAACAGTTATGGAAAATGGTGATTTAGTACCTTGTAGAAGAATGCCTATAGTTGTAGGTAATGTCCTCGCAGAAAGTATGTATAACTTATATATGAATAATGAAATACTAAAAGATTTAAGAAAGAAGACTATTCCTAAAGAATGTATGAACTGTGATAATGCAGATAGATGTAGGGGTGGCCTTAAATGTTTAACATATGCTATTACAGGTAATTATAATTTAAAAGATGTAGGGTGTGATTTATGAAGAATTTAGATTTTATAACAAATAATATGATTATGCATAGAGGATTCTTTGATAATGAAAGAATAGTTGAAAATACTATTAAAGCATTTAAGAAAGCTAATAGTAATAATCATCCATATGAATTTGATGTTAGACTTACTAAAGATGAAAAAGTAATAGTATTTCATGATGATACATTAAAAAGACTATCAGGTATTAATAAAAAAGTATCTGATATGACATATGATGAATTAAAAGATATTAAACTTCTTAATATAGGTAGTATTCCTTTATTAGAAGATGTTCTTAAATTAGATAATAAGAATGGAATAATGATAGAAATAAAGAATGATGATAATAATATGTTAATCGTAGATAAAGTATTAGAACTATTAAAAGATTATAAAGGAAAGTATTCCATTATTAGCTTTAATAAGAATACTCTAAAGTATATTAGAACCAAGAATAAAGATATAGTACTTGGATTATTAATAGGTTTAAGAAAAGAAAAACCTTTTGAAGGTTTTTCTAACAAGTTCTTTATTAAAACATTTAAACCTGATTTTTTATCTGTTAATAAAAGAAATATAGATTATAAATACATAAAGAAATATAAAAAGAATAATCCAGTACTAATTTGGACTATAAAAACAAGAGAGGATTTTACAAAATATAAAGATAAAGGAACTTCTTTAGTACTAGAAAACATAAATATGATATAATAGGGGCGGTGATTTTATGAAAGACCAATTAGTTAATGATTTGCTGAAGTTTTATTTAGATGAAGCAGATAAAGATAATATTGAAATTCCTGATAGTTTTGTTAATAAA
>sequence16
GTATTTGCCTCAGTAGCTCAGTTGGATAGAGCAACGCCCTTCTAAGGCGGCGGTCGGGGGTTCGAATCCCTCCTGGGGTACCACTGTAAATAAAAAGAATCATAAGATTCTTTTTTTATTTTATTTTGATATAATATAAATAGAGGTATAATTATGGAATTAAATTGTATAATTGAAACAATAGATAAATGTGTTATACTAAAAAAAGAAGTTGCAGAATATGAGGCTACTATTACTACTACTGAGAATGTAAAAGATAAAATAGTAACTAAAATAGAAAAAGCTAAAGCAGATAATGAAATTGAATTAATAGATAGATTAACAAAGTATAGTCAAACCCTAAACACATTTATACAAAGAGCAGCAACAGGTATAAATTCTATTAAACCTACGCTTGATAAAACTCAAAAATTATATCAGGATTCTATGAATTCTTTAAATAAAGAGGATAAACAAGAATTATTAGGTATGTTAAGAAGTAAGGTTTCTGTTTTAGAAGATAAAGCATCTGAATTATCTAATAGTATTAATACTGCTGTTAGAAATGGGAATAAAGCATATAAACAATTAGATTTTATAAAAGAGGGAAGGTATAATGATATAGTATCTGATAAAGCATTAGAATTAGTTAATCTAAAAAGTACGTTAGATCAATACTATACATTTATTAAAGATATAGAAAATAGAATCTCATTTGGAGGTAAATAAAACTAGCTTATAACTAGTTTTTATTTGACAAATAATGATTTAAATATTATATTAATTAGTATTAAAAAAGGAGAAATAATATGAAATTTAACAAAGATGGAAAAGTATATGTACATAAACAAGATGTAATGTATTTATTTGATGCAGAAATGGGAATTCCTTTATGTTTGCTTGATAAAATGGGTATGTTAACTGGTGTAACAATTGTTGATAATAGTAACAGATTTGAATTACTTGAATTTAAAGAAGAAAAAGATATTAAGACTGTTAATGAAGTAGAAACATTTGTAGATTTTAATGAAATAAAACATTTATCTGTAGATGACTTAAAAAGATTAATTGAAAAGAGACAAGAAGAATTAAAAAAGACAAGAGAAATGTATTTTTCATTAACTGATGCTACTGAAAAAAGTGTTATGTCAAAGAAATTTAATAGATTAGCTCTTCAATTATTTTCTTTAAGAGATTTTCTTTTATATAAATGTGGTGAAATAAATATGGAAATACCTAAAGGTATAGAAATAGAAAGAGATACACCTAAAGGAAAAGGCTCAATATTAGATGGATTAAAAATGATATTCAAGAAAAAGAATAAAAAAGACAATAATTAATTATTGTCTTTTTCTTTACTCTTATAAGTTAATCTTTTATCAGTAGATAGATCTGCTACTACAGTTAATTTAGTACTTGTTTTACAACTGTTTTTATCATATCCTCTAATATATGATAGTAAGTAGTTTTCAACATTTCTAAAATGTCCATTATTTCTTCTATCATTAGATCTAACTAAATAACCATATTTAGTTAATATGTCTATAAATCTTCTTAAATCAACTATTCCTTCTACAGAATTGTTTTTAATAAAATCATCTATTTCTTGATATGTTTTAGTATAATCTTTTCCTATATCATCTTGTCCTTCACTACTAAATGAACTCTTTTCTAAGTTTAATCTAAAATCTACAGGAACATATACTTTATCAAAACTTGATACTAAACTAGAATATATTAAATAGTATATATCTTCTTGTAAATTTTCTATTTCTTTTTGCTCTTCTTCTTCTCTTGGAAGGTATCCTCTTAAAACATTTAGTCTTTTTGAAATAGTAGTTATTCTATCTACGAAACTCTTTTTACATAGAAAACCAACATCAGTAGTTAAAGCTACTTTATCAAATGGAATACCATTTCTAGAAAGTAATTTCATAGATTTTCTCATATAATCTTCCATTTGTGTTATTGTATCTTCTGTATTAAAAGCTCCTTCAGGATTATCTATATCATATGGAACATTTATAGTTTCAAAATTACCATCATGATCTATAAATGCTTTATATTCTTTTTCATTTTGAAGGTTTTTATTAAAAGTAATTCTATCTTTTGTCATAATAATATCTCCTTATATGCAATGTATTATATATTAATAATTAAATAAAGTAAACTAATAATTATATTTATTTCATATTGAAATAATATATATTTATATAGTAAAATAAAATTGTAGGATACTTATGAGTTTATAAAACACTTAAATTTTTTGATTTTTTTAGAATTTAATGATATTATATAGCTAATTTTTATGGAGGGGTTTCATGGAAAAAAAGTATTTTATGAGTCAATATGATTATTTGTTAGAGTGTAACAAGAATTATATGGATTATATTGCTCTTTCGTTTGGTGATAGAAAAATCACATATGAAGAGTTACATGATAGGATTGATAAATATGCTAGATTATTATATAAAAAGGGAATTAGAGCTGGCGATATAATTGGATTCAGTTCATATAACACACCTGAAGCAGTATATTTATTATGGGCTTTAAAGAAAATAGGTGCAGTTGTTGCTGGATTTAATCCTCTTGAACAAACTAAGTCTTCAAAAAAACAAACTAAATCGGACCTATTAAGTGTAAAACCTAAAATGGTTATAACAGTTGATAAAAATTTTAGTAATTTTAAACAATGGGAAAAAGCATTAGATTTTTCAACAATCTTATTTTCACCATTAGAGTCTGTTCCAGATACAAAAGAAACTAGTAAACTAAAAAAAGGATATAGACTTCAACAAATAGCTTTAGGTAATTTTAAATTATCTAAAGAAAATAATCTAAAATCACTTCTTGAAAGAGATTATAGTGATGTTGTTGTTCCAACACCTGAATACTCTAAGGGCAAATTAGGAGATATTATTTTTACTGGTGGTTCAACTGGTACTCATAAAGGTGTAGACCTTGCAGAAGAGAGTTTTAATGCTGTTGTAGAAGGTATGAATTCAATATTCCCTGCAAAACCTGGTATGATTCACTTAGGAAATATACCTTTTTGTAGTATGGCATATGGTAGATCTATTTTAAATTTCTCACTATGTAATAACATGGAATATGCTTTAACATTAAAAGCTATGCCAAGTGATTTTGTAAGTGAACTTGAAAGAACACATGCTAATGCTGCCGTTGGTGGACCTGTTCATTGGGTTACATTAATTGAAGAAAAAGATGGTAAATATGTACCAAGTAGTCAATTAAAACCTGGGTCATTAGTAGATCTTCATTATGCTACTTCAGGCGGTGAAGCAAAAAAGGCTGCAACTGTTAATGCAATTGATGCTGCTTTAGCATATTGTGGTAGTGATGCTAAATTAGGTGATGGTCTAGGATCTACTGAAACAGCTGCCTCAATAATGATTAATAATGGTAAAATTCATCATCAAAATACAGTTGGTGTTCCTATATCTACTGTAAATGTTAAATTATTTAAACCTGGTACTAAAGAAGAAGTAAAAAAGGGTGAAGATGGAGAATTAATTACATGCGGTGATACTGTAATGCTTGGTTACCATGGTAATAAAGAAGAAACAGATAAAGTATTATACTATGATGAAAATGGTACTAGATGTCTTCGTTCTGGGGATTTATTAAGATTAAACGAATATAATGAATATGAATATATTGGAAGATTAAAGAGAAACTTCGTTTCAGGTTGTGATAATATTTATTCTGAAGCATTAGAAGAATTATTAATGACTTTACCTGAAATTAAGGAAGTTGTTGTTACTCCTATTTCTGATCCAATGGTTCAATATGTTCCTAGATATCATATATCTTTATCACATTCTGATATAGATATAACATCATTAGAAAAGAAAATAGAAAAATTAGTTTTATCTAAATATAATATTAACTGGCTTCCAGGTTCAATAGCTTATTATGATAAACCATTAGTTAGAATGTCTAACTCTAAAATTAATATTGGATATTATAAAGAAAAAGACGCAAAAGATTTTGAAGAAGGAAAAATAGATATTTCCACTGCAAAAGAATTAAGATTATCATTAATATAAGGAATTAAAATTCCTTATATTTTTTTATTTATTTTTGTGTTATAATTATTATAGTATGGAGTAGAGAATATGGAAGTAGGGTTTTATTTTTCAATTAGTACTTTTATTATTATCGGTATTATTACAATAATATTTTGTTTAAAACAAAGAGTTGATAATATAGAAACAAAAATATATGGACAAATTCTTGTAATAACTTTATTGGGGATATTTTTAGAAATAGGTACATGTATTTGTTATAGACTAGGCGTTAACTTAAATAATAATATATATCAATATGCATGTAAATTAACTGCTTCTTATTACATGATATGGTCTAGTTTATTCGTTAATTATTTGATTAGTATTACAAATGCTAAAAAAAGTTTTAAAAGAGGATTTAATATTATAAATATTATATGTTTTGCATTAATAATGATTTTACCAATTTATTATAATAGAACTGATACTGGTGTTATTCCTGGTGGACCATCAATTATACTTACATATAGTGTTTGTTTTGTATATGCTATAATTGATGCTGTAATAACTATTAAATATAGAAAAACAATTACTAGGGCAAAATTTACTCCGGTATATTCATTACTATGTCTTGGAGGATTAGATATAGTTATTGGAATATTTTTTCCACAATTGTTTTTAATAGGATATATTTATTCATTAATTGTAATTATAATGTACTTTACAATTGAAAACCCAGATGTAAGATTAGTTCAACAATTAAATGCTGCTAAGAATCAAGCAGAGAAAGCTAATAGAGCTAAAACAGACTTTCTTAGTTCTATGTCTCATGAAATTAGAACTCCTTTAAACGCAATTGTTGGTTTATCAGAAGATAATCTTGAATATAAAGATAAATGTCCTCCTGAAGTTATAGAGAATTCTAATGATATAGTTAGTGCTTCTCAAACATTACTAGAGATAGTAGGCAATATACTAGATATTAATAAGATAGAAGCTAATAAAATGGAATTAGTTAATAATCCATATAACTTTGTAGAAGAAATAACTCAAATGTGTAAAGTAACAGAAACTCGTATTGGAGATAAACCTATTAAGTTTAATTTATCATTTGCACCTGATATTCCATATGAACTTAATGGTGATAAAGGTAAAGTAAAAGAAATAGTTAATAATATTTTATCTAATGCTATTAAGTATACTAATGAGGGTGAAGTTAATTTATACTTTAAATGTATTAATAATATAGAGAAAAAAGATTGTATATTAATTATAACTTGCCAAGATACTGGTATAGGTATAAAAGCAGAACAAATAGATAGATTATTTAATAAGTTTGATAGATTAGATGTAGAAAAGAATACTACTACTGAAGGAACAGGTCTTGGTCTTGCTATTACTAAAAGACTTGTTGGTATGATGGGTGGTAAAATAAATGTTCAATCTCAATATGGAAAAGGTTCTATATTTATGATTCAAATACATCAAGAAATATCTAAAATGGAAGCTCCTACTGTAGATACTAATATAACTCAAACATATGAAGAAAAAGATTTTGGTCATAAGAGAATTCTAGTAGTAGATGATAATAAATTAAATATAAAAGTTGCTAGAAAATCATTATCGGCATTTAATTTTGAAATAGATGAATGCTATGATGGAGTTGAATGTTTAAATAAAATTAATTCTGGAGAACATTATGACTTAATTTTAATGGACATTATGATGCCAAATATGAATGGTGAAGTAGCATTATCAGAACTTAAGAAAATACCTGGATTTAGTACTCCCATTATTGCTTTAACAGCAGATGCTATAGCAGGTTCTCAAGAAAAATATATAAGTGATGGTTTTACTGATTATATAGCAAAACCATTTAATAGAGATCAAATTAAAAGTAAATTAGATAGGATATTTAGATAGGAGAATTTATTATGAGAAAGAAAAGAATTATTATTGGTTTAATAGCAGTTATTATAGCTATTATTGTATGTGCATTTATAATGAATTATTTTAGAAATAGAAAGAATAATAATGAAATAGTATTATCTACTAATGGTGGCTCAGTTTATAAATGGGAATGTGATATTGAAAATAGTAATATAGCATCTATTAGTGATGCATCTTATAAAAGAGTTGATGATTTAGAGGGAGGAGAAGTTCTAGTATATTTTACTATTACTGGTAATAAAAAAGGAACTACTAAAGCATCATGTAAATATATAAATCCATCAAATAATTCTTCTATTGATTCAAGTAATTATAAAATATATGTAGATAAAGATCTTAATGTAACTATTCAAAATAGTAATTAAAAAGTGTTTTTATAACACTTTTTTTGTTATAATATTTTATGGGTGATAATTATGCACATTAAAGATATTAAAAAGATGAATAACAATACATATTATTACTATGATGATAGTGGAGTAGACTTTGTAATAAATAATACTTTTGTTTTCGATACATCAAGAATAAATAGTTTAAAGGCAGAAATATTATCTGATTATTTGACTACTATTAATAAAAAATATGATAGTGTTAAAAAAGTATACAATAAAAAAAGGGAACTATTTAGTCCGGTATTATCAATGTTTTCTATGTCATATAGTAATAAGTCTTTATTTACTATCAATTATAGAATGATAGATCCTAAAATAGTTAAAGAAGACTATTTTGATGATTCATTAGAGTTCCTTCATGATATGATTTTTAATCCATTATTTATAGATGGTAAATTAGATAGTGATAGAGTTAGTATTATAAAAAAGGATATATATGATAGATTTATTAATACTGTTAAAGACTTCTATTATGAAGTAAATACTAAGTTTGATAAAACTGTATTAAAGGGTTATTCTAATAATCTTTTAATCTATGATACTAAAGAAGAGTTAAAGAAAGAATTGGATTCTATTACAGATAAAGATATTATAGATTTTTATAATGAGATTATTAATAATCATTATAAAACATTATTATTTGGAAAAATAAATAAAGAACAAATTAATAAAGTTCTTAAAACAATTAAGCTTAAGGGTACTAATAATTCTAAAATAGAAAAGAGAGAATATATAGATCTTCAAAGTGAATATAATGAATACATTTCAAAAGAATATACTCAATCAGTATTACATATAACATATAATATAAAGAATGTTGATAAATATACTACAAGACCATATATTACTGTATTAAATACATTTATAAATGGTTTAGAGGGATTATTATATCAAACTTTAAGATATAAATATGGTTTAGTATATAACTGTGGTGGTTATATGTTATTTAGAAAATCTAATGTAATAGTATTTGATGCAAGTATTGATAAAAAGAATAAAGATAAAACAATAGAAGCCATTAAAGAAGTAATAGAGGGTTATAAAGATATCAAAAAAGTAGAAGAAAGATTAGATATAACTAAGAAAAAGATTAAACAAAATGCATATCTAGCTGACGAATTTTCATATAATATTTTTGATAAAGTATATAATTATTTATATAATGAAGGTTTATCTGATAAGAAATATATTGAAATGATTAATAAGATTACTGCAAAAGATATAGTAGAGTTCTTCAGTAGCTTAGATAAAGAAAATATATTCTTCTATGTAGGTGATAAAGATGAATAAAAGATTTACTAAAATAGTTTTAGATAATGGAATTAGATTATATGTTCATGGTGATAAAACTATGAAAAAACATCTTGTTTCGTATGCTGTTAATTATGGATCATCAGGTATTTATAGTAAGTTTAATTATGATGGTAAAGATTATGAAGTTCTTCCTGGTTGTGCTCATTTTCTAGAACATATTCTTCTTGAAAATAGTAAATATGGAAACTTATATACTTACTTTAGAGATTTAAAATATATTTCTAATGCATATACTGGAGATATAATTACTAAGTTTTATTTTTCTGGTGTTGGTAATATTAAGTCTTCTATTAAGAAGTTAATAGACACTTTAGAAAATCCTGTATTTAATGAAAATGATGTAAAAGATGCATCTCATGCAATAGAAGAAGAAACAAAAAGAGGATTAGATGATCCATATTGGTGTGCATTATACTTATTGTACCGTAATTTATATAAAAATATGGATTATACTCATGAAACATTAAACAGTATTGGCACTGAAGAGACAACTAAGAAAATAGATTATAATATGCTTAGATTATGTCATAATGCATTTTATAATGATGAGAATAAAATAATTACTATTACAGGTCCGTTTGATGAAACTGAAATGATTAATTATATAAAAAAAATATATAGTAAGATTCCAAGACATGAAAATAAAGTCAAACTATTTATTCCAGATAATATTACTGAAATAAGAAAAAAAGAAGATATACTTGTAAGAAAATCTGTCGAAGATGATTATTTATTTATAGGCTATAATAATAATTTAAAAGACTTTTCTTGGTTTGAAAAAAATAATTATATATCTTATATAAGTACTGTTAAGTTTTCTTCTAAAACAGAGTTTTATGAAAGACTAAAAAAAGATAATATTTTGGTTACAGGTTATGGATCAAACTGTGATAATGTTTTTAATGATGGTAATTCTAGTTTTAATTTTGTATTTATAGTTAAAGATAAAGATAAATTCTTAAAAGAATTTGAAAAAGAATTAAAAAATATTGATTTTGATGAAAAAGATTTTGAATTATTTAAAAAGGGATTAATATCTAATCATATATATTCATTAGAAAATAAGTATTATGATTATGATTATTTACCAGATCAAATATTTAGATTTAATGAAGAAACTGATTATGTAGATAGAGTTAGAAATTTATCTTTTGATAGATTTATTAAATTTTATAATAGTATAGACTTTAATAATAGAAGTATAGTATTATTAACTAAGGAGGGTTAAGATGGAAAAAGGTAAGTTAATTGTAATAGAAGGGGCATGTGATAGTGTAGGTAAGTCTACACAATCTGAGTATTTAATTAAAAGATTAGAAAAAGATGGTAAAAGGGTTTTTAATCATCACTTTCCAACATATGATGAAAATGGTATAGCAGTAGATTCAGAAGTTAGAAAATTATTAGATAAAGATGATCCTGCATATAAAAACTGTACTCCATATGAAGCAAATAAAGTATTTGCTAATGATAGAAAAACAATATGGGAAGAAAGATTTGAACCAGTATTTAATAATCCAGATAATTATTTATTATTTGATAGATATACTACTTCAAGTTTTATTTATCAATCATCTAAAATGTCTAATCCAGAAGATATAAAAAGATTTATAAATGATGTATCTCACTATGAATTTGATGAACTTGGTTTACCAAGACCTGACTTAGTAATATTTTTATGTCCTAGTTATGATTTAGCTATGAGATTAATGGCTGAAAGAGAAAAAGATAGATCAGTAAAGAAAGATGTTTTTGAAGCTGATCCAGAAGGAATGCGTAGAATATATAATAATGCTTTATTTGTAGCAGAATATCTTAAATGGAATATGGTTAAATGTGATAATGATGGTGAAATGAGATCAAGAGAAGACATTCATGAAGAAATATATAGATTAGTAAAAAAGATGGATAAATAATCCATCTTTTTATATTAAAAAAAGAACTTAATTATTAAGTTCTTTTTGTTTTGCTGTTACTCCAACATATTTTACTAAACGTTTAGGTTCTACATCAAATGTCCATGATACTTTTTTATCTATATACATTATTACAAAACTTTCAGTACAATTAGGCATTTTGTAATCAGTAAATAGTGAAAGTGGAAACATATGTGTTACAATCGCATTTTCAATATTTTTATTCATATATTCTGGAAAGTATTCTCTAGAATTTTCTAAGGCCTCTATTGGATGAGTAAACCCATGTTTTTCAAATAGTTTAAGTTTTCTTGGATGAATAAACTTTTCTCTATATTTATCATCTAATTGACTTAATTCTTCGCTATCTTGCCATGCTCTTGTATAAAAGTCATGCAATAAACCTGCAATAGCACAGTTATACATATTAAATCCATTATTCTTAGCAAATACATATGAATTAAATGAAACTTTTATAGAATGTGACCATACACTTTCATTTTCATGATGTAAGAATAGTCTTCTTTTTTGAAATTCATCACTATTTAATATATTACTAACTATTCCATACCATGAATCAAAGTCAGGATTATTTTTATATAAGTCTAATACTTCAAATTCATCTATACATTGATATTTATATCTCATAATTTTTCCTCACTCGATAATTATAACACTTATGAGTATATTATTCAAATTTTTGAAGTATATCTAAAACATGTCTTCCGGCTCCTAATAATTCCATTTTTTCACATGTTTTTAAGTGATAATCAAAGAATATATCTAATGTTTTATTATCCATTTTATTTACACTTTTTTTAATATATTCAGTAGGTCCATCTTGAGATAATATTGTTACTCTAGATAGGTTAGAGTTCTCTAATAATTTGTTAATATCATCTAATCTTACAAATGAGTATAAATCATCCTCTTTAGAGGTAATTTTATAGTCATTATTTACACGTTTATTATCTATTTCACTAATTATATTATTATCTATAAAACCATGCGTAATAAGGGCATATTCATTCATACAATAACTAATAAATATATAACCATTATTTTTAGTAACTCTTTTAGCTTCATTTAATGCTTTTAATTTATCTTCATAAGATATTAAATGATACATAGGTCCAAATAGGAGAGTAATATCATATGTATTATCTTTTATCATAGAAAGATCTATAGCATTCCCTAATATGCATTTAATATCTTTATTATTCTTTTCTATTACTTTTAGATTATGCTTTACTAGTTCTACTGCTGTTACATTATAACCTTTATCACTATAGTATATAGAGTATTTACCTGTTCCAGCTCCTATATCTAGTATTTTATTATTAGGTTTAATATATTTATCTATATAATATAAAGCAGTCTTAAATTCTATGTTACCATGTTTAGTATTTAATCTTTTATCTTCATTAAACTTATTATAGTATTTTATTAGATTTTCTTCATTCATATTATCACCTAAAGATATATTACATAAAAACTTGTTTAAAAACAATAGATATATTATAATAATATCAATTTTGGTGGTGATAA
>sequence17
ATAGGTTAGTTAGAATATCACCATTTGATTCTAACAAAAGAAGACATACTTCATTTGCATCTGTAGAAGTTACTCCTGAAATAAATGAAGATATTAATATAGAAATAAAAGAAGAAGATATAAGAGTAGATGTATATAGATCTTCAGGAGCAGGAGGACAAGGAGTAAATACTACTGACTCTGCCGTAAGAATTACACATATACCTACAGGGATAGTAGTTACATGTCAGAATGAAAGAAGTCAACTTAAGAATAAAGAGACTGCTATGAATATCTTAAAATCTAAATTATATAATTTAGAACAAGAAAAGTTAAATGAAGAAAAGAATAATAGATTAGAAGGTTTATCATCTATAAACTTTGGTTCTCAAATCAGAAGTTATGTTATGCATCCATATTCTATGGTTAAAGATCATAGAACTGAATATGAAACTAGTGATGTTAATAAGGTAATGGATGGATATATAGATGAGTTTATAGAAGCTAGTCTAGAAAGGGGAATATAATATGGATAGAGCTAAGAAAATATTAAACTTAGTTGAAAGAAAAGATCTTATTAGAAGATATTTCATCTTTGTAATTGGTTTATTAATTATGGCATTTGCATATAATTTATTCTTCTTAAGAACAGGACTTATGCTTGGTGGATCTGGTGGTATTGCCATTATATTTAAGGATACAGTAGATCCTGCTATTACAATTTTATGTATATCTATTATTGGATTAATAATAGGTGCTATATTCCTTGGAAAAGATTTTGCTATTAACTCAATAGCAGGGGCATTATTATATCCATTATTTGTTAAATTAACAGCAGACTTTGTTATTAATATACCTACTGATGATGTAATGCTTGTTGCAATATGTGGTGCTGTTTTAATTGGTATAGGAAATGGATTAACTGCTAAAACAGGATTCTCTTCCGGAGGAATAGATGCTATTATTCATGTATTACATAGAAAGAAACATATTTCTCATGGTACATTATATGCATTAATAAATGGAATAATTATTATATCTGGTGGATTTATCTTAGGGTATAGAGTTGTTTTATATGCAATAGTTCAATTATATATAATTAGTTTAATAACAGACAAAGTAATGCTTGGTATATCTAGTAATAAAACATTCTTTATTGTTACTAATCATGAAGAAGAAGTTAAAGAATATATTTCAAAATATTTATCTAGAGGCGTAACTGTTATTGAAGGTAAAGGTGGATTTACTAGAAAAGAAAAAGAAGTTTTAATGGCTGTTATTCCTACTGTGGAATACTTTAAAGCAAAAGAAGGTATACTTGAAATAGATCCAAATGCATTTGTAACTATATGTGATTCATATCAAGTATATGGTGAATATTCAGATGAAAAACAAAATAATAAAAAGAAGGAGAGTGATAAGTAGTGGATTTTATAACATTAACAAATGTAACTAAAACATACCCTACTGGTGTGACTGCTGTATGTGGTCTTGATTTAAAAATTAGAAAAGGTGATTTTGCATTTATAATTGGTGCTTCTGGTTCAGGTAAAAGTACTTTAATTAAAATGCTTTATAGAGAAGAAAAACCTACATCTGGGGAAATATTAATTGGTGGAGTAAAAGTAGAAAAATTAAAAAATAGAAAAGTATATAAATTAAGAAGAAAACTAGGTATTGTATTCCAAGACTTTAAACTTCTTCCTAAGTTAACTGCTTATGAAAATGTTGCTTTTGCTTTAGAGATGTATGGTCTTCCTAAAGAAGAAATAAGAAATAAAACTCTAAAAGCTTTAGAATTAGTTGGATTAAAAGAAAAAGCAAAGAGCTTTCCAGATGAATTATCTGGTGGTGAACAACAAAGAGTATCAATAGCACGAGCTATAGTTAATAATCCAAAATTATTAATATGTGACGAACCAACTGGTAACCTAGATCCAAATATGTCTATGGAAGTTATGAAAGTTCTAGAAGTCATTAATGAACTAGGTACTACAATATTAGTTGTTACTCATGATAGAGATATAGTTAATAAGATGAAGAAAAGAGTTATTACACTGGATCAAGGTAGAGTTGTATCTGATTCGGAGAAAGGAACATATACAGTAAATGAAAAACTTAAGAATAATAGGTAGAAATTTCCGCGATGGATTTAAAAATGTATTTAGAAACTTTTCTTTATCATTTGCATCAATATCATGTATTACTATTACACTAATAGTTGTTGCAGTTGCTTTAGTAGGATCATTAAACGTTGAAAACTTTACTAAACAAATATCTGATGATTTTACTATAGTAGCATTTGTAAAAAATGATGCTGATAAAGAAGCAGAAGAAAAAATAGAAGCTAAATTAGATAAGATTGGAAATATTGATACAGTCACATTTGTATCTAAGAAAGATACTAAACAAGAAATGATGGATTCATCTGAAACATTTAAAAATATTATGTCAGCATGGGATGAAGATGAAAATCCTCTTAGTGATGCTTATCAAATAAAAGTTAAAGATATAGAAAAAATAGAAAAAACAGCTGAAAAGATTAAAGCAATAGAAAATATTGAAATAGTTAAGTATGGTGAAGGTATGGTTGATTCTATGGTATCTATATTTAACTTAGTAAAAAAGATTTTAATTGTATTAGTTATTGCATTAGTAGTAGTAACTGCATTCTTAATAGTTAATACTATTAAGATAACAATTTTTAGTAGACAACAAGATATTGAAATAAAAAGACTTGTTGGAGCTTCTAACTTCTCAATTAAACAACCATTTGTTATTGAAGGTTTATTAATTGGTTTACTTGGAAGTATTATTCCAATAATAGTAACAATATATGGTTATAATTATTTATATAATTATACTGGAGGAGTTATCTTCTCACAATTTATTAGATTAATTAAACCATTCCCATTTGTATTTTATGCATCAGTTGTTTTATTAGTAATTGGCGTTGTAGTTGGTATGATAGGAAGTAACAGAGCTGTTAAGAAGTATTTAAAGATATAATGAAGAAAATTAAATATATATTATCAGTACTACTTTTATTAGTACTAATATTTCCTATAAATACCAATGCCAAAACTTTAGGACAATATAGAAATGAACTAAATGAATTAGAAAAGAAATATAAAGAAAATAAAGATAAGATTCAATATAATGAATCTCAAATAGCTGCTGCTAAGGCAAGAATAAATGAAATATATAATGAAATAGAAGCGGGAGAAAAAGAGATGATTGAGCTTAATAAACAAATTGCTCAATTAAATGAGGATATCATTCAAAAAAGAGAAGAAATAAAATCTATTCTTAAGTATAATCAAGTATCTAAAGGAGAAAGTGCATACTTAGAATATTTATTTAAAGCAAAATCAATAACAGATTTTATTTATAGAGCAACTGTTTCAGAACAAATGTCTAATTACAATAAGGAACTTATAAATGAAATGAATGCTATGATTAAGCAAAATGAAGAAAATATTAAAAAACTTCAAGAAAAAGAAAAAGAATTAACTGCTAAAAGAGAAGAATTAAATCAAAAGATAGCAATACTAAATTCTCAAAATATATCATTAACAGATGAAACAATATCTGAAGAAGAAGAAATCAAGGCTTCTAAAGAAGTTATCGCTTTCTATGAAAAAGCTGGTTGTAAAGATGGAGATGAAGTAACAACATGTGCTGCTAAACAATTACCTCCAGGAACTAAATTTTATAGACCTTTAATAAAAGGTTATGTAACATCAGAATATGGATATAGAATTCACCCAATTAATGGGGGTGCTAATAACCATTCTGGACTAGATATGTCTACATATAAGTCATGTTCTTCATGTCATGAAATTTTATCTGTAGCTGCTGGTAAAGTTGCTTATGTAGGTTATAATAGTTCAATGGGTAATTATATTGTTATTCACCATAATATAAGTGGTGGTTATTATTCATCTATGTACATGCATTTATCCAGTACAAGGGTAAGAAAAGGTGATATAGTATCTAAAGATACAGTAATAGGTATCATGGGTAATACAGGATCAAGTACTGCTACTCACTTACATTTAACTATGTTTGCTTGTTTATATTTAAGTGATTCTAGATGTAAGTATCCAGGAAGTACAGTTAATCCTAGAAACTATATTAATTTCCCATCACAACATTATTATGATTTTACAGATAGAAATAGATATTATGATTAAGACACGTAAGTGTCTTTTTTATTGCTTTTTTTGAATATTGGAATATAATAATACCTAGGTGAAAAATCATGGAAGAAATCAGGATAAAAGATGTTATATTTAGCTTTAGACACCTTTATTTAGAAAATAATAGAAAACTAAATAAAAGACTAGGTAAACATATATCTAATAAGAGTATATTTATTGATGATATTGCTTTATATGTTACAAGTAATCCTTCTCATAAAAAGACAGTAAATATAAAATATATATTTAAAAAAGGTACTCCAGGAGATATATATTTAAGATTAAATGAATTAATTAATAGAAATACTGAACTTGATAATCCAGCATCTATTAAATGTAATGATAATGGTGAATATTATATAGATTCTAAATATAATATTAGATTAAAAGATCAAAGAATAGCAAAAGACATGGAATGTATGTTTAAAGAAGAATTTTATCAAAATATACAATCTAGAGTATCTAATGAAAAAATGGATATAACATTTTCAGAAACTGAAATAACTTTTTCTACAAATGATTTTATTATATGGTATAACTGCCTTGGCGATGTTATTCTTTCTTATTCTGGTAAACCTTTTAGTTTGGAAGATGCACTAAATACTTCTGTTCCTATAGAGTTATTAAGTGATTATCATAAAGGTATAATTAAAAGTGAAAAGAAACCAATATCTTCTGAAAAAAAGGAATATTTGGATACTCCAGGAGATTATTCTATAAAAGAAAGAGATAGTGATTATTCTCTTAGATTAATTAGTAAGAAAAAAATAAATAGATATATATAATATATAGTGTTATAATTTATATATATTTAGGAGGCATATATGTTAATTAATTTTGATAAGTATGAACTTGATAAGGATGTATCAAGAGAAAAATTATTAGATTATGGTTTTGTTGAAACAATTGGCGTAAATCCTAATAGATTTTGTTATTTAACCACTTTAAAAAAAGGAGTAGTATTAGCTATAGAAATACTAGAAATTAATGGAGAATTAGTATTTGACCAATATTATGGGGCACCAGTATTTAAGAGTAATTTAAGATCATTATATGGACCTTTTTATGAAGATAAAAAACAAAAGGGATATGATTATACTTTAAGAAAATATAATTCAAAATTAAATGATTTAGCTAAAGCTCATATACTCGCTAAAAGGCCTAAAAAGAAATAGTATTATTTCTTTTTTTTTGTTATAATTTTTATAGGAGATGATATAAATGGGACTACTTAGTTTTGCATTAAAAGGTAGTTATAAAAGATATTGGAATAATTTAAAAGATTTGGAAAAAGAAACTGGTAAAAAGCCATTGTTTTTATTTATAGATACAGCTATATCTACTATAGTTACAGGATCTGGATTACAAGATTATTTAAATTATAAGTTTTATAATAAAACATGGAAGGAAAGAAAAGAGTATGCTACTATTGGATTCCAAGCAAAGTTTTATAAAAAGACTGCTAGTATTGAATATGCTCCATTCTTTTCTAATAAGATTAATTTTCATAAGAACTTTAAAAAGTTTGTAAAAAGAGATCATGTATCTTATGAAGATGGATTTGATAAAGTAAAAGAGTTTATAAGTAATAATAAAGCAGTAGTTGTTAAACCAATATCTGGTTTAGGTGGCGGTGGTGTTAGAAAAGTAGACACTAAAGACATTAAAGATATTAAGAAGTTTTATGAAGATTTAAAGATAAATGATGAATTTGTTGAAGAACTAGTAGTTCAAAATAAAGAATGGGATAAATTAAACCCAGGAAGTATTAATACTATTAGAGTATATACTTATGCTTTAAATGGTAAATCTAGAATACTTTATGCTTGTTCTAGAATAGGGTCTTCGGATGCTATAGTGGATAACTTTCATAGTGGCGGTGTAGGAGTTTTAGTAGACATAGAAAAAGGATGTTTAGTAGGTAAAGCTATTAATAAAGCAAATGAAGTATCTGATGTAACTCCAAGAACTAAAGTAAAAGTAGATGGATATAAGATTCCTATGTGGGATGAAGTTAAAAAGATGGCTCTAGAAGCTGCTCTTGTTAATGATAAAGTAAATATTGTTGGATGGGATGTTGCTTTATCTGATAAAGGACCTCTTTTAATAGAAGGTAATAGAGGACCTGGTTGGGATTTACCTCAAGTATTAATTAATAGAGGTGTTAGAAAAGAATTAGAACAAATAGTAAAAGAAGTTAAATCAAGTAAATAACAAGGTATTAACCTTGTTTTTTTATTATCATTTTGTTAATATATATCTAGTTATGGAGGTCCCTTATGGATAAATTTAAATTAGTTTCAAAATATAAACCATCTGGTGACCAACCAGAGGCAATAGATGCACTAGTAGATGGAATAAATACTGGCAAAAAGAGTCAAGTATTACTTGGTGCTACTGGTACAGGTAAAACATTTACTATTGCAAACGTAATAGAAAGGGTAAATAAGCCTACTTTAGTATTAGCTCATAATAAAACATTAGCAGGTCAATTATACTCAGAATTAAAGGAATTATTTCCTGAAAATAGAGTAGAATACTTTGTTTCCTATTATGATTATTATCAACCAGAAGCCTATGTACCATCTAGTGATACTTATATTGAAAAAGATGCCTCTATTAATGATGAAATAGATGAACTTAGACATAGTGCTACATCAGCATTAGTATCTAGAAATGATGTAATAGTGGTAGCATCAGTATCTTGTATATATTCTTTAGGAGAAAAAGAAGAATATGAACATCAAACTCTTACTCTTCATACAGGAGATAGAATTGAAAGAGATGATATTCTAAAGAAATTAGTGGATATGCTTTATGAAAGAAATAATTTAGATCTTACTAGAGGTACATTCAGAACTAGGGGAGATACTATAGAAATAATGCCTTCTTATACTAGTTCTTATGCCTATAGAGTAGAACTATTTGGTGATGAAATAGAGAATATTATTCAGTTTGATACAGTAACTGGTGCTGTTATAGAAAGAAAAATCACTATTACTTTATTTGCAGCATCTCACTTTGTTACATCAAATGAAAAGATTAAACTTGCTTGTGCTAATATTAGAAAAGAATTAGAAGATAGACTAAAATACTTTAAAGAAAACAATAAATATCTTGAATATGAAAGACTTAGTCAAAGAACTAATTATGACCTAGAATTAATGGAAGAAACAGGATTCTGTAAAGGAATAGAAAACTATTCAAGGCATTTAGCATTTAGAAAAGCAGGAGAAACTCCTTGTACACTTATAGATTTCTTCCCTAAGGATTTTCTTTTAGTAGTAGATGAATCCCATGTAACACTTCCACAAGTTCGTGCTATGTTTAATGGAGATAGAGCAAGAAAACAAATACTTGTAGACTATGGATTTAGATTACCTAGTGCATTAGATAATAGACCCCTTACATTTGATGAATTTAATTCTAAATTAAATGATGTAATATATGTATCTGCAACTCCTGGAGATTATGAAATAGAAGCATCTAACAATAGAGTGGTAGAACAAATAATTAGACCTACTGGATTACTTGATCCAACTATTGATGTAAGACCATCAGAGAATCAAATAGAAGACCTAATTAATGAAATAGACGATAGAATTAAAAAGAATGAAAGAGTACTTGTTACTACACTTACTATTCGTATGAGTGAAGAATTAACTGATTATCTAAAAGAAAGAGGTATTAAAGTGGCTTATCTTCATAATGAGATTAAAACTCTAGAAAGAATAGAAATAGTTAGAGACTTAAGACTTGGTAAGTATGATGTAATAGTAGGAGTTAACCTTCTTAGAGAAGGTATAGATATCCCTGAAGTATCTTTAATAGCTATTTTAGATGCTGATAAACAAGGATTCTTAAGAAGTACTAGATCACTTATTCAAACTATTGGTAGAGCTGCTAGAAATGCTAATGGTAAAGTAATAATGTATGCTGATATGATATCTGATTCTATGAAAGAAGCTATAGATGAAACTAATAGAAGAAGATCTATTCAAGAAGCATATAATGAAAAGAATGGTATTACTCCAACTACTATAGTTAAACCTATAGCAGATATAATTCGTAATAAGGCTAAAGATAGTAGCGAAAAGGACTTTAAGTATTCTAAGAAAGAAAAGGAAAAACTTATGAAAGAAATAGAAAAAGAGATGCTTGAAGCTGCTAAGGAATTAGATTTTGAAAGAGCTACAGAACTTAGAGATATATTATTTGAAATGAGAGTAGAATAAATTCTACTCTTTTTATTTTATTTTAATGATTTTAGTATTATAATTTAATTATAGAGGAAATAGTTATGGATTTTTATAAGATTATATTTAAAAAGAAAAATTCATACAACGATAGACTTAATGCAACAGTGTTTTATATCAATATATTTCTTATATTGGTACATGTTTTCCTTTTGGTCTTTTATTCATTAGTACATCATAAGTTTATGTTTGTCGTAAATCTATTTTCATTAGTATCTTATTTAATTGGTTTTTCTTATTGTTTTAAACATAAAATGGCATATTTAAATATGGCGTTTGTTGAAATATGGGTTCATACTTTACTTGCGGTATGTTCTTTTGGATGGGAAGCATGTTTTCAAAACTGGATATTTGCTTTAGTAGTAGCAGTTTTCTTACCTGCATTTTCTCCTGATAAAAGAAGACAATCATATAAACAATCATATTTATTTACTTTTATAATTATTCTTTCGTATTTTATATTTGCAGAAATAATTAATGCTTTTGATTTAAGCATAATGATTCCTTTAAAACAAAATATGCAAAATATAATATTTTTTGTTAATAATATAGTTTCATTCTTTGCAATAGTTTTATTTGCAGTTACATATACTAAAAATAGTGAATCTAAAGAAATAGAATTAATTAAAAAAGCTAATTTTGATGAATTAACAGGAATATATAATAGACATGGAATACATACTATTGAACAAACTCTATTAAATGATAAAAAAGAATATTCTATTGCTATATTAGATATAGATTTCTTTAAGGTAGTAAATGATACTTATGGGCATAAATCTGGTGATATGGTATTAAAAGAAATTGGAAATATATTAGAATCCTATATATCTAATGATATTACTGTTGGTAGATGGGGAGGAGAAGAATTCTTAATAATTGCTAATTCTAAAGTAAAATATAATGATTTTATAAATGTATTAGAAAGTATAAGAATAGAAATTAGTAATACTAAGTTTATTATTAAAAATAAAAAGAAAATAGATGTAACAGTATCTATTGGTAGTAAATATATTAAAGATAAGGAAACAATAGAAAATAGTGTTTCTAAAGCTGATAAAAATCTATATAAAGCAAAAGAAACAGGAAGAAATAAAGTTATTTCATAAATATAAGAAAGGAGGTTTACTATGAAAAAGAGTGGAATACTAGGAACTATTACTTGGTTATATGGGATTATTGTTATAATACTTGCAATTCTTTCTTTATTTGCTGGTAAAGTAGCATTAATTGATTCTATAGCTAATATTCTTAAAATAGTTACTATGTTTGGATCTATACCATTTATAATAATAGGTATTATAGCTATTATTATAGATTCTAATAGAAATAGAGCTATTAATGGACTAATATTCATTGGTATAGCTTATTTAATTCCAATAGTAGTAGGATTATTTAAATAAAAACAATCTATAAGATTGTTTTTTTATGTAAATAAATATATACATTTAATGATTTATATGACATAATAAATTTAGGAGGGTGTTTATGGCAAGATTTGATTATTTAGATGATTCACCAATCGAAGAATTATTAAGCACTTATATTGATCTTGATAGTGATATAAAATTCATGACAATGAAAATAGAACAAGGCAGAGTAAAGAGTTATGAAAGAACTGAATATGAAGAGGATGATATACCTACATATTCTAAAAAAATGGATTATATAAAAAATATTTTTTTAAAAATGCCAGAAGAAAAGATTTTAAGTGCTGAAAGAGATTATATAGAACGTTTACATGATATAGATGAACAATTTGAATGCTTTCAAGTAACTGCAGAAGAACTAGATTTAATTAAAAATAGAGCACGTAAATATGGTGAATATATTTCATTTTTAAAAGAAATTATTAAAGAACGTAATATAGAGGATGTAACATCATTTAATAATGATGATTATAAAGATTTCCCAACACCAGAAGATATAGCACAATTTGATAATGATTCATCACCATTTGGTGGAAAATAATTAATATTAATAAAAACAATCTGTTCGATTGTTTTTTTCTTTTATTTTGGTATAATATCAAATGTTTGGAAGTGATATTATGAACGATAAGATTACTGTTAGAGGTGCTAGAGAAAACAATTTAAAGAATGTTAATATAGATTTACCAAAGAATAAACTAATCGTAATGACTGGTGTATCTGGGTCTGGTAAATCTTCTTTAGCGTTTGATACTATATATGCTGAAGGTCAAAGAAGATATGTAGA
>sequence18
AGTGATATTTATTCACTTGGTATTATGCTTTATGAAATGCTTGCAGGTACTATGCCATTTAGAGGAGAAACAGCTGTAGAAATAGCTATGAAACATCTTAAATCTCCAATGCCTAGTATTAGAAAACTTAGAGATGATGTTCCACAAAGTTTAGAAAATATAATTCTAAAAGCTGCTGCTAAGAATCCAAAAAATAGATATAACAATGTAAGAGAATTATATGATGATTTAAAAACTTGTCTTGATGAACAAAGAAAAGATGAAAAAAGAATTGTATTTAAATATCCAGAAAATGAATATGATGATGAAAAAACAGTTATTACAAATAACTTAAAAGAAGAAATAAAGAAAAAAGAAGAAGAAAAGGAAGAAAAGAAAAAGATTGAAGTTAAAGAAATAGAAGAATCAATCGAGGATAAAAGAATGAGTAAATTTACTAAACTTTTAATAATTTTAGTTTCTGTATTAGTATTTGCATTACTTGCAGTATTTATAATATTCCCTGCAATATTTAAGAATCCATCTATTGAGGTTCCAGATGTATCTGGATTATCAGTTAAAGAAGCAAGAACACTTCTTAAGAATGAAGGATTAAAAATATCAGGTACTATTAAAGAGGATTATACAGATGATGTAGAAGCAGGAAAAGTTACTAAGACTAATCCTAAAGCTGGATCTGTTGTTAAAAAGGGTGCAGTTATTACACTTTATAAGTCTCTTGGAAGTAATAGAATTGAATTAAAAGACTATACTGGTGAGGAAGCTGAAAAAATTAAATGGGATCTAGATAAAGAAGGTATAAATGTAATTATAGAGAAGAAAGATGTTGATAATAAATCAGATTATTTAGATAAAGCAGATATTATAATTGCACAAGAACCTGCAGCAGGAGAAAAAATAATATCAGGAGATATTTTAAAATTATATATTCCTAATATTATTACAGCATATCCAAACTTTGTTGAGGACAGTAAATATAAATCAAGTATAGATAAAATACAAGCATTCTGTGATGAATATGATATTAATTTAACTGTTAAAGAAGTAGAAACTGAAGAAAAAGCTGCTGGTACTATTCTTTCACAAAGTATATCAGAAGGTTCTAAAATTAATAAAGGTGATAAAATTACAGTTGAATTAGCTAAAAAACCAGTTGAATTAGTTCCAATTGAAGGAGAAAGTGAAAACTCAAATGAACAGAATAATCAAGATAATTAGTAATGATTATACAGTTGAATTTGATAATAAAGAAAAAAGAGTCTGTAAAGCTAGAGGAGTATTCCGTAATAAGAATATAACTCCTTTAGCAGGAGACTTTTGTTTAGTTAATAGTGACAATATAATAGAAGAAATTTTAGATAGAAAAAACAGTTTAAATAGACCTCCTGTAGCAAATATAGATATTGCTATGGTAGTTACATCTATTGTTAATCCAGATTTTTCATCTAAGTTATTAGATAAATTACTAACAGTAATTGAATATAATAATATAGAACCTGTTATATGTTTTACTAAATTAGATTTATCTGATTTAGATATTACTTCTCTTAAAAATTACTACGAATCAATAGGGTATAAAGTAGTTACTAATGAAGAATTAGATAAAATAAAAGAAATAATAAAAGGTAAAACTGTTATATTAACTGGTCAATCAGGAGCAGGTAAATCCTCTTTATTAAATAGATTAGATAGTTCTTTAGATTTAAAAACTGATGAAATATCTAAAGCATTAAATAGAGGAAAACATACTACTAGAAATATAGAATTCTACGAATTATGTGATTCTTATGTAGCAGATACTCCAGGGTTTTCAAAATTAGATTTTGCTGATATGACTAAAGAAAACATAAGAGATAGTTTTGTAGAGTTCAATAATTATGAATGTAAGTATTCTGATTGTATGCATATAAAAGAAGAGGGTTGCAAAGTTAAAGAAGCAGTAGATAATAAAGAAATAATTATGTCAAGATATGAGAACTATATTAGTTTTATAAATGAAAAGGAAAATGAAAGATGAAAGTATCAGTATCAATATTAAAAGAAAAAGATAATATAGAAAATGTTATTAAAAAGATAAATCTAACAGATGCAGATTATATTCATATTGATGTACAGAATAATACTTATACAGAAAATTATAGTTTCCCTGTAGAAGACTTTAAAAATATTAATGATTATAATACTAAAAAGTTAGATATTCATTTAATGTGCACTGAACCATTAGATTTAATAGAAGACTATTCTAAATTAAATCCAGAATATATTACTTTTCATATAGAAGCAGTAAATGATCCATATAAGTATATAAAACTAATAAAATCATATGGTATAAAAGTAGGTATAGCATTAAATCCAGAAACAGATGTTAATAAAATAACTGAATATTTACCATATATAGATATGGTATTAGTTATGAGTGTTACTCCTGGAAAAGGAGGTCAATCATTTTTAGATAATACATCATATAAAATGGAAGAATTATATAATTTAAAAGATAGATATAATTATATTATATCTGCTGATGGTGGTATAAATGATAAAACTATTAATATTGTTAATAAGTATTTAGATATGGTTGTTTCTGGAAGTTTTATTACTAATAATGAAGATTTTCAAAAACAAATTAATTTATTGAAATAGTAAATAAATAATGCTATAATGATAAATGAGAATAGGAGATAGGGTATGAAAAAGAAAGAGACAGTTATTGATTCAGATATAAAAGAAGTTAAAACTGAAAAAGTAAAAGCTGAAAAAGTTCAAAAAACTAAGACTAAAAAAGAGAAAAAGAAACTAGTTATTAATAAAAAATTAGTTACTATAATAGCTGCTGGAATAATTGTAGTAATCGCTTTATTATTATTTTTATTTAGAACTAAAGTTGATACTATAACTAAAGTTAAAAAAGTTGCTGCTACTAAATATTACAATGTTGAATGTTTAACTTCTACATGTGATTATATAGTTGCTGAAAAAGGTAATAAACTAGGAAAGTCAAAAGTTTATGTATATGATGCAAAAGGAAATGAAGTAGTATCATTTAAAGATAAATATAATGCTAAAAAAGATTATGTTTTATCTGTTTATGATGTATCTAAGAATTTTGTATTATTTAAAAAACTAAATAAATTAACAAGTAAAACTGAAGGATATATTATTGCTAATACAAAGGGTAAGAATAAATATTCTACAGGTAATACTTTATATAAGATTAATGAAAATTTAATATCAGAATTTGATCAAAAAGATAATAAATATCTTATATTAAATAAAAAAGGTAAAGTAATTTATGATGGCGTAACTGATATTAATAAATATAATAATGGTAAAATAATAGCATTAAATCTTAAAGGTAATGATGTATTAATTAATGAAAATGGAGAAAATATTCTTGGTGGATATGTTGTTGCTAAAGAGGTTACTTCTTCTGATGGTGATACATTATATTTAATACTTTCTGATTCTAAAGCAAATGCATATTATTACTATAATGTTGATTCAAATAAAATAATGGGTGAATCATTTAATGGATATGTTTCTTCTGATAAAGAAGGAGAATTAATTATTACTAAGAGAATTAATAACTCTGATGTTAAATATAGTTTAAGTCCATCTGGTAAACAAACTAAAATATCAGATGAAACTTTAAATGAAAGAATTACATTCATTAAAGAAAAAGTTGGTAGTGACTATGCTTTATATGTATCATCTGTTATTAAAGCAGATCAAAGATATGTATTTGTTAATAAGATTAAAGATTCATCATTTGGTGTATATGATGTAGATAGTGGTAAATATACTAAATTATATAATTATTCATCAGATGAAAAATCTACTTCTATATATAATTTAGAGTCAAATGATAATGGTATCTATATGCAAGCAACTTGTGCTAAAGGATATTGTGATAAAACTATATTATATGTATATAATTTAGCTACTAATAAAGAATTATTTAAATCAGATGATGAAAGTAAAATACCTCAAAAATATGCTGAGTATACTGGTGGTTATAAAGTAATTAGATATTCTACTTCATCTGAAAATGAAAACTATAAAGGTAAATATGTTTTATATGATGAAAAAGGAAAAGAGTTAGTTAATTCATCAAATATTGTAGTTCCTCTAGGAGAAGAAAATCTATTTGGTGAAGTATCATCTAGTAGAGCATTAATACTTTATTCTACAAAAGAAAAGAGAGTTTTAAATTCTGATAACTATCTTGGAAGTAAAATTAATGTAAGTGGTACTTATATTTATAAATTCTCAGATTCTGAAACTACATACCTATATAATATAAAAGGCAAAAAGATGGTATCTATTAAGACTTCTGATGCAAGACTTATATATTCTGATGAAACTATAGTATATATCTTAAATGGTAAGATTAATATTATTGATCCTACTACAGGAAGAGTTAGAAAATATAGATTAAAATCTGAAGAAAGAATTAATGATATCTCTGGAGAAACAATTGCTCCTTATAGAAATTCTTTATATATTAATAATCCTGATAAAAAATATGTTAAAGTTGTTAATGTAAAAGGTAGAACTATTAAGAAAATAAAGAAAGCTGAAATTAAATCAGTTGTTAAAAATGAAAAATCTAATAATGTTATTATAATTGTTAGAAATATTAAGAATAATAATAACTTATATGGATTATATATAGCAAAATAATTGTTAATAAAATCTAGTTATATAACTAGATTTTTATTTTCAAATAAAGTATAATAAATTTTAGGATGGTGATAAACATGAGAAGTCTTTTACCTGCAGATACATATGTAGTAATTAACAAAACAATTTTAAATGACTCTGATAGAAAAGTCTTAACTATGCTTTATCAACCAATAATAGGTAGTATTAGCGCTAATCTATATAATACACTTTGTTTAAATTTAGATAAAAATGAATTTATGAGTGATGAATTTACTCATCATTCTTTAATGGTAAATAATAAGATTTCTTTAGAAGATATTTTATCTGCTAGAGAAAAATTAGAGGGTATAGGTTTACTTAAAACATTTGTAAAAGAAAAAGAAGATTCTAATTCATATGTATATGAATTATATTCACCATTAAGTGCTTCAGAATTCTTTGCTCATCCAATATTAAACATTGTTTTATATAATAATGTAGGAAAAAAAGAATATGAAAGATTAGTATTATATTTTAAAATTCCTAGAGTTAATCTAAACGGATATGAAGATATAACTAAATCATTTAATGATGTATTTTCATCTGTTCCATCTTCATCATTTGTTAATAATATAGTAGATATAAAAGAAATCTCTAAAGTAGGTTTATGTTTAAATTATAGTTTTGATTATGATATGTTAATTACTTCATTCCCTAAGGAAACTATTAATGAAAAAACATTTACTAAAGAGAATAAAGAACTTATAGAGAATTTATCTTATATATATAATTTAGATACTTTAGAAATAAAAGATCTAATAATTAATTCATTAAATGATAGATTAATGATTGATAAAGTAGAATTAAGAAAAAATGCTAGAAACTATTATCAATATCAAAATAATGGAAAATTACCAACTCTTATATATCAAAATCAACCTGAATATTTAAGAAGTCCTGTTGGTAAAGATAGTAAAAGAGCTAAAATGATATATACATTTGAAACTGTATCTCCATATAATTTCTTAAAAGGAAAATATAATGGAAGTAAACCAACATCTAGAGATTTAAAATTAATCGAAGACTTAATGGTTGATGTTGGACTTAAACCAGGAGTAGTAAATGTACTTATTGATTATGCTTTAAGAGTAAATAATAATAAATTAAATAAAAACTTTATAGAGACAATAGCAGGCCAATGGAAAAGACTAAATATTGAGACTGCTGAGGGCGCTATGAATAGGGCATCAAAAGAGAGTAAAAATAAAAAAGTTAAAGAAACTATTTATAAAAAGAAAGATGTTACCCTTCCTGAATGGTTTGATAAAGAAAATACTAAAGAAGAAATATCAAAAGAAGAAGAAGATGAAGTTAAAAATCTATTAAAAGATTTTTCATAGAGGTATAAAATGAAAGATATTAATAAGATGAATATAAAAACTGGTAAAATTAATCTAGAAGCAGAGTATTTAAAAGCTAAAAAAGATCCTAATTTTATTAAAATAATAACTAGTTTAGATTTAGATGATAAAGAATTAATGAAATATACATCTAAATTAATGCAATGTGCTAAAGAATTAGATAATTATGGAGATAAAAGTGATAAATCATTTTCTAATAATGAAATACCTGGATTTATACTTACTCCTTATTTAGTAGATGGAGTACTTAATTTTAAATATGTAGCATGTAAAGAAAAAGAAGAAGAATTAGAAAATGCAGAATATATAAAAAATGGATATAGATTTGAAGTTTCTAAAGATATTAGAAATGCTAAAATGAAAGATATATATACTGATGATAAGAATAGAGTACCTCTTATTAAATGGGTTACTTCTTTTATAAAAGATTATAAATCAGGTAAAAAAGTTAAAGGTTTATATTTGAGTGGTAACTTTGGTTCTGGTAAATCATATATAGTATCTGCAATGTTAAATGAACTTGTTAAAGATGGATATAAAGCTGCTATGATATATTATCCTGAGTTTTTAAGAATACTTAAATCATCATTTAAAACAGATTTTGATGAAGAATATGATTATGCTAGAAAAGTAGATTTATTATTACTTGATGATATAGGAGCAGAAAATATTACTTCTTGGTCTAGAGATGAAATATTAGGGCCTATTCTTCAATATAGAATGGATAATAATTTACCTACATTTTTTACATCTAATTTAGATTTAAAAGAATTAGAAGTTCATTTATCAGAAAGTAAAAATGAAGTAGATAAATTAAAAGCTAAAAGAATAATAGAAAGAATTAAATATTTAACTGAAGATTTAACTTTAATAAGTGAAAATAAAAGAAAATAAAGATATATATAATATATCTTTTTTTTTGACATTTTTATTATCTTATAGTATATTATTTTTAATTTTTATTAAGGGGGATATTTATGAATCATTTAAAAAAGCTTCTTGATATATTAAAAAGAGAAAGAGTTAATGAAGCTATATATAAAAAATGTTCTGAATATGTTGATGAATTAGATGATGATGATTTATATGTTGGTAAATTACATTCATATGTTAAAGCATTAATAGTCGATGATTTCTTAAAATTATCTGAGAAAGGCCAAAAAGATACATTATCTCTTTTATCATGCGGTTTTATTGATTCAAAGTATGTATGTATTGCTATTAGAAATATAAATATGCTATTTGTTGATAGTGGTTCATTAATGTATCCTCCAAGAAGAAGTCTTTTAAGAGGATTAGAACAATATAAAGATGATCCAGTATTAGATGAAGATTTAATATCTAATGATGAATTAATTAAGAAAATAATATGTAAGAGAAATCATATATATCCAATAGATGATATAGAAAAAGGTAAATATAGTTTAATACATAATTATAGATTAGATGAAAGTGAAATTTCAGAGATTAAAAAGGTTACATATATAACAGATATTCTTATAAGAAGAGTTCATGAATTATATGATGAAGACCAAGGAGAATTTAATAAAACTGTATGTAATTATGATGCTATAGAAGATGAAGCAATAAGAAAACTAATACCTCATACATATAGAAAGAATCCTCCTGTACAAGTATTATTAAGTAATGGTTCTATAGTAGATTATTACAAAGGGGATATTAAAATAAAACCTTATAGAATGATGGACTTTATTAACTTAGTAAAACTAGTATATGTTAAAAAAAGACATGAAAGTTCTCTAATGGAAGAATATGAACCAGAAATATTAGAAGAACGTAATAGTGAAATGGCATATCTAGAAGAAAGATTATGTTTAACAGAAGAAGAAAAAGAAAGATTAGAAGAATTAAGAGAATTATATTTATTTAAAAGACAAATAAAAGATATAGTAGATGAAGTATCTGAAGAAATAGATGGATTAGATCAAGTATATTCTAAGAGGATGAAGGATATGTCTAAACAAAAAGTAGATATGATGGATAGTCTAGTTCTAAAGTATGATTTATAGGAGTTATTTATGAATAAATTAAGAGTATTTTATAATTTATTAAATAGTAGATTAATAACAGATAGTATGATTGAATATCATATAGAGCACTCTGATTCTTTAAAAGCAAAATGGAAAGATGAATCTGAATTTGTAAGATATCTAAAAGCTTTTTTAATAGATAAATTTAATGAAGTTCCAGATGAAATTAAAGACCATCTTATAAATGAACTACGTGATGGTATTGTTAATACTTATTTAGTAGAAACCTTTGTAGAAATTATAAGAGGAGAACAAGCTAATGTTAATGAATATATAGATGGTATAACTCTTAGTGATTTTTCTGATTTATTAGTATATAAAGATGATGAAATTTTTAAAAGATTATCTAGTAATAATGAATGGATTAGAGGTTTAACTAAAGAGAATAACAATTTTATTTCTATAATAGAATTAGAAAATGGTAATTATTTTTTACCAGGTAATTATAGATTATCTAAAGATGAAATAAATACTATTAAGTGTTCTAAAATGTTAGCTCCTATAATAGGAATGGTTCATTCTAAATATGATGAAATGTGTTATGATGAAAATGGAGTATCAGAAGAAAGAACTATATGTAATTATGATGTTATAAAAGAGGAAACTATTAAATCATTAGTACCTCATACTGATAAGAATAATCCTGATATAGAAATATTATTTAATGATGGTACTATAGTAAACTATTATAAAGGTGATATACGTATACTTCCATTTAACTTTAAACAATTAGTAGAATATATTAAATTAATGTTTGTATATAATTATTATAATGGATCAAACAATCCGTTATTAGCATTCTATTTAGAAACAGAAGATGGAGTATCTTTAGATACTGATTTTGATGATATGAATCTAGAAGAAATAGAAATACTTTTAGGATATGCTATATCAATGGCTACAGATGTAGTTAGAAGTTTATCTCAAAGATATTCTGAAAGAATGATAGAACAATCAAAAGAAAAAGTTGCATATTTATTAAAATTAGCAAATAAATATAAATTATAAAACTATTTACAAGTAAATATATTAGAGTTATAATAATTTTGTAAATCGATGAAGAAAGACGAGATCTATATATTTGATTTATAGAGAGTTACCGGTTGGTGTAAGGTAATATGATATATATAAGTTACTACTTTCTAAGAGGATTAATAAATCCCGGCATAGCCGTTATATTAATTAAGTAAACAAAGGATGGTACCGCCTAAATAGGCTCCTTATACCATCCTTTTTTTGTTTAAAAAGGAGGAAATTATGATTAATATTAAAGAAGATGAACGTTTAAGTAAATTAAACCATTCATGTGCACATTTAATGGCACAAGCAGTAAAACATTTATATCCAAATGCTAAATTCTGGGTAGGACCTGTTATTGAAGATGGATTCTATTATGATATGGATTTAGGAGATAAAGTTATTACTGATGAAGACATTGAAGCAATCTCTAAAGAAATGAAGAAATTAGCTAAAGATGGAAAAAGAATCTATAGAGAAGAGATCTCTAAAGAAGAAGCATTAGAAAAGTTTAAAGACGATCCATACAAGATTGATCTTATTTCTAGAATGGATGAAGATAATACTGTAATATCTTGTTATACACAAGGAGACTTTACTGATCTTTGTAGAGGACCTCATGTTGATTCAGTTAAAGAACTTAAGAACTTTAAATTACTTAAATTTAGTGGTGCTTATTGGAAAGGCGATTCTAATAATAAAATGCTTCAAAGAATATATGGAGTTTGTTTTGATACTCCAGAAGCTTTAGAAGAACATTTAAAAGAATTAGAAGAAGCTAAAGAAAGAGATCATAGAAAAATAGGTAAAGATATGGAAATCTTTATGATGAGTGACTTAGTAGGTAGAGGACTTCCTATGTATTTACCTAATGGATTTATTCTATGGAATGAATTAGAAACTTATATTAGAAATAAAGAAATAAAAAGAGGATATAAGCATGTTCAAACTCCACCACTTGGTAATGTAAATCTATATAAAACTTCTGGTCACTTAGAACACTATAAAGATGCAATGTTTCCTATAATGCAAGTAGAAGATGAAGAATATGTTCTAAGACCAATGAACTGTCCTCATCATATGGTTATTTATGGAAATGATATACATTCTTATAGAGATTTACCACTTAGAATTGCTGAAATAGCAAGAGATTGTAGATATGAAACTTCTGGTTCATTAAAAGGTATTGAAAGAGTTAGAACATTCTGTCAAAATGATTC
>sequence19
TTTTAGTGGAATTATATAAAACATATCAAATAATATATATGGAACGTTTAGTAAGAGTGTAACCCTCCAATTCTAGAAAGGAGGTGATAAAATGAGTAAGAAAACTTTTATTTTAAAGTTTTTACAACACATTATTGTCATATTATCACTAATTACTTTATTAGTATTAGTAATAAAAAAGACACTCTAATTTGAGTGCTCACCAAACAAAGGGTGGCATTTAGATATACTAAATGTTCCTTCTAAATAAATAATAACATATTTATCATATATATACAATATATCTTTGTAAATTCATGTCTATTATAATTGTTTCCTATTATATATATTATTATAATATAATTAGAAATTTGCTTTTTTTATAATATATGTTATTATATGTGCGGTGGAAAAAATGGATTTAAATAGTATTAATATATTAGTTTATGCTTATATTGGTGATAGTATATATGAACTAATGATTAGAGAGTATTTAATTAATAAAGGTTATAACAAAGTAAATAAATTACAAACTTTAGCATTAAATTATGTTACTGCGAAGAATCAAGCTAAGTTTATAACTTATTTACTAGATAATAATATTCTTATGGATGATGAAATAGATATTGTTAAAAGAGGTAGAAATGCTAAAGTATATAGTCATCCTAAGAATACAGATATATTAACTTATAAACATGCGACTTCTTTAGAATGTTTATTTGGATATTTATATTTAAAACAAGATATGAATAGAATTAATGAATTAATTAGAATAATTACGGAGGTTTAATATGATAGTATATGGTAAGAACGTATTTAAAGAAACTATTAATAGTGATAAAGAAATAAAAACTATATATTTATCTAATAATTTTGATGACAAGGGAATTTTAGAAGATATAGCAAATAATAATATTAGAGTCATTAAAATGGATAAAAGAGAAATGGATAGAAAGTTTGAAGGAAACCATCAAGGTATAGTTCTTGAAATAGAAGATTTTAAATATAAATCTATTAAAGATATACTTGAAAAGAACTTTGTAGTAATGTTAGATCATTTAGAGGATCCTCATAATTTAGGAGCTATTATTAGAACAGCTGAATCTGCTGGAGTAGATGCAATAATTATTCCTAATAAGAGATCTGTTAGTATTACTGGTACTGTTATGAAAGTTAGTGCAGGAGCTCTTAGTAATATAGATGTAGTAGAAGTAAGTAATTTAGCTAATGCTATTGATACTCTAAAAGATAATGGTTTCTGGGTATATTCATCTTGTATGGATGGTGAAGACTATACTAAAGTTAAATATGACTCTAAAACATGCTTAATAATAGGTAATGAAGGTGCTGGAGTTAGTAAGCTTGTTAAAGATAAAAGTGACTTTATTATAGGTATACCTATGAAAGGTAAAGTAAATAGTTTAAATGCCTCTGTAGCAGCGGGTATCCTTATATATGAAGTTGTTAAACAAAAAGGTGAATAAATATGTATAAAGAAAATGATAATGAATTATTATATTTAATATCAGAAAATAATGAGGATGCTAAAGATATCTTTTATGATAGATATAAAGATATTATAGAGATTAAAGCTAAGAAGTATGCTAGTTTCTTAAATAGTAAAGGTTATGAACTAGGAGACTTAGTACAAGAAGGTATGATTGGTTTATCACAAGCAATAGTAGACTATAAAGAACAAAAGAATGTTCAATTCTCTACATTTGCTAATATTTGTATTGATAGACAAATGTATAGTTTTATTAGAAATATAACTAGAGATAAACATAGAATACTTAATGATTCTATTTCTATAGATACTACTACTGATACTAATGGTAGACCTTTAATAGATTTATTATTTGATGATAAAAATATTAATCCAGAAGATTCATTTATTGAAATGGAAGAAAAGAATGAGTTATTTAATCAAGTAAAAGAAGTTTTAACAGAGTCAGAATATAATGTATTTGAACTTAGAATGCAAGGATTTACTTATAAGGAAATAGCGGCTTTATTAAATATAACTCCTAAAGCAGTAGATGGATCTATTTCAAGGATTAAGAATAAAGTACAAAATATATTAAAGAATAATGAATAAAGAGATTAAAATCTCTTTTTTAGTGGATATGACATAAATAATCATTTTCCCGAGGTTGGGAAAATGATAAGAATAGGTAATAGATAAAAAGAATAAATAATCTATCCTTATATATATAAATAAAAACTTTGTATTTTAAATACTCAAAGTTTTTATTTTATATACCTGTAAAAATCTTTAAAATATTATAAAAATCCGTTGACTTATAAAGGTTTTTATGATATTTTATATGTAAGAAACACGGATGTGTTTTTTATTTTGGAAAAGTAAGGTGAAAATATGTCTAAAGTAAAAGATTTGTTTTTAGATTTAAAAACAGAGGCAAAAAGAATTAGATGGAGTAAAGGAAAAGACTTAGTTAACAATGTTATCGTAACACTTGTTACAGTTATATTCTTTGCATTATTCTTTATGGGAATTCAATTATTAATTAGTCTAGTAAAAGGTATTGATTACAGTTCTATAATTAATGCTATTAAAGGATGGTTCTAATATGGAAGAAGAAAAGCAATGGTATGTAGTTAACACATATTCAGGACATGAATCTAAAGTAGCAGAAAAATTAGATATGCGTATTCAATCTATGAATATGCAAGACTATATCTTTAGAGTTATAGTTCCTGAAGTAACAGAAACTGAAATCAAAGACGGTAAAAAGAAAGAAAAAGTTAAGAAATTATTCCCAGGATATGTTTTAGTAGAAATGATAATGACAGATGAAGCTTGGTATGTTGTTAGAAACACTCCAGGTGTTACTGGATTCCTTGGATCATCTGGTAAAGGAGCTAAACCATTCCCATTAAAGAAATCAGATATTGATAATATTTTCAAGATTATGGGTATATCTGATAAGAAGGTTACAGTAGACCTTAACGAAGGAGATAAAGTTAAGATTACTGATGGACCATTCAAGTTAATGCTTGGTAAAGTTCTAGAAATAGATAAAGAAAACAGTAAAGCTACTGTTTCAATAGATTTATTTGGTCAAGAAACTACAGTAGAAGTTAGTCTAACTGATGTAGAACTTGATAAATAGTTATTGCATTTTATATAATAAGATGCTACAATATGTTTTGCTATATAAATTTATTATATAGATTTTAAGTGGGAGGCATAATAGTCACTTGTACCACTCACGAAAATATTATAGGAGGTGTTTTTCGTGGCAAAGGAAATGATAAATAAAATCAAACTTCAAATTCCTGCTGGAAAGGCTACAGCTGCTCCACCAGTCGGAACTGCATTAGGACCTGCTGGAATAGCATTACCTGATTTTATCAACAGATTTAATGACGCAACTAAAGATAAAATGGGTGATATTCTACCAGTAGAAGTTTATGTTTATGATGACAGATCATTTGATTTTAAAGTAAAGACTCCACCAGCAGCATTCTTAATTAAGAAAGCAGCAGGAGTTAGTAAAGCTTCAGCTACAGGATCTAAATCAATAGCTGGATCAATTACTAGAGATCAATTACGTCAAATAGCAGAAACAAAGATGCCTGATTTAAATGCAAACGATATTGAAGGCGCTATGAGAATTATTGAAGGTACCGCTAAAAATATGGGTATCGAAATCAAGGATTAACATATAGCAGTGCTATGTGGGAGGAAAATCCGTTAAAACCACAAGGAGGAAAATATGAAGAAAGGTAAAAAATATATAAAAGCTTTAGAATTAGTAGATAAAAGTAAATTATATACTAAAGAAGAAGCTGTAGATTTAGTTAAAAAGACTAGTACTTCTAAATTTGATGCTTCAGTTGAAATAGCATTTAACTTAAATTTAGATACTAAGAAAACTGATCAACAATTAAGAGGAGCTATCGTTCTACCAAATGGAACTGGTAAATCTAAAAAAGTATTAGTATTAACTAAGAACTCTGCATTAAAAGATGCTGCTAAAGAAGCAGGTGCAGAATTTATAGGTGATGATGACCTAGTAGCTAAGATTGAAAAAGAAAACTGGTTAGATTATGATGTAATTATTGCATCTCCAGAAATGATGCCAGCTTTAGGAAAATTAGGAAAGGTATTAGGACCAAGAGGTTTAATGCCAAATCCAAAAACTGGTACAGTTACAACTGATATCAAAAAAGCAGTTGAAGACGTTAAAAAAGGACGTATTGAATATAGAACTGATAGTTATGGTAATATTCATGCTGTTATTGGTAAAGTATCATTTGATAATGATAAATTACTAGAAAACTTAGTTGCTATAGTAACTGTTATTGTTAAATCTAAACCACAAACAGTTAAAGGTGCATTCGTTAAGAATATATCTATATCATCAACTATGGGACCTGGTATCAAAATTGATTTAGGTTCATTTGACAAACTAAACTAGTTTGTATATAATAATATTGTTTAAAAAAGTTTGAGTGCCGAAGACAGTAAGTGTTTTTATAAACTTAATATCTTACCGAGGATAAATTCTTTATATGTAAATATAATAGTCTTTGTCCTTTGTACAAAGACTTTTTTAATATAAATTGCAAGGAGGAGTAAAATGGCAAATTCAAAAATACTTGAAGCAAAACAAGAAGTTATTAATGAAATTACAGAAGTTGTTAAGAATAATGCTTCATTTATCTTGTTTGATTACCGTGGTTTAACTGCTGAAGAAACTACTTTACTACGTAAGAAACTTCGTGAAAACAATGCTTCTTACAAAGTTTGGAAGAATACTTTAACAAAAAGAGCTGTGGATAGTCTAGACATTAATCTTGATTCGTGCTTAGAAGGCCCTAGTGCTATGGCATATTCAAATGATTCAGTTGCTCCAATTAAAGTTTTAAGTGAGTTCAAAAAAGAACATCCAGCACTTGAAATTAAGGGAGGACTTGTTGATGGAAAAGTTGCTACTTTAGAGGAAATCAAACAATTAGCTACATTACCATCAAGAGAAGGATTACTTACTATGCTTGCATCTGGACTTATTGGTACAGTAAAAGATTTATCAATCGCTTTAAATTTACTTAGCGAAAAGAAAGAAAACGAATAGGAAATAGGAGGAAAGAAAATGGCTAAATTAAACGCAAAAGATTTTATTGCTTCATTAAACGAAATGAGTTTATTAGAAATTAAAGAATTAGTAGACGCTATGAAAGAAGAATATGGTATTGATCCAACTGCTGTTGCAGTAGCTGCTGCACCTGCTGCTGGAGATGCTGCTGCTGATGAAAATGCAACTGTTACAGTTACATTAAAAGAAGCTGGAGCTACTAAAGTTCAAGTTATTAAAGTAATAAGAGATATTACTGGTCTTGGATTAATGGAATCTAAAGCTATAGCTGATAATGGCGGAGCTATTAAAGAAAATATTTCTAAAGACGAAGCAAACGATATTAAAGCAAAATTAGAAGAAGCTGGAGCTACAGTAGAAATAGCATAATTAAAGACTAGAAATAGTCTTTTTTTATTACCATTTAATTGTTATAATATTTATAGGAAGTGATTATATGGGTTTCTTAAAAGATCTATTCAAAGAAGATAAGAAAACTAAAGAGGATAATGATATGCTTTTTGAAGATAAAATTGATAAACCAGAGTATACTGATGAAGAATTAGATGATTATGGTTTAATGGATTGGGAAAAAGAAGAAGTAAAAAAAGGTAATCAAAATCCATGGGACTTTGAAGAAGAAGATAAAGAAGATGATGATTACTATTCTGAAGATGATGATTAATAAAAATCATGATGATATTATGGGAGGAAGAAAATGATTAGTATTACAAAAGCTGAAATGAGAAAGATTGCATATGATTTTGGAGATGTAGGATTAGTATATAATCCAGCTGCTAGATCTCTTAGAAGACAATGCCTAGAATTAGGTAAAAGAACTCAATATGTTAGTCTTGGTAGAGCTAAAAGTTATAAAATGAAATCAAAGAATAATTGCGGAAGATATCCAAAAAATATTAGAATAATATAGTTATAAACTATATTTTTTTAATTGACTTTATATTCTATAAATAATAGAATATATGAAAAAGAGGTATTACTATGAGTAAAAAATTAGATAGTATATCAGATAGATTAACTAAAATAGAAAACAGAATAACTATTAAAACTGCTATTTTTGATGTTGCCTATTATCAATTAGTTAAAGATTATCCACAGTATTTTTTTGGGCCAAAAACATTAAAACCAAGAAAGAGTAAAAAGGTGAAAAAACAATGAGTCAATATTTTGAAAATGATGAAAAAGTTAAGAGTAATATAACTATTAAAGAAGCTGAAGTTAGAGGAATTAAATACTATTTTTATACTGATAACGGAATCTTTAATAAGAGTGGTCTAGATTATGGAACTAGATTATTATTAAATAATCTAGATTTAAGCAATAAATCTAGTTTTCTTGATATTGGATGCGGTGCTGGTGTAGTAGGAATCTTTCTTAAGAAATTAAACCGTGATTTTACTGTGGATATGTGTGATATTAATAAAAGAGCAGTAGATATTACTAATAAAGGACTTAAGAAGAATAATCTTGTGGATAATGCATTTGTATCAGATGCATATAGTAATATAGAATCTAAATATGATTGTATAATTAGTAATCCACCAATACATGCTGGAAAAGAGAAAGTATATGAAATAATTAGAGGAGCTTCTACTCATTTAACTCCTTCTGGAGAACTTTGGATAGTTATGAGAAAAGATCAAGGAGCATTATCTATGATGAACGATAATAAAGACCTATATAATTTTGAAATAATTACTAAAGATAAGGGATTTTTAATAATAAAAGCTAGAGTAATCTAGTTTTTTTATTTTTTTGTAAAATTTTTACATTATTTTTCTATTTTGTATTGACTGCTATTTAGTTTTTTGCTAAAATCTTAAATTGGTACTATGTCCTTTTCTGGCTTATGGACATGTTCTTTGAATGTTATTGTTAGGGGTGAATTTTAGTGGCTTATAAGATTAAAAAAGTATGTAAAGACCGTGAAAGAAGAGATTTCTCTAAGAATGAAAACTCTTTAGAATTAAAGGATTTATTAGAGATCCAAAAGAAGTCATATGACTTATTTATCACTGAAGGAATAAAAGAGGTACTAGATGACATGTTCCCTGTAGAAAATTTCTCAGGATCATTATCACTTGAAATTTCTGATTATTCTATTGATCAACCAAGATTTACAATAAAGGAATGTAAGGAAAGAAAAACATCTTTCGTTGCGCCTTTAAAAGTTCAAGCTCGCTTATTTAATAACGAAACAGGAGAAGTTAAGGAACAAGAAATATTCTTTGGAGACCTACCATTAATGACTGATAGTGGAACATTCATTATTAATGGAGCTGAAAGAGTTATTGTTTCACAACTTGTAAGATCACCAAGTGTATATTTTGGTGTAGAGATGGATAAGAATGGTAGAAATATATTTACATCTCAAATTATACCTAATAGAGGTACTTGGCTTGAATTTAAACTAAATAGTAAAGATGGAGTAGATATCAAGATTGATAGAAACAGAAAAGTAACAATCACAACATTTTTACGTGCATTTGGTTTATCATCTAATGAGGAAATCTTAGATGTTTTTGGTGAGGATGAATATTTAATCAACACTTTAGAAAAAGATTCAACAGCTAATACTGATGAAGCTTTAATTGAAATTTATGAGAAATTAAAACCAGGTGAACCAGCTACTTTAGATAGTGCTAAGAACCATTTAATTACTCATTTCTTTGATCAATTTAGATATGATTTATCAAAGGTTGGTAGATATAAATATAATAAGAAATTAGATGTATGTGATAGATTATTTAACCAAACATTAGCTGAAGATATTAAAGTTGATGGAAAAGTTAAATATAAAAAGGGTACTTTAATTGATAGAGAAGTATTCAATTCATTAAAAGAAGACTTACACAATGGTATTAACATGGTAGAAGTTAAAATTAATGATGAATTAGATACTTATAATAAAGTACAAATAGTTAAAGTAATTGATCCTAACGATAAAGAAAAGGTTATTAAGATTATTGGTAATGACCAATCTATAGATGTTAAGAGATTAACTATATCTGATATATATGCATCAGTTTCTTACTACTTAAACTTATTACATGGTATAGGACAAACTGATGAAATTGACCACTTATCTAATCGTAGAGTTAGACAAGTTGGAGAACTAATTCAAAATCAATTTAGAATTGGTGTTTCAAGAATGGAAAAAGTTATTCGTGAAAGAATGACTACTATTGAAGAAGCAGATGCTACTCCTAAGACTTTAATTAGTATTAGACCATTAACATCTGTAATTAGAGAATTCTTTGGAAGTTCTCAATTATCACAATTCATGGACCAAGTTAATCCAGTATCAGAATTAACTAATAAGAGACGTTTATCTTCTCTTGGACCTGGTGGATTATCTAGAGAAAGAGCTGCCATGGAAGTGCGTGACGTTAACGAATCACACTATGGTAGAATTTGTCCAATCGAATCTCCAGAAGGACCAAACATCGGTCTTATTACATCACTAGCTAGTTATGCTAAGATCAATGATTATGGTTTCATTATGACTCCATATAAGAGAGTTAAAGATGGAGTATTACAAGATGAAATAGATTATTTAACTGCTGATGAAGAATTAGATTATGTTATTTCACAAGCTACAATTAAAATTAAAGATAATAAAATAATTGAAGAAGAAGTTACAGCAAGATTTAGAGGAGAAACAATTATCGCTAAAACTAGTGAAATTGATTATATCGACGTTTCTCCACAACAAATCATTTCAGTAACAGCTTCTTGTATCCCATTCCTAGATCACGATGATGCTCACCGTGCACTAATGGGTGCAAACATGCAACGTCAAGCATTACCATTATTAAAAGCTGAAGCTCCATATGTTGGAACTGGCGGCGAATACATGATTGCTAGAGACTCAGGAGTTACTGTAGTTGCTAAAGCTGATGGTGTTGTTGAATACGCTGATGGTAGAAAAATAGTTGTTAAAACTAAAAATGGTTCTGATGTATATTCATTAATGAATTATGAAGGATCAAACAATAACACTTGTTATCACCAAAGACCAATTGTTAAAGCTGGTGATAAAGTTAAAAAAGATATGATAATCGCTGATGGACCAAGTACAGATAAAGGTGAACTTGCTCTTGGTAAAAATATGACTATCGCATTTACTACATTCGATGGTTATAACTACGAAGATGCGATCGTATTAAATGAAAAATTAGTAAAAGATGATGCATTTACATCAATACATATAGAAAGTTTCTCTATTCAATGTAGAGATACTAAGTTAGGACCTGAAGAAATTACTAGAGATATTCCTAATGTATCTGAAGAAACTATTAAGAACTTAGATGCTAACGGAATTATTAGAATAGGTACTGAAGTTAAAGAAAATGATATTCTTGTTGGTAAAGTTACACCAAAGGGAATGGTAGAACTTACATCAGAAGAAAAATTATTACATGCTATCTTTGGTGAAAAGACTAGAGAAGTTAGAGATACTTCACTAAGAGTTCCTAATGGAGCTGCTGGTATAGTTCATGATGTTAAGATCTATACTAAAAAAGATAATGATGAACTACCTAGCGGTGTTAGTAAAGAAATAAGAGTTTATATTATTCAAAAACGTAAGATTCAAGTTGGAGATAAGATGGCTGGTCGTCACGGAAACAAAGGTGTTATTTCACTAGTACTTCCAGAAGAAGATATGCCATACTTACCAGATGGTACTCCAGTTGATATCTGTTTAAACCCACAAGGTGTTCCTTCTCGTATGAACTTAGGACAAGTTCTAGAGTTACACTTAGGTATGGCTGCTAAAACACTAGGTGTTCATTGTTCTACACCAGTATTTGATGGAGCTACAATCGAAGATATCGAAGATATAATGAAAGAAGCTAAACTATCTCCAGATGGTAAAACTGAATTATATGATGGTAGAACAGGAGATAAGTTTGAAAGTAGAGTAGCTGTCGGAGTTATGTACATGATTAAACTTGACCACATGGTTGATGATAAATTACATGCTCGTGCTACCGGACCATACTCACTTGTTACACAACAACCTCTTGGAGGTAAAGCTCAATTTGGTGGTCAAAGATTTGGTGAAATGGAAGTTTGGGCATTATATGCTTATGGTGCTGCTAATATCCTTCAAGAAATCTTAACTATTAAATCAGACGATGTAG
>sequence20
TAAAGTAGGTGTATTTATGAAAAAAAGAATATTTATAGTTATTAGTTGTTTATTAGTATTCTTTACATTAACTAATAGTGTTAATGCACAAAAGGAATACTTTCCAAGTAACATTTTTGAAGATGATGAACAAGGTTATGACTCTTGTATTAAATCAGGGTATTCTGCAAGAGAATGTATTGAAAGATGTAAAAAACAATCATATAATTTAGTATTTGATTGGGATGATCTTGTACCTGGTTTAAAGAGTAATGATATTGCACATATTGAAAAAGTACATATTAATAGTCTTACTGGAGACAAAGATTTTGATGATGATGATATAGAAGATCTTGTAGAAAAAGCTGCCAAAGAAGCAAGCGTTGATGAAGATGAAGTAATATGTGATAATTATGATCCCGATGATGAAATTGTATTATTGGATTTTTTATGTGGAGATCTTAGAGCTATAACATGGAAAAAGGGAATGGACCAGGGAAAAGCTCAAAAAGGATTACTTAGAAAACCAGGTGAAAGGTATCATTATTTTATTTGGTACGGAGAAGGAAAAAAGAATTTACTTCATTGTCAGGATAAGAATGATGATTTTGATTTTGAATGTGATATGAGGGGATCTGCTAATGATTTTGTATTATATTTAGGCAATGAAAAAATAGGCCCACTTAGAAAATTTGATAAAATTTATGATCCAGAAAAGAAAAGCGGTTGGCTTGATGCAGTTATTCAAAAAATAGCAGATTATGGTGAAAAAAAAGATAAAGCATTTGAAAAAGAAATAAAAGTGTGTGTAGATCCAAATTCAGTCAATCTTGAAGATATTTTTGATTTGAAAAAGAAACAAAAATGGATTGATAATCATAGTGTTACAATTAATGGTAAAACTAAAAAGGGTTGTATTAATCTAGGGACAGTTTCATTTGAAAAGGAAAAAAATCCAAAAGCAGAAACAACTACAACGCCTCGTTGTTATTCGTTTTTACATCCTGAAACTTCATTTAAACCTTTCTATAATACTACTGTTTGGACCGATACTAATTTGAATAATAGATGTGGATTTAAGAGTGAAACTTGGAGTAGAAGTAATTGTAAAAACTCTGACCTTCATGAGGTTCATTCAGTTGCGTTTGGAAGAAGTGTAACTTCAAGCAAAGATTGTACTAAGGCAGAAACATATGATCCTGATGATAAAAAATGTTATAGAACAATTAATATTACATATAGTGGTTATAATGGTGTTGCTGATTATTATGAAGCACTTGGAACAAATAAAGAAAACTTTGATCCTCAATGTGAAAACTTCCAAGGATTACATATTATTTATAGAGTTATTGTTATAGCAGCACCTATATTAGTAATATTCTTTGTATCATTTGATTTAGTTAGAACTATTATAGCTGGTGATGAAAAGCAAATGAGTAAATTTAGGTCATCACTAGTTAAAAGAATTGTTGCACTTATATTACTAATATTGATTCCAGTAATAGTAAGAGTATTAGTAGGTACTTTAACTTCCAAGTCTAAATATAATAATGCTAACAAGCCTAATTTGATTAGATGTATGGTTATTGGAAATAATAATTAAAACTTTAGTGAAAACTAAAGTTTTTTTATGTCCATTTATTGACTTTAATATATAAAATTGATATACTTATCTATAGAATAAGAGGTGGCTAGTATGGATATACGCGATGAATTAATTGATACATCAGATTTAGAAATTAAAGAACTAAAAGATTATTATGATGTGTTTGATAATGTAGATTCAAAAATTGAAAACGGTGAAAAAGAAGCAAATTCTAATATAGAAGAAATTAAAAAAGAAAATGAACAAAGACTTCAAAAGGCAGAAGAAGAAGCTAAGAAGATTGAAAATACTAAAAATGAAATCGAAAATTTAAAAGAGAGTTATAAGATTTCATTAAAACAAATATATGATAGCTATCAAGATAAATTAGAAGCCATTAATAAAGCAATTGAAGCATGTTCTACTAATGAAGCATTAAAAGGTGCCCTAGAAGAAGAAAAAGGTCATATGACTAAGGAACTTGATGAAAAGTCTAGTTCTATTAAATCTAAGATTGCTGAATTAACTTCATTCCTTGGTACTACTGAAGAAGTTAAAGAGACTACTAATGAGGTAGAAACTAAAGAAGATGAAGAATCTGATGAAGAAATAGAAAAAATTATTAAATCTATTCAAGAAAAGATTAATAATTTAGAAGAAGAAAGTAAAGTTAAAGAAACTTCTGATGAGGATGATCTTGAGGCAATTATTAGAAGAATAGATGAAAAGATTAACGCATTAAAGGATGATATTAAGAATGAAGAAGAAACTTCAATTAATAATATTCCTGTTAATGAAGAATCTAGTCCTAATGAAATAGTTGAAAAGAATCCGGTAGATGAAGAACAAATTAAAGATATATTATTATCAGAAGAAGTTAATGATAATATTAATGGATATTTAGGGTAGGTGGAATTATGGAAAATATTAAATATAATATAGTTACTCTAAAGAATGGTAATTCATATTTTGTTCTTGAAGAAGTAAGTGATAATTTTGATACATATAATCTTATACTTAATGTAGAAGATGAAAAGGATATTAAAATTGTTATGCAAGAAGTTAAGAATGGTAAAACAGTATTAACAGAAGTAAGAGATTTACTTAATTTATCTTCTTTAAAAGTATTATTTAAGAATAAAATAGAAGAATCAAGAGAAGCTTTAAGATAATATAAGAAATTGTTTAAAAACAATTTCTTTTTTTTATATTTTTATGTATAATAAAAACTTGTTAGAAGAGGTATACATTATGAATATATTAGAGGTATATAATTTAAACTTTTCTTATGATGACAAGGTTATCTTTAATAATATTAATTTAAAGATTAAAGAAGGATCTTTTGTTAATGTTTATGGAAGAAATTCTTCTGGAAAGAGTACTCTTCTTAAATTATTAAGTGGGAGTATTATAACTGAGTCTGATATTAAAGTAGATAAAGTTAAAATTAATAAGTTTAATATGGATGTTATTAATAATAAGATATCTTTTATATCCTCTAATAATAAGTTATTCTCTAAAACAGTATTAGATGAGTTATTACTTGAAAAGAATGATATTACTAATATGGATATATCTATGGCTAGAAAACTATTGGATGATTTTAATTTATCTGATATAGAGAATATATCTCCACTTGATTTATCATATGCTGAAAATGAAATAGTACAAGTAATTAAATTTATGATAAAGAAACCAAGAATATTATTTATAGATAATGCCTTTTCTAGATTTGATTTTGATAAGAAAACAGAAATATTATTATTTATTAAGAAATATGCTTTAAAGAATAAAATAACTGTTATATATGCTACTAATAACTTAGAAGACATCTATTTATTTGATAGAGTTATAGTTCTTAAAAATAAAGAAATATATTTAGATACTGATCCTAAAACTATATTAAATGATGATTCTATATTAAATGTTACTAAGAAGTTACCTTTTATAGAAGAATTATCTAGAAAACTTATGATGTATAATTTAATAAGTAAAAAATATGATGATATTAATGAACTAGCGGAGGACTTATTAAAATGAAATACGAGAATAAAATAATAGCAGTCCTAGGTAATAGTGGATCAGGTAAATCATCATATATTAAGAGTTTAAAGATTAATAAAAAGGTTGGAATAATAAATGATGATACAATTAAATGTAATAGAGTTAAGGATCAGTTATTATATTATGTAAATAAATATAAATATAGATTAGATATTTTAGATGATAGATTTAATGAAATAATTAAAATGCTTAATATAAGTGAATCTATATTAGATAAAGATGTATTTGATATATCAGAATCTGAATATTATAAAGTACTTATAGGAAGTGTACTTCTATATAATCCTGAAGTAATAATATTTGATGATATATTATGTTTCTTTGATGAAGAAAACAAGCAAAAATTATTTAAGTTATCTAATAAATTAAAGAAGTTCTTTAATAAGACTATAATATTTGTTACTTCAGATATAGATTCTGTATATGAATATATAGATATAGCTATAGTTATAGATAATGCTAAAGTATTATTAGAGGGTCCAAAAGAAGATGTATATAAAGAATATAATATACTTAAAAAGAATAGAATTAGAATACCAAATATAATGGAGTTCATTAAATTAATGAGAGATAATAATATTAATATAGATTATGTAGATTCTATTAATGAACTTATTAAAACTATATATAGAGAAATAGGGTGATACTAGTGAGATATTTAATTAGATTTAGTTATGATGGAACGAGTTATAATGGATTTCAAAAACAGAAAAGAGATAAGAATACAATTCAAGGTAAAATAGAAGAAGCATTAAAATATATTAATAATGGAAAAGATACTAAATTAACAGCATCTGGTAGAACAGATAAAGGGGTACATGCAATGGATCAATGTGCTCATACTGATATTGATGTAAATATTACACCATATAAGCTAAAAAGGGCTTTAAATAGCCTTTTAGAGGACGATATACATATTATTAGTGTAGAAGAAGTAAATAATGAGTTTCATGCTAGATATATGGTTAAAAAGAAGACATATATGTATATAATTAATACTGGTGAATATAATCCTGTAAATAGAAATAGTGTATATCAATTATGTAAGAAATTGGATATTAATAAAATGAATAGTACTATTAAAGATTTTATAGGTAAACATGATTTTTCTTCTTTTTGTTCTAATGAAGATAAGAAAGAAGATTGTAATAAAGAAATATATGATGCATATATAAAAGAAGAAGGAGATCTTATATTTATATATTTTACTGGTAATGGTTTTCTTAAATACATGGTTAGAACTATGGTAGGATACTTAATAGAAATAGGCCTTAATAAAAGAGATAATGATATAAAAGAAAGGTTTAAATTATCTAAAAGAGAAAAGATTAGAACTGCTAATCCAGAAGGATTATATTTATATAAAGTAGAATATTAATTAGAATTATGTTATAATGAAAAAGGTGATATAAATGAACAACAGAAAACAAATGCTTAAGAATTTAAAAAAAGAAAAGAAATTAAGAAATAGTCATATAGAAGATAATGAAAATATTATAGGAAGATTTATAGGTACTATATTTGGAGTATTATTATTCTTAGTAGTAGGTTATCTTTTAGTAGGTATTTTCTTTACTAAAACAATTAAGTTTGGTAAAGAAGAAAAAGAAAAAACTGAAGTAACAATAGATAATAGTACTATTCTTATAGGTAATTCATTAAAACAAAAAGAAGAAGAATATATAGTAGTTATATATGATATTAATAATAGTGATGATAAGACTATTAGTAACTGGTTAAGTTTATATAAAACAAATCATAGTGATGCTACTGTTTATAGTGTAGATAGTAAAAATAAAATGAATTCTAAATATATAGTAGAAAAGGATTCTAATAAAGAAGCTAAATCTTTAGAAGAATTAAAAGTAATAGCTCCTACTGTTTTAAAAGTAAATAATGGTAGTATTACTGAATATTATGAAGGTGAAACTTCAGTAAAAGAAATGTTAAAAAAATAAGAGACTGGTACTAACAGTCTTTTTTTATGTTATAATTATAATGTGGTGATTAAAATGGAAGACGATAATAGTAAAATAATTAATCTTAGTAAGTATGCTATTGTTTCACTAATATCTTTATTAGTAGGAGCTCTTCTTATGTATTTATACTTTAATAGTGGTTATACAAGAGTTTTAACAAATAATAATAAATATAGAATATTAGATGAAGTAACAGATATATTAAATAAGAATTATTATAAAGAAATAGATCAAGATAAATTAATAGATGGAGCTATTTCAGGATTAGTAGATTCTATAGGAGATAAACATACATCATATTTTACTCCAAAGGAAGCTAAAGATTTTAAAGAAAGCTTATCTGATTCATATTATGGTATAGGAGCAGTTATATTTAAATCTAAAGATGAAGAAATTACTGTTAAAAGGGTATTTGATGATAGCCCTGCTAAAAAGGCTGGTATTCAAATAGGAGACGTAATATTAAGTATAGATGGTAAATCTACTGAAGGTATGAAGGTAGATGAAGTAGCAAATACTTTAAAGAGTAATAAAGCAAGTAAAGCCACTCTTAAAATAAGAAGAAATGGTGAAGAGTTAACTTTAGAAATAACTAAGTCTACAGTACCTTTAAAAAGTGTTAGTTATGAGATGCTTGATGGTAATATAGGATATGTTATTGTAGATATGTTTGGGGAAAGTACTTATGCTGAATTTACATCTGCTTTAAATGATTTAGAGAGTAAAGGTATGAAGTCTTTAATAATAGACCTTAGAGATAATGGTGGAGGTTATTTATCCACAGTATTATATATGGCATCTGAGTTTATGGATTCTTCCAAGGTAATACTTCAAACAAGAGAATCAGAAGATGTAGAGCCAAAACTATATCATTCAATTAATAATAATACTAAGAATTATAAAGTAGTAGTATTAATTAACGAAAATAGTGCTTCAGCATCTGAAATAATGACAGCTGCTCTAAAAGAACAATATGGAGCTACTATAGTAGGTAAAAAATCATATGGTAAAGGAACTGTTCAATTAACTAAAGATTTATCTAATGGTGGTATGATTAAATATACTACTGAAGAATGGTTAACATCTAATGGTAATAGTATTAATGATGTAGGTATAGAACCAGATGTAGAAGTAGATTTAGGTGAAGAATATCTAAATGATCCATTAGATAAGAATAATGATGCACAATTACAAAAGGCAATAGAAGTAATAAAATAAAAGGTTTAACCTTTTATTTTTTTTATAAATAATGTATAATCAAAGAAGTGATGAGAGATGAATGATAAAAAATATGTAATTCATGGTTATAAACATGATGGAACTTTATATAAAATTTGGGATGAAGCTATTCTATTAGAAGAAACAGATGATTACTATGTATTTGGTAATAGTGGAACTAAAGTAAGAAAGAACTATGGAAGTAGTTGGACTACTAGAGAAACTGCAATACTAGTTTATTATAAAAAGAACTGGTTTAATATAGTTGCTCAGTTAAAAAGAAATGGTATACATTATTACTGTAATATAGCATCTCCTGCAATAATAGAAGACGATGCAATTAAGTTTATTGATTATGATTTAGATCTTAGAATATATCCAGATGGTAAATATAAGATATTAGATAGAGATGAATTTGAAGTTA
>sequence21
TTATCTTCTATTCTAAGTAAACTTCTAGCATGTCTTTCAGATATTTTATTATTTAATAAAGCATCTTGAACTTTAGGACTAAGATTTAATAATCTAAGTTTATTAGAAATAGTTGCTTGAGTTTTACCCATACGAGTAGCTAATTGTTCTTGAGTTAAATATCCTCTTTCAAGAAGTTTCTTATATGATTTAGCTTCTTCAATTGGAGATAAATCTTTTCTTTGAATATTTTCTACTATTGCTACTTCAGCAGACTCATTATCATTTAAATCTATAGTAACAGCAGGTACTTTATGTAATCCTGCTATATAAGCTGCTTTATATCTTCTTTCACCAGCAATAATTTCATATTTATTACCAATTCTTCTTAATACTAGGGGTTGTATTATTCCATGTTCTTTAATAGATTTAGCAAGTTCATTTAAAGCACCTTCATCAAATGCTAGTCTTGGTTGGAACCTATTAGGAATAATATCATCTAAAGCTACTTCAATAACTTCTTTATCTAATGTATTTATCATGACAAACACCTCTTTATTCTAAATATAATAATACTATAAAAGACCATTTATTTCAATGGTCTTTTTTTAATTTGATCAAAGTTTCTAGGATATATTCTTTTATTCTTTCCTAGTTTCTTAATCTTAACTAAATTTCTAATTGAATTTTCTATTGGTAATTCAAAACTAATTACGTCTTCTAATCTAGATTCTAGAAGTTCTATTGCTTTCGTAGAATCTTTTACTTCGTCATCTAAGTTTGCTTTCATGGCAACAAAGTAACCATTTACTTTTACCATAGGCATACAGATTTCTACTAAAGTATTTAGTTTAGAAACTGCTCTAGATACTACTAAATCATATTTTTCTCTATGTCTTTTAGCATAATCTTCTCCTCTAGTATGAATAACTTCTATATCAGTAAGTTCTAATTCTTTAATTACTTTGTTTAAGAAGTTACATCTTTTCTCTAAAGCATCTACTAGAGTAATCTTTAGATTTGGAAAGCAAATCTTTAGAACGATTCCAGGAAATCCAGCTCCTGTACCGAAGTCTAAAACACTTAATTCTTGGTTTAAATCAATTGCTTTTATTAAAGTTAAAGAATCATAGAAGTGTTTTAAATAGAAATCTTCTCTTTCAGTAATTCTAGTTAAATTAATTTTTTCATTTTCTTCGATTACTAGTTCATAGTATCTATGTAATTTCTTACCTTGATTCTTAGTTAAAGTAATACCTATTTCACTTAGTAATTCTCTTAATTTATCTATTGTCATTGAAATACCTCTTCATATATACAGATAATATAGATATATCTGATGGATTAACACCACTTATTCTTAATGCTTGTCCTAAAGATAATGGTCTAACTTCTTTTAGTTTAATTCTAGCTTCTGATGCTAAGTTTGGAACATCATCATAATTGATATTCTCAGGAATCTTTTTATCCTCTAATTTACGCATCTTTTCAGCTTCTTTTCTTGCTTTCTTGATATATCCTTCATATTTGATTATTATTTCTGCTTGTTCTAATTCTAAATAGTCATATTTAGTAGATAATTTATCTTCTATTTCAAATATAGAGTTTTCAACTCTCTTAACATAATCAAATGCTGTCATTTTCTTATCTGCTTTAATAGTTAATTCTTTTAACTCTTCGATAATTTTATTGATATTTTCTTCTTTTTTAACTAATTTATTATATTGTCTCTTATTAATAAGACCTACTTCATATCCATGTTTTCTAAGTCTTAAATCAGCATTATCACTTCTAAGAAGAAGTCTATATTCAGCTCTTGATGTTAGTAATCTATATGGATCTCTAACTCCCTTAGTTACTAAATCATCTATTAATACACCAATATATGCTTCATCTCTTCCAAGTATTAATGGTTCTTTATTCTCTATTTTTAATGAAGCATTAATACCTGCCATTAAACCTTGGCAAGCAGCTTCTTCATAACCACTAGTACCATTAATTTGTCCTGCTGTATAAAGATTTTCTATTATTTTTGTTTCTAATGATGGATAAAGGTCTCTTGGATCTATTGCATCATACTCAATAGCATACGCATATCTAAGTATTTTTGCATTTTCTAATCCTGGTAAAGAATGAACCATCTTTTCTTGTACATCATGAGGCATACTTGTTGAAAATCCTTGAACATATATATCATCAAAGTATCTTGATTCTGGTTCTAGGAATAATTGATGTCTTTCTTTATCTTTAAATCTAACTACTTTATCTTCGATAGATGGACAGTATCTTGGCCCTGTACCTAATTTTTCTTGAATAGCACCATACATACTAGATTTATCTAGGTTATCCATTATTATTTTATGAGTTTCTCCTGTTGTATAAGTTAAATAACATGGTTCTTGTTCATCTAATTTATAATATGGTTTATCATCAAATGAGAATGTATAGTATTTATCATCTCCAGGTTCCATCTTAGTCTTAGAGAAATCTATTGTATCCCTCCTAATTCTAGGAGGAGTACCTGTTTTTAGTCTTAGTATTTTAAATCCTAGTTTTTCTAAGTTATCACTTAAGAAAAGTGAAGGTCTAGTTCCAGCAGGTCCAGATACAGTTCTTGTATCCCCTACTAAGATATTAGCTTTCATATAAGTACCTGTTGTTAATATTACTGCTTTAGCATTAATAATATCACCATTAGATAACTTAACTGCTTTAATAGTATTATCTTCTACTATTAGGTCTTCTACTAAGTCCTCTACTATATCTATATTTTTATGTTTTTTTAATTCTTCTTGCATTAATTTTGGATAAGCAACTTTATCTGCTTGAGCTCTAAGAGATCTAACAGCAGGTCCTTTACTAAAATTAAGCATTTTCATTTGAAGTAAAGTCTTATCTGCAACTTTACCCATTACACCACCAAGGGCATCTATTTCTCTTACTACGATACCTTTAGCAGATCCTCCAATGTGTGGATTACATGGCATCATAGCTATTTTATCAATAGATCCTGTAACTAATAATGTTTTATGTCCTTTATTAGCAGATGCAAAAGCTGCTTCACAACCTGCATGTCCACCACCTACGACAATAACTTCATAGTCCATGAATCCACCTCCTTTTTTTAAAGCAAAAGTATTATACTACAATATTTATATTATATCAAATAAAAAGAGCATTAGCTCTTTTTTATTCCCATACAAATGAATTTGCTATATATTCAGCAGCTTCTATAACACTATCTTCATATTCTGATTCAAATATAGTTGCATATATCATTACATATTTATGATCACCCATAATATAATATTGAATTGCTTTTTGATCTTTAGCTTCCATATTAAATCTAAGTAATGGATAACCATTAGTTGTGGTAGAACCACTAGATGTTAAAGTAGCATTATATGCTTTAGCTTGATATGCCATTTGTTGCATTATAGCATTTTTAAAAGTATCTACTTGATCTATTGAATAGTAATTAGTTCCACCATTAACAGATATATTATTTGGTCTAGAAGAATGTTCATCTTTTTTATCTACAAAGAATGGTTTTTCTTTAGTAGAATGGTCTTCCCTCATCATATAGTTTTCACTTATAGAAAATGATCCATAATTATCTAATTTATATGTTTTTTCTTTATTTTTACTATTAGTTAAACTACAACCAGTTACTAACAATAATATTCCTAATATAACTAATATCTTTTTCATTTATGACTCCTAAAATATTTTATTTAAAGACTTATCATTCTTATAAACATCATCTTGATGTATTTGATAGTATAAACTAGTTATTTCAGGACAATCTAAATTATGTTCTTCTATAACTTTATATGCAGAATCTAAAGCATTTAACCCCTCTATTGTCATACCTACTTCATTCTTTATTTCTTCTAATTTTTTACCTTTTCCAAGAAGTATTCCACATTTAAGATTTCTACTATCTAAACTACCAACAGTAGTTAATAAATCTCCTAAACCAGAAAATCCAAGGAATGTTTCAGGTTTAGCTCCTAAAGCTGTACCAATTGAAATCATTTCTCTAAATGCCTTTGATAAATATGCAGATGTTGTATTTGTATCTTGATTAAGTCCATGAGCTTTACCATATCCTATTGCTATGATATTCTTTAAGGCTGCTCCTAATTGCATACCTAAAGGATCATTACAATCTTCTAATGTAATATAATTATTTTGAAATACTCTTTTATATTCTTCAGGTCCATAATAATCAAAATATGTTGGTTTTTCAACATAAATTTGTTCAGCATGTGAAGGTCCTGATATAACACCTATTTCTCTATTTAATTCTTCTTTAGCAACTTCTGATAATACTTTATCTCCCTCTAATCCTTTAGAAGCTATTATTACTTGTTGATTACCAATAGTTTGAGCTATCTCTTTACAAGTATTTCTAACAGCAAATGAAGGAGTAACAATTAATATCAAATCTGTATCTTTAATTGCTTCTTCAATTGAAGTAGTACATTTAACATCTTCATTAATATGTCCTTGTATATATCTACAATAATGATATTCATTTATTGCTTCTTTTTCTTCTTCTGAAAAAGACCAAATTTTAACTTCATGTCCATTTTCTTTAATTAAATTTGCAAGAACACATCCAAAACTTCCACTTCCTATAACGGCTACTCTACTCATATTACCTACTTTCCTAGACAGAAGTTTGCAAATAATCTATCAATTAGCTTATCATCATAACTTTCGCCTATAATTTCATTTAATGTTTCACATATTTCTTTTATATCTATTTCAAGTATATCAATTGGAATACCACTATTAAATGATTCCATTAAGTGATTATTAATTGATATAGCTTTCTTAACTAATGATATTTGTCTACTATTAGATAAATATGTTAGTTCTTTATTATTTAATTCTTCTAGATTATATAAATCAGATATCTTATCTTTTAGAATATCTATATCTTTAGTAGCACTTACCTTTACTACATCTAATCCTGTTGTATCTAATTTAGTTTCTAGATCTATTTTATTAACCACAATTATTCTCTTTTTATCTTTTGTAATCTCTAATAGTTTCTTATCTTCTTCTGTTAGAGGTTCATTATTATTTAATACTAATATTATTAGGTTAGCATCTTTAATTAAGTTTAATGATTTCTCTACACCTATCTTTTCTACTACATCTTCAGTCTCTCTAATACCTGCAGTATCTATAATATTTAGTAAAACACCGCCTACTCTAATTTGTCCTTCTACAATATCTCTAGTTGTTCCAGCTATATCAGTAACTATTGCTTTATCCTCATTAATTAGTTTATTCAGTATAGAACTCTTCCCGACGTTCGGTCTACCTAATATTAATGTATTTATACCCTCTTTTATGATTTTTCCATTCTCAGATTCAGTTAAAAGTTTCTTTAACTTCTCATCTATGAATTTAGATACTTCTTGTATCTGACTTTCAGTCATAACTTCTATATCTTCATACTCTGGATAATCAATATTAACTTCTATATTTGAATTTATATCATATAACTTGTCTACTATTTCATGAATAAGATTAGATATCTTACCTTCAATACCATTCATAGCAAGTTTTCTAGCATTTTCTGTTTTAGCATCTATCATATCCATAACAGATTCAGCTTCTACTAGATCTATTCTTCCATTTAAGAATGCTCTTTTAGTAAATTCTCCAGGTTCAGCTAGTCTTGCACCATTAGTTAATAATAATTCTAATATCTTATTGGTAGAACTAATACCACCATGACAATTTATTTCTACTATATCCTCTTTTGTAAATGTTTTAGGAGCCTTCATAATAGATACCATTACTTCATCTATTATTTCATTTCCATCTACTATATGACCGTAATTAATTGTATGACTATCCATTTTAGTTAGATCTCTATCAAATATCTTATTAACAATACTAATAGCATCTTCTCCACTAACTCTAACTATTGATATAGCCCCTACTCCAACAGCAGTTGAAATAGCACAAATAGTGTCGTTCATGATATCCCTCCTTTTTTTGATTTACTTATTATAACTCTAAATAGTTTTTTTGACTACAATATCCTATTATAATAATACCATTTTTATTTATATAATAGTTAAATAATAACTAAATTTAACATTAATAGTGTAAAAAAAACAATCTTTCGATTGTTTTATTCTACTGGTTTAATAACTACTGCTCTGTTTGGTTCTTCCCCTTCACTTTCAGTAGTAATACCTTTGAAGTCTTTTAATACTTCATGTATTAATCTTCTTTCATAAGAGTTCATAGAATCCATTCTAACTGGTTCTTTAGTCTTTTGAACTTCTTTAGCTAAATTCTTAGCTAGTCTTTCTATATGTTTTTGACTCTTTTCTTTATAGTTTTCAACATCTAGAATTATATTTATATGCATACCAGTTTCTTTTGTTAAAACTGCTCTTAAAACATTTTGAATTGATGAAAGTGTTCTTCCTTCTTTACCAATTAATATAGAACTATTATCTGGATGAAGAATAATCTTTAAATAGTTATCTTTTCTAAGTGTTTCAAAGTTAACTTTTAATCCCATTCCTTCAACTAATGTCTTTAAATATTCTTTAGAGAATGCTAATACATCACTTTTTAATACAACATTTAATGTATATTTTTTCTTTT
>sequence22
ATATTTATGATATAATTATTTTTGTACTGGATGGACCCTTAGCTCAGTTGGTAGAGCAACTGACTCTTAATCAGTGGGTCTAGGGTTCGAATCCCTAAGGGTCCACCATTTATTTTTTTAATTTTTCTATTGACTAATAGATTTAAATAAGGTAGAATTATAAAGCAATGGGGAAGCTTATTATGGACCTATAGCTCAGCTGGTTAGAGTGCACGCCTGATAAGCGTGAGGTCGATGGTTCAAGTCCATCTAGGTCCACCATTTATATTTGGCCTATTGGTGAAGTGGCTTAACACACCGCCCTTTCACGGCGGCATTCATGGGTTCGAATCCCGTATAGGTCACCATATGAAAATAACTAACATTTATGTTAGTTTTTTTATTGCTTTTATTCTTATAAAATGTTAAAATTAAGTAGTCAGCTGGAGTGGTACTCAAGAGGCTGAAGAGGCGTCCCTGCTAAGGATGTAGACCGGGTAACTGGTGCGAGGGTTCAAATCCCTCCCACTCCGCCATATAAAAATAACTAGTCATTTGACTAGTTTTTTTATTATAAAAAAACAAGAATTAATATAATTCTTGTTTAAACTTATCTATATTTTCATTCATAATAGATATATAATCTTTACCATCATTTTTATCTTCAGTAGAGATATTACTTAAATTATCTATTTCTACTACTGTTAATGATGAATTGTCTTCTAATAACTTTTTAACTGTTTCTGATTTTTCTTCACCTTTAAACATATAAATATATTTTACTGATCCCCCAGAAATAGCTTTTTTTGCATCACTTAATGTTTTATCATTAAGTGTTTTCTCATCTAGAGAGTATACTGTTAAACCATATTTACTTAAGAAGTTTAATTTATCTGTAGAAGTAACCATTACTTTATCATTACTGTTTTCTACCATTTCTTTAAGTTCTGCATCTATAGTAGATATTTCAACTTTTAAAGATTCATAGTTTTCATTTATTTCTTCTGAAACTAGAGTAGAAGTAATATATTCATTTAATCCATCTTTAATATTTTTAGATATCTTTAATAGATTAGATGGATTAATCCATATTTCATCAATACTAGATGTATATTCTATTTTGGAAGTAGAATCTATGATTTTTAGTTTATTATTCTTATTAATCATTTTTACAATATATTTTTGTTCATTAGAAAGACCATTGTAAATAATTAAATCAGATTCAGCATAATCAGATACTTGTTTATCTGTTAATTTATATTTGTTAGAGTCTATTCCTTGAGGATACATATTAAATATTTTAGAATGATCTCCATATAATTTATTTGTTACAAATTCTATTGGATAAGAACTTGTATATATAGTTATATTATCCATATTGTTTATTTGAGAACATCCTGTAATAAGTAAACCTGTAATTAATAAACCCACTGATAATAATATTTTTTTCATTTTTCCTCCTTATTTGGTACAGGATCATATCCAAATTTTTTATTCCATGGTGTACATCTAAATAATCTTTTAATTGTTAAATATGTTCCTTTAAAAAAACCAAATCTTTCATATGATATTTTAGAATACTCTGAACAAGTAGGTGTAAACCTACATGAGTTATGAAAATTACCTGGTATCTTTTGATATATATTGATTAATCCTATCATAACGTGTTTCATATATTCACCAAATTAATTTTATCATAAAAAAAAACATGTATCAATTGTTTTTGAAATATGGTATAATTAAGAATAGTAGAGGTAGGTGGTATGTGTGAATAAAAATGATGGTTTAACTACAGGGAAAAAAGCCGTCATTATTTCATTACTTTCTGTTATAGCAGTATTACTATTAGTTGTTGCAATAGTTCTTCCAACATCTTCAAAAAGAAGAGTAGTTAATAGTAGAACTATTATGATTTTTATGGCCGGTAATAATCTTGAAACTAATAATGCTATAGCATCCTCAGATTTAAGTAAAATAATACCTGAATCAATAGATTTAGATAAAACTAAAGTTTTACTCTATACTGGAGGAACAAAAAGATGGCATAACTTTGTTAGTTCAGAAGAAGAAGCAATATATGAATTAACAAATAATGGTTTTGTTAAATTACAAACATTTACAAAGAGTAATATGGGTTATGATGCAGCGTTAGCACAGTTTTTAAACTATAGTTATAACTATTCTAAAACTGATGGATATGACTTAATATTCTGGGATCATGGTCTTGGAGCACTTGGTAGTATATCAGATGAAAATACTAATGATTTCTTAGATTTATCTGAAATAAAGACTGCATTTGAAAGAAGCCCATTTAATGAAAATAATAAATTAGAAACTGTAGTATTTAGAACATGTTTAAATGCTACTTTAGAAGTAGCTAGTACTATATATCCATATGCTGATTATATGGTTGCTTCTGAAGAAACTACTATTGGTGCTAATGGATATGGAGTTCTAGATTTCATTAATAATGTTACTGTTGATAATGATGGATTAGAATATGGTAAAACATTTATTGCATCATATCAAAATCAAATAGAAGCATTAAAATTCTATGGTGAAACAGTATCTTCTTATTCTGTAGTAGATTTAAGTAAAATACCAGAATTATTAAATGAAGTAGATGATTTCTTTGGAACTATAGATGTTAATTCTAATTATAATGAACTTGCTAGAATGAGAAGTAGTATGTATCAATATGGTGAATCTGAACCTGGTGTATCTGATTATGATACAGTAGATTTATATGAATTAATTGATAATTTAAAGAAATATAATACAAAGGGTGCTGAAAAGATTCAAAAGACTTTAAAAAATGATGTAGTAGTATTTAATTGGGCTACTACTGAACATTCTAATGGATTATCTATATATTATCCTTTCTCAGGAAGAACAACTGCTAAAGCATTACATTTTGCATTATATGATAAGATTAATGTAAGTAATAATTATAAGAAGTTTATAACAGACTTTGATAATGGACAAACATCTTCTAGTTATACATTCTCATTTGATTTATCTAAGAATGAAACTAGTCATAAAGGTGATGAATTTAAATTAAAATTAAATAAAGAACAAATAGAAAATTTTGGTAGTGCATCATATATTATTTTTAAGAAGAATGATGATGGGACATTTACTAATATTTATGTAGGAAAAGATGCTAAATTAGATGATGATGGCTATGTAACTACAAATATATCAAATAATTTAATAACTATAGTAGATGATAATGATAAATCAAAATCATATCCTATAGTATGGCAAGCAGAATCTGCTAGTAAAGATTATAGAGAATATATTATTCCTGTAACTTTAAATAGAACTAATGATGAAGGTTGGCCAATACTTGAAAATGCAAATATTCATTTAAAAGTAGATAAAAAGAATAAAGCACATATTTCTGAAGTATTACTTCAAGAAAAAGGTGATGATATTAATAAAGCTAGTGGTACTCACGTAGACTTAAAGAATTATTCATCTATTGACTTCTATTTATTTAGATATAATATTTTAGATAGTAATGGAAATTATACTTCTGAATGGACAAGTAATAATACATTATATATGTTTGAAGTAAATGATAATAAATATCATTTTGAAGTAACATCAATTGATAATAAAGAAGATTATTATTGTGTCTTTGTTATTAAAGATGTTCAAAATAAAGGTTATTATTCAAATCTAATTAGTATGAAATAAGGAGGAATTAAAATGTTTTGTAAGAATTGTGGAAATGAATTAAATAATAATGATAAATTTTGTAAGAATTGTGGATCTACTAATGATCAATATGTAGAGACTCCTGTAGTAGAAGAACCTACAGATAATACTTTTATGAACACTCAACCATTTTCAATAGATGAGGTTGCTCAAAAAGTAGAAGAAAATAAAGAAGCAGAAATGAGTACTCCAGTAGTAGAAACTCCTACAGTTGAAGAACCTATAGCAGCTACTTCAGTTGAACCAGCAGTTGAAGTTCCAACTGAACCTGTAGTTGAAGCTCCAGCACCAACTATTAGTTCTACACCAATAGAGCCTGTTATTAATACTCCTCAAAAGAAGAGTAATGTTGGATTTATAATTATATTAATTACACTTATTGTAATTATTCTTGGACTTGGTGGTTTTATAGGATATAAATTATTTAGTGGTAAAACTGATACTCCAACTGTAACACCATCAAATAATAATCAAAATAATAATAATAATAATCAAAACAATAATCAAAATAATAATCAAAATAATAATAACAATAATAATACTCAAAAAGATGAAACATATTCTACAGTAGGTTATACTTTTACTATACCAACTGGATATAGTAAAATTGATGAAGGTGGATCTATTAGAGTTGGTGATTCTAAATTCCAATTTAGAGTTATGACTACTATTACTCAATATACATATGCAAATTATAAAAGTGATTTAGAAGCTTCAGCAAATGAAATTAAAAAAGTTTGGGGAGCAGATGGAGCTTCATATATTAGTTCTTCTGAACAAACTTATAATGGAAAGAATTTCTTAATATTCTCATTTGTATATCAAGGAACTTATAATGATGCTATTTTAACAGAACTTCCAGATGGAACATTATTATGTGTAGTTGCTTATTATAATGATTTATCTTCTAAAACTGAAGGATATAATAATTTAGCTAAATTTGTTAAATCTGCTGTTAAAGATACTAACTCATCTTTCTCAGGAGATTCAAAAGTAGAATTTAAATCTTCATCTATAGAAAAAATAGATTAGTCTTACTTATGTAAGACTTTTTTTTATTATATTTTTATGATAAAATTGTTTTAGGTGATTTAAATGAATACATTTGAAAAATATAATATTGATATTAATAATAAGTTATATGAACAAGCATTTACTCATTCTAGTTATGCTAATGAAAATGATACCGTAGATTATGAAAGATTAGAGTTTCTAGGAGACAAAATATTAGACTTTATAGTATCAGAATACCTATATGTTAATGAAAACTTAGAAGAAGGAGAAATGACTAAATTAAGGGCTTCTTATGTTTGTGAAAATGCTCTAAATGAGTATTCTAAAGAACTAGGTTTAGATGAATATCTAAAACTAGGTAAAGGAGAAGAAAGTACTGGTGGTAGAAGTAAACCATCTATAATAGCAGATCTATTTGAAGCTTTCTTAGCAGCTACTTATTTAAATTATGGTTTAGATAAAGTAAAAGAAATAGTTTATGATATAGTTATTCCATTTATAGAAGGTAATCATCATGAATTTTTAAAAGATTATAAATCTATTCTTCAAGAATATGTTCAAACAGATAAAAAATCTACTGTATATGAAGTAATTAATGAAGAAGGACCTGCTAATGAAAAAATATTTACTGTTACTGTTAAAGTAGATGATATAGTTTTAGGAACAGGTACAGCATCTTCTAAGAAAGAAGCAGAACAATTAGCAGCTAAAGATGCATTAAATAAAGCAAATTAGAACATATTGTTCTTTTTTTTTATTGTTTTATATGGTACAATATTACTTAGTTAAATGATAGATAGGCGATGAAGTATGTATTTAAAAAGTTTAAAGGCAATAGGATTTAAATCGTTTTGTGAACCAATAACTATGGATTTTACTGATAAAATATCAGGAGTTGTAGGTCCAAATGGTTCTGGTAAAAGTAATGTAGTAGATGCTGTTAGATGGGTTCTAGGAGAACAATCAGTTAAATCTCTTAGAGGTGAAGGATCTATGAGTGATGTTATCTTCTCTGGATCTAAATCTAGAAAAGCTTCTAATTATGCATCAGTTACTTTAATATTTGATAATACTGATAGATATTTAGCTTTTGATAAAGATGAATTAGAGATTAAAAGAACAATTTATAAAACTGGAGAAAATG
>sequence23
CAATAATAGAGTCTTTACCACCAGCATTAAAACCTGTTGTTTCTAAGTCGAATACTACAAATGTAGTATCTTTTAAATCTTCATCTGAGGCCCTTACTACTATATCTACATTATCATCAACCATTACTAGTTCAGCACCATATATAACTTTAAATGGTTCTTCACCTTCAGCTAGTTCTTTATTCATACCTCTAACTAAATTAAATGCATTAGGGAATGCTTGTACTCCATCATGATCTGTAACTGCTATTCCTCTATGCCCCCATTTCTTAGCTTGTTTAATTATATCTTCAATTGAAGATACTCCATCCATTTGAGACATAATTGAGTGAGTATGTAGTTCTACTCTTTTTTCTTCAGCTTCATCAGTTATTTCTACATCTTTAGATGGTATTTCTACCATGTTATATGCACTAAGTACATAATCTCTAGAATATTCATCAAACTTAACATTACCAGATAATCTATACCATTTACCTTCTTTTATTTTAGAAGCTACTGTATCAAAATCATCTTTATCTTTAAAAAATATTTTTGTATATAAACTATCAGTATAATCAGTTAGTTTTAATGTGATTATTTTAAAACTTGTTTTAGGGGATTCAAATAACTCTTTACCAAACACTTTGGCTTCTACCATAACATCTTCTTTATCAGAATATATTTCATTTAGAGGAGTTATTTTACCTACTATATTAGTACCTAATATTGCATCTACTTCTTTAGATGCTTTAGCAGACTTCATAGGTCCTTTTTTCTTATCATCTTTCTTTTCTTCTTTCTTTTCTATAGGTTTACCATCATACTTTATTTCTTCTTTACCTATAGAAGACTTACTATCTAAAAGAACATCTAATTTAATATTAAAACCTATTTGTCTATATTTATTTTCTATGTCTTCTAATTTATTTTTAATTGTATTTTCTTGTGACTTATTATCTACTTCAATGAATAATCCATCTGTAGTATAAGATATCTTCTTATCTACAAATAATTGAAGTACTGCTTTACTAAGTCCAATATTACTAATAACATATGAATAATATTCATCAATTAATAGATTATTCTCTTTTTCAGGAACAATAGTATATGTAACACTATTTAATTCAGGAAATCCTTTTGAAATATTCTTATCTATTTCTTTTAAGACTTCTACTGGAAGATAATCTTTTGTTTGAATAATAAAATTCCAATTTAGTTTATCTTTAGATGATTTAATCTTTAATATTTTCGCATCAGAAAAAGAATCAAAATATTTTTGATTTAAACTAATCTTATCTAAAAATAATTTAAGCTTATTATCCATATATCATCATTCTTTCACTATTTTTTATTATAACAATTATTCAATAATAATTAAATAAAAAAAAGAGGAAAACTTAATTAATTTTCCTCTTTATTCTCTTCTTCTTTTTCTTCTTTAACTTCTTCTTTAGTTTCTGGTTTCTTACCATCATCTTTTTTAGATACATACTTCTTAGCAAGTATAATTAATCCAACAGAAACTACTATTAAGGCTACACCTATAACTGGTCTATATACTAGCCATGCAATTGCAATAACAACTAATGAAATAGCAATACCTACTGTTGATGAAACAACACCAATTGCACCATTAACAATCTTACCTAAGAATGGAATATAACCAATTAATGTAGTTAATGGACTAAGTATCATAGACATACCCATGCATACTAATATTGCACCAAGTATTCTCCACATCCATTTACTAAACTTATTTCCTGATTCAATCGAATTAATTAAATAATTTCCATCATGTTCACCTTTTTCAAGTCTAACAATTGTTGAATTCTTCTTAGTAGTATATTCACCAATCTTACTACCAGTTTGTTTACCAAGAACAGTTACATCATCATATTCACCATATGTAAATGAAATTCTAATATCACCAACTTCTGGATTTTCTACATCTTTAGAATTAGTAATATATTTACCATTTACTGTATATCCTTCAGGAAGTGCAACTCCTGGTTCTAGATTTAATAAATCTTTTTCAGCACTTAGTTTACCTTTAAATACGCTAGCTAAATCATATGCTCCAACTTTTAATGAATCAACTAAATACTTTTCTGAATCATATGGCATATAAGTTGGATTTGTATGATCTGAAGATTTTTTAAAGTTAGATGAATCTACAACTTTTTCAGACCATTCTTTTGAATATGAATATGTAGTTTCTTCATCTTTAGTTTCAGAAGTTTCTATCCATTCATACATTTCAACAGTTCTTTTAAGTATTGGAGTTTTAACACTAATACCAAAAGTACTATCAACTAAATATGAATCCCCATAATTTAGTTTTCCATAAGTAGCAATAAGCTTGCCCTCATAATCACTATTTACTTCTTCTGAAGAAATAGTTTTTATGTTTTCTCTCATTTCTTTAACATCTTTGATGTTAATAACATTTTTCTTTTCATTATTCCATAACATCATACAACCGAAGATTACAATTACAATACCTAATGGAATAGATGCAAAAGAATTTCCCATTTTTCCAAAGAAACCTTGTTTCTTGTTTTTGACAGTATATGTATCTGCCATAAATTATCACCTCATTTTAAATATAACATTTTATTTTACATTTTAAAAGTAAAATTTGTGAAAAGTTTACAATATTAAATCATTGTACTCTTCTTCACTAATAATTGTTATACCAAGTTCTTTAGCTTTATCATATTTAGAGCCTGGATTTTCTCCTACTAAAACATAGTCTGTTTTCTTAGTAACAGATCCTGTTACATTAGCGCCAAGGCTTTCTAATACTTCTTTATATTCATCTCTTGGTTTAGATAATGTACCAGTTATAACAAATGTTTTGCCAAATACTTTTGATTTAGTATTTACTTCTTTACCTAAGTAATTAGTATTTACTCCAATATCTTTTAATTTATTAATAATAGTTATATTCTTTTCATCACTAAAGTAATCTACTATACTTTTAGCAATTATATCTCCTACATCATTAATATCTTTTAATTCATCATATAAAGCTTCTTTTAAACTATCAAGTGTTTTATAATGTATAGCAAGTATTTTAGCAGTCTTTTTACCAACATATCTAATACCTAAAGCAAATAATAATCTTTCTAAAGAATTAGATTTACTGTTTTCAATTGAATCAAGTAAATTAGTAATACTCTTTTCTCCAAAACCTTCCATAGACATTAAATCTTTTTTATGTTTATCTAAATGATAAAGATCTGTTACATCTTTAATAAATCCTTCATTGTAGAAGTCTTCTACTATTCTTTCACCAAATCCATCTATGTTCATAGCATCTCTACTAACAAAATGTTCTATAGATTCTATATGTCTTGCACTACAGTGTTCATTAACACAGTAGTGATTAGCATCTTTCTTAACTAGTTTACTACCACATATTGGACAAGTATCTATCATAACAGTTTTAGGTAAATTATTTTCTCTTCTATCTAGGACTACTTCTACTACTTCAGGAATAACATCTCCTGCTTTTCTAATAGAAATAATATCTCCTACTCTAATATCTTTTGCTTCTATATAATCAAAGTTATGAAGAGTAGCTTTAGATACTAAAGAACCATCTACGTGAACTGGATTAAATATAGCATTAGGTGTTACCTTACCAGTTCTTCCAACAGTATATTTAATCTCATTAAGGGTAGTTAATACTTGAACTGCTGGGAATTTATATGCTATTCCCCATCTAGGTACTCTAGCAGTAAATCCTAATATGTCTTCATCTTCTAAACTATCTACTTTAATAACTACACCGTCAATAGCAAATGGAAGTGATTCTCTTTTCTTACCTAATTCTTCAATATACTTAAATATTTCTTTTGAACTAGATGCATATCCATTTAATTTAATATTAGTTACAAAACCAAGGTCTCTTAAAAACTCCATAGTTTCTTTTTGAGTTTTAATATCATAATCTTCTGGATTTGGAATAAAGTATGCCATAAAATCTAGATCTCTTGTAGCAGTTATTTTACTATCTAATTGTCTAACTGAACCTGCTGCAGCATTTCTAGGATTAGCAAATAATTTAATACCCTCTGCTTCATTCTTTTTATTTAACTTTTCAAATGAAGCTTTAGACATATAGATTTCTCCTCTTACTTCTATGTCTATATCTTTAGTAAGTCTAAGAGGAACTGACTTAATTGTTTTAACATTTAAAGTAATATCTTCTCCTGTTACACCATCACCTCTAGTAGCAGCCCTAACAAGTATTCCTTTTTCATAAATAAGAGATCCTGATAAACCATCCATTTTAGGTTCTAAAGTATAACATGGATTACTTATTTGTTTTCTTATTCTTTCATCAAAACTTTCTATTTCTTCTTCATTAAATATATCATCAAATGAAAGCATAGGAGTTTTATGAGTTACTTTTTTAAAACTATCTAAAGCTTCTCCTCCAACTCTATTAGTAGGACTATCTTCTCTTTTTAACTCTGGATATTCTTTTTCTAAAGCAAGTAATTCCATGTATATATCATCATATTCTTGGTCTGTAATAGTAGGATTATCTAATACATAATATTCATAACTTGCTTTATTAATCTTTTTTATTAATTCATCAATTCTTTGCTTATATTTATCCATAAATACCATCCATTCTACATATTATTTTACCACAAAATAAAAAAGATTTATATAGATAAATCTTTTTATTCATTCCATAAATTATTAGGATATTCATTAGTTAAAACGAGCTTCTTAATAGCATTTCTTACTTCTTCAGTATCTTCTTTATAAGTTACCCCATGCCATTTAGCAGATGTTCTTAATACTTTAACTTCTTTTTCTCCTCTTTTAACAGCTTCTCCTAATTCAGTTGGAATTAAGAATTCACATTTTTCTAAATTATCTTTATTATCTTCAAAAAACTTTTCCATTCTTTCTTTTAATAAAGGAAATATAGATGTATCTAAAGTTAACATATTCATAGATACTAATCTAGAACCCTCAATATGAAATGGTGTAGAACCATCTAGTGGAGATGCAAGTATTTGTCCATCGTCTTCAAATTCTAATTTACTTTCTATTATATCTATTAAATTACCGTTTTCTGATTCAATAACTCCTCTTTTAACAGATCCATTTTCAGTCATAGTATTTTTTGCTTCATAACCAACAGTAGCATATTTACATTCACTGTCACTTTTTAAGAAATCAGAAGCAGTCATAAATGCATCTCTTCCATAGAAATCATCAGCATTTATAACTAAGAAATCTTCAGTTATATTATTTCTTGCAGCATATATAGCTTGTGCAGTTCCCCATGGTTTTACTCTTTCTTTAGGTATTTGTACATTTTCAGGAATATCATCCATTCTTTGAAATGCATATTCCACAGGAATTTTACCTTCTACTCTTTTTCCTATAGTATCTTTAAATACTTCATAGTTTTCTTCTTTAATAATGAATACTACTTTACTAAAACCAGCTTTAATAGCATCATAAATAGAATAATCAATGATAAATTCTTCATTTGGTCCCATAGGAGCAATTTGTTTTAAACCTCCAAATCTACTTCCCATACCAGCGGCCATAATTAATAATTGCATAAAACCCTCCTAATTATTAATCTTACTTATAGACT
>sequence24
ATATTATTGATGTAGAAGATATTCAAGATGCTGTTGAATCAGTATTAATTAAATCTAATTATTCTGATGTAGCTAAAGCATATATTTTATATAGAAAGCTACATGAAAAGCAAAGAAATGTTAATAGTGCATTATTAGATTATAAGAATGTTGTTAATAGTTATTTAAATGTATCTGACTGGAGAGTTAAAGAAAACTCAACAGTTACATATTCAGTTGGAGGATTAATTCTTTCTAACTCAGGTGCTATAACTGCTAATTATTGGTTAAATGAAATTTATCCAGAAGATATTGCTAATGCTCATAAGAATTGTGATTTCCATATTCACGATTTATCTATGCTTACAGGATATTGTGCTGGATGGTCACTTAAACAATTAATTCAAGAAGGTTTAGGAGGAGTTCCAGGTAAGATTACTTCTGCTCCAGCTAAACATTTATCTACATTAACAAATCAAATGGTTAACTTCCTTGGAATAATGCAAAATGAATGGGCTGGTGCTCAAGCATTCTCGTCATTTGATACTTATCTTGCACCATTTGTAAAAGTAGATAACTTAACATATAAACAAGTTAAACAATGTATTCAATCATTTGTATATGGTGTTAATACTCCATCTAGATGGGGTACTCAAGCTCCATTTACTAATATTACACTTGACTGGACAGTACCAAACGATTTAGCTGAATTAAATGCTATTATTGGTGGAAAAGAAATGGACTTCAAGTATAAAGATTGTCAAAAAGAAATGGATATGGTTAATAAAGCATTTATTGAAATCATGATTGAAGGAGATGCTAATGGTAGAGGATTCCAATATCCAATTCCAACATATTCAATTACTAAAGACTTTGATTGGAAAGAAACTGAAAACAATAAATTATTATTTGAAATGACAGCTAAATATGGTACTCCATATTTCTCAAACTATATTAATAGTGATATGGAACCAAGTGATGTTAGATCTATGTGTTGTAGACTTAGACTAGACCTAAGAGAACTTAGAAAGAAATCAGGTGGATACTTTGGTTCTGGAGAATCAACAGGATCTATAGGTGTTGTTACAATCAATATGCCAAGAATTGCTTATACTTCTAAAACAGAAGATGAATTCTTTGAAAAGTTAACTCACCTTATGGATTTAGCAGCTAAATCATTAAAGATTAAAAGAGATGTTGTTACTAAATTATTAGATGAAGGATTATATCCTTATACTAAGAGATACTTAGGAACATTTGGTAACCATTTCTCTACTATTGGATTAGTTGGTATGAATGAAGCATGTTTAAATGCTAAATGGATAAAAGAAGATTTAACTAACGAAAAAGCTCAAAAATGGACTAAGAAAGTTCTTAACTTCATGAGAGAAAAATTATCTGATTATCAAGAAGAATATGGAGATTTATATAACTTAGAAGCTACTCCTGCTGAATCTACTTCATATAGACTTGCTAAGAAAGATAAATCATTATATCCAGAAATAGTTACTGCATCTGATGATGAAACTCCATACTATACAAATTCATCACATTTACCAGTAGGTTATACAGATGATATCTTTAAAGCATTAGATATTGAAGATGAACTTCAAACTCTATATACATCAGGAACTGTATTCCATACATTCCTAGGAGAAAGAATGAGTGACTGGAAGACTTGTGCTTCTTTAGTTAAGAAGATAGCAGAAAACTATAAGTTACCATATTATACAATTTCTCCAACATACTCAGTATGTAAGAATCATGGATATATTACTGGTGAAGTATGGAAATGTCCAATATGTAATGAAGAAACAGAAGTATATTCAAGAATTACAGGTTACTATAGACCAGTTAAAAACTGGAATGATGGTAAGACTAAGGAATTTGAAATGAGAAAAGAATATGTAGCAGAAGGTTGTGCATGTTCAAGAAAGAAAACTAAAGTTCCTAAGACTGCTAAAGAAGTATTAAAGAGCGATGCTAAAGACGGTTTATTACTATTTGGTACAAAGACTTGTCCTAACTGTAAAATGGCTAAAAAACTACTTGAAAAGGCTTCTATTCCATATGAATTTGTTGATGCTGAAGAAATGCCAGATTTAACTAAACAATATGGTGTTAAAAAAGCTCCTACTTTAGTAGTAAATGCTAATGGTGAATCTAGATTAATAGAAAATGTATCTAATATAAAGAAATTTATTGAGGAAAAATAATATGATATATGATGCAATTATAATAGGAGGAGGACCAGCAGGTTTAACTTCTGCATTATATCTTTTAAGAGATGGAAGAAAAGTTCTAATTATAGAAAAAGAAACTGTAGGAGGAACTGCTTCTTCTACCCCTCTAATAGAAAATTATCCTGGGTTTAAAGCTATATCTGGATCAGATTTAACAAGTATTATGTTTGATCAAGTAGATGAACTAGGTGTAGACTTTGAAATAGAAGAAGTAATAGATATAAATGTAGATGGTGATATAAAAGAAGTTATTACTGAAGATAATACTTATAAAACTAAAACAATTATTATTGCAAGTGGATCTTCTTATAGAACATTAAACCTTCCACATGAAGAAGAATTAATTGGTCATGGTATTCATTTTTGCGTAGCATGTGATGGACCATTCTATAAAGATAAAAATATTGCTATAGTAGGTGGAGGAAACTCAGCATGTATTAATGCTTACTCTATGTCTAATATAGCTAAACATGTAACTATACTTCAAAACTTAGATAAATTAACTTGTGAACAAGATTTAGCTAATAAACTTGAAAAGTGTAAGAATGTAGATATTAAATATAACTGTTCTGTTAAAGAATATTTATATGATGGTGATACATTAACAGGTTTAAAAGTAGAAGTAGATGGTAAAGAAGAAACTCTTACTTTAGATGGAGTATTCCTAAATATAGGTTTAGTTCCACAAAGTAAGTTTGTAAATGGTAAACTAGAGTTAGATAAAAGAGGTTATATAGTATCTGAGGATTCTACTACTAAGGTACCAGGAGTATTTGTAGCAGGGGATTCTAGAACTAAGAAATATGCTCAAATAACTATAGCTACAGCTGATGGAACTATCGCTGCACTAGACGCAATAAATTATTTAAATAAATAAAAAAAGTCCTAATGGACTTTTTTATTTTTATAGAGAATAAAATCTATAGAGCGTTTATGCTTTAAGTGTCTACCTCTTATTCTAGAAAGGAGGTGAGAAGCATGAAAAAAACACTACATATATGCAGCGTTTTATTCTTCATTTCTCTAATTTTATTTCTAACACTTCTTATTCTGATAGAAATAAAGAAATGATACTTAAGTTTGTGGCTTAAATGTCGAAAATCCACAAAAGGTAGACATTTAGGTTACCCTAAACGCTCTTCCTAATTAAATAATATCATAATTTAAAATATATTTCTATATATTATTTAAATGATTTTATTTTTTTGTTAAAATATTATTGGTGATTAACATGGGTACATTAGAAAACTTAAATAATAAACAAATAGAGGCCGTTAAAGAACTTGATGGACCTATGCTAATATTAGCAGGTGCAGGTTCAGGTAAAACAAGAGTTTTAACTACTAAAATAGCATATCTTCTTGATGCTAGAGATATAAGTCCTACAAATATACTTGCTATAACTTTTACTAATAAAGCTGCTAAAGAAATGAAAGAAAGAATATATGATTTAATAGGTAGAGAAGCATTTAGACTTCAAATATCTACTTTCCATTCTTTTGGTTTAAAACTATTAAAAGAAAACTATGATAGATTAGGATTAGATAAAAACTTTAATGTACTTGATTCTGATGATTCATTAACACTTGTTAAAAAGATAATGAAGAACTTTGATTTAGATACTACTAAATTTAGCCCTAAAGCAATTAGAAATATAATATCAAGTAATAAAAATGAAATGATATCTCCTGAGGAATATCATAAATTTGTATATACAGACTTTGATGAAATAGCAGAAAAAGTATACACTGAATATGAAAAGAATTTAAGAAGAAGTTCAGTTGTAGACTTTGATGATTTACTTATCTTACCAATTAAACTATTTGATCAAAACAAAGATATTCTTATGAAGTATCAAGAACAATATAAATATGTATTCATAGATGAGTATCAGGATACTAATAGACCTCAATATATATTAAGTAAAATGATTAGTGCTAAATATAAAAATATAACTGTAGTAGGAGACGCTGACCAAGCAATATTTACTTGGAGAGGTGCAGACTACAAAAACATACTTAATTTTGAAAAAGATTATCCTAATTCTAAAATGGTAGTTCTAGATGAAAACTATAGATCTACTAAAAAGATATTAGAGGCTGCTAATAGAGTTATAGTAAATAACAAAATGAGAAAAGAAAAAGATTTATGGACATCTAATGAAGAAGGAGAAAACATAGTTTACTATAGAGCCTTTGATGAAATGGATGAATCTAATTATGTAATTAAAGAAGTTAAAAACTTATTAGATAAAGGAGTATCTCCTAAAGAAATATGTATACTTTATAGAGCTAATGCACAAAGTAGAAATGTTGAAGATGCATTCCTTAGAAATAATATTTCTTATAGAGTAGTAGGATCTTTTGCATTCTATTCTAGAAAAGAAATAAAAGACTTAGTAGCATATTTAAAACTAATTAATAATCCAAAAGATGATGTATCTCTTTTAAGAATAATTAATTATCCAAAAAGAGGTATAGGTTTAAAATCTATAGAGAACTTAGAATTAGAAGCATCAAATACTAATAAATCATTATTTGAATGTATTTCATCTGGTAAAGAATTAGCGTTTAAAAATATAATAGAAGACCTAATTAAAGCAAAAGAAACTATGTCTTTAACAGACTTTATAGATCTTGTATTAAATAAATCTGGTATTAAAGAAGATTTAGAAAATGAAAAGACTTTAGAAGCTGATATAAGATTAGAAAACTTAGAAGAATTTAAATCTATTACTAAATCAGTAGAGGATAATGATGGAATAGTATCTCTATCTGATTTCTTAGATGAATTATCATTAGTTTCAGATGTAAATGATCAAAAGAATGATGTTAATGATGATAAAGTATCTCTAATGACTATTCACTCTGTTAAAGGATTAGAATTTGATTATGTATTTATAGTAGGAGTCGAAGAAGGATTATTCCCTCATATAAATTCTATGGAATCAAAAGATGAATTAGAGGAAGAAAGAAGACTAGCTTATGTTGCTATTACTAGAGCTAAAAAGAAATTATATATAATTAATGCAAGAAGTAGACTTATCTATGGTAAGGTAGACTCTAATGTACCAAGTAGATTTATCGCTGAGATGGGGGATGACCTAATTGACAGTATTAAGAAAGATGGTATAATTAAAGATACCAAAGGTAAGAATGAAAATAGATGCGTTGAAAAAGATAATGATCTTAAACCTGGAGATGTTATTACACATGAAAAATATGGTATGGGTGTAGTAATAGATATTGAAGGACCTATCGCAACTATTTCATTTGCTAAAGATGGTGTTAAAAAAATACTTAAGAATCATAAGTCTATAAGTAAGATTAATAATTAGGAGGGTTTTATGCAATTATTAATTATGGC
>sequence25
TAGATGATTTAAAAGGTAAGAAAAGAGCTGCTAAAGTATCATTTCCTAGACATGTGGCTATTTATTTAGCTAGAAATATGACAGATGAGTCATTTCCAAGAATAGGAATGGAATTTGGTGGAAGAGATCATTCCACAGTAATGAATTCTTGTGATAGGATACAAAATGAATTAAAAACAAATAATAATTTAAAAGAAGTAATAGAGGAGTTGAAGAAAAAAATTAAATAGAGTGGATAAATTAAAATAATTAACAATTTATAAACAACTAATTTTCTTTATAAAATAAAGAAATATGGTAGTTATAAACATTATCCACATCAATAAAAATAAAAAACTAATTAAAAATAATAGGAGGAAAACAAAATGAAATTTTCAATTAAAAAAGAAATATTATTAGAAAGTCTTAATATAGTAAGTCATGCTATATCAAGTAAAAATATTATTCCAGTACTAGGAGGAATAAAATTTGATTTAAAGAAAGATGGTTTATACTTAGAAGCTAGTGATAATGAAATAGATATTAAAACATTTATAGATAAAAAGATGATAGATTCTATAGAAAAAGAAGGATCTATAGTAGTACAAGGTAAATATTTATTAGATATTGTTAGAAAGTTACCAGATGTACTTATTAATATAGAAGTAGTAGATGGATTAAAAATACTTATTTATACAAATAATAGTAAATTTAATTTAAATGGTATTGATTCAGATGAATTTCCTGATATTAAAATAGAAAAATCATCTAATCCTATATCTATAAGTAAAAAATTAATTAAACAATTAGTTAATCAAACAATATTTGCAACTTCTTCACAAGAAACTAGACCAATATTAACAGGTATTAATTTTAAAATAGACAAAGATGTTATGGAAGTAGTAGCTACAGACTCTTATAGATTAGCTAAAAAGACTATTAAATTAGATAAAGCTGTGGATAATGTTATTAATATAGTAGTACCATCTAAAAATATAGGAGAACTTATTAAAATAATAGATGATTCTGATGATGAAATTAAGATTCATATATTTACTAATAAGATATTATTTGAAATTAATGATATTTATTTCCAATCTAGATTATTAAATGGTAATTTTCCAGATATTAATAGATTAATACCAACTGAATATAAAATAGTAGTTAAAGCATCTACTAGTGATTTATATGATGTTGTTGATAGAGCTTCTTTATTAACATCAGAAAAAGAAAAGAATGTTATCAAGTTTGAAATAAATGATAATGAATTAATAGTAACATCTAATACACCAGAAATAGGTAAAGTTGAAGAAAGATTAAATATTTCAAATGAAACTGGTAATGATCTAAGTATTAGTTTCTCAGCTAAATATATGCTAGAGGCTCTTAGAACTATTTCATCTAATAATGTTAAAATTTCATTAAATGGAGAAATTAATCCTATTATATTAACTAATGAAGAAAATGATGATTTAATTCAACTTCTATTACCAATTAAAACATATTAAGAGAACTATGTTCTCTTTTTTTAGTGGAATTTTTTTACAAAAAGAGAAAAATATATATGATAAGTTCCTGAAAGGGGGAGTTATATATGAATATTTATGAAATAAATAAAAATACTTTAGCTATTATTCCTATTGGTTATAATAGATCTAAAGTAATAGAAAAAGATAATGAATTTGTAGTAAATATGGAACCATTAAGTATAATTAAATATAGTTGTGAATATTTTGGTTCAACATACGAAGGAAGACATGCAGGCACAAAATCTATAATGAACATAACTCATAAATCACCAATTATAATAGAAGAATCTCATAATTTAATATGTTTTCCAACTACATCACCAAGACTTACTGGATGTTCATGGATTATATTAAATAATATCAAGTCATTTAATGGTAATCATGAATCTACAGACATTATATTTGATAATAATTATGTATTAAATATAGGTATTTCTATTAATTCATTTGAGAATCAAGTACATAGATCATATATGTTAGAATCATTACTTAGAAAAAGAATAGAAAATTATTAAAATTAGGAAACTCAATTACTAAAAAAATTGAGTTTTTTTACTAAATTTTAATTTATTTACCCATTTTTATGATATAATATACATGTATGGGTAGGTAATTGGTTTTACTATAAAGGTGTTAAAAATGGGCTTTAAAATAGGTTAAAAATGTTTTTAAGAAAAATTGAATTAAAAAATTTTAGAAATTATGAAGATTTGAAATTAGAATTCAATAAAAATATTAATATCTTTATAGGAAATAATGCACAGGGTAAAACAAATATCCTAGAAAGTATATATTTCTTAGCAGTAACCAAATCCCATAGATGTAATAAAGATAATTATTTAATTAAGAATGATTGTATTTTTTCTAAGATAGTAGGGGAAGTTGAAAATAATGATAGAAAGAATACATACGAGATAGTTATTAATAATGAAGGTAAAAGAGTATCTATTAATAATAATGTATTTAAAAGAATAAGTGATTATCTATCAAATATTAATGTTGTTATGTTTTGTCCAGATGATTTAGAAATAATAAAAGGTACACCAAGTGATCGAAGAAAATTTTTAAATATAGAAATAGGACAAATAAGTAATGAATATATCATTTATTTAACTAAATTTAATAAAGTATTAAAGACTAGAAATGAATATTTAAAGAATGAACATAATATTGATTTTAATTATTTAGATATCTTAACAGATGAATTAATAGACTTAAATATTAAATTATATAAATATAGAAAAGAGTTTATTAATGATTTAAATAATTATATTGTGAATATATATAAAAAGATATCTTTAAAAGAAGATATATATGTTAAATATGAATCATTTATTGATAATGAAGAAGATATAGTAGAAGATCTAAGAGAGAAATATCTAAGAGTTAGAGATAGTGAATTAAATCAAAAAACAACATTAATTGGAGTCCATAGAGATAACTTTTCTATATATATAGATGGAAAAGAGATTAATAATTATGGATCACAAGGACAACATAGAGTAGCTATTCTTTGTTTAAAACTAGCTGAAATAGAAATCTATAAACAAAAATATAATATTAAACCAATAATATTATTAGATGATATATTTAGTGAGTTAGATAAAAAGAAGAAAATAAACATAATTAAATATATAGATAAAGACTTACAAATATTTATTACATCAACAGACTTACATAGTATAAGTAAAAGAATAACTAAAAACGCTGATATATTTTATATAGAAGAGGGAAAGGTAAAATTAGGTGAATAATATGGCACAAGATAAGTATGATGCATCGGATATTCAAGTTTTAGAAGGTTTAGAAGCTGTTAGAAAAAGACCTGGTATGTATATTGGTACAACTGATGTTAAAGGACTTCACCATTTAGTATGGGAAATAGTAGATAACTCAATAGACGAAGCCTTAGCAGGTTTTTGTAATCATATTGAAATTACTATTAATAAAGATAATTCGGTAACAGTACAAGATAATGGTAGAGGTATTCCTGTTGGAATACATGCTAAAACAGGTATATCAACAGTAGAAACAGTTTATACTGTATTACATGCTGGTGGTAAATTTGGTGGTGGAGGATATAAAGTATCTGGAGGACTACATGGTGTTGGAGCTTCAGTAGTTAATGCTTTATCTTCTTGGGTAGATGTACAGGTTAAAAGAGATGGTAAAATTTATGAATGTAAATTTGAAAATGGTGGTAAAACTAAACAAGCACTTACTGAAGTAGGTACATGTGATGCTGAAGATACTGGTACTAAAGTAACATTTAAACCAGATGCTAGTATATTTGATTCAGAAATTTATGATTATGAAACTTTAAGAGTAAGAAGTAGAGAATTAGCATTCTTAAATAAAGAACTTAGAATAACTTTAACAGATGAAAGAGTAGAACCTGCTAAACAAGATACATTTATGTATGAAGGTGGAATTATTGAATATGTTAAATATTTAAATAAGAATAAGACTCCAATACATGAAAATGTAATTCATTTAGAAGGTGAAGAAGATGGAGTTATGTTTGAAGTTGCTATGCAATATAATTCAGGATATAACACTGATAGTATATATTCATTTGTTAATAATATTAATACACATGATGGTGGAACACACGAAGAAGGTGTAAGAAGAGCACTTACTAGAATTATAAATAATTATGCTAAAAAGAATGGTTTCTTAAAAGATAAAGATGAGTCTTTAACTGGTGATGATGTTAAAGAAGGATTAACAATGATCATTTCTTGTAAGCATCCAAATCCACAATTTGAGGGACAAACTAAGGGAAGACTTGGTAATTCAGAAGTAAGAAAGTTAGCAGATAGTGTATTCTCTGAAGGATTTGAAAGATTTTTATTAGAAAATCCAGAGGAAGCTAAAATTATTGTTGATAAAGCAATGACTGCTTCTAGAGCTAGAGTAGCTGCTAAAAAAGCAAGAGAATTAACAAGAAGAAAAAGTGACTTAGATGTTGTTAATTTTGGTGGAAAACTAGTTGATTGTAAAGAAAAAGACCCATCAGTATGTGAAATATTCTTAGTCGAGGGAGATTCTGCCGGAGGATCTGCTATTAAAGGTAGAAATAGTATGACTCAAGCAATACTTCCTTTAAAAGGTAAAATATTAAACGTAGAAAAAGCTAGATTAGATAAAGCATTATCAAATGAAGAAATAAGAACTATTATTACTGCTTTTGGTACTGGTATTGGTAATGAATTTGATTTATCAAAACTTAGATATGACAAAATAATAATCATGACCGATGCCGATGTTGATGGATCACATATTAGAGTATTATTACTAACATTATTCTATAGATTCTTTAGACCTATAGTAGAAGCTGGTCATGTATATGCTGCTCAACCTCCTTTATTTAGAATTACTCATGGTAAAACAAGAAAATATGTTTTAAATGAAGAAGAAAGAGATACATATTTAGCATCACTTCCAGAGAATACTAGACCTGAAATAGCTCGTATGAAAGGTCTTGGTGAAATGGATGCTGAAGAGCTAGAAGAAACAACTATGGATATAAATCAAAGAATTCTTAGAAAAATAACAGTAGATGATTTAACAGAAGCAGATGCAGCATTTTCTAAAATTATGGGTGAAGAAGTTGAACCTAGAAGACAATTTATTGAAGAAAATGCAGTATATGTTGAGAATTTGGATATATAGGAGGTTAGGTTATGGATCACAGTAGAGATAGATTAGAAGAAAACAATATAGTAAAAGAAATAGAAACATCATTCCTAGAATATTCAATGAGTGTTATTGTATCTAGAGCATTACCGGATTTAAGAGATGGTTTAAAGCCTGTTCATAGACGTATTTTATGGTCAATGTATGAATCAGGTTATACACCAGATAAACCTCATAAAAAGTCGGCTAGAATAGTCGGAGATGTTATGGGTAAATATCATCCACATGG
>sequence26
TCATCTTCTTTTTCTTTTTTTTGATCATCTTCATTTTCTTCTTTTTGATCATCTTCTATTTCAATTAAACCACTTTTATATATTTTAAATAAACCAACAATAGGAAGATCAATTGGTCTAGCAGTTCTATTATTAAGTCTATTAACAATTTCAATAATCTTTCCTTCGTTTTCAGATGTTAAAGTATATTCACCCTTTTTGTTTTTTTTATCACAAAAAAACCAAACAAATGAGAAAGCCTGATAATAAGTAAAGTTTCTTGCATATAATTCTAAAACTTTATCTAAATCTACATTTAATAAAAAGCAATTATATTCTAATTGAATAGGACTATTGCATTCTTTTAAATTATTAAATATTAATGGTTTTAGATCTATGCCTTTTAACTTTTTATACATTTCTATTGCTTTACGTATTAAGTCTTCATCTGATGATATTTTATCAATAATTCTAAGAGCATATTTATATTTTTTTATAGTTTTGGTTGGATAACCATGCTCATTACAATAATATGCTAATGGTAAATTATCAATAACATCTTCTGTTCCTCTAGTAACATTAGATATAACATATTCATATGATTCTTTTAATACCTTACTATCTATTATAGAAGTGTCTAATTCTATACCTTCTGCTTTAGCTTTAGCATCCATTCTTTTATTATATTCAACTATTACTTGCGTAGGAGTAACATCATATCCCTTACATAAAACTTTAAGTGGTTTATCATCAATAACATACTTTGCTTCCATTTCTATTTTTGCTCTTTTTATACAGTTTTCAATAATACTATCTTTGTCATTTTTAGGATGCTTTCTTATATTTTCAGCAATATTCTTTTTAACACGTGCGACGTCTTCTATATCTTCTCTTTTGCAAATATCTTCAACGCATTCTCCATTTAAATAATAAATATATATAGATGCATACATAATAGCTTCATGAATTAATTCATCAGATGATAAAGTTGTTGTCGCATAATTATCATCAATATATTTTGTAACTATACTTACACTAGCACCATTTTCTTTGCAAAGATCATATACAGTACGCCCATCACTTAATGTATAATGTCTTCTTTCATATTCCATCTCTTCTTTTACTTCTTGTATTATATTTTTAAATAATTGTGACTCACTTAAACTAGTACTTTTTCTTGTTGATTTGTAATAATAATATCTTTCCATAACTCTACTATATGGTACTTTTTCTTCTTCACATATTTTCTTTACAGGGTTATCACCTACACAATGTTTATAATGTGCTTTATTATGGTGTGCTTCTCTACTCATGGTATCCTCCATTAAAATATGTTTTCTATTATATCATTAAATAAAAAAAATAAAAGAACTTATTGCTAAGTTCTTTGTTTTTTAATCTCTTATACTTCTTCTATGTTCATTTGCAAAAAATTCATCCAAAATATCGTCAACTGTTCTACTAGGGTCTTTTTCTTGTTCTATAGAAATAATAGCTACTAAAGTGTCATAACTATATTTAGTATTTATTTGGCACCAAATCATTAAAGGCATATTATGATACCACAATTTATATTTCATTTTTTTTATTAAATCATCTAAATTATCTAAGATATATGTTAGTAATTCCTCATTAGATTTCTTTTTGTATTTTAGAGTTCTTCTAAGTTTTCTGTAAAAATGTTTAATTATTTGAATATGAATACCTATTGAATCACAATACTCAGGTAATAATTGGCCATTATATATAAAATTTTCAAAATCCATATTATGCAACTACCTCAGCAAAAGCTTCTTTCTTCTTTTCTAGTATTCTTTTTTTAATGCTCATACCTAAAACTCTATCAACTATTTCATCAGTTATTACTTGAAAAGGTCTATTATCATTCCCATCATATTCTTCAGTATACATCTTTATTACATCTTTTAATGGAATATATACTCCTGTTGAAGAATATACTTCAGTCAAAGTTAATCCACGATATAAGAAACGTGATTTATTAAATTTATATCTTATTACAAATTCATCTGCTAATTGATCATAAGATTTTTCTGGATAATATAAATGTCCAGTAGTTAGTGATTTTCTTAAAGTACCAACAGGAACACCTTTTAATTCAGCAAATTCTGCAGTAGTCATTCCATGGACTTTTATCCTACATTCAGGAGAATGTTTTCTTTTACAATCTTGATTTTTCATTAATCGTAAGGCTAATTCTTTTTCGTCTCTATTATCTAAGCTTCTAAATTTTCTTTGTCTTACATAACCTTCTACTATCTTGTTAAAATCATATTTATGCTCAACACAATATTCTGGTAATGGTAAATTATCAATTATAACTTTAGATAATATAATCGTTGCTTCAATATTAACAAAGCCCATGAAAAGGCCTCCTTTCTTTAAAAAAACATAGTCTAGATTATATCATATATATTTTAAAAGTCAAAAAAAATCAATTCATTTAGAATTGATTAATTTTATAAGTGGTGCCCCAGAAGGGATTCGAACCCCTGACCGCCGCCTTAGAAGGGCGTTGCTCTATCCAACTGAGCTACTGAGGCAAATACTTGTCCTTGAACGGACAAATAAATAATAACACAAATTAAACTCTATTTCAAGAGTTATTTTCTTGAAACATATTTTCCATCTGAAGTAGAAACTACAACCTCATCATCTATATTAATAAATAATGGAACTTTAATAGTTAAGCCGTTTTCTAATTCAGCATCTTTTTGTGCATTAGTTGAAGTATTACCTTTAACAGCATCTGTAGTAGAAACAACTTTATAATCAATTTTATCTGGAAGATTAACTCCTAGTAATTCATCATTAAAGTATACAAGTTCTACTTCTAAATTTTCTTTTAAGAACTTAGCTTCGTCTTCTATTTGTTTTTCTGGTAATGTAACTTGTTCATATGTATTCATATCCATAAATACATATTCATCACCAGTTGAATATAAATAACTCATTTGTACTTTAGTAATATTAGCTTTTTCAAGTTTAATATTAGTATTCATAGTTTTTTCTAATGTTGTACCTGCTCTTAAGTTTTTAAGTTTCATTTTCATGAAAGCAGATCCTTTACCAGGCTTAACATGTAAGAAATCAACTATTTGATAAATTTGACCATCAATAATAACTGTCATACCATTTTTGATGTCATTAATATCTATCATCATAATTATACCTCCATATCGTCAATAGCATTCTTTAAAACACTAATTGAACGTTCTATATCATTTTTTTCTTTTTCACTGCAGTCAAAATTAACTACACCTTTAACGCCATCAATATTAACTAATGAAGGCATTCCTATATATATACCTTTATAATAAGTTGATATATTTAATACTTTATTTTCATTATTAAGAATTGCTTTTGTTATTTCTAGTAAACTAAGAGATATTCCTTGTGATGTATATCCCTTTCTATTAATTATTTCATATGCACTATTTCTAAGTTTTTCATCCATAATACCTATTTCTATATCAGAAAATATTTCATTTATAGGTATCATATTAACAGTTCCTTTAGACCATAATATAACTAAATTATCACCATGTTCACCAATAACATTTATATTTATATCATTAGTACTCATATTAGTTTTTTCTTTAATTATATTTTTAAGTCTAGATGTATCTAATATAGTTCCGGATCCTATTACTCTATTAGGAGACATATTAGACACTTTATAAACTAAGTAACTCATTACATCTACTGGATTAGTAGCTATAACAAATATACCTTTAAAACCATTTAAAATAGCATTTTCAGTGATACTTTTAACTATCTTAGCATTTATATTTAATAAATCTAATCTAGTCTCTCCTTTATCTTGATTCTTACCTGCACATATAACTAATATATCTGCATCTTTTACATCAGCATAACTTCCAATATATACTTTAATACTAGAATTAATAACTGCTATAGAATCAGATACATCTAAGAATTCACCCTCTAGTTTATCTTTATTAGTATCAATTAAAACAATTTCATTTACTAAATTAGGTTCAGTAATAAGAGCATTTAAATAACCTGTTCCTACATTACCTAAACCAACAATTGCAACCTTCTTCATATTCTTTTCCCTTTAATTATTATTTCTTTTCAATATGTTCAGTATGTTTTTTACATACAGGACAATACTTACTTAGATTTAATTTATCAGTTGTATTATGAGTATTTTTTTGTACGAAAAAATTCTCTCTAGATACGTTATCTCTCTTTTTACATTCAGAACATTCTAATGCAACATATCTTCTTGCATCTTTTGATTTACTTGCCATATGTAATACCTCCTCTTTTTATAACTTATTAAATTATATCATATTATTATTATTTTTCAAGCGTTTTTAGCTATTTTATAGCATATTATTTCTTTTTAATTCTTCTTCATAAATAGCATAATTTTCTAGTGTTAGAGTACAAAATACAATCTTATCAAATACATCTTGTTCTTTAATGAAGTCTTTAACTACTTTAACAGCTATTTCACATGCTAATTTAGATGGGAAAGAATGTCTTCCTGTAGAAATACATGGGAATGCTATTTGTTTAATATTATTATTCTTAGCTATTTCAAGAGAATTTCTATAACAATCTTCTAATTCTTTAATATTTTCATCTGTTACTTCACCTTCTATTTCAGGCCCTACAGTATGAATAATATATTCACATGGTAAATTATAAGCATCAGTAAGTACTACTTTACCAATTCCAAGAAGATCTCCTCTCATAATTTCAGCACACTTAAGTCTAAGTCTTACTCCAGCATAAGTATGTACTTTATTTTCTATACAATTATGATTAGGAGTAAAACATCCTAGCATATGTTCATCGCATGGATTAACAATAGTTTCTACATTTAATGCTGTAATATCATTATTTAATAAAACTATTTTTCCAGGTATTTCATTAACATCTATTATTTTTCTATCTTCATTCTCTTCTTTTATTAATAAATCTTCTTCTCTTAAAACTTCCTCTGGTACTGGTTTAACAGGTCTTTGATTTAAAAGACCAGTTAAAAGAGTTCTTTTATTAACAAAACTATCAGGAATTTCAATATTATCTTTATCTGCTTCATCTAAA
>sequence27
AACGCGAATAAACGTATAACATTACTTATAAGCTTAAAGGGTGAATTCATATAACTTTATTTATTAGTTTACACCAACCACTAACTCTCTATAAAACTTAGTTATATTACTATTTCCTTATCACTGCTTGTTTAAAATATTTTATCACATAAATATAATAAATAAAAGATATTTTTATTTTAAGAAGTTATTAGCTTCTTCTTTTCTTTTTTTCTCTTCTTCTTTTTGAAGTCTCTTTGCTTCCCTAGTATCTTCTTTGACAGGCTTTATATCTTCCTCTTTAAATACTTCTGTTTCTTGCTTATCTTCTTTCTTTTCTTCCTTAACCTCTTTTGCTTTTGCTTCTTCTTTTAATTTTAATCTTTCTGCTCTTGTTAAAGGTCTTGGTTCTTCTTTCTTTACTTCAGTTTTTTTAACTTCTTCTTTTATTTCAGGTTTAATATTCTTCTTTAATTTATGATTTTTTCTTACTAAAGAAATAATTGAAATAAATAGTATTAATATAAGTAAAGCTACTCCTGCTGCTATATACATCCCATATCTTAGATATACTAAATATTCTTTAGTTTGTGTATCATAAAATCTTTGGAAAGTTTTTTGATCCATATCATATAAATAGAATCCTCCTTTTCCATCACTTTCATTAATACCATATACTAATCTAAATTTATCTTTAGCTTTATAATAATATCCAGTTACTTTCTTACCATCAATAGTAAATGTTATTCTTTTATATCCATAAGGAATATCTTCTTTCTTAGGATCACTTAATATTATCTTTATTACTTCTGAATTAAATACTGCATATTCAGAATAACTAGACTTTTTAGCATCATATTTAAAGAAACTTGTATTTCCTTCTTCATCTACTAAAAGAACTAATGTAATCTTTCCGTTAGAATAAGCTACTACCTCTTGTTCATTAATAGTAATAGTTTCCTTTTCAAATCCTTCTGGAATATTATCTTCTACTTCTTTTTTTACTACTCTATATTTTTTGCCATTTACCATTACTTCAATTGGATTCAATTCTTCCCTAGTTATTTTTAATTTATATTCTCTAGCATCTCCATTTTCAGCATAAACAGTAACTATTATTTCATTAAAGCCTTCAACTAATTCTACTTCTCCATCACCATCTACATTTGCTTTAGAATCATTAGTTTCAGTAATAATATTAATCTTATCTTTAGCACCTTCTACTGTAGCAGTATATTCTAGAGTATCTGCTCCAAATTCAGGATCTAAAGTAACTCCTTCAACTTCTAATTTCTTTAATGCATTATCAGAACTCTTTTTTGGATCATTACTCTTTTTATTTTGAGATACATTTCCTTGAACCCTTGAACTAGAAGTATTTGATGAAGAAGCAGCTACTATAGTAACTGTACAACTATCACTACCAGAGTATTCTTGATTTTCATCAGATACATCTATATTTCCAACATAGAATCTAGCAGTTCCTGGATTAGTAGCAGTATATGTAACAGATTTGCTGAAATTAGCTCCATCATACCATATACTTGTTCCACCACTAACATATCTTGCATTACCTTCACTAAATACTGTTCCTGACCAAGTAGCAGAATTTGAACTTAAACTACCATAGAATCTAACAGTAAAGTTTTGACCAGATACTACTTGTCCTGGTGCAGAACAGTGATAAACTGCTGCTTTACTTGTTATTGGAATCATCAATAAAAGTGCAATTAATAAATATTTTAATTTCTTCATATTGTTCTCCTTATTGTACTAAACTTTGTGTATTTTGAATATGTGCTTTTATTTTAGAATAATCTAGTGTACTTATTCTTCCATCTTTACTAGTATCTGCAGCAGTTAAGAAGACACCTTCTAATGCTTTAGTATTTTGAATATGTGCTTTAACTTTTGAATAGTCTAAAGTACTTATTCTTCCATCCCCGCTTGTATCACCATATACTATTACATCAAATGTTTTTACTAATCCATTAAGATTAATAGTAATCTTTTGACCAGTAGAAATAGTTCCACTAGTTATTTCTTTATTTGATGAATCATATAATTTTACAGTTACATTTATATTCTTATTCTTAATACTATTTATAATATTTTCTACAGAAGTTCCAATCTCAAATCCAGATATATTACTTTCTTTAGTACTTAATCCAGAATATCTAATTATGTCCTCTGTTGTTTCTTCACTAGCAGATTTCTTTTTAATAGTAATAGTATATTTTCTTTCAGTATCATCTTCTGCTGTAACAATTATTTCTTTAACAGTCTCATTACCATTTAGAGTAACTGTTCCATTACCATCTACTCTTGCTTTATCATCATCTTTAACACCTGTTATATCTACACTATTAGTATTACTAGATACTTCTAATGTATATTCAGTTATTGATGAATCAAATGCTGGATATAATATACCAGTATTATAATTTAATTCCTTTAAGTTAGCATTATTACTCTTAGTAGGTATTACTGTACCTGCACTCATATCTTTATATACAGGAATCTTAAATGTAAATGCTAAGTCAGTTAATCCTGCCTTCCAATATGAAATATAAGTTGTATAACATTCTCTATATGGAGCTTGAATATTAGCCATATATTGGTGCCAATATCTAGAAGATCCTACTAAATTAAACTTTTCATAAAATACAGTATCTTGTCCACTAGTTATATAACCATTAGCTATACCTTTAGCACCACCCATAATAGATGCATAAGGACTATCCCAGTTTCTATTTTTTGCATATGTTAATGCTCCTTGAACAATTTGTTCAAGAGTTGAACCTGAAGCTCCAAAGTTAAAGTAGTTATAATACTTCTTTCCATCTCCACCATCCATCTCTGTAGTAGCAGATCCTTTATAACCTTGTTCTTGAAGTACTCTAGCAGCTAAATGAACAGGACTTACACCATAAGTTCTTCCTGCTTCAACAAAAGTTTCAGCATATGATTTTTGAGTGCCGTTATATGTATATGTACCTGCCATAAATGAACCATTTAATATATTTTGAACAACAGATGCATTTTGAGTCTCATTAAATGATAATTGTTCAAACATGAATATACTATTATCATCTAAGAAGTTTCTAGCATCCAAATAATATCTAAGGGTTTCCCATGATGGTGCATACCATCCAGGCTCAAATTGTGTATATACTCCATTTGAATATGCTCCTGGATCAGTTGATAATTGTGCTTTATTAGTAGTACTAATTAAATTCTTATTAATAGGACTATATTCACCATTAGTAGCTTCATCAAGTGTAGCATCTACTCTTGATACTTCAAAGTTCCAATTTGGGTGAACAGCATGCATCTTACATAATGCTTCTACATATGATTCAGGGAATCCTTTTCTTCTTAATTCATTAGCATAATCCTGATTTAAAGTATAAGTTTGTTTATTTCCTAAATATTTATTCATTACATATCCAGTATAAGTAAATCCCCAATAATTAAATCTAATTTGAGACCAATCTCCAGAAGTAGCTAATACTTCTACTACTCTTGGTCTATCAAGCCATATAGTTTTACCTTCATCATGTTTAATTCTTTCACAATCTGTACTAGGACATGCTCTTACACTTAAATCTGTTGCATTTATATAAGCATAAGTATATCTTTCTGCCATAGCTTTAGATGTATTTATAAAAGGTGTAAACACTGAAAAAAGAATAATTAAAGACATAATTATTTTAACTGTTTTCTTCATATCGACACCTCGCATTCTAATATAATTATTATATCATATTTTATGCTTTTTTTGATACATTTAAGACATAAAAATAATACTTTACATAAAATGTAAAAAGAAGGATTTCTCCTTCTTTATCTTATTATACTAGTTAAAGTTTTTTCTAAATCTACATAGTTATGTTTTTCTTCTACTGCATTAATAATCATACCAACAACAAATATAAATGCCATTGCATAAATCCAGATCATTAATACTACTATAGAAGAAGCACTTCCAAAGTATGTTGTATATGGAGATATATTCATTGAATATAGTGAATATATTGTAGTAAATATAATCCATAATACTGTAGTAAATAAAGCTCCTTTAGTAACACTTTTAGAGTTTATAGATTTATTTGGAGCTAATACATATATTACCTTTAAAGTAAAATATATAACTATAATTGATATAGGCCATTTAATGAAATTAAATATTTTAACACTATTATTTGAAATAATAGTCATATTAGGAAGTTCAGATAATATAAGTAAGAACTTACTACCTACTATTAAAATTATTATTAAAAATACAAATAAAAACAATAATATTATAGTTATTAAAATAGATTTAATAATATTTTTATATAGATTAGTCTTAACGTTATATATATTTGAAGCAACCATTATAATTGCATTTGTACCACATGATATTAAATATAATGCTGATATTAATAGAAATACTATATTAATACTTAGTGCTTTTCCTGAGAAAAGTGGTATTACTAATTCACTAGTACTTGCAGGTAATGAAATCTTAAGGAAATCTATAAAACTAGCTATAGAAAATGAAAATGTATTAGCTGCAATACCAATTAATAATATTATAGGAATAGCAGAAAGCAGGAAAAAGAAAGCAAGATGACCTGACAATACAGAAACAACTGGCTTTCTCATTAATCTAAAAATATCACCACAAAATTTCTTAAAATCCTTAGATATTTTTCCCATTTATGACACCTATTATTTTTCTTCTATATTCATTTCTTTATTTGTTTTAACTTCTAAAACTGCTTCATTTATAGCATCATCAATTGTTTTAACATCGTCTGTGATCATACTATAACCAAGAGTAGCTCCATAACCATATGGTAAATTTTTAAACTCTTTATGTAGTTTTCTTATGTATGCTATTACTTTATTTTCAGCATATCCAACCATATAAATTAAGAATTCATCACCATTAGTTCTAACTATATCAC
>sequence28
CCCGTAACCTACTGATTACAAGTCAGTTGCTCTACCAATTGAGCTATTTCGGCATCCATGGTGGACTCTGAGGGACTCGAACCTTCGACCTCCTGCTTGTAAGGCAGATGCTCTAACCAACTGAGCTAAGAATCCATAAACATTGACAATTACAAATATACCATTGATATCAAGTATTGTCAATGTATTTTAACAATTTTTTTATTTATTTATTTTCTAATTCTTCAAGTGTTTCTTCTATCCAATCAGGAAGCATTTTTTCCAAGGTAGCAAAACCCTTCTTTGTTTCATATAATTTGTTTTCTTTTTCATTTAAATGAAGTCCTAATTCCTTTAAACTCAAAGATATATGCTTACTTTTATCATCTACTTCTGTTACTTTAGCATATAATTCTTGCCCTACATAAAAATAATCATTAATATTTTTAATATAATTACCATTAATCATAGAAACATGGATTAATCCTGTGTAATTACCACTTTTTATAAATGCTCCATAAGGTTTAATAGAAGTAACCTCTACTTTTACTATTTCATTAACCTTCATAAAGCCCGTCCTTGGAAGTATTATAACATAAAATTCTTATTATTGAATATTTATTTAAAAAAATGTATAATTTATTTACGGAGGAAATTATGGAAATAATTGATCACATAAAATATATTATTGAAAAAATTAGACCATATATGATAGGAGACGGCGGAGATGTTCAATTTGTCAAATATGAAGATGGTATTGTATATATAAAAATATCTGGTGCTTGTGCAGATTGTGCATTAGCAGATACAGAAATAACTGATACTGTGGAAACTATACTTACTTCTGAAATACCTGAAGTAATAGCAGTTGAGGTAGTAAAAGAAAAAAAAGAAGACTAAGTCTTCTTTTTATTTTGCTTCTTCGATTGCTCTTGTTTCTCTAATAATAATTACTTTAATAGTACCAGGATATTGAAGTTTTTCTTCAATTTCATCTTTAATAGTTCTAGCTAAAGTAACAGATCCAAGTTCATCTATTTTTTCTGGTTTAACAACTACTCTAAGTTCTCTACCAGCTTGAACTGCATAAGTTTTATCTATTCCATCATGAGAGTTAGCTATTTCTTCTAATTGCTCTAATCTCTTAATATAGTTTTCTAATGAATCATTTCTTGCACCTGGTCTACTTGAACTAATAGAGTCTGCTATTTGAACTAAAGCAGAAATAATACTAGTTTGAGCACAATCTCCATGGTGAGACATAATTGCATTAAGTACTACTGGATCTTCTTTATATTTCTTAGCTAAATCAGCTCCAATATCAACATGTGATCCTTCTACTTCAAAGTCTATTGCTTTACCAATATCATGAAGTAATCCTGCTCTTTTTGCAAGTGTAACATTTTCACCAATTTCACCGGCCATAATACCGCATAGATTAGCTACTTCGATTGAATGTTGTAATACATTTTGTCCATAACTAGTTCTATAATGAAGTCTACCAACAGTATAAACAAGTTCTGGATCCATAGTACCAAGTTTTAACTTGAATAAAGCTTCTTCACCTTTTTCTCTAATCTTAGTTTTGAAGTCTTCACAAGTCTTATCATATAATTCTTCAATTCTTCCTGGATGTATTCTTCCATCTTTAATTAAAGCTTCTATTGTTACTTTAGCTATTTCTCTTCTAAGAGGATCAAATGATGAAATAACAATAGCTTCTGGAGTATCATCAATAATTAAATCTACACCAGTAACAGCTTCAATTGTTCTTATATTTCTACCTTCTCTACCAATTAATCTACCTTTCATTTCATCATTAGGTAAAGTAATTACTGATACAGTAGCTTCGTTAGTTACATCAGATGAAAACTTTTCCATAGTAGATACTAATAGATCTTTAGCTTTTCTATCAACATCTAATTTAGCTTTGTTTTCTTCTTCTTTAATATAACTAGCTATTTCTTTAGACATAGTTTCTTTAACTTTGTCCATAATCATTTTTTTAGCATCTGATTTAGAAAGTCCAGAAACTTCTTCTAATCTTTGAAGTTCTTCTTTTACTATTTCATTTGCTTTATCTTCCAATTTTTGAATTTCTTTTTGTCTTTGAATTAAACCATTTTCTTTGTCTGATAACATTTTTTCACGGTCTTGAAGTAATTGATCTCTTCTTTCAATACCATTTTCTCTTTGTTGAAGTCTATCTTCAATTTCTTTTGCTTCTTCTTTTTTATCTTTTAATTCTTTTTCAAATTCTTGCTTTAATCTATGTTGTTCTTCTTTTAATTCTAAAACTGCATCCCTTTTATATTTTTCAGCTTCTTTTTTAGCCTTATCAATTATTTTATCAGATTTTTTGTTATTAATTCTTGAGATTATAAAGCATACTATTGCTGTTATAACTACTCCTATAAGTAACCCAATAATGGAAGAAATTAAAAATTCCTTATCCATTTTTATCTCCTTATATATAGACGCTAAATTGTCTATACATTTATAGTATAAAATTATTTTTAAAGATTGTCAATGTAATAAAAAATAAGCTAAATATTAGCTTATTTTTTTGGCTTTAAATCATGTTTTGCTCTAATTTTATTTTCTAATTCATCTCTTAATTTTGTGTTTTCCTTTAATACTGCTTTAACTGATTCTCTTCCTTGACCTAGTTTTTCACCGTTATAGGAATACCAAGACCCACTCTTTTCTAAGATTCCATCTTCTGTTGCAATATCAATTATTTCTCCTTCTTTACTAACACCAGTTCCATACATTATTTCAATGTTAGCTGATTTAAATGGAGGAGCTACTTTATTCTTAACAATTTTTACTTTAGTATAATTACCTACTATATTTTCACCCATTTTAATAGCTTCTGCTTTTCTAACATCCATTCTAATAGTTGAATAGAATTTTAAGGCTCTACCACCAGTAGTTGTTTCAGGATTACCAAATAGTACTCCTACTTTTTCTCTTAATTGGTTAATAAATATAGCTATTGTATTTGTTTTATTAATAGTACCTGCTAATTTTCTAAGTGCTTGAGACATAAGTCTTGCTTGAAGTCCTACATGACTATCTCCCATTTCACCTTCTATTTCTGCTTGAGGAACTAAAGCTGCTACAGAGTCTATAACAATTATATTAATAGCTGCGCTTTTTACTAACGCATCACATATTTCTAATGCTTGTTCTCCAGTATCTGGTTGTGATAATAATAATTCATCTATATTAACTCCTAAGTTCTTAGCATATACAGGATCTAAAGCATGTTCTGCATCTATAAATGCTGCTCTACCTCCTAACTTTTGAACCTCTGCAATTGCATGAAGAGCAAATGTAGTTTTACCAGAAGACTCAGGTCCAAATATTTCTATTATTCTTCCTTTAGGGTATCCTCCTACTCCTAAAGCAATATCTAATGCAAGTGATCCACTAGATACTGTATCTATTTCCATCTTAGCGTCTCCACCAAGTCTCATTATAGAACCTTTACCAAATTGTTTTTCAATATCAGCCATTACTTGACTTAAAATTTGTTCTTGATCTTTATTTATTTCTTTTGCCATTTAATATCCTCCTATTAACTGAATACAATAACATTATAATATGCATTAAAATATAAGTCAATAGTTTTTCAAACATTTGTTTGTTATTTTACAAACGTATCTAAAATCCTTATTTTATATAACAAAAAAAGAATTTTTGCTTGAAAAATTCTTCTAAAAAACTATTTTGTAATAAATTTTTTTGCTCCCATATAATATCCTATACCAGATATTAAAGAAAGAACTGTAGCAGTTATAATTAAGAAATCTGCTACTGGTAAATTCCATAAACTAAATGGTAAATTACCAACTAGTTTTAATGTAATACCTATCATTAAAAATGCAGTTTTAAACTTACCAAGTTTACCAGCAGGTAATACTTCACCTTGTTCAGTTAAAAGCATTCTTACTCCATCTACTACTATATCTCTAGATATAATAATTACTGGAATAATAGTAGCTATATAACCTTCTCCTGCAAGTATAATTAATAAACTATTAACAAGCATTTTATCTGCAATTGGATCCATTAATTTACCAAAATTAGTAACATAATTATATTTTCTTGCTATTTTACCATCAAAGAAGTCAGTTATACTTGCTACGATAAATAGTACTGCACAAATAACTAGTTTCACATCTAGGATAGCTACTCCATTAATTAGATACTTTGGAAAATTATAACCAATCATATCATAAGGGAATAAAAATAATATAATAACTACTACTGCTAATATTAATCTAAATATAGTTAATCTATTAGGTAGTTTTGGACTTGGTGCTTTACTCATAGATTTATCCTTTCTACATAACTAACATCAAAGTTAGAATTTGAATTATTATCAACTATCATATTAATAATAAATATAGCAGCACATAAGAATAATATTGCTAAAAGACCTATAACTATATATTTAATATAATTTTTTCTATTAGCTTCAGTATTAGTATATGGAGATGCTATTTTACCATTATCCATTTTTTCTAATTTCTTACTTGCTTTAGCTATTTCATTTAAAGGTATTTTAGAAGTAGATTCAAATACAAAGTCATTAAATTCATCTATTATGTCTTCTGTTTCTAATCCTAAATATTTAGCATAATCTACTATTATAGTCTTAAGTAAGAATTTATCTTTGAAATCTTTAAAGTTACCTTCTTCTATTGCTTTAAGTTGAGATGCTTTATAATCTATATCAGAAGCTGCTTCTTCTAAAGATAATCCCATACTTTCTCTTTTTTCCCTTAATTCTTCTCCTATTTCTTTCATATAATCTCCTTAATAT
>sequence29
GAAGGTTCTATTACAACTCCATTTGATATGAGGGTTCTAAATAAAATAGATAGATATCATCTAGTATTAGATGCTCTAAGATATGTTCCAAATGATGAAAAAGAGGAAGAACTAAGAAATTATTGCCTAGGTATGCTTGAAAGACATAAAAAACATATAGTAGAATTTGGAACAGATTTACCTGAAGTAGAGAACTTTAAATGGAATAATAAAAAAGATATTTAATATCTTTTTTTATTTTATGTTATAATCATACAAGAAGGAAGTGTTATTATGGTTGTATTAGTTACAGGTTCAAGTAGGGGTATTGGAAGAGCCACTATTTTAAAATATGCTAAAGAAGGATATGATATAGTTATTAATTATATTGATTCTTTAGAAGACGCAAAAAAAGTGGAAGAAGAAGCTAAAAAATATGGAGTAAATACTTTAATAGTTAAATGTGATATATCTAATGAAGAAGAAGTTATAAATATGATGAACACTATTAAAGATAAATATGGAAAAATAGATGTATTAGTAAATAATGCAGGTATTGCTATTGATACTACATTTGAAGATAAAACTGTAGAAAATTTTAGAAAGACAATTAATGTTAATTTAATAGGTACATTTATAGTTTCTAAACATGTACGTAGTATTATGGATAAAGGTGTAATAATAAATATTGCTAGTACTAATGGAATAGATACTACATATCCAGAATCATTAGATTATGATGCTTCAAAGGCAGGAGTAATATCTTTAACACATAATTTAGCTATGCAATATGCTCCTGATATAAGAGTAAATGCTATTTGCCCTGGATGGGTTAATACAGATATGAATAAGGATTTAGACCCTGAATTAATAGAAGAAGAAACTAAAAAAATTAAACTTGGTAGATTTGCAGAACCAGAAGATATAGCAGAAGCTGTATATAATATTTCAATTAGTAAATATATAAATGATGCTATTATTAGAGTGGATGGTGGAGAAGTTGCTTGATTTTGAGACTATTGTTAGTAATGAAGAATATGAATTAAGAGATATATATGAAAAGATAGATAATATATGTTTATTTAATTCAAATAAAGTATTAAAGGCATTTAAGGATAATAATGTATCAGAAAATTGTTTTAACTCTACTACTGGTTATGGATATGGAGATATAGGTAGAGAAACTATAGAAAAGGTGTATGCAAGTATATTTAAGGCAGAAGATGCATTAGTTAGATCCCAGTTTATATCAGGATCTCATACATTAACAGTTTGTTTATTTGCTTTACTTAGACCAAATGATTTATTATTAAGTATCTCAGGAACTCCATATGATACTCTACATGAAGTAATAGGTATTAAAAAGAATGATAGTTCTTTAATGAGTTATGGTGTTAAATATGATCAAATAGAGCTTATTAATGATGATTTTGATTATGATAAGATAAAAGAGTATTTAATTAATAACAAGATTAAAGTAATAGAAATACAAAGAAGTAAAGGATACTCTACTAGAAAGAGTATATCTGTGGATAAAATAGAAAAAGTAACTAAATTAATTAAAGAAATATCTCCAGAAACAATTATTATGGTGGATAACTGTTATTGTGAATTTGTTAATAAGAAAGAAGTAATAGAAGTAGGAGTAGATATAGCTTGTGGTTCACTAATAAAGAACTTAGGTGCTGGTATAGCTCCTAATGGTGGATATATAGTAGGTAAAAAAGATTTAATTAAACTATGTGCTGAAAGACTTACATTACCTGGAGAGGGTAAAGAAGTGGGTCCTACATTAGGTAATAATAAAGCTATTCTTCAAGGTTTATTTTTAGCTCCATCGGTAGTTAGAAATGCTTTAAAAACAGCTATATTAACTGCTAAAGTAATGGAGAGTTATGGATATGAAGTAGAACCTAAATATAATGAAGAAAGAGTAGATATAGTTCAAAATATAATATTCCATGATAGAGATAAATTAATTAAATGGTGCCAAGGTATTCAAAAAGGTTCTCCAATAGATTCTAATGTTATTCCAGTACCTGCATATATGCCTGGTTATGATGATGATGTAATAATGGCCTCTGGTTCATTTACTCAAGGATCTTCTATAGAACTAAGCTGTGATGGACCACTAAGAGAACCATTCTCTGCATATCAACAAGGTGCTATGACTTATGAATATGGTAAACTAGGTTTAATTAGTGCTTTAATGGAGTTAGAAAATGAATGAAATAGATAGAATTATTCAAGATGTATTTGAAGAAAACCAATTAGAAAAGATTAATGATAAATTATATTTAACTAAGAGACAAATAGATATACTTAAAAGAAATGATATAGAGTATAAATCTAAATCTATTGATCAATTAATTTTTGAATTAGAAGATATATTAAACTATGAAGAAAATGAGGAATTAGATAGATTATCATCTGAATTATCAGAGTTTAATTATTATCATAATACTAATAAATAAGGAGTTAATATGAGAGGTAAATTAATAGTAGTAAGTGGACCTTCAGGAGTGGGTAAAGACACAGTAGTATCTGAATATATAAAAAGAAATAATAATACTTATTTAAGCATATCTTGTACATCTAGACCTATTAGAGATGGCGAACAAGATGGAGTTAATTATATATTTCTTTCTAGGGAAGAATTTGAAGAAAGAATAAATAATGGAGATTTACTTGAATATGCTGAATATAATGATAATTATTATGGAACTCCAAAATATAAAATGGAAGAAGAACTAAATAAAGGTAAAGATGTAATACTTATAATTGAAGTTCAAGGTGCTCTTAAAGTAATGGATATATATCCTGATGCTTTATTTATATTTATACTTCCTCCATCAATGGATGAATTAGAAGAAAGACTTATTAATAGAGGAACTGATTCTATAGAATCTATTAATAAGAGATTAGAAACTGCTAAAAAAGAGATAGAAATATCTCCTAAATATGACTATAGAATTATTAATGATAATTTAGATAGAGCAGTATTAGAATTAGAAACTATAATACAAAAAGAAAAGACTGAATAATCAGTCTTTTTTAATTTGTTATATTTACTGTTCTAGCAGTAGGTAATGTATATGTTTTACCTTTATAAGTTAATGTATAAGTAATTGTATAACTACTTATTCCTTCAGTAACTTTAGGAGTACCATCTGCATTACATGCTGTACCATTACAACTAATACTTAATACTGGATCATTAACTGGATTTCCAGAATTGTCTTTAACTGTAACATCATCTTTAATATTATTTATTTTAGTATTTGTACTATCAATAAATGCATCAGTAGATTTACTATATCTAACTGGATTATAAGTAAATGAATTAGTGAATGTTTTTGGTTTATCACTATCTAATCCAGTAACTTCTACAGAAGTACCACTAGCTCTTACAATTGAATCATTTTGCCATGTTGTTTTAACTATATAACTAGCATCATAATCTTTTCTAGTAGCTGTATAATTTGTATTATTAGTAAATCCTAAATAAGTTTCATTACCTGTATCATTATTCTTTTCAATTACTATATATCCCCAAGATCCAAGTTGTGCTTTTCTTTCTTCTAACATTTCATCTACGTGTTTAGCATAGAATACTTCATTTAATTTCTTAAAGTTATCATCTGAATAGTATTCTGGAACATCTACTGCATTCCATTTTAATGTAACATTTGTATTAGTAGATGTTGCAGATAATCCAGTTACACTTGGAAGTACATCATATCTATGTGATGTACCAGAAGGAAGTGCATCTTTAGCACAATAATCAGTAACTCTCATATCTTCTGGTGTATTATCTCCTGGAAGTAATCCAGGGTTTGTTTCTTTTTCTATAGTTACTCTTGTAACGCTGGAGGGTACTTTGAATCTTTTACTCTTATCATCAGTAACTAAACTAACAACATTTCTAAAGATTTCATTCTTCTTTCTACCATCATTATTAGTATTATAATAACCAGTTTCTAGTGAATCATAACCATACCAAATAGCTACAGCATATTCAGGAGTATATCCAACAGTCCACATATCATTAATAGCACTAGATGGATATCCATATCTTTTTCTTATTGAACTTGTAAAGTTTGTAGTACCAGTTTTAGCAGCTAATTGAACACCACTAACACCACCACCAATATTTCTATAACTATTAACAGCCCATAATAATGAATCTGTTATTTGCCATGCTGTTGAATCAGACATAGCTCTTTGAGTTTTATTTTTTAAACTAACTGTTTTACCAGTATCTATATATTCTACTTTAGTAACAGAATATGGTTTAGTAAAATATCCACCATTAGCAAATGC
>sequence30
AAGTTCTAATCTTTTCAGATCTATCTCCTGTACCTATCTTACTTCTTCTTTCAGAACCAACTGCTTCTTCTTGTTTTCTAATTTCTTCATCATATATTCTAGATTTTAAAATTTCCATAGCTTTTTCTTTATTTTTTAATTGGCTTCTTTCATTTTGACAAGTAACTACTATTCCTGTAGGTATATGAGTAATTCTAACAGCAGAGTCAGTTGTATTAACACCTTGTCCACCAGCTCCAGAAGATCTATAAACATCAATTCTTAAATCTTCTTCTTTAATTTCTACATCAACATCTGTCATCTCTGGCATTACTAATACTGTTGCAGTTGATGTGTGAACTCTTCCTTGTGATTCAGTTACTGGAACCCTTTGAACTCTATGAGCTCCTGATTCATATTTTAGTTTAGAGTAAACATTTTCACCCTTAACCATGAATTCTATTTGAGAATATCCACCAGCAGTACCTTCTTCAGCATTTATTATTTCTATTCTCCAGCCCTTACTATCAGCATATCTACTATACATTTCAAATAAGTCACCAGCAAATAGATTAGCTTCATCTCCACCAGCAGCTCCTCTTATTTCAACAATGATATTTTTATCATCGTTAGGATCCTTTGGAATTAGTTCTACTTCTATTTGTTTTTCTAAATCTTCTTTTTCAGTTTCTAAAGAAGCAATATCTTCTTTAGCTAATTCTGCCATTTCAGGATCATTAACTAATTCTTTAGCTTCTTCTAAATTCTTTAGAACTTCTTTATATCTTTTATATAAATTAACTACAGTTTCAAGACTAGATGCTTCTTTTGATAAGCTAGTCATAAGCTTAACATCATTTATTACTTCCATCTTAGTAAGTTCTGCACTTAATTCATTATATCTATTTAAAATTGTCTCTAGTCTTTCTATCATAGTTATCACCTATTCGTCTAAATCTTCTTCATCTATAATAGTTAATTCATTAAAGTCATCTTCATCATTATCAGAATCATCAGTAGCTTCATCAGAATAATCATCTTCTAAATCATCACTAACTACATCATCTTCATCTTCTTCAGACTTTTCAACATCTTCTGTTTCTTCCTCTTCATCATCAACTACTATATTTGCTTTATGATTTTCTTTTAAATCCCATAAAGAACTATTTATTAATATAAATCTACCATCAGTAGTTAAAGCAGTAAAGAAATCACCAATTTTTTCTTCAAATTCAGCATCATCAAGTTTTAATAACTTACATACTTCTTTAAATAAATTAGGTGTATTAAATTTCTTACCCTTTTCCTTAATTACTTCATAAGCTATATCAGTATAACTCATTTGTTCTAATTCTTCGATTGTTTTTTCTTTTAAACTCATTATATCCTCCTACATCTTATTTGGCATTTCAATACCAAGTAAATTCATACCAGATTTTAATATTTCACCAACCATGCTAATTAAGTATAATCTCGTTTTTCTTATTTCATCATTGTCATCTAAAACTTTATTATTACTATAGAATGAACTATATTCATTAGCTAATTTAATTAAATATCTAGATAATAGATATGGTTCTTTCTTATTAATAACTTCATTTAATACACTATTATAACTATAAATAGTTTTAATTAGTGCATATGACAAATCATCTGTTAATTTATCATAACTAACATTATTTAGCAATACTTCATCATTTGTTTTCTTTAATATACTTTGAATTCTTACATACATATATTGAATGTATGGACTAGTTTCACCTTGGAAATTAAGCATAGTATCTAAATCAAATACTTCATCTTTAATTCTTGAATTATATAAATCACTAAAGATAACTGCACCAATACCAACTTTTTTAGCAGTTTCATCTATATCTTCTAATTCAGGATTCTTTTCTAATATTACTTCTTTTGCTCTAGATATAGATTCATTAATAACGTCTTCTAGTTTAATAAAATTACCTTTTCTAGTAGACATTTTACCTTCTTTTAATGAATATAATCCATAAGAAACATGTTCTAATCCATCAACATATTTTTTATCTAAATCAAGATATTTAGCTACTGCAAATACTTGTTTAAAATGTAAATCTTGTTCATAACCTGTAACATATATACATTTATCAAAATCATATGTTCTAGCTCTATATAATATAGCAGCTAAGTCTCTTGAAGCATATATACTACTTCCATCACTCTTTTTAACAATACATGGAGCTTTAATACCTTCATCTGTTAGATCTACTATAGTAGCTCCTTCACTTATTTGAAGTTTATTTTTAGCTTCTAACATATTAATTACTTCATCTATTGAATCAACATAAGAAGCTTCTCCTCTAATACTATCAAAATGAATACCAAGCATATCATATGTCTTTTTAAATTCTTTTAAGCTTAATTCTTTAAATTGTTCATATAATGCTACGCATTCAGGATCTTTATCTTCTAATTTTCTAAAGTTTTCTCTACATCTTTCTAGTACACTTTCATCATTAGCACATAAATCATTTATTCTTACATAGATTTCTACTAATTTATCCATAGAATCAGTACTTAAATCATATTCAGAACCCCATAATTTATAACCTTCAATTAATTTACCAAATTGAGTACCATAGTCTCCTAAATGGTTAATACTAATAGTGTTATATCCCATATATTTAAATATGTTATATAATGCATGTCCAATTAAAGTAGTTCTCATATGTCCTATATGGAATGGCTTACATACATTTGGAGATGAATATTCAATTAATACAGTCTCACTATGTTTTTCTCTACCATAGTTTTCTTTATCATTATCATATTCACTAAGAACAAACTTAGCTAAATATTCTCTATTAATAAAGAAATTAAGATAACCATTAACACTCTCTATTTTATCTATTCTTTCATCTTTAATCTTTTCTACTAATTCATTAGCAATATCTACTGGTGATTTATGCATTTCTTTAGATAAACTAAAGCATGGAAAAGCATAGTCTCCTTTAGAAGAATCCTCTATTTCCTTAATATAATCATAAACATCAATATTTATCTCTTTTTCAATTAAAGAAGAAATAATTTGTTTTATATCTATCATATTCTACTCCTTTATAATTATTTTAATTTCAAAATTACCAGTATATTCGCTTTCAATATAAAGTCCGTAATCAATTATAACTGATTTTTCAGTTATTTCAAGACTATTTGTAATTATATTTAAATTAAAAGTGGTATTCATTTCTTTTATTTCATATAATCCATTAGATTTATTATCTTTATCAAATAATATGCTTATTTTAGATTCTTTATTTTCTTTATTCATTTTAATAGTTTTATCTATTATAAACTCATAATTATCTTCATCAGTATTAAATGATAGTTTATTACCTTTTTTAGTATAATTAATACCTTTAAATTCAGTTAAACCATCATTATTTTTAATAAATAAATCTAACATGTAATATTTCACCACTTTTTCAAGTAAAAGTATATCATATATATAATAAAAAACCTATTATTTTTCAATAAAAAAATGAAGATTTACATCTTCATTATTCATTATCAATTATCTTTATTACAAATTGAGATATGTTACCAAACTTAAATTTGTCATATGAAGCTTTTACACCTTGATTAGATAAACTATTAACTAGTTCTACTATTTTTTGTTCAGCAAGTTCTGAATCAGGTTTATCTTCTATCATATTAAGTGTATTATCTTCAATTAATTCAGGCTCTTCATATGTAATTGAACTAGATGAGAATCCTCTTGATTTAATAGGTTCTCTATATTCAGGAGATTCTAATACTTCTCTATGATCTTCTTCTTTTTGTAATTCATCAATTTTCTTTTGAATTCTAGCCATAATAGCATCTATATCAAATTCATCATCTTTTGTTTCTTTTACTGGTTCATTATATGGATTACTATATGGTTTTTCTTCTACTGTTGGTTTAGATAACATTTCATTTATCATATCATCAGTATCTTTAACATTAATTCTATTTTCAATTATAGTATCTAATAATTCTTCTTGTTTAGTTTTATCTTCTATTCTAAGTAAACTTCTAGCATGTCTTTCAGATATTTTATTATTTA
>sequence31
ATATTTATTTGAAGAAACTTTGGAGTTTATTCGCTAGTTAGCGTTATAACTAAAAGAGCATAGAAATATCTATGAAGTAGGGTGGTACCGCTATTAATAGTCCCTACATCGTAGGTATTTTTTTCGTTTTAAGGAGGAATAAAAATGACAAATAAAGAATATGCAGATTTTCTATTACCTAATGTAAAACATACCTGGGAAGAATATGAAGCAATGTACCCTGAAAGAAATTTACCAGAAGGAGCAATAGTTACTAGATATGCACCTAGTCCTACTGGACTTCCACATATGGGTAATTTATTTCAAAATTTCATGTCTATGGTATTTGCTAATCAAACTAATGGAGTATTCTTTTTAAGAATAGAAGATACAGATACTTCAAGAACTGTTGAAAATGGTATTGAAAAGATATTAGATGCTATTAGACCTTTTGGTATTAATTTTACAGAAGGTGCTATATCTGAAACTGAATATAAAGGAGAATATGGTCCATATATTCAAACACAAAGAGAAGATATATATAAAGCTTATGCTAAAAAATTAATCGAAGAAGAAAAAGCATATGCATCTTTCTTATCAAAAGAAGAATTAGAAGAAATAAGATTAAAACAATCTGCTAATAAAGAAAGACTTGGTATATATGGTAGATATGCTAAAGATAGAAATCTTTCTAAAGAAGAAACTATAGAAAGAATTAATAATGGAGAAAGTTATATTATAAGAATAAAATCTCCAGGAAGTTTCTTTAATAAAGTTAGATTTAATGATTTAATTAAAGGTACTATAGAAATGCCTGAAAATGATATTGATGAAGTTATTATTAAAAGTGATGGACTTCCAACATATCACTTTGCACATGTAATAGATGATCATTTAATGCATACAACTCATGTTATTAGAGGAGATGAATGGGTATCATCAGTTCCTAAACATTTGCAATTATTTGAAATGTTAGGATTTGAACCAGTTAAGTATGCACATTTAGCACCACTTACTAAAAATGATAATGGTACAGTTAGAAAACTAAGTAAGAGATTAGATCCAGAAGCAACACTTGCATTTTATCCTGAAAATGGTATACCAACAGAAGCTATAATGCTTTATTTAGCTACTATTACTAATTCAAATTTTGAAGGCTGGTTAGATCAAAATCCAAATGGAAAAATATCTGACTTCAAATTTGATTTCAAGAAGTGTTCTTCATCAGCAGGTACTTTATATGATTTACCTAAGTTATATAATATTTCTAAAAATTATATTAGTAGACTTACTAAAGATGAAGTATATGATGCTGCATTAGATTATGCTAAAAACTATGATGAAGAATTAAAAGATATTTTAGAAAAATATCCTGATTATTCTAAAGAAATCTTTAACATAGAAAGAGAGCAAAAGAAACCAAGAAAAGACTATGAAAAGTATTCTGATGTTAAAGGTCAAATTTGGTATATGTATGATGAACTATTTGAAAAGTATAGAGATGATGCAGGATATGATTTTGGGTCTATAACTGATAAAGATGAAATTAGAAATATAATAAATACTTATATTGATAAATATTATAATGATAACGATGATAAAGAAACTTGGTTCAGTAACATTCAAAAATTATGTGATGAATTAGGTTATGCATCAAATATGAAAGATTATAAAGAAAATCCAGATAATTATAAAGGTAATGTAGCAGATGTGTCTACTGTTATTAGAGTATCTTTAACAACTAGATCTATGACTCCAGACCTATATGAATTATTAAAATTAATTGGTAAAGAAAAAATAAAAGAAAGATTTAACTTAATCTAATATATATGTTATACTTAAAGTAGGAGGAACAATATGGAAGAAGTAGTATTTAATAAATCAAGACTAAAACCAGATGAGATAACTGAAGTTTTAGATAAAGCTAGAATTGTTCTTAGAAATACTAGTGGTGAATTTGTTCTATGTAGATTCAATAGAGTTTACTTTTTACCAGGTGGTAAAATGGAACAAGGAGAAACTCCAAAAGACACTATTATTAGAGAAGTTAAAGAAGAAACTAATATAGATGTAGTTTTAGATAGTGATGAACCATTCTTATTAGTTAAGAATTATCTTAGAGATTATGATATAGTAGATGGAACTATTCAAAATAGATTAGTTAATACTTATTATTTTACAGGTGTTACTAGATCTGATGATATAGAATATTTTCATCAAACTAAGTTAGAAAAACAAGATAGTTTAAGAGGTTTCTTTATTGATATGGAAGAAGCTATAGAATTATTAAAAGAATATGATGAAGATGATGAAAAAGCTAAATACTTAGCTATTGAAACTTTAGAAGTATTAAATAGATGTAAGAGAGGTAATTAATATGGAAAAAAATGTATATAAGTTAGCAGATGATTTTTTAAGTAAATATTCATTTACTATTGCATGGAGAATTAAACAACATGCAAAAATTATGGAAAAGCATTTAAATAGTGATGAAGAAATATTCTATTTATTTGCTGCTCAAAAGAATCCAAATCCATTTGATATTTTTTCAACTTGTTTAGTTGCTTTAACTAATAAAAGAATTATGGTAGCTCAAAAGAGAGTAATATTTGGATATAATTTAAAATCTGTTACTCCAGATTTATTTAATGATTTCTCTGTATATAAGGGAATTATATTTGGTAAAGTATATATAGATACTGTTAAAGAATTTATAGCATTATCTAATATTGATCCAAAAGCATTACCTGAAATAGAGACTAATCTATCAGAATACTTACTTCGTATTAAAGAAAAATATGGTAAGAAAAACTATACTGAAGCTGAAGAAACAACATTATCTTATAGTTTTGATCAAGAAGAAGAAAAACCATATAAAGATGAATAAAAATTGTTGTATTTAAACAATTAATTTGATATAATTAAACATGCGATGGACCTATAGCCAAGTGGTAAGGCACGGGACTGCAACTCCCTGATCGTTGGTTCAAATCCGACTAGGTCCTCCATGATTTGCAGGTGTAGTACAACGGTTAGTACGTGGCCTTGCCAAGGCTGAGACGGGAGTTCGATTCTCCTCACTTGCTCCATTTGTAAAAATCGTCGGAACAACCGATGTTGAGATAAAGCTTAATTCGAGAGAATTAAGTTTTTTTGTGTTTAAGAAAGGTTGTGATGATATGTTAAATATTATTAAAGAAAAACTTGATTTAAGCCCTGATTTAAAGAAAAAGATTAATTGGGCTAAGAATTATACTTCTACTTCAATAACTCTTGAGAAAGGTCATTTAATTAGATTAGAGCCATCTAATCTTGCTTATGTAGATCCACATAAAGTTAAGATTAATAATTATACTTTCTTGTTCTTCAATGGTGTTAATACTTTCTATGTTAATAATCTAAACGAACAACACAATTTATCAGAACTAGAAAAATTCTTTAAACTAGCTAAATGCTCTTAATACTATTCCCTCAATAAGGAATTGACAATTTCTTAAAAAGTGATATTATAAATAACCAATGAAAGAGGTAACTCTAGAAATGGAGGTACATCTATGAAAATAAAACACAATATACCCGAAATTTATAATATTGAATTTAATGAGGAGTCAGTAGTATTTAGACTTTACTAGATACTATTGTCTCCTCTTTTTTAGTAATAAGGAGGTTGAATATGGAAGAAGAAAGAAAAGTTGCAGGTATTTATATTCGTGTATCAACTGAAGATCAAGCTCGTGAAGGATTTAGTTTAGGAGAACAAGAAGAAAAACTAAAACAATTATGTGATTATAAAGGTTATGAAGTATATAAAGTATATTGTGATGC
>sequence32
GAATTCACCCTTTAAGCTTATAAGTAATGTTATACGTTTATTCGCGTTAAGAATTAAAGAGCATAGAAAATCTATGAAGTAAGGTGGTACCGCTATTATTAGTCCTTACATCATAGATTTTTATTTTTTTAAGGAGGTTATATGAATTTAGATAATATTATAGTAAATACACAAAGTAGTATTAAATTAAATTTAAGTAAGATTATATACTTTGATCCGTATAAAATAGATAAAGAATATAATGATGCAGATATAATATTTATTACTCATAATCATTATGATCATATGGATGAAGAATCTATTATGAAAGTTAAGAATGATAATACTATTATTGTTGCACCTAAATCTATGGAAGATGTTATTAAGAAAATAGATTTTAAAGAGTATGTATTCTTAGAACCTTTTGAAAATAAAGAGTTAGATGGTATTAGTATTAATGCTATACCTGCTTATAATATAGATAAACCATTTCATCCAAGAAGTAATAATTGGTTAGGATATATTATAAATATTGATAATATTACTTATTATGTTGCTGGAGATACAGATGCTACTCCTGAAATAGAAGATGTAAAATGTGATATAGCATTTATTCCAATAGGAGGACATTTTACAATGGATGTTAATGAAGCAACAGAGTTAATAAAGAAAATGAATACTAAAATAGTTATACCAATCCATTATGGATCTATTATTGGTAATATAACTGATGGAAAAGATTTAATAAATAATTTATCTGATTACAATATAGATGTAATAGAAAAATTAAAGTTTAATTAGGAGGAAAATATGAAAGAGAAAGTAGAAAGCATTAGAGAATCTTTAAATACTGATATTAAAGAAGTAAAAACTATTCAAGATGTAGTAGATATTAAAGCTAAATATATAGGTAAAACTGGTTTAATATCAGAACTTACTAAAGGTATGGCAGAATTATCTATCGAAGAGAAAAAAGAATTCGGTATGATTATTAATGAACTAAAAAATGAAGCTAATAATTTAATCTTTGGTAAAGAAGAAGAAATTAATAATGTATTATTAAATGAAAAATTAAATAAAGAAGCAATAGATATTACTTTACCAAGTAAAAAGATTAAAAGAGGATCTTTAAACCCAATGACAAGAATAACTGAAGAATTTGAAGATTTATTCGTATCAATGGGTTATACAGTATTTGAAGGTCCAGAATTAGAAACTGATGAAAACTGTTTTAGAAAATTAAATTTACCAATAGGACATCCTGCAAGAGATGCTCAAGATACATTCTATTTAAAAGATGAAGTAGATGAATATTTACTTAGAAGTCAAACTTCTACAGCGCAAGTACATGCTATGGAAGATAATGTAGAAAAAGGACCTATTAGAATAGTTTGTCCTGGTAAAGTTTATAGAAGAGATGAAGATGCTACTCATTCACATCAATTTATGCAAATTGAAGGATTAGTAATTGATAAAAATATTTCTATGGCTGATTTAAAGGGTACTTTAGAAACTATGATGAAACATGTTCTTGGAGAAAAAACTGAAGTTAGATTTAGACCTAGTTATTTCCCATTTACAGAACCATCAGTAGAAGTAGATGTTACTTGCTTTAAATGCGGTGGAAAAGGTTGTAACCTTTGTAAAGATACTGGTTGGATAGAAGTTCTTGGAGCTGGTATGGTTCATCCTGATGTACTTACTATGAGTGGATATGATCCAAAAGTATATCAAGGATTTGCATTTGGTACTGGATTAGATAGAATGGCAATGTTTAAATATGGTATTCCAGATATTAGAACTATATATGGAAACGATTTAAGATTTATAAATCAATTTGATAGAAAGGATGAAGAGTAATGTTATTAAGTAAGAAATTTGTATCTGATTATATAGATTTAGATGAAAACTTATCTATTACTGATATAGCAGAAAGTATGACTTCTGTAGGAAATGAATATGATTATGCTGGACCTCTTATTAATGCTACTAAGCTTGTTACTGGTGAGGTAATAGAATGTGAAAATCATCCTGATTCAGATCATTTACACGTATGTAAAGTTAATGTAGGAAGTGAAGTATTAGATATAGTATGCGGAGCTCCTAATGTAAGAAAAGGATTAAAAGTAATAGTAGCACTTGATGGAGCTAAACTTCCTGGTGGAGAAATTAAAAAAGGTGTTATTAGAGGCTGTGAATCAAATGGTATGATTTGTTCAATAGCAGAACTAGGCTTAGATAATAAATTCTTAAAACCAGAAGATAAAGAAGGTATACATGAACTTCCATTAGATACTGAAATTGGTATTGATGGAATTAAAGCACTTGGATTTGATGATGAAGTTATTGATTTTGAACTTACATCAAATAGAGGAGACTTACTAAGTATTATTGGTATGGCTTATGAACTAGGTGCTATATATAATAAAGAAGTTAAAGATATAGATTTATCTTATAACTCTAATAGTGATGATATTAATAACTCATTTAAAGTAGATATTAAGACTGATGATTGCAGTTTATTCTTAGCTAAAAAGGCTATTAATGTAACAATTAAAGAAAGTCCTGAATTCATTAAAAATAGACTTATAGCATCTGGTATTAGACCTATAAATAACGTAGTAGATATTTCTAACTATGTAATGCTAGAAACTGGTCAACCACTTCATTATTATGATGCTGATAGATTAGGAGATACTCTAATTGTTAGAAATGCGAGTGACGGAGAAAAACTTCAAACATTAGATGGTCAAGAAAGAGAATTATCTAAAGATGATATAGTTATTTCTGATAAAGAAAAAGCTATTGGACTTGCTGGTGTTATGGGTGGTCTATCTACTGAAGTAGAAGAAGATACTAAAAATATAGTTATTGAATCTGCTATATTTGATGCTATAAAGGTTAGAAAAACAAGTAAGAAAATACTTAGATCTGAAGCATCTAATAGATTTGAAAAAGGATTAGATCCAAAAAGAACATATATGGCTATGGAAAGAAGCTGTGCATTACTTGAAAAGTATGCTAATGCAACTATAGTTGGTGGTATATGTGAATATAACAAAGTAGATATGAATGATACAGTTATAGATATTAAACTAGAAAAGATTAAGAGTGTTCTTGGTATAGAAATCTCTAAAGAAGAAGTTGTATCTATATTTGAAAGATTAGGATTCACTGTTATTGATAACGGTGATGAACTAAATGTAACTGTACCATCTAGAAGAAGAGATATTAAAATAGTTGAAGACTTAATCGAAGAAGTTGGTAGAATTTATGGTATGGATAAGATTGAAGGTAAATTACCTGAACTTCCTACTATTAAAGGTTCTTATGATAAAACTAGAAGAGCAATTAAACATAAATTATGTGATTTAGGTTTAAATGAAACTATTAGTTATACATTAATACCTGCTTCAGAAGTTCATAAGTTTACTAAAGATGAATTTACTGAAGTAATGCTTAATGATCCAATGAGTGAAGATAGAAATACACTTAGATATAGTTTAATCTATTCTTTATTAGAAACTTATAAATACAATAAAGATAGAAATATACCTGATGTATCTATATTTGAAATTGGTAAAGGTTTCTACAAGGGTGAAAATGGATATACTGAAGAATTAAAACTAGCAGTATTAATGTCTGGTGAATATGAATTAGATATTCAAAATACTAAAGTAGATTTCTATCATATTAAGGGTATTATGGAAGAACTATTATATTTCTTAGGATACGATAATAGATATTCATTAT
>sequence33
GATTTAATTAATACTGATTCAACAGCATCTTGAATATCTTCTACATCAATAATATCATTTTGAATCTTATCACTGAATTCAGCAGTTACTTTTAATGCTAAGAAATCAATAACGTTTTCATCATATTCCTTTTCTAAACTTTCAAATGCTTTAATAATAGCAGCACTTATTTTGCTAATATCAAAACTAACAATTTTTCCATCTCTTTTTCTAACCTTGTACATCTTTTACCTCCTATATATATCTTACTGTAACGTTAGGTTTATTCTTAAAATGATTTTTTAAATCATTTAATTCATCTTCAGTAAATCCTTCCATCTTTTTATTAATTACTGTATCCTCCATTTTGAAGTTTTGTAAATAATAAGGACTTCCATTTACTAACTTTACTATCTTATCTAGATCTTCTTTTGTGTGCATTCCCTTAATTATTGTTGTTCTAAATTCATGATCTATTTTAGATTCATTAATTAATTTGATACTTTCTATAATCTTATTAGTATCTATTTTCTTATTAATTATTTTATAATAATTATTAAATACTGCTTTAATATCCATAGCTATATAATCTACTAAATTCTTATCAATTATTTCTTTTAATACTTCTGGTTTATATCCATTAGTATCTAATTTTATCTTAAATCCATATTCTTTTATTCTTTCTATAAATGGTATTAAATCATTCCATATAGTAGGCTCACCACCAGAAATAACAACACCATCTAACATATTCTTTCTTTCTTCTAAATAAGAGAATACTTCATCAAGAGAAATATCAGCAGTATTACTTTCTACTAAGTCTCTATTATAGCAATAGTCACAGTTGAAATTACATCCACTTGTGAAAATGATACATGCAAGATTTCCTGGAAAATCTTGAGTTGTTAATTTATTTAATCCACCAATCTTCAAATACTCATCACACTACTTTCTCACTAGGATGTACTTTCATTCTATTATACTTTTCAAAAAATGTAATGTTGCAATTGCAACATTAGTGATTTTTTTATAAAAATGTACATTTAGGTGTCAACTTATGTTCGCAAAATAAAAAAAGCAAGTATTTATACTTGCTTTTTATAAATCTAATGATGGATTTATACCTAAAGAATAATCGTCAAACATTTCTTCTTTAAACATAAAATATCCGGCAGCAGCTATCATAGCAGCATTATCAGTACAATATTTAAGTTCTGGTATAACTAAGTTTATTCCTTCTTCGTTACATAACTTAGTAAACTCATTTCTAATACCTGAGTTAGCAGATACTCCTCCAGCTATTAGTAACTCTTTAGCATTATATTCTTTTAATGCTTTCATAGTTTTCTTAGTTAAAGATTTAATAACCGCATCTTCAAAAGAAGCACATAAATCTTTTTCTCTAATATCATTACCTCTTTGTTTTTCATTATGAACAAGGTTTATAACAGCAGATTTAATTCCACTAAAACTAAAGTTATAACTATCATCATCAAGAGGTATTGGTAAACTATATGTTATTGATCCTTCAGTACTATATTTATCTATTATAGGACCTCCTGGATAAGGTACTCCAATTACTCTAGCAACTTTATCAAAAGCTTCTCCTACAGAATCATCTATAGTAGCTCCTATTTTTTTAAATGATAAATCTTTATCCATATAAATAAGTTCGGTATGTCCACCACTTATTATTAAAGATATAAGTGGAAAATGAAAGTCACTAACTAATCTATTAGCATATATATGACCTACTAAGTGGTTAACTCCTATTAATGGTTTATTAAATGCTAAAGCAAGTGATTTAGCGGCTTCTACGCCCACTAAAAGTGAACCTGCAAGTCCAGGACCTTTAGTAACAGCAATAGCATCTATCTCATCTAAAGACATATTAGCTTTCTTTAGACAATCATCTATAACCATAGTTACAGATTCAACATGGGATCTACTAGCTATTTCTGGAACTACTCCTCCAAATTTCTTGTGTATATCAATTTGAGAAAGTACTGTTGTAGCTATTTCTTCATTACCATTTTTAACAATAGATACTGAAGTTTCATCACAACTACTTTCTATTCCAAGAATATAAGTATCTTTCATTTATTCACCACCCTTACTCATAACGAAGGCATCTTCATCTTTATAATAATGTTTTCTAGTTGTTAAAATATTAAAACCATTCTTTTTATAAAGATTAATAGCTTTCTCATTATTTACATTAACTTCTAAAAAGAAGTTTCTATTACTATAATTATCTAATATATATTTAAGTAATTTATCTCCATATCCATTACCTTGATAATTAGGTAATACAAAGACATCTATTATTTCTAGTTCTGTATCTAAATCAAGTATGCATATAAAACCAATATATTCATTATTTAGTTCATATGCATAGTATTTAGAATTATTAGACATAGATATAATATAGTCTTCTTTATATTCATTAAATAAGCTTAAAATATCGTTATAAGAGACTTCTTTTATCATAGTTTATCCTCTACATCTATTTTCTTTAGATAACTAGGTTTAATATTAAAAGAATTATCTTCTTTATCTTTATAATAATTTATTAGTTTAATTAAGTTTAATTTTGTTTCAGTAGTTCTATTTGAATATGGATATTCCATATCAGTAATAATTAATAATTTAGATGTAATTGATGATAATCTTTCATTAATTTTATCTAGTGAAGTATATTCTTCAGGAATAACTTCATTATATTCTGAATCATATAATCCAAAATAAGCTTTATCATTTCTTTCATTTAATATTACTGCATAATAATCATTATTTTCATACTCAAATACATACTGTTTTAAGGCTGATATAGACTTAACAGGTATATTTAATGCATAAGATAAGGTTTTTGCTACAGTAACGGCTATTCTAGTGCCTGTAAATGATCCTGGACCACTAATAACATATATCTTATTAATATCTTTTATAGTTAGATTATTTTTATTTAATTCTTCATCAATAATAGGTACTAAATATTTAGAATGATCATTAACAGTTTCTTTCTCCACAAGAGAAATCACTTCATCATTTTTAACTAGACCTACTACTAACTTTTTTGAACTTGTATCTAAAAAAAGTGAGATCATGATAAAATGTCCTCACATAAATCTTCATACTTTGTTCCATGAGGTTCAAGTTTAATAATTCTTGTATCCTCATCAATTGCTTTGAAATAGATATCTAATCTTTCTTCTGGAAGATAATCTTTAATCATATCTGCCCATTCTATAATAACTATTCCATCTCTATCAAAATAATCTAATATTCCTGTGGATTTTATATTACCCTCTAATCTATACATATCCATATGGTATAAAGGCATTTGACCTGATAAATATTCTTTAATAATACTAAAAGTTGGAGATGTAACTGTTTCATCAATTTCTAGAGCATCTGCAAAACCTTTAGTAAATACTGTTTTACCAGTTCCTAGTTCACCATTAAGGCAAATTACCATATTTTCAAATTTTTCTGATTCAATATTTTGAGCTAAAACAATAGTATCTGCTTCGCTCTTTGAAGTATATTTATAATCCATTTATATCACCCACCATAATTATACATAATCTTTTACACTTATAACAAGTATTTAATGTAAAATATACAAAATTTAAAGCAAAAAAAAATACCAGCGACTTCCTATTTTTGCATTACA
>sequence34
TATAGATTAGTAGCTGCTGATTCAAGAAGTCCTAGAGATGGTAAATTTATTGAAACTCTTGGAACTTATAATCCACTAGATGGACAAGTAGATATTAAAGAAGAAGAAACTATGAAATGGTTAAGAACAGGAGCTATTCCTACAGATACTGCTAGAAATATTTTATCTAGAGTAGGTATTATGGAAAAATTCCATTTAGAAAAAAATAGTAAAAAAGAGAGTAAATAATTATGAGTTTAGTAGAATTAACAGAAATGATTATTAAATCTTTAGTTAGTGATCCTGATTCAGTATCAGTTAAAGAATTTGATGAAGAAGATGGACTATTAATCGAAGTAGTAGTTAATGAAGATGAAGCTGGTGCTATTATTGGTAAATCTGGTAAGATTGCTAACTCTATTAGAACTATAGTTCAAGCTAGTTCTAATTTAAAAGATAGAAAGAAAGTTAAAATAAACATTACAACATTGTAATGTTTATTTTTTATTTAAAAATTGGACAAAATAGGGAGTTTATGCTATTATATACGGCATTAGAAAAGGGGGATTAATATGTCAAAGAGAATGTATGATTATGTATCATTTATTCCTTTTGGTATTGCTATTAGTGCATTTCTTTTATATTTAAGATATGCTATGCCAATTAAATTACATGAAAAAATAGCAGTTACAGGCTTATTACTTGGGTATGCTAATAGATTTAGAAATATAGCAATATTCTCTTGTTTAGTAGGTATAGTAATATATATCATTACATCATTGATATATTACTCAACCGGTAATCAAGAATATATAAGTTATAAGCCAACTATGTTAGATATAAAATTAATGCTTATTAAAGCTAAAGCAAATATATCTAAAGCAGTAAATTTAATTACTATATTATTATGTATTATATTAATATTATTATTAGGAATTCAAATTAATAAACAGAGTAATATTAATAAACAAAATATGAATATAAAAACAGTAGAACTATTCAATTAGTTCTACTGCTTTTTTATAGCTTTCTATTTCTAAATAATAATTATCTTCTTTAATATCTTCTTTATTTAATAATCTTTTTATATAGTCTTCTAAGAAATATGGGTTTCTTATTAATAGAGGACCTATTAAATAAGTTCCTATGAAGTTGTTATATACAACTCCATATTTATTATCTCCTTTATATAAGAAGTTCTTTTCTTTAGATATTATATGACCTCTATGGTTTTCAAAACCAATTATATTCTTATTATGAATAGTACAATTATAATTAATATCATTAACTATTCTATTTTCATTATACTCAGTATAGTAATTAAGTATATCTAGGGCTTCTATTTTATTATCTCCTTTTTGAATATATTTACCAAATAACTCAATAGAGTTACCAGTACTAAGTAAGAATTTATTATTATTTATATATCTTTTTATATCATTTTTATATGGTTTTAAATATTCTAATGCTATTAATAAATTGTTATCTGTAGAAGATCCAAAATAAACTATATCATAATTATTAAAGTTAATAGTGTCTCCTAGAGATATATAATCTATATTAACTTTAACTCCTTGATTAGTTAATCTTTGTTTTAATGCTTTAATATTACCATCATCACCATAAAGGTTTAGTAAATCATAATATATATATCCTATATTCATTATTTATTACCTCCCTTTGTTTCTTTAATAAATGGTTCTACATAATCAAAGTTAAGTATTCCATAAACATTACCACTAGTTTGATTTTCTATTATTTCTTTCATACCATTAGTATTTTCCATTATAATAATATTCTTTTCATCAAATCCAGCATATTTAATTCTTACAGCTATATCATATCTATATGGACCAGCACAAATTATTTTATCCACATTATTATCTTTTAATATTTCAAAATTAATATCCCATAACCAAGATAAATCAAAGTGATTATATCTTCTAGAGATTTGTCTTAATCCTATTACTAATGTTTTCTTTTCTTCATCTTTTAATACATGAAGTAGATTTAAATTATATGTTGAATTATTTTCTGCTTTACAATTAAGAACAGTATATTTTCTATTTTTAACAGTATATTCATTAAATAATTTTTTAAGTGTCTTATCAGCATTTAATCCTTTAACTATATCTTCTTCTTTTAAACCAATAGTTCTACATACTGAATATGCACTAATAATATTATATAGATTAAATAGGGTATCATTATCTATATTAATCTTTATATCTTCATTAATAGTTATTACATTATCTTTTATACTAGTAATTTGATAATTTATTTTACCTCTATCAAAATCACAATTAGGACATTCAAAGTCTCCAACTGAAGAATAGTGATAATAATCATAAACTAGTTTAGTATTACATTTAGGACAATATGCAGTATTCTTAATATCATTTAATTCTTTAAATGAGTATTGATTCTTATCTATACCATAATAAATAATTTTTCCATCAAATCTATCCTCAAATCTCTTTAATAAAGGATCATCTGCATTAAGTACCATCATATCTGTATTAAGACCTTTACAGATTTCTTCAAATACTTCTTCAAAGTTACCTTGTCTTGGAGGTTGATCTCTAGTTATATTATTTATAGTTATTACATTAGCTCTTATATACTTAGTAACAAACTTTATATACCTTTCATCTATTTCAAGAACTAAGGCATCTACATTAACTTTTTTGCCTTTAGTATTAGATATAATAGCAGTTGTAACACCATCTATTAAATTAGAGCCATAAACATTATGACAAACTTTCATATTATTTTTTCTAAGTAAATCTGCTATATATTTAGTAGTACTTCCTTTACCTGAAGATCCAGTAACCATTATTACTAAATTAGGATATTTTAATTTCTTTAAGTAATTAGGGAATAGTTTTAAAACTACTCTTCCTGGAAAACTACTAGCATTAAACTTAAATATCTTTTCTACAAATATAATTGCTTTACCAAGCATTGTTCCTATCATTTAAATCACCTATACAAATTATACCATATTTTTATAATTTTAAGTTGTTTTTTAATTACCTTTATAGTAAAATACTTAAGAGAAAAGAGAGTGAAATATATGGGAAGAGCATATGAGGTAAGAAAAGCTGCTATTCAAAAAAATGGAGCTGCTAAAGCTAAAATTTATTCAAA
>sequence35
TTTTCAATCATTTCTCTTCCTTCTTGAGAAATTGGATGAACGATATCTCTATATCCGCCAGTAGCGGTCTTTCTACTAGGCATAGCAACAAATAATCCGTTGTCTCCCGAAATAATTCTGATGTCGTGAATAGCAATTAGATCATCAAGTAATACAGATGCTATTCCTTTCATTCTTGACCCTTCTTTTTCAATCTTCTTAACATTAACTGATGTAACCTTCATTTTACCCTCCTCTAGTTTATGCTACTTTAATTATAATATATTTTTTATTCTTTTTCAATATATTTAGCTTCCTTTACATTATCCTCTTTCTTTGATTTTCTATTAAAAACATAGATGATAATGCACTCTGCTAAATCAAGTAATGAGTATACCACTAAGAATATACCTATAATCACTGTAAGAGCTACTGCTCCAGAGAATGGATTAAGTACTAGTAATAATCCACAAGCTAATATAAATAAAGCTACTATAATACTTGCTATAGATTTAATTACTTTATTAACTAATATTGAATAATATAGTTTAATAACTCCATTTATAATCATCCAGATACCAATTAGTAATGGTACTATAGATCCTACTATCTTAGGATTAATAATTATTACTACTCCTACAATAATACATACTATTCCAAATAGGAAACTAATATCTAAGTATTTTTGATTCTCTTTTGAAATAAAGAAGTTAATTGTAGGTATTAAACCTGTTACTAAAAGTATAATTCCTGCCCCATAAGATAGGAATGATAATGTTGTTTCAGGATACATTATTAAAAATATACCTACTAGTATTAAAGCTAGTGAAACAATTATTGATGTTCTAAACATACTTTTTAATTTTGAATCAATGTATTCCATGTTATTCACCTCTAATATAATTATAACATAAAAAAAGATATTATTTCTTAATATCTTTTTTACTTACTGGATTAACATGTACCATTACATGTTTAACTTTATCATATTTCTTTTCTAACTTATCATGAATAGTCTCTGCTATATCATGTGCTTCTCTTAAAGTAAGATTTTCATCTAAACATATTTCAAGATCTATATATACTTTACTACCAAATAATCTAGTCCTAAGTAAATCAATTTCTTTAACATCTTTATTTTTCTTAACATAGTCATATATTTCTTTTTCAAACTCTTCATCACAAGAATGGTCTACTACTTTATTAGTAGCATCCATAAATATATCTATTGAAGCTTTAACTATAAATATAAAGATAACTATACTTGCTACTGAGTCCATTATTGGATAACCTATTCTTGCAAAGAATATACCTATTAGAGCTCCTACTGAAGATAAAGCATCTGATCTATGATGCCAAGCATCTGCCATTAAGGCACTTGAATCTATTTTTTTAGCATTATATCTAGTATACCAATACATAGATTCTTTAACTGCTATAGAAACTAAGGCTGCTATTAGTGCAAAAACACCTGGAATAGTTATACTGCCAGTATTACCATCTAATATATTTTTAAGTGCACTATAAAATATACCTGAACCAGTTAAAAATAGTATTACTGAAAGTATCATAGCAGCAACACATTCTAGTCTTTCATGTCCATATGGGTGTTCTTTATCTGGTTCTTTAGAAGATAATTTAATACCTATTATAACTACAAAAGAACTAAATACATCTGAAGCAGAATGAATAGCATCACTTATCATTGCACTTGAATGTGAAAAGATACCTGCTAATAATTTAAATACTGCTAATAATATATTTCCTATAATTGAAATAATAGATACCTTGTTAGCAACCCTTTTAAATTCATTTTTCATATTTTCCTCCTTAAAGGACAAAAAAACATCCTAGTTCAATGTAATTACACTGTCCCATGGATGTTTATCCACTGTTATATATTATAACCCGACTCCTAATGGTCTGATCAGTTTTACTTAATTAAATGTAAGTAAATTATAATATATGAAGTTATATTAGTCAATTATTAATTATATATAAATACCATTCTATCTCTACCTTGCATATCTTTTTTACATTCAATAGAGGCTTCTGGTAAATATAAATCTTTTAAAGATTTAATTCTATCATATTGAGTCATACCTATTTCAAAAGCAATTATATATTTATCCTTTAAAATAGTTTTAATGTCTTTTAATATTCTTTCATAGAACTCTAACCCATCATTATCAGCATATAATGCTATAGATGGTTCATTCTTATATACTATATCCATTATTTCTTCATCTTTAGATATATATGGAGGATTAGATATTATTACATCAAATTTATTATCTATACCAGTATATAAATCAGTATTAATAAATGTTATATTAGTATTATTTAATTTAGAGTTATTTTTAGCTACTTCTAAGGCATCTTTTGATATATCTGAGGCAAATACATTAGAATCTATCTCTTTAGCTAAAGAAATAGCTATACAACCTGATCCAGTACATAAATCTAATATATCTATTTTAGTATTAAATGTAGATTTAATTCTTTTAATAGTTTCAGAGACTAATTCCTCTGTTTCAAATCTAGGTATTAATACACTATGATTAACATTAATTATATTACCCATAAAATCTACATTACCTACTATGTATTGAACTGGTTCTCCATTATTAAGTCTTTCTAATGCTTCCTCTAGATTACCATCATAATATTTCTTTAAACATTCTATATCTGTCATATTATATTAAAAATAACATATAAAGATTATATGTTATTATTTTCCCCTTCTAGTTTTCTTCTTTGATCTTCATTTATTAATGCTTCGATTAATTTATCTATTTCACCTTGCATAATTCTATCTAGAGCCATTAAAGTTAAGTTAATTCTATGATCAGTTACTCTATTTTGAGGATAGTTATAAGTTCTAATCTTTTCAGATCTATCTCCTGTACCTATCTTACTTCTTCTTTCAGA
>sequence36
CATATTTAATAAATCAATCTTAAACTTATCTTTCTCAGCATTTTCTTTACTGATCATAACTCCCTTATATGCACTAAGTTCTCTATTATGACCTTCTATTAATAAATCTTCTGGAGTTATTTTCTTAAGTAGTATTATATTCTTATTATCATATACATCATAGTGAAGAACTATTTCACCATGTACTTTAACAAATAAAGCATCAGTTGGAAGTACTAATTCATATGATGTAATTCCTTTTTCTTTATCTTCTTCCACTTTTGTACCAAGGAAGTTACCTTCCTTCATTTCTGGATAGAAATCAAATATAAGTTTTTTGAACGCAAACATATTGTACTTTTTAACAGATCTTTCACATTTTTTGAATTCTGGTTCATTTAAATATTCAAAAATATATGTGTCCATATTTTACCTCCTTTAGATTTCTATCTATCTTATATATATTATAATATAAAGAAAAAAAGTAGTAAATACTTTACAGTAAGATATTTACTACTTTTTACAATTATTTTGCATCATACCAATTAGATCCCTCTTCTATATCTACGACTAGAGGAACACTTAATTTATATACATTTTCCATTTTATCTTTAATTATATTTCTAACTTTAGTTTTTTCACCATTTACAACATTAAATACAAGTTCATCGTGTATTTGAAGAAGCATTTTAGACTTCAATCCTTCTTTATTAAATTCTTCATATATATCTATCATTGCTTTCTTTAAAATATCTGATGCAGAACCTTGAATTGGTGTATTTTGGGCTATTCTTTCCCCTTGACTACGTATTATATAGTTAGTATTGTTTAATTCTTCAATCTTACGTTTTCTATTCATAATAGTAGTTACATACCCATTTTTATATGCTTCATCTATTAACTTTTGTTGATAGTCTCTAATACCAGGATAAGCATATAGGTATTCTTCCATAAACTCTTTTGCTTCTTTAAGATTAATTCCTATATCAGATGCTAACCCAAATGTACTAATACCATAAAGGATACCAAAGTTAACTGCTTTTGCACATCTTCTATCATTTTTAGTTACTTCAGATTCCTTTTTATGGAATATATCCATAGCAGTCTTAGTATGAATATCTAGTCCAGAATTAAATGCATCTATCATATTCTTTTCATTAGATAAATGAGCAAATACTCTAAGTTCTATTTGAGAATAATCTGATGATATAAATACACTATTTTCTTCAGGAATAAAGGCTTTTCTAATTAATTTACCTTCTTCATATCTTATTGGTATATTTTGTAAATTAGGCTCTATAGATGATAATCTTCCAGTTCTAGTTAATGTTTGAGTATAAATAGTATGAAGTTTACCATCTTCTTTTATTTGTGCCTTTATACCAACAATATAAGTATTATAAAGTTTAGCTAATGTTCTATAATCTATTATCTTTTCTATTATAGGATTTATTCCTACAAGTTTATCAAGTATTTCTCTAGATGTAGAAAATGATCCTTTAGTTCTCTTTGGATAAGGTATACCCATCTTAACAAATAAGATATCCCCTAATTGTTTTGGAGATTGAATATTAAATTCTTCTCCTGCTAAATCATATATTTCACTAGTTAATTCATTTATTCTATTATCTAGTTTTTCTCCTATTTTATCTAGTACTTTAACATCTACTCTTATACCTTCTATTTCCATAGATGCTAGTACATAAGATAGTTTTAACTCTATATCACTATATAATTTATATTGGTTTTCTTCTTTTAATTTATTAACTAAATCCTCTTTAGTATCATATATAAATTTAGCTTTTAAAGCGGCTTCATTAGCTATTTTCTCAGTAGTTATATTCTTATCCTTCATAAGATCATTAAATGGTGTAATAGCTATATTAAATTCACTTGCTAAATAAGATATATCATCTTTTACATTATAATTTAGAATATAGGCTGCTATCATAGTATCATAATCAAATTTACATTTAATACCATATTTATTTAATAAAACTATATTCTTTTTTATATCATAAGAACTTATATTATATTTAGTTAAGAATGATAAATCATTAGTATTATCTAAATAATATACTTTTTCTCCATCATATAAACTAATACCTATAATATTTGCATCATGATAATTTTCTTTATCAGATTCAATAAATATAGATATATCTTTCTTTAAATCTATTAAAGATGGATCACTAACTATTTCTAAATCTACTTTTTCATCTGATTTAATCTTTACATTTTTAATAAAACTATAGAATTCTAATTCTTTATATAAATCTATTAATCCTGGTTTTTCTCCAGTATATTTTAGATCCTCTAATTTATATTCTAGTGGTACATCTTTATATATAGTTGCTATATCTTTAGACATAAATGCATTTTCTTTATCCTCTAAAAGTTTTTCTTTAGTCTTACCTGTAATAGAATCTATATTCTCATAGATACCCTCTAAAGAACCATACTCTTGAAGTAATTTTAAGGCTGTTTTTTCGCCTATTCCCTTAACACCAGGTATATTATCAGATGAATCTCCCATTAATCCTTTAAGGTCTATCATTTT