##gff-version 3
sequence01	MetaGeneAnnotator	misc_feature	1	587	.	+	.	ID=MGA_1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011141486.1:rod shape-determining protein RodA,WP_011141486.1 rod shape-determining protein RodA (Gloeobacter violaceus) [pid:42.3%25%2C q_cov:84.0%25%2C s_cov:38.8%25%2C Eval:5.0e-32%2C partial hit],MGA_1;locus_tag=LOCUS_0010
sequence01	MetaGeneAnnotator	CDS	629	1762	.	+	0	ID=MGA_2;product=putative lipid II flippase FtsW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392361.1;translation=MDETLSKKIIITTSIICLLGLIMVFDASMGLIAQRYHYITFQAIWVLLGTLLAYITYRSNYKIFQRFAFLLWILCLIALIVVFVFSAKINGSQRWLNILGFTSFQPSEITKLVFIIYLSSLFTKLHTKYKGEIKSATDNFKKILLPYLIVTIITCLFIIAGKDMGTTIILATISIFIFIISDNFGYIWMNLSLTGILFGLSSIVLVIIAPYRLQRLLTYLKGSNQSQNYIQGAGYQVHQILIAIGSGGLLGVGFTQSIQKNQYLVGTTAITDSIFAVIAEEIGLIGALLVISLYIYLVYLIFKVAINSKDYFGKLLVSGIASWIGIQAFINIAANIGIIPLTGVPLPFISYGGSSIVVLLISIGLVLNIEKFNNEEN;locus_tag=LOCUS_0020;gene=ftsW;note=WP_011392361.1 putative lipid II flippase FtsW (Moorella thermoacetica) [pid:32.6%25%2C q_cov:93.9%25%2C s_cov:93.4%25%2C Eval:3.0e-45],MGA_2
sequence01	MetaGeneAnnotator	CDS	1749	2846	.	+	0	ID=MGA_3;product=undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957113.1;translation=MKKTNVFIVGGHFTPALGVYEEIKDSNTLNIYYIGVKHTILFDKSFSKEYEFCKNNNIKFLPLYTGKIYRYLSLESLISFIRIPLGFIQSFFYILKYKPNIIVTFGSYVSVPVIISAKLLNIKILSHIQTIKPGIADKISFKMSDKIFISWKESEEYIKNKNKIIYSGNILRKEIFKYKSEHIHFENNNPIIYITGGNQGSHLINTFIFNNIEKLLEKYNLIHQIGSNTIYDDFTKAISIKNSLSHENSSKYLIYKGIWDNEIGEVLNISNIIVGRSGANTVYEILALNKKAIFIPLEIGDKGDQIYNAKMAQNYSNNIHIIKEKDLTFNNFSELIEKLLKNNTDIKEILPKDAALIISKEISQE;locus_tag=LOCUS_0030;gene=murG;EC_number=2.4.1.227;note=WP_010957113.1 undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase (Treponema denticola) [pid:31.2%25%2C q_cov:95.1%25%2C s_cov:91.0%25%2C Eval:2.3e-42],MGA_3
sequence01	MetaGeneAnnotator	CDS	3217	3495	.	+	0	ID=MGA_4;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTNTSQIKVTIPKITKDLLTEKAQSMGFSLTTYVKNILYTDIKESTYPEYVASKRVDKSVEEAILLSEKGELESFSTIDELDKLVDSIDAN;locus_tag=LOCUS_0040;note=MGA_4
sequence01	MetaGeneAnnotator	CDS	3485	3748	.	+	0	ID=MGA_5;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIKIQKSCLRKLNRYKKKDINRYRRILLKIELFKTDINNPSLKVHKLKGKYGNYWSFSVEEDLRIIYIYKNKITLVDIGTHDEVYR;locus_tag=LOCUS_0050;note=MGA_5
sequence01	MetaGeneAnnotator	CDS	3931	4725	.	-	0	ID=MGA_6;product=bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003230259.1;translation=MNKIFDGKKESLKVKEDLKNRLKKNLNIGIIQLGDDANSNIFIRQKINFAKDIGVNVNLSKFPEGYKDLGNIIDEFNKDKELSAYIIQLPLLGYKNLNILNNINENKDIDCLNKINYAKVLVGEYSFAPGVFRAFLYILNQTDISKDMNILIIGGGFVGRLIANYLISNNYNVTVLDKYSKDISLYLGICDVIILATGLKEQIKKEQIKKDSYIINIGASSDFEGNIISGIEDDCIDKTKFFVPLKGGIGPMTVAMLFYNLLFL;locus_tag=LOCUS_0060;gene=folD;EC_number=1.5.1.5%3B 3.5.4.9;note=WP_003230259.1 bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD (Bacillus) [pid:26.8%25%2C q_cov:97.3%25%2C s_cov:95.1%25%2C Eval:5.8e-28],MGA_6
sequence01	MetaGeneAnnotator	CDS	4718	5950	.	-	0	ID=MGA_7;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164924918.1;translation=MHLKDKQVSDLIEKEENRQIHVINLIASENYASKDVREAQSSFFINKYAEGYPKKRYYSGCEYIDEVENLAIERCKSLFNTKFVNVQPHSGSQANMAVYFGLLKPKDKILSLSLDHGGHLTHGSSVNFSGNLFNFKHYFLNDEGFLDYSKIDSIAKKFKPKLIIAGASSYSRFIDFKKFRDIADSVNAYLLSDISHISGLIASSLHPDAIKHSHIVTSTTHKTLRGPRGAVIMSDNEDIFKLVEKSIFPGIQGGPLENVIASKAISFKEASSESFKEYSRRVILNSKAFCEALTMRGFNIVSGGSDNHLFIVDLRNFEINGKEAQDILEKYSINVSRSLVPNDTEKPWITSGIRLGTPAVSSRYLKEREIEKIADYIFFIIKNNRNKFDESLKKEIEKFISQYPIPDYYE;locus_tag=LOCUS_0070;note=WP_164924918.1 serine hydroxymethyltransferase (Thermodesulfovibrio yellowstonii) [pid:52.6%25%2C q_cov:97.8%25%2C s_cov:98.0%25%2C Eval:1.9e-120],MGA_7
sequence01	MetaGeneAnnotator	CDS	5971	6519	.	-	0	ID=MGA_8;product=dCTP deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003975261.1;translation=MVLSDVDIRKRLSKDLKISPFSEESIQPSSYDLHLASKFIIFDNHFTEIIDVKAKNTNSKIVDVKDEGYFLIHPNNFILGATQEIVKIPNDLVARIEGKSSIGRLGLIIHATAGYVDPGFEGTLTLEMFNLSSLPIKIYVNMKIAQLSFLEMTSPSSKKYGEYNNKYQNQIDPTESMLWKDF;locus_tag=LOCUS_0080;gene=dcd;EC_number=3.5.4.13;note=WP_003975261.1 dCTP deaminase (Streptomyces) [pid:43.5%25%2C q_cov:100.0%25%2C s_cov:97.4%25%2C Eval:1.2e-40],MGA_8
sequence01	MetaGeneAnnotator	CDS	6506	8116	.	-	0	ID=MGA_9;product=CTP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583681.1;translation=MKLIFISGGVISGIGKGISAASIGLLLEKHSLKVSFLKCDPYINIDAGTMNPVEHGEVFVTDDGYEMDMDAGHYERFMDITISHKNSITTGQIYSQVIQNERNLKYDGACVEVIPHVRDEIIRRIKEAYKGSDLLIIEIGGTIGEYQNDIYYEAERYLKQILKDDLVHIHISYLPIPSSIGEMKTKPTQQSVILLNQRGIFPNIIIGRSQEHIDTPRRKKIAIATNVSDENIFSNMDVSSIYKVPIQFYDQKLDLKILELLNIKGKKINFEDWENFVSKIESKPKSILNIGIVSKYHNSGKFSLEDSYVSVIESIKIACWESGVGFNIIWVDSENIDEKELEKCDSFIVPGGFGTRGIEGKIKAIQYARENKKPYLGLCLGMQLAAVEFARNVCGIKDATSEEIDIKSKNKIIHIMPDQEKKLLNKDYGASMRLGLWECVLDKKSRAYKAYKKDVIKERHRHRYEFNNDYKEIFESKGMLFSGRSPEGELVEIMELKEHPFFIGVQFHPEFKTRPLIPHPLFLEFILSTIKNNGTI;locus_tag=LOCUS_0090;EC_number=6.3.4.2;note=WP_012583681.1 CTP synthase (Dictyoglomus turgidum) [pid:46.6%25%2C q_cov:98.9%25%2C s_cov:97.9%25%2C Eval:2.6e-136],MGA_9
sequence01	MetaGeneAnnotator	CDS	8194	8769	.	+	0	ID=MGA_10;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKDKNFYFTLSRYFIYPSLFILIGIGIIYLFQPQKTKVTQNNTKHTPSLYLNINNSVQVTKQKAQEIRSQEKIINIYIGKNVLSTNLATTTLEQEVGLMKDTNLEEKQSMLFTFNHNSIHTFWMAYTYIPLDMLFISSNYKIVEIIKAIPCTSNKCLLYKPKYNSKYVIEVNPSFVEKNNIRVGNSIKI;locus_tag=LOCUS_0100;note=WP_011087183.1 DUF192 domain-containing protein (Bradyrhizobium diazoefficiens) [pid:34.9%25%2C q_cov:57.1%25%2C s_cov:66.5%25%2C Eval:3.0e-10%2C partial hit],MGA_10
sequence01	Aragorn:1.2.38	tRNA	8798	8874	.	+	.	ID=Aragorn_1;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0010;note=Aragorn_1
sequence01	Aragorn:1.2.38	tRNA	8876	8951	.	+	.	ID=Aragorn_2;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0020;note=Aragorn_2
sequence01	MetaGeneAnnotator	CDS	9496	10761	.	-	0	ID=MGA_11;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545078.1;translation=MTLTLEYDSIIVIMDTKVIKRDIVDDIMRYINDSNIIVLHGARQVGKTYILYYIKDLLDKESRSTYYIDLEDSRFVDLLNQRVEDFILFLQNEGFEIEQIIEKNSKLYIFIDEIQYLDDPSKFLKLMVDHHKYIKLIVSGSSSFDIKSKFSDSLVGRTINFDIFNLSFNEFLRFKNVNYNLNKLSDIHLEKVIKLYKEYVLYGGYPQIVLENSIEKKERYLQQIIDTYVKKDIRDLTNIKDIRKFNNILKILAQQTGNLLNVNTLSVSCGISKETIENYLFILENTYIIKLVPPFSTNAKIEVIKAPKIFFYDTGLLQLLWLKTLQKTILGNVFETSIFSELVKKYGFENINYWRTKNQEEIDFILTKKGEIIPIEVKMGFNLLKKSSLQLFINKYNSQEYKIVGLNKIREVENFIYPWDL;locus_tag=LOCUS_0110;note=WP_012545078.1 ATP-binding protein (Thermodesulfovibrio yellowstonii) [pid:32.2%25%2C q_cov:92.6%25%2C s_cov:93.7%25%2C Eval:1.9e-51],MGA_11
sequence01	MetaGeneAnnotator	CDS	10972	11220	.	+	0	ID=MGA_12;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVINDMDTYKKGSNNLDILGIYNHLISFIQSPNLHIVSIIYPDNNIFSTYKRTTLYNIGHLILSVFAKSMLLFSIVVVYLN;locus_tag=LOCUS_0120;note=MGA_12
sequence01	Aragorn:1.2.38	tRNA	11336	11410	.	+	.	ID=Aragorn_3;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0030;note=Aragorn_3
sequence01	Aragorn:1.2.38	tRNA	11418	11491	.	-	.	ID=Aragorn_4;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0040;note=Aragorn_4
sequence01	MetaGeneAnnotator	CDS	11529	12605	.	+	0	ID=MGA_13;product=glycosyltransferase family 1 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240438.1;translation=MSKYKIGIIAKDILNKKFTGIENYTINMIEEFDKTDEFKFYLYTNHPYKKKFKNVKIKYLKNKKAWIHTSLYKELMKDNIDLVFSPTPSLPLIKNKTIKQVITVHDLFFKYMSERVKTTKFFMKRAVIATDKIIAVSNYTKKEILNNYKGVNEKKIKVIYESYNKKVFRKSKRKEEKNVINILSVGTITTRKNFTQIVKILPIIKEEFGEVKLNIIGKKGDDYDNLIKTIIDFKCKENVNISGYVSNDILKEEYLKNNVFVYTSKEEGFGIPLLEAFAMGIPTVTSDNSALKEIGEKASILVDPNNIMDIATGVIEAIRRSNDLRELGFIEARKYSWKKTAKLTLDTFRELLNEKTSS;locus_tag=LOCUS_0130;note=WP_053240438.1 glycosyltransferase family 1 protein (Pyrobaculum islandicum) [pid:30.7%25%2C q_cov:97.2%25%2C s_cov:98.7%25%2C Eval:6.1e-32],MGA_13
sequence01	MetaGeneAnnotator	CDS	12583	13200	.	-	0	ID=MGA_14;product=DedA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722009.1;translation=MSKLLILLSGSIIHSIVKFSYIGVFVLMLLESFNIPIPSELVMSFSGFLAYKGVVNIYLIILVGTAGNLLGSILSYYLGYYGGYPLLEKFGKYILITDKDIKRAHVWFQEKGDFAVFFTRILPVFRTFISLPAGIAKMDIKKFTLYTFLGILIWDTILVYLGYYFSYNWKIIYTFIDNLSIYFFLFLILLIGIYIYRHIKKKSSR;locus_tag=LOCUS_0140;note=WP_003722009.1 DedA family protein (Listeria monocytogenes) [pid:41.0%25%2C q_cov:89.3%25%2C s_cov:87.5%25%2C Eval:9.8e-37],MGA_14
sequence01	MetaGeneAnnotator	CDS	13222	13647	.	+	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKKKISDIKDEFDISNDLINQDIDPDNIDILDIDDDINIDQIDEDILSGDIIEEIEDEDDESNTDVVNDINVVKCPNCKEDVLESEFCPICGKPLKSRTISKQDEYTENEEINNNDFFDMEDNYIPEDIEKKIDEEYYD;locus_tag=LOCUS_0150;note=MGA_15
sequence01	MetaGeneAnnotator	CDS	13628	14569	.	+	0	ID=MGA_16;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIMTKKENLITIVNKKEEKGSKLTISLNINSNLVEKSLDNVTEEFIKVKEIKGFRKGKAPKELVFSNFEEHIKEEAYKDVQNKVIEYIYEEKINPLRIYFEKDFLEEIGNKEDIKINVLCYTRPKIDSIDISKIKVSKKKAEEKYIEEEKKYESQENKKILEDLKNNKDKYTDNIYESLIIEEILNTLQLNKEDIPEYMIKEHVSKSLKNLEEFSKNLELSLDEYLKQVNTTKEKVIKDLEKELMDQLKLDVFTENFAEQNKIEVNQKDIDDQLKTMNEDDLKKLNADEFIYNIRYYKSLKEVVELVKKQS;locus_tag=LOCUS_0160;note=WP_164930702.1 trigger factor (Aquifex aeolicus) [pid:21.1%25%2C q_cov:88.5%25%2C s_cov:63.8%25%2C Eval:6.6e-08%2C partial hit],MGA_16
sequence01	MetaGeneAnnotator	CDS	14566	15141	.	+	0	ID=MGA_17;product=ATP-dependent Clp endopeptidase proteolytic subunit ClpP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392065.1;translation=MTIIPTIIEKTARGERVYDIYSRLLEERIIFLGGQVEDEIANLIIAELLFLQKEDSQKDISLYINSPGGSVDAGMAIYDTMNHISCDVSTISMGLSASMGAFLLSSGAKGKRYSLPNSSILIHQPSGGTEGQASDIEITARRILNIRDNLNTILAKNTGQKKSKIEKDVDRDFWMTPKEALEYGIIDKIIK;locus_tag=LOCUS_0170;gene=clpP;EC_number=3.4.21.92;note=WP_011392065.1 ATP-dependent Clp endopeptidase proteolytic subunit ClpP (Moorella thermoacetica) [pid:64.9%25%2C q_cov:98.4%25%2C s_cov:94.5%25%2C Eval:4.2e-68],MGA_17
sequence01	Aragorn:1.2.38	tRNA	15142	15217	.	+	.	ID=Aragorn_5;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0050;note=Aragorn_5
sequence01	MetaGeneAnnotator	CDS	15237	15857	.	+	0	ID=MGA_18;product=DedA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000454753.1;translation=MNSSILFIFNLINHYGYFIIGLFILLECLGIPLPGETSLAFGAVYASLYPNKLNIFLVILTAVISGSLGDNLGYLIGEKYGISFIKFLSKILKTNIKYVDYTKKFFDKYGFKTVFIGRFLSVLRMFIPITAGIHKIEYKKFFIYNISGSIVWASLYGTLGFILGRNLQLLESVLKNITYSSIILIIIATLYIIYKRYEKQRIAKFR;locus_tag=LOCUS_0180;note=WP_000454753.1 DedA family protein (Bacillus) [pid:30.9%25%2C q_cov:94.2%25%2C s_cov:94.1%25%2C Eval:1.3e-23],MGA_18
sequence01	MetaGeneAnnotator	CDS	15826	17643	.	+	0	ID=MGA_19;product=threonine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989741.1;translation=MKNKELQNLDKLKEMRHSGAHLLAYAVKTLFPNAKLAIGPAIDDGFYYDFGDIKIQEDDLVRIENKMKELQKKDYTFEKIEMSIEDAEKFLKKEDEIYSLSLLKDIKEKGSTIKEEMDNNNKKNETDIVTFYKSGEFINLCRGGHVDSFKNIGPFKLTSIAGAYFRGDEKNPMLTRIYAACFETFDELENYLKEREEAKERDHRNIGEKLGIFLLSENIGQGLPILLPSGETIKHLLIEYMRKKEERLGYKYIATPHITQALLYEESGHATHYSEDMYSFKDKEGNIFYIKPMSCPHHHMVYKKITQSYRDLPLKLAEAAAVYRYERSGTLTGLIRIRGPITQNDAHIYTPKDELESEFLKVLSLFKEVYSELNIKGYWYRLSLPDFDKDKYEGEKEMWQYATEKIQNSLKKSKNNYTVGIGEAAFYGPKLDVQIKNIFGKEDTIATIQIDILQPKRMSLTFINQNGEKETPIVIHRSILGSYERFIAFFLEQTGGNFPLKFSPIQFRIIPVSEKYLNHALDLEKIVRDLGGRVDVDKRDESLSKKIRSAAIEKIPGKIIIGEREVSNIINDQFTSLSINWREDFDHPKTLDMKALQKIIEENKI;locus_tag=LOCUS_0190;gene=thrS;EC_number=6.1.1.3;note=WP_010989741.1 threonine--tRNA ligase (Listeria monocytogenes) [pid:41.6%25%2C q_cov:92.1%25%2C s_cov:84.7%25%2C Eval:1.2e-127],MGA_19
sequence01	MetaGeneAnnotator	CDS	17685	18113	.	+	0	ID=MGA_20;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNNLKFQNEVESFLVSSTKKFKHLDMNSNILMLNNILNNRYSQKKIIRKDHIFFLDKLYKAYMNLYPNLKIILKNKKGIITFEIEKKQRSGYHILLEKKIKITPLENFFRHIGTDTLSEISQIKNKDFEYYIDDMEQKFYE;locus_tag=LOCUS_0200;note=MGA_20
sequence01	MetaGeneAnnotator	CDS	18106	18720	.	+	0	ID=MGA_21;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNEVSIYLKILSKIEIPTIFKGKDQEILNIILNTIKNNLVEKLSSTKNLEDDFEHIKKIIISMHSIISIYLKNFIYLDNDIYTENKINSNYKNYYVLKARTSDFNSVPIYTYISLNNNKNIINITTETLNNEIFTKIIIYENKNKIQLEIIVEETKDIDKLFGEELVLKSIKTKEFNNFINNNIKFLRKNKKPKESLNLEIE;locus_tag=LOCUS_0210;note=MGA_21
sequence01	MetaGeneAnnotator	CDS	19104	19430	.	+	0	ID=MGA_22;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYSKYKYEQSKKERGLNKKTKNKEIKEIRFKPFIGIGDYNNKVKRIKEFLDEKHRVKVVIRITGRTAFDNADNLMARIVQDTAESGSPEFEPKREGKTILTLLQPTK;locus_tag=LOCUS_0220;note=WP_010951024.1 translation initiation factor IF-3 (Neisseria lactamica) [pid:36.4%25%2C q_cov:100.0%25%2C s_cov:63.6%25%2C Eval:3.8e-13%2C partial hit],MGA_22
sequence01	MetaGeneAnnotator	CDS	19433	19615	.	+	0	ID=MGA_23;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKTKKILVKRFRKTKNNKILHSIKGVSHFMSKRRSNRKSRIKGIQVLGGNTKIFKDLK;locus_tag=LOCUS_0230;note=MGA_23
sequence01	MetaGeneAnnotator	CDS	19619	19975	.	+	0	ID=MGA_24;product=50S ribosomal protein L20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003812832.1;translation=MRIKKGYTKHQKHKKVHELTKGYRMTKGNLIKVSKEAILHAGEYSYNGRKKKKNIFKTLWITRISAALKDTGISYSKLQKLQKDNNLLLNRKVMAYFATEDKNVFDKIVNEVKSKENV;locus_tag=LOCUS_0240;gene=rplT;note=WP_003812832.1 50S ribosomal protein L20 (Bordetella) [pid:42.5%25%2C q_cov:95.8%25%2C s_cov:95.0%25%2C Eval:9.9e-22],MGA_24
sequence01	MetaGeneAnnotator	CDS	19968	21017	.	+	0	ID=MGA_25;product=phenylalanine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003382398.1;translation=MYDINDLIDKIELIRKDSLKKIQTSDNIETLKKIYNSVFGKDKELSLLLSEIRNYNIQDKKTLGEFSNKVKKEITDKLFEKETLLKKELVNKELLKTIDVTMPGISNNIGSIHPISQMIDKIVKTFEYFGFSVASGPEIETDWFCFQSLNLDINHPARDMQDTFYIKENHILPRTHTSSVQIRTMLSEKPPIRIIAPGRVYRNENQDQRHTFMFYQFEGLVIDKTTNIKDLKNILTTSLKNIFNNEKIELRLRHSFFPYTEPSFEIDATCLLCNGVGCRVCSNKGWIELMGAGMIHPQVLRNVNIDPQEYQGFAFGGGPERLVMVKNMIDDTRLFYENDLRFLSQFKKI;locus_tag=LOCUS_0250;gene=pheS;EC_number=6.1.1.20;note=WP_003382398.1 phenylalanine--tRNA ligase subunit alpha (Pseudomonas syringae group) [pid:42.8%25%2C q_cov:97.4%25%2C s_cov:100.0%25%2C Eval:3.7e-82],MGA_25
sequence01	MetaGeneAnnotator	CDS	21014	23386	.	+	0	ID=MGA_26;product=phenylalanine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965653.1;translation=MKISINRLKKYTKIPKDKKELGILLDKFAIQSVDIDNIIHYGKNLSDIYIGKITKIEKHPNADKLQIVNVTIKEKSLVIVTGASNIYIGMICPVILDEGILPNGTKIKSSELRGVMSNGMLCSEKELELSDDHEGIMDLGDEYKDRIGEKLSKYISDTIIDIDNKVISNRTDLFSHIGIAREFAAIQKEDFKNISLNPIKNPIEDNIQITLDDEFCTRYIAIIIKDIKIGKSPVWLKEELRKIGIKSINNIVDITNYVMTEIGQPLHAFDLDKISDGKNPHIIVRKAKNGEIIKTLDSKERKLNENNYLIANEEKGLGIAGVMGGEDSEIDNNTKSILLESAIFNPILIRKSSKQVNLRTEASLRYEKGIPEHFALQGILLAIDMIQNLNYGKIDSNITDIQRASNTNIKISLSEERIYKILGIKISTENIIDILKRLDFKVSSENNLLQIDIPPQRKDIKEDVDIIEEIGRIYGYDKIPEENPIYESSKIKRNIIYDTELEIKKILVSQSSYEIKTYSFISKDLARKSNIDITNAIKIINPLSEDFTHLRETLVPSMLNTVALNTKNSDNFSLFEIANVYLRSEEELPKEDLFLCVSKYSKNKKNDTFFEIKGIFTNLCEYLNINESITFKKGTSKKYGVQKQSAEIIINDNKIGDIINIHPEVKENFNINGNLSILLININEIIPYISDKFIYIKYSKYPEIVEDINITYNKNLVLDDILVHIKDPALKSFNIIDIYEGKPLKEDQISITIKLIFQNFEGTFKSEEIKNKISSIKNTLKNEFKNIDFR;locus_tag=LOCUS_0260;gene=pheT;EC_number=6.1.1.20;note=WP_010965653.1 phenylalanine--tRNA ligase subunit beta (Clostridium) [pid:33.5%25%2C q_cov:99.0%25%2C s_cov:99.1%25%2C Eval:8.4e-121],MGA_26
sequence01	MetaGeneAnnotator	CDS	23391	26006	.	-	0	ID=MGA_27;product=PBP1A family penicillin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257770.1;translation=MKVLNVFGDKNNNTKSIRKKKSSIDTKNKKLIVKLFKYSFMFVGVIMLLGAIAVAYLIIKYSFELPPAGTPFTKAYAQTTSIYSRGGTLLYSFHGSQNRESIPLSQIPKKLQMAVIAAEDKNFYNEPLGISFRGILRAFYYDVFKRGSGNLQGGSTITQQLVKDTILTSQQTLQRKLKEIILTIEISQRYSKQQILQQYLNEVYFGGNVYGVKVASETYFNKEPNQLTLAQCAILAGMIQAPSFYSPLFGTSPKYLIPRTDYVLNQMLNDKYETGVTNKEIQAAKSQIPHMQYNTSSVSQNIKDPWFVYYVKNELEKKYGVNTVDTSGWKVYTTLSWKMEKLAQSTVTNAVNYLISSGFNAHNASLVSVDPNNGEILTMVGAYKYGVSMFNGQMDGYYNAALAPRQPGSSIKPFLYAAAFQDLGFSSTTMMQDLPININGYAPTDWNNLYEGPINIKAALRGSRNIPAVETLYALGISNFIKELHLFGFTGVSQYKNDLSIAIGAAGVPLLENTEAYSTLANGGIKYPTVSILKIVNSSGKVIYQYNPSSVGQRIIKQRYTYMIDKIITKYPTVFYSPSIYYGGYAGAVVEKTGTSNLSRDLVLMGYTSSLATGMWAGNDNNAPTENYSYGEYLAPFWNKYMMEVLPMFPKPTFQRPSGVVTDYVCANDGLLPVQGDSCAQTLGYFSQGQLPKLDNQNQTVKVCKENTNLLATQSQISSGDYINKTYVQLQAYSPLFQSAINAWEAAQSPTSTIAYAPVPTQYCNQYSGPNNTIAINSSSPTSNQSYSITSGNSINVSGVAVSPNNITNITIKLENSSGSVVGQPQVINNNANYNVNFQLPTIPGQYSVVITAQDSNNVSGNSTINIQVTP;locus_tag=LOCUS_0270;note=WP_012257770.1 PBP1A family penicillin-binding protein (Chloroflexus aurantiacus) [pid:33.7%25%2C q_cov:83.0%25%2C s_cov:84.1%25%2C Eval:1.6e-91],MGA_27
sequence01	MetaGeneAnnotator	CDS	26071	27282	.	+	0	ID=MGA_28;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081488.1;translation=MKYEDPKNLILKRATFRVIDEKNLKTLLEDGKSKLRVKFGIDPTGKKIHIGRASTIQRLRDFQELGHVVVLIIGDFTALIGDSSDKEDRRELVTETQIHANLEHYKEQIGKILDLDKVEFRYNSEWLSLLNFKDILNLSSNFTVSQMIERENFSERYKNNKPIGLHEFLYPLMQGYDSVAIKADVELGGSDQLFNLLSGREIQGIFKMKKQNIVTKKLLSGTDGRKMSTSWGNVINITDKPEDIYGKVMSIKDDSIIEYFTITTRFTDKLIKEMEEDVENSLGSSAMMDIKKILAKEITKMYSSYEDAIKAENNFKKLVQNKDFKSLDDIIVVDIKESNINILDLISSYTGQVPSKAEARRLISSGGVYINDTRINEINTLIEIKNDMIIKIGKRNIIKINHE;locus_tag=LOCUS_0280;gene=tyrS;EC_number=6.1.1.1;note=WP_004081488.1 tyrosine--tRNA ligase (Thermotoga maritima) [pid:44.3%25%2C q_cov:97.3%25%2C s_cov:96.3%25%2C Eval:1.1e-88],MGA_28
sequence01	MetaGeneAnnotator	CDS	27388	29367	.	+	0	ID=MGA_29;product=ATP-dependent DNA helicase RecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583501.1;translation=MDNLDIDVSKAYYIGEKYANLLKKLNIFTLKNLLYFYPIKYEDSRNVINIEDIFIGEKNIIKGYITSIKSIYTKNKKNIITAQITDDTGTANIIWFNQPYISNNIKLDTEITLSGTAYYEKNSVLFKSPQYEIQRENKENIHLSRITPIYSQTKGISSKWLRSRIKNILDNMKVEEYIPSEIREKYDLLEINDALRKLHFPLNFEDINEAKRRLGFEEILYIQILSYLKKEERKKRTSYKISVDDIKIKDFINNLNFKLTLSQTRSINEIIEDIKKGIPMNRLLEGDVGSGKTIVALTAAYIINLNKLQTAIMVPTSVLASQHYKTAKSLFKDLKIQLITSKTKTFDRSASLFIGTHALFSNEIFKNLGLVIIDEQHRFGIRQREELINKGYYPHVLTMTATPIPRTLALGLYGDLDISRLDDMPKGRKDVKTYIIPENKREDTYKFIKERVRAGEQIFILCPLINESEKIPVKNVQDEFKYLKNNVFTEEKIEILHGKTKNKELILSKFKKKEFDILVSTPIIEVGIDIKDATIIIIENAERFGLAQLHQLRGRVGRSDKESFCFLFTSNPYNERLNFFKKNNNGLELAEFDLQKRGPGEIYGQNQSGTPDLKMASLLDKDLIKLTREAVSDIINVLDKYPQLKNKIREAQDSILSMN;locus_tag=LOCUS_0290;gene=recG;EC_number=3.6.4.12;note=WP_012583501.1 ATP-dependent DNA helicase RecG (Dictyoglomus turgidum) [pid:41.2%25%2C q_cov:94.4%25%2C s_cov:82.8%25%2C Eval:2.3e-129],MGA_29
sequence01	MetaGeneAnnotator	CDS	29369	29905	.	+	0	ID=MGA_30;product=16S rRNA (guanine(966)-N(2))-methyltransferase RsmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003546846.1;translation=MELRVIGGKFKRTKLKVPKDTRPLSGIVKSALFSVINDKIKKSYILDLYAGSGALGIEALSRGAKLCDFIDINKKACDIIKENLLKLNLSNNEVYNIPAEIFLRYNKTIDDKYDIIFVFQPYDITNEGIVSKSIHLLKKDGILIFERESNREERSIKGLNIINSKKYGKTALTFYIKD;locus_tag=LOCUS_0300;gene=rsmD;EC_number=2.1.1.171;note=WP_003546846.1 16S rRNA (guanine(966)-N(2))-methyltransferase RsmD (Lactobacillus acidophilus) [pid:33.5%25%2C q_cov:98.9%25%2C s_cov:99.5%25%2C Eval:2.8e-20],MGA_30
sequence01	MetaGeneAnnotator	CDS	30127	30531	.	+	0	ID=MGA_31;product=transcription antitermination factor NusB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015909412.1;translation=MKSKRDPRHLSRIIALQKLFNRSFLRTNVFTNKELLELDRSQEFDKELLNKIVYGIKNNEKEILEIVKKASLERPSSKINKIDLLIIKIAIYEGFVGKITPPKVSIDEAIELAKEFGDIPSSKFVSGVLGNLMK;locus_tag=LOCUS_0310;gene=nusB;note=WP_015909412.1 transcription antitermination factor NusB (Chloroflexus aurantiacus) [pid:33.8%25%2C q_cov:94.0%25%2C s_cov:85.4%25%2C Eval:4.6e-11],MGA_31
sequence01	MetaGeneAnnotator	CDS	30528	31217	.	+	0	ID=MGA_32;product=ribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002354946.1;translation=MNVEDLIEKLNLKINDIELFRKSLTHRSFNGENNERLEFLGDAVIELLVSKYIYNKFPNEKEGILTSYRSSLVKTETLSKIAASLSFGNYILMSKGEDESGGRERQTILEDAFEAFIGALYLDRGLEYTNDFLYNNLYYILEDIIRDKSYINNKSQLQEISQSKYKSTPKYKVIKEEGPAHDKTFTVELVINKKTVSQGIGKSKQEAEESAATNILNKIYDKDKINENR;locus_tag=LOCUS_0320;gene=rnc;EC_number=3.1.26.3;note=WP_002354946.1 ribonuclease III (Enterococcus) [pid:43.2%25%2C q_cov:93.9%25%2C s_cov:96.1%25%2C Eval:3.5e-44],MGA_32
sequence01	MetaGeneAnnotator	CDS	31186	31410	.	+	0	ID=MGA_33;product=30S ribosomal protein S16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004451027.1;translation=MIKIKLTRTGKKDQANYRIVVALSTTKRDGKFIDNIGHYSPITKELEFNKEKLDKWISTGAQPTDTVKKLLKIS;locus_tag=LOCUS_0330;gene=rpsP;note=WP_004451027.1 30S ribosomal protein S16 (Clostridium) [pid:52.1%25%2C q_cov:95.9%25%2C s_cov:89.0%25%2C Eval:1.1e-15],MGA_33
sequence01	MetaGeneAnnotator	CDS	31393	32052	.	-	0	ID=MGA_34;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGINLRKNLLLYIIPTIIFIIVLLSFIFIIIPNYNSIINSDNEISAYNTKNTQLNQEISNLENYTSNNTSNKLKSDLAILNTIIPNNLQFVTTSGDVQNMALNSGLIFKNLSSAQLPKSFNSSVTIPGLSSNITPSNVSVSFSGNYSQLKSYINSLITNKILFVVPNIYYRGNLTGNISSDNTLDVKVTFFSSPDISETKYISLINNLGGLDKYLANFQ;locus_tag=LOCUS_0340;note=MGA_34
sequence01	MetaGeneAnnotator	CDS	32042	32587	.	-	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNEINLLPQKTRDDVKRERTTFYVDLVSAIVLIVVELSSFVLILLSQGLQKKVDAAKVSYQKNQVTINSFSKVNNLINNINYRYSNIVAIQKTFYNPIDVFHKLKLVTPSNISIYDINYDYNGNISYYAQAPDVLSVAKYMFIMTENNSQNKYFNNTQISSLSISSGSITFNVTTDYNGN;locus_tag=LOCUS_0350;note=MGA_35
sequence01	MetaGeneAnnotator	CDS	32584	33627	.	-	0	ID=MGA_36;product=PilM family type IVa pilus assembly protein TapM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011706970.1;translation=MFSKKKENSNVFAVDFGANSIKVVKLKDVEKNPTVVSFGSIPMPQGAYSSENEQHKKEISLALSSLIKDLNLGTKNVSTSLPDSSIFTRVIKIPAQKESDLEEAVFWASKRNVPIPLEDVQIDWSIVNSNTTDGLTQYDILLVAAPKLLINRYVDILTLAGLDPTFIETESLSLVRSMSSLNDPSPSIILDFGYNSINLVFAYRKNLLFNQTISTGSSVITKAISQEFNLEEIQAEEYKKNYGLDANQLEGKIYRTITPIMDSIINEIKRIINAYRSTNIGDLPSKIILVGNGSMLPGLVLYLAQNLNMEVEVGNPYSGVYINPELKNRMPVLLPGYAVSIGLALKT;locus_tag=LOCUS_0360;gene=tapM;note=WP_011706970.1 PilM family type IVa pilus assembly protein TapM (Aeromonas hydrophila) [pid:22.6%25%2C q_cov:96.3%25%2C s_cov:93.0%25%2C Eval:2.6e-19],MGA_36
sequence01	MetaGeneAnnotator	CDS	33632	34018	.	-	0	ID=MGA_37;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKKILIVEDEEALVELYKEILEDSGFDVKFAYSGDEGAEMAAKEKFDLILLDLMLPTGSMNGTYVLSLIKGDKDKYGEPIVVVLTNLTSEVVIRDVLEQKADGFLMKTELTPEQVVKEVKNYLSMQ;locus_tag=LOCUS_0370;note=WP_011459873.1 response regulator transcription factor (Desulfitobacterium) [pid:36.6%25%2C q_cov:95.3%25%2C s_cov:49.6%25%2C Eval:5.6e-12%2C partial hit],MGA_37
sequence01	MetaGeneAnnotator	CDS	34038	35471	.	-	0	ID=MGA_38;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIKFKNLLIIFLLFIIVFSIYAYIGKIDLFAQTTSSYGTWTKISYSNYSPSPSIIDNQVSTSVTDTHTYGYNYSCVGGTGSDVGVCSGSAPTSSNNSTTCTSTLSPTFHGLQSNSSVNDCYNQSITVVPRYGKYSISVAQVTPNNDGNRFYIEEHNYNTWLNSTPQGIEYSVSVTCTPGGWKNACNPNYSSGDINVELSSSPSSWLSFSQGALATTESISCSTNCQEDFVVYPYFNQSGLPAGLYITNSINVCYSNNTSTYCSSPSPLNLNSSNSSYTSIGASVSSQLPSLRVYASWIRSTGGGNTYSSGGYQIANFSHNSFSPTTFSDGLIENTNSSNFLNTPGSNMIPSYNSMLLLNNNPIYNFNFFATLYCQYNAVCNNSSNNLYSNGILQSHNIQTSNSSVSGVNWYFYNGTTTITPNPPPNSIILVYGDANIESNISNSPLVISSGNINIWSSVNQVNAFLMAMGQVVIN;locus_tag=LOCUS_0380;note=MGA_38
sequence01	MetaGeneAnnotator	CDS	35505	36143	.	-	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLFRNKKGFSLIETLVVLAIFASLSYMIMQSYTSTITYTTGIQNEIKVQNDLTYTMSSLRREIRVAASVSPNINVNGCSYMGTSIIGECNSIGQLSILDASGSTIGSISLSSSNNLRYNASGSTTSVPLNSSSVSIKSVYFFYDNYDYTGAPSYSASSSYTLPYLNIIIIGCYTSSNNSLSNIVFANTSNNTCLPLFGSATEENYIYNGS;locus_tag=LOCUS_0390;note=MGA_39
sequence01	MetaGeneAnnotator	CDS	36146	36787	.	-	0	ID=MGA_40;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKIINKKGFSLIEILITIMFLGFLFLAVLESEALAIKGNYQNTYNLYAKQVVSLELSYAHTWLEEGNYNSTNKFISCGINFGNHSTPSTSTPSNCLSIGKINNEINQFQYSSYSEIPNNAGIFLYISQPTSSGSSGCLLTVNAYVLWNLSAPGIPFNIQGYNYGQASALYSYFNNNSTELYNYSHNYTIQNLNTYNNLLYETDNISLLSSC;locus_tag=LOCUS_0400;note=MGA_40
sequence01	MetaGeneAnnotator	CDS	36780	37445	.	-	0	ID=MGA_41;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKGFTLVELLIVIAISVLIIGLAIVGSNSTQSQNILFSSAQKLESNIQLMKTDATSSITQFSGFNYNDTPEIIYGFFILPANSITQFCSNNCNGYVLGILVNDAPPSTPPCSIQYDLNNCNTMFSYVGGIVLNSIYLYYHQFQPGVTMSLCNPASTTTCNNYFPLFQELNGNISLYNTNSPFNTYAGNSSWYLSYENYYIPVNFDTQGNTFSLGKITNG;locus_tag=LOCUS_0410;note=MGA_41
sequence01	MetaGeneAnnotator	CDS	37442	38263	.	-	0	ID=MGA_42;product=A24 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583389.1;translation=MFSMLELVISLFSFFLGAIVGSFLNALVYRIRNGIDFVFERSECIYCKHKLSPLDLVPIFSFIFLRGKCRYCKKNIHLRYFVFEIITGVSFLLYFLYFPFSYNTSSTSLVYVNIIYYLILICIFLYIGLYDYLYYEISDKLILFSSIFVLIYFIYGWFSGSFSFYQIIGNIAVGVAVFMIFLFIILLTKGKGMGGGDMKLVFMIGLILGYPAILYVLFFSFLIGSIVGILLIIIKSKSIKSSIPFAPFLSLSVILYIIFGTYVSNFMTYIFLR;locus_tag=LOCUS_0420;note=WP_012583389.1 A24 family peptidase (Dictyoglomus turgidum) [pid:32.1%25%2C q_cov:98.2%25%2C s_cov:100.0%25%2C Eval:2.6e-34],MGA_42
sequence01	MetaGeneAnnotator	CDS	38288	38914	.	-	0	ID=MGA_43;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKINRKGFTLVELLIVMAIIGILIAVAIVGLGSAQADARNNARQTSVKGIAGLLETYYGTNGQSYPASVETTGTNQDVTFVSSGGSVYSTNSSLCKATIDPLAPGNIPTFNGTSCNGTQVAFVNDSGGGGAGVSNNTGTQYIYVPYVNGQSVGFGITPTSSVTGYLVGACLENSTIFVYTSNGSNAPYTQVSPNVIRFPNGNTYTCN;locus_tag=LOCUS_0430;note=MGA_43
sequence01	MetaGeneAnnotator	CDS	38985	40205	.	-	0	ID=MGA_44;product=type II secretion system F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942139.1;translation=MASFTYQASDSENKIVTGVIDAVDKNVVARNLIDQGLTPIRIKDKNSLSFSSLGDLNAINIGKIPIKDRVIFFRQLSVLITSGIPIVEAINISANQVTNKGLHNILLEVQKSVESGKSLSDSFSPYSKLFSNIQIQLLRTAEASGSLDYILDRIATDVENQSRLLSKFKGAMIYPILVVLVAIAVIGLVLTQMIPPMKNLYESFHATLPWPTLFVINLSNFFISYWIYILIVLIIIIFVIFLYTRSTAGKKTIDILIIKTPILGNLIKKIQIVDFGKTFILLNKAGVPLVQGLNLIADSLSNTLFKETLKQVSQEVEKGRSLGEVMSQYDIYPPLLWRMISIGEETGNMEGVVSKVVDYFEEETNNLIENLSKLLEPIITIFLGVIVGFIGVAVYLPIYTLGNVIK;locus_tag=LOCUS_0440;note=WP_010942139.1 type II secretion system F family protein (Geobacter sulfurreducens) [pid:32.6%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:2.3e-70],MGA_44
sequence01	MetaGeneAnnotator	CDS	40210	41268	.	-	0	ID=MGA_45;product=type IV pilus twitching motility protein PilT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000350195.1;translation=MNIEDLLKYTIQHNASDLHLSVGYPPIIRVDGLLQNVNNVVIEEDSIEILLNSILSDSQKEFLEVNKEIDFSYEYRETKDRFRINVFHEKSHLAAAFRLIPSAIRTFEELQLPDVMHKFTALPQGLVLVTGPTGHGKSTTLAAMIQEINLGYAKHIVTIEDPIEYVYPKGKSLVDQREIGEDTHSWDISLRSVLREDPDVVLIGEMRDFETISAAITIAETGHLVFATLHTNGAVQTVDRIIDVFPELQQSQIRSQLADILEGIIAQRLVPTIGGGRRAVLEVMLATSAVRNIVREGKTYQLDSVIQTSGDLGMISLERSLVSLVREGKITIDEAQNYSSKPDEVLRLFRGR;locus_tag=LOCUS_0450;note=WP_000350195.1 type IV pilus twitching motility protein PilT (Vibrio) [pid:49.0%25%2C q_cov:95.7%25%2C s_cov:97.4%25%2C Eval:1.5e-91],MGA_45
sequence01	MetaGeneAnnotator	CDS	41271	43007	.	-	0	ID=MGA_46;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILDILISQNKISQEQGNQLRIQSISQNINIDALIKQSGLVPQKDYYIAQSVMYNVPFKDLDGISTIPRDIFNSIDQRELSSNSILPFAKESDGSIDLAMKNPLDIQLIQYLENKYNIKIKPFYSIADEIISIINAESSKQIESNVVEDVEAANVDFNTEDITGNITDISGEIDGSIENAPIVKILNTVLEYSVKYRASDLHIEPTKKSLRFRLRIDGLLYEKLNIPVNLSPAIISRVKILSNLKIEEKRLPQDGRFNIKVGKELIDLRVSSLPTVYGEKIVIRFLRKNESVSNLENIGIVGDAFEEYKKALKLTRGIILITGPTGSGKTQTLAASLSYINNPVVNIVTLEDPVEIEIDGVNQVQINPDAGLDFATGLRAFLRQDPNIIMVGEVRDEETARLATQSALTGHLVLSTIHTTSAAGALPRLIDMGIEVFLISSTVEVIVAQRLVRRICDSCKKDYVPEDSVIKDIKNIFENTKIDISKYLEKDSLHIAKGEGCNKCNNTGYLGRIGIFEVLVVNEEIRKLILEKSSSDQINDVALKSGMVSLIQDGYLKVLDKITTIEEVYRVAKEDVE;locus_tag=LOCUS_0460;note=WP_012583238.1 type II secretion system ATPase GspE (Dictyoglomus turgidum) [pid:42.1%25%2C q_cov:99.0%25%2C s_cov:63.8%25%2C Eval:6.5e-120%2C partial hit],MGA_46
sequence01	MetaGeneAnnotator	CDS	43071	43667	.	+	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQSYIYESNNEEDILNFTKKFIDLKNKFQPDFIYIEGKILTKDISEIKNKLKYKSFTGDKRVVLLKINSITSEAQNSMLKLLEETNQDTTMILAIKNSNRLLDTIKSRCILIKDNNIIENKYDIKSFLKMRIEDRLEFIINVEDEEDFIINLFSYIMENYKEISDLSDKIIKINDIQKAINNNVQKKLILTDISLNL;locus_tag=LOCUS_0470;note=WP_003435878.1 DNA polymerase III subunit delta' C-terminal domain-containing protein (Clostridioides difficile) [pid:28.5%25%2C q_cov:86.9%25%2C s_cov:53.4%25%2C Eval:5.5e-10%2C partial hit],MGA_47
sequence01	MetaGeneAnnotator	CDS	43670	45595	.	+	0	ID=MGA_48;product=DNA topoisomerase (ATP-hydrolyzing) subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003434229.1;translation=MDNNNYDENSIVVLEGLEAVRKRPSMYIGSTSINGVYQIIYEVIDNAIDEALAGFCDKINIKITEDGSIQVEDNGRGIPVGIHPQTKKSTLETVMTVLHAGGKFGAKGGYKISGGLHGVGVSCTNALSEYMRTESFIKGESFVQEYNAGKPLYALKSQDNKISKEHGTIQTFVPDKSIFSDVEINSKQLLRRIREQAYLTGNILFTFQDERDDQFRVPYYIYFEGGAKSYVRTLNKDKKHITEIIHIKKEADTSLIEVAMQYTTEISDNLMSFANNIYNPEGGTHITGFKMALTKTINDYAKKSNIIKDNKDLLTGDDVREGLTAVISVKLENPQFEGQTKMKLNNSEIQTITRNIVSSELEIYLQENPKDAKNIIEKVLIAAKARKAAKAAREAVIRKSAFEGGTLPGKLADCSERNPDNSELFIVEGDSAAGSSKQARDRKTQAILPMTGKPINSEKYRIDKVLENERLKDFIIALGTGIADNTNIDKIRYKKIIIMADADVDGEHIATLLLTFLYRHLKEIIERGYVYIAQPPLYKVTTQGSSKENWALDDSVLDSMLKGFEKDNMKVTSIQRYKGLGEMNSEQLWETTMNPKTRVLKQIKIEDVEEADKTFEMLMGSEVPPRKKFIQLNAKNAEIDI;locus_tag=LOCUS_0480;gene=gyrB;EC_number=5.6.2.2;note=WP_003434229.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Clostridioides difficile) [pid:52.1%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:1.6e-183],MGA_48
sequence01	MetaGeneAnnotator	CDS	45599	48055	.	+	0	ID=MGA_49;product=DNA gyrase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003429305.1;translation=MDIENNQNIRITNIVDEMKKSYINYSMSVITARALPDAKDGLKPVHRRIIYTMHENRLYFSAKYLKSARIVGEVMGKYHPHGDLSIYDALVHMAQDFSLRYTLIKGQGNFGSIDGDSAAAMRYTEAKLEKISEEILRDIDKETVTFHETYDGRLQEPDVLPTAIPTLILNGTEGIAVGMATKIPPHNLREVMSAIIHILENIKEVSSDNKISDEIHIEEIMKFIKGPDFPTKGTIYDKAELTNMYTTGRGRVVIRGKAEIVEDSKGKMQIIISEIPFQINKSKLIMKIADLVKNDKIEGIADIRDESAKEEIRIVIDLKKDSKPNILINKLFKYTDLQTVFNSNMLALVDGEPKTLNIKNILEIFIEHRINIIQKRTEFDLKKAKEREHILEGLKIAIDNIDEVIKVIRGSKDSDVAKTELMKRFSLSEIQSQAILDMQLRRLAALERQKIEDELKSIRELILKLETILSDKFNIVNIVKEESTLIRDKYGDDRLTKVVNSKIGDFEIQDIIEDKETLITISKSGYIKRISPDTYKLQNRGGKGIIGMTTKEEDIISHAIITKTLNNILFFSDKGRVFQSRVYEIPEFSRIAKGQPLVNFINLEKDEKINSILLLEQNDNEAGYLLMTTQRGVVKKTKISQFKNIRKNGLIAIKLDKGDVLKWVERIEEGTDVIVVTKDAHSIRFSEKDVRDTGRSSRGVRAIKMLPENEVVGVGSITDKSDLLIVTKNGFGKKSKVSQYNTQSRGGKGVFAAKINAKTGKIASVKIVKEEKEALIISDKGQIIKIDISSVPRHNRHTSGVKLINLKKDDYVSTVECS;locus_tag=LOCUS_0490;gene=gyrA;EC_number=5.6.2.2;note=WP_003429305.1 DNA gyrase subunit A (Clostridioides difficile) [pid:49.8%25%2C q_cov:99.4%25%2C s_cov:98.8%25%2C Eval:1.4e-230],MGA_49
sequence01	MetaGeneAnnotator	CDS	48057	49118	.	-	0	ID=MGA_50;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKPFFGYGLSTFSNVFKKFQYAPWLYLKNSFSTYMSIFIDTGILGGLAVFIFIISFIYNAWFSIKENLKYFKYTKNIPNNLVYFPLYISIFSIFVYAIFYDILFLVPIMSLLFILIGISFRNFKTEDILSIRLSNSILILSLILFIFGIFLFLSTTFFNDGTKILSNVNLNKSEIITSKGYFKNSISFLPINSNSYYEMGLIDESLKNYKGAVNNLDLSLKYNNFSPKIYYELGKIYFNTHKYKKSLYYFKKAYNFNRYYSPNYILGLGEFYMYRKNPILEKSIYLQAINKYFPLNKFHKKYNNVFFNNNMNNIVDQMYINLFNLTKNKKYIEESSSLSSISIFAPHIKKK;locus_tag=LOCUS_0500;note=MGA_50
sequence01	MetaGeneAnnotator	CDS	50039	50308	.	+	0	ID=MGA_51;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKIYIKSFALVFILSIVFIFIVNTAKSEFAQVEEYSITSTGTYNQSTRQVTLQEQAASSVPAIFQYTIYNGQGPLQTSLNNTPNAVQ;locus_tag=LOCUS_0510;note=MGA_51
sequence01	MetaGeneAnnotator	CDS	50323	51300	.	-	0	ID=MGA_52;product=tyrosine recombinase XerC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545085.1;translation=MYMKDILLEHKKEFLLNLLNNNYSKETIYNYERDLSLFELFLSDRFIDFKNITKQDIVFFKDFLRTGEYIKILKNDKSVIHNFAKDNKGELSSRSINRVLSSLRSYIKYLIDFELFTPISPEVIKLIKTEKKNSQVAELNDLIRLIEFPTFYEKNEFVKSRNRAILETLFSTGMRISELVSLNRDQINDDGKIYVLGKGKKQRFVYLTERSKKYIFEYLSLREDNMSALFIPTRGGRLGNVNNRISTNYIQERISFYRKKIGIVVPTSAHSLRHGFATYLAEDGASPVAIQILLGHESLQTTNKYVHASDKYAEESHKKFHPLTQ;locus_tag=LOCUS_0520;gene=xerC;note=WP_012545085.1 tyrosine recombinase XerC (Thermodesulfovibrio) [pid:33.7%25%2C q_cov:83.7%25%2C s_cov:89.4%25%2C Eval:2.7e-31],MGA_52
sequence01	MetaGeneAnnotator	CDS	51341	51997	.	-	0	ID=MGA_53;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011476584.1;translation=MKLILKEKIFLSEDVVNLIFEPEIEFSWIPGQFLQYYIEDINDERGNDRFFTIASSPLEKSIYLTTRISEDSSEFKKRLLNIESIQSEGPWGNFTLSDDYSKYNINYIVGGIGITPVRSMVKDLILNKKDTSNINILYFNRNKDFIFKKDIENLKVFYKEGSANELDFKNNLISSPTSLFYISGPEGFVKYINSILIDKLNINNNLIKKDFFPGYKDL;locus_tag=LOCUS_0530;note=WP_011476584.1 FAD-dependent oxidoreductase (Ligilactobacillus salivarius) [pid:25.3%25%2C q_cov:94.0%25%2C s_cov:92.6%25%2C Eval:2.2e-13],MGA_53
sequence01	MetaGeneAnnotator	CDS	51997	52206	.	-	0	ID=MGA_54;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNTIKPTKNGPLKVSGKVDILDESGSLLESVESSTYLCRCGNSSNKPFCDGTHAVVNFDSSKGLQEDK;locus_tag=LOCUS_0540;note=WP_013528606.1 CDGSH iron-sulfur domain-containing protein (Mesorhizobium) [pid:49.1%25%2C q_cov:79.7%25%2C s_cov:26.0%25%2C Eval:1.0e-10%2C partial hit],MGA_54
sequence01	MetaGeneAnnotator	CDS	52873	52992	.	+	0	ID=MGA_55;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIYIYATKDKDKADIYIITGYIKNSTPKTKNVIAPNMP;locus_tag=LOCUS_0550;note=MGA_55
sequence01	MetaGeneAnnotator	CDS	53533	54507	.	-	0	ID=MGA_56;product=Holliday junction branch migration DNA helicase RuvB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965582.1;translation=MSKDVLNIRPSSFNDIIGREKEKKGLSILIDSARSRNEPLDHILFYGPPGLGKTTLSNVVASEMGVNIQITSGPALTRAADIASIVTSLSRGDILFIDEIHRLNRVIEEKLYSVMEDYALDIVVGTGPSAKILRLDLEPFTIIGATTRIGLISAPLRERFGSIFRLDFYSQADMEEIIKRSALVLDLKLTKEAISDIAARSRGTARIANRMLKRVRDYAHVYKVDLIDDKVVNSAFEVQSIDKMGLSDLDLKVLEIVVKNFKGGPVGVETIADAVFEEVDTIVDVCEPFLIQSGFLKKTPRGRVATKFAFDYLDIPYNEELSFI;locus_tag=LOCUS_0560;gene=ruvB;EC_number=3.6.4.12;note=WP_010965582.1 Holliday junction branch migration DNA helicase RuvB (Clostridium) [pid:54.2%25%2C q_cov:96.3%25%2C s_cov:89.4%25%2C Eval:1.5e-98],MGA_56
sequence01	MetaGeneAnnotator	CDS	54500	55081	.	-	0	ID=MGA_57;product=Holliday junction branch migration protein RuvA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545070.1;translation=MIGYLKGIIKYFDKNYVVVLVNGVGYRVEVPSNLVELIGTDAEVELYIYPEVSERSSRLFGFLDKETLDLFELLITVNGVGPKAALNILSRASLKDLMSAINESDVNFLSSLPSLGKKTAEKIILDLKGKISLDINIGNWSEVRSALVNLGYSNIEVDSIYSVFKEKYGDSTDLSNSVRMAISLLKGDKKNYE;locus_tag=LOCUS_0570;gene=ruvA;EC_number=3.6.4.12;note=WP_012545070.1 Holliday junction branch migration protein RuvA (Thermodesulfovibrio) [pid:33.9%25%2C q_cov:96.9%25%2C s_cov:97.9%25%2C Eval:3.4e-25],MGA_57
sequence01	MetaGeneAnnotator	CDS	55078	55560	.	-	0	ID=MGA_58;product=crossover junction endodeoxyribonuclease RuvC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861695.1;translation=MSKFILGIDPGFAILGWGIIEVDSKKIISTNWGAITSHSSEKIEYRLLKIYEGLTQIISLYKPEEMSLEKVFFNKNAKTVISVSQSQGIVLLLSALYKIPIFEYTPLQVKSALTGYGNSDKQQVQNMLKLLLKLEEIPKPDDAADGLALALCHLQTNRFI;locus_tag=LOCUS_0580;gene=ruvC;EC_number=3.1.21.10;note=WP_011861695.1 crossover junction endodeoxyribonuclease RuvC (Clostridioides difficile) [pid:42.2%25%2C q_cov:96.2%25%2C s_cov:91.1%25%2C Eval:1.1e-32],MGA_58
sequence01	MetaGeneAnnotator	CDS	55563	56333	.	-	0	ID=MGA_59;product=YebC/PmpR family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256931.1;translation=MSGHSKWSTIKRAKESNDLRKAKLFTKALNQIVLAVRNGGSNIDNNFILKTSIEKAKSLNVPSSSIDNAIRKGSGVDKDEDKFESVFYEAYGPGNTSLLIECYTDNKNRVISEIRFVLDRNKGKLVNNGTLDWQFDLQMLFTLKITDTKSTKDSWRDVNKERDISNLEEFEIDILDVDGLIDYSFDEGFAYIYVDPLKIDAFKIFFESKLLRVDNIEKVFIPKIKIDIKEEDLADNQCLIELLEDLTDINGVYYNF;locus_tag=LOCUS_0590;note=WP_012256931.1 YebC/PmpR family DNA-binding transcriptional regulator (Chloroflexus aurantiacus) [pid:37.0%25%2C q_cov:99.6%25%2C s_cov:94.8%25%2C Eval:2.2e-37],MGA_59
sequence01	MetaGeneAnnotator	CDS	56337	57476	.	-	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKNKLKITIFIILILFLVYIISVFVISIFSFNNLKLNNDIGYQGNDYNWNSTNTINVLVVYESKVNNYYLNTYNSIMSIDPSGQVAFLNIPDNMKIATSSNTYQKLNTIYPLGDLNSNKNGMNDLLKYLRYSLALPIQGYISFSSSGIKGLNVSIYSNIKYKNIIKNGENNLNSKQMNYILSIKTDNNSTLYLKNLIFNNLLFSFVNPISLINYKSRVVAFKNLFYSNINSKGFSNLLIDFYKIGINNIKYNYLPYSNKINLTNTDNYIQSNFTDNTFSNSGVSVQILDASNSNFAVYQFSRYIQNLGGNISSIGIYNSNTYKDIIFVGNLSKYGYEVNVIKDILGPNNVIIKDNNPNFFYTGTIIVVLGQVDNYIY;locus_tag=LOCUS_0600;note=MGA_60
sequence01	MetaGeneAnnotator	CDS	57460	57762	.	-	0	ID=MGA_61;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQKFIKRNESFVCQNCGFFNTEDKNGSCRNHCAECLYSMHLDIYPGDRKSYCKSLMKPMYMEMKGDNIVIYHKCISCKILKKNKASREDNLSILYEEKK;locus_tag=LOCUS_0610;note=MGA_61
sequence01	MetaGeneAnnotator	CDS	57765	58703	.	-	0	ID=MGA_62;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861614.1;translation=MNDSNIFNLKSEYSNRLDIVLSDSLNKSRNYFRKLIKDGFVTVNGNIVRKTKFKVNKDDLLEYRDFKYVDDISNIIPQKIKIDIIYEDENVLVINKKAGIVVHPGTGNSKNTLLNGIIFKLKFDNILTERPGVVHRLDKHTSGVIIFAKNIETSDFLIEQFKNREVEKKYIALAKGIITSNNKKVVRMDDRNFYIKGKIERSHSNRKLFILSDKGKDAITYFKIIKYIDRDFTLLEVYPKTGRTHQIRVSLANINHPVVGDKLYSRKSIAYPHMFLHAYSLKLKLPNVGYKEFNAKLPNFWRNIPGVSKLYK;locus_tag=LOCUS_0620;note=WP_011861614.1 RluA family pseudouridine synthase (Clostridioides difficile) [pid:37.8%25%2C q_cov:94.9%25%2C s_cov:95.4%25%2C Eval:4.7e-46],MGA_62
sequence01	MetaGeneAnnotator	CDS	58696	59034	.	-	0	ID=MGA_63;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIEDIQKKLEKERLKVQKQIDTIDKSIQSLPDSEIAEEFEGADIMNSKIESFEIKDNMETLLKDINLALLRIKKNKYGVCENCKLNIEPKRLDLYPFAKYCTKCMDEFDNE;locus_tag=LOCUS_0630;note=WP_010881370.1 RNA polymerase-binding protein DksA (Aquifex aeolicus) [pid:33.3%25%2C q_cov:69.6%25%2C s_cov:67.5%25%2C Eval:1.9e-07%2C partial hit],MGA_63
sequence01	MetaGeneAnnotator	CDS	59144	59710	.	-	0	ID=MGA_64;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYDYLFNILLFIISSLILWIVFYRSKVISNNDFWDYIFILFIFTVIGYKLLSYNGVIIFGILGTLIFSKLKSYSYYDIFDFYALFLSIFFILDFISQGFIYFLIILLVSICIILLRKVVKGYGMVIFLLIYSVMYFLNHSLWIFHKNYIYNLDLDVIFIFMSLLFLGLKLFFSNENNDYSNILKHKI;locus_tag=LOCUS_0640;note=MGA_64
sequence01	MetaGeneAnnotator	CDS	59700	60992	.	-	0	ID=MGA_65;product=pitrilysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942239.1;translation=MNMLEKLNQFELDNKIKLFTYNLPNSQFISINILVNIGTRDEGEDEINIAHLLEHTIFSGTNSRKDSKTISFELETLGGNMNAATTDEYTIYSVNIPYINFLEALDIISDIFINSIFNDESVNLEKGIVKQELDMKKDNNTFVVYDNIMSLIYDGNKGGLSKNLDQNISMLSSINRDKVVNFISKKYTNDNVFISVVGNISDYNVLDEVNKKFETKKYNKSEYKRDKIIINNKKNKIIKVDENVNQSNFVLAMESFPFKSDKYYQLILMSCILGGGEGSMLFQLLRNKLGIAYYVYSYNTFYTDNGFFYISSGIENSKFIYALEEIINMLNKFKKGNFTEKDLNRAKGYAIGGILSELESAENISNFILNDYIMLNKVRDQDEIKDNISSVKKEDIVNVFNEIYKNLYLSAITNNFYEEEIYDNILNNVI;locus_tag=LOCUS_0650;note=WP_010942239.1 pitrilysin family protein (Geobacter sulfurreducens) [pid:27.7%25%2C q_cov:94.0%25%2C s_cov:95.2%25%2C Eval:6.2e-45],MGA_65
sequence01	MetaGeneAnnotator	CDS	60970	61518	.	-	0	ID=MGA_66;product=elongation factor P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003226377.1;translation=MAVLTSGQLRSGIVYKDGSEIYLVLKYEHVTQGRGGTTIKVKVRNLRSNATLEKGYNVNDKFEDINVYKSSSQFLYSEGDMLYFMDSNTYNQVEFKMENKYLVGGEKVIITYLEDSPINIELPNTVILKVEYTESSIKGNTVNNPLKQAKLETGLEVMVPMFINIGDSIKINTENNEYVGKA;locus_tag=LOCUS_0660;gene=efp;note=WP_003226377.1 elongation factor P (Bacillus) [pid:37.8%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:4.8e-31],MGA_66
sequence01	Aragorn:1.2.38	tRNA	61536	61619	.	-	.	ID=Aragorn_6;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0060;note=Aragorn_6
sequence01	MetaGeneAnnotator	CDS	61651	63708	.	-	0	ID=MGA_67;product=elongation factor G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258228.1;translation=MDNIRNIGIIAHIDAGKTTSTERILYYTGKTYKIGEVHEGEAVMDWMEQEKERGITITSAATTTFWKLDGVKYRINIIDTPGHVDFTAEVERSLRVLDGGVVVFDGKMGVEPQSETVWRQADKYNVPRICFINKLDGIGADFYMSCDSIVDRLGANIVVMQLPIGAESNFKGLIDLVSRKAYIYTNDLGTDIKEEEIPEDMKDLVEEKRSLLIEKASESEDSLMEKYLNGEELTEDEIHQGIRSGVRKGTLFPIFAGSALKNKGFQLLLDAIIRYLPSPLDGGDIKALNDKGEEVSIKVSSDSPFCALAFKIMSDPHVGKLTFFRVYSGKVKKGSFIYNSTKGVEERVSRILLMHANHREETDELLTGDIGALVGLKDTMTGDTLSDKSNKILLESITFPEPVVSIAIEPKTKADQEKMSLAIHKLSEEDPTFRMNSDLETGQTIISGMGELHLDILVDRMRREFGVEANVGEPQVAYRETISSKANAEGKYIKQSGGRGQYGHCFLRIEPRDRGEGFKFSSEIKGGAIPQEYIPAIEKGIIETMNAGIIAGYPVVDVSVTVYDGSFHEVDSSEMAFKIAASMAFKDAMRSANPILLEPVMKVEVVTPEEFMGTITGNLTGKRGIMIGSELRGNARVIEVEVPLANMFGFTTELRSMSSGRASSTMEFNKYEIVPRNIVEEIAKK;locus_tag=LOCUS_0670;gene=fusA;note=WP_012258228.1 elongation factor G (Chloroflexus aurantiacus) [pid:61.3%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:2.7e-253],MGA_67
sequence01	MetaGeneAnnotator	CDS	63731	64195	.	-	0	ID=MGA_68;product=30S ribosomal protein S7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258227.1;translation=MRGKKAQKKIVKPDILYGNVNLEKFINKLMMHGKKSIARRIMYNALDEASSELKMEPLELFNKIIENISPSVEVKSRRLGGTNYQVPIPVSPDRQVTLSVRWLIKSARDRKGIPMEKRLYKEFIDAYNNTGGAAKKKTDIEKMAESNRAFSHLA;locus_tag=LOCUS_0680;gene=rpsG;note=WP_012258227.1 30S ribosomal protein S7 (Chloroflexus aurantiacus) [pid:51.4%25%2C q_cov:94.8%25%2C s_cov:93.0%25%2C Eval:1.1e-39],MGA_68
sequence01	MetaGeneAnnotator	CDS	64220	64633	.	-	0	ID=MGA_69;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258226.1;translation=MSRISQLVRKPRRSKLKKVKYKALSISYNTLNNRYIKTNSPFKRGVCTVVRTTTPKKPNSALRKIARIRLSNKMEVTAYIPGEGHKLQEHSVVLIRAGRVPDVPVAKYHVVRGTYDDSEGVENRKKARSRYGTKRSK;locus_tag=LOCUS_0690;gene=rpsL;note=WP_012258226.1 30S ribosomal protein S12 (Chloroflexus aurantiacus) [pid:63.8%25%2C q_cov:100.0%25%2C s_cov:93.8%25%2C Eval:2.7e-43],MGA_69
sequence01	MetaGeneAnnotator	CDS	64640	68503	.	-	0	ID=MGA_70;product=DNA-directed RNA polymerase subunit beta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013222587.1;translation=MLKDFKALKITLASPDRILEWSKGEVKKAETINYRTQRAEVGGLMCERIFGPTKNYECYCGKYKKIRYKGIICDKCGVEVTTRGVRRERLGHIKLASPITHIWFVHEVPNKLALLLDIPQKKLISVIYFSRYIILNVDEDKKKLAIEYVKEKVSKDDAEYNKQLDDKIQKLTVEEDKRIKDLIKDLKKDGIEGESIDLQVEKENFKFRQKIARLREEEALSYEDISKENNNLFELVKKISLGEVISEEEYGNLLDNDLEFYELGMGSESIRTLLSKLDLSKLSEDLYKDINARSAQKRVRAIQRLKIVEGFRKNNMKPEWMVLDVIPVIPPDLRPIIQLSGGKFATSDLNDLYRRVINRNNRLKKLIDLGAPDVILRNEKRMLQESVDALFDNQHRPSPPVVNSRRIPYKSLSDNIRGKHGRFRENLLGKRVDYSGRAVITSGPELSLRQCGLPKKMALELFRPFVMREILFRGLSPNIKSAKVLFETETPEVWDILEDIIKDRPVLLNRAPTLHKQGIQGFYPILVEGDAIKLHPLVCAGFNADFDGDAMVVHVPLSEEAIEEVKSLTMADSNLFLASDATPIVTLKKDMVYGCFYLTSIDKENLKLTFSSFEDLLSAFNKSLISLKELVKVRSNGVIIETSAGRVIFNNALHGSVDSFINEPVNDSIITNIIVNAVESIGKEETLLMLDDLKTLGFKFGLKSDFSISIEDCVILSNKEEIIAEAQEKVEQTSSSFIEGLITRKEKAQLLTEIWKTTTDKISELSLENLKDDNIFKKIIDNKFMGANIDQLKQIIGMKGLVVDPNSNIVELPIKSNYVEGLSVFEYLVEARSSRKGLADVALRTSDTGYLTRRMIDVSQDVIVREDDCNNYGEGYEISKSDVRTLSFEARIYGRVLSDDILDTKGNVIYSKNTIIDRKIAKDLSNNKEVETVFVRTPLTCGSQYGICKLCYGYDMSESQMVDMGKAVGIIAAQSLGQKGSQLTLNSKHLSGIVGAVDMSRGYPRIEELLEARIPKGEARIADIDGIVHIETNDLDVRVKIVSEKKIRQDYVLVKGDIPAFEGEKKVIPGTLLYTTKNQTQVISPFKGIAKIEEGKAYVESSKILEVEYKFFPDEIILVTEGEKITAGTLLTKGNIDPNVLLKAVGIKQAQKYIIDNLLDTYEAQGISVYDKHVEVIVAQMGRYVKVVDPGDSDILPGSYKDIFFINEDNKRLKLTEGKSVKYERKLSGITFSALHTESFLSAASFQEQVRVLSDAAISGKIDHLRGLKENVIIGRKIPSGESAKLV;locus_tag=LOCUS_0700;EC_number=2.7.7.6;note=WP_013222587.1 DNA-directed RNA polymerase subunit beta' (Amycolatopsis mediterranei) [pid:7.5%25%2C q_cov:99.2%25%2C s_cov:95.2%25%2C Eval:1.3e-267],MGA_70
sequence01	MetaGeneAnnotator	CDS	68525	72010	.	-	0	ID=MGA_71;product=DNA-directed RNA polymerase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393945.1;translation=MHNGRIDLSTSFDENQKSFNYPNLIDAQLNSYEDFLETNIKALFNEINPVEDNTGKLWSLEFLDHRFGDINRSSKEAIRKGLSYDRPLYFTVRLTNKVTGEIKEQELFVVELPVMTESGSFIINGHERVVIHQVVRAEGVLFGENGVGFNKRPLYSAKLVTAIGPWLTFEVNKHNVISLKFAPRKNKILITTLLRALGYSTNSDILNLFADIDNDVEKRYIDATLVKDTSHNQTEAVLEIYRKIRPDISISYDNALNYIESLFFNPRKLYLGKTGRYKLNKRLGVNKPIKEENYVLTRDDIVGIIRRLILVNNGEVPPDDIDSLSNRRVKSVGELLSDYVRVGVRRVEKIIKDRMSIMSSDEVLTPSMLVSTKPFVSVINEFFGSSAVSVSADQANILSEISNKRRVTAGGPGGLTKESATFSVRDMHYSQYSRFCPVETPEGQHIGIVNHLSIYAKINDYGFIETPYEKVLKTVSFDSKKLKGRILKGSLKLGGETYKSGTRIDSKLSDLIKKEKLKDISVLAYLSGEVIYFDADEEFDLSIASLNTKIDKEGNLLDNILEVRSKGEYSLGNVNTVDYIEVSTTQIGGVSLNLIPFASGNKADRTLMGSNMQKQAVPLVSPEAPIIGTGVERIIAENSHRAYFAKDDGVVEYADSKMITVKYKNGDKETYFADKFIPTNKSTSFSQKVLLNKGTVFSKGDVIVDGPSMDKGELALGRNLLVAYMMYEGYNYEDGIVISEKLVKEDLLTSVHVKCYTHDIKETRLGDEVTTRDIPNVSLTALRDLDENGIVRVGAHVESGSILVGIVAPKGEVELTAEEKLLRSIFGDIAKDVRDNSLRVPNGESGIVTDIEVLERNDDSNKLSPGVIKQIKVWVARTHKIGLGDKLSGRFGDKGVISKILPVGDMPYLEDGTPVDIIISPSSITRRLNFGQLHEIHYSKLAEKLNTKFAFPIFSQIDEEKVAKLIKDNNIGEIEDKVDLYDGRTGDKFDHKITVGKRYILVLDHLADTKIHARSTGNYTVVSQQPLGGKSNMGGMKFGEMEVWALEAYGAASTLQEMLSIKSDDIIGRSEAYKSIIHNKKIQMVGIPESFKVLLSELKSLCLNIEPIDVVIEKEVEEEDSYLPEDIVMEDVVMEEGENEIIEGVAVTAGPDSVLEEEYNN;locus_tag=LOCUS_0710;gene=rpoB;EC_number=2.7.7.6;note=WP_011393945.1 DNA-directed RNA polymerase subunit beta (Moorella thermoacetica) [pid:46.2%25%2C q_cov:95.6%25%2C s_cov:92.6%25%2C Eval:7.0e-284],MGA_71
sequence01	MetaGeneAnnotator	CDS	72178	72426	.	-	0	ID=MGA_72;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFNIILLSFIVIVLWIIFSIYNISHSSHPIISVPQQLLSNFNGNLYQTTFEDIVNRQQYICVNSDFLPKNNCKVILVTK;locus_tag=LOCUS_0720;note=MGA_72
sequence01	MetaGeneAnnotator	CDS	72430	73068	.	-	0	ID=MGA_73;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNINVKKSKEFLLNSFQNKKYQLYYYLSASLILILIFIIFIIYPLINVIFQELNSVNIINSQNNQMQQRYNDITSSYYLYNKNIRPNINYLNKSLPNVKDTAFIFGNLYQIMHKSNIDLTNINFNVSGGSTLPPQVNALSKNFDVAISAIGSYQELISFLDSISNYPQRILIYNISFVPNLTSNAQAVPTGSMFTSTGAITFDALIFYSNY;locus_tag=LOCUS_0730;note=MGA_73
sequence01	MetaGeneAnnotator	CDS	73065	73655	.	-	0	ID=MGA_74;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHDKSKRDTINLLNNIKEPQNSFDLFYNWVFSYGKYILIGFEVIVILVFIAKVTVDQEYNFAVQSSQNLQNRLNSPIIQSETRKINAYQSKILTVLNLYDYHYHSDYILNKILALSNPGISMSSITLNNNILTINGTSLNYQDLQTLSNSFQADNKDFSNVLIPSLSDSQNNLSASNITFSLSAKIIISSSSVRKL;locus_tag=LOCUS_0740;note=MGA_74
sequence01	Aragorn:1.2.38	tmRNA	73778	74187	.	+	.	ID=Aragorn_7;product=transfer-messenger RNA;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_tm0010;note=Aragorn_7
sequence01	MetaGeneAnnotator	CDS	74234	75277	.	-	0	ID=MGA_75;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004111854.1;translation=MALKIGIVGIPNVGKSTLFNALTNNVVPSENFPFCTIDPNTGIVFVEDNRLYELANIVTTEKIIKADVTFVDIAGLVKGASKGEGLGNKFLSHIYDVDLILEVVREFKNDLIIHVENNINPVRDIDIINTELILKDIEVLDKLKNNIEKSMRKDGSLKEILDLFEKLEKNLNEGKLIIEEKYTLREKEILKNYNFLTNKNFIYLYNTEEYAPVIKDNSIYMNILFEFEISKMDQISRDEFLKDFDIKESGVDLLTRFAFDKLGLQVFFTVGEKEIRAWVIKKGSSAIEAAGVIHTDFVKNFIKMEVVSYDDFISLKSWNNARDKGKLKIVGSDYIMNDGDIVIVRHS;locus_tag=LOCUS_0750;gene=ychF;note=WP_004111854.1 redox-regulated ATPase YchF (Gardnerella vaginalis) [pid:48.9%25%2C q_cov:98.6%25%2C s_cov:98.3%25%2C Eval:2.2e-87],MGA_75
sequence01	MetaGeneAnnotator	CDS	75279	76610	.	-	0	ID=MGA_76;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986767.1;translation=MPNIKELIPQDIFKISNLLKTQNFSAYLVGGSVRDMFLGYNINDFDITTNALPEDLKELFPNAILFGEKFGTIMIKEGNFNVEITTLRKDSEYLDSRHPKEVTFINDINIDLKRRDFTMNAIAYDFNKDQIIDIFDGIKDIKNKVIRSVGNPDDRFKEDALRLIRAVRFSFKLNFDIEEDTFISILKNAKLINNISKERIRDEFLKIIKNENSSVGVDMLRKAGLLEYIIPELIVCVGVKQNKYHSLDVYNHLLLSMDKADERIKLAALLHDIGKPQTKQGGHFFGHEKVGADISKEILERLKFPKKEIEIITKLIYLHLFHYESTWSDAAVRRFLRKVGDMKILNLLFLLRVADEKGNPISTYDFNNLENFKKRIDTINKKEGILSLKDLAINGEDLLGIGFIRDKKLGETLNSLLDVIIESPELNKKEYLLKIAKNKLENK;locus_tag=LOCUS_0760;note=WP_011986767.1 HD domain-containing protein (Clostridium botulinum) [pid:43.1%25%2C q_cov:98.4%25%2C s_cov:98.9%25%2C Eval:1.4e-95],MGA_76
sequence01	MetaGeneAnnotator	CDS	76603	77994	.	-	0	ID=MGA_77;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584040.1;translation=MTIKLKDSFEGIKEFKPLSQNEVKIYSCGPTVYKYVSIGNLRSFLFSDILKKSLEYVGFKISDVMNITDVGHLTTDGDEGEDKLEKEAILNKFSVMELAEFYTNDFYKNIEKLNIRFPKIISKASDNIDTQLEMIDILDSKGYVYKTSTGVYFDTSKYIGYEKLINQKGIDQKKYAREGVKKDKTKKNPQDFRLWQTSYPNHILQWDSKWGRGFPGWHIECSAIIYKFLGKEIDIHTGGIDLKSLHHVNEIAQSKAAFDSKFVNYWMHNEFVLSDGVKMSKSLNNAYLLSDLEKEGIPAIYLRYLYLNAHYSSLINFTFESLRSAQNALDKIYNFIRLNIDSYDPSSLVNDHYKKLFIGKIENDIDTPGMLEVLWAVVKDNNISSSERISTILDFDKVLSLNFLDCFNEKIPKEVLSLADDRSKLRNNQDWKSSDEIREKINLLGYSIIDLRDKYFLVKNKNA;locus_tag=LOCUS_0770;gene=cysS;EC_number=6.1.1.16;note=WP_012584040.1 cysteine--tRNA ligase (Dictyoglomus turgidum) [pid:46.4%25%2C q_cov:94.6%25%2C s_cov:94.0%25%2C Eval:2.0e-105],MGA_77
sequence01	MetaGeneAnnotator	CDS	77984	78592	.	-	0	ID=MGA_78;product=recombination mediator RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003421618.1;translation=MDDNNPISILAKEFSKLPGVGSKSALRMAYFYVYNKQNIKSLSNALSLVDMNIDNCIICNMIVDKKENPCKFCRDENRNKLSICILENSTDIDYIEKSGVYKGVYHILGGVISPLNNSSYSDKSLDNLKKRLNLNDKFEIIIATNFTTEGEATGSFIRSYLSGFKNIKFSRLASGLPVGSNLEYIDTYTIGKALERRIDYDN;locus_tag=LOCUS_0780;gene=recR;note=WP_003421618.1 recombination mediator RecR (Clostridioides difficile) [pid:41.5%25%2C q_cov:95.0%25%2C s_cov:95.5%25%2C Eval:1.4e-32],MGA_78
sequence01	MetaGeneAnnotator	CDS	78602	78907	.	-	0	ID=MGA_79;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANPFSQAKDLYKLQSEARKLQKDLESKIFIGESKKSLVKISLNGTGEIINIEMDDLLFDKDRKSDFIEHIKDAYKDAQKKIAKDMSKDMDLSKLKSMMGM;locus_tag=LOCUS_0790;note=MGA_79
sequence01	MetaGeneAnnotator	CDS	79015	80985	.	-	0	ID=MGA_80;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKFTKGFPFYKNENSIIDLLLYLLLLFFTIILPFKEFSFIYNINYPLFTPNILYIIYSIIFILLALYSILNLVNSYRSLVGIYKMQAKYILGSILPALFIGLVFNLVLPLFHNYSLIMLGPIGLLVFVFLIYISMSKYQFWGGTYLFNKIAEYFFLIILAFGLFYLSIFIERYLFGTVFGIYSYTLGFFLAFLFVLLFSIISKKFEKVKFKNELIFDQLKDYLLIEIDVSDIINNISEKMKKALDVKLIEIFFQNNFSYKIDGLNELLEEYHGVLFLDEISINKNYKINDNVQVIIRKLLKEDILVLISNKDISLFIHNKLDLKPLSKQEKYMITDFSRYLFITFQKIDLIVNLKSKVEEATKELEHNNKELEKVNEDLKGLDQLKDDLISISSHELRTPASIVKGNIYMAQSAINEYIKKLPLSKKNNEYLEKLKRYIQRSIESIENEIRIINTLLEASRMGRSDVPILPENLDLSSMIESQVDGFSKEANNKGLKIVYIKTNIDRVFGDRSKVEEIIGNLISNSIKYSERGVIKIFTTQDKNFVTVNIKDQGVGIPEKEIPNLFQKFHRLNNYIGNPNDPKDTKHLLVRPGGTGLGLYVVKGLVQRMGGDIWINSTVGKGSTFSFTIPVSKNVDTYKSNKFETQDIFKKMNLK;locus_tag=LOCUS_0800;note=WP_164924824.1 ATP-binding protein (Thermodesulfovibrio) [pid:31.2%25%2C q_cov:38.7%25%2C s_cov:39.6%25%2C Eval:1.2e-29%2C partial hit],MGA_80
sequence01	MetaGeneAnnotator	CDS	81230	82024	.	-	0	ID=MGA_81;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEMESTQFENFDSFEKRVSALWEEYAKVYPFLIHSSAYKGLVHDFLEGSNVENLRTGGEVLDLGAGTGNITNALLEKNPAIKITAVDNNDAMVQYLNNRFSEDSRVSVKKEDIGDLDVWKKREEVFNIVASNLVLPYITHLNGNKGKDVLPELIKYVYGSLSEDGTFVWSSPKNEVNFGKVFKDAVTHLDFARVPGHSPIKGLKSAKRILSHANEIAELGRLGIFYFPKEEDIIDIMKESGFRKITIKESFVKQSNVITGKKI;locus_tag=LOCUS_0810;note=MGA_81
sequence01	MetaGeneAnnotator	CDS	82094	83575	.	-	0	ID=MGA_82;product=DNA polymerase III subunit gamma/tau;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003421622.1;translation=MSNNTILYQKYRPKKFSEVIGQDNVVRILINEILLSNIANAYIFFGSRGTGKTSVARIFAKAINCENLSDKGDPCNKCLNCKEINSGSYLDLIEIDAASNRGIEDIRELKNKIQFSPVSGKFKVYIIDEVHMLTNDAFNSLLKTLEEPPKNVIFIFATTEINKVPQTIVSRCQRFDFLKASYKDIMTQINFVLKSEKTELNDDIKDLVVTIADGSFRDSMTNLQKILSIYKHDMSYNEVISILNFPDIEFVKMIWTSVISGDLEKVLENIKSNNINVSVFIKNSLDFIRKSMINKTLNYNYYSIDDSVFENIESRDLIKIVNILLNTLEKIKISYLDEINLEISFVSVIDQLGIDVLKSKEEVNEKKTRDMQVENKTKKSITIDENKDLNLNLYWGEIIDKSKTFNHHMSAFLSKSSFMIEENKIIIIVPFSFYKDMLIEKRSKEFLSNLIKDIVGKKYILDCIVDKDIKPIFKNINKINNIDNEIKEVFDLE;locus_tag=LOCUS_0820;gene=dnaX;EC_number=2.7.7.7;note=WP_003421622.1 DNA polymerase III subunit gamma/tau (Clostridioides difficile) [pid:31.7%25%2C q_cov:98.6%25%2C s_cov:94.5%25%2C Eval:2.2e-73],MGA_82
sequence01	MetaGeneAnnotator	CDS	83572	84798	.	-	0	ID=MGA_83;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000431277.1;translation=MVFKNLKGFKDYYPEEFKKKEYILNIFNEVSISFGYIQYDGPIIEEASLYEAKSGESLLEEVYSFTDRGDRRVILRPEMTPTLARMLAEKSSQYKKPIRWFSVPDLFRNEKPQKARSRQFTQYNADIIGANSNLSEIEILNISINILERLGFSRDDFDILINNRDVAFKFLSNFTEDVNNLLRVIDKKGKIKEEDFNRSVEALLKDKKFLKDVLVYINDSDSNKFEEIKDITDKARDFGLSLKYDPSIVRGLDYYTSTVFEIWDKKRLIKRSLFGGGRYSDLISSLGGEDIVAVGIACSIEGLTSLIKEYNKEIPSLIEYDYFILTFGNVELSHYSNIANTLRSKGYSVLMNISEDWNISKQIEFALKMNVKNLVILGEKELENKSLIIKNLKLKKESIINIKDLENI;locus_tag=LOCUS_0830;gene=hisS;EC_number=6.1.1.21;note=WP_000431277.1 histidine--tRNA ligase (Leptospira interrogans) [pid:33.4%25%2C q_cov:92.2%25%2C s_cov:89.5%25%2C Eval:2.7e-58],MGA_83
sequence01	MetaGeneAnnotator	CDS	84819	85820	.	-	0	ID=MGA_84;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003548870.1;translation=MKQRMLTGDRPTGLLHIGHYVGSLSARVKFQDDFDVIVLIANIQALTDNFENPKKVNLNIMEVLKDYIAIGLDPKKVTFVLQSDISEIAELTVIYSNLVTISRLMRNPTVKSEVIQKKNTFSNDNITYGFLGYPVSQAADITAFMADIVPVGDDQSPMLEQTIEIVRKFNKIYGDVLKSPKIYLSEVPRLVGLDGKNKMSKSLNNVITFKDTESELKKKVMSMYTDPTRIHKNDPGHTENNPVFIYHNIFNNNKDEVKEMESLYREGKISDLEVKERLFSVLNDFLLPIREKRCSLEGEEDSLYEILKEGTKKGQNIAKDTLKRVKDSMFLTY;locus_tag=LOCUS_0840;gene=trpS;EC_number=6.1.1.2;note=WP_003548870.1 tryptophan--tRNA ligase (Lactobacillus acidophilus) [pid:51.6%25%2C q_cov:99.7%25%2C s_cov:98.2%25%2C Eval:6.8e-91],MGA_84
sequence01	MetaGeneAnnotator	CDS	85858	88245	.	-	0	ID=MGA_85;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNSSLEIQDTFRGDSNFLSIIKKIENNSNSLLNISGLDKYLIDYFPSFLNTFFDNFSFLYSYKEQNFDSFLLKNDTTRSDLITILESLDFYTKVDIINDNYEYSVLGDKVDICLNKIIYRFIFFGNILESISVRDFLTFKNILFLDKLYLPKNKDVFFSSYEKELSKTHIYFNLGIDGDINLDYNYFSDYHISFNTLFKSIEANVDTFIIFTSRGIFESNLLNGKKVIYSNIEFPRGFFSANGRFAVFTDVELYGEFNLNQYRKKKSKRIVTDFTDGKIYEGDYIVHINHGIGIFRGIKSKNIKGINKDFIEIEYSNNDKLYLPLEISDRITKYISDTNKPPKLTKLGTREWENVKSKIKKEIQNIAKDIILVHAQRISVKKVLDNNINYELEEEFNNQFEHIETSDQLEAIKDVRNDLLSEKVMDRLIVGDVGFGKTEVAVRAAFISVMMNKQVLFVAPTTILVEQHYKVFKKRFKNFPVKIAYLNRNITKKEEKAIFAEVERGSLDILIATHKAFSNNLKFKKLGLVIVDEEQRFGVKQKEKLKKIKADIDYLSMTATPIPRTLYSSFTGIKDISIIASPPLGRKPIYTEIIDFDVDRMNNIIMREIKRLGQVFFLHNNISTLYNIKTLLIEKIPNIRIEIAYGSLPGLDKLLYKFKNKEFDVLLSTSIIENGIDFPNVNTIIINQAFRFGLGQLYQIRGRVGRSDRDAYCYLVCPPSIINNNGVVKDRLETLVKNQNVGSGFTISLKDLEIRGAGEILGVNQHGNVSRIGFDLYSQLLQKAIDDINIFSNK;locus_tag=LOCUS_0850;note=WP_010966492.1 transcription-repair coupling factor (Clostridium) [pid:44.9%25%2C q_cov:72.1%25%2C s_cov:49.1%25%2C Eval:3.7e-140%2C partial hit],MGA_85
sequence01	MetaGeneAnnotator	CDS	88238	88771	.	-	0	ID=MGA_86;product=aminoacyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000240196.1;translation=MNHLIVGLGNPDKEYHNNRHNVGFLFLDFIVNQEGIKEKFLFNKDFSGEILKHDNLFLLKPSTYMNNSGLSVKKVINFYKNSFEEVTIVYDDLDILFKQFKIGDKSPRGHNGIKSILSHIDNINIRNIRIGVENRFNRDLINGADYVLDNFTKDEMYYLLNTLFPQIYIEIKNIYSE;locus_tag=LOCUS_0860;gene=pth;EC_number=3.1.1.29;note=WP_000240196.1 aminoacyl-tRNA hydrolase (Streptococcus) [pid:36.3%25%2C q_cov:92.1%25%2C s_cov:85.9%25%2C Eval:1.3e-25],MGA_86
sequence01	MetaGeneAnnotator	CDS	88768	89175	.	-	0	ID=MGA_87;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYNSYKNSYDINHYKLLKISKILFKELGLKEKNFSIFIVGDKKIKDINYKFRNINTTTDVVSLEYKDPFYIGDIYISPNNILKNARKYNISFKDEFDRTFIHGLLHLLGFDHKSSLNLNEKMFIIQEDILSKII;locus_tag=LOCUS_0870;note=WP_012546720.1 rRNA maturation RNase YbeY (Thermodesulfovibrio yellowstonii) [pid:37.2%25%2C q_cov:85.9%25%2C s_cov:74.8%25%2C Eval:3.4e-17%2C partial hit],MGA_87
sequence01	MetaGeneAnnotator	CDS	89172	89612	.	-	0	ID=MGA_88;product=GatB/YqeY domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003230022.1;translation=MYNTLLEDIKSAMKTKDSEKLSVLRLLYANIKNSLIDNSSKQVDDKFFYNILSKYIKELEENIENYSKLGRVDLVDKEEYELKVLKNYLPTQLTDEEIYSLVKSEVDKISDFSIKNMGEVINNISKEYEYRVTSKKISEIIRSKFL;locus_tag=LOCUS_0880;note=WP_003230022.1 GatB/YqeY domain-containing protein (Bacillus) [pid:28.6%25%2C q_cov:95.9%25%2C s_cov:94.6%25%2C Eval:3.4e-16],MGA_88
sequence01	MetaGeneAnnotator	CDS	89621	89848	.	-	0	ID=MGA_89;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIIVRDNEVFESAWRRFMRELISNGVLDEIKDRTYYKKPSVERTAIRREFKKRKTRHHRAMRRIRSKYGKGFSV;locus_tag=LOCUS_0890;note=MGA_89
sequence01	MetaGeneAnnotator	CDS	89863	90204	.	-	0	ID=MGA_90;product=histidine triad nucleotide-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005816465.1;translation=MNSNCVFCSIINRDIPAQIIYEDEDFLVFDDINPSSKIHKLIVPKKHIKNLSEIGIEENKYLWNKYIDIINILKTSLKVLNFKIVINNGDKLQLVKHLHFHFLSGDDVNDKLN;locus_tag=LOCUS_0900;note=WP_005816465.1 histidine triad nucleotide-binding protein (Desulfitobacterium hafniense) [pid:38.4%25%2C q_cov:97.3%25%2C s_cov:98.2%25%2C Eval:1.0e-18],MGA_90
sequence01	MetaGeneAnnotator	CDS	90260	91411	.	-	0	ID=MGA_91;product=RIP metalloprotease RseP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002934663.1;translation=MSYIITLIIFIILLSLLIVVHELGHMIVAIKRGVIVNSFALGFGPKLYSFNHNNIEYRINLLPFGGYVSLFGDDDPGNKIKGSLSAATALSKFMITIAGVFMNLILALIFLFIFLFSINFKFYYSNIIPNFKFTFGQNVNNILFSRINSDKTSTLSKDNINGLYLIKSINNVPIHSISQIQKIVDQNKGKYLYFNYSYVKNINLYGIDLGKVSRAKFLARKNFPKNSGSIGISIQSISHIEFTSVQSKIFSVIAFPYDVLQLTFQGFGYLINQSIVQKNSKIITTQIAGPIGIYMYTNILFQNDGFTGLLFIFGIISLSLAFMNLLPIPPLDGFYVLLSILEGFFSIKINEKWMYYISMAGVIFFIILMIFVTFNDLINFKII;locus_tag=LOCUS_0910;gene=rseP;note=WP_002934663.1 RIP metalloprotease RseP (Campylobacter jejuni) [pid:29.5%25%2C q_cov:95.0%25%2C s_cov:90.8%25%2C Eval:5.0e-27],MGA_91
sequence01	MetaGeneAnnotator	CDS	91415	91963	.	-	0	ID=MGA_92;product=ribosome recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545660.1;translation=MTIDEFKSKISKNIEFFKQEIKSLRSSSANIGIVEDIKVNVYGSNMPISQIATITVPDVNLILIQPWDSSNIDPICNAITNLNIGINPIKSVNEIKLPIPPLSEERRKDFIKILNLKMEESKISMRNLRKEYLNKIKKDFDNSEIREDDFKRDEEMVDSIIKEKTKELQDIHDEKREDLLKV;locus_tag=LOCUS_0920;gene=frr;note=WP_012545660.1 ribosome recycling factor (Thermodesulfovibrio) [pid:33.7%25%2C q_cov:98.9%25%2C s_cov:99.5%25%2C Eval:2.0e-32],MGA_92
sequence01	MetaGeneAnnotator	CDS	91960	92556	.	-	0	ID=MGA_93;product=translation elongation factor Ts;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082052.1;translation=MNISVDLIKQLREMTNAGVSDCKKALVEAKGNIEEAVKILRKNGALKTISRNSREVSEGWIGSYVHHNGRLASLLVLKCETDFVARTDLFKDLAHSLAVQVITSNPLYVSREDVPEDVIEKEKAIILEDKMFSGKNKDVQDKILEGKLEKVFEEICLLEQSFYKDGALKVSDVINEIASQTGENIKVENFVRLELGNS;locus_tag=LOCUS_0930;gene=tsf;note=WP_004082052.1 translation elongation factor Ts (Thermotoga) [pid:56.1%25%2C q_cov:99.0%25%2C s_cov:97.5%25%2C Eval:2.1e-54],MGA_93
sequence01	MetaGeneAnnotator	CDS	92559	93233	.	-	0	ID=MGA_94;product=30S ribosomal protein S2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004111661.1;translation=MKEITVENLLKAGVHFGHQTKRWNPKMKKYIYTSINNSHIINLDMTLEYLELALKFLKTVNPKNILFVGTKKQIQDIVKENAEKLNSFYVTERWPGGLLTNFKTVSLSLRKLDEYDSILNSEDARSKRTKLELLKISEDRERLLRLYGGIRKISKKIDAIFIVDVKTEQVALKEAKKLGIPVVAIVDTNVDPDDVEYPIPGNDDGIKSVELILSYITDNILNSK;locus_tag=LOCUS_0940;gene=rpsB;note=WP_004111661.1 30S ribosomal protein S2 (Gardnerella vaginalis) [pid:50.0%25%2C q_cov:98.2%25%2C s_cov:83.5%25%2C Eval:3.1e-58],MGA_94
sequence01	MetaGeneAnnotator	CDS	93359	95509	.	-	0	ID=MGA_95;product=type I DNA topoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259747.1;translation=MAKNLIIVESPTKANTLSKFLDSSYDVIATKGHIEDLPKSKFGVDIENHFSPEYQILKDKVKLLKEIQKKAKDVSNLYIATDPDREGEAIGWHILENLKLNKDTIVQRIAFHEITKKALLESLNNPTELNSNLIKSQQARRILDRIVGYKLSPLIWEKIRYGLSAGRVQSVALNLIVKRENEIKSFIPEEYWDISSIIDIDKISIKFLLSKLNNKKIKLSNEKDVDNVVNEIEKGDLKLKDIKISSLKKYPKPPYTTSTLQQDANLRLGFSSKKTMLLAQQMYEGVKIDNEQVGIITYMRTDSVSLSSDSISDIRILVNDKYSEKYLPSKPNLYKVKSKLAQEAHEAIRPSVVSRDPDSIKQYLTNDQYKVYKLIWERTVASQMNPAVYDNKKLILEVLYKENIYELYASFSSLNFDGFKKVYNIKEKDIEEIKFPFSSIDEIKKAVLNIVKINKDQHFTEPPARYNDASLIKKCELIGIGRPSTYSSIISTLLNRGYIIRKDRNFFPTDIGIVVNDFLEKYFSNIVDANFTSKMEDDLDKVASGNLDWEKVIKDFYFPFEKEIESNKDKINKNDITNLGESEEKCPDCGAPMFYKLGKYGKFLSCSRYPECKGMKAILSDEDKDIVNIEEKCPDCGGNLILKKGRFGDFYACSNYPDCKYTRSLKNNPKKVLEIKCPDCGEGNLVEIRNKRGQIFYGCSNYPKCKFTTNKLDDLS;locus_tag=LOCUS_0950;gene=topA;EC_number=5.6.2.1;note=WP_012259747.1 type I DNA topoisomerase (Chloroflexus aurantiacus) [pid:41.3%25%2C q_cov:99.7%25%2C s_cov:96.0%25%2C Eval:3.2e-164],MGA_95
sequence01	MetaGeneAnnotator	CDS	95526	97379	.	-	0	ID=MGA_96;product=penicillin-binding protein 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583753.1;translation=MKISDYEISDLNNLPGEEIDASKNNNFSRYYLFATIFIFISFIIFSFYLSYFKFNKYSELSLQNRVIKIPVIATRGVIFDRNMNQLSFNVPSFDLYINISNLSNEEIKTDEYFLSSILNIPVKKIKKNIQNQIKLGYQSILIANSISKENDILITSNKSTKGLYIKQSYYIKYRYNNLLSHIIGYTGPVTEQELLANKNLNPEDIIGRYGIEQSFNNYLMGKDGVDITQVNTLGNRVSNFGEISPVPGDNVQLTINSNIQKELQSLIIQNIKINPNHVTGAVGIVENVNTGGILAMVSYPTFNNNNFEAGGISSANYSKLINNPEDPLLNRAITEEQPVGSIMKTILLLAGLQVKAITPTTQFSVPGTFVYDGTTFQNYAKINWGVADIVKCLQFSINVFAFKSALKIGINNFVKFEKDFGLGAKTNIQLPGELSGIISDPKNKYLITKQPWNPGDLLNASIGQGYTEVTPIQVVNWISAIANGGKLMQPRIVKAIYSSNNKLVKSFGPKIIRQGFVSQANLSVIKTGMLQAVQNGIDIAAKSTLADNAGKSGTAQFGVESVGNQNNRYTQAHSWMSSFAPYNKPQIAMVVFEENGGLSTYSAEVVKNFMNWYFKTY;locus_tag=LOCUS_0960;gene=mrdA;EC_number=3.4.16.4;note=WP_012583753.1 penicillin-binding protein 2 (Dictyoglomus turgidum) [pid:31.6%25%2C q_cov:89.1%25%2C s_cov:91.8%25%2C Eval:5.3e-67],MGA_96
sequence01	MetaGeneAnnotator	CDS	97888	98694	.	-	0	ID=MGA_97;product=rod shape-determining protein MreC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002263142.1;translation=MLRSKKKYSQLYYFKIISIYIVIDLFLILIFNPGSFIYADIGKIFIPVKSYTSKISNNVSNFLFSLGNISSIETSNMKLQRENYKYKSEIININNLKNQNVLLKKQLYGKYLPSNYKYLYTEIMYYGTNNTLGYTYINSGKNEGVVKGDSLVFQNYLIGVVSSVSNYYSKVSLLSNINSNIPVLVNNVNGIITGSLSNSLVLNDITELNSISRGDVVLTSGLDGLPKDLIVGYVESVGSGNSNIFKKVFVDSAININSIKSAFIVIHE;locus_tag=LOCUS_0970;gene=mreC;note=WP_002263142.1 rod shape-determining protein MreC (Streptococcus mutans) [pid:25.2%25%2C q_cov:97.4%25%2C s_cov:98.5%25%2C Eval:8.4e-14],MGA_97
sequence01	MetaGeneAnnotator	CDS	98696	99754	.	-	0	ID=MGA_98;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942731.1;translation=MAFSDFFWNIFTFDIGIDLGTANTLVLVKNQGIIINEPSVVALNTRTNEILSVGKDAQKMLGRTPASITAIRPLKDGVISDFDATREMIHYFIEKVHDNSSKFFKIARPRIVIGIPSSITEVERKAVIDAAISAGARSVYLIEEPMAAAIGAGLPVSEALGSFIVDIGGGTTDIAVISLGGIVIDKSIRVAGDELTQDIINYIRNKYNLLIGERSAEELKITLGNAYPRKENKKVSIKGRDIFLGLPKTVLISEAEVREALSNSLNIIIDSVYEALEETPPELISDITEKGICLTGGGSLIPGIKKLFSDKIKVPFYVAENPLESVVIGTSILLDDISMLEKINISDSQDYL;locus_tag=LOCUS_0980;note=WP_010942731.1 rod shape-determining protein (Geobacter sulfurreducens) [pid:53.9%25%2C q_cov:97.2%25%2C s_cov:98.3%25%2C Eval:2.2e-103],MGA_98
sequence01	MetaGeneAnnotator	CDS	99808	101820	.	+	0	ID=MGA_99;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYKIFVKTKLKINDPVIYKSNNKYNIGDIVSVPFGKETTIGIIVDKLSTNEHNYNFKIKEIIEDSKTEYIPLSITELKILKHLITYYNGMISNSINPFITKRYHSKNDEIKDVNDYNRAVNIEKKILTEKQSFVVNEFISEINVKKYILLGVTGSGKTEIYIDLIKKYIQENKQVLILVPDITLTSQLFLKINLIFNENIISLIHSKISKKDKNIENNLIYENKKRIIIGARSAIFSRFNNLGLIIMDEFHDNSYKQEQDPRYDTIEIAEYISDLSKIKVLLGSATPRIDTYYRYLSNKNEYKIIKLNEKYKFNRETSFEIIDLKEEKLNYNKSIFSNKLKKYIQDIIEENGKLILYINRRGYSPITLCDQCGYSEECPRCNIPLNIHTLNPGNHSFYYKCHHCDYQKNIKELKCMSCGNKKIKFYGFGTQYVKNEIEKEFSAIKGDLNIFILDKDYNKNNKLSKDENIYDKLNNKNINIIIGTQLIIKGWDIDKVKLICLLNPDLELSFPDYRGYENSYQKLVQIFGRTSRKGNSGKVLIQTYDPENDILKKAIENNYESFFEEEIKNRKLFGYPPFSEIIKIQIKSKTEKTLNSRSKDIYKNLVNQNIDGIKIYYPVNSYPYRNNYLYSKNIIIKVNNNSSLIKKILRNNYNQDRYLSIDVLPIQLT;locus_tag=LOCUS_0990;note=WP_011861610.1 primosomal protein N' (Clostridioides difficile) [pid:35.8%25%2C q_cov:84.2%25%2C s_cov:65.7%25%2C Eval:2.5e-94%2C partial hit],MGA_99
sequence01	MetaGeneAnnotator	CDS	101812	102027	.	-	0	ID=MGA_100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKVCDVCNKGSIMVTNISHKQSGGWAKRAPKTKHRSYANLRPLKIYYNGESNATRIKICMTCYKTIGKSS;locus_tag=LOCUS_1000;note=MGA_100
sequence01	Aragorn:1.2.38	tRNA	102329	102400	.	+	.	ID=Aragorn_8;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0070;note=Aragorn_8
sequence01	Aragorn:1.2.38	tRNA	102414	102496	.	+	.	ID=Aragorn_9;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0080;note=Aragorn_9
sequence01	Aragorn:1.2.38	tRNA	102498	102572	.	+	.	ID=Aragorn_10;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0090;note=Aragorn_10
sequence01	MetaGeneAnnotator	CDS	102611	102775	.	+	0	ID=MGA_101;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583730.1;translation=MAKKENRRYINLECSVCKNKNYTTEKNFINSTEKIEINKFCNTCKKHTSHKEVK;locus_tag=LOCUS_1010;gene=rpmG;note=WP_012583730.1 50S ribosomal protein L33 (Dictyoglomus turgidum) [pid:52.1%25%2C q_cov:88.9%25%2C s_cov:98.0%25%2C Eval:8.8e-10],MGA_101
sequence01	Aragorn:1.2.38	tRNA	102777	102847	.	+	.	ID=Aragorn_11;product=tRNA-Trp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0100;note=Aragorn_11
sequence01	MetaGeneAnnotator	CDS	103090	103641	.	+	0	ID=MGA_102;product=transcription termination/antitermination protein NusG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258049.1;translation=MEKKKDNNKYNFKWYAVNVFTGHENKVSIIIKQRADTANLSKYIEDIVIPTQNKTVISDGKKRQVKDKILPGYVLIKMELNKDTWPIVRDTQGVTGFVGPGNKPSPLIEQEVNAILKFMELDTPAVQTTFNVDDAIVVTDGAFKDFNGKVSEVNEEKGKVKVLISIFGRETPVELDLMQIKLI;locus_tag=LOCUS_1020;gene=nusG;note=WP_012258049.1 transcription termination/antitermination protein NusG (Chloroflexus aurantiacus) [pid:43.6%25%2C q_cov:97.8%25%2C s_cov:95.7%25%2C Eval:4.3e-43],MGA_102
sequence01	MetaGeneAnnotator	CDS	103651	104079	.	+	0	ID=MGA_103;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081512.1;translation=MNNKKVTAQVKLQIKAGKASPTPPIGPALGQHGVNIMDFCNQFNNITKDKGDLIFPVIIDIYADRTFKFIIKTPPAAILIKKALNLEKGSKDSLKEKVGELNQNQLEEIAKTKMADLNTNDIDQAKKIIAGTAINMGITIKE;locus_tag=LOCUS_1030;gene=rplK;note=WP_004081512.1 50S ribosomal protein L11 (Thermotoga) [pid:59.9%25%2C q_cov:96.5%25%2C s_cov:97.2%25%2C Eval:3.4e-44],MGA_103
sequence01	MetaGeneAnnotator	CDS	104093	104788	.	+	0	ID=MGA_104;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015994.1;translation=MKKRSKKYITKLKENTINNVFNIDIFDTVKNLSISNFKGSIEVHISTLSSKKDNKQIIRGSVFYKNKVGKDKKILLLTDRKDLSEKLKKEFDYIGLDEYIEKIQSGWTDFDLVIATPNVMPKIAILGKILGPKSLMPNPKLGTVTEDLEGTVEKYKSGKYDYKSDQTGTIHTIIGNIDNTKEELYDNFIEIIKSIINITGKPSQSVFKTIYICPTMGASLKLNIEDIIKVI;locus_tag=LOCUS_1040;gene=rplA;note=WP_011015994.1 50S ribosomal protein L1 (Fusobacterium nucleatum) [pid:38.0%25%2C q_cov:99.6%25%2C s_cov:98.7%25%2C Eval:2.9e-38],MGA_104
sequence01	MetaGeneAnnotator	CDS	104826	106091	.	+	0	ID=MGA_105;product=transcription termination factor Rho;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256183.1;translation=MKETFSLQSLDSKSIADLRIIAEKQKIDNYQELNKKDLIFSILKSIDKDEADISIEGILEIINDGIHGILRSYTLLPGENDVYVSGSQIKKFNLKQGDYVKGKARLPKDNERYLSVLKIESINDRDPNEAAKRTPFERLTPIFPNEQIILEIDQFRLSNRIIDLLAPIGKGQRGMIVSPPKSGKTTLLKDIADGVTRNDKNIHLMILLIGERPEEVTDIRKSTSAEVFASNFDEQPDNQIKVAEIALDRAKRLVEEGKDVIILMDSLTRLARAYNITVPPSGRTLSGGFDPIALYPPKKFFGSARNLEEYGSLTIIATALVDTGSRMDDLVFEEFKGTGNMELHLDRKLSERRVYPAIDVIKSGTRHEEQLLSSEVLSQSWLIRRMLDTLKSTESSQLLIDRLKKTKNNSEFLSTLHENIN;locus_tag=LOCUS_1050;gene=rho;EC_number=3.6.4.-;note=WP_012256183.1 transcription termination factor Rho (Chloroflexus aurantiacus) [pid:54.1%25%2C q_cov:98.3%25%2C s_cov:99.8%25%2C Eval:2.5e-131],MGA_105
sequence01	MetaGeneAnnotator	CDS	106100	106708	.	-	0	ID=MGA_106;product=nucleoside-diphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763353.1;translation=MNDVYQKTLVLIKHDGVSRGLVGEILSRFERIGLKIVALKMVLPSKELADKHYLASEEWCINIGNRILEDYSKSDTKNIIEDFGTNNAKDIGMKIKEWNNEFLIAGPVIAIVLEGPEAIDLVRKMVGSTSPLESPMGTIRGDYTWDNRDISSKQKRPMYNLIHASSSIEDSKYEVNLWFSDSEICNYKTSDQDFMGWSSKLK;locus_tag=LOCUS_1060;note=WP_011763353.1 nucleoside-diphosphate kinase (Pyrobaculum islandicum) [pid:44.8%25%2C q_cov:88.6%25%2C s_cov:97.3%25%2C Eval:1.4e-40],MGA_106
sequence01	Aragorn:1.2.38	tRNA	106773	106848	.	+	.	ID=Aragorn_12;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0110;note=Aragorn_12
sequence01	MetaGeneAnnotator	CDS	106852	108222	.	-	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVITFIIILYARGYQFNFKNFTLTSSGIIRVNSTPQNAKIYLKGKYLGTSPLIINSLSPGTYKVSLSLSNYTNWSSMVTVKTGDITNVDAFLIPNNAQENPAVTNANIYKVIYSNSSNYIYVINDINNIYKLYYIDTASQQGTFQLSYIANLTSLIKFNGKGSINVVISNTLNYAIIQYNNENYLYDIVSNKMINLYKLTYFNNLSDISIESYYIIFEENSMLVSFNILTGQTYLLSTGLPSSSSYYSYEILNYNQIIFYKYNSITNETSIFISNLDGSSRRVISSIKGNVVKIFLNNYSSYIAVSNNLGENYLIQIKQASMSAPVKFANGYSLVNFEGESDYVLAVKNNVLYGFYVNDLSEIKILDNYSRLYGLQQYVLGSYIFFQLKNKNNTFSVYQRSIGSKTNHLLTSNSNGTYFISNGGNYLFFNYPYLKDQYYLYFITLIQNTNILPFSL;locus_tag=LOCUS_1070;note=MGA_107
sequence01	MetaGeneAnnotator	CDS	108368	109375	.	+	0	ID=MGA_108;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258891.1;translation=MFNTNKFGLDFGTSNSLISSLNKGIILNEPSVIAISIEDKTIIAIGHEAKEMLGRTPEGIISRKPLIGGAISNYKISELMIKYFFSKVSKTRFLTGSQVIASISSGLTSVEKRAIYESILNSGAKKIYLMPEALLTAIGANLPIGTSSGNMVINIGGGTAEFAVISLNGIVVSDSIRVGGEYINESIINFLKKNRGVLIGDQMAEKIKLEIGSALPLTSPLSMNIKGRDVITGMPKSISIDSNMIVDAIKNPLNLIIQTSRHVLEKTPPELSSDIMDRGILISGGTSLLRNIDTLISRAIGIPVYISDNPMDTVAYGASEALKFIDTLQKNIKNF;locus_tag=LOCUS_1080;note=WP_012258891.1 rod shape-determining protein (Chloroflexus aurantiacus) [pid:47.4%25%2C q_cov:97.6%25%2C s_cov:97.3%25%2C Eval:1.2e-82],MGA_108
sequence01	MetaGeneAnnotator	CDS	109386	110690	.	+	0	ID=MGA_109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFIIIIIIYLIVGLISINYPKVILPISIILMPLERFNLYIGFTLEPLLLYIPIIVLSLYINKDIFQLFKKRVLSKKDNLLYITLIIIILSIFLSDIFSINKFLSLKSTPYVILSFFIFLYAYMYILYYKNKIQIINTFIVSTFIVSIYGILQFFGFLFFKIDSFHISKILHSSTINPTAFTLYIHHILLLRPNSTFTDVNTASGFILLIIPLIISYYLVIKDKTKIIGTLYNYMLPFIIFYFITTFSKSSIIGLLFSVAYIVYVFKIYNKKKFIYTLITSILILLLIEIKYNFLYYLYIKEKFTYIEHFILTKYSFIIFTKHILFGTGIGTFTYYFGTYIKPYIHYYYNNIDTPPLFLLWLSEIGLIGFLSYISFLSVFLRKVLLYIKKEKDVVVISLLAGFIGIIIANLFHSYFTLLFVWEFMGITLAISTI;locus_tag=LOCUS_1090;note=MGA_109
sequence01	MetaGeneAnnotator	CDS	110747	111151	.	-	0	ID=MGA_110;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010918385.1;translation=MKDNDKKLSSIVSEIEKLNIVEVSELVKLLEEKFDVKANNQMQFVAANNQSVASGETEEATEEKDVFEVVLESAGDKKIEVIKALRVVSPELGLKEAKDLTESTPKTIKESVNKEEAEKIKKLFEDAGAKITLK;locus_tag=LOCUS_1100;gene=rplL;note=WP_010918385.1 50S ribosomal protein L7/L12 (Caulobacter) [pid:47.7%25%2C q_cov:95.5%25%2C s_cov:98.4%25%2C Eval:4.7e-24],MGA_110
sequence01	MetaGeneAnnotator	CDS	111160	111684	.	-	0	ID=MGA_111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAINKQRKQDLLKLYDIEISNSECIFFINTNGLNVITIDNLRNSLSEFEGAKYKLIKNTLFKKSLKELKFTDDVIDSISGYNAVIFAHKDSNLLAKLIIKFCEDNSVNVNFAILDKQKLLVDDVVKLSNIKSKEVLVLNMIYILKDGINNVVHSLNYNTNLLVNTLDLIENKRG;locus_tag=LOCUS_1110;note=MGA_111
sequence01	MetaGeneAnnotator	CDS	112097	114574	.	-	0	ID=MGA_112;product=ATP-dependent protease ATP-binding subunit ClpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000971183.1;translation=MDLDSSIDKFSKNAISAINLAYEYANNNNSVLDVKHLFLGIINQKEGFVFKALESVNFNASISFDEIIFEENKKNNVEITVSEDFKKALVNAFYVSRKMGHVYVGTEHLMLGILQLVNNSFVKELQNFGLDFEYFQNLIYSYGNYPPGVFFHNNATLDSSMNIDYLNRSTLSFMAQNMVENASKNKNIEIVGRSEELNRMIHILSRRNKNNPILIGEAGVGKTSLVEYLAYKIYKKDVPENIQDFEIWNLDLAKLMMSTEMRGELESKINNIMEEIKSRKNVILFIDEIHMIFNLGNNGSNNDIANMLKPHLTSEYLRCIGATTLYEYQRFFENDTALNRRFLPVKVDELSKEDSVKAIRNIKSNIEKFHNVVITDESINEAVNLSDRFIVDRFLPDKAIDLLEESATTKNLEENKTANKLRNIKSSLDKVSIKKESYLENRRYMQSLYYQEKENDLKMKISTLNNEIKSNSKKVFKEDIVDVVSKWTGIPVYNITNSNLKSVKNIDLKIKKEIIGQDNAVERVVSVLRSARVGFRDETRPLGIFLFVGPTGVGKTELAKQIALKYMGSSKSLVQIDMSEYMEAHSVSKFIGSPPGYVGYQDGGQLTEKVKNKPYSVVLFDEIEKAHPEVLNILLQMMEEGHLTDSRGRFINFKNTIIVMTSNIGSDIIENNSLLGFNVSNDISSATDKEIESEYDSIEDDTLIKLKDYLLPEFLNRIDDIVVFKSLNRTDALKIVKKIAKKYIEKLNKINIEIEFSDNFLKFISEKGFSEEFGARQLRRIFTKYTETSLSSFFIENSNFSIVENSSKKLILDIDKDSKVNISIL;locus_tag=LOCUS_1120;gene=clpC;note=WP_000971183.1 ATP-dependent protease ATP-binding subunit ClpC (Bacillus cereus) [pid:39.0%25%2C q_cov:94.4%25%2C s_cov:95.1%25%2C Eval:3.4e-165],MGA_112
sequence01	MetaGeneAnnotator	CDS	114617	115732	.	-	0	ID=MGA_113;product=30S ribosomal protein S1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258334.1;translation=MVVTKKETINKFSDLIKDSSVSIKYLKRGDIVQGEVVKIMKGVVLVDLKHKSEGLISGSELRSPGFLLKDMKIGDDLTLFVLNPENDKGQIELSLRRTEDIRKWSVLENSWKNGEVIEVTVMDYNNGGLLVDIEGSLSGFVPISQLDFARIYKDNAVENNISESLNKLIGQKLLVKVIELDKTKDRIILSEKLVSSNDDVLLRNETIKNIKVNDILEGVVTSVTPYGLFVTAQGLEGLVHLSEISWDKVANPSDFYKIGDEVKVQLISMGDDGKRVAYSIKRLQQDTWDSIISNYKVGQIVKGTVQKIVDYGVFVRIAEGVNGLIHISELSDEPIDDVSKIISIGQELELKVLSISPVERHLGLSLKKASI;locus_tag=LOCUS_1130;gene=rpsA;note=WP_012258334.1 30S ribosomal protein S1 (Chloroflexus aurantiacus) [pid:35.9%25%2C q_cov:95.1%25%2C s_cov:87.5%25%2C Eval:9.5e-68],MGA_113
sequence01	Barrnap:0.8	rRNA	115941	119040	.	-	.	ID=Barrnap_1;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r0010;note=Barrnap_1
sequence01	Aragorn:1.2.38	tRNA	119110	119184	.	-	.	ID=Aragorn_13;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0120;note=Aragorn_13
sequence01	Aragorn:1.2.38	tRNA	119196	119269	.	-	.	ID=Aragorn_14;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0130;note=Aragorn_14
sequence01	Barrnap:0.8	rRNA	119382	120882	.	-	.	ID=Barrnap_2;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r0020;note=Barrnap_2
sequence01	MetaGeneAnnotator	CDS	121021	121467	.	-	0	ID=MGA_115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSILNINLKELINLSYLTANPLPKFIYINYFIILSIDLFLVWVIFLYLYILKKTYKTPIYNVFRKISWISFYLCILLLVLLYSRAFGIAFLSMRLFLEIYLLILIVFIVYFAIYFLFFLKKDNIEYYKKITREKYLPKKKRNKSKKS;locus_tag=LOCUS_1140;note=MGA_115
sequence01	MetaGeneAnnotator	CDS	121464	122564	.	-	0	ID=MGA_116;product=tRNA 2-thiouridine(34) synthase MnmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438277.1;translation=MIPLGKDKKVLVAMSGGVDSSVAAYILKEQGFDLIGVHMKFWTEEQGDEYGHLSAKDNKCCSIEGVEDARNLCDQLNIPFYVLNFRDDFKEDIVNYFISSFKNGLTPNPCVMCNKKIKFGLLYEKMKDFNAQYVATGHYARIIKEDGEFKLSRALDLSKDQSYFLHSINKNNLASTLFPIGEIKSKDEVRDIAHKAGLRVSAKKDSQEICFIPGNDYKGFIERNVNIDHTPGDIVDLSGNIIGKHNGLSYYTIGQRKGIETVLIKPLYVIKKDFRNNRLIVGDIEDCKTYNLTLSNINMLSDDDKMNKGTRIQVRYRGKILDIKDLHKEGDDLKILLKDGEIGVAPGQYGVLYNENIVIGGGVISI;locus_tag=LOCUS_1150;gene=mnmA;EC_number=2.8.1.13;note=WP_003438277.1 tRNA 2-thiouridine(34) synthase MnmA (Clostridioides difficile) [pid:43.8%25%2C q_cov:97.8%25%2C s_cov:98.6%25%2C Eval:4.6e-83],MGA_116
sequence01	MetaGeneAnnotator	CDS	122578	124323	.	-	0	ID=MGA_117;product=ATP-dependent DNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583146.1;translation=MKINKYSFDSLCEHLILLEKISSRNQITEVISNLLKEIPQEYVEEFMYLINGRVAPFYVKSDFNIGDKMITDVLSEVLLLDNAQVVSYLNEYGDLGTVFYNNKKGDIQNYEFIDIFNFLKEISLIEGKDSNKIKRDRLIEMLKTLSPNSGKYLIRIVLGKLRLGFSNKTLLDAISYSIKGDKSLRKPLESAYSRCSDIGIVAKYAFLDINSLNDFSIKIGIPIFPKLVERSSSINDGIKRFKEVYAQPKFDGLRCQIHILDSGEIKLFSRNLNDITDLFPQFIESFQKLNVKNAIFDSEIIGINLITNKFLLFQDTVKMKRKNNLIVDDNNEMKAFIFDVIYLNSKSFLNEPFKNRIMVLSGLFSDNNYKNIELTETKIFSKEEDVYDYFEENINKGLEGVVLKNPNSLYTPGTRNFDWLKLKRDSLKDVVDTIDAVIMGYYKGSGSRAKLGIGGVLVGIYNSNKNKFETICKLGSGFSEEELVDLKASLDLNIINNPDKFYVFNKDITPDVWVDPKIVVVIRSDEITKSPIHTSGMDQDKDKKGFALRFPRFISFRVDKGAYDSTSVSEVESMYKIEKNI;locus_tag=LOCUS_1160;EC_number=6.5.1.1;note=WP_012583146.1 ATP-dependent DNA ligase (Dictyoglomus turgidum) [pid:39.2%25%2C q_cov:98.5%25%2C s_cov:97.8%25%2C Eval:2.0e-113],MGA_117
sequence01	MetaGeneAnnotator	CDS	124310	126964	.	-	0	ID=MGA_118;product=DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011475783.1;translation=MSDNKKFFIIDSHALIYRAYHAVPQLTSKNRNVNAVYGFFSILLRLIDKYEPAYIVCAFDSPTSTFIKKKKFTWYKANREKVPDELIEQFEYVKEILRAFNISIIESLDYEADDVVSSIAKKFKKDFDIFVITGDKDLLQLVDDKVSLIMPGKSFSDPKEINNSNVEEILGFKNKYLLTFKSLKGDPSDNIPGVPGIGDKTAQDLILLYGDLFGIYENIDNVKESLKQKLIKGKQSAYDSFEAAKLFYDIDVNLDVSKIKIAFDYDKIVEKLNEYDFNSLKNKYFSKYKIEENSGVEYKAPKEINDDNIKTISKDLEELKIVYFYILNNHTNNSIYSIFFLVKDTIYYIDDFKKDSNIKILKDIFSDINIEKVSFQSKDDMHSLNNIGIPFEGKYFDINLGYFILKGKNTTIKSIIYEIFSVEIEDISLLTMNGKFSLDDIDKEKLLKNSFYYIYYLPLLYENIVHNLEKDDLNNSVFRNIDLPLIKVLFDIEKTGIEIDVEYLKNLYKEINEKILLLENKIFKSVGKDFNISSSLQLSNVLYEDLKLPYFKKLKSGIFPTDDITLEGLSKRNPVVDDIRKYKELKKLNSTYTLSLVKFVDDKLRIHTTYNITGVSTGRLSSKNPNLQNLPNKTELGRDIRKAFIPSKNHIFISFDYSQIELRLMAFFSQDENMKKAFNEGLDIHTYTASQIFNKLEKDITKDERNKAKTINFGVIYGISSYGLSQQLGITRKEANDFIENYFKRFSSIKNYYKYIETFVEKNAFVETLFGRKRHFDTTSGSYIVKSHIFREAINMPIQGTCADIIKISMNKIFNNNEYLKYKAKILMQIHDELVFEVPKNVDKEAFIKLISSLMTDFKEIDIPLRVDSKYGDNLRDLVVYENK;locus_tag=LOCUS_1170;gene=polA;EC_number=2.7.7.7;note=WP_011475783.1 DNA polymerase I (Ligilactobacillus salivarius) [pid:36.4%25%2C q_cov:99.2%25%2C s_cov:99.7%25%2C Eval:1.2e-144],MGA_118
sequence01	MetaGeneAnnotator	CDS	126954	128783	.	-	0	ID=MGA_119;product=ATP-dependent zinc metalloprotease FtsH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583233.1;translation=MNNKKKFSLNKPKKNNTFVWIFFIFVVVFFLIYLFIPTLNNGKSVPISTLIVDLKSNKIKQLTIYQTYATATLKNGTLINSNLGSPTNPTSIFTSNGVNLSKYNNITIAQNPTLSASDIITLIFILVIVLTTWYTVRQFKSAGNGGGIFSMGESKAKLFIGSKQSIKFDGIAGLVEAKEEVFEIVDFLKNPKKYSDLGARIPKGVLLVGPPGTGKTLLAKAIAGESGVSFFSTSGSEFEEMLVGAGASRVRDLFSKARKSSPSIIFIDEIDAVARKRGYSIAGAHTEQTLNQILVEMDGFDTSTNVIVIAATNRPDVLDPALLRPGRFDRTIMLSLPDLEERKSILRLHSKNKPMGKDLDFDKIAKRTIGFSGADLENVLNEAAILTAKKELKTITEVEIEEAATKVVMGPAKKTSRTEDEKKIVSYHEAGHALVSKFLPESDPVHRISIVPRGMSGGATMYLPTQDNYLYTKTKFQTMITHMFGGRAAEKIIFDDITNGASDDIKKASEMARRMVTEFGMSDLIGPIEFGNDEEAGYYGNVEKNYSEETSSIIDKEVSKILNSSYKKALDILSKHKNILDAIASKLIEEEVLEGEDFNKIVDSMLNVG;locus_tag=LOCUS_1180;gene=ftsH;note=WP_012583233.1 ATP-dependent zinc metalloprotease FtsH (Dictyoglomus turgidum) [pid:46.5%25%2C q_cov:94.3%25%2C s_cov:95.6%25%2C Eval:1.4e-144],MGA_119
sequence01	Aragorn:1.2.38	tRNA	128809	128883	.	-	.	ID=Aragorn_15;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0140;note=Aragorn_15
sequence01	Aragorn:1.2.38	tRNA	128906	128980	.	-	.	ID=Aragorn_16;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0150;note=Aragorn_16
sequence01	MetaGeneAnnotator	CDS	129168	129566	.	-	0	ID=MGA_120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPRRRKNFNRTGNLSKYFFSIILLFFISLLSFNLVRTYGRYVSIKSQINKISSLVNNQKKQNNTLKKEYAYYSSNYYKNNIATNDLNLYKKNSSEIVLPKNPPSSYINLPSQSKSKKTTQKTSLIEWINLLF;locus_tag=LOCUS_1190;note=MGA_120
sequence01	MetaGeneAnnotator	CDS	129647	130507	.	+	0	ID=MGA_121;product=site-specific tyrosine recombinase XerD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164921953.1;translation=MDQYIKNFTEELDKDKKSIHTIIAYKKDLEQLDEYIKLSNIKNPADVTEDILVKYFDELKKQNLSAKTVSRKINSTRTFFKYLQTLNIVDKNPAILIAHPKIKNVIPRILTEVEFKALRDTAKNDTRTALIIEILLQTGIRIGELCRIKTTDLHMTGEEKYIHIIEYGTTPSREVPLNDQSLDVIRQYISIRPKNAKTDNLFITKNGNPLLVRNIRTSIDGMFRKAGIENAKVNDLRNTFIAHHLSRGTNIYALSKIIGHKRIATTEKYLGKIKIDTERLPNLPIL;locus_tag=LOCUS_1200;gene=xerD;note=WP_164921953.1 site-specific tyrosine recombinase XerD (Rhodopirellula baltica) [pid:28.4%25%2C q_cov:87.4%25%2C s_cov:80.4%25%2C Eval:4.6e-21],MGA_121
sequence01	Aragorn:1.2.38	tRNA	130514	130587	.	-	.	ID=Aragorn_17;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0160;note=Aragorn_17
sequence01	MetaGeneAnnotator	CDS	130644	133076	.	-	0	ID=MGA_122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSHLVINTNYIHTLYSNMISVITIVFIVLVILLIIVVIFLITAFFLLRDIKISNFIKNSKKLVTFEVTLPMDNEVEIAAAEQMYLALSGIKGGKKFERLVGKFDYITFEILATSELINFYVTCSEKMSDFIEKQIHSSYQTAEVVKIEHPDIFEKDAYVEYASLVFSKESYYPIKTYGEEVKVDTISNITSVISKLSKDEYASFQLVIYPSTGKWIKNGNNHTKPKSVKKDEAPKPESNSKQYQNQKIDDKTKNPGFVSTIRLLAVSENEEKAKALLNNMVSSFSQFTEIGGNKFKKAKLRFFNKKDFQLGYLFNFPSLYEEYKSTSTILNTTELATIFHFPNKDVQTPHIHRLNAKRAPVSADIPYEGLFLGNGIYRGHTRPVYIGDDDRRRHMYMVGRTGTGKSTFLESLALQDIQNGKGVAFLDPHGQSAENIIARIPPERAGDVIYFNAGDYDRPMGINIMEYYSEEDKHMIVNSFYHMLEKLFDPNRTGITGPRLERAVRNCMLTAMSKPGSTLIEVFRLVLLDQKFIDEVLPYVKDDLVRKYWTEEIANTSDYHKSETLGYFASKFDRFVVNKMMRNILGQSKSSFNLREIMDNQKILIVNLDKGKIGEENSQFLGLLLVPKILSAAMSRSNIPEDQRKDFYLYVDEFQNFATEDFAQILSESRKYRLNLIVANQYINQMIDEVKNAIFGNVGSLVSFKVGVSDAEFLEKEFEPIFNQQDLINLENRYAYVKIISKGEAQPPFSMQTVMSSAKPDNEIAESIKHLSRIKYGRDINEIEDEIKSRGLLDNTLNPSALEDILKQK;locus_tag=LOCUS_1210;note=WP_020646568.1 ATP-binding protein (Amycolatopsis balhimycina) [pid:23.4%25%2C q_cov:65.9%25%2C s_cov:92.5%25%2C Eval:1.2e-18%2C partial hit],MGA_122
sequence01	MetaGeneAnnotator	CDS	133132	133389	.	-	0	ID=MGA_123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPIERIENKPNIDESLINAGSTIDTGIKIDSSLNEGVTVEAGSPVELARKKADDYARENSLSGNKEKGYNTTSSWRGLRAVISK;locus_tag=LOCUS_1220;note=MGA_123
sequence01	MetaGeneAnnotator	CDS	133429	133884	.	-	0	ID=MGA_124;product=SsrA-binding protein SmpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167013.1;translation=MKLIVSNKKVSHNYEIIQKYISGIILYGYEVKSVKSGSISLSESFITLREEELFILHMYIAPIAEIKNMERYNSLRERKLLLNKNEINEIGKYLKQSGYTIVPLSVFLKNGLIKLNIAVVKGLKQYDKREKEKKRSHEMDIERSQNIKYKL;locus_tag=LOCUS_1230;gene=smpB;note=WP_011167013.1 SsrA-binding protein SmpB (Mycoplasma mycoides) [pid:42.6%25%2C q_cov:98.0%25%2C s_cov:97.3%25%2C Eval:4.6e-27],MGA_124
sequence01	MetaGeneAnnotator	CDS	133881	134792	.	-	0	ID=MGA_125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKLKDNSSSKSYLNELNNIYYSLNDVIPINNYTILSDIGISYPGAEISSLQNLSGNIYLTDPKLQYVYSISDTTQSTPTQFERLSSGISIPQSITYSLSKNSLFLYDTDRGLFSVALNGTLSPIIGPVPNSNISSIQSYMGNIYMLDSSKGIIYNVNTTTLSYTNGLKSKYLVGARSFAVDGNIFVIDKSGNIVRFYANTYTPFAISNSQAMEYSLNKSSYIYDNQYSNYIYIVDPAHYRIVVLQKPAAGSVNTTDYKFVKQYVYTGSNKSLFSNITDLSISASGKSFYLLSGTKIIKIFI;locus_tag=LOCUS_1240;note=MGA_125
sequence01	MetaGeneAnnotator	CDS	134935	136023	.	-	0	ID=MGA_126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLDVKIKTYIPKNNEKDSFSHVYMHDPQEESLLETRGKLFSAIDVRTKNRDVDIESLVNEFLDNIELEYFSNDVSSIINILDKSVNIAYSKLSQKIIDMELSGNIDFNVGCFVIWGDIAYMARIGETKIYLFRDGKFMNLSDHLLAVGKSIVSTASGYAKNKDIFFMSTSLIKNYLDEKKIKDICNSSQEEISQMELGNKNISFIVMQIETTEEDIKDEELEKDEEVVVELNDSSDNIESEEHIDNIQKRSLNDFDLKNKAKKMTSYIINSTKNTSSNIYKNINTNVKKVDWKSLMKSILTVILTFFEWIFYSLVYLKDRSQKQYKLKINRDIEILKKEKKTVIGIVIFLILFILIYNFFF;locus_tag=LOCUS_1250;note=MGA_126
sequence01	MetaGeneAnnotator	CDS	136068	137927	.	-	0	ID=MGA_127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIIKRKYIYILLFFIFIVSIKTLFAQSVGSVSQYNSQINQDNQQIQQLQTQETSLQNALNSQIANKNTILSNLYNINSNIYTYESNISKIKILISNLNSLNIKNREKIKKDIIVRNNIESSIYINMQTNPIYYIFSSKDFNNAIVTIYLSLSQLSSYKNKIISINNEINTIKTDLLKQKNFENTLITEENNLKPVQQTLYSNLNQYNNSINSTNNTLNQVGGQISALQADIQRLNNLETLAQAKASTQTSSPPSEINPNPLSSCNNNQCNFQFTSYGFGNPMGMSQYGMLGMANQGSNASQIATNYYQGSSISAVANLDNTIVNVPGYGKMTLQNYLAGIGEVPNSWPNQAIEAQIIISRSYVLYRLDSCSDYSSCTPTVPTNINIPSTGTDFQVYDGGTAKMSEVIASENQVLTYNGSLVNAFFSSSNGGYEESIGTVECVLWNNCNYSSFLSNYLKAQPDPYDTSTANVDPSYQYANPAMNTTQLINIVNTAQALCAGVNSCYLFNNNNGSNSFDNAYSTDNSNTNYNNSSNDTFTNINQYLTSNGISPINSIVNFSISTMGHMPSEINVVSLHHNITINAGVFWLAFLLVSPNYSNFNDDLVGFRYTVNITGTTP;locus_tag=LOCUS_1260;note=WP_010887217.1 SpoIID/LytB domain-containing protein (Deinococcus radiodurans) [pid:29.9%25%2C q_cov:29.2%25%2C s_cov:37.8%25%2C Eval:4.9e-12%2C partial hit],MGA_127
sequence01	MetaGeneAnnotator	CDS	137924	139984	.	-	0	ID=MGA_128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKNIDIQNFRQIENKKYEFKDDINIIYGKNESGKTTLFYSIISAFFDNPKKIRKTLLESYKPWGKDVYPVIKFLLQKDNDKFYITKDFNQKKTYLNDNEVENVDKLILDLLGLNKDLFEKLSCVYQNQISSIEDNPKALEKSILDIISSNSSQGVNVLEVEDKIQKKVQNMKLGLDRASKNIGILKKLDLEIEDLEQKILFDKKELSSYSEKIDDLSKKKKERSDIEKRFNENKSFIEKSQKAKTLVSQLKNIEEEMKSLESKLNRLNNLNKDFERVQSEYQKDLLEKMDKAQDKIINLRNSIDLRKNDLKLLEVEKGNIDNMKLKPIRTNSPIIIIVSLFLLLLTFISAFFSFYILISLFLDIVFVAFYLRFVDYNRLEKFHNPAIEGISSLQKDILDKETELNLILSEFHLTNINEFFKKRTKMLSLKEEFIKLDSTIRGLLGTDSLEIFENKLSEFSMKKRDINTELDQGLRDFMDIDKILLNRKILENEDLDLDLFSLNEDIIALESRVGDNSITEEDIENLELLLENKKEEKSFYSKRLNVLNIIVNNLSGAKDTVIKTISEDLVKLGSEWIEKITEGKYSKIDLLNNEKFTIFDRGTSKYVDSSQFLSTGLKDQIYLLSRLSILNVVLEGKSSVMFFDDPFINFDIERLTILIDLLKNFSSNNQIFIFTCHKILKDLA;locus_tag=LOCUS_1270;note=WP_010878532.1 DNA double-strand break repair ATPase Rad50 (Archaeoglobus fulgidus) [pid:21.6%25%2C q_cov:85.4%25%2C s_cov:69.9%25%2C Eval:1.5e-14%2C partial hit],MGA_128
sequence01	MetaGeneAnnotator	CDS	139981	141105	.	-	0	ID=MGA_129;product=DNA repair exonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942069.1;translation=MNNITFIHTADIHLGRKFLYLKDKSIEAREHLFDILEKIVNIAIEKNVKFLIISGDLFDSNNPSMYVVAKFLDSVSLLEKHKIKIILLPGTHDYLKANGIYSNSIFNSYKNLYIFNDPSKKSIEFEDLSLGFYAYPPISNKMKDSPIVGFDFNNNLKYRIILAHGSVQITGKSAFDDSPITLDEIKNSNASYIALGHWHQNIDFSNTVPCFYSGSPELIDLDQINSGFVMYGDLNNNKFEKIKVGERFFDEIIIPIDSIKSREKLIEQIISNADRNLIRKVNIIGKKNESTLGLNFDLIRDEIYKYFYYLIIDDKSYLDIDLSIDYDNLSSIEKAYIDKMKNLIDNSKTEEEKDLYKESLELGYALLQGRFDLL;locus_tag=LOCUS_1280;note=WP_010942069.1 DNA repair exonuclease (Geobacter sulfurreducens) [pid:22.5%25%2C q_cov:98.4%25%2C s_cov:97.9%25%2C Eval:1.5e-20],MGA_129
sequence01	MetaGeneAnnotator	CDS	141205	141615	.	+	0	ID=MGA_130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAITRWNPYNIVFPKFFDDDDFDLDNFFQTGTGSLDIYEEKDNVVVKMKAPGFEKEDFSLTVEGDTLTIKAEAKEENEDKGKKYYRKEIKHQSIARSITLPSRVENDKSQAEYKNGVLTLILPKSEQSKPKSISVK;locus_tag=LOCUS_1290;note=WP_012582602.1 Hsp20/alpha crystallin family protein (Dictyoglomus turgidum) [pid:46.6%25%2C q_cov:75.7%25%2C s_cov:68.7%25%2C Eval:1.9e-20%2C partial hit],MGA_130
sequence01	MetaGeneAnnotator	CDS	141665	142120	.	-	0	ID=MGA_131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRIKNKILSLILTLSALISATLVPVFAATSYVPASISGSTLSTNPNGIISTIINFLFIIVGLIFFVILVIAGIQWVTAGGEEKGKEEAQKRIINAIIGVAIVAGSYLIVEIVSGLLGIGGIFGNNLFTHNCGTTTNSSGSSVCLNGTLGN;locus_tag=LOCUS_1300;note=MGA_131
sequence01	MetaGeneAnnotator	CDS	142192	142560	.	-	0	ID=MGA_132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTYFNKTAYIPKILVKSMISVNPNILITTLIDFMFVLVGFIFFITVLISGVEWMVSGSDSKKNENAKKRLINSIIGIFIIGGSYLILEVLGGILGFNNFFNKTLFTNKCNNTTYQNHICLG;locus_tag=LOCUS_1310;note=MGA_132
sequence01	MetaGeneAnnotator	CDS	142629	142943	.	-	0	ID=MGA_133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNAVHLTSLVSYFAVAIALLYDFVFLALFIIILINGFKYLFSGINPDLKEKSRKGLEYAVIGLIVIVLAYIIIVFIAGFVSPQFSSSFIHGSTLNFSFSNLGN;locus_tag=LOCUS_1320;note=MGA_133
sequence01	MetaGeneAnnotator	CDS	142946	143416	.	-	0	ID=MGA_134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKILLVISFFFVFLILFFNNSVGSTVHAQSASSACSSIGGTYSNNVCNFSGTSSVPTSCSSINSTITTVITLLFSLAGLLFFIMIVVSGIKIITAGGDTEKISSAKKGIINAIIGLVIVIGAFLIIEVITSLLGVSGSLFYSNPISSNCSISAS;locus_tag=LOCUS_1330;note=MGA_134
sequence01	MetaGeneAnnotator	CDS	143413	144150	.	-	0	ID=MGA_135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGEYKNKIYVKILFVSIFFVYLLNILGSSYSVNIHASGSTNLTCADLAYGVKNGKSQNGNITFTNIVKNLKSGGYVDLKTYNQVPTFGQAANGQKCSENGTQISLSNNSNFQKIPSGSVIYYYQISGPSIICPGCETYEVYYPTISISSHNTIQKQPIPTIGDIFGSNHSFSISTMLSIFLPIIYGLVGIIVLALVSYAGFLVMTSQGDSNKLSKAKSVLTGALIGASIILLAYIISLVLLHTV;locus_tag=LOCUS_1340;note=MGA_135
sequence01	MetaGeneAnnotator	CDS	144168	144548	.	-	0	ID=MGA_136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMNMKISKVLLSYIINPSGGSISPNYNPSSIPPVIAPITSPFGDLFSSSSLITNAFNLFYFVVGLVFLILIIISGIKIITSNGNKEKFGGAQKTLTYAIIGLVIIILAGVVIKIISTIFPIFGGLI;locus_tag=LOCUS_1350;note=MGA_136
sequence01	MetaGeneAnnotator	CDS	144545	145378	.	-	0	ID=MGA_137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFVNKLKFSIFFVFLLNIFIYYFIPINTYASSGNICSDIGSAIFSSNPSIVNDMSLVSESSSSKLSTPGVISQFTLTETLNSGGIRSIGVNTYSCSNINPQLSSSMLSKSNTLMYYYDANSSVPSKKEVYEMAIIPTNLLNIKSINLNYNINSACSGVGSSYSNACMSCISKGISSSGSNSQYNHVYTDFGCINTSVKGIINFTYKLVLTIGFMIAFAVIIFSGYLIMMSGGDPEQLNRGKSLLTKAIIGLLVIVFAYAILITIGNLFNISYLQ;locus_tag=LOCUS_1360;note=MGA_137
sequence01	MetaGeneAnnotator	CDS	145429	148113	.	-	0	ID=MGA_138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELNKNQREAVENITTPLIVKAGPGTGKTHLIIEKIKYLLSKGYRENNILVLTFSKKAVDEIKDRLIPILGLFTEVEVDTFHSFAEKLLRENHKILGLKKDFIVMDQMESFVFLSDNIFNFNLKELRPISSPDREIIKILKFFSKLQDEDISPEEYIKLKNKDVYAEELSYLYKEFLNLKLKESKLEFNDLTYYLYRLLKENSEILKKYQKIYKYLLIDEFQDTNYIQNEIISLLSPNITIVGDKNQSIYKFRGAALSNFNSFKEKYPNSKEIDLDINYRSSQNLIDDAYLLMEEHKVLKCIKEYKEDSVKILSFRNSQEEVSFIKNEVLSLINEGVSLSQIAILLRTNSSIGDFSDIFAESNIPFYTKGITSFSISAEVKDLSSLIYFLENLTDDISFLRILKMPSFSISDEDILSFINFAKESKTSYIHAFKRLIHDNILNFNVDKFSNIYTILSKISKEEGMVNKINMFLDESFYMEYVHKDRNAYIRRKNIDKFISIIERLENNKVKHFSKYIKNLDKVSLDDFSEDTIDAVLISTVHSSKGLEFDYVFVPYMVKDKFPVRKRSDGIEIPLELVHENIEEVSFLEEEKRLFFVAITRTKKVLYTTYSDYYEEGKNKRIKSPFLMFFKEKEERLNAEVSIKSKPNFIVPENFEIKQYSYSQLSLFDTCPLKYYYEYILKIPKKKNISLEFGTLVHNTLKVYFSRNNKNDNIDDLKDIYDTYWKSMDKSLFKDEKYLKEYKDIGEERLIRNIEILKPKGVRSLYELNINFLLDDKYKIGGRLDRVDFFEDNSISIVDYKTGKSSNQDTSSTNMQLGLYSLLVKSKFGDNIKDLKLLFTDEGTDISIPYTKLNLEKITDKISNLILKINELEIKATPSYICDYCEYKSLCYKK;locus_tag=LOCUS_1370;note=WP_005898558.1 UvrD-helicase domain-containing protein (Fusobacterium nucleatum) [pid:29.8%25%2C q_cov:73.7%25%2C s_cov:87.9%25%2C Eval:5.2e-74%2C partial hit],MGA_138
sequence01	MetaGeneAnnotator	CDS	148205	149839	.	-	0	ID=MGA_139;product=chaperonin GroEL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005817317.1;translation=MAKKVVLNEEARAKIKVGIDILADSVKITLGPKGRLVAIGKSYGSPQVTKDGVTVAKEIDLEDPIENVGASLIKEAAVKTADLAGDGTTTATILAQAIITEGVKNVVAGANPMSLRRGIEKGVEKIVEDLRKQSKKISSTEEITQVATISANNDKEIGRLIGETMEKVGKDGVITVDESRTMNNEIEFVEGMNFDRGYVSPYFVTDTERQEAILEDPYILIADVKISAIKDLLPIVEKLVQSGKKELLIICEDLEGEALATLIVNKLRGIINVVAIKAPGFGDRKKAMLEDIAILTKGNVISEEIGRKLENTEIEDLGKARKVVITKDDTTIIDGAGSKADISARVDSLKKQLEETTSDYDKEKLQERIAKLTGGVAVLKVGAATEVELKEKKDRIEDALAATRAAVEEGIVAGGGLALFNASKVLDSIKLSDEDEMVGVSILKKALSYPLKQIASNGGKEGEVVIEKVGGKIGYNAYTDEYVDMIEQGIIDPVKVARLAIENSSSVAVMYLTIDAVIVDIPDPESKGGAGGGMGDMGGMGGMM;locus_tag=LOCUS_1380;gene=groL;note=WP_005817317.1 chaperonin GroEL (Desulfitobacterium hafniense) [pid:61.4%25%2C q_cov:96.7%25%2C s_cov:96.7%25%2C Eval:5.9e-184],MGA_139
sequence01	MetaGeneAnnotator	CDS	149863	150165	.	-	0	ID=MGA_140;product=co-chaperone GroES;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011174076.1;translation=MSNTLKIKPIGDQVVLKPIVEDNKTKSGIVIPDTVSKDTPQKGTVVALGTGKVLEDGKRVDFTVKVGDMVIFKKYSPTEFTIEDEDYLIMSESDILGILE;locus_tag=LOCUS_1390;gene=groES;note=WP_011174076.1 co-chaperone GroES (Thermus) [pid:57.4%25%2C q_cov:94.0%25%2C s_cov:92.1%25%2C Eval:3.3e-25],MGA_140
sequence01	MetaGeneAnnotator	CDS	150249	151961	.	-	0	ID=MGA_141;product=murein biosynthesis integral membrane protein MurJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004454106.1;translation=MSITIIAKILGLFKLTLLANFFGLSRNLDIFYAADSIPQIFFNILIIGSFNTALIPVIGELIFKKKTKMMWKVFNSFLNIFALVLLGIGILGIIFAREIAILFIYFSTIYRSSSIPNFSYSDISLLSSLMQILFISPIILGVSFIFSSLLQVYKRFLVTQIATILYNVGFIIGILFFSPLLGVYGLCWGIVLGSVLHLLIQFPVAKYLGFSYKKSILTLKNKYMKELLVLSFPRFIGLAFSQLAYFVEAFVAFALVPGSLTAFNWASSLYLFPVSIVGWSFAQASFPTLTEEYSLKMVKSFKQTLSKTINQTLFFIIPIFILILILRLPLVRLILGPGSNSKFGWNDTILTSWILMFLSLSIVGQSILSILIRAFYAIKDTKTPVIVEISTFILNIILALYFVRVFGNFPVVSPTIQNLLNINNYIHFNSAFTWKAIGGLGFASFIAVSLNVIVLIYILSKKLQGFSFMEFYLPIIKKFISGISMSLVMYFVYKILDAIFNTTKTIDIVFLFIITAYIGVSVYLLVSFILNDEDLDLITKGVYSFRDFIYGKKIKVLSAIDDDSPVNQND;locus_tag=LOCUS_1400;gene=murJ;note=WP_004454106.1 murein biosynthesis integral membrane protein MurJ (Clostridioides difficile) [pid:27.3%25%2C q_cov:94.2%25%2C s_cov:95.0%25%2C Eval:1.4e-37],MGA_141
sequence01	MetaGeneAnnotator	CDS	152069	152869	.	+	0	ID=MGA_142;product=polyprenol monophosphomannose synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942433.1;translation=MKSITLIYSILKFIKEKNDIIYKLYKNKENMRNLIIIPTYNERLNIDKLIKSIFRQIPDISILFVDDNSPDKTGDYIETLEKKYSNIYLLKGTKKGLGIAYKRGFAYAVKNLKPKYIIQMDADLSHNPKYLKTLIKESDKYDIVIASRYIKGGSIPKNWGHIRKLISKFGNSFTKLVLKIPYKDCTSGFKIIKVSKFNLKDIDKIKSNGYLFQVELLYYFYKKHLSIKEIPIDFQDRSKGSSKLKIKDILEYFTKINSIKNKYREL;locus_tag=LOCUS_1410;note=WP_010942433.1 polyprenol monophosphomannose synthase (Geobacter sulfurreducens) [pid:41.4%25%2C q_cov:83.1%25%2C s_cov:92.1%25%2C Eval:1.9e-42],MGA_142
sequence01	MetaGeneAnnotator	CDS	152866	153618	.	+	0	ID=MGA_143;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965618.1;translation=MKLSIIIINWNTKDLTKHCIESIKLNDIKYEIILVDNGSSESIEDLKKLNPNIRIIKNKQNLYFARANNEAFSVSKGKYILLLGSDTIIRNGAIEKLLDFLDNNSEYSIVAPQLLNKDLSIQPSCRNFPTLPNVIKSFFDINHKSKFFGEYKLSYWDHNESRNIVQPQATAIMIRRDIIEKYGLFDEQFPLYFNDVDFFRKMYINNKKIYFLKDAQIIHLYGQSSKKLGMKRRILLYKGYLQYLLKWGII;locus_tag=LOCUS_1420;note=WP_010965618.1 glycosyltransferase family 2 protein (Clostridium) [pid:31.3%25%2C q_cov:94.4%25%2C s_cov:82.6%25%2C Eval:4.5e-27],MGA_143
sequence01	MetaGeneAnnotator	CDS	153603	154289	.	+	0	ID=MGA_144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNNINKDEIKFIYFDVGDVLLHLKKTSSEYISEYLNIDISLYRKVIDNIRKDNRYLWQYRNIKEEEEFFRKIYTLFLKKLGLTYNEEDLNQIIRYELKRDYIANKEDINIIKKLSAKYRLGVLSNAGSSRREHELKIYDLYKYFEVIILSKEVGSRKPNPDIYQYAIEKSSEKPEHILYIDDKEINLEGARKEGIDNLILFSKNKVKSNYIQIQKISDILNILDYTP;locus_tag=LOCUS_1430;note=MGA_144
sequence01	MetaGeneAnnotator	CDS	154485	154814	.	+	0	ID=MGA_145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIILQVSTNMQESKQNKRINISQARQKISQLFNNVYKNQEERTIVEKSGIVMGAIISPFDLARLKKLDQRRDEFITIMNDMGKSFQDESEESILKNSLKAINKIRKAS;locus_tag=LOCUS_1440;note=MGA_145
sequence01	MetaGeneAnnotator	CDS	154814	155275	.	+	0	ID=MGA_146;product=putative toxin-antitoxin system toxin component%2C PIN family;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005770968.1;translation=MRIVFDTNILVSIVIAKKNSNLYKIMEAWSLDLFEVIISNPILEELRNTLYKTEYFTTRINSGTIDNYLEFVQKYTIPQNIHTEIKTQELIMTYGFAPNQEDNFILSTVVDANAEYLITGDKKILQLGIVANTKIINPAQFVEILYRKRFLLD;locus_tag=LOCUS_1450;note=WP_005770968.1 putative toxin-antitoxin system toxin component%2C PIN family (Pseudomonas syringae group) [pid:28.7%25%2C q_cov:92.2%25%2C s_cov:96.3%25%2C Eval:1.9e-07],MGA_146
sequence01	MetaGeneAnnotator	CDS	155402	156169	.	-	0	ID=MGA_147;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000167663.1;translation=MKNYVLITGATSGIGYEWMLLFAKNKKNLLLVSRNRKKLLSIKKDLENRYKISVLIKDVDLSLPQSALDVIKFIKDNKIRIHILVNNAGFGLGGEFEISDIKREEEMINLNILSLTKLTYYILPQMKSGDKILNLASVASFLPGPYMSVYFATKAYVLSFSEALYFELRKKGIQVTALCPGSTKTEFASVAKLKNVSDFNNRSMSAESVALIGYEGLMKGKRVVIAGLTNRISVFILKFIPNSLIGKIIEKINNN;locus_tag=LOCUS_1460;note=WP_000167663.1 SDR family oxidoreductase (Leptospira) [pid:45.4%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:9.0e-55],MGA_147
sequence01	MetaGeneAnnotator	CDS	156177	156896	.	-	0	ID=MGA_148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENILISFDLLIINFLYEHPFLSFSQINLFILDKDSLLKKRLDVLCEYKYISFLKTNNLSNVKYYYLLSKALKVIKKKNLLRNSERNSLFLMHNIESNEFFINLKKVSLNHNLEFSDWISDRMIFTKFNYNGHLYTLTPDGFCIFNKSNIYLELDRGTEGYMKIFKKIDLYSDFYLSFEYKKYFEEYPKVIFIFLDPKRASLVSNRVSKYLDINKYKEELDFFYFYSKEDFFKNRINML;locus_tag=LOCUS_1470;note=MGA_148
sequence01	MetaGeneAnnotator	CDS	156902	157357	.	-	0	ID=MGA_149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKTKKIKYNVLLVSLMDFRKETQSTKNYLNSVGYSAEYILTEENPKSKENILGYDEIEYSSNIFNKGYLKDEFNLIQRSNALIILNYDLGLKKAYVSDEIRFCLKLGYILDKRLFVLNNLDINGVKSKKSSLIKPIYLRGDIYNIENYLY;locus_tag=LOCUS_1480;note=MGA_149
sequence01	MetaGeneAnnotator	CDS	157354	158865	.	-	0	ID=MGA_150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKYKDKLKKSLYIKYPDIIIKESKKKNIKFKYKKYFFIHESYNYYQDIINYFKNFEDIEFSFYIANPYNFKDKSFVILIVKSNSKKDILLLKTHFKKKDSNFFISNKNIDNIFKISNSKDNINSINENNFNIKPSSIFFKKDINLGFYNNKKVYIPKKYFNNHSYIIGKTGVGKSSFMKNLIIENIKLDEAVVLIDPHNLAEKVFNSISSLKKKVVYIDFIKNKYSINLLDVNKNENIFLKVDLIISLFKDLYKDFWGPQTEDILRRSLLALMYSNSNKNILDIEEFLTDDHFRLKLLQSVDDKDTLDYFHNVFARWDNRSRTERISPILNKIGRLKSDKIVSDFISGNTSFDLSEEIDNKSIIIFSLNKRLIGEDNSKFLGSLILNQIRYDLFKNEKSRVHIYIDEFQNFLSDSFLFLLSEGRKFGISLTLSNQYLEQIEKKHYDNIIENTSNFYIFNTGAFTRKILSVVLGYDIPSDMKEFLVLAKIGNNNLFTFNYKV;locus_tag=LOCUS_1490;note=MGA_150
sequence01	MetaGeneAnnotator	CDS	158864	159061	.	+	0	ID=MGA_151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIIQLCLFSYDCRVSKEGRYLYISNIPNSFISLEELKYRDFLLKMINDLKNRKIYIARIIKDMR;locus_tag=LOCUS_1500;note=MGA_151
sequence01	MetaGeneAnnotator	CDS	159321	160046	.	-	0	ID=MGA_152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYIFLAGSGEFTSTMNRVDLKLLSLIKNPDILIIPTAAGKEKKYRHWIDEGILHFKNLGFEAQGIDLIEHKDAFREDYVSILDKSNFVYFSGGDPMYLLSSLQNTPFLAKLKEKIKQDNFLLAGSSAGAMFMGELIPFNVMESLFGFNKGKLSWKKALSIVDFVVIPHFNKFSKMLNFKYLKDKFFKSFPENSLIIGIDEDTGILSQDRKTFEVLGDNSVTLFKRGDEDKIYLNSEKFII;locus_tag=LOCUS_1510;note=WP_003360578.1 cyanophycinase (Clostridium) [pid:29.1%25%2C q_cov:68.9%25%2C s_cov:60.5%25%2C Eval:4.0e-09%2C partial hit],MGA_152
sequence01	MetaGeneAnnotator	CDS	160185	160769	.	+	0	ID=MGA_153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLTDSKKVLSRKDRYIRSSLIFLVGMISAKESINILERIKNPHEIKGTQIEKAKLINNTPVIRNKKGIPLLRSLRVFIEKNKDKRNLYIGIPNIFNKKISKFKSLGYTTKGNVDLILDNRDLITNIGDITTFNTLVNNTLIDQKSVISISLDKKDTRILKGGFTAYISILAENKSEKILKNIGNVAIDVHQNM;locus_tag=LOCUS_1520;note=MGA_153
sequence01	MetaGeneAnnotator	CDS	160829	161461	.	+	0	ID=MGA_154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKEKDLFQIMEEKHTKRNRRNSITKKTLRGGMGALLLTGVALGAATIERNLNKSSEENVSMTLTNTNGLLHENNAYDVSPNKVLVQTVKKDGVLITSISQGIPEGMAKKIEPFLNKSNYSVYATAYLATGENLGIPVTQGSVVNFKTVENGVTVGQNPVIFYEFSNKNSYQPNYEDQIKQGGLVGNVTFNIVGPHSTHSLPEYSFNAN;locus_tag=LOCUS_1530;note=MGA_154
sequence01	MetaGeneAnnotator	CDS	161465	162151	.	+	0	ID=MGA_155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNETETFKNDLSNFKKSAIVATLATAAVTLGTAAVENSSSSISKFPVQNIESVQINEPISFPKDNNEKSKGYTRVIVIGDTSLKVLNKDYAKNKSSYFFGFYPVGPNEIFINNYESYGIYVTDISVGVPEKESTYLNKFSNDPNISSTNVEPFSISSTNGFSQKINHPQLFSIKGNYVLGAEITSNRKPTQNWETIAKEQGLLMNINIDFNNVHNYIIRTEYTARTKK;locus_tag=LOCUS_1540;note=MGA_155
sequence01	MetaGeneAnnotator	CDS	162159	162887	.	-	0	ID=MGA_156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTVELLQHGRYSRESLIPRLEESYIPVPSDMEFGEEFLEFGDFQKVDFLGKTRKQMESLLKDKSEYYPYIDKWNKWKPSIENGRYKREVNKVSKKLNTRGSLNPIISAYLVNKNSVNISLDEGILLEEFYRIIKLPGISFSKEKILQYIIFFGEKNTESVLKALEKFRSLPKSIDDTFKDHLVLIRNIDKGEEKDIISKYENLSEIYLTAPSWLIAASSIYSKNPDKLIELYHTKQYDILQ;locus_tag=LOCUS_1550;note=MGA_156
sequence01	MetaGeneAnnotator	CDS	162962	163369	.	+	0	ID=MGA_157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLMENELISQKETTLKETISIEDVFNLLSGYIGTSTQINASYYYARPPEDKAQIDMMGVKGIHRDRNDDLIFILAEGKYLTRKTLRFVPKKLEIYKKEGDEEEKVLSLIETINLDSIQSGELIYTREPQEVSSL;locus_tag=LOCUS_1560;note=MGA_157
sequence01	MetaGeneAnnotator	CDS	163427	164563	.	+	0	ID=MGA_158;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048147030.1;translation=MKNNIELSIIMPCYNEEKSVSICVKKALKVIKELKITGEVIVIDNNSSDKSSSVAKKAGALVFLEKNKGYGNALKRGFKEARGQYIIMADADDTYDFLESKKFYKKLKEGFDLVMGDRYRKGKIEKGATPFIHKIGAPILTKILNIFYHTNVSDAHCGMRGITKNAYKKLNLSTEGMEFASEMIVKAGKLRLKITEVPITLSKRKGSEAKLNTFKDGWRHLTFLLTQGTNFTFIYPGSLLFLIGIIIFILLSPGKFTILGRTFYYHILYIASLITILGYTIFTFGVLTKQYSINEKLTEQDRTSILIKKLGMNKIILIGFILVLISILILSYSYVIWAETHFGRILSQGRVIAGVTLFVLGIQTIFTGLFSKIIELKK;locus_tag=LOCUS_1570;note=WP_048147030.1 glycosyltransferase family 2 protein (Pyrococcus abyssi) [pid:37.7%25%2C q_cov:98.7%25%2C s_cov:98.4%25%2C Eval:2.3e-61],MGA_158
sequence01	MetaGeneAnnotator	CDS	164553	165446	.	-	0	ID=MGA_159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFDHSTEVNSEVPSFFESYSQGPFHKIDRLMKFDTKRNIPEGIYLDNRFVKLKMSNLESLEIRQEDQPIMRGGSAHNISFFTLTCCSFQGEKTIPVAVKEYKNTRNGVEEIRKIRELQKMGISTFSPVMYLKTSKASYFFTKTNFNVTSLDRYNWEDLYNEGGVNYNISLDLLLGISKSLALIHSLGILHGDPQLKNFVVDTQGKVKLIDWEACYIHNERSTEELAIKDLGILYKSCIGLYENSKNNVFKGKGADSWSMFKRLVIESYVIYLMEKNIYIDEEKLESILRKHLNITF;locus_tag=LOCUS_1580;note=MGA_159
sequence01	MetaGeneAnnotator	CDS	165436	166020	.	-	0	ID=MGA_160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIYSGDNSKELIGFDIKYKENTKGIYSFNGIVPFSLDFIAEDNKRYFFLKKGDVQGEAEGKFTYRVAEENSKGKLFVIPNNSIPLKIFNFTEEGQERSYIGSFEIFDRIAFIVAYFNKYDLLFRDLDINSFSISSGEKDWIKLIPGSFRLYEDTHNPQDFKGFLEKIRLIDPENKSTKLRDFFISKYKKYHGV;locus_tag=LOCUS_1590;note=MGA_160
sequence01	MetaGeneAnnotator	CDS	166155	167252	.	+	0	ID=MGA_161;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021210.1;translation=MKKLAFIYDCIYPYQLGGAEKRIYSLSHYLKKDFEVHIIGMRKEGQKKNFIENGIHYHTLNKYSDLYNKEGKRKIFLSIQFAFSLFFFLLKNDYEIIDTTANPYFHIFSIKLISLFKRKMKVFVTWHEYWDLNYWTSYSSYFVGIIGYILEIFALYSFSDIISVSNFTKKRIEKKIKRKVYLVENGIDKIKIKKENKIYDLIYTGRIIDFKNIDKILELTKINKKLKIVIVGDGPDLKKYKNKYKNKNILFTGFLKNETDIHTYIAQSKIFMMLSSREGFSIATLEAMSIGLPVICFNGKDNAAIDFIKNYENGILTDLKLKNINSAINIILKDYNKYSVNAKKDLDKNYLYKNIYPRYKKTINL;locus_tag=LOCUS_1600;note=WP_011021210.1 glycosyltransferase family 4 protein (Methanosarcina acetivorans) [pid:30.8%25%2C q_cov:98.9%25%2C s_cov:99.7%25%2C Eval:8.7e-42],MGA_161
sequence01	MetaGeneAnnotator	CDS	167242	167799	.	-	0	ID=MGA_162;product=methyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880943.1;translation=MYHKFHYDKNERLRTQDPLKILMDIGLKRGDVFMDIGSNDGFFTIPASKIVGKEGQVYAVDIDEEAIEKLKGYLKDMQIFNVETFISQGEDFLIDKNIADIVFLGTVLHDFSNPTKVLKNAFLMLKEGGLLIDFDWKKENTVIGPPMDIRLSEREASLMISKANFSNIEIKDISDNFYEISCTKG;locus_tag=LOCUS_1610;note=WP_010880943.1 methyltransferase domain-containing protein (Aquifex aeolicus) [pid:33.7%25%2C q_cov:88.1%25%2C s_cov:80.5%25%2C Eval:1.0e-20],MGA_162
sequence01	MetaGeneAnnotator	CDS	167858	168358	.	-	0	ID=MGA_163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVESFFYDEAQLSLDKLFVYTQKATLNREQNNINLYLPKGFIDFFLEEEGEEKKRCLIIKNFELSSQLRIFREYSIPTLEQYNKSNIFKLPSDAVSFEMLDRSFFEREIFRLENLVTYHGIRLSSDFYPKHLIYSPSSNETRIIPCANFLIKSKTMQNIYSDLLN;locus_tag=LOCUS_1620;note=MGA_163
sequence01	MetaGeneAnnotator	CDS	168466	169428	.	+	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYLLDTSYSLNIEPPLEERRYEIRENLQKSIFLEDPKTHIRFDSRFLNFKEGDRDSTLVIFPPYGFNTENRLYSYFLETFATKYRNPIIAINHLSTLKSSQLNLEQHVSLLSNSDFSSITIPFLRALSNNDFSNINLYGYSMGGRVSASVALHAKEFGINIEKLIMVDPAGIKHTTLIDFIEEIPGFIHHRKDARDEEQIKACGLDDAFLTQIVKLSQEFIPSRVEDQNALLTYAIALQRKKLLPDVIGFLKNNEKSNIVLINGGSSKICPTKSALELINIIEKNGYSNRYEHLILEEEPHAIGINARIMSDLATSYLP;locus_tag=LOCUS_1630;note=MGA_164
sequence01	MetaGeneAnnotator	CDS	169697	169897	.	-	0	ID=MGA_165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIMSSKIFIAIVSLIIGIILGWFLWYIVYPNLHTSGSQVWTGSSIRPVNGSTTHNSTYSYPKAY;locus_tag=LOCUS_1640;note=MGA_165
sequence01	MetaGeneAnnotator	CDS	170009	170800	.	-	0	ID=MGA_166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKKKREFPDVIMLIGAGDPWHSSENKDRLYSMSLAAFIISEKSSKKPYILSSASNIDHFSKKDSVKYEEYSKVLQDTLMELGIEEDHIIARDKAFNTHIELRLLRPLLRMYIKSINKEEGVIPNIQIIAFHNKTRVEKLLKFLNSEGRGLDGNISVNTPDEIFKKFDPNLEYRDIMNNPKEDIFSEKRYSKYDGIERVFNVFGKFSPLYPNNRAYLASKARKVSVPYKWSVDTVVSGSKKSQAKKKSLDIFYKLLKSFLGD;locus_tag=LOCUS_1650;note=MGA_166
sequence01	MetaGeneAnnotator	CDS	171111	172010	.	+	0	ID=MGA_167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESQAKYKKFIERLNTNWSLFIQKRKALLSQQERFGKAPEKITENIIFHLFTEVLDWDIKDINYQIDYADIEITKLGVKRILIEAKRPGGISWNMKQIEKHIAQALRYAYKQKVSIIGISDGNKLYMLNVKGGLTEPRIFISLDEDLPHEDLYYISVNGVDKEKNINIDFKNSKKEVLGKYDSTDTNSDELLNKQYKLPARCFAYVGDPNNPYTWKLPYLSLDGSVNVARLPGAIGCVVTNFRGLQVKTIPEKEIPQVIIKLAKATKSVGKLNPDNPKMANCYKQLYNAVDQMGGLDKI;locus_tag=LOCUS_1660;note=MGA_167
sequence01	MetaGeneAnnotator	CDS	172260	172637	.	-	0	ID=MGA_168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNLWTTIPTEFKRYKNVNDVDYKNPYLVIPIENPCYFNILLVGKSVTNINIYGVTPHIFQGLKINNFSFIIAVYTSNNFKIFPTVEFNLNFGTNIYPMVDEMNDTCSKEHILYQQNSIPAINLG;locus_tag=LOCUS_1670;note=MGA_168
sequence01	MetaGeneAnnotator	CDS	172661	172888	.	-	0	ID=MGA_169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSNVTGKTNFIGDGIIPINLRTNKFVVNYSANKIKEGVYPEHFVHHISGISSTKVFSSIGNKKIFFHQDRKNIF;locus_tag=LOCUS_1680;note=MGA_169
sequence01	MetaGeneAnnotator	CDS	173020	173418	.	-	0	ID=MGA_170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHEDANKKLKGVSKYGYLSLYYIKEVIVEQNPTFNSSFGYLEYLKIFNESTGIIFLIFGWVYFSFSLFTKLNIHLFSMKLYISFYHGLIILLIFVFISIIFIRRSTFFKNSKRSIIDAYIISLYDLNGKVKK;locus_tag=LOCUS_1690;note=MGA_170
sequence01	MetaGeneAnnotator	CDS	173875	174063	.	-	0	ID=MGA_171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIGAGDPWNSKENEERPYSIALAAFIVSEAFLAKEKLNWNPEILLKEGLIKTIAYFEKITK;locus_tag=LOCUS_1700;note=MGA_171
sequence01	MetaGeneAnnotator	CDS	174142	175026	.	-	0	ID=MGA_172;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001114264.1;translation=MLINDEICAIIVTYNPGKEVVFNVKELYRQIKTIVIVDNGSISISKKYIEQIGDLYKCKIIYNGENLGIATALNIGVKYAIKNGYKWVATFDQDSTVTQNMIKVMENVYKAFPEKETLAIISPKHIQKKLFKEDIMLSIKNSSRYHIQIPVMASGNIIRIDIFKDVGFFNDDLFIDYVDYEFCFRCKIKGYLILEADDAILKHHSGNLKTHLFMGKKFTVANYSYIRRYYISRNKIYIYKKYGKFFPKFMLLHALDSIKEIVGIIFFEKNKAKKFIYIIKGINDGVKNKFGKML;locus_tag=LOCUS_1710;note=WP_001114264.1 glycosyltransferase family 2 protein (Leptospira) [pid:31.3%25%2C q_cov:97.3%25%2C s_cov:94.7%25%2C Eval:1.6e-21],MGA_172
sequence01	MetaGeneAnnotator	CDS	175180	176349	.	-	0	ID=MGA_173;product=glycosyltransferase family 1 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011476426.1;translation=MHIQFYKFINVKKSILIISDSTIFGGAEKNLYLLLKFLDKTKFNLTLACTDSKGTEILLDKIKDLKVKIVRFPAARYREFDIRTTYELIKIIYNIEPDIVYVNFVHHYDCKPVMFSIFPFFRKFAVIAAEQLVPNEDEVNIFKRKLNHLWIYIIDKYITIFIMVSNKNKETFINKFHIKNKKIKVIKNSIEIKRFKKNNIFRKEMNFKKEDRIIVTIARLTSQKGHIYLIKAIKKLVKKYRDLKFIFVGEGEIEFILKKIIKEYFLDNKIFFLGFREDIDNILNSSDIFILPSLYEGLPLSILEAMEHSLPVIATNVDGNAEVIQDKYNGYLVKKKSVNGLYNSISKLLDNYDIESQYLGCNAFLTLKKDFNIKKNIKIFEELFLSLNS;locus_tag=LOCUS_1720;note=WP_011476426.1 glycosyltransferase family 1 protein (Ligilactobacillus salivarius) [pid:24.6%25%2C q_cov:79.2%25%2C s_cov:80.8%25%2C Eval:4.3e-18],MGA_173
sequence01	MetaGeneAnnotator	CDS	176356	177555	.	-	0	ID=MGA_174;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_157860104.1;translation=MTKNKIFIVSTEFPALTGGTPARNFNLINQIAKNKFSVSLFSVFDKKSEPFLNSTKKKLNIPIYTKKKISFNLFKKIYISIIKRVVPYMEEFNDLDFKTFILKKIEEEKPSILQLEQLNAYFMMKDHIPYLKDKGIKIILDAHNIEEIALKGAISSFGFIKRNVAMRILPNLKKIEKEAFEYVDLIFACSDYDKNIIARIVSSSKVVVIPNGADISYFTLEKKPKKQSLIFMGGCNYPPNEEALKFYFSRIHEEIKKIYNIKIYVLCGKPPNWLSILAKTDKSIILPGFVPDVRQYIHKASIGICPIISGSGTRLKILEYMSCGKPVISTSKGAEGIQVEDKKNIIIADTVSTFIEAVNLLFTNANIFDRYSKEARKLIELEYDWDIVGKKLQNIYKHI;locus_tag=LOCUS_1730;note=WP_157860104.1 glycosyltransferase family 4 protein (Methanosarcina acetivorans) [pid:31.4%25%2C q_cov:99.0%25%2C s_cov:97.8%25%2C Eval:1.4e-48],MGA_174
sequence01	MetaGeneAnnotator	CDS	177580	178740	.	-	0	ID=MGA_175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYNNKRDKVGSLKVCIIHNIVSPYRLPLFEELNKNVNLTVYFCKSITKDRVWKFDLGEYNFKYDILRGFSFGPIIINTNALWKLIKTNFDVVIINSDPDVAPIVFMAFILSKLRRKKIILWSEAINKEVHFFPSLVYGNTNAFNKIILYLLTFFITKYRKIYLRGADHFLAFSNKAREFLIENKVSVEKITRTYEIIPLDQLPEHSKKFVRNGKTFIYVGYLIPRKNIQLLIRAFKKIDDNKAKLYIVGTGPSEIQLKKLSKNDNRIIFTGNKEGVDKSNLYATSDILVLPSLDDSWGLVVNEAIHYGLGVITSDTIGATELIDTNTGLIFKSNNLEQLYSAMTELINDKKKLKSMQEHNLGNSGVSDIKKASKGFLRAICKVL;locus_tag=LOCUS_1740;note=WP_213498758.1 glycosyltransferase family 4 protein (Telmatocola sphagniphila) [pid:27.2%25%2C q_cov:51.3%25%2C s_cov:54.9%25%2C Eval:3.5e-12%2C partial hit],MGA_175
sequence01	MetaGeneAnnotator	CDS	178724	179905	.	-	0	ID=MGA_176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNKILFVLQRFYPSVGGTQNYSFLYAKELTKLGYDVDIVTTDSLDNLDVRGFSSGRRFTFKSKNNKLLKKETIGGINIFRFSPIFQFFTVMINPSMFFFLLLNIQKYYIVHTYCYMYAEPDMVSVISLIFRNIKIVHSPQDIDVPFEGFLKKLKETFYDKSFGRLTLKRSSKIIVLTNELKKRVKKMNIESGKIEILPIGIDFNNYKTTNNNKSIDILFVGRLTEYKGAQYIIKTLEMLKNDGIFPNTLIIGKDYGYKNILEKNIEDYELQNISINTNVRDKDLINFYRSSKFFIFPSSGEGFGGVVLEAISGGCYPILLKEKGLKDLLGNIGGYSIDKDKDISKQIYMFLKENHTKDFSNEVTVLQNIVKKDYNWTNIAKKLVQIYEKIQ;locus_tag=LOCUS_1750;note=WP_010868574.1 glycosyltransferase family 4 protein (Pyrococcus abyssi) [pid:26.5%25%2C q_cov:57.8%25%2C s_cov:60.9%25%2C Eval:7.2e-13%2C partial hit],MGA_176
sequence01	MetaGeneAnnotator	CDS	180063	180602	.	-	0	ID=MGA_177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNFETIQSPLAERNSSLKIPDINEFSDNESKGIRAEDAFEFMKNGNPNLYDLITGIRENSDLNLKELHKYTENNNKYTDFIIGVGLTYDNIAIKLKGKVPALSVFDIEKIKNSSTFKGIKEYFNSMSTESNSINSIKETIKTKNSVTYDTIDNSLESEEEKIGALLVFAILKTTESRN;locus_tag=LOCUS_1760;note=MGA_177
sequence01	MetaGeneAnnotator	CDS	180971	181786	.	-	0	ID=MGA_178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERFNIKKIRILVTFIISIVILYIFFMASFFYIVNQYVVQNKFHYQTPENLLRINNKKIITETFYINNYNLSSINLFLINNSTSNFNRNITNTIKVVVKSHNKDFCSQIIPIIYIKTNSLNSINCGLKNKQLYTIEIMGENIIKTENIDIAVVKSNSNIIYNRKKIKGGILMGFTYNLGAFNLKNIKNSWYVLKRYMSEYKPGFMTNFYIYIFFGIYFIFIPLLIIFIICKYYSDIKIQKQDVLKVIILITILIILYLFLHTHSYNQATFA;locus_tag=LOCUS_1770;note=MGA_178
sequence01	MetaGeneAnnotator	CDS	181794	183209	.	-	0	ID=MGA_179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYMKLKKYDKSIIFIIFTIFISLLIWWISLPVFQSFDEPAHFAQIQHIAETNQYDMNNTISNEQFLLENFLKFNIFNANVNSQYHFISKNYNIRKYIFDKKSNTKINRNTFTHVAIVENYPPLYYYISAVVYKITKQKSIFFSIEAIRFISIFFFLITLIFSYKIALLIFPEDIWIQYCTVIFIGFLPMLSQLSVSINPDNLLITLFTLFTYYSLKLLRSSGFSQKTNIVLVIILLLGFMTKQSAYILCIPYLFLIGYKLKNKKLSLRYKQILILGFFFLILIFFFLKGFTLIFDYISGTFNSWKYFSPLDYIYKYSTNYFFNGYVFQSFWGAFGWGFFKFPQQYYDILYLFLSTSIIGIIIYYYNLTYITKKNRKLLYTINYLIILSLTYSLFLVYLDFISIKNTGTFFIQGHYFFEIITANTILFLFGIGEFFKRFKLKNTIYFIIIIGIVLLNTTGLFQILINKFYL;locus_tag=LOCUS_1780;note=MGA_179
sequence01	MetaGeneAnnotator	CDS	183178	186150	.	-	0	ID=MGA_180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDNIKNDIVDNISKFLEKEKSYVLKKVNYEINNPGRTVANAWNKINPKTEIEIEDFYKKTDSYIYDLLIESSRTSRIEWRDSILFYLSLYEDKKTLLDYGGGVGTDGLYFQECGYDTSYYDLKGLTFDFAKYRFNKYNSEIKVLENKNNIKSYDSIVCLEVMEHLVDPIDTLKFLYTKLNKNGLLFLTQSFDLVSKDYPSHLKENQKYSKDFEKICVDLGFTILDKISNDRIYVLGKFGGVDIIVPTYNSYEYVYDCINSVIENTNDTPYRFVFVNDCSTDIRIHKFFNKIKRDKDIYIKNKKNLGFVKTTNIGLSQSKENDVVLLNTDTVVTYKWLSSIRKVIYKKQKYATANPLTNNASIYSILELSHLADNVNIQKIGKIINKSSMHLYPEIPVSVGFCMYIKREVLNKIGILDEIFERGYGEEGDFCMRCRVNGYSHILVDDAFVFHKGSVSMLLKGEIKKGESTIEAHEKILHKRYPDYGAIINNFIETRVFNNIKNSIIQSVTSSLSLNKRRILYVIHFPINGDNIGGTEFHLKDLVNNIDNKIDCYVLYIKDNKIIVEEYVDNIKTSYLFDIPYPLQSYLFRNDFLYYKYIEILKILNINLIHVQHLLNNSFDIIFSAKSLGIPIIMTIHDYYLISPDYNLLYRYKDEIYNKDIVPDSKYFEKKLLIKNFKQEDWQKNISKVISLVNLFIFPSESAKSEFSNVYNIKNSLVIEHGETLVPDKNFNIGSIKMADKKKFSILFLGYTNASQKGNNTLKKVITSLSNRGVEIHLLGTEELYWKNIHKQNLILHGSYKRNNVVEILKKINPDIIGLVSIWPETFSYTFSEALLAKIPVVTFPLGAVPERIKKYGGGGFILNSLSSDEFIKTIISLKKNNVEYKKLKNETKEIHVKTLNENIKEYLDLYEKYVYIKDLNHTNEDIKRISSEHYSTYIEEKRLIQNAINEKNLLLFHLNNIQNSIIWKYIISNYLRLKNVLYEIKKIR;locus_tag=LOCUS_1790;note=WP_046236406.1 glycosyltransferase family 2 protein (Pseudomonas syringae pv. coryli) [pid:32.6%25%2C q_cov:25.4%25%2C s_cov:30.9%25%2C Eval:2.9e-33%2C partial hit],MGA_180
sequence01	MetaGeneAnnotator	CDS	186418	188223	.	-	0	ID=MGA_181;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002378512.1;translation=MKCYGKILYCMSIISLSKKSIFYIKNFGVKEFLRKTKGYLSSRIIRKKDNIAYSKLVKLEKFNETKIKKEIEKFKYKPLLSIIIPTYNTPIPLIKETIESVKKQFYKNFEVIVYDDASKDENFKKYLERINKGNIKVFLSKKNNGISKSSNMAVKKSKGEYLVFLDHDDTLSQDALFETVKFLNNKRVDYIYSDEDKLSYKGEREDPFFKPDFSYDLLLSCMYITHIRVIRKSTFLKLHGLNSKFDGAQDWDFALRLYENKALFGHIPKILYHWRKTANSTADDASGAKSYAYKRQQTLIEEHLKRMSVNAIVKQGFFKGSYKVERNIEGEPKVEIIIPFKDKVEYLKDCVGSIEKISTYKNYEICLINNDSREEETFEYLKNLKKDHRITILDYKKEFNYSLINNFAVKKTESDYLLFLNNDTKIITPQWIEEMLSHAQRKEVGAVGGLLLYKDGTIQHAGIVIGLGGVAAHSHRGFPGASNGHGGLVSCVRDVSAVTAACMMVKRSKFLQIKGFDENLKIAYNDVDLCLRLERLGLRNIYTPYMKIYHYETKTRKKTKGENIKDTGFFLKRWKYILKKGDPFYNPNLTHSKEDYSFRAV;locus_tag=LOCUS_1800;note=WP_002378512.1 glycosyltransferase family 2 protein (Enterococcus) [pid:37.6%25%2C q_cov:97.0%25%2C s_cov:82.5%25%2C Eval:3.7e-110],MGA_181
sequence01	MetaGeneAnnotator	CDS	188524	190620	.	+	0	ID=MGA_182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKIFFSIFFTVFSLSLTGRVFASTPPSSAYQGNSYLNSFYSNKTYSFTPAVSKPQPLKKFASLGPQGLQKEVMGFAPYWDLSSGAYTSYPYSNLTTIDYFGITSDGNGNFGTNAGGGSGWAGLNSSQFTDMVNTAHSKNVRVIISAKIFNITDIESVVNNTTNAQNFINNIISIVKKFNCDGVNIDFEYQPSQGTPSTTTINNFTTFISNLTQQTHSQIPGSFVSVDVFASAVRWTGSLFNVPQLANVTDALNVMAYDYYTPSSSVAEPVNPFTGYNNGAGPLWYDVRRTILDYASAINPNKIILGVPYYGNDYQTTSNNQNASTVSGSGINEPYGQTNDQYKNQNTKHWDSQSSTPWYGYCYPSNNTPPNCASSDQLRQGYYSNATSLGLVYSQVLQSNLRGVSLWTLGYEQPSTNLTSAINTYFTTNSIFSNINSAYTLLSSAGKVLAFGNANYYGDMSYVNGAPDSNAQGLATLPNDTGYYILTTDGGIYTFGSAQFYGSVFNIPNAPIKTPVSIVTTPDGKGYYVLTTDGGVYTFGDAQFHGSLFNIPASALPDRTPLAFALTPDGGGYYIMTSNGAVYTFGDAQFHGSVFNIPNAPNKNAVDFALTPDGAGYYITTQDGGVYTFGDAQFHGSMFNIQGAPNTTPQSFVVTSNNGGYYLLTQDGGIYTFGNAVYDGTAIGIFQKTVGINLIP;locus_tag=LOCUS_1810;note=WP_041272539.1 cell wall-binding repeat-containing protein (Desulfitobacterium hafniense) [pid:22.3%25%2C q_cov:41.8%25%2C s_cov:40.4%25%2C Eval:2.4e-10%2C partial hit],MGA_182
sequence01	MetaGeneAnnotator	CDS	190620	192695	.	+	0	ID=MGA_183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLFISISLSFSFILFSKIYAQDISVYQKFTILTQNKRYTLNNAIVNINSQNLNLGYSVRKINSNTEIVEKPNNMSYENFLISLLSNTNLYNVTPNYIKSFSQLPNNIDITQQKNLFLTHAPVVDNNGFSSSLGGSSNITIAVLDSGIAYQNYTNPLDNTFYAQAPSLSNLNIKDPYNALAVYNNQLQNEYAPYDNVGHGTYIAGIIASSTNNDASGSLNYATAGIAFNATIMPVKIGNSNGIPLGAELLGLQWAINNHANIINLSIASTTPSQSEETLIEQAINDGIIVVAASGNEGSNSLDYPAGYPNVIAVGASNSSNTLTSYSNYGCSTDLNCQTVVAPVGYNTPLVYQQTLTGYDTGTVSSFSSFSNEYLVGTSFATPQVVAAIALYESVNGVQNSAFMENILKMCSTSLGNYNLYGFGLLNINNMLNYPVNSTPYTVLSSQGTVSTFGQDQYWGNLPVNSTPTDIARTNTGYYILTSNGAVYTFGNAQFYGSMYNIPNPPVQQSVAIVPTKNDLGYYILTEDGAVYTFGNAQFYGSMYNIPSSAVPVRTPLSLVLTQDQSGYYILTSNGAVYTFGDAQFYGSVFNIPNAPVKTAVALRLSSQGEGYYILTKDGAIYTFGDAQFYGSMYNIPSSAVPQNNPTSLLITNSGYMILEKDGALYTFGGILSEGTLYPDPSGAIAITQ;locus_tag=LOCUS_1820;note=WP_003233171.1 subtilisin AprE (Bacillus) [pid:31.9%25%2C q_cov:44.6%25%2C s_cov:67.7%25%2C Eval:7.7e-30%2C partial hit],MGA_183
sequence01	MetaGeneAnnotator	CDS	192735	193256	.	+	0	ID=MGA_184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDTKNSVIIILAAIIVILFVLLVAKNNQNTVQNNPKSINKSVQKTIKKETATTFPQQSPTVVIKDIINSYKTCANTPTCPLSSSFRSRAQALEKANNPLNPITRMAGGYINPIYSVITELPTISIIKVTNQSGSNAIEFDLTNIKNSWELTNTYCYSNPQSAITDTKIISCN;locus_tag=LOCUS_1830;note=MGA_184
sequence01	MetaGeneAnnotator	CDS	193263	193700	.	+	0	ID=MGA_185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENEKYTNLLNNLSEVFSLSIEFCETYGSEIEREAILEREAVATPDYIKDLMSKKADTYTLTINKKEDPQETLFGDRATILTININPKDSKSNGVVYRLYRGRFERIVYEKKGREFTRRTIDEVIPPEEIESLRNFLKNQFPASN;locus_tag=LOCUS_1840;note=MGA_185
sequence01	MetaGeneAnnotator	CDS	193767	194288	.	-	0	ID=MGA_186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENERRISKNEKRRSFYISKISDDKGNVTEVSNSYDTKGNLIQRTEETKFSDQREGNLKKTYNVYDSKGNLIHQTEKTIFPDRMEIIDFFCGKDNVLFKSVIPNIDNVDDVHTEYKEVNGKPVSLETIFNGEYKKEEYREDGSLIRETIRNVDSSGKISLFVVKEYNEKGEII;locus_tag=LOCUS_1850;note=MGA_186
sequence01	MetaGeneAnnotator	CDS	194389	195210	.	+	0	ID=MGA_187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYNAFMVSVIIVTYNSEKFIQETILRVLKQTYNDIEIIVVDNNSKDHTLKYIKGIKNIKVIENKKNVGFAKANLQGFLISKGEYILTLNHDAFLNSSYIQKIVEVMSKDVTIGSAQGIYYKDSKKTKIDSEGIYLNFGYSANDIKKKYFGIKKVFACCAAAAIYSRSAIDDVGFFDTTFRSYYEDVDLGLRLRKEGYDNLLISSAECVHLRGSESNLRNLKYSLRNKYKLLKKHNMKKEIKIAKIYDILKMPIYYFKNKDFIPEYIKILRKI;locus_tag=LOCUS_1860;note=WP_010877828.1 glycosyltransferase family 2 protein (Archaeoglobus fulgidus) [pid:30.6%25%2C q_cov:81.0%25%2C s_cov:71.3%25%2C Eval:2.4e-24%2C partial hit],MGA_187
sequence01	MetaGeneAnnotator	CDS	195207	196373	.	-	0	ID=MGA_188;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021201.1;translation=MENVIEVKNITKEFRLPMEKRSQLKDYFVHPFKRTKYREFRALSNISFSVKKGEFLGIIGRNGSGKSTLLKIIAGIYLQDKGKINVKGKIVPFLELGVGFNMELTAKDNIFLNGVILGLSREEVKKKYKEIIEFSELQGFEETQLKNFSSGMQVRLAFSIAIQAHGDIYILDEVLAVGDLGFQQKCFDMFRKLKSQGKTIIFVSHSMGAIEEFCDRVILLDKGNIRKEGNVLNVVKNYSEVFFSKTENTFLEKDGEFSLKILGKDGKDKNIFDFNEELSIKIIYNLKKEIISPFFEIIITREDGIIISAINSKYSNLSLGSIKGKGAISFSVNNLNLYPSEYSISLVVYSKDLNEQIVLLEKIRNFKTFLSRDNIKGILEIEGEWSSI;locus_tag=LOCUS_1870;note=WP_011021201.1 ABC transporter ATP-binding protein (Methanosarcina acetivorans) [pid:39.1%25%2C q_cov:89.7%25%2C s_cov:91.2%25%2C Eval:3.5e-68],MGA_188
sequence01	MetaGeneAnnotator	CDS	196377	197147	.	-	0	ID=MGA_189;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012027237.1;translation=MYYMNKNDRDLLLEFVKTDFTLRYNNSVLGFLWVVLKPLLMFTVMYIVFSLFLGTSVKYYALYLLLGIMLYNFFNEVTVNGMNSLLQKKDIMLKVNFKRYIAVIGSSVIALINLFFNLIVSVVFFIFNRVLPSFEGILFFLLGIIILYILGIAISFFISIFYVKFRDLQHIWEIVMFVLFYLTPIVYPISLVHGKFALIIDANPLTHILNFARQSIIYGKYLSVYSTMIIFVLSITLFILGFYFFERSIKKIAEDF;locus_tag=LOCUS_1880;note=WP_012027237.1 ABC transporter permease (Streptococcus) [pid:36.0%25%2C q_cov:99.2%25%2C s_cov:99.3%25%2C Eval:4.8e-40],MGA_189
sequence01	MetaGeneAnnotator	CDS	197220	198131	.	+	0	ID=MGA_190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIDISIIIVTYNVKSLLADCLFSIKQSEDNLKKEIFIIDNGRDDTYKLFKDSREYIYIKNKDNVGFSKANNQALKIAKGRYILILNPDTKLNKNTLSEMYNFMEIHKDVGVSTCPLFLPSGELDKACRRSFPTISNSIGKLLNLSKFSDKFKGYNIEGSINREIEIDACTGAFMFIRKEVFSGNKKHTKTAFFDESFWAMGEDLDLCFRIKENNWKIMYTPKTSILHYKGASGGLKKSSSKLSSADKETKRRWIKAYSDAMYIFYKKHYFTQNNVLINFIIIISIKLLYLLQLLKLNVIEK;locus_tag=LOCUS_1890;note=WP_020404386.1 glycosyltransferase (Gracilimonas tropica) [pid:36.5%25%2C q_cov:88.4%25%2C s_cov:36.6%25%2C Eval:1.0e-42%2C partial hit],MGA_190
sequence01	MetaGeneAnnotator	CDS	198414	198644	.	+	0	ID=MGA_191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTRTVNIAIDKKLLTEIDKAVKQDLGSRSEYFRRLAIADLDKRKRWKKLLSAGRKVGKQMGINNEEDVYRIIKED;locus_tag=LOCUS_1900;note=MGA_191
sequence01	MetaGeneAnnotator	CDS	198650	199075	.	+	0	ID=MGA_192;product=putative toxin-antitoxin system toxin component%2C PIN family;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392184.1;translation=MPNHNIKVVIDTNVWISGLVFGGIPRIILQQFIDKKINIIISEEIITELHRTITRKFPLFQANMELLELSIRKDATLVPLGSLTVKISRDHDDNKVIETAVIGNVDYIISGDDDLLSITQYRNIQIIKPAEFLNISNSYFH;locus_tag=LOCUS_1910;note=WP_011392184.1 putative toxin-antitoxin system toxin component%2C PIN family (Moorella thermoacetica) [pid:36.0%25%2C q_cov:92.2%25%2C s_cov:97.8%25%2C Eval:3.4e-12],MGA_192
sequence01	MetaGeneAnnotator	CDS	199321	200643	.	+	0	ID=MGA_193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILKSFIYVFFIVVIFILTAHKSFAASAQLSPYSWDPGLYATTSTYGSTVHAWGMRKNQGAWGTGPVNYQSGATTTYRGSSSGTLNVDLKGTYCPNGVCAYGAGTGYKGLVQFWNDPNNYIAFGFIHDPGVSPNGITIMVEGAANGKPVGGYWPGGAINGASHHFQITWTATGISVTIDNQVTLGVYPVAENNPSISFLAASREPGDICDTTFTGISFTPGSVVSNPVIIPSGSPYLTYTDTITESGSGTGYSAYINAHDANNNAISVGIQTDSTSASSHGLPFYTWERVQNGVFSYEYLSPASNSPTNIELAWWSQDNTAVFYVNGTPIADITVNLSPRLFFNIEGNARINGDTVNDTFGPVNIVVGNNCPTYCGLNGSWNSSSFNSYGLYATQTNSNSENGATFRVQGTVSGLASEQTWDTNQVSGISMIAQYWNGQ;locus_tag=LOCUS_1920;note=MGA_193
sequence01	MetaGeneAnnotator	CDS	200731	201633	.	+	0	ID=MGA_194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLELEHTDEDFDLSEYLVGKVDSSSIQVSQKGEIYYSKKGNVFKRDPLLGLEPVQNSYPSENIVDTFCIDDNQRLLTFLVRQASEFSDERILVVREDKRSYKKRIFIKTPILLSAATLDFSSILIGAYEEDISLIRIGKETKYLTLKNNKTDIVPETEKFIILNSKSFVSSGFEGIFKWNLHEDDSYNVEKLSDINSPRNLIAISEKNYIYSKGEKIFSLENVSDEWKTEEIFQNDSVITSLDIIDNMLFAGTEKGELLFISQNSIKKGYLKKGKSISLIKKTDKGLIGVSGGNVFVIK;locus_tag=LOCUS_1930;note=MGA_194
sequence01	MetaGeneAnnotator	CDS	201676	203157	.	-	0	ID=MGA_195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIKIKKAYFLVFFLSLLLIYMLSLGKVFADAPDASQVLAVSKDLKIVVLPTQLASGAPSGYYIISKTGAVLSYGNAQFYGDLTQIPNIPNNQVADMVLTPNDLGYYILTKDGGVYTFGNAKFFGSVFNITNAPIKNAVSIKLTPNGNGYYVLTEDGAVYTFGTAKFNGSMYNIPAAPNKVPVSLNITPNGQGYYIQTEDGGIYTFGNAQFLGSVYNIPQAPVKNAMGMKLTPRGQGYYVQTTDGGVYTFGTAQFQGSIFNIKGAPNKTVADIAITPNGQGYYALTADGGVYTFGNAQFDGADSADVAENTLTVKSYVQEQVSPTQVLVEGEIQNNSNTTMTGVTLTATGSFGTQTVTPIMSALNPDQKTAFMFSYQGTVSSVTFSVTGTTFSSSYTDPLKVSNIQVTQGSGTITVTGNVTNNSSVTITTPKVDILFFDSNENIVALLDATNSLASSTIAPGATTTFSATLTGAPVSQVSTNFDDAVKVFASN;locus_tag=LOCUS_1940;note=MGA_195
sequence01	MetaGeneAnnotator	CDS	203292	205475	.	+	0	ID=MGA_196;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048157.1;translation=MNIEEKSYNPNKTEIEILNFWERNNLYTPEYKESRKKTFSIPLPPPNANGTLHLGHVSGYTYQDILARYKRLKGYKVLLVPGKDHASIQTEVVFEKVLEKKGIKKRDLGREEFYKQCFDFCIINSNNIRSQEKRIGLSADFSREKFTLDEDLNRIVNETFKEMFDQGLVYRGKRIINWCPKCFTALADIDTEYEEEESFLYYIKYGDLIVATTRPETIIADTAIAVNPRDKRYKHLIGKVIEFKSLEGLKTLPVIGDRVVDINFGTGVLKVTPGHSKEDFRLGEIHNLPIISVIDQRGKMTYGKYKGLKVKEARDLIVKELEDLDLIKKIEKIKHSIQICERSKTVIEPLISYQWFLKTKDMASSAIRALEEEKIHIHPKRQEKNYVQWLENLEDWCISRQLWWGQRIPVYYCGGKETIISENGDITEKILGCGNTFVSLDEPKECPFCKSSKIVQDEDIFDTWFSSSQWPYSVLGGLNSKDFKEFYPEDVMETGRDILFSWVSRMVMLSLYKTKKVPFRDVYLHGIVLDKDGQKQSKSKGNGMDPSTFIDKFGTDALRLSLVSGNAADQDLRLYEEKVKGFRNFINKIYNSARYILLQTENLSSEDKKYIRENLGYRVKMKDFSIQKEQEKHIRNIEKLLEKFDIGIAAFNIQNFYHHTYCDIYIEKTKEYQTLDMKAELIYTLLQNIIVMHPFIPFITENIYQTLKEKDLITPLDTSLMYEKFPL;locus_tag=LOCUS_1950;EC_number=6.1.1.9;note=WP_012048157.1 valine--tRNA ligase (Clostridium) [pid:42.6%25%2C q_cov:96.6%25%2C s_cov:78.7%25%2C Eval:8.6e-173],MGA_196
sequence01	MetaGeneAnnotator	CDS	205484	206176	.	-	0	ID=MGA_197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDISKEEVSNANTIESQNSISTSQSFLKKTDYYNIFVSILVGFFLLILIILFIIPYSHTHNLKNTNIYGLGGTKSLYKGKINDSFNINIVITIDSINSAIEHYTVDNKGVLPPLPQLTSPAIVTSGTSYGYNIRGNTKGTPICAIKTKGTLPTQVAKVKVSGFDSCETLATLEKAVPAIKNYLLTPSVGGNVNYYIAESANGTGILVFATGMKKGATSNTEGYPIAYLY;locus_tag=LOCUS_1960;note=MGA_197
sequence01	MetaGeneAnnotator	CDS	206395	207492	.	-	0	ID=MGA_198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIEAIDTFIERDEKKEASLQKKETPIETTSRHFREFNNNVPNFLVDGKNEEEASLPELKFDKVRDAETGQEYRIFIINEESIKEGKIPNVLTLQYNIGVDHKPVQYLAQVMGQEGDPIICVESPSVGESSDMTKDQKKFLKEGEKPFEKISESLLRALYGKIYNPRNKDREINFVGYSQGAITALSNAEVADKYGFKVRKVFLLDIPGIKDFGKGEIGSILGITGAFSSEASSLGFYEKDPNDERQREVSGVDKKNNPLVTNARLLRDVVIKPMTRRGMQTGYPAAMGRKVVPAILESALSKQPDMKVTFVSGSKSKITPTEDTKELLKEFNTDRIRRIVLPGDTHSVGERARRLGALFKFTNK;locus_tag=LOCUS_1970;note=MGA_198
sequence01	MetaGeneAnnotator	CDS	207885	208109	.	+	0	ID=MGA_199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVQLYLPQDIYAEFDLLAEQENKPISFVIRNYIENTFNKKNDRGISTLIKLSKYNLKGEKDLTSHIDEIVYK;locus_tag=LOCUS_1980;note=MGA_199
sequence01	MetaGeneAnnotator	CDS	208111	208512	.	+	0	ID=MGA_200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAFIDSNVYISILNKEESTHIQSLELLDTLKSQKSELFTSSYIISECLTVLSQKFNHKTAIVFENDIYSGNTKILIPKRETEDIARTIFRKEINKNISYIDCTNIAFCIRYKLDQLITFDKDLTKLFNKTVK;locus_tag=LOCUS_1990;note=MGA_200
sequence01	MetaGeneAnnotator	CDS	208695	209345	.	+	0	ID=MGA_201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDIVIKAEKRDIKGKEVESLRKEGLLPSSIFGIKGNFDITLNKKNFLAIYNKAKYTTVIEIELGGKKHNVLISEIQVHPVTNDVLHVSFHEISLEKTVKAEVPVKLIGEAPGVKTYGGVLIHSIQELEIESLPGNIPQSIDIDISVLKEIGDTLLVKDITLPKGVVLVSDEEEDLEVSLVSVAAPAEEVEEEETEISPDDVEIINEKKETEETEA;locus_tag=LOCUS_2000;note=WP_011962325.1 50S ribosomal protein L25/general stress protein Ctc (Flavobacterium psychrophilum) [pid:39.0%25%2C q_cov:72.7%25%2C s_cov:76.8%25%2C Eval:8.0e-24%2C partial hit],MGA_201
sequence01	MetaGeneAnnotator	CDS	209539	211023	.	+	0	ID=MGA_202;product=IS1634-like element ISMsm6 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011727513.1;translation=MLKIRTTKTGSGSTSIQVVYNTTNKVNIVKHIGTGKTDQEIKDLKNLGYQYIRNFIIQSGQIPMFEDSTLISIDNLSIKESFHTFAHEYLSHIYDINGFNSLGDNLLRDLAIMRIIEPVSKEESIDLLREYFNIKYSHGSLHRGLQKIVEKKDAIESVAVEYAKKNLNFDFSLVFYDVTNLYFESFKSDDLRKPGFNKDGKSQQPQVAIGMVVNSDGYPISIEIFEGNKFEGHTFIPVILALKKKYNMKTTLTVVADAAMLSYRNMKALNDAGLSFIVGARLSKVNRSLLESIVESLGKVEGKYIESETAYGTLVTDYSRKRAQKDKSDRLKQIRKAEYHIQHPAKHKRPRFLKKLDKDKFEINTELIEFDELKEGIKGYYHNLKDIPAQLIVARYHDLWHVEKSFRIAKSDLKARPIFARKEDMILSHILIVFVSLCMSKSLELKTGLSTKLIKKSIFHIMDIVLIDELTHKEFTKRQKFPDSDVFSTLLKMY;locus_tag=LOCUS_2010;note=WP_011727513.1 IS1634-like element ISMsm6 family transposase (Mycolicibacterium smegmatis) [pid:32.0%25%2C q_cov:92.1%25%2C s_cov:92.7%25%2C Eval:2.1e-60],MGA_202
sequence01	DFAST	assembly_gap	211039	211047	.	+	.	ID=GAP_1;estimated_length=known;gap_type=within scaffold;linkage_evidence=paired-ends;note=GAP_1
sequence01	MetaGeneAnnotator	CDS	211109	211783	.	-	0	ID=MGA_203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDLKKHEQILKNILRDIYTNQYLQAALAFKGGSCLYMFYGLDRFSVDLDFNLRTENFNPDNVTKILKDYIRIDDQENERFTWFWLGSYEAGKQRIKLEISKRDYPDKYINKDFYGITIPIMEPSCMFAHKLCAITDRKVLKNRDIYDAHFMFKKGFDINEEIIMLRTGKTQKEYFTYLIKYISDNVNSNNIIEGLGELLNNNQKDKVRATLLKDILFDLRSRK;locus_tag=LOCUS_2020;note=WP_168188351.1 nucleotidyl transferase AbiEii/AbiGii toxin family protein (Thermococcus indicus) [pid:23.5%25%2C q_cov:71.4%25%2C s_cov:68.1%25%2C Eval:3.9e-08%2C partial hit],MGA_203
sequence01	MetaGeneAnnotator	CDS	211770	212363	.	-	0	ID=MGA_204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNQTKSIEKLILSGKKVFTIEDLAVIWEITERKRLINRIKYYLKNKRLISIHKGVYVYDKNYTPEDVAQKLFPMSYISLYTTSQMHGLTFQYYSTIYSISLKSKKYDTGGIIYIYHKVKESIFYNTLGLTNNGRYTFASKERTICDMLYVFPKISFDNLREIDIEKLKEISKIYNNKRLENSVKNIILNINNYARS;locus_tag=LOCUS_2030;note=MGA_204
sequence01	MetaGeneAnnotator	CDS	212558	212959	.	-	0	ID=MGA_205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINLTFIRNNRNYFYIIIVVVVIMLIVFLNTFFGTNNQSTTITVPKGIPMYNKSLYNPIILNYDGKNFNTSYYTLQMSNQNNPPYYLHVIIKNINFSNPKDIISEEKIYMNEAQQFLKKYGVNTSSKRIIYTF;locus_tag=LOCUS_2040;note=MGA_205
sequence01	MetaGeneAnnotator	CDS	212956	213684	.	-	0	ID=MGA_206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEYGYKTMIKKIFLLTFFISLYIFLAPHSKILAQSQEIPPWILSPINLYAGGATNYNTVVSLGGISVPPGYCPEPFTVTIPLVNPAGITLTQSDFASMDAYLVSIGKPGILAQEQSIQNACNIGPNLYKCDPRFITAIWGQESTFGTAGGENFNCPVGVNGFYQGLSCAVNSVMSYYTTFTREMSSLNTAVSGSCKTTDLFTYMMEQYTPIASSSYGNNQQRTALNQFLTIFLGSQYIQTG;locus_tag=LOCUS_2050;note=MGA_206
sequence01	MetaGeneAnnotator	CDS	213657	214358	.	-	0	ID=MGA_207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNKIAKIIRERILIILGAIILIFLIIELWGFLGKPQNIDTTKIFSSIGPISGKVNTNKYLEYKEGIYVFYFNINNINGDITYYKYNTQTNSYYEYFMKSPSLYKGKSFNNPIYLSYYLSYYIFNAPTGNTPQELINYNNYLKSYYLSMPKFLNNGKIISSILGDIQNFYATTPLLEGIYIQKYIPGKEYIFKYKYLLTLKSGQAGDIPQTSNVIVKVENIQGIWQNMGIKL;locus_tag=LOCUS_2060;note=MGA_207
sequence01	MetaGeneAnnotator	CDS	214361	216679	.	-	0	ID=MGA_208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFRKLKLNKILVLFFVTFVFSLKGVVFASSEPLNVCQFSTPQQYNYPNHMAASCNQNSLSFNIPVTPKISGNTVSVYQTETFAFDVNITSFPLLGYLDSLNSNGTPISSSNGNPFSSFVSSVQKLNYNNYINFSKLNSSLPGLGSLNMPVAQAISFGNISVQSNPQSQVGNNAFFSVPGLGMEADLFTLGSMFMIDNNYNPQNLPNASVLSSNTQNNYNTAPSSSDINSNCTASTVKDLTCKLLNSYGNPTQSTQPANSTLSGYYKVNGGYSSLTTFFSSVINFLQGLPLIGSWFGTKPITTNSTGFCPNLISNFNTTNSFIQANLNQSSPFTIKVQQSCNLSNVNCTLASETTVPVQINTNLYLQGLNRALADEWYAEASLDQGPPIGHTGAKGVQYINHKTGFLHTAVLQCLETSCTNSPYGNSTTISNNLFSGIGIEVSANIKVVQASPTNAQACLAQDTSSSASLGSSNQNFAFPWVSNQNFAFPWVGAIPVIQQHLASENFQPYFTANPLSRNSLPVLPQGEYYIKNRSSFPDPLVLYLIYSGALSKNDPIVKNAIGSYYSSNSSTTSTSFGSYTGPFDQVACLKVLNATPPSTPNYSSSKIINDASAFLGGQYSENPSTPSCAPFDNSSPLPSPNYGIDCSGLAKVVYAASGFLIPRTTFEQFQSPALKIFYNPTKVVPGDLVFYYVRQDGPGVQHVAIVSSWSGINNYSTIEAAKPSKGVTTFPKNSFSTCYAPQSEAYTYTPPNGNGYCIAGFGRPSSGNFNGN;locus_tag=LOCUS_2070;note=MGA_208
sequence01	MetaGeneAnnotator	CDS	216654	217496	.	-	0	ID=MGA_209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYIKISIPLILILLLSLFFIFHKTNNVSIKNKNTSLSFVPKINFLTKNIQNLNQNFKIQSPSSKNSFFEIKYNLTPYQVANNLGVTYPPEKTSFVQDVWQNSYQKLVYSNSSYFYTTSKGYICKNIYICVNNIINNEFDINTLSFKKDVIFSKNHINLLYYPTLEGDYIYKTYGDKLYYEFNFSLNYRLTGFSVYPINVIKIQGKSVSSILNSKSIKNYPFYSNSYNLKQISFSTQNEAYFIDFLDNNIVPIYFISGKADTIKGVLENYFLYVPQIKIK;locus_tag=LOCUS_2080;note=MGA_209
sequence01	MetaGeneAnnotator	CDS	217504	221880	.	-	0	ID=MGA_210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDELKKKIISVYTNEYYELSDLERDLRSKGLSLDKLTSPYSGYTGGDLPDGLSPDKDNVLSRLVKESYVKTYIKLTVSQNLKEEFKKASYKPYKSNFKEREADLLAKALAPAISKHFYPQAFKGKGAPKYIFGIDGLKKELRKPIYANAIRSQLESLYTHGYMYQLDEKLRPVIVDNRIAILEDAKGEAYMPPPMDDGKFKRQELFNFILSNKKGRYKRKSSIFSMPSSWKAISEWEKYFVATRDRNLWSAGIARTKNPALRSIIDQNTRDYLGTINTLASPKNQGLTRDKYSPTATGLRHTNRLLYPEKSKKFSFSTLGALDFKQWEDKFGEVFTTTNKRVLKINFKPFQIGLQKGKDKKNPNLVTRRDKKVKKRNLLKFIDFIEALPAAVVFVGRYFVDKALLYVAKNVGDGEFAYSILRNVSGGLTEKVFISIDSFKFALGVGKLILKDGVEALIPGLITGIILSNPLLGAVVGGAYFTSKFLVDFTSFFSEQNPLTANLIERINSSMIERSLSTTEVVFKSTTFGFSTGILGAGIAAFLGIANAPLIFAGIFIGTSAIKAIDYLVVGRLAGSYEELSAIGASEFRISLFKSEYLFQFGGVSGIVSLFFISNPFIGLVVFGAGLITGSVADFIKASLFEDSVLHSISDISLYDALHTGLGFAGGGALIGVGLVGGPLGLLVGVVTGGMSLAINIYEKRASSFIVKEDPKLEPLKDIKDLRLKNVPFNEWKNLGKVSLKEELVKLGIPAEEIDRMDLVKYLEGDKIKPDIAHVQKMFDEYRRADFYSRQDLLYRYDPLAPRTIFANVNEVDISKNLEENLKNLKDISGRSLDSGLVDTLSKDTNVGALWDKAIHGDASGFIDKVAREHIIKTSGLQEEDLKKIEKSKINLDNSRLRIKTVNTQIDAMRRTADIIKDPRAIRFIDEGAAKKIISKEIISNRFSVVTDTSVKDFFKGRGINIEEMKYSDFVEAAKKIGFSDQEIVDMAKNSDYIKNLSLTDISPDKIFEGITLTPGTRFVDSLDLLKDPNIISSSIPKLELGKEAFRTIQESGLGSVGKVAASMRSTSLITKLSTEDLMKAFNSGLFGGTLLSVAFGATTLPAFAAVTLGYTSFKWGLSYLENIDPKFLIIDTALGKVGVGTATKFLGESMNPAILLAVVSGYFLGPVAGIAIGATGGIGWAIFKRVSEKSFIADTFGKAGEFLGSKVMEPFFILQLDTSITSPSFWEALLGEKGGMAFLNSAMTSIFGGMAISSIALSVGSSVVAAVSIAGLSFALPEIAVTLLGAGIVVVGGVILNQVVNWIFGHGIMYYIGDFFKSAINTVWSWFSKAAVPASLGLDIFIGIILLFFKTEFDIDDFLKTIFIMVIGWSLAGSLIGANTASGATNNNTSSTVSTSTPATVALNTSPYTGKILNIDTTNPVSMIVTLKTGSNTVQFSSNNPSLYTGETLYKGEYLGN;locus_tag=LOCUS_2090;note=MGA_210
sequence01	MetaGeneAnnotator	CDS	221873	222541	.	-	0	ID=MGA_211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILRDFYNKNFGYNFYLFSEFIKAFGDIDSFNSLFSLKKEDFILSFDDINEPLYDYLYGAIEDIVLRENKESYNYSFLYEFFDKDFLDLFLSEEGEKLILSKNIYNTQNIPISIETDANLSKDNFLDISYIPNITKDENFLYLDRYKGLSGFKYIKDIVILNKIRDFFNFEGASSFFYNLQEESNVFKMFNVIEKGLFREEDLSLFYSNQTIYENVYNYING;locus_tag=LOCUS_2100;note=MGA_211
sequence01	MetaGeneAnnotator	CDS	222544	224097	.	-	0	ID=MGA_212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKINKYYKNILKEKKLKFSIFLLKSKIISKKLSLYKTEAVEILENSTHSNLRQKSSINIKSIPIFLVILGVLFAGQMFAQTTTSSQQTTLNQCAPVNGSGLSVWESCGFTPSLFQSGAIAILGNYTQASSSSTTGYNYTGGYGAFGEANSLVSSMYTTQPESGVGYFAYLYKRSGLTSSTYAASQLSGPVYGFSFLSPVYNIWTVSRNISYLLLILIILFTGIMIIVGGKVGGQVPITFMSALPNIMAAIVLITFSYAIGGFMIDLMNILLGLIYSIFTSLNTGSFNFPTAFSSRSYIFSVYGAVTGNNMKTALQGTGSVINNLPDGTGGVHYIFSAIGGIIHNGGAADSIIVFIVAVILLFTVFKIIIQLLKGYLIFLFLPIAAPFMFLLGSVPGQSKATWSFFKGMSKAILIYVVTYTMFNLIYYLQNSITGLSNGNTLPLLGLGSIFSSQQGNTIGLLISIALFVMIPKIIADATKALGYDFSSYATELKRGFAQPYSSLRKWTGNARKSLGS;locus_tag=LOCUS_2110;note=MGA_212
sequence01	MetaGeneAnnotator	CDS	224149	224808	.	-	0	ID=MGA_213;product=tRNA (guanosine(37)-N1)-methyltransferase TrmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583884.1;translation=MKFNTFSLYPELLLNAEGFGIIGNAIKNNIIQIDNLNLRDFSFDKRGSLDSPPYGGGAGMVLRVDVLFKALSSIKEDTYSIMLSASGKKYSQKKAKELSLKKNITIFSGKYEGFDERFLNFVDEEISLGDFVLSSGDFPTLCLIDSITRLLPGVLGNKDSLESESFENDLLEYPQYTRPEVFLEKKVPKILLSGNHKKIEEYRYKESLKKTNKNRKDLL;locus_tag=LOCUS_2120;gene=trmD;EC_number=2.1.1.228;note=WP_012583884.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Dictyoglomus turgidum) [pid:45.5%25%2C q_cov:100.0%25%2C s_cov:89.8%25%2C Eval:2.1e-51],MGA_213
sequence01	MetaGeneAnnotator	CDS	224809	225132	.	-	0	ID=MGA_214;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003855302.1;translation=MAHTVLDSQTFKSEVLDEKEKLVIVDFWADWCMPCHMISPIIEELSEEFKDKVKVCKLDVDASTDIASQYNIMSIPNIVFFKEGKEVSRLIGVRPKEEFVKQIESLI;locus_tag=LOCUS_2130;gene=trxA;note=WP_003855302.1 thioredoxin (Corynebacterium) [pid:50.0%25%2C q_cov:89.7%25%2C s_cov:88.8%25%2C Eval:5.3e-23],MGA_214
sequence01	MetaGeneAnnotator	CDS	225224	225790	.	-	0	ID=MGA_215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFNNKGFTLIEILIVIVIIAILALVVFVALNPVGRIADSNNTTMTSNIQQIFKSIQQYTVDNKGALPTLPQLTSPAIVTSGTAYGYDIQGNTTGTPSCATTTTGTLPTQVATVVVSGADSCETLAAFETAVPTMKNYLTSNPGVGGNVNYYVAENASGTKVLVFATGMQKGATTNTTGYPIAYEYN;locus_tag=LOCUS_2140;note=MGA_215
sequence01	MetaGeneAnnotator	CDS	225853	226383	.	-	0	ID=MGA_216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKKLNISDILILLITIALFVLIVFFEINPVKAVSDTYNTQRENGVETLLTAIEDYSLQNHGMLPPSIPAISSPLILNNISTSGIGSGFNINNNTQGIPNCIQAGAKENMCLNISMNTPIYFEIQKYLNKNLPQGDFYVAKNIYGTKVVVFSNDLGKGKSVDKKGFSVAYSEYNF;locus_tag=LOCUS_2150;note=MGA_216
sequence01	MetaGeneAnnotator	CDS	226514	227848	.	+	0	ID=MGA_217;product=chromosomal replication initiator protein DnaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003242674.1;translation=MQNNINAIWKIASSQIKIKITDKNFKIWFGKVKLDSIDKNIATISSQNSFTSDYIQKNYFNITKNALKDAYGEDLDIVFKTRQEDIKIEDEPIFYSNESIKNDINSNLNPKYTLDSFIVGSSNRLAHAASLAIVDSPGILYNPFFIYGGVGLGKTHLMQAIGNELIKRNPDIKISYMSSETLLNDFINSIVKGKNENFRKKYRENDILIIDDIQFISGKKGIQEEFFHTFNTLQQSNKQIILASDRHPKDIENLEERLVSRFEGGMVADISNPDEEMRIAILRKKCEEKNLVLEEDIINMIAENIKSNIRELEGVLTKIIATEKVLNKKLNKDEISNLIGINIKRRSKILKPKDIIINVCEQFGISQREIIGDRRTNRIALPRQIAMYILRKDLNLPLVEVANILKRKDHTTVLHAVDKIEDLIDNDVYLKDKISSIRSSLQRY;locus_tag=LOCUS_2160;gene=dnaA;note=WP_003242674.1 chromosomal replication initiator protein DnaA (Bacillus) [pid:42.8%25%2C q_cov:98.9%25%2C s_cov:99.6%25%2C Eval:1.6e-99],MGA_217
sequence01	MetaGeneAnnotator	CDS	228158	229294	.	+	0	ID=MGA_218;product=DNA polymerase III subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001831813.1;translation=MDINIIRENFIELLNFNIKTYTSKVSIPILSNVYIEARNGKLILKSTNLENSVISFCGVEIIKEGETTVNIKNIYDFVTNLKSEIINIKFENNTLTISDSLNKISLNTIPADEFPDIPDNDSDLLFKVPAYDFSYALDKVTFATSTDLSKLVLSGVFFEIKDNFLKLIGINGFRFSSFNIKGLKNIKKDIIDNIIVPSSSLDNISKIIKDLGLDNDSFVSVYLVGKNNQLIFEIDNVKFLVRLIEGKYPDYNKIFPEDYECSFSLNVEEFKDVIKLSSIFKLKDISRIYIEIDPKENVIKFQSSLKEVGESISIIKTKIKGVKSTVSFNSKYIMDLLNNYEAEDIEISINSSSLKKVSKFNEKKNDDFVYLVMPLLER;locus_tag=LOCUS_2170;gene=dnaN;EC_number=2.7.7.7;note=WP_001831813.1 DNA polymerase III subunit beta (Staphylococcus) [pid:24.4%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:5.0e-32],MGA_218
sequence01	MetaGeneAnnotator	CDS	229297	229581	.	-	0	ID=MGA_219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKISISKISLNKIQSKIEIRDIVYDSLDSVLSINSKKYIKFIDLKDNIIILKVKNSNVSQEILLTKNILIKKIIKKYKENNIIDINIKVGSF;locus_tag=LOCUS_2180;note=MGA_219
sequence01	MetaGeneAnnotator	CDS	229574	229939	.	-	0	ID=MGA_220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNKNNPDIKEILDIIPSYCEKCGAFHDKNLVELIDKNENVTIAYIRCENCLNKNIIYIVKPLNNMVNRFRLSVDLDDSEIKKFAGKESVSSDDVLNIFKLTKMENFNKAKDFIKKISNA;locus_tag=LOCUS_2190;note=MGA_220
sequence01	MetaGeneAnnotator	CDS	229958	231067	.	-	0	ID=MGA_221;product=MraY family glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356585.1;translation=MNNSLIVYLKYISFLPIFLESFLISFLLTPLIGYFSKKFKVYDLPQGLRLDSTAKRRIHQDPKLKLGGIAVIFPFIFLILFFLKINYHLLFFIIGVSVLFLGGIIDDIFDISAKLQLIIQIIATLIVTLSGLDIYYISKPLYGIFSLNQIPFNFLGVHLYFVSFFLSIIWILIIINAVKWMAGTDGLAEGNLSIIAIIIGLLSIRFQTYDTAFMGFIFAGLLIGFLFYNFYPSKIFSGASGKSVYGFIIAILSIYSGAKLASTMMVLSIPVIDSFWVIISRIIEEKPKTLLGLININDKRHLHHRLLDLGFSQKKVAFIEYLFTAVIGIIALIITGFHKAIILGFTILIVFLIIAFITNISKKKKTLLT;locus_tag=LOCUS_2200;note=WP_003356585.1 MraY family glycosyltransferase (Clostridium botulinum) [pid:30.4%25%2C q_cov:91.6%25%2C s_cov:94.5%25%2C Eval:3.5e-38],MGA_221
sequence01	MetaGeneAnnotator	CDS	231629	233617	.	-	0	ID=MGA_222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNNFFTKNLPTSLIFNGLNFLGEKLTEEILLGGGNVLLIDSITRKNIENIKKIKSIKDKNIKGEVKILDVLSNIDILDILKKLNSLNFSLFLGNFEYKEEINVQKNLELLDIFFKISKFYSANIGVVLNLSKEKSKYFLEYTESIEKKTLKEKEGSKVSLIKVGEVYGERLDNFIKTPINEIIESIKEKEKISINKENSFFHYIYLEDILFGIANILFSDKEGEFVLANKEDISNISLAFRISDITGFPITHKESREERLEDRIKNSINVYEEWTPKTSLEEGLKKTLDYKLIDVLKKPKVLIQTKNIINIPQNQDKDEKEIVKKESLSKLDISNFDNIKKNYLIDYDTKKKKLKKRKPLFSIIIIILLICIGFYTYTIYKDYKYIENNTVYEMSLIQNHNYNKAININSKISTKDSQILYLTSFLSPVLKNVYFYENKMVLFKYYQEENGYIKDTIQTAITYKSLIENIGKSKKIYINNFYYNKNINLLNKTKLIKTSLLKTFYNNLINIETENINIYQTFYNNESILKNIISGKKSYMIAYYNKKNKNNSLNIVSYDFISLDKGQIIKNIYTNNPGDLNLSTTKNSLSSQALVINSLTESAFHIKNNGVIYVNINIFNKLQKLVNTPNIINGFITSKNKLFLYNIIYNSNNTYTYFYN;locus_tag=LOCUS_2210;note=MGA_222
sequence01	MetaGeneAnnotator	CDS	233774	234496	.	+	0	ID=MGA_223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPRQAKILEYVILEYMETAQAVGSVSMSRKYRVDASPATIRNEMANLIDLGFLSKEHFSSGRIPTTVGFRYYLENFLREEDLNYLDEMAIKEALHESRFQREKILKTAVEILSKHLEYTAIALASGSLYYSGISDILNYPEFEDLATLKNIISVIENADILDSIFEKGNKYEGGVKILIGEETGFNSFSSCAIAYKGFRLHRGEQGYLAVIGPFRMNYNKVLPFLNYTADILEEVTSGW;locus_tag=LOCUS_2220;note=WP_000954941.1 heat-inducible transcriptional repressor HrcA (Bacillus cereus) [pid:41.9%25%2C q_cov:51.7%25%2C s_cov:36.7%25%2C Eval:2.6e-21%2C partial hit],MGA_223
sequence01	MetaGeneAnnotator	CDS	234520	235047	.	+	0	ID=MGA_224;product=nucleotide exchange factor GrpE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582443.1;translation=MATKKTKEPKIKIEEEVIKELDSRDKEIEDLIKTKDDLENKLKNALSDYQNFKRRIETEKENNADVLNNLLLRDFINMSDNLYLYIKHIEKTIKDENILMGINMIYEESLNVIKAQGVTLSSVKEGDTFSPLLHEVVGTVAGEDENKIREVVRVGYEKDGKVIRPARVIVEKKEN;locus_tag=LOCUS_2230;gene=grpE;note=WP_012582443.1 nucleotide exchange factor GrpE (Dictyoglomus turgidum) [pid:31.9%25%2C q_cov:92.0%25%2C s_cov:91.4%25%2C Eval:2.8e-17],MGA_224
sequence01	MetaGeneAnnotator	CDS	235072	236985	.	+	0	ID=MGA_225;product=molecular chaperone DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_024502156.1;translation=MSKILGIDLGTTNSAMSFMEGGNPTVITNSEGARTTPSVIAILPDKSRAVGITAKNQMVLNPKQTFYSIKRLIGRSFDDEEVQRDLKVFPFELRKSSGGGIEVQFGDEWLAPEALSALVLSKLKTDAEAFLGEKITEAVITVPAYFDDSQRQATKNAGKIAGLDVKRIINEPTAAALAYGFDKKGEKTIVVYDLGGGTFDVSILELGDGIFEVISTNGDTHLGGDDFDRRIIDYIAEEFQKTNGIDLRSDSAALQRLKEASEKAKIELSSTNQTQINIPFITADATGPKHLNMSITRAQLENLVKDLVDETMTPVKKALEDAKKKVGDIDEIILVGGMTRMPAISDAVKNFFNKEPNKSVNPDEVVAIGAAVQGGVLAGDVRDVTLLDVTPLSLGLETLGGVSTRIIDRNSTIPIQKQQVFTTAADNQTSVEIHILQGEREFAKDNKTLGRFILDGVAPAKRGIPQIEVSFDIDANGILKVSATDKATGKQQHITITANTSLSDDEVERLVKEAKENEEEDKKKKELIDLKNTSETVAFSAETFLTENKDKIPEDKKTLLEEKISALKEVSSKEDVSKEDLEKAMNELESTMQEIGTSMNQGGSNTEGDTSGGTTNEEGGNSEETPPTDEPKEGEVL;locus_tag=LOCUS_2240;gene=dnaK;note=WP_024502156.1 molecular chaperone DnaK (Mesorhizobium) [pid:57.6%25%2C q_cov:94.0%25%2C s_cov:93.6%25%2C Eval:3.0e-198],MGA_225
sequence01	MetaGeneAnnotator	CDS	237166	237372	.	-	0	ID=MGA_226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINYQHIKYLNLDEILPEEEKVKFLSDLEIITDNNEDFSIRVLTSQTKIKKFTKLKSQKLKTFLENKI;locus_tag=LOCUS_2250;note=MGA_226
sequence01	MetaGeneAnnotator	CDS	237526	238461	.	+	0	ID=MGA_227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKDLTTDLNRTDINNPNDIYKKNSKLNENLDFKNLSSFLYLLGGILLILGILVLIINIVINYQSAWIYLSMGIILSIILYFLYWYLKKRVKVDVAYILLLASYLANYISVTYLTQLAYVNGYSSSMRNSFFFFMLAVAGLFYYQTPLIIGFSSFYFAISIYNLVSPGAVSYLNNVILILGLLYIFISNFLDKKFTKDYSSWILLAGSYLYFYGLYSMFGLNNINGVIFLILITLLVAYGYYKNRIVPIVFGFIGDFIYMATLLYTSYTNLLYLMLIIVLLGIILILSSFVIKKYSLLSFNKEDRGSVFM;locus_tag=LOCUS_2260;note=MGA_227
sequence01	MetaGeneAnnotator	CDS	238540	239166	.	+	0	ID=MGA_228;product=cyclase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_157860337.1;translation=MKFYDISYTLSNNTPIYPGNPDFNIERFLEIPKDQSNVSLVSFGTHTATHIDAPFHVNNEGQTIDKINIERFFGKCNVLDISFSKNKITREDLEKYEIKNDFLLIKTNNSNIGFDEFHEDFIYLDLSAAEYIKEKGIKFIGVDGPSVKKFHEKDLIHEFFFKNDIIIAENLKLKDVSEGEYLFVGFPLKIAGADASPARIILVENYYE;locus_tag=LOCUS_2270;note=WP_157860337.1 cyclase family protein (Methanosarcina acetivorans) [pid:38.1%25%2C q_cov:96.6%25%2C s_cov:93.5%25%2C Eval:1.3e-36],MGA_228
sequence01	MetaGeneAnnotator	CDS	239159	240091	.	+	0	ID=MGA_229;product=decarboxylating 6-phosphogluconate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002321675.1;translation=MNKKIAIIGLGKMGLNLGLNLKDKSIDVFGFTDTQEGIDFARKSNFLTFNTIDETIQNFGEEKRIFWLMVPSGAVDDVLFSDKEGLVNKLKAGDIIIDGGNSYYKKSIERYNKLKERGINFLDCGTSGGVMGARNGACLMIGGDREVFSEIEWVFSSVAQTEGYSYIGGAGAGHYVKMIHNAIEYGMLQSIAEGVNLAKNGKYKEVDMNSLLKVWNHGSIVESYLTKVLEKQLEIYPNLDEIEPIVEDNGEGAWTINEAIEEKIPLSSISISLFERYSSRGNDDFGNKLISLMRNGFGGHEMKETNISKK;locus_tag=LOCUS_2280;gene=gnd;note=WP_002321675.1 decarboxylating 6-phosphogluconate dehydrogenase (Enterococcus) [pid:45.7%25%2C q_cov:94.5%25%2C s_cov:81.1%25%2C Eval:8.4e-72],MGA_229
sequence01	MetaGeneAnnotator	CDS	240094	240756	.	+	0	ID=MGA_230;product=fructose-6-phosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083013.1;translation=MKIFIDSANIDEIKKLEELGVIDGITTNPTLASVTGKNFKELIKEIFETLSSDKIINLEVIATDYDNILIQARALSALDKRVVVKIPCIPEGLKACKVLTAEGIRINITLVFSPLQALLCANAGAFFVSPFVGRLDDISMDGVEVVKEIVEIYKKYNYKTQVLFASVRSVEHIRVAALAGVDVITSPYEFIMDMYKHPLTDKGLEKFLSDWNNAGEEFIV;locus_tag=LOCUS_2290;gene=fsa;note=WP_004083013.1 fructose-6-phosphate aldolase (Thermotoga) [pid:50.2%25%2C q_cov:95.9%25%2C s_cov:95.9%25%2C Eval:1.2e-59],MGA_230
sequence01	MetaGeneAnnotator	CDS	240753	241181	.	+	0	ID=MGA_231;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010874952.1;translation=MSIYISSDHRGFDLKTEIVKYLESFKLIDLGPEKYNKDDDYPLFAHLLANKVSENVDNRGILICDTGIGMDITANKHKGIRAAICIDEFFAYRARLHNNANVLVLSAEYNKDNYKGVIDKFFSTDFSSEERHKRRVDEIDIL;locus_tag=LOCUS_2300;gene=rpiB;EC_number=5.3.1.6;note=WP_010874952.1 ribose 5-phosphate isomerase B (Mycoplasmoides pneumoniae) [pid:46.1%25%2C q_cov:96.5%25%2C s_cov:91.4%25%2C Eval:2.1e-25],MGA_231
sequence01	MetaGeneAnnotator	CDS	241178	241780	.	+	0	ID=MGA_232;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902077.1;translation=MILPAILEQDRESFEISLNKVKDDFNYIHVDILDSSLVPEKSLPLKDIKIEEGIQYEFHLMVEKPSLYIQELEKLNPFRVIIHQESKEILNEYPLFIEKFNTFLGIDLDTNINKDLSKYFEGCLLMSVKMGKSGRLFDERVLKKIKEASSYFDLIEVDGGINKNNVVLCKSFGASIFAIHSGIYEGDLKKNIETLKTLVE;locus_tag=LOCUS_2310;gene=rpe;EC_number=5.1.3.1;note=WP_005902077.1 ribulose-phosphate 3-epimerase (Fusobacterium nucleatum) [pid:31.7%25%2C q_cov:97.5%25%2C s_cov:95.3%25%2C Eval:6.0e-20],MGA_232
sequence01	MetaGeneAnnotator	CDS	241869	242120	.	+	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYNSCGYNFLTPIEGIFILFGWIIFVVFIIMIFRYIKGGHKSLYHHSIFSTKEDPIDILKVRYAKGEITKEEYLDIIKILEK;locus_tag=LOCUS_2320;note=MGA_233
sequence01	MetaGeneAnnotator	CDS	242117	242407	.	+	0	ID=MGA_234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMPARDINNKIIFGVCAGLSEYYNVDVVIMRVIFLIGFLFMGITLVIYLILALIMPIDTSVNFKNEKSPLQILKERLARGEITKEQFKEMKEILDS;locus_tag=LOCUS_2330;note=WP_002673411.1 PspC domain-containing protein (Treponema) [pid:45.0%25%2C q_cov:62.5%25%2C s_cov:77.9%25%2C Eval:9.7e-09%2C partial hit],MGA_234
sequence01	DFAST	assembly_gap	242617	242625	.	+	.	ID=GAP_2;estimated_length=known;gap_type=within scaffold;linkage_evidence=paired-ends;note=GAP_2
sequence01	MetaGeneAnnotator	CDS	242626	243684	.	-	0	ID=MGA_235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEILENQNRENDLLIAFESYESAKNHKRDLGDTVIEVALGYRRKEHPFLKNYLDNVDITDKDRDIINDPYKMKQLLQSEHDIFKNLHIIFSNAMPLETQDSIKRKTSKFFRKNFMEGAPPNLEYTGLNINNRDPLNINGRSDPEFRFNLKIQSQLIGGFIMGYSDERVKEKLSHTDRPKSQRIYLNPDPMFASQIFSEILKMSNEKGLSLQTKIWQRYIEFSNLKDLDRSECRGDGIIVFTSEKDFNKVLSFTLDIARKNPEYFKGRMVSKIPQPVAEGISIGDEPLDPGYSLTSSRAELLEKTAQEVLLAKKNIHVMGERSLNTKQLFKYFLKENCKKMSINPSNLAFNS;locus_tag=LOCUS_2340;note=MGA_235
sequence01	MetaGeneAnnotator	CDS	243855	245249	.	-	0	ID=MGA_236;product=glucose-6-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002656376.1;translation=MKDNCNKVLNKNIEIIIFGATGDLAHKKLFPSISNLFKDFKYKDKFNILALGRNEETTSDFTQRFNDTIDKENREQFYSKIEYFVCDFLKKEDLEKLKIRLDKTCSSKILYLAIPPSLYEAVILNIEEVGLNKPCSNHNNFIRIVLEKPFGENLKTSKSLNKTLLSGFSENQIFRIDHYLGKEPIQNIFSFRFANNIFENLWNNNYIDNIQIKVSEDIGIETRGFFYEQTGALVDVFQNHILQMLSVLTMDTPYLFEEKYIRKEKNNILKKLTFSDVIKGQYIGYKEENNVSPDSLTETYIALKLEIKNSRWRNVPIYIETGKFLKEKKTEISVVFKKGNNNLFKKNGHNVLKFLIQPALGIGLTMLAKIPSIYDYEVSNINMLYNFSDYFGEVKSEYEKLLIDCIEGNQINFTRSDEIESSWILVDKIKTDIKNKKPILYKKGSLGPTERDMFLKKDNRYWIS;locus_tag=LOCUS_2350;gene=zwf;note=WP_002656376.1 glucose-6-phosphate dehydrogenase (Borreliella burgdorferi) [pid:39.3%25%2C q_cov:97.2%25%2C s_cov:97.9%25%2C Eval:6.3e-83],MGA_236
sequence01	MetaGeneAnnotator	CDS	245239	246540	.	-	0	ID=MGA_237;product=glucose-6-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081585.1;translation=MLKYDSTNMFSPQIGELSIKKEDLFLFKNSLFDKNLLTFRNLIFNDTENIKSIAKNIISKYKNYVVVGIGGSDLGSRTIQQSFKSISGVNVLFIGANTDPNEIEDFFKKIDIKDTLFNVISKSGETIEIIANFLYITEVIENKKEKVSDHIVITTSTKNTTLESLAKNYGIDILEGDASVGDRFSVLSIIGLLTAAVMGLDIDKFLEGAVYIDKITNSEDPFSNEVLMFAELQYLSYKNFNKNISILMPYSKKLERFGFWYRQLVAESLGKKVSKQGKNIFAGITPIASLGSTDQHSQIQLYNEGPNDKIITFIIPSDFESDIKINTEIENVKYLNGLKFEDLIKKEFLATSISLKENNRSHGTIHIDKIDEFNIGALFYFFELSTAYLGEMLNIDTFDQPGVEKGKEYMYALLGKKGFEEQKKHLSKYIDER;locus_tag=LOCUS_2360;note=WP_004081585.1 glucose-6-phosphate isomerase (Thermotoga) [pid:37.4%25%2C q_cov:99.1%25%2C s_cov:98.9%25%2C Eval:7.6e-75],MGA_237
sequence01	MetaGeneAnnotator	CDS	246636	247259	.	+	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFERSNSQEELLFLKSAEDLLARRVGFLETDFEGIFSNFSENSELIIDTEEVSTHISSVAYDKIKVRRISFTDLFGQKISIGKIDYLDKRKKQPLLVEYSMLDNVLDENMQSLGMDVNVRMQGSKKYSYTSSEIEKDGEFYIFNHSKEKFINTIGRSDIRRERISDKFEIIEVCEKNILNLKKNLEKRNVNSKISFRKITNGKPRK;locus_tag=LOCUS_2370;note=MGA_238
sequence01	MetaGeneAnnotator	CDS	247240	247686	.	+	0	ID=MGA_239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESQENRNYLENEKESVIREYKDVSSKFTSFINNFEGKNSTFYLENRNQELSFFDHQNILALQVFSQISGNITTFLVESENNFFEIYITRLLENETFIYFSINERGKLEMVIESPKVKVTRSTLKKTDINLIRSALGFFLEIKRSIEK;locus_tag=LOCUS_2380;note=MGA_239
sequence01	MetaGeneAnnotator	CDS	247733	248602	.	-	0	ID=MGA_240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEENVQDIQPQNNVEKTNSKFPTLLVTSLIVIIALLLLLILYLFFVNNKSTNNSSKQSTNIQKIKTSTTKNLNSNNTCKTEGTATSAMFPINLYPNQPSQNTLLQDQNTASKNWESDAYLITSIVFEGITAGPNPHGAYIYASGCTKDFLVYYGSGSGPYTSPTTNQSYDKPVIVNNFTNFVIPFNFSQLPYNTILPLSEAKNFPSFVTPHKNGPIIYNNTNYSNPSSTANNITISNKSFYAQQYTVQVNNSKKLGIFYDVMFYNTNNNNLVALATISSTGTLLTLKLY;locus_tag=LOCUS_2390;note=MGA_240
sequence01	MetaGeneAnnotator	CDS	248716	248898	.	+	0	ID=MGA_241;product=50S ribosomal protein L34;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002557032.1;translation=MKRTYQPKKLKTLRKFGFMERSSSHGGRNVLKRRRLKGRVNLTISDIFRKIGKKPRNKVR;locus_tag=LOCUS_2400;gene=rpmH;note=WP_002557032.1 50S ribosomal protein L34 (Borreliella) [pid:58.0%25%2C q_cov:83.3%25%2C s_cov:98.0%25%2C Eval:9.0e-10],MGA_241
sequence01	MetaGeneAnnotator	CDS	248899	249237	.	+	0	ID=MGA_242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPSKYRLRSNYNKIYKDKSKIHDEYFILFYKENLLNNSRFGFVIRKRLGKAHLRNLVKRRFRYIVNENLGIIKEGYDFIFLINPNLKNWEDITYLDIKKHVLNTLEKINNI;locus_tag=LOCUS_2410;note=MGA_242
sequence01	MetaGeneAnnotator	CDS	249234	250076	.	+	0	ID=MGA_243;product=YidC/Oxa1 family membrane protein insertase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011462332.1;translation=MNIFSQIASPLIFIWNTILFNPIINIFVFFYKISGSNLGLAIIIITVLLRLLLWPLLKSQLQSSRNMQKMQPKLASINKKYAGDVVKLREEQMKIFKEEGVNPLGSCLSLLVQLPILWGVYEAIIVMSNHTAAYLNKIMYFSFLKYPALYHYNLSFLNINMGKDAMEIGIFSVGALSYIILSLLVAFSQYLVSKVSLPQTTNEIIEEKTELELQSKDKKALDVDPAQFGNIMSKQILYVMPVLLLLISLGILGPIPAALSLYWAVQSIVIYLQTILFMKK;locus_tag=LOCUS_2420;note=WP_011462332.1 YidC/Oxa1 family membrane protein insertase (Desulfitobacterium) [pid:26.4%25%2C q_cov:81.1%25%2C s_cov:77.9%25%2C Eval:4.7e-15],MGA_243
sequence01	MetaGeneAnnotator	CDS	250063	250788	.	-	0	ID=MGA_244;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_011166215.1;translation=MYFNTPQKKLGQNFLKNKKYAHSLIKYIQPEENIIEIGPGKGFITEEILKKTKNLICIEKDPVLSYSLKEKFDNLNIINKDVLSIDLKDIPFDKFTIVSALPYNISKNIISKFLKDEIRASNIYVILQKEVAQKYTTPGDLLFNTVSIYSTSVERGDVIDNKNFYPSPKVQSQIIYIKQIKTFNKEDVNLENFIKKGYIQPRKKLKNNLKLYNIEGYEDKRAHELNLEEWINLFRKNTISS;locus_tag=LOCUS_2430;gene=rsmA;EC_number=2.1.1.182;note=WP_011166215.1 16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA (Mycoplasma mycoides) [pid:32.0%25%2C q_cov:94.6%25%2C s_cov:95.9%25%2C Eval:8.3e-23],MGA_244
sequence01	MetaGeneAnnotator	CDS	250778	251050	.	-	0	ID=MGA_245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTKTHTDNTFLKTHIIEIIELLLILIFLMINIIIIDTYFSENTTLNTNITPITNVNTQEYQQIKSIIQKKYIYNAQSYVPQIVTNNVF;locus_tag=LOCUS_2440;note=MGA_245
sequence01	MetaGeneAnnotator	CDS	251050	251604	.	-	0	ID=MGA_246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQIKQYKNIILYTIFTIVVLYLLYFIYGMYSSVQTQQTTLNGQLQSLKQKNLEEENLLSEKNNYTSKINFLYNSLISQNSITLWVAQENEIAQLSGLSGNNIVFSNATVTSKAIKIVSPTSSSTTSNTLLVNISIIGNFESTLEFLTMIENSYYATNITGVNIALQKGTTVLNTGITLDLYIQ;locus_tag=LOCUS_2450;note=MGA_246
sequence01	MetaGeneAnnotator	CDS	251591	253195	.	-	0	ID=MGA_247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNFLKNILKKVNVFSIDISPGSVKILEYEKNKKDSFQLKNISETEMPASTFIAGVIRQPNVVAETLKTLLEAKNPKKIKTRFVVVTMPDDQIYSQIFSLPKVEKNKIKKAIEFQITSLIPMQEKDIYWTFNILSENEDSYEIIVTAVSKESADSFIETLKIVNLTPLLFENRAQSSLRAITLGKDQEEEYLLLDMGKSLTSISINKKDAIQFSTSFYFGLNQISKTIGEYKKLEDEAIQTFLQKNGIDIKDEELKKHIDILFTQLFQELSKAINFYGSDKIKKIYIYGETASIKGVLEKIEKEVKIPVEKAKSNIRLYPIPQWEKHEQISAYIPLIGIELVNKVKKYSYMNLLPQKQKKSSILKYLVQFSFSSLKIILINILFIIGIFIFLIVVNNIEITGIKKQIHIYQSQVNNPKYVGLTQDITNLNTNLLTLKKTYTAQNKWSQVITQIANLVPPGITLNQLQILNAGVGSSVKWQVNLQGFAQNSKELLILENNILGTKDFSNVIMPISNFQNTFNTGFKMTFNYNATN;locus_tag=LOCUS_2460;note=MGA_247
sequence01	MetaGeneAnnotator	CDS	253224	254627	.	-	0	ID=MGA_248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLQQLKEDNKGQALLIAVIVVTAILLTVVTTILSIATSEYSLSQNDILESQIKALSESGLENALLQIGEQGQSYTGGTFSSPINTTINGTDTVTVTYNTSTNPVQATIVSTAEGLSPQNSQILVKRTIQVVAQLGQNPPILNYSLFANDTIMGGFFQVNGDIQSNNELQFYDANFNSNNINSVGIGGGFGDYFYQVNNTPTSSIINLQSNFITGIIVNSDLPGELSCQNSFWGFNSCIITNSTIGSQVNLSPPAQINLPVFNMSSWENTAQTNNTYYTSSPSFVSFLFNHESINTTTQTDTISPPAGVYYIDSNLNLPTTDSAGNTITYNFTNSSIIVKNKFQTNASFIDTSPYSPSANEYLPPLIAGNQGIYIGSGGNLNLNVTGIIYSPGNIYINNDTDDSGDGTTNVSGALWAGGNIFINNSVYDSNSPSSTQITLNSNIINETTGFNFVLGTTTVISWNEIN;locus_tag=LOCUS_2470;note=MGA_248
sequence01	MetaGeneAnnotator	CDS	254596	255090	.	-	0	ID=MGA_249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKGQTLIETLLYVLISGVVILTITVIIVDMILTENKVSTIANANDTIRISMKEITQNIESAYEVVSPNPSSPTSTKLTIQTDSSGDTISFFSQNGNIYSQYNDNSPSQISSSNVYTYSLTFTEEANTGLSPTIFISITEKNFGLTGVSTTKTYETTATQRRQ;locus_tag=LOCUS_2480;note=MGA_249
sequence01	MetaGeneAnnotator	CDS	255092	255580	.	-	0	ID=MGA_250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELFTNKKGQAFIELLLSLTIIGIIFGSSLIATQDILKTIEISKQKLEAKYLLQQQLESLYALQNQSFSDLQTGTYYLKYNSTNSPPHTLQGWELVPGTEVYNEYTISINIDNAYRSSQNSYATSGTISTNSVEVTANVSFISYGENFSYSESEYLTNWQAY;locus_tag=LOCUS_2490;note=MGA_250
sequence01	MetaGeneAnnotator	CDS	255564	256013	.	-	0	ID=MGA_251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKNKGFTLIEILITMAILLTIVSMVSISYISFLNRSNVNSANQTIYSLIKQAQDNAINNLDNYSQYGVYFQNNQVTEFPGNTYSSTNSLNNSYTLPPGVSISNLSPTDNNPIIFNNVTGQLTNNGISFTLGGNFYSINLNINNNGAVY;locus_tag=LOCUS_2500;note=MGA_251
sequence01	MetaGeneAnnotator	CDS	256015	257250	.	-	0	ID=MGA_252;product=type II secretion system F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942139.1;translation=MAEFKYEATNNSGDIEKGSISSNSRDEAIEIIKSQNLSIISLEEGKESSKNLSKGKVKLVEKLLFFDHMGKMINAGLSLSETLESLVQDAQTPVFKKIIEDLRFNVESGNKLSDSMRKYPKIFTPLISKMIEIGETSGTLTENTQLIKDQIEKSYLLRKKVVGALMYPAIIVSIMLIVGVGLIVFVFPQLQSMFKGSGQTLPLPTQIMLGLSNLLTNYGIEVLIVLIIFVFIMKFLLKLPQAKYLWNILSVKIPIAGDIIKKINVTNFTRTLGNLLKSGIPINQGILIVKDTVSNEAYKRIIDELSTSVERGEIMSLTLEKYPKFFPSLATRMIAVGDKTGNTSEMLLSVSEFYQNQIDDTLANLSVIIEPLMLFVMGGGVLLIALSVIAPIYQMTGSIGTTPGTSVAGSK;locus_tag=LOCUS_2510;note=WP_010942139.1 type II secretion system F family protein (Geobacter sulfurreducens) [pid:29.4%25%2C q_cov:97.3%25%2C s_cov:99.8%25%2C Eval:1.2e-53],MGA_252
sequence01	MetaGeneAnnotator	CDS	257304	257912	.	+	0	ID=MGA_253;product=GGDEF domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_132526397.1;translation=MGEEIKYTDTPLLERRILELESQNSKLSEENEFLKSYNESLTSRLEREIRNNHIDTLTGLYNRCFLESQKERLNILSFGGILYGVVFLDINGLKEINDTKGHKEGDILIKKIAQCLEETVSSRDFIIRLGGDEFLVIVNDFPPRSNEVEKDVVIDRIKEGMESRNLDISLGFAISSEGDSIDTIIDLADLRMYEDKRKIKKR;locus_tag=LOCUS_2520;note=WP_132526397.1 GGDEF domain-containing protein (Phorcysia thermohydrogeniphila) [pid:36.5%25%2C q_cov:82.2%25%2C s_cov:86.9%25%2C Eval:3.3e-21],MGA_253
sequence01	MetaGeneAnnotator	CDS	257881	259128	.	+	0	ID=MGA_254;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005786418.1;translation=MRIKEKSKKDKNILIIGSGFAGISFYKEFHKLIHERSDIKITILSENNYFLFTPLLHEVATGNLLPEDIITPIRENFFCCTREIIIDKALYIDVLKKQVKLKKTSVDYDYLVIATGASTNFFNIKGVKEYAYPLKDIHDSIRLKNGIVSLFEKAEMEKWKKIDVVLVGGGATGIELSVEISEFIEQLKPYYKNLREEDVELRVKILNASENFIPDFPQKVRKKVLSFFSNINSKVSIVLNSRVKVVEENKVILDNRKAVNYDFLVWSAGVKPIIPSNNLGIDVLKRIPVNQFLQTESENVFAIGDVAAVKNLEGGLYPQLAQIAEEEAKICALNIYNDINHKPKKPFLYNLDSLLLSLGHNNAIVYFKGILITGKSAWILWKFIYLVLMFNGRSKVMTAFNWISDQFSPRDISKI;locus_tag=LOCUS_2530;note=WP_005786418.1 NAD(P)/FAD-dependent oxidoreductase (Bacteroides fragilis) [pid:27.8%25%2C q_cov:95.9%25%2C s_cov:88.9%25%2C Eval:6.5e-44],MGA_254
sequence01	MetaGeneAnnotator	CDS	259219	260649	.	+	0	ID=MGA_255;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010948598.1;translation=MDIQLIKKTLEFYNPWWKSTQSLNEIPVFRRDIYENIFESVNDIRQIVSITGPRRVGKTTILRQLISDLIFEEKIDPLKIIYLSMDDPYIYSKSSDMEFFDNILSVYEKFILRGDLEKTKVYFFIDEVHKFKEWELFLKKYYDRGYNIKFIISGSVSHSILGKSQESLAGRIKNFKVYTFSFYEYLFYKISFDDKLDLPLKENLLKFLKNIHSLGKNIFHNTNLFVKEIEPYLLDFKFYEEEIRNYFYEYLVIGGFIESWSISGQGMRYEYLYQTQIEKVLLQDIYILEDIKNTKLLASLFFKFSENFVSEFSLNSLVKDLNLHRDTTDRYINLLIDSNLIFSLSKYEENLNKNSNIKVFLSDIGIRNSILKLNEEDIIGNKNLFLKYIENLVLLSLVRYSDSIDINYYREREKEINFILKYSSFNVALSIDGIKINKTLFNKFKFEYIFNITMEDDFSLDSNIINFPFILFFILL;locus_tag=LOCUS_2540;note=WP_010948598.1 ATP-binding protein (Legionella pneumophila) [pid:27.1%25%2C q_cov:85.5%25%2C s_cov:79.4%25%2C Eval:4.1e-29],MGA_255
sequence01	MetaGeneAnnotator	CDS	260636	262303	.	-	0	ID=MGA_256;product=type IV-A pilus assembly ATPase PilB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546881.1;translation=MDLKELLIKNKYISNEEYEKLEDKSKQIGSSIEELIIGRNIITEDKLGELVTEEFSIPHISLIHKSIDPDTVKIIPEKIAIEKKIIAFEKTPSELKIGMTNPRDINTLEFIKKGTGYIIDPYFITEKSFFEGLKMYKTSIKEELKNIIEKNEKETKGLKGEDAEALPIINITDTILEYAKTMGASDIHIEPLEEKAIIRYRIDGILHDQATYSIDIHKAVIARIKILSNLKIDEHRLPQDGRFKISIDNQFISFRISIMPVYFGEVLVARLLEDNAKSYNLEALGFRGRDLEIIKDSIKRTVGMILVTGPTGSGKSTTLYTILSQLNTPEVNLDTIEDPIEYSMPRVNQTQVNTSIGLTFASGLRSFLRQDPDIIMVGEIRDNETADISINAAMTGHLVLSTLHTNDASGAIPRLIDMQIESFLVASTLNVVIAQRLVRKLCNTCKKEYSMDSKVLKILEEQYKKKGVDKKITNTKFYQAVGCEYCTNGYKGRIGIYEILQVDDEMKSLITHKATSEEIQKMAQEKGMSLMVEDGLAKAIEGITSIEEVLRVIKE;locus_tag=LOCUS_2550;gene=pilB;note=WP_012546881.1 type IV-A pilus assembly ATPase PilB (Thermodesulfovibrio) [pid:42.0%25%2C q_cov:98.9%25%2C s_cov:97.2%25%2C Eval:1.5e-113],MGA_256
sequence01	MetaGeneAnnotator	CDS	262303	263700	.	-	0	ID=MGA_257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDKYEATTTPTPSQETLPQGVPENSFLEIQKIKEKRKRLIIISIAVFAGVLILGGALVYLITATFNKKPKEIVLTMWGIRQPQSVYSSVINQYEKSHPGVKINYIQVPSKNYESTLFQTLQKGGNTPDIVTIGNTYLPIFQKYLYPAPSNIININTFKSIFYPTAFQDLTSNGNIYALPSNYDGLSLIYNKTEFAKAGLSAPSSNINTFVSQIPKLVVKDSNGNVTQAAIDIGKSTGNINNAYNILTYLMFINNTQMIGGNQVTFANGPQAQEALNLYYQIAQTDGWSATFPNSVSAFAGGSVAMILEPSWEIQNIFILNPNINIGVMAPPQIPGQNVNLSLYFAKAVVKYSQYPQVAWNFLNYLDSQSTLTTLYNNEIKNKEVLGEVFPRTDMANLATNYKYMEPFVQMAPTSKSWEMGDYKFVDNVFNSVIEGNISLSQAQNQIFKTLASIINGVYIVPPNE;locus_tag=LOCUS_2560;note=WP_010975930.1 sugar ABC transporter substrate-binding protein (Sinorhizobium meliloti) [pid:21.7%25%2C q_cov:71.6%25%2C s_cov:80.7%25%2C Eval:3.4e-12%2C partial hit],MGA_257
sequence01	MetaGeneAnnotator	CDS	263708	264568	.	-	0	ID=MGA_258;product=UTP--glucose-1-phosphate uridylyltransferase GalU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009890959.1;translation=MNKITKAVIALAGYGTRFLPATKVQPKEMLPIINKPIIQYLVEELIDSGIKDIIMVTRGQYTLESHFDNNIDLEFHLEESGKLELLKELKDLPKKANYIYVRQKKHLPYGNGTPLLVAKNLIKDEENFIYMFGDDIVKATVPATKQLIEFSYKHPKKIILATQELPKEEIVKYSNIKFKEDGITVDQIIEKPSIENIMSSHVSFGRYILNRDVVEELDKKVLGKNNELWLIDAISKFTKQGSVLATKIEGKWLTTGDPLNFLKTTIEYAKDDPVLWRELKEYMNSI;locus_tag=LOCUS_2570;gene=galU;EC_number=2.7.7.9;note=WP_009890959.1 UTP--glucose-1-phosphate uridylyltransferase GalU (Clostridioides difficile) [pid:40.1%25%2C q_cov:97.9%25%2C s_cov:96.2%25%2C Eval:7.2e-51],MGA_258
sequence01	MetaGeneAnnotator	CDS	264666	266603	.	+	0	ID=MGA_259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGQNNEHAIPQNIMSVEFKLIGDLTIKQFVFVAIPLLLGFLMFVFKVNNYITLVFTGIFLLAALFIDFIPLDDRPLDEWIINFIIAVKNPTQRIWGKKPSYPNILRIPKAIMPKVKKNEDVATFLYQSPLDTSIQSSSGNSATKILDDKEKNFMSNIDNINDSLGDNVSINAGGRPVISPAFNIPTSNNFQNNPTKEDVSSNTNPTENVPFTTGDNSKNKDDNLLSSRIGNEDPKNFYKPEKLYTEEREEDSSDVKKTIPSVDASSMNANPFFSQDNPFGLINTGNHVNPVPQQSNESFSTVPSTPEIKDENPNLDKADKIEDTSFREGGVNILDLSSQMDSVEGITIPSVNESISNPYDNATVATPIDITKDSPPQEETVEPQISNVSENDNIAPTQIDNAPVDESINPYDNATVATPIDIAKDTPPQEEIVEPQISNVSENDNIAQTQIDNVPVDESINPYDNATVATPIDIAKDTSPQEETVEPQISNVINKSPESNNEMNEMLERLKKLEEENSSLKKALETTSSTPSPQNTNSSINSNFDINDFKKYLPEFVNNPNVIAGVLVDSQGNIIQDAVIIIKDSSQKPIRAIKSNQLGQFFIRTPLPDGNYTLEVTHPKFAFESTGVDLTGVIKEPILIYSKT;locus_tag=LOCUS_2580;note=MGA_259
sequence01	MetaGeneAnnotator	CDS	266607	267275	.	+	0	ID=MGA_260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKNTRIVATTQDHLSIEDIKDNFVVLKNGNVSVVIETSAVNFYLLSEVEQSSKIYAFAGLLNSLGFYIQVMIHTENVDISAYLKHIDEYKVKEKDPKIKYQIDIYRKFVKDLIVKNNVLDKHFYIVIPYMTQMPKKPGFIDKFMKKDSAPSFDVDQLILQASSRLLPRRDHVIRQLSRMGLKSKQLDSSDLIKLFYNIYNPANSKIRRNFDEYTSPIVSSQ;locus_tag=LOCUS_2590;note=MGA_260
sequence01	MetaGeneAnnotator	CDS	267278	269290	.	+	0	ID=MGA_261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIPQILIKKEEKTNEVQQPIQEVSPNSNIDPTSLFGMGMNSIKDIIAPSSLEVDFSYVKIGDKYYKTYFVLAYPRYVVPNWLSPLITFEHSIDISMFYYPISAAAVLSQLRKKIAEMEASTNNLIESGKVMDPNLKVALSDAKELQENLAKGSERYFHFALYVTVRADTEEELSDISKNLESTMGAMSLIIKPTTLQMEEGFLSTLPTSSDNLYYTHNMDTTSIATTFPFVSSELTSDNGVLYGINKANKSLVVFDRFELENANSVIFAKSGAGKSYLVKLEALRSLMLGTQIIIIDPESEYFTLCKALNGAYVTFSQDGNSKINPFDLSGIYEEGEDELRFKILSLHGLFKVMLGDEGGISSMENAILDKALILTYRDKGITFDPETQVKAPPLMEDLYKILLSMEEAEAHSLAQRLEKYVKGSASGIFDQQTNIDLNNNFMVFSIKDLSDELRPVAMFLMLDFIWTRVKRDLRKRIFIIDEAWMLMKYPDSAQFVYAVAKRARKYYLGLTTVSQDVDDFISNEYGKAVVTNSSIQILLRQSPTAIDHLSEVFYLSAGEKNLLLSADVGEGIFFVGTNHVAIQILSSEYENRLITTNPEEILKMQQDASSLGRIVPNNFVNSNFDSNDNTKLFQSDMINMNKEETGEVSKDEEDSTLSQNSSTEGIVN;locus_tag=LOCUS_2600;note=WP_011861114.1 ATP-binding protein (Clostridioides difficile) [pid:26.9%25%2C q_cov:83.6%25%2C s_cov:71.2%25%2C Eval:5.4e-57%2C partial hit],MGA_261
sequence01	MetaGeneAnnotator	CDS	269484	269789	.	+	0	ID=MGA_262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTKNLDNYIDQLVVDKGFDLGNVDLVKRVKDELYDLVEDAINSEIVNKLSQDKISEFEKLFNNNVSDEVVVSFLKSNIENLDQVIESVLLNFRNIYLDNN;locus_tag=LOCUS_2610;note=MGA_262
sequence01	MetaGeneAnnotator	CDS	269792	272782	.	+	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKTEEQQSLIVQEVEDSIKDFEVILSAEEIINEYLYKLSLGEEEDRGDENKVSVDEGLNETDTTKDLLIKRDENKNPKVLNEDDLLNIHIVDISDQTKRRAHDNAREQLTEEKNKLTGVGGIAKKLGRYGYFEGTTYQRYKKQALIEELLKDTDGKTAERFEAGSIRTERNTEISVKAAESEEEKTLKELIISMAKGEIEESEYIELKRKLISELFISSSLKESKNTDFEKFEDNIDKYIDQIKVLIDHGKTVEDIRDLITLNLGIAKDLSITRVEYSKTDKVLEGLKRHKIAGKLVNETVFATGGSVLGRVAFSIASSRAATIASFGGAAVVSSLLSAAKEKQRIKRDRQMQIRDYSAGRSNGLEGKRREQLQRTVYDLMPIKDSFNDLVESFDKFNKSIEGDKISFEKMLKIIGEYRARRIVSLASDIDLFIYSSSENMQEEFSDLDWYVRYVQSKMQISENQDKIKSILGVDDIDIEGLIGEQIEESVKNIEEDISQKDSIFRGVKSARIGRYVAWNLVTGLTIGALGQGVVRELMEKHEELLKNGVIKQDFLEGLLNKWNQVKIKKTTYMHSPKIALRSKGRVGEIFMNGKKIQEVKLNKNGSLTSSSIQTLQQKGIGVKTSTVYTSSGGEVMRNNSIVAGNTNVQRNLWYDNNNAQGVYTKNELGIWWGSNTGYNSKGDVVFNIASMTNKGSYQGNSSVAIQNLIEEGKMKIWITASRSTQNKAYVFNVNRNGLVNIDKNSLAYRLFSKSSTGHVKFNGAFVEAVVPQATTKLGTHIGDPVATYVGSNTANPIINKETITTLFEKPTRYIKPKTQIGWPWFIPVVGRTPLEKAEINSNQENSEIPGNSLAKSREVNDFNLIGDIGSINSSTDEDIRGLFNELYINDKEESKVSRVTKREQARYAISMIKDYFKVMSAEEIKLLNEYLKKRKMNKDKYENERKDLFSENFLLQEYDTFKSRFENDEAFRLDVLRKWAEVHLYYINNKGSI;locus_tag=LOCUS_2620;note=MGA_263
sequence01	MetaGeneAnnotator	CDS	272879	273121	.	+	0	ID=MGA_264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQIPGLNQFVNNIAGVMITTVETVLILIVIAFGIQFIMYSDNPQERSRLIRRIIWVLVGLFIVIGAQNFTTFLHAIIGG;locus_tag=LOCUS_2630;note=MGA_264
sequence01	MetaGeneAnnotator	CDS	273102	274040	.	+	0	ID=MGA_265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLLAVSLILIFLFSRPVFAQGTNSNILNCNSSISFSIDGVMCSLGYIIDQFTEFTPNILSNNGYGGSLAGIAFNQYTQGTEYIAFAIIPILIYLYILNFLGEVSLGKTGLSPQDLMYSIFMSVLILILSPYILSMLITFINVLDKFIIIHIIHSSNPSLFQTIINSMNLSNFNSGIFSGIINYILYILLIIVLFLFSFQFILRFILLWILILFFPFGVALSIYPPFGNILGSILSKIMQLLFIQPAFLIGISIFILIVNNFSINVVEKFIISIVTLFSLALIPNLLTRYLNFSFSFGQRNIRSILKYGYKR;locus_tag=LOCUS_2640;note=MGA_265
sequence01	MetaGeneAnnotator	CDS	274024	274323	.	+	0	ID=MGA_266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTKDSCKVYKIKNLHSGYINITNNVLIFLFSIIPILFIIFSPIIIQLKIFLSSFIVMTFYVLFKQEYKGNVLYLYIYFFILFMKKKKKYYFEEESIDV;locus_tag=LOCUS_2650;note=MGA_266
sequence01	MetaGeneAnnotator	CDS	274316	274834	.	+	0	ID=MGA_267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNIKNFYDILGIEEDLIILKNSVYSKIFEIFPDNFILSDIEERYSFIKKYEEFLISLKIDIQFIAINFKLPQKENLKYLSNIKDKKFNMLYKEALLNKDNEVLRNLFNQRFFLIHSVNKKRKHLDYQKDLLEVKSVFSSQEKQLRYMLSQIPLSFKKMNKSEIIKILKFFS;locus_tag=LOCUS_2660;note=MGA_267
sequence01	MetaGeneAnnotator	CDS	274839	276470	.	+	0	ID=MGA_268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILYKNKQDKIFPKKIEEKPSFIKVNNKYFKTYYVAEYPSEVYSFFLSDIFSLGGNIMVTQYLKAVKKDQILNSIKMKLSAIEAQRHSRFKKGKLNDITLDLEVSNLEDFRRILVSSKETSLSFGFYLTLYSKNLYRLKSLSKNLELLLSSKSFNIYSLDFRQDAGYKTILPFNLNISSKSFILNTKSVAYMTPFVLSNYTDYSGVIYGVNSLTNSMLIFDIFKYENYNGVVFAKSGSGKSFFAKINIIRSLSKGIKVVVIDPEGEYKDLCKNLKGKYIDLSHKSKNHINPFDLYEGESIDEKIQFIKSFLRKTCTYFDSNEIDKALIEIFRDFKNPTFVDLYNFLEKKNSRMALEIFNISKGSNSNLYSNESNIKLSSKDNLIVFDISSLDSYNISLMMHVVLNFIWKFHQRQDKRLVFIDEAHRLFENEDLLSYLKMVSKRARKYNLGLIYITQDIEDFISSEEGRSIIANTSLKVLMKQEKVNVEKIGKTFMLSSEEKEALLKFSLGESLILFGDLRVYNKVFAFEFEEKIFNKRQEIP;locus_tag=LOCUS_2670;note=WP_011861361.1 ATP-binding protein (Eubacteriales) [pid:27.1%25%2C q_cov:94.8%25%2C s_cov:68.4%25%2C Eval:1.2e-43%2C partial hit],MGA_268
sequence01	MetaGeneAnnotator	CDS	276445	277500	.	-	0	ID=MGA_269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFSKKTIYLILLYLIMLVIVGLIISKSYKANIYISKIKSTESIIKAQKAKQQAILASTPLGGDIYICDSKNNRIIEVNPQKQIIWQMDGIKDPDDVQVYAPNRLLVNEEDYSKVIEINTQTKSIVWQYGHLGVPGAQTGYLGKYVDDSFRLPNGNTVITDDANMRVIAVNKAGKVVWQYGHTGLPGTQAGYLDAPNDAMPLPNNSILITSIANHMAIDVNIAKKVINWQINIPQLYPSDAVPLPNGNILSTDWVYPGKVQEITQQGNVVWTYQPTGANTLNHPSSTQLLPNGNYLIVDDHNDRIFVLNPKTQQILWQYGITGVAGSGFNQLNDPSGVALAKPMESPAFY;locus_tag=LOCUS_2680;note=WP_011121256.1 PQQ-like beta-propeller repeat protein (Rhodopirellula baltica) [pid:26.5%25%2C q_cov:69.5%25%2C s_cov:74.0%25%2C Eval:1.2e-11%2C partial hit],MGA_269
sequence01	MetaGeneAnnotator	CDS	277500	277934	.	-	0	ID=MGA_270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKRLTTAVIIVLLGIALILFLNKNTPTNNKASSLSVSKAFFAKNISSNGQPLSITKAFNHSIDRNIYLFLKINNLTKNTQISYIRYYNNYYIDSYSIKPNITTGYVYFNWDKTHNLDYPKGTYSIKIYINNIYQKTVSYTVN;locus_tag=LOCUS_2690;note=MGA_270
sequence01	MetaGeneAnnotator	CDS	277937	278281	.	-	0	ID=MGA_271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKINVKYIFLLLVSLILLLYFFSIRNVFAQTPTLKTEVNKGITELKTNSQDLKFENEVTKGEIQSAGKDKKDKAEIKVPEINVEKEIETENSKTTKDKTASTDKKSSSSKGN;locus_tag=LOCUS_2700;note=MGA_271
sequence01	MetaGeneAnnotator	CDS	278321	279034	.	-	0	ID=MGA_272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVKKINSKPILHKKKKFVKKKKFKLNYGSIFLFVMGGLFISIALSPLINYYIDQNLFHEYKTKIIKSDPSAQYFSKIIEATDMSSHNTYNGYFYLSIPSINLKNIPVKAGVDGFSTQAYEKVLVNSVAQMKGTALPGEIGNTYIYGHSAPQWFADLYPNSFLGIFTNILQLKTGDIIITKFKGIIYKYKVFATKVVSPTDVSVLYSPPKDRYLTLMTCIPPGIGTQRFIVTASLIQ;locus_tag=LOCUS_2710;note=WP_015776677.1 class E sortase (Brachybacterium faecium) [pid:31.5%25%2C q_cov:58.2%25%2C s_cov:53.5%25%2C Eval:4.6e-10%2C partial hit],MGA_272
sequence01	MetaGeneAnnotator	CDS	279113	280183	.	+	0	ID=MGA_273;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001119021.1;translation=MSDYYEILGISKDADEKEIKRAYRKLAGEYHPDKNKASDADKKFKEINEAYSVLSDPVKRRNYDQFGNADFSSGGGQGFSGADFGGANFGGFEDIFSDFFGSNFNFSGNSSEQRSRSNSGEDIELILEVNLKDVIFPTEKDISFYAMSKCSYCNGTGSKSGKVDTCNTCKGLGKVQRVTQSFIGNISMESICPTCKGSGKVIKDKCNHCIGSGRIKELKKMKIKIPQGASNDTVLKFAGSGSAGLNGEKSGDLYLNIKILEDKEYKREGNDLLGTLNIDIPTAVLGGVVDVKTIYDTVKLKIPAGVQDGERFKIKNKGVPSLHGSRVGDYIVKIKVNIPKKISYKERALYQELMKL;locus_tag=LOCUS_2720;gene=dnaJ;note=WP_001119021.1 molecular chaperone DnaJ (Staphylococcus) [pid:39.2%25%2C q_cov:99.4%25%2C s_cov:92.9%25%2C Eval:1.7e-74],MGA_273
sequence01	MetaGeneAnnotator	CDS	280178	280705	.	-	0	ID=MGA_274;product=type-4 uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048147255.1;translation=MDSIRNEIINCTKCNLCKTRNNAVPGEGSLKAKIMFIGEAPGANEDRDGIPFCGRSGSLLNSMLESIELTRKDVFITNIVKCRPPENRDPNEIEIERCSPFLKLQFDIIKPKIICTLGRLSMSLFFKDKKISEIHGKKFKLSQYTVIPMYHPAVGLYNPNMKKILFEDFLMLKNL;locus_tag=LOCUS_2730;gene=udg;EC_number=3.2.2.27;note=WP_048147255.1 type-4 uracil-DNA glycosylase (Pyrococcus abyssi) [pid:51.6%25%2C q_cov:100.0%25%2C s_cov:97.4%25%2C Eval:3.6e-49],MGA_274
sequence01	MetaGeneAnnotator	CDS	280705	281733	.	-	0	ID=MGA_275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDDIKNLKEKIESIYIPPVLKENIEALISRLDRASKFQSYSSDYEVISKYIDTITKVPWNKSTSDNLDIGNAKQILDKNHYGIIDVKERILEYLSSMNFNKEQPAPILCFVGLQGIGKTTIARSIAEALNRKFVRIPLGGLSSVLEIRGQSKVNPDAEPGYIVKALIKAGSNNPVILLDEFDKISDDGSVRSSIMATFLEILDPEQNNSFSDHYIDYPIDLSKVMFILTANNLGTISSALLDRLEIIRFSSYTDEEKLRIAKDYIMPKVYKNIGLNNKQLIIDDDVWSDIIRPLGYEAGIRELERILMNIARKVAKKILTEHVDTVTINTENLKNFLPIGY;locus_tag=LOCUS_2740;note=WP_003229618.1 endopeptidase La (Bacillus) [pid:47.2%25%2C q_cov:98.0%25%2C s_cov:42.6%25%2C Eval:3.1e-78%2C partial hit],MGA_275
sequence01	MetaGeneAnnotator	CDS	281730	282386	.	-	0	ID=MGA_276;product=VIT1/CCC1 transporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980407.1;translation=MDIKENLIFQVKQIIFGVQDGLVTTIILTTTLSAVSTNSILILSALTAGIGGAISMATGTYLGSKSQKEVLEIKTEDENIKEKAGSLISKNLKDQGVEKSDLDNMVQILSKYPDIEKGIASTLILGEDIEKTIRPKTDAVFMGISFLIGALIPTIPYIFLKTNIAVIFSILLVAISLFFIGFFKAADRKEDRIKNALEILIIGMIAAILGYYIGQIVK;locus_tag=LOCUS_2750;note=WP_010980407.1 VIT1/CCC1 transporter family protein (Sulfurisphaera tokodaii) [pid:26.6%25%2C q_cov:91.7%25%2C s_cov:85.0%25%2C Eval:1.2e-11],MGA_276
sequence01	MetaGeneAnnotator	CDS	282494	283486	.	+	0	ID=MGA_277;product=transcription termination factor NusA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003231912.1;translation=MAAQSDFLLAIHQIASERGIETEDVINAVNEALVAAYKKDYDYNEEDIVEAKISEEDGKFIIIVNGKDSTPKDFGRIASQAAKQVILQKVSETERETLLSQIEKRIGTLEMGIVQRFDGQNVVIEVGKISAIMPQQEQIYGELLRPGMKIKVYLKEIQEFPLGGRKLVVSRSSDLFIKALFENEVPEISTGTVEIKDIAREAGSRTKVAVFSDTQGVDPIGACVGQRGMRIIAMTNELGSEKIDIIQWDEDQEKYIKNALSPAKPIDISFDEQEKHVTVMVSEDQLSLAIGKDGQNVRLAAKLTGWNIDIAADESVPKEEVLVPEEKSEE;locus_tag=LOCUS_2760;gene=nusA;note=WP_003231912.1 transcription termination factor NusA (Bacillus) [pid:43.4%25%2C q_cov:93.6%25%2C s_cov:91.1%25%2C Eval:4.7e-68],MGA_277
sequence01	MetaGeneAnnotator	CDS	283544	285043	.	+	0	ID=MGA_278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKVDTQLKRPPVVTVMGHVDHGKTSLLDSIRGSFVANKEVGGITQNITAFDVVHDSRHITFIDTPGHELFSNMRQSGVLMTDIVLLIIAVDDGIMPQTKEVIEIIKENNLNVIVVFNKIDLPSNNLAKIKSDLGREGIFLEEFGGKVLSVEVSAKTKKGVNDLLDLILLQYDMLDNIYTPSERNSLVVLESFKDPHVGNISLCIVEDGTLSQGDNIFSLKRGELGKVRSIKNDKSESLKEAGVSTPVYIFGQSLFLDVGEKIVFSKDKIKLDINKEKLDLGKFEEEDRDSFLFPKEEVKMLSIILKADTKGSLDAIVTALEKIELEEIKIKIFKKDLGDLTDEDLNIAKSTRSIIIGFNISQSSRIKKLASNMHIIIMIYDIIYRLVDDVKDAAESLIPPSYVEIENGKAEIKEIFILSNKSTVLGSLVFEGKMVLNSRCKILRKGDELFDSKIVSLRNLKNEVKEVSVGMECGIIIAPNFTVEKGDTVISYRIEKN;locus_tag=LOCUS_2770;note=WP_010965108.1 translation initiation factor IF-2 (Clostridium) [pid:37.1%25%2C q_cov:98.6%25%2C s_cov:72.0%25%2C Eval:2.1e-92%2C partial hit],MGA_278
sequence01	MetaGeneAnnotator	CDS	285071	286174	.	+	0	ID=MGA_279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNDSLEKLNKLVNKADKILLVSSTRPTIDSISSVFLMWHYLSLNFDKDISIYIPSIQERYDFLFNYSMLEKENIIKDILREYTLSIKKQDGVIDKVRYDTEDNLFNFHISLKSGALDTNSFNLDKSQFNYDLVFTIDVEKINFVGDLYKIYKDDFESRIKIINIDSHATNLRFGDLNILSNEVSSTSEIILDIINSTRTLLSHKECQLILMSILSNTENLSIANISQKTFENISFLTKNGGIMNKALVEVSSPNSLIDLKAKAHILENVEEYVYKKEKYIYSIIENTQMYPSYLTDIYIKDAVLTCIVIKGDVYNKFYIKDFKDIIKIENLSKFFDDVKSEDGVLFFKSKESNIKNILEKIAILKN;locus_tag=LOCUS_2780;note=MGA_279
sequence02	MetaGeneAnnotator	CDS	5306	6217	.	-	0	ID=MGA_282;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082750.1;translation=MIILGIETSCDDSAVALVKNGTEVIGSSISSQMHSSAGGVIPEKASRMHIEILPLLVDDLLKRFPDVKIDKLAVTTNPGLIPSLLVGVSFTYGFARAKGLEVIDINHLYSHVYANILEHPDIEFPHLSLLISGGHTQIIKVMSPIEMEVIGTTLDDACGEAFDKVARMFGLGYPGGPIVSKLALEGNEKAVNFPRPMIHSNDYNFSFSGIKTAVKRFIDSNKDVSKEDILASFEAAVAEVLVKKTIKAAKEYKLNTITLSGGAAANLRIREEFYKHENFKFYFPAISLCGDNAITVAGLAYHY;locus_tag=LOCUS_2790;gene=tsaD;EC_number=2.3.1.234;note=WP_004082750.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Thermotoga maritima) [pid:44.8%25%2C q_cov:99.3%25%2C s_cov:93.6%25%2C Eval:9.6e-73],MGA_282
sequence02	MetaGeneAnnotator	CDS	6214	6684	.	-	0	ID=MGA_283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILIIDSTTEVLKVFIAENKKIESFEFEDKNLFSLLDNIFSSHKDIQYIAINKGPGSFTRTKVGLSYIKGFCYASKIPLIAISGFEVLEKEGKKLIINAGRGKVYLKDEKGYKIEKGEARDSINYDKFLDLVLDRIERKIFDDPLKVLPLYVSEI;locus_tag=LOCUS_2800;note=WP_011860649.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB (Clostridioides difficile) [pid:27.2%25%2C q_cov:90.4%25%2C s_cov:66.8%25%2C Eval:2.7e-09%2C partial hit],MGA_283
sequence02	MetaGeneAnnotator	CDS	6681	7103	.	-	0	ID=MGA_284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFIRMIKIDNLKDTKKIASEFSKTLKGNEIICLIGDLGAGKTTFTKFLLEELGVLDNVTSPTFVLRSDYESLKGPVYHFDWYRMDSKEDLVNIDFFDVLGEGLVIIEWADKFLDILNGFNIIKINFMIKNGVRYINIER;locus_tag=LOCUS_2810;note=WP_003434423.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE (Clostridioides difficile) [pid:45.5%25%2C q_cov:79.3%25%2C s_cov:74.0%25%2C Eval:1.8e-21%2C partial hit],MGA_284
sequence02	MetaGeneAnnotator	CDS	7303	8481	.	-	0	ID=MGA_285;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545078.1;translation=MENIFYRYNPWWSETYSISSEIILRDHILNSLKIDIEIHDILFLTGLRRIGKTTLMKILIQYLIDEKKVNCKNIFYISLDDYHLNSLNILEIIEEYRKIQKLPFRNQIYVFLDEVTFKDDFEIQLKNLYDTGYVKIVASSSSASLLRSKKPYLTGRYKLVEILPLDFEEYLQFKNITILPEDNLLKQKYFEDYLNIGGIPEYVLHNDVAYLKEVVDDILRKDIVAQYDIKDISTVQNYFTLLMERSGKVVSINKIARILGISPDTSNRYLKMFEDSYLIYTVSRFGKTNETIKAAKKIYASDIGIRTFSTGVRDIGSLFENYVYLKLKMEDPKYLYINRNEIDFIIRNKILIEVKYGRDIEGKQKELFDNYNIKEKVVIKNIFELENFLEQR;locus_tag=LOCUS_2820;note=WP_012545078.1 ATP-binding protein (Thermodesulfovibrio yellowstonii) [pid:29.6%25%2C q_cov:85.2%25%2C s_cov:86.5%25%2C Eval:2.2e-30],MGA_285
sequence02	MetaGeneAnnotator	CDS	8767	9024	.	-	0	ID=MGA_286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQISYSKHFIKYAKRLNPELRKKIQERINIFSKNPLGPVFRNHALKGKYKDYRSIDITGDIRVLYLQRENEVIFDIIGTHSQLYG;locus_tag=LOCUS_2830;note=WP_000916169.1 type II toxin-antitoxin system mRNA interferase toxin%2C RelE/StbE family (Helicobacter pylori) [pid:40.4%25%2C q_cov:67.1%25%2C s_cov:64.8%25%2C Eval:1.1e-07%2C partial hit],MGA_286
sequence02	MetaGeneAnnotator	CDS	9030	9311	.	-	0	ID=MGA_287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEYAVINLKTNPEIKKLASITAKRLGISVSSVLNNELKRFIAEQSVVFEIPEVPNAKTARQISISKKQIESEDYYKFDDIKKSLDFLSDELN;locus_tag=LOCUS_2840;note=MGA_287
sequence02	MetaGeneAnnotator	CDS	9398	9730	.	+	0	ID=MGA_288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQNINIIINCPMSLYADKGYKKYERRRELKKRKRHARIEMKKLDKNRKRGPKFIFTSEHKRMRGSIEKVMAWLKTFMIVRLSRTRIKALLSGMFFFCLSYTTFTRLKKL;locus_tag=LOCUS_2850;note=MGA_288
sequence02	MetaGeneAnnotator	CDS	9993	10121	.	-	0	ID=MGA_289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQIYKILVFVPESHFDIVSDATSCIDKVGEYEQVEEEKIEK;locus_tag=LOCUS_2860;note=MGA_289
sequence02	MetaGeneAnnotator	CDS	10339	10779	.	-	0	ID=MGA_290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLILDNSIIVKWYLQFPKEEHIDIALKLKHLYDIGQINLHSPAILNYEIGNVFSKAVRLKKLDINLAKESLDLFNNYGIIFYDLKEIYLDILDISIKYDLSFYDASYVTLSQFLKYDFITADKKLFNNVKNKITSVKYILDFKME;locus_tag=LOCUS_2870;note=MGA_290
sequence02	MetaGeneAnnotator	CDS	10776	11024	.	-	0	ID=MGA_291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTERTTIRINTVLIKQARDIAYNQKISLQKVINMLILRGMQDINDNSKRLIIGTKVDKIRENLKIKDFSDIVVESKKDLR;locus_tag=LOCUS_2880;note=MGA_291
sequence02	MetaGeneAnnotator	CDS	11258	11683	.	-	0	ID=MGA_292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKRLIENEIEIYLQGKDYKTFYIWGPRRSGKTTLLKQISEKLGVPIFNFDFSSDYEKFVPDRSLLEKIVATHKIILIDEVQNHPQATVVLKILYDEFKIKVIATGSSELKQKGKEFDTQAGRFTDHYCLPLSITEIKENS;locus_tag=LOCUS_2890;note=WP_010958509.1 ATP-binding protein (Coxiella burnetii) [pid:34.9%25%2C q_cov:80.9%25%2C s_cov:29.3%25%2C Eval:1.3e-08%2C partial hit],MGA_292
sequence02	MetaGeneAnnotator	CDS	11916	12191	.	-	0	ID=MGA_293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKEIRLDRKFVKHYKKRIENNNILRKRYKERLELFIEDKSNPVLRDHQLEGKMKKYRVFSIAGDCRVIYFEEEKNIIFIFIDIGTHNQVY;locus_tag=LOCUS_2900;note=MGA_293
sequence02	MetaGeneAnnotator	CDS	12201	12518	.	-	0	ID=MGA_294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTTDYTKIQIPMKMSLKKKAEKVAEDYGYSSIQEVVRVFLMSFSEGRIKTSFMVEDTVEHISEEYEQFLDKRLKETKEAIKRGNAYTIHSAEELDKLVDQVKDD;locus_tag=LOCUS_2910;note=MGA_294
sequence02	MetaGeneAnnotator	CDS	12940	13191	.	+	0	ID=MGA_295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEEVKTTIRLPRYLIKEYKNFAKNTHTSMNSSIETALKYFLSKEITVQISVLNNNIKKIKIPTFSMGNIKRIDRKSIYEDIV;locus_tag=LOCUS_2920;note=MGA_295
sequence02	MetaGeneAnnotator	CDS	13175	13600	.	+	0	ID=MGA_296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILFDTNILVYAHNADSPFNQKALELYNTTENICTTQQNLLEFYSVITNDKRVEKPVTDMKAQSLLKFYSDSQKFNIISPNINTIKILNELATQYRFKGVEIFDIYIVATMISNDISIIYTADTKIFKKFQSITVLNPFI;locus_tag=LOCUS_2930;note=MGA_296
sequence02	Aragorn:1.2.38	tRNA	13681	13756	.	-	.	ID=Aragorn_18;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0170;note=Aragorn_18
sequence02	MetaGeneAnnotator	CDS	13822	14589	.	+	0	ID=MGA_297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNSLKDWIFPTKKNNFKSPLLKNKSLTVYLIFLIFINIMLPYFISSGNISSLSLYNTINKDRNSASLANLSFSRSLSYSASEIIGDISKYQYLSSINPLTNYSYYHFINTNKFSNVNEIILKNYISLNSANSNILNLYKNEILNSRINDIGIAVKNINFYGNTQQIIIVLTAKGNNTSSQPALNISSNLGLIDYTIITYTDMFILIFLIFLILSDVLFSYYYNNFKNKSIPYMNLILSFITMIVVLILILGVIL;locus_tag=LOCUS_2940;note=MGA_297
sequence02	MetaGeneAnnotator	CDS	14586	15401	.	+	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLIKYNIEILSFLFFIIIQILIISLYLSSLTFILIYIFLANLVILLSLIDGTKKFKIYVKDIDIKKTDKTIYFYNQIIIPLSLFISTEIFLIINRFNITISEIIMLISLVLFYTSLRYIESYFEVFEFSEKAHYTINTVKLFIFFLSIYTLFEISTIINMSLIIEIIFVFLISFSLILMMMQRNKKYNIKYIAYSFLFSLIIIFISTLSLLYLKNALLTAFLLSLIFYIFENIVHHKIHKNLSNEIIIEYILIALIMFLIARGIFLIYV;locus_tag=LOCUS_2950;note=MGA_298
sequence02	MetaGeneAnnotator	CDS	15394	15696	.	+	0	ID=MGA_299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKIKALKLTNSRDKALGKIKYRKENIFFQTRFGIHTFGIKEPIDIFVLDNKLNVVKIKKELKPQRFFFWNIKYNNILEINSDIKENLKIGDTIHLIPTD;locus_tag=LOCUS_2960;note=MGA_299
sequence02	MetaGeneAnnotator	CDS	15773	16003	.	+	0	ID=MGA_300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINRKLQKIIIEKLRNYDKSILLYGTRQVGKTTLVKNIISELGYKTLSINFPRPHGRSFKFGVYKDIFPDFPNQSR;locus_tag=LOCUS_2970;note=MGA_300
sequence02	MetaGeneAnnotator	CDS	16074	17561	.	+	0	ID=MGA_301;product=IS1634-like element ISMsm6 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011727513.1;translation=MWKIRTTRTNSGNIAVQVVENSSHKVNVIKHIGTGRNEQEVEDLKMLGYEYIQKHNVDSGQISFLDEKKSSLVSIDNLNLIHTNHAFAHEYLSHIYEIYGFNSLEKKLLQDLVIVRILEPVSKTESIDLIEEYFNIQYSKGSLYRNLLAISSIKDQIEEIAVDYAKRNLNFDFSLVFYDVTNLYFESFKSDEFRKPGFNKDGKSQQPQVAIGLVVNSDGYPISIEIFEGNKFEGHTFIPVILALKEKYNINTLTVVADAAMLSYDNMKALEENGLSFIVGARLSKVDSKVLESIAAELNREEGKYISTDTKYGTLVTDYSRKRAQKDKSDRNKQIRKAQAHIQYPSKNRRPRFVKQTSKTALEINTELIEADELKEGIKGYYTNLVDISPQLIVARYHDLWHVEKSFRIAKGDLKARPIYHRKKDMILSHILIVFIGLCLSKYLEVNTGLSIKVIRKSIMRIVDVTMQDSLTQQSFTKRMTIPNSDIYATLLKLL;locus_tag=LOCUS_2980;note=WP_011727513.1 IS1634-like element ISMsm6 family transposase (Mycolicibacterium smegmatis) [pid:30.3%25%2C q_cov:95.6%25%2C s_cov:95.6%25%2C Eval:1.2e-58],MGA_301
sequence02	MetaGeneAnnotator	CDS	18069	18518	.	-	0	ID=MGA_302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINRIYSNIDSLLENEKALILYGPRQVGKTTLVENFLSSTKLRYKLDSGDNIEIQNILSSRNFNLIIPYASGYDLIVIDEAQKINHIGDALKIIVDQIKNIKVIAIGVFFKKLLSTDTVGDITLTFTGKITYEPLSSDKTMWHKIYTFS;locus_tag=LOCUS_2990;note=MGA_302
sequence02	MetaGeneAnnotator	CDS	18783	20042	.	-	0	ID=MGA_303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFSNKKIRISIFSVLSFLIAVYPFMLYKPGVVNATSSISSLQQQYNDIQNLINQNQQKINTFNTESSNLQPQINAYQQLIFQKEVLVNNERAQVAALNSQINQLNIQIAQEQVKIDAIKVQIDSNARSGYEQTYIPPVTLFMGNSNITNAMVSVVYFKSTMTHENTLVQKLNVTVNALNKNKASVALKQQNAQSLLTQEVSTQNSLIADQNTLKNEQANLINQSNSIQSSNNSLYQQQQSILQKLSRLELSEGVPGTIPLNVPCQQGAYFSQECSQWGNYVLDSSGDTYASAGCSLIAIIMAENLIGNSNFTPLSQTALQYWNNGAQFYSLPGVQDVIWNPSISQIDAYASPSSPVVIGFYVPDNSFGTHFVTMTGAVGASGTMQDPWFGPNLTFGQNMGGGLSYNSQNIFFAAVF;locus_tag=LOCUS_3000;note=MGA_303
sequence02	MetaGeneAnnotator	CDS	20083	21009	.	-	0	ID=MGA_304;product=permease-like cell division protein FtsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_026198720.1;translation=MILKIERIFKYTIQHIIRNGWLSFASIAIMTLTFFVISMFSLTVYSINVILHYYESKSQVIVFFDPNASSSYISSIKTDILNSNKASKIVFVSKKQAYNNFESVLKTQNPQLANAVDVNALPPSFEISTSNLTNLSDIAAMLYKLKSKSHGQINNILYIKSVVQFLKKAVSIITEIGLGLIIFLGIISFVIIIITIAITINSHSEEIEIMKLVGATNSYVSGPFILEGAFYGILGVFFSSTILYLIFFTISTYYKTSILLPILSFFQGIPLNQYTPLLMIEIILGEVLLGIIIGGLSSLIAISRYLKK;locus_tag=LOCUS_3010;gene=ftsX;note=WP_026198720.1 permease-like cell division protein FtsX (Desulfitobacterium) [pid:24.5%25%2C q_cov:84.4%25%2C s_cov:86.7%25%2C Eval:5.1e-21],MGA_304
sequence02	MetaGeneAnnotator	CDS	21006	21680	.	-	0	ID=MGA_305;product=cell division ATP-binding protein FtsE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002263537.1;translation=MLTFKNVYKKYNGKDVLSNINFDIDEGEFVFLVGHSGAGKSTIMRLIIKEENLSEGTIHFAGYSIENMNKRMLPFLRREIGVVFQDFKLLPKKTTFENVAFALELSDHNNREIKKSVDYILDMVGLASKAKLFPHQLSGGEKQRVAIARALVNNPHILIADEPTGNLDPSVSWDIIQLLSKINGWGTTILMATHASDVVNSMQKRVIALEDGKIIRDSKGGYNE;locus_tag=LOCUS_3020;gene=ftsE;note=WP_002263537.1 cell division ATP-binding protein FtsE (Streptococcus mutans) [pid:56.1%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:5.1e-69],MGA_305
sequence02	MetaGeneAnnotator	CDS	21715	22800	.	-	0	ID=MGA_306;product=peptide chain release factor 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942918.1;translation=MEIIKDKISVLERRLIDLKVNLKYPELRMDIDRLELETVKEGFWDDSNNATDIMRELNDRKTEVELLDDLEERVSYLRELVSLGSEDFENLKDEVDKDFEKIESEFEKIELKTYLSSKFDRNGAILSIHAGQGGTEAMDWTDMLYRMYTRYFQTKGWKYEVTDMVQGTEAGLSSVSIEIEGDYIFGYLKRESGTHRLVRISPFNAQSLRQTSFALVEVTPLIKDNNEIEIRDEDIEFSATRGGGPGGQNVNKVSTKVTLKHVPTGITVTVGAERSQVQNRESALRRIRAQLYKLEEEKMSLELSNLKGEHKIPMWGNQIRNYVLHPYKLVKDLRTNVETTDTESVLNGELDQFIYAEIKLD;locus_tag=LOCUS_3030;gene=prfB;note=WP_010942918.1 peptide chain release factor 2 (Geobacter sulfurreducens) [pid:44.8%25%2C q_cov:95.0%25%2C s_cov:92.5%25%2C Eval:3.0e-79],MGA_306
sequence02	MetaGeneAnnotator	CDS	22805	23191	.	-	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKDNKKLKVLLIEDEVNIAFIYARSFEQNNFSVINAYTGEEGLIMAKNEKPDFILLDIMLPQMNGLDVLKELKSSPSVMNIPVILLTNLSDDTTIKEGFAREASGYIIKSFHTTKQIIEEVKSILKI;locus_tag=LOCUS_3040;note=WP_003416112.1 response regulator transcription factor (Clostridioides) [pid:39.5%25%2C q_cov:93.0%25%2C s_cov:51.3%25%2C Eval:5.2e-18%2C partial hit],MGA_307
sequence02	MetaGeneAnnotator	CDS	23254	24150	.	+	0	ID=MGA_308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNSNSPTLNPISTLLFFIVFIFGILLSTPVILTNIYVGLVLILIILIIARIISLAVRTASEWERVVILKLGKFNRIKGPGLFFIIPIIENIAYWIDLRTVSIPIRAEQTLTKDNVPVSVEAILFWKVIDPKKAALEVANYKNSAELAAQTALRDIIGRSELSTILSDRESIDVELQKTITGRVSPWGINIISVEIRDVIIPENLQNAMSQKAQAERERDARVILGDSERIIAQSFMEAAEKYKDDPIALHLRAMNMLFEGLKEKGALIIVPSSAVDTMNLGGIVGLADYQKQHPKK;locus_tag=LOCUS_3050;note=WP_011249303.1 slipin family protein (Thermococcus kodakarensis) [pid:43.9%25%2C q_cov:74.2%25%2C s_cov:82.1%25%2C Eval:1.4e-49%2C partial hit],MGA_308
sequence02	MetaGeneAnnotator	CDS	24147	25013	.	+	0	ID=MGA_309;product=tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001548613.1;translation=MRLVILGPTGAGKTEVSYDIATLFSGEIISADSSQVYKYLNIGTNKEIFPDIKTHLVDIINPNEIYNTHRFIKDSTKIITSAEKEQKNIILTGGTNFYIKSLIYSMNFGKIDKKKESEYSTLNKDELQKILKDKDKEFYLSLNNSDKNNRRRLLRYISLDTLNKDRKEIFDNRYTLLEIKTNTYDLIKKIEDRTHKMIDLGILDEIEYVFSLGYSINDPGLQIIGYRECIDYIQGKIKNKKELEEEINHSTRKLIKKQYTFLYKIKNKVSLNKEDIIPFIQKKNLTSK;locus_tag=LOCUS_3060;gene=miaA;EC_number=2.5.1.75;note=WP_001548613.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Staphylococcus) [pid:35.0%25%2C q_cov:95.1%25%2C s_cov:92.9%25%2C Eval:5.3e-33],MGA_309
sequence02	MetaGeneAnnotator	CDS	25042	25314	.	-	0	ID=MGA_310;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001043863.1;translation=MLKVDLVNQIASMTGLTKKAANDAVDSFVEVVTASLKKGDDVLITGFGKFEVRVRSQREGRNPQTGAKINIPATKTPAFRAGKALKAAVK;locus_tag=LOCUS_3070;note=WP_001043863.1 HU family DNA-binding protein (Bacteria) [pid:58.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.2e-23],MGA_310
sequence02	MetaGeneAnnotator	CDS	25490	25990	.	-	0	ID=MGA_311;product=peptide deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965769.1;translation=MSINIIKEGNLILSKKSAPVKVFDKKLRLMAKEMIEYGESVDNCVGLAAVQIGVLLRMSVIYVDDQWEVMVNPKIIFEDTKISFDWEGCMSLEDGNLFGKVKRPKKIVVEYVNEFNKRRSYQYEGFYSHLILHEIDHMNGLMFLDHLKKPYKLLSNEELEKIYKEE;locus_tag=LOCUS_3080;gene=def;EC_number=3.5.1.88;note=WP_010965769.1 peptide deformylase (Clostridium) [pid:38.8%25%2C q_cov:80.7%25%2C s_cov:87.3%25%2C Eval:4.8e-21],MGA_311
sequence02	MetaGeneAnnotator	CDS	25994	27652	.	-	0	ID=MGA_312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METNTFSNLINFIREKKIKIDLSLLRKAYGFLSKNKTAEELNFYISRAFILVEFYSDTETIIASLIDPNLSLDIIKNEFGEIYQNIFIGFENIENILRRVDKADKQDFDALRKYILTSCNNLRVIIIKSAEKLYFLRNIDNYNYTEEYKFEYAREVLEIYSPMCEYIGLNSLKSSMDDISFRILNFKEYSIIEDTLKKYNKINLEYIKKIETDIHKELSLNYIKSKIFSRQKNIYSIYKKIIKIKGYFDEDCIYLLNDLWALTILVNNIEQCYKSLGIIHTMYPYKSSEFDDYIARPKSTGYRALQTTVEIDMDRVIEIQIKTHDMHEYNEFGPASHVAYKLGLKGKKNNFFWIKDVSFAKHKNINEIKLFEDKIFVFTPKGMVKELEKGANPVDFAYSIHTQIGNSMRGAKVNGKLVSLDHKLSSGDTVDILKEKGINIPKKDWENIASQISTKRVIRKFIKENKLSEDNKISAESIHKKKEVLKIDTDNILENNFNFDNIAVKIAKCCNPTLKDEIIGKVSLEGVIKIHKKSCKNIDNLKQGVFDFSWET;locus_tag=LOCUS_3090;note=WP_010965572.1 bifunctional (p)ppGpp synthetase/guanosine-3'%2C5'-bis(diphosphate) 3'-pyrophosphohydrolase (Clostridium) [pid:34.7%25%2C q_cov:90.0%25%2C s_cov:69.1%25%2C Eval:2.2e-69%2C partial hit],MGA_312
sequence02	MetaGeneAnnotator	CDS	27655	29313	.	-	0	ID=MGA_313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYWSIYKNKNTSSYDALNLDNILVKILSHRNIEPNDVGYFLNPDHFFDPFSFEGMDKAVKRINKAVESKEKIVIYGDYDVDGVCATSILWSYLYKNLHANVMPFIPSRYTEGYGLNENKIREFRKDGVSLMISVDCGIRDIENAKLAKEIGLDLIVTDHHLIADNLPKSFVNIHPALGYGNPEICGAAVAFKVVCALNKKLKYNTEEYLDLVALATICDVSKMRGENRAFVKKGLEVINSKKRVGIASLMEVSELDNIDVYHIGFVLGPQINAPGRLFDPIYSLRLISTENREVALSLAHKLNDFNKERQKLTKEGVLDARSKLKNESFLNFVFSDKWSEGIVGLIAGRLTEESGKPSIAMTLSENGIYIGSARSIEGFNIVDLLDRNKDLLLKYGGHEAAAGLQVREENILELKNNLKKTAKELFLGKIQEKIIKIDLELQFSDITLSLFHKIDLLKPFGVGNPQPVFVIYGVYVMYVVNIGNKDSFVKMKVTDRSKEKFITAIWFSSPFTTDQIIKFSCIDIVFNLSENLWNNKREIQMKIIDLKPHVF;locus_tag=LOCUS_3100;note=WP_011861665.1 single-stranded-DNA-specific exonuclease RecJ (Clostridioides difficile) [pid:37.8%25%2C q_cov:99.3%25%2C s_cov:68.8%25%2C Eval:1.1e-95%2C partial hit],MGA_313
sequence02	MetaGeneAnnotator	CDS	29315	30328	.	-	0	ID=MGA_314;product=recombinase RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011030442.1;translation=MAKQEKEKVREGGFDKGETLKIALSQIEKQFGTGTVMRLGDSPTEKMDVYPTGAISLDYALGVGGIPRGRIIEIFGPESSGKTTLALHIIAEAQKQGGKVVYIDAEHALDPEYARRIGVDIDNVYLSQPDYGEQALEIVETLIRSGSIDVVVVDSVAALTPKAEIEGEMGDSSIGLQARLMSKAMRKLTSIAARSKCTVIFINQLRTKIGVMFGSPEVTTGGNALKFYSSIRIDIRRKEKIMKGDNIIGHNVLVKVVKNKVAPPFKEASFDIIFPNGISKESALIDTALTLGILERSGAWFRLGDRQLSQGKDALKILLKEDPELYKELEGKIRENF;locus_tag=LOCUS_3110;gene=recA;note=WP_011030442.1 recombinase RecA (Streptomyces) [pid:60.7%25%2C q_cov:95.8%25%2C s_cov:86.4%25%2C Eval:3.2e-112],MGA_314
sequence02	MetaGeneAnnotator	CDS	30437	31753	.	-	0	ID=MGA_315;product=replicative DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048440.1;translation=MDKVLPQNNDAEKLCINAILMSRDALLDLIEILKPEYFYFNSNREIYNSIISLFQEGSPVDIMSLKTHLSQRKMLDKIGGEIYLADLVENNTGALSALYYANIIKDLYIRRELIKTGGDIVDLSFNENIKIAEVINESEKKLFNVSSSNIKSDFVHLKELLSESYKRAEEIEKSKDKLRGIVSGFKDLDNILGGFQESNLIIVAARPSVGKTSFLLDIARNASLKNKKNVAMFSLEMSNSELTDRLISSQVGMNLWDYRMGHLDSSKLENLADVMGKLSEANLYIDDTPGQTIMEMSTKARRLDIENKIDLIIVDYLQLIAGTNRENRVQEVSEISRFLKNIARELKVPVIAASQLSRAVETRTSRRPQLSDLRESGAIEQDADVVVFLHREEIYDPDTVDKKGIADVIVAKHRNGPIGDVEVKFIKEQARFANLSKR;locus_tag=LOCUS_3120;EC_number=3.6.4.12;note=WP_012048440.1 replicative DNA helicase (Clostridium) [pid:43.4%25%2C q_cov:98.9%25%2C s_cov:97.5%25%2C Eval:4.3e-102],MGA_315
sequence02	MetaGeneAnnotator	CDS	31746	32414	.	-	0	ID=MGA_316;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963804.1;translation=MTNKVTIKYYSQAFFILQDKNTKIFIDPYSQIGDLIPPKFSFSPDILVITHEHPDHSNREYAKDNTFEISHPGEYDVKEVIIQGFNTFHDKFNGTERGFNTIYSINFNGINFVHLGDLGTTLNKSQIEALGVVDVLFIPVGGHYTIDYKDAIEIVNSINPNIIVPMHYKTDKTDSLPLERIDKFLEEYEGIKEEVVSLDLNSSDFDTEDFEQKVIIFNPSNG;locus_tag=LOCUS_3130;note=WP_010963804.1 MBL fold metallo-hydrolase (Clostridium) [pid:38.5%25%2C q_cov:88.3%25%2C s_cov:93.4%25%2C Eval:2.1e-35],MGA_316
sequence02	MetaGeneAnnotator	CDS	32586	32762	.	-	0	ID=MGA_317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLYAKDVTLDEIKRKVLEFPDKKLKDDLNKFLSLKHRDIISHLKGSLIELLEENEFI;locus_tag=LOCUS_3140;note=MGA_317
sequence02	MetaGeneAnnotator	CDS	32782	33027	.	-	0	ID=MGA_318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFYLNVNNIEYKFNKIKRALFYTGNENVKFNIASKEKAIIDSIYFASLRGNNLNYDEWDLSEVDIDELKKNYINNRFKTF;locus_tag=LOCUS_3150;note=MGA_318
sequence02	MetaGeneAnnotator	CDS	33005	34123	.	-	0	ID=MGA_319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERSERIGNDNLYNIIEDLKSRKYEVEEDEPHSYLDRARELTIFLDGLNFSEGKNGMVLDFSVFKYLELLEKGFVFKESEPVVKDETVDLSNLDEHLNTYFDKEVSFKYMPLILSNRFFEENIDKIHKSVEKGNTEKALEIAIAGLLPVFMALKNEPHNYEYLTYAADLIADISKPIALILYETALLNNENIIIRNDINIYDAIISCYNDIYDNRDIDNEEITTQLESYIYMYNSFKNKYLLMPETKEELIFFAQIALDIKRYDRFFIYIENLYKKSDFLSIYILLSNFINIEGKTEDLLNLSKKMIEIEPFETEYYIPLIEYYLDRRDFKRARKIYFMAKSNTKDIKKNIQEYNPEYIGSLERKYGFLFEC;locus_tag=LOCUS_3160;note=MGA_319
sequence02	MetaGeneAnnotator	CDS	34250	34576	.	+	0	ID=MGA_320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNIHPEYVDAEVICLCGNKTTVKSSSSNTIKVELCYNCHPFYTGEQKIVDTANRVKKFNEQSKVAQKMQTHIQAKKEKINSKNKKDNLIKEKPILTLRDMMDALKK;locus_tag=LOCUS_3170;note=WP_002851603.1 50S ribosomal protein L31 (Campylobacter) [pid:54.0%25%2C q_cov:58.3%25%2C s_cov:93.9%25%2C Eval:1.4e-15%2C partial hit],MGA_320
sequence02	MetaGeneAnnotator	CDS	34580	35593	.	+	0	ID=MGA_321;product=peptide chain release factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680455.1;translation=MQEDKYREYKSQLISFNQKIKDNPLYIEEIKDQYNEALMYIDDYEEYLNIQNQIEENKKITDKDLLIIVEEDNKILKEKIDSIENKYKNFDKDDFKNVIMEIRSGTGGNEASLFTEEMYEVYKKYISNKGWRLEILDSSVNESGGLKQIILSIKGDMVYGNLKTESGVHRVQRVPKTESSGRIHTSTISVVVLPNINKKDFEIKESDLRFDYFRASGPGGQSVNKTESAVRVTYLPTGMIVTSQNTKSQIQNKENALQILRSRLYEIQKEEDLKKNSDLRKSQIAGAKRSEKIRTYNFMQDRITDHRISKNRNFHINDIFEKNQLQELIDIIKNENS;locus_tag=LOCUS_3180;gene=prfA;note=WP_002680455.1 peptide chain release factor 1 (Treponema denticola) [pid:45.3%25%2C q_cov:92.9%25%2C s_cov:88.1%25%2C Eval:1.1e-72],MGA_321
sequence02	MetaGeneAnnotator	CDS	35580	36314	.	+	0	ID=MGA_322;product=peptide chain release factor N(5)-glutamine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964123.1;translation=MKIRDILKYNDSDLNEILKFILNLDLLKNLDYALSIKEERKYKLLKKRLDKKEPVEYITKKVYFHKYEFFVNKNVLIPRQDTQSILPYLLKYNSVLDIGTGSGAVGISTKKENPNISVTLSDISERALYVAKKNAKGLDIKIVKSDLTKNINIKNFECIFANLPYIKDIDKLPDSVKLYEPFIALYGGSNGIVLIKKLIKELKDKKWIGDLYLELDPFQIKYISCNKEIIKDQYKIDRFIKIKF;locus_tag=LOCUS_3190;gene=prmC;EC_number=2.1.1.297;note=WP_011964123.1 peptide chain release factor N(5)-glutamine methyltransferase (Flavobacterium psychrophilum) [pid:32.1%25%2C q_cov:90.6%25%2C s_cov:86.0%25%2C Eval:1.4e-25],MGA_322
sequence02	MetaGeneAnnotator	CDS	36311	37501	.	-	0	ID=MGA_323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIIFNKYLNLFILIAVCIALGYFIGSQYGSSGNNSSNALSSSYVNSNLFNEVFSLIKSQYYYKNTNNNNLYYSAISGMVNSLGDIHTLFFTPKEAKSYYSAISGNTFAGIGVSLGYNSQGKVEVEQVLPNTPAKSAGLSVGDIILSVNGNTTTNIDKIVNEVRGVVGTYVNLKIKNIQNKIESLKIQRKNIHIASENITKLSNGVVDLQITRFSDTSLTDWENSFNNAMQKVAALNPTKLIIDLRGNPGGYFDAAIYAAGDFLPQNTVVAKQEDRNGNITNFTTSYQGNFQKIPIIILVNGGTASAAEIFSGALQYYHRATIIGQNTYGKGTAQNVTTFSNGSLLILTTKHWLLPSGRWITPKHPIIPNVKVVFSSKDFLKGIDNQLQAAEKYN;locus_tag=LOCUS_3200;note=WP_011101574.1 S41 family peptidase (Lactiplantibacillus plantarum) [pid:32.8%25%2C q_cov:90.7%25%2C s_cov:73.2%25%2C Eval:3.4e-42%2C partial hit],MGA_323
sequence02	MetaGeneAnnotator	CDS	37501	38505	.	-	0	ID=MGA_324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDINFIRKINYLEDYKYSRFIDADTRLMVSVDDFVEKDSIISKGNVSKMLYRINISDFASNFKKYIIVSQGEVVSKGDIVMKKRSKYLYSPVDGIIDLSSVDTGVILVRSFPEDVVNKSNIKGKVSYISHDKTKIVIDTNVLKIDLKYIFGENINANLKYLCDDKGFLKLEDINSSCIGNIIYVGNLITSEIIKKSLVIGVSGIIGNGIELKNNENIEDLINSIPITVGIIDGFGLILNTYFYSLVKYNNKPSLIDQYNQSLIIFVDEKKDFENDFYIKEVEKDDKVQIFNYPYWGATGIVNSFDSKNFKVNIILDSRETVSVHPDEIVGIIET;locus_tag=LOCUS_3210;note=MGA_324
sequence02	MetaGeneAnnotator	CDS	38509	39633	.	-	0	ID=MGA_325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLDTANKYKFILLIDNFYIKGFLFFDQDILLEKKIPILQEFFNPLFNRVSYLNKIVSFFIHKYNEFTDINSIEIDLYTSLDFFRKDFLEITSTIFVLNQDYFNNISSEFSKKFDNIPTFILNISRDSIFISGNSNFSSQITSFDYLYDQLFKIKDFSDLSILNGKIRKYNLYNFISRFSLNFKEEMTLPILSLLNKNLLSNFNYDRVDSIPIFILTGDLYQFLSNSNYAVFSLLYGLHLEGIISVYIDNNNVMSLLNHLPDEYIFSNIKHVSDVFNVGFSTNAPMNLDIDVKIVDDESIKNIKVNRNNIITIPVKDKAHITINLPERSFIGEKKDMIEMISKSNIMIDTRDRSSITPFSVAEWIENSQNLIF;locus_tag=LOCUS_3220;note=MGA_325
sequence02	MetaGeneAnnotator	CDS	39660	39911	.	-	0	ID=MGA_326;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869404.1;translation=MAQVVKKKNKKKTNRKGLICSLCVNGVDDVSYLDVYRLKKFISKKGKILSRFRSGNCSKHQRKVTKSIKIARIMSLLPFSVND;locus_tag=LOCUS_3230;gene=rpsR;note=WP_012869404.1 30S ribosomal protein S18 (Thermanaerovibrio acidaminovorans) [pid:41.9%25%2C q_cov:89.2%25%2C s_cov:91.4%25%2C Eval:6.0e-14],MGA_326
sequence02	MetaGeneAnnotator	CDS	39925	40386	.	-	0	ID=MGA_327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSRSLNKALLIGNLTRDPELRYTPKGNAVCSFSIATNSSWKDSEGNSQEIAEFHNIVAWNKLAEICSQLLKTGMKVYIEGEIRNRKWEKEGVNYNKTEIRADNMVILSPLAKSESDIPSLDEDKDLNKNKKTKVDKNEDVIDEIDSIDDLPF;locus_tag=LOCUS_3240;note=WP_012256759.1 single-stranded DNA-binding protein (Chloroflexus aurantiacus) [pid:46.8%25%2C q_cov:70.6%25%2C s_cov:61.9%25%2C Eval:6.9e-26%2C partial hit],MGA_327
sequence02	MetaGeneAnnotator	CDS	40407	40742	.	-	0	ID=MGA_328;product=30S ribosomal protein S6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391676.1;translation=MKSKKYEFMLTLKPSLPENVRVAVLDKIEGLMKDLDLKVVNQDVWGKRYLSYVIKKHKEGYYILYNLEAGENFVADNVDKLIKSARVVSEIIRFGIFSVKKFSTVKIQKNV;locus_tag=LOCUS_3250;gene=rpsF;note=WP_011391676.1 30S ribosomal protein S6 (Moorella thermoacetica) [pid:29.7%25%2C q_cov:82.0%25%2C s_cov:88.8%25%2C Eval:9.9e-09],MGA_328
sequence02	MetaGeneAnnotator	CDS	40798	41157	.	-	0	ID=MGA_329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRENNYKVDFIIGVLIFLIAIPLMYFSYSNITVGNFYFFSLFFIPLSILSVYFTSILYRFRNIKKYITLRDQVVNILKKANVREDMLMEISNDLVLKKINIETLHISSKYKDVLKSIIY;locus_tag=LOCUS_3260;note=MGA_329
sequence02	MetaGeneAnnotator	CDS	41144	42082	.	-	0	ID=MGA_330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDESKYKQKESDLVKEFIYAFLGVIIVIILFAIFFKSPQMKPYSIKQFANQNPVEFAQVEMRNILGLSAIATYGPPYNNSSQGQVQSIGFISPEGIEGVDVPVNSIKTFVENPLKIESKVDPSLSKIMNQYFYLKKNNSSLLTKMENNYYNALNNAKYRRGKIVVKKGVYGPIPQMITYLLRMGKSGILENVLNNNLPGNNSTYTYNYQNSLLFLQGTPLRNVANKYSMLGNQWGILKEEGNYPGPWWLGIYTFLYQIPPYSTTASGDLMAFATFGLVMTLLIFAPFIPIINKIPYYIPLYKVIWKRYYERE;locus_tag=LOCUS_3270;note=MGA_330
sequence02	MetaGeneAnnotator	CDS	42075	42677	.	-	0	ID=MGA_331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNITKILKNIIKKDLDPDILLPDTLPVYVSSFLYMFGVLTMASLAIIILSGIVMVIEGPLWYQYSSLGLFFRSVHFWGAQFFFFFLFIHILSVFFMAGWREGRIITWILGSLLFAISMFEAFFGFLIGGGFFAQWNQVQAKDAMNAIGLSRFINILDNSQLYGFHTIILPIVIILILSLHLYIVRKKGVVPPIEIEKTNG;locus_tag=LOCUS_3280;note=MGA_331
sequence02	MetaGeneAnnotator	CDS	43101	43445	.	-	0	ID=MGA_332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKRSYKCNFILIFIRNSVKKFNFSLYPYTINADINADKNPTIISIGKCTPEKTLEKPMSKDITSKNIPNFLLYIYIITAMDETTAIWSDGKELLGVYLNKRLTCFSDTKGLFS;locus_tag=LOCUS_3290;note=MGA_332
sequence02	MetaGeneAnnotator	CDS	43764	43997	.	-	0	ID=MGA_333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKRNLRQEIEVLKSQSKGKSSNEEKDYLYVKKSLIWSFSYILIAIIFIIIVSIYVSNFPFDYSLRAFFHINRILL;locus_tag=LOCUS_3300;note=MGA_333
sequence02	MetaGeneAnnotator	CDS	44073	45329	.	+	0	ID=MGA_334;product=DUF3048 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003233927.1;translation=MQEVNFDSKELIESEINNKKKFKKLRNWYSSLSQNQKYTLWFSSIIILIILIGIISFLVIILRPNSAINASNTSIKTTPLYTKVKLPPQKKYTDPLDGVQLNSQTNLNRPALAVMIENSITARPQSGLNSADLVYEAQVEGSITRFMAVFLANTPSMIGPIRSARLYYISWAQGLGALYTHWGGNIYALEKLKTDNIPNIDAIFTPGSDQTCSNSVSIVFCRLDTRYAPHNGYGNTQNIWNLGQQQGLFSNLTLGKNITPYQFSNTPKTKDLGKSGSSINIFFDQGVIPYDVSWIYNQSTNSYTRYNGGSKQYDALTNQPLTAKNVVVLYVNGHTTSYPGEGTTEAAAPIWILNTVGSGNAYIFENGQEIQATWNKSSDNSRMMFTTQSGSPVTFQRGEIWFEVIEPQTGSFTYTPAT;locus_tag=LOCUS_3310;note=WP_003233927.1 DUF3048 domain-containing protein (Bacillus) [pid:27.4%25%2C q_cov:75.6%25%2C s_cov:86.7%25%2C Eval:1.3e-28],MGA_334
sequence02	MetaGeneAnnotator	CDS	45334	45912	.	+	0	ID=MGA_335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDKFLISKVRVKILKLFLLNSQNTYHVREIVRRTNEEINAVRRILKELEDIKFLTNERNGNRLYYKINIDFIYFFELNAMFNKEFGLGQKIIKHKNKLGNIKTAFLTKTYIQNKRKNDNDIDLVLVGNSINYIYLDKLIKEFEDANERSINYTYLTQTEFEEYKRSNNYFLSNVIFKEKIVLIGEESLIYT;locus_tag=LOCUS_3320;note=MGA_335
sequence02	MetaGeneAnnotator	CDS	45973	47316	.	+	0	ID=MGA_336;product=protein translocase subunit SecD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011144152.1;translation=MRRTTKFLIFIIFLYIISIIVDIPKVNINLKPIGINFNRTIDHISINLNTIGINYINKLNPSLGLDLSGGSELVLLANTSKIPASQVTNALDAARNIINQRVNLYGVANAQVYTEKYGNQNRIVVDLAGVKNLNEAKKLVGQTAKLEFLTIKPNINLSSIVSSTIPLNDFNPKTNLTGADLASASVTYPQGSTTPNIQLNFKPEGLTKFSNIAKANVGKPIGIVLDNKVVENPVINSNLANGVTSSPVITGNFTLNQAQTLVDQLDAGALPIPVKLIEENTIGATLGSQSINASLIAGIIGIIIILIFMIWNYRTLGIIADIALILYALITFALFKIIPITLTLEGIAGFILSIGMAVDANILIFERMKEENIEGRSRKSVLSLGFARAWNSIRDSNISTLITTFVLYMLGSSQIRGFAITLALGVLVSLFTAVTVTRTLLEIFYVK;locus_tag=LOCUS_3330;gene=secD;note=WP_011144152.1 protein translocase subunit SecD (Gloeobacter violaceus) [pid:42.4%25%2C q_cov:84.1%25%2C s_cov:86.2%25%2C Eval:8.1e-72],MGA_336
sequence02	MetaGeneAnnotator	CDS	47319	48212	.	+	0	ID=MGA_337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNIVKYKYIYLGFSLSLMILAIIFISVWGLNFGIDFTGGTQLIYKVQKNEVSPLKKYIENNISQGSIVQLTNTDYQIQTPPLDQQKLKNLETYLQKTFILSKPQSIKTIGPTIGAQLAQDAIYSIIIVMLGIILYIGFAFRKVPRPANSWTFGISAILAMVHDVIIVFGAFAILGHFFKAPIDSLFVTAILTVIGFSVHDTIVVFDRIRENLIKKRLANFSDMINNSLMQTLNRSLNTSFTVLLVLSALFLLGGITIRWFAVALLIGIFSGTYSSIFVASQLLIIYEQYKERKSK;locus_tag=LOCUS_3340;note=WP_015944693.1 protein translocase subunit SecDF (Desulfitobacterium) [pid:38.4%25%2C q_cov:95.3%25%2C s_cov:37.7%25%2C Eval:1.2e-46%2C partial hit],MGA_337
sequence02	MetaGeneAnnotator	CDS	48181	48636	.	+	0	ID=MGA_338;product=NUDIX hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015909403.1;translation=MNNIKKENLNKSIHYTAGGILKNKDNQIFLIFNKNRRTFQLPKGHLEKGETSKMAAIREVREETGYRNIKIISQKSFKIFFTFKDRFDNNLINQKHTIYYIMKLVDEERIHTKEQDDEKLGGDWFYIDDAIKKASFKNIKNILIEMKNLSI;locus_tag=LOCUS_3350;note=WP_015909403.1 NUDIX hydrolase (Chloroflexus aurantiacus) [pid:26.1%25%2C q_cov:92.1%25%2C s_cov:88.2%25%2C Eval:1.9e-09],MGA_338
sequence02	MetaGeneAnnotator	CDS	48607	49473	.	-	0	ID=MGA_339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKYKVLFFGSSLFSSIIEEGLNDYVDILYSVIKSEKVLLYKESKKLKIPTILYENVDKVISESDFCVVASFGNIIPKNLLDKSIFLNIHPSLLPLYRGATPIQSVILNGDKYTGVSIIKMNENMDEGDVYLQKKIELKGNETYNYLEKTLAQKSVSMIFDVISNYESIIPIKQDSSKSTYCNKKNFLRENVKINWDENSLNIIRLIKAASPAWCYFNNKIINIKDAELTDIKSQKSGEIFLQSKDLLIAGADFYIKINDIQKEGGVYMNGREFKNGISNRQILHFN;locus_tag=LOCUS_3360;note=WP_010886235.1 methionyl-tRNA formyltransferase (Rickettsia prowazekii) [pid:32.3%25%2C q_cov:74.7%25%2C s_cov:71.6%25%2C Eval:1.4e-25%2C partial hit],MGA_339
sequence02	MetaGeneAnnotator	CDS	49535	51055	.	+	0	ID=MGA_340;product=ribonuclease Y;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627077.1;translation=MIEEIIIAVLIILLAGIVIYFQQKIKKDGILFKEKIEEAKKISEKKEMELASQKAQEIISQAKNRSIDITREAQRKEMESLKLVSQNENTISQKQSIINDRLESITQKEQKIDEIKANISKIKEDLSEKLEKLSSLSKEDAKNLLLEELDTELVNEKAKKIKEYSDEVRSKSEEISKEILIDTMEKTVSEYIGSATTSILDIPNDDLKGKIIGKEGRNIRAFEKATGVDVIIDDVPGSITISCFDPLRREVAILAMKKLIEDKRIHPGKIEEMVKKAREDISKEIRRFGEKMAYDSGINGLRPELISLLGRMKYRYSYGQNVATHSLEMVKIAANLAESMNANIYLAKKCALFHDIGKVMTAEQEGSHVEIGAEIARKYGLEDEVINAIFSHHDMAEPSCIESAITKIADKISASRPGARNNSSEMYSTRIKKLEDTVREFEGVEEAYAIFAGREIRVIVKPDMIDDAKMKLLSYEIAKKVEKENTYPGTVQITLIRETRSVTKAK;locus_tag=LOCUS_3370;gene=rny;note=WP_201627077.1 ribonuclease Y (Fusobacterium canifelinum) [pid:42.7%25%2C q_cov:92.5%25%2C s_cov:91.0%25%2C Eval:3.6e-111],MGA_340
sequence02	MetaGeneAnnotator	CDS	51062	52363	.	+	0	ID=MGA_341;product=aspartate--tRNA(Asn) ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948698.1;translation=MKRLYSNELKEHIGEEVLIQGFLFQKRIMGNINFLLIRDKFGIVQCVVKDKDQIEILKDVMDESVLEITGNCVEEKRSSIGVEIHNPKVNIISKVKYPLNIEINKPIINANIDTILDNRAISLRSPLIRSVFNIQAQMAKAFREFADKNGSKEIFIPTIVGSATEGGSELFEIKYYDKKAYLGQSGQLYKQMMVGVFERVYAISHSYRAEKFGTSRHTSEFIQYEFEMGFIKDYMDVINFGIDIIRYIKDSVEKENIEDLKIINKELPLIPKNIPIMKLKEAQDLIFEKENIDHRGEKDLSPEDEKLISKIIKDLYKSDLVVITHYPTSKRPFYTMPDPQNPEETLSFDFILRGLEILTGSQRIHEYEQLILAIEKKGLDPKNYEDYLEIFKYGMPHEGGFGMGFERLTQQFLSLSNIREATLFPRDVKRITP;locus_tag=LOCUS_3380;gene=aspS;EC_number=6.1.1.23;note=WP_011948698.1 aspartate--tRNA(Asn) ligase (Clostridium botulinum) [pid:44.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-99],MGA_341
sequence02	MetaGeneAnnotator	CDS	52360	53505	.	-	0	ID=MGA_342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSALTRVIGTTKRTLIYFVIFFISLLLISFIIYFISSSISNYYAYQRSITAQNGFGNIPALSFKNVSFVNNHSSYILDTTQNLNSFPLISPVYKLKKPIITLNSYNIASALISNMGISSTNSSTNNAYVYNWTTPHHTISINLSNLSFNIFLNLNISDYINYQNSNIGNNFNFSSLNNAEMSVYNFLSNLTYQNATGINIPLIQMNMNYFSAVPVTINNNNIEFSNSTGTIPNAYYVFYRQHIGQYKIYTNNPNKPLINFLIDNSNLSGLDGILNANYYNYTITSSSTYNIITPQEAFNLISSGKGSLVSIYPTLSGDAYNVNYNSNYQVSKFYVNNIELGYFESKNYSQYLIPIYILSGTAYLSNNQSAQFYYYVDALKN;locus_tag=LOCUS_3390;note=MGA_342
sequence02	MetaGeneAnnotator	CDS	53550	54959	.	+	0	ID=MGA_343;product=glutamate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147373220.1;translation=MRVRTRIAPSPTGDPHIGTIYQALFDYAYAKQNKGNFILRVEDTDRERFVEGATQKILSSLKWFSIEPDESPVHGGDFGPYVQSERLDIYKKYINDLILKKEAYLCFCTKERLDHIREEQIKNKQQPKYDKHCLNLTKKEIDDLINKGTPSVVRLNVKPGIDIIFNDLIRGEIKIKTDSFDDQVLLKSDGYPTYHAAVVIDDHLMKITHIIRGEEWISSTPKHILLYKAFEWDIPMFAHLSLLRNRDKSKISKRHNNTSIDWYKKEGYLPEALTNYLLLLGWSHPEGKEVYSLDEFIKKFSFDRVSKGGPIFDIDKLNWINGVYIRSKSVIEIKKLIKPYLIYDIENKKLEEIIKLIQDRLKKLSEINDLISFFVETPQIDQEILENIISKDKIDEICDISYKTIEDKGINRDTEETLRNYAIEKGYNIGDFFMIIRIVTTGKKATPPLFDTLSIIGKKETLKRLKNGR;locus_tag=LOCUS_3400;gene=gltX;EC_number=6.1.1.17;note=WP_147373220.1 glutamate--tRNA ligase (Fusobacterium nucleatum) [pid:43.7%25%2C q_cov:99.4%25%2C s_cov:96.9%25%2C Eval:1.7e-115],MGA_343
sequence02	Aragorn:1.2.38	tRNA	54950	55021	.	+	.	ID=Aragorn_19;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0180;note=Aragorn_19
sequence02	MetaGeneAnnotator	CDS	55102	55281	.	+	0	ID=MGA_344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKEENKKLIKLYQEYRQRKILKEDVLQFSRDFMPEMIYRTTKLEGEPVTRQMVSLLFK;locus_tag=LOCUS_3410;note=MGA_344
sequence02	MetaGeneAnnotator	CDS	55281	55913	.	+	0	ID=MGA_345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKSGTKPKGATSYKDTAFGIISREELIKLEIEGIKRGLEYLYDLVQKQEQVAITSELITKLHEISFGWIFPKWAGKYRTIQVTFSDKEAPPYYQVSELMFNFSKDIESRLQNLPTPDKENFIFEIISLSAWFQHRFVFIHPFQDYNGRTARMLTTFILLQFKLPSIELKADTGDDRKQYLKAMRKADDGDYKLLERLISRALTDSLNHI;locus_tag=LOCUS_3420;note=WP_001072162.1 Fic family protein (Leptospira interrogans) [pid:26.3%25%2C q_cov:84.3%25%2C s_cov:52.9%25%2C Eval:1.5e-11%2C partial hit],MGA_345
sequence02	MetaGeneAnnotator	CDS	56145	56882	.	+	0	ID=MGA_346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNITLSGSFRKHLKEIGEVKNIFEKEQNIILSPKFLDTKNSQEEFVLFEEEKSTSPKTLENLHLNAISKSDFLYLVNPKGYIGNSATMEIGYAISRGIPIYSYEKSEEFILNLYIEKYGDPKEILSYHKKHYEKRRQDNFSKSLGLKELQEYISVKVKERGFEDESAKDLLVLLMEEVGEFAKAIRKYSGIKIDSEKKEKYPALQEEIADVLIYIIDLANILNIDLDESYRIKEDINDSRFWNK;locus_tag=LOCUS_3430;note=MGA_346
sequence02	MetaGeneAnnotator	CDS	56891	57478	.	+	0	ID=MGA_347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKILLISGPSGIGKSYILKKLISSSSQYEAILSTTTREMREGESDGIDYEFLTRNEYVNSKQKFFMDNYFFNNFYGIKKKVVDDILEKRKIPVGIIYTPVIHQFLKAYPDALTIFLYPQNIDLWKENLLKRDGSLDRYQYALDELSKWENDYSRYYNKVYYINSNNDDRTIINEINHYFDIYRDREGSIKEEFH;locus_tag=LOCUS_3440;note=WP_000368226.1 guanylate kinase (Staphylococcus) [pid:32.2%25%2C q_cov:74.4%25%2C s_cov:72.0%25%2C Eval:2.0e-12%2C partial hit],MGA_347
sequence02	MetaGeneAnnotator	CDS	57484	57750	.	+	0	ID=MGA_348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDFFISISENMLENNKIQDLKKFNRYYSKCYVVKPLRLRMEIDENRRVFYDLNGLTTKYLFIVFLFTSTILLLCVAFISLAKHLISN;locus_tag=LOCUS_3450;note=MGA_348
sequence02	MetaGeneAnnotator	CDS	58001	58285	.	+	0	ID=MGA_349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKINYTLPVLIFKEDDLFVAYTPALDLSTVGDTYDKALKNFREASGIFFEEVLKKGTLEEVLMEYGWKKTGKTFEPPIQISSEPVNITVPSRR;locus_tag=LOCUS_3460;note=MGA_349
sequence02	MetaGeneAnnotator	CDS	58282	58503	.	+	0	ID=MGA_350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPISWKEFDKFLLYVGCIYDRQKGDHRIYWRSDLKRPIVLPMYKNLPKFVIKNNIRLLGLTNKEYLEILKKI;locus_tag=LOCUS_3470;note=MGA_350
sequence02	MetaGeneAnnotator	CDS	58549	59280	.	+	0	ID=MGA_351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003231443.1;translation=MYQNNKNYYRFKSIISNLQFIDKSILLNKDLILEEDKGIKIYYAPFEYINKDAKIIIIGITPGFTQMQISYRELVKGINNNLTDLQILQNVKKEASFAGVMRKNLVEMLDELNINTYLKISTTDKLFKEYNHLLHSTSVIKYPVFVNNHNYTGHTPNILKTKILYDYIFDGLGKELTSIPDAIIIPLGKIVQDSLNLLIYDNKIDSNRILLNFSHPSGANVNRKNFFNKNKKHYVSQIEKLFK;locus_tag=LOCUS_3480;note=WP_003231443.1 hypothetical protein (Bacillus) [pid:38.2%25%2C q_cov:89.7%25%2C s_cov:85.9%25%2C Eval:3.1e-33],MGA_351
sequence02	MetaGeneAnnotator	CDS	59477	59605	.	+	0	ID=MGA_352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METLEKDIITPLEWLTDDNVQKITMWQTYSTHKDDADDTNDD;locus_tag=LOCUS_3490;note=MGA_352
sequence02	MetaGeneAnnotator	CDS	59683	61509	.	+	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHIRRKYYLDIYKEIFVIYYNNESDQLIDEVIQYVYDKCLDDIFKEIGKIFTFKDNQYYYVMKTAKIGVRYKHSIYVYKINFKHKYNLQYEKLLKEIPMLSSGELIPSVNEMYFNKKKMYFDKKNLSYFSTYKLYKDLLKLKSNKDIEEIFNGRIEDLIPFLTYYKFSKVICNLYYLKTPDERLDIIKEFLTFPFNITYDTFLSEIIAELAYLSSIKKYNDVANKLLSQLINKIENDVYILADTQMVTFKGSFNEKNIDKIYKYINNKVDLYSQIDPGGFIGILNNQDFFISDKYKYKKRKILIISEQNDPHVERVLSFINQKKYHVDVFGVNDLENDGYVDTLSEMTGEFFDTDKRHHRVYDICWWRKPIFITPSQKYLKNINLSNIAKKEKINFLEGIILNMSIKSWVNHKSDMKKASNKIHQLSLIRMNIPRTVITNKKEVIKKIFEDKFIMKTLQSQSLGLEDGVLKTTLTNINDIDKIDLNFMPVICQEFIDKICDIRVTIVGNKIFAAKIFSHSEKSKIDFRTDYSSLTYEKCKLSKDIEDELLRLNKYYNLNYSAIDLIQDKNGEIYFLELNPNGQYLWIEESLTLPISKNIASFLKGDK;locus_tag=LOCUS_3500;note=WP_013228560.1 ATP-grasp ribosomal peptide maturase (Amycolatopsis mediterranei) [pid:33.5%25%2C q_cov:35.9%25%2C s_cov:69.3%25%2C Eval:5.4e-24%2C partial hit],MGA_353
sequence02	MetaGeneAnnotator	CDS	61718	62710	.	+	0	ID=MGA_354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNKNTSYVLIHILNGNNTSKKISEQLRNVNIRSIQRALIRLTDLGLLTRIGTNHPNYSINYEVLLDLNISDKLLENENRPKSMFNHELIEWLTKLSTKELELLLKIDDDKLVFKHPNKMTAKELEYLTIELSWKSSALEGNTYTLLDTQLLLLEGIKAKNRTEFETQMILNHKDAIAFIVENKELFSNNIKFRTVEELHRIIGKNLGIESGIRKQIVRITASNYEPLSNPHQLRENGDYILEIINRTTNSYIKALLALSLIPYLQIFEDGNKRTGRMFANAILISHINKGFSLRQTDAKKLAIAYLAFYEFNSIHALNKILKTELQSN;locus_tag=LOCUS_3510;note=WP_011202410.1 Fic family protein (Bacteroides fragilis) [pid:27.5%25%2C q_cov:58.8%25%2C s_cov:80.6%25%2C Eval:4.5e-10%2C partial hit],MGA_354
sequence02	DFAST	assembly_gap	63002	63058	.	+	.	ID=GAP_3;estimated_length=known;gap_type=within scaffold;linkage_evidence=paired-ends;note=GAP_3
sequence02	MetaGeneAnnotator	CDS	63076	64560	.	-	0	ID=MGA_355;product=IS1634-like element ISMsm6 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011727513.1;translation=MLKIRTTKTGSGSTSIQVVYNTTNKVNIVKHIGTGKTDQEIKDLKNLGYQYIRNFIIQSGQIPMFEDSTLISIDNLSIKESFHTFAHEYLSHIYDINGFNSLGDNLLRDLAIMRIIEPVSKEESIDLLREYFNIKYSHGSLHRGLQKIVEKKDAIESVAVEYAKKNLNFDFSLVFYDVTNLYFESFKSDDLRKPGFNKDGKSQQPQVAIGMVVNSDGYPISIEIFEGNKFEGHTFIPVILALKKKYNMKTTLTVVADAAMLSYRNMKALNDAGLSFIVGARLSKVNRSLLESIVESLGKVEGKYIESETAYGTLVTDYSRKRAQKDKSDRLKQIRKAEYHIQHPAKHKRPRFLKKLDKDKFEINTELIEFDELKEGIKGYYHNLKDIPAQLIVARYHDLWHVEKSFRIAKSDLKARPIFARKEDMILSHILIVFVSLCMSKSLELKTGLSTKLIKKSIFHIMDIVLIDELTHKEFTKRQKFPDSDVFSTLLKMY;locus_tag=LOCUS_3520;note=WP_011727513.1 IS1634-like element ISMsm6 family transposase (Mycolicibacterium smegmatis) [pid:32.0%25%2C q_cov:92.1%25%2C s_cov:92.7%25%2C Eval:2.1e-60],MGA_355
sequence02	MetaGeneAnnotator	CDS	64701	65054	.	+	0	ID=MGA_356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDLYKLNIIKSSIYNIDKLTAFADYKVPQLMRDLDILKYSADLSYKIDNLIEIPAGSNDEVEIRIATIWAIELCKRQIKKYIPQVTSTQVHGVFWFSGQKTNIEIKPYHRTRTIWY;locus_tag=LOCUS_3530;note=MGA_356
sequence02	MetaGeneAnnotator	CDS	65168	65428	.	-	0	ID=MGA_357;product=BrnA antitoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932501.1;translation=MKQIPKFKNEEEERDFWSTHDTTDYIESMVEVKGDFTNLKPSTKTITIRVTESLLNSLKLLAHKQDVPYQSLIKIYLSEKIKEKTR;locus_tag=LOCUS_3540;note=WP_010932501.1 BrnA antitoxin family protein (Chlorobaculum tepidum) [pid:50.0%25%2C q_cov:93.0%25%2C s_cov:79.2%25%2C Eval:6.1e-19],MGA_357
sequence02	MetaGeneAnnotator	CDS	65425	65745	.	-	0	ID=MGA_358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGIIDISKFNAFDWDDGNVHKNKDKHNVIKKECEEVFFNKPYIVLYNQKHSIHEKRFFIYGYTDKKRFLIIIFTIRGNKIRVISARDQSKKEKTYYINKTKGGEL;locus_tag=LOCUS_3550;note=MGA_358
sequence02	MetaGeneAnnotator	CDS	65987	66241	.	+	0	ID=MGA_359;product=DUF433 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_149266694.1;translation=MKTMIVQDNKILNGKPVIKGTRMSVEIILELLSSGLEINDILKEYEYLNRAQVLSAISYASNLMKKEDTYIFSNQKSVINEIPN;locus_tag=LOCUS_3560;note=WP_149266694.1 DUF433 domain-containing protein (Deferribacter autotrophicus) [pid:37.3%25%2C q_cov:79.8%25%2C s_cov:88.2%25%2C Eval:1.4e-07],MGA_359
sequence02	MetaGeneAnnotator	CDS	66225	66578	.	+	0	ID=MGA_360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLIDANIPKSVIDYLINNNFDVIDIKKVNITMSDIDIIKLAQKEQRIIITLDKDFITLIQYPKYQVSTIVIRLKNLKSENIISYLEELFEKQNQNLLNNSLTIINNDQADSFEFE;locus_tag=LOCUS_3570;note=MGA_360
sequence02	MetaGeneAnnotator	CDS	66674	67660	.	-	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKQTTSEKIIEYINKHGKATGKELSDYIPTITSRAIRKQLKNLLEKNILENIGKPPKVYYLIANNKNIPNPVSINKSVMTLINDRYLYISPTGEMKEGLEGFIMWCEKTNQDIKNASIKYLETIKKYDKFKKNSLIDGMSKMNSTFDTVFLDKLFYLDFYSIERFGKTKLGQMLLYSKQSQNKVLIKKLIEEIRPKILKIIKDYNIDGVLFIPPTVKREIQFMKELEKFLKLPTKKMSVTKIKTEIIIPQKTLSILKDRIENAKRTIMVDDFELYTNILIIDDAVGSGATLNETAKQIKDKHVVKGYIIGLAITGSFKGFDIISEV;locus_tag=LOCUS_3580;note=MGA_361
sequence02	Aragorn:1.2.38	tRNA	67994	68080	.	+	.	ID=Aragorn_20;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0190;note=Aragorn_20
sequence02	MetaGeneAnnotator	CDS	68416	68619	.	+	0	ID=MGA_362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFSKGDIQLTLSSPHADEHISPEFEEYLDKKRAEIEAETKNGNLHTAYSGKNIIDAARNFKDDEEN;locus_tag=LOCUS_3590;note=MGA_362
sequence02	MetaGeneAnnotator	CDS	68582	68800	.	+	0	ID=MGA_363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLEISKMTKRIEYTKDFIKHFKARISNQTNLEQRVQQRIDLFLEDRFTPILQDHRLTGKLKMYRSFSVTRD;locus_tag=LOCUS_3600;note=MGA_363
sequence02	MetaGeneAnnotator	CDS	69690	71147	.	+	0	ID=MGA_364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANQIEEPSADLDLRFSKNKPYSEDVVTQRSLILGEMIGLTSDQLAKIQEDRFTLFKIDEEKVEALLRILEKIGFTNPTKLIEDFPNIMGSKIDSVRGKIDNLKDLGFANPVKLIEILPSILSYNVESVRDKINNLRDLGFANPVKLIEGFPSIIGSKTESVRDKINNLRNLGFANPVKLIEGQPTILGYNIESIKEKVANLRNLGFANPVKLIERQPSILSFKIDSIKEKVDNFEDLGFTNPVRLIERQPAILNLNIDSIKSKMDNLEDLGFENPVKLIEEQPNILNLNIDTVRDKINNLRDLGFENPVKLIVEQPNILGYNIDSIKVKMDNLKDLGFANLIKLIERQPSILSYSIDSVRRRVRKVGLLLHHEYDNSIDIFEEERFLFSTKPLKMNIIWRIIQDNEDLGIKNPVEKKRLYVKYLKNNLEDVLFEYIYNNKGNGVSKEEKIEKIIDEWKILKNKKHDREWKILYDYMRGYHKESL;locus_tag=LOCUS_3610;note=MGA_364
sequence02	MetaGeneAnnotator	CDS	71418	71966	.	+	0	ID=MGA_365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDSFFIKDIEVFYKIVYSSRAKKVRLSIFKDNTLNIIIPKFLKRTDITKLILEKQDWILSTIKENKDNILIEDVENLDKIKSRIKVFLEDRIDYYNSFYNFEFFRISIRRSKTRWGSCSAKKNLNFNYKIFYLPQSLADYIIVHEICHLKEFNHSKSFWKLVGDILPDYKVLKKELKRYSL;locus_tag=LOCUS_3620;note=WP_011948163.1 M48 family metallopeptidase (Clostridium botulinum) [pid:44.3%25%2C q_cov:66.5%25%2C s_cov:51.9%25%2C Eval:5.7e-24%2C partial hit],MGA_365
sequence02	MetaGeneAnnotator	CDS	72045	74183	.	+	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNENLEGAQFLHEVDSTLHTGAYVEKIQNQLDLDKRSQKPSQKISSWLEVLEKTHGHNDSKVNERIFDSYFEQYLIKKENIPNSFYATQQRLAEERGEGKIKITPELRDSFAEITILDQKNSLLNWLEYLTMEDTDMYPVWLKYWIFTGVVKLGKYDEEKKSFLRRSKSTIVPFPDLNREALSYVADQIQRKVKGEPSNENLLKNQNFGTYYLHAIEKVTPTRSRFREEDFYYTYDNEECFTILGGVVKAFGKEGELYENKASDMIRVTEICSRVSKGTELNIEDLRFLYEIDRRIEGFGYRKDPRINNLLERRNIKEDLSLITGYSADEISITTKDALSGNIKFHYGDIDLSELTSAEGLVFPETVIGSIYLDELRSAEDLKFPEIVGGILFLDELRSAEGLIFPETVRGGLYLNGLRSAKGLKLPEIVRGSLYLNELTSAEDLKLPERVEGSLSLNGLTSAEDLKLPERVEGSLSLNGLTSAEGLKMPEIIEGNLYLNGLNSAKGLKLPEIIGGDLDFSGFNSSEELKLPEIVGGDINLGRLEFSEGLILPKTVGGDIYLYKLLISPEELKLPEIVGGSLYLGIIRSAEGLKFPKRIKGNLGLSRLKSSEGLKLPERVEGNLYLNSLNSAKGLKLPRIVKGDLNLSSLASTEGLIFPKTVGRDLKLSGLTSSKDLELPEIVEGSLYFNKLSSTERQSLKLKYPNIKIYPL;locus_tag=LOCUS_3630;note=MGA_366
sequence02	MetaGeneAnnotator	CDS	74400	75599	.	+	0	ID=MGA_367;product=elongation factor Tu;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393939.1;translation=MVAFDRNKPHKNVGTIGHVDHGKTTLTAAILKVLAAAGYAAQNKSVDNLDSAPEEKARGVTIATAHTEYETLTTHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLARQVGVPKIVVFLNKVDMVDDPELIDLVEMEVRELLSKYDFDGDATPIIRGSALKALEHACGKEDCEWCGPILTLMNNVDDYIPVPERDVDKPFLLPVEDVFSIEGRGTVATGRVERGLLKVGEEVELVGLRDDIRKTTVTGIEMFNKSLDTAQAGDNVGLLLRGLKREDVERGEVIAKSGSVTPHTEFESEVYILTKEEGGRHSQFVSGYRPQFYIRTTDVTGEIQLPEGVDVALPGDNIKMTVRLITPVALEEGVRFAIREGGRTVGAGVISKIIK;locus_tag=LOCUS_3640;gene=tuf;note=WP_011393939.1 elongation factor Tu (Moorella thermoacetica) [pid:73.0%25%2C q_cov:99.2%25%2C s_cov:98.8%25%2C Eval:2.1e-172],MGA_367
sequence02	MetaGeneAnnotator	CDS	75606	75908	.	+	0	ID=MGA_368;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010938597.1;translation=MEKKIRVKLKGFDVQVLDKSAQKIIDAAISSGAKTSGPIPLPTRIKKFTLNRSPHIDKRSMETFEMRVHKRLIDILSPTGKTIDALTHLQLPVGVGIEIK;locus_tag=LOCUS_3650;gene=rpsJ;note=WP_010938597.1 30S ribosomal protein S10 (Desulfovibrionaceae) [pid:59.8%25%2C q_cov:97.0%25%2C s_cov:92.4%25%2C Eval:2.2e-29],MGA_368
sequence02	MetaGeneAnnotator	CDS	75958	76554	.	+	0	ID=MGA_369;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011173714.1;translation=MKGILGIKKDMTQIFRENGVVVPVTLIDTTDCVVCQEKNIEKDGYKSVVLGLGVKKHPTKPEKGKYKNLRTPMFVKEVGEIDNVKLNDKIEASVFEIGEKVNVWGISKGKGFAGVIKRWGFAGGPRTHGQSDKERHGGSIGSGTTPGRVVKGKKMPGRMGGDKIVVKNLEIVDIKENILVLKGAVPGARGGLIVIKSV;locus_tag=LOCUS_3660;gene=rplC;note=WP_011173714.1 50S ribosomal protein L3 (Thermus thermophilus) [pid:46.5%25%2C q_cov:99.0%25%2C s_cov:96.6%25%2C Eval:1.7e-43],MGA_369
sequence02	MetaGeneAnnotator	CDS	76551	77183	.	+	0	ID=MGA_370;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258232.1;translation=MKVNIYKQNGEKSTQKLELKEEVFASKIYTSLMEQYIYIHNVNTRQGTRSTKGRGEVSGTGKKPWKNNKVGKARTGSMRTNIFRTGGVSHGPKPYEYNLVMPKKMRRKALYSSLSIKKNEDSLIFVDKLVFEKNKLTKQAVDFLEKLSLNNIKTLIITENKDENIINAFSNIKKVKVLGAPYINSYDILNYRKIIFLKDSVVSIPGYNEI;locus_tag=LOCUS_3670;gene=rplD;note=WP_012258232.1 50S ribosomal protein L4 (Chloroflexus aurantiacus) [pid:38.1%25%2C q_cov:98.6%25%2C s_cov:93.7%25%2C Eval:9.6e-35],MGA_370
sequence02	MetaGeneAnnotator	CDS	77189	77590	.	+	0	ID=MGA_371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKSDVLIKPILSEKVLKNVSMNWYGFVVARKSDKIGVKYAVEKAFGVDVIEIRLLAQKGKKIRDTNIKNRLIKNKRADLKKAYVRIKEGQSINLLGDEGTDKPKKKTKKIVEDKSSKKEEKITKKVKNNEKK;locus_tag=LOCUS_3680;note=WP_003974265.1 50S ribosomal protein L23 (Streptomyces) [pid:39.8%25%2C q_cov:69.9%25%2C s_cov:63.3%25%2C Eval:1.1e-09%2C partial hit],MGA_371
sequence02	MetaGeneAnnotator	CDS	77577	78431	.	+	0	ID=MGA_372;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459099.1;translation=MKRSNNKQMKTYNPVTPTLRHTVLVSKDGIRKNTPEKSLLKKIQKHSGRNSRGVITVRHQGGGVKRMYRMIDFKRDKYDIPSKVFSIEYDPNRSARIALLHYTDGEKRYIIAPVDLKVGMVVLSGENAPIEVGNSLPLKNIPIGSEIYNIELSKGRGGILVRSAGGSAKLQSVEGEMALIKLPSGEVRYIRAENFASLGRVGNTEHGNQKLGKAGRSRYLGIRPSVRGMAMHPNQHPHGGGEGKGQVGGISKDMWGHRRGTKTRKNKITDKYILITRKGRRVKK;locus_tag=LOCUS_3690;gene=rplB;note=WP_011459099.1 50S ribosomal protein L2 (Desulfitobacterium) [pid:52.6%25%2C q_cov:96.1%25%2C s_cov:99.3%25%2C Eval:2.8e-79],MGA_372
sequence02	MetaGeneAnnotator	CDS	78434	78739	.	+	0	ID=MGA_373;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966408.1;translation=MSRSNKKGPYVDQKLLKKILKQKETGDRKLIKTWARSSSISPDMVGFTIAVHNGRNHIPILINETMVGHKLGEFALTRTFRGHSKKGKIAQSQGSVGRVEK;locus_tag=LOCUS_3700;gene=rpsS;note=WP_010966408.1 30S ribosomal protein S19 (Clostridium) [pid:61.4%25%2C q_cov:87.1%25%2C s_cov:94.6%25%2C Eval:1.2e-27],MGA_373
sequence02	MetaGeneAnnotator	CDS	78742	79086	.	+	0	ID=MGA_374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKIAIAKIKNIKGSARKTRIVINAIKKMTPLDAIEHLSFMNYRNSPVLLKIIKTAINNANVLKMEAPYVFEEIKVDEGMTRQGIRFKSKGMVEIRRKRYCNITVKIKEDIKE;locus_tag=LOCUS_3710;note=MGA_374
sequence02	MetaGeneAnnotator	CDS	79086	79739	.	+	0	ID=MGA_375;product=30S ribosomal protein S3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005810152.1;translation=MGQKIHPTGFRIGINKNYKSLWFAEKGLYKEQLQQDLKVRKFLKKELKQAGIGDIVIKRSLNNVSIDISVARPGIVIGRGGQGLELLKKTLDVMFGSSIHLDVHDIKKPDLNAMIVAQNLVDGIMKRMSAKFLMDKELVKIKEAGGLGAKIEISGRVNGAEIHRTDKARFGSVPLQTLRADIDYADAYAKTKTVGIIGIKVWIYKGEKNYIDEDTLS;locus_tag=LOCUS_3720;gene=rpsC;note=WP_005810152.1 30S ribosomal protein S3 (Desulfitobacterium) [pid:48.8%25%2C q_cov:95.4%25%2C s_cov:93.6%25%2C Eval:6.6e-50],MGA_375
sequence02	MetaGeneAnnotator	CDS	79736	80155	.	+	0	ID=MGA_376;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003701312.1;translation=MIMQPKRQKFRRTFRGNINSIASNGYTLSFGEYGLKAMDSGLMTARQIESVRKTITHHTKRGGKVWIRVFPYMPITRKSEGVKMGSGKGNVIGFGTPIKAGSILFEIVGVSEDMAKEAFRLASHKIPFKVKFVKVEDQY;locus_tag=LOCUS_3730;gene=rplP;note=WP_003701312.1 50S ribosomal protein L16 (Ligilactobacillus salivarius) [pid:54.4%25%2C q_cov:97.8%25%2C s_cov:94.4%25%2C Eval:5.1e-37],MGA_376
sequence02	MetaGeneAnnotator	CDS	80161	80382	.	+	0	ID=MGA_377;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIREIRKLDIKDIYKEINKSQVELLKRKIVLKLQITQKSSSEGINVSEISKMKKYIAMLHTVLNEKNFSIKE;locus_tag=LOCUS_3740;note=MGA_377
sequence02	MetaGeneAnnotator	CDS	80382	80804	.	+	0	ID=MGA_378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEKKETKKKNIIKTSKKVVEKKLVEKKAKVVEKKPVVSKKVEIKVKKDKQVIEKKEIKKSKRRILKGIVIKDNSLSHGFLKVEVTRIVPHPLYKKLIKKKKKFLVTCMRDIEISIGDKVLIEETKPISKKISFRYVSKV;locus_tag=LOCUS_3750;note=MGA_378
sequence02	MetaGeneAnnotator	CDS	80811	81182	.	+	0	ID=MGA_379;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081816.1;translation=MLQKESVIKCIDNTGAKELRIIGTIGASFRRYSRIGDRVKCAVVKATPSGQISLHDKVTAVIVRTRKETRRKDGSYIRFDDNAAVIIDDKSGEPKGTSVFGPVARELRDKGYNKLVSLADEVL;locus_tag=LOCUS_3760;gene=rplN;note=WP_004081816.1 50S ribosomal protein L14 (Thermotoga maritima) [pid:56.6%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:5.7e-33],MGA_379
sequence02	MetaGeneAnnotator	CDS	81179	81469	.	+	0	ID=MGA_380;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546700.1;translation=MKIRLNDTVKILSGNSKGKTAKVTKVLSSKEKLYVDGINIKKKFVKGQGIVDIQKPINPSIVSLVCPKCGKQTRIGFVINDKGFKDRICVKCKSVV;locus_tag=LOCUS_3770;gene=rplX;note=WP_012546700.1 50S ribosomal protein L24 (Thermodesulfovibrio sp. Kuro-1) [pid:46.1%25%2C q_cov:100.0%25%2C s_cov:97.1%25%2C Eval:2.6e-17],MGA_380
sequence02	MetaGeneAnnotator	CDS	81466	82188	.	+	0	ID=MGA_381;product=23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546281.1;translation=MRNYIISGKNPVLSLLRLNLKVIEVNIEDNIRFDEKLSEIVALCKNKNVIVNYKKRDFFKNLDESQGICAKFEKDDHLDIDKILEKESSIVILKDIVYKQNLGAIIRSCALGGVDLLVLPKKEEGLHLTSEVLRVSQGGALSLNIIYVNIFEFIKKLKYFGIPLFGIENFGKDIYFNENLKGSVAFLFGSESDSLSEPLLKKCDKILKIPQSKKSSVNSLNIASSVSIIIYEKIRQNYIK;locus_tag=LOCUS_3780;gene=rlmB;note=WP_012546281.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Thermodesulfovibrio) [pid:27.5%25%2C q_cov:97.9%25%2C s_cov:96.4%25%2C Eval:9.1e-22],MGA_381
sequence02	MetaGeneAnnotator	CDS	82185	82724	.	+	0	ID=MGA_382;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228843.1;translation=MSNLKEEYIKKIREEIKAEMKLDNVYAVPTLSKIIVNSGVSAAVSNPDALNEMKEIISLITSQAPLITKAKYSISNFHIRKGMNLGVMVTLRNDRMWNFYDKLVKIVIPRFKDFRGLSLSAFDKSGNYNLGFSEHTVFPEVAQMYVDRVKSLQVTIVTTAKDKESAEILFKHLGFPLEK;locus_tag=LOCUS_3790;gene=rplE;note=WP_011228843.1 50S ribosomal protein L5 (Thermus) [pid:43.8%25%2C q_cov:98.3%25%2C s_cov:96.7%25%2C Eval:1.9e-40],MGA_382
sequence02	MetaGeneAnnotator	CDS	82729	82923	.	+	0	ID=MGA_383;product=type Z 30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081809.1;translation=MARKALLDKQQERIKKAKYEVRKYTRCLECGRSKAVFRDFGLCRICLRHFILEGKVPGVKKASW;locus_tag=LOCUS_3800;note=WP_004081809.1 type Z 30S ribosomal protein S14 (Thermotoga maritima) [pid:59.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.7e-17],MGA_383
sequence02	MetaGeneAnnotator	CDS	82936	83313	.	+	0	ID=MGA_384;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003421148.1;translation=MTDPIADLLTRIRNAIMRGKTEVSVPVSNIKVDIVRVLKEIGLIKSFDIVDNNIIIVLKYTKGVNKISGIIRVSKPSLRVYSSYRRIPKVLNGLGYYIVSTPQGILSDREAIKNKLGGELICKVW;locus_tag=LOCUS_3810;gene=rpsH;note=WP_003421148.1 30S ribosomal protein S8 (Clostridioides) [pid:49.2%25%2C q_cov:100.0%25%2C s_cov:98.5%25%2C Eval:4.9e-29],MGA_384
sequence02	MetaGeneAnnotator	CDS	83322	83867	.	+	0	ID=MGA_385;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003860588.1;translation=MSRIGRMPIELNDKTEVSISPQSITVKGPKGELSCDNSFRVMITNKDGKIYVERKSDSKEDKSFHGLYRSLINNMVIGVNDGFVKELEIRGIGYRVALNNGDLVFNVGYSHQVFVKKIDGIEFEVVDNNFIKISGIDKQKVGQVAANIRKIRKPEPYKGKGIRYKDEVVIKKAGKSAKSAK;locus_tag=LOCUS_3820;gene=rplF;note=WP_003860588.1 50S ribosomal protein L6 (Corynebacterium) [pid:50.9%25%2C q_cov:93.4%25%2C s_cov:94.9%25%2C Eval:1.4e-43],MGA_385
sequence02	MetaGeneAnnotator	CDS	83870	84211	.	+	0	ID=MGA_386;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003705309.1;translation=MKRISNRTKRHFIIRKKVKGTSSVPRLSVFRSNKSIYVQIIDDIESKTFLGMSSKVILDGKNKTEKAYNLGLEFAKIAKEKGFTKVVFDRGGNKYHGRVKAFAEGARKSGLIF;locus_tag=LOCUS_3830;gene=rplR;note=WP_003705309.1 50S ribosomal protein L18 (Ligilactobacillus) [pid:51.9%25%2C q_cov:94.7%25%2C s_cov:91.5%25%2C Eval:1.1e-23],MGA_386
sequence02	MetaGeneAnnotator	CDS	84223	84714	.	+	0	ID=MGA_387;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002779428.1;translation=MSEEKLKKEIIIDESYIEDNIADYESHILETSRVTKVTKGAKRFRFSAMVVVGNRKGSVGIGKGVGADPKSAIEKSIRRAKENIIKINITENTITHEITQDFKSSRLMFKPAVPGTGLIAGKNIKPILELAGVKDVLSKRLGTSNKKSNIYCCILALQNLKAR;locus_tag=LOCUS_3840;gene=rpsE;note=WP_002779428.1 30S ribosomal protein S5 (Campylobacter) [pid:43.7%25%2C q_cov:87.1%25%2C s_cov:96.6%25%2C Eval:1.8e-28],MGA_387
sequence02	MetaGeneAnnotator	CDS	84716	85144	.	+	0	ID=MGA_388;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723680.1;translation=MLIKNKITTKKKKIIGRGIGSGKGGHTSTRGMKGQKSRSGSHISKFFEGGQNPLIKRVPYLKGFKRFSDEIEIMNLDMIDKYFTDEQEISLNLLQERGFVRGNKVKILSRGKLTKSFKFKESDFSFSLNAKKEIEKSKSHMI;locus_tag=LOCUS_3850;gene=rplO;note=WP_003723680.1 50S ribosomal protein L15 (Listeria) [pid:41.5%25%2C q_cov:89.4%25%2C s_cov:87.0%25%2C Eval:4.0e-16],MGA_388
sequence02	MetaGeneAnnotator	CDS	85146	86432	.	+	0	ID=MGA_389;product=preprotein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583364.1;translation=MQKITNTIRQIFSAPDLRRKILFTFFVIVIFRLFASIPAPGVNVATLASVFKNNQALSVLNIFSGGTLSTAAIVGIGLGPFITATVIFQFLAYIVPKIKDLQEQGERGNKIINQYTRIITVPIALLQSYGIYLFLLNASQTPIISKLSGLSLLTFILTLTAGSIFLMWLGELITEYGVGDGISLLIALGILATLPEQLISAIQTQGVNGIVIIVLILLFIGMIVSIILINESTRNVPVNYTRMARGMELVGGEKSYIPIKINTAGVMPIIFALSLLLLPTELSQILQNNKNHIIHIVATNVFSFLSNQTYYGILYAIFIIFMTYFYTFIVFKPEDVARDIQKQGGFVPGFRPGKQTENYIYDILLRLTFVGAIFLAVIALIPLIVQASTNISSVSIGGTSILIIVTVILTMIKNIKAQMITRSYSVYI;locus_tag=LOCUS_3860;gene=secY;note=WP_012583364.1 preprotein translocase subunit SecY (Dictyoglomus turgidum) [pid:36.2%25%2C q_cov:98.8%25%2C s_cov:99.3%25%2C Eval:1.2e-77],MGA_389
sequence02	MetaGeneAnnotator	CDS	86429	87583	.	-	0	ID=MGA_390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIKELINLEKSRNNIFILFNVNILLFLIFILNIHFNQYIYIYPFSIIIFLFIINLISFFIIPQKKYEFKKYFLIVIGIILFSFENIFLYHLGNYSFESLILILYLSVFFIEDKALLYTLITEIILILMNIFNPKITYLLYLSFFLIFFSILISYLKKISIYQQKKVDDITKDNMDLENLKTSNINFISQIMSEIDNYVKNVPQDKDLKKNIITINNLSKKINKKIEILNNDNYLDISVFKIDKLISEILEELYPLIKSKEISFKFSKYTKEDYFINSDMRRIKEILYEVIENSIIFSLPKGLIEIIQEKSSDKLNIIIINDSDNDFNEKKITKLNYSHGEGSSLGYGLFITKKYSDITQGSIDIIKKRKTYKVISSIYLKFII;locus_tag=LOCUS_3870;note=MGA_390
sequence02	MetaGeneAnnotator	CDS	87585	88385	.	-	0	ID=MGA_391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINIYLILLKEKNLFKTMFILNFTFFILSFFYNIEYSNITYILLYIFINSYILNIYIYNLKQTDLYQDIKDKYIENKSNNILENKSLKNLKLNLLSNIYDISKYLNLNISLDKTSIYLKNIFFVKEVENKTISLNLESFDLENILNEIKNLYDINLINKIELVSNINSEKNIIMDKEKLSNFFSLILNFIEEENIPSMKVKFIVSGQKIDMELVFEEKIYNYINNDNINNIEKTTLWIKVSELLSSIIGENYVKNDNSITLSFKKI;locus_tag=LOCUS_3880;note=MGA_391
sequence02	MetaGeneAnnotator	CDS	88713	89267	.	+	0	ID=MGA_392;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879988.1;translation=MKILSFIGPSGTGKGTQASLFKNLGFDIISGGEILRSLYELKTKEGIELFEKYWSKGIWVPDDIILKLIFDSINFKQKRDLILDACPRTLNQAILLDKFLFLNNQKLEYVFEFKLSKEIILERIKNRKIKEKRKDDISLSVIEKRLLEYSKNIPEIESYYKERLVYIDASIDKSIIFDIIANKI;locus_tag=LOCUS_3890;EC_number=2.7.4.3;note=WP_010879988.1 adenylate kinase (Aquifex aeolicus) [pid:33.7%25%2C q_cov:91.3%25%2C s_cov:90.8%25%2C Eval:1.9e-14],MGA_392
sequence02	MetaGeneAnnotator	CDS	89264	90007	.	+	0	ID=MGA_393;product=type I methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943464.1;translation=MNPKSKTEIEYMRKGGKLLAKILNILKQNSKIGITENELDKMSQELCKEYAVSPAFFKYKGFPKSLCISVNDKIVHGIATDRKIKEGDLVSLDFGIIYKGLYTDAAVSFLVSSKDPKIEDFIAATKKSRDEGIKASLENNFVGDISFAMQKPILEKGYSIVKELAGHGIGYKLHEDPFILGYGRPKTGMKLRRNMTIAIESMINMGSADILEENDNWTIRTKDGSLSCHFEHTILITDSTPEILTLL;locus_tag=LOCUS_3900;gene=map;EC_number=3.4.11.18;note=WP_010943464.1 type I methionyl aminopeptidase (Geobacter sulfurreducens) [pid:43.4%25%2C q_cov:98.8%25%2C s_cov:98.4%25%2C Eval:1.9e-54],MGA_393
sequence02	MetaGeneAnnotator	CDS	90002	91846	.	-	0	ID=MGA_394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSNNLSLLLSSQGKLGGSIGYLISQYLIGELTRAGAIIILIPIIIISLMMSLSYSFIESVRKIRDILNNIFIFIERIFENKNNIPNKEDLKNKQNIEITAIDGKENLKDDDNMIGDLPRKIFSQKKEINQKSEHREEIHFDNWELPDIDLLNDVQRINVINKDEIKRNSDIIERTLSSFNITSRIVDVAIGPVVTRYALQIKTGTKVSKINTLSRDLALALAAPSGSVRIDAPIPGTSLVGIEMPNPKSQIVSFKNIIESEEFSNQKIKLPLVLGEDVTGQIVIKDLADMPHLLVAGSTGSGKSMLINSFLLGLLYKHSPDTLKLILVDPKHVELSIYSGIPHLLTPVITDMSLVKSALVWSLKEMDRRYELLKKEGVRNIDGYNDLKEKDEKLANIIIFIDEMADLILTKGADIENSIIRLAQMARAVGIHLILATQRPSVNVITGLIKANIPARIALSVVSSIDSRVILDQIGAEALLGRGDMLFKSPDLGRTIRLQGPLVTETEISRVIEFISKQANENDYNQEILNPQNLSEFSNTENLSDDELYPEALKIVVLAKRGSASILQSKLKIGYARAARLIAELESNGVVGPQDGSKPREVLISELEDDIPS;locus_tag=LOCUS_3910;note=WP_010965118.1 DNA translocase FtsK (Clostridium) [pid:46.0%25%2C q_cov:87.3%25%2C s_cov:68.8%25%2C Eval:8.5e-126%2C partial hit],MGA_394
sequence02	MetaGeneAnnotator	CDS	91875	92087	.	+	0	ID=MGA_395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIINPNIEERVLNFILVPKNLKERRKENIAKIIIPSPKIKYKKLRTCTCVKKPMNDNNDNINNNTPINV;locus_tag=LOCUS_3920;note=MGA_395
sequence02	MetaGeneAnnotator	CDS	92238	92975	.	+	0	ID=MGA_396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKSISKIRISLYVFLIFVVAFVISYLFYYINFNKSTTPLFACDITYQPSVKSYPSYPHFCINKNKVYTGVIETNYGNINIALYPKAAPKTVNSFVFLAKSGFYNNLIFQRVIKGFVIQGGDPTGTGSGGPGYTFNDEINAVSLGIPSVLIKAYVKKGYTYSSAYKSIPFSTGVLAMANSGANTNGSQFFITLGKDTQLNGMYTVFGKVTKGMSVAQKIGNVPVNKKAHDAPLYKVIIKRIIIN;locus_tag=LOCUS_3930;note=WP_012258683.1 peptidylprolyl isomerase (Chloroflexus aurantiacus) [pid:44.6%25%2C q_cov:68.6%25%2C s_cov:90.0%25%2C Eval:4.2e-30%2C partial hit],MGA_396
sequence02	MetaGeneAnnotator	CDS	93016	93375	.	-	0	ID=MGA_397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDNIFSTSYKRFININDFDTYQYHKDMDKQQKITIRIESSFMEIIRKEAQIKKSSIQSVINRLIDKGIDEEIYNKSTFDGIREINKVILDNSVIVKWYLKDEESSSQTSKISYFIFNL;locus_tag=LOCUS_3940;note=MGA_397
sequence02	MetaGeneAnnotator	CDS	93587	95365	.	-	0	ID=MGA_398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDTKVFVDLDDEITFISEKIIRTPTNRVILVVPERSGIITSLVGLKMLRKVIDKFEKDVVIVTTDKQGKNIALNAGYISVDKIGEVDEDIWKESVRLKKRLHDSLIMSNKIPYKEDIFQSVDNTNDLKENKEIIVPEKKDETPHKENIRREVFENEKPLQKSKKISFEGFDLIAGGDAASYITDDDIPIKKDNNEETKKPINRGNLFKSSFYKDTTINNKRNKLILYISVFIILLIFIIYYLFLTTANISISVLGKNIKSNTKINLSLNVSHINPNTLTIPAQIYSASESGSNSINTTGQKNTVQGNYASGSVIFYNSTNSAVTIPSNTTFTDNNQYSFTTTNSVSVPAAQSSITGVQNGASSSQNVSLNTNTPPAASDTFSNPNYTGILASNQNAFTQGNAQIIKQQVVSSQDYTNLENNLSQSLFKSGQQKLLSQNNNVNLIKQSIKNIVVNKSFDHQIGDVAQVLNLSENTKTEAQGYISQDITKVISENIQNKGDLIKNLKYTILNIQVSTLGEIQISLSYTGKLYKNINKSEIISKIKGKSFSQARSYIKSLNNIQNISITSNPYIFTILGFLPSNSNNIYIHISN;locus_tag=LOCUS_3950;note=MGA_398
sequence02	MetaGeneAnnotator	CDS	95368	96594	.	-	0	ID=MGA_399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLFGKKTKEEDLSFISLDIGTEFVKALICDIENDNVVIHGFGKVRQPLNAMKGGVVTNIKSVVTTCQKAIEIGMDEVVDIPKIPKKVVVGIAGELVKGVGIKLNYEREKADVKINDEEIKNILESVHSKAYEEAVKKFSESTGTDKTQIKLINATVTDTYIDDYKVSTPLGFQGKKVTLNIYFVYTPLIFAGAIDDILQSLDLKPIIIAVQPFAIARSIKGARDINFDAIIIDIGGGTTDIAIISQGAFQDTQMFAMGGRSFTKRIASDLSISYEEAEKLKIDYTEQELEKSKSLQIRDSIKKDLDLWISGVEISLEEIQNIKVYPDQILLAGGGSKLAEIRSKLIEYPWSAILPFHRNPKINFLSPEKIDGVIDKTLKLTKPEDVTPVSLARIVLDIIKDEVIIAI;locus_tag=LOCUS_3960;note=WP_010943689.1 cell division protein FtsA (Geobacter sulfurreducens) [pid:28.0%25%2C q_cov:67.2%25%2C s_cov:61.8%25%2C Eval:1.7e-17%2C partial hit],MGA_399
sequence02	MetaGeneAnnotator	CDS	96628	96909	.	-	0	ID=MGA_400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTIYNIIIIIASLLIIVILVLLIKIIFDIDQNVRKGKDIIENIKDITSNTKEEQEKIHSFIDNKIEKVNFVTKMKTAESIFSTLYKIIKKKN;locus_tag=LOCUS_3970;note=MGA_400
sequence02	MetaGeneAnnotator	CDS	96913	97833	.	-	0	ID=MGA_401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNISQILKKTREKNKITLEEASSKTKIRIEYLEALEKGEFEKIPTISASKGFIKIYSKFLGINSEDAITLFRRDNKLEENHMLKKKKKKLRINSLIYRKLNLYLFFLLIVIFLLIVYGIHEYFIFITPPKLDILYPKSNILSVNKSQIEFKGSINPANLLYIDGEKIQNVSLNGNFSTQIGLQEGLNNIQIDVKSILGETNYKNYYITYINKKKLAQEKNNTFYIEIKSKNNPVFINAIVQNKTIYNKILKGNVTLKGVYNIVLTTSKLQNISLYYNNKNIALQGSGFTVIVIKYNKGKIDITKN;locus_tag=LOCUS_3980;note=MGA_401
sequence02	MetaGeneAnnotator	CDS	97830	98576	.	-	0	ID=MGA_402;product=TatD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002376119.1;translation=MMIDTHAHINKEYYPQIDDVLKKIIESGVEKIIVPGTSIQDSRENPLYKNDILYYAVGIHPSEKYPIEKKEIEKLVSKNTIAIGECGLDYFYPVHSLELQEKNFRVQIELSIEKNLPLIVHTREALTDTLKILKDYYKKGDENKGVIHSASGDIKILEKIEDLGFYLSFNGISTFKNAKNIRDLIINTDIKKILIETDSPFLTPEPKRQEKINTSANLHYILENIEKLKNEPYIKEIIYNNSKNLFKI;locus_tag=LOCUS_3990;note=WP_002376119.1 TatD family hydrolase (Enterococcus) [pid:35.0%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:2.0e-35],MGA_402
sequence02	MetaGeneAnnotator	CDS	98566	100131	.	-	0	ID=MGA_403;product=methionine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868104.1;translation=MKKLVTVSLPYANSEAHVGHIAGAYLPADIYQRFQKLKGEDILFLSGSDMHGSGVLINAENVSEDPHSFALKYHNKFKNIFTKLDIGFDIYSNTATEIHKKRVHDIFLKLYKNKYIIQKLEYQPFCENEKRFLPDRYVEGACPNCENPKVKVGESCDKCNTFILFDNIKNPECKICHHKPILKKTKNFFLELPLFEKEIKKYINKKNIFRKTVKDLSESYIKTGLISRSITRDMSYGISIPLEGFEDKVIYVWFEALIGYLSISEELKGDKWEEYWKEPSQTIFFMAKDNIVFHSIILPSILLGYNKNLVLPYNIVSNEYLLLEGEKMSKSNNHSLLAKDALKLFGKDNLRFYLALNLPEGKDFNFQKKDLIKTINSTLASNIGNYINRTLTFAYNNFDGVIEKYESLEDEKYISDFFKNISSSYDNFKIKKAVNDIISFSDHANQKFDQLKIWENKDPKNIYILIQYVYALSLLLYPIIPESATNLAKILNTKIKTDKYKPFWGKIEKPYIIFPKIENDD;locus_tag=LOCUS_4000;gene=metG;EC_number=6.1.1.10;note=WP_010868104.1 methionine--tRNA ligase (Pyrococcus abyssi) [pid:35.5%25%2C q_cov:99.8%25%2C s_cov:76.2%25%2C Eval:2.3e-97],MGA_403
sequence02	MetaGeneAnnotator	CDS	100152	100502	.	-	0	ID=MGA_404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKSKIFIFLSLFFLVLFLISTQFILPPKNNTGGIININVYIIEIEIFLFLFFVIMSILKNFNKINFLNIIKNAVIIPATIVSLSLLNIFGSLDILMIITIPLSAIILYIFLNTI;locus_tag=LOCUS_4010;note=MGA_404
sequence02	MetaGeneAnnotator	CDS	100499	101896	.	-	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNPFSEYKKISQNLLGINARNKLYIDNKSINISNSKIKVKNILNLEKIPTPETLFIIKSLEELENFDFSLLPKSFVIKPNKGLGGEGIIIFYGKKKKRNEREEDAFISANKQIYSLSDIKSHIFNILNGYYSINKKNDIAIFEKRIINSEFLKQNLKIKEGLPDIRIIIYKKFPIMAELRIPTIESKGKANLHSGGIGVGIDIARGISTNAISKDEYIEINPDTGERLSGIKIPYWNNILEMAIKSSIAINSSFTGVDIALDKEKGPLVMEVNARPGLAIQIANKSGLKERLESVSKLKVKNAKSAINISKEIFGGEIDEEIEEITGKIVIGRVVKVKIQDTVYSAKIDTGAYFSSISDNIAKDLGFGEKIEIFKNFQIPETKDINTLYNLKNKLEKENHDINISLVKSANGITIRPLIDISIYFIEEDITIDTRVSISDRSNLLYDILIGRKDLKNFLIDITK;locus_tag=LOCUS_4020;note=WP_011261591.1 alpha-L-glutamate ligase-like protein (Aliivibrio fischeri) [pid:38.0%25%2C q_cov:63.4%25%2C s_cov:90.7%25%2C Eval:1.3e-48%2C partial hit],MGA_405
sequence02	MetaGeneAnnotator	CDS	101893	102528	.	-	0	ID=MGA_406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEFTIFLLKSGIHQNMLFILLALPLAAMLVLFAKEIIGIKSFNLYTTSLGAIALISIGSILGIILFLLIILVDYIVEYFIKDLKLHFASKIAITLSTISLVTIILLALLHIYLGVSINVSPFAIILLILLTENLSFTKINKGIKNGNIIYMETIILSLIIYLILDNSFLETVLFKYPYISIVAIIIDVYIGKTTSLRLREIYRFRNIIKE;locus_tag=LOCUS_4030;note=MGA_406
sequence02	MetaGeneAnnotator	CDS	102683	103813	.	-	0	ID=MGA_407;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005816337.1;translation=MNTKQKNPKNITAITSLHEKGKTKGFLTEEDILNSVPFLENELELLEELFILLDRDNIDLIYEEERPKEVEIKSKKNVKKEVMSLEDKIKLLRSIQANIDSDPIRAYLQEIGKIPLLTGEEEIILAKRIKKGDKKAKEYLTTSNLRLVVSIAKKWSRKGSLDLLDLIQEGNLGLMRAVDKFDYKKGYKFSTYATWWIRQAITRAIADQERTIRIPVHMIETIHQMQKIRGKLAIELQRAPKPEEIAKAMGKSIEQVQEIIKISQYPTSLSTPVGDDNSSTLADFLPDEDTPRPSDIANRDYLKNQIQEVLGTLSDRERKVIELRFGLQDGVARTLEEVGREFKVTRERIRQIESKALKKLKNKEVERLLTDYREIG;locus_tag=LOCUS_4040;gene=rpoD;note=WP_005816337.1 RNA polymerase sigma factor RpoD (Desulfitobacterium) [pid:51.8%25%2C q_cov:96.8%25%2C s_cov:93.1%25%2C Eval:6.9e-98],MGA_407
sequence02	MetaGeneAnnotator	CDS	103875	104423	.	+	0	ID=MGA_408;product=cysteine hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000088195.1;translation=MENKNEKTALLVMDVQPGIIDRQENKEAYISSVKKTISLAHKNNILVIFVVVGFRPKFPEISINNKLFNAMKDTSTVSMIDSHPVIEPEEGDILVVKHRISAFSGSDLGMILHSQDIKHIVLAGISTSGVVLSTLREAADKDFQITVLSDLCLDQDPEVHNVLMTKIFPRQAFVIDSKEWLV;locus_tag=LOCUS_4050;note=WP_000088195.1 cysteine hydrolase (Staphylococcus) [pid:35.7%25%2C q_cov:96.7%25%2C s_cov:97.3%25%2C Eval:4.4e-24],MGA_408
sequence02	MetaGeneAnnotator	CDS	104464	105330	.	+	0	ID=MGA_409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENFSLEYIISLVRFSINEFISNINIFYLGIISVIFSSIFFLFNLYNYNLKQYFTSNNIFKIHYPVFLIPLVIVVAVFYIIFAVFYTSKSSTSLIKYIAKEDKSSEFVKIWDLGKDKWKEYFIFYIVYSLIIIFLSLIYIIFVTVIFSKLSLIFTILLLILSFIILIPLSILLAYIAVRLVVLDNVDIIDSLKISLNSIYANKLLYTKLILGYLLFVTIIFSVILSFIETIISSVVKVLFFKSFILGVISIIIGILILTYLSSLISVINSIYWTKVYLQLKETKVISF;locus_tag=LOCUS_4060;note=MGA_409
sequence02	MetaGeneAnnotator	CDS	105317	106111	.	-	0	ID=MGA_410;product=DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435007.1;translation=MNTSFIKTEDFNLYYTLDAGQNFNFSKIDKERYRGVIKSYAIIISQKKDILKIESYPKIPEEVIREYFNLDIDYKNIILKIKKDKNLKNTVEKYRGLRIIKQDEYECLFSYIISSYNSIKKIKYTYEYLSKTLGERIIDDFYTFPKTEILKNTDLNILKEGKLGYRDKYIKNTAKIIYENNINLYEYKYFEYDKVKEELKKFPGIGDKVAECTMLYSMNFHNAFPKDRWIKKYLSSDNQNFDINIYSGYAGWAQLFIFLDIRKK;locus_tag=LOCUS_4070;note=WP_003435007.1 DNA glycosylase (Clostridioides difficile) [pid:27.8%25%2C q_cov:96.2%25%2C s_cov:92.8%25%2C Eval:9.3e-26],MGA_410
sequence02	MetaGeneAnnotator	CDS	106108	106965	.	-	0	ID=MGA_411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIDYKKERQILKKIITTNEISSLININNTTIKDITVLGIGGSHIYKANCKNLNIEKYTFYEIDEGNFFENIQNFIKEEKEFNTIFSYPFIPKKNNGYIDAFFKNNTVISKKLPFKKEDFLLSYKLNRLTNIVNDACASNLFNIYTNKGYEIYLSLLSGTGINISYSQNNSPINTEFGNIKIPKESDLLQIPGVESYENILSFDSIQKSPLDLKSAKDLSAHIFSLSAISLIEDYKSASLIFQGSFITKDKEYSLMIEKYIKQYFKGNINIIIDNFSDIKGASLI;locus_tag=LOCUS_4080;note=MGA_411
sequence02	MetaGeneAnnotator	CDS	106949	107806	.	-	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847040.1;translation=MSTIFFLLLSSLGLGIVHGITPDEHTWPITFSYAIGSYSSSKGLYVGFLFSLAFAIQRSIAGVIVYLALINVKIFSTYNGYVYLIVGIAMLIAGLYVTNKHRILHLEIFPSSWLGKKDTHDMQEDVREIKPSMALIHGFIAGWGFGAFALILYTIIIPKMPNVYFAILPGLFFGLGTMIVQVIFGGLFGHWIRSMKLTEKDGIKVASKIAGTTLTFGGIIFILGGLLTVLFPKIANISINTGIDIGNLHHLGLGFAMVTTTVLIIGMGSIFYFVREMKKEYENRL;locus_tag=LOCUS_4090;note=WP_052847040.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:43.3%25%2C q_cov:93.7%25%2C s_cov:87.7%25%2C Eval:4.1e-54],MGA_412
sequence02	MetaGeneAnnotator	CDS	107901	108548	.	+	0	ID=MGA_413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIYEKEIIEKDEKKIIDMYDRGFVLTRKDVGVMQKIRSLRVNINNFNLTSENRRILRKNDKLLLEVYSLPLDNYDWKIHAMGEKFYSQKFGKNTISANKIKSIVKDKKTSFNTILKFSIDEDIVGYCICFLKEEILHYAYPFYDTEYISKSLGIGMMTKTLEYAKSKSLKYMYLGSVYKKESLYKLQFEGEEWFFKDKWNQDISELKDILRDRK;locus_tag=LOCUS_4100;note=MGA_413
sequence02	MetaGeneAnnotator	CDS	108567	108899	.	+	0	ID=MGA_414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIYKKFLLFALGFLILAIGLSLSVLVSQVILVIIGVYLLVSSFYGDLNFFIKYIQKDVSQKTKIEEKKPVKKTTKKIIEPKKDSKIKKEPVKKTKSSSKKNISSSRKKS;locus_tag=LOCUS_4110;note=MGA_414
sequence02	MetaGeneAnnotator	CDS	109021	110847	.	+	0	ID=MGA_415;product=translational GTPase TypA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_026183842.1;translation=MEDNIKIRNIAVIAHVDHGKTTLVDSFLKQSHIYRDNEKVMQEKLIMDSGDLEKERGITITSKNLSIPYKDYKINIIDTPGHSDFGGEVERVLNMADGCLLIVDAQEGPMPQTRFVLKKALEMQKKIIVVINKIDKSFADIDKTISRLYDLFLELAQDENQLDFPIFYAIARDGKVFETIPNDFSVEADMNPLFEGIIKYIPSPQFLLDLPFLMQVSAIDYDDYLGQGIIGKILQGKVTPGMDLNVIDENNNTRKFKVVSILENRGGIKKEEVKEALSGEIVTIIGASNVRVGDTVAISGHKERLPDIQIQEPSVKVKFEVNTSPLAGREGEYVTSRKILERLEKELERNVSMKLDVLNDEYIISGRGELHISILIETLRREGYEFQISKPQAIEKEIDGKIFDTREELIIDVPKEYIGEITKELSMRLAQLDNMVEEGEERVRFYYKILTKNLFGLRNDLLNKTKGLSVINHVFLDFVPSSPQFKNDRNGVLISTEKGIATAYSLGTAQERGALFITPDTEVYEGMIVGINKYDRDMDINVIKTKHATNMHTEKTDETIYLSPVIPLTIEYGMNFINDDEYMEITPKHIRLRKKILNKGLRERSKKS;locus_tag=LOCUS_4120;gene=typA;note=WP_026183842.1 translational GTPase TypA (Desulfitobacterium hafniense) [pid:46.5%25%2C q_cov:99.5%25%2C s_cov:98.5%25%2C Eval:6.2e-153],MGA_415
sequence02	MetaGeneAnnotator	CDS	110844	111107	.	+	0	ID=MGA_416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLSVYLLFGIIFGIIFSNKYKMRGGIYIYILTGIIGSLIGGLISISFITPNINLNVYILDIINIFISSLFSVILLYMFKIAINKAE;locus_tag=LOCUS_4130;note=MGA_416
sequence02	MetaGeneAnnotator	CDS	111104	112297	.	+	0	ID=MGA_417;product=glycoside hydrolase family 1 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582847.1;translation=MNKVFPKDFKWGVATSAYQIEGGNNFSDWALWEEKMGIEKAGKACNSYIEYEKDIELLKKLNLNTYRFSIEWSRIEPKEGEWNLEALDYYKSLLKKLKIEGIEPFVTLFHYSLPQWVSEYKSFETKKIINYFKRFTEFVVENLGMDVKYWITINEPTVYASLGYISKQWPPGKKSYIKYFRVIKNLELSHIVSYKKINEIYKKYGWDKPSISIAQNNNDMVGKDIPSKIYIYFLKRIFSYSFLNKVKDYIDFIGLNVYFYTEIEFSLFKGFSSNLENKLPENDVKGWKIHPLSMYSLVKDVYNRYKKDIYITENGISLINDEKRGIYIKEYLEYLFKAIEEGIPVKGYFYWTLVDNFEWLNGYKAKFGLCYLDESNKRVIKNSGKYYASIVKRNSID;locus_tag=LOCUS_4140;note=WP_012582847.1 glycoside hydrolase family 1 protein (Dictyoglomus turgidum) [pid:40.0%25%2C q_cov:98.7%25%2C s_cov:96.4%25%2C Eval:2.1e-76],MGA_417
sequence02	MetaGeneAnnotator	CDS	112310	113095	.	+	0	ID=MGA_418;product=CehA/McbA family metallohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258853.1;translation=MKIADIHIHSNLSDGVRAPESIVDFTEQLKVLDKIYITDHNSIEGSIRAKNYAISKLYKIDVGIGSEISSKDCHIVALDINKDIKKGMSVEKTAEEVLSQGGFPVIAHPYNPFFSVRHQRGGVLIKRLVAAKIPFAIEVNGTHNYTTILYKKGKLLNKKSSLALTNKKAINIANKYNIPIVGGSDAHMLRVIGSAYTVYQDNLVEDIKQRNISYGFNFSDRKSGLVYLSYHILFNPIPLDMRKKRKMLNILPKARDIRSVE;locus_tag=LOCUS_4150;note=WP_012258853.1 CehA/McbA family metallohydrolase (Chloroflexus aurantiacus) [pid:29.9%25%2C q_cov:78.9%25%2C s_cov:80.4%25%2C Eval:1.1e-18],MGA_418
sequence02	MetaGeneAnnotator	CDS	113092	113541	.	+	0	ID=MGA_419;product=GtrA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978105.1;translation=MKKILNKLSKYFVVGVIGIIVDNIAILFFEYVLRFSPNIATLFSAEIGNINNFFINDAWTFKESRNDKILVRFFKYHVSILLGFIISRVIFFPLLFSFFISKENSFISTLLANNISILLSFIINFTVNYIFTWRDKNSVEEVIEETELR;locus_tag=LOCUS_4160;note=WP_010978105.1 GtrA family protein (Sulfurisphaera tokodaii) [pid:27.8%25%2C q_cov:87.2%25%2C s_cov:98.6%25%2C Eval:2.4e-09],MGA_419
sequence02	MetaGeneAnnotator	CDS	113642	114193	.	+	0	ID=MGA_420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKISNNQKNLLIILVVLLVLVFGYIIYKSYQVTSSHSSVSNTFDIPQLGIKIVNIPNSISDLTDAEMPFSPSMAVDKNNTLNKPVQMISFSFSTKKLTSDSSSCSAKNDDGIGFIERINGTYVDRHNNTGYTFVKQFNGFYIVLPNRGGGVCSNVKSILNLDHSQSVIFNKTVLNPLNIQLL;locus_tag=LOCUS_4170;note=MGA_420
sequence02	MetaGeneAnnotator	CDS	114269	115681	.	-	0	ID=MGA_421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYINLFYDSNKDGIGDIQGLIEKIPYLKDLGIDTLLLLPFYPSTMKDYGYDVTDYLNVRKEIGNIDEFKILLKKLKENNIKVIIDLVINHTSYKHPWFEKSKKNISLYKDYYLWEKDISNMKKDDIIFNSIENSNWEYSKERKAYYYHKFYKYQPDLNWNNPLVFDEFKKIISFYTKLGVSGFRIDAALYIKKDSRYGIDEKGSIKIIHKLLEEGLKINKDIIFITEIAKPLDTIKKFLKSNIMTFNFDLMPRILMSLKMEDKKYVEKFLPLYDCIEKDYQVGNFLRNHDGISLQGLNKKDQFIYFNALNTSNNIFSGEISERLINLLEDSTDKVILGYSILFFQEGAPIIYMGDERGEGNITTNNKDSRMDVRGLIQWDKYNTKIYKEIKKLIAIRKKYIQDIVYSKLIIKEYKDLLFFRKNNILFIFNLSKKEIEIELQGEILYQRNIIQKNKIFLIENYGILLLKSI;locus_tag=LOCUS_4180;note=WP_011227963.1 maltose alpha-D-glucosyltransferase (Thermus thermophilus) [pid:34.8%25%2C q_cov:81.1%25%2C s_cov:39.9%25%2C Eval:4.0e-61%2C partial hit],MGA_421
sequence02	MetaGeneAnnotator	CDS	115739	116440	.	+	0	ID=MGA_422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISILSIIVSNIIIFILFIISLNKYLKKKTLSNLFWSFGFFETAISVLAFLLSIYTKNYFDFYIYYFLGAGLTPAILGLGAVYLLGKGKIQNYLFFSTLALSLILIFLLLISSFNIPNFNALTLLIFKNIITARDLNISLLGVNIINNGLWIIPLVILNTLGTIEILYVCIYSFYKDIKAHKITKRTIGVGLIALSVFILAFVASVSRFYNVSIIWIGFMLTWIIFFSGYILT;locus_tag=LOCUS_4190;note=MGA_422
sequence02	MetaGeneAnnotator	CDS	116495	116755	.	-	0	ID=MGA_423;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931826.1;translation=MAKNLFIGKLPYDLTDDELKEHFSQVGNVQSAKVIMDKFSGQGKGFGFVEMETEEEAKKAIQELNNSTLKGRTIVVNEARPKENKY;locus_tag=LOCUS_4200;note=WP_010931826.1 RNA-binding protein (Chlorobaculum tepidum) [pid:56.1%25%2C q_cov:95.3%25%2C s_cov:91.1%25%2C Eval:1.2e-22],MGA_423
sequence02	MetaGeneAnnotator	CDS	116798	117976	.	-	0	ID=MGA_424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSYRKNSTQRPYSRNRRRFKSKEVVDVSRYISKNVETVVETKYTPQYKFEDFNIDSNLKRNILNKKYINPTEIQDKSIPFILEGKDLIGLANTGTGKTIAFLIPLLDKVIKDKNQKVLIITPTRELATQINTELRSLSAGLGIYSTLCIGGVSIGKQIFELKRTVHFLIGTPGRLKDLYQRKVLRLEVFNNIVLDEVDTMLDMGFIDDIKFLSSKINTQRQTLFFSATMNDNARNISQLFLKDPITVSLYTKSVASKNVEQDIVKVKRSENKIDILHNLLIQQDFKKVLIFVKTKHNTENISDTLNKRGFNVQSIHGDKSQAKRNKALSLFRENKINILVATDVASRGLDIMDITHVINYDLPENYEDYIHRIGRTGRAEKKGKALTFIEE;locus_tag=LOCUS_4210;note=WP_003732374.1 ATP-dependent RNA helicase CshA (Listeria monocytogenes) [pid:45.6%25%2C q_cov:87.5%25%2C s_cov:66.0%25%2C Eval:3.1e-80%2C partial hit],MGA_424
sequence02	MetaGeneAnnotator	CDS	118118	119077	.	+	0	ID=MGA_425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKIIKIFSIILILGFIYFVNSYYSAGKVTVYKTRTTKSLLKKQIPNILLYTGLNYLYSININNSKSVVISGFLGKGKAADSVIEFKKNEYAISNESNAINICIPSHCSYNNFASTINGYYENNQFYNFEGVGDLAFYNGYLYATDVLRGVIVKININTFKAQEVVSNLLNPHGIYFYNNNLYINLENYNNCSLIKLSVNNFNNISCVVNLGSYADGVSGYNNTLFIVRDTLSSSGLYSANVYKINLKSNTSSLYLSINKQYIDGIAFNSKNVYAVFRSANPDVFGTKYYTYSEGVYNITGGNVKLLVKGIFDGVNFL;locus_tag=LOCUS_4220;note=MGA_425
sequence02	MetaGeneAnnotator	CDS	119072	119752	.	-	0	ID=MGA_426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDSLKKHKGVIYSNKKLSNTLNHIVIKTEDYISFEPGDYITLFIGGYVPRNYSIANISSPSKNIEIIINTSTPGVGARELKDIKSGVEINFLEPFGNFKYKKNKYSWFIAVGSGISPLIPMIHQAKIDLSNIKIFFGAREEFDIPDLSFLDIPINYTITKPSDEWKGDVGRVQLILKKELDKNKNILNKIYFYICGQPIMINHTLDLLQNNNIKNENIIFEKYSL;locus_tag=LOCUS_4230;note=MGA_426
sequence02	MetaGeneAnnotator	CDS	119753	120010	.	-	0	ID=MGA_427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIITNTPYLLIFGQDLVYWTGMIGGVLFLILIISAIIKKFNLKIWKNHQIMATKYHHWLGWITLAILLIHTILAIIQFNFHIFL;locus_tag=LOCUS_4240;note=MGA_427
sequence02	MetaGeneAnnotator	CDS	120007	120732	.	-	0	ID=MGA_428;product=FAD:protein FMN transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013223631.1;translation=MKKTKIIMGLPITIEIVDKCLYSDINEVFGFFEYIDRVFSTYKKNSEISKINKGLIKNYSKDMKTVFVLAEKTKKETDGFFDIKFRGEIDPSGIVKGWSIKKASNILKNKGYKNYYIEAGGDIEVVGKNLDKEWKIGIRNPWNLEEIIKVVKLKNKGIATSGTYIRGNHIYNPHTKKNINSNISLTVIANNVYNADRIATAAFSMGKEGINFIENLKGYEGYLIDNKKNATLTSNFNKYII;locus_tag=LOCUS_4250;note=WP_013223631.1 FAD:protein FMN transferase (Amycolatopsis mediterranei) [pid:31.3%25%2C q_cov:94.6%25%2C s_cov:94.7%25%2C Eval:1.3e-31],MGA_428
sequence02	MetaGeneAnnotator	CDS	120729	121166	.	-	0	ID=MGA_429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPKIIIPIFVVIAVGIIVAITIQPYQGSNSTSTSSTKNTISSNKNSIPVTTQYKNGSYTGSVQSNVFGNLQVALTIQNGKISNIKFLSYPQNESTSLYISQQVAKPLVQEAIQAQNANVSVISGATYTSQLFQQSLSDALKKAT;locus_tag=LOCUS_4260;note=WP_013225543.1 FMN-binding protein (Amycolatopsis mediterranei) [pid:37.1%25%2C q_cov:61.4%25%2C s_cov:62.2%25%2C Eval:5.8e-13%2C partial hit],MGA_429
sequence02	MetaGeneAnnotator	CDS	121264	122148	.	+	0	ID=MGA_430;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080497.1;translation=MYYIGCMDVLEVFDLSKSFGTKEVLKNLNFSLKQGEIFGFLGPNGAGKTTTINCLMGFIYPDTGSIKIFSKNIKNNIVEIKKKISYGSSSDILNMNWTVSDHINFVYSFKKPSEYDKNIIKSLDISLNSRIKTLSYGNRQKVSLLLSLICNPQIIILDEPSRGLDPLYQSIFHSLILDIKKRGVSIFLSSHDLQEVGDVCDRIGIIKEGMLVDIEGIDEVKKKKIYSVIIKFKEKYNIKDFENLEIVDNTKNSIKVKVKTDINSFIKIISKYDIENLLVEPISLEDTFLEFYKK;locus_tag=LOCUS_4270;note=WP_004080497.1 ABC transporter ATP-binding protein (Thermotoga) [pid:32.4%25%2C q_cov:98.0%25%2C s_cov:99.0%25%2C Eval:5.1e-47],MGA_430
sequence02	MetaGeneAnnotator	CDS	122145	122948	.	+	0	ID=MGA_431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMSFIQNILKEKKMLIIYYSIGTFLYLLLLAVTFPALQSQSKAYNQLLASLPKVMLKAFGIASNGQLTFLNYLSGKYTGLILPLIIIFFIVSFSNSQLVGQIEDSTIGLILSLPISRIKIYVSKYISGIISIIIFIFFSIFLIIPLATIENLKYSILDIYLLIILTLFFSLSILSLSFFISSIFSTKSASNTLLSFIISIMYVFNIAPSLSSNLENLKYFSLFYYYNVNNILQYNNIKSLSIIIFSLIFIIFFLLGLFIFNRRDIQI;locus_tag=LOCUS_4280;note=MGA_431
sequence02	MetaGeneAnnotator	CDS	122997	123800	.	-	0	ID=MGA_432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDILKPTESNSFIQPENNISQNNDNSNKQVFVSENTQSYSNNNSINSTSNNTSVDELKVETANTNNNTQDFLKKIKKSIIFLIVGALALGALVTLFMYWTGNYSSILRPILTVIYIIILGIFGLINVSTYGKVKLKMIPILGNIFAIIASFIMIYLIYSTSNVFTIENHYSSVFYVSAIALTQVGLLLLTTLKNNYVRYIALVTIMFVLIYTLIDIFIVLSNYNIFSGNIFTKIYITFLILNITGTLVTYILYKLNKNVKDNISIN;locus_tag=LOCUS_4290;note=MGA_432
sequence02	MetaGeneAnnotator	CDS	123960	124709	.	-	0	ID=MGA_433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNNIDNNPQTNNNIPASTANGVKKWQINTLIALIIILIIILGFILYLLTFKKTPSSNIVTSKTSVTNNKPNIITNPYKGWLTYTNSIYGYSFKYPNTWIVNSKTNTIIVTSPNGYKFQYTEISSPFASEGAQIVEKSSYININNTNFYKYYLNTQTNGCTTQMGFRYEIIPNTCVNSFSEIEIGTTIPTSVKDQNGTIFNSINAPTFININNHFIFIKFILPNITTINSSSFLIMNQNLNLILKSIKF;locus_tag=LOCUS_4300;note=MGA_433
sequence02	MetaGeneAnnotator	CDS	124942	125721	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKPGPKTNISTFGFIDEVGLLHSPKEDRVFGLGLLKVQHPSEVHREIIQYKNKINFHGEFKFSDITLKNVSIYKGFIDVFFNTPNIGFYCIIFDKSLLDLHKYFKDNYYKAYNAFVAKLVSESLEMSEYIVILADDVSTPKDDNFEKEIKNKAKTKTRRNALFGICRVESHAISEIQLVDVLLGITAYSFKIKYGIVNPNKHNPKFQLMKYLQKHLNIDKLSIANEYSLRFGKKFSIKEFKGNIINKTGGDLNPTAN;locus_tag=LOCUS_4310;note=MGA_434
sequence02	MetaGeneAnnotator	CDS	125913	126182	.	-	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIRFSKEIVKELKKIKKYDPILLKQIEKKLILFRTNINHNSLRLHKLSGELDNLWSISINMSIRMVYVKISENEAYFVNIGTHDEVYR;locus_tag=LOCUS_4320;note=MGA_435
sequence02	MetaGeneAnnotator	CDS	126186	126434	.	-	0	ID=MGA_436;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKTQVQVKISISPKLNELIKLKAEQVGIPVTQFIKYLIIKEFDSNTLYPSIDTEKKVLKALKEIDKSNKVENIHEYFKNL;locus_tag=LOCUS_4330;note=MGA_436
sequence02	MetaGeneAnnotator	CDS	126668	127426	.	+	0	ID=MGA_437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYPNLKNKHLYKSYFSAKDFIAYSKKSKDWKEFENPKIVILIYSSKLLKYILEKYKTEHIEIFGDFYLLKNMSVGIFKIDGIGAPVAVTSLEEMIALGIDTFINFGTAGGLQEKSNIGDLVLCTKAIRDEGVSHHYIKSSMYSYPTKDLTLKLEEIFNKSDIKYIKGGSWTIDTPYRETVDEINHYKDLGILTVEMEASALFSVCQLRKINIASCFVISDSLVDLEWNPQFGSEVLVNSLKNVLDTIIKME;locus_tag=LOCUS_4340;note=WP_011475684.1 nucleoside phosphorylase (Ligilactobacillus salivarius) [pid:35.9%25%2C q_cov:57.5%25%2C s_cov:56.2%25%2C Eval:3.2e-20%2C partial hit],MGA_437
sequence02	MetaGeneAnnotator	CDS	127702	127980	.	-	0	ID=MGA_438;product=BrnA antitoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932501.1;translation=MNKIKQIPKFKNADEEINFWDNHSLVDYIDSFKKVNLELPNLKPSTKNISLRMTESMYLQLKQLANKKDVPYQSLVKIFLDERIKEEYSDLK;locus_tag=LOCUS_4350;note=WP_010932501.1 BrnA antitoxin family protein (Chlorobaculum tepidum) [pid:47.6%25%2C q_cov:91.3%25%2C s_cov:83.2%25%2C Eval:2.2e-16],MGA_438
sequence02	MetaGeneAnnotator	CDS	127977	128306	.	-	0	ID=MGA_439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYNIHMDVNIDLSDIIGFEWDKGNKDKNKLKHNVEQNESEEVFFNKPIFLENIKHSTKDEVRYYALGRTLKNRYLLISFCKRQNKIRVISARDQDKKEKELYKKLLNI;locus_tag=LOCUS_4360;note=WP_010932502.1 BrnT family toxin (Chlorobaculum tepidum) [pid:44.4%25%2C q_cov:74.3%25%2C s_cov:79.4%25%2C Eval:3.1e-15%2C partial hit],MGA_439
sequence02	Aragorn:1.2.38	tRNA	128456	128529	.	-	.	ID=Aragorn_21;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0200;note=Aragorn_21
sequence02	MetaGeneAnnotator	CDS	128562	129812	.	-	0	ID=MGA_441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDKIKEIIKTEQIENISLMIRNTILVILIIVLLLIFNIFLFNQLRNIYPFALITISSLLIEYIIFHILIKKKTLNKNIIELLLLALAMVPIYFYNGGVNSPFFIIYLIIIFEYTITVSNIKNILLINILIFIINILYIFIIKDYASSTILMFVVDTFIAILISYISNTVMNYNVNIKDKYEIERESREKIEKINNDKDEFISTTSHELRTPVAAIRGYLQLIQFYPEYKDVKPEIIERFSSLENIIEDLSTLIENLLNASRLDLNRIFVNKLNVNINQEVISAIGTVLKKAKKKNITILFNPKVVNIFLILDPEKFIDAISNIIDNSIKFSSENSIILISIENKNNKIKIKIKDKGIGMSKEKLSKLFDKFDNSEENTKKTVLGMYLAKRFIDIIGGNIIVQSKEKIGTTTIIEF;locus_tag=LOCUS_4370;note=WP_011948120.1 PAS domain-containing sensor histidine kinase (Clostridium botulinum) [pid:29.8%25%2C q_cov:57.7%25%2C s_cov:38.9%25%2C Eval:7.0e-22%2C partial hit],MGA_441
sequence02	MetaGeneAnnotator	CDS	129814	130608	.	-	0	ID=MGA_442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSINILVIIVNINYLNIYKTFTNKYKNEIYLKVQNDELNKEKDEFFEIASQELVTPIDNTSNAVEEILYRYKNDLSENISNTLSKMLTNIRILKQLSQNMLSIKTLNIENISIDIEEYDTKKLIREVIETMDPKAKERNSDITSNIDPNTKNIHIDPNRMGEVLRNLLDNAIKYSPTNSIIKINAYTKNDTTVIEIVDNGIGIPQKDIPHLFEKFYRASNVEMNTKQGSGIGLYLVKEYIEKMKGNIYIISNINKGTTFRIEIQ;locus_tag=LOCUS_4380;note=WP_010964221.1 PAS domain-containing sensor histidine kinase (Clostridium) [pid:30.6%25%2C q_cov:95.8%25%2C s_cov:37.3%25%2C Eval:1.1e-31%2C partial hit],MGA_442
sequence02	MetaGeneAnnotator	CDS	131057	132181	.	-	0	ID=MGA_443;product=cysteine desulfurase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948824.1;translation=MIYLDNSATTKIDKRVIEKMTPYLSKYYGNPSSVYKFGQISRRAIDRSREIIANYLNSDLQEIIFTSGGTESNNLALKGIVNGNNKNKISHIITSEIEHDSILNTLKEIKNIEVTYIKPDQTGKIKVEDVDNAIKENTILISIIHANSEIGVIQDIENIGKIAKKNNVLFHVDAMQSLKYLDIDVNKFNIDLLTFGAHKINGPKGIGALYIKRGTPIQALIKGGSQEYRIRGGTENLSAIVGFGEAVELLKSEKYKRQEYVKTLRDNFERDILKINGTKLNSNASNRMPHLSNILFDKINSESMLIQLDLYNISASAGSACSSLSIEPSHVLTSIGLTEKEAKHSIRFSLGHENTQIEIEKTIQVIKEILNKYE;locus_tag=LOCUS_4390;note=WP_011948824.1 cysteine desulfurase family protein (Clostridium botulinum) [pid:48.1%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:1.1e-90],MGA_443
sequence02	MetaGeneAnnotator	CDS	132219	133619	.	+	0	ID=MGA_444;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNKFIMDNSNNSINGSGSGILDSNQDSTVIPINQDFSIPQDVQSNNPVNLNPSQDVSSSNLGDSSLYQNTQPQVDTQNTSMNDIPVSQDVQSNNSVNLNPSQDLSNSNIGDSSLYQNTQPQVDTQNTSMNDIPVSQDVLSNNSVNLNPSQDLSNSNIGDSSLYQNTQPQVDTQNTSMNDIPVSQDVLSNNXXXNTQPQVDTQNTSMNDIPVSQDVLSNNPVNSQSSDSNSMNIGNNASDSIQSDQWNKSSLDSTVSQNNNINESLAGEHNGNIPTQNIHVDDPYDLILKNQSHSESYQNMSQQQNIPDNKLPPIIPNVENVSSNTINQEVPYPNMETQNTVNSNIENDAVKSEDIMSNREEDILGVMSYVIIINIFILIFSFIKKDNFIKFHSIQGFIFDLLFIILFFILKIFNGSGILSIVLFVLEIILFILWILLSVFLMYKAYSGDKYKFIFLGSISNILS;locus_tag=LOCUS_4400;note=MGA_444
sequence02	DFAST	assembly_gap	132795	132802	.	+	.	ID=GAP_4;estimated_length=known;gap_type=within scaffold;linkage_evidence=paired-ends;note=GAP_4
sequence02	Aragorn:1.2.38	tRNA	133650	133721	.	+	.	ID=Aragorn_22;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0210;note=Aragorn_22
sequence02	MetaGeneAnnotator	CDS	133729	135801	.	+	0	ID=MGA_445;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583386.1;translation=MKNIMNGKEIREKFIKFFIKNNHTEFKSSSLVPDDETLLFTTAGMVQMVPFLMREKEIISPRVCSVQKSFRTTDIDDIGSDGRHLTFFEMLGSWSFGDYYKKEAIELAYELLTEEFLLDKEKIWVSIFKGDKDIPKDSESYKYWLDLGLKKERIVELVQDNFWGPTGVEGPCGPSTEIYYDNGEELGCGREDCAPGCDCDRFLEIWNAGVFMEYYKDENGNFSKLPFTNVDTGAGLERLVMVLQDKKSVFDTDLFEPIVSKIKAESSKFNERSCRIIADHIRGISFIISDGIIPQNEHRGYILRRLIRKSLLHAKTLGLKDFFLSELSGVVIDTYSDVYPELSSKRDLVKKILDEEEVKFGKTLDKGLKRLDGLIVKGKISGDNMFLLHDTYGFNIDILRDILKEREIEFSEEDFYKKLNEQKDRSRISSSFTLGKSIEEEFFDYPKTKFIGYDDLRLKDAKVLFVSQGEDEVYFVLDQTPFYAEGGGQVGDRGIVLSNGVEIEVNNVKKTKRGVYIHFGKYKNFSQKLSSEDLVTCIVDKDIREKTSFNHTAVHLLNKAMKIILGDQVVQKGSFIDSEKIRFDFNFDRALSLEEIKTIEDLVNENILKKEDIEVSEKNFEDIKKLGIDLPFEDRYDKNSKLRVVRIGDFSQELCGGTHKGNTSSLGKFKITKQESVSKGIRRVRAVLEY;locus_tag=LOCUS_4410;gene=alaS;EC_number=6.1.1.7;note=WP_012583386.1 alanine--tRNA ligase (Dictyoglomus turgidum) [pid:44.0%25%2C q_cov:99.0%25%2C s_cov:79.9%25%2C Eval:3.9e-159],MGA_445
sequence02	MetaGeneAnnotator	CDS	135804	136181	.	+	0	ID=MGA_446;product=Holliday junction resolvase RuvX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011975132.1;translation=MSYILGIDYGEKYIGLALSDKNSRFSEPFSIKRNNKDFYIFLINILEKYNIVKIVIGNPVNIDGSEGFSSKRVRDFVQSLNLEIDCIFWNETLTSFEVENKKNVRIDDKSASIILQEYLDFINKV;locus_tag=LOCUS_4420;gene=ruvX;EC_number=3.1.21.10;note=WP_011975132.1 Holliday junction resolvase RuvX (Sinorhizobium medicae) [pid:37.1%25%2C q_cov:93.6%25%2C s_cov:79.4%25%2C Eval:5.5e-12],MGA_446
sequence02	MetaGeneAnnotator	CDS	136178	137224	.	+	0	ID=MGA_447;product=endolytic transglycosylase MltG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964992.1;translation=MKKISYIILSLFLIIIIFFYWYTSNINYENNIKSGYVNFTIGTKDSNTQILNDLKSQKLISSTKASLIYLYVQVPLFSFYPGEYRVYKKENFSQLITTFSRGPFYKKIIIPSGLRISEEANVVRNELSVNNSYYQFSTTDYRNIAHNLYRQYYNFDFFKYIPENSSLEGFLYPGSYEIPFNANAKYVINLELKAFDKYIFHKYKGLMLSGSDQLSLYQNMIIASIVRRETLYNSDKPIVANIFIRRYLSGIPLGSDVTVQYALGFDPSSNSWWRSPLTQSDLEINSPYNTRLYAGLPPTPICSPGYNSIISTFKSTPNKYLFFIADKEGHLHYAVNLSGQNANIAKYL;locus_tag=LOCUS_4430;gene=mltG;note=WP_010964992.1 endolytic transglycosylase MltG (Clostridium) [pid:30.2%25%2C q_cov:91.4%25%2C s_cov:89.4%25%2C Eval:7.7e-32],MGA_447
sequence02	MetaGeneAnnotator	CDS	137256	138110	.	+	0	ID=MGA_448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSGNKFKYLDIALISVFVIVLIFLLVYKLFYSNNYVVSINGSNYTSLDISNYVCNYENFNNKNCSNYNKTDINKFVEFEISSLYLKSKNNYPNTAYLNSIKRSTKYANLKMTSHLYDYILNLSVNYKMDLIFQTVEKNYNGFIFMDILPSKSTKSLSYNFDSIYNHVKTLSGYNNIIAYLSSLNSNTFNLIKYTNLNSQNIKYNNNINPIFYNNISSQIFSLSANKLSSVNVHPYVFCARGCTNNKESFNIYYFIYNDSIFGKYSNYTSYMNTLEKKYNIIYY;locus_tag=LOCUS_4440;note=MGA_448
sequence02	MetaGeneAnnotator	CDS	138117	139037	.	+	0	ID=MGA_449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKKIKYSSIFLSIFILIYSFVSNSSPLHAQIVPRCTILPGTYWANVEFYVSTTNNTQVPSSLSLNPVQTGSCSNANSINTEDSNYDPTSFGQSVPNIGFIGSSGTVWSGSHSGGTPESITRGGNSGNSNISGSTNWISYNQIFDCAYGYVTYTLSGLPAGWTVSSTSIYYESGSSGSALPGQEIPIFNPLVGSDYQAQYTSVSIYITPPTGSTNPPSPGGPTPTATPVPVPTPPILPQNNPTTNLTINGSIVGYKGIVINRDLGTQDLYQPSVVVNYNTSFLTNTQIYAKSIGDIIQYWLEPPL;locus_tag=LOCUS_4450;note=MGA_449
sequence02	MetaGeneAnnotator	CDS	139068	139694	.	+	0	ID=MGA_450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYMRKINLIFILLTVVSVLGSNSVVYAQTPPNTVSGTTSSKTTTTTTTTTKDTLSCNTFSITQNGASVSSISSTSPLSIQSGITSSSGSQINYSNALWSVNTGTISPSSSKSSAQWTAPSNLSNGTTLTISLSGVTDSTGATLSSPCSVTLNISTAVLANTGFDLPTYVVFYTGLFFVLSGLIYYIFSSDQIMVLEFRRRIKRRSKA;locus_tag=LOCUS_4460;note=MGA_450
sequence02	MetaGeneAnnotator	CDS	139683	140537	.	-	0	ID=MGA_451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKFIYSDDYNNFINYIKDIHNNTGIDIYDAEEVEIKEILNDILNISIFQKQRVIAIKNSFKIYKDLKDLKTDDYVYIQINKNIKGLEIDKIKVQDNATYIKELFKKNNIKENNALIQYIKDNFQDKVQIQNELNKIFNFIYPQKEIKDIEFIKQNIITKTNNVMIWDLVNSINSNNKKQLIFYFEKLKDNTTDLRYILTMIIREINLIIFINSLPNISSDVILKKLKIIGINTSTYGIQKIKSNKYDILKLKNIYHKLINLYSMSNEGKIDLEIGITLLLLSL;locus_tag=LOCUS_4470;note=MGA_451
sequence02	MetaGeneAnnotator	CDS	140534	141172	.	-	0	ID=MGA_452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDLKDYIKTLKKNIILISLIFVVSLAAGYLYTKTIPIKYQSSINIYTTDPSDLVAFLSTNNSINLAYKDSKNILGNFNSTELSIFRSNIRVQDISLNIVSLQITDTNKQQSINWINAFKKVILKSSTKIFINKLLKKEYLACKKAQLQALKIDKSNNKVQIPTCTILKFVQYINPNTTTISIIPSKTTNLIIFGIAGILIALLYASYKEYK;locus_tag=LOCUS_4480;note=MGA_452
sequence02	MetaGeneAnnotator	CDS	141169	141576	.	-	0	ID=MGA_453;product=ribonuclease HI family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546858.1;translation=MEKIYSLYTDAGSRGNPGKSSYGFFIFEDQKLLDFGGQYLGIRTNNQGEFIAMQKGIELAIKLGIKNLDCFSDSQLLIRQLNGIYKVKDMTLKSILNEINILKYQFEKITFTHVFRENNKFADKMVNLILDAQGL;locus_tag=LOCUS_4490;note=WP_012546858.1 ribonuclease HI family protein (Thermodesulfovibrio) [pid:40.3%25%2C q_cov:88.1%25%2C s_cov:89.4%25%2C Eval:1.1e-20],MGA_453
sequence02	MetaGeneAnnotator	CDS	141629	141802	.	-	0	ID=MGA_454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKEEKDDILLLKKYPSIINIKKITDILNILYVSSIYQLVYIKRKKSTISIKIYVY;locus_tag=LOCUS_4500;note=MGA_454
sequence02	MetaGeneAnnotator	CDS	141849	142631	.	+	0	ID=MGA_455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDVILNIKKEGKCRKSGILKINKKESENLKKNDFISITAHEIKTPVAVIKGYTDLLLNDKDISLKITNDVKEYIKRIENSSDQIFSLVENLLNITKIENNELSLNKEKFNILDLIEEVRENLINDADLKKQTILFETHNVKDIIVFADKLKIEEVLNNLLINAINYTPEGGVIKISVKVEEKFINVSVKDNGIGISYEDQKKIFSKFFRSNSINVRNISGTGLGLYISSSIINMHGGKLILDSKIGHGSTFSFLLPINV;locus_tag=LOCUS_4510;note=WP_011023330.1 PAS domain S-box protein (Methanosarcina acetivorans) [pid:34.1%25%2C q_cov:98.1%25%2C s_cov:33.1%25%2C Eval:2.1e-38%2C partial hit],MGA_455
sequence02	MetaGeneAnnotator	CDS	142645	143034	.	+	0	ID=MGA_456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNKKILLVEDDLFLLDLYTQFFTQRGYNVSSASDGEEGIKTALSGTFDVILLDIMLPKKSGIDILKDIKAEGSPARNTPVFMLTSLGYDEIIKNAFQLGAAGYFLKSNILPNQIIDEVESIISQNKI;locus_tag=LOCUS_4520;note=WP_010947167.1 response regulator transcription factor (Legionella pneumophila) [pid:36.0%25%2C q_cov:96.9%25%2C s_cov:53.1%25%2C Eval:3.1e-15%2C partial hit],MGA_456
sequence02	MetaGeneAnnotator	CDS	143072	143314	.	+	0	ID=MGA_457;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001274025.1;translation=MANIKSSKKDVRRTKRRTFLNNGFRIDFDMKKKDFLKEPKENKLPAIFSIIDKMAKKNIIHKNKASRIKSRFSKISQKVK;locus_tag=LOCUS_4530;gene=rpsT;note=WP_001274025.1 30S ribosomal protein S20 (Leptospira) [pid:45.7%25%2C q_cov:92.5%25%2C s_cov:92.0%25%2C Eval:1.9e-09],MGA_457
sequence02	MetaGeneAnnotator	CDS	143321	145102	.	+	0	ID=MGA_458;product=translation elongation factor 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258913.1;translation=MDKIRNFSIIAHVDHGKSTLSDTLIKLTNTVEKRDLKDQYLDNMDLERERGITIKLQTIRMEYKGYTLNLIDTPGHVDFSGEVSRSLMASDGALLLIDVMGGIEAQTLGNFLKAIDLGIPVIPVLNKVDIDGANIDKSIDEIVNILGFKKEEIIQTSGKTGFGGEKLLDTIIERIPSPQGSRDGNFRGFVFDAFFDDYRGVVLLVKVLDGKLTVPEKLYFASNKKEINILDVGVIKDTLIPKKEIFAGEVVYISTGLKNIKDVVVKDTLIKDLEDKPLYQVENEKSMVFSSIYPLDVSSVSKFREAVEKLSINDISFTYAPINNSILGFGYRCGFLGLLHMDIIKERLSREYDIDIFVSFPSVEYKVILQNNQQYNISQAQDLPDLSLLDKIEEPYAKLDIVTSKSLFGKIMEFVLSKRGEFINSSFYNSSLGLERILLNFDIPLSSVIYNFFDELKSLTSGDASMDYYFSSYKESNIERLDFLINHEKIEPLSLLVHSSEIDKVAKEYTKKMVDIIPRRNFSIAIQAAVNGKIIAREDIKPFRKDVTQKLYGGDPTRRKKLLEKQKKGKKRSLMFGQIEIPSDLFIKLYSRL;locus_tag=LOCUS_4540;gene=lepA;EC_number=3.6.5.n1;note=WP_012258913.1 translation elongation factor 4 (Chloroflexus aurantiacus) [pid:43.4%25%2C q_cov:99.2%25%2C s_cov:97.4%25%2C Eval:2.0e-148],MGA_458
sequence02	MetaGeneAnnotator	CDS	145080	146297	.	-	0	ID=MGA_459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKIIIKSKKGSTSILFILLSLSPLFLNIAYTKKASVIIKTNILINTIDNIIHKGNLKNTWNNLSLTEQKKFINYKDFKQFIINKYYPLDITIKNIKYRKETYKILFQIKNNNKYHIPSFYNTHYFTFSLNKNNKLKNLGIFSPNTPIISYSKNTNLIIKIPILMLHRVSPIYPKRNLYSSEYAYLLDYNLTLLSQSFNAQLQYLKNNHYNSITLTRLYDFYYYNLPLPQNPIIISFDDGRLSDFKYALPLLLKYHFKAEFNIITGFVGSINKTQKYMNWKQIETLYKDGMEIESHTVTHVALGILNTAEINYQLIISKDTIQKKLNSSVQFIAYPGGSPFRNNNIKKELVLENRLRFYGYIAGLVDQNFNRNMQNLNNSFGLFRLRDSNISLSEFIKFISENTI;locus_tag=LOCUS_4550;note=WP_015944691.1 polysaccharide deacetylase family protein (Desulfitobacterium) [pid:29.6%25%2C q_cov:50.9%25%2C s_cov:58.0%25%2C Eval:1.7e-20%2C partial hit],MGA_459
sequence02	MetaGeneAnnotator	CDS	146339	147259	.	+	0	ID=MGA_460;product=decaprenyl-phosphate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393491.1;translation=MDTLKNYFLALRPNQWIKNLLVFSFLFFDQDLYNIHDFIIVFYTFISFIFVSSAIYLINDVIDYKRDKLHPVKRKRALASGKVDRNSAIILSIIMFLIGFIISFFISEYLLLIYIFYYLLFISYSIYLKNILIIDSLTTASGFVLRVLAGGIVVGFAINSWFVIFIICASLFIAFGKRRAEVTMMNFKNAVVHRSVLGLYPKELLDNLISMTAAITFLSYILFSYNEDVYSKTPSTVSVFLPSHLKNPHWFKFTIPIAFYILARYMYNIYVKKTADTPETIWFRDKSILIAIVIYILVSFTTLYVV;locus_tag=LOCUS_4560;note=WP_011393491.1 decaprenyl-phosphate phosphoribosyltransferase (Moorella thermoacetica) [pid:29.6%25%2C q_cov:97.1%25%2C s_cov:92.0%25%2C Eval:2.4e-39],MGA_460
sequence02	MetaGeneAnnotator	CDS	147261	149120	.	+	0	ID=MGA_461;product=DNA helicase PcrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002457083.1;translation=MLEDLNDKQREAVLEDINTPLLVIAGAGSGKTKTLTYKIAYIIKELNLSPFSIFSVTFTNKASNEIKERINHLLGDKISFPYMGTFHSVFLYILKTEGYKYGIDRYFSIFDQDDQKKIVNDIIKKMNLNSSINPSSILTGISRAKNDFIKPQDYTPSNFFEENVHNVYKAYQNTLEENNAMDFDDLLFKSLETILSNEEFGKSLASRFKYILVDEYQDTNTIQYKLLKLISQNNVFFVGDPDQNIYSWRGTDIRNILNFEIDYPTGKIIKLEQNYRSTKYILKASESVISQNTLRYEKKLWTENQLGELIKIYQAYDEEDESRYIANKILYLDEFSDTAVLYRTNAQSRAIEEVFLRHKIPYKVYGGMKFYQRKEIKDLIAYIRFIENRNDTLSLKRIINVPQRKIGKATLEKLDKLALNSNMSLGEYIFSFKESLPKPVFMFVSIMEDILSKKSEFDIKNLLEYVLKKIKYIPMLEEEGEVGISRLENLEEFIGVSSKYGTLEEFLTDIALVQKEELETEDNKNYVTLMSLHSAKGLEFKNIFIAGMEENIFPHSRSFQSINEMEEERRLCYVGMTRAKEKLFLTFAQQRSLYGYPQSNTPSRFLSDISEDCVDFEYI;locus_tag=LOCUS_4570;gene=pcrA;EC_number=3.6.4.12;note=WP_002457083.1 DNA helicase PcrA (Staphylococcus) [pid:44.2%25%2C q_cov:99.4%25%2C s_cov:87.4%25%2C Eval:4.2e-149],MGA_461
sequence02	MetaGeneAnnotator	CDS	149117	149506	.	-	0	ID=MGA_462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYDKEQLQNDTLRNLKESSLSEEEKTKIAKDFFAAVAEEKENKSIDKLNIFYDYLKSFFLPIYGFVIGIKKITEEDYINGVICIILNIIEIILIISSLSGLFSTKGSISQISKGIGGGYKSINTPIGN;locus_tag=LOCUS_4580;note=MGA_462
sequence02	MetaGeneAnnotator	CDS	149503	150597	.	-	0	ID=MGA_463;product=IMP dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183240.1;translation=MLIKEALTYDDILLSPQRSKIKTRKDTDTKTKLTKNISINIPIVSANMDSVTESSMAIHMALEGGVGAIHRVMSIEKQIEEISKVKNYEFDKNNYELANTDKEGKLLVGASLGIRMNPKENLKQLIKAGADFIIIDVAHAHSESVIELVKEIKKEYREDIELIIGNIATAEAARDFLELDVSGVKVGIGPGSICTTRIVTGVGVPQVTAIDDVYSILKESSIPIIADGGIRNSGDIVKALALGASSVMIGNLFARCEEAPGEIVIKDGKRYKNYRGEASFSEIKKRFEIDKRNDIKNITPEGIEGIVQVVSNVEDTIRNLVGGIRSGLSYCNAYNLEELRKNAKFLKITNAGLIESNYHDIIKL;locus_tag=LOCUS_4590;note=WP_011183240.1 IMP dehydrogenase (Mesoplasma florum) [pid:47.2%25%2C q_cov:98.9%25%2C s_cov:94.2%25%2C Eval:3.2e-84],MGA_463
sequence02	MetaGeneAnnotator	CDS	150622	151350	.	+	0	ID=MGA_464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIILKIKRKLYISKKAFSLVEILVVLAIIGILISVAIIGINGAQIASRNSIRAQAISAINVDIQSYFSSHHYYPSDIWFSNKANFTGSSYSSCQSQNGNFTDTSRICLGIYPPTYSTTGRFWVVYDTSLSKPPLISYSGFDGYTQSEGVSNYNGATTPSTTQFFYVDLVYDQNNYQYPQGYILGFCKEGGGVSVLKGGLGMDMNVTGNSVTISVPANRISSYHLWGLIPNNSTSISTFSCN;locus_tag=LOCUS_4600;note=MGA_464
sequence02	MetaGeneAnnotator	CDS	151447	152097	.	+	0	ID=MGA_465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIKEKLYISKKAFSLVEILVVLAIIGILISVAIIGINGAQIASRNSIRAQAISSINTDIQSYFNTHHYYPSDILFENQNSSCTGSANLGNVCFTIYQPINFPNVYTWIVQPTILKQSFSAGGSGFDGYPNPSNFTSATQTQYFYFNDYVSSSSSSGVGGYPLGYTVGFCKEGGGVFYLSGGKSPTVTVTSTGINVTPRSGYGLWGDESLPLICK;locus_tag=LOCUS_4610;note=MGA_465
sequence02	MetaGeneAnnotator	CDS	152139	152360	.	+	0	ID=MGA_466;product=NifU family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000431159.1;translation=MKSKISNLLNEIRPFILQHGGDVELLEVKKNIVKVKMMGACVGCSLSSITLKDGIESIIKDEFPEIKSVESVE;locus_tag=LOCUS_4620;note=WP_000431159.1 NifU family protein (Bacillus) [pid:45.8%25%2C q_cov:98.6%25%2C s_cov:92.3%25%2C Eval:7.8e-14],MGA_466
sequence02	MetaGeneAnnotator	CDS	152367	152603	.	+	0	ID=MGA_467;product=ferredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868845.1;translation=MYITKEGKKIFVEIDRDLCIGASSCVAIAPDTFDMDQESKAYMVGQEIDDYETVLEASKSCPVSAIILKDETGKQIWP;locus_tag=LOCUS_4630;note=WP_010868845.1 ferredoxin (Pyrococcus abyssi) [pid:41.9%25%2C q_cov:75.6%25%2C s_cov:92.5%25%2C Eval:1.1e-07],MGA_467
sequence02	MetaGeneAnnotator	CDS	152609	154000	.	+	0	ID=MGA_468;product=Fe-S cluster assembly protein SufB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007329803.1;translation=MKQTEKQYEFGFSTPSNYVFKSKKGLSRKIVEEISFMKNEPLWMREFRLRAYDIFISKPMPSWGADLSDIDFNDFFYFIRSSQNNSKSWDDVPQDIKDTFEKLGIPEAERKFLAGVEAQFESEVVYHNLMKEISDKGVIFTDTDTALKEFPDLLKEYFATVISPYDNKFAALNSAVWSGGSFVYIPKGVKLDIPLQAYFRINAKAMGQFERTLIIADEGSSVHYLEGCTASIYDENSLHSAVVEIICKKGSNVRYTTIQNWSKNVYNLVTKRAIAYKDAKMYWVDGNFGSRVTMKYPSVYLMEEGAHGEILSMASASQGQHIDAGSKIIHASSNTSSKVVSKSISRDGGRTTYRGLIDAKDGVENIKSDVKCDALLMDEYSRTDTYPTINVDHVKMPMLQHEATVSKVGEDQLFYLESRGLNEDEASSMIVSGFLEPIAKELPMEYAVELNRLIKLEMEGSVG;locus_tag=LOCUS_4640;gene=sufB;note=WP_007329803.1 Fe-S cluster assembly protein SufB (Rhodopirellula baltica) [pid:62.9%25%2C q_cov:98.3%25%2C s_cov:96.8%25%2C Eval:6.5e-173],MGA_468
sequence02	MetaGeneAnnotator	CDS	153997	154617	.	+	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRFIFKRISEYNALDIKEDISLKQNEVLVFVLIIDTPQKKNIDMNFNLKKEFCKLHLYVIENGILGQDININLKIEHIYPNTISKTYIRRVMRDGSLSFIKGLVKIDKFATGSNAYFNEKTLLLGDRIVSKVIPSLEIIPNNVKASHASSISGIREDELFYLESRGINKKDSINSISSGFLIAKLKDIEDQKFREKVINEVIKNI;locus_tag=LOCUS_4650;note=WP_010979219.1 Fe-S cluster assembly protein SufB (Sulfurisphaera) [pid:26.9%25%2C q_cov:63.1%25%2C s_cov:26.7%25%2C Eval:1.9e-11%2C partial hit],MGA_469
sequence02	MetaGeneAnnotator	CDS	154614	154925	.	+	0	ID=MGA_470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEILLGDIKNFEKHKGYTFNLEGRDIFVYFLKNSILAIDNCCSHEKYPLDDGLIDEEKKVVTCIHHGAKFDLLTGKALSLPAFNSINIYKIIKKENLLYIRI;locus_tag=LOCUS_4660;note=MGA_470
sequence02	MetaGeneAnnotator	CDS	154980	155363	.	+	0	ID=MGA_471;product=Rrf2 family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016892.1;translation=MKLTKLEDYSILIISFLAKQESFVSVSDICKKLLLPIPFTRKILNILLNKNIVKTKEGSNGGYMINVDPSELSVYDVMKALGNEILLTECIKDDCSVKDQCSSKEVFNKLNEEIRSKFSDIKIIDFI;locus_tag=LOCUS_4670;note=WP_011016892.1 Rrf2 family transcriptional regulator (Fusobacterium nucleatum) [pid:25.8%25%2C q_cov:99.2%25%2C s_cov:87.3%25%2C Eval:2.2e-08],MGA_471
sequence02	MetaGeneAnnotator	CDS	155360	156100	.	+	0	ID=MGA_472;product=Fe-S cluster assembly ATPase SufC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081564.1;translation=MNILRIQDLKVNAREKEILKGINLSLKEKDIQVIMGANGSGKSTLAEILMGSFEYKIIDGDIYFFEENINNMKPYLRARKGMFLAFQNPVEVPGVNFGTFLYTAYKSIYKENIEIFEFILRLKKESKRLGIDDTFLSRNLNEGLSGGEKKRMEILQIAILKPKFAILDEIDSGLDVDGIKFITESINTLNKEGITFLIITHQKKMLDKINISKVHIMNDGKIVKSGGRILIEKIESLGYKKIIKNL;locus_tag=LOCUS_4680;gene=sufC;note=WP_004081564.1 Fe-S cluster assembly ATPase SufC (Thermotoga) [pid:49.6%25%2C q_cov:96.3%25%2C s_cov:97.6%25%2C Eval:9.7e-59],MGA_472
sequence02	MetaGeneAnnotator	CDS	156097	157290	.	+	0	ID=MGA_473;product=cysteine desulfurase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000173341.1;translation=MNKKDFPIFKNTKFYGKNLVYLDNAATTQKPQIVIDEFSRFYENFNANVYRGIYRLSEEATSMYEGVREKSAKFINAKSNEIVFTRNTTESLNLVVYTFAKSILKKTDTVLLSLMEHHSNIVPWQILQKEIGFSIKYIDINKENFSLENVDSLLEIKPKIISLTYISNVLGTRNDIKDIVKKARKINAFVIVDAAQAAPHIQIDVKSLDCDFLTFSAHKMLGPTGVGILYGKEELLDKMPPLLGGGEMIISVDKNKSVYKNAPFKFEAGTVNFADTIVFGKSIDYINKVGMNKISLYIKELSFYLYENLVKINGIKIYGAKNDFGIYSFSIKNIHPHDIATFLDEENIAIRAGHHCAQPLMKELSVYALSRISLYFYNTQEDIDKVSLSLSKISDLF;locus_tag=LOCUS_4690;note=WP_000173341.1 cysteine desulfurase (Streptococcus) [pid:48.6%25%2C q_cov:99.5%25%2C s_cov:96.8%25%2C Eval:2.7e-108],MGA_473
sequence02	MetaGeneAnnotator	CDS	157296	157661	.	+	0	ID=MGA_474;product=SUF system NifU family Fe-S cluster assembly protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946342.1;translation=MDSYLTRSYIIDIYNNPKNYGDMKDFDILEEGENPLCGDSIKIYVKYKGDIIEDISFVSNGCIISKVAASILTQEVKGKSINDIKKIDFSLIKEKMLMDISFSREKCARLSFEILQKIIEK;locus_tag=LOCUS_4700;note=WP_010946342.1 SUF system NifU family Fe-S cluster assembly protein (Legionella pneumophila) [pid:34.3%25%2C q_cov:96.7%25%2C s_cov:89.9%25%2C Eval:4.8e-16],MGA_474
sequence02	MetaGeneAnnotator	CDS	157664	158539	.	+	0	ID=MGA_475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKIQDYDSVNYDYREYWRDREYENLSEVNILKKIIKEGKNFIDVGGAYGRLTPIYQDKFKYSILFDYSYKNLKRAKVGSNVFRVCGDIYNLPFKDNSIEGGMCVRVMHHIESPELAIKELSRVISSDFYLEFANKNNFLALIRSKFSSKYRRLNTIKIQHKKDSQGFIEDQVFLNFSPKFIKKIINPYFEIKEEYSVSNFRQKILKNIFPLKFLIFLDNLFQSIFKIISFGPSIFLKLEKKSREKFILKDIEDILICPKCKSDLSKTRCPKCKIDYLDKVGIFNFRLSHF;locus_tag=LOCUS_4710;note=MGA_475
sequence02	MetaGeneAnnotator	CDS	158601	159728	.	+	0	ID=MGA_476;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004291480.1;translation=MEYKRLIQDNIEKKLFKGKAIIIYGARQVGKTTLVKKIQEKYIKNSLYLNADEPDIRYSFENKTSTEIKKIIGNNTFLIIDEAQRINNIGLTLKLIIDNFPLVQVIATGSSSFELSNSISEPLTGRKFEFHLYPLSISEILEKKTKIEINRLLEDMLRFGMYPDIISGSNLDAQIKIEEIASSYLFKDILQFQNIRNSEVLTKLLQALALQIGNEVSYNELANLLNIDKDTVSRYIQILEKAFIIFSLKPYSRNLRKEIGKLRKIYFYDLGIRNAIIKNFNILSLRQDIGALWENFIISERIKYNNNRERNINNYFWRTYDKKEIDYIEDVSGRLEGFEIKYTSDKFKKYVEFLDTYKDSSITLINKDNFLSFLS;locus_tag=LOCUS_4720;note=WP_004291480.1 ATP-binding protein (Bacteria) [pid:41.5%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:1.3e-80],MGA_476
sequence02	MetaGeneAnnotator	CDS	159760	160632	.	-	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYSIIFAILFFLTFSQSVYASTNKETLRVTPAYISITKSSNTNTSENLSILNESLIPLEVSLSQGNIEYINKKLTITQNNAITNINSWIKITQKSFIIQPKATINIPVDINIPKNTKNGSYNGEITISNITKNLSGQSRVEGSIVINVFVNIRGKNKNYSNINSKISYLPLFINTLPLNLDYTLNNPGPYNNAAIININTQSLFYSKNTPTNVINLLVEQTRYKTFQIQNIPWGIYKISFNTNNIGEKINKEKSFYIIYLPYYIYLILGIIIIIIIYLKVRKSKVKYF;locus_tag=LOCUS_4730;note=MGA_477
sequence02	MetaGeneAnnotator	CDS	160632	162050	.	-	0	ID=MGA_478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKIIFTISFILFFVLITRVYAQVPPTDTSSSYILTDPVFGESGPYTQSSPSFQEKSTLGQLVTGVSQSTNFILKSGFEYYSGQSVPSITMSINTNSINFGNLLPGTIYKSPTNTIITISSNSEMGYNLYASENNNLVNNQGFQIPPVNNGATSTTAAAYTSTAYTGLGYNCSTSNSFEQAVLADNPIAFWALSETTGTTAYDLSGNGNNGTYTGGYTQGEQGPISNSNLDKSTYFNGSTSYINLPQNLTNNANFSTLTFSLWFKTTSDGTLLGNQNSTVGITPGFDNSLLYIGTNGYLCGGIDIPPGFCNSTNINDGKWHNAVLTVNNSSGQSLYLDGQLVNTAGVPNTFSTNYTQIGVGYDQGWTYASAGWFYFKGEISNVAVYHTALTQSQIQTIFNAGIDNQSPFCNNDFINTNYYRQLSSTPTQFASFSSIANNQSIAVGYAVNIPATQASGNYTNTITYTLAGNY;locus_tag=LOCUS_4740;note=WP_051754043.1 polymorphic toxin-type HINT domain-containing protein (Streptomyces achromogenes) [pid:31.1%25%2C q_cov:49.4%25%2C s_cov:7.5%25%2C Eval:2.4e-21%2C partial hit],MGA_478
sequence02	MetaGeneAnnotator	CDS	162035	162919	.	-	0	ID=MGA_479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIPIIVFLIILIPQRIFASTNYNTLTLTPTLTRISLSRGDIYKGKIKIINNSVKTAYISVGIVGFRQNGNSNTPLFSKKINNKSQAIHWVHIKNIQSIKGNTNLELKYIINIPTNASSGGHYIAIIINKRIGNTNIEESLRSLIIIDIKGKMKISGFVKTFSTSNFFNFSNKIVFNINFENTGDIELAPQGFIIIKNLWGGVVKIIPINPTGSLDLSHSQRKYQNIWNNKGFLYDSGIYNAQLILNYGYGSTFYNINKNIKFYIINPLYVIILLGIIIFIYIIIKKKWGKK;locus_tag=LOCUS_4750;note=MGA_479
sequence02	MetaGeneAnnotator	CDS	162922	164664	.	-	0	ID=MGA_480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNTVSAQSNNNLLITAQSGLPANASITIVFPSAFSSINTSAATINLTGGAFSVSGNTITITTTTPIEAPGFQININGITAINPATASSTTTQYIINFSDTAGDSAGIGVVIIPSSGYGSGPAGDKYEQAITINSTNTSTLTNYQVKVTLNTQALITAGEMRSDCADIRFTDSSGNLLQYWLEGGCNTSTTQIWVKIPSITASANTIIYLYYGSPNAVSTSNGGATFNYFDQGNSISNWVQVGSAGQITSIGDPSPSYYTNSINGDYMYENIGLTPNEAVIFNGNTTVLGDFYFLTNSTGAGQMYRFGISAGWFGFATTNSWTSWNSPGGSGLLSNTWYKFEIAITSSTSASLYYKQTTGDSPLINGTLLSTNTIINDGGYIGLIGDAAGTGITYWDNIIVRQYSSPEPTTTISSSVTNLNNNQVELTLNVTPYITFGVSSNSVNLGIVSYINPTVQNNTLSLTTNATNGANITVQDQYAGLYNSLASYTIPSITETLASGIEGYGINANSSNMSISFPFSGTGDSIGGLSISPAEILSYISTPIQSGSVNVNYIASASNITPTGIYSDNITFIATGNF;locus_tag=LOCUS_4760;note=WP_010870991.1 DUF2341 domain-containing protein (Methanocaldococcus jannaschii) [pid:25.7%25%2C q_cov:51.7%25%2C s_cov:55.3%25%2C Eval:1.4e-18%2C partial hit],MGA_480
sequence02	MetaGeneAnnotator	CDS	164633	164773	.	+	0	ID=MGA_481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLCADTVLLLIMSSMGVDRAALRVNIDANTKNIKIINNRENIFFIV;locus_tag=LOCUS_4770;note=MGA_481
sequence02	MetaGeneAnnotator	CDS	164829	165620	.	+	0	ID=MGA_482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKFFKISFYILTILFFLSSSLYAQSISQYFAPLVKNISNNSIVSVGGNNIVLGVYPTTSPNDNNLVGVVDYKSNITTGISGNVPVVSSGTVNVLVSNINGVIKKGDYITSSIIPGVGEKDTQSGKILGKALSNFSFSHFLYKKTIFQNGKSVQILVEKIPVLLGISYFTYNNNFSGILLSFGKAVVGKNVSFFNSLIAILIISVGVFTLIYGVSVSLKHSLLGISRNPLSKDSIEKNLVFIIISLIFIFMVTLVLGYLILIF;locus_tag=LOCUS_4780;note=MGA_482
sequence02	MetaGeneAnnotator	CDS	165704	166804	.	+	0	ID=MGA_483;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKTRKAFMLFLSMVLVVSLSPFLEFFSLNAASLSPISDTLSSSGIGTNGPESISATGVNHKITYTAPTALGTGSTINVYFQTGSTVGGGQTNTGFSAVAVSSGATVTAAGTTVATNTNFVVTTGVSDSNFSGYTFTEVVITTTAAIASGNAIVINGITATNPPDASTSVNEYVIDVTDSASDDGYLAVPILSNSTVAVTARVTPEITFALSSNATNFGVLQIGSVNTSSPATTLTLSTNARSGASVTVYDQGNGTNPGLYNSLATHTIPSATATLAAGTEGYGVNSAVTSTAGSGGVVGTLTVASPYNGTGDSVGGLNLAPTLLASTTSPIYLVTLQVNYLSAISVVTPAGIYTDNVTYLASGNF;locus_tag=LOCUS_4790;note=MGA_483
sequence02	MetaGeneAnnotator	CDS	166816	167757	.	+	0	ID=MGA_484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLILLLLFILPSPLYAQSSFVGNINNSNSSKEGASVGGITVSPILTDVNINKGQSLVQDITVYNNSNSAVNVSAIFANFVSANEFGQPKFEKVFVGNINDPDLSLSTNGNTLIPPHVPTDLSINISASSNALPGEYFIGVFAKINNGVSQGNVLLNTAVGSLFLVRINGLAKETGYIKSFSANNFFYLSTPVKFQTQFVDTGNVHLLPQGIIEIYNMFGDKIQTIAFNPQKNIVLPVGVNSRIYNTTWNSSNLLLGQYTAKLILTYGYNTITTTQSTSTFWVLPLWFIFLLVLLFIFLLWQIVSRFLKR;locus_tag=LOCUS_4800;note=MGA_484
sequence02	MetaGeneAnnotator	CDS	167724	168470	.	+	0	ID=MGA_485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANRFQILKKVILLLLVFIFFVKPINASSVTVGGYTPLLLNWSNLIANNTKISLSSNNLYYKKRVEVKIFVFSNKDHPLSNQRVILSSAQEKDSLIITQPKNPTNKNGEAIAFLESSYNKPLMYNVIALDTTYTEYPIVIKKSINIFYYPNSSTNYNIFGSIDTPGFIIGAINILISVIILGTMLFLFFVRKIRNDSKFKNILRFIRDYLVLYIISAIILALDHTTLNLYIFIFNILLFIIYFIYILL;locus_tag=LOCUS_4810;note=MGA_485
sequence02	MetaGeneAnnotator	CDS	168658	169275	.	+	0	ID=MGA_486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSKNLIDKMNTMYDNLSLEFENDIRKIYEIKLKEIENSINIKEKNIEAINSDFTSKIETSINSFNDKSNDFKNIYDKVLSNFEHSLNILFQDISDKTQTNLSNFSKMNLELYDKDLREIEEKTTSMISQMVSEETSKFNSLTDEIKDESSKVRQQIIDSLNKDAVLVVNKVVKEVLNLSVSLKDQEEYIFDVLNKHIEEIKDGL;locus_tag=LOCUS_4820;note=MGA_486
sequence02	MetaGeneAnnotator	CDS	169265	169753	.	+	0	ID=MGA_487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYNLFYQIKDFEELEIFLISIEEYINSLLDLNLKDKIKDEGEDILNIDMTLKGIIENIYGDVFKNSVSMNKIKDSLLYIKNNAKIITIFLSKEIDEGFKFKLKEYFQKNIDKDVLLKYRIKDSIGGGIILETSSKYLDYSFDSVLNANTDKIISIINNDKI;locus_tag=LOCUS_4830;note=MGA_487
sequence02	MetaGeneAnnotator	CDS	169740	171152	.	+	0	ID=MGA_488;product=F0F1 ATP synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599658.1;translation=MIKFKDLLHTGTSIGKVVSINSITAKVKGFRNLNVGAILIFESDSIGYVRSIYEDEALILILENRGILSGEIVLFYKSKFEVSVGFNLLGRVIDIFGNPLDSMNIVDLEESREIFHESFGVMERADITSQIETGFSLVDTLIPIAKGQREAILGDNKTGKTSFVLDIIKNQKDKSLVVYVIIGKKKDDVQSIISYLKDSGAMEYTTVVVSPSTSLPVISYLSPFVGCSIAEYFWEKEKDVIVVYDDLLEHAKSYRELSLLSNTPPGRDSYPSDIFYQHSQLLERAGITSQHKGSLTALPIVSTYENDISSYIQTNIISITDGQIFFDTDIFLKGRRPAINSSISISRIGKRVQSKYMQDIADELNLALVKYTQSEKFSHFGTNLSDSVLEDIYLGEKLQELFTQNMGEVFTFFEQRVLLTLLLLYDLPDLNIKDISYIKERVKEIQYIEDFSKDNLNDSLVKYLIPEKNK;locus_tag=LOCUS_4840;gene=atpA;EC_number=7.1.2.2;note=WP_004599658.1 F0F1 ATP synthase subunit alpha (Rickettsia prowazekii) [pid:38.3%25%2C q_cov:90.9%25%2C s_cov:85.7%25%2C Eval:2.8e-86],MGA_488
sequence02	MetaGeneAnnotator	CDS	171149	171973	.	+	0	ID=MGA_489;product=ATP synthase F1 subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272788.1;translation=MSNLNNIKVKLNSLESLSSLTVIFQQVALIKMNEIRNQVLLRKDFFNDIWELYSNIKSLEKHYKRNTLYENAVIIISSDYGLLGNMNEKIINFMLNDKINNPDIFVIGEKGKNILRQKKIKFRASYSFEEEISLEFVSKILDDIKNYSNIAVYYEEFISISAQKPKKMYLNFDSYKQGFRKKDVSSYLFEPSFESILSSLESVMIGMMFTQILYESHLSQYAARMVRMSNSSDKSKDLLKKERANYIKMKRRLSDDNMKLIFNNFMNNEQQFKG;locus_tag=LOCUS_4850;gene=atpG;EC_number=7.1.2.2;note=WP_041272788.1 ATP synthase F1 subunit gamma (Desulfitobacterium hafniense) [pid:23.6%25%2C q_cov:88.0%25%2C s_cov:90.0%25%2C Eval:1.0e-14],MGA_489
sequence02	MetaGeneAnnotator	CDS	171951	173327	.	+	0	ID=MGA_490;product=F0F1 ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082059.1;translation=MNNNLKGKIKAINGIKVSIVFQGYFPKISNILYSPENPQVIVEVYEYNNEEECIGIVLKGLDFLSVGFDLIDTEEPLYLQISEKSLGRVYGALGNMIDGGESISDGDKVFVRNNSVYDFNLNNKVEIIETGIKSIDFLTPFKKGGKIGFIGGAGVGKTVLVNELIHNIAKFHEGISIFAGVGERTREGYELYNTLKENNVLDKTVLLFSQMNENAAIRSKLGHTAAAIGEYFRDTQRKDVLLFLDNIYRFVQANNEFSMLMERLPSEGGYQSTLSSDLKELEERFVTNDNGSITSVQAVYVPADDMSDPAIQEILKFLDSYLVLSRDIAKIGIYPSIDITRSSSSVLNIKNVGERHYKLAIETQRIFQKYLDLVNIIEILGEEELSLQDQKDYHKALMIRNFLSQPFFVMESSTNINGRYVKLEDTLIGVERILNDEFDGIDEIKLRSLGKIDEIKKD;locus_tag=LOCUS_4860;gene=atpD;EC_number=7.1.2.2;note=WP_004082059.1 F0F1 ATP synthase subunit beta (Thermotoga) [pid:44.2%25%2C q_cov:99.8%25%2C s_cov:98.5%25%2C Eval:2.0e-97],MGA_490
sequence02	MetaGeneAnnotator	CDS	173330	173590	.	+	0	ID=MGA_491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSKELFFLKILSLSGEIFSGKVYSFSSKNSLGDFDILKSHTNFITLLTGKEIRYRVENFLTDTSIEIKNGILIFEDDLAEVFINF;locus_tag=LOCUS_4870;note=MGA_491
sequence02	MetaGeneAnnotator	CDS	173587	174339	.	-	0	ID=MGA_492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKIFVILIFVILTTSFNYAQTVFKEFPNIYKNIHSGDIVSLENGKIVPSQNINANSVLGIESNNIINDSNSVIHVFSSGIINTYVSNINGNVNKGDHITTSSLPGIAKKLNSQGLSIGEAVQSFNINKATRYKNTNIYIEKIPISINIEYLNLINGASNIYPFSYNIGNTLGVKQINIFQIISVLIILFISIIISVTTIIKNARDTVKKTARNPLAKKGILNHFYFKILIAMSIFTLGIILGYLIIIF;locus_tag=LOCUS_4880;note=MGA_492
sequence02	MetaGeneAnnotator	CDS	174413	174952	.	+	0	ID=MGA_493;product=inorganic diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259161.1;translation=MSNLFHDINPVEKDLQNILMVVENPSGYRGKIEYNKKLGAMILDRVSYSDLSYPVEYGFIPQSWNKYDNDPMDIMSLSSIHTFPGVLVNVRVLGMLKMEDSGELDHKVFGVADDDPYYNDVQELKDIDEHVLKTIEFYFANYKKLMKNKEVKILGWEDKNNAIDFVKDTLDEYKVKFNK;locus_tag=LOCUS_4890;note=WP_012259161.1 inorganic diphosphatase (Chloroflexus) [pid:39.7%25%2C q_cov:96.6%25%2C s_cov:93.4%25%2C Eval:7.2e-32],MGA_493
sequence02	MetaGeneAnnotator	CDS	174982	175170	.	+	0	ID=MGA_494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDSKKIQKTFFVLAMIALVLALLGIIQYSLRFYLKPSDWVLVGIVFLLLSLDAKDKSSFIK;locus_tag=LOCUS_4900;note=MGA_494
sequence02	MetaGeneAnnotator	CDS	175080	175313	.	-	0	ID=MGA_495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIRISDNTAISINTYILNPINKMSKTEYRIRTNTLTVYRTLFLLNIYYFIKLLLSLASKDNNKNTIPTRTQSEGFR;locus_tag=LOCUS_4910;note=MGA_495
sequence02	MetaGeneAnnotator	CDS	175270	176160	.	+	0	ID=MGA_496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFILIAVLSLILIGIIYISESYISDLSKLSELNSKLKDNDFNFSPKFQNKEFINLKENIDNITSVIFENNKKALSVDKMKEDFIYVVSHNLRTPMVTISGYVEILSSSKNISEEDLQIIKRINTSLKQLNLINEEILSLVYLDSPDFKVVKEDVNLSDFVKNIVENKIKESSMSVGFSFDEHIGIIVTDKSILEKSINNIIDNSIKFNHSEGLISVSIYKETEKVVIKISDTGIGISPENLKNIFVPFSRKTSVLNYDYEGLGLGLYIAKISLEKIGATLKVESIENKGSDFYIYL;locus_tag=LOCUS_4920;note=WP_052279146.1 ATP-binding protein (Methanosarcina acetivorans) [pid:32.8%25%2C q_cov:75.7%25%2C s_cov:45.2%25%2C Eval:5.0e-26%2C partial hit],MGA_496
sequence02	MetaGeneAnnotator	CDS	176260	176493	.	-	0	ID=MGA_497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINGIQLNYNKLREINPQAAREVILEMLETNRWDISKSSRDLNTTRNTIKKIQKLNKQYSEDKVAHFGQKGREFKSL;locus_tag=LOCUS_4930;note=MGA_497
sequence02	MetaGeneAnnotator	CDS	176462	176599	.	-	0	ID=MGA_498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGPEHGNQLEGYRQYIKECLKLENINQLKLDTLIYDKWYTTKLQ;locus_tag=LOCUS_4940;note=MGA_498
sequence02	MetaGeneAnnotator	CDS	176644	177150	.	+	0	ID=MGA_499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQLETNFSKYSEDKEIKNDFSMKSNNKLVLPGILVIVVIIVLYLLVKSIFFSQGNLAANYASMKNSSGYQAVVLNDSNLNIYFGKVLGETSNSLYLSNVFFLSASQSSSKVKSVSPQYSLSHLTPTYSYGALDQMKINRKDVLFTENLSTSSQVYKAILNYYKVHKK;locus_tag=LOCUS_4950;note=MGA_499
sequence02	MetaGeneAnnotator	CDS	177152	177814	.	+	0	ID=MGA_500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIKHTLENPINRNPEVNWFKIVFFMTFTSIILSLGIVIGATLNSTISSPYIAQNFTSNYVQSTSIQEKGTLNFGIMGELSPVVKGAIFYTPPKVLNMAISQVLVEKMGTLKWIQIPVSNKLVNLEEYTKNVYYLSSIRLPVGKYSGIKIYFKYISALLQSNKVVNIPLYDTSIILYNKFLISNNSKTYIAPVFNINNIIGNINGTYSFNPNIYQVNIDY;locus_tag=LOCUS_4960;note=MGA_500
sequence02	MetaGeneAnnotator	CDS	177820	178356	.	-	0	ID=MGA_501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTIERLPASILLVAAFIISPIFFLTKPAISQNKNPIQGNVVSYFASKNVILTTRLKKLPTVNESVGEVTISYNYTSVPQRQNTFNSNFNKYSNIIRSAASQYNVSYNLMNSIIACESGYNPLAYNPSGASGIAQFMPSTFYGSWNIYRSGGLWDATSQIYAMALKISQGGVNAWTCK;locus_tag=LOCUS_4970;note=MGA_501
sequence02	MetaGeneAnnotator	CDS	178256	178447	.	+	0	ID=MGA_502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFCDIAGFVRKNIGEIMKAATSKILAGNLSIVFIKFNKFNISSYIKNKLYISRKNKNTNAIVS;locus_tag=LOCUS_4980;note=MGA_502
sequence02	MetaGeneAnnotator	CDS	178499	180169	.	-	0	ID=MGA_503;product=DNA primase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009896376.1;translation=MIDKSQIENIKRSVDIVDIASSYLTLNKSGSNYFTLCPFHQEKTPSFSINTNLQIYHCFGCNESGDVISLIEKLENIDFNEAIEYLAKKANIQIQREKNYKNPNTDILKANKLAEEYFVFNLQKNPSALKYLEKRGLKKEIVQKFNIGFSTNRNELSNYLIKKGLNKQNLLDYGLSIIKDNILLDKFRNRLIFPIKNIHGETIGFIGRTLKDEIKPKYLNSPETSVFKKSEILYRIDLAKREISKKGFVIITEGNIDVLSSFQIGIENVLGIQGTAISEAHINIIKRYTDKIYFAFDMDQAGYKALERSVKIAEENSMSFKVLNITHAKDIDEYIHKFGKQKYIDLITNAQEYIDFAINYEIKNNPISSYEDKIKIVDSIYPIIENINNNIKKSFYLSLLSKELNIPYEVLKDYKKPKIKKNIDSQKIKFASNEIYFLYLILESNTLKKIGIENIKPEYIKGSNTNKIYQYILDNKVEKDVLISIKEIIYKNIDSQYIKENKDITDKEKDLLTIIKNIKNSYIKDRIDQLKKQIDNNNKNTNILNEIKKLSSEYIV;locus_tag=LOCUS_4990;gene=dnaG;note=WP_009896376.1 DNA primase (Clostridioides difficile) [pid:34.1%25%2C q_cov:97.8%25%2C s_cov:95.8%25%2C Eval:1.6e-83],MGA_503
sequence02	MetaGeneAnnotator	CDS	180261	180476	.	+	0	ID=MGA_504;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403816.1;translation=MSSKDKIELDGKVIEAYPDLSFKIQLEEGKEVFAYLSGKMKMHYIKILLGDKVKVEFSRYDPGRGRIVYRY;locus_tag=LOCUS_5000;gene=infA;note=WP_011403816.1 translation initiation factor IF-1 (Salinibacter) [pid:59.2%25%2C q_cov:100.0%25%2C s_cov:97.3%25%2C Eval:3.1e-18],MGA_504
sequence02	MetaGeneAnnotator	CDS	180604	181002	.	+	0	ID=MGA_505;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869905.1;translation=MANSQVRIAGIDLPLKKRIEASLIAIYGVGFSSSRKILNLARVDINKRTYDLSEDEISRIRTILERGDFLIEGDLRQKVYQDIKRLRDIRCYRGIRHRLGLPVRGQITRHNAHTRKGKHIAVGGLKKKIEKK;locus_tag=LOCUS_5010;gene=rpsM;note=WP_012869905.1 30S ribosomal protein S13 (Thermanaerovibrio acidaminovorans) [pid:58.1%25%2C q_cov:93.9%25%2C s_cov:98.4%25%2C Eval:2.5e-33],MGA_505
sequence02	MetaGeneAnnotator	CDS	181004	181417	.	+	0	ID=MGA_506;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003854428.1;translation=MANKNIKNTVKKVQTKQLKVRRKVPKGRAYIVTSFNNTIVTITDPEGNVISSSSSGIVGFKGARKSTPYAASRVAEDATNKSVKYGLSEVDVFISGPGTGRQMAVKSLRNSGLRILSLSDITPIPHNGCRPKKQPRN;locus_tag=LOCUS_5020;gene=rpsK;note=WP_003854428.1 30S ribosomal protein S11 (Corynebacterium) [pid:52.8%25%2C q_cov:89.8%25%2C s_cov:91.8%25%2C Eval:9.7e-33],MGA_506
sequence02	MetaGeneAnnotator	CDS	181432	182052	.	+	0	ID=MGA_507;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003421121.1;translation=MARYTESKCKQCLREHQKLYLKGAKCYSQKCVFTKRNGSLPGSNRYSYRRQSDFSVQFREKQKIKRIYGLLEKQFKRYYEIAQNQTGDTGYNLLQVLERRFDNIVYRMGYAPNRVAARQLVNHGHFMINGKGNNIPSTLLKENDEIEVKLKSSKGEYFKDPLLGVDLNIPEWIEVSGTKGKVISFPQKEFFDPSMQPNLVVELYSR;locus_tag=LOCUS_5030;gene=rpsD;note=WP_003421121.1 30S ribosomal protein S4 (Clostridioides) [pid:49.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.2e-51],MGA_507
sequence02	MetaGeneAnnotator	CDS	182072	182836	.	+	0	ID=MGA_508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDNNLQQIKTLEENDFFGKFSISPLNKGYGYTVGNTLRRILLSALKGSAITSVKIEGAEHEYASLDGILEDVLNIILNIKELKFYSRSDEPQVLKISQKGEKIVTAKDIELTDSVTILNPEAIVATLTDSKSKLNMELVLETSYGYSLVDNTKRSSIGTIPVDADFSPVSIVNFNVVNTRVGENTDLDEVIIDIHTKSINPTLALKSALVEVCNVFNNLNEQIVVDLEKKEKVKKSTKKIDKDETPKKSKKIK;locus_tag=LOCUS_5040;note=WP_011393908.1 DNA-directed RNA polymerase subunit alpha (Moorella thermoacetica) [pid:43.9%25%2C q_cov:88.2%25%2C s_cov:73.2%25%2C Eval:4.9e-45%2C partial hit],MGA_508
sequence02	MetaGeneAnnotator	CDS	182802	183155	.	+	0	ID=MGA_509;product=50S ribosomal protein L17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001829718.1;translation=MRHQKRVKKLNKVKSHRDAMLKNLAASIIQYEEVKTTEAKAKAVSSLVDRIISVGKKGDLNARRRLYAMLPTKLSADKVLDILKDRYKERMSGFTSIVHIGQRKGDNARIVKIKLVD;locus_tag=LOCUS_5050;gene=rplQ;note=WP_001829718.1 50S ribosomal protein L17 (Staphylococcus) [pid:40.3%25%2C q_cov:93.2%25%2C s_cov:97.5%25%2C Eval:5.1e-18],MGA_509
sequence02	MetaGeneAnnotator	CDS	183160	183588	.	+	0	ID=MGA_510;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943505.1;translation=MFKTKFSSVKELKRNWYLIDAKDANLGKISVEISKLLIGKHKTDYSSNLVFSDHVVVINSKFLKISDKKINTKMYYTHSGYPGGLKEKSLSEKIEKNPEFVITNAVGGMLPKNKLRDLRLKYLHVYPEGKHEYEDKQFINIK;locus_tag=LOCUS_5060;gene=rplM;note=WP_010943505.1 50S ribosomal protein L13 (Geobacter sulfurreducens) [pid:42.3%25%2C q_cov:96.5%25%2C s_cov:95.8%25%2C Eval:1.0e-24],MGA_510
sequence02	MetaGeneAnnotator	CDS	183592	183996	.	+	0	ID=MGA_511;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000079986.1;translation=MENKKSKNYYYAKGTNKTSTSSVRLYSGKGESFVNGKPYEEYYKDLYSRSLISQPLKITGTLDGFYFTVKSSGGGIYSQVKATVLALSRALSKIDPSYKSTLSKNSLLTRDSRMVERKKYFRVKARKSPQFSKR;locus_tag=LOCUS_5070;gene=rpsI;note=WP_000079986.1 30S ribosomal protein S9 (Terrabacteria group) [pid:45.6%25%2C q_cov:93.3%25%2C s_cov:96.2%25%2C Eval:2.3e-23],MGA_511
sequence02	MetaGeneAnnotator	CDS	184062	184898	.	+	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDDLIQKQNNEEGNSLNNSADINNVNPNSTESLNNSFNQENNTLNPQENNTVSQANQSTNLNDSQPLITNENVSSDLLGNTNTLENNMNSNNKEIYTSNTQEENSNQDYSQNDSGKNENTKITSSPEGIFKWNWGAFFFTWLWGIFNGYFIPLYVFIGYVFLLIILSTIGVVTKYNGIYVINIILTFVFLVYISFLAYYLGHKGYQISWKNKKWIDLDSFYKTQKKWTIAGIIVAVLYFVITLVLIISSYSLVSTLSHYMQHSHTINVPMKTQSSVP;locus_tag=LOCUS_5080;note=WP_063173707.1 cytochrome c oxidase assembly factor Coa1 family protein (Mesorhizobium ciceri) [pid:34.8%25%2C q_cov:40.3%25%2C s_cov:37.4%25%2C Eval:3.7e-12%2C partial hit],MGA_512
sequence02	MetaGeneAnnotator	CDS	185085	185582	.	+	0	ID=MGA_513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNRSVLIQERFGGIVVSITFIDKKKDNLLDQINYIIPRYKKNGSLVNEEINKILVGRNSFLISLNNNISEYIRILGQESRIEFSKMRAANKEDLFYLKTILRSYSHILKEKKIIGEEGIKKLTEFTHNGDIYNFDKILNEMNKKGIRFSTEKVEELRQRCYKSL;locus_tag=LOCUS_5090;note=MGA_513
sequence02	MetaGeneAnnotator	CDS	185577	186119	.	-	0	ID=MGA_514;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965861.1;translation=MNINFIKTFINKKSQIIKFKSVGWEDLYNFINFLEKHVSHSEDFFQINKIFLEKNEVENMTQLMKLIEDRTCILICALHKDSIVGFSTILRDPKDKNTGYFEIFIHRNHRNSGIGSEFIKSILKYSKYMKIKNIKLSVRANNYNAIKLYKKFGFVKTHRENNNILYKKNIYSEIFMSRVL;locus_tag=LOCUS_5100;note=WP_010965861.1 GNAT family N-acetyltransferase (Clostridium) [pid:29.0%25%2C q_cov:85.0%25%2C s_cov:89.2%25%2C Eval:8.7e-09],MGA_514
sequence02	MetaGeneAnnotator	CDS	186125	186376	.	-	0	ID=MGA_515;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNVLPSFFQNNIFAYIELIFYMLIYLIFLFIIIYLIMFLLAWLIIPRDQHHKREAIHSLEEKYKKGEISKKTFLEKKEDIES;locus_tag=LOCUS_5110;note=MGA_515
sequence02	MetaGeneAnnotator	CDS	186694	186894	.	-	0	ID=MGA_516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKRNINHNNINIIDINLVFFPSSKSKSIFFIPFLKLSYITKDIKKRIGIPISKKMSKKLNFKLYL;locus_tag=LOCUS_5120;note=MGA_516
sequence02	Aragorn:1.2.38	tRNA	187226	187312	.	+	.	ID=Aragorn_23;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0220;note=Aragorn_23
sequence02	MetaGeneAnnotator	CDS	187469	187666	.	-	0	ID=MGA_517;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEPFIVIPSPTLAALTPFAIVDPQVVEVKFTEDIEGGGAASIKIPVKSNIEKSIKVITKLIKKKI;locus_tag=LOCUS_5130;note=MGA_517
sequence02	MetaGeneAnnotator	CDS	187657	194124	.	+	0	ID=MGA_518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVPNFRSTNDGVTVNGGTFTVSTWANTSITGTISNTGTLTGNIVVTVGGKTASIAFSLLPCITSLSPSSGGVGSTITINGNEFGADPGSGNYDTTTNNITLNGVAVPTADVFSWDTSTIIFFVPTGSTSGNIIVTATSNTSNAVSFTVLPIPNAPSSLTQSTVGGTLSANTYYYEVSSITSQGKTPPSSAVSITTTGSTSENKISWTPVVGAIEYSVYRGIGSSVMTQYIDTKNTTFIDTGNINWNNIDGSLGNFYSSGIPQLLEYATSVTYNGFLYEIGGVSSSSVYYSQVYGNGELGAWNATSSLPQVVAESTSSEYAGYIYEIGGYNGSATLSTVYYAQIQSNGSLGSWNTTTPLGETSSGGGTAQTAYNSTSIAYNGYLYCIGGTGPGASVYYAPINANGTVGTWTTTTALPSATSSATSVEYNGYIYEISGYTTAAVSSVYYVPINSNGTLGTWTATTALGETSSGGGTAETIYSATSVEYNGYIYEIGGYNGSAAVSSVYYVPINSNGTLGTWTSTNTLPQVTERATSVEDGGYIYEVGGYNGTASLSEVNYTVVHTNGTINLWNNMLSLPEAINQATSVEYAGYVYEIGGSGGTSVYYAPINSDGTTGVWATTSSLLDSTSIATSVVYNGYVYEIGGNISGAASTIVEYAAINSNGSLGTWATTSSLLTASELATSVEYGGYIYEIGGQNSAITTVVEYVAINSNGSLGTWADTTSLTTSSGDAYSTSVVYNGYIYEIGGNASSGAYVSSVYYIAINSNGTLGTSWLATTSLPIVIDRASVVEYNGYIYEIGGYNGSNNISSVYYAQINTDGTLGSWYTTTSIPQALDYSTSVVYNGYIYEIGGNNTGNSAVNTVYYVPVNSNGSLGTLNNTTSLLSGIDGATSVEYAGYIYEIGGISGTTNLSSVYYAQIYNNGNIGSWTLTASLPQAVLYSTSVEYGGYIYVLGGYNGSSNLSEVYYSHINSDGTLGSWNTTTSIGETSSGGGTAEPIEFATSVTYGGYIYFLGGYSSTTSARVSTVYYVPINSDGTLGSWATTTSLPQIISRSTSIVYAGYIYEIGGYGASSDLSTVYSISITSNGALGTAWTTTTSLSFAIQQATSVEYAGYIYVIGGFNTGTQIYSSSVYYAPISSPGVVGTWSSTSYLPQTTEYATSVTYGGYVYEIGGYNGAAFFSSVYSFPIGLLSSASTAYTNTNQNTISWSAVSGATSYKIYRGITSGGEGQYFQVNNGSQLSFIDSGLNTTVTSNPPTTGNTAPTISSSSTNPIGGDIPYNQTYYYKVTAVTSSGETLPSSEVTINANSTIPIPTGLTISTSSIASSTVSSGSWINNTNLLLGASISSTNNPDSLYLLVEIQPKGTAFTSSTTNLVTTGTGVYESSLYSYSGTSIIANIEVSGLSPNTQYHWQAAVIGNGGISSWVAMGGNPDFAIDASSPITNSIGVLGWSSKPSLLFSNGFESGTILTSDSPSGAWTSDGGSALPLIQSSTQGAVLQGNYSVNMTTASAGTSYITNNTFNTSSAQVRFYMYISSVAYAASGDSITLAQISGASGIIASLNLLDTASGPVIQEVNSVGTTNAQGTNIVPLNTWNYIILNININSTTGSLLSYLNGQLQASLSSQNTGVSNMTTLSLGAVTDSTSDSINMNIDNVNVENTSGISVLNYDNPTPYSYPTPYFEFLGGFDNGSAINNYGVYFGTSATGYPSTTQSTEGYASSSLSTAGMYYLNIMIYDNLANSSSININFEYNFYPSGSSSPNAPSSLAQFDSNGTTAITNDTWTSSGVSTNIVFTISMSSPNSTDTLTPEIEIEPNGTAFSGTPNYSGSAVSYSGTSVTGTVDVTGLTNCAGYHWQAFVKNSVGLSSPTVFNTINPNFSVADTAPTAGSVFDGNINGTEVQSTQSISEISSNWTGFSDSCSGLASTPYQVEIGTTPGSNNIYSLSSSGIVLNNPSPYNTDSVSSLSLETGMTYYVTVIATNNAGLSTQVTSSGQSVMPTLSFSLNSTNINMGNWNATNSYTTTNTSTISVLTNAYNGYSIFAYESGLMQSQEGNTIPNFSVGTYASPALWPSGDYGFGYTSSATDINGSNLFSSGTLYAPFSLTGPGDTVAQNTTNITGANYTGNPTAYTIYYKVAVPSTQAAGTYQTNIIYTVVSSF;locus_tag=LOCUS_5140;note=WP_010906038.1 hypothetical protein (Lactococcus lactis) [pid:21.5%25%2C q_cov:64.0%25%2C s_cov:82.4%25%2C Eval:2.2e-12%2C partial hit],MGA_518
sequence02	MetaGeneAnnotator	CDS	194127	195056	.	+	0	ID=MGA_519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNIAIFLLFFVILSLKNFVYAKTYSLTIYPSLNEVNLTRGDSYTYYINLYNSENIPVAINVYAQNFGVAGLNGNVSFIEDKSKLQSASWFHFKNTSLVLYPYETVKYPVTVDVPQNAYPGGHYVSIFFQKVNSIKSTPSVGVIPRIGSLFFITVGGNVYYNAQIKKISILSSIFHIGNTYFPLFSMNNIKTSTIIKNLSNDYIVEKGKVYLENTFNLNKTKYSLPKHIILQNEARYLNSVIDANIGIGTYKVYTAIDYGYNQKVIVSKNIIIIPLFFLLLTFFIIFFTLVIILINIIFNFIKSIYEK;locus_tag=LOCUS_5150;note=MGA_519
sequence02	MetaGeneAnnotator	CDS	195046	196110	.	+	0	ID=MGA_520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSSNHKINLFIRRGISFLISFSLVFVSLIVNINAATVTVNHASITLSNSNPGSVANEDIAWTPSNTSTAVSTIFITYATTATGTTVPTGLSVPATPTISLTGFGAATATGSYASGVLTVTLSTATVASSSGVSVTVDGVTNPSAGVFYVQVNVSSTTATSGTIDYGVMATETVAQVTVSGTMDPSLSFSITGIASGTATSTTGGQNATTVTTTATAIPFGTFLITTTNVAAQQITTTTNANYGYTVTLQENQALTSSSSATIPDVTAGAWTTNSTTGFGVNVTGGDANTTLFTGNTIYEPIPHNTSTLTLATKTSPTSSSGDSEYVNFQLGVTAAQPAGTYTNNIDYVVTPTY;locus_tag=LOCUS_5160;note=MGA_520
sequence02	MetaGeneAnnotator	CDS	196231	197115	.	+	0	ID=MGA_521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFPGMVFAKGISGQSLGMIISPPVFSNITANPGGIVSNVIKVYNTSPNPLNITMQVDNYSAIGDNGAVQLQNSNQNSQYSLASWISVSPRNLYILPNSYKYVNFTINIPINAQPGSRFASIVAFASGRNTVTGSQVGTKIGSLILLTIAGNAKVDAILNRFSVSNFISNNGVLTFTQLIKDTGNVTLRPTGSVVITNMFGQKVTTIPLQQRDIIPNAVRKTEETLNTNGYFGVYTASLFVNYNSEGKGGNLFKSITFYVIPINEIIIIILIILVLFIFRKNIFRAYRAFFSKN;locus_tag=LOCUS_5170;note=MGA_521
sequence02	MetaGeneAnnotator	CDS	197116	198042	.	+	0	ID=MGA_522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQKYRLYILIVILLLSVFSTKIYADTGSSQYYSVSVGGTIFPTTVVFEGYTSPKSIVYIEQNKILLTTALSNSSGYFNTSIINISQGIEQYSIYSQDQNNINSSTFTVYDNILGDRINIISNINLSPTFKITSNNNVLNITGFATPLSSVEIFINGIQKYTLNVNSQGEWSTDINNLETNKYIFSAIDITPTGILSNTSLSETINFILVNNNKNNSPVINQPIIQPIEVSPNTNSVKIPPIKTINKTKPPTIHKKSINIKKNNYPINKVVNKKPFFVLPKIDGKVVVKTAIISASIYLILIIFIFLI;locus_tag=LOCUS_5180;note=MGA_522
sequence02	MetaGeneAnnotator	CDS	198062	199384	.	+	0	ID=MGA_523;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKLKYILSFLVIVLLGVYIYTSVSLFPKLSESYYYTKNVTSSYNNKNNNGSLGNTQKTGLEKIVLHKNFNTTFFSRPIVSGDYSFIDTANYFQTYGVKNPNYKGSTMKIDNTTGKVLWERKFPNLVMNTPLIVSEINTVFVGIGNDEFFYKSGKLIRGTGVSGIYALNINTGKILWKFNTVGQRKPTLVYNNNIVYSVGGNGVLYALSSSTGKEIWSLNYGSITSQGSITLVGNNLYFGGADPYKLYDVNILSRKIVWSKNFGALGINGGLDDTTIAYNSGYLYTVGTKLVNYKQNKGYDYLYKVNASNGDILWKLNEGYGLMNLPSGAQMEGTVPTISGNNVYVGSTTSQRILCVSINNGKILWSKKSIGLNNKPFIIVGKYLYYDNALGNILVYNKNNGEYVAERTTGAAVAVSGLTYINNKFYADTIKGDLYIFN;locus_tag=LOCUS_5190;note=WP_010980555.1 PQQ-binding-like beta-propeller repeat protein (Sulfurisphaera tokodaii) [pid:27.2%25%2C q_cov:74.1%25%2C s_cov:74.8%25%2C Eval:2.1e-24%2C partial hit],MGA_523
sequence02	MetaGeneAnnotator	CDS	199390	200112	.	+	0	ID=MGA_524;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011251231.1;translation=MEYAIEIDNFSKSFGIVKSVKNLTLSVKYGEIYGFLGPNGAGKSTTIKTLVGIYNKDQGIIKIDGKDISDLSYKKYIGYIPDEPYIYEGLTPKQLLSFFAELYSIPKKEIEEKVNKALKYFYIDEDLNLQVQDFSRGSKQKLVISAAFMHNPKVLIIDEPMVGLDPISSIKFIKYIKDFAKSGGAVFVSTHDLDIASKLCDRVGIINKGKLIIEGSIKEIEKLTNKSNLDEVFFSVINEE;locus_tag=LOCUS_5200;note=WP_011251231.1 ABC transporter ATP-binding protein (Thermococcus kodakarensis) [pid:42.7%25%2C q_cov:96.7%25%2C s_cov:92.5%25%2C Eval:1.6e-50],MGA_524
sequence02	MetaGeneAnnotator	CDS	200102	201655	.	+	0	ID=MGA_525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSNIFLKYDNIANSRYFKEKNIARKFVIFFFIICLFLLILLEFIFFFDIFHVLKTSDISLNVYSVIISLVILLILLLAFISSFSQSLQSFILEKDQEFILSLPISTNDFIDYKFIKIYIVSSVIMTIFSIPLIFSYLYIFSYSYIYYIFSIIDILLISLLVVSSSFLLTSIINIIFRKFNLYIISSIFLLLFIIFSISITIQSAPNISLLFNVLTIKHFENIFNIKQILYSPQYLFSQILLNINYVNNTLILFTESISAFVLFQIVSRFDYLRIIKYHKKSFWGISSSKVILSRDLNHFINEEIQIFNSGIIIFILFFMVYIVFQISKFYLYKYNIYLYLGIIISISYMIVLLSLYFVFPSFSQEGRAGWIIFSSPIKRIDIFLQKIKASNIFVLIHAFILIIFISLFIKLSVYNILYFYLFIILTSLGISILFTSIGVGFPNFSKRDIQDLSTTPAGLSVTFISFIYVALPIYIFYLFGILISSIFFIGLFLLISIVSLHIGKKKIQNIDFSVRA;locus_tag=LOCUS_5210;note=MGA_525
sequence02	MetaGeneAnnotator	CDS	201692	202780	.	-	0	ID=MGA_526;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011082555.1;translation=MNLKNIISIVIRILKQFKNDKRTVALFFIVPLIILLLLGYMLLGQSTNLTLGLKNKDKGFLGKEFSNNLLHNKDINIKTENINQLKKDLLSNKIQGYIIFPSNFTNNFLINHTISPNIYLEGSQPQEVQNLLSNINKAYSIKGMKIKESIHYLYGNSKLNILDYFGPAFIGIIVFFLVFLITSVSFLRERSEGTLERLIASPLSKADIVFGYMIAFILLSFVQAVIVLLFSLYVLNMYNIGNILYILIIEFLLTISAVNTGIFLSMFSKTEFQAIQFIPLVIIPQVLLSGIIFTVNTEPPVLKTISNILPLTYAVQGLRIIMIKGKNLNSHTLLLDIIVLIIFSLLMLLGAFLTIKNTIDTN;locus_tag=LOCUS_5220;note=WP_011082555.1 ABC transporter permease (Staphylococcus epidermidis) [pid:32.7%25%2C q_cov:94.8%25%2C s_cov:97.0%25%2C Eval:1.3e-42],MGA_526
sequence02	MetaGeneAnnotator	CDS	202785	203483	.	-	0	ID=MGA_527;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000812699.1;translation=MNIIEVTNLTKTFSGINVIDDLSLSIKKGSIYGLLGPNGSGKTTLIRILLGILNYDKGEIFIIKKGMSSKETLKNIGYMPQQSSLYQDLTVFDNIKFFASIYNAEKNINFILDLVELDEIKNKKVSRLSGGMKQRCSLACALVHKPKLLFLDEPTVGVDPLLRAQFWSYFNEISKNNDTTIVVSSHVMDEAEHCDKLALIRFGKLIAEGSVSHLLEKTNSNNLENAFLKLSK;locus_tag=LOCUS_5230;note=WP_000812699.1 ABC transporter ATP-binding protein (Bacillus) [pid:43.5%25%2C q_cov:97.0%25%2C s_cov:95.0%25%2C Eval:7.1e-53],MGA_527
sequence02	MetaGeneAnnotator	CDS	203558	204616	.	-	0	ID=MGA_528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQKLIQASKKVILDCCLENGAIVAANSTKESYSKEAKNYFYVWPRDASYACMALDILGVENIQEKFFDWLLERAEGWKETGLFYEKYYANGLQALNRFQPDQTGAVLYAVSHHFKKTGKIPDKYKKLVIKSADGICKNWKNDHFKLVTNDIWEERLCFPDLKENFTYSLASCYAGLIETNKFFPNNKYIKTATEMKNLILKNSKDHLFRSFGKLNDDKIDASVLGVIWPFNVISSEDFITKNTISEIEKRIVKDFGVYRYENDEYDGWMIDTQHRKKGAGFWPLLNFWLSIVLNKMGQKQKAMEYFQKALPNKGTNIPEQVFDNNIQKSVSPLCWSHSMFILASKELGLYK;locus_tag=LOCUS_5240;note=WP_011021214.1 glycoside hydrolase family 15 protein (Methanosarcina acetivorans) [pid:27.9%25%2C q_cov:87.5%25%2C s_cov:45.6%25%2C Eval:7.3e-22%2C partial hit],MGA_528
sequence03	MetaGeneAnnotator	CDS	191	367	.	+	0	ID=MGA_530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHLVNKLKIKKSGTTSFFDYPEKEKIDIITKAAKEANKMQSELVKKYTKLQNNTSYN;locus_tag=LOCUS_5250;note=MGA_530
sequence03	MetaGeneAnnotator	CDS	642	1337	.	+	0	ID=MGA_531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFNNKVVVITGGSKGFGKGLAVAFIKEGSKVVITGTNGVELTATAKEIGAEGIVVDASSYEATSKLANSVVKEYGTLDIWINNAGIQIAPTNAEDIIIDKLHMLFNINFFGYFYGCIVALKTMKKQGYGLIINVNSTAGLSGKPMLSAYVSSKFAIKGMSESIREEIKDSNVKLHQIFPGGMQTDIYHEKVPSDIDNYMQIDYVIDKVIDNLKADIPEEDLIIKRPTIIS;locus_tag=LOCUS_5260;note=WP_011969394.1 SDR family oxidoreductase (Sinorhizobium medicae) [pid:35.7%25%2C q_cov:81.0%25%2C s_cov:64.9%25%2C Eval:1.3e-27%2C partial hit],MGA_531
sequence03	MetaGeneAnnotator	CDS	1616	2131	.	+	0	ID=MGA_532;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQEKREVNVYIYPRENEAKLLGIERGSSWDEINEERTRIYRVIKDVLQKVGSPVPSTIGIINAIENIKDAYELGLSFGTARDDEIEEEEKRLYSEIAYYRLRGRKIGYSIHSIHKYSAKTRRDEAKKLGITSKNPTRMEINEKIRKKQPVLMDSYSHSSPTDMTSSYYSM;locus_tag=LOCUS_5270;note=MGA_532
sequence03	MetaGeneAnnotator	CDS	2544	2915	.	+	0	ID=MGA_533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEGIKGYYTNLKDISPQLIIARYHDLWHVEKAFRIAKGDLQARPIFARKKDMIKTHLLIVFVALCISKSLELETGYSIKVIKKNIFHIVDITFIDKLTKQEFVKRQEFPDSDVFSKIKELYT;locus_tag=LOCUS_5280;note=WP_011727513.1 IS1634-like element ISMsm6 family transposase (Mycolicibacterium smegmatis) [pid:55.4%25%2C q_cov:65.0%25%2C s_cov:15.2%25%2C Eval:3.9e-18%2C partial hit],MGA_533
sequence03	MetaGeneAnnotator	CDS	3103	3348	.	+	0	ID=MGA_534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGINILHIVIWKEGKFFVANCLEFGVASQGESYKEAKKNIQEAIELYLEEVDGLEEKQYIPHINNIRFDEIKINSLNINV;locus_tag=LOCUS_5290;note=WP_011021610.1 type II toxin-antitoxin system HicB family antitoxin (Methanosarcina acetivorans) [pid:56.8%25%2C q_cov:54.3%25%2C s_cov:60.3%25%2C Eval:1.4e-07%2C partial hit],MGA_534
sequence03	MetaGeneAnnotator	CDS	3341	3562	.	+	0	ID=MGA_535;product=type II toxin-antitoxin system HicA family toxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_083755925.1;translation=MSNTFSGTEVVKKLTKVGFYVVGQKGSHVKLKGLFNNQSRVVIVPVHKELAKGTFKSILLQAGITLEEFNKIK;locus_tag=LOCUS_5300;note=WP_083755925.1 type II toxin-antitoxin system HicA family toxin (Methanosarcina acetivorans) [pid:53.6%25%2C q_cov:94.5%25%2C s_cov:92.0%25%2C Eval:1.5e-12],MGA_535
sequence03	MetaGeneAnnotator	CDS	3751	3912	.	+	0	ID=MGA_536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISYDPTTDSAYIKLSDKKYKLTKKISNDILIDYDSKNNPLGIEILSVKNNI;locus_tag=LOCUS_5310;note=MGA_536
sequence03	MetaGeneAnnotator	CDS	4027	4848	.	+	0	ID=MGA_537;product=methyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048066520.1;translation=MKNKEIIITKKNYSNNVKQEWTRLVKDPYHELEFSTTLYFLKKYLPKRGLILDAGGGPGRYTIELAKLGYDIVLLDLVEENLEFARKQIKKSKVEGKVKQIIQGSITDLSEFSNNTFDAVICLGGPLSHNTEEQRQKAVSELVRVSKKNSNIFTSVMGKYAVLLNTPSGWPEEVELKNFYNIIENGDDYRWRGTGYCHFFTSSELEDIFLREKVKIIDKVGLEGLNIDGKVINKFARNFPKAWKNWLDIHIKICTESFVVDSSSHILIITKKL;locus_tag=LOCUS_5320;note=WP_048066520.1 methyltransferase domain-containing protein (Methanosarcina acetivorans) [pid:27.1%25%2C q_cov:94.1%25%2C s_cov:96.2%25%2C Eval:7.7e-23],MGA_537
sequence03	MetaGeneAnnotator	CDS	4988	5833	.	-	0	ID=MGA_538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTQVLDKKNNSSEILVKTLSTINNLKNDKEKKDQVKVFEDQLITIGKPSISLLDEILQDEKNKNHESLAYVLENIVNSKAINLFINALEDVDFGDIAEQLLVKIGIKCIPSIIKKIEYRIEHSVKKGRTELMNWALLTIGRIRCNESINFLNNLLDDYMSKIPNESFDVSKYDWKYRNVDFFFILESMVRQQDEKAIPHLKKAKDFFPKNYVDHIACQIAIVRIKKRRVEGFLPLEIDDISMPSGLLMNILSGGETEYHDTFDEDYGEYMEEIKEDSLTV;locus_tag=LOCUS_5330;note=MGA_538
sequence03	MetaGeneAnnotator	CDS	5849	6817	.	-	0	ID=MGA_539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTTKQLLLQAFEEHKQALTVDELSQFTGISPSKIRQKLTPYEQEIVRVGNSTYDLAKRAYKGKTFRYTPSKREIDKGILRSDDDLGMFLTAWDHSNASIIFIDDKENKYNVSNVVTKKVVKFPYYEDIAGWYKRVAFEEGDDILFKCLDISTCTFSIWKEKREERDGSAISIKNKKLTDLVYDILNHDSIKYEMVLFVVRKYLYIYPYNEDIPPDYLSKVLSEDNRFVISSRDKMFSWTGHLISSHWLTIGLKKYYFHNSDKKWIPVFIEQNKNGKKFGYCSQCGETMYWAGEYQWLHAQFPGEYSRKYLNSSYFTFDKKD;locus_tag=LOCUS_5340;note=MGA_539
sequence03	MetaGeneAnnotator	CDS	7090	7362	.	+	0	ID=MGA_540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKEKSIIIIDGGNFYHKLKSLSFHQLLSFNFQAFCSSLARSTDLISCMYYVGEVKTTGTEKSQKMYNAQQRLLGDTIEEVINEISYVAS;locus_tag=LOCUS_5350;note=MGA_540
sequence03	MetaGeneAnnotator	CDS	7789	8418	.	+	0	ID=MGA_541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYYLSSYKLGNETNILKELIDNTSKKFGYIPNALDFTSSDPVRKKLHTDKDMEDLKSLGAEVELLDLKNFFGKELDLSLKLEKLSGVYVSGGNSFILRQSMYLSGFDKIISEISKNKTDFVYIAYSAGVCVLTPSMKPYEITDDTIDMPYPEIKEQIWEGIGILNFTFEPHYKSNHPESESIDKGIQYCIDNKILFKAYRDGEVLIIK;locus_tag=LOCUS_5360;note=MGA_541
sequence03	MetaGeneAnnotator	CDS	8599	9465	.	-	0	ID=MGA_542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYVSLIRFGGGGSFSSGGFSSGGGLSSGGGYYGGYYGTTSGTTTHMSTLGAIIFIVVFVLIIIMVLILRKKNIASGITTGISGIQNGSAMGIPFFQEANITQLTEIDSNFSKQRFLDHVQSLFFKFQQAWTASNITPVQAYLTESMYTRLQTQISELIQKNEQDVLENIAIGGLKIVKCSIDNNFEYLTVQIDASMKDYDVNKDTGKVVSGNKFINGRFTEYWEFIRSKSVLSDYSKGFLAQTCPNCGAPIDINEFGECKYCKAKVISGNFDWVLDNIFQQGEFQV;locus_tag=LOCUS_5370;note=MGA_542
sequence03	MetaGeneAnnotator	CDS	9462	10415	.	-	0	ID=MGA_543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLFNPIQAQFISRPDNSKDQIVYKYLDNNIRMLSVLTVQPDEVCLFIKQGVVAGIIEQGQHKLDGANIPFLGGLIDSATGGNVLVSDVYFVSIREFPNFNFGGFLDNVIDPDTTLAVGLRVFGEFALKVNDPSKLILNLVGTQNLISNDEISNWSQDQLLKATREIISNHITNDKWDILGIASKTEDLSSEIIPKTAEFLLNYGIEISQLGNLTVTLKPEDETTLKEMRRNIAYNNNPNLADTAIKLGAATGLENSSGNASVAGAGIAAGIGFGMMNNMMNQNNTAQQQSMIVCKNCQTQNLATAKFCSNCGSSLS;locus_tag=LOCUS_5380;note=WP_002356656.1 SPFH domain-containing protein (Enterococcus) [pid:23.2%25%2C q_cov:88.3%25%2C s_cov:74.9%25%2C Eval:1.2e-09%2C partial hit],MGA_543
sequence03	MetaGeneAnnotator	CDS	10768	11265	.	+	0	ID=MGA_544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEVKMEWYSSDKILIEHENLLYKQVYCWIISKNNLLPLVSKDNKYWQFPGGHPEKNETILETCYREIKEETGLNLEHTIPKFFGYYRVEEFNPTINKMDVYLQLRLFTKLDKFSTELELNVNEKIDEERKVFYTKWFTLIDLINTVPWVENSEEFNTFKKRIFI;locus_tag=LOCUS_5390;note=MGA_544
sequence03	MetaGeneAnnotator	CDS	11299	12072	.	+	0	ID=MGA_545;product=histidine phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003813549.1;translation=MAMPNELVLVRHGHSEGNLAVEKSREGNDGLYTSEFREKPAHRWKLTEEGQKQSKITGKWILKNISNKFDRYYVSPFSRTCETAGLLGLPNAEWRIDQRLRERDWGDIGTLPHSEFRDIYPQNAIIKRVDRLYWRPPGGESIADVRQRVRDFFDTLHRECDGMRVIVVTHGEFMWAIRAELEYINDKDFIIADENPSLKIYNTHILQYSRKDPISGMYGDYLDWTRNICPWMNNNEISWTKIKRKKYSNKDLINLSI;locus_tag=LOCUS_5400;note=WP_003813549.1 histidine phosphatase family protein (Bifidobacterium) [pid:38.8%25%2C q_cov:99.2%25%2C s_cov:97.0%25%2C Eval:8.0e-51],MGA_545
sequence03	MetaGeneAnnotator	CDS	12103	12768	.	+	0	ID=MGA_546;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYSKNIIYTLLVIIVITIIYFIFPKKNNIPSKNLTSTKVKTSLIGQNPILNLSKLTSLKNYTFSFTDNSLTMTGVVYSKNNWSLQKPFQEYHVNGYIYTKLANTWYRQNEALNNYAHSPYISSAEQFIGYKNVYGIKLQEGKSCTIAGVKGHLWIFKSPSNGGLLNEVASSCISNKGYMLSEYIGAQGSAINGKKYTSSFIIQSIGDTKAYIPPTSFKID;locus_tag=LOCUS_5410;note=MGA_546
sequence03	MetaGeneAnnotator	CDS	12788	13123	.	+	0	ID=MGA_547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNINQTHKDSLTHLDKIALFITTIVGTMYCAFIFAIIAFAGFPFKGATPLQYVLWTSTIFLQLVLLPIILVGQNLQNRHSQLLAEQMYKIEMHNEKLLEELEQIKNNQK;locus_tag=LOCUS_5420;note=MGA_547
sequence03	MetaGeneAnnotator	CDS	13135	13494	.	+	0	ID=MGA_548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNINWNPPTISKRDMIMDSYRKSRGGNAEMITIYCMTCNSPILFYQKDGKGNLYRCYIDRIIYPYHFKDFLKYSIKNIPQLKCIVCDNSIATPMIYKKEKRLAFGLFNSKFYKRKNKI;locus_tag=LOCUS_5430;note=MGA_548
sequence03	MetaGeneAnnotator	CDS	13515	14741	.	-	0	ID=MGA_549;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005809406.1;translation=MTFKKLLYTSIHSLTINLGRTILSALGIIIGIASVIALISVGQGTQSKITQNIQNLGSNLIIVTSGNAKVGNVRQGIGTANTLNQNDVVALSSQNNTPDVIAISPVISKSGELIYKSQNAVTLIEGVTPSAQIVNNITMEKGSFITEPDIKYNLPVIVLGPTVASELFPNSNPMGKSVTIGNRSFTVIGITQSKGSTGGSFNQDNQVAIPISTAQSELFGNVGYSSITLQASSASVMNEATAEVENTLMRVQGITNVNQANFNITNQTQILTTLNTITGTFTLLLGGIAGISLIVGGIGIMNIMLVSVTERTREIGLRKAVGAKNSDILYQFLVEAILITIIGGFIGVFIGIFLDYVVASYIIKVPFIISSLAIILSITVSITIGLIFGIFPAYKASRLSPIEALRYE;locus_tag=LOCUS_5440;note=WP_005809406.1 ABC transporter permease (Desulfitobacterium hafniense) [pid:38.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-73],MGA_549
sequence03	MetaGeneAnnotator	CDS	14738	15427	.	-	0	ID=MGA_550;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005809408.1;translation=MIKLKDIYKIYGDVENEVIALNNINLQIESGEYVSIMGASGSGKSSLMHIMGLLDKPTRGEYILDGVNTIDIKERELSSVRNKYIGFVFQAFNLLPRTTVIENVILPLLYRGENTDIAEKKAMEILKKLGIDKRAYFKTNQISGGQQQRVAIARALAQEPTLILADEPTGNVDSKSTLEIIKILQDLNDEGHSIVIVTHEEDIGNRAKRKIMLKDGVLIEDKIIKQQRI;locus_tag=LOCUS_5450;note=WP_005809408.1 ABC transporter ATP-binding protein (Desulfitobacterium hafniense) [pid:51.1%25%2C q_cov:100.0%25%2C s_cov:94.6%25%2C Eval:6.4e-62],MGA_550
sequence03	MetaGeneAnnotator	CDS	15424	16743	.	-	0	ID=MGA_551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIKKSLIAKIVLAIIVLGVIYFIYNSFVITKQKTIKLYTIKTGSITQNVSSVGNVVFGNMTELNFPISGKLAQVYVKDGQNVQIGEKLATLDTTILSQNVQIAQNNYDIAQQKINALYGQASQDVQNAQNVLNQAESTLNADQITLQSTSTTSPNYSSILAKVQTDNTLVQNDQQNLVNAQQEPLYYNLAPLIDAKNNAYINLEQAQNNLSQATLISPISGTVIFLSSIAPNEQVGASSQGGSKGISSAQSGISNVAGNSFITIADTSSAQIFAYVDESSIASVSIGQNVSITLTAYPNQTFRGVVTSIEPSSTIIQNVVNYGVTISIHNAPSGIKLGMSANVNIITKSANNVLLIPNSALIYTTQGQPFVILDQKGHQIRRFVKTGISNIYYTQIVSGLSLGNKIVINGNSSFHIKSSSTKNIGGKAKGLGKQLGL;locus_tag=LOCUS_5460;note=WP_010963641.1 efflux RND transporter periplasmic adaptor subunit (Clostridium) [pid:28.9%25%2C q_cov:69.5%25%2C s_cov:78.8%25%2C Eval:4.7e-24%2C partial hit],MGA_551
sequence03	MetaGeneAnnotator	CDS	16743	17111	.	-	0	ID=MGA_552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNQKIRNIIILIIVAIIFGIIGYLIPHKVLHHKGKRNVSSSTISSKGKTKPTVFIQEEGNISNITAKSITINGTNININKNTKIYRGNSLENVSTLQNGVTISVIGLHSKNGIIAKFIIVI;locus_tag=LOCUS_5470;note=MGA_552
sequence03	MetaGeneAnnotator	CDS	17301	17828	.	+	0	ID=MGA_553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKKLLIGGTLSLVVLALSAVSVFAKGGFNQFGYNYGARIFNGTNASFCASLKAPSNCDGNPYDKVIMKWNAQWDNCNANGYNNPKYCLGAWVDNEYNGKVPNGSGVVWHYKIIWVGSAGASSPYWLAGGYSIWGNYEVIMDQGINSTCSGNVDTGHQFCALATPNGYGAVFAK;locus_tag=LOCUS_5480;note=MGA_553
sequence03	MetaGeneAnnotator	CDS	17889	18590	.	-	0	ID=MGA_554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLRHTDNIQEKKDRLITPANIMTLSRPALALLVDKMLLAGEKPITPIIALMALSDMDGKVARFFDKNFPELNIGTTKIGAMGDQISDTLSILIVSSAASFAPRVSPMSKVAILSILGQEGIKSIWALKSSHNYTKLRKSTHNSSGDKLVLPTSKRGKKAMAEKLISLVCAIATNDTDNEFVKRGLELTSLSLAGMGIYHGEKAREEYNSQYKEMMSLLSTTGAEDSIEIFE;locus_tag=LOCUS_5490;note=MGA_554
sequence03	MetaGeneAnnotator	CDS	18685	19983	.	-	0	ID=MGA_555;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005813072.1;translation=MFNEGKDQDLEEKNINDISVQKNNKKFWKDMGAAFKISNYRWYWSTQLLSGIGTWAQAIAQSWLILNLTHSAIDLGVITMLQFLPMLLFSLYGGVIADRLPRRQLLIFTQIILAIQAIILSVLVFTHSVTIWEIGLLALFLGTTNALNGPVQQSFIPELVSKDLVPNAVALNSVQFNTSRMIGGAVGGIAIALWGISGALLFNALSFIPIIILLIKIRPAYTIAKTNIMKQSAIIELKEGLVYAFQEISIRRIIFLFGIIGLLGFNWQVAVPLIARFSLHQKVVEFGDLMAALGAGSLIGAIIQAKNNNASERRIVIGGIALGLSILLLGFSHSYILSMFLLVIAGFAGIITSVTTNTRLQIITPDKYRGRIMGIYILLMGGTTPIGAFLFGELAGHFNTGIALIVFGGITVVLISIIKISNNHIDNFLNIE;locus_tag=LOCUS_5500;note=WP_005813072.1 MFS transporter (Desulfitobacterium hafniense) [pid:32.3%25%2C q_cov:91.9%25%2C s_cov:94.3%25%2C Eval:5.2e-60],MGA_555
sequence03	MetaGeneAnnotator	CDS	20100	20555	.	+	0	ID=MGA_556;product=RNA pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013385347.1;translation=MYRKGVAAIILNDKNQILLVNLTTFDSKFFSIPGGGSEKGESDIDTIKRELLEELGIESSMIEVIKKSSTLYKFNFKSITIKDGKKYKGQKKVCFLVKFNGTDKDIKISKDEIRKYLWSDYKDLDKYLLFEEQLESIQFFIKDLCPYIIKI;locus_tag=LOCUS_5510;EC_number=3.6.1.-;note=WP_013385347.1 RNA pyrophosphohydrolase (Ketogulonicigenium vulgare) [pid:28.3%25%2C q_cov:81.5%25%2C s_cov:81.9%25%2C Eval:3.3e-09],MGA_556
sequence03	MetaGeneAnnotator	CDS	20552	21109	.	+	0	ID=MGA_557;product=XTP/dITP diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496428.1;translation=MKSILFATTNIRKLREAEAGCREWGIEVNQIELNINEIQSKDTRYISLNKAEEAFRLVQKPLVITDTSWTIPSLNGFPGGYMKDIASWFEAEDFINLLKSKKDKRISFTECIVYKDKINTKVFSNEYWGIVTDTPRGKGTSSIEKVAEFKGFTIAEKHDNEEFSHDPKEYIWYKFAKWYSKYTTR;locus_tag=LOCUS_5520;EC_number=3.6.1.66;note=WP_064496428.1 XTP/dITP diphosphatase (Methanocaldococcus jannaschii) [pid:26.6%25%2C q_cov:92.4%25%2C s_cov:95.1%25%2C Eval:2.0e-11],MGA_557
sequence03	MetaGeneAnnotator	CDS	21089	22081	.	-	0	ID=MGA_558;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKINKHIEIVRSSKNWLSSMSLESSNAIFNVLKNHYTNVSITTVNNLSDLKKLVKNKPDLVFLGMKFISIDEILRLEDPSKIWITQYLKDHKIAHTGSTQFAHELEFNKSLAKKRIIKAGLKTSPFYVVKQNCSQIREDKSLIFPLFIKPINRGGGLGIDSDSVVHNFEELCLKVRLISKRLHTDSLIEEYLPGREFSVAILKDRIKEGYHIMPIELVSHPDKYGRLLLSKKVKESNIERVLVVTDQSIKSKITDLSIKAFHALGARDYGRIDIRLDKNGTPHFLEANLIPSLINGYGSFPKACMLNINLEYEAMILNIVKLALSRSIL;locus_tag=LOCUS_5530;note=WP_207603918.1 ATP-grasp domain-containing protein (Rhizobium) [pid:30.7%25%2C q_cov:60.9%25%2C s_cov:57.9%25%2C Eval:6.9e-19%2C partial hit],MGA_558
sequence03	MetaGeneAnnotator	CDS	22257	23447	.	-	0	ID=MGA_559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIIKKRNVNHRYEADIIRGITVISVVAMHTVGTITFVDTNNFWSIIQFMILLLLRYNRQTFIFITAFVLVYVYNKPNLNLINFWKKRTLGIIIPYIIWSIIYVALYIKNPSLYNYVYAIITGSAEYQLYYILLAIQLYILLPFFIKILNKLKDKVFITLLSLGIFQFLLMSYTYFFLKVNNTNYKFVLRLTHIQYRFILFYLVYIFLGGFFALYVNDIEKEFKKNYFKFILFFILSTLVLLLSYYIEILVFHLPIAIASSFDQPLVISYSLSLIFILYKISLSISKNKIHLLKKINKSLVKFFLIVSEAAFGIYLIHPIILNMVSSNIMFPIYKYNNIPYIGGIIIILGWMLTVLISLSIVLLIMQIPYLNILVGKYSKYDKRERRKNEILDTQI;locus_tag=LOCUS_5540;note=WP_011392524.1 acyltransferase (Moorella thermoacetica) [pid:26.4%25%2C q_cov:42.2%25%2C s_cov:43.9%25%2C Eval:4.0e-11%2C partial hit],MGA_559
sequence03	MetaGeneAnnotator	CDS	23460	25079	.	-	0	ID=MGA_560;product=bifunctional sulfate adenylyltransferase/adenylylsulfate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002722319.1;translation=MKKIKLTERQLCDLELIMNGGFFPLKGFMEEEEYISVIENMRLPSGVLWPIPIILDVDNIDEFSIGDRIQLSDEYGKPIAIINISSIFKLQKDKEVESVYGTSNREHYGVNYIMNKTHKFALGGNVEKINDIDRFDFSEYRHTPEELKKWFKDNNWDKVCAFQTRNPIHKAHFYMIKSVYDNYGIKVLIHPSVGVTNDGDIDYITRVKSYIHIKNKYANDFSQISLLPLAMRMGGPKEALMHAIIRKNYGCTHFIVGRHHAEPKDSQGNDFYGAYDAQELVKMYEKDIGIEMIPFQEMVYVEDEDKYFEIDKINKNQKIKNISGTEFRKMISEGKEIPSWFSFTEVIEEIKKGYFRNNRDGLTIFFTGLPSSGKSTLAKHLYIKLQEIQERSISLLDGDVVRNNLSQGLGFSKDDRNINIERIGFVANEITKHGGIAICSAIAPYNSSRLKNRELISKHGRYIEIYLSTPLDICINRDVKGLYNSAQNNKGMKMTGIDDPYQVPQRAEIVIDTSQLSIKESIDKILKYLEENKIIFLKK;locus_tag=LOCUS_5550;note=WP_002722319.1 bifunctional sulfate adenylyltransferase/adenylylsulfate kinase (Cereibacter sphaeroides) [pid:47.7%25%2C q_cov:98.3%25%2C s_cov:93.8%25%2C Eval:2.4e-145],MGA_560
sequence03	MetaGeneAnnotator	CDS	25213	26679	.	+	0	ID=MGA_561;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESSYYNKNLYSKLEFWAIKNPNKTFIYDTQSSIHLSYFETKNIVDNIIFYLSDKKHTIMFIDENNTLSSILWIAALSGGHRIIPLHSQVSEADLEKLIEYFNPDLFITNRTSDIIDKVKTIIKEEDLLYNLKKSKSIGEIRDEGIVYLTTSGSTGTPKKIALKESQLYNTALNVVKVHESKENDVCLNFLSFSHINAPVIALFSTLISGGTIINSKFSKTNFWKITTELKVTWVNAVPTIINILLETNHNKKSNIGFIRTGSAPISKNIITKFEKKFDIPIIETYGATESCSQITANNKNLRKIGSVGKPQGLELIICNKDKDILEELDSNTVGEVCIKGFSVIKKYEDKGFENNFINGFFKTGDLGYKDKDGFIFLTGRKKDIIISKGENIYPKEIEDTLIKYEGINEVAVIGEKDDILGERVVAFIVLEDKYDFKEEHFNNWIEARLSKYKIPHKLLFVEDFPRLRSYKIDKMKLREYIDDKKTI;locus_tag=LOCUS_5560;note=WP_011393478.1 acyl--CoA ligase (Moorella thermoacetica) [pid:36.2%25%2C q_cov:69.1%25%2C s_cov:64.3%25%2C Eval:1.7e-57%2C partial hit],MGA_561
sequence03	MetaGeneAnnotator	CDS	26660	27796	.	+	0	ID=MGA_562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKQSKKLRRYEADILRGVTIFSVMGMHTVATITYIDTNNTYLYIQYLIILLFRYNRQVFIFITAFILVYIYNRPDFNVREFFKKRIFSIIIPYIIWSIIYVFIFNRHATLWKYIYDILTGSAYYQLYYILLAIQLYLLLPFFIKILNKLKDKTVITLTIVSIIQILIISYTYFYLKNIPDKSTLDNIILAIQDKFILFYIGYIFMGGFIALHINKFEREVKKYIKQIYVFFALSFIATILSYIIETKIFNQSIYYASSFMQPMIIIYSISIILLFFSITLNFINKTKDINNNKIIKFIFLVSESSFGLYLIHPIILDIISYLLYFLRLYIPGVILVILGWFITFLISLLIVVIALNIPYINFLVGKFKRKIDLFNA;locus_tag=LOCUS_5570;note=MGA_562
sequence03	MetaGeneAnnotator	CDS	27789	28703	.	+	0	ID=MGA_563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKIIMNEKKRFNIKDISSKEISSHIIFEDKNKIPNMICGIAPCRTGTTAQLKVFAGGEIDAYYQPIKSILRRIAFDSDYEDFIIPSKDIIFIKETIGPYSYAESKFNPIEVLENINYPKSKLKLIFEMRDPIDAYLSWINQFLSHEEYREQMLDLFILSYKTVNDMIDIAKKNSYISIPYIYESIKDNIPEDVISKLFKLLDIEFRESAIRGWDNKDIESKIHFAKEPEVYEPLNLHDEMKKSEGLKYNAKPIEYIKSILRKDEIEKIQKSEIYSIYQKLIEEQEKVFDIKINKDFRIKYLL;locus_tag=LOCUS_5580;note=MGA_563
sequence03	MetaGeneAnnotator	CDS	28815	29084	.	+	0	ID=MGA_564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMYNSYIMIRTQIYIPENLHKKLIYLAEKKNKSMAECIRIFIKEGIKKDETLDISGKDVLKKISLLNFVGGNKDMSSKIDEIIYGNGKK;locus_tag=LOCUS_5590;note=MGA_564
sequence03	MetaGeneAnnotator	CDS	29053	29493	.	+	0	ID=MGA_565;product=PIN domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979747.1;translation=MKLYMVMEKNSKRVIFIDSDIFIALSKSDDSNHDKALKILNKFFDEIIFTTSNYVISEVITVLSMQLGHSQALDFINTIKSEENIFSINWVDDKVENLAIEIFKKQTSKNTSFTDCTNMAFIEMLKLDGIFSFDSVYKKNKCVILE;locus_tag=LOCUS_5600;note=WP_010979747.1 PIN domain-containing protein (Sulfurisphaera tokodaii) [pid:26.4%25%2C q_cov:82.9%25%2C s_cov:84.0%25%2C Eval:6.3e-07],MGA_565
sequence03	MetaGeneAnnotator	CDS	29519	30193	.	-	0	ID=MGA_566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFDQIYFNISDSKEDKILVYLFLMIKDLSLVRDILSKFNQVYKYEKDIKKKHIEYIDIATQLILFIKENNTPILKDNYAPVLKKLLIEKFKEENLDKFIILLTYDYRYQTIFLYSLYLNNIIKNYIEVFGSLNKIDEVLSFNLKNLYANGSYNINYEDIYKNNISEEEFINLSLNIYTQIEDVFSKIIGIKKFKDISKKYLDSISDDYFSIPAYKNFLSKFSN;locus_tag=LOCUS_5610;note=MGA_566
sequence03	MetaGeneAnnotator	CDS	30193	30600	.	-	0	ID=MGA_567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKLTSIISIILFLALSPLYVYAQSMNMSNTTSTTVYSNNILYIILALGILFGIYSIVVISLGLKNLGGKISNTFKFIIVGIVFMIVAFLWTAIDTYFNILSMNYDMLVHMSLMLIGMIIFVISAFKFINISKS;locus_tag=LOCUS_5620;note=MGA_567
sequence03	MetaGeneAnnotator	CDS	30698	31084	.	-	0	ID=MGA_568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPLTNNNNNDNNNNTQDEILSKSLTIRTPGILTPISPIQYFIQARSIEKTVFHIRGITKTVDVIGVKTIDKVVVEEGIFFGTIRIVHMDKSEILIGRILKKNAIDIKAFFEEVVEFQRKNVVNLTGD;locus_tag=LOCUS_5630;note=MGA_568
sequence03	MetaGeneAnnotator	CDS	31164	32300	.	+	0	ID=MGA_569;product=malate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948041.1;translation=MYDKKSIELHKKYKGKLEIRSVIDIKDKEILSLLYTPGVGAVSREIHSHPETAYDYTIKGRTVAVVTDGSAVLGLGNIGPLAAMPVMEGKCALFKSFGNIDAVPICLNVHTPDEIINVIKAISPGFGGINLEDIKAPECFIIEKALQDIGIPVMHDDQHGTAIVTLAALINASKVIDKDIKDLKVIISGVGAAGVAIYRLLTNNRIGIQNIIMVDSKGILSKERTDIDGYKKEIALNTNPLNIKGSMKDALEGADVFIGVSAPNILTSDMINSMNEKKIVFAMANPDPEISLENAKKLGITVFATGRSDIPNQINNVLAFPGIFRGLLDNKINKITEDMKINASLKIADMIKTPGRENIIPSVFNKDVVKEVASAFSK;locus_tag=LOCUS_5640;EC_number=1.1.1.40;note=WP_011948041.1 malate dehydrogenase (Clostridium botulinum) [pid:54.2%25%2C q_cov:99.7%25%2C s_cov:96.9%25%2C Eval:1.4e-111],MGA_569
sequence03	MetaGeneAnnotator	CDS	32306	33016	.	+	0	ID=MGA_570;product=PIG-L family deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258474.1;translation=MKNKIILAVSAHEDDLEFGCSGTIAKWVKEGAKAYYLILTDGSKGNENRNLTDIEIKQIREKEQIEASKIIGVEKVFFGNFTDGELKDSDDVRRKIVRVIREIKPDIVIGMNPNVIFNEEFGFINHPDHIEAGKATLFSVYPFSRNMHSFPELLKEGLEPYKVKELLLIAFSREGINEFIDITDTVDIKIKALEKHISQYDDFDSLKKNILDRSSFIGKEKGYKYAEAFIKIKINQ;locus_tag=LOCUS_5650;note=WP_012258474.1 PIG-L family deacetylase (Chloroflexus aurantiacus) [pid:36.7%25%2C q_cov:97.0%25%2C s_cov:95.7%25%2C Eval:1.9e-32],MGA_570
sequence03	MetaGeneAnnotator	CDS	33080	34360	.	+	0	ID=MGA_571;product=glycoside hydrolase family 1 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582847.1;translation=MGPETYPHIPDDFLFGAATAGGQVEGHHNSDWAESEKRNAEKLAKEAQFRDYGNGKLPEDVWTRLAPELTDPSNYISKEACGWREGHYIEDLDIAQTLGLKAIRFSIERSWTQPTSSDELNKESILHYQKFIDECEKRGIEPILTFFHFTNPLWISNKGGWENKDIRDNFNRYTKSLLQSIDREFKHVLTINEPEVYTFMGWIAGEWPNEEKNLLKAFRVRKNLIETHKKMYSTIKEYDDSILVSSALNLQDIESYSSKLSDRIGTTVANKASNGLFIEKILDEMDFLAINHYMHNVQKGLIPGKYIDTGEKKSDMGWNVNSESLYRVLLSLKKHKKPIIITENGVADAQDSIRPQQIKDAINSINRAIGEGIDVRGYLHWSLLDNIEWDKGEAMRFGLIEIDYKTQKRTVRESAKTYSDIIKSKK;locus_tag=LOCUS_5660;note=WP_012582847.1 glycoside hydrolase family 1 protein (Dictyoglomus turgidum) [pid:35.8%25%2C q_cov:97.4%25%2C s_cov:95.5%25%2C Eval:1.4e-65],MGA_571
sequence03	MetaGeneAnnotator	CDS	34357	34794	.	+	0	ID=MGA_572;product=isoprenylcysteine carboxylmethyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000792733.1;translation=MKIPIPPILFVFLIILSFLLKIFFPIYTIPTIYPFSIIFLITGIFFILDAIYLIYKNKTTIDPSETPSTLIEKGVFSISRNPIYLGMLFILFSTDIYLSSLSSFINLFIFFYIINNFVIKIEEKNIEKKFKKIYIDYKNNVKKWI;locus_tag=LOCUS_5670;note=WP_000792733.1 isoprenylcysteine carboxylmethyltransferase family protein (Vibrio) [pid:27.4%25%2C q_cov:89.7%25%2C s_cov:87.6%25%2C Eval:4.3e-08],MGA_572
sequence03	MetaGeneAnnotator	CDS	34863	36206	.	+	0	ID=MGA_573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKTKYIGIVLVIIIAIIIVVIIQKNTPIKPLTTYSYGNYNQYSNDGDNNNVTTEIKNNFISKVIKAKNINGFGFDTTPIISGDSIYIGTMNKSNMTGNLLSINRFNFNVNWNDHFSNWVMTNPVVVASKSMVYIGTGNSIKYKLDSKGNVLYRGLGSNYIYGISIDTGKIMWKYKTPGEDMPTPVYSNNVLYFANGNKEFYALNAQTGKLEWKINIGSIVSMSSLLLVGNNIYFGGASPYTFFDVNINTHKIQWSDVFPKITGGLDDTTPTYSNGYVYTNATRLIGQTIKNQGYEYLYKINASTGKIIWTINEGKGTINLPTDPMEGSVSTIVNNILYTSSNTSRRIFAVNVDTQKNLWSFGINSMINAPFIIKNNLIYAITTSGNIYLLNPLNGEFIAKRSLGGPEIASGLTLYNNHIYVATGNGNLYNLSNSNTSNKVTSSTK;locus_tag=LOCUS_5680;note=WP_010980486.1 PQQ-binding-like beta-propeller repeat protein (Sulfurisphaera tokodaii) [pid:36.3%25%2C q_cov:72.3%25%2C s_cov:69.1%25%2C Eval:1.0e-45%2C partial hit],MGA_573
sequence03	MetaGeneAnnotator	CDS	36223	36519	.	-	0	ID=MGA_574;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001059470.1;translation=MKNCGIEKTIKIIGAKWSILILRDLFDEKKRFGELLSSLEGISPKTLSLRLKEFEKNKIITKKIYKEIPLHVEYELTEKGKSLHRVINDLRKWGNNFG;locus_tag=LOCUS_5690;note=WP_001059470.1 helix-turn-helix domain-containing protein (Bacillus) [pid:53.3%25%2C q_cov:92.9%25%2C s_cov:82.1%25%2C Eval:2.9e-21],MGA_574
sequence03	MetaGeneAnnotator	CDS	36635	37213	.	+	0	ID=MGA_575;product=NADPH-dependent FMN reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013530052.1;translation=MSNIKIILGSTRNNRAGDKVAQWVLEEAKKYNLFETELIDLREYTLPFFELDISPAYKKPNYNEIQEKLSKKIEEADGFIFVMPEYNHGYTGVLKNMIDTFYNEWRIKPATFVSYGGVSGGTRAVEQLREVLIELQVVPIRASVHIPFIFNQFSEEGLLKEETKEAANLEATLQDINWWAEVLKEPRKNKLQ;locus_tag=LOCUS_5700;note=WP_013530052.1 NADPH-dependent FMN reductase (Mesorhizobium) [pid:46.5%25%2C q_cov:96.4%25%2C s_cov:92.0%25%2C Eval:6.0e-38],MGA_575
sequence03	MetaGeneAnnotator	CDS	37239	37688	.	+	0	ID=MGA_576;product=superoxide dismutase%2C Ni;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011125519.1;translation=MNKIKKFFTIDTVYAHCDVPCGLYDPRAALMAAETVKVMVKQIIDIEESEDFKNNPSNIKFSNSFVRRIMTKEQHAELVKKEIEILWSDYFKEEDLIVVPNLHEQIWKVVKLASYNKQNVDLEKAEELYKEVLNVSKMFDKVVEHRKNK;locus_tag=LOCUS_5710;gene=sodN;EC_number=1.15.1.1;note=WP_011125519.1 superoxide dismutase%2C Ni (Prochlorococcus) [pid:44.1%25%2C q_cov:85.2%25%2C s_cov:80.3%25%2C Eval:5.9e-24],MGA_576
sequence03	MetaGeneAnnotator	CDS	37666	37980	.	+	0	ID=MGA_577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIEKTNKIIFKLLKVEGDSMSPSIIKNSIIIVSYIPYFFTQPKIGDIVIVKHPHKNISIIKRIQKIKNNKYYILGDNSYQSTDSRDFGYIDKSLIIAKKINLK;locus_tag=LOCUS_5720;note=MGA_577
sequence03	MetaGeneAnnotator	CDS	38048	38335	.	+	0	ID=MGA_578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELEKTDINLEEEISILLKQGNLEEAYRKSTLIQNVAIRNGHFLNILASKTGEGVGLIDLIKAFTRFRIDDNGDYETICILEISDNFFKENSLFE;locus_tag=LOCUS_5730;note=MGA_578
sequence03	MetaGeneAnnotator	CDS	38472	38744	.	+	0	ID=MGA_579;product=GlsB/YeaQ/YmgE family stress response membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003895070.1;translation=MTNMGLVVYLIIGVILGWLASVVVKQQNPNVVKDIVLGVIGAIVGDILARLFVSGESFASKVTTSGLIGVIVLSVIVIALGRSFNSKEKK;locus_tag=LOCUS_5740;note=WP_003895070.1 GlsB/YeaQ/YmgE family stress response membrane protein (Mycolicibacterium smegmatis) [pid:32.9%25%2C q_cov:92.2%25%2C s_cov:85.0%25%2C Eval:3.1e-07],MGA_579
sequence03	MetaGeneAnnotator	CDS	38791	39570	.	+	0	ID=MGA_580;product=exodeoxyribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875851.1;translation=MCFFTNMKIISWNINGIRALYKKGIDPFLDKYSPDILCFQEIKADESQVQIPKSLEDMHSYYNSAEKKGYSGVALYSKIKPESVSYLIGDNKFENEGRLICAKYKDFILYNIYFPNGQRDEERLKYKLNFYKIIIKKLKKHQENNDNIIILGDYNTAHTPIDLSNPQSNKNTSGFLDIERKLIDKIIDIGYDDTLRLFHKEDQLYTWWSPITRARERNVGWRIDYIFTSKNIRKKIKSADILSEIYGSDHCPISIDIEF;locus_tag=LOCUS_5750;gene=xth;EC_number=3.1.11.2;note=WP_010875851.1 exodeoxyribonuclease III (Methanothermobacter) [pid:51.4%25%2C q_cov:98.1%25%2C s_cov:99.2%25%2C Eval:2.8e-75],MGA_580
sequence03	MetaGeneAnnotator	CDS	39620	39949	.	+	0	ID=MGA_581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEITADQLKQEKHKYILLDIREDFERAKDGAIPNSHHLKSSEIDIYNILDFFNKFEEEEIVIYCNSGARSSSLIENLHNNNIYKKDKIINLKGGFQIWKASMYEIEKI;locus_tag=LOCUS_5760;note=MGA_581
sequence03	MetaGeneAnnotator	CDS	39930	40781	.	+	0	ID=MGA_582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKKYNFAILISTKGKEDINKAVSQIKNTNIPIYIVSPEEINIENTTLIKDKGLGKPSALNLAIEKIPAQIIIFTDGDVYTNEQSINNIIKAFDENTGIVTTSVISLNNKNSILGFWSHFLVFAANNMRKEKYSKNEFFEATGYLMAVRKNLIEKIPENSLSEDGVISKMVHDKKYNIKYIDNAEVFVKFPQNFHDWIIQKKRSTGGYTQNLTERKNGSRSFFKEAKAGFFLFFSYPKNIKEFFYLFLLFLARIYLWIIIFIDLKIKRKNFSQIWLRVESTK;locus_tag=LOCUS_5770;note=WP_011028686.1 glycosyltransferase (Streptomyces) [pid:21.8%25%2C q_cov:79.2%25%2C s_cov:30.0%25%2C Eval:6.1e-10%2C partial hit],MGA_582
sequence03	MetaGeneAnnotator	CDS	40801	41814	.	+	0	ID=MGA_583;product=bifunctional oligoribonuclease/PAP phosphatase NrnA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986790.1;translation=MQNEIKSSIKKIDSAKKILILISSPDGDSVGTSIVLKHFLENKNKIADIYSNKPLYDTLKKLPLSDEIIITDVVKINFHEYDLIITVDTANLEQLYNYNKYDKFKFPDYIDFVCIDHHASNTSFTKYKIYDKEASSTAEVLYTHLIKNDFPLNKDEATLLYFAIASDTGFFRWQIKPETFRVASKLLESNVDYNKLANLYFENIDESFKDILSVFVKKTVFHKRLKYTSLYIDENIINKLKISKENMKNYIDTYRSNFLINIKDYKFSIIIKDVGDFRIISFRGNPFNNKLDLTLINKYYDFQGGGHKNACSFSSKGNYKDIIKNIDIAIKDLESIN;locus_tag=LOCUS_5780;note=WP_011986790.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Clostridium botulinum) [pid:27.6%25%2C q_cov:85.5%25%2C s_cov:85.3%25%2C Eval:4.2e-19],MGA_583
sequence03	MetaGeneAnnotator	CDS	41797	42675	.	-	0	ID=MGA_584;product=mechanosensitive ion channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978840.1;translation=MMNKNVILKISVFLLFIFVFIAFIQKIVSYLSISTSLKNIIIAIFIIFIGSLFINFIENRIKIFFKRFNVKKRREQNLLNFIFLTLSYLILVLVTLKFLNINVTNILLGGAFIGVILGIAAQSVLSNLFAGIIILLFNQFEIGERIKFTTWQYSFLLPSYPPKFFSNDIVTPGQIGVIYNVGLFYTDFIGDEGFPIKIPNSILIQAAIQRIDKAKFYKLQIKYEVLKKNKFSIIKEKIDKILDSKELSIFERSIYIEESTMESYIVKIVLKSNNSNIDYIKSFVLEKLIDTL;locus_tag=LOCUS_5790;note=WP_010978840.1 mechanosensitive ion channel family protein (Sulfurisphaera tokodaii) [pid:33.5%25%2C q_cov:87.0%25%2C s_cov:83.8%25%2C Eval:1.1e-38],MGA_584
sequence03	MetaGeneAnnotator	CDS	42694	43314	.	-	0	ID=MGA_585;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010902573.1;translation=MKPSKKELLRINKEFYNLHAEEFSSKRNYQWDSFWEIKKYIKKKDSVLDIGCGNGRFSLNVDKDYYLGIDSSSKLINIAKEKYKEKKFLIRDISIDGWSNDLAKFDIVLLIATLHHIPSYDLRLRIMKDIRSVTNKYFIFSIWNFDESKITDNLGEGDYLLSWNKEEDIRYVHKFQEDEILSLISDSNFSLVNRFVMESNEYFILN;locus_tag=LOCUS_5800;note=WP_010902573.1 class I SAM-dependent methyltransferase (Halobacterium) [pid:24.1%25%2C q_cov:92.2%25%2C s_cov:91.7%25%2C Eval:9.6e-08],MGA_585
sequence03	MetaGeneAnnotator	CDS	43329	44915	.	+	0	ID=MGA_586;product=tRNA uridine(34) 5-carboxymethylaminomethyl modification radical SAM/GNAT enzyme Elp3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020870.1;translation=MFDIKDFNNISIKDILPNTNINRSQIISRYKKYCRDNKLKEDYSFIEKIQLKPVRTLSGVVPITVLTKPFPCPGKCIFCPDDVMMPKSYLTLEPGAQRALMNKFDPYLQVKNRIQALQNIGHQTEKIELLVLGGTWSVYPRHYQEWFIKRCLDAMNDFSFKEYTYHKNQINFDTNILESEPELKKWKKEDLEKAQILNSKAKYRCIGITLETRPDMISQKEVEHLRFLGGTKIQLGIQSTHDDILIANKRGESSKAQRDAINLLRRAGFKIQIHWMPNLYKSTPKIDKKDIEIIYKDKSYLPDEIKIYPCSVIESAELYTFWKEKKYSPYSEEELIDVLIHAKSIIPIYSRINRLIRDIPSTYIFDGNKKTNMRQIVQIEMQKKGIFCKCIRCREIRNEEIKEIHFDKYEYETSVSTEYFLSFNTEGKLLGFLRLSIPKDRSHFIKELENSSIIRELHIYGKALRIKQESDSAQHLGLGKKLLKEAEIISKENGFEKISVISGIGTREYYNKRGYVLNKLYQTKYING;locus_tag=LOCUS_5810;note=WP_011020870.1 tRNA uridine(34) 5-carboxymethylaminomethyl modification radical SAM/GNAT enzyme Elp3 (Methanosarcina acetivorans) [pid:39.2%25%2C q_cov:91.3%25%2C s_cov:88.5%25%2C Eval:2.0e-96],MGA_586
sequence03	MetaGeneAnnotator	CDS	44908	46233	.	+	0	ID=MGA_587;product=exodeoxyribonuclease VII large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438130.1;translation=MDKDKIYRVGEINRLTSRILRDNFSNINIQGEISNLNYKNSAWAFFDLKDNESVIACVNFSGIVFKNKDMLSDGTEIIATGYLSIYEKSGRYQLNISNIELIGEGDIYAKIEELKEKLRLEGLFDKENKKILDFIPKSVGIISSFEKGSMAYKDFTKRLIQRFPLIDIYFYNSKVQGIEASKELIEGIDYFNKREDIDIIVITRGGGSIEDLMPFNDESLARKIYKSPKITVSAIGHEGNTSISDLVADIYAFTPTHAADLISPQKEDLLENINITFLKIQNDLYRNLENKENMIKSEYRNMLQKMDYTVFSSKSLLNNSFITMKNIAIYNIDSKIQYLIEKSFNIKEKNNIKEIKTNLEYKMESILKIFNENTKSLKIDLNNRLKSIKSLSPLNLMDRGYSITFSNGKILKEVQTLKINDIIKTRIKDGEIESKVIKKYE;locus_tag=LOCUS_5820;gene=xseA;EC_number=3.1.11.6;note=WP_003438130.1 exodeoxyribonuclease VII large subunit (Clostridioides difficile) [pid:33.8%25%2C q_cov:97.5%25%2C s_cov:96.8%25%2C Eval:6.0e-59],MGA_587
sequence03	MetaGeneAnnotator	CDS	46226	46441	.	+	0	ID=MGA_588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKTKEISFNEAYKKFQEISRQIEEDEDISIEDQLKKIEEAGKLYKICIKYLNQTKSKIESINKDINEIDI;locus_tag=LOCUS_5830;note=MGA_588
sequence03	MetaGeneAnnotator	CDS	46438	47970	.	+	0	ID=MGA_589;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYLIIEFSILLSLVVLLLLISIIFPYLYNQSILNQSFNINNPKVVLSANPPSASTIIYASNGEVIGKIYNSEMQGYNYVKNKSLYQNKSILYHLINIPPYASNPDVLYLAIKMKKYILDVLVNNKTINKSEYTQAINNFDKPYFDVIHTPFFTEYTMNKLMQNYQKYVLAGNLKVYTTVSPQWNTIAQNIVTQDIQKYIIPVGGSEASFVADNPKNGAIIAMIGGGNYSQEQLNMADVPLQQGSAMKPLIYVKAFEMGYSPLTQIDDAPVSYGNYSPTDYEGYTVGWVSIDRAINQSINIPAIKMFARIGYQNGLNMVQKLGLNLNTNIFYGLPLILGDAGVPIVRMVGAYNALNNGGYYAQSTPFQKIVFNNNTIFNLDKITPKRVITANAAAEMDQVLGDTALKQPLYGTHTYYYSIQGRPYGSKDGTSNGPRDITDYEFIPQITVGVWAGNINNALMSQNAVGAFQTGPIAHSFIMDYIQQNNLPVINYPTPTLPTLNSTTSTIP;locus_tag=LOCUS_5840;note=WP_099797673.1 penicillin-binding protein 1A (Thermostichus lividus) [pid:27.0%25%2C q_cov:74.5%25%2C s_cov:59.8%25%2C Eval:4.1e-30%2C partial hit],MGA_589
sequence03	MetaGeneAnnotator	CDS	47956	49461	.	-	0	ID=MGA_590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYIKFIPFLLTIILRIPDFFQPYWYTDTGIYSAIGQSLNRGGILYKNIIDNKPLFIYYVYAFLERLPFSLMYSTQFVSLIFALLTEYLIYKISLIKFNNKIALINTFIFTILIGSDLLHTNGANAETFFIFFAALSVYVYIKREKNYKYIYIAGLILGLGVLFKVSVLFDGFFLVLYIFLTDSFLLSIKKIFTYTLGIITPIFIFLFAEFLYGNFYNTVYQIFLNNFTYVNTYNKFYMFSFVELDLLVFIILVILIYILYKKKIIDTVWLFLLLWVFSDALIVIITGRPYIHYLIQLALPITFLFGYIIYYLFSNKFIQGIILIFSFVLLTSLYMAYFFRNELSWQISQNFQNTIPYYTNFYLYSLGYINKKNYYSTFIYNTNVIYQKSESSANINYRMASLLDSLGARNKEIFIAANFPWVYYMSDSYTINYYTTDFMYGPGKRQRIKLTKSLYKNKPKIILFYEDGYTYNAFSTFVRKYYTLVSSKYGAKVYKLRNS;locus_tag=LOCUS_5850;note=MGA_590
sequence03	MetaGeneAnnotator	CDS	49700	50623	.	+	0	ID=MGA_591;product=thioredoxin-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003975041.1;translation=MDNIYNNIILGSGPAGITAAIYAARSNLKPLLLSGDTEGGQLIVTSLVENFPGFENGILGPDLMNNMIKQAENVGVEYIRESAIMVDLKNYPLKIVTGKNTYLTKSLIISTGATAKWLDIPGEKELMGKGVSGCATCDGMFFKEKEIVVVGGGDSAMEEALFLTKFASKVTIIHRKDSFRASSIMQKKVFDNPKIEILFESEVVKINGDMKVVSINIKNKDREYEFPTEGVFIAIGHNPNTSIFKDQIDLDGNGYIKVKDNTKTNIEGVFAAGDVADPIYRQAISSAGIGCIAAIDALHYLENSKKL;locus_tag=LOCUS_5860;gene=trxB;EC_number=1.8.1.9;note=WP_003975041.1 thioredoxin-disulfide reductase (Streptomyces) [pid:50.5%25%2C q_cov:98.0%25%2C s_cov:95.0%25%2C Eval:8.8e-82],MGA_591
sequence03	MetaGeneAnnotator	CDS	50618	50986	.	-	0	ID=MGA_592;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSKLILISFILGIVIAIVLFGIFAFGAIVGSHLRFFGYKRHFAVNQQISMNNDHYVGKIYSISKKTISIIDLNKYKNIFFIDHFKILSAQGKVLSRNVLKKNEYVYIKIISKSKGILYVL;locus_tag=LOCUS_5870;note=MGA_592
sequence03	MetaGeneAnnotator	CDS	50962	51234	.	-	0	ID=MGA_593;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKIMYKNEMLSENFNENVFNKIKKIEKRYLYLYPFLYGLLISTFIFVIILSVYQIPNIYYVFLAALSMAVIIYSISRFKILWRKVNLF;locus_tag=LOCUS_5880;note=MGA_593
sequence03	MetaGeneAnnotator	CDS	51212	51733	.	-	0	ID=MGA_594;product=RNA polymerase sigma factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001209040.1;translation=MDCSDEDIIKKLNSTGDIQFFEILMNRYKNRIYNFVLKYLSSAEDSEDITQDIFVKVYFKLSSFNPDKGSFSTWIFTIARRTTINKLKERKMYNLTYELEEVNNTESQVENKELLYLGLKNIGDKYKKVLTMYYIEGFKYGEISNLLDISINTVKTRIRRAKDLLKNEIKDYV;locus_tag=LOCUS_5890;note=WP_001209040.1 RNA polymerase sigma factor (Leptospira interrogans) [pid:35.2%25%2C q_cov:94.2%25%2C s_cov:90.6%25%2C Eval:3.7e-22],MGA_594
sequence03	MetaGeneAnnotator	CDS	51768	52298	.	+	0	ID=MGA_595;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFHNETFLLLIMYTNIVKFKLKNIMDKNNQTEHSEKFHHSLHKRKLIFLLVGIVLLILFFFFGIFVGRVSGYLRNSNFERNNMRGYSSRNGMMRNFRNSSNSRRIQLSDVQGVIQNISNNSITINNRSYSISTKTSIYNNGIRESLSNLSNLNTVNLIYSVDKSGLDIARFVIVIK;locus_tag=LOCUS_5900;note=MGA_595
sequence03	MetaGeneAnnotator	CDS	52301	52744	.	-	0	ID=MGA_596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNSIENRSNNLPYNFSLFREDSIKRDESALYRIDGSKIILEEDIGLYKVSLEGFVEENSQIGVNNILTILNIFEDLNTQNRRGQRLQNLKYGLNFSKAPVNGIFYYESLLKSITPDGKILGTEFLRQFNKDAPIYEASFFITSSKS;locus_tag=LOCUS_5910;note=MGA_596
sequence03	MetaGeneAnnotator	CDS	52738	54117	.	-	0	ID=MGA_597;product=PQQ-binding-like beta-propeller repeat protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980555.1;translation=MAKKKKSEQFRYFIYISAFILVLLFLILLKTVSERYYPSLSTIVSFNSSLRQQSMNSSKNYSYANGVINKYFQFNAHGPVISTPSVVNGVIYFGTNKDQVYALSATTGKLIWKITVDNMVMTEPLVVKGMVYIGTGNNAYKKVGGKTVRGAGNNAIYALSSSSGKVIWMKSTNGENMPSFAYKKGNIYVANGGAHFYSINAMTGNVNWRLKLKGYVSMSSMDLSGNVAYFGEGKPLQTQYVAAVNIKTKKILWQKPMPDSFGGVTDCSPSSNSQYLVISGLGLSPTPNKFYEILYVLSKKTGDVVWTHILGFGPNPFAMETSSPIIIGNNIYVGNPVGKGKFYSFNINTGDLNWVIKIYGVQKGASVYSNGILYFGDGFDNFYAVKASNGDVLGVHRFGVGKIAQFTAANPALVNNEIYMGSDNGYLYAFPDTYLYQYNYEFIKYSVWSLFYHVFGVRW;locus_tag=LOCUS_5920;note=WP_010980555.1 PQQ-binding-like beta-propeller repeat protein (Sulfurisphaera tokodaii) [pid:26.2%25%2C q_cov:77.8%25%2C s_cov:81.9%25%2C Eval:4.2e-31],MGA_597
sequence03	MetaGeneAnnotator	CDS	54174	54839	.	+	0	ID=MGA_598;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583053.1;translation=MREEYIKKILEKLQERYPQSKITLNYTNWYELLIATILAAQCTDKRVNIVTEKLFVKYKTLKDYGDADLKELEKDIYSTGFYRNKAKNIKHLANKLIKKDKIPQSMDELIKLPGIGRKTANVFLSNYLNKNEGVIVDTHMIRISNLLKLVHSKNPSIIEKKLNNIIPKKDYLLFSNLIISLGRDTCIAKKPKCNICILQNICPSANIKNPTKIEGEKSSVG;locus_tag=LOCUS_5930;gene=nth;note=WP_012583053.1 endonuclease III (Dictyoglomus turgidum) [pid:50.0%25%2C q_cov:92.3%25%2C s_cov:97.6%25%2C Eval:2.1e-51],MGA_598
sequence03	MetaGeneAnnotator	CDS	54939	56036	.	+	0	ID=MGA_599;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKALTPENNTESILHQSLNIDDINNPYFIELEYKNEEKVILDGKEIVDLFKERIDPYKNHSTLISKRRNLRPQPDIKDTEYIKVQSCLFDNLDEVAKPTIKYEEYGTYIAPNPFAFNPGFHSIVFTKDHIETIDQIEEKHIEGIFNVLQIKALEISKYPNINQLDMGMNFGTNKLKYTSGASQPHLHAQIGAVYNTGFMPQQDNIQNINDYYKNKGIDYEGLYLSAIKSSDLLIIENENFMAYTPFSPRFKDEVHIISKNMNIPNILSLDQNKLEDLSKLIYSILKGYQEMRVRSESGILTNVDIKSFNIEILGLRFDRLEGRMLINIIPRQTDIAYSELMGRFVIDREPENTANILRKAIKNE;locus_tag=LOCUS_5940;note=MGA_599
sequence03	MetaGeneAnnotator	CDS	56029	57543	.	+	0	ID=MGA_600;product=glycogen synthase GlgA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011110443.1;translation=MNNLKLLYTAAEIYPYAGVGGLGQVSYFLTKQLKKLNIDARIFMPKYGNIDEDIYPMEMLYEGIKISSQNGKEIICNIKKYESEDNTIPIVYFLENMEFFEKRSNVYGYNDDDIRFLLLSRGLIEFLKISDWTPDVVNSSDWHTGLVSNILKTEYRNDKKLKNIATVFSIHNLMFHGLLVDREPNNLDFDNGKNDIADIFSPLLKKQNFMRRGIMYSDIVTTVSEKYSKEILTEDYGEGLEHLLREIRTKLYGILNGIDYSYMNPETDPNIVANYNSKSFIRRAINKEDLQKEFNLEVGDFPIIGMVTRLDHQKGLDLVKDIIETAIEELNIQFVIIGGGDHGFTEYFSKLEKEYPKKVGTHLMADFTLPKKVFSGADMILLPSRFEPSGITQMEAMRYGAIPIARNVGGLSDSIDNFNSETHEGNGFLFNEYNPYALMCALTRAVEIYHNQDIWNKIIKSAMEKDFSWENSALKYVDIYRKAIKLHSNKKISKEEIIYQMYNL;locus_tag=LOCUS_5950;gene=glgA;note=WP_011110443.1 glycogen synthase GlgA (Bacillus cereus) [pid:38.5%25%2C q_cov:95.6%25%2C s_cov:100.0%25%2C Eval:1.0e-94],MGA_600
sequence03	MetaGeneAnnotator	CDS	57540	58937	.	+	0	ID=MGA_601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNWVNFLYIYQPPTQKKEILTKVVNESYRPIMNMLVENPKYKLTLNINSGLTERILENGGEDIIEKIKILLKRKQIDITDTSAYQAFLPLMPLKEVIRQIEINHAMHKNIFGENYNPEGFFSPSLAYTEDIFNVIKDLNYKWMILDENTLNENIDHKKIYTHKGLDIYIRDRERSFRILSAQYDDSLNLIKNLEQKLSTDEFFISAMDGETFGHHKLNFEKTLEDLYASDKMKSFLMKDISKNIKDKKEINPKTSTWIIPSKGESDVFERWNNPSNKIQQKQIDLMEFAINIINSSVYKIEDPLVTNVQLEYLSSEQRTWMKARYILDQALYQDQLFYSSAKPSWNIELIENGSYLLNKAIDLVPDTSKKNKETAKKFYEYILFTALEWQKTNKVENIINEFFDEEKIPEEISSPKLHLQGYIDAIKRLRLEMNKAKEVEDYETCQTLKERIEEIEEKKENFKLE;locus_tag=LOCUS_5960;note=MGA_601
sequence03	MetaGeneAnnotator	CDS	58945	60378	.	+	0	ID=MGA_602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFWANLLHIYQPPTQTEKMLSQITSESYNQIIKALKINPRAKLTMNINASLSELFVEYKYHKLIDDIKFLLKNGQLELTDSAAYHPFLPLIPKNEIIRQIQLNNIINKKIFGKYYNPKGFFSPELAVSKEIIHIVEDLGYEWMIFDELAFDPEKGSPQYDRIYRINNTNMIGFFRDREISFKILSAQLESGDIFLSEIEKTYNDEKYLSTAMDGETFGHHRLGLELLLFDIFKSDKIVTEQYQNIPKYFMKEDRVNVKDSTWALLPIELLRNQPYKRWYNDENEINVKQWDFTYFAIKEINNSPYKVEDPKITRKKEILSKEQKQWLKARYNLDKAIHSDQYWWASARPWWSIDMIDRGASEIKNSILLLPNISDNIRNKAIESYKDIIVSSFRLQGEGIIDDMIKNYDEEASEIIETKSLEANPKEYDRVIEHLRRQMLEAADKENFKKAIEYRKRIENLREKQKNIISNLESKKL;locus_tag=LOCUS_5970;note=MGA_602
sequence03	MetaGeneAnnotator	CDS	60375	61724	.	+	0	ID=MGA_603;product=glycogen synthase GlgA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546609.1;translation=MNRKLKVLFVSSELTPIVKVGGLGDVAGTLPKYLKNYVDIESVIPLYKSILTSKPETIPNSDVKINYIDIPEYFSSRDNIYGYQDDPIRFAAFCREIVDKICEGYFGEVDILHLNDSHTSFIPIMLKDRGIDNVKTILTIHNLGSAYQGRYSLDILDILKLNRTHITLEFDKADKEIDPLLQGILNADIVSTVSPTYAQEILTKEYGSGLNDFLELRKNELFGILNGIDYSIFSPEIDKTIYTNYNISNYKIGKLENKKKLIEELHINFNTDYPIYSFIARLDYQKGIDILISAMKTLKDKNIQFLLLGTGAKDFENELQEMNSQNNNIFAIIDFDPILANKIYASADALIIPSKYEPSGLTQMIAMKYGTLPIVRSTGGLKDSVFNMKTGFVFENYSALDLTDTLKEASAMYNTGQWDQMIHNAMSADFSWHKSSQKYLVLYNKLKKV;locus_tag=LOCUS_5980;gene=glgA;EC_number=2.4.1.21;note=WP_012546609.1 glycogen synthase GlgA (Thermodesulfovibrio) [pid:37.8%25%2C q_cov:96.4%25%2C s_cov:96.0%25%2C Eval:2.8e-80],MGA_603
sequence03	MetaGeneAnnotator	CDS	61721	63169	.	-	0	ID=MGA_604;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005809769.1;translation=MATLKELQQSRLDKLNKLINLGIDPYPSISHKDYTNNYIIDNYSVLEGKEFFVAGRIISIRNHGKIAFFDIEDDSGKIQLFFSENNLNNFKELELFDIGDFIEAFGTLFTTKAGQISIEVKSFKILTKSLRPLPSEYYGIQDEEEKIRKRYVDLISNKDLKEKLRLKSKFIQSCRNFLLSKGFLEVDTPTLELIFGGAEAEPFITHHNSLDQDLYLRISLELPLKRLIVAGYDKIFEIGKVFRNEGMSMQHLQEFNMMEFYWAYSDYSKLMDFIEQMYTYMINETFGTLKISFKGQEIDFNAPWPREKYFDLMKKYGCDLDVYDTKEKLRELGLGLGLEDDITSDKNRWIDRIYKKIVRPNIKGPIFLIDHPVEISPLAKKHKDNPNIVERFQVLILGFELGNAFSELNDSQDQFERFSEQQLLRDQGDKEAQMMDLDFIEALEYGMPPTGGFGIGLDRFFMLLADLSNIRETEFFPIIKDI;locus_tag=LOCUS_5990;gene=lysS;EC_number=6.1.1.6;note=WP_005809769.1 lysine--tRNA ligase (Desulfitobacterium) [pid:46.2%25%2C q_cov:99.6%25%2C s_cov:99.0%25%2C Eval:5.0e-123],MGA_604
sequence03	MetaGeneAnnotator	CDS	63262	64947	.	+	0	ID=MGA_605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQKQEKYISKEEEISQLETIVDNNEDGEDKPIYESTFATKYKQLLDSLFVGLFSSGIAVTESIRSHQDIITALQDNAIYGIEAGALISGLFFVNKSIQQRKNLRKKGIQNTYEKNKKEKIFSFLSTPIDKSILDISTVLLTEKRMNYDEDEIFFREIEKIDLKETELSDKDINEIYTNIDSRLNLIEILRLIKSLEKKYPDIKDRKKAVYSYIREDSIERSKEIKEMHESVDFLDINFLKKEWRKVDNSIMQKIYSKTDYRERRNIAFNNIELLLEYANKKHINGINIDYVSSNKHFHRIFSIGIMKEYKVPKYIDQIHQEKVMLSPFIDRDSLSNDKIEELENLSYRIYLLYLEDQKCKNDIYIADFIFDKIQTLPVKQKYVFLKEGGHEKIENLANNILHFSKTIGYNKTSNIKSQLKNMDNKEKEEHILSIIKCLSEYENHQKKYELDNSIYTPDTKLLEEILSIGFLTHFEIKKPARKVNDKILQYSLKILKDYSKFMKKNYPDEFKKAIEKAYDNSLIDEKELRRKMAILSIDLNSFSTVLFNISLIIPAILTAK;locus_tag=LOCUS_6000;note=MGA_605
sequence03	MetaGeneAnnotator	CDS	64969	66198	.	+	0	ID=MGA_606;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010919797.1;translation=MQRYSQLFGKTNRESKNFESLNATLLQKAGFINQEMAGVYNFLPLGLRVLNKIENIVRKEMLKISNEVLLPSLSPKDYWETTKRIDKIDILMQTIGANDLSSKKNTSSYILNPTHEEIITPLVKEYISSYKDLPLALFQIQTKFRNEARAKSGLLRGREFRMKDLYSFHISLEDLEDYYEKVKQSYFNIFEELGLKDSTILVKASGGDFTKDYSDEFQIICENGEDIVFLDKKTNTYYNKEIAKKEIINDGIKVSEAGNIFILGEKFSKDFNFTLKDKNNKDINIFMGCYGIGTSRIMGIIAEKFNDDNGLIWPENISPYDYHIISQSEDLETETKKIIEQIEKKGKTVLWDDRTDIHMGEKLSDADLIGISKRIVISKRSLEKGGVEIKQRNSFDTKIMTFKEFANSI;locus_tag=LOCUS_6010;EC_number=6.1.1.15;note=WP_010919797.1 proline--tRNA ligase (Caulobacter vibrioides) [pid:33.9%25%2C q_cov:90.5%25%2C s_cov:89.8%25%2C Eval:7.0e-59],MGA_606
sequence03	MetaGeneAnnotator	CDS	66191	67537	.	-	0	ID=MGA_607;product=phosphomannomutase/phosphoglucomutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012255954.1;translation=MDESIFKAYDIRGIYPTSINEALVSKIGYYYVKFFNLKNICVGRDIRSSSPSLFDSFVKGAVLAGAKVTDIGIISTDMMYFASGFYDFDGGAQITASHNPKEYNGLKLVKEGEPISIDDGIQDIRDLVKKNIDNKLDLPETYSLDNKDILDDYIKHVLSFVDKDKIENLKVVIDAGNGVAGYIVEAIFKHLNCTLVPLYFEPDENFPNHPANPMDEKNVLDLEEKIVEVGADLGVAFDGDADRCMFVDEKGGYTSGYFMTAILAKNILMKNKGAKIVHSPQLTWAVDETVESLGGISILSKTGHSFVAKKMKEEDALFGGEISAHFYFKKNYYSDNGMIPLLMVLELLSINKEKLSSLLDYYRNTYTVTPEINYTVNSIDENLERIENFYKDMSGVKISHFDGVSIEFDNWRFNLRGSNTEPLIRLNLETRSKDIFEEKLKEVESLIK;locus_tag=LOCUS_6020;note=WP_012255954.1 phosphomannomutase/phosphoglucomutase (Chloroflexus aurantiacus) [pid:42.6%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:3.4e-102],MGA_607
sequence03	MetaGeneAnnotator	CDS	67655	69550	.	-	0	ID=MGA_608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLERKDNLYKYSYLKDLRNSKTKSFIKREDYKLKKYLDKNKDLYTVIRKELLNIYPKKNHIKYNFYSFKNFKIWFESKKGSIYIVSQYKKNEPKRLVDLSKGEYKFIKRYDILEDLEKIAIFTYSKKDILLFIYDLQSGKLEQTIDMVVYMWSTFYENRLYYIQYTPNKNKFLYSRSLIKDEEIKICKIPKDLLIFDINISQNILFIEHGLNNSKVLSYKNLNDPKSKIKLLFRNLPWQYKILNGEKNTYILLTFDKKNSSISKIVISSDIKMIPIIKVKNYEIEDAVISKDYISVVAYSNFKRSIIIFNHKGEYISKKEIDLKFKNIYLRSNIKNNIIYITVDNLFTPKKIYKYYIDKGRFVLNHETSVTKKYTSSLYKIKKIYILSTDNFKIPVILIYNKNTKLNIRSPLILDIYGGYNKKMEFNFFQEYLLFLNKGGIYVKASLRGDGDIESRYRKSIDRNKTIEDIIKCTEYLIEKKYTDKNNIILKGESNGGMMSLAAMIKRPKIYKAIISKSPVVDIFEKSHSYFNKNEYGDLDKRNIKTIMKWNPLYNVVSNIKYPDILFIVNLKDKTVPPYHSFMFIKKLSKESSYLIHFNKFEDHTPEATKLLSFEEGINIFVFIFDKLNLS;locus_tag=LOCUS_6030;note=WP_011038598.1 prolyl oligopeptidase family serine peptidase (Xanthomonas campestris) [pid:23.9%25%2C q_cov:46.4%25%2C s_cov:42.8%25%2C Eval:2.0e-21%2C partial hit],MGA_608
sequence03	MetaGeneAnnotator	CDS	69669	69803	.	-	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAWSDDDKKVIKEAVERKVEKGKEYALEVGEPGSVIIINISDND;locus_tag=LOCUS_6040;note=MGA_609
sequence03	MetaGeneAnnotator	CDS	70239	70940	.	+	0	ID=MGA_610;product=zeta toxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002263187.1;translation=MDESEIAKQFIKKNKQLLYRKFINIGKLSSITDLSAYFMAGSPGAGKTEWSKSFIKTLIDKEPNRTIVRIDPDEIREFLPNYIPEQADIFQGATALGVEKILDYVLKNNQDFLLDGTFSNYEVSYKNVKRSLNKGRKVAVIYIYQDPLIAWDFTKKRAFIEKRIIPKQAFIRSFFKAHENVTKIKKEFGNSIEIWLVKRNYHRKTEKVYLNIDKVDNCIKNNYNEETLEKLLL;locus_tag=LOCUS_6050;note=WP_002263187.1 zeta toxin family protein (Streptococcus mutans) [pid:35.0%25%2C q_cov:84.5%25%2C s_cov:84.8%25%2C Eval:4.0e-27],MGA_610
sequence03	MetaGeneAnnotator	CDS	70937	71113	.	+	0	ID=MGA_611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHLFNKLKIKKSGTTSFFDYPEKEKIDIITKAAKEANKMQSELVKKYTKLQDNTSCH;locus_tag=LOCUS_6060;note=MGA_611
sequence03	MetaGeneAnnotator	CDS	71330	71911	.	+	0	ID=MGA_612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNTKELSIWSEDIPYAIIYAMVANRKNIINNYAFIDSQNLNLAIRDQGWKLDFAKFKQYLSVKYSVSKCFLFIGYVPDNQRMYTQLQKLGYVIIFKPTLMQKGIIKGNCDAELVLHAMIEYSNYERAVVVTGDGDFFCLVDYLQSQSKLEALLIPNQKVYSSLLKKIGNEKLKFMNNLKKKLEYKQKEKALV;locus_tag=LOCUS_6070;note=MGA_612
sequence03	MetaGeneAnnotator	CDS	72125	72427	.	+	0	ID=MGA_613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIQVIDYPSEELDFITIGSLVSLQFGNGDIEQFYIAGVVNHSEINDPEVTLCSYKSPVGMLLVGRNVGNKILLDSNKQTITILSIRQIVRDSPLIYNN;locus_tag=LOCUS_6080;note=MGA_613
sequence03	MetaGeneAnnotator	CDS	72504	72677	.	-	0	ID=MGA_614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKNFSKSIKRIISIHNKEEIRRQSKGELPFIGLSQLDRYPIKAVLDSAEIYEKYSL;locus_tag=LOCUS_6090;note=MGA_614
sequence03	MetaGeneAnnotator	CDS	72802	73710	.	-	0	ID=MGA_615;product=tRNA-dihydrouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287490.1;translation=MDDVTDIVFRDVVEKVSSPDVFFTEFVSVEGLSSKGRDRVIRRLDRNPESQKPLVAQIWGKDLDAYTKAAEDISKMGFSGIDINMGCPERGIVARGFCGGLIGNYDGVEKIIEATKRGANNLPISVKTRIGLNEVITEEWFSFLLEQNLDAITIHARTVREMSKVPARWDEFRKVVELRNKISPKTLIIGNGDILNFRQGIDIAEKTGVDGIMIGRGIFKDMFVFSNKEEEHTPKDMIDILLFHLDRYKRDDMKKPFNILKKFFKIYINGWDNASYLRAKLMETKSPEDVRKILNNIKDILY;locus_tag=LOCUS_6100;note=WP_002287490.1 tRNA-dihydrouridine synthase (Enterococcus) [pid:46.0%25%2C q_cov:98.7%25%2C s_cov:91.4%25%2C Eval:7.3e-65],MGA_615
sequence03	MetaGeneAnnotator	CDS	73888	75705	.	+	0	ID=MGA_616;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963980.1;translation=MEKIKNYLPKLRNIYKVIFINYAKVTKILWQNDKKSLILMYIRNVINGISPIIIAFIYGDIINLVILAITKKENINTPIFYLFIIWFFIYLSSNYINTLNYVIYQKFNLLLEKLYTSLFFGKLNSVNIKTLYNKDFQDSLNKAEQKYSFAAYQFSHAISNFNSAILSFIFSIIAFAYFSPIIALIVLISVIPTFIVELNISRMAWSIWDESTEFREKYFSTLNVFRANSSEEIKIHNNGGYLIKKINILLQDRYDKEIKLIKNRTQFNLIGSLIDTFVYILSSGYIVFKAIKGQIPPGSIVSFFSILSNYISSVSFLSDSVLTMYDAGLYLNDINDFLDFEIKDNIQDGKIILDRRKNHKIEFRNVYFKYPNAHRYVFKDLSLIIEPKAKIAIIGENGSGKTTFINLLSRFYDVTSGEILIDDINIKEYKILSIYENLGILFQDFMKYEFSIEENIRLGKIDKLDPNKKEIIEAAKQSQSHIFIQKLKDKYDTNINIKGQTLSGGQWQKLAIAREFFRDPPILILDEPTSSLDAKAENEVFENIERISENKTVILISHRFSTVRNADKIFVFEKGKILEEGSHKDLIKKKGKYSELFELQAQGYK;locus_tag=LOCUS_6110;note=WP_010963980.1 ABC transporter ATP-binding protein (Clostridium) [pid:35.4%25%2C q_cov:99.7%25%2C s_cov:95.9%25%2C Eval:3.2e-93],MGA_616
sequence03	MetaGeneAnnotator	CDS	75853	76095	.	+	0	ID=MGA_617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGWFTADKHSSKPNLNKGEISKSGKHWETSDGQKGHDTTIKYNDGAVEHYSHTPNDSSPNGWTYNHSTGETHIIHDGKKD;locus_tag=LOCUS_6120;note=MGA_617
sequence03	MetaGeneAnnotator	CDS	76229	77059	.	+	0	ID=MGA_618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMNKNEIIKSGFYEVVLENTIPSKDWIYHWFIIKNLFKYLGFKLNALNDNYPQYLNIVGNHKGYLIEKKLESKYDNILLNKFSGYWDYIDKNKKIDINKELSNYFKKYFNTNNINIQNISINNKFMDYSDEKCEEQPLGFYTIYLNKNISPENWTYHWFIIKNMFKKLNFNLIELNDNDPEYRNIIQDKLSKQDLFSPRPYKNPLLTKSMYLNCFEGFCSVYTNKKIDINKDNIKKYENFRDKKIDELIFYLNKYYKLNKINIKNIDIRKDKINFF;locus_tag=LOCUS_6130;note=MGA_618
sequence03	MetaGeneAnnotator	CDS	77295	77480	.	+	0	ID=MGA_619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYRNDLYKKISEHHRLNLFKTILIMKRLEDVGFTIKNVYDGEEIKEADENSWHVIVIAEK;locus_tag=LOCUS_6140;note=MGA_619
sequence03	MetaGeneAnnotator	CDS	77486	78172	.	+	0	ID=MGA_620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKQNTIDLKKLLEENNILFFGDDHDMNQGRDWLCKQILNLDNIDYLGIEYIDTSKQELIDDSEYNKLEIYLKRVYKDFLGFSPDSVLNLIKIAKTKNIKIYGIEMPEDLFDNWYTTEAQDKRVKYIFKQILKISKLGKGIILLGADHVEKNQKNVFQNIKKRYKDILSLIFIGGRNWSQDTEEYWIRKLEIDSQRNNTENDFFILKIKNSKIPTDYIIHFPQIEKVE;locus_tag=LOCUS_6150;note=MGA_620
sequence03	MetaGeneAnnotator	CDS	78293	78529	.	-	0	ID=MGA_621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKNENIVRIGSFVSLKSKNRIINFILVLNDGDPIQGKISVSSPVGSSLIGKKINDIIKIKTQATEINYKIITIKNNI;locus_tag=LOCUS_6160;note=MGA_621
sequence03	MetaGeneAnnotator	CDS	78711	79466	.	+	0	ID=MGA_622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQLELSLSIGWENPSTLSRIEKGEVIPSVYTVTKILKALNIDSFKINAILVKAKYLDLSDITPEYIEKIIENVKSKFDNSKYPIDLLMYKTSPHIYSSCYINVMGEKFFYGKGIYAKLQKWQSSKHDLITLLFDPKYRMDKILLNWEEFTSILVSNIHILYNNTTEEKEQIEYFFKFPKFKEIWESTKSKTIDEFKDTNIPFIYDSPTVGRIAFNIQEIPIVEDHRFFIEQFLPMTLEDSKKLESIYKLR;locus_tag=LOCUS_6170;note=MGA_622
sequence03	MetaGeneAnnotator	CDS	79495	80559	.	-	0	ID=MGA_623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKINNKEDLIIQDFDVRDPYLIRMSDDEVFYLNEEGIKIADENKGKWFLSSSGPIYLPNHNVYYSMFTDRNRGVISSEVQEDIRNTRFIIFGVGSTGGDFATMIAQMGAENILIADMDQLDASNLNRQHGSFRDIGKNKTDIVARRIWDINPYVNVEIFTKQITPIDVDKIIGENTSLRRIILLAMDDKDSIIEVHSKAKENSIPVFMATDIGHAAHLAIFDYSKSDTKIFNGKFSLDEAKKSSLLEFVAKFIKIKDLPNEYLDAAKGMLKGELEVIPQLTTASKKAGAKTVEEVISYFEGRKSKSYKMHNTRKAQSTRRQRLQDLLKKPKKIIELAKLKKALSKSQNKSNTF;locus_tag=LOCUS_6180;note=WP_010966206.1 sulfur carrier protein ThiS adenylyltransferase ThiF (Clostridium) [pid:37.0%25%2C q_cov:22.9%25%2C s_cov:30.5%25%2C Eval:1.4e-09%2C partial hit],MGA_623
sequence03	MetaGeneAnnotator	CDS	80653	81426	.	+	0	ID=MGA_624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVELLQSSELNNEDKLVLKELGSLNDNLSVLAGSKKEFPKEFIDKFYEKSKQIYIRNGFTKPGISLKEWEHTPKNTKSHYIMIIDKQREVVGGVKLIQDISNEDYQQTLSTNIKTFPVHNEVTGYDYYDKIPFLISNNEVIEISRLFVDINKNNIAEKGIVSPSEEIIIGLCLYVKQNLPQIRGTIGVIEKRLALRLIQYMEHLSQEQISSIYTFPDSHPTKEILESDHSPYFTANIGTPFFIDTHKYIDRILSHY;locus_tag=LOCUS_6190;note=MGA_624
sequence03	MetaGeneAnnotator	CDS	81457	83685	.	+	0	ID=MGA_625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIIILIFSLINLWYIILLNKRSQGYKPRVSIFATFILLTVIWTVISYTNSSISNRQIAYISSIIVMIVTSLITVLLYLFIRNINTEKIYLLKHKSFIFIIIFFELLFASPLLIKSVNVYPFTITFGPAIYIYILFVIYWLLMFLINMIIVYKKSFGYEKIVLEYLASGWIITIFFALFTNLLLPMLKIYSFVVIGPLFSIFITSFTYYAITRTHIDDLKKIWQNILVTFFFTITLLIIAIIINYFLIYVYKQQDFYLLLIVDSILISLFYIFAYNYILFKIGGSKYFKNYDTLDFRDHINNILSNSSDIKIGMEKFISYITSNTDISNIILYIDKFGDTINKELFEISKTLPLKDNLIFIYDITNKDIQKKFQDKNIEVVSILKDSLNNIVGCIFWKNKKNYNYYLNNDLNFIKNETKQINMFVIKALLFEENKELINSLQDKINIATKELENNNKKLEKANADLKGLDQLKDDLISISSHELRTPASIVKGNVYMAQSAITEYINKLPESKRYNEYLEKLKRYIQRSIESIENEIRIINTLLEASRMGRSDVPILPENLDLSSMIESQVDGFSKEASNKGLNIKYKKTDVNLIYGDRTKVEEIIGNLISNAIKYSERGEIQISTIQDKKFVTVSIKDQGVGIPEEEIPNLFQKFHRLNNYIGNPNDPKDTKHLLVRPGGTGLGLYVVKGLVERMGGKIWIDSVIGKGSTFSFTLPIAKDIQRNSKNEFETQDIFKKMKLK;locus_tag=LOCUS_6200;note=WP_164924824.1 ATP-binding protein (Thermodesulfovibrio) [pid:25.9%25%2C q_cov:62.0%25%2C s_cov:72.8%25%2C Eval:1.5e-31%2C partial hit],MGA_625
sequence03	MetaGeneAnnotator	CDS	83707	84507	.	-	0	ID=MGA_626;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKLIQEEPIGETIRKLRLNSNKNSLSQLELSYAIGWENPSTLSRIESSQVIPSRETILKISRALSLDKERINTLLKRLNYSEFEPELTDKYINKLIKKVEDEFDDYEYPISLKLFGSNLYLNKSSKKILSKIIDINIDEYMKDHLYLEIFLDPIFNLRKYVVDFEESATIFIGNYYFMTKSFLNSEQIENEIKPLRKYADFNKIWEKVLKSKDLEFTSYNIPLNFNLPHIGEIKFFVWENIFFEDKRFYIEHMIPFNKEDIENY;locus_tag=LOCUS_6210;note=MGA_626
sequence03	MetaGeneAnnotator	CDS	84731	84949	.	+	0	ID=MGA_627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMSFSQISIKIQLIVNKEVILIMETDTITPFDWLKDEVDEQIDSTKMTTLNSDDDSPSTTYTSSQPNDNDD;locus_tag=LOCUS_6220;note=MGA_627
sequence03	MetaGeneAnnotator	CDS	85004	86794	.	+	0	ID=MGA_628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIYKEVFVIYNDKKEETFVDKLIQYVYSNKKLLNDFEGRYRIGFFSFKRNRYYWFSKSKLIGPRYKHSIYIYKINFEHKENPEYFELNKTLSTLSKYKQIPSYQKDRYFDKKSLSYFSSYDYYKELIKLSHKKEVREMLGGDINKFISFYAYSTSIYSFYSLKKPQERLKRIDEFISLEIRITDDFLISDMIQDLSSLSTVTKYSITSNKLLIKLLDKIKNDLYILSDTQIVSYKDSFNKDTTEKIYEYINDKIDLYSKIDSGGFIGLLDSQDFFTSKYYKQKKRKILIISEKGDPHVNKVLNFIDNNKYHIDILGINDLENLGYINTFSNITGEFFDTEERKSRVYDICWWRKPSYVEKNEKYLKNINISNMAEIEKKNFLIGTILNIPIKNWVNNIIDIEKASYKIHQLKIAQRYFSIPNTVITNKKEVIKKIFTDQFIMKSIRSQSFGLENGVLKTTLTTIDDLNKIDLNFSPVIVQEYIEKICDIRVTIIGDKVFAAKMFPLSEKSKIDFRTDYKNLKYEHFKLPEDIEKKLLAINKHYNLNYSAIDLVEDKYGKIYFLEINPNGQYLWIEELLNLPISKNIASFIIGDYI;locus_tag=LOCUS_6230;note=WP_011267860.1 hypothetical protein (Pseudomonas) [pid:32.7%25%2C q_cov:32.4%25%2C s_cov:62.4%25%2C Eval:2.1e-20%2C partial hit],MGA_628
sequence03	MetaGeneAnnotator	CDS	86854	88650	.	+	0	ID=MGA_629;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963980.1;translation=MKKLKRDINLILWSMNLGFQTSPLFYTLIVFSNILNVVIPIIITFILAIIINILIHLLSIHSGFFSSQIIYLIALSILLRIIQNIITAKNYYFITRVRYAWDIIQVSKLLNKLSSLDLEHRENQDINLIITKLKEHINTSIRDTTIDIIPRTVSQIIGLLTIIGVFLVLNPILIFLIIIPVVINFFIDKKYGKDIYLLWYSKGEDKIHNLKARDTLQDVNTYKEAKIYNISEYIINKYKKGNENFQNTAIHKLKTRTNFFLLSYIIDGIIFGGIQIWIILQVLKGHVSVGLYSFYILNLNTVITTLGLLVYNISTLVSNIKYVSDYKEFLDIENKIEIPINPIKIKNEIPQIEFKNVSFRYPKSKNLILDNVSFKINKGDSIAIVGRNGAGKSTIIKLLARFYDATSGEILINNINIKNIDLKSYYKLWGVLFQEYYLFWFSIKENISLSNINNINNFNLIKKSSKDANIEHDIDKLNYKYDTLLDSDFEKGTNLSGGQKQKIAIARALFRNPKFIVLDEPTASLDALSEERIFKNIYKITENTTTLIISHRFSTIKNANKILVLDKGKIIEQGTHTELMHINGKYRKMFVSQANMYK;locus_tag=LOCUS_6240;note=WP_010963980.1 ABC transporter ATP-binding protein (Clostridium) [pid:32.8%25%2C q_cov:88.8%25%2C s_cov:84.8%25%2C Eval:9.0e-64],MGA_629
sequence03	MetaGeneAnnotator	CDS	88768	88971	.	+	0	ID=MGA_630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNSKWEHGKDWDYKDDGKGKFWKGGHETSKKDGDVYKIYRHDPEGSSPKGWSYDYSTGEFGTIGK;locus_tag=LOCUS_6250;note=MGA_630
sequence03	MetaGeneAnnotator	CDS	89115	89534	.	+	0	ID=MGA_631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKKEINKSISGVYKITLKNGLNTKDWLYHRFIIKNLFIGKGYILYENRDAYGDYTDVIGYHNANTLESKIWIKKIPRRRKLYSFLGAWEYEEEVNDKDVVTKLKNLLKKYFELNNIEIKNIDVKNWEKEYYINYTNE;locus_tag=LOCUS_6260;note=MGA_631
sequence03	MetaGeneAnnotator	CDS	89831	90028	.	+	0	ID=MGA_632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKKEIYHYSIKIEKKNFLLGSILNIPIKKWVNNIINIQNASYKLNQLKVLDSISDNSLLIPKL;locus_tag=LOCUS_6270;note=MGA_632
sequence03	MetaGeneAnnotator	CDS	90079	90546	.	+	0	ID=MGA_633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSIRSQNFGLEDGIIKSTLTYIEDIKKIDLNFSPVICQEFIDKVCDIRVTIIGDKIFTAKIFSHSKKSKIDFRTDYKNLTYEEYKLSKNIENILFKLNRYYNLNYSAIDLIQDKEGKIYFLEINPNGQYLWIENALNLPISKSIADFIINKINE;locus_tag=LOCUS_6280;note=WP_011267860.1 hypothetical protein (Pseudomonas) [pid:42.0%25%2C q_cov:75.5%25%2C s_cov:37.3%25%2C Eval:4.4e-20%2C partial hit],MGA_633
sequence03	MetaGeneAnnotator	CDS	90539	91030	.	+	0	ID=MGA_634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNLSKILKINSIETLNLLKEDFLKTNIIICGEVHGIKENYLVYEYLIDLLNISQVGIELNKNLFDFIKDKNISENEFELKNNKILSEYLSDGRINRYFLNLINKLKKKDVKIFLYDNASYKDILKSNDPRNDIRDKIMTEDILRENINNERTLIWAGNNHTS;locus_tag=LOCUS_6290;note=MGA_634
sequence03	MetaGeneAnnotator	CDS	91058	91261	.	+	0	ID=MGA_635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNHLKKKGVKTTLVKIEYGQGYFYNLKIRKIKGDQDIKKYKLLKYKYGYKFQIPNPKAIVPYQNTH;locus_tag=LOCUS_6300;note=MGA_635
sequence03	MetaGeneAnnotator	CDS	91405	91680	.	+	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTATVNFKTDISIKIKAQEVAHKLGIPLSNLLNAYLYELINTGSVHFTTTEPMTEKMEKVIAQAELEMASGKVSGPFKTIEEFFDHLDNL;locus_tag=LOCUS_6310;note=MGA_636
sequence03	MetaGeneAnnotator	CDS	91680	91937	.	+	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIQTTKNFDKQYSKLNIKIKNQFKKHIELFKLNPFDITLRNHALKGRYLGYRSIDISGDVRALYTIKGNTLIIFVFIGTHNQLY;locus_tag=LOCUS_6320;note=MGA_637
sequence03	MetaGeneAnnotator	CDS	92248	92532	.	+	0	ID=MGA_638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWNVSKKEVYDIFKRDFSIKYSCIITMTYVIDRSSIKYGKRAYTFSHIEAGYIGQNICLISELMGSYKTIQKELLRILDFHNNKELILYPIAIA;locus_tag=LOCUS_6330;note=MGA_638
sequence03	MetaGeneAnnotator	CDS	92540	94555	.	+	0	ID=MGA_639;product=prolyl oligopeptidase family serine peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_073344531.1;translation=MIKDKYRYLEKINNKEVIDFYKGENKKILLDLKDKNYELIKKDISRSSLISWKTTPTIKESYKFWKEFSYKDQYPKLYSQYKDNKPKMIMDFNELKDEVIYESIPSKSGEFVVYLTEKKGLEIYYYHLINNEGERIKDNLNNIYAFLCWDKDDAFYYIKKIYLSGDIRDYSSYSYEIFYHKIGDNCKKDKKFLNDKEKEFDNKSFIGMFLSDDAKYSILMNNNDDKINFFIIKDNIENKIIKKYIYTDYSLYGRIKNDDLYIYTNKDSEYGEIQKISIKDIKKGLEPKILIKEENFLLDSYYFSKDYIYCVYLKDVSHFIKIYDYYGNFIRNINFDVKGIVNSSISEKSNDIYIYFQSFTYPHTIYKYIFTEDKLIQIYQSKVKKEFAHENYKLEYKLIKSKDGTKIPAFIVYNKNNKLDKPSPTYLYGYGGFGLSEYPYYEPKILPFLNNGGIYVLAVIRGGEEFGKNWYYQAKGAKNKIKSIEDFISISKYLIDKKYTDNSKLFITGISNGGFIASAAMVMKPNFYKGVIAEVPIVDFLIYKKYGIGSLLTDEYGDPDNKDDLKYILKWSPYQNIKKDTKYPDILITGAVNDTRVGLAQPLKFAKKMQDYSLGKTYLYVEEETGHYGYTDIKSQIEKNTLIFSFIYKELNIEHKKIIKRYSKLRRSILL;locus_tag=LOCUS_6340;note=WP_073344531.1 prolyl oligopeptidase family serine peptidase (Bacteroides congonensis) [pid:28.9%25%2C q_cov:88.7%25%2C s_cov:85.2%25%2C Eval:1.7e-63],MGA_639
sequence03	MetaGeneAnnotator	CDS	94557	95711	.	+	0	ID=MGA_640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYMDFVDFYYKKTIQYKYQGYNLEFMVSQSLFSSQKIDNGTQRLLRTLIFENVNKFNKVLDLGCGYGPIGISLKKICPDSTVHMVDKDALAIEYTKANLKINDIKNNTFVYGGLGYLNIKDNDFDLIVSNIPAKVEKEVLIHIIKDARYYLKNNGKVIIVVIDAISEFINNELVSDDSIETLYHKSWPGHHVYHYTFKNNIDTVQKDSINKNIFNSTHNTKLISKSNILSLNLVQITNKIDTAVFFNLGNGDIILSLVKGIDIKNIFIVDKDLEQLNTSKDRLIKNGYSDKSIKIYHQVGIEIENVNVDAIFLILSKQLPDKVYKTLILQSLKLLKKKGYIVFSSKSNIISKIEKFIDKKFFIKLDQVKNNSKESVLFQKIND;locus_tag=LOCUS_6350;note=WP_009930903.1 class I SAM-dependent methyltransferase (Listeria) [pid:37.1%25%2C q_cov:39.3%25%2C s_cov:73.6%25%2C Eval:3.4e-23%2C partial hit],MGA_640
sequence03	MetaGeneAnnotator	CDS	95763	96500	.	+	0	ID=MGA_641;product=23S rRNA (adenine(2058)-N(6))-methyltransferase Erm(C);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001003263.1;translation=MNKYKNIQNSQNFIKRNIIKNLLQLENININKNDIVIEIGGGKGSITSELLPLVKNLIVIEDDQSLAKKLKDDFKNINNINIYNMDIFKYPLPKYKYKVISNIPFNITSDIINYLTNTNNKADEIYLIMQYEAAQRFMGKPLNHDSQISILLKVNFEITYLTKISRHSFFPEPRVDTAFIKFKLLKNPLINSDEYQVFRDFVIYGYNQYGKSVLDSFKKIFTNSQKQKIEQELKIKNLKLTEISI;locus_tag=LOCUS_6360;gene=erm(C);EC_number=2.1.1.184;note=WP_001003263.1 23S rRNA (adenine(2058)-N(6))-methyltransferase Erm(C) (Bacteria) [pid:35.3%25%2C q_cov:89.0%25%2C s_cov:84.0%25%2C Eval:4.8e-26],MGA_641
sequence03	MetaGeneAnnotator	CDS	96729	97334	.	+	0	ID=MGA_642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNFQFNYNRDNLNLDIILPGSSAGIESSLIKKILNLSFIKGNSSLSLNYPFYERGENTTSSEEFSEEIENLDSILKFCKYEKYNNIRFIGKSLGAIIASYYLSTLDRKEMHRYSIVVLGYDIGYINLKNFIGDIHIIQGEYDRFGNIEKVREDLKNAKSKFIRYNQIKGADHSFKNPNTGEFEFEDEAINKIYEEYSKIL;locus_tag=LOCUS_6370;note=MGA_642
sequence03	MetaGeneAnnotator	CDS	97398	97922	.	+	0	ID=MGA_643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQLELEKTYLAKYIPDNIKEYKHKEIIDIYIPESYEHPTLRIRKNADKYEMTKKVPLSNDDFSKQNEYTISLDKEEYKTLSTIKGKRVEKIRYYFEYQSNIAEIDIFQNNLLGLILVDFEFNTVEELEKFVIPDFCLIEVTQEEFLAGGKVCGKTYKDIEEELKRFKYKKLTL;locus_tag=LOCUS_6380;note=MGA_643
sequence03	MetaGeneAnnotator	CDS	98054	98314	.	+	0	ID=MGA_644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMSFFNIYVIYTISMNNTNRIVQIGSTIYLKKLKRVVVITLLKDNPDPLSGKITIESPLGELLLGKKEKDKIRYNNIEYKIEKIR;locus_tag=LOCUS_6390;note=MGA_644
sequence03	MetaGeneAnnotator	CDS	98422	99387	.	+	0	ID=MGA_645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVQSPESAMPEPYRTYVRQRNETISSVLGEVVKDNNVQLCPRAITSDEQIFPIDNSYIYGVVVKELKDGYKSVLYSNNPNSIGIATSSLEEAKEYTEAQIKRGNRVRIKDPRESDGRGQYTVESTDELLSVFHEINKDSNFGCVLMPYLDRILHRISVGHIALGKIGEFTYLGREETVTHGSSEVYGGTTLGLFHSSSEVYKTQVERYFDIPPYLTDLGKKAILEYVKLSLRYGRVSVDVVEGVTDSGEIVRDVIDVTPRVGGTTPAETLSLAQIHTDQEAVCYASSKLIYDPIVSPTTGVNFVDTDTLVINAQIHDVIK;locus_tag=LOCUS_6400;note=MGA_645
sequence03	MetaGeneAnnotator	CDS	99384	100064	.	+	0	ID=MGA_646;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIYIVAAIHGDELLGLKVVGRINRTGKNQILVRVGHPAAVAKHKRYLEEDLNRSFASKKDTIEAFIARDIKLEINKFNPDLVIDIHTSVTDTGRVAIVAKDNQLISYVAQALGMEKVVIMPKQLIDTSLIGLLPDISISLEFGINNRSDKLASEISTRIESLNISDLNLGTKLPTFEVYSQIDKNFSKLHAIKNLVFNEELGGYPFLAGLNTYKTIGGFLAKKIS;locus_tag=LOCUS_6410;note=MGA_646
sequence03	MetaGeneAnnotator	CDS	100128	100988	.	-	0	ID=MGA_647;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENSNIDLTKTEKIKFAYRLYKEETSYDKASKILRVSRKTYANWVKSFKMVGLKKTIKDMGRWKNGGIPANKLPSSVSRLVQELRETDRYGRWKTKIILKRDYDIDISESSITRIIKIKGLSKITRPYPVKKDSYEHIVPFYPGDLVEADPMYVGNIFVCNFCDWITRMRYSTVITGLTQEEAMRAIKEASEYFPFKINRLQWDNGSEAQSDTEKFVKELFGTTLNHTPPHSPKYNGLVERLNRTLRDEEVGYGNFSQKKLEGILKEGIYKYNNYRPHYALKRFFR;locus_tag=LOCUS_6420;note=MGA_647
sequence03	MetaGeneAnnotator	CDS	101148	102170	.	+	0	ID=MGA_648;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010889658.1;translation=MINEKIQPNPIIGAEVFTGMRPTAEPTLANYLGAVVPLLKLQEEGKKPVAFVADLHAITDHEPKEVKKVTHAMVADYIALGLDPEHVQIFIQSELTPQLAELSIYLSRLVTVSDILRVPTLKEKLKPGAEEESARLFLAYYPVLMAADILLQRAHIIPVGKDQASHLEMTRRIARDFNSSTKKNVFPIPETQPYDAINIISLDGIGKMSKTKPKGAIFLNDSPDIVREKIKKAITALPGEMNEVLESHLLVAQTLSLTEEEKDLIKQFKEDHLKGDKIMTDFKKLFTHIILRFLDEFQIRKQLIVNDKDYVPGILEEGKKQAKIQAEITIRSVREAIWGE;locus_tag=LOCUS_6430;gene=trpS;EC_number=6.1.1.2;note=WP_010889658.1 tryptophan--tRNA ligase (Borreliella burgdorferi) [pid:34.2%25%2C q_cov:94.7%25%2C s_cov:92.6%25%2C Eval:8.2e-39],MGA_648
sequence03	MetaGeneAnnotator	CDS	102212	103060	.	+	0	ID=MGA_649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTHINRHWEEGKAKHLELSEQTASDYDNSYANANFSTGLYMDYELKVIDKAISLLNVSKQGIALDLGCGTGRDSFHINKKNCFSKIIGYDFSQEMITIAKRNKNKLNINNIDFIQKDIDTENLNNIEDESIDFINSGFGMGSFISNIETLLTDINRTLIPKGIFTMSFYNSKSLLNEFPNLDWTPSLSAKIDPQKKSLHVTFNDYEFDISAHSYSINDIRKIMNKYFYIEEISSFPTLSSILPNSILKNSRIKKIVKLVDYELRYNNVYGGHYINVICRKK;locus_tag=LOCUS_6440;note=MGA_649
sequence03	MetaGeneAnnotator	CDS	103082	103594	.	-	0	ID=MGA_650;product=YbaK/EbsC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946939.1;translation=MNENKNLNSKLEEDSQGHGVFREILEILNSNNIIYEFNQHKKVRTSEEAARINNVDIKVGAKSMILKSKEEYYLFVLSAGKKINWNKIKSILGEKNVRLATESEAENVVHIKMGGVPPFGNVLGLQTYFDISILEQEYISFNPGIPTCSILMKSIDLKTVVNPIIEEFGN;locus_tag=LOCUS_6450;note=WP_010946939.1 YbaK/EbsC family protein (Legionella pneumophila) [pid:31.2%25%2C q_cov:82.4%25%2C s_cov:93.4%25%2C Eval:2.1e-11],MGA_650
sequence03	MetaGeneAnnotator	CDS	103743	104570	.	+	0	ID=MGA_651;product=sulfite exporter TauE/SafE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003727947.1;translation=MLTFYISLIIIAIIAGLIGSLLGIGGGLIIIPILVFLFHIDIKIAIGASIISVIATSSGAASAYLKDKFINIRVGMFLEIATTLGAITGAILLGVIDPKILFFIFSIVLLISIYPMLARKDKKKINIQNDYISEKLNLNSSYIDNNNTVKYNVNNTPYGLLMMYIAGLISGLLGIGSGVFKVIALDDIMHLPIKVSTTTSNFMIGVTALASSVIYLIHGYINPYIALPVLSGVFIGSIIGAKILKKVSNNALIKIFSIIIAIIAIEMFLRGLGLL;locus_tag=LOCUS_6460;note=WP_003727947.1 sulfite exporter TauE/SafE family protein (Listeria) [pid:44.5%25%2C q_cov:88.7%25%2C s_cov:88.5%25%2C Eval:3.0e-51],MGA_651
sequence03	MetaGeneAnnotator	CDS	104567	104908	.	+	0	ID=MGA_652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKDYNIYISYILRIGVSISFILAIVGILLSLKTNNISKIYKYKSIYMFFYINYIQHFTLTSFLFIPIIVLILTPLSRVIFSIFMFQKEKDIKFVYITSFVLLILLISIFIL;locus_tag=LOCUS_6470;note=MGA_652
sequence03	MetaGeneAnnotator	CDS	105077	105820	.	+	0	ID=MGA_653;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870536.1;translation=MKNEAIISIRDFTMKFGNHTVIENLNFEVLRGETFGLLGSNGSGKTTTLRALLGMYIPTSGSLLINGKKYSVEKGGKLGYLPEERGLYKKEAVLNTMVYFGELKGMNRLDAQKWSIDYLKRVGLSNKTNQKIDQLSGGQQQKVQLGVTIINNPELLILDEPTKGLDPMNRRLLMEIIEEHQKSGATVIFVTHQMEEVERLCDRIILLKDGKAAVYGTIKEIKKQFDNKSLDDIFISIYGNNEDIKYA;locus_tag=LOCUS_6480;note=WP_010870536.1 ATP-binding cassette domain-containing protein (Methanocaldococcus jannaschii) [pid:49.5%25%2C q_cov:87.0%25%2C s_cov:78.6%25%2C Eval:6.8e-52],MGA_653
sequence03	MetaGeneAnnotator	CDS	105813	107045	.	+	0	ID=MGA_654;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_226990698.1;translation=MHNLDVVFKFEVKRMLLKKAFWIIAIAFPLMIALIITIIYFSNKSTKQITTSFKNKNFSVGITDNSGLLSPQLINRLNIKVEKTKSQGIKAIKSGKLEAYFYYPKKIPGQPIQIYAQNVGIFKNSRYQSVAQNILEESVALKIKPQIRTVLISTLQGNINYETNTYNNGQLSGGINSVIAPGVFLVLFYSLIVTFGGKMLTSVNEEKENRVIEMLLTNVETKSLVIGKILSLMVLGFIQLLVLLIPVTLGYIILHKQFSLPGLNFLSNIPLDPTKIVIGAILFLLSFILFTGLLVSISALTPSAKDASSLFSIVMILIFGPLYAAPLFISSPNSSIVKILTFFPFTSPVPLLLRNAVGNLSISDVVFAIIILSVTCILVMIFAIKAFRFGAMEYSRRLNPIEILKHFNSK;locus_tag=LOCUS_6490;note=WP_226990698.1 ABC transporter permease (Methanosarcina acetivorans) [pid:25.5%25%2C q_cov:97.8%25%2C s_cov:96.4%25%2C Eval:1.2e-29],MGA_654
sequence03	MetaGeneAnnotator	CDS	107063	107896	.	+	0	ID=MGA_655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNIKEIGLEIEGNEIFSNVNFDISIGDKISLVGENGVGKSSLLKILSGNIQPSNGFIHKQKDLEISLMPQNLDKWEDNTVYEFTEEFTGVKKARENFDEACNNLTQIYTPKQSFIYEKSLKKYEHLGVYDFEQRLKKSLNNVGLKDLDINTRLKEISGGQKNRIALSAILTSKKDLILLDEPTNNLDSEGILILEKFINQSKSSFIIVSHNINFISNTSNKIIELIGGSSGVKQYTCNYKEYIEIKNKEHESEIHNYEENINFPRPYGRGFSLFQT;locus_tag=LOCUS_6500;note=WP_001830004.1 ABC-F family ATP-binding cassette domain-containing protein (Staphylococcus) [pid:31.3%25%2C q_cov:93.9%25%2C s_cov:41.3%25%2C Eval:1.5e-37%2C partial hit],MGA_655
sequence03	MetaGeneAnnotator	CDS	107877	108308	.	-	0	ID=MGA_656;product=IS200/IS605-like element ISSod23 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011072537.1;translation=MEMIHLSHCVYHCDYHIVIVTKYRKSLFNAGVFAYFKLRLAEVHAHYPLIIIKEVNSDKDHIHLLVSIPPTIGVGKVVGIIKQNTAKDLKQKFPFVKEAYWGTEAVWSEGYFVSTVGINEEVIKRYIQLQGEKDSGQTKFEID;locus_tag=LOCUS_6510;gene=tnpA;note=WP_011072537.1 IS200/IS605-like element ISSod23 family transposase (Shewanella oneidensis) [pid:39.3%25%2C q_cov:89.5%25%2C s_cov:86.9%25%2C Eval:6.1e-20],MGA_656
sequence03	MetaGeneAnnotator	CDS	108532	109218	.	+	0	ID=MGA_657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSLKSKFKKIEEIQKPEDFPVLDFEFNKKEKINPNSKLINIENLIIKYNYKSIGPINLYIGGRERVLLTGKNGVGKTSIIKSIINQNEFIKEGNIELNPSINIGYIDQNQTLPLLNENAIDNLRYLSSNLPLNEYIHLLIKFNINKEAIYKKVFDLSGGERAKIILASIALNHSNIIILDEPTNNLDNLTVEALKKALLPYTGTLLIVSHNQDFIKDLNITRKINIE;locus_tag=LOCUS_6520;note=WP_011836721.1 ABC-F family ATP-binding cassette domain-containing protein (Streptococcus sanguinis) [pid:35.6%25%2C q_cov:94.3%25%2C s_cov:33.9%25%2C Eval:4.6e-28%2C partial hit],MGA_657
sequence03	MetaGeneAnnotator	CDS	109310	110881	.	+	0	ID=MGA_658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLQSLFKNHKYKLLYSLISIIVIIILGLLYWHISSSNIFNSDNSAPVLEAHSILKGNIQLKGWNLSSDNFYTIDLPFYIIVESIVGIKSYIPALVPTIIYLLTIIASLYLSTINLFNKEKIYSLIISFGLIATAPIFYLNQTLVGPDHVGTILFILISFILIFKILKKGRYNYYLIPFFIISFMYLFGDPLSRYIGIIPIILFSIFFYFYEERKNKVSYILIGGSAILSLILSLILRGYTLQLGFFNLIKISNTFVNLSQLNTHIYYFFYSLLKIQGAYFFGETIFSKNTLLDLLRFLILILILFSIYLFCKKSFKSPININKIDKLNFLLITSFILNILAFIFANITVNVYTSRYLMFLPILGGLLLARYLSPYIAKHKIYPIITVLIVFFLFFVLIDKSSHIHKPMNIPQEKISVFLKKHNLKYGYGSYWNSATITLYSENKVKVRQVLSYNNKLYPYLWLSNYNWYTRKADFVIFGNQKTKIITKEIAINSFGKPYKEYKIDGYTILAWNYNISKKYNL;locus_tag=LOCUS_6530;note=MGA_658
sequence03	MetaGeneAnnotator	CDS	110924	111880	.	-	0	ID=MGA_659;product=cytochrome d ubiquinol oxidase subunit II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002485881.1;translation=MIEYILLNLLLFVYVVLISIEFGNSIYYYIYSKRDINLSKIIFGYISPIWELTNTVLVLFIVFLIGIYPKAPMLYGTVLIVPVSLALMFLMIRAFSFVYLYEYDESSITFRTLYALCSLFIPIFLSTYFSVSIYNNIHQVGGSIIYSLSRIFFSPLSLAFMIFAVLNIIYLSSAFLLMYTKKDKKIIEEVSHIFIILSSIMLIFVSISFFIFQNLPFFNNILNNYFLILFLYLLLFVLSQGLLIFKEYRNIFSFSLLQMFLLFLMYVFGNYPYIMYNNISIFNINSPLVIQVLLYVSIIALIISIPALIVFIYFIKRK;locus_tag=LOCUS_6540;EC_number=1.10.3.-;note=WP_002485881.1 cytochrome d ubiquinol oxidase subunit II (Staphylococcus epidermidis) [pid:25.2%25%2C q_cov:95.6%25%2C s_cov:92.3%25%2C Eval:1.5e-23],MGA_659
sequence03	MetaGeneAnnotator	CDS	111877	113235	.	-	0	ID=MGA_660;product=cytochrome ubiquinol oxidase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000381849.1;translation=MGLSYFFNHEYNKYMTNLLYARVLMGLSLGFHIIFAYLGVGIPLFISLAEIIGIIKKNDNFLIFAKRASYALVILFAVGAASGTLVAFELSLLWPPFMSLISKVDILPFALEGIAFVVEAIFLGIYIYRWDKFKNRILHWLSSIPIVIGAFASAALITSVNAFMNTPAGFSIVNGKIINIKPIKALMNPISFSEIFHVVSSAYLATALTISLIYAYYIIKGKKEKYYKSILNFSMVLVLIFSLLTGFSGDLQGKSIAQFNPEKLAATEGVFHTNLGVSERIGGIFSNNHLLYAIKIPYLLSFLAYGAPNAKVLGLYSFPKSSWPPLFIHYAFDFMVIMGTIYAGYSLLYVFILFFKKKRILLYNKINLYILMLLGASAFLVVEAGWISAEVGRYPWIIYHVMRIKDAITASPDVGFIFYLMLFTFIFLFFMMIFLLLNFYKKRPIYRDGKIT;locus_tag=LOCUS_6550;note=WP_000381849.1 cytochrome ubiquinol oxidase subunit I (Staphylococcus) [pid:39.6%25%2C q_cov:96.0%25%2C s_cov:96.9%25%2C Eval:3.7e-88],MGA_660
sequence03	MetaGeneAnnotator	CDS	113325	114962	.	+	0	ID=MGA_661;product=arginine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016438.1;translation=MTEGENISKLIENILLEKLNIKEKVEVNFPKDPKHGDYSSNIILKIHSKYNLDKEYVFSLLKDNLKEYKIEEKSYFLNIFIKTETLKNVFIQKSIPKRKEKVLVEYSSPNIAKSFSIGHFSSTIIGDSIYRIYKYLGYDTTNDNHIGDWGVQFGKLIYAIKEWGDQEKINKNPIEELNLLYIKFHKEEEINPEITIKAKEYYKKLSEGDTELIEYWKKIVKWSMEEFNKTYTLLGISFENIKGESFYKDMAEDIVKKALTSKKAVIEDGAVVVYTDKNKKPLVIRKSDGTTLYSTHDLATIQYRAKELSLNTVIYEIGSEQTQAIKQMFDVAKKLELYDEGTQLILISHGFVKLPGGEKMSTRKGNTIKLTTLIDEAITKTRNMLSERSIDDEDTIKDIAIGAIKFNILKRHYSSDIIFEWDNILSFNGDNSVYIQYTYVRTLGILKNIDVDKNLIEFTNTEEEELVRMLYKFNDYVNLAKLSPNILSEYLLNISKMYNSIYAKYNILKEENNTTKNTLLLITLQTKDTIKQGLSLLGINTVDKM;locus_tag=LOCUS_6560;gene=argS;EC_number=6.1.1.19;note=WP_011016438.1 arginine--tRNA ligase (Fusobacterium nucleatum) [pid:37.5%25%2C q_cov:95.6%25%2C s_cov:95.3%25%2C Eval:1.5e-89],MGA_661
sequence03	MetaGeneAnnotator	CDS	114963	116228	.	-	0	ID=MGA_662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKLEDKDSPRVIPKIPYSIRFSLLSEFKESFLSYIYDRKVLISYYIFRVKKISKKVNLAKSNIYQKFYWGRGSLYKPSLMFLILFMFMFSFSMVWLSSGNQKQVKVQKLNLSTASRSVLTDETSLPSNVTSSKITSGYGLINWYKVKPGDTLQSIASKFNISASVLAWSNNIKNNDIYTGEALNIIPVSGITYTVKAGDTLQSIASKYQTTVSQIQDWNLLNNANIMASSLPSGETIFIPNAVIPSQSPNYSYAVNYTRSFASLSSSNPTSFYFSQGNPAWAGVRLGYSGYNISEVGCLITDIAMVGKFYGYNITPQSIASNPANFDGPLYNWNGLGIFNVTPLGSLFGGYVNWNEINTSLAQNHPVVVSIDYDYHYVLLTSRLSNGEYVMNDPARGSGLIFNNYYSTSTVTQAVLFTPR;locus_tag=LOCUS_6570;note=WP_003244874.1 peptidoglycan endopeptidase LytF (Bacillus) [pid:27.4%25%2C q_cov:46.8%25%2C s_cov:41.6%25%2C Eval:8.7e-12%2C partial hit],MGA_662
sequence03	MetaGeneAnnotator	CDS	116362	117813	.	-	0	ID=MGA_663;product=HAMP domain-containing sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392644.1;translation=MMDIKIKLSKQFEGWVTKLKDNNLFSTLKFKFLFWNILLSVISIIIILFVFFETAEYVLYSQFNSNLAYTANEVSSIVSHTSTPYSSKISQFHDKNFIGYFIVVLNSNGQVIAESNNIKLSSSFITQLFSAVQKKNTSSVFNQKIGNQNLSLISLPVFNNFNDLKGIVVVGNSIGMIQSTLHTLFFVMLITALIFILIVVIFTFYFSDKITDPLSQMTSQIISITGFNLKGRLEPGNYEREFSILLEEFNKLFDRLESTYLREKNFINDVAHEIKTPLAIINGETDLSLKKDQDKETYKKILKANLYQSKKIEKVLNDVLSLARIEYNNISYKTEKLDILNVLQNISQDIKIIADTKNLEFKFKHKGKDFYAMINKENFSKAIFNILINSIKYTNEGYVHLYMYKKNKNIYIEVSDTGIGIKTEDMDRIFNRFYRAGSVKKIEGTGLGLSISKSIIENYGGSILVESEDMKGSKFTIILPKYR;locus_tag=LOCUS_6580;note=WP_011392644.1 HAMP domain-containing sensor histidine kinase (Moorella thermoacetica) [pid:28.1%25%2C q_cov:78.7%25%2C s_cov:82.7%25%2C Eval:4.2e-37],MGA_663
sequence03	MetaGeneAnnotator	CDS	117749	118429	.	-	0	ID=MGA_664;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941118.1;translation=MNKIIKVLIIEDERKISNFVKRGLIEEGYEVDAVFTGEEALGKIEEKEYNLIILDLMLPDMNGFDICKNIRDKGIQSSILMLTARNSIEDRIKGLDIGADDYLTKPFVIGELISRMRALLRRGPSVVDGNISVGDLSLNTKTHEVFRAGKLVELSQKEFSILEYMMVNEGVVLTRTMIEDHAWDYEFDSFSNVVDVYIRMLRKKIDDGYKNKIIKTVRGVGYKVKG;locus_tag=LOCUS_6590;note=WP_010941118.1 response regulator transcription factor (Geobacter) [pid:52.9%25%2C q_cov:97.8%25%2C s_cov:98.7%25%2C Eval:8.6e-64],MGA_664
sequence03	MetaGeneAnnotator	CDS	118439	119668	.	-	0	ID=MGA_665;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKEKTIETPSYVTRTDLKKTMSFVLVISIVMSILIGGGVGFFAGSLMNSNNNSTNVNSAVQNLPVINEQSAVVSAVKKTNPAVVSIVISQNVSNQNSNNLFNFLYPNSSQGNSNSSGSTQQTVGGGSGFIISSNGYILTNKHVVSSTTDTYTVVMNNGKQYKATVIARDPTNDLAIVKINAQNLPTLTLGNSSNLQLGSGVIAIGNALGQYQNTVDTGVISGLDRSVQAQDPVSGAVENLTGVIQTDAEINPGNSGGPLLNFAGQVIGINTAIASSAQGIGFAIPINQAKADVASVIKNGKLIKPLLGVQYELVTPGIENSKKLPYSYGAIIVKSSTSPGIVPNSPAATAGLKTGDVILEVNGIKVNTQNTLSYLIGEQSLNSTVHLKVYTTNKNIKNINVLLNKAF;locus_tag=LOCUS_6600;note=WP_012869463.1 Do family serine endopeptidase (Thermanaerovibrio acidaminovorans) [pid:44.8%25%2C q_cov:61.1%25%2C s_cov:47.2%25%2C Eval:6.4e-52%2C partial hit],MGA_665
sequence03	MetaGeneAnnotator	CDS	119787	120323	.	+	0	ID=MGA_666;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYINIIILIIFLIYLYRGYVDGGLRIITGFLGIIIAYAFSVHYYILGSYILNKLFHIPMNFNRLISIIITFIIIALAFELLSSFLYKKIPKEFRRSTINKYIGAILSFVEGLILISFIIFIITTINFIPGQINIKNSIKQSSIGAYIIKENNKILKPIVGKELSTIKLNKNLINPSK;locus_tag=LOCUS_6610;note=MGA_666
sequence03	MetaGeneAnnotator	CDS	120320	121558	.	+	0	ID=MGA_667;product=Nramp family divalent metal transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966601.1;translation=MSHKKLDKYISNIRPGVITGAADNDPAGISTYSIAGSQFGFSQNWIMLISIPMLIAVQGTVARIGVITKKGLSEIIHNQYGQIVAIAILLILVICNIFTIGADMLATSASINMLFTGTTNYTYIIVIPLFLFFVYIIIFKDYQKIAKYMFWGSLAFLSYFITVIIVHPNLLSIMKGTFIPDIKSFFYNKTYALTATGILGTTISPYLLFWQQEEEIEEKRPFNFLRKERKSLAFGFIFSQIITIFIMTAAGATLYKEHINILSSKYPAITTASVLQPLAGKFASQLFSIGIISAGLIAIPVLAISTSYAFTELTKHRGFLSAKFKDTKLFYYIIIVSLFSGIIFSVFKVSPIGALYYSQVLDGILAPIIVIFIILIANNTHIMGKNKNNLFDNIFSILSVIIMIGASLLIFL;locus_tag=LOCUS_6620;note=WP_010966601.1 Nramp family divalent metal transporter (Clostridium) [pid:33.3%25%2C q_cov:97.1%25%2C s_cov:94.9%25%2C Eval:5.6e-56],MGA_667
sequence03	MetaGeneAnnotator	CDS	121555	121797	.	+	0	ID=MGA_668;product=membrane protein insertion efficiency factor YidD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003701741.1;translation=MKNIKKPFLYLIKIYQRTLSLDHGPLKILFPQGYCRYNPTCSQYTYDAIEKYGVIKGSIKGFYRILRCNPFSQGGEDPVK;locus_tag=LOCUS_6630;gene=yidD;note=WP_003701741.1 membrane protein insertion efficiency factor YidD (Ligilactobacillus salivarius) [pid:50.0%25%2C q_cov:98.8%25%2C s_cov:82.8%25%2C Eval:2.0e-14],MGA_668
sequence03	MetaGeneAnnotator	CDS	121874	124078	.	+	0	ID=MGA_669;product=vitamin B12-dependent ribonucleotide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879160.1;translation=MIKKIIKRDGSTLPFNQNKITIAILKAGNSIKKDFEESEALEMSNKVIKILENKYSNKIPNVEQIQDVVEITLMAQNNELYHKIAKAYILYRNEHQKIRDSQRSIMEGYTTNLPFSENSLRVVAGRYLKRDGKTGKIIESPEEMFSRVAKSLAKVEEMYGKNKEEIKSLESEFREILYNFEFTPAGRTLTNSGSDTKLVANCIVLHMEDSMDGIFQTLKDAALLQQAGSGLGFPFHLLRPAGMRAIQTKGVASGPVSFLKVYNEAFGVIKQQGRHGANMAVMSVEHPDILDFINAKRVEGDIKNFNISVGITDRFMKEVDSGSTKPWICEFNGEKMKPRTIVRSQDGVIVDIKESTMTAREIFDEIVSAAWSNGEPGIVFLDEVNKHNPVPKLGRIEACNPCGEQFLQDSDVCNLGSINLEKFVKDGKLDEKRLKEVTRLSIRLLDNVIDKSEYPIERVNTVFRGNRRIGLGLMGFADLLYLMKIKYNSKEGFSMASKIMKLINEEAHKMSQELAKEKGVFPNYDLSIYKEKNIKMRNAALTTVAPTGSISMMYDVSSGVEPYFALVYYKEVMGGQKLYYMNKHLEKILKERNLYNDDIIEKITKEGSLQNIKEIPQDIKDTFVVAMDISAEDHIRMQAAFQKYTDNAISKTCNFPNSATKDDVREGYILAWKLKCKGCTVYRDGSRDMQVLNLLKNENKSTEESDRCPECNSKMEIKEGCATCPSCSYSYCSV;locus_tag=LOCUS_6640;EC_number=1.17.4.1;note=WP_010879160.1 vitamin B12-dependent ribonucleotide reductase (Archaeoglobus fulgidus) [pid:49.3%25%2C q_cov:80.1%25%2C s_cov:75.5%25%2C Eval:5.5e-159],MGA_669
sequence03	MetaGeneAnnotator	CDS	124080	124616	.	+	0	ID=MGA_670;product=cob(I)yrinic acid a%2Cc-diamide adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942222.1;translation=MKKKEGLVLINTGSGKGKTTAALGIALRASGYGLKGVMIQFIKGSWFYGEKKSFQLLSPNFRLITHGKGFVGIIDDKLPFEEHKKIAQEALEIAKKEVICKDNDIVILDEINYAAKGNLITTQDIIDLIKMKEKTIDLILTGNYADQSIIDLADTVTEMKEIKHAFNKGNLAKKGIDF;locus_tag=LOCUS_6650;gene=cobO;EC_number=2.5.1.17;note=WP_010942222.1 cob(I)yrinic acid a%2Cc-diamide adenosyltransferase (Geobacter sulfurreducens) [pid:42.4%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:9.9e-34],MGA_670
sequence03	MetaGeneAnnotator	CDS	124654	125190	.	+	0	ID=MGA_671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKEKIKIKIDGTFNIPLIVKYIKKNHISGYINKKNNTGLLEGDKDNILDLIKLHNSKKFSKKHIEYKKEPYIGNFKNFYLISDPSEIKLRIYMKISGLIQNNSIETIVKRKADTFNIKGWIKKNDDDSIDSKMEGQYEQIYSIIDFIKNDIPKVNIENIQIEYQEYKDEFKEFNTTR;locus_tag=LOCUS_6660;note=MGA_671
sequence03	MetaGeneAnnotator	CDS	125187	126659	.	+	0	ID=MGA_672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIEYIFPNKNYYLTTFTISVLILLLSIKLFSISISFIPLVFILILLVVISVNVILKNPNLGILITFAIMPFEYIGGFYYHSIHIRFDQIIIGITGIIYIISSLIKKDFKIKKDPTFIIIGALIIANILSLTNALNFSRSIDIFLFTLITYLIYYAIPVNFFDIKYVKYIPYIIASITILLSIFGIYQYIGNLLNLPGSVLGLRAPYLKNVLGYPRIEATEVEPLYYGTYLIFSITLSLGILIFNKGKNILKKNLKNLLYISSILGIINLIFTYARGAWIGEGISLLILGIIYLVEYKIPKKMIYTGIVFIIFVIAIGGVLYKINKLPHFATSIINRATNLSSPDRVYLDSNALQAFENNVLFGIGVGGFGPYMSINPYIIPSRSFGQIEGYGWAIVNNEYLEILSETGIVGFILFVMLFIKIIQNFIKAVRVNKYKNSFERVILISTFAAMIGILVQYTTFSTLYILQIWMVIMLVEVISINILHDR;locus_tag=LOCUS_6670;note=MGA_672
sequence03	MetaGeneAnnotator	CDS	126649	128070	.	+	0	ID=MGA_673;product=flippase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965611.1;translation=MIDKIRKNTIWLTLSQGISIIVSLILTLILARHLGPRYNGIYNYANAIVGIFAIFVDFGMSTVLIRDIARDTNLVKKYLDNLISLKIIIGTTILGLIVITSFFIKQYSDITFIMFFLGLYNILSGFYSLFTGVFRSHNVMRYESFNTMIQKILMLILGLISLYYFRSVLYYSISFFISTLIGVIISIIIIRKKFIKFSFSINKDFWKYMVNEMWPFGISAIAVTIYFTVDQILLGSLKPITQVGYYALARSATGVVGSIIGIVIGVLFPSLSLLYKKNKSEFENLFNNSTKFMSILAAIFMAEMIVNSKEYVLLIFGYRYYNSITPLILLSIATGIIFINALIGNTFGAVDMQKTLLKGLLIAMVVNIVSNLLLIPKFGVNGSAFSSILTELFISIYTYPILKSKFDIYILKYISIPILAALISGGLMLLLIKFNVILISLIGLATYIILLILFKFISIEFIKDTIKLGRVKT;locus_tag=LOCUS_6680;note=WP_010965611.1 flippase (Clostridium) [pid:25.3%25%2C q_cov:97.7%25%2C s_cov:98.5%25%2C Eval:1.2e-31],MGA_673
sequence03	MetaGeneAnnotator	CDS	128121	129230	.	+	0	ID=MGA_674;product=glycosyltransferase family 1 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003355946.1;translation=MKIAIDARFANMKVGIGRVAYNLTTEILLLDNKNQYIILLDKDDPFKEIKKDNVIKLHNKRALKNKLLWQFVYLPYILRKKKIDVFFSTENLIRPVFFKGKTITTIHDLIPLVYKEYLKPFSPYKIKLAITKLFPPEKFMTVSNFSKEEIKRILKTEENKIFVIKESFDKRIKNIKQSNNILHNLDIKKPYILGIGGMELRKNNKILISAFISMIEKNTELKHTLVIVGNIYSKKIPMEKHLISDNLRERIRFIGDLRDEELSVIYENAEIFVYPTIYEGFGLPPLEAFKHKVPVIASNITSIPEVVKDAAILINPYKEKDIEEAMLKIIRNDNLKKDLIKKGTKILRNYNWKEAANKVIKEFDKLYEK;locus_tag=LOCUS_6690;note=WP_003355946.1 glycosyltransferase family 1 protein (Clostridium) [pid:36.2%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:2.4e-47],MGA_674
sequence03	MetaGeneAnnotator	CDS	129220	130287	.	+	0	ID=MGA_675;product=diglucosyl diacylglycerol synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003246153.1;translation=MKSDKKIIILTENLGKGHIKVANVLKNEISKQLDIEVEILDYLGVAGKIFENGVSYIYKNLIENFPNLYKMSYEYNDKNKPYGLIDSMIGAKLKQNLGGDLSNIIFISTFPNATAGISSLNAYKKYTVITDYTVHGGWIYDKIDGYFVANEKGLDTLKKHGINEKNIYITGIPIPKEFYEKRNVRESKKMFNIDIHKKTILIMGGGDGVIKDAINLIQSLEEEYNVIVITGKNIKLKEKLDKIDFKNTTILGFVENISQIMDITDIAISKSGGISMTELNAKRIPILIYNAIPGQEKGNADFFEENKAGMQISNFNKIKITIKHILNGKIQLDGKIVDRRYKAIDKIINIIRKDL;locus_tag=LOCUS_6700;note=WP_003246153.1 diglucosyl diacylglycerol synthase (Bacillus) [pid:31.5%25%2C q_cov:91.8%25%2C s_cov:88.0%25%2C Eval:3.4e-43],MGA_675
sequence03	MetaGeneAnnotator	CDS	130289	131416	.	+	0	ID=MGA_676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKKKILILMSKTGNGHLSVAESLKEAFEYTDKDKYEVKIVDGLQEYSSKLMKNISKSYVPIVKYVPSLFTSGYYFTDNEIRQSLFLSLIRLHSKEKITKLVDNFKPDLIISVHPLLNHITGEIAKSKNIPFVVYITDMYHVHESWFNRKADLYLVSNKYIAKQCRMHGIKNISIHPIPVKLKFFKDIDKDKIRKKYNIDKNKYTLLVTFGGGGTVSPIKLLKDLMKKNMGDRYQVIVINGKNKKTYKDVEKLKELNKKNSLKIVNLEFIDNMEEIMSISDISICKAGSTTVQELFTMSVVPIIVNYVRGQEKTCSDFVKLKRAGIVNKRKVIESIENITKNPKRLDRYRKNGERLVEKNSSLKAINEMLQLIK;locus_tag=LOCUS_6710;note=MGA_676
sequence03	MetaGeneAnnotator	CDS	131419	132519	.	+	0	ID=MGA_677;product=glycosyltransferase family 1 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003355946.1;translation=MYILLDAREAHTTTGTGNVIRELYPAIVKNDKNNRYAILYTKEDPFPELKCEKIKSPKDNQAKFTYIWQLFFLPHFLNKKKFDVFFSVENLVMPLFFRGVLIISILDIIPYALKDYYKKPIDNIKYKVKLFLLKFMKKKDLIYTISQYSKSDIHKYLKIDNSKIIVIENSIIRYKEPKNTKEILRKMKINKPYILSIGGGEKRKNNLRLIEAFNGIKTNMDLIVVGKIDGRNDAAQFDDLPTSKNIKTPGKVDQDTLVALYKNAHAFIFLSYYEGFGLPPLEAMKFNVPVLCADRTSLPEVCRDGVLYADPFDIEDIKDKLITLIDNKEIREDLKKKGKKVLNSYSWDNAAKEMIAAIENIKNEDR;locus_tag=LOCUS_6720;note=WP_003355946.1 glycosyltransferase family 1 protein (Clostridium) [pid:29.3%25%2C q_cov:98.6%25%2C s_cov:98.9%25%2C Eval:1.8e-34],MGA_677
sequence03	MetaGeneAnnotator	CDS	132506	133501	.	+	0	ID=MGA_678;product=UDP-N-acetylmuramate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198598636.1;translation=MKIDKNINLSKYTTFKIGGVAEFFSEAQSKQDLLDAIEYANKNSMPLNIIGGGSNILISDKGIEGLSVINKYKEINIEGKLEEDINIENNKSFYNEGEYFKFSDLIDTNERDTQKYLVKVSSGVNLTYLINETLHQNLTGIQYFSGIPGTLGGAIFNNIHGGEKLIGDLIYSATLIDKKGEIINVNNNFFKFGYDDSILHKNEHILIDAQLILFEGSVEKAKETAHEWIKRKRNIQPSLPSAGSIFKNITNEEKEVIQAPVNSAGWLIENAGLKGKTIGGAQVYQKHANYIVNIGFAKASDVTNLIEVIQEEVFKKFKIELIPEIILKGNF;locus_tag=LOCUS_6730;gene=murB;EC_number=1.3.1.98;note=WP_198598636.1 UDP-N-acetylmuramate dehydrogenase (Salinibacter altiplanensis) [pid:28.3%25%2C q_cov:99.7%25%2C s_cov:86.9%25%2C Eval:3.4e-34],MGA_678
sequence03	MetaGeneAnnotator	CDS	133515	133703	.	-	0	ID=MGA_679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKFIYNIVMKVTCLECQNEFEVKEKVSLKDTLECPFCGIELEYKGKDKEGKILLEVIEEEK;locus_tag=LOCUS_6740;note=MGA_679
sequence03	MetaGeneAnnotator	CDS	133815	136181	.	+	0	ID=MGA_680;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082796.1;translation=MNKDNYDFLSIQTKWRDIWEKNKIYKTNILSEKEKYYILDMYPYPSGVGLHVGHIKGYTASDINARYKRLKGFEVLHPMGWDAFGLPTENFAIKTGKDPYLVTKENITEFKKEISNMALSIDWEREIDTSNKYYYKFTQLLFIKLYNKGLAYKKKSPINWCPSCKTVLSNEQSMNGICERCESKVEIKNIDQWFFKITDYAEKLLEGINNVDWPVSIKKMQEKWIGKSEGVEIPFAIKDSKEILTVFTTKPETIYGITFLVLAPESPLIESLTTTDNKELVEKYIKNISPQKEVERKKDVKTGVFTGSYAINPINNELIPIWIADYVLMEYGTGTVMGVPAHDKRDLLFAQIHNLKIEFVLEEDKNNYIESRMIVSKYKNKKVKEVRDSIINEIKDSKRVINYKLRDWTISRERFWGAPIPVVYCDKCGEVILEEKDLPVLLPQDITDYVPTGIPPLEKSEKFMHTTCPKCKGPALRESKTMDTFVDSSWYYLRFIDPLNEDSIGKKEYLDKWMNVDLYIGGSEHAVGHLLYSRFITKFLFDEGILDIEEPFQKLKTVGLIYGEDHRKMSKRWGNVVKVSFVTEEYGADSVRMYIMFMGPFDQYAYWNTKSLIGIKRLLNRIWDLQSKIITKNANTENVLTDNLVRKITDYIDKGKYNLCVSEYMKYINEIEKKNCIGKSNFEKFLIILSPFAPYITEELWNRLGNDFSIHQSKWPSSKKEEQHQKYINIPIQINGKLRGNIITLYDSSEKEILELIEKDTKLNQRISNIEIDKIIFIKNKILNIVSA;locus_tag=LOCUS_6750;gene=leuS;EC_number=6.1.1.4;note=WP_004082796.1 leucine--tRNA ligase (Thermotoga maritima) [pid:44.3%25%2C q_cov:98.5%25%2C s_cov:98.9%25%2C Eval:1.3e-206],MGA_680
sequence03	MetaGeneAnnotator	CDS	136187	137107	.	+	0	ID=MGA_681;product=threonine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002356733.1;translation=MEQKKGIWSSSLYNPIINKKFQISLNEGNTPLERLKFLEIESGVEYVYAKREDKNPTGSAKDRMIAYYFSLLKSRGIREIVIPSSGNTAISSIYYSKLADIKVHLFIPSNLDKNKNERLHEAIKKNPNVEVIQSIKPLSSAIQFSIKNNIEILRGSNSKYSEQGYKSLGEELYQINANAIFIPVSSGTTLSGLALKNKSQIHAVQTSKINTISRDFDNDFKYEEESLAKAIVARVTQRKKNVDKIIEKTRGWGWCIENKEIKQYHNILESKGINTSFEGALSVAGFFKALEKGYSFKKVILLFTGK;locus_tag=LOCUS_6760;gene=thrC;EC_number=4.2.3.1;note=WP_002356733.1 threonine synthase (Enterococcus) [pid:25.7%25%2C q_cov:95.8%25%2C s_cov:86.6%25%2C Eval:1.5e-12],MGA_681
sequence03	MetaGeneAnnotator	CDS	137104	138363	.	+	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDINNLIKDQSIVYVTNDPERSLGLEKIIDDFYTVCVDDSYILNFLKNYYSLKKDIPQKDIYRNSNLLLKEISVQKYISKIKNPNFMFFKIAPNIEYTLKGKNILNTKSNLNKKYENKIIISKIFKDLVPKTIDISLRENSYEYIKNRVGSNFVIQFQRGQSGNSTFFINNSREFNQIKTKYPFRIAKAVQRIDGEYYTLNGVITKDYTLLGNLTRQITGIPILTNYKGGSVGNDWNTKLSSKNKETFFNTMNLISEYMRKDGYKGMFGADFVFDGKKVYLIEINARENATIPIFSKIQIEKNIMPFKLIHVLEFLKIKYNINPKKINEDFYEDVNLNQIIIRNIKKDLIEAKMKFNGLYNEHIEKISEGYDIDSLDNNNYLILTNKNFITPNMEISRVVSKKNIKVEMIEDLLKDIY;locus_tag=LOCUS_6770;note=MGA_682
sequence03	MetaGeneAnnotator	CDS	138377	138865	.	-	0	ID=MGA_683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNEFDNIGNIKSNLFESKNLESYLSESFSNKGVDISLSTEKDPITGRTIQTDRVIKLKNGETFIKDSSFYDEDGDVCRIRIVEVNRHQSIESFVEYEFDKLGKKVREIHKNGIFNENGDLVHRIVEHFYEDGKLIRIISTFEIDSVLNNGEKKIIVKETHL;locus_tag=LOCUS_6780;note=MGA_683
sequence03	MetaGeneAnnotator	CDS	138926	139804	.	-	0	ID=MGA_684;product=rhodanese-related sulfurtransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001829434.1;translation=MRKVILYYKYINIKEPLLLKDSEIRICEKLNLKGRIIISKEGINGTLSGDKKDIEEYKKNLLSQEQFKDIVFKESFSRIDVFPKLLVKIRDEIVSLKQNIDINGKDKRGEYISPEDFHSIIEREDENVIILDARNSYESYIGKFKGAITPDIDNFRDFPKVIDILKKYKNKKIVMYCTGGVRCEKASSLLRNNGFKDVSQLKDGILNYANSYPSDFEGKCYVFDRRIAVEIDPLSKIISVCKHCKIPSDRYINCIYKKCNIQFICCESCDIENQHSCSQNCYSSVFINHFPN;locus_tag=LOCUS_6790;note=WP_001829434.1 rhodanese-related sulfurtransferase (Staphylococcus) [pid:41.5%25%2C q_cov:95.5%25%2C s_cov:88.1%25%2C Eval:1.1e-57],MGA_684
sequence03	MetaGeneAnnotator	CDS	139864	141048	.	+	0	ID=MGA_685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIYKKVLILVIGILLFSFGISLNGYIGSNIIFIIILEITCLILGLSLIIYSLFQILKVFYLFLHRDYNQIDINFINSSKNESVQNLKHLLQSFSIPLIIFFTAGIILIIVVPYIFSKLLVSSIPNILILIIVFILIISLLYFSINYGIKQSKLNIKKLIGVYMTIYSSIIILSYFVIFPFLLYGDTHGVINYKPDRLFVLPNAKNLIDIVINVTNTSGLNIYGYGQGYAQLNVWGMTDIVILLFVFELVLTLIINLYYRNKISINLKNENKQDNKQVISKQAILITFTVVILSLFFIIPTIIDFSIFIATLTFFLAYLITIILILIVLFMRNTYKELETASITLRNSSLIVGFSYISLIFILIFNILFIIYMFVLTSLWPFKVIVSNPGTSGE;locus_tag=LOCUS_6800;note=MGA_685
sequence03	MetaGeneAnnotator	CDS	141056	142033	.	+	0	ID=MGA_686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRFINFIKLISQTIRYKVIFRMIIIFFIGIFIKNNKLMIPSTYIYALFAIFFSYINAVSINDLEDYKIDLLNKKNNQYKTLIKGELNRDNLITINIISLFLTLLFAFLINYYALIVIIITLIINYLYSLKYFRLSDNTYTAYFLLVIAYIFIPYILGMIVAKSIFNEKTILFLIPLSLLSLSALLLKDFKDQKGDLKYKKITFLLRYGKNITCNTSLFLISISYILFIFILKITSIPIFLIFTLSYIYIFYIVYLLKISKKNLELTIINIVSISVNGILILILSFFILTDYKSNIFNLVLFLSFIFITYTYTLYTLLKNTLKKY;locus_tag=LOCUS_6810;note=MGA_686
sequence03	MetaGeneAnnotator	CDS	142187	142939	.	+	0	ID=MGA_687;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000819487.1;translation=MLTLSYNNDIIRKMKTLKKDNISYIDTEEDFSKTPLLILHGWKQNKESWIDIINILKKSHRIICIDLPGFGESINKEFLNFTVEDYSNSIETFLKDIGIKKVIILSHSFGGRIAINMTIRNKISISKLILFSSAGIINKNNNINYSLLKRIVPESIKNRIRSRDYKESGELKNIFLNAINFNIEPLLKDIFIPTLIIWGDEDKELGLDNAYIINKEIKESELKIMKGNTHFAHMENPYLFTGYINRFLEK;locus_tag=LOCUS_6820;note=WP_000819487.1 alpha/beta hydrolase (Bacillus) [pid:24.5%25%2C q_cov:94.8%25%2C s_cov:85.9%25%2C Eval:3.2e-17],MGA_687
sequence03	MetaGeneAnnotator	CDS	142936	144327	.	+	0	ID=MGA_688;product=UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002852462.1;translation=MKLDNIYLIKLIHILQSFEYSIKDFSSYINRFDMIFKKYEYKEKIEYTIKIKALIIITLILQIFTISIFYFNIIYFLIAIIFVYILTAYYILISYMILYPIDFILKKYIVYKAKRKISKIKDIKIIAITGSYGKTSTTNFIKTLLEKDYIVFSPGKSINTLLGISKKINDNLKNNTQILILEVGAYKRGEIREVMKNYPADISIITSIGTQHLERFKSITNIIKAGEEIIDYAKKDSIVIALKEIYDYPFSKYGVEIKFDKNKKYIKVEYDIKNFENKKTYFSINKNTYYTDLLGYAMIGNLSLAITCAEIFEIRNIQGKINLIEPSERRMYPILEEGILYIDDTYNIGEESAKKTLEYLNDMKIKNIYKRIFLVTGGIVERGKESESVNEKYGTLIESVVEKVFIFDTPYKKYIKYGIKNKSKIIEIKNYKEFEGYKKIFIKGDCILMQNEITDQYYFKNNN;locus_tag=LOCUS_6830;note=WP_002852462.1 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase (Campylobacter) [pid:28.4%25%2C q_cov:84.0%25%2C s_cov:78.9%25%2C Eval:3.4e-28],MGA_688
sequence03	MetaGeneAnnotator	CDS	144328	145464	.	+	0	ID=MGA_689;product=D-alanine--D-alanine ligase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404923.1;translation=MDKKNILLLFGGESPEHEVSIISAKQILKKINRDKYNIFPIYLDKEHQFKYIPEFETFKEFKDFIELKKYNIEIRLKKGEVNIYLNKFIKLKKVDAALLTFHGGEGESGDIQGFLNTLKIPYTGPNIKGAVYGIDKIVMKYILEKNNIEILPWMYITKNEWLENKKDVIKKIKKFHEYPLIIKPSSMGSSIGVKKVSNDEDLEEIIDSDILYDNNIIIEKFKDKVVEITYSLIKEKNNILISLSEEIEKDLDKIYSYENKYLQGGKKNKAEGMSAERKNIPANISKKLDDRIKEASFKIYEVLNSQSLVRIDYLVDVKNDTFYTIEINTIPGSLSYYLWEAKGIPFEEMIDKMIDSAIYDFKEQEKILKNIDSPLWNQ;locus_tag=LOCUS_6840;note=WP_011404923.1 D-alanine--D-alanine ligase family protein (Salinibacter ruber) [pid:29.0%25%2C q_cov:92.6%25%2C s_cov:86.6%25%2C Eval:5.2e-53],MGA_689
sequence03	MetaGeneAnnotator	CDS	145511	146218	.	+	0	ID=MGA_690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKIKVKKLPKECFDVFNSYKFTPYYINKSKSKFKSHLESGKASPKEINDYIYSKFQKKITSKKRYDFLKKENIGIDCSGFVSYILNAYSQKKINKNIYDIIKKTTLNPFRYFISYKFTPIKSKLNSETLTNNINTIKIDKINDIRPGDLIRMNGGAHIAIISEIEYKGKNVSKIKYWQSTEKKGVCESEIIIKNVKLPLKDQYWKDINGALYKPLYLFKKKINSNGIRRLKLLQ;locus_tag=LOCUS_6850;note=MGA_690
sequence03	MetaGeneAnnotator	CDS	146223	147317	.	+	0	ID=MGA_691;product=phospho-N-acetylmuramoyl-pentapeptide-transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000893058.1;translation=MLATFTFIILSILVSFLIAPFIIDLLYEFKILRGRGADDTFKIKKRLSKIGVPMMGGIIIIISVFFITILFNWNKYTQVPILIFIIGSLLGAIDDLLNIFGKKRRKFTSFKHHVKLALNHKNISKRILYTISIPWAFYKGIFNSIGSRYGTGLYPHERILIQMIEGAIVSYYIYFYLHIHSIWIWSNIYINIGLWIIPLIFIIIISTANAVNITDGLDGLSTGVMIASFFTFMVISLIEHNESIAILCGTVIGSLITYLYFNIKPARVEIGDIGTLGLGSLLAVTSIILQKELILLIVGGIFVVETLSVIIQKISKKYFNKKVFLMAPLHHHFEIKGWSEEKIVMRFWLFSFILALVSIWISLI;locus_tag=LOCUS_6860;gene=mraY;EC_number=2.7.8.13;note=WP_000893058.1 phospho-N-acetylmuramoyl-pentapeptide-transferase (Bacillus) [pid:30.9%25%2C q_cov:97.3%25%2C s_cov:96.0%25%2C Eval:5.1e-42],MGA_691
sequence03	MetaGeneAnnotator	CDS	147295	147900	.	-	0	ID=MGA_692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFWKFIRKVYFKILWEIDVTDDMDRTVRKLRDKGFDIGDNVFLDHVSIEENYPEFLKIEDNVTIAYGTRILLHDSALNNLYGDPVRFGKVLIKEGAYIGSECLIMPGVSVGKNALVGARSLVTKNVEDNTVVIGSPAKFYMSIDEYRKKFLKDISKDNYYYWNIEPFMKRLKRKNWQEEEKSSYLRFLKENSIKSEKSK;locus_tag=LOCUS_6870;note=WP_010939278.1 type B chloramphenicol O-acetyltransferase (Desulfovibrio vulgaris) [pid:50.9%25%2C q_cov:27.4%25%2C s_cov:25.7%25%2C Eval:1.3e-09%2C partial hit],MGA_692
sequence03	MetaGeneAnnotator	CDS	147998	149017	.	+	0	ID=MGA_693;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELNKEYKKIILQRLSGIGFGIFISFIILTILPLFSKIYSKQLISNQNIQLNIYPENNKIENSISIMWGNSFNNTQYSYVLLRDGEYFTKFNSNTHSYLDTGLVPYAQYTYQILVVNNQGQTIYQTNKLILSTQNSIFNSLVISPHSKYSTYTAFGDSITQGFETTTSYFDRVSQYLKNKEGTVSYNQGVGGNTTYDLLSRIESELQSENPQLVTLMIGANDIRIGTKNNPTITSLDYKNNMIQIISDINPSPQRTLILFELPPIKDWNVSGFSAGSNQRLIEFNKIIIGLANQYGIPYINLNNLSNIPNSFNSDQLHPNNTGDLYIYNQLVKTINLYN;locus_tag=LOCUS_6880;note=WP_014636487.1 SGNH/GDSL hydrolase family protein (Streptococcus suis) [pid:29.0%25%2C q_cov:54.6%25%2C s_cov:79.4%25%2C Eval:3.7e-07%2C partial hit],MGA_693
sequence03	MetaGeneAnnotator	CDS	149100	149624	.	+	0	ID=MGA_694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREQYNIEDNISEKDKILKIVNDSTFRELVENEKMSVFAIYSDDNELNFSEVSEPTLFQFVHRDKLIYDENSAERNIREDLKALVYVNFTNKDGSPINIDGREFSSKFVDDAIKDYATYLQSNTPTYVLMINNEGKSIEIMQVSPEGNPIEITVLKKDSDISLEEQLEASSLKL;locus_tag=LOCUS_6890;note=MGA_694
sequence03	MetaGeneAnnotator	CDS	149699	150445	.	+	0	ID=MGA_695;product=F0F1 ATP synthase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002356551.1;translation=MFVPKAPEILFKFYGFLVTNTVITSIVVSLIILLGVFFLSSRISVIPSKIQSLIELLINFVIDFMSEQTEGDKRKIGIFFPWVMTFFVLILLNNLFEIIPLFGIISLQIKNSAGSYVPLFRAANSDLNSTIALTLISVIITQYLAFKELGFKGHLKRYFNFTKPINIIYGIFEIISEFTKVISLSFRLYGNIYAGDVIILLFLKMAGPYFAPLPFLAFEILVCIIQAGIFAMLTLTFMSLLTSKEELI;locus_tag=LOCUS_6900;gene=atpB;EC_number=7.1.2.2;note=WP_002356551.1 F0F1 ATP synthase subunit A (Enterococcus) [pid:24.8%25%2C q_cov:87.5%25%2C s_cov:88.7%25%2C Eval:9.3e-17],MGA_695
sequence03	MetaGeneAnnotator	CDS	150466	150678	.	+	0	ID=MGA_696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTSFLRIGGGIVMGIGALGPGIGVGYIGGKAIEAIGKNPQISGKIIGVMILAMALTEAIAIYALIFALQ;locus_tag=LOCUS_6910;note=MGA_696
sequence03	MetaGeneAnnotator	CDS	150685	151188	.	+	0	ID=MGA_697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLTLFRVNWSYIIFYTIDFFIILYVLQRFLFKKILKILEDRENEIKVSLENSKIIEEKKEEMEKIYRDKMIETQKESEDIIEKAKEAAENIRSEMLSLTKKESKKILEESEKEAQKFHDQMYENLKKEILDLVVITTQKALSNLIDEKEKQKIISKSIEYIKNEK;locus_tag=LOCUS_6920;note=MGA_697
sequence03	MetaGeneAnnotator	CDS	151178	151531	.	+	0	ID=MGA_698;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNDKIIDIVIDSIVSKNNVDLELLSKIIEKRILQRNLSKKLYNKIYSIIKEKEVIIEYPQDSIEKKDILSIMNNPNIYRFSQNKNLIGGIKIKENWNIFNSSVSNNLEKIKSLKLK;locus_tag=LOCUS_6930;note=MGA_698
sequence03	MetaGeneAnnotator	CDS	151535	153046	.	+	0	ID=MGA_699;product=F0F1 ATP synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000080506.1;translation=MDSKDILVQLKNKINEIDTRFSQEKIGEVQAVYDGIASVIGLMDVANGEKVIIETKDKTNIIAMAMDLKEDETSIIIFGDYTKVQEGDIVKTTGEIFSTKIGKALLGRVLNGVGEEIDGKGEIESDYSSEVEKVAPGVISRKGVRSPLQTGIKAIDVLIPIGRGQRELIIGDRNTGKTTIAIDTIINQKGKNVFCIYCAIGQKNSKVSQLVSKLEEKGAMEYTIVVNAPASSPVTEQYMAPYTAASIGEYFRDNGMDALVIYDDLTKHAWAYRQLSLILKRPSGREAYPGDVFYLHSRLLERAAKLNDSLGGGSLSALPIIETQTGDISAYIPTNLISITDGQIYLESDLFYSGIRPAINVGASVSRVGSNAQEKVMKKVAGSLKLEIAQFRNLAAFSQFGSDLDENTKKILSRGDRLTKILTQKPYLPIPLELQVISVLAVTEGFTDHIDTNDIPTFEEKLHEVFENMHKEVLKEIREKKDLTEDIKTKLISIISEFSKNYV;locus_tag=LOCUS_6940;gene=atpA;EC_number=7.1.2.2;note=WP_000080506.1 F0F1 ATP synthase subunit alpha (Helicobacter pylori) [pid:56.1%25%2C q_cov:99.2%25%2C s_cov:98.4%25%2C Eval:3.9e-158],MGA_699
sequence03	MetaGeneAnnotator	CDS	153039	153902	.	+	0	ID=MGA_700;product=ATP synthase F1 subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003437835.1;translation=MSKLIEIKRRIKSTKNIKQITKAMEMVSAVELKKSQILLNINREYIETLKKTVKDLSSYLEDIQNIEDKNNLIIVITPHKGFVGPLILNLEKQVLSLINSNKEKKFKIIGIDKKALSFIFSLNIEVLSDLEISNHSDITELYSITDLIVEEIKEKKIDSIYIIYTKFKNMMFNEIVTEKILPIDIKEDEYSDAHYVKKEQKDNPAIYDFENNFEDIYIDTLKLYIPSIVQSCIIESSTSENAIRMLTMRNSSDNADELNKNLVFESNKIRQGSITQEVIEIASASNI;locus_tag=LOCUS_6950;gene=atpG;EC_number=7.1.2.2;note=WP_003437835.1 ATP synthase F1 subunit gamma (Clostridioides difficile) [pid:32.9%25%2C q_cov:95.8%25%2C s_cov:94.5%25%2C Eval:4.0e-33],MGA_700
sequence03	MetaGeneAnnotator	CDS	153904	155295	.	+	0	ID=MGA_701;product=F0F1 ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_161587876.1;translation=MIKNMKNKNIGKIIQIRGPIVDVRFDIDSVPLINNKLEIQIKDKTVNLEVAQDLGEGVVRCIAINTTESLKRGLDVLDTKNTITVPVGEKVLGRMFNITGDIIDNEEKIEFNEFRSIHKKAPEYKDQSSKSEVFETGIKVIDLFAPFLKGGKIGVFGGAGVGKTVIIQELIRNIASEYGGFSIFAGVGERTREGEELWNEMHEVGVIDKTALIFGQMNEPPGARLRVALSALTMAEYFRDEQKKDVLLFIDNIFRFSQAGSEVSALLGRVPSAVGYQPTLATEMGELQERITSTKDGSITSVQAVYVPADDISDPAPATTFSHLDGTLNLERSIAEQGIYPAVDPLSSTSRILDPEVVGERHYNVARKTQFLLQRYKDLQDIIAILGIDELSDEDKLSVQRARKIQKFASQPFFVAEPFTGKEGKYVKLEDTINGFESITEGKCDDIDENEFYMLGSLSDIKK;locus_tag=LOCUS_6960;gene=atpD;EC_number=7.1.2.2;note=WP_161587876.1 F0F1 ATP synthase subunit beta (Clostridium botulinum) [pid:64.4%25%2C q_cov:98.3%25%2C s_cov:97.8%25%2C Eval:4.1e-167],MGA_701
sequence03	MetaGeneAnnotator	CDS	155297	155704	.	+	0	ID=MGA_702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKILSPIKEIFKGEVKDVYVPTINGEYGIYPDHSPMILNLSLGELSFTDNNNKKNIMAISEGMLRTSLNETIINVISGVFLHEIDIEKIEKEKEKLEEQLKTLENIKETRRIKSHIKLYSLHLSTYHKHRKSI;locus_tag=LOCUS_6970;note=MGA_702
sequence03	MetaGeneAnnotator	CDS	155786	156100	.	+	0	ID=MGA_703;product=50S ribosomal protein L21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009871772.1;translation=MNDLAVIQTGGKQYVVKKDDIIDIELIEGFKKDDSIEFDDVLLTKKGDTVNVGKPFVKNAKVKGSVIEQIKGDKIRILRFKAKSRYRRRIGHRQNYLKVKIDTL;locus_tag=LOCUS_6980;gene=rplU;note=WP_009871772.1 50S ribosomal protein L21 (Chlamydia trachomatis) [pid:44.8%25%2C q_cov:100.0%25%2C s_cov:98.1%25%2C Eval:3.8e-21],MGA_703
sequence03	MetaGeneAnnotator	CDS	156101	157096	.	+	0	ID=MGA_704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLIFKLGKNPLLSIAEIYSLMESKNIKFEVIIANKQILFIKLQSVVYIDILIKILGGVVEIFQVESIVDKEDARRIKTSEKINIDNTQFAYGTNIVKQNIKDFERKELDKPYVEAKNGMLPSKLAKIMLNLAITQDTQTIYDPFCGTGTILIEALIQGYRVIGSDISKDAVLGTKKNLKWASEEYSIQNKSEVFVNNASSLAEQLRNKDENISIVTEPFLGKSWSKPVQKNVRNAKIIASVDKLIQSSIRSLSKILKNNQRLVIIIPSFKTKHDIIYLKAREMEFGNLKKISIIPSDFLFENKLVNKLDKFDYYREKAVVRREIFIFEKF;locus_tag=LOCUS_6990;note=WP_011248963.1 TRM11 family methyltransferase (Thermococcus kodakarensis) [pid:32.1%25%2C q_cov:57.7%25%2C s_cov:52.2%25%2C Eval:1.4e-19%2C partial hit],MGA_704
sequence03	MetaGeneAnnotator	CDS	157100	157366	.	+	0	ID=MGA_705;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010948350.1;translation=MAHVKAGGGKANQGGNVAGKRRGVKRFANEFVKSGEIIVRQKGTSFYPGVNTGIGRDFTIYSKIEGLVKFRRMTKDKRDKFAIDIIPK;locus_tag=LOCUS_7000;gene=rpmA;note=WP_010948350.1 50S ribosomal protein L27 (Legionella) [pid:47.7%25%2C q_cov:100.0%25%2C s_cov:92.4%25%2C Eval:6.9e-15],MGA_705
sequence03	MetaGeneAnnotator	CDS	157363	157740	.	+	0	ID=MGA_706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTILLNKIEEKHIIDERKLVKVGDTVKVHTKIIEGNKERIQIFQGIVIARKHNGTHENIVVRKISKDIGVERIFPIHSPNLSKIEIIKNGKVKRAKLNYMRSRIGKKAMLIKNVTKQDREKNSK;locus_tag=LOCUS_7010;note=WP_012870154.1 50S ribosomal protein L19 (Thermanaerovibrio acidaminovorans) [pid:60.0%25%2C q_cov:72.0%25%2C s_cov:75.6%25%2C Eval:5.4e-28%2C partial hit],MGA_706
sequence03	MetaGeneAnnotator	CDS	157703	158317	.	+	0	ID=MGA_707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLSKIEKKTVNNNLSLQGIDEVGRGPLAGPLFVASYKINNKTIIHKEVNDSKKLSEKKREYLYQFLTEDPSLYKVYSLSNKKIDDVGIVECINILIEKCALNNASDKTLIDGIFKKKFNIPSYNTVIKGDSTHYSIAAASIIAKVTRDRYMTSLKDTFPQYEFEKNKGYGTKVHIDAIKKFGITKLHRKTFLKNIYSTISYDS;locus_tag=LOCUS_7020;note=WP_003438239.1 ribonuclease HII (Clostridioides difficile) [pid:46.7%25%2C q_cov:89.2%25%2C s_cov:71.4%25%2C Eval:2.2e-36%2C partial hit],MGA_707
sequence03	MetaGeneAnnotator	CDS	158279	161707	.	-	0	ID=MGA_708;product=DNA polymerase III subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583743.1;translation=MSDFTHLHLHTEYSLLDGMSGIKPLIKRIAALGMDSCAITDHGVLYGAHEFYEECKKNGIKPIIGCEIYISPTSRFDKKSNKYSHLVLLAKDNIGYKNLIKIVSDASLNGFYYKPRTDLEFLKEHSEGLIALSGCLSGDISKAFLDGDKEKAYEYAEKFIDIFGKDNFFIELQRNGVNEDFDIEDKLISLSKDLGVDIVATVDSHYIDKTDSKAHEVLLCIDTGKTIDDDTRMKFDSDEFYIKSPKEMSKIWKDHPEAVSNTKKIKDLCNVSIEFESFILPHVDIPQGFESYDNYLREISYSRGIVRLGRELNEDEIKRVEYELEVIAQKGFSSYMLMVSDFTDFLRENNIPTTTRGSAAGSFVAYLIGIVPINPLIFQLSFERFLNPLRPKAPDVDLDIASANRDQVLDYAILKYGDKRVSQIVTFGRMKARAAIRDVGRVLKVPLPTVDKIAKLIPQGRFSIQEALKKIPELKEYADKDPLIQNMLDIAHRMEGIARHASIHACGVLITPDDLTEHVPILFDRKTSRLVSQYNMVTLEEIGYMKMDFLGLTNLDIIAETQKLIFKDLKETINFDLIDYEDKKTYKLLQSGDTLGVFQLESRIMKDAIKILKPETIFDIAALIALNRPGPMANIPQYAARKDGKEKIEYLDPRMEGYLKRSFGVLVYQEDLLRTAINLAGFDWGEVDKLRKATGKKKPDILLELKDELIKRFIDNGMKKDVAEKLFELFLPFGNYAFNEAHAASYSVISYRTAYLKANYTVEFIAALLQSNLGNLEKISEIVLESEKRKIKILSVDVNKSEIEFSIEDGNIRFGLNSIKGLSSNTTKVIIDERKSSGKEFSSIDDFLTRIDLSHFNKKSFEVLIKSGAMDSFGSRASLLASFESILDMYQKRRKETNQIGFFDNFEDNSFMKITLKDVKEVSNTQKALWEKELIGIYITVHPLKKFLNYFKINNILSIRDLATHKNGEKVMIGGILQNINHYTTKKTGKRMLFAKLEDTTSSCDVIIFPDVYEKIKDKILENGSIVVLNALLETVQSDEEDENIEYKLIVNDIQNITIKDVKNNKSIKKIELNIPHNMTKEKLLELNIAINKYIGGETIVALRIMKDEEEKILNLKNKVKFSQDLLSNISGIIGDSAINIF;locus_tag=LOCUS_7030;EC_number=2.7.7.7;note=WP_012583743.1 DNA polymerase III subunit alpha (Dictyoglomus turgidum) [pid:43.4%25%2C q_cov:92.3%25%2C s_cov:92.7%25%2C Eval:4.6e-248],MGA_708
sequence03	MetaGeneAnnotator	CDS	161791	163227	.	-	0	ID=MGA_709;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583528.1;translation=MEIKTIVGLEIHVQLKTKTKMFCSCEASYFEDKANTHVCPVCLGLPGALPVLNKEALIKAIRVGKVLNFTINNRSRFDRKNYMYPDLFKGYQITQFEFPIDTDGFIDLDNNKRINIFRAHLEEDTAKSLHHEGYTLLDGNKAGIPLLEIVSAPEMYSSKEAKEYAKKVYNLVRFVGASDCDMEKGQMRFDVNVNLEIHKEGKIFKTPIVEIKNLNSFRSLERSIEYEEKRQLEEFEKTGKVLDRGNKSTRGWNDNLSKTYFQREKEESDDYRYFPEPDIPPLNLSDGFISKAIESIDVLPQVAQKKLEEEYLLPHSIVILIMEERKYYDFFQRITTLYKNYINLANWFSTDILSLVNQYNINLSDISTDEIVKILTAVDKKEITVSTGKQILKSVLIDKDDIDILLEKNSLISDQGKLDETVKEVLDKNPDIIEKYLSGKESILSFLIGEVMKILKGRANPLEVKNKILDGISKIKSN;locus_tag=LOCUS_7040;gene=gatB;note=WP_012583528.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Dictyoglomus turgidum) [pid:41.1%25%2C q_cov:98.7%25%2C s_cov:99.6%25%2C Eval:2.4e-101],MGA_709
sequence03	MetaGeneAnnotator	CDS	163218	164603	.	-	0	ID=MGA_710;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965958.1;translation=MKVSLLKENLRSKKISPKEILEDYFKKAKDINADINCFIKLEEEYTYSHLDFDNYEDNLSFIPGVIKDNINIKNTITTAGSQILKNYKSPYSATVVKKLGNFSLIGKGNMDAFAFGSSTENSGYGPTLNPLDKNKVPGGSSGGVAAAVMAGASAFGIGTDTGGSVRQPASFCGIVGLKPTYGLCSRYGLIAMGSSFDVPGILAEDVLDTAIVLNSIAGFDIKDSTSIKVKKEDYTKFKDVKNKKVGILKFPKEGISEDVLNAFDETIDLLKKSNIDIVEIDMKYISHSLAVYYILVPSEISANMARFDGIRFGYHPKGEFKDLLNFYKDARSEFEDEVKRRIMIGAYTLSQGYYDAYYNKALRVRNIIKQEFKDVFGKIDFLLSPTTPTLPFNIGEKTKDPLSMYLSDIFTVPVNLVGYPSISIPNKKIGNLFSGLQIISRPFEESNLLSFSYFLENKLWK;locus_tag=LOCUS_7050;gene=gatA;note=WP_010965958.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA (Clostridium) [pid:43.3%25%2C q_cov:98.9%25%2C s_cov:96.5%25%2C Eval:2.7e-102],MGA_710
sequence03	MetaGeneAnnotator	CDS	164600	164890	.	-	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVNISKDDIVKISNLVRLDLDSDKIEIFRENISDIINYLDSIDSIDTSSQESFFEVNDIENSFREDNILDPDDFDFICENAIDMENGYFKVKKVL;locus_tag=LOCUS_7060;note=MGA_711
sequence03	MetaGeneAnnotator	CDS	164954	165700	.	+	0	ID=MGA_712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKVEVKEYNKYMLPLSIVIAGIIIAGSIYLSSKAQNNTSNPQKTNKTTTSTQTNSTTSNNSIKATVSLGTNPILGNKKTAKVAIVEFGDFQCPYCKNFDNSTFPLIKDNYINNGKVLFAFRDYPLETLHPLALGMAVESRCFAEQGKYWQFVNKMYSTSQNNNTASVVLGYAKNMHLNIATYQSCVSKDTFLSQIKADISTGNNIGIQGTPTFIIGKLNKGKITGQLILGAYPFSYFQGIINQYLN;locus_tag=LOCUS_7070;note=WP_005461015.1 thioredoxin domain-containing protein (Vibrio parahaemolyticus) [pid:36.9%25%2C q_cov:71.8%25%2C s_cov:67.2%25%2C Eval:1.3e-31%2C partial hit],MGA_712
sequence03	MetaGeneAnnotator	CDS	165692	166699	.	-	0	ID=MGA_713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFSFDLSLDLFDNLINLSEINSSLKSLSINKKIIEEFLISDFFYFSKIVDLDIDNKGLREYALGFHKIENTITNKITSSYRNTLEMIPSFYTDKENILTLNNISRINKILTEKSFESWESGKLRTKDFPYISKYDFLIEDTLYNGDIYSNLKDIFIYYKEDKTPKNLKNLVIVYNFLKLKPFCALNDITSLIILKLLFFDIDYFSYIPILKIFYENKENLDPYKIDINEWLANISSLLNVYLKDMYSYINKYTSLEKRKFLSDKIISSLNFRQKEIFFFLLEHKSISRQEYMKIYKVSSMTAFRDLSDMKKKNMVSPIGTGRGLRYTILEKYLI;locus_tag=LOCUS_7080;note=MGA_713
sequence03	MetaGeneAnnotator	CDS	166702	167871	.	-	0	ID=MGA_714;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003731982.1;translation=MLVKPQSFDSTAKIKVVGVGGGGNNAINTMISVYNILGVDFISVNTDSQALQNSIAETKIQIGSELTKGLGSGGVSSVGKQAAEESIDLIHEALSGADMVFITAGMGGGTGTGASPVIAGIAKNLGALTVGVVTKPFSFEGHKRAQTAIEGIEELKGKVDTLIVIPNQRLLSIIDRKVTFVEAMQTVDDILGQGVKSISELITKSGMINVDFADIKAIMVDAGTALMGMGIATGDDRAKDAAKQAVESPLLELSINGATGVLFNITAGNDLSMLEVDEAASIISSSADENANIIFGAAIDDSIQDGSIRINVLATGFDKDKQDIIIREDNYREVKNTVESVDIKEDIEDIELEEDDDFTVSKKDSSFDIKEDDEENLDTPAFLRRVVRK;locus_tag=LOCUS_7090;gene=ftsZ;note=WP_003731982.1 cell division protein FtsZ (Listeria monocytogenes) [pid:48.7%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:4.4e-95],MGA_714
sequence03	MetaGeneAnnotator	CDS	167935	169221	.	-	0	ID=MGA_715;product=cell division protein FtsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003485272.1;translation=MSKGIVTGIDIGSSKITTLIVNVEDENTSVLGVSSYKSNGIKNGVIVNINDAVKSISESLSAAERMAGVEVKSAYISLGCRQISSTNNKGVVAISNDEISQEDINRVCESSVAISVPQSVKILQTISREYVVDSQGGIKNPIGMAGIRLEMDTHIISVGSMVMHNLHKCVAQVGLEVVDSIFSGWADAEVILNSTERELGVILLDIGYGVTDIVMYLDDAIAFSGSIALAGLSITNDLAIGLKISVEDAEKLKCYYPILIKKAQQRAESENKSKKVSANKSIFTKEDLYLRLSDIGIETESNLDEIRKSMIDEIIEARIYEIFDNVKKLIVEAGFDIKLSTSVVLTGGSSKLYAISKMAQKYFSTSSRVGYPTNFSSLNDEISGPTYSTIQGIVNYGIQSLSQEKYKSKKNFSINPNGLIEWIKNFVS;locus_tag=LOCUS_7100;gene=ftsA;note=WP_003485272.1 cell division protein FtsA (Xanthomonas) [pid:31.6%25%2C q_cov:92.8%25%2C s_cov:91.5%25%2C Eval:2.7e-61],MGA_715
sequence03	MetaGeneAnnotator	CDS	169279	169932	.	-	0	ID=MGA_716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKFILILGLIFIILVIFLVYIFLFFRIKNVYVKNIQNRNVILSIQQKIKGQNLLFESSNNIDSTIRKYYSFASSVSFKKVYPSVLYIYIKSLPINFIYKYKNSYYDVSSYGTYIKTKSQKNGYITVSSSTPIKDAQLGNILSLLKNVSTQFVFEVSKYTINNYDIVMTLSDGKDVLLNFHKPISLQISQIIGILTSNNTNCNTINVEFQKIYCQN;locus_tag=LOCUS_7110;note=MGA_716
sequence03	MetaGeneAnnotator	CDS	169977	170573	.	+	0	ID=MGA_717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDIKINNKGQALVVVMLLGIVLLILVMSITTSVSKTTNQSSIDYGSQVSFANAQSGIQQAQSAINSGNPSGGNCSHSTTTNTCSYNTSQVLLSNSSATKPITAKVPKSVTLPISIDNISSYLNLTFNISDSSKVKIYYVNNSNATLYSCYFNVNRGENYTLSIPKGTTVIYLELNSSEIVSYYEGTGGISIPSSSCN;locus_tag=LOCUS_7120;note=MGA_717
sequence03	MetaGeneAnnotator	CDS	170702	172312	.	+	0	ID=MGA_718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGIKINNRGQALVIVMLLGIVLLILVMSITTSVSKTTNQTNIGYGSQVSFANAQSGIQQAQSAINSGNVSPGNTNCNNSTSCKYTITSQSLSNSNSTKPITARVPKSVTLPISINNVSYSNEEWSDVSSSVVSNGYVYVMGGVGETSVGSSVSFATTNVSYAPINVNGTLGNWNPTTPLPQPRSYASAVTYNGYIYEIAGFDANRNQTNTIYYAQINPNGGLGAWNLTSSLPYNISCATSVEYNGYIYEMGGCWSSAVYYAQINSNGGLGTWTYTSSFSWYTGGGIMLATSVEYNGYIYEIGGQYEELGASVSPNVYYAQINSNGTLGAWAQASSLPQPSYNNTSVAYKGFIYEIGGVNGVVGQGGTFMDNVYYAQINSNGSLGTWLTTTSLPTVPSNTTRAYATSVEYAGYVYEIGGANGPAEIYSGQLNPSGGINNWNTLPNPCYHVCTINNVPTNLTFNISNSIQVKIYYVNNSNPSNATLYSCYFNANANTNYTISIPGGATVVYMELNSAGTVNYYEGTGGISIPSSSCG;locus_tag=LOCUS_7130;note=MGA_718
sequence03	MetaGeneAnnotator	CDS	172301	172978	.	-	0	ID=MGA_719;product=DedA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980578.1;translation=MFLHIFFNFFSILSIHHITLTINKVIFPNIYIFLFLFILLEEMGVPMPIPGEFFVFLAGYRISLGFVNPIYIILIVLIATFLGSSILYFILYSKGLDFIEKYGKYIFIPKSRIIEVQSWFLSHGFFAILVGRWIFGLRIIANVIGGLFRFNYSKFISITLFATIAWTIFYIILGILLGQYYPVLIAFLNQFNSIVIEVIYLAVLTSITALFIKVIIRNEKKKLTA;locus_tag=LOCUS_7140;note=WP_010980578.1 DedA family protein (Sulfurisphaera tokodaii) [pid:27.8%25%2C q_cov:80.0%25%2C s_cov:94.2%25%2C Eval:3.5e-17],MGA_719
sequence03	MetaGeneAnnotator	CDS	172978	173598	.	-	0	ID=MGA_720;product=Bax inhibitor-1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244397.1;translation=MQNNFLIRVLTIFISSLVVAVFGVYLSRYVPPVYYFPLIIIEFVLLFAIGFLKNRPALAPTLLYLFTLISGLTIGPLIYQFFSYNLGNLVFEALAITVFIFILLTSIVYFFNINLVNSKIWVFLMIGLVGIIIAGIVNIFMHSPIFNFYISVAVVLVFSGFVLYDISNILENPDMTNEYVAALALYLDFVNIFIAILDILGFINRS;locus_tag=LOCUS_7150;note=WP_003244397.1 Bax inhibitor-1 family protein (Bacilli) [pid:30.9%25%2C q_cov:98.5%25%2C s_cov:94.9%25%2C Eval:4.8e-23],MGA_720
sequence03	Aragorn:1.2.38	tRNA	173657	173730	.	+	.	ID=Aragorn_24;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0230;note=Aragorn_24
sequence03	Aragorn:1.2.38	tRNA	173736	173809	.	+	.	ID=Aragorn_25;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0240;note=Aragorn_25
sequence03	MetaGeneAnnotator	CDS	173822	174319	.	-	0	ID=MGA_721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSKILENSESISFFIELVVFVFIGVVLLNIVLGFSFKYINAHNLFKKSKLVKVSYTTVNKRVIPSEVFVKTFFKNFSENKDITSYLSKDFQNSLYSEYNSSNYNLDIKNVLGIPYMSKNISFVKVYSNYYTIFMNISGAKIYLNIFWLKVGNSYQISAINPTEG;locus_tag=LOCUS_7160;note=MGA_721
sequence03	MetaGeneAnnotator	CDS	174411	174776	.	-	0	ID=MGA_722;product=YggT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005811508.1;translation=MEENKDNTNTNEYKTKKVIFRAHQIVWYFLGIIEVLLAFRFILLLFGANSQNSFVSFIYSISNIFAQPFSNIFNNTISNSSIFEWSILIGMIVYLIIAYAIVKFIQLINPATPQKVKDTID;locus_tag=LOCUS_7170;note=WP_005811508.1 YggT family protein (Desulfitobacterium) [pid:40.2%25%2C q_cov:76.9%25%2C s_cov:89.6%25%2C Eval:2.9e-13],MGA_722
sequence03	Aragorn:1.2.38	tRNA	174937	175013	.	-	.	ID=Aragorn_26;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0250;note=Aragorn_26
sequence03	MetaGeneAnnotator	CDS	175064	175591	.	-	0	ID=MGA_723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNNSIFFLIIIFYFFIVVFFFFYFFLGKAPVRPVKVYNVTVPMTSVNNTYSISLDEQIKANLETFKTAFFNTPGYSKIKVQSVSKFVNVNINSVKGTSPYCSPLISSSTTECTSIQSIYSLISSHINKISLDMLPPHNIAHYYIFKYNNNYYFLDSSYRKTIYNKGFSLYWIK;locus_tag=LOCUS_7180;note=MGA_723
sequence03	MetaGeneAnnotator	CDS	175591	176436	.	-	0	ID=MGA_724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIAGLFSTYTFGANIPGFSNLIDRIPVLKSLDRSPQNILPKTFAADQGINSYNYNVDFALQSSGASGGSITQQFSGNINFKNPKNVLSSSTIFEKFSSASSSSTSSLVIDGKFIQNSNKFFINFSKFPSALNSGIKTNKWILLPNLEFSFLSKLDNQPNINYSNLDAYSLGNSVVNGTVVTHYVVIFPKSDFSKLNLLTLMKSVFGNSTVTSKSIRLDEWVGVADNKVYQESISFNASVSGAPAKVYFEANMTSFNTNFTVNTPSSYTNLQGKTVSSKKK;locus_tag=LOCUS_7190;note=MGA_724
sequence03	MetaGeneAnnotator	CDS	176438	176656	.	+	0	ID=MGA_725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIIRTTKDAITLDLLDSSAKADFEYKSLNTEDLDSSSDNTSVVEVDTTLLFWGTDFSVNFFSFFILAIKFI;locus_tag=LOCUS_7200;note=MGA_725
sequence03	MetaGeneAnnotator	CDS	176730	178721	.	+	0	ID=MGA_726;product=excinuclease ABC subunit UvrB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009891935.1;translation=MDKNKFELISDFKPEGDQPKAIEYLLNGIRSGAKNQTLMGVTGSGKTFVMSNIIQNINKPTLVIAHNKTLAAQLASEFRNFFPNNLVAYFVSYYDYYQPEAYIPTRDLYIEKETQINEEIEQYRNKATQYLLTRNDVIIVASVSCIYGLGDPSEYEELAIKISLNTNIKRNTLIDSLLQIQYERNDFEYKRGTFSVKGDIIEIFPQYEDDVIRIEFFGDIIEKIRIINPFTRNRGEERSDVYIFPAKHYIVKQEKLNIAINAIEEELKERLDYFRKMDMLVEAKRLEQKVRFDIEMIQEVGYCQGIENYSRHIEGRAKGSAPFTLMDFFPKDYLLIIDESHITLPQIRGMHRGDFQRKKTLVDYGFRLPSAIDNRPLNFEEFRKKINTVMYVSATPNEYEIEISKESTKGLDNYPENGIVEQIIRPTKLLDPEIEVRKTEGQIEDIKKEVLKRVKKNERTIIITLTKKMSEELNKYMIEQGFNSQYIHSDIKTIERTEILRDLRLGNYDVIIGINLLREGLDLPEVSLILIVDADKEGFLRSKQAFIQIIGRAARHQNGRVIMYAEKITESMKNAIEETNRRRQIQLNYNIKHNVSPIGIKKSIDTQIERIKKDNENLNINEISDTKELIKNLTKQMNEYAKKMQFEKAAKLRDQIKELKLIS;locus_tag=LOCUS_7210;gene=uvrB;EC_number=3.1.25.-;note=WP_009891935.1 excinuclease ABC subunit UvrB (Clostridioides difficile) [pid:56.4%25%2C q_cov:98.8%25%2C s_cov:98.9%25%2C Eval:4.8e-215],MGA_726
sequence03	MetaGeneAnnotator	CDS	178760	179776	.	+	0	ID=MGA_727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIINFEEQKKLPKKHKKLKTVLITFVILIALFIFLIIKTGYLSVAYDIFKITGNKIKRTKTETTIHYKYDNSNKFTNILLLGSDTDPKFAGQPVLTQTIMIISINPYQKKIYMISIPRDFWVKIPGVGYGKFDQASLTGGFGLTRQLVESYFGIKIDYYAWVGLSGFVKLINTFGGVNVVPTHPVLDWSYPNDITGNPKLLYNAINLYISGAPQYMTGSKALEYVRSRHGDLQGDFGRSKRQQQVLRIIKNKLDNVSTLSEIPSLFNNLSKIVKTDMSIPEVLSFAQTAIAMKNTPITSIVLSPPHYSSIPNYLIDGQDVVLPNWTKIHALFQKLYGN;locus_tag=LOCUS_7220;note=WP_012256386.1 LCP family protein (Chloroflexus aurantiacus) [pid:35.4%25%2C q_cov:62.7%25%2C s_cov:58.2%25%2C Eval:9.3e-27%2C partial hit],MGA_727
sequence03	MetaGeneAnnotator	CDS	179776	180912	.	+	0	ID=MGA_728;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFNIQNKTKEVKKKRYSWGLLVALILVILLGIFIKYENIILNILNPKNIGQSISKNVNTENIYPIKGSLYFVKNNNLWYIKGIKAHKVTNTNNVSDIAISKNGVKVSYVTFHTNYSNLHEMNINGTNNRRITQWSNPNIANNAWSATPTFSPDGQYIAYLSNIEDLLTGVPIASLGVWMIPSNAVFPTYGSQLYNETLLIKANPYTGGDAGLNWPNNNFLLYTSYIYYTNTPQPNSQIMLYDFNTQQSYPVTPVSSDAMQPRLSPNENYLAFTKRVGNNSNYLYLMKFNLNNILTHTENSNFNTYNNKILVQNGITSEPVWSPSGNSIAFSYFNNNSFDIFLKNIIIKKNKLSTGKLIQITSNSSIDSTSKMYWLSN;locus_tag=LOCUS_7230;note=MGA_728
sequence03	MetaGeneAnnotator	CDS	180941	183778	.	+	0	ID=MGA_729;product=excinuclease ABC subunit UvrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963825.1;translation=MFNNSKIIIKGAKENNLKNIDIEIPKNKLVVITGVSGSGKSSLAFDTIYAEGQRRYVESLSSYARQFLGVMKKPDVEHIDGLSPAISIDQKTASRNPRSTVGTTTEIYDYLRLLYAKIGVPYCPVCNTKIESQTIEQINNEVIKIKNKKIMILSPIIRNKKGEFLDILENFFSKGYTRVRIDNVFYSLDDEIKISKYKIHNIDIVIDRLIINDLKEEESRVYESIEKAISLSEGEVVIHLLDEKKDMLFSENLSCPNCHTSIPEIQPNTFSFNSPYGACSNCTGLGILQTIPKESIYNKNLTFMEGAVYPLSNEITHYKSSWIIKIIEEVSRKNNIPLNIPFSKYTEKQLDILMNGVKGESFEIMYKPRMRSIKKYTVSFAGIIPYLLEKYENGTENTRKEIAKYMEEVICPVCEGTKLNKIARSVKIDNKSINEVSSIHINEFIDWIEKIKKDISTNDTLISKQIFQEIESRVKFLDAVGVWYLTLDRASKTLAGGEAQRIRLASQIGSKLSGILYVLDEPSIGLHQRDNVKLIETLKNLRDLGNTVIVVEHDEETMENADQIIDIGKGAGEYGGEVIAQGSFEDIKNNKESITGRYLSKKEVISVPKKIRSSHKEIQIIGAKEHNLKNINVKIPLEELVVITGVSGSGKSTLINDILYPFLSNYLYKTKKHIGEYKSIEGVENINKVIDIDQSPIGKTPRSNPATYTGAFTYIRDLFANSREAKMKGYKSGRFSFNVKGGRCENCKGDGIIKIEMQFLPDVYVVCDECKGKRYNKEALEIKYKDKNISEILDMNIEEALKFFENISLITTKLKTLKDVGLGYIKLGQSATTLSGGESQRIKLASELSRRSTGKTLYILDEPTTGLHFDDIKKLMKVLNDLIDQKNSVIIIEHNMDVIKMADWIIDLGKEGGYMGGEVIFEGTRDDIIKCKNSYTGKYLKKHLG;locus_tag=LOCUS_7240;gene=uvrA;EC_number=3.1.25.-;note=WP_010963825.1 excinuclease ABC subunit UvrA (Clostridium) [pid:56.4%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:2.6e-305],MGA_729
sequence03	MetaGeneAnnotator	CDS	183770	184402	.	-	0	ID=MGA_730;product=HAD family phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980129.1;translation=MITKAIFFDFDNTIANDAPFIIECFEYTFNKLGIKNNLDINLFGPTEYSIFSKLLDDEKKIKEALDVFSDYYIKNYKKGISIFPGIREVLERLKQDFKLSLITNSYKYRLKNILPDAYDFFDSIVTVDDVERKKPDPEGVWKSLKELNLNKENIVYVGDSLDDLLVCKLLEIKFIRVLWGDKFSFESTDFSYVDVESPEELLDIIYKKLS;locus_tag=LOCUS_7250;note=WP_010980129.1 HAD family phosphatase (Sulfurisphaera tokodaii) [pid:29.8%25%2C q_cov:79.5%25%2C s_cov:80.3%25%2C Eval:2.9e-15],MGA_730
sequence03	MetaGeneAnnotator	CDS	184406	186103	.	-	0	ID=MGA_731;product=DNA mismatch repair endonuclease MutL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583440.1;translation=MIKILPQNLADKIAAGEVVERPASVLKELLENSIDAHAKNIKVYIDRLNIRVDDDGLGMNKEEILLSVKRFATSKIFSEKDLDNISTFGFRGEALPSIASVSRLSIVSKTEGLDYGYKVDIEGGEIKSIEESASLKGTSINVSDIFFNTPARLKFLKSLDTEYRYIEEIFKSISLSYPSIHFEFYKNSKRIYNYMSTDLYNRFISILPKGDRNFFDVDVTLNDISLKGFLAKPLYTRSSRDLQYIFVNNRAVNSNIISKAINEGYSNFIPQDRFPIYTLFINMPSFKVDVNAHPRKIEVRFKNTNEIFSLIRSSVNKIVTNEKYSQFKPSENNILQINSTLKNYSFSTPNNSYSTQRVSNYENKSIFSLDNIETINENIPVFQIFSKYIITVFENKLQIIDQHAASERVMYEQIMNDIKLNKIESQNFIIPYDIDLNKKDFVLISSFIEILKGYGIEIEIFGDSSIKISSIPLVLINYDIEKLIKDILADLEYADGKSENILLDKISATIACHSSIRFGDYLDNIKMQKIIIDLRKTKNPFFCPHGRPTTFEMEELELLKKFYRK;locus_tag=LOCUS_7260;gene=mutL;note=WP_012583440.1 DNA mismatch repair endonuclease MutL (Dictyoglomus turgidum) [pid:36.2%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:1.4e-90],MGA_731
sequence03	MetaGeneAnnotator	CDS	186096	188594	.	-	0	ID=MGA_732;product=DNA mismatch repair protein MutS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583439.1;translation=MQDTPAMSQYRKLKSENPDVILLYRMGDFYETFDEDAKTISRVLNITLTSRDKTSRKTPMAGFPYHALENYLSKLIENDFKVAICEQLEDPKTVKGVVKRGIIKIVTPGTYISDSSSVSKENNFIVAIKNLPNNQYCLSFIDFSTGDFYITGILSYDSLVSFLYNINPSEIIIPEDFELNFKKDFVLSISTSFNRKYAINYVDEIDENDISLEPAGAIIDYLKKTQLSEINHIKKIKRFDIKEYMVLDENTLRSLEIFGTINNSSYKGSLLSVIDFTKTSMGGRKLRFFISHPLLNESIINKRLDAVSELQKSNIKDISILLESIYDIERICARIGTISINPRDLIALKISLEKVFQLNEYLKIFKSDLLKEIYLNIFNLEKLRELYDIIDINIEDDPPLLLKDGGFIKKGINEELDKLKRISKEGKDWILNFQGKEQKRLGISSLKVHYNKVFGYYIEISNSNKDKVPQDYIRKQTLANAERYISSELKEYEDLIINSQTRSIILENQIFSEIRENIKNYITYIQILSENIAYFDVLLSFAESSINLGLSRPDISENDFDISIKDARHLVIESVIRPQVYIPNDIELTKEKYIMVISGPNMSGKSSILRQTALIIILAQIGSFVPAKEAHISIVDRVFTRVGASDNLSLGESTFMVEMKEVSNILNNATKRSFIILDEVGRGTSTFDGVSIAWAIIEYIHNDIKAKTMIATHYNELIVLEDILSGVFNVSVMVKENNRDIIFLRKLQIGGTDKSYGIHVAKLADLPESTIKRAYEVLEDFELGKNKTVVIQQDLFEKEENTLAEDLKNIDIDNITAIEAFKILMDLKEKYD;locus_tag=LOCUS_7270;gene=mutS;note=WP_012583439.1 DNA mismatch repair protein MutS (Dictyoglomus turgidum) [pid:42.5%25%2C q_cov:99.3%25%2C s_cov:99.2%25%2C Eval:1.8e-193],MGA_732
sequence03	MetaGeneAnnotator	CDS	188699	190132	.	+	0	ID=MGA_733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPGLLLWGGIILLFILSFTQPIIVVYLVIFYILYFVYEAINIIFSVFRANNKITVVKKTNWENKLEEEFKGIWKDYYQILLIPVANESIDILTPTIEAALKIKYPKERKIILFATEKKFPEGAKIGQLFKEKYKDSFGKFIITEHKLVKGEIPGKASNENYAARYIYKLLKEEKIDTRKVILTSSDADYRHDYNYFAYLTYRYLTEDEKDKAIYQPIPIFYNNIWKVSIVSRIIATFSAQWQMALTFKTERLMNFSCYAINLKSLKQAGFWDPDIIPEDERLFWKANLEFGDETKVVPLFIPVYGDAVLADTYWKSLKEQYKQLRRWAWGASEMSFSIPNVLVNKKLSKFKKFNLLFQQIRNSFERAIAPIIITFGDLIPELNSHYQKTTLSYTIPTIISRILTVTTVLIIIILFFESKLAPERSHKSPLKQAFSYLSWITYPVVSILFAAIPAIDAQTRLLFGKNLQYIPTTKKS;locus_tag=LOCUS_7280;note=MGA_733
sequence03	MetaGeneAnnotator	CDS	190129	191202	.	-	0	ID=MGA_734;product=mannose-1-phosphate guanylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003426511.1;translation=MKFLIFAGGNGTRLWPLSRKSYPKQFQDFFSNKSLFQMTIDRLLKKFDIDDLFIVTPKEYIKIIKRQCPQIKDENILIETETRDTLACVGFASFILNDKFKDEEIAILWSDHIIKYEKTFLEAFLLASEYSRENNKIVQIDVNPTEANVNLGYVKIGNLILNTKGFNIYEFQKHIEKPDYKNAKMFIESFEYLWHTGYSVFPPGKLVELYKKYSPNTSKILEKIVLLYKEGKDFSDLYRKINKTSIDYEILEKLNPSEIVVIPADLGWSDVGNWSSLKEVLENEYKENISNTDSIFMDTSNSLIFSQNKKKIICTLGLSDIVIIDTEDALLVCSLSESHKVKNIIEEIKKEKRDDLL;locus_tag=LOCUS_7290;note=WP_003426511.1 mannose-1-phosphate guanylyltransferase (Clostridioides difficile) [pid:36.1%25%2C q_cov:95.0%25%2C s_cov:94.4%25%2C Eval:5.5e-57],MGA_734
sequence03	MetaGeneAnnotator	CDS	191347	191541	.	+	0	ID=MGA_735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKIIIDLLILIAIIFLIVSTIMILQIMFAIRNTSRIIKSIRSLTDSVDSTYLKVLKKLVQFFK;locus_tag=LOCUS_7300;note=MGA_735
sequence03	MetaGeneAnnotator	CDS	191541	191921	.	+	0	ID=MGA_736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSKNKSRHIILTFLAGATVGLVSSYLSKKENRDNLVEKYEEGKNTVLDTTYNAIDDVSFLIENFDKDKLIRETKNNLNKINSEVEKKTDEIKKDALKKTRNVVRDTNRKIDNIQKRIQKKVNSIK;locus_tag=LOCUS_7310;note=MGA_736
sequence03	MetaGeneAnnotator	CDS	191963	194845	.	+	0	ID=MGA_737;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583781.1;translation=MNFPNLEQKPDFPKIEESILEFWDKDNTFEKSLDKNKNKKEFIFYDGPPFATGLPHYGHLVQSAIKDVFPRYYTMKGFYVERRFGWDCHGLPVEYELEKMKGIKNRKDIETLGIDKFNEDCRIIVLKYIKEWNVFIKRLGRWVDMENDYKTMDLDYMESIWYIFKYIHDKGLIYEGYRSTKICPRCATPLSNMEVQLGYKDLEDQSVIVKFKLKDSNVYMLSWTTTPWTLPANVLLAINKNIEYVKVLSNKEYFILAKNRVEYVFENKEYEIIEKINLKDLINKEYEPFFDSKNILNTDKKGWYITEAEFVTEDEGTGIVHIAPGFGEEDMLLGKKVDAPHINHVNIEGQFGEYPLMEWAGEEARSLGEKIIEYLKEKNILFREIKIVHSYPHCWRCDTPLLNYSMNSWFLDVEKIRKNTLLNNEKINWKPEHIKEGRFKHGLEHAPDWSISRNRYWGTPLPVWKCDNCSNETVIGSIKELEDKTNKKITDIHRHFIDNLTFNCDKCHKGEMKRISEVLDCWFESGSMPYAQKHYPFENKDNFENNFPANFIAEAIDQTRGWFYSLHTIATALMNKPAFMNVITTGLIQDSSGKKLSKSKKNFTDPIDLVNLYGADALKFYLISSPVVKGEDIMFNDSSVLDVIKNNFLVIYNTLKYFTIYANTYNFKPSFTNESTNIVDLWIKSRTNKFIKDMSENMDKYNLMEATLLIQPYIDDLSNWYIRSSRQRFTEGNQDALNTLFQTLNLFAKTSAPIIPFISEHIYLNITDNKKSVHLEDFPEYEKIDEELLEEMKYAREAISELQNIRIENSIKLKQPVLEIFVNYKNIKNKEILNLIKEELNSKKITTIKNGAFVNKKTKSGEVGINIEMTQEILQEGEIREISRNIQNIRKNSNLNLNDLISIDVYTENDDLKDLLEKMNENIMKSVKANKINIKKEKVGDKFIVNDKELYIKINVIKNT;locus_tag=LOCUS_7320;gene=ileS;EC_number=6.1.1.5;note=WP_012583781.1 isoleucine--tRNA ligase (Dictyoglomus turgidum) [pid:43.3%25%2C q_cov:98.9%25%2C s_cov:98.8%25%2C Eval:2.2e-235],MGA_737
sequence04	MetaGeneAnnotator	misc_feature	1	3366	.	+	.	ID=MGA_739;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010978932.1:fibronectin type III domain-containing protein,WP_010978932.1 fibronectin type III domain-containing protein (Sulfurisphaera tokodaii) [pid:21.8%25%2C q_cov:55.7%25%2C s_cov:86.7%25%2C Eval:8.0e-11%2C partial hit],MGA_739;locus_tag=LOCUS_7330
sequence04	MetaGeneAnnotator	CDS	3406	4701	.	+	0	ID=MGA_740;product=UDP-N-acetylglucosamine 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002669886.1;translation=MYEFLIEGENPLGGDMTLSGGKNAALPSLCASLLTDKPVILRNIPKISDVRVILKIIKILGGEIEYLNSNDIKICNKNLSIDLKKQKLIFENMKKLRGSILLLAPLLYRFKDITLVSPGGDKIGQRELSAHFEGLKTLGYNIDFNINEFRVYGKPFLSTNIFLYEPSVTATENLLMICSTIEGETVIENAACEPHVKDLEMMLISMGAKIEGVGSNILKIKGKNNLLGVDHTIISDSIEATSYMIFALLSKGFINVHNINSEEMKSILYVFDIFNVKYTTTQNSISILEKQDLYYKKELGFSNLGIYSHPYPGFPTDIMSLFIVLASQVRGEIIFFEKMYENRLDFAIDLKSMGADYTLLDTHRLMSRGIESLHSGKLFAKDIRSGVAYLAAMLGAKGTSHLRGVDHIDRAYPNIDRNLAVLGAKIQRKRI;locus_tag=LOCUS_7340;gene=murA;EC_number=2.5.1.7;note=WP_002669886.1 UDP-N-acetylglucosamine 1-carboxyvinyltransferase (Treponema denticola) [pid:38.8%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:5.6e-78],MGA_740
sequence04	MetaGeneAnnotator	CDS	4698	5471	.	+	0	ID=MGA_741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFFRKYIKIFLAKLASYFIYKNKIKIISVFGNHQADMAVDAIYTVIKEKGNVSRNYVDFEKDLDVPFFILTGRENFTLFSFFILLFKYLFLLYNTKNKNKIIILNITTYSASVIKYYSLFMHSDLFLILDITNKSLIYEEEIMKNSKKDASIIIDGDSNLRKLITLDFSKKLYSFGTKPNNDLIYISNPDKIDITYNENHMELHNNFKDIDVKVIAASILVCIIEGISFHNAISSIQEFRLPNKKFQKVFEKFIK;locus_tag=LOCUS_7350;note=MGA_741
sequence04	MetaGeneAnnotator	CDS	5471	6709	.	+	0	ID=MGA_742;product=UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000768129.1;translation=MMIRILRRLRSYILILPFLLIRNKAKFIAITGTDGKTTSSTLLYNMFLKEGFKVACFTTIGIFYNDGFIQSGLHTTTPSAYDLRKKLFLFRNYDYIIIETTSIGIDQGRIAGLRFDAILYTNITLDHLDYHKTWERYAYVKSSLQKYLKRTGFAIINKDDKKSFEFLSKQFKTIKYYTYSIYDSASDIHAFNVTKDSFDVKFIKSTYSFKTKLLGEYNIQNSILCIATALKFNISENSISEVLKNPPVISGRFEIVSQEPFIVVDFAHTPNAILNVLETLDKMRKKDTSRIITLFGAPGERDKFKRPKMGENAALFSDIIIITADDPRFDDQKEIYKDIIKNIDTTIFRENVNIFRIDDRGSAIDFAMDLSNKDDIIALLGKGHERSLAIKGKEIPWSDKEYILKKVKHGKK;locus_tag=LOCUS_7360;EC_number=6.3.2.13;note=WP_000768129.1 UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase (Bacillus cereus group) [pid:34.9%25%2C q_cov:92.0%25%2C s_cov:77.5%25%2C Eval:4.3e-56],MGA_742
sequence04	MetaGeneAnnotator	CDS	6696	8075	.	+	0	ID=MGA_743;product=Mur ligase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403684.1;translation=MEKNKKVHFIGICGTAMAACAVELKNMNFDICGSDKGFYPPVSVYLESNNIKIEIGYKKNHITDDIDFVVLGNAVSISNIELKEAQRKNIKIYSYPEILEKFLVKKESIVVAGEYGKTTITSLLSYIFTKAGKKPSYMFGGISLDLKESMKIEDSDISIIEGDEYNASSLDKSSKFLYYKPKYLILTSLLWDHIDLFPKEEDYINTFKKLVSLVPKDGMIILNIDDKSIEKILPLDKNIKTYSLKDQNADFAVSSIDILGGVTQFEINNKYIFKTTLIGRHNIQNLTAGIALSLSLGLDYEDIKKAVLDYKGPKRRLEVRYKGEKGIVIDDFAHSPYKVKASVEAVREYFSSKKIISIYEPHSMSARDKKTLMWYKDIFIGSDKVIIVDIYKKNALDEEKRLESNDIVDIVKLDVKDSVYVKNSDLVEYLKKEFSKDTVFLFMSTGSFQGMLSKFVENL;locus_tag=LOCUS_7370;note=WP_011403684.1 Mur ligase family protein (Salinibacter ruber) [pid:31.0%25%2C q_cov:99.1%25%2C s_cov:93.7%25%2C Eval:1.3e-61],MGA_743
sequence04	MetaGeneAnnotator	CDS	8072	8956	.	-	0	ID=MGA_744;product=ADP-glyceromanno-heptose 6-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880173.1;translation=MKSKDQKRILIIGGSGFIGKNSIIKFTEFNIGNMLNLDKDFSLLGVKTIYMDLRSPIFTEIRRFMPEYIIYLASLNDYECDDLNIATRINVDALERIYQELIGYETLKKFIYISDYKLYSSTPPFKENDSIKKNNNYLITKSLAEEICLKYIKEYSIPSIIFRASNIYGPLDQKKNDIISNMIKQALRTDNIIIENNNIYDYLYISDFIKALIKSLDCEFCGIINIGSGKATETINIAKYISSALNTKIEIKNNTIYEFYLNDITKVQNILNWNPRIELSVGIDNTIKYLKKTN;locus_tag=LOCUS_7380;gene=rfaD;EC_number=5.1.3.20;note=WP_010880173.1 ADP-glyceromanno-heptose 6-epimerase (Aquifex aeolicus) [pid:27.2%25%2C q_cov:96.9%25%2C s_cov:98.4%25%2C Eval:2.1e-21],MGA_744
sequence04	MetaGeneAnnotator	CDS	9005	9838	.	+	0	ID=MGA_745;product=DUF929 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979644.1;translation=MAKRQQDNSNLIFIIIVVIVIIAMGIVIYIANNNANTSTQSVNSLVNKDNKLANKNVLSSLFSISLPNLKNALNSNVKATTTTPITGEPLLVKNNLPRVVYVGADYCPYCAAERWALIIALSKFGKFSNLRYMTSSSSDVYPSTATFTFYKSSYTSKYIDFTPKETNTNISSQGGYTSLETLTQIENNLINKFDAYPYVTKSSAGSIPFIDIGNKGLIVGAQYSPQLLQSMNWSQIASSIANTKSVISQNVLKSSASIIKNICKITNEKPQKVCSNI;locus_tag=LOCUS_7390;note=WP_010979644.1 DUF929 domain-containing protein (Sulfurisphaera tokodaii) [pid:34.7%25%2C q_cov:92.1%25%2C s_cov:85.9%25%2C Eval:6.0e-31],MGA_745
sequence04	MetaGeneAnnotator	CDS	9804	10226	.	+	0	ID=MGA_746;product=vitamin K epoxide reductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240503.1;translation=MKNLKKSVLIYSIYILSFVGILICIYLLYAHFADVSVACPRVGIIDCANVLTSQYSSILGIPVPFFGMAFFILMSVFTFLKKELYLLVLSILGVLSVMYLVYVEFALIHSVCLWCSSIHVITLLLFFISVYLFLNKILTS;locus_tag=LOCUS_7400;note=WP_053240503.1 vitamin K epoxide reductase family protein (Pyrobaculum islandicum) [pid:28.5%25%2C q_cov:92.9%25%2C s_cov:93.4%25%2C Eval:1.3e-08],MGA_746
sequence04	MetaGeneAnnotator	CDS	10197	11522	.	-	0	ID=MGA_747;product=excinuclease ABC subunit UvrC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011121201.1;translation=MKNDLDINSADFSKNIPFLPGCYMFKDEKHNIIYIGKAKILRKRVLQYFLNSKDLRVKTKKMIQAAKFLSFIITDNEVEALILESNLIKKYQPKYNFMLKDDKKYAWVKITNEDFPKIIRVRERIEDGSLYYGPYPSGRTIIELLSNLRKLFPYRTCNLKIFEGQTVLKSRLCIYYHINLCNGPCDSLISKKEYMKNINIIKKYLSGEKLKVIKNLKTQMIKESNKQNFEKAQIIKTQIDQIEYISQNIKVDFGDDEEIFKKNKKIENIQAIKELFSIIGIEYKNGRIECFDISNIQGKFPVSSMVVLREGDMDNSHYRKFKIRSEDTPNDPLMMYETIKRRFSHTKTDKSFGEIPNLVIVDGGRTQLNSAIKALNELQLNIPIIGLAKKKEAIFTPSKSEPILINYREKSHLLIRRIRDEAHRFAITFHKQLRSKNFIQK;locus_tag=LOCUS_7410;note=WP_011121201.1 excinuclease ABC subunit UvrC (Rhodopirellula baltica) [pid:32.7%25%2C q_cov:97.1%25%2C s_cov:89.7%25%2C Eval:3.1e-63],MGA_747
sequence04	MetaGeneAnnotator	CDS	11512	12996	.	-	0	ID=MGA_748;product=NADP-dependent glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966919.1;translation=MIKDFILQKEFGYLLDNKWVEPQSDKYIDILSPQDNSLVGAIPSLNEDEIDKCILSSNKAFLLWKDKSINQRTEILKRVSQIIRDERYELTNLIINEVGKPYKDSYDEVMRTSDIIDFYAEEGRRIFGDVLLSESFPGFGKEKIAITKRVPLGVTLAIPPFNYPLNETIPKIIGAIIPGNTVILKAPQQGGITCMVIGEIFRLAGLDDGVLNIVSGENNVVGDYLVRSEYIKAINFTGGTKTAIHIQREVTKREDVIPVMLLGLSGKDASIVLKDADIKKSVTNIAQGAFSYSGQRCTAIKRVLIDQSIEDEFIKELVKEVKENFILGDPKDKNTTIGPVINDKAAMYLNELKKDAIDKGAKIVLEGENKGRFIYPIILSNVSLDMRIAWEEPFSPILPIIKIKDKNEAIDIANQSEYGLQSSVFTENISDAFYIAERLDVGNVQINGKDSRGPDNFPFNGVKKSGIGNIQGAKYLIESLSRIKTFVINLEDEK;locus_tag=LOCUS_7420;note=WP_010966919.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Clostridium) [pid:47.2%25%2C q_cov:96.6%25%2C s_cov:97.3%25%2C Eval:8.0e-124],MGA_748
sequence04	MetaGeneAnnotator	CDS	12989	13534	.	-	0	ID=MGA_749;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILINFNNIKVLSSAESFLYKIKEKMDDDVIIFPHILDTKDFKNKFNYKTGVTITNGLDISTIKNLEIRFALINTELSRCGFNQTFEIIKQCLDYNIRSFIYSYSPEEFLKLKSLDGEYSIIKLNELKDILKYSIGINDKVVVDYNIRSYKDIDYLTKIGINNFIIKPYIKDFNLLKNYYD;locus_tag=LOCUS_7430;note=MGA_749
sequence04	MetaGeneAnnotator	CDS	13658	15955	.	+	0	ID=MGA_750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKFKIKYSHLIITIFITLNIIFLAVIASFPFFNGNSSGLHAAPVCNFNGSTSYFASVAIIVKSSSASVPLPSNLGLSLQTSPCSNGWDNGIPWNSGYNNNLQDVFEQSSSFSQGQYISPQQIDAYHSQTGQAPTTFQTFGSINVGGGSAGSTGRIFTCPSGTSCSSLAGNITRTQSSSSQVTLEYYQLIDCAFSPITYTLGGLPQGWTASPSTNTINVLNGTSVPTYTIVVTPAAPTISVTLNCQGASWSTANTDSNAVVTGTIVNTQTNQAVLNIDTQTNPDSSFVSSLLNNNINYEAYMEVSDNGSSSTVQSSPFNFYSCSNHTPTLSVNLSCTGVSWTSTNATSPTVSGNIINAQNQVVASINTQNQAQGSDSSFVKTLEYGQSGLSYTANMSLSSNGQVVSANSGSVIYSNCLNFTPTLSVSLGCTGVSWTGTNLNGGSTITGNVTDTTSNQSVYTIPQQSVSSYQSTFNGSENSFVTSLENNQDNYIATVILTNSGSVISEKSSSVSFYNCTTHMKVPVLQTVTLSCVTGSNNLNVNWTYNNTTTDSTDLFYGTVNDVTTNTNNIATFSSPIANNSYNWNAVNSTDAYTVSGYIKGDNGTSNVMTTSSASISNCLTPKVPLMSSISLACENNTTNNLSITWQAQNVTSTDNFYGYINDVTTGTQVYLIPQTPSVLGQYIWQGANGQDSYTVVGWIENSSGQKFNVTTSSQVSSNCIPKVPVTPVVQQSLPQTSGNAPINILIIAGIVIMTLGVSMLVF;locus_tag=LOCUS_7440;note=MGA_750
sequence04	MetaGeneAnnotator	CDS	16046	16567	.	+	0	ID=MGA_751;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKVLFIILFSLILIGFLYITTIYAEELQSLNSQNTPAYTGNVVSTSTAVNIKYSTFNGTYSNSKSFSFSYPQGWKAINVAQLTNSEIAEFGLQKYNVTINTYLSCQNISKDKGANTVIAGYTGVENVNSKGVSFYASNFNIILNYESIYKIAVFDHIINSLKLYNQFVKCK;locus_tag=LOCUS_7450;note=MGA_751
sequence04	Aragorn:1.2.38	tRNA	16611	16683	.	+	.	ID=Aragorn_27;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0260;note=Aragorn_27
sequence04	MetaGeneAnnotator	CDS	16695	18155	.	+	0	ID=MGA_752;product=TldD/PmbA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003411929.1;translation=MFFDKDKYIQYANKLLNSNLISRVDFLEIRFQEDQSEYIIFKNLNPEYIDNSIEKGFSIRVLYRGNWGFASSSVISENEVQKVFLKAMSIVENLEEGKVSLTEEEVYTDEYIQDVAINPFDVPLNEKINFIKDIQNEILKSKNIDFSDFMFLAHREKKLYMNSSGSRIYQERTRIDPSFSMYKLKPELTVLKSNTHPTAKGFEYIKNMNFRNEILKYNEQINEKSKAKSVIPQKYNLLIDPSNLWLTIHETIGHSTEMDRVLLYEANYAGSSFASIDQIGDLIYGSEKVNIVADRSQKDGLSTVMYDDEGVKTYEFDIIKNGVLTGLQSNREIAILAGEKKSKACSYADSYSSFPLQRMPNISLLPNKDKDLKLKDMLSLCEDGIYIVGDSSWSIDMQRYNFQFTGNLFYEVSGGEIKGMLKDVIYQSNTQDFWKNCIEVGGESTYSLEGAFNCGKGQPSQVAAVSHGAPLALFKDINIKNTQNEN;locus_tag=LOCUS_7460;note=WP_003411929.1 TldD/PmbA family protein (Mycobacterium tuberculosis complex) [pid:42.0%25%2C q_cov:97.9%25%2C s_cov:96.0%25%2C Eval:4.5e-103],MGA_752
sequence04	MetaGeneAnnotator	CDS	18145	19485	.	+	0	ID=MGA_753;product=metallopeptidase TldD-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005110224.1;translation=MKIKEIEQFIKDNIKSSEYYVIVSRSQGFNVRFSDNKIISNGVGDSYDLSITTIIDKKVGSSSTSDISKEGILECIKNSYNQASFSLVSEDYYPLVSDEYLDEKEIESPNFEFILSDIEKKLFNIFSKDPSLRVFGYITGSFLDITLFNSEKLYKRSFLQEFNYSMNIKDMDIKRSVWQGSVSSFYKKDELERLYNILLNDFKNTKIIKSQKEGRYNVILSPSALSDMLLYLLYFMSFQDACEGKSPFSSLKREKIFPDYITLYTDPNLKEMKSIPFLLFNQSSVNHKFDLGLSLKKEYLIKDGVLKSLISNRFFDDKMKNTENIYPPSNLILKGSSLTFEEFIKDIDDALYINNLWYIREVDPITGLLTGLTRDGVYTVKNGKIINSINNFRFNQSPIKVLENILKLSASYLTLPREFGGESALNVVAPYVYVKDFNLSSVSKAI;locus_tag=LOCUS_7470;note=WP_005110224.1 metallopeptidase TldD-related protein (Mycobacteroides abscessus) [pid:28.0%25%2C q_cov:95.3%25%2C s_cov:94.3%25%2C Eval:2.4e-39],MGA_753
sequence04	MetaGeneAnnotator	CDS	19521	20276	.	+	0	ID=MGA_754;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLDDSGKLSSYINNIKNDKKESKFVNKKNLIIFISIFTFVIVLSFFIFKKPLNAIIESNTFSKGVVMAENVRIIKNNNIDNLNKIAGVKLINPNIYKARVLAEVAPSRDNLVSGQITSTQDASVTILYNFLVAHNSPMAPYASDFVKYAKMYNIDWKVLVAISGVESGFGRVIPQSTSGVLSYNAWGWTGGSYNFGGFASFGSWPVAIQSIAQGISSSYGNESPYVMQPIYCPPNPGWASEVQSYINQL;locus_tag=LOCUS_7480;note=MGA_754
sequence04	Aragorn:1.2.38	tRNA	20277	20359	.	+	.	ID=Aragorn_28;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0270;note=Aragorn_28
sequence04	MetaGeneAnnotator	CDS	20363	21184	.	-	0	ID=MGA_755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIHLKTINGIKVQCTENENKLLSNGDDIRIFKILNRELDQMRKVILNDKLVYPKLFYTEYFHIYKDEHAKVFKDNNIRHDITIMSGNLAGIEFMKTYGYYHEILEGNYSAPEIIEILHGSGIILLQKPKIISQDAKNIEDMYDFGHITDFSIFKVKTGDVFVIPPHYGHIIINQRPTAMVFSSLISSRAKSIYKGIHDYKGGAYYIIKKNAKQVFVQNPNYKYVPKIKKQKKWSYNNLIDGKKISTYSHFINNPKEYSWINHPDSVKWENFA;locus_tag=LOCUS_7490;note=MGA_755
sequence04	MetaGeneAnnotator	CDS	21159	22100	.	-	0	ID=MGA_756;product=AI-2E family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003243652.1;translation=MSAINPVVVWFENKKISRGLSVFITMAIIIFVIVLFFLITITPFTNQINNIIHSFSNIPTRIINYFPFLKNQFHVNANSLKFNISKYVSQNVYNIFISSFNNLSNTTISVFTTIGYTILIFVMSAYMLLYKEHFYKTTLQIIPKGTREQIEKIIYEVESQLGAWLRGQLIVSLAIGLLFFIYLFILGNPYALPLAIFAAFAEVIPFVGPIISGIVACIVVFLVTPGLLIFSIIFVIVIQQLEANIIGPQVMKRIIGINPLIVIIAIFIGSSLDGLLGALIAIPIITVLQLVIYDILEYNLLDNNKNDHTLKNN;locus_tag=LOCUS_7500;note=WP_003243652.1 AI-2E family transporter (Bacillus) [pid:27.5%25%2C q_cov:93.3%25%2C s_cov:80.2%25%2C Eval:1.1e-26],MGA_756
sequence04	Aragorn:1.2.38	tRNA	22412	22485	.	+	.	ID=Aragorn_29;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0280;note=Aragorn_29
sequence04	MetaGeneAnnotator	CDS	22614	23867	.	+	0	ID=MGA_757;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023091.1;translation=MEETLYMQNPWWMNREFNIGIIRKQSLDKLKSMALNNKVTMLLGGRRVGKTFLIYQYIDYLLKSRIKEKNILYLLLDTRAFEDITIVNLLREYRKIHNLSIDEKIYIFLDEIQYKDSWEQEVKNLYDTEPNIQIVLSGSASFKIHTKTSFLTGRYEIMNLYPLNFLEWIGIRGIKILPSESYKYQNELNEYLFKGGYPEYVIKEDPQYFPNLVDSIVYKDFVEYFNIKNLDIVKDLFKLLSDRTGSHSSLSKIGNILSISKETVREYIYALKGSFSVYELQRYSSSRNERIYFAKKYYLNDNGLQFNQSGKFNKGQSAERTLFDYLYKKYSDSIYFYYDNKVEVDFILKYQDRLELIESKYINDISEFNPKSLLKAMKSLDVTNATVITESVEEELVFDEKKIIFIPLWKVLVKQII;locus_tag=LOCUS_7510;note=WP_011023091.1 ATP-binding protein (Methanosarcina acetivorans) [pid:31.9%25%2C q_cov:89.4%25%2C s_cov:89.0%25%2C Eval:8.6e-44],MGA_757
sequence04	MetaGeneAnnotator	CDS	24113	25180	.	+	0	ID=MGA_758;product=Fic family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002673299.1;translation=MDDHKRFDKRLESITSDIYLKISKTDELKGMWIGGMKLSPQTLGRLKQSALITSTGASTRIEGSGLSDEEIEKVIKGIKIQNFRNRDEQEVKGYFELLENVFNNFNTLTFNENCIKSFHNELLKYVEKDQSHKGEYKNLPNHVELIDEPNNIVEVIFETTPPYLVSHQMHSLVEWTQNALLAKKYHPLLVIGNFIVEFLKIHPFQDGNGRLSRILTSFLLLKGGYKYAEYSSHEKLIEENKQEYYLSLMKSQKTFNKKMENILPWMNFFIDIMIMQAQYAVDFRSNDNIESLLTKIQLKVWEYISKVGEARPKDISQNTDIGRDTLRQVLNKLIKLKKVEKLGQGVGTYYRIIKD;locus_tag=LOCUS_7520;note=WP_002673299.1 Fic family protein (Treponema denticola) [pid:28.1%25%2C q_cov:89.3%25%2C s_cov:89.7%25%2C Eval:3.7e-29],MGA_758
sequence04	MetaGeneAnnotator	CDS	25363	25668	.	+	0	ID=MGA_759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTRLIKKQLDNYIKSDDFKIFFIWGPRRSGKTTILEEISKEFSIPIFNFDLLSDKERFINTEDALSSIVAETKIILIDEVQNYPEGTVSPKYFMISTKLK;locus_tag=LOCUS_7530;note=MGA_759
sequence04	MetaGeneAnnotator	CDS	25758	26510	.	+	0	ID=MGA_760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIGECVQNSSVPAYEMSNFKYNLQSKLQIYGAYPEIYANTELSEVEIINLLQSILDTYVLKDVVNIYNLKDEKLAKDILTKIALQIGSEVSVREIAKSLNANETTVSNYIEIFIKNYILIPLPSFKTNMRRAVSENRKLFFYDLGIRNILVKDFRDLNIRPDKRGVFENFIVSEIEKRRKNLDIKETIYFYREYSGAEVDIVLEDYKKNYISIEIKVSEDKKSKDIFPIEHKFIVLNSKNYFQKIEELF;locus_tag=LOCUS_7540;note=WP_011068541.1 DUF4143 domain-containing protein (Bifidobacterium longum) [pid:30.0%25%2C q_cov:75.2%25%2C s_cov:66.4%25%2C Eval:3.2e-17%2C partial hit],MGA_760
sequence04	MetaGeneAnnotator	CDS	26643	27413	.	-	0	ID=MGA_761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRPELDRQFENELEKLSMLAMLYGEKVDENGTPVNESDIELFERISKLHSYFPDNNRAINDAIEEDKEYPSEKKVFSFYNGIVELYKDLYQLEPTMKTTQVYHYISDGQVLQHEIIRSKISKSGSKASLTYYVIEGEDMAKEKIDDPNKVNDLVYIHIDIPIGDFVYDISFSIDNPNGKLGNPDYVIQKDSAGNPVKILWEIDGPHIRRQLRGFTEKIIEHGFLGTDYNEIGFDLNLKNTEIDAMKIVFEDFGIHI;locus_tag=LOCUS_7550;note=MGA_761
sequence04	MetaGeneAnnotator	CDS	27621	28283	.	+	0	ID=MGA_762;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002357457.1;translation=MIKVSNVTKTYGKKENKFTALNDISLEIETASIVGIVGKSGSGKSTLMHVMSGLDSVDKGKIEIDNVNISVIKNKELNKFRNEKIGFVFQFFYLQEKETSLSNIMLPLEISGISFAKRRKMALDALESVDMMDKVNEKVINLSGGQKQRICVARAIVNNPDIIFADEPTGNLDTENSQNIIDLLINLNKKSSKTVVIVTHDKDVSGICSQLIHIQDGKVI;locus_tag=LOCUS_7560;note=WP_002357457.1 ABC transporter ATP-binding protein (Enterococcus) [pid:52.3%25%2C q_cov:100.0%25%2C s_cov:97.3%25%2C Eval:1.3e-64],MGA_762
sequence04	MetaGeneAnnotator	CDS	28288	29562	.	+	0	ID=MGA_763;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002357458.1;translation=MKTLDLIKKANKNLMLSKTRTVLTIFSIIIGAFVITLTMSLGNGATNFLQNQFSSIKMNHTLIIRSNGGNSTGVGINLKPIKYSSKQNNGTLGISFIDQRQVNIVKNIVGIEKVVPLYVPEVKYIESKNNEKYKFSVANYPGSFFSPSLEAGSLPSLGENNYIIIPSMYVKSLGFSSAKDAIGKKVYIVYKNLSNISLKKSYTIKGVLVNSIITGSGYISTKNAKNITLFEDKGTNLANSYIEIAGVYKKTLTTTQINKIKSLLSKNSMNGLTYKDEIQQVSYIILSIETILTLFALIALFVASFGIINTLFMSVIQRTREIGLMKAIGMSSFDIFKMFSIEAISIGFWGGVIGSVLAIIVGNIIDQYISNSILKSFPGYKLLIFNPEQIIWIIIFLMFVGFVAGTIPSIKASKLKPIDALRYE;locus_tag=LOCUS_7570;note=WP_002357458.1 ABC transporter permease (Enterococcus) [pid:35.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-64],MGA_763
sequence04	MetaGeneAnnotator	CDS	29571	30197	.	-	0	ID=MGA_764;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880277.1;translation=MFYNEYMDTEKIEQISIGKVIPEINIKTYNPKINAFSEFSLKKSKDNGRWTVFVFYPADYTFVCPTELADYATKQEELEKIGVDIVSISTDTEFVHMAWKREEKLLKDVNFQMGADHNGSVSKMFGVYDYNTGEAYRGTFIIDPNLVLVSSEINLNNVGRDADELTRKVKAFIYVSLHPHEVCPAKWSKGHKTLKPEETTIGNVSEFL;locus_tag=LOCUS_7580;note=WP_010880277.1 peroxiredoxin (Aquifex aeolicus) [pid:54.6%25%2C q_cov:93.3%25%2C s_cov:91.9%25%2C Eval:5.9e-61],MGA_764
sequence04	MetaGeneAnnotator	CDS	30259	30750	.	-	0	ID=MGA_765;product=DoxX family membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_173668689.1;translation=MKIKKEDLIWGLLRLSLGWIFFWAFLDKLFGLGFSTKLGKGWLEGVSPTYGFLKFGAKGIFSAPIQSLAGNPLVDWLFMLGLFFIGISLILGIFVKLSSYAGIIILFLMWLSLFPSTNNPFLDKHLVYLILMCGFIVFNAGNYIGLGKWWSRNSLVSKYPILK;locus_tag=LOCUS_7590;note=WP_173668689.1 DoxX family membrane protein (Streptomyces) [pid:33.7%25%2C q_cov:95.1%25%2C s_cov:79.4%25%2C Eval:2.1e-26],MGA_765
sequence04	MetaGeneAnnotator	CDS	30848	32863	.	+	0	ID=MGA_766;product=acetate--CoA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545569.1;translation=MDKIFNPSSVVVIGASTNTAKAGYRILKNIKNSSFKGKLYGVNKNDSSFYSSILDVKDEIDLVVIVIPKKDVVNVVTECVEKKVKSIVIIAGGFKESGDIDSENKIKDLIKDTDIKVVGPNSCGVLSSSINASFSKNENIKEGNLFLVTQSGAILTSLIDFSAENNLGIRKAISLGNKMDISEIDILDHIEEDDCLCFYLESIDNFKEFMDNFGKIKNPKFILSPGKSNKSQVEIQSHTGAIVSDRDILSLALRKNNILELTSLEDLFDVSKIFANLKYNNIKGTRLAIVTNAGGMAILATDCMEGSQISFAELSQETKDKLEKYFSGRKVSNPIDILGDAQSQRYRDVLDILKDDENIDIVMVIITPQASTDIDEIANVINDFSLTCSEKFVISVFTGGFYAQKAINFLTNLQIPSYSFPERAINALNYLDKFIHGKSIKYENNLKIDKKEIISIIDSNNKGKILGFEDSVNILEKFNIKFPKFRVIENIEDLEKSVLNIGYPLTLKVEDKDIPHKSDKKGVINNIQNYEDLLSSYRRLQSLSSRVLMQEYIDSTFEIMTGVIRYEGIGSVIVLGTGGILTEILDDHIKEYLPINEEEALNLLRKTKFYPLLHGFRGLEKYKESDIINVLMGLSYLIENIPQISQIDINPIILTKKGDILTVDPKIYLCV;locus_tag=LOCUS_7600;note=WP_012545569.1 acetate--CoA ligase (Thermodesulfovibrio) [pid:33.3%25%2C q_cov:98.4%25%2C s_cov:98.7%25%2C Eval:2.7e-96],MGA_766
sequence04	MetaGeneAnnotator	CDS	32854	33198	.	+	0	ID=MGA_767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCIIIRKIKDIEFSPAHGGEGRKREIITNKDIDNPHFDILNKDYLLKGNFFDWHKHESSDEIALVIEGKGYVKYKDEDHVKEYEKNDVILLNAGEMHKIEALENSIFYFIRIKE;locus_tag=LOCUS_7610;note=MGA_767
sequence04	MetaGeneAnnotator	CDS	33195	35588	.	+	0	ID=MGA_768;product=phosphoketolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_038965926.1;translation=MIKEVIIRPESTRDTRSRNSDILDLIEKYLRLTNYLSAAQLYLKDNFFLERELIPSDIKERLLGHWGTDPGINLIYAHLNRLIVEYDLNMMLVTGPGHGSPANRANLYLEGTLSEYFPNLTMDEKGIKYLIKEFSWPGGFPSHLDPSLPGVISEGGELGYSLSIAYGSILDNPNLITACIIGDGEAETGPLSASWQSNKFINPVYDGAVLPILHLNGYKISNPTLFGTMSNSEIISYFEGLGYDVHIAQDTDINADLFSAMEWAYNQIRSIQSSARSTNMYGPFRWPLIVLKTPKGMGGIKEMDGKKIEGSFRAHQVPAVDVKTNKNHLRLVQDWLSSYNIGELLNEDKTMINELFSIIPKGDRRMGTNIHSLGGEVRISLSLPSIDGYSFDLESRCSVRSSGMERVGQYLRDVISKNEEKRNFRIFSPDELISNKLEAVFEVTERQYLWPHSKYDDFIAPEGRVMEILSEHICQGWMEGYVLTGRHALFPSYEAFLPIVDSMMNQYSKFLKVSLEIPWRKPVSSLNYLLTSLSWRQEHNGYSHQSPGFINNMLNKKSDLLNVYLPPDPNSLLYTMKMCLEEKNKINIVVAGKDERPLLLEQQEAKELMSKGIAYWDWASSSGDDCDVVIVGMGDYATEEVLAASSLLKEDFSEIKFRILNVSNLMVLETPEEFSLGLSNKDFISYFTKDKPVIISYIGYPSAIKQLLFDRGDTSRFIINGYIEEGTTTTPFDMYIRNKTSRFHIAMMALDLVRNKYDVSKIDDVKKKYIDIINWHRDYINKYGKDPEEITDWKFVK;locus_tag=LOCUS_7620;note=WP_038965926.1 phosphoketolase family protein (Bradyrhizobium diazoefficiens) [pid:49.2%25%2C q_cov:97.1%25%2C s_cov:97.9%25%2C Eval:8.8e-227],MGA_768
sequence04	MetaGeneAnnotator	CDS	35634	35768	.	+	0	ID=MGA_769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKIFLITGGLDKIEKENYSVVINQQKNVGIYEILVRPYGQSI;locus_tag=LOCUS_7630;note=MGA_769
sequence04	MetaGeneAnnotator	CDS	35771	36451	.	+	0	ID=MGA_770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSQQTYNFLIYLALALVPSFISLILYLSPKKESKLNSEKYRTVLLEHLFYSSLILTIGGWASFFTQDFIYITIAFFIGGLNFLKDLFQYVFKIRGIINKNSRMEEIIIDNYETIINIYQRTSSFEEFQKTIKTRYNLSNEVIFNLYNSFKNFEQDQSNKSKTEDKSDLNYAYKLLGLSKNAKLSDVRKSFKEKARLLHPDFTQNKDDTKFKEVNEAYQLILKNIS;locus_tag=LOCUS_7640;note=MGA_770
sequence04	MetaGeneAnnotator	CDS	36526	38097	.	+	0	ID=MGA_771;product=MDR family MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000437634.1;translation=MMKDHIKPGRLAFLMIAILLSMFMSSLDQTIVATALPTILKDLGGFNLLTWVYASYILTSTISILVVGRLSDLYGRKLFYLIGITIFVVGSALSGLSHNIIQLIIFRAVQGIGGGALTSLAFASVGDLFTPRERGKWQGIISSSFGIAAVVGPLIGGYLTTAISWNWIFYVNVPIGILAFFLIATEYPVIKMDKKEKIDYSGILFFSIFTVALISALIFGGSLFPWNSYQEYSLLVTFIIFLIIFIWRQKSITYPLLPLSLFKNKSFIYINIVAFLTSFSFLGAIVFLPIYFQYVRGISPTVSGLYLVSLVAGLITTSIVGGQLLTKFGKYKLMILLGIIFASFGFFLISTIKYNTNLFDLNVYMFITGAGLGVLLPVLTIVAQNFFNSSEVGVVTGTLQFFRNIAGAIGLAAMGAVLNNTLISRISANKPGNLPLVLSSKYDTIKNSFNSTSSSFSTDISTKNIPSFLIKYVNEITHAIYVSLTESISYIMIFAAAILLVSIIFAFFIKEIPLRTSHKHENE;locus_tag=LOCUS_7650;note=WP_000437634.1 MDR family MFS transporter (Bacillus) [pid:34.6%25%2C q_cov:97.5%25%2C s_cov:95.5%25%2C Eval:1.4e-97],MGA_771
sequence04	MetaGeneAnnotator	CDS	38084	38500	.	+	0	ID=MGA_772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTNNIENKIIDLVMEMKSHFIYGNNFISSAMLLRIIKENKESRVIDIAKKMNISAPSVTEALDKLEAKGFIKRQEGEDKREKIISITDKGDSQFKEIAKLMREEMKDKISSLKDEDKIILEESLASVTNILKKITLK;locus_tag=LOCUS_7660;note=WP_003227771.1 MarR family transcriptional regulator (Bacillus) [pid:34.7%25%2C q_cov:52.2%25%2C s_cov:52.6%25%2C Eval:1.1e-09%2C partial hit],MGA_772
sequence04	MetaGeneAnnotator	CDS	38487	38816	.	-	0	ID=MGA_773;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLERDNSLEENIDILSLIGFKYAQKFEEETHSSLTSLIDKLIELRKIQNKELPPLHLLLPINQERFEDICRVMNSLYLEDEEKEEIDYAINTLSTSYGYDVPIKITSE;locus_tag=LOCUS_7670;note=MGA_773
sequence04	MetaGeneAnnotator	CDS	38933	39388	.	+	0	ID=MGA_774;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFGIFTYIAVTGILAVFLLALLIITAIIIKYNLKIWVRYQVFLNRIHPYLGWSTIIMVIVHVSLALSTFEFYNLDYWAGLIAFIFFLFAFITGIIKYYNIEPFKKYQLPSSKIHYILGFISLLFVFIHMFLGVLIFHYSFFIAVVRILHV;locus_tag=LOCUS_7680;note=MGA_774
sequence04	MetaGeneAnnotator	CDS	39381	40067	.	+	0	ID=MGA_775;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKLFYKKREAKIINVEKISSNLLKIDFKTDFFEYIPGQYIILYIEGVVARNYSIYEVSLNKTVFSIIVNINGDGIGRRSIKEFNINKEIFFAGPMGDFIYNNNEVTHKNWFIATGSGISPFIPMIKNIKDKKDIILFLGARDKNEFPQINIEGINIIYSITNKDTLWNGERGRINRVMIEYLENEKEKEDISFYICGAPHMVMDTKKLLEACNINKDKIYYEKFGF;locus_tag=LOCUS_7690;note=WP_011261037.1 CDP-6-deoxy-delta-3%2C4-glucoseen reductase (Aliivibrio fischeri) [pid:23.3%25%2C q_cov:93.9%25%2C s_cov:68.8%25%2C Eval:3.9e-11%2C partial hit],MGA_775
sequence04	MetaGeneAnnotator	CDS	40106	40726	.	+	0	ID=MGA_776;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNLELLTNREVYKPNKVMAIDLDDTVLDLNGSLIEFHNLKYGTSLKYEDIDSFDLAKIWGCTHEESIRRIEEFLNSNKELKLIEGAFDAIFSLRNKYQLYIVTARPDFIEDSTIGNISSYFSEDTFENIFFTNHFYDKSRKKSEICRNINADIFIDDSVNNVLDVYQNVGIKTFLMDRPWNHSIKNLPNEIERVFSWSDILEKSL;locus_tag=LOCUS_7700;note=MGA_776
sequence04	MetaGeneAnnotator	CDS	40969	42015	.	+	0	ID=MGA_777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMEKILPPEEYRKGVYFESLDKRLIIDDLWLKSEEGLFLFEGSKDNTNLSKREISLLELNKRVKDFKDIQDQTSPKEIIIEAFIIRELLRLTSAHRTLIDDLDTRDLDIISLYLQDNFHLIEDQSIDLKKKIKKNLDLFFKREKISKYKSDTPIRLLSIVSLLGLYNFYHFTKNDDLYNKSSYISNSSSQQIDKIAKPVLYSIAQKKEGEISIPKNTPPITTAPKIETSAVQHMIPSSPSVAPLSPNGIKNMINQEAVSQYGYSPWEIFYLDYIVSIESKFNPNAINPKSGACGLMQQDPCEQQVNVQSQTVYWTLDSQIQSLFEYIKVRYQGDIVSAYNHECQFNWY;locus_tag=LOCUS_7710;note=MGA_777
sequence04	MetaGeneAnnotator	CDS	42082	42246	.	+	0	ID=MGA_778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTTEKDIISVFLDNIRTNQIGGEYDGISAEVAEDIGFQSILDVENLIKENKKK;locus_tag=LOCUS_7720;note=MGA_778
sequence04	MetaGeneAnnotator	CDS	42319	42531	.	+	0	ID=MGA_779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFKWGKKTFVMHTRDKATEFEHIEIIYDAIVLSLHTNTFNKEFSSAINKKNSNEFCYNDGTKYILIRCI;locus_tag=LOCUS_7730;note=MGA_779
sequence04	MetaGeneAnnotator	CDS	42749	44086	.	+	0	ID=MGA_780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVIIIANIAEAFENSINKISSNKKKLLYTQVEHSLCERALLLERDDKVIITPFFINQKLFDHNKNVLGYKNIKNLFPQHIDISLSDAIKQDKKLLNELYIIIKENPQIEISPYAITEKFISLIDLFKSQGLNFIIRERPLNNEDWLVSYLDSKVGSRTEINKIIRADIFTPESIICTDKKHAMNIALWFYKNDKSCVIKSNFGESGWGLIFVYKNQFNNIQECIFYIMKKFGETQIWDKDLILVEEYINSKNNTKIISPSSELFISDKEVLVTYVCNQILSLEGTFQGIAVGRVFSQATLRKIKKISLQIGSKFKKLGYRGIFDIDFVLSNKDDPYVIETNMRKTGGTHVYDVLKFLLGNNWENKIYAFSNDNFKYGNRILNAEEILYKLQNILYPMYGEAQGVIISIINKWEPKLGFIIIGKSKDKAFVIYNKMLDIFNLQNN;locus_tag=LOCUS_7740;note=MGA_780
sequence04	MetaGeneAnnotator	CDS	44091	44594	.	+	0	ID=MGA_781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLNIKSFQETLNSGMCGPASLKIILSYYGIEEDEGKLAKLCFTDKNLGTNDISLKKTAESFGFKVTIKNNSTFKDIEEWLNKGVPVIVNWFTRGRSDYTDEDVPDGHYSVVYGLDNKYIYLQDPEIGKSRRIEKEIFMSVWFDFTGEYITKENLIICQCIAIYK;locus_tag=LOCUS_7750;note=WP_011022181.1 C39 family peptidase (Methanosarcina acetivorans) [pid:32.4%25%2C q_cov:77.8%25%2C s_cov:58.1%25%2C Eval:1.1e-12%2C partial hit],MGA_781
sequence04	MetaGeneAnnotator	CDS	44599	45618	.	+	0	ID=MGA_782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPESILILYNDAERLEKGIPSDLICEQEIKIIVPLMVQLLTSRGYNINTLKADYELWEQLKLRKSTIDIVLNLAEAFGGGNTNETVVPAILEGLNIPFTGASSHNMHFTMDKEKTNLVLNSYGIPVPPHQLFRSGSEVLQEGLRFPLIVKPVREEASIGIYQDSVIIDEASLMVKIQESLDRYNQPVLVEQFISGREISVGMIGNPPDLHIFPPLEFLFEGTNSELQQIRSYEYKWGGKKEKMVRANLSPAIIEKLEIYSRKAFIVSECRDYARIDFRIDAQNNIYLLEVNYNPGIGPNTHGLNNTLTKMASFEGVSFDDLVEKVVLIALHRYNKNTIH;locus_tag=LOCUS_7760;note=WP_011024232.1 methyltransferase domain-containing protein (Methanosarcina acetivorans) [pid:32.4%25%2C q_cov:97.6%25%2C s_cov:47.4%25%2C Eval:4.9e-36%2C partial hit],MGA_782
sequence04	Aragorn:1.2.38	tRNA	45864	45937	.	-	.	ID=Aragorn_30;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0290;note=Aragorn_30
sequence04	Aragorn:1.2.38	tRNA	45945	46026	.	-	.	ID=Aragorn_31;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0300;note=Aragorn_31
sequence04	MetaGeneAnnotator	CDS	46154	46750	.	+	0	ID=MGA_783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKKTIDNLWSDFDNRSDTEENTVDKIATVAPMLSYIASVSTMNLYNKKDKIGLGSIKARDFDNVFIETFLLEIFFLYSVILISKIKNKSKVKDIILQETSSVLDLIILERDVEETFNIDKFIDKANKRIKEYSHKNDSKTYEDLFESDFLDLFIIKIGDILALSASSNYLIDFEKEILNSVKALKLEILFNFDEKK;locus_tag=LOCUS_7770;note=MGA_783
sequence04	MetaGeneAnnotator	CDS	46737	48707	.	+	0	ID=MGA_784;product=penicillin-binding protein 1A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_099797673.1;translation=MKKNNTPQIKDVVKKKNIDKKRILKIIYIFFSIFLSFLYVVIILFCVFFSIIVSDYNSNLPSVINAVKNNKSENTQIYSRNGTLIDTIYGNVNRQFVSYNNISPYMIKSMIAAEDVHFFSDTLGINIPSILRSLYNDVLKRQNGVQGASTITQQLVKNTLLSNNRSVENKIKEVLLSIRLSQQYSKQKILDSYLNYVSFGGNISGIESASETYFGIPASKLNLAQSALLAGMVQAPSIYSPFFGTDPKLGLQRQAYVFNEIKKHDNILNIPLSVINKAQSTKLVYYKRPKSKLIDPWFIYYTKQYLINKYGNSFINNGGYKVYTTLSLKLQKIAQQSVVSNVSRFLQEGLNTHNSSLVSINPKNGHILAMVGSVNYNIDNSYVKGEVNSTLSLISPGSSLKPFVYLTGFRNAGLTPNSIVYDTPLTIGNWSPTDWNNAYEGPISIASALLQSRNIPAVRVGLEVGLPAIFSTFRQVGLSQFTQSKIAVCGYPAIIGGCDITTLQEAGAYASLANYGTYISPSPILKIYNRNNKLILNNTNPKGINVFQKKYTEMVISIIKSYYTMYPLFDRGFSVAGKTGTSNNHIDNVFAGFSPNLVAVVWSGNDNYSFTSNNTWGETTAALIWNDYMLSALKYYPNTKFNLSLWPYNYGSQTIL;locus_tag=LOCUS_7780;note=WP_099797673.1 penicillin-binding protein 1A (Thermostichus lividus) [pid:32.5%25%2C q_cov:88.9%25%2C s_cov:88.8%25%2C Eval:2.2e-79],MGA_784
sequence04	MetaGeneAnnotator	CDS	48704	49300	.	+	0	ID=MGA_785;product=signal peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392487.1;translation=MNDKIKQYIKTFLIDFLETGVITIAIAVVIYIFLSSPHVVVGESMMPNFVNGEYLINNKLAVSFSNLQRGDVINFQFDPTEEFIKRIIGLPGNTIELKNGFVYVNGKKLIESAYIPPHVYTFGGQFLANNVKITVPQGYYFVMGDNRENSFDSRSWGFVKKSSIKGIAFFVFWPLDKFGFVPTVTYTPKGNTLVAKLN;locus_tag=LOCUS_7790;gene=lepB;EC_number=3.4.21.89;note=WP_011392487.1 signal peptidase I (Moorella thermoacetica) [pid:37.3%25%2C q_cov:84.3%25%2C s_cov:88.6%25%2C Eval:1.2e-28],MGA_785
sequence04	MetaGeneAnnotator	CDS	49334	49978	.	+	0	ID=MGA_786;product=signal peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583882.1;translation=MAKKKTKSKVKTSKNKYKDYILKIVRIFVIDFIETVSVTLAIALIVYLFIASPHIVVGESMMPNFVNGEYLFTNKISLSYSNPKQGQVIIFQHTPSEEYIKRIIATPGETLELKNGKVYINGNLLNESAYINSNIKTEGGSFLANNVVIKVPKGDYFVMGDNRGNSSDSRFWGFVPRNEIKGIASFVFWPLNKFGFISNIKYINGKNIIYTKSN;locus_tag=LOCUS_7800;gene=lepB;EC_number=3.4.21.89;note=WP_012583882.1 signal peptidase I (Dictyoglomus turgidum) [pid:38.3%25%2C q_cov:77.1%25%2C s_cov:85.0%25%2C Eval:2.4e-28],MGA_786
sequence04	MetaGeneAnnotator	CDS	49978	50748	.	+	0	ID=MGA_787;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582622.1;translation=MIISVLNQKGGVGKTTSALNIGASLANKGKKTVLIDLDPQSNLTSGLGLNISSEGENKNLSIYEVLIDDLPISQVFVSTSIPNLFLVPSNISLAGAEIELVNKLSREHKLKNALMKFSENYDYVIIDSPPSLGILTINSLVAAQKVLVPVQCEYYALEGISQLLKTIELVKDSLNPDLELLGVLLTMYDNRIKISESVASEIKGFFKEKTFDTIIPRNVKLSEAPSFGKSIFEYDPASTGAMAYDKFSDELIKKYG;locus_tag=LOCUS_7810;note=WP_012582622.1 AAA family ATPase (Dictyoglomus turgidum) [pid:56.0%25%2C q_cov:98.8%25%2C s_cov:95.8%25%2C Eval:6.6e-74],MGA_787
sequence04	MetaGeneAnnotator	CDS	50741	51604	.	+	0	ID=MGA_788;product=ParB/RepB/Spo0J family partition protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546849.1;translation=MDKKDDKKLGRGLSALIQNSPQDGGYKEVFISNIVPNPYQPRIDAKKDIEDLAASLKEHGVLSPLIVSKMDDGRYQLIAGERRLNAAKALKWEKIPVIIKEASTQDLLVYAIVENFQRKDLNVMEEATALMNLKTTFNLKNIEIAQQIGVTDRSIRYYLKILTLPQEITDALYQETLIYAHAVALIRIDNKDIQLQIYKKILKEKLSPARTNDVVDKILSSSPKLSQNKLNILSQRTMTIQNVLKSFFGDEKVQIKRNIKGIGSVILKFKTDEELEEIYKKINKDFD;locus_tag=LOCUS_7820;note=WP_012546849.1 ParB/RepB/Spo0J family partition protein (Thermodesulfovibrio) [pid:35.1%25%2C q_cov:96.9%25%2C s_cov:97.2%25%2C Eval:9.2e-38],MGA_788
sequence04	Aragorn:1.2.38	tRNA	51639	51713	.	+	.	ID=Aragorn_32;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0310;note=Aragorn_32
sequence04	MetaGeneAnnotator	CDS	51832	52428	.	-	0	ID=MGA_789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKGFTLVELLIVMAIIGILIAVAIVGLGSAQADARNNARETAVKGISGLLETYYANNNQSYPSGAQMNSAGNVEFYFWSSSSPYWATQSSLCKPTIVPSPAQYNSGGCGTYIDFCNPMGYSSGPCNYPTTSSSTQYFYIPYTNGVPTTGNTTVTGYLVGACLENNTIFVYTSNGSNAPYVQTGPGSIKVNGVPFSC;locus_tag=LOCUS_7830;note=MGA_789
sequence04	MetaGeneAnnotator	CDS	52505	53677	.	+	0	ID=MGA_790;product=permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003414924.1;translation=MYNIVMLVFIISHILYALFNSLYLLWEALFGLFIGFFLSAILQVFTPKEFIKKYMKKGIFGVIFSILLGIISSSCSYGAAELGKGLYKEGVDIKNVLSFLVSSTNMNIAILILFAYLLSWKFAFAEFFGGIIIIIFIIIGFSVFYKDEFKKDNEDIIYNCPVCGMEGKKDLSYRYSKNLYLFCSQDHKNLFKINPLVYTKNITAKFFSINSIKLISSTFFSDISMLKWELVLGFLIAGFAESFIPQSFFSYLLIYINNIPIFGYLLLLISGLLIAIITFVCSMGNVPIAKYLNSVHIPIGANITYIYGDLLILPLIRIYKKSYPKKIIYIFITFFSIGAIFSGYIMQILFRYLPNFPINLSPENLFFNVLNIISLILIFFLFTVYRFINI;locus_tag=LOCUS_7840;note=WP_003414924.1 permease (Mycobacterium tuberculosis complex) [pid:25.6%25%2C q_cov:87.4%25%2C s_cov:78.6%25%2C Eval:1.4e-29],MGA_790
sequence04	MetaGeneAnnotator	CDS	53680	54597	.	-	0	ID=MGA_791;product=lipid II:glycine glycyltransferase FemX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002658082.1;translation=MNYKVLDHIEENTFKSNFLETENWALLKQEEGWKSFFIHFYINDKLIGYTLLLEKKTNIFKLHYIPRGPIIEEEYFKEALDLIISFSKKEGAFLLTIEPSLEYSDTRIKYLEKFKESSVSYQPKETAIINLEEDIIKNIPSKKRGRIRNKHNLIFRETDDLENFYKLYKNTFENNNFKGRSLNYFHNMKKCFKEDMLIFEVLHENTVISSSVNIVHQDSITYLYSGSLKEFNNLYPGYLLVYETAKYAQSIGLKSFDLWGVSYDNPSWKGFSEFKFNMGGRYFKFLGNFDYSFNNLLYFVYKKLK;locus_tag=LOCUS_7850;note=WP_002658082.1 lipid II:glycine glycyltransferase FemX (Borreliella burgdorferi) [pid:27.6%25%2C q_cov:97.4%25%2C s_cov:94.5%25%2C Eval:1.5e-25],MGA_791
sequence04	MetaGeneAnnotator	CDS	54594	56030	.	-	0	ID=MGA_792;product=2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861866.1;translation=MKRNIILLILDGFGISKEKYGNAILQASTPTINYLYKNSFVSTLEASGESVGLLPNSAGNSEVGHLNIGAGRIVDQYSYLIHKDILNKTFFTNRKIKEEVSKTKGEIHLMGLVSDGQVHSNMEIIESLIESIDREKIYLDIFSDGRDSGYKSVEEYIKRLGKYKDKVIISSIIGRFYAMDRDNREKRINKAFELLYTHKGSEVKNVFEAIEMSYKKDITDEFIEPFYIKNTPPIKDEDLVIFFNFREDRARELSLKFLNNTNVNLLCMTQYTNDIQNFIYPRIKVENTLGSILEKNNLSQLRIAETEKYAHVTYFFDGGENIVYKREKRDIIPSLKISTYDKKPQMRVFDITKTIISNIENFNFILANFANPDMVGHTGSLSKTIESIEYVDKAIKEILDDLKDNILIITADHGNAEIMLDKKGIINKSHTISKVPFIIYNYKNISVLKNGKLADIAPTILKILDIKKPKDMSGDSLI;locus_tag=LOCUS_7860;gene=gpmI;EC_number=5.4.2.12;note=WP_011861866.1 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Clostridioides difficile) [pid:40.4%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:3.0e-96],MGA_792
sequence04	MetaGeneAnnotator	CDS	56073	58565	.	-	0	ID=MGA_793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNIKTIFQFNEINENFRANLGEKAISIGRLFNLSIPTPPGFVVSADSYRFFLNMSNLDELIKSKFYTIDKNDEIALKNVSSEIEDLIMKTIIPPYVEKDISRTYSKLSGFSDTYVSVRASYIFDGKDANVNQTTFLNIRGVSELILAIKACWASLYEYENIKYRIDNEIDITDCSSAVIIQKMVQAEASGITFTYSPLTEDNTEISIQATLGVIDIIKNGEIKPDSYHIDKETLKFKEKSISRQEYMFIRNTKGKSVKDTNIKTKVALKWQEKQKIDDKTLIMISRYARGIEDQTQFLQEIEWIVEKGKIWIIKSDSIKNIEKQIESKEASHIEEAFAKEDKEIKKTKEINLIPETKESVPEIIPEVIKEVVPEKEEIKVIENIVPEVPQVETPPVLNTNTSARKNNTNLLITGIPIFPGIIEGEISVLKNINEVDHNKMYDILVIESLTEEWKEVLKNVKALVIDVGDINSRETEIVREFGIPTIISTQIGTKTLENNTYAILDGSTGRLYETKRKREEEIDISKKLFKETRKIHTATKFYTNISDINLYEDISESDFDGVYISAEDLILDLKVHPKQIFSQEKSNEYIDQIAKKLSKLCDSIGNDRHVIYTISNLTSNEMFDLQGGVQFEVQETNPHIGYRGTLRSIKEIEILNMELEIVKSVRNKYGYKNLWIMIPFIRTTEELIEMKKIILSSNLRRSSTFKIFIDIEIPSNVIMINEFLEVGIDGININYEKLAQMILSIDFQNPKLKKENINYHPAMQKAIDTILNASNSYKIVNSIYAEDIVKDSDFLKYLIRRGVNIINTTKDNLSELKAQTLNIEKDILS;locus_tag=LOCUS_7870;note=WP_052846514.1 pyruvate%2C water dikinase (Sulfurisphaera tokodaii) [pid:28.7%25%2C q_cov:49.8%25%2C s_cov:54.5%25%2C Eval:4.5e-48%2C partial hit],MGA_793
sequence04	MetaGeneAnnotator	CDS	58673	60589	.	-	0	ID=MGA_794;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRIKIKIILVILFLVFIIYPQGVFASSSPFSVDYNILYKIAKDGTATVSYNINISNLTQNIYASSYSLSLTNTDITNVTVTDSNGSSLPFNTVKNANSTVIITTLPQSQYGYGTGDNWTITFNTSQISKIQGKLLNIAIPGFPQKSLIHSVKTEVDIPKSFGNINFSSPNNPTIVSGQNYNRVYYSSTDSYTTQGILLVMGNYQLFSFKFHYQLINYNSLFSQKYQIVIPADFKNQVVTFSQISPTPTSSFIDKDGNYILSYTLSPKENINVSIRGESKVFSTYNILSSTPITQKALTPSEYKIYTSQQPYWQVLNPFIHNLAMKITKGDSTNLSKALSIENYVATHLTYNQKAILDPNRQRLGAIKALEEKNNAICQEYVDVFVTLARSAGLPARMIAGYGDPPDINVNPLPPDILHAWVQFYSNRFGWVNSDPTWQSTSGNLNFFGNVGSSHFALVRYGINSENPPLILSFVKEKNPQNNINIEATTNKFVQNPNFILKIPNFNNLVSGFKNYIDITIQNTGNQVLRGGNIEILSKNNKIISTFSIKNIAIFPYTSQSVKIPIQSKSLTQSYSEIINIKAQLSNYQNDNISKEGSTVIQFKPFFVSGIIPWIIIFILFIFSIIIVDLFFRLKRKK;locus_tag=LOCUS_7880;note=WP_000631786.1 transglutaminaseTgpA domain-containing protein (Bacillus cereus) [pid:22.1%25%2C q_cov:58.3%25%2C s_cov:47.4%25%2C Eval:5.5e-11%2C partial hit],MGA_794
sequence04	MetaGeneAnnotator	CDS	60611	60847	.	+	0	ID=MGA_795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPYQLDILLSIISAILIIVIILQTNGTSLSATFGGGGGGESFRSRRGLQKFLLYFTIIAAIIFVTAVILSLILAKGK;locus_tag=LOCUS_7890;note=MGA_795
sequence04	MetaGeneAnnotator	CDS	60849	62396	.	+	0	ID=MGA_796;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013096544.1;translation=MLSLKSALNFREFMWDYPSYIKRKSPASYIILSLIIIIVLFFILFKNGFYSLKLSASQSYIEGVVANTTYYNPYSKNNNQTFIKDVNRLMFSRLIYEKSNGSIENIVAKSIKEEDNYTKYVISLHKHFYFSNGVNITAKDIVYSFNFEKEYFPSSMLSNISIYRISKYKVEFLLKRLDVTFYQDINFFIVPFGSNYILNTQNIISSGEYKMDYLTNNKIVLTENKYYFYGKPHFKYFVIQIFNNYKEIIKNLKRDQIDGAYIGGKYHNIYSYHNLNVYTYPLVTNYVALFFNLNKVTSITLRNALSYSLSPRYISTNIMRGTVSPMYTSIPSTSWAFDPKTTTFNFNQKKAADLLSGNQYNLKIYYINTIPQSLVNYIKQNWSNIGVNAIFVPENTINIDSIIKSKNYDGILTSVNTSIDPNMFSLWYSKSNQNISQLNNSEIDRLLLVGVSTLNINDRKETYSLIAQSIQNINPAIFLYSNNFVYVANKTIKNLNFNFVSYPYDRFLYSYKWYN;locus_tag=LOCUS_7900;note=WP_013096544.1 ABC transporter substrate-binding protein (Enterobacter cloacae) [pid:20.4%25%2C q_cov:79.2%25%2C s_cov:85.9%25%2C Eval:2.7e-13],MGA_796
sequence04	Aragorn:1.2.38	tRNA	62396	62480	.	+	.	ID=Aragorn_33;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0320;note=Aragorn_33
sequence04	Aragorn:1.2.38	tRNA	62534	62621	.	+	.	ID=Aragorn_34;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0330;note=Aragorn_34
sequence04	Aragorn:1.2.38	tRNA	62655	62727	.	+	.	ID=Aragorn_35;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0340;note=Aragorn_35
sequence04	Aragorn:1.2.38	tRNA	62736	62810	.	+	.	ID=Aragorn_36;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0350;note=Aragorn_36
sequence04	Aragorn:1.2.38	tRNA	62818	62893	.	+	.	ID=Aragorn_37;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0360;note=Aragorn_37
sequence04	MetaGeneAnnotator	CDS	62896	64635	.	-	0	ID=MGA_797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNIRMENAVAAIRVSSVKQGTDGDSPEAQREQIERFAETHNINIRKIFVFLESGSKEKQPVQEAIDYCKNPKNNIQLFIIKSIDRFTRGGSYFYDGLKMQLDQKGVKLIDIYGVIGTHDVNTLEHLGVSYNWSVYSPTKKAEMLEAERAKDEMRDIMSRMIGAQIRYIRMGYWVHRAPFGYMNEKVETSNGKRVLLKPEPTESVWIIKMFELRARGTLDDHQIVDTINSMGFKTRIELKRNPKNRTQIIGQKGGNKLTLKALWRFIENPIYAGIHVGSWNKGFPIKGRYAGLVSFDIFNKANKGKITIREDNGEIKVYKREPKDYLVQKGVKNSEFPYKKYVLCPHCMKPLYGSASRGKLGKYYPAYHCNKRGHYFRVPKKDFDATISKFIKNINLSQEYIDALQKVVLEEWDKRSNEINKDKVNIDQRISELKMQSKATVDKIKYLQSEVAIKYLEADLIENENEIEKLMVKKEKETKEPVNMVKVMEYIKYFLEHLDNLLLQSDNPIDRATYFSAIFNHAPTYQELISGTPDLADCISLNKVFIQGRGQLSGMQGLEPQTSGPKPGVMPFHHIPIY;locus_tag=LOCUS_7910;note=MGA_797
sequence04	Aragorn:1.2.38	tRNA	62904	62976	.	+	.	ID=Aragorn_38;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0370;note=Aragorn_38
sequence04	MetaGeneAnnotator	CDS	64984	65694	.	-	0	ID=MGA_798;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRMKIQKYADFGTSSPWFARINDINYILEPIFLFRTRPSSDDIKNAEIKKEKLNNIKFEVIKELGKAYLSLDTLKNKSKNLPQLNIENEYNNIYESLWRAYKDRSLLFIKNLDYDIGFMFKNDKDFRKDGLIFIKNNNVDDKFLDLIEEKRITWQNELSDFRNNFLDHLKTDKSLQYQHFYTIKNVELVFDHVWKSIEDIWIILIKSYYPLNFDLREIPKDKRDKNNPIKFEIINI;locus_tag=LOCUS_7920;note=MGA_798
sequence04	MetaGeneAnnotator	CDS	65691	66002	.	-	0	ID=MGA_799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLKTFIKKSIVDITSGVVASNNTPNSSYMVRLQDSSEGYNIEFDIAVIVKETDNNSKDKNIGAQISVLSMGLKAGIKSDKDHSNENSTVTRIKFKVEAIKTR;locus_tag=LOCUS_7930;note=MGA_799
sequence04	MetaGeneAnnotator	CDS	66051	66629	.	-	0	ID=MGA_800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWIIIIAFLALIVSYITFIYTRKSYEISVLPCIKISFLKQDSSVLCYVKNIGSGVAFDIEIQEQMMRFEKENVSFHLELILKDNNMLDIGQKSLLDVKAYEIINDKKQVSLQDFVSGILKESDSKFLVTFKNIGGKRYYSIINYKIKDDHDYINISPPKKLSIFNAILDSRDKTDLINIYIAYKKRIFLLSK;locus_tag=LOCUS_7940;note=MGA_800
sequence04	MetaGeneAnnotator	CDS	66712	66930	.	+	0	ID=MGA_801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLSIIGKNIKKIRLEQSLTQEDLAKSSTVPFTTITKLENGVIKNPSIEKLLKISGALKIPIDSLLKGVNNK;locus_tag=LOCUS_7950;note=MGA_801
sequence04	MetaGeneAnnotator	CDS	66935	70417	.	+	0	ID=MGA_802;product=helicase-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011109349.1;translation=MKIVKIIDNNRVLLLDTIKNISSEYDELSIATGYWDLQSIDMLLEQIKGYKKIRLLIGREPLIPRHQLNDPEPDYPERDIFKDLEALTPNEKLKETIISIKDLISKGVLEVRVYKKSFLHAKCYIFGNFESSNAIGIIGSSNFTGNGLTKNTELNALENDSRIVTYEPKNDNQEVGHLYWFDEFWNESEEWNHHFTEILEYSPVGDMLFSPYEMYIKTLYELYKEELEEVELVETSHSRHELMEFQKRNVQQLIRKLNKFKTAMLSDSVGLGKTITAIGVIKQYIDSKEGRKRVAIICPKSLTDQWESELTGQGLTNVTPITLQNSEAIQKERNLDNIASVSLFVIDESHNLRKSNGKRYEQLLDWIKNNKQAHVLLLTATPINNELKDLTNQILLGTRGRGDIIQITIRDSKSGQTSQVDFVQAIENLQRKITRQSKQEEEIDYENIKQVMAPIIRSVVVRRTRQGIEKEYGHLTIDEEKKSFPKAIPENYQYNFESSLNNKILNLDAKVSFDVEKLYQYDPQEIVDKCTDLKHPLDQLDKLTEDSTKIKTLLNESPIYFIFQLILMLGFIPYRWRLYQRKYYGKTVEEIKALKLTGDESRDLQQQRGIYGIFRTMYLKRMESSVEAISKSLRNYKEKLEQFNEALEKHHEIVGVKDLEVLKDALKMIDIDESLDDPSIIGEESDMVLDKVNNTKYNLEAFSNDIKKEFELIDIILKELKLFKNPDSKLNALIDLLKKLDKEKLAGEKVLIFSYFADTINYLEKNIFKLSNGLLNESNTAFVSTKNRNDSEILAKRFSPIAKGYTLNNDEIRYLFSTDILSEGQNLQDAGIIINYDLHWNPVRMIQRNGRINRIGSNYENVYIYNMRPEFKLELYLKLVKRLESKIEMISNTIGSDQSVLGEVENPIDFVESIKDLYSDDEQKRIQALTTIEEKSDLLMAEDDFILDLKSFEKSDHFPIEYKKSIYDIPLGKWGVIPSYKTNYFPVMVLSHLLKDDTYLYPQFIGMDKDSANIHLIPYLEALNILKTEVTDNERFKDNISVKKESIVNKASDIEAYTFTPAEESAKGLNIKLLRLMSELNYDIEDIEIVDEALNTKNYHEKRNIIKLVRKISRSQKENKPYYDDLTKLIIIARDIKDNKEEPILPNNVKQILYYVSSNK;locus_tag=LOCUS_7960;note=WP_011109349.1 helicase-related protein (Bacteroidaceae) [pid:25.8%25%2C q_cov:77.6%25%2C s_cov:78.8%25%2C Eval:2.2e-64],MGA_802
sequence04	MetaGeneAnnotator	CDS	70398	73703	.	+	0	ID=MGA_803;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVQTNNKNSTHFDRINEALKFANENHSFDSAVEIAKEIVSIFGITDISKTLLYFPSLSKETRNISWTLNAPGYSDRKATYVLAQDNDRNIEFNLFWVSKVNKNNILKITALTKNFEDEKFNKNRPIGIDFIIPEEADKLIIVLSKEYKIRTLELSQKLNHTQKEIFNNWFQDFDYSNKGNIHEILWKSFDIHPLNEQFYREISSFFNELVTHLKNQNVLDEKHRVQFTSRLIGRIMFCWFLNKKEFINKEFKYFELEQLDSTQYYREKLEKLFFEVLNTSIDDRSALKELDPDCKDLVTPYLNGGLFEVKETDLYKKNLLNFPTDYFNRFYEFLNKYNFTTDESTSDFQQVAVDPEMLGRIFENLLAEETEATGEQARKAKGAFYTPREIVGYMCKESLKEFLSRKINDNLNKEKIINLLLEKKEHEFDYKNDKVELVEYKSELIDALDNLKIIDPACGSGAFPIGMLQLLIQCYERIEPRFDPYKTKLSIIKNNLYGVDIEPMAVEISRLRVWLSIIVDETLNINNKNSGIEPLPNLDFKFICANSLIPLNQSGERTLFNNGELDINIQEIRNQYFNTSSFKIKNKLKEKFEDLIQKNSNLFSGFLSNKDEQLITYNPFKADNLTQFFDSNFMFGVNGFDIVIGNPPYLRIQGIQKVNSELAKKYKSLFRSATGSYDLYVLFLERGLNILSEDGILNYILPHKWVNSSFGEGIRSIISKNKSGNKMISFGANQVFSATNYTSLLWLTKNENFFLKFYKFNQEFKDNHQLEKSLKNLKNEEFNNLDFNNLKNTPWILTDKDNGRVIAKIMQQPLRVKDIFDKIFQGIATSKDSVYFLENCIIKGNNIEGFSSQLKKTVTIEKGLVKPLLKGKQIHRYSMLGTNNYVIFPYHIHNDQFLNGQVMKPDYIQHNYSNGWKYLSDCQEIIKEREQGKLRSINEWYKYIYPKNITEFEQSKIITPEISLGPNMTYDIKGQFYHNTQCYSFVKKSSILENYKFYLGILNSSLLWFFLKNSGNVLSGGYFRFKTNYLEPFPIPKLENIDEQNHMVELVEQIIQLHTETITNKEKIKLLETQINNEVYKLYRLNQDEITIIENFNEMA;locus_tag=LOCUS_7970;note=WP_011109348.1 Eco57I restriction-modification methylase domain-containing protein (Bacteroidaceae) [pid:31.8%25%2C q_cov:53.2%25%2C s_cov:62.1%25%2C Eval:6.8e-63%2C partial hit],MGA_803
sequence04	MetaGeneAnnotator	CDS	73730	74059	.	+	0	ID=MGA_804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLRPGRTRSILESSMDSVLLAVEIYNKPRVVFRQENYISLMVIGWTQLFHSYFNQTIGDKFYYKNDNGFYKKIGGEKKAWELKTCISEYKKNAQFHCQKLLLKTSIFL;locus_tag=LOCUS_7980;note=MGA_804
sequence04	MetaGeneAnnotator	CDS	74020	74829	.	+	0	ID=MGA_805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEAIIKNLDFFIGLRNKIEHRYLAQSEIDKMLFGECQSLLYNYENFLIDIFGENYSINENLAFSLQFSTYRTPQQAIANKNVLSREIFNIKDYIEKYRNNLPQDIYDSQEYSIKLIQIPKISNTNRSDLAIEFIKLNELNDIDKEKFNKLNAIIKDKIVKVEVSNAGGLKAGGVINKVAENLEIKFTHHLHRCLYFIFSIRPTFLDKNISPFDTNIKYCHYDEPHKDYIYSESWTNFIINLFKNSKLSIDNIKILFKNKTKLDIKDYI;locus_tag=LOCUS_7990;note=MGA_805
sequence04	MetaGeneAnnotator	CDS	74933	75136	.	+	0	ID=MGA_806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYMKSNYAKQLGKTFKEARSKMRLKQIDVADKAGINSNYYAKVERGEVNVSMELGSKIANVLKIKLN;locus_tag=LOCUS_8000;note=MGA_806
sequence04	MetaGeneAnnotator	CDS	75155	76489	.	+	0	ID=MGA_807;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDFTYLYPTKRNLKILIDPLTIWKEAKLNSNKLIPINTIINAILYLLEETPHITIEILYPQYLWAKESNLNENSFLPIDGFHSNKKNKSLKIITKVEKFSSEYKKQRVHNMKTYLQKVKNKYVKNIDVSKLKTEKDIYKFINDKNIENDYDAKNLYDQGMDLIDIYYEYDVDIIFTTNNVLISEKEILEKSFQFFPISNFNSLEEINIFLKGHNIYYDLKTQRFVTPSLYYSITDQNMQEYIKLWAKLTKSNKNEELYQYLRTMLFNRYIFMMYSKDQFNFNIFQEKRDYNSDIKNNNILLASYHLNNFYYMFAGFIDNLAIVIDIYYSLGLWGTNRYRESSFKNKDYIKLLSNKNKVLSQNIKEIQSWLKEISLKRDPGAHRQCLFFGDIVDENHKLITDENIITMDKNGKIYYFNGIKTIEYDLNKFYEFMDKICSSLNVE;locus_tag=LOCUS_8010;note=MGA_807
sequence04	MetaGeneAnnotator	CDS	76491	76700	.	-	0	ID=MGA_808;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKTKYEINEKDIDSVIRFLKTTDPDNATPEMAIAILEHLQESFHTLSHDNPEILIKILDDLKKEKGVN;locus_tag=LOCUS_8020;note=MGA_808
sequence04	MetaGeneAnnotator	CDS	76789	78030	.	-	0	ID=MGA_809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIIKNIHDSFIITAEKSGSLDLIYKYIEENSRKLKLSSDKSKTYINFLLNVFGEDWFVDEIEKYKKQTTSIFHVHPLIVAACNSTPNGLFEICTIAKYLKHFRKDKSYSHIIQMLKAPNSYKDTKYQLAIAFNVMNNSGRNLILEEPSSLRHVGDFKCNILKNEYIFEVSCIKASRVNDSFDNAMAMVVNNLSNARKSIPTDKRYISIIFNTNTVQEIKNSDVFKNLLDNVRNCFKSTTDIHVNNNIYSINSKVLSKDTEYPDFDINSFDKQATLLSYELKSGINTLDRYKEQDIYKTHSAGRFMIKYPEISENVRLKQLKQKLSDEYEQLKDFSNCGKIITLSTDQWYLINKEKTHNILDEYIQHHKDITCIVVTCEIPLVFREHRYEYLFVLGKKNKYSLSQEYFEKLLK;locus_tag=LOCUS_8030;note=MGA_809
sequence04	MetaGeneAnnotator	CDS	78309	78875	.	+	0	ID=MGA_810;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMNQIDTGIINQLFSYFSSGIFFFIILSFNILILKYQTFNIYFLVNILSKNISYTNSNITVVIIIYLLLSIIIGRILIQVFNFLQLLLCKNKNKEHVFFKLLKYPVSKLEIKKYNRNIKDNYRFILNFSKSSIIGLSLIMIYNLYSLANNYSNTFLSISIITLLILLLIFNIQEIRIINKGLKDKDIS;locus_tag=LOCUS_8040;note=MGA_810
sequence04	MetaGeneAnnotator	CDS	79084	79695	.	+	0	ID=MGA_811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKILRNDKCPCGSNKKYKNCHLDKYTFYLKVDIVGPFLPKSGSLIENGEFIYTSVDLESLKWNTLPSMHVNSTNSITNQCSIYSELNININNPSEVIFIKTIDQPSFLNAYNEIYKEIETFCTILSISITGGAYFFNTKEIAMGIHPINNVSKDSLPSGKIHVISYLKEPMKGEEIEFNKQFVNLYKKNNDLSKLLFFSQKL;locus_tag=LOCUS_8050;note=MGA_811
sequence04	MetaGeneAnnotator	CDS	79823	80236	.	+	0	ID=MGA_812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVINALYSDLTTSNAKQKIGILRKAFSEMEKIDRSSIGENILDTGVKICTKLNIDSNKFNVKIKKLIDYRNKTIIHPSEENPQFAYEDNRDFREISKIFIKGYLKIFYELDINLKDDPVKEDNSYYYSAFHNSTIK;locus_tag=LOCUS_8060;note=MGA_812
sequence04	MetaGeneAnnotator	CDS	80313	81596	.	-	0	ID=MGA_813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNNQNPNFSNKNSENWTTKSMNNHPYLWTFFVFTVVIYLITYNIFESIIFSLALNLLLKLIVIIINSFTNNKISYLSLNKNNLYKDLIIIPVVAIFGGERSVGIVSTIIENNDEIIVLNLGKDSSLEGYTYGIDFASPDIDYLISKKNKIKGMIITNNNYNHISLIDSLIGSILLDIELPKISNIFFKNINYPQLYISNKIIEKIKKRMYQYVNLGNPNIKKYILKENMVITIGKYIIYPFISKTESIVDYNYGLNIRDDLSNILFKEFSKPWGNIQLYTQLILVGSKQTDIYNEYICDDLFNTLSNLFSNIKERITLVHSNMQYPIIPDIIKMAFDIGLTVSVAPNSIFSDSSMDELNFQDLNIDELRRNHQYINDKTLHNLILVNGSREKHLSILKRSLGDDVKDFSNEITLYLGMSYLNFED;locus_tag=LOCUS_8070;note=MGA_813
sequence04	MetaGeneAnnotator	CDS	81722	82561	.	+	0	ID=MGA_814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRQLLIKDFRSRRRILTKKDYALEGDINYNKKIDLIDKELWEDIINLSDTVLIETTNIHGSKIKILNNLSNQILQDHIYNFFKKDFEKYLLLLIHDNFESSIFNALNGYYKESLSSLRNGLELIILIIIDDEEFYNNWMNSKEMSYGGKLNNSKNIKNIDEKLNNIASTKYSSYIRTYMHELSGYVHSLENKSNYDLWGGSTGPIFIEETFLDFYKNYIQVISILYLEVLFNIKNNKSNKKDVNIYKIISRFFDENIDYIPLYITSICRNQLKSMLNK;locus_tag=LOCUS_8080;note=MGA_814
sequence04	MetaGeneAnnotator	CDS	82658	82885	.	+	0	ID=MGA_815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITMLWWIIALLVAIIVRLIIIFFEIVAIDSGVSSDFVTLESEILNSHEKISEKLEEIEEIVSEEGNNTTDSDDY;locus_tag=LOCUS_8090;note=MGA_815
sequence04	MetaGeneAnnotator	CDS	83067	83744	.	+	0	ID=MGA_816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDHIIIYSHGFGVEKDDRGLFTDISQSLPNTKHVMFNYNKINKINNTIIVDSLLKQSKKLEEVYRKIRNENSHSVIDLICHSQGCVVVANTNLLGIRKTIFLAPPDNLNLEGIQDKYNRPGTIIDMDRESRITRKDGSITIVSKEYWESIKNLNILKLYNSFSNNTDLTIIKVREDEILGTTDFSNLKRQVKIKELKADHNFKGESREQVKIIIKNILIKYVTS;locus_tag=LOCUS_8100;note=MGA_816
sequence04	MetaGeneAnnotator	CDS	83805	84032	.	+	0	ID=MGA_817;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSTKDVSIQPFFSDIEKFLNSINIKTLNQNDKKILNEYKNKLVGKYLNIDQYLKTIGFNSEQQLKDYWNEKTKQ;locus_tag=LOCUS_8110;note=MGA_817
sequence04	MetaGeneAnnotator	CDS	84013	84687	.	+	0	ID=MGA_818;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQNNKGYKVYFYNNNLEFRQSIREIIIDTLENIDCIVTKSENLKDLGIEVYFLENNQYKCLYHVYKDFYIGGETKNGGVVNISIYIENKEINNLFKDFLKATLIHELVHVYRYRNTLQDGSIIYNKTSQIRVAHHTLDEGICDFYTNKIINKLPMANYIPINKKNYTMKKICHIFHNNDSIDEYIIHYIGYKVISNYMKYHNLCYDDLIRLDVQKLLSLYEI;locus_tag=LOCUS_8120;note=MGA_818
sequence04	MetaGeneAnnotator	CDS	84954	85871	.	+	0	ID=MGA_819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDEFYTQLTDIENELKHYKSQFHGKVVFCNCDDPKESNFVKYFSMNFEYLGLKKLIATHYKEANLFTQESPYKLEYIGNKNGNRMPDPNAFITEMIGTGDFRSKECIALLEEADIVVTNPPFSLFREYVAQLMEYDKKFLILGDQNAITYKEIFKFIRENKLWLGYDNNGTKWFQVPMDYDIPTESRKKIKDGVKYFSMGRILWFTNLDTTKRHEKLTLYKKYSPEEYLKYDYYDAIEVPRVVEIPVDYNGVMGVPITFLDKYNAEQFKIIGIDRYVKDNPNYGKRFTINGKEIYARILIKRKE;locus_tag=LOCUS_8130;note=WP_196835716.1 adenine-specific methyltransferase EcoRI family protein (Zhihengliuella flava) [pid:41.2%25%2C q_cov:88.9%25%2C s_cov:69.3%25%2C Eval:2.6e-54%2C partial hit],MGA_819
sequence04	MetaGeneAnnotator	CDS	85873	86964	.	+	0	ID=MGA_820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIQLHKITIREVTDDYKDDAEEGVVAYAGKLDIRPKYQREFIYKEKERNAVIDTINKGFPLNVMYWMIKEDGGYEVLDGQQRTISIGQYVNGDFSLNDRFFHNLTDEEQNKIWDYELMIYFCEGTDKERLDWFRIINIAGEKLTDQEIRNAVYTGSWLSDAKLKFSKSNCAAYHLASDEGSLITGSPIRQEYLETALSWINNGEIADYMAKHQHDQNANELWNYFRSVIEWVRKTFTNYRKEMMRVNWGELYNQFKDEKLNTNKLESEIAKLMQDEDVTKKSGIYPYVMTREEKYLSIREFTDKMKREVYERQEGFCAKCREHFGFEDMEADHINPWHEGGKTTVENCQMLCKQDNRIKSGK;locus_tag=LOCUS_8140;note=MGA_820
sequence04	MetaGeneAnnotator	CDS	87334	87846	.	+	0	ID=MGA_821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINFFSWLSFFFGGAIGAAITALIVLFLERKITEKDNIKKVAEERKNTILGLKQEIKDHIKYCNTIIKEINNGKFSQTYYFNHLEDVYISIYKDKFIDYSKDADIKLASNLKDIKLGLVSIKQTNDRTLISNPAMNGHAENITFINEQRLIMAKELLKLLKKVKKQITT;locus_tag=LOCUS_8150;note=MGA_821
sequence04	MetaGeneAnnotator	CDS	88325	89494	.	-	0	ID=MGA_822;product=aspartate--tRNA(Asn) ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868079.1;translation=MQENSDTFKIANELTHESVISIIGIVKENKQAPGGIEIGVEKITLLSLADAELPIPIIEKTDNETDQSIRLDWRWIDLRKHEKGFVFIIANRVEQLIKEFFLSEDFIQMHSPKLMPLPSESGSELFEVQYFNRKAYLAQSPQFYKQMAMASGFERIFEIGPVFRAEPSFTIRHATEYTGVDFEVSYIDSYQDVIHIIESMLLYVITNIEKEYGDEIEKTYGRKIIIPSPSFPQISLLEAKKVLREKGIKSEKDGDLNNQEEIEICKIMKDKTGQEFVFITEYPMDDRAFYHMRFEDRPNITMGTDLLWNGIEIATSAQREHRYEILKNQALQKKLNISKIQEYLNFFKYGCPPHGGAGLGFERIIMKLIDAPNIRETMYIYRGVKRINP;locus_tag=LOCUS_8160;gene=aspS;EC_number=6.1.1.23;note=WP_010868079.1 aspartate--tRNA(Asn) ligase (Pyrococcus abyssi) [pid:39.6%25%2C q_cov:98.7%25%2C s_cov:87.0%25%2C Eval:5.0e-75],MGA_822
sequence04	MetaGeneAnnotator	CDS	89780	90259	.	+	0	ID=MGA_823;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKELIIKEKEIKKQAEIEGITHFASGVAVINKGKVLLVRREINDFLGGNYEIPGGGIEDGETFIEGATRELKEETNLDVKEVITLFDGFDYSTSTKPKVRQINFLVTTYTYDVILSDEHDAFIWADKKDLNSVTMTEKMLKCTHDALNLAIEFQSRI;locus_tag=LOCUS_8170;note=MGA_823
sequence04	MetaGeneAnnotator	CDS	90288	90848	.	+	0	ID=MGA_824;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDNKTPPKVVIFTDGINFYKELSKKYIQHKGRGYFILAPSGSGKTYYVNNQKDQHWIDGDYLWVASNADYSSDEWSTDSNDVQEINIRCDIITQQSKDQGFWIMGSSNKYLKPDAVVLPDIDTHISYIKNREEKNYDGGAKIQNIDGVLNHRKWMEKWREQDVPFFKSINEATEFLFSRYMQEYN;locus_tag=LOCUS_8180;note=MGA_824
sequence04	MetaGeneAnnotator	CDS	90880	91830	.	+	0	ID=MGA_825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMLKTEKDIFLDGKRFIYIKDRLAGGSVFVSQDRSEYLRTSTKEEIEGEVNLTKDLYNRKFPVPLILKTGILENGINYYIEKSIGDRVFGDIFKEETRSFNYVNDESFNMFIEIIKKYCEVQFNKKNFVPHNINSLDEVISISNVMKNNEPSYKIKESFIRAYEKAKQRVMSLPWGYIQPDLNAFNILPNGIIDFELSGFGPVGYDVLTNIYFNRMWPSEKIAYIFTDNQIIKYIKEVDKIAIKKGLPLISQYIDDFLVLKTIWGTAKDKESENNPQSNLDFWNWRVKIRDWSIHQYLNGKNIDTSQFEKIGTSI;locus_tag=LOCUS_8190;note=MGA_825
sequence04	MetaGeneAnnotator	CDS	91834	92154	.	+	0	ID=MGA_826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFKHSQIAISFLSIIRINYFLLGVNAFPIYINITAPINATNKLYKLNPVIPEKPKKFITNPPIKAPIIPNTMSNNNPAELCVTAEASAPAIRPKINHKIIPILIL;locus_tag=LOCUS_8200;note=MGA_826
sequence04	MetaGeneAnnotator	CDS	92470	92748	.	+	0	ID=MGA_827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTFININEYDLPIIIKEDEDGGFVANCSIWDDCYAQGDTIEEVINEISYVASSLIELYKEEDKKMPLKIKDSQEKNKSNININIPVIVAS;locus_tag=LOCUS_8210;note=MGA_827
sequence05	MetaGeneAnnotator	misc_feature	1	7524	.	+	.	ID=MGA_828;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011205613.1:ESPR-type extended signal peptide-containing protein,WP_011205613.1 ESPR-type extended signal peptide-containing protein (Burkholderia pseudomallei) [pid:22.1%25%2C q_cov:59.0%25%2C s_cov:53.5%25%2C Eval:2.9e-32%2C partial hit],MGA_828;locus_tag=LOCUS_8220
sequence05	MetaGeneAnnotator	CDS	7683	8153	.	+	0	ID=MGA_829;product=transcription elongation factor GreA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966474.1;translation=MVNKKPSVSLLTKEALEALKKEYEECKLQRERINEEINLARAEGDLSENEAYHSGLLARDINEARIFEIEELLENYKIVVKSDNGTVQLGSRVKLRVNGQEKEYEIVSTNESNPLEGKISAESPIGSAILGKKVGDIARITLNESLVEYEILGINN;locus_tag=LOCUS_8230;gene=greA;note=WP_010966474.1 transcription elongation factor GreA (Clostridium) [pid:39.0%25%2C q_cov:87.2%25%2C s_cov:89.2%25%2C Eval:3.8e-19],MGA_829
sequence05	MetaGeneAnnotator	CDS	8154	10802	.	+	0	ID=MGA_830;product=preprotein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966131.1;translation=MSFFSKLFDTNEKQLKKLSPIVSDINLLEESISSMTEGEIKDRILSLRKEASKIKEEDIQTFLDKNITEVFALVREAAKRSLNHRHYDVQLMAGLALSKSKLIELSTGEGKTLVATLPLVLYSLFSKGTHIVTVNDYLAKRDSEWCGFIYSYLGLSVGVITSSASYKYIPIEDFEKYGKEPVLDYDKKLNNMHGLFLVECDKKEAYSCDITYATNNDLGFDYLRDNLVFSLKDTVLRDLFFCIVDEADSVLIDEARTPLIISDPVESNTSEYIRYSSIANQMKIEEDYLSDEKTQSITLTEKGIDKIEKILHVDDIWSNYSTTYHIENALKAKTFFIKDDEYLVKDGKIVIVDEFTGRLMPDRRFSEGLHQAIEAKEGVEILQESKNLATITFQNFFRLYKYLGGMTGTALTEAEEFYKIYKLDTVVIPTNKENIRKDYSDRVYRNRDAKFNAVLKEVEELHLKGAPVLVGTTSVDTSEVLSKLLTSKGIVHNVLNAKYYEREAEIISHAGEKGQVTIATNMAGRGTDIALGEGVKELGGLHIIGTQRHESRRIDNQLRGRAARQGDPGSSRFYVSLDDDLMRIFGGDSVAKLLGGLGVSDDLPIESSIITRQIESAQKKVESYNFDIRKSLVDYDDIMNQHREVVFKRRKKFLENIENDKFKYKEFVLEKISKEIDNIIKIHSDDDSKDQLDIIMKDFYGILPKEFLESILKKNGVSLSQWMEILLKDSKFVNFEILKGQLLLIIDEAFEIQENVFTRDVLRQIIKDLYLQVLSYLWTDHIDTITYLQQSIRLQGYAQIDPLVAYKQEAFNIFDRFINTIDYEFVRRVFYVQKIEVDNNPMELNNNSINQELEDTIHKIGRNDLCFCNSGKKFKNCHGKNK;locus_tag=LOCUS_8240;gene=secA;note=WP_010966131.1 preprotein translocase subunit SecA (Clostridium) [pid:45.6%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:2.4e-212],MGA_830
sequence05	MetaGeneAnnotator	CDS	10938	11393	.	+	0	ID=MGA_831;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005782842.1;translation=MKEIYILLNNVRSAFNVGSIFRTADAIGVKKIFLSGFTPYPPDSKLDKTALGAIDFVDWEYNRDIIFTLDKIKSLDIPIYSVEQSDRSLIYTDLSYPNKLCIVMGNEISGVEQEILDVSDKIVEIPMYGKKNSLNVSVAFGVIAYHIKNFS;locus_tag=LOCUS_8250;note=WP_005782842.1 RNA methyltransferase (Bacteroides) [pid:43.8%25%2C q_cov:95.4%25%2C s_cov:83.4%25%2C Eval:1.4e-31],MGA_831
sequence05	MetaGeneAnnotator	CDS	11906	12034	.	+	0	ID=MGA_832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRMIESMYLQLKQLANKKDVPYQSLVKIFLDEKIKEEYSDLK;locus_tag=LOCUS_8260;note=MGA_832
sequence05	MetaGeneAnnotator	CDS	12214	12507	.	-	0	ID=MGA_833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIYEFTITKEFERSYKKYVKGNTSLKKIIDKKIIILTENPFSNNLKTHKVNTRNYGVRYSSRITGDLRIIWDFFDNRTTIIALTIGGHSGKGKVYN;locus_tag=LOCUS_8270;note=MGA_833
sequence05	MetaGeneAnnotator	CDS	12514	12843	.	-	0	ID=MGA_834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFATHVLQYIYIIMSTNNQTQNTIIRQVGFPQPLFELIKVRLEQLGISTPEYIRHLVIEDIKPLYKDIPMVDLDTEESIGKALDDIETGRVTRLKSISEIKDHLNKIGK;locus_tag=LOCUS_8280;note=MGA_834
sequence05	MetaGeneAnnotator	CDS	13331	13489	.	-	0	ID=MGA_835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGKELYKLAKSVASSASEKRIIIQEEIVKIIKNNINRINLEDFIEGLNHYE;locus_tag=LOCUS_8290;note=MGA_835
sequence05	MetaGeneAnnotator	CDS	13992	15338	.	+	0	ID=MGA_836;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545752.1;translation=MLSIDYIRKNTDKVRENILDRGLSLDKLEELLIVDKKRSELIESQSSINRRRNEIASILKNKKDDTLIEEGRSLKIQRDIIDKELNVIEEEYQNLLYWIPNIFQDEMPKGEGEEDNVEIYAWTPKDKELDKKLLGKNNKSKSHMPSMPINSKKDFILKDHIELGEMNDIIDIKQSAKVSGSRFSYIKKEGVILQWALASFLSQKLIKEGFYPINPPLLVKEKALFGTSHFPVDQDQVYQVDSSKIEDNNKLYLVGSSEPTNFSYFMDKILDSLPHKFFANTVCFRTEVGSWGKDVRGIKRVHQFDKLELAVVTHPDKSNDAFYELLDINKWFWESLEIPFHVILKCRKDSGYYASSLQADIETWLPSQKTFMEVGTCTNTTDYQARRLNIRYKDSNGKLQYAHTINDTGVALGRALITLIDNYQQEDGSIIIPSVLRPYTGFDIIKKN;locus_tag=LOCUS_8300;gene=serS;EC_number=6.1.1.11;note=WP_012545752.1 serine--tRNA ligase (Thermodesulfovibrio) [pid:35.4%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:3.1e-71],MGA_836
sequence05	MetaGeneAnnotator	CDS	15351	15890	.	+	0	ID=MGA_837;product=ribosome-associated translation inhibitor RaiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002263024.1;translation=MDIRYATLGYLLTDAEKSFIEDKLLKLSHLIEPDSVINIKIKEEKKGLYKIEISVAVQDVIIRVSKTDTKFYNCVEDTVLTLKEKINRYKDKSKEYFIGNRDWDEFSEERHEEMSDMEYRPIVKVKKYEDDTPIHPQEAIERMILLGHDSYLFKNIETGKYSMVYKREDGISFGLVEPS;locus_tag=LOCUS_8310;gene=raiA;note=WP_002263024.1 ribosome-associated translation inhibitor RaiA (Streptococcus) [pid:28.9%25%2C q_cov:92.7%25%2C s_cov:92.3%25%2C Eval:8.2e-12],MGA_837
sequence05	MetaGeneAnnotator	CDS	15885	16166	.	-	0	ID=MGA_838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVSTFFQMIYIISIDYPVALILAILSFILVRKYLVKNYIINITISFFIFIILLIILYPALNISYYKDFIGVINKGITNIFNSITTKILLHKS;locus_tag=LOCUS_8320;note=MGA_838
sequence05	MetaGeneAnnotator	CDS	16172	16651	.	-	0	ID=MGA_839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKRKLDNKIILGVCSGLAEYYNLDVTMIRIVFILFTLTFGIGILAYIVLALLMSSDYTKSSSKVIDIDQNKKNLASLLIFLGLIILLSYSSLFRIISSALFWGIFLILSGLNIIRSEKKFTILSVIVILVISIILTIIINNIGLYLSNNLPYPYNGYF;locus_tag=LOCUS_8330;note=WP_010965947.1 PspC domain-containing protein (Clostridium) [pid:54.0%25%2C q_cov:31.4%25%2C s_cov:79.4%25%2C Eval:2.9e-09%2C partial hit],MGA_839
sequence05	MetaGeneAnnotator	CDS	16690	18366	.	-	0	ID=MGA_840;product=monovalent cation:proton antiporter-2 (CPA2) family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546696.1;translation=MNTLVIYTTITLTLALIGGYISVRLKQYTIVGYIIIGMIAGSFILGNKISEGYIQNLSLIGVALLIFYTGTEFSISKIISYKKILLRSIFIQFIVNTLIITILLFLFRIPFLQSFIISLALSFSSTIIVSKVLKDLDRNYSNEGEITIAWLMLQDLISIPIILFIEGFSSKYIGTSFILSISLIILKTILILIVIYYLASFIIPKILREIAKTQVQELLIVAVITILFIMITFASFIGISPVIAAFIAGLSISKGMLNHEIASEIRPMKDIFSIFFFVLIGTLTPISFILQNIITIILIVILVSLIKTFITFVTLKNFKLHPLESFIISLNMFQAGEFSFILASIAYSYKFISFYDYHLLLSITIITIIFSPLVIKNDIKIYNFIREHFPFIKKYNKEALNISNFRTKIKENIVVIGYGRVGRSIVQTLSKNLINVTVIDFNENLMKGSDNKYIKFIYGNAESLDILKIANIDKINVLIITTPDIDINYKISKMAKNINPKIKIIARSHLPKHKDILSSTGVDHIIEPEKETAKSITAILLRTMGKRSKEIEYILSSM;locus_tag=LOCUS_8340;note=WP_012546696.1 monovalent cation:proton antiporter-2 (CPA2) family protein (Thermodesulfovibrio yellowstonii) [pid:28.5%25%2C q_cov:94.3%25%2C s_cov:79.3%25%2C Eval:9.1e-55],MGA_840
sequence05	MetaGeneAnnotator	CDS	18363	18722	.	-	0	ID=MGA_841;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878970.1;translation=MSKILLVEDNKDLLNIYKEELKFANLDFDISENGEDAIKKNQETEYDLIMLDMMLPDISGIDVLKKIREKSNTVKVIIISNLEVPAIINQAYLLGITAYLMKDEMLPSQIIEEVKRALQ;locus_tag=LOCUS_8350;note=WP_010878970.1 response regulator (Archaeoglobus fulgidus) [pid:38.7%25%2C q_cov:85.7%25%2C s_cov:79.7%25%2C Eval:1.9e-12],MGA_841
sequence05	MetaGeneAnnotator	CDS	18719	19963	.	-	0	ID=MGA_842;product=HAMP domain-containing sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000824513.1;translation=MLKKFSKYINQAQISVPVASLIFLRILIKVLLLLSAIYFRVSLASLFIIIFIFLITEIYRNVGTILSSLKKFPDEAIGSIVSAIDGAIIVLLLYYTNLLGTDLYLFIILSITFDTIEYGINAAMAEGLTAGISFAFIESFLSQNYADTITKVIIIIFIGIITGWLSEKVNKSEKILHNTILRDKKARKLNKLKNAFINISAHKVKTPISVIEGYIELLLNERVGKLNQNQKDYVLKINDNARKLDMLLSDLLSVLTLQNNQITIAPSENYPYKLIEEMKYEFSATEKLKGIKYLVDIDINNKELGSFDDEKIKIALSNLLSYSFDKARTTVSLNSYINNRTWFIEIKDDSVGINKTEIKRILEKEKEIFDTIRDLEDRGLNLYITHLIIEAHKGGFEIISIEGIGTTFKINLPL;locus_tag=LOCUS_8360;note=WP_000824513.1 HAMP domain-containing sensor histidine kinase (Bacillus) [pid:23.5%25%2C q_cov:86.5%25%2C s_cov:75.5%25%2C Eval:7.7e-13],MGA_842
sequence05	MetaGeneAnnotator	CDS	20165	20791	.	-	0	ID=MGA_843;product=nucleotidyl transferase AbiEii/AbiGii toxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010890562.1;translation=MFDNAIDKKARKALDLLTKNPEIDKFYLAGGTALAWQIGHRVSFDLDFFIKDEFIPLDLLYSLNQSGINLQNISTNNFTLRGFYNDCEISFIRFPYKLIDVFRKEDGINIAQLKDIGLMKILAIADRGLKKDFIDLYFICKFNISLKELFDQFPTKYGIDDFNTYHYIKSLAFFENAEKPSNLQLLKPVNWQDVKNFIILESKKLLDS;locus_tag=LOCUS_8370;note=WP_010890562.1 nucleotidyl transferase AbiEii/AbiGii toxin family protein (Aquifex aeolicus) [pid:35.9%25%2C q_cov:97.6%25%2C s_cov:98.5%25%2C Eval:1.2e-18],MGA_843
sequence05	MetaGeneAnnotator	CDS	20740	21033	.	-	0	ID=MGA_844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPKEFKKYLWDSRVNDMDIETYKYLIISRVLEHGNLRDVKKILSLYSSEDIIEIVKNSTEISKRTGYFWKYYFNIQEPIKCLTMPLTKKQEKLWIY;locus_tag=LOCUS_8380;note=MGA_844
sequence05	MetaGeneAnnotator	CDS	21100	22287	.	-	0	ID=MGA_845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNFKINTRYITQYLFTFLIIFTFLSFNINSKFFEIIISIEIVKIFFMYIEQIIYRILKFSINSILIGLEIFFIFIFISSNIYILTFLLLALIIVNTIIFEDESIYIGIILIPILSILEILSSKANASIFLVILSSILGLLFKYFYQSIKIQKITPTEDLTKNNLEIDEFNNTSDIKDEFTIIVSHNLRTPVATIRGYLQLIEYTKDEELKKNYFNLLNNNVNKLYSLVEEVLDIIDNTKKDTKIKTNVSLIISEIIERMDPEINSKRIVINKNFESQQIEVAINDSKLKIIISNILDNAIKYSHLNSSIDITLKTINNVVSIGIKDYGTGIGKEEMENIFSKYHKSTNVLNSNFEGFGLGLYIVKNLINEEKGKINISSEKDKGTEVEILFPL;locus_tag=LOCUS_8390;note=WP_010965008.1 HAMP domain-containing sensor histidine kinase (Clostridium) [pid:28.5%25%2C q_cov:57.7%25%2C s_cov:40.5%25%2C Eval:1.7e-22%2C partial hit],MGA_845
sequence05	MetaGeneAnnotator	CDS	22290	23372	.	-	0	ID=MGA_846;product=glycosyltransferase family 1 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003355946.1;translation=MKYIGIDFREVLEAETGIGNYTKNLTQEILKLDKKSVYYLIFNKGKTYERYKSLYKNNKNVKVVAIKSKSQSLKSEFILGKELKKLKIDLFWTHIWGSAYILPVPYIITLHDIIGIKNPKYVSVKYRLYNSLHLKWTMSHALKILVPTHAVKSDIIKYFGGRNIKKIKVTGEGVSIPKSYYEGIDVLDKYNINSSFFIYIGNSKPHKNLNILIDSFEEYREKYNKKDSLVLIGVDKNQISGNLENVYILKDINNTEKFEILKKSTALITLSEEEGFCLPLLEATYVKVPIICSDIEVLREVIGDEGALFVDNKDKEDVALNMYRIAQNKEIGEKLVKEAEKRLNYYSWKKTAKKILKYIK;locus_tag=LOCUS_8400;note=WP_003355946.1 glycosyltransferase family 1 protein (Clostridium) [pid:30.0%25%2C q_cov:95.8%25%2C s_cov:94.7%25%2C Eval:6.9e-23],MGA_846
sequence05	MetaGeneAnnotator	CDS	23369	24367	.	-	0	ID=MGA_847;product=UDP-glucose 4-epimerase GalE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583707.1;translation=MQNKQILVLGGAGYIGSHVVERLYNKKYKIIILDNLYSGHIKAVEYLKDRVVIGDINRENLEKINKKFGKIDGIIHLAGYIEVGESMINPSKYVSNNITVPTEILDFMKDANIKSFVFSSSAAVYGNKDKEIKENTQKNPINMYGLTKSVFEDILYFYDSIFGIKSISLRYFNASGASHFKNIGENHLNETHLIPLILKTALGQRDAINIYGDDYDTPDGTCIRDYIHVDDLAEAHVLAIDNLIEHRESHIFNLGVGEGYSVKKILDLSKEITGIDIPSKIMPRRSGDPAFLVANSELIQKEFGWRAQYDIKDIIETAWNWYKNNPEGFSSI;locus_tag=LOCUS_8410;gene=galE;EC_number=5.1.3.2;note=WP_012583707.1 UDP-glucose 4-epimerase GalE (Dictyoglomus turgidum) [pid:50.0%25%2C q_cov:97.9%25%2C s_cov:98.8%25%2C Eval:1.0e-86],MGA_847
sequence05	MetaGeneAnnotator	CDS	24411	25496	.	+	0	ID=MGA_848;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966352.1;translation=MKYAIVHDDFIQFGGAERVVVSLNDIFKNSDVFSSISSEDNLKLFENFYLSSAQKYSLFKKYSKQLFFIYPYIFESFNFNDYDIVISSSSRFAHGIITQPSTMHICYMHSPSRYIWDYEDYIKEKKLNILERILLPVFKSYLMMWDYAAAQRVDYFIANSSYTKDRIKKFYGKESVVISPPVNIDKYLEIKDTKGKYYLYVGRIVPWKRLDIVIDAFRENGKKLCIVGRGEKEYISLLKSKSSSNIKYIENATDEDLVNIYANSKALIFPSKEDFGIAPVESIASGKPVIAYKEGGVSDSIVDGKNGVLFPTQDKDSLNIAIERLESLNLKSADIKKTSHKFSAKNFKSNMEKFIDICQKK;locus_tag=LOCUS_8420;note=WP_010966352.1 glycosyltransferase family 4 protein (Clostridium) [pid:40.1%25%2C q_cov:98.3%25%2C s_cov:95.7%25%2C Eval:5.5e-73],MGA_848
sequence05	MetaGeneAnnotator	CDS	25481	26560	.	+	0	ID=MGA_849;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966352.1;translation=MSKKIKLAIITDPLKTYGGLERLLLGILELYPESFVYTPFYKKESLPKEFSLYTIVESKYASLLKKIGPLAVLLYPLSFESFSFLDDFDICFSITSGFAKDINTKNKPHISYIMTPPRFLWNLPNSNQDRFRFKKILLFINNTLRLKDFYSSQLPQRLLSISVTVQKRIKKFYRRDSFVLYPFVDTELFNINSKYKDGDYFIIISRLEKYKNIETVIDICNKLKLKLIIVGRGSYQKYLESIANRKYIKFLGYIKDRDMIDMINASRALIFPTAEDFGLVPVEALACGKSVIAYNKDGASEVIVDKSNGYLYNTKHELENILINFDSSLFDRYKLRESSMRFSKEVFRKELNKILESYE;locus_tag=LOCUS_8430;note=WP_010966352.1 glycosyltransferase family 4 protein (Clostridium) [pid:31.8%25%2C q_cov:98.9%25%2C s_cov:97.0%25%2C Eval:5.0e-42],MGA_849
sequence05	MetaGeneAnnotator	CDS	26553	27188	.	+	0	ID=MGA_850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKFIIRFLDILGSIVALIIFSPFMIIIIIAIKIDTKGPVFADTPERVGLHYKPFKFYKFRSMIQNAHTILKTDPKYKDIYEEYKKNNYKLKNDPRITKVGKFIRKYSLDELPQFINVLKGDMSLVGPRAYYFDELDYYIAKKKKFKKDIQIITSIKPGITGVWQVSGRSNIPFDKRIQIDLEYAMNYSIKQYFLILLKTPMAVFSKKGAY;locus_tag=LOCUS_8440;note=WP_012583255.1 sugar transferase (Dictyoglomus turgidum) [pid:43.8%25%2C q_cov:98.6%25%2C s_cov:43.2%25%2C Eval:2.2e-39%2C partial hit],MGA_850
sequence05	MetaGeneAnnotator	CDS	27188	29059	.	+	0	ID=MGA_851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVITLDKYKGEAFRKMPIYKRKWFLITIPSVIVVILFLYIFLFSKLIGLYKSYEGIKGSLTLITYYKDKKDLSGIESQIPNINNNLILMRSDINALGYLNYIPFLNNYYKLGFNLINTGYYASSGFMKVEGGLNNIAPLFGYSTTSSTQAHTITGQQKIYEIVQSLPQLSKIFKKAYPEFLKANSYMQNVDVQYIPSSEEKKYNVSSLKTAFAGVIASLPTLFNSTQTLDSILGVPTPQRYLLMFENSGEIRPTGGFMTAFGFVNFDQGKLGSITATNIYNISNVINYRPLAPRALYVYNGTKHWYLRDANTSSDVPESVQNIYKFYNSIYNAPTIDGVIFINTWFVDDLINAVGGITMPSAYGNNLVLTANNANYYMEYMAEKSNLPQQERKDFISIMMHTLISKVFHSSGNKIFNVLNVVIKDLSQKQVLLYFNNPKSESLIAKYGWGGIIPTSNKYDYLQISEANLAGAKDNYFMGETVNVNISKVANHYVQSVSVTWVNPAVYDDWLVGPYLAWVRMYTPLGSKLISMKGVNGFVQNYTNSIVQKTVFGNHIRIAPRLSKSAPPASGTLTYTYDLPSNINLSKFIFQKQPGIKGEWLNVNFGNIHKSVYITSDVTLDL;locus_tag=LOCUS_8450;note=MGA_851
sequence05	MetaGeneAnnotator	CDS	29064	29756	.	+	0	ID=MGA_852;product=DNA repair protein RecO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014518908.1;translation=MQEGVILKYVDYKENDRIITIFTKEGKISVIAKGLKNNKRFNSLDIGNWINFQSIKTKGIPIITTTKLIDSFAKTKEKYSLYVFFLLEIIQKIQREGEDEDLLYKLLIYSLKNLEKNPKIYSSLFLVKILIYEGVFIDLNNCNICKKKLSESNRFIISSEGISHEECNMGNLYISLFSLKLLKYFSLFDIEINSINFEIEDEIKKETLFYMISFMENFLGKEINSKKYII;locus_tag=LOCUS_8460;gene=recO;note=WP_014518908.1 DNA repair protein RecO (Clostridium) [pid:30.0%25%2C q_cov:94.8%25%2C s_cov:91.5%25%2C Eval:5.8e-15],MGA_852
sequence05	MetaGeneAnnotator	CDS	29813	32803	.	-	0	ID=MGA_853;product=efflux RND transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000375594.1;translation=MIEKIVRYSIKNKILVFVVLIFLVLFGAYAYITADREIFPNVNLDTLIIQASYPNQNASQVYTQLTEPIYNAIKSVNGIQTVQENSNNGFTTLIVTSNYGVDQNTLEQQLNQNIQSIKLPLGASTPQVSQFNFTNLPILEISLSGKGFQNYAINKLIPDINNVSGVSQVSYYGNTTRELHINVNYLKLNKYNISYTTLVNIIKSFDISSSIGNVKGKNGLSQVLTIYSNIGSINNLNNAVIGNVNGKPIKLSDVAKTSIVSVYRNQVVSTNGKKSIVISVTGQQNINTISTIQTIINKINSTIPKGVEYITLSNDTQTIQSTISGIVDETLQGIILAIIIIFLFLRSPNTTLIASLSIPISFVFTLSLMNIQNITFNIMSLSGLSVALGRIVDDSIVVIENIFRHISESNNPNENIIINSVKEVGGAITSSTLTTIGVFLPIAFVGGITSSFFNPFAFTAVSALIASLFTAIIVIPVFSKIFLIRKKTKKIEEKEFFLAKYYEKALKYSLNHKFYTISVTFIIVIASLFLIPYIQTGFIPSPQQPDAVITGSLPLGTSQAKTIQTTTKITNYLKGISNLSSYTVQVGASASSKSPTASIGGNQENNNFQIYLAFSNSNNINSTVTNIENYDNKIKNLDSQVNLLSAVGNLNTVSLTINSNSNNKLYSANKYFMNKLKGLKNLSNLSSNLNTNTYQKEIILNNKKLQQYSLSSQQVLGEISPYFIPQNISGYRIANNTYNTYIYLNNISNLANIKVTNIFGQSIDLSKIASIQDKSYTSNITYQNGIRAVNINALISSGNTQTTNNTITKYLNETENKYGVTIVNQGSSSTQTSSFNSLFEAMGISVFIVLIIMIATFSSISEPIAILFSLPVTIIGVLVGLFITRSTLNLPSLIGMLMLIGIVVTNAIVLLTKVRQNIDDKNMSVYDSLVESGKIRLRPILMTAITTIFALLPLAIFASSSTLIGQSLAITVIGGLFTSTILTLFIVPVIYASLKK;locus_tag=LOCUS_8470;note=WP_000375594.1 efflux RND transporter permease subunit (Bacillus thuringiensis) [pid:27.3%25%2C q_cov:99.9%25%2C s_cov:98.0%25%2C Eval:2.8e-116],MGA_853
sequence05	MetaGeneAnnotator	CDS	32914	34266	.	+	0	ID=MGA_854;product=glycine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048370.1;translation=MDKIVSLAKRRGFVYPASEIYGGLSNSWDYGPLGAILKENIKNEWLKEFVLSKENMLLLDSAIIQNPKVWEASGHLEKFSDPLSECSSCHKRYRSDNLIDEALEIDVDGFSLEDIDSLIDKNNIVCPNCKKRFLPTQNFNLMFQTFLGPVKDSSEIVYLRPETCQGIFTNFDNIQKSSRVKLPFGVAQVGKSFRNEITPGNFIFRTLELEQLEIEYFTYPDRAEDDFNIWLENFENWYERIGIKKENLKRVELNKDQRAHYSLRTVDLYFNFPFGFKELQSFANRSDYDLKAHSKLSGKKLSFYDETQKKEIIPFVVEPSVGLGRLFLALLSNGYREEKTPTGIRTVLSLSFRIAPFQIAVFPLMNKNGIDVLSKKIYTDLKNYFRVVYDESGSIGKRYRRQDEIGTPLCITVDQESIDNNTVTIRDRDSMKQVTLRIEGIKEYIDKCFI;locus_tag=LOCUS_8480;EC_number=6.1.1.14;note=WP_012048370.1 glycine--tRNA ligase (Clostridium botulinum) [pid:48.9%25%2C q_cov:99.1%25%2C s_cov:97.6%25%2C Eval:1.5e-126],MGA_854
sequence05	MetaGeneAnnotator	CDS	34254	34916	.	+	0	ID=MGA_855;product=16S rRNA (cytidine(1402)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880697.1;translation=MFYIIPSPLGSLDDISKKVIDTIKSLDILYCENPSHTSRILSKFDIQGVLLKKYVDQRELILIPQIINDLKSHKKIGLISDAGYPTISDPGYKLIRALVNENINFEVLPGPTSIIPALIYSALPSNKFIFIGFLSKKKNKIKEELESSRGITTIFFESPHRLHKTLNFLEEEYPLSSITICREMSKLHQEIIHGTPKEILDSNKLKDKIKGEITIVIYIP;locus_tag=LOCUS_8490;gene=rsmI;EC_number=2.1.1.198;note=WP_010880697.1 16S rRNA (cytidine(1402)-2'-O)-methyltransferase (Aquifex aeolicus) [pid:39.9%25%2C q_cov:98.6%25%2C s_cov:98.2%25%2C Eval:2.7e-43],MGA_855
sequence05	MetaGeneAnnotator	CDS	35081	35770	.	+	0	ID=MGA_856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFKDKIIVITGASQGFGKALAQALKKEDAQIIISSDNEKNLENTAKELSVDFFLADVTVFENVKKLSEYVIKKYRRIDFWINNAGIQIAPSLVEEIDIQKLHHLFNVNFFGYFYGCKIALSQMKKQRHGVIININSTAGLEGKPDLSAYVSSKFAIKGLTESIRKEIKDLDIKILGVFPGGMQTDIYKEKYPNDLKDYMDVDSVVEKVIINLKSEIPEIDFVINRPNK;locus_tag=LOCUS_8500;note=WP_012259119.1 SDR family oxidoreductase (Chloroflexus aurantiacus) [pid:36.8%25%2C q_cov:80.3%25%2C s_cov:69.9%25%2C Eval:4.0e-24%2C partial hit],MGA_856
sequence05	MetaGeneAnnotator	CDS	36234	36494	.	-	0	ID=MGA_857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATTVQVKLTLPKKIKDYYDSKATEFDMQTSTFIKYLLIKNIEDEGISTYQASKYSEKYIADGLQEYETGKLEKFTDHKDFIKTVS;locus_tag=LOCUS_8510;note=MGA_857
sequence05	MetaGeneAnnotator	CDS	36650	37405	.	+	0	ID=MGA_858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVIEVKNIKKKYGDLEAVKGVTFEVNKGEVFGLLGPNGAGKTTTIEMLEGISKIDSGEAFISGIKVSQNNHPLQKIIGVSLQSNNFFDSLTLSEILLLFSHFFNVKIDPSDFLKEVELEEKRKTYYKELSGGQKQRFTIALSLINDPHVLFLDEPTTGLDPQSRRHIWDIVSNLKKKGKTIILTTHFMDEAEVLADKVAIMDNGLILKMNTPRALIEELIKKGFKKKVVSDKRANLEDVFIDLTGKNLRD;locus_tag=LOCUS_8520;note=WP_012582519.1 ABC transporter ATP-binding protein (Dictyoglomus turgidum) [pid:51.7%25%2C q_cov:84.1%25%2C s_cov:68.1%25%2C Eval:1.7e-58%2C partial hit],MGA_858
sequence05	MetaGeneAnnotator	CDS	37509	38573	.	+	0	ID=MGA_859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAFSFYTQTSTPKLNIQILYNPTSKIFVEKLKNELQKTSNVSVLSINKKSSALKSLKNEKTDLIISIIPSKNKVIQPVYNRYIYQPAPISSLKVGASNYNVVFYLNHYSTNLFYEEIFVTNIEYNFLKNSISSLGIKSPFVFRQQFIKNSQTYSYLDFLIPGILALSLMQGIIFAVINIIVNYKDLGVLRRLAVTPLTKSDFLASLTLTRLIFGLIQVAILIFIASVFIKVIPQGGILGFLNLAIIVILGSLMFVTLSLLISSISNKTETVFPIANLITLPMLFLSGVFFSVQGLPVWLQNIVQFFPLTYLANSLRGVYEHGYSLFILRGDIIGMIIWVIILFALNVKFFKWE;locus_tag=LOCUS_8530;note=WP_011705177.1 ABC transporter permease (Aeromonas hydrophila) [pid:32.8%25%2C q_cov:57.6%25%2C s_cov:59.6%25%2C Eval:2.0e-27%2C partial hit],MGA_859
sequence05	MetaGeneAnnotator	CDS	38631	39194	.	+	0	ID=MGA_860;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKKLGVYINFIGSINEKISSLLISLLTEQLSSGVKLYRINISSVGDIVFYAASLFNFISGLKDVIVNTHNIRQTDSTSNLLFFSGTKRIVNRSFGFFLHSLEIIIQSQIPLFLEFLKEKVEGEEKDELKMAKIIFNKINKNIDEILKMFKERKTYSAQESKKSGFILDIKDSVGFSDIPIYTITN;locus_tag=LOCUS_8540;note=MGA_860
sequence05	MetaGeneAnnotator	CDS	39207	40085	.	+	0	ID=MGA_861;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQINKNSNTLLRIKELINNLRYLEGISQNSNINIASFSFITPLSITPIASIINSKSLKYIYEDNNNSYLETILFPNGINMYDNIFTNKTYIPIIHLDINHLSENELNSQLNLLNDNYMSILKTNIITEKRFIKLITETTISYFLGEMFANIEEHSKAKNIYIFSQYWQKSNSCEICIIDDGQGLYNSLKNAGRNVINSKDALSSILERGLSAKNEFGEIQRGTGLKTTKALLINNELKGEFFIMSGNAAYFQSSKDKGIFINLSNYSWQGTIIMLKFKSPINQFSLYDYVK;locus_tag=LOCUS_8550;note=MGA_861
sequence05	MetaGeneAnnotator	CDS	40069	40404	.	+	0	ID=MGA_862;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMLSKNIDLYNCFNSSSLITRKSASIIFDEISKIQEDNIILDFHGIKYTSRSFLNELISKDSKFHLLNKNVDYVNMSSDISKLYNLVKNSSGLKSSVTYPSLAKAKTITI;locus_tag=LOCUS_8560;note=MGA_862
sequence05	MetaGeneAnnotator	CDS	40442	41176	.	-	0	ID=MGA_863;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLHTNIVYLIILNLFFIFVYLTSEFLFKKECKTNKSKEYLRKLTHIETSILFILATFTLNQFFFILLVIESLISVIVSKYLHIFHSLNDSRSKKGNWGGIFYALALIIIALIFYKQTYLIREALLVTGISDSLAALTGINIPIKQYNILNDNKSIMGTFIFFISTTFIFIASNINYIPTMILAGILSITESLSFNGSDNFTLILITPIILILGWGYDLIIFSLFLSIFVLLLLFPLKKFNIKSK;locus_tag=LOCUS_8570;note=MGA_863
sequence05	MetaGeneAnnotator	CDS	41271	41873	.	-	0	ID=MGA_864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVVDIETTGINPQKNSIISIGAVNFKHPKKKFYSECKIFEGAEINLESLKINGFTKAEISFENKDKKTLRNALIEFLDWVKEQRDSDAIIAGQNPSFDRDFLIYTCERYQIRFPFTFRTIDLNTLTAFYIIKNNINTKINSLNTNRIYTLLGMPEEPNPHNALTGAIMEAEAFSRLIYGKNLIEEFKEYKIPENLVLNS;locus_tag=LOCUS_8580;note=MGA_864
sequence05	MetaGeneAnnotator	CDS	41876	42220	.	-	0	ID=MGA_865;product=YbjQ family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004193399.1;translation=MENEVFDHSLVTTGFEIPGYTIVLNKGVVKGIIVRSRSILGNIGASFQTILGGNISLYTQLCEKSRDDAYNLMCQHAKDLGANGIISMRYDTNELAQGIAEVLCYGTAVIFNKN;locus_tag=LOCUS_8590;note=WP_004193399.1 YbjQ family protein (pseudomallei group) [pid:60.2%25%2C q_cov:90.4%25%2C s_cov:92.8%25%2C Eval:8.2e-32],MGA_865
sequence05	MetaGeneAnnotator	CDS	42267	43166	.	+	0	ID=MGA_866;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAILSRAKTYEVLSMKIEAQKRGHLVDILDPKDLVFSVINNQFKIFLDSGIDLLEYEAYIPRYFGITVTSNNKKNSKSLIVKYLLDNNKIVLDKIEGERLGGTGKIYSFSKYIGENIPLIPTLFSYHLENLNFIEEQCKSLNISAPYILKDINGAQGRNIFKIETLKEVKEILKENPSVYFMLQPYIEFKNDLRILVLGGKILGVMDKIHSEDNFKGNISQGAIGKNFIITDDIKDIVYKSYFTNKADFVGIDIGVWKNSLYLLEVNRSPQFQGVDKYLGINVAQEIIKYLEYQYIL;locus_tag=LOCUS_8600;note=WP_011021379.1 RimK family alpha-L-glutamate ligase (Methanosarcina acetivorans) [pid:27.5%25%2C q_cov:62.5%25%2C s_cov:62.5%25%2C Eval:3.6e-16%2C partial hit],MGA_866
sequence05	MetaGeneAnnotator	CDS	43163	44080	.	+	0	ID=MGA_867;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKICLIIRSNKGGNVNNFFDVNTIKEASIKNGHEFFLLDPKDIVFSFKGDELFIKTINGSDILDFDAYILRINIIKDKYKKQTDKFTISQYLRSHNKFVFNYAETIRASSRSKIYDFYRLNKFKIPLIPTLYVESSKFESTKKFLEKSEIKYPLILKSNKGLQGKNLFKVENESELKDILENKKSVSFLLQPYFKILHDLRVLVLGGVVLGAMDKIHSEDNFKGNISQGALGKVFDLSLELKDLAIRAARADGSDFVGVDIAITDNGIFVLEVNRSPGFEGFSKYLNIDVASKIIEFLENKVSEE;locus_tag=LOCUS_8610;note=WP_011072232.1 RimK family alpha-L-glutamate ligase (Shewanella oneidensis) [pid:29.2%25%2C q_cov:61.6%25%2C s_cov:57.6%25%2C Eval:1.5e-17%2C partial hit],MGA_867
sequence05	MetaGeneAnnotator	CDS	44294	44728	.	+	0	ID=MGA_868;product=division/cell wall cluster transcriptional repressor MraZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003856549.1;translation=MILGEYTSKLQEKNRVVMPKKFRSEIGDNIIITKGYEECLIVVPLDKWDLMIKDIISKPFTVSSVRDTSRFILGSANDINLDEQGRFVIGSSLIEHANLSGEIIFLGLMNFIEVWDFSKWKEREKYLRDSGANIANELSSLDVS;locus_tag=LOCUS_8620;gene=mraZ;note=WP_003856549.1 division/cell wall cluster transcriptional repressor MraZ (Corynebacterium) [pid:30.8%25%2C q_cov:83.3%25%2C s_cov:83.9%25%2C Eval:1.8e-14],MGA_868
sequence05	MetaGeneAnnotator	CDS	44700	45623	.	+	0	ID=MGA_869;product=16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861627.1;translation=MSYLRWMYHESVLLQKVINKLDIKKNGIYIDATLGGGGVSFEILRRLSGGVLICFDIDEDAIKNFKSLFYLEYKTKFKGMEDSINGNKIFLFRENFSNIKNSLDTINISKIDGIVYDFGVSSFQIDDASKGFSYMQNSILDMRMNKDLKITAQDLVNGMYESELEGIFRIYSEEPFSKQIARNIVKSRKMERIETSDQLVAIIKKSIRNQAYLYHHVSRIFQALRIKINNELGVIFDSLLLLPDILKHGGRVVLITFHSGEDRIVKNYFSESEEFFNLEKKIILPTDEEIFMNKRARSAKMRVYERK;locus_tag=LOCUS_8630;gene=rsmH;EC_number=2.1.1.199;note=WP_011861627.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Clostridioides difficile) [pid:42.5%25%2C q_cov:97.4%25%2C s_cov:98.7%25%2C Eval:1.0e-58],MGA_869
sequence05	MetaGeneAnnotator	CDS	45610	45909	.	+	0	ID=MGA_870;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENKKSNNLVIILIVFLFTLIVGQLYLMNNIDSYSYNVQNLVSEYNSLNIKNQNLQTEISSNQSIVNIRNNVLGKGYKNVNNINYLPQNAYSFNIASK;locus_tag=LOCUS_8640;note=MGA_870
sequence05	MetaGeneAnnotator	CDS	45906	47627	.	+	0	ID=MGA_871;product=penicillin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943700.1;translation=MKESVFTRKILILLFLLFLGFLVLVYRLFNIQIINNAKYVQLASSENSFSNTMSPLRGIIEDSSGGILAGNRPVYSVFVSLNNVIDKKSFINEVSSVLGLNKKYVSSLFKTKLIWVQLAANATNSQKSKLSNLASLTFQEHELRFYPNNTLFAHILGFLGKDYQGDISGFYGVEGYFNGALLGTTGYSKGIESALGIPLLNHNYSFVPPQNGDTIKLTINPAIQEIVSTSISYWTKKEDAVSGAAIVMDPKTGAILAMSSYPSFNPNTYWKYKYANFQNNAISFIYEPGSVGKLIMAAAALQTGAMTPATTVNDATGIFPVGGQNIYNWNKQPDGVMNLGKILLLSSNVGASIVATKYLSSKIMYNFSKSFGFGKLTGITLQGEETGIIPNYTSWNESNLATDAFGQFVSVSPLQIIDAYDAPANGGKIMQPYIVQSITSSSGKTVNYTPQVLSTPISSNVAGELTSMLTYTTQGEPNWALHTEGVGAYMPIIAGKTGSAQMPSKTHPGQYSTHNYVMTYVAYAPAKNPKFILLTMMNSPQKPLLNQYYAATTACVEWGQIANKLFPYFNITP;locus_tag=LOCUS_8650;note=WP_010943700.1 penicillin-binding protein (Geobacter sulfurreducens) [pid:29.9%25%2C q_cov:96.9%25%2C s_cov:82.5%25%2C Eval:5.1e-69],MGA_871
sequence06	MetaGeneAnnotator	CDS	791	979	.	+	0	ID=MGA_873;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLILEYYNIVVTMNTKVIKRDIVEDIMRYINDSNIIVLHDARQVGKTHILYYIKDQTNNNY;locus_tag=LOCUS_8660;note=MGA_873
sequence06	MetaGeneAnnotator	CDS	1050	2051	.	-	0	ID=MGA_874;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIEKLKQIVKMKSIKNPELLRAILKMELIEYVLQYIYTSKYRNLIFKGGTCLKICYDLPRLSEDIDLDFVDEIDISSLKEDLISYFKTELAYDRLYASVTNNNQTITLKFPVLRDLGLANQSESDLLYIKLDIQKSPFFNITTDLVPRKNYVIKAYSLPLLFTGKVNAIFTRNKLVGKENKFVPKGRDYFDLLWFLQKGIRPDISMLEQELNISSNIEFKVRLDQRVIDMFTKYKDEIINDLKPFIENTDILNQFIESFLPLYLKYSLEIFDYIVPDEVSRQNYLIDDLNSIIKVKKLQSKEIMKVLNDMDNYKKGSNNLDILGIYNYLISL;locus_tag=LOCUS_8670;note=MGA_874
sequence06	MetaGeneAnnotator	CDS	2041	2664	.	-	0	ID=MGA_875;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPYNGGIMKQFKEVERLEYFDLKTLKNFVPLESKSLYKLVNRRVKDQTFIQLKKGLYTTKAFIENNDMLLYKENIANILKTPSYISLEYMLSKYSILTESVFSFTSVSTKKTRSYINTLGTYSYRNIKEDLFTGYVIRNNIYYATKAKSLFDYIYFKKEVLELESLRLNLDEFTRSDIKEFKMYCKKSSRMLKIYNLLLKYKKNVY;locus_tag=LOCUS_8680;note=WP_010942017.1 hypothetical protein (Geobacter sulfurreducens) [pid:33.0%25%2C q_cov:55.6%25%2C s_cov:51.6%25%2C Eval:4.4e-08%2C partial hit],MGA_875
sequence06	Aragorn:1.2.38	tRNA	2842	2929	.	-	.	ID=Aragorn_39;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0380;note=Aragorn_39
sequence06	MetaGeneAnnotator	CDS	2996	3871	.	+	0	ID=MGA_876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFKKIILIIIVILYVFFSIIAFYKLFPVSNIVKIQKLNYSNLAKNFNPLNLKIKNSNSYKEFNGKEIEEKFNANLTLIKTSLINYYLTYNWSITTNNTSLIVKKSKVIVDYTSSGKDVITMNAFIPTQFSSTSSLFKTTPNQQGYPFDENELTQALLYLNSPYNSNIEVSSFNFNEKNFLNVINVNYNIPVEEIKGISYLPNPNDTSSVLNFYINKFNSLGYIPFTVNGAIIDNNTIYYLKYGLGGLSVEISIKNYGDYSLIYYTLKISGSKNSNFLSFFNKSGWRAVFY;locus_tag=LOCUS_8690;note=MGA_876
sequence06	MetaGeneAnnotator	CDS	3827	4915	.	-	0	ID=MGA_877;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEVIDASCYLDEITEKIKKSKNKIYIQAMHIDFSKKFEIFIDEIIKAKKRGVDVKFNIDEYSIPYIVGHKYYHISQYKRINCNTKSEKNKYYLDKLIKEKIDIKFINEYKYGRIVSEYLPFFGRNHMKITIIDDVSFIGGINLAEKSLDYLDFMVRIKNKKLNLLLIDIFIKNRDGRKNNDITIPIDKLNDLIIDSGRRFKSQIYKETLDSIRKAEQSIIFISQFLPDFNILYALQNAQKRGISVDVITHSPYLAEKKFRNRMEHLIFNIFNIHLNSIHYTKSKYVHAKVIIIDKDSENSEIIFGSHNFSTFGVLFGTSEISLKTKEKTLMSQLINWYNEISSEYLNLIEYSSPSRFIKER;locus_tag=LOCUS_8700;note=MGA_877
sequence06	MetaGeneAnnotator	CDS	4920	7691	.	-	0	ID=MGA_878;product=calcium-translocating P-type ATPase%2C SERCA-type;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948276.1;translation=MSQKNNIFRNSLYPSIFKKTLDEESFVYSLPKDEVLRILETDEILGLKQSQVNKLLEEHGNNELNVKNKFRGISIYISQFKDFLTLLLLIAAIAGFLTNQLVVGIVLILLIFFNSTVGFIQEFSANRMADSLAKLVSKTTTVIRDGKVQNINSIFIVPGDIILLKPGDDVPADSRVIESSNLECLESSITGEDRPVLKTNTPHPKLKLSILEISNLIFLGTTVISGTGKAVAVGTGINTEFGKIALTTSKEKKDKSPLQKEIFRTGEYLIMIALVVAIFAFVINYFYSKLSLQSTLILSLGLAVGVVPEGLPSTVTAALAIALKKLSRIKVIVKRLTSSETLGACNVIVTDKTGTLTKNEMTVTKFFYLNSLNTEFYVSGTGYSDEGKINPAEYNKEVIDKIINISLLCNNSYLNSKGDNKYELVGDPLEGALISYVMKINKNSDDIRNSFKRIIEIPFDPQRKMMSVLVSKSGREYVYSKGAIESLVKSAKYILMDGKKILLNIHLKNLLIEKAKSFEDETLRVIALGYKELKGNESISKKEIEKDLTIVALLGLFDAPRDDVKYAINSSREAGIKVFMCTGDSPEIALKIGEIVNLSTDKTTVLLGKEVDKMSDQELKKILLEDCAIFARVTPLNKFRIVKLLKELGYVVAVTGDGVNDAPALKAADIGVAMGITGTDVAKEAADMILLNDSFTSIIEAIKEGRIIYDNIKKFIRFTVAIDIAEMLSVFLGSILHFAPIMFVLQILTIDLIVNIIPALILASDIPDPDIMQRKPRNAKTHLFDKETVIPIMINGSIIALIAVFMFYITNNIYHNYDMATTAAYSTLVFSQIANLISSRSYKFSFTSFSIRSYSKILLGIVFIIFIQTFFIYNGFMNSILNTRGLPINIMFLYFAIIIILLVVEESRKFFIRKITFKNNINI;locus_tag=LOCUS_8710;EC_number=7.2.2.10;note=WP_011948276.1 calcium-translocating P-type ATPase%2C SERCA-type (Clostridium botulinum) [pid:37.0%25%2C q_cov:96.0%25%2C s_cov:99.3%25%2C Eval:7.1e-151],MGA_878
sequence06	MetaGeneAnnotator	CDS	7855	8187	.	-	0	ID=MGA_879;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNIFVTNLGYIIGIIMVMLSIPLLVWDIPRNSWYGVRIPKAYVSNKNWKIINTYGAKVLIFWGFICIITVLFLNLFVKDFEYVFYFYQSVSFIFLIIAIVQILLFARKV;locus_tag=LOCUS_8720;note=MGA_879
sequence06	MetaGeneAnnotator	CDS	8490	9074	.	+	0	ID=MGA_880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMNDENKREKRIQALEDELNSLKKDSNISHKKRKTNSKVIYEWKAPTRVFKKWEREKLYTVFLWLIVIIVILLFFKEYATIFIIFALGFVIYAMVSYPPESIDHIITEDYVVWFEKKYYFEDLEDFWFSKRSDQLILNIETKYNLIARLVYLVNEKEKEDLLKILSLHLPYKEIEKQNFLSKITDGVYIENELL;locus_tag=LOCUS_8730;note=MGA_880
sequence06	Aragorn:1.2.38	tRNA	9065	9138	.	+	.	ID=Aragorn_40;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0390;note=Aragorn_40
sequence06	Aragorn:1.2.38	tRNA	9149	9238	.	+	.	ID=Aragorn_41;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0400;note=Aragorn_41
sequence06	MetaGeneAnnotator	CDS	9282	9701	.	-	0	ID=MGA_881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSCIGQQVGLIYYKVPNILGTRHLLYCYDYKTNTSENIGKPPKVYYLIANNKNIPNPVSINKSVMVLINNRIENAKHTIMVDDFELYTNILIIDDAVGSGATLNETAKQIKDKHVVKGNIIGLAITGSFKGFDIISEV;locus_tag=LOCUS_8740;note=MGA_881
sequence06	MetaGeneAnnotator	CDS	9809	10195	.	+	0	ID=MGA_882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDLNLLNKEEKDLLSNWEGVYKKGLLSLWILLSLNNKEMSMSEIKDFINDITDDYLLVDDNSIYRSLRKFYTLEIVDFAMKPNSKGPDIKIYKLSKSGEKILKAFIQRNIISIYYKDKINLLFKGNI;locus_tag=LOCUS_8750;note=MGA_882
sequence06	MetaGeneAnnotator	CDS	10770	11279	.	+	0	ID=MGA_883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDLSQTTNNENSMSENVTLDSNDSKVVDSTVSTSEINPTENIDSQKKDSGKEKNKSHSDRIEHTILLFIGILIILILIVLFEIYINSLPTGNTISNLPKTKSLITQPTKLNSSNIVTPTNAQQAVNQLNTLNSVLNNDTSTSSSAYSSYQSSQSTSTQGSNQYSSLAQ;locus_tag=LOCUS_8760;note=MGA_883
sequence06	MetaGeneAnnotator	CDS	11284	12057	.	+	0	ID=MGA_884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTSIKIISTIIVLTTISANVVYAQATKNKPLVNSQSKSISVIVSKANIFINERVQKLKMIELRIKNLESTSSIVNSTDISNLITSYNIDIQNLNTLKATIDSYPQTGSMQNLMVLVRQIFAQYKIYSIELPTGNALVYLGILAQFSNNYNVIGENLLKDISFAKSKNVNTQNILNDYNMYLTDVALYNQDLTSAINLEQSINISNYPQNIAQIKLLHQDMVSLHQQKALVHKDFTRFINDFEMLFNIGMRKNMKMK;locus_tag=LOCUS_8770;note=MGA_884
sequence06	MetaGeneAnnotator	CDS	12063	12893	.	-	0	ID=MGA_885;product=undecaprenyl-diphosphate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_070939922.1;translation=MNILNDIILSFSQGISELFPISSLGHSIIIESLLNIHVTKNSSFFLPFIVSLHVGTSVALLIFFFKEWKEIVKALFRTAIKGKLSKDKTENFAWKLVIATIPVGIIGLLFESVVKKIFESPLIAAIFLIVNGLILYLGEILIKKKKLIKKLEDLNFLDSIIIGISQIFALIPGISRSGASMVAGLLYDLNHEDAAYFSFMLATPVILAAGLLEVPSLFSTHSLAPFWYAFWGAIISGVTAYFAVKFLMKYFERGTLKPYAYYSMLVGVLSVLIFIR;locus_tag=LOCUS_8780;EC_number=3.6.1.27;note=WP_070939922.1 undecaprenyl-diphosphate phosphatase (Mycobacteroides franklinii) [pid:39.0%25%2C q_cov:97.5%25%2C s_cov:96.9%25%2C Eval:2.1e-52],MGA_885
sequence06	MetaGeneAnnotator	CDS	12951	13160	.	+	0	ID=MGA_886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKNLVIILAAIFIILTIYYLIPGINHILVYNGHPQTYQLKHALLFFILAVIDIVFGRIIINKEKEIN;locus_tag=LOCUS_8790;note=MGA_886
sequence06	MetaGeneAnnotator	CDS	13153	13617	.	-	0	ID=MGA_887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSKESSTLIFESIKKFQNSDELLLFIEKNKLFLKNSSSDLPQIITKEDLEKIKNNSYGNLSGFILHERGLLQPSLIDIGSIVSLRFGNDLEECIFGTRFFFESNKGEFNGRDIIPYNSPLGKNIWGKGVGRYEYYLGNKESYVEIENIESPN;locus_tag=LOCUS_8800;note=MGA_887
sequence06	MetaGeneAnnotator	CDS	13631	14248	.	-	0	ID=MGA_888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKSIEEKIRSLIKLSNLDIKTVAKKLGITENMFETFLKEESLPSKYIFTLTKILNTSILYFYDNEKDIFSDIIESWKYNEKTSLYTSIPLVENIYPDNLLRTLYTSKTAVTLPFNSIKNFDSIIAVRLKKLNVKESILPERAIIVVNFKGEEYSKDSIVIAYNESLEWKIINKSLYEKELSSVYKIFGEIVFFELDELDLIWSL;locus_tag=LOCUS_8810;note=MGA_888
sequence06	MetaGeneAnnotator	CDS	14254	14898	.	-	0	ID=MGA_889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNNKGEIVFKNIINNKYILLKIKIDEKFKYIPGQYLILKFNEQLRRSYSIASFDKNIITIAVKIDKGLGAQSLLALKVGNIIEFLGPFGNFYLRESKNNIFIATGIGITPIKGIIDHAVFLNNIDNIKLFWGMRKFEDEIFDFSFLKGKYLKIFSQEESASLRGYVIDHLIENLSGLKKLNFYICGNPDVVNNIKLFIENNLMNIDNIYTEKF;locus_tag=LOCUS_8820;note=WP_011261037.1 CDP-6-deoxy-delta-3%2C4-glucoseen reductase (Aliivibrio fischeri) [pid:24.6%25%2C q_cov:91.6%25%2C s_cov:65.1%25%2C Eval:9.6e-14%2C partial hit],MGA_889
sequence06	MetaGeneAnnotator	CDS	14888	16558	.	-	0	ID=MGA_890;product=ribonuclease J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948911.1;translation=MDKKLKVITLGGVEEVGINSTIIENNDDIVVIDFGLGFPDDDLFGIDLLIPNFDYLKANKSKIRGFVITHGHLDHIGGLAYVMEELGFPPVYGAQMTIEIIKEKFSDPVFNLKNKVKLIEFSPDDSIFLGKFKVSFFRVNHNIPDSVGIIIATDYGNIVHTGDFKFDNTPFQEPVTEYHKIVKVGEEGVLLAMSDSTNATKSGMSVSESGITPVLENIFINSKGRIIAATFSSLLTRVNQLISLSYKYGRKVVVSGISMENSVKIAKKLGYLKVPEGIFIKVDEVSKYKDSEILVITTGAQGEENAGLMKMITGEHQYINIVNTDTVVLSSSVIPTNAMLIQKLLDTIVSSGAHVIHQNIMDVHAGGHAHQEDHKLFLNLIKPKFFMPIEGYQSFLDAHIQTAKTVGIKDEQILMPKNGLVFEYFPGRGFVRGERIKHSPVRISDNSIWDVGNKIIKERSQLSEQGVVLIVIGVDSHLKLIKDPYVISKGFVYSSKNLKIINYIENFVKKSFEDNIITNIKDKSELKKIIISKVEKEILNKFKKEPLVLLILNNGK;locus_tag=LOCUS_8830;note=WP_011948911.1 ribonuclease J (Clostridium botulinum) [pid:37.7%25%2C q_cov:98.6%25%2C s_cov:98.4%25%2C Eval:9.3e-108],MGA_890
sequence06	MetaGeneAnnotator	CDS	16580	17308	.	-	0	ID=MGA_891;product=isoprenyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000971296.1;translation=MNIKERVLNIPQEKFPKHILIIPDGNGRWAKSKGKSVAAGHFVGFRVAKKILKDLYSLENIKYLTLWGFSSDNWKREKSEVDYLMSIFERMINLFFQELLEKNIKFIHLGRKDKIPESLKLNIEKLENITKDNTEKILSVAIDFGGEDQVLRMINKAKLLEVPLPFDLKVLNLLKDGEGLVPPADLLIRTSGERRTSDIGWLNGAPTELYFLEKYFPDIKTEDIYNAILDFSLRERRFGKRI;locus_tag=LOCUS_8840;gene=uppS;note=WP_000971296.1 isoprenyl transferase (Bacillus cereus) [pid:40.3%25%2C q_cov:92.6%25%2C s_cov:88.0%25%2C Eval:1.2e-40],MGA_891
sequence06	MetaGeneAnnotator	CDS	17476	19137	.	-	0	ID=MGA_892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSNIDKLKTEIEQKIKGEVSVDKDVLDFHSRDTSIFKQKPSLVVFPHSSKDIEILIEIVNKYKDEMNNLSITARSGGTCMSGGTITDSIALDMKHFNRIKQFSEDNLSAIVEPGLYYRDFEKETDKHNLVYPAYPASKNICAFGGIVSNNSGGEKSLNYGKTQNFVDELDMILSDGKEYSFKELGEEELNKKMEQKDFEGDIYRKTFKLLNDNNDLIKKSKPNVSKNSSGYNIWDVINKEKKTFNLSQIFIGAQGTLGIMSEAKIRLIEKKKYEGMLVVFMDSFDNLPQIINDVLKYKPESFESFDNYTFKLALKFFFAFSKLLGSNILKMPFEFLPEFLLVLRNGMPKLILLVEFNENDKSIIEKNIQSLKKDLSSYKNIYMREAKNERDVDKYFAIRRESFNLLRQRIKNLKSAPFIDDIIVRPENLPEFLPKIYEILDSEKLLYTVAGHMGDGNFHIIPLMDLRKKEERDKIFRIADKVYSLVLSYKGVITAEHNDGLIRSPYLEQEYGVEIYNIFKEIKNILDPRNIFNPNKKIGVTKEFSNSLISED;locus_tag=LOCUS_8850;note=WP_209611508.1 FAD-binding and (Fe-S)-binding domain-containing protein (Helicobacter pylori) [pid:22.2%25%2C q_cov:92.6%25%2C s_cov:52.3%25%2C Eval:1.1e-31%2C partial hit],MGA_892
sequence06	MetaGeneAnnotator	CDS	19137	20123	.	-	0	ID=MGA_893;product=transketolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545386.1;translation=MLNKELFLNENLFEISVEKIPTRDGYGDALLELGEKNKDIVVLTADLADSTRVEKFRTKYPDRFFDCGVAEQNMISVAAGLGVNGKRVFTSSYATFSPGKNWETIRTTVAYNEADVKIAGHHAGLMTAQDGATHQATEDIALTRVIPLMKVLSPCDYWESIKVTKKAGEEYGPFYLRFTREKTPVITTERTPFVMGENYKYWVGKSPQCVIFATGYILYYALIAANTLKQLGIEVDVVNVSSIKPMNIDTIVKYVKGINKVVCAEDHQIAGGMGSLISEILSQYEPSRIEFVGLKDNFGESGTAEELIKKFEIDDIGIIKSVKKLLEK;locus_tag=LOCUS_8860;note=WP_012545386.1 transketolase family protein (Thermodesulfovibrio) [pid:43.6%25%2C q_cov:97.9%25%2C s_cov:97.2%25%2C Eval:8.5e-70],MGA_893
sequence06	MetaGeneAnnotator	CDS	20126	20986	.	-	0	ID=MGA_894;product=transketolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001002663.1;translation=MLDDISDKKVKFLEEKSLEIRELTIETLLKAGSGHTAGPLGLADIFSVMYFHTLNHFPSNPDWEDRDRLILSNGHTVPVRYVAMALSGYFPLEELKTLRKLNSRLQGHPHRTALPGLETTSGPLGEGIGQGIGIALGAKLDNKDYHVYVITGDGEHNEGNIWESIMMGAKYKLDNLTVIIDRNNIQIDGFTESVMPLDDLKKKYESFGWFAEDIDGNNIRELAQSFAKVRTIHEKPSVLIAHTIPGKGVDFMQNDFLWHGKPPNEEEAKIALKELRTLKNKIESEY;locus_tag=LOCUS_8870;note=WP_001002663.1 transketolase (Leptospira) [pid:46.7%25%2C q_cov:94.4%25%2C s_cov:98.5%25%2C Eval:4.8e-71],MGA_894
sequence06	MetaGeneAnnotator	CDS	21123	21548	.	+	0	ID=MGA_895;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENEKRREHIDFTTPREREAQLLDMEKGSSWENINDERTRIYKGIGNKDLDPILRIPVLYIKVIRVEVDRIKDAYELGLSFNATEEEIVSEKERLYKEKSTGNKVSIQKYSYNRRKEEAKKLNIRSKNPTWMEIEEKRNSI;locus_tag=LOCUS_8880;note=MGA_895
sequence06	MetaGeneAnnotator	CDS	21558	22820	.	-	0	ID=MGA_896;product=glycerate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010938066.1;translation=MSIIKNYDELNITDQRKIVLDLIEKALISVDTKNILDKSIKYEDNILYVNKDAYDMSLFKRIVVLGIGKGSSAIVSDLRKKMKNLKVKAFSIDVVASDDKRIDSVVGTHPLTSDINSNFTKNVIDILDDLDEEDLVISVICGGGSALFEYSEIPIDEKIDIDRKILQSGAGIYDMNTLRKHLSLVKGGNLAKIINPAKVISLIFSDVLGNDLSFIASGPLVYDSTTIKDAIKISKKFHIDVPLEYIKETPKEENIFNNINNYLLLTNDVPLQAMLEMAKELGIKSRIISEEVSGIARDIGCRLIEECRKGEILLAGGESSVVVRGQGRGGRNQELVAGAFGCIEENTIIVSFGTDGWDNYGFAGAIADKITVDNSKKKFLDVNVFLDDNNTYPFFKKLKSGIDTGKLSSNVSDLMIVYKF;locus_tag=LOCUS_8890;note=WP_010938066.1 glycerate kinase (Desulfovibrio vulgaris) [pid:31.5%25%2C q_cov:96.2%25%2C s_cov:95.8%25%2C Eval:3.7e-47],MGA_896
sequence06	MetaGeneAnnotator	CDS	23058	23351	.	+	0	ID=MGA_897;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257912.1;translation=MAKKKEIATNFIEESKDKVIKSYSTHERDNGSPEVQAALFTQRILQLSEHLKVNKKDNHSRRGLLQLIGKRRRILSFLESKDPERYKVLITKLGLKK;locus_tag=LOCUS_8900;gene=rpsO;note=WP_012257912.1 30S ribosomal protein S15 (Chloroflexus aurantiacus) [pid:57.6%25%2C q_cov:87.6%25%2C s_cov:95.5%25%2C Eval:1.1e-23],MGA_897
sequence06	MetaGeneAnnotator	CDS	23348	25402	.	+	0	ID=MGA_898;product=polyribonucleotide nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460388.1;translation=MTVIKKETTLNGIKLSFETGRLAPQAHASILAQMGDTVVLATIVTREAKEYSNFFPLTVEYLEKLYASGIISSSRFIKREGRPSSDEILKARIIDRSIRPLFKEDFRNEVQLVVNVLSYDKKNDPGILAVNAASLALLMAGIPFEGPVASVSLGLENEEFIINPSNEISSTLPLNLVISSTKESISMIEAGADNIKEDLMIKAIEFAKKESQKIIELQEEFLKEAKPQKLEYKSIETNKDLLKNIEKEFMPQIKSSVWEKRDKDLSDNIIEKFSEEYSKDEILEAIEILMKKTTREGILNDKIRPDKRNLDEIRPLSIDIDILPRTHGSAIFQRGDTQVLSIATLGPIRQQQTIESIDGEETKRYLHHYNFPGWSVGELSRNLYYPSRRDIGHGALAERALEKQIPPEEEFPYTIRVVSETLSSNGSSSMASVCGSTLSLMAAGVKIKNPVAGIAMGLVKEDGHDDYIVLTDIQGPEDHFGDMDFKVAGTKEGITALQMDNKLKGISVEILTDALEKAKIARLFILDKMLQVINAPRENLSEYAPQIEVLKIKQEKIGELIGPGGKNIKNIIEKSGADIDINDEGVVAISAISKESREIAMAMILDATRELEIGEVYKGKVAKIMNFGVFVDVTKSISGLVHVSEMSNEYVKDPTQLVSEGQEVFVKLIGSDEQGRLKFSMKQV;locus_tag=LOCUS_8910;EC_number=2.7.7.8;note=WP_011460388.1 polyribonucleotide nucleotidyltransferase (Desulfitobacterium hafniense) [pid:47.7%25%2C q_cov:99.6%25%2C s_cov:96.0%25%2C Eval:2.5e-174],MGA_898
sequence07	MetaGeneAnnotator	CDS	246	737	.	+	0	ID=MGA_899;product=DUF2321 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965246.1;translation=MFDDINLGGYYTSAEVCLNGHIINVPAKNLSQFCHECGKDIIRKCPKCESPIKGNYVDNNEILNSKFFKLPKYCDSCGTPYPWIQSKIDAVESVLKDTKKLNQKEKQEFENYIPDLIINTPKTEIASLKAKNLMEKVGPVLSDMLKNILIDIVLEVVKKTIWG;locus_tag=LOCUS_8920;note=WP_010965246.1 DUF2321 domain-containing protein (Clostridium) [pid:35.2%25%2C q_cov:93.9%25%2C s_cov:98.1%25%2C Eval:2.1e-29],MGA_899
sequence07	MetaGeneAnnotator	CDS	998	1321	.	+	0	ID=MGA_900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGNISERLKELLHEGCSINKWEIQEIAIMPDHVQILIQINASDSISSVVHRLKGGSSKVIRHEYPELKEFLWGDSFWSDGYFAESVGIANEEVIRRYIKDQRKSMP;locus_tag=LOCUS_8930;note=WP_000503164.1 IS200/IS605-like element IS1004 family transposase (Vibrio) [pid:36.5%25%2C q_cov:97.2%25%2C s_cov:71.0%25%2C Eval:4.3e-17%2C partial hit],MGA_900
sequence07	MetaGeneAnnotator	CDS	1437	1697	.	+	0	ID=MGA_901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGLSQVNTNGQITVSKRIRDFLGIKIEDKVLITVDGSELRITPIKGSIMDLGGSLKTNVVVKDYKKIEDQLSEDYAKDYVKRKMV;locus_tag=LOCUS_8940;note=MGA_901
sequence07	MetaGeneAnnotator	CDS	1694	2104	.	+	0	ID=MGA_902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVIIVDANIILRFLVKDNDDYFERSNAVFKQVSEGKVQIYISPLIIAEVIWVLYKIYKINKSDITEKLSNLISDKNIILKEKSIVLKSLKDFSDKNNISFPDAYIANASIDNSMEIYSFDKGLLSAYPDLTIFQI;locus_tag=LOCUS_8950;note=MGA_902
sequence07	MetaGeneAnnotator	CDS	2137	2445	.	-	0	ID=MGA_903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNSNIHLTKTEKIKFAYRLFKENTKYDDAYRILKISRRTYADWVKSFKMVGLKKTIKDIGKWKNGGVPSNKLSPSVSRLVQELRETDRYGRWKTKIILKRD;locus_tag=LOCUS_8960;note=MGA_903
sequence07	MetaGeneAnnotator	CDS	2603	4261	.	+	0	ID=MGA_904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIEQPNYGANYLGSILGIEFPECNIAASALHVSVRELVSAQKDVSSIKLVDTLSNRDIKAHIVKIKGDFEIKEERFPVGLALIQQVEIKEKGGLLKKRKEANRIKTERNIDSIKLCALIEDAIYVPLATFVLRTGGECSYVQIGDEMTKDFLYTVPADDNTERFTTIKSIRTILKGETLSSKKEESVLLSLIERQTAKYKEGILREKEKIVVNSMYEKIRGENTQLKVSLENSKGEISNEIVRSREILPQFILNDGIHASLAILQPGTEDKEDIYLCAMVRSNIAIKIATLSMLDESIHLEELADGDFNRKESIDNIIFILRNVESIKESKLDKKSYDYYDRSTYDFIIHILIPIIQSELGLLSKEESLQLEEKIKKDEDPYRWREFQKNVKNYFYFQDIYKNKSNLTEYYINMKKYGDHIKSLLDKTGKDFFDQFRVKERIESLGGNSNKFYEDLIFLLFELSKKSTELKAHIKEVPMGKTEEDADIKGEISFSEGVYSLIVYAKPSSMETEPFRRVSRLDINILNPGENKNMDTDKLKAFIDLLGCMNP;locus_tag=LOCUS_8970;note=MGA_904
sequence07	MetaGeneAnnotator	CDS	4417	4827	.	+	0	ID=MGA_905;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINMNIIQLVKSLNLEKGEYTVFGSALLQIYQLRDSNDIDISVTKELYDKLKKSDTWKEKNHINGDVSLHNNIFEIFKSWNFEKYNPDIKYLIKNSIYIEGIPFVNIEEVLKWKKIRNLEKDRKDIKLIESYLNK;locus_tag=LOCUS_8980;note=MGA_905
sequence07	MetaGeneAnnotator	CDS	5006	5605	.	-	0	ID=MGA_906;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIKNVKSNLLKNFIYSQLLLLFFLFICFIIKPEILLNNEGISAFGIDIKTIVPYAIGYLLCSYFIGKSVKYMKHNSNPYKIIFYSMNTIAILFIALVFTPYAINTGFNWIHTIISTSLFLTELGLIIYLTIITKNNFINILLIIGQIISGIIAMYSIYPILPITGKLNFLLQGEVLFQTFFDIGIIIIFLKYKITEVT;locus_tag=LOCUS_8990;note=MGA_906
sequence07	MetaGeneAnnotator	CDS	5733	6236	.	+	0	ID=MGA_907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKKVLDEYGFSVDKGDVILNGTGVWHQGGPVADAGLTGRKIIVDTYGGYSRVGGGCFSGKDPTKVDRSGAYAARFIAKNIVANNLAEKAEVRLAYVIGNSKPLMKEVETFGTSKKSDKVIKDYIDSILDTSVIGIINAFNLKRPIYLKTASYGHFGRDCFPWETII;locus_tag=LOCUS_9000;note=WP_003733830.1 methionine adenosyltransferase (Listeria monocytogenes) [pid:58.5%25%2C q_cov:86.8%25%2C s_cov:36.8%25%2C Eval:2.4e-44%2C partial hit],MGA_907
sequence07	MetaGeneAnnotator	CDS	6293	7252	.	+	0	ID=MGA_908;product=glucose-6-phosphate dehydrogenase (coenzyme-F420);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013225239.1;translation=MTKILYYCGHEQFQPEELVKHSVLAEKYGFDGIIISEHFHPWVSDKGSAGFTFSTLGAIAASTTKIELITGVVTPLFRYHPAIIAQASATIDRLSNGRFSLGVGSGESINETPLGINFPPYKERSERMIEALEVMKRLLLGEKLSYDGKYYTLKNAKLYSPPISDIPILLAASGEKSISIANQYADGLITSVKNVEDIKNNIENSKKLNKIILSTMWTIYAKNKDEAWNALLPWRGLRVPSRDIATDPLELQKEADLMDRDEIISKYKIVSSPKEYIDAYSPLITTLHSDYIAIQTTGENQEDIIKMLGEEVLPYLRTL;locus_tag=LOCUS_9010;gene=fgd;EC_number=1.1.98.2;note=WP_013225239.1 glucose-6-phosphate dehydrogenase (coenzyme-F420) (Amycolatopsis mediterranei) [pid:32.1%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:2.0e-44],MGA_908
sequence07	MetaGeneAnnotator	CDS	7318	8184	.	+	0	ID=MGA_909;product=LLM class F420-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013222502.1;translation=MKAALHIPRFNYGSSDSDISENLKNIVQKAEEVGFGRLSVMDHYFQIPGVGDYKDPMMEAYTTLGFIAANTKKIRIGTLVTGVTYRNPAFLIKQVTALDVLSQGRAFLGIGAAWNEQESLALGFNFPPVKERFERLEETLQIVEKMWSGDSTPYKGKYYSLEEPFNSPQVLSKPRPEILIGGSGEQKTLKFVAQYADSCNLFAAEKDVIKHKLEVLKNHCSNLDRDYSSINKTALARIDLSNLNKFIEDSKILSELGINEIFFMVPNAEKLDNLEEIGEKVISEMQKI;locus_tag=LOCUS_9020;note=WP_013222502.1 LLM class F420-dependent oxidoreductase (Amycolatopsis mediterranei) [pid:46.9%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:3.0e-68],MGA_909
sequence07	MetaGeneAnnotator	CDS	8199	8651	.	-	0	ID=MGA_910;product=thioredoxin-dependent thiol peroxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003439443.1;translation=MNKLKIGDQAPDFTLPNSKGENISLSSFKGKNIVLYFYPKDGTPGCTIEAQKFRNDYKEYVDNNTEIIGISVDDEKSHEGFCSKYELPFILLSDKDKEVVKQYGVWNKKLFSLGTSRVTFLIDENQIISNIWWKVNVINHSKEVLTFIKK;locus_tag=LOCUS_9030;gene=bcp;EC_number=1.11.1.24;note=WP_003439443.1 thioredoxin-dependent thiol peroxidase (Clostridioides difficile) [pid:46.4%25%2C q_cov:98.0%25%2C s_cov:98.1%25%2C Eval:4.5e-35],MGA_910
sequence07	MetaGeneAnnotator	CDS	8807	9337	.	+	0	ID=MGA_911;product=YdeI/OmpD-associated family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012804317.1;translation=MSKITFKTKLYKYEDNDLNSLIILSKNEGIKLPSQGTSMVEGSINGFNFRVALEPDGKGNHWFIIDKKNTKLMGLDIGDSVILEFSPIKVWPEPKVPKDLEDALKSDSQAYNLWIDITPMARWDWIHWFESVKLEKTRMERPSKLCSMLKAGKRRPCCFNRTLITKPKNAEFYNKK;locus_tag=LOCUS_9040;note=WP_012804317.1 YdeI/OmpD-associated family protein (Brachybacterium faecium) [pid:36.8%25%2C q_cov:77.3%25%2C s_cov:76.0%25%2C Eval:1.1e-24],MGA_911
sequence07	MetaGeneAnnotator	CDS	9492	10391	.	+	0	ID=MGA_912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKSKVRVLSKISVFVLVIVFIFDLSGYIRASTTDVNLGSANNFAILAGSTITNTGSSVINGNVGLSPGSSITGFPPGLIHGTQYIADTTSIQAQTDLITAYNQAAGETPISTIPTELGGTTQIPGIYNSSSGTFGITGTLTLNAQGNSNAVFIFKTASTLITAGSSKIALINGAQACNIFWQVGSSATLGTNSIFDGNILALTSATLDTGANVYGRVLSRNGAVTLDTNVITPTICATQSSTSLGSGTTNTSGTTSTTPNLPNTGLAPQNTFPWNIVLPILAVIGLSFLYFYKRKQTI;locus_tag=LOCUS_9050;note=WP_031153501.1 ice-binding family protein (Streptomyces erythrochromogenes) [pid:62.6%25%2C q_cov:67.9%25%2C s_cov:38.1%25%2C Eval:3.1e-68%2C partial hit],MGA_912
sequence07	MetaGeneAnnotator	CDS	10403	11089	.	+	0	ID=MGA_913;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNIKKQIPNKYYKKLKSLLKLIFFLILFISIYPFLSSYFKVSKQYNPKILITSPKPIQESSALPIRLIIPAINFNSKIENVGLVANNTMGVPVGREDVAWYDLGPIPGNIGSAVIDGHYGWWANTGAPAVFNNLSKLHKGEKIYVENSNKKITSFLVSKIQIYTPNSNSTKIFNSNDGKSHLNLITCEGVWNNTTKTYSNRTVVFSNKINVILLKFKLKYIIKPWLI;locus_tag=LOCUS_9060;note=WP_012258688.1 class F sortase (Chloroflexus aurantiacus) [pid:29.7%25%2C q_cov:60.1%25%2C s_cov:56.1%25%2C Eval:5.2e-08%2C partial hit],MGA_913
sequence07	MetaGeneAnnotator	CDS	11077	11367	.	+	0	ID=MGA_914;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADIVLENNKLQDPLWYLYFQPQLNKYFYEYEKNNITEDFLNKRELIVQTLITAIKDNTLALGENEEDFDSERKPIDTIIIHMTSTTSKKDEKRGI;locus_tag=LOCUS_9070;note=MGA_914
sequence07	MetaGeneAnnotator	CDS	11775	12107	.	-	0	ID=MGA_915;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYIVNHKQWSDMTIFEQMGNIYSEVSRSFNARRNKNSEYETLSMIRAIDLFDATIECLIKKKSIKAKEVLRAKEQFLDNLYRNTFDEEDAASIEKYFMQFAIAVRLNR;locus_tag=LOCUS_9080;note=MGA_915
sequence07	MetaGeneAnnotator	CDS	12257	12769	.	+	0	ID=MGA_916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFVFIDSQNLNLGIKSCGWILDFKKFRLYLKNKYKVTKVYLFIGQVPGNESMYRSLQEMGYILVFKPTMQYMKEGIKETKGNVDSELVLYSSAITFKDYDKAIIVSGDGDFYCLIDFLEDKNKLFKLIVPNNHYSSLLRKFSSKIIRVDQLKNSLALKKTGISVQSKL;locus_tag=LOCUS_9090;note=WP_024311253.1 NYN domain-containing protein (Sinorhizobium medicae) [pid:28.5%25%2C q_cov:75.9%25%2C s_cov:69.8%25%2C Eval:7.6e-09%2C partial hit],MGA_916
sequence07	MetaGeneAnnotator	CDS	12913	14547	.	+	0	ID=MGA_917;product=ABC-F type ribosomal protection protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000602057.1;translation=MILNVKINEKSIGTKSLYEDLSFFINENEKVGFIGRNGTGKTSLFKIIAGLDSDYKGSIDVKKDTKIILTQQEYLDIKKISSIDYITQSLPDYIKLKNTMEKYVDIMKNDMDMISIYTEAVTLFSEYGYYSIEEKVLNSLLKYKIDPEKARMPLIDLSGGEKRFVELVRVMYSKCDIALIDEPTNHMDDIGKNDFISWFKSTNHGICVITHDRDVLNYVDKIIEIKDRKAFIFSGNYDSYLLQNSISNVTNIESYEDSLKSLDRLKKQMEGIKKRGAHASTRVMYERVEKEHNKIKKEIEKPSIWIDEESIKDVNKKVIDKYEKYKDKNISIKINNIKENKSILLTVKNISIGYEFPLFKNISFTLSHGDKIQIKGRNGAGKTSLIKTIISIIENTPHSTKIYDGEILPNDKIKLGIYEQEIDSYYFNMKLKDAIEDIYRLEKIEIPNVNKILNDYLFDPAKDSDLLISNLSGGQKARFQIIKMLLKNPNLLILDEPTNHLDLPSIEELENVLKNFHGGILYVSHDSYFIKKLKGEVIEISNKD;locus_tag=LOCUS_9100;gene=abc-f;note=WP_000602057.1 ABC-F type ribosomal protection protein (Staphylococcus) [pid:29.1%25%2C q_cov:99.4%25%2C s_cov:80.4%25%2C Eval:7.2e-57],MGA_917
sequence14	Aragorn:1.2.38	tRNA	273	347	.	-	.	ID=Aragorn_42;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0410;note=Aragorn_42
sequence20	MetaGeneAnnotator	CDS	57	281	.	+	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGSENVGMSNPNPCEKQGHRKPKVSWATIIVPGLVGPKPRPKGVGDGQQVDIPVLVISFPQVTQDGSRSILWL;locus_tag=LOCUS_9110;note=MGA_934
sequence23	MetaGeneAnnotator	CDS	231	551	.	+	0	ID=MGA_936;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIITNIYNNLSPSFQEKIKSFLNPNKDYSEFLLFTFLYGLLSALYTSDSLFVIIIESIILQTIFIYINTYIPDSECYNFYNLFFFLLSISGWFIGKIIISIYFK;locus_tag=LOCUS_9120;note=MGA_936
sequence32	MetaGeneAnnotator	CDS	8	247	.	+	0	ID=MGA_945;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIKETDTRYQNFINMFPDAEGCYELDAFDPDELMLLTEKTINKYYISKTETTNKIKQWNAEFNVKRNKIMQIFLNRQV;locus_tag=LOCUS_9130;note=MGA_945
sequence35	MetaGeneAnnotator	CDS	106	513	.	-	0	ID=MGA_950;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVILDATISKYGAQELLTLISSIKYKKKYKKIFIVISIPEDKDMKGIIELYSRIADFIVITGTYNNYLNYDFIKISKLMETFMNKNNFIIIEEPNEAFNKIMSLTTYDDIVLLSGTLSFVSDILNIFNFKELNLW;locus_tag=LOCUS_9140;note=MGA_950
sequence37	Aragorn:1.2.38	tRNA	158	235	.	-	.	ID=Aragorn_43;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0420;note=Aragorn_43
sequence37	Aragorn:1.2.38	tRNA	241	318	.	-	.	ID=Aragorn_44;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0430;note=Aragorn_44
sequence41	DFAST	assembly_gap	332	341	.	+	.	ID=GAP_5;estimated_length=known;gap_type=within scaffold;linkage_evidence=paired-ends;note=GAP_5
##FASTA
>sequence01
AAACAATACTAAAACCATTAATATTGATAACCCTATTAGTAGGTTTAATATTTGGATTTTCATTTAAATTAATAGTATGGGATCATTTATTAAAAAACTACCAACAACAAAGACTTATTGGTTTTTTAAATAAATCTTCATCTCTAAATTCTTCTATTAATTTTCAGACAGAACAATCAAAAATTGCTATTGGATCAGGAGGCTTATGGGGTAAAGGTTATGCACAAGGAACTCAAAGTAGATTAAATTTTTTACCCGAAGATACTACTGATTTTATATTTGCTACACTTTTTGAAGAATTTGGTTTTATAGGAGCTTTAATCTTTTTTGCTATATACTTTGCTTTTATAGTAAGAATATTAGATATTATGAAAAATACAAATAATAGATTTGGGATATTAATAATAGTTGGAGGATTAACATTATTAATAGTACAATTATTTATTAATATAGGAATGAATATGGGTATTATGCCTGTAACTGGAATCACTTTACCACTAGTAAGTTATGGAGGAAGTTCTCTTTTAACAGTATTTATTATACTGGGTATAATACAAAATATTTATATAAGTCAGAAACATCAATAATATATCTTAATTTATATATATTTTTAGTATAAACTAAATACATGGATGAAACCCTATCAAAAAAAATTATAATAACAACTTCTATAATTTGTTTATTAGGGCTTATTATGGTATTTGATGCATCGATGGGTTTAATAGCCCAAAGATATCACTACATTACTTTTCAGGCAATATGGGTACTTCTAGGAACTCTATTGGCATATATTACATATAGGTCCAATTATAAAATATTTCAAAGATTTGCATTTCTCCTCTGGATATTATGTTTGATTGCACTCATAGTAGTTTTTGTATTTTCTGCAAAAATCAATGGTTCTCAGCGATGGCTTAATATTCTAGGATTTACAAGTTTTCAACCATCAGAGATAACTAAATTAGTTTTTATAATATATCTTTCATCCCTTTTTACGAAACTTCATACTAAATATAAAGGAGAAATAAAAAGTGCTACAGATAATTTCAAAAAAATATTATTACCTTACTTAATCGTAACTATAATAACATGTCTATTTATAATAGCAGGAAAAGATATGGGGACAACTATAATTCTTGCAACAATATCTATTTTTATCTTTATAATATCTGATAATTTTGGATATATCTGGATGAATCTGTCTTTGACAGGAATATTATTTGGACTATCATCAATAGTATTGGTTATAATAGCTCCATATAGATTACAAAGATTATTAACCTACTTAAAAGGATCAAACCAATCTCAAAATTATATACAAGGAGCTGGATATCAAGTACATCAAATACTAATAGCTATAGGGTCAGGAGGTTTATTAGGAGTAGGTTTTACTCAATCTATTCAAAAAAATCAATACCTTGTAGGAACAACCGCAATAACAGATTCTATATTTGCTGTAATTGCTGAAGAAATAGGACTTATTGGAGCATTGTTAGTAATATCCCTATACATATATTTAGTTTACCTTATATTTAAAGTCGCAATAAATTCAAAAGATTACTTTGGAAAATTATTAGTATCTGGGATTGCTTCTTGGATAGGAATACAAGCTTTTATAAATATTGCAGCAAATATCGGAATTATACCTCTTACAGGAGTTCCTCTGCCTTTCATAAGTTATGGAGGAAGTTCTATTGTTGTACTACTTATCTCAATAGGTTTAGTTTTAAATATAGAAAAATTTAATAATGAAGAAAACTAATGTTTTTATAGTTGGTGGACACTTCACTCCTGCATTAGGAGTATATGAAGAAATAAAAGATAGTAATACTCTCAATATATATTATATAGGGGTAAAACATACAATATTATTTGATAAATCTTTTTCCAAAGAATATGAATTTTGCAAAAATAATAATATAAAATTTCTACCTCTATATACTGGAAAGATTTACAGATATCTTAGTTTAGAAAGTTTAATCTCCTTTATTAGAATTCCATTAGGATTTATACAATCTTTCTTTTATATATTAAAATACAAACCTAATATAATTGTTACTTTTGGAAGTTATGTATCAGTTCCTGTTATAATATCAGCAAAATTACTCAATATAAAAATATTATCCCATATACAAACGATAAAACCTGGAATTGCAGACAAAATTAGTTTTAAAATGTCAGATAAAATATTTATATCGTGGAAAGAGAGTGAAGAATATATAAAAAATAAAAATAAAATTATATATTCTGGAAATATATTAAGAAAAGAAATTTTTAAATATAAATCAGAACATATACATTTCGAAAATAATAATCCTATTATATATATAACAGGAGGTAATCAAGGATCTCATTTAATAAATACGTTTATATTTAATAATATAGAAAAACTTTTAGAAAAATATAACCTTATACATCAAATAGGTTCAAATACGATATATGATGATTTTACAAAAGCAATAAGTATAAAAAATTCCCTCTCTCATGAAAATTCTTCAAAATATCTAATATATAAAGGTATATGGGATAATGAAATAGGAGAGGTTCTAAATATTTCTAATATAATAGTAGGAAGAAGTGGTGCAAATACAGTATATGAAATACTTGCATTAAATAAAAAGGCTATTTTTATACCTTTAGAAATAGGGGATAAAGGAGATCAGATATATAATGCAAAAATGGCTCAGAATTATTCCAATAATATTCACATTATTAAAGAAAAAGATCTCACATTTAATAATTTTTCAGAATTAATAGAAAAACTTCTAAAAAATAACACTGATATAAAAGAAATATTACCTAAAGATGCAGCTCTAATTATCTCAAAAGAAATATCACAAGAATAGTAAACTATCATTCAAATTTATAATGCGTGAAGATCAAAACATGGTGATCAGTTAAAGGTATATAGATAATACATAAAAGAGTTTTTAAAGTTAGAGAATATATCAATCCACTAAAATTAGATTAATATATGATAAATGGTATAAATTATCTTTAATTCTATATCAATAAAAAACCCCTAGATCAAGAAAGAACTAGGGGAATTTAGTAAATAAAAAATTTAAAATATCCATATTCTAACATAAAACTCTATTCAATTGGAAAAGACTAAGACTACAAAACACATATAATCAATATTTCTTTATACTACTTAATATCTTGATGTATGTCACCAATTATGGTACAATTTTGGTGTTTAATTAATATAAAAATATGAATACTAATACTAGTCAAATAAAAGTAACTATACCTAAGATTACAAAAGACTTATTAACTGAGAAAGCTCAGTCAATGGGTTTTAGTTTAACTACTTATGTTAAAAACATTCTATATACAGATATAAAAGAAAGTACATATCCTGAATATGTGGCATCTAAAAGGGTTGATAAATCAGTAGAAGAAGCTATCTTGCTTAGTGAAAAAGGAGAATTAGAATCTTTTAGTACTATTGATGAATTAGATAAATTAGTAGATTCAATAGATGCAAATTAAGATTCAAAAATCTTGTCTTCGAAAACTTAATAGATATAAAAAGAAAGATATAAATAGATATAGAAGAATATTATTAAAGATTGAATTATTTAAGACTGATATCAATAATCCTTCATTAAAAGTTCATAAATTAAAAGGTAAGTATGGTAATTATTGGAGTTTTTCAGTAGAAGAAGATTTAAGAATAATTTATATTTATAAAAATAAAATTACTCTTGTTGATATAGGTACTCACGATGAGGTGTATAGATGAATATAAAATTCTCTCTATGTTTTACATGGTTTGACAACAAAATTATGGTATGATTTATATTACTCTTGTAAGTTTTTTAATATATCTCAAATGATTATTATGTTATCACCTATACTCAAAATAGTCTTAAAGGAGTAAACTCTCTTAAGACAAAAGGGACATAATTGTTGTCAAAAGAAATATCACAAGAATAATAAGTTATAGAAAAGCATAGCAACTGTCATAGGTCCAATACCACCTTTTAATGGAACAAAAAATTTAGTCTTATCAATACAATCATCTTCTATACCAGATATAATATTTCCTTCAAAATCAGAAGAAGCTCCAATATTTATAATATAAGAATCTTTCTTTATCTGCTCTTTCTTTATCTGCTCCTTTAATCCTGTTGCTAGTATTATTACATCACAAATACCTAAGTATAAAGATATATCTTTGGAATATTTGTCTAATACTGTTACATTATAATTATTACTTATAAGATAGTTAGCTATCAATCTTCCTACAAACCCTCCACCTATAATAAGTATATTCATATCTTTAGATATATCTGTTTGATTTAATATATATAAAAATGCTCTGAAAACACCTGGGGCAAAACTGTATTCTCCTACTAAAACTTTTGCATAATTAATCTTATTCAAACAATCTATATCTTTATTCTCATTAATATTATTTAAAATATTCAAATTCTTATAACCCAATAGAGGTAATTGTATGATATATGCAGATAATTCTTTATCTTTATTAAATTCATCAATTATATTACCTAAATCTTTATACCCTTCTGGAAATTTAGATAAATTAACATTTACTCCTATATCTTTAGCAAAATTAATCTTTTGCCTTATAAATATATTACTGTTCGCATCATCACCTAATTGTATTATGCCTATATTTAAATTCTTTTTTAATCTATTTTTTAAATCTTCTTTTACTTTTAAAGATTCTTTTTTGCCATCAAAAATTTTATTCATAATAATCTGGGATAGGGTATTGGGATATAAATTTTTCTATTTCTTTTTTTAAACTTTCATCAAATTTATTTCTATTATTTTTAATAATAAAAAAAATATAATCTGCAATTTTTTCTATTTCTCTTTCTTTTAGATATCTAGAAGATACTGCTGGAGTTCCTAATCTTATTCCACTAGTTATCCATGGTTTTTCTGTATCATTTGGAACTAAAGATCTAGAAACATTTATAGAATATTTTTCTAATATATCTTGAGCTTCTTTTCCATTGATTTCAAAATTTCTTAAATCTACTATAAATAAATGATTATCACTACCACCTGAAACAATGTTAAAACCTCTCATTGTTAAAGCTTCACAGAAAGCTTTAGAATTGAGTATTACTCTTCTAGAATATTCTTTAAAAGATTCAGAAGAAGCTTCTTTAAAAGATATAGCTTTTGAAGCAATAACATTCTCAAGAGGCCCTCCTTGGATTCCTGGAAAAATTGATTTCTCGACCAATTTAAAAATATCTTCATTATCTGACATTATAACAGCACCTCTAGGACCTCTTAATGTTTTGTGAGTTGTTGAAGTAACTATATGTGAATGTTTAATTGCATCAGGATGAAGAGATGATGCTATTAAGCCTGAGATATGTGATATATCTGAAAGTAGGTAAGCATTTACAGAATCTGCTATATCTCTAAACTTTTTAAAATCAATAAATCTTGAATAAGAACTTGCACCTGCAATTATAAGTTTAGGCTTGAACTTTTTGGCAATACTATCAATTTTGGAATAATCCAAAAATCCTTCATCATTAAGAAAATAGTGTTTAAAATTAAATAAATTACCTGAAAAATTTACTGAAGACCCATGAGTTAAATGACCCCCATGATCTAAAGATAAAGAAAGTATTTTGTCTTTAGGTTTTAATAATCCAAAATATACAGCCATATTAGCTTGAGAACCACTATGAGGCTGAACATTAACAAATTTAGTATTAAATAGAGACTTACATCTTTCTATTGCTAAATTTTCTACTTCATCAATATATTCACATCCAGAATAATATCTCTTCTTAGGATATCCTTCCGCATATTTATTTATAAAAAAAGAGGATTGAGCTTCTCTAACATCTTTGCTTGCATAATTTTCAGAAGCTATAAGATTTATAACATGTATTTGCCTGTTTTCTTCTTTCTCAATTAAATCGGATACTTGCTTATCTTTAAGATGCATATAAAGATTATATATCAAAATCAAAAATCTTTCCAAAGCATACTCTCTGTAGGATCTATTTGATTTTGATATTTATTGTTATATTCTCCATATTTTTTTGAAGAAGGAGATGTCATTTCAAGAAATGAGAGTTGAGCTATTTTCATATTGACATATATCTTTATAGGAAGAGATGAAAGATTAAACATTTCTAAAGTAAGTGTCCCTTCAAAACCAGGATCTACATAGCCTGCAGTTGCATGTATTATTAAACCTAATCTTCCAATAGAAGATTTTCCTTCTATCCTTGCAACTAAATCATTAGGTATTTTCACAATTTCTTGAGTTGCTCCTAAAATAAAATTATTAGGGTGTATTAAAAAATAACCTTCATCCTTAACATCTACTATCTTAGAATTAGTATTCTTAGCTTTTACATCAATAATTTCAGTAAAATGATTATCAAATATAATAAACTTAGATGCAAGATGCAAATCATATGAAGATGGCTGTATCGATTCTTCTGAGAAAGGAGAAATTTTTAAATCCTTAGATAATCTTTTTCTTATATCAACATCAGATAGTACCATTATTTTTTATTGTAGATAATATAAATTCTAAAAATAGGGGATGGGGTATAAGAGGTCTGGTCTTAAATTCTGGATGAAATTGAACTCCTATAAAAAATGGATGTTCTTTTAATTCCATTATTTCTACTAATTCTCCCTCTGGAGATCTGCCTGAAAATAACATACCTTTACTTTCAAATATTTCTTTATAATCATTATTAAATTCATATCTATGTCTATGCCTTTCTTTTATAACATCTTTTTTATATGCTTTATAAGCTCTGCTCTTTTTATCTAAAACACACTCCCACAATCCTAATCTCATACTAGCTCCATAATCTTTATTTAATAATTTTTTCTCCTGATCTGGCATTATATGAATTATTTTATTTTTAGACTTTATATCTATTTCTTCAGAAGTTGCATCTTTTATTCCACATACATTACGAGCAAATTCAACTGCAGCAAGTTGCATTCCTAAACATAAACCCAAATATGGTTTTTTATTTTCTCTTGCATATTGTATAGCTTTAATCTTGCCTTCTATACCCCTAGTACCAAAACCTCCAGGAACAATAAATGAATCACACTTTTCTAACTCTTTTTCATCTATATTCTCAGAATCAACCCATATAATATTAAAGCCGACTCCACTCTCCCAACATGCAATTTTAATTGATTCTATAACAGAAACATATGAGTCCTCTAATGAAAATTTACCGCTATTATGATATTTAGATACTATACCTATATTAAGTATACTCTTGGGTTTTGATTCAATTTTTGAAACAAAATTCTCCCAATCTTCAAAATTAATTTTCTTCCCCTTTATATTTAATAATTCTAATATCTTAAGGTCTAATTTCTGATCATAAAATTGGATCGGAACTTTATATATACTACTCACATCCATATTAGAAAAAATATTTTCATCTGATACATTTGTTGCAATTGCAATCTTCTTTCTTCTAGGTGTATCTATATGCTCTTGTGATCTACCAATAATTATATTAGGAAAAATTCCCCTTTGATTTAATAATATAACAGATTGCTGAGTAGGCTTAGTTTTCATTTCTCCTATACTACTTGGTATAGGAAGATAACTTATATGTATATGTACCAAATCATCCTTTAATATCTGTTTTAAGTATCTTTCTGCCTCATAATATATATCATTCTGATATTCTCCTATTGTACCTCCAATTTCTATTATTAAAAGATCACTTCCTTTATAAGCTTCTTTTATTCTCCTTATAATTTCATCTCTAACATGTGGTATAACTTCAACACAAGCTCCATCATATTTTAAATTTCTTTCATTTTGTATTACTTGAGAATAAATTTGCCCTGTAGTTATAGAGTTTTTATGAGATATTGTTATATCCATAAACCTCTCATAATGACCTGCATCCATATCCATCTCATATCCATCATCAGTTACAAAGACTTCACCATGTTCTACCGGATTCATAGTTCCAGCATCTATATTTATGTAAGGATCACATTTCAAAAAAGAGACTTTTAATGAGTGTTTTTCAAGGAGTAACCCTATTGAAGCAGCACTAATGCCTTTTCCTATACCTGATATTACTCCTCCAGAAATAAAAATTAACTTCATAATTAACTTATGAGAGTAAAATAATTTAAAGAAAATGTCAAATAAAAAAATTAGATTTGTTATAATATGATTTATATATGGATATAAAAGATAAAAATTTTTATTTCACACTTTCTAGATATTTTATATATCCATCTTTATTTATACTTATTGGAATAGGTATAATATATTTATTTCAACCTCAAAAAACAAAAGTAACACAAAATAATACAAAACATACTCCCTCTTTATATTTAAATATAAATAATTCTGTACAAGTAACAAAACAAAAAGCTCAAGAAATTAGATCTCAAGAGAAAATTATAAATATCTATATAGGAAAAAATGTTTTATCTACAAATCTAGCAACTACGACCCTAGAACAAGAAGTAGGCTTAATGAAAGATACTAATCTTGAAGAAAAACAAAGTATGTTATTTACATTTAACCATAATAGTATTCATACATTTTGGATGGCATATACTTACATACCTTTGGATATGTTATTTATATCTTCAAACTATAAGATAGTAGAAATTATAAAAGCTATTCCGTGTACAAGTAATAAATGTTTATTATATAAGCCAAAATATAATTCAAAATATGTAATAGAAGTAAACCCAAGTTTTGTAGAAAAAAATAATATCAGGGTAGGGAATAGTATAAAAATATAATAATATGATAAAATAATTAAGTTCTTTGGTAAATGTAGCTCAGTTGGTTAGAGCGACTGCCTGTGGAGCGGTAGGTCGTGGGTTCAAATCCCACCATTTACCCCAATGCTTTCGTAGCTTAATAGGATAAAGCAACTCCCTTCTAAGGAGAAGACTGCAGGTTCGAGTCCTGCCGAGAGCAAAAAAACCTGGTAAGTTACAAAACATTCTGGACTGCTTAGCATCAGATTTATTAAATTTCAATAAGAATTTAATAGATCCTCTAATCTGGTACAATACAGACAGAGTACATTCAGGTATAAATTATTTATCACCTATAAATTTTATACTGAATTTACATCCAAAGTCTCATATCTATGTAACGCATACAGAAAAGTTATTCTGAAGAATAGAAGATTCAAAGACTCCTTTGATAAGAAATGGAATATATTCATTGATAATCCAGAACATCCAAGTTTAAAAAATCATTATTTAAAATGGAATTTAAAAAGACTAAAAGCAATTTTTATAGAATATAACATGAGATTAATATATAGAGAAGTATCTAAAGATACAATTATTGTATATGATATAGAGACACATGATGAAGTTTATAAATAAATTCTAAATTATATTTATTTTAAAAGTTAGAATATCTTCTACGGTCTCCCACCAGATGCGATAACCCCATTGCAAATGCCAATAGGTATGTACTATGACCAGAATGAATTTAATATTGAATTATTATTATAAATCCCAAGGATAAATAAAATTCTCCACCTCTCTTATTTTGTTTAGCCCTACAATTTTATATTCTTGAGAATTATATTTATTAATAAACAATTGAAGGGATGATTTCTTTAACAAATTGAACCCCATCTTTACTTCGATCGGAATAATCTCACCTTTCTTTGTGAGGATAAAATCTATTTCTTCTTGATTTTTTGTTCTCCAATAATTGATATTTTCAAATCCATATTTTTTTACAAGTTCAGAAAATATACTTGTTTCAAAAACATTTCCCAATATTGTTTTTTGTAAAGTTTTTAACCAAAGTAGTTGTAATAATCCAGTATCATAAAAAAATATTTTGGGAGCTTTTATCACTTCTATTTTTGCATTTGTACTAAATGGTGGGACTAATTTAATAATATATGTATTTTCAAGTATAAACAGATAATTTTCAATTGTTTCTTTTGAAATCCCACAACTTACCGATAATGTATTAACATTTAATAAATTCCCTGTTTGTTGTGCTAATATTTTTAATATATTATTAAACTTTCTTATATCTTTTATATTAGTCAGATCTCTTATATCTTTTTTTACATATGTATCTATTATTTGTTGCAGATATCTCTCTTTTTTTTCTATTGAATTTTCTAAAACTATTTGTGGGTATCCACCGTAAAGAACATATTCTTTATATAGTTTAATCACTTTTTCTAGGTGTATATCAGATAACTTATTTAGATTATAATTTACATTTTTAAATCTTAAAAACTCATTAAAAGAAAGGTTAAAAATATCAAAATTAATAGTTCTTCCAACTAAAGAATCTGAAAATTTAGATTTTATATCAAAACTAGATGATCCTGAGACAATAAGTTTTATATATTTGTGATGATCTACCATCAACTTAAGAAATTTGGAAGGATCATCTAAATATTGTATTTCATCAATGAATATATATAATTTACTATTCTTCTCTATAATTTGTTCTATTTCAAATCCTTCATTTTGCAAGAATAATATAAAATCTTCCACTCTTTGATTTAAAAGATCAACAAATCTAGAATCTTCAAGATCAATATAATATGTAGATCTACTTTCTTTATCAAGTAAATCTTTTATATAATAAAGGATATAAGTTTTTCCAACTTGCCTTGCGCCATGTAAGACTATTATATTACTATCATTGATATAACGCATTATATCATCCACAATATCTCTTTTTATTACCTTTGTATCCATAATCACAATAATACTATCATACTCCAAAGTTAAAGTCAACCTTAATTCTGGAGTAATTATCTTAAGAGATCATTTATTGAAAACACTGGCATTCTTAATCAATTTATAGAATCATTTTACCATTATATTTAAAATATTCATTAGAGATTTTTGATTATAGAGTTCCTTATGAAGTATCAAGACAAAATTATTTAATTGATGACCTTAATTCTATTATAAAAGAGAAAAAAGCTACAGAGCAAAGAAATTATGAAGGTTATTAATGATATGGATACTTATAAGAAAGGTTCTAACAATCTAGATATTCTAGGAATATACAATCATTTAATATCTTTTATACAATCACCAAATCTCCATATAGTATCTATTATATATCCTGACAATAATATATTTTCAACTTACAAGAGAACTACGCTATATAATATAGGACATTTAATCCTTTCTGTTTTTGCTAAATCTATGTTACTATTTTCCATAGTGGTAGTTTATCTAAATTAAGTAATTAGAATACTACAACTTTTTATATACACTTATCCACACCCTAGTGGCAAAATTCTCTGAACCTATTCAACCCCTTATATATATCTATAATAACTGCTAAAATGAGAGATAGAGCACCTATAGCTCAGCGGATAGAGCATCTTGCTTCGAACGAGAAGGCCGAGAGTTCGAATCTCTCTAGGTGTTATTAAAATATGAGGGCACTGGGATTTGAACCCAGAACCAACAGCTTAAGAGGCTGATGCTCTACCATTGAGCTATACCCCCATATCAAAGAGTAATAACATTATAACAATGAAACTACTATGAGTAAATATAAAATAGGAATAATTGCAAAAGATATATTAAATAAAAAATTTACAGGAATTGAAAATTATACTATAAATATGATAGAAGAGTTTGATAAGACAGATGAATTCAAATTCTACTTATATACAAATCACCCTTATAAGAAAAAATTCAAAAATGTAAAAATTAAATATTTAAAAAATAAAAAAGCTTGGATACATACTTCTTTGTATAAAGAGTTAATGAAAGATAATATTGATTTGGTTTTCTCACCAACTCCAAGCCTACCTCTTATAAAGAATAAAACAATAAAACAAGTTATAACAGTTCATGATCTATTTTTTAAATATATGAGTGAAAGAGTAAAAACTACAAAATTTTTTATGAAAAGAGCTGTTATTGCAACTGACAAAATTATTGCTGTATCAAATTACACAAAAAAAGAAATTCTAAATAATTATAAAGGAGTGAATGAGAAAAAAATAAAAGTTATTTACGAAAGTTATAATAAAAAAGTTTTTAGAAAATCAAAACGAAAAGAAGAAAAAAATGTCATAAATATACTTTCAGTAGGAACAATAACTACTAGAAAAAATTTTACTCAAATAGTTAAAATACTTCCAATTATAAAAGAAGAATTTGGTGAAGTAAAATTAAACATAATAGGTAAAAAAGGGGATGATTATGACAATTTAATAAAAACAATCATAGATTTTAAGTGTAAAGAAAACGTAAACATATCAGGATACGTATCAAATGACATTCTAAAAGAAGAATACCTCAAAAATAATGTGTTCGTTTACACCTCTAAAGAAGAGGGTTTTGGGATACCATTACTAGAAGCATTTGCAATGGGAATACCTACAGTTACTTCAGATAATTCTGCACTAAAAGAGATAGGAGAAAAAGCATCAATACTTGTTGACCCTAATAATATTATGGATATAGCTACTGGTGTAATAGAGGCCATTAGAAGATCTAATGATTTGAGAGAATTAGGTTTTATAGAAGCACGTAAATATTCTTGGAAAAAGACAGCGAAATTAACATTAGACACATTCAGAGAATTACTCAACGAGAAGACTTCTTCTTAATATGTCTATAAATGTAAATACCTATAAGTAAAATCAAAAACAAAAAGAAATATATAGACAGATTATCTATAAATGTATAAATTATTTTCCAGTTATATGAAAAATAATACCCTAAATAAACTAGAATAGTATCCCAAATTAATATTCCCAAAAATGTATACAGAGTAAATTTCTTTATATCCATTTTTGCAATACCAGCAGGAAGAGATATGAAAGTTCTAAATACAGGAAGTATTCTTGTAAAAAAAACTGCAAAATCTCCTTTCTCTTGAAACCAAACATGAGCCCTTTTAATATCTTTATCTGTTATAAGTATATATTTCCCAAATTTTTCTAACAAAGGATAACCTCCATAATAACCTAAATAATAAGACAGTATTGATCCCAAAAGATTTCCAGCTGTACCAACTAATATTATTAAATAAATATTAACAACACCTTTGTATGCGAGGAAGCCAGAAAAGCTCATTACCAATTCAGAAGGAATCGGTATATTAAAACTTTCTAGCAACATTAATACAAACACTCCTATATATGAAAATTTGACAATAGAATGTATAATTGAACCACTAAGTAATATTAATAATTTGCTCATAATTTACTATATTATCATATAATGAAAAAAAAGAAGAAGATTTCAGATATAAAAGATGAATTTGATATAAGTAATGATTTAATTAATCAAGATATTGATCCAGATAATATTGATATATTAGATATTGATGACGACATTAATATTGATCAAATTGATGAAGATATATTATCTGGAGATATAATAGAAGAAATTGAAGATGAAGATGATGAATCTAATACAGATGTAGTAAATGACATAAATGTGGTAAAATGTCCTAACTGTAAAGAGGATGTTTTAGAATCAGAATTTTGTCCAATTTGCGGAAAACCTCTAAAATCTAGAACTATCTCTAAACAAGATGAGTATACAGAAAATGAAGAGATTAATAATAACGATTTTTTTGATATGGAAGATAATTACATACCAGAAGATATAGAGAAAAAAATAGATGAAGAATATTATGACTAAAAAAGAAAATTTAATAACAATAGTAAATAAAAAGGAAGAAAAAGGTTCTAAATTGACTATATCTTTAAATATAAACTCCAATCTCGTAGAAAAATCATTAGATAATGTAACTGAAGAATTTATTAAAGTAAAAGAAATTAAAGGTTTTAGAAAAGGTAAGGCACCTAAAGAGCTTGTATTCTCAAATTTTGAAGAACATATAAAAGAAGAAGCGTATAAAGATGTGCAAAACAAAGTAATAGAATATATATACGAAGAAAAGATAAATCCATTAAGAATATATTTTGAAAAAGATTTCTTGGAAGAAATAGGGAATAAAGAAGATATAAAAATTAATGTATTATGTTATACAAGACCTAAAATAGATAGTATAGATATTTCTAAAATAAAAGTTTCTAAGAAAAAAGCTGAAGAAAAATATATAGAAGAAGAGAAAAAATATGAATCTCAAGAAAACAAAAAAATACTTGAAGATTTAAAAAATAATAAAGATAAATATACTGATAATATATATGAAAGCTTAATTATAGAAGAGATATTAAATACATTACAACTAAATAAGGAAGATATTCCTGAATATATGATAAAAGAACATGTAAGTAAATCTTTAAAAAATCTTGAAGAATTTTCTAAAAATTTAGAATTATCCTTAGATGAATATTTAAAACAAGTTAATACAACAAAAGAAAAAGTTATAAAAGACTTAGAGAAAGAATTGATGGATCAATTAAAACTAGATGTATTTACTGAAAATTTTGCAGAACAAAATAAGATTGAAGTGAATCAAAAAGATATAGATGATCAATTAAAAACTATGAATGAGGATGATTTAAAAAAATTGAACGCAGATGAATTTATCTATAATATTAGATATTATAAAAGTTTAAAAGAAGTTGTTGAATTAGTTAAGAAACAATCATGACAATAATACCTACAATAATAGAAAAGACTGCAAGAGGAGAAAGAGTATATGATATATATTCAAGATTACTTGAAGAAAGAATCATATTCTTAGGAGGTCAGGTAGAAGATGAAATTGCTAACCTTATAATTGCAGAATTATTATTCTTACAAAAAGAAGATTCACAAAAAGATATATCTTTATATATAAACTCTCCTGGAGGATCTGTTGATGCAGGAATGGCTATATACGACACAATGAACCATATATCTTGTGATGTGTCTACTATATCAATGGGGTTATCAGCTTCAATGGGGGCATTTTTACTCTCATCAGGAGCAAAAGGAAAGAGATATTCTTTACCAAATTCATCAATATTAATACATCAACCATCCGGAGGTACAGAAGGACAAGCTAGTGATATAGAGATTACAGCAAGAAGAATATTAAATATCAGAGATAATCTAAATACTATACTTGCTAAAAATACAGGTCAAAAAAAATCCAAAATAGAAAAAGATGTAGACAGAGATTTTTGGATGACACCCAAAGAAGCTTTAGAATATGGAATTATAGATAAAATAATAAAGTAATGGGTTCGTAGCTCAGTTGGTTAGAGCGCAACATTGACATTGTTGAGGTCACTGGTTCAATTCCAGCCGGACCCAATTAATTTAACAATAAAAAAATGAACTCATCTATACTTTTTATATTTAATCTCATAAACCATTATGGTTACTTTATAATAGGATTATTTATATTACTAGAATGTTTAGGAATACCTCTTCCTGGAGAAACATCTCTAGCTTTTGGTGCAGTATATGCATCTTTATATCCCAATAAATTAAATATATTTTTAGTCATCCTTACTGCTGTTATATCAGGATCATTAGGAGATAATTTAGGATATTTGATTGGAGAGAAATATGGAATCTCTTTTATTAAATTTCTTTCCAAAATATTAAAAACAAATATTAAATATGTTGATTATACAAAAAAATTCTTTGATAAATATGGATTCAAAACAGTTTTTATAGGAAGATTTCTATCTGTTTTAAGAATGTTTATACCTATAACTGCAGGTATACATAAAATTGAATATAAAAAGTTTTTTATATACAATATATCTGGATCTATAGTATGGGCATCATTGTATGGAACATTAGGATTTATTTTGGGAAGAAATTTACAATTATTAGAATCTGTATTGAAAAACATTACATATTCATCAATAATATTAATAATTATAGCTACACTGTATATAATATATAAAAGATATGAAAAACAAAGAATTGCAAAATTTAGATAAATTAAAAGAAATGAGACATTCAGGAGCTCATCTACTTGCATATGCAGTAAAAACTCTATTCCCTAATGCCAAACTTGCAATAGGACCTGCAATAGATGATGGATTTTATTATGATTTTGGAGATATAAAAATTCAAGAAGATGATTTAGTACGAATAGAAAACAAAATGAAGGAACTTCAAAAAAAGGACTATACATTTGAAAAAATAGAAATGAGTATTGAAGATGCAGAAAAATTTTTAAAAAAAGAAGATGAGATATATTCTTTATCACTGCTCAAAGATATAAAAGAAAAAGGTAGCACGATAAAAGAAGAAATGGATAATAATAATAAAAAAAATGAGACTGACATTGTAACTTTTTATAAATCTGGAGAATTTATAAATCTATGTAGGGGAGGACATGTAGACTCTTTTAAAAACATAGGTCCATTTAAATTAACTTCTATTGCTGGTGCATATTTCAGGGGAGATGAGAAAAACCCAATGTTAACTAGAATCTATGCAGCATGCTTTGAAACTTTCGATGAACTTGAAAATTATCTAAAAGAAAGAGAAGAGGCAAAAGAAAGAGATCATAGAAATATAGGTGAGAAACTTGGGATATTTTTACTCTCCGAAAATATAGGACAAGGACTTCCTATACTTCTTCCTTCAGGAGAAACTATCAAACATCTACTTATAGAGTATATGAGAAAAAAAGAAGAAAGATTGGGTTATAAATATATAGCAACACCTCATATTACACAAGCTTTACTTTATGAAGAATCGGGACATGCAACTCATTATAGTGAAGACATGTATTCATTTAAAGATAAAGAAGGTAATATATTCTATATAAAACCAATGAGCTGTCCTCATCATCATATGGTATATAAAAAAATAACTCAAAGTTATAGAGATTTACCATTAAAACTTGCAGAAGCAGCTGCGGTATACAGATATGAAAGATCAGGTACCTTAACTGGACTTATTAGAATAAGAGGTCCAATAACTCAAAATGATGCACATATATATACTCCCAAAGATGAGCTTGAATCAGAGTTCTTGAAAGTTTTATCCCTTTTTAAAGAAGTATATTCAGAACTTAACATAAAAGGTTACTGGTATAGACTTTCTTTACCTGATTTTGATAAGGATAAATATGAAGGAGAAAAAGAAATGTGGCAATATGCAACAGAAAAGATACAAAATAGCTTAAAAAAAAGTAAGAATAATTATACAGTAGGAATAGGGGAGGCAGCTTTTTATGGACCTAAATTAGATGTCCAAATAAAAAACATTTTTGGAAAAGAAGATACTATTGCAACTATACAAATAGATATACTTCAACCTAAAAGGATGAGCCTTACTTTTATTAATCAAAATGGGGAAAAAGAGACCCCTATAGTTATACATAGATCTATATTGGGTTCATATGAGAGATTCATTGCTTTCTTTTTAGAACAAACTGGAGGAAACTTTCCATTAAAATTTTCTCCTATACAATTTAGAATTATTCCCGTATCTGAAAAATATCTCAATCATGCTTTGGATTTAGAAAAAATCGTTAGAGATTTAGGAGGAAGAGTGGATGTAGATAAAAGAGACGAAAGTTTGTCTAAAAAAATAAGAAGTGCTGCAATAGAAAAAATACCTGGTAAAATAATAATTGGAGAAAGAGAAGTTTCAAATATAATTAATGATCAATTCACCTCTTTAAGCATAAATTGGAGAGAAGATTTTGATCATCCAAAGACTTTAGACATGAAAGCTTTACAGAAAATTATAGAAGAGAATAAGATATAAAATATGTTGTAATAACAAAAATCTATATATATAATAGATTCATGCATAACAATTTAAAATTCCAAAATGAAGTAGAATCATTTCTTGTTAGTTCCACTAAAAAATTTAAGCATTTAGATATGAATTCTAATATATTAATGCTTAATAATATATTGAATAACAGATATTCTCAAAAAAAAATAATTAGGAAAGATCATATATTTTTCTTAGATAAACTATATAAAGCATATATGAATTTATATCCTAATCTAAAAATAATACTTAAAAATAAAAAAGGTATAATAACTTTTGAAATAGAAAAAAAACAAAGAAGTGGATATCATATATTACTTGAGAAAAAGATAAAAATAACTCCATTAGAAAATTTTTTTAGACATATAGGAACTGATACACTATCAGAAATATCTCAAATAAAAAATAAAGATTTTGAATATTATATTGATGATATGGAGCAAAAATTCTATGAATAAAAATGAAGTAAGTATATATCTTAAAATACTTTCTAAAATTGAAATTCCAACTATTTTTAAAGGAAAAGATCAAGAAATATTAAATATTATTCTTAATACTATAAAAAACAATCTTGTTGAAAAACTTTCATCTACAAAAAATTTAGAGGATGATTTCGAACATATAAAAAAAATAATTATATCAATGCACTCAATTATATCTATATATCTAAAAAATTTTATATATTTAGATAATGATATATATACAGAAAATAAGATTAATTCTAATTACAAAAATTACTATGTTCTAAAAGCCAGAACATCTGATTTTAATTCAGTACCAATATATACATATATAAGTTTAAATAATAATAAAAATATTATAAATATTACAACAGAAACATTAAATAATGAGATCTTTACTAAAATTATTATTTATGAAAATAAAAATAAAATACAATTAGAAATAATAGTAGAAGAAACAAAGGATATTGATAAACTTTTTGGAGAAGAATTAGTTCTAAAATCAATAAAAACAAAAGAATTTAACAATTTTATAAATAATAATATAAAATTTTTAAGAAAGAATAAAAAACCTAAAGAAAGCCTCAATTTAGAAATAGAATAGATCTGATAAAAAGTCTTTGCAACTTAATGAATACAAAAAAATTTTATCAGACCATTTATTCTAGCTATATAAGATTTACACAGAAGGTCTATTTTATAATTTATATGTATAAATTCTTTACAAAGCCAATAATCTTTGATATTATACCAGTACTAGATTAAATTAATTATCTAACCAGGAGGGGTTATTTTATTATAAAAAATATAAGAAACAATTTAATAAGATATAACGATTATATAAGAGCTCCGAAAGTACGTTTAATCGATGAAGATGGCACATTTATAGGTATAATTGAAACCAAAGAAGCGATTTCAATAGCAAAAGAGAAAGAATTAGATTTAATTGAAATATCTCCTAATACAGACCCTCCAGTATGCAAAATAATGTCTTACTCTAAGTATAAATACGAACAGAGTAAGAAAGAAAGAGGTTTAAATAAAAAAACTAAGAATAAGGAGATAAAAGAGATTAGATTTAAGCCATTTATAGGTATAGGAGACTATAATAATAAAGTAAAAAGAATAAAAGAATTCTTAGATGAAAAACATAGAGTTAAGGTAGTAATAAGGATAACAGGAAGGACAGCTTTTGATAATGCTGATAATTTAATGGCACGAATAGTACAAGATACAGCAGAATCTGGATCACCAGAATTTGAACCTAAAAGAGAAGGAAAGACAATTTTAACATTACTACAACCAACAAAATAATTATGAAAATAAAAACAAAAAAAATATTAGTTAAAAGATTTAGAAAGACTAAAAATAATAAAATCCTTCATAGTATAAAAGGAGTATCTCATTTTATGTCTAAGAGAAGAAGTAATCGAAAGAGCAGAATAAAAGGCATACAAGTTTTAGGTGGTAATACTAAAATATTTAAAGACTTAAAATAAATTATGAGAATAAAAAAAGGATATACAAAACATCAAAAGCATAAAAAAGTGCATGAATTAACCAAAGGTTATAGAATGACAAAAGGAAACTTAATCAAAGTTTCTAAAGAAGCTATTCTTCATGCAGGAGAATATTCGTACAATGGAAGAAAAAAGAAAAAAAATATCTTTAAAACTTTATGGATTACTAGAATATCTGCTGCATTAAAAGACACAGGAATATCTTACTCAAAATTACAGAAATTACAAAAAGATAATAACCTTCTTTTAAACAGAAAAGTGATGGCATATTTTGCAACAGAAGACAAAAATGTATTTGATAAAATAGTAAACGAAGTCAAATCAAAAGAGAATGTATGACATTAACGATTTAATAGATAAAATAGAATTAATAAGAAAAGATTCTTTAAAAAAAATACAAACTTCTGACAATATAGAGACTCTAAAAAAAATATATAACTCTGTATTTGGTAAAGACAAAGAATTATCTTTACTATTGAGTGAAATAAGAAATTATAATATTCAAGATAAGAAAACTCTAGGAGAATTTTCCAATAAAGTAAAAAAAGAAATCACAGATAAACTCTTCGAAAAAGAAACACTTTTAAAAAAAGAACTTGTAAATAAAGAACTTCTAAAAACTATAGATGTAACTATGCCTGGTATATCTAATAATATAGGATCTATACATCCTATTAGTCAGATGATAGATAAAATTGTTAAAACTTTTGAATATTTTGGTTTTTCTGTAGCCTCTGGACCCGAGATTGAAACTGATTGGTTTTGTTTTCAATCTCTAAATTTAGATATTAATCATCCTGCAAGAGATATGCAAGATACATTCTATATCAAAGAAAACCATATACTACCTAGAACACATACATCTTCAGTTCAAATAAGAACTATGCTTTCTGAGAAACCTCCTATTAGAATTATTGCTCCTGGAAGAGTATATAGAAATGAGAATCAGGATCAAAGACATACATTCATGTTTTACCAATTTGAAGGTTTAGTAATAGATAAAACTACTAATATCAAAGATTTAAAAAATATACTTACAACATCTTTGAAAAATATATTTAATAATGAAAAAATAGAATTACGCTTAAGACATTCTTTTTTCCCATATACAGAGCCTAGTTTTGAAATAGATGCAACATGTCTTCTATGTAATGGGGTAGGATGTAGAGTTTGTAGTAATAAAGGATGGATAGAACTCATGGGAGCAGGTATGATTCATCCTCAAGTTTTAAGAAATGTAAATATAGACCCTCAAGAATATCAGGGTTTTGCATTTGGAGGAGGACCAGAAAGGTTAGTTATGGTAAAAAATATGATTGACGATACTAGGTTGTTCTATGAAAATGATTTAAGATTTCTATCACAATTCAAAAAAATATGAAGATATCAATAAATAGATTAAAAAAATACACAAAAATACCTAAAGATAAAAAAGAATTAGGAATATTATTAGATAAATTTGCAATACAATCTGTAGATATAGATAATATAATACATTATGGAAAGAATTTATCAGATATATACATAGGAAAAATAACAAAAATAGAAAAACACCCTAATGCAGACAAATTACAAATAGTAAATGTAACAATAAAAGAAAAAAGCCTTGTTATAGTCACAGGAGCATCTAATATATATATAGGAATGATTTGTCCTGTTATTTTAGATGAAGGTATACTTCCAAATGGTACAAAAATAAAATCATCAGAACTAAGAGGTGTAATGTCTAATGGTATGCTATGTTCTGAAAAAGAATTAGAATTAAGTGATGATCATGAAGGAATTATGGATCTTGGGGACGAATATAAAGATCGAATAGGCGAAAAATTAAGTAAATATATATCAGATACTATAATAGATATAGATAATAAAGTAATCTCTAATAGAACAGATTTATTCTCTCATATTGGAATTGCAAGAGAATTTGCAGCTATTCAAAAAGAAGATTTCAAGAATATATCTTTAAACCCTATAAAAAATCCAATTGAGGATAATATACAAATAACTTTAGATGATGAATTCTGTACTAGATATATAGCTATTATAATAAAGGATATAAAAATAGGAAAATCTCCAGTTTGGCTAAAAGAAGAATTAAGAAAAATTGGAATAAAAAGTATAAATAATATAGTTGATATAACTAATTATGTTATGACCGAAATTGGGCAACCTCTTCATGCATTTGATCTTGATAAAATATCTGATGGTAAAAATCCTCATATAATAGTAAGAAAAGCAAAAAATGGAGAAATTATAAAAACACTTGATTCAAAAGAAAGAAAGCTTAATGAAAATAATTATCTTATTGCAAATGAAGAAAAAGGCTTAGGGATAGCAGGTGTAATGGGAGGAGAAGATTCAGAAATTGACAATAATACAAAATCTATACTTTTAGAAAGCGCTATATTTAACCCTATATTGATTAGAAAGAGCTCTAAACAAGTAAACCTTAGAACTGAAGCTTCTTTAAGATATGAAAAGGGTATTCCAGAACATTTTGCACTACAAGGAATTCTTCTTGCAATAGATATGATACAAAATCTTAACTACGGAAAGATTGATTCAAATATAACAGATATACAAAGAGCATCTAATACAAATATTAAAATATCTCTATCAGAAGAAAGAATCTATAAAATATTAGGAATAAAAATATCTACAGAAAATATTATAGATATATTAAAAAGGTTAGACTTTAAAGTATCTAGTGAAAATAATTTATTACAAATAGATATACCTCCTCAAAGAAAAGATATAAAAGAAGATGTAGATATAATAGAAGAAATAGGCAGAATATATGGATATGACAAAATCCCTGAAGAAAATCCTATATATGAATCAAGTAAGATAAAAAGAAATATAATATATGATACAGAACTAGAGATAAAGAAGATCTTAGTATCTCAATCAAGTTATGAAATTAAGACTTATTCTTTTATCAGTAAGGATTTAGCTAGAAAATCTAATATAGACATTACAAATGCTATTAAAATAATTAATCCTTTATCTGAAGACTTTACTCATTTAAGAGAAACTCTAGTACCTTCAATGTTAAATACTGTAGCTTTAAATACAAAAAATTCTGATAATTTTAGTTTATTTGAAATAGCAAATGTATACCTAAGATCAGAAGAAGAGTTACCAAAAGAAGATTTATTCTTATGCGTATCTAAATACTCAAAGAATAAAAAGAATGATACATTTTTTGAGATTAAAGGAATATTTACAAATCTATGTGAATACTTAAATATTAATGAAAGTATTACTTTTAAAAAGGGTACTAGTAAAAAATATGGTGTTCAAAAACAAAGTGCAGAAATAATAATAAATGATAATAAGATAGGTGATATTATAAATATACACCCAGAAGTAAAAGAAAATTTCAATATAAATGGAAATTTAAGTATATTATTAATAAATATAAATGAAATAATACCATATATATCGGATAAATTTATATATATAAAATATTCTAAATATCCTGAAATAGTTGAAGATATAAATATAACGTATAATAAGAATTTAGTACTGGATGATATATTAGTCCATATAAAGGATCCTGCATTAAAAAGTTTTAATATTATAGATATTTATGAAGGAAAACCTCTCAAAGAGGATCAGATTAGTATAACAATAAAATTAATTTTTCAAAATTTTGAAGGTACATTTAAAAGTGAAGAAATAAAAAACAAAATTTCCTCAATAAAAAATACTCTAAAAAATGAATTTAAGAATATAGATTTCAGATAAAAATCTATGGAGTTACTTGTATATTAATAGTACTATTACCACTTACATTATTTGAATCCTGTGCCGTAATAACAACACTATATTGTCCTGGAATAGTAGGTAATTGAAAATTCACATTATAATTAGCATTATTATTTATAACCTGAGGTTGTCCTACTACACTTCCAGAAGAATTTTCTAACTTTATGGTTATATTTGTAATATTATTAGGTGACACAGCTACCCCAGATACATTAATACTGTTTCCTGAAGTTATACTATAACTTTGATTTGATGTAGGACTAGAGCTATTTATTGCAATAGTATTGTTAGGACCAGAATATTGATTACAATATTGAGTAGGAACTGGAGCATATGCTATAGTTGAAGTAGGTGATTGAGCTGCCTCCCAAGCATTAATAGCGGATTGAAATAAAGGTGAATAAGCTTGTAATTGTACATATGTTTTATTTATATAATCACCTGAAGATATCTGACTTTGAGTTGCAAGAAGATTAGTATTTTCTTTACATACTTTTACTGTTTGATTTTGGTTATCCAATTTAGGTAATTGCCCTTGTGAAAAATAACCTAAAGTTTGAGCACAAGAATCTCCTTGTACAGGAAGCAAACCATCATTAGCACAAACATAATCAGTTACTACTCCTGAAGGTCTTTGAAATGTTGGTTTAGGAAACATAGGAAGAACTTCCATCATATATTTATTCCAAAATGGAGCCAAATACTCACCATAAGAATAATTTTCAGTAGGAGCATTATTATCATTTCCTGCCCACATTCCAGTAGCTAAAGAAGATGTATATCCCATTAAAACTAAATCTCTAGACAAATTACTTGTACCTGTTTTCTCTACAACAGCACCAGCATAACCTCCATAATATATTGAAGGAGAATAAAATACTGTAGGATATTTAGTAATAATTTTATCTATCATATATGTATATCTTTGTTTTATAATTCTTTGACCAACACTACTAGGATTATATTGATATATTACTTTTCCAGAAGAATTTACTATCTTAAGTATAGATACAGTAGGATATTTAATACCACCATTTGCTAAAGTAGAATAAGCTTCTGTATTTTCTAATAGAGGTACACCTGCAGCTCCTATAGCTATAGATAAATCATTTTTATATTGAGATACACCTGTAAATCCAAATAAATGCAATTCTTTAATGAAATTTGATATACCTAATGCATATAAGGTTTCTACAGCAGGTATGTTACGAGAACCCCTTAGTGCTGCCTTAATATTAATAGGACCCTCATATAAATTATTCCAATCTGTTGGAGCATAACCATTAATATTAATAGGAAGATCTTGCATCATAGTTGTAGAAGAGAAACCTAAATCCTGAAATGCAGCTGCATATAAAAATGGCTTAATAGAAGAACCCGGTTGTCTGGGGGCTAGAGCTGCATTATAATATCCATCCATTTGTCCATTAAACATAGATACCCCATATTTATAAGCACCTACCATAGTTAGAATTTCCCCATTATTAGGATCTACAGATACCAAAGAAGCATTATGTGCATTAAAACCTGAAGATATAAGATAATTTACAGCATTCGTTACTGTAGATTGAGCTAATTTTTCCATTTTCCAACTAAGAGTTGTATATACTTTCCAACCACTAGTATCTACAGTATTAACTCCATATTTTTTTTCTAATTCATTTTTCACATAGTATACAAACCAAGGATCCTTTATGTTCTGAGATACACTACTTGTATTATATTGCATATGAGGAATTTGACTCTTTGCAGCTTGAATTTCTTTATTTGTAACACCTGTTTCATATTTATCATTAAGCATTTGATTTAAAACATAGTCAGTTCTAGGAATTAAGTATTTAGGACTTGTTCCAAATAAAGGTGAATAAAAGGATGGAGCTTGAATCATTCCTGCTAAGATAGCACATTGAGCTAACGTAAGCTGATTTGGTTCTTTATTAAAATAAGTTTCTGATGCAACTTTTACTCCATAAACATTTCCTCCAAAATAAACTTCATTTAGATATTGTTGTAAAATCTGTTGTTTACTATATCTCTGGGAAATTTCTATTGTTAATATTATCTCTTTCAATTTTCTTTGTAATGTTTGCTGAGATGTAAGTATTGTATCTTTAACTAACTGCTGAGTAATAGTACTTCCACCTTGGAGATTTCCAGACCCTCTTTTAAAAACATCATAATAGAAAGCTCTAAGAATACCTCTAAAAGAAATTCCTAAGGGCTCGTTATAAAAATTCTTGTCTTCTGCAGCAATAACTGCCATTTGTAATTTTTTAGGAATTTGACTCAAAGGAATAGACTCTCTATTTTGTGAACCATGAAAACTATAGAGTAGAGTACCTCCTCTGGAATATATACTTGTTGTTTGAGCATAAGCTTTTGTAAAAGGAGTCCCAGCTGGTGGCAATTCAAAAGAATACTTTATTATCAGATATGCAACCGCAATTGCACCTAATAACATAATAACTCCTACAAACATGAAACTATATTTAAATAGCTTTACTATTAATTTTTTATTTTTAGTGTCTATTGAAGATTTCTTCTTACGAATAGACTTCGTATTATTATTTTTGTCTCCAAAAACATTTAAAACTTTCATTATACTTAAATTATATCATATAATTTGTTATTATATATAATATAAAAAGATTAAAACTAAATAAATGAAATACGAAGATCCAAAAAATTTAATACTTAAAAGAGCTACATTTAGAGTCATAGATGAGAAAAACTTAAAAACACTTCTAGAAGATGGGAAGTCTAAACTTAGAGTGAAATTTGGAATAGATCCTACTGGGAAGAAAATACATATAGGTAGAGCCTCTACAATACAAAGATTAAGGGATTTTCAAGAATTGGGGCATGTAGTTGTACTCATAATAGGAGATTTTACTGCGTTAATAGGGGACAGTTCTGATAAAGAAGATCGAAGAGAGCTGGTTACAGAAACTCAAATACATGCTAATTTAGAACACTATAAAGAGCAAATAGGAAAAATACTTGATTTAGATAAGGTAGAATTTAGATATAATTCAGAATGGTTATCTTTATTAAATTTCAAAGATATACTCAATCTCTCAAGTAACTTTACTGTCTCACAAATGATTGAGAGAGAAAACTTTAGTGAACGATATAAAAATAATAAACCTATTGGTTTACATGAATTTCTATATCCCTTAATGCAAGGATATGACTCTGTAGCTATAAAAGCTGATGTAGAACTAGGAGGTTCGGATCAATTGTTTAATCTTCTATCTGGAAGGGAAATTCAAGGTATATTTAAAATGAAAAAACAAAATATTGTAACAAAAAAACTACTCTCAGGTACTGATGGAAGAAAAATGTCTACATCTTGGGGAAATGTAATAAACATTACTGATAAACCTGAAGATATATATGGAAAAGTTATGAGTATTAAAGATGATAGTATAATTGAATACTTTACTATTACAACAAGGTTTACAGATAAATTAATAAAAGAAATGGAGGAAGATGTAGAAAATTCATTAGGAAGTAGTGCTATGATGGATATTAAAAAAATACTCGCAAAAGAGATTACAAAAATGTATTCTTCTTACGAAGATGCTATTAAAGCCGAGAATAATTTTAAAAAACTAGTGCAAAATAAAGATTTTAAATCTTTAGATGATATAATAGTTGTAGATATTAAAGAAAGTAATATTAATATACTAGATTTAATATCATCTTATACAGGTCAAGTTCCTTCAAAAGCAGAAGCTAGAAGATTAATATCTTCAGGAGGAGTTTATATTAACGATACAAGAATAAATGAAATTAATACATTAATTGAAATAAAAAATGATATGATAATAAAAATAGGGAAAAGAAATATTATAAAAATAAATCATGAGTAGAAAGAAAAAATTATTTCAAAAACACGGCAATACTATATTTATCATCATTATGGTAATTACTATAGTAGGTTTACTTCTTTCTAGTTTGTTAGCTATATTTAATTAATGGATAATTTAGATATTGACGTATCTAAAGCCTATTATATAGGAGAAAAGTATGCTAATTTACTTAAGAAGTTAAATATATTTACATTAAAAAATCTATTGTATTTTTATCCAATCAAATATGAAGATTCTAGAAATGTTATAAATATAGAAGATATATTTATAGGAGAAAAAAACATAATAAAAGGGTATATAACATCTATAAAAAGTATATATACAAAAAATAAAAAAAATATTATCACCGCTCAAATTACAGATGATACAGGAACTGCCAATATAATATGGTTTAATCAACCATATATATCCAATAATATTAAATTAGATACAGAAATAACTCTCTCAGGAACAGCATATTACGAAAAAAACTCTGTTCTTTTTAAATCACCTCAATATGAGATTCAGAGAGAAAATAAGGAAAATATACATCTTTCAAGAATAACTCCTATATATTCTCAAACTAAAGGAATATCTTCAAAATGGCTACGATCAAGAATAAAAAATATCTTAGATAATATGAAAGTAGAAGAATATATACCTTCAGAAATAAGAGAGAAGTATGATCTTTTAGAAATAAATGATGCTCTAAGAAAATTACATTTCCCTCTTAATTTTGAAGATATCAATGAAGCAAAAAGAAGATTAGGTTTTGAAGAAATACTATACATACAAATACTCTCTTATTTAAAAAAAGAGGAAAGAAAAAAACGTACAAGTTACAAGATAAGTGTAGATGATATCAAAATTAAAGATTTCATAAACAATCTAAATTTTAAATTAACTTTATCTCAAACAAGAAGTATCAATGAAATCATAGAAGATATAAAGAAAGGTATTCCTATGAATAGACTTTTAGAAGGTGACGTAGGTTCTGGAAAAACTATAGTAGCTCTAACTGCTGCATATATAATAAATCTCAATAAATTACAGACTGCAATAATGGTACCAACATCAGTGCTAGCATCTCAACACTATAAAACTGCAAAATCTCTGTTTAAAGATTTAAAAATACAACTAATAACATCGAAAACAAAAACTTTTGATAGATCAGCATCTTTATTTATTGGTACTCATGCATTATTTAGTAATGAAATATTTAAAAATTTAGGATTAGTAATTATAGACGAACAGCACAGATTTGGTATAAGGCAAAGAGAAGAATTAATAAATAAAGGATATTATCCGCATGTCCTTACTATGACAGCAACACCTATCCCTAGAACTCTTGCATTAGGACTGTATGGAGATTTAGATATATCTAGACTTGATGATATGCCAAAAGGAAGAAAAGATGTAAAAACATATATTATTCCTGAAAATAAAAGAGAGGATACATATAAATTTATTAAAGAAAGAGTTAGAGCAGGAGAACAAATATTTATATTATGTCCACTTATAAATGAATCCGAAAAAATTCCTGTCAAAAACGTACAAGATGAGTTTAAATACCTTAAAAATAATGTTTTTACAGAAGAAAAAATAGAGATACTACATGGAAAAACAAAGAATAAAGAGTTGATATTAAGTAAATTTAAAAAGAAAGAATTTGATATTTTAGTATCAACACCTATTATTGAAGTAGGAATAGATATAAAAGATGCAACTATAATAATAATAGAAAATGCAGAAAGATTTGGATTAGCACAATTACACCAACTAAGAGGTAGAGTAGGTAGATCAGATAAAGAATCTTTTTGTTTTTTATTCACATCTAATCCTTACAATGAGAGATTAAATTTTTTTAAGAAAAATAATAATGGATTAGAATTAGCAGAATTTGATTTACAAAAAAGAGGTCCAGGAGAAATATATGGGCAAAATCAATCAGGAACCCCAGATCTAAAAATGGCTTCACTCTTAGATAAAGACTTGATAAAACTGACAAGAGAAGCTGTTTCAGATATAATTAACGTATTAGATAAATATCCTCAATTAAAAAATAAAATAAGAGAGGCTCAAGATAGTATATTATCAATGAATTAAAATGGAATTACGAGTAATTGGAGGAAAATTTAAAAGAACAAAATTAAAGGTACCGAAGGATACGAGACCTCTTAGTGGCATAGTAAAATCTGCTTTGTTCTCAGTTATAAATGATAAGATTAAAAAAAGTTATATACTAGATTTATATGCAGGATCAGGAGCTTTAGGCATAGAAGCTCTTTCTAGGGGTGCAAAATTATGTGATTTCATTGATATAAATAAGAAAGCTTGTGACATAATAAAAGAAAATTTACTAAAACTTAATTTAAGTAATAATGAAGTTTATAATATACCTGCTGAAATTTTTCTAAGATATAATAAAACTATAGATGATAAGTATGATATTATATTTGTATTTCAACCTTATGATATAACAAATGAAGGTATAGTTTCTAAATCTATACATTTACTTAAAAAAGATGGAATACTCATCTTCGAAAGAGAATCTAATAGGGAAGAGAGAAGTATCAAAGGTTTAAATATAATAAACTCAAAAAAATATGGAAAAACTGCATTAACTTTCTATATAAAAGATTGACTTTTTGATTGTTTTAATAATATAATATAGGTTATGGCAGCAACACCAAAAAGAAAAATATCACATGCTAGAAAAAATAATAGGCGTTCACATTATCACGCTATTGTTCCAACTCTTACAGTATGTCCTAATTGTAAATCAAAAATGTTACCACATAATGCTTGTTTGAAATGTGGAAAATATAAAGACAAAGTGGTACTACCTTTATAGTTTTATAAAAGATGAAATCAAAGCGTGATCCTAGACATTTATCCAGAATAATTGCTTTACAAAAATTATTTAATAGATCTTTCTTAAGAACAAATGTTTTTACAAATAAAGAACTCTTGGAATTAGATAGAAGTCAAGAATTTGACAAAGAATTATTAAATAAAATAGTATATGGAATAAAGAATAATGAAAAAGAAATTTTAGAGATTGTAAAGAAAGCTAGTCTAGAAAGACCTTCAAGTAAAATTAATAAAATAGATCTTTTGATAATTAAAATAGCTATTTATGAGGGGTTTGTTGGTAAAATAACACCACCAAAAGTATCTATAGATGAAGCAATTGAGCTTGCAAAAGAATTTGGAGATATACCAAGTTCTAAATTTGTAAGTGGAGTATTAGGTAATTTAATGAAATGAATGTAGAAGATTTAATAGAAAAATTAAATTTAAAAATTAATGATATAGAATTATTTAGAAAATCTTTGACTCACAGATCCTTTAATGGAGAAAATAATGAAAGATTAGAGTTTTTAGGAGATGCAGTAATAGAATTACTAGTATCTAAATATATATATAATAAATTTCCTAATGAAAAAGAAGGCATACTGACAAGTTATAGGTCATCTTTAGTAAAAACAGAAACTTTATCTAAAATAGCAGCTTCTTTATCTTTTGGAAATTATATTCTAATGAGCAAGGGTGAAGATGAATCTGGAGGTAGAGAAAGACAAACAATACTAGAAGATGCGTTTGAAGCTTTCATAGGGGCTCTGTATTTAGATAGAGGACTTGAATATACTAATGATTTCTTGTACAATAACCTTTACTATATATTAGAAGATATTATAAGAGACAAGAGTTATATTAATAATAAATCTCAGTTACAAGAAATATCTCAATCTAAATATAAATCCACTCCGAAATATAAGGTTATTAAAGAGGAGGGACCTGCTCATGACAAAACTTTTACTGTAGAGCTTGTGATAAATAAAAAAACAGTATCACAAGGAATAGGGAAGAGTAAACAAGAAGCAGAAGAAAGTGCAGCTACAAATATACTAAATAAAATATATGATAAAGATAAAATTAACGAGAACAGGTAAAAAAGATCAAGCTAATTACAGAATAGTAGTTGCTTTATCTACCACTAAAAGAGATGGTAAATTCATTGATAATATAGGGCACTATTCACCAATAACAAAAGAATTAGAGTTCAACAAAGAAAAACTAGATAAATGGATTTCTACAGGTGCTCAACCTACAGATACTGTAAAAAAATTATTGAAAATTAGCTAAATATTTATCTAAACCTCCCAAATTATTAATTAAACTAATATATTTAGTTTCGGATATATCTGGAGAAGAGAAGAATGTAACTTTTACATCTAGAGTATTATCACTTGAAATATTACCTGTTAAATTTCCTCTGTAGTATATATTAGGAACAACAAAAAGTATTTTATTAGTAATTAGACTGTTAATATAAGATTTTAATTGAGAATAATTACCAGAAAAAGACACAGATACATTAGAAGGGGTAATATTACTAGATAATCCTGGTATTGTAACTGAACTGTTAAAAGATTTAGGTAATTGAGCACTCGATAAATTTTTAAATATTAACCCAGAATTTAAAGCCATATTCTGAACATCTCCAGAAGTAGTAACAAATTGAAGATTATTAGGAATAATAGTATTTAGAATAGCTAAATCACTTTTAAGTTTATTAGATGTATTATTAGATGTGTAATTTTCTAAATTACTTATTTCCTGATTTAATTGAGTATTTTTTGTATTGTATGCACTAATTTCATTATCAGAATTTATAATACTATTATAATTAGGTATAATTATAAAGATAAAAGATAACAACACAATAATAAAAATTATTGTTGGTATTATATATAAAAGTAAATTTTTTCTTAAATTAATTCCCATTATAATCTGTAGTTACATTAAAAGTAATAGAACCTGAAGAAATACTCAAAGAAGATATCTGCGTATTATTAAAATACTTATTTTGTGAATTATTCTCAGTCATAATAAACATATATTTTGCAACACTTAAAACATCAGGAGCTTGAGCATAATAAGATATATTTCCGTTATAATCATAATTTATATCATATATACTTATATTCGAAGGTGTTACCAATTTTAATTTATGAAATACATCAATTGGATTATAAAAAGTTTTTTGAATAGCTACTATATTTGAATATCTATAATTTATGTTATTAATTAAATTATTTACTTTTGAAAAACTATTAATAGTAACTTGATTTTTTTGATAAGATACTTTTGCTGCATCAACTTTTTTTTGTAAACCTTGAGATAATAAAATTAAAACAAAAGAAGATAATTCTACCACTATTAATACTATTGCACTAACAAGATCTACATAGAAAGTTGTTCTTTCTCTTTTAACATCATCTCTTGTTTTTTGAGGAAGAAGATTAATTTCATTTTTCATGTTTTTAGAGCTAAACCTATTGAAACAGCATATCCTGGTAATAATACAGGCATTCTATTTTTTAATTCTGGGTTTATATATACTCCTGAATAAGGATTACCAACTTCTACTTCCATATTAAGGTTTTGAGCTAAATACAGAACTAATCCTGGAAGCATTGAACCATTTCCTACTAATATGATTTTTGAAGGTAGATCTCCTATATTTGTAGATCTATATGCATTAATTATCCTTTTAATCTCATTTATAATAGAATCCATTATAGGTGTAATAGTACGATATATTTTTCCTTCTAATTGATTAGCATCTAAACCATAATTTTTCTTATATTCTTCAGCTTGTATTTCTTCTAGATTGAATTCTTGAGAAATAGCTTTTGTTATAACAGAAGACCCTGTCGATATTGTCTGATTAAATAAAAGATTTTTTCTATATGCAAAAACTAAATTAATAGAATTATATCCGAAATCTAAAATTATACTAGGAGAAGGATCATTCAAAGAAGACATGCTTCTTACTAATGATAAAGATTCAGTTTCTATAAAAGTAGGATCTAATCCTGCAAGTGTTAATATATCTACATATCTATTTATTAATAATTTTGGAGCAGCTACTAAAAGAATATCATATTGAGTGAGACCATCTGTTGTATTTGAATTAACAATAGACCAATCTATTTGTACATCTTCTAAAGGTATAGGTACATTCCTTTTAGATGCCCAAAATACAGCTTCTTCTAAATCAGATTCTTTTTGTGCTGGAATTTTTATAACTCTTGTAAAAATAGAACTATCTGGTAGAGAAGTAGATACATTTTTTGTTCCTAAATTTAAATCTTTAATCAAAGAACTTAAAGCAAGAGATATTTCTTTTTTATGTTGTTCATTTTCACTACTATATGCTCCTTGTGGCATAGGAATTGATCCAAATGATACAACAGTAGGATTTTTTTCAACATCCTTTAACTTTACTACCTTTATAGAATTAGCGCCGAAATCTACTGCAAAAACGTTAGAATTTTCTTTCTTCTTTGAAAACATATTTTTATTGCATTGATAAATAATTTTTAACTTCTTTTACAACTTGCTCTGGAGTAAGTTCTGTTTTCATCAAAAAACCATCAGCTTTTTGTTCTAAAACATCTCTAATTACGACTTCACTTGTAAGATTTGTTAATACAACAACAATAGGTTCTCCATATTTATCTTTATCTCCTTTTATTAAAGATAAAACATATGTTCCATTCATTGAGCCTGTAGGAAGCATCAGATCTAAGAGTATTAAATCAAATTTTTCTTTAGCAGCCATTTCAGCACCTTCATCCCCACTATATGCAAACTTTACGTCAAAGCCAGAATCTTCCAAAATCTCTTTATAAAGCTCTACTAAAGCCTCCTCATCTTCAACTATTAAAATTTTTTTCTTTTCCATTTTTTATTTTTATAAAATATTAATTTATTACAACTTGTCCCATTGCCATTAAAAATGCATTTACCTGGTTAACAGAGGACCAAATATTTATATTTCCAGAAGAAATAACAAGGGGACTATTACTAATATTACTCTCAATATTAGCATCTCCATAAACAAGTATAATACTATTTGGTGGAGGATTAGGAGTTATAGTAGTAGTTCCATTATAAAAATACCAATTAACTCCAGATACACTAGAATTAGATGTTTGTATGTTATGAGATTGCAAAATACCATTACTATACAAATTATTACTACTATTATTACATACAGCATTATACTGACAATACAATGTGGCAAAAAAATTAAAATTATATATAGGATTATTATTTAACAATAACATTGAATTATAGGAGGGTATCATATTACTTCCAGGAGTATTTAGAAAATTAGAAGAATTAGTATTCTCAATTAATCCATCAGAAAATGTAGTAGGAGAAAAACTATTATGACTAAAATTTGCAATTTGGTAACCTCCAGAAGAATAAGTATTTCCACCTCCTGTACTTCGTATCCAAGAAGCATATACTCTCAAAGAAGGTAATTGACTAGAAACACTTGCACCTATAGATGTATATGAAGAATTAGAAGAATTAAGGTTTAATGGAGAAGGAGAACTACAATAAGTACTCGTATTATTTGAATAACAAACATTAATACTATTTGTAATATATAAACCTGCAGGTAATCCAGATTGATTAAAGTAAGGATATACAACAAAATCTTCTTGACAATTAGTAGAACAAGAAATAGATTCTGTAGTAGCTAGAGCTCCTTGAGAAAAACTTAACCAAGAAGATGGAGATGAACTTAGCTCTACATTTATATCCCCTGAACTATAATTAGGATTACAAGCGTTCTTCCATCCACCTGGTGTACATGTAACAGATACACTATATTCTATTCCTTGAGGAGTAGAATTAAGCCATGTATTATAATTATGCTCTTCTATATAAAATCTATTTCCATCATTATTAGGTGTAACTTGAGCAACACTAATAGAATACTTACCATACCTCGGAACAACAGTTATTGACTGATTATAACAATCATTTACTGAGCTATTTGATTGAAGACCATGAAAAGTAGGTGATAATGTAGAGGTACAAGTTGTAGAATTATTAGAAGAAGTTGGAGCAGATCCTGAACAGACACCAACATCACTACCTGTACCACCTACACAGGAATAATTATAACCATATGTATGAGTATCTGTAACACTTGTAGATACTTGATTATCTATAATGGAAGGTGATGGACTATAATTACTATAACTAATTTTAGTCCAAGTCCCATAAGAAGATGTAGTTTGAGCAAATAAATCTATCTTACCTATATATGCATATATAGAAAAAACTATAATAAAGAGTAAAAATATTATTAATAAATTTTTAAATTTTATAAGTTTCATATACACTTAATATAGCTAATATAATAAAATAATTCAACTTCCATTATATATGTAATTTTCTTCTGTAGCAGAGCCAAAAAGAGGTAAACAAGTATTATTACTAGTATTAGCAAATACTATATTTGATAAAGAATTATTACTACTAGTATAGCATCCAATAATAATAATATTTAAATAAGGTAAAGTGTATGATGAACTCGCTGAATATGAAGGCGCTCCTGTATAATCATAATTATCATAAAAAAAATATACAGATTTAATACTAACAGAAGAAGAATTAAGAGGCACGGAAGTAGTAGAACCTGAAGCATTGTATCTAAGATTATTACTACTACTCAGACTAATACTTCCTATAGTAGAACCTGAAGCATCTAATATACTTAATTGACCAATACTATTACACTCACCTATAATAGAAGTACCCATATAAGAGCATCCATTTACATTAATATTAGGAGATACAGAAGCAGCAACTCTTATCTCTCTTCTTAATGAGCTCATTGTATATGTAAGATCATTTTGTACTTTTATCTCATTTTGAATACCCGTAGTATAAGTGATAGTACTAGTATAAGACTGCATTATCATATATGACAAAGATGCAAATATTGCTAGAACAACTAAAGTTTCTATTAATGAAAATCCTTTTTTATTTCTAAACAATTTAATCATAATCAGCAAGAAGAAAGTAAACTTATATTATCAGTTTCATATAATAAATTATTGTACGTATTTAAGTTTTGAATTGTATAGTTATGACTATAGTTATACAATTCAGTTGAATTATTATTAAAATAACTATAAAGAGCAGATGCCTGACCATAATTATATCCTTGTATATTAAAAGGTATTCCAGGTGCAGATAGATTCCATAATACATAGGCATTTACAGTCAACAAACATCCAGAAGAACCAGAAGATGTTGGCTGTGAAATATATAAGAATATTCCTGCATTATTAGGTATTTCACTGTAAGAACTATATTGAAATTGATTAATTTCATTATTTATTTTTCCAATTGAAAGACAATTAGATGGAGTAGAAGTAGAAGGAGTAGAATGATTTCCAAAATTTATTCCACAAGAAATAAATTTGTTAGTTGAATTATAATTTCCTTCTTCTAACCAAGTATGTGCATAAGATAATTCTAGAGATACTACTTGTTTTGCATATAAATTATATGTATTCTGATAATTACCTTTTATAGCAAGTGCTTCTGACTCAAGTACAGCTAAAAAAAGAAATCCTAAAAACATTATAGTTATAAGTATTTCTATTAAGGAGAATCCTTTTTTGTTTATAATTTTTTTATCCATTAGTTATTTTACCTAAACTAAATGTATTACCTTGAGTATCAAAATTAACAGGAATATAATAATTTTCATATGATAAATACCAAGAAGAATTACCTGCATAAGTATTAAATGGAGAATTTGTATTATATAAAGAAATATTTCCATTTAATTCTTGAAACAAAGGAAAATAATTATTACAAGTAGTAGTACTAGCAGGATTACACAAAGACATAGTTACCCCTGGCTGAAATTGATGATAATATAAATATATAGAGTTCAACACTATTCCTCCAACATAAGAGAACATTGTATTACAATTATTTAAATCATATTGAATAGAACATGGGGGAGTAGAGGGGGGAGCATCATTAACCAATATTCCTAAAACATATCCATTACAATTATTACTACAAAATTGAGTAATTGAATTTGCTGGCAATATAAAAAACCCATATATAATTTCAGGTGTATCATTATAATTAAAACCAGAAAATTGAGTAATACTTGAAGTTGCATCCGTTTTCATTAATTGGATATTAGATTCCAATTTTTGCGCAGAAGAGAAAAGTATATTTTGAGATTGAGTAGAATTTGAACCAACTATAGCTAACCCTATTATTAATACCGATATTGCTATCACTATTAACAACTCTACAAGTGTGAAACCTTTATTATTCACCTTAAAAAAATATATGTCATAAAATTAGATACATATGTACCAAAAATTATATATAATATGACACTCAAAGACAAGAAAGGTGCAAAAGGTATACTAGATTTAATACTTTTACTTTTAATTATTATTAAAAGAATTCCTACAATTGAACCTATAAGAAAAGAAAAGAAAAGAACATATAATATTGCAGGATAACCTAAAATTAAGCCAATCATAAAAACAAGTTTCATATCTCCTCCTCCCATACCTTTACCCTTCGTTAGTAGAATTATAAATAAAAATATCATAAATACAGCCACACCTACAGCGATATTCCCGATAATTTGGTAAAAAGAGAAACTGCCAGAGAACCAACCATATATAAAATAAATCAGTACAAATATACTACTAAATAATATTAATTTATCTGAAATCTCGTAATATAGATAATCATATAAACCTATATATAAAAATATACAAATCAAAATTAAATAATATATTATATTCACATATACTAATGAAGTAGAGGAGGTATTATAACTAAAAGGAAAATATAAAAAATAAAGTAGGAAACTTACTCCTGTAATAATTTCAAAAACAAAATATCTTAAATGTATATTTTTCTTACAGTATCTACACTTTCCTCTAAGGAAAATAAAACTAAATATAGGAACTAGATCTAAAGGGGATAATTTATGTTTACAATAAATACATTCAGATCTTTCAAAAACAAAATCTATTCCATTTCTTATCCTATAAACTAAAGCATTTAAAAAACTACCAACAATAGCACCTAAAAAAAATGAGAATAACGAAATTACCAACTCAAGCATAGAAAACAATACTAAATAAACCTAACCTAATAATTAATTACAAGTATAAGTATTCCCATTTGGAAACCTAATAACATTAGGACTTACTTGTGTATATGGAGCATTAGATCCATTTGAAGTATAAACGAAAATTGTACTATTTTCTAAACATGCTCCAACAAGATAACCTGTTACACTTGAAGTTGGAGTAATTCCAAATCCAACAGACTGGCCATTAACATATGGTACATAAATATATTGAGTACCTGTATTATTACTAACACCTGCACCTCCACCTCCAGAATCATTGACAAATGCGACTTGTGTACCATTACAACTAGTTCCATTAAATGTAGGAATATTTCCAGGAGCTAATGGATCTATAGTTGCCTTACATAAGCTAGAATTTGTACTGTATACACTTCCTCCTGAAGATACAAAAGTTACGTCTTGATTAGTTCCTGTAGTTTCTACCGAAGCAGGATAAGATTGACCATTTGTACCATAATAAGTTTCTAATAAACCTGCAATACCCTTAACCGAAGTTTGTCTTGCATTATTTCTAGCATCAGCTTGAGCAGAACCTAAACCTACAATAGCAACAGCAATAAGTATACCTATTATTGCCATCACAATAAGTAACTCTACCAATGTAAAACCTTTTCTGTTAATTTTTAACATAAATATTTAAAAAATAATTTTATTAATCTAATAATACTATGACTATATTATTTGTCAATACACACCCAAATTACTTTATAACATTACCTAAAGTATAGATAGGTAAATATACAGCAACTCCTATAAATCCAACTATTACTCCTAAAAATATAGTTATAATAGGTTCTAATAATTTAGATAAATTTTCTATAAGATTATTTGTTTCTTCTTCAAAATAATCTACAACTTTCGATACAACTCCTTCCATATTTCCCGTTTCTTCTCCAATACTTATCATTCTCCATAAAAGTGGGGGATATATATCATACTGAGACATCACCTCTCCTAATGATCTTCCTTTTTCTACCTCTTGAGATACTTGTTTTAAAGTTTCCTTGAATAAAGTATTGGATAGGGAATCTGCAATAAGATTCAATCCTTGTACTAGAGGAACTCCAGCTTTATTAAGTAAAATAAAAGTCTTCCCAAAATCTACTATTTGTATTTTTTTTATTAAATTCCCTAAAATTGGTGTCTTAATAATAAGAATATCTATAGTTTTTTTACCTGCAGTTGATCTTGTGTATAAAAAAATTACAAAAATTATTATTATTAAAACTATCAATATATATATCCAATAAGATATAAAAAAATTGCTTAAATTAATAACAAATAACGTTGGCCAAGGAAGAGTTGCATGAAAACTTTCATATAAATTCTTCATTGGAGGAATCATTTGAGTAAGGACTAATCCTATAACTGCTATAGCTACTAGAACTACCAATATAGGATATATCATTGCACCTTTAAATTTCGAAAGTAATCTACTTTGATTCTCAACATCAGTTGCAATTCTATCTAAAATATAATCTAGAGAACCTGAAGCTTCTGCCGTTCTTAAAAGTTGTATTTGAATATTACTAAACAATTTACTATAAGGAGAAAAAGAATCTGATAAACTTTTTCCTGATTCAACAGATTTTTGAACTTCTAATAATATATTGTGCAAACCTTTATTGGTAACTTGATTTGCTGATATATTTATTGCTTCAACAATAGGTATACCTGAAGTAATAAGTACAGAAAGTTGTCTAAAAAAAATAACTCTATCTTTTATTGGAATTTTACCTATATTAATAGCATTTAAATCTCCTAAAGAAGAAAATGATAGAGAATTTTTATCTTTTATTCTTATTGGAGTAAGACCTTGATCAATAAGATTTCTTGCAACAACATTCTTATCTACAGCATCTATTACACCTGTTACAATTTTATTTTCAGAATCAGAAGCTTGATAAGTAAAACTTGCCATAAAATTATCTTCCTCTAAATAATCTTAATACCTCATCTGGCTTAGATGAATAGTTTTGAGCTTCATCTATAGTTATTTTACCTTCTCTTACTAAAGATACTAATGATCTTTCTAAAGATATCATACCTAAATCTCCACTAGTCTGTATAACACTGTCTAACTGATAAGTTTTTCCTTCTCTTACAATATTCCTAACAGCACTAGTTGCAAGCATTACTTCTAAAACAGCTCTTCTTCCTCCACCTATTGTAGGCACCAATCTTTGAGCTATTATTCCTTCTAATATATCTGCAAGTTGACTACGTATTTGAGATTGTTGTAATTCAGGAAATACATCTATTATTCTATCTACTGTTTGAACAGCTCCATTAGTATGCAATGTTGCAAAAACTAAATGACCAGTTTCAGCAATAGTTATTGCAGCTGATATAGTTTCAAAATCTCTCATTTCTCCTATAAGTACTACATCAGGATCTTCTCTCAAAACACTACGCAACGATATATCCCAAGAATGAGTATCTTCTCCTATTTCTCTTTGATCAACTAAAGATTTCCCTTTTGGATAAACATATTCTATTGGATCCTCAATTGTAACTATGTGTTTTGCATAGCCTAAATTAATTTCTTGAATCATTGCAGCTAGAGTAGTTGACTTTCCATGACCTGTTGGACCTGTTACTAGAACTAAACCCTGAGGAAGAGCAGTGAATTTATGCATTACATCTGGAAGTTGTAATTCCTCAAAAGTTCTTATTGCTGAAGGAATCAATCTAAAAGCTGCAGCAAGATGACTTTTTTCATGAAAAACATTAATTCTAAATCTATCTTTAGTCTCTCTATATTCATATGAAAAATCTATTTCTTTATTAACTTCTAGAAATTCTTTTTGTGAATCTGAAAGAATCGAATTTAAAAGTATTTCTATACTATCTTCTTCAATTACAACATTATTTACATTTTGTAATAATCCATCAACTCTTATAATAGGAGGGTATCCCACAGAAAGATGTAAATCTGATGCATTGTGTTGTATTGTATATTTTAATAAATCTTCTATATTCATAATTATTCTACATCTTCTTTTGCAACTCTATATACTTCTTCTATAGTAGTAATTTTATCTAAAACTTTCAAATATCCATCTTGAATAAGCGATACCATGCCTGATTTCAATGCAACATCATTGATTTGATCACTTGAAGACTTTTCTAATATTAATTTTCTTATCTCTTCATTGACAACCAATACTTCAAATATACCAATTCTACCTAAATACCCAGTATTATTACATTTATTACATCCCTCTCCTTTTGCAATATGTAAAGAATCTTTCTCTAAATACTTAGATATATCTATCTTTGTATTTTCGAAAATATTTTTAATATCCTTTATAACAGAATCTTCAGGAACATAATCTTTTTTACAACTATCACATATTCTTCTAACTAATCTTTGAGCAACAATAACTTCAACTGTAGAAGATATTAAAAATACCTCTATGCCCATATCAATTAATCGAGGAAGTGCTCCTGCTGCGGAAGTTGTATGTATAGTTGATAAGACTAAATGTCCTGTTAAAGCTGATTGAGTTGCAAGTCTTGCAGTCTCTTCATCTCTAACCTCTCCTACCATTATTATATTTGGGTCTTGTCTTAAGAAAGCTCTTAAACCTGTTGCAAAATCTAATCCTGCATCTGGATTTATTTGAACTTGATTAACTCCATCTATTTCAATTTCTACAGGATCTTCTAATGTGACAATATTTACAACTGGATTATTAATATATGATAAAGATGCTGCTAATGTTTGAGTTTTTCCTGAACCTGTTGGTCCTGTAATTAAAATTATACCCCTTGTAAGTTTTAATGCTTTTTTATATTCTTCAAATGCATCTCCTACTATTCCAATATTTTCTAAATTTGAAACTGATTCATTTTTTCTTAAAAAACGAATCACTATTTTCTCTCCATAAACCGTAGGTAGAGAAGAGACTCTTAAATCTATAAGTTCTTTTCCCACTTTTATATTAAACCTTCCATCTTGAGGTAATCTTTTTTCTTCTATTTTAAGATTTGAAAGAATCTTTACTCTAGATATTATTGCTGGAGAGAGATTAACTGGTATATTAAGTTTTTCATATAAAAGTCCATCTATTCTTAATCTAAATCTTAAAGATTTTTTTGTGGGCTCTATATGTAGATCTGAAGCTCTATATTTTACAGAATATTCAAGTACGGTATTAAGAATCTTTACTATTGGTGCATTTTCTATTGAACCATCTATCTCTCCTGAGATATCTGTAATATTTCCTGTAATATCTTCTGTATTAAAATCTACATTTGCAGCTTCTACATCTTCAACAACATTACTTTCTATCTGCTTAGAAGATTCAGCATTTATTATAGAAATGATCTCATCTGCAATAGAATAGAAAGGTTTTATCTTTATATTATATTTATTTTCTAAATATTGAATCAATTGAATATCCAAAGGATTCTTCATTGCAAGATCTATACTACCGTCACTCTCCTTCGCAAAAGGTAGTATACTATTAGAAGAGAGTTCTCTTTGATCAATTGAATTAAATATATCTCTTGGAATAGTACTAATTCCATCTAAATCTTTAAAAGGAACATTATACATAACAGATTGAGCTATATAATAATCTTTCTGAGGAACAAGTCCAGATTGCTTTATAAGAGCATCAATATTAATATTTTGACTAATTGATTGAATTCTTAGCTGATTTCCTTGTTCTTGAGAAATTTTATTTTGAGATATTAATATATCTAATATATCCATATATCTTTTATACAATAATATATGATAATTTTAAAGGTCTTAGATTTATGATAGAATCCAATCATGGCACAAAGTTATATATATGAAAGTAATAATGAAGAAGATATTCTAAATTTTACTAAAAAATTTATTGACTTAAAAAATAAATTTCAGCCTGATTTTATATATATTGAAGGTAAAATTCTCACAAAAGATATTTCTGAAATAAAAAATAAATTAAAATATAAGTCATTTACAGGAGATAAGAGAGTTGTTTTACTAAAAATAAATTCTATTACATCTGAGGCTCAAAACTCTATGTTAAAATTACTAGAGGAAACCAATCAAGACACGACTATGATTCTTGCTATAAAAAATTCCAACAGATTACTTGATACTATAAAATCTAGATGTATATTAATAAAAGATAATAATATAATAGAAAATAAATATGATATCAAAAGTTTTCTAAAAATGAGAATTGAAGATAGATTAGAATTTATTATAAATGTAGAAGATGAAGAAGACTTTATAATAAATCTTTTTTCGTATATAATGGAAAACTATAAAGAGATTAGTGATTTAAGTGATAAGATAATAAAGATAAATGACATTCAAAAAGCTATCAATAATAATGTTCAAAAAAAATTAATACTCACTGATATATCTCTGAATTTATAAATATGGATAATAATAATTACGATGAAAATTCAATAGTTGTATTAGAGGGTTTAGAGGCTGTTAGAAAAAGACCTTCTATGTACATAGGTTCCACTAGTATTAATGGAGTATATCAAATTATTTATGAAGTAATAGATAATGCTATAGATGAAGCTTTAGCTGGGTTCTGTGACAAGATAAATATAAAAATAACAGAAGATGGTTCTATTCAGGTAGAGGATAATGGAAGAGGTATTCCTGTAGGTATACATCCTCAAACAAAAAAATCTACATTAGAAACTGTAATGACAGTACTACATGCAGGAGGTAAATTTGGAGCTAAGGGTGGATATAAGATAAGTGGAGGATTACATGGAGTAGGGGTATCTTGTACAAACGCCTTAAGTGAATACATGAGGACTGAATCCTTCATTAAAGGAGAAAGTTTTGTTCAAGAATATAATGCAGGAAAACCATTATATGCACTAAAAAGTCAAGATAATAAAATTTCTAAAGAACACGGAACAATACAAACTTTTGTTCCAGATAAATCTATATTCTCAGACGTAGAAATTAATAGTAAACAATTATTAAGAAGAATAAGAGAACAAGCTTATCTTACAGGAAATATATTATTTACTTTTCAAGATGAAAGAGATGACCAGTTCAGAGTACCTTATTACATTTATTTTGAAGGAGGAGCTAAATCTTATGTAAGAACTCTTAATAAAGATAAAAAACATATAACAGAAATAATTCATATAAAAAAAGAAGCTGATACATCTTTAATAGAAGTTGCAATGCAATATACTACGGAAATTTCCGATAATTTAATGTCTTTTGCGAATAATATTTATAACCCAGAAGGTGGTACTCATATAACAGGATTCAAAATGGCTTTAACAAAAACGATTAATGATTATGCAAAAAAATCTAATATTATTAAAGATAATAAAGATTTACTTACAGGAGACGATGTAAGAGAAGGTCTTACTGCTGTTATATCAGTAAAACTTGAAAACCCTCAATTTGAAGGACAAACAAAAATGAAATTAAATAATTCTGAAATACAGACAATAACAAGAAATATTGTATCTTCAGAATTAGAAATATATTTACAAGAAAACCCAAAAGATGCTAAAAACATCATAGAAAAAGTATTAATAGCTGCAAAAGCAAGAAAAGCTGCAAAAGCTGCAAGAGAAGCTGTAATAAGAAAAAGTGCTTTTGAAGGAGGAACTTTACCAGGAAAATTAGCTGATTGTTCAGAGAGAAATCCTGATAATTCAGAGCTCTTTATAGTAGAAGGAGATAGTGCTGCAGGAAGTTCAAAGCAAGCAAGAGATAGAAAAACTCAAGCAATACTACCTATGACAGGAAAACCAATAAATAGTGAAAAATATAGAATAGATAAAGTATTGGAAAATGAAAGATTAAAAGATTTTATAATAGCGCTGGGAACAGGAATTGCAGATAATACAAATATAGATAAAATAAGATATAAAAAAATTATTATAATGGCAGATGCTGATGTTGATGGAGAACATATAGCAACACTTCTTTTAACTTTTCTATACAGACATCTAAAAGAGATAATTGAAAGAGGTTATGTATATATAGCTCAACCTCCTTTATATAAAGTTACTACACAAGGAAGTAGTAAGGAGAACTGGGCTTTAGATGATAGTGTATTAGATTCAATGCTCAAAGGTTTTGAGAAGGATAATATGAAAGTTACATCTATACAAAGATATAAGGGTTTAGGAGAAATGAATTCAGAGCAATTATGGGAAACTACTATGAATCCTAAAACTCGAGTTTTGAAACAAATAAAAATAGAAGATGTAGAGGAAGCAGATAAAACATTTGAAATGCTTATGGGAAGTGAAGTTCCTCCAAGAAAGAAATTTATACAATTAAATGCAAAAAATGCAGAAATAGATATTTAAAAAATGGATATAGAAAATAATCAAAACATAAGAATTACAAATATAGTAGATGAAATGAAGAAGAGCTATATTAACTACTCTATGAGTGTTATTACTGCTAGAGCTCTTCCTGATGCAAAAGACGGGCTAAAACCTGTACATAGAAGAATAATCTACACTATGCATGAAAATAGATTATATTTTTCAGCTAAATATCTAAAAAGTGCAAGAATAGTAGGAGAAGTAATGGGAAAATATCATCCTCATGGAGATTTATCTATCTATGATGCATTAGTTCATATGGCACAAGATTTTTCTTTGAGATATACATTAATTAAAGGTCAAGGAAATTTTGGATCTATTGATGGAGATAGTGCTGCTGCAATGAGATATACAGAGGCTAAGTTAGAAAAAATCTCCGAAGAAATATTAAGAGATATTGATAAAGAAACTGTTACTTTTCATGAAACATATGACGGAAGATTACAAGAACCTGATGTTCTACCTACAGCTATACCAACACTTATACTTAATGGGACAGAGGGAATTGCAGTAGGTATGGCTACTAAAATTCCTCCTCATAACCTAAGAGAAGTTATGAGTGCAATTATTCATATATTAGAAAATATTAAAGAAGTATCTTCCGACAATAAAATTTCAGATGAAATTCATATAGAAGAGATAATGAAGTTTATAAAAGGACCTGATTTTCCTACTAAAGGAACTATATATGATAAAGCAGAATTAACAAACATGTATACAACAGGAAGAGGTAGAGTCGTTATTAGAGGAAAAGCAGAAATTGTTGAAGATAGTAAAGGTAAAATGCAAATAATAATAAGTGAAATTCCTTTTCAAATAAATAAATCTAAATTAATAATGAAAATTGCTGATTTGGTAAAAAATGATAAGATTGAAGGAATAGCTGATATAAGAGATGAAAGTGCTAAAGAAGAAATAAGAATAGTTATAGATTTAAAAAAAGATTCAAAACCCAATATATTAATAAATAAACTTTTTAAATATACAGATCTTCAAACAGTATTTAACTCTAATATGTTAGCTTTGGTTGATGGTGAACCAAAAACACTTAATATTAAAAATATACTTGAGATTTTTATAGAACATAGAATAAATATAATTCAAAAAAGAACTGAATTTGATTTAAAAAAAGCAAAAGAAAGAGAACATATATTAGAAGGTCTTAAAATAGCAATTGATAATATAGATGAAGTTATAAAAGTGATTAGAGGATCTAAAGATTCAGATGTTGCAAAAACTGAACTTATGAAAAGATTTTCTTTATCAGAAATTCAATCACAAGCAATACTTGATATGCAATTAAGAAGATTAGCTGCATTAGAAAGACAAAAAATAGAAGATGAATTAAAAAGTATAAGAGAGTTAATTTTAAAATTAGAAACAATACTATCTGATAAATTTAATATTGTTAATATAGTAAAAGAAGAAAGTACTTTAATTAGGGATAAATATGGAGATGATAGATTAACAAAAGTAGTAAATTCAAAAATAGGTGATTTTGAAATTCAAGATATAATAGAAGATAAAGAGACCTTAATAACTATAAGTAAAAGTGGTTATATAAAGAGAATATCTCCAGATACATATAAATTACAAAATAGAGGCGGGAAAGGTATTATAGGTATGACTACAAAAGAAGAAGACATTATATCTCATGCTATTATAACAAAAACTCTAAATAATATACTCTTCTTTTCTGATAAAGGAAGAGTATTTCAATCTAGAGTATACGAAATTCCTGAATTTTCTAGAATAGCTAAAGGACAACCATTAGTAAATTTCATTAATTTAGAAAAAGATGAAAAAATAAATAGCATATTACTTCTTGAGCAAAATGATAATGAAGCAGGATATTTGTTAATGACTACACAAAGAGGTGTTGTTAAAAAAACAAAAATATCTCAATTTAAAAATATAAGAAAAAATGGATTAATTGCTATTAAATTAGACAAAGGAGATGTACTCAAATGGGTTGAGAGGATAGAAGAAGGTACAGATGTAATTGTTGTCACTAAAGATGCTCATAGTATAAGATTCTCAGAGAAAGATGTAAGGGATACAGGTAGATCTTCTAGAGGAGTAAGAGCTATAAAGATGTTACCTGAAAATGAGGTTGTTGGAGTAGGTTCTATAACTGATAAATCAGATCTTTTAATTGTAACAAAAAATGGTTTTGGTAAGAAATCAAAAGTAAGTCAATACAATACACAAAGTAGGGGAGGTAAAGGAGTTTTTGCTGCAAAAATAAATGCAAAAACAGGAAAAATAGCATCAGTAAAAATTGTAAAAGAAGAAAAAGAAGCTTTAATAATTTCAGATAAAGGTCAAATAATAAAAATTGATATTTCATCTGTTCCAAGACACAACAGGCATACTTCTGGAGTAAAACTTATTAATCTTAAAAAAGATGATTATGTATCTACTGTAGAATGTAGTTAAACTATTTCTTTTTAATATGAGGAGCAAATATTGAAATAGAGGATAGACTACTAGACTCTTCTATATATTTTTTGTTCTTGGTTAAATTAAATAAATTAATATACATTTGATCTACTATATTATTCATATTATTATTAAAAAACACATTATTATACTTCTTATGAAATTTATTTAATGGAAAATATTTATTTATTGCTTGAAGATAAATACTTTTCTCTAGTATAGGATTTTTTCTATACATATAAAATTCTCCTAAACCTAAAATATAATTAGGACTATAGTATCTATTAAAATTATATGCTTTTTTAAAGTAATACAAAGACTTCTTATATTTATGTGTATTAAAATATATTTTCCCTAATTCATAATATATCTTTGGGCTAAAATTATTATATTTTAAAGATAAATCTAAATTATTTACTGCTCCTTTATAATTTTTCAAACTTTCATCTATAAGACCCATTTCATAATAAGAATTGGAGTTTATAGGCAAAAAAGATATAGAGTTTTTAAAATAACCTTTAGATGTTATTATTTCACTTTTATTTAAATTAACATTTGATAAAATTTTTGTTCCATCATTAAAAAAAGTTGTTGATAAAAATAAAAATATACCAAATATAAATAATATCAAAGATAAAATTAATATAGAATTAGATAGCCTTATACTTAATATATCTTCAGTTTTAAAATTTCTAAAAGATATACCTATAAGTATAAATAACAAAGACATTATCGGTACTAAAAATAAAATATCATAGAAAATAGCATATACAAATATACTAAAGATACTTATATATAGAGGAAAATATACTAAATTATTAGGAATGTTTTTCGTATATTTGAAATATTTAAGATTTTCTTTTATAGAAAACCAAGCATTATATATAAAAGATATTATAAATATAAATACAGCAAGTCCACCTAATATTCCAGTATCTATAAATATACTCATATATGTACTGAAAGAATTTTTAAGATATAACCAAGGAGCATACTGAAACTTTTTAAATACATTTGAAAATGTTGATAAACCATAACCAAAGAAAGGTTTATTAAACATTATAGATATCTCTTTTTTATATAAGGATACTCTTTGATTTTGAGTCAGATTGATAACATTTGATAAATTAGAAGAATTTAAAAGAACTTGCGGTTTATGAAAATGTATAAAAATAAAGGAAAATATACCTACAACAAAAATTAATAATATAAACTTAAGGATATCTTTATATATATATCTTCTAAATAATATTATTAGAAGCAAAGTTTCTAGTAATATTACCCCATACCCAAAGTAATTAAAAGCTAGTACAGAAGATATATATAACAATGATAGAGTAAATAAATTTATCGTTTTTAAATACAAATTTTTAGAAGATATATAAAAATAAAAAGAAATTGGAATAATTAATAATAGAAAAGATACAGATTCAAATGAATTACTGAATGTAGAAATAAAATTACTAGATGCACCTGTAAAATATAGATATATTCCAAAAATAGAGAATATAGAACCTAAGAAAAGTAACCAAGCTAAAAACCATTTAATAATCTTAGTGTTTGAAAAAATATCAAAAGTTAGTACAAATATTATAAAAACAGATAAAAATAACACTAAACCTAGTATACTTTTATATATATTAATACTATAAATTGTAGAGATACATAATATTACAAGAAAAGTAATTAATAGATATATATGTTTCTTATAAAGATATATATTTCCACGAAGAAATCTTAAAATAAATAAACCTGATGCAAATAATATCATTAATAGAGTAGAATATTCTGAAGAGATTCTTCCTTGAAAAAACATAAAAACACCTATCAATAATAAAAACCAATACATATATATCTTAAAAATGAAGATTTCCTGAGGTGGATTAAATATTTTACTAAGAACCTTTTTAAGCATAATTAAACTATTTTATATATCACTCTTTACTTAATTATTATAACATTATATTATATTATAAATATATGAAAAGAAAAATCTATATAAAATCATTTGCTTTAGTATTTATATTATCCATAGTATTTATATTTATAGTAAATACAGCAAAATCAGAATTTGCTCAAGTAGAGGAATATAGCATAACTTCTACAGGAACATATAATCAAAGTACAAGACAAGTAACTTTACAAGAACAAGCAGCTTCATCTGTACCTGCAATTTTTCAATATACGATATATAATGGCCAAGGACCACTACAAACAAGCCTTAATAATACTCCTAATGCTGTTCAATAATCTTTACTGTTTTTTCATTGAGTTAATGGATGAAATTTTTTATGAGACTCCTCTGCATACTTATCAGAAGCATGTACGTATTTATTTGTTGTCTGTAAAGACTCATGCCCTAAAAGTATTTGTATAGCTACAGGACTTGCACCATCTTCTGCAAGGTAAGTAGCAAATCCATGTCTAAGACTATGAGCACTTGTAGGAACAACAATTCCTATTTTTTTTCTATAAAAAGATATTCTTTCTTGTATATAGTTTGTAGAGATTCTATTATTAACATTACCTAATCTACCTCCACGAGTAGGTATAAAAAGAGCAGACATATTATCCTCTCTTAAAGATAAATATTCAAAAATATATTTTTTTGATCTTTCTGTTAAATATACAAATCTTTGTTTTTTCCCTTTTCCTAAAACATATATCTTGCCATCATCATTAATTTGATCTCTATTTAAAGATACTAATTCAGATATCCTCATACCTGTTGAGAATAAAGTTTCTAGAATAGCTCTATTTCTACTCTTCACAAATTCATTTTTCTCATAAAAAGTTGGAAACTCTATTAAACGAATAAGATCATTTAATTCTGCAACCTGAGAATTTTTCTTTTCAGTCTTTATTAATTTTATTACTTCAGGACTTATTGGAGTAAAAAGTTCAAAATCTATTAAATATTTTATATATGATCTTAATGAAGATAAAACTCTATTTATAGAACGAGAAGATAATTCACCCTTATTATCTTTAGCAAAATTATGTATAACACTTTTATCATTTTTTAAAATCTTTATATATTCACCAGTTCTTAAAAAGTCTTTAAAAAAAACAATATCTTGCTTGGTTATATTTTTAAAATCTATAAATCTATCAGATAAAAATAATTCAAATAAAGAAAGATCTCTCTCATAATTATAAATAGTTTCTTTACTGTAATTATTATTTAATAAATTTAGTAGAAATTCTTTTTTATGCTCTAATAATATATCTTTCATGTACATATATATTATAGAATAGGGAAGTACTAATCAATAATTAACATTATAAATCTTTATAACCCGGGAAAAAATCCTTCTTTATAAGGTTATTATTGATATTTAATTTATCTATTAAAATAGAATTTATATATTTAACAAAACCTTCTGGTCCTGAAATATAGAATAATGAAGTAGGGGAGCTGATAAGGTTGTTTTTAAAATCTAACTCATTGGCAGAACCTTCTTTATAAAAAACTTTTAAATTCTCTATATCTTTTTTAAATATAAAATCTTTATTTCTATTAAAATATAAAATATTAATATTTGAAGTATCTTTTTTGTTTAATATCAAATCCTTAACCATTGATCTTACAGGGGTAATACCTATACCTCCTACTATATAATTTATATTATATTTAGAATAATCATCACTAAGGGTAAAATTACCCCATGGGCCTTCTGATTGAATGGATTCTATATTTAACAACCTTTTTTTAAATTCACTTGAATCTTCAGATATTCTAGTTGTAAGATATATACTTTTTTCTAAAGGAGAACTTGCTATAGTAAAAAATCTATCATTACCCCTTTCATCATTTATATCTTCTATATAATATTGCAAAAATTGCCCAGGAATCCAAGAAAATTCTATTTCTGGTTCAAATATTAAATTTACTACATCTTCTGATAGAAATATTTTTTCTTTTAGGATTAATTTCATTATTTATCTTCTTGTAACCCCTTAGAAGAATCAAAATTAACAACAGCATGAGTGCCATCACAGAAGGGCTTATTTGAAGAGTTTCCACATCTACATAGATAAGTACTACTCTCTACACTCTCAAGGAGGCTTCCTGACTCATCTAGGATGTCTACTTTTCCAGACACCTTTAAAGGTCCATTTTTTGTTGGTTTAATAGTATTATTCATAATTTCACTTTATATAAAATATAGATTTAGTACATAAATTATAGCAATTTAGATCAATAAATCAAGAATAGGAGAATAACCTAAATAATATAAAATACATATTATAGAACATATTATCATCATATTTAACATTTATAATATCTTAAACATCTACATAAAGTCTCCAAATAGAGAAGACCCCAGAGTAGAAGCCCTCTTTTGAAACAAGATGTCTAGAACTGAGTATAAGGGTGATTATACTCAGTTATATTTTGAGGTATCTTAATGATAAAAATAGAGATAGAGTACCACTTCTCTTATAAAACTTACACTTCAATACATTCTTATTAAATAATATTAATTTTAAATATATCTAATAATACTTATACAACAAGCACAAACTGATTATCACTTAATATTTAAACTGATTACTTTATCCACATAAAAACTATAGGACTACCCCATTTCTTCTTTCCTAAAAAACTATAGGACTATAATATACTATAGGGTCTTTCCCCTACTTCGAGTATACACATATTGCTTTAGTAAAGGGATTTTTAAATAAATAAACCACCTGAGATTCCCCAGATTGGCAATATTAATAATACTATAAATATAATAATACCTATAAATAGATATTCTACGTAATTAAGAAGCTCTAAGTTGCTTATTCTTGAATGTAGCAGTATGCCTATATATATATATGCTACTAAAGATAAAGATAAAGCAGATATATATATTATTACTGGATATATTAAAAATAGTACTCCTAAAACTAAAAACGTAATTGCTCCGAATATGCCATAAAACTGAACATCATCTATATCATATCCTAAAGAAACTAAATTCTGAGATATTATGATAAATGATAGAAATACTATATAAAATAACTTAAATAAAATATTAGACTGACTAAAAGCTAATAAGAAGGATAAATACAGCAAAATTATGGAAATAATATAATTTATGGTATAAGAAAACCTCACTAAAGGTACTAATTCTACTTTTAGTACATTAATTATACTTATGTGAAGAAAAGAACTATATATAAGTATTAAATATAAGATAAAAATAAAAAAAGATGCATATGCATTATAAAATATAAACGGATATTTATAATTAAGCGTAAAAAATAAAAAAACAATAATACTTGTAAATATTAATAAACTAAATATTTCTCGTAGCTTGAATTTAAAATTAACTATTACCAAAGAAATAATATATGATACTATTATTAGAATAAGCCCTTCGATAACCTCAAATCTTTTAAAATAAAATATGGATATATAAGACAAGGTAACTATCAAAATTGAAGAAAGAATAGTTATAGTTCGTATATTTTTATTTTCAGATAAAAGAAAGTTCTTCATTATATGGAATATCTAAGTAATCAAATGCGAATTTTGTAGCTACTCTACCCCTTGGAGTCTTTTTCAAAAAACCAGACTGTATTAAAAATGGTTCACATACATCTACTATTGTATCTACTTCTTCAAATACTGCATCTGCTATTGTTTCAACCCCAACAGGTCCTCCTTTAAAATTTTTTACTACTATCTCTAATACTTTTAAATCTAAATCACTTAAACCCATTTTATCTATACTTTGTACCTCAAAAGCACTGTTCACAACCTTATCATCAATTAAATCAACTTTATAAACATGCGCATAATCTCTAACCCTTTTTAACATTCGATTCGCTATTCTTGCTGTACCTCTGCTCCTGGCAGCAATATCTGATATAGCCTCTTTTGTTAACTTCAAATCTAATACCAATGCACTACGTTTTATTATTTCTTCCATATCTGCCTGAGAATAGAAATCTAATCTAAAAATAGATCCAAATCTTTCTCTTAAAGGAGCAGAAATAAGACCGATTCTAGTAGTAGCACCAATTATAGTGAAAGGTTCCAAATCTAACCTTAATATCTTTGCAGAAGGCCCAGTTCCTACCACTATATCTAATGCGTAATCCTCCATAACAGAATATAACTTTTCCTCTATAACCCTATTCAATCTATGAATCTCATCTATAAATAAAATATCACCTCTTGATAAACTTGTTACTATAGATGCAATATCTGCAGCTCTTGTTAATGCAGGACCAGAAGTTATTTGTATATTTACTCCCATCTCACTTGCAACTACATTAGATAGAGTTGTCTTACCTAATCCAGGAGGACCATAGAAAAGAATATGATCTAAAGGTTCATTCCTAGATCTTGCAGAATCTATCAATATAGATAAGCCTTTCTTTTCCTTTTCTCTGCCAATAATATCATTAAAACTACTTGGCCTAATATTTAATACATCTTTACTCATAATTTTTCTTATCTCCTTTTAAAAGTGAAATTGCCATACGTACAGAATTACTTAAATCTGTAGAATCACCATACTTTTCTTTAAAAACTGAGTATATTGAATCTACTTCTATATTAGAATATCCCAAATTCACTAAAGCACTTCTTACCTCACTCCAATTACCTATATTAATATCTAAAGAAATTTTACCCTTTAAATCTAATATTATCTTCTCTGCCGTTTTCTTGCCTAAAGAAGGTAAAGATGATAAAAAATTAACATCTGATTCATTTATAGCACTCATCAGATCTTTTAAACTGGCCCGAGAAAGTATATTTAGTGCAGCTTTAGGACCAACACCATTTACTGTTATTAAAAGTTCAAATAAATCTAATGTCTCCTTATCTAAAAAACCAAACAATCTTGAAGATCTTTCAGATACTTCTGGATAAATATATAATTCAACCTCAGCATCAGTTCCTATTAATTCTACTAAATTTGAAGGTACCTCTACTCTATAACCTACTCCATTAACAAGTACTACCACGTAATTCTTGTCAAAATATTTAATAATCCCTTTTAAATAACCTATCATATAAATCTATTTGTTTGTAAATGACATAAAGCTAAAGCTAATCCGTCTGCTGCATCATCTGGCTTTGGAATCTCTTCTAGTTTCAGTAGTAATTTTAACATATTTTGAACTTGTTGTTTATCTGAATTACCATAACCTGTTAGAGCACTCTTTACTTGTAATGGAGTATATTCAAAAATAGGTATTTTATAGAGAGCTGAGAGTAGTAAAACTATACCCTGAGATTGACTTACAGAAATAACAGTTTTTGCATTTTTATTAAAAAAGACCTTTTCTAAAGACATTTCTTCTGGTTTATATAGACTGATTATCTGAGTTAATCCTTCATAGATTTTTAAAAGTCTATATTCTATTTTCTCAGATGAATGAGAAGTTATTGCTCCCCAATTTGTACTGATTATTTTTTTTGAATCCACTTCTATAATACCCCATCCTAAAATAGCAAAACCAGGATCTATTCCTAATATAAATTTAGACATGTTTAAAAATTATAATATACACCATTAATATCTGTTAAATCTTCAAGTAATTCTATTAAACACTGATTATCTGCTAAATCTTCCTCTTTAATATCAATTTTAATTTTAGGAATAAAAACTTTCTCAATATTATCTACTCTCAATAACTTACTTTCAAAAAAAATTTTAAAAGCATCTATTTTTAGTGGATCAACATAAATATATGCGAAACCTTCATCAAAACTATAATCAATTAAACCATCTACATCTAATATATCTATTTCAAATTCTTCTAAATTAGAAATATCCCTTTCTTTATTAACATCTCTCCAACTATCTTTTGTACTTTTAGTATCAGTGATTTTTAAAGTAAAAAGCATCTGTAAATCAAACTGCCAATCCAATGTACCATTGTTAACTAATTTGCCTTTATTTCGATCTAAAACGAACCTAATTTCAGATATAACTCTATTCTTATTGTCAGTATAGCACTCTATCAATAAAGATGTATTTCCTGGCCCATAAGCTTCGTAAAACACAGATTCAAATTTATCTTCATCTTTATCTACACCTGAACCTTTTCTTATTGCATTATCTATTGAAGAAGATGGAACATTTAAGCTTTTAGCTTTTTCTATAGAAGTTTTTAAGATAAAGTTATTATCTATATTAGAACCACCATTCCTAACAGCTAATACTATTTGATTTAAAGCTTTAGTAAACAATTTTGCTTTTCTCAAATCATTAGATTCTTTTGCTCTTTTAATTGTAGACCACTTTGAATGTCCAGACATACATTAATAAATATAATTATCTACTTGCCCTAAAACTACTATTATAGTCCCTGTATAGAAGAAATTAGGGTTATTGTCTTTTATTATAACATTATTAGGTCCTAAAATATCTTTAATGACATTTACTTCGTATCCGTATTTACTTAAATTCCCTACAAATATTATATCTTTGTAAGTATTGCTATTATAGATTCCAATGGAAGATATATTTCCTCCTAAATTCTGTATGTATCTACTAAACTGATAAACTGCAAAATTACTATTAGAAGCATCTAATATTTGTACAGACACACCACTATTAGAAAAAGTATTATCTGTGAAATTTGATTGTATGTAATTATCTGTATTCGTTAAATTTATCTTATTACTATATGGCAAATAATTGTATTTAATATTATTTATACCTATTTTATAAAAATCTATAAGCAGGTTTGAAAATCCCTTTGAATTAATATTTGAATAGAATAGGTTCTTAAAGGCCACTACTCTACTCTTATAATTTATCAAAGAGATTGGATTTACAAAAGAAAATAATAAATTATTAAATATTAAATTTTTCAGATATAGAGTACTGTTATTGTCTGTTTTTATGGATAAAATATAATTCATCTGTTTTGAATTAAGATTATTTTCCCCATTTTTTATGATATTTTTATATTTAATGTTTGAATAAATACTAACATTTAGACCTTTTATGCCAGAAGAACTAAAAGATATATAACCTTGTATAGGTAAAGCTAAGCTATATCTTAGATATTTCAACAAATCATTCATTCCATTTTTATTAGAATTAAGATCACCTAAGGGGTATATTGTATTTAATTTTTGATAAGTATTTGAAGATGTTGCAATCTTCATATTATCAGGTATATTTAAAAATGCTACTTGACCAGAAGGGTCAATAGACATTATAGAATTATAAGTGTTCAGATAATAATTGTTAACTTTAGATTCATATACTACTAACACATTAATGGTATTTGTAGAATTCCAATTATAATCATTTCCTTGATAACCTATATCATTATTTAATTTAAGATTATTAAATGAAAAAATAGATATAACAAATACACTAATAATATAAACTAAAAATAGAATTAATATTATAAAAATTGTTATTTTTAACTTATTTTTTTTCTTCATATAATATAGATAAATTATCTTCTCTTGAAGCTTTATTTTTCTTTAAAATCTTACAAGATATACATTTATGATATATAACTATATTATCACCTTTCATCTCCATATACATAGGTTTCATTAAAGATTTACAGTATGATTTTCTATCTCCTGGATAAATATCAAGATGCATTGAATAAAGACATTCTGCACAATGATTTCTACAAGACCCATTCTTATCTTCTGTATTAAAAAAACCACAGTTTTGACAAACAAAACTTTCATTTCTCTTTATAAATTTTTGAGACATATTTATTTATATAACTTAGATACGCCTGGTATATTTCTCCAAAAGTTAGGAAGTTTAGCATTAAATTCTTTATATCCTACATTTGGCAATTTTAATTTTAAAGAATAAGCATGTAAAAACATATGAGGATATGCTATTGATTTTCTAGAATAAAGTTTATCTCCAACAACAGGATGATTAATATTTGCTAAAGATACTCGAATCTGGTGAGTTCTTCCTGTCTTCGGGTAAACTTCTAATAAAGTGAAATCTCTATCTATATATTTTATTATCTTAAAATAAGTTATAGCATCTTTTCCTTTATCAGAAAGAATAAAAAGTTTTCTATTAGAATGACTTCTCTCTATTTTCCCTTTTATATAGAAATTACGATCATCCATTCTTACTACTTTCTTATTATTAGAGGTAATTATACCTTTAGCAAGTGCTATATATTTTTTCTCCACTTCTCTATTCTTAAATTGTTCTATTAAAAAGTCTGAAGTTTCTATATTTTTAGCAAAAATTATTACACCTGAAGTATGTTTATCTAATCTATGCACAACACCTGGTCTCTCAGTTAATATATTATCAAATTTTAATTTAAATATTATCCCATTTAAAAGAGTATTCTTTGAATTCCCTGTACCTGGATGTACTACAATACCTGCTTTTTTATTTATAACTAATACATTTTCATCCTCATATATAATATCTATCTTTATTTTTTGAGGAATTATATTAGATATATCGTCTACATATTTAAAATCTCTATATTCTAATAAATCATCTTTATTAACTTTAAATTTAGTTTTCCTTACAATATTGCCATTAACAGTAACAAAACCATCTTTTATTAATTTACGAAAATAATTTCTGGATTTATTTAATGAATCGGATAATACTATATCTAATCTATTTGAATATTCAGATTTTAAATTAAAAATATTAGAATCATTCATTATCAAACTCATCCATGCATTTAGTGCAATATTTGGCAAAAGGATATAAATCTAATCTTTTAGGTTCAATATTTAATTTACAATTCTCACATACCCCATATTTATTTTTTTTAATTCTTAATAATGCTAAATTTATATCCTTAAGGAGAGTCTCCATGTTATCTTTAATCTCAAAGCTTTCTATTTTACTGTTCATTATATCTGCACCTTCAAATTCCTCTGCTATTTCAGAATCAGGCAAAGACTGTATAGATTTATCAATAGTATCTATTTGCTTCTGTACCTTCAATCTCTCTTTCTCTAATTTTTTTTGTATATCTTCTATATTCATATTTTTTTGCCCCTTATTATATCATAACAAAAATTATTGTAAACTGTTAGTATTATATACATTAGTATATGTCTATAATAAATTTTTAATTGAAATTAGATATGGATTTTTAAATTTTATGTTTCAATATATTACTATAATCATTATTCTCATTAGAAAAGAATAATTTTAATCCTAAGAATAAAAGAGACATAAAAATAAATATTACATCTAAATCTAAATTATAAATATAATTTTTGTGAAATATCCATAAAGAATGATTTAAAAAATACATCACAGAATATATTAATAAAAATATTACCATACCATAGCCTTTTACAACTTTTCTAAGAAGAATTATACATATTGATACTAACAATATAATTAGAAAATATATAAAACCTTGTGAAATAAAATCTAATATGAAAAATATAGAGAGAAATAATGCGTAAAAATCAAATATATCATAATAACTATAACTTTTTAATTTAGAAAAAATAAGTGTTCCTAAAATCCCAAAGATTATTACTCCATTATATGAAAGGAGTTTGTAACCAATGACTGTAAATATAAATAATATAAAAATATAGTCCCAAAAATCATTATTAGATATTACTTTACTCCTATAGAAAACAATCCAAAGAATAAGAGAAGATATTATAAATAAAAGTATATTAAATAAATAATCATATAACATTATTTAATATATTATCATAAATTTCTTCTTCATAAAAATTATTTGTTATCGCAGATAAATATAAATTTTTATATATTTCATTAAAAACATTTACTATATCTTCTTTTTTAACTGAACTTATATTATCTTTAATTTCATCTTGGTCTCTAACTTTATTCAACATAATATAATCATTGAGTATGAAATTCGAAATATTTTCAGCAGACTCTAATTCTGATAATATTCCACCTATTGCATAACCTTTAGCTCTATTTAAATCTTTTTCAGTAAAATTACCTTTTTTGAATTTATTAAGCATATTAATTATTTCTTCCAAAGCATATATAAACTTCGAATTTTCAATACCTGAAGATATATAGAAAAAACCATTATCTGTATAAAATGTATTATAAGAATATACATAATAAGCTATACCTAGTTTATTTCTTAATAATTGAAAAAGCATAGACCCTTCACCTCCACCTAAAATACAACTCATCAATATTAATTGATAGTATTTATCAGATTTAAAAGGAAAACTTTCCATAGCCAAGACAAAATTTGATTGATTTACGTTCTCATCTACTTTAATAATTTTATTCTTTTTATTATTAATAATAATTTTATCTCTTTTATATTCACTTTTATTATATTTTTTAGTCTCAAACTTCTTATTTACTTCATCTAAAACATTATAATCTGATATATTCCCTACTACAGATATAAAAACATTATCATTTGTATATTTTTTAGAAATAAAATTCACAACCTTATCTCTATTAATACTACTTAACATAGAGATATTTTGATCTAAATTTTTAGAAAGACCACCTTTATTACCGTCATAAATGAGAGACATAATATTATCATAAACAACAAAAGTATTATTATCTTTTTTCATATCTAATTCTTGTTTAACTATACCTTTCTCTAAATTTACAGATTCATCATTAAAAATAGAATTTATAAATATATCAGATATTATATCTAACGCTTCTAAAAAATTAATATATGGGATATTTACTGAATATATAGTATATTCATCTGTTGTGGCTGCATTCATATTTCCACCTAAAGTTTCTAATTCAAAACTTATGGTTTTACTATCTTTACGACTATTAGTACCAGAAAATATAGTATGCTCAAGAAGATGTGCTATATTAATTTCATCTTCTCCTTCATCTCTTGTACCGATATTAACTAAAATATTTATAGAAATAAACTGAGAATTAGGAAGATTATATGTAAAAAGTTTTATCTTATTATCTAGTTCAAATTGATTAAGCTTTTCCAACATATTCATTATTTTCTGTATTTATCTTAATAGAATCTCCTATATTGATAAACATAGGCACCATAACTTCTAACCCTGTCTCTAATTTCGCCTGTTTTAATGGGTTATTTACAGTATTACCTTTGATAGAAGATTCAGTATATTCAACTTTTAAAATAACAGTATTAGGTAATTCTATATTTATTGGAGAATCTTCTAAGTAAGTAATTATTACTTTTTCACCACCAACAAGATATTTATTTTCCATCTTAAATTCTACTTGGTTATATGTATTTGAATCCATGAAATATAACATATCTCCTTCGGAGTATAAAAATTGAGAAGAAGATTTATAGACATTTATATCTTCAAATTTATCATTAACGTTATATCCTTTCTCTAATGTAGCATTAGATCTTAAATTTCTTACTTTAACTTTAATTGTAGTTCCACCTCTACCTTGAGTAACATGTTCATATTTTAAAACAAGATATATTTCACTCCCGTCTTTATATACTATACCTGATCTTAATTGTCCTGATGTTAATACAGCCATAATTATGTAACTTAAAATGCCGAAAGAGGGAATCGAACCCTCATGAGGAAATCCTCGCAGGATTTTGAGTCCTGTGCGTCTACCAATTCCGCCATCTCGGCTTTCCTCAACAATTATATCATTTTAAAAATATTATTTTTTAGCAATTTCTTCTACAATATTTCTAGGGACAATTTCATACTTATTAAATTCCATTGTTGAAGAAGCTCTTCCAGATGACATTGAACGTAATTCTGTTGTAAATCCGAACATATTAGCTAAAGGAACTTCGACTTCTATAACTCTAGCATTTCCTCTTAATTCAGATCCTATCATAATACCTCTCTTTCCTGTTAGATTTCCTGTAATTGTACCCATAAACTCTTCAGGTGTTACTACTTCTACTTTCATTACAGGCTCTAATAATATTGGATTTGCACTTCTCATAGCATCTTTAAAAGCCATTGAAGCTGCAATTTTAAAAGCCATTTCAGATGAGTCTACTTCATGGAAAGATCCATCATATACAGTAACACTAACATCTACAACAGGATAACCTGCTATAATACCTGCATTCATAGTTTCTATTATTCCTTTTTCAATAGCTGGTATATACTCTTGAGGAATTGCTCCTCCTTTTATTTCACTTGAAAATTTGAAGCCCTCTCCCCTATCTCTTGGTTCAATTCTTAAGAAACAATGTCCATATTGACCTCTACCTCCTGATTGCTTTATATATTTACCTTCAGCATTAGCCTTTGAAGAAATTGTTTCTCTATATGCAACTTGAGGTTCTCCTACATTAGCTTCAACTCCAAATTCTCTTCTCATTCGATCTACTAATATATCTAGATGTAACTCTCCCATTCCAGAAATAATTGTTTGTCCTGTCTCTAAATCACTATTCATTCTAAAAGTAGGATCTTCTTCTGATAATTTGTGAATAGCCAATGACATTTTTTCTTGATCAGCTTTTGTTTTTGGTTCTATAGCAATAGATACAACAGGTTCTGGAAAAGTAATACTCTCTAATAAAATTTTATTACTTTTATCTGATAAAGTATCTCCAGTCATAGTATCTTTTAATCCTACTAATGCTCCTATATCTCCTGTTAATAATTCATCTGTTTCTTCTCTATGATTTGCATGCATTAATAATATTCTAGATACTCTTTCTTCTACTCCTTTTGTAGAGTTATATATAAATGAACCTTTTTTTACTTTACCAGAATAAACTCTAAAAAAAGTTAATTTACCTACATGAGGATCTGACATGATTTTAAATGCTAAAGCACAAAAAGGTGAATCTGAAGAAACTTTAATACTAACTTCTTCTCCTTTATCATTTAAAGCCTTTATATCTCCTCCATCTAATGGTGAAGGCAAATATCGTATAATTGCATCTAATAATAATTGAAATCCTTTATTTTTTAATGCACTACCTGCAAATATTGGAAATAAAGTACCTTTTCTAACCCCAGATCTAATACCTTGATGAATCTCATCTTCTGTTAATTCCTCTCCATTTAAATATTTTTCCATTAGAGAATCTTCAGATTCTGATGCTTTCTCTATAAGAAGACTTCTCTTCTCTTCAACTAAATCCTTCATATCCTCTGGAATTTCTTCTTCTTTTATGTCTGTACCTAAATCATTAGTATATATATATGCTTTTCTAGAAACTAAATCTATTAAACCTTTAAAATTACTCTCTGCCCCTATAGGTAACTGCATTACAACAATATTAGCACCTAATCTATCTACAATAGAATCACAAGACATATAAAAATCTGCCCCTATTCCATCTAATTTATTTATAAAACATATTCTTGGAACATTATATTTATCAGCTTGTCTCCAAACTGTTTCTGATTGAGGTTCAACACCCATTTTTCCATCAAATACAACAACACCACCATCTAATACTCTTAATGATCTTTCTACCTCTGCAGTAAAATCTACATGACCTGGTGTATCTATAATATTTATTCTATATTTTACTCCATCTAATTTCCAAAAAGTTGTTGTAGCAGCAGAAGTTATAGTTATACCTCTCTCCTTTTCTTGCTCCATCCAGTCCATTACAGCTTCTCCTTCATGAACTTCACCTATCTTATAAGTTTTCCCAGTATAGTATAATATACGTTCAGTACTAGTGGTTTTACCTGCATCTATATGTGCAATAATACCTATATTTCTTATATTATCCATAAGTTTCTTTCTATTTCTTAAATTAAGCTAAATGAGAAAATGCTCTATTTGATTCTGCCATTTTTTCTATATCTGTTTTTTTCTTAGCAGCTCCACCTGTATTATTATATGCATCAATAAATTCTTTATACAATCTCTTTTCCATAGGAATACCTTTTCTATCTCTAGCAGACTTTATTAACCATCTAACAGATAAAGTTACTTGTCTGTCAGGAGATACAGGAATAGGTACTTGATAATTAGTACCTCCTAATCTTCTTGATTTAACTTCTACAGAAGGTGATATATTTTCAATAATCTTGTTAAATAATTCTAACGGTTCCATTTTAAGTTCACTTGATGCTTCATCTAAAGCATTATACATAATTCTTCTTGCTATAGACTTTTTACCATGCATCATTAACTTATTAATGAACTTTTCTAAATTAACATTTCCATATAAAATGTCAGGTTTAACTATTTTTTTCTGTGCCTTTTTACCTCTCATATTAAAAAATTTAAAATTAAATTATTATTTCGACCTTTTAGTTCCATATCTTGATCTAGCTTTCTTCCTATTCTCAACCCCTTCAGAATCATCATATGTACCTCTTACTACATGATATTTAGCAACAGGAACATCAGGCACTCTTCCTGCTCTAATTAGAACAACAGAATGCTCCTGTAATTTATGCCCTTCACCTGGAATATATGCAGTAACTTCCATTTTGTTAGAAAGACGTATCCTAGCTATCTTACGTAAAGCTGAATTAGGTTTTTTAGGAGTAGTTGTTCTAACTACAGTACAAACACCTCTTTTAAAAGGAGAATTTGTTTTTATATACCTATTATTCAGTGTATTATAAGAAATAGATAAAGCCTTATACTTAACTTTCTTTAATTTACTTCTTCTAGGTTTTCTTACTAATTGTGATATTCTAGACATACTTTTTTAAACTAATTTAGCACTCTCTCCTGATGGAATTTTACGTCCAATAATAACATTTTCCTTTAATCCACGCAAGTGATCTATCTTTCCAGATATAGCAGCATCAGAAAGTACTCTAACCTGTTCTTGGAAAGAAGCAGCTGATAAGAAACTTTCTGTATGAAGAGCAGAAAAAGTTATACCAGATAATTTTCTTTCATATTTAACTGATTTTCCTTCAGTTAATTTTAATCTTTTATTATCTTCATTAATAAAGAAAATATCTTTATATGATCCAGGAAGGATATCACTATCACCAGGATCAACTACTTTAACATATCTACCCATTTGAGCTACAATAACCTCAACATGCTTATCATAAACACTAATACCTTGAGCTTCATAAGTATCTAAAAGATTATCTATAATGTATTTTTGTGCCTGTTTTATTCCAACAGCTTTTAATAAAACATTAGGATCTATATTACCTTTTGTAAGTAATGTTCCTGCTGTAATTTTTTCTCCCTCAGTAACCAATATTATTTCATCTGGGAAAAATTTATATTCTACTTCTAATATTTTAGAACTTTCAACATAAGCTTTTCCTTCTTCTATTTTTGCAATTCCCTTAAATGGAGATATTACCTGAGTCTGATTTTTTGTTGTATATAATAAAGTTCCTGGTATAACCTTTTTTTCTCCTTCAAAAGCAGGAATATCACCTTTTACTAATACATAATCTTGTCTTATCTTCTTTTCTGAGACTATCTTTACTCTTACATCTAAATCATTTGTCTCAATATGTACTATACCGTCAATATCTGCTATTCTTGCTTCTCCTTTAGGAATTCTTGCTTCCAATAGTTCTTCAATTCTAGGGTATCCTCTAGACATATCTACTGCACCAACAATTCCAGATAAATGCTTTGAGTTCAATGTTAATTGAGAACCTTTTTGTCCCAAAGATTGAGCAGCTATAATACCTACAGCTTTACCCATATCTACCATTTGACTTTCACTCATATCATATCCATAACATAATTTACATATTCCATACTGAGATCCACAAGTTAATGGAGTTCTAACAAAAACAGTTTCTACTTCTTTATTATTTGACAAATCTTTTGCAATTTTTCTATCGATAATAGTATTTTTTGAATAAATAACATTACCTTTAGTATCTAAAATATCATCTGACAAAACTCTACCATAGATTCTTGCTTCAAAACTTAAAGTTCTAACATCTGATTTTGAAATTTCATAACCTTCTCCATAATTATTACAATCATCTTCCCTTACTATTACATCTTGAGATACATCTATCATTCTTCTAGTTAAGTATCCTGTATCAGAAGTTCTTAAAGCAACATCAGCTAAACCTTTTCTTGAAGAACGAGCTTCAACTAAATATTCAAAAACACTTAAACCTTCTACATAATTTGATTTAATAGGTAATTCTACTATATTTGAATTAGGATCAACAACCAAACCTTTCATTCCTATAATCTGCTTTAATTGATCTATATTAGCTCCCATAAACTTATTATCTATTATCTTTTTAAAGATATTATCATCTTTTAAATTTTCTAAAGATAACTCTGATATTTTATCTGTAGTAGTTTTCCATATTTCAGTTAATAATTGAGCTTTTTCTTTCCTCGTAATTAAACCTTCTATAAAACTAGAAGATGTTTGCTCTACCTTTTCTTGAGCTTCAGCAATTATCTCTTCTTTATTAGAAAGAATTACACAATCTTCGATTGAAATTGAAAAGTCTGATTTTAGACCAAATTTAAAACCTAAAGTCTTAAGATCATCTAACATTAATAATGTCTCTTCTTTTCCTATTGATTCAACTGCATTAACAATAATATTAGTTATTATTGAGTCATTTACAGGTTCATTAATAAAACTATCTACACTTCCATGTAGTGCATTATTAAAAATAACTCTACCTGCTGAAGTTTCTATTATCACTCCATTTGATCTAACTTTTACAAGTTCTTTTAATGAAATTAAAGATTTATTAAATGCTGAAAGTAAATCTTCAAATGAAGAAAATGTTAATTTTAAATTCTCCTTATCTATTGATGTAAGATAAAAACAACCATAAACCATATCTTTTTTCAAAGTTACAATAGGTGTAGCATCTGATGCTAAAAATAAATTACTATCTGCCATAGTTAAACTTTTTACTTCTTCTATAGCTTCTTCTGATAAAGGAACATGTACTACCATAGCATCTCCATCAAAATCGGCATTAAAACCTGCACATACCAATGGATGTAATTTAATAGCATCTCCTTCTACCAATATAGGGTAAAATCCTTGTATACCTTGTTTATGTAAAGTTGGAGCTCTATTAAGTAAAACTGGTCTATCTTTAATGATATCTTCTAATATATCCCATACTTCAGGTGTTTCTGTTTCAAATAAAACTTTTGCACTTTTTATATTAGGAGAAAGACCTCTAAATAGAATCTCTCTCATTACAAAAGGTCTAAATAATTCTAATGCCATTTTTTTAGGTAAACCACATTGTCTCAATGACAACTCAGGTCCACTAGTAATAACTGCTCTACCAGAATAATCTACTCTTTTTCCTAATAAATTTTCTCTAAATCTACCATGCTTACCTCTAATATTATCAGATAAAGATTTATAAGGAATTCTTCTTGAATTTACAACAGGAGGTGATGGTCTGTGTTGATTATCAAACAACGCATCTACACTCTCTTGTAACATTCTTTTTTCATTTCTTAAAATTACATCTGGTGCACCTAAATCTATTAATTTTTTCAACCTATTATTTCTATTGATTACTCTTCTGTACAAATCATTTAAATCAGATGTAGCAAACTTACCTCCAGATAATTGAATAATTGGTCTTAAATCTGGTGGTATAACTGGAATAACATCCAAAACCATCCATTCAGGTTTCATATTATTTTTTCTAAAACCTTCAACTATTTTAAGTCTTTGTATAGCTCTTACTCTCTTTTGTGCAGATCTTGCATTTATATCTTTATATAGATCTTCTGATAATTTAGATAAATCTAATTTCGAGAGAAGAGTTCTAATTGATTCAGATCCCATACCTAATTCATAAAATTCCAAATCATTATCTAATAAATTCCCATACTCTTCTTCTGAAATTACTTCTCCTAAAGATATTTTTTTAACAAGTTCAAATAAATTATTATTTTCTTTAGATATATCTTCATATGATAAAGCTTCTTCTTCTCTTAATCTTGCTATCTTCTGTCTAAATTTAAAGTTTTCTTTTTCAACTTGTAAATCTATAGACTCACCCTCTATTCCATCTTTCTTTAAATCTTTAATAAGATCTTTTATTCTTTTATCTTCTTCTACTGTTAATTTTTGAATTTTATCATCTAATTGCTTATTATATTCAGCATCATCTTTAGAAACTTTTTCTTTAACATATTCTATTGCAAGTTTCTTTTTATCTTCATCAACATTTAAAATAATGTATCTAGAAAAATATATAACGGATATTAATTTCTTTTGAGGTATATCTAAAAGAAGTGCTAATTTGTTAGGAACTTCATGCACAAACCATATATGTGTTATTGGTGAAGCTAATTTTATATGCCCTAATCTCTCCCTTCTAACACCTCTAGTTGTAACTTCAACTCCACATTTATCACAAATAATACCTTTATATCTAATTTTTTTATATTTCCCACAATAACATTCATAATTTTTTGTTGGACCAAAAATTCTTTCACACATTAATCCTCCAACTTCAGCTCTCTGAGTTCTATAATTAATTGTTTCTGCTTTTTTAACTTCCCCTTTTGACCATTCTAAAATTCTATCAGGAGATGCTAATGTTATTTTTAATGCTTTAAAATCTTTTAACATGTTTTCTTTATATAAAATAAATTAATTATTATATTCTTCTTCTAATACACTATCAGGACCTGCTGTAACAGCTACTCCTTCTATAATTTCATTCTCACCTTCTTCCATAACAACATCTTCCATTACTATATCTTCAGGTAAATAAGAATCCTCTTCTTCTACTTCTTTTTCTATAACAACATCTATTGGTTCAATATTCAAACACAAAGATTTCAATTCAGATAAAAGAACTTTAAAAGATTCAGGAATTCCTACCATTTGAATCTTCTTATTATGAATAATAGATTTATATGCCTCTGATCTACCGATAATATCATCTGACTTTATTGACAACATTTCTTGCAATGTAGATGCAGCTCCATAAGCTTCTAATGCCCATACTTCCATTTCTCCAAATTTCATACCTCCCATATTAGATTTTCCACCTAAAGGTTGTTGACTGACAACAGTATAATTTCCAGTAGATCTAGCATGAATCTTAGTATCAGCTAAATGATCTAATACCAATATATATCTTTTTCCCACAGTTATTTTGTGATCAAATTTATCACCTGTTCTACCATCATATAAATCTACTTTATCTTCTATCTCACCTATATTATTATCTTTTATTAATTTTGCTACTTTCTCTTCATCTATTTGAGAAAAAATAGGAAAAGCAAATTTTGTATTTAATTTTTCAGCAAGTTTAGAATAATGTATTTCATGTAATTGACCAAAATTTAACCTTCTTGTAATACTTGAAGGAGATATTATTATATCTACAGGTGTTCCATCTTCTAAGTAAGGCATATCCCCTACAGGAAGTATCTTTGAAATTACACCTTTATCTCCAAATCTACCAGATAATTTATCTCCTAAACCTATTTTATGTGTTCTTGCAACCCATACTTTAATTTGTTTTATAACACCTGGTGATAATTTATTAGAATCATCATTTCTTTCTAGAACTTCAATATCTGTTACTATTCCAGATTCTCCATTAGGTACTCTTAAAGAGTTATCTCTAACATCTTTTGCAATATCTCCAAATATTGATCTTAATAGTTTCTCTTCCGCTGTTAATTCAACCTCACCTTTAGGAGCAACAATTCCAACAAGTATACTACCTGATTCTACATGTGCACCTACTCTTACAATTCCATTTTCATCTAAATCTCTTAGAGCAGTTAAAGATACATTAGGTATATCTCTTGTAGTAACTTCATCTCCTAATCTAGTTTCTTTAATATCATGTGTATAACATTTAACATGAACAGAAGTTAATAAATCCTCTTTAACTAATTTTTCAGAAATAACAATTCCATCCTCATAGTTATAACCTTCATACATCATGTAAGCTACAAGAAGATTTCTTCCTAAAGCTAATTCTCCTTTATCCATACTAGGTCCATCAACAATTACATCCCCTTTAGAAAAGACAGTACCCTTATTGAGTAAAACTTTTTGAGAGAAAGATGTAGATTTATTAGTAGGAATAAATTTATCTGCAAAATAAGTTTCCTTATCTCCATTTTTATATTTAACAGTAATCATTTTAGAATCTGCATATTCGACAACACCATCATCCTTAGCAAAATATGCTCTATGAGAATTTTCAGCAATAATTCTTTCTACTCCTGTTCCTATTATAGGAGCTTCAGGAGAAACTAAAGGAACTGCTTGCTTCTGCATGTTAGATCCCATCAATGTTCTATCTGCTTTATTCCCAGATGCAAAAGGTATCAGATTTAAAGAAACTCCACCTATCTGTGTTGTAGAAACCTCTATATAATCAACAGTATTTACATTTCCTAAAGAATATTCTCCTTTAGATCTAACTTCTAGAATATTATCTAACAGGTTACCTTCCTTATCTATTTTTGTATTAAGACTTGCAATTGAAAGATCAAATTCTTCATCTGCATCAAAATATATCACTTCTCCTGAAAGATAAGCTAAAACAGAAATATCTTTTAATTTTTCTTTCTTTATTAAATCTGATAACTTTGAATCTATACGTGTTCCTGATTTATAAGTCTCTCCTCCTAATTTTAGACTTCCTTTCAAAATACGACCTTTTAATTTCTTAGAATCAAAAGATACAGTTTTTAATACTTTTTCATAAGGAGTTTCAATGAACCCATAATCATTTATCTTTGCATAAATACTTAAATGATTTACTATTCCAATATGTTGACCTTCAGGTGTTTCTACTGGACAAAATCTTGAATATTGAGAATAATGCATATCTCTAACAGAGAAAGTTGCACTTTCCTTTGTTAAACCTCCTGGACCCCCAGCAGTAACTCTTCTTTTATTACTTATTTCACTCAAAATATTTGCCTGATCTGCGGATACTGAAACTGCACTACTTCCAAAAAATTCATTAATAACAGAAACAAAAGGTTTTGTACTAACAAGCATAGAAGGTGTTAAGACTTCATCAGAAGACATAATACTCATTCTATCTTTAATTATTTTTTCAACTCTCCTTACTCCAACTCTAACATAATCAGAAAGTAACTCTCCTACACTCTTAACTCTTCTATTACTTAAAGAATCAATATCGTCTGGTGGAACTTCACCATTATTAACAAGGATTAATCTTCTTATTATTCCGACAATGTCATCTCTTGTCAAAACGTAATTTTCTTCCTTAATAGGTTTATTAACACCTAATCTTTTGTTTAATTTATATCTCCCAGTTTTACCTAAATATAACTTTCTAGGATTAAAAAATAAACTTTCAATATAATTTAAAGCATTATCATAGCTAATAGAAATATCTGGCCTTATTTTTCTATATATTTCTAAAACTGCTTCTGTTTGATTATGAGAAGTATCTTTTACCAAAGTTGCATCTATGTATCTTTTTTCTACATCATTATCTATATCAGCAAAAAGATTCAATATATCTGAATTTGTAGAATAACCTAAAGCTCTAAGCAGAGTTGTAATAAGTATTTTATTTTTTCTAGGAGCAAATTTCAAAGATATTACATTATGTTTATTTACTTCAAATGTAAGCCAAGGACCAATAGCTGTAACTAATTTAGCTGAATATAAAGGTCTCTTATTAAACCCAACTCCATTCTCACCAAACAATACACCTTCTGCTCTTACTACCTGATGAATAACAACTCTTTCATGTCCATTGATAATAAAACTTCCAGATTCTGTCATAACAGGCAATTCTACTACAAAAAGTTCTTGCTCCTTTATTTCTCCTGTTACTTTATTTGTTAAACGTACAGTAAAATATAAAGGTCTATCATAACTCAAACCTTTCCTTATAGCTTCCTTAGAAGAACGATTTATATCTCCAAAACGGTGATCTAGAAATTCTAAAGACCAAAGTTTTCCTGTATTATCTTCTACTGGATTAATCTCATTAAATAAGGCTTTTATATTTGTTTCTAAAAAATCTTCATAAGAATTCAGTTGTGCATCTATGAGATTTGGGTAATTAAATGATTTTTGATTTTCATCAAAAGAAGTTGACAGATCTATTCTTCCATTATGCATAATATTATATATTTATATAAACAAAAATAAACTCAACAAAGAGCTTATATTAAAAAATTAAAAAAATAACAGACAATTACTCATTAAAAATAGTATGAATTCAATAATAATGAATACTATCATAACACACAAAACTTGTCAAACATATATATTATTATATGTTTTTATTATTTAGTCACTAAAATTACTTTACAGTTATTTTTTGGCAAAAAGTCTGAATTTACACAAATATACTGCTGCCTATTTACAATATCCTCAAATGTAGTTTGATATAGATTGCCATTAAAATTTGATAATAATTGTTGAGGCACACTAATTATAGGATGAGAGCTATGACTTATATTATATATTGAAAATATAATCCATAGCACTATTACTATAAAAGAAAGAAGTATTATATTAAAAAATTTTTTCATATATTAATAATTTGAATAAAAAATTAATGCATCAAAAGTAATAGCCCCAGTTGATGTAAACATACTACCTGTAGGAACCGCTTGAGCATTTGATGTCAAATTTGGAACAAAAGAAATATTATATATTAATATCCTCTGAGGATAATTTGAAATTGAATCTAGAAATGATATTAATTCTTGATAACTACCTATAGCCGAAATAGCAACATCAAAATTTTTAGATAATGCATTTACCTGCGGAGGAAGTGTACTCCCACCACTCACATTAAAATTAATATTAGTTAAATCTATATTACTTTTATGCATAATTTGATATAAATTACCAAATATAAAGGCTGTATCTTTAACATTAGGTAAAGATTTATTTAAATAATTTATATTAGGACGTATATTTTTATTATATAAATAATAACTTGAAGTAATATCGTTATATCTTTGTTGCATCTGATTATTTTGCGAATTAATGATATTCACAGAATTTAATTCTTGAAAAATTACATTAATTAAAGGATATATTATAAATATTATAAATATTAATATTAATATTAAAGAAGCACTTAAGTAATAATATAATTGATACTTCTTATTTTGAAAAGAATTTAATAGAAATTCTTTGCTTTTTTTAACATTAATATTATTCATAATTTTCTTACACTAGAAGAACTTATTATAATTTTAGCACTCAAAGAAAAAGTTATATTACTAGCACTTAGATTATTTTGAGAATCTGAAAGTGAAGGAATCAAAACATTAGAAAAATCTTTATTATCTGCTTGAAAAGAGTTAGATAGAGTTTGTAAATCTTGATAATTTAATGAAGTACCATTAATTGTTAATATGTTGTTATTAAGAGTAATAGAAGACATGGAAATGCCTGGATTCGACAAAGCTAGAATCTTATTTAAAATATAATCACTATGATAGTGATAATCATATAAATTCAGAACTGTTAAGATTTTACTTTGATATGCGTTTATTTTTCTTGTTTCAGATTGAATAATAGGAGAATTTAATCTGTTTTGTAAATTCTGAGAAGACTGAACTGCAAAGTTATATTCTTGATCTACTGTCACTTTAGCTATAAAAACAAGTATTACTATTACTTCAAATCCAATTAATATATATTTTCCATAACTAAATACCCAATTATAGAATAAATCAAAAGAATTTTGAGGCTCTTTTATGTTATTTAATAAATTGATAGTATCTCTTTTACTTTTATCATGCATATTCTTGAATAATTGTTAGTAAATATGGTAAAATACATACTGAATTGCTCTTTAAAACAATAATTATTAATATTAATATAACTATTTAATGAAAAAACTTCAATAGTACTAATATTATCCTTGGGGATGATCGGTTTTGACAAGAAAATAAGTTGTATGTATGGCAAGTAAAGTTCTAATAATCTTTACAAAATTATTAAAAAAAATAAATGTAAACAACATTAAAAGTAAGGTATCAGCTTTTGTTGATAATTTAAAAACAGCATTTGTCTCACCTTCCTATAATTTAAATTTAGCTTAAATAAATTTAAAGTAAGAACATAATAAAACTTGTAAAGTATGTCTTGCTCAAACAAAAACAAGTTAGTATTAACTTTTTAAATATTGAAAATGTTAATATGAAATCCATGCAATATTAGAATTTATATTTTTACAATTTTTAAGTATAGATTCTCTAAACAAAATTGATATACTTGTAATTCTATATATACCACTCTTTTCATGGATGTGGGTTCAATTCCCACCATCTCCAATAATTAAATACTATTACTAAAACATTAATAAAAAATTAATACTATTTAAGAGTGTCTCACTATGACTATATCTCCGTCATTCATAATATAGTCACTTCCTACAATTTTTAATTTACCTTTATCACGAGCGTTATTCCAACTCTTCAGTGAAATAAAATCATCGTAACTTACAACTTCCATTTTTATAAAATTTTTAACAAAATCAGTATGTATAACACCAGCTGCCTCAATTGCACTTGAACCTTTCTTTATAACCCAAGCTCTTATTTCTTTCTCTCCTACAGTAAAAAATACCTGTAAACCTAATTTGTCAAAAGCAAATCTAGTAAGAAGATCTACTCCAGATTCCTTGATATCAAAATCTTTTAAAAATTCATCTCTTGAGATTTGATCCATTTTTGATATCTCAAACTCAAATAGTATATTCATATATATACTATTATCTTTTATAACAGGAGCATACTCTTCTGTATTGTATAAATAAATGAAATTTTTATTTGTCAAAAAATTATAATTTTTCAAAATTTCTTTCTCTCTTAAAGTATATTTTTCTTCTATAATCAATTTTCCTTCATTAAGATTTTTCTCTAATTTTTCAAATAAATCTAAGATCTCTTTTAAAGAACCATCCTTCCTCATACTTTTCTCTATGTTATTTTTCAATTTATCTAGAACCTCAATATCCTTTAATATTAATTCAGTATTTATAATATCAATATCTCTAACAGGGTTAATATTATTCTCAACATGAATAATTAAATCATTCTTAAATTCCCTAACAACTTCTAATATCAAATCTACATCATAGATATGAGATAAAAATTTATTTCCTAAACCTTCACCTTTTGAAGCTCCTTTAACTAAACCTGCAATATCAACAAAAGTAACATCAGCTTTAATTATTTTTTCAGTTGTAACAATATTAGCTAATTCATATAGCCTATTATCTTCAACAAAAACAATTCCAGTGTTAGGATCTATTGTACAAAAAGGAAAGTTTTCAGAAGGAACTACATTATTGGTTAATGCATTAAAAAGTGTAGACTTTCCTACATTTGGAATACCAACTATACCTATTTTTAAAGCCATATTATTTATTTTCTAATTTATTTTTTGCTATCTTTAAAAGATATTCTTTCTTATTTAATTCTGGAGATTCTATTATAACATCTAAAAGACTATTTAATGTCTCTCCTAATTTTTTATCTCTTATAAAACCTATACCTAACAAATCTTCCCCGTTAATAGCTAAATCCTTTAAAGATAAAATCCCTTCTTTTTTATTTATAGTATCTATTCTTTTTTTAAAATTTTCTAAATTATTAAAATCATAAGTTGAAATAGGATTTCCCTTCTCATCGGCAACCCTTAATAGAAATAATAAATTTAATATTTTCATATCCCCCACCTTTCTTAAAAATCTTCTTACAGCTGCATCAGACCAAGTACTTTCGTAATGAAATAAATGTAAATATATTAATTTTGTAATAATTTCTATTTCTTTTTTAGGAAATTTTAATCTTTCTAATATTTCTTTTGATATATCCGCTCCTACTTTCTCATGCCCAAAAAAATGGCCTCCTTGTTTCGTTTGGGGTTTGCCTATATCATGTAGTAGTGCTGCTAACTTAATTCTTTCATCCGCTTTATCCATGGATAATAATAAATGATTATATACATCTAAAGAATGATATTTATTCTGTTTAACTCCAACACAAACTATTAGTTCAGGTATAATATATTCTAATAGACCTGCTTTTCTTAGCATATCTACACCTACAGAGGAATTTTCATTTTTAATAATTTTCAAAAATTCATCTCTTATTCTTTCTTTTGAAATATTATTTATGAGCTTTGCATTTTTTAATATAGAGATAAAAGTATCCTCTTCTATATCGAAATTTAATTTGAATGAAAACCTTACAGCTCTAATAAGTCTAAGAGCATCTTCTTTAAATCTATCATCAGGATTTCCCACTGACCTAATTACCTTGTTTTTTATATCTTTAATTCCATCAAAGATATCTATAATTTGATCTTTATTAAAATCATATGCAATAGCATTCATTGTAAAATCTCTTCTTTTTAAATCTATATTAATATCATTAATAAAAGTAACTTCTTTAGGATGCCTTGAATCTAGATACTCAGAATCTTTTCTTAATGTTGTAATTTCTACATTAAAATTACCTTCTTTTATCATTATTGTTCCAAATTTCTCTCCAAATAAAATTGCATTTGGAAATAGTTCTTTCAGATCTTCAGGTAAAGCATTAGTAGTGATATCAAAATCATTAATATTATATCCTAAAAACATATCTCTAACAGAACCTCCAACTAGATATGCACTGAAATTTTGAGTTTTTAAAAGATTAGATATCTTAAATATATCTTGTGGAATTAATTCTTTAATGTTAGGCATTCTTATTTTTTACTAAAAAATATTTATCTCTAAGATCTATAATGCTATATCCTAATAAATTTATCTTCTCCCTAATTTCATCAGAAGATTTCCAATCTTGATTATTTCTTAATTTAGATCGATCATCGGCTAAAGATAAAACTTCTTTTGGAATTTTTTCATTAAAACAATCTAAAAAATTTAATGAGAGAACTTTATCAAAATCTAAAATAGTTGATATTCTTTCTGAAGACGAAATATTATTATCTTTTACAACAGCCCAAAGTACTTCTAACATACCTGGAGTATCTATATCATTCTCTATTTTTCCTATAAATAATTTTTTATAATGATCATTTACAAGAGAACTAGGATCATAACTATCTATATTTAATCTTATAAAATTATATATCTTATCTAATGCATTTTGAGCACTTCTTAAAGATTCAAAAGTAAAATTAATAAGACTAGAATAATGAGCATTTAAATATAAATATCTTAAATAAATAGCAGGAATACCTTCTTTTTCTAGATCAGACAGAAGATATGCATTGTTTAAACTTTTAGACATTTTTACTCCATCAGATAAAACAAATTCATTATGCATCCAATAATTAACAAATTTAGAATCAAAAGCAGCTTTACTTTGAGCAATTTCATTTACATGATGAAGAGACTTTAAATCTATACCCCCTGTATGTATATCAATCTCTTTCCCTAAAAATTTATATATAATTGCAGAACATTCTATATGCCAACCGGGAAAACCTCTCCCCCATTTACTATCCCACTGTAAAATGTGGTTAGGGTAAGAAGTTTGCCATAGTCTAAAATCTTGAGGATTTTTCTTTGTTTTATCTTTTTTTACACCTTCTCTAGCATATTTTTTCTGATCTATACCTTTTTGATTAATAAGTTTTTCATATCCAATATATTTTGAAGTATCAAAATATACACCTGTACTAGTCTTGTATACATAACCTTTACTATCTAATATATCTATCATTTCTAGTTGAGTATCTATATTATCAGAAGCTTTAGATATAATTTTAGGAAATCTTATATTTAATTTTTCTATATTTTTATAAAAATCATTAGTATAAAATTCAGCTAATTCCATTACTGAAAATTTATTTAAAATAGCTTCTTTCTCTAATTTATCTTCCCCCTCATCTCCATCAGTAGTTAAATGCCCTACATCTGTTATATTCATAACATCTGATATTTTAAAACCTACATACTCTAAAGACTTCTTCAAAATATCAGAAAATAAAAAAGATCTCAGATTTCCAATAGATACATATTTATAAACTGTAGGTCCACAAGAATAAATTTTTACTTCATTTTGAGATAAAGGTTTAAACTCCTTGATACCTTCAAATGAATCTTTTAATTTAATTGTCATAATCTATTCTCCTTTCTAAAGCTTTACCTATTGTATATGTATCTATATATTCAAGATTTGAACCCACAGGCAAACCACTTGCTAGTCTAGAAAACTTTATATTCTTAAATCCAGAAAGATAACTTCTAATAAAACTTCCTGTAGCTTCACCCTCTGTAGTAAAATTAGTAGCTATGATTATTTCAAATTTATCATTTAAATTTAATCTTTTTTTTAAATTATCTAAAGATTTATCTGAATAAGAACTATTGTTTAAAGGCGATATTACTCCTCCTAAGATATGATATACCCCTTTATATACGCCTGATTTTTCAATATAATCTATATCTGTACTGTTTTCTAATATACATATTGAAAGTTTATTTCTATTCTCATCTCTACAAAATTTACAAGGATTTTCTTTTTTATCAACAATCATATTACAAATAATACAATTATCTATATTCATGTCCACTAAAGATAGCGCATTGGATAAACTTTTTATATTCTGTTTATTATATACATAAAAATATGCCATTCTCAAAGCACTCTTACTACCTACTCCTGGTAATTTTGAAAATTCTTTTGCTAATATAGATATAGGATTATTATCATCCATAAGCTTCAATTACATACCCATCATACTTTTAAGTTTAGATAAATCCATATCTTTAGACATATCTTTAGCTATTTTTTTCTGAGCATCTTTATACGCATCTTTTATATGTTCTATGAAATCTGATTTTCTATCTTTGTCGAATAATAAATCATCCATTTCTATGTTAATAATTTCCCCTGTACCATTTAAAGATATTTTTACTAAAGATTTTTTTGATTCTCCTATAAAGATTTTTGACTCCAAATCTTTTTGTAATTTTCGAGCCTCACTTTGTAATTTATATAAATCTTTTGCTTGTGAAAAAGGATTTGCCATGATAAAAAAATACTAAAATATATATTAATATAATAACATAAAACTAAAATTTTATTAACTATATATATAGAATAAAAGAAAATAACATTAAATTATAAATATTTTTTTTATTTAAGGTTCATTTTTTTAAAAATATCTTGAGTTTCAAACTTATTTGATTTATATGTATCTACATTCTTTGATACAGGAATAGTAAAAGAAAAAGTTGATCCTTTTCCTACTGTACTATTAATCCAAATATCTCCACCCATTCTTTGAACTAATCCTTTGACAACATAAAGACCTAATCCTGTTCCACCTGGTCTTACTAAAAGATGTTTCGTGTCTTTTGGATCATTAGGATTTCCTATATAATTATTAAGTCTATGAAATTTTTGGAATAAATTAGGAATTTCTTTTTCTGGAATTCCTACACCTTGATCTTTAATATTTACTGTAACAAAATTTTTATCCTGTGTAGTGAAAATTTTTATTACACCCCTTTCTGAGTATTTTATAGAATTTGATATTAAATTCCCAATAATTTCTTCTACTTTTGATCTATCTCCAAAGACTCTATCTATATTTGTTTTTATATATACTATTTTCAAACCTTTATTATTAGCTTCTTTAGAAAAGCCATCTACTTGTGACTCAATCATTGAAGATAAATCTAAATTTTCTGGGAGTATAGGGACATCTGATCTACCCATCCTTGAAGCTTCAAGAAGTGTATTAATAATTCTAATTTCATTTTCAATACTTTCAATACTTCTTTGAATATATCTCTTTAATTTTTCTAAATATTCATTATTTTTCTTTGATAAAGGTAGTTTTTTTATATATTCATTTATAGCACTTTGAGCCATATAAATATTTCCTTTTACTATACTTGCGGGAGTTCTAAGTTCATGAGAAGAAATTGAAATTAAATCATCTTTTAATTGATCTAATCCTTTTAAATCTTCATTAACCTTCTCCAATTCTTTATTATTATGCTCTAATTCTTTTGTAGCTTCTTCTACTTTAGATTTTAGATTAACAATGAGGTCTATTTTTTGAAAAGTAATAAAAAGGTATCTAGAAAAATCTGTTATCATATATTTTTCTTGTTTACTAAGAGGTTTTAGATCTAATTTATTGTGAATAAAAAGAGAAATATCTTTATTCGATATTAATACTAATATATCTTCTTTCAAAAGTTTCCTTATTATAACCTGAACATTATCATTAATTTTATAATTTTTATTAATAGATATTTCATCTAAAAAGAGAACACCATGATATTCTTCTAGTAGTTCGTTTAAACCATCAATTTTATAACTAAAATTATTCTGGAAAAAGATTTCAATAAGTTTTACATCTAAAGCTTTTTTCATTTTTTCAGATATATTATTTATAATATCTGATACATCTATTTCAATTAATAAATAATCTTTTAATTGATCAAATATTAATTCATTTTTAAATTTTACTTTTTCAAATTTTTTAGAAATAATACTAAAAAGAAGTACAAATAAAAAAGCCAAAAAAAATCCTAATGTGTATGAATATATTCCAAAAACTGTTCCAAATAAATATCTTTCTATAAAAATAGAAAGATAAAATAAACCAAAAGCCAATATAATTAAAAAAAAGTACTCCGCTATTTTATTAAATAAGTATGTACCTCCCCAAAATTGATATTTTGACATGGATATATAAATAAGAAATACAAACACTAATAAACCAATAGGGCCTAACATAATCAAAGAATAATTATGAAATAAAGGTAATACTAAATTAAAAACTAACCCTATAAAAAGAGCTGGCAGTATAGAACCTAGAATATATTTTGCTTGCATTTTATATATACCTACAAGAGATCTATAAGAATTCACAAGATTTAAAATTGAATATAAAGCTAACAGAATAAAAATAATACTGTATATTATATAAAGTATGTTGGGTGTGAATAAAGGATAATTTATATTATATATAAAACTAAATTCTTTAAATGGAAGAATTATTGTAAAAAATAACAATAATAAATACAATAAAAGATCAATAATCGAATTTTCATTTTTATAAAAAGGGAAACCTTTTGTGAACTTAATCATAAATATCAATATTGATATTGCTGATAAATAATATAGGTAAGCAAATGAATAGCTAAATTTTGTTATAAAAAACAAAAAAATAAATAATGCCCAAGTACTCGAACTAATTATTAAAAAGGAGAATCTCTTATAAAGAATATTATCTTTACTTTTTACAAGTATAGATATACCAACAAAAAAACATATTATAGATACAAATAATAATAAAGATAAAGCATATATCATATGCCAACTTTATAATATTTTAAATTTTTTTACCAGTAATAACATTGGACTGTTTAACAAAACTTTCTTTGATAGTAATTTTCCTAAACCCACTCTCTTTCATAATATCAATTATATCTTCTTCTTTAGGAAAATAAAAAATGCCTAATCTTCCTAATTCAGCTATTTCATTTGCGTGAGATAGAATTCTTTTTGCAGATTTTAAACCTTTTATTGGAGAATGTCCTGGAACTCTAGCAAAATCTAAATGTGTTACTGCATCTTTAAATACTTTTCCAAAATTCACTTCATTTTTTGGACTAGACCATACAAAAGTACCATCTTCAGATAAACTGCCATATACATATTTTATTAATTCTGGTAAAACGTCTTTCCCCTTATTTCCATTAAGATGTGTTATATAAGGTAAAACAAGATTTGAAGCTACAATATTAAATACTTCTTCTCTTTTTTTCCATACATCTAAATCTCCTATGTCTTCTTTTTTTACACTAACCCTACTGTCCTCAGAAAATCTATTATTCAAATATTGAACCATTGCATCATTATTATCCACTGCTGTAATTTTAATAGCCGGATTTTTTTCTAATAATGCATTTGTAATATTTCCTGTTCCTGCACCTAAATCTAATACTTCACCTCCTGTTCTTAAATTTTCTACATTAGAACCTTCTAAAAAATCATGGACTAAACCTTTATATGCACTAGAATGAATCAGAAAAGGATACACTTTAGCATATTCTTCCCATAAAGCAGAAACTCTCTTCTCAAAAGAATCAAAATTTTCAAATTGTGTAGATTCCATTTCAGTCATTTATATATTACACCTAAATTTGTCGTATATTATATCACTATAAGCTCATAAAGTAAATTCTATCACTTATTATTCTAAATCAAAGACTTCTTTTATTTCATTATCAATGTTATTTATCTTATTTATATTTTTAAATATAGGTTTTATATCTTTATCAACAATACAATCTAATATATATTTCTTTCCAACAATATCTTTTATCAAATTAGATAAAAACTCTTTACTTCTTTTTTCAATCAACATATCTTTATAAAAGGAAAATGGCACTATTATTATGATTTTATTTTCTTCAATCATAAAAGAAGATTTTGATAGAAATGCACTCATATGGTGATTAAATGTTTTAGATTTATCTATTATCTCACCCCAATAAAGATTTAAATTTAAATCTTTATTTTCATCTATAGTTATAGATTTTTTTGTTTTATTTTCTACTTGCATATCTCTAGTTTTTTTTTCATTAACTTCTTCTTTAGACTTCAATACATCAATTCCTAACTGATCTATAACAGAAACAAAACTTATTTCTAAATTAATTTCATCTAAATATGATATTTTTATTTTTTCTAATGTATTGAGTAAAATATTAACTATTTTAATAAGATCTCTAGACTCAATATTTTCAAAAACACTATCATCTATTGAATAATAGTTATAATTTAAAGTCTTATTTATCATTGACTTTCTAATAAAATCTAGTGAATTCTTTATAAAAACTGACACATTTATATTGTTACTTTTAATATTTTCTAATACTTTTTCTAAATCTCCTGATATAACAGATGTCCATATCATTTTCACAAATTCAATATCTGGGAAATTTAATATACTTATTACTTCATTATAAGACATATCATGCTTATATATAGATAATATTTTTTGCAAATTAGTCATTGAATCTCTAAAACTTCCATCTGCAATGGTAACTACAAGATCTTTAATATCATCATTTAATTCTGTTTTTTCAGATTTTAAAACAAAATTTATTTGAGTCATTATATCTTTATATGAAGCCTTCAAAAAATCAAATCTCTGACATCTAGAAACTATTGTTTGAGGAACTTTATTAATCTCTGTAGTAGCAAATATAAAAATAACATTTTTGGGAGGTTCCTCTAATGTTTTTAAAAGAGAATTAAATGCATCATTTGTTAACATATGCACTTCATCTATTATATAAACTTTGAATTTTCCTGATACAGGAGAGAATTGTATTTTATTTTTTAACTCTCTTATATCCTCTATTCCTCTATTCGATGCTGCATCTATTTCAATCAGATCTAAATAACTCCCAGAATTAATCTCTTTACAATTTAAACATTTATTACAGGGATCTCCTTTATCTGAAAGATTTTCACAATTTATTGCTTTTGCAAAAATTCTTGCAACAGAGGTTTTACCCGTACCTCTTGAACCAAAAAATATATATGCATTTGCTATATTACTTAATAATATTTCATTTATTAATATGCGCACTACATTGTCTTGACCAATAACTTCAGAAAATTTTTTTGGTCTATATTTTTGGTATAAAATAGTATTATTACTCATATATTTTCAAGATCTTTAATATTTATAATCGATTCTTTTTTTAATTTAAGATTTTTAATAATCAGTGATTTATTTTCTAATTCCTTCTCCCCTAATATGACTAAATTTTTCACATTCATTTTTAATGCAAATTCAATTTGTTTTGAAATATTCCAATCTTCACTTATATTCATTAATACAGAATACCCTTTACTTCTAAGAGTATTTGCAATATTAGAATAATGAGAAAGTTCAACATTTCCAAAAGTTAATATAAAATAATCGTATTCTATTAAAGAAGGTATCTCTTTATTATACTCTTTTATTAAAGAAGTAAGACCTTCTATACTACAAGCTATACCCACTGCAACAATATCTTCTCCTCCTAAACTAGATATAAGATCTGAATATCTCCCACCTCCAAATAAAGACCTTTTTATTAACCTTTTCTTATCCCATATCTCAAAAACTGTACTTGTATAATAATCTAAACCTCTAACAATACTAGGGTCATACTTTAATGATAATCCAAAATCTCTTGCTTTATCTGTAATATCTTTTATTTCTTCAAATTTATTACTATCTGAATCATTAATATAAACTAATACATCTTTAAGAAATTTCTTATCTTTTAATAAAGCTTCTACTGATCTATTGAAATCTTCTTCTTTAATTTTTCCTTTTTTATCTATTACTCTCAACAGATTGTTTACATCTTCTGTGAAATTGGATAGAAACTTAAATGCTACGTCTCTATTATTTATTAATATATCAAAATCATCTCTACTAAAACCTAATCTCTCTAATATATTTATACTGATATTCAATATTTCTATTTCAGATAAATTAGAATTTGCACCTATAATATCAGCATTATATTGAGTAAATTGTCTCGATCTAGCTTTTTGAGGTTTTTCATTTCTAAATAAATCCGGTACAGAAAACCATCTAATGGGTTTCTTATATTGAGAAGATTTTTCCGCTAACATCCTGGCTAAAGTTGGTGTCATCTCTGGTCTTAATATAACTCTTCTATCTCCTCTATCTGTAAAAGAATATACTTCTTCTAATAGACTTTCACCTGATTTAGCTTCATATAAAGATGCTTCTTCTATAATAGGTCCATCATACTGAATATATCCAAAAGATATAGATACTTCATTAAATATATTTAATATATACTCCTTCTTTTTAAATTCTTCTGGATAATAATCCTTAAAACCTTTTAAATTTTTAAATACCATAATAATCTTTCCTATAATTCTTAATAAGTTAAAAACATTGAATCCTTAACTCGTTTTAATGTATCTTTTGCTATATTTTGACCTTTCTTAGTTCCTTCTTTTAAAATTTCATATAATGAATCTTCTTCTCCTTCTAAACTACATCTTTTTTCCCTTATAGGCAATAGAAAGTCATTCAATACAGAAAATAATCTTTCTTTTACTTCTAAATCACTTATTTTACCTTCCCTATAAAGAGATTCCATTTCTTTTACTTCATCCTTATTATTATTAAATATATTATGATATATAAAAACAGGGTTATTTTCTGTATGCCCTGGATCATTTTTATGTATTCGAGTAGGATCAGTATACATACTCATTACTTTCTTTTTTAATTCTGACTCAGTATCTTTAAAAGTAATAACATTATTTAAACTTTTTGACATCTTATTCTTTCCATCTAAACCAACCAATCTAGGAACCTCACTTAAATATATTTTAGGTGATTTAAGAACATCTCCATAAATCTTATTAAACTTTCTAACTATTTCTATGGTCTGCTCTAACATAGGAGATTGATCATCTCCTACGGGGACTATATCTGCCATAAATGCAGTAATATCAGCAGCCTGACTTACAGGATAACCTAAAAATCCATATGTAATATTATCATTAGAAAATGTATTTTTCTTCTGTATTACCTCACTTTTTACAGTAGGATTTCTCATTAATCGAGATATAGTAACTAAATTAGAATAAATAACAGTTAATTCTGCAATTTCAGATATATCAGATTGCAAAACAAAAGTTACTTTTTTGGGATCTAATCCAATAGCAATATAATCTTTTAAAACCTCCATTATATTGAGATTAACCTTTTTGGGATTTTCAAAATTATCAGTTAAAGCCTGTATATTTGCAATTAAAACAATAACATCAAAATCATCTTGGAATTTTACTCTAGCGCTTAAAGACCCTACATAGTGACCAATGTGAAGTAATCCTGTAGGTCTATCGCCTGTTAACATTCTTTGTTTCATAAAATTGATTATATAATAGACTATAAAAAAATGAAATCTATTTATTACTAAAAATATTGATATCATCAATAGCTTTTTGTAATAACTGAGAATACAAATCAAATCCAATTCTAGATACATTACCATGTTGGTTTACACCTAAAATCTCACCTGCTCCTCTAATTTCTAAATCTTTTAGAGAAATTGTAAAACCACTTCCTACATTTTGATTTTTTACAAGAGTTTCTAACCTATCTTTTACCACTCCATTATTATTTATAATACTAGGAGGGCAAACTAAGTAACAATAAGCATCTCTATCTGATCTCCCTACTCTACCTCTAATTTGATACAATTGTCCTAATCCAAATCTAAATGCCTGATTTATAATAATAGTATTAACATTTGGAAAATCTATACCATTTTCTATAATTGAAGTTGACAATAATACATCAAATTCTTTATTTTTGAATTTATATAATAATTTATCTAAACCTGGTAATGAACCATAAGCTATCTCTATTCTAATATTAGGGATTTTTTCTATAAGTAAAGTTTTAATATTATATAGCGTAGATATATTATTGTGTAAGAAAAACACTTGCCCCAATCTTTTGATTTCCCTCATAATAATATTATTCATTCTATCAACGTCAAAATCTATAATTTCAGTATAAATAGGTTTTCTTCCTAAAGGAGGAGAAGCAATAATACTAATATCTTTTATCCCTGTAAAAGAAGAGTATAAAGTTCTAGGAATAGGTGTAGCCGTCATAGAAAGATAATCAATATCTGCTTTTATCTTTTTTAATTTTTCCTTTTGCTTAACTCCAAATCTTTGCTCTTCATCGACTATTACTAATCCTAATTTTTTGAATTTTAGATTATTAGAAAATGCTTTATGTGTTGCTATCAATATATCAAGACTACCTCTCTCAACTTCTGCAAAAATAGCCTTTTCTTCTTTTTTAGTTATATTTCTATTCAAATAAGCTATTTTTACTGGGAAATTTTTAAACCTTTTTTTAAAAACTTTATAATGCTGTTCTACCAATATTGTTGTCGGAGCAACAAATAAGACTTGTTTATTCATCATAACAGAAATAAAAGCAGCCCTTACTGCGACTTCTGTTTTACCAAAACCAACATCACCAACTATCAACCTATCCATTACTTTCTCAGATAATAAATCATTCCTTACATCCTTAATAGCCTCTAATTGATCACTTGTTTCTATATGTTCAAATTGATTATTAAATTCCTCTTCAAGTTCATAATTTATATTATTATCTAGAACCTTTTTTACAGAAATTCTCTGGGCATGAACCAATATTATATCTTTAGCTATATTTTGAATCTCTTTTTTTATTTTAGACTTAACATTCTCCCATTCCCTTGTACCTAATTTAGTTAATTTAGGGGGTTTATTAGTATCTGAAATATATTTAGTTATTCTATCTGAAATTTCTAAAGGCAAGTACAATTTATCATTATTACTATACTCTATTTCTATAAAATCCTTATTAATACCTTTTATATTTTTCGATTTTATACCCCTAAAAATACCAATACCGTGGTTTATATGAACAATATAGTCTCCTTCATAAATTTTACCATCAGTAAAATCTGTTACAATTCTTTTACTTTTTTTCTTTCTATATTGATTAAGGTTAAATTCTCCATATAGTTCAACATCTGTAAATACAGCAAATCTACCATTTGCAGAAAAAAATCCTCTCGGAAATTCTATATTAGAATAAATAACTTTTTTTCCATTCAATAAATTACTCTCAAATATACCTCTTGAAGTAAATATTATAAAAGTGTCAACATTAGCTTCTATCGACTTAAACAAGGTATTAAAAGAAATATGATAATCTGAAAAATAATTATAATCTAAATTTATATCTCCATCTATACCTAAATTGAAATAGATATGAGTTTTAGATAATTCTTTTTCATATGATGAGAAAAATACATCCTTATTTTTTGGCAAATATAACTTATCTAAGAATAATATATTTTTAAATGTCAAAAAATCTCTTACTGAAATACTTTCAAGTATATTTCCAAAAAAAATAAATCTGTAAATAATCTTATTTAGACAAATATCGACCTTATCTCCTAATACAGAATATTCATAATTATCATTTATGATATCTACCTTTGTATAAAAATCAAGACTTTCTAATATAGTAATTAAATCACTTCGAGTAGTATCATTCTTTAATAAAAATGAATCAAAATTCTGTTCCTTATATGAATATAGAAAACTAAAATTATCAAAAAAAGTATTTAAAAAAGAAGGAAAATAATCAATTAAATATTTATCTAAACCTGAAATATTTAATAAAGAATTACTATTATTCTCTATCTTTTTTATAATTGACAGAAAATTACTATCCCCTCTAAAAGTATCTTGGATTTCTAGTGATGAATTATTCACTGTATATATTTTTTATTTCTATATAAATTTGGGGAAATAAAGTGTTCAATAAATAATACATTTCATCTTTAGTAAAATTATCTAATACATAATCTGCCCCATTAATTAGATCTCTATTAAAACGATTCTCTACTCCAATTCTTATATTTCTAATATTAATATTATCAATATGACTTAATATAGATTTTATACCATTATGTCCTCTAGGAGATTTATCTCCTATTTTAAATTGTTTAAATAATATATCTAAATCATCATATACTATAGTAACTTCTTCAAAAGAATTTTTATAAAAATTTATTACTTTTTTTACTGATAACCCTGAATTATTCATATAAGTAGAAGGTTTAAGTAAAAACAAATTATCATGTTTTAATATTTCCCCTGAAAAATCCTTATTAAATAAAAATTTTTCTTTTATTCCTTCTTGATTAACAATAAAATCTAAGAATAAGAAACCCACATTATGTCTATTATTGTGATACTCTTTATCAGGATTTCCCAATCCCACTATCAAATGATTCATATAATTTTAGATAATATATCTTCTTGTATTATAAACATTTTTTCATTTAAATTTAAGCTTGATTTGTGATCAAAACCTAATAAATGTAATAGTCCATGTATAAAAGTCCTATCAAACTCATCTTTAAAAGAGATATTGTACTTTCTAGCATTCTTTAAAATATTGTTAGGGGATATATATATATCTCCTATATAAAAAGGATCCTTATATTCTAAAGATACTACATCTGTAGTAGTATTAATATTTCTAAATTTATAATTGATATCTTTTATTTTTTTATCTCCTACTATAAAAATAGAAAAATTTTTTTCCTTTAATCCTAATTCTTTGAATAAAATTTTTGATATTTTTAATAATTTATAATGATTGATATCATATGAATTTTTATATGAATTGTATATCATAAAAATTTAGAACGAATTATTTCTGATATTTTTTTAGATGTAACTCTATATTCATATTCTTTTGATATATTATTTATCACTTCACCCATATTTTTTATTGAAAAATCAGATATCTTGTCTACTTCTGATTTTACTAATGAATATATCTCTTCGTCTGTAAGCTGAGTAGGTAAATAATTCTTTAAAACCTTAAGTTCATATTCTTCCTTATCTACAAGATCTACTCTCCCTAATTTACTGTAATTCTCTATATTTTCTTCTAACTCTTTTATATATTTTGATAATATATTATAAAAAAATTTATCATCTACTTGCTTTGAACTATTATCAATAAGAGAATTTTTTATGTTGGCATATAACAAACGAAGGACAGAGAGCTTTTCACTATCCTTCGTTTTCATTGCAGATTTTATATCTTCTAATAAAGTATTGTACACTATTGATATTACACCGAAAAACCTTTACCATATTTACTACGAATTCTTCTCATAGCTCTATGATGTCTTGTTTTCCTTTTTTTAAATTCTCTTCTAATAGCAGTTCTTTCAACTGAAGGTTTTTTATAATAAGTACGATCTTTTATCTCATCTAGTACTCCATTACTTATCAATTCACGCATAAATCTCCTCCATGCAGATTCAAAAACTTCATTATCTCTTACTATTATAGCCATATATATTTCACCTCCTAATTCAACTTATCATTTACATCATCTCCACTAAGAAAATGAAAATGTAAGTGTTTTACTAATTGTAATTTATCTCCATTATTAATAACTATCTTAAAATTTAATACTTTAAGACTTGTTTTTAATATATTAATAATATCAATATATTTATTCCATAAGTATTTATTTTCTTCTATACCTATTTCTGACAAATTTTTAATATGTTTTTTAGGTACTATTAATTTATGTATTTTAGATGAAGGATTAATATCATCAAAAACTAAAAAATCCTCATCTTCATAAATAATCTGTGCAGGTATATCTCTATTTATAATACTACAAAATACACAGTTAGAATTCATAAATAATAAAAATAAATAACATAAAAGTATAACATAAAAAAAAATAATCAACAAATTAGATTATTTTAAAATTTATTAAATCATTAAATGTAACAAAGATCATTAATATAATAAAAAATATTACACCAGCCATAGAAATATAGTACATCCATTTTTCATTAATTTTAATAGAAAAAAATCCTTCTAAAATAGATAATAAAACATAGAATCCATCCAAAGGAGGTATAGGTAATAAATTCATAAATGCTAAAGATAGAGATATTATTCCAAATATAAATAATAATCCTGTAAATCCATCATTTTGAAATAAAATATTAGTATACATATATATACCAATAGGACCTGCTATTTGAGTAGTTATTATTTTAGAATTTTTTTGAACAATAGATTGATTAATAAGATAACCAAATCCTTGAAAAGTTAATTGAAGAACATCATATGGAAATGCTATTACTGAAAATATTTTACTCTGAACAGAAGTAAATTCTATATGAGAAATAGATTGAATAGATATACCTATAGATCCTGAGTTTTTTGGGAAATTTTTTCTTGCCAGAAATTTAGCTCTGGAAACCTTTCCTAAGTCTATACCATATAAATTAATATTTTTGACATAACTATAATTAAAGTAAAGATACTTTCCCTTATTCTGATCTACAATTTTTTGTATTTGAGATATAGAATGAATAGGAACATTATTTATACTTTTTATTAAATATAATCCATTAATATTATCTTTTGATAAAGTTGAAGTTTTATCACTATTTATTCTTGAAAATAGAATATTATTTACATTTTGGCCAAAAGTAAATTTAAAGTTAGGTATAATATTTGAATAATAGAATTTGAAATTTATAGAAAAAAGAAATATAAATAAAAATATTAAAGCTAAAATTAAATTCATGAAAACACCAGCAATTGTTATCATAAATTTCGATAAAGCTGTAGCTGCTGAGAGCGATCCTTTTATTTTATTACCAGGATCATCATCTCCAAATAAACTTACATATCCTCCAAAGGGCAATAAATTAATTCTATATTCAATATTATTGTGATTAAAAGAATATAATTTCGGACCAAATCCTAAAGCAAAGCTATTAACTATTACTCCTCGTTTAATAGCCACAATCATATGACCCAATTCATGAACTACTATAAGTAAACTTAATAGTATAATAAATATTATTAATGTGATTATATAACTCATATATTAAACTTTTAGTAAATCTTCCCTCTTTTCGTCATGAATATCTTGCAATTCTTTTGTTTTTTCTTTAATTATTGAATCTACCATTTCTTCATCTCGTTTAAAATCATCTTCCCTTATTTCTGAATTATCAAAATCTTTTTTTATTTTATTTAGATATTCTTTACGTAAATTTCTCATAGAGATCTTACTTTCTTCCATTTTTAAATTTAAAATTTTAATAAAATCCTTTCTTCTTTCTTCACTTAAAGGTGGTATAGGTAGTTTTATTTCATTAACAGATTTTATAGGATTAATACCTATATTAAGATTTGTAATAGCATTACATATCGGATCTATATTAGAACTATCCCAAGGTTGTATTAAAATTAAATTAACATCTGGAACTGTAATAGTTGCTATCTGAGATATAGGCATATTAGAACCATATACATTCACTTTTATATCTTCAACTATTCCAATATTTGCAGAACTCGACCTCAAAGATTTAATTTCTTGTTTAAAAAACTCTATATTCTTTGAGATTTTAGATTTAAATTCATCTATTGTCATGAATTTCCAAGTTCTAATCTAACAAAATTTTCAACTTTAATATTTTCTCCTGTTTGAGAAGCAATTTCATTTATAACATCAGATACTTTTAAGGCTCCGTCTTTATAAAAAGATTGTTCGAGTAAACAAATTTCTTCGAAAACTTTTTCTAATTTACCTTCTAATATTTTATCTTGAACATCTTTATTTTTACCTGAGAACATTTTATCTTCCAAAATTATAGCTTTTTCTTTTTCTATAACATCTTCTGGAACATCTTCTCTTGAAACATATAGAGGATTTGAAGTTATAACTTGAACAGCCAAAGAATGTGCCAAATCTTTAAATAAATCTGTTCTAGCAACAAAATCTGTTTCACATTTTAAAACCAGTAGAGAAGCAAGTCTTCCATTATGATGAACATAACTTCCAATCCAACCTTCTGAAACTTCTCTAGAATTTCTAGAAATTGTTTTTAAAGCTCCATTCTTTCTTAAAATTTTAACAGCTTCTTCTATATTCCCTTTTGCTTCAACCAAAGCCTTCTTACAATCAGAAACTCCAGCATTTGTCATTTCTCTTAATTGTTTAATTAAATCTACACTTATATTCATAATTATTTAGAATTTAAAATATTATCTGTAATATAACTTAATATTAATTCTACAGATTTAATACCATCATCATTACCTGGAATAGGGTACTCTACGTCATCTGGATCAACATTAGTATCAACAATAGCAACAACAGGTATTCCTAATTTTTTTGCTTCTTTTAGAGCAACTTGCTCTGTTTTTACATCTACAATAAATATTGCGTCTATTTTCTTAGATATTTTTCTTATTCCACCATATAATCGTAATAATCTTTCTCTATCTTCAGAAATTTTCAATAATTCTAACTTAGTCCTTTTAGATCTTGCATCTTCTGAGTTTAGAATTGAGTCATATTCATCCAATTTTCTCAAACTTAAACTTACTGTTTTAAAATTAGTTAATAAACCTCCTGGCCATCTTTCTGTAACATAAAAGGAATTCAATTTTTCAGCATTTTCTTTTACAATATCTTGTATTTGTTTTTTAGTCCCCACAAATAATATATTTTTAGGATTTACTGTCTTAAGAAATTTTAAAGCTAACTCTAAATACTCTAAAGTCATATCTAAATTTATTATATGAGAATTATTTATTGAAGTATAAATATATTTTTTCATTTTTGGATTCCATCTTTTTGTTTGATGTCCAAAATGAACTCCTGCTTTTAATAAATTTTCAACTGTTATTTCTTTCATAAAATTACTCCTTTTTACACCTAATCAACAAGCCTTATAAGTAAGGAAAGAGAAATATTGATTATGTAATACTAAAATTATATATGCTTATTCTAACATGTTATATGTTATAAAACAAATTTAAATTAGGATAAATCATCTAATTTATTTGTAGTAAATTTACATTTAGGATAATTACTACAACCATAAAATATTTGACCTCTTTTATTTCTAATTTCCACCAAATTACCTTCTCCACAATCTGGACACTTAATTTCTAAAACTTTTTTTGGGTTATTCTTTAAAGATCTAGTATATTTACAGTCAGGGTAATTACTGCATGCATAAAAATCTCCAAATCTTCCTTTTTTCAAGATAAGATTTCCTCCACAATCTGGACATTTTTCTTCTATATTAACTATATCTTTATCTTCATCGGATAAAATAGCTTTCATTCCTTTACATTCAGGATATCTAGAACAACTCAAAAATTTACCATATTTACCTAATTTATAGAACATGGGAGCCCCGCAATCTGGACATTTTTCTTCAGATTCACCCAAATTTGTAATATCATTTTTGTTAATTTTATCTTTATTACTCTCAATTTCTTTCTCAAAAGGAAAATAAAAATCTTTTATTACCTTTTCCCAATCTAGATTACCAGAAGCTACTTTATCCAAATCATCTTCCATTTTTGAAGTAAAATTTGCATCTACTATATTAGAAAAATATTTTTCTAAAAAATCATTAACTACTATTCCGATGTCAGTAGGAAAAAAATTTCGATCTTTCCTTATTATATACCCCCTATTAAGCAGAGTTGAAATTATAGAAGAATAAGTAGAAGGCCTTCCTATACCTATTAATTCACATTTTTTTATCAAGGAAGCATCATTATATCTAGCAGGAGGTTCAGTAAAATGTTGATCTTTATTTATTTTTACAATATTCAAAACAGCTTTTTTTATCTCATCTATAGAACTAAAAGGAAATTTAATTTCTTCAATATCTTTCTCTTTTATATTATAAACTTTCTTAAAGCCATCAAAATTTAATGACGAAAAACTAGCATATAATTCATATATATTCTCTTTATATAAAACCTCTAATATCAATTTTTTATTATCATATACAGCAGGATTCATTTGAGAAGCTACAGTACGCTCCCAAATTAATTTATATACTTTATATTGATCATTTGTTAGATATTGTTTTATTGAATCAGGGTCTCTGCTTACAACAGAAGGCCTAATTGCTTCATGAGCTTCTTGAGCTAATTTACTTTTTACTTTATATAAATTAGGTTTTGATGGAAGATATTTTTCTGAATATTTATCATTTACCAAAATTCTTATATCTGAAATAGAATCACTAGATAAAGAAACAGAATCTGTTCTCATATATGTTATTATACCCACTTGTTCATTATCAATTTTAACTCCTTCATACATCTGTTGAGCTAATAACATGGTTTTTTTAGAAGAGAATCCTAATCTTAAATTTGCATCTTGTTGAAGTGTAGATGTTGTATAAGGAGGTTTGGGATATTTTTTCAAACTAGAAATTTTTATATCCTTTAATTTTAAGTCACCTTTCTCTATTTCATTCACTACATTGTCTACATCTTTTTCATTACTTAATTTGATTTTCTTGTTATTTAACTTAGATAATAAGAACTTAATAGAAATCTTATCTATATCAATGATCGAACTTATATCCCAATACTCTTCTGGAATAAAGCTCTTTATTTCATTTTCCCTTTTAACTATAAGGTTTAAAGCTACAGACTGAACTCTACCCGCCGATAAACCATATCTTATTTTTTCCCATATCAAAGGAGAAAGTTTATAACCTACAATTCTATCTAGAATTCTTCTTGCTTGCTGAGATTTTATAAGATTAGAATTTAATTCTGTCGGATTATTTAAAGACTCCAATAAAGCCTTCTTTGTTATTTCATGAAAAGCTATCCTTTGTACTATTGTGTCTTTATTAAGTTTTAAATTTTCTAAAATATGCCAACCTATTGCTTCACCTTCTCTATCAGGATCTGTTGCAATATAAAGATTACTTACATCTTTTGCTTTTTTCTGTATTTCTTTTAATAATTTAACTTTATCCTTTAAAATCTGGTATTCAGGAGAAAAATGATTTTCAATATCTACTCCAAATTTACTCTTTGGTAAATCTTCTATATGTCCCTTAGTTGCTATTACATCATAGCTTGAATCCAAAAATTTAGATAAAGTATTTGCTTTAGTTGGAGATTCTACTATTATTAAATTCTTCGCCATAATAACTATTTTTAAATTAATAAGTCTTAAAATACCAGTTCATAAAATTTTTTACAACCTCAGCGGAGTAAGTACTCAATCCTCCATTCTCCTCAAATACTACCATAGCTATCTGAGGTTTATTATATGGAGCAAATGAAGACATCCATGAATGAGCTTGAGTATATCTATTATTTTGATTTCCAACACTTTCTACTCCAAATTGAGCTGTTCCACTTTTTCCTGCATTATCAGCTAATGTACTTTTTGCTGCAATATCTATACCATTTTGTACAGCTTGAAGCATTCCAGTCTTGATAACAGATAAATTAGCTTGAGAAACAAATCCCTGTCTTATTATTTTAGGACCAAAGCTTTTAACTAATTTATTATTTGAAGAATATATAGCTTTTACAATTCTTGGTTGCATTAATTTACCTCCATTAGCTATAGCACTTATCCAATTTACAACTTGAATAGGAGTAACTTCTGTATATCCTTGACCAATTGAAGCATTTAATAAATCTCCTGGATTCCAAGGTTGTTTAGTAATTAAATATTTATTTTTAGGATCTGAAATTATACCAGATAACTCTCCTGGTAATTGAATATTAGTCTTTGCACCTAATCCAAAATCTTTTTCAAACTTAACAAAATTATTTATACCAATCTTTAATGCTGATTTAAATGCAAAAACATTAATCGAAAATTGTAAACATTTAACAATATCTGCAACACCCCAATTTATTTTTGCATAATTTTGAAATGTAGTACCATCATAAACAAATGTACCAGGTACAGAAAATTGAGTAGTAGGTGTAATAGCTTTAACTTGTAATCCAGCTAAAAGTAAAATTGTTTTCATAATTGAACCCACAGGCTGTTCTTCTGTAATAGCTCTATTTAAGAGTGGGTCTTCAGGATTATTTATCAACTTACTATAATTAGCACTGCTTATTCCTCCTGCTTCGAAATTATTATTATTAAAAGTAGGATAACTTACCATAGCTAATATACCCCCTGTATTTACATTTTCAACAATACCTACAGCACCTGTAACATGATTTGGATTAATTTTTATATTTTGAATTATTAAACTTTGAAGTTCTTTTTGTATATTAGAATTAATAGTCAATTGAACATTATCCCCTGGCACAGGAGATATCTCTCCAAAATTTGAGACCCTATTTCCTAATGTATTTACTTGAGTAATATCTACTCCATCCTTCCCCATTAAATAATTATTGAAACTTTGTTCTATTCCATACCTCCCTATAATATCCTCAGGATTTAGATTTTTATTAGCAAGAAGTTCCTGTTCAGTAACAGGACCAGTGTAACCTATAATATGAGAAAGCAAATTATTATACCTATATTTTATATAATAAGATTGCTTTATATATAGACCTTTAGTAGACTTATTTGATGTTATTAATATATCATTTTCCTTACTTATACTATTAGCAATAAGTATACTCTGATATCCTAACTTAATTTGATTTTGAATATTTTTTTTAATCTTTTTTACAGGTATATTAAGTATTGACGACAAAAAGTATTCATCGGTTTTTATTTCTTCATTAGACAGATTTGATATATTTATATACAAATCAAAGCTAGGAACATTGAAAGATAATTGATTCATATTTCTGTCAAAAATTACTCCTCTTGTAGCTATCACCGGAATTTTTATTACTCTATTTTGCAAAGATAATTCTGAATATTTATTAAACTTAAAATATGAAAGATAAAAACTGAAAATTATAAAAGATATAAAAATAAAAATAGTAGCAAATAAATAGTATCTCGAAAAATTATTATTTTTAGATGCATCAATCTCCTCTCCAGGAAGATTATTTAGGTCTGAAATTTCATAATCAGATATTTTCATACAAATTTATAATTAAATATTAACTTTATATTCATTAACACCAGAAGACTTATTAAGTTTTTTGAAGAATATGTATACCAGTAAGGTATCTATAATTGAATATATAAGAATATACAGTAAATAATGAGATATGGCATAAAAAGACCCAAATCCGTAGAAATAAAGGTATACAAATAAATTAAACAGTAAACTCACTACAAAAAGATACATCATTATAAAATAATTGAATTTAAGCCTAAATATAGACATTAATAGTACAAGAAATAATGGAATAAAAAATATTAAACTGGTTAAACCTATTCTATTTAGAGTGTACGTATCAAAAATAATCCCATATATAAACAAATATATAAATAACAAATTTTTATTCTGACTCAAAAAAAAGATCAAACAAGAGAATATAAAAACTATATTAAAAGTAAAAAATCCAATTCTTATCAATAAGAAATTGTTATTGCTAAAAAGTAGTAATATTATTGTATATACTATATAGATTGTTGCAATTATTTTATTCATGGATAACTATAAATGCTGATTTAATACTATTTATATTAATAGCTGAGTCTACAAATACCTTTTTAAAAATATTACTATTTCCTGAACCTACACTTTCAACATACCCAACTATAAGGTCTTTAGGTAGACCATCTAAACCAGAAGTAAGCACTACATCACCTCTTGAAATACTATTCAATTCAGTAATATCATTTAATACTAGTGAATTAGAAAGGCTCCCAGTTATTATACCATTTACATTATTAACAAGGACAGGAATATTACTATTAATATTAGAAAGTAGAGATACTTTAGAATAGTAATTAGAAACAGAACTAACTACACCTATCAAATAATTCTGAAAGACTAAAGAATCTCCTTTAACAACTCCTTCATTCTTTCCTGAATTAATATATGTATATCCTAATGTATTATTTGTACCATAATACATTATTTCTGTATAAAGATATTTATAATTACTAGGTAAATATTTTCCATATAATTGTTTCTTTAAAAGAACATTTTGATTTTTTAAATTATTAATATTAATAATTTCTGATTTATATTTATAATTCTCCCTTTGTAATTTCATATTACTAGTTTCTATAGAACTTATATTGCCCAATGAAAATAAAAAATTGCTAACATTATTGGAGATTTTTGAAGTATAACTTTTTACAGGAATAAAAATTTTTCCTATATCTGCATATATAAAACTCCCTGGATTAAATATTAATATTAAAAATAGATCTATAACAATATAAATACTAATAATTTTAAAATAATATAATTGAGAATACTTCTTTTTAGATCTTAACATATTATAAATAATCCTGAGAATCAGATATATTAATTTTCTCTAACATACTTATATCATCTAACAATATAGATGTACCTATTACAACACTTTCTAATGGATTTTCTGCAACATAAAAAGGCACTTTTATTTTATCTGAGAATAATTTTTTTATTCCAGGAATTAAAGATCCTCCTCCTGTTAAACAAATTCCCTTTTCTGTTATATCTGAAATAAGCTCTGGAGGAGTTTCCTCTAAAGCTTCATATACTGAATCAATGATTATATTTAATGAATTTGATAAAGCCTCTCTAACTTCAGCCTCTGATATAAGTACTGTCTTAGGTAAACCTAAGAATATATCTCTACCTTTTATTGACACTTTTTTATTTTCTTTTCTAGGATAAGCATTACCTAAAGTAATCTTTAATTCTTCTGCAGATCTTTCACCTATTAATAAATTATATTTATTCCTAATGTAATTTATTATATCTTGAGTTAATTCATCTCCTGCAACCCTAATAGATTTATCTATTACTATACCACCCAAAGAAATAACAGCTATATCTGTTGTTCCTCCCCCTATATCTACAATAAAAGAACCCAGTGCTTCTGACACAGGAAGTCCAGCGCCAATAGCAGCTGCCATAGGTTCTTCTATCAAATAAACACTTCTAGCTCCAGCAGATATAGCTGCATCAATTACAGCTTTTCTCTCGACTTCTGTTATAGAAGAAGGTATACCTATTACTATCCTAGGTCTTGCTATTTTAAAAAATTTTGAAGAATTATCATGAACTTTTTCTATAAAATAGTGTATCATTTCTCTAGTTGCATCAAAATCTGATATTACTCCATCTTTTAAAGGTCTTATTGCTGTAATAGAAGCAGGAGTTCTACCTAACATCTTTTGAGCATCTTTCCCTACAGATAAAATTTCATTAGTTCTTGTATTTAATGCAACAACCGAAGGCTCATTAATAATGATTCCCTGATTTTTAACAAGAACTAAAGTATTAGCCGTCCCAAGGTCTATACCTATATCAAAAGTGAATATGTTCCAAAAAAAATCAGAAAATGCCATAATATATAATCGTAAAGCAACATTATTTTAACACTTAAATATAATATAGTAAAATGATATATAAAATTTTTGTAAAGACTAAATTAAAAATTAATGATCCTGTCATTTACAAAAGCAATAATAAATATAATATAGGAGATATAGTTTCTGTACCTTTTGGAAAAGAAACTACTATTGGTATTATAGTAGATAAATTAAGTACAAATGAACATAATTACAACTTTAAAATAAAAGAAATAATAGAGGATTCTAAAACAGAATATATACCCTTAAGTATCACAGAATTAAAGATATTGAAACATTTAATCACTTACTATAACGGTATGATAAGTAATTCAATAAATCCTTTTATAACAAAACGTTACCACTCAAAAAATGATGAAATAAAAGATGTAAATGATTATAATAGAGCCGTTAATATAGAAAAAAAAATTCTTACAGAAAAACAATCATTTGTAGTTAATGAATTTATTTCTGAAATTAATGTAAAGAAATATATACTCTTGGGTGTTACTGGTAGCGGAAAAACTGAGATTTACATAGATCTAATAAAGAAATATATACAGGAAAATAAACAAGTTTTGATTTTGGTTCCAGATATAACATTGACCTCTCAACTATTTTTAAAAATTAACCTTATATTTAATGAAAATATAATTTCATTAATTCATAGTAAAATTTCAAAAAAAGATAAAAACATAGAGAATAATCTGATCTATGAAAATAAAAAGAGAATTATTATAGGGGCTAGATCTGCAATTTTTTCAAGATTTAACAATTTAGGACTAATAATCATGGATGAATTCCATGACAACAGCTATAAACAAGAACAAGACCCAAGGTACGACACAATAGAAATAGCAGAATATATCTCTGATCTTTCAAAAATTAAGGTATTATTAGGTAGTGCAACACCTAGAATTGACACGTATTATAGGTATTTAAGCAATAAGAATGAATATAAAATCATAAAACTTAACGAAAAATATAAATTTAACAGAGAGACATCCTTTGAAATTATTGACTTAAAAGAAGAAAAACTTAATTACAATAAATCTATTTTCTCAAATAAACTAAAAAAATATATACAGGATATAATAGAAGAAAATGGTAAATTAATATTATATATTAACAGAAGAGGCTACTCCCCTATAACATTATGTGATCAATGCGGTTATTCTGAAGAGTGCCCAAGATGCAATATACCTTTAAATATTCATACATTAAATCCAGGTAATCATTCTTTTTATTATAAATGCCATCATTGTGATTATCAAAAAAATATAAAAGAACTGAAATGTATGTCATGTGGTAATAAGAAAATAAAATTTTATGGATTTGGCACTCAATATGTAAAAAATGAAATAGAAAAAGAATTTTCTGCCATTAAAGGTGATCTTAATATTTTTATATTGGACAAAGATTATAACAAGAACAATAAATTATCAAAAGATGAAAATATATACGATAAATTAAATAATAAAAATATAAATATTATAATAGGAACACAACTTATTATAAAAGGATGGGACATAGATAAAGTAAAACTAATTTGTTTACTCAATCCTGATCTAGAATTATCTTTTCCTGACTATAGAGGTTATGAAAATTCTTATCAAAAATTAGTACAGATATTTGGAAGAACATCTAGAAAAGGAAACTCAGGAAAAGTACTTATACAGACATATGATCCTGAAAATGATATCTTAAAAAAAGCTATTGAGAATAACTATGAATCTTTTTTTGAAGAAGAAATAAAAAACAGAAAATTATTTGGATATCCACCTTTTTCAGAAATAATAAAGATTCAAATTAAATCTAAAACAGAAAAAACACTTAACTCTAGATCAAAAGATATATATAAAAATCTAGTTAATCAAAATATAGACGGAATAAAAATATATTATCCAGTAAATTCATATCCCTATAGGAATAATTACTTATATTCTAAAAATATAATAATAAAAGTAAATAATAATTCAAGTTTAATAAAGAAAATTTTAAGGAATAATTATAACCAGGATAGATATTTGAGTATAGATGTATTACCTATACAATTAACTTGATTTACCAATGGTTTTATAGCAAGTCATACAGATCTTTATTCTTGTAGCATTACTTTCACCATTATAATAAATTTTTAATGGCCTTAAATTAGCATAAGATCTATGTTTTGTCTTTGGAGCTCTTTTTGCCCATCCACCTGATTGCTTATGGCTTATATTAGTAACCATTATTGAGCCCTTATTGCATACATCACATACTTTTGACATAATCTTGTAATATACTGAAAAAATAATTTAACTTACATATAGTATAATAAAAAGTTAAATTATGCAATTCCTTATAAAATTGATATAATAATTCAAGCCCATCAATATTGCTTAATTGATTTAACAATTTACTTTTTTATAAAACAATATAATATCTTCCATTGGATGTATTTGAGTTTTAAATATTTGATTTATGAAATCAAATTTAATATATTGATGGGTTATTAATGTTTATCTATTGCGAAATATGTATTAATTAGATAAAATCTCAGTAGCTCTTAGATAATAAATAAAGTAAAATGCCTTCTTAGCTCAGTGGTAGAGCAGCTGTTTTGTAAACAGCAGGTCGTCAGTTCAAATCTGACAGGAGGCTAATTTAGGCTTAAGCAGAGATGGCGGAGTGGACAATCGCGGCTGACTGTAAATCAGTTGCCAATAGGCTACGGAGGTTCGAATCCTTCTCTCTGCAAAGCCTAGATAGCTCAGGTGGCAGAGCATTCCCATGGTAAGGGAAAGGTCAGCGGTTCAAATCCGCTTCTAGGCTATCTTAAAATATAATTTTATATATAATAATATTAAGAATATGGCAAAAAAAGAAAATAGAAGATATATTAACTTAGAATGTAGTGTATGTAAAAATAAAAACTATACTACTGAAAAAAACTTTATAAATAGTACAGAAAAAATAGAAATTAATAAATTCTGTAATACTTGTAAAAAGCATACTTCTCACAAGGAGGTAAAATAAAAGGTTCATAGTTTAAGGGTAAAACATTGGTCTCCAAAACCAATAATGAGGGTTCGAGTCCCCCTGAACCTGATTCATATTATAGATTGTTGATATAATATGAAATATTTGTTATCATCCTTTATATAATCATTCATGAACTTATTTAAATTTTTAAAAGACGTATTTGTTGAGTTGAAGAATACTAAGTGGTATATTGGTAGAGAGTTATATAATTCTACCCTTGTTGTAATAACAATATCTTTAGTTATAAGTTTGATATTGTTTGGTATTGATATAATATTTCAAAAAATATTATTGTTATTTATATAGTAATGGAAAAGAAAAAAGATAATAATAAATATAATTTTAAATGGTATGCAGTAAATGTGTTTACTGGTCATGAAAATAAAGTTTCTATAATAATTAAACAGAGAGCTGATACAGCTAATTTATCTAAATATATAGAAGATATTGTTATCCCAACTCAAAATAAAACAGTCATATCTGATGGTAAAAAGAGACAAGTAAAAGATAAGATTCTTCCTGGATATGTTTTAATAAAAATGGAATTAAATAAAGATACTTGGCCTATTGTAAGAGATACTCAAGGAGTTACAGGTTTTGTTGGACCAGGTAATAAACCATCTCCCCTTATAGAACAAGAAGTTAATGCTATATTGAAATTCATGGAATTGGATACTCCAGCAGTACAAACTACATTTAATGTAGATGATGCTATTGTCGTTACAGATGGAGCTTTTAAAGATTTCAATGGTAAGGTTAGTGAAGTTAATGAAGAAAAAGGAAAAGTAAAGGTTCTAATTTCAATATTTGGAAGAGAAACTCCAGTAGAATTAGACTTAATGCAAATAAAATTAATATAATATATTTTTATGAATAATAAAAAAGTAACAGCACAAGTAAAATTACAAATTAAAGCAGGAAAAGCTTCACCTACTCCACCTATAGGACCAGCACTTGGTCAACATGGAGTTAATATTATGGATTTTTGCAATCAATTCAATAATATAACAAAAGATAAAGGAGATCTTATATTTCCTGTAATAATAGATATATATGCTGATAGAACTTTTAAATTTATAATAAAAACCCCTCCTGCAGCAATATTGATAAAAAAAGCACTAAACTTAGAAAAAGGTTCTAAAGACAGTTTAAAAGAAAAAGTAGGTGAATTAAATCAAAACCAATTAGAAGAAATTGCAAAAACAAAAATGGCAGATCTAAATACAAATGATATAGATCAAGCAAAGAAAATTATAGCAGGAACTGCTATAAATATGGGAATAACTATAAAAGAATAGACATTAAATCATTATGAAAAAAAGAAGTAAAAAATATATAACAAAATTAAAAGAAAATACAATAAATAATGTATTTAATATTGATATCTTTGATACAGTAAAAAATCTTTCTATATCTAACTTCAAAGGAAGTATTGAAGTTCATATATCTACATTATCTAGTAAAAAGGATAATAAACAGATTATTAGAGGTAGTGTTTTTTATAAAAATAAGGTTGGAAAAGATAAAAAAATATTATTATTAACTGACAGAAAAGATCTTAGCGAAAAATTAAAAAAAGAATTTGATTACATAGGATTAGATGAATATATAGAAAAAATTCAATCAGGATGGACTGATTTTGACCTAGTTATAGCAACTCCAAATGTAATGCCTAAAATAGCTATTTTAGGAAAAATATTAGGACCAAAATCTCTGATGCCAAACCCTAAACTTGGTACAGTTACAGAAGATTTAGAAGGCACTGTTGAAAAATATAAAAGTGGTAAATATGACTATAAATCAGATCAAACTGGCACAATTCATACTATTATAGGAAATATAGACAATACAAAAGAAGAATTGTATGATAATTTTATTGAAATAATAAAATCGATAATTAATATAACAGGGAAACCTTCTCAATCAGTTTTTAAAACTATCTATATATGTCCTACAATGGGTGCATCTCTAAAACTAAATATAGAAGATATTATCAAAGTTATATAGTACCTATTATATTTTATATATTAAAAAATTACTTAACATGAAAGAAACATTCTCACTACAAAGTTTAGATTCTAAAAGTATAGCGGACTTAAGAATAATAGCTGAAAAACAAAAAATTGATAATTATCAAGAACTAAATAAAAAAGATTTGATTTTTAGTATTTTAAAGTCTATTGATAAGGATGAAGCTGATATAAGTATAGAAGGAATTCTTGAAATAATAAATGACGGAATACACGGAATTCTCAGATCATATACTCTACTACCTGGAGAAAATGATGTTTATGTTTCAGGTTCTCAAATAAAGAAATTTAATTTAAAACAAGGTGATTATGTAAAAGGTAAAGCAAGATTACCAAAAGATAATGAAAGGTACTTAAGTGTTTTAAAAATAGAATCTATTAATGATAGAGACCCAAATGAAGCTGCAAAAAGAACTCCTTTTGAAAGATTAACTCCTATTTTTCCAAATGAACAAATAATTTTAGAAATTGATCAATTTCGACTTTCTAACAGAATTATAGACTTATTGGCGCCTATCGGCAAAGGGCAAAGAGGTATGATAGTCTCACCTCCTAAGTCTGGTAAAACAACATTATTGAAAGATATAGCCGATGGAGTCACTAGAAATGACAAAAATATACATTTAATGATTTTACTTATAGGTGAAAGACCTGAAGAGGTTACAGATATAAGGAAATCCACCTCCGCAGAAGTTTTTGCCTCTAATTTTGATGAGCAACCTGACAATCAAATAAAAGTAGCAGAAATAGCACTTGATCGTGCAAAGAGACTTGTTGAAGAAGGAAAGGATGTAATAATATTAATGGATAGTTTAACAAGACTAGCTAGAGCATATAATATAACAGTACCTCCGTCAGGAAGAACTTTATCAGGAGGTTTTGACCCAATTGCTCTATACCCTCCTAAGAAATTCTTTGGATCAGCTAGAAATTTAGAAGAGTATGGAAGTTTAACTATAATAGCTACGGCATTGGTTGATACAGGAAGTAGAATGGATGATTTAGTTTTTGAAGAATTCAAAGGAACAGGAAATATGGAACTTCACTTAGATAGAAAACTTTCTGAAAGAAGAGTGTATCCAGCAATAGATGTTATAAAATCAGGTACTAGACACGAAGAACAACTTTTATCATCTGAAGTTCTTAGTCAATCTTGGTTAATCAGAAGAATGTTAGATACATTAAAATCTACAGAAAGTAGTCAATTATTGATAGATAGATTAAAGAAAACAAAGAATAACTCAGAATTCCTTTCTACACTACATGAAAATATAAATTAATCTATATATTATTTTAATTTACTACTCCATCCCATGAAATCTTGGTCAGAAGTCTTATAATTACATATTTCTGAATCAGAAAACCAGAGATTTACTTCGTATTTAGAATCTTCTATAGAACTTGAAGCATGTATTAAATTGTACATAGGTCTTTTCTGTTTACTAGAAATATCTCTATTATCCCAAGTATAATCACCTCTAATAGTACCCATAGGTGATTCCAATGGACTAGTAGATCCAACCATCTTTCTAACTAAATCAATAGCTTCTGGACCTTCTAAAACGATAGCTATTACAGGACCTGCAATTAAAAACTCATTATTCCATTCTTTTATTTTCATACCAATATCTTTAGCATTGTTTGTCCCAAAATCTTCTATTATATTTTTTGTGTCTGATTTACTATAATCTTCTAAGATCCTATTCCCTATATTGATACACCATTCTTCTGAAGCTAAATAATGTTTATCTGCTAATTCTTTACTAGGAAGAACCATTTTTAAAGCAACTATTTTCAACCCGATTCTTTCAAATCGAGATAATATTTCTCCTACCAACCCTCTTGATACCCCATCATGCTTAATTAATACTAAAGTTTTTTGATATACGTCATTCATAATAATAATTTCATAAATTTAACATAATCTGAATTTTACTATATAATTGTATTTTATTCAAAGGTGTCTCTGTAGCTCAGTTGGATAGAGTGTCTCGGTCCTAACGAGAAGGTCATAGGTTCGAATCCTATCAGAGACATATTTTATAGTGAAAAAGGTAATATATTAGTATTCTGTATTAAAGTAATAAAGTATAAATAATATTGATCTTTTAGGTAAGGATAATTGAAAAACAGATAATTCCCTCCATTAGATATAAAATATGTTCCATTACTGTTACTAGTTAATAAATGATTAGTTTTAGAACCTATAGATCTTTGGTATACAGAAAATGTATTATTTTTATTCTTTAATTGAAAAAAGATATAACTACCTAATACATACTGCTGAAGTCCATATAATCTGGAATAATTATCAAGAATCTTTATCTCTGATAAATCATTCACATAAAACCCATATAGTACGTTATTCTTAACAGCCAAAACATAGTCACTTTCTCCCTCAAAATTAACAAGAGAATATCCATTAGCAAACTTAACAGGGGCTGACATAGAAGCTTGTTTTATTTGTATTAAATAGTTTTCTCCTAAATTATTAGAAACTGCAATATAACTAGAGTAATTATTTAAAAATATTTTTACAACATTTCCTTTTATAGAACTAATTACTCTTCTGCTACTTCCATCTAAATTTGAAATGAAAATAGAAGTTTCATTTGTAATAGAATTGTACTTATAAAAAATTATCTGATTATAGTTGAGAATTTCATAAGAATAATAAGAACTAGAGGATGGTAATCCTGTTGATAATAAATAAGTCTGCCCTGTTAATATATTAAAGCTTACAAGCATTGAATTCTCTTCAAATATTATATAATAAGATTCTATACTTATATCACTCAGATTATTAAAGTACGTTAACTTATATAAATTAATCATCTTATTACTTACAATGTCATATAGATAATTTTCATTATTATATTGAATAATTGCATAATTAAGAGTATTACTTATTACAACATTAATACTACCTTTTCCATTAAATTTAATTAGACTAGTAAGATTAGCAATATAACTTAACTGAAAAGTTCCTTGTTGAGAAGCAGTGTCAATATAATACAATTTATAGATATTATTAATATCATTTATCACATATATATAGTTACTGCTATTGCTATATATAACCTTATATATATTAGCATTTGTTACAGCAGGATTCTCTTGAGCATTATTTGGTATCAGAAATGCGTCCACATTAGTTATATCTCCCGTCTTAACAGTAACCATACTGCTCCAATTCGTATAATTACTTAAAGAGAGACTCACCTTGTAGGTACCAGGACTCAAGGAGTTTATAATTAAAGGGGATGTTCCTAGATACTTACCTTTTAAATATATCTTGGCATTTTGAGGAGTCGAATTAACCCTAATTATCCCACTACTTGTAAGGGTAAAATTTTTAAAATTAAATTGATAACCTCTAGCATATAAAATTATTATAAAGGTTATAACCAATATTAATAGGATTATTAATATTGAAAAGACTTTAGAATATAATTTCTTCAGATTGAACTTTGATTTAACCATTAAAATAATTTTTATAATTAGTTAGTATATGATAGAATTATATCATAAAAATTAATATATATTGTATTATAAAATGTTTAACACAAATAAATTCGGACTGGATTTTGGCACATCAAATTCCCTAATATCATCTCTAAATAAAGGAATAATATTGAACGAACCTTCTGTAATAGCAATATCAATAGAAGATAAAACAATAATAGCTATTGGACACGAAGCTAAAGAAATGTTAGGAAGGACTCCTGAAGGTATTATATCGAGAAAACCTTTAATAGGAGGAGCTATTTCCAATTATAAAATATCTGAGTTAATGATAAAATATTTTTTTTCTAAAGTGTCTAAAACAAGATTTTTAACAGGATCTCAAGTTATTGCAAGTATATCTTCAGGGTTAACATCCGTAGAAAAAAGAGCAATATATGAATCTATACTAAATTCCGGAGCAAAAAAAATATACCTTATGCCTGAAGCATTATTAACTGCAATAGGTGCAAATCTTCCTATTGGAACATCTTCTGGGAATATGGTTATCAATATAGGTGGTGGAACTGCTGAATTTGCAGTAATATCTCTTAATGGAATAGTTGTATCCGATTCTATTAGAGTTGGTGGAGAATATATAAATGAATCTATTATAAATTTTTTAAAGAAAAACAGAGGTGTTTTAATTGGAGATCAAATGGCAGAAAAAATTAAACTTGAGATTGGATCGGCACTACCTCTGACTTCCCCATTATCTATGAATATAAAAGGAAGAGATGTAATAACAGGAATGCCTAAATCTATAAGTATAGATAGCAATATGATTGTAGATGCAATAAAAAATCCCTTAAATTTAATAATACAGACTTCAAGGCATGTATTGGAAAAAACTCCTCCAGAATTATCTTCAGATATAATGGATAGAGGCATTCTAATAAGCGGAGGTACTTCTTTACTAAGAAACATAGATACTTTAATATCAAGGGCTATTGGCATACCAGTATATATAAGTGATAATCCTATGGATACAGTTGCGTATGGTGCATCAGAGGCTCTAAAGTTCATAGATACACTACAAAAAAATATAAAGAATTTTTAATGATACAGATATGTTTTTTATAATAATAATAATTATTTATTTAATAGTAGGATTAATTAGCATTAATTACCCTAAGGTAATACTACCTATTTCTATAATACTTATGCCTTTGGAAAGATTCAATCTCTATATTGGATTTACATTAGAACCTTTACTTTTATATATTCCAATAATAGTACTCTCTTTATATATTAATAAAGATATATTTCAATTATTTAAAAAAAGAGTTTTATCAAAAAAAGATAATTTACTTTATATAACATTAATTATTATCATATTAAGTATTTTCTTATCAGACATTTTTTCTATAAATAAGTTTCTATCTTTAAAATCTACTCCTTATGTAATATTAAGTTTCTTTATATTTTTATATGCATATATGTATATACTATATTACAAAAATAAAATCCAAATTATTAATACTTTTATAGTTTCAACTTTTATAGTTTCCATATATGGAATATTACAATTCTTTGGTTTCTTATTTTTCAAAATAGACTCTTTCCATATATCAAAAATATTACATTCTTCGACTATTAACCCAACAGCATTTACGTTATATATTCATCATATTCTTCTACTGAGACCTAATTCTACATTTACAGATGTAAATACTGCTTCAGGTTTTATATTACTAATAATACCCCTAATAATAAGTTATTATCTTGTAATAAAAGATAAAACAAAGATCATTGGCACTCTATACAATTACATGCTCCCTTTCATAATATTTTACTTTATCACTACATTTTCTAAGAGTTCGATTATAGGACTCTTATTTTCTGTAGCATATATTGTTTATGTATTTAAAATATATAATAAAAAGAAATTTATATATACACTTATTACTTCTATTTTAATATTATTATTAATAGAAATTAAATATAATTTTTTATATTATTTATATATAAAAGAAAAATTTACTTATATAGAACATTTTATATTAACAAAATATAGCTTTATAATATTTACAAAACATATTCTATTTGGAACAGGAATAGGTACTTTTACTTATTATTTTGGAACTTATATAAAACCTTACATCCACTATTATTATAACAATATAGATACACCTCCTTTATTCTTATTATGGTTATCTGAGATTGGGTTGATAGGTTTTTTATCTTATATTTCTTTTTTATCTGTATTTTTAAGGAAAGTTTTATTATATATAAAAAAAGAAAAAGATGTAGTTGTTATATCTCTATTGGCAGGATTCATTGGTATTATTATTGCGAACTTATTTCATTCATACTTTACATTACTATTTGTATGGGAATTTATGGGAATAACTTTAGCTATATCTACAATATAAAGAAAGGGATTCTTAAAAATCCCCTTTCTTTATAATTGATTTACTAAAAACGCTTATTACTTTAAAGTTATTTTAGCACCAGCATCTTCAAATAATTTCTTTATTTTTTCAGCTTCTTCTTTATTAACAGACTCCTTTATTGTTTTTGGAGTAGATTCTGTCAAATCTTTTGCTTCTTTTAATCCTAATTCAGGACTTACGACTCTTAAAGCTTTAATAACTTCAATTTTTTTATCTCCAGCACTTTCTAATACGACTTCAAACACATCTTTCTCTTCAGTAGCTTCTTCTGTTTCACCACTTGCAACAGACTGATTATTTGCAGCAACAAATTGCATTTGATTATTAGCTTTTACATCGAATTTTTCTTCTAAAAGTTTTACCAATTCTGAAACTTCTACTATATTTAACTTCTCTATCTCAGAAACAATAGAACTTAATTTTTTATCATTGTCTTTCATTTGTTAATTCACCCCCTTTTATTTTCAATTAAATCTAAAGTATTAACTAATAAATTAGTATTATAATTTAATGAATGAACCACATTATTAATTCCATCCTTAAGTATATATATCATATTAAGTACTAATACTTCCTTTGATTTAATATTACTTAGTTTAACAACATCATCAACTAACAATTTTTGCTTATCTAAAATAGCAAAATTTACATTAACACTATTGTCTTCACAAAATTTAATTATTAATTTTGCTAAAAGATTACTATCTTTATGAGCAAAAATAACTGCGTTATATCCTGATATAGAATCTATAACATCATCTGTAAACTTTAATTCTTTAAGAGATTTTTTAAATAGAGTATTTTTTATCAGTTTATATTTTGCACCTTCAAACTCACTTAATGAATTTCTTAAGTTATCAATAGTTATAACATTTAAACCATTAGTATTTATAAAAAATATACATTCAGAATTAGATATTTCTATATCATATAATTTTAATAAATCTTGCTTTCTTTGTTTATTTATTGCCATAGATTTTGTAGTTTCTGTAGGATGAACTTTTAATCCAGATTGGATCCTACTGTCTTTAACTAAAAAGTGTACGAACTATATTCTATACAAAAATATAGAATTAGTCAAACACAAAAAAAAGGGATCGGTACTGCCCCCCACCGATCCCAATAATAAATTAAAAAAAAAATTAACTTATTATTATAAACTCACATCCATGGGACCAGCAAAGCTTCTTTTACTAACCAGACCCAGGGATGTAAGTTTATTTTATTAATTTTTTTAAGAACATTTATATTCTAACCTATAAAGTTATTTATGTCAACCCCATAGATATTTATCTCTCAAAATGCATTCAAAAACATTGATTTAAAGGCTTTAATTAAAAATTGTGGATAAGTTTAACACAATTGTATTAGTGTGGATAAGTTGTTTAAAGAATACTAATATTGACCTTTGAGTCTTTATCTATATCTAATATTAATTTCTTTGAAGAGTTTTCAACTATAGAGAAGTTTGAGTTTTCTATAAAGAATGACGATAGACTTGTTTCTGTATATTTAGTAAAGATTCTCCTTAATTGCCTAGCTCCAAATTCTTCGCTGAATCCTTTTTCTGATATAAATTTTAAGAAGTTATCAGAAAACTCTATCTCTATATTAATTTTATTTAATTTTTCTATATATTTCTTAGCTATTTTCTTCACTATTTTAAGCGCATCGGTCCTATTAAGAGACTTAAATACAACTATGTCATCAATTCTATTTAAAAATTCGGGTAAAAGATAATCTTTAAGTTTTATTAAAGTATCATCCTCTATAGAATCATATTCACTCTCTATTTCTTTATCAGTAGCAGAAGAAATATCATTACTAACATTAAATCCAAGCAAAGAATTGTTCTCAATAATATCTGAGCCTATGTTAGAAGTCATTACTATTATAGTATTCTTAAAATTGATAAATCGACCTCTACTATCAGTTAAATGACCTTCTTCCATCATTTGCAATAATATATTTAAAACTTCTGGATGAGCTTTTTCTATTTCATCAAAAAGAACTACTGAATAAGGTTTATTTTTAACTTTTTCAGTGAGTTGCCCTCCATCTTGATATCCAACATATCCAGGGGGAGAACCTATAAACTTAGATACACTGTGGGCTTCCATGTATTCACTCATATCTATTTGAACAAGAGATTTTGAGCTTCCCATATATTTCAATGCTATTTGTTTTGCTAATTCAGTCTTACCTACTCCTGTAGGGCCTACAAACAAGAATATGCCTAAGGGTCTAGTCTCATCTCTAAATCCTACTCTAGCGCTTCTTAAAACACTTACCACTCTCTCTACTGCATTATCCTGACCTATTATTTCTTTCTTTATTTTTAAATCTATATTTTTTACAGATTTTAAATTTGAATTAGTTATATTATATACAGGGATTCCTGTCCATTTTGATACAACATCTACAATATCTTCTTTAAAAACTTTTTTACTGTTTGATTTAATTTCATTATTTAAAGTACTAATCTTCATTTTCAAGTCATTCTCTTTTTCTTGATAATACAAAGATTGCATGTACCTTCTATTTTCCAAATAACTTTCTTTCTTAATAGACACTTTATCTAAACTACTTTTTATATTCCTAAGTTTATTTGCCGTCTTATTTTCTTCTAAATTTTTTGTAGTTGCAGATTCTTCTAGCAGATCAATTGCCTTATCCGGAAGAAATCTATCTACTATAAAACGATCTGAAAGATTAACGGCTTCATTTATTGATTCATCGGTTATCACTACATTATGAAATTTCTCTATATTTGACTTTATATTACGAATAGCTTTAACTGAATCTTCTTTTGATAATTCATCCACTTTAACTGGTAAGAATCTGCGATTTAGAGCAGTGTCATTCTCAAAAAACCTTTGATATTCATATAAAGTTGTAGCACCTATACATCTTAAATATTCACTTGTAAGATGGGGTTTTAACATGTTAGCTATATCATTATTACTACCATTGTTTCCTAGATTAAAAATCATATGTATTTCATCTATAAATAGAATAACATTTTTCCTTGATTTAATCTCTTCCATGATATTATTAATCTTCGACTCTAATTCACCTCTCATTTCAGTTGACATCATTAACTTAGCTAAATCTAAATTCCATATTTCAAAATCTTGAATATTCTCAGGGACATCTTTCTTATATATTTTATATGCCAAATATTCTACCAAAGATGTCTTTCCTACCCCAGCTTCTCCAATTAAAATAGGATTATTTTTATTTCTTCTCGATAAGATATGGATCATTCTATTTAACTCTTCACTTCTACCTACAATCTCAATGTTTTTATTCTTAGAAGCATTTTCAACCATATTCTGAGCCATAAAAGACAGAGTTGATCTATTTAGATAATCTATGTTCATTGAAGAATCTAGAGTTGCATTATTATGGAAAAATACTCCAGGAGGATAATTACCATATGAATATATGAGATTTTGAAAATATTCAAAATCTAAACCAAAATTTTGTAATTCTTTAACAAAAGAATTATTTACTAACTGAAGTATTCCTAACATTAAATGTTCTGTACCAACGTAGACATGCCCCATTTTACGAGAAACATAGAACGCGTTTACAAGTGCTTTCTTGAAATCTTCAGAGACCGTTATTTCTACATTATTCTTTTTATTTTCTTCAAATATTATTTCATCAAAAGATATAGATGCATTAAAATTTACACTTTCAAGCGCTTTAAATACAAAACCTTCTTTTTGATTAATTATACCTAAAAATAAATGTTTTACATCTAAAACAGAATTATTATTATTAGCATATTCATATGCTAAATTAATAGCACTAATAGCATTTTTTGAAAATTTATCTATACTTGAATCTAAATCCATAATATATATTATATCATATACTTAAAATATGAAATCTTTATATTATATTGAAGCTTTTTTTAAACTAAGACCTAAATGTCTTTCTACTGGGGAAATTGAGAGTACTTTCAATTCTAACTCTTGACCAATTGATATTATTTTAGATACATCATCAATAGGTTCATCAGATAATTCAGATATGTGAATTAAACCATTCACACCTTCTGCTATTCTTACAAATACACCATAATCTACAATTTTTTGAACAGTACCTTTTACTATTTGACCTACTTTATAGTTAGATATTATTGAATCCCATGTATCTTGTTGTAATCTCTTTATTGAGTATGCAACTCTCTTTCCATCATCACCCATACTTATCAATTGCACTTTTACTTCATCTCCTATTTTATAAAAATCACTTGGATTAGCAACTTTATCCCAAGAAATTTCAGATAAATGAACTAATCCCTCTAACCCTTGTGCTGTGACAAATAGTCCATAAGGAGTAACACTTGTGACTACTCCTTCTAATATATCATTTACTTTTATGTTTTTTATAGTTTCATTTCTTAATAAAACATCATCATTACTAGAAACTAATTTTTCAGAAAGTATAATTCTATCTTTAGTTTTATCTAATTCTATTACTTTAACTAATAGTTTTTGACCTATTAATTTATTTAAACTTTCTGAAATATTATTTTCTACAGCATTATCCTTGTATATTCTTGCAAAGTCTAATTGAGAAATTGGAACAAAACCTGACAATGAACCCTCTATATCTACTAGTAAACCTCCATTATTATAATCCATCACAGTTACTTCTATTACCTCTCCATTTTTCCAAGAGTTCTCTAATACACTCCATTTCCTAATATCTTCTGTTCTTCTTAGGGATAATTCTATTTGACCTTTATCGTTCTCAGGATTCAATACAAAAAGGGTTAGATCATCACCTATTTTCATATCTTTTAATAAAAATCCAGGACTTCTTAATTCTGATCCAGAGATTAAACCTTCAGATTTATGCTTTAGATCAACTAAAACAACACCCTTCATTATCTTAACAACTTCACCCTGTACTATATCACCTCTTTTGAGATATTTTATAGAAACAGAGCTATCTTTTATCAGATCTGAAAATTTATTTATTGTTTCTTTTTTTGTTACAACCATATATAAAAAAAATCTTGGCAATGACCTATCTTCCCTTACAGTATTTTCGGAGCTAAAGCGTTTTACGACTCTGTTCGGAATGGAAGAGGTAGTTCCACTTTGCTACAATCACCAAGAATTTAAAAGTATTTTAACAGAAATTTCTCAAAAAGAGAATACTCCTTTAAAAGTGAATAGAAAGTCTTGTATTTAATATTAATTACCCTATAAGGCTTCGACCTATTAGTACTCCTTGACTAAATACATCACTGCACTTACATCTAGAGCCTATCACAGTATACAAGAAAATATTAAATTGCTTTAATACCTCAACATATACATAAACCTCATATTCTATAAGGGGTCTGATAAGGATTTCTAATCTTGAGGTTAGCTTCATGCTTATATGCTTTCAGCATTTATCTAACAGTAACTTAGCTACTCAGCGGTGCCCTTGGTAGGACAACTGATACACAAGAGGTTACCTCACTCCGGTCCTCTCGTACTAGGAGCAAATTTTCTCAAAAATCCAACGCCCACACAGGATAGAGTCCAACCTGGCTCACGCCGGTTTAAACCCAGCTCGCGTGCCACTATTAATAGGCGAACAGCCTAACCCTTGGGACCTTCTACAGCCCCAGGATGTGACGAGCCGACATCGAGGTGCCGAACCCCCTCGTCGCTAGGAACGCTCAGAGAAGACTAGCCTGTTATCCCCGGGGTAACTTTTATCCGTTAAGTTCTGACGCTACCATAAGCCATCAGAAGATCATTTTGCCCTGCTTTCGCAACTGTTCGACTTGTATGTCTCACAGTAAAGCTTCCTTATGCCAATACACTCTTAAGTTCCATTTCTATAGGAACTGAGGAAACCTTTGGACACTTTCGTTACTTTTTTGAAAGTGACCGCCCCAGTCAAACTGACCACCAGACACTGTCTCATTCCCGGATAACGGAAATGATTAGAAACAAAATATTAAAAGGGAGGTATTACACTGGTGACTCCATCACAGCTGACGCCATAATATCATAGTCTCCCTCCTATTCTCTACAAATAACACCTTATTTCAATGCCAAGTTTCAGTAAAGTTCCACGGGGTCTTTTTGTCCTTGTGTGGGTAAGCCGCATCTTCACAGCTATTTCAATTTCACCGAGTCCTCTGTCAAGACAGTGCCAGATTCGTTACGCCTTTCATGCGGGCCACTAATTAAGTGGCAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACAGCCGCCATTGACTAGGACTTCTGTCAAAAGCTTCGTTCTGAAATTGCTTTCAAAACTAACCTCCTTCATTAATCTACTAGCATTGGGCAGGCGTCAACCCCTATACATCCTCTTACGAGTTAGCAGGGATCTGTGTTTTTAGTAAACAGTCGATCTGGCCTATTTTATGTCTCTTTTATTGCTAAAAGAGCTGCTTTCTCCCGAAGTTACAACAGTATTTTGCCGAATTCCTTGACAAAGGTTATCTCGATCACCTTAGTATCCTCTACTTATCTACCTGAGTCGGTTTGCGGTACGGTTAAAATTAATTCTCACTAGAGAGTTTTCCAGTAAGAAGAATAGTTGATAAGCTTCATCCGAAGAATTCACTTACGTCATAGCTCGTATAAACGCTCTGCCGGATTTGCCTAGCAGAACTGACTTACTATTTTGAAAATCATATCCATAGACTTCTCAACATCTCCTTCTTAGTCTTCCCATCGCTGATAGCGAATTAATTTTAGTACAGGAATATCAACCTGTTGTCCATCGCCTACGACTTTCGTCCTCGGCTTAGGACCGACTAACCCCCGGCTGATTAACATAGCCGTGGAAACCTTAGATATTCGGTGTGCTAATTTTTCATTAGCATTTCGTTACTCATGTCAGCATTCTTACTTCTATACTCTCCACTAGTCCTTACAGTCTAGCTTCGCTGAATATAGAACACTCCTCTACCTTGATAATAAATAAATTTATTATCAACCGTAATTTCGGTATTAAGCTTAAGCCCCGTTAAATTTTAGGCGCAGAATTCCTTTGCCAGTAAGCTATTACGCACTTTTTAAATGGTGGCTGCTTCTGAGCCAACATCCTGGATGTCATTGGAATTCCACATCCTTATCCACTTAGCTTAAATTTAGGGACCTTAATTGACGGTCTGGGCTGTTTCCCTTTCGACTAATGGAGCTTAGCCCCCATAGTCTAACTCCAAAAATATACACAATAGCATTCGGAGTTTAACAGATTAAGGTAAGTCAAAAGACCCCCTAAAATCAATCAGTGCTCTACCTCTATTGATTAAATTTTCAGGCTAGCCCTAAAGCTATTTCGAGGAGAACCAGCTATTTCCAAGTTCGATTAGCGTATTACCACTATCCACAGTTCATCCCACAAAATTTCAACTTTGACGGGTTCGGACCTCCATGTTGATTTCTCAACACTTCATCCTGACCATGGATAGATCACTTGGTTTCGGGTCTACATCTAACTACTATTCGCCCTATTCAGACTTGCTTTCGCTACGGCTACACTTATTCAAAAGCTTAACCTTGCAATTAGATACAACTCGCTGACTCATTCTTCAATAGGCACGTTGTTAATCCGCAGAGATATTTCTTTGTGCAAGCACTCCAAAACATTGCCTCTACATGGACCTTCAACTGTTTGTAAGTATATGATTTCAGAAACTATTTCATTCTCTTTTTTAGAGAGCTTTTCACCTTTCCCTCACGGTACTTGTTCACTATCGGTCACAAAAAGTATTTAGCCTTACCTCATGGCTGAGGCGCATTCTCACATGTTTTCACCTATCACGTGATACTCTGGACATAAATAGAAAGACTAATACTTTTTAAATACACGACTCTCACGTTCTATGGTTTGCCTTTCCATACAATTCTTCTAAATATTAGTTTTATAACTTTCTTAAGGATTCATAGCACCTTAACATTATGTCCAAACACCTAAATAAATACACAACTATGAATTGTATCTAGCTAAAATCATTATTATTGCTAATAAATCCTTTAACTAGAAGTTTATAAAGGTTTGGGCTCTTTCCATTTCGCTCGCCGCTACTTAGGAAATAATTATTATTCTCTTTTCCTCCAGTTACTAAGATGTTTCAGTTCACTGGGTTACCTCTTTATTATCTATTTTATTCAATAATAAGTTTCTCATATAGAGATGGGTTTCCCCATTCGGAAATCCCCGGATAATAACGCTTAATTGTCAACTTTCCGAGGCTTATCGCAGACTATCACGTCCTTCATCGGCTTTTTGTGCCAAGGCATCCATCATATACTCTTAATGCCTTACATGAGTAATTTAAATATTAAATACCCACTTTTCTATTCACTTTTAAAAGAGCACCATATTTTATTTTTGGAGACGAGGAGATTCGGACTCCTGACCTCTTCAGTGCAAATGAAGCGCTATACCAACTAAGCTACGTCCCCACTGATTAAAACTGGGCGACCATGGAATCGAACCATGGACCTCAGTCTTATCAGGACTGCGCTCTAACCAACTGAGCTAGTCGCCCCTTACTCCATACAATAAAATATTTTAAAGATCATTCTTTGTAATGTTTTTTACAATTTAAAAGTAGCAGGAACTCTAATTTTCTATTTAGGTTTTTATAAATATCTCCTTAAAAGGAGGTGATTCAGCCCCAGATTCCCCTAGGGCTACCTTGTTACGACTTAGTCCCAATCACTAATTTTACCCTCTATTGGTACAACCAATATTCAAGTACCATTAATTTTCATGACTTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCAGCATGCTGATCTGCGATTACTAGCAATTCCAACTTCATGAGGGCGAATTGCAGCCCTCAATCCGAACTGAGAAAAAGTTTAAAGATTAGCTTAGTTTTACAACTTTGCAACTCTCTGTCTTTTCCATTGTATCGCGTGTGTTGCCCAAGACATAAGGGACATGACGACTAGACGTTATCTTCACCTTCCTCATCGTTATAACGATGCAGTTTCCGAAGAAATATATAACATCGGATAAAGGTTGCGCTCGTTGCGGGACTTAACCCAACATCTCACGACACGAGCTGACGACAGCCATGCATCACCTGTGATAGAGCTCCTTGCGGCACTTTCAACTTTCATCGAAATTCTCTAACATGTCAAACCTTGGTAAGGTTTTACGTTTATCACCGTATTAAACCCCGCGATCCACTGCTTGTACGGGTCCCCGTCAATTCCTTTGAGTTTTAGCCTTGCGGCCGTACTCCCCAGGCGGGATGCTTAATGCGTTAGCTGCAACACCCATGCTTACGGGTAAACCCACAAGCACAAATATCTAGCATCCATTGTTTACGGCGTGGACTACACGGGTATCTAATCCGTTTTGCTCCCCACGCTTTCGAGCCTTAGCGTCAGAAAAGGCCCAGAAGATTGCCTTCGCCTTTGGTGTTCCTTCTGATATCAACGCATTTCACTACTCCACCAGAAGTTCCATCTTCCCCTGCCTATCTCAATCCAAACCGTATCTTTAACCTTACAAAAGTTGAGCTTTTGCCTTTAATCAAAGACTAATTTGGACGCCTACGCATCTCTTTACGCCCAGTAATTCCGGATAACGCTCGCAGCCTACGTATTACCGCTGCTGCTGGCACGTAGTTAGCAGCTGCTTATTCTATAAGTACTATCATTATTCTCCTTATTAAAAGAAGTTTACGATCCTAAGACCTTCATCCTTCACGCGGTGTCGCTGCATCAGGGTTTCCCCCATTGTGCAAGATTCCTAGTTGCTGCCTCCCGTAGGAGTTTGGGCCGTGTCGCAGTCCCAATGTGGCTGACCATCCTCTCAGACCAGCTATCCGTCATAGCCTTGGTAAGCCATTACCTCACCAACAAGCTGATAGAACATAGTCCTTTCTCTAACCGCCTTTTGGGCTTTAATTTAGAATATTTCAAATCTAAACCATATTGAGTATTACCTTATTTTTCAATAAGCTATCCTCATGTTAAAGGTAAGTTCGCTATGCATTACTCACCCGTTCGCCACTAAGTTTAATCTATATTGCTATAAATTAAACTTCGTTCGACTTGCATGCTTTAGGCACACCGCTAGCGTTCATCCTGAGCCAGGATCAAACTCTTCAAAAAAAATGTTATTTGTAGGATCAACATTAAAAATCCAGAATTTTAGAGACCTACTACTTTTAAATTGTAAAAAGAGCATTATAAACTTAATTCTTATACCATGATAAATGGAAAAAGTCAAACAAAAAAACCTATAGCTTAAGACTTTTTTGACTTATTTCTTTTCTTCTTAGGAAGATACTTTTCTCTTGTTATTTTTTTATAATACTCTATATTATCCTTTTTTAGAAAGAAAAGAAAGTATATAGCAAAATATACTATAAATACTATTAAAATTAATAAATAGATTTCTAAAAATAACCTCATTGAAAGAAATGCTATTCCAAAAGCTCTAGAGTATAATAATACTAATAATAAAATACAAAGATAAAATGAAATCCAAGAAATCTTTCTAAACACATTATATATAGGAGTTTTATAGGTTTTCTTTAAAATATATAAGTATAAAAAAATAACCCATACTAAGAATAAATCTATAGATAAAATTATAAAATAATTAATATATATAAACTTAGGCAAAGGATTTGCCGTTAGATAAGATAAATTAATTAATTCTTTTAGATTAATATTCAAAATACTCTTCATATACTAATAACACCTCCTCCTATAACTATATTTTCATTATACAAAACTCCATATTGACCAGGAGCTACACCTATTTCACCATCTTTTAGTAAAATTTTTAGATCATCACCTTCTTTATGCAAGTCTTTTATATCTAATATTTTACCCCTATATCTTACCTGAATTCTAGTCCCTTTATTCATTTTATCATCATCACTCAACATATTGATATTCGACAAGGTTAAATTATATGTCTTACAATCTTCTATATCACCTACTATTAATCTGTTATTTCTAAAATCTTTTTTAATTACATATAATGGCTTTATTAAAACAGTTTCTATACCCTTCCTCTGACCAATAGTGTAATATGACAGACCATTATGCTTTCCTATTATATTACCAGATAAATCTACAATATCCCCAGGAGTATGATCTATATTTACATTTCTTTCTATAAAACCTTTATAATCATTTCCAGGAATAAAACATATTTCTTGAGAATCTTTTTTAGCTGATACTCTCAATCCTGCTTTATGCGCAATATCTCTTACTTCATCTTTACTCTTAATCTCTCCTATAGGAAATAAAGTACTTGCAAGATTGTTTTTATTAATACTGTGTAAGAAATATGATTGATCTTTAGATAAATCTAGGGCTCTAGAAAGCTTAAATTCACCATCTTCTTTGATTATTCTAGCATAATGACCTGTAGCAACATATTGAGCATTAAAATCTTTCATTTTTTCATATAAAAGTCCAAATTTTATTTTTTTATTACACATAACACAAGGATTTGGAGTTAAACCATTTTTAAAAGAAGATATAAAGTAATTAACAATATCTTCCTTAAAATCATCTCTAAAATTTAATACATAAAAAGGAATATTTAGTTGATCACAAAGATTTCTAGCATCTTCAACCCCTTCTATAGAACAACATTTATTATCTTTTGCTGAAAGATGTCCATATTCATCTCCCTGTTCTTCTGTCCAAAATTTCATATGAACCCCAATTAAATCAAAACCTTGTTCTTTTAAAATATATGCAGCTACGGAACTATCTACTCCCCCAGACATTGCTACTAAAACTTTCTTATCTTTACCTAATGGAATCATGGGAAATATTATATCATATATTTTTTTCAATTTTATACATAGATTCCACCTCAGAGACACTTGTTGAATCATAAGCCCCTTTATCGACTCTAAAACTTATAAATCTAGGAAATCTTAAAGCAAAACCTTTCTTATCTTTATCCTGATCCATACCTGATGTATGTATAGGACTTTTTGTTATTTCATCAGATCTTATAACTACTACTATCTTAGGATCCACCCATACATCTGGAGTGATATCTTTATTGAAAACATAGAATTTATCTGGATTATTAATGATATTTAAATCTAAAGATGCTTTTAAATCTACCAGTTCTTCTTCTGAAAAACCACTTCCTAATTTACATATAGTTTCAAATTTATTTTTATTAGAATTATATATACCTACTAAAACCCCACCTATCCCTAACTTTGCTCTACTACCACTACCTTTGTAATACCCCATTATTACAGCATCAATTGTATCAACAACATCTTTCAAAGAATCTCTTTTCAGTTTTAGCCAATCAAAATTACGTGTGCCTGGAGTATATAAACTATTGGGATTCTTAAGGACTACACCTTCCAAACCTTTATTAATATTTTCTTCAAAATAATCGTAGACATCTTCTTCTTTAGAAAAAATTTTCGTTTCTGTTAATTCTATATTTTTATAATTATTATCAGAAAAAAGACCTGATAAAACCATAATTCTATTTTTGAAAGGTTCATTTAAAAAAGATTTGGAATTAAGATATATTACATCAAATATAAAAGCTTTCATCTCATTGTTATCATCTACTATTAGATTGTTCTTTCTCTTCATTTTAACCGTATCTTGAAACAATAAAAATTTATTTGTAATAAGATTTATTCCTATTATTTCTGAATCAAAAATAGCATTTTTAACATTTAGTTTTTGAAAGCTTTCTATAAATTGAGGAAATAAATCAGTTATATCATTAAGATTTCTTGAGAATAGTTTTATTTCTCCTGAATCTAATATATGGATCTGACACCTTAATCCATCAAATTTAGGTTGGGCATAAACTTCTTTAAATCTTTTAATACCATCATTTATAGATGATGAACGTTCTACTAATTTTGGAAATATAGGGATACCTATCTTTATTGAAAAATCATTTAAAGAATTTATATCTAAAAAAGCATATTTTGCTACTATTCCAATATCTGAACATCTAGAATATGCAGATTCTAAAGGTTTCCTTAAAGATTTATCACCTTTTATTGAGTATGATATTGCATCTAATAAAGTTTTATTACTAAACCCTAACCTTAGTTTCCCTAAGACTATTCTAATTAGGTATTTTCCAGAATTAGGAGATAATGTTTTTAACATTTCAATAAGTCGATCTCGCTTTATTTTATTTGAATCTTTCCCCTCAATTAAGGAAATCTCTTTTAAAAAATTAAATATATCTATGAATTCATAGTTTTGAATATCTCCTTTTTTGTTATTATAAAAAACAGTACCTAAATCTCCATATTCATTTAGATATGATACTACCTGAGCATTATCTAGTAAAAGAACTTCACTAAGAACATCTGTTATCATTTTATCTCCTATATTAAAATCAGATTTCACATAAAATGGAGCTACCCTACCATTTATCAAATACATAAATTCCTCCACATACTCTTGAGGTATCTCTTTTAATAGGTTTGATATAACCTCTGTAATTTGATTTCTAGATGAAATTTTTTCTAATAAAATTAAATGTTCACAAAGTGAATCAAAACTGTATTTATTTATTTTCATATACAACTAAATCTCTTAAATTATCTCCATATTTAGAATCTACCCTCAAAGGAATATCGATTTCCTTAAAATCTGTCATTAAAGAACTAATTAATTTTATAAATGCCTCTTTATCAACATTCTTTGGCACTTCAAACACTAATTCATCATGGATCTGCATTAATATTTTGGCTTTATATTTCAAATATTCATTATTATTGAAAATTTTATTCATAGATATTTTTATTATATCAGCACAAGTACCTTGAATTGGCATATTGATAGCTTCCCTAAATATGTGACTCTTAACTATATAACTTCCAGAAGTAGTATCAAAATGTCTTTTTCTTCCAAACAAAGTTTCTACAAATGCATTTTTTTCAACAAAAGTTTCTATATATTTGTAATAATTTTTTATTGAAGAAAATCTTTTAAAATAATTCTCTATAAAATCATTAGCTTCTTTCCTTGTAATACCTAACTGTTGAGATAAACCATATGAAGATATGCCATATATTACTCCAAAATTAATTGTCTTAGCTTTGTTTCTTTCATCTTTAGTAATATCCTTTTCTAATTTATTAAAAATCTGAGAAGCTGTATATGTATGTATATCTAAACCTTCATTAAATGCTTTTTTCATATTTTCATCTTGAGAAAAGAAAGCCATCAACCTCAGTTCTATCTGAGAATAATCAAAAGATATAAATATATGATTTTTACTAGGAATAAAAGCCTTTCTTATATCTCTACCTAATTCTGTTTTATTTGGAAGATTTTGTAAATTAGGATTCTTTGATGATAATCTACCTGTACTTACACCTGTTATGTTATATGTAGTATGTATTCTTAATTTATCATCTACAAATTTAACTAAACTTAATGTATATGTACTATTAAGTTTTTTTAATTCTTTGTATTTACGAATATCATCAACTACTGGATTTCTTTTAGACAAACCTTCCAGTGTTATATCATCTGTAGGAAATATACCACTTTTTAATTTTTTAAAGTAAGGTAATTTTAAGTCTTCATATAACACATTACTTAATTGTAAAGATGAAGATATATTAAAATCTTTACCTACAGATTTGAAAATCTTGTTCTCTAACAAAAGTATCTTTTCATTAATTTCTTTATAAAGATTTTTTAAATATTCAACATCTATTTCTATCCCTGTCTTTTCTATGTCAAAAAGTACTTTAATTAAAGGTAAATCAATATTCCTAAATACAGAATTATTTAAATCATCTTTTTCAAGATTATGTACAATATTTTCATACAAAAGAGGAAGATAATATATATAATAAAAAGAGTTTTTTAATAACTTTTCTTTATCTATATCATCTAAACTAAACTTACCATTCATTGTTAATAGAGATATATCTTCAATTTCTACTGAAAAAATTTCATAAATAATAGATTTAATTGTTGTATTTTTACCTTTTAGAATAAAATAACCTAGATTTATATCAAAATACTTACCCTCAAAAGGTATACCTATGTTGTTTAGAGAGTGCATATCATCTTTACTCTGAAAAGAAACTTTTTCTATATTAATATCAGAAAAAATATCTTTTAAAATCTTTATATTAGAATCTTTCTTAAAATCATCTATATAATAAATAGTATCTTTAACAAGAAAAAAGATGCTGTATATAGAGTTATTAGTATGATTATTGAGTATATAAAAATATACTATTTTTAATTCCTCTAAATCCTTAGATATTGTTTTTATATTATCATCATTAATTTCTTTAGGAGCTTTATATTCTACTCCCGAATTCTCCTCTATCTTATATTTAGAAAAATATTTATTTTTTAGACTATTAAAATCATATTCATTCAATTTTTCAACAATCTTATCATAATCAAATGCTATTTTTATTTTACTAACATCAAGATTAACATCAATATCATAAAATAATTTTGCAGCTTCAAAAGAATCATATGCTGACTGCTTTCCTTTTATAAGTTTTTGCTTTAATGATTCTTTAACATTATCTATATTTTCATATATACCAAAAAGATCTCCATAAAGAAGAATTAAATCTTGAGCTGTTTTATCTCCTATACCAGGTACTCCAGGTATATTATCAGAAGGATCACCTTTTAAACTTTTAAAAGTTAAAAGATATTTATTCTTAAAACCTAGAATTTCTTCTACATTTGAATTATTTATTTCTTTAGGATCAGAAAAAGATTTCCCTGGCATTATTAAAGATACCTTATCATCTACAAGTTGTAGTAAATCTTTATCACCTGTAATAACAAAGATATCAAAATCTTTTTTAAATTTTTTAGCTATAGAAGAAACAACATCATCTGCCTCATAATCTAAAGATTCTATTATACTAATATTAAAAGCTCTTAATATTTCTTTTACATACTCAAATTGTTCAATTAATTCATCAGGGACTTTTTCTCTATTAGCTTTATACCATGTAAATTTCTTTTTTTTAATAAAAGTACTTGTTGGAGAATCAAAAGCACATACTATATAAGCTGGTTCATATTTATCTATTAATCTAAGTAATATTGAAAAGAACCCATATACAGCATTAACATTTCTATTTTTAGACGTAAGTTGAGGTACAGCATGATAAGCACGATATATCAGTGCATGAGAATCTATAATAAAAAATTTTTTATTATCCGACATTAAGCATTGAATCTACTATTTTGTTAAAATCTTCTCCTTCTAATACTTCTTCTTCAATAAGTTTTGAAGCAATAGCATCTAATATATTTTTATGCTTTGATAATATATCTAAAGCTTTCTTGTATGAAGAATTTAATATTTTAGAGACCTCTTTATCTATAATGGATGAAGTTTCTTCACTATAGTTTTTCTCTACATTTCCATAATAACCAGCTTCTTCGTCATTCCCAAACTCAATAGGACCTATCAAATCACTCATTCCGAATTCAGTAACCATACGTCTAGCCATTTCACTAGCTTTTTTTATATCATCTGAAGCACCATTGGTAATATCATCAAAAATTATTTTCTCAGCTGCTCTTCCACCAAACATATGAGTAATCATTGTTTGAAATTTAGTTTTTGTATATAAATAATTATCTTGTGTAGGAAGATACATTGTTGCTCCACCTGACATACCTCTTGGAACTATAGAAATTCTATGTACAGGATCTGATTCTGGTAGAAATTTCGAAACCAGAGCATGTCCAGCTTCATGATAAGAAACTATTTTCTTTTCATCTTCTGTTCTAGATGTCTTTTTTGCAGGACCCATAACAACTTTTGTTGCAGCTTCTTCAATTTCAACTTCTGTAATAGTTTTTAGTTCTTTTTTAGCAGTTAATATAGCGGCTTCATTTAAAACATTTTCTAGATCAGCTCCAGAGAAACCTATTGTTCTTTTAGCTATTTTATCAAAATCTAAATCTTTACCCATTGGTTTATTCTTAGAATGAAGTCTTAGTATACTTTTTCTCTCTTCTAAATCAGGCAAACTCAACATAATAGTCCTATCAAATCTACCAGGTCTTAATAGAGCAGGATCTAAAACATCTGGTCTATTAGTAGCAGCTATAACAATAACATTTGTTGAAGTATCGAAACCATCCATTTCTACCAATATTTGATTTAAGGTTTGTTCTGTATGAGCTCCTGCAATAGAATAACCTCTTTTTCTTGCAACAGCATCAATTTCATCTATGAAAATAATAGAAGGAGAAGATTTTCTTGCTTTTGAAAAAAGATCTCTTACCCTAGATGCACCAGCACCTACCAACATCTCCTCAAACTCAGAACCTGAAGTAGAAAAAAAAGATACACCACTTTCTCCTGCAATAGCTTTTGCTAACAAAGTTTTCCCTGTCCCTGGAGGACCAACTAATAATACTCCTTTGGGAATTCTTGCCCCCAAATCTGAATATTTCTTAGGATTTTTCAAAAAATCTACAATTTCAAATACTTCTTCTTTAGCTTCAACTAAACCTGCTATACCATCAAATTTAATAGATTGCTTTGAACCTATAAATAGTTTAGCTTTACTCTCTCCCATGGAAAAAATGCCTCCTCCATTACCTGCTGACTTGAATTGCCTTACTGTATACCAAGTAGTTAATACAATAACTAGTATAAAGATTAAGGTTATGATATCACTTGCACTTAAAGTCGGATTCTGTGCAATTGTAATATTATTATACTTACTTAAATTAACTCCATTACTAGTAAAAATACTTGTAGGATTAGTAGGACTACCTAGATTAGAGTTAATTAATGTTCCATTTTTTAAAGTAGCTGTAGCATATGTTTGATATATGGTTAATTGTTTTATTTTATTAGACTTTAAATCAACAATTAAAGTACTTATAGGAACAGATTTTCCATTATTTAGTGTTGGAATAAAAAGATATATCAGAAAAAAAACAACTACAAATATAAAAAAAATCCATACAAATGTGTTATTTTTTTTTGGTTTATTTAGTGAAAATTTTTTTTTGTTATTCATATATAAATTATATCATATTAAGTATATAGCGACGACAGGAATCGAACCTGTGACCTAAGGCTTATGAGTCCTTTGCTCTACCGACTGAGCTACGTCGCCAAAAGTTAAATTCAGAATCAATTTGGTTGCGGGGGTTGGATTCGAACCAACGACCTTCAGGTTATGAGCCTGATGAGCTACCACTGCTCCACCCCACGGAATAAAATATCTACTGTTATTGATGTTACAACATTTTCATCATGTAGTCAATTTAAACAATCGTAATATTATAATTTGTACTTATTAAATTTTAATTAAAATATTAAAGCTATAATTAACAATATTTTTTTTCTTTTAACTTAATACTTTGTAAAAGAATTTGGATTAAATTTTAATGTTTTTATATTAAAATAAGAGATTAATCCATTCTATTAAAGAAGTTTTTTGGGTCGTTTTTTTGCTTTTACTCTGAGATGGTAAATTTATATAACTAGATGGAGGATTTTTTGGCAAAACTATCTCTGAAGAATTTTTCTTATATAAATTTAAGTCATTTGTTGCTATATTATTTTTATAATAATTACTACTATAGTAAGCATATTCTTTTTTTAATGTATTATTTTGTTTTTTTTGATTATTTACTAAAGAAGATATCTTGTTAATTTGGGATTTTATAGAAACATATCTTCCATAAGTCCTTACCAAATTGAATGAAAGGAGGGATATAAAAAATAATAATATTATTGAGAAAAAATATTTACTCAAATTTCCTGTTCTATTAAAATTTTTTCTTCTTCTAGGCATATTTTATTATATTCATTATATTTGACAAAAAGCAATAACAGGTGATAAAATCATATATAAATACATTATAAGTCTATCTTATGGATCAGTACATAAAAAATTTTACAGAAGAATTGGATAAAGACAAAAAATCCATACATACTATTATAGCTTATAAAAAGGATTTAGAGCAATTAGATGAATATATTAAACTCTCAAATATAAAAAATCCTGCAGATGTAACAGAGGATATACTCGTTAAATATTTTGATGAATTAAAAAAACAAAATTTATCAGCAAAAACTGTTTCTAGAAAGATTAATAGTACTAGAACTTTTTTTAAATATCTTCAAACTCTAAATATTGTAGATAAGAACCCCGCAATCTTAATTGCTCATCCTAAGATAAAAAACGTTATACCTAGAATTCTTACAGAAGTAGAATTTAAAGCTTTAAGAGATACAGCAAAAAATGATACAAGAACAGCTCTTATAATCGAAATACTTTTACAAACAGGTATTAGAATAGGAGAATTATGTAGAATAAAAACAACAGATCTTCACATGACAGGTGAGGAAAAATATATTCATATAATAGAATATGGAACTACACCTTCTAGAGAAGTACCTCTAAATGACCAATCATTAGATGTAATAAGACAGTATATAAGTATAAGACCTAAAAATGCTAAAACAGATAATTTATTTATAACTAAAAATGGAAATCCTTTATTAGTTAGAAATATAAGAACTTCTATAGATGGAATGTTTAGAAAAGCTGGAATTGAAAATGCAAAAGTTAATGATTTAAGAAATACTTTTATAGCACATCATTTATCTAGAGGAACTAATATATATGCATTATCAAAAATAATAGGACACAAAAGAATTGCTACTACAGAAAAATATCTAGGAAAAATAAAAATTGATACAGAAAGATTACCCAATTTACCTATTTTATAATTAAATTGGGCACAGATGGATTTGAACCATCGACCCCCGCTTTATAAGAACGGTGCTCTAACCAACTGAGCTATGTGCCCTAAAATTAAGAATAGTAAATATTGTATCAGAAAAAAATAATTTTTTCATCATTTTTTTACTTCTGCTTCAATATATCTTCAAGAGCAGATGGATTTAGAGTATTATCTAAAAGACCTCTAGATTTAATTTCATCCTCTATTTCATTAATATCTCTTCCATATTTTATTCTAGATAAATGCTTTATAGACTCAGCTATTTCATTATCTGGCTTCGCAGAACTCATTACGGTCTGCATAGAAAAAGGAGGCTGAGCTTCTCCTTTAGATATAATTTTAACATAAGCATATCTATTCTCTAAATTAATTAGATCTTGTTGATTAAAAATTGGTTCAAATTCTTTCTCTAGAAATTCAGCATCAGAAACACCCACTTTAAAACTTACTAAAGAACCAACATTTCCAAATATAGCATTCTTAACTTCATCTATCATTTGATTTATATATTGATTTGCTACAATTAAATTAAGTCTATATTTTCTTGACTCAGATAAAATTTGAGCAAAATCTTCTGTTGCAAAATTCTGAAATTCATCAACATATAAGTAAAAATCTTTTCTCTGATCTTCTGGAATATTTGATCTAGACATTGCAGCAGAAAGTATTTTTGGCACTAATAATAAACCTAAAAACTGAGAATTTTCTTCTCCTATCTTACCTTTATCAAGATTTACAATTAATATCTTCTGATTATCCATTATTTCTCTTAAATTAAAGGATGATTTACTCTGACCTAAAATATTTCGCATCATCTTATTAACAACAAATCTATCAAATTTTGATGCAAAATAACCTAATGTTTCTGATTTATGATAATCAGAAGTATTTGCTATCTCTTCTGTCCAATATTTTCTAACTAAATCATCTTTTACATAAGGTAATACTTCATCTATGAATTTTTGATCTAATAAAACTAATCTGAATACTTCTATGAGTGTACTACCTGGTTTTGACATAGCAGTTAACATACAATTTCTAACAGCTCTTTCTAATCTAGGACCTGTAATTCCTGTTCTATTTGGATCAAAAAGCTTTTCAAGCATATGGTAAAAAGAATTTACAATCATGTGCTTATCTTCCTCAGAATAATACTCCATTATGTTTATTCCCATAGGTCTATCATAATCTCCTGCATTAAAATAAATCACATCACCTGCTCTCTCAGGAGGTATTCTTGCAATAATATTTTCGGCAGACTGACCATGAGGATCAAGAAATGCAACACCTTTTCCATTTTGTATATCCTGTAAAGCTAAAGATTCTAAAAATGTTGATTTTCCTGTACCAGTTCTACCTACCATATACATATGTCTTCTTCTATCATCATCTCCTATATATACAGGTCTAGTATGCCCTCTATAAATACCATTACCTAAGAATAGACCTTCATATGGAATATCAGCCGAAACAGGTGCTCTCTTGGCATTTAATCTATGTATATGAGGGGTTTGTACATCCTTATTTGGAAAATGAAAAATAGTTGCTAATTCTGTAGTATTAAGTATTGTTGATGTAGATTTGTATTCTTCATACAAAGATGGGAAATTAAACAAATAACCCAATTGAAAATCTTTTTTATTAAAGAACCTTAATTTAGCTTTTTTAAATTTATTTCCACCTATCTCAGTAAATTGAGAAAAACTTGAAACCATATTATTAAGTAATGCTTTAGCTTTTTCTTCATTTTCACTTACAGCTAAAAGTCTTATTGTAGAAACAAATCCAGGGTTTTTTGTCTTGTCATCTATCTTTTGATTCTGATATTGCTTAGAATTACTCTCAGGTTTTGGAGCCTCATCTTTTTTCACACTCTTTGGTTTAGTATGATTATTCCCATTCTTAATCCATTTACCAGTTGAAGGGTATATAACTAATTGAAAAGAAGCATATTCATCTTTTGATAACTTACTTATAACACTAGTTATGTTAGATATTGTATCAACCTTTACTTCTTCTCCATAAGTTTTTATAGGATAATATGATTCTTTTGAAAAAACTAAGGATGCATATTCAACATAAGCATCTTTCTCAAAAATATCAGGATGTTCAATTTTAACAACTTCAGCTGTTTGATAACTTGAATGTATCTGTTTTTCAATAAAATCAGACATTTTTTCACTACAAGTTACATAGAAATTTATTAATTCTGAAGTTGCTAATATTTCAAATGTTATATAGTCAAATTTTCCTACTAATCTTTCAAATTTCTTCCCCCCTTTAATACCTGATAATGCTAAATACATTTGTTCAGCTGCAGCAATCTCTACTTCATTATCCATAGGAAGTGTTACTTCAAAAGTTACTAATTTCTTGCTATTTTTAATAAAATTAGAAATTTTAATATCTCTTAGAAGAAAAAATGCTGTTATAAGAAAAATTACTACTATTATAAGTAAAATAACCAGTACAATAAAAACTATTGTAATGACACTAATCATATTAGAATATAGAGTATGGATATAATTTGTGTTAATAACTAAATGAGAAACCATATAAAGGAATTATACAGTAAAGATGTTTAATATAAAATAGATAGAAATATCTGTATTATTTTGAAATAACTGCTCTTAATCCTCTCCAAGAAGAAGTTGTATTATAACCTTTCTCTTTATTTCCACTTAATGAATTCTCTCTTGCATAATCATCAGCTTTTTTTCTTGCCAATTCCACTGGACTACCTGCTTCTACTGTAACACCCTCATTCAAAGAAGAATCTATTTTTATACCAGTATCAATCGTAGATCCAGCATTTATTAAGCTTTCATCTATATTAGGTTTATTTTCTATTCTTTCAATTGGACTCATAGTATAATAATATCACTTATATTTATTTTTGTAAATATCCTATAATTTATATTTTATATTCTGAGATCTTTCTATATCCATTTCATGAGATCTTTTCTTCTCTTTTTCTCGTTTATCATACTGCTTTAAACCTTTAACTACAGCAATATTTAATTTTATTAACCCATTTTTCAAAAAAACAGAAAGAGGTACTATTGTATACCCTGATTGCTTTAAATACTTCCCTATTTCATTTATTTCATTTTTATTTAATAAAAGTTTTCTTTCTCTCAAAGAATTATATCTTTCCATATTCTTTATCTCTGCTATTGGAGCAATATACATATGTAAAATGAATAATTCTTCCTCTCTTAGAGTAATAAATGATTCTGACAAACTTATACTTCCTGATTTCACAGATTTTACTTCATAACCATAAAGTATTATACCTGATATATATTTTTGTATAATCTCATAGTTATGGGAGACCTTTTTATTAGATACTATTAATTTCATATAAATATTTTAATTATTTTAGTTCCAGATAATAAATAAAAACTCTTTCCAGATGCTGATATCGATAAATCTGTTATATTTGAAAATAAGCTTTTATTACTTCCTGTATATACATACTGCTTTACAAATTTATAATCCGTTGTATTTACTGAACCTGCTGCAGGTTTTTGTAAAACTACTATTCTGTAATGAGCTGGATCTACAATATATATATAATTAGAGTACTGATTATCATAAATATATGAACTCTTATTCAAAGAATATTCCATAGCTTGAGAATTAGAAATTGCAAATGGAGTATATGTATTTGCATAAAAACGTACAATATTACCAGATTTATCTATAACAAAAATATTTCCATCTACAGCAAACGACCTTGCACCTACTAAATATTTGGATTTTAATCCATTAGTATATGAAAGAGTTGTTGTGTTTACATTATATATTATACCTTTAGAGCTATCTAACATATAGATGTTCCCCATATATGATTGAATACTTGATATATTTGAATTTGGTACAGGACCTATTATTGGAGATAAAGTTCCATTTAGTGCTACACTAAAAAGACCTCTATCTGTGTCATATAAAAATAAGGAATTCTTTGACAATGAATATGTAATTGATTGAGGAATGGATATACCTGAAGACAATCTCTCAAACTGAGTTGGAGTTGATTGAGTAGTATCTGATATTGAATATACATATTGCAGTTTAGGATCAGTTAGATATATATTTCCAGATAAGTTTTGTAAAGAACTAATTTCAGCTCCAGGATAAGAAATCCCTATGTCTGACAGGATTGTATAATTATTTATAGGAATTACATCATTTAAAGAATAATATATATTGTTCAATTCATTAAGGTAAGATTTACTAGAAGAATTATCTTTTAATTTATTAATCAAAGAATAAGTTCTATTTATAATAATATCTTTTGAAGATATAGAATTTTGATTATTTATAGATTTAATATTAGTAGCAATCTCAGATAAAATTTTTTTTGATACAATATTACTACTATATGTATTTTTTTGATTTTTTAGAGCTTTAAAAAAAAAAATTATATATTAGTATAAATAATATAAGAAATATTACTATACCAATAACTGTTTTTTTCTCTTTTTTTAAAATCTCTATATCTCTATTAATTTTTAATTTATATTGTTTTTGGGATCTATCTTTTAGGTATACTAGTGAATAAAATATCCATTCAAAAAAAGTTAATATAACAGTTAAAATAGATTTCATTAAAGATTTCCAATCCACTTTCTTTACATTAGTATTTATATTTTTGTATATATTAGAAGAAGTATTTTTTGTTGAATTTATAATATAAGAGGTCATTTTTTTCGCTTTATTTTTTAAATCAAAATCATTAAGAGATCTTTTCTGAATATTATCTATATGTTCTTCACTCTCTATATTATCAGAAGAATCATTTAATTCAACTACTACCTCTTCATCTTTTTCTAATTCTTCATCTTTTATATCTTCCTCTGTTGTTTCTATTTGCATTACAATAAATGATATATTCTTATTCCCTAATTCCATTTGTGAAATTTCTTCTTGAGATGAATTACAAATATCTTTTATTTTTTTCTCATCTAAATAGTTTTTAATCAAAGATGTGGACATAAAAAAAATATCTTTATTTTTAGCATATCCACTAGCTGTAGAGACAATACTCTTTCCAACTGCTAATAAATGATCTGATAAATTCATAAACTTACCGTCTCTAAAAAGATAAATCTTTGTTTCCCCTATTCTTGCCATATAAGCAATATCACCCCAAATTACAAAACAACCTACATTAAAATCTATATTCCCACTCAATTCCATATCTATAATCTTTTGTGATAATTTTGAATAAGCTATATTTACTGATTTATCAAGAATATTTATAATACTAGAGACATCATTACTAAAATATTCTAACTCTATATTATCTAGAAACTCATTTACTAAAGATTCTATATCTACATCTCTATTCTTAGTCCTTACATCTATAGCTGAAAATAGTTTTCCTCTTGTTTCAAGAAGACTTTCTTCTTGTGGATCATGCATATATACATGAGAAAATGAATCTTTTTCATTATTCTTAGGTATATATGTCTTTATTTTTACATCTAATTTCATTATATAAAAATGATACCATATTTAAAAAATCAAATATACACTATCTATGGTGTAGTACCTGTTATATTAACTGTATATCTAAAACCGACTAAATCATCATTAAAATTAGAATAATTAGGAGAAACTAATAAAAATGCTAACCAAAACACTCCCGCATTTATTGTTATATTATGATGAAGACTTACTACATTAATCTCAGATGGCATATGTCCCATTGTAGATATTGAAAAATTTACAATAGAATTTATCGGAGATATACCATTAGATGTAAGGTATTGATTGATATTGGTAAATGTATCATTTGAAGAATTATTATAATTAGTATTAGAATTATCCGTTGAATAAGCATTATCAAAAGAATTCGACCCATTATTATTATTAAATAAATAACAAGAATTTACACCTGCACACAAAGCTTGTGCTGTATTTACTATATTAATAAGTTGTGTCGTATTCATAGCAGGATTTGCATATTGATAAGAAGGGTCTACATTAGCAGTTGAGGTATCATATGGGTCTGGTTGAGCTTTAAGATAATTCGAAAGAAAAGAACTGTAATTACAATTATTCCATAAAACACACTCTACAGTACCTATACTCTCTTCGTATCCTCCATTAGAAGAAGAAAAAAAGGCATTAACTAAAGATCCATTATATGTTAGCACTTGATTTTCACTAGCTATAACTTCACTCATTTTAGCGGTCCCACCGTCATATACTTGAAAATCGGTTCCTGTTGAAGGTATATTTATATTTGTAGGTACAGTAGGAGTACAAGATGAATAATCAGAACAAGAATCTAGCCTATATAGAACATAACTTCTAGATATTATTATTTGGGCCTCAATAGCTTGATTGGGCCAAGAGTTTGGAACTTCTCCTATTCCCGCTAAATAATTCTGTAGTGTCATTTTTCCATATCCTGGAACATTAACTATAGTATTATCTAAATTTGCTACAGCAGAAATACTACTTCCTTGATAATAGTTAGTAGCTATCTGAGATGCATTACTGCCCTGATTTGCCATCCCTAACATTCCATATTGAGACATTCCCATAGGATTACCAAAACCATATGATGTAAATTGAAAATTACATTGATTATTATTACAACTGGATAATGGATTTGGATTTATTTCACTAGGAGGTGAAGATGTTTGAGTTGAAGCTTTTGCTTGAGCTAAAGTTTCAAGATTATTAAGTCTTTGAATATCGGCTTGAAGTGCAGAGATTTGACCTCCAACTTGATTAAGTGTGTTGTTTGTACTATTTATAGAATTATTATATTGATTCAGATTGGAATATAGGGTTTGTTGAACAGGTTTAAGATTATTTTCTTCTGTAATAAGAGTATTTTCAAAATTCTTCTGCTTCAAAAGGTCAGTTTTTATTGTATTAATCTCATTATTTATAGATATTATCTTGTTTTTATATGAAGACAATTGAGAAAGACTTAAATATATAGTTACAATTGCATTATTAAAATCTTTAGAAGAAAAAATATAATATATAGGGTTTGTTTGCATATTTATATAAATAGAACTTTCTATATTATTTCTAACAATAATATCTTTTTTTATCTTTTCCCTATTTTTGATATTTAATGAATTAAGATTTGAGATTAAGATTTTTATCTTACTTATATTACTTTCATAAGTATATATATTAGAATTAATATTATATAAATTAGAAAGTATTGTATTTTTATTTGCAATTTGAGAATTTAACGCATTCTGTAGAGAAGTTTCTTGAGTTTGCAATTGTTGTATTTGTTGATTATCTTGATTGATTTGAGAATTATATTGACTAACACTACCTACACTTTGAGCAAACAAAGTTTTAATAGACACTATAAATATAAAGAATAAAAGTATATAAATGTATTTTCTTTTAATAATATTCATGCCAAATCTTTTAATATTTTATGACAAGTAAATATGAAAATTTGATTATTAGAGGAAAAGTTTTTTAAAAGATCTATTAATATAGTTAATCTCTCTATATCAAAATTAATAAATGGATCATCAAAAAACATAACTGAAGATTTCCCTTCTAAAACAACATTTAATATAGAAAGCCTAGATAATAAATATATTTGATCTTTAAGACCTGTAGAAAGAAACTGAGATGAATCTACATATTTACTCGTTCCTCTGTCAAAAATTGTAAATTTTTCATTATTTAATAAATCTATTTTAGAATATTTACCTTCCGTTATTTTTTCTATCCACTCACTCCCTAGTTTAACTAAATCTTCAGATATTGTTTTTATAACAGTATCTTTTGCTCCAGACAAATTGTTTACTATGATATTTAATACATTCAATCTTTTTGAATAAAAACTTTTTTCTTCCTTTTTATTTTCTAATAACAATTCTAAATTCTCAATATCTTCTTCTGTAATAGAATTATCACCTACTCTAGACTCCAGTGCAATAATATCTTCATTTAAAGAAAAAAGATCTAGATCTAAGTCTTCATTTTCTAAAATCTTTCTATTTAAAAGAATTTTATCTATATCCATAAAATCTCTCAATCCTTGATCTAATTCTGTATTTATATCCCTCTTTTTCATGGAAAATTCACTTAATTTATTCTCAAATATTTCTAAAGAATCTGTACCTAAAAGTCCTCTTATAGTTGAATCTAATTTGATAAACTCTTCTTTTAAAGAAAGCATTTTCGTTCTTTTTTTAAAAAATTCATTAATATTTGTTAGATGAAATTCACTTAATATTAAATTTAGTTCCGTTTCTTTATCTAAAATATCTTTTTGAAGAGAACTAATTCCTTCTATAGCTGGATTATGAAATTTTTCAAGCCTATTATAATCCACAAATCGTAAATAGAAGGCTACAAACACTATATCTAAAAATAAACTTATAAGTATATAAAAAGAAAAGAATGCTGATATAAATGTAAGAAGAAGAAGAAATAAACTTACAATAATTATTATAGGAGAATTAGTCCTAATCGGTTTTAACTTCATATTATCTATGTTTCCTTTCTCTACTTCTAATAACTTCAAATCATTTTTTCTTAAATCTATTGAATTTCTTAGATTTATTATCTTGTCCTGAGCTTTATCCATTTTTTCTAATAAATCTTTTTGGTATTCACTTTGTACTCTTTCAAAATCTTTATTTAAATTATTCAATCTATTTAATTTAGATTCTAAAGATTTCATTTCTTCTTCTATATTCTTTAGTTGAGATACTAAAGTTTTTGCTTTTTGTGATTTTTCTATAAAAGATTTATTTTCATTGAATCTTTTTTCTATATCACTTCTCTCTTTCTTTTTCTTACTCAAATCATCTATCTTCTCAGAATATGAAGATAACTCTTTTTTATCAAATAATATTTTTTGTTCTAAATCTTCTATTTCTAAATCTAATTTTTTTAATATTCCTATATTTTTAGATGCTCTATCTAAACCTAATTTCATATTTTGAACTTTTTTCTGTATTTTATCTTCAACTTCTAAAACATTTACTCCTTGTGAAGAATTTGAAGATATTATATCTAATATGGACTTTTCTAAAGCTTTTGGATTATCCTCAATAGAAGATATTTGATTTTGGTATACACATGATAATTTTTCAAATAAATCTTTATTAAGTCCTAGTAGATCTAGTATTAATTTGTCTACATTTTCGACTTCATTATCATTCAAATAAGTTTTTTTCTGATTAAAATCTTTAGTAATATAGAATTTGTCATTATCTTTTTGTAATAAAAATTTTATTACAGGATAAACATCTTTACCCCAAGGCTTATAACTTTCAAGTAAAGTTTTTCTTATTTTTTTAGGATTATCAAAAAAAGCAGATATTATTGAATAAAATAAAGTGGTTTTTCCAGATTCATTTTTACCATATATTATGTTTATATCATCTTTAAACTCATATTTTTTATTCTCTATTTGTCTAAAATTTTGTATATCTATATTTTTAAGCTTCATAGTAAATCAAACCTCCCTTGTAATAATGCATAACCTAATTCTAAAGACTCTTTATATAGATCTTTCTCTTCTTCAGTTTTAGAATTATCTATTAAATTTTTCATTTTATCTATATAAGCTTTCTCTATGCTTGATAAATTATCATAATCTATAGAAAGATCTATATCCAAATATGATTTATCATCAATAATAAGATAATAGAAATACTTATATATCTCATCTCTAATTAAATCAAAATTCAAACCTAAGGTACTTTCGTTCTTTTTACCTATTATATTAACTTTTCTTATAAGATTTCTATCTGCATTTGATATGATTTGTTCAATTAATTTTTCTCTAGATTTAATACTATCTATAGGTATAATTATTTCATCAAAAAATCTTTCTCCTACTTTAATTTTTTCAAATTTATTATTATTTAGATCTCCATACATAACAAAACCAGAATTAATTTGATCTAAATCTATTAATTCAGGTGATCCACTGTAAAAACATGGTACTGTGTTGGAAAAATCTATGTTCTGATGCCAGTGACCTAATGCAATATATGAAGCATTTGAATTCTTAATTTCATCAAGAGTTATTGGGCTATCATCAAAAGCAGATTTTCCTGTAATTTGAACTGATCCATGAGCAAGAATGATCCTGTACTTTAGATTATTATTAAAATCAAAACCTACAATGGGAGAGTCTTTCATTTTATTAGAAATAGGAGGATAGGCATAAAAACCTAAAGATAAATCTTCAAATTCAATAGATTTCTTACTAGGATCATTAAAGATATATAGATTTTTATATGAATTGAAAATACTATTAGAATATATTCCATTTGCTTTTAAATAATCATGAGTTCCTGGAAGTAAGATTATCTTTATCTTATGTTTTTCTAATAAAGAAACACTATCTAAAAATTTTGCTACTACATACATTGAAGGATTATTAGAATCAAAAAGATCTCCTGATATTATTAAAAATTTAACATTCTTCTCTATAGCTATATTTACAATTTTTTCTAAAATATCGAATAAATGTTCTCTAGCCTCAATTGATTTATCTTTTAAGTAAAGAAACTTACGTCCTAAATGTATATCTGCTGTATGTATAAAAGTAATATTATTCATTATTTAATCATTATAACAAAGATGTGTTGACAAATGAAAAAACTAGTTGTAAAATATTGGCAGACATCACTAATGAGTGATAAAAGGAGGTGAATATTTATGGCAATAACAAGATGGAATCCTTATAACATAGTCTTTCCTAAATTTTTTGATGACGATGATTTTGATTTGGATAATTTTTTTCAAACAGGAACAGGATCATTAGATATTTATGAAGAAAAAGACAATGTTGTAGTGAAAATGAAAGCTCCAGGTTTTGAAAAGGAAGACTTCTCCCTAACTGTAGAAGGAGATACTTTAACTATAAAAGCGGAAGCTAAAGAAGAAAATGAAGATAAAGGAAAAAAATATTACAGAAAAGAGATTAAACATCAAAGCATAGCAAGATCTATTACTCTACCATCAAGAGTAGAAAATGATAAATCTCAAGCTGAATATAAAAATGGAGTACTTACTCTTATTCTTCCAAAATCAGAACAATCAAAACCTAAGAGTATTTCAGTAAAATAACAAAAAAAAGGAAGCAAAAGCTTCCTTTTTTTTACTTTATAAATCTAAATTAATTTCCTAATGTACCATTAAGACAAACACTTGATCCAGAAGAATTTGTAGTAGTACCACAATTATGAGTAAATAGATTATTTCCAAATATTCCACCTATTCCTAATAATCCTGATACTATTTCTACTATCAAGTAAGATCCTGCTACAATAGCAACTCCTATGATTGCATTAATAATTCTTTTTTGAGCTTCCTCTTTTCCTTTCTCTTCTCCACCTGCTGTTACCCACTGTATTCCTGCAATAACAAGAATAACAAAGAATATTAAACCTACTATTATAAAAAGAAAATTAATAATTGTAGATATTATTCCATTTGGATTTGTAGATAGAGTAGAACCTGATATAGATGCAGGAACATAACTAGTAGCTGCAAACACAGGAACTAATGTTGCTGAGATTAGAGCTGATAAAGTTAAAATTAAACTTAATATTTTATTTTTAATTCTTTTCATATTTGTTCTTATAGACTAAACTTATACTATTATAACATAGACTATATAAGATTTCTAATATTTTTGCAATATTAACCTAGACATATATGATTCTGATATGTAGTATTATTGCATTTATTCGTAAACAGAGTTTTATTAAAAAAATTATTAAACCCTAATATACCTCCTAAAACTTCTAAGATTAAATAAGATCCTCCAATAATAAATATACCTATTATTGAGTTTATTAATCTTTTTTTAGCATTTTCATTTTTTTTACTATCAGAACCAGATACCATCCACTCAACCCCAGAGATTAATACAGTTATAAAAAAAATAAAACCCACTAAAACAAACATAAAATCAATTAAAGTTGTTATTAAAATATTAGGATTTACAGAAATCATAGATTTCACTAAAATCTTAGGAATATAAGCTGTTTTATTAAAATAAGTATACATGACATCAAATCCTCAACATAACAAATCGTAAGGTTATACCAAAAAAGAATTTTAGTCAATAAAATAAGCTAATTTCCTAAATTAGAAAAGCTAAAATTTAGAGTTGATCCATGTATAAAAGAACTACTAAATTGAGGAGAAACAAAACCTGCTATAAAAACTATAATTATATATGCTAAAACTATAACAATAAGTCCAATAACTGCATATTCTAGACCTTTTCTTGATTTCTCTTTTAAGTCAGGATTGATACCACTGAAAAGATATTTAAAACCATTAATAAGTATTATTATAAATAATGCTAAAAAGACAAAATCATATAATAAAGCTATTGCTACTGCAAAGTATGAAACAAGACTTGTTAAATGGACTGCATTTGACATAATTAACTAGCACTAATACTACAATTAGAAGAAATAGGATTACTATAAAACAAAGAACCTGATACACCCAAAAGACTTGTTATTACTTCTATAATAAGAAAAGCTCCTATAACAATAACTAGGCCTATTATTGCATTAATTATACCTTTCTTTGCAGAAGATATTTTTTCAGTATCTCCACCTGCAGTAATAATTTTTATTCCTGATACTACTATCATAATAAAAAACAACAAACCTGCTAAAGAAAACAACAAAGTTATAACAGTAGTAATGGTTGAATTTATACTAGAACAACTAGTAGGCACACTACTTGTTCCTGAAAAATTACATACATTATTGGAATATGTACCTCCAATAGAACTACATGCACTCGAAGCACTTTGTGCATGAACAGTACTTCCTACACTATTATTAAAAAACAGTATTAAAAAAACAAAAAAAAAGGAAATTACTAATAATATTTTTAATTTCATACCGTATGCAACAGAACTAAACTTATAATATAAGCTAATAAGATTATACTAGCACCTATAAGGGCTCCAGTCAATACAGATTTGGCTTTACTTAGCTTATTAGAATCTCCTTGAGAAGTCATAACAAGAAATCCTGCATAAGAAACTAAAGCCAAGACTATAATACCTACTAATCCATAAATAATTGGCAAAAAGATAGACAACATTGTACTAATACTAAAAGAATGATTAGATCCAAATATATCCCCTATTGTAGGAATAGGTTGTTTTTGAATTGTGTTATGTGAAGATATAGAAATAGTAGGGTAATATACTTCATAAGTTTCACAACCAGGGCAAATTATGCTAGGTCCAGAAATTTGATAATAATAGATTACTGAACCAGAAGGTATTTTTTGAAAGTTACTATTATTACTTAATGATATTTGTGTTCCATTTTCAGAACATTTTTGACCATTAGCAGCTTGACCAAAAGTAGGTACTTGATTATATGTTTTCAAATCAACATATCCTCCACTTTTTAGATTTTTTACAATATTAGTAAAGGTAATATTTCCATTTTGAGACTTTCCATTCTTAACTCCATATGCCAAGTCAGCGCAAGTTAAATTTGTTGATCCTGATGCATGTATATTTACAGAATATGAACTTCCAAGTATATTCAATAAATATACAAAAAATATACTCACAAAAAGAATCTTTACATAAATTTTATTTTTATACTCTCCTCTCATAACTCTTTTATTCTTATTTATATCAATCCTCCAAATATAGGAAATATAGTTGATATAATTTTAATTACTACACCAGCAAGTATTATAATAACTAATCCTATTATTGCATATGTTAAAGTTTTTTGAGCACCTCCAAATTTTTCTTTATTTCCATTAGAAGTAATGATTTTAATTCCAGAAATAATAATTAAGATAAGAAAAACTAGACCTACTACAAAGTAAAATAAATTAAATGCATTAGTGATCAAACTTGAACTACTAAATAAATCACCAAAAGGAGACGTTATTGGAGCAATAACAGGAGGTATAGAGGAAGGATTATAGTTAGGAGAAATACTACCTCCTGAAGGATTAATTATATAACTCAATAAAACTTTAGATATTTTCATATTCATCATTGCAAGTATGATATATTAAATAAATTACCTATTGTTATCAATATAGCATAAGCAAACACTATTACCAAAAGTCCAATTATGGCTTTTGTCAACAAACTTTTACCTCTATTAAGTTGTTCAGGGTCACCTCCAGACATCATAATAAGATAGCCTGAAAATATTATTACTGCGAATGCTATCATAAAACCTATTGTTAATACTAATTTATATGTAAAATTAATAATACCTTTTACAGAAGTATTTATACAACCAAAATCCGTATATACATGATTATATTGACTATTTGATCCAGAGGAACTAATACCTTTTGATATACAAGACATACAAGCATTACTGTACGAAGAGCCTACACCAGAACAAGCACTATTTATATTATAATTTAAATTAATAGATTTAATATTTAAAAGATTTGTTGGAATTATAGCCATTTCATAAACTTCTTTTTTACTTGGAACTGAAGAATTAGCATCATAATAATACATTAGAGTATTTGACTTACTTAACATACTTGAACTTAATTGGGGATTTATATTTGAACAACTATAAGTGTTTACTCCTATTGAACGTATACCTCCAGAATTAAGTGTCTCAGTTAAAGTAAATTGAGAAATAACTCCTGGAGTAGAAAGCTTAGAACTACTTGATTCTGAAACAAGAGACATATCATTAACTATACTTGGATTAGAACTAAATATAGCCGAACCTATATCACTACAAATATTTCCACTTGAAGCATATGTATTTATAGGAATAAAATAGTATATAAAAATATTTAATAAAAACACAAAAAATATACTAAATTTTAACTTATTCACAAAAAATTTTTTCATAAAGATTTTCCTAAAGATTTCATTGTACCATATAAAATAATATCATTATTTTATTTTTTGTAACAGAGGGATTTATATTCACAATAGTCACAAATATATGAAGGTGTAGCTTTTATTTCTAACTCATTTATTTTTAATATTAAATTGCTTATTTTATCAGTAATTTTTTCTAAATTTAATTTGGTATAAGGAATAGAAATATCCGTACCCTCATCCGTAAAAAGAAGTTTTAGGTCTTTAATATTATCTCCAAATTTACTTTTTACTAAAAGTGAATATAGACCCAATTGCATATTAGTAGAGCTTGTATCTTGGTTTGAAGACTTACCTGTTTTATAATCGACTATAGATATAGAATTATCTTCAAAAAAATCTACTCTATCTAATCTCCCTCCAATTTTATATTTATCATCTAATAAAAAATTTATATTAAGTTCATAAAGACTCCTCACGCCCTTAGGTTTTAATATTTCAATATTTCTAATAAGCCTTTCTTCCCCTATATCTTTATATTCTTTTAAATATTTCTCATCTTTAAATAAAGATTTATCCATTGATTTCCAATATGTATCATAGATATCTTTTAAATCATCAATATTGTCATTTTTATTGTTTCTAGAAAAATATACCTTAAGAGTATTATGCACTAATGTTCCAAATTCGAGAGAAATATTCTTTTTCTTAGGTATCTTTAAGATATATTCATAATAATATTTCAAAGGGCATGTATCAAATAAACTTAACTGCGAGTATGAATACTGTTTTATTTCAAAATTTTCAGGAACTATAAAATTAGGTTTTGATTTAATTGAAACTTCAGCATTCAATCTTTCCTCTTTCTCTTTAAAAAACATTAAAAAAGGACTCTTTATTCTCTTGTTTTTTCCCTCCTCATAATAATCTGAGTATGTTGTATATAGAACTTTTTTTGTCCTAGTAATTGCAACAAAAAATAATCTTTTTTCTTCCTCTAAAAAACTAACTTCTTCTATATTTTCATGCACTAATTCTAAAGGTATCTCTATTCCATCTGATCTCTTTCTTACAGGGAATTTATCCTTTACCATATATGGGACAAAAACATAATCAAATTCTAAACCTTTAGAAGAGTGTACTGTTGATATTAATACTGCATCAATTGTATCTTCAGAAAAATCATCTAAAGATACTTTATCTAGATTCTTTATATATTTAGAAAAATGTTTAACTTTATTATTTTCTAATCTTTCTATTATAGATATAAATTTATCTATATTTTTTCTTCTTATATAAGCATTTCTATCTTTATGTACATATTCCATATAAAAACTTTCATCCAAGAACATATTTATTTTATTAACCATACCTTCTTCTTTAGAAATTTTAGATAAAATAGTATATATATTTGAAAATTTATCTACATTAAAATTTAATATATTATCGTGAATCAACCTCTTGAAAGCATGTATATAAGAAGTTTTTGATTCTTTGGCAAAATTAATAAAGCTTAAAATATCTTCATCCGAAATAGAAAAACTTGGCATTTTTAAAATTCTAAGAAATGATATATCATCTGTTAAATTCTCTAAAAAATATATTAGAGATGACAGATCTTTCACTTCAGCTGATATAGAAAAACTTGTTATACCTTTAGTATAGAAAGGGATATTACTTTCTGCAAAAATATCTGAAAAATCTCCAATACTAGAATTTGTCCTAAGTAAAATAGCAATTTGAGAAAGAGAGACACCTTCATTAATAAGTGACAACACTTCGTTTTTAATAAAACTAACTTCCTCTTGAGAATTTCTAAAACTCAATATTTTAACCGAATCTTCTTTATATTCCTTTATACATTTAAGAACTTTATGCTCTTCCATCAAAAGATAAGCATCATCTATTAGATTTTGAGAAGATCTATAATTTATATCTAAATCTATTTCTTTTGAATTGGGGTATTTCTCTTTAAAAGAATTAAAATTTGATAACGCTGCTCCTCTAAATTTATATATGCTCTGATTCTTATCTCCTACAATAGTTATATTAGGACTTAATAATGATATTATTTCGTTCTGTATATAATTTGTATCTTGAAATTCATCTATTAGTAAATATTTGTATATTTTCTGATATTTTTTTAAAATTTCGCTATTCTCTTTTAATAATCGATATAAATAATAAGTTAAATCATTAAATTCAAGTTTTGATTCTTTCAATTTAAGGTTTAAAAATTCTTTATATAAATAAGACAGTTCTTCTGCATATACATCTTTATTCTTAAGTTTAATATATTCTTCTGGAGATATATCTTCATCTTGTAATTTAGAAAAAAATTTTAGTATTTTAATTATTTCTCTGTCAGGAGAAGATATAGGTCTTAATTCTTTCAGATTAAAATTAAATATATTATCAGAAAGAAAAACAAATGATTCCATCTGATCCATAACTATAAAATCTTTTTTTAATCCTAATATTTTATGATTTTCTCGTAATAACTTTTCAGCAAAAGAATGAAAAGTATCCACCTCAACTTCTGTAAATAAACCTAATATAGGTATAAGTCTATCTTTTATCTCATCAACAGCTTTCTTTGAGAAAGTTAGTACCAATATATTATTTTCTCTATAACCTTTAGAGAGTAAATATTTAATTTTTTCAATTATTAAATGAGTTTTACCTGTACCAGGTCCAGCCTTAACTATTAATGGCGTAGTAATATTCTCAACAGCTTCTCTTTGATTTTTATTTAATTCCATTTCATAAAAACTAACTTTTATATTATATATATAAAGAAGATAATAAAAAAGGGAGTTTTCACTCCCTTTCTTTATTTGAAGGATATAGGAATTACATCATTCCACCCATTCCTCCCATATCTCCCATTCCGCCTCCTGCACCACCTTTAGATTCAGGATCAGGAATATCTACAATTACAGCATCTATAGTAAGATACATCACTGCAACTGAAGAAGAATTTTCTATTGCTAGTCTTGCAACTTTTACAGGATCTATAATTCCTTGTTCTATCATATCTACATATTCATCTGTATATGCGTTATATCCTATCTTTCCTCCTACTTTTTCAATTACAACTTCACCTTCCTTACCTCCATTAGATGCTATTTGTTTTAGAGGGTAAGATAATGCTTTTTTAAGAATTGATACACCTACCATTTCATCTTCATCAGAAAGTTTTATTGAATCTAGTACTTTTGATGCATTAAATAAAGCTAGACCTCCTCCTGCAACAATACCTTCTTCTACAGCAGCTCTTGTTGCTGCAAGTGCATCTTCTATTCTATCTTTCTTTTCTTTTAATTCTACTTCTGTAGCTGCTCCAACTTTAAGAACAGCAACTCCTCCTGTGAGTTTAGCTATTCTTTCTTGTAATTTTTCTTTATCATAATCTGAAGTAGTTTCTTCTAATTGTTTTTTTAAACTATCCACTCTAGCTGAAATATCTGCCTTAGAACCAGCTCCATCAATAATAGTGGTGTCATCTTTTGTTATAACAACTTTTCTTGCTTTACCTAGATCTTCAATTTCGGTATTTTCAAGTTTTCTTCCTATTTCTTCAGATATAACATTTCCCTTTGTTAATATTGCAATATCTTCTAACATTGCTTTCTTTCTATCTCCAAATCCTGGAGCTTTTATAGCAACAACATTTATAATACCTCTTAATTTATTAACAATAAGAGTTGCTAAAGCTTCTCCTTCTAAATCTTCACAGATTATTAACAATTCTTTTTTACCAGATTGTACTAATTTTTCCACAATAGGAAGTAAATCTTTAATAGCAGAGATTTTTACATCTGCTATTAATATATAAGGATCTTCTAATATAGCTTCTTGTCTTTCTGTATCTGTAACAAAGTAAGGAGATACGTAACCTCTATCAAAATTCATACCTTCAACAAATTCAATTTCGTTATTCATTGTTCTTGATTCATCAACAGTAATAACTCCATCTTTTCCAACTTTTTCCATAGTTTCTCCTATTAATCTTCCTATCTCTTTATCATTATTTGCAGAAATTGTAGCTACTTGTGTAATTTCTTCTGTAGAAGAAATTTTCTTACTTTGTTTTCTTAAATCTTCTACTATTTTCTCAACACCTTTCTCTATACCTCTTCTCAAAGACATAGGATTTGCTCCTGCAACAACATTCTTAACTCCTTCTGTAATAATAGCTTGAGCAAGTATTGTAGCAGTAGTAGTTCCATCTCCAGCAAGATCTGCGGTTTTAACTGCAGCTTCTTTTATTAAAGATGCTCCTACATTCTCTATTGGATCTTCTAAATCTATCTCTTTTGCAACAGTAACCCCATCTTTAGTTACTTGAGGAGAACCATAACTTTTTCCAATAGCTACTAATCTTCCTTTTGGACCTAATGTTATTTTTACAGAATCAGCAAGAATATCTATTCCGACCTTTATTTTTGCTCTTGCTTCTTCGTTTAATACTACTTTTTTTGCCATATATTTTTAAAAACTAAAATAAATTATTCTAAAATACCTAAAATATCAGATTCTGACATTATTAAATAGTCTTCATCCTCTATAGTAAATTCTGTTGGAGAATATTTTTTAAAGATAACCATGTCTCCTACTTTAACTGTGAAATCAACTCTCTTTCCATCTTCTAGAACCTTACCTGTACCTAAGGCTACTACAGTTCCTTTTTGTGGAGTATCTTTAGATACAGTATCAGGAATAACTATACCTGATTTAGTTTTGTTGTCTTCAACAATAGGTTTTAATACAACTTGATCCCCTATTGGTTTTATTTTTAATGTATTTGACATATTTAACTTAACTAATATAAATTTAGCAAAAAACTTATTTGTCTGCCAAAGCTATATTAACAGATGTCAATATATATTGTCAATTAGTCATTTTGATTAACAGGAGAGTCATCATCAATAGCGGAAAGTACTTTTATTTTCTTTCCATATATAAAATCTCTGAAAGAATAAACCCCTTTTGTAATTAGATCTAAATCTTCATCATTTAATATAAAAGATACAAGAAGATACACTGATACTCCTATATAAGCAGTTATTATAAATAAGAATACTATATCTATAGTCTTTGTTGTGTTAAAAATTGCATCTAAAATTTTATATACAAAATACATAACTAGAGACATAGATATACCACTTATAAATTTCTTTATTATAGGAAGATAAAATTCCATAAAGGAAAATCCTTGTAATTTTTTAGAAAGTATATATATCAAAACTATAACATTCAGACTTACTGCAATAAAAGAAGCAAACCCTAATCCTCCAATAGCCTTCCAAGTAAATGCGCTATTGAAATGTATATAGTTATTTATATTTAGAAGATTCTGTATAGTAGGAGACACTACTGGAAAATTTCCAAAAACTCTAACGAAATATAAAGCAAGGATTATATTAAGGATAAAAGTTGAGATTTCAACTATTACGGGAGTCTTTGTATCTTTAATAGCATAAAAAGCTCTAATAAGAATAGAAAGTATAGACTGCCCTACTATAGATAGGGATAAGAACATAAGTATCCAAGAAGTCAAAATAGTATCATTCCATCCAAATTTACTGTTAGATCCAGGACCTAGTATTAGTCTTACTAAAGGAAGTCTAAGGATAAGAATTAATATAAAAATAGGTATTATGAAAAATAATGTCTGATTTATAGTCTTGGATAAAGTCTGTTTAAAAGATTTTACCATCTTTAAAGAATATTCTTCTGTAAGTGTAGGAAATGATGCTTGAGCAAAACTCCAACCTACTATAGAGACTGGAAACAGATATAAACTTGAAGCCCAATTAAATGCAGTTAAAGATCCTGGCACTAAAGCAAAGGCAACAAAAGCTTCTACAAAATAAGCTAATTGAGAGAAAGCAAGTCCTATAAATCTTGGAAATGAAAGAACTAAAAGCTCTTTCATATATTTATTTTTTAGAGTTAAAATGCTTTTCTTATAGCTAAATCCTAGATATTTAGCAACTGGAAATTGAATTAAAAGATGTAATACACTTCCCAATACTATTCCCCAACAAAGACCATATACTCCTAATAAAGGTGAAAAAAACAATATTCCTATTATAAAACCAACATTATAAAGAATTGTTGCTATCTGAGTTACTAAAAATCTTTTATAAACTTGTAGAAGGGAACTAAATATAAATGATACCCCTAAAATTATAGGGGATATAAATAATATTTGCATTAATGAAGACAATAATGATATATCGCTATAAGAAAAATTAGGAATACTAGAAGATCTATATATAGTAGAAAAATATATAAATAATATTGCAATCTCTCTTGCAAAGATTATACCTAAGATACCTATACCTAAAAGTACTAGTGCAAATATGTTCAAAAAAGAGTTGAAGACTTTCCACATCATCTTAGTTTTCTTTTTAAAGATCAATTCTCCAATTACTGGAATAAGTGCAGTATTAAAAGACCCTATTATTAATATATTAAAGAATATTTGAGGTATTGAGTCTGCGGCATAAAAAATATCTAGATTACGAGAAAGTCCAAAAAAATTTGCCAATAATGTAAGTTTAAATAAACCTAAAATTTTAGCAATAATAGTAATGCTCATTATTACAAATGCAGCAGATACAATAGTGTTCTGTCTCTTTACAAAGAAAGAAGCTCCATTCTTTTGAAAACTTGTAAATATATTTCTAATCGTCATTAATAGATTTTTTGAAAAGTATAACATTAATATATTCAATATTAAAGTTCATTAAGGAAAAAAATGATATAATATATAAACTTTATAAAAATAAAGAAAATATGAGAAATTTAATAATAATACCAACATATAATGAGAGATTAAATATTGATAAATTAATAAAATCTATATTTAGACAGATTCCTGACATTTCTATACTTTTTGTTGATGATAATTCTCCTGATAAAACAGGAGACTATATAGAAACATTAGAAAAAAAATATTCAAATATTTATTTACTAAAAGGAACAAAAAAAGGTTTAGGAATAGCATATAAAAGAGGTTTTGCGTATGCTGTAAAGAATCTAAAACCAAAGTATATTATTCAAATGGATGCTGATTTATCTCACAATCCTAAGTATTTAAAAACATTAATTAAAGAATCGGATAAATATGACATTGTTATTGCCTCAAGATATATTAAAGGAGGAAGTATACCCAAAAATTGGGGACATATAAGAAAATTAATTTCTAAATTTGGAAATTCTTTCACAAAGTTAGTATTAAAAATTCCATATAAAGATTGCACTTCTGGCTTTAAAATAATAAAAGTTTCAAAGTTCAATCTCAAAGACATAGATAAGATAAAATCTAATGGTTATTTATTTCAAGTTGAACTTCTCTACTACTTTTATAAAAAACATTTATCTATAAAAGAGATACCTATAGATTTTCAAGATCGATCAAAAGGTAGTTCTAAATTGAAAATCAAAGATATATTGGAGTATTTTACAAAAATTAATAGTATTAAAAATAAATATAGAGAACTATGAAACTTAGTATAATCATTATTAATTGGAATACAAAAGATCTAACAAAACATTGTATAGAAAGTATAAAATTAAATGATATAAAATATGAAATCATCTTAGTAGATAATGGTTCTTCTGAAAGTATTGAAGATTTGAAAAAATTAAACCCTAATATACGAATAATCAAAAACAAGCAAAATTTATACTTTGCTAGAGCCAACAATGAAGCATTTTCTGTATCAAAAGGAAAATATATATTACTTTTAGGTTCAGATACAATAATAAGAAATGGAGCTATAGAAAAATTGTTAGATTTTTTAGATAACAACTCTGAATATTCTATAGTAGCACCTCAATTACTAAATAAGGACTTGAGTATACAACCCTCATGTAGAAATTTCCCTACTCTACCAAATGTTATTAAAAGTTTTTTTGATATCAATCATAAATCTAAATTCTTTGGTGAATATAAATTAAGTTACTGGGATCATAATGAGTCTAGAAATATAGTACAACCTCAAGCTACAGCTATTATGATAAGAAGGGATATTATAGAAAAATATGGTTTATTTGATGAACAATTTCCTCTCTACTTTAATGATGTAGATTTTTTTAGAAAAATGTATATTAATAATAAAAAAATATATTTTTTAAAAGATGCACAAATAATACATTTATATGGACAAAGTAGTAAAAAATTAGGTATGAAAAGAAGAATTCTTCTTTATAAAGGTTATTTACAGTATTTATTAAAATGGGGAATAATATAAATAAAGATGAAATTAAGTTTATATATTTTGATGTAGGAGATGTATTATTACATCTTAAAAAAACATCCTCAGAATATATATCAGAATATTTAAACATAGATATTAGTTTATATAGAAAGGTAATAGATAATATAAGGAAAGATAACAGATATTTATGGCAATATAGAAATATAAAAGAAGAGGAAGAATTTTTTAGAAAAATTTATACATTATTTCTCAAAAAATTAGGTTTAACATATAACGAAGAAGATTTAAATCAAATTATCAGATATGAATTGAAAAGAGACTATATTGCTAATAAAGAAGATATTAATATAATAAAAAAATTATCTGCCAAATATAGGTTAGGAGTACTTAGTAATGCAGGATCTTCAAGAAGAGAGCATGAATTAAAAATATATGATCTATATAAATATTTTGAGGTTATAATACTATCCAAAGAGGTCGGAAGTAGAAAACCAAATCCTGACATATATCAATATGCGATAGAAAAATCTTCTGAAAAACCTGAGCACATTCTTTATATAGACGATAAAGAAATAAACCTTGAAGGAGCAAGAAAAGAAGGAATAGATAATTTAATACTTTTCTCAAAAAATAAAGTAAAATCAAATTATATACAAATACAAAAAATTAGTGATATATTAAATATACTGGATTATACTCCTTGAGATTCTTTTTTTTGCAAAGCAACTTTTCTTCTCTCTCTTATCTGAATTCTTTGAATCTTTGCTTTTAGTTTTTCTTTTGTTCTTAAATTTTTTCTTCTTGCCATAGAGTAAGAGTATACAAAAAAAAACAGTATATTTCAATTATTTGTATATGATACATACAAGCTATTGATTTATTGCAAAGATTGTAATATTATGTACATAATATTACAAGTTAGTACAAATATGCAGGAATCTAAACAAAATAAAAGAATTAATATTTCTCAGGCAAGACAAAAAATAAGCCAATTATTCAATAATGTTTATAAAAATCAAGAAGAAAGAACTATTGTAGAGAAAAGTGGAATAGTAATGGGTGCGATAATAAGCCCATTTGACCTTGCAAGGCTAAAGAAACTTGATCAAAGAAGAGATGAATTTATCACAATAATGAATGATATGGGAAAAAGTTTTCAAGATGAATCTGAAGAAAGTATTTTAAAAAATTCATTGAAAGCTATAAATAAAATTAGAAAAGCTTCATAGTGAGAATAGTATTTGATACGAATATACTTGTATCCATTGTTATTGCAAAGAAAAATAGTAATCTTTATAAAATTATGGAGGCATGGTCATTAGATCTTTTTGAGGTAATAATCTCTAACCCAATTCTTGAAGAACTTAGAAATACACTATATAAAACAGAGTATTTTACTACTAGAATAAATTCAGGAACAATAGATAATTATTTAGAATTTGTACAAAAATATACTATTCCTCAAAATATTCATACAGAAATAAAAACTCAAGAATTAATAATGACATACGGTTTTGCTCCTAATCAGGAAGATAACTTTATTTTATCTACAGTTGTTGATGCAAATGCGGAATATTTAATTACTGGAGATAAAAAGATTTTACAATTAGGTATAGTTGCTAATACCAAGATAATAAATCCAGCTCAATTTGTAGAAATTCTATACAGAAAGAGATTCTTGTTAGATTAGTAATATTTTAAAAATATATATAATTATTAAAGATACTCTAAATTGTCCGACTAAAAAATAATATATATAAACAAAGTGATTAAAAATGTTAAAATAATGAGTAATTAGAAAAGTAAGAAAATACTATCAATTATTATTTATTTTCTCGATAATCTTACCAATTAATGAATTTGGTATAAATTTTAATATAAAAACAGAAATTCTATTTGTTAAACCTGCAATTACAACTCTTTTCCCTTTCATCAATCCTTCATACCCTATTAAAGCTACACTCTCTGCACTCATAGATCTATTATTAAAATCAGAAACATTTTTAAGTTTAGCAACAGATGCAAATTCAGTCTTTGTAGAACCTGGGCATAATGCTGTAACTTGAATACCTTTCTTTCTTAGTTCAAAATATAAAGCTTCTGAAAAAGATAAGACATAAGCTTTAGTAGCAAAATATACACTCATATATGGACCTGGCAAGAAACTTGCAACTGAAGCTAGATTTAGAATTTTATCTCCAGATTTCATTTGAGGCAGAATATAATAAGTAAGTTTAGTTAAACTCAATATATTAAGATTTATCATCTCTTCTTCTCTTTTTATGTCAGATATCTCAAACTCACCTCCTAGACCAAAACCTGCATTATTAACTAGTATATGTATTCTTATTTTATTATCTTTGATAAATTTAATAACATCTAATGCTGATTGAGGCAGAGATAAATCTACATCTTTGATTAAAACAGATATTTTATATCTATTTTCTAAATCTTTTTTTATACTTAGAAGTTTTTTTCTATTTCTAGATACTAAGAGTAAGTTTTTTTTATTCTTAGCAAATAGAAGCATCCATTCGTACCCTATTCCACTTGTTGCACCAGTAATTAAAACATAATTTTTCATAAATTTATTATAGCATATTAATTCTATTCTTAAAAAAATCTTCTTTTGAATAAAAGTAAAAAAAATCCAACTCTTCTTTATATTTATTAATATCTAAATATTTTGATACTCTATTTGATACTAAAGAAGCTCTTTTAGGGTCTAAAAATATAAATATTACCTTAGGATACTCTTCAAAATATTTTTTATACTCAAATGACAAATAAAAGTCAGAATAAAGGTCAATTTTCTTGAAAATTTTCATATACCCCTCTGTACCTCTATCTAATTCTAGGTATATATTACTTTTATTAAATATACAGAAACCATCAGGGGTTAGAGTATATAAATGTCCGTTATAATTAAATTTAGTAAATATCATACGATCAGAAATCCAATCAGAAAATTCTAAATTATGATTTAATGATACTTTTTTTAAATTTATGAAAAATTCATTAGATTCAATATTATGCATCAGAAATAATGAATTTCTCTCACTATTTCTCAATAAATTCTTTTTCTTTATGACTTTTAAAGCTTTTGAGAGTAAATAATAATACTTAACATTAGATAAATTATTTGTTTTTAAAAATGATATATATTTATACTCGCAAAGAACATCTAATCTTTTTTTTAAAAGAGAATCTTTATCTAGAATAAATAAATTTATCTGAGAAAAAGACAAAAAAGGATGCTCATATAAAAAATTAATAATCAAAAGATCAAAACTTATTAAAATATTTTCCATTTCATTTAATAAAGATAATTTTCAATATTATAAATATCTCCTCTAAGGTATATAGGCTTTATCAAAGAACTTTTCTTACTCTTCACTCCATTTATATCCAGATTATTCAAAACAAACAATCTTTTATCTAATATATACCCTAACTTCAAACAAAAACGTATTTCATCCGATACATAAGCCTTTTTTAATCCCAAATCATAATTTAAAATTATCAAAGCATTTGATCTTTGAATAAGATTAAATTCATCTTTCAGGTAACCTTTATTGAATATATTACTTGAGTATTCTATTTCATCATAACCTAAAATATTTTCTTTACTCTTAGGGTTTTCTTCTGTCAATATATATTCAGCGCTATACCCAACTGAATTCAAATAGTTTTTAGTAGATTGAGTTTCTTTCCTAAAATCCATCAAAGAAACCAGTAAAACGTTATATTTAATTTTTTTTGTTTTTCTCATACTTTATAATTGAACGTAAACAAGTTATTGTTCCCAATTTTAGCTAAAACCAAAAACTCTTTCATATCAGAAGGAATATCATACCCCAAGACAACAGATAAAATCTTCCTTGTGAAGGCTCCTGTGTTAAAAATATAAAAATTAGAAGTATTTTCTATTATATTATCATAATGTTTTTTTTCTATTTGCTCCAGGTACTGATTTGATAAAGTAAGAGATATACCAAACTTCCTACCTTCAGATAAAAGAAATAGAAAGGAATCTGATAAGAAATTTTGAAATTCATCTATATATATGTGTACCCTACTTTTTTCATTTTTAAATAAATCATATCTTATTTGATTTAATATTAAAGATCCTAAAAATTTGGAATTATCCTCCCCTATTAATCTTTTATTTAATGAAAATATTATAATACTTTTATTATCGATCTCTTCTGATAGATCAAAGGAAGTGTTACCTGATATGAAATCTGACACTATTTTATCTGATTTCAATCTTCCTATTTTATTCAGTATAGGAGAAATTCTTTCTGTTCTAGAACGATTATCCCATCTTGCAAATACATTATGAAAATAATCCAGAGTATCTTTATCATCAACTGATTGTAATAATTTTAATCTGAAATGATCGTCTGTTAAAAATTCTTCTATATCTAGTATATTTTTATTAGAATTAGAATACATTAAAGCTAAAAGACTTCTTCTTAATATATCTTCTGTTTGAGGTCCCCAAAAATCTTTATATAAATCTTTAAAGAGAGAGATAATAAGGTCAACTTTTAAAAAAATATTTTCATTTTTATTAACATCTAAAAGATTTATAGAGTATTTATTTTTTATAAAATCTATATATACAACTTTCTTTTTTAGAGAAGATATAGAATTAAAAACTTTTTCTGCAAGATTATGAGGATCTATAAGTACTACAGCTTCATCTAACTTTATATTTTCTATGATTAAATTTTTCATAAAAGAACTTTTACCTACCCCTGTTTTTCCAATGATATATGAATGATTATTAAAATATTTTTTTGGTATATATACTTTTTTATTATTATAAAAGCCTAAATTAATATCTTTTTTAAAAAAAATAGAAGAAGGTTTTATATTAAAATTATTCTCATTTATACTGTTTATATTATCTTTACTATTACTTATTTTAAATATATTATCTATATTTTTATTTGAAATAAAAAAATTTGAGTCTTTTTTCTTAAAATGTGTTTTTAAAAGCAAAATATCTTTTTTCGAATTTGATTTTACAATTAATATAACAAAAGATTTATCTTTAAAGTTATAAGGGTTAGCTATATAAAAAGAAAATTCTATATCTTCAAAATTTTTAAAATAGTTTATTATATCTTGATAATAATTATATGATTCATGTATAAAAAAATATTTTTTATATTTAAATTTAATATTTTTTTTCTTACTTTCTTTTATAATAATATCTGGATATTTTATATATAGACTCTTTTTAAGTTTATCTTTATATTTATTAGACATGCTTATTATCCAACTTTGTTTATTTTCGTATGATTGCAGAGTAAGTAAAGAAGGAAGATATTTGTATATATCAAACATTCCTAATTCTTTTATTTCTTTAGAAGAACTTAAATACAGAGACTTTTTATTAAAAATGATAAATGATTTAAAGAATAGAAAAATATATATAGCAAGAATTATTAAAGATATGAGATAAAGATATACATCATAAAAGGAATAAGAAATAAAAAGAAGAACTGGGATTAAATTTAGTAAATACGTCCTTTTAATACTTTTAATATAGTCTATAAATATACCTTTGAATTTAGATATAAAATTTCCTTCTTTGTGGTGTATATTTGTATATAAGATTATAAATAGAAATATATATATAAAGAAAGTTTTAGGATATATAAAAATTAATATATAGAAAAGTATAATAGAAAGAGTATATATTAAAAAACTTTTTTTCATTTCTATATAATAAACTTTTCAGAATTTAGATAGATTTTATCTTCATCACCTCTTTTGAATAAAGTTACACTGTTATCTCCCAAGACTTCAAAAGTTTTTCTATCTTGAGATAAAATTCCTGTATCTTCATCTATTCCAATAATCAAACTATTTTCAGGAAAACTCTTAAAAAATTTATCCTTTAGATATTTAAAATTCAACATTTTAGAAAACTTATTAAAATGAGGTATTACTACAAAATCTACAATTGATAAGGCTTTTTTCCATGAAAGTTTTCCTTTATTAAAACCAAATAAGCTCTCCATTACATTAAAAGGTATTAATTCACCCATAAACATTGCTCCTGCAGAAGAACCTGCTAATAAAAAATTATCCTGTTTTATTTTTTCTTTTAATTTTGCCAAGAATGGGGTATTTTGTAATGAAGAGAGAAGATACATAGGATCTCCACCTGAGAAGTATACAAAATTAGATTTATCTAATATAGATACATAATCTTCTCTGAAAGCATCTTTATGCTCTATTAAATCTATCCCTTGAGCTTCAAATCCTAAATTTTTAAAATGCAGAATACCTTCATCTATCCAATGACGATATTTTTTCTCTTTACCTGCAGCTGTAGGAATAATCAAAATGTCAGGATTTTTAATTAATGAAAGCAGTTTTAAATCTACTCTATTCATTGTAGATGTAAATTCTCCTGATCCTGCTAAAAAAATATATGACATATATCCAATATAATTTGAATAATTATATCATTTATTATGATATTTATACACAAAGCAACAAGTTATAGGCCTTATAGTAAAACCATTTTAAGATACATATTGACAAATTCTATAAGCTTTAGTATTCTATAGTTTATTATGAAATTAACTGATAGTAAAAAAGTTTTAAGTAGGAAAGACAGATATATCAGAAGTTCTCTTATATTTCTAGTAGGCATGATTAGTGCTAAGGAAAGTATAAATATATTAGAAAGAATTAAAAATCCTCATGAGATTAAAGGGACTCAAATTGAGAAAGCAAAATTAATAAATAATACCCCTGTTATTAGAAATAAAAAAGGCATACCTCTATTAAGATCATTGCGTGTATTTATAGAAAAAAATAAAGATAAGAGAAATTTATATATAGGCATACCTAATATATTTAACAAAAAAATATCTAAATTTAAATCTTTAGGATACACTACAAAAGGAAATGTAGATTTAATATTAGATAACAGAGATTTAATTACAAATATAGGAGATATAACTACATTTAATACTCTAGTAAATAACACTCTTATAGATCAAAAATCTGTAATATCAATCTCTTTAGATAAAAAAGATACAAGAATTCTTAAGGGAGGATTTACAGCATATATCTCTATACTAGCTGAAAATAAATCAGAGAAAATACTTAAAAATATAGGAAATGTTGCAATTGATGTTCATCAAAATATGTAATATTGACAAATTCTATAAGCCTTGTTATAATTAATATATTAAATTAAAAAAGATTTATTATGAACAACAAAGAAAAAGATTTATTTCAAATAATGGAAGAAAAACATACTAAAAGAAATAGAAGAAATTCTATTACTAAAAAAACTTTACGTGGAGGAATGGGAGCTTTACTGTTAACAGGAGTAGCCTTAGGGGCAGCAACTATTGAGAGAAACTTAAATAAAAGTTCTGAGGAAAATGTAAGTATGACACTTACTAATACAAATGGATTACTTCATGAAAATAATGCTTATGATGTATCACCCAATAAAGTTTTAGTACAAACAGTAAAAAAAGATGGAGTATTGATAACTTCTATATCTCAAGGAATACCTGAAGGTATGGCAAAAAAAATAGAACCTTTTTTGAATAAATCTAATTACTCTGTATACGCAACAGCTTATTTAGCTACTGGAGAAAATTTAGGAATACCTGTTACACAAGGGAGTGTTGTTAATTTTAAAACTGTAGAAAATGGTGTTACTGTTGGACAAAATCCTGTAATTTTTTATGAATTTAGTAATAAAAATTCATACCAACCTAACTATGAAGATCAAATAAAACAAGGAGGACTTGTTGGAAATGTAACTTTTAACATAGTAGGCCCTCACTCTACTCACTCATTACCTGAGTACAGTTTTAATGCTAATTAAATTATGAATGAAACTGAGACTTTTAAAAATGATCTTAGTAATTTCAAAAAATCTGCTATAGTTGCAACACTTGCTACAGCAGCAGTTACTTTAGGAACAGCTGCTGTAGAAAACTCTTCATCTTCTATATCTAAATTTCCTGTACAAAATATTGAAAGTGTACAAATAAACGAACCAATAAGTTTTCCTAAAGATAATAATGAAAAATCAAAAGGATATACTAGAGTTATAGTTATAGGAGATACTTCTTTAAAAGTTTTAAATAAGGATTATGCAAAAAATAAAAGTAGCTATTTTTTTGGTTTCTACCCAGTAGGTCCAAATGAAATATTTATAAATAATTATGAATCATATGGAATTTATGTAACAGATATTTCTGTGGGAGTTCCTGAAAAAGAATCTACTTATCTTAATAAATTTTCAAATGATCCTAATATCTCATCCACTAATGTAGAGCCTTTTTCAATATCTTCAACAAACGGTTTTTCTCAAAAAATTAATCATCCTCAACTATTTTCAATTAAAGGCAATTATGTCCTAGGAGCAGAAATTACAAGTAATAGAAAACCTACACAGAATTGGGAAACTATAGCTAAGGAACAAGGACTCTTGATGAATATAAATATTGATTTTAATAATGTACATAATTACATTATACGAACAGAGTACACAGCAAGGACAAAGAAATAATATTTAATTATTGAAGAATATCATACTGTTTTGTATGATACAGCTCTATTAATTTATCTGGATTTTTACTATATATAGAAGATGCTGCTATTAACCAACTTGGTGCAGTAAGATAAATCTCAGAAAGATTTTCGTATTTAGATATGATATCTTTCTCTTCCCCTTTATCTATATTACGTATCAATACCAAATGATCCTTAAATGTATCGTCTATACTCTTAGGTAATGAACGAAATTTTTCTAGAGCTTTTAATACTGATTCTGTATTCTTCTCTCCAAAAAATATAATATATTGAAGTATCTTTTCTTTAGAAAAAGAAATTCCAGGAAGTTTTATTATTCTATAAAATTCTTCTAACAATATTCCTTCATCTAAAGATATATTAACAGAATTTTTATTTACTAAATAAGCTGATATTATAGGGTTTAAAGATCCCCTAGTATTTAACTTTTTAGAAACTTTGTTTACTTCTCTTTTATATCTCCCATTTTCAATAGAAGGTTTCCATTTATTCCATTTATCTATATATGGGTAATATTCAGATTTATCTTTTAACAAAGATTCCATTTGTTTTCTAGTTTTTCCTAAAAAATCTACTTTTTGAAAATCACCAAATTCTAGAAATTCTTCACCAAATTCCATATCAGAAGGAACAGGAATATAACTCTCTTCTAATCTAGGAATTAAAGATTCTCTACTATATCTTCCATGTTGTAATAATTCTACTGTACTCATATATAGATTTGGATTTTATCACAATATATTAAATAAACAAAATTCACTATGAAAATTACTATAAGTTTGATATAATGCTTCTTATGGAAAACGAGTTAATTTCTCAAAAAGAAACCACACTTAAAGAAACTATTTCTATTGAGGACGTATTCAACTTACTTTCTGGATATATAGGTACTTCTACTCAAATAAATGCATCTTATTATTATGCGAGACCTCCTGAAGATAAAGCTCAGATAGATATGATGGGAGTAAAAGGTATACATAGAGATAGAAATGATGACTTGATATTTATACTTGCAGAAGGAAAGTATCTTACTAGAAAAACTTTAAGATTTGTTCCTAAAAAACTAGAAATTTATAAAAAGGAAGGAGATGAAGAAGAGAAAGTATTATCTTTAATAGAAACAATAAATCTTGATTCTATTCAATCAGGAGAACTTATCTATACTAGAGAACCACAAGAAGTATCCTCACTTTAAATATATATTTTTTTAAAATGTTAAAAATGAGCTTTTATTATGATACAATGTTCCTCAATGAAAAATAATATAGAATTATCAATTATAATGCCATGCTATAACGAAGAGAAAAGTGTTAGCATTTGTGTAAAAAAGGCATTAAAAGTAATAAAAGAATTGAAAATTACAGGAGAAGTTATAGTAATTGATAATAATTCTAGTGATAAATCATCTTCTGTTGCTAAAAAAGCTGGAGCTTTAGTTTTTTTAGAAAAGAATAAAGGTTATGGGAATGCACTTAAAAGAGGATTTAAAGAGGCTAGAGGTCAATATATAATAATGGCAGATGCAGATGACACTTATGATTTTTTAGAAAGTAAAAAATTTTATAAAAAATTAAAGGAAGGTTTCGATCTTGTTATGGGAGATAGATACAGGAAAGGAAAAATAGAAAAAGGAGCAACTCCTTTTATTCACAAAATAGGAGCTCCTATACTTACTAAAATCTTAAACATTTTTTATCATACAAATGTATCTGATGCGCATTGTGGAATGAGAGGTATTACAAAAAACGCATATAAAAAATTAAATCTTTCAACTGAAGGAATGGAGTTTGCTTCTGAAATGATAGTAAAAGCAGGAAAATTAAGATTAAAAATCACAGAAGTACCTATAACTTTATCAAAAAGAAAAGGTTCTGAAGCAAAATTAAATACATTTAAGGATGGATGGAGACATCTAACTTTCCTTTTAACCCAAGGTACTAATTTTACATTTATATACCCAGGATCATTACTTTTTTTAATTGGAATTATAATTTTTATACTACTATCCCCTGGTAAATTCACTATACTAGGAAGAACATTCTATTATCATATACTCTATATAGCTTCACTTATAACAATACTTGGATATACAATATTTACATTTGGTGTATTAACAAAACAATATTCAATTAATGAAAAATTAACAGAACAAGATAGAACAAGTATACTTATTAAAAAATTAGGGATGAATAAAATTATTCTTATAGGGTTTATATTAGTTCTAATTAGCATTCTAATACTTTCCTACTCTTATGTTATATGGGCAGAAACACATTTTGGAAGAATACTCTCTCAAGGAAGGGTTATTGCAGGAGTAACTTTATTTGTACTAGGTATACAAACTATATTCACAGGTCTATTTTCAAAAATAATAGAACTTAAAAAGTAATATTTAGATGTTTTCTTAAAATACTCTCCAACTTTTCTTCATCAATATAAATATTTTTTTCCATAAGATAAATCACATAAGATTCTATAACAAGTCTTTTGAACATAGACCAAGAATCTGCACCCTTACCTTTGAACACATTATTTTTAGAGTTTTCATATAAACCTATACACGATTTATAAAGTATCCCTAAATCTTTAATTGCTAATTCTTCTGTACTCCTTTCGTTATGAATATAACAAGCTTCCCAGTCTATTAATTTCACTTTACCTTGAGTATCTACAACAAAATTTTTTAACTGAGGATCTCCATGAAGAATACCTAATGAATGAATCAATGCCAAAGATTTAGATATACCCAAAAGTAGATCTAGAGAAATATTATAATTTACTCCACCCTCATTATATAAATCTTCCCAATTATATCTATCAAGAGATGTAACATTAAAATTTGTTTTAGTAAAAAAATATGATGCTTTAGAAGTTTTAAGATACATTACAGGAGAAAATGTAGATATCCCCATTTTTTGTAATTCTCTAATTTTCCTAATCTCCTCTACCCCATTTCTTGTATTTTTATATTCCTTTACTGCTACAGGTATAGTTTTCTCTCCTTGAAAAGAACAACATGTAAGTGTAAAAAAAGATATATTATGTGCACTACCACCTCTCATTATAGGTTGATCTTCTTGCCTTATTTCTAAAGACTCAAGATTACTCATTTTTAATTTAACAAATCTATTATCCAAATATATACCTTCTGGAATATTACGTTTGGTATCAAACTTCATTAGTCTATCAATTTTATGAAAAGGTCCTTGTGAATAAGATTCAAAGAAAGAAGGCACTTCACTATTTACCTCTGTACTGTGATCAAACTCCATGATATTTCTTATATTTAGAAATAAAAAAATCTCTAAGCTTAGTAGATTTATTCTCAGGATCTATTAATCTTATTTTTTCTAAAAATCCTTTAAAATCTTGTGGATTATGAGTATCCTCATATAATCTAAAAGAACCTGGAATTAGTTTTATCCAATCTTTTTCCCCAGAGGATATACTGAAAGAATTAATATCTAAATCTCTAAATAACAAATCATATTTATTAAAATAAGCTACAATAAAAGCAATTCTATCAAAAATCTCAAATGAACCTATATAAGAACGCTCTTGCCCTTCTTCCGTAAAATTAAAAATTTTTAAAGGAATAGAATTATTAGGAATAACGAATAATTTACCTTTACTATTCTCTTCAGCTACTCTATAAGTAAATTTACCCTCAGCTTCCCCTTGAACATCACCCTTCTTTAGAAAAAAATATCTTTTATTATCTTCTGCTATAAAATCAAGGCTAAAAGGCACTATACCATTAAAAGAATATATACCTTTTGTATTTTCTTTGTACTTTATATCAAAACCTATTAATTCCTTACTGTTATCTCCAGAATATATCTCCATATAGTTTTATATTATAAGACATATTATACCATATTAGTATCAAAAGCTTATAATATTCTTGACTCTCCATATAAGCCGTGATATTCTCCTTCATATCATTATGTATATAATAAATTCATGATATTATTGAAGAAATGAAGAAACTAGCATTTATATATGATTGCATATATCCATATCAGCTTGGAGGCGCTGAAAAACGAATATATTCCCTATCTCATTATCTTAAAAAAGATTTTGAAGTGCATATTATAGGGATGAGAAAAGAGGGTCAAAAAAAGAATTTTATAGAAAATGGAATCCATTATCATACATTAAATAAATATTCTGATTTATATAATAAAGAAGGAAAAAGAAAAATCTTCTTAAGTATACAATTTGCTTTTTCTTTATTCTTTTTTTTATTAAAGAATGATTATGAGATAATAGATACTACAGCTAATCCCTATTTCCATATATTTTCTATAAAGTTGATTTCTCTTTTTAAAAGAAAAATGAAAGTTTTCGTAACATGGCATGAGTATTGGGATCTTAATTATTGGACATCTTATTCATCTTATTTTGTAGGAATTATTGGATATATATTAGAAATATTTGCACTATACTCCTTTTCGGATATTATCTCTGTGAGTAATTTTACAAAAAAAAGAATAGAGAAGAAAATAAAAAGAAAGGTATATCTAGTAGAGAATGGTATAGATAAGATAAAAATAAAGAAAGAAAATAAAATTTATGATTTAATATATACAGGAAGAATAATTGATTTCAAAAATATAGATAAAATATTAGAACTGACAAAGATAAATAAAAAATTAAAAATAGTTATAGTTGGAGATGGTCCTGATTTAAAAAAATATAAGAATAAATATAAAAATAAAAATATTTTATTTACAGGTTTCCTAAAAAATGAAACTGATATTCATACATACATAGCTCAATCAAAAATATTTATGATGTTATCCTCAAGAGAAGGTTTTTCTATAGCTACACTTGAAGCTATGAGTATTGGATTACCTGTGATTTGTTTTAATGGTAAAGACAATGCTGCAATAGATTTTATTAAGAATTATGAGAATGGAATTCTCACAGATCTGAAACTTAAAAATATCAATAGTGCCATTAATATTATACTAAAAGACTATAATAAATATTCTGTTAATGCAAAGAAAGATTTAGATAAAAATTATCTATATAAAAATATATACCCTAGATATAAAAAGACTATTAACCTTTAGTGCAAGATATTTCATAAAAATTATCAGATATATCTTTTATCTCTATATTAGAAAAATTAGCTTTACTAATCATTAGACTAGCTTCCCTCTCAGATAACCTTATATCCATAGGAGGTCCGATTACAGTATTTTCTTTTTTCCAATCAAAATCTATTAAAAGACCTCCTTCTTTTAACATTAAGAAAGCATTTTTTAAAACTTTTGTAGGATTTGAAAAATCATGCAGTACTGTTCCTAAAAAAACTATATCTGCTATATTTTTATCTATTAAAAAATCTTCTCCTTGGGATATAAATGTCTCTACATTAAAAATTTGCATATCTTTAAGATATCCTTTCAATTTTTCTATAGCTTCTTCGTCTATATCAACTGCATATACCTGACCTTCTTTTCCAACAATCTTTGATGCAGGAATAGTAAAAAAACCATCATTAGATCCTATATCCATAAAAACATCTCCACGTTTAAGACCTATATCCATTAATATTTTTAAAGGATCTTGTGTTCTTAATCTCTCATTTTTATCATAATGAAACTTATGATACATAATATTTACCTTATAACTTAGGAGAATTATATTTCTGTCAGATGAAAGATAGATGAAATTAGTTTAGCAAATCAGAATAGATATTTTGCATAGTCTTACTTTTTATCAAAAAATTAGCACATGGGATAATTCTTGTTTCATTAGATGAAGGAGAGTAAATAAGATGCTTAGGATAAAAATCTGAAGAAAGTCTAATACCATGGTATGTTACTAAATTCTCTAACCTAAAGATCTCTCTCTCAAAAAAAGATCTATCTAGCATTTCAAAAGATACTGCATCAGAAGGAAGTTTAAATATATTTGATTTATTGTATTGCTCAAGTGTTGGTATACTGTATTCTCTAAAAATACGTAATTGAGATGATAATTCAAAATTTTTTATTATAAGACATCTTTTTTTCTCTTCTCCTTCCTCTTCAAGAAAAAAATCTATAAAACCTTTTGGAAGATAAAGATTTATGTTATTTTGCTCTCTATTTAAAGTAGCCTTTTGTGTATATACAAAAAGCTTATCTAGAGACAGTTGAGCTTCATCATAAAAAAAACTTTCTACATTCATAATATATAAATATTAATTTTGTATATTATACTACAAATCAAAGATTTCTCCATATAAATACAATAACTTGTAAATCTTAAATAAAAGATATAGTATATTATTATAGAATGGAATATTTACTAGATACCAGTTATTCTTTGAATATTGAGCCTCCTTTAGAGGAGAGAAGATATGAGATTAGAGAAAATCTTCAAAAGAGTATCTTTTTAGAAGATCCTAAAACCCATATAAGATTTGATAGTAGATTTCTTAATTTCAAAGAAGGAGACAGAGATAGTACTTTAGTAATATTCCCTCCTTATGGATTTAATACAGAAAATAGATTATATAGCTATTTTTTAGAAACTTTTGCCACAAAATATAGAAACCCAATTATTGCTATAAATCACTTATCTACACTCAAATCATCTCAATTAAATCTTGAACAACATGTCTCACTTCTTTCAAATTCTGATTTTTCTTCTATAACAATTCCTTTCCTAAGAGCTCTTTCTAATAATGATTTTTCGAACATAAATTTATATGGTTATTCTATGGGAGGAAGAGTATCTGCTAGTGTAGCTTTACATGCAAAAGAATTTGGAATAAATATAGAAAAATTAATAATGGTAGATCCTGCAGGAATAAAACATACTACACTAATAGATTTTATAGAAGAAATACCAGGTTTTATACATCACAGAAAAGATGCAAGAGATGAAGAACAAATAAAAGCATGTGGTTTAGACGATGCATTTTTAACGCAAATAGTTAAACTATCTCAAGAATTTATTCCTAGTAGAGTAGAAGATCAAAATGCTCTATTAACATATGCTATAGCACTGCAAAGAAAGAAATTATTACCAGATGTTATAGGGTTTTTAAAAAATAATGAGAAATCAAATATAGTTCTCATAAATGGAGGAAGTAGTAAAATATGTCCAACTAAATCAGCATTAGAACTCATTAATATTATAGAAAAAAATGGTTATAGTAATAGATATGAGCATCTAATATTAGAGGAAGAACCTCATGCTATTGGAATAAATGCAAGAATAATGTCAGATTTAGCAACCTCATACCTCCCCTAATCCATTTTCCTGAATTCTTTTTAGTTAAAAAGAATATTAACTATATAACATATCTCTTATAAAGTTCTCACTACAAGATGAACAAAAAGATATATCTCCCCCGTCATTTTTCATAATTTCAATATCCTTTCCGCAATATGGACATTTAGAATTATCTTGCATGTTTATAATAAAATAAAATAAACTATTTATAGTATCTACCCTGTTTATTAAAAAGAGATTAATCCTAAAAATACTTATATATTATATGGATGCAGGAGTTTTTAAATTAATAAGCTTTTGGATAAGAATAGGTACTGTTATGAGTAGTTGATCCATTTACAGGTCTAATAGAAGATCCTGTCCAAACCTGAGACCCACTCGTATGGAGATTAGGATAGACTATATACCATAAAAACCAACCCAATATAATACCTATGATAAGTGAAACTATAGCTATAAATATTTTAGAAGACATAATATTTTTCATATTAATTATATTCTAAATCTCTTCTATAAATTACCTCCATTATTTCCCATGTTTATTAAAAATAGATTAAAGCTAGAAGCCTTCTATATTAAGAAGTTTTTAAATTAATAATTAATCTCCAAGAAAACTTTTTAATAATTTATAGAAAATATCTAGAGATTTCTTTTTTGCTTGAGATTTTTTAGACCCAGATACTACTGTATCTACAGACCACTTATAAGGAACTGAGACTTTTCTTGCCTTTGAAGCAAGATAAGCTCTATTATTTGGATACAGAGGACTAAATTTACCAAAAACATTAAAAACTCTCTCTATACCATCATATTTTGAATATCTTTTCTCGGAGAAAATATCTTCTTTAGGATTATTCATAATATCCCTATACTCTAGATTCGGATCAAATTTTTTAAATATCTCATCAGGAGTATTAACACTAATATTACCATCCAACCCCCTACCCTCTGAATTCAAAAATTTTAATAATTTTTCAACTCTTGTTTTATTATGAAATGCAATTATTTGAATATTAGGAATTACACCTTCTTCTTTATTAATACTTTTTATATACATTCGTAATAAAGGTCTTAATAGCCTTAATTCAATATGAGTATTAAATGCTTTATCTCTAGCTATTATGTGATCTTCCTCTATTCCTAGTTCCATTAGAGTATCTTGTAATACTTTTGAATATTCTTCATATTTTACTGAATCTTTTTTACTAAAATGATCTATATTTGAAGCAGAAGAAAGAATATATGGTTTTTTTGATGATTTTTCAGAGATTATAAAAGCAGCAAGAGACATAGAGTATAATCTATCTTTATTTTCTGAGCTGTGCCAAGGGTCTCCTGCACCTATAAGCATAATAACATCAGGAAATTCTCTTTTTTTTTTCAATTTCAAAATTACAGTTTTCTATATTCATATCATAATAAATGAATGAAAGATATAAGACCTAGAATAAAGATAAAAATTATAAAAAGGAAGAAGAAAAAACAAGAAAAACATCCTAGTACTCCATGAGAGGAATATAAATCTTTTGTTTTTCCTATTGTATATACTTGAATATTTCTATTATTCATCAGATTACTTACTTTTATAATAAATTATACTACTAACATACTCTAATCTCCTAACTTAAATTTAATAAAGATAAAATATATACCTTAATGATTTATAAATATGAATATATGATTTATAATTAACTAAATACATGGAGAGCCAAGCAAAATACAAAAAATTCATAGAAAGACTAAATACTAATTGGTCTTTGTTTATACAAAAAAGGAAAGCTCTCCTTTCTCAACAAGAAAGATTTGGAAAAGCTCCTGAAAAAATTACAGAAAATATAATATTTCATCTTTTTACAGAAGTATTAGATTGGGATATAAAAGATATAAATTATCAGATAGATTATGCTGATATAGAAATTACAAAGCTTGGAGTAAAAAGAATACTAATTGAGGCAAAAAGACCAGGAGGTATTAGCTGGAATATGAAACAAATAGAAAAACATATAGCACAAGCTCTCAGATATGCATATAAGCAAAAAGTTTCAATAATAGGAATATCTGATGGAAATAAACTTTATATGCTAAATGTTAAAGGAGGATTAACAGAACCACGAATCTTTATATCCCTAGATGAAGACTTACCACATGAAGATTTATACTATATAAGTGTAAATGGAGTAGATAAAGAAAAAAATATAAATATAGATTTTAAAAATTCTAAAAAAGAAGTTTTAGGAAAATATGACAGCACTGATACAAATTCAGATGAGCTATTAAATAAACAATATAAGCTTCCAGCTAGATGTTTTGCATATGTAGGTGATCCTAATAATCCTTATACATGGAAACTCCCCTACCTATCCTTGGACGGATCAGTAAACGTAGCAAGATTACCTGGAGCAATAGGTTGTGTTGTTACAAATTTCAGAGGCCTGCAAGTAAAAACAATTCCAGAAAAAGAGATTCCTCAAGTTATTATAAAACTTGCTAAAGCTACAAAAAGTGTGGGGAAATTAAATCCAGATAATCCTAAAATGGCAAATTGTTATAAACAATTATATAATGCTGTAGATCAGATGGGAGGGTTAGATAAAATATAATAGATTATTTTTTTAATTTTAAAAACTCTAAATACGATTAAACTTGCAATCATGGCAAATAGAAATGTATACAAATATGCATCTGATTGGCTAACCATAAAGATTAGACCTACTATAATATTTGAAGCAGAAGATTATAATATCTCTCATAAAACTAAAAATAATATTTAAACCCTCCATTCCTTCAATATAAACATATGTAATTCATAAACTATAACTTTTACTAAATTTGACTTTTTATACTTGTTCTTATCCAAGATTTATAGCAGGTATACTGTTTTGTTGATACAGAATATGCTCCTTAGAACATGTGTCATTCATTTCATCAACCATTGGATATATATTCGTGCCAAAGTTTAAATTAAATTCCACTGTTGGAAATATCTTAAAGTTATTACTAGTATATACTGCTATAATAAAACTAAAATTATTAATCTTCAATCCTTGAAAAATATGTGGGGTAACACCATATATATTAATATTAGTAACTGATTTACCAACTAAAAGTATATTGAAGTAGCATGGATTTTCTATAGGTATAACTAAGTATGGATTTTTGTAATCAACATCATTAACATTTTTATATCTTTTAAATTCCGTTGGGATAGTAGTCCATAGATTCCCCACATAGTTTTCATTCTTTAAATCTTTTAAAAAATGTTTTTTCTGTCTTGATGAAAAAATATCTTCTTATTGCCAATACTAGAGAAAACTTTAGTGCTAGATATTCCAGAAATGTGGTGTACAAAATGTTCAGGATAAACACCCTCTTTTATTTTATTTGCACTATAATTTACTACAAATTTATTCGTTCTAAGATTAATTGGAATAATACCATCTCCTATAAAGTTTGTTTTTCCTGTTACATTTGAAGACAAATAAATATCTCCTTTATTAGCTTCTGTTAGATTATGTGTATGATAATATTTTCCTTTATAAAAAAGTATATTTTAAGATTAACATTTTGACTAACTGACATAACAAATATCAACAAATAATATAATTGTATTCACTTCTTCACCTTACCATTCAAATCATACAGAGAGATAATATAAGCATCAATAATCGATCTTTTACTGTTTTTGAAAAATGTACTCCTTCTAATAAAAATTATAGAAATGAAAACAAAAATCAGTAGTATTATTAATCCATGATAGAAAGATATATATAATTTCATACTAAACAAATGAATATTTAATTTAGTAAATAGAGAAAAACTAAAATAAACCCATCCAAATATCAAAAATATTATACCTGTAGATTCATTAAATATTTTCAAATACTCTAGGTACCCAAATGAACTATTAAAGGTTGGATTTTGTTCTACAATAACCTCCTTAATATAATATAGACTCAAATATCCATACTTACTAACACCTTTCAACTTTTTGTTTGCATCTTCATGCATTAAAATAGTATCTCTAATATTCGGATAGAATAAACAAACAATAAAATTTTTTATAGAGCAAGAAGTATCTTTTTTGTGTACCCATGCGTAATTTTCTATCCAATTATTAAATATTGTGGAGATCTGATGAATAAATTGCCCCACAAAGTAAGATGCTATCAGTATAAATATATAGTACTGAGAAAATAGATCATATTGATTAGATGAAAAAAACGTGGATAAGAAAAAAAGTAATAGCCCTCCAGGAAAAATATATGAGAATATATCAAAAATAGAAAAAGTAAAGCCATTTATAAAATTCCCCAAGTCTTCAAATCCTGTTTATTTTAATATCTTGATTATACCTCATTTATAAAGAAGAATGTATAGGATGATATAGAAAAAAGAGATCATATATGAGGTAATTGTTATGACTTTATAAATTCTACCGGAATCTAATAACCTTATTAAATATTTTTATTTTGTAATTTTCTCAAAATATGCAATAGTTTTTATTAACCCCTCTTTTAATAAAATTTCAGGATTCCAATTCAATTTTTCTTTTGCTAAGAAAGCTTCTGATACAATAAAAGCTGCCAATGCTATAGAATATGGTCTTTCTTCATTCTCTTTACTATTCCAAGGGTCTCCTGCTCCTATAAGCATAATAGCATCAGGATAGATAAGCTCCTCTTTTTATTCTTCTAAGAAATATACTTACTTTAATAATTTATAATATCATCCTTATAGCATTTTTCCAAATTTATTTTTCACACCATCATTTATGCCTTTAATTATATATATAAATTTTTTTGCTTTATTTTTTTCAAAAAATATGATTCCTACAATTTCCTTTATTGAATCTAATGCATGCAGCAACATAAATTTTGGGAAAAATTTACCATACTTCTTATATATATATATCTTATTTCTAGATATATAATACCTCCTAATATAACTATAGTTTGCTACAGTAAATTTCTTCCCCATAAATAAATGAGTTTTTAGATTTCCTGAATGATGTTTTAAAATTGCATCATCTGCTTCTAATATCAGATATCCCTTAATTTTACATCTAAAGCAAAATTCATAATCTACATAATCAATAAATAAGTCATCGTTGAAAAATCCAACATCTTTGAATATATCAATTCTTATAATATTTCCTGATGCCATTACAGGAATTTGTATGTGATACCTAGATGAATTTTTAATTGATAGCATTATATCTTCTTTAAATAATTTTTTTTGTATATGTTTTGGAGATATAATTGCTAATGTTTCTTTCTCAGGAAAAGCTTTATATACATTTTCCATGACTTTAATCATATTTTGGGTTACTGTACTATCTTGATCAAAAGTAGCAACCCATTTATAACCATTCTTAATTGCATATTTTACCCCAATATTAAGTGCTGTAGCTATACCCAAATTTTCACCATTATATATAATTTTACATTTATATAAATCTCCAATTTGTTCTATATATTTTTTACTAATAGATATGGATCCATTATCAACAATAACTATTGTTTTTATTTGCCTATACAACTCCTTTACATTAAATACAACCTCTTTACCTGGATTATATGTGACAATAATTGCACAAATTTCATCATTTATTAACATAGAATTCTTTATTACTTAATATTTTTTATAAATAATTAATATATTGTTGTTCAAACAGGAATATTTGATAAATCAATTTTAGTCCCAATTTACAGTTCTTTTATAATATATAATAGATTTTATTTCAAATTAAAAATTGTTCTAAACTATATATTATGAATTTAAAGAAAGAAATAATTCTTCAAAGATTTTAATATTTTTCTTTATATTAAAATCTTTTTTCAATGTCAAAAAAGCATTACATCCTAAATATTGAGATTCAATATCGTAATTATCTAATAATTTTGATATTGAATTATACAAACCGTTAACACTCTTTTTTTTAACCAAGTATCCATTATATTTATCTTGTATAACTTCTGCATTTCCATCAACATTCGTTGCAATTACTGGCAAAGAATGTTCCATTGCCTCTAAAATAGAGAGAGGCAAACCTTCATAAAGAGATGGAAGTATAAATATATCTGAAGAGTTTAATATATTATCAATATCTTCTCGAAATCCTAAAAAAAATATTTTGTTATCTAAAAAGTACTCTTTTATTATTTTTTTTAAAATAAATTCAATTTCTCCTTCACCAACAAAAATAAATTTTAAATCTCTATATTTTTTCACCAATTTTTTTATTGCTTTTATTAAGTATATATGCCCTTTCTGAGAAGTTAACCTGGCAATAGTAACTATTATTCTATCTTCTTTTTTAAAATTCATCTCTTTTCTAAAAATATTATTCTTTTTAAATCTTTTTATTTCTATAGAATTTTTAATTACTTTAATTTTTTTATTTTTTATGTGGAACTTATTTATAAAAGTTTCCTTATTTTTATTAGATACCATAATAAATATAGTAATATATTTATCAATAATATAAATCCAAAGGTGATTTAATTTTCTCTTGAAAATATTAACTTCATCCTCATTTGGGACTAATTGTTCAGCTGCAATAACTGCAAATTTCCTAAAAAAAGGAAATATAGAAAACATAACAGGTTTACAATCATAATGATGTACAAAATTTACATATACTATATCGGGTTCAATATTATATATTATTTTTATAAGTTCATATGTAGTTCTAATATCAAACTCTCTATATCTTGCGGCTGGAAATCTAACAATTTTCACTTTTAAATCTTTTATTTTATCTAATAGAATTTCTGTTCCTTTAGAATCTGTACATGCCAAGGTAAGATTAAATTTAGTTTTATCTAAAAATTTGAGTAATAAGTATAAGTTTTTCTCAGCTCCGCCGAATATGGTTGAATCTGAAATTATTAAAATAGATTTTTTCACATTAATAAATTTATAAAACTGGATATGCACATTATATCATATATGTTTATAAATATTTTGTAATTTTTTACCAACTATATCCCAATCATACTCTAGTTCTATAAGCTTTCTGGCTTCTTTACTATATCTATCAAATATATTAGCATTAGTAAAAAGTAAATTTACTGCTTCAATAAAAGTGCTAACAGTATCTGCAATAATTATATTCTTTTTATCTTCAACTTGTATTCCTTCAGCTCCTTTGCTTGTAGAAATAACTGGTTTTCCACAACTCATATACTCTAGTATTTTAAGACGAGTACCTGAACCTGAAATAATAGGACAAATACCAATTGATGCTTTATGTATATATTGTCTTACATCAGGCACAAATCCTGGCAATATAATACTCTTGTCAGTTTTTGCTAATATAGATAACCAGTTAGGAGGTTTTCCGCATAAAACATATATTTTTATATTGTATATTTTTTTTATTTCTTCATGAATTCGAGAAAAATAAAATTTTAGAGCTTCTTCATTAGGAGGATAATTACACCCTCCCATAAAAATCAAAGACTGTTTTTTTGGTTTTTTCTCAAGAGTAAAATAAGAAATATCTGCGCCATTAGGGATAACCACTACTTTTGAAGAACTCACTATTCTTGCAATAATATTTTTATCATAATCAGAACATGCAAAAATTAAATCCACATATTCAAAAGCTTCTTTTTCTATTTTTTTCAAATTTGGGAGGATCCGCATTGCTACATTTCTTTTAATAAAACCAAAAGAAGAGATAGCCCCTTTTAATGCTATTTCTTCTATATTATGTGCATCGAGGATAATTTTGATTCCTTTATCTTTAAGGTATGGAATATGATCTTTCATCATAAAATATGCATTTAATTGTTCTAACTGCAAAATAGAAGGTTTTTCTTCTTCTATTTTTTTTAAAATGAAAGTTTTGAAATCTAAATCATTAAATTCTTCCATATAAGGGACTACTCTTTTTATAATAGATATATATATTTTCTTAAATAAATTAAAAGATATCTTTTTTTTTGTATAAATAGGAATATTTAATTTTTTTTTTGTAGAATTTAAAAAAGGTTCTGATTTTTTATCAAAAACACTAAAAAGAGATACTGAAAACTTATTTTTTGCTATTTGGTTTATAAGATTAAAATTTCTTGCAGGAGTTCCACCTGTCAGTGCAGGAAATTCAGTAGAAACTATAAATATCTTATTTTTTGTCATATATTTCTTGTCAATTACTAATTATCATAATACCTTACAAATTGCTCTCAAAAAGCCTTTGGAAGCTTTTTTTATATCAGATACTCCACTATTCCCTAAATTGTGTTCTTGCATAGATTTAAGTTTTTTTTTGTCATTAATTAGTTCAGTCATTGCAGAATATAATTGTTCTAGATTATTAGATTTAAAAATCAAGCCTGTGTTTGTATCAATTAATTCTGTTGCACCTATTGTATCAGAAGTGATTACTCCAAGACCATAATGTATTGCCTCATTAACAACTAGTCCCCAAGAGTCATCCAGTGAAGGTAAAACTAATATATCAGAAGTGGCATATAAATTTGATTTATCTACTCCTTCTTTATTTCCAGTAAATATAATTCTATTATCATTCTTAGATAATTTCTTTAGTTGAATTTCAGATGGTCCAGTTCCAACTATATATAATTTAGCTTTATTATCATCAATTTTTTTAAATGCCCTTATTAGTAATTGAATGTTCTTACGAGGAATGAGATACCCTACATATATAAATGTTTTACCATTCCTTACAAATTTTTTACTATGTTCAGGTAACTGATCTAGTGGTATAATTTCATATGTACGAGTAATCTTTTCTACACTTACTTTATTCTCTATCAAAAATTCCCTAGCTTTATTACTAAATGCTAAAAAATGATCAGCCCCACGTAGATATATTTTCCTATATTTGGTAATAAAAAAAGTCAGTAAGTACAGTATTATTTTATTAAAAGCATTAGTATTACCATATACTAAGCTAGGAAAAAAATGTACCTCTTTATTAATAGCCTCAGACCATAAAATAATTTTTTTTCTACGTAATTTTGATAATATAAACGCCATAAAAACTATCGGAGCTACATCTGGATCACTATTAATAATAACAACATCAAAATTAGTTTTTATTAATTTCCACAGAGCATTTGTGTTTATAATAATTGGGCCGAAAGAAAATCCTCTAAGAATATCATATTTAAAATTATACTCACCTAGATCAAACTTCCATACTCTATCTTTTGTGATAGATTTACAAAAATACACAGTCAAGTTTACATTTTTATTTAATTCTTCAAATAAAGGTAATCTATAAGGAGAAACAATATTATGTATAATACATACTTTTAAACTGCCAACCTTATCTCTTTTATTATTGTATTTTTTCATAAATTTGAACTAATTTTTTTGCAATATTTGTCCAATTATAATCTTTTTTAACTATATTTTGTAACACTGTAACTTCATTAGAAAAATCTTTAGTGTGATTTTCTTTTAAAAACATATATATTTGTTTAGATATATCTTTATCTTTATCTATAGAATATCCACCTATATTACCAAGTAAATCTTTAAGTCCTTTTTCTTTTAATAAAATAGGGTAACAACCACCGCTAATTGCTTCCAAAACTACACCTCCAAAACCTTCACCTGATGAAGGAAATATAAAGAATTTACTTGATCTGTAAAAATTTATTAAATCTTTATCTCTAACATTTGTATTTATTGATATATTCTGTAATTCATAATCTTCAATATTTTTTTCAAGAATATTTTTATATCCATAATCTTTTCCAATAATTAAAGTATTTGGGAATATTCCATCATTTTTTAACATCTCTAATGTTTTTATTATATATTGGGCTCCCTTATATTCGGTTAATCTACCTACAAATAAAATATCTATAGACTTATTATTATTAGTTGTTTTATAATTATTAAAATCTATACCAATGGGTAGTATCTCTATCTTTCCTGATTCTATATTCATTTTTTTTACTCTTTTTTTTAATTCATTAGTTAATACAATTATTTTTGAAGATCTTTTTAGAGTTAACCTGCCAAAAGATTTATCATAAAATGTTTCTTTTAATTTTTTTAAAAATCCTTCAAAAGGAACATCTATGTCTTGGGGAGAATGAACAATCTTTATATTTCTAAATATAAGTGAAATGACGGATACCATATCAGGTTCAGCATACATATAACAATATGTATGGACAATATAATATTTTTGTATATTTAAAAGTAAGAAAAAAAACATGGAAGGATTTATCATTACTGTAAAAAATTGAAATATGGGAGAGAATCTAAAGATATTAATACCTCCTATTGTTTCTTTTTTTAATAATTTATTATTTTTACTCTTAAAAGTAAATCTTCTTCCTGAAGAAAAACCCCTAACATCTAAATTATCTAATGAATCTGTAGTAACTATATCAACGTCATATCCTAATTTTGTAAGTTCTTTTGCATACAGAAAACTATAATTCTGAGTTCCGCCAACTGAGGGGTAAAAACGTTGTAATACAAATAATATTTTATTTTTTTTCATGATTTATTTTTATAAACCTAATCTATACCAGAAAATTTTGAAAATGTTGGAGTTAATACTGCTATTTTCATATAAAAATGATTATATCATTTAATTATAATGATTTCTTCAAATATTTATATAATAAATTAATTTAAATTATTAAGAAGTGTATATGTTAATTTCTACTCTCTGTAGTTTTTAATATAGCAAAAACTAATAATGCTCCTATTTTTTCTTCCTCAGACTCTAGAGAATTATCTATAGTATCATAAGTTACAGAATTTTTTGTTTTTATTGTTTCTTTAATAGAGTTTATTGAGTTACTTTCTGTACTCATGCTATTAAAATATTCTTTAATTCCTTTAAAAGTAGAAGAATTTTTTATTTTTTCTATATCAAAAACTGATAATGCAGGAACTTTTCCCTTTAATTTTATAGCTATATTATCATATGTAAGTCCAACACCTATAATAAAATCTGTATATTTATTATTATTTTCAGTATATTTATGTAATTCTTTGAGATTAAGGTCACTGTTTTCTCTTATTCCTGTTATAAGGTCATATAGATTTGGATTTCCATTCTTCATAAATTCAAAAGCATCCTCAGCTCTTATACCTTTTGATTCATTATCACTAAATTCATTAATATCAGGAATTTTTAAAGAAGAGTTTCTCTCTGCAAGAGGAGATTGTATTGTTTCAAAATTTTGCATATATATTATAAAATGATTTAATTAAATAATATTGTATAGAAACCTATAGTTTTTGTCAATAACACATACTGAATGTTAAGTATTTACTCTATTTAAAGCTTTTTTATGACAAATATATCCTCTAGTATTTTCGCATAAATTGAAATAATATAAAAATATTTAAAATATAAAATTCTAGATATTCTTCCAAATAATAGATTACTTATTTTTTTTAATTCTTTAGATTATATTTTCCCCTCTTTATCTATTCCTCTAAATTTAGAAAAGTTAAGATTAATATTACCATTTTCATATTAAGAATTATATTACTTATACCTAAACAAATTTAGAAAAATATTTAGAATGCCCAAATTTAATCCCATAATATTTCAAGCAAATGTGGCTTGATTATAAGAATGTGTATGTAAGAATAAATATAATATTATTAATATAGTAATAAGAATTATAACCTTTAATACATCCTGCTTTTGTATTTTAATATCTGAATAATATTTACATATTATAAATATTATTAATAAAGGTATAAAAATAAAATATATTCCAAAAAAAATATATATATAAAAATTTGTCATAAAACCTGGCTTATATTCACTCATGTATCTTTTCAAAACATACCATGAATTTTTTATGTTTTTTAGATTAAATGCACCTAAATTATAAGTAAAGCCCATTAATATTCCACCTTTTATCTTTTTTCTATTATAAATTATATTACTATTAGATTTTACTACAGCAATATCAATATTTTCTGTTTTTATTATATTTTCTCCCATTATCTCTATTGTATATAATTGTTTATTTTTCAAACCACAATTAATAGAATTCAATGAATTAGTCTTTATATATATTATAGGAATTATTTGAGAACAAAAATCTTTATTGTGTGATTTTACAACCACCTTAATGGTATTTGTAATATTACGGTTAAAATTAGAGGTACTATTATTTATAAGAAATAAGTTTATGCTACTTAAATTATAATTATTTATATAAAAAGTTTCTGTAATTATCTTTTTATTATTTATTCTTAATAAATTTTCTGGGGTTTGATAGTGGAACTTATTCTGAACGACATATTGATTTACAATATAAAAAAAGGAAGCCATAAAAAATATATATAAAATAACTATAGATATTATAAAGGTAACTAATATTCTAATTTTTTTTATATTAAATCTTTCCATAATCCACCTATAAATAGAATTTATTTATTAATATTTGAAATAATCCTGTTGTATTTAACAAAACTATTCCTATTATTATTATGAAATAGATTGTATTTTTTAATTTAAACCTTTTAAAAAATTCTCCTATTCCGAAAAGAAACAGAATTGTATTCGCAGTTATTATTTCAAAAAAATAATGCCCTTGTATAAAAAATGTCCCAGTATTTTTTATAGATATAAAATCTAAATATACAAGAAATAAAGAATATGTTAATGATAATATTATTAAATAATTAATTGTATACAAAAGTTTCCTATTTTTTTTAGTTATATAAGTTAAATTATAGTAATATATTATTATCCCAATAATTGATGTACTTAAAAATAAGTATAAAATATCATAATATTGTTGAGGAAATTTAAAAAATCCCCAACCAAAAGCTCCCCAAAAAGATTGAAATACATATCCATTAAAAAAATAATTTGTAGAATATTTGTAAATATAGTCTAGTGGAGAAAAATATTTCCAACTATTAAATGTACCACTTATATAATCAAATATTAATGTAAATCCTTTTAAAAAGAAAAATATTAATATTAAGAAAAAAAAACCTAAAATTAATATTTGTTTATATCTTAATGACAGTTTTTTATTTTTTAATTTATACCCTATTAAAAACAAATAAGGAATACATAGTATATAAGCACTTTGTTTTGTCATGAAACCTAATAATAATATTATTACTAATACTATATTTGTTTTTTGAGAAAAACCGCTAGATCTTAATAGTTTAAGTGAATAATAAGTAAACAGCGTAAACAATGTTATTAATAAATTATCTGGATTAATAGATACTGACAATTGCGATAACATAGGCAAAAACCCTATAAAAATTACTGTACAATATTGTATCCAGATATCTTCTGGAAATATTAATAAAGCAATTTTATAGGAGAATATCAATGTAATTAGAAAAAAGAATATAGATATAAAACGAATAGCTTCTATACTAAAAAATATACTCTTTTGTTTAGTAATTTTATATACAACTGCTGATATATAATAATAAAGTGGGGGGTAATTCTCAACTATAGCTACATGTGTAAATGTATTTCTATTAATCTTAGTATTTGATTTTTTATCAAATATATATTTTCTTATATTATAGTTTTTACTTATAAAATGATATTGAGAATTCACATTAGCATTAAATATATTAAATTTTAAAAAATTTTCTAATAAAAATTGCTCATTACTTATTGTATTATTCATATCATATTGGTTAGTTTCTGCTATATGTTGTATCTGAGCAAAATGAGCGGGTTCATCAAAAGATTGAAATACAGGTAAAGATATCCACCAAATTAACAAAGATATAAATATAGTGAAAATTATAAAAATTATTGATTTATCGTATTTTTTTAATTTCATATAAAACATTTTTTAATCTCAGATAATTACTAATAATATATTTCCATATAATACTATTTTGTATATTATTTAAGTGAAATAATAATAAATTTTTCTCATTTATAGCGTTTTGTATTAATCTTTTTTCCTCTATATAAGTAGAATAATGCTCAGAAGATATTCTCTTTATATCTTCATTAGTATGATTCAAATCTTTGATATAAACATATTTTTCATATAAATCTAAATACTCTTTAATATTTTCATTTAAAGTTTTAACATGTATTTCTTTAGTCTCATTTTTTAGTTTTTTATATTCAACATTATTTTTCTTTAGCGAGATGATAGTCTTTATAAATTCATCAGAAGACAGACTATTTAGTATAAATCCACCTCCCCCATATTTTTTTATCCTCTCTGGTACCGCACCCAAAGGAAAAGTGACTACCGGGATTTTTGCTAACAATGCTTCACTAAAGGTATATGAAAAAGTTTCTGGCCAAATGGATACTAATCCAATTATATCTGGATTAATTTTTTTCAAAATTTCCACAACATTATTTCTTTTGTAAGATCCATGTAAAATCAAATTTTGTTTATGAATATTCTTCCAGTAGAGTTCTTCTGTTCCTAATAAATGTATCTCTACACCTCTATTTGAAAGAGATGTAATAACTTTTTTTAAAGTATTATTTCCTTTTTGAGATGCATTTGTGTATCCTAAGAACAAAATACTGAATTTCTTTTTATCTGCCATCTTGATTGATCCTATATTAAAATTTTTATCTGGCACTAAAGTTTCTCCATGTTCTATTACTAATGAGTTTTTTATATTATAAACATTACTAAATTCTGATTTTGCACTCTCACTAGGAAATATAAAAAGATTTACTAATGATATTACTTTACTAATATTTTTTTGCCAATCTTCTTGTTTAAAATTTTTAATAAGAAGTTTCTTTTCAAAATATTTACTATCTGGAACTATATCTTTATTGTAAATTTCGTCCTTATATCTATACAATAGATTGTAATCTGGAGAAATCAAATAATAATCATGTATTGTCATAATAATAGGAATACCTAAAGATTTAGCGGAAAAAATAATATCAAAACTATTATTTAGTAGATGTTGTACATGTATTAGGTTTATATTGAGAATTTTTAAGATTTCTATATATTTGTAATATAAAAAATCATTCCTAAATAAATAAGATTGCAAAGGATATGGAATATCAAAAAGGTAAGAAGTCTTTATATTATCAACATACTCTTCAACAATAATCTTGTTATCTTTAATATACAAAACATAGCAATCAATTTTATTATCAATATTATTTACTAAATCTTTTAAATGAAATTCAGTTCCTCCAATATTATCTCCGTTAATAGGAAAGTGAATAACATACAATATCCTTCTCTTGTTTAAGCTTAAAGAAGATGTTACAGATTGAATTATACTATTCTTTATATTGTTGAAAACTCTTGTCTCAATAAAATTATTTATTATAGCTCCATAATCAGGATATCTTTTATGTAAAATTTTCTCATGAGCTTCTATTGTAGATTCTCCCTTTTTAATCTCTCCTTTAAGTAGCATGGATACACTTCCTTTATGAAATACAAATGCATCATCTACTAATATGTGAGAGTAACCATTAACTCTACATCTCATGCAAAAATCTCCTTCCTCTCCATAGCCTCTTTCAAATATTTCATCTAGTATACCTATCTTATTGAGTACCTCTCTTTTTATATACATACAGAATCCAACAGATACTGGTATCTCTGGATATAAGTGCATAGATGATTTATTAATTATTTTACCTATTTTTTGTATATTAACGTTATCTGCTAGGTGTGATAACTCGAGGATAGAATAGATAGACGCATTATTTGTAAGGGGATTAGCCGTAGCATATTTTTGTTTTTTATAAATTACCTTTCTTATAGAAGATAACCATTTATATGTAACTACAGTATCTGTATTTAGAAGTACCACATCATTTTCTTTAGATTGAGAAAGACCTATATTTGTTGTTTTAACAAAACCTAAGTTTTTTTTATTTTTTATATAGATATCCTTATCTCTTTTTATTTTATTAAAAAACTTATGAATTCTTATATCCGTACTACAATCATTTACAAATACAAATCTATATGGAGTATCATTGGTATTTTCAATTACACTATTTATACAATCATATACATATTCATAAGAATTATATGTGGGAACTATAATATCTACTCCACCAAATTTACCTAAAACATAAATCCTATCATTTGAAATTTTATCTAATATTGTAAAGCCTAAATCTACGCAAATTTTTTCAAAATCTTTACTGTATTTTTGATTTTCTTTTAGATGCGAAGGATAATCTTTTGATACTAAATCAAACGATTGAGTTAAAAATAACAATCCATTTTTATTAAGTTTAGTATATAAAAATTTTAAAGTGTCTATTGGATCTACTAAATGCTCCATTACTTCTAAGCAGACAATAGAATCATAAGATTTAATATTATTCTTATTCTCAAGAACCTTTATTTCTGAATTATATTTGTTAAATCTATACTTTGCAAAATCAAAAGTTAACCCTTTTAAATCATAATAGGATGTATCATATCCACATTCTTGAAAGTATAGGCCGTCTGTACCAACACCTCCTCCATAATCCAATAATGTCTTTTTGTCCTCATATAAAGATAAATAGAAAAGAATGCTATCTCTCCATTCAATACGTGAAGTTCTAGAGCTTTCAATTAACAGATCATAAATGTATGAATCAGTTTTCTTATAGAAATCTTCTATTTCAATCTCTGTTTTTGGGTTTATCTTATTCCAAGCATTAGCAACCGTTCTTCCTGGATTATTAATTTCATAATTAACTTTTTTCAAAACATAACTTTTTTCTTTTTCTAAAAACTTAGATATATTATCAACAATATCATTTTTTATATTATCATTCATTTTGAAAATTATATAAGTATATAAAAATTACCATATTACGAACACTTGCAATTTTTCTGACAAGAGAATATCCAATATTTTAACTAGAATATAGCATTTATTGAAAATTTCATCAATATTAAGCACTCATTACGCACATTATAATAAGTTTTATATTATTCAATATTTAATCTTTCTACAAAGTAATTTTAAGACTATAAGGTAAAATCTCATGTTTAAAAAGATATTATAAATAAATTAGTGATAGAACTTTTAACTTAAAAATTCTTACACTGCTCTAAAGGAGTAATCTTCTTTTGAGTGAGTGAGATTAGGATTATAGAATGGATCTCCTTTTTTTAAAATATATTTCCATCTTTTCAAAAAAAATCCTGTATCTTTAATATTTTCTCCCTTAGTTTTTTTTCTTGTTTTTGTTTCATAATGATATATCTTCATATATGGAGTATATATATTTCTTAAACCTAATCTTTCAAGTCTTAAGCAAAGATCCACATCGTTATATGCTATTTTTAAATTTTCATCAAAACCTTTAATTTGAAGAAATTTCGATCTTTTAACCATCATACATGCTGCTGTTACAGCAGAAACATCTCGCACACAACTTACTAGACCTCCATGCCCATTTGATGCACCAGGAAATCCTCTGTGAGAATGTGCAGCAACTCCTCCTAAACCAATAACAATTCCTGCATGTTGAATTGTTCCATCTTTATATAAAAGCAAACCTCCTACTGCCCCTACTTCTTTTCTTTGAGCGTGTGAAAGCATCTCCTCTATCCATTGTGGTGTTATTATTTTAGTATCATTATTTAAAAACAAGAGATAATCACTTTCAGTTTTTTTAACAGCAAAATTATTAATCAAAGAATAGTTAAATTCTTTTTTATAATCAAGAATAGTAATTCTATGATCTTTTTTTAAATTTTTAAGATATTCAAAAGTTTCCTCTTCTCTACTGTCATTATTTATAAGACAAATTTCATAATTTTTATAAGTACTTATCTTCTCTATACTTCCAACACAGTCTTTTAGATACTCTACTTTATCTTTAAATGGAATTATTATCTCAACTTTAGGTTCGCCTTCTATATTTCTTTCAACTTTATATGAACCTTTAAAAAACCCTTGTTTTACTATTGCATTTACACTCATTCTTTTTAAATGTTCTTCTATTAGAGTCTGTTGTCTTTTATATGCATATGATTTTGCACCAGATGCATCATCAGCTGTAGAATTAGCAGTTTTTCTCCAGTGGTATAGAATTTTAGGAATATGTCCAAACAAAGCTTTATTCTCATATAACCTTAGTGCAAAATCCCAATCTTGAGCACCATCAAATTTTGAATTTAAGCCATGTAATTTTAAAAATGTAGATTTTCTGATTACCCTTATATGTGTTATATACATACATGAAAGTAGGAGATCATATGAAAAATCAGGTTTAAAAAAAGGATCTTCTCTTTCTCCTTTATAAGAGAGTTTATCTTCATCTGAATATATGTAATCTACTCTTTTATTATTTAGAAATTTTACAGTTTCAAATAAAGCATCTTGAGAGAGAGTATCATCATGGTCAAGAAATACTAAATACTCTCCTTTAGATTTTTTTACTGCCATATTAGAAGATTTAGATATCCCATTATTTTTTTTTGATAAGAAAACTTTAATATTACCTTTATTAATTCTTTCTAGATATTTTTTAAAGTTCTCATCTTTTGATGCATCATCATATACTATAACTTCAAAATTTTTATAAAACTGTTTTTTAACACTCTCTATTGTCTCTTTAATAAGAGGGATGGGGGTATTGTATGTAGGTATTATTATAGAAAGAAGTGGTTTATATTTGAATTTTTCAATCTCTTTTTTTATTTTTGTCTCATTAAATTTTTCTAACTTTACTAATTTTGAATATGCAATATTATCTTTCTTTCTAATAATCCTTGATGAAAGATAACCTTTAGTTTTTCTCAAAAATTCTTTTACACCAAAATTTTTAATATAGAAAATACTTTTTTTAGATAGACTTATAATGCTCATACAATATAGGATTTTACCATAACATTTCATATTTACATATATTATATTTACTTATTCAGAATCTATAAATGTATTTAAATTAGTGTAGATAAAAATATTATATATAAATAAAAGTAAGAGAGTTAATAGTATAAATTGAAATATTCAAAACTAGAACCCAAGAATTCAAGGTAATTTATCGGTTACAACCCAAGAATTTGACATAATTTATCGGTTTAGGGAAACTTGTATAATTACATCATGCACTGCAGTTCTATATTCTCTTGGCATTTTTTTATAAAATAGAACTCATATTTTGCTTGTATAGATAATAATATGTTATATTAAATTATGTTTAAAAAAATATTTTTTTCTATATTTTTCACAGTATTCTCTCTTTCTCTAACAGGTAGAGTTTTTGCGAGTACACCTCCATCTTCAGCATATCAAGGAAACAGTTATCTAAACTCTTTCTATTCAAATAAAACATATTCGTTTACACCTGCTGTTAGTAAACCTCAACCTTTAAAGAAATTTGCGAGTTTAGGCCCACAAGGTTTACAAAAGGAGGTTATGGGATTTGCTCCATATTGGGATCTTTCTTCTGGTGCATATACTTCATATCCTTATTCTAATCTTACTACAATAGACTATTTTGGAATAACATCAGATGGTAATGGTAATTTTGGAACAAACGCAGGAGGAGGAAGTGGTTGGGCTGGATTAAATTCTTCTCAATTTACAGATATGGTAAACACTGCCCATTCAAAAAATGTACGGGTTATAATTTCTGCAAAAATATTTAATATCACAGACATTGAAAGTGTTGTAAATAATACAACAAATGCTCAAAATTTTATTAATAATATTATATCTATAGTAAAGAAATTTAATTGTGATGGAGTAAATATAGACTTTGAATATCAACCTTCACAAGGAACACCTAGCACTACAACAATAAATAATTTTACAACTTTTATTTCTAATCTAACTCAACAAACACATTCTCAAATTCCAGGATCTTTTGTTAGTGTAGATGTTTTTGCTTCAGCAGTACGTTGGACAGGATCATTATTTAATGTTCCTCAACTTGCAAACGTTACAGATGCTCTAAATGTAATGGCTTATGATTATTACACTCCTTCATCCAGTGTAGCTGAGCCTGTAAATCCTTTTACAGGATATAATAACGGAGCAGGTCCTTTATGGTATGATGTTAGACGTACAATTCTTGATTATGCATCAGCTATTAATCCTAATAAAATAATTTTAGGTGTTCCATATTATGGAAATGATTATCAAACAACATCTAATAATCAAAATGCATCTACTGTATCAGGAAGTGGAATAAATGAACCTTATGGTCAGACAAATGATCAATATAAAAATCAAAATACTAAGCATTGGGATTCACAAAGCTCAACTCCTTGGTATGGATATTGCTATCCTTCTAATAATACTCCACCTAACTGTGCCTCCTCAGATCAGTTAAGACAAGGATACTATTCTAATGCTACATCACTAGGTTTAGTTTACTCTCAAGTTTTACAATCTAATCTTAGAGGAGTTAGTTTATGGACATTAGGCTATGAACAACCGTCAACTAACCTTACATCAGCTATAAATACATATTTTACAACAAATTCTATTTTTTCAAATATAAACAGTGCATATACCCTACTTTCTTCTGCAGGAAAAGTTCTTGCATTTGGAAATGCAAATTATTATGGAGATATGTCGTATGTAAATGGAGCTCCTGATTCAAATGCGCAAGGTTTAGCAACTCTACCAAATGATACAGGCTACTATATCCTAACTACTGATGGAGGAATATATACATTTGGATCTGCTCAATTCTATGGATCTGTTTTTAATATACCTAATGCTCCAATAAAAACTCCAGTCTCAATTGTAACTACACCTGATGGAAAAGGATATTATGTTTTAACTACGGATGGAGGAGTATATACTTTTGGAGATGCACAATTCCACGGATCACTATTTAATATCCCAGCATCTGCACTTCCTGACAGAACGCCTCTTGCTTTCGCACTGACTCCTGATGGAGGTGGTTATTATATAATGACATCTAATGGCGCAGTATATACTTTTGGAGATGCACAATTTCATGGATCTGTCTTTAATATACCTAATGCTCCCAATAAAAATGCAGTTGATTTTGCACTCACACCAGATGGCGCAGGTTATTATATAACCACTCAAGATGGAGGAGTATATACTTTTGGAGATGCACAATTTCATGGATCTATGTTCAATATTCAGGGAGCACCTAATACTACACCTCAATCATTTGTAGTAACATCAAACAATGGAGGATATTATCTGTTGACCCAAGATGGAGGGATATATACTTTTGGAAATGCTGTATATGATGGAACAGCTATTGGTATATTTCAAAAAACAGTAGGAATTAATCTTATTCCATAATGAAAAAATTTTTATTTATCTCAATAAGCTTATCATTCTCATTTATCCTGTTTTCTAAGATATATGCTCAGGATATTTCTGTATATCAAAAATTTACAATTCTTACTCAAAATAAAAGATATACACTCAATAATGCAATAGTAAATATAAATTCTCAAAATTTAAATTTAGGATATAGTGTAAGAAAAATTAACTCTAATACTGAAATTGTAGAAAAACCTAACAATATGAGTTATGAAAATTTCTTAATAAGCTTACTTTCAAATACAAATCTTTATAATGTTACTCCCAATTACATTAAAAGTTTTTCTCAACTTCCTAATAATATAGATATAACACAACAGAAAAATCTATTTTTAACACATGCTCCTGTAGTAGATAATAATGGGTTTAGTAGTTCTTTAGGAGGGTCATCTAATATTACTATAGCTGTATTAGACTCTGGAATAGCTTATCAAAATTATACCAATCCATTAGATAATACTTTTTATGCACAAGCACCTTCTTTATCAAATCTTAACATAAAAGATCCATATAATGCATTAGCTGTATATAACAATCAGCTTCAAAATGAATATGCTCCATATGATAATGTAGGACATGGGACATATATAGCAGGAATAATAGCATCAAGTACAAATAATGATGCTTCGGGTTCTTTGAATTATGCTACAGCAGGAATTGCTTTTAATGCAACAATCATGCCTGTAAAGATAGGAAATAGTAATGGAATTCCTCTAGGTGCAGAACTTTTAGGTCTTCAATGGGCAATTAATAATCATGCAAATATAATAAATCTTTCCATAGCCTCCACTACTCCATCTCAGAGTGAGGAGACTTTAATAGAACAAGCAATAAATGATGGAATTATTGTTGTTGCAGCTTCAGGAAATGAAGGAAGTAATTCTCTAGATTACCCTGCAGGATATCCAAATGTAATTGCAGTTGGAGCTAGTAATTCTTCTAATACGCTTACCTCATATTCTAATTATGGATGTAGTACAGATCTAAATTGTCAAACAGTAGTTGCTCCTGTAGGATATAACACACCTTTAGTATATCAACAAACTCTCACAGGATATGATACAGGGACAGTTAGTTCATTTAGTAGTTTTTCTAATGAATATTTAGTGGGAACATCTTTTGCAACACCTCAGGTAGTAGCAGCAATCGCCTTATATGAATCTGTAAATGGAGTACAAAATTCTGCTTTTATGGAAAATATATTAAAAATGTGTTCTACTTCTCTGGGAAACTATAATCTTTATGGTTTTGGTCTTTTAAATATAAATAATATGTTAAATTATCCTGTTAATAGTACCCCTTATACTGTACTCTCATCACAAGGAACAGTTTCTACTTTTGGACAAGATCAGTATTGGGGAAATTTACCTGTAAATTCTACTCCCACAGATATAGCAAGAACTAATACGGGATATTATATACTTACATCTAACGGAGCGGTATATACATTTGGAAATGCGCAGTTTTATGGATCTATGTATAATATTCCTAATCCTCCTGTGCAACAATCTGTAGCTATAGTACCTACAAAGAATGATCTAGGTTACTATATACTAACAGAAGATGGAGCGGTATATACATTTGGAAATGCGCAGTTTTATGGATCTATGTATAATATTCCTTCTTCTGCAGTACCTGTAAGAACTCCACTCTCTTTGGTATTAACCCAAGATCAATCAGGTTATTATATACTTACATCTAATGGAGCAGTATATACATTTGGAGATGCTCAGTTTTATGGATCTGTTTTTAACATTCCAAATGCCCCAGTAAAGACAGCCGTTGCACTAAGACTTTCTTCTCAAGGAGAAGGATACTATATACTGACAAAGGATGGAGCCATATATACATTTGGGGATGCTCAGTTTTATGGATCTATGTATAATATTCCTTCATCAGCTGTTCCTCAAAATAATCCTACGAGTCTATTAATAACAAATTCTGGATATATGATTTTAGAGAAAGATGGTGCTTTATATACATTTGGAGGGATACTTTCTGAAGGAACCTTATATCCTGATCCGAGTGGAGCAATAGCAATTACTCAGTAAAGCTTTTAGAATAAGTATAAATCTGATATAATCCTTGTAATGAAGGATACTAAAAATAGTGTAATAATAATTCTTGCAGCTATAATTGTTATATTATTTGTTCTTTTAGTAGCTAAAAACAATCAAAATACAGTACAGAATAATCCAAAAAGTATAAATAAAAGTGTTCAGAAAACTATAAAAAAAGAAACTGCAACAACATTTCCACAACAAAGTCCAACAGTAGTAATAAAAGATATTATAAACAGTTACAAAACCTGTGCTAATACTCCAACTTGTCCTCTTTCTTCATCATTCAGATCAAGAGCTCAAGCCTTAGAAAAAGCAAATAACCCTCTTAATCCAATTACAAGAATGGCAGGAGGGTATATTAATCCAATTTATTCAGTAATTACAGAACTTCCTACTATATCAATTATAAAAGTTACAAATCAAAGTGGATCTAATGCTATTGAGTTTGACTTAACAAATATAAAAAATTCATGGGAACTTACAAATACTTATTGTTATTCCAATCCTCAATCAGCAATTACAGATACTAAAATTATTTCATGCAATTAAAATATTATGGAAAATGAAAAATATACAAACTTATTAAATAATTTATCAGAAGTATTCTCTCTTTCAATTGAGTTTTGTGAAACCTATGGTTCAGAAATAGAAAGAGAGGCTATACTAGAAAGAGAAGCTGTAGCAACTCCTGATTATATTAAAGATCTTATGTCTAAAAAAGCAGATACATACACTCTTACTATAAATAAGAAAGAGGATCCTCAAGAAACTTTATTTGGAGATAGAGCTACTATTCTAACAATAAATATTAACCCAAAAGATTCTAAATCAAATGGAGTTGTATATAGATTATATAGAGGAAGATTTGAAAGAATTGTATACGAAAAAAAAGGTAGAGAATTTACTAGAAGAACTATTGATGAAGTAATTCCACCTGAAGAGATAGAATCTTTAAGAAATTTTCTTAAAAATCAATTTCCTGCATCAAACTAAACTCTTACATCTAAAAAAAATATTAAATGCTTACTACTTGCGGTATTAATTGAAGTAGTAAGTGTTTTATATTATTTCCCCTTTTTCGTTATATTCTTTAACTACAAATAGAGAAATTTTTCCTGATGAATCAACATTTCTTATAGTTTCTCTTATCAAAGATCCATCTTCTCTATATTCCTCTTTTTTATATTCACCATTAAAAATCGTTTCTAAAGAAACTGGTTTTCCATTAACTTCTTTATACTCAGTATGTACATCATCAACATTATCTATATTGGGAATAACACTTTTAAACAAAACATTATCCTTTCCACAGAAAAAATCTATTATTTCCATACGATCAGGAAATATTGTTTTTTCTGTTTGATGTATAAGATTACCTTTAGAATCATAAACATTATAAGTTTTTTTTAGATTTCCTTCTCTTTGATCAGAAAATTTTGTTTCTTCTGTTCTCTGAATAAGATTACCTTTAGTATCATAACTATTAGAAACTTCTGTTACATTTCCTTTATCATCTGAAATTTTAGAAATATAAAAACTTCTTCTTTTTTCATTCTTACTTATTCTTCTTTCATTTTCCATAATATACAGATTTATTAAAATTATATAAAGATGTATTATATCAGACTTATAGTATTTGTCAATGGTAAATATTGTTTAATTATAAAAATAAATTTGCAATATGATATATAATGCATTTATGGTAAGTGTGATAATAGTTACATATAATAGTGAAAAATTTATACAAGAGACAATTCTTAGAGTTTTAAAACAGACTTATAATGATATAGAGATTATTGTAGTTGACAATAATTCAAAAGATCATACTCTAAAATATATTAAGGGTATAAAAAACATTAAAGTAATAGAAAATAAAAAAAATGTAGGATTTGCAAAGGCTAATTTGCAGGGATTTTTAATATCGAAAGGTGAATATATACTCACTTTAAATCATGATGCATTTCTAAATTCATCATATATACAAAAAATAGTAGAAGTGATGAGTAAAGATGTTACGATAGGTTCTGCACAAGGAATATATTACAAAGATTCTAAGAAAACAAAAATTGATAGTGAAGGGATATATCTTAATTTTGGATATAGCGCAAATGATATCAAGAAAAAATATTTTGGTATAAAAAAAGTATTTGCATGTTGCGCTGCAGCTGCAATTTATAGTAGATCAGCAATAGATGATGTAGGTTTTTTTGACACAACTTTCAGATCTTATTATGAAGATGTTGATTTAGGATTAAGATTAAGAAAAGAAGGTTATGATAATTTATTAATAAGTTCAGCAGAGTGTGTACACTTAAGAGGTAGCGAGAGTAATTTGAGAAATTTAAAATATTCTCTAAGAAATAAATACAAATTACTAAAAAAACATAATATGAAAAAAGAGATCAAGATTGCAAAAATATACGATATTCTAAAGATGCCTATCTATTATTTTAAAAATAAGGATTTTATTCCTGAATATATAAAGATATTAAGAAAAATTTAAATAGAACTCCACTCTCCTTCTATTTCTAAAATCCCTTTTATATTGTCTCTTGAAAGAAAGGTTTTGAAATTTCTTATTTTCTCTAATAAAACTATCTGTTCATTTAAATCTTTAGAATAAACAACTAAAGATATACTATACTCAGAAGGATATAGATTTAAATTATTAACGCTAAAAGATATAGCCCCCTTTCCTTTTATGCTACCTAAAGAAAGATTTGAATATTTTGAATTTATAGCAGATATAATAATTCCATCTTCTCTTGTTATTATAATCTCAAAAAATGGTGATATTATTTCTTTTTTTAAATTATATATGATTTTTATACTTAATTCTTCATTAAAATCAAAAATATTCTTATCTTTCCCATCTTTTCCTAGAATTTTTAATGAAAATTCACCATCTTTTTCAAGAAAAGTATTTTCTGTTTTAGAAAAAAATACTTCACTATAATTTTTTACAACATTCAAAACATTTCCTTCTTTTCTTATATTTCCTTTATCCAAAAGTATTACTCTGTCACAAAACTCTTCTATAGCACCCATTGAGTGAGATACAAAAATAATTGTTTTCCCTTGAGATTTTAATTTTCTAAACATATCAAAACATTTTTGTTGAAACCCTAAATCCCCTACTGCCAAAACTTCATCTAAAATATATATATCTCCATGAGCTTGTATAGCTATTGAAAAAGCTAGTCTGACTTGCATTCCTGATGAAAAATTTTTAAGTTGAGTTTCTTCAAAACCTTGAAGTTCTGAAAATTCTATAATTTCTTTATATTTCTTCTTAACTTCTTCTCTAGAAAGACCAAGTATAACTCCATTCAAGAATATATTGTCTTTTGCAGTAAGCTCCATATTAAAACCAACTCCTAGCTCTAGAAATGGAACTATTTTTCCTTTTACATTTATTTTTCCTTTATCTTGAAGATATATTCCTGCTATGATTTTTAAAAGTGTGCTTTTCCCAGAACCATTTCTTCCTATTATTCCTAAAAATTCTCCCTTTTTAACAGAAAAAGATATATTAGAAAGAGCTCTAAACTCTCTGTATTTTGTTCTTTTGAAAGGATGGACAAAGTAATCTTTTAATTGAGATCTCTTTTCCATTGGCAATCTAAATTCTTTTGTTATATTTTTTACTTCTATTACATTTTCCATATATTAAAAATCTTCAGCTATTTTTTTAATACTTCTTTCAAAAAAATAGAAACCTAAAATAAAAAGTGTTATAGATAAAACAAATATTATCATAGTAGAATATACAGACAAATACTTTCCGTAGATTATAGATTGTCTAGCAAAATTAAGAATATGTGTAAGAGGATTTGCATCTATTATTAATGCAAATTTACCATGAACTAAAGATATAGGATAGACTATAGGGGTAAGGTAGAATAAAACAAACATAACAATCTCCCATATATGTTGTAAATCTCTAAATTTTACATAGAAAATACTTATAAAAAAAGATATTGCTATTCCCAAGATATATAAAATTATTATCCCTAAGAGAAAAAATAAAATTCCCTCAAAAGAAGGAAGAACTCTATTAAATATAAAAAAAACTACAGATACTATTAGATTAAAGAATAAATTTATTAATGCTATAACAGAAGAACCTATTACTGCTATATATCTTTTAAAATTAACTTTAAGCATTATATCTTTTTTCTGCAAGAGAGAATTCATTCCATTTACAGTAACCTCATTAAAAAAATTATAAAGCATTATTCCTAAAAGAAGATACAGTGCATAATATTTAACACTAGTACCTAAAAAAAGAGAAAACACTATATACATTACAGTAAACATTAAAAGAGGTTTCAGAACAACCCACAGAAACCCTAATACAGAATTATTATATCTTAAGGTAAAATCAGTTTTTACGAATTCTAAGAGAAGATCTCTGTCATTTTTATTCATATAATACATATTATACCCTAAAGATATTAAAAAAAACTATAGAAATAAAAGGAATTAAAGTATAATATAGGCGAAAATATTATGAAAAACATAGATATTAGCATAATAATAGTAACATATAATGTAAAATCTTTACTTGCAGATTGTCTTTTTTCTATAAAACAAAGTGAGGATAATCTTAAAAAAGAGATATTTATAATTGATAATGGAAGAGATGATACGTATAAATTGTTTAAGGACAGTAGAGAGTATATATATATAAAAAATAAAGATAATGTAGGTTTTTCAAAAGCTAACAATCAGGCTTTAAAAATAGCAAAAGGAAGATATATATTAATTCTTAACCCAGATACAAAACTTAATAAAAATACACTGAGTGAAATGTATAATTTTATGGAGATACACAAAGATGTAGGTGTTTCTACTTGTCCCCTATTTCTTCCTTCAGGAGAATTAGATAAAGCATGTAGAAGAAGTTTTCCTACAATCTCAAATAGTATAGGTAAACTTTTAAATCTATCAAAATTTTCAGATAAATTTAAAGGTTATAACATAGAAGGTAGTATTAACAGAGAAATAGAGATAGATGCTTGCACAGGAGCTTTTATGTTTATTAGAAAAGAAGTATTTTCAGGAAATAAAAAGCATACGAAAACAGCTTTTTTTGACGAATCATTTTGGGCTATGGGAGAAGATCTAGATTTATGTTTTAGGATAAAAGAAAATAACTGGAAAATAATGTATACACCTAAAACTTCAATCCTACATTATAAAGGAGCTTCTGGAGGATTAAAAAAATCTAGCAGTAAACTTTCTTCTGCAGACAAAGAAACAAAAAGAAGATGGATAAAAGCATATTCAGATGCAATGTATATTTTTTATAAGAAACATTATTTCACTCAAAATAATGTCCTGATAAACTTTATAATAATAATTTCAATAAAATTGCTATACCTATTGCAGCTCTTAAAATTAAATGTTATAGAAAAATAAAATTCTCAAAAGCATCCTCTATGGATAAAGGAAATGCTTCAATTTTTAGAATAATCATTATCTACGACAAAAATAAACTTAGTTTGTGGAGATATTCCTAGTATTTTTCTGATTTACATAGGAAGATCTACCTGCCCTCTTTGTTGTACGGTGGAAATAAATTTACTTTTATATTTTGGTAAATCCTTTATGTTATTAATATTTTATACTAAATTTACACCTACACATAGTGTTGACAATTCAATACAATATCAATACAATATCAATACAAGGAGGTAAATTATGAGCACACGAACAGTTAATATTGCAATTGACAAAAAGTTGTTAACAGAGATTGATAAAGCAGTTAAACAAGACTTAGGAAGTAGAAGTGAGTATTTTAGAAGGCTTGCCATTGCGGACTTAGATAAACGTAAACGTTGGAAGAAACTTTTATCTGCAGGTAGAAAAGTTGGAAAGCAGATGGGGATTAATAACGAAGAAGATGTTTATAGAATAATTAAAGAAGATTAAATATTATGCCCAATCACAATATTAAGGTAGTTATTGATACTAATGTATGGATATCTGGATTAGTTTTTGGGGGAATTCCAAGAATTATACTGCAACAATTTATTGATAAAAAAATAAATATAATAATTAGTGAAGAAATTATTACAGAGCTTCACAGAACAATAACAAGAAAATTCCCGCTATTTCAAGCAAACATGGAATTGCTTGAACTCTCAATCAGGAAAGATGCAACCTTGGTTCCTCTTGGTAGCCTTACAGTTAAAATAAGTAGAGATCATGATGATAACAAAGTCATAGAAACTGCAGTTATTGGAAATGTCGACTATATAATAAGTGGGGATGATGATTTATTGTCAATAACACAATATAGAAACATACAAATTATAAAACCCGCAGAATTTTTAAATATAAGTAATAGTTATTTTCACTAAATATGACTAGCTCATCTTTAAACACACCAAAAATTGCATAGATATATGTAATTAAATATAATAAACTTCTCGCGACCTGACACGGTCGGAGTTTAATAAAAATACACACTAAAATAAGAAAAAAAGTTTAAAAATTTCCAAGTTATACTAAAGTGGTATTATTTTAAACCTGAGTTTTAGGCATTTGTATAATAAAATCAGAGATTATATTGTATAAAAATATATATTCTTATAGAATATATTCAATGAAAATATTAAAATCTTTTATATATGTATTTTTCATTGTAGTTATTTTTATATTAACTGCACATAAATCCTTTGCAGCTTCTGCTCAACTTTCTCCTTATTCTTGGGATCCTGGATTATATGCAACTACATCAACTTATGGAAGTACAGTACATGCGTGGGGTATGAGAAAGAATCAAGGTGCATGGGGTACTGGACCTGTAAATTATCAATCTGGGGCAACTACTACATACAGGGGCTCTTCTTCTGGGACTTTAAATGTAGATCTAAAAGGTACATATTGTCCTAATGGAGTTTGTGCATATGGAGCAGGAACAGGATATAAAGGTTTAGTACAATTTTGGAATGATCCTAATAATTATATAGCTTTTGGTTTTATTCATGACCCAGGAGTATCTCCAAATGGAATAACTATAATGGTAGAGGGCGCTGCGAATGGAAAACCTGTTGGAGGATATTGGCCAGGAGGAGCAATAAATGGAGCTTCACACCATTTTCAAATTACATGGACAGCTACAGGTATTTCTGTAACAATAGACAATCAAGTAACTTTAGGTGTATATCCTGTAGCAGAAAATAATCCTTCTATTTCATTTTTAGCTGCATCAAGAGAACCTGGAGATATCTGTGATACAACATTTACAGGTATATCTTTTACTCCAGGATCAGTAGTATCTAACCCTGTAATTATACCATCTGGTTCTCCATATTTAACATACACAGATACTATTACAGAATCTGGTTCTGGAACAGGATATTCTGCATATATAAATGCTCATGATGCAAATAATAATGCAATTTCCGTAGGAATACAAACAGATTCAACTTCTGCATCTTCTCATGGACTTCCTTTCTACACATGGGAAAGAGTTCAAAACGGAGTATTTTCTTATGAATATTTATCTCCAGCCTCGAATAGTCCTACAAATATAGAACTTGCATGGTGGTCACAGGATAATACTGCAGTATTTTATGTAAATGGAACACCAATAGCAGATATAACGGTCAATTTATCTCCTAGGTTATTTTTCAATATAGAAGGTAATGCTAGAATAAATGGAGATACTGTTAATGATACTTTTGGTCCAGTAAATATAGTTGTTGGTAATAATTGTCCAACGTATTGTGGATTAAATGGATCTTGGAACTCTTCTTCATTTAATAGTTATGGTCTTTATGCTACTCAAACAAATAGTAATTCAGAAAATGGTGCTACATTTAGAGTACAAGGAACAGTTTCAGGACTTGCATCTGAACAAACTTGGGATACTAACCAAGTATCAGGAATTTCAATGATTGCTCAATACTGGAATGGGCAATAACGATTAAACACCCTCTTTTATTCTTTCTAAAACAATTGACAGTTAAATAAAAATATTGTATAAGTTGTTTTATTTTCAAAACATTATATGAATTTAGAATTAGAACACACAGATGAAGATTTTGATCTCTCTGAGTATCTTGTAGGTAAAGTTGATAGTAGCTCAATACAGGTATCTCAAAAGGGGGAGATCTATTATTCTAAAAAAGGAAATGTTTTTAAAAGGGACCCTTTATTAGGACTTGAACCTGTTCAAAATTCTTATCCTTCAGAGAATATAGTAGATACATTTTGTATAGATGATAATCAAAGATTATTAACTTTTTTAGTAAGACAAGCATCTGAATTTTCAGACGAAAGAATCCTTGTAGTAAGAGAAGATAAAAGAAGCTATAAAAAAAGAATTTTTATAAAGACCCCTATTCTACTTTCAGCAGCAACACTGGATTTTAGTTCTATATTAATAGGTGCATATGAAGAGGATATTTCTTTAATAAGAATAGGTAAGGAAACAAAATATCTTACTTTAAAAAACAATAAAACAGATATTGTACCTGAAACTGAGAAATTTATTATCTTAAACAGCAAATCTTTTGTATCTTCAGGATTTGAAGGTATTTTTAAATGGAATCTTCATGAAGATGACAGTTATAATGTAGAGAAATTATCTGATATAAATTCTCCTCGTAATTTAATTGCTATTAGTGAAAAAAATTATATTTATTCAAAAGGTGAGAAAATTTTTTCACTAGAAAATGTTTCAGATGAATGGAAGACAGAAGAAATATTTCAAAATGATTCTGTTATTACTTCTTTAGACATTATCGATAATATGTTATTTGCAGGAACAGAGAAAGGAGAATTGTTATTTATATCTCAAAATTCTATAAAAAAGGGTTATTTAAAAAAAGGAAAATCTATATCTTTAATAAAAAAAACAGACAAGGGTCTAATAGGAGTTTCTGGGGGTAATGTTTTTGTAATAAAGTAAAAAGGAGAGTTTCCCCTCCTTTTTACATATTTTATACTTATACTAATTTGATGCAAAAACTTTTACTGCATCATCAAAGTTTGTAGATACTTGAGATACAGGAGCTCCCGTAAGAGTTGCACTAAATGTTGTTGTAGCTCCTGGAGCAATGGTACTTGAAGCTAAACTATTAGTAGCATCTAGTAGAGCTACTATATTTTCATTTGAGTCAAAAAACAATATATCTACCTTAGGAGTAGTTATAGTAACTGAAGAATTATTAGTAACATTTCCTGTAACTGTTATAGTTCCACTACCTTGAGTTACTTGAATATTACTTACCTTTAAAGGATCTGTATAACTAGATGAAAAAGTTGTTCCTGTTACACTAAATGTTACTGAAGATACTGTTCCTTGATAACTAAACATAAATGCAGTTTTTTGATCAGGATTTAGAGCTGACATTATAGGTGTAACTGTCTGAGTTCCAAAAGAACCAGTTGCAGTAAGAGTAACTCCTGTCATTGTAGTATTAGAATTATTCTGAATCTCTCCCTCTACTAAAACTTGAGTTGGAGATACTTGTTCTTGTACATAACTTTTCACAGTAAGAGTATTTTCTGCTACATCTGCTGAATCTGCACCATCGAACTGAGCATTCCCAAATGTATATACTCCTCCATCTGCAGTTAGAGCATAATAACCTTGTCCATTTGGTGTTATAGCAATATCTGCGACTGTTTTATTAGGAGCTCCTTTTATATTAAATATTGATCCTTGAAATTGAGCTGTTCCAAAAGTATATACACCTCCATCTGTAGTTTGAACATAATATCCTTGACCTCTTGGAGTTAATTTCATTCCCATTGCATTTTTTACAGGAGCCTGAGGAATATTATATACTGATCCTAAAAATTGAGCATTCCCAAATGTATATATACCTCCATCTTCTGTTTGAATATAATAACCTTGACCGTTAGGAGTTATATTTAATGAGACAGGAACCTTATTAGGTGCTGCTGGTATATTATACATAGATCCATTAAATTTAGCAGTTCCAAATGTATATACAGCACCATCTTCTGTAAGAACATAATAACCATTACCATTTGGAGTTAATTTTATAGAAACTGCATTTTTTATAGGAGCATTAGTTATATTAAAAACAGAACCAAAAAACTTAGCATTTCCAAAAGTATATACTCCCCCATCTTTGGTAAGAATATAATAACCTAAATCATTTGGAGTTAAAACCATATCTGCGACCTGATTATTAGGAATATTAGGAATTTGTGTTAAATCTCCATAAAACTGGGCATTTCCATAAGACAGTACTGCTCCTGTTTTAGATATTATATAGTACCCAGAAGGTGCTCCACTTGCAAGTTGTGTAGGTAAAACTACTATTTTTAAATCTTTACTAACAGCAAGAACTTGAGATGCATCTGGTGCATCTGCAAATACCTTACCTAAAGAAAGCATATAAATTAATAACAAAGAGAGAAAAAATACTAAAAAATAAGCTTTTTTTATTTTTATACTCATAAAATATAAAATCTAATATAAATTATATCTATAATACCTTATCTATAAAATCTGTAAAGATCCCTCTGTTTAGAGCATTATTCATATACATTTTAAAGCTATTTTTTTGTCTTCTATGATATAATTATTAAAATATGAATATTGAAGAAAAATCATATAATCCTAATAAAACTGAAATAGAAATTTTAAATTTCTGGGAAAGAAACAATTTATATACTCCTGAATATAAAGAGAGTAGGAAAAAAACATTTAGTATTCCTCTTCCTCCTCCTAATGCTAATGGAACTCTACACTTAGGTCATGTATCAGGATATACATATCAAGATATACTTGCTAGATATAAAAGGTTAAAAGGTTATAAAGTTCTTTTAGTTCCTGGAAAAGATCATGCTAGTATTCAAACTGAAGTTGTTTTTGAAAAAGTTCTAGAAAAAAAAGGTATAAAAAAAAGAGATTTAGGCAGAGAAGAGTTTTATAAACAGTGTTTTGATTTTTGTATTATTAATTCTAATAATATCCGTTCTCAAGAGAAAAGAATAGGCCTTAGTGCAGATTTTTCTAGAGAAAAATTCACACTTGATGAGGATTTAAACAGAATAGTAAATGAAACTTTCAAAGAAATGTTTGATCAAGGTTTAGTATATAGGGGAAAAAGAATTATAAATTGGTGTCCTAAATGTTTTACAGCACTAGCCGACATTGATACAGAATATGAAGAAGAAGAGTCTTTTCTGTATTACATTAAATACGGAGATTTAATAGTTGCGACAACAAGACCTGAGACTATAATTGCAGATACAGCAATTGCCGTAAATCCAAGAGATAAAAGATATAAGCACCTAATAGGAAAAGTAATAGAATTTAAAAGTCTAGAAGGGTTAAAAACCCTACCTGTTATAGGAGATAGGGTTGTTGATATAAATTTTGGAACAGGTGTATTAAAAGTTACTCCAGGACATTCAAAAGAAGATTTTAGACTAGGAGAGATTCATAATCTACCAATAATAAGTGTCATTGATCAGAGAGGAAAAATGACATATGGAAAATATAAAGGATTGAAAGTTAAAGAAGCAAGAGATCTTATTGTAAAAGAATTAGAAGATTTAGATTTAATAAAAAAGATAGAAAAAATCAAACATAGTATTCAGATTTGTGAAAGATCAAAAACAGTAATAGAACCTTTAATATCTTATCAATGGTTTTTAAAAACTAAAGATATGGCATCTTCTGCTATAAGAGCATTAGAAGAAGAAAAAATTCATATTCATCCTAAACGACAAGAAAAGAATTATGTTCAATGGTTAGAAAATTTAGAAGACTGGTGTATATCAAGACAACTGTGGTGGGGGCAAAGAATTCCTGTTTATTACTGTGGAGGCAAAGAAACGATAATAAGTGAAAATGGAGATATTACAGAAAAAATTTTAGGTTGTGGAAATACATTTGTATCTTTGGATGAACCAAAAGAATGCCCCTTTTGTAAATCCTCAAAAATAGTTCAAGATGAAGATATTTTTGATACTTGGTTTTCTTCTTCTCAATGGCCTTATTCTGTTCTAGGAGGATTAAATTCTAAAGATTTTAAAGAATTTTATCCTGAAGATGTAATGGAGACAGGAAGAGACATTCTTTTCTCTTGGGTATCCAGGATGGTGATGTTAAGTTTGTATAAAACAAAAAAAGTTCCTTTTAGGGATGTTTATCTGCATGGAATAGTTTTAGATAAAGATGGTCAAAAACAATCTAAATCGAAAGGTAATGGAATGGACCCTTCTACGTTTATAGATAAATTTGGAACAGATGCACTAAGGTTATCATTAGTTTCAGGAAATGCGGCAGATCAAGATCTTCGTTTGTATGAAGAAAAAGTAAAAGGATTTAGAAATTTTATTAATAAAATATATAATTCTGCAAGATATATCTTATTGCAGACAGAAAATCTTTCTTCTGAAGACAAAAAATATATTAGAGAAAATCTAGGGTATAGAGTAAAAATGAAAGATTTTAGTATTCAAAAAGAACAAGAAAAGCATATAAGAAACATAGAGAAATTATTAGAAAAATTTGATATAGGAATTGCGGCTTTCAATATTCAAAATTTTTATCATCACACTTATTGTGACATATATATTGAAAAAACTAAAGAATATCAGACTCTAGACATGAAAGCAGAACTTATATATACCCTACTTCAAAATATAATAGTAATGCATCCTTTTATACCTTTTATAACAGAAAATATATATCAAACATTAAAAGAAAAAGATCTTATTACTCCTCTAGATACATCTTTAATGTACGAGAAATTTCCTTTATAAGGAAAAATTTAATAAAGATAAGCTATTGGATAACCTTCTGTATTACTTGTTGCTCCTTTTTTCATACCAGTTGCAAATACTAAAATCCCTGTTCCATTTGCACTTTCTGCTATATAATAATTAACATTTCCTCCTACTGAAGGGGTTAATAAATAATTTTTTATAGCAGGTACAGCTTTTTCAAGTGTAGCTAAAGTTTCACAAGAATCAAAACCTGACACTTTTACTTTTGCAACTTGTGTAGGAAGTGTTCCTTTTGTTTTTATTGCACAAATTGGAGTTCCTTTTGTATTACCTCGTATATTATATCCGTATGATGTACCTGATGTTACAATCGCAGGAGATGTTAATTGAGGTAAAGGAGGCAAAACTCCTTTATTATCAACTGTATAGTGTTCTATAGCACTATTTATAGAATCTATAGTAATGACAATATTTATATTAAACGAATCATTAATTTTTCCTTTATATAAAGATTTTGTCCCGCCTAAACCATAAATATTTGTATTTTTTAAATTATGAGTATGAGAATAAGGTATTATGAATAAGATAATTAATATTAATAAAAAAAATCCAACTAGTATGCTTACAAAAATATTATAATAATCTGTTTTTTTTAAAAAAGATTGAGAAGTAGAGATACTATTCTGAGATTCAATTGTATTTGCATTAGAAACTTCTTCTTTTGAGATATCTTCCATACTAATAATATATTTATCATTTTTCAAAAATTATTACAACTTACTACTCTTAAAACTTTAAATAGCTTTATATAAACTAGGACTTTTAAATAAAAATATCAACTTATTCCATTTATCACTGAGAGTATTTATCAAACATTAAAAGAAAAAGAGCTTATTACATCATTAGATCTATCTTTATATGTACGAGAAATTTCCTTTATAAGAAATTAACAATATTATTTGTTCGTAAATTTGAATAATGCCCCTAGTCTCCTAGCTCTCTCTCCTACAGAATGTGTATCTCCTGGAAGAACTATCCTTCTTATCCTATCTGTATTAAATTCTTTAAGCAATTCTTTTGTATCTTCAGTTGGAGTAATTTTACTTTTAGATCCACTCACAAAAGTTACTTTCATATCAGGCTGTTTTGACAAAGCAGATTCAAGAATCGCAGGAACAACTTTTCTTCCCATAGCAGCAGGATACCCTGTTTGCATACCTCTTCTAGTCATAGGTTTTATTACAACATCTCTAAGTAGTCTAGCATTTGTAACTAGTGGATTATTTTTTTTATCAACCCCACTAACCTCTCTTTGCCTCTCATCATTAGGATCTTTTTCATAAAACCCTAAACTTGAGGCTTCTGAACTAAAAGCCCCGGTTATGCCTAAAATTGAACCTATTTCTCCTTTCCCAAAATCTTTTATACCAGGAATATCTAAAAGAAAAACTTTTCTAACTTTAAAACCATATTTATCTGCTACTTCCGCATTACTTAAAGCTGTAATTGCTCCTTGTGAATATCCTACAAAATTTATTTCTCTATCCTTATTTCTTGGATTATAGATTTTTCCATATAAAGCTCTCAACAAACTTTCAGATATTTTTTCAAAAGGTTTTTCTCCCTCTTTTAAAAATTTTTTTTGATCTTTAGTCATATCAGAAGATTCCCCAACAGAAGGACTTTCTACGCAAATAATTGGATCTCCTTCTTGTCCCATTACTTGTGCTAAATATTGTACAGGTTTATGATCTACACCTATGTTATATTGTAATGTAAGAACATTTGGGATTTTTCCCTCTTTAATTGATTCTTCATTGATAATAAAAATTCTGTATTCTTGCCCTGTTTCTGCATCTCTGACTTTGTCAAACTTTAATTCAGGAAGAGAAGCTTCTTCTTCATTTTTTCCATCTACTAAAAAATTAGGTACATTGTTATTGAATTCTCTAAAATGTCTAGATGTAGTTTCTATAGGAGTTTCTTTTTTTTGCAAAGAAGCTTCTTTTTTTTCATCTCTTTCTATAAATGTATCTATTGCTTCTATATTCATAAATATTAAAAGTATATTTAAAATAATGTAAAATACATGCTATCACGTCCTATAGTTTTTGTCAAGGGCATGAAAACTGTGTGTAAAATTCTCTTCAGGTATAAGATAAAGCTAAATTATAAATTTAATACGTAAAAGTAGTATCTTATAATATTTACTTTGGACTGCGGGATAAAAATATCAAATATATTAATTCTCTTTAATAAAAATAGCTGTAAGGACTATTAGAGCAAATAATATATTTACTATAGATATATATAACTAAAGATTCTTTAAAAATTACTCTGAGCAAAATCCTCAACAAAGAATATATAGAATCATAATCATAAATAAATTCCTAGATTTGAAGACTCCTTGACTCTTTTTCACAAAATTGTTATAATATTGATGTTATGAAAAAAGTACAACTATACTTACCACAAGATATATATGCAGAATTTGATTTGTTGGCAGAACAAGAAAATAAACCAATATCTTTTGTTATTAGAAATTATATTGAAAATACATTTAACAAAAAAAACGATAGAGGTATATCCACTCTAATAAAATTATCTAAATACAATTTAAAAGGAGAAAAAGACCTTACATCTCATATTGATGAAATAGTATATAAATAAAATGAAAGCATTCATAGATTCTAATGTATATATTTCAATATTGAACAAAGAAGAATCCACCCATATACAATCTTTAGAATTACTAGATACTTTGAAATCTCAAAAATCAGAATTGTTTACTTCCAGTTATATAATCTCAGAATGTCTAACTGTACTGTCCCAAAAATTTAATCATAAAACAGCCATAGTTTTTGAAAATGATATTTATTCTGGAAATACAAAAATATTGATACCCAAGAGAGAAACAGAAGACATTGCAAGAACAATATTTAGAAAAGAAATAAATAAAAATATCAGCTATATAGATTGTACCAATATTGCTTTTTGCATAAGATACAAACTTGACCAACTTATAACATTTGATAAAGATCTTACCAAATTGTTTAATAAAACAGTGAAATAATATTAATCAGATAACATCTTTATCCTATATATTAAAGATGTTCATAGAGGTAACTTATCTAAATTAATTACTTGAATGCTACCACTTTTCTTATACCTTTATCCACATCTTAGTGCAAAATTCCCTTGCACTATTCAAAAAATTGATTAAAGTTATATAAATATGTTATTATTCTACTGTTTATGAAAGATATAGTAATTAAAGCAGAAAAAAGAGATATTAAAGGAAAAGAAGTTGAATCTTTAAGAAAAGAGGGTCTACTACCTTCTTCTATTTTTGGAATAAAAGGTAATTTTGATATTACTTTGAATAAAAAGAATTTTCTTGCTATCTATAATAAAGCTAAGTACACAACAGTTATAGAAATAGAGTTAGGAGGGAAAAAACATAATGTACTTATAAGTGAGATACAAGTTCACCCAGTAACAAATGATGTACTTCATGTTTCTTTTCACGAAATATCATTAGAAAAAACTGTAAAAGCTGAAGTTCCTGTAAAATTAATAGGAGAAGCTCCTGGAGTAAAAACTTATGGAGGTGTATTAATTCATAGTATTCAAGAATTAGAGATAGAATCATTACCTGGAAATATACCTCAAAGTATAGATATTGATATTTCTGTTCTAAAAGAAATAGGAGATACTCTTTTAGTAAAAGACATAACTCTTCCTAAAGGAGTTGTGCTTGTGTCTGACGAAGAGGAAGATTTAGAGGTATCTTTAGTAAGTGTTGCTGCACCTGCAGAAGAAGTTGAAGAGGAAGAGACAGAAATAAGTCCAGATGACGTTGAAATTATAAACGAGAAGAAAGAAACAGAAGAAACAGAAGCTTAAAAAGTGTATATTCTTCTCTTACTCGAAGTATTTACCCCATATTTTTTCAAAAATTGTTGAGCCTTATTTATATAAATTTTTTATTTTCTACTTCTTCCTGAGTTGTCCAACTGAGAATAATGTAAAATAGTGATACTGTAGTAGAGCCACAAAATGGTAAAAAAATGATAAAATAATGTACTAAGGATACATTATGTTAAAAATAAGGACTACTAAAACTGGATCTGGAAGTACTTCCATTCAAGTTGTGTACAATACCACCAATAAAGTTAATATTGTTAAACATATTGGTACTGGTAAGACTGATCAAGAAATTAAAGATCTTAAAAATCTGGGTTATCAATATATTAGAAACTTCATAATTCAATCTGGACAAATACCTATGTTTGAAGATAGTACTTTAATTTCAATAGATAATCTTTCTATCAAAGAATCTTTTCATACTTTTGCACATGAATATTTATCTCATATATATGATATTAATGGGTTTAACTCTCTTGGAGACAATCTACTTAGAGATTTAGCTATTATGAGGATCATTGAACCCGTATCTAAGGAAGAGTCTATCGATCTTCTAAGGGAATATTTCAATATTAAATATTCTCATGGATCTTTACACAGAGGATTACAAAAAATTGTTGAGAAGAAAGATGCTATTGAATCAGTAGCAGTAGAGTATGCAAAGAAAAACCTTAACTTTGATTTTTCTTTAGTATTCTATGATGTTACTAATCTGTACTTTGAATCTTTTAAATCTGATGATCTTAGAAAGCCTGGGTTCAACAAGGATGGTAAATCTCAACAACCACAAGTTGCAATAGGTATGGTTGTAAACTCTGATGGATATCCAATATCAATAGAGATCTTTGAAGGTAATAAATTTGAAGGACATACATTCATTCCTGTAATATTAGCTTTAAAGAAGAAATACAATATGAAGACAACACTTACTGTAGTAGCAGATGCTGCTATGCTCTCCTACAGGAATATGAAAGCACTCAACGATGCAGGTCTGTCCTTCATAGTAGGAGCAAGACTTTCTAAGGTAAACAGATCTCTGTTAGAGTCAATCGTAGAATCTCTTGGAAAAGTTGAAGGTAAATACATAGAGTCTGAAACAGCATATGGAACTCTGGTTACTGATTACTCACGCAAAAGAGCTCAGAAGGATAAATCAGATAGGTTAAAACAAATAAGAAAGGCGGAATATCATATACAGCATCCTGCAAAACATAAAAGACCTAGATTTTTAAAGAAACTAGATAAGGATAAGTTTGAGATAAATACTGAATTGATAGAGTTTGATGAGTTGAAAGAAGGAATAAAAGGATATTATCATAATCTGAAAGATATACCTGCACAATTGATAGTTGCAAGGTACCATGATCTATGGCATGTAGAGAAATCATTTAGGATAGCGAAATCCGATCTTAAAGCAAGACCGATATTTGCGAGGAAAGAAGATATGATACTCTCACACATATTAATAGTGTTTGTATCCTTATGTATGTCTAAATCATTAGAGCTTAAAACAGGATTATCAACAAAGCTCATAAAGAAGAGCATATTTCATATTATGGATATTGTATTAATAGATGAATTAACACATAAGGAATTTACTAAACGTCAGAAATTTCCAGATTCTGATGTATTTTCTACACTATTAAAAATGTACTAATTGGACAAGTCAGGANNNNNNNNNTACTCGAAGTATTTACCCCATATTTTTTCAAAAATTGTTGAGCCTTATTTATATAAATTTTTTATTTTCTACTTCTTAAATCAAACAAGATATCTTTAAGTAGCGTTGCTCTCACTTTATCTTTTTGATTATTATTTAATAATTCTCCCAATCCTTCAATAATGTTATTTGAGTTGACGTTATCGCTTATATATTTTATCAAATATGTAAAATACTCTTTTTGAGTTTTTCCAGTTCTTAACATTATAATTTCCTCATTAATATCGAAACCCTTCTTAAACATAAAGTGAGCATCATATATATCCCTGTTTTTAAGTACTTTTCTATCTGTAATTGCACAAAGTTTATGAGCAAACATACAAGATGGTTCCATGATAGGTATAGTAATACCATAAAAATCTTTATTTATATATTTATCTGGATAATCTCTTTTGGAAATTTCTAATTTTATTCTTTGTTTACCTGCTTCATAACTTCCTAGCCAAAACCAAGTAAACCTTTCGTTTTCTTGATCGTCAATCCTAATATAATCTTTTAATATCTTTGTAACATTATCGGGATTAAAATTTTCTGTTCTAAGATTGAAATCTAAATCAACAGAAAATCTATCAAGTCCATAGAACATATATAAACAAGATCCTCCTTTAAAGGCTAACGCTGCTTGTAGATATTGATTAGTATAAATATCACGCAGTATATTTTTTAATATTTGTTCGTGTTTTTTAAGATCTAGCATAATTGTTAATATTTAAAATAATATTCTTGACAGAATTTTCCAACCTTTTATTATTATAGATTTTAGAAATCTCCTTTAACTTTTCAATATCTATTTCTCTTAAATTATCAAAAGATATTTTCGGGAAGACATATAACATATCACAAATAGTTCTTTCTTTGCTAGCAAATGTGTATCTTCCGTTATTTGTTAATCCAAGTGTGTTATAAAAAATTGACTCTTTGACTTTGTGATATATATATATTATTCCACCAGTGTCATACTTTTTACTTTTTAAAGAAATAGAATAAATAGTTGAATAATATTGGAATGTCAATCCATGCATTTGTGATGTTGTATATAGTGAAATATACGACATAGGAAACAATTTTTGAGCAACATCTTCTGGAGTGTAATTCTTATCATAAACATACACTCCTTTATGAATAGAAATCAATCTTTTATTTTTCAAATAATATTTTATACGATTTATCAACCGTTTTCGTTCTGTAATTTCCCAGATTACCGCCAAATCTTCAATAGTAAAAACCTTTTTACCTGATAATATTAGCTTTTCGATACTTTTAGTTTGATTATTCATAAGGGTAGTTTTACTCCCCTTATACTATACAACTTACGCCCTACTATGCCAATGGAGTGTTGTGAGGGGGAGGGCAGAACACAGTAACCGATTAGACAATACATAAAAGATGTATTCTTATTTTTAGGTCCAAATTGAAGTTAAATTTTCAAATAATATTGATCCAAAAAAGAAACTAGAAAAAACACAAAAGCTTAAAAAGTATATATTATTCTCTTACTCGAAGTATTTACCCCATATTTTTTCAAAAATTGTTGAGCCTCATTCATATAAATTTTTTCTTCTGAAATAATATCTTTAGGATTAGAAAAGTTTATATTTTTTATAATAACATGTAAATAATAAGGGGGGTTATTTTGATTAGACATTTGAAGTGTATAATATGAGGTATTAAAATTTTTTCCATCATAATTTAGTATTATAGGATTATATAAACTTTTATTATACATAGGTATCCCTTTCGGTACTGTAATTGTTGTACTTTGGTTATTCGTTCCAAAAAATGTATTTAGAAATACAATAAGCATAATTACTACTACTACTATAATTATATAAAAATAATTCCTGTTATTTCTTATAAAAGTTAAATTTATCATCCTGTTTGTATATATTGTGATCCTAGAAAAATAGTTAGAAACTGATTAAGGGCTGTTCTTTGTTGATTATTCCCATAAGATGAGCTTGCTATTGGTGTATATTGTTCCATCATATATGTAAAAAGATCTGTCGTTTTACATGAACCTGATACTGCTGTGTTTAGAGAAGACATTTCTCTAGTAAACGTAGTATAGTATGACATAACGCTATTTACTGCACACGAAAGTCCTTGATAGAAACCATTTACTCCCACAGGACAATTAAAATTTTCTCCTCCTGCTGTTCCAAACGTACTCTCTTGTCCCCATATAGCGGTAATAAAACGAGGGTCACATTTATATAAATTAGGGCCTATATTACAGGCATTTTGAATACTTTGTTCTTGTGCCAAAATTCCTGGTTTTCCTATACTAACAAGGTATGCATCCATTGATGCAAAATCTGATTGAGTTAAAGTTATTCCTGCTGGGTTTACTAGAGGAATTGTAACTGTAAAAGGTTCAGGACAATATCCTGGAGGAACAGATATTCCTCCTAAAGAAACTACTGTATTATAATTTGTAGCTCCCCCTGCATAAAGATTTATAGGACTAAGAATCCAAGGAGGAATTTCTTGAGACTGTGCTAATATTTTTGAATGAGGTGCCAAAAAAATATATAGAGAAATGAAGAATGTCAATAAAAATATTTTTTTTATCATAGTTTTATACCCATATTCTGCCATATACCTTGAATATTTTCCACCTTAACAATTACATTAGATGTTTGAGGTATATCTCCTGCTTGTCCGCTTTTTAAAGTTAATAAATATTTATATTTAAAAATATATTCCTTTCCTGGTATATATTTTTGAATATAAATTCCTTCTAAAAGAGGGGTTGTTGCGTAAAAATTTTGGATATCCCCTAAAATAGAAGATATTATTTTCCCATTATTTAAAAATTTAGGCATTGAAAGATAATATGATTTTAGATAATTATTATAGTTTATTAATTCTTGTGGAGTATTTCCTGTGGGAGCATTAAATATATAGTATGAAAGATAATAACTTAAATAAATTGGATTATTAAAAGATTTTCCTTTATATAAAGATGGGGACTTCATAAAATATTCATAATAACTATTTGTTTGGGTATTATACTTATAATAGGTAATATCTCCATTAATATTATTAATATTAAAATAAAAAACATATATCCCCTCTTTATATTCTAAATATTTATTTGTATTAACTTTTCCTGAAATAGGTCCAATAGAGCTAAATATTTTTGTAGTATCTATATTTTGAGGTTTTCCTAAAAATCCCCATAACTCAATAATCAAAAATATTAATATTATAGCTCCTAATATTATTAGTATTCTCTCTCTTATAATTTTTGCTATTTTATTAAGATTCATAATTAATTTCCATTAAAATTACCTGATGAAGGTCTTCCAAATCCTGCAATACAATAACCATTCCCATTAGGAGGGGTATATGTATAAGCTTCTGATTGAGGGGCATAGCATGTAGAAAAACTATTTTTTGGAAAAGTAGTTACTCCCTTACTAGGTTTTGCAGCTTCTATAGTAGAATAGTTATTAATTCCACTCCAAGAACTAACTATTGCAACATGCTGGACACCTGGACCATCCTGCCTTACATAATAAAAAACCAAATCTCCTGGAACAACTTTTGTAGGATTATAAAAAATCTTTAAAGCTGGAGATTGAAATTGTTCAAATGTAGTTCTGGGTATCAAAAATCCACTTGCGGCATACACAACTTTGGCTAGACCAGAACAATCTATTCCATAATTAGGAGAAGGAAGAGGAGAAGAATTATCGAAAGGAGCACAACTAGGAGTTGAAGGGTTTTCTGAATACTGTCCTCCTAAGAATGCAGATGCATCATTAATAATTTTTGAGGATGAATAGTTAGGAGTTGAAGGTGGTGTTGCATTCAAAACTTTTAAACAAGCCACTTGATCAAAAGGTCCTGTATAACTACCAAAAGATGTAGAAGTTGTACTTGAATTGGAAGAATAGTATGACCCTATCGCATTTTTAACAATTGGGTCATTTTTTGATAAAGCTCCTGAATAAATTAGGTATAAAACAAGAGGATCAGGAAAAGAAGATCTATTTTTTATATAGTATTCTCCTTGAGGGAGAACAGGAAGACTATTTCTTGATAAAGGGTTTGCTGTAAAATATGGTTGGAAATTTTCAGAAGCAAGATGTTGTTGTATAACAGGAATTGCTCCGACCCAAGGGAAAGCAAAGTTCTGATTACTGACCCAAGGGAAAGCAAAGTTCTGATTACTACTACCCAGTGAAGCAGAAGAGGATGTATCTTGAGCTAAACAAGCTTGCGCATTTGTAGGACTTGCTTGTACAACTTTAATATTAGCACTTACTTCTATTCCTATACCAGAAAACAAATTATTAGATATGGTAGTAGAGTTTCCATAAGGAGAATTTGTGCATGAGGTTTCTAAGCACTGAAGAACTGCTGTATGTAAAAATCCTGTTTTATGATTTATATACTGAACACCTTTTGCTCCTGTATGTCCAATAGGAGGACCTTGGTCTAAAGATGCTTCTGCATACCATTCATCAGCTAATGCTCTATTTAGACCTTGTAGATATAAATTTGTATTTATCTGTACAGGAACAGTAGTCTCTGATGCAAGAGTACAGTTTACATTACTTAAATTACAAGATTGTTGAACTTTAATAGTAAAAGGAGAGCTTTGATTTAAATTTGCTTGTATGAAAGAATTTGTCGTATTAAAATTTGAAATCAAATTAGGGCAAAAACCTGTTGAATTTGTAGTTATAGGTTTAGTACCAAACCAAGAGCCTATTAAAGGAAGGCCTTGAAGAAAATTAATAACACTACTAAAAAATGTAGTAAGAGAACTATACCCACCATTTACTTTGTAATATCCAGATAAGGTTGAATTTGCAGGTTGTGTACTTTGGGTAGGATTACCATATGAATTTAATAATTTACATGTAAGATCTTTCACTGTTGATGCTGTACAATTGGAGTTAATATCTGAAGAAGAAGGTGCTGTATTGTAGTTATTCTGAGTATTAGACGATAGAACAGAAGCATTAGGAAGGTTCTGTGGATTATAGTTATTGTCTATCATAAACATAGAGCCTAGAGTAAAAAGGTCAGCTTCCATTCCTAGACCAGGAACAGAAAAGAATGCATTGTTTCCTACTTGAGATTGAGGATTACTTTGAACACTAATGTTTCCAAAAGAAATAGCTTGTGCTACAGGCATATTCAAAGATCCTAGCCCAGGAAGAGAGCTATTTAATTTAGAAAAATTTATATAATTATTGTAATTTAGTTTTTGTACAGAAGATACAAAAGAAGAAAAAGGATTTCCATTACTAGAAGAGATAGGTGTTCCATTTGAATTCAGAGAATCTAAATATCCTAAAAGGGGGAAACTTGTTATATTTACATCAAAAGCAAATGTTTCTGTCTGATAAACAGACACTGTGTTTCCTGAAATTTTAGGTGTAACTGGAATATTAAAAGATAAAGAGTTTTGATTACATGAAGCTGCCATATGATTAGGATAATTATATTGTTGAGGAGTAGAAAATTGACAAACATTCAATGGTTCACTCGATGCAAAAACAACTCCTTTTAAAGAAAAAACGAAGGTTACAAAAAATAATACTAAAATTTTATTTAATTTTAATTTGCGGAACATATAAAAAATAGTTTTCTAAAACACCTTTTATTGTATCAGCTTTACCTGAAATAAAATATATAGGGACTATATTATTATCTAAAAAATCGATAAAATATGCCTCATTTTGAGTTGAAAAAGATATTTGTTTAAGATTATAGCTATTTGAATAAAATGGGTAGTTTTTGATACTTTTTGAATTTAAAATACTACTTACACTTTTTCCTTGAATTTTAATTACATTAATAGGATAAACAGAAAAACCTGTTAATCTGTAATTTAGTGAAAAATTAAATTCATAATATAATTTATCTCCATATGTCTTATATATATAATCTCCTTCTAGTGTAGGATAATATAACAGATTAATATGATTTTTTGAGAATATTACATCTTTTTTAAAACTTAAGGTATTTATATCAAATTCATTATTTATTATGTTATTTACACAAATATATATATTTTTACAAATATATCCTTTAGATGTTGTATAAAAATAACTACTGTTACTATACACAAGTTTTTGATATGAATTCTGCCATACATCTTGTACAAAAGAAGTTTTTTCTGGAGGATATGTTACTCCTAAATTATTAGCTACTTGATATGGAGTTAAATTATATTTAATTTCAAAAAAGCTGTTTTTTGATGAAGGAGACTGTATTTTAAAATTCTGATTTAAATTTTGTATATTTTTTGTCAGAAAATTTATTTTAGGAACAAAACTTAAAGACGTATTCTTGTTTTTAATACTGACGTTATTTGTTTTATGAAAAATAAAAAATAAAGAAAGAAGTAGTATTAATATTAAAGGTATAGATATTTTTATATATTTCATAAACTAACTAATTTCCTAAATATTCACCTTTATATAAGGTTTCTCCTGTATACAAAGATGGATTATTAGAACTAAACTGCACTGTATTACTCCCTGTTTTTAGAGTTACTATCATAGATACAGGATTTGTAGTATCTATATTTAATATTTTTCCCGTATAAGGGGACGTATTTAGGGCTACTGTAGCTGGAGTTGATGTGCTTACAGTACTAGAAGTATTATTGTTTGTAGCTCCAGAAGCTGTATTTGCCCCTATTAGAGAACCTGCCAAACTCCATCCAATAACCATTATAAATATAGTTTTTAAAAAATCATCTATATCAAATTCTGTCTTAAAAAATAGAAGTATTATTCCTATAAATATGTCTAACCCTAAAGATGCAGGAACTGCTGCTTTAGAAAACCAAGACCACACTGTATTAATTGCACTCTTAAAAAAATCTCCTATGTAATACATTATTCCGTGTCCAAAAATCCAATTAACAACTTGGTTTAGTATTACTCCTCCAACAACAACAATTCCTGCACCTAATAATGTTACTGCTATCTCAGGCAAAGCAAAACTTAACCCTGCAATAGAAACAGCAGCTACAACACTAGATCCTACAGATAAAGCTATAGAAGAGATAGCCATCCCTCCAAAAATACTTGTCATGGCACTATTTAAAAAAGCCATTCCACCTTTTTCACCTAATAAAGCTTCCCAAAAACTTGGAGAAGTTATACTTGTATCTAACTGTAATATAAAGAAAGGTTCCATCACTTTACTCCCTAAAAACTCACCTGCTTTTCCAAATGTATCTGCTATAAAAGATTTTTCTGAGACTCTTTTAAATATAGCCCAGCCTATTCCTCCTGTTGCACCTATAGCTATTCCTGCTACAGGCCCTAAAAAATATCCAGAAACTACAGCAAGCAGAATTGCAGGATTCATACTTTCTCCTAAAAATTTAGTTGCAGTACCTACACCTACTTTTCCTAATGCTGTATCTATTATTAAAAATTTAGGATCTATATTTTCTAAATAAGATAATCCCCATTTAAAACTAGTATACCCTAATGTCACTGCTGCAAAAGCAGGTAAAGTTGTTGCTCCAAAAGCTACAGAAAGTAAAGTTCCTCCAAACAAACCACTATTAAAAGCTTTCATTAAATCTTCTGTGCTTAGTTTTGTAATAAGGGAAGTAGATCTCATACTAGCAGCTACTTTTCCTACAGAACCAAGACCTGATTCTTGAATTGTTCTAAAAGCTTCTTTTCCTAACTCTAATTTAGGAATACTACTAGATATAATATTAGGATCCTTCAAAAGATCTAAACTGTCTACAAATCTTGTTCCAGGGGTTAGGGTTATTCCTTCAAATATTTTGTCAGGAGAAATATCTGTTAAGCTTAAATTCTTTATATAATCAGAATTTTTAGCCATATCTACAATCTCTTGATCTGAGAAACCTATTTTTTTAGCAGCTTCTACAAAATCAGAATACTTCATTTCTTCTATATTAATTCCTCTACCTTTAAAAAAGTCTTTAACGGAAGTATCTGTTACTACAGAGAAACGATTTGATATTATTTCTTTTGATATTATTTTTTTTGCTGCCCCTTCATCTATAAATCTAATTGCTCTTGGATCTTTTATGATATCTGCAGTTCTCCTCATTGCATCTATTTGAGTATTTACTGTCTTAATTCTTAATCTACTATTATCTAGGTTAATTTTAGATTTTTCTATTTTTTTTAGATCTTCTTCTTGTAAACCTGAGGTTTTGATTATGTGCTCTCTTGCCACCTTATCAATAAAACCTGAAGCATCTCCATGTATAGCTTTATCCCAAAGAGCACCCACATTAGTATCTTTACTTAAAGTATCTACTAATCCACTATCTAAACTTCTTCCTGAAATATCTTTTAAGTTTTTTAGATTCTCTTCCAAATTTTTACTTATATCTACTTCATTTACATTTGCAAAAATAGTCCTTGGGGCAAGGGGGTCATATCTATATAAAAGATCCTGTCTTGAATAAAAATCTGCTCTTCTATATTCATCAAACATTTTTTGAACATGAGCTATATCAGGTTTTATTTTATCTCCTTCTAAATACTTAACAAGATCCATTCTATCTATCTCCTCAGCGGGTATCCCAAGTTTTACTAACTCTTCTTTTAAACTAACTTTTCCTAAATTTTTCCACTCATTAAAAGGAACATTTTTTAATCTTAAATCTTTTATATCTTTTAAAGGTTCTAATTTAGGATCTTCTTTTACTATAAAACTAGAAGCTCTTTTTTCATAAATATTTATAGCTAATGACATTCCTCCTGTAACTACTCCCACTAATAACCCTAATGGTCCACCGACTAGTCCTACCCCTATTAAAGCTCCTCCTCCTGCAAAACCTAATCCAGTATGTAGAGCATCATACAAAGATATATCTGAAATACTATGCAAAACAGAATCTTCAAATAAAGATGCTTTTATAAAATCTGCTACTGAACCTGTTATTAAACCTGCACCAAAGACAACTAATCCTATAAAAGGATTTGAGATGAAAAATAAGGAAACTATTCCCGATACTCCTCCAAATTGAAAAAGATACTCTGATTTAAATAAAGAAATTCTAAATTCACTTGCACCTATTGCAGATAATTCTTCATAACTACCCGCAAGTCTTCCTACTACTAAATAGTCTATAGCTTTTATAGCAGATGTTCCTATAAAAATACCTGCAAATATTAAAGGGGCATTAGCTATTCCCAAGAAAGCAGCAATACCTGCACCTAAAATACCTGTTGAAAATCCAAAAGTTGTAGATTTAAAAACAACTTCAGTAGTACTCAAAGACCTCTCAATCATTGAAGAGTTTATTCTTTCTATAAGATTAGCAGTTAATGGATTTTGCTCTGAAAAAAAAGAGGTGAAATCTACTAAAAATTTTGATGTAAAATATGCACCTCCTACAACAGCACCTAGTAAAGGATTAGAAAGTATAATGCCTGTTATTAAACCTGGAATAAGAGCCTCTACTCCATCCTTTAAAATAAGCTTCCCTACTCCCAAGGCAAATTTAAAACTATCTATGGATATAAATACTTTTTCTGTAAGACCTCCACTTACATTTCTTAGTATAGAATATGCAAATTCTCCATCTCCCACATTTTTTGCAACATATAAAAGAGCTTTATCTACAAAATATCTCCCCACAAATACAACAGCAGCAGGGAGTGCTTCTATAAAATCTATGAATTTTAAAAGATTCCTCTTTTTAACCTTCTTATCTCTACGTGTTACTAAATTTGGATTTTTTTTATCCTTTCCTTTTTGTAATCCTATTTGAAATGGTTTAAAGTTTATTTTTAAAACTCTTTTATTTGTAGTTGTAAAAACTTCTCCAAACTTATCCTCCCATTGTTTAAAATCTAATGCTCCTAAAGTTGAAAATGAGAATTTTTTAGATTTTTCAGGATATAATAACCTATTAGTATGTCTAAGTCCTGTTGCTGTAGGAGAATATTTATCTCTAGTTAAACCTTGGTTTTTAGGAGATGCAAGAGTATTTATTGTTCCTAAATAATCTCTAGTGTTCTGATCTATAATACTCCTTAGGGCAGGATTTTTTGTCCTTGCAATCCCTGCTGACCACAGATTTCTATCCCTAGTAGCTACAAAATATTTTTCCCATTCAGAAATAGCTTTCCAACTAGAAGGCATTGAGAATATACTGGACTTTCTTTTATACCTGCCTTTTTTATTAGATAATATAAAATTAAAAAGCTCTTGTCTTTTAAATTTACCATCATCCATTGGAGGAGGCATATATGCCTCTCCTTTAGCATCTTCTAATATAGCTATTCTATTATCAACTATGACTGGACGTAATTTTTCGTCTAGCTGATACATGTAACCATGGGTATATAGAGATTCTAATTGACTCCTTATAGCATTTGCATAAATAGGTTTTCTTAATTCTTTTTTTAAACCATCTATTCCAAATATATATTTAGGAGCACCTTTTCCTTTAAAAGCTTGAGGGTAGAAATGTTTAGATATAGCAGGAGCGAGAGCCTTTGCTAAAAGATCAGCTTCTCTTTCTTTAAAATTGGACTTATATGGCTTATAACTAGCTTTTTTAAATTCTTCTTTTAAATTTTGAGATACGGTTAGTTTTATATATGTTTTTACATAAGATTCTTTTACTAACCTTGATAAAACATTGTCCTTGTCAGGAGATAAGCCATCAGGAAGATCTCCTCCTGTATAACCTGAATAGGGGGAAGTAAGTTTATCTAAACTTAAACCTTTAGACCTTAAATCCCTTTCTAGGTCACTTAATTCGTAATACTCATTTGTATATACACTTATTATTTTCTTTTTTAATTCATCCATTTATATAATTGTATACATTTTCATAAATAGTTTGATTAGAATAGAATAAAGATAGATCCTCCTCTCTAAACAAACCTTTTTCTATCACATTAAACATTTTAAAAACATTACTTTCTTCTTGTAAATTATAAAAAAAACTAGAAGCTCCTTCAAAGTTAAAAAAATCCCTTATCTTATTAAGAATAACTATATCTTTTATATATTTAAATCCTGAAAGACCTTTATATCTATCCAGGTACAAGAAATTCTCATCTTTTGTAATATTAGGAATATATGATATATCTAAAAAATTATCTTTAGACAAATTTGCATCTGTTTCTATAGAAATAGGAATATTTTGTGTATTATATATATTTTTACTTAGAATAAGCTTCTCTCCTTCTTCAGAAAGAAATAGGTCTAAAAAATCTTTATCAAAAAATTCATAGAGAAAAGAATAGTTATAACTTTCTTTATTTTCTCTTAACACAATATCTTCTATTGCACCGTATAGATAATCATATAAAGGTTCATTTATATCATCAAAAGATAAAATGAAGTCTTCTTTTTTTAAAGAAAATAGAGAATTAAAAGAATCTATATCGCCAAAAGCTTTTATAAACTCTGAAAAAAGATAAAAGTTATATCCAAAATTTTTGTTATAGAAATCTCTTAATATCATCTCTAGGATCCTAATGATTTTCTTGCATTTCCAGTCCATTTTCTTAAACTCGAATATGGCTGAGCAAAACCTCTCTTTAGTTCTGTTGCATAAGAAGAGAAATCATAACCCAATGCCTTAGTAGCATCTGCAATTATCTTTGGTATCATTACAAAAAGTGCTATTGATATCAAAAGTCCTATTGTGTTTCCTTGTTGGGAACTAAAAATTGAGCCTAAACCTAATAAAGGAAGTGTATTTCCATTAGAAAGCCCCGTAATTGAATTTTGAAGATAATATATAAGGTTAAACATTGTATATGTCACGACATAAATAAGTATAGCTTTTGACATACCTTTAAAAAAACTCCAAGTAGCTTTACTTTGTCCAGGAACAGAACCTAGAAGAAACATGAAAGGTGCAGCTATTGGTAGAAAAAGAAAAATAAGATATCCTTTTAAAAGTTGTATTATTATTTTAAACACAGTAAATAAAAGTATAACTGCAACTATAAAAACTATAATGCTGTCAGCTGCACCACCATTATGAATAATTCCTCCTATAGCTGAAAAAATATAGTGTACCCCCCCTGTTCCATCTGGCAAATTATTTATAACAGAACCTGTCCCTTGTAAAGCAGTCTTCATGTTATTTCCTGTAACTGCCCCATAAACACTAAAAATATAACTTCTAGAGGAAAATGCAGTTGGAAAATTAAAACTACCCGTGTTAAGAGATGTAAATATAGAATAGATTAACCCTAGTAATATATTCATCAAATCTATCATAAAACCTCCTATAGCATAACTAAAAGTTATAAGAACAATAGCGGCCATTATATTAGGGAGTGCACTCATAAATGTTATAGGAACCTGTCCTCCTACTTTCCCTCCTACAATTATCATTATTCCTGTAAAAAGAATTATAAGTATTAGAAGTAAATAAGATATGTTTCTAGATACTGTCCAAATATTATAAACAGGTGATAGAAAAGAAAACCCATAAACTGGACCTGACAGTTGAGATGCTGCATAAGTAGAACTTGTTAAACCTGATCTTTTATATAAATAAGCAAAATACCCAACTCCACTTTCAGGTTGAGTTGTATACATTGAACTTACTAAAGAATTCGCTTCACCAAAGGCCCCATAACCTCCTGTATAGTTGTATCCTGTAGTACTAGAACTACTAGCTTGTGTATAGTTTCCTAAGATAGCTATAGCACCCGATTGAAATAGTGAAGGAGTAAATCCACATGACTCCCAAACTGAAAGTCCTGATCCATTAACAGGTGCACATTGATTTAGGGTCGTTTGCTGAGAACTAGTAGTTGTTTGCGCAAACATTTGTCCTGCAAAAAGAACTCCTAAGATTACTAAAAAAATAGGAATACTTTTAATATTAATAGAACTTTTTTGTCTTAGATTAGAATGTGTGCTATTTTCTAATATTTCTACAGCTTCTGTTTTATATAAAGAAAGTTTTTTAGATATTATTTTTGATTTTAGTAAAAATATAGAAAATTTAAGCTTTTTCTCTTTTAAAATATTCTTATAGTATTTGTTTATTTTATTCATAAAAACTTGTCTTTGGGTTTAATATATTATTATAAACTAATTTTAAAATTTTTAAAGTAGATCTTTTCTGTTTTTATTAGTTTTTTTTAAACTTTCTTTGTATCTGTATTCTTCTATCTTTTTATGGTTACCTGATAAGAGAATTTTAGGTACTTTTTTCTCTAAAAAAACTTCAGGTCTTGTATATTGAGGGTATTCTAATAAATCATTTTCAAAAGATTCGCTCTCTAAAGAATCTTTATTTCCTAAGACTCCAGGAAGAAGTCTAGTTATTGAATCTATTAAGCATAAAGTAGGAAAATCACCAGAAGATAGTACAAAATCACCTAAAGATATTTCTTCGTCTACGAAATTTAAGAATCTTTCATCAAAACCTTCATATTTACCTGAAAATATAGTTATATTTTTTTTTAAAGAGAGTTCTTTTGCTTTTTTTTGAGAATATTTTTTTCCTGAAGCACTAAGCATTATAGAATAAGTATCTTCTTTTATTGAGCTTAAAGCTTTAAATAGTACATCTACTCTCAATACCATTCCAGCTCCACCTCCATATGGAGGTGAATCTAAAGAACCTCTTTTATCAAAAGAAAAATCCCTTAGATTAAGATTATCTATCTGGATGATATTGTTTTTTATAGCATTTCCAATAATTCCAAACCCTTCTGCATTTAGAAGTAGCTCTGGATATAAAGAAAATGTGTTAAATTTCATTTATATCAAACTTTCTATTTGTTTTACAAATTCCTCTTTTGGTCTAACACCTATAAGTCTTGACACTTCTTTTCCTTCTTTAAAAAACACAATATTAGGAATGCTCATAATGTTATATTGAGAAGCAATATCTGTACTAGCATCTACATCTAACTTACATACTTTAACTTTATCTTTAAACTCTTCTGATAATTCTTCTATTATAGGAGAAATCATATGACAAGGCATACACCAATCTGCCCAAAAATCCACTATAACTAACTTTTCTTTTTCATCTAAAACTTCACTTTTAAATGTTTGAGAATCTAATACTGTATGAGCCATAATTTTAAAAAATAAAATAATTATAATTTATTATAGCATAAAAAAAGGTGGGTTTTTATGTCCACCTTCTTTTATTTAAACTTAACTAATATTAGTTATACTCATAAGCTATTGGGTATCCTGTTGTATTAGTTGTTGCACCTTTTTGCATACCTGTTGCAAATACTAGAACTTTTGTTCCACTAGCATTTTCTGCTACGTAATAATTAACATTTCCTCCAACTCCTGGATTTGATGTTAAATAATTTTTCATAGTAGGTACTGCTGTTTCGAATGCAGCTAAAGTTTCACAAGAATCTGCTCCTGATACTACTACAGTTGCAACTTGTGTAGGAAGTGTTCCTGTTGTTGTTGTTGCACAACTTGGGGTTCCTGTTGTATTGCCTTGTATATCATATCCATAAGCTGTTCCTGATGTAACAATTGCAGGTGATGTTAATTGAGGTAATGTAGGTAAAGCCCCTTTATTATCAACTGTGTATTGCTGTATAGATTTAAATATTTGTTGTATATTACTTGTCATTGTTGTATTGTTTGAGTCAGCAATTCTTCCTACTGGATTTAATGCTACAAATACTACCAATGCTAAAATAGCAATAATAACGATTACAATCAAAATTTCTATTAAGGTAAAACCTTTATTATTAAATTTTTTCATATTATCTCACCTCCTTTTTGTATACATATAATTTATATTAGTGCACTTTTTTTGTCAATAAATCAAAAGTTATACTCTGAATATGCAACAGAAAAACCTTTTTTATCTACACTTTTACCTTTACCTAAATCATTAGAAAAAACAACGACTTTTGTTCCATATATATTTTTAGCTACATAAAAGTCACCTTGTGGAAGATTTTTGTTTAGATATTTTTGAATTTCAAAATATATTGGAGTATTCATAGATATATTTAAACACATATTTTCTTTTGCTCCTGCCTGTATACAGTTAGGTATTCCTTGTGTATTATTATTTATATTAAAACCTGATCCTATACCACTTGTTGAAATATTATTTAATATTAAAGGACTTGATATAGCAGGAATTGAAGGAGGTAACATTCCGTGATTTTGAAGAGAATAATCTTCTATTGCTGTAAGAAGAGTCTCTACTCCATTTTCTCTTTGAGTATTATATGTATCAGAAACAGCTTTAACAGGATTAATTTCAAAAAAAACAATTAAAACAAATAGTGCTATTGTTATTAACAATATTAATATATCAGAAATATTAAGCTTTTTTATTTTCATAACTATATATTTAATATAGCATAACCTATATTTTTTTCAACTAAGTCTATTGTAAAGTTATCCACAATCTGATATTCTCTTTATTTACTTACCTGCCCCTAAATATTTTTATATTTTTTATTAATATATTATGCAAAATAATATCAATGCTATATGGAAGATAGCCTCTTCTCAAATAAAGATAAAAATTACAGACAAAAACTTTAAGATATGGTTTGGTAAAGTTAAACTAGACAGTATTGATAAAAATATAGCAACAATATCTTCTCAAAACTCTTTTACATCAGATTATATTCAAAAAAATTATTTTAATATAACAAAAAATGCACTAAAAGATGCATATGGAGAAGATTTAGATATTGTTTTTAAAACAAGACAAGAAGATATAAAAATAGAAGATGAGCCTATCTTTTATAGTAATGAAAGTATAAAAAATGACATTAATTCAAACCTAAATCCTAAATATACATTAGATAGTTTTATTGTAGGTTCATCTAATAGATTAGCTCATGCTGCTTCACTTGCTATAGTTGATTCTCCTGGTATTTTATATAATCCTTTTTTTATTTATGGAGGAGTTGGTTTAGGAAAAACACATTTAATGCAAGCTATAGGAAATGAGTTGATAAAAAGAAATCCTGATATTAAAATTTCTTATATGAGTAGTGAAACTCTCTTAAATGATTTTATAAACTCAATAGTTAAAGGTAAAAATGAGAATTTTAGAAAAAAATATAGAGAAAATGATATTTTAATAATAGATGATATACAGTTTATTTCTGGCAAAAAAGGTATACAAGAAGAATTTTTTCACACATTCAATACTTTACAGCAATCTAATAAGCAAATCATATTAGCTTCAGATAGACATCCTAAAGATATTGAAAATTTAGAAGAAAGGTTAGTTTCTAGATTTGAAGGAGGAATGGTTGCAGATATATCTAATCCTGATGAAGAAATGAGGATAGCTATTTTAAGAAAAAAATGTGAAGAAAAAAACTTAGTATTAGAAGAAGATATCATAAATATGATAGCTGAAAATATAAAATCTAATATTAGAGAGTTAGAGGGTGTTCTTACTAAAATAATAGCAACAGAAAAAGTTTTAAATAAAAAATTAAATAAAGATGAAATATCTAATTTAATAGGGATAAATATTAAAAGAAGAAGTAAAATTTTAAAACCTAAAGATATAATAATTAATGTTTGTGAACAATTTGGAATATCTCAAAGAGAAATAATAGGAGATAGAAGAACTAATAGAATTGCTCTTCCAAGACAGATAGCAATGTATATATTAAGAAAAGACCTAAATTTACCTTTAGTTGAAGTGGCAAATATCCTTAAGAGAAAAGATCATACTACAGTTTTGCATGCTGTGGATAAAATAGAGGATTTAATAGATAATGATGTTTATTTAAAAGATAAAATAAGTAGTATACGTAGCTCTTTACAGCGATATTAGTAAATGTGTAAATATTGTGTAAATATTGTGCATACAATGTTTATAATTTGTTTTTTTTGAGGATAGTTTATAAAAACTTATACATATAAATATTAGTAATATATAAAACTATTCACATAAAAAAATCTTTGTTTTATAATAATAAATCAAAAAATATGTTTTATTTGCAAAAGATATTTAAGTTGTATATTATAAACAAGAAATACACAGTAATTTTTACTTTAACAACAATAAAAATTACTAATTTTTAGAGTTATAAACATGTACTACTAAATACTACTATATTTTATATATAATAATAAAAGAAGAATGGATATAAATATAATAAGAGAAAATTTCATAGAACTCTTAAATTTTAATATAAAAACATATACATCAAAAGTAAGTATTCCTATACTTTCAAATGTATATATTGAAGCTAGAAATGGTAAATTGATATTAAAAAGTACAAATTTAGAAAATAGTGTTATTTCTTTTTGTGGAGTTGAAATAATAAAAGAAGGAGAAACTACTGTTAATATTAAAAATATATATGATTTTGTAACTAATTTAAAATCAGAAATAATAAATATTAAATTTGAAAATAATACACTTACTATATCTGATAGTTTAAATAAAATATCTTTAAATACTATACCAGCAGATGAATTTCCTGATATACCTGATAATGATAGTGATTTATTATTTAAAGTTCCAGCTTATGATTTTTCTTATGCTTTAGATAAAGTTACATTTGCTACTTCAACTGATTTATCTAAATTAGTTTTATCTGGAGTTTTTTTTGAGATCAAAGATAATTTTTTAAAATTAATAGGTATTAATGGTTTTAGATTCTCTAGTTTTAATATAAAAGGTTTAAAAAATATAAAAAAAGATATTATTGATAATATAATAGTTCCATCATCTTCTTTAGATAATATTTCTAAAATAATAAAAGATTTAGGTTTAGATAATGATAGTTTTGTTTCAGTTTATCTTGTTGGAAAAAATAATCAATTAATATTTGAAATAGATAATGTTAAATTTTTAGTTAGATTAATTGAAGGTAAATATCCTGATTATAATAAAATTTTTCCTGAAGATTATGAATGTAGTTTTTCTTTAAATGTAGAAGAGTTTAAAGATGTTATAAAACTTTCTTCTATTTTTAAATTAAAAGATATATCTAGAATTTATATAGAAATAGATCCTAAAGAAAATGTAATTAAATTTCAATCATCTTTAAAAGAAGTTGGAGAAAGTATTAGTATAATAAAAACTAAAATAAAAGGAGTTAAATCTACTGTTAGTTTTAATTCTAAATATATAATGGATTTATTAAATAATTATGAAGCTGAAGATATAGAAATAAGTATAAATTCTTCTTCTTTAAAAAAAGTATCAAAGTTTAATGAAAAGAAAAATGATGATTTTGTATATCTTGTAATGCCTCTTTTGGAAAGATAATCTTAAAAAGATCCTACTTTAATATTAATATCTATTATATTATTTTCTTTATATTTTTTAATTATTTTTTTAATTAATATATTTTTTGTAAGTAATATTTCTTGAGAAACATTTGAATTTTTAACTTTAAGTATAATTATATTATCTTTTAAATCTATAAACTTTATATATTTTTTTGAATTAATACTAAGTACTGAGTCTAGAGAATCATAAACAATATCCCTTATTTCTATTTTTGACTGTATTTTATTTAATGAAATTTTAGATATGGATATCTTTTTAAGCATTAGATATTTTTTTTATAAAATCTTTAGCTTTATTAAAATTCTCCATTTTAGTTAATTTAAAAATATTTAGAACATCATCTGAAGATACAGATTCTTTTCCTGCAAATTTTTTAATTTCAGAATCATCTAAATCTACACTTAATCTAAACCTATTAACCATATTGTTTAAAGGTTTTACTATATAGATTATATTTTTATTTAAACAATTTTCACATCTTATATAAGCTATTGTTACATTTTCATTTTTATCTATAAGTTCTACTAAATTTTTATCATGAAATGCTCCACATTTCTCACAATAAGAAGGTATAATATCTAATATCTCTTTTATATCTGGATTGTTTTTATTCTTTGCCATATATTTGATTATATAACATTATGTCAATAAAGTTTTCTTTTTTTTGGAAATATTAGTAATAAAAGCTATTATTAAGAATACTATTAATATTGTAAAACCTAATATAATAGCTTTGTGAAAACCTGTTATTATTAATGCTATTATACCTATAACAGCAGTGAATAAATATTCTATAAAAGCTACTTTTTTTTGAGAAAATCCTAGATCTAATAATCTGTGATGCAGATGTCTTTTATCATTTATATTTATTAATCCTAATAATGTTTTAGGTTTTTCTTCTATTATTCTGGATATTATTACCCAAAAAGAGTCTATAACAGGAATAGATAAAACCATCATTGTTGAAGCTAGTTTAGCTCCTGAATAAATAGAAAGAATTGCTATTATAAAACCATAAACACTTTTTCCTGAAGCTCCTGAAAAAATTTTAGAAGGATAAAAGTTATAAAATAGAAATCCTATCAAGAGTCCAGCAAATATAAAACCCATAAAAGCCGTATCATATGTTTGAAAACGTATAGATAAAAGTCCTATTATTATTGCAATTATAGATAAATTTCCTTCTGCAAGACCGTCTGTACCTGCCATCCATTTAACAGCATTTATGATAATTAATATCCAAATTATAGAAAGGAAGAAAGAAACAAAATATAGATGAACCCCTAAAAAATTAAAAGGTATCTGATTTAAAGAAAAGATTCCATATAAAGGTTTTGATATATAATAAATATCTAAACCAGAGAGAGTTACTATGAGAGTTGCTATAATTTGTATAATCAATTGAAGTTTAGCACTTATATCAAAAATATCATCTATTATACCTCCTAAAAATAACACAGAAACACCTATTATAAAGAATAATAAATGATAATTTATTTTCAAAAAGAAAAGTATTAAAAATATAAAAGGAAAGATTACTGCAATTCCTCCTAATTTTAATTTAGGATCTTGATGAATCCTTCTTTTAGCAGTAGAGTCTAACCTTAAACCTTGAGGTAGATCGTAAACTTTAAATTTTTTAGAAAAATAACCTATTAAAGGAGTTAGAAGAAAAGAAATTAAAAAACTTTCTAAAAAAATAGGTAAAAAAGATATATATTTTAAATACACTATAAGACTATTATTCATAGAGACATTTGTATGATTTTATACACATCTAAAACTGTAAAAAAAATAAAGGCTATACCCAAAAAATGGCTTAGGAAATACATTCCTTTGACCTTATAGTAGGTTTTGTATGACGTGTAAAAAAATAAAAAGTATCCAAAAATTAAAACCGATAGAATTAAAAATAATGAGACTTTAGGATATAAAACAAACTTATTATTGAAAAATATTATAGGTATATTTCCAGGAAGGTGGGAATAGTAAATTATAAGTAAAATTATATAATTTATTATTAAAAATAAATTTATAAAGAGATAAAACCATGTAAAAAAATTCTTCCAAAAAGATATATTTTTTATTTGTTCTACATAATTATTGATAAAATTTTTATTTTTTAACAATAAAGATTCTTTTTTTATGTTTAAAGGTATTTGATTTAATTTTTTATATTCCATCTTTGTTTAAGTATAACACAATAATATATCTATATTTATAGGTATTTTATATTATATTTTCTTATGTATTTTTATCACTTATATTAGAAAATATAAAGATTATTTATAAAAATATAAGATTAATTTACTAGTTATAGAAGTAAGTGTAAGTGTTGTTAGAGTTATAAATAATATTGTATAAAAATAGTTTATTTTTTGAAGTTATAAATCCGTTTATTATATTGGGAGTATTAACTAATTTTTGTAATTTATTAAATATATTTATATTTACATAAATAACCCCATTATTTTTTATATGAAAAGCACTTTCTGTCAAAGAATTTATAACTAAAGCTTGGCTACTTAAAGAGTTTTTAGTTGTAGATAGGTTTAAATCTCCAGGGTTATTAGTATATATATTTTTTATTATCTGGCCTTTATCAAGTGATATAAAATCATAACTAACTATATTTAGAGAGTTGTTTTTATTTTTCTTATTGTAATAAGCAATCATATAGGATTTTTTACCAGAAATTATATTTTTTAATATACTCTCGTTATTATAAAAAGTTTGATATATATTGATATTTTCTGTTTCTATATTTATTAAATTATTATAAAAAGTTTTAAGAAGAGAGGTTTTTATGAGTTTTGTTTTATTTAAAAGGTTTATATTTTTATTGTAGTAAAAATTGTTTATATAAATTTTTTTACTTTTCCCTATATTTTCTATTAAACTTTTATAAGTAATAGCTGTTTGTATAGTATCTTTTATATAACCATTTTCTTCTTGATAATATTTAAATAAAACCATTTTATTTTCATAAAAATAAACATTTTTTAGTACTGGACTTAAAAAACTAGTAAGATATAGAATTTGAGAATCTTTTGTGCTAATTTTTGAATTTATATTTATAGCTTTATTGTAATTATGATTTTGGATAAGAGACATTTCATATACAGTATTATTTTCTATATATTTGTAATCTTTATATATTGTATAGGTATAAAATCCTATACATATAAGTAATATAATTATTATTATAGAAAATAAAGGTTTTCTTTTTTTCAATTTCTTTTTTTTAGTATCATAATCTATTAAATAATTCTTTTTTATATTATCAAAATTAGAAATATCTAGTTTTGATAAGGATTCTTTTTTTACGATTTCTTTTTCATCTTTATCTTGATTTTGAGGAATATTAATAATATTTTTAGTTTGAATTAAAACTTTAGGCTTTTTTAATACATCTATTAATTTATAATCCAGAGTTTTCTTTAATCCTTCCTCAAGAGAAGTTTTAGGTGTCCATTCTTCATAAACATTAATAGAATTTTTTATTCTATCTTCTAACCTCTCTTCTCTACTCTCTTTATGTGTTATAGGAAATCCTGTAATATCAGATATTCTGAAAGCTAAAGAGATATTTGATATATCTTCTTTGTTTGCAAGAACAAATTCACCTTCTTTGTCTGAAAATAAAATATTTGCTATTCCAAAAAGAATATCTTCAAGATATATATAGTGAAAAAAAGAATTTTCTTTATTTATAGAGATTTTCTCTTTTTCTTTTATACTTTCTATTATTTCGTTAATAGGTGTTTTTATAAAATTATCTAATCTTTCTCCATAAACCTCCCCTACTTTTATTAAAGAGACTTTAGAACCTTCTTTCTCTTTTAATGTTTTTTTCTCTATACTTTCCGTGTATTCTAAAAAATATTTTGATTTTTCTTTTGATAAATTTAAAACAACTCCAATATTGGCAGAATAAAATTTTGAAATTTTGAAAAAAATATCTAATAATTCTAAATTTTTTTGCACATTTATTTCTTCTTTATATTCAAAATTTCCTAAAAATAAAGAGAAATTTAAAGAGTTTAATTTCTTTAAAATATCTAATATATCTATATTTGATAAAACGTCTAAAATTTTAACTTCACCTTTAATATTTTTATCTTTAATACTTTTTATTTTTTTTATATTTTCAATATTTTTTCTTGTAATACTGTCAATTAAAAGTACATTTCCTCCTCCTAACAAAATCTCTTCGGTAAGTTTTTCTCCTAAGAAATTTAACCCATTAAATATTAATGATGTAGGTAAATTTTTTGTAAAAAAATTATTTTTGGACATTAATTAAGCTTATCAGTTTTACCTTTATAAGTAAATTATATTTAAGTTTTTGTGTTATATAAATCAATTTGAAAACAAGAAAAATACAAAGGGTTTGACAAAGAACATAAGGGAGTGCTAAACTATTGGCAGTTACGTTAAAAGTTTGCTAAACATATGACACCAAGACAAGCTAAAATACTAGAATATGTTATTTTAGAGTACATGGAAACAGCTCAAGCTGTAGGGTCTGTCTCAATGTCTAGAAAATATAGAGTAGATGCCTCTCCTGCTACAATAAGGAACGAGATGGCAAATCTTATAGATTTAGGATTTTTATCAAAAGAGCATTTTTCTTCTGGTAGGATTCCTACAACTGTTGGATTTAGATATTATTTAGAAAACTTTTTAAGAGAAGAGGATTTGAATTATTTAGATGAAATGGCTATAAAAGAAGCATTGCATGAGTCTAGATTTCAAAGAGAAAAAATATTAAAAACTGCTGTAGAAATATTATCTAAACATTTAGAATATACAGCTATAGCGCTTGCATCTGGATCTTTATATTATTCAGGAATTTCAGATATTTTAAATTATCCTGAATTTGAAGATTTAGCTACTCTTAAAAATATAATATCAGTAATAGAAAATGCTGATATATTAGATAGTATTTTTGAGAAAGGAAATAAATATGAAGGTGGGGTAAAAATATTAATAGGAGAAGAAACAGGATTTAATAGTTTTAGTTCTTGCGCAATTGCATATAAAGGTTTTAGATTACATAGAGGGGAACAAGGGTATCTTGCTGTTATAGGTCCTTTTAGAATGAACTATAATAAAGTTCTACCCTTTTTAAACTATACAGCAGATATATTAGAAGAGGTAACCTCTGGGTGGTAATTTATTTATATATTTAAAATATTATGGCTACAAAAAAAACAAAAGAACCAAAAATAAAGATAGAAGAAGAAGTTATAAAAGAACTTGATTCTAGAGATAAAGAAATAGAAGATCTTATAAAAACAAAAGATGATTTAGAGAATAAATTAAAAAATGCTTTATCTGACTATCAAAATTTTAAAAGAAGAATAGAAACTGAAAAAGAAAATAATGCAGACGTATTAAACAATTTATTACTTAGGGATTTTATAAATATGTCTGATAATCTATATCTTTATATTAAACATATAGAGAAAACCATTAAAGATGAAAATATTTTAATGGGAATAAACATGATATATGAAGAGAGCCTTAATGTAATAAAAGCACAAGGAGTAACACTCTCTTCTGTTAAAGAGGGAGATACTTTTTCTCCTTTATTACATGAGGTTGTTGGTACTGTAGCAGGAGAAGATGAAAATAAGATAAGAGAGGTAGTTAGGGTAGGTTACGAGAAAGATGGTAAGGTTATAAGGCCAGCAAGAGTTATCGTAGAAAAAAAAGAAAATTAAATTATTTTAGTATTATAAACAATTATGTCAAAAATTTTAGGAATAGATTTAGGAACAACAAATTCAGCAATGTCCTTTATGGAAGGAGGAAATCCTACTGTAATAACAAATTCTGAAGGAGCAAGAACTACTCCGTCAGTAATAGCAATTTTACCTGATAAATCTAGAGCTGTAGGTATTACAGCTAAGAATCAAATGGTTTTGAATCCAAAACAAACTTTTTATTCAATTAAAAGGTTAATAGGAAGATCATTTGATGACGAAGAGGTACAAAGAGATTTAAAAGTATTTCCTTTTGAGTTAAGAAAATCTTCAGGAGGAGGAATAGAAGTTCAATTTGGAGATGAATGGTTAGCTCCAGAAGCTTTATCTGCACTAGTTTTATCTAAATTAAAAACAGATGCAGAGGCTTTTTTAGGAGAAAAAATAACAGAGGCAGTTATAACTGTACCTGCATATTTTGATGATTCTCAAAGACAAGCAACTAAAAACGCAGGAAAAATAGCAGGTTTAGATGTAAAAAGAATAATTAATGAACCAACAGCAGCAGCACTTGCTTATGGATTTGATAAAAAGGGAGAAAAAACAATAGTTGTTTATGATTTAGGAGGAGGAACATTTGATGTTTCAATTCTAGAATTAGGAGATGGAATATTTGAGGTTATATCAACAAATGGAGATACCCATTTAGGAGGAGACGATTTCGATAGAAGAATAATAGATTATATTGCAGAAGAGTTTCAGAAAACAAATGGAATAGATTTAAGGAGTGACTCTGCTGCACTACAAAGATTAAAAGAAGCAAGTGAAAAAGCAAAAATAGAACTATCTTCTACTAATCAAACTCAAATAAACATTCCTTTCATAACTGCAGATGCAACAGGGCCAAAGCATTTAAATATGAGTATTACTAGAGCTCAGTTAGAAAATTTAGTTAAAGACTTAGTTGATGAAACTATGACTCCTGTAAAAAAAGCATTAGAAGATGCTAAAAAGAAAGTTGGAGATATAGATGAGATTATATTAGTAGGTGGTATGACAAGAATGCCAGCAATTAGTGATGCTGTAAAAAATTTCTTTAATAAAGAACCTAATAAAAGTGTGAACCCTGATGAAGTAGTTGCAATAGGAGCTGCTGTACAAGGAGGAGTTTTAGCTGGAGATGTAAGAGACGTAACTTTACTAGATGTTACTCCCCTATCTTTAGGTTTAGAAACTCTAGGAGGTGTTTCTACTAGAATAATAGATAGAAATTCAACAATTCCTATTCAAAAGCAACAAGTTTTTACTACAGCAGCAGATAATCAAACTTCTGTAGAAATACATATTTTGCAAGGAGAGAGAGAATTTGCAAAAGATAATAAAACTTTAGGTAGATTTATTTTAGATGGAGTTGCTCCTGCTAAGAGAGGGATTCCTCAAATAGAAGTATCTTTTGATATTGATGCAAACGGTATTTTGAAAGTTTCTGCAACAGATAAAGCTACAGGGAAACAACAACATATAACAATTACTGCAAATACTTCTCTTTCTGATGATGAAGTTGAAAGATTAGTAAAAGAAGCAAAGGAGAATGAAGAAGAAGATAAAAAGAAGAAGGAGTTGATAGACCTTAAAAATACTTCTGAAACTGTTGCTTTTTCAGCTGAAACATTTTTAACAGAGAATAAAGATAAGATACCAGAAGACAAAAAAACTTTATTAGAAGAAAAAATCTCAGCTCTAAAGGAAGTAAGTTCAAAAGAAGATGTATCTAAAGAAGACTTAGAGAAAGCTATGAATGAACTAGAAAGCACTATGCAAGAGATAGGAACGTCTATGAATCAAGGAGGCTCTAATACTGAAGGAGATACTTCAGGAGGCACTACAAATGAGGAAGGAGGAAATAGCGAAGAAACTCCACCTACAGATGAACCTAAAGAAGGTGAAGTTCTCTAAAACTCTTTAAATATAATATTAAGGCTCTCTAATGATAGGGGGCCTTTTTATTTTTATAAGTGTATTTATTAAAAAATAAGTTGAATTGTATCTTTCAGTGGAGTGTAATGTTCTATATACTTACTATTGTTATCAGTAATAAAATTTTTTGATATATTATTTATAAGAACATAAATAATTCTAAATTTTATTTTCTAGGAATGTTTTTAATTTCTGAGATTTTAATTTAGTGAATTTTTTAATTTTTGTTTGACTTGTTAAAACCCTTATCGAAAAATCTTCATTATTATCTGTTATTATTTCTAGGTCACTTAAAAATTTAACCTTCTCTTCTTCTGGGAGGATTTCATCAAGGTTTAGATATTTTATATGTTGATAATTAATCATTAATTACATTTTATCAATTAATTAATAATAATACTATATTTAGGTTTTATTAAAATTAGATTATAAAATTAAAGACCACTGTTTATTGCCTTACTGTAAACAAAACTTTATTTTTATTTAAAAAAAATTAAAAATATGATAATCTTCCTTTACATGGATAATAAAGATTTAACAACCGATTTAAATAGAACTGATATAAATAATCCAAACGATATATATAAGAAAAACTCAAAACTTAATGAAAATCTTGATTTTAAAAATTTATCTTCATTTTTGTACCTATTAGGAGGCATTTTATTAATATTAGGTATATTGGTTTTGATAATTAATATAGTAATTAATTATCAAAGTGCATGGATATACTTATCTATGGGTATAATTTTAAGCATAATATTATATTTTTTATATTGGTATTTAAAAAAGAGAGTTAAGGTAGATGTTGCATATATACTTCTTTTGGCTTCATATCTAGCGAATTACATTTCTGTTACGTATTTAACTCAGTTAGCATATGTGAATGGTTATAGTAGTTCTATGAGAAATTCTTTCTTTTTCTTTATGCTTGCTGTTGCAGGTTTATTCTATTATCAAACTCCATTAATAATAGGTTTTAGCAGTTTTTACTTTGCTATAAGTATATATAATTTAGTTTCTCCAGGAGCAGTGTCTTATCTAAATAATGTTATTCTTATTTTGGGGTTGTTATATATATTTATAAGTAATTTTTTAGATAAAAAATTTACAAAAGACTATTCTTCGTGGATACTTTTAGCGGGTTCATATTTATATTTTTATGGGTTATATTCTATGTTTGGACTGAATAATATCAATGGTGTTATATTTCTTATATTAATCACTTTATTAGTAGCTTATGGTTATTATAAAAACAGAATAGTCCCTATAGTCTTTGGATTTATAGGTGATTTTATTTATATGGCAACTCTTTTATATACATCATATACAAATCTTCTTTATCTAATGTTAATAATTGTGTTGTTAGGAATAATATTAATACTTTCTTCTTTTGTAATAAAAAAATACTCTCTTTTAAGTTTCAATAAAGAAGATAGAGGTTCTGTTTTTATGTAATATAGACTATAAAGAACTCTGTTATATTTATTTTTCAAAAACATTGAAATATAAACAATTTCGGTATAAGATATAAGTATGAAGTTTTATGATATATCTTATACTTTAAGCAATAACACCCCTATTTATCCTGGAAATCCAGATTTTAATATAGAGAGATTTTTGGAAATACCAAAAGACCAATCAAATGTTTCTTTAGTTTCCTTTGGAACACACACGGCAACTCATATAGATGCTCCTTTTCATGTGAATAATGAAGGACAGACTATTGATAAAATAAATATTGAGAGATTTTTTGGAAAATGTAATGTTTTAGACATTAGTTTTTCTAAAAATAAGATTACAAGAGAAGACTTGGAAAAATATGAAATAAAGAATGATTTTTTGTTAATAAAGACAAATAATTCTAATATAGGTTTTGATGAGTTTCATGAAGACTTTATATATTTAGATTTGTCAGCAGCAGAATATATAAAAGAAAAAGGGATTAAATTTATAGGAGTTGATGGACCTTCTGTTAAAAAATTTCATGAAAAAGATTTGATACATGAATTTTTTTTTAAAAACGATATAATTATTGCTGAAAACTTAAAATTAAAAGATGTTTCTGAAGGAGAATATCTTTTTGTGGGATTTCCTTTAAAAATAGCAGGAGCAGATGCTTCACCTGCTAGAATTATTTTAGTTGAAAATTATTATGAATAAAAAGATTGCTATAATTGGTTTAGGTAAAATGGGTTTAAACTTAGGGTTAAATCTAAAGGATAAAAGCATAGATGTTTTTGGTTTTACTGATACACAAGAGGGAATAGATTTTGCTAGAAAAAGTAATTTTTTAACATTTAATACTATAGATGAAACAATTCAAAACTTTGGAGAAGAGAAAAGAATTTTTTGGCTAATGGTTCCTTCTGGGGCTGTTGACGACGTTCTATTTTCAGATAAAGAGGGTTTAGTAAATAAGCTTAAAGCAGGAGATATTATTATTGATGGAGGAAATTCTTATTATAAAAAGAGTATAGAAAGATATAATAAGTTAAAAGAGAGAGGTATAAATTTTTTAGATTGTGGAACTAGTGGAGGTGTAATGGGAGCTAGAAATGGTGCTTGTTTAATGATTGGAGGAGATAGAGAAGTTTTTAGTGAAATAGAATGGGTTTTTTCTTCTGTTGCTCAAACTGAAGGTTATAGTTATATAGGGGGAGCTGGAGCTGGACACTATGTAAAGATGATTCATAACGCTATAGAATACGGAATGCTTCAGTCTATTGCAGAGGGCGTAAATTTAGCTAAAAATGGAAAATATAAAGAAGTAGACATGAACTCACTTCTAAAGGTCTGGAATCACGGAAGTATAGTAGAGTCTTATCTAACTAAGGTCCTAGAAAAACAACTCGAAATATACCCTAATTTAGACGAAATAGAGCCTATTGTGGAAGATAACGGAGAAGGTGCGTGGACAATAAATGAAGCAATAGAAGAAAAGATTCCTTTGTCTTCTATATCAATATCTTTATTTGAGAGATATTCCTCTAGAGGAAATGATGATTTTGGGAATAAGCTAATTTCTTTAATGAGAAATGGTTTTGGGGGACATGAAATGAAAGAAACTAATATTAGTAAAAAATAAATATGAAAATTTTTATAGATAGTGCGAACATAGATGAAATAAAAAAATTAGAAGAATTGGGAGTTATTGATGGTATTACAACTAACCCAACACTTGCATCGGTTACTGGGAAAAATTTCAAAGAGTTAATAAAAGAGATTTTTGAAACTCTTTCTTCTGATAAAATTATAAACTTAGAAGTTATTGCTACAGATTATGATAATATTTTAATACAAGCAAGGGCTTTATCTGCTTTAGATAAAAGAGTTGTAGTTAAAATTCCTTGCATACCAGAGGGTTTAAAAGCATGTAAAGTTTTAACAGCAGAAGGTATTAGAATTAATATAACTTTAGTATTTTCTCCTCTGCAGGCTCTGTTATGTGCAAATGCAGGGGCTTTTTTTGTATCTCCTTTTGTAGGAAGACTAGATGATATTTCTATGGATGGAGTAGAAGTTGTAAAAGAGATAGTTGAGATATATAAGAAATATAATTACAAGACACAAGTACTCTTTGCTTCTGTACGTTCAGTTGAACATATAAGAGTAGCTGCTTTAGCAGGTGTTGATGTAATAACATCACCTTATGAATTTATTATGGACATGTATAAACATCCTTTAACTGATAAAGGGTTAGAAAAATTTTTATCTGATTGGAATAATGCAGGGGAGGAGTTTATAGTATGAGTATATATATATCTTCTGACCACAGAGGTTTTGATTTAAAAACTGAGATAGTAAAATATTTGGAATCTTTTAAGCTTATAGATTTGGGTCCAGAAAAATATAATAAAGATGATGATTATCCTTTGTTTGCACATTTATTAGCAAATAAAGTGTCAGAAAATGTAGATAATAGAGGAATACTTATTTGTGATACAGGTATAGGGATGGATATTACAGCTAATAAACATAAAGGTATTAGAGCGGCAATATGTATAGATGAATTTTTTGCATACAGAGCAAGATTACATAATAATGCAAATGTATTAGTTTTATCTGCTGAATATAACAAGGATAATTATAAAGGAGTTATAGATAAATTTTTTTCAACAGATTTTTCTTCAGAAGAAAGACATAAAAGAAGAGTAGATGAAATAGATATATTATGATACTTCCTGCTATATTAGAACAAGATAGAGAATCTTTTGAAATAAGCTTAAATAAAGTAAAAGATGATTTTAATTATATACATGTAGATATTCTCGATTCCAGTTTAGTTCCGGAAAAGAGTCTTCCTTTAAAAGATATAAAAATAGAAGAAGGAATTCAGTATGAGTTTCATCTTATGGTGGAAAAACCTTCTTTATATATTCAAGAATTAGAAAAACTTAATCCTTTTAGAGTAATAATACATCAAGAATCTAAAGAAATTTTAAATGAATACCCTTTATTTATAGAAAAATTTAATACATTTTTAGGTATAGATCTAGATACAAATATTAATAAGGACCTTTCAAAATATTTTGAAGGCTGTCTTTTAATGTCTGTAAAGATGGGAAAAAGTGGAAGATTATTCGACGAGAGAGTTTTAAAAAAGATAAAAGAAGCCTCTTCTTATTTTGATTTAATAGAAGTAGATGGAGGTATAAATAAAAACAATGTTGTTTTATGTAAGTCCTTTGGCGCAAGTATTTTTGCTATTCATTCAGGTATTTATGAAGGTGATCTGAAAAAGAATATTGAAACTCTAAAAACTTTAGTTGAATAATATTCTCTATTTATTTGAATAGGAGTGTTTTTTATAAAACAAATCTTTTCTGATTGAAAAATTTTTACTAAAAGTATAGCATATTAATATGTATTATAATTCTTGTGGATATAATTTTCTGACTCCTATAGAAGGAATTTTTATCTTGTTTGGGTGGATTATATTTGTTGTTTTTATAATAATGATATTTAGATATATAAAAGGTGGTCATAAATCTTTGTATCATCACAGTATATTTAGTACAAAAGAAGATCCTATAGATATATTAAAAGTAAGGTATGCTAAAGGAGAAATTACAAAAGAAGAATATCTTGATATTATAAAAATATTAGAGAAATGATGCCTGCAAGAGATATAAATAATAAAATAATTTTTGGTGTATGTGCTGGATTATCTGAGTATTACAATGTTGATGTTGTAATTATGAGAGTTATATTTCTTATAGGTTTTCTATTCATGGGGATTACACTTGTCATATATTTAATTTTAGCTTTAATTATGCCCATAGATACCTCTGTTAATTTTAAAAATGAAAAATCTCCACTTCAAATATTAAAAGAAAGGCTAGCTCGAGGGGAAATAACAAAAGAGCAATTTAAAGAGATGAAAGAGATATTAGATTCTTAACAAAGATAGATATTTCGTAGTTTTGTGAATAATGTATATGTGTTCTTTACAAAAACTATAAGATATTTATAAGGTTGTATCTATTTTCATTCTAGCTTGTAAGATTAATTAGAGAGGTATTATTAAATAGATTAACTGTTAAAAGCTAAATTAGAAGGGTTTATACTCATTTTTTTGCAATTTTCTTTTAGAAAATACTTAAATAATTGNNNNNNNNNTTAACTGTTAAAAGCTAAATTAGAAGGGTTTATACTCATTTTTTTGCAATTTTCTTTTAGAAAATACTTAAATAATTGTTTTGTATTTAAGCTCCTTTCTCCCATAACATGAATATTTTTTTTAGCAAGAAGTACTTCTTGTGCGGTTTTTTCTAGAAGTTCAGCTCTACTAGAGGTAAGTGAATATCCAGGATCAAGAGGTTCATCACCGATAGAAATACCTTCTGCAACAGGTTGCGGTATTTTTGACACCATTCTACCTTTAAAATATTCGGGATTTTTTCTTGCAATATCTAATGTAAATGAGAGTACTTTGTTGAAATCTTTTTCACTTGTAAAAACAATAATACCGTCCCCTCTACACTCAGATCTATCTAGATCTTTTAAGTTACTAAATTCTATATAGCGTTGCCATATTTTAGTTTGGAGGGAAAGTCCTTTTTCATTAGACATCTTTAATATTTCGCTAAAAATTTGAGAAGCAAACATTGGGTCTGGATTTAAATAAATTCTCTGACTTTTTGGTCTATCTGTATGACTTAATTTTTCTTTTACTCTTTCGTCTGAATACCCCATGATAAATCCTCCTATTAATTGACTTTGAATTTTAAGGTTAAATCTGAATTCAGGGTCTGATCTTCCATTTATATTTAAAGGGTCTCTATTATTTATATTTAATCCTGTATATTCTAAGTTAGGAGGAGCTCCTTCCATAAAATTTTTTCTAAAAAATTTAGAAGTTTTTCTTTTTATACTATCTTGAGTTTCTAGAGGCATGGCATTTGAAAATATAATATGTAAGTTTTTAAAAATATCATGCTCAGATTGAAGTAATTGCTTCATTTTATAAGGATCATTTATAATATCTCTATCTTTATCTGTTATATCAACATTATCTAAATAATTTTTTAAAAATGGATGTTCTTTTCTTCTATAACCTAAGGCTACTTCAATAACAGTATCACCTAAATCTCTTTTATGATTTTTTGCACTTTCATATGATTCAAATGCTATCAACAAATCATTCTCTCTATTTTGATTTTCTAAAATTTCTGTCATATTATTCTTAATAAATAATAAATATGATAATATACTATCCTATAGAAAAATTCAAGATGTAGTAATTTAAGGTTTAAATATTAACTAAAGAGTGTAAGTTTTTTATATATTGAGTTTTTTTAAATTAAATATGATTTTCAAAATCCCTATAGTTTATTATGTGAAAAATTTTATGAAATCCAATATCTATTATCTTTTTTTAGAAACATATCTCTTTCTGTGGGGCCTAAAGATCCTTTTTTATACAATATAGGCTTTTTGTTTTTTATATCGGTTTTAATTTTATCTACAAGTATCCAAGAACTTTCTATTTCATCTGAACGGGTAAAATTAATTTGATTTCCTTCAATACAGTCTATCAATAGTTTTTCATATTCACTTTTAACTTCTCCGAAATAATCTGAAAAGTTATAAAGCATATTTATATTAGAGACTTCATAGTCATATATAGAAGGGATTTTTGCAAGCATTGTAAGCCCTATTCCTAAAGCAGGTTGAATTAAAAATTTTAAAACATTATGTCCATTTTTTTTAAATAAATTATTATTTCCTTTTTTAAATACTACAGATATCTCTGTTTTCTTTTCTTTTAGAAATTTCCCAGTTTCTATATAGATAGGAACATTTCTCCATCTTGAATTTTTGATTTCTAATTTTAGAGCTATATAAGTTTCTGTTAAAGAATCTGGAGATACATTATTTTCTTCTTTATAACCTATATATTGTCCTTTTATAACATCAGAAAAAGTAAGCTTTTTTAATATATTATTTTTTTCTTTTCTTATATATTTTTCTTCAAAAAGATAAGGAGTATCCATAGTAAGGACTGATAACATTTGAAGTATATGATTTTGAAATACATCTACTAAAGCTCCTGTTTGTTCATAAAAAAAACCTCTTGTCTCTATTCCTATATCTTCACTAACTTTTATTTGAATATTATCTATATAATTATTATTCCATAGGTTTTCAAATATATTATTTGCGAATCTAAATGAGAATATATTCTGAATAGGTTCTTTCCCTAAATAATGATCTATTCTAAATATTTGATTTTCACTAAAACCAGAGAGTAATGTTTTATTTAGAGATTTGGATGTTTTTAAATTTTCTCCAAAAGGTTTTTCTAAAACAATTCTAATAAAATTGTTATGATTACTGCAAGGTTTATTTAAACCAACTTCTTCTATATTCAAAATAACTGCTTCATATAAAGAAGGTGGGATAGCAAGGTAAAGTATTTTGGAACTACATGTTTTGTCTAACCTAATTTTTAATTTTTCTAAATCTTCTTTTTTTAAAAAATCACATACAAAATATTCAATTTTAGAATAAAACTGTTCTCTATTTTCTTTATCTATAGTATCATTAAATCTTTGAGTAAAATCTGAAGTAGTCTCCTCATTTCTTCCTAAAGCAAGTATGTTAAATTTATCTTTATACTTAAAGTCTTTAAAAAGATTAGAGATAGAAGGAAAGAGTTTTTTATGAGCCAGATCTCCTGTTGCTCCAAATATAATGATCTCTATATTTTTATTAAGGACTTTATTGCAATTATCTTTCATCTATATATTTACTTAAGTGTTTTTTTTGTTCTTCGAACCCTTTTTTCCCTAACAGAGCATACATATATTCTTTACCCTTTTCTACTCCTGGCTGATCGAAAGTGTCTATATTAAGCATTTCTCCTAAATAAGCTGTAGATAATTCAAAAAAATAAAAAAGAGCTCCTATATTAAATTCATCAATTTTATCTATATGTATGGTGCCGTGAGATCTATTATTTTCTTTCAAAGAGATACTTGTTGCTAAGAACTCTTTTTTTATAAGATCTTCAAATTTAAGCCCATTTAAATATTTAACATTTTCTATTTCTGTATTTATTTTTATATCACTTTCAAAATCTGAAGGAATAATGAAGGTTATTATTTTATCATTAGGACCTTCGTTATAGAGTTGTATTTGAGAGTGTTGATCTGTAGATCCTAAAGATGCTATTGGTGTTATTCCTGCAAAAATATTTTTTCCTTGTTTTGAAACTTTTTTCCCTAAACTTTCTGCTACTAACTGTCTGTACCAAAAACCAAAACGTTCAAGTTTTTTTGAATAAGGCATTAATATTGAAATATTTTTATTAAAATTTTTATAACTTAGATACTGAAGTTCTGCAAACATTAAAACTTCATTACTAAAAGGATCTTCACTGTTAGTAATCTTATCAATATAAACAGCTCCTTCTAGAAATTTATCAATATCAAGGCCCATGACTGCTGCAGTAAGAAGTCCTATTATAGATAAAACAGAGAATCTATCTCCAACACTTGCATCTCCTTCTAAAATATCAATACCATAATTTTTTGCCAAACTCTCTAATGTAGTATTTTTTGTGGACGTAGTAATTACTATGTGATCAGATACCTTTTCTTTTTTATTTTCGATAACTTCTGTAATGTATAGAAAATTAGCTATAATTTCTATTGTTTCTCCTGATTTTGAAATGACATTAAATAAAGTATCTTTAATATCTATTTTTTTAAAAAAATCTTCTATTTCATTGGGGTCAGTATTAGCTCCTATAAATAGAACATTTACTCCACTAATAGATTTAAAAGATTGCTGTATTGTTCTAGAACCTAAATCGGATCCTCCTATTCCAACTACAACATAATTTTTATATTTAGAAATTATGTTTTTAGCAATAGATTTTATATTTTCAGTATCATTAAAAATGAGATTTCTAAATGTTAATAAATTTTTATCAAAAAGAGAATTTTTAAAGAGAAATAGATCTTCTTTTTTTATAGACAATTCTCCTATTTGAGGAGAAAACATATTGGTAGAATCATATTTTAACATAGAAAAACAAATGTAATATATTAATTTATTATACTATTAAATAGAACTTAATAAAACCATTGATAGTCTTATAGTTTTAATATATAATACGGGTTATGTATTTTGAAAGATCTAATTCACAAGAAGAGTTGTTGTTTTTAAAAAGTGCAGAAGATTTATTGGCAAGAAGAGTCGGTTTTTTAGAAACAGATTTTGAAGGTATTTTTTCTAATTTTTCTGAAAACTCTGAATTAATAATTGACACAGAAGAGGTATCTACCCATATAAGTAGTGTTGCCTACGATAAAATCAAAGTTAGAAGAATATCCTTTACAGATTTATTTGGTCAAAAAATAAGTATAGGAAAAATAGATTATTTGGATAAGCGGAAAAAACAACCTTTACTAGTTGAATATAGTATGTTGGACAATGTTTTAGATGAAAATATGCAAAGCTTAGGAATGGATGTAAATGTAAGAATGCAAGGAAGTAAAAAATATAGTTATACTTCTAGTGAAATTGAGAAAGATGGTGAGTTTTATATCTTCAACCATTCTAAAGAAAAATTTATAAATACAATAGGAAGAAGCGATATAAGGAGGGAAAGAATTTCTGATAAATTTGAGATAATTGAAGTTTGTGAAAAAAATATATTAAATTTGAAAAAAAACCTTGAGAAAAGAAACGTTAATTCTAAAATTTCTTTTAGAAAAATAACAAATGGAAAGCCAAGAAAATAGAAATTATTTAGAAAATGAGAAAGAAAGCGTAATAAGAGAATATAAAGATGTTTCTTCTAAATTTACTTCTTTTATTAATAATTTTGAAGGCAAAAATTCAACTTTTTATCTAGAAAATAGAAATCAAGAGTTAAGTTTTTTTGACCATCAAAATATTTTAGCATTACAAGTTTTTTCTCAAATATCAGGAAATATAACAACTTTTTTAGTAGAATCAGAGAATAATTTTTTTGAAATTTACATAACAAGGCTTTTAGAAAACGAAACATTTATTTATTTTTCAATAAATGAGAGGGGGAAGTTAGAAATGGTAATAGAAAGTCCAAAGGTCAAAGTAACAAGGTCTACTTTAAAAAAAACAGATATTAATCTTATAAGAAGTGCCTTAGGGTTTTTTTTAGAGATAAAAAGAAGTATAGAGAAGTAATTATATAAATTATAATGTTTATATAAAACTAAGAATACATTTTATTTCAATAAAGTTTTAATGTTAATAACGTGCCTGTACTAGATATTGTAGCTAAAGCTACTAAGTTATTATTATTGGTATTATAAAACATAACATCATAAAAGATTCCTAATTTTTTAGAATTGTTCACTTGTACAGTATATTGTTGTGCATAAAAAGATTTATTTGAAATAGTTATATTATTTGCAGTAGATGAAGGGTTTGAATAATTAGTATTGTTATATATTATTGGTCCATTTTTATGAGGAGTTACAAAAGAAGGAAAATTCTTAGCTTCAGATAAAGGTAGAATAGTATTATATGGTAATTGTGAAAAATTAAATGGAATTACAAAATTAGTAAAATTATTTACAATAACAGGTTTATCGTATGATTGATTTGTAGTAGGAGAGGTATATGGGCCAGAGCCTGATCCATAATACACTAGAAAATCTTTAGTACAACCGGATGCATATATGTATGCTCCGTGAGGATTTGGTCCTGCAGTTATTCCTTCAAATACAATAGATGTTATAAGATATGCATCACTCTCCCAGTTTTTTGAAGCAGTATTTTGGTCTTGTAGTAATGTATTTTGTGAAGGTTGATTGGGATATAAGTTTATTGGAAACATAGCTGAAGTAGCTGTTCCTTCAGTTTTACAAGTATTATTACTATTTAAATTTTTTGTGGTAGAGGTTTTTATTTTTTGTATGTTAGTCGATTGTTTAGAGGAGTTATTTGTGCTCTTATTATTTACAAAGAATAAATAAAGAATTAATAATAACAACAGTGCTATTATTACTATAAGAGAAGTAACTAATAATGTTGGAAATTTAGAATTTGTTTTTTCAACATTATTTTGAGGTTGTATATCTTGTACATTTTCTTCCATCTTTTACATATATTATCATATATTCTTTTTTTTACAATTCTTGTGTATGATCCAACTCGAATATTTGAAGATATTATAGATATAATGTATAATAAATAATCTTTATAAATATTATGAAAAGAACTTATCAGCCTAAAAAATTAAAAACTTTAAGAAAATTTGGATTTATGGAAAGATCTTCTTCTCATGGAGGAAGAAATGTCTTAAAAAGAAGACGTCTTAAGGGAAGAGTAAATCTTACAATTTCAGATATTTTTAGAAAAATAGGTAAGAAACCTAGAAATAAAGTAAGATAAATGTTGCCTTCTAAATACAGACTTAGAAGTAATTATAATAAGATATATAAAGATAAGTCTAAAATTCATGATGAATATTTTATTCTTTTTTATAAAGAAAATTTATTAAATAATTCTAGATTTGGATTTGTCATAAGGAAGAGATTAGGAAAAGCACATCTGAGAAATTTAGTAAAAAGAAGGTTTAGGTATATAGTTAACGAAAATTTAGGTATTATAAAAGAGGGTTATGATTTTATCTTTCTTATAAACCCTAATTTAAAGAATTGGGAAGATATAACCTATTTAGATATAAAGAAACATGTTTTAAATACTTTAGAAAAGATAAATAATATATGAATATATTTTCTCAAATAGCATCCCCCCTTATTTTTATTTGGAATACAATCTTATTTAATCCTATTATAAATATATTTGTTTTCTTTTATAAAATTTCAGGTTCAAATTTAGGTTTAGCTATAATTATAATTACAGTACTTTTAAGGTTACTACTGTGGCCTCTTTTAAAATCTCAACTACAGTCGTCTCGTAATATGCAAAAAATGCAACCTAAGCTTGCTAGTATAAACAAAAAATATGCAGGAGATGTTGTTAAATTAAGAGAAGAGCAGATGAAAATTTTTAAAGAAGAAGGTGTTAATCCTTTAGGGAGCTGTCTGTCTTTATTGGTTCAATTACCTATTCTTTGGGGAGTATATGAAGCTATTATTGTTATGTCTAATCATACCGCAGCTTATCTTAATAAAATAATGTACTTTTCTTTTCTTAAATATCCCGCTTTATATCATTATAATTTAAGTTTTCTAAATATAAATATGGGAAAAGATGCAATGGAAATAGGTATTTTTTCGGTAGGAGCTTTAAGTTATATAATTTTATCTTTATTAGTAGCATTTTCTCAATATTTAGTATCTAAAGTTTCTTTACCTCAAACAACAAATGAAATTATAGAGGAGAAAACAGAACTAGAACTTCAAAGTAAAGATAAAAAAGCATTAGATGTAGATCCTGCTCAATTCGGGAATATTATGTCTAAACAAATTCTTTATGTTATGCCTGTATTATTGCTTTTGATTTCTTTAGGTATATTAGGTCCTATTCCTGCAGCATTATCTTTATATTGGGCTGTACAGTCAATTGTTATATACTTACAAACAATTCTTTTTATGAAGAAATAGTATTTTTTCTAAATAAGTTTATCCATTCTTCTAAATTTAGCTCATGAGCTCTTTTATCTTCATATCCTTCTATGTTATATAATTTTAAATTATTTTTTAATTTTTTTCTGGGCTGAATATAACCTTTTTTTATAAAGTTTTCTAAATTAACATCTTCTTTATTAAAAGTTTTTATTTGTTTTATGTATATAATTTGAGATTGTACTTTTGGTGAAGGATAAAAATTTTTATTATCTATAACATCTCCCCTTTCTACAGAAGTAGAGTATATAGATACTGTATTAAAAAGTAGGTCACCTGGGGTTGTATACTTTTGAGCCACTTCTTTTTGCAGTATTACATATATGTTACTAGCTCTTATTTCATCTTTTAAAAATTTGGATATAATATTTTTTGATATATTATAAGGTAGAGCAGATACTATAGTAAATTTGTCAAAAGGAATATCTTTTAAATCTATAGATAATACATCTTTGTTGATGATATTAAGGTTATCGAATTTTTCTTTTAAAGAATAACTTAAAACAGGATCTTTTTCTATACATATAAGATTCTTTGTTTTTTTTAAAATTTCTTCTGTTATAAATCCTTTACCTGGGCCAATTTCTATTATATTCTCTTCTGGTTGAATATATTTTATAAGAGAATGTGCATATTTTTTATTTTTTAAAAAATTTTGACCTAATTTTTTTTGAGGAGTATTAAAATACATTATTTGTTACTATCTGAGGAACATAACTTTGAGCGTTATATATATATTTTTTTTGAATAATACTTTTTATTTGTTGATATTCTTGAGTATTAACATTTGTTATAGGCGTAATATTTGTATTTAATGTAGTATTTTCAGAAAAATAGGTGTCTATTATTATTATATTTATCATAAGAAATATAAGTATTAATAATAATTCTATAATTTCAATTATGTGTGTTTTTAGAAATGTATTATCTGTATGTGTTTTTGTTTTTTTCATTATTGTATATACAAATCTAAAGTTATGCCAGTATTAAGAACAGTTGTTCCTTTTTGAAGCGCAATATTAACTCCTGTAATATTTGTTGCATAATAAGAATTTTCTATCATTGTTAAAAATTCTAGTGTAGATTCAAAATTTCCAATTATAGATATATTTACAAGAAGAGTATTACTTGTTGTGCTAGAGGATGTAGGAGATACTATTTTTATAGCTTTTGATGTTACTGTTGCGTTACTGAAAACTATATTATTTCCGCTAAGTCCTGATAATTGTGCAATTTCATTTTCTTGTGCAACCCAGAGAGTAATAGAATTTTGAGAAATAAGACTATTGTATAAGAAATTTATTTTAGAAGTATAATTATTTTTTTCAGATAATAGATTTTCTTCTTCTAAATTTTTTTGTTTTAAACTCTGAAGTTGTCCATTAAGTGTAGTTTGTTGAGTTTGCACAGAAGAATACATTCCATATATAAAATAAAGCAGATATAAAACTACTATAGTAAATATTGTATATAAGATTATATTTTTATATTGTTTAATTTGTTGCATTATAGTTAAATGTCATCTTAAATCCTGTATTAAAAGTATTTTGAAAATTAGAAATAGGCATAATTACATTAGAAAAATCTTTAGTTCCTAATATATTATTTTCTAAAATTAATAATTCTTTGGAATTTTGAGCAAATCCTTGAAGATTTACTTGCCATTTTACAGAACTTCCCACCCCCGCATTAAGTATTTGTAATTGATTTAAAGTTATTCCAGGAGGAACTAAGTTTGCTATCTGAGTTATTACCTGAGACCATTTATTTTGAGCGGTATATGTTTTTTTTAATGTTAATAAATTTGTATTAAGGTTAGTTATATCTTGCGTTAAACCTACATATTTAGGATTATTAACTTGAGATTGATATATGTGTATCTGTTTTTTTATTCCAGTTATTTCTATATTGTTTACAACTATAAGAAATATAAAAATTCCTATTATGAAAAGTATATTTATTAATATTATTTTTAGAGAAGAAAAACTAAATTGTACTAAATATTTTAGAATTGATGATTTTTTTTGTTTTTGAGGCAGTAAGTTCATATAACTATACTTTTTTACTTTATTGACAAGCTCTATTCCTATTAGAGGAATATAAGCTGAAATTTGTTCGTGTTTTTCCCATTGAGGTATAGGATAAAGTCTGATATTTGATTTTGCTTTTTCTACAGGTATTTTAACTTCTTTTTCTATTTTTTCTAATACACCTTTTATAGAAGCTGTTTCTCCATATATATATATTTTTTTTATTTTGTCACTTCCATAAAAATTTATAGCTTTTGAAAGTTCTTGAAATAATTGAGTAAAGAGTATGTCTATATGTTTTTTTAATTCTTCATCTTTAATATCTATTCCATTTTTTTGTAGGAAGGTTTGTATAGCTTCATCTTCTAACTTTTTATATTCTCCTATTGTTTTAGATATTTGGTTTAATCCAAAATAAAAAGAAGTTGAAAATTGTATAGCATCCTTTTTATTAATAGATATGCTTGTAAGACTTTTTCCCATATCCAAAAGAAGATATTCTTCTTCTTGATCTTTTCCTAGAGTAATAGCTCTTAGGGAAGATTGTGCTCTATTTTCAAAAAGAAGAGGAGTAAGGTTAACAATTTTAAGAGTTTCAATAAAAGAATCTGCACTTTCTTTACTTACAGCTGTTACAATTATTTCATAAGAGTCTTCATTTTCTGAAAGTATATTAAATGTCCAATAAATATCTTTTTCTTGCATTGGAATAAGACTTGTTATTTGGAATTCTATCGCTTTTTTAATTTTATTTTTCTCTACTTTAGGAAGACTAAAAATCTGGGAATATATTTGATCATCTGGCATTGTTACGACAACAAATCTAGTTTTTATTTTTTTTGGATTTTTAGCTTCTAGTAAAGTTTTAAGAGTTTCAGCAACAACATTAGGTTGTCTAATAACTCCTGCAATGAAAGTAGAAGCTGGCATTTCTGTTTCTGATATGTTTTTAAGCTGAAAAGAATCTTTTTTATTTTTTTCATACTCTAAAATTTTCACAGAACCTGGTGAAATATCAATAGAAAAAACATTTACTTTTTTAAGAATATTTTTTAAAAAATTATCCATATTTAATATCTTACATTATTTTTTGAGTTTAGTTAATCTCATTCCAAGAAATAACTGTAGTTGTACCTAAAACGAAATTAAAACCAGTAGTTTCATTTATTATATTGCTATTAAGAGTAATTTGAGTAGAGGAAGGCGAATTAGAGTCATAAACTGAATTATTTATGAAAATATTACCTCCAGCCCATAATGCTCCGCTAACATTTGTTGTTCCATCTCCGCTATCATCTGTGTCATTGTTTATATAAATATTCCCAGGAGAATAAATAATTCCAGTAACATTTAGATTTAGATTTCCTCCACTTCCTATATATATGCCTTGATTTCCTGCTATAAGAGGTGGAAGATATTCATTCGCAGAAGGTGAGTAGGGTGATGTATCTATAAAACTTGCGTTAGTTTGAAATTTATTTTTTACAATTATAGAAGAATTTGTAAAATTGTAAGTAATTGTATTTCCTGCTGAATCTGTAGTAGGTAAATTTAAATTTGAGTCTATATAATAAACTCCAGCAGGAGGGGATATAGTATCTGTTTGAGTTGTAGTGTTTATGCTTTCATGATTAAATAGAAAAGATACAAAAGAAGGTGAACTTGTATAATATGTATTGTTAGTTTGGGCTGTATTTTCCCAAGAACTCATATTAAATACAGGAAGATTAATTTGAGCAGGAGGAGATAGATTTACTTGAGATCCTATTGTAGAGTTTGTAATAATACAAGAATTAAATCCCCAAAATGAATTCTGACAACTTAATTCTCCTGGTAAATCTGAGTTTACAATAATTCCTGTTATAAAATTAGACTGTAAGTTTATAATAGAGGATGTAGGTGTGTTGTTTACTTGGTAAAAATAATCTCCGAATCCTCCTCCTATTCCCACAGAATTTATATTATTTGAATTAAAATTTGCATCATAGAATTGTAATTCATTATTAGATTGTATATCTCCGTTAACTTGAAAGAAGCCTCCCATAATAGTATCGTTTGCAAATAATGAATAATTTAATATAGGAGGATTTTGACCTAATTGCGCAACTACCTGTATTGTTCTTTTGACTAATATTTGTGAATTTTGAGGAGATAAACCTTCTGCTGTTGATACTATTGTTGCTTGTACAGGATTAGTAGAAGTATTGTATGTTACAGTTACAGTATCGGTGCCGTTAATAGTTGTATTTATTGGAGATGAGAATGTTCCTCCTGTATAACTTTGTCCTTGTTCTCCAATCTGGAGAAGTGCATTTTCTAATCCAGATTCAGAGAGCGCTTTTATTTGAGATTCTAATATATCGTTTTGAGAAAGAGAGTATTCACTTGTTGCTATTGAAAGAATAGTAGTAACTACAGTGAGTAGAATAGCTGTTACTACTATTACTGCTATGAGTAGCGCTTGTCCTTTATTGTCTTCTTTGAGTTGCTGTAGTTTCATATGTTTTTGTTGTACTAACACCTGTTAATCCAAAATTTTTCTCAGTAATACTAATAAATATAGTAGGAGAGAGTCCTGTATTCGCCTCTTCTGTAAAAGTTAAAGAATATGTATATACATTAGATGAAGATATTTGAGAAGGAGAATTGTCATTATATTGAGAATATATATTACCATTTTGAGAAAAAAAAGATATAGTGTCTCCTGAAGAATCAGTTTGTATTGTGAGTTTAGTTGAAGTTGGAGAAGAGGGATTAGGGGATACTACCTCATATGCACTTTCAATGTTTTGAGTTATTTCTTTCATACTTATTCTTATAGTATCATTTGCGTTTGCAATAGTAGAAACTTTATTCTCAGTTAGTATCATGTCTACAATAATTACAGTAATTGTAAGAATTACAACTCCTGATATGAGTACATAAAGTAATGTTTCTATTAAAGTTTGCCCTTTATTATTCATTTTAATATGCTTGCCAATTAGTTAAATATTCACTTTCGCTATACGAGAAATTTTCTCCATATGATATAAAAGATACATTTGCGGTAACTTCAACTGAATTTGTAGATATTGTACCTGAAGTTGCATATGAATTCTGAGAAGATCTATATGCATTATCTATGTTAATAGAAATAGTATATTCATTATATACCTCTGTTCCAGGTACAAGTTCCCATCCTTGAAGTGTATGGGGAGGGGAATTTGTTGAATTGTATTTAAGGTAATATGTTCCTGTCTGAAGATCTGAGAAAGATTGGTTTTGAAGGGCATATAAACTCTCTAATTGTTGTTGTAATAAGTATTTAGCTTCAAGTTTTTGTTTTGATATTTCTATAGTTTTTAAAATATCTTGAGTAGCAATTAATGATGATCCAAAAATTATACCAATTATAGTTAGTGAGAGTAGAAGCTCTATAAATGCTTGTCCTTTTTTATTAGTAAACAGCTCCATTATTATTAATGTTTAAATTTATAGAATAAAAATTTCCTCCAAGTGTAAAAGAAATTCCATTATTTGTAAGTTGTCCTGTTACGTTATTGAAAATTATAGGATTATTGTCTGTAGGAGAAAGGTTGCTAATACTTACACCTGGGGGTAGAGTATATGAATTATTTAGTGAATTTGTAGAGGAGTAAGTATTTCCTGGAAATTCAGTAACCTGATTATTTTGAAAATATACTCCATATTGAGAATAATTATCAAGATTATTAATTGCATTATCTTGAGCTTGTTTTATTAAAGAGTATATTGTTTGGTTAGCAGAATTAACATTAGAACGATTAAGAAATGATATATAAGATATAGAGACCATGGATACTATTGTAAGGAGGATTGCCATAGTTATTAATATTTCAATTAGGGTAAAACCTTTATTTTTAAACATATTATTTAGATCCTGCAACTGAAGTTCCTGGTGTTGTTCCTATACTACCTGTCATTTGGTATATTGGAGCAATAACTGAAAGTGCAATTAACAAAACTCCACCTCCCATAACAAATAACATCAAAGGCTCTATAATTACAGATAAGTTAGCAAGAGTATCATCAATTTGGTTTTGATAAAATTCAGAAACAGAAAGTAACATCTCTGAAGTATTTCCTGTTTTATCTCCTACTGCTATCATTCTTGTGGCAAGAGATGGAAAGAATTTTGGATATTTTTCTAAAGTTAAAGACATTATTTCCCCTCTTTCTACACTAGTAGAGAGTTCATCTATTATTCTTTTATATGCTTCATTTGAAACAGTATCTTTAACAATTAAGATTCCTTGATTAATGGGTATTCCACTTTTTAGTAAGTTACCTAAAGTTCTAGTGAAGTTAGTTACATTTATCTTTTTTATTATATCTCCTGCAATAGGAATTTTTACAGATAATATATTCCATAAGTATTTTGCTTGAGGTAATTTCAATAAAAATTTCATAATAAAAACAAAAATTATTAGAACTATCAAAACTTCTATTCCATAATTAGTAAGCAAATTAGAAAGACCTAGCATTATTTGTGTAGGTAAAGGTAGAGTTTGTCCTGATCCTTTAAACATAGATTGTAATTGAGGAAATACAAAAACTATTAACCCTACACCTACAATTAACATTATAGATACAATTATAGCTGGATACATAAGAGCTCCTACAACTTTTTTCCTTAAAAGATAGCTTTTTTCAATTTGGTCTTTTATAAGTTGTGTATTTTCTGTTAAAGTTCCACTAGTTTCTCCTATTTCTATCATTTTAGAGATAAGAGGTGTGAATATTTTAGGATATTTACGCATAGAATCAGACAGTTTATTTCCTGATTCTACGTTAAATCTTAAATCTTCTATTATTTTTTTAAATACAGGTGTTTGAGCATCCTGCACTAGAGACTCTAATGTTTCTGATAGGGACAATCCTGCATTGATCATTTTTCCCATATGATCAAAAAATAATAGTTTTTCTACTAACTTAACTTTTCCTTTGGATAAATTTTTAGAGCTTTCTTTTCCCTCTTCTAAAGATATAATACTTAAGTTTTGAGATTTTATAATCTCGATAGCTTCGTCTCTGCTATTTGAGCTTATCGACCCCTTTTCTATATCTCCAGAATTATTAGTAGCTTCATATTTAAATTCTGCCATATATAAAATATATAGATTTTAAAAAGTAAAATCAAGTATGATATAATATATTTATGGGAGAAGAAATTAAATATACAGACACTCCTCTATTAGAGCGGAGAATATTAGAATTAGAATCTCAAAACTCAAAGTTATCAGAAGAGAACGAATTTTTAAAATCCTACAATGAAAGTCTGACTTCTCGTCTTGAAAGAGAAATACGAAATAATCATATAGATACTTTAACTGGTTTGTACAATAGGTGTTTTCTAGAGTCTCAAAAGGAAAGATTAAATATTCTTTCTTTTGGAGGAATTCTTTATGGAGTAGTATTTTTGGACATTAATGGTTTAAAAGAGATAAATGATACTAAAGGGCATAAAGAAGGAGATATTTTAATTAAGAAAATAGCACAATGTTTAGAAGAAACTGTAAGTTCAAGAGACTTCATCATAAGACTTGGTGGAGATGAATTTTTAGTTATTGTTAATGATTTTCCTCCTAGGTCAAATGAAGTAGAAAAAGATGTGGTTATAGATAGAATAAAGGAAGGTATGGAAAGTAGAAATTTAGATATATCTTTAGGTTTTGCAATATCCAGTGAAGGTGATAGTATAGATACTATAATAGATCTTGCAGATTTAAGGATGTATGAGGATAAAAGAAAAATCAAAAAAAGATAAAAACATATTAATTATAGGTTCAGGTTTTGCAGGAATATCCTTTTATAAAGAATTTCATAAATTAATACATGAAAGAAGTGATATAAAAATCACAATTTTATCAGAAAATAATTATTTTTTATTTACACCCCTTCTGCATGAAGTTGCAACTGGAAATTTATTACCAGAAGACATAATAACACCCATAAGGGAAAATTTTTTTTGCTGTACTAGAGAGATTATAATAGATAAGGCTCTTTATATAGACGTTTTAAAAAAACAAGTGAAATTAAAAAAAACATCTGTAGATTATGATTACCTTGTAATAGCGACTGGGGCGAGCACTAATTTTTTTAATATTAAAGGTGTTAAGGAATATGCTTATCCTCTCAAGGATATACATGATAGTATAAGGCTAAAGAATGGAATTGTTTCTTTGTTTGAAAAAGCTGAAATGGAGAAATGGAAGAAGATAGATGTAGTTTTAGTAGGAGGTGGGGCTACAGGAATAGAATTGTCTGTTGAAATCTCTGAATTTATAGAACAGTTAAAGCCATATTATAAAAATTTAAGAGAAGAAGATGTAGAATTAAGAGTCAAAATTTTGAATGCCTCTGAAAATTTTATTCCAGATTTTCCTCAAAAGGTAAGAAAGAAGGTACTTTCTTTTTTTTCAAATATAAATAGTAAAGTCTCTATAGTTTTAAATTCAAGGGTAAAGGTAGTAGAGGAGAATAAAGTGATTTTAGATAACAGAAAGGCAGTTAATTATGATTTTTTAGTATGGTCCGCAGGAGTGAAGCCTATTATTCCTTCTAATAATTTAGGAATAGATGTACTGAAAAGAATACCTGTAAATCAATTTTTGCAAACAGAATCAGAAAATGTTTTTGCAATCGGAGATGTAGCTGCTGTAAAAAATTTAGAAGGAGGACTTTATCCTCAGTTAGCGCAAATTGCAGAAGAAGAAGCCAAAATATGCGCATTAAATATATATAATGATATAAATCATAAACCTAAAAAACCTTTTTTATATAATTTAGATAGTTTGCTCCTCTCTTTAGGTCACAATAATGCAATTGTTTATTTTAAAGGAATTCTTATTACAGGAAAATCTGCGTGGATACTTTGGAAATTTATATATCTAGTTTTGATGTTTAATGGTAGGTCAAAGGTTATGACAGCCTTTAATTGGATTTCTGATCAATTTTCCCCAAGAGATATATCCAAAATATAATACTTGAGTGTGTTAAATTGTAATTATAATTTAATATTGAAGTAGTATAATTTGTTTGCAATATATTACTATTTGTAGTATATAATATGTATGGATATACAATTAATAAAGAAAACTTTAGAATTTTATAATCCTTGGTGGAAGAGTACTCAAAGTTTGAATGAAATTCCTGTTTTTAGAAGAGATATATATGAAAATATATTTGAAAGTGTAAATGATATAAGACAGATAGTATCTATTACAGGACCTAGAAGAGTAGGTAAAACTACTATATTAAGGCAATTAATATCAGATTTAATATTTGAAGAGAAAATAGATCCTTTGAAAATAATCTATCTTTCTATGGATGATCCTTATATATATTCAAAATCATCAGATATGGAATTTTTTGATAATATTCTTTCTGTTTATGAAAAATTTATATTAAGAGGTGATTTAGAAAAAACAAAGGTTTATTTTTTTATAGATGAAGTTCATAAATTTAAGGAATGGGAGTTATTTTTAAAAAAATATTATGACAGAGGATATAATATAAAATTTATAATATCTGGTTCTGTTTCTCATTCTATATTAGGGAAAAGTCAGGAATCTTTAGCTGGTAGAATTAAAAATTTTAAAGTATATACTTTTTCTTTTTATGAATATCTTTTTTATAAAATATCTTTTGATGACAAACTAGATCTACCTTTAAAGGAAAATCTTTTAAAATTTTTAAAAAATATACATTCATTAGGAAAAAATATCTTTCATAATACAAATTTATTTGTCAAAGAAATAGAACCTTATTTATTAGATTTTAAATTTTATGAAGAAGAGATAAGAAATTATTTTTATGAATACCTAGTTATAGGAGGTTTTATTGAAAGTTGGTCTATATCTGGACAAGGAATGAGATATGAATATTTATATCAAACTCAAATCGAAAAAGTTTTACTTCAGGACATATATATACTTGAAGATATAAAAAATACTAAACTTTTAGCATCTCTATTTTTTAAATTCTCTGAAAATTTTGTATCAGAATTTAGTCTCAATTCCCTAGTAAAAGATTTAAATTTACATAGAGATACAACAGATAGGTATATTAATCTTCTGATAGATTCAAATTTAATATTTTCTCTTTCAAAATATGAAGAAAATCTAAATAAAAATTCTAATATAAAAGTTTTTTTATCAGATATAGGTATAAGAAATAGTATATTAAAGTTAAACGAAGAAGATATTATTGGAAATAAAAACTTATTTTTAAAATATATAGAGAACTTAGTTCTACTTTCTCTTGTAAGATATTCAGATTCTATAGATATTAATTATTACAGAGAAAGAGAAAAAGAAATAAATTTTATATTAAAATATTCTTCTTTTAATGTAGCTCTAAGTATTGATGGGATAAAAATAAATAAAACCCTATTTAATAAATTTAAATTTGAATATATTTTTAATATAACAATGGAGGATGATTTTTCTCTAGATTCAAATATAATTAATTTTCCTTTTATCTTATTCTTTATTCTTTTATAACTCTTAATACTTCTTCAATAGAAGTTATACCTTCTATTGCTTTTGCCAGACCATCTTCAACCATTAAACTCATTCCTTTTTCTTGTGCCATTTTTTGTATTTCTTCTGAAGTAGCTTTATGTGTTATAAGAGATTTCATTTCGTCATCTACTTGTAGTATTTCATAAATACCTATTCTTCCTTTATATCCATTAGTACAGTATTCACAACCTACAGCTTGATAAAATTTAGTATTGGTTATTTTCTTATCGACACCTTTCTTTTTATATTGTTCTTCTAATATTTTTAATACTTTACTGTCCATGGAATATTCTTTTTTGCATGTATTACATAATTTTCTAACTAATCTTTGCGCAATTACAACATTAAGAGTAGATGCAACCAAAAATGATTCTATTTGCATATCTATTAATCTAGGGATTGCTCCTGATGCATCATTTGTATGGAGAGTAGATAAAACTAAATGTCCTGTCATAGCTGCATTTATAGATATATCTGCAGTTTCATTGTCTCTTATTTCTCCTACCATTATAATATCAGGGTCTTGTCTTAAAAAAGATCTTAAACCACTTGCAAAAGTAAGCCCAATAGAAGTATTAACTTGTGTCTGATTTACTCTAGGCATGCTGTACTCAATAGGATCCTCTATTGTATCAAGATTAACCTCTGGTGTATTTAACTGAGAGAGAATAGTATAGAGTGTTGTACTTTTTCCTGAACCTGTTGGTCCTGTTACAAGAATCATTCCCACAGTTCTTTTGATAGAATCTTTTATTATTTCTAAATCTCTTCCTCTAAATCCTAAAGCTTCAAGGTTATATGATTTTGCATTATCTTCTAATAATCTTGCTACTAAAACCTCTCCAAAATATACTGGCATTATTGATATTCTGAAAGAGATAAATTGATTATCTATACTAATTTTAAATCTACCATCCTGAGGAAGTCTATGTTCATCTATTTTCAAATTAGAAAGTATTTTAATTCTGGCTATTACAGCTTTATGTATATCTATAGAATAAGTAGCTTGGTCATGTAATATCCCATCAATTCTATATCGTATTATTGCTTTTTCTTCTAAAGGTTCTATATGAATATCTGAAGCTCCCATTGTTTTTGCATATTCCAGTATAGTATCTGTTATATTAATTATAGGGAGAGCTTCTGCATCTTCTCCTTTTAAACCTTTTGTTTCTTTTTCATTTTTTTCAATTATATTTTTCAACTCTTCTTTTATTGAGGTCTTATACATCTTTAGTCCCTCAAAAAAAGACTTTTCTGTTATAAAATAAGGATCAATAATATATCCTGTTCCTTTCTTTATGAATTCTAAAGTGTTTATATCTCTAGGATTAGTCATTCCTATTTTTAGCTCAGAAGGAGTTTTTTCAAATGCAATTATCTTTTTTTCAATTGCAATTTTTTCAGGAATAATTTTTACAGTATCAGGATCAATACTTTTATGTATTAGTGATATATGAGGTATTGAAAATTCTTCTGTAACAAGTTCTCCTAATTTATCTTCTGTTATTATGTTTCTACCTATAATAAGTTCTTCAATTGAACTTCCAATCTGTTTTGACTTATCTTCGAGCTTTTCATACTCTTCATTCGAGATATATTTATTTTTTATTAATAATTCTTTTAAATCCATTATTCATTTGGAGGAACTATATATACTCCATTTATAATTGAAGCAAGAGTTTTAAATATTTGATTTTGTGCTTGACTTAAAGAAATATTTCCTTCTATAACAGAATTAAATACATTATCCACAAATTTATAATCTCCCATCTCCCAAGATTTTGAAGTTGGTGCCATTTGTACAAAGGGTTCCATATATTTATAATTTGTAGCCAAGTTTGCCATATCTGTTCTAGGAAAAACTTCTCCTAAAACTTCTTTATTTTTAATTTCATTATTATAAAGAGTAGTAAGAGTGCTTTGAGAATCTAAATAATTTAGAAAATTCCAAGCTACCTGAGGGTATTGAGAATACTTTACAACTGCCTTTGCAAAATATAAAGATAAATTAACATTTTGTCCAGGTATTTGAGGTGGTGCCATTACTCCTATATTTATATTAGGATTTAGTATAAATATATTTTGAATTTCCCAAGAAGGTTCTAATATCATAGCAACACTTCCCCCCGCAAATGCAGATACAGAGTTAGGGAAAGTAGCACTCCAACCATCTGTTTGAGCTATTTGGTAATAAAGATTTAAAGCTTCTTGTGCTTGTGGTCCATTTGCAAAAGTAACTTGGTTTCCGCCTATCATTTGAGTGTTATTGATAAACATAAGATAAGTCAATATATTATATGCATTATTTATATTTCCAGTGCTCTTACCTATATCTATAGCTGCTTGTGTTACATTTCCATTACTATCTTTAACAACTAATTTAGGTATTTGACTAACGAAAGTATTTATATTTGAAGATGGTGCACTTAAACCTGCTTTTGCAAATTCTGTTTTATTATAAATTAAACTTAATCCATCATAATTTGAAGGAAGTGCATAAATATTCCCATTTGAAGTTAAATCTTGGAAAGCAGTAGGGTAGAAAATGCTTTTGAAAGTATTTATATTTATAATATTTGAAGGTGCAGGATATAGGTATTTTTGAAAAATAGGAAGATATGTATTTCCTATAGTTACAATATCAGGAGTATTTCCTCCTTTTTGTAATGTTTGAAATAAAGTGCTTTCATAATTTTTAGAAGGGACCTGAATATAATTTATTTTTACTCCAGGATGACTTTTTTCGTATTGATTTATAACAGAGGAATATACGCTTTGAGGTTGTCTTATTCCCCACATAGTTAATACTATTTCTTTAGGTTTTTTATTAAAAGTAGCTGTTATTAGATATACTAGTGCTCCTCCTAATATAAGGACTCCAGCAAAAACAGCAATAGATATAATAATAAGTCTTTTTCTTTTTTCTTTAATTTTTTGAATTTCTAAAAAAGAATTTTCAGGTACGCCTTGGGGTAAAGTTTCTTGAGAAGGTGTAGGTGTTGTGGTTGCTTCATATTTATCTTGCATTATTTTATTATATACTATTCATATATTCCTTCAATTCTCTCCATAAAACAGGGTCATCTTTAGCATATTCAATAGTAGTTTTTAAAAAATTTAAAGGATCACCTGTTGTTAACCATTTACCTTCTATTTTTGTTGCAAGAACAGAACCTTGTTTTGTGAACTTTGAAATAGCATCAATTAGCCATAATTCATTATTTTTTCCCAATACTTTTTTGTCTAATTCCTCTACTACATCTCTGTTTAATATATATCTTCCAAAAGAGACATGGCTTGACATAATATTTTCAATACTAGGTTTTTCTATTATTTGATCTACAGTAATACCATCTTCTTTGAATTTTATATTACTATATTTTACAATTTCTTCTTTTGGTAATTCTTGAGTAGCTAATATTATTTTTTTAGGGTGTTTATAACTAAATTCTATTAATTGTTTTGTTGCAGGAACTGTAGCTTTCACAATATCATCTCCAAACATATATATAAAATTTTCCTCATCTTTAATTAAATTTTTTGCAACTAAAAGAGGTGTACCATTTCCATAAGGAAGATGTTTCTTTTGTCTAACATATATATAATTAGCTTTCTTAGGTAAATCTTTTAATTCTTTGAGTAGTTCTAATTTTCCACTTTCTTCTAAATGAAATTCTAAATCTATATTATTATCAAAATGGCTTTCTAGAGTATATTGACCTCTTGTTACCATTATTATGTCTTTAATTCCAGAGTCAATAAGTTCCTCCACTAGGTATTGGATAATAGGTTTGTTTATAATAGGAAGCATTTCCTTTGGTTGTACTTTTGTTGCAGGTAAAAACCTCGTTCCATAGCCAGCTAGGGCTATTACAGCTTTAGTTATTTTATTCATATATAAATTTATTATATTATAAAATAAAAAAAATACAATATTTTTTTCTTCTAAATATCTTTAAATATGGTGTCTATTGTGATATTGTATATTCTATATGGAAGGTCAAAATAACGAGCATGCAATACCTCAAAATATAATGAGCGTGGAGTTCAAGTTAATAGGGGATCTAACGATTAAACAGTTTGTTTTTGTTGCTATACCTTTACTACTTGGATTTCTGATGTTCGTTTTTAAAGTTAATAATTATATAACTTTAGTATTCACGGGTATCTTTTTATTAGCAGCTTTATTTATAGATTTTATTCCTCTTGATGATAGACCTCTAGATGAGTGGATAATAAATTTTATAATTGCAGTGAAAAATCCTACACAAAGAATATGGGGAAAGAAACCTTCGTACCCCAATATTTTAAGAATTCCTAAAGCTATAATGCCAAAAGTTAAGAAAAATGAGGATGTAGCTACATTTCTCTATCAATCTCCTTTAGATACAAGTATACAAAGTTCGAGTGGTAATAGTGCTACAAAAATTTTAGATGATAAAGAAAAAAATTTTATGTCAAATATAGATAATATAAATGATTCTTTAGGAGATAATGTCTCAATAAATGCAGGAGGAAGGCCTGTTATTTCTCCTGCTTTTAATATTCCTACAAGTAATAATTTTCAAAATAATCCTACAAAAGAAGATGTATCAAGTAATACAAATCCTACAGAGAATGTACCTTTTACAACAGGAGATAATAGTAAGAATAAAGATGATAATTTACTTTCATCTAGAATAGGCAATGAAGATCCTAAAAATTTTTATAAACCTGAAAAGCTATATACTGAAGAAAGGGAAGAAGATTCTTCTGATGTAAAGAAAACAATACCATCAGTTGATGCCTCAAGTATGAACGCCAATCCTTTTTTTTCTCAAGATAATCCTTTTGGTCTTATTAATACAGGAAACCACGTTAACCCTGTACCTCAGCAAAGTAATGAAAGTTTCTCTACTGTACCTTCCACACCTGAGATTAAAGATGAAAATCCTAATTTAGATAAGGCAGATAAAATTGAGGATACTTCTTTTAGAGAAGGAGGTGTAAATATATTAGATCTATCTTCTCAAATGGATAGTGTTGAGGGTATTACAATTCCATCTGTTAATGAAAGTATTTCGAATCCATATGACAATGCTACTGTGGCAACTCCTATTGATATTACAAAAGATTCTCCACCACAAGAAGAGACAGTGGAGCCTCAAATCTCAAATGTGTCTGAGAATGACAATATAGCTCCAACCCAAATAGATAATGCACCTGTTGATGAAAGTATTAATCCATATGACAATGCTACTGTGGCAACTCCTATTGATATTGCAAAAGATACTCCACCACAAGAAGAGATAGTTGAACCTCAAATCTCAAATGTATCTGAGAATGATAATATAGCTCAGACCCAAATAGATAATGTACCTGTTGATGAAAGTATTAATCCATATGACAATGCTACTGTGGCAACTCCTATTGATATTGCAAAAGATACCTCACCACAAGAAGAGACAGTTGAACCTCAAATCTCAAATGTTATAAATAAGAGTCCAGAGAGTAATAACGAAATGAACGAAATGTTGGAAAGGTTGAAAAAGTTAGAGGAAGAAAATTCATCCTTAAAAAAGGCATTAGAAACAACATCAAGTACTCCTTCTCCTCAAAATACTAATTCTTCAATAAATAGCAATTTTGATATAAATGATTTTAAAAAATATCTTCCTGAATTTGTAAATAACCCTAATGTTATAGCAGGAGTATTAGTAGATAGCCAAGGAAATATCATTCAAGATGCAGTTATAATAATAAAAGATTCTTCTCAAAAACCTATTAGAGCTATAAAAAGTAATCAACTTGGACAATTTTTTATTAGAACTCCATTACCTGATGGAAATTATACACTTGAAGTTACACATCCAAAGTTTGCATTTGAAAGTACTGGGGTGGACTTGACGGGTGTGATAAAAGAACCTATATTAATATATTCTAAGACTTAAAATATGCAAAAAAATACACGTATTGTAGCTACAACTCAAGATCATCTAAGTATAGAAGATATAAAGGATAATTTTGTTGTACTTAAAAATGGAAATGTATCTGTTGTTATAGAAACTTCTGCTGTAAATTTCTATCTTCTCTCAGAGGTTGAACAGAGTTCTAAGATATATGCTTTTGCTGGGTTGCTTAACTCTTTAGGTTTTTATATACAGGTTATGATTCACACAGAAAATGTTGATATATCTGCATATCTTAAACATATAGATGAATATAAAGTAAAAGAAAAGGATCCTAAAATTAAATATCAGATAGATATATATAGAAAATTTGTAAAAGACCTTATTGTTAAGAATAATGTTTTAGATAAACATTTTTATATAGTTATACCTTATATGACTCAAATGCCTAAAAAACCTGGTTTTATAGATAAATTTATGAAAAAAGATTCAGCACCATCTTTTGATGTAGATCAATTAATACTTCAAGCTTCATCGAGACTTTTGCCAAGGAGAGATCATGTAATAAGGCAACTTTCAAGGATGGGATTAAAATCAAAGCAGTTAGATAGTTCAGATTTGATAAAACTTTTTTATAATATCTATAATCCTGCAAATTCTAAAATAAGAAGAAATTTCGATGAATATACTTCTCCAATAGTTAGTTCTCAATAATAATGAAAATACCACAAATACTTATAAAAAAAGAAGAGAAAACAAATGAAGTACAACAGCCTATACAGGAAGTTTCTCCTAATAGTAATATAGATCCTACTTCTTTGTTTGGAATGGGCATGAATAGTATTAAGGATATAATAGCACCTTCTTCTCTAGAGGTGGATTTTTCTTATGTTAAGATAGGAGATAAATATTATAAAACATATTTTGTATTAGCTTATCCTAGGTATGTTGTTCCTAATTGGCTTTCTCCATTAATAACATTTGAACATTCTATTGATATAAGTATGTTCTATTATCCTATTAGTGCAGCAGCAGTACTTTCTCAATTAAGAAAGAAAATTGCGGAAATGGAAGCAAGTACAAATAATTTGATTGAATCTGGAAAAGTAATGGATCCTAATTTAAAAGTTGCGCTTTCAGATGCAAAAGAATTACAAGAAAACTTAGCAAAGGGTTCAGAGAGATATTTTCATTTTGCCTTATATGTCACAGTTAGAGCAGATACAGAGGAAGAATTATCTGATATATCAAAGAATCTTGAATCTACTATGGGGGCAATGTCTTTAATAATCAAACCTACTACTCTCCAGATGGAGGAAGGTTTTCTTTCAACATTACCAACTTCTAGCGATAACCTATATTATACTCATAATATGGATACAACTTCTATTGCGACTACATTTCCTTTTGTATCCTCGGAGTTAACTTCAGATAACGGTGTTTTATATGGGATAAATAAAGCAAATAAGAGTCTTGTTGTATTTGATAGATTTGAATTAGAAAATGCAAATTCTGTAATTTTTGCAAAATCTGGAGCAGGAAAAAGTTACTTAGTAAAATTAGAAGCTCTTCGTTCATTAATGTTAGGAACACAAATAATAATAATAGATCCAGAGAGTGAATATTTTACTTTATGTAAAGCTTTAAATGGGGCTTATGTTACATTTTCTCAAGATGGTAATTCAAAGATAAATCCATTTGATCTTTCTGGTATTTATGAAGAGGGGGAGGATGAATTAAGGTTTAAAATACTTTCTTTACACGGATTGTTTAAGGTTATGTTAGGGGATGAAGGTGGTATTAGTAGTATGGAAAATGCAATTTTAGATAAGGCTTTAATTTTAACATATAGAGATAAAGGGATAACTTTTGATCCAGAAACTCAAGTGAAAGCGCCTCCTTTAATGGAAGATTTATATAAAATATTACTTTCTATGGAAGAGGCTGAAGCTCATTCTCTTGCTCAAAGATTAGAAAAATATGTAAAAGGGTCTGCTTCTGGAATTTTTGATCAACAAACTAATATAGATCTAAATAATAATTTCATGGTCTTTTCCATAAAAGATTTATCAGATGAATTAAGACCTGTAGCTATGTTTTTAATGTTAGATTTCATATGGACAAGAGTAAAAAGAGATTTAAGAAAAAGAATTTTTATAATAGATGAAGCTTGGATGTTAATGAAATATCCTGACTCTGCACAATTTGTATATGCTGTAGCAAAGAGAGCTAGAAAATATTATCTAGGGCTTACTACAGTGTCTCAAGATGTTGATGATTTTATCTCAAATGAATATGGTAAAGCTGTTGTAACAAATTCTTCAATTCAAATTCTTTTAAGGCAGTCTCCTACGGCAATAGATCATTTATCTGAAGTATTTTATCTTTCTGCTGGAGAAAAAAATCTTCTTTTGAGTGCAGATGTTGGGGAAGGAATCTTTTTTGTTGGAACAAATCATGTTGCAATACAGATACTTTCAAGTGAGTATGAAAATAGACTTATAACAACAAATCCTGAAGAAATTTTAAAAATGCAGCAAGATGCATCTTCTTTAGGAAGGATAGTTCCTAATAATTTTGTAAATTCAAATTTTGATAGTAACGATAATACTAAATTATTTCAAAGTGATATGATAAATATGAATAAGGAAGAGACAGGAGAAGTTTCTAAAGATGAAGAAGATTCAACCTTATCTCAAAATTCTAGTACAGAAGGAATAGTTAATTAAAAATAAAAAATCCATCAAGATGCAATCACTTATAGGCCTTCTTTTATTAATATTAAATTTCAATATATATGTAATTTATATATAGAAATATAGCCTTAAATTGATATTTTTCCACGTATAATATGGCGTATTGACAAAAATTATAGGCCATAATATAATCTGGTTTATATAAATATATTTTAGATTATAAATAATGAATACTAAAAATTTAGATAATTATATAGACCAATTAGTAGTAGATAAAGGTTTTGATTTAGGTAATGTTGATTTAGTAAAAAGGGTTAAAGATGAGTTATATGATCTTGTAGAAGATGCTATAAACTCAGAGATAGTAAATAAATTATCTCAAGATAAAATATCTGAATTTGAAAAGTTATTTAATAACAATGTTTCTGACGAAGTTGTGGTATCTTTTCTCAAATCAAATATAGAAAATTTAGATCAAGTAATAGAATCAGTTTTATTAAATTTTAGAAATATATATTTAGATAATAATTAATTATGGATATAAAAACAGAGGAACAGCAATCTTTAATAGTACAAGAAGTAGAGGACAGTATAAAAGATTTTGAAGTTATATTATCAGCAGAAGAAATTATTAATGAATATTTATATAAATTATCTTTAGGAGAAGAAGAAGATAGAGGTGATGAAAATAAGGTCTCTGTAGATGAAGGTTTAAATGAAACTGATACAACAAAAGATTTGCTTATTAAGAGGGATGAAAATAAAAATCCAAAAGTTTTGAATGAAGATGATCTTCTAAATATACATATTGTTGATATTAGTGATCAAACAAAAAGAAGAGCACATGACAATGCAAGAGAACAATTAACTGAAGAAAAAAATAAATTAACAGGAGTTGGTGGCATAGCAAAAAAATTAGGTAGATATGGATACTTTGAAGGTACAACTTATCAAAGATATAAAAAACAAGCACTTATAGAAGAATTATTAAAAGATACAGATGGTAAGACAGCAGAAAGATTTGAAGCAGGAAGCATTAGAACAGAGAGAAATACAGAGATAAGTGTTAAAGCTGCAGAAAGTGAAGAAGAAAAAACTTTGAAAGAATTAATAATTAGTATGGCTAAAGGTGAAATTGAAGAAAGTGAATATATTGAATTAAAAAGGAAATTAATATCTGAATTATTTATTTCATCTTCTTTGAAAGAAAGTAAGAATACTGATTTTGAAAAATTTGAAGATAATATAGATAAATATATAGACCAAATTAAAGTATTAATAGATCATGGTAAAACAGTTGAAGATATAAGAGATTTAATAACCTTAAACCTAGGTATAGCAAAAGATTTATCAATTACAAGAGTTGAATATAGTAAAACTGATAAAGTTTTAGAAGGTTTAAAAAGGCACAAAATTGCAGGGAAATTAGTTAATGAAACTGTTTTTGCAACAGGTGGATCTGTTTTAGGCAGAGTAGCTTTTAGCATAGCTTCTTCTAGAGCTGCAACAATTGCTAGTTTTGGAGGAGCTGCTGTTGTAAGTTCTCTACTTTCAGCAGCTAAAGAAAAGCAAAGAATAAAAAGAGATAGGCAAATGCAGATTAGAGATTATTCCGCAGGAAGATCAAATGGATTAGAAGGTAAAAGAAGAGAACAACTTCAGAGAACTGTATATGATTTAATGCCTATAAAAGATTCTTTTAATGACCTTGTAGAATCATTTGATAAATTTAATAAAAGTATAGAGGGAGATAAGATTTCTTTTGAAAAGATGTTAAAAATAATTGGAGAGTATAGAGCAAGAAGGATTGTATCTTTAGCTAGTGATATAGATCTATTTATATATTCTTCTTCAGAGAATATGCAAGAAGAGTTTAGTGACCTAGACTGGTATGTAAGATATGTTCAATCTAAAATGCAAATATCAGAAAATCAAGATAAAATAAAATCAATATTGGGTGTTGATGATATTGATATAGAAGGTTTAATAGGGGAACAAATCGAAGAATCTGTTAAAAATATTGAAGAAGATATTTCTCAAAAAGATTCAATATTTAGAGGTGTAAAATCTGCAAGAATAGGTAGATATGTAGCTTGGAATCTAGTAACAGGACTTACAATAGGAGCTTTAGGACAAGGTGTAGTAAGAGAATTAATGGAGAAGCATGAAGAATTATTGAAAAATGGTGTTATAAAACAAGATTTTCTAGAAGGTCTTTTGAATAAATGGAATCAAGTAAAAATAAAGAAAACTACTTATATGCATAGTCCTAAAATAGCACTTAGATCAAAAGGTCGTGTTGGGGAAATTTTTATGAATGGTAAAAAAATCCAAGAGGTTAAATTAAATAAAAATGGAAGCCTTACTTCAAGTTCAATTCAAACTTTACAACAAAAAGGAATAGGAGTTAAAACTAGTACCGTTTATACAAGTTCTGGGGGAGAAGTTATGCGTAATAATAGTATAGTTGCTGGCAATACAAATGTTCAAAGAAATCTTTGGTATGACAATAATAATGCGCAAGGAGTATATACTAAGAATGAATTAGGTATATGGTGGGGTTCTAATACTGGATATAATAGTAAAGGAGATGTAGTTTTCAATATTGCTAGTATGACAAACAAAGGTTCATATCAAGGAAATTCTTCTGTGGCAATACAAAATCTTATTGAAGAAGGAAAAATGAAAATCTGGATTACTGCTAGTAGATCTACTCAAAATAAAGCATATGTATTTAATGTGAATAGAAATGGTTTAGTAAATATAGATAAAAATTCTTTAGCATATAGATTATTCTCAAAAAGTAGTACAGGTCATGTTAAATTCAATGGTGCATTTGTTGAAGCTGTAGTTCCTCAAGCAACAACAAAACTAGGAACTCATATAGGAGATCCAGTTGCAACTTATGTAGGTTCAAATACAGCTAATCCTATTATAAATAAAGAGACAATTACTACACTTTTTGAAAAGCCTACAAGATATATTAAACCAAAAACTCAAATAGGATGGCCTTGGTTTATACCTGTTGTAGGAAGAACTCCTTTAGAAAAAGCAGAAATTAATTCTAATCAAGAAAATTCAGAAATACCTGGAAACTCATTGGCAAAATCAAGAGAAGTAAACGATTTTAATCTTATAGGTGATATTGGAAGTATTAATAGTAGTACAGATGAAGATATAAGAGGACTTTTTAATGAACTTTATATTAATGACAAAGAAGAAAGTAAAGTTTCTAGAGTAACAAAAAGAGAGCAAGCTAGGTATGCTATATCAATGATTAAAGATTATTTTAAAGTTATGTCAGCAGAAGAAATAAAATTATTAAATGAATATTTAAAGAAACGTAAAATGAATAAAGATAAGTATGAGAATGAAAGAAAAGATCTATTTTCTGAGAATTTTCTACTTCAAGAATATGATACTTTTAAATCTAGATTTGAAAATGATGAGGCTTTCAGATTGGATGTTTTAAGAAAATGGGCAGAAGTGCATCTCTACTATATTAATAATAAAGGTTCTATATAAAAATCTTTGTTCATTTAACAATAAAAATGTTGCTATTAATAGAAAATTTAAGGTATTTTGATTTTATTTTATAAAACTTTTAAAATACTTTAAATTATGCAACAGATTCCGGGACTAAATCAATTTGTTAATAATATAGCAGGTGTAATGATAACCACAGTAGAAACAGTCCTTATATTAATAGTAATAGCATTTGGTATCCAGTTTATAATGTACTCCGATAATCCTCAAGAAAGATCTAGATTGATTAGAAGAATAATTTGGGTTTTAGTAGGACTTTTTATCGTTATAGGTGCTCAAAATTTTACTACATTTCTACATGCGATTATTGGCGGTTAGTCTAATATTAATATTTCTTTTTTCAAGACCTGTATTTGCTCAAGGTACAAATTCTAATATTCTCAATTGCAATTCATCAATTTCTTTTTCCATAGATGGAGTTATGTGTTCTTTGGGGTATATAATAGATCAATTTACAGAATTTACTCCTAATATTTTATCTAATAATGGATATGGAGGAAGTCTTGCAGGGATAGCTTTTAATCAATATACCCAAGGCACTGAGTATATTGCGTTTGCAATAATACCGATACTTATATATTTATATATACTTAATTTTTTAGGTGAAGTATCTTTAGGTAAAACAGGTTTATCTCCACAGGATTTAATGTATAGTATTTTTATGTCTGTATTAATATTAATACTTTCTCCTTATATTTTATCTATGCTTATAACATTTATTAATGTATTAGATAAATTTATAATTATTCATATTATACACTCATCTAATCCTAGTTTATTTCAAACAATTATTAATTCAATGAATCTTAGTAATTTTAATTCAGGTATATTTTCAGGCATAATTAATTATATTTTATACATTCTTCTTATTATTGTTCTGTTTTTATTTTCATTTCAATTTATATTAAGATTTATTTTACTTTGGATATTAATACTTTTCTTTCCTTTTGGAGTTGCTTTGTCTATATACCCTCCATTTGGAAATATTCTAGGATCTATTCTGTCTAAAATTATGCAATTATTATTTATTCAACCTGCTTTTTTAATAGGTATATCTATTTTTATATTAATAGTTAATAATTTCTCTATTAATGTAGTTGAGAAATTTATCATCTCAATAGTTACATTATTCTCATTAGCGTTAATCCCTAATTTACTTACAAGATATCTTAATTTTTCTTTTTCATTTGGACAAAGAAATATAAGGAGTATATTGAAATATGGATACAAAAGATAGTTGTAAAGTTTATAAAATAAAAAATTTACATTCAGGTTATATTAATATAACTAACAATGTTTTAATATTTCTTTTCTCTATTATACCCATACTTTTTATCATATTTAGCCCTATTATTATTCAATTAAAAATATTTTTATCTTCTTTTATTGTTATGACATTTTATGTTTTATTTAAACAAGAATATAAAGGTAATGTTTTATATTTGTATATATATTTTTTCATTCTTTTTATGAAGAAAAAGAAAAAGTATTATTTTGAAGAGGAAAGTATAGATGTATAATATAAAAAATTTTTATGACATATTAGGTATAGAAGAAGATTTAATAATTTTAAAAAATTCTGTATATTCTAAGATTTTTGAAATATTTCCTGACAATTTTATACTTTCTGATATAGAAGAAAGATATTCTTTTATAAAAAAATATGAAGAGTTTTTAATATCTTTAAAAATAGATATTCAGTTTATTGCTATAAATTTTAAATTACCTCAAAAGGAGAATTTAAAATATTTATCTAATATAAAGGATAAAAAGTTTAATATGTTATATAAAGAGGCTTTATTAAATAAGGATAATGAAGTTCTTAGAAATTTATTTAATCAGAGATTTTTTTTAATACACTCTGTAAATAAAAAAAGAAAACATCTTGATTATCAAAAAGATTTATTAGAGGTTAAAAGTGTATTTTCTTCACAAGAAAAACAATTAAGATATATGTTATCTCAAATTCCTTTATCTTTCAAAAAAATGAATAAATCGGAGATAATTAAAATTTTAAAATTTTTTAGTTAAAGTTATGAAAATTCTTTATAAAAATAAACAAGATAAGATTTTCCCTAAAAAGATTGAAGAAAAGCCTTCTTTTATAAAGGTAAATAATAAGTATTTTAAAACTTATTATGTTGCAGAGTATCCTTCTGAAGTGTACAGTTTCTTTCTTTCAGACATATTTTCATTGGGAGGTAATATAATGGTCACTCAATATTTAAAAGCTGTAAAAAAAGATCAAATACTTAATTCTATAAAAATGAAATTATCTGCCATTGAAGCCCAAAGACATTCTCGTTTCAAAAAAGGAAAGTTAAATGATATTACTTTAGATCTAGAAGTCTCAAATCTGGAGGATTTTAGAAGAATTCTTGTTTCTTCAAAAGAAACGAGTTTATCTTTTGGTTTTTATTTAACTTTATATTCTAAAAATTTATATAGATTAAAATCTTTATCAAAAAATTTAGAACTACTTCTTTCTTCTAAATCTTTTAATATATATTCTCTAGATTTTAGACAAGATGCTGGGTATAAAACAATATTACCTTTTAATTTAAATATATCTTCGAAATCTTTTATTTTAAATACCAAATCTGTAGCATATATGACTCCTTTTGTTCTTAGTAACTATACTGATTATAGTGGTGTTATTTATGGGGTAAATTCACTGACAAATTCAATGTTAATTTTTGATATATTTAAATATGAAAATTATAATGGTGTTGTTTTTGCCAAATCAGGTTCTGGAAAGAGTTTTTTTGCCAAAATAAATATAATAAGGTCACTTTCTAAAGGTATAAAGGTAGTTGTAATAGATCCAGAAGGAGAATATAAGGATCTATGTAAAAATTTAAAAGGTAAATATATTGATCTTTCTCATAAATCAAAAAATCATATAAATCCTTTTGATTTATATGAAGGAGAAAGTATTGATGAAAAAATACAATTCATAAAAAGTTTTTTACGAAAGACATGTACGTATTTCGATTCAAATGAAATAGATAAAGCTTTAATTGAGATTTTTAGAGATTTTAAGAATCCTACATTTGTAGATTTATATAATTTTTTAGAGAAAAAGAATAGTAGAATGGCTCTAGAAATATTTAATATATCAAAAGGATCAAATTCAAATCTATATTCAAATGAAAGTAATATTAAACTTTCATCTAAAGATAATCTAATAGTATTTGATATATCTTCACTAGATAGTTATAACATATCTTTAATGATGCATGTAGTGCTTAATTTTATTTGGAAATTTCATCAAAGACAAGATAAAAGATTAGTTTTTATAGATGAAGCTCATAGATTATTTGAGAATGAGGATTTGTTAAGTTATCTTAAAATGGTATCAAAAAGAGCAAGGAAATATAACTTAGGATTGATATATATAACTCAAGATATTGAAGATTTTATATCTTCAGAAGAAGGTAGGTCAATAATAGCAAATACATCATTGAAGGTTTTAATGAAGCAAGAAAAGGTAAATGTAGAAAAGATAGGAAAAACATTTATGCTATCTTCTGAAGAAAAGGAAGCTTTATTAAAATTTTCATTAGGAGAATCCTTGATACTTTTTGGAGATTTAAGAGTATATAATAAAGTCTTTGCTTTTGAATTTGAGGAAAAGATTTTTAATAAAAGGCAGGAGATTCCATAGGTTTTGCTAAAGCTACTCCAGAAGGATCATTTAATTGATTAAAACCAGATCCTGCAACTCCTGTTATTCCATATTGCCACAGTATTTGTTGTGTTTTTGGGTTAAGAACAAATATTCTATCATTATGATCATCTACTATTAAGTAATTTCCATTAGGAAGTAATTGAGTAGAAGATGGATGATTTAGGGTGTTAGCTCCTGTTGGTTGGTAAGTCCAAACAACATTACCTTGTTGAGTTATCTCTTGTACTTTTCCAGGGTATACCCAATCTGTTGATAAGATATTTCCATTAGGTAAAGGAACTGCATCGGAAGGATATAACTGAGGTATATTTATTTGCCAATTGATAACTTTTTTAGCAATATTTACATCTATTGCCATATGATTTGCTATTGATGTTATCAATATACTGTTATTTGGTAGAGGCATAGCATCATTTGGTGCATCTAGGTATCCTGCTTGAGTACCAGGAAGACCAGTATGTCCATATTGCCAAACTACTTTACCTGCTTTATTAACAGCAATAACTCTCATATTAGCATCATCTGTAATTACAGTATTTCCGTTAGGTAGTCTAAATGAATCATCTACATATTTACCTAAATATCCTGTTTGTGCTCCTGGTACACCTAAGTGTCCATATTGCCAAACTATACTTTTTGTCTGAGTATTTATCTCAATAACTTTACTATAATCTTCTTCATTAACTAATAATCTGTTAGGAGCATAGACTTGAACGTCATCAGGATCTTTTATCCCATCCATTTGCCATATAATTTGTTTTTGAGGGTTAACTTCTATTATTCTATTATTTTTAGAATCACAAATATAAATGTCTCCTCCAAGTGGAGTTGAAGCAAGTATTGCTTGTTGCTTTGCTTTTTGAGCTTTTATAATACTTTCTGTAGATTTTATTTTTGATATATATATATTAGCTTTATAAGATTTACTTATTATTAATCCAACGATAACAAGCATAATCAAGTATAGTAATATAAGATATATTGTTTTTTTTGAAAATTTTTTCATTAATTTACGGTATAACTTACTGTTTTCTGATATATATTATTAATATATATCTTTATGCTATATGTTCCTTTAGGATAATCTAAGTTATGAGTTTTATCCCAATTAAAATATACATATCCTGTTGTAATGTTAGGTTTTATAGAATAACTATCTATATAATAATTATTGTAATACCTAATATAAGATATTTGGGTGTTTTTAGTCAAATTATTTATTTTTAAAAATAAATAAATATTTCTATCAATTGAATGATTGAAAGCTTTTGTTATAGACAAAGGTTGTCCATTGCTTGATATATTTTTTGCAAAAAATGCTTTGGATACAGATAAAGAAGATGCTTTATTATTTGTAGGAGTATTTTTATTTAAGAATAATATTAAAGCTATACCTAAAAGCACTATTATTACTGCAGTTGTAAGTCTTTTATTCTTCATAATTAATTACCTTTACTACTTGAACTTTTCTTATCAGTGGAAGCAGTTTTATCCTTAGTAGTTTTTGAATTTTCAGTTTCTATCTCTTTTTCTACATTTATTTCAGGAACTTTTATTTCTGCTTTATCCTTTTTATCTTTTCCTGCCGATTGAATTTCTCCTTTAGTAACTTCATTTTCAAATTTAAGATCTTGTGAATTTGTCTTTAATTCTGTTATTCCTTTATTTACCTCAGTTTTTAGTGTAGGTGTTTGTGCAAAAACATTTCTTATGCTAAAAAAATATAACAATAAAATTAAACTTACTAATAAAAGAAAAATATATTTTACATTTATTTTATTTAACATATGAATATATAGTAAATACAAAATGTATGAAAGTCAATATTATTGAATCAATGAAGCTGTCACTATAAACCGTTGAGTCCCTATTCCAGGAGGAATACATGTCATTAGTGTTAAATATCTATCTTTTGGAGGAGAATATAGAACTGATACATCTGTAGGTGATACAACTTTTGTTGCAAATACTTTATATTTATATATTATACCTTTAAATTTGGTAATAATAATATCTCCAGTTTTTAATTGTAATATATTTGTAAATATTCCCAAGAAAGAATTAGGATAAAGGTCGGCAAACCATTGAGGTGCTGAATGTCCATATATGTATGTATTTCCAATTTCTCCAGGAAGTGCAGTACCTTTCATTTGAGCAACAGAATTAACAAGAACTTTTTCATATGCTTGTGTACTAAAACCATCAACACCTGCTTTTACAGGAATATTTTTTAAATTAATTGAAGGTATGGATAGGTAAAAGTATCCATTGTATGTATTATGAGAACTCATATCTGTAGCCTCTATTATTTTTGAAAAATATTGAGCAGAAGGGTCTGATTTTATAATTTTTGTTTTATATTCATGAAATAAATTTTGATCAATATAATAATTGATCAGAGGCGATAGTGCTATTGATATAAATAATCCTCCCATTACAAAGAGGAATATTGATCCATAATTAAGTTTAAACTTCTTTTTTTTTACAAATTTTTTCTTTTTATGTAATATAGGCTTACTATTTATTTTTTTTACATACATATACCTCTGCATAAATATATTATAGCACTTATTATTAAGCTATCAGAATATTGACTTATATGCTAAAATCTAACTACTATGAGTGATTATTATGAAATATTAGGTATCTCTAAAGATGCTGACGAGAAAGAGATAAAAAGAGCATATAGAAAGCTTGCTGGGGAATATCATCCAGATAAGAATAAAGCCTCAGATGCTGATAAAAAATTTAAAGAAATAAATGAAGCTTATTCTGTACTTTCAGACCCAGTTAAAAGGCGTAACTACGATCAATTTGGTAATGCAGATTTTTCTTCCGGAGGTGGGCAAGGTTTTTCTGGTGCTGATTTCGGGGGAGCAAATTTTGGGGGATTTGAAGATATTTTTTCAGATTTTTTTGGTTCAAATTTTAATTTTTCAGGAAATTCTTCTGAGCAAAGAAGTAGAAGTAATTCAGGTGAAGATATAGAGCTTATTTTAGAAGTTAATTTAAAAGATGTAATTTTTCCTACAGAAAAAGATATATCTTTTTATGCAATGAGTAAGTGTAGTTACTGTAATGGTACAGGATCCAAATCTGGAAAAGTAGATACTTGCAATACTTGTAAGGGTTTAGGAAAAGTGCAAAGAGTAACTCAAAGTTTTATTGGAAATATATCTATGGAAAGCATTTGTCCTACTTGTAAAGGTTCAGGGAAGGTAATAAAAGATAAGTGTAATCATTGTATTGGTTCAGGTAGGATAAAAGAGTTAAAGAAGATGAAAATAAAAATACCTCAAGGTGCTAGCAATGATACTGTTTTAAAATTTGCAGGATCTGGATCTGCGGGGTTAAATGGAGAAAAGAGTGGTGATTTATATTTAAACATAAAGATTTTAGAAGATAAGGAATATAAAAGAGAAGGGAATGATCTTCTAGGAACTCTTAATATAGATATCCCTACTGCAGTATTAGGAGGAGTAGTAGATGTAAAAACTATTTATGATACTGTAAAATTAAAAATTCCTGCAGGGGTACAGGATGGAGAAAGATTTAAAATTAAAAATAAAGGGGTGCCTTCTTTACATGGTAGTAGAGTGGGTGATTATATAGTCAAGATAAAGGTTAATATTCCTAAAAAAATCAGCTATAAGGAGAGAGCTTTATATCAAGAATTAATGAAATTATAGATTTTTAAGCATTAAAAAATCTTCAAAAAGAATTTTTTTCATATTAGGATTATATAATCCTACTGCAGGATGATACATAGGTATTACTGTATATTGAGAAAGTTTAAATTTTTTTCCATGTATCTCAGATATTTTTTTATCTTTAAAAAAAAGACTCATAGATAATCTACCTAGAGTACAAATTATTTTTGGTTTTATAATATCAAATTGTAATTTTAAAAAAGGGGAACATCTCTCTATTTCTATTTCATTAGGATCTCTATTTTCAGGTGGTCTACATTTTACAATATTTGTTATAAACACATCTTTTCTTGTAAGTTCTATACTTTCAAGCATTGAGTTTAGTAGAGAACCAGATCTTCCACAAAAAGGAATACCATCTCTATCCTCATTTGCTCCAGGGGCTTCTCCTATAAACATTATTTTAGCCTTAAGACTTCCTTCTCCTGGAACAGCATTATTTCTTGTTTTACATAAATTACATTTTGTGCAATTTATAATTTCATTTCTTATACTATCCATTAATATCCAATAGGTAAGAAATTTTTTAAATTCTCTGTGTTAATAGTTACTGTATCTACATGTTCTGTTAATATTTTCTTTGCAACTTTTCTTGCTATATTCATTAAGATTCTTTCTAATTCTCTTATTCCAGCTTCATAACCTAAAGGTCTTATAATATCAGACCAAACATCATCATCTATTATGAGTTGTTTATTATTTAAACCAATATTTTTATAAACTTTTGGCATTATATAGTCTTTTGCTATTCTTAATTTTTCTTCATCTGTATATGAAGAAAATCTTATAATTTCTAATCTATCGAGTAAGGCTGATGATATTGTGCCCAAATTATTTGCAGTCAGAATAAACATTACTTTTGAAAGGTCAATTGGATAATCAATATAGTGATCTGAGAAAGAATTATTTTGTTCAGGGTCTAATATTTCTAAAAAAGTTGCCATAATAGATGATCTGACTGAACCATCGTCAGATATTTTATCAAATTCATCAAGAAGAATAACAGGATTATTACTGCCTGCTTTTATTAAAGCCTTAACAATATATCCTGGTTCTGCATCAGGATTTACTTTTGATTGACCTCTAATTTCTAATACAGAAGAAAGTCCTCCCAAAGGAATTCTTACAAATTTTCTATTTAATGCTTCTGCAATAGATCTTGCAATTGTTGTTTTTCCTATACCTTGTAGACCAACAAAGCATAAAATTGGAGCTGGTTGTTCTTTGTTAAAATTCATAGAAGATAGGTATTCTAATATTCTTTCTTTAACATCTATTATTCCATAATGATTTTTATCTAAAATTTGTTTTGCATTTCCTATATCTAAATTATCAGAAGTACTTTTATTCCAAGGTACTTTTGTTATGGTATCTATATATTTAGATATAACTTCATAATCTGAGGAATAGCTTTGGAATTTAGAAGCTCTGTCTAATCTTGAAATTAAAGCCTCTATATTTTCTTTAAGGACAGGCGGTATATATATACTTTCAATTTTTTCTTTTAAATTTTTTATATCATCTATCATTTCACTATTTGTCCTATATAATATCCTAGTATAGCAGCTATCATTCCAATTATGAGAATCTCTAAAGCATTCTTTATTCTATCTTCTTTTCTATCTGCAGCTTTAAAGAAACCTATAAAAAATAATGATATAGCAACTAGCAATATAGAAAATATTACGGCAATATTTGTTTTTAAAAATATGTAGGGTATTGTTGGTATAAGTGCTCCTATAAGGAAAGATATTCCCATAAATACTGCATCAGTTTTGGGTCTTATGGTTTTTTCAATATCTTCCCCTAATATTAAAGTTGAAGCAATACCTTTTTCTATATCAGGATATTTTGAAAGTATTTGAACCATGTTATCCAAATCAGATTTCTCTACTCCTTGATCCTTTAAATTCTTTGATATAAGACTTCCGGCTTTTTCTTTAATATTTTCATCTTCAGTTTTTATTTCTAATACTTCTTTTTGTGATTTTGATCCAAGATATGTTCCTGTTGCCATTGATATTGCACCTCCAATTCCTGCAGTTAGTGCAGAAAGAATCAATATTGAGTTAGTAGATACAGCGGAGAGTGTTGTCGTAAGAATTATTGTAGTTACTAGGCCATCTTGGACTCCAAATATTATTTGTTTTACTTGGAAAATTAAATTTTCTTTTATATCCATAAGCTATAATATATCAAATTCTGCATTAAATTTAAAATAAAAAATTTTTACAGGAGTTTATAAATATGTTATACTTTAAACTAAATTTAGATTATTAAAATAAGATAATGGCTGCACAGTCGGATTTTTTGTTAGCTATACACCAAATAGCTTCAGAGAGAGGAATAGAAACAGAGGATGTAATTAATGCTGTAAATGAGGCATTAGTTGCTGCATATAAAAAAGATTATGACTATAATGAAGAAGATATTGTTGAAGCAAAGATATCTGAGGAAGATGGGAAGTTTATAATAATTGTAAACGGTAAAGATAGTACACCTAAAGATTTTGGAAGAATCGCATCTCAAGCTGCAAAGCAAGTTATTTTGCAAAAAGTATCTGAAACTGAGAGAGAAACTCTTTTGTCTCAAATAGAAAAAAGAATAGGTACATTAGAAATGGGTATAGTTCAAAGGTTTGATGGGCAGAATGTTGTAATAGAGGTAGGAAAAATCTCAGCTATTATGCCTCAGCAAGAACAAATTTATGGTGAATTATTAAGACCAGGAATGAAGATAAAAGTATATTTAAAAGAAATTCAAGAGTTTCCTCTAGGAGGAAGAAAACTTGTAGTATCAAGATCTTCAGATCTTTTCATTAAGGCTTTGTTTGAAAATGAGGTTCCTGAAATTTCAACAGGTACTGTTGAGATTAAAGATATTGCAAGAGAAGCTGGATCTAGAACTAAGGTTGCAGTATTTTCAGATACTCAAGGTGTAGATCCTATAGGCGCATGTGTCGGACAGAGAGGGATGAGAATAATAGCTATGACAAATGAATTAGGTAGTGAAAAAATTGACATTATACAATGGGATGAAGATCAGGAAAAGTATATAAAAAATGCTCTTTCTCCAGCAAAACCTATAGATATATCTTTTGATGAACAAGAAAAGCATGTAACAGTGATGGTTTCAGAAGATCAATTATCTTTAGCTATTGGAAAAGATGGTCAAAATGTTAGATTAGCAGCAAAACTTACTGGTTGGAATATAGATATAGCAGCAGATGAGAGTGTTCCTAAAGAAGAAGTTTTAGTACCAGAAGAAAAATCCGAAGAATAATAAAATCTTATTTATCCTTTATTTTAAGCATTTTGAGTGTTATACTACGAGGTATATATGGTAAAAAAAGTAGATACACAATTAAAAAGACCTCCTGTTGTAACTGTAATGGGTCACGTAGATCATGGAAAAACCTCTCTATTAGATTCTATTAGGGGCAGTTTTGTTGCAAATAAAGAAGTTGGAGGTATAACTCAGAATATTACTGCATTTGATGTAGTACATGACAGTAGACATATTACATTTATAGATACTCCAGGTCATGAACTATTTTCTAATATGAGACAAAGTGGAGTATTAATGACAGATATTGTTTTGTTAATTATAGCCGTTGATGATGGTATAATGCCTCAAACTAAAGAAGTTATAGAAATAATTAAGGAAAATAATTTAAATGTAATAGTTGTTTTTAATAAAATAGATTTACCTTCTAATAATTTAGCTAAAATAAAATCAGATTTAGGAAGAGAAGGTATTTTTTTAGAAGAATTTGGAGGTAAAGTTCTTTCCGTGGAAGTTTCTGCAAAGACTAAAAAAGGTGTAAATGACCTTTTAGATCTAATATTATTGCAGTACGATATGTTAGACAATATATATACTCCTTCTGAAAGAAATTCATTGGTAGTATTAGAGTCATTCAAAGATCCTCATGTAGGGAATATAAGCTTGTGTATAGTAGAGGATGGCACATTATCTCAAGGGGATAATATATTTTCTTTAAAGAGAGGAGAGCTAGGAAAGGTAAGATCTATCAAGAATGATAAATCTGAATCTTTAAAAGAAGCAGGTGTTTCTACTCCTGTATATATTTTTGGTCAAAGTTTATTTTTAGATGTAGGAGAAAAAATTGTTTTCTCTAAGGATAAGATTAAATTAGATATAAATAAAGAAAAATTAGATTTAGGTAAGTTTGAAGAGGAAGATAGAGATTCATTTTTATTTCCAAAAGAAGAAGTAAAAATGTTATCAATAATCCTTAAAGCAGATACTAAAGGTTCTTTAGACGCAATAGTTACTGCTTTAGAAAAAATAGAATTAGAAGAAATAAAAATAAAAATTTTTAAAAAAGATCTTGGAGATTTAACTGATGAAGATTTAAATATTGCTAAAAGTACTAGATCTATAATTATTGGTTTTAATATTTCTCAATCTTCAAGAATAAAGAAACTTGCTTCAAATATGCATATCATTATTATGATATATGACATTATTTATAGATTAGTAGATGATGTTAAAGATGCAGCTGAATCCCTTATTCCACCTAGTTATGTAGAGATAGAGAATGGTAAAGCAGAGATTAAGGAAATATTTATCTTATCTAATAAGAGTACAGTTTTGGGGTCCTTAGTATTCGAAGGAAAAATGGTATTAAACAGTAGATGTAAGATATTAAGAAAAGGAGATGAACTTTTTGATTCAAAGATAGTATCTCTTAGAAATCTAAAGAATGAAGTGAAAGAAGTCTCTGTAGGTATGGAATGTGGTATAATAATAGCCCCTAATTTCACAGTAGAGAAAGGGGATACAGTTATTTCTTATAGAATAGAAAAAAATTAATTAACAATCTGCCTCTCATAATAATTTATGGGAAATGATAGTTTAGAAAAATTAAATAAATTAGTAAATAAAGCTGATAAAATATTATTAGTTTCTAGTACTAGGCCTACAATAGACAGTATATCTTCTGTTTTTTTAATGTGGCATTATTTATCTTTAAACTTTGATAAAGATATCAGTATTTATATACCATCAATACAAGAAAGATACGATTTTCTGTTTAATTATTCTATGTTAGAAAAAGAAAATATAATAAAGGATATTTTAAGAGAATATACTTTATCAATAAAGAAGCAAGATGGAGTGATAGACAAAGTGAGGTATGATACAGAAGATAATCTTTTTAATTTCCATATATCTTTAAAATCAGGAGCATTGGATACAAATAGTTTTAATTTAGATAAATCTCAGTTTAATTATGATCTTGTTTTTACAATAGATGTTGAAAAAATTAATTTTGTAGGGGATTTATATAAGATATATAAAGATGATTTTGAATCAAGAATTAAAATTATCAATATAGATTCTCATGCTACCAATTTAAGATTTGGAGACTTAAATATACTCTCTAATGAAGTATCTTCAACCTCAGAGATTATTTTAGATATCATTAATAGTACAAGAACTCTCCTTTCTCATAAAGAATGTCAATTAATACTAATGAGCATTCTTTCTAATACGGAGAATCTTTCGATAGCAAATATATCTCAAAAGACATTTGAAAACATATCTTTTTTGACTAAAAATGGAGGAATTATGAATAAAGCTCTAGTAGAAGTATCTTCTCCTAATTCACTAATAGATCTTAAAGCCAAAGCTCATATTTTAGAAAATGTAGAAGAGTATGTTTATAAAAAAGAGAAATATATATATTCTATAATAGAGAATACGCAAATGTATCCTTCTTATTTAACTGATATTTATATAAAAGATGCAGTTTTAACCTGTATTGTTATAAAGGGAGATGTATATAATAAATTTTATATAAAAGATTTTAAGGATATTATAAAAATAGAAAATCTATCTAAATTTTTTGATGATGTAAAATCTGAAGATGGAGTATTATTTTTTAAATCAAAAGAGTCTAATATTAAAAATATATTAGAAAAAATAGCAATACTTAAAAATTAAATCTAAATATTTTTCACTATATATATAAATAATATTTTTTCTTATATAATTGTTTGAGATATGAGAAAGAAAAAGAATAATATATTATGGTGGAGTATTAAATTAGGATTTGAGACAACTCCTTTATTCTATAGTCTTCTCATTATCACAAATATATTAAATATAATTATTCCAATACTGACAACATTTATTCTTGCTATTATAGTAAATTTATTAATACACGCATTAATAATTCACAGTAAAGTTTTAACATTTCAGATAATTTTTTTAATAATCTTAGGTTTATTATTAAGAGTTTTGCAGAATATAATTTATGAATTAAATTCTTATTTTATTTCGAGAATAAACTATAAGTGGGAAATAGTTCAAGTTTCAAAATTTTTAGAGAAACTTTCTTCCTTAGATTTAGAACATAGAGAAAATCAAGATATAAATCTTTTATCTACAAAAATAAGAGAAAATATGGGAAATGCTATTAGGTATAGTATTGTAGTATCACTTCCTTCTGTACTAGCTCAGTTAATAGGATTAGTAACTATAGGTGGAATATTTTTTATTTTAGATCCTATATTTATATTATTAATATTAATTCCTATTATTATTAATTTTCTAATTGATAGAAAATATGGAAATGAGGTATATTCACTTTGGTTTTCAAAAGGAGAAGATAAAATTATTAGCTGGAAAGCGAATTTATCTCTACAAGATGTCAGTACATATAAAGAATCTAAAGTTTATAATATTTTCAATTATATTATTGATAAATATAAAAATGTAAATGAAAATTTTCAAAAAACTGCTATATCAAAATTAAAAGATAGAACTAAATTATTATCTTTTTCTTATATTATTGATGGTATTATCTTTGGAGTTATTCAGATATGGATAATACAACAAACTTTAATAGGTAGTATATCCATAGGTTTGTACTCTTTTTATATATTAAATTTAAGTACTATAATTGATAATTTGAAAACTCTTGGTCATCATACATCTCTTTTAATTTCAGATATGAAATATATAGAAGATTATAGAGATTTTCTAGAAATTCCAAATCTTATTCAAGAAAAAAGGGATCCAATTTTAATAGATTTTTCTTCACCTGAGATAGAATTTAGGAATGTGTCTTTTAAATATCCTAATACAGAAAGATATATTTTGAAAAATATATCTTTTAAAATTAATAAAGGAGAGAAAGTTGCTATAGTAGGAAGAAATGGGGTTGGAAAAAGTACATTAATAAAATTACTTGCAAGATTTTATGATGTAAATAGAGGAGAGATACTTATTAACAGTATAAATATACAGGATATAGATCTGAAAAGTTATTATGATCTTTGGGGGGTATTATTTCAAGAATATTCTTTGTTTTGGTTTTCTATAAGAGAGAATATTGCTCTTTCTAATATTAAAGATATTAATAATATTGAATTAATTAAACAAGCAGCTAATAAAGCTGATATAGATAATGAGATAGATAAATTACCTCACCAATATCAATCTTTGCTTCATACAGATCTCCAAAAAGGAGTTAATTTGTCAGGAGGACAAAAACAGAAAATTGGCATAGCAAGAGCTTTATTCCGTAATCCGAAATTTATAATATTAGATGAACCTACATCTGCTCTAGATAGTTTATCAGAAGAAAAAATATTTAATAATATATATAAAAACATAAATAATTCAACAACTCTTATAGTTTCGCATAAGTTTTCAACAGTTAAAAATGCAGACAATATAATACTTATGAAAGATGGAAAGATAGATAGTATGGGTAATCATGAGTATCTTATGAAAAATAATAAATTTTACAATAAAATGTTTATGTCACAAGCTAAACA
>sequence02
GGTGTGTTTACCGTTACTGATATTGACTGCGATGGAAATGATTGGCCTGATGGACTCTGTGCTAATACTTCATAATAATAGGTATTTGGATTTAACTCTCCTCCTGTTATTGAAGGTGTACCTGAAAGCGATGTAGGAGCCGCAAGCCCCTCTACATTCAAATCTGATGAGGTTAATAACGTATTTCCGTTAACAGTAAGATTTGCATTTTGATCTATACTTAGCAATGGTGTTATTACACCATTGTTATTGGATGTTACACTAAATATATTCGATTGTATCTGAGCATAATATACTGCAGCTCTTAAATTAGTATTAATATCACTTCCTGCAATTTCATAGATATATCCTTTATACTCTACTGATGTTGCATATTCACTTCCTGCAGGAAGTGGTGAATTTACTTCTTTCCACGTACTTAATGATCCTCCGGATTGTATTTGTGCATAATAGATTGTATTTAATGTTCCTTCATTATATGCACTCCCTCCCATCTCATAGATGAATCCGTTATACACTACCGATGTTGCATTATATATATCTATAGGTAACACATTTGTAGTATTCCATGAGCCTAATGTTCCATTCGAATTTATTATTGAATAGTATACATATACACTAGAAAATCCTCCTATCTCATAGATATATCCGTTATATACTACCGATGTTGCATAATATATAGCACCAGGAAGAGATGTTGTTGCACTCCATGCACCCAATGTTCCATTACTATTGATTAAAGCATAATCCACTGTTGATGAACTCCCTACTCCAATTTCATATATATATCCGTTATATACTACTGATGTTGCATCTGATGTTGCTTTAGAAAGAGAGGTTGTAGCATTCCATGTACCTAATGTTCCATTTGAATTTATCTGTGCATAATATACTGTCGAAACTGCTACTCCACTACTATTTAAACCTCCTATCTCATATACATATCCTGCATACTCTACTGATGTTGCAATATCTAGAGCTTGAGGAAGAGATGTAGTAGTCATCCATAAACCTAATGATCCATTACTGTTTATCTGTGTATAATATACTGTTGATATCGGATTACCTGTATTGGTTAAAGTTCCACCTATTTCATAGATGTATCCATTATGTTCTACTGATGTTGCATAATATATAGCTTGAGGAAGAGATGTTGTTCTAGTAAAATTATTTAACTGCATTATATCATTGTTATTCAACTCTCCCATATTTAATCCAAAATTCGTGGAATTCAGAGATAATGATGATGTTGATGATATATTAGATCCACTTCCATTCGTTAATGATATATTCCCTCCCGATATTGAACTTCCCCCTACTAATATACTTCCTCCTACTGTTAGGTTATTGGATATATTTCCATTCCCTCCATTATTCTGTGTTACTGTTATTGCATTCGTTGTTGTTGTTGATATATTACTATTTATTCCTCCCGCAGAAGATACTGGAAAATAGTATACTGTAGCTACAGAAGTTGTTATACTAGAATAATCTAGCTGTCCTCCTATCTCATAGATAAATCCCTTATATTCTACTGAAGTTGCATATGATGTAGGCTCAGGAAGAGGAGTCGTTGTGCTCCACATACCTATGCTCCCTCCACTATTTATTTGAGCATAATATATTGTTGCTACTGTCGAATTTCCATTATATCCTCCTATCTCATAGATGAATCCTCTATATACTACAGATGTTGCATTCTCTATTCCCATAGGTAAAGATGTTGTTTTTATCCAGGATCCTAAAGAGCCATTACTATTTATTGGTGCATATTCAACTGTTGTTGTAGGACAACTATAAGAACAGCCCCCTATCTCATATATGTATCCTCCATATTCTACTGATGTTGCATTTTGTGGAACGCTAAGAAGAGAGTTTGTTGTTATCCATGCTCCCAACGTTCCATTACTATTGATTGGGACATAATATACTGTTGATACTCCAGAAGTTCCATTATATCCTCCTATTTCATAGATGAATCCTGCGTATTCTACTGATGTTGCCTCTGATATAGCACTAGGAAGTGATGTAGTTGATCCCCATGAACCTAGTGTTCCATTGCTATTTATAGGTGCATAATATACTGTTGAGATTAAAGAATTACTACTGTTATATCCTCCTATCTCATAGATATATCCATTATATGCTACTGATGTTGCAAGTTGTATTGCAATAGGCAATGATGTTGTTGCTGTCCATCCACCTATACTCCCCCCACTATTTATCTTCGCAAAATATACAGATGATAAAATACTTCCATTTGTAGCTTGTCCTCCTATCTCATATATGAACCCCGCATATTCTACCGAGGTTAAACTGTTCGCAGCTTGAGGAATAGGGTTTGTTGAAAGCACTCCTGTGTCTGTATAACTATTTGTTGTGGATATATATTCTGCAGAATTAGTGAAATTTGTGCTAGTTGATCTATATACTATATAGTTAGTAACACCCGATACTGCATTCCAACTCAATGATACTTCGTTCGTATTCGTTAGAGCTGTATTGGTTGTTGGAGGAGTTAAAACGGAAGAGTAATAACCATTTCCACTATTAACATATGAGGTATTACTCTCTCCATCAACAGATAGTAAAAATACTTCACCTCCTGATGTTGTTGATCTATATATGTTATATCCTGTTGCTCCACTGTCTGCACTCCACGAAAGTGTTATCGGATATGCTGTCGTTCCTTCTGTAGCTGATACTTCCGTTGATGCACTACTCTCTCCTAGTGATGTTGTTGCCGTTACCTTATAATAATATGTTGTAGATGCTACTAGATTTGATCCTACAGTGCCTGACGTACCTACACTTGCTGTAAGTCCTGTCGGTGCTGTAACTGGGGTGTTTACCGTTACCGATATTGATTGAGATGGAAATGATTGACCTGATGGACTCTGTGCTAATACTTCATAATAATAGGTTCCAGGATTCATCGATCCTCCTACTATAGAACTGCTACTCATTGTAAGTCCCGTAGGAGCTGATAGTCCCTCTACATTCAAATCTGATGAGGTTAATAACATATTTCCATTCAATGTGTTCTGACCATTTCCTGATGCCGTTAAATTACCTCCTGTTGATATCGATCCCGTAAATCCATTCAGTGATATCAATGTATTGTTATTTACACTATTCGTTACATTCAAACTACCACTGTCTACAGATATGTAGTATACACTTGAAACAGGGCCACTTCCGTTGTTTCCACCTATCTCATATATATATCCATTATATGTCACAGATGAGGCACCATCTATACCCCCAAGTAATGGAGTAGTTACTATCCATGCACCTACACTTCCTCCACTTTCTATTGGAGCATAATATACGGTTGAAGTATTAGTACCTGTACTGTTAATCACACCTCCTATTTCATATACATACCTATTATATTCTACTGATGTTGAATAATATGTAGTTTCAGGAAGTGAAGTTGTTGTGCTCCATGCACCTAACGTTCCATTCGAATTTATGGGAGCATAATATACTGCTGATATTGGATTACCTGTATTAGTTACAGCTCCTCCTATTTCATATACATATCCATTATATACAACAGATGTTGCTTGCTCTGTTCCTGTAGATAAAGAAGTTGTTGTATTCCACACTCCTATTGTCCCATTTGAATTTATGGGAGCATAATATACTGTAGATGTAGGACAAATTGTACTACATCCTCCTATCTCATATACATATCCATTATATACAACAGATGTTGCAAGATTAGTGGCTTGAGGAAGAGATGTAGTTGTATTCCATATACCTATTGTCCCATTTGAATTAATCTGTGCATAATATACTGTCGAAACTACTGCACTACCATTAAATCCTCCTATCTCATATACATATCCATTGTAGATTACTGATGTAGCAACATTTGTAGCAGCAGGAAGAGATGTTGTTGCACTCCACGCACCTAATGTCCCATTCAAACTTATTGGAGCATAATATACTGAAGAAATTACTGCAGTACCATTAAATCCTCCTATCTCATAGACATATCCGTTATGTTCTACTGATGTTGCAAAATCTGTAGTAGCAGGCAGTGCTGTAGTTGCTTGTATATTTAAATTCCCTGTTGTTGTATTTGAAGGGTTAAATGTTAGATTCGTTGTTGACAGTACACTATTAGATGCTGTGTTTGTTAAATCTAACTGACCTCCTCCTATAAACCCTGACCCTATTGTCGTTACATTTCCATTTACTCCATTTACTGAAAAATTATTACCAGAAGGTCCATTAGATACATTTAGCGTATTCGTCGTTAATTGCAAATCATTTAATGCTCCTGCATTATAACCTGTTATATGTAACTCATTCGCTACATTTGTTCCACTCGTAGGTGGCTGGTATTCTATATATGCTCCATCTGTACCGGACGATCCATTCGATCCAAAGACTATCACTCCTCCACTCACTCCACTTCCTGCACTTCCTACCCCTATATATGAACTCGACGTACCTGGAGTACTTATTCCTCCTTCTATCTGTCCTATACCTAATATATTTAAAGTATTTGAGGATGTTATATTGTTATTACAGCTAAAAAAACATATATCTCCACTACCTCCTCCTCCATTCAATGTTAATACATTAGAACCTGTTGCATTTATCTGAGGATTCGTCCCTGATAACGTTATATCTCCACTCCCATTCGTTACTACTACCTGACTTGCTCCCGTACTCTGTGATGGCGCAAATCCTTGCAATAACGCTGCATCCATCGCATACGCTACCTGATCTATACTCTGCAGTGGGGTCATCTGCCCATCCCATACACTTCCGTTATATACATTCACTCCTAAATAGTAATTAGATGATCCTTCAAATAAACTCCCCGTTAATGAAGAATACTCCCCTAACTGCGCATTAAATACTCCATTACTTATCTCATTCGATGGACTATTCGTATTCGAAAAATATTGCACCTCTCCCCACACCGCTCCATTCAATGTTCCTGATGTTGTCCCTGCACTACTCATCCCTCCTACCGTAGGTGTTGCTCCTGGTGTACACGATGTGGCTGTACTACTCGTATATATACAAAATGCTATATAGTAATTCCCCGTTAATAAATTACCCGCTGAATTCTCTAGTCTCCCTTGATAATTTAATAACGATTGCGGTGATGCTAATACACTTCCTGCACTCAGAAGTATACTCACCAATATTCCTACTAACATTATAAGGATTGTCGCGATTCTTCTCATCTTTTATTTAAATATTATACATTATATATTATGAGATTTTACGGACCTTGTCAATTATCCGTTGACCTTTATTTACAAGATTTTTCTGTAGTTTAATAATGGTATGCTAGACCTGCTACAGTTATAGCATTATCACCACATAAAGATATAGCAGGAAAATAAAATTTAAAATTTTCATGTTTATAAAATTCTTCTCTAATTCTTAAATTTGCAGCAGCACCTCCGGATAAAGTTATAGTATTTAATTTATATTCTTTAGCTGCTTTTATTGTTTTTTTTACTAATACTTCTGCTACAGCTGCCTCAAAACTAGCTAAAATATCTTCTTTAGATACATCTTTATTTGAATCTATAAATCTTTTTACAGCTGTTTTTATTCCAGAGAAGGAAAAATTATAATCATTTGAATGAATCATTGGTCTAGGAAAATTCACAGCTTTCTCATTTCCTTCTAGTGCTAATTTAGAAACTATTGGACCACCTGGGTATCCTAAGCCAAACATACGAGCAACTTTATCAAAAGCTTCTCCACACGCATCATCTAGAGTTGTTCCTATTACTTCCATTTCTATAGGAGACATCACTTTTATAATTTGAGTATGACCACCAGATATCAGTAAAGAAAGATGAGGAAATTCTATATCTGGATGCTCAAGTATATTCGCATATACATGAGAATAAAGATGATTTATATCTATAACCTCTAAACCTTTAGCTCTAGCAAAACCATATGTAAAACTTACACCTACTAATAAAGAAGGAATTAGACCAGGATTAGTGGTAACTGCTAATTTATCAATTTTTACATCAGGAAATCTTTTTAAAAGATCGTCTACTAATAAAGGAAGAATTTCTATATGCATACGAGAAGCTTTTTCAGGTATAACTCCTCCCGCAGAAGAATGCATTTGAGAAGAAATAGATGAGCCTATAACTTCTGTACCATTCTTTACCAAAGCAACAGCACTATCATCACAAGATGTTTCAATTCCTAAAATTATCATATTTCTGATACATATAAAGGTAAAACTTTCAAAGGATCATCAAAAATTTTTCTCTCTATTCTATCTAAAACTAAATCTAAAAATTTATCATAATTAATAGAATCTCTTGCCTCTCCTTTTTCAATTTTATAACCTTTCTCATCTTTTAAATAAACTTTACCTCTACCTGCATTAATAATTAATTTTTTTCCTTCTTTTTCTAAAACTTCAAATCCACTTATAGCAATTAATGGGATCTTTGAAGCATAGCAAAAACCTTTAATATATGAGAGTCCCACCTTTGTTCTTGTAAAAGAACCTGGGCCTTTATTTATAGCTATATATTGAATATCTTTATGAGAAGAAAAGATATTATCTAATAAAGAAAAAAGATTTTTATCTTCAAATTCAAAACTCTCAATTTTTTTATTTTCAGCTATAAAAACTTTTAAAACTTCAGTTGTACTATCTATAATTAGTATCTTCATCTTTCTATATTAATATATCTTACTCCATTTTTTATCATAAAATTGATTTTTATAATATTAAAACCATTTAGTATATCCAAAAATTTATCTGCCCATTCTATTATAACAAGACCTTCCCCCAGTACATCAAAAAAATCTATATTTACAAGATCTTCCTTACTATCCATTCTATACCAATCAAAATGATAAACTGGACCTTTTAAAGATTCATAATCTGATCTGAGTACAAATGTAGGAGAAGTAACATTATCTAAAACCCCTAATTCTTCCAATAAAAATTTAGTGAAGGTTGTTTTTCCAGCACCCAGATCTCCTATCAGACAAATTATTTCATTACCTTTTAAAGTTTTTGAAAATTCACTGGCGATTTTCTTTGTATCTTTAAGATTATCTATCTTTATCATTCTAATAAAATTCAATTGACTACATTATAGAATATATCCTTAATTTTTTATAATTTTGTTTTTTGATAATATTTAAAACTGTAAAAAATAGATAAGATAACAATTAATACCAGAGATATTATATCCCTCTAACTGATCACCATGTTCTGACATCCGAATATTACAATATTAACAAAAATATTTTATTAATTATATAACGATACTCCTATATAAATTATCTTTGTTCTAAAAAATTTTCTAACTCAAAAATATTTTTTATAACGACCTTTTCTTTTATATTATAATTATCAAACAATTCTTTTTGTTTTCCTTCTATATCTCTTCCATATTTTACTTCTATTAGAATTTTATTTCGTATAATAAAATCTATTTCATTCCTATTTATATACAGATATTTAGGATCTTCCATTTTGAGTTTTAGATAGACATAATTTTCAAATAAACTACCAATATCTCTAACTCCAGTGGAAAAAGTTCTTATTCCTATATCTGATGCATATATTTTTTTTGCAGCCTTTATAGTTTCATTTGTTTTTCCAAACCTAGAAACAGTATATATTAAATATGAGTCTTCAAACATTTTTAAATATCTATTTGATGTATCTGGAGATATACCCAAAATACGTGCAATTTTATTTATACTTACAACTTTTCCAGATCTTTCCATTAAAAGTGTAAAATAATTTTGTACTGTACTTATATCTTTTATATCATATTGAGCCACAATATCTTTACGAAGAATATCATCAACAACTTCTTTTAAATAAGCCACATCATTATGCAGAACATATTCAGGAATTCCTCCAATATTTAAATAGTCTTCAAAATATTTTTGTTTTAATAAATTATCTTCGGGAAGAATTGTAATATTCTTAAATTGCAAATATTCTTCAAAATCAAGAGGTAGTATCTCTACTAACTTATACCTTCCTGTTAAATATGGTTTTTTACTTCTCAGTAATGATGCACTAGAACTAGATGCTACAATCTTTACATATCCAGTATCATATAAATTTTTTAGTTGTATTTCAAAATCATCTTTAAAGGTTACTTCATCTAAAAAAACATATATTTGATTTCTGAAAGGTAATTTTTGTATTTTTCTATATTCTTCTATAATTTCTAAAATATTTAAACTATTTAGATGATAATCATCTAAACTTATATAAAATATATTTTTACAATTTACCTTTTTTTCATCAATAAGATATTGTATTAATATCTTCATTAATGTTGTTTTACCTATTCTTCGTAGTCCTGTTAAAAAAAGAATATCATGAATTTCAATATCAATTTTTAATGAATTTAAAATATGATCTCTTAAAATGATTTCACTTGAAATTGAATATGTTTCACTCCACCAAGGGTTATATCTATAAAATATATTTTCCATTATTTTTATATATTATATGACATTATACTACTATATCGTATAGTATGTCAATATTCTATACGATGGCATCGTATAGAATATTGAATGGATCAGGAATTTCAAATACTACACTTTACTCAACAATAAAACGTCTTTAGCCATTCCATTACTTTCTCAATACTTCCTCTCATCCGTTTATGCTCTCTAGTAAACACAAATCTGGGACCTCTTTTTCTGCTTTTATCTAATTTCTTCATCTCTATTCTCAATCTTGATGGTTTGACAACAATAGCTATATTTAATTTCTTAACCATAAAGTTGGCTATGCGTACCTATTATATCAAAGATTACTTCATTTTCTCTTTGTAGATAAAGTACTCGTATATCGCCTGTTATATCAATACTACGATAATCCTTATATTTACCTTTTAATGCATGATTGCGAAATACAGGACCAAGAGGATTTTTACTAAATATATTTATTCTTTCTTGTATTTTTTTACGTAATTCTGGATTTAATCTCTTTGCATACTTAATAAAATGTTTAGAGTATGATATCTGCATAATAATCAATTTAGTTCATCAGAGAGAAAATCTAAAGATTTTTTTATATCATCAAATTTATAATAGTCCTCTGATTCTATTTGTTTTTTTGAAATAGATATTTGTCTTGCTGTTTTAGCATTAGGAACTTCTGGAATTTCAAATACCACGCTTTGTTCTGCAATAAAACGTTTTAATTCATTATTTAAAACTGAACTAACACTAATACCCAGTCTCTTAGCAGTTATTGATGCTAACTTCTTAATTTCAGGATTTGTTTTAAGATTTATAACTGCATACTCACTCATACCAAAAGTATATACTTTTGGTATGTATTTGTCAAATATATAGAAGATGTTCAGAGTTTTGCTTGATATTGCAAAAGAGTTTTAAAATGGGGCAGAATATAAACATTATCATAAACTGCCCTATGAGCTTATATGCAGATAAAGGGTATAAGAAGTATGAAAGGAGGAGAGAGTTAAAGAAAAGGAAAAGGCATGCAAGAATAGAGATGAAGAAATTAGATAAAAACAGGAAAAGAGGCCCTAAATTTATCTTTACTAGTGAGCATAAACGAATGAGAGGAAGTATTGAGAAAGTAATGGCATGGCTAAAGACGTTTATGATTGTCAGACTAAGTAGAACACGTATAAAGGCATTGCTAAGTGGGATGTTCTTCTTTTGCCTTAGCTACACTACTTTTACTAGATTAAAAAAACTTTGAACATCTTCATAACATGATTTCTAAAAGTAAGAATTCAGACCTCTATGAGTAGTATTAAATAGAAAAATTAAAAACTGAAATAAATATATTCTTAATGATAACTAAATATTTTAAATTTTAATTTCATGGTTATTATTGAATCGGAATAAACTGACTCAAATGACTATATTTCATCTAAGTTAACCAAAGAATATATATTAATCATAGGGGTGTACATTCTTCATAGCTCTTATAACATCTTTTGATTTAGATTCTTCACAAACTATTTTTCTATTTTTTCTTCTTCTACTTGCTCATATTCACCAACTTTATCAATACATGAGGTTGCATCACTCACAATATCAAAATGGGATTCTGGAACAAAAACTAATATCTTATATATCTGTTCCATTTTTCCTCATTATAAAACAATTCTTTTTGCTTAAAAATACCGACCATATGAGTTTTAGATGTTTAACAAATTCTCATACTACAAAACAAATGTGGGTGTCTCATTACTTGACCTTAAGTTGCCTAAGATCGAACCACTTTTGGTTTGGATTACAAAAATCATAAATAGCACTATATAATTTTACATATATAATCAATGGGTTCAATTTAACTATTTACTATTCCATTTTAAAATCTAAAATATATTTAACAGACGTTATTTTATTTTTTACATTATTAAACAATTTTTTATCTGCTGTAATGAAATCATATTTCAAAAATTGTGAAAGGGTGACATAGGAGGCATCATAAAAAGATAAATCGTATTTTATTGATATGTCTAATATATCTAAATAGATTTCTTTTAAATCATAAAAAATTATTCCATAGTTATTAAAGAGATCTAAAGACTCTTTAGCTAAATTGATATCCAGTTTCTTTAATCTCACTGCTTTGGAAAATACATTTCCAATCTCATAATTGAGTATTGCAGGGGAATGTAAATTGATTTGTCCTATATCATATAAATGTTTTAATTTTAGTGCAATATCAATATGTTCTTCTTTGGGGAATTGTAAATACCATTTAACAATAATTGAATTATCTAAAATTAAATTCATCTCAAATCCTTTTTACTTTCTACAACAATATCAGAGAAATCTTTGATTTTTAAGTTTTCTCTAATTTTATCTACTTTTGTGCCTATTATTAATCTTTTGCTATTATCATTTATATCTTGCATTCCTCTAAGAATCAACATATTTATTACTTTTTGTAAAGATATTTTTTGGTTATACGCAATATCCCGTGCTTGTTTTATTAATACAGTATTTATTCTAATTGTTGTTCTTTCTGTTTTATCCATATTATTATATTAGCATCAGAGTGACATGATGTCAAGATGTATGTTTCAGACATTTCAAACAGCACTTATATCCAAGAGTATCAATACATTCGGGATGTTTCAAGTGGGGATGCCTTGTTAATTGGGCTTAAGTTGCCTCAGAATAGAACCTACTTTTGATTTGGGTTAATAAAAGTATAGGAGCTATTTGCACCTAATTATTAGGTTAAATATCTTATAATGGCTCTAGTACGTCAGCTATTTTCTTTTATTTCTGTAATAGAGAGAGGTAAACAATAATGATCTGTAAACCTTCCAGCTTGTGTATCAAATTCCTTACCTTTTTGTTTAAGTTCACTACTTCCTGTAGCAATCACTTTAATTTTAAATTCATCATATAGAATTTTAAGTACAACAGTAGCCTGAGGATGATTCTGTACTTCATCAATAAGAATAATCTTGTGTGTAGCAACAATTTTCTCTAATAAGGATCTATCTGGAACAAATTTTTCATAATCTGATGAAAAATCAAAATTAAAAATAGGAACACCAAGTTTTTCAGAAATTTGTTTTAACAACGTTGTTTTCCCAGAACGTCTTGGCCCCCAAATATAGAATGTTTTATAATCTTTTCCTTGTAAATAGATTTCTATTTCATTCTCAATCAATCTTTTTAACATAATATTATTAGATCATATTACTATTAAAATGTAAGCTATCACTTTGCAAATTAATATTAATATGTAAAGTACAATTAAGATATATCTTAAACTAATAGCTTAACAGTCTAATTTAGTAAAAAATATCCTATGGTGACCTTGGCATGCCTCAGGCAGAACCGCTTTTAGTCTGGATTGTGAAATTAGTGAAAGTATACTGAAAAGTCTATTAACAATAATAGAATAATAATTATTAATAAACTTGATTATGAGTACCTATATCAATAAAAATGAAAATTATATTCTTTTCCTCTTCAAAATATATAACCCTACAATCACCAGCTATAGAGAATACTCTATATTTCTTCATTTTACCTTCAAGCTGATGATCTCTCAAAACTGGATTAGATTTATCTTCTATAAATAATTCTAATCTTTCTTTATATCTTTTTCTTAAAATATTATTATTTTCAATCCTTTTCTTATAATGTTTAACAAATTTCCTATCTAACCTTATTTCTTTATCCATTTTGAAATCTTAATCATCTTTAACTTGATCTACAAGTTTATCTAGTTCCTCTGCAGAATGAATTGTATATGCATTACCTCTCTTTATAGCCTCTTTAGTTTCTTTTAGCCTTTTGTCTAAAAATTGTTCATATTCTTCACTAATATGCTCAACTGTATCCTCAACCATAAAAGAAGTTTTAATCCTACCTTCAGAAAAACTCATTAAAAAAACTCTAACAACTTCTTGTATAGAACTATATCCGTAATCTTCAGCAACTTTCTCTGCCTTCTTTTTTAAAGACATTTTCATAGGAATTTGTATTTTTGTATAATCTGTAGTACTCATGACTTTTTTATTATTAATGATATTATTATACTCTTTTAATACGAAGCATACAAGGCTGTCTATAGTACCTATACATTACCAATCTCATATACAGTATTTATTCTAATTGTTGTTCTTTCTGTTTTATCCATATTATTATATTAGCATCAGAGTGACATGATGTTAGATGTATGTTACTAAATCAAGCATTTCAATCCGCATTTTTAGCCTATTATATCAATACATTCGGGATATTTCTGTAGTGGGGTGTCGCATCACTTGACCTTGGCGTGCCTCAGGCAGAACCGCTTTTAGTCTGGATTGTGAAATTAGTGAAAGTATATAAGCTTTAAATAACTATTAATGTAGCAATAAAAATCTACTTTATGGTACTTGCCGTCAAACAGTTGTAATATTGACAGCAAAGTGTTAGTATGTTTGTATGGATGAAGAAGTAAAAACAACAATTAGATTACCTAGATATTTGATTAAAGAGTATAAAAACTTTGCAAAGAATACACATACTAGTATGAATAGTTCTATTGAGACAGCCTTGAAGTATTTCTTATCTAAAGAGATAACTGTACAAATAAGTGTACTCAATAACAATATTAAAAAAATTAAAATTCCAACTTTTAGTATGGGTAATATAAAAAGAATAGACAGAAAGAGTATTTATGAAGATATTGTTTGATACAAATATATTAGTTTATGCACATAACGCAGATTCCCCATTTAATCAAAAAGCATTAGAGTTATATAACACAACGGAAAATATATGCACCACCCAGCAAAATCTTTTAGAGTTCTACTCTGTGATTACCAATGATAAAAGAGTAGAGAAACCTGTGACTGATATGAAAGCACAGTCTTTATTAAAATTTTACTCTGATTCGCAAAAATTTAATATCATATCTCCTAATATAAATACTATAAAAATATTAAATGAATTAGCCACTCAGTATAGATTTAAGGGTGTTGAAATTTTTGACATATATATTGTTGCTACTATGATTTCTAATGATATTTCAATAATATATACTGCAGATACAAAAATCTTTAAGAAATTTCAATCAATAACAGTACTAAACCCATTTATCTGAATATAAAGTATCTGTCATATGTAATCTACATAGGCATTTCAATACATTCGGGATGTTTCTGTGGTGGGGTGTCGCGTTAATTGACCTTGGCGGGATTTGAACCCGCGATTTTCAGGATGAGAACCTGGTGTCCTAGACCACTAGACGACAAGGCCATAACAATAAAGAATTATATCATAAAATAAATTTACTTTTGTTATTTTTTTTAGTAACATAAACTCATGAATAATTCTTTGAAAGATTGGATTTTTCCAACCAAGAAAAATAACTTTAAATCACCTTTACTTAAAAATAAATCACTTACTGTTTACCTTATTTTCTTAATTTTTATAAATATAATGTTACCATATTTCATATCATCAGGTAATATATCTTCTCTATCTTTATATAATACTATTAATAAGGACAGAAATTCTGCATCTTTAGCAAATCTTTCATTTAGTAGATCTCTTTCCTATTCAGCTTCAGAAATCATAGGAGATATATCAAAATATCAATATTTATCTTCAATAAATCCTTTAACAAATTATTCTTATTACCATTTTATTAATACTAATAAATTTAGTAATGTGAATGAGATAATTTTAAAAAATTATATATCTCTAAATTCAGCTAATTCAAATATATTGAATCTTTATAAAAATGAAATTCTTAACTCAAGAATAAATGATATAGGTATAGCTGTTAAAAATATCAACTTTTATGGAAATACACAACAGATAATAATAGTACTTACTGCAAAAGGAAATAATACTTCATCTCAACCAGCCTTAAATATATCTTCTAACCTAGGACTTATAGATTACACTATAATAACCTATACAGATATGTTTATATTGATATTTTTAATATTCTTGATACTCTCTGACGTATTATTTTCTTATTATTACAATAATTTTAAAAATAAAAGTATTCCATATATGAATTTAATACTTTCTTTTATAACCATGATAGTCGTATTAATATTAATATTGGGGGTAATATTATGAAAAATTTAATAAAATATAATATTGAAATTTTAAGCTTCTTATTCTTTATAATTATCCAAATACTTATAATATCACTCTATCTAAGCTCACTAACATTTATCCTTATATATATATTTCTAGCTAATTTAGTAATTCTTTTATCTTTAATAGATGGAACAAAAAAATTTAAAATTTATGTAAAAGATATAGATATAAAAAAAACAGATAAAACTATATATTTTTATAATCAAATAATTATACCTCTATCTTTATTTATATCTACAGAGATATTCTTAATAATAAATAGATTCAACATCACTATATCTGAAATTATTATGCTTATATCTTTAGTATTGTTTTATACTTCTCTAAGATATATTGAATCTTATTTTGAAGTATTCGAATTTAGTGAGAAAGCTCACTATACTATAAATACTGTAAAATTATTTATATTTTTCCTTTCTATATATACTCTATTTGAAATTTCTACAATAATAAATATGTCTCTTATAATAGAAATTATTTTTGTTTTTTTAATATCTTTTTCATTAATTCTCATGATGATGCAGAGAAATAAGAAATATAATATAAAATATATTGCTTATTCATTTTTATTTTCTCTTATAATTATATTTATATCTACACTGAGTTTATTATATCTTAAGAATGCACTTTTAACTGCATTCTTACTATCTTTGATATTCTATATTTTTGAAAATATTGTTCATCATAAAATACATAAAAACCTTAGCAATGAGATAATAATAGAGTATATACTTATAGCACTTATTATGTTTTTAATTGCAAGAGGTATATTTCTAATTTATGTATAAAATAAAAGCATTAAAACTAACTAATTCTAGAGATAAAGCTTTAGGAAAAATAAAATACAGAAAAGAGAATATTTTTTTTCAAACTAGATTTGGAATTCATACATTTGGAATAAAAGAGCCAATAGATATTTTTGTATTGGACAATAAGTTAAATGTTGTAAAAATAAAAAAAGAATTGAAGCCTCAAAGGTTCTTTTTTTGGAATATAAAATATAATAATATATTGGAGATAAATAGTGATATAAAAGAGAATTTAAAAATTGGAGATACTATACACTTAATCCCTACTGACTGAATTAGTGTTAATTAGGTCAATCCATTGACTGAATTCGTGCGAATTCGGCTAGACAAAATATGTATATAATGACGGTATGATAAACAGAAAATTACAAAAAATAATAATTGAAAAACTTCGTAATTATGATAAAAGTATATTGCTATATGGAACAAGACAAGTAGGTAAAACCACCTTAGTAAAAAATATTATCAGTGAATTAGGATATAAAACTCTTTCTATAAACTTCCCACGACCTCACGGTCGGAGTTTTAAGTTCGGAGTCTATAAAGATATTTTTCCTGACTTCCCCAATCAATCAAGGTAGAGATTTGTGATATTGTATTAGAGCCACAAAATGATAGAAAAATGTTAAAATGGCATACTAATGTATCATCATGTGGAAGATTAGAACTACAAGAACAAATTCTGGGAATATTGCTGTACAAGTTGTTGAGAATTCTTCTCATAAGGTTAATGTGATAAAGCATATTGGTACAGGTAGAAATGAACAAGAAGTTGAAGATCTTAAGATGCTTGGATATGAATATATACAAAAACACAATGTTGATTCAGGACAGATTTCTTTTCTTGATGAGAAAAAGAGTAGTTTAGTATCAATTGATAATTTAAATCTCATTCATACTAATCATGCTTTTGCACATGAATATCTATCTCATATATATGAGATTTACGGATTTAATTCTCTAGAAAAGAAACTGCTGCAAGATTTAGTGATTGTAAGAATACTTGAACCTGTATCTAAAACAGAGTCAATAGACCTCATAGAAGAGTACTTTAACATTCAATATTCTAAAGGATCTCTTTATCGTAATTTACTCGCGATCTCTTCAATAAAAGATCAGATTGAAGAGATTGCCGTAGATTATGCAAAGAGAAACCTTAATTTTGATTTCTCTTTGGTATTCTACGATGTCACAAATCTATACTTTGAATCTTTTAAATCTGATGAATTTAGAAAGCCTGGTTTCAACAAGGATGGGAAATCTCAACAACCTCAAGTTGCAATAGGATTGGTTGTAAACTCTGATGGGTATCCGATATCAATAGAGATCTTTGAAGGTAACAAGTTTGAAGGACATACTTTCATACCTGTAATATTAGCTTTAAAGGAGAAATACAATATTAATACTCTCACAGTAGTAGCTGATGCTGCTATGCTATCTTACGATAATATGAAAGCTTTAGAAGAGAATGGACTATCCTTCATAGTAGGTGCAAGGCTTTCTAAGGTTGACAGTAAGGTATTAGAATCAATAGCAGCAGAACTTAACAGGGAAGAAGGTAAATATATATCAACAGATACAAAGTATGGAACACTAGTTACTGATTACTCACGCAAAAGAGCACAGAAAGATAAATCAGATAGGAATAAGCAGATTAGAAAAGCTCAAGCACACATACAGTATCCATCAAAAAATAGAAGACCTAGATTTGTTAAACAAACAAGTAAAACTGCGCTAGAGATAAATACTGAATTAATAGAAGCAGATGAGCTTAAAGAGGGTATCAAAGGATATTACACGAATCTTGTAGATATTTCTCCTCAATTAATAGTTGCAAGATATCATGATTTATGGCATGTAGAGAAATCATTTAGGATTGCAAAAGGTGATCTTAAGGCAAGGCCAATATACCATAGGAAAAAAGATATGATACTCTCTCATATATTAATTGTTTTCATAGGATTATGTTTATCAAAGTATCTAGAAGTTAATACAGGATTATCCATAAAGGTCATAAGGAAAAGTATTATGAGGATAGTTGATGTAACAATGCAAGACTCTTTAACTCAACAGTCTTTTACTAAAAGAATGACTATTCCCAACTCAGATATATACGCTACTTTATTAAAACTTCTCTAGGCATACTAATTGGGGAAGTCAGGACAAGTAGGTAAAACCACCTTAGTAAAAAATATTATCAGTGAATTAGGATATAAAACTCTTTCTATAAACTTCCCACGACCTCACGGTCGGAGTTTTAAGTTCGGAGTCTATAAAGATATTTTTGATATATCAGAAATAAAAATACATTACAAATAAGAAATCTTTTAATATATTCTAGATGTTTTCGTTTTTATTACCTCGTTGTTTTATCATTATATTACAGGTTTATTTGGTACTTCCAAAAAACAAGTAAATTCAATTAAAAGAATATTCAATAAAATAAGAAATCAATAGATTTAATTTCAGGGTTATTATTCAATTAGAAAAGACTGTGTTTTTAATATCACTTTTGAGCTTTTCTCTTCTTCAATAAGGAAATCTCTTAAAGCTTCAGTTTCCTCTAGTTTCATCTCACTATTCAAATCACAGTCCTCATAGTTTAACTTATGAGAATCTAATACATAAAATTTTCTCTTTAAATTGTTAAGAGAAAGTATATATTTTATGCCACATTGTTTTGTCTGATGATAAAGGTTCGTAGGTGATTTTTCCTGTAAATGTCAAAGTAATATCTCCTACAGTATCTGTAGAAAGCAATTTTTTAAAAAAAACCCCAATTGCGATAACTTTAATATTTTTTATTTGATCCACTATAATTTTTAAGGCATCCCCAATATGATTTATTTTTTGAGCTTCATCAATCACTATAAGATCATAACCTGATGCATAAGGAATAATCAAATTGAAGTTTCTTGAACTTAAAATGTTTTGTATTTCAATATTATCACCAGAATCTAATTTATATCTAAGTTTTGTAGAGCTAAGAAAATTTTCTACAAGAGTAGTTTTTCCAACTTGCCTAGGTCCATAAAGTATTAATGCTTTTTCATTTTCTAGCAAAGAGTCTATATTAGAATATATTCTGTTTATCATACCGTCATTATATTAACATTACCCTCTGTATTTTGATAAATACGGTGATTACTATCTACTGTATTTATCAAAATACAGAGGCTTTTATTGTAAAAGTATTTATAAGATTAATTTAGTTATTTTACTATAAAATCTATATAATTTTCCTTGTTAATTAAAGAAAATTCTGAATCAGGATAAGTATCCATCTAATATTGAGAAGAAGTTTTTATTATTTCATCAACCTATTTTATTTTATATACATTTAATTTATTTTTGAAATCTTTAAAATACAGCTGCAAAAAAGATATTTTGAGAGTTATAACTCAAACCTCCTCCCATATTTTGACCAAATGTTAGATTTGGACCAAACCAAGGATCTTGCATTGTTCCACTAGCACCTACTGCACCCGTCATTGTAACAAAATGTGTACCAAAAGAATTATCTGGAACATAAAAACCTATGACTACAGGAGAGGAAGGAGATGCATATGCATCAATTTGAGAAATTGAAGGATTCCAAATTACATCTTGTACTCCAGGAAGACTATAAAACTGAGCTCCATTATTCCAATATTGTAGAGCTGTTTGAGAAAGAGGTGTAAAATTACTATTTCCTATTAAATTTTCAGCCATTATTATAGCAATTAAAGAACAGCCTGCACTCGCATATGTATCACCAGAAGAATCTAGTACATAATTACCCCATTGAGAACATTCTTGAGAAAAATATGCACCTTGTTGACAAGGAACATTCAAAGGGATAGTACCTGGGACTCCTTCTGAAAGCTCTAATCTTGATAATTTTTGCAATATAGACTGTTGTTGTTGATAGAGAGAATTATTTGAACTCTGAATACTATTACTCTGGTTAATAAGATTTGCTTGTTCATTTTTTAAAGTATTTTGATCTGCTATCAAAGAATTTTGAGTAGACACTTCTTGTGTTAATAAGCTTTGTGCATTCTGTTGTTTTAGTGCAACAGACGCTTTATTTTTATTTAAAGCATTTACAGTGACATTTAATTTTTGAACTAGTGTATTTTCATGCGTCATTGTAGATTTAAAATAGACTACTGATACCATTGCATTAGTTATATTTGAATTTCCCATAAACAAAGTTACTGGAGGTATATATGTTTGTTCATATCCAGATCTAGCATTAGAATCTATTTGCACTTTTATAGCATCTATTTTGACTTGTTCTTGTGCTATTTGAATATTTAATTGATTAATTTGGGAATTTAGTGCAGCTACTTGAGCTCTTTCATTATTAACTAAAACTTCTTTCTGAAAAATTAATTGTTGATAAGCATTAATTTGAGGTTGAAGGTTCGAACTTTCTGTATTAAATGTATTTATTTTCTGTTGATTTTGATTTATCAAATTCTGAATATCATTATATTGTTGTTGTAATGAACTTATAGATGAAGTTGCGTTAACTACACCCGGCTTATAAAGCATGAAAGGATATACAGCTATAAGAAACGAAAGTACAGAAAATATTGAGATCCTTATCTTTTTATTAGAAAATATCTTTTTCATTGTATTTTCTAATATACCAAAAAAATAGATCTATATCAATTTATTTTTTTAAATATCTTGAGATAGCAATTAATGATGACAATCCTCCTATAATTATACCTAAGAGTACTTCACCCAATATTATCTCTATCATTAATAGAGGAGTGTATTGATTAAGAGGAATTCCTTGGAAGAAACTTAGTATCGGAAGTAGAATACTTGTCTTATAATAAGTACTTATTGTAAAAAATATAAGATATAAAATTGTTGAAGAGAAAAATACTCCTAATATACCATAGAAAGCACCTTCTAATATAAAAGGTCCTGATACATATGAATTAGTAGCTCCTACTAATTTCATTATTTCTATCTCTTCTGAGTGTGAATTTATAGTTATAGCAATTGTTATTATAATAATAACAAAAGATATTATACCTAAAAAGATTATAAGACCTAAACCTATTTCTGTTATTATTGATACAGCTTTTTTCAAAAATTGAACAACACTTTTTATATATAAAATATTGTTAATCTGACCGTGACTTTTAGATTTCAGTTTATATAGCATAGCAGCTATATCTGATAAATTAGTCAGATTAGAAGTACTAATTTCAAATGAAGGAGGAAGTGCATTTACATCAACTGCATTTGCTAATTGAGGATTTTGAGTTTTCAAAACACTTTCAAAATTGTTATAAGCTTGTTTTTTTGATACAAAGACTATTTTAGATGCTTTATTTGAGTTTAATATATCAGTTTTAATAGAAGAGATATATGAAGATGATGCATTTGGATCAAAAAATACAATCACTTGAGATTTAGATTCATAATAATGTAATATTACATTTATTGAATATACTGTTAGAGAAAACATAGATATAACAAAAAAAGTTAGAGTCATTATTGCTATAGATGCAAAAGAAAGCCACCCATTTCTAATTATGTGTTGAATAGTATATTTAAAAATTCTTTCTATTTTTAAAATCATTCGTTATATCCTCCTTTAGAATCTCTAATGATTTTTCCGTCTTCTAGAGCAATAACTCTTTTTTGCATTGAATTAACAACATCTGAAGCATGAGTAGCCATAAGTATAGTAGTACCCCAACCATTAATCTTAGAAAGAAGTTGTATAATATCCCAGCTTACAGATGGATCCAAATTTCCAGTTGGCTCATCTGCTATTAATATATGAGGATTATTTACCAATGCTCTTGCTATTGCAACTCTTTGTTTTTCACCTCCTGAAAGTTGATGAGGAAACAATTTTGCTTTAGATGCTAGGCCTACCATATCTAGTATATAGTCAACACTTTTTTTTATCTCTCTATTATTATGATCAGATAGTTCTAGCGCAAAAGCAACGTTTTCAAATGTTGTTTTTTTAGGAAGAAGTTTAAAATCTTGAAAAACCACCCCTATTTCTCTTCTTAAAAAAGGAAGCATCCTTTTGTTCATATTTTCAATACTATATCCAGCAAAATGAATAGTACCTTCTGAAAGATTTTCTTCTTTGATTATAAGTCTCATAATAGTACTCTTTCCTGCCCCTGAATGTCCTACTAAAAATACAAATTCTCCTTCATCTATATCAAAATTAATATTAGATAAAACATCCTTTCCATTATATTTTTTATAAACGTTTTTGAAAGTTAACATACATATTAAAGAGTATTACAAATACAAAGTTTTTTCAATCTAATTTAATCTCTGCATATATAAATTGATCCAATTCTCCATTTAGAACAGATTCAGTATCAGTTGTTTCAACATTTGTCCTTAAATCTTTTACCAGTTTATATGGATGTAGCACATAATTTCTTATTTGATTTCCCCACATAGGAATTTTATGTTCACCTTTAAGATTTGATAATTCCAAAGACATCTTTTCCTCTTCTAATTTATATAACTGTGCTCTTATCCTCCTTAGAGCAGATTCTCTATTTTGTACTTGAGATCTCTCAGCCCCTACAGTGACTGTAATACCTGTAGGTACATGTTTTAACGTTACTTTAGTAGATACTTTATTTACATTTTGTCCTCCAGGTCCACCTCCTCTAGTTGCTGAAAATTCTATATCTTCATCTCTTATTTCTATTTCATTATTATCTTTAATAAGAGGTGTAACCTCAACTAAAGCAAAAGAAGTTTGTCTTAAAGATTGAGCATTGAAAGGAGATATTCTAACCAATCTATGAGTACCACTTTCTCTTTTTAAATATCCGAAAATATAATCGCCTTCAATCTCTATACTTACACTACTCAATCCTGCTTCCGTACCTTGTACCATGTCAGTAACTTCATATTTCCATCCTTTTGTCTGAAAATATCTGGTATACATCCTATATAGCATATCTGTCCAATCCATAGCTTCTGTACCACCTTGTCCTGCATGTATTGAAAGAATTGCTCCATTTCTATCAAATTTTGAAGAGAGATATGTCTTTAATTCTATTTTTTCAAATTCAGATTCTATTTTTTCAAAATCTTTATCTACTTCATCTTTTAAATTTTCAAAATCTTCACTACCTAAAGATACTAATTCTCTAAGATATGAAACTCTTTCTTCTAGATCATCCAACAGCTCCACTTCTGTTTTTCTATCATTTAGTTCTCTCATTATATCCGTAGCATTATTTGAATCATCCCAGAAACCTTCTTTGACAGTTTCTAATTCCAATCTATCTATATCCATTCTTAATTCTGGATATTTTAGATTTACTTTTAAATCAATAAGCCTTCTTTCTAAAACAGAAATTTTATCTTTAATGATTTCCATAGAATTATATTTTAAGAATACTTTTTACTTCTTCTATAATTTGTTTAGTGGTATGAAAAGATTTTATTATATATCCAGATGCTTCTCTAGCAAAACCTTCTTTAATAGTAGTATCATCAGAAAGATTAGTAAGTAATATGACTGGAATATTCATAACAGAAGGAGATGATTTTAATTCTTTTAATACATCCAATCCATTCATTTGAGGCAACATTATATCTAGAAGAATAAAATCGGGTTTTTCATTTTTTGCCATAATCAAACCTTCTTCTCCTGTATATGCATTTATGACAGAAAAATTGTTTTGTTCAAAAGACCTTGCATATATAAAAGCGATATTCACTTCATCTTCTATTAAAAGTACTTTCAGTTTTTTATTATCTTTCTGCATATTAAAAATTATATTCGCATATACTCTAAAAGTAAATAGAAAAATATGTTATAATTTAGTATATGAATAATAACTCTAACTCTCCTACATTAAACCCAATATCTACACTTCTATTTTTCATAGTATTTATATTTGGAATACTACTATCAACACCTGTAATTCTCACTAATATATATGTAGGTTTAGTTTTAATTCTAATAATTTTAATAATAGCTAGGATAATTTCACTTGCTGTTAGAACTGCAAGTGAATGGGAAAGAGTTGTAATTTTAAAATTAGGAAAATTTAATAGAATTAAAGGACCTGGTTTATTCTTTATAATTCCAATAATAGAAAATATTGCTTATTGGATAGATTTAAGAACTGTATCAATACCTATAAGAGCTGAGCAAACTTTAACAAAAGATAATGTACCTGTTTCAGTTGAAGCAATATTATTTTGGAAAGTTATAGATCCTAAGAAAGCAGCATTAGAGGTTGCTAATTATAAAAATTCAGCTGAACTAGCAGCACAAACAGCACTAAGAGATATAATAGGAAGATCAGAATTATCTACAATACTTTCTGATAGAGAATCTATTGATGTAGAACTTCAAAAGACAATAACCGGAAGAGTTTCTCCTTGGGGTATAAATATTATCTCTGTTGAAATTAGAGATGTTATAATTCCTGAAAATCTTCAAAATGCTATGAGTCAAAAAGCTCAAGCAGAGAGAGAAAGAGATGCAAGAGTTATTTTAGGAGATTCAGAAAGAATTATAGCTCAAAGTTTCATGGAAGCTGCTGAAAAATATAAAGATGATCCTATCGCACTACATCTAAGAGCTATGAATATGCTTTTTGAAGGATTAAAAGAAAAAGGTGCTTTAATAATAGTACCCTCTTCTGCTGTAGATACAATGAATCTTGGAGGAATTGTAGGATTAGCAGATTATCAGAAACAACATCCAAAAAAATGAGGTTAGTGATTCTTGGACCAACGGGGGCAGGAAAAACAGAGGTCAGTTATGATATAGCAACTTTATTCTCAGGAGAAATTATTAGTGCAGATTCTTCGCAAGTATATAAATACTTAAATATAGGAACAAATAAAGAAATTTTTCCAGATATAAAGACTCACCTTGTTGATATTATTAATCCTAATGAAATATATAATACACATAGATTTATCAAGGATTCAACAAAAATAATAACATCCGCAGAAAAAGAACAAAAAAATATAATTCTCACTGGAGGAACAAATTTTTATATTAAATCCTTAATATATTCTATGAATTTTGGAAAAATAGATAAAAAGAAAGAATCAGAATACAGTACTCTAAATAAAGATGAGTTACAAAAAATTCTTAAAGATAAAGATAAAGAGTTTTACCTTTCTTTGAATAATAGTGACAAAAATAACAGAAGAAGACTTCTGCGTTATATATCATTAGATACTTTAAACAAAGATAGAAAAGAAATATTTGATAACAGATATACTCTTTTAGAAATAAAAACCAATACTTATGATCTAATAAAAAAAATTGAAGATAGGACTCATAAAATGATAGATTTAGGTATTTTAGACGAAATTGAATATGTATTTAGCCTAGGATATTCAATAAATGATCCTGGATTACAAATAATAGGATACAGAGAATGCATAGATTATATTCAAGGAAAAATTAAGAATAAAAAAGAATTAGAAGAAGAAATTAATCATTCAACTAGAAAACTTATAAAAAAACAATATACTTTTTTGTATAAAATAAAAAACAAGGTTTCTTTGAATAAAGAAGATATTATTCCTTTTATACAAAAGAAAAATCTCACTTCTAAGTGAGACTTTTCTTTTATGATTAAAATCAAGCTTATTTAACAGCTGCTTTTAATGCTTTACCAGCTCTAAATGCAGGAGTTTTTGTTGCAGGAATATTAATTTTTGCTCCAGTTTGAGGGTTTCTACCTTCTCTTTGAGATCTTACTCTTACTTCAAATTTACCGAATCCTGTAATTAATACATCATCTCCTTTTTTCAAAGATGCAGTAACTACTTCTACAAAAGAATCTACAGCATCATTTGCTGCTTTCTTTGTAAGACCAGTCATTGAAGCTATTTGGTTTACTAAATCTACTTTTAACATATTGATCACCTCCTTATTGAATCTATATGTTTTAAAATACAAATATTTCCTATGTCGACTATAGAAAAAGACTGTATCTAAAACATTAATTTAGAGTATATAGCTTTAGTACTGTAAATGCAATATATTTACATATCAACACCTTAAAAATACTGTTAATAAAGGAAAAATAAGGTCATTCTTCTTTATATATTTTTTCTAATTCTTCATTACTTAATAATTTGTATGGCTTTTTAAGGTGATCTAGAAACATTAAACCATTCATATGATCTATTTCATGCAGGATTAAATGAGAATAGAAACCCTCATATTGATAAGATCTTCTTTTGTTAAACTCATTGACATATTCTACTACAATCTTTTTAGGTCTTTTAACTTTACCAAATAAATTTCCATCCTCAAGACTCATACAACCTTCCCAATCAAAAGATATTTTTGTATCCTCAAATATTATTTTAGGATTAACCATAACTTCCCATTGATCATCAACATAAATAACACTCATTCTAAGCAAAACTCCTATCTGTACAGCTGCAAGTCCTACACAATTATCAACTGATTCTCCATATTCAATCATTTCTTTTGCCATTAAACGTAATTTTTTATCAAAAACTTTTACTGGAGCAGATTTTTTTGATAGTATTAAATTTCCTTCTTTTATTATATTTATTGACATATATTAAGTTTCCCAACTAAAATCAAATACTCCTTGTTTCAAATTATCAATATTTTTACAAGATTTTTTGTGAATTTTAATAACCCCCTCTAAACTTACCTTACCTATAATTTCATCTTTTAGAGTAGGATTACAACATTTAGCTATTTTTACTGCAATGTTATCAAAATTAAAATTATTTTCAAGTATATTGTCTGTATCTATTTTTAATACTTCCTTTTTTTTATGTATACTCTCAGCTGAAATCTTATTATCTTCCGAAAGTTTATTTTCTTTTATGAATTTACGTATTACTCTTTTTGTTGATATTTGAGAAGCTATATTTTCCCAATCTTTCTTTGGAATATTAATACCTTTTTCTTTGAGTATATCTACAGTATCACCTGATGATAATTTATGATCTAAAGATACTAATTTTCCATTTACTTTTGCACCTCTCATTGAATTACCTATTTGAGTATGTATAGAATATGCAAAATCAACAGGATTGGCACCTTTTTCCAATTCTTTCACCATGCCTTTTGGAGTAAAAACAAAAATTTTATCTTCAAATAACTTAATTTCATTTATATTTTTATGTTTTGCAAATGAAACATCTTTTATCCAAAAAAAATTATTCTTCTTCCCTTTTAGTCCCAATTTATATGCTACATGAGATGCAGGTCCAAATTCATTATATTCATGCATATCATGTGTTTTTATTTGTATTTCTATTACTCTGTCCATATCGATCTCTACAGTAGTCTGTAGGGCTCTATAACCTGTTGATTTTGGCCTTGCGATATAGTCGTCAAATTCTGAAGACTTATATGGATACATAGTGTGAATAATACCTAAACTTTTATAACATTGTTCTATATTATTAACTAGAATAGTTAATGCCCATAGATCATTTAAAAGATATATACAATCTTCATCAAAATATCCTTTTATTTTTATGATTTTCTTATAAATACTGTAGATATTTTTCTGTCTACTAAATATTTTTGATTTTATATAGTTTAATGATAATTCTTTATGAATATCTGTTTCTATTTTTTTTATATATTCCAGATTAATTTTATTATATTTTTTTAAAGTATCCTCTATTATTGAATATTCTTTAAAATTTAATATTCTGAAAGAAATATCATCCATTGAAGATTTTAAAGAGTTAAGACCTATATATTCACACATAGGAGAATATATCTCTAAAACTTCTCTTGCATATTCAAATTTATATTCTTCTGTATAATTATAATTATCTATATTTCTCAAAAAATATAATTTTTCAGCAGACTTAATAATTATTACTCTCAAATTATTACAAGAAGTTAAGATATACTTTCTAAGAGCATCAAAATCTTGTTTATCAGCTTTATCTACTCTTCTAAGAATATTTTCTATATTTTCAAATCCTATAAATATATTCTGATATATTTCTCCAAATTCATTTTTTATAATATCCAAAGAAAGATTTGGATCTATCAGGGAAGCTATAATTGTTTCAGTATCAGAATAAAATTCTACCAAGATGAAAGCTCTTGATATATAGAAATTTAATTCTTCTGCTGTTTTATTCTTAGAAAGAAATCCATATGCTTTTCTAAGTAGAGATAAATCTATTTTTATTTTTTTCTCTCTTATAAAGTTTATTAAATTTGAAAAAGTGTTAGTTTCCATTATTAAAATACATGAGGTTTTAAATCTATTATTTTCATTTGTATCTCTCTTTTATTATTCCACAAATTTTCACTAAGATTAAAAACTATATCTATACAAGAAAATTTGATTATTTGATCTGTTGTAAAAGGTGAAGAAAACCATATAGCGGTAATAAATTTTTCTTTAGATCTATCTGTAACTTTCATTTTGACAAAACTATCTTTATTTCCTATATTAACTACATACATAACATAAACTCCATAAATTACAAAAACAGGTTGAGGATTACCTACTCCAAATGGTTTTAACAAATCTATTTTATGGAATAAAGATAGAGTTATATCTGAAAATTGTAATTCTAAATCTATTTTTATAATCTTTTCTTGAATTTTTCCTAAAAAAAGTTCTTTTGCTGTTTTTTTAAGATTATTTTTTAATTCTAATATATTTTCCTCTCTGACTTGCAAACCTGCAGCAGCTTCATGCCCTCCATATTTTAACAATAAATCTTTATTTCTATCTAATAGATCAACTATATTAAAACCCTCAATGCTTCTAGCTGAACCTATATATATACCATTCTCTGAAAGAGTCATAGCAATACTAGGCTTTCCACTTTCTTCAGTAAGCCTCCCTGCAATAAGACCAACAATTCCTTCGCTCCATTTATCAGAAAAAACAAAATTAAGAAAGCTTTCATTCTTCAATTTAGATCTAGCATCTAAAACCCCTTCTTTTGTTAATTTTTGTCTCTCTTTATTAAAATCATTTAATTTATGAGCCAAAGACAATGCTACTTCTCTGTTCTCTGTAGAAATTAATCTTAAAGAATATATGGGATCAAATAGTCTTCCAGGTGCATTAATTTGAGGTCCTAAAACAAATCCTATGTGATATACATCTATATTATCTAATTCTGATACTTCCATCAAAGATGCAATACCTACTCTTTTCTTTGAATTTATAACTTCTAAACCTTTTTTTACAAAAGCTCTATTCTCACCTCTCATCTTAGAAACATCACATATTGTTGCTAATGCTACTAAATCGAGATATTCTTCTGTATTATATTTTAATTTTTTATTTAAAGCGCATACAACTTTAAAAGCTACAGCTGCTCCACAAATTTCTGGATTACCATAACCTAATGCAGGATGAATATTTACAAAACTCTTAGGTAAATTGTCTGCTATTAAATGGTGATCTGTAACTATAAGATCTAACCCTATTTCTTTAGCTAATTTTGCATTTTCAATGTCTCTTATACCACAATCCACTGAAATCATCAGAGATACTCCGTCTTTTCTAAATTCTCTTATTTTATTTTCATTAAGACCATATCCTTCTGTATATCTAGAAGGGATAAATGGCATTACATTTGCATGTAAATTTTTATAAAGATAACTCCATAGTATAGAAGTAGCACACACTCCATCAACATCATAATCTCCATATATTACAATTTTCTCTTTACTCTCAACAGCTTTATTTATTCTTTTAACTGCTTTATCCATACCTTCAAAAGAAAAAGGATCAAAGAAATGATCAGGATTAAGAAAATATCCAACATCATTAGGTTCTATATTTCGATGAGAAAGAATTTTTACAAGAATATTATCCAAATTCAAAGCATCATACGAAGAGGTATTCTTATTTTTATAAATACTCCAATAAGCCATGTTAAAAGTTTTCTCTAATTTTTCCTTCTAACTCTTTGTATAATTCAGGATCTTCCTTCAAAAGTATTTTAAGTGCATCTTTTCCCTGAGATAGTTGTCTATCTCCCAATCTAAACCATGCACCAGATCTTTCTAAAATACCTAATGTTAGAGCTGTATCAATTAAAGCACTTTCTTTTGATATTCCATTTGGAAATATGATATCGAAACTAGCTTCTTTAAAAGGAGGTGCAACCTTATTTTTAACAACCTTAACCAAAACATTATGTCCAATAATATTATCTCCTTTCATAATTTTTTCTTTTCTCCTTATATCTATTCTTATTGAAGAATAGAATTTCAAAGCATTTCCACCTGTAGTAACTTCAGGGGAACCAAACATAACTCCAATTTTTGTTCTCAATTGATTAATAAAGATAACAGTACATTTCGATCTTGCAGCAATAGATGTTAATTTTCTCATGGCCTTAGACATTAATCTTGCTTGAAGCCCAATAGAGCTATCTCCCATTTCTCCTTCAATTTCAGCTTTTGGTGTTAAAGCAGCAACAGAATCTACTACTACTACATCAATAGAACCTGATCTTATAAGTGTTTCTACTATTTCTAATGCTTGTTCTCCATAATCAGGTTGAGATAAATATACATTATCTATATCAACGCCAATTCTTCTTGCATATTCAGGATCAAGGGCATGTTCTGCATCTATATATACAACTTTCCCGCCTTGTTTCTGAGCTTCAGCTATAATATGAAGAGCTAGAGTTGTTTTACCTGAACTTTCTGGACCAAAAATTTCAATAATTCTACCCCTAGGAATCCCTCCTACTCCCAAAGCATAATCTAGAGAAATTGCCCCTGTTGGATAAACATCCATCTTTTCAGTAGGACTATCACCTAATCTCATAACAGTACCCGTTCCGAATTGCTTTTCTATTTGAGAGAGAGCTATTTTTAAAGTTTCACCTTTATCAAAACCACCTTCTCTTACTTTTTCTTTTTCTTGTTTAGCCATAAAAATATCAACTAATATTATTTCTTATTATAACAGATCCAACAATAGTTTAATATAAATTAGGATAATTATATTTTATATGATTTACATTTGAATAAATTTTACTATCTATCTTTTTGAAAGATTCGCAAATCTAGCTTGCTCTTTGATAAATTTCACTTCTACATCTCCAATCGGACCATTTCTATGTTTTGCAACAATTACATCTGCTATACCTTTTTTGTCTACAGTATCAGGATCATAAATTTCTTCTCTATGCAAGAATACTACTACATCTGCATCTTGTTCTATAGCACCTGATTCTCTTAAATCTGAAAGTTGAGGTCTTCTAGAAGTTCTTGTCTCTACAGCACGAGAAAGCTGAGATGCTGCTATTACAGGAACTTTTAATTCCCTTGCTATATTTTTTAAGAATCTTGAAATTTCTGATACTTCTTGTACTCTATTCTCTCTGTTAGTACCAGCTATTAACTGCAGATAATCTACTATTATTAAATCTATTTTATTCTCAATATCAAGACGTCTTGCCTTAGTACTCATTTCCATGATAGTTTGACCTGGAGTGTCATCAATATATAAATTAGCCTCTGACAGTTTACCCATAACATCTGCTAAGTTTTCTAATTTTGATGAATCTAAATGTCCCATTCTATAATCCCATAAATTCATTCCCACTTGAGATGATATCAATCTATCTGTAAGTTCAGAATTAGACATTTCTAGAGAAAACATAGCCACATTTTTTTTATTTTTCAAAGAAGCATTTCTTGCTATATCAAGTAAAAAAGAAGTTTTTCCCACAGATGGTCTTGCTGCAACTATTATAAGATTTGATTCTTGAAAACCTCCTAATATATTATCTAAATCTTTAAATCCGCTAACAATTCCTCTTAGCTTATCTTTACTTTTCTCAATCTCTTCTGCTCTTTTATAACTTTCAGATAATAATTCTTTTAAATGAACAAAGTCACTTTTAATATTAGATGAAGACACATTAAATAATTTTTTTTCAGACTCATTAATAACTTCTGCAATTTTAATATTTTCGTTAAAACTAAGATCAACTATATCTCCACCTGTCTTGATTAACTCTCTTCTTATATATAAATCTTTTATTATATTTGCATAATATAATGCTGAAAGAGCCCCTGTATTATTTTCCACTAGATCTGCAAGATAAATCTCTCCACCTATTTTATCTAACATTTTTCTTTGAGAAAGATGAGTTTTTAAACTCATTATATCTACAGGAGAACCTTCTTGAAATAAACTTATTATAGAATTATAAATCTCTCTGTTAGAATTGAAATAGAAATACTCAGGTTTTAATATTTCTATTAAATCTAATAGAGCATCTCTACTCATCAGTATTGCATTTATACAGAGTTTTTCTGCATCATTATTCTGCGGTAAAACTTTATCCATTTGAAGGGTTGAATATTATTACTTTTTGTTCAAAATCTTCTGTATCAAAATCAGAACTATTAAGATCTAAAGATACAACTTCCTCTTTTATTCCTTCATACTCTTCTAAAAATTTATCAATTCTTTCTAGAGGTAATGAGTCTGTTTTATCAGTTTTATAGTGCATAGGAACTATAATATTAGGATTAATACTATTTACTATCTCTATTGCATCTTTATAATCTATTGTGTAATGACCTCCAACTGGTATAAACAAAACATCTACCACACCTAAGGCTTCTATTTGGGATTTGTTTAAAGTTGTTCCTAAATCACCTAAATGAACAAAATTGATTCCATTAAAATTAATAGAATATATTGTATTAAATCCTCTTTCTGTACCATTAAATTTATCATGAAATGTATTAAATCCTTGTATAATTACTTCTTTTACATCATATTCTCCTGGGTGAGAAATCTCAAAAGTATTGTCTTTCGCATATTCTCTATTACTATGATCTGGGTGTTCATGTGTTATTACTAATATATCAGGAGAGAAGGAAAATTTAGGAGGAATAAGGTCCCCTATTTGAGAATAAGGATCTATAAAAATTTTTGTATTTTTATCTTGTAAAATAAAAAAAGCTTGTGAATAATATTTTATTGTAACCTTATTTGTCATATTAACATAGAGTATATCAAATTTTCAGATGTTAAACAATTCATTGTACGAGTTACATATATTGCATTAATTAATTTCATTTAGGCTGTAATTAATAAAAAACTTTATATATTCATGAATTTAATTTCAATATTATTACTTTGAAAAAATCTAGATATTATAATATAGATTCTATATAAACTCGTTCTCTTCTAGTAATTCTATCAATGATCCCTTCAAATGGGAAATAATATCTCTATGTTTTAAAGAAAGAAATTTATTTAAATCATCTTTCAATTTTTTATCAGGAAACTCTAGTACTTTTCTTTTTATTTCGTCCAAAGTTACATCTTTTGCATATAAATTCATTTTCTTCTTTAATAATTTATTAAAAGGTTTTGAATCTATTGTTAATGTAATTTTTTTTTAGTTCATCTATATCTACTTCTGAAAGGTCCCATTCATCATAATTTAAATTATTTCCTCTCAATGAAGCAAAATATATACTATCAATAATAGCCTTTTCTTTAGATGCAATATTAAATTTCACATTTTCATTCCCAGTATAAAAAAGAGCTCTTTTTATTTTATTAAATTTGTATTCTATATTATTAACATTCAAATAAAAAACCATATTTTCTCTCTAAAGAGCCTATGTATTCAGGATTATATTCCTGTATGTTTTTTTTAATATCTTTTGTATTTGATTTTGCCATAAAATATATTTTTCTTGCTCTTTTAAAATCTCTCCTATCTAAATAGTATTCTATTAAAGGTATATAGTATTCTGTTTCAAAAGGTTCTATTTCAATCATTTTCTTACTCAAATTAAGAAGATCTTCTGTTTTTCCTTCAATATTAATAAAATTAGATAACAAAATATATATCGATAAAAAATCAGATTTTTTATATAAATTCTCTATGTATATAAAGAATCTATCATATCTTTTTATATCCAAAGCTATTTGAGCAAAAAATATTAATTCCTCTTTTGTCTCTGGCATGAGTAAATATTTATTTTTGAATGAATTATACATATAAATATATGACTCTAATTGAGTTGTTATTTCTTCATTGTCAATGTCACGGTTATCATAAATATCGTTATAACAAGAAATAATAGCATCATATATATTAATATCATTTCTAATAATTATATTCTCATTATTCAAAAGAGCTGTTTCATATAAAATTAATGCAATCGGCTTAGAGATATCTGCTATTAAATCTGCTGCGTAAGTTAAATATTCATAATTATGAGGTTCATTTTTTAAAGCCATAAATACTGGTAATAATCCAGCAATTGCTATTTCTAAAGCTTTCTCCGTATTACCCTTTTCTACAGATTTATGGATTTTATCAATATTTTCCTCAAAAAATCTATTAGATAATATTAATGGCATATATTTAAAGCTAACTTCTTTGTCAAAATAAGTATTTAAATGTTCATCCAAATTTGAAAGGTCCACTGTTTCATCTTTTACGACAGGCTCACTTTCTTTAAAAACAAATCCTTTCTCTAATAATTCTAGATATTTAAATACTGAGAAGTCTAAAACCATACCATTTTTCCCCTCTGAAAAATTTAATCCATCAAGAAAAATAGTTAATTCTCTCGCTCTATCAAGATAACTATGAGGTTCATCCTCCTCAACCTCATATTTTCTTGATTTCAGATCTTCAATAATATTATAGAGATTATCATTTCCAATTCTTTCTGATCTTTCCATATGATATAAAAATATAATATTCGAGATTTTACCACAACCTATAGTTATAGTAAATATGTTGACTTTAAAATATTTTATTTACAAGCAATTTACAGTTAACAAAAATTTCTGTATAATACATAAGTTATGAAAAAAAATATACATCCAGAGTATGTAGATGCAGAAGTTATATGTCTTTGTGGAAATAAAACTACTGTAAAATCTTCTTCATCAAATACTATAAAAGTTGAGCTGTGTTACAATTGTCATCCTTTTTATACAGGAGAACAGAAAATAGTAGATACAGCAAATAGAGTTAAAAAGTTTAATGAACAATCAAAAGTTGCTCAAAAAATGCAGACTCATATTCAAGCAAAGAAAGAAAAGATTAATAGTAAAAATAAAAAAGATAATCTTATCAAAGAAAAACCTATCCTAACACTTAGGGATATGATGGATGCTTTGAAAAAATAAATTATGCAAGAAGATAAATATAGGGAGTATAAATCTCAACTTATTTCTTTTAATCAGAAAATCAAAGATAATCCCCTCTACATTGAAGAGATAAAAGATCAATACAATGAAGCATTAATGTATATTGATGATTATGAAGAATATTTAAACATTCAAAATCAAATTGAAGAAAATAAAAAAATTACAGATAAAGATCTTCTTATAATAGTAGAAGAAGATAATAAAATCCTTAAAGAAAAAATAGATTCCATTGAAAATAAATATAAAAATTTTGATAAAGATGATTTTAAAAATGTGATAATGGAGATTAGATCTGGAACTGGAGGGAATGAAGCATCTTTATTTACAGAAGAAATGTATGAAGTTTATAAAAAATATATATCTAATAAAGGTTGGAGGTTAGAAATATTAGATTCCTCTGTTAATGAAAGTGGAGGATTGAAACAAATAATATTATCTATTAAAGGTGATATGGTTTATGGTAACCTTAAAACAGAGAGTGGTGTACATAGAGTACAAAGAGTACCTAAAACAGAGAGTTCTGGAAGAATACACACTTCGACTATAAGTGTTGTTGTTCTTCCTAATATTAATAAGAAAGATTTTGAAATAAAAGAATCAGATCTAAGATTTGATTATTTTAGAGCTTCAGGTCCAGGAGGACAGAGTGTAAATAAAACTGAATCAGCAGTAAGGGTAACATATCTCCCAACAGGAATGATTGTAACTTCACAAAATACAAAATCTCAAATACAAAATAAAGAGAATGCACTTCAAATATTAAGATCCAGATTATATGAAATTCAAAAAGAAGAAGATTTAAAAAAGAATTCTGATCTAAGAAAATCTCAAATAGCAGGAGCAAAGAGGTCAGAAAAAATTAGAACTTATAATTTTATGCAAGATAGAATTACTGACCACAGGATTAGTAAGAATAGGAATTTTCATATAAATGACATTTTCGAAAAAAATCAATTACAAGAATTAATAGATATTATAAAGAATGAAAATTCGTGATATCCTCAAGTACAATGACTCAGATCTAAATGAAATATTAAAATTTATTCTAAATTTAGATTTATTAAAAAACTTAGATTATGCACTTTCTATAAAAGAAGAAAGGAAATATAAATTATTAAAAAAAAGATTAGATAAAAAAGAACCTGTTGAGTATATTACAAAAAAAGTATATTTCCATAAATATGAATTCTTTGTAAATAAGAATGTTTTAATTCCAAGACAAGATACTCAAAGTATATTACCTTATCTTTTAAAATATAATAGTGTTTTAGATATAGGAACAGGATCAGGGGCAGTTGGTATATCTACAAAAAAAGAGAATCCTAATATTTCTGTAACTCTATCAGATATATCTGAGAGAGCTTTATATGTTGCAAAGAAAAATGCTAAAGGATTAGATATAAAAATAGTCAAATCTGACTTAACAAAAAATATAAATATTAAGAATTTTGAATGTATTTTTGCTAACCTACCTTATATTAAAGATATTGATAAGTTACCTGATTCTGTAAAATTATATGAACCCTTTATAGCTTTATATGGAGGATCTAATGGTATTGTTTTAATAAAAAAACTTATAAAAGAACTAAAGGATAAAAAATGGATAGGAGATCTTTATTTAGAACTAGACCCATTTCAAATAAAATATATTTCATGTAATAAAGAGATTATTAAAGATCAATATAAAATAGATAGATTTATAAAAATAAAATTTTAATTATATTTTTCTGCTGCTTGTAACTGATTATCTATACCTTTTAGAAAATCTTTAGAAGAAAATACTACTTTCACATTAGGAATTATAGGATGTTTAGGAGTAATCCATCTTCCAGAAGGTAATAACCAATGTTTAGTAGTTAATATAAGTAATGATCCATTTGAAAAAGTAGTGACATTCTGAGCTGTTCCTTTTCCATATGTATTTTGCCCTATAATTGTTGCTCTATGATAATATTGTAGAGCTCCTGAAAAAATTTCTGCAGCAGAAGCTGTTCCTCCATTTACTAATATAATGATTGGTATTTTTTGAAAATTCCCTTGATAAGAGGTTGTAAAATTTGTAATATTACCATTTCTATCCTCTTGTTTTGCAACTACAGTATTTTGGGGTAAAAAATCTCCAGCAGCATAAATAGCAGCATCAAAATATCCTCCTGGATTACCTCTTAGATCAATTATAAGCTTAGTAGGATTCAGAGCTGCAACTTTTTGCATTGCATTATTAAAACTATTTTCCCAATCAGTTAAAGATGTATCAGAAAATCTTGTAATTTGTAAATCTACAACACCATTACTTAATTTAGTAATATTTTCACTAGCTATATGAATATTCTTTCTTTGTATTTTTAAAGATTCAATCTTATTCTGTATATTTTTTATTTTTAAATTAACATAAGTTCCAACAACACCTCTAACCTCATTAACAATCTTATCTATATTAGTTGTTGTATTTCCATTAACTGATAAAATTATGTCCCCTACTGATAGTCCTGCTGATTTTGCTGGAGTATTTGGCAATACTTGTTCAACCTCTACTTTCCCTTGAGAATTATAACCTAAAGATACTCCAATACCTGCAAATGTATTTCCTGAAATTGCAGAATAATAAGATTTAGCTTCTTTAGGTGTAAAAAAAAGTGTATGAATATCTCCTAAAGAATTCACCATTCCTGAAATTGCAGAATAATATAAATTATTATTATTTGTATTTTTGTAATAATATTGTGATTTTATTAAAGAAAAAACTTCATTAAATAAATTAGAATTTACGTAACTAGAACTCAGAGCATTACTACTATTATTCCCAGAAGAACCATATTGAGACCCTATAAAATACCCTAAAGCTATACATACAGCTATAAGAATAAATAAATTTAAATATTTATTAAAGATGATATTTTTCATTAAGTTTCTATTATACCAACAATTTCATCTGGATGCACACTCACAGTTTCTCGAGAATCTAAAATAATATTTACCTTAAAATTTTTAGAATCAAAAGAATTCACAATACCCGTTGCACCCCAATAAGGATAATTGAAAATCTGTACTTTATCATCTTTTTCAACTTCTTTTATATAGAAATCATTCTCAAAATCTTTTTTTTCATCAACAAAAATTATTAAAGATTGATTATATTGATCTATCAGGGAAGGTTTATTATTATATTTTACTAAAGAATAAAAATATGTATTTAGTATCAATCCGAATCCATCAATAATACCTACTGTTATTGGGATAGAATTTATTAAATCTTCTATATTTTCGTTATTTTTTAATTCAATTCCATTCCCTATAATACCACTAACTCCTATAACTAGAGATTTTTTAATAATTTCTGATGTAATTAAATTTCCAACATATATTATATTTCCTATACAAGAAGAATTTATATCTTCTAGTTTCAAAAAGCCTTTATCATCACACAAATATTTTAAATTAGCATTTATATTTTCTCCAAATATATATTTCAAATCTATTTTTAAAACATTTGTATCTATAACTATCTTAGTTTTATCATGAGATATATAAGAAACTTTACCTTTTATATTAGATTTATTAACTACATCTTCAGGAAAAGATCTTACTAATATTACACCAGTATCTACAGAAGATAGATCTATTATTCCATCTACAGGAGAATATAAATATTTTGATCTTTTCTTCATAACTATATCTCCTTTAGAAACAACCTCTCCTTGGGATACAATGATATATTTTTTGAAATTTGAAGCAAAATCAGATATATTAATTCTATAAAGCATCTTACTTACATTTCCTTTAGAAATAATGCTATCTTTTTCAACAAAATCATCTACAGATACCATTAAACGAGTATCTGCGTCTATGAAACGACTATATTTGTAATCTTCTAAATAATTAATTTTTCTTATAAAGTTTATATCCATATATTAAAAAATCAAATTTTGAGAATTCTCTATCCATTCAGCAACACTAAAAGGAGTTATACTAGACCTATCTCTTGTATCTATCATAATATTACTTTTTGATATCATTTCAATCATATCTTTCTTCTCTCCTATAAAAGACCTCTCCGGAAGATTAATTGTTATATGAGCTTTATCTTTAACAGGAATTGTAATTATATTATTTCTATTAACTTTTATATTTTTAATACTTTCATCATCAACAATTTTTACATCAATATCAAGATTCATAGGAGCATTAGTACTGAATCCTACATTAAAGACATCTGATACATGTTTTATATTAGAAAATATATATTCATCAGGTAAATGATTTAAAAGAGACATTACATTATTATTATCAATATATACACTTATTATTCCTTCTAAATGTAACCCATATAATAGAGAGAATACAGCATAATTAGAATTAGATAGAAATTGATATAGGTCTCCCGTAAGTATAAATATAGGAATACTATCTACCCTATCATAATTAAAATTAGACAATAAATTTTTATTTAATAAAGATAGTATTGGCAATGTCATTTCTTCTTTAAAATTAAGAGAGAATCTTGATATAAAGTTATATAAGTTATATTTTCTTATTTTGCCATTAAGAATAGAAAGATCTGAAAAATCTTTAATTTTAAATAATTGATCATAAAGATAATCAAAACTTGTTATCTGAGAAGAAAAATTACTATTACCTGATATAAATATACTATCTCTGGATATATTCAATATAAAAGTAGGTATATTATCAAATTTTTTTGAAAATTCAGAAGATATATTATTAAAATAATCTTGATTTAAAACGAAAATAGTACTTGTAATTTCTAAAAAATCTTTTCTAAAAAAATCTAAAGATGTATATAAATCTATTTCTATAGAATTAATATCTGTAAATTCATTATATTTATGAATAAAAAAAGATACTATTTTATTCAGATACGAAACTCTATTGAATAAAGGGTTAAAAAATTCTTGTAAAATTGGAATCTTTTTTTCTAAAAGTATATCTTGATCAAAAAAAAGAAATCCTTTTATATAAAAATTATCAATTAATAATATAAATTTATATTTATTGGCAGTATCTAAGTTTTCCATTTTTTAGGGCAGAGAAAGTATATATTCTAGTCATTAACAGAAAACGGAAGTAATGACATAATTCTAGCTATTTTTATTGATTTCGTCACCTTTCGTTGATGTTTACTACAATTTCCACTTCTAAATCTGGATAATATTTTACCTTTTTTAGATATAAATTTTTTTAATCTATATACATCTAAATAAGAAACATCATCTACTCCATTAACACATAAAGAACATATCAATCCCTTTCTATTAGTCTTCTTTTTATTCTTCTTTTTTACTACTTGTGCCATAATTCTTTATTTTTTAAAAAGGTAAATCGTCAATAGAATCTATTTCATCAATAACATCTTCATTTTTATCAACTTTAGTTTTTTTATTTTTATTCAAGTCCTTATCTTCATCCAAAGAAGGTATATCTGATTCTGATTTTGCAAGAGGTGATAGTATAACCATATTATCTGCCCTTATTTCTGTTTTATTATAATTAACTCCTTCTTTTTCCCACTTTCTATTTCTAATCTCCCCTTCTATATAAACTTTCATTCCTGTTTTTAAAAGCTGAGAACATATTTCTGCAAGTTTATTCCAAGCAACAATATTATGAAATTCTGCAATTTCTTGACTATTTCCTTCTGAATCTTTCCAACTACTATTAGTAGCAATTGAAAAACTACAGACTGCATTTCCTTTAGGAGTATATCTTAGTTCAGGATCTCTAGTTAGATTTCCGATTAAAAGAGCTTTATTTAATGATCTAGATGACATAATATATAAAATTAACTAAATTAAACATTTTTTTGTATTTTTACTGTACTAAATTTTTTAACAGAAAATATTCCAAATCTTATTATTTCAGATACTACTCTTGCTGATTTTATTAATTTATCAACATTATCTGCCACAAAATTCTCACCAGCTTCAAGATTATATAAAATATAATAACCTTCTTTATGTTTTTTTATAACATAAGATAGATATCTTTTTCCCCAAACATCTTGGTTAACAACTTTTAGATCTAAATCTTTCATTAGCCCTTCAATTTTATCTAACACAGCAACACGAACATTCTCTGGTAAAGAAGGTTTAAGTGTCAACATAAATTCGTATTTTTTACTCTTCATATAGTTACAATATTACAACAAGAATATAACATAATGATGAACATTTATCAATATATTAATAAATAATGGATTTTAGCACATCTTTATATTTAGAAGAAATATGAAGAGTTTCTATATTTATTTTCTTTAAAACCAAATCATTAGAAATTTCCATTAGCATATCTTCTCTAACATTCGCTTTCTTTAAAATATTAACTACCTGATCCCTTAGAGTGATATATTTTTTAATATTCCTGAATCTATATAAAATAGACGTGAAATAAACTGAAAGAATACTAAGAGGTATAAAAAAAAGTGAAAAAAAATAAAAATTTCCCACAGTTATATTACTATAAGAAAAATACATTAAAGGTATTGCTATTAAAAAAATAAGAACACCTATAATAAAGTCTACTTTATAGTTATTCTCTCTCATAATATCTTTTCCAAATTACTTTATACAAAGGTATGTAATAAGGTATTTTATTAATTATAGGTATAAATGGAGCAAAAATAAGAAGAGTCATAACCAAACCAAATGTAGCAAAAGCCATCAAATCACCTGAAGCTGTAGTTGAATATGGAGGAATCTGGTATAAAAATGTATATATGCCTAACCACCAAGGACCAGGATAATTCCCTTCTTCTTTTAATATACCCCACTGATTTCCTAGCATAGAATATTTATTTGCTACATTACGAAGAGGTGTTCCTTGTAAAAACAATAAAGAATTTTGATAATTGTATGTGTAAGTACTATTATTTCCAGGTAAATTATTATTTAAAACATTTTCTAAAATACCACTTTTCCCCATTCTAAGAAGATAAGTAATCATTTGAGGTATAGGACCATACACTCCTTTCTTAACAACAATTTTACCTCTTCTATATTTAGCATTATTTAATGCATTATAATAATTGTTTTCCATTTTTGTTAATAAAGATGAGTTATTCTTCTTTAAATAAAAATACTGATTCATAATTTTAGACAAAGAAGGATCTACTTTGGATTCTATTTTCAGAGGATTTTCAACAAATGTTTTGATAGAATTTACAGGGACATCTACCCCCTCTATTCCCTCAGGAGAAATAAAACCAATACTTTGTACTTGTCCTTGAGAACTATTATTATAAGGAGGTCCATATGTTGCTATTGCACTTAAACCCAGTATATTTCTCATTTCAACTTGAGCAAATTCTACTGGATTCTGATTTGCAAATTGCTTTATTGAATAAGGTTTCATTTGAGGAGATTTAAAAAATATAGCAAACAAAATTATAACTATAATTACGCCCAAAAAAGCATAAATAAATTCCTTTACTAAATCAGATTCTTTTTGTTTGTATTTAGATTCATCCATTTGTTTTTTCTATTTCAATAGGAGGAACAACTCCCTTTTTTCTAACTATATAAAGATGTAGTGATAATATTAAAATTATAACAATAGGCAATATTATTGTATGAAAACCATATAATTGAGAATTATCTAATATATTAATAAATCTAGACAGTCCTATTGCATTCATGGCATCTTTTGCTTGAACTTGATTCCATTGAGCAAAAAATCCACCTCCGATTAAAAATCCAAAGAAAGCTTCAAACATAGATATAGCAAATAATAATGAGCCTAGAATCCAAGTAATTATTCTACCTTCTCTCCATCCTGCCATGAAGAATACAGACAATATATGTATAAATAAGAAAAAAAAGAAAAACTGAGCCCCCCAAAAATGTACTGACCTAAAGAACAAACCTAACGATGAATATTGATACCACAAAGGACCTTCTATAACCATAACTATTCCTGAAAGAATAATTATAGCCAAACTTGCCATTGTAAGAACCCCAAACATATATAAAAAAGAAGATACATATACAGGCAATGTATCTGGAAGCAATATATCTGGATCTAAATCTTTTTTTATTATATTTTTTAATATTTTAGTTATGTTCATCTTTTTTATTTCTTTTTTTACTTGAAAAATTTGGATAAGGAAAAAATAAAGCTACACAAAAAACAAGAGGTATTAGCAAATATATAAGAATATCTATATAAAAAGAATTTGTCATCATATATCTAAGGTTTAACATATTTTAAAAAAAATGTTAATATCTATAATTATAATGTTTACAAATATGGAAAATATAAATATTTATTTATTTAGAATTATTAATAATTTAGCAACAAATCAATATATAAATTTATTCTTCTCTTTATCAGCTCAATATTTAATATTTTTATATCTATTATTTATTATATTTATTTGGTTCTATAAAAAACAAATAAACAAGAAATTAGACAATAAAAGAATTTTTATCCTGTCTGTACTTTCATCTATACTATCTCTTATAATAAATAAAGTTTTAGGATATATATATTATGAAAAAAGACCTTTTGTATCACTAAAGCATGTTAATCTTTTATTTAAATATACACCTAACAATTCTTTTCCATCTGACCATATGGCTGTAGTTTCATCCATTGCAGTAATGATATATATATATAATAAAAAATTAGGAATATTCTTACTTGTAATATCTTTACTCATAGGTTTTTCTAGAGTCTTTTCTGGGGTACATTTTCCTATAGATATAATTGTAGGATTTTTATCTGCATTAATATCCGCATTAATTGTATATGGATATAGAGAAAAATTAAACTTCTTAACAGAATTTCTTATGAAAATTAGTATAAAATTACATTTATAAGATCTTTTAGTCATGCGTAAGCCGAATTCTGTTTTATGTGTCCATCTATCTTGAATAAATATTTCTATTTATTTCTTTGCGTTTTTAACTTGCTGGAGGTGGAGGTTACAATGCCATAGTAAATCACTTTCTATGCGGTAGTCTCTTACACTACCTTTTCACCCTTACTCTAAAAAAGAGCGGTATACTTTCTGTTGCCCTAATCTAAAGATTACTCCTTACTATCAGTTAAATAGCACCCACTTCATTAAAATAATGCCAGTTCGGACTTTCCTCACATCTATATAAATATAGAAAGCGTAGACACATACATAACTAAAAGATCATTCTTATTATAACAAAATTCTGTTTATATGAAAGAATGCTCTTAATGAGTAATCAAATGGGAAATTAGATACATATATAGATACTATAATAATAAATATTATAGCAATTAAAATATAAGAAAAACTCCAAATTAAAGATTTTTTTACATATAAATAATCTTTTTCTTCATTACTACTTTTGCCTTTACTTTGAGATTTTAGAACTTCTATCTCTTGTCGAAGATTTCTTTTTTTAGCCATAATATTGTTAAGTTAAAACAAATATATTATACTAAAAAATATCAGTTTATTACAAGAAATATTTATTAAATAGATATGCAAGAAGTTAATTTTGATTCTAAAGAACTTATAGAATCAGAGATAAATAACAAAAAGAAATTTAAAAAATTAAGAAATTGGTATTCATCTCTGTCTCAAAACCAAAAATATACATTATGGTTTAGTTCTATAATTATATTAATAATACTTATAGGAATTATTTCATTCTTAGTGATAATACTAAGGCCTAATTCTGCTATTAATGCTAGTAATACAAGTATTAAAACCACACCCCTTTATACTAAAGTAAAACTTCCTCCACAAAAAAAATATACTGATCCTTTAGATGGAGTACAATTAAATAGTCAAACAAATTTAAATAGGCCCGCTTTAGCTGTTATGATAGAAAATTCTATTACAGCAAGACCTCAAAGTGGACTTAATAGTGCAGATTTAGTATATGAAGCTCAAGTTGAGGGTTCTATTACAAGATTTATGGCAGTATTTTTAGCTAATACACCAAGTATGATAGGTCCAATAAGAAGTGCAAGGTTATATTATATTTCTTGGGCACAAGGATTAGGTGCTTTATATACTCATTGGGGTGGAAATATATATGCATTAGAGAAGTTAAAAACTGATAATATTCCAAATATTGATGCAATATTCACTCCAGGATCTGACCAGACATGCTCTAATTCTGTATCTATAGTATTTTGTAGACTAGATACTCGTTATGCTCCTCATAATGGATATGGAAATACTCAAAATATTTGGAATTTGGGTCAACAACAAGGATTATTTTCAAACCTAACACTAGGTAAAAATATTACACCTTATCAATTTTCTAATACACCTAAAACAAAAGATTTGGGGAAAAGTGGATCTAGTATAAATATATTCTTTGATCAGGGAGTTATTCCTTATGATGTATCTTGGATATATAACCAGAGTACAAATTCATATACAAGATACAATGGTGGATCTAAACAGTATGATGCATTAACAAACCAACCTTTGACAGCTAAAAATGTAGTAGTTCTATATGTAAATGGACATACTACAAGTTACCCAGGTGAAGGAACTACAGAAGCTGCTGCTCCTATATGGATATTAAATACTGTTGGGTCAGGAAATGCTTATATATTTGAAAATGGGCAAGAAATACAAGCTACTTGGAATAAATCATCAGATAATTCAAGAATGATGTTTACAACTCAATCAGGATCTCCTGTGACATTTCAAAGAGGAGAAATTTGGTTCGAAGTTATAGAACCTCAAACAGGATCATTTACTTATACACCAGCAACATAAAATCATGATAGATAAATTTTTGATATCAAAAGTAAGAGTAAAAATATTAAAATTATTCTTGCTTAATTCTCAAAATACATATCATGTAAGAGAGATTGTTAGAAGAACAAATGAAGAAATTAATGCAGTAAGAAGAATATTAAAAGAGTTAGAAGATATAAAATTTTTAACAAATGAAAGAAATGGAAATAGACTCTATTATAAAATAAATATAGATTTCATATATTTTTTTGAATTAAATGCTATGTTTAATAAAGAATTTGGATTAGGACAGAAAATTATAAAACACAAAAACAAATTAGGTAATATAAAAACAGCATTTTTAACAAAGACATATATTCAAAATAAAAGGAAAAATGACAATGATATAGATCTAGTATTGGTCGGCAATAGTATTAATTATATATATTTAGATAAACTCATCAAAGAATTTGAAGACGCAAATGAGAGAAGCATAAACTATACATATCTTACTCAAACAGAATTTGAAGAATACAAAAGAAGTAATAACTATTTCCTATCTAATGTTATATTTAAAGAAAAAATAGTACTAATAGGAGAAGAAAGTTTAATATACACATAACATATTCTATCTGTGATCCTTGCATAAAAGTGAAAGTTATTTTAAAATAGTTCACTAATAATGCGTAGAACCACAAAATTTTTAATATTTATAATTTTTTTATACATAATATCTATAATTGTAGATATACCTAAGGTAAATATAAATTTAAAACCTATAGGTATAAATTTCAATAGAACAATAGATCATATATCCATTAATCTAAATACTATTGGAATTAATTATATAAATAAACTTAACCCTTCTTTAGGTTTAGATCTAAGTGGAGGTTCTGAATTAGTTCTACTTGCAAATACATCAAAAATACCTGCAAGTCAAGTAACTAATGCTTTAGATGCTGCAAGAAATATAATTAATCAAAGAGTAAATCTGTATGGAGTTGCAAATGCTCAAGTATATACAGAAAAATATGGCAATCAAAATAGAATAGTAGTTGATCTTGCAGGAGTAAAAAATTTAAATGAAGCAAAAAAATTAGTTGGACAAACAGCTAAATTAGAATTTTTGACTATAAAGCCTAATATTAATTTATCTTCTATAGTTTCTTCTACTATACCCTTAAATGATTTTAACCCAAAAACAAATCTAACAGGAGCAGATCTTGCTTCAGCATCAGTTACATATCCTCAAGGAAGTACTACTCCTAATATTCAATTAAACTTCAAACCAGAAGGATTAACTAAATTTTCTAATATAGCAAAAGCTAATGTAGGAAAACCTATTGGAATAGTACTTGATAATAAGGTTGTTGAGAATCCTGTAATAAATTCTAATTTGGCAAATGGAGTCACATCTTCACCTGTAATAACAGGAAACTTTACACTTAATCAAGCTCAAACATTAGTAGACCAATTAGATGCAGGAGCATTACCTATACCTGTAAAATTAATTGAAGAGAATACAATTGGAGCAACATTAGGATCTCAATCAATTAATGCAAGTTTGATAGCAGGTATCATAGGAATAATAATAATACTTATATTTATGATATGGAATTATAGAACATTAGGAATAATTGCAGATATTGCATTAATTTTATATGCTTTAATTACATTTGCTTTATTCAAAATAATTCCAATTACTCTGACTTTAGAGGGTATTGCTGGTTTTATCCTATCCATAGGAATGGCTGTTGATGCAAATATATTAATATTTGAAAGAATGAAAGAAGAAAATATAGAAGGTAGATCTAGAAAGTCAGTCCTTTCATTAGGTTTTGCTAGAGCATGGAATTCTATAAGAGATTCTAATATATCTACACTTATAACTACATTTGTTTTATATATGTTAGGATCTTCACAAATAAGAGGATTTGCTATAACTTTAGCTTTAGGAGTTTTAGTAAGTTTATTTACAGCTGTTACCGTTACGAGGACATTACTTGAAATATTTTATGTAAAATAGATATGAATTTAAATATTGTAAAATACAAATATATATACTTAGGGTTTTCTTTATCTTTAATGATCCTAGCTATAATATTTATTTCAGTATGGGGTTTAAATTTTGGAATAGATTTTACAGGAGGAACTCAATTAATATATAAGGTTCAAAAAAATGAAGTATCTCCTTTAAAAAAATATATTGAAAATAATATTTCTCAGGGAAGTATAGTACAACTAACTAATACAGATTATCAAATACAAACTCCACCTCTAGATCAACAAAAATTAAAAAATTTAGAAACTTATCTTCAAAAAACATTTATACTTTCCAAACCTCAAAGTATAAAAACTATTGGCCCTACTATTGGAGCACAGTTAGCCCAAGACGCAATTTACTCAATTATAATAGTGATGTTAGGTATAATTCTATACATAGGTTTTGCATTCAGAAAAGTACCTAGACCTGCTAATTCTTGGACATTTGGTATATCTGCTATTCTTGCAATGGTACATGATGTCATTATTGTATTTGGAGCTTTTGCAATACTAGGTCATTTCTTTAAAGCACCTATAGATTCATTATTTGTCACAGCAATACTTACTGTTATAGGATTCTCAGTACATGACACAATAGTAGTATTCGATAGAATTAGAGAGAATTTAATAAAAAAGAGACTTGCTAATTTTTCTGACATGATAAATAATTCACTAATGCAAACATTAAACAGATCTTTAAATACATCTTTTACTGTACTTTTAGTTTTATCAGCACTTTTCTTATTGGGAGGTATTACTATTAGGTGGTTTGCTGTAGCTCTTCTAATTGGTATTTTTTCAGGAACTTATTCAAGCATATTTGTAGCTTCACAACTTTTAATTATTTATGAACAATATAAAGAAAGAAAATCTAAATAAATCTATTCACTATACAGCTGGTGGTATATTAAAAAATAAAGATAATCAAATTTTTTTAATTTTTAATAAAAATAGAAGAACATTTCAATTACCAAAAGGTCATTTGGAGAAAGGAGAAACTTCTAAAATGGCAGCTATAAGAGAAGTAAGAGAAGAAACAGGATATAGAAATATAAAAATAATATCTCAAAAATCTTTCAAGATATTTTTTACATTTAAAGATAGATTTGATAATAATTTAATAAATCAAAAACATACAATATACTATATAATGAAACTTGTTGATGAAGAAAGAATTCACACAAAAGAACAGGATGATGAAAAGTTAGGAGGAGATTGGTTTTATATAGATGATGCAATAAAAAAAGCTTCTTTCAAAAATATAAAAAATATATTAATTGAAATGAAGAATTTGTCTATTTGAAATTCCATTTTTAAATTCTCTACCATTCATATATACTCCACCTTCTTTCTGAATATCATTTATCTTTATATAAAAATCTGCTCCTGCAATTAATAAATCTTTTGATTGTAAAAAAATCTCTCCAGACTTTTGAGATTTGATATCAGTAAGTTCAGCATCCTTAATATTTATTATCTTATTATTAAAATAACACCAAGCAGGAGATGCTGCTTTTATTAATCTTATAATATTTAATGAATTTTCATCCCAATTAATTTTAACATTTTCTCTTAAAAAATTTTTCTTATTACAATAAGTAGATTTACTACTGTCTTGCTTAATAGGTATTATAGATTCATAATTTGAAATAACATCAAATATCATAGAAACAGATTTTTGAGCTAATGTTTTTTCTAAATAATTATAAGTTTCATTTCCTTTGAGTTCAATTTTTTTCTGAAGATACACATCTCCTTCATCCATATTCTCATTCATTTTAATGATACTCACTCCCGTATATTTATCTCCATTTAAAATAACAGACTGTATAGGTGTAGCTCCTCTATATAAAGGAAGTAGTGATGGATGTATATTTAAAAATATAGATTTATCTAATAAATTTTTAGGTATGATATTTCCAAATGAAGCAACAACACAAAAATCAGATTCACTTATAACTTTATCCACATTTTCATAAAGAATTGTAGGAATTTTTAATTTTTTAGATTCTTTATATAATAAAACTTTTTCACTTTTTATAACAGAATATAGAATATCAACATAATCATTAAGACCCTCTTCTATTATTGAAGAAAAAAGAGAAGATCCAAAGAATAACACTTTATATTTAGATTTCATATAAAATATATGATATCATATTAAGAGTATATATTGTTTATTTTGTAGTTAATGGAAAAATATGATAGAAGAAATAATTATAGCGGTATTAATAATACTTTTAGCAGGTATTGTTATATACTTTCAACAAAAAATTAAAAAAGATGGAATTTTATTTAAAGAAAAAATAGAAGAAGCAAAGAAAATTTCAGAGAAAAAGGAAATGGAATTAGCTTCTCAAAAGGCTCAAGAGATAATATCTCAAGCAAAAAATAGATCTATAGACATTACAAGAGAAGCTCAGAGAAAAGAAATGGAATCTTTAAAATTAGTATCTCAAAATGAGAATACTATATCTCAAAAACAATCTATTATTAATGATAGATTAGAGTCTATTACTCAAAAAGAGCAAAAAATTGATGAAATTAAAGCTAATATTTCTAAAATTAAAGAAGATTTATCAGAAAAATTAGAAAAATTATCTTCTCTGAGTAAAGAAGATGCAAAAAATTTATTACTAGAAGAACTTGATACAGAATTAGTTAATGAAAAAGCTAAAAAAATTAAAGAGTATAGTGATGAAGTAAGGTCTAAAAGTGAAGAAATCTCTAAAGAAATACTGATAGATACAATGGAGAAAACAGTCAGTGAATATATAGGTTCAGCAACAACTTCTATATTGGATATACCAAATGATGATCTAAAAGGAAAAATTATAGGAAAAGAAGGTAGAAATATAAGAGCATTCGAGAAAGCAACAGGAGTTGATGTAATTATAGATGATGTACCAGGCTCTATTACAATATCTTGTTTTGATCCTTTAAGAAGAGAAGTTGCTATACTTGCTATGAAAAAATTAATAGAAGATAAAAGAATACATCCTGGAAAAATTGAAGAGATGGTAAAAAAAGCTAGAGAAGATATTTCTAAAGAAATAAGAAGATTCGGTGAAAAAATGGCATATGATAGTGGAATTAATGGTCTTAGACCTGAATTAATATCTCTTCTAGGAAGAATGAAGTATAGATATAGTTATGGACAAAATGTAGCAACACATTCTTTAGAGATGGTAAAGATAGCTGCAAATTTAGCAGAAAGTATGAATGCTAATATATATTTAGCAAAAAAATGTGCACTATTCCACGATATAGGTAAAGTTATGACTGCAGAACAAGAAGGTTCTCATGTTGAAATTGGTGCTGAAATTGCAAGAAAATATGGACTAGAAGATGAAGTTATAAATGCTATATTTTCTCATCATGATATGGCAGAACCATCTTGTATCGAGAGTGCAATAACCAAAATTGCAGATAAAATTTCAGCAAGTAGACCTGGAGCTAGAAATAATTCATCAGAAATGTATTCTACAAGAATTAAAAAATTAGAAGATACAGTAAGAGAGTTTGAAGGTGTTGAAGAAGCATATGCTATATTTGCAGGGAGAGAAATAAGAGTAATAGTAAAGCCTGATATGATAGATGATGCAAAAATGAAGCTTTTATCTTATGAAATAGCTAAGAAAGTTGAAAAAGAAAATACTTACCCAGGAACTGTTCAGATAACTCTAATAAGAGAAACTAGATCTGTAACTAAAGCAAAATAATTAATTATGAAAAGATTATATTCAAACGAACTTAAAGAACATATAGGAGAAGAAGTTTTGATCCAAGGTTTTCTTTTTCAAAAAAGGATAATGGGAAATATAAATTTTCTTTTAATAAGAGATAAATTTGGTATAGTTCAATGCGTAGTTAAAGATAAAGATCAAATTGAAATATTAAAAGATGTAATGGATGAAAGTGTTTTAGAAATCACAGGTAATTGTGTAGAAGAAAAAAGATCTAGTATTGGAGTAGAAATTCATAACCCAAAAGTCAATATAATATCAAAAGTTAAATATCCTTTAAATATAGAAATTAATAAACCTATTATAAATGCTAATATTGATACTATTCTTGATAATAGAGCAATCTCACTGCGTTCCCCTTTAATAAGATCTGTATTTAATATACAAGCTCAAATGGCAAAAGCTTTTAGAGAATTTGCAGACAAAAATGGTTCGAAAGAAATATTTATACCAACCATAGTAGGTTCAGCAACAGAGGGAGGTTCTGAGCTATTTGAAATAAAATATTATGATAAAAAAGCATATTTAGGTCAAAGTGGTCAATTATATAAACAAATGATGGTAGGAGTTTTTGAAAGAGTATATGCTATATCTCATTCATATAGGGCTGAAAAGTTTGGAACTTCAAGACATACTTCTGAATTTATTCAATATGAATTTGAAATGGGTTTTATAAAAGATTATATGGATGTCATTAATTTTGGTATAGATATAATAAGATATATAAAAGATTCGGTAGAAAAAGAAAATATTGAAGATTTGAAAATTATAAATAAAGAATTACCTCTAATTCCTAAAAATATTCCTATTATGAAATTAAAAGAAGCTCAAGATTTAATTTTTGAGAAAGAAAATATTGATCATAGAGGAGAAAAAGATCTCTCACCAGAAGATGAGAAATTAATATCTAAAATAATAAAAGATTTATATAAATCAGACCTCGTAGTAATAACACACTACCCTACTTCAAAAAGACCTTTTTATACTATGCCAGATCCTCAAAACCCTGAAGAAACACTCAGTTTTGATTTTATATTGAGAGGATTAGAGATCTTAACGGGAAGTCAAAGAATTCATGAATATGAACAATTAATTTTAGCTATAGAAAAAAAGGGCTTAGATCCAAAAAACTATGAAGATTATTTAGAAATATTTAAATATGGAATGCCTCATGAAGGTGGATTTGGAATGGGTTTTGAAAGATTAACTCAACAATTTTTGTCTTTATCGAATATAAGAGAAGCTACTCTATTTCCTAGAGATGTAAAAAGAATTACTCCTTAATTTTTCAACGCATCTACATAATAATAAAACTGAGCACTTTGATTATTTGAAAGATATGCTGTTCCTGAAAGTATATATATAGGAATTAAATATTGAGAATAATTTTTAGATTCAAAATATCCTAATTCAATATTATTAACATAAAATTTAGAAACCTGATAATTCGAATTATAATTTACATTATATGCATCTCCTGACAAAGTTGGATATATAGAGACTAAACTACCTTTCCCTGAAGATATAAGATTAAAAGCTTCTTGAGGTGTAATTATGTTGTATGTACTACTTGAAGTGATAGTATAATTGTAGTAATTAGCATTTAGTATTCCATCTAATCCTGAAAGATTAGAATTATCAATTAAAAAATTTATTAATGGTTTATTAGGATTATTAGTATATATTTTATACTGTCCAATATGTTGCCTATAAAAAACATAGTATGCATTAGGAATTGTACCTGTAGAATTAGAAAATTCTATATTATTATTATTAATAGTAACTGGTACAGCAGAAAAATAATTCATATTCATTTGTATTAAAGGAATATTTATACCGGTAGCATTTTGATAAGTCAAATTACTTAAAAAATTATATACAGACATCTCTGCATTATTTAAAGATGAAAAATTAAAATTATTACCTATATTACTGTTTTGATAATTAATATAATCTGATATATTTAAATTTAAAAATATATTAAAAGATAGATTTGAAAGATTAATACTTATAGTATGATGAGGTGTTGTCCAATTATATACGTAAGCATTATTAGTTGAACTATTAGTTGAAGATATTCCCATATTAGATATTAGAGCACTTGCTATATTATATGAATTAAGCGTAATTATAGGTTTTTTTAATTTATATACAGGAGATATTAAAGGAAAGGAATTTAGATTTTGAGTTGTATCTAGAATATAACTAGAATGATTATTCACAAAAGATACATTTTTAAATGATAATGCAGGAATATTACCAAAACCATTTTGTGCTGTTATACTCCTTTGATATGCATAATAATTAGAAATAGAACTTGATATAAAATAAATAATAAAAGATATAAGAAGTAAAGAGATAAAAAATATCACAAAATATATTAAAGTTCTTTTTGTTGTTCCTATAACTCTTGTAAGTGCAGACATATCTAATATATAATAGTAAATTAGCTTAGTAATTTCAATTTATTATGAGAGTAAGAACACGAATTGCTCCATCACCTACCGGAGATCCTCATATAGGAACGATATATCAGGCACTATTTGATTATGCATATGCAAAACAAAATAAAGGAAATTTTATTTTAAGAGTTGAAGATACTGACAGAGAAAGATTTGTAGAAGGAGCAACTCAAAAAATCTTATCTTCTCTTAAGTGGTTTTCTATTGAACCTGATGAAAGTCCTGTGCATGGAGGAGATTTTGGACCATATGTTCAATCAGAGAGATTAGATATATATAAAAAATATATTAACGATTTAATATTAAAAAAAGAGGCATATTTGTGTTTTTGTACAAAAGAAAGACTTGATCATATAAGAGAAGAACAAATAAAAAATAAACAACAGCCTAAATATGATAAACATTGCTTAAATCTTACAAAAAAAGAGATTGATGATCTAATAAATAAAGGTACACCTTCTGTTGTTAGATTAAATGTCAAACCAGGAATTGATATTATTTTTAATGACCTTATCAGAGGAGAAATCAAAATTAAGACTGATTCATTTGATGATCAAGTATTATTAAAATCTGATGGATATCCAACTTATCATGCAGCAGTAGTAATAGATGATCATTTAATGAAAATAACTCATATTATAAGAGGGGAAGAATGGATATCTTCTACTCCAAAACATATACTTTTATATAAAGCTTTTGAATGGGATATTCCTATGTTTGCTCATTTATCTTTACTTAGAAATAGAGATAAATCAAAAATATCTAAAAGACATAATAATACATCCATAGATTGGTACAAAAAAGAAGGATATCTTCCTGAAGCATTAACTAATTATCTTTTATTATTAGGGTGGTCTCATCCAGAAGGAAAAGAAGTATATTCTTTAGATGAATTTATTAAAAAATTTTCATTTGATAGGGTAAGTAAAGGTGGTCCTATCTTTGATATAGATAAACTTAATTGGATAAATGGTGTATATATAAGATCTAAAAGTGTTATTGAAATAAAAAAACTTATAAAGCCTTATTTAATATATGATATTGAAAATAAGAAATTAGAAGAGATTATAAAACTTATACAAGATAGATTAAAAAAATTATCAGAAATAAATGATTTAATATCATTTTTTGTAGAAACACCTCAAATAGATCAAGAAATTTTGGAAAACATAATATCTAAAGATAAAATAGATGAAATATGTGATATATCATATAAAACTATTGAGGATAAAGGTATTAATCGTGACACAGAAGAAACTCTTAGAAATTATGCTATAGAAAAAGGATATAATATTGGAGATTTCTTTATGATTATAAGAATAGTTACAACTGGTAAAAAAGCTACACCACCTTTATTTGATACATTATCTATAATAGGGAAAAAAGAAACATTAAAAAGGCTAAAGAATGGGAGATAGTTTAACGGTAAAACGCTACGCTCTGAACGTAGTAAGTCTAGGTTCGATTCCTAGTCTCCCAGAAATTATCTATAGACTAAAATTCTATGTATGGACATATAAATATGTTTTATTTTCTGTAATTGTTTGATATACTTTAATTATGAGTAAAGAAGAGAATAAGAAACTTATAAAATTATACCAAGAGTATAGACAAAGAAAAATATTGAAAGAGGATGTCTTACAATTTTCACGTGATTTTATGCCTGAAATGATTTATCGTACAACTAAATTAGAAGGTGAGCCTGTTACAAGACAAATGGTATCTTTACTATTTAAATAATGGTCAAAAGTGGTACGAAACCTAAAGGCGCAACATCATATAAAGATACAGCTTTTGGAATTATTTCTCGAGAAGAACTTATTAAGCTTGAGATTGAAGGGATAAAGAGAGGACTAGAATATTTATATGATCTAGTGCAAAAACAAGAACAGGTTGCAATTACTTCAGAATTAATAACGAAACTTCATGAAATTTCTTTTGGTTGGATTTTTCCTAAATGGGCAGGAAAATATAGAACAATTCAAGTAACATTTTCTGATAAAGAAGCTCCACCATATTATCAAGTATCAGAATTAATGTTCAATTTCTCTAAAGATATAGAATCACGGTTACAAAATCTCCCTACTCCAGATAAAGAAAACTTTATTTTTGAAATAATATCCTTATCAGCTTGGTTTCAACATAGATTTGTTTTTATTCATCCATTCCAAGATTACAATGGGAGGACAGCACGAATGCTAACGACTTTCATATTACTACAATTCAAACTACCCTCTATTGAATTAAAAGCAGATACAGGAGATGACAGGAAACAATATCTTAAAGCAATGAGGAAAGCAGATGATGGTGATTATAAACTTCTTGAAAGACTTATTAGCCGAGCACTAACAGACAGTCTTAATCATATTTAATTCTATTATTTTTCATCATATCTAATTTATCTAGTTTTTCAACGGTTGAAATGAGATTTTTAAAAATGGGGTTCCACATACGGGACAGCTTTCCAGAAAATAATATCTATTAATTTATATATTCAATTTATTCTTTTAAATCCGTATGAAATAGCAATTTGCTATGTATGGCAAAGACAATATTAATAATTAATGTTAGAATTCAATCAATTATTTTATTGATTAAATAGTATGTATAATATAACTTTATCTGGAAGCTTTAGGAAACATTTAAAAGAGATTGGGGAGGTTAAAAATATTTTTGAGAAAGAGCAAAACATAATATTATCTCCAAAATTTCTTGATACAAAAAATTCTCAAGAAGAATTTGTTTTGTTTGAAGAAGAAAAAAGTACATCCCCAAAGACTCTCGAAAATTTACATTTAAATGCAATTTCTAAATCGGATTTTCTTTATTTAGTTAATCCAAAAGGATATATTGGTAATTCTGCTACTATGGAAATTGGTTATGCAATATCAAGAGGAATTCCTATATATTCATATGAAAAATCTGAAGAATTTATATTAAACTTATATATTGAAAAATATGGAGATCCTAAAGAAATACTCTCTTATCATAAAAAACATTATGAAAAGAGAAGACAAGATAATTTTTCCAAATCTTTAGGATTAAAAGAATTACAAGAGTATATATCTGTAAAAGTAAAAGAGAGAGGATTTGAAGATGAAAGTGCAAAAGATTTATTAGTTCTTTTAATGGAAGAGGTAGGAGAGTTTGCAAAAGCAATAAGAAAATATTCAGGAATAAAAATAGATAGTGAGAAAAAGGAAAAATATCCAGCTTTGCAAGAAGAAATTGCAGATGTATTAATTTATATAATTGATCTTGCAAATATATTAAATATTGATTTAGATGAAAGCTATAGAATAAAAGAAGATATCAATGATTCTAGATTTTGGAATAAATAATTATTGATATGAACAAAATTTTATTAATATCAGGTCCTTCTGGTATAGGTAAAAGTTATATATTAAAAAAATTGATTTCTAGCTCATCTCAGTATGAAGCTATATTATCAACTACAACTAGAGAAATGAGAGAAGGTGAGTCTGATGGAATAGACTATGAATTCTTAACTAGAAATGAATATGTTAACTCTAAACAAAAGTTTTTTATGGATAATTATTTTTTTAATAATTTTTATGGCATTAAGAAAAAAGTGGTAGATGATATTTTGGAAAAGAGAAAAATTCCAGTAGGAATAATTTATACTCCTGTGATTCATCAATTTTTAAAAGCTTATCCAGATGCTTTAACTATATTTCTATATCCGCAAAACATAGATTTATGGAAAGAAAATTTATTGAAAAGAGATGGAAGTTTAGACAGATATCAATATGCGTTAGATGAATTAAGTAAATGGGAAAATGACTATAGTCGATATTATAATAAAGTATATTATATAAATTCTAATAATGATGATAGAACAATAATTAATGAGATCAATCACTATTTTGATATTTACAGGGATAGGGAGGGGAGTATAAAGGAAGAATTTCATTAATAGTCTTGATTGATTTCTTTATATCTATTTCTGAAAATATGTTAGAGAATAATAAAATACAAGATTTAAAAAAATTTAATAGATACTATAGTAAGTGTTATGTTGTCAAACCATTAAGATTGAGAATGGAAATTGACGAAAACAGGAGAGTTTTCTATGATCTTAATGGTTTGACAACAAAATACCTATTTATTGTATTCCTATTCACTAGTACTATTTTGCTACTTTGCGTCGCATTTATATCACTTGCAAAACATCTTATTAGTAACTGAAATTTTCTTCTAGAAATACGTACCCTTTTTTACTTTCATTATCTAGATTTTAAGATATTTTATATCTCTTATCTAGGCTACACCCTATTTTATTCTCTAACTTACACATATCACATTAAAAGTTCGAATAATGTCAACAGTCCCCAGTTAACTCTTTTCAACCATGTATGAATAACTTTTTAGTAAGTAGTTCAAGTTGTTATATAAAAACTGAGATCTATTTTTATTTTGAATATGTTATAATATTTGTATGAATAAAATTAATTACACACTACCAGTTTTAATATTTAAGGAAGACGACCTTTTTGTTGCATATACTCCTGCTTTAGATTTATCTACTGTCGGAGATACTTATGATAAAGCATTAAAAAACTTTCGTGAAGCTAGTGGCATATTTTTTGAAGAAGTTTTAAAAAAAGGAACTTTAGAAGAAGTTTTAATGGAGTATGGATGGAAGAAAACAGGAAAAACTTTTGAACCACCAATACAGATATCAAGTGAACCTGTTAATATAACAGTTCCAAGCAGAAGATGAAACCTATATCATGGAAAGAATTTGATAAATTTCTACTTTATGTAGGTTGTATTTATGATAGACAAAAAGGAGATCATAGAATATATTGGAGAAGTGATTTAAAAAGACCTATTGTATTACCCATGTATAAAAATCTCCCAAAATTTGTTATTAAGAATAATATAAGATTACTTGGGCTTACCAATAAAGAGTATTTAGAAATATTAAAGAAAATTTAATATAAATTTATACTTTACTGTTCCAATATATAATATAATTAAGTAATGTATCAGAACAATAAAAATTATTATAGATTTAAATCAATTATTTCTAATTTACAGTTTATTGATAAATCAATATTGTTAAATAAAGACTTGATTTTAGAAGAAGATAAAGGAATTAAAATTTATTATGCTCCTTTTGAGTACATAAATAAGGATGCAAAAATTATAATTATAGGAATTACTCCTGGATTTACTCAAATGCAAATTTCATATCGAGAATTAGTAAAAGGAATAAATAATAATTTGACTGATTTACAAATATTACAGAATGTTAAAAAAGAAGCTAGTTTTGCAGGAGTTATGAGAAAGAACTTAGTTGAAATGTTAGATGAGTTAAATATTAATACTTATCTAAAAATATCTACTACAGATAAACTCTTTAAAGAATATAACCATTTGTTACATAGTACTTCAGTAATAAAGTATCCAGTTTTTGTAAATAACCACAATTATACAGGTCATACTCCAAATATTTTAAAAACTAAAATTTTGTATGATTATATATTTGATGGATTAGGGAAAGAACTTACTTCAATACCTGACGCAATAATAATACCTCTAGGAAAAATTGTCCAAGATTCTTTAAATTTATTGATATATGACAATAAAATTGATAGCAATAGGATATTGTTAAATTTTTCACATCCATCAGGAGCTAATGTAAATAGAAAAAATTTCTTTAATAAAAATAAAAAGCATTATGTTTCTCAGATAGAGAAATTATTTAAATAGTGAGTATCATTTCTTACTATTAGGGTTCTGACATTGTCCACAATACCCTGTTGACAATAGTATAAAATTGTCAATGTGTACTACTCAATTATCTTGCTAAATCAATATAAACTTGAAATTTGCTATGCATGGCAAAGACAAAATTATAAATAAGTACTACTATAGAGATAATAAAAAATAAGGAGGTGATTATATTATGGAAACATTAGAGAAAGATATAATAACACCATTAGAGTGGTTAACAGATGATAATGTTCAAAAAATAACCATGTGGCAAACATATTCTACCCATAAGGATGATGCAGATGATACTAATGATGATTAGAATAAATGGTAAAAGAGAATAATTAAATATAAAAATAAAATTATTATCTACATTCTTTAATATTATTTTTTGTCTTTATGATACATATAAGAAGAAAATATTATCTTGATATATACAAAGAGATATTCGTAATTTATTATAATAATGAAAGTGATCAACTTATTGATGAAGTCATTCAATATGTTTATGATAAATGTTTAGATGATATCTTTAAAGAGATAGGTAAAATTTTCACATTTAAAGATAATCAATATTATTATGTTATGAAAACCGCAAAAATTGGGGTAAGATATAAACATAGTATTTATGTTTATAAAATTAATTTTAAACATAAATATAATTTACAATATGAAAAATTATTAAAAGAAATTCCAATGCTCTCTTCTGGTGAACTTATTCCATCCGTCAATGAAATGTACTTTAATAAAAAGAAAATGTATTTTGATAAAAAAAATCTGAGTTACTTTTCAACATATAAACTTTACAAAGATTTATTAAAGTTAAAATCTAATAAAGATATAGAAGAAATATTTAATGGTAGAATAGAAGATTTAATACCTTTTTTAACATATTATAAATTTAGTAAAGTAATTTGTAACCTTTATTATTTAAAGACTCCTGATGAGAGACTAGATATAATAAAAGAATTTTTAACTTTTCCTTTTAATATTACGTACGATACTTTTTTATCTGAAATAATTGCTGAATTGGCATATTTGTCATCCATTAAAAAGTACAATGATGTTGCTAATAAATTGTTATCTCAGTTAATTAATAAGATAGAGAATGATGTATATATTCTTGCAGATACACAGATGGTAACCTTCAAAGGGTCATTTAACGAAAAAAATATTGATAAAATCTACAAATATATTAATAATAAAGTTGATTTATATTCACAAATAGACCCTGGAGGTTTTATTGGAATTCTTAATAATCAAGATTTTTTTATATCAGATAAATATAAATATAAAAAAAGAAAGATATTAATTATATCAGAGCAAAATGACCCACATGTTGAGAGAGTGTTGAGTTTTATTAATCAGAAAAAATATCATGTAGATGTATTTGGTGTTAATGATTTAGAGAATGATGGGTATGTTGATACTCTATCAGAAATGACTGGAGAATTTTTTGATACTGACAAAAGACATCATAGAGTATATGATATTTGTTGGTGGAGAAAACCAATATTTATTACTCCTTCTCAAAAATATTTAAAGAATATAAACCTATCTAATATTGCAAAAAAAGAAAAAATAAATTTTTTAGAAGGAATTATATTAAATATGTCAATAAAAAGTTGGGTGAATCATAAATCAGATATGAAAAAAGCTTCAAATAAAATACATCAGTTAAGTCTTATAAGAATGAATATCCCTAGAACAGTAATTACTAATAAAAAGGAAGTCATTAAAAAAATATTTGAAGATAAGTTTATTATGAAAACGTTGCAATCTCAAAGTTTGGGATTAGAGGATGGTGTATTAAAAACAACTTTAACAAATATTAACGATATAGATAAAATTGATTTGAATTTTATGCCTGTTATCTGTCAGGAATTTATAGATAAAATTTGTGATATCCGAGTTACTATTGTTGGGAATAAAATATTTGCAGCTAAAATATTCTCACATTCAGAAAAATCAAAAATAGATTTTAGAACTGATTATAGTAGTTTAACTTATGAAAAATGTAAATTATCAAAAGATATAGAAGATGAATTGTTGAGATTAAATAAATATTACAATCTTAATTATTCTGCCATTGATCTTATACAAGATAAAAATGGTGAGATATACTTTTTAGAATTAAATCCGAATGGTCAATATCTTTGGATTGAAGAGTCATTAACTCTTCCTATTTCAAAGAATATTGCATCTTTTTTAAAAGGAGATAAATAGCGATAATAAAGATTTATTAAATATTCTTAATCTTATTTTATAATAATATAATTTATAATTACTTAAATAAATAGTGATAAGGACTGGGATATGAATTTATTATTAGGGTTCTGACATCGTCTAAGATACCCAGCCAATGCGACAATTATTAACCTATCCAATATGACAAAAAGTATTATTTATTTAAAATACATGATAATATTGTCGTATGAACTTAAATAAAAATACTAGTTACGTATTAATACATATTCTTAACGGGAATAATACTTCTAAAAAAATTAGCGAACAATTACGAAACGTCAATATTCGTTCTATTCAACGTGCTTTAATCAGACTAACAGACTTAGGATTATTGACACGTATCGGGACGAATCATCCTAATTACAGCATTAACTATGAAGTATTGTTAGACTTAAACATTTCCGATAAATTACTAGAGAACGAAAATCGACCTAAAAGTATGTTCAATCATGAACTTATAGAATGGTTAACTAAATTATCTACTAAAGAACTAGAATTGCTATTAAAAATCGATGATGATAAGTTAGTATTTAAACATCCCAATAAAATGACAGCTAAAGAACTGGAGTATCTTACTATTGAGCTTTCGTGGAAGTCGTCAGCTCTCGAGGGTAATACATATACATTATTAGATACTCAATTATTACTTCTAGAAGGAATAAAGGCTAAGAACAGAACAGAGTTTGAGACACAGATGATTCTAAATCATAAAGATGCCATTGCTTTTATAGTTGAGAATAAAGAATTATTCTCCAATAACATAAAATTTAGAACAGTTGAAGAACTTCATAGGATAATTGGTAAAAATCTAGGAATAGAGAGTGGAATTAGAAAACAAATTGTCAGGATCACTGCTAGCAACTATGAACCTCTATCTAACCCTCATCAATTAAGAGAAAATGGTGACTACATTTTGGAAATAATAAATAGAACGACTAACTCTTATATAAAAGCACTTCTGGCTCTTTCCCTAATTCCATATTTACAAATATTTGAAGACGGCAATAAAAGGACTGGAAGGATGTTCGCCAATGCCATATTAATAAGTCATATCAATAAAGGTTTTAGTCTACGCCAAACAGATGCTAAAAAACTGGCCATAGCTTATTTGGCTTTTTATGAATTCAACAGCATTCATGCTCTAAATAAGATTCTTAAAACTGAACTTCAATCAAACTAGGGTTGAGCTTCATGTCTTCCTAATGAATATGAGTATTTTTCCAATCTAAATTTATATACTGAAATACTAAGAATCAAGTAATCATAATTTAAACATTTTTTTAAATAATTAGTATATATGACATCTTCCACGATACACAGATTTGATTTTTTCCTATTTTGATTTTAAGAAAACAATTGATTTAGATTATATAAATAGGAGTTTGAATTGACTTATATATTTTCATTGAATAATCTAGATAGATTGGATACAATATAAAATAGAGTTATGAATCAAAAACTTATACAAGCANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTATCCTGACTTGTCCAATTAGTACATTTTTAATAGTGTAGAAAATACATCAGAATCTGGAAATTTCTGACGTTTAGTAAATTCCTTATGTGTTAATTCATCTATTAATACAATATCCATAATATGAAATATGCTCTTCTTTATGAGCTTTGTTGATAATCCTGTTTTAAGCTCTAATGATTTAGACATACATAAGGATACAAACACTATTAATATGTGTGAGAGTATCATATCTTCTTTCCTCGCAAATATCGGTCTTGCTTTAAGATCGGATTTCGCTATCCTAAATGATTTCTCTACATGCCATAGATCATGGTACCTTGCAACTATCAATTGTGCAGGTATATCTTTCAGATTATGATAATATCCTTTTATTCCTTCTTTCAACTCATCAAACTCTATCAATTCAGTATTTATCTCAAACTTATCCTTATCTAGTTTCTTTAAAAATCTAGGTCTTTTATGTTTTGCAGGATGCTGTATATGATATTCCGCCTTTCTTATTTGTTTTAACCTATCTGATTTATCCTTCTGAGCTCTTTTGCGTGAGTAATCAGTAACCAGAGTTCCATATGCTGTTTCAGACTCTATGTATTTACCTTCAACTTTTCCAAGAGATTCTACGATTGACTCTAACAGAGATCTGTTTACCTTAGAAAGTCTTGCTCCTACTATGAAGGACAGACCTGCATCGTTGAGTGCTTTCATATTCCTGTAGGAGAGCATAGCAGCATCTGCTACTACAGTAAGTGTTGTCTTCATATTGTATTTCTTCTTTAAAGCTAATATTACAGGAATGAATGTATGTCCTTCAAATTTATTACCTTCAAAGATCTCTATTGATATTGGATATCCATCAGAGTTTACAACCATACCTATTGCAACTTGTGGTTGTTGAGATTTACCATCCTTGTTGAACCCAGGCTTTCTAAGATCATCAGATTTAAAAGATTCAAAGTACAGATTAGTAACATCATAGAATACTAAAGAAAAATCAAAGTTAAGGTTTTTCTTTGCATACTCTACTGCTACTGATTCAATAGCATCTTTCTTCTCAACAATTTTTTGTAATCCTCTGTGTAAAGATCCATGAGAATATTTAATATTGAAATATTCCCTTAGAAGATCGATAGACTCTTCCTTAGATACGGGTTCAATGATCCTCATAATAGCTAAATCTCTAAGTAGATTGTCTCCAAGAGAGTTAAACCCATTAATATCATATATATGAGATAAATATTCATGTGCAAAAGTATGAAAAGATTCTTTGATAGAAAGATTATCTATTGAAATTAAAGTACTATCTTCAAACATAGGTATTTGTCCAGATTGAATTATGAAGTTTCTAATATATTGATAACCCAGATTTTTAAGATCTTTAATTTCTTGATCAGTCTTACCAGTACCAATATGTTTAACAATATTAACTTTATTGGTGGTATTGTACACAACTTGAATGGAAGTACTTCCAGATCCAGTTTTAGTAGTCCTTATTTTTAACATAATGTATCCTTAGTACATTATTTTATCATTTTTTTACCATTTTGTGGCTCTACTACAGTATCACTATTTTACATTATTCTCAGTTGGACAACTCAGGAAATATTAATTTTTATAAAAGAGCGCAATTAATACCAGCTCATTTGTATGATTTATATAAATTAAATATTATAAAATCTTCAATTTATAATATTGACAAATTAACAGCATTTGCTGATTATAAAGTTCCTCAATTAATGAGGGACTTAGATATTCTTAAATATTCAGCGGATCTATCTTATAAAATCGATAATCTAATAGAGATACCAGCAGGGAGTAATGATGAGGTAGAAATCAGAATAGCTACTATTTGGGCAATTGAATTATGTAAAAGACAAATTAAAAAATATATTCCTCAAGTTACTTCAACACAAGTACATGGAGTTTTTTGGTTTTCAGGACAAAAAACCAATATTGAAATTAAGCCATATCATCGTACGCGAACCATTTGGTATTAATAAAAGTTCGAATATCGTCTACGGTCTCCCGATGGATGCGATAACACAATACAAGAATTAATAAGCCAAGAAATAATTTTGATAAAGGGATTCATTCTTTCAATTTAAAGCTTTTATCTTGTTTTCTCTTTTATTTTTTCAGATAAATATATCTTTATCAAGGATTGATATGGCACATCTTGTTTATGTGCGAGCAATTTTAAAGAATTTAATAACGATTCTGTGACTCTTATGGTAATAGTTTTTGTTGATGGTTTTAAATTTGTAAAATCACCTTTCACCTCTACCATTGATTCAATATAATCAGTTGTGTCATGAGTACTCCAAAAATCTCTTTCCTCCTCTTCATTTTTGAATTTTGGTATTTGTTTCATAATTCACCTCCTTTTGTTTTATTTATATAATATGTTTTTTCTTTTTTACTTTGATCTCTAGCAGATATTACTCTTATCTTGTTTCCTCTAATCGTAAATATAATTATTAAAAACCTTTTTTTGTCAGTATATCCATATATGAAGAACCTCTTTTCATGTATAGAATGTTTTTGATTATATAAAACTATATATGGCTTATTAAAAAATACTTCCTCACATTCTTTTTTAATAACGTTATGCTTATCTTTATTTTTATGTACATTACCATCATCCCAATCAAATGCATTAAATTTGGATATATCAATAATACCTTTCATGTATTTGATAGTACAATACTTGATAATATTTGTCAAGGTTTAATCGATATTAATAATATAAGACTTTGAAGGAATTAGTATATAAATATATTATATGTAACAAAAGATTACATCTTGTATACCGTTAAGCCTTGTAATCCAATCTATAAATAGTTCGAAATAAGGTGCATCGCCTCCGAATTTATTACTAAAGTTTAATAAGATTCAATATATATATACTATATGATATAATGTATATCATATGAAAACTATGATTGTACAAGACAATAAGATACTTAATGGTAAACCTGTTATAAAAGGTACTAGGATGTCTGTTGAAATAATATTAGAACTTTTGTCATCAGGGTTAGAAATTAATGATATTCTTAAAGAATATGAATATTTAAATAGAGCTCAAGTTTTATCTGCTATATCATATGCATCAAATTTGATGAAGAAGGAAGATACATATATATTCAGTAATCAGAAAAGTGTTATAAATGAAATTCCTAATTGATGCAAATATTCCTAAATCTGTAATAGATTATTTAATAAATAATAATTTCGATGTTATTGATATTAAAAAGGTTAATATCACGATGTCAGATATAGATATTATTAAACTAGCTCAAAAAGAACAAAGAATAATTATCACATTAGATAAAGATTTTATAACTTTAATTCAATATCCTAAATATCAAGTATCAACAATAGTTATAAGATTAAAAAATTTAAAATCAGAAAATATCATTTCTTATTTAGAGGAACTTTTTGAAAAACAAAATCAAAATTTATTAAATAATTCATTAACTATTATTAATAATGATCAAGCAGATTCTTTTGAATTTGAATAATATTTAGATTTTTAATAATACAAAAAGTTTGAATATCGTCTACGGTCTCCCGAAGAAATGAATATATAATCGATTATAATTTATGAAAAAGATATTTATACTTCACTAATAATATCAAAGCCTTTAAAACTTCCTGTTATTGCAAGTCCAATTATATATCCTTTTACTACATGTTTATCTTTTATTTGTTTTGCTGTTTCATTTAATGTTGCACCAGACCCTACAGCATCATCAATAATTAGTATATTGGTATATAACTCAAAATCATCTACCATTATAGTGCGTTTAGCATTTTCAATTCTATCTTTAAGTATTGATAATGTTTTTTGAGGAATAATAATCTCTGTTTTTATTTTTGTGACAGACATTTTTTTTGTTGGTAATTTCAGAAATTTTTCTAATTCTTTCATAAATTGTATTTCTCTTTTTACAGTTGGTGGTATAAATAATACTCCATCAATATTGTAATCTTTAATAATTTTTAGGATTTTAGGACGAATTTCTTCTATTAATTTTTTTATAAGCACTTTGTTCTGACTTTGTTTTGAGTATAGCAGCATTTGACCGAGCTTAGTTTTTCCAAATCTCTCTATGCTATAGAAATCTAAATAAAAAAGTTTATCTAAAAAAACAGTATCAAAGGTACTATTCATTTTAGACATTCCATCTATAAGGCTATTTTTTTTAAATTTATCATATTTTTTTATTGTTTCTAGATATTTAATCGATGCATTTTTTATATCTTGGTTAGTTTTTTCACACCACATAATAAACCCCTCTAAACCTTCTTTCATCTCTCCAGTAGGAGATATATATAAATATCTATCATTGATAAGTGTCATTACACTTTTATTAATTGAAACTGGATTTGGTATATTTTTATTATTTGCAATAAGATAATATACTTTAGGAGGCTTTCCTATATTTTCAAGAATATTTTTTTCAAGGAGATTCTTTAATTGTTTTCTTATAGCTCTACTAGTAATGGTGGGAATATAATCAGAGAGTTCTTTCCCTGTAGCCTTACCATGTTTATTTATATACTCTATTATTTTTTCAGAAGTTGTTTGTTTTATAATCATAACAATATAATAAGTTCCTAGTTCCTAGTATATTAGGAACTTTATAGTATGTCAATCCTAAAAGTTCGAATAGTATCTACAATCTCTCAATTAAACATGATATATTGATTTTTGTTATATAATTGAAAATGTGGATTCAATATTATCTCCAATAAAAACGTTCTACTATCATGAACTATGGATATTAATATCGTATAGAAGAGTGTTTATTTTTAAAAATATATTACTAATTGATAATATATTTACATCTTAAAAAGTATAATAAAAATTTGTTAATAATATATTCAAATAGGTATTTGAATGATATAATCATTTCATAAATATATTAATTAAGGAGAGGTGGCCGAGTGGTTGATGGTAACAGTCTTGAAAACTGTCGGGGGTGAAAGCTCCTCGTGGGTTCGAATCCCACCCTCTCCGATGGATGCGACAACATAATACAAAAATCAATAAGCCAAGCAATAATCTTGATAGAGGGATTCATTTTTCAGTTTAAAGTTTCTATTCTTGCTTAATAAATTATTCATTAATATTTTAATTATACAGCCCGATAAGAATTTGAACAGATGTAATATGTCGACAAAGAGTATCAAAGTGGTATAATAATGAAAGTAAATAATAAATAGAGAATTATGATTCAAACAGATTACGCTAAAATACAAGTTCCTCTTAATAGATCTGTAAAAAAATAGGCAGAAAAGGTAGCCCATGATTATGGCTACAGTTCTCTTCAAGAGGTAATAAGGATATTTATTATGAGTTTTTCCAAAGGAGACATTCAGCTTACTCTTTCTTCTCCACATGCTGATGAACATATTTCTCCAGAATTTGAAGAATATTTAGATAAAAAACGAGCAGAAATAGAAGCAGAGACCAAGAATGGCAATTTGCATACTGCTTATTCTGGGAAAAACATTATAGATGCAGCTAGAAATTTCAAAGATGACGAAGAGAATTGAGTATACAAAGGATTTTATTAAACATTTTAAAGCAAGAATCAGCAATCAAACAAATTTAGAACAACGTGTTCAACAGCGTATTGATTTATTTTTAGAAGATCGTTTTACTCCTATACTACAAGATCATCGATTAACTGGAAAGTTGAAAATGTACCGATCATTTTCAGTAACAAGAGATTGAAGGATTATCTACTATGAGAAAATAATGTTGTCTTTGTTGATATTGGAAGTCATAATCAAGTTTATTGAAATAAATGTCCATTAATTTAGTGAGCCAACACAAAAATAGTTCGAAATAAGGCGCATCGCCTCCGAATTAAATAATTATATATTTAAATTTAAAGACAATATTTACTAATGCTGAAAATATTATTTTAGGATACGGAATATTTACAACCAAAGATGATATATAAACATTATCTAGATACCTATTTAAATTCATTAACAAAAATATAGTACTGATATTGTCATTACTACTGGAGGTATATCGAACAACAATTATCCAGTTCTCTCTGAAGCTAGATCAATGGGAGAATATTTATTATCTAAGAATAATTCTCTGCAAAGATAAATTATTATACGAAGAGAGATCTTTATCGATAAACGAGAATCTTTTATATGCAAAAGAACTGCTAGAGCAAAAAGATATCCATCCCAACTATATTGTAATTTTTTGTGACAGTATAAGGATTATTAAGGTTTATTATATGGCATGTCACTTATTTAACAAAAGTCTCTCTCTTTCAACGAATAATATATAAAATATATAAAATATATAAGCATATATTAGAATTACATGAAACAAATAAACTTAACTTACTAACAAATATACTTATTGAACAAGGTAATCTTAGTATACAAGAAATTAATATGCATAGAACTTCTGAAAATATTGCAAAACAGATCAGTGGAACCTTAGCTGAAATTGCAATATTTAATATTTCTGAACTTCAGGAAGATGCAAAGAATCTTAGAAAGAAAAAATTTGGATTAATTTAAAACAATTATCAACACAAAAACTATCTTATAGTATTGCTCCTTATTCATTGTCATGATATTATACTTGTATAATGGCAAATCAAATAGAAGAACCTTCTGCAGATCTAGATTTAAGGTTTAGCAAAAACAAACCTTATAGTGAAGATGTTGTAACTCAAAGAAGCTTAATATTGGGTGAGATGATAGGATTAACATCTGATCAATTAGCTAAGATACAGGAAGATAGGTTTACATTATTTAAGATTGATGAAGAAAAAGTAGAAGCTTTATTAAGAATATTAGAAAAAATAGGTTTTACAAACCCGACAAAGTTAATAGAAGATTTTCCTAATATAATGGGGTCAAAAATAGATTCAGTAAGAGGTAAGATTGATAATCTTAAGGATTTAGGTTTTGCAAATCCAGTAAAGTTAATAGAGATACTTCCTAGTATATTAAGCTACAATGTGGAGTCAGTGAGAGATAAGATTAATAATCTTAGGGATTTAGGTTTTGCAAATCCAGTAAAGTTAATAGAGGGATTTCCTAGTATAATTGGTTCAAAAACAGAGTCCGTGAGAGACAAAATTAATAATCTTAGGAATTTAGGTTTTGCAAACCCAGTAAAGTTAATAGAGGGACAGCCTACTATACTCGGTTATAATATAGAGTCAATAAAAGAGAAGGTTGCAAACCTTAGGAATTTAGGTTTTGCAAATCCAGTAAAGTTAATAGAGAGACAGCCTAGTATATTAAGCTTTAAGATAGATTCAATAAAAGAAAAGGTTGATAATTTCGAAGATTTAGGTTTTACAAATCCAGTAAGGTTAATAGAGAGACAGCCTGCTATATTGAATTTAAATATAGATTCAATAAAGTCAAAAATGGATAATCTAGAAGATTTAGGTTTTGAAAATCCAGTAAAGTTAATAGAGGAACAACCTAATATATTGAATTTAAATATAGATACAGTAAGAGATAAAATTAATAATCTTAGAGATTTAGGTTTTGAAAATCCAGTAAAGTTAATAGTAGAGCAGCCTAATATATTGGGTTATAATATAGATTCAATAAAAGTAAAAATGGATAATCTTAAGGATTTAGGTTTTGCAAATCTAATAAAATTAATAGAGAGGCAGCCTAGTATATTGAGTTACAGTATAGACTCCGTAAGAAGAAGAGTTCGTAAAGTTGGATTACTATTACATCATGAATATGATAACAGTATAGATATATTTGAAGAAGAAAGATTTTTATTTAGTACTAAACCTTTGAAAATGAATATTATTTGGAGAATTATTCAAGATAATGAAGATCTTGGTATCAAAAATCCTGTAGAGAAAAAGAGATTATATGTAAAGTATCTTAAAAATAATTTAGAGGATGTTTTGTTTGAGTATATATATAATAATAAAGGCAATGGTGTGAGTAAAGAAGAAAAGATAGAAAAAATTATAGATGAATGGAAAATATTAAAAAATAAGAAACATGATAGAGAATGGAAGATACTTTATGATTATATGAGAGGATATCATAAAGAGTCCCTATAGATTAAAAAAGTTTAATCTTCAAAGGTTTTTAATAATAGAATAATATATTACTGTATATTTAGATAAAAGATTAAATTTGCATGAAATGCAGAATATTTGATATAATTAGTCATGTCTTCAGCAATAAATATGTTAACTGATATTTTATTAAGTTTCCTTACTTGTGGAACTGCAGTATTTTTGTTTCTTTTTATATTAAGTCTGCTAATAGTGCATTCATCTGCTTATTTCATCCATATACATCTATAGTTTTTGCTACTATAATTGTATATGGATGACTCTTTTTTTATTAAAGATATAGAAGTTTTCTATAAAATAGTATATTCTTCAAGAGCTAAAAAGGTCAGATTGTCTATATTTAAAGATAATACTTTAAATATAATAATCCCAAAATTTCTAAAAAGGACAGATATAACAAAGCTTATCTTAGAAAAACAAGATTGGATTCTTAGTACTATTAAAGAAAATAAAGATAATATATTAATAGAAGACGTAGAGAATTTAGATAAAATAAAATCAAGAATAAAGGTGTTTTTAGAAGATAGAATTGATTATTATAATTCTTTTTATAATTTTGAATTTTTTCGAATATCAATACGTAGGTCTAAGACTCGTTGGGGAAGTTGTTCTGCTAAAAAAAATCTTAACTTTAATTATAAAATCTTTTATCTTCCTCAAAGTCTAGCTGATTATATTATTGTGCATGAAATATGTCATTTAAAGGAATTTAATCATTCTAAGTCTTTTTGGAAATTGGTAGGAGATATACTTCCTGATTATAAGGTTTTAAAAAAAGAATTAAAGAGGTATTCTTTATGATTAGCTGTGAAGCTATTAAGTGTAAATGATATAGACTTCATTGACACTATAGGACATAATAATATATAATCATCCATTATGAATGAGAATTTAGAAGGTGCTCAATTTTTACATGAAGTAGATAGTACTCTGCATACTGGTGCTTATGTAGAAAAAATACAAAATCAATTAGATCTAGATAAGAGATCTCAAAAACCTAGTCAGAAGATATCCTCTTGGCTAGAAGTTTTAGAAAAGACTCATGGGCATAATGATAGTAAAGTTAATGAAAGAATATTTGATTCTTATTTTGAACAATATCTAATAAAGAAGGAAAATATTCCAAATAGTTTTTATGCTACTCAACAAAGATTAGCAGAAGAAAGAGGAGAAGGAAAGATTAAGATCACTCCTGAGTTAAGAGATTCTTTTGCAGAGATCACAATATTAGATCAAAAAAATTCTCTTTTAAATTGGTTAGAGTATCTAACAATGGAAGATACAGATATGTATCCTGTATGGCTTAAGTATTGGATATTTACAGGAGTGGTTAAATTAGGTAAATATGATGAAGAAAAGAAATCATTTTTAAGAAGAAGTAAGAGTACAATAGTACCATTTCCAGATCTGAATAGAGAAGCTCTCTCATATGTAGCAGATCAAATACAAAGGAAGGTAAAGGGGGAGCCTAGTAATGAGAATCTATTAAAAAATCAAAACTTTGGAACATATTATTTACATGCAATAGAGAAAGTAACTCCCACAAGATCTCGATTTAGAGAGGAAGATTTTTATTATACATATGATAATGAAGAATGTTTTACAATATTAGGAGGAGTTGTAAAAGCATTTGGAAAAGAAGGTGAGTTATATGAGAATAAGGCCTCAGATATGATAAGAGTAACAGAAATATGTAGTAGAGTTAGTAAAGGAACAGAGTTAAATATAGAAGATTTAAGATTTCTTTATGAAATAGATAGAAGAATAGAAGGTTTTGGATATCGTAAGGATCCTAGGATAAATAATCTTTTAGAAAGAAGAAATATAAAGGAGGATTTGTCTTTGATAACAGGATACTCCGCAGATGAAATTAGTATAACCACAAAAGATGCATTATCTGGGAATATTAAATTTCATTATGGAGATATTGATCTTAGTGAACTTACATCAGCAGAAGGATTAGTATTCCCAGAAACAGTTATAGGGTCCATTTACCTTGATGAGCTAAGGTCAGCAGAAGATCTAAAATTTCCAGAAATAGTTGGGGGAATTCTTTTTCTTGATGAGCTAAGGTCAGCAGAAGGATTAATATTTCCAGAAACAGTAAGAGGGGGTCTTTATCTTAATGGACTAAGGTCAGCAAAAGGCCTAAAACTTCCAGAAATAGTAAGAGGAAGCCTTTATCTTAATGAACTTACATCCGCAGAAGATCTAAAACTTCCAGAAAGAGTAGAAGGATCTCTTAGTCTTAATGGACTTACATCAGCAGAAGATCTAAAACTTCCAGAAAGAGTAGAAGGATCTCTTAGTCTTAATGGACTTACATCAGCGGAAGGTCTAAAAATGCCAGAAATAATAGAAGGGAATCTCTATCTTAATGGTCTAAATTCAGCAAAAGGTCTAAAACTTCCAGAAATAATAGGAGGAGATCTTGATTTTAGTGGATTTAATTCTTCAGAAGAGCTAAAACTTCCAGAAATAGTCGGAGGAGATATTAATCTGGGGAGACTTGAATTCTCAGAAGGATTAATACTGCCAAAAACAGTCGGAGGAGATATTTATCTTTACAAGCTTTTGATTTCTCCGGAAGAGCTAAAACTTCCAGAAATAGTAGGAGGAAGTCTTTATCTTGGTATAATTAGGTCAGCAGAAGGTCTAAAATTTCCAAAAAGAATAAAAGGAAATCTTGGTCTTAGTAGACTTAAATCATCAGAAGGTCTAAAACTTCCAGAAAGAGTAGAAGGAAATCTTTATCTTAATAGTCTAAATTCAGCAAAAGGTCTAAAACTTCCAAGAATAGTAAAAGGAGATCTTAATCTTAGTAGTCTTGCCTCAACAGAAGGTCTAATTTTTCCAAAAACTGTTGGAAGAGATCTTAAACTCAGTGGGCTTACATCCTCAAAAGATCTAGAACTTCCAGAAATAGTAGAAGGAAGTCTTTATTTTAATAAACTATCGTCTACAGAAAGACAAAGTTTAAAATTGAAGTATCCTAATATTAAAATATATCCTTTATAATATTTTTTTATATTATATTTGTTCTAATATCTATATATGATATGGAGCTTATCTAAATTAAATAATTTGAAATTTATATCTTTACTTATACTTCACGACAAAATTACTTGAAAACTATACATTGAGTTTACAAAATGTCTTGTATATGATATATTCTTGTTGCATTACATTCAATTTGTTTGTATAATTTTTTTATTATATTAGTATTTTTTTATTATGGTAGCATTTGATAGGAATAAACCTCATAAAAATGTTGGAACAATTGGTCACGTTGACCATGGAAAAACAACATTAACGGCAGCAATTTTAAAGGTTTTAGCTGCAGCTGGTTATGCAGCTCAAAATAAATCTGTTGATAATTTAGATAGTGCTCCTGAAGAAAAAGCAAGAGGAGTTACTATTGCAACAGCACACACTGAGTATGAAACTTTAACTACTCATTACGCTCATGTAGATTGCCCAGGGCACGCAGATTATGTTAAGAACATGATTACAGGTGCAGCTCAAATGGATGGTGCAATTTTAGTTGTTGCAGCTACTGATGGTCCTATGCCTCAAACTAGAGAGCATATACTTTTAGCTAGACAGGTAGGAGTTCCTAAGATTGTTGTATTTTTAAATAAAGTTGATATGGTTGATGATCCAGAATTGATAGATTTGGTTGAAATGGAAGTAAGAGAACTTCTTTCTAAATATGATTTTGATGGAGATGCTACACCAATTATTAGGGGTAGTGCACTTAAGGCATTAGAGCATGCTTGTGGTAAAGAAGATTGTGAATGGTGTGGACCTATTTTAACTTTAATGAATAATGTTGACGATTATATTCCTGTTCCTGAAAGAGATGTTGACAAGCCTTTCTTGCTACCAGTAGAAGATGTATTTTCTATAGAAGGTAGAGGGACAGTTGCAACAGGTAGAGTGGAGAGAGGTTTATTAAAGGTAGGGGAAGAAGTTGAATTGGTAGGTTTGAGAGATGATATTAGGAAAACTACTGTTACTGGAATAGAAATGTTTAATAAGTCTTTAGATACTGCACAAGCAGGAGATAATGTAGGTTTATTGTTGAGAGGTTTAAAGAGAGAAGATGTTGAAAGAGGTGAGGTTATAGCAAAATCAGGTTCAGTTACTCCTCATACAGAATTTGAAAGTGAAGTTTATATATTAACTAAGGAAGAGGGAGGAAGACATTCTCAATTTGTTTCAGGATACAGACCTCAATTTTATATAAGAACAACAGATGTAACAGGAGAAATTCAACTTCCAGAAGGAGTAGATGTTGCATTACCTGGTGATAATATAAAAATGACTGTTAGATTAATAACACCAGTTGCATTAGAAGAGGGAGTAAGATTTGCTATTAGAGAAGGTGGTAGAACAGTAGGTGCTGGAGTTATAAGTAAGATAATAAAATAAAATATTATGGAAAAAAAGATAAGGGTAAAATTAAAAGGGTTTGATGTTCAAGTTCTTGATAAGTCTGCTCAAAAAATTATTGATGCAGCAATTTCATCTGGAGCTAAAACTTCAGGCCCTATACCCTTACCTACTAGAATTAAAAAGTTTACATTAAATAGATCTCCACATATAGACAAACGATCAATGGAGACTTTTGAGATGAGAGTGCATAAAAGGTTAATAGATATTCTTTCTCCTACGGGAAAGACTATTGATGCTCTCACTCATTTACAATTACCAGTTGGTGTTGGAATAGAAATTAAATAATATTATATATGTTAAAAAATAAAGGCTTTTTGTCTTTTAGTGTACTGTTATGAAAGGAATATTAGGAATAAAAAAAGATATGACTCAAATCTTTAGAGAAAATGGAGTAGTAGTTCCTGTGACTTTAATTGATACAACAGATTGTGTTGTCTGTCAAGAAAAAAATATAGAAAAAGATGGATATAAATCAGTTGTTTTGGGTCTAGGTGTAAAAAAACACCCTACTAAACCTGAGAAAGGTAAATACAAAAATTTGAGAACACCTATGTTTGTAAAAGAGGTTGGAGAGATAGATAATGTTAAGCTAAATGACAAGATAGAAGCTTCTGTTTTTGAAATAGGAGAAAAAGTTAATGTATGGGGTATTTCTAAAGGTAAAGGTTTTGCTGGAGTTATTAAAAGATGGGGTTTTGCTGGTGGTCCAAGAACTCATGGTCAATCAGATAAAGAAAGACATGGAGGTTCAATTGGATCAGGTACAACACCTGGAAGAGTAGTAAAAGGAAAAAAAATGCCTGGTAGAATGGGTGGAGATAAAATTGTTGTTAAGAATTTAGAAATAGTTGATATAAAAGAAAATATTTTAGTTCTAAAAGGAGCTGTTCCTGGTGCAAGAGGCGGATTAATAGTAATAAAATCAGTATGAAAGTAAATATATATAAACAAAATGGGGAAAAAAGTACCCAAAAATTAGAATTGAAAGAAGAAGTATTTGCATCTAAGATATATACTTCTTTGATGGAGCAATATATTTATATACATAATGTAAATACTAGACAGGGAACTAGGTCTACTAAAGGTAGAGGTGAAGTTTCTGGAACTGGTAAAAAACCTTGGAAGAATAACAAGGTTGGTAAAGCAAGAACTGGTAGTATGAGAACTAATATATTTAGAACAGGAGGAGTATCTCATGGTCCAAAACCTTATGAATATAATTTAGTTATGCCAAAAAAGATGAGAAGAAAAGCTTTATATTCTTCTTTGAGCATAAAAAAGAATGAGGATTCTTTAATATTTGTTGATAAATTAGTTTTTGAAAAAAATAAATTAACAAAACAGGCTGTGGATTTTTTAGAAAAATTATCTTTAAATAACATAAAAACTCTTATTATTACTGAAAATAAGGATGAGAATATTATAAATGCCTTTTCTAATATAAAAAAAGTAAAAGTATTAGGAGCTCCTTATATAAATTCTTATGATATATTAAATTATAGAAAGATTATTTTTTTAAAGGATTCTGTAGTAAGTATTCCTGGATATAACGAAATATAAAAATTATGAGAAAGTCAGATGTTTTAATAAAACCTATATTGTCAGAAAAAGTATTGAAAAATGTATCAATGAATTGGTATGGTTTTGTAGTTGCAAGAAAATCTGATAAAATAGGGGTAAAATATGCGGTAGAAAAAGCTTTTGGGGTGGATGTTATCGAAATAAGATTATTAGCTCAAAAAGGAAAGAAAATTAGAGATACAAATATCAAAAATAGATTAATTAAAAATAAGAGAGCTGATTTAAAAAAAGCTTATGTAAGAATAAAGGAAGGTCAGAGTATTAATCTTTTAGGAGATGAAGGTACAGATAAACCAAAGAAAAAAACAAAGAAAATAGTAGAAGATAAGTCTAGCAAAAAAGAAGAAAAGATTACAAAAAAGGTAAAGAATAATGAAAAGAAGTAATAATAAACAAATGAAAACCTATAATCCAGTAACACCTACTTTAAGGCATACTGTTTTAGTCTCAAAAGATGGAATAAGGAAGAATACTCCAGAGAAATCTTTATTAAAGAAGATACAAAAACATTCTGGAAGAAATTCTAGAGGAGTGATAACTGTAAGACATCAAGGTGGAGGAGTAAAAAGGATGTATAGAATGATTGATTTCAAGAGAGATAAATATGATATACCTTCTAAAGTTTTTTCAATAGAATATGATCCAAATAGAAGTGCTAGAATAGCTCTTTTGCACTATACAGATGGAGAGAAAAGGTATATAATTGCTCCTGTTGATCTGAAGGTGGGTATGGTTGTTTTGTCAGGAGAAAATGCTCCTATTGAAGTAGGAAATTCTCTTCCATTAAAAAATATACCTATTGGTTCTGAGATATACAATATTGAACTTTCAAAAGGAAGGGGTGGAATTTTAGTTAGAAGTGCAGGTGGTTCAGCTAAGTTACAGTCAGTTGAAGGTGAAATGGCTTTAATAAAGTTACCTTCAGGTGAAGTAAGATATATAAGGGCTGAGAATTTTGCATCTTTAGGTAGGGTTGGAAATACAGAACATGGAAATCAGAAATTAGGAAAAGCAGGTAGGTCAAGATATTTAGGAATAAGACCTTCTGTAAGAGGTATGGCAATGCATCCTAATCAGCATCCTCATGGAGGAGGAGAAGGTAAAGGTCAAGTTGGAGGAATATCTAAGGATATGTGGGGACATAGGAGAGGAACAAAAACTAGAAAAAATAAAATTACAGATAAATACATATTAATTACCAGAAAAGGTAGAAGAGTAAAGAAATAATTATGTCTAGATCTAATAAAAAAGGTCCTTATGTGGATCAGAAACTTTTAAAAAAAATATTGAAACAGAAAGAAACTGGAGATCGTAAGCTTATAAAAACATGGGCTAGGAGTTCTAGTATATCTCCTGATATGGTAGGTTTTACAATAGCTGTACACAATGGTAGAAACCATATACCTATTTTGATAAATGAGACTATGGTAGGACATAAATTAGGTGAATTCGCATTAACAAGAACATTTAGAGGTCATAGTAAAAAAGGTAAAATTGCACAATCACAAGGTAGTGTAGGTAGAGTAGAAAAATAATTATGGATAATAAAATAGCAATTGCAAAAATAAAAAATATTAAAGGTTCCGCAAGGAAGACTAGGATAGTTATTAATGCTATAAAAAAAATGACACCTTTAGATGCAATTGAACATTTATCTTTCATGAATTATAGAAATTCACCTGTTTTACTAAAGATAATAAAAACTGCTATAAATAACGCAAATGTATTAAAAATGGAAGCTCCTTATGTATTTGAGGAGATAAAAGTAGATGAAGGTATGACTAGACAGGGTATAAGATTTAAAAGTAAAGGTATGGTTGAAATAAGAAGGAAGAGATATTGTAATATAACTGTTAAAATTAAAGAGGATATAAAAGAATAATGGGACAGAAAATTCATCCTACAGGTTTTAGGATAGGCATAAACAAAAACTATAAATCTTTATGGTTTGCAGAAAAGGGTCTTTATAAAGAACAATTACAGCAAGATTTAAAAGTTAGAAAGTTTCTTAAAAAAGAATTAAAGCAAGCTGGTATAGGAGATATTGTCATAAAAAGATCATTAAATAATGTATCTATAGACATTTCTGTTGCAAGGCCTGGTATAGTAATAGGTAGAGGTGGACAAGGATTGGAATTATTAAAAAAAACTTTAGATGTAATGTTTGGTTCAAGTATACATTTAGATGTACATGATATAAAAAAACCAGATCTAAATGCAATGATAGTAGCTCAAAATTTAGTAGATGGTATTATGAAAAGAATGTCTGCAAAATTTCTGATGGATAAGGAATTGGTTAAAATAAAAGAAGCTGGAGGATTAGGTGCTAAAATAGAAATATCTGGAAGAGTTAATGGTGCAGAAATACATAGAACAGATAAAGCAAGATTTGGGTCAGTACCTCTTCAAACATTAAGAGCTGATATAGATTATGCAGATGCTTATGCTAAGACAAAGACTGTAGGAATAATTGGAATTAAGGTATGGATATATAAAGGAGAAAAAAATTATATTGATGAGGATACTTTATCATGATAATGCAGCCAAAGAGACAAAAATTTAGAAGAACTTTTAGAGGAAATATAAATAGTATTGCTAGTAATGGATATACACTAAGTTTTGGAGAGTATGGTCTAAAAGCTATGGATTCAGGTTTAATGACAGCAAGACAAATAGAGTCAGTAAGAAAGACAATTACTCATCATACTAAAAGAGGTGGAAAGGTCTGGATAAGAGTTTTTCCTTATATGCCTATAACAAGAAAATCAGAAGGAGTAAAAATGGGTTCTGGAAAAGGTAATGTGATAGGATTTGGTACTCCTATTAAAGCTGGAAGTATATTATTTGAAATAGTCGGAGTAAGTGAGGATATGGCAAAAGAAGCTTTTAGATTAGCATCACACAAGATACCTTTTAAAGTTAAATTTGTAAAAGTTGAAGATCAATATTAAATATTATGGATATACGAGAAATTAGAAAATTAGATATTAAAGATATATATAAAGAGATTAATAAATCTCAAGTTGAACTTTTGAAAAGAAAGATTGTTTTGAAATTGCAGATAACTCAGAAATCTTCTAGTGAAGGTATTAATGTGTCGGAAATATCTAAAATGAAAAAATATATAGCAATGCTACATACCGTTTTAAATGAAAAAAATTTTAGTATAAAAGAATAATGGCAGAGAAAAAAGAAACGAAAAAAAAGAATATTATAAAAACTTCAAAAAAGGTTGTGGAGAAGAAGTTAGTTGAAAAAAAGGCAAAGGTAGTAGAAAAGAAACCTGTTGTTTCTAAAAAAGTTGAAATTAAAGTAAAAAAAGACAAACAAGTAATTGAGAAAAAAGAAATAAAAAAATCTAAAAGAAGAATTCTTAAAGGAATTGTAATAAAAGATAATTCTCTCTCTCATGGGTTTTTAAAAGTAGAGGTTACAAGAATAGTTCCTCATCCTTTGTACAAAAAACTTATTAAGAAAAAGAAAAAGTTTTTAGTTACATGTATGAGAGATATAGAAATTAGTATTGGAGATAAAGTTTTAATAGAGGAAACGAAACCAATTTCTAAAAAAATTAGTTTTAGATACGTAAGTAAGGTATAATATAGTATGTTACAGAAAGAATCAGTTATAAAATGTATAGATAATACTGGAGCAAAGGAGCTTAGAATAATAGGTACTATCGGTGCTTCATTTAGAAGGTATTCTAGAATAGGAGATAGAGTGAAGTGTGCAGTTGTAAAAGCAACACCTTCTGGGCAAATATCTTTACATGATAAAGTAACTGCTGTAATTGTAAGAACTAGGAAAGAAACAAGAAGGAAGGATGGTTCATATATTAGATTTGATGATAATGCTGCAGTAATTATAGATGATAAAAGTGGAGAACCAAAAGGAACTTCTGTTTTTGGTCCAGTAGCAAGAGAATTGAGAGATAAAGGATATAATAAATTAGTTAGTTTAGCAGACGAAGTACTATGAAAATAAGATTAAATGATACAGTAAAAATATTAAGTGGTAATAGCAAAGGTAAGACGGCAAAAGTAACAAAAGTTTTGTCTTCAAAAGAGAAACTTTATGTTGATGGTATTAATATAAAGAAGAAATTTGTTAAAGGACAAGGTATTGTAGATATACAAAAACCTATAAATCCTTCAATAGTATCTTTAGTGTGTCCTAAATGTGGTAAGCAAACTAGGATTGGTTTTGTAATTAATGATAAAGGATTTAAGGATAGAATATGTGTGAAGTGTAAAAGTGTTGTATGAGAAATTATATTATTTCAGGTAAAAATCCTGTATTATCTTTATTACGTTTAAATTTAAAAGTAATAGAAGTTAATATTGAAGATAATATAAGGTTTGATGAAAAATTAAGTGAAATCGTTGCTCTTTGTAAAAATAAAAATGTAATAGTAAACTATAAAAAAAGAGATTTTTTTAAAAATTTAGATGAATCGCAAGGTATTTGTGCTAAATTTGAAAAGGATGATCATTTGGATATAGATAAAATATTAGAGAAAGAAAGTTCAATTGTAATTTTGAAAGATATAGTATATAAACAAAATTTAGGAGCTATTATTCGTTCTTGTGCATTAGGCGGGGTTGATTTATTAGTATTACCTAAAAAAGAAGAAGGATTACATCTAACATCAGAAGTCTTGAGGGTTTCTCAAGGAGGAGCACTTTCTTTAAATATTATTTATGTTAATATTTTTGAATTTATCAAGAAATTAAAATATTTTGGAATTCCTCTTTTTGGAATAGAAAATTTTGGAAAAGATATTTATTTCAATGAAAATTTAAAAGGTTCTGTTGCATTTTTATTTGGTTCTGAATCAGATTCTTTATCAGAACCTTTATTGAAGAAGTGTGATAAAATACTAAAGATTCCGCAATCAAAGAAGAGTTCAGTGAATTCTTTGAATATTGCATCGTCTGTAAGTATTATTATTTATGAAAAAATTAGACAAAATTATATAAAATGAGTAATTTAAAAGAAGAATACATAAAAAAAATAAGAGAAGAAATTAAAGCAGAAATGAAGCTAGATAATGTTTATGCTGTACCTACTCTTTCTAAAATTATAGTTAATTCTGGAGTTTCTGCAGCTGTTTCTAATCCAGATGCTCTGAATGAAATGAAGGAAATTATTTCTTTAATAACTTCTCAAGCACCTCTTATTACTAAGGCTAAGTATTCAATTTCTAATTTTCATATAAGAAAAGGTATGAATTTAGGTGTTATGGTAACTTTAAGAAATGATAGAATGTGGAATTTTTATGATAAATTAGTAAAAATAGTTATACCTAGATTTAAGGATTTCAGAGGATTAAGTTTATCAGCTTTTGATAAATCAGGGAATTACAATTTAGGTTTTTCAGAACATACTGTATTCCCAGAGGTTGCACAAATGTATGTAGATAGGGTAAAATCACTACAGGTTACAATTGTTACAACAGCGAAGGATAAAGAAAGTGCGGAAATTTTATTTAAACATCTAGGTTTTCCTTTAGAAAAGTAATTTTATGGCAAGAAAAGCATTATTAGATAAACAACAAGAAAGAATAAAAAAGGCTAAATATGAAGTTAGAAAGTATACTAGGTGTTTAGAATGTGGAAGATCTAAGGCTGTGTTTAGAGATTTTGGTTTATGTAGAATATGTTTAAGACATTTTATTTTAGAAGGAAAAGTTCCAGGAGTTAAAAAAGCTTCATGGTAGAATAATAAAGATATGACAGATCCAATAGCAGATTTACTTACAAGAATTAGGAATGCAATTATGAGAGGAAAAACTGAGGTCTCAGTTCCTGTAAGTAATATAAAAGTAGATATAGTAAGAGTTCTTAAAGAAATAGGGCTTATTAAATCTTTTGATATAGTTGATAATAATATAATTATAGTATTAAAATATACTAAAGGTGTTAATAAAATATCTGGTATAATAAGGGTCTCTAAACCAAGTTTGAGAGTATATTCTTCTTACAGAAGGATACCAAAAGTGTTAAATGGTTTAGGTTATTATATAGTATCTACACCTCAAGGGATACTTTCTGATAGAGAAGCTATTAAGAATAAATTGGGAGGAGAATTAATTTGTAAAGTTTGGTAAAAATAAATATGTCAAGAATAGGTAGAATGCCAATTGAATTAAATGATAAAACTGAGGTTAGTATTTCTCCTCAGAGTATTACTGTAAAAGGTCCGAAAGGAGAATTGAGTTGTGATAACTCATTTAGAGTAATGATTACTAATAAAGATGGAAAAATCTATGTTGAAAGAAAATCTGATTCTAAGGAAGATAAATCTTTCCATGGATTATATAGATCTTTAATTAATAATATGGTAATAGGTGTGAATGATGGTTTTGTTAAAGAATTAGAAATAAGAGGTATAGGTTATAGAGTAGCTTTAAATAATGGAGATTTAGTTTTTAATGTAGGTTATTCTCATCAAGTTTTTGTTAAGAAAATTGATGGAATTGAATTTGAAGTTGTAGATAATAATTTTATAAAAATATCAGGTATAGATAAACAAAAAGTAGGACAAGTGGCAGCTAATATAAGAAAAATTAGAAAACCTGAACCATATAAAGGAAAAGGTATTAGATATAAGGATGAAGTTGTAATTAAAAAAGCAGGTAAGAGTGCTAAATCAGCAAAATAATTATGAAAAGAATAAGCAATAGAACAAAAAGACATTTTATTATAAGGAAGAAAGTTAAAGGAACAAGTTCTGTTCCTAGATTATCTGTATTTAGATCAAATAAAAGTATATATGTACAGATAATAGATGATATAGAATCTAAGACTTTTTTAGGAATGAGTAGTAAGGTTATTTTAGATGGTAAAAATAAAACTGAAAAAGCATATAATTTAGGGTTAGAATTTGCTAAAATAGCGAAAGAAAAGGGTTTTACTAAAGTTGTTTTTGATAGAGGTGGAAATAAGTATCATGGTAGAGTAAAGGCTTTTGCAGAGGGAGCAAGGAAATCTGGTTTAATATTTTAATATATAAATATATGTCTGAAGAGAAATTAAAGAAAGAAATTATTATAGATGAAAGTTATATTGAAGATAATATAGCTGATTATGAAAGTCATATATTAGAGACTTCTAGAGTTACAAAAGTTACTAAGGGAGCTAAAAGATTTAGATTTTCAGCTATGGTTGTAGTTGGAAATAGAAAAGGTTCTGTAGGAATAGGAAAGGGTGTTGGTGCAGATCCTAAATCTGCGATTGAAAAATCTATTAGAAGAGCTAAAGAAAATATTATTAAAATAAATATTACAGAGAATACAATAACACATGAGATTACTCAGGATTTTAAATCATCAAGATTGATGTTTAAACCTGCTGTTCCAGGTACTGGTCTTATAGCAGGAAAGAATATTAAGCCAATTTTAGAGCTTGCTGGAGTAAAAGATGTGTTATCTAAAAGATTAGGTACTTCAAATAAAAAATCAAATATATATTGTTGCATTTTAGCATTACAAAATTTAAAGGCTAGATAATATGTTAATAAAAAATAAAATAACAACTAAAAAGAAAAAAATAATAGGAAGAGGTATAGGTTCTGGTAAAGGAGGACATACATCTACTAGAGGTATGAAAGGTCAAAAGAGTAGATCAGGTTCACATATATCTAAGTTTTTTGAAGGAGGACAAAATCCTTTAATAAAAAGAGTTCCTTATCTTAAAGGATTCAAAAGATTTAGTGATGAGATTGAAATTATGAATTTAGATATGATAGATAAATATTTTACAGATGAACAAGAAATAAGCTTGAATTTGTTACAAGAGAGAGGTTTTGTAAGAGGAAATAAGGTTAAAATTTTATCTAGAGGTAAACTTACAAAATCTTTTAAATTTAAGGAAAGCGATTTTAGTTTTTCTTTAAATGCAAAAAAAGAAATAGAAAAATCAAAATCTCATATGATTTAATATGCAAAAAATTACAAATACAATAAGACAGATATTTTCAGCTCCAGATCTAAGAAGAAAAATTTTATTTACATTTTTTGTTATAGTAATTTTTAGGCTTTTTGCTTCAATTCCTGCGCCAGGTGTAAATGTTGCAACTCTAGCTTCAGTTTTCAAAAATAATCAAGCTTTAAGTGTTCTAAATATATTTTCGGGAGGTACTCTCTCTACTGCAGCAATAGTAGGTATAGGTCTAGGACCTTTTATTACAGCAACAGTAATATTCCAATTTTTAGCATATATAGTACCTAAAATTAAGGATTTACAAGAACAAGGTGAGAGAGGAAATAAAATAATAAATCAATATACTAGAATAATAACCGTACCGATAGCACTTCTTCAGTCTTATGGTATATATTTATTTTTATTAAATGCTTCTCAAACACCTATAATATCAAAATTAAGTGGTTTAAGTCTTTTAACTTTTATATTAACTCTTACTGCTGGATCAATATTTTTAATGTGGCTTGGAGAATTAATTACAGAATATGGTGTAGGAGATGGAATTTCTCTTCTTATAGCACTAGGAATTTTAGCAACATTACCAGAACAGTTGATATCTGCAATTCAAACACAAGGTGTTAATGGTATTGTTATTATAGTATTAATATTACTATTTATAGGGATGATTGTTTCTATAATACTTATAAATGAATCTACAAGAAATGTTCCTGTAAATTATACTAGAATGGCAAGAGGTATGGAGTTAGTTGGTGGAGAAAAATCTTATATTCCCATAAAGATAAATACTGCTGGTGTTATGCCTATAATATTTGCACTTTCATTACTCTTATTACCGACAGAGTTATCTCAAATTTTACAGAATAATAAAAATCATATAATACATATAGTAGCAACAAATGTTTTTAGTTTTCTTTCAAATCAAACATATTATGGAATTTTGTATGCAATCTTTATTATATTTATGACATATTTTTATACTTTTATAGTTTTTAAACCTGAAGATGTAGCTAGAGATATACAAAAGCAAGGAGGTTTTGTTCCAGGTTTTAGACCTGGTAAACAAACGGAAAATTATATATATGATATTTTATTAAGACTCACCTTTGTAGGTGCCATATTTCTTGCTGTAATAGCCCTAATTCCTTTAATAGTACAAGCTTCGACAAATATATCATCAGTAAGTATAGGAGGTACCAGTATTCTTATTATTGTAACAGTGATTCTTACAATGATAAAAAATATAAAAGCTCAAATGATTACACGTTCTTATTCTGTTTATATTTAAATAATAAATTTCAAATATATCGAAGATATAACTTTATATGTTTTTCTCTTTTTTATTATATCAATACTTCCTTGAGTTATATCTGAATATTTTTTTGTTATAAATAGTCCATATCCTAGAGAGGATCCTTCTCCGTGTGAATAATTTAATTTTGTTATCTTCTTTTCATTAAAATCATTATCACTATCATTAATAATTATAATATTTAATTTATCTGACGATTTTTCTTGAATTATTTCAATTAAACCTTTTGGTAGTGAAAAAATTATAGAATTTTCTATCACTTCGTATAAAATTTCTTTTATTCTTCTCATATCTGAATTTATAAAGTAATCCTCTTTTGTATATTTACTAAATTTAAAAGATATTTCTTTAGATTTGATTAAAGGGTAAAGTTCTTCTAATATTTCTGATATTAATTTATCTATTTTGAAAACACTTATATCTAAATAATTATCATTATTTAATATTTCAATTTTCTTATTTATTTTTTTTGATAGATTATTTATAGTAATTATATTTTTCTTTAAATCCTTATCCTGAGGTACATTCTTAACATAATTATCTATTTCAGACATTATTTGAGATATAAAATTTATATTAGAAGTTTTAAGATTTTCTAGATCCATATTATCTTTTGTTATGTCATCTACTTTTTTTTGTTGATATATTGATATTTTTTTTAAATAAGATATTAGTATAGAAAAGAATATTAGAAAAAATGAAAGATACAATAGATATGTGATTTTTGGATTAAAAATATTCATCAATATTAGTATAATTTCTGTAATTAATGTATATAAAAGAGCCTTATCCTCTATAAAGAATACAGATAGGTATAAAATTAGAATTAGAGATTCAAAAGAATAATTACCTAAATGATAAAGAAATATATTTTCAAAAGAAAATAATATTATACCTATAACTATAAGAAAATATTTTTTAAATTCATATTTTTTTTGAGGAATAATAAAAAAAGATATTAAATTTATTATAAATAAAAAAATAATTATAGAAAATGGATATATATATATATACTGATTAAAATGTATATTTAATATAAATATTAGAAATAGTAATATATTTACATTAAATAATATAAATATATTATTTCTTGATTTTTCTAAATTTATTAACTCTTTTATATACATATTATATTTTTTTAAAACTTAGTGTAATTGAATTATCATTTTTTACATAATTTTCACCTATAATACTAGATAATAATTCAGAGACTTTTATCCAAAGAGTGGTCTTTTCTATATTATTGATATTGTCATTATTAATATAATTATATATTTTTTCCTCAAATACTAATTCCATATCTATTTTTTGACCAGACACTATAAATTTTACTTTCATAGAAGGAATATTCTCCTCTTCTATAAAATTTAGAATTAAAGAAAAAAAATTAGATAATTTTTCTTTATCCATTATTATATTTTTTTCTGAATTTATATTAGATACTAGTTCAATTTTATTTATAAGATTTATATCGTATAAATTTTTTATTTCGTTTAATATATTCTCTAAGTCAAATGATTCTAAATTTAATGATATTGTCTTATTTTCAACTTCTTTTACGAAGAAAATATTTTTTAAATATATAGAAGTTTTATCTAAAGATATATTTAAATTTAAATATTTAGATATATCATAAATATTAGATAATAAATTTAATTTTAGATTTTTTAAAGATTTGTTTTCGAGTATATTATTTGATTTATTTTCTATATATTTATCTTTTATATCTTGGTATAAGTCTGTTTGTTTTAAATTATAAATATAAATATTGAGAATATAAGAATTTATAAATATATATAGCAATATGTATGTAATATTAGAATATTCTATATTATAAAAAAAAGATAATATAAAAAATGTAAAATTCAGAATAAACATTGTTTTAAAAAGATTTTTTTCTTTTAATAATATTAAATATATATTTATCATTATTAATAAGAGTGTTATAAATAATATTTCAGAATGAAGAAGAAAAATTAATAAACTTATTCCTATAAAACAAAATAGGTAAAATATATACTTTGTGAGTAATTTATTATTTTTGTAATAAAAGTAGAAATCAAGTGAAAAACAAAAAACATATAAAAATAAATAGATTATTATATTTATTTGAAGAGTATAATAAAATATTTGAAAATATGATACCATTAGAGTTATTATAATGGTGAAAAATATTAATAAAGATGTATATTTTTGTATATTTTTATTTATTAGATTCATTTTTATAGTTTAACATTTTTATATTATTTCTAAAATATGAAGATATTATCTTTTATTGGTCCATCTGGTACAGGGAAAGGAACACAAGCAAGTTTATTTAAAAATTTAGGATTTGATATAATTTCAGGAGGTGAAATCCTTAGAAGTTTATATGAATTAAAAACAAAAGAAGGGATTGAATTATTTGAAAAATATTGGTCAAAGGGTATATGGGTTCCTGATGATATAATATTAAAACTTATATTTGATTCCATAAATTTTAAACAAAAAAGAGATTTAATTTTAGATGCTTGTCCTAGAACTTTAAATCAAGCTATTCTTTTAGATAAATTCTTATTTTTAAATAATCAAAAATTAGAATATGTTTTTGAATTTAAGTTATCTAAGGAAATAATTTTAGAAAGGATAAAAAATAGGAAGATTAAAGAAAAAAGAAAAGATGATATATCTTTAAGTGTTATAGAAAAGAGATTGTTAGAGTATTCAAAAAATATACCTGAAATAGAATCGTATTATAAAGAAAGGTTAGTTTATATAGATGCATCAATAGATAAAAGTATAATTTTCGATATTATTGCAAATAAGATATGAATCCAAAAAGTAAAACAGAAATAGAATATATGAGAAAGGGTGGAAAATTATTAGCCAAAATACTCAATATTTTAAAACAAAATTCTAAGATTGGAATAACAGAAAATGAATTAGATAAAATGTCTCAAGAATTATGTAAAGAATATGCTGTTTCTCCGGCATTTTTTAAATATAAAGGTTTTCCAAAGTCATTATGTATTAGTGTTAATGATAAAATTGTTCATGGAATAGCAACGGATAGAAAAATTAAAGAAGGGGATTTAGTATCTTTAGATTTTGGAATAATATATAAGGGACTATATACAGATGCAGCAGTATCTTTCCTTGTATCTTCTAAAGATCCTAAGATAGAAGATTTTATAGCAGCAACAAAAAAATCTAGAGATGAAGGAATAAAGGCTTCTTTAGAAAATAATTTTGTAGGAGATATATCTTTTGCTATGCAGAAACCTATATTAGAAAAAGGTTATTCTATAGTAAAAGAGTTAGCTGGTCATGGAATAGGATATAAATTACATGAAGATCCTTTTATATTAGGATATGGTAGGCCAAAAACGGGAATGAAACTAAGAAGAAATATGACCATAGCTATAGAGAGTATGATAAATATGGGAAGTGCTGATATATTAGAAGAAAATGATAATTGGACAATTAGAACTAAAGATGGCTCTTTATCTTGTCATTTCGAACATACTATACTTATAACAGATTCTACGCCTGAGATTCTAACATTATTATGAAGGTATATCATCTTCAAGTTCAGAGATAAGTACTTCTCTTGGTTTTGATCCATCTTGAGGCCCAACAACTCCATTACTTTCCAATTCAGCTATTAATCTCGCAGCTCTAGCATATCCAATTTTTAATTTTGATTGAAGTATTGAAGCTGAACCTCTCTTTGCAAGGACAACTATTTTTAAAGCTTCTGGATAGAGTTCATCGTCTGATAAATTTTCTGTATTTGAAAATTCAGATAAGTTTTGTGGATTTAAAATTTCTTGATTATAATCATTTTCATTAGCTTGTTTAGATATAAATTCTATAACTCTACTTATTTCTGTTTCTGTAACTAAAGGTCCTTGTAATCTTATAGTTCTTCCTAAATCGGGTGATTTAAATAACATATCTCCTCTACCTAATAATGCTTCAGCTCCTATCTGATCTAATATTACTCTAGAATCAATTGAAGATACTACAGATAGAGCTATTCTTGCAGGTATATTAGCTTTGATAAGACCTGTAATGACATTAACAGATGGTCTCTGAGTTGCTAGTATAAGATGTATTCCTACAGCTCTTGCCATTTGAGCAAGACGTATAATAGAATTTTCTATATCAGCACCTTTTGTAAGTATTAAATCTGCCATTTCATCAATAAATATTATAATATTAGCTAATTTTTCATCTTTTTCTTTTAAATCGTTATATCCATCTATATTTCTTACTCCTTCTTTTTTCAATAATTCATATCTTCTGTCCATCTCCTTTAAAGACCATACAAGTGCACTTTTTACTAGAGACATATCTGTTATTACAGGAGTTAGTAAATGAGGTATACCACTATATATAGAAAGTTCTACATGTTTAGGATCAACTAATATTAATTTTAATGTATCTGGTGAATGTTTATATAGTAATCCGAGTAAAAATGAATTTATAAGCATACTTTTCCCAGAACCAGTAGAACCTGCTACCAATAAATGTGGCATATCTGCAAGGTCTTTAATTACAATCTGACCTGTTACATCCTCTCCTAATACTAATGGTAGTTTTATTTTTTGGTTAGAAAATTCTTCACTCTCTATTATATTTTTAAAAGATACTATTTGAGATTTAGGATTAGGCATCTCAATACCAACTAGAGATGTTCCTGGTATTGGGGCATCTATTCTAACAGAACCTGAAGGTGCTGCTAGTGCAAGTGCTAGATCCCTAGATAAAGTATTTATTTTTGATACTTTAGTTCCTGTTTTTATTTGCAGTGCGTATCTTGTTACAACAGGACCAATAGCAACATCTACGATTCTAGATGTTATATTAAAGGATGAAAGTGTACGTTCAATAATATCAGAATTTCTTTTTATTTCGTCTTTATTAATAACATTTATTCTTTGTACGTCATTTAATAGATCAATATCAGGTAATTCCCAATTATCGAAATGTATTTCTTCTCTATGTTCAGATTTTTGATTTATTTCTTTTTTCTGAGAGAATATTTTTCTAGGGAGATCTCCTATCATATTATCATCATCTTTCAGATTTTCTTTTCCATCAATTGCTGTTATTTCTATGTTTTGTTTGTTTTTTAAGTCTTCTTTATTTGGTATATTATTTTTGTTTTCAAAAATCCTTTCTATGAATATGAATATATTATTTAGAATATCTCTTATTTTTCTAACAGACTCTATGAAAGAGTATGATAAAGACATCATCAGAGAAATTATTATTATAGGTATGAGTATAATAATAGCTCCTGCTCTAGTAAGTTCTCCTATTAAATATTGAGATATTAAATAACCAATTGAACCTCCTAATTTCCCTTGAGAAGATAGAAGTAATGATAAATTATTACTATACATTAAATTTATAAAGGAAAGAGAAGAAATTGTGAATATAATTAATCCTAATATAGAGGAAAGAGTATTAAATTTTATCTTAGTTCCTAAAAATCTCAAAGAAAGAAGAAAAGAGAATATAGCAAAAATTATTATTCCATCCCCTAAAATTAAATATAAAAAATTAAGAACATGCACATGTGTAAAAAAACCAATGAATGATAACAATGATAATATTAATAATAATACTCCTATTAATGTATAACTATCTTGACCTTCAAATTTAGGACCTTTTTTTTCAGACAGCATCTTTTTTAATTTAGATTTTTTCTTTCTTCCCATAGGTTTATAATAAAATTAAGTTTAACATATAAAATTGAGAAACTCTATATTTTATGGTAATATATTATCTGTTATGAAAGATAAAAGTATAAGTAAAATTAGAATTTCTCTCTATGTATTTTTAATATTTGTAGTAGCTTTTGTTATTTCATATTTGTTTTATTATATAAATTTCAATAAATCTACTACACCTTTATTTGCTTGTGATATAACATATCAGCCTAGTGTGAAGAGTTATCCTTCCTATCCTCATTTTTGTATTAATAAAAATAAAGTATATACAGGTGTTATAGAGACAAATTATGGTAATATCAATATAGCTTTATATCCTAAAGCTGCACCCAAAACTGTTAATAGCTTCGTATTTTTGGCTAAAAGTGGTTTTTATAATAATCTTATTTTTCAAAGAGTTATAAAAGGTTTTGTTATTCAAGGAGGAGATCCTACAGGTACAGGAAGTGGTGGACCAGGGTATACTTTCAATGATGAAATCAATGCTGTTTCATTGGGTATTCCTTCTGTTTTAATCAAAGCTTATGTAAAAAAAGGTTATACATATTCTTCTGCTTATAAATCCATACCTTTTTCTACAGGTGTATTAGCAATGGCTAATTCTGGTGCAAATACAAATGGTAGTCAATTTTTTATAACTTTGGGCAAAGATACTCAATTAAATGGAATGTATACTGTATTTGGTAAAGTTACTAAAGGTATGAGTGTTGCACAAAAAATAGGGAATGTACCTGTAAATAAAAAAGCACACGATGCTCCTTTGTATAAAGTCATTATAAAGAGAATAATAATCAACTAAGTTTAGGGTATATTTAGTTACTTTAAATATATTTACTAATTTATAAATTAAATATGAAATATGATATTTTAGATGTCTGAGATGAAGATTCTTCATCCTTCAGATACCATTTTACTATTACAGAATTGTCTAATATTACTTTATTTATTTCTCTGATCCCATCAAAGGTAGATTTATTATATATTTCTTCATCTATACCTTTATCTATTAATCTATTAATAACACTCTGAATAGAAGATTTTTTTATTTGAGCCTCCTTTCTTATTATTTCCATAAAGCTAGACTCAATTCTAATTGTAATCTTTTGTTGTTTATCCATATCTTTGTGATATTGATAAGTATCAAAATCGTTTATATTTATAAATCTTTTATAAGAAGTAGAAAATATATTGTCTAGCAAAGATATATCACTAAAAGGAGAAATAGACCCATTAAAAAAAGTATATACATGTATTGGAAATATTCAAACTACCATTGAATTAGAAATAAAAAAAGTCTAAAATTTTTTGGATACTGAAGTGTCGAACTCAGGTTTAAGTACTAATTGGATAATTCAAGAAAAATATTTTATCTCCAACAGATATAGTATATAGATTAAGAAAGATAATTTATCAATTAGATATATGAATATATATATTATTACTATTAGAAGGTAGGAAGCCTAATATTGTGAATATATAGGGATTACTTGTAATAGATATATTTTGAATATTGTTTAAACTTTTGATATAACTTCTTGCTTGAGAAAATGATTTTCCTTTTATTTTAGATATTATTTCTGATTTATTTATATTTTTATATAATTTCCCTGTATATGAAAGACTAATCTGTATTTCTCCTAATGTAGATACTTGTATATTTAATATAGTATATTTTAAATTTTTTATAAGATCTCCTTTATTTTGAATATTTTCAGATATAACTTTTGTTATATCTTGAGAAATATATCCTTGAGCTTCAGTTTTTGTGTTCTCAGACAAATTAAGTACTTGAGCTACATCTCCTATTTGATGATCAAAACTCTTATTTACAACAATATTTTTTATTGACTGTTTTATTAAATTTACATTATTATTTTGAGAAAGTAATTTTTGTTGACCACTTTTAAATAAACTTTGAGACAGATTATTTTCTAAATTAGTATAATCTTGAGATGAGACTACTTGTTGCTTTATTATTTGAGCATTTCCCTGAGTGAATGCATTTTGGTTAGATGCTAATATTCCTGTATAATTGGGATTACTAAATGTATCTGAGGCTGCAGGTGGCGTATTTGTATTTAGACTAACATTTTGAGATGAACTAGCTCCATTTTGAACGCCTGTTATACTACTTTGAGCTGCGGGTACAGATACCGAGTTAGTTGTTGTAAAAGAATATTGATTATTATCTGTAAAAGTAGTATTAGAGGGTATAGTAACAGCACTATTAGTTGAATTATAGAATATGACAGATCCGGAAGCATAATTTCCTTGTACTGTATTTTTCTGTCCAGTAGTATTTATAGAATTAGATCCAGACTCAGAAGCTGAATATATTTGAGCAGGAATGGTAAGTGTATTTGGGTTTATATGAGATACATTTAATGAAAGATTTATTTTTGTGTTAGATTTTATATTTTTACCTAAAACTGATATTGATATATTTGCTGTTGTTAAAAAGAGGTAATAAATAATAAATATCAAGAGTATTATAAAAACACTTATGTAAAGTATAAGTTTATTTCTTTTATTATTTATAGTTGTGTCTTTATAAAAGCTACTTTTAAATAAATTTCCACGATTAATAGGTTTTTTTGTTTCTTCATTATTATCTTTTTTTATAGGAATATCATCATCTGTTATATATGAAGCTGCATCTCCTCCTGCTATTAAATCAAAACCTTCAAATGAAATCTTTTTTGATTTTTGCAAAGGTTTCTCGTTTTCAAACACTTCTCTTCTTATATTTTCTTTATGAGGTGTCTCATCTTTTTTTTCAGGTACAATTATTTCTTTATTTTCTTTTAGATCATTTGTATTATCTACTGATTGAAAGATATCTTCTTTATAAGGTATCTTATTAGACATAATGAGTGAATCATGTAATCTCTTTTTTAAACGTACTGACTCTTTCCAAATATCTTCATCCACTTCTCCTATCTTATCAACAGAGATATAACCTGCATTAAGTGCTATATTTTTCCCTTGTTTATCTGTAGTTACAATAACAACATCTTTCTCAAATTTATCAATTACTTTTCTTAACATCTTTAATCCAACTAAAGAGGTTATGATTCCAGATCTTTCTGGTACTACCAATATAACCCTATTTGTTGGTGTTCTTATTATCTTTTCACTTATAAATGTTATTTCGTCATCTAAATCAACGAATACTTTTGTATCTTTCATATTTATATAGCTATTATAACTTCATCTTTTATTATATCTAAAACTATTCTTGCTAAAGAAACAGGTGTTACATCTTCAGGTTTTGTTAATTTTAATGTTTTATCAATTACACCGTCAATTTTTTCTGGAGAGAGAAAATTGATTTTAGGATTTCTATGAAAAGGTAAGATTGCTGACCAAGGGTATTCTATTAATTTGGATCTTATTTCTGCAAGTTTAGATCCTCCTCCTGCAAGAAGAATTTGGTCAGGATATACTTTTATATTTTGAATTTCTTCTAAAGATATTTCTACTCCAGATATCCATAAATCAAGATCTTTTTTTATAGAATCTCTTATTTGTAAAGATTTAGATTTTTCTAATTCTTGTTCAGTATAGTCAATTTTTAGTTTTTCTGCTTCTTCATACGAGATTGAAAGATCAGATGCAATTCTTTTTGTAAAAGATCTTCCTCCCATAGCAAACATTTGGGTATCTTGGAATGCTCCTTGAGAAATTATAGCTATATCTGTTGTTCCTCCTCCTATATCTATTATTATGGCATCAAAATTGATATCTCTAGCTCCTTTTATAGATCTTGCTATTGCAAAAGGTTGTACTGCTATAATTATTGGTTTTAAATCTAAGGATTGAAGTATATCATCAATTGCACCTGCAAATATTAATGGAGTATATACAAAATATATGTTTAGAGTAACTTTTTTTCCTTGAAAGCCAAGAGGTGTAGATACTTTATAATCATCTATATATGTGTCAGTGACTGTAGCATTAATAAGTTTTATTTGTGTTTTATCTGTTCCTGTAGATTCACTAAATTTTTTAACTGCTTCTTCATATGCTTTTGAGTGAACAGATTCAAGTATATTTTTTATTTCTTCATCATTAATCTTTACGTCTGCTTTTTCTCTTTCATAATTAAGTTTTATACCTACACCTTTCACTAATTCTCCGGCAATACCAACTACAACTTTTTTAGGTATTTTAGGTATATCTACAACTTCATCCATTCCAATCTCAATAGCTTTCTGACATGTAGTAACAACACTTTTTATATTAGTGACAACTCCTCCTTTCATAGCATTTAGGGGTTGTCTTACTTTTCCAAATCCATGTATTACTACATTATCATTTTCAATATCACATATTAAAGCTTTTACAAACTCTGTTCCTATATCGAGTGATATAAAAGATAAATCTTCTTCTTTTGTTTTTTTTCCAAAAAGAGGCATATATTAGAGAATATCATAATTAAGAAAAAAAGTTTAATTTTTTTTCTTAATTATCTTATATAAGGTAGAAAATATACTTTCTGCTGTTTTCATTTTTGTTACAAAATTCACTTTTTCTATTTTATTATCTATAAATGAATGAATTTTTTCTTGTTCCTCTTTTGTATTACTAGTTATATCTTTTATATTTTCAATAATATCTTTTCCTTTTCTAACATTTTGATCAATATCAAATATTATTTTTATTAAAAGTACTAAGATCACTATTATGAGTAACGAAGCTATTATAATGATTATATTATATATTGTGTTCATATATTAATTCTTTGTTATATCTATTTTACCCTTATTATATTTTATTACAATAACCGTGAATCCTGATCCTTGAAGAGCAATATTTTTATTATTATAGTATAAAGATATATTTTGCAATTTAGATGTAGTCAAAACTATATTATATACACCTTTTAAAGTAACATTTCCTTTTAGAATTTTATTATATATTGTTTTATTTTGAACAATTGCATTTATAAATACAGGATTATTCTTACTTTTAATTTCTATATAGAAAGTATTATTTTTTTCTTGTGCGAGTTTTTTCTTATTTATATATGTAATATAATAATTTTTATAGTTTGTCTCTCCAAGAATACTTTTCACATCAATCTGTATATTATTCAAACCCTCTTGTAATCCTATTTGAGTAGAAAAATTACCATTAAGACTGACATTTTGAATTTTTTCTCCATCTATATAAAGTAAATTAGCAGGATTTATAGAGCCTTTGAATTCTATTTGAGATTTATTTACAGATAAAATATTACTTTTAGGGTATAAAATATCTAATTTTGGGGGTGTTATAAATATAAAATATTCATGGATTCCGTATACTATTAATAGAAATATTACTATTAATAGAAAAAAAAGATAAAGATTAAGTTTTCTATAGATTAGACTATTAATTCTTAACTTCTTCTTCTTTTTCTTTAACATATGATTTTCTTCTAATTTATTATCTCTTCTGAAAAGAGTAATTGCATCTTCTGAATTTATTCCTAAAAATTTGGAATATATTTTAATAAAACCTTTAGATGCTGAAATTGTAGGTATCTTTTCAAACTCACCTTTTTCTAATGCCTCTAAATATTCTATACGTATTTTAGTTTTAGAAGATGCCTCTTCTAAGGTAATTTTATTTTTTTCTCTTGTTTTTTTTAGTATTTGTGAGATATTTTTCATATTTTAAATAGATTTTTAGAATTATTATATATAATTTCTTTTATGTAAGGTTCATTTTTTAATTTCTCTATATTTTCAAGTATATAATGAAGGTTAGCACTTGTATTTATTTTTTCTTGTCTTTTAGGTTCTGGAGTTAAGAAAGGAGAATCTGTTTCTATGAGTATTTTTTTTATATCGGTATTTATTATTAAATCTCTTATATTTTTAGCATTCTTAAAAGTAGAAATTCCATTAAAAGAAAGATAAAATCCTAAATCTTCAATCTTTTCTAATATTTTTATATCTCCTGATGCAGAATGGATAACCCCTTTATTTTCATCTCCTTTTTTATAATAATCTTTTAAAATCTTTAATGTATCAGTAAGTGCTTCTCTTGTATGAACTATCAACGGTAAATTTTTTTCTATTGATAGTTCTATTTGAACTCTGAAATTCTTTTCTTGCAATTCTAAAGAATGTACAGGATAAAAATAATCTAACCCACATTCACCTATAGCTATAGTATTTTTTGATACCAGTTTTTCTATTTCTTTTTTTTCAATGGGATATTTTTCAGAAGGGTGTATTCCTACAGCATAGTATAGTATATCATTTTTATATAGAGGATTTTCCCTTGAATCTTGAATAGATGTTCCTGGTACTATTATTTTTTCTACTCCACTTTCAATGATTTTTTTCAAAACATCATCTATTTGGGGGTAATATTCTTTATTTATATGTGCATGAGTATCAATCATCATTTTCTATTTTAGGGAAAATTATATAAGGTTTTTCTATTTTACCCCAAAAAGGCTTATATTTATCTGTTTTTATTTTTGTATTTAGTATTTTTGCTAAATTTGTTGCAGATTCTGGAATTATAGGGTAGAGAAGGAGAGAAAGTGCATATACATATTGTATTAATATATATATATTTTTTGGATCCTTATTTTCCCATATTTTTAATTGATCAAATTTTTGATTTGCGTGATCTGAAAATGAAATTATATCATTGACTGCTTTTTTTATTTTAAAATTATCATAAGAGGAAGATATATTTTTAAAAAAATCACTGATATATTTTTCATCTTCCAAGGATTCATATTTTTCTATTACACCATCAAAATTGTTATATGCAAAAGTCAGTGTTCGGTTGATATAATTACCTATATTAGAAGCTAGTGTGCTATTTATTGTTTTTATTAAATCTTTTTTTTGGAAATTAAAATCTTTTCCTTCAGGAAGATTTAATGCAAGATAGAATCTTAAATTATCTTTCCCAAAAAGCTTTAAAGCATCTTTTGCTAGTAATGAATGATTATTACTTTTCGACATTTTTTCTCCCTCTAAAAGAAGATATTCATTTGAAACTATATTGTATGGTAATACTAGATTTTTGTTATATCCCAATAGAATAGATGGAAGTATTATTGAATGAAAGACAATATTATCTTTAGCCATAAAAAAAATTGTTTGACTTGGTTCTTTCCAATATTCCTCCCATTTGTCACCTTTTAATTCTTCTGATATAGATAAGTATCCTATTAATGCTTCAAACCATACATAAATCACTTTATCCTCAAATCCTTCAAGAGGAATACTGATTCCATAACTCATGTCTCTAGTAATTGATCTTGATATTAGGCCTGTTTTTATATAACTTTCAGATAGATCTTTTACTGTTTTTCTAAATATATTTTTTTTATTAATATATTTTTTAATTTCTTTTTCAAATAAAGGTAATTCTAGAAAAAAGTTTTTTGTTTTTTTTAGAATTGGTTTATGGTGACAAATTTTACACTCTGGATTTTTTATATTATCAAATAAAATAAAAGTATTGCATTTATCGCAACTTTCACCTACCTTTACTTTGGGATTTTCACAATTAGGACATGCACCTTCTACATATCTATCTGGTAAAAATCTTTTTTCATTCTCACAAAAAGGTTGATATTCTAATTTCTGAATAATATATTTATTTTTATATAATTTTAGAAAAATATCATGTACTCTTTTTTTATGAATTTCTGTTGCAGTATTTGAATAAATATCAAATCCTATATCAAGTTTAGTAAAAATATTTTTAAATTTATTATGATATTTTAATGCAAATGAATGAGGATCTTCTGATACATTTTCTGCATTTATCAAAACCCCACTTCCATGCATATCTGAACCTGAAAGAAATAAGATATCCTCTCCTTTAAGTTTTTGAAATCGTTGATATATATCAGCAGGTAGATATGCTCCTGCAATATGGCCTACATGTGCTTCACTATTTGCATAAGGTAAAGATACTGTTACGAGTTTTTTCATAATTTAAGAATTTTATCATATCAGATAGTATTTAAAAAGATATATAGTATTATAGCAGATAAAGGTATAGTTATTATCATTAATATATCCAGAGACCCAAATATATTTAATAATGATAAAGATACTATTGTCGCAGGTATTATGACGGCATTCTTTATAATATTTAAAAAATTTATTTTATTAAAATTTTTTAAAATACTCATTATAACGAAAAATAAAAATAAAAATATTTCTATTTCAATTATATATACATTTATATTAATTATACCTCCTGTATTATTTTTAGGAGGTAATATAAATTGTGTAGATATTAAGAATAATACAAGAAAGAATAAGCTTAAAAATATAAAAATTTTAGATTTTTTCTTCATTTGGTTATATCTATTAAGAAATTTTTCAAATCTTTTCTTCCAATAAGAATATCATATAAGAGATTAGATCTATCAGAAATAGAAACCCTAGTATCAATAGTTATATCTTCTTCTATAAAATATATAGAAATATCTATTAGAGGCCTTATAGTTATTCCATTTGCAGACTTTACTAGTGATATATTAATATCATGATTTTCTTTCTCAAGCTTATTTTTAAGATTATATAAAGTGTTTATATCCTTAGTTTCAGGTATTTGAAAGTTTTTAAATATTTCTATTTTTTCTCCAAATCCTAAATCTTTTGCTATATTATCAGAGATAGAACTAAAATAAGCTCCTGTATCTATTTTAGCGCTGTATACTGTATCTTGAATTTTAACTTTTACGACTCTTCCTATTACTATTTTTCCTGTAATTTCTTCAATTTCTTCATCGATTTCTCCTCCAAAGATTTCCTTTGATATATTAATAGCAGATTTAGCATTTTTTACTTTTAATTTAGATACAGATTCTAATCTTTCCTTTAGTCCAGACTTGTTTGCTATTTGAATAGCAAGTCCAGGTCTAGCATTAACTTCCATTACTAGAGGTCCTTTTTCTTTATCAAGAGCAATATCTACTCCTGTGAAAGATGAATTTATAGCTATACTAGATTTGATTGCCATTTCTAATATATTATTCCAATAAGGTATTTTTATTCCACTTAATCTTTCTCCTGTATCTGGATTTATTTCTATATATTCATCTTTTGAAATAGCATTTGTACTAATACCTCTAGCAATATCAATTCCTACTCCAATTCCTCCTGAGTGTAAATTTGCCTTACCTTTAGATTCTATAGTAGGTATTCTCAATTCAGCCATAATTGGAAATTTTTTATATATAATTATTCTTATATCAGGAAGACCTTCTTTTATTTTAAGATTCTGTTTTAGAAATTCAGAATTAATAATTCTTTTTTCAAAAATTGCGATATCATTTTTTTTATTTATTGAATAATATCCATTTAAGATGTTAAATATATGACTTTTTATATCACTTAAGGAATAGATTTGTTTATTAGCAGATATGAAAGCATCTTCTTCTCTCTCATTTCTTTTTTTCTTTTTTCCATAAAATATTATTATTCCTTCTCCACCTAATCCTTTATTAGGTTTTATTACAAAACTTTTTGGAAGTAGAGAAAAATCAAAGTTTTCTAATTCTTCTAAACTTTTAATTATAAAAAGAGTCTCTGGTGTAGGGATTTTTTCTAAATTCAGTATATTTTTAACTTTTATCTTAGAGTTAGATATATTAATAGATTTATTATCTATATATAATTTATTTCTAGCATTAATACCTAATAGATTTTGAGATATTTTTTTGTATTCTGAAAAAGGGTTTTTCATTCTTTTATAATATTACGAAATCTGTATATTTCTCTTAATCTTAATGATGTAGTTTTTCCTATATATACATCTATTATTATAGCTACAATAGATATATATGGATATTTAAATAGAACTGTTTCTAAAAAAGAATTATCAAGTATTAGATATATTATTAAAGAAAGTATAATAGTTTCCATATATATTATATTTCCATTTTTTATACCTTTATTAATTTTAGTAAAAGACAAATTTTCTGTTAAAAGAATAAGAAGAATTATTGCAAAAGGTGATACATTAATGCTAACTCCTAAATATATATGTAATAATGCCAGTAATATTATTGTAACTAAAGATATAGTAGAGAGGGTAATTGCTATTTTTGACGCAAAATGTAATTTTAAATCTTTTATAAAATATTCCACAATATAGTCTACTAATATTATTAGTAAGAAAAGTATTATACCTAATATAGATCCAATTGATATTAGAGCTATTGCTCCTAGAGATGTAGTATATAAATTAAAAGATTTTATACCTATTATCTCTTTTGCAAACAAAACTAACATTGCAGCAAGTGGTAAAGCTAATAGAATAAAAAGCATATTTTGGTGTATTCCAGATTTTAATAAAAATATTGTAAATTCGTTCATATATCTAATTTATTAAAATAACATGCCCCTTTTACCATATTTATGTGGATTTGTCTAATTTATATTCTATTTAAATAGATATTACAAGTTGTGGATGAATATTTAAAGAGGAATACATATGCTTAATATAAATATGATATATATTTATATTTAATTACCCTATTTCTCTATAATCGGTAAGAAGTCTTTCTACTTCTTTATTTTTTAATTTTTTCAAAGCTTTACTTTCAATTTGTCTTATTCTTTCTCTTGTAACTTTAAATTCTCTTCCTACTTCTTCTAATGTTCTAGCAACTCCATCTTGTAATCCAAATCTGAGCTCTATAACTTTTCTTTCTCTATCAGATAAAGTTCCTAATACTTCTTGTATTTGGTTTTTTAAATAATCTCTATTAGCTATATCTGAAGGTCTTGGAGTATCTTCATCTGGAAGAAAATCAGCTAAAGTACTCGAATTGTCATCACCTACTGGAGTTGATAAAGAAGTTGGATATTGAGATATTTTTATTATTTCTTGTACTTGTTCTATGCTTTTTCCCATGGCTTTAGCTATTTCTTCAGGTTTAGGAGCTCTTTGAAGCTCAATAGCTAATTTACCTCTTATTTTTTGCATTTGATGAATTGTCTCAATCATATGTACAGGAATTCTTATAGTTCTTTCTTGATCTGCAATTGCCCTTGTTATAGCCTGTCTAATCCACCATGTAGCATATGTCGAAAATTTATATCCTTTTTTATAATCAAATTTATCAACAGCTCTCATCAAACCCAAATTACCTTCTTGAATTAAATCTAATAAATCTAAACTACCTTTTCTAGACCATTTTTTTGCAATAGAAACAACTAATCTTAGATTAGAGGTTGTTAAATATTCTTTTGCTTTCTTATCTCCTTTCTTTATTCTTTTTGCAAGAATTATTTCTTCTTCTCCTGTAAGTAAAGGAATTTTTCCTATTTCTTGAAGATATGCTCTTATAGGATCGGAGTCAATATTTGCCTGTATACTTCTTAAAAGTTTAATTTTATCCTCTAAACTCATTACCTCTTTTTTGACATTTTTCTTAGATTTTATTTCTACTTCTTTTGGTCTTTCTTCTTCATATATCAAATCTATATTATCTCTATCAAGAAGAATGAAAAGTTCCTCTAAAAGCTCCAGTTCATTTTCCAAAAAAGGAACTGAATTTAGTATATCTTCTTCTGTTAAAAATCCTTTTGTTTTACCTTTTTCATGCAGAGAAGTTATTGCTGTTATATTTTTTGGGTTTTTTTGTTTTGTATTCATAAATCTTGTGAATAATTATACCATATACATACAATATTAAAAATTGTAGTATAATATATGTATGGAAAATAAAAATGAAAAAACTGCATTATTAGTTATGGATGTTCAGCCTGGTATTATTGACAGACAAGAGAACAAAGAGGCGTATATAAGTAGTGTTAAAAAAACTATATCTCTAGCTCACAAAAATAATATTCTTGTTATATTTGTAGTAGTTGGTTTTCGTCCAAAATTCCCCGAAATTAGTATTAATAATAAATTATTTAATGCAATGAAGGATACAAGTACAGTTTCAATGATAGATTCTCATCCTGTTATTGAACCAGAAGAAGGAGATATATTAGTAGTAAAACATAGAATTAGTGCTTTTAGTGGAAGTGATCTTGGGATGATTTTACACTCTCAAGATATCAAACATATTGTACTTGCAGGTATTTCTACAAGTGGAGTAGTGCTGTCAACTCTAAGAGAAGCTGCGGATAAAGATTTTCAAATAACAGTACTTTCTGATCTTTGTTTAGATCAAGATCCAGAAGTACATAATGTGTTAATGACAAAAATATTTCCAAGACAAGCCTTTGTTATAGATAGTAAGGAATGGCTTGTATAGATTTATAGGGAACTGAATATTTTTTATTTTTATTAGTTATATGGAAAATTTTTCTTTAGAATATATAATTAGTCTTGTTAGATTTTCAATAAATGAATTTATATCGAATATTAATATTTTTTATTTAGGAATAATATCTGTTATATTTTCTTCAATATTTTTTCTTTTTAATTTATATAATTATAATCTTAAACAATATTTTACCTCTAATAACATTTTTAAAATACACTATCCTGTCTTTTTGATTCCATTAGTTATTGTTGTTGCTGTATTCTATATAATTTTTGCGGTATTCTATACATCTAAATCATCTACATCTCTTATAAAATATATTGCAAAAGAAGATAAATCCTCAGAATTTGTTAAAATATGGGATTTAGGTAAAGATAAATGGAAAGAATATTTTATTTTTTATATAGTTTATTCACTTATAATAATATTCTTGAGTTTAATATATATAATATTTGTTACAGTTATTTTTTCTAAATTAAGCTTAATTTTTACAATATTATTATTAATACTATCTTTTATTATTCTTATACCTTTGAGTATTTTGTTGGCTTATATTGCAGTAAGACTTGTTGTTTTAGATAATGTGGATATTATTGATTCTTTAAAAATTTCTTTAAATTCAATATATGCAAATAAATTATTATATACAAAGTTGATATTAGGATATTTACTTTTTGTAACTATTATATTTTCTGTAATACTATCTTTTATAGAAACAATAATATCTTCTGTAGTAAAAGTTCTTTTTTTCAAATCATTTATATTAGGTGTTATCAGTATAATAATAGGAATATTAATTCTTACATATTTATCTTCTTTGATCTCTGTAATAAATTCAATATATTGGACTAAGGTCTATTTACAATTAAAAGAAACAAAGGTTATTTCTTTCTGATATCCAAAAAGATAAAAAGCTGTGCCCACCCTGCATATCCTGAATAGATATTTATATCAAAGTTTTGGTTATCTGAAGAAAGATATTTTTTTATCCACCTATCTTTAGGAAAAGCATTATGAAAATTCATAGAATAAAGCATTGTGCATTCAGCTACTTTATCTCCTATACCTGGAAATTTCTTTAATTCTTCTTTTACTTTGTCATATTCAAAATATTTATATTCATATAAATTTATATTATTTTCATATATAATTTTTGCTGTATTTTTTATATATTTATCTCTGTATCCTAATTTTCCTTCTTTAAGAATATTTAAATCTGTATTTTTCAATATTTCTGTTTTAGGAAAGGTATAAAAATCATCTATTATTCTCTCTCCTAAAGTTTTTGATAAATACTCATATGTATATTTTATTTTTTTTATTGAATTATAACTAGATATTATATATGAGAATAGACATTCATATTCATCTTGCTTTATTATTCTTAATCCCCTATATTTTTCTACTGTATTTTTAAGGTTCTTATCTTTTTTTATTTTTAATATTATATTTTTGTAATCTATATCAAGATTAAAATATTCTCTTATTACTTCTTCTGGTATTTTAGGATAACTTTCTATTTTTAATATGTCTTTTTTCTGAGATATTATAATAGCATAACTTTTTATAACTCCTCTATATCTTTCTTTATCAATTTTTGAGAAATTAAAATTTTGACCTGCATCAAGAGTGTAATATAGATTAAAATCCTCTGTTTTTATAAAAGAAGTATTCATATTAAAGATGCACCTTTTATGTCAGAAAAATTATCTATAATAATATTTATATTTCCTTTGAAATATTGTTTAATATATTTTTCTATCATTAATGAATATTCCTTATCTTTTGTTATAAAAGAACCTTGGAAAATTAATGAAGCAGATTTATAATCTTCAATTAGAGATATAGCTGATAAAGAGAATATATGTGCAGAGAGATCTTTGGCAGATTTTAAATCCAAGGGTGATTTTTGTATACTATCGAAAGACAGTATATTTTCATAGCTTTCAACTCCAGGTATTTGTAAAAGATCACTTTCTTTAGGTATTTTTATATTACCGAATTCTGTATTTATAGGAGAATTATTCTGAGAATATGAAATATTAATTCCGGTACCAGATAGTAAAGATAGATAAATCTCATATCCTTTATTGGTATAAATATTAAAAAGATTTGATGCACAAGCATCATTTACAATATTAGTTAATCTATTTAATTTGTAAGACAGCAGAAAATCTTCTTTTTTAAATGGAAGTTTTTTAGATATAACTGTGTTATTTTTAAAAAAAGCATCTATATATCCATTATTTTTCTTAGGTATGAAAGGATAAGAGAAGATAGTATTAAATTCTTTTTCTTCTTTTATAAAGTTTTGTATATTTTCAAAAAAATTTCCTTCATCAATTTCATAGAAAGTATATTTTTCTATATTTAAATTTTTACAATTTGCTTTATATATATGAGATCCACCAATACCTAAAACTGTAATATCTTTTATTGTTGTATTATTTATATTTATTAAAGATGATATTTCATTTGTTGTTATTATTTTTTTTAGTATTTGTCTTTCTTTTTTATAATCTATTTTCATATTCTTTTTTCATTTCTCTTACAAAATAAAAAATAGATCCCATTCCTATTATTAATACTGTTGTTGTAACCATAGCAAAACCTAATCCTAAATGATGTAAATTCCCGATATCAATACCAGTATTAATGGATATATTAGCTATCTTAGGAAAGAGTACTGTAAGTAAACCTCCTAAAATAAATATAATTCCTCCAAAAGTTAATGTAGTTCCTGCAATTTTTGAAGCTACTTTTATTCCATCTTTCTCTGTAAGTTTCATACTTCTAATCCAATGTCCAAATAAACCTCCAAATATAACTTGTACTATCATAGTTCCTAATCCGAAAAAGAGACCTGGTAGAATTGCAAAATAGACATTAGGCATTTTAGGAATTATTATTGTATATAGTATTAGTGCAAAAGCACCAAATCCCCAACCTGCAATAAACCCATGAATTAAAGCCATAGAAGGTTTTATTTCTCTAACATCTTCTTGCATATCATGAGTATCTTTTTTCCCTAGCCATGAGGAAGGAAATATTTCTAGATGAAGAATTCTGTGCTTATTTGTAACATATAAACCTGCAATTAGCATTGCAATTCCTACTATTAGATAAACATATCCATTATATGTGGAAAAAATCTTCACATTTATTAGAGCTAAATATACTATTACTCCTGCAATTGATCTTTGAATTGCAAATGCTAAAGAAAATAAGAAGCCTACATATAGCCCTTTAGAAGATGAGTAACTTCCGATAGCGTAGCTGAAAGTTATTGGCCATGTATGTTCATCAGGAGTAATTCCATGAACAATACCTAAACCTAATGATGAGAGTAGTAAAAAAAATATGGTACTCATTGTGTGTAAGATTATAATCTATATTATATCAATATACAAAATCTAAAAAAATATTTATTATTCTGTTTGTATATATTTTGTTATAATAAATGGTATGTATATATATGAAAAAGAAATAATTGAGAAAGATGAAAAAAAGATAATAGATATGTATGATAGAGGTTTTGTACTTACTAGAAAAGATGTAGGTGTAATGCAAAAGATTAGATCTTTGAGAGTCAATATTAATAATTTTAATCTTACGTCTGAGAATAGAAGGATATTAAGAAAAAATGATAAATTATTGCTAGAAGTATATTCATTGCCTCTGGATAATTATGATTGGAAAATTCATGCAATGGGTGAAAAATTTTATTCACAAAAATTTGGAAAAAATACTATAAGTGCAAATAAAATAAAATCAATTGTTAAAGATAAAAAGACATCATTTAATACTATACTGAAATTTAGTATAGATGAAGATATTGTAGGATATTGTATATGTTTTTTAAAAGAAGAAATATTGCATTATGCATATCCTTTTTATGACACTGAATATATTTCAAAAAGTTTGGGAATAGGTATGATGACAAAAACTTTAGAATATGCGAAATCTAAAAGTTTAAAATATATGTATTTGGGAAGTGTATATAAAAAAGAATCCTTATATAAGTTGCAATTTGAAGGAGAAGAATGGTTTTTTAAGGATAAGTGGAATCAAGATATATCTGAGCTGAAAGATATCTTGAGAGATAGGAAATAATATGTTATCATATGTCTCATGAGTATTTATAAGAAATTTTTATTATTTGCATTAGGATTTTTGATACTAGCAATAGGTCTATCATTAAGTGTTCTGGTATCTCAGGTTATATTAGTTATTATTGGAGTTTACCTATTAGTATCTTCTTTTTATGGTGATTTGAATTTCTTTATTAAATATATACAGAAAGATGTTTCTCAAAAAACAAAGATAGAAGAAAAGAAACCAGTTAAAAAAACTACAAAAAAAATAATTGAACCAAAAAAGGATAGTAAAATAAAAAAAGAACCTGTTAAAAAAACAAAAAGTTCTTCCAAAAAAAATATTTCTTCTTCAAGAAAAAAATCTTGAAATTATTTTAAAATATAAATCCTGTAGTTTTTTGTTAATAAAAATAATATTTCTTGAAATTATATCATATTGCTTAGAAAACCTTTATTAAATATTTATTTTATGGTATATTCTTTTGTTTATGGAAGATAATATAAAGATTAGAAATATTGCTGTAATAGCTCATGTTGATCATGGGAAAACCACTTTGGTGGATAGTTTTTTGAAGCAATCTCATATATATAGAGATAATGAAAAAGTTATGCAAGAAAAATTAATCATGGATAGTGGTGATCTAGAAAAGGAAAGAGGTATAACTATAACATCTAAGAATCTTTCAATCCCATATAAAGACTATAAAATTAATATTATAGATACTCCTGGTCACTCTGATTTTGGAGGAGAAGTTGAAAGAGTTTTAAATATGGCAGACGGATGTTTACTTATAGTTGATGCACAAGAAGGCCCAATGCCACAAACAAGGTTTGTTTTAAAAAAAGCTTTGGAAATGCAGAAAAAGATTATTGTTGTAATAAACAAGATAGATAAATCTTTTGCAGATATAGATAAGACAATATCACGTTTATATGATCTTTTTTTAGAATTAGCTCAAGACGAGAACCAACTAGATTTTCCAATTTTTTATGCAATAGCTAGAGACGGTAAAGTATTCGAAACTATTCCTAATGATTTTTCAGTTGAAGCTGATATGAATCCTTTATTTGAAGGTATTATAAAATATATTCCGTCTCCTCAATTTCTTTTAGATTTACCATTTTTAATGCAAGTTAGTGCTATTGATTATGATGATTATTTAGGCCAAGGTATTATAGGTAAAATACTTCAGGGAAAAGTTACTCCAGGAATGGATTTAAATGTTATAGATGAGAATAACAATACAAGAAAGTTTAAGGTTGTATCTATATTAGAGAATAGAGGTGGTATAAAAAAGGAAGAAGTAAAAGAAGCTTTGTCGGGAGAAATTGTAACAATAATAGGTGCTTCTAATGTAAGGGTAGGAGATACAGTTGCTATATCAGGTCATAAAGAACGATTACCTGATATACAGATACAAGAACCTTCTGTAAAAGTAAAATTTGAAGTAAATACTTCACCTTTAGCAGGGAGAGAAGGAGAGTATGTCACTTCTAGAAAAATTTTAGAAAGATTAGAAAAAGAATTAGAAAGAAATGTCTCAATGAAATTGGATGTGTTGAATGATGAATATATAATTTCGGGTAGAGGAGAACTCCATATTTCAATATTAATAGAAACTCTAAGAAGAGAAGGTTATGAATTTCAAATATCTAAACCTCAGGCCATAGAAAAAGAGATAGATGGTAAAATATTTGATACAAGAGAGGAACTAATAATAGATGTTCCAAAAGAATATATAGGGGAAATAACAAAAGAACTTTCAATGCGTTTAGCACAACTTGATAATATGGTAGAAGAAGGAGAGGAAAGAGTTAGATTTTATTATAAAATTTTAACAAAGAATTTATTTGGATTAAGAAATGATTTATTAAATAAAACAAAAGGATTATCTGTTATAAATCATGTATTTTTAGATTTTGTGCCTTCAAGTCCTCAGTTTAAAAATGATAGAAATGGAGTACTTATTTCTACTGAAAAAGGTATTGCAACAGCATATTCTTTAGGGACTGCACAAGAGCGAGGTGCTTTATTTATAACTCCAGATACAGAAGTGTATGAAGGAATGATAGTAGGAATTAATAAGTATGATAGAGATATGGATATTAATGTTATAAAAACAAAGCATGCTACAAATATGCATACTGAAAAAACAGATGAGACAATATATCTTTCTCCTGTGATTCCTCTTACAATAGAGTATGGAATGAATTTTATAAATGATGACGAATATATGGAAATAACACCAAAGCATATAAGATTAAGAAAGAAAATTCTTAATAAAGGTTTAAGGGAGAGATCTAAAAAATCATGAATCTGTCTGTGTATCTACTTTTCGGGATTATATTTGGAATAATTTTTTCAAATAAATATAAAATGCGAGGAGGAATATATATATATATTCTGACAGGTATTATTGGATCTTTGATAGGAGGATTAATTTCTATATCTTTTATAACTCCTAATATAAATCTCAATGTCTATATATTAGATATTATCAATATTTTTATATCTTCATTATTTTCTGTTATATTATTATATATGTTTAAAATTGCCATTAATAAAGCTGAATGAATAAAGTTTTTCCAAAAGATTTCAAATGGGGGGTTGCTACATCTGCTTATCAGATAGAAGGTGGAAATAATTTTTCTGACTGGGCTTTGTGGGAAGAAAAAATGGGTATAGAAAAAGCTGGAAAAGCTTGTAATTCATATATTGAATATGAGAAAGATATTGAACTTTTAAAAAAATTAAACTTGAATACATACAGATTCTCAATTGAGTGGTCAAGAATAGAACCAAAAGAAGGAGAATGGAATTTGGAAGCGTTAGATTATTATAAATCTTTATTAAAAAAATTAAAAATTGAAGGAATTGAACCTTTTGTGACTCTTTTTCATTATTCCCTACCACAATGGGTATCAGAATATAAAAGTTTTGAAACAAAAAAAATAATAAATTACTTTAAAAGATTTACTGAGTTTGTTGTTGAAAATTTAGGTATGGATGTTAAATATTGGATCACAATAAATGAACCTACTGTATATGCTTCTTTAGGATATATATCAAAACAATGGCCTCCTGGTAAAAAATCATATATAAAATATTTTAGAGTAATAAAAAATCTAGAGCTTTCTCATATAGTAAGTTATAAAAAAATAAATGAAATATATAAAAAATATGGTTGGGATAAACCTTCTATATCTATAGCTCAAAACAATAATGACATGGTAGGAAAAGACATTCCTTCAAAAATATATATATATTTTCTAAAGCGTATTTTCAGCTATTCTTTTTTAAATAAAGTCAAAGATTATATAGATTTTATAGGATTAAATGTATATTTTTATACAGAAATAGAATTCTCCTTATTTAAAGGTTTTTCTTCTAATTTAGAAAATAAATTACCTGAAAATGATGTCAAAGGATGGAAAATACATCCTCTATCAATGTATAGTCTAGTAAAAGATGTATATAATAGATATAAGAAAGATATATATATAACTGAAAATGGAATTTCTCTTATTAATGATGAAAAAAGAGGTATTTATATAAAAGAATATTTAGAATATTTATTTAAAGCGATAGAAGAAGGAATTCCAGTGAAAGGCTATTTTTATTGGACTTTAGTAGATAATTTTGAATGGTTAAATGGATATAAAGCTAAATTTGGTTTATGTTATTTAGATGAATCTAATAAGAGAGTAATAAAAAACAGTGGTAAATATTATGCTTCAATTGTAAAAAGAAACTCAATAGATTAAAATATTTTGGTTATGAAGATTGCAGATATACATATACATTCAAATCTTTCTGATGGGGTTAGAGCACCTGAGAGTATTGTTGATTTTACAGAACAATTAAAAGTTCTAGATAAAATATATATAACTGATCATAATTCTATCGAAGGTTCTATTAGAGCCAAGAATTATGCGATTTCTAAGCTTTATAAAATTGATGTAGGAATAGGATCAGAAATTTCTAGTAAAGACTGTCATATAGTTGCACTAGATATAAATAAGGATATAAAAAAAGGTATGAGTGTTGAGAAAACTGCAGAAGAAGTTCTTTCTCAAGGAGGATTTCCTGTTATAGCTCATCCATACAATCCATTTTTTAGTGTAAGACATCAAAGAGGTGGTGTTTTAATAAAAAGGTTAGTTGCAGCAAAAATTCCTTTTGCAATAGAGGTTAATGGTACTCACAATTATACAACTATACTTTATAAAAAAGGTAAACTTTTAAATAAAAAATCTTCCTTAGCTTTAACTAATAAAAAAGCTATAAATATAGCAAATAAGTATAATATTCCTATTGTTGGAGGTTCTGATGCTCACATGCTTAGAGTTATAGGTAGTGCTTATACTGTTTATCAGGATAATCTTGTAGAAGATATAAAACAAAGAAATATAAGTTATGGTTTTAATTTTTCTGATAGAAAGTCAGGACTAGTTTATCTTAGTTATCATATTCTTTTTAACCCTATTCCTCTTGATATGAGAAAAAAAAGGAAAATGTTGAATATACTTCCTAAAGCAAGAGATATAAGGAGTGTAGAGTGAAGAAAATTTTAAATAAATTATCTAAATATTTTGTAGTAGGTGTAATAGGTATTATTGTAGACAATATAGCTATATTATTTTTTGAATATGTTCTGAGATTTTCTCCTAATATTGCAACTTTATTCTCAGCAGAAATAGGGAATATAAATAATTTTTTTATTAATGATGCTTGGACTTTTAAAGAGAGTAGAAATGACAAAATATTGGTAAGATTTTTTAAGTATCATGTGTCTATACTTTTAGGGTTTATTATATCAAGAGTGATATTTTTCCCTTTACTTTTTAGTTTTTTTATTTCTAAAGAAAATTCTTTCATATCAACTCTTTTAGCAAATAATATAAGTATTCTTTTAAGTTTTATTATAAACTTTACCGTAAATTATATTTTTACTTGGAGAGATAAAAATAGTGTAGAAGAAGTAATAGAAGAAACTGAATTAAGATAATAATATTTTTAACTTTTATATATTTTTCTTTTATTAGTCTACTAATTTCAATATAATTTGCAATTATTATTTGTTTTTTTTATACTCCTATTAATTAATTATGAATAAAATCTCAAATAATCAAAAAAATTTATTAATTATATTAGTAGTACTTTTAGTGTTGGTATTCGGATATATAATTTATAAAAGTTATCAAGTAACTTCAAGTCATTCTTCAGTTAGTAATACATTCGATATTCCACAATTAGGTATAAAAATAGTGAATATTCCTAATAGCATATCTGATTTAACAGATGCAGAAATGCCTTTTTCTCCATCTATGGCTGTTGATAAAAATAATACTCTTAATAAACCAGTTCAAATGATAAGTTTTAGTTTTTCTACAAAAAAATTGACATCTGATTCATCTAGTTGTTCTGCAAAAAATGATGATGGTATAGGTTTTATAGAACGTATAAATGGAACATATGTAGATAGACATAATAATACTGGGTATACTTTTGTGAAACAGTTTAATGGATTCTATATAGTTCTTCCAAATCGTGGAGGGGGAGTATGTTCAAATGTTAAAAGTATTCTTAATCTTGATCATTCACAATCTGTTATATTTAACAAAACAGTTCTTAATCCTTTAAATATTCAACTTTTATAAAAATTTTTAATATATAAAAAGTGTAATGTTTTAAAAGGATTATATAAAAGAGAAACTCAGATCTATATAGTATTATTATATAGACTTTAGTAATAGTATCCCGTAATTTTCTATTAGAAATATTTTATTTTTTTGAATTATATTTCTTTGATATAATATCTCTCCTTGAAGCTCAATTTCTATTTCTTTTTTGGAAAGATTAAATATAAATAGAATATTATTTTTTCTAAAAAATAAAAGATCTTTATATTCTTTTATAATGAGTTTTGAATAAACTATATCTTGTATATATTTTTTTCTTATAGCTATTAATTTTTTTATTTCTTTATATATTTTTGTATTATATTTATCCCATTGTATTAATCCTCTAACATCCATTCTGCTATCTTTATTATTAGTAGTAATATTACCTTCACCTCTTTCATCTCCCATGTATATAATAGGTGCTCCTTCCTGAAAAAACAAAATACTATATCCCAAAATTACTTTATCAGTAGAATCCTCCAAAAGATTTATAAGTCTTTCAGAGATTTCTCCAGAGAATATATTATTAGAGGTATTAAGAGCATTAAAATATATAAATTGGTCTTTCTTATTTAATCCTTGTAGAGATATCCCATCATGATTTCTTAAAAAATTACCAACCTGATAATCTTTTTCTATACAATCATATAAAGGGAGAAACTTTTCTACATATTTTTTATCTTCCATTTTTAAAGACATTAATATTCTAGGCATTAGATCAAAATTAAAAGTCATTATATTTGATTTTAAAAATTTTTTAATCGTATCAAGAGGTTTTGCAATTTCTGTAATAAATATAATATCTTTATTGATTTTCAAGCCTTCTTCTAAAAGTTTATGTATAATTTTTATACTTCCTTTCTCATCTATGCCATATCTAGAATCTTTTTTAATATATAAAGCTGCATCAATTCTGAAACCAGATACTCCTAGTTTTGTATAAAATGATATTATTTTTTTGAATTCATCGAAAACTAAAGGATTATTCCAATTTAAATCAGGTTGATACTTATAAAATTTATGATAATAATAAGCTTTTCTTTCTTTACTATATTCCCAATTACTATTTTCAATAGAATTAAAAATAATATCATCTTTTTTCATATTTGATATATCCTTTTCCCAAAGATAGTAATCTTTATAAAGAGATATATTTTTTTTTGATTTTTCAAACCAAGGATGTTTATATGAAGTATGATTTATAACTAAATCTATAATAACTTTAATATTATTTTCTTTAAGTTTTTTTAGAAGTATTTTAAATTCATCGATATTTCCTATTTCTTTTCTTACATTAAGATAATCTGTCACATCATACCCATAATCTTTCATAGTACTAGGGTAGAATGGAAGTAAAAGTAGAGTATCTATTCCTAAATCTTTCAAATATGGAATTTTTTCTATTAATCCTTGTATATCTCCTATGCCGTCTTTATTACTATCATAGAATAGATTTATATACATCTCATACCATATACTTTCTTTGTACCAATATCTTTTTTTTCTTGTTATAATATTCATATGATTTCAATTTTAAGTATAATTGTAAGTAATATTATAATATTTATATTATTTATAATATCACTAAATAAGTATTTAAAGAAAAAAACATTAAGTAATTTATTCTGGTCATTTGGTTTTTTTGAGACAGCAATATCTGTTTTAGCTTTTTTACTTTCCATATATACAAAAAACTATTTTGATTTCTATATATATTATTTTTTAGGAGCAGGTCTAACACCTGCAATATTAGGATTAGGAGCTGTATATCTTCTAGGTAAAGGTAAGATTCAAAACTATTTATTCTTTTCTACATTAGCTCTTTCTTTAATTTTAATATTTCTATTATTGATATCTTCTTTTAACATACCTAATTTTAATGCATTAACTCTTTTAATCTTTAAAAATATAATAACAGCAAGAGATCTTAATATTTCTCTTTTAGGTGTAAATATAATTAATAATGGATTATGGATTATACCTTTAGTAATTTTAAATACACTGGGTACTATAGAGATATTATATGTATGTATATATTCTTTTTATAAAGATATTAAAGCTCATAAAATAACAAAAAGAACAATTGGGGTAGGTTTAATAGCTCTTTCTGTATTTATTTTGGCATTTGTTGCTTCTGTTTCTAGATTTTATAATGTGAGTATAATTTGGATAGGATTTATGCTTACTTGGATAATATTTTTTTCAGGATATATTCTTACTTAATTATTAAATATAAAAAGAGGAGGTTTTCACCTCCTCTTTGACTTTCAAAATAAATTAATATTTATTTTCTTTTGGTCTAGCTTCATTAACTACAATAGTTCTACCTTTAAGAGTACTATTGTTAAGTTCTTGAATAGCTTTTTTAGCTTCTTCCTCTGTTTCCATTTCTACGAAACCGAAACCTTTTCCTTGTCCGCTAAATTTATCCATAATAACCTTTGCAGATTGTACATTACCTACTTGAGAGAAATGTTCTTTCAACTCATCATCTGTAAGATCATATGGTAGTTTTCCTATAAATAAATTTTTTGCCATAATTGTAAATAAAATAATAAAATAAACTAAATTAATGAGGGGTTACTCTTCTATAAAAGTAAGAGCCTTCCCTTTTTTTTCTGCTCTGCCTGTCCTTCCTATTCTGTGAATATAATCCTCGTAATTCTCAGGTAAGTCATAATTTATTACATGAGTAATATCCATGATGTCTAAACCTCTAGAAGCTACGTCTGTTGCTACTAATATGTTAATCTTGTTCTCCCTAAAAAGTGATAAAGCTTTATTTCTTTTTGCTTGAGATTTATCACCATGTATTGATTGTACATTAAATCCTCTTTTATTTAAAGTGTCTGAGATATTTTCAGTATTATGCTTTGTTTTTACGAATATTAATACTTTCTTGAAATCTTGTTGTATTAATAAATTATGTAAAATGTCTATTTTATTTTCACTTCTTTTAACTTTCACTATATCTTGCTCAACATTTTTAGATGCAACAGATTTTGTGTATAAACTTACAGTTATTGGATCTTTTAAAAATAATTGAGATATATTTCTGGCATTATCATTCATGGTTGCTGAAAAAAATAATGTTTGCCTTTGAGTATTAATTTTTGATGATAAAAATTTTATATCATCAATAAAACCCATATCTAACATAGTGTCTACTTCATCTAAAACAATATTATTAAAAACTTCTAATCTTAGAACTTTTCTTTGATAAAGATCTTTTAATCTTCCTGGTGTTCCAATTAAGAAATGTACAGTCCTTTTAAGTTCAAATATTTGTTTTCCTATACTTACTCCTCCTATACAAAGAGTAGAATAAATTCCTAATCCTGCTGACAAACTTCTTAGCTCTGTATTAATCTGAGTAGCTAGTTCTCTTGTAGGAGTTATAATTAAAACTTTTTGATTTTTATCCTTTATTACTTTATCCAATAAAGGTATTAGAAATGCAATTGTTTTTCCTGTTCCTGTATTTGCAAGTCCTATAAGATCTTTACCCTCAAGTATGAAAGGAATAGATTTATCTTGTATCTCTGTAGGATTAATATATTTTTTATTTAATATATTTCTTTTTAAATTTGAGTCTATATTGAAATCTTCAAATTTATACTGAGGTGTATATTTTGTTTCTACAACAGTTTCTACATTTTTAGATATATATCTAGAAACATCAACTACTTCTTTACTTTTAAATCTTCTCCTATTTCTAGAATAAGGTCTTTGAGTGGAATTTTTTCTATATGAGTACACGTAATTTCTTATAAAACATCAAAAAATAAATACTTAGATTTTTTTGTTTTATAAAAAATCTAAATTACTAGTAGATATTATAACACCCTATCCTATATAAGTCTATATAAGTTGAAGTTATTGTGTTAGTATTGGGATAATATGATAAAGAAAATAATAAAAATATTCTCTATAATTTTAATATTAGGTTTTATATATTTTGTAAATAGTTATTATTCTGCTGGTAAAGTTACAGTTTATAAAACTAGAACTACAAAATCATTGTTAAAAAAGCAAATTCCCAATATATTGCTTTATACAGGTTTAAATTATTTATATTCCATTAATATTAATAATTCAAAAAGTGTAGTGATTAGTGGTTTTTTAGGAAAAGGAAAGGCTGCAGATTCAGTTATAGAATTTAAAAAGAATGAATATGCGATTTCTAATGAGAGTAATGCTATCAATATCTGTATTCCATCTCATTGTTCTTATAACAATTTTGCATCAACTATTAATGGTTATTATGAGAATAATCAATTTTACAATTTTGAAGGAGTAGGAGATCTTGCCTTTTATAATGGTTATCTTTATGCGACTGATGTTTTAAGAGGAGTAATTGTGAAAATAAATATTAATACTTTTAAAGCACAAGAAGTTGTTTCTAATCTCTTAAATCCACATGGTATATATTTTTATAATAATAATTTGTATATAAATTTAGAAAATTATAATAATTGTTCTCTCATCAAACTTAGTGTAAATAATTTTAATAATATATCCTGTGTTGTTAATTTAGGAAGTTATGCTGATGGTGTTTCTGGATATAATAATACTTTATTTATAGTAAGAGATACTTTATCTTCTAGTGGTTTATATAGTGCAAATGTATATAAAATTAATTTGAAGAGCAATACATCTTCTTTATATTTAAGTATTAATAAGCAATATATAGATGGAATAGCTTTTAATTCTAAGAATGTTTATGCGGTATTCAGGAGTGCAAACCCTGATGTTTTTGGAACTAAATATTATACTTATAGTGAAGGTGTATATAATATTACAGGGGGTAATGTCAAACTTTTAGTTAAAGGTATTTTTGATGGAGTAAATTTTCTATAAAGAATATTTTTCGAAAATTATATTTTCATTTTTTATGTTATTATTTTGAAGCAAATCAAGTGTATGGTTTATCATAATAGGTTGTCCACATATATAAAAATAAATCTTATTTAATATATTTTTATTTTTATCAAGTTCTTTTTTTAATATTAATTGAACTCTGCCTACATCTCCTTTCCATTCATCAGAAGGTTTTGTTATTGTATAATTTATAGGTATATCCAAGAAAGATAAATCGGGTATATCAAATTCCTCTCTTGCTCCAAAAAAAATCTTGATATTAGATAAATCTATTTTTGCTTGATGTATCATAGGGATTAATGGAGATATTCCACTTCCTACTGCAATAAACCAGCTATACTTATTTTTTTTGTATTTAAAATTCCCGAAAGGTTCTAAAAAATTAATTTCTACTCCACTTTTTATATCTTTAAGTTCTCTAGCACCTACACCTGGAGTTGATGTATTAATTATTATTTCTATATTTTTTGAAGGAGAAGAAATATTAGCTATAGAGTAATTTCTAGGCACATATCCCCCTATAAATAGTGTTATATAATCTCCAGGTTCAAATGATATGTAATCTTCAGTTTTTATTACAATATGATTTAAAGTATTAGATAATTTTTTATTTGAGTATATTACTCCTTTATGTTTTTTTAGTGAATCAAACATTTATAAAAATATATGAAAATTAAATTGTATTATTGCAAGAATAGTATGAATCAGAAGTATTGCAAGAGTAATCCAACCTAACCAATGGTGGTATTTAGTAGCCATAATTTGATGATTTTTCCATATTTTTAAATTAAACTTTTTTATTATTGCACTAATTATTAATATTAAGAAAAGAACTCCTCCTATCATTCCTGTCCAATAGACGAGATCTTGTCCAAATATAAGTAAATAAGGTGTATTTGTTATTATTTTCATATTATATATTTATTGAAATTAGATGTTAATGTTGCATTTTTTTTATTATCTATTAAATATCCTTCATATCCTTTTAGATTTTCTATAAAATTAATACCTTCTTTTCCCATAGAAAAAGCTGCTGTTGCAATTCTATCAGCATTATATACATTATTAGCTATTACTGTAAGACTTATATTAGAATTAATATTTTTTTTAGTATGAGGATTATATATATGATTTCCTCTTATATATGTTCCTGATGTTGCTATTCCTTTATTTTTTAATTTCACTACTTTTATTATTTCTTCAAGATTCCAAGGATTTCTTATTCCAATTTTCCATTCTTTATCTAAATTTTTTCCTACAACCTCAATGTCACCTCCTGCTTCTATGTAATAATTCTTATATCCTTTATTCTTAAGTATATTAGAAGCTTTTTTAATTGACCAACCTTTTACAATTCCTGATGGATCGATTTCTCCTCTGAATTTAATATCAAAAAAACCATCTGTTTCTTTTTTAGTTTTTTCTGCTAATACAAAAACAGTTTTCATATCTTTACTGTAATTTTTTATTAACCCTTTATTTATTTTTGATATTTCTGAATTTTTTTTATAAGTACTAAAAACTCTATCAATATATTCAAAAAAACCAAAAACTTCATTTATATCAGAATATAAACATTTATCAACAATTTCTATTGTGATGGGAAGTCCCATAATTATTTTTGTTTTTTTCATGTGGCTTTTTTTAATGCATCAGAAAGAGATTGTTGAAAAAGTTGAGATGTATAAGTTGCTCCAGAGATTACACTTACATTAGCATTTTGAGCTTGAATAGCTTCTTGTACAAGAGGTTTAGCAACCTGTTGGGATATATAAAGTGATGTACTCTCGTTCTGAGGATATGATAAAAATTTAATATTAGATATCTTTCCGTTTTGTATAGTTAATGCTACTTGTAAATTTCCAAAAACATTAGATTGTACACTTCCTGTATATGATCCATTTTTATATTGTGTAGTTACAGGTATAGAATTTTTGTTTGAAGAAATAGTATTTTTTGTAGAACTGGTACTAGTACTGTTTGAACCTTGATAAGGTTGTATTGTTATAGCTACTATTATTCCTACAGCAATAACAACAAATATAGGTATTATAATTTTAGGCTTCATATTTATTTATAATGTGATTTTAAGATTACATATTCACAATTATTCATTAAAATAAGATTAAAATAATAAAAAATATTATTGACAATAATATTTTAGAATGTATTATATAGGGTGTATGGATGTATTAGAAGTTTTTGACCTATCTAAATCTTTTGGAACAAAGGAAGTTTTAAAAAATTTAAATTTTTCTTTGAAACAAGGTGAAATTTTTGGATTTTTGGGTCCTAATGGTGCAGGAAAGACTACAACGATAAATTGTTTAATGGGATTTATATATCCAGATACAGGAAGTATAAAGATATTTTCTAAAAATATTAAGAATAATATTGTTGAAATAAAAAAGAAAATATCATATGGATCATCTTCTGATATATTAAACATGAATTGGACTGTTTCTGATCATATAAATTTTGTATATAGTTTTAAAAAACCATCTGAATACGATAAAAATATAATAAAATCTTTGGATATTTCATTAAATTCAAGAATAAAAACTTTATCTTATGGGAATAGACAAAAAGTCTCTTTACTGCTTTCTTTAATTTGTAATCCTCAAATCATTATATTAGATGAACCTTCTAGAGGTTTAGATCCTTTATATCAAAGTATATTTCATTCTTTAATTTTAGATATAAAGAAGAGAGGTGTAAGTATTTTTCTTTCGTCTCATGACCTTCAAGAGGTAGGAGATGTTTGTGATAGGATAGGGATAATAAAAGAAGGAATGTTAGTAGATATAGAAGGTATAGATGAAGTTAAAAAAAAGAAAATATATTCTGTTATTATTAAATTTAAAGAAAAGTACAATATTAAAGATTTTGAAAATCTTGAGATTGTAGATAATACAAAAAATAGTATTAAAGTAAAAGTGAAGACAGATATTAATTCATTTATAAAAATAATAAGTAAATATGATATTGAAAATTTACTAGTAGAGCCTATATCTTTAGAAGATACTTTTTTAGAATTTTATAAGAAATGATGAGTTTTATACAAAACATATTAAAAGAAAAGAAGATGCTAATAATTTACTATTCTATAGGTACTTTTCTGTATCTTTTACTCTTAGCTGTAACTTTTCCAGCTCTTCAGAGTCAATCGAAAGCATATAATCAGTTACTGGCATCTCTTCCAAAAGTTATGCTTAAAGCATTCGGTATAGCTTCTAATGGTCAATTGACATTTTTGAATTATTTGTCAGGTAAATATACAGGATTGATATTACCTTTAATAATTATATTTTTTATTGTTTCATTTTCAAATTCTCAATTAGTAGGACAGATAGAAGATAGTACTATTGGTTTAATTTTATCTCTCCCTATTTCTCGTATTAAGATATATGTATCAAAATATATATCGGGTATAATTTCTATTATTATTTTTATATTTTTTTCTATATTTTTAATAATTCCTTTAGCAACTATAGAGAATCTTAAATATTCAATTTTAGATATTTATCTTCTCATTATACTTACTTTATTTTTCAGTTTATCTATTTTAAGTTTAAGTTTTTTTATATCTTCTATTTTTTCTACAAAAAGTGCATCAAATACTTTATTATCTTTTATAATATCAATTATGTATGTTTTTAATATAGCTCCTTCCTTATCTTCTAATTTAGAAAACTTAAAATATTTCTCACTTTTTTATTATTATAATGTAAATAATATACTTCAATATAATAATATAAAGAGTCTTTCTATAATTATTTTCTCTTTAATCTTTATAATATTTTTTCTTTTAGGACTATTTATATTTAATAGGAGGGATATCCAAATATAATTTATTCGATTTAGTTTATAAAAAAATCAAGATTGTTAGATGAGTGTATTAATTTATAGATATATTGTCTTTAACATTTTTATTTAATTTATACAAAATGTAAGTAACTAAGGTTCCTGTAATATTTAAAATCAAAAAGGTTATATATATTTTAGTAAATATATTTCCTGAAAATATATTATAGTTGGATAAAACAATGAAAATATCAATAAGAGTATATATTAAAACAAACATTATTGTTACTAAAGCAATATATCTTACATAATTATTTTTTAAAGTAGTTAGTAATAATAACCCTACTTGCGTTAATGCTATAGCTGATACATAAAATACTGAAGAATAATGATTTTCAATTGTAAATACATTCGAAGTACTATATATAAGATATATCATTATGAAAGACGCAATAATTGCAAAAATATTTCCTAAAATAGGAATCATTTTTAATTTCACTTTACCATATGTTGATACATTAATTAATCCAAAAATACCTAATATTATAATATATATTACAGTTAATATTGGACGTAAAATAGAGCTATAATTCCCTGTCCAATACATAAATAATGTTACTAGAGCTCCTAATGCTAAAGCTCCTACTATTAAAAAAATTATGGATTTTTTTATTTTTTTTAAAAAATCTTGAGTATTATTATTTGTATTAGCAGTTTCAACTTTCAGCTCATCAACACTAGTGTTATTTGAAGTAGAATTTATACTATTATTATTTGAATAAGATTGAGTATTTTCTGAAACAAAAACTTGTTTATTGGAATTATCATTATTTTGAGATATATTATTCTCAGGTTGTATAAAAGAATTACTTTCAGTAGGTTTTAATATATCATCCATAATTATATTTATATAGTGTTTTTATTGTATTATATACATATAGTTATTTCAATCTTTTGTATGAGTTATACATGCATTAATACATTTAATCTAATTAGAACAAAAGAAATACTTGAATGGGATTAAGTTAGAGAAGAAAAATAAGAAGATTAAGGAGTTTTAAAATTTTATGGATTTTAATATTAGGTTCAAGTTTTGATTCATTATTAAAAATGAAGAACTATTTATTGTAGTAATATTCGGAAGAATAAATTTTATAAAGATAAAGTGATTATTAATATTTATAAATGTTGGGGCATTGATGCTGTTAAAAATTGTTCCATTTTGATCTTTAACTGAAGTAGGGATTGTAGTCCCTATTTCTATTTCAGAAAAAGAATTCACACAAGTATTAGGAATAATCTCATATCGAAATCCCATTTGAGTTGTACATCCATTAGTTTGTGTATTTAAATAGTATTTATAAAAGTTAGTATTGTTAATGTTTATATAAGAACTTTTTTCTACAATTTGTGCTCCTTCTGAAGCAAATGGAGAAGATATTTCTGTATATTGAAATTTATATCCATTTGGAGATGTAACAATAATAGTGTTAGTTTTTGAATTAACAATCCAAGTATTAGGATATTTAAAAGAGTAACCATAAATAGAATTGGTATAAGTTAACCAACCTTTATATGGATTAGTTATAATATTAGGTTTATTATTAGTCACAGAAGTTTTAGAAGTTACTATATTTGATGAAGGAGTTTTTTTAAAAGTTAGTAAATAAAGAATAAATCCTAGGATAATTATAAGAATAATAATTAGTGCAATGAGAGTATTGATTTGCCACTTTTTGACACCATTAGCTGTAGATGCAGGTATATTATTATTTGTCTGCGGATTATTATCTATATTATTATCCATCTAGAGCAATTGTGTCATATTGGAATAATATTTCAACATTAAAAATATAATAATGTTATATAACAAAAACATAAAATTCTCCCCGTATTGGACAGAGTTAGAACCAAAGTTAGAAAAGAATTATATATCAGTCATATCTCGTAAGTTTTTTCAACATATATCTTTAAATTGTTCTTGCAATTATTGTTGTAAATAGCTTGCAACAATTGTTAGTGTGTAATATAATTTAACTATGGATAATAAACCAGGGCCAAAGACTAATATTTCAACTTTTGGATTTATTGATGAAGTAGGATTATTGCATTCTCCAAAAGAAGATAGAGTTTTTGGGTTGGGATTATTAAAGGTTCAACATCCTAGTGAAGTACATCGGGAAATCATTCAGTATAAAAATAAAATAAATTTTCATGGTGAATTTAAATTCAGTGATATTACTCTTAAAAATGTTTCTATCTATAAAGGATTTATTGATGTATTTTTTAATACTCCAAATATTGGATTCTACTGTATAATATTTGATAAGTCATTATTAGATTTACATAAATATTTTAAAGATAATTATTATAAAGCTTATAATGCTTTTGTTGCTAAATTAGTTTCTGAGTCTCTTGAAATGAGTGAATATATAGTTATATTAGCAGATGATGTAAGTACACCAAAAGATGATAATTTTGAGAAAGAAATTAAAAATAAGGCAAAAACAAAAACAAGGAGAAATGCATTATTTGGGATATGTAGAGTTGAATCTCATGCTATTAGTGAAATACAATTAGTAGATGTACTTCTTGGTATTACAGCATATTCTTTTAAGATTAAATATGGAATAGTTAATCCTAATAAACATAATCCTAAATTTCAATTAATGAAATATTTACAAAAACATCTAAACATAGATAAGCTATCTATTGCAAATGAATATTCTTTAAGATTTGGAAAGAAATTTTCAATTAAAGAATTTAAAGGAAATATTATAAACAAAACAGGTGGCGATTTGAACCCAACTGCAAACTAGTGCAAGTTCACGCATTTCCACCTTTATAAGTATATCATATTTTATGAAATTATTAAATATCAGGTACAAGTAATTATTAGTTATTACTTATAGGAAATGAATTTTTGATAAAATTATATATATGTTATATAACAAAAACATAAAATTCTCCCCGTACTGGACAAAGTTAGAACCAAAATTAAGTATAATCTTTACCTGTATACCTCATCATGAGTCCCAATATTGACAAAATAAGCCTCATTTTCACTTATTTTTACATAAACCATTCTGATACTCATATTAATTGATATGCTCCAAAGGTTATCCAATTCTCCTGATAATTTGTGTAGTCTCAGCGAATTGTGATTAATATTAGTCCTAAATAATATTAATTTCTTTTCAATTTGTTTTAACAGTATAGGGTCATATTTTTTTATTTTCTTTAGTTCTTTTACTATCTCTTTAGAAAATCTAATTTCCATTGTCTATAAATTTTTGAAATATTCGTGTATATTTTCAACTTTATTAGATTTATCAATTTCTTTTAGTGCTTTTAGTACTTTTTTTTCTGTATCTATGGAAGGATATAAGGTATTGCTATCAAACTCTTTTATTATAAGATATTTGATAAACTGTGTTACAGGAATACCTACTTGTTCAGCTTTTAACTTAATCAATTCATTTAATTTAGGAGATATACTAATTTTTACTTGTACTTGAGTTTTATTATCCATAATTTTAGGTACTAAATTATACCTATATATTACATTAAATGTCGAAAAATATCAACATACTGAATAATCTTTAAATAAATTTTTGATAAAATTATAAATATACCTATATAACAAATACTAAATCCCCTTTTGTCTTAGATGGATTATATCCCTTTTAGACTATTTTCAGTATAAGTGGGTGAAGTTAGAATCGTAATGGAAAAATTTATCTATAAATATGATATTATCTGAATATGTCTTATCCAAATTTAAAAAATAAACATTTATATAAATCATATTTTTCTGCTAAAGACTTTATAGCATATTCTAAAAAATCTAAAGATTGGAAGGAATTTGAGAATCCTAAAATTGTAATATTAATATATTCTTCTAAACTTTTAAAATATATTTTAGAGAAATATAAAACTGAACATATAGAAATTTTCGGAGATTTTTATTTATTAAAAAATATGTCAGTAGGTATTTTTAAGATTGATGGTATTGGTGCCCCAGTGGCAGTAACTTCATTAGAAGAAATGATAGCTCTAGGTATAGATACATTTATAAATTTTGGAACTGCAGGTGGATTGCAAGAGAAGTCTAATATAGGTGATTTAGTTTTGTGTACAAAAGCAATAAGGGATGAAGGAGTATCTCATCATTATATAAAAAGTTCTATGTATTCTTATCCAACAAAAGATTTGACATTGAAATTAGAAGAAATTTTTAATAAATCTGATATAAAATATATTAAAGGAGGAAGTTGGACTATAGATACTCCATACAGAGAGACAGTTGATGAGATTAATCATTATAAAGATTTAGGAATACTAACAGTTGAAATGGAAGCATCTGCCTTATTTTCTGTATGTCAATTAAGAAAAATTAATATAGCCTCATGTTTTGTAATAAGTGATTCTTTAGTAGATTTAGAGTGGAATCCTCAATTTGGAAGTGAGGTATTAGTTAATAGTCTCAAAAATGTTCTAGATACCATTATAAAAATGGAATGATTCAAATACAAATCTCCCCGTATTGGACAAAGTTAGAACTAAAATCAGAGATAGTATGTGTAATATTATGATTATTTGATATAATAAAACTATGGATAGAGAGATTCCATTAGGAATATATAAAACTCTCCGTCGTAGACAAATTTAGAACTAAGATTACAATATAGATGTTAAGTTATTTAACGTGAACTCGTTTTTATGTTAGATATATTTAAATATTTCAACATCATTAACAGGAATGTTTATATAATAATTTACGACTAATTTCTTTAATCTTATTTTAAATCAGAGTATTCTTCTTTGATTCTTTCATCTAAGAATATTTTCACTAATGATTGATAAGGGACATCTTTTTTATTTGCTAACTGTTTTAGTTGTAAGTACATAGATTCAGTCATACGTAAACTAATATTTTTTGTGGAAGGTTTTAGATTAGGTAACTCTAAATTTACTTTTTTAAAAGAGTCTATATAATCCACTAAAGAATGATTATCCCAAAAATTTATTTCTTCATCTGCATTTTTAAATTTTGGTATTTGTTTTATTTTATTCATATATTTAATAATTTTTTATATAATTCTTTTTCTTTTTTATCTTGATCTCTTGCAGATATTACTCTAATTTTATTTTGTCTTTTACAAAAAGAAATCAGAAGATATCTATTTTTCAAGGTTCTTCCTAAGGCATAGTATCTCACCTCATCTTTAGTCGAATGTTTAATATTTTCTAAAAATATAGGTTTATTAAAAAATACTTCTTCTGATTCATTTTGTTCTACATTATGTTTAAGCTTATTTTTATCTTTATTACCTTTATCCCACTCAAACCCAATTATGTCAGATAAATCTATATTAACGTCCATATGTATATTATAGTACATTACATAAAGTGGTTTGTCAATAGCTTATATACACTAAATATATTTGATATTTGAGTTGTAAATTCGGGGGATTTAAGTATTTGAACTGTGATATAATTCCTATATACCAAGATATTATTAATGTTGTAGGGGAGGCATCCAAGAACACATCTCCTCGACTAGGACTCGAACCTAGAACCTTCTCGTTAACAGCGAGTTGCTCTACCATTGAGCTATCGAGGAACTTGGATGGTTTTTATTATATATATTTTTCAATCAAAATTCAATAATTGTTGTTGTTCCAATTTTTTCCTTACTTTGCACTATAATATTACCTCCTATTATATCAATAAATCTTTTTGCAAGGTACATTCCTAATACAGTTTTTTTTGTATTTTCTTCTGAATTATCAAATTTATCAAACAACTTTGATAATTTTTCTTTACTCATTCCTATACCTTTATCTTTTATTTTTATTTTTATTTTATTATTTTTATTTTCTATAGATATTAATATTATTGAATTTTCTGAAGAAAATTTTATAGAATTATCTATAATATTGGAAATGGCATCTATGAATTTTTCAGGATCCAATATTAAAAAAATATTTACAACTTTAGGATTAAATAATATTGTAATATTTTTTTTCTTAGCTTTTTTTAATACAGTTCCTATTGCACTTATAACTTCTTGATTAATATTAACATTTAATTTATTTACAAATATTCTATTAAGATCTAGTCTAGATGCATTTAGTAAATTTTCTATTAAAGTACTTAAGTCTTCTATTATATTCTCTAGAGAACTAAATCTTTCTATTATTTCTGGTTTTACATCTTTATATTCTGGATAAAATTGAATTAATTGTAGATAACCTCTTATAGCAGCAACAGGAGTTCTTAATTCATGTGATGTTGTAGATATAAATTCATCCTTATCATTATTTATTTTTTCAATTTTTTCTCTACTTTCTCTCTCTATTTCATATTTATCTTTTATGTTTACATTATAGTTCATAACAGTATTAGAGATATAACTTATAAGTATAGCTATGAAAGTATCAACAACAAACATAAGAATAGTACTTGAAGCATAATCTTTTATAATAAATATATATAATATATTTATTATAAAAATTAAAATATTGATCAGTAATATATTTTTTATATTTGATACAGTTATTGTATATTCAAATATTATAATTAAATATATTATAAAAAATGGACTATTAACTCCTCCATTATAGAAATATATTGGTACCATTGCCAAGGCTAATAGTAATAATTCTATTATATTTTTATTTAGAGTTTTCTTTTTTATTAATATATGAAAAATGATGTATTCTATTAGTAATGAAGATATTGTTATTAATGCAAATGGATATATATTTCTTAATTGATTAAATAAAAATATATTAAATATTAATAACAATACTATAATTAATATCACTAGTATTGTATTTCTTATCATTAAAGATATATTTTCAATTTGTTCTGTTTTGATTATTTCTTTAATTTTATCTTCCATCTTATTGTATCTCTATTCTAAAAGTTGTTCCTTTATTAATATTACTTATAATATATATATTACCTTTCATTTTTTCTATATATTCTTTTACAAGATATAATCCAATTCCAGATCCTTGTTTTGTATTCATTTCTACATTTGAAGCTCTATAAAATTTTTCAAACAAATGAGGTATATCTTTTTGAGGTATTCCAATTCCATTATCGACTATTTCAATTACGGTTGTATCATTCTTAGTATATGCATTTATTTTTATAATACTATTAGTAGGTGAATATTTTATTGCATTATCTAATAAATTCCTTAATACCTCTCCCATTCTATTTGGATCAATATGTATATTTTTAGTATTTGGATCTATATTTGATGTTATATCTGAATTTCTTTCTTTTGCTTTAGGATCCATTGTTTCTATAACTTCTCTTATTAATTTTTTTGTGTCATATTCTTCTATATCTATTGATATATTTTCTATATTTAGTGTTTTTATACTCAACATATTTTGAGATAACTGTTTTAATATTCTTATATTTGTAAGCATTTTAGATAAAGTGTTTGATATGTTTTCAGATAAATCATTTTTATATCTATAAAGTATTTCTTCTACAGCATTAGATGTATTATCTATAGGCGTAACCAATTCTTGAGATGCTATTTCAAAAAATTCATCTTTTTCTTTATTTAACTCATCATTCTGAACTTTTAGATAAATCTCGTTTTTATATTTATTAGTAAATGTTTTATAAATATTTAAATAATTTATATTTACGATAATTACTAGAATATTGATAGACATAAATGTTGTTAAATAGAATCTATTTTGAATACTGGAAAAGCTCGGATCAATTATAAGTATCAATACTCCCAATATGTTTATTGCCATATATAGCATAGTCTCTTTAATGTTCATTCCAAGTATTATTAGAGTCAAAGTTATCATTGGAAATAATAGGAACACGAGGTAATTTAATTGATTCAATATTAGGATTGATGTAAATAAGAATATTGTTATTATAATTTCTTCTATATATATTTTTTTATGCAATGATTTTATATTAATAAGGTGATTGTATGCATATGTAAAAATTGTGAAAAATACAGTCATTATTATATATTTTGATAAATAATGATAATTAATATTGGTATATATTGCATATATTGAATATGTTATTAAATAAAATATGCTTACTATGTAAACAAAATATTCAATAATCTTTATAACTATTTTATTTTTTTCATCCTCCTCATTCATATTTGTTTAATATTTCTTTTATTACCTGTATTGTTTTTTCTATTTCTATTTGTGTATTTTCATGTCCTAAACTAAAGCGTATAGAATGTTTTGCTTCTTTTTCTGTAAGTCCTATAGATGTAAGTACATGTGAAGGTTCTATAGATAAAGATGAGCATGCAGATCCAGCTGAAGCGGAAATATTATAAAGGTCTAATTGTATTAACATACTTTCTGAATTAATCTTATCAAATAGTATATTAGAAAGATGGGGCATTCTATTTGAAGCATTAGAATTAAGTTTTGTTCCATTTATTTTTAATATATCTCTTTCAAAATTATCCCTTAATGTTTTTACATATTCCTGTCTTTTATATTTTTCACTTTTCAATAATTCTACAGCTTCACCAAACCCTACTATTGCAGATAAATTTTCTGTACCACCTCTTATTCTATATTCTTGAGAGCCTCCTTTTATAAGAGCTTGAATAGGAGTACCTCTTTTTATATATAAAGCGCCTATTCCTTTTGGTCCATTTATTTTATGCGCACCAAATGTTAATAAATCTATATTAAATTTATTAACGTCTATATCTAAATATTTTAAAGATTGCATAGCATCAACATGAAATAATACATTATTTTTCTTTGCTATCTTTCCTATATTTTCTATGTCTTGAATAACTCCTATTTCAGAATTTGCATGAATTATAGATATTAATATAGTATTTTCTTTAATAGCATTATCGACATCTTCTACTTTTATTTTGCCTGTTTGATCTGGTTTTATATATGTAACTTCTATATTTTTAATTTCTTTTAGAGTATTTAATATTGAATCATGTTCGATTTCAGAGGTTATTATATGAGATATTTTATTTTTATTATTACCATTAACTATTCCTTTTAGAGCTAAATTATTACTTTCTGTTCCTCCTGAAGTGAAAATTATTTCTTGTAGATCAGAGTTTAAATAATTAGCAATTATTTCTCTTGATCTATCAATTGCTCTTCTAGATATTTGACCAAATTTATATACTGAACTGGGGTTTCCATAATATTTTGATAAATAAGGTGTCATTTTTTCTATAACTCTTTTATCAATTTTTGTTGTCGCAGAATTATCTAGATATATCATTGGCTTTTAATTTGTATTTAAATATTATATTATATATATGAAATTAAATAAATTTATTATGGATAATTCAAATAATTCTATTAATGGTAGTGGTTCTGGGATTTTAGATTCTAATCAAGATAGTACTGTTATCCCTATAAATCAAGATTTTAGTATACCTCAAGATGTTCAGTCTAATAATCCTGTAAATCTAAATCCTAGTCAAGATGTATCTAGTTCAAACCTAGGAGATAGCAGTTTATACCAGAATACACAACCTCAAGTAGATACTCAAAATACTAGTATGAATGATATTCCTGTATCTCAAGATGTTCAGTCTAATAACTCTGTAAATCTAAATCCTAGCCAAGATTTATCTAATTCAAACATAGGAGATAGCAGTTTATACCAGAATACACAACCTCAAGTAGATACTCAAAATACTAGTATGAATGATATTCCTGTATCTCAAGATGTTCTGTCTAATAACTCTGTAAATCTAAATCCTAGCCAAGATTTATCTAATTCAAACATAGGAGATAGCAGTTTATACCAGAATACACAACCTCAAGTAGATACTCAAAATACTAGTATGAATGATATTCCTGTATCTCAAGATGTTCTGTCTAATAATNNNNNNNNGAATACACAACCTCAAGTAGATACTCAAAATACTAGTATGAATGATATTCCTGTATCTCAAGATGTTCTGTCTAATAATCCTGTAAATTCACAAAGTTCAGATTCTAATTCAATGAATATTGGCAATAATGCATCTGATTCAATTCAATCAGATCAATGGAATAAATCTTCTTTGGATAGTACAGTGTCTCAAAATAATAATATTAACGAGTCTTTAGCTGGAGAACATAATGGAAATATTCCCACTCAAAATATACATGTAGATGATCCTTACGATTTAATATTAAAAAATCAATCTCACAGTGAAAGTTATCAAAATATGTCTCAGCAACAAAATATTCCTGACAATAAATTGCCTCCTATTATTCCAAATGTAGAGAATGTTTCTTCTAATACTATCAATCAAGAAGTTCCTTATCCTAATATGGAGACTCAAAATACTGTTAATTCCAATATAGAAAATGATGCAGTTAAATCTGAAGACATTATGAGTAATAGGGAAGAAGATATATTAGGAGTGATGTCTTATGTTATAATTATAAATATTTTTATATTAATATTTAGTTTTATAAAGAAAGATAATTTTATTAAATTTCATTCAATTCAGGGATTTATCTTTGATCTATTATTTATAATTCTATTTTTTATTTTAAAAATATTTAATGGAAGTGGTATTTTATCGATAGTGTTATTTGTATTAGAAATAATACTATTCATTTTATGGATATTATTATCTGTGTTTTTGATGTATAAGGCATATTCGGGAGATAAATATAAATTTATTTTTCTAGGATCAATTTCGAATATACTCTCATAAAACATATTTTATAGTATAATATTATGTTTTGGCGATGTATCCGAGTGGTCCAGGAAGCGGTCTGCAAAACCGCGTACATGGGTTCAAATCCCATCATCGCCTATTTTAATTGAAAAATATTATGAATGGAAAAGAAATTAGAGAAAAATTTATTAAATTTTTTATAAAAAATAATCATACAGAATTTAAATCGTCATCTTTGGTTCCAGATGATGAAACCTTACTTTTTACTACAGCAGGTATGGTACAAATGGTACCTTTTTTAATGCGAGAAAAAGAGATTATATCTCCTAGAGTTTGTTCCGTACAAAAAAGTTTTAGAACAACAGATATTGATGATATAGGTTCAGATGGTAGACATTTAACTTTTTTTGAAATGTTGGGCTCTTGGTCATTTGGAGATTATTATAAGAAGGAAGCTATAGAACTTGCATATGAATTATTAACAGAGGAATTTTTGTTAGATAAAGAAAAAATTTGGGTATCTATATTCAAGGGAGATAAGGATATACCTAAAGATAGTGAATCTTATAAGTATTGGTTGGATTTAGGTTTAAAAAAAGAGCGTATAGTAGAACTAGTACAGGATAATTTTTGGGGACCAACAGGAGTTGAAGGTCCTTGTGGTCCATCTACTGAAATTTATTATGATAATGGGGAGGAATTAGGTTGTGGTAGAGAAGATTGTGCCCCAGGATGTGATTGTGATAGATTTCTGGAGATCTGGAATGCAGGAGTATTTATGGAATATTATAAAGATGAAAATGGAAATTTTTCAAAATTACCATTTACTAATGTAGATACGGGAGCAGGATTAGAAAGATTAGTAATGGTTTTGCAAGATAAAAAATCAGTTTTTGATACAGATCTTTTTGAACCTATTGTAAGTAAAATAAAAGCAGAAAGTTCTAAATTTAATGAAAGATCATGTAGAATAATAGCTGATCATATAAGAGGTATAAGTTTTATAATATCAGATGGAATTATTCCTCAAAATGAACATAGAGGATATATATTAAGAAGACTTATAAGAAAATCTCTTCTTCATGCAAAAACTTTAGGATTAAAAGATTTTTTCTTATCAGAACTATCAGGAGTAGTAATAGATACTTATTCTGATGTATATCCTGAATTATCTTCAAAAAGAGATTTGGTAAAAAAAATATTAGATGAAGAAGAAGTAAAATTTGGAAAAACATTAGATAAAGGTCTGAAAAGATTAGATGGCTTAATAGTAAAAGGTAAAATAAGCGGAGATAATATGTTTTTATTGCACGATACATATGGTTTTAATATAGATATATTAAGAGATATATTAAAAGAAAGAGAAATAGAATTTAGTGAAGAAGATTTTTATAAAAAATTGAATGAACAGAAAGATAGATCTCGTATATCTTCTTCTTTCACATTAGGTAAAAGTATTGAAGAAGAATTTTTTGATTATCCTAAAACTAAATTTATAGGATATGATGATTTAAGACTAAAAGATGCTAAAGTTTTATTTGTATCTCAAGGTGAAGATGAAGTATATTTTGTTCTAGATCAAACACCTTTTTATGCAGAAGGTGGTGGGCAAGTAGGAGATAGAGGAATTGTTTTATCTAACGGTGTAGAGATTGAAGTTAATAATGTAAAAAAGACAAAAAGGGGAGTATATATACATTTTGGTAAGTATAAAAATTTCTCTCAAAAATTGTCTTCAGAAGACTTAGTTACATGTATAGTAGATAAAGATATAAGAGAAAAGACTTCATTTAATCATACTGCAGTACATCTTCTTAATAAAGCTATGAAAATAATATTAGGAGATCAAGTTGTGCAAAAAGGATCATTTATTGATTCAGAAAAAATAAGATTTGATTTTAATTTTGATAGAGCTTTAAGTTTAGAAGAAATAAAAACTATAGAAGATTTAGTTAATGAAAATATATTAAAGAAAGAAGATATAGAGGTATCTGAAAAAAACTTTGAAGATATAAAAAAATTAGGAATAGATCTTCCTTTTGAAGACAGATATGATAAAAATTCTAAATTAAGGGTAGTCAGGATAGGAGATTTTTCTCAAGAACTTTGTGGGGGTACTCATAAAGGAAATACTTCTAGTTTAGGAAAATTTAAGATTACAAAACAAGAGAGTGTATCTAAAGGTATAAGGAGAGTAAGGGCTGTTTTAGAATATTAAGTATGTCATATATATTAGGTATAGATTATGGAGAAAAATATATCGGATTAGCACTCTCAGATAAGAATTCTCGTTTTTCAGAACCTTTTTCTATTAAGAGAAATAATAAAGATTTTTATATTTTTTTAATAAATATTTTAGAAAAATATAATATAGTGAAAATAGTGATAGGAAATCCTGTCAATATAGATGGATCGGAAGGTTTTTCTTCAAAAAGAGTAAGAGATTTTGTGCAATCTCTTAATTTAGAAATAGATTGTATTTTTTGGAATGAAACATTGACTTCTTTTGAAGTGGAAAATAAAAAAAATGTGAGAATAGATGATAAGTCTGCAAGTATAATACTTCAAGAATATCTGGATTTTATAAATAAAGTATGAAAAAAATTAGTTATATAATATTAAGTTTATTTTTGATTATCATAATATTTTTTTATTGGTATACATCCAATATTAATTATGAAAATAATATAAAATCAGGATATGTGAATTTCACAATTGGAACCAAAGATTCAAATACTCAGATATTAAATGATTTGAAATCTCAAAAACTAATATCTTCTACTAAAGCATCCCTAATATATCTTTATGTACAGGTTCCTTTATTTTCTTTTTATCCTGGAGAATATAGAGTTTATAAAAAAGAAAATTTTTCTCAATTAATAACAACTTTTTCTAGAGGACCTTTCTATAAAAAAATAATAATACCTTCTGGATTAAGAATTTCAGAAGAAGCAAATGTAGTGAGGAATGAATTAAGTGTTAATAATTCTTATTATCAATTCAGTACAACTGATTATAGAAATATAGCTCATAATCTTTATAGACAATATTATAATTTTGATTTTTTTAAATATATTCCTGAAAATTCTAGTTTAGAAGGATTTTTATATCCAGGTTCATATGAAATTCCTTTTAATGCAAATGCTAAATATGTTATTAATTTAGAATTAAAAGCATTTGATAAGTATATATTTCATAAATATAAAGGTTTAATGTTGTCAGGTTCAGACCAATTAAGTCTATATCAAAATATGATTATAGCATCAATAGTAAGAAGAGAAACTTTATACAATAGTGATAAACCTATTGTTGCTAATATATTTATAAGAAGATATCTTTCTGGTATACCATTAGGTTCAGATGTTACAGTTCAATATGCATTAGGTTTTGATCCTTCATCAAATAGTTGGTGGAGATCTCCATTAACTCAGTCTGATCTAGAGATAAATTCTCCTTATAATACAAGATTATATGCTGGGTTGCCACCAACTCCTATATGTTCTCCTGGTTATAATTCTATTATATCAACATTTAAATCTACTCCTAATAAATATTTATTTTTTATAGCAGATAAAGAAGGTCATTTGCACTATGCAGTAAATTTATCTGGACAGAATGCTAATATAGCAAAATACTTGTAATAAAATGGGTATTTGATACTATATATATAGTATGGATAGTGGTAATAAATTTAAATATTTAGATATAGCATTAATATCTGTTTTTGTAATAGTATTAATATTTTTGTTAGTGTATAAACTATTCTATTCAAATAATTATGTAGTAAGTATTAATGGCTCAAATTATACAAGTTTAGATATTTCGAATTACGTATGTAATTATGAAAATTTTAATAATAAAAATTGTTCGAATTATAATAAAACTGATATTAATAAATTTGTTGAATTTGAAATCTCTTCATTATATTTAAAATCAAAAAATAATTATCCAAATACAGCATATCTTAATAGTATAAAGCGAAGTACTAAATATGCTAATTTAAAGATGACTTCTCATTTATATGATTATATTCTTAATCTTTCTGTAAATTATAAAATGGATTTAATATTCCAAACAGTAGAGAAGAATTATAATGGATTTATTTTTATGGATATTTTACCTAGTAAAAGTACTAAATCTCTTTCTTATAATTTTGATTCAATTTATAATCATGTTAAAACTTTATCAGGTTACAATAACATAATAGCTTATCTTAGCTCATTAAATTCTAATACATTTAATTTAATAAAATATACAAATTTGAATTCTCAAAATATAAAATATAATAATAATATAAATCCTATATTTTATAATAATATTTCTTCTCAAATATTTAGTCTTTCTGCAAATAAATTATCAAGTGTAAATGTTCATCCTTATGTATTCTGTGCAAGAGGTTGTACTAATAATAAGGAGTCTTTTAATATATATTATTTTATATATAATGATTCTATTTTTGGAAAATATTCAAATTATACATCCTATATGAATACACTAGAAAAAAAGTATAATATTATATATTATTAATTCAGTATGATATTAAAAAAAATAAAATATTCTTCAATATTCTTAAGTATTTTTATTCTTATATATTCTTTTGTGTCTAATAGTTCTCCTTTACATGCGCAAATAGTACCTAGGTGTACTATTCTTCCTGGGACATATTGGGCTAATGTAGAATTTTATGTTTCAACAACGAATAATACTCAAGTTCCTTCAAGTTTATCATTAAATCCTGTTCAAACAGGTAGCTGTTCTAATGCGAATAGTATTAATACTGAAGATTCTAATTATGATCCAACAAGTTTTGGACAATCAGTTCCTAATATAGGTTTTATTGGTAGTAGTGGTACTGTGTGGTCAGGGTCTCATAGTGGAGGGACTCCAGAATCAATAACAAGAGGTGGTAATTCAGGAAATTCTAATATATCTGGTAGTACAAATTGGATATCATATAATCAAATATTTGATTGTGCTTATGGTTATGTTACCTATACTCTCTCAGGTCTTCCTGCAGGATGGACAGTTAGTTCTACTAGTATATATTATGAAAGCGGAAGCAGTGGTTCTGCTTTACCTGGTCAAGAAATTCCTATATTTAATCCTCTTGTTGGAAGTGATTATCAGGCACAATATACTTCAGTTTCAATATATATCACTCCACCTACAGGATCTACTAATCCTCCATCTCCAGGAGGTCCTACACCTACAGCTACACCTGTTCCTGTTCCAACACCTCCTATTTTGCCTCAAAATAATCCTACTACTAATTTGACAATAAACGGTAGTATTGTAGGGTATAAAGGGATTGTAATAAATAGAGATTTAGGTACTCAGGATTTGTATCAACCTAGTGTAGTAGTAAATTATAATACAAGTTTTCTAACTAATACTCAGATATATGCTAAAAGTATAGGAGATATAATTCAATATTGGTTAGAACCTCCGTTGTAGATATTTACATATACCTATAAAGACTGTAATATGAAATATATGAGAAAAATAAATTTAATTTTCATACTTTTAACTGTAGTTTCAGTACTGGGATCTAATTCTGTAGTATATGCACAAACTCCACCCAATACAGTTTCTGGAACAACTTCATCAAAAACTACTACAACAACAACTACTACTACAAAAGACACTCTTTCTTGTAATACATTTTCAATAACCCAAAATGGAGCAAGTGTAAGTAGTATTTCAAGTACGTCACCTCTGTCAATACAATCAGGGATAACATCTTCATCTGGTAGTCAAATAAATTATTCAAATGCTTTATGGTCTGTAAATACAGGAACAATAAGTCCATCTTCATCTAAGAGTTCAGCCCAATGGACTGCACCTTCTAATCTTAGTAATGGAACAACTCTTACAATATCTTTATCAGGTGTAACAGATTCTACTGGAGCAACTTTATCTTCTCCTTGTAGTGTAACACTTAATATTTCAACTGCTGTTTTAGCAAATACAGGATTTGATCTACCTACATATGTAGTGTTCTATACAGGTCTATTCTTTGTATTATCTGGACTAATATATTATATATTCTCATCAGATCAGATAATGGTTTTGGAATTTAGAAGAAGAATAAAGAGAAGATCAAAGGCTTAGTAGTAGCAGAGTAATTCCAATTTCTAAATCAATTTTTCCTTCATTTGACATTGAATATAAGTTAATAAGTTTATGATAAATATTCTTGAGTTTTAAGATATCATATTTATTAGATTTTATTTTTTGAATACCATATGTACTTGTATTTATTCCTATAATTTTTAATTTTTTTAATATTACATCACTGCTAATATTAGGAAGAGAATTTATGAATATTATTAAATTAATTTCTCTTATAATCATTGTTAATATATATCTTAAATCTGTAGTATTATCTTTTAACTTTTCAAAATAGAATATCAATTGTTTCTTATTATTAGAGTTTATAGAATTAACTAAATCCCATATCATTACATTATTTGTTTTTGTTATTATATTTTGTTTTATGAATTCTATATCTTTAATTTCTTTTTGAGGATATATAAAGTTAAAAATTTTATTTAATTCATTTTGTATTTGTACTTTATCTTGAAAATTATCTTTAATATATTGTATTAAAGCATTATTTTCTTTTATATTATTTTTTTTAAATAACTCTTTTATATAAGTTGCATTATCTTGAACTTTAATTTTATCTATTTCTAAACCTTTTATATTTTTGTTAATTTGTATATATACATAATCATCTGTTTTTAGATCTTTTAAATCTTTATATATTTTAAAACTATTTTTTATTGCTATAACCCTTTGTTTTTGAAAGATAGATATATTCAGGATATCATTTAATATTTCTTTAATTTCAACTTCTTCTGCATCATAAATATCAATACCTGTATTATTATGGATATCTTTTATATAATTTATAAAATTGTTATAGTCATCTGAATATATAAATTTTATCATTTATATTCTTTATATGAAGCATATAATAGAGCAATTAATATTCCTGCTATTCCAAATATTATCAAATTAGTTGTTTTTGAAGGAATTATGCTTATAGTTGTTGTATTAGGATTTATGTATTGTACAAATTTTAATATTGTACATGTAGGAATCTGAACTTTATTGTTAGATTTATCTATTTTTAATGCTTGTAATTGAGCTTTTTTACAAGCAAGATATTCCTTTTTTAATAATTTATTTATAAATATTTTTGTACTACTTTTTAATATTACCTTTTTAAATGCATTAATCCAATTTATAGATTGTTGTTTATTTGTATCTGTAATTTGCAGAGATACTATATTTAAGGATATATCTTGAACTCTTATATTAGACCTGAAAATAGAAAGCTCTGTGGAATTGAAATTGCCTAGAATATTTTTTGAATCTTTATATGCAAGATTAATAGAATTATTTGTACTTAAAAATGCTACTAAATCTGAAGGATCAGTTGTATATATATTAATAGAACTTTGATATTTTATAGGTATTGTTTTTGTATATAAATAACCTGCAGCAAGAGAAACTACAAAAATTAAAGATATCAATATAATATTTTTTTTAAGAGTTTTTATGTAATCTTTTAAATCTATCATAATCCTTGTGCATCTAGAATTAAATTAACCATTTTATCTGCAAATTTATTATTTTCTCTAAAAACATGAGTAAATGTTATTTTTTCAAATTGATATTTTAATATATTTATTTCATTTAATATTGATTTTAGAGTCATATCTTTAACTTTATAGATACCATTTAATTGCCTTATTAGAAGTTGACTATCACTAAAACAATCAAGATTTTTAATTCCAAGCTTTATTGCAAGTTCTATTCCTTTTTGCATTGCAATAAACTCTCCTTGATTATTTGTTCTAATACCTAAATATTGACCACCAAAATCTAGAAGTTTTTGATCTTCAAAAATAAAGAATCCATAGGAAGACTTTCCTGGATTACCTCTTGAACCTGCATCTGTATATAAACTATATATTTTTTCCATTAACTACTTAGCATTATATATTCTATCTTACATATAAATCAAATGCTGAGCATTAATATACATATATTTTTATTGATATTGTAGATTTTTTTCTTTTTATATATACTAATTGGTATATGGATGATACGTATAATATATTTAAAATATCTGTAATTTTTTTAATATTTATAATACTTGGATATTTTTTAAGTAATAATATATCATCTTTCTCTTCTTTCTTTTTCATTATCTGGATAATTTTCTGTATTATTATACTTTTTATATATATATCATTGAGTGATGTTATTTTAAATATAAAGAAAGAGGGTAAATGTAGAAAATCAGGTATATTAAAGATTAATAAGAAGGAATCTGAAAATCTAAAGAAAAATGATTTTATTTCAATTACTGCTCATGAAATAAAAACACCTGTAGCCGTTATTAAAGGATATACAGATCTTCTTTTAAATGATAAAGATATCTCTTTAAAAATAACAAATGATGTCAAAGAGTATATAAAAAGAATAGAAAATTCTTCAGATCAAATATTTTCATTAGTTGAGAATTTACTAAATATAACTAAAATTGAGAATAATGAATTATCTTTAAATAAAGAGAAATTTAATATATTAGATTTAATAGAAGAGGTAAGAGAAAATTTAATAAATGATGCTGATTTAAAAAAACAAACTATATTGTTTGAGACACATAATGTTAAAGATATTATTGTTTTTGCAGATAAGTTGAAAATTGAAGAAGTCTTAAATAATTTATTAATTAATGCTATAAATTATACTCCTGAGGGCGGTGTTATAAAGATTTCGGTGAAAGTAGAGGAAAAATTTATTAATGTATCTGTAAAAGATAATGGAATAGGTATATCTTATGAGGATCAAAAGAAAATATTTTCTAAATTTTTTAGATCTAATTCTATAAATGTAAGAAATATTAGTGGAACAGGTTTAGGTCTATATATATCGTCGAGTATAATAAATATGCATGGAGGAAAGTTAATTTTAGATAGTAAAATAGGACATGGTTCAACCTTTTCATTTTTACTTCCAATTAATGTATAATATTTTTTAGTTTATGGAGAATAATAAAAAAATATTATTAGTTGAAGATGATTTATTTCTGTTAGATTTGTATACCCAATTTTTTACGCAGAGAGGGTATAATGTTTCTTCAGCTTCAGATGGAGAAGAAGGTATAAAAACAGCATTATCTGGAACATTTGATGTAATTCTTTTAGATATAATGCTTCCTAAAAAATCTGGAATTGATATTCTAAAAGATATTAAAGCAGAAGGTAGTCCTGCGCGTAATACACCTGTATTTATGTTGACCAGTTTGGGATATGATGAAATCATCAAGAATGCTTTTCAATTAGGTGCTGCAGGTTATTTTCTTAAATCTAATATTTTACCTAATCAAATCATAGATGAGGTAGAAAGTATAATATCTCAGAACAAAATTTGAATAACTTTTATTTTTCTAGTATACTTACACATAAATTATGGCAAATATAAAATCATCTAAAAAAGACGTAAGAAGAACAAAGAGAAGAACCTTTTTAAATAATGGTTTTAGAATAGATTTTGATATGAAGAAAAAAGATTTTCTAAAGGAACCTAAAGAAAATAAGTTACCTGCTATTTTTTCAATTATAGATAAAATGGCAAAGAAAAATATTATTCATAAAAATAAAGCTTCAAGAATCAAGAGTAGATTTTCTAAAATTTCTCAAAAAGTAAAATAATCCAATATGGATAAAATAAGAAATTTCTCTATTATTGCTCATGTAGATCATGGTAAATCTACTCTTTCTGATACCCTTATAAAACTTACTAATACTGTGGAGAAAAGAGACCTCAAAGATCAATATTTAGACAATATGGATTTAGAAAGGGAAAGAGGAATAACTATTAAGCTTCAGACCATAAGAATGGAGTACAAAGGGTATACTCTTAATTTAATTGATACACCTGGACACGTAGATTTTTCAGGAGAAGTATCTCGTTCATTAATGGCTTCAGATGGAGCTTTACTTCTTATTGATGTTATGGGTGGAATTGAAGCTCAAACATTAGGCAATTTTTTAAAAGCAATTGATTTAGGTATACCTGTTATACCTGTTTTAAATAAAGTAGATATAGATGGAGCTAATATTGATAAAAGTATTGATGAGATTGTAAATATATTAGGTTTTAAAAAAGAAGAAATAATACAAACATCAGGTAAAACAGGATTTGGAGGAGAAAAATTATTAGATACTATTATTGAAAGAATCCCTTCTCCTCAAGGCAGTAGAGATGGTAATTTTAGAGGATTCGTATTTGATGCTTTTTTTGATGACTATAGAGGAGTTGTACTTTTAGTCAAAGTATTAGATGGAAAACTTACCGTCCCTGAAAAATTATATTTTGCGTCTAATAAAAAAGAAATTAATATTTTAGATGTAGGGGTAATTAAAGATACACTAATACCTAAAAAGGAAATTTTTGCAGGAGAAGTTGTGTATATATCGACAGGATTAAAAAACATAAAAGATGTTGTAGTTAAAGACACACTAATTAAAGATTTAGAAGATAAACCTTTATACCAAGTTGAGAATGAAAAAAGTATGGTGTTTTCATCAATTTATCCTTTAGATGTAAGTTCAGTATCAAAATTTAGAGAAGCTGTTGAAAAACTTTCAATTAATGATATTTCTTTTACTTATGCACCTATAAATAATTCTATTTTAGGTTTTGGATATAGATGTGGATTCTTAGGTCTTTTACATATGGATATTATTAAAGAAAGATTAAGTAGAGAGTATGATATAGATATATTTGTGAGTTTTCCTTCTGTAGAATATAAAGTTATTCTTCAGAATAATCAACAATATAACATTTCTCAAGCACAAGATCTTCCTGATTTATCCTTATTAGATAAAATAGAAGAACCTTATGCAAAATTAGATATAGTAACTTCAAAATCCTTATTTGGTAAAATTATGGAATTTGTTCTTTCAAAAAGAGGAGAATTTATCAATTCTTCTTTTTATAATTCATCTTTAGGATTAGAGAGGATACTTCTTAATTTCGATATCCCTTTATCATCTGTGATATACAATTTTTTTGATGAATTGAAATCTTTAACTTCGGGTGATGCATCTATGGATTATTATTTTTCTTCATATAAGGAATCTAATATTGAAAGATTAGACTTTCTTATTAATCATGAAAAAATAGAACCTCTATCATTATTAGTGCATTCTTCAGAAATAGATAAAGTAGCAAAAGAATATACTAAGAAAATGGTGGATATAATTCCTAGAAGAAACTTTTCTATAGCTATTCAAGCAGCTGTAAATGGGAAAATTATTGCAAGAGAAGATATAAAACCTTTTAGAAAAGATGTTACTCAAAAATTATATGGAGGAGATCCAACTAGAAGGAAAAAACTTTTAGAGAAACAAAAAAAGGGAAAGAAAAGATCTTTGATGTTCGGTCAAATTGAAATTCCTAGTGATCTTTTTATTAAATTGTATTCTCGCTTATAAATTTAATAAACTCTGAAAGAGAAATATTCGAATCTCTTAATCTGAAAAGTCCAAAAGAATTATTTAAATTTTGCATATTTCTATTGAAATTTTGATCTACTAATCCTGCTATATATCCATAAAATCTCAATCTATTTTCTAGTACAAGTTCTTTTTTTATATTATTATTTCTAAAAGGAGATCCACCTGGATAGGCAATAAATTGAACAGAGCTATTAAGTTTCTTCTGAATAGTATCTTTTGATATTATTAATTGATAATTTATCTCTGCTGTATTTAATATTCCTAGTGCTACATGAGTGACAGTATGAGATTCTATTTCCATACCATCTTTATACAAAGTTTCTATTTGTTTCCAATTCATGTATTTTTGTGTTTTATTTATAGAACCAACAAAACCTGTAATAATATTAAACTCTGCTTTGAAATGATATTTCAAAAGTAAAGGAAGTGCATATTTAAAATCACTTAATCTTCCATCATCAAAAGAGATTATAATTGGATTTTGAGGTAAGGGTAAATTGTAATAGTAGAAATCATAAAGTCTAGTAAGAGTTATACTATTATAGTGATTATTTTTTAAATATTGTAATTGAGCATTAAAACTTTGAGAAAGAAGTGTCAGATTATAGTCTAAAAGATAAGCATATTCTGAAGAATATAAATTTCTTTTAGGGTAGATAGGAGAAACCCTGTGTAGCATTAATATTGGAATTTTTATTATTAAATTAGTATTTTTACTGTATGAGATTATAGGTGTATTTGGAGAAAATATCCCTAAATTTTTCAATTTATTATTTTTATTCAAAGAAAAAGTAAAATAATGAGTATTATAAAAACTGGGAATATGATATTTATTATTGTTTTTAATTTGAAATAATATCTTATATGTTTCTTTGCGATATTTTATATTTTTAATTGTAATATCTAAAGGGTAATATTTATTAATTATGAATTGTTTAAAATCTTTGTAGTTAATAAATTTTTTTTGTTCAGTTAAAGAAAGATTGTTCCAAGTATTTTTAAGATTTCCTTTGTGTATTATATTATCTATTGTATTTATTAATATATTTGTTTTTATTATAACTGATGCTTTTTTTGTATATGCAATATTTAAGAATAAAGGGCTCAAAGAGAGCAGTATGAAAAGAATAGATGTACTTCCTTTTTTTGATTTTATTATAATTTTAAACATAAATATATTATAATATATACTTATACTATTTACTTTACTTTATGGATACTTTAAAAAATTATTTTTTAGCATTAAGACCTAATCAATGGATTAAAAATTTATTGGTTTTCAGTTTTTTATTTTTTGATCAGGATTTATATAATATCCATGATTTTATAATTGTTTTTTATACTTTTATATCTTTTATATTTGTCTCTTCTGCTATTTATTTGATAAATGATGTAATCGATTATAAAAGGGATAAACTTCATCCTGTAAAACGAAAAAGAGCTCTTGCCTCAGGAAAAGTAGATAGAAATTCGGCTATAATTCTTTCAATAATAATGTTTTTGATAGGATTCATCATTTCTTTTTTTATTAGTGAATATTTATTATTAATCTATATATTTTATTATTTATTATTTATATCTTATTCTATTTATCTTAAAAATATTTTAATAATAGATTCTCTTACAACTGCATCTGGTTTTGTTCTGAGAGTTTTAGCTGGAGGGATAGTTGTTGGATTTGCTATTAATTCTTGGTTTGTTATATTTATAATTTGTGCATCTTTATTTATAGCATTTGGGAAAAGAAGAGCTGAGGTTACAATGATGAATTTTAAAAATGCAGTAGTACACAGATCTGTATTAGGCTTATATCCAAAAGAATTATTAGACAATCTTATTTCAATGACAGCAGCTATAACATTTCTTTCATATATTTTATTTTCTTATAATGAAGATGTATATTCAAAGACACCTTCTACTGTATCTGTTTTTTTGCCAAGTCATTTAAAGAATCCACATTGGTTTAAATTTACAATACCTATTGCATTTTATATTCTTGCAAGATATATGTATAATATATATGTAAAGAAAACTGCTGATACACCAGAAACTATTTGGTTTAGAGATAAATCCATTTTAATAGCAATTGTTATTTACATATTAGTTTCATTTACCACATTATACGTAGTTTAATATGTTAGAAGACTTAAATGATAAACAGAGAGAAGCTGTACTGGAAGATATAAATACTCCTTTATTAGTTATAGCAGGTGCAGGTTCAGGAAAAACAAAAACTCTGACTTATAAAATTGCTTATATAATAAAAGAGTTAAATTTATCTCCTTTCTCTATTTTTTCTGTTACTTTTACAAATAAAGCATCTAATGAAATAAAAGAAAGAATAAATCATCTTTTAGGTGATAAGATATCTTTCCCATATATGGGGACATTTCATTCTGTATTTTTATATATATTAAAAACAGAAGGATATAAATATGGAATAGATCGTTATTTTTCAATTTTTGATCAAGATGATCAGAAAAAAATTGTAAATGACATAATAAAAAAGATGAATTTAAATTCTAGTATTAATCCTTCCTCTATTCTCACAGGTATTTCGAGAGCAAAAAATGATTTTATAAAACCTCAAGATTATACACCTTCTAATTTTTTCGAAGAGAATGTACATAATGTATATAAAGCTTATCAAAATACCTTAGAAGAGAATAATGCTATGGATTTTGATGATCTGTTATTTAAAAGCTTAGAAACTATATTATCTAATGAAGAATTTGGAAAATCTTTGGCAAGTAGATTTAAGTATATATTAGTTGATGAATATCAGGATACAAATACTATACAATATAAATTATTAAAATTAATATCACAAAACAATGTTTTTTTTGTAGGAGATCCTGATCAAAATATTTATTCTTGGAGAGGTACAGATATTAGAAATATTCTTAATTTTGAGATAGATTATCCTACTGGTAAGATAATAAAATTAGAACAAAATTATAGATCTACAAAATATATACTTAAAGCCTCTGAATCGGTTATTTCTCAAAATACATTAAGATATGAAAAAAAATTATGGACAGAAAATCAGCTAGGAGAATTAATTAAGATTTATCAGGCTTATGATGAAGAAGATGAATCTCGTTATATTGCAAATAAAATATTATATTTAGATGAGTTTAGTGATACAGCTGTCTTATATAGGACTAATGCTCAATCAAGAGCTATAGAAGAAGTATTTTTAAGACATAAGATCCCATATAAAGTATATGGTGGAATGAAATTTTATCAAAGAAAAGAAATTAAAGATCTAATAGCATATATTAGATTTATAGAGAATAGAAATGATACACTTTCTTTGAAGAGGATTATAAATGTTCCTCAAAGAAAGATAGGAAAAGCTACTTTAGAAAAATTAGATAAATTAGCACTAAATTCTAATATGTCTTTAGGAGAGTATATATTTTCTTTTAAAGAAAGTTTACCTAAACCTGTTTTTATGTTTGTATCAATAATGGAGGATATCCTTTCAAAAAAATCTGAATTTGATATAAAAAATTTATTAGAATATGTATTAAAAAAAATAAAATATATCCCTATGTTAGAGGAAGAAGGTGAGGTTGGTATATCAAGATTAGAAAATTTAGAAGAATTTATTGGAGTTAGTTCTAAATATGGAACATTAGAAGAATTTTTAACAGATATAGCTTTAGTTCAAAAAGAAGAATTAGAAACTGAAGATAATAAAAATTATGTAACTTTAATGTCTCTTCATTCAGCAAAAGGATTGGAATTTAAAAATATATTTATAGCAGGAATGGAAGAAAATATATTTCCTCATTCACGATCATTTCAAAGTATTAATGAAATGGAAGAAGAAAGACGTCTATGTTATGTTGGAATGACAAGAGCAAAGGAAAAATTATTTTTAACATTTGCTCAACAAAGGTCATTATATGGTTATCCTCAATCAAATACTCCTTCAAGATTTCTCTCTGATATCTCTGAGGATTGTGTAGATTTTGAATATATCTAATTTCCTATTGGAGTGTTTATGGATTTATATCCTCCTCCTATACCCTTACTTATTTGAGAAATGCTACCTTTTGTAGAGAATAACCCTGAAAGAGAAGATATTATAAGTATGATTTCTATTATATTTAAAATTATGCAAATTACACCGTTAATATAATCCTCTTCTGTTATTTTTTTTATTCCAATAACGAAACCATATATAGGAAGAAAGAAACTTTTTAGATAATCATAAAAAATATTAAGTTTATCTATAGATTTATTTTCTTTTTCTTCAGCTACTGCAGCAAAAAAATCTTTTGCAATTTTAGTTTTTTCTTCTTCACTCAAAGAAGATTCTTTTAAATTTCTTAAGGTATCATTCTGTAATTGTTCTTTGTCATAACTCATAATTTAATAATATCATGGTAGTTACTTTCTATTAATCCAGCATTTGTGATTTTTAAAAATTTTGCATTTTTTCTTAGTTCTTCTAGGTTATATGCATTACAATAACTTAACCCTGATCTTATACCTCCCACAAGATTTCTAATTGTGTCTTCAACATTGCTTACCACTTGAACTATACCCTCAATTCCTTCAGGGGTTATATTTTTAATATCATTTCTTTTATCTATTTCAAATCTTTTTTTTATTTCTGAAAAGGATGCTTCTCCTCTATAATTTTTATATCTTTTTCCATCTTTTATAACTATTTCTCCTGGAGCTTCTTCACATCTTGCAAATAAATTTCCTATCATAACACTAGATGCCCCAAGAGCTAGAGCTTTTACAATATCACCGGAATTTCTTATTCCTCCATCTGCGATAATAGGAATAGAGCTTTCTTTTAAGATTGAATATACATCATCAATAGCTGTTACTTGAGGAACACCTACTCCTGTTACAATTCTAGTTGTACAAATTGATCCAGGTCCTATACCTACCTTTACTCCAGATACGTCTAATTCTAAAAAATCTCTTGCTGCTTCTGCTGTTGCAATATTACCAATTATCAATTCAATATCTTCTCTATATTCTTTTTTTATTTCTTTTACTAGTTCTATAACACTTTCTGAATGTGCATGAGCTACATCTATAATTATAAAATCTGCACCTGCTTTTATTAATTGTTTTAAATTTTCTTTAGGATTCATACGTATACCTAAAGATGCTCCAACTAGAAGTTTTCCTTCTTTATCTGTATTTGCAAGTTCATAATTATTTTTATCAAATTCATAGTTTTTAACTTTACTTATTTCTTCTATTTGTTTTTCTATACTCATTACTCTATGTATAGCTCCTACTCCTCCTTCAAGTGCCATATGTATAGCCATAGAACTTTCAGTCACACTATCCATATTTGCACTAACAATAGGGATATTTATAGAGATATTTTTAGTTAATTTGGTTTTTGTATCTGTATCTTTTCTTGTCTTTATTTTGGATCTTTGAGGGGAGAGTAATATATCATCGTAAGTTAATGCTTCTTTTATTAACATATGGTTTGTGATATAAAATAAACAATGTATATTATACTCAAAATCAAGAGAAAATTATATATATCCAAAAAAGCTTTTAGTTTAGTAGAGATACTTGTGGTTCTTGCAATAATAGGTATCCTTATTAGTGTAGCAATAATAGGTATAAATGGAGCACAGATAGCTTCTAGGAATAGCATTAGAGCTCAAGCTATATCTGCTATTAATGTAGATATTCAATCATATTTTAGTTCTCATCACTACTATCCTTCTGATATTTGGTTTTCTAATAAGGCAAATTTTACAGGATCTTCTTATTCTTCATGTCAGTCTCAGAATGGAAATTTTACTGATACATCAAGAATATGTTTAGGAATATATCCTCCTACATATTCTACAACAGGAAGATTTTGGGTTGTTTATGATACAAGTCTATCTAAACCTCCATTGATATCTTATTCTGGATTTGATGGATATACTCAATCCGAAGGAGTTAGTAATTATAACGGAGCTACAACTCCTTCAACAACACAATTTTTTTATGTTGATTTAGTTTATGATCAAAATAATTATCAATATCCTCAAGGATATATATTAGGTTTTTGTAAAGAAGGAGGAGGCGTTAGTGTTTTGAAAGGAGGTCTAGGAATGGATATGAATGTTACTGGGAATAGTGTGACAATCTCTGTTCCTGCAAATCGTATTTCTTCTTATCATTTATGGGGACTTATACCTAATAACAGTACGTCGATTTCAACATTTTCTTGTAATTAAACTAAAACTAAATGTATTACTTATAGTAGAAGTATTTTTAGTGAATTCTCCTTTTATTAACATATAGTTTGTGATATAAAATAGATAATATTTGTTATGCTAAAAATTAAGGAAAAATTATATATATCCAAAAAAGCTTTTAGTTTAGTAGAGATACTTGTGGTTCTTGCAATAATAGGTATCCTTATTAGTGTAGCAATAATAGGTATAAATGGAGCCCAGATAGCTTCTAGAAATAGCATTAGAGCTCAAGCTATATCATCTATTAATACAGATATCCAGTCATATTTTAATACTCATCACTACTATCCTTCTGATATATTGTTTGAAAATCAGAATTCTTCCTGTACAGGATCTGCTAATCTGGGAAATGTTTGTTTTACTATTTATCAACCTATTAATTTTCCTAACGTCTATACCTGGATTGTACAACCTACAATTTTAAAACAATCGTTTTCAGCAGGAGGATCAGGGTTTGATGGATATCCTAATCCTTCAAATTTTACATCAGCAACACAAACTCAATATTTTTATTTTAATGATTATGTATCTTCATCTTCATCTTCAGGAGTGGGAGGTTATCCTTTAGGATATACTGTGGGTTTTTGTAAAGAAGGAGGTGGAGTCTTCTATCTTTCTGGAGGCAAGTCTCCTACTGTAACAGTCACTAGTACAGGCATTAATGTTACTCCCAGATCAGGCTATGGATTATGGGGAGATGAATCTCTTCCTCTTATTTGTAAATAAAAAATTTTTCAAACTAATACTTTTATGGTAATATATACCTTATGAAAAGTAAGATATCAAATTTATTGAATGAAATAAGGCCATTTATTCTCCAACATGGAGGAGATGTAGAGCTTTTGGAAGTAAAAAAAAATATAGTTAAAGTAAAAATGATGGGAGCTTGTGTTGGATGCTCTCTCTCTTCAATTACACTAAAGGACGGAATAGAGAGCATTATAAAAGATGAATTTCCTGAAATAAAATCTGTAGAATCTGTAGAATAAAAATATATGTATATAACAAAAGAAGGGAAAAAAATTTTTGTAGAAATAGATAGAGATTTATGTATTGGCGCATCAAGTTGTGTTGCTATTGCCCCTGATACTTTTGATATGGATCAAGAGAGTAAAGCATATATGGTAGGTCAAGAAATTGATGATTATGAAACTGTTCTAGAGGCGTCTAAGAGTTGTCCAGTTTCTGCAATAATTCTTAAAGATGAGACAGGTAAACAAATTTGGCCATAAATAATATGAAACAGACTGAAAAACAATACGAATTTGGATTCTCTACACCTTCTAATTATGTTTTTAAATCTAAAAAAGGGTTATCTAGAAAAATAGTAGAAGAAATTTCTTTTATGAAAAATGAACCTTTATGGATGAGAGAGTTTAGGCTTAGAGCTTACGATATATTTATATCAAAACCTATGCCTTCATGGGGAGCAGATCTTTCGGATATAGATTTTAATGATTTTTTCTATTTTATACGTTCTTCTCAAAATAATTCTAAGAGTTGGGATGATGTACCTCAGGATATAAAAGATACTTTTGAAAAATTAGGGATTCCTGAGGCTGAACGTAAGTTTTTGGCTGGAGTAGAAGCTCAGTTTGAAAGTGAAGTAGTCTATCATAATCTTATGAAAGAAATTTCAGATAAAGGTGTTATATTTACAGATACAGACACAGCTCTAAAAGAATTTCCAGACTTATTAAAAGAATATTTTGCAACTGTAATTTCTCCTTATGACAATAAATTTGCAGCTTTGAATAGTGCAGTATGGTCAGGTGGGAGTTTTGTATATATTCCCAAAGGAGTTAAATTGGATATTCCTCTTCAGGCATATTTTAGAATCAATGCAAAAGCAATGGGACAATTTGAGAGAACTCTTATTATTGCGGATGAAGGATCTTCAGTTCACTACCTGGAGGGTTGCACGGCTTCTATATATGATGAGAATTCTCTTCATTCAGCTGTTGTTGAAATTATATGTAAAAAAGGTAGTAATGTTAGATATACTACAATTCAGAATTGGTCTAAAAATGTATATAACCTTGTTACAAAAAGAGCTATAGCTTATAAAGATGCAAAAATGTATTGGGTTGATGGAAATTTTGGATCTCGAGTTACTATGAAATACCCTTCAGTTTATCTAATGGAAGAAGGGGCTCATGGAGAAATTTTATCAATGGCATCAGCATCACAAGGACAACATATAGATGCAGGATCTAAAATAATACATGCGTCTTCAAATACTTCTTCTAAGGTAGTATCAAAATCAATATCTAGAGATGGAGGACGAACTACATACAGAGGTTTAATAGATGCTAAAGACGGAGTAGAAAATATAAAATCTGATGTTAAATGTGATGCTCTACTTATGGATGAGTATTCTCGTACAGACACATATCCTACTATAAATGTTGATCATGTTAAAATGCCTATGCTACAACATGAGGCTACAGTAAGCAAAGTTGGAGAGGATCAGCTTTTTTATCTTGAGTCTCGAGGTCTTAATGAGGATGAGGCATCTTCTATGATAGTTAGTGGTTTTTTAGAGCCAATCGCAAAAGAACTACCTATGGAATATGCAGTAGAATTAAACAGATTAATTAAATTAGAAATGGAAGGCTCTGTGGGATGAATAGATTTATTTTTAAAAGAATATCGGAATATAATGCTCTGGATATAAAAGAAGATATATCCTTAAAACAAAATGAAGTTTTAGTATTTGTTCTTATAATAGATACTCCTCAGAAAAAAAATATTGATATGAATTTTAATCTTAAGAAAGAATTTTGTAAATTACATCTATATGTTATAGAGAATGGTATTCTAGGACAAGATATAAATATTAATCTTAAAATAGAACATATATATCCTAATACAATATCAAAGACATATATAAGAAGAGTTATGAGAGATGGGAGTTTATCTTTTATAAAGGGTCTTGTGAAAATAGACAAATTCGCCACAGGTTCAAATGCATATTTTAATGAAAAAACACTTCTTTTGGGAGATCGAATTGTATCAAAAGTCATTCCATCTTTAGAAATAATACCTAATAATGTCAAAGCATCTCATGCATCTTCAATCTCAGGAATAAGAGAAGATGAATTATTTTATCTTGAGAGTAGGGGTATTAATAAAAAAGATTCTATAAATAGTATATCTTCAGGATTCTTAATAGCTAAACTCAAAGATATAGAAGATCAAAAATTTAGAGAAAAAGTTATAAATGAAGTTATAAAAAATATATGAAAGAAATTTTATTAGGAGATATTAAAAATTTTGAAAAACATAAAGGTTATACATTTAATTTAGAAGGAAGGGATATATTTGTATATTTCTTGAAGAATTCAATATTAGCAATAGATAATTGTTGTTCTCATGAAAAATATCCTTTAGATGATGGATTGATTGATGAAGAGAAAAAGGTAGTTACATGTATTCATCATGGAGCAAAATTTGATCTTTTGACAGGTAAAGCACTATCTCTTCCTGCATTTAATAGTATTAATATATATAAAATTATAAAAAAAGAAAATTTATTATATATAAGAATTTGACTAAGTAAGTCTATATATAATATACTTATACTTTACTAAAATAGTCACATTTATATGAAATTAACAAAACTAGAAGATTATTCAATTTTAATAATTAGTTTTCTTGCAAAACAAGAAAGCTTTGTGTCAGTAAGTGATATCTGTAAGAAACTTCTTTTACCTATACCTTTTACAAGAAAGATTCTAAATATATTACTTAATAAAAATATTGTAAAAACTAAAGAAGGTAGTAATGGAGGATATATGATTAATGTTGATCCATCAGAGCTCAGTGTTTATGATGTTATGAAAGCTTTAGGAAATGAAATTTTATTAACTGAGTGTATTAAAGATGATTGTTCAGTGAAGGATCAATGTAGTTCTAAGGAAGTCTTTAATAAGTTAAATGAAGAGATACGTTCAAAATTTAGTGATATTAAAATTATAGATTTCATATGAATATATTAAGAATACAAGATTTAAAGGTAAATGCAAGAGAAAAAGAAATTTTAAAAGGCATTAATTTATCTTTAAAAGAGAAAGATATTCAAGTAATTATGGGTGCTAATGGTTCAGGGAAATCTACCTTAGCAGAAATTCTTATGGGTTCATTTGAATATAAAATAATTGATGGAGATATATATTTTTTTGAAGAAAATATTAATAATATGAAACCATATCTTAGGGCAAGAAAAGGTATGTTTTTAGCTTTTCAAAATCCAGTAGAAGTTCCTGGAGTTAATTTTGGAACTTTTCTATATACTGCATATAAATCTATATATAAAGAAAATATTGAAATTTTTGAATTTATATTAAGACTAAAAAAAGAATCTAAGAGATTAGGAATTGATGACACTTTTCTTTCTCGTAATCTTAATGAAGGATTATCTGGTGGGGAGAAAAAAAGAATGGAAATACTTCAAATTGCAATTCTAAAACCTAAATTTGCTATATTAGATGAAATAGATTCAGGTCTAGATGTAGATGGAATAAAATTTATTACAGAAAGTATTAATACTCTTAATAAAGAAGGCATAACATTTCTAATAATTACTCATCAGAAAAAAATGCTAGATAAGATAAATATTTCAAAAGTTCATATAATGAATGATGGTAAAATAGTAAAATCAGGAGGTCGTATTTTAATAGAAAAAATAGAGAGTTTAGGGTATAAGAAAATTATAAAAAATTTATGAATAAGAAAGATTTTCCAATATTTAAAAATACAAAATTTTATGGAAAGAACCTAGTTTATCTAGATAATGCAGCAACAACACAAAAACCTCAGATAGTTATTGATGAATTTTCTCGTTTTTATGAAAATTTTAATGCAAATGTATATAGAGGTATATATAGACTCTCAGAAGAGGCAACTTCTATGTATGAGGGAGTTAGAGAGAAGAGTGCTAAATTTATAAATGCTAAGAGTAATGAAATAGTATTTACTCGTAATACAACAGAGAGTTTAAATTTAGTTGTGTATACTTTTGCAAAATCAATATTAAAAAAAACTGATACAGTACTTTTATCTTTGATGGAGCATCATTCAAATATAGTTCCATGGCAAATACTACAGAAAGAAATTGGATTTAGTATAAAATATATAGATATAAATAAAGAAAACTTCTCTTTAGAAAATGTAGATTCTCTATTAGAAATAAAACCTAAAATAATTTCTCTTACATATATATCAAATGTACTAGGTACTAGAAATGATATTAAAGATATAGTAAAAAAAGCAAGAAAAATAAATGCATTTGTTATAGTTGATGCTGCACAAGCTGCACCTCATATACAAATTGATGTAAAATCATTAGATTGTGATTTTTTAACTTTTTCTGCGCATAAAATGCTAGGTCCTACAGGTGTTGGAATATTATATGGAAAAGAAGAGCTTTTAGATAAAATGCCTCCATTACTTGGAGGTGGAGAAATGATAATATCTGTAGATAAAAATAAGAGTGTATATAAAAATGCGCCTTTCAAATTTGAAGCAGGTACTGTTAATTTTGCAGATACAATTGTTTTTGGAAAATCTATAGATTATATAAATAAAGTAGGAATGAATAAAATCTCCTTGTATATAAAAGAGCTTTCTTTCTATCTTTATGAAAATCTTGTAAAAATTAATGGAATTAAAATATATGGAGCAAAAAATGATTTCGGAATATATTCTTTTTCAATAAAAAATATTCATCCTCATGATATAGCAACATTCTTGGATGAAGAAAATATTGCAATTAGAGCAGGACATCATTGTGCTCAACCTTTAATGAAAGAACTTAGTGTATATGCACTATCACGTATTAGTTTATATTTTTATAATACACAAGAAGATATAGATAAAGTATCTCTCTCTCTTTCTAAGATATCAGATTTATTTTAATTATTATGGACAGTTACCTTACTAGAAGCTATATAATAGATATATATAATAATCCTAAAAATTATGGAGATATGAAGGATTTTGATATATTAGAAGAAGGAGAGAACCCTTTATGTGGAGATAGTATAAAAATATATGTAAAATATAAAGGAGATATCATAGAAGATATTTCTTTTGTGTCAAATGGTTGTATAATATCTAAGGTTGCGGCATCGATTCTAACACAGGAAGTAAAAGGAAAAAGTATTAATGATATAAAAAAAATAGATTTTTCTCTAATAAAAGAAAAAATGTTGATGGACATTTCTTTTTCAAGAGAAAAATGTGCTAGACTATCATTTGAAATTCTACAAAAAATTATAGAAAAATAAATATGACTAAAATTCAAGATTACGATTCTGTAAATTACGATTACAGGGAATATTGGAGAGATAGAGAATATGAAAATTTATCAGAAGTAAATATTCTTAAAAAAATAATAAAAGAAGGAAAAAATTTTATAGATGTAGGAGGTGCTTATGGAAGGCTTACTCCTATATATCAGGATAAATTTAAATATTCTATTCTTTTTGATTATTCATATAAGAATCTTAAAAGAGCAAAAGTAGGGAGTAATGTATTTAGAGTTTGTGGTGATATATATAATCTTCCTTTTAAAGATAATTCTATAGAAGGTGGAATGTGTGTGAGAGTAATGCATCATATAGAATCTCCTGAGCTTGCAATAAAAGAGCTCTCAAGAGTTATCTCATCTGATTTTTATCTAGAATTTGCAAATAAAAATAACTTTTTAGCACTCATAAGATCTAAATTTTCTTCTAAATACAGAAGACTTAATACAATTAAAATTCAACATAAAAAAGACTCTCAAGGATTTATAGAAGATCAGGTTTTTCTTAATTTTTCTCCTAAATTTATAAAAAAAATAATAAATCCTTATTTTGAAATTAAAGAAGAATACTCAGTTTCTAATTTTAGACAAAAAATACTCAAAAATATTTTTCCTCTAAAATTTCTAATATTTTTGGATAATTTATTTCAAAGTATTTTTAAAATTATTTCTTTTGGGCCTAGTATTTTTCTGAAATTAGAAAAAAAGAGTAGAGAGAAATTTATTCTAAAAGATATTGAAGATATTCTGATTTGTCCTAAATGTAAAAGTGATCTTTCAAAAACAAGATGTCCTAAATGTAAAATTGATTATCTAGATAAAGTAGGAATATTTAATTTTAGACTTTCTCACTTTTAATTTACTTGACAATACCCCCAATTAGGTGTAAATTAGGCGTATATATACACCTAATTAAGCAATGGAATATAAAAGATTAATACAAGATAATATAGAAAAAAAATTATTTAAAGGAAAAGCTATCATAATATATGGAGCAAGACAGGTAGGTAAAACAACTCTAGTAAAGAAAATACAAGAGAAATATATAAAAAATTCTTTATACCTAAATGCAGATGAGCCAGATATAAGATATTCTTTTGAAAATAAAACCTCTACTGAAATAAAAAAAATAATAGGGAATAATACTTTTTTAATAATAGATGAGGCACAAAGAATAAATAACATTGGATTAACTCTTAAACTTATAATTGACAATTTTCCTTTAGTACAAGTTATAGCGACAGGATCTTCTTCTTTTGAACTATCTAATAGTATTAGTGAGCCATTAACAGGAAGAAAATTTGAATTTCATCTATATCCTTTGTCTATATCAGAAATATTAGAAAAAAAAACTAAAATTGAAATAAATCGTCTTTTAGAAGATATGCTTAGATTTGGTATGTATCCAGATATTATTTCTGGATCAAATCTAGATGCACAAATAAAAATAGAAGAAATAGCTTCTAGCTACTTATTTAAGGATATATTACAATTTCAAAATATTAGAAATAGTGAAGTGTTAACTAAATTACTTCAAGCATTAGCATTACAAATAGGAAATGAGGTGTCTTATAACGAACTTGCTAATCTTTTAAATATAGATAAAGATACTGTATCAAGATATATACAAATTTTAGAAAAGGCTTTTATAATTTTTTCATTAAAACCTTATAGTAGAAACCTAAGAAAAGAAATAGGTAAATTACGAAAAATTTATTTTTATGATTTGGGAATAAGAAATGCAATTATTAAAAATTTTAATATCTTATCTTTAAGACAAGATATAGGCGCTTTATGGGAGAATTTTATTATATCTGAAAGAATTAAATATAATAATAATAGAGAGAGAAATATAAATAATTATTTCTGGCGTACATATGATAAAAAAGAAATAGATTATATTGAGGATGTAAGTGGAAGACTAGAGGGATTTGAAATTAAATATACTTCAGATAAATTTAAAAAATACGTTGAATTTTTAGATACATATAAAGATAGTTCTATTACTCTTATAAATAAAGATAATTTTTTATCTTTTTTATCTTAACTATATTTGTGAGGTTGATTATTTAGATAAATCAAAAATATTTAACTTTAGATTTTCTTACTTTTAAATAAATTATAATAATAATTATTATTCCTAATATTAGGTAAATATAGTAAGGTAGATAAATAATATAGAAAGATTTTTCTTTATTTATTTTCTCTCCTATATTATTTGTATTAAAAGATATTTTGTATATTCCCCAAGGGATATTTTGAATTTGAAATGTTTTATACCTTGTCTGTTCTACTAAAAGGTTGATTACATTAGTAGGCGTATTTTTTGAATAAAACAAAGATTGTGTATTTATATTTATTATTGCTGCATTATTGTAAGGTCCAGGATTATTAAGAGTATAATCTAAATTTAAAGGAAGAGTATTTATGAATAAAGGAAGGTATGAAATCTTACTATTTATATTTGAGTAGTTTTTATTCTTTCCTCTTATATTTACAAATACATTAATTACAATACTTCCCTCTACTCTGCTTTGTCCTGAAAGATTTTTAGTTATATTAGATATTGTAATTTCTCCGTTATATGATCCATTTTTTGTATTTTTAGGAATATTTATGTCCACAGGTATATTTATTGTAGCTTTAGGTTGTATTATGAAAGATTTTTGTGTGATTTTAATCCAGCTGTTTATATTTGTTATTGCATTATTCTGAGTGATTGTGAGTTTTTTATTTATATATTCTATATTTCCCTGAGAAAGAGATACTTCTAAAGGTATTAAAGATTCATTTAGTATAGATAAATTCTCAGAGGTATTAGTATTAGAACTTTTTGTAATTGATATATATGCAGGAGTTACTCTCAATGTTTCTTTATTTGTAGATGCATATACACTTTGAGAAAAAGTTAGAAAAAAAAGTATTGCAAAGATTATAGAATATTTTTTCATTAATAGTTACCTGCTAAAGTATATGTAATAGTATTTGTATAATTACCAGATGCTTGTGTTGCGGGAATATTTACAGCATATCCTACAGCAATACTCTGATTATTAGCAATAGAAGAGAATGATGCAAATTGAGTAGGTGTAGAAGATAATTGTCTGTAATAATTTGTATTTATAAAATCATTATTACAGAAAGGTGATTGATTATCTATTCCAGCATTAAAAATAGTCTGAATTTGAGATTGTGTTAAGGCTGTATGATATACAGCAACATTAGAAATTTCTCCTTTAAAATAAAACCATCCAGCAGAAGCATAGGTCCAACCTTGATCATAACCAACTCCTATTTGTGTATAATTCGTACTAAATGTATTTGGAACTCCAGCAGTATTTACTAATTGTCCATCTAGATATAAAGATTGACCCGAAGAGTTATTTACAGTTAACACTGCATTATGCCATTTACCATCATTAATATTGGTACTATTACAAAATCCTGGAGGAATATCTATTCCTCCACATAAATATCCATTAGTTCCTATATATAACAAACTATTATCAAAACCTGGTGTAATACCTACTGTGCTGTTTTGATTACCAAGCAATGTTCCATCAGATGTAGTCTTAAACCATAAAGAGAATGTAAGTGTTGAAAAATTTGCATTATTTGTTAAATTTTGAGGTAAATTTATATAACTTGTAGATCCATTAAAATATGTTGATTTATCAAGGTTAGAATTTGAAATTGGACCTTGTTCTCCTTGAGTATATCCTCCCGTATATGTCCCATTATTTCCATTCCCAGACAGATCATATGCAGTAGTTCCTGTAGTTTCTGAAAGTGCCCAGAAAGCAATAGGGTTGTCAGCTAAAACTGCTTGTTCAAATGAGTTAGAAGTACTACAGTTATATCCTAGACCTGTATATGCAGTAGAAGTATATGCTGCTGCAGTAGTACTAGTAGCTCCATTATTTACAGGAGGAATCTGGAATCCTTGATTATTCACAAGATTATTATTTTCTGAAGCATAAAGGTTATATCCCATTTCTGAATTAGAAGAGATAGTGATAATTGTATTTGTGGGAGATTTATAAATAGTACCTGGTAGAAGATTTCCAAAATTTATAGAATTAGTATTAATACTCATTGTAATAGAAGGTACTGATTGTCCTGAATAATATTCAAATCCAGATTTAAGTATAAAATTTGTAGATTGAGATACTCCAGTAACTAGTTGTCCTAAAGTAGATTTTTCTTGAAAACTTGGAGAAGATTGTGTATATGGACCACTTTCTCCAAAAACAGGATCTGTTAATATGTATGATGAAGATGTATCTGTAGGGGGAACTTGAGCATATACTCTAGTTATAAGTACAAAAAAAAGTATAAAACTTATTGTGAAAATTATTTTTTTCCCCATTTCTTTTTTATTATTATATATATAAATATTATTATACCTAATAATATAATTACATACAAAGGATTAATTATGTAAAATTTTATATTTTTATTTATATTATAAAAAGTACTTCCATATCCATAATTAAGTATCAATTGTGCATTATATATTCCGCTGTCATATAAAAATCCTTTATTATTCCATATGTTTTGATATTTTCTTTGAGAATGAGATAGATCTAAAGAACCTGTTGGATTTATAGGTATAATTTTTACAACACCTCCCCATAAATTTTTTATTATTATAAAACCTTGAGGAGCAAGTTCTATATCTCCTGTATTTTCAAAATTTATATTAAATACTATTTTATTTGAAAAATTAAAAAAATTTGATGTAGAAAATGTTTTTACAAATCCTGAGATTTTCATTTTACCTTTAATATCTATAATAATTAGTGATCTTAAAGATTCTTCAATATTGGTATTTCCTATCCTTTTATTTATTATTATTGCTATATAATGTCCACCTGAAGATGCATTGGTAGGTATATTTATAATATATTTTAATTCTAAGTTTGTATTCCCTTTTATGCTTTGTATATTTTTTATATGTACCCAATGAATTGCCTGAGATTTATTATTAATTTTTTTTGAAAATAAGGGGGTATTACTATTTCCATTTTGTCTAAATCCTACTATTCCTACACTTATATATGCTGTTTTTACAGAATTATTTATTATTTTGATTTTTCCTTTGTATATATCTCCTCTTGATAAAGAAATTCTTGTAAGAGTAGGAGTGAGGGTAAGAGTATTATAGTTAGTAGAGGCAAATATTCTTTGAGGTATAAGTATAATTAGAAAGACTATAATAGGTATTAATTTTTTCATTTTTAGAAATTTCCAGTAGCAATAAAGGTAATGTTGTCAGAATATATTCCTGTAGGAGTAATATTGGAGGCTGATGCAATATAGTTAACATTAACACTTCCTGATTGAATAGGAGTAGAGATATATGAAAGTATTTCTGCAGGAGAGATACTTAATCCTCCAATACTATCTCCCGTACCACTAAAAGGAAAAGAGATAGACATATTTGAAGAATTTGCATTAATTCCATATCCTTCTATTCCGGAAGCAAGAGTTTCTGTTATAGATGGAATAGTGTATGAAGCAAGAGAATTATATAATCCAGCATATTGATCTTGTACAGTTATATTAGCACCATTAGTAGCATTTGTTGTAAGAGAAAGAGTATTGTTCTGTACAGTAGGATTTATATAAGAGACTATTCCTAAATTAACACTATTAGAACTTACTCCAAATGTAATATATGGAGTAACATTCAATGTTAATTCTACTTGGTTGTTGTTAAGATTAGTAACAGAAGAAGAGATAGTTGTTGTTGGTTCTGGAGAAGAGTATTGTCGAACAATAATATTATCCCAATAAGTTATACCTGTTCCAGCGGCATCTCCTATTAGACCAATATATCCTCCGTCATTAATAATTGTATTTGTAGAAAGTAGAGTACCGTTAATTAAAGGAGAGTCTCCTGTAGTCTGTTTGTAATATAAAGATGCTGAAGTAGAAGAAGTAATTGCTATTTCAAATTTATACCAAGTATTCGAAAGAAGACCTGAGCCTCCAGGTGAATTCCATGATGTCCAAGAATTTGTTGTTGCAAAACCAAACCAACCAGCACTAATTCCAAATCTATACATCTGTCCTGCCCCTGTAGAATTTGTAAGAAAATAAAAATCTCCAAGAACAGTTGTATTCCCATTAAATATTACAGCTTCATTAGGTGTAAGCCCTATATTCTCATACATATAATCTCCATTTATACTGTTAGTATAATATGAAGGAGAAGGATCTCCTATAGATGTGATTTGTCCTGCAGAACCTACTTGAACCCAATTAGAAATAGAATTTCCTTGGTCAAAATAGTTAAAAGTCGCACCTCCATTACTTGTAGATACTGCATTAGGAGATCCATAATATAAATATATAATTGTATTTGCAGATGCAGTTATGCTAGGTATTTTTACCCAAATTTGAGTTGTAGATGTATTACATCCTCCTTCTAGCCAATATTGAAGTAGGTTTCCAGAAGAATCTGTAAATCTGATGTCAGCACAATCAGATCTCATCTCTCCTGCTGTAATTAATGCTTGAGTATTTAGAGTTACTTTAACTTGGTAATTAGTTAGAGTACTTGTGTTAGTACTATTTATTGTAATAGCTTGCTCATATTTATCTCCAGCTGGTCCAGAACCATATCCTGATGAAGGAATTATAACAACACCAATTCCTGCACTATCTCCTGCTGTATCTGAAAAATTTATAATATATTGAGTAGTTGTACTTGATGCGGTTGCAGGATTTATAGCAGTTATTCCATTTATATTAATTTGAAATCCAGGAGCTTCTATAGGTGTAGTTGTTGTTATAGTTATAGTATTTCCAGATACACTAAATGCTCCCCCTGTAAGATTTATAGTCGCAGCAGATGTATTAATAGAACTAAAAGCAGATGGAAATACTATTGTAATAGATGCATTAGCTGGAAGACCTGATTGTGCTGTAATAAGAAGGTTATTATTGCTTTGTGCAGATACTGTGTTATTACTCATAATGTCTTCTATGGGAGTTGATCGTGCTGCATTAAGAGTAAATATAGATGCTAATACAAAAAATATAAAAATTATAAATAACAGAGAAAACATTTTTTTCATAGTTTAATTATATAATAGGTTGTGTTATTGTCAATTATTGGGATTTCAAATAATATAATAATATGTATAAATTTTTTAAAATCAGTTTTTATATATTAACTATATTATTTTTTCTATCTTCTTCTCTTTATGCTCAGAGTATATCTCAATATTTTGCTCCATTAGTAAAAAATATTTCAAATAATTCAATAGTTTCTGTTGGAGGAAATAATATTGTATTAGGTGTATATCCAACTACATCTCCGAATGATAATAATCTTGTAGGTGTAGTTGATTATAAAAGTAATATTACAACCGGTATATCTGGCAATGTTCCTGTTGTAAGTTCTGGAACTGTTAATGTTTTAGTTTCAAATATTAATGGAGTTATTAAAAAAGGGGATTATATAACATCTTCTATTATCCCTGGTGTCGGGGAAAAAGATACCCAGAGTGGAAAAATTTTAGGAAAAGCTTTGAGTAATTTTTCATTCTCACATTTTTTATATAAAAAAACTATTTTTCAAAATGGGAAGAGTGTTCAAATTTTAGTAGAAAAAATACCTGTTCTTTTAGGAATATCATATTTTACATATAATAATAATTTTTCGGGAATATTACTTTCATTTGGTAAAGCAGTTGTTGGAAAAAATGTTTCTTTTTTTAACTCTCTTATAGCTATTTTAATAATATCAGTTGGTGTATTTACTCTTATATATGGAGTTAGTGTCTCTTTAAAACACTCTTTATTGGGTATATCTAGAAATCCTTTATCAAAAGATTCTATAGAAAAAAATCTTGTTTTTATTATTATATCCCTAATATTTATTTTTATGGTAACTTTAGTATTAGGATATTTAATATTAATATTTTAAATATTAAAAAAACTATTGACATATTATTTCATTTAATATAGAGTTTTTGTAATAGATTTTAATATTATTAATTTAGTGCGCATATGTATAAAACAAGAAAAGCTTTCATGTTATTTTTATCTATGGTTTTAGTGGTTTCACTATCTCCATTCTTAGAGTTTTTTAGTTTAAATGCAGCATCACTTTCTCCAATATCTGACACATTATCTTCTTCAGGTATAGGAACAAATGGTCCTGAATCTATATCTGCAACAGGAGTTAATCATAAAATTACATATACAGCACCTACTGCACTTGGTACAGGATCTACAATAAATGTGTATTTTCAAACAGGTTCTACGGTAGGAGGTGGGCAGACTAATACAGGATTTTCTGCAGTAGCTGTTTCTTCAGGCGCAACTGTTACGGCTGCAGGGACTACAGTTGCTACAAATACGAATTTTGTAGTAACTACAGGTGTATCAGATTCTAATTTTTCAGGATATACATTTACTGAAGTTGTCATAACAACTACAGCTGCAATTGCATCTGGAAATGCTATTGTCATTAATGGTATAACTGCAACTAATCCTCCTGATGCATCTACTTCTGTGAATGAATATGTTATAGATGTTACAGATTCTGCATCAGATGATGGATATTTAGCTGTACCTATATTATCTAATAGCACAGTTGCTGTTACAGCAAGAGTAACTCCTGAGATAACTTTTGCATTGTCTTCTAATGCTACAAATTTTGGAGTTTTGCAAATAGGATCAGTTAATACTTCTTCTCCTGCTACAACACTTACTTTATCAACAAATGCTAGATCAGGTGCTAGTGTGACTGTATATGATCAAGGCAATGGTACTAATCCAGGTTTATATAATTCTTTAGCAACACATACTATTCCTAGTGCAACAGCAACTCTTGCTGCAGGGACAGAAGGATATGGAGTAAATTCAGCAGTAACTTCAACTGCTGGTTCTGGAGGAGTTGTAGGAACGCTTACTGTTGCTTCACCATATAATGGAACAGGTGATTCAGTTGGAGGATTGAATCTTGCACCTACATTACTTGCAAGTACAACTTCACCAATATACTTAGTTACTTTACAAGTGAATTATCTTTCAGCTATTTCAGTTGTGACGCCTGCCGGTATCTATACAGATAATGTTACATATCTAGCTAGTGGTAACTTCTAATATGAAATTGCATGAAAAAAATATTATTAATTTTACTTTTGTTATTTATACTGCCATCTCCTCTTTATGCTCAAAGTAGTTTTGTAGGAAATATAAATAACTCAAATTCTTCAAAAGAAGGTGCAAGTGTTGGCGGTATAACTGTCTCTCCTATACTAACAGATGTAAATATTAATAAAGGTCAAAGTTTAGTACAAGATATCACGGTTTATAATAATAGTAATAGTGCTGTAAATGTAAGTGCTATATTTGCTAATTTTGTATCTGCAAATGAATTTGGTCAACCCAAATTTGAGAAAGTTTTTGTAGGAAATATAAATGATCCAGATCTTTCGTTAAGTACTAATGGTAATACTCTAATACCTCCTCATGTGCCTACAGATTTGAGCATTAATATATCTGCTTCTTCGAATGCACTTCCTGGAGAATATTTTATTGGAGTTTTTGCTAAAATTAATAATGGAGTGTCTCAAGGAAATGTATTACTAAATACTGCAGTAGGTTCATTATTTCTAGTCAGAATAAACGGTTTAGCTAAAGAGACAGGATATATAAAATCATTTTCAGCTAATAATTTCTTTTATCTTTCAACTCCTGTTAAATTTCAAACCCAATTTGTAGATACAGGTAATGTACATTTATTGCCTCAAGGTATTATTGAGATTTATAATATGTTTGGAGATAAAATTCAGACAATAGCTTTCAATCCTCAAAAAAATATAGTACTTCCAGTGGGAGTTAATAGTAGGATATATAATACTACTTGGAATTCATCAAATCTTCTTTTAGGACAGTATACTGCTAAACTAATTCTAACATATGGTTATAATACAATAACTACAACTCAAAGTACTAGCACATTTTGGGTATTACCTCTATGGTTTATATTTTTATTAGTTTTGTTATTTATCTTTTTATTATGGCAAATCGTTTCCAGATTCTTAAAAAGGTAATATTATTACTATTAGTATTTATATTTTTTGTAAAACCAATAAATGCAAGTAGTGTAACTGTAGGAGGTTATACTCCTCTTTTATTGAATTGGTCTAATTTAATAGCAAATAACACAAAAATATCACTCTCTTCTAATAATTTGTATTATAAAAAGAGGGTAGAAGTTAAGATTTTTGTTTTTTCAAATAAAGATCATCCTTTATCTAATCAAAGAGTTATACTTTCATCTGCTCAGGAAAAAGACTCGCTTATAATAACTCAGCCTAAAAATCCTACTAATAAGAATGGAGAAGCTATAGCTTTCTTGGAGTCCAGTTATAATAAACCTTTAATGTATAATGTTATTGCTCTTGATACAACATATACTGAGTATCCTATTGTTATAAAAAAATCTATAAATATTTTTTATTATCCTAATAGTAGTACTAATTATAATATATTTGGATCTATAGATACTCCTGGATTTATAATTGGTGCTATTAATATCTTAATATCTGTAATTATTTTAGGGACAATGCTTTTCTTGTTCTTTGTAAGAAAAATTAGGAATGATTCTAAATTTAAAAATATTTTAAGATTTATAAGAGATTATCTGGTTTTATATATAATATCTGCTATTATTTTAGCTTTAGATCATACAACTCTTAATTTATATATATTCATATTCAATATATTACTTTTTATTATATATTTTATTTATATTCTGTTGTAAATAAAATTTTTAAATGCTAAATTGTTAATATAATTTATATATATTTATGTTATATTATTATCTTTATATACTATTATTTTTTCTTCTAGTTTTACTGGTTATATATTTTGTTCTCAAAAAGAAAAATAATTCTTTTATAAATTCTTCCCTAAAAGAAGAGGAGCAGGATATAAAAAAATCACTATCTTTGTCATCAAAAAATCTAATAGATAAAATGAATACAATGTATGATAATCTTTCTTTAGAATTTGAAAATGATATACGTAAAATATATGAAATAAAATTAAAAGAAATTGAAAATTCAATCAATATTAAAGAGAAAAATATTGAAGCTATTAATTCTGATTTTACTTCTAAAATTGAAACTTCTATAAATTCATTTAATGATAAGTCTAATGATTTTAAAAATATTTATGATAAAGTCTTGAGTAATTTTGAACATTCTTTAAATATTTTATTTCAAGATATATCGGATAAAACTCAAACTAATTTATCTAATTTTTCAAAAATGAATTTAGAGCTATATGATAAAGATTTAAGAGAAATTGAAGAAAAAACTACATCTATGATAAGTCAAATGGTAAGTGAGGAGACATCTAAGTTTAATTCTCTTACTGATGAGATTAAGGATGAATCATCTAAAGTAAGGCAGCAAATAATAGATTCTTTAAATAAAGATGCTGTATTAGTTGTTAATAAAGTTGTTAAAGAAGTATTGAATTTGTCTGTATCCTTGAAAGATCAGGAAGAGTATATCTTTGATGTATTAAATAAACATATAGAAGAAATCAAAGATGGATTATAATTTGTTTTATCAAATAAAAGATTTTGAAGAATTAGAAATATTTTTAATATCTATAGAGGAGTATATAAATTCTTTATTAGATTTAAATTTGAAAGATAAAATAAAAGATGAAGGGGAAGATATTTTAAATATTGATATGACACTGAAAGGTATTATTGAGAATATATATGGAGATGTATTTAAAAATTCAGTGTCAATGAATAAGATTAAAGACTCTTTGTTATATATAAAAAATAATGCAAAAATAATAACAATATTTTTATCAAAAGAAATAGATGAAGGTTTTAAATTTAAATTAAAAGAATATTTTCAAAAAAATATAGATAAAGATGTTTTATTAAAATATAGAATTAAAGATTCAATAGGAGGAGGAATAATATTAGAAACTTCTTCAAAGTATCTAGATTATTCTTTTGATTCAGTTTTAAATGCAAATACAGATAAAATAATTAGTATAATTAATAATGATAAAATTTAAAGATCTTCTTCATACAGGTACAAGTATAGGTAAAGTTGTTTCTATAAACAGTATTACTGCAAAAGTTAAAGGATTTAGAAATCTAAATGTTGGAGCTATATTGATATTTGAATCTGATTCAATAGGTTATGTTAGGTCAATATATGAGGATGAAGCTTTGATTTTAATACTTGAGAATAGGGGTATATTATCAGGAGAAATAGTTCTTTTTTATAAATCAAAATTTGAAGTTTCTGTAGGTTTTAATCTTTTAGGTAGAGTTATAGATATTTTTGGAAACCCTCTAGATTCTATGAATATAGTTGATCTTGAAGAGAGTAGAGAAATTTTTCATGAGTCTTTTGGTGTAATGGAAAGAGCTGATATTACGTCTCAGATTGAAACAGGTTTTTCATTAGTAGACACTCTTATTCCAATAGCTAAAGGGCAAAGAGAGGCTATACTGGGAGATAATAAAACAGGAAAAACATCTTTTGTTCTAGATATAATAAAAAACCAAAAGGATAAATCTTTAGTAGTATATGTAATTATAGGAAAGAAGAAAGATGATGTTCAATCAATTATATCTTATTTAAAAGATAGTGGGGCAATGGAATATACAACTGTAGTTGTTTCTCCTTCAACTTCTCTTCCTGTAATATCATATCTCTCACCTTTTGTCGGGTGTAGTATAGCAGAATATTTTTGGGAGAAAGAAAAAGATGTCATTGTAGTATACGATGATTTATTAGAGCATGCCAAAAGTTACAGAGAGTTATCTTTACTTTCAAATACACCTCCAGGTAGAGATTCTTATCCATCTGATATTTTCTATCAACATTCTCAGTTACTGGAGAGAGCAGGAATAACGTCACAACATAAAGGTTCTCTGACAGCTTTACCAATAGTATCTACATACGAGAATGATATATCTAGTTATATACAGACTAATATAATATCAATAACTGATGGTCAAATATTTTTTGATACAGATATTTTTCTTAAGGGAAGAAGGCCTGCTATTAATTCTTCTATATCTATATCCAGGATAGGTAAAAGAGTGCAGAGTAAATATATGCAAGATATTGCAGATGAACTTAATTTGGCTTTAGTGAAATATACTCAGTCAGAAAAATTTTCTCATTTTGGCACAAATCTTTCGGATAGTGTTCTGGAAGATATATATTTAGGAGAAAAATTACAAGAATTATTTACTCAAAATATGGGTGAGGTTTTTACATTTTTTGAACAAAGAGTTCTTTTAACACTTTTACTTCTCTACGATTTACCAGATTTAAATATAAAAGATATCAGTTATATAAAAGAAAGGGTTAAAGAAATTCAATATATTGAAGATTTTTCAAAAGATAATCTAAATGATTCTTTAGTTAAGTATTTAATACCAGAGAAAAATAAATGAGCAATTTAAATAATATAAAAGTAAAATTGAACTCTCTAGAATCTTTAAGTTCTTTGACTGTAATATTTCAGCAGGTTGCTTTAATTAAAATGAATGAAATCAGAAACCAGGTTCTTTTAAGAAAAGATTTTTTCAATGATATATGGGAATTGTATTCAAATATAAAAAGTTTAGAAAAACATTATAAAAGAAATACTCTTTATGAGAATGCTGTAATTATAATTTCTTCTGATTATGGATTGCTAGGTAATATGAATGAGAAAATTATTAATTTCATGCTAAATGATAAGATTAATAATCCAGATATATTCGTAATAGGAGAAAAAGGAAAGAATATATTAAGACAGAAAAAAATAAAATTTAGAGCATCCTATTCATTTGAAGAAGAGATATCATTAGAATTTGTATCAAAAATACTTGATGATATAAAAAATTATTCAAATATAGCTGTATATTATGAAGAATTTATATCTATATCTGCACAGAAACCAAAAAAAATGTATTTAAATTTTGATTCATATAAACAAGGGTTTCGGAAAAAAGATGTTTCATCATATCTTTTTGAGCCATCTTTTGAAAGTATTCTGTCTTCTCTAGAATCTGTAATGATAGGAATGATGTTTACTCAAATTCTATATGAATCACATCTTTCTCAGTATGCTGCTCGTATGGTAAGAATGAGTAATTCTTCTGATAAATCTAAAGATTTATTAAAAAAAGAAAGAGCTAACTATATAAAAATGAAAAGAAGATTATCAGATGATAATATGAAATTAATATTTAATAATTTTATGAATAATGAACAACAATTTAAAGGGTAAAATAAAAGCAATAAATGGAATAAAGGTGAGTATAGTTTTTCAAGGATACTTTCCTAAGATTTCTAATATATTATATTCTCCAGAGAATCCTCAGGTTATAGTAGAAGTATATGAATATAATAATGAAGAAGAATGTATAGGTATTGTACTTAAAGGGTTAGATTTCTTGTCAGTGGGTTTTGATCTAATAGATACAGAAGAACCATTGTATTTACAGATATCAGAAAAATCTTTAGGAAGGGTGTATGGAGCATTAGGGAATATGATAGATGGAGGAGAAAGTATTTCTGATGGTGATAAGGTTTTTGTGAGAAATAATAGTGTATATGATTTTAATTTGAATAATAAAGTTGAAATTATAGAGACTGGGATTAAATCTATTGATTTTCTTACACCATTTAAAAAAGGAGGAAAGATAGGTTTTATAGGGGGTGCTGGAGTTGGAAAAACGGTTTTAGTAAATGAACTTATTCATAATATTGCTAAATTTCATGAAGGAATATCTATATTTGCTGGAGTTGGAGAAAGAACTAGAGAAGGTTATGAATTATATAATACTCTTAAGGAAAATAATGTATTAGATAAAACAGTACTTCTTTTCTCTCAAATGAATGAGAATGCAGCTATTCGTTCTAAATTAGGGCATACTGCAGCTGCAATAGGAGAATATTTTAGAGATACTCAAAGAAAAGATGTATTATTGTTTTTGGATAATATATATCGTTTTGTTCAGGCAAATAATGAGTTTTCTATGCTTATGGAAAGACTTCCTTCTGAAGGAGGGTATCAATCGACTTTATCTTCAGATTTAAAAGAATTAGAAGAAAGATTTGTTACTAATGATAATGGTTCAATTACTTCAGTACAAGCAGTGTATGTACCTGCTGATGATATGTCTGATCCTGCTATTCAAGAAATATTAAAATTTTTAGATTCATATTTGGTTTTATCTAGAGATATAGCAAAAATAGGAATTTATCCTTCTATAGATATAACTAGGTCTTCTTCTTCTGTTTTAAATATAAAGAATGTTGGAGAAAGGCATTATAAATTGGCTATTGAAACACAAAGAATATTTCAAAAATATTTAGATTTAGTGAATATTATAGAAATATTGGGTGAAGAAGAATTATCTTTACAAGATCAGAAGGATTATCATAAAGCATTAATGATAAGAAATTTCTTATCTCAACCTTTTTTTGTAATGGAGTCGAGTACTAATATTAATGGTAGATATGTTAAATTAGAAGATACTCTTATAGGTGTAGAAAGAATTTTAAATGATGAATTTGACGGTATTGATGAAATTAAATTAAGATCTCTAGGTAAAATTGATGAGATTAAGAAAGATTAAATATGGATAGTAAAGAATTATTTTTTTTAAAAATACTTTCTCTATCAGGTGAGATATTCTCAGGGAAAGTATATTCTTTTTCTTCTAAAAATTCTTTAGGAGATTTTGATATATTGAAATCTCATACAAATTTCATAACATTGTTAACTGGAAAAGAGATAAGGTATAGGGTTGAAAATTTTTTAACAGATACTTCTATTGAAATAAAAAATGGAATACTTATATTTGAAGATGATTTAGCTGAAGTTTTTATTAATTTTTAAAATATTATTATTAGATATCCCAATATGATTCCTAATGTGAAAATAGACATAGCAATAAGTATTTTAAAATAAAAATGATTTAATATTCCTTTTTTTGCTAAAGGGTTTCTTGCAGTTTTTTTTACAGTATCCCTAGCATTTTTAATTATAGTTGTAACTGATATTATTATGGATATAAATAAAATTATAAGTACAGAGATTATCTGAAATATATTTATCTGTTTTACCCCCAGAGTATTTCCTATATTGTATGAAAAAGGATATATATTAGAAGCTCCATTAATAAGATTTAAATATTCTATATTAATAGATATAGGAATTTTCTCTATATATATATTTGTATTTTTATATCTTGTGGCTTTATTAATATTAAAGCTTTGAACAGCTTCACCTATACTTAATCCTTGAGAATTCAATTTTTTTGCTATTCCTGGAAGACTAGAAGTTGTAATATGATCCCCTTTATTCACATTTCCATTTATATTAGATACATAGGTATTTATAATTCCAGAAGAGAAGACATGGATAACGCTATTACTATCATTAATTATATTATTAGATTCTATACCTAGAACAGAATTTGCATTTATATTCTGAGATGGGACTATTTTTCCATTTTCTAAAGAAACGATATCTCCTGAATGTATATTTTTATATATATTAGGAAATTCTTTAAATACAGTCTGAGCATAATTAAATGATGTCGTTAGTATAACAAAAATTAATATAACAAAAATCTTTTTTAGCATATTTTTCTTGACAAAACATTTAATTATAATATAATTTATTAAACCACATATTTTATATTAGTTACAACTTTTTATGTCAAACTTATTTCACGATATTAACCCAGTAGAAAAAGACCTTCAAAATATACTTATGGTAGTTGAAAATCCTTCAGGATATAGAGGTAAAATAGAATACAATAAAAAACTAGGAGCTATGATTTTAGATAGAGTAAGTTATTCAGATTTATCTTACCCAGTTGAATATGGATTTATTCCTCAGAGTTGGAATAAATATGATAACGATCCAATGGATATTATGTCTCTTAGCTCAATACATACCTTTCCTGGAGTATTAGTTAATGTAAGAGTTCTAGGAATGCTCAAAATGGAAGATTCAGGAGAATTAGATCACAAAGTTTTTGGAGTTGCAGATGATGATCCTTATTATAATGATGTTCAAGAATTAAAAGATATAGATGAGCATGTATTAAAAACTATTGAATTTTATTTTGCTAATTATAAAAAATTGATGAAAAATAAGGAGGTTAAAATTTTAGGTTGGGAAGATAAAAATAATGCTATTGATTTTGTAAAAGATACTTTAGATGAGTATAAAGTAAAATTTAATAAGTAAAATATTTATTAATAAGGGGGTGATTTTTTATGAAAGATTCAAAAAAGATACAGAAAACATTTTTTGTTTTAGCAATGATTGCTTTAGTATTAGCTCTATTAGGAATTATTCAATATAGTCTTAGATTTTATCTAAAACCTTCTGATTGGGTTCTGGTAGGAATAGTATTCTTATTATTATCCTTAGACGCTAAAGATAAAAGTAGTTTTATAAAATAATATATGTTTAGTAGAAAAAGTGTTCTATATACAGTTAGTGTATTAGTTCTTATTCTATATTCTGTTTTACTCATCTTATTGATAGGATTCAGGATATATGTGTTTATACTAATAGCAGTATTATCACTTATTCTTATAGGCATTATCTATATATCAGAAAGTTATATATCTGATCTATCAAAGCTTTCTGAATTAAATAGTAAATTGAAAGATAATGATTTTAATTTTTCTCCAAAATTTCAAAATAAAGAATTTATAAATCTTAAAGAAAATATAGATAATATTACTTCTGTTATTTTTGAAAATAATAAGAAAGCTTTATCTGTAGATAAAATGAAAGAAGATTTTATCTATGTAGTATCTCATAATCTTAGAACTCCTATGGTTACAATCTCTGGTTATGTAGAAATACTTAGTTCTAGTAAAAATATTTCTGAAGAAGACTTACAAATAATAAAAAGAATAAATACTTCTTTAAAACAATTAAATTTAATAAATGAAGAAATTCTATCTTTAGTATATCTAGATTCTCCTGATTTTAAAGTAGTAAAAGAAGACGTAAATCTTTCTGATTTTGTAAAAAATATAGTAGAGAATAAAATTAAAGAATCTTCTATGTCTGTAGGATTTTCTTTTGATGAACATATAGGGATTATAGTTACGGACAAGAGTATTTTAGAGAAAAGCATTAATAATATTATAGATAATTCAATCAAATTTAATCATAGTGAAGGTTTGATATCAGTTTCTATATATAAAGAAACTGAAAAAGTGGTTATTAAAATATCTGATACAGGAATTGGTATATCTCCTGAGAATCTTAAAAATATATTTGTTCCTTTTTCGAGGAAAACAAGTGTTTTAAATTATGATTATGAAGGTTTAGGATTAGGTTTATATATAGCAAAAATAAGTTTAGAAAAAATAGGAGCAACTCTTAAAGTTGAATCTATAGAGAATAAAGGTTCTGATTTTTATATTTATTTATAGGATCAGTACTTAAAACACCGACCGTGAGGTGTAGGGTGTAAAACCCTCTTTTATTGTAACTTTGTATACATTTCTTTCTGTTTCTGTCATTTTGAGTACCTAGAGAGATTTAAACTCCCGACCTTTTTGTCCGAAGTGAGCTACTTTATCTTCGCTGTATTGTTTATTCAGTTTCTGTATTTTTTTAATTGTATTTCTAGTAGTATTTAAATCTCTTGAGCTCTTAGATATATCCCATCTATTTGTTTCTAGCATTTCCAAAATTACTTCTCTTGCTGCTTGAGGGTTTATTTCTCTAAGCTTATTGTAGTTTAGTTGTATACCATTTATCATATATTAAAGTGTCTAATTTTAGTTGATTGATATTCTCTAACTTTAGACACTCTTTTATATATTGTCTATATCCCTCTAACTGGTTACCATGTTCTGGCCCCCGCATAACACACGCTTGACATTTTATTATATTTTAAATAATATACATATATGAGCCAATTAGAAACAAATTTTTCAAAATATTCAGAAGACAAAGAAATTAAAAATGATTTTTCCATGAAAAGTAATAATAAATTAGTATTACCTGGAATTTTAGTAATAGTTGTAATTATAGTTTTATATTTATTAGTAAAATCAATATTTTTCTCTCAAGGTAATTTAGCAGCTAATTATGCATCAATGAAAAATAGTTCAGGATACCAAGCTGTAGTTTTAAATGATTCAAATTTAAATATATATTTTGGAAAAGTTTTAGGTGAGACATCTAATTCTTTATATCTTTCAAATGTATTCTTCCTTAGTGCTTCTCAGTCATCAAGTAAGGTTAAATCTGTTTCTCCTCAGTATTCTCTCTCTCATTTGACACCTACATATTCATATGGAGCTTTAGATCAAATGAAGATTAATAGAAAAGATGTCTTATTTACAGAGAATCTTTCTACAAGTTCTCAAGTATATAAAGCTATTCTTAACTATTATAAAGTTCATAAGAAATAATATGAGTATAAAACATACTTTAGAGAATCCGATAAATCGTAATCCTGAAGTAAATTGGTTTAAAATTGTATTCTTTATGACATTTACTTCTATAATACTTTCTTTAGGAATAGTGATAGGAGCAACTCTTAACAGTACAATAAGTTCACCTTATATAGCTCAAAATTTTACATCAAATTACGTACAAAGTACTTCAATACAAGAAAAAGGTACTTTGAATTTTGGAATTATGGGTGAATTATCCCCTGTTGTTAAAGGAGCTATCTTCTATACCCCTCCAAAGGTCTTAAATATGGCTATTTCTCAAGTTTTAGTTGAAAAAATGGGGACTTTAAAATGGATTCAAATACCAGTTTCTAATAAGCTAGTTAATTTAGAAGAATATACTAAAAATGTATATTATTTGAGTAGTATAAGATTACCTGTTGGTAAATATTCTGGAATTAAAATATATTTTAAATATATATCAGCTTTATTGCAGTCTAATAAAGTTGTTAATATACCTTTATATGATACAAGTATTATTTTATATAATAAATTTTTAATTAGTAATAATTCAAAAACTTATATTGCTCCTGTTTTTAATATTAACAATATAATAGGTAATATTAATGGGACTTACAGTTTTAATCCTAATATTTATCAAGTAAATATTGATTATTAAAAACTTTATTTACAAGTCCATGCATTTACTCCACCTTGTGATATTTTAAGAGCCATAGCGTATATTTGAGATGTAGCATCCCAAAGACCTCCTGATCTATATATATTCCAGCTACCGTAAAATGTTGAAGGCATAAATTGTGCTATACCTGATGCTCCAGATGGATTATATGCTAATGGATTATATCCACTTTCACATGCAATAATACTGTTCATAAGGTTATAACTTACGTTATATTGAGATGCAGCTGATCTAATAATATTTGAATATTTATTGAAATTAGAATTAAATGTATTCTGCCTTTGAGGTACAGAAGTATAATTATAAGAGATAGTAACTTCGCCTACACTTTCATTTACTGTAGGTAATTTTTTTAGTCTAGTTGTTAATATTACATTCTTACTTGCAAAATAAGACACAACATTTCCTTGTATAGGATTTTTGTTTTGTGATATTGCAGGTTTTGTAAGAAAAAATATTGGGGAGATAATGAAAGCAGCAACAAGTAAAATACTTGCAGGTAATCTTTCAATTGTATTCATTAAGTTTAATAAGTTTAATATTAGCTCTTATATAAAGAATAAACTTTACATAAGTAGAAAAAATAAAAACACAAATGCTATTGTATCATGAAAAGTCTATCTAGTCAATCAAATATACGCAGAAATTGGGTAAGGTGGGGGTTTATACAATGTATTCTGAAGAGAGTTTTTTTATTTCATTAAGTATGTTTGTATTCTTATTGTTATTATCTATTTGTTTTTTTAATTGATCAATTCTATCTTTTATATATGAGTTTTTAATATTTTTGATAATAGTAAGAAGGTCTTTTTCTTTATCAGTTATATCTTTATTTTCTTTTATATATTGAGAATCTATATTTTTATATATTATTTCTTTTATAGATATAAGAACATCTTTTTCTACTTTATTATCTAAAATATATTGATATATTTTATTAGTATTACTTCCTTTTATGTATTCTGGTTTAATGTTTTCGATCCCTATTTTTTTAAGAGTATTACTTTCTAATATTAGGTATAAAAAGTAAATCTCATTACTAGCAAATTTAATTTTTTGAGAATCTATATTCTTTTTAATTTTTGGTTTTTTATAGTCTTTTAATACTTCATAAGGAATATTTAGTTCTTTAGATAATAAAGAGAGGTAGAAACTTTTTTTTATGTTATTATTAATATTTTCTATTATTGGATATATACTATCTACTATTTTAATTTTATCCTCATATGAGGATATAGGATTGTTTTTTATTTCATAATTAATTGCAAAGTCTATGTATTCTTGAGCATTTGTTATAAGGTCTATATATTTTTGTTTACCAAATTTATGTATATATTCATCAATATCTTTTGCATGAGTGATATTGAGTACTTTAAATGACATGCTATTTTCTTCTGCAATTTTAACGCTACGCTCTAGAGCTTTATAGCCAGCTTGATCCATATCAAATGCAAAATATATTTTATCAGTATATCTTTTTATTATATTTATATGAGCTTCACTTATGGCAGTTCCTTGTATTCCTAATACATTCTCTATTCCTATTTGAAAAGAAGATAATACATCAATATTTCCTTCAGTAATTATCACAAAACCTTTTTTAGAAATTTCTCTTTTTGCTAAATCTATTCTGTATAATATTTCTGATTTCTTAAATACTGAAGTTTCTGGAGAATTTAGATATTTGGGTTTTATTTCATCTTTAAGTGTTCTTCCTATAAACCCTATTGTTTCTCCATGTATATTTTTTATTGGAAATATTAATCTATTTCTAAATTTATCTAATAATATATTATCTTTGATTATAGAAAGTCCATAATCTAATAAATTTTGTTTATTTAATCCTTTTTTTATTAAATAATTACTGAGTTCGTTCCTATTTGTACTAAAACCTATGTTAAATTTTTGTACAATTTCTTTTTTAAGACCTCTTTTCTCTAGATATTTTAAAGCAGAAGGATTTTTTTGAAGATTGAATACGAAATATTCTTCTGCCAGTTTATTTGCCTTTAATATATCAGTATTAGGATTTTTATAGTTTTTTTCTCTTTGAATCTGTATATTAGCTTTTTTTGCTAAATATTCAATTGCTTCATTGAAATCTATATTTTCTAATTTTTCAATTAATGAAATTACATCTCCACTTTCATTACATCCAAAGCAATGATAAATTTGTAAGTTTGTATTTATAGAAAATGAGGGTGTTTTTTCTTGATGAAAAGGGCAAAGTGTGAAATAATTAGATCCTGATTTGTTTAATGTGAGATATGATGAAGCAATGTCTACTATGTCAACACTTCGTTTAATGTTTTCAATTTGACTTTTGTCTATCATACCTTTATTATATCATTAAAGATTAAATTTTTATATTACAAGTTGCATACAATATATTTGTTTGCTATAATCTTTTTGTTGTTTTTATAATATGAGTTCAAAAGATAAAATAGAACTTGATGGTAAGGTTATAGAAGCTTATCCTGATCTTTCGTTTAAAATTCAATTAGAAGAAGGTAAGGAGGTATTTGCATATTTATCTGGTAAGATGAAAATGCATTATATAAAGATACTTCTAGGGGATAAGGTTAAGGTTGAGTTTTCTCGTTATGATCCAGGTAGAGGAAGAATAGTTTATCGTTATTAATTTTTATGAAAGTACGATCTTCAGTAAAAAAAATATGTAATAGTTGTTATGTTGTTAAAAGACAGAGAATTGTTTACGTTTACTGTAAACGTACTCCAAAGCATAAGCAAAGACAAGGATAATTAATATGGCAAATAGTCAAGTAAGAATAGCAGGAATAGACCTGCCATTAAAAAAAAGAATAGAAGCAAGTTTAATTGCTATTTATGGTGTAGGTTTTTCATCTTCTCGTAAAATTCTTAATTTAGCTAGAGTTGATATTAATAAAAGAACTTATGATTTGTCTGAAGATGAAATTTCTAGAATTAGAACTATTTTAGAAAGAGGAGATTTCTTAATAGAGGGAGACCTAAGACAAAAAGTATATCAAGATATAAAAAGGTTAAGAGATATTCGTTGTTATAGAGGAATTAGGCATAGATTAGGGCTACCTGTAAGAGGTCAAATAACTAGACATAATGCGCATACAAGGAAGGGTAAGCATATAGCAGTTGGAGGTTTAAAGAAAAAAATAGAAAAGAAATAATATGGCAAATAAAAATATAAAGAATACAGTTAAAAAAGTACAGACAAAACAGTTGAAAGTTAGAAGAAAGGTTCCTAAAGGTAGGGCTTATATAGTTACTTCTTTTAATAATACTATTGTAACTATTACGGATCCTGAAGGTAATGTAATATCATCTTCATCTTCAGGTATTGTAGGTTTTAAAGGTGCAAGAAAATCTACTCCTTATGCAGCTTCAAGAGTTGCAGAGGACGCTACTAATAAATCAGTGAAATATGGTTTATCAGAAGTGGATGTATTTATATCAGGTCCTGGTACAGGAAGACAAATGGCTGTAAAAAGTTTAAGAAATTCAGGCTTGAGAATTCTCTCACTTTCTGATATAACACCTATACCACATAATGGATGTAGGCCTAAAAAGCAACCGAGAAATTAATTTATTTTTATATTATGGCTAGATATACGGAATCAAAATGTAAGCAATGTTTAAGAGAGCATCAGAAGCTTTATTTAAAAGGTGCTAAATGTTATTCTCAGAAATGTGTTTTTACCAAAAGAAATGGTTCTTTGCCAGGTTCTAATAGATATTCATATAGAAGACAAAGTGACTTTTCTGTTCAATTCAGAGAAAAGCAAAAAATAAAAAGAATTTATGGTTTATTAGAAAAACAATTTAAAAGATATTATGAAATAGCTCAAAATCAAACGGGAGATACTGGATATAACTTATTACAGGTATTAGAAAGAAGGTTTGATAATATTGTATATAGAATGGGTTATGCTCCTAATAGAGTAGCAGCAAGACAGTTAGTCAATCATGGACATTTCATGATAAATGGGAAAGGAAACAATATTCCATCTACTTTATTAAAGGAAAATGACGAAATCGAAGTAAAACTAAAAAGTTCAAAAGGTGAATACTTTAAAGATCCTTTATTGGGTGTAGACTTAAATATACCTGAATGGATCGAAGTATCAGGAACAAAAGGAAAAGTTATAAGTTTTCCTCAAAAAGAGTTCTTTGATCCTAGTATGCAACCTAACTTAGTAGTTGAGCTTTATTCTAGATAATTTTATATATAAAACCTTTATGATAGATAATAATTTACAACAAATAAAAACATTAGAAGAAAATGATTTCTTCGGAAAATTTTCTATATCACCTTTAAATAAAGGATATGGATATACAGTTGGTAATACACTAAGAAGGATATTACTTTCAGCACTAAAAGGTTCTGCTATAACTTCTGTAAAAATTGAAGGAGCTGAACATGAATATGCTTCTTTAGATGGTATTTTAGAGGATGTTTTGAATATTATTTTAAATATAAAAGAATTGAAATTTTATTCTAGATCAGATGAACCTCAAGTTCTTAAAATATCTCAGAAAGGAGAAAAAATTGTTACAGCTAAAGATATAGAATTGACAGATTCAGTAACAATATTAAATCCTGAAGCTATTGTAGCAACTCTAACTGATTCTAAATCTAAATTGAACATGGAATTGGTATTGGAGACATCTTATGGATATAGTTTAGTAGATAACACTAAAAGATCCTCTATTGGTACAATTCCTGTAGATGCAGATTTTTCTCCCGTTAGTATTGTAAATTTCAATGTAGTTAATACTAGAGTGGGGGAGAATACTGATTTGGATGAAGTTATAATAGATATTCATACAAAATCAATAAATCCTACATTAGCATTAAAATCTGCATTAGTAGAGGTATGTAATGTATTTAATAATTTAAATGAACAAATAGTTGTAGATTTAGAAAAAAAAGAAAAAGTTAAAAAATCAACAAAAAAAATAGATAAAGATGAGACACCAAAAAAGAGTAAAAAAATTAAATAAAGTAAAATCACATAGAGATGCTATGCTAAAGAATTTAGCAGCTTCTATAATTCAGTATGAAGAAGTTAAAACTACTGAAGCAAAAGCAAAAGCTGTATCTTCTCTAGTAGATAGAATAATATCTGTAGGAAAAAAAGGTGATTTAAATGCACGTAGAAGACTTTATGCTATGTTACCTACAAAACTTTCTGCAGATAAAGTATTAGATATATTAAAAGATAGGTATAAAGAAAGAATGTCTGGTTTTACAAGTATAGTACATATAGGACAAAGGAAAGGTGATAATGCTAGAATAGTTAAGATTAAATTAGTAGACTGATTATATGTTTAAAACAAAATTTAGCTCAGTAAAAGAATTAAAAAGAAATTGGTATTTAATAGATGCTAAGGATGCAAATTTAGGAAAAATATCAGTTGAGATATCAAAATTGTTGATTGGAAAACATAAAACAGATTATTCTTCAAATTTGGTTTTTTCAGACCATGTGGTTGTTATTAATTCTAAATTTTTAAAAATCTCGGATAAAAAAATAAATACAAAGATGTATTATACCCATTCTGGTTATCCAGGTGGATTAAAAGAGAAATCTTTGTCAGAAAAAATAGAGAAGAATCCTGAATTTGTTATAACTAATGCAGTAGGAGGAATGCTACCTAAGAATAAATTAAGAGATCTAAGACTTAAGTATTTACATGTGTATCCTGAAGGAAAGCATGAATATGAAGATAAACAATTTATAAATATAAAATAAAATATGGAAAATAAAAAAAGTAAAAATTATTATTACGCAAAAGGAACTAATAAGACATCAACTTCGAGTGTTAGACTTTACTCTGGAAAAGGTGAGAGTTTTGTAAATGGAAAACCATATGAAGAATATTATAAAGATTTATATTCTAGATCTTTAATTTCTCAACCATTAAAAATAACAGGTACTCTTGATGGTTTTTATTTTACAGTAAAAAGTAGTGGTGGAGGTATATATTCTCAAGTAAAAGCTACAGTATTAGCACTTTCTAGAGCTCTTTCGAAAATAGATCCATCTTATAAAAGTACTTTATCTAAAAATAGTTTACTTACAAGAGATTCTAGAATGGTTGAAAGAAAGAAATATTTCAGAGTAAAAGCAAGAAAATCTCCTCAATTCTCAAAGCGTTAATATTCTATTAAAAGGTCTCTGTATAAAAAGATGATATATTAATAAATTTATGATATTATTTTTTTATGAATGATGATCTAATACAAAAACAGAATAATGAAGAAGGTAATTCTTTGAATAATAGTGCTGATATTAATAATGTAAATCCTAATAGTACAGAATCTTTGAATAATTCTTTTAATCAAGAGAACAATACTCTAAATCCACAAGAAAATAATACAGTATCTCAAGCAAATCAATCTACTAATCTAAATGATTCTCAACCTTTAATAACAAATGAGAATGTCAGTAGTGATTTATTAGGAAATACTAACACATTAGAGAATAATATGAATTCTAATAATAAAGAGATATATACATCAAATACTCAAGAGGAGAATTCAAATCAAGATTATAGTCAAAATGATTCAGGTAAAAATGAAAACACAAAAATAACTTCATCACCTGAAGGTATTTTTAAATGGAATTGGGGTGCATTTTTTTTCACATGGTTATGGGGTATTTTTAATGGATACTTTATTCCTTTATATGTATTTATAGGATATGTATTTTTATTGATTATATTGTCTACTATAGGAGTGGTCACAAAATATAATGGAATATATGTTATAAATATTATTCTGACCTTTGTATTTTTAGTGTATATCTCTTTCCTGGCTTACTATTTAGGACATAAAGGATATCAAATCTCATGGAAAAATAAAAAGTGGATAGATTTAGATTCTTTTTATAAAACACAAAAGAAGTGGACAATTGCAGGAATAATAGTTGCAGTATTATATTTTGTGATTACTCTAGTACTTATCATATCTTCCTATTCTCTTGTTTCTACACTATCTCATTATATGCAACATTCTCATACTATTAATGTACCAATGAAGACTCAGTCTAGTGTTCCTTAAGAGTTTCTAATTATATCCTTCTTTCCAATTTACATAGTTGACAATCAAACGATAAAGGTGTAGAATAACCAGTTTATTTCATTATGCTATTTATATGTCAAATGCTGAATTACTGGAACAAGAAGTGTCATCTATAGAGATAGATATAAATAATCTATTAGATGATTCTATAGTTGGTTATTTTATATGAATAATAGATCTGTTCTCATACAAGAAAGGTTTGGGGGTATAGTTGTATCTATTACCTTTATAGATAAAAAGAAAGATAATTTATTGGATCAAATAAATTATATAATTCCTAGATATAAAAAAAATGGTTCTTTGGTTAATGAAGAAATAAATAAAATATTAGTAGGTAGAAATAGTTTTTTAATATCTTTAAATAATAATATATCTGAGTATATAAGAATTTTAGGTCAAGAAAGTAGGATTGAATTTTCAAAAATGAGAGCGGCTAATAAAGAAGATTTGTTTTATTTAAAGACAATATTAAGATCTTATAGTCATATATTAAAAGAGAAAAAGATTATAGGAGAAGAAGGTATTAAAAAATTAACAGAATTTACTCATAATGGTGATATATATAATTTTGATAAAATTTTGAATGAAATGAATAAGAAAGGAATAAGATTTTCAACAGAAAAAGTTGAAGAATTGAGGCAAAGATGTTATAAATCCCTATAGTACTCTACTCATAAAAATTTCAGAATATATATTCTTTTTATATAATATATTGTTATTCTCTCTATGAGTTTTTACAAAACCAAATTTTTTATATAATTTTATTGCATTATAATTATTTGCTCTTACAGAAAGTTTTATATTTTTGATTTTCATATATTTAGAATATTTTAATATACTTTTTATAAATTCTGATCCTATTCCTGAATTTCTATGATTTCTATGTATAAATATTTCAAAATAGCCTGTATTTTTATCTTTAGGGTCTCTTAATATAGTTGAAAAACCTACTATTGAATCTTTATGTAAAGCACATATAAGTATGCATGTTCTATCCTCAATCAATTTCATTAATTGTGTCATATTTTCAACTTCATTTTTTTCTAAAAAAATCTTATTTATTTGAAAAAAATCTTCAGAATGAGATACATGTTTTTCTAAAAAATTTATGAAATTGTATAAATCTTCCCACCCAACACTCTTAAACTTTATTATTTGAGATTTTTTATTTATAAATGTTTTTATAAAATTTATATTCATTTTTTTTAAGATTCAATATCTTCTTTTTTTTCTAGAAATGTTTTTTTTGAAATTTCTCCTTTTTTATATTTTTCTTCTAGAGAATGAATAGCTTCTCTTTTATGATGTTGATCTCTAGGTATTATCAGCCATGCTAATAAGAACATTATTAAATAAATTATTATGAAAAGAAAAATTAAATATATTAGCATATAGAAAATAAGTTCTATGTATGCAAATATATTATTTTGAAAAAAACTAGGTAGTACGTTTAACATTTTTGTATTTTATATAATCTTTTTTTGAAATCTTTCCGTCAACATAATCTTGATGAATATTAATTTTATGATGCCTGAGGAATAGTTTTTTATGTAAATATTCTTTCGAAGTAAGGGTATATACCAGTATAAATATAATAAAAGTAATAATTAGGAGTGTTGATAGAACAGAAAAAAGGATTATAATTATTTGTAAAATTAAGTATAATATATACATCTTACATTTAAGCTTACATGAACAGAAGAGTTTTTTCAATAATTATTTCTAGAGTGTTTGATTTCTATATTGTAGTGCCATTAATAGCTATACTTTTAATTTATAGATACAATTTGAAATTTAATTTTTTAGACATCTTTTTACTTATAGGTATTCCTATTCTTTTTTTTATATCTTTTGTAATATATGAAAGTTTTAAGAAAGGAATAAAAAATATTGATTTTGATTTAGAAGATGGAAAAAAAACTAGATTAATATCAATTATATTTATATTATTATGGTTAATATTTCTTTTAGGCATTCTTGTATATAAACATTATAATATATATTTTATATATGTACTTTTCATGTTTATATTAATTTTATTTTTTGCATTCTTAATAACATTTATATGGAAAATAAGTTTTCACGCAATAATGATTACTTCTCTTTTATGTTTATCAATAATGATTGGTAATAGATATTTAATGATTTTTTTTATCATAGTTCTTCCTTTTATATTTTATTCTAGGTATACTTTAAAAAAACATACAATTGCTCAACTTATAGGAGGAAGTTTGTTAGTTTTTTTACTTTTTATATCTTTCTTAATTTTCCACCTTATTGTGTTAAAATAGATATGTATTTTTTAAGGAGAGGTCGCATAGTGGACTAGTGCACTAGCTTGGAAAGCTAGCATATTAGAAATAATATCGCGGGTTCGAATCCCGCCCTCTCCGAATTCAAGATATTTAGGGACTTTTCTTAATACTGATGATCGTTGTGAGCTAAAAATTTTATAAGATTTTCAATTACTTTTTCATACTCTATATGTTAATATTATAAATTATGAATCCTTTTAAAATAATATTTCTTATACATAAAAGATACAATTACTATATCTTCTTTTTTATTAGTTTTGTTATAACTTTAATACTTTTTTCAATATTACTTTTAACAGGTATTTTTATTGAAGCTGCTCCTCCACCTTCAATATCTTCTGTAAATTTAACTTCCACAACTTGTGGGTCTACTATAGCAAATGGAGTAAGTGCTGCAAGAGTGGGGGATGGAATCACTATAAATGGTTCCAAATTTTAGATCTACAAATGATGGTGTTACTGTAAATGGAGGTACTTTTACTGTCTCTACTTGGGCAAATACATCAATAACCGGAACGATTTCAAATACAGGTACTCTTACTGGTAATATTGTTGTTACTGTAGGAGGAAAAACTGCTTCTATTGCATTTTCACTTCTCCCTTGTATTACATCCCTATCTCCATCATCAGGTGGGGTAGGATCTACTATTACAATAAATGGGAATGAATTTGGTGCTGATCCAGGATCAGGTAATTATGATACTACAACTAACAATATAACTTTAAATGGAGTTGCTGTACCTACTGCAGATGTTTTTTCTTGGGATACTAGCACTATTATATTTTTTGTTCCTACAGGGTCTACTTCTGGAAATATTATTGTTACTGCGACTTCAAATACTTCAAATGCTGTTAGTTTTACTGTACTTCCTATTCCAAATGCTCCTAGCTCTCTTACTCAATCAACTGTGGGAGGTACACTTTCAGCTAATACATATTATTATGAGGTATCTTCTATAACTTCACAGGGTAAAACACCACCTTCTAGTGCAGTTTCAATAACAACTACAGGATCTACTTCAGAAAATAAAATATCTTGGACTCCTGTTGTAGGTGCTATTGAATATAGTGTATATAGAGGAATTGGATCTTCTGTGATGACTCAATATATAGACACTAAAAATACAACTTTTATAGATACTGGAAATATTAATTGGAATAATATAGATGGTAGTCTTGGAAATTTTTATAGTTCTGGAATTCCTCAATTATTAGAATATGCAACTTCAGTTACATATAATGGTTTTCTCTATGAGATTGGAGGAGTATCTTCTTCTTCTGTATATTATTCACAAGTATATGGTAATGGAGAATTAGGTGCATGGAATGCAACGAGCTCACTTCCACAAGTGGTTGCAGAATCTACTTCATCAGAATATGCAGGATATATCTATGAGATAGGAGGGTATAATGGAAGTGCTACTCTATCAACTGTATATTATGCACAAATACAATCGAATGGAAGTTTAGGTTCTTGGAATACAACTACTCCTTTAGGAGAAACAAGTTCAGGAGGCGGTACTGCACAAACTGCATATAATTCCACATCAATAGCATATAATGGATATCTTTATTGTATTGGAGGTACAGGACCTGGAGCTAGTGTGTATTATGCTCCTATAAATGCTAATGGAACTGTAGGGACATGGACAACAACAACTGCTTTACCTAGTGCAACATCTAGTGCAACATCTGTAGAATATAATGGATATATTTATGAAATAAGTGGATATACTACTGCAGCAGTATCTAGTGTATATTATGTTCCAATAAATTCAAATGGCACACTAGGTACATGGACAGCCACAACTGCTTTAGGAGAAACAAGTTCAGGAGGAGGTACAGCTGAAACCATATATAGTGCAACATCTGTAGAGTATAATGGATATATATACGAGATAGGTGGGTATAATGGAAGTGCAGCAGTATCTAGTGTATATTATGTTCCAATAAATTCAAATGGCACACTAGGTACCTGGACTAGTACAAATACCCTTCCTCAAGTTACAGAAAGAGCAACTTCTGTAGAGGATGGAGGTTATATATATGAAGTAGGAGGATATAATGGGACTGCTTCTTTATCAGAAGTAAATTATACTGTAGTTCATACAAATGGTACGATTAATTTATGGAATAACATGTTAAGTTTACCTGAAGCTATAAATCAAGCTACATCAGTAGAATATGCTGGATATGTATATGAAATAGGAGGTTCTGGAGGAACAAGTGTCTATTATGCTCCTATAAATTCAGATGGGACTACAGGAGTATGGGCAACAACATCTTCACTTCTTGATTCTACAAGTATTGCAACATCTGTTGTGTATAATGGGTATGTATATGAAATAGGAGGTAATATATCTGGAGCAGCTTCTACTATAGTAGAATATGCAGCTATTAATAGTAATGGATCTTTGGGTACATGGGCAACAACATCTTCTCTTCTTACTGCATCAGAACTAGCAACCTCTGTAGAGTATGGAGGGTATATATATGAGATAGGGGGACAAAATTCTGCAATAACTACAGTAGTAGAGTATGTGGCTATTAATAGTAATGGATCTTTGGGTACATGGGCAGATACAACTTCACTTACAACAAGTTCAGGAGACGCATATTCAACATCAGTAGTGTACAATGGTTATATATATGAGATAGGAGGAAATGCTAGTTCTGGAGCGTACGTATCTTCTGTATATTATATAGCTATAAATTCAAATGGAACGCTAGGCACTTCTTGGTTAGCAACAACTTCTCTTCCTATAGTAATAGATAGAGCTTCAGTTGTAGAATACAATGGTTATATATATGAGATAGGAGGGTATAATGGAAGCAATAATATATCGAGTGTATATTATGCTCAGATAAATACAGACGGCACATTGGGTTCATGGTATACAACAACATCTATACCTCAAGCTTTAGATTATTCTACCTCAGTAGTATATAACGGATATATATATGAGATAGGAGGGAATAATACAGGTAATAGTGCAGTAAATACAGTATACTATGTTCCTGTAAATTCAAATGGTTCTTTAGGAACTTTAAATAATACAACCTCTCTTTTATCTGGTATAGATGGAGCAACCTCTGTAGAGTATGCAGGTTATATATATGAGATAGGAGGAATAAGCGGAACAACAAATCTTTCCTCTGTATATTATGCTCAAATATACAATAATGGAAATATTGGATCTTGGACACTAACAGCTAGTCTACCTCAAGCAGTTTTATATTCAACCTCTGTAGAATATGGAGGTTATATATATGTATTAGGAGGATATAATGGAAGTAGCAATTTATCTGAAGTATATTATTCTCATATAAATTCAGATGGTACATTAGGTAGTTGGAATACGACTACTTCTATAGGAGAGACAAGCTCTGGAGGAGGAACTGCTGAGCCTATTGAATTTGCAACATCTGTTACATATGGAGGTTATATATATTTTTTAGGAGGGTATAGTTCAACTACAAGTGCTAGGGTAAGTACTGTTTATTATGTTCCTATAAATTCAGATGGTACATTAGGTAGTTGGGCAACAACAACTTCTTTACCTCAGATTATTAGTAGATCTACATCAATTGTATATGCAGGATATATATATGAGATAGGGGGATATGGTGCAAGTTCAGATTTATCTACAGTTTATTCTATATCAATAACTTCAAATGGAGCTCTAGGTACTGCTTGGACAACAACAACATCTCTTTCCTTTGCTATACAACAAGCAACATCTGTAGAATATGCAGGGTATATATATGTAATAGGAGGATTTAATACTGGAACTCAAATATACTCTTCTTCAGTATATTATGCACCAATAAGTAGTCCTGGTGTAGTAGGTACATGGTCATCTACATCATATCTTCCTCAAACAACAGAATATGCCACTTCAGTAACCTATGGAGGTTATGTATATGAGATAGGAGGTTACAATGGAGCTGCATTTTTTTCTTCTGTATATTCTTTTCCAATAGGTCTTTTATCTAGTGCTAGTACTGCATATACAAATACTAACCAGAATACAATTTCTTGGTCAGCAGTCTCAGGGGCAACTTCATATAAAATATATAGAGGTATAACTTCAGGAGGTGAAGGACAATATTTTCAAGTTAATAATGGTTCACAGCTTTCTTTCATAGATTCAGGACTTAATACTACTGTCACAAGTAATCCGCCTACAACAGGAAATACTGCACCTACAATTTCGTCTTCATCAACAAATCCTATAGGAGGAGATATTCCATATAATCAAACTTATTATTATAAGGTGACAGCGGTTACTTCTTCAGGAGAAACTCTTCCTTCTTCTGAAGTTACTATTAATGCAAATTCAACAATACCCATTCCAACTGGTTTGACTATATCAACTTCTTCTATTGCATCAAGTACTGTGAGTTCTGGTTCTTGGATAAATAATACTAATCTATTACTAGGTGCAAGTATATCTAGTACTAATAATCCAGATTCTTTATATCTTTTGGTAGAGATACAGCCAAAAGGGACTGCTTTTACTAGTTCTACTACGAATTTAGTTACGACAGGAACAGGAGTATATGAATCTTCTTTATACTCATATTCAGGAACATCTATTATTGCAAATATTGAAGTTTCTGGGCTTAGTCCAAATACTCAATATCACTGGCAAGCTGCAGTGATTGGTAATGGAGGTATAAGTTCATGGGTTGCTATGGGAGGAAATCCAGATTTTGCTATAGATGCATCTTCTCCGATAACAAATAGTATTGGAGTGTTAGGCTGGTCTTCTAAGCCATCTTTATTATTTTCAAATGGATTTGAATCTGGAACAATACTTACTTCAGATTCTCCTTCTGGAGCATGGACTTCTGACGGAGGAAGTGCACTTCCATTAATTCAAAGTAGTACTCAAGGTGCAGTACTTCAAGGAAATTATTCTGTCAATATGACAACAGCATCTGCAGGTACTAGTTATATAACTAATAACACCTTTAATACATCTTCTGCTCAAGTTAGATTTTATATGTATATTTCATCAGTTGCATATGCTGCATCTGGAGACAGTATTACTTTAGCTCAAATCTCTGGAGCTTCTGGCATAATAGCGTCTTTAAATCTTTTAGATACAGCTTCTGGACCAGTTATACAAGAAGTTAATTCTGTAGGTACAACTAATGCTCAAGGTACAAATATAGTTCCTCTCAATACTTGGAATTATATAATTTTAAATATAAATATAAACTCTACTACAGGTTCTTTATTATCCTATCTAAATGGTCAACTTCAAGCCTCTCTATCTTCTCAAAATACAGGAGTATCAAACATGACAACCCTTAGTCTAGGTGCTGTAACAGATAGTACTTCTGATAGTATTAATATGAATATAGATAATGTTAATGTTGAAAACACTTCAGGTATATCAGTTTTAAATTATGATAATCCTACTCCATATTCATATCCTACACCATATTTCGAATTTTTAGGAGGATTTGATAACGGTTCTGCTATAAATAATTATGGTGTATATTTTGGTACAAGTGCTACTGGTTATCCAAGTACAACTCAGAGCACAGAAGGTTATGCTTCATCATCTCTTTCTACAGCAGGAATGTATTATTTAAATATTATGATTTATGACAATTTAGCCAATTCATCTTCTATTAATATAAATTTTGAATATAATTTTTATCCTTCTGGTAGTTCATCTCCAAATGCTCCATCATCTCTTGCTCAATTTGATTCTAATGGAACAACTGCAATAACAAATGATACATGGACTTCATCGGGAGTCTCTACCAATATAGTATTTACTATTTCTATGTCTTCTCCTAACTCTACGGATACTCTTACACCTGAGATAGAGATAGAACCAAATGGAACAGCTTTTTCAGGAACTCCTAATTATTCAGGGAGTGCAGTAAGTTACTCAGGTACATCAGTTACAGGAACAGTAGATGTAACTGGACTTACTAATTGTGCAGGATATCATTGGCAAGCTTTTGTAAAAAATTCAGTAGGTCTTAGTTCTCCTACTGTATTTAATACAATCAATCCTAATTTTTCTGTTGCAGATACAGCTCCCACAGCTGGTTCTGTTTTTGATGGAAACATTAATGGAACTGAGGTTCAATCAACTCAATCCATATCTGAAATATCTAGTAATTGGACAGGATTTTCTGATTCATGTTCAGGGCTTGCATCTACTCCTTATCAGGTAGAAATCGGAACTACACCAGGTTCAAATAATATTTATTCTTTATCTAGTTCGGGTATAGTATTAAATAATCCTTCTCCTTATAATACAGATAGTGTATCATCTCTATCTTTGGAAACTGGTATGACTTATTATGTTACAGTTATAGCTACAAATAATGCGGGATTAAGTACTCAAGTGACATCCTCGGGTCAATCAGTAATGCCTACATTATCATTTTCTTTGAATTCTACAAATATTAATATGGGAAATTGGAATGCTACAAATTCATATACAACAACAAATACATCCACAATATCTGTGCTTACAAATGCTTATAATGGATATTCTATTTTTGCTTATGAATCAGGTTTGATGCAATCTCAAGAAGGTAATACAATACCTAATTTTTCTGTAGGCACATATGCTTCTCCAGCTCTATGGCCATCGGGTGATTATGGTTTTGGATATACAAGTTCTGCAACAGATATAAATGGATCAAATCTATTTTCATCTGGTACTCTCTATGCACCTTTTTCTTTAACTGGACCAGGAGATACTGTTGCTCAAAATACGACAAATATAACAGGGGCAAATTATACCGGTAATCCAACTGCTTATACTATTTACTATAAGGTTGCAGTGCCTTCAACTCAGGCTGCAGGAACTTACCAGACAAATATAATTTACACAGTAGTTTCATCTTTTTAATTATGAAAAAAAATATAGCTATATTTTTGCTTTTTTTTGTAATCTTATCCTTAAAAAACTTTGTTTATGCAAAGACTTATTCTTTAACGATATATCCTTCATTGAATGAAGTGAATCTTACGAGAGGAGATAGTTATACTTATTATATAAATCTATATAATTCAGAAAATATACCTGTAGCAATTAATGTTTATGCTCAAAATTTTGGAGTAGCAGGTCTAAATGGAAATGTTAGTTTTATAGAAGATAAATCAAAATTACAATCGGCTTCTTGGTTTCATTTTAAAAATACTTCTTTAGTTTTATATCCTTATGAAACAGTGAAATATCCTGTTACAGTAGATGTTCCCCAAAATGCTTATCCTGGTGGGCATTATGTATCTATATTTTTTCAAAAAGTGAATAGTATTAAGTCTACTCCTAGTGTAGGAGTAATACCTAGAATAGGCTCATTATTTTTCATAACTGTTGGAGGAAATGTTTATTATAACGCTCAGATAAAAAAAATAAGTATATTGTCAAGTATATTTCATATTGGAAATACATATTTTCCTTTATTTTCAATGAATAATATTAAGACTTCAACTATAATAAAAAATCTAAGTAATGATTATATAGTTGAGAAAGGTAAAGTTTATTTAGAAAATACTTTTAATCTAAATAAAACTAAATATTCTTTGCCAAAACACATAATATTACAAAATGAGGCTAGATATCTTAATTCTGTAATAGATGCAAATATAGGAATAGGCACATATAAAGTGTATACAGCAATAGATTATGGATATAATCAAAAAGTAATTGTGTCAAAAAATATAATAATTATACCTTTATTTTTTTTACTATTGACATTTTTTATTATATTCTTTACATTGGTTATAATATTAATAAATATTATATTTAATTTTATAAAATCGATATATGAAAAGTAGTAATCATAAAATAAATTTATTTATTAGAAGAGGTATATCTTTTCTAATATCATTTTCTTTAGTATTTGTGTCTTTAATAGTTAATATTAATGCAGCAACTGTAACTGTTAATCATGCGTCAATTACTCTTTCAAATTCAAATCCAGGTTCTGTAGCTAATGAAGATATAGCTTGGACTCCGTCTAATACTTCAACTGCTGTTTCTACAATTTTTATTACTTATGCAACAACAGCAACAGGTACAACTGTTCCTACAGGATTGAGTGTTCCAGCAACACCTACAATATCTTTGACAGGTTTTGGAGCAGCAACTGCAACAGGTTCATATGCATCAGGTGTTTTGACAGTAACTCTTTCTACTGCAACTGTAGCTTCTTCTTCAGGTGTAAGTGTTACGGTTGATGGAGTAACAAATCCTTCAGCAGGAGTGTTTTATGTTCAAGTTAATGTCTCATCTACTACTGCAACATCAGGTACTATAGATTATGGAGTTATGGCAACTGAGACTGTTGCTCAAGTGACAGTTTCTGGAACAATGGATCCGTCTTTATCATTTTCTATAACAGGTATTGCTTCTGGTACAGCTACATCTACAACAGGTGGACAGAATGCTACTACAGTTACAACAACAGCAACAGCAATACCTTTTGGAACATTTTTAATTACAACAACAAATGTGGCTGCACAGCAGATTACAACAACTACAAATGCTAATTATGGTTATACTGTGACACTTCAAGAGAATCAAGCTCTTACATCTTCATCTAGTGCAACCATACCTGATGTTACTGCAGGTGCTTGGACAACAAATAGTACTACAGGTTTCGGGGTAAATGTTACAGGAGGTGATGCAAATACTACTTTATTTACAGGAAATACTATTTATGAACCAATACCTCATAATACATCAACACTTACATTAGCTACTAAAACATCTCCTACTTCATCTTCTGGTGATTCAGAATATGTAAATTTCCAACTAGGAGTTACTGCTGCTCAGCCTGCAGGTACTTATACTAATAATATAGATTATGTTGTAACACCTACATATTGATCAGTAGGTGCTATATTTTTTAAGTATTTGTTGATATAATTGCTATATCTTAAATATAGGTTGTTTTTAATGAAAAAAATTATACTATCTTTGCTACCTTTGCTACTTTTTTTATCTTTAATGGTTTTTCCTGGTATGGTCTTCGCAAAAGGTATATCAGGACAATCTTTAGGAATGATAATTTCTCCTCCTGTATTTTCTAATATAACAGCAAATCCTGGAGGTATAGTTTCAAATGTTATAAAAGTATATAATACCTCTCCTAATCCTTTAAATATTACTATGCAAGTAGATAATTATTCAGCAATAGGAGATAATGGTGCTGTTCAATTGCAAAATTCAAATCAAAATTCTCAATATTCTCTAGCTTCTTGGATAAGTGTATCTCCTAGAAATTTGTATATCCTTCCAAATTCGTATAAATATGTTAATTTCACAATTAATATACCTATAAATGCTCAACCGGGAAGTAGATTTGCTTCTATTGTTGCATTTGCTTCAGGGAGAAATACAGTTACAGGTTCTCAAGTTGGAACAAAAATAGGATCATTAATACTTCTTACTATAGCAGGTAACGCTAAAGTAGATGCAATTCTAAATAGATTTAGTGTAAGTAATTTTATTTCAAATAATGGAGTGCTTACATTTACTCAATTGATAAAGGATACTGGAAATGTAACTTTGAGACCTACAGGAAGTGTTGTAATTACTAATATGTTTGGTCAAAAAGTAACAACAATACCTTTACAACAAAGAGATATTATTCCTAATGCTGTAAGAAAAACAGAAGAAACTTTAAATACAAATGGTTATTTTGGAGTTTATACTGCATCACTTTTTGTTAATTATAATAGCGAAGGTAAGGGTGGAAATCTTTTTAAATCTATTACTTTTTATGTTATACCTATAAATGAAATTATAATAATAATACTTATAATATTAGTGTTATTCATATTTAGAAAGAATATATTTAGAGCTTATAGAGCATTCTTTTCTAAAAATTAAATGTTACAAAAATATAGATTATATATCTTGATAGTTATATTACTATTATCTGTTTTTAGTACTAAGATATACGCAGATACAGGGTCATCTCAGTATTATTCTGTATCTGTAGGTGGAACAATTTTTCCCACTACAGTTGTATTTGAAGGTTATACTTCCCCTAAGAGTATTGTATATATAGAGCAAAACAAAATATTATTAACAACTGCATTATCCAATTCTTCAGGGTATTTTAACACATCCATTATCAATATATCTCAAGGTATAGAACAATATTCTATATATTCTCAAGATCAAAATAATATAAATAGTTCTACTTTTACAGTGTATGATAATATTCTAGGAGATAGGATTAATATTATTTCTAACATAAATCTTTCTCCTACATTTAAAATTACATCTAATAATAATGTTTTGAACATAACAGGATTTGCAACACCTTTGAGTAGTGTGGAAATTTTTATCAATGGAATTCAAAAGTATACTTTGAATGTTAATTCTCAAGGAGAATGGAGTACTGATATAAATAATTTAGAAACAAATAAATATATATTTAGTGCGATAGATATTACTCCTACTGGAATACTTTCTAATACTTCACTTTCTGAAACCATTAATTTTATTCTAGTTAATAATAACAAGAATAATTCACCTGTCATTAATCAACCTATCATTCAACCTATTGAAGTTTCTCCTAATACTAATTCTGTCAAAATTCCTCCTATTAAAACAATAAATAAAACTAAACCTCCAACAATACATAAAAAAAGTATAAATATTAAAAAAAATAATTATCCTATAAATAAAGTTGTAAATAAAAAACCCTTCTTTGTATTACCTAAAATAGATGGAAAGGTTGTAGTTAAAACAGCAATTATAAGTGCTTCTATATATCTTATTCTTATCATATTTATATTTTTAATATAATATGATAACATTCTAATAGATGTTTAATAAATTAAAATATATACTATCTTTTTTGGTAATAGTACTTTTAGGTGTTTATATTTATACCTCAGTGAGTCTTTTTCCTAAGCTTTCCGAATCTTACTATTATACAAAAAATGTTACATCTTCGTATAATAATAAAAATAATAATGGAAGTCTAGGGAATACCCAAAAAACAGGATTAGAAAAAATTGTATTACATAAAAATTTTAATACTACTTTTTTTTCTAGGCCTATTGTTTCTGGTGACTATTCATTTATAGATACTGCTAATTATTTTCAAACTTATGGAGTAAAGAATCCTAATTATAAAGGTTCAACAATGAAAATTGATAATACAACAGGTAAAGTTTTATGGGAAAGAAAATTTCCTAATTTGGTTATGAATACTCCTTTAATAGTTTCTGAAATTAATACAGTTTTTGTAGGAATTGGAAATGATGAATTTTTTTATAAATCAGGTAAATTAATTAGAGGTACAGGAGTAAGTGGTATATATGCTTTGAATATAAATACAGGTAAAATTCTATGGAAATTTAATACTGTAGGTCAAAGAAAGCCAACTTTGGTATATAACAATAATATTGTTTATTCTGTAGGTGGAAATGGAGTTTTATATGCACTTTCTTCTTCTACAGGTAAAGAAATTTGGAGTTTGAATTATGGATCTATAACTTCGCAAGGATCAATAACATTGGTCGGAAATAATTTGTATTTTGGAGGAGCAGATCCTTATAAATTATATGATGTAAATATATTATCAAGAAAAATAGTATGGTCTAAAAATTTTGGAGCGTTAGGTATTAATGGAGGATTAGATGATACAACTATTGCTTATAATTCAGGATATTTGTATACAGTAGGTACAAAGTTAGTCAACTACAAACAAAATAAAGGTTATGATTATTTATATAAAGTTAATGCATCTAATGGAGATATCCTATGGAAATTAAATGAAGGATATGGACTAATGAATCTTCCTTCTGGAGCACAGATGGAAGGGACAGTTCCTACAATAAGTGGGAATAATGTTTATGTTGGATCTACTACTTCTCAAAGAATATTATGTGTATCAATAAATAATGGAAAAATATTGTGGTCAAAAAAATCTATTGGATTAAATAATAAACCTTTTATTATAGTTGGCAAATATCTATATTATGATAATGCTTTAGGAAATATACTTGTATATAATAAAAATAATGGAGAATATGTGGCAGAAAGGACAACAGGAGCTGCTGTTGCTGTAAGTGGTTTAACATATATAAATAATAAATTTTATGCAGATACAATAAAAGGAGATCTATATATATTTAATTAAAAGATATGGAATATGCAATAGAAATTGATAATTTCTCTAAATCATTTGGAATCGTAAAAAGTGTTAAAAATCTTACTTTATCTGTAAAATATGGAGAAATTTATGGATTTTTAGGTCCTAATGGAGCAGGGAAGTCTACAACTATTAAGACTCTAGTTGGTATATATAATAAAGATCAAGGAATAATTAAGATTGATGGAAAAGATATTTCAGATCTTTCATATAAAAAATATATAGGATATATTCCTGATGAACCTTATATATATGAGGGTTTAACACCAAAACAATTATTATCTTTTTTTGCTGAATTATATTCTATTCCTAAAAAAGAAATAGAAGAAAAAGTTAATAAAGCATTAAAATATTTTTATATTGATGAAGATTTGAATTTACAAGTTCAAGATTTTTCAAGAGGGTCAAAACAAAAATTAGTTATATCTGCAGCATTTATGCATAATCCAAAAGTACTTATTATAGATGAACCTATGGTAGGATTAGATCCTATATCTTCTATTAAATTTATAAAATATATAAAAGATTTTGCTAAATCTGGAGGCGCTGTTTTTGTATCAACACATGATTTAGATATTGCATCGAAATTATGTGATAGGGTAGGGATTATAAATAAAGGTAAATTAATAATAGAGGGGAGTATAAAAGAGATTGAAAAATTAACTAATAAATCTAATTTAGATGAAGTTTTCTTTAGTGTTATAAATGAAGAGTAATATTTTTTTGAAATATGATAATATCGCAAATTCTAGATATTTTAAAGAAAAAAATATTGCAAGGAAGTTTGTTATATTTTTTTTTATAATATGTCTGTTTTTACTAATTTTATTAGAATTTATATTTTTTTTCGATATATTTCATGTTTTAAAAACTTCTGATATTTCTTTAAATGTATATTCTGTTATTATATCTTTAGTAATTCTGTTAATTTTATTATTAGCTTTTATATCTAGTTTCTCTCAATCTCTTCAAAGTTTTATTCTTGAAAAAGATCAAGAGTTTATTCTTTCTTTACCTATAAGTACGAATGACTTTATCGATTATAAATTTATTAAAATATATATTGTGTCTTCAGTAATAATGACAATTTTTTCAATTCCATTAATTTTTTCTTATTTATATATTTTTTCTTATTCATATATATATTATATTTTTTCAATTATAGATATTCTTTTAATATCTCTTTTAGTTGTAAGTTCTAGTTTTCTTCTAACATCTATAATAAATATAATATTTAGAAAATTTAATTTATATATAATTTCTTCAATATTTTTATTATTATTTATAATATTTAGTATATCTATTACAATACAATCAGCACCTAATATTTCACTGCTTTTTAATGTTTTAACAATAAAACATTTCGAAAATATTTTTAATATAAAACAAATATTATATTCACCTCAATATTTATTTTCACAAATATTATTAAATATTAATTATGTAAATAATACTTTGATTCTTTTTACTGAAAGTATTTCTGCTTTTGTACTTTTTCAAATTGTATCAAGATTTGATTATCTAAGAATCATAAAATATCATAAAAAGAGTTTTTGGGGAATTAGTAGTTCTAAAGTCATATTATCTAGGGATCTAAATCATTTTATAAATGAAGAAATTCAAATTTTTAATTCAGGAATAATTATTTTTATATTATTTTTTATGGTATATATAGTTTTTCAAATAAGTAAATTTTATCTCTATAAATATAATATATATTTATATTTAGGGATTATTATATCTATAAGTTATATGATAGTCCTTCTTAGTCTATATTTTGTATTTCCTTCTTTTTCACAAGAAGGTAGAGCAGGTTGGATAATATTTTCTTCTCCTATAAAAAGAATTGATATATTTTTACAAAAAATTAAAGCATCTAATATTTTTGTCTTAATACATGCCTTTATATTAATTATATTTATATCTTTATTTATAAAATTATCTGTGTATAATATTTTATATTTTTATTTATTTATTATATTGACATCTTTAGGTATCTCTATTTTATTTACATCCATTGGTGTGGGGTTTCCTAATTTTTCAAAAAGAGATATTCAAGATTTATCAACTACTCCAGCTGGATTATCTGTAACTTTTATATCATTTATATATGTTGCATTACCTATATACATTTTTTATCTATTTGGAATATTAATCTCTTCTATTTTTTTCATAGGATTATTTTTATTAATATCTATAGTTTCTTTACATATTGGAAAAAAGAAAATTCAAAATATAGATTTTTCTGTTAGAGCTTAAAATATATATTAGTATATTTTTTGGAAAAGTATTAACTCAATTTGTATCAATCGTGTTTTTTATTGTCAAGAATGCCCCTAATAACATTAATAAAGAAAATATTATTAATACTATTATGTCTAATAATAAAGTATGTGAATTCAAATTTTTTCCTTTAATCATAATGATTCTAAGTCCTTGTACTGCATAAGTTAAAGGTAAAATATTAGAAATAGTTTTTAATACAGGAGGTTCAGTATTAACTGTAAAAATTATTCCAGAAAGTAGTACTTGTGGAATTATAACTAGAGGTATAAATTGTATAGCTTGAAACTCTGTTTTAGAAAACATACTAAGAAAGATTCCAGTATTAACAGCTGAAATTGTTAATAAAAATTCAATAATTAATATGTAGAGAATATTTCCTATATTATACATATTTAAAACATATAAACTAAATAATAAGACTATTACTGCTTGTACAAATGATAGTAAGATGAATGCTATCATATATCCAAAAACAATATCAGCCTTACTTAAAGGACTTGCAATAAGCCTCTCTAATGTTCCTTCAGACCTTTCTCTTAAAAAAGATACTGAAGTTATAAGAAATACAAGAAAAAATACAATTATACCTATAAAAGCTGGTCCAAAATAGTCTAATATATTAAGTTTAGAATTTCCGTATAAATAATGAATTGATTCTTTTATTTTCATTCCTTTTATAGAATAAGCTTTATTTATATTACTTAATAAATTCTGAACTTCTTGTGGTTGACTTCCTTCTAGATATATATTTGGAGAAATAGTATGGTTTATTAAAAAATTGTTTGTAAAATTTGAAGGAAAAATGATATATCCTTGTATTTTATTTGATAGTAAATCTTTTTTTAATTGATTAATATTTTCTGTTTTTATATTTATATCTTTATTATGTAATAAATTATTACTAAATTCTTTTCCTAAAAATCCTTTATCTTTATTTTTTAAACCTAAAGTTAAATTTGTACTTTGACCTAATAACATATATCCTAGTAAAAGAAGAATAATTAAAGGAACTATAAAAAATAAAGCTACAGTTCTTTTATCATTTTTAAATTGTTTTAATATCCTTATTACTATGGATATAATATTTTTTAAATTCATTACATTATTTAGATAATTTTAAAAATGCATTTTCTAAATTATTAGAATTAGTTTTTTCTAATAAATGGGAAACACTTCCTTCTGCAATTAACTTACCAAATCTAATTAAAGCTAATTTATCACAATGCTCTGCTTCATCCATAACATGACTAGACACTACTATAGTAGTATCATTATTTTTAGATATTTCATTAAAATAAGACCAAAATTGAGCTCTTAATAATGGGTCTACACCTACAGTTGGTTCATCTAAAAAAAGTAGTTTAGGTTTATGAACCAGAGCACATGCGAGAGAACATCTTTGTTTCATACCTCCACTTAATCTAGAAACTTTTTTATTTTTTATTTCATCTAATTCTACTAAATCTAAAATGAAATTTATATTCTTTTCTGCATTATATATAGATGCAAAAAATTTTATATTATCAAATACAGTAAGATCTTGATATAAAGAGCTTTGTTGAGGCATATAACCAATGTTTTTTAAAGTCTCTTTACTACTCATGCCTTTTTTTATTATAAAAATTTCTCCTTTATCATAATTAAGAATGCCAAGTAATATTCTTATCAAAGTTGTTTTTCCTGACCCATTTGGACCTAATAATCCATATATAGAACCCTTTTTTATGGATAATGATAAATCATCAATTACATTTATTCCCGAGAAAGTTTTTGTTAAATTTGTCACTTCAATTATATTCATAAATTATATTATAAACTTATGAATATATAATACAATATTATCTATATACATCAAATCTGTATATTAGCTAAATTCTATTTGTATAATCCTAACTCTTTGGATGCGAGTATAAACATTGAATGGCTCCAACATAATGGAGATACAGATTTTTGTATATTATTATCAAAAACCTGTTCAGGTATATTAGTACCTTTATTAGGTAAAGCTTTTTGAAAATATTCCATTGCTTTTTGTTTTTGTCCCATTTTATTTAAAACTATAGATAGCCAAAAGTTAAGTAATGGCCAGAAACCTGCCCCTTTTTTTCTATGTTGCGTATCTATCATCCATCCGTCATATTCATCATTCTCGTATCTATAAACACCAAAATCTTTTACAATTCTCTTTTCTATTTCACTAATTGTATTTTTTGTAATAAAATCTTCTGAAGAGATTACATTAAAAGGCCAAATAACACCTAATACACTTGCATCAATCTTATCGTCGTTCAGTTTACCAAAAGATCTAAATAAGTGATCTTTTGAATTTTTTAATATTAGATTTTTCATTTCAGTTGCAGTTTTTATGTACTTATTATTTGGGAAAAATTTATTTGTCTCTATTAATCCTGCATAGCATGATGCCAAAGAATATGTGAAATTTTCTTTTAGATCAGGGAAGCATAATCTTTCTTCCCATATATCATTTGTAACAAGCTTAAAATGATCATTTTTCCAATTTTTGCATATACCATCTGCAGATTTTATAACTAATTTCTTGTATTTATCAGGAATCTTTCCTGTCTTTTTAAAATGGTGAGAAACAGCATATAAAACAGCTCCTGTTTGATCTGGTTGGAAACGATTTAATGCTTGTAGACCATTAGCATAGTATTTTTCATAAAATAACCCAGTTTCCTTCCATCCTTCAGCTCTTTCTAAAAGCCAATCAAAAAATTTTTCTTGAATATTTTCTACACCTAAAATATCTAAAGCCATACATGCATATGAAGCATCTCTTGGCCATACATAAAAATAATTTTTTGCTTCTTTAGAATAAGATTCTTTAGTTGAATTAGCTGCAACTATAGCTCCATTTTCTAAACAACAATCTAATATAACCTTTTTACTTGCTTGTATAAGTTTTTGATTCATAACTCTATTTTATATTGTATCCAATCTATCTAGATTATTCAATGAAAATATATCCTGAGTTGTCCAACTGAGAATAATGTAAAATAGTGATACTGTAGTAGAGCCACAAAATGGTAAAAAAATGATAAA
>sequence03
CATTCATCAGATCTTTTTTTAAAGCTCATGAAAATGTAACCAAAATTAAAGAAGAATTTGGTAATTCTATTGAGATCTGGTTAGTGAAAAGAAATTATCATAGAAAAACAGAAAAAGCATATCTTAATATTGATAAAGTTGATAATTATATCAAAAATGAATATAATAAAGAAAAATTAAAAAAATTATTATGAAACATTTAGTTAATAAGTTAAAAATCAAAAAATCAGGAACTACAAGTTTCTTTGATTATCCTGAAAAAGAAAAAATAGATATAATAACTAAAGCTGCAAAAGAAGCAAATAAGATGCAGAGTGAATTAGTTAAAAAATATACTAAATTACAAAATAATACTTCTTATAATTAGGTTTTGCTTTCTTTCTAATATAGTTTAGAAAAAGTGATTCTATTATTTTCCCTCATGTCTAATTTATCTAGTTTTTCATCGGTTAAAATGATGTTTTTAAAAATGGGGCTCCACCTACGGGACAGCTCACCAGATTTAATTTTCTTGTTTTGATTTTAAGAAATCAATTATCCCCTATAAATTTTATTCTGAATTTATATCAAAAGTCTTATCATATCTATGTAACGCATATACTATCTTATATTTAATCATCTATTTTGGTATAATTTTATTCATGGATTTTAACAATAAAGTAGTTGTAATAACAGGTGGAAGTAAGGGCTTTGGTAAAGGTTTAGCAGTGGCTTTTATTAAAGAAGGATCAAAAGTCGTTATTACAGGAACCAATGGAGTAGAATTAACGGCTACTGCAAAAGAAATTGGAGCTGAAGGCATCGTTGTGGATGCAAGTTCCTATGAAGCAACCTCTAAACTCGCTAATAGTGTAGTTAAAGAATATGGAACACTTGATATTTGGATAAACAACGCAGGTATACAAATTGCACCTACAAATGCAGAAGACATCATTATCGATAAGTTACATATGTTATTTAATATTAACTTTTTTGGTTACTTTTATGGATGCATAGTTGCACTTAAAACTATGAAGAAACAGGGGTATGGTTTAATCATCAATGTAAATTCTACGGCTGGTTTAAGTGGTAAACCAATGTTGTCAGCATACGTATCCTCTAAGTTTGCAATAAAAGGTATGTCTGAGAGTATCCGTGAAGAGATTAAAGATAGCAACGTTAAACTTCACCAAATATTTCCAGGTGGTATGCAAACAGATATTTATCATGAAAAAGTACCTTCGGATATAGATAACTACATGCAAATCGATTATGTCATTGACAAGGTTATTGATAATTTAAAAGCTGATATTCCAGAAGAAGATTTAATCATTAAACGACCGACTATTATAAGTTAAGCGTAATGCCAAACTATTACTTAGAATGAGAATAAATTAGAAGAAGGTTTAATTGAATTACTAGTATATAACTCTATAATGAAAGTTCTATAATCGTCCCAGTAAGCCAGGAGTCATGTTATTATTTTCATCTTAAGAAATCAATTAGCCTAGATTCTATAAATTTTATACTGAATCTACATTAAATCTAGAGAGTATGTGCATTCACTATGGGTTGACAATATGGCATAAATAAACTAGAATATACCATACTTAATTTTCAGTAGTGAAAATAAATTATGGAACAGGAAAAAAGAGAAGTTAACGTATACATATATCCAAGAGAGAATGAGGCTAAACTCTTAGGAATAGAAAGAGGTTCTAGTTGGGATGAGATTAATGAAGAAAGAACACGTATTTATAGAGTTATTAAAGATGTACTTCAAAAAGTAGGAAGCCCTGTACCTAGTACTATAGGAATAATAAATGCAATTGAAAACATAAAAGACGCTTATGAATTAGGACTATCTTTTGGTACAGCAAGAGATGATGAAATAGAAGAAGAAGAAAAAAGATTATATAGTGAAATAGCATATTATAGATTACGAGGAAGAAAGATTGGATATTCTATCCATTCTATTCATAAATATAGCGCTAAGACAAGAAGAGATGAAGCAAAAAAGCTTGGTATTACAAGTAAAAACCCTACAAGGATGGAAATAAACGAAAAAATACGGAAGAAACAACCTGTTCTTATGGATAGTTATAGCCATAGTAGCCCTACTGACATGACGTCATCCTACTACTCAATGTAATTTTTTGTATCTTCATTTGATTCACCATCTTCTGACTATAGCCTTAATATTTATGTGAATATACCTTGTAGACGAAAAAATGGATATCTAAGATTCTCTAAGCCTCAACCTCAAATAGCAATATCTTTTTTATCCTAATATGGATAAATCAATTATTTTTTTATTAGAAGTTAATGCTTTTTCAATATATATTAATACTACTGCTCCTATAAATGCTACTAATAAGCTATAGTAAGTTAAAACCTGTAATTCCTGAAAAACCTAAGAAATTCATTATAAATCCACCTACTAAAGCTCCTATTATCCCTAATACTATATAGAAAATCCTGCAAAACATAAAAGACCAAGATTCGTACTAAAACTAGATAAAGAAAATTTTGAGCTAAATCAAGAACTAATAGAATTTGACGAGTTGAAAGAAGGAATAAAAGGATATTACACTAATCTCAAAGATATATCACCACAGTTAATAATTGCACGATATCATGATCTGTGGCACGTAGAGAAAGCTTTCAGGATTGCAAAAGGTGATTTACAAGCAAGACCAATATTTGCAAGAAAAAAAGATATGATAAAAACTCATCTCTTAATTGTATTTGTAGCATTATGTATATCTAAATCCTTAGAACTTGAAACAGGGTATTCCATAAAAGTCATAAAGAAAAATATATTTCATATTGTAGATATTACATTCATTGATAAATTAACAAAACAAGAATTCGTTAAACGTCAGGAATTTCCAGATTCTGATGTGTTTTCTAAAATCAAAGAATTATATACATGATTCGGCGTACTAATTGGACAACTCAGGATAAATTATATTAGAAGCATCTATAAATACATATGTTTTTATACCTTAATATATTATAGAATTTAAACCTATGTCAACTTTATAAAAGGTTCTGACATCGACCACAATACCCAGGTTACTATGTCTCTAAATAATTTTTAATGTATGCTATAATTATTGTATGAAAGGTATAAATATTTTACATATAGTTATTTGGAAAGAAGGAAAATTCTTTGTGGCTAATTGTTTGGAATTTGGAGTGGCTTCTCAAGGAGAAAGTTATAAAGAAGCTAAAAAAAATATTCAAGAAGCAATAGAACTTTATCTTGAAGAAGTTGATGGATTAGAAGAAAAACAATATATTCCTCATATAAACAACATTAGATTTGATGAAATTAAGATTAACTCACTGAATATTAATGTCTAATACTTTTTCTGGAACTGAAGTTGTTAAAAAATTAACAAAGGTTGGTTTTTATGTAGTTGGGCAGAAAGGAAGCCATGTTAAGCTCAAAGGATTATTCAATAATCAATCAAGAGTTGTTATAGTTCCAGTGCATAAAGAATTAGCTAAAGGTACATTTAAATCAATTCTTTTACAAGCTGGGATTACACTTGAAGAATTTAATAAAATTAAATAATTTTTAAAACATTAAAAGTTCGAATAATGTCAACAGTCCCCAGAATGAATATGTATATTAATTGATTTAAAATGTTATAATTACATTATATTAAAAATGTTTTTATGAGAATATTATTTTCTGATCACTCACTAGATAGATTATTAGTAAGAATATAATAACTGCTTACTGTTTAGAAAAATAAAATCATGAAAATAAGTTACGATCCTACAACTGATTCTGCATATATAAAATTATCAGATAAGAAATACAAATTAACAAAAAAGATATCTAATGATATATTAATAGATTATGATAGTAAGAATAATCCGTTAGGTATTGAAATATTATCTGTAAAAAACAATATTTAGAAAGATATAATAAAGAACCATAGTGGCTGTAGTGTTTTCTATATTTATGAATAATGTAGTAAGTAGTATATAATAATTTATATGAAATTTTAATATAATATATATATAAATATTATGAAGAATAAAGAAATAATTATTACAAAGAAAAATTATTCTAATAATGTAAAGCAAGAATGGACAAGATTAGTAAAAGATCCATATCATGAATTAGAATTTTCAACAACATTATATTTTTTAAAAAAATATCTTCCTAAAAGAGGATTAATTTTAGATGCTGGTGGTGGACCAGGAAGATATACTATCGAGTTAGCTAAATTAGGATATGATATTGTTTTATTAGATTTAGTTGAAGAAAATTTAGAATTTGCCAGAAAACAAATTAAAAAGTCAAAAGTTGAAGGTAAAGTAAAACAGATAATTCAAGGATCAATAACTGATTTATCTGAATTTTCAAATAATACTTTTGATGCGGTTATTTGTTTAGGTGGACCACTTTCTCATAATACAGAAGAACAAAGGCAAAAAGCAGTATCAGAACTAGTAAGAGTTTCTAAAAAAAATAGTAATATTTTTACTTCTGTTATGGGGAAATATGCTGTTCTACTAAATACTCCATCAGGTTGGCCTGAAGAAGTTGAATTGAAAAACTTTTATAATATTATAGAAAATGGAGATGATTATAGGTGGAGAGGAACAGGTTATTGTCATTTTTTTACATCTAGTGAATTAGAAGATATCTTTCTAAGGGAGAAAGTTAAGATTATAGATAAAGTTGGATTAGAAGGTTTAAATATTGATGGAAAAGTAATAAATAAATTTGCAAGAAATTTTCCAAAAGCATGGAAAAATTGGCTAGATATTCATATAAAGATTTGCACAGAATCATTTGTAGTTGATTCAAGTAGTCACATATTAATTATTACAAAGAAATTATAATATTATTCTTGTATATAAATCTTTAATTAAAATTTCATTCTATAATTTTAAACAATAGTGTGTGTAAGGTGGGGTAGAAAGATGTGAAAGTTCTATAATCATCCCAGTAAGCAGGAATTATATTATATCTCACGTAATTTTATACAGTAAGGGAATCCTCTTTTATTTCTTCCATATACTCACCATAGTCTTCATCAAAAGTGTCATGATATTCAGTCTCTCCTCCTGAAAGAATATTCATGAGAAGACCGCTAGGCATGGAAATATCATCTATCTCTAAAGGTAAAAAACCTTCAACCCTTCTTTTTTTAATCCTGACTATGGCTATTTGACAAGCTATATGATCAACATAGTTTTTCGGAAAGAAATCTTTTGCTTTTTTTAAATGAGGGATGGCCTTTTCATCCTGTTGTCTAACCATACTCTCAAGGATAAAAAAGAAATCCACGTTTCTGTATTTCCAATCATATTTTGATACATCAAATGATTCATTCGGAATCTTGGACATATAATCATCTAGAAGATTATTTAGAAAATTTATTGATTCATTGCACCTTATTCTACCTATAGTCAATAAAGCCCAATTCATTAACTCTGTACGTCCTTTTTTAACAGAGTGTTCTATTCTGTATTCAATTTTTTTGATTATTGAAGGAATACACTTAATGCCGATTTTAACAAGTAATTGTTCAGCTATATCTCCAAAGTCTACATCCTCAAGTGCATTGATGAATAGATTAATAGCTTTTGAATTGACAATATTTTCCAAAACATAAGCTAGGCTTTCATGGTTTTTATTTTTTTCATCCTGTAAGATTTCATCTAATAAAGAAATAGAAGGTTTGCCAATAGTTATTAATTGATCTTCAAAAACTTTTACTTGATCTTTCTTCTCTTTGTCATTTTTCAGATTATTGATTGTACTCAAAGTTTTTACTAAAATTTCACTACTGTTATTTTTTTTATCTAAGACTTGAGTTTTCATATTATATTTGTATGTTTAATCCTTCTTATCAAAAGTAAAATAGCTAGAATTTAAATATTTTCTTGAATATTCTCCTGGAAATTGAGCATGTAACCATTGATATTCACCAGCCCAATACATGGTCTCCCCACATTGTGAGCAATAACCAAACTTTTTACCATTCTTATTTTGTTCAATAAATACAGGTATCCATTTCTTGTCACTATTGTGAAAATAATACTTCTTAAGGCCAATTGTTAACCAATGACTTGAAATAAGATGTCCTGTCCATGAAAACATTTTATCTCTTGAAGAAATAACAAATCTATTGTCTTCTGACAACACCTTAGATAAATAATCAGGCGGAATATCTTCATTATATGGATAGATATAGAGATATTTTCTAACAACAAACAAAACCATTTCATATTTTATAGAATCATGATTAAGGATATCATAAACCAAATCAGTAAGTTTTTTATTCTTTATTGATATAGCAGATCCATCTCTTTCCTCTCGCTTCTCTTTCCATATTGAAAAAGTACATGTACTAATATCAAGACATTTAAATAAAATGTCATCACCTTCTTCAAACGCTACTCTTTTATACCATCCAGCAATATCTTCATAATAAGGGAACTTAACTACTTTTTTGGTTACAACATTAGATACGTTATACTTATTTTCTTTATCATCAATAAATATTATTGATGCATTACTATGATCCCATGCAGTTAAAAACATACCTAGATCATCATCACTTCTTAATATTCCTTTATCAATTTCTCTTTTCGATGGAGTATACCTAAATGTTTTACCTTTATATGCACGTTTTGCTAAATCATATGTACTATTACCAACACGAACAATTTCTTGTTCATATGGAGTTAATTTCTGGCGTATTTTAGAAGGGGAAATACCAGTAAATTGTGATAATTCATCAACAGTTAATGCTTGCTTGTGCTCTTCAAATGCCTGAAGAAGGAGTTGTTTTGTAGTTGACATATTACATAAAAATACACATATCTATCTAATTCTATTCTCAGATTATTCATTACTATTTTCTAATATATACAACAGGACTATCTTCCCAATTGATATAAATAGTAGTATATCAAAAAATAAAAATTAATTCACATCTTAGTCTTGTCTCATGAAAAATAGCACTGAAATGAGATAAGACTTATCATTGACTTTTCCCTTTACTTTTAATAGTATTTAAGTACTAAAATCACCTGTCGGGGCTATGCCATTGGCAGGTATTTTTTTATCTACTCATGTCTAAAGAAAAAAGTATCATTATTATAGATGGAGGTAATTTTTACCATAAGCTAAAAAGTTTATCTTTCCATCAGTTGTTATCATTTAATTTTCAGGCTTTTTGTTCTTCACTTGCCAGAAGTACTGATTTAATTTCTTGTATGTATTATGTTGGTGAAGTAAAAACAACTGGAACAGAAAAATCACAAAAGATGTACAATGCTCAACAACGATTACTAGGAGATACAATAGAAGAAGTTATTAATGAGATTTCTTATGTAGCTTCATAAGATTATGTCAAATATTAGACCATTAACTTATAGAGACATAATTAAAAAATTAAGAATTCATGGTTTTGTATTTAGAAGAGCTACAGGAGGATCTTATGAAATCTGATTGAATGATTATACTAAGAAAACAGTAGTTGTTCCTCATCATAAAGAAATAAAATCAGGAACAGTAAAGAGTATTATTAAACAATCAGGGATTGATGAAAAAGATTTTTTCAAATAATTATATTATTTTTTTCATTATATCTAACTTAATAAGGGTTCTGACATCATCCATTTATACTGAAAATAGTCTAAAAGGGATATAATCCATCTAAGACAAAAGGGGATGTAGTATTTGTCCATTAGGAGAGAGTAACTCTACCTATTAATCGTGAAAATATATTATGATAGAATAAATTAAACTTTTGTTATATAATCTAAAGTATGAAATATTATCTTTCTTCATATAAGTTAGGAAATGAGACAAATATATTAAAGGAATTAATTGATAATACCTCTAAAAAATTTGGATATATTCCTAATGCTTTAGATTTTACATCATCTGATCCTGTAAGAAAGAAATTACATACTGATAAAGATATGGAAGATTTAAAAAGTTTAGGAGCAGAAGTTGAATTACTAGATTTAAAAAATTTTTTTGGAAAAGAATTAGACCTTAGTCTTAAATTGGAAAAGTTATCAGGAGTGTATGTTAGTGGAGGAAATTCTTTTATTCTAAGACAATCGATGTATCTAAGTGGATTTGATAAAATCATATCTGAAATATCGAAAAATAAGACTGATTTTGTATATATTGCATATAGTGCTGGAGTATGTGTTCTTACTCCTTCTATGAAGCCTTATGAAATTACCGATGATACTATAGATATGCCATATCCAGAAATTAAAGAACAAATATGGGAAGGAATAGGAATACTAAACTTTACATTTGAACCACATTATAAATCTAACCACCCTGAATCTGAAAGTATTGATAAAGGAATTCAGTATTGTATTGATAATAAAATCCTGTTTAAAGCCTATAGGGATGGAGAGGTCTTAATAATTAAATAAGATTTTATGAATGCAAGAAATTATTAAAATTACTATTTCATATAGAGAAGATAGGAGATTGAAGAGTAAGTACATAAGTATGATATAAATTGATAATTAGGTTTCTGACATCATCCACGATACCCAGCCAATTTGGTAACATATGACTACAGTAACTTCTTAGTTTCAAAAAACCCAATTTTATACTTGAAATTCTCCTTGTTGAAATATATTATCTAATACCCAATCAAAATTTCCTGAAATTACTTTAGCTTTACAGTATTTACATTCACCAAATTCATTGATGTCTATAGGTGCTCCACAATTAGGACAAGTTTGTGCAAGAAAACCTTTAGAATAATCAGATAATACACTTTTTGATCTAATAAACTCCCAATATTCAGTGAATCTTCCATTTATAAACTTGTTTCCACTAACAACCTTTCCTGTATCTTTATTTACATCATAATCTTTCATTGATGCATCTATCTGTACAGTAAGATATTCGAAGTTATTATCGATACTACATTTAACTATCTTCAAACCTCCAATAGCTATATTTTCTAAAACATCTTGCTCATTTTTTTGTATTAATTCTGAAATCTGAGTTTGTAATCTTGTATACATACTTTCAGTAAGATAAGCTTGAACAGGAGTTATATTTGAAGCAGTCCAAGCTTGTTGAAATTTAAAAAATAAACTTTGTACATGATCTAAAAATCTTTGTTTTGAAAAATTAGAATCAATTTCTGTTAACTGAGTTATGTTCGCTTCTTGAAAAAAAGGAATACCCATCGCTGATCCATTCTGTATTCCACTTATTCCTGTTGTAATTCCTGATGCAATATTCTTTTTTCTTAGAATAAGTACCATAATTATTATTAAAACAAATACAACAATAAATATTATTGCTCCTAAAGTTGACATATGAGTAGTAGTTCCACTAGTAGTACCATAGTATCCACCATAATACCCTCCTCCAGAGGATAATCCTCCTCCTGATGAAAAACCTCCAGACGAAAAACTACCTCCTCCTCCAAATCTTATTAAAGATACATATTTATTCATGATAGACTAGATCCACAATTAGAACAAAATTTTGCAGTTGCAAGATTCTGTGTTTGACAATTTTTACATACAATCATTGATTGTTGTTGTGCAGTATTATTTTGATTCATCATATTATTCATCATCCCAAAACCTATTCCTGCAGCAATTCCTGCTCCTGCAACAGATGCATTACCTGATGAATTTTCTAAACCTGTTGCTGCTCCTAACTTTATTGCAGTATCTGCAAGATTAGGATTATTATTGTATGCAATATTTCTTCTCATTTCTTTTAGAGTTGTTTCATCTTCAGGTTTTAGAGTAACTGTTAAATTTCCTAACTGAGATATTTCTATTCCATAATTTAGAAGGAACTCTGCTGTCTTTGGAATAATTTCAGAAGAAAGATCTTCTGTTTTAGATGCAATACCTAGAATATCCCATTTATCATTAGTTATATGATTAGATATTATTTCTCTTGTAGCTTTAAGGAGTTGATCTTGACTCCAATTTGATATTTCATCATTAGAAATTAAGTTCTGAGTACCCACAAGATTAAGTATTAATTTAGATGGATCATTTACTTTAAGTGCAAATTCTCCAAAAACTCTAAGTCCAACAGCTAGTGTAGTATCAGGGTCTATTACATTATCTAAAAATCCTCCAAAATTAAAATTAGGAAATTCTCTTATAGAAACAAAATATACATCAGATACTAAAACATTCCCTCCAGTTGCAGAATCAATCAAACCCCCTAAAAATGGTATATTTGCTCCATCTAATTTGTGTTGCCCTTGCTCTATTATTCCTGCTACTACACCTTGTTTTATAAATAAACATACTTCATCAGGTTGTACAGTTAATACTGAAAGCATCCTTATATTATTATCAAGATACTTATATACTATCTGATCCTTACTATTATCAGGTCTAGATATAAATTGTGCTTGTATTGGATTAAATAATGACATATTTAAATATTTTATACATAAATTTAAATACGAATATACAATAAATTAATACAAAATACAACAAACTAAAAACTGTTAAAATATTACAAAATTAGTACTATATCAATCTTAAAAAAGAGAACTTATTAATTATATTGTTATCTTTTTAACAAACTTCTATAATGTATGCTATTAATTATTTTATAAAAGATATAAAGTTATAAAGAATATGAAAAAATATTCAAGAAGCAATATTACTTTATTTAGAAAAAACAAATAAATTACAAACAAAACAATAAATTTTATAAATAATCTTAAATTTAATAACATTAATATTTTTAGAAGATTATAATAAACATCACTATAAGTAATTATGAATGAAGTTAAAATGGAATGGTATAGTTCTGATAAAATACTTATAGAGCATGAAAATTTATTATACAAACAAGTATATTGCTGGATTATATCTAAAAATAATTTATTACCTTTAGTTTCTAAAGATAATAAATATTGGCAATTTCCAGGAGGACATCCTGAAAAAAATGAGACAATACTGGAAACCTGCTATAGAGAAATAAAAGAGGAAACAGGTTTAAATTTAGAACATACTATTCCTAAATTTTTTGGATACTATCGAGTAGAAGAATTCAATCCTACAATAAATAAAATGGATGTATATTTACAATTAAGACTATTTACTAAATTAGATAAATTTAGTACAGAATTAGAACTAAATGTTAATGAAAAGATAGATGAAGAAAGAAAAGTTTTTTATACAAAATGGTTTACTCTAATAGATTTAATAAACACAGTTCCTTGGGTTGAAAATTCAGAAGAATTTAACACTTTCAAAAAAAGAATATTTATATAAAATAAATAATTCCTATGTTACAATATAGTTATTATGGCAATGCCAAATGAATTAGTCTTAGTAAGACATGGACATTCTGAAGGAAACTTAGCTGTAGAGAAATCTAGGGAAGGTAATGATGGGTTATATACTTCTGAATTTAGAGAGAAACCTGCACATCGTTGGAAATTAACAGAAGAAGGACAGAAACAGTCAAAAATTACAGGAAAATGGATACTGAAAAATATAAGCAATAAATTTGATAGATACTATGTCTCTCCTTTTTCCAGAACATGTGAAACTGCAGGCTTATTAGGATTACCTAATGCTGAGTGGAGAATAGATCAACGACTTCGAGAAAGAGATTGGGGAGATATAGGAACACTTCCACACTCAGAGTTTAGAGATATATATCCTCAAAATGCAATAATAAAAAGAGTTGATCGTTTATATTGGAGACCTCCTGGAGGAGAATCTATAGCAGATGTAAGACAAAGAGTTAGAGATTTTTTTGATACATTACACAGAGAGTGTGATGGTATGAGAGTTATAGTAGTTACTCATGGAGAATTCATGTGGGCTATAAGAGCAGAACTTGAATATATAAATGATAAAGATTTTATCATAGCGGATGAAAACCCTTCTTTAAAAATCTATAATACTCATATATTACAGTATTCTAGAAAGGATCCTATATCTGGAATGTATGGAGATTATTTAGATTGGACAAGAAATATTTGTCCTTGGATGAATAATAATGAAATTTCATGGACAAAAATCAAGCGTAAAAAATATAGTAACAAAGATTTAATTAATCTATCTATATAAAAAATATTAATAGGGATATATAATACAAAAATGAAATACTCAAAAAACATTATATACACTCTACTTGTTATAATTGTTATTACAATTATTTATTTCATATTTCCTAAAAAAAATAATATACCCTCAAAAAATCTAACATCAACAAAGGTAAAAACATCTTTAATAGGACAAAATCCAATATTAAATTTATCGAAACTTACATCATTAAAAAATTATACTTTTAGTTTTACAGATAATTCATTAACAATGACAGGAGTAGTATATTCAAAAAATAATTGGAGTTTACAGAAACCTTTTCAGGAATATCATGTAAATGGTTATATATACACAAAACTTGCTAATACTTGGTATAGACAAAATGAAGCTTTAAATAATTATGCACATTCCCCATATATTTCTAGTGCTGAACAATTCATAGGATACAAAAATGTTTATGGAATAAAATTGCAAGAAGGAAAATCTTGTACAATTGCAGGAGTTAAAGGTCATTTATGGATATTCAAATCACCTAGTAATGGAGGTTTATTAAATGAAGTAGCATCTTCTTGTATATCTAATAAAGGTTATATGTTATCTGAATATATAGGAGCTCAAGGTTCTGCAATAAATGGGAAGAAATATACCAGCTCATTTATAATTCAAAGTATTGGTGATACAAAAGCATATATACCACCTACTTCTTTTAAAATAGATTAATTGTATTATAATAATTTAAATGGCTAAAAATATAAATCAAACACACAAAGATTCTCTAACACATCTTGATAAGATAGCTTTATTTATTACCACTATAGTAGGTACAATGTATTGTGCATTTATATTTGCAATAATCGCATTTGCAGGATTCCCATTTAAAGGTGCTACTCCACTACAGTACGTTTTATGGACATCTACTATATTTCTTCAATTAGTACTTCTTCCTATTATTCTTGTTGGTCAAAATTTACAAAATAGACATTCTCAACTTTTAGCAGAACAAATGTATAAGATAGAAATGCATAACGAAAAACTTCTTGAAGAATTAGAACAAATAAAAAATAATCAAAAATAAATATTTTTTTTATGAATAATATAAATTGGAATCCTCCTACTATCAGTAAAAGAGATATGATAATGGATTCATATAGGAAATCTAGAGGTGGAAATGCTGAAATGATAACTATTTATTGTATGACATGTAATTCTCCTATTTTATTCTATCAAAAAGACGGTAAAGGAAACTTATATAGATGCTATATAGACAGAATAATATATCCTTATCATTTCAAAGATTTTTTAAAATATTCAATAAAAAATATTCCTCAATTAAAATGTATTGTGTGTGATAATAGTATCGCAACACCTATGATTTATAAAAAAGAAAAAAGACTTGCTTTTGGATTATTTAATAGTAAATTTTATAAAAGAAAAAATAAAATATAAAGTATTGAACATTTATAGATTCATTCATATCTAAGAGCTTCAATAGGAGATAATCTTGAAGCTTTATATGCAGGAAAAATACCAAATATAAGCCCTATTGTAATTGAAACTGTAATTGAAAGTATAATTGCTAATGAAGATATAATAAAAGGCACTTTTATTATATAAGAGGCCACTACATAATCAAGAAATATTCCAATAAAAACACCTATAAATCCTCCTATAATAGTTATTAGAATAGCTTCTACTAAAAATTGATATAATATATCACTATTTTTTGCACCAACAGCTTTTCTTAATCCTATCTCCCTAGTTCTTTCTGTTACAGAAACAAGCATTATATTCATAATTCCTATTCCTCCTACGATAAGAGATATACCTGCAATTCCTCCTAGTAAAAGTGTGAAGGTCCCTGTTATGGTATTTAGTGTTGTAAGTATCTGAGTTTGATTAGTAATATTAAAATTAGCTTGATTTACATTTGTAATTCCTTGCACTCTCATTAAAGTATTTTCTACTTCAGCTGTAGCCTCATTCATAACACTAGCACTACTTGCTTGTAATGTTATTGAACTGTATCCTACATTTCCAAATAATTCTGACTGTGCAGTACTAATAGGTATTGCAACTTGATTATCTTGATTAAAAGAACCTCCTGTAGATCCCTTAGATTGAGTAATACCAATTACAGTAAAAGATCTATTTCCAATAGTAACAGATTTTCCCATTGGATTCGAATTTGGAAAAAGCTCACTTGCAACAGTAGGACCCAATACAATTACAGGTAAATTATATTTTATATCAGGTTCTGTAATAAAAGATCCTTTTTCCATTGTAATATTATTTACTATTTGTGCCGATGGAGTGACACCCTCTATTAATGTAACTGCATTTTGACTTTTATATATAAGCTCTCCTGATTTACTAATAACAGGAGAAATGGCTATAACATCAGGTGTATTATTTTGAGAACTAAGTGCTACTACATCATTCTGATTAAGAGTATTTGCAGTTCCTATTCCTTGTCTAACATTACCAACTTTAGCATTTCCAGACGTTACTATAATAAGATTCGATCCAAGATTCTGAATATTTTGAGTAATTTTAGACTGAGTACCCTGACCAACAGATATTAAAGCTATAACAGAAGCTATCCCTATAATAATACCAAGTGCTGATAATATAGTTCGTCCTAGATTAATAGTCAGAGAATGAATAGATGTATAAAGTAATTTTTTGAATGTCATATTCTTTGTTGTTTTATAATTTTATCTTCAATTAATACTCCGTCTTTAAGCATAATTTTTCTTTTTGCTCTATTTCCTATATCTTCCTCATGTGTAACTATTACTATTGAGTGACCTTCATCATTTAGATCTTGTAGAATTTTTATAATTTCTAGTGTTGATTTTGAATCCACATTACCTGTAGGTTCATCTGCTAATATTAAAGTTGGTTCTTGCGCTAATGCTCTTGCTATAGCAACTCTTTGTTGTTGCCCTCCAGATATTTGATTTGTTTTAAAATATGCACGTTTATCTATTCCTAATTTTTTGAGAATTTCCATTGCTTTTTTCTCTGCAATATCAGTATTCTCACCTCTATACAGAAGAGGTAATATAACATTCTCTATTACAGTAGTGCGAGGGAGAAGGTTAAATGCTTGGAATACAAAACCTATATATTTATTTCTTACAGATGAAAGTTCTCTTTCTTTTATATCTATAGTATTTACTCCGTCTAGTATATATTCTCCTCTTGTGGGTTTATCCAAAAGTCCCATTATATGCATTAGTGATGATTTTCCTGAACCTGAAGCTCCCATAATACTTACATATTCACCTGATTCTATTTGAAGATTAATATTGTTAAGAGCAATAACTTCATTTTCTACATCACCATATATTTTATATATATCTTTTAGTTTAATCATAATCCTAACTGTTTACCCAGTCCTTTTGCCTTCCCTCCTATATTTTTTGTACTAGAAGACTTTATATGGAATGAACTATTCCCATTTATAACAATTTTATTTCCTAAAGAAAGTCCACTTACTATTTGTGTATAATATATATTACTAATTCCTGTTTTAACAAATCTTCTTATCTGGTGACCTTTTTGATCAAGTATTACAAACGGTTGTCCTTGTGTTGTATAAATTAGTGCAGAATTTGGTATTAATAAAACATTATTAGCACTCTTAGTTATTATGTTTACATTCGCACTCATTCCAAGTTTAATTCCAGAAGGAGCATTGTGAATACTTATAGTTACACCGTAATTTACTACATTTTGTATAATAGTAGATGATGGCTCAATTGATGTTACAACTCCTCTAAATGTTTGATTTGGATAAGCAGTTAAAGTTATACTTACATTTTGTCCAATAGATACACTTGCTATTGAACTTTCATCCACATATGCAAATATTTGAGCAGATGATGTATCTGCAATAGTAATAAATGAATTACCTGCAACATTTGATATACCACTTTGTGCAGAAGAAATTCCTTTAGAACCTCCTTGAGAAGAAGCACCTACTTGCTCATTTGGTGCTATAGAAGAAAGAAATATAACAGTTCCTGAAATAGGAGATATAAGTGTTGCTTGAGAAAGATTATTCTGTGCTTGCTCTAAATTTATATATGCATTATTTTTAGCATCTATAAGTGGAGCAAGGTTATAGTAGAGAGGTTCTTGTTGAGCATTTACAAGATTTTGTTGATCATTTTGCACTAAAGTATTATCAGTCTGTACTTTTGCTAGTATTGATGAATAATTAGGTGATGTAGTTGAAGTAGATTGAAGTGTTATTTGGTCTGCATTTAAAGTAGATTCTGCTTGATTTAGAACATTTTGAGCATTTTGTACATCTTGGGAAGCTTGTCCATAAAGAGCATTTATTTTTTGTTGAGCTATATCATAATTATTTTGAGCTATTTGAACATTTTGAGAAAGAATAGTTGTATCTAAAGTTGCTAATTTTTCTCCTATTTGTACATTTTGACCATCTTTAACATATACTTGTGCTAGTTTTCCAGATATAGGGAAATTTAACTCTGTCATATTACCAAAAACTACATTTCCGACGGAAGAAACATTTTGAGTTATACTACCAGTTTTAATTGTATATAATTTAATGGTTTTTTGTTTTGTTATTACAAAAGAGTTATATATAAAATATATTACTCCTAAGACAATAATTGCTAATACTATTTTTGCAATAAGACTTTTTTTTATTATTTTCATTATATTACTATTATAAATTTAGCTATAATACCGTTTTTAGAATGTAGACCAATAACACTTATTGTTACTCCATTTTGTAAAGTACTCACATTCTCTAAACTATTACCTCTATATATTTTTGTATTTTTATTTATATTTATATTTGTACCATTAATAGTGATACTCTTTGCAGTTATATTACTTATATTACCTTCTTCTTGTATAAATACAGTAGGTTTTGTTTTTCCTTTAGATGAAATAGTACTACTACTTACATTTCGTTTACCTTTATGATGTAATACTTTATGAGGTATTAAATAGCCTATTATTCCAAATATAATAGCTACAATTATTAAAATAATAATGTTCCTTATTTTTTGATTTTTCATAATATATATTATAATAAAGTTATCTTTAGATATTAATACAATATTTTATATAAAAATGTTTCAAAAAATATTTAAATACTTTTTCATACTATAGATTTTACCCATATATAGCCTTATAGTACTACACTATTGACAGTGGTAATTTATAAGAATAGCATATTATATATATTAAAAGGGGGTGAATAAGAAATGAATATAAAAAAACTTTTAATAGGAGGGACTTTGAGTCTTGTAGTATTAGCTTTAAGTGCTGTTTCTGTTTTTGCAAAAGGTGGATTTAATCAATTTGGATATAATTACGGTGCAAGAATTTTTAATGGAACAAATGCTAGTTTTTGTGCATCACTAAAAGCTCCTTCAAATTGTGATGGAAATCCTTATGATAAAGTTATTATGAAATGGAATGCACAGTGGGATAATTGTAATGCAAATGGATATAATAATCCCAAATACTGTTTAGGTGCTTGGGTAGATAATGAATATAATGGTAAAGTACCTAATGGTTCCGGAGTAGTCTGGCATTATAAAATTATTTGGGTTGGTTCAGCAGGAGCTTCTAGTCCATATTGGTTAGCAGGAGGTTATTCTATTTGGGGTAATTATGAAGTAATAATGGATCAAGGTATCAATAGTACCTGTAGTGGTAATGTAGACACTGGACATCAATTTTGTGCATTAGCAACACCAAATGGTTATGGAGCAGTTTTTGCTAAATAACTATTTTTAATACAAAAAAACAACTCACTATTTAGAAGTAGTTGGGTTGTTTTGTATTATTTATTCAAAAATCTCAATACTATCCTCTGCGCCTGTTGTAGATAATAAAGACATCATTTCTTTATATTGAGAATTATACTCCTCTCTAGCTTTTTCACCATGATAAATTCCCATACCAGCCAAGCTTAAAGATGTAAGTTCTAAACCTCTTTTTACAAATTCATTATCTGTATCATTAGTTGCAATAGCACATACTAAAGATATAAGTTTTTCTGCCATAGCTTTCTTACCTCTCTTTGAAGTAGGGAGCACTAGTTTATCTCCACTAGAATTATGTGTTGATTTTCTAAGTTTAGTATAATTATGTGATGATTTTAATGCCCATATAGATTTTATGCCCTCTTGTCCTAATATACTTAGAATTGCAACTTTACTCATAGGACTTACTCTTGGTGCAAAAGAAGCTGCAGATGAAACTATTAATATGCTCAATGTATCAGAAATTTGATCTCCCATAGCTCCTATTTTTGTAGTTCCAATATTTAATTCTGGAAAATTTTTATCAAAAAATCTTGCAACTTTACCATCCATATCTGATAATGCCATAAGTGCAATAATAGGCGTAATAGGTTTTTCTCCTGCTAAAAGCATTTTATCTACTAACAAAGCTAATGCAGGTCTACTCAGTGTCATTATATTAGCCGGAGTAATTAATCTGTCTTTTTTTTCTTGAATATTGTCAGTATGCCTTAAATTTTCCATATACCTGTAACTGAGTAGACATTATATAACGACTTATAATATTTATCAAAATCTCTGACACTTACACATGCGCTATAAAGCTTATATAATAGGTTTATTCTATATTCAAAAAATTATCTATATGATTATTACTTATCTTAATAATAGATATTAACACTACTGTTATACCTCCAAAAACAATTAAAGCTATACCTGTATTGAAATGACCAGCAAGTTCTCCAAAAAGGAAAGCCCCTATAGGTGTTGTTCCTCCCATTAATAAAATATAAATTCCCATTATCCTTCCTCTATATTTATCTGGAGTAATTATTTGTAATCTAGTATTAGTTGTAACTGAAGTTATAATGCCAGCAAAACCTGCAATAACTAAAAGAAACATACTTAATATATAAGAATGAGAAAATCCTAATAATAAAATTGAAAGACCTAAAGCTATTCCTCCAATTACTATACGTCTCTCACTCGCATTATTATTCTTTGCTTGAATAATTGCACCAATAAGAGAACCTGCTCCTAATGCAGCCATAAGATCTCCAAATTCTACAACTTTTTGATGTAGAGAAAAACGTGCTATTAGTGGTACAGCAACCTGCCAATTAAAACCCAAAAGACCTATTATTCCAAAAAGAAAAATTATTCTTCTAATTGATATCTCTTGAAATGCATATACTAAACCTTCTTTAAGTTCAATAATAGCAGATTGTTTCATTATATTTGTTTTTGCAATAGTATATGCAGGTCTAATCTTTATAAGAAGAATGATTATTGGTATAAAACTTAAAGCATTAAATAACAATGCACCAGAAATACCCCACAAAGCTATAGCTATTCCTCCAACTGCACCTCCTATCATTCTTGAAGTATTGAATTGAACACTATTTAAAGCAACAGCATTAGGGACAAGATCTTTACTTACTAATTCAGGTATAAAAGATTGCTGTACAGGTCCATTTAAAGCATTTGTTGTTCCTAAAAATAAAGCTAATAAACCTATTTCCCAAATAGTCACACTGTGAGTAAAAACAAGTACACTTAAAATAATAGCTTGTATTGCTAATATTATTTGAGTAAATATAAGCAACTGTCTACGAGGTAATCTATCTGCTATAACTCCTCCATACAAAGAGAAAAGAAGCATAGGTAAAAATTGCAACATGGTTATTACACCTAAATCTATAGCTGAATGTGTTAAATTAAGTATTAACCATGATTGTGCTATTGCTTGAGCCCATGTTCCGATTCCTGATAAAAGTTGAGTTGACCAATACCAACGATAATTCGAAATTTTAAAAGCTGCACCCATATCCTTCCAAAATTTTTTATTATTTTTTTGTACAGAAATATCATTTATATTTTTTTCTTCCAAATCTTGATCTTTTCCTTCATTAAACATCTTAAACAATAATATTCATATAAACTTTTATTGACTTCATAATTGTATAATATGATATTTTATATATCAATAAAAATGAATTGCATTTATAGTTAATATTGAGCATAATAGAGCATATGTATAGAAAAGGAGTTGCTGCAATTATATTAAATGATAAAAATCAAATATTATTGGTTAATCTTACGACATTTGACTCTAAATTTTTTTCTATACCAGGAGGAGGATCAGAAAAAGGAGAAAGTGATATAGATACTATAAAAAGGGAACTTTTAGAAGAATTAGGAATTGAATCTTCAATGATTGAAGTTATAAAAAAATCATCTACCTTATATAAATTTAATTTCAAATCAATAACCATTAAAGATGGGAAAAAATATAAAGGACAAAAAAAAGTTTGTTTTTTAGTAAAATTTAATGGAACCGATAAAGATATAAAGATATCAAAAGATGAAATAAGAAAATATTTATGGTCTGATTATAAAGATTTGGATAAATATTTGTTATTTGAAGAACAATTAGAAAGTATACAATTTTTTATTAAAGATTTGTGCCCATATATTATAAAAATATGAAAAGTATTCTATTTGCAACAACCAACATAAGAAAACTTAGAGAAGCTGAAGCTGGATGTAGAGAATGGGGGATTGAAGTAAATCAAATAGAGTTAAATATTAATGAGATACAGTCTAAAGATACAAGGTATATATCTTTAAATAAAGCTGAAGAAGCTTTTAGGTTAGTCCAAAAACCCTTAGTCATAACTGATACATCATGGACAATACCTTCATTAAATGGTTTTCCTGGTGGATATATGAAGGATATTGCTTCGTGGTTTGAAGCTGAAGATTTTATTAATTTACTGAAATCCAAAAAAGATAAAAGAATTAGTTTTACTGAATGTATAGTATATAAAGATAAAATTAATACTAAGGTATTTAGTAATGAATATTGGGGTATTGTAACTGATACTCCAAGAGGAAAGGGGACTTCAAGTATAGAGAAAGTTGCAGAATTTAAAGGATTCACAATAGCAGAAAAACATGACAATGAAGAATTTTCTCATGATCCAAAAGAATATATTTGGTATAAATTTGCTAAATGGTATTCAAAGTATACTACGAGATAAAGCTAGTTTTACTATATTCAAAATCATAGCCTCATACTCTAAATTTATATTTAACATACAAGCTTTTGGAAATGATCCATATCCATTAATTAAACTTGGAATAAGATTGGCTTCTAAAAAATGAGGTGTACCATTTTTATCTAATCTAATATCTATCCTACCATAATCACGAGCTCCCAGAGCATGAAAAGCTTTGATTGAAAGATCTGTAATTTTAGATTTAATACTCTGATCTGTAACAACTAAAACTCTTTCTATATTTGATTCTTTTACTTTTTTACTTAGAAGTAATCTTCCATATTTATCTGGATGAGAAACTAATTCAATTGGCATTATATGATAACCTTCTTTTATCCTATCCTTTAGAATAGCTACACTAAACTCACGACCAGGTAAATATTCTTCTATCAGTGAATCTGTATGTAACCTTTTTGATATTAATCTTACTTTCAGGCAAAGCTCTTCAAAATTATGAACTACAGAATCACTATCAATTCCCAATCCTCCGCCTCGATTTATTGGCTTAATAAATAAAGGAAATATTAAAGATTTATCTTCTCTTATTTGAGAACAATTTTGTTTAACAACATAAAATGGTGAGGTTTTAAGTCCTGCTTTAATTATTCTTTTCTTTGCTAAAGATTTATTAAATTCAAGCTCATGTGCAAATTGAGTTGACCCTGTATGTGCTATTTTATGATCTTTTAAATATTGTGTTATCCAAATCTTTGAAGGATCTTCTAAACGTAGTATTTCATCTATTGATATAAATTTCATACCTAGAAAAACTAAATCTGGTTTATTCTTAACTAATTTTTTAAGATCTGACAAATTATTAACAGTAGTAATACTGACATTGGTGTAATGATTTTTTAATACATTAAATATTGCATTGGAAGATTCTAAACTCATTGAACTAAGCCAATTTTTACTAGAACGTACAATCTCAATATGTTTATTTATTTTTGTCATATATTAAATATTTAAACTTTAAAATAAGCCTAAATACTGTCAATATCTAGAGAATGTATTTATTCAAAAACTAAATTACTGAAATATTCTGATTAATAAAAATCTAGACTTTTACGAGTTATAAAACTATATTACGAATTACAGTATACCACAGATGACCTAATTCCATCTTATATTATATCTGTGTATCGAGTATTTCATTCTTTCTTCGCTCCCTTTTATCATATTTACTATATTTACCCACTAATATATTTAGATATGGTATCTGCATTATTAAAAGAACAATAGACAAAGAAATTAATACCGTTAACATCCATCCTAGTATAATTATTATTCCTCCTATATATGGAATATTATTATATTTATAAATAGGGAACATTATATTACTTGATACCATATTAAGTATAATTGGATGTATCAAATATATTCCAAATGCTGCTTCTGATACTATCAGAAAAAATTTAACTAAACTTTTATTTATCTTTTTTAATAAATGGATTTTATTTTTACTAATACTTAAAGATATTTTATATAATATAAATATTAGAGATAAACTGTAACTAATAACTAAAGGTTGATCAAAAGAAGATGCTATTGCTATAGGAAGATGAAATACTAATATCTCTATATAATAACTTAATAATAATACTAGAGTTGATAGTATGAAAAATAAAATAAATTTAAAATAATTTTTCTTAAATTCTTTTTCAATATCATTTACATATAGTGCAAAAAATCCTCCAAGGAATATATATACAAGATAAAATAATATAAACCTATATTGAATATGAGTAAGTCTTAAAACAAATTTATAATTAGTATTATTTACCTTTAAAAAGAAATAAGTATAACTCATTAATAAAAATTGAAATATACCTAAGGATAATAGAGTTATAAAAACTTTATCTTTTAATTTATTTAATATTTTTATAAAAAAAGGTAATAGTATGTATAATTGTATTGCAAGAAGAATGTAATATAACTGATACTCTGCAGAACCTGTTATGATAGCATATACATAATTATATAAACTAGGATTCTTTATGTATAAAGCAACATATATAATACTCCATATAATATAAGGAATTATTATACCTAAAGTCCTTTTCTTCCAAAAATTTATTAAATTAAGATTGGGTTTATTGTAAACATAAACTAACACAAATGCTGTTATAAAAATAAATGTTTGACGATTATATCTTAATAACAGTAATATCATAAACTGAATTATAGACCAAAAATTATTAGTATCTACAAAGGTTATAGTACCTACTGTATGCATAGCAACAACACTAATAACTGTAATACCTCTTATGATATCTGCTTCATATCTATGATTTACATTTCTTTTTTTAATTATGCTCAAAAATTTATTCCTTTATTTTTTTAAGAATATTATTTTATTTTCTTCTAAATATTTTAGAATTTTATCAATACTTTCTTTTATAGACAACTGAGAAGTATCTATGACAATTTCGGCTCTCTGAGGTACTTGATATGGATCATCTATACCTGTCATTTTCATTCCTTTATTATTTTGTGCAGAATTATATAAACCCTTTACATCTCTATTAATACAAATATCTAGTGGAGTAGATAGATAAATTTCTATGTATCTACCATGCTTAGATATAAGCTCTCTATTTTTTAATCTAGATGAGTTATATGGAGCTATTGCAGAACAAATAGCTATTCCTCCATGTTTTGTGATTTCATTTGCTACAAAACCAATTCTCTCTATATTTATATTTCTATCATCCTTAGAAAATCCTAAACCTTGTGACAGATTATTTCTAACAACATCCCCATCTAACAAAGATATAGATCTTTCTTGAATTTCTTGTAATTTTATATATAAATGTTTTGCTAATGTTGATTTTCCAGAAGAAGGAAGTCCTGTGAAAAATATAGTTAGACCATCTCTATTATTCCTAAAATAACCTTTTTTAATCTCTTCAATTACTTCTGTGAAAGAAAACCAACTAGGAATCTCTTTTCCTTCTGATATCATTTTTCTAAATTCAGTACCAGATATATTTTTTATCTTTTGATTTTTATTTATTTTATCTATTTCAAAATATTTATCTTCATCCTCTACATATACCATCTCTTGAAATGGTATCATTTCTATTCCAATGTCTTTTTCATACATCTTAACTAACTCCTGAGCATCATATGCTCCATAAAAATCGTTTCCCTGACTATCCTTAGGCTCTGCATGATGTCTTCCTACTATAAAGTGAGTACATCCGTAGTTTTTTCTTATAATGGCATGCATAAGAGCTTCTTTTGGGCCTCCCATTCTCATAGCTAAAGGAAGTAAAGATATCTGAGAAAAATCATTAGCATATTTATTCTTTATATGAATATATGATTTTACCCTTGTTATATAATCTATATCACCATCATTTGTAACTCCTACAGAAGGATGGATAAGAACCTTAATTCCATAATTATCATAAACACTCTTTATCATATAAAAATGAGCTTTATGTATAGGATTTCTCGTTTGAAAAGCACATACCTTATCCCAATTATTGTCTTTAAACCATTTTTTTAACTCTTCTGGGGTATGTCTATATTCTGAAAAATCAAATCTATCTATATCATTAATTTTCTCCACATTTCCTCCCAAAGCGAATTTATGAGTTTTATTCATTATATAATTAACTCCATAATGCTCTCTATTAGAAGTACCATACACACTCTCTACTTCTTTATCCTTTTGTAGTTTAAAAATAGAAGAGATATTAATAATAGCTATTGGTTTTCCATACTCATCTGACAGCTGTATTCTATCCCCAATACTAAACTCATCTATATTATCTACATCAAGTATTATAGGAATAGGCCATAAAACACCACTAGGTAATCTCATGTTCTCTATAACAGATATATATTCTTCTTCTTCCATAAAACCCTTTAATGGAAAGAATCCTCCATTCATTATTAATTCTAAATCACATAATTGTCTTTCTGTTAGTTTAATCTTCTTCATAGTTTTATCTAAATAATTAATGAATTGTTATACATAAAAAATAGAGAAAATGTTTCAATTGCATGAAACATTTTCTTAATTTATATTGTATTTATATATCAAGTAACACATTTATTTTTTCATATGAAAATTTATGGAATCTTCGTATTATAATAAAAACTTATATAGTAAACTTGAGTTTTGGGCAATAAAAAATCCTAATAAAACTTTTATATATGACACTCAAAGTAGCATACACTTAAGCTACTTTGAGACAAAAAATATTGTAGACAATATTATTTTCTATCTCTCAGATAAAAAACATACTATTATGTTTATTGATGAAAATAACACACTTTCTTCAATACTTTGGATAGCAGCTCTTTCTGGAGGTCATAGAATAATACCTCTACATTCTCAGGTATCTGAAGCTGATCTAGAAAAATTAATTGAATATTTTAATCCTGATTTATTTATAACAAATAGAACTTCAGATATTATAGATAAAGTTAAGACAATAATAAAAGAAGAAGACCTTTTATATAATTTAAAAAAATCAAAATCTATAGGTGAGATTAGAGATGAAGGTATCGTTTATCTTACTACATCAGGAAGTACAGGAACCCCTAAAAAAATTGCTCTCAAAGAAAGTCAGCTTTATAATACAGCTTTGAATGTAGTAAAAGTCCACGAATCAAAAGAAAATGATGTGTGTCTAAACTTTTTATCCTTCTCCCATATAAATGCACCTGTAATAGCTCTATTCTCAACTTTAATATCAGGAGGTACTATTATAAATTCTAAATTTAGTAAAACTAATTTTTGGAAAATTACAACAGAACTTAAAGTAACATGGGTAAACGCTGTGCCTACTATTATTAATATACTTTTAGAAACAAATCATAATAAAAAAAGTAATATAGGATTTATAAGAACAGGTAGTGCACCTATATCTAAAAATATAATCACAAAATTTGAAAAAAAATTTGATATTCCTATAATTGAAACTTACGGTGCAACTGAATCTTGTAGTCAAATAACTGCAAATAATAAGAATTTAAGAAAAATTGGATCTGTAGGGAAACCTCAGGGACTAGAACTTATTATCTGTAATAAAGATAAAGATATTCTAGAAGAATTGGATTCTAATACTGTAGGGGAAGTATGTATAAAAGGATTTAGCGTTATAAAAAAATATGAAGATAAAGGTTTCGAGAATAATTTCATAAATGGTTTTTTTAAAACAGGAGATTTAGGATATAAAGATAAAGATGGTTTTATTTTTCTTACGGGAAGAAAAAAAGATATTATTATATCTAAAGGTGAAAATATTTATCCAAAAGAAATAGAGGATACTTTAATAAAATATGAAGGCATAAATGAGGTTGCTGTTATAGGAGAGAAAGATGATATTCTAGGAGAGAGAGTTGTAGCATTTATAGTATTAGAAGATAAATATGATTTCAAAGAAGAACATTTTAACAATTGGATAGAAGCCAGGTTATCTAAATATAAAATACCTCATAAATTATTATTTGTAGAAGATTTTCCAAGATTAAGAAGTTATAAAATAGATAAAATGAAATTAAGAGAATACATTGATGATAAAAAAACAATCTAAAAAATTACGAAGATATGAAGCTGATATTCTAAGAGGAGTTACCATATTCTCTGTAATGGGAATGCATACAGTTGCAACCATAACATATATAGATACAAATAATACATATCTATATATTCAATATCTTATAATATTACTATTTAGATATAATAGACAAGTCTTTATTTTCATAACAGCATTTATACTAGTATATATATATAACAGACCTGATTTTAATGTAAGAGAATTTTTTAAAAAAAGAATTTTCTCAATTATAATACCCTATATAATCTGGAGTATTATATATGTCTTTATATTTAATAGACATGCAACTTTATGGAAATATATATATGATATACTTACAGGCTCTGCTTATTATCAATTGTACTATATCCTTCTTGCAATTCAATTATATCTACTCTTACCATTTTTTATAAAAATACTAAATAAACTTAAAGATAAAACAGTAATAACCCTTACAATTGTTAGCATAATTCAAATTTTAATTATAAGCTACACTTACTTTTATTTAAAAAATATACCAGATAAATCAACCTTAGATAATATAATATTAGCAATTCAAGATAAATTCATACTCTTCTATATAGGATATATATTTATGGGAGGATTTATAGCTTTGCATATAAATAAATTTGAGAGAGAAGTAAAAAAATATATAAAACAAATATATGTATTTTTTGCACTATCATTTATAGCAACAATTCTCTCATATATAATAGAGACAAAAATATTCAACCAATCTATCTATTATGCATCTTCCTTTATGCAACCTATGATAATTATATATAGTATATCTATAATACTATTATTTTTTTCTATCACACTTAATTTTATAAATAAAACAAAAGATATTAATAATAATAAAATAATAAAATTCATTTTTTTAGTCTCTGAAAGTTCTTTTGGTCTATATCTTATACATCCAATAATTTTAGATATAATATCTTATCTTTTATATTTTCTAAGATTATATATACCAGGAGTAATACTTGTAATATTAGGATGGTTTATAACATTTTTAATTTCTCTTTTAATAGTAGTTATAGCCCTAAATATTCCTTATATTAATTTTCTAGTAGGGAAGTTCAAGAGAAAAATAGATTTATTTAATGCTTAAAAAAATAATTATGAATGAAAAAAAAAGATTTAACATAAAAGATATAAGTTCAAAAGAAATATCTTCTCATATAATTTTTGAAGATAAAAATAAAATACCAAATATGATTTGTGGTATAGCACCTTGTAGAACTGGAACTACAGCTCAATTAAAAGTTTTTGCAGGAGGAGAAATAGACGCTTACTATCAACCTATAAAAAGTATATTAAGACGTATTGCATTTGATTCTGATTATGAAGATTTTATAATACCTAGCAAAGATATAATTTTTATAAAAGAAACAATAGGTCCATATTCTTATGCAGAATCTAAATTTAATCCTATTGAAGTATTAGAAAATATTAACTATCCTAAATCAAAACTGAAATTAATATTTGAAATGAGAGATCCTATAGATGCGTATCTTTCGTGGATTAATCAATTTTTATCACATGAAGAATATAGAGAACAGATGCTTGATTTATTTATATTATCATATAAAACAGTTAACGATATGATAGATATAGCAAAGAAAAATAGCTATATATCTATACCTTATATTTATGAGTCTATAAAAGATAATATCCCTGAGGATGTTATATCAAAATTATTTAAACTACTTGATATTGAATTTAGAGAAAGTGCTATTAGAGGATGGGATAACAAAGATATTGAATCTAAAATTCATTTTGCAAAAGAACCTGAGGTTTATGAACCGTTGAATTTACATGATGAAATGAAAAAATCTGAAGGATTGAAATATAATGCAAAACCAATCGAATATATCAAATCAATTCTAAGAAAAGATGAGATAGAAAAAATACAAAAAAGTGAAATATATTCTATATATCAAAAACTCATAGAAGAACAAGAAAAGGTTTTTGATATAAAAATTAATAAAGATTTTAGAATAAAGTATTTATTATAATTAAAAACTTTTAACTACTAAATTTTGATAAGAAGTTTTTATATGTAGGTATAGAAAAATTATATCTTCATATATATGTGATATACATAAAAATTTGACCGACATATATGTATGATGTATAATTCATATATTATGATTAGAACACAGATTTATATACCTGAAAATTTACATAAAAAACTTATATATTTAGCCGAGAAAAAAAATAAATCTATGGCTGAGTGTATACGTATTTTTATTAAAGAAGGAATCAAAAAAGATGAGACTTTAGATATTAGTGGAAAAGATGTATTAAAAAAGATATCTCTTTTAAACTTTGTTGGAGGGAATAAAGATATGTCTTCTAAAATAGATGAAATTATATATGGTAATGGAAAAAAATAGTAAAAGAGTAATTTTTATTGATTCAGACATATTTATAGCATTATCCAAAAGTGATGACAGTAACCATGATAAAGCTTTAAAAATTCTGAATAAATTCTTTGATGAAATTATTTTTACTACATCTAATTATGTAATATCTGAGGTGATTACAGTTTTAAGTATGCAATTGGGTCATTCTCAAGCCTTAGATTTTATCAATACAATTAAATCTGAAGAAAACATATTCTCAATAAATTGGGTAGATGATAAAGTTGAAAACTTGGCGATAGAAATTTTTAAAAAACAAACATCAAAAAATACAAGCTTCACTGATTGCACTAATATGGCCTTTATAGAAATGTTAAAATTGGATGGAATATTTAGCTTTGATAGTGTCTATAAGAAAAATAAATGTGTCATTTTAGAATAAAGTATTTATTATAATTAAAAAATCTTTAATTACTAAATTTTGATAAGAAGTTTTTATATGCAGGTATAGAAAAATAATCATCTGAGATAGAATCTAAATATTTTTTAGATATATCTTTAAATTTTTTAATACCTATTATCTTAGAAAAAACATCTTCTATTTGGGTATATATATTCAAACTTAAATTAATAAATTCTTCCTCTGATATATTATTTTTATATATATCTTCATAATTTATATTATAACTACCATTAGCATATAAATTCTTTAGATTAAAAGATAATACTTCATCTATTTTATTAAGAGATCCAAATACTTCAATATAATTTTTAATTATATTATTAAGGTATAAGCTATATAAAAATATAGTCTGATATCTATAATCATATGTAAGTAAAATGATAAATTTATCTAAATTCTCTTCCTTAAATTTTTCTATTAATAATTTTTTTAGAACAGGAGCATAGTTATCTTTTAGTATAGGAGTATTGTTTTCTTTAATAAACAATATTAACTGAGTAGCTATATCAATATATTCAATATGCTTTTTTTTAATATCCTTTTCATATTTATATACCTGGTTGAATTTAGATAAAATATCTCTTACCAAAGAAAGATCTTTTATCATTAAAAAGAGATATACAAGTATTTTATCTTCTTTGCTATCGGATATATTAAAATAGATTTGGTCAAAAATCATTAACTTTTAGATATATTTATAAATTTAAAAGCTGAAATTACAAAAATTATCATTCCTATAAGCATTAATGACATATGTACTAACATATCATAATTCATAGATAAAATATTGAAATAGGTATCTATTGCTGTCCATAGAAAAGCAACTATCATAAACACTATTCCAACTATTATAAATTTAAATGTATTACTAATTTTTCCTCCTAAATTTTTTAAACCTAAAGATATTACAACAATAGAATAAATACCAAAAAGTATACCTAATGCAAGGATTATATATAAGATATTATTACTATACACAGTAGTACTTGTTGTATTGCTCATATTCATACTTTGAGCATATACATATAAAGGTGATAGTGCTAAAAATAAAATTATAGAAATAATAGAAGTTAATTTAGAAATCATATTTTTAAATATAAATAAATATCTTGATATAATATTATCAGAACAACAGAATAAAACAATATATAATACCTAAAAAATTTAGGAATAATATCTAAAATTAATCTCCAGTAAGATTAACAACATTCTTTCTTTGGAATTCCACAACTTCTTCAAAAAAAGCTTTGATGTCTATTGCATTTTTTTTAAGTATTCTACCAATAAGAATCTCCGATTTATCCATATGTACAATTCTTATAGTACCAAAAAATATTCCTTCCTCTACAACAACTTTATCTATAGTTTTTACACCTATCACATCCACAGTCTTTGTTATTCCACGTATATGGAATACAGTTTTTTCTATTGATCTTGCCTGTATAAAATATTGTATAGGAGATATTGGAGTAAGAATTCCTGGAGTCCTTATAGTCAAAGACTTTGATAAAATTTCATCTTGTGTGTTATTATTGTTATCGTTGTTATTATTATTTGTTAAAGGATTCATATACTGTATATAGTAATATTTTTGGAAGGAAAAGTCTATTAATCTTAATTTAATCTAATCTGTATAACCTCTTGTACTTATGTATGATAAAAAATCAATTGAACTGCACAAAAAATATAAAGGAAAATTAGAGATACGCTCTGTAATAGATATAAAAGATAAAGAAATATTATCTTTGTTATACACTCCAGGAGTTGGAGCTGTATCTAGAGAAATACACTCACATCCAGAAACTGCATATGATTATACTATTAAAGGAAGAACTGTAGCTGTTGTAACAGATGGATCTGCTGTATTAGGTTTGGGGAATATAGGTCCTCTTGCTGCAATGCCTGTTATGGAGGGTAAATGTGCTTTATTTAAAAGTTTTGGTAATATAGATGCTGTTCCTATATGTCTTAATGTACATACACCTGATGAGATTATAAATGTTATAAAAGCTATATCTCCTGGATTTGGAGGTATTAATTTAGAAGATATAAAAGCACCAGAATGTTTTATTATTGAAAAAGCATTGCAAGATATAGGAATACCTGTAATGCATGATGATCAACATGGAACTGCAATAGTAACACTAGCAGCTTTAATTAATGCATCTAAAGTAATAGATAAAGATATCAAAGATTTGAAAGTTATAATATCTGGAGTAGGTGCTGCAGGTGTAGCTATATACAGACTACTTACAAATAATAGAATAGGTATACAAAACATAATAATGGTAGATTCAAAAGGTATATTATCTAAAGAAAGAACAGATATTGACGGATATAAAAAAGAAATTGCGCTAAACACTAACCCTTTAAATATTAAAGGATCTATGAAAGATGCCTTAGAGGGTGCTGATGTTTTTATAGGTGTATCTGCACCAAATATATTAACTTCTGATATGATAAATAGTATGAATGAGAAAAAAATAGTATTTGCTATGGCAAATCCTGATCCTGAAATATCACTTGAAAATGCAAAAAAATTAGGAATAACAGTTTTTGCAACAGGTAGATCTGATATACCTAACCAAATAAATAATGTCCTTGCATTTCCTGGTATATTCAGAGGCCTTCTAGATAATAAAATTAATAAAATAACAGAAGATATGAAAATAAATGCTTCTTTGAAAATAGCAGATATGATAAAAACACCTGGAAGAGAGAATATAATTCCATCTGTATTTAATAAAGATGTTGTAAAAGAAGTTGCAAGTGCGTTTAGTAAATAAAATATATGAAAAATAAAATAATACTTGCTGTATCAGCACATGAAGACGATTTAGAATTTGGATGTTCTGGAACTATTGCAAAATGGGTAAAAGAAGGTGCAAAAGCTTACTATCTAATACTCACAGATGGTAGCAAAGGAAATGAGAATAGAAATCTAACGGATATAGAAATAAAACAAATAAGAGAAAAAGAACAAATTGAAGCATCTAAAATCATAGGAGTAGAAAAAGTATTCTTTGGAAATTTTACAGATGGAGAATTAAAAGATTCAGATGATGTAAGAAGAAAAATTGTTAGAGTTATAAGAGAAATAAAACCTGATATTGTTATAGGAATGAATCCTAATGTTATATTTAATGAAGAATTCGGTTTCATTAATCATCCTGATCATATAGAAGCGGGGAAAGCTACTCTTTTTTCAGTCTATCCTTTTTCAAGAAATATGCATTCTTTTCCAGAACTCTTAAAAGAAGGACTAGAACCTTATAAAGTTAAAGAACTCTTACTTATAGCATTTTCCAGAGAGGGTATTAATGAATTTATAGATATTACAGATACTGTTGATATAAAAATCAAAGCTTTAGAAAAACATATTAGCCAGTATGATGATTTTGATTCTCTGAAAAAAAATATACTAGATAGAAGCTCATTTATAGGAAAAGAAAAAGGTTATAAATATGCAGAAGCTTTCATTAAAATAAAAATAAATCAATAGAATGATACATATTTACAAATTCTATAGGTTTATGTTATAATTCTATAAATTACAATATTGATTATGGGACCAGAAACATATCCACATATACCTGATGATTTCCTTTTTGGAGCTGCTACTGCAGGAGGACAAGTCGAAGGACACCATAATAGTGATTGGGCTGAATCTGAAAAAAGAAATGCAGAAAAACTTGCTAAAGAAGCTCAATTTAGAGATTATGGAAATGGTAAACTACCAGAAGATGTATGGACAAGACTTGCACCTGAACTTACAGACCCATCAAATTATATATCAAAAGAAGCTTGTGGATGGAGAGAAGGGCATTATATAGAAGATTTAGATATAGCACAAACCTTAGGCCTTAAAGCTATAAGGTTTTCAATAGAAAGATCTTGGACTCAACCTACATCTTCAGATGAATTAAATAAAGAAAGTATATTACATTATCAAAAATTTATTGATGAATGTGAAAAAAGAGGAATAGAACCTATTCTTACATTTTTTCATTTCACAAATCCTCTATGGATATCAAACAAAGGAGGATGGGAGAATAAAGATATAAGAGATAATTTTAATAGATATACTAAATCATTACTACAATCAATAGATAGAGAATTCAAACACGTACTCACAATTAATGAACCTGAAGTATATACTTTTATGGGATGGATTGCAGGAGAATGGCCAAATGAAGAAAAAAATCTTTTAAAAGCATTTAGAGTAAGAAAAAACTTAATTGAAACTCATAAAAAAATGTACTCTACTATAAAAGAATATGATGACTCAATATTAGTATCTTCTGCGTTAAATTTACAAGATATAGAATCCTACTCTTCTAAATTATCAGATAGAATAGGTACTACTGTAGCAAATAAAGCATCAAATGGCCTGTTTATAGAAAAGATCCTAGATGAAATGGACTTTTTGGCTATAAATCATTATATGCATAATGTACAAAAAGGATTGATACCTGGAAAGTATATTGATACTGGAGAAAAGAAATCTGATATGGGCTGGAATGTAAACTCAGAAAGTTTATATAGAGTATTATTATCTTTAAAAAAACACAAAAAACCTATAATAATAACTGAAAATGGAGTGGCTGATGCACAAGATAGCATAAGACCTCAACAAATAAAAGATGCAATAAATTCTATTAATAGAGCTATAGGTGAAGGTATTGATGTAAGAGGATATCTTCATTGGTCACTACTGGATAATATAGAATGGGATAAAGGGGAAGCTATGAGATTTGGTTTGATCGAGATAGATTACAAAACACAAAAAAGAACTGTAAGAGAAAGTGCAAAGACATATTCCGATATTATCAAAAGTAAAAAATGAAAATTCCAATACCACCTATATTATTTGTATTTTTAATTATTCTTTCATTCCTTCTAAAAATATTTTTTCCTATATATACAATACCCACAATTTATCCTTTTTCTATTATATTTTTAATCACAGGTATTTTTTTTATATTAGACGCTATTTATCTTATATATAAAAATAAAACAACTATAGATCCTAGTGAGACACCAAGTACGCTAATTGAGAAAGGAGTATTTTCTATTTCACGTAATCCTATATATTTAGGAATGCTTTTTATTCTATTTAGTACAGATATCTATTTATCTAGTTTATCTTCATTTATAAATCTTTTTATCTTTTTCTATATTATTAATAATTTTGTAATAAAAATAGAAGAAAAGAATATTGAAAAGAAATTTAAAAAAATATATATAGATTATAAAAATAATGTAAAAAAGTGGATATAAATATCCTATACTATTAATTAATAATATATAGTATAATTCAATTAAAATTAATTTTAGTAGCACAAAATATGAATAAAAAAACTAAATATATAGGTATAGTACTAGTAATTATTATTGCTATTATAATAGTAGTTATAATTCAAAAAAATACTCCTATAAAACCTCTGACAACATATTCATATGGAAACTATAATCAATATTCTAACGATGGAGATAATAATAATGTAACAACGGAAATAAAAAATAACTTTATATCTAAGGTCATTAAAGCTAAAAATATAAATGGATTTGGTTTTGATACAACTCCTATAATATCGGGAGATTCTATATATATAGGAACAATGAATAAATCCAATATGACTGGAAATTTGCTTTCAATAAACAGGTTTAACTTTAATGTAAATTGGAATGATCATTTTTCAAATTGGGTTATGACAAACCCTGTAGTAGTTGCTTCAAAGAGTATGGTCTATATAGGTACAGGGAACAGTATAAAATATAAATTGGATTCAAAAGGAAATGTTTTATACAGAGGTTTAGGTTCAAATTATATATATGGAATAAGTATTGATACTGGAAAAATTATGTGGAAATATAAAACTCCTGGAGAAGATATGCCAACACCTGTATATTCTAATAATGTACTCTATTTTGCTAATGGAAATAAAGAATTTTATGCATTAAATGCTCAAACTGGAAAATTAGAATGGAAAATAAATATAGGTTCAATCGTATCTATGTCATCTCTACTTCTTGTAGGAAACAATATCTATTTTGGAGGAGCTTCTCCTTATACTTTCTTTGATGTAAATATAAATACTCATAAAATTCAGTGGTCAGATGTATTTCCTAAAATAACAGGAGGATTGGATGACACAACACCTACATATTCTAATGGATATGTATATACAAATGCTACAAGACTAATTGGTCAAACTATAAAAAATCAAGGTTATGAATATTTATATAAAATTAATGCTTCAACTGGAAAAATAATATGGACTATAAATGAAGGAAAAGGAACTATAAATTTACCTACAGATCCTATGGAAGGAAGTGTTTCTACTATAGTAAACAATATACTTTATACTTCATCTAATACATCTAGAAGAATATTTGCAGTGAATGTAGATACACAAAAAAATTTATGGTCATTTGGAATTAATAGTATGATAAATGCTCCATTTATAATAAAAAATAATTTAATATATGCTATTACTACTTCAGGAAATATATATCTATTAAATCCTTTAAATGGAGAATTTATAGCAAAAAGAAGTCTAGGAGGACCTGAAATTGCATCAGGATTAACTCTGTACAATAATCATATTTATGTAGCAACAGGTAACGGGAATTTATATAACTTAAGTAACTCAAATACTTCTAATAAAGTTACAAGTAGTACAAAATAATCCAAGGGGAATAGTTTTAACCGAAATTATTCCCCCATTTTCTCAAATCATTAATAACTCTATGTAAAGATTTTCCTTTTTCAGTAAGTTCATATTCTACATGTAAAGGAATTTCTTTATAAATTTTTTTTGTAATTATTTTATTTTTTTCAAATTCCTTTAATCTTAAAGATAAAGTTTTAGGAGATATACCTTCTAGAGAAGAGAGTAACTCCCCAAATCTTTTTTTCTCATCAAAAAGATCTCTTAATATAAGTATAGACCACTTAGCTCCTATAATTTTAATTGTTTTTTCAATTCCACAGTTTTTCATATACCATATTATATCATATCTAAAGTTTTTTTCATACTATACATTTTGTAATTACTTTACAAAATGAAGTATATAGTATAAACTAAACTTTCTTAGTTTAGTTTAAATAATAAATATGTCAAATATAAAAATAATTTTAGGAAGTACAAGAAATAATAGAGCTGGAGATAAGGTTGCTCAATGGGTTTTAGAAGAAGCAAAAAAATATAATCTTTTTGAAACAGAACTCATAGATTTAAGAGAATATACTTTACCTTTTTTTGAATTAGATATATCTCCTGCATACAAAAAACCAAATTACAATGAAATTCAAGAAAAACTATCTAAAAAAATAGAAGAAGCAGATGGTTTTATTTTTGTAATGCCAGAATATAATCATGGATATACAGGTGTTTTGAAAAACATGATAGATACTTTCTATAATGAATGGAGAATCAAACCTGCAACATTCGTATCTTACGGAGGAGTATCTGGAGGAACAAGAGCAGTAGAACAATTAAGAGAAGTTTTAATTGAATTACAAGTAGTTCCTATAAGAGCTTCAGTTCATATACCTTTTATATTTAATCAATTCTCAGAAGAAGGTTTATTAAAAGAAGAAACAAAAGAAGCTGCAAACTTAGAAGCTACACTTCAAGATATAAATTGGTGGGCAGAAGTATTAAAAGAACCAAGAAAAAATAAATTGCAATAATAATAAATTTATTTAATAATAAAATATGAATAAAATAAAAAAGTTTTTTACAATAGATACAGTATATGCTCATTGTGATGTGCCTTGTGGATTATATGACCCTAGAGCAGCTTTAATGGCAGCAGAAACTGTAAAGGTGATGGTAAAACAAATTATAGATATAGAAGAAAGTGAAGATTTCAAAAATAATCCTTCAAATATCAAATTTAGTAATTCTTTTGTAAGAAGAATTATGACAAAAGAACAACATGCAGAATTAGTTAAAAAAGAAATAGAAATTTTATGGAGTGACTATTTCAAAGAAGAAGACTTAATTGTAGTACCAAATCTTCATGAACAAATTTGGAAAGTTGTAAAGTTAGCATCATATAATAAACAAAATGTAGATTTAGAAAAAGCAGAAGAACTGTACAAAGAAGTTTTAAATGTATCTAAAATGTTTGATAAAGTAGTTGAACATAGAAAAAACAAATAAAATAATATTCAAATTATTAAAAGTAGAGGGGGATAGTATGTCCCCTTCTATAATAAAAAACAGTATTATTATAGTTAGTTATATTCCTTATTTTTTTACTCAACCCAAAATTGGTGATATAGTAATTGTAAAACATCCACATAAAAATATATCCATTATTAAAAGAATTCAAAAAATTAAAAATAACAAATACTATATACTAGGTGATAATTCATATCAAAGTACAGATAGTAGAGATTTTGGATATATAGACAAATCTTTAATTATAGCCAAAAAAATAAATCTCAAATAAGCATATAAACATGCAGTGGCACTAAGAAATTTTTGAATTATTGCAAAGATATAGTATAATACTATATATGGAATTAGAAAAAACAGATATAAATTTAGAAGAAGAAATATCAATTCTTTTAAAACAAGGTAATCTAGAAGAAGCTTATAGAAAAAGCACTCTTATTCAAAATGTTGCTATAAGAAATGGTCACTTTCTAAATATATTAGCAAGTAAGACAGGAGAGGGTGTTGGACTTATTGATCTAATAAAAGCTTTTACTCGATTTAGAATAGATGATAATGGAGACTATGAAACTATTTGTATATTAGAAATATCAGATAATTTCTTTAAAGAAAACTCTCTCTTTGAATAAAAAATATTAATATATAAAAAATATAAAATTTCAAAATAAATCTAATATACATTTTTTGGCTTATATACAATATAAATATAAATACTCCTCCTTTTCATAACAATTAGTGATAAAATATATATAGATAAAAAAGGGGGTGACGAATATGGGACTAGTAGTATATTTAATAATAGGAGTAATCCTAGGTTGGTTAGCTAGTGTTGTTGTAAAACAACAAAATCCTAACGTGGTAAAAGATATAGTTCTAGGAGTTATTGGGGCTATTGTAGGAGATATCCTAGCAAGACTTTTTGTTTCAGGAGAATCTTTTGCAAGTAAAGTTACAACTTCAGGACTTATCGGAGTAATTGTTTTATCAGTTATAGTTATTGCATTAGGGAGATCATTTAACTCTAAAGAAAAGAAATAATTATACTTTTAAAAAACAAAAACATGTAAGGAGGTAAACTCTCCTTATGTGTTTTTTTACTAATATGAAAATAATATCTTGGAATATCAATGGAATTAGAGCACTATATAAAAAAGGTATAGATCCCTTTTTAGACAAATATTCTCCAGATATATTATGTTTTCAAGAAATCAAAGCAGATGAATCACAAGTTCAAATTCCTAAAAGTTTAGAGGATATGCACTCTTACTATAACTCAGCAGAAAAAAAAGGTTATAGTGGTGTTGCACTTTACAGTAAAATTAAACCAGAATCAGTATCATACCTTATAGGTGATAATAAATTCGAAAATGAAGGCAGATTAATTTGCGCTAAATATAAAGATTTCATTCTTTATAATATATATTTTCCAAATGGTCAAAGAGATGAAGAAAGGTTAAAATATAAATTAAACTTCTATAAAATAATTATAAAAAAATTAAAGAAACATCAAGAAAATAATGACAATATAATTATACTAGGAGATTACAATACTGCACATACTCCAATAGACCTTTCAAATCCACAAAGCAATAAAAATACGTCTGGATTCCTAGACATAGAAAGAAAACTAATAGATAAAATTATAGATATAGGATATGACGATACATTGAGATTATTCCATAAAGAAGATCAACTCTATACCTGGTGGTCTCCTATAACTAGAGCTAGAGAAAGAAATGTAGGTTGGAGAATAGATTATATTTTTACATCTAAAAATATTAGGAAAAAAATAAAATCAGCTGATATTTTATCAGAAATATATGGCTCTGATCATTGCCCTATATCAATAGATATAGAATTCTAATAGTATAACTAATTTGTGCATATCATAAATATATATTACAATATATATCATGAAAGAGATTACAGCAGATCAATTAAAACAAGAAAAACATAAATATATTCTATTAGATATAAGAGAGGATTTTGAAAGAGCAAAAGATGGTGCAATTCCAAATTCTCATCATTTAAAATCTTCTGAAATAGATATTTATAATATATTAGACTTTTTTAATAAATTTGAAGAAGAGGAAATTGTGATTTATTGTAATTCAGGAGCAAGATCATCTTCTCTAATTGAAAACCTCCATAATAATAATATATATAAAAAAGATAAAATAATAAATTTAAAAGGTGGTTTCCAAATATGGAAAGCTTCTATGTATGAAATTGAAAAAATATAATTTTGCAATTTTAATATCTACTAAAGGAAAAGAAGATATTAATAAAGCTGTCTCTCAAATTAAGAATACAAATATACCTATATATATAGTATCTCCAGAAGAAATTAATATTGAAAATACTACATTAATAAAAGATAAAGGATTGGGTAAACCTAGTGCATTAAATTTAGCAATAGAAAAAATACCAGCTCAAATAATAATATTTACTGACGGAGACGTATATACAAACGAACAATCTATAAACAATATAATCAAGGCTTTTGATGAAAATACAGGAATCGTAACTACAAGTGTAATATCACTAAATAATAAAAACAGTATATTAGGATTCTGGTCGCACTTTTTAGTCTTTGCTGCAAATAATATGAGAAAAGAAAAATATTCTAAAAATGAATTCTTTGAAGCAACAGGATACTTAATGGCTGTAAGAAAAAATTTAATAGAAAAAATACCCGAAAATAGTCTTTCTGAAGACGGAGTAATTTCAAAAATGGTGCATGATAAAAAATATAATATCAAATATATTGATAATGCAGAAGTATTTGTTAAATTTCCTCAAAATTTTCATGACTGGATAATTCAAAAAAAAAGAAGTACAGGAGGTTATACCCAAAATCTAACAGAAAGAAAAAATGGATCTAGAAGTTTTTTTAAAGAGGCAAAAGCTGGTTTCTTTCTATTTTTTAGTTACCCTAAAAATATAAAGGAATTTTTCTATTTATTTTTACTATTCTTGGCAAGAATATATTTATGGATAATAATTTTTATAGATCTTAAAATAAAAAGAAAGAATTTCTCTCAAATATGGTTAAGAGTAGAAAGTACTAAATAAATAATATATAATAACCCCTATGCAAAACGAAATAAAAAGTTCAATAAAAAAAATTGATAGTGCAAAAAAAATACTTATTCTAATATCTAGTCCTGACGGAGATAGTGTAGGAACATCTATTGTACTAAAACATTTTTTAGAAAATAAAAATAAAATAGCAGATATTTATTCTAACAAACCTCTATATGATACTTTAAAAAAATTACCTTTATCAGATGAAATTATTATAACAGATGTAGTTAAAATAAATTTTCATGAATATGATTTGATAATAACAGTAGATACAGCAAACTTAGAGCAACTGTATAACTATAACAAGTATGATAAATTTAAATTTCCAGATTATATAGACTTTGTATGTATTGATCATCATGCTTCTAATACATCATTTACTAAATATAAAATATATGACAAAGAAGCTTCTTCTACAGCAGAAGTTTTATATACCCATCTTATAAAGAATGATTTTCCTTTAAATAAAGACGAAGCCACTCTTTTATATTTTGCAATAGCATCAGATACAGGTTTTTTCAGATGGCAAATAAAACCAGAAACTTTCAGAGTTGCATCAAAATTATTAGAATCAAATGTAGATTATAATAAATTAGCAAATCTATATTTTGAAAATATAGATGAGAGTTTTAAAGATATATTATCTGTATTTGTAAAAAAAACAGTATTCCATAAAAGACTGAAATATACATCCCTTTATATTGATGAAAATATTATAAATAAATTAAAAATTTCTAAAGAAAATATGAAAAATTATATTGATACTTATAGATCTAATTTTTTAATAAATATAAAAGATTATAAGTTTTCTATAATAATAAAAGATGTAGGTGATTTTAGAATTATATCTTTCAGAGGAAATCCTTTTAATAACAAATTAGACCTAACATTAATAAACAAATATTATGATTTTCAGGGTGGGGGACATAAAAATGCTTGTAGCTTTTCATCTAAAGGAAATTATAAAGATATTATCAAAAATATAGACATAGCTATAAAAGATTTAGAGAGTATCAATTAATTTTTCTAATACAAAAGATTTTATATAATCTATATTAGAATTATTAGATTTTAAGACTATTTTTACAATATAACTTTCCATAGTTGATTCCTCTATATAAATACTTCTCTCAAAAATACTAAGTTCTTTTGAATCTAAAATTTTATCTATTTTTTCCTTTATAATAGAAAATTTATTCTTCTTTAAAACTTCATATTTTATTTGTAATTTATAAAATTTAGCCTTATCTATTCTTTGAATAGCTGCTTGAATTAATATACTATTAGGGATCTTTATAGGAAAACCTTCATCTCCTATAAAATCTGTATAAAATAATCCCACATTATATATAACCCCTATCTGACCAGGTGTTACAATATCATTGGAAAAAAATTTAGGTGGATAACTAGGAAGTAAAAAAGAGTATTGCCATGTTGTAAATTTTATTCTTTCTCCTATTTCAAATTGATTAAATAATAATATAATAATACCTGCAAATAAATTAGAAAGTACACTTTGTGCTGCAATTCCTAAAATTACACCGATAAACGCACCACCTAATAAAATATTAGTAACATTGATATTTAAAAATTTTAATGTCACTAAAACTAATATAAGGTAAGATAAAGTTAGAAATATAAAATTCAATAAATTTTGCTCTCTTCTTTTTTTTACATTAAATCTTTTGAAAAAAATTTTTATTCTATTCTCAATAAAATTTATAAAAAGAGATCCTATAAATATAATGAAAATAGCAATTATGATGTTTTTCAGAGAAGTTGATATACTTAAATAAGATACAATTTTCTGTATAAATGCTATGAAAACAAATATAAATAATAGAAAAACAGAAATTTTTAAAATAACATTTTTATTCATCACCTAATATATAGCACAAAATCAGTTTAATATGAAATATTCATTACTTTCCATAACAAATCTATTGACTAGGCTAAAATTGCTATCCGATATCAGACTTAAAATTTCATCTTCTTGAAATTTATGTACATATCTTATATCTTCTTCTTTATTCCATGAAAGCAGATAATCTCCTTCTCCAAGATTATCTGTGATTTTACTCTCATCAAAATTCCAAATAGAAAATATAAAATATTTATTAGTAACTGAGCGAATATCTTTCATTATCCTTAATCTTAAATCATAACTAGGAATATGATGAAGTGTAGCTATAAGTAAAACTATATCAAATTTTGCCAAATCATTACTCCAACCATCAATTGATATATCTCTTATTAAAAACTTCTTCTCTTTATATTTTTCTTTTGCTATATTTATAAGTTTTGAAGAAGAATCTATGCCTAAATAATAATCTTTATCTACATTAAGTGAAAATCTTCCATTACCACAACCTATATCCAATACGCTATCTTTCTTTTTTATATATTTTTTAATTTCCCAAAAACTATCCCACTGGTAGTTCCTTTTCGAAGAAAATTCTTCAGCATGCAAATTATAAAATTCTTTATTTATCCTTAATAATTCCTTTTTAGACGGTTTCATAATATAATTATACTATGTTTGATATAAAAGATTTCAATAATATAAGTATAAAAGATATACTACCCAATACAAATATAAATAGATCTCAGATAATATCTAGATATAAAAAATATTGCAGAGACAATAAATTAAAAGAAGATTACTCTTTCATTGAGAAAATTCAATTAAAACCTGTAAGGACTCTTTCTGGTGTTGTCCCTATAACAGTTCTTACTAAGCCTTTTCCATGCCCAGGAAAATGCATATTTTGTCCTGATGATGTAATGATGCCCAAAAGCTACCTTACTCTTGAACCTGGTGCGCAAAGAGCTTTAATGAACAAATTTGACCCATATCTTCAAGTAAAAAATAGAATTCAAGCATTACAAAATATTGGTCATCAAACTGAGAAAATTGAATTACTTGTACTAGGAGGAACATGGAGTGTCTATCCTAGACATTATCAAGAATGGTTCATAAAAAGATGCTTGGATGCTATGAACGACTTTTCCTTTAAAGAATATACTTACCATAAAAATCAAATAAATTTTGATACGAATATATTAGAAAGTGAACCAGAACTAAAAAAATGGAAGAAAGAAGATCTTGAAAAAGCTCAAATTTTAAACTCCAAAGCGAAATATAGATGCATAGGTATAACTCTAGAAACTAGACCTGATATGATATCACAAAAAGAAGTAGAACATTTAAGATTTTTAGGAGGAACAAAAATTCAGCTAGGAATACAATCTACACACGATGATATTCTTATTGCTAATAAAAGAGGTGAGAGTTCAAAAGCACAAAGAGATGCTATAAATCTTTTAAGAAGAGCTGGGTTTAAAATACAAATTCATTGGATGCCTAATTTATATAAATCAACTCCAAAAATTGATAAAAAAGATATAGAAATTATATATAAAGATAAATCATATCTTCCAGATGAAATAAAAATATATCCATGCTCAGTTATAGAAAGTGCAGAACTTTATACTTTCTGGAAAGAAAAAAAATATTCTCCATATAGTGAAGAAGAATTAATAGATGTATTGATTCATGCAAAAAGTATTATTCCTATATATTCTAGAATTAATAGACTAATAAGAGATATTCCTTCAACATATATCTTTGATGGGAATAAAAAAACAAATATGAGACAAATAGTACAAATAGAAATGCAAAAAAAGGGAATTTTTTGTAAATGTATTCGCTGTAGAGAAATCAGAAATGAAGAAATAAAAGAAATACATTTTGATAAATATGAATATGAGACTTCAGTATCAACTGAATATTTTTTATCATTTAATACTGAAGGTAAATTATTAGGATTTTTAAGATTATCTATTCCTAAAGACAGATCTCATTTTATAAAAGAATTAGAAAACAGTTCTATTATAAGAGAATTGCATATATACGGAAAAGCTCTTAGAATAAAACAAGAATCAGATTCAGCACAACATTTAGGGTTAGGAAAAAAATTATTGAAAGAAGCTGAAATTATATCAAAAGAAAATGGTTTTGAGAAAATATCTGTAATATCAGGAATAGGTACTCGAGAATACTATAATAAAAGAGGATATGTCCTAAATAAACTATATCAGACAAAATATATTAATGGATAAAGATAAAATATATAGAGTAGGAGAGATTAATAGACTAACATCTAGAATACTTAGAGATAATTTTTCAAATATAAATATACAAGGAGAAATAAGTAATCTAAATTATAAAAATTCGGCTTGGGCATTTTTTGATTTAAAAGATAATGAAAGCGTTATAGCATGTGTAAATTTTTCAGGAATTGTATTTAAAAATAAAGATATGTTATCTGATGGTACAGAGATTATAGCAACAGGATATCTTAGTATATATGAAAAATCTGGAAGATATCAGCTAAATATATCAAATATAGAACTTATAGGTGAAGGTGATATATATGCAAAAATAGAAGAGTTAAAAGAAAAATTAAGATTAGAAGGATTATTTGATAAAGAAAATAAAAAAATCTTAGATTTTATACCAAAAAGTGTTGGTATAATAAGTTCTTTTGAAAAAGGATCTATGGCTTATAAAGATTTTACAAAAAGACTTATACAAAGATTCCCATTAATAGATATATATTTTTATAATTCAAAAGTTCAAGGAATAGAGGCTTCAAAAGAATTGATCGAAGGAATAGATTATTTTAATAAAAGAGAAGATATTGATATCATTGTTATAACAAGAGGGGGAGGTTCAATAGAAGATTTAATGCCTTTTAATGATGAAAGTTTAGCAAGAAAAATATACAAATCCCCTAAAATAACAGTATCCGCAATAGGTCATGAAGGAAACACCTCAATATCAGATCTAGTAGCAGATATATATGCATTTACACCTACTCATGCAGCTGATTTAATCTCACCTCAGAAAGAAGATTTACTAGAAAATATTAATATAACATTCCTCAAAATTCAAAATGATTTATATAGAAATTTAGAAAATAAAGAAAATATGATTAAATCAGAATATAGAAATATGCTACAAAAAATGGATTATACTGTTTTTTCTAGTAAATCTTTACTAAATAACTCTTTTATAACCATGAAAAATATTGCTATATATAATATAGATTCAAAAATACAATATTTAATAGAAAAATCCTTTAATATAAAAGAAAAAAATAATATAAAAGAAATAAAAACAAATCTAGAATATAAAATGGAATCTATTTTAAAAATATTTAATGAAAATACAAAATCATTAAAAATAGATTTGAATAACAGATTAAAATCTATAAAATCTTTAAGCCCATTAAATTTAATGGACAGAGGCTACTCTATAACTTTTAGTAATGGCAAAATTTTAAAAGAAGTACAAACTTTAAAGATAAATGATATAATAAAAACAAGAATAAAAGACGGAGAAATAGAGAGTAAAGTAATAAAAAAATATGAATAAAACAAAAGAAATAAGCTTTAATGAAGCATATAAAAAATTTCAAGAAATATCTAGACAAATAGAAGAAGATGAAGATATATCTATTGAAGATCAATTAAAAAAAATTGAAGAAGCTGGCAAATTATATAAAATATGTATAAAATATTTAAATCAAACAAAAAGTAAAATAGAATCCATTAATAAAGATATAAATGAAATAGATATATGAAGAAATATTTAATAATAGAGTTTAGTATATTATTATCCTTGGTAGTTTTACTGTTATTAATATCTATTATATTCCCGTATCTATATAATCAAAGTATTCTAAACCAATCATTTAATATTAATAATCCTAAAGTAGTTTTAAGTGCTAATCCACCTAGTGCATCAACAATAATATATGCATCTAATGGAGAAGTTATAGGAAAAATATATAATTCAGAAATGCAAGGATATAATTATGTGAAAAATAAATCTTTATATCAAAATAAATCTATTCTTTATCATTTAATAAACATACCTCCTTATGCTTCAAATCCTGATGTGCTATATCTTGCTATAAAGATGAAGAAGTATATTTTAGATGTATTAGTAAATAATAAGACCATAAATAAAAGTGAGTATACTCAAGCTATAAATAATTTTGATAAACCTTATTTCGATGTTATTCATACTCCTTTTTTCACAGAATATACAATGAATAAATTAATGCAGAATTATCAAAAATATGTTTTAGCAGGAAATCTAAAGGTTTATACTACAGTATCTCCTCAATGGAACACAATAGCTCAAAATATTGTCACTCAAGATATACAAAAATATATAATACCTGTCGGAGGATCTGAGGCCTCATTTGTTGCAGATAATCCAAAAAATGGAGCTATAATAGCTATGATTGGAGGAGGTAATTATTCTCAAGAACAATTAAATATGGCAGATGTTCCTCTACAACAAGGATCCGCAATGAAACCTCTTATATATGTTAAAGCTTTTGAAATGGGATATTCACCTCTTACTCAAATTGATGATGCACCTGTATCCTATGGAAATTATTCACCTACAGATTATGAAGGATATACAGTAGGGTGGGTAAGTATTGATAGAGCTATTAATCAATCTATAAACATACCAGCTATTAAAATGTTTGCTAGAATTGGATATCAAAATGGACTCAATATGGTCCAAAAATTAGGATTAAACCTTAATACCAATATTTTTTATGGACTACCTTTGATACTAGGAGATGCAGGAGTTCCTATTGTTAGAATGGTAGGAGCATATAATGCACTAAATAATGGAGGATATTATGCACAATCAACTCCATTCCAAAAGATAGTATTTAATAACAATACAATCTTTAATTTAGATAAAATAACACCTAAAAGAGTAATTACTGCAAATGCTGCAGCTGAAATGGATCAGGTACTAGGAGATACAGCTTTAAAACAACCTTTATATGGAACTCATACATATTACTATTCTATACAAGGAAGACCATATGGTTCAAAAGATGGTACAAGTAATGGACCTCGTGATATTACTGATTATGAATTTATACCTCAGATTACTGTAGGAGTATGGGCAGGAAATATTAATAATGCACTAATGAGTCAAAATGCGGTTGGTGCATTCCAAACGGGACCAATAGCTCATTCTTTTATAATGGATTATATACAACAAAATAACCTTCCTGTGATAAATTATCCAACACCTACCTTACCAACACTTAATTCAACTACATCAACTATTCCTTAGTTTATATACTTTTGCGCCATACTTACTTGACACAAGAGTATAATACTTACGTACAAAAGTACTAAAAGCGTTATAAGTATATCCATCTTCATAAAATAAAATTATTTTAGGTTTATTTTTATACAGACTTTTAGTTAATTTAATTCTTTGTCTTTTCCCAGGTCCATACATAAAATCTGTTGTATAATAATTTATTGTATAAGAATCAGACATATAATAAACCCAAGGGAAATTTGCTGCTATAAAAATCTCTTTATTCCTAGCACCTAAAGAATCTAGCAAAGAGGCCATTCTATAATTTATATTTGCACTAGACTCACTCTTTTGATATATAACATTTGTATTATATATAAAAGTTGAATAATAATTTTTCTTATTAATATAACCCAAAGAATATAGATAGAAATTAGTATAATAAGGAATAGTATTTTGAAAATTCTGAGATATCTGCCAAGAAAGCTCATTTCTAAAGAAATATGCCATATAAAGAGAAGTTAATAAAACAAAACTAAAGATTAATATTATTCCTTGAATAAATTTATTAGAAAATAAATAATATATTATATATCCAAAAAGAAATGTTATAGGAAGTGCTAATTGTATTAAATAATGTATATAAGGTCTTCCTGTTATTATAACTATCAAAGCATCTGAAAATACCCACAATAATAAAAATAACCAAACTGTATCTATAATTTTCTTTTTATATAATATATATATAAGAATAACCAATATTATAAAAACTAATAAATCTAATTCTACAAAACTAAACATATAAAACTTATTATACGTATTTACATAAGTAAAATTATTAAGAAAAATCTGATATACAGTATTATAAAAATTGCCATATAAAAATTCTGCAAATAAAAATATAAATATAGGAGTTATAATACCAAGTGTATAGGTAAATATTTTTTTTATTGAGAGTAGAAAACTGTCTGTTAAGAAAATATATAAAACTAAAAAAAATCCATCAAATAAAACAGATACTTTAAAAAGTACCCCCAAGCCTAATATTAAACCTGCTATATATATATATTTATAATTTTTTTCTCTTTTTATATATACATATACAGATAAAGCTGCAAAAAATATAAAGAAAGTTTCAGCATTAGCACCATTAGTATGAAGCAGATCACTTCCTATTAGAATTGTAAAAATAAATGTATTTATTAAAGCAATTTTGTTATTAAATTTTATTAAAGATATTTTATATATTAAATATTCTGTTAATAAAGCAAATATTAAAGAGACAAACTGGGTTGAATACATCAAAGAAAATGGCAATCTCTCTAAGAAAGCATATACATAATATATAAATAAAGGTTTATTATCTATAATATTTTTATATAAAATACCTCCTCTATTCAATGATTGTCCTATTGCAGAATATATACCTGTATCCGTATACCAATAAGGTTGAAAAAAATCAGGGATTCTTAATATTATAGTAAGTAAGAAAGGTATAAATTTAATATATTTTTTCATTAAAAATGATTATATCTTAAAATACAGGGTAAAGTAAAAAAATTAGAAAAAGAAAGGAGCTCCTATAAAGCTCCTCTCAAAATTATAACTATACAAAGAATTCTTAAAATCATTTTTCATATTCATACTAAAAAAAGCACTAAAATATTTTAAGAGACTTATCTAGAATTACTCTTATTTATATAATAACGATTAAAGATTAATCTCTCATTAAAATTTATGATATACTATTTATCATATGGATAATATATATAATAATATAATACTAGGATCAGGACCTGCAGGTATAACTGCTGCTATTTATGCAGCTAGGTCTAATCTTAAACCTTTATTACTTTCAGGTGATACGGAAGGTGGACAACTTATTGTTACCTCTTTAGTAGAAAATTTTCCTGGATTTGAAAATGGAATATTAGGTCCAGATCTAATGAATAACATGATAAAACAGGCAGAGAATGTTGGAGTAGAGTATATACGTGAAAGTGCAATAATGGTAGATCTAAAAAATTATCCATTAAAAATTGTAACTGGAAAGAATACATATCTGACAAAAAGCCTTATTATTTCAACAGGAGCTACTGCAAAATGGTTAGATATACCAGGAGAAAAAGAATTAATGGGAAAAGGAGTTTCAGGTTGTGCAACATGTGATGGAATGTTTTTTAAAGAAAAAGAAATTGTAGTAGTAGGAGGAGGGGATAGTGCGATGGAAGAAGCTTTATTTTTAACTAAATTTGCATCAAAAGTAACAATTATTCATAGGAAAGATTCTTTTAGAGCATCCTCTATAATGCAGAAAAAAGTTTTTGATAATCCTAAAATAGAAATTCTATTCGAAAGTGAAGTTGTTAAAATTAATGGAGATATGAAAGTTGTAAGTATAAATATAAAGAATAAAGATAGAGAATATGAATTTCCTACAGAAGGAGTATTTATAGCTATTGGACATAATCCAAATACTTCTATTTTTAAAGATCAAATAGATTTGGATGGTAATGGATATATAAAAGTTAAAGATAATACCAAAACTAATATAGAAGGAGTGTTCGCCGCAGGAGATGTTGCAGATCCTATATACAGACAAGCTATATCATCTGCAGGAATAGGATGTATTGCTGCAATAGATGCTCTACATTATTTGGAAAATTCTAAGAAATTATAAGACATATAGGATACCTTTTGATTTAGATATTATCTTTATGTATACATACTCATTCTTTTTTAATACATTTCTACTTAAAACTTTTCCCTGAGCAGATAATATTTTAAAATGATCTATAAAGAAAATATTCTTATATTTATTAAGATCAATTATAGATATTGTTTTTTTTGATATACTATATATCTTACCTACATAATGATCATTATTCATTGATATTTGTTGATTTACAGCAAAATGTCTTTTATATCCAAAAAATCTCAGATGAGAGCCAACAATTGCACCAAAAGCAAATATGCCAAATAATACTATTGCTATTACTATTCCTAGTATAAATGAAATTAAAATAAGTTTACTTTTCTCCATAAAATTTTAAATCTTGATATTGAATATATAATTACTGCCATTGATAATGCTGCTAAAAACACATAATAAATATTAGGAATCTGATAAACAGAAAGAATTATTACAAAAATAAAAGTTGAGATTAATAACCCATATAAAAATGGATATAGATATAAATATCTCTTCTCAATCTTCTTAATTTTATTAAAGACATTTTCATTAAAATTTTCACTCAACATTTCATTTTTATACATAATCTTTAATTTCATTTTTTAATAAATCTTTAGCCCTTCTAATCCTTGTTTTTACAGTATTTATAGAAATATCTAATAAATTTGATATCTCTCCATATTTAAAACCTTCTATATAATACATAGTTAATACTTTCTTATATTTATCTCCTATATTCTTTAATCCTAAATATAATAATTCCTTATTTTCTACTTGACTCTCAGTATTGTTAACCTCTTCAAGCTCATATGTTAAATTATACATTTTTCTTTCTTTTAATTTATTAATTGTAGTTCTTCTTGCTATAGTAAATATCCATGTAGAAAAAGAACCTTTGTCTGGATTAAAAGAAGACAATTTAAAATATACTTTAACAAAGATATCTTGAGTTATGTCTTCTGAATCCTCTGCAGAAGAAAGATATTTTAAAACAAAATTATATATTCTGTTCTTATATCTATTCATTAGTATTTCAAAGAACTGAATATCCCCAGTTGAATTTAATTTTTTTATAATATCTTCATCACTACAATCCATACTCTTATTATAATATACAATTAATAAATATAATATGTTTCATAATGAAACATTTTTATTACTTATAATGTATACTAATATAGTTAAATTTAAATTAAAAAATATTATGGATAAAAATAATCAAACAGAACATAGTGAAAAATTTCATCATTCTTTGCATAAAAGAAAATTGATTTTTCTTTTAGTAGGTATAGTATTATTAATCTTATTTTTCTTTTTTGGAATATTTGTAGGAAGAGTAAGCGGATATTTAAGAAATTCTAATTTTGAAAGAAACAACATGAGGGGATACTCTTCTAGAAACGGAATGATGAGAAATTTCAGAAATTCTTCAAATTCTAGAAGAATACAACTTTCAGATGTACAAGGAGTTATACAGAATATAAGTAATAATAGTATAACAATAAATAATAGAAGTTATTCTATATCAACAAAAACTTCTATATATAATAATGGTATAAGAGAAAGCTTAAGTAATCTTTCAAATTTAAATACAGTAAATTTAATCTATTCTGTGGATAAATCTGGATTAGATATAGCACGTTTTGTAATTGTTATAAAATAACCTTAAGATTTGGATGATGTTATAAAAAAGGATGCCTCATAAATTGGGGCATCTTTATTAAATTGTCTTAAAAATTCTGTTCCTAATATTTTGCCATCTGGAGTAATTGATTTTAGTAAAGACTCATAATAGAATATTCCATTTACAGGTGCTTTTGAAAAATTCAACCCATATTTTAAATTTTGTAATCTTTGACCTCTTCTATTTTGAGTATTCAAATCTTCAAAAATATTTAAAATTGTGAGTATATTATTAACACCTATTTGGCTATTCTCTTCTACAAAACCTTCTAAAGATACTTTGTATAAACCTATGTCCTCTTCTAATATAATTTTAGAACCATCTATTCTATATAAAGCAGATTCGTCTCTTTTAATACTATCTTCTCTAAATAAAGAAAAATTATAAGGAAGATTATTTGATCTATTCTCTATACTATTTACCATCTAACTCCAAAAACATGATAAAACAAAGACCATACACTATATTTTATAAATTCATAATTATACTGATATAAATATGTATCTGGAAATGCATACAAGTACCCATTATCTGACCCCATGTAGATCTCGTTATTTACTAGTGCAGGATTAGCTGCAGTAAATTGAGCAATCTTACCAACTCCAAATCTATGAACACCTAAAACATCACCATTAGAAGCTTTTACTGCATAAAAATTATCAAATCCATCTCCAAAATATAAAATACCATTTGAATAAACTGAAGCTCCTTTTTGTACTCCATAAATCTTTATAACCCAATTTAGATCACCTGTATTTATATTGAATGAATAGAATTTGCCTTTACCTACAGGGTTTCCTACATATATATTATTCCCTATAATTATAGGAGAGGATGTTTCCATTGCAAAAGGATTTGGACCAAAACCTAATATATGTGTCCAAACTACATCTCCTGTTTTCTTGGATAAAACATATAATATTTCATAGAATTTATTTGGAGTAGGTGATAGACCTAATCCTGAGATTACAAGATATTGAGAATTAGATGAAGGAGAACAATCAGTTACACCTCCAAATGAATCAGGCATAGGTTTCTGCCATAAAATTTTCTTAGTCTTTATATTTACAGCAGCTACATATTGAGTCTGTAACGGTTTTCCTTCTCCAAAATATGCAACATTACCAGATAGATCCATAGAAGACATGGATACATAACCTTTTAATTTTAATCTCCAATTTACATTTCCCGTCATTGCATTTATTGAATAGAAATGTGCACCTCCATTTGCAACATATATATTACCCTTTTTGTATGCAAAAGAAGGCATATTTTCTCCATTTGTACTTTTCATCCAAATAACCTTACCAGAAGATGAAGAAAGTGCATAAATAGCATTATTACCTGCACCTCTAACAGTTTTTCCGCCTACCTTTTTATATGCATTATTTCCTGTTCCTATATAAACCATACCTTTTACCACTAAAGGTTCTGTCATTACCATATTATCTACTGTGATTTTCCATATCAATTTACCTGTAGTAGCTGAAAGTGCATAAACTTGATCCTTATTTGTTCCAAAATATATAACACCATTAACAACACTAGGAGTTGATATAACAGGTCCATGAGCATTAAATTGAAAATATTTATTAATTACACCATTTGCATATGAGTAATTCTTAGAACTATTCATACTCTGTTGTCTTAATGATGAATTAAAAGAAACAATTGTAGATAATGAAGGATAATATCTTTCAGATACAGTTTTTAATAATATGAGAAATAATAGAACTAGTATAAATGCTGATATATAGATGAAATATCTAAATTGTTCAGATTTTTTCTTTTTTGCCATATTGCCTATAATAAACTATTATTAACATTATTTCAATATGGATATATAATAGATTGATGAGAGAAGAATATATAAAAAAAATATTAGAAAAACTACAAGAAAGATACCCTCAAAGTAAAATAACACTTAATTATACAAATTGGTATGAATTATTAATAGCGACAATACTCGCAGCTCAGTGTACAGATAAAAGAGTAAATATTGTTACTGAAAAATTATTTGTTAAGTACAAAACACTAAAAGATTATGGCGATGCAGATTTAAAAGAATTAGAAAAAGATATTTATTCTACTGGATTTTATAGAAATAAAGCAAAAAATATAAAACATCTTGCAAATAAATTAATAAAAAAAGATAAAATCCCACAAAGTATGGATGAACTTATAAAACTTCCTGGAATAGGAAGAAAAACCGCCAATGTATTCTTATCAAATTACCTAAATAAAAATGAAGGAGTTATAGTTGATACACATATGATAAGGATAAGTAATCTTTTAAAATTAGTACATTCAAAAAACCCTTCTATAATAGAGAAAAAACTTAATAATATTATACCTAAAAAAGATTATCTTCTATTTTCAAATTTAATAATATCATTAGGTAGAGATACATGTATTGCAAAAAAACCTAAATGTAATATATGTATATTACAAAATATATGCCCATCTGCTAATATAAAAAATCCCACTAAGATTGAGGGTGAGAAAAGCTCAGTGGGATAAAGATTTTTATCTTCAATCTATATTCTAAAAAACACAGATTAAAGATACATGAAATAATTTGCACAAAATTTTCCTATCTGTTATTCTCGTATATAGTATATGATAAAAGCATTAACACCTGAAAATAACACAGAATCTATTCTACATCAAAGTTTGAATATAGATGATATTAATAATCCATATTTTATAGAATTAGAATACAAAAATGAAGAAAAAGTTATTCTAGATGGAAAGGAAATAGTAGATCTATTTAAAGAAAGAATAGATCCTTATAAAAATCATTCTACACTTATTTCTAAAAGAAGAAATCTAAGACCTCAACCTGACATAAAAGATACAGAGTATATTAAAGTTCAATCTTGTCTTTTTGATAACCTTGATGAAGTTGCAAAACCTACAATCAAATATGAAGAATATGGAACATATATAGCTCCAAACCCCTTTGCTTTTAATCCGGGTTTTCATAGTATTGTTTTTACTAAAGATCATATAGAAACTATAGATCAAATTGAAGAAAAACATATAGAAGGAATATTTAATGTTCTACAAATCAAAGCTTTAGAAATATCAAAGTATCCTAATATTAATCAACTCGATATGGGGATGAATTTTGGGACAAATAAATTAAAATATACATCAGGAGCATCACAACCTCATCTACACGCACAAATAGGTGCTGTATATAACACAGGGTTTATGCCTCAACAAGATAATATACAGAATATTAATGATTATTATAAGAATAAAGGAATAGATTATGAAGGTTTATATCTGAGTGCTATAAAATCATCAGATCTACTTATAATAGAAAACGAAAATTTCATGGCTTATACACCTTTTTCTCCAAGATTTAAAGATGAAGTTCATATTATATCTAAAAATATGAATATACCCAATATATTATCATTGGATCAAAATAAACTGGAAGATTTATCGAAATTGATATATAGTATATTAAAAGGATATCAAGAAATGAGGGTGAGGAGTGAGAGTGGAATTCTTACCAATGTTGATATAAAAAGTTTTAATATAGAAATTCTAGGATTGAGATTTGATAGATTGGAAGGAAGAATGCTTATAAACATAATACCTAGACAAACAGATATAGCATATTCCGAATTAATGGGAAGATTTGTTATAGATAGAGAGCCTGAGAATACCGCAAATATATTAAGAAAAGCTATAAAAAATGAATAATTTAAAGTTATTATATACAGCAGCTGAGATATACCCTTATGCAGGTGTAGGTGGACTAGGTCAAGTATCATATTTCCTTACAAAACAACTGAAAAAATTAAATATTGATGCAAGAATATTTATGCCTAAGTATGGGAATATAGATGAAGATATATATCCTATGGAAATGTTATATGAAGGAATAAAAATATCATCACAGAATGGAAAAGAAATCATTTGTAATATAAAAAAATATGAGAGTGAAGATAATACAATACCAATAGTATATTTTCTTGAAAATATGGAATTTTTTGAGAAAAGATCCAATGTATATGGATATAATGATGATGATATAAGATTTCTTCTTCTATCAAGAGGTTTAATTGAATTTTTAAAAATATCAGACTGGACACCAGATGTAGTTAATTCTTCAGACTGGCATACAGGGTTAGTCTCAAATATACTTAAAACTGAATATAGAAATGATAAGAAACTTAAAAATATAGCAACAGTATTTAGTATTCACAATTTAATGTTTCATGGTCTGCTTGTTGATAGAGAACCAAATAATCTAGATTTTGATAATGGAAAAAATGATATAGCTGATATATTTAGTCCACTTCTAAAAAAACAAAACTTTATGAGAAGAGGAATTATGTACTCTGATATAGTAACAACTGTATCAGAAAAATATTCAAAAGAAATATTAACAGAAGATTACGGAGAAGGTTTAGAACACCTACTAAGAGAAATAAGAACTAAACTTTATGGAATATTAAATGGAATAGATTATTCATATATGAATCCTGAGACAGATCCTAATATAGTAGCCAATTATAACTCAAAATCATTTATAAGAAGAGCTATAAATAAAGAGGATTTACAAAAAGAATTCAATTTGGAAGTTGGTGATTTTCCTATCATAGGAATGGTAACACGCCTAGACCATCAAAAAGGACTTGATCTAGTAAAAGATATTATAGAAACCGCTATAGAAGAACTTAATATTCAATTCGTTATAATAGGAGGAGGAGATCATGGGTTTACAGAATATTTTTCAAAATTAGAAAAAGAATATCCTAAAAAAGTTGGTACACACCTTATGGCAGATTTCACTCTACCTAAAAAAGTTTTCTCAGGTGCAGATATGATACTCCTTCCTTCTCGATTTGAACCATCAGGAATAACTCAGATGGAAGCTATGAGATATGGAGCCATTCCTATTGCAAGAAATGTAGGAGGATTATCTGACTCCATAGATAATTTTAATTCAGAAACACATGAAGGAAATGGATTTTTATTTAATGAATACAACCCATATGCCTTGATGTGTGCTCTTACAAGAGCTGTTGAAATTTATCATAATCAAGATATATGGAATAAAATAATTAAATCAGCAATGGAAAAAGATTTTTCATGGGAAAATTCTGCACTAAAATATGTAGACATATATAGAAAAGCAATAAAACTTCATTCAAATAAAAAAATAAGCAAAGAAGAAATCATATATCAAATGTATAATTTATGAACTGGGTAAATTTTTTATATATATATCAGCCCCCCACACAGAAAAAAGAAATATTAACTAAGGTTGTTAATGAGAGCTATAGGCCTATAATGAATATGTTGGTTGAAAATCCAAAATATAAATTAACATTAAATATTAATTCAGGTCTTACAGAAAGAATATTAGAAAATGGAGGAGAGGATATAATAGAAAAAATTAAAATACTCTTAAAAAGAAAACAGATAGATATTACTGATACTTCAGCATATCAAGCTTTTCTACCATTAATGCCTCTTAAAGAAGTTATACGACAAATAGAAATAAACCACGCAATGCATAAAAATATTTTTGGAGAAAATTATAATCCTGAAGGATTCTTTTCTCCTTCCTTAGCATATACAGAAGATATATTTAACGTAATCAAAGATTTAAATTATAAATGGATGATCTTAGATGAAAATACTCTAAATGAGAATATTGATCATAAAAAAATATATACACATAAAGGTCTCGATATATATATAAGAGATAGAGAGAGAAGTTTTAGAATATTATCAGCTCAATATGATGATTCCTTAAATTTAATAAAAAATCTTGAACAAAAACTAAGTACAGATGAGTTTTTTATTTCTGCAATGGATGGAGAAACTTTTGGACACCATAAACTAAATTTTGAAAAAACATTAGAAGACCTATATGCTTCTGACAAAATGAAATCATTTTTAATGAAAGATATATCAAAAAATATAAAAGATAAAAAAGAAATAAATCCTAAAACTAGTACTTGGATAATACCTTCAAAAGGAGAGAGTGATGTATTCGAAAGATGGAATAATCCTTCAAATAAAATACAACAAAAACAAATAGATTTAATGGAATTTGCTATTAATATTATTAATTCATCTGTATATAAAATAGAAGATCCTTTAGTAACAAATGTTCAACTTGAATATTTATCATCTGAACAAAGAACTTGGATGAAAGCAAGGTATATACTAGATCAAGCTTTATACCAAGATCAATTATTTTATTCTTCTGCAAAACCTAGTTGGAATATAGAATTAATTGAAAATGGGTCATATCTGCTAAATAAAGCTATTGATTTAGTACCAGATACCTCTAAAAAAAATAAAGAGACAGCTAAAAAATTTTATGAATATATACTGTTCACAGCTCTCGAATGGCAAAAGACAAATAAAGTAGAAAATATTATAAATGAATTCTTTGATGAAGAAAAAATTCCAGAAGAAATTTCTTCGCCAAAATTACATTTACAAGGTTATATAGATGCAATAAAAAGACTTCGTTTAGAAATGAATAAAGCAAAAGAAGTAGAAGATTATGAAACATGTCAAACTCTCAAAGAAAGAATAGAAGAGATAGAAGAAAAAAAAGAAAATTTTAAATTAGAATAATACAAAAATGTTTTGGGCAAATTTATTACATATTTATCAACCTCCTACACAAACAGAAAAAATGCTTTCACAGATCACCTCTGAATCATATAATCAGATAATAAAAGCTTTAAAAATCAATCCAAGAGCTAAATTAACAATGAATATAAATGCATCATTATCAGAATTATTCGTAGAATATAAATATCATAAACTAATAGATGATATAAAATTTCTTCTTAAAAATGGACAATTAGAACTTACAGATTCTGCTGCATATCATCCTTTCTTACCATTAATTCCTAAAAATGAAATTATACGACAAATACAATTAAATAATATAATTAATAAAAAAATATTTGGTAAATATTATAACCCAAAAGGATTCTTCTCTCCTGAACTTGCCGTATCAAAAGAAATAATACATATTGTAGAAGATTTAGGTTATGAATGGATGATATTTGATGAATTAGCATTTGATCCTGAAAAAGGTTCTCCTCAGTACGACAGAATATATAGAATAAATAATACTAATATGATAGGTTTTTTTAGAGATAGAGAAATAAGTTTTAAAATACTCTCTGCTCAATTAGAATCAGGAGATATATTTTTATCTGAAATAGAAAAAACATATAACGATGAAAAATATTTATCTACAGCAATGGATGGAGAAACTTTTGGACACCATAGATTAGGATTAGAATTATTATTATTTGACATTTTTAAATCAGATAAAATTGTAACAGAACAATATCAAAATATACCTAAATATTTTATGAAAGAAGATAGAGTTAATGTAAAAGATTCTACTTGGGCTCTTCTGCCAATTGAACTTCTAAGAAACCAACCTTATAAAAGATGGTATAACGATGAGAATGAAATTAATGTAAAACAATGGGATTTTACATATTTTGCTATAAAAGAAATTAACAACTCTCCTTATAAAGTAGAAGATCCAAAAATAACAAGAAAAAAAGAAATCTTAAGTAAGGAACAAAAACAATGGTTAAAAGCAAGATATAATTTAGATAAAGCTATACACTCTGATCAATATTGGTGGGCATCCGCAAGACCATGGTGGAGTATAGATATGATAGATAGAGGTGCTAGTGAAATTAAAAATAGTATCTTGTTACTTCCTAATATCAGTGATAATATAAGAAATAAAGCAATAGAAAGTTATAAAGATATAATAGTCTCTTCCTTTAGACTGCAAGGTGAAGGTATTATTGATGATATGATAAAAAATTATGATGAAGAAGCATCTGAAATTATAGAAACTAAATCTTTAGAAGCTAATCCAAAAGAATATGATAGAGTAATAGAACATTTAAGAAGACAAATGCTAGAAGCAGCAGATAAAGAAAATTTCAAAAAAGCTATTGAATACAGAAAAAGAATTGAGAATTTGAGAGAAAAACAAAAAAATATAATATCTAACTTAGAATCAAAAAAATTATGAATAGAAAATTAAAAGTATTGTTTGTATCATCTGAACTAACCCCTATTGTAAAAGTAGGAGGATTAGGAGATGTTGCTGGTACTCTACCTAAATATTTAAAAAATTATGTAGATATAGAATCAGTTATACCTTTATATAAATCAATATTAACATCAAAACCAGAGACAATACCAAATTCTGATGTAAAAATAAATTATATAGATATTCCTGAGTATTTTTCTTCAAGAGATAATATTTATGGATACCAAGATGATCCCATAAGATTTGCAGCTTTCTGCAGAGAAATTGTAGATAAAATTTGTGAAGGATACTTTGGAGAGGTTGATATATTACACCTCAATGATTCTCATACATCTTTTATTCCAATTATGCTTAAAGATAGAGGTATTGATAATGTAAAAACTATACTTACAATTCATAATTTAGGATCAGCTTATCAGGGGAGATATTCCCTAGATATTCTAGATATTTTAAAATTAAATAGAACTCATATAACACTAGAGTTTGATAAAGCTGATAAAGAAATTGATCCTTTATTACAAGGAATTCTTAATGCAGATATAGTATCCACCGTATCTCCTACATATGCACAAGAAATACTCACAAAAGAATATGGAAGCGGTTTAAATGATTTTTTAGAATTAAGAAAAAATGAGTTATTCGGAATTCTTAATGGTATAGATTATTCTATATTTTCCCCAGAAATAGATAAAACAATATATACGAATTATAATATATCTAATTATAAAATAGGAAAATTAGAAAATAAAAAAAAGCTAATAGAAGAATTGCATATAAATTTCAATACTGATTACCCTATATATTCTTTTATAGCAAGATTAGATTACCAAAAAGGAATAGATATACTTATTTCTGCTATGAAAACATTGAAAGATAAAAATATTCAATTTCTACTTCTAGGTACAGGAGCAAAAGATTTTGAAAACGAATTACAAGAAATGAACTCTCAGAATAATAATATATTTGCAATAATAGATTTTGACCCTATACTTGCTAATAAAATATATGCTTCTGCAGATGCGCTTATAATTCCTTCTAAATACGAACCCTCTGGACTTACTCAAATGATTGCAATGAAATATGGAACTCTTCCTATTGTTAGATCAACAGGTGGTTTAAAAGATTCAGTTTTTAATATGAAAACAGGTTTTGTATTTGAGAATTATTCTGCACTAGATCTAACAGATACTCTCAAAGAAGCTAGCGCTATGTATAATACAGGACAGTGGGATCAAATGATACATAATGCTATGAGTGCTGATTTTTCATGGCATAAATCTTCTCAAAAATATCTAGTGTTATATAATAAACTTAAAAAAGTTTAAATATCTTTTATTATAGGAAAAAATTCAGTTTCTCTTATATTAGAAAGATCTGCTAAAAGCATAAAAAATCTATCTAAACCTATACCAAATCCACCAGTAGGTGGCATACCATACTCTAATGCTTCTATAAAATCCAAATCCATCATTTGAGCTTCTTTATCTCCTTGATCTCTTAATAATTGCTGCTCAGAAAATCTCTCAAATTGATCTTGAGAATCGTTCAATTCTGAAAAAGCATTTCCTAACTCAAAACCTAAAATTAATACTTGAAATCTTTCTACTATATTAGGGTTATCTTTATGTTTTTTTGCTAATGGAGATATCTCTACTGGGTGATCTATTAAAAATATAGGCCCTTTAATATTAGGTCTTACTATTTTTTTATAAATTCTATCAATCCATCTATTCTTATCAGAGGTAATATCATCTTCCAATCCTAATCCTAGTCCTAATTCTCTTAATTTTTCTTTCGTATCATATACATCTAAATCACATCCATATTTTTTCATTAAATCAAAATATTTCTCCCTTGGCCAAGGAGCATTAAAATCTATCTCCTGCCCTTTAAATGAAATTTTTAAAGTTCCAAAAGTTTCATTAATCATATATGTATACATCTGCTCTATGAAATCCATTAATTTTGAATAATCAGAATATGCCCAATAAAATTCCATCATATTAAACTCTTGTAAATGTTGCATACTCATTCCTTCATTTCTAAAAACTTTTCCAATTTCAAAAATCTTATCATATCCAGCAACAATAAGCCTTTTTAAGGGTAATTCTAAGGATATTCTTAAATATAAATCTTGATCTAATGAATTATGATGAGTAATAAAAGGTTCTGCCTCAGCTCCTCCAAAAATTAATTCTAATGTAGGTGTATCTACTTCTAAAAAACCTTTTGATAATAAAAAATTTCTACAACTTTGTATAAATTTAGATTTTAATCTCAATTTCTCTTTTAAATCTTTATTAGATATTAAATCTACATATCTTTTTCTTATCTTCTCCTCTTCATCTTGTATTCCATAATATTCAGAAGGAAGTGGTCTTAAAGATTTAGTTAGTATTTTAAAACTCTTCACTTCAATAGATATCTGTCCTGCCTTAGTAGTAAACAAAGTCCCAAAAGCTTCTATGAAATCTCCTATATCAAATAACTCTAACTCTTTAAAATTATTTAGATTATTTTCACTAAAAAATAATTGTATTTTCCCAGAATCATCCTCTATATCAAAAAATGCAATTTTTCCATGGTTTCTAATACTAATAATTCTACCTGCAACAAAAAATTCTTTACCCTCTAATACTGAATAATTATCTATAATATAATTATTAGTATAATCCTTATGAGATATAGAAGGATAAGGATCTATACCTAAATTAATTAATTTATTTAATTTATCTAATCTTGATTGTTGTAATTCTTTTAAAGTAGCCATCAAAAATTAAAATTTAAAAATTTAAATAAATTATACCATATTCTATTGAAAATACTTGACTTTTGGTATAAAATTATAGGCTTAATAATTATATGGAACAAAAACAAGAAAAATATATATCAAAAGAAGAGGAGATATCTCAACTTGAGACTATAGTAGATAACAATGAAGATGGTGAAGATAAACCTATTTATGAGAGTACATTTGCAACAAAATATAAACAATTGTTAGATAGTCTATTTGTAGGATTATTCTCTTCAGGAATAGCAGTAACAGAATCTATTAGATCTCACCAAGATATAATCACAGCGCTACAAGATAATGCCATATATGGAATAGAAGCAGGAGCTTTAATATCTGGTTTATTTTTTGTTAATAAAAGTATACAACAAAGAAAAAATTTAAGAAAAAAAGGTATTCAAAATACTTATGAAAAAAATAAAAAAGAAAAAATATTCTCTTTTCTATCAACTCCTATAGATAAAAGTATTCTAGATATAAGCACAGTTCTTCTTACCGAAAAAAGAATGAACTATGATGAAGATGAAATATTCTTCAGAGAAATAGAAAAAATAGATTTAAAAGAAACAGAATTATCCGATAAGGATATCAATGAAATATATACAAATATAGATTCAAGATTAAATCTAATTGAAATTTTGAGATTAATAAAAAGTTTAGAAAAAAAATATCCAGATATTAAAGATAGAAAAAAAGCAGTATATTCATATATAAGAGAAGATAGTATAGAGAGAAGTAAAGAAATAAAAGAAATGCATGAGAGTGTAGACTTTTTAGATATAAACTTTTTAAAAAAAGAATGGAGAAAGGTAGACAATTCTATAATGCAGAAAATATATTCAAAAACAGATTATAGAGAAAGAAGAAATATAGCTTTTAATAATATAGAACTTTTATTGGAATATGCAAATAAAAAACATATAAATGGTATTAATATAGATTATGTTTCTTCAAATAAACATTTTCATAGAATATTTTCAATAGGAATAATGAAAGAATATAAAGTTCCTAAATATATAGACCAAATACATCAAGAAAAAGTCATGTTATCTCCTTTCATAGACAGAGACAGCTTAAGTAATGATAAAATAGAAGAATTAGAAAATTTATCATATAGAATATATTTATTATATTTAGAAGATCAAAAGTGTAAAAATGATATTTATATAGCAGATTTTATTTTTGATAAAATCCAAACCCTTCCAGTAAAACAAAAATATGTTTTTCTAAAAGAAGGAGGTCATGAAAAAATAGAAAATTTAGCCAACAATATTTTGCATTTCTCAAAAACTATTGGTTATAACAAAACCAGTAATATTAAATCCCAATTAAAAAATATGGATAATAAAGAAAAAGAAGAACATATATTATCCATAATAAAATGTTTATCTGAATATGAAAATCACCAAAAAAAATATGAACTGGATAATTCAATTTATACACCAGACACAAAACTTTTAGAAGAAATTCTTTCAATAGGATTTTTAACTCATTTCGAAATAAAAAAACCTGCTAGAAAAGTAAATGACAAAATATTGCAATATTCCTTAAAAATTCTAAAAGATTATTCTAAATTTATGAAAAAAAATTATCCAGATGAATTTAAAAAAGCTATAGAAAAAGCTTATGATAATTCTTTAATTGATGAGAAAGAATTAAGACGAAAAATGGCAATTTTAAGCATTGATCTAAACTCATTTTCTACAGTATTATTCAATATATCATTAATAATACCTGCAATATTGACGGCTAAATAAAATTAATACATAATACTTGTTATGCAAAGATATTCACAATTATTTGGAAAGACAAATAGAGAATCAAAAAATTTTGAATCTTTAAATGCAACATTACTTCAAAAAGCCGGGTTTATAAATCAAGAAATGGCTGGAGTATATAACTTTTTACCATTAGGATTAAGAGTTTTAAATAAAATAGAAAATATAGTAAGAAAAGAAATGTTAAAAATTTCTAATGAAGTATTACTCCCTTCTTTGTCTCCAAAAGATTATTGGGAAACTACTAAAAGAATAGATAAAATTGATATATTAATGCAAACTATAGGAGCTAATGATCTTTCTTCTAAAAAAAATACTTCCTCATATATTCTAAATCCTACTCATGAAGAAATAATAACACCCCTTGTAAAAGAATATATATCTAGCTATAAAGATCTACCTTTAGCACTTTTTCAAATACAAACAAAATTTAGAAATGAAGCTAGAGCAAAATCAGGACTTCTTAGAGGAAGAGAATTTAGAATGAAAGATTTATATAGTTTTCATATTTCTTTAGAAGATTTAGAAGATTATTATGAAAAAGTAAAACAAAGTTACTTTAATATATTTGAAGAATTAGGTCTAAAAGATAGTACAATACTAGTAAAAGCTTCCGGTGGAGATTTTACAAAAGATTACTCTGACGAATTTCAAATTATCTGTGAGAATGGAGAAGATATAGTTTTTCTAGATAAGAAAACTAATACATATTACAATAAAGAGATTGCTAAAAAAGAAATAATAAATGATGGAATAAAAGTGTCAGAAGCTGGAAATATTTTTATACTTGGAGAAAAATTTTCAAAAGATTTCAACTTTACACTTAAAGATAAAAATAATAAAGATATTAATATATTTATGGGATGTTATGGTATAGGTACAAGTAGGATAATGGGGATTATTGCAGAAAAATTTAATGATGATAATGGATTAATTTGGCCAGAAAATATATCTCCTTATGATTATCATATAATATCTCAATCTGAAGATTTAGAGACAGAGACAAAAAAAATAATAGAACAAATTGAAAAAAAAGGGAAAACTGTACTCTGGGATGATAGAACAGATATTCATATGGGAGAAAAATTATCTGATGCAGATTTAATTGGAATTTCTAAAAGAATCGTTATATCAAAAAGAAGCTTAGAGAAAGGAGGAGTAGAGATAAAACAAAGGAATAGCTTTGATACAAAAATAATGACATTTAAAGAATTTGCAAACTCTATTTAATTAAAGACTCTACCTCTTTTAACTTTTCCTCAAAAATATCCTTTGATCTTGTCTCCAAATTCAACCTTATTAGAGGCTCAGTATTCGAACCTCTAAGATTAAATCTCCAATTATCAAATTCTATAGAAACTCCATCAAAATGAGATATTTTGACTCCGGACATATCTTTATAAAAATTCTCAATTCTTTCTAAATTTTCATCAATACTATTAACTGTATAATTGATTTCAGGAGTAACTGTATAAGTATTCCTATAATAATCGAGTAGAGAAGAGAGCTTTTCTTTATTTATAGATAATAATTCCAAAACCATTAATAAGGGAATCATACCATTATCTGAATAATAATTTTTCTTAAAATAGAAATGTGCAGAAATTTCTCCTCCAAATAAAGCATCCTCTTCTTTCATTTTTTTTGCTACAAACGAATGACCTGTTTTTGAAAGTATAGATATTCCCCCTAAAGATTCTACAGTTTCATCTACTGCCCAAGTAAGCTGAGGAGAATGCACTATTTTTGCACCTTTATTCTTCATTAAAATATTCTTAGCCAATATTGCTGTCATAAAGTATCCAGACGTATATCCACCTTTCTCATCTACAAACATACATCTGTCCGCATCCCCATCAAAAGCAACTCCTAAATCTGCACCAACTTCTACTATTTTTTCTTCTAAATCTAATACATTCTTCTCATCCATTGGATTTGCAGGATGATTAGGAAAATTTTCATCTGGCTCAAAATATAAAGGCACTAGAGTACAATTCAAATGTTTAAATATAGCCTCAACTATGTATCCTGCAACTCCATTTCCTGCATCTATTACAACCTTAAGATTTTCAATCTTATCCTTGTCAACAAAAGAAAGAACATGCTTTATATAATCATCTAAAATATCTTTATTATCTAAAGAATAAGTTTCTGGAAGATCTAATTTATTATCAATATTCTTTTTTACTAAATCTCTAATATCCTGTATACCATCATCAATACTTATTGGCTCACCTTCTTTAACAAGTTTCAATCCATTATATTCTTTTGGATTATGAGAAGCTGTAATTTGAGCACCACCATCAAAATCATAAAAACCTGAAGCAAAATACATCATATCTGTAGAAATAATACCTATATCTGTTACTTTTGCCCCAGCAAGTACAGCTCCTTTAACAAAAGAATCAAATAGAGAAGGGGATGAACTTCTTATATCTCTTCCTACACAAATATTTTTAAGATTAAAAAATTTAACATAATAATATCCTATTTTTGAAACTAGAGCCTCATTTATTGAGGTAGGATATATACCTCTGATATCATATGCTTTGAATATACTCTCATCCATATAAATATAAGTATACAGCATCTTTTAATTTTTGTCAGGAGAAGAAACTAAAACACTCATTATTTTTTTATTATTTAACAAATAATATATTACTGTAAATAAATATTCTTTAACTAATTATGATAAATTTAGCTTATCAAAAATAAAAACAAAAATATTAATACCTTCTTCAAATGATAATAATTTAGTTGCTTCAGGAGTGTGGTCTTCAAATTTATTAAAATGTATTAAATAAGATGATTCTTTTGAAAGTTTTTTTATAAACATAAAAGAATGATAAGGAGGAACAGTTTTATCTTTTAGATTTACAATAAATAATATATCAGGATATTTTATATTACTTACTACATTATAAAGAGGGTTCCATTTCATTATTGTCTTAATATTTCTTTTATCCAAATCTCCATACTCATTCTTGTTAAAATAGGAATGTGATTTTTCAAAAATATCTACAACAGGAGATTTACTTATTATAGCTTTATATATCTTAGGTCTTTTTATCATTGCAGCTAAACTCATCATACCTCCATTACTTTCCCCCTTAAGAATAATATTGTTTTTATCAGTATATTTCTTTTCTATTAAATATTCTGTGCATTTAATAATATCTTCAATCGTTTTATTTCTATCTATACTTTTTCTGTACCTACTCTCTATATCTCCATCTCCTCTTAAAGATGCTTTTACATAAATTCCACCTTTGTTTAAAAATAATAAATATTCTTGAAAAAAATTAAATTCCATTTTTTTATTATACCCTCCATATATATCTAATATTAAAGGAGACCTAATATTTAATTTTGTATTTTTGTTATATATCAAAATTACAGGAATCTTGAAATTATCAGTTGATAGAATGTATATCTTTTTAATTTTATATAAAGAACTTGTATATTTTTTTGTTACAGAAGTTTCATGATTTAATACAAATCTACCTTTATCTATATAATATTTATATATTTTTTTGGGAGTAAATAAATTATCTACAGTAATATAAATAATATTATTTTTAATATTAGATCTAAGATATATATTTTTGAATTTTAAATCTATTTCTTTTTTAGATATATACTCTCCTTTGTGATTGAAAATTATTATAGATCTTTTAAAATTAGAATATGCTACAACTGATATATAATCTTTAGAAATTACTGCATCCTCTATTTCATAATTCTTTACTTTTATAATAGGAATCATTTTAATATCTGAAGATATAACTATTTTAGATATAGAAGAGTTCTTCTTATCAAAGGTTAATAATATATATGTATTTTTCTCTCCATTAAGAATTTTATACTGCCAAGGAAGATTTCTAAATAATAACTTAATTTTAGATTTAGGATCATTTAAATTCTTATAACTTAAAACTTTAGAATTATTTAGACCATGTTCTATAAAAAGTATATTTTGAGATATATTTATATCAAAAATTAATAAATCTTTCGGGATCTTACATATTTTAATCTCTTCATCTTTTATAAGAGATCTTGAATATAAGAATTTGTTTTTATTTGGTGTATATTGTATATAATATAGCCTGTTTTCATAAAATGTACTCCACATATATACAACCATATCAATAGTTTGCTCTAATTTCCCACTTTGAAGATCATATATAAAAAGTAAAATATCTTTTTTAGAATAGGTAAAAATAGCAATTTTTTCTAGATCTTCTAAGATATCATATCTTTTTATAAATTTATACTCACCTTTTGATAGATCTACTAGTCTTTTAGGTTCATTCTTTTTGTATTGAGAAACAATATAAATAGATCCTTTTTTAGATTCAAACCATATTTTAAAATTTTTAAATGAATAAAAATTATATTTTATATGATTTTTCTTAGGATATATATTTAATAGCTCTTTGCGAATAACTGTATATAAATCTTTATTTTTATCTAAATATTTTTTTAATTTATAATCTTCTCTTTTTATAAAAGATTTAGTTTTTGAATTTCTTAAATCCTTTAAATATGAATACTTATATAAATTATCTTTTCTTTCTAACATTCTAAATAATAGAATAAATTATTTATATTTTAAATGAGGAGTAGGTGGGAGAAATATTTTTGTATATTTAATATATACAAAGAATACACTCCCAGCCTTACCCAGAAAAACTCTTCTTCTAATCGTTATCAGAGATATTAATTATAATTACAGAACCAGGTTCACCTACTTCAAGAGCATATTCTTTTCCTTTTTCGACTTTCCTTTCAACTGCTTCTTTGATAACTTTCTTATCATCATCACTCCAAGCCATCTATTTCACCTCCTTTCTAAAGAGATTTATATAGATCTAACTAAATTTTTTAGAAGAGCTAACTTAAAGAAAGCTTTTCTTATTATAAATCTAATAAGATACACCTATGCATTAAATTGATTTTTATGATATCAAATTAATTATTTTTATGCATTGCTATGCATAGCAAATTGAGAGATTAATACTATAATAAAATTGAATAAATTATAATCTGTTATTTAAAAATAGACTTTTTATTGACGCTATTTAAATTTTCAAAGTATAATATATATATGTATGATATAAAAATAATAGGAGATACAAAATTTAAAGATAATACAAAAAAGTTGAGAGTATCCCATCACATCAAGGAACAATCTTTCGATTCATCAGGGTTCGAATCCATCATCCCCAGGAATTATAATGAGTTTATATTTCTGATATACTTTAAATGTTATGGATGAATCAGAAATTGCAAAACAGTTCATAAAGAAGAATAAACAACTTTTGTATAGAAAATTTATTAATATTGGAAAACTTTCCTCAATTACAGATCTTTCAGCATATTTTATGGCAGGATCCCCTGGAGCAGGTAAAACTGAGTGGTCTAAATCGTTTATTAAAACTCTTATAGATAAAGAACCTAACAGAACTATAGTGAGAATTGATCCTGATGAAATCAGAGAATTCTTACCCAACTATATTCCAGAACAAGCAGATATATTCCAAGGTGCAACTGCTCTGGGAGTGGAAAAAATTCTTGATTATGTATTAAAGAACAATCAAGATTTTTTACTTGATGGGACTTTTTCTAATTATGAGGTTTCTTATAAAAATGTTAAACGTTCTCTCAATAAAGGAAGAAAAGTTGCTGTAATATATATTTACCAGGATCCTTTAATTGCATGGGATTTTACAAAGAAGCGAGCATTTATTGAAAAAAGAATTATCCCTAAACAAGCATTTATCAGATCTTTTTTTAAAGCTCATGAAAATGTAACCAAAATTAAAAAAGAATTTGGTAATTCTATTGAGATCTGGTTAGTGAAAAGAAATTATCATAGAAAAACAGAAAAAGTATATCTTAATATTGATAAAGTTGATAATTGTATCAAAAATAACTATAATGAGGAAACATTAGAAAAATTATTATTATGAAACATTTATTTAATAAGTTAAAAATCAAAAAATCAGGAACTACAAGTTTCTTTGATTATCCTGAAAAAGAGAAAATAGATATAATAACTAAAGCTGCAAAAGAAGCAAATAAGATGCAGAGTGAATTAGTTAAAAAATATACTAAATTACAAGATAATACTTCTTGTCATTAGGTTTTGCTTTCTTTCTAATATAGTTTAGAAAAAGTGATTCTATTATTTTCCATCATGTCCAATTTATCTAGTAAATCACCAGTTAAAATGAGGTTTTTAAAGATGGGGTTCCACCTACGGGACAGCTTCCCAGTTGAGATTTATATGAATTTATCAATTTCTAACTAATTATATCTTTAGAAAAAATTTACTAATTTAAATAGTGAGTGTAAGAGTTTGTATAATACTAAGGAACTTAGTATATGGTCTGAAGATATACCATATGCTATAATTTATGCCATGGTTGCAAATCGAAAAAATATTATAAACAATTACGCTTTCATTGATAGCCAAAATTTAAATCTTGCCATAAGAGATCAAGGTTGGAAATTAGATTTTGCAAAATTTAAACAATATTTATCAGTTAAATACTCTGTTTCAAAATGTTTTTTATTTATAGGATATGTTCCAGATAATCAAAGGATGTATACTCAGCTACAAAAACTTGGATATGTAATTATTTTTAAACCTACTTTAATGCAAAAAGGTATAATTAAAGGAAATTGTGATGCGGAATTAGTATTACATGCTATGATAGAATACTCTAATTATGAAAGAGCAGTAGTTGTCACAGGAGATGGAGATTTTTTTTGTTTAGTAGACTATCTTCAAAGTCAATCAAAATTAGAAGCCTTATTAATACCAAATCAGAAAGTATATAGCTCATTGTTAAAGAAAATTGGTAATGAAAAATTGAAATTTATGAATAATCTGAAAAAGAAATTAGAGTATAAACAAAAAGAAAAGGCACTTGTTTAAGCATCTATAACTTAAAAAGCTCCTTTTCATATTGATTCTAGTTTTATTATACTAAAAAATTAGTTTTTTGTAAAATTAAAGTCTTGTTCGATCAATAATAACCCTGAAAGAGGATGATAATGTTGTCAAACCTTTCATGATAATGCTCCTACTGAAGCATTAAGAGATAAATCTATCGTCTATTCAAGTAGAAATAGATCTTTATTACGTATATTGGAAAAAATTCAAGTTATAGATTATCCTTCTGAAGAATTAGATTTTATAACTATTGGAAGCTTAGTCTCCTTGCAATTTGGAAATGGTGATATTGAACAATTTTATATAGCAGGTGTGGTAAATCATTCTGAAATAAATGATCCAGAAGTAACTTTGTGTAGTTATAAATCTCCAGTAGGTATGTTACTTGTTGGAAGAAATGTTGGAAATAAAATTTTGCTAGATTCAAATAAACAAACAATAACAATACTGTCTATTAGACAAATAGTAAGAGATTCACCATTAATTTATAATAACTAGATATATTATTTGAAAAATATTTCACCATAGTTATAAACTTCCCACGACCTTACGATCAGAGTTTTTAGTACGGAGTCTATAAACTATATTTCTCATATATTTCTGCTGAATCTAATACTGCTTTTATGGGATATCTATCAAGTTGACTTAATCCAATAAAGGGAAGTTCACCTTTACTCTGTCGTCTAATTTCTTCTTTATTATGAATGGATATAATCCTTTTTATAGATTTTGAAAAGTTTTTATCCATATTAAAAATATAATAATTCTAATTTGAATGAGGATATCATACTTTTAATATTTCAACATTGCTATGCATAGCAAATCTTTATTTTTTATTGATTTAACAGGATAATTATTTATTTCAATAAATATTAATATAGAATATCTTTTATATTATTTAATATTTTTCTTACATCTTCTGGTGATTTAGTTTCCATTAATTTAGCACGTAAATAAGATGCATTATCCCATCCATTAATATATATTTTGAAAAACTTCTTTAGAATATTAAAAGGTTTCTTCATATCATCTCTCTTATATCTATCTAAATGAAAAAGTAATATATCTATCATATCTTTTGGTGTATGCTCTTCCTCTTTATTACTGAACACAAACATATCCTTAAAAATGCCTCTACCTATCATTATTCCGTCAACCCCTGTTTTTTCAGCAATATCTATCCCTTGCCTAAAATTTAAAATATCTCCATTTCCAATAATTAATGTTTTAGGAGAAATTTTATTACGTAATTCTACAACTTTCCTAAATTCATCCCATCTTGCAGGAACTTTGCTCATTTCTCTTACTGTACGAGCATGAATAGTTATAGCATCTAAATTTTGTTCTAAAAGAAAACTGAACCACTCCTCTGTAATAACCTCATTTAGACCTATTCTAGTTTTAACACTTATAGGCAGATTATTTGCACCTCTCTTTGTAGCTTCTATAATTTTTTCAACACCATCATAATTTCCAATCAATCCTCCACAAAAACCTCTTGCAACAATCCCTCTTTCAGGACAACCCATATTTATATCAATACCTGAAAAACCCATCTTAGATATATCTTCCGCAGCCTTTGTATATGCATCTAAATCTTTACCCCAAATTTGTGCAACTAAAGGTTTTTGACTTTCAGGATTCCTATCAAGTCTTCTTATAACACGATCTCTTCCTTTAGACGATAAACCCTCTACTGATACAAATTCTGTAAAAAAAACATCAGGGGAAGATACTTTTTCTACAACATCTCTAAATACTATATCCGTAACATCATCCATCGGTGCAAGACAAAAAAAGGGTTTATTTAATTGTGTCCAAAAATTCACCATAATTTTATAATTATATATCACCTCATATTATCTTCAAAATATCTAAAGACTATAATTCTAAATTTGCTATATGTAGCAATGTCATTTCAGCTTAAATACTATACAATAGAAAAATTGATTAAATATATGGAAAAAATAAAAAATTATTTACCAAAATTAAGAAATATATATAAAGTTATTTTTATAAATTATGCCAAAGTAACTAAAATTTTATGGCAAAATGATAAAAAATCTCTAATATTAATGTATATAAGAAATGTTATAAATGGAATATCTCCCATTATAATAGCCTTTATATATGGAGATATTATAAATTTAGTGATACTTGCAATCACTAAAAAAGAAAATATAAATACCCCTATATTTTATCTATTTATTATCTGGTTTTTTATTTATTTAAGTTCCAATTATATAAATACTCTAAATTATGTTATCTATCAAAAATTTAATTTGTTACTAGAAAAATTATATACATCTCTATTTTTTGGAAAATTAAATAGCGTTAATATTAAAACCTTATATAATAAAGATTTTCAAGACTCACTTAATAAAGCAGAACAAAAATACAGCTTTGCGGCATACCAATTTTCACATGCTATAAGTAATTTTAATTCTGCAATATTAAGTTTTATATTTTCTATCATAGCTTTTGCATATTTCTCTCCTATAATAGCTCTAATCGTTCTTATAAGTGTTATTCCTACTTTTATTGTTGAACTAAATATATCTAGGATGGCATGGAGTATTTGGGACGAATCTACAGAATTTAGAGAAAAATATTTCTCAACTCTAAATGTATTTAGAGCAAATAGTTCAGAAGAAATAAAAATTCACAATAACGGAGGATATTTGATAAAAAAAATAAATATATTACTCCAAGACAGATATGATAAGGAAATAAAATTAATAAAAAATAGAACACAATTCAACCTTATAGGTTCATTAATTGATACATTTGTATATATCCTATCCTCTGGATATATAGTATTTAAAGCTATAAAAGGACAAATACCTCCAGGATCAATAGTTTCATTTTTCTCAATTCTATCAAACTATATATCAAGTGTTTCTTTTCTATCAGATAGCGTATTAACAATGTATGATGCAGGATTATATCTTAACGATATAAACGATTTTTTAGATTTTGAAATTAAAGATAATATACAAGATGGAAAAATAATTTTAGATAGAAGAAAAAATCATAAAATTGAATTTAGAAATGTATATTTTAAATATCCAAACGCACACAGATATGTTTTTAAAGATCTGTCTCTTATAATAGAGCCAAAAGCAAAAATTGCTATTATTGGAGAAAATGGTTCAGGAAAAACTACTTTTATTAATCTACTTTCAAGATTCTATGATGTCACATCAGGTGAAATTTTAATAGATGATATTAATATAAAAGAATATAAGATTCTGTCTATCTATGAGAATTTAGGAATACTTTTTCAAGATTTTATGAAATATGAGTTTAGTATAGAAGAGAATATTAGACTTGGAAAAATAGATAAATTAGATCCAAACAAAAAAGAAATTATTGAGGCTGCAAAACAATCACAATCTCATATATTTATACAAAAATTAAAAGATAAATATGATACAAATATTAATATAAAAGGTCAAACTCTCTCAGGAGGACAATGGCAAAAATTAGCAATTGCAAGAGAATTTTTTAGAGACCCTCCAATATTAATATTAGATGAGCCTACATCTAGTCTTGATGCTAAAGCTGAAAATGAAGTCTTTGAAAATATAGAAAGAATATCTGAAAATAAAACCGTAATATTAATATCTCATAGATTCTCTACAGTTAGAAATGCAGATAAAATATTTGTATTCGAAAAAGGAAAAATATTAGAAGAAGGGTCACATAAAGATCTTATCAAAAAGAAAGGAAAATATTCTGAACTATTTGAACTTCAAGCACAGGGATATAAGTAATACCTATTCTATCATTGTATTTATCCTATTAAATCAAATATAAAATAGAAATTTGCTATGCATGGCAATGCATAATATTTATCCTAATAGTATAATTCAAATTGTAGATAAATAATCTACAGTCCTTTAACAAGAGAGGAATATAAAATGGGATGGTTTACTGCAGATAAGCATTCTTCAAAGCCTAATTTAAACAAAGGAGAAATTAGCAAGAGCGGAAAACATTGGGAAACATCCGATGGGCAAAAAGGTCATGATACAACTATCAAATATAATGATGGGGCTGTCGAGCATTATTCCCATACACCCAATGATTCTTCTCCAAATGGATGGACATATAACCATTCTACTGGAGAAACTCACATCATTCACGATGGAAAAAAGGATTAACTCTCTTAAAAAGTAATATATTTCTTCTATAAATTGGAGAAAATTATTCAAATAAAGGATTGGGGAATAAATCTTTTTATGTTTTTAAACATAATTATTATTTATTCCCCTTTCTCTTTCATATATAATACAAATGATGAATAAAAATGAAATAATAAAATCTGGATTTTATGAAGTAGTTTTAGAAAATACTATACCTTCTAAAGATTGGATATATCATTGGTTTATTATTAAAAATTTATTCAAATATTTAGGTTTCAAATTAAATGCTCTTAATGATAATTATCCTCAATATTTAAATATAGTTGGAAATCATAAGGGATATTTAATTGAAAAAAAATTAGAATCAAAATACGATAATATATTATTAAATAAATTTAGTGGATATTGGGATTATATTGATAAAAATAAAAAAATAGATATTAATAAAGAATTATCTAATTATTTTAAAAAATATTTTAATACAAATAATATTAATATACAAAATATCAGTATTAATAATAAATTCATGGATTATAGTGATGAGAAATGTGAAGAACAACCTTTAGGATTTTATACTATTTATTTAAATAAAAATATATCTCCTGAAAATTGGACATATCATTGGTTTATTATTAAAAATATGTTCAAAAAATTAAATTTTAATTTAATAGAATTAAATGATAATGACCCAGAATATAGAAATATTATACAAGATAAATTATCAAAACAAGATTTGTTTTCTCCTAGACCTTATAAAAATCCTCTATTAACTAAATCTATGTATCTGAATTGTTTTGAAGGATTCTGTAGTGTATATACTAATAAGAAAATTGATATAAATAAAGATAATATTAAAAAGTATGAAAATTTCAGAGACAAGAAAATTGATGAATTAATATTTTATCTTAATAAATATTACAAACTAAATAAGATTAATATTAAAAATATAGATATTAGAAAAGATAAAATTAACTTTTTTTAAATATATATTAATAAATAGTTTTATCCACAATACCTAGTTGACAATATTATAAATTTGTCAAATTACATACTCACATTGTCTTTTAAAATCAATACAAAATAGAAATTTCCCATGTATGACAAAGACAAAATTATTAGTAAGTATCATAATCTAGGTAATTAGGAAATAAGGAGGTGATATTAGTAAGGCTAATAAAGTATCAGGTGAATCGGTTGATTTAGATTTAGTAGCGTTTATGAAATATCGCAATGATTTGTATAAGAAAATAAGTGAACATCATAGACTCAATTTATTTAAGACAATATTAATAATGAAGAGATTAGAAGATGTAGGTTTTACTATTAAGAATGTATATGATGGAGAAGAAATAAAAGAAGCTGATGAAAATAGTTGGCATGTTATAGTTATTGCAGAAAAATAAAAATAATGTATAAACAAAATACTATTGATTTAAAAAAATTATTAGAAGAAAATAATATTCTCTTTTTTGGAGATGACCATGATATGAATCAAGGAAGAGATTGGTTGTGTAAACAAATTTTAAATCTAGACAATATTGATTATTTAGGAATCGAATATATAGATACCTCCAAACAAGAATTAATTGATGATTCTGAATATAATAAATTAGAAATATATCTTAAAAGAGTTTATAAAGATTTTCTAGGATTTTCTCCAGATTCTGTTTTAAATTTAATAAAAATAGCAAAAACAAAAAATATCAAAATTTATGGAATAGAAATGCCAGAAGATTTGTTTGACAATTGGTATACAACAGAAGCTCAAGATAAAAGAGTAAAATATATATTTAAACAAATTTTAAAAATATCAAAATTAGGAAAAGGAATAATATTACTGGGAGCTGATCATGTAGAAAAGAATCAGAAGAATGTTTTTCAAAATATAAAGAAAAGATATAAAGATATATTATCCTTAATATTTATAGGTGGTAGAAATTGGTCACAAGATACAGAGGAATATTGGATAAGAAAATTGGAAATTGATTCACAAAGAAATAATACTGAAAATGATTTTTTTATATTAAAGATAAAAAATAGTAAAATTCCTACAGATTATATAATACATTTTCCTCAAATAGAGAAAGTAGAATAGTACAACCTTTTTTTAAATATATATTTATTTTTTTTATATCAGAAAGATTAAAAGTTTTAAATGAAAAAAATAATTCAATGTTTTATTTGGACTTCAAGCACGAGGTTATAAGTACTCTCTTTATATATTATTTTTTATAGTTATAATCTTATAGTTTATTTCTGTAGCTTGTGTCTTTATTTTTATAATATCATTAATCTTCTTTCCTATAAGAGAACTTCCTACAGGAGAAGATACTGAAATTTTACCTTGAATAGGATCTCCATCATTTAAAACTAAAATAAAATTAATAATTCTATTTTTAGATTTTAAACTTACAAATGAACCTATTCTCACAATATTTTCATTTTTATCCATTATATTTATATATGTATTAAGATAAATATATTCTATATAACATATAAAGAAAAAAATGACATTGCTATGCATAGCAAATTTGAACTTTTTTTGATACAATAGGGCTTAATGAACCAAAAAAATTATTGGGGAAATCATAAGAGAAGAAAGATTAAAAGTATTAACCAATAGAAATACTCCGATGTCCCAATTAGAATTATCTTTATCTATAGGTTGGGAAAATCCATCAACATTATCCAGAATAGAAAAAGGAGAAGTTATCCCATCTGTCTATACTGTAACAAAAATCCTGAAAGCACTAAATATAGACTCATTTAAAATTAATGCTATACTTGTAAAAGCTAAATATTTAGATTTATCAGATATTACTCCAGAGTATATTGAAAAAATAATAGAAAATGTAAAATCAAAATTTGATAATTCAAAATACCCAATAGACCTTTTAATGTACAAAACTTCTCCTCATATTTATTCTTCTTGTTATATAAATGTAATGGGAGAAAAATTTTTTTATGGAAAAGGTATTTATGCAAAACTTCAAAAATGGCAATCCAGTAAGCACGATCTAATTACATTGCTATTTGATCCTAAATATAGAATGGATAAAATACTTTTAAATTGGGAGGAATTCACATCAATATTAGTATCAAATATTCATATATTATATAACAACACTACTGAAGAAAAAGAACAAATTGAATATTTTTTTAAATTTCCTAAATTCAAAGAAATTTGGGAATCTACTAAATCTAAAACCATAGATGAATTTAAAGATACAAATATACCTTTTATTTATGATTCCCCTACAGTAGGAAGAATTGCTTTTAATATCCAAGAGATTCCAATAGTGGAAGATCACAGGTTCTTTATAGAACAATTTCTACCTATGACACTAGAAGATTCAAAAAAATTAGAAAGTATATATAAATTAAGATAAAATTCACACATTCCATTATCTTAATTGTTTAAAATGTATTTGATTTATTTTGACTCTTAGATAATGCTTTCTTTAATTTTGCTAATTCTATAATTTTCTTTGGTTTTTTTAATAAATCTTGTAATCTCTGTCTTCTTGTAGATTGAGCTTTTCTTGTATTGTGCATCTTATAAGATTTTGACTTCCTTCCTTCAAAATAAGATATTACTTCTTCTACAGTTTTAGCACCAGCCTTCTTAGAAGCAGTTGTTAATTGAGGAATAACTTCTAACTCTCCTTTAAGCATACCTTTTGCTGCATCTAAATATTCATTAGGTAAATCTTTTATCTTAATAAACTTAGCTACAAATTCTAATAAAGAACTTTTCTTTGCTTCATCTAAAGAAAATTTACCATTAAATATTTTTGTATCCGATTTACTATAATCAAATATTGCAAGATGTGCAGCATGTCCTATATCTGTTGCCATAAAAACTGGAATAGAATTCTCTTTTGCTTTACTATGCACTTCAATAATAGAGTCTTTATCATCCATAGCTAACAATATAATACGTCTCAAAGAAGTATTTTCTCCAATTATCTTGTCTACATCAATAGGAGTAATCTGTTTAGTAAAAATTTCAACATTTACATAAGGATTAATATCCCAAATCCTTCTCGCTACTATATCTGTCTTATTTTTACCTATATCCCTAAAAGATCCATGTTGCCTATTTAAATTTGAGGCATCTAATTGATCCATATCTGCTATTAATATATTTTCTGCACCCATTTGGGCTATCATTGTTGCAAAATCTCCACCAGTAGAACCTACTCCAAAAATTATAAATCTTGTATTTCTAATATCTTCTTGAACTTCAGAAGATATCACACCTCTATTTCTATCAGTAAACATGGAGTAATATACATTATGATTAGGCAAATATATTGGCCCAGAAGATGAAAGAAACCATTTACCCTTATTCTCATCTGCTATTTTTATTCCTTCTTCATTTAAATAAAAAACTTCATCATCAGACATTCTTATTAAATAAGGATCTCTAACATCAAAATCTTGAATTATTAAATCTTCTTTATTATTAATTTTTTCCATAATATACAAATTGAAAAATTATATAGGTTGTATTGTACAATAAAATATGGTATATTACAACATGTTTATATATGTGTTAGAATATAATAAATTATGAATGTAGAATTATTACAGTCTTCAGAGCTCAACAACGAGGATAAATTAGTATTAAAAGAGTTAGGATCTTTAAATGATAATTTATCAGTCTTAGCAGGTTCAAAAAAAGAATTCCCAAAAGAGTTTATTGATAAATTTTATGAAAAGAGTAAACAAATTTATATTAGAAATGGTTTTACAAAACCAGGAATTTCATTAAAAGAATGGGAGCATACTCCCAAAAATACAAAATCACATTACATAATGATAATAGATAAACAAAGAGAAGTTGTAGGAGGAGTAAAATTAATACAAGATATAAGTAATGAAGATTATCAACAAACTTTATCTACTAATATAAAAACATTTCCTGTTCATAATGAAGTAACTGGATATGATTATTATGATAAAATTCCTTTTCTTATTAGCAATAATGAAGTAATAGAAATAAGTAGATTATTTGTAGATATTAATAAAAATAATATAGCGGAAAAGGGAATTGTTTCTCCTTCCGAAGAAATTATTATTGGATTATGTCTTTATGTAAAACAAAATTTACCTCAAATAAGAGGCACAATAGGAGTTATAGAGAAAAGATTAGCATTAAGATTAATACAATACATGGAACACCTATCTCAAGAACAAATCTCTTCTATTTATACTTTCCCAGATTCTCATCCAACGAAAGAAATATTAGAGAGTGATCATTCTCCTTATTTTACAGCAAATATAGGAACACCTTTTTTTATAGATACCCATAAATATATAGATAGAATATTAAGCCATTACTAAAAATAACAAGTGATGCTATAATTTATCATAATGTTTATCATAATATTAATATTTTCTTTAATAAACTTGTGGTATATTATCCTTTTAAATAAAAGATCTCAAGGATATAAACCAAGAGTCAGTATATTTGCTACATTTATACTATTAACTGTAATATGGACAGTAATATCATATACAAATTCTTCCATTTCAAATAGACAAATAGCATACATTTCTTCAATAATTGTAATGATTGTTACATCTTTAATAACAGTTCTTCTCTATTTATTTATTAGAAATATTAATACAGAAAAAATATATTTACTAAAGCATAAATCATTCATTTTTATAATAATATTTTTTGAATTACTATTTGCTTCACCATTATTAATAAAAAGTGTAAACGTATATCCTTTTACTATCACTTTTGGTCCTGCTATTTATATTTATATACTGTTTGTTATTTATTGGTTATTAATGTTTTTGATAAATATGATCATAGTATACAAAAAATCATTTGGATATGAAAAAATAGTATTAGAGTATTTGGCTAGTGGATGGATAATTACTATTTTTTTTGCATTATTCACAAATCTATTACTTCCTATGTTAAAAATTTATTCATTTGTAGTAATAGGTCCTCTATTTTCTATCTTTATAACATCATTTACTTATTATGCTATAACTCGTACCCATATTGATGATTTAAAAAAAATATGGCAAAACATTCTTGTAACATTTTTTTTTACAATCACCTTATTAATCATTGCAATAATTATTAATTATTTTCTTATATATGTTTACAAACAACAAGATTTTTATTTATTACTTATTGTAGATTCTATATTAATTAGTCTTTTTTACATATTTGCGTACAACTATATTTTATTCAAAATTGGAGGAAGTAAATATTTCAAGAATTATGATACTTTAGATTTTAGGGATCATATAAATAATATATTAAGTAATTCTTCCGATATAAAAATAGGTATGGAGAAGTTCATATCATATATTACATCAAATACAGATATTTCTAATATTATCTTATATATAGATAAATTCGGAGATACTATTAATAAAGAATTATTTGAGATTTCAAAAACCCTTCCTTTAAAAGATAATTTGATTTTCATATATGATATAACGAATAAAGATATACAAAAAAAATTTCAAGATAAAAACATTGAGGTTGTTTCTATTTTAAAAGATTCTTTAAATAATATAGTAGGATGTATTTTTTGGAAAAATAAAAAAAATTATAATTACTATCTAAATAATGATTTAAATTTTATAAAAAATGAAACAAAACAAATTAATATGTTTGTAATTAAAGCATTACTTTTTGAAGAAAATAAAGAACTTATAAATTCACTTCAGGATAAGATTAATATTGCTACAAAAGAATTAGAAAATAATAATAAAAAATTAGAGAAAGCAAATGCAGATTTAAAAGGGTTAGATCAACTAAAAGATGATTTGATATCTATTTCTTCTCATGAACTAAGAACTCCTGCTAGCATTGTTAAAGGTAATGTATATATGGCACAAAGTGCCATTACTGAATATATAAATAAATTACCAGAATCTAAAAGATATAATGAATACTTAGAAAAATTGAAAAGATATATACAAAGAAGTATTGAGAGTATTGAAAATGAAATTAGAATTATTAATACTCTTTTAGAAGCATCCAGAATGGGAAGATCTGATGTCCCTATTCTTCCTGAAAATTTAGATTTATCTTCTATGATTGAGTCTCAAGTAGATGGGTTTTCAAAAGAAGCAAGTAATAAAGGTTTAAATATAAAATATAAAAAAACTGATGTAAATTTAATTTATGGAGATAGAACAAAAGTAGAAGAAATCATTGGTAATCTAATATCTAATGCTATTAAATATTCTGAAAGAGGAGAGATACAAATATCTACAATACAAGATAAAAAGTTTGTTACTGTCAGTATAAAAGATCAAGGAGTAGGAATACCAGAAGAAGAAATCCCTAATTTATTTCAAAAATTTCATAGATTAAACAATTATATAGGAAATCCTAATGACCCTAAAGATACAAAGCATCTATTAGTAAGACCTGGAGGTACAGGACTAGGATTGTATGTAGTAAAAGGTTTAGTTGAAAGAATGGGAGGAAAAATATGGATAGATAGTGTTATAGGAAAAGGCTCAACATTCTCTTTTACATTACCTATAGCAAAAGACATACAAAGAAATTCAAAAAATGAGTTTGAAACTCAAGATATCTTTAAAAAAATGAAACTTAAATAGAAGATTTATTTTTTAATGTCTTTAATAATTTTCTATATCTTCTTTATTAAATGGAATCATATGTTCTATATAAAATCTTTTATCTTCAAAAAAAATATTTTCCCATACAAAGAATTTTATTTCCCCAATATGTGGTAAATTAAAATTTAAAGGGATATTATATGATGTAAATTCTAAATCTTTTGATTTTAATACTTTTTCCCAAATTTTATTAAAATCTGCATATTTCCTTAAAGGTTTTATTTCATTTTCTATTTGTTCTGAATTTAGAAAAGATTTTGTCATAAAATAATAATTTCCAATAAAAATAGTCGCTGATTCTTCAAAATCTACAACATATTTTCTAAGATTAAAAATTGGGTCTAAAAAAATCTCAAGATATAAATGATCTTTCATATACTCATCTATATTAATATCTATAATTTTTGATAATATTTTTTTAGATGATTTATTTAAATATAAATTTGAACCAAATAATTTCAGAGAAATAGGATATTCATAATCATCAAATTCATCTTCAACTTTTTTAATAAGTTTATTAATATATTTATCCGTTAACTCAGGTTCAAATTCTGAATAATTTAATCTTTTAAGAAGAGTATTTATTCTTTCTTTATCTAATGATAGTGCTCTTGATATTTTTAATATCGTTTCTCTTGAGGGTATAACTTGAGAACTTTCAATTCTGGATAATGTAGATGGATTTTCCCAACCAATAGCATAACTCAATTCTAATTGACTTAAAGAGTTTTTATTAGAATTAAGTCTTAATTTTCTTATAGTCTCACCAATAGGTTCTTCTTGTATTAGTTTTGAGATCATATTTAACCTATATTATAGCATAATAGAAATATATTTTCTATCAAATGTATAAGTTCAGGAAATTTTGCACTAGGGTGTGGATAAGGGTATAAGAAAAGTGATAGTATACAAGAACTTAATTTAAAAAGATTTAACTAGATTAATTAAAAATTTTATTATAAATTTATTAATTTACACCCACAATTATCCTTCCTGATCAACACAAAATAAAGATTTGCTATGCATGGCAATGTCATTTTCACAAATAAGTATTAAAATTCAATTAATAGTAAATAAGGAGGTGATTTTAATTATGGAAACAGATACAATTACACCATTCGATTGGTTAAAAGATGAAGTTGATGAACAAATAGATAGTACAAAAATGACAACTCTTAATTCAGATGACGATAGTCCATCTACAACATATACTTCTAGTCAACCTAATGATAATGATGATTAATATTGTTTAACTTATAATATATTAAGTATGCCAAACATCAAAAGAAAATACTTTATGGATATATATAAAGAAGTTTTTGTTATTTATAATGATAAGAAAGAAGAAACTTTTGTAGATAAATTAATACAGTATGTATATAGTAACAAAAAACTTCTAAATGATTTTGAAGGTAGATACAGGATAGGATTCTTCTCATTTAAGAGAAATCGCTATTATTGGTTTTCTAAATCTAAATTAATTGGGCCAAGATACAAACATAGCATCTATATATATAAAATTAATTTCGAACATAAAGAAAATCCAGAATATTTTGAATTGAATAAAACTTTATCTACATTAAGTAAATATAAACAAATCCCTTCATATCAGAAAGATAGATATTTTGATAAAAAAAGCTTAAGTTATTTCTCGAGTTATGATTATTATAAAGAGTTAATAAAACTTTCTCATAAAAAGGAAGTTAGAGAAATGTTAGGTGGGGATATAAATAAATTTATATCTTTTTATGCATATTCTACAAGTATTTATAGCTTCTATAGTTTAAAAAAACCTCAAGAAAGATTGAAAAGAATAGATGAATTTATTAGTTTAGAAATAAGAATTACTGATGATTTTTTAATATCTGATATGATTCAAGATCTTTCTTCTCTATCAACAGTTACAAAATATAGTATTACATCAAATAAATTATTGATTAAATTACTGGATAAAATAAAAAATGATTTATATATATTATCTGATACACAAATTGTAAGTTATAAAGATTCATTTAATAAAGATACTACTGAAAAAATTTATGAATATATTAATGATAAAATTGATTTGTATTCTAAAATAGACTCTGGAGGTTTTATAGGATTATTAGATTCACAAGATTTTTTTACATCAAAATATTATAAACAGAAAAAAAGAAAGATTTTAATAATTTCAGAAAAAGGAGATCCACATGTAAATAAAGTTTTAAATTTTATTGATAATAATAAATATCATATAGATATTTTAGGAATTAATGATTTAGAGAATCTAGGATATATTAACACTTTTTCTAATATTACTGGAGAATTTTTTGATACAGAAGAAAGAAAAAGTAGAGTATATGACATATGTTGGTGGAGAAAACCTAGTTATGTTGAAAAAAATGAAAAGTATTTAAAAAATATAAATATATCTAATATGGCAGAAATTGAGAAGAAAAATTTTCTTATAGGAACAATACTTAATATTCCTATAAAAAATTGGGTAAATAACATAATAGACATAGAAAAAGCTAGTTATAAAATCCATCAATTAAAAATTGCTCAGAGATATTTTTCTATACCTAATACCGTAATAACAAATAAAAAAGAAGTAATTAAAAAAATTTTTACAGATCAATTCATTATGAAAAGTATTAGATCTCAATCTTTTGGATTGGAGAATGGTGTATTAAAAACAACACTAACAACAATTGATGATCTTAATAAAATTGATTTAAATTTCTCTCCTGTTATTGTTCAAGAATATATTGAAAAAATATGTGATATTAGAGTTACTATTATTGGAGATAAAGTTTTTGCAGCAAAAATGTTTCCTTTATCAGAAAAATCTAAAATAGATTTTAGAACAGATTATAAAAATTTAAAATATGAACATTTTAAATTACCAGAAGATATAGAAAAAAAATTATTAGCAATAAACAAACACTACAATTTAAATTATTCTGCAATTGATCTTGTAGAGGATAAATATGGAAAAATATATTTTCTAGAAATTAATCCTAATGGTCAATATCTTTGGATAGAAGAACTTCTTAATTTACCCATATCTAAAAATATTGCTTCATTTATTATAGGAGATTATATATAAATGTAATGATTTGATTATCAATATTCTCTTCATGTAAGTAAAAAAGGTATAATATATTTATGAAAAAATTAAAAAGAGATATAAATTTAATTCTATGGAGTATGAATTTAGGATTTCAAACCTCTCCATTATTCTATACACTTATCGTTTTTTCAAATATTTTAAATGTTGTGATTCCTATAATAATAACATTTATTTTAGCTATAATAATAAACATATTAATACATTTATTATCTATACATAGTGGTTTTTTTTCATCTCAAATAATATATCTAATAGCACTCTCTATACTACTAAGAATAATACAGAATATTATAACTGCTAAAAATTATTATTTTATTACCAGAGTAAGATATGCATGGGATATTATACAGGTATCAAAACTTCTTAATAAATTATCATCACTAGATTTAGAACATAGAGAAAATCAAGATATAAATTTGATTATTACTAAACTTAAAGAACATATAAATACTAGTATTAGGGATACAACTATAGATATAATTCCAAGAACAGTTTCTCAAATAATAGGCCTGCTTACTATTATAGGCGTATTTTTAGTGCTAAATCCTATCTTAATATTTTTGATAATAATACCTGTTGTTATTAATTTCTTTATTGATAAAAAATATGGAAAAGATATTTATCTTTTATGGTACTCCAAAGGAGAAGATAAAATACATAATTTGAAAGCAAGAGATACTCTTCAAGATGTTAATACATATAAAGAGGCAAAAATTTACAATATATCTGAGTATATTATAAATAAATATAAAAAAGGAAATGAAAATTTTCAAAATACAGCTATTCATAAATTAAAAACAAGAACTAATTTCTTTTTATTATCATATATTATAGATGGTATTATATTCGGAGGAATTCAGATTTGGATAATCTTGCAAGTTTTAAAAGGGCATGTCTCTGTGGGTTTATACTCCTTTTATATCCTAAATTTAAATACAGTTATAACAACGCTAGGACTCTTAGTATATAATATATCTACTTTAGTTTCTAATATAAAATATGTTTCTGACTATAAAGAATTTCTAGATATAGAAAATAAAATAGAAATCCCTATTAATCCTATTAAAATAAAAAATGAAATACCTCAAATAGAATTTAAGAATGTATCTTTTAGATATCCCAAAAGTAAAAATTTAATTTTAGATAATGTATCATTTAAAATAAATAAAGGAGATAGTATAGCAATTGTAGGTAGAAACGGTGCAGGAAAGTCTACCATAATAAAATTACTTGCAAGATTTTATGATGCAACATCAGGAGAGATTTTAATAAATAATATAAATATAAAAAATATAGATCTTAAAAGTTACTATAAATTGTGGGGAGTTTTATTTCAAGAATATTATCTTTTTTGGTTTTCTATCAAAGAAAATATTTCTCTTTCTAATATTAATAATATAAACAACTTTAACCTTATAAAAAAATCATCTAAAGATGCAAATATAGAACATGATATAGATAAGCTAAATTATAAATATGACACACTTCTAGATTCAGATTTTGAAAAAGGAACTAATTTGTCAGGAGGACAAAAACAAAAGATTGCAATAGCAAGAGCATTATTTAGAAATCCTAAATTTATAGTATTAGATGAACCTACCGCCTCTCTAGATGCTTTATCAGAAGAAAGAATATTTAAAAATATATATAAGATTACTGAAAATACAACTACACTAATAATATCTCACAGATTCTCAACTATAAAAAATGCAAACAAAATACTTGTTCTAGATAAAGGAAAAATTATAGAACAAGGAACACATACAGAATTAATGCATATTAATGGGAAATATAGAAAAATGTTTGTATCTCAGGCAAATATGTACAAATAGAATTACTAAATCAATAGAACAAAGATTTGCTATGCATGGCAATGCATGAAATTTATTAATATGACATAATCAATTTGTAGATAAAGTATCTACAGTCCTTTAAAAAGGGAGAATATAGTGTCCAAGAACTCAAAATGGGAACATGGAAAAGATTGGGACTACAAAGATGATGGAAAAGGGAAGTTTTGGAAAGGAGGTCATGAAACTTCTAAAAAGGATGGAGATGTCTATAAGATATACAGACATGACCCAGAAGGATCATCTCCTAAAGGTTGGAGTTATGACTATTCCACTGGAGAATTCGGAACTATCGGAAAGTAGATTTACTTCTCTCTTACTTAGTAACATATTTCCTCTATAGTTGGAGGATCTTGTTCAAGTAAAGGACTGGGGAATAAATCTTTTTATGTTTTTTAACATAACCAGTATTTATTCCCCTTTCTCCTTCATATATAATACTTACTATGAATAATAAAAAAGAAATAAATAAATCTATCTCAGGAGTTTACAAAATTACCTTAAAAAATGGTTTAAATACCAAAGATTGGTTATATCATAGGTTTATTATTAAAAATTTATTTATAGGAAAAGGATATATATTATATGAAAATAGAGATGCATATGGAGACTATACAGATGTGATAGGTTATCATAATGCTAATACCTTAGAATCTAAAATTTGGATAAAAAAAATACCAAGAAGAAGAAAATTATATTCTTTTTTAGGAGCCTGGGAGTATGAAGAAGAAGTAAACGATAAAGATGTAGTAACCAAATTAAAAAACTTATTAAAAAAATATTTTGAACTAAATAATATAGAAATTAAAAATATTGATGTTAAGAATTGGGAAAAAGAATATTATATTAACTATACAAACGAATAATAATATTACTAAATATTTTAACTCTCGCAAAAAAACATAATTAAATATTATTTATAAACATATTCCGAGTTCTATCAAATTAATAAAATAAAACTTTGCTATTTATGTACTTATTACATATAACATAATTAATTCATAGATAAAGTATCTGCATAGACTTTTAAAAATGAAGATTACATTGTCCAAAAACTCAAAGTGGAAATACTAAAAAGATTGGTAATATAAAAAAGATAAAAAAGAAAAGCATTAGAAAGAAGATCATGAAACTTTTTTTTCTTTTATGTATAATACTTATTATGAATAATAAAAAAGAAATATATCATTATTCAATAAAAATAGAAAAAAAGAATTTTTTATTAGGAAGTATATTAAATATTCCAATTAAAAAATGGGTTAACAATATAATAAATATCCAAAATGCAAGTTATAAACTTAATCAACTAAAGGTATTAGATAGTATAAGTGATAATTCTTTGTTAATACCAAAACTATAATAACAAATAAAAATGATATCATTTCTGATTATTTCAAAGATAAGTTTATAATGAAAAGTATCAGGTCTCAAAATTTTGGACTAGAAGATGGAATTATTAAATCAACTCTAACATATATAGAAGATATTAAAAAAATAGACCTGAATTTCTCTCCAGTTATTTGCCAAGAATTTATAGATAAAGTTTGTGACATAAGAGTTACTATTATTGGAGATAAAATTTTCACAGCAAAAATATTTTCTCATTCAAAAAAATCAAAAATAGATTTTAGAACTGATTACAAAAATTTAACATATGAAGAATATAAATTATCTAAAAATATAGAGAATATACTGTTCAAATTAAATAGATATTATAATCTTAATTACTCTGCTATTGACCTTATACAAGATAAGGAAGGTAAAATATATTTTTTAGAAATAAACCCTAATGGTCAATATTTATGGATTGAAAATGCATTAAATTTACCTATATCTAAATCTATAGCAGATTTTATTATTAATAAAATAAATGAATAATCTATCAAAAATTTTAAAAATAAATAGTATAGAAACATTGAATCTTTTAAAAGAAGATTTTTTAAAAACCAATATTATAATTTGTGGAGAAGTTCATGGAATAAAAGAAAATTATTTAGTATATGAATATTTAATAGATTTATTAAATATATCACAAGTAGGAATAGAGCTAAATAAAAATTTATTTGATTTTATAAAAGATAAAAATATATCAGAGAATGAATTTGAGCTAAAAAATAATAAAATCCTTTCTGAATATTTATCTGATGGTAGAATAAATAGATATTTTTTAAATTTAATAAATAAATTAAAAAAGAAGGATGTAAAAATATTTTTATATGATAATGCTTCATATAAAGATATTCTAAAATCAAATGATCCAAGAAATGATATAAGAGATAAAATAATGACAGAAGATATTTTAAGAGAAAATATCAATAATGAGAGAACTCTTATATGGGCAGGAAATAATCACACCAGTTAGAAAAGATCTTCAAAAAATAGGACTAGTATGTACAATCATTTAAAAAAGAAAGGTGTGAAGACTACTTTGGTTAAAATAGAATATGGTCAAGGTTATTTCTATAATTTAAAAATTAGAAAAATAAAAGGAGATCAAGATATAAAAAAGTACAAATTGTTAAAATATAAATATGGATATAAATTTCAAATTCCTAATCCTAAAGCTATAGTTCCATACCAGAATACTCATTAATTAATAATCTAGATTATCCTATCAAATCAATGAAAATAGATATTTGCTCTACATGGCATAAGCAAGTTACTATACATACGAGACTTTGAATGTAACTCATACATACTATTGACATATTATCTAGTATATATATAATAGATAATATGAAAACAGCAACTGTTAATTTTAAAACAGATATATCAATTAAAATAAAAGCTCAAGAGGTTGCTCATAAATTGGGTATTCCATTAAGTAATTTACTAAATGCATACCTTTATGAACTCATTAATACAGGTAGTGTACATTTTACTACTACTGAACCAATGACTGAAAAAATGGAAAAAGTTATTGCACAAGCAGAATTAGAAATGGCTTCAGGAAAAGTTAGTGGTCCATTTAAAACTATTGAGGAGTTTTTTGACCATCTTGATAATTTATAATGAATATTCAGACTACAAAAAACTTTGATAAACAGTACTCAAAACTTAATATAAAAATCAAAAATCAATTTAAAAAGCATATAGAATTATTTAAGCTTAATCCATTTGACATAACTTTAAGAAATCATGCACTTAAAGGAAGGTACTTAGGATATAGAAGTATTGATATTAGCGGAGATGTCAGAGCATTATATACAATTAAAGGAAATACTCTAATTATATTTGTATTCATTGGCACACATAATCAATTATATTAATACGAAATGGATTAACTGAGATATTTATCTATAAAAACAAAGTCATTGATTTTTTTAGATAGATACAAAAATTTTCTATTAAATATATAACTAAGAAATTAAAAATTTACTTAATTTTATAAATAGAGAATATTAAAAAATATTAAAGAAAATTTAATTTAATGACAATTTAAATTGTATTCATGATACCTAGTTTAATATTATTATAAAATTTATCAATTTACATAGCTCAATTATCCTTTCAAATTAATACAAAAAACTGATTTGCTATGCATGGCAATGTCATTTTTATGAATAAGCATTAGAATATATGTGGAATGTTTCTAAAAAAGAGGTATATGATATATTTAAAAGAGATTTTTCTATAAAATATAGTTGTATTATAACAATGACATATGTAATAGATAGATCATCTATAAAATATGGGAAAAGAGCATATACATTTTCACATATTGAAGCGGGATACATAGGTCAAAATATTTGTTTAATATCAGAATTAATGGGATCCTATAAGACTATTCAAAAAGAGTTATTAAGAATACTTGACTTTCATAACAATAAAGAATTAATCTTATATCCAATAGCAATAGCTTAATAAAAAAATGATTAAAGATAAATATAGATATTTAGAAAAAATTAATAATAAAGAAGTTATAGATTTCTATAAAGGTGAAAACAAAAAAATACTACTAGATTTAAAAGATAAAAATTATGAATTAATAAAAAAAGATATTAGTAGATCTTCACTCATTTCTTGGAAAACAACTCCTACAATTAAAGAAAGTTATAAATTCTGGAAAGAATTTTCATATAAAGATCAATACCCAAAGTTATATTCTCAATATAAAGATAATAAACCTAAAATGATTATGGATTTTAATGAACTTAAAGATGAAGTAATCTATGAATCTATTCCATCAAAATCAGGCGAATTTGTTGTTTATTTAACTGAAAAAAAGGGTTTAGAAATATATTATTATCATTTAATTAATAATGAGGGTGAAAGAATAAAAGATAATCTAAATAATATTTATGCATTTCTATGTTGGGATAAAGATGATGCTTTTTATTATATAAAAAAGATATATTTAAGTGGAGATATTAGAGATTATTCTTCATATAGCTATGAAATTTTTTACCATAAAATAGGAGATAATTGTAAAAAGGATAAGAAATTTCTGAATGATAAAGAAAAAGAATTTGATAATAAATCTTTTATTGGAATGTTCTTATCTGATGATGCAAAATATTCCATACTTATGAATAATAATGATGATAAAATAAACTTTTTTATAATAAAAGATAATATTGAGAATAAAATCATAAAAAAATATATTTATACAGATTACTCTTTATATGGAAGAATAAAAAATGATGATTTATATATATACACAAATAAAGATAGTGAATATGGAGAAATTCAAAAAATATCTATTAAAGATATAAAAAAAGGATTAGAACCAAAAATATTAATTAAAGAAGAAAATTTTTTACTAGATAGTTACTATTTTTCTAAAGATTACATATATTGTGTATATTTAAAAGATGTATCACACTTTATAAAGATTTATGATTATTATGGGAATTTTATTAGAAATATTAATTTTGATGTTAAAGGAATTGTTAACTCAAGTATAAGTGAAAAAAGTAATGATATATATATATACTTTCAATCTTTTACCTATCCTCATACAATATATAAATATATTTTCACTGAAGATAAATTAATTCAAATATATCAAAGTAAAGTAAAAAAAGAATTTGCTCATGAAAATTATAAACTAGAATATAAGTTAATAAAATCAAAAGATGGAACAAAGATACCTGCTTTTATAGTTTATAATAAAAATAATAAATTAGACAAACCATCTCCTACATATTTATATGGATATGGTGGATTTGGACTCAGTGAATATCCATATTATGAACCAAAAATATTACCATTTCTAAATAATGGAGGTATATATGTATTAGCTGTAATTAGAGGTGGAGAAGAGTTTGGAAAAAATTGGTATTATCAAGCAAAAGGTGCAAAAAATAAAATAAAATCAATAGAAGACTTTATCTCTATCTCTAAATATCTTATAGATAAAAAATATACTGATAACAGTAAATTATTTATAACAGGGATAAGTAATGGCGGATTTATAGCATCAGCAGCAATGGTTATGAAACCTAATTTTTATAAAGGAGTAATTGCAGAAGTCCCTATTGTTGATTTTTTAATTTATAAAAAATATGGTATAGGAAGTTTATTAACAGATGAGTACGGAGATCCTGATAATAAAGATGATTTAAAATATATTTTAAAATGGAGTCCTTATCAAAATATAAAAAAGGATACAAAATATCCAGACATATTAATAACAGGAGCTGTAAATGATACAAGAGTAGGGTTAGCACAACCATTAAAATTTGCTAAGAAAATGCAAGATTATTCATTAGGAAAAACTTACCTTTATGTAGAAGAAGAGACTGGACACTATGGCTACACTGATATAAAATCCCAAATAGAAAAAAATACTTTAATCTTTAGCTTTATATATAAAGAATTAAATATAGAACATAAAAAAATTATAAAAAGATATAGTAAATTGAGAAGAAGTATTTTATTATAATATGTACTATATGGATTTTGTAGATTTTTATTATAAAAAAACTATTCAATATAAATACCAAGGTTATAATTTAGAATTTATGGTATCTCAATCTTTATTTAGTTCTCAAAAAATTGATAATGGGACACAAAGATTATTAAGAACACTAATATTTGAAAATGTAAATAAGTTTAATAAAGTTCTAGATTTAGGTTGTGGTTATGGTCCAATAGGAATTAGCTTAAAAAAAATATGTCCAGATTCTACTGTTCATATGGTTGACAAAGATGCACTAGCTATAGAATATACTAAAGCTAATTTAAAAATTAATGATATCAAAAACAATACTTTTGTATATGGAGGTTTAGGATATTTGAATATAAAAGATAATGATTTTGATTTAATTGTATCAAATATTCCAGCAAAGGTAGAGAAAGAAGTATTAATTCATATTATAAAAGATGCTAGATATTATTTAAAAAATAATGGAAAGGTTATAATAGTAGTTATAGATGCTATATCAGAATTTATTAATAATGAACTTGTAAGTGACGATAGTATAGAAACTCTTTATCATAAGTCTTGGCCTGGACATCATGTATATCATTATACTTTTAAAAATAATATAGATACTGTACAAAAAGATTCAATAAATAAAAACATCTTTAATTCTACTCACAATACCAAATTAATTAGCAAATCTAATATTCTATCATTAAATTTAGTTCAAATTACAAATAAAATAGATACTGCAGTTTTCTTTAATTTAGGTAATGGAGATATAATACTATCTCTTGTAAAAGGTATAGATATTAAAAATATCTTTATTGTAGATAAAGATTTAGAACAATTGAATACATCTAAAGATAGATTAATTAAGAATGGGTATTCAGATAAGAGTATTAAAATATATCATCAAGTAGGAATTGAGATAGAGAATGTTAATGTAGATGCTATATTTTTAATTTTATCTAAACAGCTTCCAGATAAAGTATACAAAACATTAATACTTCAATCATTAAAGTTACTTAAAAAGAAAGGTTATATAGTTTTTAGCTCTAAATCAAATATTATTTCAAAAATAGAAAAATTTATTGATAAAAAATTCTTTATAAAACTAGATCAAGTTAAAAATAATTCTAAAGAGAGTGTATTATTTCAAAAGATAAATGATTAATCAAAATATCAACTCTAATCTATATTTTTAAAAAATTCTACAAATATACATATGAATAAATACAAAAATATACAAAATTCACAAAACTTTATAAAAAGAAATATCATTAAAAATTTACTGCAATTAGAAAATATTAACATAAACAAAAATGATATTGTCATTGAAATAGGAGGTGGAAAAGGGTCCATAACTAGTGAATTATTACCTTTAGTAAAAAATCTTATAGTTATTGAAGATGATCAATCTTTAGCAAAAAAATTAAAAGATGATTTTAAAAATATAAATAATATAAATATATATAATATGGATATATTCAAATATCCCCTTCCAAAGTATAAATATAAAGTTATATCAAATATTCCCTTTAATATAACATCTGATATTATAAACTATTTAACAAATACTAATAATAAGGCTGATGAGATATATTTGATAATGCAATATGAGGCAGCTCAAAGATTTATGGGGAAACCTTTAAATCATGATAGTCAGATTTCAATATTATTAAAAGTAAATTTTGAAATAACATATTTAACAAAAATATCAAGGCATTCATTTTTTCCTGAACCTAGAGTAGATACTGCTTTTATAAAATTTAAACTTCTAAAAAATCCTTTAATAAATTCTGATGAATATCAAGTATTTAGAGATTTTGTAATATATGGATATAACCAATATGGAAAAAGTGTATTAGACTCATTTAAAAAAATTTTTACTAATAGTCAAAAACAAAAGATAGAGCAAGAGTTAAAAATAAAAAATTTAAAACTTACAGAAATTAGTATATAAAAATGGATAAGCTTATTTAATTTATTTAAAACTATTGTTAGTCCTAATAAACAAAAAATTATTTTAGGAGAAGAGAAAAGAGATAAAGAAAGACATAAAAGGATAGTAAAAATATATAGAACAAGGATCTCATAAAAAATTATTTTTATTACAAGCAAATATATTTAAATTCTGAATATACAAATAACATTTGACAAAAAATAGACATTATTTTATATATTTATATATATGACAAATTTTCAATTCAATTATAATAGAGACAACTTAAATTTAGATATAATATTACCTGGGAGTAGTGCAGGAATAGAATCTTCTTTAATTAAAAAAATACTCAATTTATCTTTTATTAAAGGAAATTCTTCTTTATCTTTGAATTATCCTTTTTATGAAAGAGGAGAAAATACAACTTCTTCAGAAGAATTTAGCGAAGAAATAGAAAATTTAGACTCAATATTAAAATTTTGTAAATATGAAAAATATAATAATATAAGATTTATTGGAAAATCACTTGGAGCTATAATTGCAAGTTATTATCTATCTACATTAGATAGAAAAGAAATGCACAGATATTCTATCGTAGTTTTAGGATATGATATAGGATATATAAATTTAAAAAATTTTATTGGTGATATACATATAATTCAAGGAGAATATGACAGATTTGGAAATATAGAAAAAGTAAGAGAAGACTTAAAAAATGCAAAATCTAAATTTATTAGATATAATCAAATAAAAGGAGCAGATCACAGTTTTAAGAATCCTAATACAGGAGAGTTTGAATTTGAAGATGAAGCAATAAATAAAATATATGAAGAGTATTCTAAAATATTATAGTTTGTATTAAATATTTATATATATTAGTATGTTAGACAAGATTAACAAATATAAATTAAATCTATGAAGCAATTAGAATTAGAAAAAACATATCTTGCAAAATATATTCCAGATAATATTAAAGAATATAAACATAAAGAAATAATAGATATATATATTCCTGAAAGCTATGAACATCCTACTCTCAGAATTAGAAAAAATGCTGATAAATATGAGATGACAAAAAAAGTGCCTCTGAGCAATGATGATTTTTCAAAACAAAATGAATATACAATTTCTCTTGATAAAGAAGAATATAAAACATTATCAACTATTAAAGGAAAGAGAGTAGAGAAGATTAGATATTATTTTGAATATCAATCTAATATAGCAGAAATAGATATATTTCAAAATAATTTATTAGGATTAATATTAGTTGATTTTGAATTTAATACTGTTGAGGAATTAGAGAAATTTGTTATTCCAGATTTTTGTCTTATAGAAGTAACTCAAGAAGAATTCCTTGCAGGAGGAAAAGTTTGTGGAAAAACATATAAAGATATAGAAGAAGAACTTAAAAGATTTAAATATAAAAAACTTACTCTTTAATAAAATTCCATACTTTAAATTTCTGATATAATCTTAAATGGTAACACTCATAATTAATATACAAAGGTATAAGGTTATAATCTCATATATATATAATAAAAATTGAGCAAAAAAAGAAAAATTTGCTATGCATGGCAATGTCATTTTTTAATATTTATGTTATATATACAATTAGTATGAATAATACTAATAGAATAGTACAAATAGGATCAACTATATATCTAAAAAAATTAAAAAGAGTAGTTGTAATTACTTTACTAAAAGATAATCCTGATCCTTTATCTGGAAAGATTACTATTGAATCACCACTAGGAGAGTTACTTCTAGGTAAAAAAGAAAAAGATAAAATTAGGTATAATAATATAGAATATAAAATTGAAAAAATAAGATAAAATACAGATTATTTTCTTGAGTCCAATACGGTAATTTGACACTTTTTGGTACTCTAGATATAATGCAATAGTATATGAAAGTTATTTAATTCTAATGAAGAAATAATATGATAGTACAATCACCAGAATCAGCAATGCCTGAACCATATAGGACATATGTAAGACAAAGAAATGAAACTATATCTAGTGTATTAGGAGAAGTAGTCAAAGATAATAATGTCCAGCTTTGTCCTAGAGCTATTACTTCTGATGAACAAATATTTCCGATTGATAATAGCTATATATATGGTGTAGTAGTAAAGGAACTAAAAGATGGATATAAGTCTGTTTTATATTCTAATAACCCTAATTCCATAGGTATAGCAACTTCAAGTCTCGAAGAAGCAAAGGAATATACTGAAGCACAAATCAAAAGAGGGAATAGAGTTAGGATTAAAGATCCTAGAGAATCGGATGGGAGAGGACAATATACTGTAGAGTCAACAGATGAATTATTATCAGTTTTTCATGAAATCAACAAAGACTCTAATTTTGGGTGCGTTTTAATGCCATATCTAGATAGAATTCTTCATCGAATTTCGGTAGGTCATATAGCATTAGGTAAAATTGGAGAGTTTACTTATCTTGGTAGAGAGGAGACTGTAACTCATGGCAGTAGCGAGGTATATGGAGGTACAACACTTGGCTTATTCCACAGTTCCTCAGAAGTATACAAAACCCAGGTTGAGCGATATTTTGACATACCACCATACTTAACAGACTTGGGTAAAAAAGCAATCTTAGAATATGTAAAATTATCCTTACGGTATGGACGAGTTAGTGTAGATGTTGTAGAGGGAGTTACTGATAGTGGAGAGATCGTTAGAGATGTGATTGATGTTACTCCTAGGGTTGGAGGAACTACTCCAGCAGAAACATTGTCACTGGCGCAAATCCATACTGATCAAGAAGCAGTCTGTTATGCATCCAGTAAACTTATATATGATCCAATTGTATCACCTACCACCGGAGTTAACTTCGTAGATACAGATACGTTAGTAATTAATGCTCAAATTCATGATGTAATAAAATGAAAATATATATTGTAGCTGCTATACATGGAGACGAACTTTTAGGTCTAAAGGTTGTAGGGAGAATTAATCGTACTGGCAAAAACCAAATATTAGTAAGAGTTGGACATCCTGCAGCAGTTGCAAAACATAAACGATACCTAGAAGAAGATTTAAATAGAAGCTTTGCTTCAAAAAAAGATACAATTGAGGCATTCATAGCGAGGGACATAAAGCTAGAGATAAATAAATTTAATCCTGATCTTGTTATAGATATACATACTTCTGTAACCGACACAGGTAGAGTTGCTATAGTGGCAAAAGACAACCAATTAATTAGTTATGTAGCTCAGGCTTTGGGAATGGAAAAAGTTGTTATTATGCCCAAACAATTAATAGACACTTCTCTTATTGGACTTCTACCAGATATATCAATATCTCTAGAGTTTGGTATAAATAACCGATCTGACAAGCTTGCTTCAGAAATTTCTACAAGAATCGAATCTCTCAATATCTCAGATTTAAATTTGGGCACAAAATTGCCAACATTTGAAGTTTATTCACAAATTGACAAAAACTTTAGCAAACTTCATGCAATAAAAAACTTAGTATTTAATGAAGAGCTTGGTGGTTATCCCTTCCTTGCTGGTCTGAATACGTATAAAACAATTGGGGGGTTCTTAGCTAAAAAAATAAGTTAAAACACTTATGTGTTGGAAGAGTATAGGTACGTTGTTCGAACATAAAAAATAGAGGTTAGAAAATTACCGAAAAAACCTCTTCAGAGCATAATGTGGTCTGTAATTATTATACTTGTAAATTCCTTCTTTTAAAATACCTTCTAATTTCTTCTGACTAAAATTTCCATAACCTACCTCTTCGTCTCTGAGAGTTCTGTTTAATCTTTCTACTAGGCCATTGTATTTGGGTGAGTGTGGAGGTGTATGATTGAGTGTTGTTCCAAACAATTCTTTTACGAACTTCTCTGTATCTGATTGTGCTTCACTACCATTATCCCATTGAAGTCTATTAATCTTAAATGGAAAGTATTCTGATGCCTCTTTAATAGCTCTCATTGCCTCTTCCTGTGTTAGGCCAGTTATTACAGTAGAGTATCTCATTCTTGTTATCCAATCACAGAAATTACACACAAATATATTACCTACATACATAGGATCTGCTTCTACTAGATCTCCTGGATAGAATGGTACTATATGTTCATAACTGTCCTTCTTTACAGGATATGGTCTTGTTATCTTAGATAATCCTTTAATCTTTATTATTCTCGTTATGGAGGATTCTGATATATCTATATCGTAATCCCTTTTAAGTATTATCTTTGTTTTCCAACGTCCATATCTATCTGTCTCTCTTAACTCTTGTACTAATCTCGATACTGAAGAAGGTAGTTTATTCGCAGGAATTCCTCCATTCTTCCATCTCCCCATATCTTTAATTGTCTTCTTTAAACCTACCATTTTAAAAGATTTAACCCAGTTAGCATATGTTTTTCTAGACACTCTAAGTATTTTAGAAGCTTTGTCATACGAAGTCTCTTCTTTATATAGCCTATATGCGAATTTAATCTTTTCTGTTTTTGTTAAATCTATGTTACTATTTTCCATAGTGGTAGTTTATCTAAATTAAGTACTTGGATGCTACCACTTTTCTCACACTCTTATCCACACCTTAGTGTAATATTCCCTGAACCTATACATATAGTTGACAATAAAAGTTTTTTTTAATATAATCATCAAAATAGTTTAATTATAAGCTACCTGATTATGATAAATGAAAAAATACAGCCAAATCCAATTATAGGAGCTGAAGTATTTACAGGAATGAGACCAACTGCTGAGCCGACTTTGGCAAACTATTTAGGTGCTGTTGTTCCTTTATTAAAATTACAAGAAGAGGGTAAAAAACCTGTAGCTTTTGTCGCAGATTTACATGCAATTACAGATCATGAACCTAAAGAGGTCAAAAAGGTTACTCATGCTATGGTAGCTGACTATATTGCTTTAGGACTAGATCCAGAACATGTACAGATATTTATTCAATCAGAACTTACTCCTCAATTAGCAGAATTATCCATATACTTATCTAGACTTGTTACAGTCAGTGATATTTTGCGCGTACCTACATTAAAAGAAAAGTTAAAACCTGGAGCAGAAGAAGAATCTGCTAGACTTTTTCTTGCTTATTATCCAGTATTAATGGCTGCAGATATTTTATTGCAAAGAGCTCATATAATTCCTGTAGGAAAGGATCAAGCTTCACACTTAGAAATGACAAGAAGAATAGCTAGAGATTTCAATTCTTCTACTAAAAAAAATGTATTTCCAATACCTGAAACTCAACCATATGATGCTATAAATATTATATCCTTGGATGGAATAGGAAAAATGAGTAAAACTAAACCAAAAGGAGCAATATTCTTAAATGATTCTCCAGATATTGTAAGAGAAAAGATTAAAAAAGCTATTACAGCTTTACCAGGAGAAATGAATGAAGTATTGGAAAGTCATTTGCTAGTAGCTCAAACTTTATCTTTAACAGAAGAAGAAAAAGATTTAATAAAACAATTTAAAGAAGATCATCTTAAAGGTGATAAAATTATGACTGATTTTAAAAAATTATTTACTCATATTATACTTAGATTCTTAGATGAATTTCAAATTAGAAAACAATTAATAGTTAATGATAAAGATTATGTTCCAGGAATTCTTGAAGAAGGGAAAAAACAGGCAAAAATACAAGCTGAAATTACTATTCGCAGTGTAAGAGAGGCAATTTGGGGAGAATAAAATTTACTTAACAGCAATGTTATATATTATTAATTATTTAAATGTCAACTCATATAAATAGACATTGGGAAGAGGGGAAAGCTAAACATTTAGAATTATCAGAACAAACAGCATCTGATTATGACAATAGCTATGCTAATGCAAACTTTTCCACTGGACTATATATGGATTATGAATTAAAAGTCATTGATAAAGCAATTTCCTTATTAAATGTATCAAAACAAGGAATAGCTTTAGACTTAGGATGCGGAACAGGAAGAGATTCTTTCCATATTAATAAAAAAAATTGCTTCTCTAAAATAATAGGTTATGATTTTAGCCAAGAAATGATAACTATTGCTAAAAGAAATAAAAATAAATTAAATATTAATAATATAGATTTTATACAAAAAGATATTGATACTGAGAATTTGAATAATATAGAGGATGAATCTATTGATTTTATAAATTCTGGTTTTGGAATGGGTAGTTTTATTAGTAATATTGAAACTTTATTAACAGATATAAATAGAACTTTAATTCCAAAAGGAATTTTCACAATGTCATTTTATAATTCTAAATCATTATTAAATGAATTTCCTAATCTTGATTGGACACCAAGTTTATCTGCAAAAATTGATCCTCAAAAAAAATCTTTACATGTAACTTTTAATGATTATGAATTTGATATATCTGCTCACTCTTACTCAATTAATGATATTCGTAAAATTATGAATAAATATTTCTATATTGAAGAAATTTCAAGTTTTCCGACTCTATCATCTATATTACCTAATAGCATTCTTAAAAATTCAAGAATAAAAAAAATAGTCAAATTAGTTGATTATGAATTAAGATATAATAATGTTTATGGTGGACATTATATTAATGTAATATGTAGAAAAAAATGAAAATAATTTAATATATTTTCATTAATTTCCAAATTCTTCAATAATAGGGTTTACTACTGTTTTAAGATCAATACTTTTCATTAATATTGAACATGTAGGAATTCCAGGATTAAAACTAATATATTCTTGTTCTAATATAGATATATCAAAATAAGTTTGTAATCCTAAAACATTTCCAAAGGGAGGAACTCCTCCCATCTTTATATGTACAACATTTTCTGCTTCAGATTCTGTAGCTAATCTAACATTTTTTTCACCTAAAATAGATTTGATTTTATTCCAATTAATTTTCTTTCCTGCAGATAATACAAACAAGTAATATTCCTCTTTTGATTTTAATATCATTGATTTAGCACCCACTTTTATATCTACATTATTAATTCTTGCAGCTTCTTCGCTTGTTCTTACTTTTTTGTGTTGATTAAATTCATAAATTATATTATTACTATTTAATATTTCTAAGATCTCTCTAAATACTCCATGCCCTTGAGAATCTTCTTCTAATTTTGAATTCAGATTTTTATTTTCATTCATATCAATTATTATTTTATAAAATAATAAAAAATCATATTGTAGTCTATTATATCACATATAATTATGTGCATTTTTATTATTTATTTCGAATAATTATCTATAAAAAATTTACTTACAGTTACTATATTTAAATGTTAAAATAAAATATATGCTAACTTTTTATATATCTTTAATTATAATTGCTATTATTGCAGGTCTTATAGGATCCTTACTTGGAATAGGAGGAGGATTAATTATAATTCCAATACTGGTATTTTTATTTCATATTGATATAAAAATAGCAATAGGTGCAAGTATCATATCTGTTATTGCTACTTCTTCTGGAGCAGCCTCTGCATATTTAAAAGATAAATTTATAAATATAAGAGTAGGGATGTTTTTAGAGATAGCAACAACACTAGGTGCTATAACTGGTGCAATCCTTTTAGGAGTAATTGATCCTAAGATACTTTTTTTTATCTTCTCTATAGTTCTTCTAATTAGTATATATCCTATGCTTGCAAGAAAGGATAAGAAGAAAATTAATATACAGAATGACTATATTTCTGAGAAATTAAACCTAAACTCAAGCTATATCGATAACAACAATACTGTAAAATATAATGTAAATAACACTCCTTATGGACTTTTAATGATGTATATTGCAGGATTAATTTCAGGATTGTTAGGAATAGGAAGTGGTGTATTTAAAGTAATAGCACTTGATGATATCATGCACCTTCCCATTAAAGTTTCTACTACTACTTCTAATTTTATGATTGGTGTAACTGCACTAGCATCTTCTGTAATATACCTTATACATGGATATATAAATCCATATATAGCGCTCCCAGTACTATCAGGTGTATTTATAGGCTCAATAATAGGAGCAAAGATACTTAAAAAAGTATCTAACAATGCTTTAATTAAGATATTCTCTATAATAATAGCAATAATAGCGATAGAAATGTTTTTAAGAGGATTAGGTTTATTATGAAAAAGAAAGATTATAATATATATATAAGTTATATTCTTAGGATAGGAGTAAGTATAAGTTTTATCCTTGCTATAGTAGGTATTTTACTCTCACTAAAAACAAATAATATAAGTAAAATATATAAATATAAAAGTATATATATGTTTTTTTATATCAATTACATACAACACTTCACTCTTACTTCTTTTTTATTTATACCTATTATTGTGTTAATATTAACTCCTCTTTCAAGAGTGATATTTTCAATTTTTATGTTTCAAAAAGAAAAAGATATAAAATTTGTATATATAACAAGTTTCGTACTATTAATACTTCTTATCTCTATATTTATATTATAAAAGGTTCGAATCAACGATACCCAGGTGATAATGTTATTATTTTCATTTTAAGAAATTAATTAGCCTAGATTCTATAAATTTTATACTGAATGTACATCCAAAGTCCAGAATGTATGTGACGCATACAACATCTTGATATATTATTCAAGTTGTATTATACTTCTATTAATGAAAAATGAAGCTATTATATCGATTAGAGATTTTACTATGAAGTTTGGGAATCATACTGTAATAGAAAATCTTAACTTTGAAGTACTAAGAGGAGAAACATTTGGTTTACTCGGGAGTAATGGATCTGGAAAAACTACAACCTTAAGAGCTTTATTAGGAATGTATATTCCTACAAGTGGATCTTTACTCATTAATGGAAAAAAATACTCAGTAGAAAAAGGTGGTAAATTAGGATATTTACCTGAAGAACGAGGTTTATATAAAAAAGAGGCAGTTTTGAATACTATGGTATATTTTGGAGAACTAAAAGGAATGAATCGTCTTGATGCCCAAAAATGGTCTATAGATTATCTTAAGAGAGTAGGCTTGAGTAATAAAACAAATCAAAAAATAGATCAATTGTCTGGAGGACAACAACAAAAAGTTCAATTAGGAGTTACTATAATAAACAATCCAGAACTTTTAATTTTAGATGAACCTACTAAAGGTCTAGATCCTATGAATCGAAGATTATTAATGGAGATTATTGAAGAACACCAGAAATCAGGAGCAACTGTTATTTTTGTTACACATCAAATGGAAGAAGTAGAACGCTTATGTGACAGAATTATTCTATTGAAAGATGGTAAAGCTGCTGTTTACGGAACAATTAAGGAAATAAAAAAACAATTTGATAATAAATCTCTTGATGATATTTTTATTTCTATTTATGGAAACAATGAGGATATAAAATATGCATAATTTAGATGTAGTTTTTAAATTTGAAGTAAAAAGAATGCTACTGAAGAAAGCATTCTGGATTATTGCTATAGCTTTTCCTTTGATGATCGCATTAATTATTACCATAATTTATTTTTCGAATAAATCAACTAAACAAATAACTACTAGTTTTAAAAACAAAAATTTTTCTGTTGGAATAACGGATAATTCAGGATTACTATCTCCACAACTAATAAATAGATTAAATATAAAGGTAGAAAAAACTAAATCACAAGGAATAAAGGCTATAAAATCTGGAAAACTTGAGGCTTATTTTTATTATCCAAAAAAAATACCTGGTCAACCTATACAAATTTATGCTCAAAATGTTGGAATATTTAAAAATAGTCGTTATCAGAGTGTTGCTCAAAATATCCTTGAAGAATCAGTAGCTTTAAAGATAAAACCTCAGATCAGAACAGTTCTGATTTCAACATTACAAGGTAATATAAATTATGAAACAAATACATATAATAATGGTCAGCTTTCTGGTGGAATAAATAGTGTCATTGCTCCTGGAGTTTTTTTGGTATTATTTTATAGCTTAATAGTAACATTTGGAGGAAAAATGTTAACTAGTGTCAACGAAGAAAAAGAAAATCGAGTAATTGAGATGTTATTAACTAATGTAGAAACAAAGTCTTTAGTTATTGGTAAGATTTTATCATTAATGGTTCTTGGTTTTATACAGTTATTAGTTCTCTTAATACCTGTAACTTTAGGGTATATAATACTTCATAAACAATTCTCATTACCTGGACTTAATTTTTTAAGTAATATACCACTAGATCCAACAAAAATTGTAATAGGGGCAATTCTATTTTTATTAAGCTTTATATTATTCACTGGATTATTAGTATCAATTAGTGCATTAACTCCTTCAGCAAAAGATGCTAGTAGTCTATTCAGTATTGTAATGATTTTAATTTTTGGACCTCTTTATGCAGCTCCATTATTTATCTCATCTCCTAACTCATCTATAGTTAAAATATTAACATTTTTCCCATTTACATCACCTGTACCTCTATTACTTAGAAATGCAGTAGGAAACTTATCTATTTCAGATGTAGTTTTTGCAATTATTATTTTATCTGTAACTTGTATTTTAGTAATGATATTTGCAATCAAAGCTTTTAGGTTTGGAGCTATGGAATATAGTAGACGTTTAAATCCTATTGAAATATTAAAACATTTCAATTCAAAATAAAAATATAACAATATTAAATGTTAAATATAAAAGAAATTGGATTAGAAATTGAAGGAAATGAAATATTTTCTAATGTAAATTTTGATATAAGTATAGGAGATAAAATAAGTTTAGTTGGAGAAAATGGAGTTGGAAAAAGTTCTTTACTTAAAATATTATCTGGAAATATACAACCTTCAAATGGATTCATACATAAGCAAAAAGATTTAGAGATATCTTTAATGCCACAAAATTTAGATAAATGGGAAGATAATACTGTATATGAATTCACAGAAGAATTTACTGGTGTAAAAAAAGCTAGAGAAAATTTTGATGAGGCTTGCAATAATTTAACTCAAATATATACACCAAAACAATCATTCATTTATGAGAAGAGTTTGAAAAAATATGAACATTTAGGTGTATATGATTTTGAACAAAGATTAAAAAAATCTCTTAATAATGTAGGTTTAAAAGATTTAGATATTAATACTCGTTTAAAAGAAATATCTGGAGGTCAAAAAAACAGAATTGCATTGTCTGCAATATTAACTAGTAAAAAAGATTTAATATTATTAGATGAACCTACAAATAATTTAGATTCAGAAGGCATTTTAATCTTAGAAAAATTTATAAATCAATCAAAATCAAGTTTTATAATAGTTTCTCATAATATAAATTTTATATCTAATACTTCAAATAAAATTATAGAGTTAATTGGTGGAAGTTCTGGAGTAAAACAATATACTTGTAATTATAAAGAATATATTGAAATAAAGAATAAAGAGCATGAATCAGAAATTCATAACTATGAAGAAAATATAAACTTCCCACGACCTTACGGTCGGGGTTTTAGTCTATTTCAAACTTAGTTTGCCCAGAATCTTTTTCTCCCTGTAATTGGATATACCTCTTTATTACTTCCTCGTTAATCCCTACCGTACTCACAAAATACCCTTCAGACCATACTGCCTCTGTTCCCCAATATGCTTCCTTTACAAATGGAAATTTTTGCTTTAGGTCTTTTGCTGTATTCTGCTTTATTATTCCTACTACCTTACCAACTCCTATCGTTGGCGGAATCGACACTAATAGGTGTATATGGTCTTTATCACTATTCACCTCTTTTATTATTATCAATGGATAGTGTGCATGAACTTCCGCCAACCTCAGTTTAAAGTATGCAAAAACTCCTGCATTAAACAATGATTTACGGTATTTTGTTACTATCACTATATGGTAATCACAGTGATATACACAGTGACTTAGATGTATCATTTCCATACCCTACATTATACATCAACCCAAAGATTCTGGGGATACTCCATCTCGCGACCTTACGGTCGGAGTTTTAAGTACGGAGTCTATAAAGAAAAGAAAAAAAGTAGAAAAACAAATAAAGAAAAAACAAAATGATATTTATGATAAGGGAGTTAAGAAAAAGGATAATGCTAAAATAAATAATAATTTTAGAATAGAAACAGTTTCTAAGAAAAAATCAGATTCTTTGAAATCATTAAAATCTAAATTTAAAAAAATAGAAGAAATACAAAAACCCGAAGATTTTCCAGTACTTGATTTTGAATTTAATAAAAAAGAAAAAATAAATCCTAATTCTAAGCTTATTAATATTGAAAATTTAATTATTAAATACAACTATAAATCTATAGGACCTATAAATTTATACATAGGAGGAAGAGAAAGGGTTCTTTTAACAGGTAAAAATGGTGTAGGAAAAACATCTATTATTAAATCTATAATTAATCAAAATGAATTCATAAAAGAAGGTAATATAGAACTTAATCCTTCAATAAATATAGGATACATAGATCAAAATCAAACATTACCTTTACTTAATGAAAATGCTATTGATAATCTTAGATACTTATCTTCTAATCTTCCTTTAAATGAATATATACATTTACTAATTAAATTTAATATAAATAAAGAAGCCATTTATAAAAAAGTATTTGATTTATCAGGAGGAGAAAGAGCAAAAATAATATTAGCAAGTATAGCATTAAATCATTCTAATATTATTATATTAGATGAACCCACAAATAATTTAGATAATCTAACTGTAGAAGCTCTTAAAAAAGCTCTTCTTCCTTATACAGGAACTTTATTAATTGTATCTCATAATCAAGACTTTATAAAAGATTTAAATATAACAAGAAAAATAAATATAGAATAAAAATATAATTTATAAATAAATTTAATTCTATAGACAATTATTATGTTTAATAAATAAAAAATTTGATATAATATTAAAATAAAATTAAAAAATGAAACTACAATCTTTGTTCAAAAATCATAAATATAAATTATTGTATTCTTTAATATCAATAATAGTAATAATAATTTTAGGATTGTTATATTGGCACATATCCTCATCAAATATTTTTAATTCTGATAATTCAGCTCCTGTACTTGAAGCACATTCAATACTAAAAGGTAATATTCAATTAAAAGGATGGAATCTATCTAGTGATAATTTCTACACTATAGATCTACCTTTTTATATTATAGTAGAATCAATAGTAGGAATAAAAAGTTATATTCCTGCACTAGTACCTACAATAATATATCTATTAACTATAATAGCAAGTTTATATTTATCAACTATAAATCTTTTTAATAAGGAAAAAATATATTCTTTGATAATTTCATTTGGGCTAATAGCTACTGCACCTATTTTTTATCTTAACCAAACACTAGTAGGTCCTGATCATGTAGGAACTATATTATTTATATTAATCTCTTTTATATTAATATTTAAAATATTAAAAAAGGGTAGATATAATTATTACTTAATTCCATTTTTTATAATATCTTTTATGTATTTATTCGGTGATCCTTTATCAAGATATATAGGAATAATACCTATAATATTATTTTCTATATTCTTTTATTTTTATGAAGAGAGGAAAAATAAAGTTTCATATATACTAATAGGTGGGAGTGCAATATTATCTTTAATACTATCTCTAATATTAAGAGGGTATACTCTTCAATTAGGATTTTTTAATCTAATAAAAATTTCTAATACTTTTGTAAATTTATCTCAATTAAATACACATATATATTATTTCTTTTACTCTTTATTAAAAATACAAGGTGCTTATTTTTTTGGAGAAACTATATTTTCAAAAAATACATTATTAGATTTATTAAGATTTCTAATCTTAATACTTATATTATTTAGTATTTATCTTTTTTGCAAAAAAAGTTTCAAAAGCCCTATTAATATAAATAAAATAGATAAATTAAATTTTTTACTAATAACTAGTTTTATACTTAATATACTAGCTTTTATTTTTGCAAATATTACAGTTAATGTATATACATCTAGATACCTTATGTTTTTACCTATATTAGGGGGTCTACTCTTAGCAAGATATCTTTCTCCATATATAGCAAAGCACAAAATATATCCTATTATTACTGTTTTAATAGTATTCTTTCTATTTTTTGTATTAATAGATAAAAGCTCTCATATTCATAAACCTATGAATATACCTCAAGAAAAAATAAGTGTTTTCTTAAAGAAACATAATCTAAAATATGGATATGGTTCATATTGGAATTCAGCTACTATTACTTTATATTCTGAAAATAAAGTTAAAGTACGACAAGTACTATCTTATAATAATAAGTTGTATCCTTATTTGTGGTTATCTAATTATAATTGGTATACAAGAAAAGCTGATTTTGTAATATTTGGTAATCAAAAAACAAAAATAATTACAAAAGAGATAGCTATTAATTCTTTTGGAAAACCTTATAAAGAATATAAAATAGATGGATATACTATTCTTGCTTGGAATTATAATATTTCAAAAAAATATAATTTATAAATAAATTTAATTCTATAAAAAATATTAAGTATTGGGATATTATTATTTTCTTTTTATAAAATATATAAAAACTATTAATGCAGGAATAGATATAATAAGAGCAATTATTGAAACATATAAAAGGACTTGGATTACCAGAGGAGAGTTAATATTAAATATTGATATATTGTTATACATAATATATGGATAATTCCCAAATACATACATTAAAAATAGTAAAAACATTTGAAGCAGAGAGAAAGAAAATATATTTCTATATTCTTTAAATATTAACAATCCTTGAGAAAGAACAAATAATAAAAGATATAAAAATAAAATTAAAAAATAATTATTCAAGATATTATTAAAAAAAGGAAGATTTTGAAAGATAAAGAAAGAAATACTTACAAAGATAAGCATTATACTTGAAAGTATAATAAATATGTGAGAAACTTCTTCAATAATTTTTTTATCCTTTTTTGTATACATTAAAAGAAATGCAGAAGAAAGATAAATAATATTTAGAACTGCAAAAATCATAAAAGCTAAAGATAGAGGAGAAAAGAAAATGCGACTTAAAGAATAGATAATAGATCCTCCTACTTGATGAATATTATTATAAATTGATACAGAAAAGTATGTTGATAAAAATATTGGAATAAAAAGACTACATAAAGCATAAAGGGTTCTAAACGTAATAGAACTTTCATCATATTCATAAAGATATACGAAAGAAAAGGCTCTAATCATTAAAAACATTAAGGCTAAAGATACAGGAACTATAAGTACTGTTCCATAAAGCATTGGTGCTTTAGGATATATACCTATTAAAAATACTATAAAAAGTACTAGTACTGTATTTGTGAGTTCCCATATAGGAGATATATATCCAAATATAATTTTAGATAGGTTAATGTCTCTTTTAGAGTAGATATAATAATATATAGAATTTCCAAACTCTATAGAGATAAGTACTACGTAAACAAATAATAAAAGATTTAACAAAATATATTCAATCATGTTATTTTTCCATCTCTATAAATAGGTCTTTTTTTATAAAAATTTAAAAGTAGAAATATCATCATAAAAAATAAGAAGATAAAAGTAAAAAGCATCAAATAGAATATAAACCCAACATCAGGAGATGCAGTTATAGCATCTTTTATTCTCATTACATGATATATAATCCAAGGATATCGACCTACTTCAGCAGATATCCAACCAGCTTCTACAACCAAAAAAGCTGATGCACCTAAAAGCATTAATATATATAAATTAATTTTATTATAAAGTAATATTCTTTTTTTCTTAAAGAATAATATGAATACATAGAGTAGAGAATACCCAGCATATATAGTCCCCATAATAACCATAAAATCAAAAGCATAATGTATAAATAAAGGAGGCCATGAACTTTTAGGAAAAGAATATAATCCTAATACTTTAGCATTAGGAGCGCCATATGCAAGAAAACTGAGAAGATAAGGAATTTTTATGGCATAAAGAAGGTGATTATTTGAAAATATACCTCCAATTCTTTCAGAAACACCAAGATTAGTATGAAAAACTCCTTCTGTTGCTGCTAATTTTTCAGGATTAAACTGTGCAATACTTTTACCTTGTAAATCTCCAGAAAAACCAGTAAGAAGGGAAAATATTAAAACTAGAACCATAGAGAAATTAAGTATGGATTTATAATATTTCTCTTTTTTCCCCTTGATAATATAATAAGCATATATAAGGGATATTGTGAGAGCAGTCGCAAGATAGGCAGAAGATACAACATGAAAAATTTCAGAAAAAGAAATAGGATTCATAAGTGCTTTAATGGGCTTTATATTTATAATTTTTCCATTAACTATTGAAAATCCTGCAGGTGTATTCATAAAAGCATTAACAGAAGTTATCAGTGCAGCTGAAGCAAAAGCACCTATAACTATAGGAATAGAACTTAACCAGTGCAAAATTCTATTTTTAAATTTATCCCACCTATATATATATATACCTAAAAATATAGCCTCTACTACAAAAGCTATGCCCTCTAGAGCAAATGGTAAAATATCAACTTTACTTATAAGAGACATAAAAGGAGGCCATAATAGAGACAATTCAAAGGCCACAAGAGTTCCAGAAGCTGCTCCTACTGCAAAAAGTATAACTAGTGCATAAGATGCTCTTTTTGCAAAAATTAAAAAATTATCATTCTTCTTTATAATACCAATTATCTCTGCTAAAGATATAAAAAGAGGTATTCCTACTCCCAAATATGCAAATATAATATGAAATCCTAAAGAAAGACCCATTAGTACTCTTGCATATAAAAGATTAGTCATGTATTTATTATATTCATGATTAAAAAAATATGAAAGACCCATAGTTAAAATAAGTAACTATAGGTTAGTGTATGGGGTGGTTATATTAATATTCAATTTAGTAATGCATTAAATTATGTTAGAATTGAGCTATGACAGAAGGTGAGAATATATCAAAACTAATAGAAAATATTTTATTAGAAAAACTTAATATAAAAGAAAAAGTTGAGGTAAATTTCCCAAAAGACCCTAAACATGGAGACTATTCATCTAATATAATATTAAAGATCCATTCTAAATATAATTTGGACAAAGAATATGTTTTTTCTTTACTGAAAGATAATTTGAAAGAATATAAAATTGAAGAAAAATCATACTTCTTGAATATATTTATAAAAACAGAAACTTTAAAAAATGTATTTATACAAAAAAGTATTCCTAAAAGAAAAGAGAAAGTATTGGTAGAATATTCTTCTCCTAATATAGCAAAATCTTTTAGTATTGGTCATTTTTCATCTACTATAATAGGGGACAGTATATACAGAATATACAAATATCTAGGTTATGACACAACCAATGACAACCATATAGGAGATTGGGGAGTACAATTTGGAAAATTAATTTATGCAATAAAAGAATGGGGTGATCAAGAAAAAATTAATAAAAACCCAATAGAAGAACTTAATCTTTTATACATCAAATTTCATAAAGAAGAAGAAATTAACCCTGAAATAACTATAAAAGCTAAAGAGTACTATAAAAAACTATCTGAAGGAGATACAGAATTAATAGAGTATTGGAAAAAAATAGTTAAATGGAGTATGGAAGAATTCAACAAGACATATACTCTTTTAGGCATATCTTTTGAGAATATAAAAGGAGAAAGCTTTTATAAAGATATGGCTGAAGATATTGTTAAGAAAGCACTTACTAGTAAAAAAGCTGTAATAGAAGATGGAGCAGTTGTCGTATATACTGATAAAAATAAAAAGCCTTTGGTAATAAGAAAGTCTGACGGTACAACACTTTACTCAACACATGATCTTGCGACAATACAGTATAGAGCAAAAGAACTTTCTTTAAATACTGTTATATATGAAATTGGATCAGAACAAACACAAGCAATAAAACAAATGTTTGATGTTGCAAAAAAATTGGAATTATATGATGAGGGTACACAACTAATATTAATATCCCATGGTTTTGTAAAATTACCTGGTGGAGAAAAAATGTCCACAAGAAAAGGCAATACTATTAAATTAACTACCCTAATAGATGAAGCTATTACAAAAACAAGAAATATGCTCTCAGAAAGAAGTATTGATGATGAAGACACTATAAAAGATATAGCTATTGGAGCTATAAAATTTAATATTTTAAAAAGACACTATTCTTCTGATATTATATTTGAATGGGATAATATACTAAGCTTTAATGGAGACAATAGCGTATATATACAATACACTTATGTAAGAACTCTAGGTATACTCAAAAATATAGATGTAGATAAAAATTTAATAGAATTTACTAATACAGAAGAAGAAGAACTAGTAAGGATGTTATATAAATTTAATGATTATGTTAATCTTGCTAAATTATCACCAAATATACTTTCAGAATACTTACTAAATATATCTAAGATGTATAATAGTATTTATGCAAAATATAATATATTAAAAGAAGAGAATAATACTACAAAAAATACCCTCCTTTTAATCACACTACAAACTAAAGATACTATAAAACAAGGATTATCTCTTTTGGGAATTAACACTGTAGATAAAATGTAATTATCTAGGAGTAAAAAGTACAGCTTGAGTAACAGTAGATGTAGAATAATAATTATTAAATATCAGTCCTGAACCTCTAGCAGGATCATTCATAACATATTCTCCATTAGAAAGTCTTGATGTTAATAAAACATAATGATAATCGTAGTCTATAGATACTACAACAGGATGATTCTGAGCCAAAGAAGTATTAATCTCATTCCAATTAACATAACCTCCAAATAGACTTCCTAGGGGGGTTACATTAAATATTCCTAAACCATTCCAATTATACAAAGGTCCATCAAAATTAGCAGGATTTGAAGCTATACTTTGAGGTGTAATGTTATAGCCATAAAATTTCCCTACCATAGCAATATCTGTAATAAGACAACCTACCTCAGATATATTATATCCACTATAACCTAGTCTTACACCTGCCCATGCAGGATTTCCTTGACTAAAATAGAAAGATGTAGGATTTGAGCTACTTAAAGAAGCAAAACTTCTAGTATAATTTACAGCATAACTATAATTTGGAGATTGACTAGGAATAACTGCATTAGGAATAAAAATAGTTTCTCCTGAGGGTAGAGAAGATGCCATAATATTAGCATTATTCAATAAATTCCAATCTTGTATTTGAGATACTGTTGTCTGATACTTTGAAGCTATACTCTGAAGCGTATCTCCTGCTTTTACTGTATAAGTAATACCAGATACTGGAATTATATTTAAAGCTTCACCTGTATATATATCATTATTCTTAATATTATTTGACCAAGCAAGTACACTTGCAGATATATTAAACTTTGAAGCTATACTCTGAAGAGTATCTCCAGGTTTCACCTTATACCAATTTATTAAACCGTAACCAGATGTTATCTTTGAACTTGTCACATTACTTGGAAGTGATGTTTCATCTGTAAGCACACTTCTGGATGCAGTAGATAGATTCAATTTCTGAACTTTAACCTGTTTTTGATTACCAGAAGATAGCCATACCATAGAAAAACTAAACATAAACATAAATAAAATTAAAAACATTAAAGATGGCTTATATAAAGAACCTCTGCCCCAATAAAATTTCTGATATATATTTGATTTGGCTAAGTTAACCTTTTTGGATATTTTTTTTACCCTGAATATATAATACGATATTAATACTTTTCTATCATAAATATATGAAAGAAAAGATTCCTTAAACTCAGATAATAAAGAAAATCTAATAGAATAGGGAATTTTAGGTATTACTCTGGGCGAGTCTTTGTCTTCTAATTTAAACATGTGTTGTTTTTAATTAATTTAAGGCAGCTTAACTAAAACTAATAAGATTATATCAAAAACAATAAATATTGTAAAGATTTGTTAATAAGATAGGACTTATATTAAGTAATGGATATATTTTGTCTATATAAAATTATCTGTATTTAGGTAAAATAATTGTAAATTTAGATCCTTTCATATCTTCACTTTCAACTAAAATACTTCCCCCATAATTTTCAATTATAGATTTTGATATTGATAGACCTAAACCTGTACCTTCAATTTTTTTCACACTTCCTGCTCTATAAAACCTATTAAAAATTCTATCCATATCCTCTGTTTTAATGCCTATACCAGTATCAGAAACTTCTATATATATATTCTTATTTTTCTTATACATATATAAATGTACATATCCTTCATTAGTATACTTTATTGAATTTATAAGTATATTAAATATAGCTTTAGAAAAATTTTCTTTATTTATCATTGCATAAAAATCTTTACCTTTATGCTTAAATTTAAATTCTAAATTCTTTGTATCTGCAATTATTTTTATATCCTGAGAAATATTTTGAAGTACATTCAATATATCTAATTTTTCAGTTTTATAAGATATATTATTATATTCAATTCTTGCAAGAGAAAGTACATCATTTAAAACTTTTTCAATCTTTTTACTTTGATACAAATTAGCTTTCAGAATCTTCTTATAAGTTTCTTTATCCTGGTCCTTCTTTAAAGATAGATCTGTCTCTCCATTAATTATAGCCAAAGGAGTTTTTATCTCATGTGCAACGTCATTAATAAAGTTTTTCTCTCTCAGATAAGTACTTTCCAGTCTATCAAATAATTTATTAAATTCCTCCAAAAGAATACTGAATTCTCTTTCATAATTACCAGGTTCTAATCGTCCTTTTAAATTAAATCCTGTAATTGAAATTATTTGAGAAGTCATCTGAGATAGAGGATCTGTAATTTTATCTGAGAAATAGAAAGTAAATATTACAACTATAAGGATAAATATTAAAGCAGTAATAAGCATAACAAAAAAAAGTGTATGTAGAGTACTTTGAATCATCCCAATAGAATTACCAACAACAACAATTCCCTTAAGATCATTGAAATTATTAAAAACAGGAAGAGATATTAATGAAAGATTTTGATTTCCAATTTTTTGATTAAAAACAGAGGAGGTATTCTTTTTTTGCACTGCACTAAAAAGTTGAGTTATAAAGCTGGAACTAAGCTTTATATTATTAGATTCAGCAATAACTTGGCCATTTGAATTTAGAACAACAATAAAATATCCAATAAAATTTTTATCGTGGAATTGAGATATCTTACTAGAGTAGGGAGTAGATGTATGAGATACTATAGAAGAAACTTCATTTGCAGTATAAGCTAAATTAGAGTTAAATTGAGAATATAATACATATTCAGCAGTCTCAAAAAATACAAAAAGTATAATTATAATAGAGATAACAGAAAGTAATATATTCCAAAATAAAAATTTAAATTTTAAAGTAGAAAATAAATTATTATCCTTTAACTTTGTAACCCACCCCTCGAACTGTTTTGATAATTTTATTTTTATATCCATCATCTATTTTTTTTCTTAACATTCTTATATATACATCTACAACATTAGAAAAACTGTCGAATTCATAGTCCCAAGCATGATCTTCTATCATTGTCCTTGTAAGTACTACTCCTTCATTTACCATCATATATTCTAATATAGAGAACTCCTTTTGAGAAAGCTCTACTAATTTTCCAGCTCTAAAGACTTCATGTGTTTTTGTATTCAATGACAAATCACCTACACTAATATTACCATCTACAACAGAAGGACCCCTTCTTAAAAGAGCTCTCATTCTTGATATTAATTCTCCTATAACAAAAGGTTTTGTTAAATAATCATCTGCTCCAATATCAAGGCCTTTTATTCTATCTTCTATAGAATTCCTTGCTGTAAGCATTAATATAGATGATTGTATACCTTTATCTCTGATATTCTTACAAATATCAAACCCATTCATATCAGGCAACATTAAATCCAATATTATTAAGTTATATTCTTTTTCTTCAATCTTACCTAATGCCTCTTCTCCTGTAAAAACAGCATCTACTTCATATCCTTCTTCTATCAAACCTCTTTTAACAAAGTTTGATATTTTCCTTTCATCTTCTATTATTAATACTTTAATAATTTTATTCATAAAATATCCTTAAAATGCCTTGTTTAACAACACATTTATATTTTTTATGTTCTTATTCGTTGTATATACTTTTAGATGTACGGTTGAATTTAAAGACTGTTCACCAATAAGATAGCTTAATGTATTTTGAGTATTAACTTTAATACCATTAACCTCCAATATTACATCACCCGTTTTAAGACCAGCTGTAGCTGCAGGAGAATTTGGTACTATACCTGGACTAGTAGATGATTTTACAATAATTGCTCCATAAGAATATGGTAATTTTTTGCTATTTTCTATACCTGGTGTTACTAATTCATATTGAACTCCTAAAAGAGGTTTAATTAATTTTCCATTTTTAATAACAGAAGCAACATCAGCTTTTGCTTGATTTATAGGTATAGCGAAACCAATACCTTGTGCAGATGATGCAATTGCAGTATTAATACCTATAACTTGACCTGCAAAATTTAAAAGTGGTCCACCTGAATTACCAGGATTAATTTCAGCATCTGTTTGAATAACTCCCGTTAAATTTTCTACAGCCCCAGAAACTGGATCTTGTGCCTGAACCGATCTATCTAGACCAGATATTACTCCAGTATCTACTGTATTTTGATACTGACCTAAAGCATTTCCAATAGCTATAACTCCCGAACCTAATTGTAAATTAGATGAATTTCCTAAAGTTAGAGTTGGTAAATTTTGAGCATTAATTTTTACTATAGCCAAATCATTTGTAGGATCTCTAGCTATTACAGTTGCTTTATACTGTTTTCCATTATTCATTACTACTGTATATGTATCTGTTGTTGAAGAAACTACATGTTTATTTGTAAGTATATATCCATTTGATGATATTATAAAACCTGAACCTCCTCCTACAGTTTGTTGTGTAGATCCAGAAGAATTACTATTCCCTTGGGAAGAATTGGGATATAAAAAATTAAATAGATTATTACTATTCTGATTAGAAACATTCTGAGATATAACAATACTTACAACTGCAGGATTAGTTTTCTTTACAGCTGATACTACCGCTGATTGCTCATTTATAACAGGTAAATTTTGAACAGCTGAATTTACATTTGTACTATTATTGTTACTATTCATTAAGGATCCTGCAAAAAAACCGACTCCTCCTCCTATTAATATAGACATCACTATACTTATTACTAATACAAATGACATGGTTTTTTTAAGATCTGTTCTAGTTACATAACTAGGAGTTTCTATTGTTTTTTCTTTTTCTTCCATAAGTTTATACTTAAATAAAATTATTATACTTGATCAATGTATTAAATAAACATTAATATTTCATTAAAATATTATAAACTATTGATTCTTAAATAAAAACACCCTAATATAGATAAACATGAATTACATAAATATAATAATATTGATAATTTTTCTAATCTATCTTTATAGAGGATATGTAGATGGGGGGTTAAGAATTATTACAGGCTTTTTAGGAATCATAATTGCATATGCTTTCTCAGTACACTATTACATACTAGGGTCCTATATTCTTAATAAATTATTTCATATACCTATGAATTTTAATCGATTAATATCAATAATCATTACTTTTATAATAATAGCTTTAGCATTTGAACTCCTATCTTCCTTTCTTTATAAAAAAATACCAAAAGAGTTTAGACGATCTACTATAAATAAATACATAGGTGCAATTCTTTCTTTTGTAGAAGGATTAATACTTATAAGTTTTATAATATTTATAATTACAACAATAAATTTTATTCCAGGACAAATCAATATAAAAAACTCTATTAAACAATCCTCTATAGGAGCATATATAATAAAAGAAAATAATAAAATATTAAAACCAATAGTAGGAAAAGAGCTTAGCACCATAAAATTAAATAAAAATCTAATAAATCCTTCAAAATGAGTCATAAAAAGCTGGATAAATATATTTCAAATATAAGACCAGGAGTAATAACTGGAGCGGCAGATAATGATCCTGCAGGAATATCCACTTATTCTATAGCAGGATCTCAATTTGGATTCTCTCAAAATTGGATAATGCTTATAAGTATTCCTATGCTTATTGCTGTTCAAGGAACAGTTGCAAGAATTGGTGTAATAACAAAAAAAGGCCTTAGTGAAATCATACATAATCAGTACGGGCAAATTGTAGCAATTGCTATACTCTTAATTCTAGTAATATGTAATATATTCACTATAGGAGCTGACATGTTAGCAACATCAGCTTCCATAAATATGCTCTTTACAGGAACTACAAATTATACTTATATTATTGTAATACCTCTATTTCTGTTTTTTGTTTATATAATAATATTTAAAGATTATCAAAAAATAGCAAAATATATGTTTTGGGGATCTCTAGCATTCTTAAGTTATTTTATAACAGTAATAATTGTACATCCAAATCTATTATCCATAATGAAAGGTACATTTATTCCAGATATAAAATCTTTCTTCTATAATAAAACTTATGCTCTTACTGCTACAGGTATTTTAGGAACCACTATCTCTCCTTACTTACTATTCTGGCAACAAGAAGAAGAAATAGAAGAAAAAAGACCTTTTAATTTCTTAAGAAAAGAAAGGAAATCTCTAGCTTTTGGATTTATTTTTTCTCAAATAATAACAATCTTTATTATGACAGCTGCAGGTGCTACATTATACAAAGAGCATATAAATATTCTTAGTTCAAAATATCCTGCAATAACAACAGCATCAGTATTACAACCTTTGGCAGGAAAATTTGCATCTCAACTTTTTTCAATAGGAATAATATCAGCAGGATTAATAGCTATACCTGTACTTGCAATATCTACATCTTATGCATTTACAGAACTTACAAAACATAGGGGATTTTTATCTGCAAAGTTTAAAGATACTAAACTATTTTATTACATAATAATAGTATCATTATTCTCAGGAATAATCTTTTCAGTATTTAAAGTCTCTCCTATAGGGGCACTTTATTACTCTCAAGTACTAGATGGCATACTAGCACCAATAATAGTCATATTTATAATTCTTATAGCAAATAATACACACATCATGGGAAAGAATAAAAACAATCTGTTTGATAATATTTTCTCCATACTTTCTGTTATAATAATGATAGGAGCCAGTCTACTTATATTTTTATGAAAAATATTAAAAAACCCTTCTTATATCTAATTAAAATATATCAAAGAACTCTTTCTCTAGATCATGGACCTTTAAAGATCTTATTTCCTCAAGGATATTGCAGATATAATCCTACTTGCTCTCAATATACTTATGATGCAATAGAAAAGTATGGGGTCATTAAAGGCTCTATTAAAGGATTTTATAGGATACTTAGATGTAATCCATTCTCTCAGGGAGGAGAAGATCCGGTAAAATAAATCTTTTTTCATAAGATTTGATTTTTTTGTTATTAGAGAATATATTCAAAGTAATAATTTAAGTCCAACTCAAAATATGATTAAAAAAATAATCAAGCGGGACGGGAGTACCCTTCCTTTTAACCAAAATAAAATAACTATAGCTATTCTCAAAGCAGGTAATTCAATAAAGAAAGATTTTGAAGAATCAGAAGCTTTAGAAATGTCTAATAAAGTTATAAAAATTCTTGAGAATAAATATAGTAATAAAATTCCTAATGTAGAGCAAATACAAGATGTTGTAGAGATAACTCTAATGGCTCAAAATAATGAGCTTTATCATAAAATAGCAAAAGCATATATCCTTTATAGAAATGAACATCAGAAAATAAGAGATTCTCAAAGATCAATTATGGAAGGATATACTACAAATCTTCCTTTCTCAGAAAATTCATTGAGAGTAGTTGCAGGAAGATATCTGAAAAGGGATGGTAAAACAGGAAAAATAATAGAATCCCCTGAAGAAATGTTTTCTAGAGTAGCTAAATCTTTAGCTAAAGTAGAAGAAATGTACGGAAAAAACAAAGAAGAAATAAAATCCTTAGAATCTGAATTTAGAGAAATTTTATACAATTTTGAATTTACTCCTGCAGGAAGAACATTAACAAATTCAGGTTCAGATACAAAACTTGTAGCAAACTGTATAGTTCTACATATGGAAGATAGTATGGATGGTATATTTCAAACACTAAAGGATGCTGCCTTATTGCAACAAGCAGGTTCAGGTCTAGGTTTTCCTTTTCACTTATTAAGACCTGCAGGTATGAGAGCTATACAAACAAAAGGTGTAGCTTCTGGTCCAGTTTCATTTTTAAAAGTATATAATGAAGCCTTTGGAGTAATAAAACAACAAGGAAGACATGGTGCAAATATGGCTGTTATGTCTGTAGAACATCCTGATATATTAGATTTTATAAATGCAAAAAGAGTAGAGGGAGATATTAAGAATTTCAATATTTCTGTTGGAATAACAGATAGATTTATGAAAGAAGTTGATTCAGGTAGTACTAAACCTTGGATTTGTGAATTTAATGGAGAAAAAATGAAACCTAGAACCATAGTTCGATCTCAGGATGGAGTTATTGTAGATATAAAAGAATCAACAATGACTGCAAGAGAAATTTTTGATGAAATTGTATCAGCTGCATGGAGTAATGGAGAACCTGGTATAGTTTTCTTAGATGAGGTAAATAAGCATAATCCTGTACCTAAATTAGGAAGAATAGAAGCTTGTAATCCATGTGGAGAACAATTTTTACAAGACTCAGATGTATGTAACCTAGGATCTATTAATCTAGAAAAATTTGTTAAAGATGGAAAATTAGATGAGAAAAGATTAAAAGAAGTAACTAGATTATCTATTAGATTGCTAGATAATGTAATAGATAAGTCTGAATATCCAATAGAAAGAGTAAATACCGTATTTAGAGGAAATAGAAGAATTGGTTTAGGTTTAATGGGTTTTGCAGATTTATTATATTTGATGAAAATTAAATATAACTCCAAAGAAGGGTTTTCAATGGCCTCAAAGATCATGAAATTAATAAATGAAGAAGCTCACAAGATGAGCCAAGAACTTGCAAAAGAGAAAGGTGTATTCCCTAATTATGATCTATCAATATATAAGGAAAAAAATATAAAAATGAGAAACGCAGCTCTAACAACAGTAGCCCCAACAGGATCTATATCTATGATGTATGATGTTTCATCTGGAGTAGAACCATACTTTGCTCTAGTATATTACAAAGAGGTTATGGGTGGACAAAAACTATATTATATGAATAAACATTTAGAAAAAATTCTTAAAGAAAGAAATCTTTATAATGATGATATTATAGAAAAGATTACAAAAGAAGGTTCCTTGCAAAATATTAAAGAAATACCTCAAGATATAAAAGATACTTTTGTTGTAGCTATGGATATATCAGCAGAAGACCATATAAGAATGCAAGCAGCATTTCAAAAATATACAGATAATGCAATTTCCAAAACTTGTAATTTCCCTAATTCAGCTACAAAAGATGATGTAAGAGAAGGATATATACTAGCTTGGAAACTTAAATGTAAAGGTTGTACTGTTTATAGAGACGGATCAAGAGATATGCAAGTTTTAAATTTATTAAAAAATGAAAACAAAAGTACTGAGGAAAGTGATCGATGTCCTGAATGTAATTCCAAAATGGAAATAAAAGAAGGATGTGCTACCTGTCCTAGCTGTAGCTACTCTTACTGCTCTGTTTGAAATGAAAAAGAAAGAAGGTTTAGTATTAATCAATACAGGCTCTGGTAAAGGAAAAACTACTGCAGCTTTAGGCATAGCACTAAGAGCTTCTGGATATGGTCTAAAAGGCGTTATGATACAATTTATTAAAGGATCTTGGTTTTATGGAGAAAAGAAGAGTTTTCAGCTTCTTTCTCCTAATTTTAGATTAATAACACATGGTAAAGGTTTTGTAGGTATTATAGATGACAAGCTACCTTTTGAAGAACATAAAAAAATAGCACAAGAAGCACTAGAAATTGCAAAAAAAGAAGTAATTTGTAAAGATAATGATATAGTTATTCTTGATGAAATTAACTATGCAGCAAAAGGAAATTTAATTACAACTCAAGATATAATCGATTTAATCAAAATGAAAGAGAAGACTATAGATTTAATTCTTACAGGTAATTATGCTGATCAGAGTATAATAGATTTAGCAGATACAGTAACTGAGATGAAAGAAATAAAACATGCTTTCAATAAAGGAAATCTGGCTAAAAAAGGGATAGATTTTTAACTTTTCATGATATAATTTATAATATTTCTATAATATAGTGGAAAAAGAAAAAATAAAAATTAAAATAGATGGAACTTTTAATATTCCTCTCATAGTAAAATATATCAAAAAGAATCATATTTCAGGTTATATAAATAAGAAAAACAATACAGGTCTACTAGAAGGAGATAAAGACAATATATTAGATCTTATAAAACTACATAATAGTAAAAAATTTTCTAAAAAACATATTGAATATAAAAAAGAACCATATATTGGAAATTTTAAAAATTTTTATCTAATCAGTGACCCTTCTGAAATAAAGCTAAGAATATATATGAAAATATCTGGATTAATACAAAATAACTCCATCGAAACTATAGTAAAAAGAAAAGCAGATACATTCAATATAAAAGGTTGGATTAAAAAAAATGACGATGACTCTATAGATTCTAAAATGGAAGGACAATATGAACAAATATATAGTATAATAGATTTTATAAAAAACGACATACCAAAAGTAAATATAGAAAATATACAAATTGAATATCAAGAATATAAGGATGAATTTAAGGAATTCAATACTACAAGATGAAAAAAATAATAGAATATATATTTCCAAATAAAAATTATTATCTTACTACATTCACTATATCTGTACTGATATTACTTTTATCTATAAAATTATTTAGTATAAGTATATCATTTATACCCTTAGTATTTATATTAATACTACTAGTAGTAATATCTGTAAATGTAATACTGAAAAATCCTAATTTAGGGATACTTATTACTTTTGCAATTATGCCATTTGAATATATAGGAGGTTTTTATTACCATTCTATACATATCAGATTCGATCAAATAATTATAGGAATTACAGGTATTATATATATAATATCTTCATTAATTAAAAAAGATTTTAAGATAAAAAAAGATCCAACTTTTATAATAATTGGAGCTTTAATAATTGCAAATATATTATCCTTAACAAATGCATTAAATTTCTCACGTAGTATTGATATATTTTTATTCACATTAATAACATATCTAATTTACTATGCTATCCCAGTAAATTTCTTTGATATTAAATATGTAAAATATATACCATATATAATTGCTAGTATTACTATACTCTTATCAATATTTGGAATTTATCAATATATAGGTAATTTACTAAATCTCCCTGGATCTGTATTAGGATTAAGAGCTCCTTATCTAAAAAATGTTTTAGGATATCCAAGAATTGAAGCAACAGAAGTAGAACCCCTTTATTATGGAACATACCTTATATTTTCAATAACACTATCTTTAGGTATATTAATATTTAATAAAGGAAAAAATATATTGAAAAAAAATCTGAAGAATCTTTTATATATATCCTCTATATTAGGTATAATAAATTTAATATTTACATACGCTAGAGGAGCATGGATAGGTGAGGGTATATCTCTTTTAATCTTAGGTATAATCTATTTAGTAGAATATAAAATCCCTAAAAAAATGATATATACAGGAATTGTCTTTATAATATTTGTTATTGCAATAGGAGGTGTACTCTATAAAATAAATAAATTACCACATTTTGCAACAAGTATTATTAATAGAGCTACAAATCTATCTTCACCAGATAGAGTATATCTAGACTCAAATGCCCTACAAGCATTCGAGAATAATGTTTTATTTGGAATTGGAGTAGGAGGATTTGGCCCGTATATGTCAATAAATCCATATATAATACCTTCTAGAAGTTTTGGCCAAATAGAAGGATATGGATGGGCTATAGTTAATAATGAATATCTAGAAATACTCAGTGAAACAGGTATAGTAGGATTTATATTATTTGTAATGCTTTTTATAAAAATAATACAAAATTTTATAAAAGCTGTGAGAGTCAATAAATATAAAAATAGCTTTGAGAGAGTCATATTAATATCAACATTTGCTGCTATGATTGGAATACTTGTTCAATATACGACTTTTTCAACTCTATATATATTACAAATTTGGATGGTTATAATGCTGGTAGAAGTAATCTCTATAAACATATTACATGATAGATAAAATTAGAAAGAATACAATTTGGTTAACTTTATCTCAAGGAATATCAATAATAGTCTCATTAATATTAACTCTTATTCTAGCAAGACATTTAGGTCCGAGATATAACGGTATATATAATTATGCTAACGCTATTGTAGGTATATTCGCTATATTTGTTGATTTTGGTATGTCTACTGTTCTTATTAGAGACATAGCTAGAGACACAAATTTAGTAAAAAAATATCTAGATAACCTTATTTCTTTAAAAATAATAATAGGAACTACCATATTAGGATTAATAGTTATAACTTCATTTTTCATAAAACAATATAGTGATATTACTTTTATAATGTTTTTCTTAGGTCTTTATAATATTTTATCAGGATTTTATTCTCTATTTACAGGAGTATTTCGTTCTCATAATGTAATGAGGTATGAATCATTTAATACAATGATTCAAAAGATATTGATGCTAATTCTAGGGCTAATATCTCTCTATTATTTCAGAAGTGTTTTATATTATTCTATATCCTTTTTTATATCAACTCTTATAGGAGTAATCATAAGTATTATAATCATAAGAAAGAAATTTATTAAATTTTCATTCTCTATTAACAAAGACTTCTGGAAATATATGGTTAATGAAATGTGGCCTTTTGGAATAAGTGCTATTGCAGTAACCATATATTTCACTGTAGACCAAATCTTATTAGGGTCACTAAAACCAATTACTCAAGTAGGTTACTATGCTCTTGCAAGATCTGCAACAGGTGTAGTGGGATCCATTATAGGTATAGTTATAGGAGTTTTATTTCCATCCCTATCTTTATTATATAAGAAAAACAAATCCGAATTTGAAAATTTATTTAATAATTCAACAAAATTTATGAGCATATTAGCTGCTATATTTATGGCAGAAATGATTGTTAATTCAAAAGAATATGTACTTTTAATTTTTGGATATAGATATTATAACTCTATTACACCATTAATTCTTCTCTCTATTGCAACAGGTATAATATTTATTAATGCATTAATAGGAAATACATTTGGAGCTGTAGATATGCAAAAAACACTCCTTAAAGGTCTTCTTATTGCAATGGTTGTAAATATAGTAAGTAATCTATTATTGATTCCTAAATTCGGAGTAAACGGATCTGCTTTCTCCTCTATATTAACTGAACTTTTCATCTCAATATATACCTATCCTATACTTAAATCTAAATTCGATATATATATACTAAAATATATATCTATACCTATACTTGCAGCTTTAATAAGTGGGGGATTGATGTTACTTTTAATAAAATTCAATGTAATATTAATATCTTTAATAGGATTAGCTACATACATAATACTATTAATATTATTTAAATTTATAAGTATAGAATTCATTAAAGATACAATAAAATTAGGAAGAGTAAAGACTTAAAATATAACTTCTATTATAGTATACTCAACATATAAATTGAATTAAAATATATGAAAATAGCAATTGATGCAAGATTCGCAAATATGAAAGTTGGAATAGGTAGAGTAGCTTATAATCTTACAACAGAGATCTTACTACTTGATAATAAAAATCAATATATAATCCTTCTGGATAAAGATGATCCTTTCAAAGAGATAAAAAAAGACAATGTAATAAAATTACATAATAAAAGAGCTCTTAAAAACAAACTTTTATGGCAATTTGTATATCTTCCATATATATTAAGAAAAAAGAAAATAGATGTGTTTTTTTCTACAGAAAATCTAATAAGACCTGTTTTTTTTAAAGGAAAAACTATCACAACCATACATGATCTTATACCCTTAGTTTACAAAGAATACTTAAAACCATTTAGTCCTTATAAGATTAAATTAGCAATCACAAAATTATTTCCTCCTGAAAAATTCATGACAGTATCTAATTTTTCAAAAGAAGAGATAAAAAGAATATTAAAAACAGAAGAAAATAAAATATTTGTAATAAAAGAAAGTTTTGATAAACGTATAAAAAATATTAAACAAAGTAATAATATATTACACAATTTAGATATTAAAAAGCCTTATATACTAGGTATTGGTGGAATGGAGTTGAGAAAAAATAATAAAATTTTAATATCTGCATTTATATCTATGATAGAAAAGAATACAGAACTGAAACATACACTTGTAATTGTAGGTAATATTTATTCAAAAAAAATACCTATGGAGAAACACCTAATCTCAGATAACTTAAGAGAAAGGATTAGATTTATAGGAGATTTGAGAGATGAAGAACTTTCTGTAATATATGAAAATGCAGAGATTTTCGTCTATCCTACAATATATGAAGGATTTGGACTTCCTCCTCTAGAGGCATTTAAACATAAAGTTCCTGTTATAGCTTCTAATATAACATCCATACCAGAAGTTGTTAAAGATGCTGCAATACTTATTAATCCATATAAAGAAAAAGACATAGAAGAAGCAATGCTTAAAATAATAAGAAATGATAATTTAAAAAAAGACCTCATAAAAAAAGGGACTAAAATATTGAGAAATTATAATTGGAAAGAAGCCGCAAATAAGGTTATTAAAGAATTCGATAAATTATATGAAAAGTGATAAAAAAATAATAATACTGACAGAAAATTTAGGAAAAGGACATATAAAAGTCGCTAATGTACTAAAGAATGAAATATCTAAACAATTAGATATAGAGGTAGAAATTTTAGATTATTTAGGTGTAGCAGGTAAAATATTTGAAAATGGAGTTAGCTATATATATAAAAATCTCATAGAGAATTTTCCTAATCTATATAAAATGTCTTATGAATATAATGATAAAAATAAACCTTATGGACTAATAGATAGTATGATAGGTGCGAAATTAAAACAAAACTTAGGAGGAGACCTTTCTAATATAATATTCATTTCAACTTTTCCAAATGCAACTGCAGGAATATCATCATTAAATGCATATAAAAAATATACTGTGATAACTGATTATACAGTACATGGTGGGTGGATTTACGATAAAATAGATGGGTATTTTGTTGCAAATGAAAAAGGTTTAGATACTTTAAAAAAACATGGGATAAATGAAAAAAATATTTATATAACTGGTATTCCTATACCAAAAGAATTTTATGAGAAAAGAAATGTAAGAGAAAGTAAAAAGATGTTTAATATAGATATTCATAAAAAAACAATCCTTATAATGGGAGGAGGTGATGGCGTTATAAAAGATGCAATAAATTTAATACAGAGTTTGGAAGAAGAATATAATGTTATAGTTATAACTGGCAAAAACATAAAATTAAAAGAAAAATTAGATAAAATAGATTTCAAAAACACAACAATATTAGGATTTGTAGAAAATATATCACAAATAATGGATATAACAGATATTGCTATATCTAAATCTGGAGGTATATCTATGACAGAGCTAAATGCCAAAAGAATTCCTATACTGATATATAATGCAATACCTGGACAAGAAAAAGGAAATGCTGATTTTTTTGAAGAAAATAAGGCAGGAATGCAAATATCTAATTTTAATAAAATAAAAATTACCATAAAACATATATTAAATGGTAAAATACAACTTGACGGCAAAATAGTAGATAGAAGATATAAAGCAATAGATAAAATAATAAATATTATTAGAAAGGATTTATAATATGAAAAATAAAAAAAAGATACTAATCTTAATGTCTAAAACTGGAAATGGTCATCTTTCTGTGGCTGAATCTTTAAAAGAGGCATTCGAATATACTGATAAAGATAAATACGAAGTAAAAATTGTAGATGGTCTTCAAGAATACTCTAGTAAATTAATGAAGAATATATCTAAATCTTATGTTCCTATTGTAAAATATGTTCCATCTCTCTTTACTTCTGGGTATTACTTCACTGACAACGAAATCAGACAATCTTTATTTCTATCTCTAATAAGACTTCATTCAAAAGAAAAAATAACTAAATTAGTAGATAATTTTAAACCAGATCTAATAATATCTGTTCACCCTCTACTAAATCATATAACAGGAGAAATAGCTAAAAGTAAAAATATACCCTTTGTTGTATATATAACAGATATGTACCATGTACATGAAAGTTGGTTCAATAGAAAAGCAGATCTATACCTAGTATCTAATAAATATATTGCAAAACAATGCAGAATGCATGGCATAAAAAATATCAGTATTCATCCTATTCCAGTAAAATTAAAATTTTTCAAAGATATTGATAAAGATAAAATAAGAAAAAAATATAATATTGATAAAAATAAATATACACTATTAGTAACATTTGGAGGTGGTGGTACCGTTAGCCCTATCAAACTTCTTAAAGATTTAATGAAGAAAAATATGGGAGACAGGTACCAAGTAATAGTAATAAATGGAAAAAACAAAAAAACATATAAGGATGTAGAAAAATTAAAAGAACTAAATAAAAAAAATTCTCTAAAAATAGTTAATTTAGAATTCATAGATAATATGGAAGAAATTATGAGTATATCTGATATATCTATATGTAAAGCAGGATCCACTACAGTACAAGAATTATTTACTATGAGTGTTGTTCCTATTATTGTTAATTATGTTAGAGGACAAGAAAAAACTTGTTCTGATTTTGTTAAATTAAAAAGGGCAGGTATAGTAAATAAAAGAAAGGTTATAGAAAGTATAGAAAATATAACTAAAAACCCTAAAAGATTAGATAGATATAGAAAAAATGGAGAAAGGTTAGTAGAAAAAAATTCCTCTCTAAAGGCTATAAATGAAATGCTTCAGTTAATTAAATAATAATGTATATACTATTAGATGCAAGAGAAGCACATACTACAACAGGTACAGGAAATGTAATAAGAGAACTATATCCTGCAATTGTTAAAAATGACAAGAATAATAGATATGCAATACTCTATACTAAAGAAGATCCTTTTCCAGAACTTAAATGTGAAAAAATAAAGTCACCTAAAGATAATCAGGCTAAATTTACTTATATATGGCAATTATTCTTTCTTCCTCATTTTTTAAATAAGAAAAAATTTGATGTCTTCTTTTCTGTAGAAAATCTGGTAATGCCATTATTCTTTAGAGGAGTATTAATAATATCTATCCTAGATATTATACCTTATGCATTAAAAGATTATTATAAAAAACCTATTGATAATATTAAATATAAAGTAAAACTTTTTCTTTTAAAATTTATGAAAAAAAAGGATTTAATATATACCATTTCTCAATATTCAAAAAGTGATATTCATAAATATTTAAAAATTGATAATAGTAAAATCATTGTAATAGAAAATTCTATTATAAGGTACAAAGAACCTAAAAACACAAAAGAAATACTGAGAAAAATGAAGATTAATAAACCATATATTTTATCAATTGGAGGTGGAGAGAAAAGAAAAAATAACCTAAGACTCATTGAAGCTTTTAATGGTATAAAGACAAATATGGATTTGATAGTTGTTGGAAAAATAGACGGAAGAAATGATGCAGCTCAATTTGATGATTTACCTACGAGTAAAAATATTAAAACTCCAGGTAAAGTAGATCAAGATACATTAGTAGCTTTATATAAAAATGCACATGCATTTATATTTCTATCATATTATGAGGGATTTGGACTTCCTCCTCTAGAAGCAATGAAATTTAATGTTCCAGTCCTTTGTGCTGACAGGACATCTCTTCCTGAAGTATGTAGAGATGGAGTATTATATGCAGATCCTTTTGATATAGAAGATATAAAAGATAAACTTATTACACTTATTGATAATAAAGAGATAAGAGAAGATCTAAAAAAGAAAGGTAAGAAAGTTCTAAATTCATATAGTTGGGATAATGCTGCAAAAGAAATGATTGCCGCAATAGAAAATATAAAAAATGAAGATAGATAAAAATATCAATTTATCAAAATATACAACATTTAAAATAGGAGGTGTAGCTGAATTTTTTTCAGAAGCTCAATCTAAACAAGATCTATTAGATGCTATAGAATACGCTAATAAAAATTCCATGCCTTTAAATATAATAGGAGGAGGTAGTAATATTTTAATATCAGATAAAGGTATTGAAGGTCTTAGCGTTATTAATAAATATAAAGAAATTAATATTGAAGGAAAATTAGAAGAAGATATAAATATAGAAAATAATAAATCTTTTTATAATGAAGGAGAATATTTTAAATTTTCAGATCTAATAGATACCAATGAGAGAGATACTCAGAAATATTTAGTAAAAGTATCTTCTGGGGTAAATTTAACATATCTTATAAATGAAACTCTACACCAAAATCTTACAGGTATACAATATTTTTCAGGTATACCTGGAACTTTAGGAGGAGCAATATTTAATAATATACATGGTGGAGAAAAATTAATAGGAGACTTAATATACTCTGCAACATTAATAGATAAAAAAGGTGAGATTATAAATGTAAATAATAATTTTTTCAAATTCGGATATGATGATTCAATCTTACATAAAAATGAACATATATTAATTGATGCTCAATTAATACTTTTTGAAGGTAGTGTAGAAAAAGCAAAAGAGACTGCACATGAATGGATAAAAAGAAAAAGAAATATACAACCATCTCTACCATCAGCAGGATCAATTTTCAAAAATATTACAAATGAAGAAAAAGAGGTAATACAAGCTCCAGTTAACTCAGCAGGATGGTTAATAGAAAATGCAGGATTAAAAGGTAAAACTATAGGAGGAGCACAAGTTTATCAAAAACATGCAAATTATATAGTTAATATTGGATTTGCTAAAGCTAGTGATGTTACAAACTTAATAGAAGTTATACAAGAAGAAGTATTTAAAAAATTTAAAATAGAACTTATTCCAGAAATAATACTAAAAGGTAACTTTTAAACTAAAGTATCTATTACTTTTCCTCTTCTATTACCTCTAAAAGAATTTTACCTTCTTTATCTTTTCCTTTATACTCTAACTCTATTCCACAAAATGGACATTCTAAAGTATCTTTTAAAGAGACTTTCTCTTTAACTTCAAATTCATTTTGACATTCTAAACATGTTACTTTCATAACTATATTATAAATAAATTTTGACAATATATCAAATTTAAATAAAAAATTTCAAAATATATAATTATATCTATGTTATTTAAAATTAAATATACAGTAAATTGCTTTTAAATAGGCTTTCATGCTAATATTGTTCATATGAATAAAGACAATTACGATTTTCTTAGCATACAAACAAAGTGGAGAGATATCTGGGAAAAGAATAAAATCTATAAGACTAATATTCTTTCAGAAAAAGAAAAATACTATATTTTAGATATGTACCCATATCCTTCAGGTGTAGGTCTTCATGTAGGACATATTAAAGGATATACAGCATCCGATATAAATGCACGTTACAAAAGATTAAAGGGATTTGAAGTTTTACACCCAATGGGGTGGGATGCATTTGGACTCCCTACTGAAAATTTTGCAATAAAAACAGGAAAAGATCCATACCTAGTAACAAAAGAAAATATTACTGAATTTAAAAAAGAAATTAGTAATATGGCTCTTAGTATTGATTGGGAAAGAGAAATAGATACGTCAAATAAATACTATTATAAATTTACTCAACTTCTATTTATAAAACTATATAATAAAGGGTTAGCATATAAAAAGAAATCTCCTATTAACTGGTGTCCTTCATGCAAAACAGTTCTTTCAAATGAACAATCTATGAATGGTATATGTGAGAGATGTGAGAGTAAAGTTGAAATAAAAAACATAGATCAATGGTTTTTTAAAATCACAGATTATGCAGAAAAATTATTAGAGGGAATTAATAATGTAGATTGGCCTGTATCTATTAAAAAAATGCAAGAGAAATGGATTGGTAAAAGTGAAGGAGTTGAAATACCTTTTGCTATAAAAGATTCTAAAGAGATTTTAACAGTATTTACAACCAAACCTGAAACAATATATGGTATAACTTTTCTAGTATTAGCTCCAGAAAGTCCTCTAATAGAAAGTTTAACTACAACTGATAATAAAGAACTCGTTGAAAAATATATTAAAAATATATCACCTCAAAAAGAAGTAGAAAGAAAAAAGGATGTAAAAACAGGTGTCTTTACAGGTAGTTATGCAATAAATCCAATAAACAATGAATTGATTCCTATATGGATTGCAGATTATGTATTGATGGAATATGGAACAGGTACAGTTATGGGGGTGCCTGCTCACGATAAAAGAGATCTTCTATTTGCGCAAATTCATAATTTGAAAATAGAGTTTGTCTTAGAAGAAGATAAAAATAACTATATAGAATCTAGAATGATAGTAAGTAAATATAAAAATAAGAAAGTAAAAGAAGTAAGAGATTCTATAATAAATGAAATAAAAGATTCGAAAAGAGTAATAAATTATAAACTTAGAGATTGGACAATATCTAGAGAAAGATTTTGGGGGGCACCAATTCCTGTCGTATATTGTGATAAATGCGGAGAAGTCATACTTGAAGAAAAAGACCTTCCAGTTCTTCTACCTCAAGATATAACAGATTATGTACCAACTGGTATTCCACCTCTAGAAAAATCTGAAAAATTTATGCATACTACTTGTCCTAAGTGTAAGGGACCGGCTCTGAGAGAAAGTAAAACAATGGATACATTTGTTGATTCTTCATGGTATTATCTACGCTTTATTGATCCTTTAAATGAAGATAGTATAGGGAAAAAAGAATACCTTGATAAATGGATGAATGTAGACTTATATATAGGAGGAAGTGAACATGCAGTAGGACATCTACTTTATTCAAGATTCATAACAAAATTCTTATTTGATGAAGGAATTTTAGATATAGAAGAACCTTTTCAAAAATTAAAAACAGTAGGTTTGATATATGGAGAAGATCATAGAAAAATGTCAAAAAGATGGGGGAATGTAGTAAAAGTATCCTTTGTAACAGAAGAGTATGGAGCAGACAGTGTGAGAATGTACATTATGTTTATGGGACCATTCGACCAATATGCATATTGGAATACTAAATCATTAATTGGTATAAAAAGACTCCTTAATAGAATTTGGGATCTACAAAGTAAAATAATAACAAAAAATGCTAATACTGAAAATGTTCTTACAGATAATTTAGTAAGAAAAATTACAGATTATATTGATAAAGGAAAATATAATCTATGTGTTAGTGAATATATGAAGTATATCAATGAAATAGAAAAAAAGAATTGTATTGGTAAATCTAATTTTGAAAAGTTTCTCATTATTCTCTCTCCATTTGCACCATATATAACAGAAGAATTATGGAATAGACTAGGGAATGATTTTAGTATACATCAATCAAAATGGCCTTCTTCAAAAAAAGAAGAACAACATCAAAAATATATAAATATACCTATACAAATAAATGGTAAACTTAGAGGAAATATAATAACACTTTATGATTCTTCAGAAAAAGAAATACTCGAATTAATAGAAAAAGATACTAAACTTAATCAAAGGATTAGTAATATAGAAATAGATAAAATTATCTTTATAAAAAATAAGATTTTAAATATTGTCTCAGCATAAAATATATGGAACAAAAAAAAGGTATATGGAGTAGTTCTTTATATAATCCTATTATAAATAAAAAATTTCAAATAAGTCTAAACGAAGGTAATACACCTCTTGAAAGATTAAAATTTTTAGAGATTGAAAGTGGAGTAGAGTACGTTTATGCTAAAAGAGAAGATAAGAATCCAACAGGTTCTGCAAAAGATAGAATGATTGCATACTATTTCTCATTATTAAAATCTAGAGGTATCAGAGAAATTGTAATTCCATCATCAGGAAACACGGCAATATCATCTATTTATTACTCAAAACTAGCAGATATAAAAGTACACCTTTTTATACCTTCTAATTTAGATAAAAATAAAAATGAAAGATTACATGAAGCTATAAAAAAGAATCCTAATGTAGAAGTAATTCAATCAATAAAACCACTCTCTTCTGCTATACAATTTTCTATAAAAAATAATATTGAAATTCTAAGAGGATCTAATAGTAAATATTCAGAACAAGGATATAAATCCTTAGGAGAAGAACTCTATCAAATTAATGCTAATGCAATATTTATACCTGTTAGTAGTGGAACAACTTTATCCGGACTTGCATTAAAAAATAAAAGTCAAATACACGCAGTACAAACATCAAAAATTAATACTATATCTAGAGATTTTGATAACGATTTTAAATATGAAGAAGAATCTTTAGCTAAAGCTATAGTTGCTAGAGTTACTCAAAGAAAGAAAAATGTAGATAAAATAATTGAAAAAACAAGAGGATGGGGTTGGTGTATAGAAAATAAAGAAATTAAACAATATCATAATATTCTTGAATCTAAAGGAATTAATACATCTTTTGAAGGAGCATTATCTGTCGCAGGATTTTTTAAAGCACTAGAAAAAGGATATTCATTTAAAAAAGTAATTTTACTCTTCACTGGAAAATGAAAGATATAAACAATTTAATAAAAGATCAAAGTATAGTATATGTAACTAATGACCCTGAAAGATCGCTAGGATTAGAAAAAATAATTGATGATTTTTATACTGTATGTGTAGATGACTCATACATTCTAAACTTTCTAAAAAATTACTATTCTCTAAAAAAAGATATCCCACAAAAAGATATATATAGAAATTCTAATTTATTATTAAAAGAAATATCTGTTCAAAAATATATATCAAAAATAAAAAATCCAAATTTTATGTTTTTTAAAATAGCACCAAATATAGAATATACTCTTAAAGGAAAAAACATTCTTAATACAAAATCTAATCTAAATAAAAAATATGAAAATAAAATTATTATAAGTAAAATATTTAAAGACCTAGTTCCTAAAACAATAGATATATCCTTAAGGGAAAACAGTTATGAATATATAAAAAATAGAGTAGGGAGTAATTTTGTAATTCAATTTCAAAGAGGACAAAGCGGAAATAGCACTTTTTTTATAAATAATAGTAGAGAATTTAATCAGATAAAAACAAAATACCCTTTTAGAATAGCTAAAGCAGTACAAAGAATAGATGGGGAGTATTATACTCTTAATGGAGTTATAACAAAGGATTATACTTTATTAGGAAATCTGACTAGACAAATCACAGGAATACCCATTTTAACTAATTATAAAGGTGGAAGCGTAGGAAATGACTGGAATACTAAATTATCTTCAAAAAATAAAGAAACATTTTTTAATACAATGAATTTAATCTCAGAATATATGAGAAAAGATGGATATAAAGGAATGTTTGGAGCAGATTTTGTATTTGATGGGAAAAAAGTATATCTGATAGAGATTAATGCAAGAGAAAATGCAACAATCCCTATATTTAGTAAAATACAGATTGAAAAAAATATAATGCCATTTAAACTTATACATGTATTAGAATTCCTAAAAATTAAATATAATATAAATCCTAAAAAAATTAATGAAGATTTCTATGAGGATGTAAATCTAAATCAAATAATAATAAGAAATATAAAAAAAGATTTAATAGAAGCAAAAATGAAATTTAATGGTTTATATAATGAGCATATAGAAAAGATTTCAGAAGGTTATGATATAGATTCCCTTGATAATAATAATTATCTAATACTAACAAATAAAAATTTTATCACTCCTAATATGGAAATATCTAGAGTAGTATCTAAAAAAAATATAAAGGTTGAAATGATAGAAGATTTATTAAAAGATATATATTAATTAATATACTCTACTACAAATGAGTTTCTTTGACTATTATTTTTTTCTCCCCATTATTTAATACTGAATCTATCTCAAAAGTAGAAATTATTCTAATTAATTTTCCATCTTCATAAAAATGTTCTACTATTCTATGTACTAAATCACCATTTTCATTAAATATTCCATTTTTATGAATTTCTCTTACTTTCTTGCCTAACTTATCAAATTCATATTCTACAAAAGATTCAATACTCTGATGTCTATTTACCTCAACTATCCTTATTCTACATACATCTCCATCTTCATCATAAAAACTACTATCTTTAATAAAAGTCTCTCCATTTTTAAGTTTAATAACTCTATCTGTTTGAATCGTTCTACCTGTTATAGGATCTTTTTCTGTACTTAAAGATATATCTACACCTTTATTAGAAAAAGATTCACTAAGATAAGACTCTAAATTCTTAGATTCAAAAAGATTACTCTTAATATTTCCTATATTATCAAATTCATTACCCATAAATAAAAAGTATAAAACAAAGTATCATTATACCATATTATAGGATAATCTCTTATATTTTTAGTTAGGGAAATGATTTATAAATACACTAGAATAACAATTTTGAGAACAAGAATGTTGATTTTCTATATCACAACTCTCACAACAAATAAATTGAATATTACATTTCTTATAGATACAGTTAATATATCTATCTGAAGGAATTTTACAATGCTTACAGACAGATATTATCTTAGATAGAGGATCTATTTCTACTGCAATTCTTCTATCAAAAACATAACATTTTCCTTCAAAATCAGAAGGATAAGAGTTTGCATAATTAAGAATCCCATCCTTCAATTGAGACACATCTTTAAATCCATTATTCCTTAATAGAGAAGACGCTTTTTCACATCTAACTCCTCCTGTACAATACATGACTATCTTTTTATTTTTATACTTTTTTAAAATATCTATAACTTTAGGAAAATCTCTAAAATTATCTATATCAGGAGTGATAGCACCTTTAAATTTACCTATATATGATTCATAGCTATTTCTTGCATCTAAAATTATCACATTTTCATCTTCTCTTTCTATGATAGAATGGAAATCTTCAGGACTAATATATTCACCTCTTTTATCTTTTCCATTAATGTCTATATTTTGCTTTAGAGAAACTATCTCATCTCTTATTTTTACTAAAAGTTTTGGAAATACATCTATCCTAGAAAACGATTCTTTAAAAACTATATCTTTAAATTGTTCTTGTGAAAGAAGATTTTTTTTATATTCTTCTATATCTTTCTTATCACCAGACAAAGTTCCATTAATACCTTCCTTAGATATGATAATCCTACCTTTAAGATTTAATTTTTCACAAATTCTAATTTCTGAATCTTTTAATAATAAAGGCTCTTTTATATTTATATATTTATAGTAAAGTATTACTTTTCTCATAAGTTATTATTATATACAAAAAAATATTTTTTTAAAGTAATAATGATATAATAAGAAAAATGAAAATATATAAAAAAGTTTTGATATTAGTAATAGGAATTTTACTCTTCTCATTTGGAATTTCTTTAAATGGTTATATTGGATCTAATATTATTTTTATAATTATTCTTGAAATTACTTGTCTAATATTGGGATTATCTTTAATAATATATTCGTTATTTCAAATTTTGAAAGTTTTTTACCTATTTTTGCATAGAGATTATAATCAAATAGATATTAATTTTATAAATTCTAGTAAAAATGAATCTGTACAAAATTTAAAACATTTATTACAATCTTTTTCTATTCCTTTAATAATATTTTTTACGGCAGGTATCATCTTAATCATAGTAGTTCCCTATATATTTAGTAAATTATTGGTATCTTCTATTCCAAACATATTAATATTAATTATTGTATTTATTTTAATAATATCACTTTTATATTTCTCAATTAATTATGGAATTAAACAATCTAAGTTAAATATAAAAAAATTAATTGGAGTCTATATGACAATATATAGCTCTATAATAATATTATCATATTTTGTTATATTTCCTTTTTTATTATATGGAGATACTCATGGTGTAATTAACTATAAACCTGATCGTTTATTCGTTTTGCCAAATGCTAAAAACTTAATAGATATAGTAATAAATGTTACTAATACATCTGGATTAAATATATATGGATATGGACAAGGATATGCACAATTAAATGTATGGGGAATGACAGACATAGTAATACTTTTATTTGTTTTTGAATTGGTATTAACATTAATTATAAATCTATATTATAGAAATAAAATAAGTATTAATTTAAAAAATGAGAATAAACAGGATAATAAACAAGTCATTTCTAAGCAAGCAATATTAATAACATTCACTGTTGTTATATTATCATTATTTTTTATTATCCCTACAATAATAGATTTTTCAATATTTATAGCAACCCTTACATTTTTCTTAGCTTATTTAATAACCATCATATTAATATTAATAGTACTTTTTATGAGAAATACCTATAAAGAATTAGAAACTGCATCTATCACTTTAAGAAATTCTTCTCTAATTGTTGGTTTTTCCTATATATCTTTAATATTTATACTCATATTTAATATTTTATTTATTATATATATGTTTGTATTAACTTCTCTCTGGCCTTTTAAAGTAATAGTATCTAATCCTGGAACTTCTGGAGAATAAGAAATAAATGATTCGATTTATTAATTTTATAAAACTAATTTCTCAAACTATTAGATATAAAGTGATTTTTAGAATGATCATTATCTTTTTTATTGGAATTTTTATTAAAAATAATAAATTAATGATTCCTTCTACTTATATTTATGCTCTATTTGCAATTTTCTTTAGTTATATTAATGCCGTTTCTATAAATGACTTGGAAGATTATAAAATAGATTTATTAAATAAAAAAAATAATCAATATAAAACATTAATAAAAGGTGAGTTGAATAGGGATAATTTAATTACTATTAATATAATTTCATTATTTTTAACTCTATTATTTGCTTTTTTAATAAATTATTATGCACTTATTGTCATTATAATAACTTTGATAATTAATTATTTATATTCATTAAAATATTTCAGGCTATCTGATAACACTTATACTGCTTATTTTTTATTAGTCATAGCATATATATTCATTCCATATATTTTAGGAATGATAGTAGCCAAATCTATATTTAATGAAAAAACTATACTGTTTTTAATTCCACTATCTCTATTATCTTTGAGTGCTTTATTATTGAAGGACTTCAAAGATCAAAAAGGGGATTTAAAATATAAGAAAATCACATTCCTTTTGAGATATGGAAAAAATATTACTTGTAATACAAGTCTATTTCTAATTTCAATATCATATATATTATTTATATTTATATTAAAGATAACATCCATTCCTATATTTTTAATATTCACACTATCATATATCTATATATTTTATATAGTCTATTTATTGAAAATTAGTAAAAAAAATCTAGAACTTACTATTATAAATATAGTAAGTATCTCTGTAAATGGGATATTAATTTTAATATTAAGTTTTTTTATATTGACTGACTATAAATCAAATATATTCAATCTTGTATTATTCTTATCTTTTATTTTTATTACATATACATATACACTATATACTCTATTAAAGAATACACTAAAAAAATATTAACATATCTATACTTTACATTGCATACTTATATGTTATATAGCAAATATAAAAGTTTGTTTTATAAATAATCTTATAATTTTATAGTCAAATTTAATAAAAATAATCTCAAATTCCAATTAATGAAATATTCAATTAAATTATTTAGTATAAAAATTGCTCACACTTTCATATAATAATGATATAATAAGAAAAATGAAGACTTTAAAAAAAGATAATATAAGCTATATAGATACAGAAGAAGATTTCTCTAAAACACCTTTATTGATACTACATGGATGGAAACAAAATAAAGAAAGCTGGATAGATATAATTAATATATTAAAAAAATCACATAGAATAATATGTATTGATCTCCCAGGATTTGGAGAAAGTATAAATAAAGAATTTTTGAATTTTACTGTCGAAGATTATTCCAATAGTATTGAAACTTTTCTAAAAGATATAGGCATTAAAAAAGTTATAATACTTTCCCATTCATTTGGAGGGAGAATAGCTATAAATATGACTATTAGAAATAAAATTTCAATATCCAAACTTATATTATTTTCATCTGCAGGTATTATAAATAAAAATAATAATATAAACTATTCTTTATTAAAAAGAATAGTCCCAGAAAGTATAAAAAACAGAATAAGAAGTAGAGATTATAAAGAATCAGGTGAATTAAAAAATATATTTCTAAATGCAATTAATTTTAATATAGAACCTCTATTGAAAGATATTTTTATACCAACTCTTATAATTTGGGGTGATGAAGATAAAGAATTAGGATTAGATAATGCATATATAATTAATAAAGAAATCAAAGAATCTGAATTAAAAATAATGAAAGGAAATACACACTTCGCTCATATGGAGAATCCATATTTATTTACAGGATATATAAATAGATTTTTAGAAAAATGAAATTGGACAACATATACTTAATAAAATTAATACATATATTACAAAGTTTTGAATATTCAATTAAAGATTTTTCATCCTATATAAATAGGTTTGATATGATTTTTAAGAAATATGAATACAAAGAAAAAATTGAATATACAATAAAAATAAAAGCTCTCATAATAATAACTTTAATATTACAGATATTTACAATATCTATTTTCTATTTCAATATTATATATTTTCTTATAGCTATAATTTTTGTATACATTCTTACAGCTTACTATATTCTTATTTCCTATATGATATTGTATCCAATTGATTTTATATTAAAAAAATATATTGTATATAAGGCTAAAAGAAAGATTTCTAAAATAAAAGATATAAAAATAATTGCAATAACAGGAAGCTATGGAAAAACTAGTACAACTAATTTTATAAAAACACTATTAGAAAAAGATTATATTGTATTCAGCCCTGGAAAAAGTATTAATACACTTTTAGGTATATCAAAAAAGATAAATGATAACCTAAAGAATAACACTCAAATATTAATTCTAGAAGTTGGAGCCTACAAAAGAGGGGAGATAAGAGAGGTAATGAAAAATTATCCAGCAGATATATCTATAATAACATCCATAGGCACTCAACATTTAGAAAGATTTAAAAGCATTACCAATATAATAAAGGCGGGAGAAGAAATAATAGATTATGCAAAAAAAGATTCCATTGTTATTGCACTTAAAGAAATATATGATTATCCATTCTCTAAATATGGAGTAGAAATAAAATTTGATAAAAATAAAAAATATATTAAAGTAGAGTATGATATTAAAAATTTTGAAAACAAAAAAACATATTTCTCTATAAATAAAAATACTTATTACACTGATTTATTAGGATATGCAATGATAGGAAACTTATCTTTAGCAATAACATGTGCAGAGATTTTTGAAATAAGGAATATACAAGGTAAAATTAATTTAATAGAACCTAGTGAAAGAAGAATGTATCCAATATTAGAAGAAGGTATTCTATATATAGATGATACATACAATATAGGAGAAGAAAGTGCAAAAAAAACATTAGAATATCTAAATGATATGAAAATTAAAAACATATATAAAAGAATATTTTTAGTTACAGGAGGTATTGTTGAGAGAGGAAAAGAATCTGAGAGTGTAAATGAAAAATATGGAACATTAATAGAAAGCGTAGTAGAAAAAGTATTTATTTTTGATACTCCCTATAAAAAATACATAAAATATGGTATAAAAAATAAAAGTAAAATTATTGAAATAAAAAATTATAAAGAATTCGAAGGATATAAAAAAATCTTCATTAAAGGTGATTGTATATTAATGCAAAATGAAATAACTGATCAGTATTATTTTAAAAATAATAATTAAATGGATAAAAAAAATATATTACTTTTATTTGGAGGAGAATCACCAGAGCATGAAGTATCTATAATTTCTGCAAAACAAATATTAAAAAAAATAAATAGAGATAAATATAATATATTTCCAATATATCTAGATAAAGAACATCAATTTAAATATATACCTGAATTTGAAACCTTCAAAGAATTCAAAGACTTTATAGAACTTAAAAAATATAATATTGAAATAAGATTAAAAAAAGGAGAGGTTAATATATATTTAAATAAATTTATAAAATTGAAAAAAGTAGATGCAGCTTTACTTACTTTTCACGGAGGAGAAGGAGAGAGTGGTGATATTCAAGGATTTTTAAATACATTAAAAATTCCATATACAGGTCCAAATATCAAAGGAGCTGTATACGGAATAGACAAGATAGTAATGAAATATATTTTAGAAAAAAATAATATTGAAATATTACCTTGGATGTATATAACAAAAAATGAATGGTTAGAGAATAAAAAAGATGTAATAAAAAAAATAAAGAAATTTCATGAATATCCTTTAATCATAAAACCATCATCTATGGGATCTAGTATAGGAGTCAAAAAAGTATCAAATGATGAAGATTTAGAAGAAATAATAGATTCAGATATTCTTTATGATAATAATATAATAATAGAAAAATTCAAAGATAAAGTTGTTGAAATAACTTATTCTTTAATAAAAGAAAAAAATAATATTTTGATTTCACTCTCAGAAGAAATAGAAAAAGATTTAGACAAAATATATAGTTATGAAAATAAATATCTTCAAGGTGGAAAAAAGAATAAAGCAGAAGGAATGTCTGCAGAAAGAAAAAATATTCCAGCAAATATATCTAAAAAACTAGATGACAGAATTAAAGAGGCAAGTTTTAAGATATATGAAGTATTAAACTCTCAAAGTTTGGTTAGAATAGATTATTTAGTAGATGTTAAAAATGATACATTCTACACTATAGAAATAAATACTATACCAGGATCACTTTCATATTATCTGTGGGAGGCAAAAGGAATCCCTTTTGAAGAAATGATAGATAAAATGATAGATTCTGCAATTTATGATTTTAAAGAACAAGAAAAAATATTAAAAAATATAGATAGTCCTCTTTGGAATCAATAATCATTATTTGACATAAACCCACTTTAATCTTATAATATTTAGCTATATGGATAAAATTAAGGTTAAAAAATTACCAAAAGAATGTTTTGATGTCTTTAATTCTTATAAATTTACACCTTACTATATAAATAAAAGTAAGAGTAAATTTAAATCTCATTTAGAATCAGGAAAGGCTTCACCTAAAGAAATAAATGATTATATATATTCAAAATTTCAAAAGAAAATTACATCAAAAAAAAGATACGATTTCTTAAAAAAAGAAAATATTGGAATTGATTGTTCTGGATTTGTATCTTACATATTAAATGCATATTCTCAAAAAAAAATAAATAAAAATATATATGATATTATAAAAAAAACAACATTAAATCCATTTAGATATTTTATTTCTTACAAATTTACACCTATAAAATCTAAATTAAATTCTGAAACATTAACTAATAATATTAATACTATAAAAATAGACAAGATTAATGATATTAGACCTGGAGATCTTATAAGAATGAACGGAGGTGCTCATATAGCTATAATATCTGAAATCGAATATAAAGGAAAAAATGTAAGTAAAATAAAATATTGGCAATCTACAGAAAAGAAAGGTGTATGTGAAAGTGAAATAATAATAAAAAATGTAAAATTACCTTTAAAAGATCAATATTGGAAAGACATAAATGGAGCATTATATAAACCTTTATATCTTTTTAAAAAAAAGATAAACTCTAATGGAATCAGACGATTAAAATTATTACAATAAATTTATGTTAGCAACTTTTACATTTATAATTCTTTCTATATTAGTTTCATTTTTAATAGCACCTTTTATTATAGATCTTTTATATGAATTTAAAATATTAAGAGGTAGAGGTGCAGATGATACATTTAAAATAAAAAAAAGATTGAGTAAAATAGGAGTTCCTATGATGGGTGGCATTATTATCATTATAAGTGTCTTTTTCATAACTATTTTATTTAATTGGAATAAATATACTCAAGTTCCTATATTAATATTCATTATAGGATCCCTGCTTGGAGCAATCGATGATCTTTTGAATATATTTGGGAAAAAAAGAAGGAAATTCACAAGTTTCAAACATCATGTTAAATTAGCACTTAATCATAAAAATATTTCAAAAAGAATTCTCTATACTATCAGTATACCTTGGGCTTTTTATAAAGGAATATTTAATTCAATAGGATCCAGGTACGGAACAGGGCTATATCCTCATGAAAGAATCTTGATACAAATGATTGAAGGAGCTATTGTCTCTTACTATATATATTTTTATTTACATATTCATAGTATTTGGATATGGTCTAATATATATATCAATATAGGTTTATGGATAATACCTCTAATATTTATCATCATAATATCAACAGCCAATGCTGTAAATATTACCGATGGATTAGATGGTCTATCTACAGGGGTAATGATAGCTTCCTTTTTCACTTTTATGGTTATATCTCTAATAGAACATAATGAAAGTATTGCTATTTTATGTGGAACTGTTATAGGGTCACTTATAACATACTTGTATTTCAATATAAAGCCAGCTAGAGTTGAAATAGGGGATATAGGAACATTAGGATTGGGTTCTTTACTCGCAGTTACATCAATTATTCTTCAAAAAGAATTAATACTTTTAATAGTAGGTGGCATATTTGTAGTTGAAACTCTATCTGTAATAATTCAAAAAATATCTAAAAAATATTTTAATAAAAAAGTTTTCTTAATGGCTCCATTACATCACCATTTTGAAATAAAAGGATGGAGTGAAGAAAAAATAGTAATGCGTTTTTGGCTATTTTCTTTTATTTTAGCTTTAGTTTCTATTTGGATTTCTCTGATTTAATTGAATTTTCTTTCAAAAATCTTAAATAAGAAGATTTTTCTTCTTCTTGCCAATTTTTTCTTTTTAATCTTTTCATAAAAGGTTCTATATTCCAATAATAATAATTATCTTTTGAAATATCCTTTAGAAATTTCTTTCTGTACTCATCTATACTCATATAAAATTTTGCAGGAGAACCTATAACTACAGTGTTATCTTCAACATTCTTTGTTACTAATGATCGTGCACCTACTAAAGCATTTTTACCCACTGAAACTCCTGGCATAATTAAGCATTCTGATCCTATATAAGCACCCTCTTTAATCAAAACTTTTCCAAATCTAACAGGATCTCCATATAAGTTATTCAAAGCACTATCATGTAGAAGTATCCTGGTTCCATAAGCAATAGTTACATTGTCCTCAATTTTCAAAAATTCAGGATAATTCTCTTCAATACTCACATGATCTAGAAAAACATTATCTCCTATATCAAAACCCTTGTCTCTTAATTTTCTAACTGTTCTATCCATATCATCAGTAACATCAATTTCCCAAAGAATTTTAAAATATACCTTTCTTATAAATTTCCAAAAAATATTCATCTTTAACTATATCTAAATTATCATCTCTATTATAAACCAATAAGTATAGATTGAAAATAAAAAAAATGATACAATCTCCTTAAATAATAAAGATATAATGGAACTTAATAAAGAATATAAAAAAATAATTTTACAAAGATTATCTGGTATAGGGTTTGGGATATTTATATCCTTTATTATATTAACAATATTACCCTTATTTAGTAAAATCTACTCTAAACAATTAATTTCAAATCAGAATATTCAATTAAACATTTATCCTGAAAATAATAAGATTGAGAATAGCATATCAATAATGTGGGGAAATTCATTTAATAATACTCAGTACAGCTATGTTTTATTAAGGGATGGAGAGTATTTCACTAAATTTAATTCAAATACACATTCTTATCTTGATACAGGACTAGTACCATATGCTCAATATACTTATCAAATTCTTGTTGTAAATAATCAAGGACAAACTATATATCAAACTAATAAACTTATTCTGAGTACTCAAAATTCAATATTTAACTCACTTGTAATATCACCACATTCAAAATATTCTACTTATACTGCATTTGGAGATAGTATTACTCAAGGATTTGAAACAACAACATCTTATTTTGATAGAGTATCTCAATATCTCAAAAATAAAGAAGGTACTGTATCATATAACCAAGGAGTAGGAGGTAATACTACTTATGATCTACTTTCAAGAATAGAGAGTGAACTACAAAGTGAAAATCCTCAATTAGTAACATTGATGATAGGAGCAAATGATATAAGAATAGGAACAAAAAATAACCCAACAATAACATCTCTTGACTATAAAAATAATATGATACAAATAATATCTGATATAAATCCTTCTCCTCAGAGAACTTTAATACTCTTTGAACTTCCTCCTATTAAAGATTGGAACGTATCAGGTTTCAGTGCAGGTTCAAATCAAAGATTGATAGAATTCAATAAAATAATAATTGGACTTGCTAACCAATACGGAATACCTTATATAAATCTTAATAATTTATCAAATATACCTAATTCTTTTAATTCTGATCAACTACATCCTAATAATACAGGAGATCTATATATATATAATCAATTAGTAAAAACTATTAATTTATATAATTAAAAATTATATATACTTTTTATATTTTTTTAGTTATAAACACAAGCTATATAGTATAATATTTAATTAATAAAGATTTAAAAATATGAGAGAACAATATAATATAGAAGACAATATAAGTGAAAAAGATAAAATACTAAAAATAGTAAATGACTCTACTTTTAGAGAATTAGTAGAGAATGAAAAAATGTCTGTTTTTGCTATATATTCAGATGATAATGAATTAAATTTTTCAGAAGTATCAGAACCAACTCTTTTTCAATTTGTACATAGAGATAAATTAATTTATGATGAAAATAGTGCAGAAAGAAATATAAGAGAGGATTTAAAAGCATTAGTGTATGTTAATTTTACAAATAAGGATGGTTCTCCTATTAATATAGATGGAAGAGAATTTTCTTCTAAATTTGTAGACGATGCCATTAAAGATTATGCAACTTATCTTCAATCTAATACACCTACATATGTATTAATGATAAATAATGAAGGAAAATCTATAGAAATAATGCAAGTTTCTCCAGAAGGAAATCCTATAGAAATAACAGTTTTAAAAAAAGATAGTGATATATCTTTAGAAGAACAATTAGAAGCTTCATCTTTAAAATTATAATATATAAAAATTCATCTATATAAGCATAATATATTTGCAAATATAAGATTTTTTTGTATATAATGTACCAGTAAATGTTTGTACCTAAAGCACCAGAAATACTTTTTAAATTCTATGGATTCCTAGTAACAAATACTGTTATTACCTCCATTGTAGTATCACTCATAATTTTGTTGGGTGTATTTTTTCTATCTTCCAGAATATCCGTTATTCCATCTAAAATTCAAAGTTTAATAGAACTATTAATAAATTTTGTTATTGATTTTATGAGTGAACAAACAGAAGGAGATAAAAGAAAAATTGGAATATTCTTTCCTTGGGTTATGACTTTTTTTGTACTAATTCTACTTAATAATTTATTTGAAATCATTCCTTTATTTGGAATCATTTCTCTTCAAATAAAGAATTCTGCTGGTAGTTATGTCCCTTTGTTCAGAGCGGCAAATTCGGATTTAAATAGTACTATTGCATTAACTCTAATATCTGTAATAATAACTCAGTATCTAGCATTTAAAGAACTAGGATTCAAAGGGCATTTAAAAAGATATTTTAATTTTACAAAACCTATTAATATAATATATGGGATATTTGAAATAATATCAGAATTTACAAAAGTAATTTCTCTATCATTCAGGTTGTATGGAAATATATATGCAGGAGATGTTATAATTCTTTTGTTCTTAAAGATGGCTGGTCCATATTTTGCACCATTGCCATTTCTTGCATTTGAGATACTTGTATGTATAATACAAGCAGGTATATTTGCTATGCTTACATTAACATTTATGTCTTTATTAACAAGTAAAGAAGAATTAATTTAAAAAAAAGGAGGTGAATTATTATGACAACAAGTTTTTTAAGAATCGGAGGAGGAATCGTAATGGGAATAGGAGCCCTAGGTCCTGGAATTGGAGTAGGATATATTGGAGGAAAAGCTATTGAAGCTATTGGTAAAAATCCACAAATATCTGGAAAAATTATAGGAGTTATGATCCTTGCAATGGCGTTAACTGAAGCTATTGCTATATATGCTTTAATTTTTGCATTACAATAAAAAAATATGAATTTTTTAACACTATTTAGAGTCAATTGGTCATATATAATCTTTTATACTATAGATTTTTTTATAATCTTGTATGTTCTTCAAAGATTTCTTTTTAAAAAAATACTTAAAATTTTAGAAGATAGAGAAAATGAAATTAAAGTATCTTTGGAAAATAGTAAAATAATAGAAGAAAAGAAAGAAGAAATGGAAAAGATTTATAGAGATAAAATGATAGAGACTCAAAAAGAGAGTGAAGATATTATAGAAAAAGCAAAAGAAGCAGCAGAAAATATAAGATCAGAAATGTTATCTTTAACAAAAAAAGAAAGTAAAAAGATTTTAGAAGAATCAGAAAAAGAAGCTCAGAAATTTCATGATCAAATGTATGAAAATTTAAAAAAAGAAATTTTAGATTTGGTTGTGATTACAACACAGAAAGCTTTATCAAATCTTATAGATGAGAAGGAAAAACAAAAAATAATTTCTAAGAGTATAGAATATATAAAAAATGAAAAATGATAAAATAATAGATATTGTTATTGATAGTATAGTTTCTAAAAATAATGTTGATTTAGAATTACTCAGTAAAATTATAGAAAAAAGAATTTTACAAAGAAATTTATCAAAAAAATTATATAATAAAATATATTCTATTATAAAAGAAAAAGAAGTTATAATAGAATATCCTCAGGATTCAATTGAGAAAAAAGATATATTAAGTATTATGAATAATCCTAATATATATAGATTCTCTCAGAATAAAAATCTTATAGGAGGTATAAAAATAAAAGAAAACTGGAATATATTTAACTCTTCTGTGAGTAATAATTTAGAAAAAATTAAATCTTTAAAATTAAAATAAACTATGGATAGTAAGGACATATTAGTACAATTAAAAAATAAAATAAATGAAATAGATACAAGATTTTCTCAAGAAAAAATAGGAGAAGTACAAGCTGTATATGATGGAATTGCAAGTGTTATTGGGCTTATGGACGTTGCAAATGGAGAGAAAGTTATAATTGAAACTAAGGATAAGACTAATATCATAGCTATGGCTATGGATCTTAAAGAAGATGAGACATCCATTATTATATTTGGAGATTATACTAAAGTTCAAGAAGGAGATATTGTAAAAACAACAGGAGAAATATTTTCTACAAAAATAGGTAAAGCTCTTTTAGGAAGAGTACTTAATGGAGTAGGTGAAGAAATAGATGGAAAAGGTGAAATAGAATCAGATTATAGCTCTGAAGTTGAAAAAGTTGCACCAGGTGTAATTAGTAGAAAAGGAGTAAGATCTCCTCTTCAAACAGGAATAAAAGCAATCGATGTTCTTATTCCTATTGGTAGAGGACAAAGAGAACTTATAATTGGAGATAGAAATACAGGAAAAACTACAATTGCTATTGATACAATAATAAATCAGAAAGGTAAAAATGTATTTTGTATATATTGTGCAATAGGTCAAAAAAATTCAAAAGTATCTCAATTAGTATCAAAACTAGAAGAAAAAGGAGCTATGGAATACACAATAGTAGTCAACGCACCAGCTTCATCTCCTGTTACAGAGCAATATATGGCTCCATATACAGCTGCAAGTATAGGAGAATATTTTAGAGATAATGGAATGGATGCTTTAGTCATCTATGATGATCTTACTAAACATGCTTGGGCATATAGACAACTTTCTTTGATATTAAAAAGACCATCTGGTAGAGAAGCATATCCAGGTGATGTATTTTATCTACATTCCAGATTACTAGAAAGAGCAGCTAAACTAAATGATTCGCTCGGTGGAGGATCTCTTTCAGCTTTACCTATAATTGAAACACAGACAGGAGATATCTCTGCATATATTCCTACTAACCTAATATCTATCACAGATGGACAAATATATTTGGAATCTGATTTATTTTATTCAGGAATAAGACCTGCTATAAATGTAGGAGCTTCTGTATCTAGAGTAGGTAGTAATGCACAAGAAAAAGTAATGAAGAAAGTTGCAGGGTCATTAAAACTAGAAATTGCACAATTTAGAAATCTTGCAGCTTTTTCTCAATTTGGTTCTGATTTAGATGAAAATACAAAAAAAATACTCTCAAGAGGAGATAGATTAACTAAAATATTAACACAAAAACCTTATCTACCTATACCACTAGAATTACAAGTAATATCAGTTCTTGCTGTAACAGAAGGTTTTACTGATCATATAGATACAAATGATATTCCTACTTTTGAAGAGAAACTTCATGAGGTTTTTGAAAATATGCATAAAGAAGTACTAAAAGAGATCAGAGAGAAAAAAGATCTTACAGAAGATATAAAAACTAAATTAATTAGTATTATTTCAGAATTCTCAAAGAATTATGTCTAAACTAATAGAAATAAAAAGAAGAATAAAATCTACTAAAAATATAAAACAGATTACAAAAGCTATGGAAATGGTATCTGCTGTAGAATTAAAAAAATCTCAAATACTCTTAAATATCAATAGAGAGTATATAGAGACATTAAAAAAAACAGTGAAAGACTTATCTTCATATCTTGAAGATATACAAAATATAGAAGATAAAAATAATTTAATTATAGTAATAACACCTCATAAAGGTTTTGTTGGACCATTAATTTTAAATTTAGAAAAACAAGTACTATCATTAATTAATTCAAATAAAGAAAAAAAATTTAAAATTATAGGAATAGATAAAAAAGCATTAAGTTTTATATTTTCTTTAAATATAGAAGTACTCTCAGATTTAGAAATTTCTAATCACTCTGATATTACTGAACTTTACTCTATAACAGATTTAATAGTAGAAGAAATAAAAGAGAAAAAAATTGATTCTATATATATTATATATACAAAATTTAAAAATATGATGTTTAATGAGATTGTAACTGAAAAAATATTACCTATAGATATAAAAGAGGATGAATATTCAGATGCTCATTATGTAAAAAAAGAACAAAAAGATAATCCTGCTATATATGATTTTGAAAATAATTTTGAAGATATATATATAGATACATTAAAACTTTATATACCATCTATAGTACAATCATGTATAATTGAAAGTTCTACATCTGAGAATGCGATAAGAATGCTTACTATGAGGAATTCCTCAGACAATGCAGATGAATTAAATAAGAATTTAGTTTTTGAGAGTAATAAAATAAGACAAGGTTCTATAACACAAGAAGTAATAGAAATTGCATCTGCATCTAATATTTAATATGATTAAAAATATGAAAAATAAAAATATAGGAAAAATAATACAAATAAGAGGACCGATAGTTGATGTTAGATTCGACATAGATAGTGTACCTTTAATAAATAACAAATTAGAAATACAGATAAAAGATAAAACTGTAAATCTTGAAGTCGCACAAGATTTAGGAGAAGGTGTTGTGAGATGTATTGCAATAAATACAACAGAATCTTTAAAAAGAGGATTAGATGTTTTAGATACAAAAAATACAATAACAGTTCCTGTAGGAGAGAAGGTTTTAGGTAGAATGTTTAATATTACAGGAGATATAATAGATAATGAAGAAAAAATAGAATTCAATGAATTTAGATCTATACATAAAAAAGCACCTGAATATAAAGATCAATCTTCAAAATCAGAAGTATTTGAAACAGGAATAAAAGTTATTGACTTATTTGCACCTTTTCTTAAAGGAGGTAAAATTGGAGTCTTTGGAGGAGCTGGTGTAGGAAAAACTGTAATCATACAAGAATTAATTAGAAATATAGCTTCTGAGTATGGAGGTTTTTCTATATTTGCAGGAGTAGGAGAGAGGACAAGAGAAGGAGAAGAGTTATGGAATGAAATGCATGAAGTTGGAGTTATAGATAAAACAGCCCTTATATTTGGACAAATGAATGAACCTCCAGGTGCAAGGCTAAGAGTAGCTCTTTCTGCTTTAACTATGGCTGAATATTTTAGAGATGAACAGAAAAAAGATGTATTACTTTTCATTGATAATATATTTAGATTTTCTCAAGCAGGTTCTGAAGTTTCTGCTCTATTAGGAAGAGTTCCATCTGCAGTAGGATATCAACCTACACTTGCAACAGAAATGGGAGAATTACAAGAAAGAATAACATCAACAAAGGATGGTTCTATTACTTCTGTTCAAGCTGTATATGTTCCAGCTGATGATATTTCAGATCCAGCACCAGCTACAACATTTTCTCATCTAGACGGAACCCTAAATTTAGAAAGATCTATAGCTGAACAGGGAATATATCCTGCTGTTGATCCTTTATCATCTACTTCAAGAATACTTGATCCAGAAGTAGTAGGAGAGAGACATTATAATGTTGCAAGAAAAACTCAATTTTTGTTACAAAGATATAAAGATTTACAAGATATTATAGCAATATTAGGTATTGATGAACTTTCAGACGAAGATAAGCTTTCTGTTCAAAGAGCAAGAAAAATTCAGAAATTTGCATCACAACCTTTCTTTGTTGCTGAACCTTTCACGGGAAAAGAAGGTAAATATGTTAAATTGGAAGATACAATTAATGGTTTTGAATCTATTACAGAAGGAAAATGTGACGATATAGATGAAAACGAATTTTATATGTTAGGATCACTTTCAGATATAAAAAAATGATATGAAATTAAAAATATTATCTCCTATAAAGGAAATATTTAAAGGTGAAGTAAAAGACGTATATGTACCCACTATAAATGGAGAATATGGCATATATCCAGATCACTCTCCTATGATACTAAATTTATCATTAGGAGAGTTGAGTTTCACCGATAATAATAATAAAAAGAATATAATGGCAATATCAGAAGGAATGCTTAGAACTTCACTTAATGAAACTATTATTAATGTTATATCAGGAGTATTTTTACATGAAATTGATATAGAAAAAATAGAGAAGGAAAAAGAAAAATTAGAAGAACAATTAAAAACTTTAGAAAATATTAAAGAAACAAGAAGAATAAAATCACATATTAAGCTTTATTCTCTACATTTATCTACATATCATAAACATAGAAAGAGTATATGAAATTTAATATCATATTATAGTATTAAATTTGCAAAATATACTATATCTAGTATATAATATTTACTTATAATAAATATCAAAATGAATGATTTAGCAGTAATACAAACAGGAGGAAAACAATATGTTGTCAAAAAAGATGATATTATTGATATAGAACTCATAGAAGGATTCAAAAAAGACGATAGCATAGAATTTGATGATGTATTATTAACAAAAAAAGGTGATACTGTTAATGTAGGAAAACCTTTTGTTAAAAATGCTAAAGTAAAGGGAAGTGTTATAGAACAAATTAAAGGAGATAAGATAAGAATACTTAGATTCAAAGCTAAATCAAGATATAGAAGAAGAATAGGACATAGACAAAATTATTTAAAAGTTAAAATAGATACTCTCTAAATGCAACTTATCTTTAAACTCGGAAAAAATCCTTTGCTCTCGATAGCTGAAATATATTCTTTAATGGAAAGTAAGAATATAAAATTTGAAGTTATAATTGCAAATAAACAAATACTTTTTATAAAACTTCAAAGCGTTGTATATATTGATATATTGATAAAAATACTTGGAGGTGTAGTAGAAATTTTTCAAGTAGAAAGTATTGTAGATAAAGAAGATGCTAGAAGAATAAAAACTAGTGAAAAAATAAATATAGACAATACTCAATTTGCATATGGAACTAACATAGTAAAACAAAATATAAAAGATTTTGAAAGAAAAGAGCTAGATAAACCCTATGTTGAAGCAAAAAATGGAATGCTACCTTCTAAATTAGCTAAAATAATGCTGAATTTAGCTATAACTCAAGATACTCAAACAATTTATGATCCCTTTTGTGGAACAGGAACAATTCTTATAGAAGCTCTAATTCAAGGATATAGAGTAATAGGTTCAGATATAAGTAAAGATGCAGTTTTAGGTACTAAAAAGAACCTTAAATGGGCATCTGAAGAATACAGTATTCAAAACAAAAGTGAGGTATTTGTAAATAATGCATCTTCTTTAGCAGAACAGCTAAGAAATAAAGATGAAAATATATCAATAGTAACAGAACCCTTTTTAGGTAAATCATGGTCAAAACCCGTGCAAAAAAACGTAAGAAATGCTAAAATAATAGCTAGTGTAGATAAATTAATCCAGAGTAGTATTCGAAGTTTATCTAAAATTTTGAAAAATAATCAAAGATTAGTTATAATAATACCAAGTTTTAAGACAAAACATGATATAATATATCTTAAAGCTAGAGAAATGGAATTTGGAAATTTAAAAAAAATATCTATAATTCCCTCAGATTTTTTATTTGAGAATAAATTAGTTAACAAATTAGATAAATTTGATTACTATAGAGAAAAAGCTGTAGTAAGAAGAGAGATTTTTATTTTTGAAAAATTTTAAATTATGGCACATGTAAAAGCAGGCGGAGGAAAAGCCAATCAAGGTGGTAATGTCGCCGGTAAAAGAAGAGGAGTTAAAAGATTTGCAAATGAATTTGTAAAATCTGGAGAAATCATTGTTAGACAAAAGGGTACAAGTTTCTACCCTGGTGTTAATACAGGTATTGGAAGAGATTTCACAATATACTCTAAAATAGAAGGTTTAGTTAAATTCAGAAGAATGACAAAAGATAAAAGAGATAAATTTGCAATAGACATAATCCCTAAATGAATACAATATTATTAAATAAAATTGAAGAAAAACATATTATAGATGAAAGAAAACTTGTAAAAGTAGGTGATACAGTTAAAGTTCATACAAAAATAATAGAAGGTAATAAAGAAAGAATTCAAATATTTCAAGGTATTGTTATAGCTAGAAAACATAATGGTACTCATGAGAATATAGTTGTAAGAAAAATATCTAAAGATATAGGAGTAGAGAGAATATTTCCAATACATTCTCCTAATCTTTCAAAAATTGAAATTATTAAAAATGGAAAAGTAAAAAGAGCTAAATTAAACTATATGAGAAGTAGAATTGGTAAAAAAGCTATGTTAATTAAAAATGTTACTAAGCAAGATAGAGAAAAAAACAGTAAATAATAATCTATCTTTACAAGGAATTGATGAAGTGGGAAGAGGACCTCTAGCAGGTCCTCTATTTGTAGCTTCATATAAAATAAATAATAAGACAATAATTCATAAAGAGGTTAATGACTCTAAAAAGTTATCAGAAAAAAAAAGAGAGTATCTTTATCAATTTTTAACCGAGGATCCTTCCTTATATAAAGTATATTCTCTTTCAAATAAGAAAATAGATGACGTAGGAATAGTTGAATGTATCAATATATTAATTGAAAAATGTGCATTGAATAATGCCTCAGACAAAACATTAATTGATGGAATATTTAAAAAAAAATTTAATATACCCTCTTATAATACAGTAATAAAAGGAGATTCTACTCATTATTCAATAGCAGCAGCATCTATAATTGCAAAGGTGACCAGAGATAGATATATGACCTCTCTAAAAGATACATTTCCTCAATATGAATTTGAAAAAAACAAAGGATATGGTACAAAAGTTCATATAGATGCTATAAAAAAATTTGGTATTACAAAATTACACAGAAAAACTTTTTTAAAAAATATTTATAGCACTATCTCCTATGATTCCTGATATATTAGAAAGCAAATCTTGAGAAAATTTAACCTTATTCTTAAGATTAAGTATTTTTTCTTCCTCATCTTTCATAATTCTTAAGGCAACTATTGTCTCTCCTCCTATATATTTATTGATAGCTATATTTAATTCTAATAATTTTTCTTTTGTCATATTATGAGGAATATTTAATTCTATTTTTTTGATAGATTTATTATTCTTAACATCCTTTATTGTTATATTTTGTATATCATTCACTATTAATTTATACTCAATATTCTCATCTTCTTCATCAGATTGAACAGTTTCTAATAGAGCATTTAAAACAACAATACTACCATTTTCTAATATTTTATCTTTAATTTTTTCATAAACATCTGGAAATATTATTACATCACAAGAAGAAGTTGTATCCTCTAATTTTGCAAATAACATTCTCTTACCAGTTTTTTTAGTAGTATAATGATTAATATTTTGCAATATACCTCCTATCATAACCTTCTCTCCATTTTTATGAGTAGCAAGATCTCTTATACTCAAAATATTATTTATTTTAAAATAATTTAAAAATTTCTTTAAAGGATGCACAGTTATATATATCCCTATTAATTCTTTTTCCCACAATGCTTTCTGAGTATTACTAACTTCTTTAACATCTTTAAGAGTAATTTTCATAAAAGAATTATCTTCAAAATTATCAAAAAAACCAATTTGATTAGTCTCTTTTCGTCTTTTCTGATACATATCTAATATGCTCTCAAAAGAAGCCAATAAAGAAGCTCTAGATCCAAAAGAATCCATTGCACCTGATTTTATTAATACTTCAAAAGATTTCTTATTAAAATGTGAAAGATCTATCCTTGTAAGAAAATCATCTATTGAGCTAAATTCTTTTCCCGAAGATTTTCTTTCATCAATAATAACTTTTGTGGTATTTGAAGAAAGACCTTTTATACTATTAAGACCAAATCTAATATTGCCATCTTCTATACTAAATTCAATTTCACTTTTATTTACATCTACTGACAATATTTTTATCTTTCTTTTTTCAGATTCTAATACAATTTCTGATATCTTTTCTAAATTACCTAAATTAGATTGGAGTAGGGCAGCTATAAATTCAACCGTATAATTAGCTTTTAGGTAAGCTGTTCTATAAGAGATAACAGAATAAGAAGCAGCATGTGCTTCATTAAATGCATAATTTCCAAAGGGAAGAAATAACTCAAATAACTTTTCTGCAACATCTTTCTTCATACCATTATCAATAAAACGTTTTATCAATTCATCTTTTAATTCTAATAAAATATCTGGTTTCTTTTTTCCAGTTGCTTTTCTTAATTTATCAACTTCTCCCCAATCAAATCCAGCTAAATTTATAGCCGTTCGTAACAAATCTTCCTGGTATACTAATACTCCAAAACTTCTTTTAAGATAACCCTCCATTCTAGGATCTAAATACTCTATCTTTTCTTTTCCATCTTTCCTTGCGGCATACTGAGGTATATTAGCCATAGGACCAGGTCTATTTAATGCAATTAAAGCTGCAATATCAAATATTGTCTCAGGTTTTAATATTTTAATAGCATCTTTCATGATTCTACTTTCTAATTGAAAAACACCTAACGTATCTCCAGATTGCAATAATTTATATGTTTTTTTATCTTCATAATCAATTAGATCAAAATTAATTGTCTCTTTTAAATCCTTAAAAATTAATTTTTGAGTTTCAGCTATAATATCTAAATTTGTTAATCCTAAAAAATCCATTTTCATATAACCTATTTCTTCTAACGTAACCATATTATACTGAGATACTAACCTTGATGTTTTTCTATCAAATAAGATAGGAACATGCTCTGTTAAATCATCTGGAGTTATCAACACTCCACAAGCATGAATTGATGCATGTCTAGCTATGCCTTCCATCCTATGCGCTATATCTAACATATTTTGTATCAAAGGATCTTTATCTGCATATTCTTTTAATTCTGGTATCTTTTTTAAAGCTTCTTGTATAGAAAATCTTCCTTGTGGTATCAATTTTGCGATTTTATCAACAGTAGGTAATGGTACTTTTAAAACTCTACCCACATCCCTTATTGCAGCTCTTGCCTTCATTCTTCCAAATGTTACTATTTGAGAAACTCTTTTATCTCCATATTTGAGTATTGCATAATCTAAAACTTGATCTCTATTAGCACTAGCAATATCCAAATCTACATCAGGAGCTTTTGGTCTTAAAGGATTCAAAAACCTCTCAAAAGATAATTGAAATATTAATGGATTTATAGGAACTATTCCTATTAAATATGCAACAAAACTTCCTGCAGCAGAACCCCTTGTAGTAGTTGGTATATTATTCTCTCTTAAAAAATCAGTAAAATCAGATACCATTAACATATAACTAGAAAATCCCTTTTGTGCAATAACTTCTAATTCATATTCTACTCTTTTAATCTCATCTTCATTAAGCTCTCTACCTAATCTTACTATACCTCTAGAATAAGATATCTCCCTCAGATAATTATCATAACTCTCAAATCCTTGTGGTATATCTACATGAGGCAGTATAAACGATTCAAATTCTATACTTACATTACATAAATCTTTGATCTTTTTAGTATTAGAGACAGCTTCAGGATGATCCTTCCATATCTTACTCATTTCTTTAGGAGATTTTATATAAAATTCATCAGAATCAAATTTCATTCGAGTATCATCGTCTATTGTTTTTCCTGTATCTATACATAATAAAACTTCATGTGCTTTACTATCTGTTTTATCTATATAATGAGAATCCACAGTTGCAACTATATCTACACCTAAATCTTTTGATAATGAAATTAATTTATCCTCTATATCAAAATCTTCATTAACACCATTTCTTTGTAATTCTATAAAAAAATTATCCTTACCAAATATATCTATAAATTTTTCTGCATACTCATAGGCTTTTTCCTTATCTCCATCTAAAAAAGCTTTAGATATATCTCCAGACAAACAACCAGATAAAGCTATTAAACCCTCAGAATGTTCCTTTAAAAATTCTAAATCAGTTCTAGGTTTGTAGTAAAAACCATTTAAGGAAGCATCAGATACTATTTTAATTAAATTTTTATATCCTATATTATCCTTTGCTAATAATACTAAATGAGAATATTTATTCGATTTTTTATCAAATCTAGAAGTAGGGGATATATATATTTCACATCCAATTATCGGTTTTATTCCATTTTTTTTACATTCTTCATAAAATTCATGAGCTCCATATAAAACTCCATGATCAGTAATAGCACAACTATCCATTCCTAATGCTGCTATTCTTTTAATAAGAGGTTTGATTCCACTCATCCCGTCTAATAAGGAATACTCTGTATGTAGATGAAGATGAGTAAAATCAGACATCTTTAAAATTTAAAATAGAATAAAAAAACTTTATATGTTGGGCATCATATATAATATCAATATAACAAAATCAAAATTAATAATCAATTAGATTTAATTTTTGATATACCATCAAGAATTTTGTTTTTCACTTCTAAAGGATTAGCTCTACCTTTTAGAATCTTCATCACTTCCCCTATAAGAAAACTTAGAATACTTTCTTTTCCTGATAAATATTTTTCTATAATATCAGGGTTTTTATCTAGAACTTCTTTAACTGTTTCATCTAATTTACCTTGATCTGATATTAAAGAATTTTTCTCCAAAAGTATATCAATATCATCCTTATCAATAAGAACACTCTTTAGTATTTGTTTACCTGTAGACACTGTGATTTCTTTTTTATCTACAGCAGTTAATATCTTAACTATTTCATCTGTACTAATATCAGAAAGATTTATATTATATTGATTTACTAAAGAAAGAATATCGGTAGAAAACCAATTTGCTAAATTTATATAATTCTTATATAAAGTGGTTATCCTTTGGAAAAAATCATAATATTTTCTTTCTTCCATAATGAGAATAACAATAGAGTGGGGAAGTAAATATTCTTCTTCTAATTTTTTCTGGGCTACTTGAGGTAGTACATCTATTGATTCTATAGCCTTTGATATAAATCCGTCAGACAAATTTAAAGGAGGTATATCGGGTTCTGGAAAATATCTATAATCATCACTTTCTTCCTTCTCTCTTTGGAAATATGTTTTCGATAAATTATCATTCCAACCTCTAGTACTCTTATTTCCTCTATCTAGAACTTTTCCCGTTTTTTCAAATTCTTCCAATTGTCTTTTCTCTTCATATTCTATAGATCTTTCTAAAGATCTAAATGAGTTTAAATTTTTAATTTCAACTATAGGGGTTTTAAATATTTTTCCTTCTTTATGAATTTCTAAATTTACATTTACATCAAATCTCATTTGTCCTTTTTCCATATCACAATCTGATGCACCTACAAATCTTACCAAATTATAAACCTTTTTTGCATATTCTTTTGCTTCTTTACTAGAATACATTTCAGGAGCAGATACTATCTCTAAAAGAGGTATACCTGCTTTATTTCCATCTAAAAGTGTATATCCTTCATGATGTAAAGATTTAGCTGTATCCTCTTCTAGGTGAGCTCTGAATATATTTATTCTTTTATTATTATCTAAATCAATAAAACCATCTGTATCAATAGGAAATTCAAATTGAGTAATCTGATAACCTTTAAATAAATCAGGATACATATAGTTTTTTCTGTCAAATCTAGACCTATTATTAATAGTAAAATTAAGTACTTTTCCAACTCTAATTGCTTTTATTAAAGCTTCTTTATTTAGTACAGGTAATGCTCCTGGTAGACCCAAACATACTGGACAAACATGAGTATTTGCCTTATCTTCAAAATATGATGCTTCACAAGAACAAAACATCTTGGTTTTTGTTTTTAATTGTACATGTATCTCTAATCCAACTATTGTTTTTATTTCCATAGTTTATTTTCTAAAAAATATGAAAAAGATAATAAATTACTTTCTTCAAATGGTCTTGATATTATTTGTAATCCAGAAAAAAGATTTCCAATTTTCTTATTAGGAATAGATATTGAAGGATATCCAACTAAATTTACAGGTACCGTGAATATATCAGAAAGATACATAGATAAAGGATCTTTAGTTTTCTCTCCTATATTAAAAGGTAGAGTAGGTGTTGTTGGTGAGAGTAAAAAATCTATTTTTCCAAATACATCTTTAAATTCTTGTTTTATTATATTTCTAACTCTAAGAGCTTTATTATAATATGCATCATAATAACCTTGAGATAGAGTATAAGCACCTATCATAATTCTTCTCTTTACTTCATCCTCAAATTCAGATCTTGCATCTTTGTAGAAATTTAATAAATCTTTAAACTCTCCTTTAGGATGATAACCAAATCTAATACCATCAAATCGAGCCATATTAGCACTAATTTCTGAAGGAACAAGTATATAATATACTGCAAGAGAATGTGATATATATTTCATGTCAATTTCAACTATATCTATATTAGATTTTTTTAATAAATCTATTGTTTCATCAAAAGCATTGAGAACATCTTCAGATATTCCTTCTTTTGGAAATTTTAATATCCCAACTTTTTTATTCTTCACATCTTTAAATTTTGTATAATCTTCTTTTTTCACTTTTATAGAAGTTGAATCCTTTATATCAAATCCAGCAATTGAATTTAAAACTATTGCTGTATCTAAAACATCCTCGGCAAGAATTCCAGGAACATCAAAAGATGACCCCATTGCTATAAGACCATATCTAGAACAAAGGCCATATGTAGGCTTTAAACCAACAATTCCACAAAATGAAGCAGGTTGTCTTACTGAACCTCCTGTATCTGTTCCTATTCCAAATGCACTAGCGCCTGCCATTACAGCTGCTGCAACTCCTCCAGAAGAACCTCCTGGTACTTTATTTTTATCCAGAGGATTCAGAGTAGGACCATATCCTGAATTTTCAGTAGAAGATCCAAATGCAAATGCATCCATATTTCCTTTTCCTATTAACGAAAAATTACCCAATTTTTTTACTACAGTAGCACTATATGGTGACTTATAATTTTTTAATATCTGAGATCCTGCTGTAGTAATAGTATTCTTTATATTAATATTATCTTTTATCACTCCAGGAATAAAAGATAAATTATCTTCATAATTATCAAAATCTAAATGAGAATAGGTATATTCTTCTTCTAATTTAATAAAACAATTAATATCAGCATTTATATCTTTAGCTTTTTTAAAATAATCTTCTAATATTTCTTTAGGAGATATCTTTTTACTTCTCAAATTTTCTTTTAATAATGAAACTTTCATAGAACTTTTTTTACTTTAAAATATCCATTTTCCATATCTATAGCATTCTCACATATAAAATCAAAATCATCTGGATCCAGTATATTATCTTCTCTAAAACTATTTTCTATATCATTTACTTCAAAAAAACTTTCTTGAGAAGATGTATCTATAGAATCTATAGAATCTAGATAATTTATTATATCCGAAATATTCTCTCTAAAAATTTCTATTTTATCCGAATCTAGGTCCAATCTTACCAGATTAGAAATCTTTACAATATCATCTTTACTAATATTTACTTTCATATACAGAAGATTATAACAGTTAAAAATCAATTTTAAAAATTTATATGATATAATTATTTTTATATGAAAGAAAAAGTAGAGGTAAAAGAATATAATAAGTATATGCTCCCATTATCCATAGTTATAGCAGGAATAATAATAGCAGGATCTATATATTTATCATCTAAGGCACAAAACAATACCTCAAATCCTCAAAAAACAAACAAAACAACTACTAGTACTCAAACAAACTCTACAACTTCAAATAATTCTATAAAAGCAACGGTCTCTTTAGGTACAAACCCAATTTTAGGAAATAAGAAAACTGCAAAAGTAGCAATTGTAGAATTTGGAGATTTTCAATGTCCATATTGTAAAAATTTTGATAACTCTACATTCCCTTTAATAAAGGATAATTACATAAATAACGGAAAAGTATTATTTGCTTTTAGAGATTACCCCCTAGAAACGCTACACCCTCTAGCCTTAGGTATGGCTGTAGAATCAAGATGTTTTGCTGAACAAGGAAAATATTGGCAATTTGTAAATAAAATGTATAGTACTTCACAAAATAATAATACTGCCTCCGTAGTATTAGGCTATGCAAAAAATATGCACCTTAATATAGCAACATACCAAAGTTGTGTATCAAAAGATACATTCTTATCACAAATAAAAGCAGATATCTCCACAGGAAATAATATTGGTATTCAAGGAACTCCAACATTCATAATAGGGAAGTTAAATAAAGGAAAAATTACAGGACAATTAATTTTAGGTGCATATCCTTTCTCTTATTTTCAAGGTATTATAAACCAATATCTAAATTAAATATTTTTCTAATATAGTATATCTTAAACCTCTTCCTGTCCCTATAGGAGAGACCATATTTTTCTTCTTCATATCACTCAAATCTCTAAATGCAGTCATAGATGAAACTTTATATATTTTCATATATTCCTGTCTAGAGATACTTTTATGTTCTAATAAAAAGAAAAATATCTCTTTCTGTCTAAAATTTAGAGAAGATATTATTTTATCTGAAAGAAATTTTCTTTTTTCTAAAGATGTATATTTATTTATATATGAATACATATCTTTTAAATATACATTTAGCAAAGAAGATATATTAGCTAACCATTCATTAATATCTATCTTATATGGATCTAAATTCTCTTTATTTTCATAAAATATCTTAAGTATAGGTATATATGAAAAATAATCAATATCAAAAAATAGTAATTTTAATATTATAAGTGAGGTTATATCATTTAATGCACAAAAAGGTTTTAACTTTAAAAAATTATATACTATAACTAGATTTTTTAAATTCTTAGGTGTTTTATCTTCCTTATAATAAATAAAAATATCTTTTAGATTACTATATATATCTCCATTATATAAAGTATCTTCAATAAGAAAATCATATTTTGAAATATATGGAAAATCTTTAGTTCTAAGTTTTCCACTCTCCCAACTTTCAAAACTTTTTTCTGTTAAAATTTTATTTATCCTGGAAATATTATTTAAAGTTAATATATTTTCTTTATCAGTATAAAATGATGGAATCATCTCTAATGTATTTCTATATGATGAGGTTATTTTATTCGTTATAGTATTTTCTATTTTATGAAAACCTAATGCATATTCTCTTAAACCTTTATTATCTATATCTAGATCAACAATTTTAGAGAAATAAAAAAAATCACTAATAAGAAATTCTTCTATTATCTTTTTATTAATACTTAAGGATTTTAAACTAGAATTTATCTCAGATAAATTAATTAAATTATCGAATAAATCTAAAGATAGATCAAAACTAAATTGCATATCTACTTTCTAACAACTCTTCTTAAAAATGCAGGAGTATCTAAATTCTCCTCATCATCTTCTTTAATGTCAAAACTTGAATCTTTTTTTGAAACAGTAAAATCATCATCTTCTTCTAATTCAATATCTTCTATATCCTCTTTTATATCTACACTTTCTACTGTATTTTTCACCTCTCTGTAATTATCTTCTCTTATTATAATATCTTGTTTATCTTTATCAAAACCTGTAGCTAAAACATTTATTCTTATAGATCCATCTTGAATACTATCATCAATAGCAGCACCAAATATTATATTAGCATTTTCATCAGCAGAAGAAGATATTATACTTGCAGCTTCATCTACTTCTAACATTGATAAATCATTTCCTGCTGTTATATTAAACAGTACACCAGTTGCACCATTTATAGAAAGCTCTAATAATGGACTCTCTACAGCTTGCTTTGCTGCATCCTTAGCTCTATCATCTCCAGTAGCTATACCCATACCCATTAAAGCTGTTCCTGCATCAACCATAATAGCTTTAATATCAGCAAAATCCACATTTATCATTCCTGATTTTGTAATCAACTCAGATATACTCTTAACTCCTTGACCTAGAATATCATCAACTGTTTGCATAGCTTCTACAAAAGTTACTTTTCTATCAATTATACTCAAAAGTCTTTGATTTGGAATTACTATTAATGTATCCACTTTACCTTTCAATTCTTCTATACCTTCAATTGCAGTCTGTGCTCTTTTATGACCTTCAAAAGAAAAAGGTTTTGTAACAACTCCAACAGTAAGTGCTCCTAGATTTTTTGCAATACCTGCTATAACAGGAGATGCTCCTGTACCTGTACCTCCACCCATTCCTGCTGTTATAAAAACCATATCAGCTCCAGATAAAGCCTCATGTATAAGATCTATACTCTCTTCTGCTGCTTGTTTTCCTACAGAAGAAACACCTCCAGAACCTAATCCTTTTGTCAACTCACTTCCTATTTGAATTTTTGTTTCTGCTATAGAATTTTGTAATGCTTGAGAATCAGTATTAACAGAGATAAAATCTACGCCAAGAATATTATATACAGATATCATTGTATTAATAGCGTTATTACCTCCGCCACCAACACCAACAACTTTTATTTTAGCTGTACTATCAAAAGATTGAGGTTTAACTAACATATAATATTTACTTAGAATTTAAATATGTAAACATTAAACCACAAAACAGTTATTTATTCAATATTAAGAAACGAAATTCTTTATCCACTCAATTAATCCATTGGGATTAATTGAAAAATTCTTCTTTGATTTATATTTTTCTTGTGATAAAGATTGAATTCCATAATTAACAATACCTTGTATAGTAGAATAAGTAGGTCCAGATATTTCATCATTTAAAGAAGAAAAATTTGTAGGATATCCAACTCTAGATGATGTAGAAAAATATTTTTGTGCCATTTTAGATATTGCATATAATTTAGAACTTCCTCCCGTTAAAACTACACTTGTGGATAATTTGATATCAAATCCTGCTTCAACAATTAATTTTTTTACATTATCAAAAATTTCGTATATACGAGCTTCAATAATCTCATCAATCATACTTTTACGTATTTCATCTAAATTAGACTCTGTTTCTATACCTATATCAGATAATCTCAGATATAAATCCTCCTTTGTAAAAATAGACTTATTCGCAGAAACCTTTTTACTTTTATTCTCACTTTCAGCTCTTTGTTGAGCTTTTTTTATTAATATAGGATAATAACATTTTAATTTTTCTGCATCCTCTACCGAAATCTTTAATCCAATAGCCAAATCATTTGTAATACTTAAACCTGCTAGAGCTATTGATCCTGAGAACGCAATTGCATCATCTAAATACATTACGATATCTGTTACTCCATAACCAATATCTAAAAGTATTACTCCTAATTCCCTCTCTGTTGAATTTAAAATTACTTCAGCATCAGCCCATCCAGAAAAAATAGAATCTACAACCTCCAATCCTACTTGAGCTACACATTTATGTAAATTATGCATAACCATACTACCAACAGATATTATATGAGTATCCATCTCCAGTCTTATACCTGCCATTCCTATAGGATTTTTAATTCCACCTTGAGAATCTACGACATATTCTCTTGATATAGTTTGAAGTATTTTTACAGATTGAGGAACTGATATTGCAACAGAACTCTCACATACTCTATTAATATCTTCTTGAGATATTTCATCATTTGATATAGCTACAACCCCTTTATTATTTGTACTTGAAATTTGTCTGCAACCTAGACTTATATAAGCACTTTTCACTTCTACCCCTGCCATTCTTTCTGCTGCAGAAAGACTTTCTGATATTGATTTTACAGCATCATTTATATTAACAATAACACCATTCTTAATACCATTACTTTTATAACTAGATACACCTAAAACAGAGGTATTTTCATCCTCAACATTCACAATCAAAGTAGTTATCTTTGATGAACCTATATCTATTCCTGTTACTATACCTTTAGACATATTTTATAATCATGATTATAAAAAAGTATATATTAATAAATGAATGTGTGCAATATATTAATTTTGGCAATATATTTTTTGAAACTCTACATTAATAGTATTACAGTTAGTATTATTTGATGTAAGTATACCAATTATTTGAGATATTTGTAGAGAAATAGGCTTATGAAAATTCAAAAGTACATCTTTTCCATCTGAAAGTGTCATAACTATATCATAATTATTTATAGTATATTTAGAAACTTCAAAAACAAATTGTGTAGATACATTTTTTAATAAAGATAATATATTTCCTAATTGAGCATCTTTTATCGGAGTAGAGGAGGATACAGTTATATATCCATTTTTCTGACTTTTTGTTTTTATATATGTACCATAAGAAGACACATCGTAATAAGAATTTTTGTATTTATATATAAAATTTATAGGAAGACTTTTTATATAAATATATAGAACAGAGGGATAGACTTTTTTAAAACTTACACTTGAAGCAAAACTATAGTATTTCCTAATAGTAGAATCAATATTATTACTACTTTCGAATAATAAATTTTGTCCTTTTATCTTTTGTTGAATACTTAAAATAACATTTCTATTTTGAATATTTTTTACATAAACATTTTTTATTCTAAAAAATAAAAAAATATAGACTAAAAATATAACTAATATTATAAAAATAAGTCCTAATATAAGTATAAATTTCTTTTTCATAAATAATATTGAATACCTTTTCTATATATTATATATTATATATAGTGAATGATATAAAAATAAATAACAAAGGACAAGCTCTGGTAGTAGTAATGTTACTTGGTATAGTACTGTTGATTTTAGTTATGTCTATCACTACTAGTGTTAGTAAAACTACTAATCAATCGAGTATTGATTATGGATCTCAAGTATCCTTCGCTAATGCTCAATCTGGAATTCAACAAGCTCAATCAGCAATAAACTCAGGTAATCCATCTGGTGGGAATTGTAGTCATTCAACTACAACAAATACCTGTTCATATAACACGAGTCAGGTACTTTTAAGTAATTCTAGTGCTACAAAACCTATAACAGCAAAAGTTCCAAAATCTGTAACTCTACCTATTAGCATTGATAATATTTCTTCTTATCTAAATTTAACTTTTAATATATCAGATAGTAGTAAAGTAAAAATATATTATGTAAATAACTCAAATGCCACTTTATATTCGTGCTATTTTAATGTAAATAGAGGTGAGAATTATACTCTATCTATACCAAAAGGTACTACAGTAATTTACCTAGAACTAAACTCATCTGAAATAGTAAGCTATTATGAAGGTACTGGAGGAATATCAATACCTTCATCTTCATGTAATTAATTTTTTCATTTCTAATAATAACTTTTATGAAGAGTGATATTATTGAATTTAGCACTACAAAATAAATACAAATATCTTTTTCATAAAATAATATTGAATACTTTTTCTATATATTATATATTAATATTGTGAATGGTATAAAAATAAATAATAGAGGACAAGCTCTGGTAATAGTAATGCTACTTGGTATAGTACTGTTAATTTTAGTCATGTCCATTACTACTAGTGTTAGCAAAACTACTAATCAGACAAATATAGGTTATGGCTCTCAAGTATCTTTCGCTAATGCTCAATCTGGAATTCAACAAGCTCAATCAGCAATAAACTCGGGTAATGTTTCTCCTGGAAACACAAATTGCAATAATTCAACTTCATGTAAATATACAATAACTTCTCAATCTTTAAGCAACTCTAATTCTACAAAACCTATAACAGCAAGAGTTCCAAAATCTGTAACTCTACCTATTAGTATAAATAATGTATCTTACTCTAATGAAGAATGGAGTGATGTTTCGTCTTCTGTTGTTTCTAATGGATATGTATATGTAATGGGTGGAGTAGGTGAGACATCTGTAGGAAGTAGTGTTTCCTTTGCAACTACAAATGTTTCTTATGCACCAATTAATGTTAATGGTACACTTGGAAATTGGAATCCAACAACACCTTTGCCTCAACCTAGATCTTATGCATCTGCTGTAACATATAATGGATATATATATGAAATCGCAGGATTTGATGCGAATAGAAATCAAACAAATACTATATATTATGCTCAAATAAATCCTAATGGAGGTTTAGGAGCATGGAATTTAACAAGTTCTTTGCCTTATAACATCTCTTGCGCAACTTCAGTTGAATACAATGGATATATCTATGAAATGGGAGGATGTTGGTCTAGTGCAGTATACTACGCTCAAATAAATTCTAATGGTGGACTTGGAACATGGACATATACTTCCTCGTTCTCTTGGTATACAGGAGGAGGTATTATGCTTGCAACTTCAGTTGAATATAATGGATATATCTATGAGATTGGAGGTCAGTACGAGGAACTAGGCGCAAGCGTATCACCAAATGTATATTATGCTCAAATAAATTCTAATGGTACACTCGGTGCGTGGGCACAAGCTTCATCATTACCTCAACCCTCATATAATAATACTTCTGTTGCATATAAAGGATTTATATATGAAATAGGTGGAGTAAATGGAGTAGTGGGACAAGGAGGAACTTTTATGGATAATGTATATTATGCTCAAATAAATTCTAACGGATCTTTAGGGACATGGCTGACAACAACATCTTTACCTACTGTTCCTTCAAACACAACTAGAGCATATGCAACATCTGTAGAATATGCAGGATACGTATATGAGATAGGAGGTGCTAACGGACCAGCAGAAATATATTCTGGACAACTAAATCCAAGTGGAGGTATAAATAATTGGAATACACTACCTAATCCCTGCTATCATGTTTGTACTATAAATAATGTTCCAACAAATTTAACTTTTAATATATCTAATAGTATACAAGTAAAGATATATTATGTGAATAACTCAAACCCTTCAAATGCCACTTTATATTCGTGCTATTTTAACGCCAATGCCAATACAAATTATACTATATCTATACCAGGGGGTGCTACAGTTGTATATATGGAACTAAATTCAGCAGGAACAGTAAATTACTATGAAGGAACTGGAGGAATTTCAATACCTTCATCTTCATGCGGTTAATTTCTTTTTTTCATTTCTAATAATAACTTTTATAAAGAGTGCTGTTATTGAAGTTAGTACTGCAAGGTAAATAACTTCTATTACTATAGAGTTGAATTGATTTAAGAAAGCTATCAAAACAGGATAATATTGACCTAAGAGAATTCCTAAAATAATATAGAAAATCGTCCATGCAATTGTAGCAAATAGAGTAATTGATATAAATTTTGAATAGTTAAATCTAAACAAACCTCCTATTACATTAGCAATGATTCTTAAACCAAATATCCAACGACCTACTAGTATTGCAAAAAATCCATGTGATAAAAACCAAGATTGCACTTCAATAATCCTTGATTTTGGAATAAAAATATACTTACCATACTTTTCTATAAAATCTAAACCTTTTGAATATAGAATAAAATAAAGTATGCTAGATCCAAGAAAAGTTGCAATCAATACTATTAATATTATATATATAGGATTAACAAAACCTAAAGATATTCTATAACCTGCTAAGAATACAAAAAATTCTCCAGGAATAGGCATTGGAACTCCCATCTCTTCTAATAAAATAAATAGAAATAGAAATATATATATATTAGGAAATATTACTTTATTGATTGTCAGAGTAATGTGATGTATCGATAATATAGAAAAAAAATTAAAAAAAATATGAAGAAACATTAACTTCTATTTATAAATCCTAATATATCCAGTATGGCAATAAAGATATTAACAAAATCTAAATATAGTGCTAGTGCAGCAACATACTCATTTGTCATATCCGGATTCTCTAAAATATTAGAAATATCATAGAGCACAAATCCTGAAAATACTAATACAACAGCAACTGATATATAAAAATTGAATATAGGACTATGCATAAAGATATTAACAATTCCTGCAATGATAATACCTACTAATCCTATCATTAAAAATACCCAAATCTTAGAATTTACTAAATTAATATTAAAAAAATATACTATAGAAGTTAAGAGTATAAAAATAAAAACAGTTATAGCTAAAGCTTCAAAAACTAAATTTCCTAAATTATAACTAAAAAATTGATATATTAAAGGTCCTATTGTAAGACCTGATATAAGAGTAAATAGATAGAGTAGAGTAGGTGCTAGAGCTGGTCTATTCTTTAAGAAACCTATTGCAAATAGTAGCACAAATTCAATTATTATAAGTGGAAAATAATATACAGGAGGTACGTATCTAGATAAATATACTCCAAACACTGCTACAACTAGAGATGATATAAATATGGTTAAAACTCTTATTAAAAAATTATTCTGCATACTTAGTATTTTATCACAACTTAGAAAAAAAATAAAAATCTGTTAAAATCAACAAATAAGCCGATATAGCTTAAGAGGTAAAGCACCACTTTCGTAAAGTGGAGTTAGCAGTTCGATTCTGCTTGTCGGCTAATATAAGCGAGAGTAGTTCAGTGGTAGAATGCTTCCTTCCCAAGGAAGAGGTCGCGGGTTCAAATCCCGTCTCTCGCTATTATTATAAGATTTATCCTTCAGTTGGATTAATAGCAGATATTTGATAACTATTACCAACCTTTAACCAAAAAATATTCAGATAGATCTTAGCCCCACTAATATTCATAAATATTGTATAGTAATTAGAATATACCTTCACAAAAGAAATATTTTTACTCATATATGGAATACCTAAAACATTTTTTATATCCAAATTATAATTAGAGGAGTTATATTCTGAATATAAACTATTTTGAAAATCTTTCGATAAATAAGATGTTATATCTTTATTCTCTGAAAAATTTTTAAAAAATGTTTTTACAAAAACCTCAGAAGGTATAACTCTTTTATTAACAGTAGTATACGAAACCTTAACTAATTTTGATTTCTTAAATAAATTATGAGCATTTATATATTTAAAAGAAAAACCTAATACTATATTAAGTAAGACAACTCCAATAAATACAAATACTACTAATTCAATAAAAAAAGATATACTTTCTGAATTTTCTAATATTTTACTTCTCATTAAAATATTATAACAGAATAAATTTTAAAAAAATAAATTCATCCAAGATAATACTATTCTTACTGACATAGTCTCTAAGATAAGTACATCCTTAGTCTATTGTATCTTTTACTTTCTGAGGAGTAGCAGGATTTATCAACTGAATAAATTTTACAATAGCATATGCGATTATTAAATACACAATCATACCTATAAGTATTGACCATTCAAATATAGAACTATTACTTATAGTGTTATTAAATATATTAGAGAAAGGTTGTGCAAAAATATTACTTATTGAGTATATAAAACTTACAAAACTATTTTGAGAATTTGCACCAAAAAGGAGTAATATAAATCTAAAAGCAAGTAATACTTCAATAATTCCTAAAAAATACCAAACTATTTGATGTGCCCTAAAAATAACTTTCTTTGTTTTATATTCATTAGTGTTTGTATTATCTTTATTTTCTTCCATTTAATTAAATTGTTATAAAATATTATATCCAGTATACTCTTTTTATAGGACATTGCAATAGCGAATATAACTCTCTTAGTATATGGATATTTATCGTAATAATAACGTTTTAAGAGATTTAACAAATATATTTTTATGTTAAAAAAATACTAGTTTAGAATGGCGGTTGTGAACGGATTCGAACCGTCGATCTTCTCCGTGACAGGGAGACATGTTGGACCACTACACCACACAACCTTAATATAAAAGAATATAGAATTATTACACAAAAGAGTGTCTTAAATCAATTATTTAATCCAATATAAAGAAAAACCTTTATTATATATAGTTTTTCTATAACTACTGTCTAAAAAATAATAGTTATTATTATACTTAAAAATATAATAATGAGCTATATTATGAGGAGGTAACATATCTAAAGATATTTTATTTATATGAGAGGATATTAATGAATAAATACTCTGAATACTAGTACACTCAGTAGTACTTGAAGATATTAAAGGTGAACAATAAGGAGAAGTACCTTTGACAGAATTAATATTTACATTAACAAATTTTGAAACACTCTGCACCTTTATTTTACTATATCCAGGTGTATTGAAAAAAGCTGTTTTAAATGTCTCTAAATTAGCTTTTATTTGCTCATCTAAAGATATAGAGTAGGTATTATTAACAGAAGTCATAGGTACTGTAACATTATATACCTTAACAGGGCGTACAGGAGCTTTTCCTAGAAAAAAATAAAAAAAGAAAAATACAACTATAAAGAAATAAAATATTATTATCAAAAAAAATATAGAATTATTTTTTTTCATTATTTTTTCTTACTACTTACTGTTTTTCCTTGAAGATTAGTATAACTAGAAGGAGTATTAACAGTAAAATTAGTATTAAAACTAGTCATATTAGCTTCAAAATAAACCTTAGCTGGAGCACCAGATACACTAGCATTAAAACTAATAGATTCTTGGTATACCTTATTATCAGCTACACCAACCCATTCATCTAATCTTATACTCTTTGATGTAACTGTTGAATTTCCGAATACAGATTTCATTAATGTTAATAAATTTAACTTCGAGAAATCAGATTTTGGAAATATAACTACATAATGAGTAACTACTGTACCATTTACTACAGAATTCCCTAAAGAATATGCATCTAAATTAGAATAATTAATATTAGGTTGATTATCTAATTTAGAAAGAAAACTAAATTCTAGATTTGGTAAAAGTATCCATTTATTAGTCTTAATTCCAGAATTTAGTGCTGAAGGAAATTTAGAAAAATTAATAAAAAATTTATTACTGTTCTGTATAAATTTACCATCTATAACTAAAGATGAAGTAGAGGATGAACTTGCAGAAGAAAATTTTTCAAAAATTGTAGATGATGATAATACATTTTTTGGATTCTTAAAATTTATATTTCCTGAGAATTGTTGAGTAATACTTCCACCACTTGCACCACTTGATTGAAGAGCAAAATCAACATTATAATTATAAGAATTTATTCCTTGATCTGCAGCAAAAGTTTTAGGTAAAATATTTTGAGGAGATCTATCTAAACTTTTTAGTACAGGAATTCTATCAATTAAATTAGAAAATCCAGGAATATTTGCTCCAAATGTATAAGTAGAAAAAAGACCTGCTATAAACAATATGAATATTATTAGAACTACAAAAGATGCTATAACGCTAGATCTCTTAGATTCATCTGCAAAAGCAGATTTTGAATATAAATCTTTAAATACTGAAGATTTAGACTCTTCTTCTGATAACACTTCTGTTGTAGAAGTAGACACTACCTTACTTTTTTGGGGAACAGATTTTTCTGTTAATTTTTTCTCTTTTTTTATTTTAGCCATAAAATTTATATAATATATAGGATTATGGTATATAAATTTCAATTTAATGTCAAATAAATATAATAGATTATGTTAAAATAATAAGAATGGATAAAAATAAATTTGAACTAATATCAGATTTTAAACCAGAAGGAGATCAGCCAAAAGCAATAGAATATCTCCTTAATGGTATTAGAAGTGGAGCAAAGAACCAAACATTAATGGGAGTTACAGGTTCGGGAAAGACATTTGTAATGTCTAATATAATACAAAACATAAATAAACCCACTCTAGTTATTGCACACAATAAAACTTTAGCAGCTCAATTAGCTTCTGAGTTTAGAAATTTCTTTCCTAATAATTTAGTTGCATATTTTGTATCATACTATGATTACTACCAACCTGAGGCATATATACCTACAAGAGATTTGTATATAGAGAAGGAAACACAAATCAACGAAGAAATAGAACAATATAGAAATAAAGCAACTCAATACCTTCTAACAAGAAATGATGTGATAATTGTTGCGTCTGTTTCATGTATATATGGATTAGGAGATCCTAGTGAATATGAAGAATTAGCTATAAAAATTTCTCTTAATACTAATATAAAAAGGAATACTCTTATAGATTCACTATTACAAATACAATATGAGAGAAATGATTTTGAATATAAAAGAGGTACATTCAGCGTTAAAGGAGATATAATAGAAATATTTCCTCAATACGAAGATGATGTTATTAGAATAGAGTTTTTTGGAGATATAATAGAGAAAATAAGAATAATAAATCCTTTTACAAGAAATAGGGGAGAAGAGAGATCAGATGTATATATATTCCCAGCAAAACACTATATTGTAAAACAAGAAAAATTGAATATTGCAATTAATGCTATAGAAGAAGAACTCAAAGAAAGATTAGACTACTTCAGAAAAATGGATATGTTAGTTGAAGCAAAAAGATTAGAACAGAAAGTTAGATTTGATATAGAAATGATACAAGAAGTAGGATATTGTCAGGGAATAGAAAATTATTCAAGACATATTGAAGGGAGAGCAAAAGGCTCAGCTCCTTTTACTCTAATGGATTTTTTTCCAAAAGACTATCTTTTAATAATAGATGAAAGTCATATCACTCTCCCTCAAATAAGAGGAATGCATAGAGGAGATTTTCAAAGAAAGAAAACTTTAGTGGATTATGGTTTTAGATTACCTTCTGCAATTGATAATAGACCTCTCAATTTCGAAGAATTTAGAAAAAAAATAAATACTGTAATGTATGTTTCTGCAACTCCAAATGAATATGAAATAGAAATATCAAAAGAAAGTACAAAAGGTTTAGATAATTATCCTGAGAATGGAATTGTAGAACAAATAATAAGGCCTACAAAATTATTAGATCCAGAAATAGAGGTAAGAAAAACAGAAGGACAAATAGAAGATATAAAAAAAGAAGTTCTAAAAAGAGTAAAAAAGAATGAGAGAACTATAATAATTACTTTAACAAAAAAAATGTCTGAAGAATTAAATAAATATATGATCGAGCAAGGATTTAATTCTCAATATATCCATAGTGATATAAAAACAATAGAAAGAACAGAAATCTTAAGAGATTTAAGGCTTGGTAATTATGATGTGATAATAGGAATAAACCTTTTAAGAGAAGGTTTAGATCTCCCAGAAGTTTCATTAATATTAATAGTAGATGCTGACAAAGAAGGGTTTTTGCGTTCTAAACAAGCTTTTATACAAATAATTGGAAGAGCTGCTAGACATCAGAATGGTAGAGTTATAATGTATGCAGAAAAAATAACGGAATCTATGAAAAATGCAATTGAAGAGACTAATAGAAGAAGACAAATACAATTAAACTATAATATAAAACATAACGTCTCTCCTATAGGAATAAAGAAAAGTATAGATACACAAATAGAAAGAATTAAAAAAGACAATGAAAATTTGAATATAAATGAAATATCTGATACAAAAGAACTTATAAAAAATTTAACAAAACAAATGAATGAGTATGCTAAAAAAATGCAATTTGAAAAGGCAGCCAAACTCAGAGACCAAATAAAAGAATTAAAACTAATTTCTTAATAAAATATTAACAATTTGAAATTAATATACAAATATATATGATTATAAATTTTGAAGAACAAAAAAAGTTACCCAAAAAACATAAAAAACTAAAAACTGTCCTCATAACATTTGTTATATTAATAGCATTATTTATATTCTTAATAATAAAAACAGGTTATCTATCTGTAGCATATGATATTTTTAAAATTACTGGAAATAAAATAAAAAGAACTAAGACTGAGACAACTATTCATTATAAATATGATAATTCTAATAAATTTACAAATATACTATTACTAGGATCTGATACTGACCCTAAATTTGCAGGTCAACCTGTACTAACACAGACTATAATGATAATTAGTATAAATCCTTATCAAAAGAAGATTTATATGATCTCTATACCTAGAGATTTTTGGGTCAAAATTCCAGGAGTAGGATATGGGAAATTTGATCAAGCATCTTTAACTGGAGGATTTGGTTTAACAAGACAGCTAGTTGAAAGTTATTTTGGAATAAAAATTGATTATTATGCATGGGTAGGTCTGAGTGGTTTTGTAAAATTAATTAATACATTTGGTGGTGTAAATGTAGTACCAACTCATCCAGTATTGGATTGGAGTTATCCTAATGATATCACTGGAAATCCTAAATTATTATATAATGCCATTAATTTATATATCTCAGGAGCACCTCAATATATGACAGGATCAAAAGCATTAGAGTATGTACGATCTAGACATGGAGATTTACAAGGAGATTTTGGGAGATCTAAAAGACAACAACAAGTTTTAAGAATCATTAAAAATAAATTAGATAATGTATCTACATTATCAGAAATACCATCTTTATTTAATAATCTAAGTAAAATTGTAAAAACAGATATGAGCATACCTGAAGTTTTATCCTTTGCTCAAACTGCAATTGCAATGAAAAATACACCTATAACGTCAATAGTGCTCTCACCTCCTCATTATTCATCTATACCAAACTATCTAATTGATGGACAAGATGTAGTTTTACCTAATTGGACTAAAATACATGCTTTATTTCAGAAATTATATGGAAACTAATGGACTTTAATATACAAAATAAAACAAAAGAAGTAAAAAAGAAAAGATATTCATGGGGATTATTAGTAGCACTAATATTAGTAATATTACTAGGGATCTTCATTAAGTATGAAAATATTATTCTAAATATCCTTAATCCTAAAAATATTGGACAGAGTATTTCTAAAAATGTTAATACTGAAAATATATACCCTATAAAAGGTAGTTTGTATTTCGTAAAAAATAATAATCTTTGGTATATAAAAGGAATAAAAGCACATAAAGTTACAAATACAAATAATGTATCTGATATTGCTATTTCAAAGAATGGGGTAAAGGTCAGTTATGTCACTTTTCATACTAATTACTCCAATTTACATGAAATGAATATCAACGGAACCAATAACAGAAGAATTACTCAATGGAGTAATCCTAATATTGCAAACAATGCATGGTCAGCAACTCCTACTTTCTCTCCTGATGGACAATATATAGCATATCTTAGTAACATAGAAGATCTATTAACAGGAGTACCTATTGCAAGTTTAGGTGTATGGATGATTCCTTCTAATGCAGTATTTCCAACATATGGCTCTCAGTTATACAATGAAACTCTTCTTATAAAAGCTAATCCCTATACAGGAGGAGATGCAGGTTTAAATTGGCCTAATAATAACTTTTTGCTTTATACTTCATATATTTATTATACAAATACGCCACAACCTAATTCCCAAATAATGTTATATGATTTCAATACACAACAATCTTATCCAGTAACACCTGTTTCTTCAGATGCTATGCAACCACGCCTATCTCCTAATGAAAATTATTTAGCATTTACAAAAAGAGTAGGGAATAACAGTAACTATTTATATCTTATGAAATTCAATTTAAATAATATCTTAACTCATACTGAAAATTCTAATTTTAATACATATAATAATAAAATTTTGGTACAAAATGGTATTACCAGTGAACCTGTATGGAGTCCTTCTGGAAATTCAATAGCTTTCAGTTATTTTAATAATAATTCATTTGATATTTTCTTGAAAAATATAATAATAAAGAAAAATAAACTTAGCACAGGAAAACTAATTCAAATAACTTCAAATAGTAGTATAGATAGTACTTCTAAAATGTACTGGCTATCCAATTAGTTACATACTATGGTAAAATAAAAGACCAATGTTTAATAACTCTAAAATTATAATAAAAGGAGCGAAGGAGAATAATTTAAAAAATATCGATATCGAAATTCCTAAAAATAAACTTGTTGTAATAACAGGTGTCTCTGGGTCTGGAAAATCATCATTAGCTTTTGACACTATATATGCTGAAGGACAAAGGAGATATGTAGAATCTTTATCCTCTTATGCCAGACAATTCTTGGGTGTTATGAAAAAACCTGATGTAGAACATATTGACGGACTTTCTCCTGCAATATCTATAGATCAAAAAACTGCAAGCAGAAATCCTCGTTCAACAGTAGGTACAACGACAGAGATATATGACTATTTAAGGTTACTTTATGCAAAAATAGGAGTTCCTTACTGCCCTGTATGTAATACAAAAATAGAAAGTCAAACTATAGAACAGATAAATAATGAGGTTATAAAAATCAAAAATAAAAAAATTATGATTTTATCTCCTATAATACGAAATAAGAAAGGTGAATTTTTAGATATATTAGAAAATTTCTTTTCTAAAGGATATACAAGAGTAAGAATAGATAATGTTTTTTATTCATTAGATGATGAAATAAAGATCTCTAAATACAAAATTCATAATATAGATATAGTAATAGATAGATTAATAATTAATGATTTAAAAGAGGAAGAGAGTAGAGTATATGAATCTATTGAAAAAGCTATTTCTCTTTCTGAAGGAGAAGTTGTAATACACCTACTAGATGAAAAAAAAGATATGCTCTTTTCAGAGAATTTATCTTGTCCAAATTGTCATACATCTATACCTGAAATTCAACCTAATACTTTCTCTTTTAACTCTCCTTATGGTGCATGTAGTAATTGCACAGGATTAGGAATCTTACAAACAATACCAAAAGAATCAATATATAATAAAAATCTGACATTTATGGAAGGTGCGGTATACCCATTATCAAATGAAATAACCCATTATAAATCTTCTTGGATCATAAAAATAATAGAAGAAGTATCCAGAAAAAATAATATACCTCTTAATATTCCTTTTTCAAAATATACAGAAAAACAATTGGATATATTAATGAATGGAGTAAAGGGTGAATCCTTTGAAATAATGTATAAACCTCGTATGAGAAGTATTAAAAAATATACAGTTTCATTCGCAGGAATAATACCTTATCTTTTAGAAAAATATGAAAATGGAACTGAAAATACGAGAAAAGAAATAGCAAAATATATGGAAGAAGTTATATGTCCTGTATGTGAAGGCACAAAACTAAACAAAATAGCTCGTTCAGTAAAAATAGACAATAAAAGTATAAATGAAGTTAGTTCAATACATATCAATGAGTTTATAGATTGGATAGAAAAAATAAAAAAAGATATAAGTACAAATGATACCTTGATTTCAAAACAAATTTTTCAAGAAATTGAGAGTAGAGTAAAATTTTTAGATGCAGTAGGAGTTTGGTATCTAACGCTAGATAGAGCATCTAAAACTCTCGCAGGGGGTGAGGCTCAAAGAATAAGACTTGCTTCTCAAATAGGATCTAAACTTTCAGGTATACTTTATGTATTAGATGAGCCATCTATTGGTCTACATCAAAGAGACAATGTTAAATTAATAGAAACTCTAAAAAACTTAAGAGATTTAGGTAATACAGTAATAGTAGTTGAACATGATGAAGAAACAATGGAAAATGCAGATCAAATAATTGATATCGGAAAAGGTGCAGGAGAGTATGGAGGTGAGGTGATTGCTCAAGGAAGTTTTGAAGATATAAAAAATAATAAAGAATCTATAACAGGGAGATATTTATCAAAAAAAGAAGTAATCAGTGTACCTAAAAAGATTAGATCTTCACACAAAGAAATTCAAATTATAGGAGCAAAGGAACATAATTTAAAAAATATTAATGTTAAAATACCCCTAGAAGAACTCGTTGTAATAACAGGAGTATCAGGTTCTGGAAAAAGTACTTTAATAAATGATATTTTATATCCTTTTTTATCTAATTATTTATATAAAACTAAAAAACATATAGGAGAATATAAATCAATTGAAGGAGTAGAGAATATTAATAAAGTTATAGATATAGATCAATCTCCTATAGGAAAAACACCTAGATCAAATCCCGCAACATATACAGGTGCATTTACGTACATTAGAGACCTTTTTGCAAATAGTAGAGAAGCTAAAATGAAAGGTTATAAATCTGGTAGATTTAGTTTTAATGTTAAAGGTGGACGATGTGAAAATTGTAAAGGAGATGGAATTATTAAAATTGAAATGCAATTTCTACCAGATGTCTATGTTGTATGTGATGAATGTAAAGGAAAAAGATATAATAAAGAAGCATTAGAAATAAAATATAAAGATAAGAATATCTCTGAAATTCTTGACATGAATATTGAAGAAGCACTTAAATTTTTTGAAAATATATCATTAATAACAACAAAGTTAAAAACATTAAAAGATGTAGGATTAGGATATATAAAATTAGGCCAAAGTGCTACTACTCTTTCAGGAGGAGAATCTCAGAGAATTAAACTTGCATCAGAACTCTCTAGAAGATCTACGGGAAAAACACTTTATATATTAGATGAGCCTACAACAGGATTACACTTTGATGATATAAAAAAACTAATGAAAGTATTAAACGATTTAATAGATCAGAAAAATTCTGTAATAATAATAGAACACAATATGGATGTTATAAAAATGGCAGATTGGATAATAGATTTAGGAAAAGAAGGGGGATATATGGGAGGAGAAGTTATTTTTGAAGGAACAAGAGATGATATTATAAAGTGCAAAAATAGCTACACTGGTAAATATCTTAAAAAACATTTAGGATAATTTTTTATAAATAATATCCAAAAGTTCTTCAGGACTTTCAACATCCACATAACTGAAATCTGTAGACTCAAATGAAAATTTATCTCCCCATAAAACTCTTATAAATTTAATTTCTAATAATTTACATACCAACAGATCATCTAAAGAATCTCCTACATAAACAATATTTTCTTTATTAAGATTTAATTCTTTTAATGATTTCCACACACCTTCTGGATCAGGTTTTTTTCTTTCAACATCATCTACTGTAACAATAGAATCAAAAAAATCATAGGCATCTGGTAATATATTTTTCAATCTATATTTATATGAATTTGTTATAAGAGATAATTTAAAATCTTGTTTTAATCTTTCTAAAACTTCTCTAATTCCAGGAAATATACTGATACCTTTTTTATAATTTTTTATATAATAATCAGAGAATACATCTAAAGCTTCTTTTATTTTTTTCTCATCATCTAATAATTTAGAAAATATAGAATACTCAGTTGGACCAAAAAGATTTATATCTAAATTATTTTTTATACCCAATTTATTAAATGTATACTCAAAACATTCAATTATAAAAGGAGCATCATTAGCTATTGTATTATCAAAATCAAAAAATATTGCTTTAGTAATCATATTTTATTTACGATAAAATTTTTTCAATAATTCCAATTCTTCCATCTCAAAAGTAGTAGGTCTTCCATGTGGACAGAAAAATGGATTTTTTGTCTTTCTCAAATCTATGATTATTTTTTGCATTTTTATATTATCAAGATAATCTCCAAATCTAATACTTGAATGACATGCTATAGTAGCAGATATTTTATCTAAAAGTATATTCTCACTCTTACCATCAGCATATTCTAAATCTGCTAATATATCTTTTATTAATTTTTCTATATCATAATTTATTAACACTAATGGGATAGATGATATCTTAATACTACTATCTCCAAATATTTCAATCTCTATACCATATCCTTTTAATATCTCTATAAATGACGATATTAATACAAAATCTTTTTTATTTAAATCAATATCATAAGGAATAATAAAATTTTGAGATTCAATCTTATTTAATTTTATATCATTCATAATTTGTTCATACATTACTCTTTCTGAAGCTGCATGTTGATCTATAATCTGAAGTTTATTTTCGAAAACAGTTATTATATATTTAGAAAATATTTGAAAAACTGGAATATTCTCATTTATTGTTTCTATATTGTCTAATGAAAAAATAGATTTATTCTCATAATTACTTACCCTCTGAGTAGAATAGGAATTATTGGGAGTAGAAAATGAATAATTTTTTAAAGTAGAATTTATCTGAAGTATATTATTCTCTGAAGGTTTAAATTGAGAATATTTTTCATTTGTAACTATTTTGTTTACAGATGATCTAATTAGACTGAAAATTTCATTTGTATTTTTAAATCTAACTTCTATTTTTCTAGGATGAGCATTTACATCAACTTTGAAAGAAGGCATATTTATAAATAATGTATAAATTGGAAATCTATCTTGTGGTATAAAATTAGAATATCCCTCATTTATAGCTTTTGATATAATATTTGAGTTAACAGCTCTATTATTAACAAATATATATTGCAGATCTCTAGAAGATCTAGTATATAAGGGTTTAGCTAAAAAACCTTTAAGAGAAATATCATTTAAAGTAACATCTACATCAAAAAAATTTCTATCCCCCTTAGGTAATATTGATATAAATCTATTATACAAATCTGTAGACATATAATTATATATTCTTTTAGAATTTTTATAGAACTCAAAATGTATACTAGGATATGAAAGAGAAATTGATTTAAAAATCTCTTCAATATATCTATATTCAGTATCTAAACTTTTTAAAAATTTTAATCTTGCAGGTGTATTGAAAAATATATCACTTACATTGATACTTGTACCTTTCAAAGAAGCACTTTCTTCTATACTTTTTATCTCACCTCCTTCAATATCAACTTTATATCCATAATCTAATCCTTCTGTCTTAGATACTATAGAAAGCCTAGATACTGATGCAATAGAAGGGAGAGCTTCACCTCTAAAACCAAATGTAGATATATTATCTAAATCTTTCTCACTAAATATTTTTGAAGTTGCAAATCTTTTAACAGATAAAAGAATTTCTTCTTTATTCATACCCAATCCATCATCATCCACCCTTATATTTAATCTATCTATATATACTTTAATATTTTTTGCATGCGCATCTATAGAGTTTTCTAATAATTCTTTTAATACAGATGCAGGTCTTTCTACAACTTCACCTGCAGCAATTTTATCTGCTAAATTTTGAGGTAATATCTTAATCATATTTTTCTTTTAGATCCATTAATATCTTAAATGCTTCAATAGCTGTTATATTGTCAATATCTATATTTTTTAAATCTTCTGCTAGAGTATTTTCTTCTTTTTCAAATAAATCTTGTTGAATAACAACAGTCTTATTTTTTCCTAATTCAAAATCTTCTAATACCTCATAAGCTCTTTTTATTGTAGATTCAGGTAAATCTGCTAATTTAGCAACATGAATTCCATAACTTTTATCTGTACCTCCAATTTGTAATTTTCTTAAAAATATTATATCTCTATTATTCTCTTTAACCATAACACTTACATTAAATACACCAGAAAGAATATCTTCTAAAACTATTAACTCATTATAATGTGTAGCTATCATAGTCTTAGCTTTTATATCATTATGTATATATTCTATTATAGCCCAAGCTATAGATACTCCATCAAAAGTAGATGTTCCTCTTCCAACTTCATCTAAAATTATAAAACTTCTTTTAGTAGCATTATTAAGTATATTTGAAACCTCTTTCATCTCAACCATAAATGTACTCTCACCCAAAGAAAGATTATCTGAAGCACCAACTCTTGTAAAAACTCTATCCACTATAGATATATGAGCTTCCTTAGCTGGAACAAAAGAACCTATTTGTGCAAGAATAATAATTAGTGCTGTTTGTCTTAAAATACTACTCTTACCAGACATGTTTGGTCCTGAAATAACCATAATATACTTTTCTTTTGTAAGTTCTATATCATTAGGTATATATACTTGAGGTCTTATAACACTCTCTATTACTAGATGTCTTGCATCTTTAATTGATATATCAAAATCATTCTCAGAAATATCAGGCCTAGATAAACCCAAATTAATACTAGATTCTGCAAAAGATAATAAGACATCAAAATATGCTATATTTTCAGATAAAATTTGTATATATGTAATATAATTTTTAATATTTTCTCTAATTTCTGAAAATATTTGATTTTCTAAAATGATACTTCTTGTCTGAGAATTTATTATTAAATCTTCATATTCCTTGAGTTCAGAAGATATATACCTTTCTGCATTTGCTAATGTTTGTTTACGAATATAATCCTGAGGAACCTTATCTTTATTAGAATTTGATATTTCTATATAATACCCAAAAACTTTATTATAATGAACTTTCAAAGAAGAAATACCTAATCTTTTTTGCTCCTTTCCTTGAAAATTTAATATCCAATCTTTTCCTTCTTTAGATATTCTTTTTAATTTATCTAATTCTTCATTTATACCTTTTTTAATAAAACCTCCATCTTTTAGTAACAATGGGGGATCATCTTCTATATTAATATCAATAATGTCATATAACTCTCTTAGTTTTTCTAAATTAAATATATTTAAATATATTTCTTTTAACAAATCGGATTTAAAAATCTTAAGATACTCATTTAATTGAAATACTTTTTCTAAAGAAATTTTTAAAGCTATAAGATCCCTAGGATTGATAGATATAGTTCCTATTCTTGCGCATATTCTTTCAATATCATAGATACTTTCTAATAATATTGATATATCTTTAATATTACTCTTTTGTAACTCGGATACTGCATCCAGCCTCTTATTAATAATACTCTCATTTAATAAAGGGTGAGAAATAAAAAATCTTAATTTACGTCCTCCCATTGATGTTTTTGTAAAATCAATTACAGAGAGTAGAGAACCCTTATAAGAAGAATTATTTATAGTACCAAATATTTCTAAACTTCTGAGGGTATTTTCATCTAATACCATATATTCTTTTATATCAAACCTCTTTATCTTTTTTATATGGTTTATTTCTGATAACTGAGTTTTCTTTAAATAATCTATTATCGCCCCTGCAGGTTCTAGTGAAATATCATTTTCATCTATTTCATCTACATAATTTATGGCATATTTACGATTAAATGAAGTAGATATGCTCAATACAAAATCTTTTTTAAAGTTTAGCTCAAAATCTTCTGGGATTATTATTTCACTAGGATTAATATTATATAGAAATGATACTAATGAATCATAAGAAAGTATCCCTGTTATATAAAAATCTCCAGTAGAAAAATCTATGAAAGATAAACAGTACTGATTATTTGGCAAGTTTTTTATTGCAACAATAAAATTGTTTTCTTTAGATACAGAAGAAGAATCTGAAATATAAGTTCCAGGAGTAACAATTTTAATAATACCTCTTTTTACAACACCTTTTACAGTTTTTGGGTCCTCTAACTGCTCACATATTGCAACTTTGAAATCATTCTCTATTAATTTTGATAAATAATTTTCAAGAGCATGATAAGGAAACCCTGCCATAGGAGTTTTTCTTGAAGTCTTATCTCTACTGGTAAGCGTAATATTTAATACTCTCGATATAGTCTTTGCATCTTCATCAAAAGTCTCATAGAAATCTCCCATTCTATATAATAAAATTACATCTGGATTTTCAGATTTCAATTTTCTATATTGAGACATTGCTGGTGTATCTTGCATAATAAAGATTGTATCATAGTATAATACATTACAAAATGATATAATTCCTCTTATCAATATATTTCTCAAAAATGAAAAATAATATACAAAAAAGATTGATCAACATGATCCCAGGTCTTTTACTATGGGGAGGAATAATTCTTCTATTCATATTATCTTTTACACAACCTATAATCGTTGTATATCTAGTAATATTCTATATTCTTTATTTTGTATATGAAGCAATTAATATTATATTTTCAGTATTTAGAGCAAATAATAAAATAACTGTAGTAAAAAAAACTAATTGGGAAAATAAACTAGAAGAAGAATTTAAAGGTATATGGAAAGACTATTATCAAATATTACTTATTCCTGTAGCAAATGAAAGTATAGATATTCTAACCCCTACAATAGAAGCAGCTTTAAAAATAAAATATCCTAAGGAAAGGAAAATAATATTATTTGCTACAGAAAAGAAATTTCCAGAAGGTGCAAAGATAGGACAATTATTTAAAGAAAAATACAAAGATTCATTTGGTAAATTTATAATTACAGAACATAAACTTGTAAAAGGAGAAATCCCAGGAAAAGCATCTAATGAAAATTATGCTGCAAGATATATATATAAATTATTAAAAGAAGAGAAAATAGATACACGAAAAGTTATACTCACAAGTAGTGACGCTGATTATAGACATGATTATAATTATTTTGCCTACCTAACATATAGATATTTAACAGAAGATGAAAAAGATAAAGCTATATATCAACCAATTCCAATCTTTTATAATAATATATGGAAAGTATCTATTGTCTCTAGAATAATAGCAACTTTTTCTGCTCAATGGCAAATGGCTTTAACTTTTAAAACAGAAAGATTAATGAATTTTTCTTGTTATGCAATTAATCTAAAATCCTTAAAACAAGCTGGATTTTGGGATCCAGATATAATACCTGAAGATGAAAGATTATTCTGGAAAGCAAATTTAGAATTTGGAGACGAGACTAAAGTCGTTCCTTTATTTATACCTGTTTATGGAGATGCAGTACTTGCAGATACATATTGGAAAAGTTTAAAAGAACAATATAAACAATTAAGACGTTGGGCATGGGGTGCGAGTGAAATGTCTTTTAGTATTCCTAATGTATTGGTTAATAAAAAATTATCAAAATTCAAAAAATTTAATCTACTTTTTCAACAAATAAGGAACTCTTTTGAAAGAGCAATAGCTCCAATAATAATAACATTTGGAGATTTAATTCCAGAACTGAATTCTCATTATCAAAAAACAACCCTATCATATACAATACCAACAATAATAAGTAGAATTCTTACAGTAACAACTGTATTAATAATAATAATACTTTTCTTTGAATCTAAACTAGCACCAGAGAGAAGTCATAAATCTCCTTTAAAACAAGCATTTTCATATTTATCTTGGATAACATACCCTGTTGTAAGTATACTTTTTGCAGCTATACCGGCTATAGATGCTCAAACAAGACTTCTTTTTGGGAAAAATTTACAATATATACCAACTACTAAAAAATCTTAAAGAAGATCGTCTCTTTTTTCTTTTTTTATCTCCTCTATAATATTTTTGACTTTGTGAGACTCTGATAGAGAACATACTAATAGTGCATCTTCCGTATCTATTATAACTATATCAGATAAACCCAGTGTACAAATAATTTTTTTCTTATTTTGAGAGAATATTAAAGAATTTGAAGTATCCATAAAAATACTATCAGTATTCGATATATTTTCTTTATATTCATTTTCTAAAACTTCTTTTAAAGAAGACCAATTTCCAACATCACTCCAACCTAAATCAGCAGGAATAACTACTATTTCAGAAGGATTTAATTTTTCTAAAATCTCATAATCAATTGATGTTTTATTTATTTTTCTATATAAATCAGAAAAATCTTTACCTTCCTTATATAATAAAACTATCTTTTCTAAAATTTTAGAAGTATTAGGAGAATACTTCTTATAAAGTTCTACTAATTTACCTGGAGGAAAAACAGAATAACCTGTATGCCATAAATATTCAAAACTTTCTATAAACATTTTTGCATTTTTATAATCTGGTTTTTCTATATGTTTTTGAAATTCATATATATTAAATCCTTTTGTATTTAATATAAGATTTCCAATCTTAACATATCCTAAATTTACATTTGCCTCAGTAGGATTAACATCAATTTGAACTATTTTATTATTTTCTCTTGAATATTCAGATGCCAATAAAAATGCTTCTAAAAAGGTTTTTTCATATTTTATGATATGATCTGACCAAAGAATAGCTATTTCTTCATCCTTAAATTTATCATTTAGAATAAATGAAGCAAACCCAACACAAGCTAAAGTATCTCTAGTTTCTGTTTCTATTAAAATATTTTCATCTTTTATTTGAGGACATTGTCTCTTTATTATCTTAATATATTCTTTAGGGGTAACAATAAATAAATCATCAATATCAAACTTTTTTAAAAGACGATCTATTGTCATCTGAAATAAAGATTTATTAGAAAAAAAATCTTGAAATTGTTTAGGGTAACTCTTCCTACTTAAAGGCCAAAGTCTAGTACCATTTCCACCTGCAAAAATTAAAAATTTCATATGATAAATAGTCTACCATCTAAAATATAGATTTTCAAATATGAGTCTTAGATATATAATTCAATCCTTAATGTAAACACCCGCTAATTAATTGTATTTATGCCCCAATAGTAGTATAATTAAGAAATATTATAAGATATATTTATGTATAAGATAATAATAGATTTATTAATTTTAATAGCAATAATATTTTTGATAGTATCAACAATAATGATACTTCAAATTATGTTTGCTATAAGAAATACTTCAAGAATAATAAAAAGTATAAGATCTTTAACTGATAGTGTAGATTCTACTTATTTAAAAGTGTTAAAAAAATTAGTACAATTTTTCAAATAATGGGAAGTAAAAATAAATCAAGACATATAATTTTAACATTTCTAGCAGGTGCAACTGTAGGATTAGTTTCTTCATATCTTTCTAAAAAAGAGAATAGAGATAACTTAGTTGAAAAATATGAAGAAGGAAAAAATACAGTTTTAGATACAACATATAATGCAATAGATGATGTATCCTTTCTTATTGAAAATTTTGATAAAGATAAATTGATAAGAGAAACTAAGAATAATTTAAATAAAATAAATTCAGAAGTAGAGAAGAAAACTGATGAAATAAAAAAAGACGCACTTAAAAAAACTCGTAATGTCGTAAGAGATACAAACAGAAAAATCGATAATATACAAAAAAGAATACAAAAAAAAGTAAACTCAATAAAATAAATTTGAAAAATATGTCTGTATGATATAAAATATCATATATTATGAATTTCCCTAATTTAGAACAAAAACCTGATTTTCCAAAAATAGAAGAAAGTATATTAGAATTTTGGGATAAAGATAATACTTTCGAAAAATCCTTAGATAAAAATAAGAATAAAAAAGAATTCATATTTTATGATGGACCTCCTTTTGCAACAGGTCTACCTCATTATGGACACTTAGTTCAAAGTGCTATAAAAGATGTATTTCCAAGATATTATACAATGAAAGGTTTCTATGTTGAGAGAAGATTCGGGTGGGATTGTCATGGACTACCTGTAGAGTATGAATTAGAAAAAATGAAAGGAATAAAAAATAGGAAAGATATAGAAACTTTGGGTATAGACAAATTTAACGAAGATTGCAGAATAATAGTTTTAAAATATATAAAAGAGTGGAATGTATTCATAAAGAGATTAGGTAGATGGGTAGATATGGAGAATGATTATAAAACAATGGATTTAGATTACATGGAAAGTATATGGTACATATTTAAATATATTCATGATAAAGGTTTGATATATGAAGGATATCGTAGTACAAAAATATGTCCTCGATGTGCAACACCTCTATCAAATATGGAAGTACAATTAGGGTATAAAGATTTAGAAGATCAATCTGTAATAGTTAAATTCAAATTAAAAGATTCTAATGTGTATATGTTATCTTGGACAACAACTCCTTGGACTCTTCCTGCAAATGTTCTACTTGCCATAAATAAAAATATTGAATATGTAAAAGTTTTGAGTAATAAAGAATATTTTATATTAGCTAAGAATAGAGTAGAGTATGTTTTTGAAAATAAAGAATATGAAATAATAGAAAAAATTAATTTAAAAGATTTAATAAATAAAGAATATGAGCCATTCTTTGATTCTAAAAACATATTAAATACTGATAAAAAAGGTTGGTATATAACAGAAGCAGAATTTGTAACTGAAGATGAAGGTACAGGAATAGTACATATAGCACCTGGTTTTGGTGAAGAAGATATGTTGTTAGGTAAAAAAGTAGATGCACCTCACATAAATCATGTAAATATAGAAGGTCAATTTGGAGAATACCCTCTTATGGAGTGGGCAGGAGAAGAAGCAAGATCATTAGGTGAAAAAATAATAGAATATCTAAAAGAAAAAAATATATTATTCAGAGAAATAAAAATAGTACACTCATATCCTCATTGTTGGAGATGTGATACACCCCTTCTAAATTATTCTATGAATTCATGGTTTTTAGATGTAGAAAAAATAAGAAAAAATACATTACTTAATAATGAAAAAATAAATTGGAAACCTGAACATATAAAAGAAGGTCGTTTTAAACATGGATTAGAACATGCTCCAGATTGGTCAATATCAAGAAATAGATATTGGGGAACACCTCTTCCTGTTTGGAAATGTGATAATTGTTCTAACGAGACAGTAATAGGGTCTATAAAAGAATTAGAAGATAAAACTAATAAAAAAATTACAGATATTCATAGACATTTTATAGATAATTTAACATTTAATTGTGATAAATGTCATAAAGGAGAAATGAAGAGAATTTCTGAAGTATTGGATTGTTGGTTTGAATCCGGATCTATGCCTTATGCTCAAAAACATTATCCTTTTGAAAATAAAGATAATTTTGAAAATAATTTCCCTGCAAATTTCATAGCAGAAGCTATTGATCAAACAAGAGGGTGGTTTTATTCACTACATACTATTGCAACTGCTTTAATGAATAAACCTGCATTTATGAATGTTATTACAACAGGACTAATACAAGACAGTAGTGGGAAAAAATTATCCAAATCAAAAAAGAATTTTACAGATCCAATAGATTTAGTAAACCTATATGGAGCAGATGCATTAAAATTTTATTTAATATCCTCTCCAGTAGTAAAAGGAGAAGATATTATGTTCAATGATTCTTCTGTTTTAGATGTAATAAAAAATAATTTTTTAGTTATATATAATACATTAAAATATTTCACTATATATGCAAATACATATAATTTTAAACCTTCTTTTACCAATGAAAGTACAAATATAGTAGATTTATGGATAAAAAGTAGAACTAATAAGTTTATAAAAGACATGAGTGAGAATATGGATAAATATAACTTAATGGAAGCTACATTATTAATACAACCATATATAGATGATTTATCTAATTGGTATATAAGAAGTTCTAGACAAAGATTTACAGAAGGAAATCAAGATGCCCTTAACACACTATTTCAGACATTAAATCTTTTTGCAAAAACTAGTGCACCTATTATTCCTTTCATATCTGAGCATATATACCTTAATATTACTGACAATAAAAAGAGTGTTCATTTAGAGGATTTTCCAGAATATGAAAAAATAGATGAAGAATTATTAGAGGAAATGAAATATGCAAGAGAAGCTATATCTGAATTACAAAATATTAGAATTGAGAATTCTATTAAATTAAAACAACCTGTATTAGAAATTTTTGTAAATTATAAAAATATAAAGAATAAAGAAATACTCAATCTTATTAAAGAAGAATTGAATTCTAAAAAAATAACAACCATTAAAAATGGTGCTTTTGTTAATAAAAAAACAAAATCAGGAGAAGTTGGTATAAATATAGAGATGACCCAAGAAATATTACAAGAAGGTGAAATAAGAGAAATTTCAAGAAACATTCAAAATATTAGAAAAAATTCAAATCTAAATCTTAATGATTTAATATCAATAGATGTATATACAGAAAATGATGATCTTAAAGACTTACTAGAAAAGATGAATGAGAATATAATGAAATCTGTAAAAGCTAATAAAATAAATATAAAAAAAGAAAAAGTAGGGGATAAATTTATTGTTAATGATAAAGAATTGTATATAAAAATAAATGTTATCAAGAATACTTAAGCAAGATTATTCGCTTTCAATATTAGCTATCACTCTTACTATAATTGGAATATTTAGTATATATTCTACTGGACAATCAATAGAAGGAGAAAGACAGATTATTTTTTTCATAGTAAGTTTAATAGCCTATTTCCTTATAATGACATTTAATTATAAAATATATAAGGATAAAAAAATTCAAATAATTCTATATATATTAATTTTCTCTTTATTAGCACTTATATTTATATTAAATATAAGACTCAATAATACACGAAGATGGTTTGTTGTAGGTAAATTTGATATCCAACCTGCTGAATTTGCTAAAATAGTAGTAATACTTATATCTGCATCTTTCTTTGAAATCTTTAGAAAAACTCAAAATATACTATACAAAATACTTTTAGGATTTGTAATTGTATTCCCGATATTTTATCTGATATATAAACAGCCTGCATTAGGTAATAGTATTATTATAATGATAATATGGTTATCAATACTTTTTGCATCTTTTTATGATCATAAAAAATTTATATTAATAATATCTCTTTTTATATTATCCACACTCTTAATTATTCCATTTTTGGGAATTAATATATTTAATTCAAATATTAATTTAATCTTTTTTCAAATAAATATTTCTATTTTTTTAATACTTATATTGTTAATATATCTTATTTATAGATATGCAA
>sequence04
ATATATAGATCAACAACATCAGGGAGTGAAGTATTTCTAGCATCAGTAGGAAACACTACGAGTTATACAGATTCAGGTGGTGTAGCTCCAGGTAGTAGTAGTCCTCCTGCTAGTAATACAGCACTAACGAATACGAATGAAGTATCATTGAGTTGGAATGCAGTACAAGGTGCGAGTGAATACATAATATATAGATCAACTAGCACAAATTTCACAAATTCTATAGAATATACATCTACAACAAATAGTTACACAGATACAGGAATACTTTCTACGACATCATTCCCTGTAGCTACGAATAAGGCAACATCTGTAGAGTATAACGGATATGTATATGAGATAGGAGGATATACAACCGTAGCAGTTTCAACAGTATATTACGCTCCAATAAATTCAAATGGAACTATAGGTACATGGAATACAACAACACCTCTTCCTCAAGTAACTTGGGGTGCAGCATCTATAGAATACAATGGATACATTTATGAGATAGGAGGTCAAAATGTAGGTTATTACTCTTCTGTATACTATGCACCAATAAATAGTAATGGAACATTGGGTGCATGGGTGGCAACAACTTCTCTTCCTGATGCTCCAGCAGCATTAACCTCAGTAGAATACAATGGATATATTTATGAAATTGGTGGATACAGTAATGGTTGGCTCTCATCTGTATATTATGCACTAATAAATAGTAATGGAACATTGGGTGCATGGACAGTAACATCACCTATTCCTCAAGGAATTTATGGCGCAACTTCAGTTGTATATAATGGATATCTCTATGAAATAGGAGGTAATTCAGGAAATTCTTCTCAATCAACAGTCTATTATACTTCAATAAATTCAAATGGGACATTGAATACATGGATGGCAACAACTTCTCTTCCAATCCTGACTCAATGGGTAACGTCAGTGGAGTACAATGGATACATATATGAGATAGGTGGTAATGAAGGTTTTTCATGTTGTACTACTTCATCAATTTATTATTCTAATATTAATAATAATGGGTCTTTAGGTACATGGAGTCCAACAACTTCACTTCCTCAAGCTATATATGCTGCTACCTCAATAGAGGTTAACGGATACATATATGAGATAGGGGGAAATAATGGAATTAGTAATTTATCAACTGTCTACTATTTTAAAGCTTTACAAGAGGGAGGTTTATCACAGATAGTAAAGGGAAGTGTTCAGACTAGTGTAGGATTAACTCAGAGTAATGGAGGGAATATAAATCTGTCAGGGAGTATGAATATAGGAGGAGGATTGTCTGTTCTAGGACAGAGTAATTTTGGATCATCGATAAATTTAACGAATCCGAATAACACCCTTATATCAGCGGCCTCACCTCTGGATATACAATCATCAGGATTTAGTATAAATCTAGGAAAGAATAGTGTTACATCAACCCCTGTACCTACAATATCTTCATGGCCAACTACGACAGTACTTCCTACTGCTACATATGATGCTACATCAGTAGAATACGCAGGATACATTTATGAGATAGGAGGATGGACAGGAAGTGCTTCGACAACAGTAGAATATGCTCCAATAAATGGAGGAGGAAGTATAGGAGCATGGACAGCAACAACTCCACTTCTCTATGCTACATATGACTCAAATTCAGTAGTATATGCAGGATTCATATATGAGATAGGAGGGTATAATGGAAGTGCAGCAATATCAACTGTAGAATATGCTCCAATAAATGCTAATGGCTCGTTAGGTGCGTGGAGCACAACAACCTCTCTTCCTGTAGCCAATGAATGGGCATCCTCAGTAGTATACGGAGGATTTATCTACGAGATAGGAGGAGATAATAGTGGTACAGTTGTATCAACTGTAGAATATGCTCCAATAAATAGTAATGGGACATTGGGATCTTGGGCTACGACCAGCTCACTTACTTCTATTACATGGTTAGCAACAGCAGTAGCATATAATGGATACATCTATGAGATAGGAGGAAATAATAATTCAACAACAATAGCAACTGTAGAATATGCACCAATAAATGGTAATGGAACGATAGGTACATGGACAGCAACAACCTCTCTTCTTGATGCGACTCAACAATCAACTTCAGTGGTATACTCAGGGTATGTATATGAAATAGGAGGGTGTAATAACTGTGCTGTTATGTCAACTGTAGAATATGCACCAATAAATAGTAATGGGACACTAGGAGTGTGGACTGCAACGACAGCTCTACCTGCAGCTACATATGTAGCTACATCTGTAATATATAATGGGTATATCTATGAGATAGGAGGGATAAATACAAGTGCTTCAACAACTGTATATTACTCCTCTCTACTGTCTCCATCATCTACTCCTGGCTATTTTAGTGTATCTTCAAATACGAATGGACAATTTCAGGATATATTTTCACTAGATCCGTATGGGAATGCGATATTTGGAGGGAGTATAACAACGGGAGGTAATGCTGCAGATATAGCAGAAGAGGTAATAGGCAAAGGAGTGAGTGCCGGAGATATAGTATCAGTGAGTGGAGCAAATGCAAGTTCAAATAATATAAACAATTTTACAGCGATACCAACGACACATGTATCATCGAATAATATGTTAGGAGTGATATCGACGGATCCAGGAATAATATTGCATCAGGAGAATATACCAGGAGCAGTACCATTAGCATTGGCAGGAAGAGTATTAGTAAAGGTAACAAATTATAACGGGAATATAACAGTAGGGGATATGATCACAGGATCTCAGTTTGGAGGCTATGGACAGAAGGCAACATCCCCTGGAGAGGTAGTAGGGATGGCATTGAATAGTTTGAGTCCATCAACGCCAGGAGTAAGTAGTTTTACATACAATGGAGTAAGTTATCTTAGAGGCGAGATATTAATGTTAGTAAAGAATGAATATTACAATCCATTAGTATCAAGTATGAGTGTATTGAGTATGTCAGGAGGAGTATTAGATATATCGAGTAGTGTCAATATATCGGATAATTTAGGAATAGGTGGGAATGTATCAATAACTGGGCATATAATATCTATGGGAGGCAAGCCAAGTATCATAGCGGATACGGGAGCAGGAGTAGGAGCGTTAGCGAGTTTGAGTAGTAATTCAACAGATACGACAGGAGTAATAAGCCTTAGAACTGGGACAAGTTTGTGGGGAGTAGGAAAGCAGTTGACAGTAACATTCTCTCATCCATATGATGTTGCTCCAATAGTATCTCTAACAGTAGCAAAAGGTTCTCCTACTTCGGCCTTTAGTGTAAGGGAGGTATTTTACACATCTACGAGTGTAAGTTTCAGTATAGATTTCGGAGTAGCAGATTCTTCATCTAATACATATTCTTGGAGTTACCAAGTATTTCAATAACTTGATAATTAGATACTTTTTTGACATAATATTGGCTATATGTATGAATTTTTAATTGAAGGGGAAAATCCTCTCGGGGGAGATATGACTCTTAGTGGAGGAAAAAATGCAGCACTACCATCTTTATGTGCATCACTACTTACAGATAAACCTGTAATATTAAGAAATATTCCAAAAATATCAGATGTAAGAGTAATTTTAAAAATTATTAAAATTCTAGGAGGAGAAATAGAATACCTCAATTCTAATGATATAAAAATATGCAATAAAAATTTATCTATTGATCTGAAAAAACAAAAACTAATATTTGAAAATATGAAAAAATTAAGAGGTTCAATACTTCTTTTAGCTCCTTTACTCTATAGATTTAAAGATATTACTTTAGTATCTCCAGGAGGAGATAAAATTGGACAAAGAGAATTATCTGCACACTTTGAGGGTTTAAAAACATTAGGATATAACATTGATTTTAATATAAATGAATTTAGGGTTTATGGAAAACCTTTTTTGTCTACTAATATATTTTTATATGAACCTTCTGTTACGGCTACTGAAAACCTTTTAATGATATGTTCTACCATAGAAGGAGAAACAGTGATTGAAAATGCAGCATGTGAACCTCATGTAAAAGATTTAGAGATGATGCTTATATCAATGGGAGCTAAAATAGAAGGAGTAGGATCTAATATTTTAAAAATAAAAGGGAAAAATAATTTATTAGGAGTAGACCATACTATAATATCAGATAGTATTGAAGCTACAAGTTATATGATATTCGCTTTACTTTCAAAAGGATTTATTAATGTGCATAATATAAATTCTGAAGAAATGAAATCTATATTATATGTATTTGATATTTTTAATGTTAAATATACTACAACACAAAATTCTATATCTATATTAGAAAAACAAGATTTATATTATAAAAAAGAATTAGGTTTTAGCAATTTAGGTATTTATTCTCATCCTTATCCAGGATTTCCTACGGATATAATGTCTCTTTTTATAGTTTTAGCAAGTCAGGTTAGAGGAGAGATAATCTTTTTTGAAAAAATGTATGAGAATAGATTAGATTTTGCTATTGATCTTAAATCAATGGGAGCAGATTATACGTTACTGGATACTCATAGACTAATGAGTAGAGGAATAGAAAGTCTTCATAGTGGTAAATTATTTGCTAAAGATATAAGATCAGGTGTAGCATACCTTGCTGCTATGTTAGGAGCTAAAGGTACAAGTCATCTTAGAGGTGTGGACCACATAGATAGAGCATATCCTAATATAGATAGAAATTTAGCAGTATTAGGTGCTAAAATTCAAAGAAAAAGAATATGAAAAATTTTTTTAGAAAATATATAAAAATATTTCTTGCAAAGCTTGCTTCATATTTTATATATAAAAATAAAATAAAGATAATATCTGTTTTTGGAAATCATCAAGCAGATATGGCAGTTGATGCTATATATACTGTTATAAAAGAAAAAGGTAATGTTTCTCGTAACTATGTTGATTTTGAAAAAGATTTAGATGTTCCTTTTTTCATTCTAACAGGAAGAGAAAATTTCACTTTATTTTCATTCTTTATTTTATTATTTAAATATCTATTTCTTTTATATAATACAAAAAATAAGAACAAGATAATAATACTTAATATAACAACATATAGTGCTTCTGTGATTAAGTATTATTCTTTATTTATGCACTCTGATCTATTTTTAATATTAGATATCACAAATAAATCTTTAATATATGAAGAAGAGATAATGAAGAATTCTAAAAAAGATGCATCTATAATAATAGATGGAGATTCTAATTTAAGAAAACTCATAACTTTAGATTTTTCTAAAAAATTATATAGTTTTGGTACAAAACCTAATAATGATTTAATATATATATCTAATCCTGATAAAATAGATATAACATATAATGAGAATCATATGGAGCTTCATAATAATTTTAAAGATATTGATGTTAAAGTTATAGCTGCATCTATTTTAGTATGTATTATTGAAGGAATTAGTTTTCATAATGCAATTTCTTCTATTCAAGAATTTCGATTACCAAATAAAAAATTTCAAAAAGTATTTGAAAAATTTATAAAATAATGATGATAAGAATTTTAAGAAGATTGAGATCATATATATTAATACTCCCATTTTTATTAATAAGAAATAAAGCTAAATTTATTGCAATTACAGGTACTGATGGTAAAACCACATCATCAACGCTTCTTTATAACATGTTTTTGAAAGAAGGATTTAAGGTTGCTTGTTTTACAACAATTGGTATATTCTATAATGATGGTTTTATACAATCAGGGCTTCATACAACAACTCCATCTGCATATGATTTAAGAAAGAAACTTTTTTTGTTTAGAAATTATGATTATATCATAATTGAAACAACTTCTATTGGTATAGATCAAGGTAGAATAGCAGGCTTGAGATTTGATGCAATCTTATATACAAATATAACTCTAGATCACCTAGATTACCATAAAACTTGGGAGCGATATGCTTATGTAAAATCTAGTCTACAAAAATATCTTAAAAGGACAGGTTTTGCAATCATCAATAAAGATGATAAAAAATCTTTTGAATTTTTATCTAAACAATTTAAAACAATTAAATATTATACATATTCTATATATGATTCTGCTTCAGATATTCATGCTTTCAATGTCACAAAAGATTCTTTTGATGTTAAATTTATAAAGAGTACTTATTCTTTTAAAACTAAATTATTAGGAGAATATAATATACAGAATTCTATTTTATGTATAGCTACTGCATTGAAATTTAATATCTCAGAAAATTCTATATCAGAAGTACTTAAAAATCCTCCAGTTATTAGTGGTAGATTTGAAATTGTATCTCAAGAACCTTTTATTGTAGTAGATTTTGCACATACTCCAAATGCAATATTAAATGTATTAGAGACATTAGATAAAATGAGAAAGAAGGATACTTCTAGAATAATAACACTTTTTGGAGCTCCAGGTGAGAGAGATAAATTTAAAAGACCTAAGATGGGAGAGAATGCTGCTTTATTCTCAGATATAATAATAATAACAGCAGATGACCCAAGATTTGATGATCAGAAAGAAATTTATAAAGATATAATTAAAAATATAGACACAACTATTTTTAGAGAGAATGTTAATATATTTAGGATTGATGATAGGGGAAGTGCCATTGATTTTGCTATGGATTTATCTAATAAAGATGATATTATAGCATTGTTAGGCAAAGGTCATGAAAGATCTCTTGCTATAAAAGGAAAAGAAATTCCTTGGTCAGATAAAGAATATATATTAAAAAAGGTAAAACATGGAAAAAAATAAAAAAGTACATTTTATAGGTATTTGTGGTACAGCTATGGCTGCTTGTGCTGTAGAGTTAAAAAATATGAATTTCGATATTTGTGGATCAGATAAAGGATTTTATCCTCCTGTATCTGTATATTTGGAGAGTAATAATATAAAAATAGAAATTGGTTATAAAAAAAACCATATAACTGATGATATTGATTTTGTGGTATTAGGAAATGCTGTTTCTATATCTAATATAGAACTTAAAGAAGCACAAAGAAAAAATATAAAGATATACTCCTATCCTGAAATTTTAGAAAAATTTTTAGTTAAAAAAGAATCTATTGTTGTAGCAGGTGAATATGGAAAAACAACAATAACTTCTCTTTTAAGTTACATTTTTACTAAAGCAGGGAAGAAACCTTCATATATGTTTGGTGGAATTTCACTAGATCTTAAAGAAAGTATGAAAATTGAAGATTCAGATATTTCTATAATTGAAGGAGATGAGTACAATGCATCTTCTTTGGATAAATCATCTAAATTTTTATACTATAAACCTAAGTATCTTATTCTAACATCTTTATTGTGGGATCATATTGATCTTTTTCCAAAAGAGGAAGACTATATAAACACTTTTAAAAAATTAGTATCACTAGTTCCTAAGGACGGAATGATAATACTTAATATTGATGATAAGAGTATAGAAAAGATTTTACCATTAGATAAAAATATAAAAACTTATTCTTTAAAGGATCAAAATGCTGATTTTGCTGTTTCTTCTATTGATATACTAGGAGGAGTGACACAGTTTGAAATAAATAATAAATATATATTTAAAACTACACTTATAGGTAGACATAATATACAAAATCTCACAGCAGGGATTGCATTATCTTTATCACTAGGTTTGGATTATGAAGATATAAAAAAAGCGGTATTAGACTATAAAGGTCCAAAAAGAAGATTAGAAGTAAGATATAAAGGAGAAAAAGGGATTGTGATTGATGATTTTGCACATTCTCCCTATAAAGTTAAAGCTTCAGTCGAAGCTGTTAGGGAGTATTTTAGTTCAAAAAAGATAATCTCTATTTATGAACCTCATTCTATGTCTGCTAGAGATAAAAAAACTCTTATGTGGTATAAAGATATATTCATAGGATCAGATAAAGTTATTATTGTTGATATTTATAAGAAAAATGCTTTGGATGAAGAAAAAAGATTAGAGAGTAATGATATAGTAGATATTGTAAAATTGGATGTAAAAGATTCGGTTTATGTGAAAAATTCTGATTTAGTTGAATATTTGAAAAAAGAATTTTCAAAGGATACTGTTTTTTTATTTATGTCAACTGGAAGTTTTCAAGGGATGTTATCTAAATTTGTAGAAAATCTTTAATTAGTCTTTTTAAGGTATTTTATTGTATTATCTATTCCTACAGAAAGTTCTATCCTAGGATTCCAATTAAGTATATTTTGAACTTTTGTTATATCATTTAGATAAAACTCATATATTGTATTATTTTTTATTTCTATCTTTGTATTTAGCGCGGATGAGATATATTTAGCTATATTAATAGTTTCTGTAGCTTTTCCTGACCCTATATTAATAATACCACAAAATTCACAATCAAGAGATTTTATCAGAGCTTTAATAAAATCAGAAATATATAAGTAATCATATATATTATTATTTTCTATTATTATATTATCAGTCCTTAGAGCTTGTTTTATCATATTAGAAATAATATCATTTTTCTTTTGATCTAAAGGTCCATATATATTAGATGCTCTAAATATAATTGAAGGGATTGAATATTCTTTTATATATTTCAAACATATTTCTTCTGCCAAACTTTTTGTTATAAGATAGTTATTGTTTTTCTTAATACTGTCATTTTCTTTAAATGGGGGAGTAGAAGAGTAAAGTTTATAATCTGATATATATATAAATTTTTTTAATGTCTCATATCCTATTAATTCCTGATATATTCTTTCTAATGCATCTACATTTATTCTAGTTGCAATATTCAAATCATCACATTCATAGTCATTGAGAGAAGCTAAATAGATTATATATTCTGGCATAAATCTTCTAATTTCTGTAAATATAGGAGATCTAAGATCCATATAAATTGTTTTAACTCCAAGTAATGAAAAATCTTTATCCAAATTTAACATATTTCCTATATTAAATTCAGTAAATTTGATAATAGAATTTTTTCCTATAAAACCTGATCCACCTATAATTAATATTCTTTTTTGATCTTTACTTTTCATTTTCTTTTTATTTTTATATAATAACAATATACATTAGTTTACATTTTTATGGCAAAGAGGCAACAAGACAATTCTAATTTAATTTTTATAATTATAGTCGTAATAGTTATTATTGCAATGGGGATAGTTATATATATTGCAAATAATAATGCAAATACATCTACTCAGAGTGTAAATAGCTTAGTGAATAAAGACAATAAGCTTGCTAATAAAAATGTATTATCATCTCTTTTCTCAATTTCTTTACCTAATTTAAAAAATGCATTAAATTCAAATGTAAAAGCAACTACAACAACTCCTATAACAGGAGAACCCCTTTTGGTTAAGAATAATCTTCCTCGTGTAGTTTATGTGGGGGCTGATTATTGTCCTTACTGTGCAGCAGAAAGATGGGCATTAATAATTGCACTCTCAAAATTTGGAAAATTTTCAAATCTTCGCTATATGACATCTTCCTCTTCTGATGTTTATCCTAGTACAGCTACTTTTACATTCTATAAATCTTCATATACTTCAAAATATATAGATTTTACTCCTAAAGAAACCAATACAAATATATCATCTCAGGGAGGATATACCTCATTAGAGACTTTAACTCAGATTGAAAATAATTTAATAAATAAATTTGATGCATATCCTTATGTAACAAAATCATCAGCAGGAAGCATTCCTTTTATAGATATAGGGAATAAGGGATTAATAGTAGGCGCACAGTATTCTCCTCAATTACTACAATCTATGAATTGGAGTCAAATAGCTTCTTCGATTGCTAATACAAAATCTGTTATATCTCAAAATGTATTAAAATCTTCTGCTAGCATAATAAAAAATATATGTAAGATAACAAATGAAAAACCTCAAAAAGTCTGTTCTAATATATAGTATCTATATACTTTCTTTTGTAGGAATTCTTATATGTATATATCTTTTATATGCACATTTTGCAGATGTTTCAGTTGCATGCCCTAGAGTTGGTATAATTGATTGCGCAAATGTCCTTACTAGTCAGTATTCTTCCATTCTAGGTATACCTGTTCCTTTTTTTGGTATGGCATTTTTTATATTAATGTCAGTATTTACTTTTTTAAAAAAAGAGTTATATCTACTAGTACTGAGTATTTTAGGTGTTTTATCTGTAATGTATTTAGTATACGTAGAATTCGCACTGATACATTCTGTTTGTCTTTGGTGTAGCTCAATACATGTTATTACTCTTCTATTATTTTTTATCTCTGTATACTTATTTTTGAATAAAATTCTTACTTCTTAATTGTTTGTGAAAAGTAATAGCGAATCTATGAGCCTCATCTCTAATTCTTCTTATAAGAAGATGAGATTTTTCTCGATAGTTTATGAGTATAGGTTCACTTTTTGAAGGAGTAAATATAGCTTCTTTCTTTTTTGCTAAACCTATTATAGGTATATTCAATTGAAGTTCATTGAGTGCTTTTATAGCAGAATTAAGCTGTGTACGACCTCCATCAACTATAACTAGATTGGGTATTTCTCCAAAACTTTTATCTGTTTTTGTATGAGAAAATCTTCGTTTTATAGTTTCATACATCATTAAAGGATCGTTAGGGGTATCTTCTGATCTTATTTTAAATTTTCTATAATGAGAATTATCCATATCTCCCTCTCTTAAAACTACCATAGATGATACTGGAAATTTTCCTTGTATATTTGAAATATCAAAACACTCTATTCTGCCATTTTTATATTCAATACCTATAATTGAAAATAATTCTTTTATAGCTTGTATATTTTCAATTTTTTTATTCTTTTTAAATATTTCTTCATCATCTCCAAAATCTACTTTTATATTTTGAGATATATATTCAATTTGATCAATTTGTGTCTTTATTATTTGAGCCTTTTCAAAATTTTGTTTATTACTTTCTTTTATCATTTGGGTTTTAAGATTTTTTATAACCTTTAGCTTTTCTCCTGATAAATATTTTTTTATAATATTTATATTTTTCATATATTCTTTTTTGGATATAAGAGAATCGCAAGGTCCATTACATAGATTAATATGATAATAAATACACAATCGTGATTTTAAAACTGTTTGTCCTTCGAAAATTTTCAAATTACATGTTCTGTATGGAAATAATTTTCTTAGATTAGATAAAAGTTCTATAATAGTTCTTCCTGAAGGATAAGGTCCATAATATAGAGACCCATCTTCAATTCTTTCTCTTACCCTTATTATTTTAGGGAAGTCTTCATTAGTTATTTTTACCCAAGCATATTTTTTATCGTCTTTGAGCATGAAGTTATATTTAGGTTGATATTTTTTAATTAGATTACTTTCCAATATTAAAGCTTCAACTTCATTGTCTGTTATTATAAAAGATAGAAATTTTGCAGCTTGAATCATTTTTTTTGTCTTTACTCTTAAATCTTTAGAATTTAAAAAATATTGCAAGACTCTTTTTCTTAATATTTTTGCTTTACCTATATATATTATATTATGTTTTTCATCTTTAAACATATAACAACCAGGAAGAAACGGTATATTTTTTGAGAAATCTGCAGAATTTATATCTAAATCATTTTTCATCTTCAAGATTTATAACAAATGTTTTGATTCTACTCAATGATTCTATTAAATATTTTGCTCCCTGTATATTTCCTATTCCTGATTTCTTAACACCATTAAAAGGGAAATTATCTGGTCCCCTAGAATCTTTTCCATTTATTTGAACGTTTCCTACATCAAGTCTCTCTGCTATATAAAAAGCATCAGATATATTTTCTGTAAATACAGAAGACTGAAGACCATATTCTGATTGATTGGCTATATCAATAGCTTCATTTTTATCTTTTATTTTTATTATTGGGAGTATAGGAGAGAAAGGTTCTTCCCAAGCAATTCTCATATCTAGAGAAACATTACTAAGTATTATGGGATATATAAATCTTCCTTTATTTTCACCCTCAAGGACAATCTTAGCTCCTTTGTCTATTGCATCTTTTTTTAATTCATTAAGATACATGGCTGCTTTATCATTAATAACAGGACCTATTGTAGTATTTTTATCTTTTGGATCTCCTAGAATAAAATTTTCTTTTACTTCTTTTACTAATTCTTTTATAAATTCATCTTCAATACTTTGATCTATAAGGACTCTTTTTATAGCTGTACATCTTTGTCCTGAATAAGAAAATGCACCTTGTGCTATATTAGTAACACTCTTTTTTATATCTGCATCTTTAAGTACTATAGAAGCATCCTTACCACTTAATCCTAAAAGCATTACAGGTATAACATCTTCTCTTTTTGTGACTTCTCTTTGTATATGAATTGCTGTTTTAGTTCCTCCTGTAAAATTTATTGCTTTTATATATTCTGATCTTACTAAATAATCTCCTACAACATTATTTTCTCCAGATACAATATTTAAAACTCCATCATCAAGGCCTGCGAGTCTAAATATTTCACCTATAACCATACAAGTAATACCACCTTGTTGAGGTGCTTTTAGAATAACAGTATTCCCTGGTATTATAGCTCCTATGATTTTCGGAATAGTTTCATTTAAAGGATAATTAAAAGGAGGTATAGCCAGAGTTACTCCTAAAGGAACCCTCTTTGTTATAGCTATTTTTTCTTTTCCAAATCCAGGGAAAGATTCTGACAATAACACATCCCCAAAAATCCTTCTTCCTTCTTCTGCATAAAAATCAATTATATCCGAGGTTCTCATAACTTCGTCATATGAATCCTTATATGGTTTTCCAACTTCATTTATAATAAGGTTTGTTAGTTCATATCTTTCGTCTCTTATTATTTGAGATACTCTTTTTAATATTTCTGTCCTTTGATTTATACTTTTGTCTTTCCATAAAAGGAAAGCTTTATTAGAACTCAATATACATTTATCAATTTCATCCTCATTCAGAGAAGGTATTGCCCCTACTAATGAATTGTCTTGAGGGGACAGAATATCTATATATTTATCACTCTGAGGTTCTACCCATTTATTATCTAATAAATAACCGAATTCTTTTTGTAGTATAAAATCTTTAATCATAGTAATTCTTTAATAAATTGAAATCTTTTATATATGGTTTTATTATAAAATTATTTATACCTATTTTTGTTAAATAATCTATATCTTTATAACTTCTAATATTATAGTCTACAACAACTTTATCATTTATTCCAATACTATATTTTAATATATCTTTTAGCTCATTTAATTTAATTATTGAGTATTCTCCATCTAATGACTTTAATTTTAAAAATTCTTCAGGAGAATAGCTGTATATAAAACTTCTTATATTATAATCTAAACATTGTTTTATAATTTCAAATGTTTGATTAAATCCACACCGAGAAAGTTCTGTATTTATCAGAGCAAAACGTATCTCTAAATTCTTTATAGTAGATATATCTAATCCATTTGTAATAGTTACTCCTGTTTTATAATTAAATTTGTTTTTGAAATCTTTAGTATCAAGAATATGAGGAAATATAATAACATCATCATCCATCTTTTCTTTTATTTTATATAGAAAAGATTCAGCGCTACTTAATACTTTAATGTTATTGAAATTTATAAGTATCATATATTTTATATTATCACATAATTATATGAAGAATATAGGAAACATCATATACATATATGGTATAAGTTTGCTTTTTCTATAGGATGGGTATATAATCTTGCTATAATTTATATTTAAATATTTATGTTAAAAAAATTCAAAATAAAATATAGTCATTTAATCATAACTATATTTATAACTCTAAATATTATATTTCTAGCTGTTATAGCTTCTTTTCCGTTTTTTAATGGAAATTCGAGTGGTCTTCATGCAGCGCCTGTATGTAATTTTAATGGTAGTACTTCATATTTTGCATCTGTTGCAATAATAGTGAAATCATCTAGTGCTTCTGTTCCTTTACCATCAAATTTAGGATTGTCATTGCAAACATCTCCTTGTTCTAATGGATGGGATAATGGTATTCCTTGGAATTCAGGATACAATAATAATTTACAAGATGTTTTTGAACAATCATCTAGTTTCTCACAAGGACAATATATTTCTCCTCAACAAATAGATGCATATCATAGCCAGACTGGACAAGCACCTACAACTTTTCAAACATTTGGTTCTATTAACGTTGGAGGTGGAAGTGCTGGATCTACAGGACGTATATTTACATGTCCTTCAGGCACATCATGCTCAAGTTTAGCTGGTAATATAACAAGAACTCAGTCTAGTTCTAGTCAAGTTACTTTAGAATATTATCAACTTATAGATTGTGCATTTTCTCCTATAACATATACATTAGGAGGTCTACCTCAAGGATGGACAGCATCTCCTAGTACTAATACTATAAATGTTTTAAATGGTACTTCTGTACCTACCTATACTATTGTAGTTACTCCTGCAGCACCTACAATAAGTGTTACACTAAATTGTCAAGGAGCTTCTTGGTCTACAGCAAATACAGATTCAAATGCTGTAGTAACAGGAACAATAGTAAATACACAAACTAATCAGGCTGTATTGAATATTGATACACAAACAAATCCTGATAGTTCATTCGTATCAAGTCTTTTAAATAATAATATTAATTATGAAGCATATATGGAGGTGTCGGATAATGGGTCTTCTAGTACCGTACAATCTTCTCCGTTTAATTTCTACTCATGTTCGAATCATACTCCTACACTTAGTGTGAATCTTTCATGTACAGGAGTTTCTTGGACAAGTACAAATGCAACTTCACCTACAGTTAGTGGGAATATTATAAATGCTCAAAATCAAGTAGTTGCAAGTATTAATACTCAGAATCAAGCACAAGGATCAGATAGTTCTTTTGTAAAAACTTTAGAGTATGGTCAGTCAGGTCTTTCTTATACTGCAAATATGTCACTTTCTAGTAATGGTCAAGTAGTGAGTGCAAATTCAGGTAGTGTTATATATTCTAATTGTTTGAATTTTACACCTACACTAAGCGTATCATTAGGTTGTACAGGAGTTTCTTGGACAGGTACAAATCTTAATGGAGGAAGTACTATTACAGGAAATGTAACAGATACAACAAGTAATCAGAGTGTATATACAATTCCTCAACAGAGTGTAAGCTCTTATCAATCAACATTTAATGGTTCTGAAAACTCTTTTGTTACAAGTTTAGAAAATAATCAAGATAACTATATTGCAACTGTAATATTAACAAATTCAGGCAGTGTTATATCTGAAAAATCATCTAGTGTTAGCTTTTATAACTGTACAACTCATATGAAAGTTCCTGTATTACAAACAGTAACATTAAGCTGTGTTACTGGTTCTAATAATTTAAATGTTAATTGGACTTATAATAATACAACAACTGATAGCACAGATTTATTCTATGGTACAGTTAATGATGTAACTACAAATACTAATAATATTGCAACATTTTCATCTCCAATAGCAAATAATAGCTATAATTGGAATGCAGTCAACTCAACAGATGCTTATACAGTATCAGGTTATATTAAAGGTGATAATGGTACAAGTAATGTAATGACAACCTCTTCTGCAAGTATTAGTAATTGTTTGACACCTAAGGTACCTTTGATGTCTTCTATCTCACTTGCTTGTGAAAATAATACAACAAATAATTTGTCTATTACTTGGCAGGCTCAAAATGTTACATCAACAGATAACTTTTATGGTTATATAAATGATGTTACTACAGGTACTCAAGTATATTTAATACCTCAGACCCCATCAGTATTAGGTCAATATATTTGGCAAGGAGCTAATGGTCAGGATTCTTATACTGTTGTAGGATGGATAGAGAATTCTTCTGGTCAAAAATTCAATGTTACTACATCTTCTCAAGTCTCAAGTAACTGTATACCTAAAGTACCTGTAACTCCTGTTGTACAACAATCATTACCTCAAACTTCAGGTAATGCACCTATTAATATATTAATAATTGCAGGGATTGTAATTATGACTTTAGGAGTATCAATGTTAGTATTTTAAATACAAACATATAAAGTATATAAAAAAAGGAGAGAAATCTCCTTTTTTTATACTTGATGAAATATACAAAAAGATATATGATATATTTATATGAAATCTAAAGTACTATTTATTATTTTATTTTCTTTAATTTTGATAGGTTTTCTTTACATAACGACTATTTATGCAGAGGAACTTCAATCTTTAAATTCTCAAAATACACCAGCCTATACAGGTAATGTTGTTTCAACGAGTACTGCAGTAAATATTAAATATTCAACATTTAATGGAACATACTCTAATTCTAAATCTTTTAGTTTTAGTTATCCTCAAGGATGGAAGGCTATAAATGTAGCACAACTTACAAATTCTGAAATTGCAGAATTTGGCTTGCAGAAATATAATGTTACTATAAATACATATCTATCTTGTCAAAATATTTCTAAAGATAAAGGCGCAAATACTGTTATTGCAGGATACACAGGTGTAGAAAATGTGAATAGTAAAGGAGTTAGTTTTTATGCTTCTAATTTTAATATAATTCTTAACTATGAGAGTATATACAAAATTGCTGTATTTGATCATATTATAAATTCATTAAAACTCTATAACCAATTTGTAAAGTGTAAATAAATTTTTCATAAGTACTACTTTTTGATATAATATAAGTAATTATGCAGAAGTAACTCAGTTGGTAGAGTACTAGTTTTCCAAACTAGTTGTCGCGGGTTCGAGCCCCGTCTTCTGCTATTTTTAATATATGTTTTTTGATAAAGATAAATATATACAATATGCGAATAAATTACTCAACTCTAATCTCATATCAAGAGTTGATTTTCTGGAAATTAGATTTCAAGAAGATCAGTCAGAATATATTATTTTTAAAAATTTAAATCCAGAATATATAGATAATTCTATAGAGAAAGGCTTTTCCATAAGAGTATTATATAGAGGAAATTGGGGTTTTGCTTCTAGTAGTGTTATATCTGAGAATGAAGTCCAGAAAGTTTTTCTTAAAGCTATGAGTATTGTTGAAAATTTAGAAGAAGGAAAGGTTTCTCTTACAGAAGAGGAGGTATATACAGATGAGTATATACAGGATGTTGCAATTAATCCATTTGATGTACCTTTAAATGAAAAAATAAACTTTATAAAAGATATCCAAAATGAAATTTTGAAATCTAAAAATATAGATTTTTCTGATTTTATGTTTTTAGCACACAGAGAAAAGAAATTATATATGAATTCTTCAGGAAGTAGAATTTATCAAGAAAGAACAAGAATAGATCCTAGTTTTAGTATGTATAAATTGAAGCCAGAATTGACTGTTTTAAAATCAAATACTCATCCCACTGCTAAAGGTTTTGAATATATTAAAAATATGAATTTTAGAAACGAAATTCTAAAATATAATGAACAAATTAATGAAAAATCAAAAGCTAAAAGTGTAATTCCTCAAAAATATAATCTTTTAATAGATCCTTCAAATTTATGGTTAACTATACATGAAACAATTGGACATTCTACAGAGATGGATAGAGTACTTTTATATGAGGCAAACTATGCAGGAAGTTCTTTTGCATCTATAGATCAAATAGGAGATCTTATTTATGGATCTGAGAAGGTAAATATAGTCGCAGATAGATCTCAAAAAGATGGACTTTCTACTGTTATGTATGATGATGAAGGTGTCAAAACATATGAGTTTGATATTATAAAAAATGGTGTTCTTACAGGATTACAGTCTAATCGAGAAATAGCTATTCTTGCAGGAGAAAAAAAATCAAAAGCGTGTTCTTATGCAGATTCATACAGTTCATTTCCATTACAAAGAATGCCAAATATATCATTACTTCCTAATAAAGATAAAGATTTAAAATTAAAAGATATGTTATCTTTGTGTGAAGATGGAATATATATTGTAGGAGATAGTAGTTGGAGTATAGATATGCAAAGATATAACTTTCAGTTTACAGGGAATCTGTTTTATGAGGTTTCTGGAGGAGAGATTAAGGGTATGCTTAAAGATGTTATTTATCAGTCAAATACTCAGGATTTTTGGAAAAATTGTATTGAAGTAGGTGGAGAGAGTACATATTCTTTAGAAGGTGCATTTAATTGTGGAAAAGGACAACCATCACAAGTTGCAGCTGTATCTCATGGAGCTCCTTTAGCATTATTTAAAGATATAAATATAAAAAATACACAGAATGAAAATTAAAGAAATTGAACAATTTATAAAAGATAATATAAAATCCTCTGAATATTATGTTATTGTATCCAGATCTCAAGGTTTTAATGTTAGGTTTTCAGACAATAAAATAATCTCTAATGGAGTTGGAGATTCTTATGATTTATCTATAACTACAATTATAGATAAAAAAGTAGGAAGTTCTAGTACATCAGATATATCAAAAGAAGGAATTCTTGAGTGTATAAAAAATTCATATAATCAAGCTTCTTTTTCTCTAGTCTCTGAAGATTACTATCCTTTAGTTTCAGATGAATATTTAGATGAAAAAGAAATTGAAAGTCCTAATTTTGAATTTATTCTATCAGATATAGAAAAGAAACTTTTTAATATTTTCTCAAAAGATCCATCTTTAAGGGTTTTTGGATATATAACTGGTAGTTTTCTAGATATTACTCTTTTTAATTCAGAAAAATTATATAAAAGATCTTTTTTGCAAGAATTTAATTATTCAATGAATATAAAGGATATGGATATTAAAAGATCTGTATGGCAGGGAAGTGTGTCTAGTTTTTATAAGAAAGATGAATTAGAGAGACTGTATAATATTCTTTTGAATGATTTTAAAAATACAAAGATTATAAAATCTCAGAAAGAAGGTAGATATAATGTAATTTTATCTCCATCTGCTTTATCTGATATGCTTTTATATTTACTGTATTTCATGTCATTTCAAGATGCATGTGAAGGTAAAAGTCCTTTCTCTTCATTAAAAAGAGAAAAAATATTCCCAGATTATATAACTTTATATACAGATCCTAACCTAAAAGAAATGAAGTCTATACCGTTTCTATTATTTAATCAAAGTTCAGTGAATCATAAATTTGATTTAGGTTTGTCTTTGAAAAAAGAGTATTTAATAAAGGATGGAGTATTAAAATCTTTGATATCGAATAGATTTTTCGATGATAAAATGAAAAATACAGAAAATATATATCCACCTTCAAACCTTATATTAAAAGGTTCATCTTTGACATTTGAAGAATTTATAAAAGATATAGATGATGCATTGTATATTAATAATTTATGGTATATAAGAGAAGTTGATCCAATAACAGGTTTACTGACTGGTCTTACAAGAGATGGAGTATATACAGTTAAAAATGGAAAGATAATAAATTCAATAAATAATTTTAGATTTAATCAATCTCCTATAAAGGTTTTAGAAAACATATTAAAGCTTTCAGCGTCATATTTAACACTTCCTCGTGAATTTGGAGGAGAGAGTGCTTTGAATGTTGTAGCTCCATATGTATATGTTAAAGATTTTAATCTTTCATCTGTGTCTAAAGCCATTTGATTTTTATTTATAAACAATATAATATATATTTATATATGAACTTTTTAGATGATTCTGGAAAATTATCCTCTTATATTAATAATATAAAGAATGATAAAAAAGAGTCAAAATTTGTAAACAAAAAGAATCTTATTATTTTTATATCTATTTTCACCTTTGTAATAGTATTATCTTTTTTTATTTTTAAAAAACCTTTAAATGCTATTATAGAAAGTAATACTTTTTCAAAAGGTGTTGTAATGGCAGAAAATGTTAGAATTATAAAAAATAATAATATAGATAATCTAAATAAGATTGCAGGTGTTAAACTTATAAATCCGAATATATATAAAGCTAGAGTTTTAGCAGAAGTTGCACCTTCTAGAGACAATTTGGTTTCTGGACAGATAACTTCAACTCAAGATGCATCAGTAACAATACTTTATAATTTTTTAGTAGCGCATAACTCTCCTATGGCTCCATATGCGTCAGATTTTGTAAAGTATGCTAAAATGTATAATATAGATTGGAAAGTATTAGTTGCTATATCTGGAGTAGAGTCAGGATTTGGAAGAGTTATACCTCAATCAACTTCTGGAGTGCTTTCATATAATGCATGGGGATGGACAGGAGGTAGTTATAATTTTGGTGGATTTGCAAGCTTTGGTTCATGGCCTGTAGCTATTCAATCAATAGCACAAGGTATATCATCTTCTTATGGAAATGAATCTCCTTATGTAATGCAACCTATATATTGTCCTCCTAATCCAGGTTGGGCATCTGAGGTTCAATCTTATATAAATCAATTATAAGCCTGGATGGTGAAATGGTAGACACGCTAGCCTTAGGAGCTAGTGCTATTTTTAGCGTGAAGGTTCAAATCCTTTTCCAGGCATTTTTAAGCAAAATTTTCCCATTTAACTGAATCAGGATGATTTATCCAAGAGTATTCTTTAGGATTATTTATAAAATGAGAATATGTAGATATTTTTTTTCCATCAATTAAATTATTGTATGACCATTTTTTCTGTTTTTTTATCTTAGGTACATATTTATAATTTGGATTCTGTACAAAAACTTGTTTAGCATTCTTTTTTATTATGTAATATGCACCTCCCTTATAATCATGTATTCCTTTATATATACTTTTAGCCCTAGAAGATATCAATGATGAAAATACCATTGCAGTAGGTCTTTGATTTATTATTATATGACCATAATGAGGTGGTATTACAAATACATCACCTGTTTTAACTTTAAATATAGAAAAGTCCGTAATATGACCAAAATCATACATATCTTCTATATTTTTTGCATCTTGAGATATTATCTTTGGCTTTTGTAATAATATAATACCGCTACCATGTAATATTTCTATAATTTCAGGAGCACTGTAATTACCTTCTAATATTTCATGATAATATCCATATGTTTTCATGAATTCTATTCCAGCAAGGTTTCCAGACATTATAGTAATATCATGTCTGATATTGTTATCTTTGAAAACTTTTGCGTGCTCATCCTTATATATATGAAAATATTCTGTATAAAAAAGTTTAGGATATACTAATTTATCGTTTAGTATAACTTTTCTCATCTGATCCAACTCTCTATTTAGTATTTTGAAAATCCTTATGTCATCACCATTTGAGAGTAATTTATTCTCATTTTCAGTACATTGTACTTTTATACCATTAATTGTTTTTAAGTGTATGATCATTTTTATTATTATCTAATAGGTTATATTCTAATATGTCATATATTACTAATTGTAAGACTGTAATTATTGGAATAGCTATTAATGCACCTAAAAGACCATCTAGAGATGAACCTATAAATATAGCTATTATTACTATTAAAGGGTTTATACCTATTATTCTTTTCATAACTTGAGGTCCTATTATGTTTGCTTCTAATTGCTGTATTACAATTACAAATATAATAGAAAATATTAATAATCCTGGTGTAACAAGAAACACTACAATACAGGCAACGATTCCTGATATTATAGGACCTACAAATGGAATAACTTCTGCAAATGCTGCAAATATAGCTAATGGAAGTGCATATGGATTTCCTAATATAAATAAATATATAAAGAAAAGTAAACCTATTGCAAGACTTACTATTAATTGACCTCTTAACCATGCACCTAATTGACTCTCTACTTCATATATTATTTTCTCTATTTGTTCTCTAGTACCTTTTGGTATTATTTGTAAAGTAGTTTTATAGAAATGCTCTTTATACAGTAACATATAGGCTGACATTACAAATATTAATATTGTATATCCTATTGTTGTGAAGACAGATATGGTTGTATTTGATAGATTATTAAAACTTGATATAAATATATTATATACATTTTGAGATACATATTTAGATATATTAAATTTCAAAGAATTGGCATTTACATGAAATTGATTTTTTAAGAAAGGAAAATAATTTATTATTCTAGTAGGAATATTAGAAAAAGAGTGAATAATATTATTAATTTGATTAGTAAAAGGTGTTATCGTAATTAAAAAAAACAGAACTATTACAAATATTATAATAGCCATTGTTATAAAAACAGAAAGACCTCTTGATATTTTTTTATTTTCAAACCAAACTACGACAGGATTTATTGCTGACATTAAAATAAAAGAAATAAATATGAGTATAAATATTGTTGCTATTTTTATGAGTAAAAACAATAAAATGAAAATACCTATGATTGTAAAAATTGTTTTGGTAGATATTTCTATAGTTTGTTTCTTCATTTATTTTAAATCTTTATATGTTTAGGATTCATATTTATTGTATAATATATTTATCCAAAACTCAATTAGCAAAGAACACTGTATCTATAAAGATAAATCACACTTTAAGCCTATACATTTTGTATTAATGATACTTTTTTTATTTGCAAAAATTACATGTATTTGTTATATTCTCTTTATATTTAGGCCTTGTCGTCTAGTGGACTAGGACACCAGGTTTTCATCCTGGTAATCGCGGGTTCGAATCCCGCCAAGGTCAAGTAACTCGATATCACACGTTTGAAACGTTCCAAATATATTGATGAAGAATTTCGAGAGTAATGTTACTATCGTCAATCTGAATTCTCCGATATTGACAATTATTGGATAATATATCATAATTAGTACATGGAAGAAACATTATATATGCAAAATCCTTGGTGGATGAATAGAGAATTTAATATAGGGATAATAAGAAAACAATCTCTTGATAAATTAAAGAGTATGGCTTTAAATAATAAAGTTACAATGTTACTTGGAGGGAGACGTGTAGGAAAAACTTTTTTGATATATCAATATATAGATTATCTTTTAAAATCAAGAATAAAAGAAAAAAATATACTATATTTACTTTTAGATACAAGGGCATTTGAAGATATAACAATTGTTAATTTACTAAGAGAATATAGAAAAATTCATAATCTTAGTATAGATGAGAAAATATATATTTTCTTAGATGAGATTCAATATAAAGATTCATGGGAGCAAGAAGTAAAGAATCTTTATGATACTGAGCCAAATATACAAATAGTTTTATCTGGATCTGCAAGTTTTAAAATTCATACAAAAACATCTTTTCTAACAGGTAGATATGAAATTATGAATTTATATCCTTTAAATTTTTTAGAATGGATAGGCATTAGAGGTATTAAAATTCTTCCATCTGAGAGTTATAAATATCAAAATGAATTAAATGAATATTTATTTAAAGGAGGATATCCAGAATATGTTATTAAAGAGGATCCACAATATTTTCCTAATCTTGTAGACAGTATTGTATATAAAGATTTTGTAGAATATTTTAATATTAAAAATTTAGATATTGTTAAAGACTTATTTAAATTACTTTCAGATAGAACAGGGTCTCATTCAAGTCTTTCAAAAATAGGAAATATTCTGTCTATAAGTAAAGAAACAGTGAGGGAATATATATATGCTTTAAAGGGAAGTTTTTCTGTATATGAATTACAACGTTATTCTTCAAGCAGGAATGAGAGAATATATTTTGCTAAAAAATACTATTTAAATGATAATGGATTACAATTTAATCAATCTGGTAAATTTAATAAAGGTCAATCTGCAGAGAGAACTTTGTTTGATTATTTATATAAGAAATATTCAGATTCAATTTATTTCTATTATGATAATAAAGTAGAAGTAGATTTTATATTGAAATATCAGGATAGATTAGAACTGATAGAGTCTAAATACATAAATGATATTTCTGAGTTTAATCCAAAATCTCTTCTAAAGGCAATGAAATCATTAGATGTAACTAATGCTACTGTTATCACAGAATCTGTTGAAGAAGAATTAGTATTTGATGAAAAAAAGATAATATTTATTCCTTTATGGAAAGTTTTGGTAAAGCAAATTATATAAATTATTCATAATTTTTTAATTAGATATAGTAAAAATCTAGATTACTTTTATCATTTTAATAATCTAAACTAAAGGGGTTAGATCTAGGGCACACCAAGATCAAGTGATGCGACACTACCACTTGAAACATCCTGAATGTACTGATAGAACCTGCCTACAAGTGTAGTTTGAAATAGCAACATGACCAATACTTGCAATTAGTCGTATTATGTAGTATAGTTGAGTATAGTTAAATATACTTTATTATGGATGATCATAAAAGATTCGATAAAAGACTAGAAAGTATTACATCAGATATATATCTAAAGATATCTAAAACCGATGAGCTCAAAGGTATGTGGATTGGAGGCATGAAATTAAGTCCTCAAACACTTGGTAGACTTAAACAGTCGGCCCTAATAACCTCAACAGGAGCTTCAACCAGAATTGAAGGATCAGGACTATCTGATGAAGAGATTGAGAAAGTTATTAAAGGCATAAAAATTCAAAATTTTAGAAATAGAGATGAGCAAGAAGTGAAAGGATACTTCGAGCTTCTAGAAAATGTATTTAATAATTTTAATACTTTAACTTTCAATGAAAACTGTATTAAATCTTTTCACAATGAACTTCTAAAATATGTAGAAAAGGATCAATCACATAAAGGAGAATATAAAAATCTACCTAATCATGTTGAGTTAATAGATGAACCTAATAATATTGTAGAGGTGATTTTTGAAACTACACCTCCATATTTAGTTTCTCACCAAATGCATTCTCTTGTAGAATGGACTCAAAATGCTTTACTCGCGAAGAAATATCACCCATTATTAGTGATTGGAAATTTTATTGTTGAATTTTTGAAGATTCATCCGTTTCAGGATGGAAATGGTAGGTTATCAAGAATATTAACTAGTTTTTTATTATTAAAGGGGGGATATAAATATGCAGAATATAGCTCTCATGAAAAGTTGATAGAAGAAAATAAACAAGAATATTACCTCTCTTTGATGAAAAGTCAAAAAACTTTCAACAAAAAAATGGAAAATATTCTACCTTGGATGAATTTTTTTATAGATATTATGATTATGCAAGCTCAATATGCTGTTGATTTTAGATCAAATGATAATATAGAATCTTTACTTACTAAGATACAATTAAAAGTTTGGGAATATATATCTAAAGTAGGAGAAGCAAGACCTAAAGATATATCTCAAAACACAGATATAGGAAGAGATACGCTAAGGCAGGTATTAAATAAATTAATTAAGTTAAAGAAAGTTGAAAAATTGGGACAAGGAGTGGGAACTTACTATAGAATAATAAAAGATTGAAAAATTTCATCATTTTAAATATACTTTTATCAATTTAATAATCCAAACTAAAAGCGGTTCGATCTGAGGCACCTTAAGGTCACCAAATGCGACAATTATAGATAAAATTGGCTGCATGTAGTATATATTTTCATATTAAAATACATATTGGCATTATATACATTTATGTTAATATATAATATATGTTAACAAGATTAATTAAGAAACAATTAGATAACTATATAAAAAGTGATGATTTTAAGATATTTTTTATTTGGGGACCTAGGCGTTCTGGCAAAACTACTATTCTTGAAGAAATATCTAAAGAATTTTCTATACCTATATTTAACTTTGATTTACTTTCAGATAAAGAACGCTTTATCAACACTGAGGATGCACTTTCAAGTATTGTAGCAGAAACTAAAATAATTCTTATTGATGAAGTACAAAATTATCCAGAAGGTACAGTCTCTCCAAAATACTTCATGATAAGTACAAAGTTAAAATAATTGCTACAGGGAGTAGTGAATTAAAGAAGAAATCATCTAAGGATTTTGATATACTTTTAGAAAGATATACGGAACATTACTGTTTACCTATGTCTATTGGGGAATGTGTGCAAAATAGTTCAGTTCCAGCATATGAAATGTCAAATTTTAAATATAATCTTCAAAGTAAGTTGCAAATTTATGGAGCTTATCCTGAGATATATGCAAATACTGAATTAAGTGAAGTAGAGATAATAAACTTGTTGCAAAGTATCCTTGATACTTATGTTCTTAAAGATGTTGTTAATATATATAATTTAAAAGATGAAAAACTTGCTAAGGATATATTAACTAAGATAGCATTACAAATTGGATCTGAAGTTTCTGTCAGAGAAATAGCAAAGAGTTTAAATGCCAATGAAACTACTGTATCCAATTATATAGAAATTTTTATCAAAAATTATATTCTTATCCCACTACCATCATTCAAAACAAATATGAGGCGTGCTGTGTCAGAAAATAGAAAATTGTTTTTTTATGATTTAGGAATTCGAAATATTCTAGTAAAAGATTTTAGAGATCTTAATATTCGTCCTGATAAAAGAGGCGTCTTTGAAAATTTTATAGTATCAGAAATAGAGAAGAGGAGGAAAAATTTAGATATAAAAGAGACTATCTATTTTTATAGAGAATATTCTGGGGCAGAGGTTGATATAGTATTGGAGGATTATAAAAAGAACTATATAAGTATAGAGATTAAAGTGAGTGAGGATAAGAAGAGCAAAGATATATTTCCTATAGAACATAAGTTTATAGTTCTTAATTCAAAAAATTATTTCCAAAAGATTGAAGAACTATTTTAAAAGGATAATTATATACTAATATTATTTCCTATTATAATAGATCTAAAAATAGTTTAATATAAATGGAATAGGGTTATATTTTAGATAAGAGTAAAAGACACTTTTAGATATTCAAGATTATTACCACAGTATTTAGATGTGTATACCAAAATCTTCAAATACAATTTTCATTGCATCAATTTCTGTATTTTTAAGATTTAGATCAAAACCTATCTCATTATAGTCAGTACCTAAAAACCCATGTTCTATTATTTTTTCAGTAAAACCTCTTAATTGCCTCCTGATATGAGGACCATCTATTTCCCATAAAATCTTAACAGGATTCCCTGCACTATCTTTTTGAATTACATAATCAGGGTTCCCTAGTTTACCATTAGGATTATCTATACTGAACGAAATATCATATACAAAATCTCCTATAGGAATATCTATGTGAATATAGACCAAGTCATTGACTTTATTAGGATCATCAATTTTTTCTTTCGCCATGTCTTCTCCTTCAATTACATAATATGTAAGACTAGCCTTGCTTCCACTCTTAGAAATTTTACTACGAATTATTTCATGTTGTAAAACTTGTCCATCTGATATATAGTGATATACTTGAGTTGTCTTCATTGTTGGTTCTAATTGATATAGATCCTTATATAACTCTACTATTCCATTATAAAAAGAAAAAACTTTTTTCTCACTAGGATACTCTTTGTCTTCTTCTATAGCATCATTAATAGCTCTATTATTATCAGGAAAATAAGAATGTAACTTAGATATTCTTTCAAAAAGTTCTATATCAGATTCATTGACTGGTGTACCGTTTTCATCCACCTTTTCACCATATAACATAGCTAACATAGATAGTTTTTCTAACTCATTCTCAAATTGCCTATCTAGCTCTGGTCTCATAGTATAGTATTATAGACTGTTCCATTTTAGATGTCAATAATTATTAAACCAGATATTTAGGATGCAACGTGAATTGGTTAGAAAATATACTAAGTTGCAAAATAACATTATAAAAACATAGTCATCCTTTATATTAAATATTCAACATACACCATTGTGTGTTTTTAATTTACTTCTTATATTTTATATGATATATAACATATTAGAATGATCAAAGTTTCAAATGTAACTAAAACTTATGGTAAAAAGGAAAATAAATTTACAGCTCTTAATGACATTTCACTAGAAATAGAAACAGCAAGTATTGTAGGAATTGTAGGAAAATCTGGGTCTGGAAAATCTACTTTAATGCATGTTATGTCAGGGTTAGACAGTGTTGATAAAGGTAAAATTGAGATAGATAATGTAAATATTTCGGTTATAAAAAATAAAGAACTAAATAAATTTAGAAATGAAAAAATTGGATTTGTATTTCAATTTTTTTATCTTCAAGAAAAAGAAACATCGCTTAGCAATATCATGCTTCCTTTAGAAATTTCTGGTATATCATTTGCAAAAAGGCGTAAAATGGCTCTAGATGCATTAGAAAGTGTTGATATGATGGATAAAGTAAATGAGAAAGTTATAAATTTATCGGGTGGACAAAAACAAAGAATTTGTGTTGCAAGAGCTATTGTAAATAATCCAGATATAATATTTGCAGATGAACCAACAGGTAATTTAGATACAGAAAATAGTCAGAATATTATAGATTTATTAATTAATTTAAACAAGAAATCTTCCAAAACTGTTGTTATAGTAACTCATGATAAGGATGTATCTGGGATATGTTCACAGTTAATACATATACAAGACGGAAAGGTTATATAAAGAAATGAAAACATTAGATTTAATAAAAAAAGCAAATAAAAATTTAATGCTCTCTAAAACGAGAACAGTATTAACTATATTTTCTATTATTATAGGGGCTTTTGTTATTACATTAACAATGAGTTTAGGGAATGGTGCAACTAATTTTCTTCAAAATCAATTTTCTTCAATCAAAATGAACCATACACTTATTATTAGATCTAACGGAGGAAATTCTACAGGAGTTGGTATAAATTTAAAACCTATAAAATATTCTTCAAAGCAAAATAATGGAACTTTAGGTATAAGTTTTATAGATCAAAGACAAGTTAATATAGTAAAAAATATTGTAGGTATAGAAAAAGTAGTACCATTATATGTTCCAGAGGTTAAATATATAGAAAGTAAGAATAATGAAAAATATAAATTTAGTGTAGCTAATTATCCTGGAAGTTTCTTTTCTCCTAGTCTAGAAGCAGGAAGTCTCCCTTCTTTAGGAGAGAATAATTATATAATTATTCCATCTATGTATGTGAAATCGTTGGGATTTTCATCTGCAAAAGATGCTATTGGAAAGAAAGTTTATATTGTATATAAAAATCTTTCAAATATATCATTAAAGAAAAGTTATACAATAAAAGGTGTATTAGTAAATTCTATAATTACAGGATCAGGGTATATTAGTACTAAAAATGCGAAAAATATTACTTTATTTGAAGATAAAGGAACAAATTTAGCAAATTCATATATTGAAATAGCAGGTGTATATAAGAAAACTTTAACAACAACTCAAATAAATAAAATAAAGTCACTTTTAAGTAAAAATTCTATGAATGGATTAACTTATAAAGATGAAATTCAACAAGTTAGTTATATTATACTTTCAATAGAAACAATATTAACATTATTTGCATTAATTGCTTTATTTGTAGCATCATTTGGAATAATAAATACACTATTTATGAGTGTAATACAAAGAACAAGAGAAATAGGCTTGATGAAAGCAATAGGAATGAGTAGTTTTGATATTTTTAAAATGTTCTCAATAGAAGCAATAAGTATAGGATTTTGGGGAGGCGTAATAGGATCAGTGTTGGCTATAATTGTAGGAAATATTATAGATCAATATATTTCTAATTCAATACTGAAATCATTCCCTGGATATAAATTACTTATATTTAATCCTGAACAAATCATTTGGATAATAATATTTCTTATGTTTGTAGGTTTTGTAGCAGGTACTATTCCTTCTATTAAAGCAAGTAAATTAAAACCTATAGATGCTCTAAGATATGAGTAATCTAAAAATTAAAGAAATTCAGATACATTCCCAATAGTAGTTTCTTCAGGTTTAAGAGTTTTATGTCCTTTACTCCATTTTGCAGGACATACTTCATGTGGATGTAGTGATACATAGATAAAAGCTTTTACTTTCCTTGTAAGTTCATCTGCATCACGTCCAACATTATTAAGATTTATCTCTGATGAGACTAATACCAAATTAGGATCAATGATAAATGTACCTCTATAAGCTTCTCCTGTATTATAATCATAAACCCCAAACATTTTTGATACAGATCCATTATGGTCTGCTCCCATTTGAAAATTTACATCTTTAAGTAATTTTTCTTCTCTTTTCCATGCCATATGTACAAATTCTGTATCTGTACTAATAGATACTATATCAACTCCAATTTTTTCTAATTCTTCTTGTTTTGTTGCATAATCTGCTAATTCGGTAGGACAGACAAAAGTATAATCTGCGGGATAAAAGACAAACACAGTCCATCTTCCATTATCTTTTGATTTTTTTAAAGAGAATTCTGAAAAAGCATTAATCTTCGGATTATATGTTTTTATATTAATTTCAGGAATAACTTTTCCTATTGATATTTGTTCTATTTTTTCTGTGTCCATATATTCATTATAGAACATAAAGATTTAAATTACATTAAAAGTACTGGATGTATTTTTACATACATCCAAACTATAGATTTTATTTTAATATAGGATATTTACTTACTAGAGAATTTCTACTCCACCATTTTCCCAATCCTATATAATTCCCTGCATTAAATACTATAAATCCGCACATTAATATTAAATACACAAGATGTTTGTCTAAAAAAGGATTATTCGTAGAAGGAAATAATGATAACCACATTAAAAATAATATTATTATTCCTGCATAAGAACTAAGCTTAACAAATATTCCCAAAATTAAAGAGATACCTATAAAAAATAAACCTAACATAAATAACCAATCTACTAAAGGGTTTCCTGCTAGACTCTGAATTGGTGCACTAAAAATACCTTTAGCTCCAAATTTTAAGAAACCATATGTTGGAGATACACCTTCTAACCATCCTTTTCCCAATTTTGTAGAGAAACCTAATCCAAATAATTTATCCAAAAATGCCCAGAAAAAAATCCAACCCAAACTTAATCTTAAAAGACCCCATATTAAATCTTCTTTTTTTATTTTCATTTCTTACTCACCCCCCTTTATTATGATAATACAACTTTAAAAGAAAAATACAATATTATTGTATAAATTAATATATTTGTGTTATATACAATAATATATGGATAAAATATTTAATCCTTCATCTGTTGTTGTTATTGGTGCAAGTACAAATACTGCTAAAGCAGGATATAGGATATTAAAAAATATAAAGAATTCTTCATTTAAAGGTAAACTTTATGGCGTAAATAAAAATGATTCTTCTTTCTATAGTTCTATTCTTGATGTTAAAGATGAAATTGATCTTGTTGTAATTGTTATACCTAAAAAAGATGTAGTAAATGTTGTAACAGAGTGTGTAGAGAAAAAAGTAAAAAGTATAGTTATAATAGCAGGAGGATTTAAAGAGTCAGGAGATATAGATAGTGAAAATAAAATAAAAGACCTTATAAAAGATACTGATATAAAAGTAGTTGGGCCTAATTCATGTGGAGTACTATCATCAAGTATAAATGCTTCATTTAGTAAAAATGAAAATATTAAAGAAGGAAATTTGTTTTTGGTAACTCAATCAGGGGCAATACTTACATCCCTTATTGATTTTTCAGCTGAAAATAACTTAGGTATCAGAAAAGCAATATCTTTGGGGAATAAAATGGATATATCTGAAATTGATATTTTGGATCATATAGAAGAAGATGATTGTTTATGTTTTTACCTTGAAAGTATAGATAATTTCAAAGAATTTATGGATAATTTTGGTAAAATAAAAAATCCTAAATTTATACTTTCTCCTGGGAAAAGTAATAAATCTCAAGTTGAAATACAATCACATACAGGTGCTATAGTATCGGATAGAGATATTCTTTCTTTAGCATTAAGAAAAAATAACATATTAGAACTAACCTCTTTAGAAGATTTATTTGATGTGTCAAAAATTTTTGCAAATTTAAAGTATAACAATATTAAAGGAACAAGGCTTGCAATTGTTACAAACGCAGGAGGTATGGCAATTTTAGCTACTGATTGTATGGAAGGAAGCCAAATATCTTTTGCTGAATTATCACAAGAGACAAAAGATAAACTGGAGAAATATTTTTCAGGAAGAAAAGTATCAAATCCTATTGATATACTAGGTGATGCTCAATCTCAAAGATATAGAGATGTTTTAGATATACTAAAAGATGATGAAAATATAGATATAGTTATGGTTATAATAACGCCTCAAGCAAGTACTGATATTGATGAAATTGCTAATGTTATAAACGATTTTTCATTAACTTGTTCAGAAAAATTTGTAATTTCAGTTTTTACAGGAGGCTTTTATGCTCAAAAAGCTATAAATTTTCTCACAAATCTTCAGATTCCCTCATATAGTTTCCCTGAGAGAGCTATTAATGCTTTAAACTATTTAGATAAATTTATTCATGGTAAATCTATAAAATATGAAAATAATTTAAAGATAGATAAAAAAGAAATCATTTCAATAATTGATAGCAATAATAAAGGTAAAATTTTAGGATTTGAAGATAGTGTAAATATTTTAGAAAAATTTAATATTAAATTTCCTAAATTCAGAGTAATAGAAAATATAGAAGATTTAGAGAAATCAGTTCTTAATATAGGATATCCTTTAACTTTAAAAGTAGAGGATAAAGATATTCCTCATAAATCAGATAAGAAGGGGGTTATTAATAATATTCAAAACTATGAAGATTTATTATCTTCGTATAGAAGATTGCAATCTTTATCTAGTAGAGTATTAATGCAAGAGTATATTGATTCAACTTTTGAAATAATGACAGGAGTTATAAGATATGAAGGTATAGGTTCTGTAATAGTGTTAGGTACAGGAGGTATTCTAACAGAAATTTTAGATGATCATATAAAAGAGTATCTCCCTATAAATGAAGAAGAGGCTTTGAATCTTTTAAGAAAAACTAAATTTTACCCTCTTTTACATGGGTTTAGAGGTCTTGAAAAATACAAAGAGAGTGATATTATTAATGTGTTAATGGGATTATCTTATCTAATTGAAAATATTCCTCAGATATCTCAGATAGATATAAATCCAATTATCTTAACTAAGAAAGGAGATATTTTGACAGTAGATCCTAAGATATATTTATGTGTATAATTATAAGAAAGATAAAAGATATTGAATTTAGTCCTGCCCATGGAGGAGAGGGAAGAAAAAGAGAAATTATTACAAATAAAGATATTGATAACCCACATTTTGATATATTAAATAAAGATTACCTTTTAAAAGGAAATTTTTTTGATTGGCATAAACATGAAAGTTCAGATGAAATAGCTTTGGTTATAGAAGGTAAAGGATATGTTAAATATAAAGATGAGGATCATGTAAAAGAGTATGAAAAAAACGATGTGATTTTACTTAATGCAGGAGAGATGCATAAAATTGAAGCTCTAGAAAATTCTATATTTTATTTTATAAGGATAAAAGAATGATAAAAGAAGTAATAATAAGACCAGAAAGTACAAGAGATACTAGAAGTAGAAATAGTGATATATTAGATTTAATTGAAAAATATTTAAGATTAACGAATTACCTTTCTGCAGCACAGTTATATCTGAAGGATAATTTTTTTTTAGAAAGAGAACTTATACCCTCTGATATAAAGGAAAGACTATTAGGACATTGGGGGACAGATCCAGGAATAAACCTTATTTATGCTCATTTAAATAGATTGATAGTTGAATATGATTTGAATATGATGTTGGTTACAGGACCGGGTCATGGATCTCCAGCTAATAGGGCTAATTTATATCTTGAAGGAACATTGAGTGAATATTTTCCTAATCTTACAATGGATGAGAAGGGTATTAAATATCTAATTAAAGAGTTTAGTTGGCCAGGAGGATTTCCTTCTCATTTAGATCCTTCACTACCTGGTGTAATATCAGAAGGTGGAGAACTAGGATATTCTTTATCTATTGCTTATGGTTCAATACTAGATAATCCTAATCTTATCACTGCATGTATAATAGGAGATGGTGAAGCAGAAACTGGACCTTTATCTGCTTCTTGGCAAAGTAATAAATTTATTAATCCTGTTTATGATGGAGCAGTTTTACCTATTCTACATTTGAATGGGTATAAGATATCAAATCCTACTTTATTTGGCACAATGAGTAATTCTGAGATAATCTCTTATTTCGAAGGATTAGGATATGATGTGCATATAGCTCAAGATACAGATATAAATGCAGATTTATTTTCTGCTATGGAGTGGGCATATAACCAAATCAGAAGTATACAAAGTTCTGCTAGATCTACAAATATGTATGGTCCTTTTAGATGGCCATTAATAGTACTTAAGACTCCAAAAGGTATGGGAGGAATAAAAGAAATGGATGGTAAGAAAATTGAAGGTTCATTCAGAGCTCATCAAGTTCCTGCAGTAGATGTAAAGACAAATAAAAATCATTTAAGATTAGTACAAGATTGGCTTTCTTCTTATAATATTGGAGAATTATTAAATGAAGATAAAACCATGATTAATGAGTTATTTTCAATTATACCTAAGGGAGATAGAAGAATGGGAACAAACATTCATTCTTTGGGTGGAGAAGTTAGAATATCTTTGTCTTTACCTAGTATTGATGGATATTCATTTGATTTAGAGAGTAGATGTTCTGTAAGATCAAGTGGAATGGAGAGGGTAGGTCAGTATTTGAGAGATGTTATTTCTAAAAATGAAGAAAAGAGAAATTTTAGAATATTTTCTCCTGATGAATTAATTTCAAATAAATTGGAAGCTGTATTTGAAGTGACTGAGAGACAATATTTATGGCCTCACTCTAAATACGATGATTTTATTGCTCCAGAAGGAAGAGTTATGGAAATACTATCTGAGCATATCTGTCAAGGATGGATGGAAGGTTATGTTCTGACAGGTAGACATGCATTATTCCCTAGTTATGAAGCATTTTTACCAATAGTAGATAGCATGATGAATCAATACTCTAAATTTTTGAAAGTATCACTAGAGATTCCTTGGAGAAAACCTGTTTCATCTTTAAATTATTTACTTACATCTTTGAGTTGGAGGCAAGAACATAATGGATACTCTCATCAATCTCCTGGTTTTATAAATAATATGTTAAACAAAAAGAGTGATCTTTTGAATGTATATTTACCACCTGATCCTAATTCACTTTTATATACCATGAAAATGTGTTTAGAAGAGAAGAACAAAATAAATATAGTTGTTGCAGGAAAAGACGAAAGACCTTTACTTTTAGAACAACAAGAGGCTAAGGAATTAATGAGTAAAGGTATTGCTTATTGGGATTGGGCATCTTCTTCTGGTGATGATTGTGATGTGGTTATTGTTGGAATGGGTGATTATGCAACAGAGGAAGTTTTAGCTGCTTCATCTTTATTAAAAGAAGATTTTTCTGAAATAAAGTTTAGAATATTAAATGTTTCGAATTTAATGGTTTTAGAAACTCCTGAAGAATTTTCTTTGGGGTTATCAAATAAAGATTTTATATCATATTTCACAAAAGATAAGCCTGTTATTATAAGTTATATAGGATATCCTTCTGCTATAAAACAGCTTTTATTTGATAGAGGTGACACTTCTAGATTTATAATTAATGGTTATATTGAAGAAGGAACCACTACTACTCCTTTTGATATGTATATTAGAAATAAGACATCTAGATTTCATATTGCAATGATGGCGTTGGATCTTGTAAGGAACAAGTATGATGTCTCCAAAATAGATGATGTAAAGAAAAAATATATAGATATAATTAATTGGCATAGAGATTATATTAATAAATATGGTAAAGATCCAGAAGAAATTACTGATTGGAAATTTGTAAAATAAAAATTAATATGTTTTTAATAACCAATGGTTTATAATATATAAAATATGGTTAAAAAAATCTTTTTAATAACAGGTGGCTTAGATAAAATAGAAAAAGAAAATTATAGTGTTGTTATAAATCAACAAAAAAATGTTGGTATATATGAAATATTAGTAAGGCCCTATGGTCAAAGTATATAATTATGTTGTCTCAACAAACATATAACTTTTTAATATATCTAGCTTTAGCACTTGTACCTAGTTTTATATCTCTAATACTATATCTTTCTCCTAAAAAAGAATCTAAACTCAATTCAGAAAAGTATAGAACTGTACTTCTAGAACATTTATTCTATAGTTCTTTAATTTTGACAATTGGAGGATGGGCATCCTTTTTTACACAAGATTTTATTTATATAACAATAGCTTTTTTTATAGGAGGGTTAAATTTTCTAAAAGATTTATTTCAATACGTGTTTAAAATTAGAGGAATTATTAATAAGAATTCTAGAATGGAAGAAATAATAATTGATAATTATGAGACTATAATTAATATATATCAAAGAACTTCTAGTTTTGAAGAATTTCAAAAAACAATTAAAACTAGATATAACCTTTCAAATGAAGTGATATTTAATTTATATAATTCATTTAAAAATTTTGAACAAGATCAATCAAATAAATCAAAAACAGAAGATAAAAGTGATTTAAATTATGCATATAAACTATTAGGTCTTTCAAAAAATGCAAAATTATCAGATGTAAGAAAATCGTTTAAGGAGAAGGCTAGATTACTGCATCCTGATTTCACCCAAAACAAAGATGATACTAAATTTAAAGAAGTAAATGAAGCTTATCAATTAATTCTAAAAAATATTAGTTGACATATAAAAAATATGTGCTAATATATTAAGGTTACCTAATTATTAGGTATTTTACTTAATCACATTTTAATATTATGATGAAAGACCATATAAAACCTGGAAGATTAGCATTTTTAATGATAGCAATATTGTTATCTATGTTTATGTCTTCTTTGGATCAAACAATCGTAGCAACTGCATTACCTACAATACTCAAAGATCTAGGAGGTTTTAATCTTTTAACTTGGGTATATGCATCATATATTCTTACGTCTACTATATCTATTTTGGTAGTAGGTAGACTTTCTGATTTATATGGAAGAAAGTTGTTTTATCTTATTGGTATAACAATATTTGTTGTTGGTTCTGCTCTGTCAGGTTTATCTCATAATATAATTCAGTTAATTATTTTTAGAGCTGTACAAGGTATAGGAGGTGGAGCTTTAACTTCATTAGCATTTGCATCTGTTGGAGATTTATTTACTCCAAGAGAAAGAGGAAAATGGCAAGGAATAATATCTTCTAGTTTTGGAATTGCTGCTGTTGTAGGTCCCTTGATCGGAGGATATCTTACTACTGCAATTTCATGGAATTGGATTTTTTATGTTAATGTTCCAATAGGTATTCTTGCTTTCTTTTTAATAGCAACTGAGTATCCTGTAATAAAAATGGATAAAAAAGAAAAAATAGATTATTCCGGAATATTATTTTTCTCAATATTCACTGTTGCATTAATATCTGCATTAATTTTTGGAGGATCTCTGTTTCCTTGGAATTCTTATCAGGAATATTCACTTCTTGTAACATTTATAATATTTCTAATTATATTTATATGGAGACAGAAAAGTATAACCTATCCATTATTACCTTTATCTTTATTTAAAAATAAATCATTTATATATATAAATATAGTGGCATTTCTAACTTCATTTTCATTCTTAGGAGCAATTGTTTTTCTTCCAATTTATTTCCAATATGTAAGAGGTATTTCACCTACAGTATCAGGATTATATTTGGTATCTCTAGTAGCAGGTTTGATAACAACTTCTATTGTAGGAGGTCAATTACTTACAAAATTTGGAAAATATAAGTTAATGATACTTTTAGGTATTATTTTTGCAAGTTTTGGATTTTTTCTAATCTCTACTATTAAATATAATACTAATCTTTTTGATTTAAATGTATATATGTTTATAACAGGTGCAGGTTTAGGTGTTCTTCTTCCTGTTTTGACGATAGTTGCTCAAAATTTCTTTAATTCTTCTGAAGTTGGAGTGGTAACAGGAACTTTACAATTTTTTAGAAATATAGCAGGTGCTATTGGTCTTGCTGCTATGGGTGCCGTTCTGAATAATACTCTAATTTCTAGAATATCAGCTAATAAACCTGGTAATCTTCCTTTAGTACTATCTTCAAAATATGATACTATAAAAAATTCTTTTAATTCAACATCTTCTTCTTTTTCAACAGATATATCTACTAAAAATATACCTAGTTTTTTAATAAAATATGTTAATGAAATAACTCATGCTATTTATGTATCTTTAACAGAATCTATTAGTTATATTATGATTTTTGCTGCTGCCATTTTACTGGTCTCTATTATCTTCGCATTTTTTATAAAAGAAATTCCTTTAAGGACTTCACATAAACATGAAAACGAATAATATTGAAAATAAAATTATAGATCTTGTAATGGAAATGAAATCTCATTTTATTTATGGTAATAATTTTATATCTTCTGCTATGCTTCTTAGAATAATAAAAGAAAATAAAGAATCTAGAGTTATAGATATTGCAAAAAAAATGAATATATCTGCTCCTTCTGTTACAGAAGCTTTAGACAAATTAGAAGCTAAAGGTTTTATAAAAAGACAAGAAGGTGAAGATAAAAGAGAAAAAATTATATCAATTACAGATAAAGGAGATTCTCAATTTAAAGAAATTGCTAAATTAATGAGAGAAGAAATGAAAGATAAAATATCTTCTCTAAAAGATGAGGATAAAATTATATTAGAAGAATCTTTGGCGTCAGTAACTAATATTTTGAAGAAAATTACTCTGAAGTAATTTTTATAGGTACATCATATCCATAAGATGTAGAAAGAGTGTTAATAGCATAGTCAATTTCTTCTTTTTCTTCATCTTCTAAATATAGTGAATTCATTACTCTACAGATATCTTCAAATCTTTCTTGATTTATAGGCAAAAGTAAATGTAAAGGAGGAAGTTCTTTATTTTGTATTTTTCTTAATTCAATTAATTTATCTATCAAACTTGTTAGAGAAGAATGTGTCTCTTCTTCAAACTTTTGCGCATATTTAAATCCTATAAGACTTAAGATATCTATATTCTCTTCTAAACTATTATCTCTTTCTAGTTTCATAATTAATAGGTGATTGTATCACAAATTATTAATAGATTAAATTTTTAATTTAATTTTAATAATACTTATGTAATCTTATCCAAGACTCTAGTCTAATAATATCTCTATATAAAAAAATGAATTTTGGTATATTTACATATATAGCCGTAACTGGAATTTTAGCAGTTTTTTTACTGGCTTTGCTTATTATAACTGCAATTATAATAAAATATAATTTAAAAATATGGGTTAGATATCAAGTGTTTTTAAATAGAATACATCCCTATTTAGGATGGTCTACTATTATAATGGTTATAGTGCATGTATCTTTAGCTCTATCTACATTTGAATTCTATAATCTTGATTATTGGGCAGGTCTAATAGCTTTTATTTTCTTTTTATTTGCTTTTATAACTGGAATTATAAAGTATTACAATATAGAACCATTTAAAAAGTATCAATTACCTTCATCTAAAATACACTATATTTTAGGTTTTATATCTTTATTATTTGTATTTATTCATATGTTTTTAGGAGTTTTGATATTCCATTATTCTTTTTTTATAGCAGTTGTAAGAATACTCCATGTTTAATAAATTATTTTATAAAAAGAGAGAAGCTAAAATTATTAATGTAGAGAAAATCTCTTCTAATCTTTTGAAAATTGATTTTAAAACTGATTTTTTTGAATATATTCCTGGTCAATATATAATTTTATATATTGAAGGTGTGGTTGCTAGGAATTATTCTATATATGAAGTCTCATTAAATAAAACTGTATTTTCAATAATTGTAAATATTAATGGGGATGGAATAGGAAGAAGAAGTATAAAAGAGTTCAATATAAATAAAGAAATTTTTTTTGCAGGACCAATGGGTGATTTTATATATAATAATAATGAAGTTACTCATAAAAATTGGTTTATTGCTACAGGAAGTGGTATATCTCCTTTTATACCAATGATTAAAAATATAAAAGATAAAAAAGATATAATTCTTTTTTTAGGAGCTAGAGATAAAAATGAGTTTCCTCAAATTAATATTGAAGGAATAAATATTATATATTCTATTACAAATAAAGATACATTATGGAATGGAGAGAGAGGAAGAATTAATAGGGTTATGATTGAATATCTTGAAAATGAAAAAGAAAAGGAAGATATATCTTTCTATATATGTGGTGCACCTCACATGGTTATGGATACAAAGAAATTATTAGAAGCATGTAATATAAATAAGGATAAAATATATTATGAAAAATTCGGATTTTAAAAATTTATAAATTACATGGTATAATCATATTTTATAAAATGAATAATCTAGAATTATTAACAAATAGAGAAGTGTATAAGCCTAATAAAGTTATGGCTATAGACTTAGATGATACAGTTCTGGATCTAAATGGAAGCTTAATAGAATTTCATAATTTAAAATATGGAACCTCTTTGAAATATGAAGATATAGATAGTTTTGATTTAGCTAAGATATGGGGATGTACTCATGAAGAATCTATAAGAAGAATAGAAGAATTTTTAAATTCAAATAAAGAACTTAAATTAATAGAAGGTGCTTTTGATGCAATTTTTTCTCTTAGAAATAAATATCAACTTTACATTGTTACAGCAAGACCTGATTTTATAGAAGATTCTACAATAGGTAATATTTCTTCGTATTTTAGTGAAGATACTTTTGAAAATATATTTTTTACTAATCATTTTTATGACAAAAGTAGAAAAAAATCAGAAATTTGCAGAAATATAAATGCTGATATATTTATAGATGATTCCGTAAATAATGTATTAGATGTTTATCAAAATGTAGGTATAAAAACATTTTTAATGGATAGACCATGGAATCATAGTATAAAAAATTTACCTAATGAAATAGAAAGAGTTTTTTCCTGGAGTGATATATTAGAAAAATCCTTGTAAATTATACTTAATTAATAATGTAAAACTTGCAAATATACATATCGCATGTTATTATAGGATAGATCTTTATTAAATTAGATAATAAATATAAAGGTAAGGTTATATTTAAACTTTTAAGCACATAAATAAATTTCTGTACTCAAATATTTAGATATAAAATAATTTTTCCTAGTTCATATTTATAAAAGTTTATCTTTTTAATTTTTTAAAGTTCCATATTTTATATTTATTATATATAAACAATGATGGAAAAAATATTACCTCCAGAGGAGTATAGAAAAGGTGTTTATTTTGAATCTCTAGATAAAAGACTTATTATTGATGATTTATGGTTGAAATCAGAAGAAGGTCTATTTCTATTTGAAGGTTCTAAGGATAATACCAATTTATCAAAAAGAGAAATAAGCCTATTAGAACTAAATAAAAGAGTTAAGGATTTTAAAGATATTCAAGATCAAACTTCGCCAAAAGAAATTATAATAGAAGCTTTTATAATAAGAGAACTTTTGAGACTAACTTCAGCTCACAGAACATTAATAGATGATTTAGATACAAGAGATTTAGATATCATATCCTTATATCTTCAGGATAATTTTCATTTAATAGAAGATCAGAGTATAGATCTTAAGAAAAAAATAAAAAAGAATCTGGATCTATTTTTTAAAAGAGAGAAAATATCAAAATATAAATCTGATACACCTATAAGATTACTTTCTATTGTCTCTCTTCTAGGTTTGTATAATTTTTATCATTTTACGAAAAATGATGATCTTTATAACAAATCATCCTATATATCTAATAGTTCATCTCAACAAATAGATAAAATTGCTAAACCTGTTTTATATTCAATAGCACAAAAAAAAGAAGGAGAGATTTCAATACCAAAAAATACACCTCCTATTACTACGGCTCCAAAGATAGAAACATCTGCAGTTCAACATATGATACCTTCATCTCCTAGTGTAGCTCCTTTATCACCTAATGGTATAAAAAATATGATTAATCAAGAAGCTGTATCTCAGTATGGATACAGTCCTTGGGAAATTTTTTATTTAGATTATATTGTATCAATAGAGTCTAAATTTAATCCTAATGCAATAAATCCTAAATCAGGAGCTTGTGGTTTAATGCAACAAGATCCTTGTGAACAACAAGTTAATGTTCAATCTCAAACAGTATATTGGACATTGGATTCTCAAATCCAATCCTTATTTGAATATATAAAAGTAAGATATCAAGGAGATATTGTAAGTGCATATAATCATGAATGTCAATTTAATTGGTATTAATTAAATTGCGATAATATACTTATATATAGATTTTTTTATTTATTTGAAATATAATATACATATACTATGAATACTACAGAAAAAGATATAATATCAGTTTTCTTAGATAATATAAGGACCAATCAAATTGGAGGTGAATACGACGGTATATCAGCAGAAGTTGCAGAAGATATCGGATTTCAATCTATATTAGATGTAGAAAATCTGATAAAAGAAAATAAAAAAAAGTAATATATAGATTTTTTTAAATATCTCATTAAGGACAAGAAGTTGTTGTCGTGTGATCTAAATAATCCATTTGATATGTTCTTTAAATGGGGTAAAAAGACATTTGTCATGCATACTCGAGATAAGGCTACAGAGTTTGAACATATAGAAATAATATATGATGCAATAGTATTAAGCCTTCATACAAACACTTTTAACAAAGAATTCTCTAGTGCTATTAATAAAAAAAATAGTAATGAATTCTGCTATAATGACGGTACAAAGTATATATTAATAAGATGTATATGAGTAATGATGATAATACAGTAAATAATATGACAAATGTTTTACAGATATGGTAGAGGTAGATGCATCAGATGAAAATTTGTTGTCACCTATATTTAAACCATTAAGATTAAGAATGAAAATTAATGAAAACAAGAGCGTTTTCTATTGTATTAATAGGTATCTTCATATAGGTTAATTTCTTTGGTTTTATATTTAAAATATTAAAAATTTTAGAATTATGAAAGTTATTATCATTGCTAATATTGCCGAAGCATTTGAAAACTCTATTAACAAGATTAGTTCTAATAAAAAGAAATTATTATATACACAAGTAGAACATAGTCTATGTGAACGTGCATTATTATTAGAGAGAGATGATAAAGTTATTATAACTCCATTTTTCATAAATCAAAAATTATTTGATCATAATAAAAATGTATTAGGTTACAAAAATATAAAAAATTTATTTCCACAACATATTGACATTAGTTTATCTGATGCAATAAAACAGGATAAAAAATTATTAAATGAATTATATATAATTATTAAAGAAAACCCTCAGATTGAAATTTCTCCTTATGCTATAACTGAAAAATTTATTTCATTGATAGATTTATTTAAATCACAAGGTTTAAATTTTATAATTAGAGAAAGACCATTAAATAACGAAGATTGGTTAGTTTCATACCTTGATTCTAAGGTTGGTTCTAGAACAGAAATTAATAAAATTATAAGAGCAGATATTTTCACTCCTGAGAGCATTATATGTACGGATAAGAAACATGCAATGAACATTGCACTCTGGTTTTATAAGAATGATAAATCTTGTGTAATTAAATCAAATTTTGGAGAATCTGGTTGGGGATTAATTTTTGTTTATAAAAATCAATTTAATAATATCCAAGAGTGTATTTTTTATATTATGAAAAAATTTGGAGAAACTCAAATATGGGATAAAGATTTGATACTAGTAGAGGAATATATAAATTCTAAAAATAATACTAAAATAATATCGCCGTCTTCTGAACTTTTTATATCAGATAAAGAAGTTTTAGTTACATATGTTTGCAATCAAATTTTAAGTTTAGAAGGAACATTTCAAGGGATTGCTGTAGGTAGAGTTTTTTCACAAGCTACTTTAAGAAAAATTAAAAAAATTTCATTACAAATAGGAAGTAAATTTAAAAAACTAGGTTATAGAGGAATTTTTGATATTGATTTTGTTTTGTCTAACAAGGATGACCCTTATGTTATTGAAACAAATATGAGGAAAACTGGTGGAACTCATGTCTATGATGTACTCAAATTCTTATTGGGGAATAATTGGGAAAATAAAATATATGCTTTTTCAAATGATAATTTTAAATATGGGAATAGGATATTGAATGCAGAAGAAATTTTATATAAATTACAAAATATATTATATCCTATGTATGGAGAAGCGCAAGGTGTTATAATATCAATTATAAATAAATGGGAACCAAAATTAGGATTTATAATAATAGGTAAATCTAAAGATAAAGCTTTTGTAATATATAACAAAATGCTAGATATATTTAATTTACAAAATAATTAATAACATGAAGAAATTTTTAAATATTAAGTCTTTTCAAGAAACTTTAAATTCTGGTATGTGTGGTCCAGCATCGTTGAAAATTATATTATCTTATTATGGGATTGAAGAGGATGAAGGAAAGTTGGCAAAACTATGTTTTACAGATAAAAATTTAGGTACTAATGATATTAGTCTAAAAAAAACAGCTGAAAGTTTTGGATTTAAAGTAACTATAAAAAACAATAGTACTTTTAAAGATATTGAAGAATGGTTAAATAAAGGAGTTCCTGTTATTGTAAATTGGTTTACACGAGGTAGATCTGATTATACTGACGAAGATGTGCCTGATGGACATTATAGTGTAGTCTATGGATTAGATAATAAATATATATATCTACAAGATCCAGAAATTGGAAAGAGTAGAAGAATAGAAAAGGAAATATTTATGAGCGTATGGTTTGATTTTACAGGAGAATATATAACGAAAGAGAACCTTATTATTTGTCAGTGTATTGCAATTTATAAGTAAGATAATGCCAGAATCAATTTTAATTCTTTATAATGATGCAGAAAGACTTGAAAAAGGAATTCCGAGTGATCTGATCTGTGAACAAGAGATTAAGATTATTGTTCCATTGATGGTTCAATTGTTAACTTCTAGGGGATATAATATTAATACATTAAAGGCAGATTATGAATTGTGGGAACAATTAAAATTAAGAAAAAGTACTATTGATATTGTTCTTAATTTAGCAGAAGCTTTTGGAGGTGGGAATACTAATGAAACTGTTGTTCCTGCAATACTTGAAGGATTAAATATTCCATTTACTGGAGCCTCTTCACATAATATGCACTTTACTATGGATAAAGAGAAAACTAATTTAGTACTTAATTCATATGGTATTCCTGTTCCTCCACATCAACTTTTTAGATCTGGTAGTGAAGTTTTGCAGGAAGGTCTTAGATTCCCACTTATTGTTAAGCCTGTAAGAGAAGAAGCAAGTATAGGGATATATCAAGATAGTGTGATTATTGATGAAGCTAGTCTTATGGTGAAAATTCAAGAATCATTAGATAGATATAATCAACCAGTTTTGGTAGAGCAATTCATATCAGGACGAGAAATATCAGTTGGTATGATAGGAAATCCACCAGATTTACATATATTCCCGCCACTTGAATTTTTGTTTGAAGGTACAAATTCAGAATTACAACAAATTCGTTCATATGAATATAAATGGGGAGGGAAGAAAGAAAAAATGGTAAGAGCCAACTTAAGTCCTGCTATTATTGAAAAGTTGGAAATATATAGTAGAAAGGCTTTTATTGTATCTGAATGTAGGGATTATGCAAGAATTGATTTTAGGATTGATGCACAAAATAATATTTACTTACTTGAAGTAAACTATAATCCTGGAATAGGGCCAAATACACATGGATTAAATAATACTTTAACAAAAATGGCTAGTTTTGAAGGAGTATCTTTTGACGATTTAGTAGAAAAGGTTGTTTTGATAGCATTACATAGGTATAATAAAAATACAATTCATTAATCTATGTTGATCTTCTATACTTTTAATTTTGAGAATACATTTTTCAATTATATCTATTATTTCTTCTTGGGGTATTAAAAAACCTAGATAAAGATATTGTAATAATATCAACCATATCAAATAATTGTCATATTAATTTAGAGCAGAAAAAAAGAATATGATAATCTTAAGAGTCAAATTAAGAGAGGAAAAAATCGGACTGATATGTTCTTTAAAGGGGGTAAAAAGGCATTTGTCATGCATACTCGGAATGGCGGGACTCGAACCCACGACCTCTTGCTCCCAAAGCAAGCGTTCTAGCCAACTGAACTACATTCCGTAAAGATTGCTGAGGGCGGGAATCGAACCCGCATGAATTGCTTCAACGGATTTTAAGTCCGTCGCGTATACCTATTCCGCCACCCCAGCGACTGTAAGAAATATTTTTTACTTTCTAATTATAAATTAAAAATCAAAAATATGAAAGTAAACCTTATTAATTTGTTATTTTTTCATCTATTAAAATATTAGTAAAAACAGTATATAATACAATGTAATGAATAATAAAAAAACTATCGACAATTTATGGTCTGATTTTGATAATAGATCTGATACTGAAGAGAATACTGTTGATAAAATTGCAACTGTAGCTCCAATGCTCTCATATATTGCGAGTGTTAGTACTATGAATCTTTATAATAAAAAAGATAAAATAGGATTAGGCTCTATAAAAGCTAGAGATTTTGATAATGTTTTTATAGAAACTTTTCTTCTTGAGATATTTTTTTTATATTCAGTGATCTTAATTTCTAAAATTAAGAATAAATCAAAAGTAAAAGATATAATATTGCAGGAGACATCTTCGGTATTAGATTTGATAATTCTTGAGCGTGATGTAGAAGAAACTTTTAATATAGATAAATTTATAGATAAAGCAAATAAAAGGATTAAAGAATATTCTCATAAAAATGATTCAAAAACATATGAAGATTTGTTTGAAAGTGATTTTTTAGATTTATTTATTATCAAAATAGGAGATATCTTAGCTTTAAGTGCTAGCTCCAATTATTTAATTGATTTTGAAAAAGAAATATTAAATTCAGTAAAAGCTTTGAAATTAGAAATACTATTCAATTTTGATGAAAAAAAATAATACCCCACAAATAAAGGATGTTGTAAAAAAAAAGAATATAGATAAAAAAAGAATATTAAAAATTATATATATTTTTTTCTCTATATTTCTATCTTTCTTATATGTAGTAATAATACTTTTTTGTGTTTTCTTTTCAATCATTGTTTCTGATTATAATTCAAATCTTCCTTCTGTTATAAATGCAGTTAAAAACAATAAATCTGAAAATACTCAAATTTATTCTAGAAATGGAACTCTGATAGATACGATATATGGCAATGTTAATAGGCAATTTGTTTCATATAATAATATATCTCCTTATATGATCAAATCTATGATAGCAGCAGAAGATGTACATTTTTTTTCAGATACTCTAGGTATAAATATCCCAAGTATATTAAGATCTTTGTATAATGATGTTTTAAAAAGGCAAAATGGAGTTCAAGGAGCAAGTACTATCACTCAACAGTTAGTAAAAAATACCCTTCTTTCTAATAACAGATCTGTTGAAAATAAAATAAAGGAAGTATTACTTTCTATTAGATTATCTCAACAATATTCTAAACAAAAAATATTAGATTCTTATCTAAATTATGTGTCTTTTGGAGGAAATATATCTGGAATTGAATCTGCTTCTGAAACATATTTTGGTATTCCTGCTTCAAAACTTAATCTTGCTCAATCAGCACTCCTTGCGGGTATGGTTCAGGCTCCAAGTATCTATTCTCCCTTTTTTGGAACTGATCCTAAGCTAGGTCTTCAAAGACAAGCATATGTTTTCAATGAGATCAAAAAGCATGATAATATTTTAAATATACCTTTAAGTGTAATTAATAAAGCTCAGTCAACAAAATTGGTATATTACAAAAGGCCTAAATCAAAATTAATTGATCCTTGGTTTATATACTATACAAAACAATATTTAATTAATAAATATGGCAATTCTTTTATAAATAATGGTGGTTATAAAGTTTATACTACACTCAGTTTAAAACTTCAGAAAATAGCACAACAATCTGTAGTGAGTAATGTGTCAAGATTTTTACAAGAAGGTTTAAATACACATAATTCTTCTTTAGTATCTATTAATCCAAAAAATGGGCATATACTTGCTATGGTGGGTTCAGTAAATTATAATATAGATAATAGTTATGTAAAAGGAGAAGTAAATTCTACACTTAGTTTGATATCTCCTGGTTCTTCTCTGAAACCTTTTGTATATCTTACGGGGTTTAGAAATGCAGGACTGACACCTAATTCAATAGTCTATGATACTCCTCTGACTATAGGAAATTGGAGTCCAACGGACTGGAATAATGCTTATGAGGGTCCTATTAGTATAGCTAGTGCACTTTTACAATCAAGAAATATTCCAGCAGTAAGAGTGGGTTTAGAAGTAGGACTTCCTGCTATATTTTCTACATTTAGACAGGTAGGTTTATCTCAATTTACCCAGAGTAAGATAGCAGTATGTGGTTATCCTGCTATTATAGGAGGTTGTGATATAACAACACTTCAAGAAGCTGGTGCATATGCTTCTTTAGCTAATTATGGTACATATATATCTCCTAGTCCTATACTCAAAATATATAATAGAAATAATAAATTAATTTTGAATAATACTAATCCTAAAGGTATTAATGTTTTTCAAAAAAAATATACTGAAATGGTTATTAGTATAATTAAAAGTTACTATACTATGTATCCTTTATTTGATAGAGGTTTTTCTGTAGCAGGAAAAACAGGAACTTCTAATAATCATATTGATAATGTATTCGCTGGTTTCTCTCCTAACTTAGTTGCTGTTGTTTGGTCTGGAAATGATAATTATTCATTTACATCAAATAATACTTGGGGAGAGACAACTGCTGCTCTAATATGGAATGATTATATGCTTAGTGCGTTAAAGTACTATCCAAATACTAAATTTAATTTAAGTCTATGGCCTTATAATTATGGGTCTCAAACAATATTATGAATGATAAAATAAAACAATATATAAAAACATTTTTAATCGATTTTTTAGAAACAGGTGTTATAACAATAGCTATCGCAGTTGTTATATATATTTTTCTATCTTCTCCTCATGTCGTTGTTGGAGAAAGTATGATGCCAAATTTTGTTAATGGAGAATATCTTATTAATAATAAACTAGCTGTATCTTTTTCTAATCTTCAGAGAGGTGATGTTATTAATTTCCAATTTGATCCAACTGAAGAGTTTATTAAAAGGATAATAGGTCTTCCTGGAAATACAATTGAACTTAAAAATGGTTTTGTATATGTAAATGGTAAAAAATTAATAGAAAGTGCTTATATACCTCCTCATGTATATACTTTTGGTGGTCAATTTTTAGCTAATAATGTAAAAATAACTGTACCTCAAGGATATTACTTTGTAATGGGAGATAATAGAGAAAATAGTTTTGATTCAAGATCTTGGGGTTTTGTTAAAAAGTCTAGTATAAAAGGCATAGCATTCTTTGTATTTTGGCCTTTAGATAAATTTGGTTTTGTTCCTACTGTTACTTATACACCAAAAGGTAATACTCTAGTAGCAAAATTGAACTAATATTGATTTTGTTATATCATAAATATTGTATTTATGGCAAAAAAGAAAACTAAAAGTAAAGTTAAGACGAGTAAAAATAAGTATAAAGATTATATTCTTAAAATTGTACGTATATTTGTAATAGATTTTATAGAAACAGTATCTGTAACATTAGCTATTGCGTTAATAGTATATTTATTTATTGCATCACCTCATATAGTTGTTGGAGAAAGTATGATGCCAAATTTTGTTAATGGAGAATATCTTTTTACAAATAAAATATCACTTTCATATTCTAATCCAAAACAAGGTCAAGTTATTATATTTCAGCATACTCCATCTGAAGAATATATAAAAAGAATAATAGCTACTCCAGGAGAAACTTTAGAATTAAAAAATGGTAAGGTTTATATAAATGGAAATTTATTGAATGAGAGTGCATATATAAATAGTAATATAAAAACTGAAGGTGGAAGTTTTCTTGCAAATAATGTCGTTATTAAAGTACCAAAGGGTGATTATTTTGTGATGGGAGATAATAGAGGAAATAGTTCTGATTCTCGTTTCTGGGGCTTTGTTCCTAGAAATGAAATAAAAGGTATTGCTTCTTTTGTATTTTGGCCATTGAATAAATTCGGTTTCATTTCTAATATAAAATATATAAACGGAAAAAATATAATTTACACAAAAAGTAATTAATGATTATATCAGTATTAAATCAAAAAGGAGGAGTAGGGAAGACAACTTCTGCATTAAATATAGGAGCTTCACTTGCTAATAAGGGAAAGAAAACTGTTCTAATTGATTTAGATCCTCAATCAAATTTAACGTCAGGTTTAGGCTTGAATATATCTTCGGAAGGTGAGAATAAAAACTTATCAATATATGAAGTCCTAATAGATGATTTACCTATTAGTCAGGTCTTTGTATCTACTAGTATTCCTAATTTATTTTTAGTTCCATCTAATATATCTTTAGCTGGAGCAGAGATTGAATTAGTAAATAAACTTTCTAGAGAACATAAATTAAAGAATGCCTTAATGAAATTTAGTGAAAATTATGATTATGTAATAATAGATTCTCCTCCTTCTTTAGGTATACTTACTATAAATTCTTTAGTAGCAGCACAGAAAGTTTTAGTTCCTGTACAATGTGAATATTATGCTCTTGAAGGTATATCTCAATTACTCAAAACTATAGAATTGGTTAAAGATTCTCTAAACCCAGATCTAGAATTATTAGGAGTATTACTTACAATGTATGATAATAGAATTAAAATATCTGAATCTGTAGCCTCAGAGATAAAAGGATTTTTTAAAGAGAAAACATTTGATACAATAATACCAAGAAATGTTAAACTCTCAGAAGCTCCTTCTTTTGGAAAATCTATTTTTGAATATGATCCAGCTTCAACAGGAGCAATGGCTTATGATAAATTTAGTGATGAATTAATAAAAAAATATGGATAAAAAAGATGATAAAAAATTAGGTAGAGGTTTATCTGCACTTATTCAAAATTCGCCTCAAGATGGTGGGTATAAGGAGGTATTTATATCAAATATAGTCCCTAATCCTTATCAACCTAGAATAGATGCTAAAAAGGACATTGAGGATCTTGCAGCTTCTTTGAAAGAACATGGTGTACTGTCTCCTTTAATTGTATCAAAGATGGATGATGGTAGATATCAGCTTATAGCAGGAGAGAGAAGATTAAATGCAGCAAAAGCTTTGAAATGGGAAAAAATTCCAGTAATAATCAAAGAAGCAAGTACTCAAGATTTATTAGTATATGCAATAGTAGAAAATTTTCAAAGAAAAGATCTTAATGTGATGGAAGAAGCTACAGCTTTAATGAATCTTAAAACAACATTTAATTTAAAAAATATAGAAATAGCACAACAAATAGGAGTAACAGATAGATCAATTAGGTATTATCTTAAAATATTAACTCTACCACAAGAAATTACAGATGCTCTTTATCAAGAAACTCTTATATATGCACATGCAGTTGCCCTTATAAGAATAGATAATAAGGATATTCAACTTCAGATATATAAAAAAATATTGAAAGAAAAATTATCTCCTGCAAGAACAAATGATGTTGTAGATAAAATATTATCTTCATCACCTAAGCTTTCTCAAAACAAATTAAATATACTGTCTCAAAGAACAATGACTATTCAAAATGTTCTTAAATCTTTTTTTGGAGATGAAAAAGTTCAAATAAAAAGAAATATAAAAGGCATAGGAAGTGTTATTTTAAAATTTAAAACAGATGAGGAATTAGAAGAAATATATAAAAAAATAAACAAAGATTTTGATTGATTCTTTATTTTATGTTATTATTCTTAAATCTAGAGGGGGTATAGCTCAACGGTAGAGCATCAGCCTTTTAAGCTGTTGGTTCTGGGTTCAAATCCCAGTGCCCTCACCACCAAATGCGACAACAAAAATATAATTATAATTTTGTATTGGAAAATTTTATATTTATGACTTTTTAATTACTTTATTAATGTATTTATCTCATTTTGATAAATAAAAAATATTTCATTTTAACAAGAAAAGGGAACTCCATTAACTTTTATTGAACCTGGACCTGTTTGTACATAAGGGGCATTAGATCCATTCGATGTATATACAAAAATCGTATTATTTTCTAAACATGCACCTACCAAATATCCAGTTACTGTAGTATTTCCTGTTGTAGGAACACCATTAGTATATGGTATATAGAAATATTGTGTACTTGATGATGTAGTTGGATAATTACAAGGTCCACTTGAATATCCCATTGGATTACAGAAATCTATATATGTACCACAACCTCCACTATTATATTGTGCAGGAGAAGGTACTATTGTAGGTTTACATAAGGATGATTGTGTTGCCCAATATGGAGAAGAAGAAGACCAAAAATAAAATTCTACATTTCCAGCTGAATTCATTTGAGCTCCAGAAGGATATGATTGATTATTATTAGCATAATAAGTTTCTAATAATCCAGATATACCTTTTACAGCTGTTTCTCTTGCATTATTTCTAGCATCTGCTTGAGCTGATCCTAAACCTACAATCGCCACAGCAATAAGTATACCTATTATTGCCATAACAATTAAAAGCTCAACTAAAGTAAAACCCTTATTTTCCATTTAATTATTAGTCTATTATAATGGTTAAATGATGTCAATATATAAGGTTTTTAAGTTATCTTCAGAATAAAATAAGGTGTATAATATAGTTATGTTAGTATTTATTATATCTCATATTTTATATGCTTTATTTAATTCTCTATATCTTTTATGGGAAGCTCTCTTTGGTTTATTTATAGGTTTTTTCTTATCTGCAATATTACAAGTTTTTACTCCTAAAGAATTTATTAAAAAATATATGAAAAAAGGTATTTTTGGAGTTATATTTTCTATACTATTAGGTATAATTTCATCTTCTTGTTCATATGGAGCAGCTGAACTTGGAAAAGGTCTTTATAAAGAAGGTGTTGATATAAAAAATGTATTATCATTTTTAGTATCTTCTACAAACATGAATATTGCAATTTTAATTTTATTTGCATATCTTTTGAGTTGGAAATTTGCATTTGCAGAATTTTTTGGAGGAATAATTATAATTATATTTATAATTATAGGGTTCTCAGTTTTTTATAAAGATGAATTTAAAAAAGATAATGAAGATATCATATATAATTGTCCTGTATGCGGAATGGAAGGAAAAAAAGATTTATCTTATAGATATAGTAAAAATTTATATTTATTTTGTTCTCAAGATCATAAAAATTTATTTAAAATAAATCCTTTAGTATATACAAAGAATATAACTGCCAAATTTTTTAGTATAAATTCTATAAAATTAATATCATCTACATTTTTTTCTGATATATCAATGTTAAAATGGGAACTTGTTTTGGGATTTTTAATTGCAGGTTTTGCAGAGAGTTTTATACCACAATCCTTTTTCTCTTATTTATTAATATATATTAATAATATACCTATATTTGGATACTTATTACTCCTTATATCTGGACTTTTAATTGCTATTATAACTTTTGTTTGTTCTATGGGAAATGTTCCTATAGCAAAATATTTAAATAGTGTGCATATACCAATAGGTGCTAATATTACTTATATATATGGAGATTTACTTATTTTACCTTTAATTAGAATATATAAAAAATCATATCCTAAAAAAATTATATATATATTTATTACATTCTTTAGTATAGGTGCTATATTCTCGGGATATATTATGCAAATATTATTTAGATACCTTCCTAATTTCCCTATAAATTTATCTCCAGAAAATTTATTCTTTAATGTCTTAAATATTATCTCTTTAATTTTAATATTTTTCTTATTTACAGTGTATAGATTTATTAATATATAAATCTATTTAAGTTTTTTATATACGAAGTAGAGTAGATTATTGAAAGAATAATCAAAATTACCTAAAAATTTAAAATATCTCCCTCCCATATTAAACTTAAATTCACTAAAACCTTTCCAAGAAGGATTATCATAACTTACGCCCCATAGATCAAAAGATTTTAACCCTATACTCTGGGCATATTTAGCAGTTTCATATACTAATAAATATCCAGGATAAAGATTATTAAATTCTTTTAGAGATCCTGAATAAAGATACGTTATACTATCTTGGTGTACTATATTTACAGAAGATGATATAACTGTATTCTCATGTAATACTTCAAATATTAACATGTCTTCTTTAAAACATTTTTTCATATTATGAAAATAGTTCAAACTTCTTCCCTTGAAATTATTGTTTTCAAATGTATTTTTATACAGTTTATAAAAATTTTCTAAATCATCAGTTTCTCTAAATATGAGATTATGCTTATTTCTAATTCTTCCTCTTTTTTTTGAAGGAATATTTTTTATAATATCTTCTTCTAAATTTATAATAGCTGTCTCTTTAGGTTGATATGATACAGAACTCTCTTTAAATTTTTCTAAGTATTTTATCCTTGTATCTGAATATTCTAAAGAAGGTTCTATTGTTAGAAGAAAAGCTCCTTCTTTTTTTGAGAATGAAATTATAAGGTCAAGTGCTTCTTTAAAATACTCTTCTTCTATTATTGGACCTCTTGGTATGTAATGAAGTTTAAATATATTAGTTTTCTTTTCTAAAAGTAGAGTATAGCCTATTAATTTATCATTAATATAAAAATGAATAAAAAAAGATTTCCAACCTTCTTCTTGTTTTAATAAAGCCCAATTTTCTGTTTCTAAAAAATTAGATTTAAATGTATTTTCCTCTATATGATCTAATACTTTATAATTCATATTAAAGAGTCTCCTGACATATCTTTTGGTTTCTTTATATCTAATATTTTGAGTATGGTTGGAGCTATATCTGCTAGCTTTCCATTTTTTAATACTGATATATTTTTATAATTATATATTATAAAAGGAACTTTACTTATTGTATGTGATTTATTAATAATACCTTTTTTATCTAGCATAATTTCTGCATTTCCATGATCTGCTGTTATTATAAGTATATTATCTTTCAAATCATCTAAAATTTCTTTTATTGCTTTATCTACATACTCTATACTCTCTATAGTTTTACTAAGAGATCCTGTATGACCTACCATATCTGGATTAGCAAAATTAGCTAATATAAAATTAAAATTTTCTATATTAGATATTATAGTTTTTGTTATATCAAAAACTCTCATTTGAGGTTTCTTATCATATGTAGATATTTTAAGTGAAGGTATTATATCTCTTTTCTCTCTCTTATATACAATATTTTCTCCACCATCAAAAAAATATGTTACATGTGCATATTTTTCAGTTTCGGCTATTCGTAGTTGAGATAAATTATTTTTTTCTAAAATACTACCTAGTGTATTTTCAACTTTTATTCTAGGATATATAAAATTTTGAATATCATTTGTATATTGTGTCATACAAAGAAGATTAACATTTGTATTGTTTAAAAATTTCAAAGATAATTCTCTTGCTCTATCTTCTCTAAAATTAAAAAAAATAACCAAATCCTCATCTTTAATAGGAGGTGTATTCTTTATATAAAAAGGCTCAATAAATTCATCTGTTATATCTTTTTTATAAGACATCTCTATTGCCTCAAAAACATTTTTAACCTCACTACCTTTATGAGTATATAAAAGTTCAAATGCTTTATTAATTCTTTTCTCTCTGTTATCTCTATCCATAGCATAAAATCTCCCTATGATTGAGGATATAATAACTTTATCTTTATATTTACCTAATCTTTTTATATATTCTTCAACACTCTTATATCCAGAATCTCTTCCATCTGAGAATATATCTAAATATATTTTTTCTCTATCAATACTTTCTATTAAAGATTCTATAATTTCCATATTAGAGTGAACTTGACCATCAGATACAAGCCCCATTAAATGTATCTCTCCTTTTGTTTTTGATACTTCTTCCTTTATTTTTCTATTTGTAAAGAAAGTTTTGTTTAATATATCCTTATGTATTAGGTAAGAGTATTGGTCTACTATTCTTCCTGCTCCAATATTTAAATGACCAACTTCACTGTTTCCAGCACTGTTAGGAAGTAATCCAACACTTTCTCCACTAGCTTCAAGAGTCGATACAAAAGAATTTTTATATAAATAGTTTATAGTTGGAGTAGAAGCTTGTAGTATAGCATTCCCATATTTTTCTTTTGATATACCAAAACCATCCAGAATTAGAAGTATTATATTTCTTTTCATTACCTTTATTATCTCAATAGTTTTAAGGTATGTAAATAGCTTTTATGAAAGTATGTCTTTTTCTATATTTAAAGTTTGTGCTTTTAACTCAGATAAGTTATCTTTTGTTGTATTAATTATATTGACACCTCTTCTTATAAGATATTTGAGAAAATCACTGTCTTTTACAATATCTTCTGCATATATAGAATTAACAATCTTATATGAATTTGAAGCATTCAGAATTGTATCTATAGCTTTTTGCATTGCAGGATGATAATTGATATTTTCTTTCTTTAATTTAGGATTTTGAAAATCTATACTCAGTATCATTTGAGCTAGTTTTTCATAATTTATATTTATACCATCTATTCCTACTTCTAAAAATTCATTTATCATTATTACATTAGAAGGAATCTCTATATCTATAAAGATTTTAAATGTAGATGAACGTCTAAGATTAGAAGAAAGTATAATTTTTTTCATTTCAATTAACTCTTCTGTTGTCCTTATAAATGGAATCATTATCCATAAATTTTTATATCCATACTTATTTCTTACACTTTTTACGATTTCTAACTCCATATTAAGAATTTCTATTTCCTTTATACTTCTTAATGTACCTCTATATCCTATATGAGGATTTGTTTCCTGAACTTCAAACTGTACACCACCTTGTAGGTCAAACATCTCGTTTGATGTTAGATTTGAAATTGTATATATTACATGTCTGTCATTTCCAATTGAATCACATAATTTAGACAGTTTTTTAGCTATTTGATCTATATACTCATTACTTTTCTCTTGAGAAAATATCTGCTTTGGATGTACTTTTAAATCTAATATCAAATCTTCTGCTGATATATATACACCATCAAAATCACTCTCAGATATATCTTCATAAAGATTTATATCAGATATATTAGTATAAAATTTTGTTGCAGTATGTATTTTTCTTGTTTCTTTAAATAATTTTTTAGATATATCTATCTCTTCTTCTCTTTTTCTCTTTGTTTCATATAATCTTCCTGTTGAACCATCAAGTATTGCATAAGTATTATTCTCTAGAGTCTTAGTTCCTATCTGCGTAGATATTATTGTAGGTATTCCAAATTCTCTTACTATCTCTGTTTCTCTAGAATTTATATCTCCTACATCAATAACTAATGCTTTTACATTTTTTAAGACCTCTTTCCATTCCTCAGTAAGAGATTCTATAACTAAAATGTCATACATTTTATTATGATCTACTTCATTAATATTTTTTAATACAGAAATCTCTCCTTCTATTATTCCTGGAAATATAGGTATTCCTGTTATTAAAAGGTTTGTATTATTCTTTCTTGCAGATGTATTGGTATTTAAAACAGGAGGTGTTTCTACTTGAGGAACTTCTGGTACTATATTTTCTATAACCTTTATCTCTTCTTTTTCAGGTACAACTTCTTTTATAACCTCAGGTATAATCTCTGGTACACTTTCTTTAGTTTCAGGAATTAGATTTATTTCTTTTGTCTTCTTAATTTCTTTATCTTCTTTTGCGAAGGCTTCTTCTATATGAGAAGCTTCCTTACTTTCAATTTGTTTTTCTATATTTTTTATTGAATCTGATTTTATAATCCAAATTTTACCTTTTTCTACAATCCATTCAATTTCTTGTAAGAATTGAGTTTGATCCTCTATACCTCTGGCATATCTAGATATCATTATAAGTGTTTTATCATCAATTTTTTGTTTTTCTTGCCATTTTAATGCAACTTTTGTTTTTATATTTGTATCTTTAACACTTTTTCCTTTTGTATTTCTAATAAACATGTACTCTTGTCTAGATATAGATTTTTCTTTAAATTTCAAAGTTTCTTTATCTATATGATATGAATCAGGTTTAATTTCTCCATTTTTTATTATATCAATAACACCTAGTGTTGCTTGTATAGATATCTCTGTGTTATCTTCAGTTAGAGGAGAGTATGTGAATGTTATTCCAGAAGCTTCAGCTTGTACCATTTTTTGTATTATTACTGCAGAAGAACAATCTGTAATATCTATTTCATTATCAATTCTATATTTTATGTTTTCATACTCATACAAACTTGCCCAACAAGCTTTTATTGCTAAAATCAATTCTGATACACCTCTTATATTTAGAAATGTTGTTTGATTAACATTAGCATCCTTTCCATCAAATATATAAGAAGCTCTTACAGATACATATGTATCTGAAAAACCTGATAATTTTGAATATGTTCTGGAAATATCTTTTTCTACGTAAGGAGGAATGATAGTTTTCATTATTAAATCTTCAATTTCAGAAGATACATTTTTTAAAGCTATCTCATCATTCTTGTCTATAGTGTAGAATTTGCTTTTTATAAGTTCATCCAAATTAGACATATTTAAAAAGAACCTATATGAATCAGCAGATACTACAAAACCTGGAGGTGTAGGTATAGATAAATTAAATAATCTTCCTATACTTATAGCTTTCTCTCCAAGATTAGCTCTAAAATTTTCATTTATTTCATTAAATTGGAATATGGTTTTTATATTATTCATTAATTTTTTATGTCTAAGATACTTCCATTTTATGTATATTAAAAATCCTTGTCAAGTGACCTATATAATTGATAAAAAAGAATTAAAATGCTAGTTTTAAGCCATTCTTACTTTTTTCTTTTAAGCCTAAAGAATAAATCTACAATTATTATTGAAAAAATGAAGAGGATAAATATTATAATCCAAGGAATAATTCCTGAAACAAAGAATGGTTTGAACTGTATAACAGTCGATCCCTCTTTAGAAATATTATCGTTTTGGTAGTTTGATAATTGTGCTTTAATATTTATTATTTCACTATATGATTGTGTAAGACTTTTTGATTGAATTGGTATTTTTACACTTTGTGAAGTGTATGGGAATATTGCAATATTCTTAATACTAAAAGTAGAGATTATTTTATTATTTTTAGAAAGAATCTCTATATTCCCTCCTCTTAATACTTGATTACCTGTATTTTGTATTGTTATATCTATATAATTTTTAAACCCAGAAACTAAATTATTAAAATTTGGTATTTTTAGTATAAAATTAGGATTCTGTACAAATTTATTTGTTGTTGCCTCTATATTAATATTGTTTTGAGGATTTTTCTCTTTTACAAAAGAAAGTATTAATGGAGGATTTTCAGAATTTATTCCATATCTTACTAAAGCAAAATGACTAGAACCCACATTCCCAAAAAAATTAAGATTTCCAGAAGTTGATTGCCAAGTAGGATCTGAATTTACCCATCCAAATCTATTGGAATAGAATTGTACCCATGCATGAAGTATATCTGGAGGTAGTGGGTTTACATTAATATCAGGAGGATCTCCATATCCTGCAATCATCCTTGCAGGTAGTCCTGCAGATCTTGCAAGCGTTACAAATACATCTACATATTCCTGACAAATAGCATTATTCTTCTCTTCTAATGCTTTTATAGCTCCTAGTCTTTGTCTATTAGGATCTAATATAGCTTTCTGATTATATGTTAAATGAGTTGCTACATAATTTTCTATACTTAAAGCTTTAGAAAGATTTGTACTATCTCCTTTTGTAATCTTCATAGCTAAATTGTGAATAAAAGGATTTAAAACTTGCCAGTATGGTTGTTGAGAGGTATATATTTTATATTCACTCGGAGTTAATGCTTTTTGAGTTATAGGGGTTGAAGAAAGTATATTGTAAGTTGAAAAAACTTTTGATTCCCCTCTGATACTAACATTAATATTTTCTTTAGGTGATAGAGTATAGGATAAAATATAATTTCCATCCTTATCAATAAAACTGCTAGTTGGAGTAGGGGATATTTGAGAAAAAGTTACTACTTGATTTTTAAAATCTGCAGGAATTACAATTTGATATTTTTGAGAGAATAGGGAGTTGTAGTTAATCAATTGATAATGAAATTTAAAAGAAAAAAGTTGATAATTTCCCATAACTAATAATATACCCTGAGTAGTATATGAATCAGTACTAGAGTAATATACTCTATTGTAGTTTTGACCTGAAACTATAGTAGGATTATTGGGTGATGAAAAATTTATATTTCCAAAACTTTTCGGAATATCAACTTCTGTTTTTACAGAATGTATTAAAGATTTTTGTGGAAATCCTGGAATTGCTATATTCAAAAGCTTTCCTTGAATTTTTGATATCTGAGAAGTATTAAAAGTGATTGTCCAATTATCTCCTGTTCCATAACCATATTGCGATTGTGGAAGTGTAGTTATTATAACAGTAGAATTTGCATTTTTTACTGTATTAAAAGGAAGACTAGATCCATTACTATCTGTTACCGTAACATTAGTTATATCTGTATTAGTTAATGATAGAGAGTAAGAAGATGCATATATATTCTGAGTTAGATTAGATATATTTATATTATAAGATACAGTTGCAGTGCCATCTTTTGCAATTTTATACAAAATGTTATAATCTACACTAAAAGGAGAGCTAGAAGCGAATACTCCTTGAGGATAAATGATAAATACTAAAAAAAGTATAACCAGTATGATTTTTATTTTTATTCTCTTCATTTTTTTAATATTAACTTATATATGAAACCTTATCAACTAGATATATTACTCTCTATAATATCAGCTATTTTAATTATAGTGATAATTCTTCAAACAAATGGTACTTCTCTTTCTGCAACTTTTGGAGGAGGTGGAGGAGGTGAGAGTTTTAGGTCAAGAAGAGGTCTTCAAAAATTCTTGCTGTATTTTACAATTATCGCTGCAATTATTTTTGTTACAGCAGTAATTCTTTCATTAATCCTTGCAAAAGGTAAGTAAGATGCTAAGTTTAAAGAGTGCTTTAAATTTTAGAGAATTTATGTGGGATTATCCTAGTTATATAAAAAGGAAATCTCCTGCCTCATATATAATACTTTCCCTCATAATCATTATTGTACTTTTCTTTATCCTCTTTAAAAACGGATTCTATTCTTTGAAATTATCTGCATCACAAAGCTATATAGAAGGTGTTGTCGCTAATACAACTTACTATAACCCATATTCAAAAAATAATAATCAAACCTTTATTAAAGATGTAAATAGATTAATGTTCTCAAGATTAATTTATGAAAAATCTAATGGGAGTATAGAAAATATTGTAGCAAAATCTATTAAAGAAGAAGATAATTATACAAAATATGTAATATCTCTGCATAAACATTTTTATTTTTCTAATGGAGTAAATATAACAGCTAAAGATATTGTCTATTCTTTTAATTTTGAAAAAGAATACTTTCCTTCGTCAATGCTTTCAAATATATCTATATATAGGATATCTAAATACAAAGTAGAATTTTTATTAAAAAGATTGGATGTTACCTTTTATCAGGATATAAACTTTTTTATAGTACCATTTGGTAGTAACTATATTCTAAATACTCAAAATATAATAAGCTCTGGTGAATATAAAATGGATTATCTTACTAATAACAAAATAGTACTTACTGAAAATAAATATTACTTCTATGGTAAACCTCATTTTAAATATTTTGTAATTCAAATATTCAATAACTATAAAGAGATAATAAAAAATCTTAAAAGAGATCAAATAGATGGAGCATATATTGGAGGTAAATATCATAATATATATTCTTACCATAATCTAAATGTATATACTTATCCACTAGTTACAAATTATGTTGCTCTATTTTTTAATCTTAATAAAGTAACTTCTATAACACTGAGGAATGCACTCTCTTACTCTCTTTCTCCTAGATATATATCAACGAATATAATGAGAGGTACAGTAAGTCCTATGTATACATCTATTCCTTCAACATCTTGGGCATTTGATCCTAAAACTACAACATTTAATTTTAATCAAAAAAAAGCAGCAGATTTACTCTCTGGAAATCAATATAACTTAAAAATATACTATATCAATACAATACCTCAATCTTTAGTAAATTATATAAAACAAAATTGGTCAAATATAGGAGTAAATGCAATATTTGTGCCAGAAAATACAATAAATATTGATAGTATAATAAAATCAAAAAATTATGATGGAATTCTAACATCTGTAAATACAAGTATTGATCCCAATATGTTTTCTTTATGGTATTCTAAAAGTAATCAAAATATCTCTCAGCTTAATAATAGCGAAATTGATAGACTACTTTTAGTAGGTGTATCTACCCTTAATATAAATGACAGAAAAGAAACGTATTCTCTAATAGCACAAAGTATACAAAATATTAATCCTGCAATATTTTTATACAGTAATAATTTTGTATATGTAGCTAACAAAACTATTAAAAATTTAAACTTCAATTTTGTTTCTTATCCTTATGATAGGTTTTTATATTCTTATAAATGGTACAATTAGCTAGAATGGTGAAATGGTAGACACGCAATGTTCAGAACATTGTATCTTATTATAGATGTGGAGGTTCGAATCCTCTTTCTAGCATTTGCAAAAATCCTCATTACACAATATAATATCATACGATGTCTTACATAAATTGGGCAGGTGGTGGAATGGTAGACACGCAACCTTGAGGTGGTTGTGCCTAATTTATTGGTGTGGAGGTTCAACTCCTCTTCTGCCCATTCTAAAAAAAATAAGACCTTTATATATAAAAAAGGGCAGTTAGCTCAGCTGGTAGAGCGCTACGTTTACACCGTAGATGTCACAGGTCCGATCCCTGTACTGCCCATTGTAATATGCCACGGTAGCTCAGTTGGTAGAGCAGAGGCCTGAAGAGCCTTGTGTCGTGGGTTCGACCCCCACTTGTGGCAAGTTTTATGCGGAAGTAGCTCAGTTGATAGAGCATATCCTTGCCAAGGATAAGGTCGCGGGTTTGAATCCCGTTTTCCGCTCCATTTCAATATATTGGGATGTGGTGAAATGGCATCACGCCAGGTTTTGGTCCTGAAGTTTGGGGTTCGAGTCCCTGCATCCCAGATAGCTGTCCACGACCCTGTATAAAGACCTTGTTTAGACTGATACAATCAGCTAAATCTGGTGTTCCAGAAATCAATTCTTGATAGGTTGGAGCATGGTTGAAAATAGCACTAAAATAGGTAGCTCTATCTATAGGATTATCGCTTTGTAGCAGTAAATTATCAAGGTGTTCCAGAAAGTATTTTATGTACTCCATAACCTTGACCATATTTACTGGTTCTTTTGTCTCTTTTTCCTTTTTGACCATTAACTTTTCAATTTCATTCTCGTTCTCTATTAAATCAGCCTCTAGATATTTTATAGCAACTTCAGATTGAAGGTATTTGATCTTATCTACAGTTGCCTTTGATTGCATTTTAAGTTCACTGATTCTTTGATCAATGTTTACTTTATCCTTGTTGATCTCATTACTTCTTTTATCCCATTCCTCTAATACTACTTTTTGAAGTGCGTCAATATATTCTTGTGATAGATTTATGTTTTTTATAAACTTTGATATTGTAGCATCAAAATCTTTTTTGGGAACTCTAAAATAGTGACCTCTCTTATTACAATGATAAGCAGGATAATATTTACCTAGTTTGCCACGAGATGCACTCCCATACAGTGGTTTCATACAATGAGGACACAAAACATATTTTTTATATGGAAATTCAGAGTTTTTGACTCCTTTTTGAACTAGATAATCTTTTGGTTCTCTTTTGTATACTTTTATCTCACCATTATCTTCTCTTATTGTGATTTTTCCTTTATTTGCTTTATTAAAGATATCAAATGAAACTAATCCCGCATATCTGCCTTTTATAGGGAAACCTTTATTCCAACTTCCTACATGTATACCTGCATAGATAGGATTTTCTATAAATCTCCATAATGCTTTCAACGTAAGTTTGTTTCCTCCTTTTTGTCCTATAATCTGAGTTCTGTTTTTCGGATTTCTTTTAAGTTCAATTCTTGTTTTGAATCCCATGGAATTTATGGTATCTACAATTTGATGGTCATCTAATGTGCCTCTTGCTCTTAACTCAAACATTTTAATTATCCATACAGATTCTGTTGGTTCTGGTTTTAACAGAACTCTTTTACCATTAGATGTTTCAACCTTTTCATTCATATATCCGAATGGGGCTCTGTGTACCCAATATCCCATCCTTATATACCTTATTTGAGCTCCAATCATTCTTGACATGATATCTCTCATCTCATCTTTTGCTCTTTCTGCCTCAAGCATCTCTGCTTTTTTAGTAGGGGAGTAGACACTCCAGTTATATGATACTCCAAGATGTTCTAGAGTATTTACATCATGAGTTCCTATAACACCATAAATATCAATAAGTTTTACTCCTTTTTGGTCTAATTGCATTTTAAGACCATCATAAAAATATGATCCACCTCTAGTGAATCTGTCTATGGATTTAATGATAAAAAGTTGAATATTATTCTTAGGATTCTTACAATAATCAATTGCTTCTTGTACTGGTTGTTTTTCTTTAGATCCAGATTCTAGAAAAACAAATATCTTCCTTATATTGATATTATGAGTTTCAGCAAATCTTTCTATTTGTTCTCTTTGAGCTTCAGGAGAATCTCCGTCAGTTCCTTGTTTTACAGATGATACTCTAATTGCAGCTACAGCGTTTTCCATTCTTATATTGTCCATATCTATTTTAAATTTAAGTTCTTAAATAAAATGCTATCTGTATTCTGGTCCTCTATGATTCTATATACTATGATATTTGCTAGAAATCTGATTCTTTCCTCTGTTGATAAATTTGATGTGATAGGACGATCGTTTGAACTTGATTTTTTGTTTTTACTGCCCTTTAATCTTGCCATATTCTTATACCTTATTAACTAATATATTATCCCTATAAGGATAATATATAACTATATGAAAGTAATGTCAATAGTTTGAAATAGTAGGTGCAAAATAGCTTTGTAAAGGGATAAATTAGAGTATGCTTAATTAGAAAATTGATGCTTAATTTGTATTATTAACAAGTATTTGTTAAATATTGATAATTTCAAATTTTATAGGGTTATTTTTGTCTCTTTTATCTTTAGGTATTTCCCTTAAATCAAAATTTAAAGGATAATAACTTTTAATAAGGATTATCCATATATCTTCTATGGACTTCCATACATGATCAAAGACTAACTCTACGTTTTTTATTGTGTAAAAATGTTGGTATTGAAGAGATTTATCTGTTTTTAAGTGATCTAAAAAATTATTCCTGAAATCAGATAATTCGTTCTGCCAGGTAATCCTTTTTTCCTCAATAAGATCTAGGAATTTATCATCTACATTATTATTTTTTATGAAAATTAAACCATCCTTTCTGAAATCTTTATCATTTTTAAACATGAATCCTATATCGTAATCTAGATTTTTTATAAATAACAAAGATCTATCCTTATATGCCCTCCATAAAGATTCATAAATATTATTGTATTCATTTTCAATATTGAGTTGGGGTAAATTTTTCGATTTATTTTTTAATGTATCTAAACTCAAATATGCTTTGCCTAGTTCTTTTATGACTTCAAATTTTATATTATTCAGTTTCTCTTTTTTTATCTCTGCATTTTTTATATCATCAGATGATGGTCGTGTTCTAAATAAAAAAATCGGTTCTAATATATAGTTTATATCATTTATTCTTGCAAACCATGGTGAAGAAGTCCCAAAGTCTGCATATTTTTGAATCTTCATTCTCATCTTGTCTTTATCGCTTCCACTTTGAATTTAATTCTTGTTACAGTGCTATTTTCATTACTATGATCTTTATCACTTTTTATTCCAGCTTTCAACCCCATAGATAAGACACTAATTTGTGCTCCTATATTTTTATCTTTGGAGTTATTGTCAGTTTCTTTTACTATGACTGCAATATCAAATTCTATATTATATCCTTCACTAGAATCTTGTAATCTTACCATGTAAGAACTATTGGGTGTATTGTTTGATGCTACTACTCCACTTGTTATATCAACAATAGATTTTTTTATAAATGTTTTTAAGTCCATGTTTTAGTTCAATAAATTTATTAGTTAAGTTACAGTTTAGTGTTTTTATTATTTGGATAATAAAAAAATTCTTTTCTTATAAGCAATATAAATATTTATTAGATCTGTTTTATCTCTACTATCCAAAATTGCATTGAAAATACTAAGCTTTTTTGGAGGAGAAATATTTATATAATCATGATCATCTTTTATTTTATAATTTATTATTGAATAATATCTTTTTCCTCCAATATTTTTAAATGTTACTAAAAATTTTGAATCAGATTCTTTTAATATTCCTGATACAAAATCTTGAAGACTAACTTGCTTCTTATCATTAATAATTTCATACGCTTTAACATCTAAAAGTGATTTTTGTCCTATATCAAGCATGTTGTTATCTTTCAATATTAATTCTAAATGAAAAGATACATTTTCCTTTTCAAATCTCATCATTTGTTCTTGTATTTCAATATCAAAAGCGACGCCACTCCCTATATTCTTTACATAACATAAGACTGAACTGTCTTGCTTCAAAAAAGATATTTTTATACAAGGCAAAACAGATATTTCGTATGATTTTCTAGTATAAATAAATGTTATATAGGACACTATTAATGCTAAAAAGGCTATAATGATTATCCACATGATTAAGTTAATTATACTATATATCTTTATTCAAAACTAATAATATGTTAACATCATATAAACACTTGATTGATATCAATATATGGATTTAAGTATTATAGGAAAAAATATTAAAAAAATACGATTAGAACAAAGTTTAACTCAAGAAGATTTGGCTAAAAGTTCTACTGTTCCATTTACAACTATTACCAAACTTGAGAATGGAGTTATTAAAAACCCAAGTATTGAAAAATTATTAAAAATATCAGGAGCTTTAAAAATACCAATTGACAGTTTATTAAAAGGAGTTAATAATAAATAAGAATATGAAAATAGTTAAAATTATTGATAACAATAGAGTTTTACTTTTAGATACAATCAAAAATATTTCTTCTGAGTATGATGAACTGTCGATAGCTACTGGTTATTGGGATCTTCAAAGTATTGATATGCTTTTAGAGCAAATAAAAGGTTATAAAAAAATCCGTTTATTAATAGGAAGAGAACCTTTAATTCCACGTCATCAATTAAATGATCCTGAACCAGATTATCCAGAAAGAGATATATTCAAAGATTTGGAAGCTCTCACTCCGAATGAAAAATTAAAAGAAACAATTATCTCAATAAAAGATCTTATCTCAAAAGGAGTTCTTGAGGTGAGGGTATATAAAAAGTCATTTCTACATGCAAAGTGTTATATATTTGGTAATTTTGAATCTTCTAATGCGATTGGAATTATAGGATCATCTAATTTTACAGGAAATGGTCTTACAAAGAATACTGAGCTTAATGCACTTGAAAATGATTCAAGAATAGTAACCTATGAACCTAAAAATGATAACCAAGAGGTTGGACATTTATATTGGTTTGATGAATTTTGGAATGAGTCAGAAGAATGGAATCATCATTTTACGGAAATTCTTGAGTACTCTCCTGTTGGAGATATGTTATTTAGTCCATATGAGATGTATATAAAAACATTGTATGAGTTATATAAAGAAGAGTTAGAAGAAGTAGAATTAGTAGAAACTAGTCATTCAAGACACGAATTAATGGAATTTCAAAAAAGGAATGTTCAGCAACTTATACGCAAACTTAATAAATTTAAAACTGCAATGCTTTCTGATTCAGTAGGATTAGGAAAAACTATAACTGCGATTGGAGTAATTAAACAATATATTGATAGTAAAGAAGGAAGAAAAAGAGTAGCAATTATATGTCCAAAATCTTTAACTGATCAATGGGAAAGTGAACTTACTGGTCAGGGACTAACTAATGTAACGCCAATAACCTTACAAAATAGTGAAGCAATACAAAAGGAAAGAAATTTAGATAATATTGCTTCAGTCTCATTATTCGTTATTGATGAATCTCATAACTTGAGAAAATCTAATGGAAAGAGATATGAACAACTTTTGGATTGGATAAAAAATAATAAACAAGCACATGTTTTACTCCTAACAGCTACTCCTATAAATAATGAACTTAAGGATCTTACTAATCAAATTCTATTAGGAACGAGAGGAAGAGGAGATATCATACAAATTACTATAAGAGATAGTAAATCTGGTCAAACATCACAAGTAGATTTTGTTCAAGCAATTGAGAATTTACAAAGAAAAATTACTAGACAAAGTAAACAGGAAGAAGAAATTGATTATGAGAATATAAAACAAGTAATGGCTCCTATTATTAGGAGCGTAGTTGTAAGGAGAACTAGACAAGGTATAGAAAAAGAATATGGACACTTAACTATAGATGAGGAAAAGAAAAGTTTTCCTAAAGCAATACCTGAAAATTATCAATATAATTTTGAATCATCATTAAATAATAAGATACTTAATCTTGATGCAAAAGTATCTTTTGATGTAGAAAAACTTTATCAATATGATCCTCAAGAGATTGTTGATAAATGTACAGATTTAAAACATCCATTAGATCAGCTAGATAAGCTTACTGAAGATTCTACTAAAATTAAAACTTTATTAAATGAATCTCCCATTTATTTCATTTTTCAACTTATTTTAATGCTAGGATTTATCCCATATAGATGGAGATTATATCAAAGGAAATATTACGGTAAAACAGTTGAAGAAATCAAAGCTTTGAAATTAACTGGAGACGAAAGTAGGGATTTACAGCAACAAAGAGGGATATATGGAATTTTCAGGACAATGTATCTTAAGAGAATGGAGTCATCAGTTGAGGCAATATCAAAATCTTTGAGAAACTATAAGGAAAAATTAGAACAATTTAATGAAGCTTTAGAAAAACATCATGAGATAGTAGGAGTAAAAGATTTAGAAGTTTTAAAAGATGCTTTAAAGATGATAGATATAGATGAATCTCTTGATGATCCAAGTATAATAGGTGAAGAAAGTGATATGGTATTAGATAAAGTAAATAATACTAAATATAATCTAGAAGCATTCTCTAACGATATAAAAAAAGAATTTGAACTTATAGATATTATTCTAAAAGAGTTAAAACTTTTTAAAAATCCGGATTCAAAGTTAAATGCATTAATTGATCTTTTAAAAAAGCTTGATAAAGAAAAATTGGCTGGAGAAAAAGTTCTTATATTCTCATATTTTGCTGACACTATAAATTATTTGGAGAAAAATATATTCAAATTATCAAATGGACTTTTAAATGAAAGTAATACTGCTTTCGTTTCAACAAAAAACAGGAATGATTCGGAGATTTTAGCTAAACGATTTTCTCCTATAGCAAAGGGTTATACTTTAAATAATGATGAAATTAGGTATTTATTTTCTACAGACATATTATCAGAAGGACAAAATTTACAAGATGCTGGGATAATTATTAATTATGACCTACATTGGAATCCAGTAAGAATGATCCAAAGAAATGGAAGAATTAATAGAATAGGATCTAACTATGAGAATGTATATATATATAATATGAGGCCTGAATTTAAGCTTGAACTATATCTTAAACTAGTAAAAAGATTAGAAAGTAAGATTGAGATGATAAGTAATACAATAGGAAGTGATCAATCTGTTTTAGGTGAAGTAGAAAATCCAATTGATTTTGTGGAGAGTATTAAAGATTTATATAGTGATGACGAGCAAAAAAGGATTCAAGCGTTAACGACTATTGAAGAAAAGAGTGACTTACTTATGGCAGAAGATGATTTTATATTAGATCTTAAATCATTTGAAAAGAGTGATCATTTTCCAATAGAATATAAAAAGTCAATTTATGATATTCCACTTGGAAAGTGGGGAGTAATACCTTCTTATAAAACAAACTATTTTCCTGTAATGGTGTTAAGTCATCTTTTGAAAGATGATACATATTTATATCCTCAATTTATTGGGATGGACAAAGATAGTGCTAATATACATTTGATTCCTTATTTAGAAGCATTAAATATATTGAAAACAGAAGTGACAGATAATGAAAGATTTAAAGATAATATATCTGTAAAGAAAGAGTCTATTGTTAATAAAGCAAGTGATATAGAAGCATATACTTTTACACCAGCTGAAGAGAGTGCAAAAGGTTTGAATATAAAATTACTTAGATTGATGAGTGAATTAAATTATGATATTGAGGATATTGAAATAGTTGATGAGGCGCTTAATACAAAAAATTACCATGAAAAAAGAAATATTATAAAATTAGTAAGAAAGATTTCAAGATCACAAAAAGAAAACAAACCGTACTATGATGATTTGACAAAACTTATAATTATAGCCAGAGATATTAAAGATAATAAAGAAGAACCTATTTTACCAAATAATGTAAAACAAATATTATACTATGTCAGTTCAAACAAATAACAAAAATTCAACACATTTTGATAGAATAAATGAAGCACTTAAATTTGCAAATGAAAATCATTCTTTTGATTCAGCAGTTGAAATAGCAAAAGAGATAGTTTCTATTTTTGGTATTACTGATATTTCAAAAACATTATTATATTTTCCTAGTTTATCTAAAGAAACAAGAAATATAAGTTGGACACTGAATGCTCCAGGATATTCAGATAGAAAAGCAACATATGTTCTAGCTCAAGATAATGATAGAAATATTGAGTTCAATCTTTTTTGGGTATCCAAAGTCAATAAAAATAATATTTTAAAAATTACTGCATTAACAAAGAATTTTGAAGATGAAAAATTTAATAAGAATAGACCTATTGGGATAGATTTTATAATTCCAGAAGAAGCTGATAAATTGATAATTGTTTTAAGTAAAGAATATAAGATACGTACTTTAGAGCTTAGTCAAAAACTAAATCATACACAAAAAGAGATTTTTAATAATTGGTTTCAAGATTTTGATTACTCAAATAAAGGTAATATTCATGAAATTCTTTGGAAAAGTTTTGATATACATCCTCTAAATGAACAATTCTATAGAGAAATCTCTTCTTTCTTTAACGAACTTGTCACTCATCTTAAAAATCAGAATGTTTTGGATGAAAAACATAGGGTACAATTTACAAGTAGGCTGATTGGTAGGATAATGTTTTGTTGGTTTTTAAATAAAAAAGAATTTATAAATAAAGAATTCAAATACTTTGAATTAGAACAATTAGATTCAACACAATATTATAGAGAAAAATTAGAGAAATTGTTTTTTGAGGTTCTAAATACTTCTATCGATGATAGAAGTGCGCTTAAAGAGTTAGATCCTGATTGTAAAGATCTTGTGACTCCTTATTTGAATGGAGGATTATTTGAAGTAAAAGAAACTGATTTATATAAAAAGAATTTATTAAACTTTCCTACTGACTATTTTAATAGGTTTTATGAATTTTTAAATAAATATAATTTTACTACAGATGAAAGTACAAGTGATTTTCAACAAGTTGCCGTAGATCCTGAAATGTTGGGAAGGATATTTGAGAATTTACTTGCTGAAGAAACTGAAGCAACTGGTGAACAAGCAAGAAAAGCAAAAGGAGCTTTTTATACCCCAAGAGAAATAGTTGGTTATATGTGTAAAGAAAGTTTAAAGGAATTTCTTTCAAGAAAGATTAATGATAATCTTAATAAAGAAAAAATAATTAATCTACTTTTAGAAAAAAAAGAACACGAATTTGACTACAAAAATGATAAAGTGGAGTTAGTTGAATATAAATCTGAACTAATAGATGCTTTAGATAATCTGAAAATTATAGATCCAGCATGTGGATCAGGCGCATTTCCAATAGGGATGCTACAACTTCTTATTCAATGTTATGAGAGAATAGAACCTCGATTTGATCCTTATAAAACTAAATTATCAATTATTAAAAATAATTTATATGGAGTTGATATAGAGCCTATGGCTGTTGAAATATCAAGGCTTAGAGTATGGCTTTCTATTATTGTTGATGAGACACTAAATATTAATAACAAGAATTCTGGAATAGAGCCACTTCCAAACCTAGATTTTAAATTTATATGTGCAAATTCATTAATTCCACTTAATCAAAGTGGAGAGAGAACTCTATTTAATAATGGGGAACTGGATATTAATATACAAGAAATTAGAAATCAATATTTTAATACAAGTAGTTTTAAAATTAAAAATAAACTTAAAGAAAAGTTTGAAGATCTCATACAAAAAAATTCCAATTTGTTTTCTGGATTCTTATCTAATAAAGATGAGCAACTAATAACATATAATCCATTTAAAGCGGATAACCTAACACAATTTTTTGATAGTAATTTTATGTTTGGAGTTAATGGATTTGATATAGTAATTGGGAATCCTCCTTATTTAAGAATTCAAGGTATACAAAAAGTAAATTCTGAACTAGCTAAAAAATATAAATCTCTTTTTAGATCAGCTACTGGATCATATGATCTATATGTTCTCTTCCTTGAAAGGGGACTAAATATCCTTAGTGAAGATGGTATCTTAAATTACATATTACCACACAAATGGGTTAACTCATCTTTTGGAGAAGGTATTAGAAGCATTATATCTAAAAATAAAAGTGGAAATAAAATGATTTCTTTCGGTGCGAATCAAGTCTTTAGTGCTACAAATTATACATCCCTTTTATGGTTAACCAAAAATGAGAACTTTTTTTTAAAATTTTATAAATTTAATCAAGAATTCAAAGATAATCATCAACTTGAGAAATCATTAAAAAATTTAAAAAATGAAGAATTTAATAATTTAGATTTTAATAACCTAAAAAATACTCCGTGGATATTAACAGATAAAGATAATGGTAGAGTGATAGCAAAAATTATGCAACAACCTTTAAGAGTAAAAGATATTTTTGATAAAATATTCCAAGGTATTGCAACAAGTAAAGATTCTGTATATTTTTTGGAGAATTGTATAATCAAAGGTAATAATATAGAAGGATTTTCATCACAATTAAAAAAAACTGTTACTATTGAGAAGGGATTAGTAAAACCGTTATTAAAGGGCAAGCAAATCCATAGATATTCAATGTTGGGTACAAATAACTATGTAATATTCCCTTATCATATTCATAATGATCAATTTTTAAATGGACAAGTTATGAAACCTGATTATATTCAACATAATTACTCAAATGGGTGGAAATATTTATCAGATTGTCAAGAAATAATAAAAGAAAGAGAACAAGGGAAATTGAGGAGTATAAATGAGTGGTATAAATATATATACCCTAAGAATATTACTGAATTTGAACAATCTAAAATCATTACACCAGAGATATCTCTAGGTCCTAACATGACTTACGATATAAAAGGACAATTCTATCATAATACTCAATGTTATAGCTTTGTTAAAAAATCTTCCATTTTAGAGAATTACAAATTTTATTTAGGTATTCTCAATTCATCATTACTTTGGTTCTTCTTAAAAAACTCTGGGAATGTTTTAAGTGGTGGATATTTTAGATTTAAGACTAACTATCTTGAGCCATTTCCTATTCCTAAATTAGAAAATATTGATGAACAAAATCATATGGTTGAACTAGTGGAACAAATAATTCAACTTCATACAGAAACTATTACTAATAAGGAAAAAATTAAACTATTAGAAACTCAAATAAACAATGAGGTCTATAAGTTATATCGACTTAATCAAGATGAGATTACTATAATTGAAAATTTTAATGAAATGGCATAAAATCATTATTAATTATTCGTGATATAGTGAAACTAAGACCTGGTCGTACAAGGAGTATTTTAGAGAGTTCAATGGATTCAGTTCTTTTGGCTGTAGAAATTTATAATAAACCAAGAGTTGTTTTTCGACAGGAAAATTATATTTCCTTGATGGTAATTGGGTGGACTCAATTATTTCATTCATATTTTAATCAGACTATAGGAGATAAATTCTATTATAAAAATGATAATGGATTCTATAAAAAAATAGGAGGAGAAAAGAAAGCTTGGGAACTAAAAACTTGCATTAGTGAATACAAAAAAAATGCACAATTCCATTGTCAGAAGCTATTATTAAAAACCTCGATTTTTTTATAGGACTTCGGAACAAAATTGAACATCGATATTTAGCACAAAGTGAAATTGATAAAATGTTGTTTGGTGAATGCCAATCATTGTTATATAATTATGAAAATTTTTTAATTGATATTTTTGGAGAAAATTATTCTATAAACGAAAATCTTGCATTTTCTTTACAATTTTCTACATATAGAACTCCACAACAAGCAATAGCAAATAAGAATGTATTATCAAGAGAAATATTCAATATAAAGGATTATATTGAAAAATACAGAAACAATCTTCCTCAAGACATTTATGATTCTCAAGAATATAGTATAAAGCTAATTCAAATTCCTAAAATATCCAATACCAATAGATCTGATTTAGCAATAGAATTTATAAAATTAAACGAGTTGAATGATATAGATAAAGAAAAATTTAATAAACTAAATGCAATTATAAAAGATAAAATTGTTAAAGTTGAAGTATCAAATGCTGGAGGACTAAAGGCAGGAGGGGTAATAAACAAAGTAGCTGAAAATCTAGAAATAAAGTTTACGCATCACCTTCACAGATGTTTATATTTTATTTTTTCTATTAGACCAACATTTCTAGACAAAAATATTTCTCCATTTGATACAAATATTAAGTATTGTCATTATGATGAGCCACATAAAGATTACATATATAGTGAAAGTTGGACAAATTTTATTATAAATCTTTTCAAAAATTCAAAGTTATCTATTGATAACATTAAGATACTTTTTAAAAATAAAACTAAATTAGATATAAAGGATTATATTTGAATAATTTAAGCCTATTAGCATTTTTATTATAAATAAAATGACCTCCTCTTGCCTTAGGCAGATTCTACTCCTTTAAGACTAACCTGAGTATAAGTGATATAATATGTATATGAAATCTAACTATGCAAAACAATTAGGAAAAACATTTAAAGAAGCCAGATCAAAAATGAGACTAAAACAAATCGATGTGGCAGATAAGGCAGGAATCAATAGTAATTATTATGCTAAAGTTGAGAGAGGTGAAGTTAATGTTAGTATGGAATTAGGATCCAAAATAGCCAATGTATTAAAAATTAAACTTAACTAATATGATAAGAAATATTATATGGACGACTTCACTTATCTTTATCCTACAAAAAGAAATTTAAAGATTCTTATAGATCCATTAACAATATGGAAAGAAGCCAAATTAAATTCTAATAAACTAATACCTATAAATACAATAATAAATGCAATTCTATATCTGTTAGAAGAAACCCCTCATATTACTATTGAAATATTATATCCACAATATTTATGGGCAAAGGAAAGTAATCTTAATGAAAATTCTTTTTTACCTATAGATGGTTTTCATAGTAATAAAAAAAATAAATCTTTGAAAATTATTACTAAAGTTGAAAAATTTTCCTCTGAATATAAAAAACAAAGAGTTCACAATATGAAAACTTATTTGCAAAAAGTAAAAAATAAATATGTTAAAAACATAGATGTATCAAAACTAAAAACTGAAAAAGATATATATAAATTTATTAATGATAAAAATATAGAAAATGATTATGATGCAAAAAATTTATATGATCAAGGTATGGATTTAATTGATATATACTATGAATATGATGTAGATATAATTTTTACTACAAATAATGTATTAATATCAGAAAAGGAAATTCTGGAAAAATCTTTTCAATTTTTTCCAATTAGTAATTTTAATTCTCTTGAAGAGATTAATATTTTTCTAAAAGGTCATAATATCTATTATGACCTTAAAACTCAAAGATTTGTTACTCCAAGCCTTTATTATTCTATTACAGATCAAAATATGCAAGAATATATAAAGCTTTGGGCTAAATTAACAAAGAGTAATAAAAATGAAGAATTATATCAATACCTTAGAACTATGTTATTTAATAGGTACATCTTTATGATGTATTCTAAAGATCAATTCAACTTTAATATATTTCAGGAGAAAAGAGATTATAATTCTGATATAAAAAATAACAATATTCTGTTAGCATCATATCATTTGAACAATTTTTATTATATGTTTGCTGGATTTATAGATAATTTAGCTATAGTAATTGATATTTATTATAGTTTAGGGCTTTGGGGAACAAATCGATATAGAGAATCATCTTTTAAAAATAAAGATTATATAAAATTACTATCTAATAAAAACAAAGTATTGTCACAAAATATTAAAGAGATACAGTCATGGTTGAAGGAAATTTCATTAAAAAGAGATCCAGGGGCACATAGGCAATGTTTATTTTTTGGAGATATTGTTGATGAGAATCATAAATTAATAACAGATGAAAATATTATTACAATGGATAAAAATGGCAAAATTTACTATTTTAATGGAATAAAAACGATAGAATATGATTTAAATAAATTTTATGAATTTATGGATAAGATTTGCTCAAGTTTAAATGTAGAATAATTTAGTTTACTCCTTTTTCTTTTTTTAAATCATCTAATATTTTAATAAGTATTTCTGGATTATCATGTGAAAGAGTATGAAATGATTCTTGAAGATGTTCTAGTATAGCTATTGCCATCTCTGGAGTAGCATTATCTGGATCAGTAGTTTTCAAAAAGCGTATTACACTATCAATATCTTTTTCATTTATTTCATATTTTGTTTTGCTCATAAGGGTAGTATATAATAAATATAGTTAAATATCATCAATAGTCCTAATTATTAGAATAATAAGTAGTTCTAGTTAGGATGAGCACTTTCTATTTTAAAAGTTTCTCAAAGTATTCTTGCGATAATGAATATTTATTTTTTTTACCTAATACAAACAAATACTCATATCTATGTTCTCGAAAAACCAGAGGAATTTCACATGTAACAACTATACAAGTGATATCCTTATGATGTTGTATATATTCATCTAATATATTATGAGTTTTTTCCTTATTAATAAGATACCACTGATCAGTTGATAAAGTTATAATTTTCCCACAATTAGAAAAATCCTTTAACTGTTCATATTCATCACTTAACTTTTGTTTTAATTGTTTCAGTCTCACATTTTCTGATATTTCCGGATATTTTATCATGAACCTGCCAGCACTGTGAGTTTTATAAATATCTTGCTCTTTGTATCGATCCAAAGTATTGATTCCAGATTTTAGCTCGTATGAGAGTAGTGTTGCTTGTTTATCAAATGAGTTAATATCAAAATCTGGGTATTCAGTGTCTTTACTTAGGACCTTACTATTTATTGAATATATATTATTGTTTACATGTATATCAGTAGTTGATTTAAAGCAATTTCTAACATTATCTAATAGATTTTTAAAAACATCACTATTTTTTATTTCCTGTACAGTATTTGTATTGAAAATTATAGATATATATCTTTTGTCAGTGGGTATGCTTTTCCTTGCATTGCTTAGGTTATTAACTACCATAGCCATAGCATTATCAAAAGAATCATTTACCCTTGAAGCTTTAATGCAGGAAACCTCAAAAATATACTCATTCTTTAAAATATTACATTTAAAATCACCAACATGCCTTAAAGAGCTGGGCTCTTCTAATATGAGATTTCTTCCTGAGTTATTCATAACATTAAATGCAATCGCCAGTTGATACTTTGTATCTTTATATGAATTTGGTGCTTTTAACATTTGAATTATATGACTATAACTTTTATCTTTTCTAAAATGCTTTAGATACTTAGCAATAGTACATATTTCAAATAATCCGTTTGGAGTACTGTTACATGCTGCGACGATCAGTGGATGCACGTGGAAAATTGATGTAGTCTGTTTTTTATATTTTTCAATTTCATCTACAAACCAATCTTCTCCAAAAACATTTAGGAGGAAATTAATGTACGTTTTAGATTTATCGCTGCTAAGTTTTAATTTTCTTGAATTTTCTTCAATATATTTATAAATCAAATCCAAACTACCTGATTTTTCTGCAGTTATTATGAAGGAGTCGTGTATATTTTTTATTATGGCCATAAAGATTTAATTAGTTACATAATTATTATACCTTGCTAATCTTGTATATCAACTGAATTAGCAAAAACACTATCAATATCTTTTTCATTTATTTCATATTTTATTTTGCTCATAAGCGTAGTGTACAATAAATAAAGTTAAGTATCATCACTTTTAATTCTATTATTTTTCATCATGTCCAATTTATCTAGTGTTTCAAAGGTTAAAATGAGGTTTTTAAAAATGGGGTTCCACCTACGGGACAGCTTCCCAGGTTACTTTCTTGGCAAACTATTAGCATGATGAATCAAATTGATACTGGGATAATAAATCAACTATTTTCATATTTTTCCTCAGGTATATTTTTCTTCATTATTCTTTCTTTTAATATTCTTATATTAAAATATCAAACGTTTAATATATATTTTCTAGTAAATATTCTATCAAAAAATATTAGTTATACTAATTCTAATATTACTGTAGTTATAATAATTTATTTATTGCTATCAATCATTATAGGGAGAATTCTGATACAGGTCTTTAATTTTTTACAACTACTTCTTTGTAAAAATAAAAATAAAGAACATGTCTTTTTTAAATTATTGAAATATCCTGTTAGTAAATTAGAAATCAAGAAATATAACAGAAATATTAAAGATAATTATAGATTTATATTGAATTTTTCTAAATCTTCTATTATAGGTTTGAGTTTAATAATGATTTATAATCTATATTCATTAGCTAATAATTACAGTAATACTTTTCTATCAATATCAATTATTACATTATTAATATTATTATTAATTTTTAATATACAAGAAATTAGAATAATTAATAAGGGTTTGAAAGATAAGGATATTTCATAGGGATAATAAAAATGTATATTTATAAGATTTTTGAAAAATGGGAAGAGATAAAAAATGAAATAAATTCTTTAACTATAGATAGTTAAAAAACAATACTTATTAAAGGTAGATATCCTAATAATGATACATTTCCACGAAAATTTGTTATCCCCGATAAAGAAAAATATGAGAATTTTGTAAATGAATTAATATCTTTAAAATAAAATTTATGAATAAAATATTAAGAAATGATAAATGTCCATGTGGTAGTAATAAAAAATATAAAAATTGTCACTTAGATAAGTATACTTTCTATTTAAAAGTAGATATTGTAGGTCCATTTCTTCCCAAAAGCGGATCATTGATTGAAAATGGAGAATTTATATATACTTCTGTTGATTTAGAATCTTTAAAATGGAATACACTCCCTAGTATGCACGTAAATTCTACTAATAGTATCACCAATCAGTGTAGTATTTATTCAGAATTGAATATTAATATCAATAATCCTTCAGAAGTTATATTTATAAAAACTATTGACCAGCCATCTTTTCTCAACGCATATAATGAAATTTACAAAGAAATTGAAACTTTTTGTACTATTCTTTCTATAAGTATAACTGGGGGCGCTTATTTTTTTAATACAAAAGAAATTGCAATGGGAATACACCCAATAAATAATGTTTCTAAAGATTCTCTTCCTTCAGGAAAAATACATGTTATATCTTATCTCAAAGAACCTATGAAAGGTGAAGAAATTGAATTTAATAAACAGTTTGTGAATCTATATAAAAAAAATAATGATTTATCAAAATTACTATTTTTTTCTCAAAAGCTTTAGATTCAGAGTTAAAAGATTCTTTAAGTAGTGAAAAATCTATTATATATTATTATAAAATACTAGAATTTATTAGCGGAAAATTTATAAAGAAACCAAGTCTCCTTAAAAAAGATAAAAATAAAAAATATTGGAAGTGATAAATGCATTATATAGTGATTTAACTACTAGTAATGCAAAACAAAAAATAGGTATTCTTAGAAAGGCTTTTTCTGAAATGGAAAAAATTGATCGATCTAGCATTGGTGAAAATATATTAGATACAGGAGTTAAAATTTGCACTAAATTAAATATAGATAGTAATAAATTTAATGTTAAAATTAAAAAATTAATAGATTATAGAAATAAAACCATTATCCATCCTAGCGAAGAAAATCCCCAGTTTGCATATGAAGATAATAGAGATTTTCGTGAAATTTCCAAAATTTTCATAAAAGGTTATCTGAAAATATTTTATGAATTAGATATAAATTTAAAAGATGACCCTGTGAAAGAAGACAATAGTTATTATTATTCAGCATTTCATAATTCAACAATTAAATAAATTTAATTAAAAGGTTTCTAAAAGTTTGGCTATTGCAGAAGACAAGCAATTCTGAGCGTTCTCTAAAATAAAATTATTAATCTTCAAAATTTAAATATGACATTCCTAAATATAGGGTTATCTCATTAGAAAAATCTTTTACATCATCCCCTAATGACCTTTTTAAGATTGAAAGATGTTTTTCTCTTGAACCATTTACTAGAATTAAATTATGTAAAGTTTTGTCATTAATGTATTGATGATTTCTTCTTAATTCATCAATATTTAAATCTTGGAAATTTAATTCATCCATAGATGAATCTGAAAATATTGAATTAGGAGCCACTGATACTGTTAATCCAATATCAAAAGCCATTTTAATTATATCTGGAATTATTGGATATTGCATATTAGAATGTACTAACGTAATTCTTTCTTTTATATTAGAAAAAAGATTTGATAATGTATTAAATAAATCATCACATATATACTCATTATAAATATCAGTTTGTTTGCTTCCTACTAATATTAATTGGGTATATAACTGAATATTTCCCCACGGTTTAGAAAATTCTTTAAATAAAATATTACTAAGATCATCTCTAATATTTAAACCATAATTATAATCCACTATAGATTCTGTCTTAGATATAAATGGATATATAATATATTTCCCAATAGTTATTACCATGTTTTCTTTTAAAATATATTTTTTTATATTAGGATTACCTAAATTTACATATTGATACATACGCTTTTTTATTTTTTCTATTATTTTATTAGATATGTATAATTGGGGATAGTTTATGTTTTTAAAAAATATATTAGATATTTTAGGTAATTCTATATCTAGAAGAATGGAACCTATTAAAGAGTCAATTAACGAAATATGATTATAATTATTATTCGTAATTATCATTCCTTTTATTTTATTCTTTTTAGATATTAAATAATCTATATCTGGTGATGCAAAATCAATTCCATAAGTATAACCTTCTAAAGAACTATCTTTTCCTAGATTCAGTACAATAATTTCATCATTATTTTCTATAATTGTTGATACTATTCCAACACTACGTTCTCCTCCAAATATTGCTACAACAGGTATAATGATCAAATCTTTATATAAGTTATTCTTATTTAAAGATAAATATGAAATTTTATTATTAGTAAAAGAATTTATTATTATTACTATTAATTTCAAAAGTAGATTCAAGGCTAAAGAAAAAATAATACTTTCAAAAATATTATATGTGATTAAATAGATCACTACAGTAAAGACAAAAAATGTCCATAAATATGGATGATTATTCATACTTTTTGTAGTCCAATTTTCGCTATTCTTATTAGAAAAATTAGGGTTCTGATTATTTTTTTTCATTTTAAAAAAAATATGAAAGTATATTTTAGCTAAGTAATTAATAATTTTTGTATTTAGGTATGCTTATATATAATAATTTATGATATATTCACATTATATAACATAACATTAAATATTATAACTCTATGGTAAGACAATTGTTGATTAAAGATTTTAGGTCTAGAAGGAGAATATTAACAAAGAAAGATTATGCTTTAGAAGGTGATATTAACTATAATAAAAAAATAGATTTAATTGATAAGGAATTATGGGAGGATATAATAAATTTATCAGATACAGTATTAATAGAAACTACAAATATACACGGATCTAAGATAAAAATTCTAAATAATTTAAGTAATCAAATTTTACAGGATCATATATATAATTTTTTTAAAAAAGATTTTGAGAAATATTTATTACTTCTTATTCATGATAATTTTGAATCTTCAATTTTTAATGCTTTAAATGGATACTATAAAGAATCTCTGTCTTCTCTTAGAAATGGGTTAGAACTGATAATTCTTATTATAATAGATGATGAAGAATTTTATAATAATTGGATGAATTCAAAAGAAATGTCTTATGGCGGTAAATTAAATAATTCTAAAAATATTAAAAATATAGATGAAAAATTGAACAATATAGCAAGTACAAAATATTCATCATATATTAGAACTTATATGCATGAATTAAGTGGATATGTACATTCTTTAGAGAATAAATCTAATTATGATTTATGGGGAGGAAGTACTGGTCCTATATTTATTGAAGAGACATTTTTAGATTTCTATAAAAATTATATACAGGTAATATCTATTTTATATCTTGAAGTATTATTTAATATAAAAAATAATAAATCAAACAAGAAAGATGTAAATATATATAAGATAATTAGCAGATTTTTTGATGAAAACATAGATTATATTCCCTTATATATAACGTCTATTTGTCGAAATCAATTAAAAAGTATGTTAAATAAATAGTGAGAAGTGCTAGGGTATAAATTTAGCAAATTATCCATGCTCTCTTTTCTACTATAAGTAGTATACTAATACTAAATTATTTTATTAAATAAAACTATGATAACTATGTTGTGGTGGATAATAGCTCTATTAGTAGCAATAATAGTGAGGTTGATAATTATATTTTTTGAGATTGTTGCTATAGATAGTGGTGTCAGTAGCGATTTTGTAACCTTAGAAAGTGAAATATTAAATTCACACGAAAAAATATCTGAGAAATTAGAGGAGATAGAAGAAATAGTTTCTGAAGAGGGTAATAATACCACAGACTCTGATGATTATTAACCCAAATTTAATAATAATTGTTATTTTGATTTACTATTAGGGTTCTGACATCGTCCACGATATCCAGAAAATTTATATATGCACATTCAATCATTATTTTTTTAAAATATTCCTAATATTTTAGTTACACATAATTATATAACTATTGATTTTTATATTTTTAATATATATACTTTTTTTGATGATTGATCATATAATAATTTATTCTCATGGTTTCGGGGTTGAAAAAGATGACAGAGGTCTTTTTACAGACATATCCCAATCATTACCCAACACTAAGCATGTGATGTTTAATTATAATAAAATTAATAAAATAAATAATACTATTATTGTAGACTCTCTTTTAAAACAATCAAAAAAACTTGAAGAAGTTTATAGGAAAATCCGAAATGAAAATAGTCATAGTGTAATTGATTTAATTTGTCATTCACAAGGTTGCGTTGTTGTAGCCAATACTAATCTTTTGGGGATTCGTAAAACTATATTTTTAGCTCCGCCAGATAATCTCAATTTGGAAGGGATACAAGATAAATATAACAGACCTGGTACAATAATTGATATGGATAGAGAATCAAGAATAACAAGAAAAGATGGAAGTATAACCATTGTTTCTAAAGAATATTGGGAAAGTATAAAAAATCTTAATATTCTTAAATTATATAATTCATTTAGTAATAACACAGATCTTACTATAATAAAAGTCAGAGAAGATGAAATATTAGGGACAACAGATTTTTCTAATTTAAAACGCCAAGTTAAAATTAAAGAGCTCAAAGCTGATCACAATTTCAAGGGGGAAAGTAGGGAACAAGTTAAAATCATAATTAAAAACATATTAATAAAATACGTGACTAGTTAAGAACAGAGATTCTAACATTGTCTACGATTCCCAGAAGTTTATTTTAGTTTATATATAATTATGCAAAGTACAAAAGATGTCTCAATACAACCATTTTTTTCTGATATAGAAAAGTTTTTGAATTCTATAAATATAAAAACATTAAATCAAAATGATAAAAAAATTTTGAATGAATACAAAAATAAATTAGTTGGAAAATATCTAAATATAGATCAATATTTAAAAACAATAGGTTTTAATTCAGAACAACAATTAAAAGATTATTGGAATGAAAAAACAAAACAATAAAGGGTATAAAGTATATTTTTATAATAATAATTTAGAATTTAGACAATCTATAAGAGAAATTATAATAGATACATTAGAGAATATAGATTGTATTGTTACAAAATCAGAAAATTTAAAAGATCTTGGTATAGAAGTTTATTTTTTAGAAAACAATCAATATAAATGTTTGTATCATGTTTACAAAGATTTCTATATTGGCGGAGAAACAAAAAATGGTGGAGTTGTAAATATATCTATTTATATTGAAAATAAAGAAATAAATAATTTATTTAAAGATTTTTTAAAAGCAACACTTATACATGAATTAGTACATGTTTATAGATATAGAAATACTTTACAAGATGGGTCTATAATATATAACAAAACTAGTCAAATCCGAGTAGCTCATCATACACTAGATGAGGGAATATGTGATTTTTATACCAACAAAATTATAAATAAATTGCCGATGGCTAATTATATTCCTATTAATAAAAAAAATTATACTATGAAAAAAATATGTCATATTTTTCATAATAATGATTCTATTGATGAATACATAATTCATTACATAGGTTATAAAGTAATTTCTAATTATATGAAGTATCATAATTTATGTTATGATGATCTTATAAGATTAGATGTTCAAAAGCTACTATCATTATATGAAATATGAATAATACTTCTTAATATATAGTTATAGTATTTGTTATACTAATAATAATTTCTATTTTCTTATTTTACTTTAATAAAGCAAAACATAAATTTTAGAAAGATGGTAATCACCCTAGTCGTGGAGTAGGTGATTATATTTTGGTATGTATACATATCTACAAGGTTTTTAGTTTTTTCTCATCTATAGTATAATTGTATCAACAGAAAGGAATAATACAGTTGAAAAGCAAATCTCTAAATCAAAATTTACACAAAGCAAATCAAGCTATGAGAGACGAGTTTTATACCCAGCTTACTGATATTGAGAATGAACTAAAACATTACAAAAGCCAGTTCCATGGAAAAGTAGTTTTTTGCAACTGCGATGATCCAAAAGAAAGTAATTTCGTCAAATACTTCAGCATGAATTTTGAATATTTAGGTCTCAAAAAATTGATAGCTACACATTATAAAGAAGCCAATTTATTTACCCAAGAATCTCCTTATAAATTGGAATATATAGGCAATAAAAATGGGAATCGTATGCCTGATCCAAATGCCTTTATAACTGAAATGATAGGTACAGGCGATTTTCGTAGTAAAGAATGTATTGCTTTGCTTGAAGAAGCAGACATTGTTGTAACTAATCCACCATTTTCATTGTTTCGTGAATATGTTGCTCAACTCATGGAATATGATAAAAAGTTTTTGATTCTGGGTGATCAGAATGCTATTACCTACAAAGAAATATTTAAATTCATTAGGGAAAATAAATTGTGGCTTGGTTACGATAATAATGGTACAAAATGGTTTCAAGTACCTATGGATTATGATATACCAACAGAATCAAGAAAGAAAATTAAAGATGGGGTAAAATATTTTAGTATGGGTCGCATCTTATGGTTTACTAATTTAGACACCACAAAACGTCATGAAAAATTGACTTTATATAAAAAATATAGTCCAGAGGAATATTTAAAATATGACTATTATGACGCGATTGAAGTGCCAAGAGTTGTTGAAATACCAGTGGATTATAATGGTGTAATGGGTGTTCCGATTACGTTCTTGGATAAATATAATGCTGAACAGTTTAAAATAATTGGTATAGACAGATACGTTAAAGATAATCCAAATTATGGAAAGAGATTTACAATCAATGGCAAAGAAATCTATGCGCGTATTTTAATTAAACGAAAGGAATAACATGAAAATTCAACTACACAAGATTACAATCCGTGAAGTTACTGATGATTATAAAGATGATGCTGAAGAGGGAGTAGTGGCTTATGCAGGAAAACTTGATATTCGCCCAAAATATCAACGTGAATTTATATACAAGGAAAAAGAACGTAACGCTGTTATAGATACGATAAATAAAGGTTTCCCATTGAATGTAATGTATTGGATGATTAAAGAGGATGGAGGCTATGAAGTGTTAGATGGTCAACAACGAACTATTAGCATAGGGCAATATGTAAATGGTGATTTTTCATTAAATGATCGCTTTTTTCATAACTTGACTGATGAAGAACAAAATAAGATTTGGGACTATGAATTGATGATTTATTTCTGTGAAGGCACTGACAAAGAGCGACTTGATTGGTTTAGAATTATAAATATTGCTGGGGAAAAATTAACTGATCAAGAAATCCGTAATGCAGTTTATACAGGATCATGGCTTTCAGACGCAAAACTAAAATTTAGTAAATCAAATTGTGCTGCATATCATTTAGCAAGTGATGAAGGATCTCTCATAACAGGTTCTCCAATTAGACAAGAGTATCTCGAAACGGCACTTTCATGGATCAATAATGGAGAGATAGCGGATTATATGGCAAAACACCAACATGATCAAAATGCCAACGAGTTGTGGAATTACTTCCGAAGTGTGATTGAATGGGTACGTAAAACTTTCACTAATTACCGAAAAGAAATGATGAGAGTAAATTGGGGAGAATTATATAACCAATTTAAAGATGAAAAACTCAATACAAATAAACTAGAAAGCGAGATCGCTAAATTAATGCAAGATGAAGATGTAACGAAAAAATCTGGTATCTATCCTTATGTCATGACTAGAGAAGAAAAATACCTTTCAATACGAGAGTTCACTGATAAAATGAAACGTGAAGTATATGAAAGGCAGGAAGGTTTCTGTGCAAAGTGTAGAGAACATTTTGGGTTTGAAGACATGGAAGCCGATCACATTAACCCTTGGCATGAAGGTGGTAAAACAACTGTAGAAAACTGTCAAATGTTGTGTAAACAAGATAATAGAATTAAGTCTGGGAAATAAAATCTATAATGGTAATCTAATTTGCATAAAACTAAATTAAATTTATAAAAGTGATAATAATTACCAGAATAAGTATAGAAGAATAAAAAAGAACTCCAGTAATTCACTACCCTTTCAAATGGTTATAGTGAAAAAGTAATAACAGTATAAAGGTTTTGAATTTTAAAGGGTGCTATTTCTTGCTTTAAAGAAGATTTAATTTAATTAGGGTTCGAATATTGTCCACGATCACCAGGAGTCATGTGCATGTAGATTCGACCGTGGTTCCTCAAATATATTGTCAAACCTTTAAAAGTTTAAGGTTGAAATATTAAATAATCGAACAAAAAAAAGAGATATTATAGAATTTTAAAAAGTATAACAAGAAATATGAATATTAATTTTTTCTCATGGTTGAGTTTTTTCTTTGGAGGTGCCATTGGTGCTGCCATAACAGCCTTAATTGTATTATTTTTGGAAAGAAAAATCACAGAAAAAGATAATATAAAAAAAGTTGCAGAAGAGAGAAAAAACACTATATTAGGATTAAAACAAGAAATTAAGGATCATATTAAATATTGTAATACGATTATAAAAGAGATAAATAATGGTAAGTTTTCACAAACCTATTATTTTAATCATCTAGAAGATGTATATATCTCCATTTATAAAGATAAATTTATTGATTATTCTAAAGATGCAGACATAAAATTGGCATCTAATTTAAAAGATATAAAATTAGGTTTAGTTTCAATTAAACAAACTAATGATAGGACTCTTATATCTAATCCTGCTATGAATGGCCATGCAGAGAATATTACTTTTATTAATGAGCAAAGATTAATAATGGCTAAAGAATTATTAAAATTGCTTAAAAAAGTTAAAAAGCAAATTACTACTTAATTATAATTTCTCTATTATGAATGTAGAGTTGCATATTTATAGATTTTATTGCTTCTCTTTTATCTAAGGCATTGCCGTTGTATAAAATGTGTCTTATGTATTCAGAGAATGTTATATCTATCTCGTCTGGATTAATATTTTGATATATTAATACTTTATCTCTGATACTTCTATAATTATTAATCTTTATTTTTAATTTTTCTGATAGTTGTATAATTTTAGGGTTAGTTTTTTCTGTTAATTCTATATACTTTATTATCTTTCTTACTAAATCTTCTTCAGAGATATAAGGTTCTCTGCATATATCAAATACTTGTTTTGCACAATGATAATATATATGTTTTCTTCTTCCTCCATTTATTAATTTTCTATTTTAATATTATACAAATAAAAGATTTTTTTATAAAAACCCTAATATATTAATTATGAATAGATTAAATTTATATTACAAAATTGTATAACTTCTTAAAGTTATATGTTATGGATTAATTCTTTTAACACCCCTATATATGTACATAGTCTCCCTTATGTTAGGCGCATCAATAAGTTTCATAATAATTCTTTCAAAACCAAGGCCTGCACCACCATGAGGAGGACATCCGTATTTAAAAAAATTTAAATATTCTTGTATTTTTGAAATATTTAATTTTTTCTGTAATGCCTGATTTTTCAATATTTCATATCTATGCTCTCTTTGTGCACTAGTTGCTATTTCAATTCCATTCCATAAAAGATCTGTTCCCATTGTAATATTTGGTCTATCTTCAAAACGCATATGATAAAAAGCTCTATCATCCATTGGATATTCTGTTATAAATACAAATTCTTGACCTGTTTTATCTTTCATGATTTTGCATATTTCTATTTCTTCTTGATTATTTAAATCCCCATCTTTTTCTGACTTAATACCTTTTTCTCTAAGAACTTTTTTAGCCTCCAATAAAGATATTTGAGGAAATGAAGGAGAAGGAATAATAATTTTTCTTCCATAGGTTTTTTCTATCTCATCTCCGTATTCTTTTTCTATATTTGTAATAACATATAGAAGCATACTCTCTATAATATGAATTACATCTTGATAAGAATCAATATATGATACTTCAAAATCTACTCCTGTATATTCTGTTGCATGTCTTATGGTAAATGATGGTTCTGCTCTAAATACTGGTCCAATTTCAAAAATTCTTTCAAACCCCGAAGCCATAGCCATTTGCTTATAAAATTGAGGAGATTGAGCTAGATATGCTTTTCTATTAAAATATTGTACTTCAAAAAGTTCTGATCCTGATTCACTTGGTAAAGGCATAAGTTTAGGAGAATGCATTTGTATAAAGTCTTCTGATAAGAAAAACTCTTTGATTAATTGTTCTACTCTATTAGCTATAATAAAAACAAAACCCTTTTCATGTTTTCGTAAATCAATCCAACGCCAATCTAATCGAATAGATTGATCTGTCTCATTATCAGTTTTTTCAATAATTGGAATAGGAAGTTCTGCATCTGCAAGAGATAGTAGTGTTATTTTTTCAACACCAATCTCAATACCTCCTGGAGCTTGTTTATTTTCTTTTACAATCCCTATAATTGAAATTACAGACTCATGTGTTAATTCATTTGCTATTTTAAAAGTATCTGAATTTTCTTGCAATACAATGCACTGAATTGTACCAGATCTATCTCTTAATATAACAAATTTTATTTTCCCATGATCACGTATAATATAATATGAACAAATCCTTTTAACAAGATTTTTTCTCCAATTTTCCCTGAAACATCTTTTATATATACTCTTTCCATAAGATTAATAATTTGTTAAAAACTTATTATATAAAATATAAATTTAATTACCCAGATTATATATTAGCAGTAATTAGTAGTCAATCTATGTATGCGTTGTATAAAATATATTTTATTTCTGGTAATATAGATTCTAATGATTGAAAAAGAATTAATAATAAAAGAAAAAGAAATTAAAAAACAGGCTGAAATAGAAGGAATAACACATTTTGCATCTGGAGTAGCTGTAATAAATAAAGGGAAAGTACTTCTTGTTCGTAGAGAGATTAATGATTTTTTAGGTGGAAATTATGAGATTCCAGGAGGTGGTATTGAGGATGGAGAAACATTTATTGAAGGTGCAACTAGAGAGCTAAAAGAAGAAACAAATTTAGATGTAAAAGAGGTAATAACATTATTTGATGGATTTGATTATAGTACAAGTACAAAACCTAAAGTAAGACAAATAAATTTTTTAGTAACAACCTATACTTATGATGTTATTTTATCTGATGAACATGATGCTTTTATTTGGGCTGATAAAAAAGATTTAAATAGTGTAACTATGACAGAGAAAATGTTAAAATGTACTCATGATGCTCTTAATCTTGCAATAGAATTTCAAAGCAGAATATAATAACTTAAAATTTAATATAAGGTCTAAAATGTTAGATAATAAAACTCCACCAAAAGTAGTAATTTTTACAGATGGTATAAATTTTTATAAAGAACTTTCAAAAAAATATATTCAGCATAAAGGCCGAGGTTACTTTATTCTTGCCCCATCAGGTTCTGGAAAAACATATTATGTAAATAATCAAAAAGATCAACATTGGATAGATGGAGATTATTTGTGGGTAGCTAGTAACGCTGATTATAGTTCAGATGAGTGGAGTACAGATTCTAATGATGTTCAGGAGATAAATATTAGATGTGATATTATAACTCAACAATCAAAAGATCAAGGTTTTTGGATAATGGGTTCATCTAATAAATATTTAAAACCTGATGCAGTTGTGTTACCTGATATAGATACTCATATATCTTATATAAAAAATCGTGAAGAGAAAAATTATGATGGGGGAGCAAAGATTCAGAATATAGATGGAGTTTTAAATCATAGAAAATGGATGGAAAAATGGAGAGAGCAAGATGTTCCTTTTTTTAAATCCATAAATGAAGCTACAGAGTTTTTATTTTCTAGATATATGCAAGAATATAATTAATATCTTATATATCTAATTTGAAAATATTAATATGAATATGCTAAAAACTGAAAAAGATATATTTCTAGATGGGAAAAGATTTATATATATCAAAGATAGACTTGCTGGAGGAAGTGTATTTGTTTCTCAAGATAGAAGTGAATATTTGAGAACTTCTACAAAAGAAGAAATAGAAGGAGAAGTCAATTTAACAAAAGATTTATATAATAGAAAATTCCCAGTTCCTTTAATACTTAAAACAGGAATTTTAGAAAATGGAATAAATTATTATATAGAAAAATCAATTGGAGATAGAGTTTTTGGAGACATATTTAAGGAAGAAACAAGATCTTTTAATTATGTAAATGATGAATCTTTTAATATGTTTATTGAAATAATTAAAAAATATTGTGAAGTACAATTTAATAAAAAAAATTTTGTTCCACATAATATTAATTCTTTGGATGAAGTAATATCTATTTCTAATGTGATGAAAAATAATGAGCCTTCTTATAAGATAAAGGAATCATTTATTAGAGCATATGAAAAAGCAAAACAAAGAGTTATGTCTCTTCCATGGGGATATATTCAACCTGATCTTAATGCTTTTAATATTTTACCAAATGGAATTATTGATTTTGAACTTTCTGGTTTTGGTCCTGTTGGATATGATGTATTAACTAATATATATTTTAATAGAATGTGGCCATCAGAAAAAATAGCATATATATTTACAGATAATCAAATTATAAAATATATCAAAGAAGTTGATAAAATTGCTATAAAAAAAGGATTGCCATTAATTAGCCAATATATAGATGATTTTCTTGTTTTAAAGACAATTTGGGGAACAGCTAAAGATAAAGAATCTGAAAATAATCCTCAAAGTAATTTAGATTTTTGGAATTGGAGGGTAAAAATTAGAGATTGGAGTATTCATCAGTACTTAAATGGGAAAAATATTGATACATCTCAATTTGAAAAAATAGGGACTTCAATTTAAATTATGTATTTTAAACATTCTCAAATAGCAATATCTTTTTTATCTATTATTAGGATTAATTATTTTTTATTAGGAGTTAATGCTTTTCCAATATATATTAATATTACTGCACCTATAAATGCCACTAATAAGCTATATAAGTTAAACCCTGTAATTCCTGAAAAACCTAAGAAATTCATTACAAATCCACCTATTAAAGCTCCTATTATACCTAATACTATGTCTAATAATAATCCTGCAGAGTTATGTGTTACTGCAGAAGCTAGTGCTCCAGCGATAAGACCTAAAATTAACCATAAAATTATACCCATATTAATATTATAAATAAACTAAGTATGTATATTCTACTATATATTTAATACGAATATAAGCTTATATGAAAATATACCATTAAAATCAGTCATGTTTATAAAAAAATAGAACAAATACACTCTATTATTATTAAAGGGTTAAATGTAAAGGATAATTTATGCAAAACCTTAGTTAGAAAATATACTAAGTTTCAAAATAACACTAACAAATATTGTATCTATTCTTATAATTAAGGTTCTGACATTGTTTACGACATCCAGGTTGCACTATGATTATTTAATTTTTAAGATTATACATATTTTTATATATAGATGATATAATAAATATATGAAAAAGACTTTTATAAATATAAATGAATACGATCTACCAATAATTATTAAAGAAGATGAGGATGGTGGATTTGTAGCAAATTGTTCTATATGGGATGATTGTTATGCACAAGGAGATACAATAGAAGAAGTTATTAATGAGATTTCTTATGTAGCTTCATCTTTAATAGAATTATATAAAGAAGAAGATAAAAAGATGCCCTTAAAGATCAAAGATTCTCAAGAAAAAAATAAATCTAATATAAACATTAATATCCCTGTCATAGTAGCTTCATAATATATATCAAATATTAGACCATTATCTTATAGAGACGTAATTAAAAAATTAAGAA
>sequence05
GATCTAACATCATCATTATCTCTGAATTCTACGAATTTTGGATTAAATATGGGAGCAGTAAATAACAATACCATAGGACAGGTAGGAGAATGGAATAGTACTACATCTTTACCTGAAGATATAATGTCTGCAACTTCAGTAGAATATAACGGGTATGTATATGAGATAGGAGGATTTATATTATCTGGTAGTACAATGACTGTATTGACTAATAACGTTGTTTATTCCCCAATTCAAAATAATAGAATTTTAGGATTATGGAGTACAACCTCAAATATACCATCCGTAGTTTGTAGTGCAACATCAGTAGTATATAATGGATATATTTATGTTATTGGAGGTAGTAATGGAGGAGGTTACTGTGGGTCAGGACTTTTATCTACAGTGTATTATTCTCAAATAAATAGTAATGGAACACTTGGAGTATGGAATACAACAACCTCTCTTCCTATAGCTACAGAAATTGCGACCTCAGTAGTATATAATGGGTATGTGTATGAAATTGGTGGAGTAAAAAGTCAAGGCATCACTCTTTCAACCGTAGAATATGCTCCTATTAATAGTAATGGAACATTAGGAGTATGGACAACCACAACATCTTTACCTCAAGTTACGGATGAAGCTACATCTGTTGTATACAAAGGATATGTATATGAAGTTGGAGGCTCTTCAAGTCAAGGAAGTGCAGTTTATAATACTGTATACTATTCTCAGATTCAGAGTAATGGAACACTAGGAGCGTGGACAGCAACTACTCCTCTTCCACAAGCAATAAGTAATAATTCTTTGGTGGTATATAAAGGATATATATATGAAATTGGAGGTAATAGTAGTTCTTCATATAGTTTAAACACAGTCTATTCTTCTCAAATTCAGTCGAATATATCAAACATATTTAGTGTAACATCCAATAACAATGGTGTAATAACACCATTGCTGAGTATAGATCAAAATGCAAATCTTACTGTTAACGGAAATACGTTATTAGCCTCCTCAGATTTGAATGTAGAGGGCTTATCTACGCCTACGGGACTTACAATGAGTAGTAGTTCTACAGTAGGAGGATCAATGAATCCTGGTACCTATTACTATGAAGTATTAGCACAAAATCCATCAGGTCAATCATTTCCATCGCAGTCAATCACTGTAACAAATACTCCTGTATCAGTACCAACAGGGCTTACAGCAAGTGTAGGTACATCTGGAGGTGTAGGATCAAATCTAGCTGCATCTACAACATATTATTATAAGATAACAGCAACAACATCACTAGGAGAGAGTACTGCATCAACGGAGGTATCAGCAACAGAGGGAACAACAGCATATCCGATAACACTTTCATGGAGTGCAGACAGTGGAGCAACAGGATATAACATATATAGATCAACAACATCAGGAAGTGAAGTATTTCTTGCAAGTACAACATCTACAAGTTATACAGATTCAGGTAGTGTAGCTCCAAGTAGTAGTAGTCCCCCTGCTAGTAATACAGCACTAACGAATACGAATGAAGTATCATTGAGTTGGAATGCAGTACAGGGTGCGAGTGAATATATAATATATAGATCAACAAACACAAGCTTTACTAATTCTGCAGAATATATATCTACAACAAATAGTTACACAGATACAGGTATACTTTCTACGACATCATTACCTGTAGCTACAGATGGTGCAACATCAGTAGTATATAACGGTTATGTGTATGAGCTAGGAGGGTATAACGGGAGTGCCTATCTATCGAGTGTATATTATGCCCCAATCAATAGTAATGGGACCCTAGGCACCTGGTCTACTACAACCTCCTTGCTTCAAGCTATAGGTTTTGCTACTTCAGTAGTATATAACGGTTATATGTATGAGCTAGGAGGATATAATGGTAGTACTGAATTATCAACAGTATATTATGCGCGGATAGAAAGTGGAGGAGGTATTGGTACATGGAATACAACAACAGTTCTTCCTCAAGCTGCAATGCAAGCAACATCAGTAGAATACAATGGATATATCTATGAGATAGGAGGTGCTATAGATGCAGTATATTATACTTCCATAAATTCTAATGGTTCGCTGGGTGCATGGACAGCAACAACATCTTTATCTCTTCCTGTAGCTTCAGCAACATCTATAATATATAATGGATATATATATGAGATAAGTATAGGTGGAAATTCTTCTGTAGATTATGCTCAGGTAAAAAATAATGGAAGTCTTGGAGTATGGGTTCCAACAACATCTCTTCCTATGGGTGTATATGAATCAACATCTGTAGAATACAATGGATATATATATGAGATAGGTGGAGGAATCAATGGAGATGCAGGAACTACAGTATATTATACTCAGATAAAAAGTAATGGAAGTCTTGGTATATGGCAATCTACTACCTCTCTTCCTGCTCCTACAAGTTTTGCTACTTCAATTGAATATAATGGATACATATATGAGATAGGAGGATATAATGGAAGTGTGCCTCTATCATCAGTCTACTATTTTCCAGTATCTTCTACGGGAGGAATATATGGAAATATATCAACAACAACTACGAATGCGATAACAGTAACACAGAATAATGGAGGGAGTGGGAATATATCTAATAACCTAACAGTAGGAGGAAGTATATTAGTAGGGGGAAGTTCAATATCGGGAGGGAATATATCATTAACGAATGGAAGTGGATCTAATATATCATCAACATCATCATTATCACTGAATTCCACGAATTTTGGATTAAATATGGGAGCAGTAAATAACAATACCATAGGACAGGTAGGAGAATGGAGTTCTGATACTTCTCTTCCTACTGCAACGGTTTTATCAACCTCAGTAGAATATAAAGGGTTCGTGTATGAGATAGGAGGTCAAGATTCCAATGGATGTGTATCCGCAATATATTATGCACAAATCAATTCAAGTGGACAGATAGGATCATGGATAGCAACAACACCTCTTCCTCAAGAAGAAAATAGATTAAGCTCTATCGCATATGCAGGATATATTTATGCAATAGGAGGCAGTGCATGTAATGGCACATCTTACGCATGGGTATATTATGCCCCTATAAATTCTAATGGTTCTTTGGGTGCATGGGTCGCAACAACGTCTCTTCTTACTGCTGTATATAATTCAACATCAGTTGTATATAACGGGTATATATATGAAATAGGAGGATATACAACTACTGCTACAGCTATAGTAGAATACGCTCCCATCAATAGTGGGGGAGGAGTAGGCACATGGACAGATACAACATCACTTCCTCAAGCTACATATTATGGAACTTCTGTAGAATATAACGGATATATATATGAGATAGGGGGAGAAAATAGTTCTGTATTATCAATAGTATATTATGCTCCAATAAATAGTAATGGAACATTAGGTACTTGGAATTCTACGGTCTCACTTCCGCAATCTACATATGGAGCAACATCTATAATATATAATGGATATATATATGAGATTGGAGGAGTAAATGGTAGTGGAGCTATAATATCAACAGTATATTATGCTCCAATAAATAGTGAAGGAACGATAGGTCCATGGAATGGGACAACTTCTCTATCTTATATTGTGTATTCAGCAACTTCAGTTGAATACAAAGGATATATCTATGAGATAGGAGGTTTGGGTAGTAATACCTTATCTTCAGTCTATTCCTCCCAGATCCAGTCGAATATATCGAATATATTTAGTGTAACATCCAATAACAATGGGGTAGTAACACCATTGCTAAGTATAGATCAGAATGCGAATTTAACAGTAAATGGAAATACGTTATTAGCCTCATCAGATTTGAATGTAGAGGGCTTATCTACGCCTACGGGACTTACAATGAGTACGAGCTCTAATATAGGAGGATCGATGAATCCAAATACCTATTATTATGAAGTATTAGCACAAAATCCATCAGGCCAATCATTTCCATCGCAGTCAATGTCAGTAACGGTAAACACACCAGTTACAGCACCTACAGGACTTACAGCAAGTGTAGGTACATCAGGTACTGTAGGATCAAATCTAGCAGCATCTACAACATATTATTATAAGGTAACTGCAACAACATCACTAGGAGAGAGTACCGCATCAACGGAGGTATCAGCAACAGAAGGAACGACAGCATATCCTATAACACTTTCATGGAGTGCAGACAGTGGAGCTACAGGATATAACATATATAGATCAACAACATCAGGGAGTGAAGTATTTCTAGCATCAGTAGGAAACACTACGAGTTATACAGATTCAGGCAATGTAGCTCCAAGTAGTAGTAGTCCCCCTACTAGTAATACAGCGCTAACGAATACGAATGAAGTATCATTGAGTTGGAATGCAGTACAGGGTGCGAGTGAATATATAGTATATAGATCAACTAGCACAAATTTCACAAATTCTTCAGAGTATATATCCACAACAAATAGTTATACAGATACAGGAGTGCTATCAACAACATCACTTCCTGTTAATACATATTATGCAACATCTGTGGAATATGCGGGATTCGTGTATGAGATAGGAGGATCTTCTAATGGGAACACAGTTGCAACAGTATATTATTCACCTATAAACTCAAATGGGACAATAGGTACATGGAATACAACAACACCTCTTCCTCAAGCTACATATGATGCTACATCCGTAGAATATAACGGGTATATATATGAAATAGGAGGGTATACAACTACAACAGTTGCAACAGTATATTATGCACCTATTAACAGTGATGGAACACTAGGAGCATGGGCTGCAACAACATCTTTTCCCGTAACTATATCTGCTGCAACATCTGTAGTATATAATGGATTTATTTATGTGAGTGGAAATAATTCATCATCAGTATATTATGTTCTAATCAATAGCAATGGTACCCTAGGAACTTGGACAGAAACAACTTCACTTCCTATATCTTTAGAGAGCTCAACATCGGTAGAATATAATGGGTATATCTATGAGATAGGAGGAGGTCCAAATGGAAATCAAGGATCTAGTGTGTATTATTCCCCAATAAATTCAAGTGGAACATTAGGTTCTTGGGAAGTAACGACATCTCTTCCTGTAACTATATCTGATGCAACATCTGTTGTATATAATGGATATATTTATGAAATAGAAGGGTGTATTAATACTGTTTATTGTATGATATCTGGAATATATTATGTACCAATAAATAGTAATGGTACTCTGGGAACTTGGACAGCAACAATCTCACTTCTTGCTAATAGATATTTAGCAACATCAGTGGAATATAATGGATATATCTATGAGATAGGGGGATATAATGCAAGTAGTGGTTATGTATCAACAGTGTACTATTTCAAAGCCTTACAAGAGGGAGGGTTATCACAGATAGTAAAGGGAAGAGTTCAGACTAGTGTAGGATTAACTCAGAGTAATGGAGGAAATATAAATCTGTCGGGGAGTATGAATATAGGAGGAGGTCTGTCGGTTCTAGGACAGAGTAATTTTGGATCATCTATAAATTTAACGAATCCGAATAACACCCTTATATCAGCGGCCTCTCCTTTAGATATACAATCATCAGGATTTAGTATAAATCTAGGGAAGAATAGTGTTACATCCCCTCCTATATATACGATATCTTCATGGCCAACAACAACCTCTTTACCTAATACTACCTATGAGGCTACATCAGTTACATACAATGGATACGTGTATGAGATAGGAGGAATAGTATCTTCTGCTTCTACTATAGTAGAATATGCAGCTATAAATTCGAATGGAACATTGGGTGCATGGACAACAACTACTCCACTACTTACTGCTACATACGATGCAACTTCAGTAGTATACAATGGATATGTATATGAAATAGGAGGGTATACAACATCAGCTACTACTGAAGTAGAATATGCACCAATAAATGGTAATGGGACACTGGGTGCATGGAGCACAACAACACCTCTACCTCAAGCTACATATGTAGCAACATCTGTAATATACAATGGATATATCTATGAAATAGGAGGGTATACAACATCAGCTACTACTGAAGTAGAATATGCACCTATAAATTCGAATGGAACATTGGGTGCGTGGAGTACAACAACATCCATGCTTAATAGTACATACAATGCAACTTCAGTAGTATACAATGGATATGTATATGAAATAGGAGGGTATACAACATCAGCTACTACTGAAGTAGAATATGCACCTATAAATGGAGGAGGAAGTATAGGAGTGTGGAGTACAACAACATCTCTTCTTGATGCGACTCAACAATCAACTTCAGTGGTATACAATGGGTATGTATATGAGATAGGTGGGTGTAATAATTGTACTGTTATGTCAACAGTAGAATATGCACCAATAAATGGTAATGGGACACTGGGTGCATGGAGCACAACAACACCTCTACCTCAAGCTACATATGTAGCTACATCAGTAATATACAATGGATATATCTATGAGATAGGAGGGGTAAATACTAGTGCTTCAACAACCGTATATTATTCATCACAGTTAGTATCATCATCTACTCCCGGTTACTTTAGTGTATCGTCAAATACGTCGGGACAATTTCAGGATATATTTTCACTAGATCCGTATGGGAATGCGATATTTGGAGGGAGTATAACAACGGGAGGTCCAGCTGCAGATATAGCAGAAGAGGTAATAGGTAAGGGAGTGAGTGCAGGGGATATAGTATCAGTGAGTGGAGCAAATACGAGTTCAAATAATATAAACAATTTCACAGCGATACCGACGACGCATGTATCATCGAATAATATGTTAGGAGTGATATCGACGGATCCAGGGATAATATTACATCAGGAGAATATACCAGGAGCAGTACCGTTAGCATTGGCAGGAAGAGTATTAGTAAAGGTAACAAATTATAACGGGAATATAACAGTAGGGGATATGATAACAGGATCTCAGTTTGGAGGGTATGGACAGAAGGCAACATCCCCTGGAGAGGTAGTAGGGATGGCTTTAAATAGTTTAAGTCCATCAACGCCAGGAGTAAGTAGTTTTACATATAATGGAGTAAGTTATCTTAGAGGCGAGATATTAATGTTAGTAAAGAATGAATATTACAATCCATTAGTATCAAGCATGAGTGTATTGAGTATGTCGGGAGGAGTATTAGATATATCGAGTAGTGTCAATATATCTGATAATTTAGGAATAGGCGGGAATGTATCAATAACAGGGCATATAATATCTATGGGAGGCAAGCCAAGTATCTTAGCGGATACGGGAGCAGGGTTAGGAGCTACAGCAAGTTTGAGTAGTAATTCAACAGATACGACAGGAGTAATAAGCCTAACAACAGGGACAAGCCAGTGGGGAGTAGGAAAGCAGTTGACACTAACATTCTCTCATCCATATGATGTTGCTCCAAATATTTTATTGACAGCTGCAAATGCTACAAGTTCTCTTGCCTTTAGTGTAAGAGAGGTATTCTATACATCAACGAGTGTAAGTTTCAGTATAGATTTTGGAGTAGCAGATACCTCATCCAATACATACTCTTGGAGTTATGTTGTAATGCAGTAAAACTTTTACAAAATTTAGTAAGAATAGTGAAAATATCTCTAATATAAGCTTGCCTTATCTCTATATTTTTATATACATTTATGCTATCATAAAAGTATACTGAAACTGAATTTAGAAACTTCAGTTGTCTCCGATTAAATTGTTTATATAAAAATATTATGGTCAATAAAAAACCAAGTGTTAGTCTACTTACAAAAGAAGCACTTGAAGCATTAAAAAAAGAATATGAAGAATGTAAACTTCAAAGAGAGAGGATTAATGAAGAGATTAATCTTGCTAGAGCAGAAGGAGATCTTTCTGAGAATGAGGCATATCATTCAGGATTGCTAGCAAGAGATATTAATGAAGCAAGAATTTTTGAAATTGAAGAATTGTTAGAAAATTATAAAATAGTTGTAAAAAGTGATAATGGCACTGTTCAGTTAGGATCTCGTGTTAAGCTTAGAGTTAACGGACAAGAGAAAGAATATGAGATTGTTAGTACAAATGAGAGTAATCCTTTGGAAGGTAAAATATCTGCAGAATCTCCTATAGGGAGTGCTATTCTAGGAAAAAAAGTTGGAGATATTGCACGTATAACTCTGAATGAATCTTTAGTTGAATACGAAATTTTAGGAATCAATAACTAAATGTCTTTTTTCTCAAAATTATTTGATACAAACGAAAAACAATTAAAGAAACTCTCTCCTATAGTGTCAGATATTAACCTATTAGAAGAGAGTATATCCTCGATGACAGAAGGAGAGATTAAAGATAGAATATTATCTTTGAGGAAAGAAGCTTCTAAAATAAAAGAAGAAGATATTCAAACTTTTCTAGATAAAAATATAACAGAAGTATTTGCATTAGTAAGAGAAGCTGCAAAAAGGTCATTAAATCATAGACACTATGATGTACAGTTAATGGCAGGATTAGCTCTCTCAAAAAGTAAGTTAATAGAACTTTCAACTGGAGAGGGAAAAACTCTTGTAGCAACTCTACCATTAGTACTCTACTCTCTATTTTCTAAAGGAACTCATATAGTAACAGTAAATGATTATCTTGCTAAGAGAGACTCTGAATGGTGTGGTTTTATATATAGCTATTTAGGCTTATCTGTTGGAGTTATAACTTCTTCTGCTTCATATAAGTACATCCCTATAGAAGATTTTGAAAAATATGGAAAAGAGCCTGTTTTGGATTATGATAAAAAACTTAATAATATGCATGGTCTATTTTTAGTAGAATGCGATAAGAAGGAAGCATATTCTTGTGATATTACATATGCAACAAATAATGATTTAGGATTTGATTATTTGAGAGATAATCTAGTATTTAGTCTTAAAGATACAGTTCTAAGAGACTTATTTTTTTGTATAGTAGATGAAGCAGATTCTGTTTTAATAGATGAGGCAAGAACTCCTCTTATAATATCAGATCCTGTTGAGAGTAATACTTCTGAGTATATAAGATATTCTTCAATAGCTAATCAAATGAAAATAGAAGAAGACTATCTTTCTGATGAAAAAACTCAATCTATTACTCTAACAGAAAAAGGTATAGATAAAATAGAGAAAATTTTACATGTTGATGATATATGGAGTAATTATTCTACTACTTATCATATAGAGAATGCACTTAAAGCTAAGACTTTTTTTATTAAAGATGATGAATATCTTGTAAAGGATGGAAAAATTGTTATTGTAGATGAATTTACAGGAAGATTAATGCCAGATAGAAGATTTTCAGAAGGATTACATCAAGCAATTGAAGCAAAAGAAGGGGTAGAAATTCTACAAGAAAGTAAGAATCTTGCAACTATTACATTTCAGAATTTTTTTCGTTTATATAAATATTTAGGTGGTATGACAGGTACAGCTCTTACGGAAGCTGAGGAGTTTTATAAGATATATAAGCTAGATACGGTAGTTATACCTACTAATAAAGAGAATATAAGGAAAGATTATTCTGACAGGGTATATAGGAATAGAGATGCAAAATTTAATGCCGTGCTAAAGGAAGTAGAAGAATTACATCTCAAAGGTGCTCCTGTATTAGTTGGAACTACTTCTGTGGATACATCAGAGGTACTTTCAAAATTATTAACATCAAAAGGTATAGTACATAATGTTTTGAATGCTAAATATTATGAGAGAGAGGCTGAGATAATTTCTCATGCAGGAGAGAAAGGTCAAGTAACTATTGCTACAAATATGGCAGGAAGAGGTACAGATATAGCTTTGGGAGAGGGAGTTAAAGAACTGGGAGGGTTACATATTATAGGAACTCAAAGACATGAATCTCGTAGAATAGATAATCAGCTTAGAGGTAGAGCTGCAAGACAAGGAGATCCAGGTTCATCTAGATTTTATGTTTCTTTAGATGATGATTTAATGAGAATTTTTGGAGGAGATTCTGTAGCTAAACTTTTAGGAGGTTTAGGAGTTTCAGATGATCTACCTATTGAGTCTTCTATAATAACAAGACAAATTGAGTCTGCTCAAAAAAAAGTAGAATCATATAATTTTGATATAAGAAAATCTCTAGTAGACTATGATGATATTATGAATCAGCACAGAGAGGTTGTATTTAAAAGAAGAAAAAAATTTCTAGAAAATATAGAAAATGATAAATTTAAATATAAAGAATTTGTTTTAGAAAAAATTTCTAAAGAAATAGATAATATAATAAAAATACATTCTGATGATGATAGTAAAGATCAATTAGATATAATAATGAAAGATTTTTATGGAATACTCCCAAAGGAATTTTTAGAATCTATTCTTAAGAAAAATGGTGTATCACTTTCTCAATGGATGGAAATATTATTAAAAGATTCTAAATTTGTAAACTTTGAAATATTAAAAGGTCAATTACTCTTGATTATAGATGAAGCTTTTGAAATTCAAGAAAATGTATTTACCAGAGATGTACTACGTCAAATTATAAAAGATCTATATCTTCAAGTATTATCATACTTGTGGACAGATCATATAGATACTATAACTTATCTTCAACAGAGTATTAGGCTTCAAGGTTATGCTCAAATAGATCCTTTGGTAGCATATAAACAAGAAGCATTTAATATATTTGATAGATTTATAAATACAATAGATTATGAATTTGTAAGAAGAGTATTTTATGTTCAAAAAATAGAAGTAGATAATAATCCAATGGAGTTAAATAATAATAGTATTAATCAAGAATTAGAAGATACAATTCATAAAATAGGACGTAATGATTTATGTTTTTGTAATTCTGGAAAAAAATTTAAAAATTGTCATGGAAAAAATAAATAACTCTCCCCTACCTTGTGATTATACTCAGTTATTTTTAAAAGATTGAAAATGAATATATTTTATATGAATAAAAAAATAAACAGAGAAAATTGACAATCTTACTCCCCTACTATAATCTTACTATAGGTTTTTGTAATGAAAGAGATATATATATTATTAAATAATGTGAGAAGTGCCTTTAATGTAGGTTCAATATTTAGAACTGCTGATGCTATTGGTGTAAAAAAAATATTTCTTTCAGGTTTTACTCCTTATCCCCCTGATTCTAAATTAGATAAAACAGCTCTTGGTGCGATAGATTTTGTAGATTGGGAATATAATAGAGATATTATCTTTACTTTAGATAAAATAAAATCTCTTGATATTCCAATTTATTCAGTAGAACAGTCAGATAGAAGTTTAATCTATACAGATTTATCATATCCTAATAAATTATGCATAGTTATGGGAAATGAAATTTCTGGAGTTGAACAAGAAATATTAGATGTATCGGATAAAATAGTAGAAATTCCTATGTATGGAAAGAAAAATTCTTTAAATGTATCCGTAGCTTTTGGTGTAATAGCATATCATATAAAAAATTTTTCCTGATTTAAAATATACATCAAAAAATACGTTTATTAGATAATATTTTATGTATTGTCTATATCCTTCTAACTGGTCACCATGTTCTGACCCTTGCACAACATATAATTCACAAATTACTTTATGTAATGTATGTATACATATGAATGTGAATATAGATTTATCTTAAGTAATTGGAGAAGTATTTTTTAATAACCATATATTTCTAGAAAAAATTAAACATTCAACCAAAGATGAGATACTATGCTTTAGGAAGAACTTTAAAAAACAGACATCTTACTATTTCTTTTATAAAAAGACATAATAAAATCAGAGTCATATCTGCAAGAGATCAAGATAAAAAAATTTATATGAAAAATTGTTAAATATATGAATAAAATAAAACAAATACCAAAATTCAAAAATGAAGATGAAGAAATAGCTTTTTGGGATAATCATTCTCTTGTAGATTATATAGACTTTTTAAAAAAGTAAATTTAAAGTTACCTAACCTAAAGCCTTCTACAAAAAATATTAATTTGCGTATGATTGAATCTATGTATTTGCAATTAAAACAACTAGCTAATAAAAAAGATGTTCCTTATCAATCATTAGTAAAAATATTCTTAGATGAAAAAATTAAGGAAGAATATTCTGATTTAAAGTAAGACTTTATTATAATTTTATATATCATTCATTCTGAACATATTTCTATTAATCTGTCCCAAAAACTAAAGTTGATTCGAACTGTTAATACGTCAATTAATGCGACACCCCCGCTTGAAACGTCCCGAATGTATTGATATACTGGGCTACAAGTATGAGTTTAAATGTTAATGGAAAATTATTAATTATAAACTTTCCCTTTTCCAGAGTGTCCACCTATAGTTAAAGCTATGATAGTAGTTCTGTTGTCAAAAAAATCCCAAATAATTCGTAGATCTCCTGTTATTCTTGAACTATATCTTACACCATAATTTCTTGTATTTACTTTATGTGTTTTTAAGTTATTTGAAAAAGGATTTTCTGTAAGTATTATAATTTTTTTATCAATTATTTTTTTTAAACTTGTATTTCCTTTTACATACTTTTTATAAGATCTTTCAAATTCTTTTGTTATAGTAAATTCATAGATTGTCATATAGTCTTATTTACCTATTTTGTTAAGATGATCTTTGATCTCACTTATAGATTTTAATCTTGTTACTCTTCCTGTTTCAATATCATCCAATGCTTTTCCGATACTTTCTTCGGTATCTAAATCAACCATAGGAATGTCTTTATATAATGGTTTAATATCTTCAATTACTAGGTGTCTTATATATTCAGGTGTAGAAATACCTAACTGTTCAAGTCTTACCTTTATTAATTCAAATAAAGGTTGTGGAAATCCTACTTGTCTTATAATTGTATTTTGTGTTTGATTATTTGTACTCATAATTATATAAATGTATTGTAGCACATGTGTGGCAAACATTCAATATATGTTTATAACTGTTTGTATATTTCTATTACTTTAGTAATCCAAATTAAAAGTAGGTTCTATTCTGAGGCACCTTAAGGTCAAGTAATACGACACCCACTACAGAAATATCCCGAATGTATTGATATAATAGGCTAAAAGTGAGGTTCGAAATCACTGGTAAAATTTGAGGCAAATATCGAATTGAGAAGAATTCTTAATAACTTGCACAGCAATATTCTCAGAATTTGTTCTTGTAGTTATAATTTCCTATAGGATGATATATTAGTATGCCATTTTAACATTTTTCTATCATTTTGTGGCGCTAATACAATATCACAAATCTATACCTCACATCTTTTGGGAAGTCAGGAAACACTCTAATAGGTCTTCCCCACATTGCAGTACTTTCAAGTTTATAAAAAGGTTATAGAATTAAATCTTTTAATGCCTCATATACAAATAATTAAATAGTAATTACTATTTATCCAATGGAATGTTTTTATTCATAATGGTTTAATCCTTCAATAAAATCTTCTAAATTTATTCTGTTTATATTGTTTTTAATTATTTTAACAATTTCTTCTTGAATTATTATTCTCTTTTCTGAAGCTGAGGAAGCAACACTTTTTGCTAATTTGTATAATTCCTTCCCTCTCATGTCTATCCAAAATTCATTAATCGCTAAGAATGTTAATAAAGAAACACTTGCTACTCTTTTATTTCCATTAATAGAAGGATTTAATTTAATAATTTCATAAAATAATACCTACATATATACTTTTGAAACTAAAAGAAGAAGCTAATAGTAAAGATATTCCTTATCAAAGCTTGATAAAGGAATTTATTATACAAGGATTAGGATAATATATAATTTTATTGTTTTTATTATTTCTTCTTACAGTAATCTCTAGTCCAAGTACTTATGTAATGAGGCGATGTTATCATAAAATTTTTATCTATTCATCAATATCTCAAGTGTTTTAATTATGGATATTCTTTTCCACTATTTGTTAAGTCTTTTTATCTAAATATTTTAATCTTAAAACTAATCCAATTATTGTAGATGAAATTTGATTAAAATATTTTTATATATTTAACATACTTATTTGAATCTAATACGATTATTAACCTTTTTATGTTTTTATGGTATATTATAGCTTATGTTAAGTATAGATTATATAAGAAAAAATACAGATAAAGTAAGAGAAAATATCTTAGATAGAGGTCTTAGTCTTGATAAATTAGAAGAACTTTTGATTGTTGATAAAAAAAGATCTGAATTAATAGAGTCTCAATCTTCTATAAATAGAAGAAGAAATGAGATAGCTTCTATTCTTAAGAATAAAAAAGATGATACTTTAATTGAAGAAGGTAGATCTCTTAAAATACAAAGAGATATTATAGATAAAGAATTGAATGTGATAGAAGAAGAATATCAGAATCTTCTTTATTGGATCCCTAATATATTTCAGGATGAAATGCCAAAAGGTGAAGGAGAAGAGGATAATGTTGAAATTTATGCATGGACTCCTAAAGATAAGGAGTTGGATAAAAAATTATTAGGAAAAAACAATAAATCTAAGTCTCATATGCCATCAATGCCAATAAATAGTAAAAAAGATTTTATTCTAAAAGATCATATTGAATTAGGAGAAATGAATGACATTATAGATATAAAGCAATCAGCAAAAGTCTCAGGATCAAGATTTTCATATATAAAGAAAGAAGGAGTTATACTACAGTGGGCTTTGGCTAGTTTTCTTTCTCAAAAACTTATAAAAGAAGGTTTCTATCCTATTAACCCTCCTCTATTGGTAAAAGAAAAAGCACTTTTTGGAACAAGTCATTTTCCTGTAGATCAAGATCAAGTTTATCAAGTTGATTCATCAAAGATTGAAGATAATAATAAACTATATCTAGTAGGATCATCTGAACCTACTAATTTTTCATATTTTATGGATAAGATTCTAGATTCACTTCCTCATAAATTTTTTGCAAATACTGTTTGTTTTAGAACTGAAGTTGGATCTTGGGGAAAAGATGTAAGAGGTATAAAAAGAGTACATCAATTTGATAAATTAGAATTAGCAGTAGTAACTCATCCAGATAAATCTAATGATGCTTTTTATGAACTTTTAGATATTAATAAATGGTTTTGGGAAAGTTTAGAGATACCTTTTCATGTAATTCTAAAATGTAGAAAAGATTCAGGATACTATGCATCTTCCCTTCAAGCAGACATAGAAACATGGTTACCTTCTCAAAAAACTTTTATGGAAGTTGGAACCTGTACTAATACAACAGATTATCAAGCAAGAAGATTAAATATTAGGTATAAAGACAGTAATGGTAAATTACAGTATGCTCATACTATAAATGATACAGGAGTGGCACTAGGAAGGGCTCTTATTACTCTTATAGATAATTATCAACAAGAGGATGGTAGTATTATAATACCTTCTGTTCTAAGACCTTACACGGGCTTTGATATTATCAAGAAAAATTGATATCATGTAAGTATGGATATAAGATATGCTACACTCGGTTATCTACTTACAGATGCTGAGAAAAGTTTTATAGAAGATAAATTATTAAAACTTTCTCATCTGATTGAGCCTGATTCTGTTATTAATATCAAAATAAAAGAAGAGAAAAAAGGTTTATATAAAATAGAAATCTCAGTTGCTGTACAAGATGTTATCATTAGGGTCTCTAAGACAGATACTAAGTTTTATAATTGCGTAGAAGATACAGTACTAACTCTAAAAGAAAAAATTAATAGATATAAAGATAAAAGTAAAGAATATTTCATTGGAAATAGAGATTGGGATGAGTTTTCAGAAGAAAGACATGAAGAAATGTCAGATATGGAGTATAGACCAATTGTAAAAGTAAAGAAATATGAAGATGATACTCCAATACATCCACAGGAAGCAATAGAGAGAATGATACTACTTGGACATGATTCTTACTTATTTAAAAATATTGAAACAGGAAAATATTCTATGGTTTACAAAAGAGAAGATGGTATTTCTTTTGGACTTGTAGAACCATCATGATTTATGTAAAAGTATTTTTGTTGTTATTGAATTAAAAATATTAGTAATACCCTTATTTATAACCCCAATAAAATCTTTATAGTAGCTTATATTTAGCGCAGGATAGAGTATTATTAAAAGTATTATAAATATAAAGAATGATATTGTTATATTTATAATATAGTTTTTTACTAAATATTTTCTTACTAATATAAAAGATAATATTGCTAAAATTAAAGCTACAGGATAATCAATAGATATAATATATATCATTTGAAAAAATGTAGAAACATTCATATCAGTTAAAAGTACCCGTTATAAGGATAAGGAAGATTATTTGAAAGATAAAGACCTATATTATTAATTATTATTGTGAGTATTATTGATATTACAAGAATAACTATTACAGATAATATAGTAAACTTTTTCTCACTTCGTATTATATTCAGTCCAGAAAGAATTAAAAATATTCCCCAAAATAGAGCAGAAGAAATTATTCTAAATAAAGATGAATATGATAATAGAATTATTAATCCTAAGAAAATTAATAATGAAGCTAGATTCTTTTTATTCTGATCAATATCTATAACTTTACTACTACTCTTAGTATAATCAGAACTCATAAGTAATGCGAGCACTATATATGCTAATATTCCTATTCCAAATGTAAGAGTAAATAATATAAATACAATTCTTATCATCGTAACATCTAGATTATAATACTCTGCAAGTCCAGAACAGACTCCTAAAATTATTTTGTTATCTAATTTTCTTTTTGGCATATGTTGGTATTTTAATAAAATATATGTTTTTTTGCAAATTACATAGAAGATAAAATATATTCTATCTCTTTGCTTCTTTTTCCCATAGTTCTTAGTAGTATAGCAGTAATGCTTTTAGCTGTTTCCTTTTCTGGTTCTATTATATGATCTACACCTGTTGAGCTTAGAATATCTTTATGCTTTGGAAGATGAGATCTTGCTATAATTTTTATCTTCGGATTTATATTCTTTGCCATTTTACTTATCTTATAATTAATATCAATATCAGGTGTTGTTATTATTAAAACATTAATTTTATCTATATTGGCAATTTTTAAAATATCTAATGATTCAGCATTACCATATATAAATTTTATATATTTATTATCACTTCCTTTCATTAAATTTTCATTAAAATCTATAACTGTAACATTGATTAAATTTTTAGATAATGTTTGCACAATAGATCTCCCTACCCTTCCATATCCTATAACTACAATATTTTCTTTAATCTTTGTTCTAAAATTTGAAATATTTAAAGCCTCTTTGTTATATTTCTTTATAAAAGGAAAATGTTCTCTTATAAAATTATATATTTTAATATCATTTTTTATAACAAGAGGTGAGAATATTATAGTTATTATAGTAATTGATAAAAGTAAGTGATAATCATAGAATGATATAAATTTATAAGAGTATGCAATAGATGCTAGTATAAATGAAAATTCTCCAGCTTGAAACATATTTAGCGATATAATAAAAGATTCAAGAGGGTGTAATTTGAAATTTTTTAACGTTACAAAAGTTATAAATGTTTTTATCAGTGATACTAAGATGACTATTAATATAATAGTTATAATATTTTGAAGAATAAAAGATATAGGTGTAAGTGTTCCTATTAAAACAAAGAAGAATATAGAAAAAATATCTTTCATAGGCCTTATTTCTGAGGCTATTTCATGATTTAACATCCCTTTAGATATGGACAGTCCTGCTATAAAGGCTGCTATTACAGGGGATATACCTATAAAAGATGCAAAGGTTATCATTATAAATAATATTGTTATTACTGCGACTATTAATAGTTCTTGTACTTGAGTTTTTGCAATTTCTCTTAATATTTTAGGAATTATAAAACTCGCCAAATAATATATTACAATAAGAATCAATATAGTCTTTAGTATTATTAATGATATAGAAAGTATAAAACTAGTACCTATGTATTTAGAAGAGAATCCTTCTATGAATAGTATTATAGGTATTGATATTAGATCTTGTAGCATTAACCATGCTATAGTAATTTCTCCCTCGTTTGAATAGTTCCTGTCTAAATCTTTTAAAACCTTACTTACTATGATTGTGGAACTAAATGATAGTGCTAGAGATATTATGAAACTTTGTAAAAATGGTATTCTAAAGAGGAATAATAAGATAGTTATTATTAGTGTATTTACTATGAATTGAATAAAGATAGATCTAAGTAGTATTTTTTTATAGCTAATTATTTTAGATATTGAGAATTCAGTTCCTGTATAAAAAATTAAAAGAGCTACCCCTATTAAAGATAAATTTTGTATATAGCCTTCTGATATCTTATTTCCTAAAATAAAACTTCCAGCTATCATACCTATTATTATATATCCAACTATTGTATATTGTTTTAATCTTACTGAAATATAGCCCCCTATTAAGGCTAGTGTTAGTGTTATTGTTGTATAAATTACTAATGTATTCATTGTAATGCTCTTTTAACTTCTTCTATAATCTGAGAGGGGAGCATTTCATCTTTCATTAAATAAGCTGTAATTCCTAATAGATAAGCTTGATTAATTATAGCAGGTACTTCTAAGTTTGATATAATTATTACTTTTACAGTATTACTTTTTTCTCTTATTTTCTTTAGAACATCTATACCAGATATATCAGGTAACATCATATCTAACATTATTAAATCATACTCTGTCTCTTGATTTTTTTTAATAGCATCTTCTCCGTTCTCAGATATATCAAAATCTAAATTAGCAAATTTCAATTCTTCCTTATATATATTTAATAGATCTTTATTATCTTCAACTAATAATATTTTGCTCATAATGGTAAATTGATTTTAAAAGTAGTACCTATTCCTTCGATAGATATGATTTCAAAACCTCCTTTATGTGCTTCAATTATTAAGTGTGTAATATACAAATTTAATCCTCTATCTTCTAAATCCCTTATTGTATCAAATATCTCCTTCTCTTTTTCTAGTATTCTTTTTATCTCAGTTTTATTTATACCGACACTATCATCTTTAATCTCTATGAACCAAGTTCTATTATTTATATATGAATTTAGACTAACTGTTGTTCTGGCTTTATCAAAAGAATATGAAAGTAAATTAGAAAGTGCTATTTTTATCTTTTCATCATCAAAAGATCCTAATTCTTTATTATTTATATCTATATCAACTAGATATTTAATACCTTTTAATTTTTCAGTTGCACTAAATTCATATTTCATCTCTTCAATTAATTTATACGGATAATTTTCACTAGGGGCTATTGTTATCTGGTTATTTTGCAGAGTTAATACACTCAAAAGATCAGATAAAAGCATATCCAATTTTCTTGCATTATCATTTATTTTTAATACATAATCCTTCTGATTCTGATTTAATTTACCTACTCTTTCATTTAAAAGTAGTTCTATATATCCTTCAATTACAGATATAGGGGTTTTTACTTTATGAGCACTTATATTTATAAAAGCATTTTTCAGTTTATTTAACTTTCTGGCCTTTTTATCTCTTAGTATAGTGTTATGTAATATTTTTTCACTTTTATTTACTTTCTCTGATAACCATCCTGTAATAATACCTATGAATATTATTATTATTACTTTTGTTATTGTATCTGCATAATTTTGAGATAAAAAGGATTCTATAAAGGCAAATGAGATTCCCGCTGTAAGGCCTTCTGCCATAGCTGCATTAATTCCATATTCAATAGTATCAAAAGTTATAGAAAGGATTATAAACAAGTAAAGATCAGTTCCTAATAGATTTGTGTAATATAATAAAAGAACTATAATAGCTCCATCAATTGCTGATACTATAGATCCTATTGCTTCATCTGGAAATTTTTTAAGAGAAGATAGTATAGTTCCTACATTTCTATATATTTCTGTAATCAAAAATATAAATATTATTATAAAAAGAGAAGCTAGAGATACTCTGAAATATATAGCAGACAACAATAAGAGAACCTTGATAAGTATTCTAAGAAAAATTAAGGATGCTACAGGCACAGATATTTGTGCTTGATTTATATATTTAGAAAACTTTTTGAGCATAATTCATATTATTATAAAGGAAAGAGTATTTCAACCTCTTTAGTAAAATGAGAGAATATATTACTTTGGTGAGGATAAAAATATATAAAAAAGATTACCTTAATTTATTTAAATTTAGAGTAATAAAAATAATTTGTAAGAATATTTTTTATATAACTAATTTCTTCTTTTTCCTCACAATATCTATTTAAAATATTGGCATTAAGAGTCTAGAAGTTTTTTAGATTCTAGAATTATGAAATTTTTTACATCTTGCCAATTAACAGGTTTTAATAATTGAAGATTTGAAGGTTTTTCTGCATTTTCAAAAAAGGCAAGACTTTTAATATAATGGTATGTATTAAAATCATCAATTCCATATTTAGTAGGGAATTGATCAAAGAGTTCTTTAAGTGAAATATTAAATTTACAGATAAAATAAAGATCTATAAAATCTTTTTTTAAACCTCTATCAGCTATTGCAAGAATCTTCATTAAACCTATATCTTTTAATTGTGCAATATTAATTCCATCTTCTTTTCTAAATACATCAATTAGCTTATAAGGAAATCGGATAAAACTTATTTCACAATCATTATAAAATCCTCTTAGAGTAAAGTTATTTGTAGAAATATTTTGTAGATTTATGCCACTTTGATTAAGAGAGTATAGTAAATCTAAAGGAATGAACTCATCTTTTATAAAAAAATCTAGATCAAATGATACTCTATGTCCAATTTGCCATGCTAAAGCTGTTCCACCTGCAAGATAAAATTTGTCAATTTCCGGATTTTTCGTTAATAAATCCAAAGCTTTTCTTGCTTTTTTGTCAATGGCATTGTCAAACATTTTATTGGTTCTTGAATATTAAAATAATACTTCCAAAAATATCCTGTACGTTTAGATATTTCTGTTGAATTTTTTACAATTTCAATTATATCTTCTGATGAGTATAAAGAAAGAATTTTTTTTACATCTCTAAGATTTCCATGTTCTAAGACTCTAGAAATGATAAGATATTTATAAGTTTCAATATCCATGTCATTTACTCTGCTATCCCATAAATATTTTTTGAATTCTTTAGGTATCATTTATACTACTATTATAACAAATAGCATGATAATAAACTACCCTAATGATCAATAAAATATATGTATTTATAAAGGAAAGAGTATTTCAACCTCAGTACCTTTATCTTTCTCTGATGATATATTTATTTTCCCTTTTTCTTCATTAATCAAATTTTTTACTATATATAATCCTAATCCAAAACCTTCAAAATTAGAGTTCAGTACATTTGTTGATTTATGATATTTAGAAAATATATTTTCCATCTCTTCTTTACCTATACCAGTTCCATAATCTTTTATTCCAATAGAAACCACATTATTTATAGTCTTAAGTGTTATATCTATAGAAGAGTTAAGATGAGAATACTTTATTGCATTATCTAATATATTGCTTATTATAATTTTTAATTTACTGTCATTTATTGCAACTTCAATTTGTTGTGATTCAAAATTTTTATTAATAACTATTCTTTTTGAATTTATTTCAGGATCCATTCTTTCTATAATTTCAGATATTATTAAACTTACATTTGTTTTTATTTTAGTATCTTTTTTTGTGTTATCTATAATATCTAAAACTTCTTCCACTAAAGAATATAATTTATTTACATTATTATTTAATAAATTAAAATAATTTTTCTTTAATTCCTCATCTTTAGTATATTCTATTAATTGTAAATATCCTCTTATAGTTGCAACAGGGGTTCTTAAATTATGAGATACAATAATTGTAAATTCATCTTTTATATCAGATGTATTATTAAATTCATCAATCTCAAGATTATTTTTAGTAAGATCTTCTGTAGGTGTAATTTTCTGTATTTTTATTGATTGATAGAAATATTTAAATAATAATCCTAATATTGATGACAGTATAACTAAAAATATTGAAGCATTTGCCTTGGAAGACAATATTTCTAGTATAGATAAAATAGGGATAAGTATTATTCCTATATATATACTCTCATCTTCAAAGATAATAGTATTAACTATAATTAATGCAAGTAATAAGAATGTCAATATGTATATATTAGAACTAATAAAAATGAATATGAAAAATATCTCTAAACCTATAAGTATAGAATTTATAGAAAATTTAAGTATTCTATAAATAATTTGTTCTATATACATGAAAAAAATCTTTACTATTTCTATAGATATTATTATTTCAAAAAATTTAGAATTTATATTAAAGCTTAAAAAAGTAAATATTATAAGAAACGTAAATAAATACTGAGTAATGTATCTAGTATTTATTTTAAAATTGTTATTCATAACTATTTTATATATTTTAATATTTTTTTTGCAGTTTTTTTCCAGCTATAATAATTTAATCTTTTTTCAGCTTCTTTTACAAGCTTCTCTCCAATTTCCTTATTCTGAGCTATTCTATACATGTTTAATGCCACATCTTCTTTATCTTTATTGTCTACAAATAATGCTCCTTCATCTCCTATTACTTCTCTTAAAACTTCTATATCAGAGCAAATAATAGGTACCTTAACATATGTAGCTTCTAGTAAAGGTAAACAGAATCCTTCTTCTTCACTAAGAGTTATAAGTGCAGTTGATTTTTTTAATATCTCAAATTTTTCTGTATTATTAATATCTTTTAATATATATACATTTTCTAAATTTCCTGAAATTTGATTTTTATCAACGCCTATGAGAACAAGGCTATCTTTTTTGTTATATTTTTCCCTATATTCTTCAAATGAATCTATTAATATATTTAGGTTTTTGTGAGGTTTACTATTACCTATATATATAAAAAATGAACTATTAATATTGTATTTATCTAAGACATCTATACCTTCATAATAAGATTTAGGAATACTTACTCCCTCTCCTGTAACTTTAATTTTCTTTATATTCCTTCCTCCAAAATATTTAATTATATCTGATTTTACAGCATGCGTAGGTACTAGTATTTTTAATGCATGAGACATAGTCCACTTTAAGTGTAGAGAATTATATAATCTATATTTAACACTTACATATTTAGGATTTTTAATTCCTATAATATCATGTAAGGTTATTATATAAGGTACTGGTAAGATGTAAGCACTTCCCCATATATGAGTCCAAAAAAGATCAATTTTAAGTTTTTTTAATTCTTTCCCTAATATAAATTCTGATTTCAAACTTTGAGATTTTGATTTTATAGCAACAACTTTAACATTTTTATTATTCTTATATAAACTTTTATATCTCTCATAAGTTTTTCCTTTATTAAAAATAAGATAATATACGCTTTTTTTATCGAGTTTTAATATTTCTTGTGTAAGATTTTTAGTATAATTTCCTATACCTGTTTCAGCTTCTAAAACTTCTCTGAAATCAATACCTATATATTTCATATACTTGAAAAACCTTCTGGATTATTTTTATACCAATTCCAAGCAGTTTCTATTATATCTTTAATATCATACTGAGCCCTCCATCCAAATTCTTTTTGAATAAGCTCACTGTTAGCAACTAGAAATGCAGGATCTCCAGATCTTCTGGGCATTATTTTAGAAGGGATATCAATTCCTGTTATTTCTTTTGAAAGATCTAGTATTTTTTTTACGGAATAACCTTCTCCTACTCCAAGATTAAATATATGACTTTCTCGGTGTTCTATAAGATTATCTATTGCAAGAACATGAGCTTCAGCAAGATCATCTACATGGATATAATCTCTTATACATGTTCCATCTGGAGTATCATAATCATCTCCATAGATATTAATAGCATCTCTTTGTCCTAGAGCAGTTTTTAAAATTAATGGGATTAAATGAGTTTCATTTAAATGATTTTCTCCTATATTTTTAAAATGTGAAGCTCCTGATGCATTGAAATATCTTAGTGAGATAGATTTTATTCCAAATATACTGTCATAAAAATATAATATATCTTCAAAAACTGATTTTGTTAAACCATACATATTGATAGGATTTTTTTGTGTATTTTCTTTAATTTCTTTATCTTTATTTCCATAAACAGCAGCAGAGGAAGAAAATACAAAACTTTTTATATTTGCGTCTTTCATAAAGTCTAAAATTTCAGTAGGTACTGTTATATTATTTGATACATACTTTGAAGGATTAATCATTGATTCTCCAACCTCTATATATCCTGCCAAATGAATTATCCCATCTATTTTTCCAAATTTTTTATTTATTTTCTCCAGATTTTCTCTGTTTATATCTCCTATAACAACTCTGTCTTTTAAATATTCTACTGCTTTAATATGTCCTGAATATAGATTATCTAAAATAATGATTTTATATTTTTTATTATACAGTCTTTCTACCACATGGGATCCTATATACCCTGCTCCTCCTAGGACTAATATTTGTTTATTTTGCATCTTTATGTTTCTTGTAATGTATTTTTAATGATATAATCATATTATGAAATATGCAATAGTTCATGATGATTTCATACAATTTGGTGGAGCAGAGAGGGTTGTCGTATCACTGAACGATATTTTCAAAAATTCAGATGTATTTAGTTCTATTTCTAGTGAAGATAATTTAAAATTATTTGAAAATTTTTATCTTTCTTCTGCACAAAAATATTCTTTATTTAAAAAGTATTCAAAACAACTATTTTTTATCTATCCTTATATTTTTGAAAGTTTTAATTTCAATGATTATGATATTGTTATATCGTCTTCATCTAGATTTGCACATGGCATAATAACTCAACCTAGTACTATGCATATATGTTATATGCACTCACCTTCAAGATATATATGGGATTATGAAGATTATATAAAAGAGAAGAAATTAAATATTTTAGAAAGAATATTACTTCCTGTATTTAAATCATATTTAATGATGTGGGATTATGCTGCAGCTCAAAGAGTAGATTACTTTATAGCAAATTCTTCGTATACAAAAGATAGAATTAAAAAATTTTATGGAAAAGAGAGTGTCGTGATATCACCTCCTGTAAATATAGATAAATATCTTGAAATTAAGGATACTAAAGGAAAATATTATTTATATGTAGGACGTATAGTACCTTGGAAAAGATTAGATATAGTGATTGATGCATTTAGAGAAAATGGCAAGAAATTATGTATAGTGGGAAGAGGAGAAAAAGAGTATATATCTTTACTGAAAAGTAAATCATCTTCTAATATTAAATATATTGAAAACGCTACAGATGAAGATTTAGTTAATATATATGCAAATTCAAAGGCTTTAATATTTCCTTCAAAAGAAGATTTCGGAATTGCACCTGTAGAATCTATAGCTTCAGGAAAACCTGTTATTGCATATAAGGAGGGAGGGGTGAGTGATAGCATAGTAGATGGTAAAAATGGAGTATTATTCCCCACACAAGATAAAGATTCTTTAAATATTGCAATAGAGAGATTAGAGAGTTTGAATCTTAAATCCGCTGATATTAAGAAAACTTCTCATAAATTTTCTGCAAAGAATTTTAAGAGTAATATGGAAAAATTCATAGATATATGTCAAAAAAAATAAAATTAGCTATTATTACAGATCCATTAAAAACTTATGGTGGGCTAGAAAGATTACTTTTAGGTATATTAGAATTATATCCTGAATCTTTTGTATATACACCTTTTTATAAAAAAGAATCTCTACCTAAAGAATTTTCTTTATATACTATTGTTGAATCAAAGTATGCTTCTTTATTAAAAAAAATTGGACCTTTAGCTGTTCTTTTATATCCTTTATCCTTTGAATCTTTTTCTTTTTTAGATGATTTTGATATATGTTTTTCTATAACTTCTGGATTTGCTAAAGATATAAATACAAAAAATAAGCCTCATATCTCATATATAATGACGCCTCCTAGATTTTTATGGAATTTGCCTAATAGTAACCAAGATAGATTTAGGTTTAAAAAAATTCTTCTTTTTATTAATAATACTCTTAGATTAAAAGATTTTTATTCTTCACAATTACCTCAAAGATTATTGTCTATCTCAGTTACTGTACAGAAAAGAATTAAAAAATTTTATAGAAGAGATTCTTTTGTATTATATCCTTTTGTAGACACAGAACTTTTTAATATAAATAGTAAGTATAAGGATGGAGATTATTTTATTATAATATCTCGTCTAGAAAAATATAAGAATATTGAGACTGTTATAGATATATGTAATAAATTAAAACTTAAACTTATTATTGTGGGAAGAGGATCATATCAAAAGTATTTAGAATCTATTGCTAATAGAAAATATATAAAATTTTTAGGGTATATTAAAGATAGGGATATGATAGATATGATAAATGCTTCTCGTGCTTTAATATTTCCAACAGCAGAAGATTTTGGATTGGTTCCTGTAGAAGCTTTAGCTTGTGGTAAAAGTGTTATTGCATATAATAAGGATGGAGCAAGTGAAGTTATAGTAGATAAAAGTAATGGATATCTTTATAATACTAAACATGAGCTGGAAAATATATTAATTAATTTTGATAGTAGTTTATTTGATAGATATAAGCTCAGAGAGAGTAGTATGAGATTTTCAAAAGAAGTATTTAGAAAAGAATTAAATAAAATATTAGAATCATATGAATAAATTTATAATAAGATTTTTAGATATATTAGGATCTATTGTGGCCTTAATCATATTTTCACCTTTTATGATTATTATAATCATAGCTATAAAAATAGATACTAAAGGACCTGTGTTTGCTGATACTCCAGAGAGAGTAGGTTTACATTATAAACCTTTTAAATTTTATAAATTTAGATCAATGATTCAAAATGCACATACTATTCTTAAAACTGATCCTAAATATAAGGATATATATGAAGAATATAAAAAAAATAATTATAAATTAAAAAATGATCCTAGGATTACTAAAGTTGGTAAGTTTATACGGAAATATAGTTTAGATGAACTTCCTCAATTTATAAATGTATTGAAAGGTGATATGAGTTTAGTAGGTCCAAGAGCTTATTATTTTGATGAATTGGATTATTATATAGCGAAGAAAAAGAAATTTAAAAAAGATATACAAATCATAACTTCCATAAAACCAGGAATTACTGGAGTATGGCAAGTGTCAGGTAGATCAAATATACCTTTTGACAAGAGGATCCAAATTGATTTAGAATATGCAATGAATTATTCTATAAAACAATATTTTCTAATTCTTTTGAAAACACCTATGGCTGTTTTTTCTAAAAAGGGAGCTTACTGATGTCTGTTATAACTTTAGATAAATACAAGGGAGAGGCTTTTAGAAAAATGCCGATCTATAAAAGAAAGTGGTTTTTAATAACTATACCTTCTGTTATTGTTGTTATACTTTTTTTATATATTTTTTTATTCTCAAAGCTTATAGGTCTATATAAGTCATATGAAGGAATAAAGGGATCCTTGACTCTTATAACCTATTATAAGGATAAGAAAGATTTATCTGGCATAGAATCTCAAATACCTAATATTAATAATAACTTAATTTTAATGAGAAGTGATATTAATGCATTGGGTTATTTGAACTATATTCCTTTTTTAAATAATTACTATAAATTAGGATTTAATCTTATTAATACAGGTTACTATGCTTCATCTGGTTTTATGAAAGTTGAAGGAGGTTTGAATAATATAGCTCCTCTTTTTGGATATAGTACAACTTCAAGTACACAAGCACATACAATTACAGGTCAACAAAAAATATATGAGATCGTACAGTCTCTTCCTCAATTATCTAAAATTTTTAAAAAAGCATACCCTGAATTCCTAAAGGCTAATAGTTATATGCAAAATGTTGATGTTCAATATATCCCTTCCTCTGAGGAAAAGAAATATAATGTATCTTCTTTAAAGACGGCATTTGCAGGCGTAATTGCTTCTTTGCCAACTTTATTTAATTCAACTCAAACATTAGATAGTATATTGGGAGTTCCTACTCCTCAAAGATATTTATTGATGTTTGAAAACAGTGGAGAGATAAGACCTACAGGAGGTTTTATGACAGCTTTTGGTTTTGTTAATTTTGATCAAGGAAAATTAGGAAGTATTACTGCAACAAATATTTATAATATATCTAATGTTATTAATTACAGACCTTTAGCCCCAAGAGCTTTATATGTTTATAATGGAACTAAGCACTGGTATCTGAGAGATGCAAATACATCCTCTGATGTTCCTGAATCAGTTCAAAATATATATAAATTCTATAACTCTATATATAATGCCCCTACAATTGATGGTGTTATTTTTATAAATACATGGTTTGTAGATGATTTAATTAATGCTGTTGGTGGCATTACAATGCCTTCAGCATATGGAAATAATTTGGTTTTGACAGCTAATAATGCTAATTACTATATGGAGTATATGGCTGAAAAATCAAATCTTCCTCAACAAGAAAGAAAAGATTTTATATCCATAATGATGCATACATTAATATCAAAAGTTTTTCATTCATCAGGAAATAAAATATTCAATGTACTTAATGTTGTTATAAAAGATTTATCACAAAAACAAGTTTTGCTTTATTTCAATAATCCTAAATCAGAAAGTTTAATTGCTAAGTATGGATGGGGAGGGATTATTCCAACATCAAACAAGTATGATTATTTGCAAATATCTGAAGCTAATCTGGCTGGAGCAAAAGATAATTATTTTATGGGAGAAACTGTTAATGTAAATATATCAAAAGTAGCAAATCATTATGTGCAATCAGTATCTGTTACATGGGTTAACCCTGCTGTATATGATGATTGGTTGGTAGGTCCTTATCTTGCTTGGGTTAGGATGTATACACCTCTGGGTTCTAAATTAATATCAATGAAAGGTGTTAATGGATTTGTACAAAATTATACTAATAGTATTGTTCAAAAAACGGTATTTGGTAATCATATAAGAATAGCTCCAAGGCTTTCTAAATCAGCTCCTCCAGCTTCAGGAACTCTTACATATACATATGACCTACCTTCTAATATTAATTTATCTAAATTTATATTTCAAAAACAACCAGGAATAAAAGGAGAGTGGTTAAATGTTAATTTTGGTAATATTCATAAATCTGTATATATTACATCAGATGTAACTTTGGATTTATAAAATAATGCAGGAGGGTGTAATACTCAAGTACGTTGATTATAAAGAAAATGATAGAATAATAACTATTTTTACTAAAGAAGGAAAAATATCTGTTATAGCAAAGGGACTGAAAAATAATAAAAGATTTAATTCTTTAGATATTGGAAATTGGATAAACTTTCAAAGTATAAAAACAAAGGGAATTCCTATAATAACAACAACAAAATTAATTGATTCTTTTGCTAAGACAAAAGAAAAATACTCTTTATATGTTTTTTTTCTACTAGAGATAATACAAAAAATTCAAAGAGAGGGTGAGGATGAAGATTTATTATATAAGTTATTGATATACTCTTTAAAAAATTTAGAAAAAAATCCTAAGATATATTCTTCATTATTTTTAGTAAAAATACTTATATATGAGGGAGTTTTTATAGATCTTAATAATTGTAATATATGTAAAAAAAAATTATCAGAGAGTAATAGATTTATAATTTCTTCTGAAGGTATTTCTCATGAAGAATGTAACATGGGTAATCTCTATATATCTTTGTTTTCTTTGAAATTATTGAAATATTTTTCTTTATTTGATATAGAAATAAATTCTATTAATTTTGAAATAGAAGATGAAATAAAAAAAGAAACATTATTCTATATGATATCTTTTATGGAAAATTTTTTAGGAAAGGAGATAAATTCTAAAAAATATATTATATAAATAAAACAAAAGATTAAATTAAAAAATATACCTATTGAATCTTAGGGTATATACAATTATTTTTTTAAGGAAGCATATATAACAGGAACTATAAACAAAGTTAAAATTGTAGATGTAAATAAACCTCCAATTACTGTTATAGCTAATGATTGACCTATAAGTGTAGATGATGATGCAAATATTGCCAGAGGAAGTAGTGCAAATATTGTTGTTATTGCTGTCATAAGAATAGGTCTTAATCTTATTTTTCCACTTTCTACTAGAGAATCATAAACACTCATATTTTTATCATCAATATTTTGTCTTACTTTAGTTAATAGTACTATTGCATTAGTTACAACAATTCCTATAAGCATAAGCATTCCTATTAATGATGGTAAATTTAGAGTTGATCTTGTTATAAATAAACCTACTAAAACTCCAATAATAGTTACAGGAAGTGAGAATAATATAGCTATAGGTTCTGATATAGATGAGAATGTTGCTATCATTATTATTAGTACTATAAATACTGATATTCCCATTGCTTCAAATAAAGAATTGAAAGAAGAAGTTTGAGTAGATGAAGATCCTTGATTTACTATTGTTACTCCATATTTATTTTCAGTTTCATTTAAATATTTAGTAATAGTATTATTTGTAGTCTGTGTATTTCCTGATGAAATTAAAGCATTTATATTTACAGCTCTTATTCCATTTTGATAAGTTATATTGGATGTGTATGATTTATCTTGTATTGATGCTATTTTAGATAGATCTATAGATTGTCCAAATATATTTGTAACCTTGATGTTAGCAAGATTTGATATATTATTAAGATATATATATGTATTATATGTATTGTTTGCTATTCTATAACCTGAAATATTTTGAGGAATAAAGTAAGGGGATATTTCTCCTAATACTTGTTGTGAAGAAAGAGAATACTGTTGTAGTTTTTTGTTATTAAGTATTATTTCTTTCTGGTAAGTATTAGTATTTAGATTAGAAGAAAGGTTACTTAAATTTTTAAGACCCTTTAATTTATTCATAAAATATTTATTAGCACTATAAAGTTTATTATTGGAATTAGAATTTATAGTTAAAGAAACAGTATTAAGATTTCCTACAGCAGAAAGTAAGTTGACTTGTGAATCTAAATTTTTTATTTTATTATCATAATTTTCTATATTAGTAACAGTACTATTAATATTATTTGAATTGCTAAAAGCTAGATATATTTGAAAATTATTATTTTCTTGGTTACCTCCAATAGATGCAGTAGGACTTTTAGAAGAAGCAGAAGCTCCAACTTGTACAGTATAGGATGATAGATTTGAAATTCCTTTAAGATAATTTGTTATTTTTGTTGTAGTTTGTATTGTTTTTGCTTGAGAAGTTCCTAAAGGAAGAGACCCTGTTATTACTGCATCTGGTTGTTGAGGTGATGGAATGAATCCTGTCTGTATATATGGTATTAAGAATAGAGATGCAATTACAATAATAAATGTTACTGATATTGTGTAAAATTTATGATTTAGAGAATATTTTAATGCTTTTTCATAGTATTTTGCTAAGAAAAATTCTTTTTCTTCAATTTTCTTTGTTTTTTTCCTAATTAAAAAGATTTTACTAAATACAGGTATTACTATTATAGCTGTAAATAAAGATGCTATAAGAGCTGATACAGCTGTAAATGCAAATGGATTAAAGAATGATGAAGTAATTCCACCTACAAAAGCTATAGGAAGAAATACACCTATTGTTGTTAAAGTAGAGGAAGTAATAGCTCCTCCTACTTCTTTTACCGAATTTATTATAATATTCTCATTAGGATTATTACTTTCTGATATATGCCTGAAAATATTTTCAATTACAACAATACTATCATCAACTATTCTTCCTAATGCAACCGAAAGACCTGAAAGAGACATTATGTTAAATGTTATATTTTGAATATTCATTAAACTTAGTGTGAAAACAAAAGATATAGGTATAGATAAAGAAGCTATAAGAGTTGTATTAGGACTTCTTAAAAATAGAAATATTATTATTATTGCAAGTATTATACCTTGTAAAGTTTCATCTACGATTCCTGATATAGTGCTTTGTATGGTCTGTGTATCGTTACTTAATGTTATATACTCAACCCCTTTAGGAATAGTAGAGTTTATTTTATTTATAATTGTCTGTATTGTAGAGATAGTATTAATATTTTGTTGTCCTGTAACAGATATAACTATAGATTTCTTTCCATTAGTACTTACTACTTGATTTCTGTAAACAGAAACAATAGATGTTTTTGCTACATCTGAAAGTTTAATAGGTTTTCCATTTACATTTCCTATTACTGCATTATTTAAGTTATTTATACTTCCTATATTAGAATAAATAGTAAGTACTTGAGAAAGACCATTCTTGCCTTTTACATTTCCTATAGAAGAGCTTATATCAAATGATTTTATTATATTAACAAGAGTAGTGTAGGATATATTATATTTATTGAGTTTTAAATAATTAACATTAATATGTAGTTCTCTTGTTGTATTTCCATAATAGGATACTTGAGATACTCCACTTACATTATTTATATCAGGAATTAATTTATTTATTGCATAATTCTGAAACCCTTTTCCCGATAAAGAGATTTCAAGTATGGGTAGATTAGTGAAATTAAATTGAGATACTTGAGGTGTACTAGCTCCTAGAGGAAGTTTAATAGATTGTATATTTTGATTTAATTGTTGTTCTAAAGTATTCTGATCTACTCCATAATTAGAAGTTACAATAAGAGTAGTAAAACCATTATTAGAATTTTCTTGAACTGTTTGGATTCCATTTACAGATTTTATTGCATTATATATAGGCTCTGTTAATTGAGTATATACTTGTGATGCATTCTGATTTGGATATGATGCTTGTATTATTAATGTATCTAAATTAACATTTGGAAAAATTTCTCTATCTGCTGTAATATATGCATATGCGCCAAATAGTACTAAAAATATAAGTACTACAAATACTAAAATTTTATTCTTTATAGAATATCTGACAATTTTTTCTATCATGATTTTTACGTTTTTATTTAGTTTGTCTAATAAATAGACCTCCTAAGTATTCTAACATATATTTTCAAAATTTCAAATTTGTTATCAAATCTGATAGAATACCTTGTAATATGGATAAAATAGTATCATTAGCTAAAAGAAGAGGATTTGTATATCCCGCATCTGAAATATATGGAGGTCTTTCTAATTCCTGGGATTATGGACCTTTGGGTGCAATTCTAAAAGAAAATATTAAAAATGAATGGCTAAAAGAATTTGTTTTATCCAAAGAAAATATGCTTCTTTTAGATAGTGCTATTATTCAGAATCCAAAAGTTTGGGAAGCTTCAGGTCATTTAGAAAAATTTTCAGATCCTCTATCCGAATGTAGTAGTTGCCATAAAAGGTATAGATCAGATAATCTTATAGACGAGGCTTTAGAAATAGATGTAGATGGATTTTCTCTTGAAGATATAGATTCTTTAATAGATAAAAATAATATAGTTTGTCCTAATTGTAAAAAAAGATTTTTACCTACACAAAACTTTAATTTAATGTTTCAAACTTTTTTAGGTCCAGTTAAAGATTCTTCAGAGATTGTTTATCTAAGACCTGAGACTTGTCAGGGAATTTTTACTAATTTTGATAATATACAAAAGAGCTCAAGAGTTAAACTTCCCTTTGGAGTTGCTCAGGTAGGAAAGTCTTTTAGAAATGAAATTACTCCGGGAAATTTTATATTTAGAACTTTAGAATTAGAACAATTAGAAATAGAATATTTTACATATCCTGATAGAGCAGAGGATGATTTTAATATATGGCTTGAAAATTTCGAAAATTGGTATGAGAGAATTGGTATAAAAAAGGAAAATCTTAAAAGAGTTGAATTGAATAAAGATCAAAGAGCTCACTATTCACTGCGTACAGTTGATCTATATTTTAATTTCCCTTTTGGATTTAAAGAATTACAATCTTTTGCAAATAGATCAGATTATGATCTTAAAGCACATTCAAAATTATCAGGGAAAAAACTTTCTTTTTATGATGAAACTCAAAAAAAAGAAATTATACCTTTTGTTGTAGAACCATCAGTGGGATTAGGAAGATTATTCTTAGCTCTACTTTCAAATGGGTATAGAGAGGAGAAGACTCCTACTGGTATTCGTACAGTTCTATCTCTATCTTTTAGAATTGCTCCTTTTCAAATTGCTGTATTTCCATTAATGAATAAAAATGGAATAGATGTATTATCAAAAAAAATATATACAGATTTGAAAAATTATTTTAGAGTTGTTTATGATGAATCTGGATCAATAGGGAAAAGATATAGAAGACAAGATGAAATAGGCACACCTTTGTGTATTACGGTTGATCAGGAAAGTATTGATAATAATACAGTTACTATAAGAGATAGAGATTCTATGAAACAGGTGACTCTACGTATAGAAGGTATTAAAGAATATATAGATAAATGTTTTATATAATACCATCTCCATTAGGATCATTAGATGATATATCTAAAAAAGTTATAGATACAATTAAAAGTTTAGATATTTTATATTGTGAAAATCCTTCTCATACATCAAGAATACTTTCTAAATTTGATATTCAAGGAGTTTTACTTAAAAAATATGTAGATCAAAGAGAATTAATTTTGATTCCTCAAATAATAAATGATCTGAAATCTCACAAAAAAATTGGTTTAATTTCTGATGCTGGATATCCTACAATATCTGATCCTGGATATAAACTTATAAGAGCATTAGTAAATGAAAATATTAATTTTGAAGTTTTACCAGGTCCTACAAGTATCATTCCTGCTTTGATATATTCAGCACTTCCTTCAAATAAATTTATATTTATAGGGTTTTTATCAAAGAAAAAAAATAAAATAAAAGAAGAATTAGAAAGTTCTAGAGGTATAACTACTATTTTTTTTGAATCTCCTCATAGATTACATAAAACACTAAATTTTTTAGAAGAGGAGTATCCTTTATCATCTATTACAATATGTAGAGAAATGTCTAAGTTGCATCAAGAAATAATTCATGGAACTCCTAAAGAAATTTTAGATTCAAATAAGCTTAAGGATAAAATAAAAGGGGAGATAACTATTGTAATTTATATACCTTAGTGTTATTATATGATTATATGCGATTGATGTATTTGATGACAAAATTTAGAGATGTGGAATATGGATGTATAAGTCTATAAATAGTAGTATAATAGATTATTAAAACCTACCGAAATGAAAATAGGAAAGGATAAAAATTTTAGAGCAATTAAAATTAATAAAATATGACATTTAAAGATAAAATTATAGTAATAACAGGTGCAAGCCAAGGATTCGGCAAGGCACTTGCTCAAGCATTAAAAAAAGAAGATGCTCAAATTATTATTTCCAGTGATAACGAGAAAAATCTAGAAAACACAGCAAAAGAATTATCTGTTGATTTTTTTCTTGCCGATGTAACTGTCTTTGAAAATGTCAAAAAACTTAGTGAATATGTCATTAAAAAATATAGGAGAATAGATTTTTGGATTAACAATGCAGGAATTCAGATTGCTCCAAGTTTAGTTGAAGAAATTGATATACAAAAATTACATCATCTTTTTAATGTGAATTTCTTTGGATATTTCTATGGATGTAAAATTGCACTTTCGCAAATGAAAAAACAGAGACATGGAGTGATTATAAATATCAACTCAACTGCTGGACTTGAGGGAAAACCAGATCTATCTGCTTATGTTTCATCAAAATTTGCAATTAAAGGATTAACTGAGTCAATCCGCAAAGAAATTAAAGATTTAGATATAAAAATTTTGGGAGTATTTCCAGGTGGTATGCAAACTGATATTTACAAAGAAAAATATCCTAACGATTTAAAAGATTACATGGACGTTGATTCTGTAGTAGAAAAAGTTATAATTAATTTAAAATCCGAAATTCCAGAAATTGATTTTGTCATCAATCGCCCAAATAAATAAAGGATTTCTCACAAAAAACAAAATCTGTAAAATTTTGTTTAGAGGGTTATCTCTCACGAAAAACTTGAAATTGTCCTTTCCTCTCACAAAGAGTTCCGTTCGAATATTTTCAAACAGATACCAACCTCCATTTTAATCCGATAAAATTAATACCCAACTTTTAAAAATATCTGGTTAAAATATAGGTATGATAAAAAGAGATATTATCAATACAATTATTCACTTTTCACCTTATTATGAATTTATTTTTCTTGCAAAAAGATTATCTTAATAATTTTGTATTAATCTATACTTCTACTTATAAACTTCTTTATGATTTCCTAGTGTGTTCTCAGTGATGGATGATAAGGATTATTTATAAAAAAGTCTATCTTCTTATCAATTTTGAGAGTGAGTTTCTTGTTAGTTTTTATTAATTCTTTATACTGATTAGTAAATTTTGATGAATAATTTATTATCAGCTTTAAGATACCGTTTTAATAAAATCTTTGTGATCAGTAAACTTTTCAAGTTTTCCAGTTTCATATTCTTGTAATCCATCAGCAATATACTTTTCGGAATATTTAGAGGCTTGATATGTTGAAATACCCTCATCTTCAATATTCTTTATAAGTAGATATTTTATGAAAGTAGAAGTCTGCATATCAAATTCTGTTGCTTTTGAATCATAATAATCTTTTATCTTTTTTGGTAATGTTAGTTTTACTTGTACTGTTGTAGCCATATAATTATTTCTAAACTACTTATATTATACCACACTAATTAGTACCGTCAAGTACCAATTAGTGATTGTATATTACCACCTTCTTAATGGTCACCTCAAGTTTTTTCCGATTGAATATTGTAATTTACATATCTTAGTTCTACAATACAATTTGTATGTCAGTTATTGAAGTAAAAAATATAAAGAAAAAATATGGAGATTTAGAAGCTGTAAAAGGTGTGACATTTGAGGTTAATAAAGGTGAAGTCTTTGGTCTATTAGGTCCAAATGGAGCAGGAAAGACAACAACAATAGAAATGCTTGAAGGAATTAGTAAGATAGATTCTGGTGAAGCTTTTATATCAGGAATAAAAGTTTCTCAAAATAATCATCCTCTACAAAAAATTATAGGAGTATCTCTTCAAAGTAATAATTTTTTTGACTCCCTTACTTTATCTGAAATTCTTCTTTTATTTTCTCATTTCTTCAATGTTAAAATAGATCCTTCTGATTTTTTAAAAGAAGTTGAATTAGAAGAAAAACGTAAAACTTATTATAAAGAACTTTCAGGTGGACAGAAACAGAGATTTACTATAGCTCTTTCATTGATAAATGATCCTCATGTATTATTTTTAGATGAACCAACTACAGGATTAGATCCTCAATCAAGAAGACATATATGGGATATAGTATCAAACCTTAAGAAAAAAGGTAAAACTATTATACTTACAACTCATTTTATGGATGAAGCAGAAGTATTGGCAGATAAAGTAGCAATAATGGATAATGGATTAATACTAAAAATGAATACACCTCGTGCACTTATAGAAGAACTCATAAAAAAAGGGTTTAAAAAGAAAGTTGTATCTGATAAAAGAGCAAATTTAGAAGATGTATTTATAGATCTTACTGGAAAAAATTTAAGGGATTAATAATATGGTTAAAAGAATTTTTTATTTTACAATTGCAAGTTTGAAGATGACATTTAGAAATAGATTCGCTCTATTTTCTTCTTTTCTATTTCCAATTGCAATAATGTTTGCCTTTAGTTTTTATACACAAACATCTACTCCTAAGTTAAATATACAAATACTTTATAACCCTACAAGTAAAATTTTTGTAGAAAAATTAAAAAATGAACTTCAAAAAACTTCAAATGTAAGTGTTCTTAGTATAAATAAAAAATCTTCGGCACTCAAATCTTTAAAAAATGAAAAAACAGATTTGATTATTAGTATTATTCCTTCGAAAAATAAAGTAATACAGCCTGTATATAACAGATATATATATCAACCAGCTCCTATATCTTCTCTGAAAGTAGGCGCGAGTAATTATAATGTAGTTTTCTATCTAAATCACTATTCTACAAATCTTTTTTATGAAGAGATATTCGTTACAAATATAGAGTATAATTTCTTGAAAAATAGTATCTCATCTTTAGGGATAAAATCTCCTTTTGTATTTAGACAACAGTTTATAAAAAATTCTCAAACATATAGTTATCTTGATTTTTTAATACCAGGTATATTAGCTCTTTCTTTGATGCAAGGGATAATATTTGCAGTTATAAATATTATTGTAAATTATAAAGATTTAGGTGTTTTGAGGAGATTAGCAGTTACACCTCTTACAAAATCAGATTTTCTAGCATCCCTTACACTTACTAGATTGATCTTTGGATTGATACAAGTAGCTATATTAATATTTATAGCCTCAGTATTTATTAAAGTAATTCCACAAGGAGGAATATTAGGCTTTCTTAACCTTGCAATTATAGTAATACTAGGCTCTTTAATGTTTGTAACACTTTCATTACTTATATCATCAATTTCTAATAAAACAGAAACTGTATTCCCAATAGCAAATCTAATAACTTTGCCTATGTTGTTTCTTTCTGGAGTATTTTTTTCTGTACAAGGTTTGCCTGTATGGCTTCAAAATATAGTTCAATTTTTTCCATTAACGTATCTTGCAAATTCTCTAAGAGGTGTGTATGAACATGGATATTCTCTTTTTATACTTAGGGGAGATATTATCGGTATGATAATTTGGGTAATTATCTTATTTGCTCTTAATGTTAAATTTTTTAAGTGGGAATAGTCTAATAAATTTAGTAGATATTATAAATTTCAATTTATTGCTATAATATATCTACATATGAATAAGAAGAAACTTGGAGTATATATTAACTTTATTGGTAGTATAAATGAAAAGATTTCTAGTTTACTTATCTCCTTGTTAACAGAACAGTTAAGCTCTGGAGTAAAGTTATATAGGATAAATATATCTTCAGTTGGAGATATTGTTTTTTATGCAGCATCATTATTCAATTTTATATCAGGATTAAAAGATGTTATTGTGAATACTCATAATATTAGACAAACAGATTCAACCTCTAATTTATTATTTTTCTCTGGAACAAAAAGAATTGTAAATAGATCATTTGGATTTTTTTTACATTCACTAGAAATAATTATACAAAGTCAAATCCCTTTATTTTTAGAATTTTTAAAAGAAAAGGTAGAAGGGGAGGAAAAAGATGAATTAAAAATGGCAAAGATTATTTTTAATAAGATTAATAAGAATATAGATGAAATTTTAAAAATGTTCAAAGAGAGAAAGACATATTCAGCTCAAGAATCAAAAAAATCAGGTTTTATATTAGATATTAAAGATTCTGTAGGTTTTTCAGATATTCCTATTTATACTATTACTAATTAATCCTAAATAATAATGATACAAATTAATAAAAATAGTAATACATTATTGAGAATAAAAGAACTTATAAATAATTTAAGATATTTGGAAGGTATATCTCAAAATTCAAATATAAATATAGCTTCTTTTTCATTTATTACTCCATTATCAATAACTCCAATAGCTTCTATAATTAATAGTAAATCTTTAAAATATATTTATGAAGATAATAATAACTCTTATCTAGAAACAATATTATTTCCAAATGGAATAAATATGTATGATAATATTTTTACAAATAAAACTTATATCCCTATTATACATTTAGATATTAACCATTTATCTGAAAACGAATTAAATTCTCAATTAAATTTACTAAATGATAATTATATGAGTATATTAAAAACCAATATTATTACAGAGAAAAGATTTATAAAATTAATTACAGAAACAACAATTAGTTATTTTTTAGGAGAAATGTTTGCTAATATAGAAGAACATTCAAAGGCTAAAAATATTTATATCTTTTCACAATATTGGCAGAAATCTAATTCATGTGAAATTTGTATTATTGATGATGGTCAAGGTTTATATAATTCTCTGAAAAATGCAGGGAGAAATGTTATTAATAGTAAAGATGCACTAAGTAGTATATTAGAAAGAGGTTTATCTGCAAAAAATGAATTTGGAGAAATACAAAGAGGAACAGGTTTGAAAACCACAAAAGCATTACTAATTAATAATGAACTTAAAGGTGAATTTTTTATTATGTCTGGAAATGCGGCTTATTTTCAATCAAGTAAAGATAAAGGAATATTTATTAACTTGTCAAATTATTCATGGCAAGGTACAATTATAATGTTAAAATTTAAAAGTCCAATTAATCAATTTAGTTTATATGATTATGTTAAGTAAAAATATTGATTTATATAATTGTTTTAATTCTTCAAGTCTGATAACACGTAAATCTGCAAGTATTATTTTTGATGAAATATCTAAAATTCAAGAGGATAATATTATTCTAGATTTTCATGGCATAAAATATACTTCTCGCTCATTTCTTAATGAACTTATTAGTAAAGATAGTAAATTTCATTTATTAAATAAAAATGTTGATTATGTTAATATGTCTTCTGATATTAGTAAATTGTATAATTTAGTGAAAAATAGTTCTGGTTTGAAAAGTAGTGTCACATATCCAAGTTTGGCAAAAGCTAAAACAATAACTATATAATTTGAGTTCAAATTAAATGTTTTATAGGGTAATTATCTTACTTGCTCTTAATGTTAAATTTTTTAAGTGGGAATAAGAGTAATAATACAAATATAGAAAGAAATAACGAAAAGATTATCAAATCATATCCCCATCCTAGAATAAGTATTATAGGTGTGATGAGTATTAGTGTGAAATTATCTGATCCATTAAATGATAAAGATTCTGTAATGGAAAGTATTCCTGCAAGTATCATAGTGGGTATATAATTTATATTCGAAGCTATAAATATAAATGTAGTTGATATGAAAAATATAAAAGTTCCCATTATAGACTTGTTATCATTAAGTATATTGTATTGTTTGATAGGTATATTTATTCCTGTAAGTGCTGCAAGAGAATCTGAGATACCTGTTACTAATAAAGCTTCTCTTATAAGATATGTTTGCTTATAAAAGATGAGGGCTATTATTATTAGAGCTAATGCATAAAATATTCCTCCCCAATTTCCTTTCTTTGACCTACTATCATTTAGAGAATGAAAAATATGTAAATATTTTGAAACTATTACAGATATTAAAGACTCAATTACAAGTAAAATAAAAAAAAACTGATTAAGTGTAAAAGTCGCTAATATAAAAAGAATACTAGTCTCTATATGAGTTAATTTTCTTAAATACTCTTTAGATTTATTTGTTTTACATTCTTTTTTAAATAAAAATTCAGATGTTAAATAAACAAATATAAAAAACAGATTAAGTATTATAAGATATACTATATTAGTATGTAACATAATTTATCAGTATGATACTACAATTAATTAAAAAATTATATATGGTATTGTTGGTATGAATGTGTAATGACGCAGATTCTCATTATTTATGTTTTCAAGAATTTAGAACTAAATTTTCAGGTATCTTATATTCTTTGAATTCTTCTATTAAATTTTTGCCATATATTAGTCTAGAAAAAGCCTCTGCTTCCATAATTGCGCCTGTGAGTGCATTATGAGGATTAGGCTCTTCTGGCATTCCAAGTAGAGTATATATCCTATTTGTATTGAGACTATTTATTTTTGTATTTATATTATTTTTAATTATATAAAAAGCAGTGAGAGTATTGAGATCTATAGTTCTAAATGTAAATGGAAATCTAATTTGATATCTTTCACATGTATATATCAGAAAGTCTCTATCAAAACTTGGATTTTGACCAGCTATAATAGCGTCTGAATCTCTTTGTTCTTTTACCCAGTCTAAAAACTCAATAAGTGCATTTCTCAAAGTTTTTTTATCCTTATTTTCAAAAGATATCTCTGCTTTAGTAAACCCATTTATTTTTAAAGATTCTAGGTTTATTTCTGCACCCTCAAATATCTTGCATTCTGAATAGAATTTTTTTTTAGGATGTTTAAAATTAACAGCTCCTATACTTATGATTGAATTTTTTTGAGGATTTATTCCTGTTGTCTCTATATCTACAACAAGCATAATTAATTTTTATTGAAAATTACAGCAGTACCATAACATAAAACTTCTGCAATACCTTGAGCTAATTCATTTGTGTCATATCTCATAGATATAATTCCGTTTGCACCTAAATCTTTTGCATGCTGACACATTAAATTGTATGCATCATCTCTAGATTTTTCACAAAGTTGAGTATATAAACTAATATTACCACCTAATATAGTCTGAAAGCTCGCACCGATATTACCTAATATACTTCTAGACCTTACTATGATCCCTTTTACTACACCTTTATTAAGAACAATTGTGTATCCTGGAATTTCAAATCCTGTTGTAACTAAAGAGTGATCAAATACTTCATTTTCCATATGTTTACATGTATAATATTTTCATTATATATTATATCAATCATAAATGAAAATAGCTATTCTATCTAGAGCTAAAACATATGAAGTTCTCTCTATGAAGATTGAGGCTCAAAAGAGAGGTCATTTAGTCGATATACTAGATCCTAAAGATTTAGTGTTTAGTGTTATTAATAATCAGTTTAAAATCTTTTTAGATTCAGGAATTGATCTGTTAGAATACGAAGCATATATTCCTAGGTATTTTGGAATTACAGTGACTTCGAATAATAAAAAAAATTCAAAAAGTTTGATAGTAAAATATCTTCTAGATAATAATAAAATTGTTTTAGATAAAATTGAAGGAGAAAGACTAGGTGGAACAGGCAAAATATATTCTTTTTCTAAATATATAGGAGAAAATATTCCTCTTATACCTACTCTTTTTTCTTATCATTTAGAAAATTTAAATTTTATAGAAGAACAATGTAAATCATTAAATATTTCAGCTCCATATATTCTTAAGGATATCAATGGTGCTCAAGGAAGGAATATATTTAAAATAGAAACTCTAAAAGAAGTAAAAGAAATATTAAAAGAGAATCCTTCTGTTTATTTTATGTTACAACCATATATTGAATTTAAAAATGATTTGAGAATTCTTGTTCTCGGTGGGAAAATTTTAGGAGTAATGGATAAGATACACAGTGAAGATAATTTTAAAGGTAATATATCTCAAGGTGCAATAGGGAAAAATTTTATTATTACAGATGATATTAAAGATATAGTATATAAATCTTATTTTACTAATAAAGCTGATTTTGTAGGTATAGATATAGGCGTTTGGAAAAACTCTTTATATCTTTTGGAAGTAAATAGATCTCCTCAGTTTCAAGGAGTAGATAAATATTTAGGTATAAATGTAGCACAAGAAATTATAAAATATTTAGAATATCAATATATATTATGAAGATTTGTTTAATAATAAGGTCAAATAAAGGAGGGAATGTTAATAATTTTTTTGATGTGAATACTATAAAAGAAGCTAGTATTAAAAATGGACATGAATTTTTTTTATTAGATCCAAAAGATATAGTATTCTCCTTCAAAGGTGATGAATTATTTATAAAAACTATAAACGGTTCGGATATATTAGATTTCGATGCTTATATCCTGAGAATAAATATAATTAAAGATAAATATAAAAAACAAACTGATAAATTTACTATATCACAGTATCTTAGATCTCATAATAAATTTGTCTTTAATTACGCAGAAACAATAAGAGCTTCTAGTAGAAGTAAAATATATGATTTTTATAGATTAAATAAATTTAAAATTCCTCTTATTCCTACACTTTATGTTGAATCTTCAAAATTTGAGAGTACTAAAAAGTTTTTAGAAAAATCAGAAATTAAATATCCATTAATTTTAAAATCGAATAAGGGTTTACAGGGAAAGAATCTATTTAAAGTCGAAAATGAATCAGAATTAAAAGATATATTAGAAAATAAAAAATCTGTCTCTTTTCTGCTGCAACCATATTTTAAAATATTACATGATTTAAGAGTATTAGTATTGGGAGGTGTGGTACTTGGTGCAATGGATAAGATACACAGTGAAGATAATTTTAAAGGTAATATATCTCAAGGTGCATTAGGTAAAGTATTTGATTTATCTTTGGAATTAAAAGATTTAGCGATAAGAGCTGCGAGAGCAGATGGTTCTGATTTTGTAGGAGTTGATATAGCAATAACTGATAATGGGATTTTTGTATTAGAAGTAAATAGATCTCCAGGATTTGAAGGTTTTTCAAAATATTTAAATATAGATGTTGCATCGAAGATAATAGAATTTTTGGAAAATAAAGTATCCGAAGAATAAATATATCATAAATATAAATTTCATATTCTCCATTTTTCATTTATTTCATAATTTAAAGATTTTAATACCCTATAAGTAAAAGTACTTGTAATTTTTATGTCAATTTATCCTTTTTTGATAATATTTTTGTATATTTCCTTGACTCTTTTTATCCTTAGTATTATAGTGGTTGAAAGTGGTGATTAATGGTGATAATTATAGTATGATAAATTTATGATTTTAGGAGAATATACATCAAAATTACAAGAAAAAAATAGAGTAGTAATGCCTAAGAAATTTAGGTCTGAAATCGGAGATAATATTATCATAACTAAAGGGTATGAAGAATGTTTGATTGTAGTACCACTAGATAAGTGGGATTTAATGATAAAAGATATTATCTCAAAACCTTTTACTGTAAGCAGTGTTAGAGATACTTCTAGATTTATATTAGGATCTGCAAATGATATTAATCTAGATGAACAGGGTAGATTTGTTATTGGAAGTTCTTTGATTGAGCATGCTAATTTATCCGGAGAGATAATATTTTTAGGATTGATGAATTTTATTGAAGTCTGGGATTTTTCTAAGTGGAAAGAGAGAGAAAAATATTTAAGAGATTCAGGAGCTAATATAGCAAATGAGCTATCTTCGTTGGATGTATCATGAAAGTGTTCTTTTACAAAAAGTTATAAATAAGCTTGATATCAAAAAAAACGGTATCTATATTGATGCAACTTTGGGCGGTGGAGGTGTAAGTTTTGAAATACTCAGAAGATTAAGCGGAGGAGTATTAATTTGTTTTGATATAGATGAGGATGCAATTAAAAATTTTAAATCTTTGTTTTATTTAGAATATAAAACAAAATTTAAAGGTATGGAGGATAGTATAAATGGGAATAAAATATTTCTATTTAGGGAAAATTTTTCTAATATAAAAAATAGTTTAGATACGATTAATATTAGTAAAATAGATGGAATAGTATATGATTTCGGGGTCTCATCTTTTCAAATCGATGATGCGAGTAAAGGATTTAGTTATATGCAAAACAGTATATTGGATATGAGAATGAATAAAGATTTGAAAATTACTGCCCAAGATCTCGTGAATGGAATGTATGAGAGTGAGCTTGAAGGAATATTTAGAATATATTCTGAAGAGCCATTCTCTAAACAAATAGCTCGAAATATAGTTAAATCAAGAAAAATGGAAAGAATAGAAACTTCGGATCAATTAGTTGCTATTATAAAAAAAAGTATTAGAAATCAAGCTTATCTCTATCATCATGTATCAAGAATATTTCAAGCATTAAGGATCAAGATCAACAATGAGTTGGGCGTTATATTTGATTCCTTGCTCCTACTGCCCGATATTCTAAAGCATGGTGGTAGAGTAGTTCTTATAACTTTTCATTCCGGTGAAGATAGGATTGTAAAAAACTATTTTTCTGAGAGTGAAGAATTTTTTAATTTAGAAAAAAAGATTATATTACCTACAGATGAAGAAATCTTTATGAATAAAAGAGCTAGATCTGCAAAAATGAGAGTTTATGAAAGAAAATAAAAAATCAAACAATTTAGTAATAATATTAATAGTCTTCCTATTTACTTTAATAGTTGGACAATTATATTTGATGAATAATATAGATTCGTATAGCTATAATGTACAGAATCTTGTTTCTGAATATAATTCTCTAAATATTAAAAATCAAAATCTACAAACAGAAATATCATCTAATCAGTCTATTGTTAATATAAGAAACAATGTACTAGGTAAGGGGTATAAAAATGTAAATAATATTAATTATCTTCCTCAGAATGCATATAGTTTCAATATTGCTTCAAAATGAAAGAGTCTGTTTTTACTAGAAAAATCTTAATATTACTTTTTTTATTATTTTTAGGTTTCTTAGTTTTAGTATATAGGTTATTTAATATTCAAATTATAAACAATGCTAAATATGTTCAATTAGCATCTTCAGAGAATTCTTTTTCAAATACAATGTCTCCTCTAAGAGGTATAATAGAAGATTCTTCAGGAGGAATTTTGGCAGGAAATAGACCTGTATACTCAGTATTTGTTTCTTTAAATAATGTGATTGATAAAAAATCTTTTATAAATGAAGTTTCTTCCGTATTAGGATTAAATAAGAAATATGTATCCTCTTTATTTAAGACAAAACTTATTTGGGTACAGCTTGCAGCAAATGCTACTAACTCTCAGAAGAGTAAATTATCTAATCTAGCGTCTTTGACATTTCAAGAACATGAATTACGTTTTTATCCTAATAATACTTTATTTGCACACATACTAGGATTTTTAGGTAAAGATTATCAAGGTGATATTTCAGGATTTTATGGTGTGGAGGGATATTTTAATGGAGCACTGTTGGGAACAACAGGATATTCTAAAGGAATTGAAAGTGCTTTAGGTATACCTTTACTTAATCATAACTATAGTTTTGTTCCTCCGCAGAATGGAGATACTATAAAATTAACAATTAATCCTGCTATACAAGAGATAGTATCGACATCAATTTCATATTGGACTAAAAAAGAAGATGCTGTATCTGGTGCTGCAATTGTAATGGATCCTAAAACTGGAGCTATACTTGCAATGTCTAGTTATCCTAGTTTTAATCCTAATACTTATTGGAAATATAAATATGCAAATTTTCAAAATAATGCTATCTCTTTTATATACGAGCCTGGATCTGTTGGAAAACTTATTATGGCAGCAGCAGCACTACAAACTGGAGCTATGACTCCTGCTACTACAGTAAATGATGCTACCGGTATATTTCCTGTGGGAGGTCAGAATATATATAATTGGAATAAGCAACCTGATGGAGTTATGAATTTGGGAAAAATACTTCTTTTATCTTCAAATGTAGGTGCTAGTATTGTCGCTACTAAATATTTATCCTCAAAGATAATGTATAATTTTTCAAAAAGTTTTGGATTTGGAAAACTTACAGGTATAACTCTTCAAGGGGAAGAGACAGGGATTATACCTAATTATACATCGTGGAATGAATCAAATTTAGCTACAGATGCTTTTGGACAATTTGTATCAGTATCTCCTCTTCAAATTATAGACGCATATGATGCTCCTGCAAATGGGGGTAAAATTATGCAACCATATATTGTTCAAAGTATAACTTCATCTTCAGGAAAAACAGTAAATTATACGCCACAAGTTCTTTCTACTCCAATATCTTCAAATGTTGCAGGTGAACTTACTTCAATGCTTACATATACAACTCAAGGAGAACCTAATTGGGCTTTACATACAGAAGGTGTAGGTGCATATATGCCTATTATTGCAGGTAAAACAGGTTCTGCTCAAATGCCTTCTAAAACTCATCCAGGTCAATACAGTACTCATAACTATGTAATGACATATGTAGCTTATGCTCCTGCTAAAAATCCTAAATTTATACTATTAACAATGATGAATTCTCCTCAAAAACCACTTCTAAACCAATATTATGCTGCAACTACAGCTTGTGTAGAGTGGGGACAAATAGCAAATAAACTCTTTCCTTATTTTAATATTACACCTTAAAAACACTATAAAACGTAGAGTAGGATATAATTGACAAGGTTTTAAAAATCTCATAATATATAAGGAATAGAAAGAGAATAAAGGATGAAAAGAATCACAACAATACTGAGTGTATTATTGGTAGTATCAATGAGTATGATACTCTCTACTAGTACTGTATTAGCATCACCGCAATCGTTATTAAATTATCAAGGGAGACTAGAGAATTCAGCGGGTAATTTATTAACGGGGA
>sequence06
ATTTTATAATATTTAATTTATATAAATCATACAAATGAGCTGGTATTAATTGCGCTCTTTTATAAAAATTAATATTTTGTTGTTTATATACATTGGTATCATTAAATATATCTGGAAGTTCTTTTGATAATTTTTCTACTATTAACTCTGCATCCCATTTTGCATCATCAATAAATTTTTTAAATGAACCTTGATATTCATTTTCTATCAATTCCCCAAGAATATTTAATAATTTTAATCGCTCATTCAATAAAGGAATCTCTATATTTCCTCTAAATATTTCACTTAATTGTTTCTTTGTTAAATTTATAAGGAATTTAGAATTTAGTATATTATATCCTTCTGTTAGTGCTCTCTTAACAACTCTTATCATTGCAGCGCTTCCATCATAGTTATTCCCTTGTATATTTATGGTCCATTTAGGATTTCCCCAATATGAAAAATTTAAACTATTATATACAAATACAAAAGCTATATATTCTTCTTCTCCATAATTTTCACCTAACAAAGTATCCTTATTATATTCAGATTTTAAAAGATATGATTTATCTATATTTATTGAAAATTTATAAATTGATTCTTCATCAATCAAAACATTTGTCATTAATGGTAAAACTTTTTTTATTGGAGATAATATTGAATCCATACCTTTAATTATATAATAAAAATTCAATACATCATATTAAATCTAAAGTGATGCGCCTTATTTTGAACTATTTTTGTGTTGGATTGCAAAATTTATGAAAATCTATAATAAATAATCTCTTAAGAAAATACTCTAAAAACAAGATTGACTCTAATTTTAGAGTATTACAATATTGTCGTGACTATGAATACAAAGGTAATAAAAAGAGACATTGTGGAGGATATAATGCGTTATATCAATGACAGTAATATAATAGTCTTGCATGACGCAAGGCAAGTTGGTAAAACTCATATTCTTTATTATATAAAAGATCAGACAAATAATAATTACTGAAATATATGTATAATGCAAGTAAAGATCTATTAAATATAATTACAAATAATAGTATTAGTTATTGCTGGAGCTATAAAGATATTAAATAATTGTATATTCCTAGAATATCTAGATTGTTAGAACCTTTCTTATAATTATCCATATCATTAAGAACTTTCATAATTTCTTTGCTCTGTAGCTTTTTCACTTTTATAATAGAATTAAGATCATCAATTAAATAATTTTGTCTTGATACTTCATCAGGAACTATATAATCAAAAATCTCTAATGAATATTTTAAATATAATGGTAAAAATGATTCTATAAATTGATTAAGAATGTCGGTGTTTTCAATAAATGGCTTTAGGTCGTTTATTATTTCATCCTTATATTTAGTAAACATATCGATTACTCTTTGATCTAAACGAACTTTAAATTCAATATTTGAAGATATATTCAGTTCCTGTTCAAGCATTGAAATATCTGGTCTTATTCCTTTCTGTAAAAACCAAAGTAAATCAAAATAATCTCTTCCTTTTGGTACAAATTTATTTTCTTTTCCAACTAACTTATTTCTAGTAAAAATGGCATTTACTTTCCCAGTAAATAAAAGAGGAAGAGAATAAGCTTTAATTACATAGTTTTTTCTCGGAACTAAGTCCGTAGTAATATTAAAGAATGGAGATTTTTGTATATCAAGTTTTATATATAACAAATCACTTTCGCTTTGATTTGCTAAACCTAAATCCCTAAGAACAGGAAATTTTAAAGTTATAGTTTGATTATTATTTGTTACTGAGGCGTAAAGCCTATCATATGCGAGTTCAGTTTTAAAATATGATATCAAATCTTCTTTTAATGAGCTTATATCTATCTCGTCAACAAAATCCAAATCTATATCTTCTGAAAGTCTAGGTAAATCATAACAGATTTTTAAACATGTTCCCCCTTTAAATATTAAATTACGGTATTTTGACGTATAAATATATTGTAAAACATATTCAATAAGCTCCATCTTCAAAATAGCCCTTAGAAGTTCCGGATTTTTTATACTTTTCATCTTTACTATTTGTTTTAGTTTTTCAATAAACATTTTTTTTATATTTCAATAATAAATTATATATTTTAAGCATACGTGAAGATTTCTTGCAATACATTTTAAATTCTTTTATATCTGACCTAGTAAATTCATCTAAGTTTAATCTCAATGACTCAAGTTCTAATACTTCTTTTTTAAAGTAAATATAGTCAAATAGCGATTTAGCCTTTGTTGCATAATATATATTATTTCTTATTACATAACCCGTAAAAAGATCTTCTTTGATATTTCTATAAGAATATGTCCCTAAAGTATTTATATAGCTTCTGGTCTTCTTAGTAGATACAGAGGTAAATGAGAATACACTTTCTGTGAGTATTGAGTATTTTGATAACATATACTCTAAGCTTATATATGAAGGAGTTTTAAGAATATTTGCAATATTTTCTTTATATAAAAGCATATCATTATTTTCTATAAATGCTTTTGTAGTATATAATCCTTTTTTCAATTGTATAAAAGTCTGATCTTTTACTCTCCTATTTACCAGTTTATACAAGGATTTACTCTCTAGTGGTACAAAGTTCTTTAAAGTCTTTAGGTCAAAGTATTCTAATCTCTCTACCTCTTTAAACTGTTTCATAATACCCCCATTATACGGGGTCATTGTGAAATAGTCAATAGCGATCTTAATATATGTATGAGTTCAAGCAAAAATCGCCTATAATATAGATTTATTGTTATAGGAGGGCATATAAAGGCTTCAAAATTCTATCATCGAATACTTTATTTAGTTTAACAGTGCAATATATTCAGTCACTTTCTCAAATGTTGTAACATCCATCGGAGAGAGAGAGATTCGAACTCTCGCGATCCTTTCGAATCCTAAGGGTTTAGCAAACCCTCCCCTTCAGCCTCTTGGGTATCTCTCCTTATAGAATACATAGTATATCAAATTGGACTTTGATATTAAAGATTGTAAAATATATAATTGTTAAATGAAATTTAAAAAAATTATTCTAATAATAATTGTTATTCTTTACGTGTTCTTCAGTATAATAGCTTTTTATAAATTATTTCCTGTTTCTAATATTGTAAAAATACAAAAATTAAATTATTCCAATCTTGCAAAAAATTTCAATCCTCTAAATTTAAAAATTAAAAATAGTAACTCTTACAAAGAATTTAATGGTAAAGAAATTGAAGAGAAATTTAATGCAAATTTAACTCTTATAAAAACTTCCCTTATAAACTACTACCTTACTTATAATTGGAGTATTACGACAAACAATACATCTCTTATAGTAAAAAAATCTAAAGTGATTGTAGATTATACTTCTTCAGGAAAGGATGTAATTACTATGAATGCATTTATCCCTACTCAATTCAGCTCCACTTCTAGTTTATTTAAAACAACACCAAACCAACAAGGATATCCTTTTGACGAGAATGAATTGACACAAGCACTCTTGTATCTTAACTCCCCTTATAATTCTAACATAGAAGTTTCTTCTTTTAATTTTAATGAAAAGAATTTTTTAAATGTTATTAATGTTAATTATAATATTCCAGTTGAAGAAATAAAGGGGATATCTTATCTTCCTAATCCAAATGATACATCCTCTGTGCTAAATTTTTATATTAATAAATTTAATTCACTAGGATATATACCTTTCACTGTTAATGGTGCAATTATAGATAATAATACTATATATTATTTAAAATATGGATTAGGAGGATTAAGTGTAGAAATATCTATTAAAAACTATGGTGATTACTCCCTTATTTATTACACTCTTAAAATTAGTGGGTCTAAAAATAGTAATTTTTTATCTTTCTTTAATAAATCTGGATGGAGAGCTGTATTCTATTAAATTTAAATACTCTGAAGATATTTCATTGTACCAGTTAATTAGCTGAGACATAAGTGTTTTTTCTTTAGTTTTTAAAGAGATTTCAGATGTTCCAAATAGAACACCAAATGTAGAAAAATTATGAGACCCAAATATAATTTCAGAATTCTCACTATCTTTATCTATAATAATTACCTTAGCATGAACATATTTACTTTTAGTATAATGAATTGAATTAAGGTGTATATTGAAAATATTGAAAATTAAATGTTCCATTCTATTCCTAAATTTTTTTTCTGCAAGATAAGGACTGTGCGTTATAACATCAACACTGATTCCTCTCTTCTGTGCATTTTGTAAAGCATATAATATATTAAAATCTGGAAGAAATTGAGATATAAAAATAATACTTTGTTCTGCTTTTCTTATTGAATCAAGAGTTTCTTTATAGATCTGAGATTTAAACCTTCTTCCTGAATCAATTATAAGATCATTCAATTTATCTATAGGTATAGTTATATCGTTATTTTTTCTACCATCCCTATTTTTTATGAATATATCTATCAACAAGAGATTTAATTTTTTATTCTTAATTCTAACCATAAAATCTAAGTAATCTAAAGATTTTTCTGCTAAATTTATTCCTCCTATAAAACTAACATCATCTATTATTGTTATTTTCATATGATTTCTTCCAAAAAAGGGCAAATATTCTGATACAATTCTTCCATACTTATATTCATTTATAAATTTTATATCAATTTTTTCCTTAATAAGCTTATCTAAATAATATTTATTCTTTTCTGATTTTGTATTGCAATTAATTCTCTTATACTGAGATATATGGTAATATTTATGACCTACAATATAAGGAATAGAATATTCATCTATATTAAATTTCACATCAACACCTCTTTTTTTAGCTTTTATAATCTCATCTATAAATATCTCGAATTTCTTAGAGAAATCTATATGCATAGCTTGTATATAAATCTTATTCTTAGATTTTTTTATTTTTTCTGTAATTTCATCTAAATAACAAGATGCATCTATAACTTCATACATATAACTAAATATTAATATTATTTTTAAATGTAATTTTTCTTATAAAGAATTTTCTTGATTCTTCTACTACAAGTAAGATTATTATTATAGCAAAATATAAAAACATTATGTTTATAGGTAAACCTCTTGTATTAAGAATAGAATTCATAAAGCCATTATATATAAAAAATGTTTGAATAAATATTATAAAAACAATTCCTAATAAAATTTTAGAATAAGATCGTATAGAAAAACTTGTAAAAGAAAATTTATATGATCTTGAAGATATGAGGTTAGCAATTTGAGAAAATACTAGAGTTGAGTATGCAGCAGTAGTAGCCATATCATAATTATGATATATATTATTAGTTATATAAAACATAAATACAGCAATAAGTGCAATTATAGAACCATTAATCATAATAGGTATAACAGTTTCTTTATCAAATAAATGTGTTTTTGCATTTCTTGGTTTTCTTTGCATTATATCTGGATCAGGTATATCAGAAGCTAGAATTAATGCAGGTATTATATTTACTATTAAATCTATTGTTAATATTTGCAGAACAAACATTATAGGGGCAAAATGCAAAATAGATCCTAAAAAAACACTAAGCATTTCAGCTATATCAATAGCAACAGTAAATCTTATAAATTTTTTTATATTATCGTATATTATTCTACCTTCTTTTATTGCCTCAATAATAGAAGTAAAGCTGTCATTAAGAAGTATCATATCTGCAGCTTCTTTTGCTACATCCGTTCCAGTAATACCCATAGCAACTCCAATATCTGCAGCTTTAAGAGCAGGTGCATCATTTACACCATCTCCAGTAACAGCAACAACATATCCTAATTCCTTTAGTAATTTTACTATTCTAAATTTATTTAAAGGAGTTACTCTTGCAAAAATAGCACAATCTTCTAATAAAATTTTTTTTAGCTCTTGATCTGACATTTTATCTACCTCTTTTCCTAATAAAACCGTGGTTTTATCAGTAGATAAATTTACTATTTCTCCAATTTTAAGAGCTATCTCAGGAGAATCTCCCGTACACATAAATACTTTAATACCTGCTTCTCTTGAAGAATTAATAGCGTATTTAACATCATCTCTTGGAGCATCAAATAAACCTAATAAAGCAACAATAGTTAGATCCTTTTCTATTTCTTTTTTAGAAATACTTTCATTTCCTTTTAACTCTTTATAACCTAAAGCTATTACCCTTAAGGTTTCATCTTCAAAACTTTTAGCTTTCTCTATCAATAAATTTTTTAAATGAATATTTAATAGAATTTTTTTTCCATCCATTAATATGTATTTTGCGGATTTAACTAAACTTTCTATTGCCCCCTTAGAATAAACATATTCTCTACCACTCTTTGATACCAATACTGACATCATTTTTCTTTGAGGATCAAAAGGTATCTCTATTATTCTTTTAAAACTATTCCTTATATCGTCTGAATTTTTATTTATTTTCATAACATAAGAAATTAAAGCACCTTCTAAAGGATCTCCTACTAATTCATATTTATTATCTCCCTTAGAATTAAGATATGAATTATTACATAACAATGAGATATTAATAATCTTATCTATAACTTCTTTGTTATATTCTGCAGGATTAATTTTTCCTTCATCAGAGTATCCTGTTCCTGAAACATAAAATTCAGTATTCAAAGAGTTAAGATAGAAAAATTTAGTGACAGTCATTTCATTTTTCGTTAAAGTTCCTGTTTTATCTGTAACAATAACATTACATGCACCTAATGTTTCTGAAGATGTTAGTCTTTTTACTATGACTTTTATTCTGGATAATTTTTTTAATGCTATAGCTAAAGCTGCAGTTACTGTTGAAGGTAAACCTTCAGGAACAACACCTACTGCTAAACCCAAAGATAATATCAATGTAGATTGTAAAGAGAGTTTACTATAAAAGTAATTTATTACAAAAGCAAAAATTGCAACAACAAGTGCTATCATAATAAGATATTCTCCTGTTCTAAATATTTCTTTTTGTAAAGGAGATTTATCCTTTTTTTCTTTAGATGTTGTTAATGCTATTTTTCCAAATTCAGTATTTATACCTGTACCAACTGCTACAGCTTTTCCTGTACCAGATATAACAGTAGTACCTAAAAATATTAAATTTGATATTTCTAATATAGAAAGTTTTAATTTAGGATGGGGTGTATTTGTTTTTAATACAGGCCTGTCTTCTCCTGTAATAGAAGATTCTAAACATTCTAAATTAGAAGATTCTATTACTCTACTATCTGCAGGAACATCATCTCCTGGTTTCAATAATATAATATCTCCTGGAACTATAAATATAGAATTTATATTTTGAACTTTTCCATCTCTTATAACTGTTGTTGTTTTTGAAACAAGTTTTGCTAAAGAATCTGCCATTCTATTTGCACTAAATTCTTGAATAAAACCTACAGTTGAGTTAAAAAATATAAGCAATATTAATACAATTCCTACTACTAATTGATTTGTAAGAAATCCAGCTATAGCAGCTATTAAAAGTAATAATGTTAAAAAATCTTTAAATTGAGAAATGTATATAGATATTCCTCTAAATTTATTCTTTACATTTAACTCATTATTCCCATGTTCTTCTAATAACTTATTGACTTGTGATTGTTTTAGTCCAAGTATCTCATCTGTTTCTAATATTCTAAGAACTTCATCTTTTGGCAATGAGTATACAAAACTTTCTTCATCTAATGTTTTTTTAAATATTGAAGGGTATAATGAATTTCTAAAAATATTATTCTTTTGGGACATATTATATACAATAATAAAACTATTAATTTTTTAATTCAATAAATATTATCCAAGACAAGAAAAAATAATGATATACATTTAATAAAAATTAAAAAAATTAACTTCGCATATAAAGAGTTTTATCTTTTAGAAATATAGTATGAAAATCCCTACATTAAAGTAGTCAAACTTTTCTTGCAAATAACAGAATCTGTACTATTGCAATAATTAGAAATATAAAAGATACTGATTGGTAAAAATAAAAAACGTATTCAAAATCCTTAACAAATAAATTTAAGAATAAAACCGTTATAATACAGATAAATCCCCAAAAGATTAAAACTTTCGCACCATAAGTATTAATAATTTTCCAATTTTTATTTGACACATATGCTTTTGGGATACGAACACCATACCATGAGTTACGAGGTATGTCCCAAACAAGTAGTGGAATAGATAACATAACCATTATTATTCCAATAATATATCCTAAGTTAGTAACAAAGATATTATGCATTTTTCTCTATAATATTATAAGTATGTCATAAATTACTACAAAAATTCAACCTAATCTTTAGAGAGAAAATATAGCTTGTATAATATTTATTTTTAGATTTGAATAAAACATATTTCATAAATATTATAATAATTCATAAAAACCAAAATTGCTTTCACTTACATATAAATATATATACATTATCTTAAATTGATAATTTTCTAAATAATAACCTTTAATTGTGTTACTATTTTTCATATAGGTTATTTTTTTAAAATATATCGTATATAATAGTAAAATGATTAGTTTTTTATTCAACAAAGATGATGAATGATGAAAATAAAAGAGAAAAGAGAATTCAAGCATTAGAAGATGAACTTAATTCTTTGAAAAAAGACAGTAATATTTCTCATAAGAAAAGAAAAACAAATAGTAAAGTAATATATGAATGGAAAGCTCCTACTCGAGTATTTAAAAAGTGGGAAAGAGAAAAGTTATATACAGTTTTTCTTTGGCTTATAGTAATAATAGTGATTCTATTATTTTTTAAAGAATATGCAACTATATTTATAATCTTTGCATTAGGATTTGTAATATATGCTATGGTATCATATCCTCCTGAAAGTATTGATCATATAATAACGGAAGATTACGTTGTATGGTTTGAAAAAAAATATTATTTTGAAGATTTAGAAGATTTTTGGTTTTCTAAACGTTCAGATCAATTAATATTGAATATAGAAACAAAATATAATTTAATCGCGAGATTAGTTTATTTAGTAAATGAAAAAGAGAAAGAAGATCTCTTGAAAATACTTTCATTACATCTTCCATACAAAGAGATAGAAAAACAAAATTTTCTATCTAAGATAACAGACGGAGTATATATAGAAAATGAGCTTCTGTAGCTTAATTGGATAAAGCACTAGATTGCGGATCTAAAGAGTATAGGTTCGAATCCTATCAGAAGCATACAATATTAGGAGAGATGCTGGAGTGGTTTAACAGGCTGTTCTCGAAAAACAGAATTCTACTAAAAGTAGAATCGTGAGTTCGAATCTTACTCTCTCCGAAGAAATGAATATATAATCGATTATAATTTATGAAAAAGATATTTATACTTCACTAATAATATCAAAGCCTTTAAAACTTCCTGTTATTGCAAGTCCAATTATATTTCCTTTTACTACATGTTTATCTTTTATTTGTTTTGCTGTTTCATTTAATGTTGCACCAGACCCTACAGCATCATCAATAATTAGTATATTGGTATATAACTCAAAATCATCTACCATTATAGTGTGTTTAGCATTTTCAATTCTATTATTGATAAGTACCATTACACTTTTATTAATTGAAACTGGATTTGGTATATTTTTATTATTTGCAATAAGATAATATACTTTAGGAGGCTTTCCTATATTTTCAGAAGTGTTTGTTTTATAATCATAACAATATAATAAGTGCCTAGTTCCTAGGATATTAGGAACTTTATAGTATATCAATCCTACTTGTTGACCAATACAAGATAGCACTCAAATAAATATTAAAACCAACAGAAATAATACTCAAAGTAATAAAGATGGGATACACATTCATATAAAATATTGACATATTATTCAGGTTGTATTATACTCCTTGTATGTATGATTTAAATTTATTAAATAAAGAAGAGAAAGATTTATTATCCAATTGGGAAGGTGTTTATAAAAAAGGATTATTAAGCTTATGGATACTTTTATCTCTTAATAATAAAGAGATGTCTATGTCAGAAATAAAAGATTTTATTAATGATATAACCGATGACTATCTTTTAGTAGATGATAATAGTATTTATAGATCATTAAGAAAGTTTTATACACTTGAAATTGTAGATTTTGCAATGAAACCCAATAGCAAAGGTCCTGACATAAAAATATACAAATTATCAAAGTCAGGAGAGAAAATTTTAAAAGCATTTATACAAAGAAATATAATTTCTATATATTATAAAGACAAAATTAATTTATTATTTAAAGGAAATATATAATGACAAAAAATATAAAAATATTCGCATTTTTTAGTTTAATTTTATCAGTATTATTTTTCTTAATACTCAACTATTCTCTTGCAAATTTTAATCAAAGGTATATATCCTATTCCATTTCAGTAATTATAATAATATTACTTTACTCTTTCACAGGAGAATACCTTGCTCAAAAAGATAATCAAAGAAAAGTAAAAACTAACCTTACTCTAATGTACCTTATAACCCCTGCTGTAATTAATGCTATTATAGGAATCTTATGGGTAATTATATTTAAAAGATCTTTATTGTCCTTATATATATATATTATGATAATCGCTGCATGTCTTATATTCTATATAATTGCAAGAAAGTTTTTTATTAAAAACATTAATAAAAGAAAAATATTCGACTGATAATAGATTTATAAATTACAATATAACTCATAAAATTTACTGAGAATTTAGTTTTTTAAATTATATACATAAAACAAATATTCGCAAAATCCTCTATTAAAAGCCTTTAATCTTTATAAAAAAAGAGATTTTTTATATAACTTGAAAAAAATAAAAAGTTATGTAAATATAGTATTGTATATATGGATGATTTAAGCCAAACAACAAATAATGAAAATTCAATGTCAGAAAATGTGACCTTAGATAGTAACGATTCTAAAGTTGTTGATAGTACTGTTAGCACCTCGGAAATAAATCCTACGGAAAATATAGATTCTCAAAAAAAAGACTCCGGTAAAGAAAAAAATAAATCTCACAGTGATAGGATTGAGCATACCATTCTTTTATTTATAGGAATATTAATAATCCTGATACTTATAGTTTTATTTGAAATTTATATAAATTCTCTTCCTACTGGAAACACTATATCAAATTTACCTAAAACTAAATCTTTAATAACTCAACCAACTAAATTAAATAGCAGTAATATAGTTACTCCAACTAATGCACAACAAGCTGTAAACCAATTAAATACTCTCAATAGTGTTTTAAATAATGATACAAGTACTTCATCTTCTGCATACAGTAGTTATCAATCTTCTCAAAGTACAAGTACTCAAGGAAGTAATCAATATAGTTCATTAGCTCAATAAATACATGAAAACAAGTATAAAAATAATATCAACCATAATAGTCTTAACAACAATAAGTGCTAATGTTGTATATGCACAAGCAACAAAAAATAAACCTTTAGTTAATTCTCAATCGAAATCTATAAGCGTAATTGTCTCAAAAGCTAATATATTTATAAATGAAAGAGTTCAAAAATTAAAAATGATAGAATTAAGAATTAAAAATTTAGAAAGCACTTCCAGTATAGTTAATTCTACAGATATATCCAATTTAATAACTTCTTATAATATTGATATACAAAATTTAAACACATTAAAAGCAACAATTGACTCTTACCCTCAAACAGGCTCAATGCAAAATTTAATGGTTTTAGTAAGACAAATTTTCGCTCAATATAAAATATACTCTATTGAATTACCTACAGGAAATGCATTGGTTTATCTTGGTATACTTGCTCAATTTTCTAATAACTATAATGTTATAGGAGAGAATTTATTAAAAGATATATCTTTTGCTAAATCAAAAAATGTTAATACTCAAAATATTTTAAATGACTATAACATGTACCTTACTGATGTAGCTTTATATAATCAAGATTTAACTTCTGCTATAAATTTAGAACAATCTATAAATATTTCAAATTACCCACAAAATATAGCTCAAATAAAGCTATTACATCAAGATATGGTATCACTACATCAACAAAAAGCTCTTGTTCATAAGGATTTTACACGATTCATAAATGACTTTGAAATGCTTTTTAATATAGGAATGCGTAAAAATATGAAGATGAAATAATATTTTCATCTAATAAATATTAATACACTTAATACACCCACTAACATAGAATAGTATGCATAAGGTTTTAATGTTCCTCTTTCAAAATACTTCATCAAAAATTTGACTGCAAAATAAGCCGTTACTCCTGATATAATTGCCCCCCAGAATGCGTACCAAAAAGGTGCTAAAGAATGAGTAGAAAATAAAGATGGCACTTCTAATAATCCAGCAGCTAATATTACAGGAGTTGCTAACATAAAAGAGAAATAAGCGGCATCTTCATGATTAAGATCATATAAAAGACCTGCTACCATACTAGCTCCTGACCTAGAAATACCTGGAATCAATGCAAAAATTTGAGATATACCTATAATAATTGAATCTAAAAAATTTAAATCTTCTAGTTTTTTTATAAGTTTTTTCTTCTTAATTAAAATTTCTCCTAAATAAAGAATTAATCCATTTACTATCAAAAAAATTGCAGCTATTAAAGGACTTTCAAAGATTTTTTTTACTACAGATTCGAATAAAAGTCCTATTATTCCAACAGGAATTGTAGCTATAACTAATTTCCATGCAAAATTTTCAGTCTTATCTTTAGACAATTTACCTTTTATAGCAGTTCTAAATAAAGCTTTTACTATTTCTTTCCACTCTTTAAAGAAAAATATTAATAATGCAACAGAAGTCCCTACATGTAAAGAAACTATAAAGGGAAGAAAAAATGAAGAATTTTTAGTTACGTGAATATTTAATAAAGATTCTATTATTATACTGTGACCTAAACTACTTATAGGAAATAGTTCTGATATTCCTTGAGAAAAACTTAATATAATATCATTTAATATATTCATTATTGTATCTAATTTATAATTTTGTTAATATAATAAATAAGTTTATATCACATATTAATGAATAAAAAAAATCTAGTAATTATATTAGCTGCAATCTTTATAATATTAACAATTTATTACTTAATACCAGGAATTAATCATATACTTGTATATAATGGTCATCCACAAACATATCAATTAAAACATGCTTTATTATTCTTTATATTAGCTGTTATTGATATAGTTTTTGGAAGAATAATTATAAATAAAGAAAAAGAAATTAATTAGGAGATTCAATATTCTCTATTTCAACATAAGATTCTTTGTTTCCTAGGTAGTATTCATACCTTCCTACACCTTTTCCCCAAATATTCTTTCCTAAAGGAGAATTATAAGGAATTATGTCTCGACCATTAAATTCACCCTTATTGGATTCAAAGAAAAATCTTGTTCCAAAAATACACTCTTCTAAATCATTTCCAAACCTTAAAGATACAATAGATCCTATATCTATTAAACTAGGTTGCAATAAACCTCTTTCATGTAAGATAAATCCTGATAGATTTCCATATGAATTATTTTTTATTTTTTCCAAATCTTCTTTTGTAATTATTTGAGGGAGATCGCTTGATGAATTTTTTAAAAACAATTTATTTTTTTCAATAAAAAGAAGCAACTCATCACTATTTTGAAACTTCTTAATAGATTCAAATATCAGAGTACTTGATTCTTTTGAATTAATCATTTGTATAATTTTATCATAAAGACCAGATTAAATCTAATTCATCTAATTCAAAAAATACTATTTCTCCAAAAATTTTATATACAGATGAAAGTTCTTTTTCATATAAACTTTTATTAATAATTTTCCATTCTAAGGATTCATTGTAAGCTATCACTATAGAGTCTTTACTATATTCTTCCCCTTTAAAATTTACTACTATTATAGCTCTTTCTGGAAGAATACTCTCTTTTACATTCAATTTCTTTAATCTCACAGCAATAATCGAATCAAAATTCTTAATAGAATTAAATGGCAGAGTAACTGCTGTTTTAGATGTATATAATGTTCTAAGCAGATTATCTGGATAAATATTTTCCACTAAAGGAATACTTGTATATAAAGAAGTTTTCTCATTATATTTCCATGATTCTATAATGTCAGAAAATATATCTTTTTCATTATCGTAGAAATAAAGAATACTTGTATTCAATATCTTGGTAAGAGTAAATATGTATTTTGAAGGGAGGGATTCCTCTTTTAAAAAAGTTTCAAACATATTTTCTGTAATACCAAGTTTTTTTGCAACAGTTTTAATATCTAAATTAGAAAGTTTTATTAAAGATCTTATTTTTTCTTCTATACTTTTATTCATATATTTTAAAATTTTTCAGTATAAATATTATCTATATTCATCAAATTGTTTTCAATAAATAACTTAATATTATTCACTACATCAGGATTTCCACATATATAAAAATTTAATTTTTTTAAACCAGATAAATTCTCTATAAGATGATCAATTACATATCCTCTCAGACTAGCACTCTCTTCTTGAGAAAATATTTTTAAATATTTCCCCTTTAAGAAAGAAAAATCAAAAATCTCATCTTCAAATTTTCTCATCCCCCAAAAAAGTTTTATATTATCTATGTTATTTAAAAATACAGCATGATCTATTATACCTTTTATAGGTGTTATACCTATCCCAGTAGCTATAAAAATATTATTTTTACTCTCTCTTAAATAAAAATTTCCAAATGGTCCTAAAAATTCTATAATATTCCCAACCTTTAATGCTAAAAGACTTTGAGCTCCTAAACCTTTATCTATCTTAACTGCTATTGTTATTATATTCTTATCAAAAGAAGCAATAGAGTAGGACCTTCTAAGTTGTTCATTAAATTTTAATATAAGATATTGACCAGGTATATATTTAAATTTTTCATCTATCTTTATCTTTAAAAGAATATATTTATTATTAATTATATTCTTAAAAACAATCTCTCCTTTATTATTTACCATTATTTAAAATTAATAATACCAAAGGTTCTTTTTTAAATTTATTTAATATTTCCTTCTCAACTTTACTTATTATTATTTTCTTAAGCTCTGATTTATCTTTTATATTTGTTATTATATTATCTTCAAAAGATTTTTTTACAAAATTCTCAATATAATTAATTATTTTTAAGTTTTTTGAAGAGTAAACAAATCCTTTTGAAATAACATAAGGATCTTTTATCAATTTTAGATGAGAATCTACACCTATAACTATTAAAACTACCCCTTGTTCAGATAATTGAGATCTCTCTTTTATAATTTTATTTCCTACGTCCCAAATAGAATTATCAGATATTCTTACAGGAGAATGTTTTATTCTTTCACCTCTTACAAAACCTCTTCCTGGAAAATATTCAAATACTAATCCATTTTTAGGCATAAGAATTTGTTCATCTTTTATACCTACTGTTTTTGCAGTTTGAATATGCGCATCTAGAAATGATTGATATCCTTCTATTGGCATAAAAAATTTAGGTTTTATTAGATTTAAAAATAATTTATGATCTTCTTGATGAGCATGTCCACCAGCATGAACATCCATTATGTTTTGATGTATTACATGAGCTCCTGAAGACACTATTGTATCTAGAAGTTTTTGAATTAACATTGCATTTGTAGGAATAACAGAGGAAGACAGAACTACTGTATCTGTATTCACAATATTTATATATTGATGCTCACCTGTAATCATTTTCATTAAACCGGCATTTTCTTCTCCTTGAGCACCTGTTGTTATTACCAAAATCTCACTATCTTTATATTTAGAAACTTCGTCTACCTTTATAAATATACCTTCAGGTACTTTTAAATAGCCTAATTTTTTTGCTATTTTAACAGAATTTTCCATTGAAATTCCTGAAACTACAACTTTTCTTCCATATTTATAAGATAAAGATATTAACTGATTTACTCTCGTAAGTAAGGAGGAAAAAGTTGCAGCAATAATTCTACCTTTTGAATTAATAAATATATTTTCTAAAACAGGAGTAATACCACTTTCTGAAACAGACATTCCAGATTTAGTAGCATTCGTACTATCAGACATTGCAAGCAAAACTCCCTCTTCTCCTACTTTAACTATTTTATGATATTCCGTTACAGGTTCTTGAAAAGGTGTATTATCGAATTTAAAATCTCCTGTATGAACAATATTTCCATAATCAGTTGCAATTATAATTCCTACAGAATCAGGTATATTATGATTTACTCTGAAAAAACTTACTTTAAACTTTCCTAGAAAAATAGAATCATCAGGAGAGAATTCAATAAGTTTAACCTTATTTTTTAAATTAAAAACAGGATCTGAAAATTTTTCTTTTATTATTTCTATTGTCATTTGAGCTCCATAAACAGGAGGGAAGCCTAATTCTTCCATTACGTAAGCAAGTCCTCCTATATGATCTAAATGTCCATGGGTTATAACAAAACCTCTTATTTTTGATTTATTAGCCTTCAAATAATCAAAGTTTGGGATTAACAAATCTATTCCAAACAAATCATCATCAGGAAATCCTAAACCAAAATCAATGACAACTATATCATCATTATTTTCTATTATTGTTGAATTAATACCAACTTCTTCTACACCACCAAGTGTAATTACTTTTAATTTCTTATCCATATATTATATTTTTTTTATAAATTAAATTCTTTTGCCAAAACGTCTTTCTCTTAAAGAGAAATCTAAAATAGCATTATATATATCTTCTGTTTTAATATCAGGAAAATACTTTTCTAGAAAGTACAATTCCGTTGGTGCTCCATTAAGCCACCCTATATCAGAAGTTCTTCTCTCTCCAGAGGTCCTTATCAAAAGGTCTGCCGGAGGGACAAGACCCTCTCCATCTTTTAGTAAGTTTAATACCTTTAAATCAAAAGGTAAAGGAACTTCTAAAAGTTTTGCTTTATTAATCATTCGTAACACTTGATCTTCTCCTCCAAAATCAATAGCCACAGATAATATTTTTTCAGTATTATCTTTTGTTATGTTTTCTAATTTTTCTATATTTAGCTTTAAACTTTCAGGAATTTTATCCTTTCTTCCTAAATGAATAAATTTTATATTCTTTTCTAACAATTCTTGAAAGAAAAGATTTATCATTCTTTCAAATATTGACATTAAATAGTCTACTTCAGATTTCTCTCTTTTCCAATTATCTGAAGAAAAACCCCACAGTGTTAGATATTTAATATTCTCTAAAGAATAAAGATCTTTTAATATTTTTTTTGCAACCCTAAACCCTACGAAATGACCAGCCGCTACAGATTTTCCTTTACTCTTAGCCCACCTTCCATTTCCATCTGGTATTATTAAAATATGTTTAGGAAATTTCTCTTGCGGAATATTTAAGACTCTTTCTTTTATATTCATTAAAAATATTTAAAAAATTACTTTTTTTTAAGTACAAGAAACATAATTTTATCACATTTAATATTATATACAAAATTAATTAAATAATATAATAAAAAAATATATATTACATTGTTAATTAAAATCAATATTTATAGATATATTTATACAATAAAATTAGGATATATTTAATCTTCGGATATTAAAGAATTTGAAAATTCCTTTGTTACTCCTATTTTTTTATTAGGGTTAAATATATTTCTAGGATCTAATATATTTTTTATCTCTTTGAATATATTATATATTTCTACTCCATACTCTTGCTCTAAATATGGACTTCTAATTAATCCATCATTATGTTCTGCTGTAATTACACCTTTATATGAAAGAACTAAAGAGTATACCTTATCTGCTATTCTAAAGATTTTATCTCTTTCTTCTTTTTTTCTAAGATCCATAAGAGGTATTATATGAAAATTTCCATCTCCCATATGTCCTGCTACTGTATATAACAACTTTTCTGAATCCAAAATTTCATATATCTTAGGCAAAAACTCAGGAAGATTCTCCGGTCTAACTATTATATCATCAATGAAAGGTGCTGATTTTAAATTTTTAATTCTCTGTCGTAATAAATTAAAACTCTCTCTCCTTATAGCAAAATATTTATCAACATCTCTTTCATTTTTAGCTTCTCTCATATAAATATTCTTATATGAAGACAAATCTTTCTTTAAAGACTGTATATTCTTCTCAATAATAGATTTATCATTTTCATTAAATTCAACTAAAAGAATTAGTTTTGGCATTCCATTCCTTAATACTAATAAAAATTCTGGTAAAAATTCAAATGGCATTTTTAAAATATTAGATCCAAGAAGTTTAGAGAAAGCAAAAAAGAATTTTAGAGCTAACTTGAATGTATAATTGTCAAATGATTCAAAACTTTCTGGTTTATATTTCAATACATCATTTATTATTTGAGGAAGATTATCAAAACTATCCATAAAAACAACAAGCATTCCTTCATATTTCTTTTTTTCTATCAATCTGATTTTAGCTTCACTCATAATACCTAATGTGCCTTGAGCTCCAATAAAAATCTGGGATAAATTAAATGTTTTCTTTTCTTTATTAATCACATCCCAAATATTATAACCAGAAGAATTCTTAGATACATTAGGTTTAGATTTTTTTATTAAATCATTATTATCATTAAGTAATTTAAATGTTTTTCTATATATATCACCTTCAAAATCTTTTTGTTCCATCTTTTTATTTAATTCTTCTTCTCCTAACTCTTTAAAAGAATATTCTTTTCCATCAGATAAAATCATATCTAATTCATCAACAAAATTTTGAGTTTTACCATAGTTTAAAGATTTTTCTCCTCCTGAATTATTAGAAACGATTCCTCCAAATGCACATATATTTTTTGATGCAGGATAAGCTGGATATACTAAATTATGTTTATCTGTTTCCTTCTCAAAATCTCTATAATACAACCCTGGCTCAACTATAGCACTAAGATTATCTTCAGAAAACTGTTTTATTCTATTAAAATGCTTCATGTCTAAAGCAATAGAGTCTGTAATTGTTCCTCCAGACATACATGTTCCTCCAGAACGAGCAGTTATAGAAAGATTATTCATTTCATCCTTATATTTATTAACTATTTCTATTAAAATCTCTATATCTTTTGAAGAATGAGGAAATACTACTAAAGAGGGTTTTTGTTTGAAAATACTAGTATCTCTACTATGAAAATCTAAAACATCTTTATCCACAGAGACTTCTCCTTTTATTTTTTGTTCTATTTCTGTTTTTAATTTATCTATATTACTATCCATTATTTTTCTAATAATTTTTTTACAGATTTTATAATACCTATATCATCTATCTCAAATTTTTTTATAAGTTCTTCTGCTGTACCAGATTCTCCAAAATTATCCTTTAAACCAACAAATTCAATACGAGAAGGTTCATATTGAGAAAGTATTTCTGAAATCAATGATCCCATTCCTCCTGCAATTTGATGATCTTCTGCACACACAACTTTATTTATACCTTTTACATATTTCACAATAGTATCTATATTCATAGGTTTTATACTAGAAACGTTTACTACATCAACTTCTATACCTAGCTGCTTGAGTGTATTTGCAGCTATTAAGGCATAATATAATATATATCCAGTTGCAAAAATAACACATTGAGGTGATTTTCCTACCCAGTATTTATAATTCTCTCCCATAACAAAAGGTGTCCTTTCTGTTGTTATAACAGGAGTTTTTTCTCTTGTAAATCTCAAATAGAAAGGACCATATTCTTCTCCAGCTTTTTTTGTAACTTTTATTGATTCCCAATAATCACATGGAGATAAAACTTTCATTAATGGAATTACTCTTGTAAGGGCAATATCTTCTGTGGCCTGATGTGTTGCTCCATCTTGTGCAGTCATTAATCCTGCATGATGTCCTGCAATTTTTACGTCAGCTTCATTATAAGCAACTGTAGTTCTTATAGTTTCCCAATTTTTTCCTGGAGAAAAAGTTGCATAAGATGAAGTAAAAACCCTTTTCCCATTCACGCCTAATCCCGCTGCAACAGATATCATATTCTGTTCTGCTACCCCACAATCAAAAAATCTATCAGGATATTTTGTTCTAAATTTTTCTACCCTAGTAGAATCTGCTAAATCTGCAGTTAACACAACAATGTCTTTATTTTTTTCTCCTAATTCTAATAATGCATCCCCATATCCATCTCTAGTTGGAATTTTTTCAACACTTATTTCAAAAAGATTTTCGTTTAAAAATAATTCTTTATTTAACATAGTCAATATTCACTCTCTATCTTATTTTTTAAAGTTCTTAACTCTTTTAATGCAATCTTAGCTTCCTCTTCATTTGGAGGTTTTCCATGCCACAAAAAATCATTCTGCATAAAATCTACACCTTTTCCAGGTATAGTATGTGCTATCAAAACTGAAGGTTTTTCATGTATAGTTCTTACTTTAGCAAATGATTGAGCTAACTCTCTTATATTATTACCATCTATATCTTCAGCAAACCAACCAAAAGATTCATATTTTTTCTTAAGATCATCTAAAGGCATAACACTTTCAGTAAAACCATCTATTTGTATATTATTCCTATCAATAATAACTGTTAAATTATCTAATTTATATTTAGCTCCCATCATTATTGATTCCCATATATTACCTTCATTATGTTCCCCATCTCCTGTTATTACATATACATGATAATCTTTATTATCTAACTTAGCACCTAAAGCAATTCCTATACCTTGCCCTATTCCTTCTCCTAAAGGACCAGATGTTGTTTCTAATCCAGGAAGTGCAGTTCTATGAGGGTGACCTTGTAATCTAGAATTCAATTTTCTTAGTGTTTTTAATTCTTCTAAAGGAAAATATCCAGACAATGCCATTGCAACATACCTAACAGGTACGGTATGACCATTTGAAAGAATTAATCTATCTCTATCTTCCCAATCTGGATTTGAAGGAAAATGATTTAGCGTGTGAAAATACATTACGGAGAATATATCAGCCAAACCTAAAGGTCCTGCTGTATGTCCAGATCCTGCTTTAAGCAATGTCTCTATCGTAAGTTCCCTTATCTCTAATGATTTTTCCTCTAGAAATTTTACTTTTTTATCACTAATATCATCAAGCATATCTTATTCAATATATCACCAAATCTAAACATTATGCAAATTGAGGTATTGCAAAAAAATCACTCACTATAGGTTGACAATCTAGTATAAATCGACTACAATCATCATACTTAATTTTAAGTAATAAAAGCAATTTATGGAAAATGAAAAAAGAAGAGAACATATAGATTTTACAACTCCAAGAGAGAGAGAAGCTCAACTTTTAGATATGGAAAAGGGATCTAGCTGGGAAAATATAAATGATGAAAGAACTCGTATTTATAAAGGTATTGGAAATAAAGATTTAGATCCAATTTTAAGAATACCAGTACTTTATATTAAAGTTATCCGAGTAGAAGTAGACAGAATAAAAGATGCTTATGAGCTTGGATTATCTTTTAATGCAACAGAAGAAGAAATAGTATCAGAAAAGGAAAGATTATATAAGGAAAAAAGTACAGGGAATAAGGTATCCATTCAAAAATATAGTTATAATAGAAGAAAAGAGGAAGCAAAAAAGCTTAACATCAGGAGTAAAAACCCTACATGGATGGAAATAGAAGAAAAAAGAAACTCTATTTAGAGTATAAGTCTAGAATTTATATACTATCATTAGATCTGATACATTAGAAGATAATTTACCAGTGTCTATTCCGGATTTTAATTTTTTAAAAAATGGATATGTATTATTATCGTCTAGAAAAACATTTACATCTAAAAATTTCTTTTTAGAATTATCTACAGTAATTTTATCTGCTATTGCACCTGCAAAACCATAATTATCCCAACCATCTGTTCCAAAAGATACTATTATAGTGTTCTCTTCAATACATCCAAATGCACCTGCAACCAACTCTTGATTTCTACCACCTCTACCTTGTCCTCTTACAACGACAGAACTTTCTCCTCCAGCAAGTAAAATTTCTCCTTTCCTGCACTCTTCTATCAACCTACATCCTATATCTCTAGCTATACCAGAGACTTCTTCGGATATAATTCTAGACTTAATACCAAGTTCTTTTGCCATCTCTAACATAGCTTGCAGAGGAACATCATTTGTAAGGAGAAGATAATTATTTATATTATTAAATATATTTTCTTCTTTTGGAGTCTCTTTTATATATTCTAAAGGAACATCAATATGAAATTTCTTAGATATTTTTATAGCATCCTTAATCGTTGTACTATCATAAACTAATGGTCCTGAAGCTATAAATGAAAGATCATTGCCTAGTACATCTGAAAAAATTAGGCTTATAACTTTTGCTGGATTAATAATCTTAGCTAAATTACCACCTTTTACTAAAGATAAATGCTTTCTTAGTGTATTCATATCATATATTCCAGCACCTGATTGAAGAATTTTTCTATCTATATCAATTTTTTCATCAATAGGTATTTCTGAATATTCGAATAAAGCAGATCCTCCTCCGCAAATAACAGAGATAACCAAATCTTCTTCATCTAAATCATCTAATATATCTATAACATTCTTTGTGAAATTAGAATTTATATCAGACGTAAGAGGATGTGTCCCTACAACAGAATCTATTCTCTTGTCATCAGATGCAACAACATCTATTGAAAAAGCCTTGACCTTAAGGTTTTTCATTTTTTTTCTAAGATCTGAAACTATAGCAGAAGAACCTTTACCTATACCTAATACAACAATTCTTTTAAATAAAGACATATCATATGCATCTTTATTTACATATAAAATATTGTCTTCATATTTTATAGATTTATCTAATATATTTTTTGTATCTACAGAGATTAATGCTTTTTCTATTAAATCTAATACTATTTTTCTTTGATCAGTTATATTAAGTTCATCGTAATTTTTTATAATACTCATATTCAAAAATACTAACAGACTATATCTCTGTTGTCTAGTAGAATGTTCTTTTTAGTAGTAAATAAAACTATAAATATAAAGATAAAAAATAAATAATATATAACTCATATTTAAGCTTATACAATACATTGACTTTTATTCTTTTAGATGATAATATACTTAAATAAAGCTTCTTTTACTAACTAGAGACTTAAATACTCCTGAATAATTCAGTGAGTATTTTTTTTGAATAAATATATGGCAAAAAAGAAAGAAATTGCAACAAATTTCATTGAAGAAAGTAAAGATAAAGTAATAAAGAGTTATTCTACTCATGAGAGAGATAATGGTTCCCCTGAAGTTCAGGCAGCACTTTTTACTCAAAGAATATTACAATTATCAGAGCATCTTAAAGTAAATAAAAAAGATAATCACTCTAGAAGAGGGTTATTGCAGTTAATTGGAAAGAGAAGAAGAATTTTATCTTTCTTAGAATCAAAAGACCCTGAAAGATATAAAGTACTAATAACTAAACTAGGTCTCAAAAAATGACAGTAATAAAAAAAGAAACTACCCTTAATGGAATCAAATTATCCTTTGAAACAGGGAGACTCGCACCTCAAGCACATGCATCTATATTAGCTCAAATGGGAGATACTGTTGTTTTAGCTACTATTGTTACAAGAGAAGCTAAAGAGTATTCAAATTTCTTTCCATTAACAGTTGAATATTTAGAAAAACTCTATGCAAGTGGAATAATTTCTTCATCTAGATTTATAAAAAGAGAAGGAAGACCTTCTTCGGATGAAATACTAAAAGCTAGAATTATTGACAGATCCATAAGACCTCTATTTAAAGAAGATTTTAGAAATGAAGTTCAATTGGTAGTAAATGTTCTATCTTATGATAAAAAAAATGACCCAGGAATTCTTGCTGTAAATGCAGCTTCATTAGCCTTACTTATGGCTGGAATACCTTTTGAAGGGCCAGTTGCATCTGTATCTTTAGGTTTAGAAAATGAAGAATTCATTATTAACCCTTCAAATGAAATATCTTCAACTCTTCCTTTAAATCTAGTGATTTCTTCAACAAAAGAATCCATATCTATGATAGAAGCTGGGGCTGATAATATTAAAGAAGATTTAATGATAAAAGCTATTGAATTTGCAAAAAAAGAATCTCAAAAAATTATAGAATTACAAGAAGAATTTTTGAAAGAAGCAAAACCTCAAAAATTAGAATATAAATCAATAGAAACAAATAAAGATTTATTGAAAAATATAGAGAAAGAATTTATGCCTCAAATAAAATCTTCTGTATGGGAAAAAAGAGATAAAGATTTATCTGATAATATAATAGAAAAATTTAGTGAAGAATATTCTAAAGATGAAATACTTGAAGCAATTGAGATATTAATGAAAAAAACTACAAGAGAAGGTATTTTAAATGATAAAATAAGACCTGACAAAAGAAATTTAGATGAAATAAGACCCCTTAGTATAGATATAGATATACTTCCTAGAACACATGGATCTGCTATATTTCAAAGAGGAGATACTCAAGTACTTTCTATTGCAACATTAGGCCCAATAAGACAACAACAGACCATAGAAAGTATTGATGGAGAAGAAACTAAAAGATATTTACATCATTATAACTTTCCAGGTTGGTCTGTAGGAGAATTAAGCAGAAACCTCTATTATCCAAGCAGAAGAGATATAGGTCATGGTGCTCTAGCAGAAAGAGCCCTTGAGAAACAAATTCCTCCAGAAGAAGAATTTCCATATACAATAAGAGTAGTCTCAGAAACCCTTTCATCTAATGGATCTTCCTCTATGGCTTCAGTTTGTGGATCAACACTTTCTTTAATGGCAGCTGGTGTAAAAATTAAAAACCCAGTAGCGGGTATAGCTATGGGACTTGTAAAAGAAGACGGTCATGACGATTACATTGTACTAACAGATATACAGGGTCCAGAAGATCATTTTGGAGATATGGATTTTAAAGTAGCTGGAACTAAAGAAGGCATTACTGCACTTCAAATGGATAATAAATTAAAAGGCATCTCTGTTGAAATACTTACAGATGCTTTAGAAAAAGCAAAAATTGCAAGATTATTCATATTAGATAAAATGCTTCAAGTAATAAATGCTCCTAGAGAAAATCTCTCTGAATATGCACCTCAAATTGAAGTTCTAAAAATTAAACAAGAAAAAATTGGAGAATTAATTGGTCCAGGAGGTAAAAATATTAAAAATATCATTGAAAAATCAGGAGCAGATATAGATATAAATGATGAAGGAGTTGTTGCTATTTCAGCTATATCTAAGGAAAGTAGAGAAATTGCTATGGCTATGATTCTTGATGCTACAAGAGAATTAGAGATAGGAGAAGTATATAAAGGTAAAGTAGCAAAAATAATGAATTTTGGAGTTTTTGTAGATGTTACAAAATCAATATCAGGACTAGTACATGTATCAGAAATGTCAAATGAATATGTAAAAGATCCTACTCAACTTGTTAGTGAAGGTCAAGAAGTTTTTGTAAAATTAATTGGATCAGACGAACAAGGAAGATTAAAATTTTCAATGAAACAAGTTTAATTTCTTAAATAGAAATTATTATAAAGACTCATTATAAATATTCAATAGGTTTCAGAAGTTTTACTAAAGATATATAATCTTAACCATAACTTGCTAAAAATATTCCAATTAAAGAAATTTCTGAAGTTATAATTGAGGTTTTAAAAGAAAAATAGAGATATAATTTATACTTATAACCATTAAGGTT
>sequence07
TCAGGAACAGTAAAGAGTATTATTAAACAATCAGGGATTGATGAAAAAGATTTTTTCAAATAATTATATTATTTTTTCATTATATCTAACTTAATAAGAGTTCGAACATCGTCTACGATACCCAGGAGTCATGCGCATGTAGATTCGACCGTGGTTCCTCAAATATATTGTCAAACCTTTAAAAGTTTGAGGTTGAAATATTAAATAATCGAACCGAAAAATGAATATTTTATATAATTATAGTTATGTTTGATGATATTAATTTAGGAGGTTATTATACATCTGCTGAAGTTTGTTTAAATGGTCATATTATAAATGTTCCAGCAAAGAACTTGTCACAATTTTGTCATGAATGTGGAAAAGATATAATTAGAAAATGCCCAAAATGTGAATCTCCTATAAAAGGGAATTATGTCGATAATAATGAAATATTGAATTCGAAATTCTTTAAATTACCTAAATACTGCGATTCTTGTGGAACTCCTTATCCTTGGATTCAAAGCAAAATAGATGCAGTAGAGAGTGTATTAAAAGATACAAAAAAATTAAATCAAAAAGAAAAACAAGAGTTTGAAAATTATATTCCTGATCTTATTATTAATACTCCTAAAACAGAAATAGCTTCATTAAAAGCAAAAAATTTAATGGAAAAAGTTGGTCCTGTATTGAGTGATATGTTAAAGAATATCCTAATAGATATAGTTCTTGAAGTAGTAAAAAAAACAATTTGGGGATAAATATAAAAATTCATGATACATAAATATTCCTCTTGTAATGCATATAAAATATACTTCATTATCTTTATAACCCAAAGCATTCAACCCCAGGTTTTCAAACCTGGGGTTGAATGCGTGCCCGGAGCGAAATACTTTTAAGTATTGAGCGGAGGAAATATTCATGGCATACTCTGTATATGTCTGGATACAGAAGTGGAGCAGAGACAAAACATAAAATAAGAATTCATTTGGTATGGGTCCCGAAATACAGAAAGAGGTTATTGCGAGGTAATATATCTGAAAGATTAAAAGAATTATTGCATGAAGGATGTAGTATAAATAAATGGGAGATACAGGAGATAGCTATCATGCCTGATCACGTACAAATATTAATACAAATTAATGCAAGTGATAGTATATCAAGTGTGGTACATAGGTTAAAGGGAGGAAGTAGTAAAGTGATCAGACATGAATATCCTGAATTGAAAGAATTCTTATGGGGAGATAGTTTTTGGTCAGATGGATATTTTGCAGAATCAGTAGGGATAGCCAATGAAGAAGTGATAAGAAGGTATATCAAAGATCAAAGGAAGAGTATGCCATGAGAAGAGCTGAAGCCCCAGTTTTTAAACTGGGGAGAAGCTTCACTTAATATTGTTTATTAATATTTATTATTTTATTAATATTGTTTTATTTTAATAATATGATATAATATATGTTATGTTAGGATTGTCTCAAGTTAATACAAATGGCCAAATAACTGTATCAAAAAGGATACGTGATTTTTTGGGTATAAAAATTGAAGATAAGGTTTTAATCACAGTAGACGGGAGTGAACTTAGAATTACGCCTATTAAAGGTTCTATTATGGATTTAGGTGGATCTTTAAAAACTAATGTAGTTGTAAAAGATTATAAAAAAATAGAAGATCAATTATCTGAAGACTATGCAAAAGATTATGTAAAAAGGAAAATGGTATGAAAGTAATCATTGTTGATGCAAATATAATATTAAGATTCCTGGTAAAAGACAACGATGATTATTTTGAAAGAAGTAATGCAGTGTTCAAACAGGTATCTGAAGGAAAAGTACAGATTTATATTTCCCCACTTATAATAGCTGAAGTTATTTGGGTATTATACAAAATTTATAAAATTAATAAATCAGACATTACAGAAAAACTTAGTAATTTGATATCTGATAAGAATATTATTCTAAAGGAAAAAAGTATAGTTTTAAAATCTTTGAAAGATTTTTCAGATAAAAACAATATAAGTTTTCCTGATGCATATATTGCGAATGCCTCTATTGATAATAGTATGGAAATATATTCATTTGATAAAGGTTTACTTTCAGCATATCCTGATTTGACGATTTTTCAGATATAAATTACATGAACCTAGGTACTTCGAACTGTCCACTAATCCCTTTTAAGTATTATCTTTGTTTTCCATCTACCATACCTATCAGTTTCTCTTAATTCTTGTACTAGTCTTGATACAGAAGGAGAAAGTTTGTTTGAAGGAACTCCTCCATTCTTCCATTTGCCTATATCTTTAATAGTCTTTTTTAAACCTACCATTTTAAACGATTTAACCCAATCAGCATATGTTCTTCTCGAAATCTTGAGAATTCTATATGCATCATCGTACTTAGTATTTTCTTTAAATAACCTATATGCAAATTTGATCTTTTCTGTTTTTGTTAAATGTATGTTACTATTTCTCATAAGTGGTAGCTTGTCTAATTTAAGTACTTGGATGCTACCACTTTTTACATACTCTTATCCACACCTTAGTGCAAAATTCCCTGAACCTATACAAAAGGTTCTGACATCATCTACGATTATGATATAATGTTCTCCATAAATTAAACCTATTATAATAATGGAAATAGAGCAACCTAATTATGGTGCGAATTATTTAGGATCAATTCTGGGAATTGAATTTCCAGAATGTAATATTGCGGCATCAGCATTACATGTATCTGTAAGAGAACTAGTTAGTGCTCAGAAAGATGTATCTTCAATAAAATTAGTTGACACTTTAAGTAATAGAGATATAAAAGCTCATATTGTAAAAATTAAAGGAGATTTTGAAATAAAAGAAGAGAGATTTCCTGTAGGACTTGCCCTTATTCAGCAAGTAGAGATTAAAGAAAAAGGTGGGTTATTAAAAAAGAGGAAAGAAGCAAATAGAATAAAAACAGAAAGAAATATAGATTCTATTAAACTTTGTGCTTTGATTGAAGATGCTATATACGTACCTTTAGCTACATTTGTATTAAGAACAGGGGGAGAGTGTAGTTATGTACAGATAGGTGATGAAATGACTAAAGATTTTTTATATACTGTTCCTGCAGATGATAATACAGAGAGATTTACAACTATAAAATCTATAAGGACTATACTAAAAGGAGAAACTCTATCTTCTAAGAAAGAAGAATCTGTATTACTATCTTTAATTGAAAGACAAACAGCAAAATATAAGGAAGGTATATTAAGAGAAAAAGAGAAAATTGTAGTTAATAGCATGTATGAGAAAATTAGGGGAGAGAATACTCAATTAAAAGTTTCATTAGAAAATTCAAAAGGAGAAATTAGTAATGAGATTGTAAGATCACGTGAAATTCTTCCTCAATTTATATTAAATGATGGTATTCATGCAAGTTTAGCAATATTACAGCCTGGTACAGAAGATAAAGAAGATATATACCTATGTGCTATGGTAAGATCAAATATTGCTATTAAAATAGCTACATTATCTATGTTGGATGAATCAATACATTTGGAAGAACTTGCAGATGGAGATTTTAACAGAAAAGAGAGCATAGATAACATTATATTTATATTAAGAAATGTAGAATCAATAAAAGAAAGCAAACTAGATAAGAAGAGCTATGATTATTATGATCGTTCTACTTACGATTTTATTATTCACATACTAATTCCTATAATTCAATCAGAATTAGGACTCTTATCTAAAGAGGAATCATTACAATTAGAGGAAAAAATAAAGAAGGATGAAGACCCTTATAGATGGAGAGAATTTCAAAAAAACGTGAAAAACTATTTTTATTTTCAAGATATTTATAAAAATAAATCAAACCTTACAGAATATTATATAAATATGAAAAAGTATGGAGATCATATTAAAAGTTTATTAGATAAGACGGGAAAAGATTTTTTTGATCAATTTAGAGTAAAAGAAAGGATAGAGAGTTTGGGAGGGAATAGTAATAAATTTTATGAAGATTTAATATTCTTGTTATTTGAATTATCTAAAAAATCAACAGAATTAAAAGCTCATATAAAAGAAGTTCCTATGGGCAAGACAGAGGAAGATGCAGATATAAAAGGAGAAATTTCTTTTTCCGAAGGAGTATACAGTCTAATAGTATATGCCAAACCTAGTTCTATGGAAACAGAGCCATTTAGACGTGTATCTCGTTTAGATATTAATATTCTTAATCCTGGAGAAAATAAAAATATGGATACAGATAAACTAAAAGCTTTTATAGATTTATTAGGATGTATGAATCCCTAAATTTAGAAAAGTTTTGAAATCAATACTATATTTCTATTATGATATTAAGAATGGAGATAATAATTATAGAAAAACTATACACATCTAGATTTTTACCTCAATTAATTTAATAATATAACTTATATCTTTATAAAAAGATAAAGAGAAATGATATTATGAATATAAATATGAATATAATTCAATTAGTTAAATCTTTAAATTTAGAAAAAGGTGAATATACTGTATTTGGAAGTGCATTACTACAGATATATCAATTAAGAGACTCTAATGATATAGATATTAGTGTTACAAAAGAGTTATATGACAAATTAAAAAAATCTGATACATGGAAAGAAAAAAATCATATTAATGGAGATGTATCATTACATAATAATATATTTGAAATATTTAAATCTTGGAATTTTGAAAAATATAATCCTGATATAAAGTATTTGATAAAAAACTCCATATACATAGAAGGTATTCCTTTCGTAAATATAGAAGAAGTATTAAAATGGAAAAAAATAAGGAATTTAGAAAAAGATAGAAAAGATATTAAATTAATTGAATCTTATTTAAATAAGTGATACAAAATTAAATTTTTCTTATTCTTAAATGTTTGTAACGCGTACATTCTGAACTTTGGATGTAGATTCAGTATAAAATTTTATAGGTGATAAATAATTTATCACTGTATGGGAAACTATTACAAGACTTCTTTTAAATTGTTTATTGATTCATCTAAATGTATTAAATTTTTTTATGTTAAGTTACTTCAGTTATTTTATATTTTAGAAATATTATTATAATTCCTATATCAAAGAATGTTTGGAATAAAACCTCTCCTTGTAGCAAGAAATTTAATTTCCCTGTTATTGGTAAAATTGGATATATTGAATACATAGCAATAATACCTGATATTATTTGCCCTATAATTAAAAGTATATTTATAAAATTATTTTTTGTAATAATTGTTAAATATATTATTAACCCTAATTCAGTAAGGAATAATGAAGTTGATATAATTGTATGTATCCAATTAAAGCCTGTATTTATAGCATATGGGGTAAATACCAAAGCAATAAAGAGTATTGCAATCGTATTCATAGAATAGAAAATTATTTTATATGGATTACTATTATGTTTCATATATTTTACAGATTTTCCAATAAAATAACTACATAAAAGATAACCAATAGCATATGGAACTATAGTTTTTATATCAATTCCAAAAGCACTAATACCTTCATTATTTAATAGAATTTCAGGTTTAATTATAAAACATATAAATAAGAAGAATAGTAAGAGTAATTGACTATATATAAAATTTTTTAATAAATTTGATTTTACATTTTTTATAAACATAGTATTATGTTCATGTAGTTATAATTTTTTATAATTATATTTTTTCTCATAAAACTTAATATTTCTTTATTTTTTATATTAATATTATATATTTTTTAAATATAAATACACAGAATACTTTTTATTAATGCAAAAAAAGGTTTTAGATGAGTATGGTTTTAGTGTTGATAAAGGTGATGTAATTTTAAATGGTACAGGAGTATGGCATCAAGGAGGTCCAGTTGCAGATGCTGGTCTTACAGGTAGAAAAATTATAGTTGATACATATGGAGGATATTCAAGGGTTGGAGGAGGTTGTTTTAGTGGAAAAGATCCAACTAAAGTAGATAGATCAGGAGCATATGCAGCTCGTTTTATCGCAAAAAATATAGTAGCTAATAATTTAGCTGAAAAAGCAGAAGTGAGACTTGCTTATGTAATAGGTAATTCCAAACCTTTAATGAAAGAAGTAGAAACATTTGGAACATCAAAAAAAAGTGATAAGGTGATTAAAGACTATATAGATTCCATATTGGATACTTCAGTTATTGGTATAATCAATGCTTTTAATTTAAAAAGACCTATATATCTTAAAACTGCATCATATGGTCATTTTGGAAGAGATTGTTTCCCTTGGGAGACTATTATATAAAATTATATATATTAATAATTTGTATTTTTTAATATTTTAGAATAACATAATATATAATGACAAAAATACTATATTATTGTGGTCATGAGCAATTTCAACCGGAAGAATTGGTAAAGCATTCCGTTTTAGCTGAAAAGTACGGATTTGATGGAATAATAATATCAGAACATTTTCACCCTTGGGTATCAGATAAAGGTTCTGCAGGATTTACATTTTCTACACTAGGAGCTATTGCTGCATCTACTACAAAAATTGAACTTATAACAGGAGTAGTAACACCTTTATTTAGATATCATCCTGCAATAATAGCGCAAGCTTCTGCTACTATTGACAGATTATCTAATGGTAGATTTAGCTTAGGAGTAGGTAGTGGAGAAAGTATAAATGAAACACCATTAGGTATAAATTTTCCTCCATATAAAGAAAGATCAGAAAGAATGATCGAAGCTTTAGAAGTAATGAAACGATTACTTTTAGGAGAAAAATTATCCTATGATGGTAAATACTATACACTAAAAAATGCAAAACTATACTCTCCACCCATATCAGATATACCAATACTACTTGCAGCTTCTGGTGAAAAATCAATATCTATAGCAAATCAATATGCAGATGGATTAATTACAAGTGTAAAAAATGTTGAAGATATAAAAAATAATATAGAAAATTCAAAAAAACTAAATAAAATTATTCTTTCTACAATGTGGACAATTTATGCTAAGAATAAAGATGAGGCATGGAATGCTCTTCTTCCTTGGAGAGGATTGCGAGTTCCTTCAAGAGATATAGCAACAGATCCTTTAGAGTTACAAAAGGAAGCTGATTTAATGGATAGGGATGAAATAATTAGTAAATACAAAATTGTATCATCCCCAAAAGAATATATAGATGCATACTCTCCTTTAATAACTACTCTGCATTCTGATTATATAGCAATTCAAACTACTGGAGAGAATCAAGAAGATATTATAAAAATGCTTGGAGAAGAAGTTTTACCATATCTTAGAACTCTTTAGTAACTTTAATTATTTTTTAATCATTTGCTGATATAATATATCTAATAACTTTATATAAATTTATTATGAAAGCAGCATTACATATTCCAAGATTTAATTATGGTTCTTCTGATTCAGATATATCAGAAAATTTAAAAAATATAGTACAGAAAGCTGAAGAAGTTGGTTTTGGGAGATTATCTGTTATGGATCATTATTTCCAAATACCAGGAGTAGGGGATTATAAAGACCCTATGATGGAAGCATACACAACTCTTGGTTTTATTGCTGCAAATACAAAAAAAATTAGAATTGGAACACTAGTAACTGGTGTTACATATAGAAATCCAGCTTTTCTTATAAAACAGGTTACAGCTCTAGATGTGTTATCTCAAGGAAGAGCATTCTTAGGAATAGGTGCTGCATGGAATGAACAGGAATCTTTAGCATTAGGATTTAATTTTCCTCCCGTTAAAGAAAGGTTCGAAAGATTGGAAGAAACTTTACAAATTGTAGAAAAAATGTGGAGTGGAGATAGTACTCCATATAAAGGAAAATACTATTCTTTAGAAGAACCATTTAATAGCCCTCAAGTACTTTCAAAACCACGCCCTGAGATTTTAATTGGAGGTAGTGGAGAGCAAAAAACATTAAAATTTGTTGCTCAATATGCAGATTCATGTAATCTTTTTGCAGCTGAAAAAGACGTAATAAAACATAAATTAGAAGTTTTAAAAAATCATTGTAGCAATTTAGATAGAGATTATTCTTCTATAAATAAAACAGCATTAGCTAGAATAGATTTATCTAATTTAAATAAATTTATTGAAGATTCAAAAATACTTTCAGAATTAGGAATAAATGAAATATTCTTTATGGTACCTAATGCTGAAAAATTAGATAACTTGGAAGAGATTGGGGAAAAAGTTATATCAGAAATGCAGAAAATATAAAATGTTTTTAGGATTTATTTCTTTATAAAAGTTAGAACTTCTTTAGAATGATTTATTACATTTACTTTCCACCATATATTTGAAATTATTTGATTCTCATCTATAAGGAAAGTTACTCTAGATGTTCCTAGAGAAAATAATTTTTTATTCCAAACTCCATACTGTTTTACTACTTCTTTATCTTTATCTGATAAAAGAATAAAAGGTAACTCATATTTAGAACAAAAACCTTCATGAGATTTTTCATCATCTACACTAATACCTATTATTTCAGTATTATTATCTACATATTCTTTATAATCATTTCTAAATTTTTGAGCCTCTATAGTACACCCAGGAGTACCATCTTTAGGATAAAAATATAAAACTATATTCTTTCCTTTGAATGATGATAAGGATATATTTTCTCCTTTTGAATTTGGAAGTGTGAAATCTGGTGCTTGATCTCCAATTTTTAATTTATTCATTATTTTAATTTTATACTATATTTTATATATAATCAAAATTGTAAGAACAATTGTTTAATATGGTAATAAAGAAAATTCTATTATAAAAATATAAGGAAGAATGTGTGTGTATATAATCTTTATAAAAAGTATATAATATAAAAATATTAATAAATATGTCAAAGATCACTTTTAAAACTAAATTATATAAGTATGAAGATAATGATTTGAACTCACTTATAATCTTATCAAAGAATGAAGGTATAAAACTTCCATCTCAAGGTACATCTATGGTAGAGGGTAGTATAAATGGGTTCAATTTTAGAGTTGCTCTAGAACCTGATGGAAAAGGAAATCACTGGTTTATAATAGATAAAAAAAATACTAAATTAATGGGATTAGATATAGGGGATAGTGTTATTTTAGAATTTTCTCCCATCAAAGTATGGCCAGAACCAAAAGTTCCAAAAGATTTAGAAGATGCTCTTAAATCAGATTCTCAAGCATATAATCTTTGGATAGATATAACTCCAATGGCTCGTTGGGACTGGATTCATTGGTTTGAATCAGTTAAATTAGAAAAAACACGAATGGAAAGACCCTCAAAACTATGCTCAATGCTCAAAGCTGGAAAAAGAAGGCCTTGTTGTTTTAATCGTACTCTTATAACAAAACCAAAAAATGCAGAATTTTATAATAAAAAATGAAATTCTCTTATAAAGCATATAAAGATGAAGAGGTTTTAATAATTGAACAAGATTTATAACTTTGAATATTACGCAAAAACCCATAGTACATTTTTACTTGACATCGTGAAAAATAAAGAGTATTTTATACTTAATTAGTATTATATATTGGTTTATGGATAAAAGTAAGGTTAGGGTATTAAGTAAGATTTCAGTATTCGTATTGGTTATAGTATTCATATTTGATTTATCTGGATATATTAGAGCCTCCACTACAGATGTAAATCTGGGATCAGCAAATAATTTTGCAATCTTAGCTGGATCCACAATTACTAATACAGGCTCAAGTGTTATTAATGGGAATGTTGGATTAAGTCCAGGAAGTTCTATAACAGGTTTTCCACCAGGATTGATACACGGAACTCAATATATAGCAGATACAACATCTATTCAAGCTCAAACTGACCTTATAACTGCTTATAATCAAGCTGCAGGAGAAACTCCTATATCTACTATTCCAACAGAATTGGGAGGTACAACTCAAATTCCTGGTATTTATAATTCTTCATCAGGAACATTTGGTATAACAGGAACTTTAACTCTAAATGCGCAAGGAAATTCTAATGCTGTTTTTATTTTTAAAACAGCTTCAACTCTTATTACTGCTGGAAGTAGTAAAATTGCACTTATAAATGGAGCTCAAGCTTGTAATATTTTTTGGCAAGTTGGAAGTTCTGCAACACTTGGAACTAACTCTATTTTTGATGGAAATATTTTAGCTTTAACATCTGCAACTCTTGATACAGGAGCTAATGTATATGGAAGAGTATTATCTCGTAATGGAGCAGTTACTCTAGATACAAATGTTATTACTCCTACAATATGTGCAACTCAATCAAGTACATCTCTAGGTTCAGGAACTACAAATACTTCAGGTACAACTTCTACTACTCCAAATTTACCTAATACAGGTTTAGCACCTCAGAATACTTTTCCTTGGAATATTGTATTGCCAATATTAGCAGTGATAGGTTTATCTTTCCTTTATTTTTATAAAAGAAAACAAACAATTTAAATCTCTATATTTTGAGAAATATAAAAAAACAAATTCCCAATAAATATTATAAGAAATTAAAAAGTTTATTAAAACTAATATTTTTTTTAATTTTATTTATATCTATTTACCCTTTTCTTTCTTCATATTTTAAAGTATCAAAACAATATAATCCTAAAATTCTTATTACTTCTCCAAAACCAATACAAGAAAGTTCAGCCTTACCAATACGCCTTATAATCCCTGCAATAAATTTTAATTCTAAAATTGAAAATGTTGGTCTTGTTGCAAATAATACTATGGGTGTACCTGTAGGAAGAGAAGATGTTGCATGGTATGATCTTGGTCCAATACCTGGGAATATAGGTAGTGCAGTTATAGATGGTCATTACGGTTGGTGGGCAAATACAGGAGCTCCCGCAGTATTTAATAATTTATCTAAGTTACATAAAGGAGAAAAAATATATGTAGAAAATAGTAATAAAAAAATTACATCTTTTCTTGTAAGTAAAATTCAAATATATACTCCTAATTCTAATTCCACAAAAATATTTAATTCAAATGATGGGAAATCTCACCTTAATTTAATTACATGTGAAGGTGTGTGGAATAATACAACTAAAACTTATTCTAATAGAACTGTTGTGTTTAGTAATAAAATAAATGTAATATTATTAAAATTTAAATTAAAATATATAATAAAACCATGGCTGATATAGTACTTGAAAATAACAAATTGCAAGATCCTCTTTGGTATCTTTACTTCCAACCCCAATTAAATAAGTACTTTTATGAATATGAGAAAAATAATATAACTGAAGACTTTTTAAATAAAAGAGAATTAATAGTTCAAACATTAATAACTGCAATTAAAGACAATACTTTAGCATTAGGAGAGAATGAAGAGGATTTTGATTCCGAGAGAAAACCTATTGATACTATTATTATTCATATGACTAGTACCACTTCTAAAAAAGATGAAAAAAGAGGAATCTAGATCATTTAAATATATTAGATTTAATAAGATTATATGCTTCAGAATATAGTAGAAAAAGTAGATCATATTATTCAAAACCTATATATTCTGGACATTATTATAATGGAGTTCAAACATTTATACCTTATCATTATTTAATAAATTCAGACGGAAGCTTTATAAATATACTTAAGGATCAATATATAGGATGGCATGCAGGAGAATGGGATATAAATTGTAGAAGTATCGCTATAGCTTTTAATGGCAAATTTATAGATTCATCTCCGAGTAATGAAGCTTTAAAATCAGCTCAGAATATAATAAAGAAATATAAAAATGTAAAAATTTTAGGACATAAAGAAGTGTATCAAACAACAAAATGTCCTGGTGATACATTTGATATATGGAAAGAAAAATTAGTTTAGGATTTATCTATTAAGTCTAACTGCAATTGCAAATTGCATGAAATATTTTTCTATACTTGCTGCATCTTCTTCATCAAATGTATTTCTATATAGATTATCTAAGAATTGTTCTTTTGCTCTTAATACTTCTTTTGCTTTTATTGATTTTTTCTTAATTAGACATTCAATTGTTGCATCAAATAAATCAATTGCTCTTATCATAGATAGAGTTTCATATTCTGAATTTTTATTTCGTCTAGCATTAAAAGATCTACTAACTTCACTATAAATATTCCCCATTTGTTCAAAAATAGTCATATCTGACCATTGTTTATGATTAACAATATATTTATTCATTTATAAAAATTATACTAAATTCAATTCTTTTTATATTATACATAATAAACTATATTCAATATAAATATATATCAAAGACAAAAAAATTGATTATCTAGTTCTATAAAAATTTAATTGATTTTTAATTATTTAATAGGTATGCTATTTATATGAAAATATTTGTATTTATTGATAGTCAAAATTTAAATTTGGGAATTAAATCGTGTGGTTGGATATTAGATTTTAAAAAATTCAGATTATATTTAAAAAATAAATATAAGGTTACTAAAGTATATCTATTTATAGGACAAGTCCCAGGAAATGAGTCTATGTATAGAAGTTTACAAGAAATGGGATATATATTAGTTTTTAAACCAACTATGCAATATATGAAAGAAGGTATAAAAGAAACAAAAGGGAATGTAGATTCAGAACTCGTACTATATTCTAGTGCAATAACTTTTAAAGACTATGATAAAGCAATTATTGTTAGTGGTGATGGAGACTTTTACTGTTTAATAGATTTTCTTGAAGATAAAAATAAATTATTTAAATTAATTGTTCCTAACAATCATTATTCAAGTCTACTGAGAAAATTTTCAAGTAAAATTATTAGAGTAGATCAATTAAAAAATTCTTTGGCACTAAAAAAGACTGGCATCAGTGTTCAGTCGAAACTTTAGACCTATCCAGTCATCGTGATACATCTATATTACCATCTTTTAATAATTATTTCAAATAATATATTAATATCAATATTTATTAAATACATAAATTCAAGAAATATGATAAAATCTTAGAATCAATATAAATTACTCTTTGAGACATGATTCTAAATGTAAAAATTAATGAAAAATCTATAGGTACAAAATCTTTATATGAAGATCTTTCTTTTTTTATTAATGAAAATGAAAAAGTAGGATTTATTGGAAGAAATGGTACAGGAAAAACTTCTCTTTTTAAAATTATTGCAGGTTTAGACTCTGATTATAAAGGGTCTATTGATGTTAAAAAAGATACTAAAATAATATTAACTCAACAAGAATATCTAGATATAAAAAAAATATCCTCCATAGATTATATAACTCAAAGTTTACCTGATTATATAAAATTAAAGAATACAATGGAGAAGTATGTTGATATCATGAAAAATGATATGGATATGATAAGTATATATACTGAAGCTGTTACTCTTTTTAGTGAATATGGATATTATAGTATTGAAGAGAAAGTTCTAAATTCTCTTTTAAAATATAAAATAGATCCTGAAAAAGCAAGAATGCCTCTTATAGACTTGTCTGGAGGAGAAAAAAGATTTGTAGAACTAGTAAGGGTTATGTATTCCAAATGCGATATTGCCTTAATTGATGAGCCCACTAATCATATGGATGATATTGGTAAAAATGATTTTATTTCTTGGTTTAAAAGTACTAATCATGGAATATGTGTAATTACTCATGATAGAGATGTACTAAATTATGTAGATAAAATAATAGAGATAAAAGATAGAAAAGCTTTTATTTTTTCTGGTAATTATGATTCTTATCTTTTACAAAATAGTATTTCAAATGTTACAAATATTGAATCATATGAAGATTCTCTAAAATCATTAGATAGACTGAAAAAACAAATGGAGGGTATTAAGAAAAGAGGAGCTCATGCATCCACTAGAGTAATGTATGAGAGAGTTGAAAAAGAGCATAATAAAATAAAAAAAGAGATAGAAAAACCATCTATTTGGATAGATGAAGAATCAATAAAAGATGTTAATAAAAAAGTTATAGATAAATATGAGAAATATAAAGATAAAAATATATCTATAAAAATTAATAATATAAAAGAGAATAAAAGTATATTACTTACTGTTAAAAATATATCTATAGGATATGAATTTCCTTTATTTAAAAATATTAGTTTTACTCTTTCTCATGGAGATAAAATCCAAATTAAAGGAAGAAATGGAGCAGGAAAAACATCTTTAATAAAAACAATAATTTCTATTATAGAAAATACACCTCATTCTACAAAAATATATGATGGAGAAATTTTACCTAATGACAAAATAAAATTAGGTATATATGAGCAAGAAATTGATAGTTATTATTTTAATATGAAGCTTAAAGATGCTATTGAAGATATATATAGACTAGAAAAAATAGAAATACCTAATGTAAATAAAATTTTAAATGATTATCTATTTGATCCTGCAAAGGATAGTGATTTATTAATATCAAATTTATCAGGAGGGCAAAAAGCTAGATTTCAAATAATAAAAATGTTATTAAAAAATCCTAATTTATTAATTTTAGATGAGCCTACTAATCATTTAGATTTACCTTCTATAGAAGAGTTAGAAAATGTTTTAAAAAATTTTCATGGAGGAATATTGTATGTATCTCACGACAGTTATTTTATTAAAAAATTAAAAGGGGAAGTAATAGAGATTTCTAATAAAGATTAGATTTTATACTGTTATTTCTTAATTTAATTTCAGGGTTATTATTTAACTGGAAAAGACTTTTGCGTAATCAATAGATACAATCTATCATCAGTTACATTCATATTTACATAAAAGAAGTGACATCCCAAATCTAGCCCAGAAGAAGATTAAAATGCATAGAACACAAGAAGTATACAATTCTCTCAAAACCCTACCCCATAAGATAGATTTTAAAGCAGGTTGCACTATGATTATCTAATTTTTAGAATTATACATATATTTATATATAGATGTATAATAAATATATGAAAAAGACTTTTATAAATATAAATGAATACGATCTACCAATAATTAATAATTATTAAAGAAGATGAGGATGGTGGATTTGTAGCAAATTGTTCTATATGGGATGATTGTTATGCACAAGGAG
>sequence08
GGTGCTGTAACATCTGTATTTAATGTTACTGATATTGACTGCGATGGAAATGATTGGCCTGATGGATTTTGTGCTAATACTTCATAATAATAGGTTCCAGGATTCATTGATCCTCCTACTATAGAACTGCTACTCATTGTAAGTCCCGTAGGCGTAGATAACCCCTCTACATTCAAATCTGAGGAGGCTAATAACGTATTTCCGTTAACAGTTAAATTCGCATTCTGATCTATACTCAGCAATGGTGTTACTACACCATTGTTATTGGATGTTACACTAAATATGTTTGATATATTCGACTGGATCTGAGAGGAATAGACTGAAGATGTAGGACAGGCAGAATCAGAACATCCTCCTATCTCGTATATGTATCCTGCATACACTACTGATGTTGCATAATATGTAGCTGAAGGAAGAGAGGTTGTCACAACCCATGCTCCCAATGTACCATTCGAACTTATTGGAACATAGTATACTGTGGCAATAGGACCACCGTTCCATCCTCCTATCTCATATAAATACCCATCATATACTATAGACGTAGCAGGTCCATCATTAGCTTGTGGTAAAGATGTTGCAACAACCCAACTTCCGAGTGTTCCATTAGAATTTATTGGTGCATAATATACTGTGGCAACTGCCGCTGTTGTATACCCTCCTATCTCATATACATACCCCGCATATTCTACTGAAGAAGAATAATATGTAGCTATAGGAAGAGAAGTTGTTGCAGTCCATGCACCTATTGTTCCATTAGAATTTATAGGAGCATAATATACAGTTGCCGCGACCCCTGAAGCTGTTGTATACCCTCCTATCTCATAGATGTATCCATTGTACTCTACCGATGTTGCATAATATGTAGCTGAAGAAAGAGAGGTTGTTGAACTCCATGCACCCAGAGATCCATCGCTATTAATAGGTGCATAATAGACTGTAGATGTAGGACAAGTAGAAGAACATCCCCCTATCTCGTATATAAACCCTTCATATGCAACCGATGTAGCAAGAGATGTTTCTTCAGGAAGAGGTGTAGTTACGGTCCATTCACCTAATTTCCCATTACTATTGATATGTGCATAATAGACAGTAGATATACTATTATAGATATATCCTCCTATTTCATATACGTATCCTGCATATTCTACTGACGTTGCACTATTTAAAGCTTGAGGCAGTGATACAGTACTATTCCATTCTCCTACCTGTCCTATCGTATTACTATTTACCGCCCCCATATTTAATCCAAAATTCATGGAATTCAGAGATAATGATGATGTTGATGATATATTAGATCCACTTCCATTTGTTAATGATATATTCCCTCCTGATATTGAACTCCCTCCTACTAATAGACTCCCTCCTACTGTTAAGTTATTGGATATATTCCCATTCCCTCCATTACCCTGTGTTACTGTTATTGCATTCGTAGTTGTTGTTGATATATTTCCATATATCCCCCCAGTAGAAGATACAGGAAAATAGTACACTGACGCCAAATTACCGCTATTATATCCGCCTATCTCATATATGTATCCTTTATATACTACTGATGTAGAGCTATCTGTAGATTGAGGTAAAGAGGTTGTTGCACTCCATACACCTAGTGATCCATTCAAATTTATTGGTACATAATCTATTCTTGATACAGTAAAACTTCCATTAAATCCTCCTATTTCATATATATATCCCGCATATACTACTGATGTAGAAACTTGAGTAATAGCAGGGAGAGATGTTGTGGTTACCCAACTTCCTAGCGTTCCATTTGTATTTATTGGCACATAATATACAGTTTCTATTGTTGTTGCAGCTGTATTTCCACCTATTTCATACACAAACCCATTGTATACTACTGATGTAGCCACCTCTATAGCTGTAGGAAGAGATGTTGTAGTTACCCAGGTACCAAGTGTTCCATTTGATTGTATCTGAGAATAATACACAGTCGATGAAGGACAAGATGTACCACATCCTCCTATCTCATACACATATCCCGCATATACTACTGATGTTGCCCAATATACAGCTGCAGGCAGTGAGGTTGTTGCTGTCCATGTACCAATTCCTCCTCCACTATTTATCTGTGCATAATATACAGCATCTAAATTTAAACTTCCTGTATCCCCTCCTATTTCATACACAAAACCCTTGTATACTACTGAGGTTGCAATATATGTAGCTTCAGGAAGAGGTGTTGTTGCTGTCCATGTACCTAGTGTCCCATTTGAGTTTATAGGTGCATAATCTACTGTTGAAACTGCTGCAGTTGTATACCCCCCTATCTCATACACGAATCCCGCGTATTCTACAGATGTTGCCTGGGTTATAGCTTGAGGAAGAGGGGTTGTTGATAGTACTCCTGTATCTGTGTAACTATTTGTTGTAGATATATATTCTGCTGAATTAGTGAAATTTGTACTAGTTGATCTATATATTATATAGTTAGTAGCACCCTGTACTGCATTCCAACTCAAGGATACTTCATTTGTATTCGTTAGTGCTGTATTACTAGCAGGTGGACTACTACTACTTGGAGCTACACCTCCTGAATCTGTATAACTCGTAGTGTTTCCTACTGATGCTAGAAATACTTCACTCCCTGATGTCGTTGATCTATATATGTTATATCCTGTAGCTCCACTATCTGCTGTCCATGAAAGTGTTATCGGATATGCTGTCGTTCCCTCTGTTGCTGATACCTCCGTTGATGCGGTACTCTCTCCTAGTGATGTTGTTGCCGTTATCTTATAATAATATGTTGTAGATGC
>sequence09
GGCATAATTAAATCAAGCAGTATTAAATCTGGCTTAAGCTCTATAGCCATCCTTAGCCCTTCTTCGCCGTTGTAAGCGTGGACTAAATTAAAGCCTTCCTCGACAAGCAGTTTTTCTATCATTTTATGAACGACTGGGTCGTCGTCCACCAGCAGGATATTGACCTGCCTTTTTTTCCTTTTTGAAGTCAGGGTGAACTGCGACAAAGTATGTATAAGGGTTTCCCTGTCTATCGGTTTTATAAGATAATCCGTAGCCCCCAGAGCAAATCCTAAATCTTTATTGTCTATAATGCTCGCAATGATTATGGGTATATTTTTTGTATCTTTATCTGATTTTAAATCGTTCAGGACTTCCCATCCGTCTTTTTTAGGAAGCATTATATCTAAAAGAATAGCGAACGGCTTTAAACTTTTGGCTTTTTCCACGGTTTCGACGCCGTCGTATGCATGCGCGACCGAATACCCTGAATTTACTAAATTTATCGTAAAGATTTCGGACGTCGGCCTGTCGTCTTCCGCCACTAAAACAAGAGGCTTATTTCTTTTTACGTTATTGTCCCTGAAAAAAGTTTTTGCATCGACGGTTATCAAAGTTTTTTCGGCGTCTTCGGCGCTTATGGCCGATACTTCGGCTTCAAGGGGATTGGGAAGAACGAACGTAAAATCGGTAAAATCGTTTTTAACGGATTCAAAATTTATATGTCCTCCGTGCAGTTCTACGATTTTTTTTGTAAGGGCAAGTCCGAGACCCGTTCCCTCGTACTGTCTTGAATAATTAT
>sequence10
TGTTTAGCTTGTGACATAAACATTTTATTGTAAAATTTATTATTTTTCATAAGATACTCATGATTACCCATACTATCCTGAGTTCGCCAAAAAATAGGGACGTATTTAGTAGAATGTTGTACTAGAGGTATAAATTGATATGATGTGATAAAATAGCGTACTAGAGTATCATCATGTTGAAAGTAAGGACTACTAAAATATCTTCTGGAAACACTGCTGTTCAGGTTGTTAATAATGCTGATCACAAGACATATATCATTAAACATATTGGTACTGGGAAGAACCTTCAAGAGATTGAAGATCTTAAAAAGATTGGGTCTCAATATATTGATAATCTCAGAACAAGTTCTGGAGAAATCTCTTTTTTTAAAGATGAAAATCCTTTGATGTTTTTAGAAGAGGTAATATCTAACCTTTCTATTAAAGAATCTTTTCATACTTTTGCTCATGAATTCCTCGATCATGTTTACAAACTCAATGGATTTGATAATCTTGAGAATAGAGTACTTAAAGATCTTTCTATTATGAGGATCATTGAACCTGTATCAAAGATAGACTCTATTAGGTTAATGCATCGCTACTTCAATATTAACTATTCTGAAGGTACTTTAAATAGAGCTTTATCTAAAATTATTACTCAGAAATCTGAGATTGAAGAGATTGCCGTAGAGTATGCTAAGAAAAACCTTAACTTTGATTTCTCTTTGGTATTCTACGATGTCACA
>sequence11
TTATTAGTAAATTAAAATGATATTTACATTCATAATTTATAACCAAAGATTTAATTATTTTATCATCTTTAATTATTCTATTTGTAATTATAGAATCAGGAGTATAAATTATTCCATCATATAAATAACAAACAAATTTATTAACACTGAACATTAATTTAGATGCTATTTTATAATATTCATTTTCTTTCATTAATTTACCATATTTAATATTTCTTTCAGTTTTTTCTAAATTTAACAAATCTATTTTATTATTAGTAATATATTTTAATATAGTAGGACCAGCAGACTTTATATCATAATAAAACATATTATTATAAATATAATCAGATGTTAAAATATTCATTTTTACTTTTAATAACTTTTTAAAGATTGAAATATATCTTTTTTATATTTCTCTTCACCAATAAATTTTTCTGTAAAAGTTTCTGCACTAGAATGAGCACCTCTAATATTCATACACATATGAGTACATAAAGCACTGAAATATATAGCTTTAGGTTTTAATATTTTATTCAAATATTCAGTAATATTTATTGTAAGCTCTTCTTGAACTCCAGGTATTGCAGAAAAATAATTTATTATTCTAGGAAATTTTGATAATCCTACTAATTTTTTATCAGGAACATATGCTATTTTACATTTACCAAAAAATGGCATAAAATGATGTGCACATAAAGAATTAATTTCTATATCTTTCATAAATAAAACATTAT
>sequence12
TTTATCGTTGAATTTATTATTATCCATAATAAATCTAAAAAGATTAAAATATGTACTTAATTTATATTTTCCAATTCTTGGTGTTGAATATTTATCATATTCATAAATGTTATTAATCTTATTTTCATTATATTTATATTCTAAAGTAAAATATGAAATTTTATCATCTAATGTTTCAGATATATTAGATACAGTAAAATTATTTTCAGATATATCATTTATATTTTCTTTATGTTGAGGAATAAATGTTTTTAAATCTAAATATGGAAAATTAAATATATTATATATATTAAAAAATAAATAATTTTTATTTCTTAAAATTTTATCATATATATAAGTATTAAATAAATATTTTATTTTTAATAAATTAATATTATTAGAATTAGAACATTCATTATTTATTTCATTAATTACATATCCTATATTTGGTTGTATAATAATAAAATGATCTAATACATTTTTAAACAATTTATCATTTAATTTATATTCATTTTTTTTATTTAATGTATTAATAAAGTAATATTCTAAATTTTGTATATCTATATCACATATTACTATATGATATATAATTACATCTTCTGTTTTTAGTTCTTTAAAATCAAATGATATATCATTTTTTAATTTATATTTTACAAAAATTCTATCAGGATATTCATTAATTTTTGTTATATCTTTT
>sequence13
TTTGTTTTTCCTATATTAGCAAAGTATACTGACGTCATTTGACTTTTGATCATGTATACATTATAACATATTAATTTAAAAAAGTCAAGTTAATATTACTATTGTCTTAATATATTAGATTTAATAAAAACCTCCATAAAAACATAATTTGTAATATTCTTTTATTTATACATTATATTATATTTTTTACTAATAATCAAGTTATTGTTTTTTGTTGAGATATATGATATACTAATATTAGTATAAAACAGAATTGTAAATTATAAACCGGCTATTACAAGCAAGTAATTTTCGGCATATAATTTTTTTAAAAAAAGGGATAAAAATAATATCTATGAAAAATAAAAGTTATAAAGATGAATTATTATATATTAAAAATTGCAGTAAACATGAAAAAAATAAATTAAGAATAGATTTTATTATAAAAATGATCGATGACGTAGGTCTAGATAAAATTAACGATATTATTATAGATAAAGATAGGGCTATAATTTTATTTAAACATAATATTATAGAACCTGAAAAACTTTTTTATAATAAATTATTAAATTTAGATTATTATTTGTATTTTATATTAGAATCTCAAATATCTTTTAATTTATCTTCGCCAAAAATATATGTAACTCATTGGCTCAATTATAAAAGACCAAATTGGTAT
>sequence14
ACCTCCCGAACCGTCTGTCGGTAGAACGCCTGCTCCCCGCGCCCCTGCGGGTCGTCATGCAGACGCTCGGGCACAGCCAGATCAGCCTGACCGCCAACACCTACACGCACCTCCGCCAGGCGATCCAGCAGGAGGCGGCGGAGCGACCCGATGCCGTGCTCTCCGCCGGGTAGCGGGTCGGTGTCCGACAAGAAAGGCTGACAGAAGGGCTGACAGGACGCCGAAACCGCCGTCCCGGGCCACCCCGCAACGGCGGTTTCACGTTCAATCGATGGAGCCGACACTCGGATTTGAACCGAGGACCTGCTGTTTACGAAACAGCTGCTCTACCACTGAGCTATGTCGGCCTGCCGTGTCGTGTGGTTTCGAGTTCCTGGAGAGCTGATGCTTGCGCGCCAGCACCCCAGGCCCTGGTCCACACCGCTCGGGGAGCAGATGATTCTCAGTGAAACCGAGGCAGCCGATCGGAACCAGTACCGAGGCGTCACCTGTGACCACTACCGCTCCGGGCGTCGCGCATGATACTCCTGCGGGCGATCTCTCCGCCAACCGTGCCTCCTTCCTGCGGGCCCTGCGGGCCGCCAACCTCTCGCTCCTGACGCTGCGCACCTACGCCGACGCGGTCGACCGTCTGGCCGACTATCTC
>sequence15
TATAGGTTTATTTATTATTGATATTAAAAATAATAAAGTTTTAGAAATGTATAAAAATGATATTAATTATAAAGAATGTAAAGAACATGTTACCAAAATATTAAATAAGTATATTAATAAAAAAAATATATTGTATATAGGTAGTACTAATAATTTAGTATTAAATTATAAAACATATGATAAAAATAGATATAAAAATATTCAGCCTGTATATAAAAATAATATAATTTTAGCTCATGATGGTTATATATCTGAAAGTTCTGTTAAAGAATTTGAAAATGAAGAAAAAATATCAGATTTAGATTCTGAAGTAATTATAAATAATTATGAAAAAAATAAAAAAGATGTATTATCTACTTTAGAAACACTTTCAGGTGGATGGGCATTTATTATGTATGATTTAAATAAAAAGAAATTAATAACAGCTAATTCATATTTAGATTTATTTCAAGGATATTTAACCAATTATGGATTTTTTATACATAGTGATTATGAAGCAATAAATAAAATATTTTCTAATTATAGAAATAGTAATTTTGAAAAAATATTTGATAATTTTTATATCAATGAATATAAAGAATATTCTTATAATATAATTGATTTAATAAATTATAATATTGAATCTCATAATTATTT
>sequence16
TGTATTACTAATTTTGACATTTAAAACATTGTCTACAATTTTGCTATTTAATTTTTTATTTTTATTTTTATTTAAAATTTTTAATTGCTTAATTCTCTTATGTCTTTCTATAGATAGATTAATTAAACATTTTTTTAATAATTTTAAATTTGCATTTTCTAATTCTATTCTAGCAATTTCAGTCAACACTTTATTAATTTCATCATCAATAACATTTAAATTTGTATCTTTCATAATTTCTCCTTTATTTCCAATATTTCGTATCTATACAGAGGTTTAAATATTTCAACGATATCTAATATAGATTCTTCATGATGATCTTTATTATATTTTTGTAATCTATAAACTGCATCAGTATATCTATTAGTTAATTTTTCTAACATAATATCTCTGCATACAATAGAACATAAATACAATATTTTAATACTATAACCACAATCATAATCTCCTACACACTCTGAACTAGGATCTACCCCATTAATAAATTTTAACATATAACCTTTATTATTAAATAATTTTTCACAATTAGGACAGTATGCAGCATCACTAAAAGTTCTTTCTATTTCATCTATTCTTTGTTTTATTGGTTTTATAATATTATTATAATAAACATTTGTATTAATA
>sequence17
TAGAATGAATAACATCAATATTTCCTTCTGTAATTATTACAAAATCTTTTTTTATAATATCTTTTTTTGCAAGATTAATTCCATAGAGTACTTCAGATTTTTTAAAAACTTTTGTTTCTGGAGAATTTAGATATTTAGGTTTAATATAATCTTCTAAAGATCTTCCTATAAACCCTATAACTTCATTTCTAGTATTTTTTATGGGGAATATTATTCTATTTCTAAATTTATCTATTATTTTTGAATCTTTTACTGTGGAGATTCCATATTCTACCAATTTTTCCTTACTAATTCCCTTATATATAAGATTTTTTGTTAATGAATTGTCTCCTAAGGCAAACCCTATATCAAATTTCTCAATGCTAGTGTTATCTAATCTTCTTGAAATTAAATACTTTGTTGCACTAGTATTTCCTTTGAGATTTTTTTTGAAAATTTCTGTTACATATTTATTGATTTTTAGAATATCATTATTTTGAGATACAATATTATTCTGGGATCTTTTTAATTCTATATGAGCTATGTGAGAAAGTATTTCTATTGCTTCATTGAAATCTATATTATCTAATTTTTCAAGTAAAGATATAACATCACCACTTTCTCCACATCCAAAACAGTGATATA
>sequence18
TTTGATAATTTAGGTGATGATTTAAATGATAATACTGATAATAGTGATGAAAAAACGGAGGAAGTTAAAAATGGCTAAAAAAGATGTTAGTATAGATAATTCAAATGTTTTAGATTTGATGAATGATCAATTATCTAAATTTTTAGTTGGAAAAATTGATAAAATTTCTGTAGAAGAAAATATTCCATTGGTTCCAACTAAAATAAAAGTTTTAGATTTGTTATTAGGTGGTGGGATTGGATCTACTACATTTACTGTTTTAGTGGGAAATCCAGGAACTTTTAAATCAACAATTGCTTCACAAATATTAAAATCTTTTATAGAACATCATGAAAAAACAACAGGAATATATATTGATACCGAAAGAATAATGACTAAAGAAAGATTAGAATCATTAGGTGTTAAAAATTTAAAACCATTATCAGGATTTACTGTTGAAAAAGTTGTTTCATTATTACAATCATTTACTGTTTTTAAAGATACAAAAAAATTAAAAGAATTTCCATCTATAGTTATTTGGGATTCTATTGCAAATACACCAGTTGAAGCAGAATTATTAACAGATAATGTTAATTCAGTAATTGGTTTAAAAGCAAGACTATTATCTTTTTAT
>sequence19
GACGTTAAAAGCAACATTAATAAATAGAATTAAAATAACATTAAAAAAATTTAATATAGATGAAAAAACCAAAATTTATATTATCTTAAAATACGTGAGCCGTAAACTTTTAAAATTAAAATATTTTTTTATTAGTTTTATGCAAAGTCTGATTTATTTTAATTACAACGATGTCATTTTACCAGAAAAAAAAGATATATTATTTGTTCCTGACGGATTTTGGGGTTCCGAACATAAAGAATATTTTATATTTTTTTGTAAGAGAATTAAAAAAAATCATGGCATTATAGTATTATTAATATACGATATCATGCCATTAACGGATCAAGAATTTTTTAGTAAAGATTTTGTCAAAAGCTTTAAACAGATGCTATTCAAATTATTATACTGTAATTTAATAGACATTATTTTTACTATTTCTGAAAGTGAGATGAAAAATATTATTAATTATTTGAACAGTAAAAAATTTATTGATAAAAACATTAAATATGTATCTTTTTTCTATCTAGGATGTGATTTTACAAACGAGCAACGCAATAAAACTACTAATTTTAGCGATAAAAATTATAATGTAATTAGAAAAGATTTAGTAGATTTATCATATAAG
>sequence20
GCGTGGTAGGAGAGCGTTCCATACTGCAGTGAAGTCAAACTGAAAAGTTTGGTGGAGTGTATGGAAGTGAGAATGTTGGCATGAGTAACCCAAATCCCTGTGAAAAACAGGGACACCGTAAACCCAAGGTTTCCTGGGCAACGATAATCGTCCCAGGGTTAGTCGGGCCTAAGCCGAGGCCGAAAGGCGTAGGCGATGGACAACAGGTTGATATTCCTGTACTGGTTATTTCGTTCCCACAAGTGACGCAGGATGGTAGCCGAAGCATTTTATGGCTATAGGTGTCTAAGTGTCTAGGTGCTTCGCTTTTGTTTCGCAAGTGAAAAGTTAAAAATGCAAAGTGAAAAGTTGTCGTATTCTTCGGATGATTTATAATCGTCGCGAAGCGACTCATAAACTTTCAACTTTTAAATTTGAACTTTAAATTATTTGCGACGCGTAAGCGGAGCATTGAAGCACGAATGAAATCTCCGTAAAACGAGAAATTCCGGTAAGCCAAACTGACTAGAAAAGCTTGTGATTAATAGAGATAAGCAACCGTACCGAAAACCAACACAGGTGGGTGGGTAGAGAATACCAAGGTGCTCGGGAGAACCCT
>sequence21
CTCAAGCTTGGTACCGAAGCCGCGGATCTGGTGCGACCTACGGGTCGCCCTGGATGGTAGGGGAGCGTCCTGTCTGCAGTGAAGGTCGACCGTGAGGACGGCTGGAGCGGACGGGAGTGCGAATGTCGGCATGAGTAGCGAGATGTGGGTGAGAATCCCACACGCCGTAAGCCTAAGGTTTCCTGAGGAAGGCTTGTCCACTCAGGGTTAGTCGGGCCTAAGCCGAGGACGAAAGTCGTAGGCGATGGACATCCGGTTGATATTCCGGAACCACCGGAGATCGTTTGCACCGCAAGGTGTCGCCTGGGGGAGGCAATCCGTGGTTGGTCGGCGCAAGCCGGTCGAAGCGGGGCGTCGAAGCCAGGTGAGAGCAAGGGCGTGACCCATCGTGGTAGTTCGAGCGCGTTCTGGCTATACGCGTCCAAGCCGGTAGGGGGAGCGGACAGGTAAATCCGTCTGCTCGTCAACCCCGAGAAGTGATGGAAAGCGGCATCCGCTGCAATTCGAGTGAGCCATAGTGGCAAGAAAAGCGTCTAGCGAGATCAATGGTGTCCGTACCGCAATCCGACACAGGTAGGCGGGTAG
>sequence22
TTCAAACGCTTTAAAGATATCACGTGTATCAGGATAATAATATTCATCGTGAATCTTTCTTTTTTCTATTAAATCACTAATGATAGAAAGTTCATTAATTGATCTTTTAAATGTATTTTTCCACGATGGAATAAGAGGTAGTAAGATTTTAGAACAATTTAAAATAGTTGTTTTATTTGTAATTAAAGATTTTCTATTAACACGAAGTTTTTTCATATTTATGATTTATATATTAATAAATATATATTCAATATTTTTATTTAAAGGCTGATTGATAATGAATGTTTATCTATATATTTATATATTATATAATATAGCCTCATCGGAGAGTTCATGGAATGCTGAGATATATCATCTAATAAATGTTTATTAAAATGTATATATAAATATATTATAATATAAATTATATAATATATAAATATTTATATATTATAATAGATTATAAAAAAGAACTTGAAAGTGAGGTAAAAGCTTCTCGTTCTTTACAAAAATATATACATATAGTTTATTATATGTATATTATAATATATAATCTGTATTATATATTATATAAATATATTATATATACATCTTAATAAACATT
>sequence23
TTAGATCAGATAAAACTACAATATTATAATCAGTTTTATCTAATAATTTTTTAATTATATCTATAGCTAATTCTTTTTTTATTCCTCTTATTTTAGCTGAAGAATCAAATTGAAATAATAAAAATTTATTATTATTTTTATATTTACTTATAGATATTTAATTAAAATAATTATTATAACTTTATTTAATAATAATAAAAATATTAACAAAATAAATACACCCTCTTTCGATGAATAAAATAATTACTAACATATATAATAATTTATCTCCATCTTTTCAAGAAAAAATAAAATCTTTTCTAAATCCAAACAAAGATTACAGTGAATTTTTATTATTTACTTTTTTATATGGTTTATTAAGTGCTTTATATACAAGTGATAGTTTATTTGTTATTATTATAGAATCTATTATTTTACAAACAATATTTATTTATATTAATACATATATTCCTGATAGTGAATGTTATAATTTTTATAATCTTTTCTTTTTTCTTTTAAGTATATCGGGATGGTTTATTGGTAAAATTATAATTTCGATTTATTTCAAATAAATATCATATGATATTTATTTAATTTTGTAA
>sequence24
CGGGATAGAAGTTTCGTGGTTCGAAGGAACCGATCTGGAGGTAACGGATTGGCTGCTAAAGGGCGCCGTAGATGTCGGCTTCGTGGTGCTTCCGACCGGAGGACTCGAAGCCGTCCAGCTTTTGGAAGATAAAATGTTCGGGGTTTTTCCAGAAAAGCATCCGCTGTGTTCCAGAAAAAACATAAGCATGAAAGAACTTGTCCTCGAACAGCTTATCACTTTCAAGGGGTCGAGCTGCGGAATACTGGTAACGTCTAATTTAATGAATTCGATAAAGGACGTCGAAGAAATTAAAAATATAGAATCTTTTAAATACAAATCGAAAAAAGCTATTTTAGACCAAATCCTTTATTATAAAACGGATTATTGCGGCGATAAAAAAGATAATTTCAGGCTGATAGCAAAATTTAAAATAATAAATAAATAATAAAAATAAATGACTATAGGACAGTTAGCCAAAAAGACGGGGTTAAATGTACAGACCGTAAGATACTACGAACGGATTGGATTAATAGAAAAACCGGATACTAACGAAGCCGGTTATAGGATATATCCGGAAAAGGCGGCGG
>sequence25
TTTGAATATCCATTAAAACAAAAAATAAAACATATTTAATTTCTTTTATTCTTTTAAATAAAACAGTTTTTATTATAATTAAATAAATTATTAGTATTATATCACGAAAATAAAATCAATATTAAAAAAATACTAGTAATGCGATTTGCATAATTGGGTAAAAAGTAAAAACAAAAACTCCCGGCCGCGTCAACCGCAGTAGGGAGTACGTGCATAAATAAATCTTAATTTTTTATTTATCTTTTCTTTTTTTAAATCTCTATTTTTTTGCCTGTTCTTAATATTTCTAAAGCCGGAGGATAGGTTTCGTTGAAATCTTTTTGGAGGAAAGAATGAGGCTCTATGTCAATGCTTATATTTCTTCTAAGTCTGGTTAGCAATATATCAAAATCATAATTGTCTAAACCGGCAATAAATTTTTCCATTACGACCGCAATATCGATATCGCTCCATTTATCCGCAGTACCTTTTGCATAAGACCCGTAAATATAAACCTCCGCCGGATTGATTTTATTCTTTTTTAATACGTCTATATATTTAAGGATTAAATTATAAACCGTC
>sequence26
ATTCATCAATAAATCCATCTTGATCTTTGAATTTTATATAAAATCCTAATTATCAATATCCATAAAATTGAGAATAATTGTTTTATTTATATAATATTTATTATAATGTAAAGCTTTTTTAAGATAATCTTTAGGTATTTTGTATAAAAATTTAAAATCTAATGATAAAAGATTATCAATATAATGTAAATTTGCATTTAATAATTTTTCAATAGATGTAAATTTTAAATATTTTATATTTTTTATTATTAATTTATGTATAACAAAATAAGGTTCATTTAATAATATTTCAAAAATATCTTTAGGACAATATTTTATAAATATATTATCATAACTAATTAATTCATACCAAAAATCTTTAGAATCTAAATATTTTTGAAAATATTTATTATATTTTTTATTTTTAAATATATTATATCATATTATCTTATTCGTACGTCCTCGCGGGGCGTACCAGCACCAAACCGCTGGTCACTCACTGTCCCAGAGGATCCTCCACACAGACGTAGCGGAAACGAAAAGACGAAGGGAGCTACGACGTCTGAAACACA
>sequence27
CCATATTTTTAATTTTATCATTATTTTATAGCATTGACATAATTTTTGTTTAATTTTTTGCTTGACAGTGAACGATTGTTTACTGTATTATAATATATATCGCGATATATATGCCGTAAATAAATATAGAATATTTCAAATAATTCAATAATTCAAAATTTAAATTTCATCATTATTTAATTTAATTAATTTAATTTTTTCATATTGTTCCGCTATAAATTATAAATATGGATATAAAACTTAAGGGCAGACTTGATTCTATAAAAGGTTTCTATATAAAAAGCGGAAGGATGCCGACTTATTCCGAAATGACGGATTTATTCGGGGTGAAATCAAAAAATGCGGTTTTTAAAATAGTCGGCAAGCTTATAGAAAAAGGTTTTTTAAAAAAAGATTCAAAAGGGTATTTACTGCCTGTTTCCGGTATTTATGCGGATACGGCGGCTATGCTGATGACTAATGCATCCGCTATTTTTGCGGCGGCAGCAGGCGCAGGCGGCGGTCTTATTAAGCTTCTTGGAAGCGTTGA
>sequence28
TTTTCCTTTTATCATAAAATCATAATGAGCCTGAATTGCCGATATATCAGAAAATACGTTAAAAATTTCCTTTAATTTTTCAGTGGTATTCATTTTTTATCAATACTATATCTCTTAAAAGTATATTAAAATATTCAATTTTAAAGATTAATAAAAAAGAAACTAAATAAAAATAAATAAAAAAAATATAAAATTTTATAATTTTTGATCCTTGATTTTTGAATGTGTTCAGATGAATTTTAAATTTTTTTACCTTTCTCTTATTTTTTTTAAAAGTCAAAATGATTTTATAAAACCAAAAGTCAAGACCAAAAAATTTTCAGAAAAAATCGATGAAATGATTTTCATTTTGGTTGAAAAAATGAAAATGGACATAGCAAAAAAGGAACATAAAATACATTTTCAAAATAATTTATTAATCTAATTCAATTCAAAAAATGTGCAAGGATATTTTTAAAATATTATTTTGATTTGATTATTTTTATAAGACATAATAATGATAAAAATTTTTGATTTCTGATACTTGA
>sequence29
TTATACACTTTTATAACTATATTTGTCAATAAAAAAAATCGACCGTTAAAAAAAAAATTAAACGTTATTTTATTTTTTTTGTATATATAAAATTTAATTTATAATACAGAGGTATTGTACAACGGATATTAAAAATATTAAATAATATAAAATATGATTATTGTAATAAAAAATCTGACATCGCACAAAATAACAGACCGGTAAAATGTTGCCGGAACTTATCTTATAACGGCTTTTGCTTTTGTTTGCCTTATGAATGCAATCCAGTTTTTGAACCAGCCGGGAGACGAAGGAGAGTACATATGGGTATAACCGGCCAAAATATTTTTATATGCTATGCCGTCGGAAACGCCGTCCACTCCGTAACCTTTCTTCATCTTAAATACAAATTTATATCTGTCGGGAGACATTTCCAAATAAGAATGATGAAATTCGTGCCCTTTTATTAATTTAATTTTATTGAACCATAAACTTCCGTTCCCTTTACCGTAAGAATATGGGGTTAGCTTAGTGTATCCGTGGCCTT
>sequence30
GCATAGTTTTAACTTATCATATTATAAAAGAAGCCGTAGGCAATAAATACGAAGAATTCGATTTTTTAAAGGGCGGAGAGGAGTATAAACAAAGATTCGGCGCGGTGAAAAGAGAAAATTACAAGCTTTATATATATAATAATAAAATAGTTTTTTATATTTATAAGATTAGTTTGTTTATCGAAAAAGAAGTTATAGAAAAATTAAAAGATTTAGCATTTAAATTTAAAAATTAAAATAAACCCCAAATCCCGATTTAGAAAATATTTATATATTCCAAGTATAAAAACAGAAACAAAAATATTGTTCGGCGCATAAAGGAAATTCTTCGGCGAACCGGAGCGGGGGTGGGCTGCGGTTAAAAATAAACGTATTAAAATAGAAAATAGATATTGATTATATAGTTATTTTATGATAACCTAATAATCAGAATAAGTTATAATTAAAATTACCTGTATTTTTTATGTTGCTTAAAAATGATTTTTCTTAAATCGAAGGTGAAAATAGCTTGAAAAATGGCCGCTTC
>sequence31
ATCTTGTATCATTTTAAGAAGTTTTAATTTAATAAAAGATTTTTACTTATATAAATAATCATAATTACAATACCACCAATGATAATATATGATATTCCTAAAATATATCTATTAAATGTTGGTTTCATTTAATATATAATATAATATTTAAAACTTCTATATTTAAATTTATAAAATGATTATACTATAAAACTTTTTAATTGAATTTATTTACTTCTGCTTATATAAATCATATATGATTTATAAAAGTTTAATTTTGTTATTTCTTCTTTAGATGTATATAATTTAAACATCTATAAAATCGATTAAACCTTTTAAAATTGAATTTTTATTTTTACATTGATATATTTCTTATTTCTTCTTTTATATATTTTCTTCACTTCTTCTTTCATTCTTTCTTCTTTAGATGTATATAATTTAAACATTTATAAAACCAATCAAACATTTTAAAATCTAATTTTTATTTTTATATTGATATATTTCTTATTTAGTTGTATATGATTTAAACATTTATAAAATGTTTAAA
>sequence32
ATTGCCTATGCCAATAAAAGAAACAGACACAAGATATCAGAATTTTATTAATATGTTTCCAGATGCCGAAGGCTGTTATGAACTGGACGCTTTTGACCCTGATGAATTAATGCTGCTTACTGAAAAAACAATTAATAAATATTATATTTCCAAAACTGAAACGACCAATAAAATTAAGCAATGGAATGCGGAATTTAATGTAAAAAGAAATAAAATTATGCAAATTTTTTTAAATAGGCAAGTCTGATTACGAAATATTTTGATAATTTATTCGGGGAGGTAATAACGCAGACATTAAGTTTTAAAACTATCATAAATAAAAAATCAGAAGAAATATAAGGCGACCAAATTAAAAACAAATAAGGCAATGCCTAAAATATTATTAAAATTTAAAACGAACCTATGCGATTAAATTGGGTTAGAAAAATTAATGCTATATCAAAATACTCAGGCAAATATAATATATAAAACATATTAGAAAATTTGAAATATGAAAAACGAAAAAAAGAAAAATAATATTTCTG
>sequence33
TTATGGCATAAAAATAAATATGATGGATATATATGTCGCGAATTAATATCATATAATACTGTTAAGGAAATTATACATTGTACCAGAACAAATAAAGTTATTTCCTTAACTAAATTATTAAATATTGATATATTTGATGCTGTAAAACCAACCAAGGAAATGATTTATATAAATCAAATTATCAAAGTATTTAATAAAGAAAAATATATAACTCAACAAAATATTGGGAAATATAAAATAGATTTATATAATTATAATTTATTTATTTAATTTATTTGTTTAATTAATTATTTAATTTCTTTTAATTTATTTAATAGTTAAATAAATTAAAAGAAAAAAATTAAAATAAAAATTATAAGTTTAAATAAGTTTAAATTTATTATAGCATATATCTTTCAAATATTAAAATCGATAAATAATCATAAATATTGATAAATAATTTTAGTTTACAAAGTAAATTCAATAAATTCAAAGTAAATTTTAGTCGGCAGAAAAAAACATTGCTGCAGTAAAAAAGAAAA
>sequence34
AAATTAACAAACAATGATTTTATATATAGAATTAGAGTAAAAGATTACCGTATTGTATATTCCGTTAGCGAGGATATCTTGACTGTTGAAATTATTAGGGTTAGACATAGAAAAGATATATATAGATAGAAAAAAGATTAAAAAATGAAAACAAATATAATATTAATCGGCTTTATGGGGGCGGGGAAGACGGAAGTCGGGAAGATTCTCGCAAAAAATAAAGGGTTTAATTTTATAGATTTAGACTGCTTAATAGAAAAAAAAGAAGGGGCGGTTATTACGGAAATTTTTAAAAAGAAAGGCGAGAATTATTTCAGAAATCTCGAAACCGAAATTTTAAAGGAATTAGATAAAAATAAATCCGATATATCTAAAATTTTTAAAAAATACACTGATGTAAGTAAAGATAAGGGAAAAGAAAAAGCAGTGAAAACTGTCAACTGCGAAAATTCCATAATGACCGGTAAAGAAAGTAAGAATTGGGTAATTTCTACCGGCGGCGGTATGCCGGCATTTAA
>sequence35
CATGACCTTCTATAATTTTAAAATATTTTTCATCGGTTATTTTGCCTTTATAAGAATTTTCTGAAAAGATATTTTCAATTGCCGTTATATCGTTTATTAGATTTACTACCATAAATTTAATTCCTTAAAGTTAAATATATTTAATATATCGCTGACAAATGAAAGGGTTCCGGATAATAATACAATATCATCGTATGTGGTAAGAGACATAATTTTATTAAAAGCTTCATTTGGCTCTTCAATAATGATAAAATTATTTTTATTCATAAAAGTTTCCATTAGTTTAGAAATTTTTATAAAGTCATAATTTAAATAATTATTATACGTACCAGTTATTACAATAAAGTCTGCAATTCTAGAATATAGCTCTATTATTCCTTTCATATCCTTATCTTCAGGAATAGATATAACAATAAAAATTTTTTTATATTTTTTTTTATATTTTATTGAACTAATCAATGTTAAAAGCTCTTGGGCACCATATTTTGATATTGTTGCATCTAATATAACCATAG
>sequence36
ATATAATAAAATAATAACTATTAAGCCCGCCATAAATAGCCATTATATTATTTAAATCTGTGCCTAAATTTAGGAAATTAAAATTTGAAGTATTTTTTATGGCTGAAAAATTTGCAAATTGATTTATTAAAAAAATATAAATTCCACTGTAAACAGTGGAAAATATAAATAAATTTTTTATATTTAATGATATTTGATTTAATGCGTTCGATATGCCTAGTTCGTCTTTTTCATATTTTTCTAACTCGTTGTTTATTTCTTCAATTTTATTTAAATATGTATTATTCAGACGAAAAACATAATATGATAATTTTAACTTACAAGATTCCCATGGAATATCCACGAAGTCATTAAGAAACTTTAGGACTTCTAAGTTATCCTGAATTTTTGAAAAATTTTTAAGAGAATTATTTAAAGGTTCTATCCAATCTTTAAATAATGGACCATATAATTTATTAACCAATTCCAATTGTTCATTGTATCTTTCCGATATTAAAGCATTATCCGCCT
>sequence37
CTTTCCCGATCGGGACATTCTTGGCCGACTGCCGAGACACAAGCCAAAAACTTTCCCGATCGGGCAATACTGGTCCGTAGGGAGAGATTCGAATTCCCGGCTTCCTGCAGTTTGTGCCTCCCAAAGCAGGTCGTTTGACCACTAACGTACACACGGTTGGTGCCACAGGCCTCGAGTTGAACGGGCAACCGGTCGCTTATATGGCGACTGCTCTACCAGATTGAGCTACTGTGGCGAAATTGGAGCCCCATGCCTCGAATCGAACGGGCGACCTGCTGTTTACAAAACAGCTGCTCTAACCAGCTGAGCTAATGGGGCGGAGTTGCGACGGTCCCGGCGCCGGGTGTATACAGCCACTGTCCCGTCGCAAACAGGGCCGGTCGGACATATTTCCGCAAGCGTCGTCCGACAAACGCATGCGGCCTTGGTGTGCTGTTACGCCAAAGGGGAGGTCGGCCTTACCAGTTACGGGGTACCTTCCTGCTTCCGGTTTGCCCCACCGGCAGG
>sequence38
CTAATTAAATCATCCCAAAAAGAAATATATTTTGAATATTTTTCAATATATTTTTGATAATAATTATATTTTTTATTTGTTAATAATTTTGGATTTTTAGCAATTATAATTACCCATTGATAAGATTCTATTGATTTCAAAATATCTTCTGGTATTTTATTTATATCAAGTTTTAATATACATTGTGATAAAATTTTTAACCAATCATATTCATCTAAATTATCTTTATATTTTAATAATTCATCAAAAAAATCTATATTTTTTATAATTATAGATTTCCAATCAAGTTCTATAGCTATGTAATTATTATAATAATTGATACCTTTTAACTCTATACATAAATTATAATAATAATTTGGATTGTAATTTATTAATTTAACCCAAGAATCTTTATCTAAATATATTAAAATATTTTTTTCCTTTAATATATTTTCAATTTCATGTATATATTCTGGATTTAAACTTATAATATTTATTAATATATAATTAAAATAATTTTCCAAATAA
>sequence39
AAAATTATTTGGTGATTCAAATAAATTATTTTTATATGGATATAAAAAATATACAAATAGTAGTTCTATAATTATACCATCTATATTAGAAGTATTAAAAACTGAAATTAAATATTATGAACTTAATAGTAAAAATTTAATATTAGATTATGCACAAGAATTAAGTACAATAATAAGTAAAATAAATAATTTAGAACATTTTATACAAGGTAATCAAATTCCTAATTCACCAACTTTAATAAAGAAATTAGGTAAAGATATAATTAAATTTTCAATATGTTTATTTGATGAAGAAATAAAAGAAAAAATTAAAGAAGAAGGTAGAGAATTATTTTTAAATTTCATAGGTGAAATGAAAGTATCAAATAAAACATTGTCTAAATTAATTTAAAAATTAAAAAAAGAGATATAAAATTGATTTTTTTTATATCTCCTTTTTTCTTGAACAAATATAAAATATAAAAAAGGAGATATATTTATTAATATAAAATTATTATCAGATA
>sequence40
TCTATATTTCCAGTTCTACAAGCTAATAAAATTGCTTTATCGTTTTCATAATGAATATCAGCTCCAAATTTAATCAAAATATTTATATTTTTAATATATCCTCCATTTTCAACTAATTTTAAAAAAATGTGATTTATATTATCTAAATTTATTATATTATTTAAATTTAAATCTAATAAATTTTTAAAATTTTTTTTAAAAATTTCTATATCATTTTCATTTATATTACTATATCTTTTAAATAAAATTAATAAATTATTAAATAAAATTCGTTAATTTAAATAAAATAAATATATTTTTTTAAAAATAGAAATGTAAAAATTTACAGTCCAAAAATTATCAGTTGTAACAATAGATGTAAAAGAAATTCCATTACTCCCATCATTAATTCCATTACTAATTATATTTGTCACAGAACTACCAAAATTATATGTATTGAATGAAGAGAAATTTGGATTGAGAACTGTTAAGAAAATAAACATCAAAGTCATACAAAGCCAAAT
>sequence41
AAGGATGCATTTAGACACCTTTTAATTTGCAAACTTTACGTTAGTTATTTTTATAATATAACTTTTTATATGATTTTATATTATAAAAAGTATTAAGTCAAGAATAATTTAATAATAAAAAGTTTTGTTGTAAGAAATAAAAAATATACTATTATTTTACTTGACAAATCTAACTTAAAGTTATATAAATATAATTATAAGTTAGATTTATATTGTTGGAATACAATAAAACGTGGGGTTATAAAATAAAATGAAAGATAATTTAATATACGAAGAAATCGGTAAAAAAATAAAAATTGAAAGAAAAAATAGAAAAATTACACAAAAAGAANNNNNNNNNNAAGGATGCATTTAGACACCTTTTAATTTGCAAACTTTACGTTAGTTATTTTTATAATATAACTTTTTATATGATTTTATATTATAAAAAGTATTAAGTCAAGAATAATTTAATAATAAAAAGTTTTGTTGTAAGAAATAAAAAATATACTATTATTTTACT
>sequence42
CCGCAATATTCTATAACCGCTAAATAATTCATTCTACCGTTATATTATCTTATTATCTGCCGTTACCGCATTTTGAAAGTATATATCTTAACGACCTCAAAGACAAACCCAAGGTTTTAGCCGCTTCCAATTTAGAGTTTTCTTTTTTTATACTGTCCGCAACTATATATTTTTCTACTTCTTTTATAAAATCGGCCAGCGTCAATTTTCCATGCCGTTTCTTTAAATTTTCAAAAATTCCGGCTATTTCCGCCATATAATAGTCCATGTTAATATCATCCGTTTTGCGGATATTCGTATCTGGAATATTTTTATAAACCTGCAAAGAAAGATTTTCTTTTCCATCGTGTTTATTTTTTTCTAAAATATAATCCGGCAGGCAGTCTAAAACAATCTCTTTATCTTTATTTAATAAGGGCTCTTCCTCGGTATCCGAACCGCCGCAGTAAATACAAGCTCTTTCTATTATGTTTTCCAGTTCGCGTATATTGCCAGGATAAT